You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.

3750 lines
128 KiB

25 years ago
Remove exception hooks in favor of real C++ exceptions: * include/cln/exception.h: New file... * include/cln/cln.h: ...included here... * include/cln/rational.h: ...and here. * include/cln/abort.h: Removed. * include/cln/integer.h (ash_exception, exquo_exception): Add exception types. * include/cln/float.h (floating_point_exception, floating_point_nan_exception, floating_point_overflow_exception, floating_point_underflow_exception): Likewise. * include/cln/number_io.h (read_number_exception, read_number_bad_syntax_exception, read_number_junk_exception, read_number_eof_exception): Likewise. * include/cln/object.h (CL_DEFINE_CONVERTER): Replace dynamic assertion with a compile-time assertion. * include/cln/GV.h: Replace nonreturning functions with exceptions. * include/cln/modinteger.h: Likewise. * include/cln/SV.h: Likewise. * include/cln/ring.h: Likewise. * include/cln/string.h: Likewise. * include/cln/univpoly.h: Likewise. * src/base/cl_abort.cc: Removed. * src/base/cl_N_err_d0.cc: Removed. * src/base/cl_d0_exception.cc: New file. * src/base/cl_as_err.cc: Removed. * src/base/cl_as_exception.cc: New file. * src/base/cl_notreached.cc: Removed. * src/base/cl_notreached_exception.cc: New file. * src/base/input/cl_read_err_bad.cc: Removed. * src/base/input/cl_read_bad_syntax_exception.cc: New file. * src/base/input/cl_read_err_junk.cc: Removed. * src/base/input/cl_read_junk_exception.cc: New file. * src/base/input/cl_read_err_eof.cc: Removed. * src/base/input/cl_read_eof_exception.cc: New file. * src/base/cl_N.h (cl_as_error): Removed (see cln/exception.h). * src/base/macros.h (NOTREACHED): Throw. * src/base/cl_malloc.cc (xmalloc): Throw. * src/base/digitseq/cl_2DS_div.cc: Throw. * src/base/digitseq/cl_DS_div.cc: Throw. * src/base/digitseq/cl_DS_mul.cc: Throw. * src/base/digitseq/cl_DS_mul_fftc.h: Throw. * src/base/digitseq/cl_DS_mul_fftcs.h: Throw. * src/base/digitseq/cl_DS_mul_fftm.h: Throw. * src/base/digitseq/cl_DS_mul_fftp.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3m.h: Throw. * src/base/digitseq/cl_DS_mul_fftr.h: Throw. * src/base/digitseq/cl_DS_mul_nuss.h: Throw. * src/base/digitseq/cl_DS_recipsqrt.cc: Throw. * src/base/digitseq/cl_DS_sqrt.cc: Throw. * src/base/hash/cl_hash.h: Throw. * src/base/hash/cl_hash1.h: Throw. * src/base/hash/cl_hash1weak.h: Throw. * src/base/hash/cl_hash2.h: Throw. * src/base/hash/cl_hash2weak.h: Throw. * src/base/hash/cl_hashset.h: Throw. * src/base/hash/cl_hashuniq.h: Throw. * src/base/hash/cl_hashuniqweak.h: Throw. * src/base/proplist/cl_pl_add.cc: Throw. * src/base/ring/cl_no_ring.cc: Throw. * src/base/string/cl_spushstring.h: Throw. * src/base/symbol/cl_symbol.cc: Throw. * src/integer/bitwise/cl_I_ash.h: Removed (see cln/integer.h.) * src/integer/bitwise/cl_I_asherr.cc: Removed. * src/integer/bitwise/cl_I_ash_exception.cc: New file. * src/integer/division/cl_I_exquoerr.cc: Removed. * src/integer/division/cl_I_exquo_exception.cc: New file. * src/integer/cl_I.h: Throw. * src/integer/division/cl_I_exquopos.cc: Throw. * src/integer/bitwise/cl_I_logbitp_I.cc: Throw. * src/integer/bitwise/cl_I_ash.cc: Throw. * src/integer/bitwise/cl_I_ash_I.cc: Throw. * src/integer/division/cl_I_exquo.cc: Throw. * src/integer/gcd/cl_I_gcd_aux2.cc: Throw. * src/integer/conv/cl_I_to_L.cc: Throw. * src/integer/conv/cl_I_to_Q.cc: Throw. * src/integer/conv/cl_I_to_UL.cc: Throw. * src/integer/conv/cl_I_to_UQ.cc: Throw. * src/integer/conv/cl_I_to_digits.cc: Throw. * src/integer/elem/cl_I_div.cc: Throw. * src/integer/algebraic/cl_I_sqrt.cc: Throw. * src/integer/input/cl_I_read.cc: Throw. * src/integer/input/cl_I_read_stream.cc: Throw. * src/integer/misc/cl_I_as.cc: Throw. * src/rational/elem/cl_RA_from_I_I_div.cc: Throw. * src/rational/elem/cl_RA_recip.cc: Throw. * src/rational/input/cl_RA_read.cc: Throw. * src/rational/input/cl_RA_read_stream.cc: Throw. * src/rational/input/cl_RA_readparsed.cc: Throw. * src/rational/misc/cl_RA_as.cc: Throw. * src/float/base/cl_F_err_nan.cc: Removed. * src/float/base/cl_F_nan_exception.cc: New file. * src/float/base/cl_F_err_un.cc: Removed. * src/float/base/cl_F_underflow_exception.cc: New file. * src/float/base/cl_F_err_ov.cc: Removed. * src/float/base/cl_F_overflow_exception.cc: New file. * src/float/cl_F.h (cl_error_floating_point_nan, cl_error_floating_point_overflow, cl_error_floating_point_underflow): Removed (see cln/float.h.) * src/float/sfloat/cl_SF.h: Throw. * src/float/sfloat/elem/cl_SF_div.cc: Throw. * src/float/sfloat/elem/cl_SF_from_RA.cc: Throw. * src/float/sfloat/elem/cl_SF_scale.cc: Throw. * src/float/sfloat/elem/cl_SF_scale_I.cc: Throw. * src/float/sfloat/misc/cl_SF_as.cc: Throw. * src/float/ffloat/cl_FF.h: Throw. * src/float/ffloat/conv/cl_FF_from_float.cc: Throw. * src/float/ffloat/elem/cl_FF_div.cc: Throw. * src/float/ffloat/elem/cl_FF_from_RA.cc: Throw. * src/float/ffloat/elem/cl_FF_scale.cc: Throw. * src/float/ffloat/elem/cl_FF_scale_I.cc: Throw. * src/float/ffloat/misc/cl_FF_as.cc: Throw. * src/float/dfloat/cl_DF.h: Throw. * src/float/dfloat/conv/cl_DF_from_double.cc: Throw. * src/float/dfloat/elem/cl_DF_div.cc: Throw. * src/float/dfloat/elem/cl_DF_from_RA.cc: Throw. * src/float/dfloat/elem/cl_DF_scale.cc: Throw. * src/float/dfloat/elem/cl_DF_scale_I.cc: Throw. * src/float/dfloat/misc/cl_DF_as.cc: Throw. * src/float/lfloat/algebraic/cl_LF_sqrt.cc: Throw. * src/float/lfloat/elem/cl_LF_1plus.cc: Throw. * src/float/lfloat/elem/cl_LF_I_div.cc: Throw. * src/float/lfloat/elem/cl_LF_I_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_div.cc: Throw. * src/float/lfloat/elem/cl_LF_from_I.cc: Throw. * src/float/lfloat/elem/cl_LF_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_scale.cc: Throw. * src/float/lfloat/elem/cl_LF_scale_I.cc: Throw. * src/float/lfloat/elem/cl_LF_square.cc: Throw. * src/float/lfloat/misc/cl_LF_as.cc: Throw. * src/float/lfloat/misc/cl_LF_shorten.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenrel.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenwith.cc: Throw. * src/float/input/cl_F_read.cc: Throw. * src/float/input/cl_F_read_stream.cc: Throw. * src/float/misc/cl_F_as.cc: Throw. * src/float/misc/cl_F_shortenrel.cc: Throw. * src/float/transcendental/cl_LF_coshsinh_aux.cc: Throw. * src/float/transcendental/cl_LF_cossin_aux.cc: Throw. * src/float/transcendental/cl_LF_exp_aux.cc: Throw. * src/float/transcendental/cl_LF_ratseries_a.cc: Throw. * src/float/transcendental/cl_LF_ratseries_ab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_b.cc: Throw. * src/float/transcendental/cl_LF_ratseries_p.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_q.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqcd_aux.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd_aux.cc: Throw. * src/float/transcendental/cl_LF_zeta_int.cc: Throw. * src/real/elem/cl_R_div.cc: Throw. * src/real/format-output/cl_fmt_cardinal.cc: Throw. * src/real/format-output/cl_fmt_newroman.cc: Throw. * src/real/format-output/cl_fmt_oldroman.cc: Throw. * src/real/input/cl_R_read.cc: Throw. * src/real/input/cl_R_read_stream.cc: Throw. * src/real/misc/cl_R_as.cc: Throw. * src/real/random/cl_R_random.cc: Throw. * src/real/transcendental/cl_R_atan2.cc: Throw. * src/real/transcendental/cl_R_log.cc: Throw. * src/complex/input/cl_N_read.cc: Throw. * src/complex/input/cl_N_read_stream.cc: Throw. * src/complex/misc/cl_N_as.cc: Throw. * src/complex/transcendental/cl_C_atanh_aux.cc: Throw. * src/complex/transcendental/cl_C_expt_C.cc: Throw. * src/complex/transcendental/cl_C_log.cc: Throw. * src/complex/transcendental/cl_C_log2.cc: Throw. * src/numtheory/cl_nt_cornacchia1.cc: Throw. * src/numtheory/cl_nt_cornacchia4.cc: Throw. * src/numtheory/cl_nt_isprobprime.cc: Throw. * src/numtheory/cl_nt_jacobi.cc: Throw. * src/numtheory/cl_nt_jacobi_low.cc: Throw. * src/numtheory/cl_nt_sqrtmodp.cc: Throw. * src/modinteger/cl_MI.cc: Throw. * src/modinteger/cl_MI_int.h: Throw. * src/modinteger/cl_MI_montgom.h: Throw. * src/modinteger/cl_MI_pow2.h: Throw. * src/modinteger/cl_MI_rshift.cc: Throw. * src/modinteger/cl_MI_std.h: Throw. * src/polynomial/elem/cl_UP_GF2.h: Throw. * src/polynomial/elem/cl_UP_MI.h: Throw. * src/polynomial/elem/cl_UP_gen.h: Throw. * src/polynomial/elem/cl_UP_named.cc: Throw. * src/polynomial/elem/cl_UP_no_ring.cc (uninitialized_error, uninitialized_ring): Removed (see cln/ring.h.) * src/polynomial/elem/cl_UP_number.h: Throw. * src/polynomial/elem/cl_UP_unnamed.cc: Throw. * src/vector/cl_GV_I.cc: Throw. * src/vector/cl_GV_number.cc: Throw. * tests/timediv2adic-compare.cc: Use default abort(), not cl_abort(). * tests/timeprint-compare.cc: Likewise. * tests/timerecip2adic-compare.cc: Likewise. * doc/cln.tex: Document the exception classes. * examples/contfrac.cc: Use try/catch instead of setjmp/longjmp. * INSTALL: undocument -fno-exceptions. * README: Add exceptions to list of used C++ features.
18 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
Remove exception hooks in favor of real C++ exceptions: * include/cln/exception.h: New file... * include/cln/cln.h: ...included here... * include/cln/rational.h: ...and here. * include/cln/abort.h: Removed. * include/cln/integer.h (ash_exception, exquo_exception): Add exception types. * include/cln/float.h (floating_point_exception, floating_point_nan_exception, floating_point_overflow_exception, floating_point_underflow_exception): Likewise. * include/cln/number_io.h (read_number_exception, read_number_bad_syntax_exception, read_number_junk_exception, read_number_eof_exception): Likewise. * include/cln/object.h (CL_DEFINE_CONVERTER): Replace dynamic assertion with a compile-time assertion. * include/cln/GV.h: Replace nonreturning functions with exceptions. * include/cln/modinteger.h: Likewise. * include/cln/SV.h: Likewise. * include/cln/ring.h: Likewise. * include/cln/string.h: Likewise. * include/cln/univpoly.h: Likewise. * src/base/cl_abort.cc: Removed. * src/base/cl_N_err_d0.cc: Removed. * src/base/cl_d0_exception.cc: New file. * src/base/cl_as_err.cc: Removed. * src/base/cl_as_exception.cc: New file. * src/base/cl_notreached.cc: Removed. * src/base/cl_notreached_exception.cc: New file. * src/base/input/cl_read_err_bad.cc: Removed. * src/base/input/cl_read_bad_syntax_exception.cc: New file. * src/base/input/cl_read_err_junk.cc: Removed. * src/base/input/cl_read_junk_exception.cc: New file. * src/base/input/cl_read_err_eof.cc: Removed. * src/base/input/cl_read_eof_exception.cc: New file. * src/base/cl_N.h (cl_as_error): Removed (see cln/exception.h). * src/base/macros.h (NOTREACHED): Throw. * src/base/cl_malloc.cc (xmalloc): Throw. * src/base/digitseq/cl_2DS_div.cc: Throw. * src/base/digitseq/cl_DS_div.cc: Throw. * src/base/digitseq/cl_DS_mul.cc: Throw. * src/base/digitseq/cl_DS_mul_fftc.h: Throw. * src/base/digitseq/cl_DS_mul_fftcs.h: Throw. * src/base/digitseq/cl_DS_mul_fftm.h: Throw. * src/base/digitseq/cl_DS_mul_fftp.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3m.h: Throw. * src/base/digitseq/cl_DS_mul_fftr.h: Throw. * src/base/digitseq/cl_DS_mul_nuss.h: Throw. * src/base/digitseq/cl_DS_recipsqrt.cc: Throw. * src/base/digitseq/cl_DS_sqrt.cc: Throw. * src/base/hash/cl_hash.h: Throw. * src/base/hash/cl_hash1.h: Throw. * src/base/hash/cl_hash1weak.h: Throw. * src/base/hash/cl_hash2.h: Throw. * src/base/hash/cl_hash2weak.h: Throw. * src/base/hash/cl_hashset.h: Throw. * src/base/hash/cl_hashuniq.h: Throw. * src/base/hash/cl_hashuniqweak.h: Throw. * src/base/proplist/cl_pl_add.cc: Throw. * src/base/ring/cl_no_ring.cc: Throw. * src/base/string/cl_spushstring.h: Throw. * src/base/symbol/cl_symbol.cc: Throw. * src/integer/bitwise/cl_I_ash.h: Removed (see cln/integer.h.) * src/integer/bitwise/cl_I_asherr.cc: Removed. * src/integer/bitwise/cl_I_ash_exception.cc: New file. * src/integer/division/cl_I_exquoerr.cc: Removed. * src/integer/division/cl_I_exquo_exception.cc: New file. * src/integer/cl_I.h: Throw. * src/integer/division/cl_I_exquopos.cc: Throw. * src/integer/bitwise/cl_I_logbitp_I.cc: Throw. * src/integer/bitwise/cl_I_ash.cc: Throw. * src/integer/bitwise/cl_I_ash_I.cc: Throw. * src/integer/division/cl_I_exquo.cc: Throw. * src/integer/gcd/cl_I_gcd_aux2.cc: Throw. * src/integer/conv/cl_I_to_L.cc: Throw. * src/integer/conv/cl_I_to_Q.cc: Throw. * src/integer/conv/cl_I_to_UL.cc: Throw. * src/integer/conv/cl_I_to_UQ.cc: Throw. * src/integer/conv/cl_I_to_digits.cc: Throw. * src/integer/elem/cl_I_div.cc: Throw. * src/integer/algebraic/cl_I_sqrt.cc: Throw. * src/integer/input/cl_I_read.cc: Throw. * src/integer/input/cl_I_read_stream.cc: Throw. * src/integer/misc/cl_I_as.cc: Throw. * src/rational/elem/cl_RA_from_I_I_div.cc: Throw. * src/rational/elem/cl_RA_recip.cc: Throw. * src/rational/input/cl_RA_read.cc: Throw. * src/rational/input/cl_RA_read_stream.cc: Throw. * src/rational/input/cl_RA_readparsed.cc: Throw. * src/rational/misc/cl_RA_as.cc: Throw. * src/float/base/cl_F_err_nan.cc: Removed. * src/float/base/cl_F_nan_exception.cc: New file. * src/float/base/cl_F_err_un.cc: Removed. * src/float/base/cl_F_underflow_exception.cc: New file. * src/float/base/cl_F_err_ov.cc: Removed. * src/float/base/cl_F_overflow_exception.cc: New file. * src/float/cl_F.h (cl_error_floating_point_nan, cl_error_floating_point_overflow, cl_error_floating_point_underflow): Removed (see cln/float.h.) * src/float/sfloat/cl_SF.h: Throw. * src/float/sfloat/elem/cl_SF_div.cc: Throw. * src/float/sfloat/elem/cl_SF_from_RA.cc: Throw. * src/float/sfloat/elem/cl_SF_scale.cc: Throw. * src/float/sfloat/elem/cl_SF_scale_I.cc: Throw. * src/float/sfloat/misc/cl_SF_as.cc: Throw. * src/float/ffloat/cl_FF.h: Throw. * src/float/ffloat/conv/cl_FF_from_float.cc: Throw. * src/float/ffloat/elem/cl_FF_div.cc: Throw. * src/float/ffloat/elem/cl_FF_from_RA.cc: Throw. * src/float/ffloat/elem/cl_FF_scale.cc: Throw. * src/float/ffloat/elem/cl_FF_scale_I.cc: Throw. * src/float/ffloat/misc/cl_FF_as.cc: Throw. * src/float/dfloat/cl_DF.h: Throw. * src/float/dfloat/conv/cl_DF_from_double.cc: Throw. * src/float/dfloat/elem/cl_DF_div.cc: Throw. * src/float/dfloat/elem/cl_DF_from_RA.cc: Throw. * src/float/dfloat/elem/cl_DF_scale.cc: Throw. * src/float/dfloat/elem/cl_DF_scale_I.cc: Throw. * src/float/dfloat/misc/cl_DF_as.cc: Throw. * src/float/lfloat/algebraic/cl_LF_sqrt.cc: Throw. * src/float/lfloat/elem/cl_LF_1plus.cc: Throw. * src/float/lfloat/elem/cl_LF_I_div.cc: Throw. * src/float/lfloat/elem/cl_LF_I_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_div.cc: Throw. * src/float/lfloat/elem/cl_LF_from_I.cc: Throw. * src/float/lfloat/elem/cl_LF_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_scale.cc: Throw. * src/float/lfloat/elem/cl_LF_scale_I.cc: Throw. * src/float/lfloat/elem/cl_LF_square.cc: Throw. * src/float/lfloat/misc/cl_LF_as.cc: Throw. * src/float/lfloat/misc/cl_LF_shorten.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenrel.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenwith.cc: Throw. * src/float/input/cl_F_read.cc: Throw. * src/float/input/cl_F_read_stream.cc: Throw. * src/float/misc/cl_F_as.cc: Throw. * src/float/misc/cl_F_shortenrel.cc: Throw. * src/float/transcendental/cl_LF_coshsinh_aux.cc: Throw. * src/float/transcendental/cl_LF_cossin_aux.cc: Throw. * src/float/transcendental/cl_LF_exp_aux.cc: Throw. * src/float/transcendental/cl_LF_ratseries_a.cc: Throw. * src/float/transcendental/cl_LF_ratseries_ab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_b.cc: Throw. * src/float/transcendental/cl_LF_ratseries_p.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_q.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqcd_aux.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd_aux.cc: Throw. * src/float/transcendental/cl_LF_zeta_int.cc: Throw. * src/real/elem/cl_R_div.cc: Throw. * src/real/format-output/cl_fmt_cardinal.cc: Throw. * src/real/format-output/cl_fmt_newroman.cc: Throw. * src/real/format-output/cl_fmt_oldroman.cc: Throw. * src/real/input/cl_R_read.cc: Throw. * src/real/input/cl_R_read_stream.cc: Throw. * src/real/misc/cl_R_as.cc: Throw. * src/real/random/cl_R_random.cc: Throw. * src/real/transcendental/cl_R_atan2.cc: Throw. * src/real/transcendental/cl_R_log.cc: Throw. * src/complex/input/cl_N_read.cc: Throw. * src/complex/input/cl_N_read_stream.cc: Throw. * src/complex/misc/cl_N_as.cc: Throw. * src/complex/transcendental/cl_C_atanh_aux.cc: Throw. * src/complex/transcendental/cl_C_expt_C.cc: Throw. * src/complex/transcendental/cl_C_log.cc: Throw. * src/complex/transcendental/cl_C_log2.cc: Throw. * src/numtheory/cl_nt_cornacchia1.cc: Throw. * src/numtheory/cl_nt_cornacchia4.cc: Throw. * src/numtheory/cl_nt_isprobprime.cc: Throw. * src/numtheory/cl_nt_jacobi.cc: Throw. * src/numtheory/cl_nt_jacobi_low.cc: Throw. * src/numtheory/cl_nt_sqrtmodp.cc: Throw. * src/modinteger/cl_MI.cc: Throw. * src/modinteger/cl_MI_int.h: Throw. * src/modinteger/cl_MI_montgom.h: Throw. * src/modinteger/cl_MI_pow2.h: Throw. * src/modinteger/cl_MI_rshift.cc: Throw. * src/modinteger/cl_MI_std.h: Throw. * src/polynomial/elem/cl_UP_GF2.h: Throw. * src/polynomial/elem/cl_UP_MI.h: Throw. * src/polynomial/elem/cl_UP_gen.h: Throw. * src/polynomial/elem/cl_UP_named.cc: Throw. * src/polynomial/elem/cl_UP_no_ring.cc (uninitialized_error, uninitialized_ring): Removed (see cln/ring.h.) * src/polynomial/elem/cl_UP_number.h: Throw. * src/polynomial/elem/cl_UP_unnamed.cc: Throw. * src/vector/cl_GV_I.cc: Throw. * src/vector/cl_GV_number.cc: Throw. * tests/timediv2adic-compare.cc: Use default abort(), not cl_abort(). * tests/timeprint-compare.cc: Likewise. * tests/timerecip2adic-compare.cc: Likewise. * doc/cln.tex: Document the exception classes. * examples/contfrac.cc: Use try/catch instead of setjmp/longjmp. * INSTALL: undocument -fno-exceptions. * README: Add exceptions to list of used C++ features.
18 years ago
25 years ago
Remove exception hooks in favor of real C++ exceptions: * include/cln/exception.h: New file... * include/cln/cln.h: ...included here... * include/cln/rational.h: ...and here. * include/cln/abort.h: Removed. * include/cln/integer.h (ash_exception, exquo_exception): Add exception types. * include/cln/float.h (floating_point_exception, floating_point_nan_exception, floating_point_overflow_exception, floating_point_underflow_exception): Likewise. * include/cln/number_io.h (read_number_exception, read_number_bad_syntax_exception, read_number_junk_exception, read_number_eof_exception): Likewise. * include/cln/object.h (CL_DEFINE_CONVERTER): Replace dynamic assertion with a compile-time assertion. * include/cln/GV.h: Replace nonreturning functions with exceptions. * include/cln/modinteger.h: Likewise. * include/cln/SV.h: Likewise. * include/cln/ring.h: Likewise. * include/cln/string.h: Likewise. * include/cln/univpoly.h: Likewise. * src/base/cl_abort.cc: Removed. * src/base/cl_N_err_d0.cc: Removed. * src/base/cl_d0_exception.cc: New file. * src/base/cl_as_err.cc: Removed. * src/base/cl_as_exception.cc: New file. * src/base/cl_notreached.cc: Removed. * src/base/cl_notreached_exception.cc: New file. * src/base/input/cl_read_err_bad.cc: Removed. * src/base/input/cl_read_bad_syntax_exception.cc: New file. * src/base/input/cl_read_err_junk.cc: Removed. * src/base/input/cl_read_junk_exception.cc: New file. * src/base/input/cl_read_err_eof.cc: Removed. * src/base/input/cl_read_eof_exception.cc: New file. * src/base/cl_N.h (cl_as_error): Removed (see cln/exception.h). * src/base/macros.h (NOTREACHED): Throw. * src/base/cl_malloc.cc (xmalloc): Throw. * src/base/digitseq/cl_2DS_div.cc: Throw. * src/base/digitseq/cl_DS_div.cc: Throw. * src/base/digitseq/cl_DS_mul.cc: Throw. * src/base/digitseq/cl_DS_mul_fftc.h: Throw. * src/base/digitseq/cl_DS_mul_fftcs.h: Throw. * src/base/digitseq/cl_DS_mul_fftm.h: Throw. * src/base/digitseq/cl_DS_mul_fftp.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3m.h: Throw. * src/base/digitseq/cl_DS_mul_fftr.h: Throw. * src/base/digitseq/cl_DS_mul_nuss.h: Throw. * src/base/digitseq/cl_DS_recipsqrt.cc: Throw. * src/base/digitseq/cl_DS_sqrt.cc: Throw. * src/base/hash/cl_hash.h: Throw. * src/base/hash/cl_hash1.h: Throw. * src/base/hash/cl_hash1weak.h: Throw. * src/base/hash/cl_hash2.h: Throw. * src/base/hash/cl_hash2weak.h: Throw. * src/base/hash/cl_hashset.h: Throw. * src/base/hash/cl_hashuniq.h: Throw. * src/base/hash/cl_hashuniqweak.h: Throw. * src/base/proplist/cl_pl_add.cc: Throw. * src/base/ring/cl_no_ring.cc: Throw. * src/base/string/cl_spushstring.h: Throw. * src/base/symbol/cl_symbol.cc: Throw. * src/integer/bitwise/cl_I_ash.h: Removed (see cln/integer.h.) * src/integer/bitwise/cl_I_asherr.cc: Removed. * src/integer/bitwise/cl_I_ash_exception.cc: New file. * src/integer/division/cl_I_exquoerr.cc: Removed. * src/integer/division/cl_I_exquo_exception.cc: New file. * src/integer/cl_I.h: Throw. * src/integer/division/cl_I_exquopos.cc: Throw. * src/integer/bitwise/cl_I_logbitp_I.cc: Throw. * src/integer/bitwise/cl_I_ash.cc: Throw. * src/integer/bitwise/cl_I_ash_I.cc: Throw. * src/integer/division/cl_I_exquo.cc: Throw. * src/integer/gcd/cl_I_gcd_aux2.cc: Throw. * src/integer/conv/cl_I_to_L.cc: Throw. * src/integer/conv/cl_I_to_Q.cc: Throw. * src/integer/conv/cl_I_to_UL.cc: Throw. * src/integer/conv/cl_I_to_UQ.cc: Throw. * src/integer/conv/cl_I_to_digits.cc: Throw. * src/integer/elem/cl_I_div.cc: Throw. * src/integer/algebraic/cl_I_sqrt.cc: Throw. * src/integer/input/cl_I_read.cc: Throw. * src/integer/input/cl_I_read_stream.cc: Throw. * src/integer/misc/cl_I_as.cc: Throw. * src/rational/elem/cl_RA_from_I_I_div.cc: Throw. * src/rational/elem/cl_RA_recip.cc: Throw. * src/rational/input/cl_RA_read.cc: Throw. * src/rational/input/cl_RA_read_stream.cc: Throw. * src/rational/input/cl_RA_readparsed.cc: Throw. * src/rational/misc/cl_RA_as.cc: Throw. * src/float/base/cl_F_err_nan.cc: Removed. * src/float/base/cl_F_nan_exception.cc: New file. * src/float/base/cl_F_err_un.cc: Removed. * src/float/base/cl_F_underflow_exception.cc: New file. * src/float/base/cl_F_err_ov.cc: Removed. * src/float/base/cl_F_overflow_exception.cc: New file. * src/float/cl_F.h (cl_error_floating_point_nan, cl_error_floating_point_overflow, cl_error_floating_point_underflow): Removed (see cln/float.h.) * src/float/sfloat/cl_SF.h: Throw. * src/float/sfloat/elem/cl_SF_div.cc: Throw. * src/float/sfloat/elem/cl_SF_from_RA.cc: Throw. * src/float/sfloat/elem/cl_SF_scale.cc: Throw. * src/float/sfloat/elem/cl_SF_scale_I.cc: Throw. * src/float/sfloat/misc/cl_SF_as.cc: Throw. * src/float/ffloat/cl_FF.h: Throw. * src/float/ffloat/conv/cl_FF_from_float.cc: Throw. * src/float/ffloat/elem/cl_FF_div.cc: Throw. * src/float/ffloat/elem/cl_FF_from_RA.cc: Throw. * src/float/ffloat/elem/cl_FF_scale.cc: Throw. * src/float/ffloat/elem/cl_FF_scale_I.cc: Throw. * src/float/ffloat/misc/cl_FF_as.cc: Throw. * src/float/dfloat/cl_DF.h: Throw. * src/float/dfloat/conv/cl_DF_from_double.cc: Throw. * src/float/dfloat/elem/cl_DF_div.cc: Throw. * src/float/dfloat/elem/cl_DF_from_RA.cc: Throw. * src/float/dfloat/elem/cl_DF_scale.cc: Throw. * src/float/dfloat/elem/cl_DF_scale_I.cc: Throw. * src/float/dfloat/misc/cl_DF_as.cc: Throw. * src/float/lfloat/algebraic/cl_LF_sqrt.cc: Throw. * src/float/lfloat/elem/cl_LF_1plus.cc: Throw. * src/float/lfloat/elem/cl_LF_I_div.cc: Throw. * src/float/lfloat/elem/cl_LF_I_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_div.cc: Throw. * src/float/lfloat/elem/cl_LF_from_I.cc: Throw. * src/float/lfloat/elem/cl_LF_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_scale.cc: Throw. * src/float/lfloat/elem/cl_LF_scale_I.cc: Throw. * src/float/lfloat/elem/cl_LF_square.cc: Throw. * src/float/lfloat/misc/cl_LF_as.cc: Throw. * src/float/lfloat/misc/cl_LF_shorten.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenrel.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenwith.cc: Throw. * src/float/input/cl_F_read.cc: Throw. * src/float/input/cl_F_read_stream.cc: Throw. * src/float/misc/cl_F_as.cc: Throw. * src/float/misc/cl_F_shortenrel.cc: Throw. * src/float/transcendental/cl_LF_coshsinh_aux.cc: Throw. * src/float/transcendental/cl_LF_cossin_aux.cc: Throw. * src/float/transcendental/cl_LF_exp_aux.cc: Throw. * src/float/transcendental/cl_LF_ratseries_a.cc: Throw. * src/float/transcendental/cl_LF_ratseries_ab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_b.cc: Throw. * src/float/transcendental/cl_LF_ratseries_p.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_q.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqcd_aux.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd_aux.cc: Throw. * src/float/transcendental/cl_LF_zeta_int.cc: Throw. * src/real/elem/cl_R_div.cc: Throw. * src/real/format-output/cl_fmt_cardinal.cc: Throw. * src/real/format-output/cl_fmt_newroman.cc: Throw. * src/real/format-output/cl_fmt_oldroman.cc: Throw. * src/real/input/cl_R_read.cc: Throw. * src/real/input/cl_R_read_stream.cc: Throw. * src/real/misc/cl_R_as.cc: Throw. * src/real/random/cl_R_random.cc: Throw. * src/real/transcendental/cl_R_atan2.cc: Throw. * src/real/transcendental/cl_R_log.cc: Throw. * src/complex/input/cl_N_read.cc: Throw. * src/complex/input/cl_N_read_stream.cc: Throw. * src/complex/misc/cl_N_as.cc: Throw. * src/complex/transcendental/cl_C_atanh_aux.cc: Throw. * src/complex/transcendental/cl_C_expt_C.cc: Throw. * src/complex/transcendental/cl_C_log.cc: Throw. * src/complex/transcendental/cl_C_log2.cc: Throw. * src/numtheory/cl_nt_cornacchia1.cc: Throw. * src/numtheory/cl_nt_cornacchia4.cc: Throw. * src/numtheory/cl_nt_isprobprime.cc: Throw. * src/numtheory/cl_nt_jacobi.cc: Throw. * src/numtheory/cl_nt_jacobi_low.cc: Throw. * src/numtheory/cl_nt_sqrtmodp.cc: Throw. * src/modinteger/cl_MI.cc: Throw. * src/modinteger/cl_MI_int.h: Throw. * src/modinteger/cl_MI_montgom.h: Throw. * src/modinteger/cl_MI_pow2.h: Throw. * src/modinteger/cl_MI_rshift.cc: Throw. * src/modinteger/cl_MI_std.h: Throw. * src/polynomial/elem/cl_UP_GF2.h: Throw. * src/polynomial/elem/cl_UP_MI.h: Throw. * src/polynomial/elem/cl_UP_gen.h: Throw. * src/polynomial/elem/cl_UP_named.cc: Throw. * src/polynomial/elem/cl_UP_no_ring.cc (uninitialized_error, uninitialized_ring): Removed (see cln/ring.h.) * src/polynomial/elem/cl_UP_number.h: Throw. * src/polynomial/elem/cl_UP_unnamed.cc: Throw. * src/vector/cl_GV_I.cc: Throw. * src/vector/cl_GV_number.cc: Throw. * tests/timediv2adic-compare.cc: Use default abort(), not cl_abort(). * tests/timeprint-compare.cc: Likewise. * tests/timerecip2adic-compare.cc: Likewise. * doc/cln.tex: Document the exception classes. * examples/contfrac.cc: Use try/catch instead of setjmp/longjmp. * INSTALL: undocument -fno-exceptions. * README: Add exceptions to list of used C++ features.
18 years ago
25 years ago
25 years ago
Remove exception hooks in favor of real C++ exceptions: * include/cln/exception.h: New file... * include/cln/cln.h: ...included here... * include/cln/rational.h: ...and here. * include/cln/abort.h: Removed. * include/cln/integer.h (ash_exception, exquo_exception): Add exception types. * include/cln/float.h (floating_point_exception, floating_point_nan_exception, floating_point_overflow_exception, floating_point_underflow_exception): Likewise. * include/cln/number_io.h (read_number_exception, read_number_bad_syntax_exception, read_number_junk_exception, read_number_eof_exception): Likewise. * include/cln/object.h (CL_DEFINE_CONVERTER): Replace dynamic assertion with a compile-time assertion. * include/cln/GV.h: Replace nonreturning functions with exceptions. * include/cln/modinteger.h: Likewise. * include/cln/SV.h: Likewise. * include/cln/ring.h: Likewise. * include/cln/string.h: Likewise. * include/cln/univpoly.h: Likewise. * src/base/cl_abort.cc: Removed. * src/base/cl_N_err_d0.cc: Removed. * src/base/cl_d0_exception.cc: New file. * src/base/cl_as_err.cc: Removed. * src/base/cl_as_exception.cc: New file. * src/base/cl_notreached.cc: Removed. * src/base/cl_notreached_exception.cc: New file. * src/base/input/cl_read_err_bad.cc: Removed. * src/base/input/cl_read_bad_syntax_exception.cc: New file. * src/base/input/cl_read_err_junk.cc: Removed. * src/base/input/cl_read_junk_exception.cc: New file. * src/base/input/cl_read_err_eof.cc: Removed. * src/base/input/cl_read_eof_exception.cc: New file. * src/base/cl_N.h (cl_as_error): Removed (see cln/exception.h). * src/base/macros.h (NOTREACHED): Throw. * src/base/cl_malloc.cc (xmalloc): Throw. * src/base/digitseq/cl_2DS_div.cc: Throw. * src/base/digitseq/cl_DS_div.cc: Throw. * src/base/digitseq/cl_DS_mul.cc: Throw. * src/base/digitseq/cl_DS_mul_fftc.h: Throw. * src/base/digitseq/cl_DS_mul_fftcs.h: Throw. * src/base/digitseq/cl_DS_mul_fftm.h: Throw. * src/base/digitseq/cl_DS_mul_fftp.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3m.h: Throw. * src/base/digitseq/cl_DS_mul_fftr.h: Throw. * src/base/digitseq/cl_DS_mul_nuss.h: Throw. * src/base/digitseq/cl_DS_recipsqrt.cc: Throw. * src/base/digitseq/cl_DS_sqrt.cc: Throw. * src/base/hash/cl_hash.h: Throw. * src/base/hash/cl_hash1.h: Throw. * src/base/hash/cl_hash1weak.h: Throw. * src/base/hash/cl_hash2.h: Throw. * src/base/hash/cl_hash2weak.h: Throw. * src/base/hash/cl_hashset.h: Throw. * src/base/hash/cl_hashuniq.h: Throw. * src/base/hash/cl_hashuniqweak.h: Throw. * src/base/proplist/cl_pl_add.cc: Throw. * src/base/ring/cl_no_ring.cc: Throw. * src/base/string/cl_spushstring.h: Throw. * src/base/symbol/cl_symbol.cc: Throw. * src/integer/bitwise/cl_I_ash.h: Removed (see cln/integer.h.) * src/integer/bitwise/cl_I_asherr.cc: Removed. * src/integer/bitwise/cl_I_ash_exception.cc: New file. * src/integer/division/cl_I_exquoerr.cc: Removed. * src/integer/division/cl_I_exquo_exception.cc: New file. * src/integer/cl_I.h: Throw. * src/integer/division/cl_I_exquopos.cc: Throw. * src/integer/bitwise/cl_I_logbitp_I.cc: Throw. * src/integer/bitwise/cl_I_ash.cc: Throw. * src/integer/bitwise/cl_I_ash_I.cc: Throw. * src/integer/division/cl_I_exquo.cc: Throw. * src/integer/gcd/cl_I_gcd_aux2.cc: Throw. * src/integer/conv/cl_I_to_L.cc: Throw. * src/integer/conv/cl_I_to_Q.cc: Throw. * src/integer/conv/cl_I_to_UL.cc: Throw. * src/integer/conv/cl_I_to_UQ.cc: Throw. * src/integer/conv/cl_I_to_digits.cc: Throw. * src/integer/elem/cl_I_div.cc: Throw. * src/integer/algebraic/cl_I_sqrt.cc: Throw. * src/integer/input/cl_I_read.cc: Throw. * src/integer/input/cl_I_read_stream.cc: Throw. * src/integer/misc/cl_I_as.cc: Throw. * src/rational/elem/cl_RA_from_I_I_div.cc: Throw. * src/rational/elem/cl_RA_recip.cc: Throw. * src/rational/input/cl_RA_read.cc: Throw. * src/rational/input/cl_RA_read_stream.cc: Throw. * src/rational/input/cl_RA_readparsed.cc: Throw. * src/rational/misc/cl_RA_as.cc: Throw. * src/float/base/cl_F_err_nan.cc: Removed. * src/float/base/cl_F_nan_exception.cc: New file. * src/float/base/cl_F_err_un.cc: Removed. * src/float/base/cl_F_underflow_exception.cc: New file. * src/float/base/cl_F_err_ov.cc: Removed. * src/float/base/cl_F_overflow_exception.cc: New file. * src/float/cl_F.h (cl_error_floating_point_nan, cl_error_floating_point_overflow, cl_error_floating_point_underflow): Removed (see cln/float.h.) * src/float/sfloat/cl_SF.h: Throw. * src/float/sfloat/elem/cl_SF_div.cc: Throw. * src/float/sfloat/elem/cl_SF_from_RA.cc: Throw. * src/float/sfloat/elem/cl_SF_scale.cc: Throw. * src/float/sfloat/elem/cl_SF_scale_I.cc: Throw. * src/float/sfloat/misc/cl_SF_as.cc: Throw. * src/float/ffloat/cl_FF.h: Throw. * src/float/ffloat/conv/cl_FF_from_float.cc: Throw. * src/float/ffloat/elem/cl_FF_div.cc: Throw. * src/float/ffloat/elem/cl_FF_from_RA.cc: Throw. * src/float/ffloat/elem/cl_FF_scale.cc: Throw. * src/float/ffloat/elem/cl_FF_scale_I.cc: Throw. * src/float/ffloat/misc/cl_FF_as.cc: Throw. * src/float/dfloat/cl_DF.h: Throw. * src/float/dfloat/conv/cl_DF_from_double.cc: Throw. * src/float/dfloat/elem/cl_DF_div.cc: Throw. * src/float/dfloat/elem/cl_DF_from_RA.cc: Throw. * src/float/dfloat/elem/cl_DF_scale.cc: Throw. * src/float/dfloat/elem/cl_DF_scale_I.cc: Throw. * src/float/dfloat/misc/cl_DF_as.cc: Throw. * src/float/lfloat/algebraic/cl_LF_sqrt.cc: Throw. * src/float/lfloat/elem/cl_LF_1plus.cc: Throw. * src/float/lfloat/elem/cl_LF_I_div.cc: Throw. * src/float/lfloat/elem/cl_LF_I_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_div.cc: Throw. * src/float/lfloat/elem/cl_LF_from_I.cc: Throw. * src/float/lfloat/elem/cl_LF_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_scale.cc: Throw. * src/float/lfloat/elem/cl_LF_scale_I.cc: Throw. * src/float/lfloat/elem/cl_LF_square.cc: Throw. * src/float/lfloat/misc/cl_LF_as.cc: Throw. * src/float/lfloat/misc/cl_LF_shorten.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenrel.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenwith.cc: Throw. * src/float/input/cl_F_read.cc: Throw. * src/float/input/cl_F_read_stream.cc: Throw. * src/float/misc/cl_F_as.cc: Throw. * src/float/misc/cl_F_shortenrel.cc: Throw. * src/float/transcendental/cl_LF_coshsinh_aux.cc: Throw. * src/float/transcendental/cl_LF_cossin_aux.cc: Throw. * src/float/transcendental/cl_LF_exp_aux.cc: Throw. * src/float/transcendental/cl_LF_ratseries_a.cc: Throw. * src/float/transcendental/cl_LF_ratseries_ab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_b.cc: Throw. * src/float/transcendental/cl_LF_ratseries_p.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_q.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqcd_aux.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd_aux.cc: Throw. * src/float/transcendental/cl_LF_zeta_int.cc: Throw. * src/real/elem/cl_R_div.cc: Throw. * src/real/format-output/cl_fmt_cardinal.cc: Throw. * src/real/format-output/cl_fmt_newroman.cc: Throw. * src/real/format-output/cl_fmt_oldroman.cc: Throw. * src/real/input/cl_R_read.cc: Throw. * src/real/input/cl_R_read_stream.cc: Throw. * src/real/misc/cl_R_as.cc: Throw. * src/real/random/cl_R_random.cc: Throw. * src/real/transcendental/cl_R_atan2.cc: Throw. * src/real/transcendental/cl_R_log.cc: Throw. * src/complex/input/cl_N_read.cc: Throw. * src/complex/input/cl_N_read_stream.cc: Throw. * src/complex/misc/cl_N_as.cc: Throw. * src/complex/transcendental/cl_C_atanh_aux.cc: Throw. * src/complex/transcendental/cl_C_expt_C.cc: Throw. * src/complex/transcendental/cl_C_log.cc: Throw. * src/complex/transcendental/cl_C_log2.cc: Throw. * src/numtheory/cl_nt_cornacchia1.cc: Throw. * src/numtheory/cl_nt_cornacchia4.cc: Throw. * src/numtheory/cl_nt_isprobprime.cc: Throw. * src/numtheory/cl_nt_jacobi.cc: Throw. * src/numtheory/cl_nt_jacobi_low.cc: Throw. * src/numtheory/cl_nt_sqrtmodp.cc: Throw. * src/modinteger/cl_MI.cc: Throw. * src/modinteger/cl_MI_int.h: Throw. * src/modinteger/cl_MI_montgom.h: Throw. * src/modinteger/cl_MI_pow2.h: Throw. * src/modinteger/cl_MI_rshift.cc: Throw. * src/modinteger/cl_MI_std.h: Throw. * src/polynomial/elem/cl_UP_GF2.h: Throw. * src/polynomial/elem/cl_UP_MI.h: Throw. * src/polynomial/elem/cl_UP_gen.h: Throw. * src/polynomial/elem/cl_UP_named.cc: Throw. * src/polynomial/elem/cl_UP_no_ring.cc (uninitialized_error, uninitialized_ring): Removed (see cln/ring.h.) * src/polynomial/elem/cl_UP_number.h: Throw. * src/polynomial/elem/cl_UP_unnamed.cc: Throw. * src/vector/cl_GV_I.cc: Throw. * src/vector/cl_GV_number.cc: Throw. * tests/timediv2adic-compare.cc: Use default abort(), not cl_abort(). * tests/timeprint-compare.cc: Likewise. * tests/timerecip2adic-compare.cc: Likewise. * doc/cln.tex: Document the exception classes. * examples/contfrac.cc: Use try/catch instead of setjmp/longjmp. * INSTALL: undocument -fno-exceptions. * README: Add exceptions to list of used C++ features.
18 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
Remove exception hooks in favor of real C++ exceptions: * include/cln/exception.h: New file... * include/cln/cln.h: ...included here... * include/cln/rational.h: ...and here. * include/cln/abort.h: Removed. * include/cln/integer.h (ash_exception, exquo_exception): Add exception types. * include/cln/float.h (floating_point_exception, floating_point_nan_exception, floating_point_overflow_exception, floating_point_underflow_exception): Likewise. * include/cln/number_io.h (read_number_exception, read_number_bad_syntax_exception, read_number_junk_exception, read_number_eof_exception): Likewise. * include/cln/object.h (CL_DEFINE_CONVERTER): Replace dynamic assertion with a compile-time assertion. * include/cln/GV.h: Replace nonreturning functions with exceptions. * include/cln/modinteger.h: Likewise. * include/cln/SV.h: Likewise. * include/cln/ring.h: Likewise. * include/cln/string.h: Likewise. * include/cln/univpoly.h: Likewise. * src/base/cl_abort.cc: Removed. * src/base/cl_N_err_d0.cc: Removed. * src/base/cl_d0_exception.cc: New file. * src/base/cl_as_err.cc: Removed. * src/base/cl_as_exception.cc: New file. * src/base/cl_notreached.cc: Removed. * src/base/cl_notreached_exception.cc: New file. * src/base/input/cl_read_err_bad.cc: Removed. * src/base/input/cl_read_bad_syntax_exception.cc: New file. * src/base/input/cl_read_err_junk.cc: Removed. * src/base/input/cl_read_junk_exception.cc: New file. * src/base/input/cl_read_err_eof.cc: Removed. * src/base/input/cl_read_eof_exception.cc: New file. * src/base/cl_N.h (cl_as_error): Removed (see cln/exception.h). * src/base/macros.h (NOTREACHED): Throw. * src/base/cl_malloc.cc (xmalloc): Throw. * src/base/digitseq/cl_2DS_div.cc: Throw. * src/base/digitseq/cl_DS_div.cc: Throw. * src/base/digitseq/cl_DS_mul.cc: Throw. * src/base/digitseq/cl_DS_mul_fftc.h: Throw. * src/base/digitseq/cl_DS_mul_fftcs.h: Throw. * src/base/digitseq/cl_DS_mul_fftm.h: Throw. * src/base/digitseq/cl_DS_mul_fftp.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3m.h: Throw. * src/base/digitseq/cl_DS_mul_fftr.h: Throw. * src/base/digitseq/cl_DS_mul_nuss.h: Throw. * src/base/digitseq/cl_DS_recipsqrt.cc: Throw. * src/base/digitseq/cl_DS_sqrt.cc: Throw. * src/base/hash/cl_hash.h: Throw. * src/base/hash/cl_hash1.h: Throw. * src/base/hash/cl_hash1weak.h: Throw. * src/base/hash/cl_hash2.h: Throw. * src/base/hash/cl_hash2weak.h: Throw. * src/base/hash/cl_hashset.h: Throw. * src/base/hash/cl_hashuniq.h: Throw. * src/base/hash/cl_hashuniqweak.h: Throw. * src/base/proplist/cl_pl_add.cc: Throw. * src/base/ring/cl_no_ring.cc: Throw. * src/base/string/cl_spushstring.h: Throw. * src/base/symbol/cl_symbol.cc: Throw. * src/integer/bitwise/cl_I_ash.h: Removed (see cln/integer.h.) * src/integer/bitwise/cl_I_asherr.cc: Removed. * src/integer/bitwise/cl_I_ash_exception.cc: New file. * src/integer/division/cl_I_exquoerr.cc: Removed. * src/integer/division/cl_I_exquo_exception.cc: New file. * src/integer/cl_I.h: Throw. * src/integer/division/cl_I_exquopos.cc: Throw. * src/integer/bitwise/cl_I_logbitp_I.cc: Throw. * src/integer/bitwise/cl_I_ash.cc: Throw. * src/integer/bitwise/cl_I_ash_I.cc: Throw. * src/integer/division/cl_I_exquo.cc: Throw. * src/integer/gcd/cl_I_gcd_aux2.cc: Throw. * src/integer/conv/cl_I_to_L.cc: Throw. * src/integer/conv/cl_I_to_Q.cc: Throw. * src/integer/conv/cl_I_to_UL.cc: Throw. * src/integer/conv/cl_I_to_UQ.cc: Throw. * src/integer/conv/cl_I_to_digits.cc: Throw. * src/integer/elem/cl_I_div.cc: Throw. * src/integer/algebraic/cl_I_sqrt.cc: Throw. * src/integer/input/cl_I_read.cc: Throw. * src/integer/input/cl_I_read_stream.cc: Throw. * src/integer/misc/cl_I_as.cc: Throw. * src/rational/elem/cl_RA_from_I_I_div.cc: Throw. * src/rational/elem/cl_RA_recip.cc: Throw. * src/rational/input/cl_RA_read.cc: Throw. * src/rational/input/cl_RA_read_stream.cc: Throw. * src/rational/input/cl_RA_readparsed.cc: Throw. * src/rational/misc/cl_RA_as.cc: Throw. * src/float/base/cl_F_err_nan.cc: Removed. * src/float/base/cl_F_nan_exception.cc: New file. * src/float/base/cl_F_err_un.cc: Removed. * src/float/base/cl_F_underflow_exception.cc: New file. * src/float/base/cl_F_err_ov.cc: Removed. * src/float/base/cl_F_overflow_exception.cc: New file. * src/float/cl_F.h (cl_error_floating_point_nan, cl_error_floating_point_overflow, cl_error_floating_point_underflow): Removed (see cln/float.h.) * src/float/sfloat/cl_SF.h: Throw. * src/float/sfloat/elem/cl_SF_div.cc: Throw. * src/float/sfloat/elem/cl_SF_from_RA.cc: Throw. * src/float/sfloat/elem/cl_SF_scale.cc: Throw. * src/float/sfloat/elem/cl_SF_scale_I.cc: Throw. * src/float/sfloat/misc/cl_SF_as.cc: Throw. * src/float/ffloat/cl_FF.h: Throw. * src/float/ffloat/conv/cl_FF_from_float.cc: Throw. * src/float/ffloat/elem/cl_FF_div.cc: Throw. * src/float/ffloat/elem/cl_FF_from_RA.cc: Throw. * src/float/ffloat/elem/cl_FF_scale.cc: Throw. * src/float/ffloat/elem/cl_FF_scale_I.cc: Throw. * src/float/ffloat/misc/cl_FF_as.cc: Throw. * src/float/dfloat/cl_DF.h: Throw. * src/float/dfloat/conv/cl_DF_from_double.cc: Throw. * src/float/dfloat/elem/cl_DF_div.cc: Throw. * src/float/dfloat/elem/cl_DF_from_RA.cc: Throw. * src/float/dfloat/elem/cl_DF_scale.cc: Throw. * src/float/dfloat/elem/cl_DF_scale_I.cc: Throw. * src/float/dfloat/misc/cl_DF_as.cc: Throw. * src/float/lfloat/algebraic/cl_LF_sqrt.cc: Throw. * src/float/lfloat/elem/cl_LF_1plus.cc: Throw. * src/float/lfloat/elem/cl_LF_I_div.cc: Throw. * src/float/lfloat/elem/cl_LF_I_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_div.cc: Throw. * src/float/lfloat/elem/cl_LF_from_I.cc: Throw. * src/float/lfloat/elem/cl_LF_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_scale.cc: Throw. * src/float/lfloat/elem/cl_LF_scale_I.cc: Throw. * src/float/lfloat/elem/cl_LF_square.cc: Throw. * src/float/lfloat/misc/cl_LF_as.cc: Throw. * src/float/lfloat/misc/cl_LF_shorten.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenrel.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenwith.cc: Throw. * src/float/input/cl_F_read.cc: Throw. * src/float/input/cl_F_read_stream.cc: Throw. * src/float/misc/cl_F_as.cc: Throw. * src/float/misc/cl_F_shortenrel.cc: Throw. * src/float/transcendental/cl_LF_coshsinh_aux.cc: Throw. * src/float/transcendental/cl_LF_cossin_aux.cc: Throw. * src/float/transcendental/cl_LF_exp_aux.cc: Throw. * src/float/transcendental/cl_LF_ratseries_a.cc: Throw. * src/float/transcendental/cl_LF_ratseries_ab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_b.cc: Throw. * src/float/transcendental/cl_LF_ratseries_p.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_q.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqcd_aux.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd_aux.cc: Throw. * src/float/transcendental/cl_LF_zeta_int.cc: Throw. * src/real/elem/cl_R_div.cc: Throw. * src/real/format-output/cl_fmt_cardinal.cc: Throw. * src/real/format-output/cl_fmt_newroman.cc: Throw. * src/real/format-output/cl_fmt_oldroman.cc: Throw. * src/real/input/cl_R_read.cc: Throw. * src/real/input/cl_R_read_stream.cc: Throw. * src/real/misc/cl_R_as.cc: Throw. * src/real/random/cl_R_random.cc: Throw. * src/real/transcendental/cl_R_atan2.cc: Throw. * src/real/transcendental/cl_R_log.cc: Throw. * src/complex/input/cl_N_read.cc: Throw. * src/complex/input/cl_N_read_stream.cc: Throw. * src/complex/misc/cl_N_as.cc: Throw. * src/complex/transcendental/cl_C_atanh_aux.cc: Throw. * src/complex/transcendental/cl_C_expt_C.cc: Throw. * src/complex/transcendental/cl_C_log.cc: Throw. * src/complex/transcendental/cl_C_log2.cc: Throw. * src/numtheory/cl_nt_cornacchia1.cc: Throw. * src/numtheory/cl_nt_cornacchia4.cc: Throw. * src/numtheory/cl_nt_isprobprime.cc: Throw. * src/numtheory/cl_nt_jacobi.cc: Throw. * src/numtheory/cl_nt_jacobi_low.cc: Throw. * src/numtheory/cl_nt_sqrtmodp.cc: Throw. * src/modinteger/cl_MI.cc: Throw. * src/modinteger/cl_MI_int.h: Throw. * src/modinteger/cl_MI_montgom.h: Throw. * src/modinteger/cl_MI_pow2.h: Throw. * src/modinteger/cl_MI_rshift.cc: Throw. * src/modinteger/cl_MI_std.h: Throw. * src/polynomial/elem/cl_UP_GF2.h: Throw. * src/polynomial/elem/cl_UP_MI.h: Throw. * src/polynomial/elem/cl_UP_gen.h: Throw. * src/polynomial/elem/cl_UP_named.cc: Throw. * src/polynomial/elem/cl_UP_no_ring.cc (uninitialized_error, uninitialized_ring): Removed (see cln/ring.h.) * src/polynomial/elem/cl_UP_number.h: Throw. * src/polynomial/elem/cl_UP_unnamed.cc: Throw. * src/vector/cl_GV_I.cc: Throw. * src/vector/cl_GV_number.cc: Throw. * tests/timediv2adic-compare.cc: Use default abort(), not cl_abort(). * tests/timeprint-compare.cc: Likewise. * tests/timerecip2adic-compare.cc: Likewise. * doc/cln.tex: Document the exception classes. * examples/contfrac.cc: Use try/catch instead of setjmp/longjmp. * INSTALL: undocument -fno-exceptions. * README: Add exceptions to list of used C++ features.
18 years ago
Remove exception hooks in favor of real C++ exceptions: * include/cln/exception.h: New file... * include/cln/cln.h: ...included here... * include/cln/rational.h: ...and here. * include/cln/abort.h: Removed. * include/cln/integer.h (ash_exception, exquo_exception): Add exception types. * include/cln/float.h (floating_point_exception, floating_point_nan_exception, floating_point_overflow_exception, floating_point_underflow_exception): Likewise. * include/cln/number_io.h (read_number_exception, read_number_bad_syntax_exception, read_number_junk_exception, read_number_eof_exception): Likewise. * include/cln/object.h (CL_DEFINE_CONVERTER): Replace dynamic assertion with a compile-time assertion. * include/cln/GV.h: Replace nonreturning functions with exceptions. * include/cln/modinteger.h: Likewise. * include/cln/SV.h: Likewise. * include/cln/ring.h: Likewise. * include/cln/string.h: Likewise. * include/cln/univpoly.h: Likewise. * src/base/cl_abort.cc: Removed. * src/base/cl_N_err_d0.cc: Removed. * src/base/cl_d0_exception.cc: New file. * src/base/cl_as_err.cc: Removed. * src/base/cl_as_exception.cc: New file. * src/base/cl_notreached.cc: Removed. * src/base/cl_notreached_exception.cc: New file. * src/base/input/cl_read_err_bad.cc: Removed. * src/base/input/cl_read_bad_syntax_exception.cc: New file. * src/base/input/cl_read_err_junk.cc: Removed. * src/base/input/cl_read_junk_exception.cc: New file. * src/base/input/cl_read_err_eof.cc: Removed. * src/base/input/cl_read_eof_exception.cc: New file. * src/base/cl_N.h (cl_as_error): Removed (see cln/exception.h). * src/base/macros.h (NOTREACHED): Throw. * src/base/cl_malloc.cc (xmalloc): Throw. * src/base/digitseq/cl_2DS_div.cc: Throw. * src/base/digitseq/cl_DS_div.cc: Throw. * src/base/digitseq/cl_DS_mul.cc: Throw. * src/base/digitseq/cl_DS_mul_fftc.h: Throw. * src/base/digitseq/cl_DS_mul_fftcs.h: Throw. * src/base/digitseq/cl_DS_mul_fftm.h: Throw. * src/base/digitseq/cl_DS_mul_fftp.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3m.h: Throw. * src/base/digitseq/cl_DS_mul_fftr.h: Throw. * src/base/digitseq/cl_DS_mul_nuss.h: Throw. * src/base/digitseq/cl_DS_recipsqrt.cc: Throw. * src/base/digitseq/cl_DS_sqrt.cc: Throw. * src/base/hash/cl_hash.h: Throw. * src/base/hash/cl_hash1.h: Throw. * src/base/hash/cl_hash1weak.h: Throw. * src/base/hash/cl_hash2.h: Throw. * src/base/hash/cl_hash2weak.h: Throw. * src/base/hash/cl_hashset.h: Throw. * src/base/hash/cl_hashuniq.h: Throw. * src/base/hash/cl_hashuniqweak.h: Throw. * src/base/proplist/cl_pl_add.cc: Throw. * src/base/ring/cl_no_ring.cc: Throw. * src/base/string/cl_spushstring.h: Throw. * src/base/symbol/cl_symbol.cc: Throw. * src/integer/bitwise/cl_I_ash.h: Removed (see cln/integer.h.) * src/integer/bitwise/cl_I_asherr.cc: Removed. * src/integer/bitwise/cl_I_ash_exception.cc: New file. * src/integer/division/cl_I_exquoerr.cc: Removed. * src/integer/division/cl_I_exquo_exception.cc: New file. * src/integer/cl_I.h: Throw. * src/integer/division/cl_I_exquopos.cc: Throw. * src/integer/bitwise/cl_I_logbitp_I.cc: Throw. * src/integer/bitwise/cl_I_ash.cc: Throw. * src/integer/bitwise/cl_I_ash_I.cc: Throw. * src/integer/division/cl_I_exquo.cc: Throw. * src/integer/gcd/cl_I_gcd_aux2.cc: Throw. * src/integer/conv/cl_I_to_L.cc: Throw. * src/integer/conv/cl_I_to_Q.cc: Throw. * src/integer/conv/cl_I_to_UL.cc: Throw. * src/integer/conv/cl_I_to_UQ.cc: Throw. * src/integer/conv/cl_I_to_digits.cc: Throw. * src/integer/elem/cl_I_div.cc: Throw. * src/integer/algebraic/cl_I_sqrt.cc: Throw. * src/integer/input/cl_I_read.cc: Throw. * src/integer/input/cl_I_read_stream.cc: Throw. * src/integer/misc/cl_I_as.cc: Throw. * src/rational/elem/cl_RA_from_I_I_div.cc: Throw. * src/rational/elem/cl_RA_recip.cc: Throw. * src/rational/input/cl_RA_read.cc: Throw. * src/rational/input/cl_RA_read_stream.cc: Throw. * src/rational/input/cl_RA_readparsed.cc: Throw. * src/rational/misc/cl_RA_as.cc: Throw. * src/float/base/cl_F_err_nan.cc: Removed. * src/float/base/cl_F_nan_exception.cc: New file. * src/float/base/cl_F_err_un.cc: Removed. * src/float/base/cl_F_underflow_exception.cc: New file. * src/float/base/cl_F_err_ov.cc: Removed. * src/float/base/cl_F_overflow_exception.cc: New file. * src/float/cl_F.h (cl_error_floating_point_nan, cl_error_floating_point_overflow, cl_error_floating_point_underflow): Removed (see cln/float.h.) * src/float/sfloat/cl_SF.h: Throw. * src/float/sfloat/elem/cl_SF_div.cc: Throw. * src/float/sfloat/elem/cl_SF_from_RA.cc: Throw. * src/float/sfloat/elem/cl_SF_scale.cc: Throw. * src/float/sfloat/elem/cl_SF_scale_I.cc: Throw. * src/float/sfloat/misc/cl_SF_as.cc: Throw. * src/float/ffloat/cl_FF.h: Throw. * src/float/ffloat/conv/cl_FF_from_float.cc: Throw. * src/float/ffloat/elem/cl_FF_div.cc: Throw. * src/float/ffloat/elem/cl_FF_from_RA.cc: Throw. * src/float/ffloat/elem/cl_FF_scale.cc: Throw. * src/float/ffloat/elem/cl_FF_scale_I.cc: Throw. * src/float/ffloat/misc/cl_FF_as.cc: Throw. * src/float/dfloat/cl_DF.h: Throw. * src/float/dfloat/conv/cl_DF_from_double.cc: Throw. * src/float/dfloat/elem/cl_DF_div.cc: Throw. * src/float/dfloat/elem/cl_DF_from_RA.cc: Throw. * src/float/dfloat/elem/cl_DF_scale.cc: Throw. * src/float/dfloat/elem/cl_DF_scale_I.cc: Throw. * src/float/dfloat/misc/cl_DF_as.cc: Throw. * src/float/lfloat/algebraic/cl_LF_sqrt.cc: Throw. * src/float/lfloat/elem/cl_LF_1plus.cc: Throw. * src/float/lfloat/elem/cl_LF_I_div.cc: Throw. * src/float/lfloat/elem/cl_LF_I_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_div.cc: Throw. * src/float/lfloat/elem/cl_LF_from_I.cc: Throw. * src/float/lfloat/elem/cl_LF_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_scale.cc: Throw. * src/float/lfloat/elem/cl_LF_scale_I.cc: Throw. * src/float/lfloat/elem/cl_LF_square.cc: Throw. * src/float/lfloat/misc/cl_LF_as.cc: Throw. * src/float/lfloat/misc/cl_LF_shorten.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenrel.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenwith.cc: Throw. * src/float/input/cl_F_read.cc: Throw. * src/float/input/cl_F_read_stream.cc: Throw. * src/float/misc/cl_F_as.cc: Throw. * src/float/misc/cl_F_shortenrel.cc: Throw. * src/float/transcendental/cl_LF_coshsinh_aux.cc: Throw. * src/float/transcendental/cl_LF_cossin_aux.cc: Throw. * src/float/transcendental/cl_LF_exp_aux.cc: Throw. * src/float/transcendental/cl_LF_ratseries_a.cc: Throw. * src/float/transcendental/cl_LF_ratseries_ab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_b.cc: Throw. * src/float/transcendental/cl_LF_ratseries_p.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_q.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqcd_aux.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd_aux.cc: Throw. * src/float/transcendental/cl_LF_zeta_int.cc: Throw. * src/real/elem/cl_R_div.cc: Throw. * src/real/format-output/cl_fmt_cardinal.cc: Throw. * src/real/format-output/cl_fmt_newroman.cc: Throw. * src/real/format-output/cl_fmt_oldroman.cc: Throw. * src/real/input/cl_R_read.cc: Throw. * src/real/input/cl_R_read_stream.cc: Throw. * src/real/misc/cl_R_as.cc: Throw. * src/real/random/cl_R_random.cc: Throw. * src/real/transcendental/cl_R_atan2.cc: Throw. * src/real/transcendental/cl_R_log.cc: Throw. * src/complex/input/cl_N_read.cc: Throw. * src/complex/input/cl_N_read_stream.cc: Throw. * src/complex/misc/cl_N_as.cc: Throw. * src/complex/transcendental/cl_C_atanh_aux.cc: Throw. * src/complex/transcendental/cl_C_expt_C.cc: Throw. * src/complex/transcendental/cl_C_log.cc: Throw. * src/complex/transcendental/cl_C_log2.cc: Throw. * src/numtheory/cl_nt_cornacchia1.cc: Throw. * src/numtheory/cl_nt_cornacchia4.cc: Throw. * src/numtheory/cl_nt_isprobprime.cc: Throw. * src/numtheory/cl_nt_jacobi.cc: Throw. * src/numtheory/cl_nt_jacobi_low.cc: Throw. * src/numtheory/cl_nt_sqrtmodp.cc: Throw. * src/modinteger/cl_MI.cc: Throw. * src/modinteger/cl_MI_int.h: Throw. * src/modinteger/cl_MI_montgom.h: Throw. * src/modinteger/cl_MI_pow2.h: Throw. * src/modinteger/cl_MI_rshift.cc: Throw. * src/modinteger/cl_MI_std.h: Throw. * src/polynomial/elem/cl_UP_GF2.h: Throw. * src/polynomial/elem/cl_UP_MI.h: Throw. * src/polynomial/elem/cl_UP_gen.h: Throw. * src/polynomial/elem/cl_UP_named.cc: Throw. * src/polynomial/elem/cl_UP_no_ring.cc (uninitialized_error, uninitialized_ring): Removed (see cln/ring.h.) * src/polynomial/elem/cl_UP_number.h: Throw. * src/polynomial/elem/cl_UP_unnamed.cc: Throw. * src/vector/cl_GV_I.cc: Throw. * src/vector/cl_GV_number.cc: Throw. * tests/timediv2adic-compare.cc: Use default abort(), not cl_abort(). * tests/timeprint-compare.cc: Likewise. * tests/timerecip2adic-compare.cc: Likewise. * doc/cln.tex: Document the exception classes. * examples/contfrac.cc: Use try/catch instead of setjmp/longjmp. * INSTALL: undocument -fno-exceptions. * README: Add exceptions to list of used C++ features.
18 years ago
25 years ago
Remove exception hooks in favor of real C++ exceptions: * include/cln/exception.h: New file... * include/cln/cln.h: ...included here... * include/cln/rational.h: ...and here. * include/cln/abort.h: Removed. * include/cln/integer.h (ash_exception, exquo_exception): Add exception types. * include/cln/float.h (floating_point_exception, floating_point_nan_exception, floating_point_overflow_exception, floating_point_underflow_exception): Likewise. * include/cln/number_io.h (read_number_exception, read_number_bad_syntax_exception, read_number_junk_exception, read_number_eof_exception): Likewise. * include/cln/object.h (CL_DEFINE_CONVERTER): Replace dynamic assertion with a compile-time assertion. * include/cln/GV.h: Replace nonreturning functions with exceptions. * include/cln/modinteger.h: Likewise. * include/cln/SV.h: Likewise. * include/cln/ring.h: Likewise. * include/cln/string.h: Likewise. * include/cln/univpoly.h: Likewise. * src/base/cl_abort.cc: Removed. * src/base/cl_N_err_d0.cc: Removed. * src/base/cl_d0_exception.cc: New file. * src/base/cl_as_err.cc: Removed. * src/base/cl_as_exception.cc: New file. * src/base/cl_notreached.cc: Removed. * src/base/cl_notreached_exception.cc: New file. * src/base/input/cl_read_err_bad.cc: Removed. * src/base/input/cl_read_bad_syntax_exception.cc: New file. * src/base/input/cl_read_err_junk.cc: Removed. * src/base/input/cl_read_junk_exception.cc: New file. * src/base/input/cl_read_err_eof.cc: Removed. * src/base/input/cl_read_eof_exception.cc: New file. * src/base/cl_N.h (cl_as_error): Removed (see cln/exception.h). * src/base/macros.h (NOTREACHED): Throw. * src/base/cl_malloc.cc (xmalloc): Throw. * src/base/digitseq/cl_2DS_div.cc: Throw. * src/base/digitseq/cl_DS_div.cc: Throw. * src/base/digitseq/cl_DS_mul.cc: Throw. * src/base/digitseq/cl_DS_mul_fftc.h: Throw. * src/base/digitseq/cl_DS_mul_fftcs.h: Throw. * src/base/digitseq/cl_DS_mul_fftm.h: Throw. * src/base/digitseq/cl_DS_mul_fftp.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3m.h: Throw. * src/base/digitseq/cl_DS_mul_fftr.h: Throw. * src/base/digitseq/cl_DS_mul_nuss.h: Throw. * src/base/digitseq/cl_DS_recipsqrt.cc: Throw. * src/base/digitseq/cl_DS_sqrt.cc: Throw. * src/base/hash/cl_hash.h: Throw. * src/base/hash/cl_hash1.h: Throw. * src/base/hash/cl_hash1weak.h: Throw. * src/base/hash/cl_hash2.h: Throw. * src/base/hash/cl_hash2weak.h: Throw. * src/base/hash/cl_hashset.h: Throw. * src/base/hash/cl_hashuniq.h: Throw. * src/base/hash/cl_hashuniqweak.h: Throw. * src/base/proplist/cl_pl_add.cc: Throw. * src/base/ring/cl_no_ring.cc: Throw. * src/base/string/cl_spushstring.h: Throw. * src/base/symbol/cl_symbol.cc: Throw. * src/integer/bitwise/cl_I_ash.h: Removed (see cln/integer.h.) * src/integer/bitwise/cl_I_asherr.cc: Removed. * src/integer/bitwise/cl_I_ash_exception.cc: New file. * src/integer/division/cl_I_exquoerr.cc: Removed. * src/integer/division/cl_I_exquo_exception.cc: New file. * src/integer/cl_I.h: Throw. * src/integer/division/cl_I_exquopos.cc: Throw. * src/integer/bitwise/cl_I_logbitp_I.cc: Throw. * src/integer/bitwise/cl_I_ash.cc: Throw. * src/integer/bitwise/cl_I_ash_I.cc: Throw. * src/integer/division/cl_I_exquo.cc: Throw. * src/integer/gcd/cl_I_gcd_aux2.cc: Throw. * src/integer/conv/cl_I_to_L.cc: Throw. * src/integer/conv/cl_I_to_Q.cc: Throw. * src/integer/conv/cl_I_to_UL.cc: Throw. * src/integer/conv/cl_I_to_UQ.cc: Throw. * src/integer/conv/cl_I_to_digits.cc: Throw. * src/integer/elem/cl_I_div.cc: Throw. * src/integer/algebraic/cl_I_sqrt.cc: Throw. * src/integer/input/cl_I_read.cc: Throw. * src/integer/input/cl_I_read_stream.cc: Throw. * src/integer/misc/cl_I_as.cc: Throw. * src/rational/elem/cl_RA_from_I_I_div.cc: Throw. * src/rational/elem/cl_RA_recip.cc: Throw. * src/rational/input/cl_RA_read.cc: Throw. * src/rational/input/cl_RA_read_stream.cc: Throw. * src/rational/input/cl_RA_readparsed.cc: Throw. * src/rational/misc/cl_RA_as.cc: Throw. * src/float/base/cl_F_err_nan.cc: Removed. * src/float/base/cl_F_nan_exception.cc: New file. * src/float/base/cl_F_err_un.cc: Removed. * src/float/base/cl_F_underflow_exception.cc: New file. * src/float/base/cl_F_err_ov.cc: Removed. * src/float/base/cl_F_overflow_exception.cc: New file. * src/float/cl_F.h (cl_error_floating_point_nan, cl_error_floating_point_overflow, cl_error_floating_point_underflow): Removed (see cln/float.h.) * src/float/sfloat/cl_SF.h: Throw. * src/float/sfloat/elem/cl_SF_div.cc: Throw. * src/float/sfloat/elem/cl_SF_from_RA.cc: Throw. * src/float/sfloat/elem/cl_SF_scale.cc: Throw. * src/float/sfloat/elem/cl_SF_scale_I.cc: Throw. * src/float/sfloat/misc/cl_SF_as.cc: Throw. * src/float/ffloat/cl_FF.h: Throw. * src/float/ffloat/conv/cl_FF_from_float.cc: Throw. * src/float/ffloat/elem/cl_FF_div.cc: Throw. * src/float/ffloat/elem/cl_FF_from_RA.cc: Throw. * src/float/ffloat/elem/cl_FF_scale.cc: Throw. * src/float/ffloat/elem/cl_FF_scale_I.cc: Throw. * src/float/ffloat/misc/cl_FF_as.cc: Throw. * src/float/dfloat/cl_DF.h: Throw. * src/float/dfloat/conv/cl_DF_from_double.cc: Throw. * src/float/dfloat/elem/cl_DF_div.cc: Throw. * src/float/dfloat/elem/cl_DF_from_RA.cc: Throw. * src/float/dfloat/elem/cl_DF_scale.cc: Throw. * src/float/dfloat/elem/cl_DF_scale_I.cc: Throw. * src/float/dfloat/misc/cl_DF_as.cc: Throw. * src/float/lfloat/algebraic/cl_LF_sqrt.cc: Throw. * src/float/lfloat/elem/cl_LF_1plus.cc: Throw. * src/float/lfloat/elem/cl_LF_I_div.cc: Throw. * src/float/lfloat/elem/cl_LF_I_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_div.cc: Throw. * src/float/lfloat/elem/cl_LF_from_I.cc: Throw. * src/float/lfloat/elem/cl_LF_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_scale.cc: Throw. * src/float/lfloat/elem/cl_LF_scale_I.cc: Throw. * src/float/lfloat/elem/cl_LF_square.cc: Throw. * src/float/lfloat/misc/cl_LF_as.cc: Throw. * src/float/lfloat/misc/cl_LF_shorten.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenrel.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenwith.cc: Throw. * src/float/input/cl_F_read.cc: Throw. * src/float/input/cl_F_read_stream.cc: Throw. * src/float/misc/cl_F_as.cc: Throw. * src/float/misc/cl_F_shortenrel.cc: Throw. * src/float/transcendental/cl_LF_coshsinh_aux.cc: Throw. * src/float/transcendental/cl_LF_cossin_aux.cc: Throw. * src/float/transcendental/cl_LF_exp_aux.cc: Throw. * src/float/transcendental/cl_LF_ratseries_a.cc: Throw. * src/float/transcendental/cl_LF_ratseries_ab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_b.cc: Throw. * src/float/transcendental/cl_LF_ratseries_p.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_q.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqcd_aux.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd_aux.cc: Throw. * src/float/transcendental/cl_LF_zeta_int.cc: Throw. * src/real/elem/cl_R_div.cc: Throw. * src/real/format-output/cl_fmt_cardinal.cc: Throw. * src/real/format-output/cl_fmt_newroman.cc: Throw. * src/real/format-output/cl_fmt_oldroman.cc: Throw. * src/real/input/cl_R_read.cc: Throw. * src/real/input/cl_R_read_stream.cc: Throw. * src/real/misc/cl_R_as.cc: Throw. * src/real/random/cl_R_random.cc: Throw. * src/real/transcendental/cl_R_atan2.cc: Throw. * src/real/transcendental/cl_R_log.cc: Throw. * src/complex/input/cl_N_read.cc: Throw. * src/complex/input/cl_N_read_stream.cc: Throw. * src/complex/misc/cl_N_as.cc: Throw. * src/complex/transcendental/cl_C_atanh_aux.cc: Throw. * src/complex/transcendental/cl_C_expt_C.cc: Throw. * src/complex/transcendental/cl_C_log.cc: Throw. * src/complex/transcendental/cl_C_log2.cc: Throw. * src/numtheory/cl_nt_cornacchia1.cc: Throw. * src/numtheory/cl_nt_cornacchia4.cc: Throw. * src/numtheory/cl_nt_isprobprime.cc: Throw. * src/numtheory/cl_nt_jacobi.cc: Throw. * src/numtheory/cl_nt_jacobi_low.cc: Throw. * src/numtheory/cl_nt_sqrtmodp.cc: Throw. * src/modinteger/cl_MI.cc: Throw. * src/modinteger/cl_MI_int.h: Throw. * src/modinteger/cl_MI_montgom.h: Throw. * src/modinteger/cl_MI_pow2.h: Throw. * src/modinteger/cl_MI_rshift.cc: Throw. * src/modinteger/cl_MI_std.h: Throw. * src/polynomial/elem/cl_UP_GF2.h: Throw. * src/polynomial/elem/cl_UP_MI.h: Throw. * src/polynomial/elem/cl_UP_gen.h: Throw. * src/polynomial/elem/cl_UP_named.cc: Throw. * src/polynomial/elem/cl_UP_no_ring.cc (uninitialized_error, uninitialized_ring): Removed (see cln/ring.h.) * src/polynomial/elem/cl_UP_number.h: Throw. * src/polynomial/elem/cl_UP_unnamed.cc: Throw. * src/vector/cl_GV_I.cc: Throw. * src/vector/cl_GV_number.cc: Throw. * tests/timediv2adic-compare.cc: Use default abort(), not cl_abort(). * tests/timeprint-compare.cc: Likewise. * tests/timerecip2adic-compare.cc: Likewise. * doc/cln.tex: Document the exception classes. * examples/contfrac.cc: Use try/catch instead of setjmp/longjmp. * INSTALL: undocument -fno-exceptions. * README: Add exceptions to list of used C++ features.
18 years ago
25 years ago
25 years ago
25 years ago
Remove exception hooks in favor of real C++ exceptions: * include/cln/exception.h: New file... * include/cln/cln.h: ...included here... * include/cln/rational.h: ...and here. * include/cln/abort.h: Removed. * include/cln/integer.h (ash_exception, exquo_exception): Add exception types. * include/cln/float.h (floating_point_exception, floating_point_nan_exception, floating_point_overflow_exception, floating_point_underflow_exception): Likewise. * include/cln/number_io.h (read_number_exception, read_number_bad_syntax_exception, read_number_junk_exception, read_number_eof_exception): Likewise. * include/cln/object.h (CL_DEFINE_CONVERTER): Replace dynamic assertion with a compile-time assertion. * include/cln/GV.h: Replace nonreturning functions with exceptions. * include/cln/modinteger.h: Likewise. * include/cln/SV.h: Likewise. * include/cln/ring.h: Likewise. * include/cln/string.h: Likewise. * include/cln/univpoly.h: Likewise. * src/base/cl_abort.cc: Removed. * src/base/cl_N_err_d0.cc: Removed. * src/base/cl_d0_exception.cc: New file. * src/base/cl_as_err.cc: Removed. * src/base/cl_as_exception.cc: New file. * src/base/cl_notreached.cc: Removed. * src/base/cl_notreached_exception.cc: New file. * src/base/input/cl_read_err_bad.cc: Removed. * src/base/input/cl_read_bad_syntax_exception.cc: New file. * src/base/input/cl_read_err_junk.cc: Removed. * src/base/input/cl_read_junk_exception.cc: New file. * src/base/input/cl_read_err_eof.cc: Removed. * src/base/input/cl_read_eof_exception.cc: New file. * src/base/cl_N.h (cl_as_error): Removed (see cln/exception.h). * src/base/macros.h (NOTREACHED): Throw. * src/base/cl_malloc.cc (xmalloc): Throw. * src/base/digitseq/cl_2DS_div.cc: Throw. * src/base/digitseq/cl_DS_div.cc: Throw. * src/base/digitseq/cl_DS_mul.cc: Throw. * src/base/digitseq/cl_DS_mul_fftc.h: Throw. * src/base/digitseq/cl_DS_mul_fftcs.h: Throw. * src/base/digitseq/cl_DS_mul_fftm.h: Throw. * src/base/digitseq/cl_DS_mul_fftp.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3m.h: Throw. * src/base/digitseq/cl_DS_mul_fftr.h: Throw. * src/base/digitseq/cl_DS_mul_nuss.h: Throw. * src/base/digitseq/cl_DS_recipsqrt.cc: Throw. * src/base/digitseq/cl_DS_sqrt.cc: Throw. * src/base/hash/cl_hash.h: Throw. * src/base/hash/cl_hash1.h: Throw. * src/base/hash/cl_hash1weak.h: Throw. * src/base/hash/cl_hash2.h: Throw. * src/base/hash/cl_hash2weak.h: Throw. * src/base/hash/cl_hashset.h: Throw. * src/base/hash/cl_hashuniq.h: Throw. * src/base/hash/cl_hashuniqweak.h: Throw. * src/base/proplist/cl_pl_add.cc: Throw. * src/base/ring/cl_no_ring.cc: Throw. * src/base/string/cl_spushstring.h: Throw. * src/base/symbol/cl_symbol.cc: Throw. * src/integer/bitwise/cl_I_ash.h: Removed (see cln/integer.h.) * src/integer/bitwise/cl_I_asherr.cc: Removed. * src/integer/bitwise/cl_I_ash_exception.cc: New file. * src/integer/division/cl_I_exquoerr.cc: Removed. * src/integer/division/cl_I_exquo_exception.cc: New file. * src/integer/cl_I.h: Throw. * src/integer/division/cl_I_exquopos.cc: Throw. * src/integer/bitwise/cl_I_logbitp_I.cc: Throw. * src/integer/bitwise/cl_I_ash.cc: Throw. * src/integer/bitwise/cl_I_ash_I.cc: Throw. * src/integer/division/cl_I_exquo.cc: Throw. * src/integer/gcd/cl_I_gcd_aux2.cc: Throw. * src/integer/conv/cl_I_to_L.cc: Throw. * src/integer/conv/cl_I_to_Q.cc: Throw. * src/integer/conv/cl_I_to_UL.cc: Throw. * src/integer/conv/cl_I_to_UQ.cc: Throw. * src/integer/conv/cl_I_to_digits.cc: Throw. * src/integer/elem/cl_I_div.cc: Throw. * src/integer/algebraic/cl_I_sqrt.cc: Throw. * src/integer/input/cl_I_read.cc: Throw. * src/integer/input/cl_I_read_stream.cc: Throw. * src/integer/misc/cl_I_as.cc: Throw. * src/rational/elem/cl_RA_from_I_I_div.cc: Throw. * src/rational/elem/cl_RA_recip.cc: Throw. * src/rational/input/cl_RA_read.cc: Throw. * src/rational/input/cl_RA_read_stream.cc: Throw. * src/rational/input/cl_RA_readparsed.cc: Throw. * src/rational/misc/cl_RA_as.cc: Throw. * src/float/base/cl_F_err_nan.cc: Removed. * src/float/base/cl_F_nan_exception.cc: New file. * src/float/base/cl_F_err_un.cc: Removed. * src/float/base/cl_F_underflow_exception.cc: New file. * src/float/base/cl_F_err_ov.cc: Removed. * src/float/base/cl_F_overflow_exception.cc: New file. * src/float/cl_F.h (cl_error_floating_point_nan, cl_error_floating_point_overflow, cl_error_floating_point_underflow): Removed (see cln/float.h.) * src/float/sfloat/cl_SF.h: Throw. * src/float/sfloat/elem/cl_SF_div.cc: Throw. * src/float/sfloat/elem/cl_SF_from_RA.cc: Throw. * src/float/sfloat/elem/cl_SF_scale.cc: Throw. * src/float/sfloat/elem/cl_SF_scale_I.cc: Throw. * src/float/sfloat/misc/cl_SF_as.cc: Throw. * src/float/ffloat/cl_FF.h: Throw. * src/float/ffloat/conv/cl_FF_from_float.cc: Throw. * src/float/ffloat/elem/cl_FF_div.cc: Throw. * src/float/ffloat/elem/cl_FF_from_RA.cc: Throw. * src/float/ffloat/elem/cl_FF_scale.cc: Throw. * src/float/ffloat/elem/cl_FF_scale_I.cc: Throw. * src/float/ffloat/misc/cl_FF_as.cc: Throw. * src/float/dfloat/cl_DF.h: Throw. * src/float/dfloat/conv/cl_DF_from_double.cc: Throw. * src/float/dfloat/elem/cl_DF_div.cc: Throw. * src/float/dfloat/elem/cl_DF_from_RA.cc: Throw. * src/float/dfloat/elem/cl_DF_scale.cc: Throw. * src/float/dfloat/elem/cl_DF_scale_I.cc: Throw. * src/float/dfloat/misc/cl_DF_as.cc: Throw. * src/float/lfloat/algebraic/cl_LF_sqrt.cc: Throw. * src/float/lfloat/elem/cl_LF_1plus.cc: Throw. * src/float/lfloat/elem/cl_LF_I_div.cc: Throw. * src/float/lfloat/elem/cl_LF_I_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_div.cc: Throw. * src/float/lfloat/elem/cl_LF_from_I.cc: Throw. * src/float/lfloat/elem/cl_LF_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_scale.cc: Throw. * src/float/lfloat/elem/cl_LF_scale_I.cc: Throw. * src/float/lfloat/elem/cl_LF_square.cc: Throw. * src/float/lfloat/misc/cl_LF_as.cc: Throw. * src/float/lfloat/misc/cl_LF_shorten.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenrel.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenwith.cc: Throw. * src/float/input/cl_F_read.cc: Throw. * src/float/input/cl_F_read_stream.cc: Throw. * src/float/misc/cl_F_as.cc: Throw. * src/float/misc/cl_F_shortenrel.cc: Throw. * src/float/transcendental/cl_LF_coshsinh_aux.cc: Throw. * src/float/transcendental/cl_LF_cossin_aux.cc: Throw. * src/float/transcendental/cl_LF_exp_aux.cc: Throw. * src/float/transcendental/cl_LF_ratseries_a.cc: Throw. * src/float/transcendental/cl_LF_ratseries_ab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_b.cc: Throw. * src/float/transcendental/cl_LF_ratseries_p.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_q.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqcd_aux.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd_aux.cc: Throw. * src/float/transcendental/cl_LF_zeta_int.cc: Throw. * src/real/elem/cl_R_div.cc: Throw. * src/real/format-output/cl_fmt_cardinal.cc: Throw. * src/real/format-output/cl_fmt_newroman.cc: Throw. * src/real/format-output/cl_fmt_oldroman.cc: Throw. * src/real/input/cl_R_read.cc: Throw. * src/real/input/cl_R_read_stream.cc: Throw. * src/real/misc/cl_R_as.cc: Throw. * src/real/random/cl_R_random.cc: Throw. * src/real/transcendental/cl_R_atan2.cc: Throw. * src/real/transcendental/cl_R_log.cc: Throw. * src/complex/input/cl_N_read.cc: Throw. * src/complex/input/cl_N_read_stream.cc: Throw. * src/complex/misc/cl_N_as.cc: Throw. * src/complex/transcendental/cl_C_atanh_aux.cc: Throw. * src/complex/transcendental/cl_C_expt_C.cc: Throw. * src/complex/transcendental/cl_C_log.cc: Throw. * src/complex/transcendental/cl_C_log2.cc: Throw. * src/numtheory/cl_nt_cornacchia1.cc: Throw. * src/numtheory/cl_nt_cornacchia4.cc: Throw. * src/numtheory/cl_nt_isprobprime.cc: Throw. * src/numtheory/cl_nt_jacobi.cc: Throw. * src/numtheory/cl_nt_jacobi_low.cc: Throw. * src/numtheory/cl_nt_sqrtmodp.cc: Throw. * src/modinteger/cl_MI.cc: Throw. * src/modinteger/cl_MI_int.h: Throw. * src/modinteger/cl_MI_montgom.h: Throw. * src/modinteger/cl_MI_pow2.h: Throw. * src/modinteger/cl_MI_rshift.cc: Throw. * src/modinteger/cl_MI_std.h: Throw. * src/polynomial/elem/cl_UP_GF2.h: Throw. * src/polynomial/elem/cl_UP_MI.h: Throw. * src/polynomial/elem/cl_UP_gen.h: Throw. * src/polynomial/elem/cl_UP_named.cc: Throw. * src/polynomial/elem/cl_UP_no_ring.cc (uninitialized_error, uninitialized_ring): Removed (see cln/ring.h.) * src/polynomial/elem/cl_UP_number.h: Throw. * src/polynomial/elem/cl_UP_unnamed.cc: Throw. * src/vector/cl_GV_I.cc: Throw. * src/vector/cl_GV_number.cc: Throw. * tests/timediv2adic-compare.cc: Use default abort(), not cl_abort(). * tests/timeprint-compare.cc: Likewise. * tests/timerecip2adic-compare.cc: Likewise. * doc/cln.tex: Document the exception classes. * examples/contfrac.cc: Use try/catch instead of setjmp/longjmp. * INSTALL: undocument -fno-exceptions. * README: Add exceptions to list of used C++ features.
18 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
2006-04-25 Bruno Haible <bruno@clisp.org> Richard B. Kreckel <kreckel@ginac.de> Make it theoretically possible to use bignums and long-floats with more than 2^32 significant digits or bits. * doc/cln.tex (logcount): Change return type to uintC. (struct cl_byte): Change elements to uintC. (integer_length, ord2, power2p): Change return type to uintC. (scale_float): Change argument type to sintC. (float_digits, float_precision): Change return type to uintC. * examples/atan_recip.cc: Use uintC instead of uintL where appropriate. * examples/atanh_recip.cc: Likewise. * include/cln/GV.h: Likewise. * include/cln/GV_complex.h: Likewise. * include/cln/GV_integer.h: Likewise. * include/cln/GV_modinteger.h: Likewise. * include/cln/GV_number.h: Likewise. * include/cln/GV_rational.h: Likewise. * include/cln/GV_real.h: Likewise. * include/cln/SV.h: Likewise. * include/cln/SV_complex.h: Likewise. * include/cln/SV_integer.h: Likewise. * include/cln/SV_number.h: Likewise. * include/cln/SV_rational.h: Likewise. * include/cln/SV_real.h: Likewise. * include/cln/SV_ringelt.h: Likewise. * include/cln/dfloat.h: Likewise. * include/cln/ffloat.h: Likewise. * include/cln/float.h: Likewise. * include/cln/integer.h: Likewise. * include/cln/lfloat.h: Likewise. * include/cln/modinteger.h: Likewise. * include/cln/sfloat.h: Likewise. * src/base/cl_low.h (integerlengthC): New macro. * src/base/digitseq/cl_2DS_div.cc: Use uintC instead of uintL where appropriate. * src/base/digitseq/cl_2DS_recip.cc: Likewise. * src/base/digitseq/cl_DS.h: Likewise. * src/base/digitseq/cl_DS_mul.c: Likewise. * src/base/digitseq/cl_DS_mul_fftc.h: Likewise. * src/base/digitseq/cl_DS_mul_fftcs.h: Likewise. * src/base/digitseq/cl_DS_mul_fftm.h: Likewise. * src/base/digitseq/cl_DS_mul_fftp.h: Likewise. * src/base/digitseq/cl_DS_mul_fftp3.h: Likewise. * src/base/digitseq/cl_DS_mul_fftp3m.h: Likewise. * src/base/digitseq/cl_DS_mul_fftr.h: Likewise. * src/base/digitseq/cl_DS_mul_kara.h: Likewise. * src/base/digitseq/cl_DS_mul_nuss.h: Likewise. * src/base/digitseq/cl_DS_recip.cc: Likewise. * src/base/digitseq/cl_DS_recipsqrt.cc: Likewise. * src/base/digitseq/cl_DS_sqrt.cc: Likewise. * src/base/digitseq/cl_DS_trandom.cc: Likewise. * src/complex/input/cl_N_read.cc: Likewise. * src/complex/transcendental/cl_C_asinh_aux.cc: Likewise. * src/complex/transcendental/cl_C_expt_C.cc: Likewise. * src/float/cl_F.h: Likewise. * src/float/conv/cl_F_from_F_f.cc: Likewise. * src/float/conv/cl_F_from_I_f.cc: Likewise. * src/float/conv/cl_F_from_RA_f.cc: Likewise. * src/float/dfloat/conv/cl_I_to_double.cc: Likewise. * src/float/dfloat/conv/cl_RA_to_double.cc: Likewise. * src/float/dfloat/elem/cl_DF_from_I.cc: Likewise. * src/float/dfloat/elem/cl_DF_from_RA.cc: Likewise. * src/float/dfloat/elem/cl_DF_scale.cc: Likewise. * src/float/dfloat/misc/cl_DF_digits.cc: Likewise. * src/float/dfloat/misc/cl_DF_precision.cc: Likewise. * src/float/elem/cl_F_scale.cc: Likewise. * src/float/ffloat/conv/cl_I_to_float.cc: Likewise. * src/float/ffloat/conv/cl_RA_to_float.cc: Likewise. * src/float/ffloat/elem/cl_FF_from_I.cc: Likewise. * src/float/ffloat/elem/cl_FF_from_RA.cc: Likewise. * src/float/ffloat/elem/cl_FF_scale.cc: Likewise. * src/float/ffloat/misc/cl_FF_digits.cc: Likewise. * src/float/ffloat/misc/cl_FF_precision.cc: Likewise. * src/float/input/cl_F_read.cc: Likewise. * src/float/lfloat/algebraic/cl_LF_sqrt.cc: Likewise. * src/float/lfloat/elem/cl_LF_1plus.cc: Likewise. * src/float/lfloat/elem/cl_LF_I_div.cc: Likewise. * src/float/lfloat/elem/cl_LF_I_mul.cc: Likewise. * src/float/lfloat/elem/cl_LF_div.cc: Likewise. * src/float/lfloat/elem/cl_LF_from_I.cc: Likewise. * src/float/lfloat/elem/cl_LF_from_RA.cc: Likewise. * src/float/lfloat/elem/cl_LF_fround.cc: Likewise. * src/float/lfloat/elem/cl_LF_ftrunc.cc: Likewise. * src/float/lfloat/elem/cl_LF_futrunc.cc: Likewise. * src/float/lfloat/elem/cl_LF_scale.cc: Likewise. * src/float/lfloat/elem/cl_LF_to_I.cc: Likewise. * src/float/lfloat/misc/cl_LF_digits.cc: Likewise. * src/float/lfloat/misc/cl_LF_idecode.cc: Likewise. * src/float/lfloat/misc/cl_LF_leninc.cc: Likewise. * src/float/lfloat/misc/cl_LF_lenincx.cc: Likewise. * src/float/lfloat/misc/cl_LF_precision.cc: Likewise. * src/float/lfloat/misc/cl_LF_shortenrel.cc: Likewise. * src/float/lfloat/misc/cl_LF_shortenwith.cc: Likewise. * src/float/misc/cl_F_digits.cc: Likewise. * src/float/misc/cl_F_epsneg.cc: Likewise. * src/float/misc/cl_F_epspos.cc: Likewise. * src/float/misc/cl_F_leastneg.cc: Likewise. * src/float/misc/cl_F_leastpos.cc: Likewise. * src/float/misc/cl_F_mostneg.cc: Likewise. * src/float/misc/cl_F_mostpos.cc: Likewise. * src/float/misc/cl_F_precision.cc: Likewise. * src/float/misc/cl_F_rational.cc: Likewise. * src/float/misc/cl_F_shortenrel.cc: Likewise. * src/float/output/cl_F_dprint.cc: Likewise. * src/float/random/cl_F_random.cc: Likewise. * src/float/sfloat/elem/cl_SF_from_I.cc: Likewise. * src/float/sfloat/elem/cl_SF_from_RA.cc: Likewise. * src/float/sfloat/elem/cl_SF_scale.cc: Likewise. * src/float/sfloat/misc/cl_SF_digits.cc: Likewise. * src/float/sfloat/misc/cl_SF_precision.cc: Likewise. * src/float/transcendental/cl_F_atanhx.cc: Likewise. * src/float/transcendental/cl_F_atanx.cc: Likewise. * src/float/transcendental/cl_F_catalanconst_f.cc: Likewise. * src/float/transcendental/cl_F_cos.cc: Likewise. * src/float/transcendental/cl_F_cosh.cc: Likewise. * src/float/transcendental/cl_F_coshsinh.cc: Likewise. * src/float/transcendental/cl_F_cossin.cc: Likewise. * src/float/transcendental/cl_F_eulerconst_f.cc: Likewise. * src/float/transcendental/cl_F_exp1_f.cc: Likewise. * src/float/transcendental/cl_F_expx.cc: Likewise. * src/float/transcendental/cl_F_ln10_f.cc: Likewise. * src/float/transcendental/cl_F_ln2_f.cc: Likewise. * src/float/transcendental/cl_F_lnx.cc: Likewise. * src/float/transcendental/cl_F_pi_f.cc: Likewise. * src/float/transcendental/cl_F_sin.cc: Likewise. * src/float/transcendental/cl_F_sinh.cc: Likewise. * src/float/transcendental/cl_F_sinhx.cc: Likewise. * src/float/transcendental/cl_F_sinx.cc: Likewise. * src/float/transcendental/cl_F_tran.h: Likewise. * src/float/transcendental/cl_F_zeta_int_f.cc: Likewise. * src/float/transcendental/cl_LF_atan_recip.cc: Likewise. * src/float/transcendental/cl_LF_atanh_recip.cc: Likewise. * src/float/transcendental/cl_LF_catalanconst.cc: Likewise. * src/float/transcendental/cl_LF_coshsinh_aux.cc: Likewise. * src/float/transcendental/cl_LF_cossin_aux.cc: Likewise. * src/float/transcendental/cl_LF_eulerconst.cc: Likewise. * src/float/transcendental/cl_LF_exp1.cc: Likewise. * src/float/transcendental/cl_LF_exp_aux.cc: Likewise. * src/float/transcendental/cl_LF_pi.cc: Likewise. * src/float/transcendental/cl_LF_ratseries.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_a.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_ab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_b.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_p.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pa.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pb.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pq.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pqa.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pqab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pqb.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_q.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_qa.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_qab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_qb.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_stream_pq.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_stream_pqa.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_stream_pqab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_stream_pqb.cc: Likewise. * src/float/transcendental/cl_LF_ratsumseries_pqcd.cc: Likewise. * src/float/transcendental/cl_LF_ratsumseries_pqcd_aux.cc: Likewise. * src/float/transcendental/cl_LF_ratsumseries_pqd.cc: Likewise. * src/float/transcendental/cl_LF_ratsumseries_pqd_aux.cc: Likewise. * src/float/transcendental/cl_LF_tran.h: Likewise. * src/float/transcendental/cl_LF_zeta3.cc: Likewise. * src/float/transcendental/cl_LF_zeta_int.cc: Likewise. * src/integer/algebraic/cl_I_rootp_I.cc: Likewise. * src/integer/algebraic/cl_I_rootp_aux.cc: Likewise. * src/integer/bitwise/cl_I_ash.cc: Likewise. * src/integer/bitwise/cl_I_ash_I.cc: Likewise. * src/integer/bitwise/cl_I_byte.h: Likewise. * src/integer/bitwise/cl_I_fullbyte.cc: Likewise. * src/integer/bitwise/cl_I_ilength.cc: Likewise. * src/integer/bitwise/cl_I_ldb.cc: Likewise. * src/integer/bitwise/cl_I_ldbtest.cc: Likewise. * src/integer/bitwise/cl_I_ldbx.cc: Likewise. * src/integer/bitwise/cl_I_ldbxtest.cc: Likewise. * src/integer/bitwise/cl_I_logbitp.cc: Likewise. * src/integer/bitwise/cl_I_logbitp_I.cc: Likewise. * src/integer/bitwise/cl_I_logcount.cc: Likewise. * src/integer/bitwise/cl_I_mkf.cc: Likewise. * src/integer/bitwise/cl_I_mkfx.cc: Likewise. * src/integer/cl_I.h: Likewise. * src/integer/conv/cl_I_to_digits.cc: Likewise. * src/integer/conv/cl_I_digits_need.cc: Likewise. * src/integer/conv/cl_I_from_digits.cc: Likewise. * src/integer/gcd/cl_I_gcd.cc: Likewise. * src/integer/gcd/cl_I_xgcd.cc: Likewise. * src/integer/misc/cl_I_eqhashcode.cc: Likewise. * src/integer/misc/cl_I_ord2.cc: Likewise. * src/integer/misc/cl_I_power2p.cc: Likewise. * src/integer/output/cl_I_cached_power.h (cached_power_table): allow for 40 elements. * src/integer/output/cl_I_decstring.cc: Use uintC instead of uintL where appropriate. * src/integer/output/cl_I_print.cc: Likewise. * src/integer/output/cl_I_print_string.cc: Likewise. * src/modinteger/cl_MI.cc: Likewise. * src/modinteger/cl_MI_lshift.cc: Likewise. * src/modinteger/cl_MI_montgom.h: Likewise. * src/modinteger/cl_MI_pow2.h: Likewise. * src/modinteger/cl_MI_pow2m1.h: Likewise. * src/modinteger/cl_MI_pow2p1.h: Likewise. * src/modinteger/cl_MI_rshift.cc: Likewise. * src/modinteger/cl_MI_std.h: Likewise. * src/numtheory/cl_IF_millerrabin.cc: Likewise. * src/numtheory/cl_nt_isprobprime.cc: Likewise. * src/numtheory/cl_nt_sqrtmodp.cc: Likewise. * src/polynomial/elem/cl_UP_GF2.h: Likewise. * src/real/conv/cl_F_from_R_f.cc: Likewise. * src/real/format-output/cl_fmt_floatstring.cc: Likewise. * src/real/input/cl_R_read.cc: Likewise. * src/vector/cl_GV_I.cc: Likewise. * src/vector/cl_GV_I_copy.cc: Likewise. * src/vector/cl_GV_number.cc: Likewise. * src/vector/cl_GV_number_copy.cc: Likewise. * src/vector/cl_SV_copy.cc: Likewise. * src/vector/cl_SV_number.cc: Likewise. * src/vector/cl_SV_ringelt.cc: Likewise. * tests/main.cc: Likewise. * tests/test_I_ilength.cc: Likewise. * tests/test_I_ord2.cc: Likewise.
19 years ago
25 years ago
2006-04-25 Bruno Haible <bruno@clisp.org> Richard B. Kreckel <kreckel@ginac.de> Make it theoretically possible to use bignums and long-floats with more than 2^32 significant digits or bits. * doc/cln.tex (logcount): Change return type to uintC. (struct cl_byte): Change elements to uintC. (integer_length, ord2, power2p): Change return type to uintC. (scale_float): Change argument type to sintC. (float_digits, float_precision): Change return type to uintC. * examples/atan_recip.cc: Use uintC instead of uintL where appropriate. * examples/atanh_recip.cc: Likewise. * include/cln/GV.h: Likewise. * include/cln/GV_complex.h: Likewise. * include/cln/GV_integer.h: Likewise. * include/cln/GV_modinteger.h: Likewise. * include/cln/GV_number.h: Likewise. * include/cln/GV_rational.h: Likewise. * include/cln/GV_real.h: Likewise. * include/cln/SV.h: Likewise. * include/cln/SV_complex.h: Likewise. * include/cln/SV_integer.h: Likewise. * include/cln/SV_number.h: Likewise. * include/cln/SV_rational.h: Likewise. * include/cln/SV_real.h: Likewise. * include/cln/SV_ringelt.h: Likewise. * include/cln/dfloat.h: Likewise. * include/cln/ffloat.h: Likewise. * include/cln/float.h: Likewise. * include/cln/integer.h: Likewise. * include/cln/lfloat.h: Likewise. * include/cln/modinteger.h: Likewise. * include/cln/sfloat.h: Likewise. * src/base/cl_low.h (integerlengthC): New macro. * src/base/digitseq/cl_2DS_div.cc: Use uintC instead of uintL where appropriate. * src/base/digitseq/cl_2DS_recip.cc: Likewise. * src/base/digitseq/cl_DS.h: Likewise. * src/base/digitseq/cl_DS_mul.c: Likewise. * src/base/digitseq/cl_DS_mul_fftc.h: Likewise. * src/base/digitseq/cl_DS_mul_fftcs.h: Likewise. * src/base/digitseq/cl_DS_mul_fftm.h: Likewise. * src/base/digitseq/cl_DS_mul_fftp.h: Likewise. * src/base/digitseq/cl_DS_mul_fftp3.h: Likewise. * src/base/digitseq/cl_DS_mul_fftp3m.h: Likewise. * src/base/digitseq/cl_DS_mul_fftr.h: Likewise. * src/base/digitseq/cl_DS_mul_kara.h: Likewise. * src/base/digitseq/cl_DS_mul_nuss.h: Likewise. * src/base/digitseq/cl_DS_recip.cc: Likewise. * src/base/digitseq/cl_DS_recipsqrt.cc: Likewise. * src/base/digitseq/cl_DS_sqrt.cc: Likewise. * src/base/digitseq/cl_DS_trandom.cc: Likewise. * src/complex/input/cl_N_read.cc: Likewise. * src/complex/transcendental/cl_C_asinh_aux.cc: Likewise. * src/complex/transcendental/cl_C_expt_C.cc: Likewise. * src/float/cl_F.h: Likewise. * src/float/conv/cl_F_from_F_f.cc: Likewise. * src/float/conv/cl_F_from_I_f.cc: Likewise. * src/float/conv/cl_F_from_RA_f.cc: Likewise. * src/float/dfloat/conv/cl_I_to_double.cc: Likewise. * src/float/dfloat/conv/cl_RA_to_double.cc: Likewise. * src/float/dfloat/elem/cl_DF_from_I.cc: Likewise. * src/float/dfloat/elem/cl_DF_from_RA.cc: Likewise. * src/float/dfloat/elem/cl_DF_scale.cc: Likewise. * src/float/dfloat/misc/cl_DF_digits.cc: Likewise. * src/float/dfloat/misc/cl_DF_precision.cc: Likewise. * src/float/elem/cl_F_scale.cc: Likewise. * src/float/ffloat/conv/cl_I_to_float.cc: Likewise. * src/float/ffloat/conv/cl_RA_to_float.cc: Likewise. * src/float/ffloat/elem/cl_FF_from_I.cc: Likewise. * src/float/ffloat/elem/cl_FF_from_RA.cc: Likewise. * src/float/ffloat/elem/cl_FF_scale.cc: Likewise. * src/float/ffloat/misc/cl_FF_digits.cc: Likewise. * src/float/ffloat/misc/cl_FF_precision.cc: Likewise. * src/float/input/cl_F_read.cc: Likewise. * src/float/lfloat/algebraic/cl_LF_sqrt.cc: Likewise. * src/float/lfloat/elem/cl_LF_1plus.cc: Likewise. * src/float/lfloat/elem/cl_LF_I_div.cc: Likewise. * src/float/lfloat/elem/cl_LF_I_mul.cc: Likewise. * src/float/lfloat/elem/cl_LF_div.cc: Likewise. * src/float/lfloat/elem/cl_LF_from_I.cc: Likewise. * src/float/lfloat/elem/cl_LF_from_RA.cc: Likewise. * src/float/lfloat/elem/cl_LF_fround.cc: Likewise. * src/float/lfloat/elem/cl_LF_ftrunc.cc: Likewise. * src/float/lfloat/elem/cl_LF_futrunc.cc: Likewise. * src/float/lfloat/elem/cl_LF_scale.cc: Likewise. * src/float/lfloat/elem/cl_LF_to_I.cc: Likewise. * src/float/lfloat/misc/cl_LF_digits.cc: Likewise. * src/float/lfloat/misc/cl_LF_idecode.cc: Likewise. * src/float/lfloat/misc/cl_LF_leninc.cc: Likewise. * src/float/lfloat/misc/cl_LF_lenincx.cc: Likewise. * src/float/lfloat/misc/cl_LF_precision.cc: Likewise. * src/float/lfloat/misc/cl_LF_shortenrel.cc: Likewise. * src/float/lfloat/misc/cl_LF_shortenwith.cc: Likewise. * src/float/misc/cl_F_digits.cc: Likewise. * src/float/misc/cl_F_epsneg.cc: Likewise. * src/float/misc/cl_F_epspos.cc: Likewise. * src/float/misc/cl_F_leastneg.cc: Likewise. * src/float/misc/cl_F_leastpos.cc: Likewise. * src/float/misc/cl_F_mostneg.cc: Likewise. * src/float/misc/cl_F_mostpos.cc: Likewise. * src/float/misc/cl_F_precision.cc: Likewise. * src/float/misc/cl_F_rational.cc: Likewise. * src/float/misc/cl_F_shortenrel.cc: Likewise. * src/float/output/cl_F_dprint.cc: Likewise. * src/float/random/cl_F_random.cc: Likewise. * src/float/sfloat/elem/cl_SF_from_I.cc: Likewise. * src/float/sfloat/elem/cl_SF_from_RA.cc: Likewise. * src/float/sfloat/elem/cl_SF_scale.cc: Likewise. * src/float/sfloat/misc/cl_SF_digits.cc: Likewise. * src/float/sfloat/misc/cl_SF_precision.cc: Likewise. * src/float/transcendental/cl_F_atanhx.cc: Likewise. * src/float/transcendental/cl_F_atanx.cc: Likewise. * src/float/transcendental/cl_F_catalanconst_f.cc: Likewise. * src/float/transcendental/cl_F_cos.cc: Likewise. * src/float/transcendental/cl_F_cosh.cc: Likewise. * src/float/transcendental/cl_F_coshsinh.cc: Likewise. * src/float/transcendental/cl_F_cossin.cc: Likewise. * src/float/transcendental/cl_F_eulerconst_f.cc: Likewise. * src/float/transcendental/cl_F_exp1_f.cc: Likewise. * src/float/transcendental/cl_F_expx.cc: Likewise. * src/float/transcendental/cl_F_ln10_f.cc: Likewise. * src/float/transcendental/cl_F_ln2_f.cc: Likewise. * src/float/transcendental/cl_F_lnx.cc: Likewise. * src/float/transcendental/cl_F_pi_f.cc: Likewise. * src/float/transcendental/cl_F_sin.cc: Likewise. * src/float/transcendental/cl_F_sinh.cc: Likewise. * src/float/transcendental/cl_F_sinhx.cc: Likewise. * src/float/transcendental/cl_F_sinx.cc: Likewise. * src/float/transcendental/cl_F_tran.h: Likewise. * src/float/transcendental/cl_F_zeta_int_f.cc: Likewise. * src/float/transcendental/cl_LF_atan_recip.cc: Likewise. * src/float/transcendental/cl_LF_atanh_recip.cc: Likewise. * src/float/transcendental/cl_LF_catalanconst.cc: Likewise. * src/float/transcendental/cl_LF_coshsinh_aux.cc: Likewise. * src/float/transcendental/cl_LF_cossin_aux.cc: Likewise. * src/float/transcendental/cl_LF_eulerconst.cc: Likewise. * src/float/transcendental/cl_LF_exp1.cc: Likewise. * src/float/transcendental/cl_LF_exp_aux.cc: Likewise. * src/float/transcendental/cl_LF_pi.cc: Likewise. * src/float/transcendental/cl_LF_ratseries.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_a.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_ab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_b.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_p.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pa.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pb.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pq.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pqa.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pqab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pqb.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_q.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_qa.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_qab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_qb.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_stream_pq.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_stream_pqa.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_stream_pqab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_stream_pqb.cc: Likewise. * src/float/transcendental/cl_LF_ratsumseries_pqcd.cc: Likewise. * src/float/transcendental/cl_LF_ratsumseries_pqcd_aux.cc: Likewise. * src/float/transcendental/cl_LF_ratsumseries_pqd.cc: Likewise. * src/float/transcendental/cl_LF_ratsumseries_pqd_aux.cc: Likewise. * src/float/transcendental/cl_LF_tran.h: Likewise. * src/float/transcendental/cl_LF_zeta3.cc: Likewise. * src/float/transcendental/cl_LF_zeta_int.cc: Likewise. * src/integer/algebraic/cl_I_rootp_I.cc: Likewise. * src/integer/algebraic/cl_I_rootp_aux.cc: Likewise. * src/integer/bitwise/cl_I_ash.cc: Likewise. * src/integer/bitwise/cl_I_ash_I.cc: Likewise. * src/integer/bitwise/cl_I_byte.h: Likewise. * src/integer/bitwise/cl_I_fullbyte.cc: Likewise. * src/integer/bitwise/cl_I_ilength.cc: Likewise. * src/integer/bitwise/cl_I_ldb.cc: Likewise. * src/integer/bitwise/cl_I_ldbtest.cc: Likewise. * src/integer/bitwise/cl_I_ldbx.cc: Likewise. * src/integer/bitwise/cl_I_ldbxtest.cc: Likewise. * src/integer/bitwise/cl_I_logbitp.cc: Likewise. * src/integer/bitwise/cl_I_logbitp_I.cc: Likewise. * src/integer/bitwise/cl_I_logcount.cc: Likewise. * src/integer/bitwise/cl_I_mkf.cc: Likewise. * src/integer/bitwise/cl_I_mkfx.cc: Likewise. * src/integer/cl_I.h: Likewise. * src/integer/conv/cl_I_to_digits.cc: Likewise. * src/integer/conv/cl_I_digits_need.cc: Likewise. * src/integer/conv/cl_I_from_digits.cc: Likewise. * src/integer/gcd/cl_I_gcd.cc: Likewise. * src/integer/gcd/cl_I_xgcd.cc: Likewise. * src/integer/misc/cl_I_eqhashcode.cc: Likewise. * src/integer/misc/cl_I_ord2.cc: Likewise. * src/integer/misc/cl_I_power2p.cc: Likewise. * src/integer/output/cl_I_cached_power.h (cached_power_table): allow for 40 elements. * src/integer/output/cl_I_decstring.cc: Use uintC instead of uintL where appropriate. * src/integer/output/cl_I_print.cc: Likewise. * src/integer/output/cl_I_print_string.cc: Likewise. * src/modinteger/cl_MI.cc: Likewise. * src/modinteger/cl_MI_lshift.cc: Likewise. * src/modinteger/cl_MI_montgom.h: Likewise. * src/modinteger/cl_MI_pow2.h: Likewise. * src/modinteger/cl_MI_pow2m1.h: Likewise. * src/modinteger/cl_MI_pow2p1.h: Likewise. * src/modinteger/cl_MI_rshift.cc: Likewise. * src/modinteger/cl_MI_std.h: Likewise. * src/numtheory/cl_IF_millerrabin.cc: Likewise. * src/numtheory/cl_nt_isprobprime.cc: Likewise. * src/numtheory/cl_nt_sqrtmodp.cc: Likewise. * src/polynomial/elem/cl_UP_GF2.h: Likewise. * src/real/conv/cl_F_from_R_f.cc: Likewise. * src/real/format-output/cl_fmt_floatstring.cc: Likewise. * src/real/input/cl_R_read.cc: Likewise. * src/vector/cl_GV_I.cc: Likewise. * src/vector/cl_GV_I_copy.cc: Likewise. * src/vector/cl_GV_number.cc: Likewise. * src/vector/cl_GV_number_copy.cc: Likewise. * src/vector/cl_SV_copy.cc: Likewise. * src/vector/cl_SV_number.cc: Likewise. * src/vector/cl_SV_ringelt.cc: Likewise. * tests/main.cc: Likewise. * tests/test_I_ilength.cc: Likewise. * tests/test_I_ord2.cc: Likewise.
19 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
2006-04-25 Bruno Haible <bruno@clisp.org> Richard B. Kreckel <kreckel@ginac.de> Make it theoretically possible to use bignums and long-floats with more than 2^32 significant digits or bits. * doc/cln.tex (logcount): Change return type to uintC. (struct cl_byte): Change elements to uintC. (integer_length, ord2, power2p): Change return type to uintC. (scale_float): Change argument type to sintC. (float_digits, float_precision): Change return type to uintC. * examples/atan_recip.cc: Use uintC instead of uintL where appropriate. * examples/atanh_recip.cc: Likewise. * include/cln/GV.h: Likewise. * include/cln/GV_complex.h: Likewise. * include/cln/GV_integer.h: Likewise. * include/cln/GV_modinteger.h: Likewise. * include/cln/GV_number.h: Likewise. * include/cln/GV_rational.h: Likewise. * include/cln/GV_real.h: Likewise. * include/cln/SV.h: Likewise. * include/cln/SV_complex.h: Likewise. * include/cln/SV_integer.h: Likewise. * include/cln/SV_number.h: Likewise. * include/cln/SV_rational.h: Likewise. * include/cln/SV_real.h: Likewise. * include/cln/SV_ringelt.h: Likewise. * include/cln/dfloat.h: Likewise. * include/cln/ffloat.h: Likewise. * include/cln/float.h: Likewise. * include/cln/integer.h: Likewise. * include/cln/lfloat.h: Likewise. * include/cln/modinteger.h: Likewise. * include/cln/sfloat.h: Likewise. * src/base/cl_low.h (integerlengthC): New macro. * src/base/digitseq/cl_2DS_div.cc: Use uintC instead of uintL where appropriate. * src/base/digitseq/cl_2DS_recip.cc: Likewise. * src/base/digitseq/cl_DS.h: Likewise. * src/base/digitseq/cl_DS_mul.c: Likewise. * src/base/digitseq/cl_DS_mul_fftc.h: Likewise. * src/base/digitseq/cl_DS_mul_fftcs.h: Likewise. * src/base/digitseq/cl_DS_mul_fftm.h: Likewise. * src/base/digitseq/cl_DS_mul_fftp.h: Likewise. * src/base/digitseq/cl_DS_mul_fftp3.h: Likewise. * src/base/digitseq/cl_DS_mul_fftp3m.h: Likewise. * src/base/digitseq/cl_DS_mul_fftr.h: Likewise. * src/base/digitseq/cl_DS_mul_kara.h: Likewise. * src/base/digitseq/cl_DS_mul_nuss.h: Likewise. * src/base/digitseq/cl_DS_recip.cc: Likewise. * src/base/digitseq/cl_DS_recipsqrt.cc: Likewise. * src/base/digitseq/cl_DS_sqrt.cc: Likewise. * src/base/digitseq/cl_DS_trandom.cc: Likewise. * src/complex/input/cl_N_read.cc: Likewise. * src/complex/transcendental/cl_C_asinh_aux.cc: Likewise. * src/complex/transcendental/cl_C_expt_C.cc: Likewise. * src/float/cl_F.h: Likewise. * src/float/conv/cl_F_from_F_f.cc: Likewise. * src/float/conv/cl_F_from_I_f.cc: Likewise. * src/float/conv/cl_F_from_RA_f.cc: Likewise. * src/float/dfloat/conv/cl_I_to_double.cc: Likewise. * src/float/dfloat/conv/cl_RA_to_double.cc: Likewise. * src/float/dfloat/elem/cl_DF_from_I.cc: Likewise. * src/float/dfloat/elem/cl_DF_from_RA.cc: Likewise. * src/float/dfloat/elem/cl_DF_scale.cc: Likewise. * src/float/dfloat/misc/cl_DF_digits.cc: Likewise. * src/float/dfloat/misc/cl_DF_precision.cc: Likewise. * src/float/elem/cl_F_scale.cc: Likewise. * src/float/ffloat/conv/cl_I_to_float.cc: Likewise. * src/float/ffloat/conv/cl_RA_to_float.cc: Likewise. * src/float/ffloat/elem/cl_FF_from_I.cc: Likewise. * src/float/ffloat/elem/cl_FF_from_RA.cc: Likewise. * src/float/ffloat/elem/cl_FF_scale.cc: Likewise. * src/float/ffloat/misc/cl_FF_digits.cc: Likewise. * src/float/ffloat/misc/cl_FF_precision.cc: Likewise. * src/float/input/cl_F_read.cc: Likewise. * src/float/lfloat/algebraic/cl_LF_sqrt.cc: Likewise. * src/float/lfloat/elem/cl_LF_1plus.cc: Likewise. * src/float/lfloat/elem/cl_LF_I_div.cc: Likewise. * src/float/lfloat/elem/cl_LF_I_mul.cc: Likewise. * src/float/lfloat/elem/cl_LF_div.cc: Likewise. * src/float/lfloat/elem/cl_LF_from_I.cc: Likewise. * src/float/lfloat/elem/cl_LF_from_RA.cc: Likewise. * src/float/lfloat/elem/cl_LF_fround.cc: Likewise. * src/float/lfloat/elem/cl_LF_ftrunc.cc: Likewise. * src/float/lfloat/elem/cl_LF_futrunc.cc: Likewise. * src/float/lfloat/elem/cl_LF_scale.cc: Likewise. * src/float/lfloat/elem/cl_LF_to_I.cc: Likewise. * src/float/lfloat/misc/cl_LF_digits.cc: Likewise. * src/float/lfloat/misc/cl_LF_idecode.cc: Likewise. * src/float/lfloat/misc/cl_LF_leninc.cc: Likewise. * src/float/lfloat/misc/cl_LF_lenincx.cc: Likewise. * src/float/lfloat/misc/cl_LF_precision.cc: Likewise. * src/float/lfloat/misc/cl_LF_shortenrel.cc: Likewise. * src/float/lfloat/misc/cl_LF_shortenwith.cc: Likewise. * src/float/misc/cl_F_digits.cc: Likewise. * src/float/misc/cl_F_epsneg.cc: Likewise. * src/float/misc/cl_F_epspos.cc: Likewise. * src/float/misc/cl_F_leastneg.cc: Likewise. * src/float/misc/cl_F_leastpos.cc: Likewise. * src/float/misc/cl_F_mostneg.cc: Likewise. * src/float/misc/cl_F_mostpos.cc: Likewise. * src/float/misc/cl_F_precision.cc: Likewise. * src/float/misc/cl_F_rational.cc: Likewise. * src/float/misc/cl_F_shortenrel.cc: Likewise. * src/float/output/cl_F_dprint.cc: Likewise. * src/float/random/cl_F_random.cc: Likewise. * src/float/sfloat/elem/cl_SF_from_I.cc: Likewise. * src/float/sfloat/elem/cl_SF_from_RA.cc: Likewise. * src/float/sfloat/elem/cl_SF_scale.cc: Likewise. * src/float/sfloat/misc/cl_SF_digits.cc: Likewise. * src/float/sfloat/misc/cl_SF_precision.cc: Likewise. * src/float/transcendental/cl_F_atanhx.cc: Likewise. * src/float/transcendental/cl_F_atanx.cc: Likewise. * src/float/transcendental/cl_F_catalanconst_f.cc: Likewise. * src/float/transcendental/cl_F_cos.cc: Likewise. * src/float/transcendental/cl_F_cosh.cc: Likewise. * src/float/transcendental/cl_F_coshsinh.cc: Likewise. * src/float/transcendental/cl_F_cossin.cc: Likewise. * src/float/transcendental/cl_F_eulerconst_f.cc: Likewise. * src/float/transcendental/cl_F_exp1_f.cc: Likewise. * src/float/transcendental/cl_F_expx.cc: Likewise. * src/float/transcendental/cl_F_ln10_f.cc: Likewise. * src/float/transcendental/cl_F_ln2_f.cc: Likewise. * src/float/transcendental/cl_F_lnx.cc: Likewise. * src/float/transcendental/cl_F_pi_f.cc: Likewise. * src/float/transcendental/cl_F_sin.cc: Likewise. * src/float/transcendental/cl_F_sinh.cc: Likewise. * src/float/transcendental/cl_F_sinhx.cc: Likewise. * src/float/transcendental/cl_F_sinx.cc: Likewise. * src/float/transcendental/cl_F_tran.h: Likewise. * src/float/transcendental/cl_F_zeta_int_f.cc: Likewise. * src/float/transcendental/cl_LF_atan_recip.cc: Likewise. * src/float/transcendental/cl_LF_atanh_recip.cc: Likewise. * src/float/transcendental/cl_LF_catalanconst.cc: Likewise. * src/float/transcendental/cl_LF_coshsinh_aux.cc: Likewise. * src/float/transcendental/cl_LF_cossin_aux.cc: Likewise. * src/float/transcendental/cl_LF_eulerconst.cc: Likewise. * src/float/transcendental/cl_LF_exp1.cc: Likewise. * src/float/transcendental/cl_LF_exp_aux.cc: Likewise. * src/float/transcendental/cl_LF_pi.cc: Likewise. * src/float/transcendental/cl_LF_ratseries.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_a.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_ab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_b.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_p.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pa.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pb.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pq.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pqa.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pqab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pqb.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_q.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_qa.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_qab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_qb.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_stream_pq.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_stream_pqa.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_stream_pqab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_stream_pqb.cc: Likewise. * src/float/transcendental/cl_LF_ratsumseries_pqcd.cc: Likewise. * src/float/transcendental/cl_LF_ratsumseries_pqcd_aux.cc: Likewise. * src/float/transcendental/cl_LF_ratsumseries_pqd.cc: Likewise. * src/float/transcendental/cl_LF_ratsumseries_pqd_aux.cc: Likewise. * src/float/transcendental/cl_LF_tran.h: Likewise. * src/float/transcendental/cl_LF_zeta3.cc: Likewise. * src/float/transcendental/cl_LF_zeta_int.cc: Likewise. * src/integer/algebraic/cl_I_rootp_I.cc: Likewise. * src/integer/algebraic/cl_I_rootp_aux.cc: Likewise. * src/integer/bitwise/cl_I_ash.cc: Likewise. * src/integer/bitwise/cl_I_ash_I.cc: Likewise. * src/integer/bitwise/cl_I_byte.h: Likewise. * src/integer/bitwise/cl_I_fullbyte.cc: Likewise. * src/integer/bitwise/cl_I_ilength.cc: Likewise. * src/integer/bitwise/cl_I_ldb.cc: Likewise. * src/integer/bitwise/cl_I_ldbtest.cc: Likewise. * src/integer/bitwise/cl_I_ldbx.cc: Likewise. * src/integer/bitwise/cl_I_ldbxtest.cc: Likewise. * src/integer/bitwise/cl_I_logbitp.cc: Likewise. * src/integer/bitwise/cl_I_logbitp_I.cc: Likewise. * src/integer/bitwise/cl_I_logcount.cc: Likewise. * src/integer/bitwise/cl_I_mkf.cc: Likewise. * src/integer/bitwise/cl_I_mkfx.cc: Likewise. * src/integer/cl_I.h: Likewise. * src/integer/conv/cl_I_to_digits.cc: Likewise. * src/integer/conv/cl_I_digits_need.cc: Likewise. * src/integer/conv/cl_I_from_digits.cc: Likewise. * src/integer/gcd/cl_I_gcd.cc: Likewise. * src/integer/gcd/cl_I_xgcd.cc: Likewise. * src/integer/misc/cl_I_eqhashcode.cc: Likewise. * src/integer/misc/cl_I_ord2.cc: Likewise. * src/integer/misc/cl_I_power2p.cc: Likewise. * src/integer/output/cl_I_cached_power.h (cached_power_table): allow for 40 elements. * src/integer/output/cl_I_decstring.cc: Use uintC instead of uintL where appropriate. * src/integer/output/cl_I_print.cc: Likewise. * src/integer/output/cl_I_print_string.cc: Likewise. * src/modinteger/cl_MI.cc: Likewise. * src/modinteger/cl_MI_lshift.cc: Likewise. * src/modinteger/cl_MI_montgom.h: Likewise. * src/modinteger/cl_MI_pow2.h: Likewise. * src/modinteger/cl_MI_pow2m1.h: Likewise. * src/modinteger/cl_MI_pow2p1.h: Likewise. * src/modinteger/cl_MI_rshift.cc: Likewise. * src/modinteger/cl_MI_std.h: Likewise. * src/numtheory/cl_IF_millerrabin.cc: Likewise. * src/numtheory/cl_nt_isprobprime.cc: Likewise. * src/numtheory/cl_nt_sqrtmodp.cc: Likewise. * src/polynomial/elem/cl_UP_GF2.h: Likewise. * src/real/conv/cl_F_from_R_f.cc: Likewise. * src/real/format-output/cl_fmt_floatstring.cc: Likewise. * src/real/input/cl_R_read.cc: Likewise. * src/vector/cl_GV_I.cc: Likewise. * src/vector/cl_GV_I_copy.cc: Likewise. * src/vector/cl_GV_number.cc: Likewise. * src/vector/cl_GV_number_copy.cc: Likewise. * src/vector/cl_SV_copy.cc: Likewise. * src/vector/cl_SV_number.cc: Likewise. * src/vector/cl_SV_ringelt.cc: Likewise. * tests/main.cc: Likewise. * tests/test_I_ilength.cc: Likewise. * tests/test_I_ord2.cc: Likewise.
19 years ago
25 years ago
2006-04-25 Bruno Haible <bruno@clisp.org> Richard B. Kreckel <kreckel@ginac.de> Make it theoretically possible to use bignums and long-floats with more than 2^32 significant digits or bits. * doc/cln.tex (logcount): Change return type to uintC. (struct cl_byte): Change elements to uintC. (integer_length, ord2, power2p): Change return type to uintC. (scale_float): Change argument type to sintC. (float_digits, float_precision): Change return type to uintC. * examples/atan_recip.cc: Use uintC instead of uintL where appropriate. * examples/atanh_recip.cc: Likewise. * include/cln/GV.h: Likewise. * include/cln/GV_complex.h: Likewise. * include/cln/GV_integer.h: Likewise. * include/cln/GV_modinteger.h: Likewise. * include/cln/GV_number.h: Likewise. * include/cln/GV_rational.h: Likewise. * include/cln/GV_real.h: Likewise. * include/cln/SV.h: Likewise. * include/cln/SV_complex.h: Likewise. * include/cln/SV_integer.h: Likewise. * include/cln/SV_number.h: Likewise. * include/cln/SV_rational.h: Likewise. * include/cln/SV_real.h: Likewise. * include/cln/SV_ringelt.h: Likewise. * include/cln/dfloat.h: Likewise. * include/cln/ffloat.h: Likewise. * include/cln/float.h: Likewise. * include/cln/integer.h: Likewise. * include/cln/lfloat.h: Likewise. * include/cln/modinteger.h: Likewise. * include/cln/sfloat.h: Likewise. * src/base/cl_low.h (integerlengthC): New macro. * src/base/digitseq/cl_2DS_div.cc: Use uintC instead of uintL where appropriate. * src/base/digitseq/cl_2DS_recip.cc: Likewise. * src/base/digitseq/cl_DS.h: Likewise. * src/base/digitseq/cl_DS_mul.c: Likewise. * src/base/digitseq/cl_DS_mul_fftc.h: Likewise. * src/base/digitseq/cl_DS_mul_fftcs.h: Likewise. * src/base/digitseq/cl_DS_mul_fftm.h: Likewise. * src/base/digitseq/cl_DS_mul_fftp.h: Likewise. * src/base/digitseq/cl_DS_mul_fftp3.h: Likewise. * src/base/digitseq/cl_DS_mul_fftp3m.h: Likewise. * src/base/digitseq/cl_DS_mul_fftr.h: Likewise. * src/base/digitseq/cl_DS_mul_kara.h: Likewise. * src/base/digitseq/cl_DS_mul_nuss.h: Likewise. * src/base/digitseq/cl_DS_recip.cc: Likewise. * src/base/digitseq/cl_DS_recipsqrt.cc: Likewise. * src/base/digitseq/cl_DS_sqrt.cc: Likewise. * src/base/digitseq/cl_DS_trandom.cc: Likewise. * src/complex/input/cl_N_read.cc: Likewise. * src/complex/transcendental/cl_C_asinh_aux.cc: Likewise. * src/complex/transcendental/cl_C_expt_C.cc: Likewise. * src/float/cl_F.h: Likewise. * src/float/conv/cl_F_from_F_f.cc: Likewise. * src/float/conv/cl_F_from_I_f.cc: Likewise. * src/float/conv/cl_F_from_RA_f.cc: Likewise. * src/float/dfloat/conv/cl_I_to_double.cc: Likewise. * src/float/dfloat/conv/cl_RA_to_double.cc: Likewise. * src/float/dfloat/elem/cl_DF_from_I.cc: Likewise. * src/float/dfloat/elem/cl_DF_from_RA.cc: Likewise. * src/float/dfloat/elem/cl_DF_scale.cc: Likewise. * src/float/dfloat/misc/cl_DF_digits.cc: Likewise. * src/float/dfloat/misc/cl_DF_precision.cc: Likewise. * src/float/elem/cl_F_scale.cc: Likewise. * src/float/ffloat/conv/cl_I_to_float.cc: Likewise. * src/float/ffloat/conv/cl_RA_to_float.cc: Likewise. * src/float/ffloat/elem/cl_FF_from_I.cc: Likewise. * src/float/ffloat/elem/cl_FF_from_RA.cc: Likewise. * src/float/ffloat/elem/cl_FF_scale.cc: Likewise. * src/float/ffloat/misc/cl_FF_digits.cc: Likewise. * src/float/ffloat/misc/cl_FF_precision.cc: Likewise. * src/float/input/cl_F_read.cc: Likewise. * src/float/lfloat/algebraic/cl_LF_sqrt.cc: Likewise. * src/float/lfloat/elem/cl_LF_1plus.cc: Likewise. * src/float/lfloat/elem/cl_LF_I_div.cc: Likewise. * src/float/lfloat/elem/cl_LF_I_mul.cc: Likewise. * src/float/lfloat/elem/cl_LF_div.cc: Likewise. * src/float/lfloat/elem/cl_LF_from_I.cc: Likewise. * src/float/lfloat/elem/cl_LF_from_RA.cc: Likewise. * src/float/lfloat/elem/cl_LF_fround.cc: Likewise. * src/float/lfloat/elem/cl_LF_ftrunc.cc: Likewise. * src/float/lfloat/elem/cl_LF_futrunc.cc: Likewise. * src/float/lfloat/elem/cl_LF_scale.cc: Likewise. * src/float/lfloat/elem/cl_LF_to_I.cc: Likewise. * src/float/lfloat/misc/cl_LF_digits.cc: Likewise. * src/float/lfloat/misc/cl_LF_idecode.cc: Likewise. * src/float/lfloat/misc/cl_LF_leninc.cc: Likewise. * src/float/lfloat/misc/cl_LF_lenincx.cc: Likewise. * src/float/lfloat/misc/cl_LF_precision.cc: Likewise. * src/float/lfloat/misc/cl_LF_shortenrel.cc: Likewise. * src/float/lfloat/misc/cl_LF_shortenwith.cc: Likewise. * src/float/misc/cl_F_digits.cc: Likewise. * src/float/misc/cl_F_epsneg.cc: Likewise. * src/float/misc/cl_F_epspos.cc: Likewise. * src/float/misc/cl_F_leastneg.cc: Likewise. * src/float/misc/cl_F_leastpos.cc: Likewise. * src/float/misc/cl_F_mostneg.cc: Likewise. * src/float/misc/cl_F_mostpos.cc: Likewise. * src/float/misc/cl_F_precision.cc: Likewise. * src/float/misc/cl_F_rational.cc: Likewise. * src/float/misc/cl_F_shortenrel.cc: Likewise. * src/float/output/cl_F_dprint.cc: Likewise. * src/float/random/cl_F_random.cc: Likewise. * src/float/sfloat/elem/cl_SF_from_I.cc: Likewise. * src/float/sfloat/elem/cl_SF_from_RA.cc: Likewise. * src/float/sfloat/elem/cl_SF_scale.cc: Likewise. * src/float/sfloat/misc/cl_SF_digits.cc: Likewise. * src/float/sfloat/misc/cl_SF_precision.cc: Likewise. * src/float/transcendental/cl_F_atanhx.cc: Likewise. * src/float/transcendental/cl_F_atanx.cc: Likewise. * src/float/transcendental/cl_F_catalanconst_f.cc: Likewise. * src/float/transcendental/cl_F_cos.cc: Likewise. * src/float/transcendental/cl_F_cosh.cc: Likewise. * src/float/transcendental/cl_F_coshsinh.cc: Likewise. * src/float/transcendental/cl_F_cossin.cc: Likewise. * src/float/transcendental/cl_F_eulerconst_f.cc: Likewise. * src/float/transcendental/cl_F_exp1_f.cc: Likewise. * src/float/transcendental/cl_F_expx.cc: Likewise. * src/float/transcendental/cl_F_ln10_f.cc: Likewise. * src/float/transcendental/cl_F_ln2_f.cc: Likewise. * src/float/transcendental/cl_F_lnx.cc: Likewise. * src/float/transcendental/cl_F_pi_f.cc: Likewise. * src/float/transcendental/cl_F_sin.cc: Likewise. * src/float/transcendental/cl_F_sinh.cc: Likewise. * src/float/transcendental/cl_F_sinhx.cc: Likewise. * src/float/transcendental/cl_F_sinx.cc: Likewise. * src/float/transcendental/cl_F_tran.h: Likewise. * src/float/transcendental/cl_F_zeta_int_f.cc: Likewise. * src/float/transcendental/cl_LF_atan_recip.cc: Likewise. * src/float/transcendental/cl_LF_atanh_recip.cc: Likewise. * src/float/transcendental/cl_LF_catalanconst.cc: Likewise. * src/float/transcendental/cl_LF_coshsinh_aux.cc: Likewise. * src/float/transcendental/cl_LF_cossin_aux.cc: Likewise. * src/float/transcendental/cl_LF_eulerconst.cc: Likewise. * src/float/transcendental/cl_LF_exp1.cc: Likewise. * src/float/transcendental/cl_LF_exp_aux.cc: Likewise. * src/float/transcendental/cl_LF_pi.cc: Likewise. * src/float/transcendental/cl_LF_ratseries.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_a.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_ab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_b.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_p.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pa.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pb.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pq.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pqa.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pqab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pqb.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_q.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_qa.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_qab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_qb.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_stream_pq.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_stream_pqa.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_stream_pqab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_stream_pqb.cc: Likewise. * src/float/transcendental/cl_LF_ratsumseries_pqcd.cc: Likewise. * src/float/transcendental/cl_LF_ratsumseries_pqcd_aux.cc: Likewise. * src/float/transcendental/cl_LF_ratsumseries_pqd.cc: Likewise. * src/float/transcendental/cl_LF_ratsumseries_pqd_aux.cc: Likewise. * src/float/transcendental/cl_LF_tran.h: Likewise. * src/float/transcendental/cl_LF_zeta3.cc: Likewise. * src/float/transcendental/cl_LF_zeta_int.cc: Likewise. * src/integer/algebraic/cl_I_rootp_I.cc: Likewise. * src/integer/algebraic/cl_I_rootp_aux.cc: Likewise. * src/integer/bitwise/cl_I_ash.cc: Likewise. * src/integer/bitwise/cl_I_ash_I.cc: Likewise. * src/integer/bitwise/cl_I_byte.h: Likewise. * src/integer/bitwise/cl_I_fullbyte.cc: Likewise. * src/integer/bitwise/cl_I_ilength.cc: Likewise. * src/integer/bitwise/cl_I_ldb.cc: Likewise. * src/integer/bitwise/cl_I_ldbtest.cc: Likewise. * src/integer/bitwise/cl_I_ldbx.cc: Likewise. * src/integer/bitwise/cl_I_ldbxtest.cc: Likewise. * src/integer/bitwise/cl_I_logbitp.cc: Likewise. * src/integer/bitwise/cl_I_logbitp_I.cc: Likewise. * src/integer/bitwise/cl_I_logcount.cc: Likewise. * src/integer/bitwise/cl_I_mkf.cc: Likewise. * src/integer/bitwise/cl_I_mkfx.cc: Likewise. * src/integer/cl_I.h: Likewise. * src/integer/conv/cl_I_to_digits.cc: Likewise. * src/integer/conv/cl_I_digits_need.cc: Likewise. * src/integer/conv/cl_I_from_digits.cc: Likewise. * src/integer/gcd/cl_I_gcd.cc: Likewise. * src/integer/gcd/cl_I_xgcd.cc: Likewise. * src/integer/misc/cl_I_eqhashcode.cc: Likewise. * src/integer/misc/cl_I_ord2.cc: Likewise. * src/integer/misc/cl_I_power2p.cc: Likewise. * src/integer/output/cl_I_cached_power.h (cached_power_table): allow for 40 elements. * src/integer/output/cl_I_decstring.cc: Use uintC instead of uintL where appropriate. * src/integer/output/cl_I_print.cc: Likewise. * src/integer/output/cl_I_print_string.cc: Likewise. * src/modinteger/cl_MI.cc: Likewise. * src/modinteger/cl_MI_lshift.cc: Likewise. * src/modinteger/cl_MI_montgom.h: Likewise. * src/modinteger/cl_MI_pow2.h: Likewise. * src/modinteger/cl_MI_pow2m1.h: Likewise. * src/modinteger/cl_MI_pow2p1.h: Likewise. * src/modinteger/cl_MI_rshift.cc: Likewise. * src/modinteger/cl_MI_std.h: Likewise. * src/numtheory/cl_IF_millerrabin.cc: Likewise. * src/numtheory/cl_nt_isprobprime.cc: Likewise. * src/numtheory/cl_nt_sqrtmodp.cc: Likewise. * src/polynomial/elem/cl_UP_GF2.h: Likewise. * src/real/conv/cl_F_from_R_f.cc: Likewise. * src/real/format-output/cl_fmt_floatstring.cc: Likewise. * src/real/input/cl_R_read.cc: Likewise. * src/vector/cl_GV_I.cc: Likewise. * src/vector/cl_GV_I_copy.cc: Likewise. * src/vector/cl_GV_number.cc: Likewise. * src/vector/cl_GV_number_copy.cc: Likewise. * src/vector/cl_SV_copy.cc: Likewise. * src/vector/cl_SV_number.cc: Likewise. * src/vector/cl_SV_ringelt.cc: Likewise. * tests/main.cc: Likewise. * tests/test_I_ilength.cc: Likewise. * tests/test_I_ord2.cc: Likewise.
19 years ago
25 years ago
2006-04-25 Bruno Haible <bruno@clisp.org> Richard B. Kreckel <kreckel@ginac.de> Make it theoretically possible to use bignums and long-floats with more than 2^32 significant digits or bits. * doc/cln.tex (logcount): Change return type to uintC. (struct cl_byte): Change elements to uintC. (integer_length, ord2, power2p): Change return type to uintC. (scale_float): Change argument type to sintC. (float_digits, float_precision): Change return type to uintC. * examples/atan_recip.cc: Use uintC instead of uintL where appropriate. * examples/atanh_recip.cc: Likewise. * include/cln/GV.h: Likewise. * include/cln/GV_complex.h: Likewise. * include/cln/GV_integer.h: Likewise. * include/cln/GV_modinteger.h: Likewise. * include/cln/GV_number.h: Likewise. * include/cln/GV_rational.h: Likewise. * include/cln/GV_real.h: Likewise. * include/cln/SV.h: Likewise. * include/cln/SV_complex.h: Likewise. * include/cln/SV_integer.h: Likewise. * include/cln/SV_number.h: Likewise. * include/cln/SV_rational.h: Likewise. * include/cln/SV_real.h: Likewise. * include/cln/SV_ringelt.h: Likewise. * include/cln/dfloat.h: Likewise. * include/cln/ffloat.h: Likewise. * include/cln/float.h: Likewise. * include/cln/integer.h: Likewise. * include/cln/lfloat.h: Likewise. * include/cln/modinteger.h: Likewise. * include/cln/sfloat.h: Likewise. * src/base/cl_low.h (integerlengthC): New macro. * src/base/digitseq/cl_2DS_div.cc: Use uintC instead of uintL where appropriate. * src/base/digitseq/cl_2DS_recip.cc: Likewise. * src/base/digitseq/cl_DS.h: Likewise. * src/base/digitseq/cl_DS_mul.c: Likewise. * src/base/digitseq/cl_DS_mul_fftc.h: Likewise. * src/base/digitseq/cl_DS_mul_fftcs.h: Likewise. * src/base/digitseq/cl_DS_mul_fftm.h: Likewise. * src/base/digitseq/cl_DS_mul_fftp.h: Likewise. * src/base/digitseq/cl_DS_mul_fftp3.h: Likewise. * src/base/digitseq/cl_DS_mul_fftp3m.h: Likewise. * src/base/digitseq/cl_DS_mul_fftr.h: Likewise. * src/base/digitseq/cl_DS_mul_kara.h: Likewise. * src/base/digitseq/cl_DS_mul_nuss.h: Likewise. * src/base/digitseq/cl_DS_recip.cc: Likewise. * src/base/digitseq/cl_DS_recipsqrt.cc: Likewise. * src/base/digitseq/cl_DS_sqrt.cc: Likewise. * src/base/digitseq/cl_DS_trandom.cc: Likewise. * src/complex/input/cl_N_read.cc: Likewise. * src/complex/transcendental/cl_C_asinh_aux.cc: Likewise. * src/complex/transcendental/cl_C_expt_C.cc: Likewise. * src/float/cl_F.h: Likewise. * src/float/conv/cl_F_from_F_f.cc: Likewise. * src/float/conv/cl_F_from_I_f.cc: Likewise. * src/float/conv/cl_F_from_RA_f.cc: Likewise. * src/float/dfloat/conv/cl_I_to_double.cc: Likewise. * src/float/dfloat/conv/cl_RA_to_double.cc: Likewise. * src/float/dfloat/elem/cl_DF_from_I.cc: Likewise. * src/float/dfloat/elem/cl_DF_from_RA.cc: Likewise. * src/float/dfloat/elem/cl_DF_scale.cc: Likewise. * src/float/dfloat/misc/cl_DF_digits.cc: Likewise. * src/float/dfloat/misc/cl_DF_precision.cc: Likewise. * src/float/elem/cl_F_scale.cc: Likewise. * src/float/ffloat/conv/cl_I_to_float.cc: Likewise. * src/float/ffloat/conv/cl_RA_to_float.cc: Likewise. * src/float/ffloat/elem/cl_FF_from_I.cc: Likewise. * src/float/ffloat/elem/cl_FF_from_RA.cc: Likewise. * src/float/ffloat/elem/cl_FF_scale.cc: Likewise. * src/float/ffloat/misc/cl_FF_digits.cc: Likewise. * src/float/ffloat/misc/cl_FF_precision.cc: Likewise. * src/float/input/cl_F_read.cc: Likewise. * src/float/lfloat/algebraic/cl_LF_sqrt.cc: Likewise. * src/float/lfloat/elem/cl_LF_1plus.cc: Likewise. * src/float/lfloat/elem/cl_LF_I_div.cc: Likewise. * src/float/lfloat/elem/cl_LF_I_mul.cc: Likewise. * src/float/lfloat/elem/cl_LF_div.cc: Likewise. * src/float/lfloat/elem/cl_LF_from_I.cc: Likewise. * src/float/lfloat/elem/cl_LF_from_RA.cc: Likewise. * src/float/lfloat/elem/cl_LF_fround.cc: Likewise. * src/float/lfloat/elem/cl_LF_ftrunc.cc: Likewise. * src/float/lfloat/elem/cl_LF_futrunc.cc: Likewise. * src/float/lfloat/elem/cl_LF_scale.cc: Likewise. * src/float/lfloat/elem/cl_LF_to_I.cc: Likewise. * src/float/lfloat/misc/cl_LF_digits.cc: Likewise. * src/float/lfloat/misc/cl_LF_idecode.cc: Likewise. * src/float/lfloat/misc/cl_LF_leninc.cc: Likewise. * src/float/lfloat/misc/cl_LF_lenincx.cc: Likewise. * src/float/lfloat/misc/cl_LF_precision.cc: Likewise. * src/float/lfloat/misc/cl_LF_shortenrel.cc: Likewise. * src/float/lfloat/misc/cl_LF_shortenwith.cc: Likewise. * src/float/misc/cl_F_digits.cc: Likewise. * src/float/misc/cl_F_epsneg.cc: Likewise. * src/float/misc/cl_F_epspos.cc: Likewise. * src/float/misc/cl_F_leastneg.cc: Likewise. * src/float/misc/cl_F_leastpos.cc: Likewise. * src/float/misc/cl_F_mostneg.cc: Likewise. * src/float/misc/cl_F_mostpos.cc: Likewise. * src/float/misc/cl_F_precision.cc: Likewise. * src/float/misc/cl_F_rational.cc: Likewise. * src/float/misc/cl_F_shortenrel.cc: Likewise. * src/float/output/cl_F_dprint.cc: Likewise. * src/float/random/cl_F_random.cc: Likewise. * src/float/sfloat/elem/cl_SF_from_I.cc: Likewise. * src/float/sfloat/elem/cl_SF_from_RA.cc: Likewise. * src/float/sfloat/elem/cl_SF_scale.cc: Likewise. * src/float/sfloat/misc/cl_SF_digits.cc: Likewise. * src/float/sfloat/misc/cl_SF_precision.cc: Likewise. * src/float/transcendental/cl_F_atanhx.cc: Likewise. * src/float/transcendental/cl_F_atanx.cc: Likewise. * src/float/transcendental/cl_F_catalanconst_f.cc: Likewise. * src/float/transcendental/cl_F_cos.cc: Likewise. * src/float/transcendental/cl_F_cosh.cc: Likewise. * src/float/transcendental/cl_F_coshsinh.cc: Likewise. * src/float/transcendental/cl_F_cossin.cc: Likewise. * src/float/transcendental/cl_F_eulerconst_f.cc: Likewise. * src/float/transcendental/cl_F_exp1_f.cc: Likewise. * src/float/transcendental/cl_F_expx.cc: Likewise. * src/float/transcendental/cl_F_ln10_f.cc: Likewise. * src/float/transcendental/cl_F_ln2_f.cc: Likewise. * src/float/transcendental/cl_F_lnx.cc: Likewise. * src/float/transcendental/cl_F_pi_f.cc: Likewise. * src/float/transcendental/cl_F_sin.cc: Likewise. * src/float/transcendental/cl_F_sinh.cc: Likewise. * src/float/transcendental/cl_F_sinhx.cc: Likewise. * src/float/transcendental/cl_F_sinx.cc: Likewise. * src/float/transcendental/cl_F_tran.h: Likewise. * src/float/transcendental/cl_F_zeta_int_f.cc: Likewise. * src/float/transcendental/cl_LF_atan_recip.cc: Likewise. * src/float/transcendental/cl_LF_atanh_recip.cc: Likewise. * src/float/transcendental/cl_LF_catalanconst.cc: Likewise. * src/float/transcendental/cl_LF_coshsinh_aux.cc: Likewise. * src/float/transcendental/cl_LF_cossin_aux.cc: Likewise. * src/float/transcendental/cl_LF_eulerconst.cc: Likewise. * src/float/transcendental/cl_LF_exp1.cc: Likewise. * src/float/transcendental/cl_LF_exp_aux.cc: Likewise. * src/float/transcendental/cl_LF_pi.cc: Likewise. * src/float/transcendental/cl_LF_ratseries.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_a.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_ab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_b.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_p.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pa.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pb.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pq.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pqa.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pqab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pqb.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_q.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_qa.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_qab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_qb.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_stream_pq.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_stream_pqa.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_stream_pqab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_stream_pqb.cc: Likewise. * src/float/transcendental/cl_LF_ratsumseries_pqcd.cc: Likewise. * src/float/transcendental/cl_LF_ratsumseries_pqcd_aux.cc: Likewise. * src/float/transcendental/cl_LF_ratsumseries_pqd.cc: Likewise. * src/float/transcendental/cl_LF_ratsumseries_pqd_aux.cc: Likewise. * src/float/transcendental/cl_LF_tran.h: Likewise. * src/float/transcendental/cl_LF_zeta3.cc: Likewise. * src/float/transcendental/cl_LF_zeta_int.cc: Likewise. * src/integer/algebraic/cl_I_rootp_I.cc: Likewise. * src/integer/algebraic/cl_I_rootp_aux.cc: Likewise. * src/integer/bitwise/cl_I_ash.cc: Likewise. * src/integer/bitwise/cl_I_ash_I.cc: Likewise. * src/integer/bitwise/cl_I_byte.h: Likewise. * src/integer/bitwise/cl_I_fullbyte.cc: Likewise. * src/integer/bitwise/cl_I_ilength.cc: Likewise. * src/integer/bitwise/cl_I_ldb.cc: Likewise. * src/integer/bitwise/cl_I_ldbtest.cc: Likewise. * src/integer/bitwise/cl_I_ldbx.cc: Likewise. * src/integer/bitwise/cl_I_ldbxtest.cc: Likewise. * src/integer/bitwise/cl_I_logbitp.cc: Likewise. * src/integer/bitwise/cl_I_logbitp_I.cc: Likewise. * src/integer/bitwise/cl_I_logcount.cc: Likewise. * src/integer/bitwise/cl_I_mkf.cc: Likewise. * src/integer/bitwise/cl_I_mkfx.cc: Likewise. * src/integer/cl_I.h: Likewise. * src/integer/conv/cl_I_to_digits.cc: Likewise. * src/integer/conv/cl_I_digits_need.cc: Likewise. * src/integer/conv/cl_I_from_digits.cc: Likewise. * src/integer/gcd/cl_I_gcd.cc: Likewise. * src/integer/gcd/cl_I_xgcd.cc: Likewise. * src/integer/misc/cl_I_eqhashcode.cc: Likewise. * src/integer/misc/cl_I_ord2.cc: Likewise. * src/integer/misc/cl_I_power2p.cc: Likewise. * src/integer/output/cl_I_cached_power.h (cached_power_table): allow for 40 elements. * src/integer/output/cl_I_decstring.cc: Use uintC instead of uintL where appropriate. * src/integer/output/cl_I_print.cc: Likewise. * src/integer/output/cl_I_print_string.cc: Likewise. * src/modinteger/cl_MI.cc: Likewise. * src/modinteger/cl_MI_lshift.cc: Likewise. * src/modinteger/cl_MI_montgom.h: Likewise. * src/modinteger/cl_MI_pow2.h: Likewise. * src/modinteger/cl_MI_pow2m1.h: Likewise. * src/modinteger/cl_MI_pow2p1.h: Likewise. * src/modinteger/cl_MI_rshift.cc: Likewise. * src/modinteger/cl_MI_std.h: Likewise. * src/numtheory/cl_IF_millerrabin.cc: Likewise. * src/numtheory/cl_nt_isprobprime.cc: Likewise. * src/numtheory/cl_nt_sqrtmodp.cc: Likewise. * src/polynomial/elem/cl_UP_GF2.h: Likewise. * src/real/conv/cl_F_from_R_f.cc: Likewise. * src/real/format-output/cl_fmt_floatstring.cc: Likewise. * src/real/input/cl_R_read.cc: Likewise. * src/vector/cl_GV_I.cc: Likewise. * src/vector/cl_GV_I_copy.cc: Likewise. * src/vector/cl_GV_number.cc: Likewise. * src/vector/cl_GV_number_copy.cc: Likewise. * src/vector/cl_SV_copy.cc: Likewise. * src/vector/cl_SV_number.cc: Likewise. * src/vector/cl_SV_ringelt.cc: Likewise. * tests/main.cc: Likewise. * tests/test_I_ilength.cc: Likewise. * tests/test_I_ord2.cc: Likewise.
19 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
2006-04-25 Bruno Haible <bruno@clisp.org> Richard B. Kreckel <kreckel@ginac.de> Make it theoretically possible to use bignums and long-floats with more than 2^32 significant digits or bits. * doc/cln.tex (logcount): Change return type to uintC. (struct cl_byte): Change elements to uintC. (integer_length, ord2, power2p): Change return type to uintC. (scale_float): Change argument type to sintC. (float_digits, float_precision): Change return type to uintC. * examples/atan_recip.cc: Use uintC instead of uintL where appropriate. * examples/atanh_recip.cc: Likewise. * include/cln/GV.h: Likewise. * include/cln/GV_complex.h: Likewise. * include/cln/GV_integer.h: Likewise. * include/cln/GV_modinteger.h: Likewise. * include/cln/GV_number.h: Likewise. * include/cln/GV_rational.h: Likewise. * include/cln/GV_real.h: Likewise. * include/cln/SV.h: Likewise. * include/cln/SV_complex.h: Likewise. * include/cln/SV_integer.h: Likewise. * include/cln/SV_number.h: Likewise. * include/cln/SV_rational.h: Likewise. * include/cln/SV_real.h: Likewise. * include/cln/SV_ringelt.h: Likewise. * include/cln/dfloat.h: Likewise. * include/cln/ffloat.h: Likewise. * include/cln/float.h: Likewise. * include/cln/integer.h: Likewise. * include/cln/lfloat.h: Likewise. * include/cln/modinteger.h: Likewise. * include/cln/sfloat.h: Likewise. * src/base/cl_low.h (integerlengthC): New macro. * src/base/digitseq/cl_2DS_div.cc: Use uintC instead of uintL where appropriate. * src/base/digitseq/cl_2DS_recip.cc: Likewise. * src/base/digitseq/cl_DS.h: Likewise. * src/base/digitseq/cl_DS_mul.c: Likewise. * src/base/digitseq/cl_DS_mul_fftc.h: Likewise. * src/base/digitseq/cl_DS_mul_fftcs.h: Likewise. * src/base/digitseq/cl_DS_mul_fftm.h: Likewise. * src/base/digitseq/cl_DS_mul_fftp.h: Likewise. * src/base/digitseq/cl_DS_mul_fftp3.h: Likewise. * src/base/digitseq/cl_DS_mul_fftp3m.h: Likewise. * src/base/digitseq/cl_DS_mul_fftr.h: Likewise. * src/base/digitseq/cl_DS_mul_kara.h: Likewise. * src/base/digitseq/cl_DS_mul_nuss.h: Likewise. * src/base/digitseq/cl_DS_recip.cc: Likewise. * src/base/digitseq/cl_DS_recipsqrt.cc: Likewise. * src/base/digitseq/cl_DS_sqrt.cc: Likewise. * src/base/digitseq/cl_DS_trandom.cc: Likewise. * src/complex/input/cl_N_read.cc: Likewise. * src/complex/transcendental/cl_C_asinh_aux.cc: Likewise. * src/complex/transcendental/cl_C_expt_C.cc: Likewise. * src/float/cl_F.h: Likewise. * src/float/conv/cl_F_from_F_f.cc: Likewise. * src/float/conv/cl_F_from_I_f.cc: Likewise. * src/float/conv/cl_F_from_RA_f.cc: Likewise. * src/float/dfloat/conv/cl_I_to_double.cc: Likewise. * src/float/dfloat/conv/cl_RA_to_double.cc: Likewise. * src/float/dfloat/elem/cl_DF_from_I.cc: Likewise. * src/float/dfloat/elem/cl_DF_from_RA.cc: Likewise. * src/float/dfloat/elem/cl_DF_scale.cc: Likewise. * src/float/dfloat/misc/cl_DF_digits.cc: Likewise. * src/float/dfloat/misc/cl_DF_precision.cc: Likewise. * src/float/elem/cl_F_scale.cc: Likewise. * src/float/ffloat/conv/cl_I_to_float.cc: Likewise. * src/float/ffloat/conv/cl_RA_to_float.cc: Likewise. * src/float/ffloat/elem/cl_FF_from_I.cc: Likewise. * src/float/ffloat/elem/cl_FF_from_RA.cc: Likewise. * src/float/ffloat/elem/cl_FF_scale.cc: Likewise. * src/float/ffloat/misc/cl_FF_digits.cc: Likewise. * src/float/ffloat/misc/cl_FF_precision.cc: Likewise. * src/float/input/cl_F_read.cc: Likewise. * src/float/lfloat/algebraic/cl_LF_sqrt.cc: Likewise. * src/float/lfloat/elem/cl_LF_1plus.cc: Likewise. * src/float/lfloat/elem/cl_LF_I_div.cc: Likewise. * src/float/lfloat/elem/cl_LF_I_mul.cc: Likewise. * src/float/lfloat/elem/cl_LF_div.cc: Likewise. * src/float/lfloat/elem/cl_LF_from_I.cc: Likewise. * src/float/lfloat/elem/cl_LF_from_RA.cc: Likewise. * src/float/lfloat/elem/cl_LF_fround.cc: Likewise. * src/float/lfloat/elem/cl_LF_ftrunc.cc: Likewise. * src/float/lfloat/elem/cl_LF_futrunc.cc: Likewise. * src/float/lfloat/elem/cl_LF_scale.cc: Likewise. * src/float/lfloat/elem/cl_LF_to_I.cc: Likewise. * src/float/lfloat/misc/cl_LF_digits.cc: Likewise. * src/float/lfloat/misc/cl_LF_idecode.cc: Likewise. * src/float/lfloat/misc/cl_LF_leninc.cc: Likewise. * src/float/lfloat/misc/cl_LF_lenincx.cc: Likewise. * src/float/lfloat/misc/cl_LF_precision.cc: Likewise. * src/float/lfloat/misc/cl_LF_shortenrel.cc: Likewise. * src/float/lfloat/misc/cl_LF_shortenwith.cc: Likewise. * src/float/misc/cl_F_digits.cc: Likewise. * src/float/misc/cl_F_epsneg.cc: Likewise. * src/float/misc/cl_F_epspos.cc: Likewise. * src/float/misc/cl_F_leastneg.cc: Likewise. * src/float/misc/cl_F_leastpos.cc: Likewise. * src/float/misc/cl_F_mostneg.cc: Likewise. * src/float/misc/cl_F_mostpos.cc: Likewise. * src/float/misc/cl_F_precision.cc: Likewise. * src/float/misc/cl_F_rational.cc: Likewise. * src/float/misc/cl_F_shortenrel.cc: Likewise. * src/float/output/cl_F_dprint.cc: Likewise. * src/float/random/cl_F_random.cc: Likewise. * src/float/sfloat/elem/cl_SF_from_I.cc: Likewise. * src/float/sfloat/elem/cl_SF_from_RA.cc: Likewise. * src/float/sfloat/elem/cl_SF_scale.cc: Likewise. * src/float/sfloat/misc/cl_SF_digits.cc: Likewise. * src/float/sfloat/misc/cl_SF_precision.cc: Likewise. * src/float/transcendental/cl_F_atanhx.cc: Likewise. * src/float/transcendental/cl_F_atanx.cc: Likewise. * src/float/transcendental/cl_F_catalanconst_f.cc: Likewise. * src/float/transcendental/cl_F_cos.cc: Likewise. * src/float/transcendental/cl_F_cosh.cc: Likewise. * src/float/transcendental/cl_F_coshsinh.cc: Likewise. * src/float/transcendental/cl_F_cossin.cc: Likewise. * src/float/transcendental/cl_F_eulerconst_f.cc: Likewise. * src/float/transcendental/cl_F_exp1_f.cc: Likewise. * src/float/transcendental/cl_F_expx.cc: Likewise. * src/float/transcendental/cl_F_ln10_f.cc: Likewise. * src/float/transcendental/cl_F_ln2_f.cc: Likewise. * src/float/transcendental/cl_F_lnx.cc: Likewise. * src/float/transcendental/cl_F_pi_f.cc: Likewise. * src/float/transcendental/cl_F_sin.cc: Likewise. * src/float/transcendental/cl_F_sinh.cc: Likewise. * src/float/transcendental/cl_F_sinhx.cc: Likewise. * src/float/transcendental/cl_F_sinx.cc: Likewise. * src/float/transcendental/cl_F_tran.h: Likewise. * src/float/transcendental/cl_F_zeta_int_f.cc: Likewise. * src/float/transcendental/cl_LF_atan_recip.cc: Likewise. * src/float/transcendental/cl_LF_atanh_recip.cc: Likewise. * src/float/transcendental/cl_LF_catalanconst.cc: Likewise. * src/float/transcendental/cl_LF_coshsinh_aux.cc: Likewise. * src/float/transcendental/cl_LF_cossin_aux.cc: Likewise. * src/float/transcendental/cl_LF_eulerconst.cc: Likewise. * src/float/transcendental/cl_LF_exp1.cc: Likewise. * src/float/transcendental/cl_LF_exp_aux.cc: Likewise. * src/float/transcendental/cl_LF_pi.cc: Likewise. * src/float/transcendental/cl_LF_ratseries.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_a.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_ab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_b.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_p.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pa.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pb.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pq.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pqa.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pqab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pqb.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_q.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_qa.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_qab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_qb.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_stream_pq.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_stream_pqa.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_stream_pqab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_stream_pqb.cc: Likewise. * src/float/transcendental/cl_LF_ratsumseries_pqcd.cc: Likewise. * src/float/transcendental/cl_LF_ratsumseries_pqcd_aux.cc: Likewise. * src/float/transcendental/cl_LF_ratsumseries_pqd.cc: Likewise. * src/float/transcendental/cl_LF_ratsumseries_pqd_aux.cc: Likewise. * src/float/transcendental/cl_LF_tran.h: Likewise. * src/float/transcendental/cl_LF_zeta3.cc: Likewise. * src/float/transcendental/cl_LF_zeta_int.cc: Likewise. * src/integer/algebraic/cl_I_rootp_I.cc: Likewise. * src/integer/algebraic/cl_I_rootp_aux.cc: Likewise. * src/integer/bitwise/cl_I_ash.cc: Likewise. * src/integer/bitwise/cl_I_ash_I.cc: Likewise. * src/integer/bitwise/cl_I_byte.h: Likewise. * src/integer/bitwise/cl_I_fullbyte.cc: Likewise. * src/integer/bitwise/cl_I_ilength.cc: Likewise. * src/integer/bitwise/cl_I_ldb.cc: Likewise. * src/integer/bitwise/cl_I_ldbtest.cc: Likewise. * src/integer/bitwise/cl_I_ldbx.cc: Likewise. * src/integer/bitwise/cl_I_ldbxtest.cc: Likewise. * src/integer/bitwise/cl_I_logbitp.cc: Likewise. * src/integer/bitwise/cl_I_logbitp_I.cc: Likewise. * src/integer/bitwise/cl_I_logcount.cc: Likewise. * src/integer/bitwise/cl_I_mkf.cc: Likewise. * src/integer/bitwise/cl_I_mkfx.cc: Likewise. * src/integer/cl_I.h: Likewise. * src/integer/conv/cl_I_to_digits.cc: Likewise. * src/integer/conv/cl_I_digits_need.cc: Likewise. * src/integer/conv/cl_I_from_digits.cc: Likewise. * src/integer/gcd/cl_I_gcd.cc: Likewise. * src/integer/gcd/cl_I_xgcd.cc: Likewise. * src/integer/misc/cl_I_eqhashcode.cc: Likewise. * src/integer/misc/cl_I_ord2.cc: Likewise. * src/integer/misc/cl_I_power2p.cc: Likewise. * src/integer/output/cl_I_cached_power.h (cached_power_table): allow for 40 elements. * src/integer/output/cl_I_decstring.cc: Use uintC instead of uintL where appropriate. * src/integer/output/cl_I_print.cc: Likewise. * src/integer/output/cl_I_print_string.cc: Likewise. * src/modinteger/cl_MI.cc: Likewise. * src/modinteger/cl_MI_lshift.cc: Likewise. * src/modinteger/cl_MI_montgom.h: Likewise. * src/modinteger/cl_MI_pow2.h: Likewise. * src/modinteger/cl_MI_pow2m1.h: Likewise. * src/modinteger/cl_MI_pow2p1.h: Likewise. * src/modinteger/cl_MI_rshift.cc: Likewise. * src/modinteger/cl_MI_std.h: Likewise. * src/numtheory/cl_IF_millerrabin.cc: Likewise. * src/numtheory/cl_nt_isprobprime.cc: Likewise. * src/numtheory/cl_nt_sqrtmodp.cc: Likewise. * src/polynomial/elem/cl_UP_GF2.h: Likewise. * src/real/conv/cl_F_from_R_f.cc: Likewise. * src/real/format-output/cl_fmt_floatstring.cc: Likewise. * src/real/input/cl_R_read.cc: Likewise. * src/vector/cl_GV_I.cc: Likewise. * src/vector/cl_GV_I_copy.cc: Likewise. * src/vector/cl_GV_number.cc: Likewise. * src/vector/cl_GV_number_copy.cc: Likewise. * src/vector/cl_SV_copy.cc: Likewise. * src/vector/cl_SV_number.cc: Likewise. * src/vector/cl_SV_ringelt.cc: Likewise. * tests/main.cc: Likewise. * tests/test_I_ilength.cc: Likewise. * tests/test_I_ord2.cc: Likewise.
19 years ago
25 years ago
Extend the exponent range from 32 bits to 64 bits on selected platforms. * include/cln/number.h: Add signatures for operations with long long. * include/cln/complex_class.h: Likewise. * include/cln/real_class.h: Likewise. * include/cln/real.h: Likewise. * include/cln/rational_class.h: Likewise. * include/cln/rational.h: Likewise. * include/cln/integer_class.h: Likewise. * include/cln/integer.h: Likewise. * include/cln/float.h: Likewise. * include/cln/lfloat.h: Likewise. * include/cln/types.h (sintE and uintE): New types for exponents. * include/cln/*float.h: Use the new types for exponents. * include/cln/floatformat.h (float_format_t): Make underlying type compatible with sintE. * doc/cln.tex: Document changed float_exponent return value. * src/float/cl_F.h: Likewise. * src/float/ffloat/misc/cl_FF_exponent.cc: Likewise. * src/float/input/cl_F_read.cc: Likewise. * src/float/lfloat/cl_LF.h: Likewise. * src/float/lfloat/cl_LF_impl.h: Likewise. * src/float/lfloat/algebraic/cl_LF_sqrt.cc: Likewise. * src/float/lfloat/elem/cl_LF_1plus.cc: Likewise. * src/float/lfloat/elem/cl_LF_I_div.cc: Likewise. * src/float/lfloat/elem/cl_LF_I_mul.cc: Likewise. * src/float/lfloat/elem/cl_LF_compare.cc: Likewise. * src/float/lfloat/elem/cl_LF_div.cc: Likewise. * src/float/lfloat/elem/cl_LF_from_I.cc: Likewise. * src/float/lfloat/elem/cl_LF_fround.cc: Likewise. * src/float/lfloat/elem/cl_LF_ftrunc.cc: Likewise. * src/float/lfloat/elem/cl_LF_futrunc.cc: Likewise. * src/float/lfloat/elem/cl_LF_mul.cc: Likewise. * src/float/lfloat/elem/cl_LF_scale.cc: Likewise. * src/float/lfloat/elem/cl_LF_scale_I.cc: Likewise. * src/float/lfloat/elem/cl_LF_square.cc: Likewise. * src/float/lfloat/elem/cl_LF_to_I.cc: Likewise. * src/float/lfloat/misc/cl_LF_decode.cc: Likewise. * src/float/lfloat/misc/cl_LF_exponent.cc: Likewise. * src/float/lfloat/misc/cl_LF_idecode.cc: Likewise. * src/float/lfloat/misc/cl_LF_shortenrel.cc: Likewise. * src/float/lfloat/misc/cl_LF_shortenwith.cc: Likewise. * src/float/misc/cl_F_decode.cc: Likewise. * src/float/misc/cl_F_exponent.cc: Likewise. * src/float/misc/cl_F_shortenrel.cc: Likewise. * src/float/misc/cl_float_format.cc: Likewise. * src/float/output/cl_F_dprint.cc: Likewise. * src/float/sfloat/misc/cl_SF_exponent.cc: Likewise. * src/float/transcendental/cl_F_atanhx.cc: Likewise. * src/float/transcendental/cl_F_atanx.cc: Likewise. * src/float/transcendental/cl_F_cosh.cc: Likewise. * src/float/transcendental/cl_F_expx.cc: Likewise. * src/float/transcendental/cl_F_lnx.cc: Likewise. * src/float/transcendental/cl_F_sinhx.cc: Likewise. * src/float/transcendental/cl_F_sinx.cc: Likewise. * src/float/transcendental/cl_LF_pi.cc: Likewise. * src/integer/cl_I.h: Likewise. * src/complex/algebraic/cl_LF_hypot.cc: Likewise. * src/complex/elem/division/cl_C_LF_recip.cc: Likewise. * src/float/dfloat/misc/cl_DF_exponent.cc: Likewise. * src/integer/conv/cl_I_from_Q2.cc: Added. * src/base/cl_low.h (isqrtC): New function, for 64 bit falls back to... * src/base/low/cl_low_isqrt.cc (isqrt): ...this new implementation. * src/base/cl_macros.h (bitc): Make sure 64 bit is used if required by exponent operations. * examples/pi.cc: Support more than 646456614 decimal digits.
18 years ago
25 years ago
25 years ago
25 years ago
2006-04-25 Bruno Haible <bruno@clisp.org> Richard B. Kreckel <kreckel@ginac.de> Make it theoretically possible to use bignums and long-floats with more than 2^32 significant digits or bits. * doc/cln.tex (logcount): Change return type to uintC. (struct cl_byte): Change elements to uintC. (integer_length, ord2, power2p): Change return type to uintC. (scale_float): Change argument type to sintC. (float_digits, float_precision): Change return type to uintC. * examples/atan_recip.cc: Use uintC instead of uintL where appropriate. * examples/atanh_recip.cc: Likewise. * include/cln/GV.h: Likewise. * include/cln/GV_complex.h: Likewise. * include/cln/GV_integer.h: Likewise. * include/cln/GV_modinteger.h: Likewise. * include/cln/GV_number.h: Likewise. * include/cln/GV_rational.h: Likewise. * include/cln/GV_real.h: Likewise. * include/cln/SV.h: Likewise. * include/cln/SV_complex.h: Likewise. * include/cln/SV_integer.h: Likewise. * include/cln/SV_number.h: Likewise. * include/cln/SV_rational.h: Likewise. * include/cln/SV_real.h: Likewise. * include/cln/SV_ringelt.h: Likewise. * include/cln/dfloat.h: Likewise. * include/cln/ffloat.h: Likewise. * include/cln/float.h: Likewise. * include/cln/integer.h: Likewise. * include/cln/lfloat.h: Likewise. * include/cln/modinteger.h: Likewise. * include/cln/sfloat.h: Likewise. * src/base/cl_low.h (integerlengthC): New macro. * src/base/digitseq/cl_2DS_div.cc: Use uintC instead of uintL where appropriate. * src/base/digitseq/cl_2DS_recip.cc: Likewise. * src/base/digitseq/cl_DS.h: Likewise. * src/base/digitseq/cl_DS_mul.c: Likewise. * src/base/digitseq/cl_DS_mul_fftc.h: Likewise. * src/base/digitseq/cl_DS_mul_fftcs.h: Likewise. * src/base/digitseq/cl_DS_mul_fftm.h: Likewise. * src/base/digitseq/cl_DS_mul_fftp.h: Likewise. * src/base/digitseq/cl_DS_mul_fftp3.h: Likewise. * src/base/digitseq/cl_DS_mul_fftp3m.h: Likewise. * src/base/digitseq/cl_DS_mul_fftr.h: Likewise. * src/base/digitseq/cl_DS_mul_kara.h: Likewise. * src/base/digitseq/cl_DS_mul_nuss.h: Likewise. * src/base/digitseq/cl_DS_recip.cc: Likewise. * src/base/digitseq/cl_DS_recipsqrt.cc: Likewise. * src/base/digitseq/cl_DS_sqrt.cc: Likewise. * src/base/digitseq/cl_DS_trandom.cc: Likewise. * src/complex/input/cl_N_read.cc: Likewise. * src/complex/transcendental/cl_C_asinh_aux.cc: Likewise. * src/complex/transcendental/cl_C_expt_C.cc: Likewise. * src/float/cl_F.h: Likewise. * src/float/conv/cl_F_from_F_f.cc: Likewise. * src/float/conv/cl_F_from_I_f.cc: Likewise. * src/float/conv/cl_F_from_RA_f.cc: Likewise. * src/float/dfloat/conv/cl_I_to_double.cc: Likewise. * src/float/dfloat/conv/cl_RA_to_double.cc: Likewise. * src/float/dfloat/elem/cl_DF_from_I.cc: Likewise. * src/float/dfloat/elem/cl_DF_from_RA.cc: Likewise. * src/float/dfloat/elem/cl_DF_scale.cc: Likewise. * src/float/dfloat/misc/cl_DF_digits.cc: Likewise. * src/float/dfloat/misc/cl_DF_precision.cc: Likewise. * src/float/elem/cl_F_scale.cc: Likewise. * src/float/ffloat/conv/cl_I_to_float.cc: Likewise. * src/float/ffloat/conv/cl_RA_to_float.cc: Likewise. * src/float/ffloat/elem/cl_FF_from_I.cc: Likewise. * src/float/ffloat/elem/cl_FF_from_RA.cc: Likewise. * src/float/ffloat/elem/cl_FF_scale.cc: Likewise. * src/float/ffloat/misc/cl_FF_digits.cc: Likewise. * src/float/ffloat/misc/cl_FF_precision.cc: Likewise. * src/float/input/cl_F_read.cc: Likewise. * src/float/lfloat/algebraic/cl_LF_sqrt.cc: Likewise. * src/float/lfloat/elem/cl_LF_1plus.cc: Likewise. * src/float/lfloat/elem/cl_LF_I_div.cc: Likewise. * src/float/lfloat/elem/cl_LF_I_mul.cc: Likewise. * src/float/lfloat/elem/cl_LF_div.cc: Likewise. * src/float/lfloat/elem/cl_LF_from_I.cc: Likewise. * src/float/lfloat/elem/cl_LF_from_RA.cc: Likewise. * src/float/lfloat/elem/cl_LF_fround.cc: Likewise. * src/float/lfloat/elem/cl_LF_ftrunc.cc: Likewise. * src/float/lfloat/elem/cl_LF_futrunc.cc: Likewise. * src/float/lfloat/elem/cl_LF_scale.cc: Likewise. * src/float/lfloat/elem/cl_LF_to_I.cc: Likewise. * src/float/lfloat/misc/cl_LF_digits.cc: Likewise. * src/float/lfloat/misc/cl_LF_idecode.cc: Likewise. * src/float/lfloat/misc/cl_LF_leninc.cc: Likewise. * src/float/lfloat/misc/cl_LF_lenincx.cc: Likewise. * src/float/lfloat/misc/cl_LF_precision.cc: Likewise. * src/float/lfloat/misc/cl_LF_shortenrel.cc: Likewise. * src/float/lfloat/misc/cl_LF_shortenwith.cc: Likewise. * src/float/misc/cl_F_digits.cc: Likewise. * src/float/misc/cl_F_epsneg.cc: Likewise. * src/float/misc/cl_F_epspos.cc: Likewise. * src/float/misc/cl_F_leastneg.cc: Likewise. * src/float/misc/cl_F_leastpos.cc: Likewise. * src/float/misc/cl_F_mostneg.cc: Likewise. * src/float/misc/cl_F_mostpos.cc: Likewise. * src/float/misc/cl_F_precision.cc: Likewise. * src/float/misc/cl_F_rational.cc: Likewise. * src/float/misc/cl_F_shortenrel.cc: Likewise. * src/float/output/cl_F_dprint.cc: Likewise. * src/float/random/cl_F_random.cc: Likewise. * src/float/sfloat/elem/cl_SF_from_I.cc: Likewise. * src/float/sfloat/elem/cl_SF_from_RA.cc: Likewise. * src/float/sfloat/elem/cl_SF_scale.cc: Likewise. * src/float/sfloat/misc/cl_SF_digits.cc: Likewise. * src/float/sfloat/misc/cl_SF_precision.cc: Likewise. * src/float/transcendental/cl_F_atanhx.cc: Likewise. * src/float/transcendental/cl_F_atanx.cc: Likewise. * src/float/transcendental/cl_F_catalanconst_f.cc: Likewise. * src/float/transcendental/cl_F_cos.cc: Likewise. * src/float/transcendental/cl_F_cosh.cc: Likewise. * src/float/transcendental/cl_F_coshsinh.cc: Likewise. * src/float/transcendental/cl_F_cossin.cc: Likewise. * src/float/transcendental/cl_F_eulerconst_f.cc: Likewise. * src/float/transcendental/cl_F_exp1_f.cc: Likewise. * src/float/transcendental/cl_F_expx.cc: Likewise. * src/float/transcendental/cl_F_ln10_f.cc: Likewise. * src/float/transcendental/cl_F_ln2_f.cc: Likewise. * src/float/transcendental/cl_F_lnx.cc: Likewise. * src/float/transcendental/cl_F_pi_f.cc: Likewise. * src/float/transcendental/cl_F_sin.cc: Likewise. * src/float/transcendental/cl_F_sinh.cc: Likewise. * src/float/transcendental/cl_F_sinhx.cc: Likewise. * src/float/transcendental/cl_F_sinx.cc: Likewise. * src/float/transcendental/cl_F_tran.h: Likewise. * src/float/transcendental/cl_F_zeta_int_f.cc: Likewise. * src/float/transcendental/cl_LF_atan_recip.cc: Likewise. * src/float/transcendental/cl_LF_atanh_recip.cc: Likewise. * src/float/transcendental/cl_LF_catalanconst.cc: Likewise. * src/float/transcendental/cl_LF_coshsinh_aux.cc: Likewise. * src/float/transcendental/cl_LF_cossin_aux.cc: Likewise. * src/float/transcendental/cl_LF_eulerconst.cc: Likewise. * src/float/transcendental/cl_LF_exp1.cc: Likewise. * src/float/transcendental/cl_LF_exp_aux.cc: Likewise. * src/float/transcendental/cl_LF_pi.cc: Likewise. * src/float/transcendental/cl_LF_ratseries.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_a.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_ab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_b.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_p.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pa.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pb.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pq.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pqa.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pqab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pqb.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_q.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_qa.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_qab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_qb.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_stream_pq.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_stream_pqa.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_stream_pqab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_stream_pqb.cc: Likewise. * src/float/transcendental/cl_LF_ratsumseries_pqcd.cc: Likewise. * src/float/transcendental/cl_LF_ratsumseries_pqcd_aux.cc: Likewise. * src/float/transcendental/cl_LF_ratsumseries_pqd.cc: Likewise. * src/float/transcendental/cl_LF_ratsumseries_pqd_aux.cc: Likewise. * src/float/transcendental/cl_LF_tran.h: Likewise. * src/float/transcendental/cl_LF_zeta3.cc: Likewise. * src/float/transcendental/cl_LF_zeta_int.cc: Likewise. * src/integer/algebraic/cl_I_rootp_I.cc: Likewise. * src/integer/algebraic/cl_I_rootp_aux.cc: Likewise. * src/integer/bitwise/cl_I_ash.cc: Likewise. * src/integer/bitwise/cl_I_ash_I.cc: Likewise. * src/integer/bitwise/cl_I_byte.h: Likewise. * src/integer/bitwise/cl_I_fullbyte.cc: Likewise. * src/integer/bitwise/cl_I_ilength.cc: Likewise. * src/integer/bitwise/cl_I_ldb.cc: Likewise. * src/integer/bitwise/cl_I_ldbtest.cc: Likewise. * src/integer/bitwise/cl_I_ldbx.cc: Likewise. * src/integer/bitwise/cl_I_ldbxtest.cc: Likewise. * src/integer/bitwise/cl_I_logbitp.cc: Likewise. * src/integer/bitwise/cl_I_logbitp_I.cc: Likewise. * src/integer/bitwise/cl_I_logcount.cc: Likewise. * src/integer/bitwise/cl_I_mkf.cc: Likewise. * src/integer/bitwise/cl_I_mkfx.cc: Likewise. * src/integer/cl_I.h: Likewise. * src/integer/conv/cl_I_to_digits.cc: Likewise. * src/integer/conv/cl_I_digits_need.cc: Likewise. * src/integer/conv/cl_I_from_digits.cc: Likewise. * src/integer/gcd/cl_I_gcd.cc: Likewise. * src/integer/gcd/cl_I_xgcd.cc: Likewise. * src/integer/misc/cl_I_eqhashcode.cc: Likewise. * src/integer/misc/cl_I_ord2.cc: Likewise. * src/integer/misc/cl_I_power2p.cc: Likewise. * src/integer/output/cl_I_cached_power.h (cached_power_table): allow for 40 elements. * src/integer/output/cl_I_decstring.cc: Use uintC instead of uintL where appropriate. * src/integer/output/cl_I_print.cc: Likewise. * src/integer/output/cl_I_print_string.cc: Likewise. * src/modinteger/cl_MI.cc: Likewise. * src/modinteger/cl_MI_lshift.cc: Likewise. * src/modinteger/cl_MI_montgom.h: Likewise. * src/modinteger/cl_MI_pow2.h: Likewise. * src/modinteger/cl_MI_pow2m1.h: Likewise. * src/modinteger/cl_MI_pow2p1.h: Likewise. * src/modinteger/cl_MI_rshift.cc: Likewise. * src/modinteger/cl_MI_std.h: Likewise. * src/numtheory/cl_IF_millerrabin.cc: Likewise. * src/numtheory/cl_nt_isprobprime.cc: Likewise. * src/numtheory/cl_nt_sqrtmodp.cc: Likewise. * src/polynomial/elem/cl_UP_GF2.h: Likewise. * src/real/conv/cl_F_from_R_f.cc: Likewise. * src/real/format-output/cl_fmt_floatstring.cc: Likewise. * src/real/input/cl_R_read.cc: Likewise. * src/vector/cl_GV_I.cc: Likewise. * src/vector/cl_GV_I_copy.cc: Likewise. * src/vector/cl_GV_number.cc: Likewise. * src/vector/cl_GV_number_copy.cc: Likewise. * src/vector/cl_SV_copy.cc: Likewise. * src/vector/cl_SV_number.cc: Likewise. * src/vector/cl_SV_ringelt.cc: Likewise. * tests/main.cc: Likewise. * tests/test_I_ilength.cc: Likewise. * tests/test_I_ord2.cc: Likewise.
19 years ago
25 years ago
2006-04-25 Bruno Haible <bruno@clisp.org> Richard B. Kreckel <kreckel@ginac.de> Make it theoretically possible to use bignums and long-floats with more than 2^32 significant digits or bits. * doc/cln.tex (logcount): Change return type to uintC. (struct cl_byte): Change elements to uintC. (integer_length, ord2, power2p): Change return type to uintC. (scale_float): Change argument type to sintC. (float_digits, float_precision): Change return type to uintC. * examples/atan_recip.cc: Use uintC instead of uintL where appropriate. * examples/atanh_recip.cc: Likewise. * include/cln/GV.h: Likewise. * include/cln/GV_complex.h: Likewise. * include/cln/GV_integer.h: Likewise. * include/cln/GV_modinteger.h: Likewise. * include/cln/GV_number.h: Likewise. * include/cln/GV_rational.h: Likewise. * include/cln/GV_real.h: Likewise. * include/cln/SV.h: Likewise. * include/cln/SV_complex.h: Likewise. * include/cln/SV_integer.h: Likewise. * include/cln/SV_number.h: Likewise. * include/cln/SV_rational.h: Likewise. * include/cln/SV_real.h: Likewise. * include/cln/SV_ringelt.h: Likewise. * include/cln/dfloat.h: Likewise. * include/cln/ffloat.h: Likewise. * include/cln/float.h: Likewise. * include/cln/integer.h: Likewise. * include/cln/lfloat.h: Likewise. * include/cln/modinteger.h: Likewise. * include/cln/sfloat.h: Likewise. * src/base/cl_low.h (integerlengthC): New macro. * src/base/digitseq/cl_2DS_div.cc: Use uintC instead of uintL where appropriate. * src/base/digitseq/cl_2DS_recip.cc: Likewise. * src/base/digitseq/cl_DS.h: Likewise. * src/base/digitseq/cl_DS_mul.c: Likewise. * src/base/digitseq/cl_DS_mul_fftc.h: Likewise. * src/base/digitseq/cl_DS_mul_fftcs.h: Likewise. * src/base/digitseq/cl_DS_mul_fftm.h: Likewise. * src/base/digitseq/cl_DS_mul_fftp.h: Likewise. * src/base/digitseq/cl_DS_mul_fftp3.h: Likewise. * src/base/digitseq/cl_DS_mul_fftp3m.h: Likewise. * src/base/digitseq/cl_DS_mul_fftr.h: Likewise. * src/base/digitseq/cl_DS_mul_kara.h: Likewise. * src/base/digitseq/cl_DS_mul_nuss.h: Likewise. * src/base/digitseq/cl_DS_recip.cc: Likewise. * src/base/digitseq/cl_DS_recipsqrt.cc: Likewise. * src/base/digitseq/cl_DS_sqrt.cc: Likewise. * src/base/digitseq/cl_DS_trandom.cc: Likewise. * src/complex/input/cl_N_read.cc: Likewise. * src/complex/transcendental/cl_C_asinh_aux.cc: Likewise. * src/complex/transcendental/cl_C_expt_C.cc: Likewise. * src/float/cl_F.h: Likewise. * src/float/conv/cl_F_from_F_f.cc: Likewise. * src/float/conv/cl_F_from_I_f.cc: Likewise. * src/float/conv/cl_F_from_RA_f.cc: Likewise. * src/float/dfloat/conv/cl_I_to_double.cc: Likewise. * src/float/dfloat/conv/cl_RA_to_double.cc: Likewise. * src/float/dfloat/elem/cl_DF_from_I.cc: Likewise. * src/float/dfloat/elem/cl_DF_from_RA.cc: Likewise. * src/float/dfloat/elem/cl_DF_scale.cc: Likewise. * src/float/dfloat/misc/cl_DF_digits.cc: Likewise. * src/float/dfloat/misc/cl_DF_precision.cc: Likewise. * src/float/elem/cl_F_scale.cc: Likewise. * src/float/ffloat/conv/cl_I_to_float.cc: Likewise. * src/float/ffloat/conv/cl_RA_to_float.cc: Likewise. * src/float/ffloat/elem/cl_FF_from_I.cc: Likewise. * src/float/ffloat/elem/cl_FF_from_RA.cc: Likewise. * src/float/ffloat/elem/cl_FF_scale.cc: Likewise. * src/float/ffloat/misc/cl_FF_digits.cc: Likewise. * src/float/ffloat/misc/cl_FF_precision.cc: Likewise. * src/float/input/cl_F_read.cc: Likewise. * src/float/lfloat/algebraic/cl_LF_sqrt.cc: Likewise. * src/float/lfloat/elem/cl_LF_1plus.cc: Likewise. * src/float/lfloat/elem/cl_LF_I_div.cc: Likewise. * src/float/lfloat/elem/cl_LF_I_mul.cc: Likewise. * src/float/lfloat/elem/cl_LF_div.cc: Likewise. * src/float/lfloat/elem/cl_LF_from_I.cc: Likewise. * src/float/lfloat/elem/cl_LF_from_RA.cc: Likewise. * src/float/lfloat/elem/cl_LF_fround.cc: Likewise. * src/float/lfloat/elem/cl_LF_ftrunc.cc: Likewise. * src/float/lfloat/elem/cl_LF_futrunc.cc: Likewise. * src/float/lfloat/elem/cl_LF_scale.cc: Likewise. * src/float/lfloat/elem/cl_LF_to_I.cc: Likewise. * src/float/lfloat/misc/cl_LF_digits.cc: Likewise. * src/float/lfloat/misc/cl_LF_idecode.cc: Likewise. * src/float/lfloat/misc/cl_LF_leninc.cc: Likewise. * src/float/lfloat/misc/cl_LF_lenincx.cc: Likewise. * src/float/lfloat/misc/cl_LF_precision.cc: Likewise. * src/float/lfloat/misc/cl_LF_shortenrel.cc: Likewise. * src/float/lfloat/misc/cl_LF_shortenwith.cc: Likewise. * src/float/misc/cl_F_digits.cc: Likewise. * src/float/misc/cl_F_epsneg.cc: Likewise. * src/float/misc/cl_F_epspos.cc: Likewise. * src/float/misc/cl_F_leastneg.cc: Likewise. * src/float/misc/cl_F_leastpos.cc: Likewise. * src/float/misc/cl_F_mostneg.cc: Likewise. * src/float/misc/cl_F_mostpos.cc: Likewise. * src/float/misc/cl_F_precision.cc: Likewise. * src/float/misc/cl_F_rational.cc: Likewise. * src/float/misc/cl_F_shortenrel.cc: Likewise. * src/float/output/cl_F_dprint.cc: Likewise. * src/float/random/cl_F_random.cc: Likewise. * src/float/sfloat/elem/cl_SF_from_I.cc: Likewise. * src/float/sfloat/elem/cl_SF_from_RA.cc: Likewise. * src/float/sfloat/elem/cl_SF_scale.cc: Likewise. * src/float/sfloat/misc/cl_SF_digits.cc: Likewise. * src/float/sfloat/misc/cl_SF_precision.cc: Likewise. * src/float/transcendental/cl_F_atanhx.cc: Likewise. * src/float/transcendental/cl_F_atanx.cc: Likewise. * src/float/transcendental/cl_F_catalanconst_f.cc: Likewise. * src/float/transcendental/cl_F_cos.cc: Likewise. * src/float/transcendental/cl_F_cosh.cc: Likewise. * src/float/transcendental/cl_F_coshsinh.cc: Likewise. * src/float/transcendental/cl_F_cossin.cc: Likewise. * src/float/transcendental/cl_F_eulerconst_f.cc: Likewise. * src/float/transcendental/cl_F_exp1_f.cc: Likewise. * src/float/transcendental/cl_F_expx.cc: Likewise. * src/float/transcendental/cl_F_ln10_f.cc: Likewise. * src/float/transcendental/cl_F_ln2_f.cc: Likewise. * src/float/transcendental/cl_F_lnx.cc: Likewise. * src/float/transcendental/cl_F_pi_f.cc: Likewise. * src/float/transcendental/cl_F_sin.cc: Likewise. * src/float/transcendental/cl_F_sinh.cc: Likewise. * src/float/transcendental/cl_F_sinhx.cc: Likewise. * src/float/transcendental/cl_F_sinx.cc: Likewise. * src/float/transcendental/cl_F_tran.h: Likewise. * src/float/transcendental/cl_F_zeta_int_f.cc: Likewise. * src/float/transcendental/cl_LF_atan_recip.cc: Likewise. * src/float/transcendental/cl_LF_atanh_recip.cc: Likewise. * src/float/transcendental/cl_LF_catalanconst.cc: Likewise. * src/float/transcendental/cl_LF_coshsinh_aux.cc: Likewise. * src/float/transcendental/cl_LF_cossin_aux.cc: Likewise. * src/float/transcendental/cl_LF_eulerconst.cc: Likewise. * src/float/transcendental/cl_LF_exp1.cc: Likewise. * src/float/transcendental/cl_LF_exp_aux.cc: Likewise. * src/float/transcendental/cl_LF_pi.cc: Likewise. * src/float/transcendental/cl_LF_ratseries.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_a.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_ab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_b.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_p.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pa.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pb.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pq.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pqa.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pqab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_pqb.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_q.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_qa.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_qab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_qb.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_stream_pq.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_stream_pqa.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_stream_pqab.cc: Likewise. * src/float/transcendental/cl_LF_ratseries_stream_pqb.cc: Likewise. * src/float/transcendental/cl_LF_ratsumseries_pqcd.cc: Likewise. * src/float/transcendental/cl_LF_ratsumseries_pqcd_aux.cc: Likewise. * src/float/transcendental/cl_LF_ratsumseries_pqd.cc: Likewise. * src/float/transcendental/cl_LF_ratsumseries_pqd_aux.cc: Likewise. * src/float/transcendental/cl_LF_tran.h: Likewise. * src/float/transcendental/cl_LF_zeta3.cc: Likewise. * src/float/transcendental/cl_LF_zeta_int.cc: Likewise. * src/integer/algebraic/cl_I_rootp_I.cc: Likewise. * src/integer/algebraic/cl_I_rootp_aux.cc: Likewise. * src/integer/bitwise/cl_I_ash.cc: Likewise. * src/integer/bitwise/cl_I_ash_I.cc: Likewise. * src/integer/bitwise/cl_I_byte.h: Likewise. * src/integer/bitwise/cl_I_fullbyte.cc: Likewise. * src/integer/bitwise/cl_I_ilength.cc: Likewise. * src/integer/bitwise/cl_I_ldb.cc: Likewise. * src/integer/bitwise/cl_I_ldbtest.cc: Likewise. * src/integer/bitwise/cl_I_ldbx.cc: Likewise. * src/integer/bitwise/cl_I_ldbxtest.cc: Likewise. * src/integer/bitwise/cl_I_logbitp.cc: Likewise. * src/integer/bitwise/cl_I_logbitp_I.cc: Likewise. * src/integer/bitwise/cl_I_logcount.cc: Likewise. * src/integer/bitwise/cl_I_mkf.cc: Likewise. * src/integer/bitwise/cl_I_mkfx.cc: Likewise. * src/integer/cl_I.h: Likewise. * src/integer/conv/cl_I_to_digits.cc: Likewise. * src/integer/conv/cl_I_digits_need.cc: Likewise. * src/integer/conv/cl_I_from_digits.cc: Likewise. * src/integer/gcd/cl_I_gcd.cc: Likewise. * src/integer/gcd/cl_I_xgcd.cc: Likewise. * src/integer/misc/cl_I_eqhashcode.cc: Likewise. * src/integer/misc/cl_I_ord2.cc: Likewise. * src/integer/misc/cl_I_power2p.cc: Likewise. * src/integer/output/cl_I_cached_power.h (cached_power_table): allow for 40 elements. * src/integer/output/cl_I_decstring.cc: Use uintC instead of uintL where appropriate. * src/integer/output/cl_I_print.cc: Likewise. * src/integer/output/cl_I_print_string.cc: Likewise. * src/modinteger/cl_MI.cc: Likewise. * src/modinteger/cl_MI_lshift.cc: Likewise. * src/modinteger/cl_MI_montgom.h: Likewise. * src/modinteger/cl_MI_pow2.h: Likewise. * src/modinteger/cl_MI_pow2m1.h: Likewise. * src/modinteger/cl_MI_pow2p1.h: Likewise. * src/modinteger/cl_MI_rshift.cc: Likewise. * src/modinteger/cl_MI_std.h: Likewise. * src/numtheory/cl_IF_millerrabin.cc: Likewise. * src/numtheory/cl_nt_isprobprime.cc: Likewise. * src/numtheory/cl_nt_sqrtmodp.cc: Likewise. * src/polynomial/elem/cl_UP_GF2.h: Likewise. * src/real/conv/cl_F_from_R_f.cc: Likewise. * src/real/format-output/cl_fmt_floatstring.cc: Likewise. * src/real/input/cl_R_read.cc: Likewise. * src/vector/cl_GV_I.cc: Likewise. * src/vector/cl_GV_I_copy.cc: Likewise. * src/vector/cl_GV_number.cc: Likewise. * src/vector/cl_GV_number_copy.cc: Likewise. * src/vector/cl_SV_copy.cc: Likewise. * src/vector/cl_SV_number.cc: Likewise. * src/vector/cl_SV_ringelt.cc: Likewise. * tests/main.cc: Likewise. * tests/test_I_ilength.cc: Likewise. * tests/test_I_ord2.cc: Likewise.
19 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
Extend the exponent range from 32 bits to 64 bits on selected platforms. * include/cln/number.h: Add signatures for operations with long long. * include/cln/complex_class.h: Likewise. * include/cln/real_class.h: Likewise. * include/cln/real.h: Likewise. * include/cln/rational_class.h: Likewise. * include/cln/rational.h: Likewise. * include/cln/integer_class.h: Likewise. * include/cln/integer.h: Likewise. * include/cln/float.h: Likewise. * include/cln/lfloat.h: Likewise. * include/cln/types.h (sintE and uintE): New types for exponents. * include/cln/*float.h: Use the new types for exponents. * include/cln/floatformat.h (float_format_t): Make underlying type compatible with sintE. * doc/cln.tex: Document changed float_exponent return value. * src/float/cl_F.h: Likewise. * src/float/ffloat/misc/cl_FF_exponent.cc: Likewise. * src/float/input/cl_F_read.cc: Likewise. * src/float/lfloat/cl_LF.h: Likewise. * src/float/lfloat/cl_LF_impl.h: Likewise. * src/float/lfloat/algebraic/cl_LF_sqrt.cc: Likewise. * src/float/lfloat/elem/cl_LF_1plus.cc: Likewise. * src/float/lfloat/elem/cl_LF_I_div.cc: Likewise. * src/float/lfloat/elem/cl_LF_I_mul.cc: Likewise. * src/float/lfloat/elem/cl_LF_compare.cc: Likewise. * src/float/lfloat/elem/cl_LF_div.cc: Likewise. * src/float/lfloat/elem/cl_LF_from_I.cc: Likewise. * src/float/lfloat/elem/cl_LF_fround.cc: Likewise. * src/float/lfloat/elem/cl_LF_ftrunc.cc: Likewise. * src/float/lfloat/elem/cl_LF_futrunc.cc: Likewise. * src/float/lfloat/elem/cl_LF_mul.cc: Likewise. * src/float/lfloat/elem/cl_LF_scale.cc: Likewise. * src/float/lfloat/elem/cl_LF_scale_I.cc: Likewise. * src/float/lfloat/elem/cl_LF_square.cc: Likewise. * src/float/lfloat/elem/cl_LF_to_I.cc: Likewise. * src/float/lfloat/misc/cl_LF_decode.cc: Likewise. * src/float/lfloat/misc/cl_LF_exponent.cc: Likewise. * src/float/lfloat/misc/cl_LF_idecode.cc: Likewise. * src/float/lfloat/misc/cl_LF_shortenrel.cc: Likewise. * src/float/lfloat/misc/cl_LF_shortenwith.cc: Likewise. * src/float/misc/cl_F_decode.cc: Likewise. * src/float/misc/cl_F_exponent.cc: Likewise. * src/float/misc/cl_F_shortenrel.cc: Likewise. * src/float/misc/cl_float_format.cc: Likewise. * src/float/output/cl_F_dprint.cc: Likewise. * src/float/sfloat/misc/cl_SF_exponent.cc: Likewise. * src/float/transcendental/cl_F_atanhx.cc: Likewise. * src/float/transcendental/cl_F_atanx.cc: Likewise. * src/float/transcendental/cl_F_cosh.cc: Likewise. * src/float/transcendental/cl_F_expx.cc: Likewise. * src/float/transcendental/cl_F_lnx.cc: Likewise. * src/float/transcendental/cl_F_sinhx.cc: Likewise. * src/float/transcendental/cl_F_sinx.cc: Likewise. * src/float/transcendental/cl_LF_pi.cc: Likewise. * src/integer/cl_I.h: Likewise. * src/complex/algebraic/cl_LF_hypot.cc: Likewise. * src/complex/elem/division/cl_C_LF_recip.cc: Likewise. * src/float/dfloat/misc/cl_DF_exponent.cc: Likewise. * src/integer/conv/cl_I_from_Q2.cc: Added. * src/base/cl_low.h (isqrtC): New function, for 64 bit falls back to... * src/base/low/cl_low_isqrt.cc (isqrt): ...this new implementation. * src/base/cl_macros.h (bitc): Make sure 64 bit is used if required by exponent operations. * examples/pi.cc: Support more than 646456614 decimal digits.
18 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
Remove exception hooks in favor of real C++ exceptions: * include/cln/exception.h: New file... * include/cln/cln.h: ...included here... * include/cln/rational.h: ...and here. * include/cln/abort.h: Removed. * include/cln/integer.h (ash_exception, exquo_exception): Add exception types. * include/cln/float.h (floating_point_exception, floating_point_nan_exception, floating_point_overflow_exception, floating_point_underflow_exception): Likewise. * include/cln/number_io.h (read_number_exception, read_number_bad_syntax_exception, read_number_junk_exception, read_number_eof_exception): Likewise. * include/cln/object.h (CL_DEFINE_CONVERTER): Replace dynamic assertion with a compile-time assertion. * include/cln/GV.h: Replace nonreturning functions with exceptions. * include/cln/modinteger.h: Likewise. * include/cln/SV.h: Likewise. * include/cln/ring.h: Likewise. * include/cln/string.h: Likewise. * include/cln/univpoly.h: Likewise. * src/base/cl_abort.cc: Removed. * src/base/cl_N_err_d0.cc: Removed. * src/base/cl_d0_exception.cc: New file. * src/base/cl_as_err.cc: Removed. * src/base/cl_as_exception.cc: New file. * src/base/cl_notreached.cc: Removed. * src/base/cl_notreached_exception.cc: New file. * src/base/input/cl_read_err_bad.cc: Removed. * src/base/input/cl_read_bad_syntax_exception.cc: New file. * src/base/input/cl_read_err_junk.cc: Removed. * src/base/input/cl_read_junk_exception.cc: New file. * src/base/input/cl_read_err_eof.cc: Removed. * src/base/input/cl_read_eof_exception.cc: New file. * src/base/cl_N.h (cl_as_error): Removed (see cln/exception.h). * src/base/macros.h (NOTREACHED): Throw. * src/base/cl_malloc.cc (xmalloc): Throw. * src/base/digitseq/cl_2DS_div.cc: Throw. * src/base/digitseq/cl_DS_div.cc: Throw. * src/base/digitseq/cl_DS_mul.cc: Throw. * src/base/digitseq/cl_DS_mul_fftc.h: Throw. * src/base/digitseq/cl_DS_mul_fftcs.h: Throw. * src/base/digitseq/cl_DS_mul_fftm.h: Throw. * src/base/digitseq/cl_DS_mul_fftp.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3m.h: Throw. * src/base/digitseq/cl_DS_mul_fftr.h: Throw. * src/base/digitseq/cl_DS_mul_nuss.h: Throw. * src/base/digitseq/cl_DS_recipsqrt.cc: Throw. * src/base/digitseq/cl_DS_sqrt.cc: Throw. * src/base/hash/cl_hash.h: Throw. * src/base/hash/cl_hash1.h: Throw. * src/base/hash/cl_hash1weak.h: Throw. * src/base/hash/cl_hash2.h: Throw. * src/base/hash/cl_hash2weak.h: Throw. * src/base/hash/cl_hashset.h: Throw. * src/base/hash/cl_hashuniq.h: Throw. * src/base/hash/cl_hashuniqweak.h: Throw. * src/base/proplist/cl_pl_add.cc: Throw. * src/base/ring/cl_no_ring.cc: Throw. * src/base/string/cl_spushstring.h: Throw. * src/base/symbol/cl_symbol.cc: Throw. * src/integer/bitwise/cl_I_ash.h: Removed (see cln/integer.h.) * src/integer/bitwise/cl_I_asherr.cc: Removed. * src/integer/bitwise/cl_I_ash_exception.cc: New file. * src/integer/division/cl_I_exquoerr.cc: Removed. * src/integer/division/cl_I_exquo_exception.cc: New file. * src/integer/cl_I.h: Throw. * src/integer/division/cl_I_exquopos.cc: Throw. * src/integer/bitwise/cl_I_logbitp_I.cc: Throw. * src/integer/bitwise/cl_I_ash.cc: Throw. * src/integer/bitwise/cl_I_ash_I.cc: Throw. * src/integer/division/cl_I_exquo.cc: Throw. * src/integer/gcd/cl_I_gcd_aux2.cc: Throw. * src/integer/conv/cl_I_to_L.cc: Throw. * src/integer/conv/cl_I_to_Q.cc: Throw. * src/integer/conv/cl_I_to_UL.cc: Throw. * src/integer/conv/cl_I_to_UQ.cc: Throw. * src/integer/conv/cl_I_to_digits.cc: Throw. * src/integer/elem/cl_I_div.cc: Throw. * src/integer/algebraic/cl_I_sqrt.cc: Throw. * src/integer/input/cl_I_read.cc: Throw. * src/integer/input/cl_I_read_stream.cc: Throw. * src/integer/misc/cl_I_as.cc: Throw. * src/rational/elem/cl_RA_from_I_I_div.cc: Throw. * src/rational/elem/cl_RA_recip.cc: Throw. * src/rational/input/cl_RA_read.cc: Throw. * src/rational/input/cl_RA_read_stream.cc: Throw. * src/rational/input/cl_RA_readparsed.cc: Throw. * src/rational/misc/cl_RA_as.cc: Throw. * src/float/base/cl_F_err_nan.cc: Removed. * src/float/base/cl_F_nan_exception.cc: New file. * src/float/base/cl_F_err_un.cc: Removed. * src/float/base/cl_F_underflow_exception.cc: New file. * src/float/base/cl_F_err_ov.cc: Removed. * src/float/base/cl_F_overflow_exception.cc: New file. * src/float/cl_F.h (cl_error_floating_point_nan, cl_error_floating_point_overflow, cl_error_floating_point_underflow): Removed (see cln/float.h.) * src/float/sfloat/cl_SF.h: Throw. * src/float/sfloat/elem/cl_SF_div.cc: Throw. * src/float/sfloat/elem/cl_SF_from_RA.cc: Throw. * src/float/sfloat/elem/cl_SF_scale.cc: Throw. * src/float/sfloat/elem/cl_SF_scale_I.cc: Throw. * src/float/sfloat/misc/cl_SF_as.cc: Throw. * src/float/ffloat/cl_FF.h: Throw. * src/float/ffloat/conv/cl_FF_from_float.cc: Throw. * src/float/ffloat/elem/cl_FF_div.cc: Throw. * src/float/ffloat/elem/cl_FF_from_RA.cc: Throw. * src/float/ffloat/elem/cl_FF_scale.cc: Throw. * src/float/ffloat/elem/cl_FF_scale_I.cc: Throw. * src/float/ffloat/misc/cl_FF_as.cc: Throw. * src/float/dfloat/cl_DF.h: Throw. * src/float/dfloat/conv/cl_DF_from_double.cc: Throw. * src/float/dfloat/elem/cl_DF_div.cc: Throw. * src/float/dfloat/elem/cl_DF_from_RA.cc: Throw. * src/float/dfloat/elem/cl_DF_scale.cc: Throw. * src/float/dfloat/elem/cl_DF_scale_I.cc: Throw. * src/float/dfloat/misc/cl_DF_as.cc: Throw. * src/float/lfloat/algebraic/cl_LF_sqrt.cc: Throw. * src/float/lfloat/elem/cl_LF_1plus.cc: Throw. * src/float/lfloat/elem/cl_LF_I_div.cc: Throw. * src/float/lfloat/elem/cl_LF_I_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_div.cc: Throw. * src/float/lfloat/elem/cl_LF_from_I.cc: Throw. * src/float/lfloat/elem/cl_LF_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_scale.cc: Throw. * src/float/lfloat/elem/cl_LF_scale_I.cc: Throw. * src/float/lfloat/elem/cl_LF_square.cc: Throw. * src/float/lfloat/misc/cl_LF_as.cc: Throw. * src/float/lfloat/misc/cl_LF_shorten.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenrel.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenwith.cc: Throw. * src/float/input/cl_F_read.cc: Throw. * src/float/input/cl_F_read_stream.cc: Throw. * src/float/misc/cl_F_as.cc: Throw. * src/float/misc/cl_F_shortenrel.cc: Throw. * src/float/transcendental/cl_LF_coshsinh_aux.cc: Throw. * src/float/transcendental/cl_LF_cossin_aux.cc: Throw. * src/float/transcendental/cl_LF_exp_aux.cc: Throw. * src/float/transcendental/cl_LF_ratseries_a.cc: Throw. * src/float/transcendental/cl_LF_ratseries_ab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_b.cc: Throw. * src/float/transcendental/cl_LF_ratseries_p.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_q.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqcd_aux.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd_aux.cc: Throw. * src/float/transcendental/cl_LF_zeta_int.cc: Throw. * src/real/elem/cl_R_div.cc: Throw. * src/real/format-output/cl_fmt_cardinal.cc: Throw. * src/real/format-output/cl_fmt_newroman.cc: Throw. * src/real/format-output/cl_fmt_oldroman.cc: Throw. * src/real/input/cl_R_read.cc: Throw. * src/real/input/cl_R_read_stream.cc: Throw. * src/real/misc/cl_R_as.cc: Throw. * src/real/random/cl_R_random.cc: Throw. * src/real/transcendental/cl_R_atan2.cc: Throw. * src/real/transcendental/cl_R_log.cc: Throw. * src/complex/input/cl_N_read.cc: Throw. * src/complex/input/cl_N_read_stream.cc: Throw. * src/complex/misc/cl_N_as.cc: Throw. * src/complex/transcendental/cl_C_atanh_aux.cc: Throw. * src/complex/transcendental/cl_C_expt_C.cc: Throw. * src/complex/transcendental/cl_C_log.cc: Throw. * src/complex/transcendental/cl_C_log2.cc: Throw. * src/numtheory/cl_nt_cornacchia1.cc: Throw. * src/numtheory/cl_nt_cornacchia4.cc: Throw. * src/numtheory/cl_nt_isprobprime.cc: Throw. * src/numtheory/cl_nt_jacobi.cc: Throw. * src/numtheory/cl_nt_jacobi_low.cc: Throw. * src/numtheory/cl_nt_sqrtmodp.cc: Throw. * src/modinteger/cl_MI.cc: Throw. * src/modinteger/cl_MI_int.h: Throw. * src/modinteger/cl_MI_montgom.h: Throw. * src/modinteger/cl_MI_pow2.h: Throw. * src/modinteger/cl_MI_rshift.cc: Throw. * src/modinteger/cl_MI_std.h: Throw. * src/polynomial/elem/cl_UP_GF2.h: Throw. * src/polynomial/elem/cl_UP_MI.h: Throw. * src/polynomial/elem/cl_UP_gen.h: Throw. * src/polynomial/elem/cl_UP_named.cc: Throw. * src/polynomial/elem/cl_UP_no_ring.cc (uninitialized_error, uninitialized_ring): Removed (see cln/ring.h.) * src/polynomial/elem/cl_UP_number.h: Throw. * src/polynomial/elem/cl_UP_unnamed.cc: Throw. * src/vector/cl_GV_I.cc: Throw. * src/vector/cl_GV_number.cc: Throw. * tests/timediv2adic-compare.cc: Use default abort(), not cl_abort(). * tests/timeprint-compare.cc: Likewise. * tests/timerecip2adic-compare.cc: Likewise. * doc/cln.tex: Document the exception classes. * examples/contfrac.cc: Use try/catch instead of setjmp/longjmp. * INSTALL: undocument -fno-exceptions. * README: Add exceptions to list of used C++ features.
18 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
Remove exception hooks in favor of real C++ exceptions: * include/cln/exception.h: New file... * include/cln/cln.h: ...included here... * include/cln/rational.h: ...and here. * include/cln/abort.h: Removed. * include/cln/integer.h (ash_exception, exquo_exception): Add exception types. * include/cln/float.h (floating_point_exception, floating_point_nan_exception, floating_point_overflow_exception, floating_point_underflow_exception): Likewise. * include/cln/number_io.h (read_number_exception, read_number_bad_syntax_exception, read_number_junk_exception, read_number_eof_exception): Likewise. * include/cln/object.h (CL_DEFINE_CONVERTER): Replace dynamic assertion with a compile-time assertion. * include/cln/GV.h: Replace nonreturning functions with exceptions. * include/cln/modinteger.h: Likewise. * include/cln/SV.h: Likewise. * include/cln/ring.h: Likewise. * include/cln/string.h: Likewise. * include/cln/univpoly.h: Likewise. * src/base/cl_abort.cc: Removed. * src/base/cl_N_err_d0.cc: Removed. * src/base/cl_d0_exception.cc: New file. * src/base/cl_as_err.cc: Removed. * src/base/cl_as_exception.cc: New file. * src/base/cl_notreached.cc: Removed. * src/base/cl_notreached_exception.cc: New file. * src/base/input/cl_read_err_bad.cc: Removed. * src/base/input/cl_read_bad_syntax_exception.cc: New file. * src/base/input/cl_read_err_junk.cc: Removed. * src/base/input/cl_read_junk_exception.cc: New file. * src/base/input/cl_read_err_eof.cc: Removed. * src/base/input/cl_read_eof_exception.cc: New file. * src/base/cl_N.h (cl_as_error): Removed (see cln/exception.h). * src/base/macros.h (NOTREACHED): Throw. * src/base/cl_malloc.cc (xmalloc): Throw. * src/base/digitseq/cl_2DS_div.cc: Throw. * src/base/digitseq/cl_DS_div.cc: Throw. * src/base/digitseq/cl_DS_mul.cc: Throw. * src/base/digitseq/cl_DS_mul_fftc.h: Throw. * src/base/digitseq/cl_DS_mul_fftcs.h: Throw. * src/base/digitseq/cl_DS_mul_fftm.h: Throw. * src/base/digitseq/cl_DS_mul_fftp.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3m.h: Throw. * src/base/digitseq/cl_DS_mul_fftr.h: Throw. * src/base/digitseq/cl_DS_mul_nuss.h: Throw. * src/base/digitseq/cl_DS_recipsqrt.cc: Throw. * src/base/digitseq/cl_DS_sqrt.cc: Throw. * src/base/hash/cl_hash.h: Throw. * src/base/hash/cl_hash1.h: Throw. * src/base/hash/cl_hash1weak.h: Throw. * src/base/hash/cl_hash2.h: Throw. * src/base/hash/cl_hash2weak.h: Throw. * src/base/hash/cl_hashset.h: Throw. * src/base/hash/cl_hashuniq.h: Throw. * src/base/hash/cl_hashuniqweak.h: Throw. * src/base/proplist/cl_pl_add.cc: Throw. * src/base/ring/cl_no_ring.cc: Throw. * src/base/string/cl_spushstring.h: Throw. * src/base/symbol/cl_symbol.cc: Throw. * src/integer/bitwise/cl_I_ash.h: Removed (see cln/integer.h.) * src/integer/bitwise/cl_I_asherr.cc: Removed. * src/integer/bitwise/cl_I_ash_exception.cc: New file. * src/integer/division/cl_I_exquoerr.cc: Removed. * src/integer/division/cl_I_exquo_exception.cc: New file. * src/integer/cl_I.h: Throw. * src/integer/division/cl_I_exquopos.cc: Throw. * src/integer/bitwise/cl_I_logbitp_I.cc: Throw. * src/integer/bitwise/cl_I_ash.cc: Throw. * src/integer/bitwise/cl_I_ash_I.cc: Throw. * src/integer/division/cl_I_exquo.cc: Throw. * src/integer/gcd/cl_I_gcd_aux2.cc: Throw. * src/integer/conv/cl_I_to_L.cc: Throw. * src/integer/conv/cl_I_to_Q.cc: Throw. * src/integer/conv/cl_I_to_UL.cc: Throw. * src/integer/conv/cl_I_to_UQ.cc: Throw. * src/integer/conv/cl_I_to_digits.cc: Throw. * src/integer/elem/cl_I_div.cc: Throw. * src/integer/algebraic/cl_I_sqrt.cc: Throw. * src/integer/input/cl_I_read.cc: Throw. * src/integer/input/cl_I_read_stream.cc: Throw. * src/integer/misc/cl_I_as.cc: Throw. * src/rational/elem/cl_RA_from_I_I_div.cc: Throw. * src/rational/elem/cl_RA_recip.cc: Throw. * src/rational/input/cl_RA_read.cc: Throw. * src/rational/input/cl_RA_read_stream.cc: Throw. * src/rational/input/cl_RA_readparsed.cc: Throw. * src/rational/misc/cl_RA_as.cc: Throw. * src/float/base/cl_F_err_nan.cc: Removed. * src/float/base/cl_F_nan_exception.cc: New file. * src/float/base/cl_F_err_un.cc: Removed. * src/float/base/cl_F_underflow_exception.cc: New file. * src/float/base/cl_F_err_ov.cc: Removed. * src/float/base/cl_F_overflow_exception.cc: New file. * src/float/cl_F.h (cl_error_floating_point_nan, cl_error_floating_point_overflow, cl_error_floating_point_underflow): Removed (see cln/float.h.) * src/float/sfloat/cl_SF.h: Throw. * src/float/sfloat/elem/cl_SF_div.cc: Throw. * src/float/sfloat/elem/cl_SF_from_RA.cc: Throw. * src/float/sfloat/elem/cl_SF_scale.cc: Throw. * src/float/sfloat/elem/cl_SF_scale_I.cc: Throw. * src/float/sfloat/misc/cl_SF_as.cc: Throw. * src/float/ffloat/cl_FF.h: Throw. * src/float/ffloat/conv/cl_FF_from_float.cc: Throw. * src/float/ffloat/elem/cl_FF_div.cc: Throw. * src/float/ffloat/elem/cl_FF_from_RA.cc: Throw. * src/float/ffloat/elem/cl_FF_scale.cc: Throw. * src/float/ffloat/elem/cl_FF_scale_I.cc: Throw. * src/float/ffloat/misc/cl_FF_as.cc: Throw. * src/float/dfloat/cl_DF.h: Throw. * src/float/dfloat/conv/cl_DF_from_double.cc: Throw. * src/float/dfloat/elem/cl_DF_div.cc: Throw. * src/float/dfloat/elem/cl_DF_from_RA.cc: Throw. * src/float/dfloat/elem/cl_DF_scale.cc: Throw. * src/float/dfloat/elem/cl_DF_scale_I.cc: Throw. * src/float/dfloat/misc/cl_DF_as.cc: Throw. * src/float/lfloat/algebraic/cl_LF_sqrt.cc: Throw. * src/float/lfloat/elem/cl_LF_1plus.cc: Throw. * src/float/lfloat/elem/cl_LF_I_div.cc: Throw. * src/float/lfloat/elem/cl_LF_I_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_div.cc: Throw. * src/float/lfloat/elem/cl_LF_from_I.cc: Throw. * src/float/lfloat/elem/cl_LF_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_scale.cc: Throw. * src/float/lfloat/elem/cl_LF_scale_I.cc: Throw. * src/float/lfloat/elem/cl_LF_square.cc: Throw. * src/float/lfloat/misc/cl_LF_as.cc: Throw. * src/float/lfloat/misc/cl_LF_shorten.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenrel.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenwith.cc: Throw. * src/float/input/cl_F_read.cc: Throw. * src/float/input/cl_F_read_stream.cc: Throw. * src/float/misc/cl_F_as.cc: Throw. * src/float/misc/cl_F_shortenrel.cc: Throw. * src/float/transcendental/cl_LF_coshsinh_aux.cc: Throw. * src/float/transcendental/cl_LF_cossin_aux.cc: Throw. * src/float/transcendental/cl_LF_exp_aux.cc: Throw. * src/float/transcendental/cl_LF_ratseries_a.cc: Throw. * src/float/transcendental/cl_LF_ratseries_ab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_b.cc: Throw. * src/float/transcendental/cl_LF_ratseries_p.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_q.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqcd_aux.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd_aux.cc: Throw. * src/float/transcendental/cl_LF_zeta_int.cc: Throw. * src/real/elem/cl_R_div.cc: Throw. * src/real/format-output/cl_fmt_cardinal.cc: Throw. * src/real/format-output/cl_fmt_newroman.cc: Throw. * src/real/format-output/cl_fmt_oldroman.cc: Throw. * src/real/input/cl_R_read.cc: Throw. * src/real/input/cl_R_read_stream.cc: Throw. * src/real/misc/cl_R_as.cc: Throw. * src/real/random/cl_R_random.cc: Throw. * src/real/transcendental/cl_R_atan2.cc: Throw. * src/real/transcendental/cl_R_log.cc: Throw. * src/complex/input/cl_N_read.cc: Throw. * src/complex/input/cl_N_read_stream.cc: Throw. * src/complex/misc/cl_N_as.cc: Throw. * src/complex/transcendental/cl_C_atanh_aux.cc: Throw. * src/complex/transcendental/cl_C_expt_C.cc: Throw. * src/complex/transcendental/cl_C_log.cc: Throw. * src/complex/transcendental/cl_C_log2.cc: Throw. * src/numtheory/cl_nt_cornacchia1.cc: Throw. * src/numtheory/cl_nt_cornacchia4.cc: Throw. * src/numtheory/cl_nt_isprobprime.cc: Throw. * src/numtheory/cl_nt_jacobi.cc: Throw. * src/numtheory/cl_nt_jacobi_low.cc: Throw. * src/numtheory/cl_nt_sqrtmodp.cc: Throw. * src/modinteger/cl_MI.cc: Throw. * src/modinteger/cl_MI_int.h: Throw. * src/modinteger/cl_MI_montgom.h: Throw. * src/modinteger/cl_MI_pow2.h: Throw. * src/modinteger/cl_MI_rshift.cc: Throw. * src/modinteger/cl_MI_std.h: Throw. * src/polynomial/elem/cl_UP_GF2.h: Throw. * src/polynomial/elem/cl_UP_MI.h: Throw. * src/polynomial/elem/cl_UP_gen.h: Throw. * src/polynomial/elem/cl_UP_named.cc: Throw. * src/polynomial/elem/cl_UP_no_ring.cc (uninitialized_error, uninitialized_ring): Removed (see cln/ring.h.) * src/polynomial/elem/cl_UP_number.h: Throw. * src/polynomial/elem/cl_UP_unnamed.cc: Throw. * src/vector/cl_GV_I.cc: Throw. * src/vector/cl_GV_number.cc: Throw. * tests/timediv2adic-compare.cc: Use default abort(), not cl_abort(). * tests/timeprint-compare.cc: Likewise. * tests/timerecip2adic-compare.cc: Likewise. * doc/cln.tex: Document the exception classes. * examples/contfrac.cc: Use try/catch instead of setjmp/longjmp. * INSTALL: undocument -fno-exceptions. * README: Add exceptions to list of used C++ features.
18 years ago
Remove exception hooks in favor of real C++ exceptions: * include/cln/exception.h: New file... * include/cln/cln.h: ...included here... * include/cln/rational.h: ...and here. * include/cln/abort.h: Removed. * include/cln/integer.h (ash_exception, exquo_exception): Add exception types. * include/cln/float.h (floating_point_exception, floating_point_nan_exception, floating_point_overflow_exception, floating_point_underflow_exception): Likewise. * include/cln/number_io.h (read_number_exception, read_number_bad_syntax_exception, read_number_junk_exception, read_number_eof_exception): Likewise. * include/cln/object.h (CL_DEFINE_CONVERTER): Replace dynamic assertion with a compile-time assertion. * include/cln/GV.h: Replace nonreturning functions with exceptions. * include/cln/modinteger.h: Likewise. * include/cln/SV.h: Likewise. * include/cln/ring.h: Likewise. * include/cln/string.h: Likewise. * include/cln/univpoly.h: Likewise. * src/base/cl_abort.cc: Removed. * src/base/cl_N_err_d0.cc: Removed. * src/base/cl_d0_exception.cc: New file. * src/base/cl_as_err.cc: Removed. * src/base/cl_as_exception.cc: New file. * src/base/cl_notreached.cc: Removed. * src/base/cl_notreached_exception.cc: New file. * src/base/input/cl_read_err_bad.cc: Removed. * src/base/input/cl_read_bad_syntax_exception.cc: New file. * src/base/input/cl_read_err_junk.cc: Removed. * src/base/input/cl_read_junk_exception.cc: New file. * src/base/input/cl_read_err_eof.cc: Removed. * src/base/input/cl_read_eof_exception.cc: New file. * src/base/cl_N.h (cl_as_error): Removed (see cln/exception.h). * src/base/macros.h (NOTREACHED): Throw. * src/base/cl_malloc.cc (xmalloc): Throw. * src/base/digitseq/cl_2DS_div.cc: Throw. * src/base/digitseq/cl_DS_div.cc: Throw. * src/base/digitseq/cl_DS_mul.cc: Throw. * src/base/digitseq/cl_DS_mul_fftc.h: Throw. * src/base/digitseq/cl_DS_mul_fftcs.h: Throw. * src/base/digitseq/cl_DS_mul_fftm.h: Throw. * src/base/digitseq/cl_DS_mul_fftp.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3m.h: Throw. * src/base/digitseq/cl_DS_mul_fftr.h: Throw. * src/base/digitseq/cl_DS_mul_nuss.h: Throw. * src/base/digitseq/cl_DS_recipsqrt.cc: Throw. * src/base/digitseq/cl_DS_sqrt.cc: Throw. * src/base/hash/cl_hash.h: Throw. * src/base/hash/cl_hash1.h: Throw. * src/base/hash/cl_hash1weak.h: Throw. * src/base/hash/cl_hash2.h: Throw. * src/base/hash/cl_hash2weak.h: Throw. * src/base/hash/cl_hashset.h: Throw. * src/base/hash/cl_hashuniq.h: Throw. * src/base/hash/cl_hashuniqweak.h: Throw. * src/base/proplist/cl_pl_add.cc: Throw. * src/base/ring/cl_no_ring.cc: Throw. * src/base/string/cl_spushstring.h: Throw. * src/base/symbol/cl_symbol.cc: Throw. * src/integer/bitwise/cl_I_ash.h: Removed (see cln/integer.h.) * src/integer/bitwise/cl_I_asherr.cc: Removed. * src/integer/bitwise/cl_I_ash_exception.cc: New file. * src/integer/division/cl_I_exquoerr.cc: Removed. * src/integer/division/cl_I_exquo_exception.cc: New file. * src/integer/cl_I.h: Throw. * src/integer/division/cl_I_exquopos.cc: Throw. * src/integer/bitwise/cl_I_logbitp_I.cc: Throw. * src/integer/bitwise/cl_I_ash.cc: Throw. * src/integer/bitwise/cl_I_ash_I.cc: Throw. * src/integer/division/cl_I_exquo.cc: Throw. * src/integer/gcd/cl_I_gcd_aux2.cc: Throw. * src/integer/conv/cl_I_to_L.cc: Throw. * src/integer/conv/cl_I_to_Q.cc: Throw. * src/integer/conv/cl_I_to_UL.cc: Throw. * src/integer/conv/cl_I_to_UQ.cc: Throw. * src/integer/conv/cl_I_to_digits.cc: Throw. * src/integer/elem/cl_I_div.cc: Throw. * src/integer/algebraic/cl_I_sqrt.cc: Throw. * src/integer/input/cl_I_read.cc: Throw. * src/integer/input/cl_I_read_stream.cc: Throw. * src/integer/misc/cl_I_as.cc: Throw. * src/rational/elem/cl_RA_from_I_I_div.cc: Throw. * src/rational/elem/cl_RA_recip.cc: Throw. * src/rational/input/cl_RA_read.cc: Throw. * src/rational/input/cl_RA_read_stream.cc: Throw. * src/rational/input/cl_RA_readparsed.cc: Throw. * src/rational/misc/cl_RA_as.cc: Throw. * src/float/base/cl_F_err_nan.cc: Removed. * src/float/base/cl_F_nan_exception.cc: New file. * src/float/base/cl_F_err_un.cc: Removed. * src/float/base/cl_F_underflow_exception.cc: New file. * src/float/base/cl_F_err_ov.cc: Removed. * src/float/base/cl_F_overflow_exception.cc: New file. * src/float/cl_F.h (cl_error_floating_point_nan, cl_error_floating_point_overflow, cl_error_floating_point_underflow): Removed (see cln/float.h.) * src/float/sfloat/cl_SF.h: Throw. * src/float/sfloat/elem/cl_SF_div.cc: Throw. * src/float/sfloat/elem/cl_SF_from_RA.cc: Throw. * src/float/sfloat/elem/cl_SF_scale.cc: Throw. * src/float/sfloat/elem/cl_SF_scale_I.cc: Throw. * src/float/sfloat/misc/cl_SF_as.cc: Throw. * src/float/ffloat/cl_FF.h: Throw. * src/float/ffloat/conv/cl_FF_from_float.cc: Throw. * src/float/ffloat/elem/cl_FF_div.cc: Throw. * src/float/ffloat/elem/cl_FF_from_RA.cc: Throw. * src/float/ffloat/elem/cl_FF_scale.cc: Throw. * src/float/ffloat/elem/cl_FF_scale_I.cc: Throw. * src/float/ffloat/misc/cl_FF_as.cc: Throw. * src/float/dfloat/cl_DF.h: Throw. * src/float/dfloat/conv/cl_DF_from_double.cc: Throw. * src/float/dfloat/elem/cl_DF_div.cc: Throw. * src/float/dfloat/elem/cl_DF_from_RA.cc: Throw. * src/float/dfloat/elem/cl_DF_scale.cc: Throw. * src/float/dfloat/elem/cl_DF_scale_I.cc: Throw. * src/float/dfloat/misc/cl_DF_as.cc: Throw. * src/float/lfloat/algebraic/cl_LF_sqrt.cc: Throw. * src/float/lfloat/elem/cl_LF_1plus.cc: Throw. * src/float/lfloat/elem/cl_LF_I_div.cc: Throw. * src/float/lfloat/elem/cl_LF_I_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_div.cc: Throw. * src/float/lfloat/elem/cl_LF_from_I.cc: Throw. * src/float/lfloat/elem/cl_LF_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_scale.cc: Throw. * src/float/lfloat/elem/cl_LF_scale_I.cc: Throw. * src/float/lfloat/elem/cl_LF_square.cc: Throw. * src/float/lfloat/misc/cl_LF_as.cc: Throw. * src/float/lfloat/misc/cl_LF_shorten.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenrel.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenwith.cc: Throw. * src/float/input/cl_F_read.cc: Throw. * src/float/input/cl_F_read_stream.cc: Throw. * src/float/misc/cl_F_as.cc: Throw. * src/float/misc/cl_F_shortenrel.cc: Throw. * src/float/transcendental/cl_LF_coshsinh_aux.cc: Throw. * src/float/transcendental/cl_LF_cossin_aux.cc: Throw. * src/float/transcendental/cl_LF_exp_aux.cc: Throw. * src/float/transcendental/cl_LF_ratseries_a.cc: Throw. * src/float/transcendental/cl_LF_ratseries_ab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_b.cc: Throw. * src/float/transcendental/cl_LF_ratseries_p.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_q.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqcd_aux.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd_aux.cc: Throw. * src/float/transcendental/cl_LF_zeta_int.cc: Throw. * src/real/elem/cl_R_div.cc: Throw. * src/real/format-output/cl_fmt_cardinal.cc: Throw. * src/real/format-output/cl_fmt_newroman.cc: Throw. * src/real/format-output/cl_fmt_oldroman.cc: Throw. * src/real/input/cl_R_read.cc: Throw. * src/real/input/cl_R_read_stream.cc: Throw. * src/real/misc/cl_R_as.cc: Throw. * src/real/random/cl_R_random.cc: Throw. * src/real/transcendental/cl_R_atan2.cc: Throw. * src/real/transcendental/cl_R_log.cc: Throw. * src/complex/input/cl_N_read.cc: Throw. * src/complex/input/cl_N_read_stream.cc: Throw. * src/complex/misc/cl_N_as.cc: Throw. * src/complex/transcendental/cl_C_atanh_aux.cc: Throw. * src/complex/transcendental/cl_C_expt_C.cc: Throw. * src/complex/transcendental/cl_C_log.cc: Throw. * src/complex/transcendental/cl_C_log2.cc: Throw. * src/numtheory/cl_nt_cornacchia1.cc: Throw. * src/numtheory/cl_nt_cornacchia4.cc: Throw. * src/numtheory/cl_nt_isprobprime.cc: Throw. * src/numtheory/cl_nt_jacobi.cc: Throw. * src/numtheory/cl_nt_jacobi_low.cc: Throw. * src/numtheory/cl_nt_sqrtmodp.cc: Throw. * src/modinteger/cl_MI.cc: Throw. * src/modinteger/cl_MI_int.h: Throw. * src/modinteger/cl_MI_montgom.h: Throw. * src/modinteger/cl_MI_pow2.h: Throw. * src/modinteger/cl_MI_rshift.cc: Throw. * src/modinteger/cl_MI_std.h: Throw. * src/polynomial/elem/cl_UP_GF2.h: Throw. * src/polynomial/elem/cl_UP_MI.h: Throw. * src/polynomial/elem/cl_UP_gen.h: Throw. * src/polynomial/elem/cl_UP_named.cc: Throw. * src/polynomial/elem/cl_UP_no_ring.cc (uninitialized_error, uninitialized_ring): Removed (see cln/ring.h.) * src/polynomial/elem/cl_UP_number.h: Throw. * src/polynomial/elem/cl_UP_unnamed.cc: Throw. * src/vector/cl_GV_I.cc: Throw. * src/vector/cl_GV_number.cc: Throw. * tests/timediv2adic-compare.cc: Use default abort(), not cl_abort(). * tests/timeprint-compare.cc: Likewise. * tests/timerecip2adic-compare.cc: Likewise. * doc/cln.tex: Document the exception classes. * examples/contfrac.cc: Use try/catch instead of setjmp/longjmp. * INSTALL: undocument -fno-exceptions. * README: Add exceptions to list of used C++ features.
18 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
Remove exception hooks in favor of real C++ exceptions: * include/cln/exception.h: New file... * include/cln/cln.h: ...included here... * include/cln/rational.h: ...and here. * include/cln/abort.h: Removed. * include/cln/integer.h (ash_exception, exquo_exception): Add exception types. * include/cln/float.h (floating_point_exception, floating_point_nan_exception, floating_point_overflow_exception, floating_point_underflow_exception): Likewise. * include/cln/number_io.h (read_number_exception, read_number_bad_syntax_exception, read_number_junk_exception, read_number_eof_exception): Likewise. * include/cln/object.h (CL_DEFINE_CONVERTER): Replace dynamic assertion with a compile-time assertion. * include/cln/GV.h: Replace nonreturning functions with exceptions. * include/cln/modinteger.h: Likewise. * include/cln/SV.h: Likewise. * include/cln/ring.h: Likewise. * include/cln/string.h: Likewise. * include/cln/univpoly.h: Likewise. * src/base/cl_abort.cc: Removed. * src/base/cl_N_err_d0.cc: Removed. * src/base/cl_d0_exception.cc: New file. * src/base/cl_as_err.cc: Removed. * src/base/cl_as_exception.cc: New file. * src/base/cl_notreached.cc: Removed. * src/base/cl_notreached_exception.cc: New file. * src/base/input/cl_read_err_bad.cc: Removed. * src/base/input/cl_read_bad_syntax_exception.cc: New file. * src/base/input/cl_read_err_junk.cc: Removed. * src/base/input/cl_read_junk_exception.cc: New file. * src/base/input/cl_read_err_eof.cc: Removed. * src/base/input/cl_read_eof_exception.cc: New file. * src/base/cl_N.h (cl_as_error): Removed (see cln/exception.h). * src/base/macros.h (NOTREACHED): Throw. * src/base/cl_malloc.cc (xmalloc): Throw. * src/base/digitseq/cl_2DS_div.cc: Throw. * src/base/digitseq/cl_DS_div.cc: Throw. * src/base/digitseq/cl_DS_mul.cc: Throw. * src/base/digitseq/cl_DS_mul_fftc.h: Throw. * src/base/digitseq/cl_DS_mul_fftcs.h: Throw. * src/base/digitseq/cl_DS_mul_fftm.h: Throw. * src/base/digitseq/cl_DS_mul_fftp.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3m.h: Throw. * src/base/digitseq/cl_DS_mul_fftr.h: Throw. * src/base/digitseq/cl_DS_mul_nuss.h: Throw. * src/base/digitseq/cl_DS_recipsqrt.cc: Throw. * src/base/digitseq/cl_DS_sqrt.cc: Throw. * src/base/hash/cl_hash.h: Throw. * src/base/hash/cl_hash1.h: Throw. * src/base/hash/cl_hash1weak.h: Throw. * src/base/hash/cl_hash2.h: Throw. * src/base/hash/cl_hash2weak.h: Throw. * src/base/hash/cl_hashset.h: Throw. * src/base/hash/cl_hashuniq.h: Throw. * src/base/hash/cl_hashuniqweak.h: Throw. * src/base/proplist/cl_pl_add.cc: Throw. * src/base/ring/cl_no_ring.cc: Throw. * src/base/string/cl_spushstring.h: Throw. * src/base/symbol/cl_symbol.cc: Throw. * src/integer/bitwise/cl_I_ash.h: Removed (see cln/integer.h.) * src/integer/bitwise/cl_I_asherr.cc: Removed. * src/integer/bitwise/cl_I_ash_exception.cc: New file. * src/integer/division/cl_I_exquoerr.cc: Removed. * src/integer/division/cl_I_exquo_exception.cc: New file. * src/integer/cl_I.h: Throw. * src/integer/division/cl_I_exquopos.cc: Throw. * src/integer/bitwise/cl_I_logbitp_I.cc: Throw. * src/integer/bitwise/cl_I_ash.cc: Throw. * src/integer/bitwise/cl_I_ash_I.cc: Throw. * src/integer/division/cl_I_exquo.cc: Throw. * src/integer/gcd/cl_I_gcd_aux2.cc: Throw. * src/integer/conv/cl_I_to_L.cc: Throw. * src/integer/conv/cl_I_to_Q.cc: Throw. * src/integer/conv/cl_I_to_UL.cc: Throw. * src/integer/conv/cl_I_to_UQ.cc: Throw. * src/integer/conv/cl_I_to_digits.cc: Throw. * src/integer/elem/cl_I_div.cc: Throw. * src/integer/algebraic/cl_I_sqrt.cc: Throw. * src/integer/input/cl_I_read.cc: Throw. * src/integer/input/cl_I_read_stream.cc: Throw. * src/integer/misc/cl_I_as.cc: Throw. * src/rational/elem/cl_RA_from_I_I_div.cc: Throw. * src/rational/elem/cl_RA_recip.cc: Throw. * src/rational/input/cl_RA_read.cc: Throw. * src/rational/input/cl_RA_read_stream.cc: Throw. * src/rational/input/cl_RA_readparsed.cc: Throw. * src/rational/misc/cl_RA_as.cc: Throw. * src/float/base/cl_F_err_nan.cc: Removed. * src/float/base/cl_F_nan_exception.cc: New file. * src/float/base/cl_F_err_un.cc: Removed. * src/float/base/cl_F_underflow_exception.cc: New file. * src/float/base/cl_F_err_ov.cc: Removed. * src/float/base/cl_F_overflow_exception.cc: New file. * src/float/cl_F.h (cl_error_floating_point_nan, cl_error_floating_point_overflow, cl_error_floating_point_underflow): Removed (see cln/float.h.) * src/float/sfloat/cl_SF.h: Throw. * src/float/sfloat/elem/cl_SF_div.cc: Throw. * src/float/sfloat/elem/cl_SF_from_RA.cc: Throw. * src/float/sfloat/elem/cl_SF_scale.cc: Throw. * src/float/sfloat/elem/cl_SF_scale_I.cc: Throw. * src/float/sfloat/misc/cl_SF_as.cc: Throw. * src/float/ffloat/cl_FF.h: Throw. * src/float/ffloat/conv/cl_FF_from_float.cc: Throw. * src/float/ffloat/elem/cl_FF_div.cc: Throw. * src/float/ffloat/elem/cl_FF_from_RA.cc: Throw. * src/float/ffloat/elem/cl_FF_scale.cc: Throw. * src/float/ffloat/elem/cl_FF_scale_I.cc: Throw. * src/float/ffloat/misc/cl_FF_as.cc: Throw. * src/float/dfloat/cl_DF.h: Throw. * src/float/dfloat/conv/cl_DF_from_double.cc: Throw. * src/float/dfloat/elem/cl_DF_div.cc: Throw. * src/float/dfloat/elem/cl_DF_from_RA.cc: Throw. * src/float/dfloat/elem/cl_DF_scale.cc: Throw. * src/float/dfloat/elem/cl_DF_scale_I.cc: Throw. * src/float/dfloat/misc/cl_DF_as.cc: Throw. * src/float/lfloat/algebraic/cl_LF_sqrt.cc: Throw. * src/float/lfloat/elem/cl_LF_1plus.cc: Throw. * src/float/lfloat/elem/cl_LF_I_div.cc: Throw. * src/float/lfloat/elem/cl_LF_I_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_div.cc: Throw. * src/float/lfloat/elem/cl_LF_from_I.cc: Throw. * src/float/lfloat/elem/cl_LF_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_scale.cc: Throw. * src/float/lfloat/elem/cl_LF_scale_I.cc: Throw. * src/float/lfloat/elem/cl_LF_square.cc: Throw. * src/float/lfloat/misc/cl_LF_as.cc: Throw. * src/float/lfloat/misc/cl_LF_shorten.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenrel.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenwith.cc: Throw. * src/float/input/cl_F_read.cc: Throw. * src/float/input/cl_F_read_stream.cc: Throw. * src/float/misc/cl_F_as.cc: Throw. * src/float/misc/cl_F_shortenrel.cc: Throw. * src/float/transcendental/cl_LF_coshsinh_aux.cc: Throw. * src/float/transcendental/cl_LF_cossin_aux.cc: Throw. * src/float/transcendental/cl_LF_exp_aux.cc: Throw. * src/float/transcendental/cl_LF_ratseries_a.cc: Throw. * src/float/transcendental/cl_LF_ratseries_ab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_b.cc: Throw. * src/float/transcendental/cl_LF_ratseries_p.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_q.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqcd_aux.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd_aux.cc: Throw. * src/float/transcendental/cl_LF_zeta_int.cc: Throw. * src/real/elem/cl_R_div.cc: Throw. * src/real/format-output/cl_fmt_cardinal.cc: Throw. * src/real/format-output/cl_fmt_newroman.cc: Throw. * src/real/format-output/cl_fmt_oldroman.cc: Throw. * src/real/input/cl_R_read.cc: Throw. * src/real/input/cl_R_read_stream.cc: Throw. * src/real/misc/cl_R_as.cc: Throw. * src/real/random/cl_R_random.cc: Throw. * src/real/transcendental/cl_R_atan2.cc: Throw. * src/real/transcendental/cl_R_log.cc: Throw. * src/complex/input/cl_N_read.cc: Throw. * src/complex/input/cl_N_read_stream.cc: Throw. * src/complex/misc/cl_N_as.cc: Throw. * src/complex/transcendental/cl_C_atanh_aux.cc: Throw. * src/complex/transcendental/cl_C_expt_C.cc: Throw. * src/complex/transcendental/cl_C_log.cc: Throw. * src/complex/transcendental/cl_C_log2.cc: Throw. * src/numtheory/cl_nt_cornacchia1.cc: Throw. * src/numtheory/cl_nt_cornacchia4.cc: Throw. * src/numtheory/cl_nt_isprobprime.cc: Throw. * src/numtheory/cl_nt_jacobi.cc: Throw. * src/numtheory/cl_nt_jacobi_low.cc: Throw. * src/numtheory/cl_nt_sqrtmodp.cc: Throw. * src/modinteger/cl_MI.cc: Throw. * src/modinteger/cl_MI_int.h: Throw. * src/modinteger/cl_MI_montgom.h: Throw. * src/modinteger/cl_MI_pow2.h: Throw. * src/modinteger/cl_MI_rshift.cc: Throw. * src/modinteger/cl_MI_std.h: Throw. * src/polynomial/elem/cl_UP_GF2.h: Throw. * src/polynomial/elem/cl_UP_MI.h: Throw. * src/polynomial/elem/cl_UP_gen.h: Throw. * src/polynomial/elem/cl_UP_named.cc: Throw. * src/polynomial/elem/cl_UP_no_ring.cc (uninitialized_error, uninitialized_ring): Removed (see cln/ring.h.) * src/polynomial/elem/cl_UP_number.h: Throw. * src/polynomial/elem/cl_UP_unnamed.cc: Throw. * src/vector/cl_GV_I.cc: Throw. * src/vector/cl_GV_number.cc: Throw. * tests/timediv2adic-compare.cc: Use default abort(), not cl_abort(). * tests/timeprint-compare.cc: Likewise. * tests/timerecip2adic-compare.cc: Likewise. * doc/cln.tex: Document the exception classes. * examples/contfrac.cc: Use try/catch instead of setjmp/longjmp. * INSTALL: undocument -fno-exceptions. * README: Add exceptions to list of used C++ features.
18 years ago
25 years ago
Remove exception hooks in favor of real C++ exceptions: * include/cln/exception.h: New file... * include/cln/cln.h: ...included here... * include/cln/rational.h: ...and here. * include/cln/abort.h: Removed. * include/cln/integer.h (ash_exception, exquo_exception): Add exception types. * include/cln/float.h (floating_point_exception, floating_point_nan_exception, floating_point_overflow_exception, floating_point_underflow_exception): Likewise. * include/cln/number_io.h (read_number_exception, read_number_bad_syntax_exception, read_number_junk_exception, read_number_eof_exception): Likewise. * include/cln/object.h (CL_DEFINE_CONVERTER): Replace dynamic assertion with a compile-time assertion. * include/cln/GV.h: Replace nonreturning functions with exceptions. * include/cln/modinteger.h: Likewise. * include/cln/SV.h: Likewise. * include/cln/ring.h: Likewise. * include/cln/string.h: Likewise. * include/cln/univpoly.h: Likewise. * src/base/cl_abort.cc: Removed. * src/base/cl_N_err_d0.cc: Removed. * src/base/cl_d0_exception.cc: New file. * src/base/cl_as_err.cc: Removed. * src/base/cl_as_exception.cc: New file. * src/base/cl_notreached.cc: Removed. * src/base/cl_notreached_exception.cc: New file. * src/base/input/cl_read_err_bad.cc: Removed. * src/base/input/cl_read_bad_syntax_exception.cc: New file. * src/base/input/cl_read_err_junk.cc: Removed. * src/base/input/cl_read_junk_exception.cc: New file. * src/base/input/cl_read_err_eof.cc: Removed. * src/base/input/cl_read_eof_exception.cc: New file. * src/base/cl_N.h (cl_as_error): Removed (see cln/exception.h). * src/base/macros.h (NOTREACHED): Throw. * src/base/cl_malloc.cc (xmalloc): Throw. * src/base/digitseq/cl_2DS_div.cc: Throw. * src/base/digitseq/cl_DS_div.cc: Throw. * src/base/digitseq/cl_DS_mul.cc: Throw. * src/base/digitseq/cl_DS_mul_fftc.h: Throw. * src/base/digitseq/cl_DS_mul_fftcs.h: Throw. * src/base/digitseq/cl_DS_mul_fftm.h: Throw. * src/base/digitseq/cl_DS_mul_fftp.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3m.h: Throw. * src/base/digitseq/cl_DS_mul_fftr.h: Throw. * src/base/digitseq/cl_DS_mul_nuss.h: Throw. * src/base/digitseq/cl_DS_recipsqrt.cc: Throw. * src/base/digitseq/cl_DS_sqrt.cc: Throw. * src/base/hash/cl_hash.h: Throw. * src/base/hash/cl_hash1.h: Throw. * src/base/hash/cl_hash1weak.h: Throw. * src/base/hash/cl_hash2.h: Throw. * src/base/hash/cl_hash2weak.h: Throw. * src/base/hash/cl_hashset.h: Throw. * src/base/hash/cl_hashuniq.h: Throw. * src/base/hash/cl_hashuniqweak.h: Throw. * src/base/proplist/cl_pl_add.cc: Throw. * src/base/ring/cl_no_ring.cc: Throw. * src/base/string/cl_spushstring.h: Throw. * src/base/symbol/cl_symbol.cc: Throw. * src/integer/bitwise/cl_I_ash.h: Removed (see cln/integer.h.) * src/integer/bitwise/cl_I_asherr.cc: Removed. * src/integer/bitwise/cl_I_ash_exception.cc: New file. * src/integer/division/cl_I_exquoerr.cc: Removed. * src/integer/division/cl_I_exquo_exception.cc: New file. * src/integer/cl_I.h: Throw. * src/integer/division/cl_I_exquopos.cc: Throw. * src/integer/bitwise/cl_I_logbitp_I.cc: Throw. * src/integer/bitwise/cl_I_ash.cc: Throw. * src/integer/bitwise/cl_I_ash_I.cc: Throw. * src/integer/division/cl_I_exquo.cc: Throw. * src/integer/gcd/cl_I_gcd_aux2.cc: Throw. * src/integer/conv/cl_I_to_L.cc: Throw. * src/integer/conv/cl_I_to_Q.cc: Throw. * src/integer/conv/cl_I_to_UL.cc: Throw. * src/integer/conv/cl_I_to_UQ.cc: Throw. * src/integer/conv/cl_I_to_digits.cc: Throw. * src/integer/elem/cl_I_div.cc: Throw. * src/integer/algebraic/cl_I_sqrt.cc: Throw. * src/integer/input/cl_I_read.cc: Throw. * src/integer/input/cl_I_read_stream.cc: Throw. * src/integer/misc/cl_I_as.cc: Throw. * src/rational/elem/cl_RA_from_I_I_div.cc: Throw. * src/rational/elem/cl_RA_recip.cc: Throw. * src/rational/input/cl_RA_read.cc: Throw. * src/rational/input/cl_RA_read_stream.cc: Throw. * src/rational/input/cl_RA_readparsed.cc: Throw. * src/rational/misc/cl_RA_as.cc: Throw. * src/float/base/cl_F_err_nan.cc: Removed. * src/float/base/cl_F_nan_exception.cc: New file. * src/float/base/cl_F_err_un.cc: Removed. * src/float/base/cl_F_underflow_exception.cc: New file. * src/float/base/cl_F_err_ov.cc: Removed. * src/float/base/cl_F_overflow_exception.cc: New file. * src/float/cl_F.h (cl_error_floating_point_nan, cl_error_floating_point_overflow, cl_error_floating_point_underflow): Removed (see cln/float.h.) * src/float/sfloat/cl_SF.h: Throw. * src/float/sfloat/elem/cl_SF_div.cc: Throw. * src/float/sfloat/elem/cl_SF_from_RA.cc: Throw. * src/float/sfloat/elem/cl_SF_scale.cc: Throw. * src/float/sfloat/elem/cl_SF_scale_I.cc: Throw. * src/float/sfloat/misc/cl_SF_as.cc: Throw. * src/float/ffloat/cl_FF.h: Throw. * src/float/ffloat/conv/cl_FF_from_float.cc: Throw. * src/float/ffloat/elem/cl_FF_div.cc: Throw. * src/float/ffloat/elem/cl_FF_from_RA.cc: Throw. * src/float/ffloat/elem/cl_FF_scale.cc: Throw. * src/float/ffloat/elem/cl_FF_scale_I.cc: Throw. * src/float/ffloat/misc/cl_FF_as.cc: Throw. * src/float/dfloat/cl_DF.h: Throw. * src/float/dfloat/conv/cl_DF_from_double.cc: Throw. * src/float/dfloat/elem/cl_DF_div.cc: Throw. * src/float/dfloat/elem/cl_DF_from_RA.cc: Throw. * src/float/dfloat/elem/cl_DF_scale.cc: Throw. * src/float/dfloat/elem/cl_DF_scale_I.cc: Throw. * src/float/dfloat/misc/cl_DF_as.cc: Throw. * src/float/lfloat/algebraic/cl_LF_sqrt.cc: Throw. * src/float/lfloat/elem/cl_LF_1plus.cc: Throw. * src/float/lfloat/elem/cl_LF_I_div.cc: Throw. * src/float/lfloat/elem/cl_LF_I_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_div.cc: Throw. * src/float/lfloat/elem/cl_LF_from_I.cc: Throw. * src/float/lfloat/elem/cl_LF_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_scale.cc: Throw. * src/float/lfloat/elem/cl_LF_scale_I.cc: Throw. * src/float/lfloat/elem/cl_LF_square.cc: Throw. * src/float/lfloat/misc/cl_LF_as.cc: Throw. * src/float/lfloat/misc/cl_LF_shorten.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenrel.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenwith.cc: Throw. * src/float/input/cl_F_read.cc: Throw. * src/float/input/cl_F_read_stream.cc: Throw. * src/float/misc/cl_F_as.cc: Throw. * src/float/misc/cl_F_shortenrel.cc: Throw. * src/float/transcendental/cl_LF_coshsinh_aux.cc: Throw. * src/float/transcendental/cl_LF_cossin_aux.cc: Throw. * src/float/transcendental/cl_LF_exp_aux.cc: Throw. * src/float/transcendental/cl_LF_ratseries_a.cc: Throw. * src/float/transcendental/cl_LF_ratseries_ab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_b.cc: Throw. * src/float/transcendental/cl_LF_ratseries_p.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_q.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqcd_aux.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd_aux.cc: Throw. * src/float/transcendental/cl_LF_zeta_int.cc: Throw. * src/real/elem/cl_R_div.cc: Throw. * src/real/format-output/cl_fmt_cardinal.cc: Throw. * src/real/format-output/cl_fmt_newroman.cc: Throw. * src/real/format-output/cl_fmt_oldroman.cc: Throw. * src/real/input/cl_R_read.cc: Throw. * src/real/input/cl_R_read_stream.cc: Throw. * src/real/misc/cl_R_as.cc: Throw. * src/real/random/cl_R_random.cc: Throw. * src/real/transcendental/cl_R_atan2.cc: Throw. * src/real/transcendental/cl_R_log.cc: Throw. * src/complex/input/cl_N_read.cc: Throw. * src/complex/input/cl_N_read_stream.cc: Throw. * src/complex/misc/cl_N_as.cc: Throw. * src/complex/transcendental/cl_C_atanh_aux.cc: Throw. * src/complex/transcendental/cl_C_expt_C.cc: Throw. * src/complex/transcendental/cl_C_log.cc: Throw. * src/complex/transcendental/cl_C_log2.cc: Throw. * src/numtheory/cl_nt_cornacchia1.cc: Throw. * src/numtheory/cl_nt_cornacchia4.cc: Throw. * src/numtheory/cl_nt_isprobprime.cc: Throw. * src/numtheory/cl_nt_jacobi.cc: Throw. * src/numtheory/cl_nt_jacobi_low.cc: Throw. * src/numtheory/cl_nt_sqrtmodp.cc: Throw. * src/modinteger/cl_MI.cc: Throw. * src/modinteger/cl_MI_int.h: Throw. * src/modinteger/cl_MI_montgom.h: Throw. * src/modinteger/cl_MI_pow2.h: Throw. * src/modinteger/cl_MI_rshift.cc: Throw. * src/modinteger/cl_MI_std.h: Throw. * src/polynomial/elem/cl_UP_GF2.h: Throw. * src/polynomial/elem/cl_UP_MI.h: Throw. * src/polynomial/elem/cl_UP_gen.h: Throw. * src/polynomial/elem/cl_UP_named.cc: Throw. * src/polynomial/elem/cl_UP_no_ring.cc (uninitialized_error, uninitialized_ring): Removed (see cln/ring.h.) * src/polynomial/elem/cl_UP_number.h: Throw. * src/polynomial/elem/cl_UP_unnamed.cc: Throw. * src/vector/cl_GV_I.cc: Throw. * src/vector/cl_GV_number.cc: Throw. * tests/timediv2adic-compare.cc: Use default abort(), not cl_abort(). * tests/timeprint-compare.cc: Likewise. * tests/timerecip2adic-compare.cc: Likewise. * doc/cln.tex: Document the exception classes. * examples/contfrac.cc: Use try/catch instead of setjmp/longjmp. * INSTALL: undocument -fno-exceptions. * README: Add exceptions to list of used C++ features.
18 years ago
25 years ago
Remove exception hooks in favor of real C++ exceptions: * include/cln/exception.h: New file... * include/cln/cln.h: ...included here... * include/cln/rational.h: ...and here. * include/cln/abort.h: Removed. * include/cln/integer.h (ash_exception, exquo_exception): Add exception types. * include/cln/float.h (floating_point_exception, floating_point_nan_exception, floating_point_overflow_exception, floating_point_underflow_exception): Likewise. * include/cln/number_io.h (read_number_exception, read_number_bad_syntax_exception, read_number_junk_exception, read_number_eof_exception): Likewise. * include/cln/object.h (CL_DEFINE_CONVERTER): Replace dynamic assertion with a compile-time assertion. * include/cln/GV.h: Replace nonreturning functions with exceptions. * include/cln/modinteger.h: Likewise. * include/cln/SV.h: Likewise. * include/cln/ring.h: Likewise. * include/cln/string.h: Likewise. * include/cln/univpoly.h: Likewise. * src/base/cl_abort.cc: Removed. * src/base/cl_N_err_d0.cc: Removed. * src/base/cl_d0_exception.cc: New file. * src/base/cl_as_err.cc: Removed. * src/base/cl_as_exception.cc: New file. * src/base/cl_notreached.cc: Removed. * src/base/cl_notreached_exception.cc: New file. * src/base/input/cl_read_err_bad.cc: Removed. * src/base/input/cl_read_bad_syntax_exception.cc: New file. * src/base/input/cl_read_err_junk.cc: Removed. * src/base/input/cl_read_junk_exception.cc: New file. * src/base/input/cl_read_err_eof.cc: Removed. * src/base/input/cl_read_eof_exception.cc: New file. * src/base/cl_N.h (cl_as_error): Removed (see cln/exception.h). * src/base/macros.h (NOTREACHED): Throw. * src/base/cl_malloc.cc (xmalloc): Throw. * src/base/digitseq/cl_2DS_div.cc: Throw. * src/base/digitseq/cl_DS_div.cc: Throw. * src/base/digitseq/cl_DS_mul.cc: Throw. * src/base/digitseq/cl_DS_mul_fftc.h: Throw. * src/base/digitseq/cl_DS_mul_fftcs.h: Throw. * src/base/digitseq/cl_DS_mul_fftm.h: Throw. * src/base/digitseq/cl_DS_mul_fftp.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3m.h: Throw. * src/base/digitseq/cl_DS_mul_fftr.h: Throw. * src/base/digitseq/cl_DS_mul_nuss.h: Throw. * src/base/digitseq/cl_DS_recipsqrt.cc: Throw. * src/base/digitseq/cl_DS_sqrt.cc: Throw. * src/base/hash/cl_hash.h: Throw. * src/base/hash/cl_hash1.h: Throw. * src/base/hash/cl_hash1weak.h: Throw. * src/base/hash/cl_hash2.h: Throw. * src/base/hash/cl_hash2weak.h: Throw. * src/base/hash/cl_hashset.h: Throw. * src/base/hash/cl_hashuniq.h: Throw. * src/base/hash/cl_hashuniqweak.h: Throw. * src/base/proplist/cl_pl_add.cc: Throw. * src/base/ring/cl_no_ring.cc: Throw. * src/base/string/cl_spushstring.h: Throw. * src/base/symbol/cl_symbol.cc: Throw. * src/integer/bitwise/cl_I_ash.h: Removed (see cln/integer.h.) * src/integer/bitwise/cl_I_asherr.cc: Removed. * src/integer/bitwise/cl_I_ash_exception.cc: New file. * src/integer/division/cl_I_exquoerr.cc: Removed. * src/integer/division/cl_I_exquo_exception.cc: New file. * src/integer/cl_I.h: Throw. * src/integer/division/cl_I_exquopos.cc: Throw. * src/integer/bitwise/cl_I_logbitp_I.cc: Throw. * src/integer/bitwise/cl_I_ash.cc: Throw. * src/integer/bitwise/cl_I_ash_I.cc: Throw. * src/integer/division/cl_I_exquo.cc: Throw. * src/integer/gcd/cl_I_gcd_aux2.cc: Throw. * src/integer/conv/cl_I_to_L.cc: Throw. * src/integer/conv/cl_I_to_Q.cc: Throw. * src/integer/conv/cl_I_to_UL.cc: Throw. * src/integer/conv/cl_I_to_UQ.cc: Throw. * src/integer/conv/cl_I_to_digits.cc: Throw. * src/integer/elem/cl_I_div.cc: Throw. * src/integer/algebraic/cl_I_sqrt.cc: Throw. * src/integer/input/cl_I_read.cc: Throw. * src/integer/input/cl_I_read_stream.cc: Throw. * src/integer/misc/cl_I_as.cc: Throw. * src/rational/elem/cl_RA_from_I_I_div.cc: Throw. * src/rational/elem/cl_RA_recip.cc: Throw. * src/rational/input/cl_RA_read.cc: Throw. * src/rational/input/cl_RA_read_stream.cc: Throw. * src/rational/input/cl_RA_readparsed.cc: Throw. * src/rational/misc/cl_RA_as.cc: Throw. * src/float/base/cl_F_err_nan.cc: Removed. * src/float/base/cl_F_nan_exception.cc: New file. * src/float/base/cl_F_err_un.cc: Removed. * src/float/base/cl_F_underflow_exception.cc: New file. * src/float/base/cl_F_err_ov.cc: Removed. * src/float/base/cl_F_overflow_exception.cc: New file. * src/float/cl_F.h (cl_error_floating_point_nan, cl_error_floating_point_overflow, cl_error_floating_point_underflow): Removed (see cln/float.h.) * src/float/sfloat/cl_SF.h: Throw. * src/float/sfloat/elem/cl_SF_div.cc: Throw. * src/float/sfloat/elem/cl_SF_from_RA.cc: Throw. * src/float/sfloat/elem/cl_SF_scale.cc: Throw. * src/float/sfloat/elem/cl_SF_scale_I.cc: Throw. * src/float/sfloat/misc/cl_SF_as.cc: Throw. * src/float/ffloat/cl_FF.h: Throw. * src/float/ffloat/conv/cl_FF_from_float.cc: Throw. * src/float/ffloat/elem/cl_FF_div.cc: Throw. * src/float/ffloat/elem/cl_FF_from_RA.cc: Throw. * src/float/ffloat/elem/cl_FF_scale.cc: Throw. * src/float/ffloat/elem/cl_FF_scale_I.cc: Throw. * src/float/ffloat/misc/cl_FF_as.cc: Throw. * src/float/dfloat/cl_DF.h: Throw. * src/float/dfloat/conv/cl_DF_from_double.cc: Throw. * src/float/dfloat/elem/cl_DF_div.cc: Throw. * src/float/dfloat/elem/cl_DF_from_RA.cc: Throw. * src/float/dfloat/elem/cl_DF_scale.cc: Throw. * src/float/dfloat/elem/cl_DF_scale_I.cc: Throw. * src/float/dfloat/misc/cl_DF_as.cc: Throw. * src/float/lfloat/algebraic/cl_LF_sqrt.cc: Throw. * src/float/lfloat/elem/cl_LF_1plus.cc: Throw. * src/float/lfloat/elem/cl_LF_I_div.cc: Throw. * src/float/lfloat/elem/cl_LF_I_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_div.cc: Throw. * src/float/lfloat/elem/cl_LF_from_I.cc: Throw. * src/float/lfloat/elem/cl_LF_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_scale.cc: Throw. * src/float/lfloat/elem/cl_LF_scale_I.cc: Throw. * src/float/lfloat/elem/cl_LF_square.cc: Throw. * src/float/lfloat/misc/cl_LF_as.cc: Throw. * src/float/lfloat/misc/cl_LF_shorten.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenrel.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenwith.cc: Throw. * src/float/input/cl_F_read.cc: Throw. * src/float/input/cl_F_read_stream.cc: Throw. * src/float/misc/cl_F_as.cc: Throw. * src/float/misc/cl_F_shortenrel.cc: Throw. * src/float/transcendental/cl_LF_coshsinh_aux.cc: Throw. * src/float/transcendental/cl_LF_cossin_aux.cc: Throw. * src/float/transcendental/cl_LF_exp_aux.cc: Throw. * src/float/transcendental/cl_LF_ratseries_a.cc: Throw. * src/float/transcendental/cl_LF_ratseries_ab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_b.cc: Throw. * src/float/transcendental/cl_LF_ratseries_p.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_q.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqcd_aux.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd_aux.cc: Throw. * src/float/transcendental/cl_LF_zeta_int.cc: Throw. * src/real/elem/cl_R_div.cc: Throw. * src/real/format-output/cl_fmt_cardinal.cc: Throw. * src/real/format-output/cl_fmt_newroman.cc: Throw. * src/real/format-output/cl_fmt_oldroman.cc: Throw. * src/real/input/cl_R_read.cc: Throw. * src/real/input/cl_R_read_stream.cc: Throw. * src/real/misc/cl_R_as.cc: Throw. * src/real/random/cl_R_random.cc: Throw. * src/real/transcendental/cl_R_atan2.cc: Throw. * src/real/transcendental/cl_R_log.cc: Throw. * src/complex/input/cl_N_read.cc: Throw. * src/complex/input/cl_N_read_stream.cc: Throw. * src/complex/misc/cl_N_as.cc: Throw. * src/complex/transcendental/cl_C_atanh_aux.cc: Throw. * src/complex/transcendental/cl_C_expt_C.cc: Throw. * src/complex/transcendental/cl_C_log.cc: Throw. * src/complex/transcendental/cl_C_log2.cc: Throw. * src/numtheory/cl_nt_cornacchia1.cc: Throw. * src/numtheory/cl_nt_cornacchia4.cc: Throw. * src/numtheory/cl_nt_isprobprime.cc: Throw. * src/numtheory/cl_nt_jacobi.cc: Throw. * src/numtheory/cl_nt_jacobi_low.cc: Throw. * src/numtheory/cl_nt_sqrtmodp.cc: Throw. * src/modinteger/cl_MI.cc: Throw. * src/modinteger/cl_MI_int.h: Throw. * src/modinteger/cl_MI_montgom.h: Throw. * src/modinteger/cl_MI_pow2.h: Throw. * src/modinteger/cl_MI_rshift.cc: Throw. * src/modinteger/cl_MI_std.h: Throw. * src/polynomial/elem/cl_UP_GF2.h: Throw. * src/polynomial/elem/cl_UP_MI.h: Throw. * src/polynomial/elem/cl_UP_gen.h: Throw. * src/polynomial/elem/cl_UP_named.cc: Throw. * src/polynomial/elem/cl_UP_no_ring.cc (uninitialized_error, uninitialized_ring): Removed (see cln/ring.h.) * src/polynomial/elem/cl_UP_number.h: Throw. * src/polynomial/elem/cl_UP_unnamed.cc: Throw. * src/vector/cl_GV_I.cc: Throw. * src/vector/cl_GV_number.cc: Throw. * tests/timediv2adic-compare.cc: Use default abort(), not cl_abort(). * tests/timeprint-compare.cc: Likewise. * tests/timerecip2adic-compare.cc: Likewise. * doc/cln.tex: Document the exception classes. * examples/contfrac.cc: Use try/catch instead of setjmp/longjmp. * INSTALL: undocument -fno-exceptions. * README: Add exceptions to list of used C++ features.
18 years ago
25 years ago
Remove exception hooks in favor of real C++ exceptions: * include/cln/exception.h: New file... * include/cln/cln.h: ...included here... * include/cln/rational.h: ...and here. * include/cln/abort.h: Removed. * include/cln/integer.h (ash_exception, exquo_exception): Add exception types. * include/cln/float.h (floating_point_exception, floating_point_nan_exception, floating_point_overflow_exception, floating_point_underflow_exception): Likewise. * include/cln/number_io.h (read_number_exception, read_number_bad_syntax_exception, read_number_junk_exception, read_number_eof_exception): Likewise. * include/cln/object.h (CL_DEFINE_CONVERTER): Replace dynamic assertion with a compile-time assertion. * include/cln/GV.h: Replace nonreturning functions with exceptions. * include/cln/modinteger.h: Likewise. * include/cln/SV.h: Likewise. * include/cln/ring.h: Likewise. * include/cln/string.h: Likewise. * include/cln/univpoly.h: Likewise. * src/base/cl_abort.cc: Removed. * src/base/cl_N_err_d0.cc: Removed. * src/base/cl_d0_exception.cc: New file. * src/base/cl_as_err.cc: Removed. * src/base/cl_as_exception.cc: New file. * src/base/cl_notreached.cc: Removed. * src/base/cl_notreached_exception.cc: New file. * src/base/input/cl_read_err_bad.cc: Removed. * src/base/input/cl_read_bad_syntax_exception.cc: New file. * src/base/input/cl_read_err_junk.cc: Removed. * src/base/input/cl_read_junk_exception.cc: New file. * src/base/input/cl_read_err_eof.cc: Removed. * src/base/input/cl_read_eof_exception.cc: New file. * src/base/cl_N.h (cl_as_error): Removed (see cln/exception.h). * src/base/macros.h (NOTREACHED): Throw. * src/base/cl_malloc.cc (xmalloc): Throw. * src/base/digitseq/cl_2DS_div.cc: Throw. * src/base/digitseq/cl_DS_div.cc: Throw. * src/base/digitseq/cl_DS_mul.cc: Throw. * src/base/digitseq/cl_DS_mul_fftc.h: Throw. * src/base/digitseq/cl_DS_mul_fftcs.h: Throw. * src/base/digitseq/cl_DS_mul_fftm.h: Throw. * src/base/digitseq/cl_DS_mul_fftp.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3m.h: Throw. * src/base/digitseq/cl_DS_mul_fftr.h: Throw. * src/base/digitseq/cl_DS_mul_nuss.h: Throw. * src/base/digitseq/cl_DS_recipsqrt.cc: Throw. * src/base/digitseq/cl_DS_sqrt.cc: Throw. * src/base/hash/cl_hash.h: Throw. * src/base/hash/cl_hash1.h: Throw. * src/base/hash/cl_hash1weak.h: Throw. * src/base/hash/cl_hash2.h: Throw. * src/base/hash/cl_hash2weak.h: Throw. * src/base/hash/cl_hashset.h: Throw. * src/base/hash/cl_hashuniq.h: Throw. * src/base/hash/cl_hashuniqweak.h: Throw. * src/base/proplist/cl_pl_add.cc: Throw. * src/base/ring/cl_no_ring.cc: Throw. * src/base/string/cl_spushstring.h: Throw. * src/base/symbol/cl_symbol.cc: Throw. * src/integer/bitwise/cl_I_ash.h: Removed (see cln/integer.h.) * src/integer/bitwise/cl_I_asherr.cc: Removed. * src/integer/bitwise/cl_I_ash_exception.cc: New file. * src/integer/division/cl_I_exquoerr.cc: Removed. * src/integer/division/cl_I_exquo_exception.cc: New file. * src/integer/cl_I.h: Throw. * src/integer/division/cl_I_exquopos.cc: Throw. * src/integer/bitwise/cl_I_logbitp_I.cc: Throw. * src/integer/bitwise/cl_I_ash.cc: Throw. * src/integer/bitwise/cl_I_ash_I.cc: Throw. * src/integer/division/cl_I_exquo.cc: Throw. * src/integer/gcd/cl_I_gcd_aux2.cc: Throw. * src/integer/conv/cl_I_to_L.cc: Throw. * src/integer/conv/cl_I_to_Q.cc: Throw. * src/integer/conv/cl_I_to_UL.cc: Throw. * src/integer/conv/cl_I_to_UQ.cc: Throw. * src/integer/conv/cl_I_to_digits.cc: Throw. * src/integer/elem/cl_I_div.cc: Throw. * src/integer/algebraic/cl_I_sqrt.cc: Throw. * src/integer/input/cl_I_read.cc: Throw. * src/integer/input/cl_I_read_stream.cc: Throw. * src/integer/misc/cl_I_as.cc: Throw. * src/rational/elem/cl_RA_from_I_I_div.cc: Throw. * src/rational/elem/cl_RA_recip.cc: Throw. * src/rational/input/cl_RA_read.cc: Throw. * src/rational/input/cl_RA_read_stream.cc: Throw. * src/rational/input/cl_RA_readparsed.cc: Throw. * src/rational/misc/cl_RA_as.cc: Throw. * src/float/base/cl_F_err_nan.cc: Removed. * src/float/base/cl_F_nan_exception.cc: New file. * src/float/base/cl_F_err_un.cc: Removed. * src/float/base/cl_F_underflow_exception.cc: New file. * src/float/base/cl_F_err_ov.cc: Removed. * src/float/base/cl_F_overflow_exception.cc: New file. * src/float/cl_F.h (cl_error_floating_point_nan, cl_error_floating_point_overflow, cl_error_floating_point_underflow): Removed (see cln/float.h.) * src/float/sfloat/cl_SF.h: Throw. * src/float/sfloat/elem/cl_SF_div.cc: Throw. * src/float/sfloat/elem/cl_SF_from_RA.cc: Throw. * src/float/sfloat/elem/cl_SF_scale.cc: Throw. * src/float/sfloat/elem/cl_SF_scale_I.cc: Throw. * src/float/sfloat/misc/cl_SF_as.cc: Throw. * src/float/ffloat/cl_FF.h: Throw. * src/float/ffloat/conv/cl_FF_from_float.cc: Throw. * src/float/ffloat/elem/cl_FF_div.cc: Throw. * src/float/ffloat/elem/cl_FF_from_RA.cc: Throw. * src/float/ffloat/elem/cl_FF_scale.cc: Throw. * src/float/ffloat/elem/cl_FF_scale_I.cc: Throw. * src/float/ffloat/misc/cl_FF_as.cc: Throw. * src/float/dfloat/cl_DF.h: Throw. * src/float/dfloat/conv/cl_DF_from_double.cc: Throw. * src/float/dfloat/elem/cl_DF_div.cc: Throw. * src/float/dfloat/elem/cl_DF_from_RA.cc: Throw. * src/float/dfloat/elem/cl_DF_scale.cc: Throw. * src/float/dfloat/elem/cl_DF_scale_I.cc: Throw. * src/float/dfloat/misc/cl_DF_as.cc: Throw. * src/float/lfloat/algebraic/cl_LF_sqrt.cc: Throw. * src/float/lfloat/elem/cl_LF_1plus.cc: Throw. * src/float/lfloat/elem/cl_LF_I_div.cc: Throw. * src/float/lfloat/elem/cl_LF_I_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_div.cc: Throw. * src/float/lfloat/elem/cl_LF_from_I.cc: Throw. * src/float/lfloat/elem/cl_LF_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_scale.cc: Throw. * src/float/lfloat/elem/cl_LF_scale_I.cc: Throw. * src/float/lfloat/elem/cl_LF_square.cc: Throw. * src/float/lfloat/misc/cl_LF_as.cc: Throw. * src/float/lfloat/misc/cl_LF_shorten.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenrel.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenwith.cc: Throw. * src/float/input/cl_F_read.cc: Throw. * src/float/input/cl_F_read_stream.cc: Throw. * src/float/misc/cl_F_as.cc: Throw. * src/float/misc/cl_F_shortenrel.cc: Throw. * src/float/transcendental/cl_LF_coshsinh_aux.cc: Throw. * src/float/transcendental/cl_LF_cossin_aux.cc: Throw. * src/float/transcendental/cl_LF_exp_aux.cc: Throw. * src/float/transcendental/cl_LF_ratseries_a.cc: Throw. * src/float/transcendental/cl_LF_ratseries_ab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_b.cc: Throw. * src/float/transcendental/cl_LF_ratseries_p.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_q.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqcd_aux.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd_aux.cc: Throw. * src/float/transcendental/cl_LF_zeta_int.cc: Throw. * src/real/elem/cl_R_div.cc: Throw. * src/real/format-output/cl_fmt_cardinal.cc: Throw. * src/real/format-output/cl_fmt_newroman.cc: Throw. * src/real/format-output/cl_fmt_oldroman.cc: Throw. * src/real/input/cl_R_read.cc: Throw. * src/real/input/cl_R_read_stream.cc: Throw. * src/real/misc/cl_R_as.cc: Throw. * src/real/random/cl_R_random.cc: Throw. * src/real/transcendental/cl_R_atan2.cc: Throw. * src/real/transcendental/cl_R_log.cc: Throw. * src/complex/input/cl_N_read.cc: Throw. * src/complex/input/cl_N_read_stream.cc: Throw. * src/complex/misc/cl_N_as.cc: Throw. * src/complex/transcendental/cl_C_atanh_aux.cc: Throw. * src/complex/transcendental/cl_C_expt_C.cc: Throw. * src/complex/transcendental/cl_C_log.cc: Throw. * src/complex/transcendental/cl_C_log2.cc: Throw. * src/numtheory/cl_nt_cornacchia1.cc: Throw. * src/numtheory/cl_nt_cornacchia4.cc: Throw. * src/numtheory/cl_nt_isprobprime.cc: Throw. * src/numtheory/cl_nt_jacobi.cc: Throw. * src/numtheory/cl_nt_jacobi_low.cc: Throw. * src/numtheory/cl_nt_sqrtmodp.cc: Throw. * src/modinteger/cl_MI.cc: Throw. * src/modinteger/cl_MI_int.h: Throw. * src/modinteger/cl_MI_montgom.h: Throw. * src/modinteger/cl_MI_pow2.h: Throw. * src/modinteger/cl_MI_rshift.cc: Throw. * src/modinteger/cl_MI_std.h: Throw. * src/polynomial/elem/cl_UP_GF2.h: Throw. * src/polynomial/elem/cl_UP_MI.h: Throw. * src/polynomial/elem/cl_UP_gen.h: Throw. * src/polynomial/elem/cl_UP_named.cc: Throw. * src/polynomial/elem/cl_UP_no_ring.cc (uninitialized_error, uninitialized_ring): Removed (see cln/ring.h.) * src/polynomial/elem/cl_UP_number.h: Throw. * src/polynomial/elem/cl_UP_unnamed.cc: Throw. * src/vector/cl_GV_I.cc: Throw. * src/vector/cl_GV_number.cc: Throw. * tests/timediv2adic-compare.cc: Use default abort(), not cl_abort(). * tests/timeprint-compare.cc: Likewise. * tests/timerecip2adic-compare.cc: Likewise. * doc/cln.tex: Document the exception classes. * examples/contfrac.cc: Use try/catch instead of setjmp/longjmp. * INSTALL: undocument -fno-exceptions. * README: Add exceptions to list of used C++ features.
18 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
Remove exception hooks in favor of real C++ exceptions: * include/cln/exception.h: New file... * include/cln/cln.h: ...included here... * include/cln/rational.h: ...and here. * include/cln/abort.h: Removed. * include/cln/integer.h (ash_exception, exquo_exception): Add exception types. * include/cln/float.h (floating_point_exception, floating_point_nan_exception, floating_point_overflow_exception, floating_point_underflow_exception): Likewise. * include/cln/number_io.h (read_number_exception, read_number_bad_syntax_exception, read_number_junk_exception, read_number_eof_exception): Likewise. * include/cln/object.h (CL_DEFINE_CONVERTER): Replace dynamic assertion with a compile-time assertion. * include/cln/GV.h: Replace nonreturning functions with exceptions. * include/cln/modinteger.h: Likewise. * include/cln/SV.h: Likewise. * include/cln/ring.h: Likewise. * include/cln/string.h: Likewise. * include/cln/univpoly.h: Likewise. * src/base/cl_abort.cc: Removed. * src/base/cl_N_err_d0.cc: Removed. * src/base/cl_d0_exception.cc: New file. * src/base/cl_as_err.cc: Removed. * src/base/cl_as_exception.cc: New file. * src/base/cl_notreached.cc: Removed. * src/base/cl_notreached_exception.cc: New file. * src/base/input/cl_read_err_bad.cc: Removed. * src/base/input/cl_read_bad_syntax_exception.cc: New file. * src/base/input/cl_read_err_junk.cc: Removed. * src/base/input/cl_read_junk_exception.cc: New file. * src/base/input/cl_read_err_eof.cc: Removed. * src/base/input/cl_read_eof_exception.cc: New file. * src/base/cl_N.h (cl_as_error): Removed (see cln/exception.h). * src/base/macros.h (NOTREACHED): Throw. * src/base/cl_malloc.cc (xmalloc): Throw. * src/base/digitseq/cl_2DS_div.cc: Throw. * src/base/digitseq/cl_DS_div.cc: Throw. * src/base/digitseq/cl_DS_mul.cc: Throw. * src/base/digitseq/cl_DS_mul_fftc.h: Throw. * src/base/digitseq/cl_DS_mul_fftcs.h: Throw. * src/base/digitseq/cl_DS_mul_fftm.h: Throw. * src/base/digitseq/cl_DS_mul_fftp.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3m.h: Throw. * src/base/digitseq/cl_DS_mul_fftr.h: Throw. * src/base/digitseq/cl_DS_mul_nuss.h: Throw. * src/base/digitseq/cl_DS_recipsqrt.cc: Throw. * src/base/digitseq/cl_DS_sqrt.cc: Throw. * src/base/hash/cl_hash.h: Throw. * src/base/hash/cl_hash1.h: Throw. * src/base/hash/cl_hash1weak.h: Throw. * src/base/hash/cl_hash2.h: Throw. * src/base/hash/cl_hash2weak.h: Throw. * src/base/hash/cl_hashset.h: Throw. * src/base/hash/cl_hashuniq.h: Throw. * src/base/hash/cl_hashuniqweak.h: Throw. * src/base/proplist/cl_pl_add.cc: Throw. * src/base/ring/cl_no_ring.cc: Throw. * src/base/string/cl_spushstring.h: Throw. * src/base/symbol/cl_symbol.cc: Throw. * src/integer/bitwise/cl_I_ash.h: Removed (see cln/integer.h.) * src/integer/bitwise/cl_I_asherr.cc: Removed. * src/integer/bitwise/cl_I_ash_exception.cc: New file. * src/integer/division/cl_I_exquoerr.cc: Removed. * src/integer/division/cl_I_exquo_exception.cc: New file. * src/integer/cl_I.h: Throw. * src/integer/division/cl_I_exquopos.cc: Throw. * src/integer/bitwise/cl_I_logbitp_I.cc: Throw. * src/integer/bitwise/cl_I_ash.cc: Throw. * src/integer/bitwise/cl_I_ash_I.cc: Throw. * src/integer/division/cl_I_exquo.cc: Throw. * src/integer/gcd/cl_I_gcd_aux2.cc: Throw. * src/integer/conv/cl_I_to_L.cc: Throw. * src/integer/conv/cl_I_to_Q.cc: Throw. * src/integer/conv/cl_I_to_UL.cc: Throw. * src/integer/conv/cl_I_to_UQ.cc: Throw. * src/integer/conv/cl_I_to_digits.cc: Throw. * src/integer/elem/cl_I_div.cc: Throw. * src/integer/algebraic/cl_I_sqrt.cc: Throw. * src/integer/input/cl_I_read.cc: Throw. * src/integer/input/cl_I_read_stream.cc: Throw. * src/integer/misc/cl_I_as.cc: Throw. * src/rational/elem/cl_RA_from_I_I_div.cc: Throw. * src/rational/elem/cl_RA_recip.cc: Throw. * src/rational/input/cl_RA_read.cc: Throw. * src/rational/input/cl_RA_read_stream.cc: Throw. * src/rational/input/cl_RA_readparsed.cc: Throw. * src/rational/misc/cl_RA_as.cc: Throw. * src/float/base/cl_F_err_nan.cc: Removed. * src/float/base/cl_F_nan_exception.cc: New file. * src/float/base/cl_F_err_un.cc: Removed. * src/float/base/cl_F_underflow_exception.cc: New file. * src/float/base/cl_F_err_ov.cc: Removed. * src/float/base/cl_F_overflow_exception.cc: New file. * src/float/cl_F.h (cl_error_floating_point_nan, cl_error_floating_point_overflow, cl_error_floating_point_underflow): Removed (see cln/float.h.) * src/float/sfloat/cl_SF.h: Throw. * src/float/sfloat/elem/cl_SF_div.cc: Throw. * src/float/sfloat/elem/cl_SF_from_RA.cc: Throw. * src/float/sfloat/elem/cl_SF_scale.cc: Throw. * src/float/sfloat/elem/cl_SF_scale_I.cc: Throw. * src/float/sfloat/misc/cl_SF_as.cc: Throw. * src/float/ffloat/cl_FF.h: Throw. * src/float/ffloat/conv/cl_FF_from_float.cc: Throw. * src/float/ffloat/elem/cl_FF_div.cc: Throw. * src/float/ffloat/elem/cl_FF_from_RA.cc: Throw. * src/float/ffloat/elem/cl_FF_scale.cc: Throw. * src/float/ffloat/elem/cl_FF_scale_I.cc: Throw. * src/float/ffloat/misc/cl_FF_as.cc: Throw. * src/float/dfloat/cl_DF.h: Throw. * src/float/dfloat/conv/cl_DF_from_double.cc: Throw. * src/float/dfloat/elem/cl_DF_div.cc: Throw. * src/float/dfloat/elem/cl_DF_from_RA.cc: Throw. * src/float/dfloat/elem/cl_DF_scale.cc: Throw. * src/float/dfloat/elem/cl_DF_scale_I.cc: Throw. * src/float/dfloat/misc/cl_DF_as.cc: Throw. * src/float/lfloat/algebraic/cl_LF_sqrt.cc: Throw. * src/float/lfloat/elem/cl_LF_1plus.cc: Throw. * src/float/lfloat/elem/cl_LF_I_div.cc: Throw. * src/float/lfloat/elem/cl_LF_I_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_div.cc: Throw. * src/float/lfloat/elem/cl_LF_from_I.cc: Throw. * src/float/lfloat/elem/cl_LF_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_scale.cc: Throw. * src/float/lfloat/elem/cl_LF_scale_I.cc: Throw. * src/float/lfloat/elem/cl_LF_square.cc: Throw. * src/float/lfloat/misc/cl_LF_as.cc: Throw. * src/float/lfloat/misc/cl_LF_shorten.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenrel.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenwith.cc: Throw. * src/float/input/cl_F_read.cc: Throw. * src/float/input/cl_F_read_stream.cc: Throw. * src/float/misc/cl_F_as.cc: Throw. * src/float/misc/cl_F_shortenrel.cc: Throw. * src/float/transcendental/cl_LF_coshsinh_aux.cc: Throw. * src/float/transcendental/cl_LF_cossin_aux.cc: Throw. * src/float/transcendental/cl_LF_exp_aux.cc: Throw. * src/float/transcendental/cl_LF_ratseries_a.cc: Throw. * src/float/transcendental/cl_LF_ratseries_ab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_b.cc: Throw. * src/float/transcendental/cl_LF_ratseries_p.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_q.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqcd_aux.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd_aux.cc: Throw. * src/float/transcendental/cl_LF_zeta_int.cc: Throw. * src/real/elem/cl_R_div.cc: Throw. * src/real/format-output/cl_fmt_cardinal.cc: Throw. * src/real/format-output/cl_fmt_newroman.cc: Throw. * src/real/format-output/cl_fmt_oldroman.cc: Throw. * src/real/input/cl_R_read.cc: Throw. * src/real/input/cl_R_read_stream.cc: Throw. * src/real/misc/cl_R_as.cc: Throw. * src/real/random/cl_R_random.cc: Throw. * src/real/transcendental/cl_R_atan2.cc: Throw. * src/real/transcendental/cl_R_log.cc: Throw. * src/complex/input/cl_N_read.cc: Throw. * src/complex/input/cl_N_read_stream.cc: Throw. * src/complex/misc/cl_N_as.cc: Throw. * src/complex/transcendental/cl_C_atanh_aux.cc: Throw. * src/complex/transcendental/cl_C_expt_C.cc: Throw. * src/complex/transcendental/cl_C_log.cc: Throw. * src/complex/transcendental/cl_C_log2.cc: Throw. * src/numtheory/cl_nt_cornacchia1.cc: Throw. * src/numtheory/cl_nt_cornacchia4.cc: Throw. * src/numtheory/cl_nt_isprobprime.cc: Throw. * src/numtheory/cl_nt_jacobi.cc: Throw. * src/numtheory/cl_nt_jacobi_low.cc: Throw. * src/numtheory/cl_nt_sqrtmodp.cc: Throw. * src/modinteger/cl_MI.cc: Throw. * src/modinteger/cl_MI_int.h: Throw. * src/modinteger/cl_MI_montgom.h: Throw. * src/modinteger/cl_MI_pow2.h: Throw. * src/modinteger/cl_MI_rshift.cc: Throw. * src/modinteger/cl_MI_std.h: Throw. * src/polynomial/elem/cl_UP_GF2.h: Throw. * src/polynomial/elem/cl_UP_MI.h: Throw. * src/polynomial/elem/cl_UP_gen.h: Throw. * src/polynomial/elem/cl_UP_named.cc: Throw. * src/polynomial/elem/cl_UP_no_ring.cc (uninitialized_error, uninitialized_ring): Removed (see cln/ring.h.) * src/polynomial/elem/cl_UP_number.h: Throw. * src/polynomial/elem/cl_UP_unnamed.cc: Throw. * src/vector/cl_GV_I.cc: Throw. * src/vector/cl_GV_number.cc: Throw. * tests/timediv2adic-compare.cc: Use default abort(), not cl_abort(). * tests/timeprint-compare.cc: Likewise. * tests/timerecip2adic-compare.cc: Likewise. * doc/cln.tex: Document the exception classes. * examples/contfrac.cc: Use try/catch instead of setjmp/longjmp. * INSTALL: undocument -fno-exceptions. * README: Add exceptions to list of used C++ features.
18 years ago
25 years ago
Remove exception hooks in favor of real C++ exceptions: * include/cln/exception.h: New file... * include/cln/cln.h: ...included here... * include/cln/rational.h: ...and here. * include/cln/abort.h: Removed. * include/cln/integer.h (ash_exception, exquo_exception): Add exception types. * include/cln/float.h (floating_point_exception, floating_point_nan_exception, floating_point_overflow_exception, floating_point_underflow_exception): Likewise. * include/cln/number_io.h (read_number_exception, read_number_bad_syntax_exception, read_number_junk_exception, read_number_eof_exception): Likewise. * include/cln/object.h (CL_DEFINE_CONVERTER): Replace dynamic assertion with a compile-time assertion. * include/cln/GV.h: Replace nonreturning functions with exceptions. * include/cln/modinteger.h: Likewise. * include/cln/SV.h: Likewise. * include/cln/ring.h: Likewise. * include/cln/string.h: Likewise. * include/cln/univpoly.h: Likewise. * src/base/cl_abort.cc: Removed. * src/base/cl_N_err_d0.cc: Removed. * src/base/cl_d0_exception.cc: New file. * src/base/cl_as_err.cc: Removed. * src/base/cl_as_exception.cc: New file. * src/base/cl_notreached.cc: Removed. * src/base/cl_notreached_exception.cc: New file. * src/base/input/cl_read_err_bad.cc: Removed. * src/base/input/cl_read_bad_syntax_exception.cc: New file. * src/base/input/cl_read_err_junk.cc: Removed. * src/base/input/cl_read_junk_exception.cc: New file. * src/base/input/cl_read_err_eof.cc: Removed. * src/base/input/cl_read_eof_exception.cc: New file. * src/base/cl_N.h (cl_as_error): Removed (see cln/exception.h). * src/base/macros.h (NOTREACHED): Throw. * src/base/cl_malloc.cc (xmalloc): Throw. * src/base/digitseq/cl_2DS_div.cc: Throw. * src/base/digitseq/cl_DS_div.cc: Throw. * src/base/digitseq/cl_DS_mul.cc: Throw. * src/base/digitseq/cl_DS_mul_fftc.h: Throw. * src/base/digitseq/cl_DS_mul_fftcs.h: Throw. * src/base/digitseq/cl_DS_mul_fftm.h: Throw. * src/base/digitseq/cl_DS_mul_fftp.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3m.h: Throw. * src/base/digitseq/cl_DS_mul_fftr.h: Throw. * src/base/digitseq/cl_DS_mul_nuss.h: Throw. * src/base/digitseq/cl_DS_recipsqrt.cc: Throw. * src/base/digitseq/cl_DS_sqrt.cc: Throw. * src/base/hash/cl_hash.h: Throw. * src/base/hash/cl_hash1.h: Throw. * src/base/hash/cl_hash1weak.h: Throw. * src/base/hash/cl_hash2.h: Throw. * src/base/hash/cl_hash2weak.h: Throw. * src/base/hash/cl_hashset.h: Throw. * src/base/hash/cl_hashuniq.h: Throw. * src/base/hash/cl_hashuniqweak.h: Throw. * src/base/proplist/cl_pl_add.cc: Throw. * src/base/ring/cl_no_ring.cc: Throw. * src/base/string/cl_spushstring.h: Throw. * src/base/symbol/cl_symbol.cc: Throw. * src/integer/bitwise/cl_I_ash.h: Removed (see cln/integer.h.) * src/integer/bitwise/cl_I_asherr.cc: Removed. * src/integer/bitwise/cl_I_ash_exception.cc: New file. * src/integer/division/cl_I_exquoerr.cc: Removed. * src/integer/division/cl_I_exquo_exception.cc: New file. * src/integer/cl_I.h: Throw. * src/integer/division/cl_I_exquopos.cc: Throw. * src/integer/bitwise/cl_I_logbitp_I.cc: Throw. * src/integer/bitwise/cl_I_ash.cc: Throw. * src/integer/bitwise/cl_I_ash_I.cc: Throw. * src/integer/division/cl_I_exquo.cc: Throw. * src/integer/gcd/cl_I_gcd_aux2.cc: Throw. * src/integer/conv/cl_I_to_L.cc: Throw. * src/integer/conv/cl_I_to_Q.cc: Throw. * src/integer/conv/cl_I_to_UL.cc: Throw. * src/integer/conv/cl_I_to_UQ.cc: Throw. * src/integer/conv/cl_I_to_digits.cc: Throw. * src/integer/elem/cl_I_div.cc: Throw. * src/integer/algebraic/cl_I_sqrt.cc: Throw. * src/integer/input/cl_I_read.cc: Throw. * src/integer/input/cl_I_read_stream.cc: Throw. * src/integer/misc/cl_I_as.cc: Throw. * src/rational/elem/cl_RA_from_I_I_div.cc: Throw. * src/rational/elem/cl_RA_recip.cc: Throw. * src/rational/input/cl_RA_read.cc: Throw. * src/rational/input/cl_RA_read_stream.cc: Throw. * src/rational/input/cl_RA_readparsed.cc: Throw. * src/rational/misc/cl_RA_as.cc: Throw. * src/float/base/cl_F_err_nan.cc: Removed. * src/float/base/cl_F_nan_exception.cc: New file. * src/float/base/cl_F_err_un.cc: Removed. * src/float/base/cl_F_underflow_exception.cc: New file. * src/float/base/cl_F_err_ov.cc: Removed. * src/float/base/cl_F_overflow_exception.cc: New file. * src/float/cl_F.h (cl_error_floating_point_nan, cl_error_floating_point_overflow, cl_error_floating_point_underflow): Removed (see cln/float.h.) * src/float/sfloat/cl_SF.h: Throw. * src/float/sfloat/elem/cl_SF_div.cc: Throw. * src/float/sfloat/elem/cl_SF_from_RA.cc: Throw. * src/float/sfloat/elem/cl_SF_scale.cc: Throw. * src/float/sfloat/elem/cl_SF_scale_I.cc: Throw. * src/float/sfloat/misc/cl_SF_as.cc: Throw. * src/float/ffloat/cl_FF.h: Throw. * src/float/ffloat/conv/cl_FF_from_float.cc: Throw. * src/float/ffloat/elem/cl_FF_div.cc: Throw. * src/float/ffloat/elem/cl_FF_from_RA.cc: Throw. * src/float/ffloat/elem/cl_FF_scale.cc: Throw. * src/float/ffloat/elem/cl_FF_scale_I.cc: Throw. * src/float/ffloat/misc/cl_FF_as.cc: Throw. * src/float/dfloat/cl_DF.h: Throw. * src/float/dfloat/conv/cl_DF_from_double.cc: Throw. * src/float/dfloat/elem/cl_DF_div.cc: Throw. * src/float/dfloat/elem/cl_DF_from_RA.cc: Throw. * src/float/dfloat/elem/cl_DF_scale.cc: Throw. * src/float/dfloat/elem/cl_DF_scale_I.cc: Throw. * src/float/dfloat/misc/cl_DF_as.cc: Throw. * src/float/lfloat/algebraic/cl_LF_sqrt.cc: Throw. * src/float/lfloat/elem/cl_LF_1plus.cc: Throw. * src/float/lfloat/elem/cl_LF_I_div.cc: Throw. * src/float/lfloat/elem/cl_LF_I_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_div.cc: Throw. * src/float/lfloat/elem/cl_LF_from_I.cc: Throw. * src/float/lfloat/elem/cl_LF_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_scale.cc: Throw. * src/float/lfloat/elem/cl_LF_scale_I.cc: Throw. * src/float/lfloat/elem/cl_LF_square.cc: Throw. * src/float/lfloat/misc/cl_LF_as.cc: Throw. * src/float/lfloat/misc/cl_LF_shorten.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenrel.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenwith.cc: Throw. * src/float/input/cl_F_read.cc: Throw. * src/float/input/cl_F_read_stream.cc: Throw. * src/float/misc/cl_F_as.cc: Throw. * src/float/misc/cl_F_shortenrel.cc: Throw. * src/float/transcendental/cl_LF_coshsinh_aux.cc: Throw. * src/float/transcendental/cl_LF_cossin_aux.cc: Throw. * src/float/transcendental/cl_LF_exp_aux.cc: Throw. * src/float/transcendental/cl_LF_ratseries_a.cc: Throw. * src/float/transcendental/cl_LF_ratseries_ab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_b.cc: Throw. * src/float/transcendental/cl_LF_ratseries_p.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_q.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqcd_aux.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd_aux.cc: Throw. * src/float/transcendental/cl_LF_zeta_int.cc: Throw. * src/real/elem/cl_R_div.cc: Throw. * src/real/format-output/cl_fmt_cardinal.cc: Throw. * src/real/format-output/cl_fmt_newroman.cc: Throw. * src/real/format-output/cl_fmt_oldroman.cc: Throw. * src/real/input/cl_R_read.cc: Throw. * src/real/input/cl_R_read_stream.cc: Throw. * src/real/misc/cl_R_as.cc: Throw. * src/real/random/cl_R_random.cc: Throw. * src/real/transcendental/cl_R_atan2.cc: Throw. * src/real/transcendental/cl_R_log.cc: Throw. * src/complex/input/cl_N_read.cc: Throw. * src/complex/input/cl_N_read_stream.cc: Throw. * src/complex/misc/cl_N_as.cc: Throw. * src/complex/transcendental/cl_C_atanh_aux.cc: Throw. * src/complex/transcendental/cl_C_expt_C.cc: Throw. * src/complex/transcendental/cl_C_log.cc: Throw. * src/complex/transcendental/cl_C_log2.cc: Throw. * src/numtheory/cl_nt_cornacchia1.cc: Throw. * src/numtheory/cl_nt_cornacchia4.cc: Throw. * src/numtheory/cl_nt_isprobprime.cc: Throw. * src/numtheory/cl_nt_jacobi.cc: Throw. * src/numtheory/cl_nt_jacobi_low.cc: Throw. * src/numtheory/cl_nt_sqrtmodp.cc: Throw. * src/modinteger/cl_MI.cc: Throw. * src/modinteger/cl_MI_int.h: Throw. * src/modinteger/cl_MI_montgom.h: Throw. * src/modinteger/cl_MI_pow2.h: Throw. * src/modinteger/cl_MI_rshift.cc: Throw. * src/modinteger/cl_MI_std.h: Throw. * src/polynomial/elem/cl_UP_GF2.h: Throw. * src/polynomial/elem/cl_UP_MI.h: Throw. * src/polynomial/elem/cl_UP_gen.h: Throw. * src/polynomial/elem/cl_UP_named.cc: Throw. * src/polynomial/elem/cl_UP_no_ring.cc (uninitialized_error, uninitialized_ring): Removed (see cln/ring.h.) * src/polynomial/elem/cl_UP_number.h: Throw. * src/polynomial/elem/cl_UP_unnamed.cc: Throw. * src/vector/cl_GV_I.cc: Throw. * src/vector/cl_GV_number.cc: Throw. * tests/timediv2adic-compare.cc: Use default abort(), not cl_abort(). * tests/timeprint-compare.cc: Likewise. * tests/timerecip2adic-compare.cc: Likewise. * doc/cln.tex: Document the exception classes. * examples/contfrac.cc: Use try/catch instead of setjmp/longjmp. * INSTALL: undocument -fno-exceptions. * README: Add exceptions to list of used C++ features.
18 years ago
25 years ago
Remove exception hooks in favor of real C++ exceptions: * include/cln/exception.h: New file... * include/cln/cln.h: ...included here... * include/cln/rational.h: ...and here. * include/cln/abort.h: Removed. * include/cln/integer.h (ash_exception, exquo_exception): Add exception types. * include/cln/float.h (floating_point_exception, floating_point_nan_exception, floating_point_overflow_exception, floating_point_underflow_exception): Likewise. * include/cln/number_io.h (read_number_exception, read_number_bad_syntax_exception, read_number_junk_exception, read_number_eof_exception): Likewise. * include/cln/object.h (CL_DEFINE_CONVERTER): Replace dynamic assertion with a compile-time assertion. * include/cln/GV.h: Replace nonreturning functions with exceptions. * include/cln/modinteger.h: Likewise. * include/cln/SV.h: Likewise. * include/cln/ring.h: Likewise. * include/cln/string.h: Likewise. * include/cln/univpoly.h: Likewise. * src/base/cl_abort.cc: Removed. * src/base/cl_N_err_d0.cc: Removed. * src/base/cl_d0_exception.cc: New file. * src/base/cl_as_err.cc: Removed. * src/base/cl_as_exception.cc: New file. * src/base/cl_notreached.cc: Removed. * src/base/cl_notreached_exception.cc: New file. * src/base/input/cl_read_err_bad.cc: Removed. * src/base/input/cl_read_bad_syntax_exception.cc: New file. * src/base/input/cl_read_err_junk.cc: Removed. * src/base/input/cl_read_junk_exception.cc: New file. * src/base/input/cl_read_err_eof.cc: Removed. * src/base/input/cl_read_eof_exception.cc: New file. * src/base/cl_N.h (cl_as_error): Removed (see cln/exception.h). * src/base/macros.h (NOTREACHED): Throw. * src/base/cl_malloc.cc (xmalloc): Throw. * src/base/digitseq/cl_2DS_div.cc: Throw. * src/base/digitseq/cl_DS_div.cc: Throw. * src/base/digitseq/cl_DS_mul.cc: Throw. * src/base/digitseq/cl_DS_mul_fftc.h: Throw. * src/base/digitseq/cl_DS_mul_fftcs.h: Throw. * src/base/digitseq/cl_DS_mul_fftm.h: Throw. * src/base/digitseq/cl_DS_mul_fftp.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3m.h: Throw. * src/base/digitseq/cl_DS_mul_fftr.h: Throw. * src/base/digitseq/cl_DS_mul_nuss.h: Throw. * src/base/digitseq/cl_DS_recipsqrt.cc: Throw. * src/base/digitseq/cl_DS_sqrt.cc: Throw. * src/base/hash/cl_hash.h: Throw. * src/base/hash/cl_hash1.h: Throw. * src/base/hash/cl_hash1weak.h: Throw. * src/base/hash/cl_hash2.h: Throw. * src/base/hash/cl_hash2weak.h: Throw. * src/base/hash/cl_hashset.h: Throw. * src/base/hash/cl_hashuniq.h: Throw. * src/base/hash/cl_hashuniqweak.h: Throw. * src/base/proplist/cl_pl_add.cc: Throw. * src/base/ring/cl_no_ring.cc: Throw. * src/base/string/cl_spushstring.h: Throw. * src/base/symbol/cl_symbol.cc: Throw. * src/integer/bitwise/cl_I_ash.h: Removed (see cln/integer.h.) * src/integer/bitwise/cl_I_asherr.cc: Removed. * src/integer/bitwise/cl_I_ash_exception.cc: New file. * src/integer/division/cl_I_exquoerr.cc: Removed. * src/integer/division/cl_I_exquo_exception.cc: New file. * src/integer/cl_I.h: Throw. * src/integer/division/cl_I_exquopos.cc: Throw. * src/integer/bitwise/cl_I_logbitp_I.cc: Throw. * src/integer/bitwise/cl_I_ash.cc: Throw. * src/integer/bitwise/cl_I_ash_I.cc: Throw. * src/integer/division/cl_I_exquo.cc: Throw. * src/integer/gcd/cl_I_gcd_aux2.cc: Throw. * src/integer/conv/cl_I_to_L.cc: Throw. * src/integer/conv/cl_I_to_Q.cc: Throw. * src/integer/conv/cl_I_to_UL.cc: Throw. * src/integer/conv/cl_I_to_UQ.cc: Throw. * src/integer/conv/cl_I_to_digits.cc: Throw. * src/integer/elem/cl_I_div.cc: Throw. * src/integer/algebraic/cl_I_sqrt.cc: Throw. * src/integer/input/cl_I_read.cc: Throw. * src/integer/input/cl_I_read_stream.cc: Throw. * src/integer/misc/cl_I_as.cc: Throw. * src/rational/elem/cl_RA_from_I_I_div.cc: Throw. * src/rational/elem/cl_RA_recip.cc: Throw. * src/rational/input/cl_RA_read.cc: Throw. * src/rational/input/cl_RA_read_stream.cc: Throw. * src/rational/input/cl_RA_readparsed.cc: Throw. * src/rational/misc/cl_RA_as.cc: Throw. * src/float/base/cl_F_err_nan.cc: Removed. * src/float/base/cl_F_nan_exception.cc: New file. * src/float/base/cl_F_err_un.cc: Removed. * src/float/base/cl_F_underflow_exception.cc: New file. * src/float/base/cl_F_err_ov.cc: Removed. * src/float/base/cl_F_overflow_exception.cc: New file. * src/float/cl_F.h (cl_error_floating_point_nan, cl_error_floating_point_overflow, cl_error_floating_point_underflow): Removed (see cln/float.h.) * src/float/sfloat/cl_SF.h: Throw. * src/float/sfloat/elem/cl_SF_div.cc: Throw. * src/float/sfloat/elem/cl_SF_from_RA.cc: Throw. * src/float/sfloat/elem/cl_SF_scale.cc: Throw. * src/float/sfloat/elem/cl_SF_scale_I.cc: Throw. * src/float/sfloat/misc/cl_SF_as.cc: Throw. * src/float/ffloat/cl_FF.h: Throw. * src/float/ffloat/conv/cl_FF_from_float.cc: Throw. * src/float/ffloat/elem/cl_FF_div.cc: Throw. * src/float/ffloat/elem/cl_FF_from_RA.cc: Throw. * src/float/ffloat/elem/cl_FF_scale.cc: Throw. * src/float/ffloat/elem/cl_FF_scale_I.cc: Throw. * src/float/ffloat/misc/cl_FF_as.cc: Throw. * src/float/dfloat/cl_DF.h: Throw. * src/float/dfloat/conv/cl_DF_from_double.cc: Throw. * src/float/dfloat/elem/cl_DF_div.cc: Throw. * src/float/dfloat/elem/cl_DF_from_RA.cc: Throw. * src/float/dfloat/elem/cl_DF_scale.cc: Throw. * src/float/dfloat/elem/cl_DF_scale_I.cc: Throw. * src/float/dfloat/misc/cl_DF_as.cc: Throw. * src/float/lfloat/algebraic/cl_LF_sqrt.cc: Throw. * src/float/lfloat/elem/cl_LF_1plus.cc: Throw. * src/float/lfloat/elem/cl_LF_I_div.cc: Throw. * src/float/lfloat/elem/cl_LF_I_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_div.cc: Throw. * src/float/lfloat/elem/cl_LF_from_I.cc: Throw. * src/float/lfloat/elem/cl_LF_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_scale.cc: Throw. * src/float/lfloat/elem/cl_LF_scale_I.cc: Throw. * src/float/lfloat/elem/cl_LF_square.cc: Throw. * src/float/lfloat/misc/cl_LF_as.cc: Throw. * src/float/lfloat/misc/cl_LF_shorten.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenrel.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenwith.cc: Throw. * src/float/input/cl_F_read.cc: Throw. * src/float/input/cl_F_read_stream.cc: Throw. * src/float/misc/cl_F_as.cc: Throw. * src/float/misc/cl_F_shortenrel.cc: Throw. * src/float/transcendental/cl_LF_coshsinh_aux.cc: Throw. * src/float/transcendental/cl_LF_cossin_aux.cc: Throw. * src/float/transcendental/cl_LF_exp_aux.cc: Throw. * src/float/transcendental/cl_LF_ratseries_a.cc: Throw. * src/float/transcendental/cl_LF_ratseries_ab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_b.cc: Throw. * src/float/transcendental/cl_LF_ratseries_p.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_q.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqcd_aux.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd_aux.cc: Throw. * src/float/transcendental/cl_LF_zeta_int.cc: Throw. * src/real/elem/cl_R_div.cc: Throw. * src/real/format-output/cl_fmt_cardinal.cc: Throw. * src/real/format-output/cl_fmt_newroman.cc: Throw. * src/real/format-output/cl_fmt_oldroman.cc: Throw. * src/real/input/cl_R_read.cc: Throw. * src/real/input/cl_R_read_stream.cc: Throw. * src/real/misc/cl_R_as.cc: Throw. * src/real/random/cl_R_random.cc: Throw. * src/real/transcendental/cl_R_atan2.cc: Throw. * src/real/transcendental/cl_R_log.cc: Throw. * src/complex/input/cl_N_read.cc: Throw. * src/complex/input/cl_N_read_stream.cc: Throw. * src/complex/misc/cl_N_as.cc: Throw. * src/complex/transcendental/cl_C_atanh_aux.cc: Throw. * src/complex/transcendental/cl_C_expt_C.cc: Throw. * src/complex/transcendental/cl_C_log.cc: Throw. * src/complex/transcendental/cl_C_log2.cc: Throw. * src/numtheory/cl_nt_cornacchia1.cc: Throw. * src/numtheory/cl_nt_cornacchia4.cc: Throw. * src/numtheory/cl_nt_isprobprime.cc: Throw. * src/numtheory/cl_nt_jacobi.cc: Throw. * src/numtheory/cl_nt_jacobi_low.cc: Throw. * src/numtheory/cl_nt_sqrtmodp.cc: Throw. * src/modinteger/cl_MI.cc: Throw. * src/modinteger/cl_MI_int.h: Throw. * src/modinteger/cl_MI_montgom.h: Throw. * src/modinteger/cl_MI_pow2.h: Throw. * src/modinteger/cl_MI_rshift.cc: Throw. * src/modinteger/cl_MI_std.h: Throw. * src/polynomial/elem/cl_UP_GF2.h: Throw. * src/polynomial/elem/cl_UP_MI.h: Throw. * src/polynomial/elem/cl_UP_gen.h: Throw. * src/polynomial/elem/cl_UP_named.cc: Throw. * src/polynomial/elem/cl_UP_no_ring.cc (uninitialized_error, uninitialized_ring): Removed (see cln/ring.h.) * src/polynomial/elem/cl_UP_number.h: Throw. * src/polynomial/elem/cl_UP_unnamed.cc: Throw. * src/vector/cl_GV_I.cc: Throw. * src/vector/cl_GV_number.cc: Throw. * tests/timediv2adic-compare.cc: Use default abort(), not cl_abort(). * tests/timeprint-compare.cc: Likewise. * tests/timerecip2adic-compare.cc: Likewise. * doc/cln.tex: Document the exception classes. * examples/contfrac.cc: Use try/catch instead of setjmp/longjmp. * INSTALL: undocument -fno-exceptions. * README: Add exceptions to list of used C++ features.
18 years ago
25 years ago
Remove exception hooks in favor of real C++ exceptions: * include/cln/exception.h: New file... * include/cln/cln.h: ...included here... * include/cln/rational.h: ...and here. * include/cln/abort.h: Removed. * include/cln/integer.h (ash_exception, exquo_exception): Add exception types. * include/cln/float.h (floating_point_exception, floating_point_nan_exception, floating_point_overflow_exception, floating_point_underflow_exception): Likewise. * include/cln/number_io.h (read_number_exception, read_number_bad_syntax_exception, read_number_junk_exception, read_number_eof_exception): Likewise. * include/cln/object.h (CL_DEFINE_CONVERTER): Replace dynamic assertion with a compile-time assertion. * include/cln/GV.h: Replace nonreturning functions with exceptions. * include/cln/modinteger.h: Likewise. * include/cln/SV.h: Likewise. * include/cln/ring.h: Likewise. * include/cln/string.h: Likewise. * include/cln/univpoly.h: Likewise. * src/base/cl_abort.cc: Removed. * src/base/cl_N_err_d0.cc: Removed. * src/base/cl_d0_exception.cc: New file. * src/base/cl_as_err.cc: Removed. * src/base/cl_as_exception.cc: New file. * src/base/cl_notreached.cc: Removed. * src/base/cl_notreached_exception.cc: New file. * src/base/input/cl_read_err_bad.cc: Removed. * src/base/input/cl_read_bad_syntax_exception.cc: New file. * src/base/input/cl_read_err_junk.cc: Removed. * src/base/input/cl_read_junk_exception.cc: New file. * src/base/input/cl_read_err_eof.cc: Removed. * src/base/input/cl_read_eof_exception.cc: New file. * src/base/cl_N.h (cl_as_error): Removed (see cln/exception.h). * src/base/macros.h (NOTREACHED): Throw. * src/base/cl_malloc.cc (xmalloc): Throw. * src/base/digitseq/cl_2DS_div.cc: Throw. * src/base/digitseq/cl_DS_div.cc: Throw. * src/base/digitseq/cl_DS_mul.cc: Throw. * src/base/digitseq/cl_DS_mul_fftc.h: Throw. * src/base/digitseq/cl_DS_mul_fftcs.h: Throw. * src/base/digitseq/cl_DS_mul_fftm.h: Throw. * src/base/digitseq/cl_DS_mul_fftp.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3m.h: Throw. * src/base/digitseq/cl_DS_mul_fftr.h: Throw. * src/base/digitseq/cl_DS_mul_nuss.h: Throw. * src/base/digitseq/cl_DS_recipsqrt.cc: Throw. * src/base/digitseq/cl_DS_sqrt.cc: Throw. * src/base/hash/cl_hash.h: Throw. * src/base/hash/cl_hash1.h: Throw. * src/base/hash/cl_hash1weak.h: Throw. * src/base/hash/cl_hash2.h: Throw. * src/base/hash/cl_hash2weak.h: Throw. * src/base/hash/cl_hashset.h: Throw. * src/base/hash/cl_hashuniq.h: Throw. * src/base/hash/cl_hashuniqweak.h: Throw. * src/base/proplist/cl_pl_add.cc: Throw. * src/base/ring/cl_no_ring.cc: Throw. * src/base/string/cl_spushstring.h: Throw. * src/base/symbol/cl_symbol.cc: Throw. * src/integer/bitwise/cl_I_ash.h: Removed (see cln/integer.h.) * src/integer/bitwise/cl_I_asherr.cc: Removed. * src/integer/bitwise/cl_I_ash_exception.cc: New file. * src/integer/division/cl_I_exquoerr.cc: Removed. * src/integer/division/cl_I_exquo_exception.cc: New file. * src/integer/cl_I.h: Throw. * src/integer/division/cl_I_exquopos.cc: Throw. * src/integer/bitwise/cl_I_logbitp_I.cc: Throw. * src/integer/bitwise/cl_I_ash.cc: Throw. * src/integer/bitwise/cl_I_ash_I.cc: Throw. * src/integer/division/cl_I_exquo.cc: Throw. * src/integer/gcd/cl_I_gcd_aux2.cc: Throw. * src/integer/conv/cl_I_to_L.cc: Throw. * src/integer/conv/cl_I_to_Q.cc: Throw. * src/integer/conv/cl_I_to_UL.cc: Throw. * src/integer/conv/cl_I_to_UQ.cc: Throw. * src/integer/conv/cl_I_to_digits.cc: Throw. * src/integer/elem/cl_I_div.cc: Throw. * src/integer/algebraic/cl_I_sqrt.cc: Throw. * src/integer/input/cl_I_read.cc: Throw. * src/integer/input/cl_I_read_stream.cc: Throw. * src/integer/misc/cl_I_as.cc: Throw. * src/rational/elem/cl_RA_from_I_I_div.cc: Throw. * src/rational/elem/cl_RA_recip.cc: Throw. * src/rational/input/cl_RA_read.cc: Throw. * src/rational/input/cl_RA_read_stream.cc: Throw. * src/rational/input/cl_RA_readparsed.cc: Throw. * src/rational/misc/cl_RA_as.cc: Throw. * src/float/base/cl_F_err_nan.cc: Removed. * src/float/base/cl_F_nan_exception.cc: New file. * src/float/base/cl_F_err_un.cc: Removed. * src/float/base/cl_F_underflow_exception.cc: New file. * src/float/base/cl_F_err_ov.cc: Removed. * src/float/base/cl_F_overflow_exception.cc: New file. * src/float/cl_F.h (cl_error_floating_point_nan, cl_error_floating_point_overflow, cl_error_floating_point_underflow): Removed (see cln/float.h.) * src/float/sfloat/cl_SF.h: Throw. * src/float/sfloat/elem/cl_SF_div.cc: Throw. * src/float/sfloat/elem/cl_SF_from_RA.cc: Throw. * src/float/sfloat/elem/cl_SF_scale.cc: Throw. * src/float/sfloat/elem/cl_SF_scale_I.cc: Throw. * src/float/sfloat/misc/cl_SF_as.cc: Throw. * src/float/ffloat/cl_FF.h: Throw. * src/float/ffloat/conv/cl_FF_from_float.cc: Throw. * src/float/ffloat/elem/cl_FF_div.cc: Throw. * src/float/ffloat/elem/cl_FF_from_RA.cc: Throw. * src/float/ffloat/elem/cl_FF_scale.cc: Throw. * src/float/ffloat/elem/cl_FF_scale_I.cc: Throw. * src/float/ffloat/misc/cl_FF_as.cc: Throw. * src/float/dfloat/cl_DF.h: Throw. * src/float/dfloat/conv/cl_DF_from_double.cc: Throw. * src/float/dfloat/elem/cl_DF_div.cc: Throw. * src/float/dfloat/elem/cl_DF_from_RA.cc: Throw. * src/float/dfloat/elem/cl_DF_scale.cc: Throw. * src/float/dfloat/elem/cl_DF_scale_I.cc: Throw. * src/float/dfloat/misc/cl_DF_as.cc: Throw. * src/float/lfloat/algebraic/cl_LF_sqrt.cc: Throw. * src/float/lfloat/elem/cl_LF_1plus.cc: Throw. * src/float/lfloat/elem/cl_LF_I_div.cc: Throw. * src/float/lfloat/elem/cl_LF_I_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_div.cc: Throw. * src/float/lfloat/elem/cl_LF_from_I.cc: Throw. * src/float/lfloat/elem/cl_LF_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_scale.cc: Throw. * src/float/lfloat/elem/cl_LF_scale_I.cc: Throw. * src/float/lfloat/elem/cl_LF_square.cc: Throw. * src/float/lfloat/misc/cl_LF_as.cc: Throw. * src/float/lfloat/misc/cl_LF_shorten.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenrel.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenwith.cc: Throw. * src/float/input/cl_F_read.cc: Throw. * src/float/input/cl_F_read_stream.cc: Throw. * src/float/misc/cl_F_as.cc: Throw. * src/float/misc/cl_F_shortenrel.cc: Throw. * src/float/transcendental/cl_LF_coshsinh_aux.cc: Throw. * src/float/transcendental/cl_LF_cossin_aux.cc: Throw. * src/float/transcendental/cl_LF_exp_aux.cc: Throw. * src/float/transcendental/cl_LF_ratseries_a.cc: Throw. * src/float/transcendental/cl_LF_ratseries_ab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_b.cc: Throw. * src/float/transcendental/cl_LF_ratseries_p.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_q.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqcd_aux.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd_aux.cc: Throw. * src/float/transcendental/cl_LF_zeta_int.cc: Throw. * src/real/elem/cl_R_div.cc: Throw. * src/real/format-output/cl_fmt_cardinal.cc: Throw. * src/real/format-output/cl_fmt_newroman.cc: Throw. * src/real/format-output/cl_fmt_oldroman.cc: Throw. * src/real/input/cl_R_read.cc: Throw. * src/real/input/cl_R_read_stream.cc: Throw. * src/real/misc/cl_R_as.cc: Throw. * src/real/random/cl_R_random.cc: Throw. * src/real/transcendental/cl_R_atan2.cc: Throw. * src/real/transcendental/cl_R_log.cc: Throw. * src/complex/input/cl_N_read.cc: Throw. * src/complex/input/cl_N_read_stream.cc: Throw. * src/complex/misc/cl_N_as.cc: Throw. * src/complex/transcendental/cl_C_atanh_aux.cc: Throw. * src/complex/transcendental/cl_C_expt_C.cc: Throw. * src/complex/transcendental/cl_C_log.cc: Throw. * src/complex/transcendental/cl_C_log2.cc: Throw. * src/numtheory/cl_nt_cornacchia1.cc: Throw. * src/numtheory/cl_nt_cornacchia4.cc: Throw. * src/numtheory/cl_nt_isprobprime.cc: Throw. * src/numtheory/cl_nt_jacobi.cc: Throw. * src/numtheory/cl_nt_jacobi_low.cc: Throw. * src/numtheory/cl_nt_sqrtmodp.cc: Throw. * src/modinteger/cl_MI.cc: Throw. * src/modinteger/cl_MI_int.h: Throw. * src/modinteger/cl_MI_montgom.h: Throw. * src/modinteger/cl_MI_pow2.h: Throw. * src/modinteger/cl_MI_rshift.cc: Throw. * src/modinteger/cl_MI_std.h: Throw. * src/polynomial/elem/cl_UP_GF2.h: Throw. * src/polynomial/elem/cl_UP_MI.h: Throw. * src/polynomial/elem/cl_UP_gen.h: Throw. * src/polynomial/elem/cl_UP_named.cc: Throw. * src/polynomial/elem/cl_UP_no_ring.cc (uninitialized_error, uninitialized_ring): Removed (see cln/ring.h.) * src/polynomial/elem/cl_UP_number.h: Throw. * src/polynomial/elem/cl_UP_unnamed.cc: Throw. * src/vector/cl_GV_I.cc: Throw. * src/vector/cl_GV_number.cc: Throw. * tests/timediv2adic-compare.cc: Use default abort(), not cl_abort(). * tests/timeprint-compare.cc: Likewise. * tests/timerecip2adic-compare.cc: Likewise. * doc/cln.tex: Document the exception classes. * examples/contfrac.cc: Use try/catch instead of setjmp/longjmp. * INSTALL: undocument -fno-exceptions. * README: Add exceptions to list of used C++ features.
18 years ago
25 years ago
25 years ago
Remove exception hooks in favor of real C++ exceptions: * include/cln/exception.h: New file... * include/cln/cln.h: ...included here... * include/cln/rational.h: ...and here. * include/cln/abort.h: Removed. * include/cln/integer.h (ash_exception, exquo_exception): Add exception types. * include/cln/float.h (floating_point_exception, floating_point_nan_exception, floating_point_overflow_exception, floating_point_underflow_exception): Likewise. * include/cln/number_io.h (read_number_exception, read_number_bad_syntax_exception, read_number_junk_exception, read_number_eof_exception): Likewise. * include/cln/object.h (CL_DEFINE_CONVERTER): Replace dynamic assertion with a compile-time assertion. * include/cln/GV.h: Replace nonreturning functions with exceptions. * include/cln/modinteger.h: Likewise. * include/cln/SV.h: Likewise. * include/cln/ring.h: Likewise. * include/cln/string.h: Likewise. * include/cln/univpoly.h: Likewise. * src/base/cl_abort.cc: Removed. * src/base/cl_N_err_d0.cc: Removed. * src/base/cl_d0_exception.cc: New file. * src/base/cl_as_err.cc: Removed. * src/base/cl_as_exception.cc: New file. * src/base/cl_notreached.cc: Removed. * src/base/cl_notreached_exception.cc: New file. * src/base/input/cl_read_err_bad.cc: Removed. * src/base/input/cl_read_bad_syntax_exception.cc: New file. * src/base/input/cl_read_err_junk.cc: Removed. * src/base/input/cl_read_junk_exception.cc: New file. * src/base/input/cl_read_err_eof.cc: Removed. * src/base/input/cl_read_eof_exception.cc: New file. * src/base/cl_N.h (cl_as_error): Removed (see cln/exception.h). * src/base/macros.h (NOTREACHED): Throw. * src/base/cl_malloc.cc (xmalloc): Throw. * src/base/digitseq/cl_2DS_div.cc: Throw. * src/base/digitseq/cl_DS_div.cc: Throw. * src/base/digitseq/cl_DS_mul.cc: Throw. * src/base/digitseq/cl_DS_mul_fftc.h: Throw. * src/base/digitseq/cl_DS_mul_fftcs.h: Throw. * src/base/digitseq/cl_DS_mul_fftm.h: Throw. * src/base/digitseq/cl_DS_mul_fftp.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3m.h: Throw. * src/base/digitseq/cl_DS_mul_fftr.h: Throw. * src/base/digitseq/cl_DS_mul_nuss.h: Throw. * src/base/digitseq/cl_DS_recipsqrt.cc: Throw. * src/base/digitseq/cl_DS_sqrt.cc: Throw. * src/base/hash/cl_hash.h: Throw. * src/base/hash/cl_hash1.h: Throw. * src/base/hash/cl_hash1weak.h: Throw. * src/base/hash/cl_hash2.h: Throw. * src/base/hash/cl_hash2weak.h: Throw. * src/base/hash/cl_hashset.h: Throw. * src/base/hash/cl_hashuniq.h: Throw. * src/base/hash/cl_hashuniqweak.h: Throw. * src/base/proplist/cl_pl_add.cc: Throw. * src/base/ring/cl_no_ring.cc: Throw. * src/base/string/cl_spushstring.h: Throw. * src/base/symbol/cl_symbol.cc: Throw. * src/integer/bitwise/cl_I_ash.h: Removed (see cln/integer.h.) * src/integer/bitwise/cl_I_asherr.cc: Removed. * src/integer/bitwise/cl_I_ash_exception.cc: New file. * src/integer/division/cl_I_exquoerr.cc: Removed. * src/integer/division/cl_I_exquo_exception.cc: New file. * src/integer/cl_I.h: Throw. * src/integer/division/cl_I_exquopos.cc: Throw. * src/integer/bitwise/cl_I_logbitp_I.cc: Throw. * src/integer/bitwise/cl_I_ash.cc: Throw. * src/integer/bitwise/cl_I_ash_I.cc: Throw. * src/integer/division/cl_I_exquo.cc: Throw. * src/integer/gcd/cl_I_gcd_aux2.cc: Throw. * src/integer/conv/cl_I_to_L.cc: Throw. * src/integer/conv/cl_I_to_Q.cc: Throw. * src/integer/conv/cl_I_to_UL.cc: Throw. * src/integer/conv/cl_I_to_UQ.cc: Throw. * src/integer/conv/cl_I_to_digits.cc: Throw. * src/integer/elem/cl_I_div.cc: Throw. * src/integer/algebraic/cl_I_sqrt.cc: Throw. * src/integer/input/cl_I_read.cc: Throw. * src/integer/input/cl_I_read_stream.cc: Throw. * src/integer/misc/cl_I_as.cc: Throw. * src/rational/elem/cl_RA_from_I_I_div.cc: Throw. * src/rational/elem/cl_RA_recip.cc: Throw. * src/rational/input/cl_RA_read.cc: Throw. * src/rational/input/cl_RA_read_stream.cc: Throw. * src/rational/input/cl_RA_readparsed.cc: Throw. * src/rational/misc/cl_RA_as.cc: Throw. * src/float/base/cl_F_err_nan.cc: Removed. * src/float/base/cl_F_nan_exception.cc: New file. * src/float/base/cl_F_err_un.cc: Removed. * src/float/base/cl_F_underflow_exception.cc: New file. * src/float/base/cl_F_err_ov.cc: Removed. * src/float/base/cl_F_overflow_exception.cc: New file. * src/float/cl_F.h (cl_error_floating_point_nan, cl_error_floating_point_overflow, cl_error_floating_point_underflow): Removed (see cln/float.h.) * src/float/sfloat/cl_SF.h: Throw. * src/float/sfloat/elem/cl_SF_div.cc: Throw. * src/float/sfloat/elem/cl_SF_from_RA.cc: Throw. * src/float/sfloat/elem/cl_SF_scale.cc: Throw. * src/float/sfloat/elem/cl_SF_scale_I.cc: Throw. * src/float/sfloat/misc/cl_SF_as.cc: Throw. * src/float/ffloat/cl_FF.h: Throw. * src/float/ffloat/conv/cl_FF_from_float.cc: Throw. * src/float/ffloat/elem/cl_FF_div.cc: Throw. * src/float/ffloat/elem/cl_FF_from_RA.cc: Throw. * src/float/ffloat/elem/cl_FF_scale.cc: Throw. * src/float/ffloat/elem/cl_FF_scale_I.cc: Throw. * src/float/ffloat/misc/cl_FF_as.cc: Throw. * src/float/dfloat/cl_DF.h: Throw. * src/float/dfloat/conv/cl_DF_from_double.cc: Throw. * src/float/dfloat/elem/cl_DF_div.cc: Throw. * src/float/dfloat/elem/cl_DF_from_RA.cc: Throw. * src/float/dfloat/elem/cl_DF_scale.cc: Throw. * src/float/dfloat/elem/cl_DF_scale_I.cc: Throw. * src/float/dfloat/misc/cl_DF_as.cc: Throw. * src/float/lfloat/algebraic/cl_LF_sqrt.cc: Throw. * src/float/lfloat/elem/cl_LF_1plus.cc: Throw. * src/float/lfloat/elem/cl_LF_I_div.cc: Throw. * src/float/lfloat/elem/cl_LF_I_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_div.cc: Throw. * src/float/lfloat/elem/cl_LF_from_I.cc: Throw. * src/float/lfloat/elem/cl_LF_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_scale.cc: Throw. * src/float/lfloat/elem/cl_LF_scale_I.cc: Throw. * src/float/lfloat/elem/cl_LF_square.cc: Throw. * src/float/lfloat/misc/cl_LF_as.cc: Throw. * src/float/lfloat/misc/cl_LF_shorten.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenrel.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenwith.cc: Throw. * src/float/input/cl_F_read.cc: Throw. * src/float/input/cl_F_read_stream.cc: Throw. * src/float/misc/cl_F_as.cc: Throw. * src/float/misc/cl_F_shortenrel.cc: Throw. * src/float/transcendental/cl_LF_coshsinh_aux.cc: Throw. * src/float/transcendental/cl_LF_cossin_aux.cc: Throw. * src/float/transcendental/cl_LF_exp_aux.cc: Throw. * src/float/transcendental/cl_LF_ratseries_a.cc: Throw. * src/float/transcendental/cl_LF_ratseries_ab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_b.cc: Throw. * src/float/transcendental/cl_LF_ratseries_p.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_q.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqcd_aux.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd_aux.cc: Throw. * src/float/transcendental/cl_LF_zeta_int.cc: Throw. * src/real/elem/cl_R_div.cc: Throw. * src/real/format-output/cl_fmt_cardinal.cc: Throw. * src/real/format-output/cl_fmt_newroman.cc: Throw. * src/real/format-output/cl_fmt_oldroman.cc: Throw. * src/real/input/cl_R_read.cc: Throw. * src/real/input/cl_R_read_stream.cc: Throw. * src/real/misc/cl_R_as.cc: Throw. * src/real/random/cl_R_random.cc: Throw. * src/real/transcendental/cl_R_atan2.cc: Throw. * src/real/transcendental/cl_R_log.cc: Throw. * src/complex/input/cl_N_read.cc: Throw. * src/complex/input/cl_N_read_stream.cc: Throw. * src/complex/misc/cl_N_as.cc: Throw. * src/complex/transcendental/cl_C_atanh_aux.cc: Throw. * src/complex/transcendental/cl_C_expt_C.cc: Throw. * src/complex/transcendental/cl_C_log.cc: Throw. * src/complex/transcendental/cl_C_log2.cc: Throw. * src/numtheory/cl_nt_cornacchia1.cc: Throw. * src/numtheory/cl_nt_cornacchia4.cc: Throw. * src/numtheory/cl_nt_isprobprime.cc: Throw. * src/numtheory/cl_nt_jacobi.cc: Throw. * src/numtheory/cl_nt_jacobi_low.cc: Throw. * src/numtheory/cl_nt_sqrtmodp.cc: Throw. * src/modinteger/cl_MI.cc: Throw. * src/modinteger/cl_MI_int.h: Throw. * src/modinteger/cl_MI_montgom.h: Throw. * src/modinteger/cl_MI_pow2.h: Throw. * src/modinteger/cl_MI_rshift.cc: Throw. * src/modinteger/cl_MI_std.h: Throw. * src/polynomial/elem/cl_UP_GF2.h: Throw. * src/polynomial/elem/cl_UP_MI.h: Throw. * src/polynomial/elem/cl_UP_gen.h: Throw. * src/polynomial/elem/cl_UP_named.cc: Throw. * src/polynomial/elem/cl_UP_no_ring.cc (uninitialized_error, uninitialized_ring): Removed (see cln/ring.h.) * src/polynomial/elem/cl_UP_number.h: Throw. * src/polynomial/elem/cl_UP_unnamed.cc: Throw. * src/vector/cl_GV_I.cc: Throw. * src/vector/cl_GV_number.cc: Throw. * tests/timediv2adic-compare.cc: Use default abort(), not cl_abort(). * tests/timeprint-compare.cc: Likewise. * tests/timerecip2adic-compare.cc: Likewise. * doc/cln.tex: Document the exception classes. * examples/contfrac.cc: Use try/catch instead of setjmp/longjmp. * INSTALL: undocument -fno-exceptions. * README: Add exceptions to list of used C++ features.
18 years ago
25 years ago
25 years ago
Remove exception hooks in favor of real C++ exceptions: * include/cln/exception.h: New file... * include/cln/cln.h: ...included here... * include/cln/rational.h: ...and here. * include/cln/abort.h: Removed. * include/cln/integer.h (ash_exception, exquo_exception): Add exception types. * include/cln/float.h (floating_point_exception, floating_point_nan_exception, floating_point_overflow_exception, floating_point_underflow_exception): Likewise. * include/cln/number_io.h (read_number_exception, read_number_bad_syntax_exception, read_number_junk_exception, read_number_eof_exception): Likewise. * include/cln/object.h (CL_DEFINE_CONVERTER): Replace dynamic assertion with a compile-time assertion. * include/cln/GV.h: Replace nonreturning functions with exceptions. * include/cln/modinteger.h: Likewise. * include/cln/SV.h: Likewise. * include/cln/ring.h: Likewise. * include/cln/string.h: Likewise. * include/cln/univpoly.h: Likewise. * src/base/cl_abort.cc: Removed. * src/base/cl_N_err_d0.cc: Removed. * src/base/cl_d0_exception.cc: New file. * src/base/cl_as_err.cc: Removed. * src/base/cl_as_exception.cc: New file. * src/base/cl_notreached.cc: Removed. * src/base/cl_notreached_exception.cc: New file. * src/base/input/cl_read_err_bad.cc: Removed. * src/base/input/cl_read_bad_syntax_exception.cc: New file. * src/base/input/cl_read_err_junk.cc: Removed. * src/base/input/cl_read_junk_exception.cc: New file. * src/base/input/cl_read_err_eof.cc: Removed. * src/base/input/cl_read_eof_exception.cc: New file. * src/base/cl_N.h (cl_as_error): Removed (see cln/exception.h). * src/base/macros.h (NOTREACHED): Throw. * src/base/cl_malloc.cc (xmalloc): Throw. * src/base/digitseq/cl_2DS_div.cc: Throw. * src/base/digitseq/cl_DS_div.cc: Throw. * src/base/digitseq/cl_DS_mul.cc: Throw. * src/base/digitseq/cl_DS_mul_fftc.h: Throw. * src/base/digitseq/cl_DS_mul_fftcs.h: Throw. * src/base/digitseq/cl_DS_mul_fftm.h: Throw. * src/base/digitseq/cl_DS_mul_fftp.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3.h: Throw. * src/base/digitseq/cl_DS_mul_fftp3m.h: Throw. * src/base/digitseq/cl_DS_mul_fftr.h: Throw. * src/base/digitseq/cl_DS_mul_nuss.h: Throw. * src/base/digitseq/cl_DS_recipsqrt.cc: Throw. * src/base/digitseq/cl_DS_sqrt.cc: Throw. * src/base/hash/cl_hash.h: Throw. * src/base/hash/cl_hash1.h: Throw. * src/base/hash/cl_hash1weak.h: Throw. * src/base/hash/cl_hash2.h: Throw. * src/base/hash/cl_hash2weak.h: Throw. * src/base/hash/cl_hashset.h: Throw. * src/base/hash/cl_hashuniq.h: Throw. * src/base/hash/cl_hashuniqweak.h: Throw. * src/base/proplist/cl_pl_add.cc: Throw. * src/base/ring/cl_no_ring.cc: Throw. * src/base/string/cl_spushstring.h: Throw. * src/base/symbol/cl_symbol.cc: Throw. * src/integer/bitwise/cl_I_ash.h: Removed (see cln/integer.h.) * src/integer/bitwise/cl_I_asherr.cc: Removed. * src/integer/bitwise/cl_I_ash_exception.cc: New file. * src/integer/division/cl_I_exquoerr.cc: Removed. * src/integer/division/cl_I_exquo_exception.cc: New file. * src/integer/cl_I.h: Throw. * src/integer/division/cl_I_exquopos.cc: Throw. * src/integer/bitwise/cl_I_logbitp_I.cc: Throw. * src/integer/bitwise/cl_I_ash.cc: Throw. * src/integer/bitwise/cl_I_ash_I.cc: Throw. * src/integer/division/cl_I_exquo.cc: Throw. * src/integer/gcd/cl_I_gcd_aux2.cc: Throw. * src/integer/conv/cl_I_to_L.cc: Throw. * src/integer/conv/cl_I_to_Q.cc: Throw. * src/integer/conv/cl_I_to_UL.cc: Throw. * src/integer/conv/cl_I_to_UQ.cc: Throw. * src/integer/conv/cl_I_to_digits.cc: Throw. * src/integer/elem/cl_I_div.cc: Throw. * src/integer/algebraic/cl_I_sqrt.cc: Throw. * src/integer/input/cl_I_read.cc: Throw. * src/integer/input/cl_I_read_stream.cc: Throw. * src/integer/misc/cl_I_as.cc: Throw. * src/rational/elem/cl_RA_from_I_I_div.cc: Throw. * src/rational/elem/cl_RA_recip.cc: Throw. * src/rational/input/cl_RA_read.cc: Throw. * src/rational/input/cl_RA_read_stream.cc: Throw. * src/rational/input/cl_RA_readparsed.cc: Throw. * src/rational/misc/cl_RA_as.cc: Throw. * src/float/base/cl_F_err_nan.cc: Removed. * src/float/base/cl_F_nan_exception.cc: New file. * src/float/base/cl_F_err_un.cc: Removed. * src/float/base/cl_F_underflow_exception.cc: New file. * src/float/base/cl_F_err_ov.cc: Removed. * src/float/base/cl_F_overflow_exception.cc: New file. * src/float/cl_F.h (cl_error_floating_point_nan, cl_error_floating_point_overflow, cl_error_floating_point_underflow): Removed (see cln/float.h.) * src/float/sfloat/cl_SF.h: Throw. * src/float/sfloat/elem/cl_SF_div.cc: Throw. * src/float/sfloat/elem/cl_SF_from_RA.cc: Throw. * src/float/sfloat/elem/cl_SF_scale.cc: Throw. * src/float/sfloat/elem/cl_SF_scale_I.cc: Throw. * src/float/sfloat/misc/cl_SF_as.cc: Throw. * src/float/ffloat/cl_FF.h: Throw. * src/float/ffloat/conv/cl_FF_from_float.cc: Throw. * src/float/ffloat/elem/cl_FF_div.cc: Throw. * src/float/ffloat/elem/cl_FF_from_RA.cc: Throw. * src/float/ffloat/elem/cl_FF_scale.cc: Throw. * src/float/ffloat/elem/cl_FF_scale_I.cc: Throw. * src/float/ffloat/misc/cl_FF_as.cc: Throw. * src/float/dfloat/cl_DF.h: Throw. * src/float/dfloat/conv/cl_DF_from_double.cc: Throw. * src/float/dfloat/elem/cl_DF_div.cc: Throw. * src/float/dfloat/elem/cl_DF_from_RA.cc: Throw. * src/float/dfloat/elem/cl_DF_scale.cc: Throw. * src/float/dfloat/elem/cl_DF_scale_I.cc: Throw. * src/float/dfloat/misc/cl_DF_as.cc: Throw. * src/float/lfloat/algebraic/cl_LF_sqrt.cc: Throw. * src/float/lfloat/elem/cl_LF_1plus.cc: Throw. * src/float/lfloat/elem/cl_LF_I_div.cc: Throw. * src/float/lfloat/elem/cl_LF_I_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_div.cc: Throw. * src/float/lfloat/elem/cl_LF_from_I.cc: Throw. * src/float/lfloat/elem/cl_LF_mul.cc: Throw. * src/float/lfloat/elem/cl_LF_scale.cc: Throw. * src/float/lfloat/elem/cl_LF_scale_I.cc: Throw. * src/float/lfloat/elem/cl_LF_square.cc: Throw. * src/float/lfloat/misc/cl_LF_as.cc: Throw. * src/float/lfloat/misc/cl_LF_shorten.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenrel.cc: Throw. * src/float/lfloat/misc/cl_LF_shortenwith.cc: Throw. * src/float/input/cl_F_read.cc: Throw. * src/float/input/cl_F_read_stream.cc: Throw. * src/float/misc/cl_F_as.cc: Throw. * src/float/misc/cl_F_shortenrel.cc: Throw. * src/float/transcendental/cl_LF_coshsinh_aux.cc: Throw. * src/float/transcendental/cl_LF_cossin_aux.cc: Throw. * src/float/transcendental/cl_LF_exp_aux.cc: Throw. * src/float/transcendental/cl_LF_ratseries_a.cc: Throw. * src/float/transcendental/cl_LF_ratseries_ab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_b.cc: Throw. * src/float/transcendental/cl_LF_ratseries_p.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_q.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_qb.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pq.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqa.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqab.cc: Throw. * src/float/transcendental/cl_LF_ratseries_stream_pqb.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqcd_aux.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd.cc: Throw. * src/float/transcendental/cl_LF_ratsumseries_pqd_aux.cc: Throw. * src/float/transcendental/cl_LF_zeta_int.cc: Throw. * src/real/elem/cl_R_div.cc: Throw. * src/real/format-output/cl_fmt_cardinal.cc: Throw. * src/real/format-output/cl_fmt_newroman.cc: Throw. * src/real/format-output/cl_fmt_oldroman.cc: Throw. * src/real/input/cl_R_read.cc: Throw. * src/real/input/cl_R_read_stream.cc: Throw. * src/real/misc/cl_R_as.cc: Throw. * src/real/random/cl_R_random.cc: Throw. * src/real/transcendental/cl_R_atan2.cc: Throw. * src/real/transcendental/cl_R_log.cc: Throw. * src/complex/input/cl_N_read.cc: Throw. * src/complex/input/cl_N_read_stream.cc: Throw. * src/complex/misc/cl_N_as.cc: Throw. * src/complex/transcendental/cl_C_atanh_aux.cc: Throw. * src/complex/transcendental/cl_C_expt_C.cc: Throw. * src/complex/transcendental/cl_C_log.cc: Throw. * src/complex/transcendental/cl_C_log2.cc: Throw. * src/numtheory/cl_nt_cornacchia1.cc: Throw. * src/numtheory/cl_nt_cornacchia4.cc: Throw. * src/numtheory/cl_nt_isprobprime.cc: Throw. * src/numtheory/cl_nt_jacobi.cc: Throw. * src/numtheory/cl_nt_jacobi_low.cc: Throw. * src/numtheory/cl_nt_sqrtmodp.cc: Throw. * src/modinteger/cl_MI.cc: Throw. * src/modinteger/cl_MI_int.h: Throw. * src/modinteger/cl_MI_montgom.h: Throw. * src/modinteger/cl_MI_pow2.h: Throw. * src/modinteger/cl_MI_rshift.cc: Throw. * src/modinteger/cl_MI_std.h: Throw. * src/polynomial/elem/cl_UP_GF2.h: Throw. * src/polynomial/elem/cl_UP_MI.h: Throw. * src/polynomial/elem/cl_UP_gen.h: Throw. * src/polynomial/elem/cl_UP_named.cc: Throw. * src/polynomial/elem/cl_UP_no_ring.cc (uninitialized_error, uninitialized_ring): Removed (see cln/ring.h.) * src/polynomial/elem/cl_UP_number.h: Throw. * src/polynomial/elem/cl_UP_unnamed.cc: Throw. * src/vector/cl_GV_I.cc: Throw. * src/vector/cl_GV_number.cc: Throw. * tests/timediv2adic-compare.cc: Use default abort(), not cl_abort(). * tests/timeprint-compare.cc: Likewise. * tests/timerecip2adic-compare.cc: Likewise. * doc/cln.tex: Document the exception classes. * examples/contfrac.cc: Use try/catch instead of setjmp/longjmp. * INSTALL: undocument -fno-exceptions. * README: Add exceptions to list of used C++ features.
18 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
25 years ago
  1. \input texinfo @c -*-texinfo-*-
  2. @c %**start of header
  3. @setfilename cln.info
  4. @settitle CLN, a Class Library for Numbers
  5. @c @setchapternewpage off
  6. @c I hate putting "@noindent" in front of every paragraph.
  7. @c For `info' and TeX only.
  8. @paragraphindent 0
  9. @c %**end of header
  10. @dircategory Mathematics
  11. @direntry
  12. * CLN: (cln). Class Library for Numbers (C++).
  13. @end direntry
  14. @c My own index.
  15. @defindex my
  16. @c Don't need the other types of indices.
  17. @synindex cp my
  18. @synindex fn my
  19. @synindex vr my
  20. @synindex ky my
  21. @synindex pg my
  22. @synindex tp my
  23. @c For `info' only.
  24. @ifinfo
  25. This file documents @sc{cln}, a Class Library for Numbers.
  26. Published by Bruno Haible, @code{<haible@@clisp.cons.org>} and
  27. Richard B. Kreckel, @code{<kreckel@@ginac.de>}.
  28. Copyright (C) Bruno Haible 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008.
  29. Copyright (C) Richard B. Kreckel 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008.
  30. Permission is granted to make and distribute verbatim copies of
  31. this manual provided the copyright notice and this permission notice
  32. are preserved on all copies.
  33. @ignore
  34. Permission is granted to process this file through TeX and print the
  35. results, provided the printed document carries copying permission
  36. notice identical to this one except for the removal of this paragraph
  37. (this paragraph not being relevant to the printed manual).
  38. @end ignore
  39. Permission is granted to copy and distribute modified versions of this
  40. manual under the conditions for verbatim copying, provided that the entire
  41. resulting derived work is distributed under the terms of a permission
  42. notice identical to this one.
  43. Permission is granted to copy and distribute translations of this manual
  44. into another language, under the above conditions for modified versions,
  45. except that this permission notice may be stated in a translation approved
  46. by the author.
  47. @end ifinfo
  48. @c For TeX only.
  49. @c prevent ugly black rectangles on overfull hbox lines:
  50. @finalout
  51. @titlepage
  52. @title CLN, a Class Library for Numbers
  53. @author by Bruno Haible
  54. @page
  55. @vskip 0pt plus 1filll
  56. Copyright @copyright{} Bruno Haible 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008.
  57. @sp 0
  58. Copyright @copyright{} Richard Kreckel 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008.
  59. @sp 2
  60. Published by Bruno Haible, @code{<haible@@clisp.cons.org>} and
  61. Richard Kreckel, @code{<kreckel@@ginac.de>}.
  62. Permission is granted to make and distribute verbatim copies of
  63. this manual provided the copyright notice and this permission notice
  64. are preserved on all copies.
  65. Permission is granted to copy and distribute modified versions of this
  66. manual under the conditions for verbatim copying, provided that the entire
  67. resulting derived work is distributed under the terms of a permission
  68. notice identical to this one.
  69. Permission is granted to copy and distribute translations of this manual
  70. into another language, under the above conditions for modified versions,
  71. except that this permission notice may be stated in a translation approved
  72. by the author.
  73. @end titlepage
  74. @page
  75. @c Table of contents
  76. @contents
  77. @node Top, Introduction, (dir), (dir)
  78. @c @menu
  79. @c * Introduction:: Introduction
  80. @c @end menu
  81. @node Introduction, Top, Top, Top
  82. @comment node-name, next, previous, up
  83. @chapter Introduction
  84. @noindent
  85. CLN is a library for computations with all kinds of numbers.
  86. It has a rich set of number classes:
  87. @itemize @bullet
  88. @item
  89. Integers (with unlimited precision),
  90. @item
  91. Rational numbers,
  92. @item
  93. Floating-point numbers:
  94. @itemize @minus
  95. @item
  96. Short float,
  97. @item
  98. Single float,
  99. @item
  100. Double float,
  101. @item
  102. Long float (with unlimited precision),
  103. @end itemize
  104. @item
  105. Complex numbers,
  106. @item
  107. Modular integers (integers modulo a fixed integer),
  108. @item
  109. Univariate polynomials.
  110. @end itemize
  111. @noindent
  112. The subtypes of the complex numbers among these are exactly the
  113. types of numbers known to the Common Lisp language. Therefore
  114. @code{CLN} can be used for Common Lisp implementations, giving
  115. @samp{CLN} another meaning: it becomes an abbreviation of
  116. ``Common Lisp Numbers''.
  117. @noindent
  118. The CLN package implements
  119. @itemize @bullet
  120. @item
  121. Elementary functions (@code{+}, @code{-}, @code{*}, @code{/}, @code{sqrt},
  122. comparisons, @dots{}),
  123. @item
  124. Logical functions (logical @code{and}, @code{or}, @code{not}, @dots{}),
  125. @item
  126. Transcendental functions (exponential, logarithmic, trigonometric, hyperbolic
  127. functions and their inverse functions).
  128. @end itemize
  129. @noindent
  130. CLN is a C++ library. Using C++ as an implementation language provides
  131. @itemize @bullet
  132. @item
  133. efficiency: it compiles to machine code,
  134. @item
  135. type safety: the C++ compiler knows about the number types and complains
  136. if, for example, you try to assign a float to an integer variable.
  137. @item
  138. algebraic syntax: You can use the @code{+}, @code{-}, @code{*}, @code{=},
  139. @code{==}, @dots{} operators as in C or C++.
  140. @end itemize
  141. @noindent
  142. CLN is memory efficient:
  143. @itemize @bullet
  144. @item
  145. Small integers and short floats are immediate, not heap allocated.
  146. @item
  147. Heap-allocated memory is reclaimed through an automatic, non-interruptive
  148. garbage collection.
  149. @end itemize
  150. @noindent
  151. CLN is speed efficient:
  152. @itemize @bullet
  153. @item
  154. The kernel of CLN has been written in assembly language for some CPUs
  155. (@code{i386}, @code{m68k}, @code{sparc}, @code{mips}, @code{arm}).
  156. @item
  157. @cindex GMP
  158. On all CPUs, CLN may be configured to use the superefficient low-level
  159. routines from GNU GMP version 3.
  160. @item
  161. It uses Karatsuba multiplication, which is significantly faster
  162. for large numbers than the standard multiplication algorithm.
  163. @item
  164. For very large numbers (more than 12000 decimal digits), it uses
  165. @iftex
  166. Sch{@"o}nhage-Strassen
  167. @cindex Sch{@"o}nhage-Strassen multiplication
  168. @end iftex
  169. @ifinfo
  170. Schnhage-Strassen
  171. @cindex Schnhage-Strassen multiplication
  172. @end ifinfo
  173. multiplication, which is an asymptotically optimal multiplication
  174. algorithm, for multiplication, division and radix conversion.
  175. @end itemize
  176. @noindent
  177. CLN aims at being easily integrated into larger software packages:
  178. @itemize @bullet
  179. @item
  180. The garbage collection imposes no burden on the main application.
  181. @item
  182. The library provides hooks for memory allocation and throws exceptions
  183. in case of errors.
  184. @item
  185. @cindex namespace
  186. All non-macro identifiers are hidden in namespace @code{cln} in
  187. order to avoid name clashes.
  188. @end itemize
  189. @chapter Installation
  190. This section describes how to install the CLN package on your system.
  191. @section Prerequisites
  192. @subsection C++ compiler
  193. To build CLN, you need a C++ compiler.
  194. Actually, you need GNU @code{g++ 3.0.0} or newer.
  195. The following C++ features are used:
  196. classes, member functions, overloading of functions and operators,
  197. constructors and destructors, inline, const, multiple inheritance,
  198. templates and namespaces.
  199. The following C++ features are not used:
  200. @code{new}, @code{delete}, virtual inheritance.
  201. CLN relies on semi-automatic ordering of initializations of static and
  202. global variables, a feature which I could implement for GNU g++
  203. only. Also, it is not known whether this semi-automatic ordering works
  204. on all platforms when a non-GNU assembler is being used.
  205. @subsection Make utility
  206. @cindex @code{make}
  207. To build CLN, you also need to have GNU @code{make} installed.
  208. Only GNU @code{make} 3.77 is unusable for CLN; other versions work fine.
  209. @subsection Sed utility
  210. @cindex @code{sed}
  211. To build CLN on HP-UX, you also need to have GNU @code{sed} installed.
  212. This is because the libtool script, which creates the CLN library, relies
  213. on @code{sed}, and the vendor's @code{sed} utility on these systems is too
  214. limited.
  215. @section Building the library
  216. As with any autoconfiguring GNU software, installation is as easy as this:
  217. @example
  218. $ ./configure
  219. $ make
  220. $ make check
  221. @end example
  222. If on your system, @samp{make} is not GNU @code{make}, you have to use
  223. @samp{gmake} instead of @samp{make} above.
  224. The @code{configure} command checks out some features of your system and
  225. C++ compiler and builds the @code{Makefile}s. The @code{make} command
  226. builds the library. This step may take about an hour on an average workstation.
  227. The @code{make check} runs some test to check that no important subroutine
  228. has been miscompiled.
  229. The @code{configure} command accepts options. To get a summary of them, try
  230. @example
  231. $ ./configure --help
  232. @end example
  233. Some of the options are explained in detail in the @samp{INSTALL.generic} file.
  234. You can specify the C compiler, the C++ compiler and their options through
  235. the following environment variables when running @code{configure}:
  236. @table @code
  237. @item CC
  238. Specifies the C compiler.
  239. @item CFLAGS
  240. Flags to be given to the C compiler when compiling programs (not when linking).
  241. @item CXX
  242. Specifies the C++ compiler.
  243. @item CXXFLAGS
  244. Flags to be given to the C++ compiler when compiling programs (not when linking).
  245. @end table
  246. Examples:
  247. @example
  248. $ CC="gcc" CFLAGS="-O" CXX="g++" CXXFLAGS="-O" ./configure
  249. $ CC="gcc -V 3.0.4" CFLAGS="-O2 -finline-limit=1000" \
  250. CXX="g++ -V 3.0.4" CXXFLAGS="-O2 -finline-limit=1000" \
  251. ./configure
  252. $ CC="gcc-4.1" CFLAGS="-O2" CXX="g++-4.1" CXXFLAGS="-O2" ./configure
  253. @end example
  254. Note that for these environment variables to take effect, you have to set
  255. them (assuming a Bourne-compatible shell) on the same line as the
  256. @code{configure} command. If you made the settings in earlier shell
  257. commands, you have to @code{export} the environment variables before
  258. calling @code{configure}. In a @code{csh} shell, you have to use the
  259. @samp{setenv} command for setting each of the environment variables.
  260. Currently CLN works only with the GNU @code{g++} compiler, and only in
  261. optimizing mode. So you should specify at least @code{-O} in the CXXFLAGS,
  262. or no CXXFLAGS at all. (If CXXFLAGS is not set, CLN will use @code{-O}.)
  263. If you use @code{g++} 3.x, I recommend adding @samp{-finline-limit=1000}
  264. to the CXXFLAGS. This is essential for good code.
  265. If you use @code{g++} from gcc-3.0.4 or older on Sparc, add either
  266. @samp{-O}, @samp{-O1} or @samp{-O2 -fno-schedule-insns} to the
  267. CXXFLAGS. With full @samp{-O2}, @code{g++} miscompiles the division
  268. routines. Also, do not use gcc-3.0 on Sparc for compiling CLN, it
  269. won't work at all.
  270. Also, please do not compile CLN with @code{g++} using the @code{-O3}
  271. optimization level. This leads to inferior code quality.
  272. If you use @code{g++} from gcc-3.1, it will need 235 MB of virtual memory.
  273. You might need some swap space if your machine doesn't have 512 MB of RAM.
  274. By default, both a shared and a static library are built. You can build
  275. CLN as a static (or shared) library only, by calling @code{configure} with
  276. the option @samp{--disable-shared} (or @samp{--disable-static}). While
  277. shared libraries are usually more convenient to use, they may not work
  278. on all architectures. Try disabling them if you run into linker
  279. problems. Also, they are generally somewhat slower than static
  280. libraries so runtime-critical applications should be linked statically.
  281. If you use @code{g++} from gcc-3.1 with option @samp{-g}, you will need
  282. some disk space: 335 MB for building as both a shared and a static library,
  283. or 130 MB when building as a shared library only.
  284. @subsection Using the GNU MP Library
  285. @cindex GMP
  286. Starting with version 1.1, CLN may be configured to make use of a
  287. preinstalled @code{gmp} library. Please make sure that you have at
  288. least @code{gmp} version 3.0 installed since earlier versions are
  289. unsupported and likely not to work. Enabling this feature by calling
  290. @code{configure} with the option @samp{--with-gmp} is known to be quite
  291. a boost for CLN's performance.
  292. If you have installed the @code{gmp} library and its header file in
  293. some place where your compiler cannot find it by default, you must help
  294. @code{configure} by setting @code{CPPFLAGS} and @code{LDFLAGS}. Here is
  295. an example:
  296. @example
  297. $ CC="gcc" CFLAGS="-O2" CXX="g++" CXXFLAGS="-O2" \
  298. CPPFLAGS="-I/opt/gmp/include" LDFLAGS="-L/opt/gmp/lib" ./configure --with-gmp
  299. @end example
  300. @section Installing the library
  301. @cindex installation
  302. As with any autoconfiguring GNU software, installation is as easy as this:
  303. @example
  304. $ make install
  305. @end example
  306. The @samp{make install} command installs the library and the include files
  307. into public places (@file{/usr/local/lib/} and @file{/usr/local/include/},
  308. if you haven't specified a @code{--prefix} option to @code{configure}).
  309. This step may require superuser privileges.
  310. If you have already built the library and wish to install it, but didn't
  311. specify @code{--prefix=@dots{}} at configure time, just re-run
  312. @code{configure}, giving it the same options as the first time, plus
  313. the @code{--prefix=@dots{}} option.
  314. @section Cleaning up
  315. You can remove system-dependent files generated by @code{make} through
  316. @example
  317. $ make clean
  318. @end example
  319. You can remove all files generated by @code{make}, thus reverting to a
  320. virgin distribution of CLN, through
  321. @example
  322. $ make distclean
  323. @end example
  324. @chapter Ordinary number types
  325. CLN implements the following class hierarchy:
  326. @example
  327. Number
  328. cl_number
  329. <cln/number.h>
  330. |
  331. |
  332. Real or complex number
  333. cl_N
  334. <cln/complex.h>
  335. |
  336. |
  337. Real number
  338. cl_R
  339. <cln/real.h>
  340. |
  341. +-------------------+-------------------+
  342. | |
  343. Rational number Floating-point number
  344. cl_RA cl_F
  345. <cln/rational.h> <cln/float.h>
  346. | |
  347. | +--------------+--------------+--------------+
  348. Integer | | | |
  349. cl_I Short-Float Single-Float Double-Float Long-Float
  350. <cln/integer.h> cl_SF cl_FF cl_DF cl_LF
  351. <cln/sfloat.h> <cln/ffloat.h> <cln/dfloat.h> <cln/lfloat.h>
  352. @end example
  353. @cindex @code{cl_number}
  354. @cindex abstract class
  355. The base class @code{cl_number} is an abstract base class.
  356. It is not useful to declare a variable of this type except if you want
  357. to completely disable compile-time type checking and use run-time type
  358. checking instead.
  359. @cindex @code{cl_N}
  360. @cindex real number
  361. @cindex complex number
  362. The class @code{cl_N} comprises real and complex numbers. There is
  363. no special class for complex numbers since complex numbers with imaginary
  364. part @code{0} are automatically converted to real numbers.
  365. @cindex @code{cl_R}
  366. The class @code{cl_R} comprises real numbers of different kinds. It is an
  367. abstract class.
  368. @cindex @code{cl_RA}
  369. @cindex rational number
  370. @cindex integer
  371. The class @code{cl_RA} comprises exact real numbers: rational numbers, including
  372. integers. There is no special class for non-integral rational numbers
  373. since rational numbers with denominator @code{1} are automatically converted
  374. to integers.
  375. @cindex @code{cl_F}
  376. The class @code{cl_F} implements floating-point approximations to real numbers.
  377. It is an abstract class.
  378. @section Exact numbers
  379. @cindex exact number
  380. Some numbers are represented as exact numbers: there is no loss of information
  381. when such a number is converted from its mathematical value to its internal
  382. representation. On exact numbers, the elementary operations (@code{+},
  383. @code{-}, @code{*}, @code{/}, comparisons, @dots{}) compute the completely
  384. correct result.
  385. In CLN, the exact numbers are:
  386. @itemize @bullet
  387. @item
  388. rational numbers (including integers),
  389. @item
  390. complex numbers whose real and imaginary parts are both rational numbers.
  391. @end itemize
  392. Rational numbers are always normalized to the form
  393. @code{@var{numerator}/@var{denominator}} where the numerator and denominator
  394. are coprime integers and the denominator is positive. If the resulting
  395. denominator is @code{1}, the rational number is converted to an integer.
  396. @cindex immediate numbers
  397. Small integers (typically in the range @code{-2^29}@dots{}@code{2^29-1},
  398. for 32-bit machines) are especially efficient, because they consume no heap
  399. allocation. Otherwise the distinction between these immediate integers
  400. (called ``fixnums'') and heap allocated integers (called ``bignums'')
  401. is completely transparent.
  402. @section Floating-point numbers
  403. @cindex floating-point number
  404. Not all real numbers can be represented exactly. (There is an easy mathematical
  405. proof for this: Only a countable set of numbers can be stored exactly in
  406. a computer, even if one assumes that it has unlimited storage. But there
  407. are uncountably many real numbers.) So some approximation is needed.
  408. CLN implements ordinary floating-point numbers, with mantissa and exponent.
  409. @cindex rounding error
  410. The elementary operations (@code{+}, @code{-}, @code{*}, @code{/}, @dots{})
  411. only return approximate results. For example, the value of the expression
  412. @code{(cl_F) 0.3 + (cl_F) 0.4} prints as @samp{0.70000005}, not as
  413. @samp{0.7}. Rounding errors like this one are inevitable when computing
  414. with floating-point numbers.
  415. Nevertheless, CLN rounds the floating-point results of the operations @code{+},
  416. @code{-}, @code{*}, @code{/}, @code{sqrt} according to the ``round-to-even''
  417. rule: It first computes the exact mathematical result and then returns the
  418. floating-point number which is nearest to this. If two floating-point numbers
  419. are equally distant from the ideal result, the one with a @code{0} in its least
  420. significant mantissa bit is chosen.
  421. Similarly, testing floating point numbers for equality @samp{x == y}
  422. is gambling with random errors. Better check for @samp{abs(x - y) < epsilon}
  423. for some well-chosen @code{epsilon}.
  424. Floating point numbers come in four flavors:
  425. @itemize @bullet
  426. @item
  427. @cindex @code{cl_SF}
  428. Short floats, type @code{cl_SF}.
  429. They have 1 sign bit, 8 exponent bits (including the exponent's sign),
  430. and 17 mantissa bits (including the ``hidden'' bit).
  431. They don't consume heap allocation.
  432. @item
  433. @cindex @code{cl_FF}
  434. Single floats, type @code{cl_FF}.
  435. They have 1 sign bit, 8 exponent bits (including the exponent's sign),
  436. and 24 mantissa bits (including the ``hidden'' bit).
  437. In CLN, they are represented as IEEE single-precision floating point numbers.
  438. This corresponds closely to the C/C++ type @samp{float}.
  439. @item
  440. @cindex @code{cl_DF}
  441. Double floats, type @code{cl_DF}.
  442. They have 1 sign bit, 11 exponent bits (including the exponent's sign),
  443. and 53 mantissa bits (including the ``hidden'' bit).
  444. In CLN, they are represented as IEEE double-precision floating point numbers.
  445. This corresponds closely to the C/C++ type @samp{double}.
  446. @item
  447. @cindex @code{cl_LF}
  448. Long floats, type @code{cl_LF}.
  449. They have 1 sign bit, 32 exponent bits (including the exponent's sign),
  450. and n mantissa bits (including the ``hidden'' bit), where n >= 64.
  451. The precision of a long float is unlimited, but once created, a long float
  452. has a fixed precision. (No ``lazy recomputation''.)
  453. @end itemize
  454. Of course, computations with long floats are more expensive than those
  455. with smaller floating-point formats.
  456. CLN does not implement features like NaNs, denormalized numbers and
  457. gradual underflow. If the exponent range of some floating-point type
  458. is too limited for your application, choose another floating-point type
  459. with larger exponent range.
  460. @cindex @code{cl_F}
  461. As a user of CLN, you can forget about the differences between the
  462. four floating-point types and just declare all your floating-point
  463. variables as being of type @code{cl_F}. This has the advantage that
  464. when you change the precision of some computation (say, from @code{cl_DF}
  465. to @code{cl_LF}), you don't have to change the code, only the precision
  466. of the initial values. Also, many transcendental functions have been
  467. declared as returning a @code{cl_F} when the argument is a @code{cl_F},
  468. but such declarations are missing for the types @code{cl_SF}, @code{cl_FF},
  469. @code{cl_DF}, @code{cl_LF}. (Such declarations would be wrong if
  470. the floating point contagion rule happened to change in the future.)
  471. @section Complex numbers
  472. @cindex complex number
  473. Complex numbers, as implemented by the class @code{cl_N}, have a real
  474. part and an imaginary part, both real numbers. A complex number whose
  475. imaginary part is the exact number @code{0} is automatically converted
  476. to a real number.
  477. Complex numbers can arise from real numbers alone, for example
  478. through application of @code{sqrt} or transcendental functions.
  479. @section Conversions
  480. @cindex conversion
  481. Conversions from any class to any its superclasses (``base classes'' in
  482. C++ terminology) is done automatically.
  483. Conversions from the C built-in types @samp{long} and @samp{unsigned long}
  484. are provided for the classes @code{cl_I}, @code{cl_RA}, @code{cl_R},
  485. @code{cl_N} and @code{cl_number}.
  486. Conversions from the C built-in types @samp{int} and @samp{unsigned int}
  487. are provided for the classes @code{cl_I}, @code{cl_RA}, @code{cl_R},
  488. @code{cl_N} and @code{cl_number}. However, these conversions emphasize
  489. efficiency. On 32-bit systems, their range is therefore limited:
  490. @itemize @minus
  491. @item
  492. The conversion from @samp{int} works only if the argument is < 2^29 and >= -2^29.
  493. @item
  494. The conversion from @samp{unsigned int} works only if the argument is < 2^29.
  495. @end itemize
  496. In a declaration like @samp{cl_I x = 10;} the C++ compiler is able to
  497. do the conversion of @code{10} from @samp{int} to @samp{cl_I} at compile time
  498. already. On the other hand, code like @samp{cl_I x = 1000000000;} is
  499. in error on 32-bit machines.
  500. So, if you want to be sure that an @samp{int} whose magnitude is not guaranteed
  501. to be < 2^29 is correctly converted to a @samp{cl_I}, first convert it to a
  502. @samp{long}. Similarly, if a large @samp{unsigned int} is to be converted to a
  503. @samp{cl_I}, first convert it to an @samp{unsigned long}. On 64-bit machines
  504. there is no such restriction. There, conversions from arbitrary 32-bit @samp{int}
  505. values always works correctly.
  506. Conversions from the C built-in type @samp{float} are provided for the classes
  507. @code{cl_FF}, @code{cl_F}, @code{cl_R}, @code{cl_N} and @code{cl_number}.
  508. Conversions from the C built-in type @samp{double} are provided for the classes
  509. @code{cl_DF}, @code{cl_F}, @code{cl_R}, @code{cl_N} and @code{cl_number}.
  510. Conversions from @samp{const char *} are provided for the classes
  511. @code{cl_I}, @code{cl_RA},
  512. @code{cl_SF}, @code{cl_FF}, @code{cl_DF}, @code{cl_LF}, @code{cl_F},
  513. @code{cl_R}, @code{cl_N}.
  514. The easiest way to specify a value which is outside of the range of the
  515. C++ built-in types is therefore to specify it as a string, like this:
  516. @cindex Rubik's cube
  517. @example
  518. cl_I order_of_rubiks_cube_group = "43252003274489856000";
  519. @end example
  520. Note that this conversion is done at runtime, not at compile-time.
  521. Conversions from @code{cl_I} to the C built-in types @samp{int},
  522. @samp{unsigned int}, @samp{long}, @samp{unsigned long} are provided through
  523. the functions
  524. @table @code
  525. @item int cl_I_to_int (const cl_I& x)
  526. @cindex @code{cl_I_to_int ()}
  527. @itemx unsigned int cl_I_to_uint (const cl_I& x)
  528. @cindex @code{cl_I_to_uint ()}
  529. @itemx long cl_I_to_long (const cl_I& x)
  530. @cindex @code{cl_I_to_long ()}
  531. @itemx unsigned long cl_I_to_ulong (const cl_I& x)
  532. @cindex @code{cl_I_to_ulong ()}
  533. Returns @code{x} as element of the C type @var{ctype}. If @code{x} is not
  534. representable in the range of @var{ctype}, a runtime error occurs.
  535. @end table
  536. Conversions from the classes @code{cl_I}, @code{cl_RA},
  537. @code{cl_SF}, @code{cl_FF}, @code{cl_DF}, @code{cl_LF}, @code{cl_F} and
  538. @code{cl_R}
  539. to the C built-in types @samp{float} and @samp{double} are provided through
  540. the functions
  541. @table @code
  542. @item float float_approx (const @var{type}& x)
  543. @cindex @code{float_approx ()}
  544. @itemx double double_approx (const @var{type}& x)
  545. @cindex @code{double_approx ()}
  546. Returns an approximation of @code{x} of C type @var{ctype}.
  547. If @code{abs(x)} is too close to 0 (underflow), 0 is returned.
  548. If @code{abs(x)} is too large (overflow), an IEEE infinity is returned.
  549. @end table
  550. Conversions from any class to any of its subclasses (``derived classes'' in
  551. C++ terminology) are not provided. Instead, you can assert and check
  552. that a value belongs to a certain subclass, and return it as element of that
  553. class, using the @samp{As} and @samp{The} macros.
  554. @cindex cast
  555. @cindex @code{As()()}
  556. @code{As(@var{type})(@var{value})} checks that @var{value} belongs to
  557. @var{type} and returns it as such.
  558. @cindex @code{The()()}
  559. @code{The(@var{type})(@var{value})} assumes that @var{value} belongs to
  560. @var{type} and returns it as such. It is your responsibility to ensure
  561. that this assumption is valid. Since macros and namespaces don't go
  562. together well, there is an equivalent to @samp{The}: the template
  563. @samp{the}.
  564. Example:
  565. @example
  566. @group
  567. cl_I x = @dots{};
  568. if (!(x >= 0)) abort();
  569. cl_I ten_x_a = The(cl_I)(expt(10,x)); // If x >= 0, 10^x is an integer.
  570. // In general, it would be a rational number.
  571. cl_I ten_x_b = the<cl_I>(expt(10,x)); // The same as above.
  572. @end group
  573. @end example
  574. @chapter Functions on numbers
  575. Each of the number classes declares its mathematical operations in the
  576. corresponding include file. For example, if your code operates with
  577. objects of type @code{cl_I}, it should @code{#include <cln/integer.h>}.
  578. @section Constructing numbers
  579. Here is how to create number objects ``from nothing''.
  580. @subsection Constructing integers
  581. @code{cl_I} objects are most easily constructed from C integers and from
  582. strings. See @ref{Conversions}.
  583. @subsection Constructing rational numbers
  584. @code{cl_RA} objects can be constructed from strings. The syntax
  585. for rational numbers is described in @ref{Internal and printed representation}.
  586. Another standard way to produce a rational number is through application
  587. of @samp{operator /} or @samp{recip} on integers.
  588. @subsection Constructing floating-point numbers
  589. @code{cl_F} objects with low precision are most easily constructed from
  590. C @samp{float} and @samp{double}. See @ref{Conversions}.
  591. To construct a @code{cl_F} with high precision, you can use the conversion
  592. from @samp{const char *}, but you have to specify the desired precision
  593. within the string. (See @ref{Internal and printed representation}.)
  594. Example:
  595. @example
  596. cl_F e = "0.271828182845904523536028747135266249775724709369996e+1_40";
  597. @end example
  598. will set @samp{e} to the given value, with a precision of 40 decimal digits.
  599. The programmatic way to construct a @code{cl_F} with high precision is
  600. through the @code{cl_float} conversion function, see
  601. @ref{Conversion to floating-point numbers}. For example, to compute
  602. @code{e} to 40 decimal places, first construct 1.0 to 40 decimal places
  603. and then apply the exponential function:
  604. @example
  605. float_format_t precision = float_format(40);
  606. cl_F e = exp(cl_float(1,precision));
  607. @end example
  608. @subsection Constructing complex numbers
  609. Non-real @code{cl_N} objects are normally constructed through the function
  610. @example
  611. cl_N complex (const cl_R& realpart, const cl_R& imagpart)
  612. @end example
  613. See @ref{Elementary complex functions}.
  614. @section Elementary functions
  615. Each of the classes @code{cl_N}, @code{cl_R}, @code{cl_RA}, @code{cl_I},
  616. @code{cl_F}, @code{cl_SF}, @code{cl_FF}, @code{cl_DF}, @code{cl_LF}
  617. defines the following operations:
  618. @table @code
  619. @item @var{type} operator + (const @var{type}&, const @var{type}&)
  620. @cindex @code{operator + ()}
  621. Addition.
  622. @item @var{type} operator - (const @var{type}&, const @var{type}&)
  623. @cindex @code{operator - ()}
  624. Subtraction.
  625. @item @var{type} operator - (const @var{type}&)
  626. Returns the negative of the argument.
  627. @item @var{type} plus1 (const @var{type}& x)
  628. @cindex @code{plus1 ()}
  629. Returns @code{x + 1}.
  630. @item @var{type} minus1 (const @var{type}& x)
  631. @cindex @code{minus1 ()}
  632. Returns @code{x - 1}.
  633. @item @var{type} operator * (const @var{type}&, const @var{type}&)
  634. @cindex @code{operator * ()}
  635. Multiplication.
  636. @item @var{type} square (const @var{type}& x)
  637. @cindex @code{square ()}
  638. Returns @code{x * x}.
  639. @end table
  640. Each of the classes @code{cl_N}, @code{cl_R}, @code{cl_RA},
  641. @code{cl_F}, @code{cl_SF}, @code{cl_FF}, @code{cl_DF}, @code{cl_LF}
  642. defines the following operations:
  643. @table @code
  644. @item @var{type} operator / (const @var{type}&, const @var{type}&)
  645. @cindex @code{operator / ()}
  646. Division.
  647. @item @var{type} recip (const @var{type}&)
  648. @cindex @code{recip ()}
  649. Returns the reciprocal of the argument.
  650. @end table
  651. The class @code{cl_I} doesn't define a @samp{/} operation because
  652. in the C/C++ language this operator, applied to integral types,
  653. denotes the @samp{floor} or @samp{truncate} operation (which one of these,
  654. is implementation dependent). (@xref{Rounding functions}.)
  655. Instead, @code{cl_I} defines an ``exact quotient'' function:
  656. @table @code
  657. @item cl_I exquo (const cl_I& x, const cl_I& y)
  658. @cindex @code{exquo ()}
  659. Checks that @code{y} divides @code{x}, and returns the quotient @code{x}/@code{y}.
  660. @end table
  661. The following exponentiation functions are defined:
  662. @table @code
  663. @item cl_I expt_pos (const cl_I& x, const cl_I& y)
  664. @cindex @code{expt_pos ()}
  665. @itemx cl_RA expt_pos (const cl_RA& x, const cl_I& y)
  666. @code{y} must be > 0. Returns @code{x^y}.
  667. @item cl_RA expt (const cl_RA& x, const cl_I& y)
  668. @cindex @code{expt ()}
  669. @itemx cl_R expt (const cl_R& x, const cl_I& y)
  670. @itemx cl_N expt (const cl_N& x, const cl_I& y)
  671. Returns @code{x^y}.
  672. @end table
  673. Each of the classes @code{cl_R}, @code{cl_RA}, @code{cl_I},
  674. @code{cl_F}, @code{cl_SF}, @code{cl_FF}, @code{cl_DF}, @code{cl_LF}
  675. defines the following operation:
  676. @table @code
  677. @item @var{type} abs (const @var{type}& x)
  678. @cindex @code{abs ()}
  679. Returns the absolute value of @code{x}.
  680. This is @code{x} if @code{x >= 0}, and @code{-x} if @code{x <= 0}.
  681. @end table
  682. The class @code{cl_N} implements this as follows:
  683. @table @code
  684. @item cl_R abs (const cl_N x)
  685. Returns the absolute value of @code{x}.
  686. @end table
  687. Each of the classes @code{cl_N}, @code{cl_R}, @code{cl_RA}, @code{cl_I},
  688. @code{cl_F}, @code{cl_SF}, @code{cl_FF}, @code{cl_DF}, @code{cl_LF}
  689. defines the following operation:
  690. @table @code
  691. @item @var{type} signum (const @var{type}& x)
  692. @cindex @code{signum ()}
  693. Returns the sign of @code{x}, in the same number format as @code{x}.
  694. This is defined as @code{x / abs(x)} if @code{x} is non-zero, and
  695. @code{x} if @code{x} is zero. If @code{x} is real, the value is either
  696. 0 or 1 or -1.
  697. @end table
  698. @section Elementary rational functions
  699. Each of the classes @code{cl_RA}, @code{cl_I} defines the following operations:
  700. @table @code
  701. @item cl_I numerator (const @var{type}& x)
  702. @cindex @code{numerator ()}
  703. Returns the numerator of @code{x}.
  704. @item cl_I denominator (const @var{type}& x)
  705. @cindex @code{denominator ()}
  706. Returns the denominator of @code{x}.
  707. @end table
  708. The numerator and denominator of a rational number are normalized in such
  709. a way that they have no factor in common and the denominator is positive.
  710. @section Elementary complex functions
  711. The class @code{cl_N} defines the following operation:
  712. @table @code
  713. @item cl_N complex (const cl_R& a, const cl_R& b)
  714. @cindex @code{complex ()}
  715. Returns the complex number @code{a+bi}, that is, the complex number with
  716. real part @code{a} and imaginary part @code{b}.
  717. @end table
  718. Each of the classes @code{cl_N}, @code{cl_R} defines the following operations:
  719. @table @code
  720. @item cl_R realpart (const @var{type}& x)
  721. @cindex @code{realpart ()}
  722. Returns the real part of @code{x}.
  723. @item cl_R imagpart (const @var{type}& x)
  724. @cindex @code{imagpart ()}
  725. Returns the imaginary part of @code{x}.
  726. @item @var{type} conjugate (const @var{type}& x)
  727. @cindex @code{conjugate ()}
  728. Returns the complex conjugate of @code{x}.
  729. @end table
  730. We have the relations
  731. @itemize @asis
  732. @item
  733. @code{x = complex(realpart(x), imagpart(x))}
  734. @item
  735. @code{conjugate(x) = complex(realpart(x), -imagpart(x))}
  736. @end itemize
  737. @section Comparisons
  738. @cindex comparison
  739. Each of the classes @code{cl_N}, @code{cl_R}, @code{cl_RA}, @code{cl_I},
  740. @code{cl_F}, @code{cl_SF}, @code{cl_FF}, @code{cl_DF}, @code{cl_LF}
  741. defines the following operations:
  742. @table @code
  743. @item bool operator == (const @var{type}&, const @var{type}&)
  744. @cindex @code{operator == ()}
  745. @itemx bool operator != (const @var{type}&, const @var{type}&)
  746. @cindex @code{operator != ()}
  747. Comparison, as in C and C++.
  748. @item uint32 equal_hashcode (const @var{type}&)
  749. @cindex @code{equal_hashcode ()}
  750. Returns a 32-bit hash code that is the same for any two numbers which are
  751. the same according to @code{==}. This hash code depends on the number's value,
  752. not its type or precision.
  753. @item bool zerop (const @var{type}& x)
  754. @cindex @code{zerop ()}
  755. Compare against zero: @code{x == 0}
  756. @end table
  757. Each of the classes @code{cl_R}, @code{cl_RA}, @code{cl_I},
  758. @code{cl_F}, @code{cl_SF}, @code{cl_FF}, @code{cl_DF}, @code{cl_LF}
  759. defines the following operations:
  760. @table @code
  761. @item cl_signean compare (const @var{type}& x, const @var{type}& y)
  762. @cindex @code{compare ()}
  763. Compares @code{x} and @code{y}. Returns +1 if @code{x}>@code{y},
  764. -1 if @code{x}<@code{y}, 0 if @code{x}=@code{y}.
  765. @item bool operator <= (const @var{type}&, const @var{type}&)
  766. @cindex @code{operator <= ()}
  767. @itemx bool operator < (const @var{type}&, const @var{type}&)
  768. @cindex @code{operator < ()}
  769. @itemx bool operator >= (const @var{type}&, const @var{type}&)
  770. @cindex @code{operator >= ()}
  771. @itemx bool operator > (const @var{type}&, const @var{type}&)
  772. @cindex @code{operator > ()}
  773. Comparison, as in C and C++.
  774. @item bool minusp (const @var{type}& x)
  775. @cindex @code{minusp ()}
  776. Compare against zero: @code{x < 0}
  777. @item bool plusp (const @var{type}& x)
  778. @cindex @code{plusp ()}
  779. Compare against zero: @code{x > 0}
  780. @item @var{type} max (const @var{type}& x, const @var{type}& y)
  781. @cindex @code{max ()}
  782. Return the maximum of @code{x} and @code{y}.
  783. @item @var{type} min (const @var{type}& x, const @var{type}& y)
  784. @cindex @code{min ()}
  785. Return the minimum of @code{x} and @code{y}.
  786. @end table
  787. When a floating point number and a rational number are compared, the float
  788. is first converted to a rational number using the function @code{rational}.
  789. Since a floating point number actually represents an interval of real numbers,
  790. the result might be surprising.
  791. For example, @code{(cl_F)(cl_R)"1/3" == (cl_R)"1/3"} returns false because
  792. there is no floating point number whose value is exactly @code{1/3}.
  793. @section Rounding functions
  794. @cindex rounding
  795. When a real number is to be converted to an integer, there is no ``best''
  796. rounding. The desired rounding function depends on the application.
  797. The Common Lisp and ISO Lisp standards offer four rounding functions:
  798. @table @code
  799. @item floor(x)
  800. This is the largest integer <=@code{x}.
  801. @item ceiling(x)
  802. This is the smallest integer >=@code{x}.
  803. @item truncate(x)
  804. Among the integers between 0 and @code{x} (inclusive) the one nearest to @code{x}.
  805. @item round(x)
  806. The integer nearest to @code{x}. If @code{x} is exactly halfway between two
  807. integers, choose the even one.
  808. @end table
  809. These functions have different advantages:
  810. @code{floor} and @code{ceiling} are translation invariant:
  811. @code{floor(x+n) = floor(x) + n} and @code{ceiling(x+n) = ceiling(x) + n}
  812. for every @code{x} and every integer @code{n}.
  813. On the other hand, @code{truncate} and @code{round} are symmetric:
  814. @code{truncate(-x) = -truncate(x)} and @code{round(-x) = -round(x)},
  815. and furthermore @code{round} is unbiased: on the ``average'', it rounds
  816. down exactly as often as it rounds up.
  817. The functions are related like this:
  818. @itemize @asis
  819. @item
  820. @code{ceiling(m/n) = floor((m+n-1)/n) = floor((m-1)/n)+1}
  821. for rational numbers @code{m/n} (@code{m}, @code{n} integers, @code{n}>0), and
  822. @item
  823. @code{truncate(x) = sign(x) * floor(abs(x))}
  824. @end itemize
  825. Each of the classes @code{cl_R}, @code{cl_RA},
  826. @code{cl_F}, @code{cl_SF}, @code{cl_FF}, @code{cl_DF}, @code{cl_LF}
  827. defines the following operations:
  828. @table @code
  829. @item cl_I floor1 (const @var{type}& x)
  830. @cindex @code{floor1 ()}
  831. Returns @code{floor(x)}.
  832. @item cl_I ceiling1 (const @var{type}& x)
  833. @cindex @code{ceiling1 ()}
  834. Returns @code{ceiling(x)}.
  835. @item cl_I truncate1 (const @var{type}& x)
  836. @cindex @code{truncate1 ()}
  837. Returns @code{truncate(x)}.
  838. @item cl_I round1 (const @var{type}& x)
  839. @cindex @code{round1 ()}
  840. Returns @code{round(x)}.
  841. @end table
  842. Each of the classes @code{cl_R}, @code{cl_RA}, @code{cl_I},
  843. @code{cl_F}, @code{cl_SF}, @code{cl_FF}, @code{cl_DF}, @code{cl_LF}
  844. defines the following operations:
  845. @table @code
  846. @item cl_I floor1 (const @var{type}& x, const @var{type}& y)
  847. Returns @code{floor(x/y)}.
  848. @item cl_I ceiling1 (const @var{type}& x, const @var{type}& y)
  849. Returns @code{ceiling(x/y)}.
  850. @item cl_I truncate1 (const @var{type}& x, const @var{type}& y)
  851. Returns @code{truncate(x/y)}.
  852. @item cl_I round1 (const @var{type}& x, const @var{type}& y)
  853. Returns @code{round(x/y)}.
  854. @end table
  855. These functions are called @samp{floor1}, @dots{} here instead of
  856. @samp{floor}, @dots{}, because on some systems, system dependent include
  857. files define @samp{floor} and @samp{ceiling} as macros.
  858. In many cases, one needs both the quotient and the remainder of a division.
  859. It is more efficient to compute both at the same time than to perform
  860. two divisions, one for quotient and the next one for the remainder.
  861. The following functions therefore return a structure containing both
  862. the quotient and the remainder. The suffix @samp{2} indicates the number
  863. of ``return values''. The remainder is defined as follows:
  864. @itemize @bullet
  865. @item
  866. for the computation of @code{quotient = floor(x)},
  867. @code{remainder = x - quotient},
  868. @item
  869. for the computation of @code{quotient = floor(x,y)},
  870. @code{remainder = x - quotient*y},
  871. @end itemize
  872. and similarly for the other three operations.
  873. Each of the classes @code{cl_R}, @code{cl_RA},
  874. @code{cl_F}, @code{cl_SF}, @code{cl_FF}, @code{cl_DF}, @code{cl_LF}
  875. defines the following operations:
  876. @table @code
  877. @item struct @var{type}_div_t @{ cl_I quotient; @var{type} remainder; @};
  878. @itemx @var{type}_div_t floor2 (const @var{type}& x)
  879. @itemx @var{type}_div_t ceiling2 (const @var{type}& x)
  880. @itemx @var{type}_div_t truncate2 (const @var{type}& x)
  881. @itemx @var{type}_div_t round2 (const @var{type}& x)
  882. @end table
  883. Each of the classes @code{cl_R}, @code{cl_RA}, @code{cl_I},
  884. @code{cl_F}, @code{cl_SF}, @code{cl_FF}, @code{cl_DF}, @code{cl_LF}
  885. defines the following operations:
  886. @table @code
  887. @item struct @var{type}_div_t @{ cl_I quotient; @var{type} remainder; @};
  888. @itemx @var{type}_div_t floor2 (const @var{type}& x, const @var{type}& y)
  889. @cindex @code{floor2 ()}
  890. @itemx @var{type}_div_t ceiling2 (const @var{type}& x, const @var{type}& y)
  891. @cindex @code{ceiling2 ()}
  892. @itemx @var{type}_div_t truncate2 (const @var{type}& x, const @var{type}& y)
  893. @cindex @code{truncate2 ()}
  894. @itemx @var{type}_div_t round2 (const @var{type}& x, const @var{type}& y)
  895. @cindex @code{round2 ()}
  896. @end table
  897. Sometimes, one wants the quotient as a floating-point number (of the
  898. same format as the argument, if the argument is a float) instead of as
  899. an integer. The prefix @samp{f} indicates this.
  900. Each of the classes
  901. @code{cl_F}, @code{cl_SF}, @code{cl_FF}, @code{cl_DF}, @code{cl_LF}
  902. defines the following operations:
  903. @table @code
  904. @item @var{type} ffloor (const @var{type}& x)
  905. @cindex @code{ffloor ()}
  906. @itemx @var{type} fceiling (const @var{type}& x)
  907. @cindex @code{fceiling ()}
  908. @itemx @var{type} ftruncate (const @var{type}& x)
  909. @cindex @code{ftruncate ()}
  910. @itemx @var{type} fround (const @var{type}& x)
  911. @cindex @code{fround ()}
  912. @end table
  913. and similarly for class @code{cl_R}, but with return type @code{cl_F}.
  914. The class @code{cl_R} defines the following operations:
  915. @table @code
  916. @item cl_F ffloor (const @var{type}& x, const @var{type}& y)
  917. @itemx cl_F fceiling (const @var{type}& x, const @var{type}& y)
  918. @itemx cl_F ftruncate (const @var{type}& x, const @var{type}& y)
  919. @itemx cl_F fround (const @var{type}& x, const @var{type}& y)
  920. @end table
  921. These functions also exist in versions which return both the quotient
  922. and the remainder. The suffix @samp{2} indicates this.
  923. Each of the classes
  924. @code{cl_F}, @code{cl_SF}, @code{cl_FF}, @code{cl_DF}, @code{cl_LF}
  925. defines the following operations:
  926. @cindex @code{cl_F_fdiv_t}
  927. @cindex @code{cl_SF_fdiv_t}
  928. @cindex @code{cl_FF_fdiv_t}
  929. @cindex @code{cl_DF_fdiv_t}
  930. @cindex @code{cl_LF_fdiv_t}
  931. @table @code
  932. @item struct @var{type}_fdiv_t @{ @var{type} quotient; @var{type} remainder; @};
  933. @itemx @var{type}_fdiv_t ffloor2 (const @var{type}& x)
  934. @cindex @code{ffloor2 ()}
  935. @itemx @var{type}_fdiv_t fceiling2 (const @var{type}& x)
  936. @cindex @code{fceiling2 ()}
  937. @itemx @var{type}_fdiv_t ftruncate2 (const @var{type}& x)
  938. @cindex @code{ftruncate2 ()}
  939. @itemx @var{type}_fdiv_t fround2 (const @var{type}& x)
  940. @cindex @code{fround2 ()}
  941. @end table
  942. and similarly for class @code{cl_R}, but with quotient type @code{cl_F}.
  943. @cindex @code{cl_R_fdiv_t}
  944. The class @code{cl_R} defines the following operations:
  945. @table @code
  946. @item struct @var{type}_fdiv_t @{ cl_F quotient; cl_R remainder; @};
  947. @itemx @var{type}_fdiv_t ffloor2 (const @var{type}& x, const @var{type}& y)
  948. @itemx @var{type}_fdiv_t fceiling2 (const @var{type}& x, const @var{type}& y)
  949. @itemx @var{type}_fdiv_t ftruncate2 (const @var{type}& x, const @var{type}& y)
  950. @itemx @var{type}_fdiv_t fround2 (const @var{type}& x, const @var{type}& y)
  951. @end table
  952. Other applications need only the remainder of a division.
  953. The remainder of @samp{floor} and @samp{ffloor} is called @samp{mod}
  954. (abbreviation of ``modulo''). The remainder @samp{truncate} and
  955. @samp{ftruncate} is called @samp{rem} (abbreviation of ``remainder'').
  956. @itemize @bullet
  957. @item
  958. @code{mod(x,y) = floor2(x,y).remainder = x - floor(x/y)*y}
  959. @item
  960. @code{rem(x,y) = truncate2(x,y).remainder = x - truncate(x/y)*y}
  961. @end itemize
  962. If @code{x} and @code{y} are both >= 0, @code{mod(x,y) = rem(x,y) >= 0}.
  963. In general, @code{mod(x,y)} has the sign of @code{y} or is zero,
  964. and @code{rem(x,y)} has the sign of @code{x} or is zero.
  965. The classes @code{cl_R}, @code{cl_I} define the following operations:
  966. @table @code
  967. @item @var{type} mod (const @var{type}& x, const @var{type}& y)
  968. @cindex @code{mod ()}
  969. @itemx @var{type} rem (const @var{type}& x, const @var{type}& y)
  970. @cindex @code{rem ()}
  971. @end table
  972. @section Roots
  973. Each of the classes @code{cl_R},
  974. @code{cl_F}, @code{cl_SF}, @code{cl_FF}, @code{cl_DF}, @code{cl_LF}
  975. defines the following operation:
  976. @table @code
  977. @item @var{type} sqrt (const @var{type}& x)
  978. @cindex @code{sqrt ()}
  979. @code{x} must be >= 0. This function returns the square root of @code{x},
  980. normalized to be >= 0. If @code{x} is the square of a rational number,
  981. @code{sqrt(x)} will be a rational number, else it will return a
  982. floating-point approximation.
  983. @end table
  984. The classes @code{cl_RA}, @code{cl_I} define the following operation:
  985. @table @code
  986. @item bool sqrtp (const @var{type}& x, @var{type}* root)
  987. @cindex @code{sqrtp ()}
  988. This tests whether @code{x} is a perfect square. If so, it returns true
  989. and the exact square root in @code{*root}, else it returns false.
  990. @end table
  991. Furthermore, for integers, similarly:
  992. @table @code
  993. @item bool isqrt (const @var{type}& x, @var{type}* root)
  994. @cindex @code{isqrt ()}
  995. @code{x} should be >= 0. This function sets @code{*root} to
  996. @code{floor(sqrt(x))} and returns the same value as @code{sqrtp}:
  997. the boolean value @code{(expt(*root,2) == x)}.
  998. @end table
  999. For @code{n}th roots, the classes @code{cl_RA}, @code{cl_I}
  1000. define the following operation:
  1001. @table @code
  1002. @item bool rootp (const @var{type}& x, const cl_I& n, @var{type}* root)
  1003. @cindex @code{rootp ()}
  1004. @code{x} must be >= 0. @code{n} must be > 0.
  1005. This tests whether @code{x} is an @code{n}th power of a rational number.
  1006. If so, it returns true and the exact root in @code{*root}, else it returns
  1007. false.
  1008. @end table
  1009. The only square root function which accepts negative numbers is the one
  1010. for class @code{cl_N}:
  1011. @table @code
  1012. @item cl_N sqrt (const cl_N& z)
  1013. @cindex @code{sqrt ()}
  1014. Returns the square root of @code{z}, as defined by the formula
  1015. @code{sqrt(z) = exp(log(z)/2)}. Conversion to a floating-point type
  1016. or to a complex number are done if necessary. The range of the result is the
  1017. right half plane @code{realpart(sqrt(z)) >= 0}
  1018. including the positive imaginary axis and 0, but excluding
  1019. the negative imaginary axis.
  1020. The result is an exact number only if @code{z} is an exact number.
  1021. @end table
  1022. @section Transcendental functions
  1023. @cindex transcendental functions
  1024. The transcendental functions return an exact result if the argument
  1025. is exact and the result is exact as well. Otherwise they must return
  1026. inexact numbers even if the argument is exact.
  1027. For example, @code{cos(0) = 1} returns the rational number @code{1}.
  1028. @subsection Exponential and logarithmic functions
  1029. @table @code
  1030. @item cl_R exp (const cl_R& x)
  1031. @cindex @code{exp ()}
  1032. @itemx cl_N exp (const cl_N& x)
  1033. Returns the exponential function of @code{x}. This is @code{e^x} where
  1034. @code{e} is the base of the natural logarithms. The range of the result
  1035. is the entire complex plane excluding 0.
  1036. @item cl_R ln (const cl_R& x)
  1037. @cindex @code{ln ()}
  1038. @code{x} must be > 0. Returns the (natural) logarithm of x.
  1039. @item cl_N log (const cl_N& x)
  1040. @cindex @code{log ()}
  1041. Returns the (natural) logarithm of x. If @code{x} is real and positive,
  1042. this is @code{ln(x)}. In general, @code{log(x) = log(abs(x)) + i*phase(x)}.
  1043. The range of the result is the strip in the complex plane
  1044. @code{-pi < imagpart(log(x)) <= pi}.
  1045. @item cl_R phase (const cl_N& x)
  1046. @cindex @code{phase ()}
  1047. Returns the angle part of @code{x} in its polar representation as a
  1048. complex number. That is, @code{phase(x) = atan(realpart(x),imagpart(x))}.
  1049. This is also the imaginary part of @code{log(x)}.
  1050. The range of the result is the interval @code{-pi < phase(x) <= pi}.
  1051. The result will be an exact number only if @code{zerop(x)} or
  1052. if @code{x} is real and positive.
  1053. @item cl_R log (const cl_R& a, const cl_R& b)
  1054. @code{a} and @code{b} must be > 0. Returns the logarithm of @code{a} with
  1055. respect to base @code{b}. @code{log(a,b) = ln(a)/ln(b)}.
  1056. The result can be exact only if @code{a = 1} or if @code{a} and @code{b}
  1057. are both rational.
  1058. @item cl_N log (const cl_N& a, const cl_N& b)
  1059. Returns the logarithm of @code{a} with respect to base @code{b}.
  1060. @code{log(a,b) = log(a)/log(b)}.
  1061. @item cl_N expt (const cl_N& x, const cl_N& y)
  1062. @cindex @code{expt ()}
  1063. Exponentiation: Returns @code{x^y = exp(y*log(x))}.
  1064. @end table
  1065. The constant e = exp(1) = 2.71828@dots{} is returned by the following functions:
  1066. @table @code
  1067. @item cl_F exp1 (float_format_t f)
  1068. @cindex @code{exp1 ()}
  1069. Returns e as a float of format @code{f}.
  1070. @item cl_F exp1 (const cl_F& y)
  1071. Returns e in the float format of @code{y}.
  1072. @item cl_F exp1 (void)
  1073. Returns e as a float of format @code{default_float_format}.
  1074. @end table
  1075. @subsection Trigonometric functions
  1076. @table @code
  1077. @item cl_R sin (const cl_R& x)
  1078. @cindex @code{sin ()}
  1079. Returns @code{sin(x)}. The range of the result is the interval
  1080. @code{-1 <= sin(x) <= 1}.
  1081. @item cl_N sin (const cl_N& z)
  1082. Returns @code{sin(z)}. The range of the result is the entire complex plane.
  1083. @item cl_R cos (const cl_R& x)
  1084. @cindex @code{cos ()}
  1085. Returns @code{cos(x)}. The range of the result is the interval
  1086. @code{-1 <= cos(x) <= 1}.
  1087. @item cl_N cos (const cl_N& x)
  1088. Returns @code{cos(z)}. The range of the result is the entire complex plane.
  1089. @item struct cos_sin_t @{ cl_R cos; cl_R sin; @};
  1090. @cindex @code{cos_sin_t}
  1091. @itemx cos_sin_t cos_sin (const cl_R& x)
  1092. Returns both @code{sin(x)} and @code{cos(x)}. This is more efficient than
  1093. @cindex @code{cos_sin ()}
  1094. computing them separately. The relation @code{cos^2 + sin^2 = 1} will
  1095. hold only approximately.
  1096. @item cl_R tan (const cl_R& x)
  1097. @cindex @code{tan ()}
  1098. @itemx cl_N tan (const cl_N& x)
  1099. Returns @code{tan(x) = sin(x)/cos(x)}.
  1100. @item cl_N cis (const cl_R& x)
  1101. @cindex @code{cis ()}
  1102. @itemx cl_N cis (const cl_N& x)
  1103. Returns @code{exp(i*x)}. The name @samp{cis} means ``cos + i sin'', because
  1104. @code{e^(i*x) = cos(x) + i*sin(x)}.
  1105. @cindex @code{asin}
  1106. @cindex @code{asin ()}
  1107. @item cl_N asin (const cl_N& z)
  1108. Returns @code{arcsin(z)}. This is defined as
  1109. @code{arcsin(z) = log(iz+sqrt(1-z^2))/i} and satisfies
  1110. @code{arcsin(-z) = -arcsin(z)}.
  1111. The range of the result is the strip in the complex domain
  1112. @code{-pi/2 <= realpart(arcsin(z)) <= pi/2}, excluding the numbers
  1113. with @code{realpart = -pi/2} and @code{imagpart < 0} and the numbers
  1114. with @code{realpart = pi/2} and @code{imagpart > 0}.
  1115. @ignore
  1116. Proof: This follows from arcsin(z) = arsinh(iz)/i and the corresponding
  1117. results for arsinh.
  1118. @end ignore
  1119. @item cl_N acos (const cl_N& z)
  1120. @cindex @code{acos ()}
  1121. Returns @code{arccos(z)}. This is defined as
  1122. @code{arccos(z) = pi/2 - arcsin(z) = log(z+i*sqrt(1-z^2))/i}
  1123. @ignore
  1124. Kahan's formula:
  1125. @code{arccos(z) = 2*log(sqrt((1+z)/2)+i*sqrt((1-z)/2))/i}
  1126. @end ignore
  1127. and satisfies @code{arccos(-z) = pi - arccos(z)}.
  1128. The range of the result is the strip in the complex domain
  1129. @code{0 <= realpart(arcsin(z)) <= pi}, excluding the numbers
  1130. with @code{realpart = 0} and @code{imagpart < 0} and the numbers
  1131. with @code{realpart = pi} and @code{imagpart > 0}.
  1132. @ignore
  1133. Proof: This follows from the results about arcsin.
  1134. @end ignore
  1135. @cindex @code{atan}
  1136. @cindex @code{atan ()}
  1137. @item cl_R atan (const cl_R& x, const cl_R& y)
  1138. Returns the angle of the polar representation of the complex number
  1139. @code{x+iy}. This is @code{atan(y/x)} if @code{x>0}. The range of
  1140. the result is the interval @code{-pi < atan(x,y) <= pi}. The result will
  1141. be an exact number only if @code{x > 0} and @code{y} is the exact @code{0}.
  1142. WARNING: In Common Lisp, this function is called as @code{(atan y x)},
  1143. with reversed order of arguments.
  1144. @item cl_R atan (const cl_R& x)
  1145. Returns @code{arctan(x)}. This is the same as @code{atan(1,x)}. The range
  1146. of the result is the interval @code{-pi/2 < atan(x) < pi/2}. The result
  1147. will be an exact number only if @code{x} is the exact @code{0}.
  1148. @item cl_N atan (const cl_N& z)
  1149. Returns @code{arctan(z)}. This is defined as
  1150. @code{arctan(z) = (log(1+iz)-log(1-iz)) / 2i} and satisfies
  1151. @code{arctan(-z) = -arctan(z)}. The range of the result is
  1152. the strip in the complex domain
  1153. @code{-pi/2 <= realpart(arctan(z)) <= pi/2}, excluding the numbers
  1154. with @code{realpart = -pi/2} and @code{imagpart >= 0} and the numbers
  1155. with @code{realpart = pi/2} and @code{imagpart <= 0}.
  1156. @ignore
  1157. Proof: arctan(z) = artanh(iz)/i, we know the range of the artanh function.
  1158. @end ignore
  1159. @end table
  1160. @cindex pi
  1161. @cindex Archimedes' constant
  1162. Archimedes' constant pi = 3.14@dots{} is returned by the following functions:
  1163. @table @code
  1164. @item cl_F pi (float_format_t f)
  1165. @cindex @code{pi ()}
  1166. Returns pi as a float of format @code{f}.
  1167. @item cl_F pi (const cl_F& y)
  1168. Returns pi in the float format of @code{y}.
  1169. @item cl_F pi (void)
  1170. Returns pi as a float of format @code{default_float_format}.
  1171. @end table
  1172. @subsection Hyperbolic functions
  1173. @table @code
  1174. @item cl_R sinh (const cl_R& x)
  1175. @cindex @code{sinh ()}
  1176. Returns @code{sinh(x)}.
  1177. @item cl_N sinh (const cl_N& z)
  1178. Returns @code{sinh(z)}. The range of the result is the entire complex plane.
  1179. @item cl_R cosh (const cl_R& x)
  1180. @cindex @code{cosh ()}
  1181. Returns @code{cosh(x)}. The range of the result is the interval
  1182. @code{cosh(x) >= 1}.
  1183. @item cl_N cosh (const cl_N& z)
  1184. Returns @code{cosh(z)}. The range of the result is the entire complex plane.
  1185. @item struct cosh_sinh_t @{ cl_R cosh; cl_R sinh; @};
  1186. @cindex @code{cosh_sinh_t}
  1187. @itemx cosh_sinh_t cosh_sinh (const cl_R& x)
  1188. @cindex @code{cosh_sinh ()}
  1189. Returns both @code{sinh(x)} and @code{cosh(x)}. This is more efficient than
  1190. computing them separately. The relation @code{cosh^2 - sinh^2 = 1} will
  1191. hold only approximately.
  1192. @item cl_R tanh (const cl_R& x)
  1193. @cindex @code{tanh ()}
  1194. @itemx cl_N tanh (const cl_N& x)
  1195. Returns @code{tanh(x) = sinh(x)/cosh(x)}.
  1196. @item cl_N asinh (const cl_N& z)
  1197. @cindex @code{asinh ()}
  1198. Returns @code{arsinh(z)}. This is defined as
  1199. @code{arsinh(z) = log(z+sqrt(1+z^2))} and satisfies
  1200. @code{arsinh(-z) = -arsinh(z)}.
  1201. @ignore
  1202. Proof: Knowing the range of log, we know -pi < imagpart(arsinh(z)) <= pi.
  1203. Actually, z+sqrt(1+z^2) can never be real and <0, so
  1204. -pi < imagpart(arsinh(z)) < pi.
  1205. We have (z+sqrt(1+z^2))*(-z+sqrt(1+(-z)^2)) = (1+z^2)-z^2 = 1, hence the
  1206. logs of both factors sum up to 0 mod 2*pi*i, hence to 0.
  1207. @end ignore
  1208. The range of the result is the strip in the complex domain
  1209. @code{-pi/2 <= imagpart(arsinh(z)) <= pi/2}, excluding the numbers
  1210. with @code{imagpart = -pi/2} and @code{realpart > 0} and the numbers
  1211. with @code{imagpart = pi/2} and @code{realpart < 0}.
  1212. @ignore
  1213. Proof: Write z = x+iy. Because of arsinh(-z) = -arsinh(z), we may assume
  1214. that z is in Range(sqrt), that is, x>=0 and, if x=0, then y>=0.
  1215. If x > 0, then Re(z+sqrt(1+z^2)) = x + Re(sqrt(1+z^2)) >= x > 0,
  1216. so -pi/2 < imagpart(log(z+sqrt(1+z^2))) < pi/2.
  1217. If x = 0 and y >= 0, arsinh(z) = log(i*y+sqrt(1-y^2)).
  1218. If y <= 1, the realpart is 0 and the imagpart is >= 0 and <= pi/2.
  1219. If y >= 1, the imagpart is pi/2 and the realpart is
  1220. log(y+sqrt(y^2-1)) >= log(y) >= 0.
  1221. @end ignore
  1222. @ignore
  1223. Moreover, if z is in Range(sqrt),
  1224. log(sqrt(1+z^2)+z) = 2 artanh(z/(1+sqrt(1+z^2)))
  1225. (for a proof, see file src/cl_C_asinh.cc).
  1226. @end ignore
  1227. @item cl_N acosh (const cl_N& z)
  1228. @cindex @code{acosh ()}
  1229. Returns @code{arcosh(z)}. This is defined as
  1230. @code{arcosh(z) = 2*log(sqrt((z+1)/2)+sqrt((z-1)/2))}.
  1231. The range of the result is the half-strip in the complex domain
  1232. @code{-pi < imagpart(arcosh(z)) <= pi, realpart(arcosh(z)) >= 0},
  1233. excluding the numbers with @code{realpart = 0} and @code{-pi < imagpart < 0}.
  1234. @ignore
  1235. Proof: sqrt((z+1)/2) and sqrt((z-1)/2)) lie in Range(sqrt), hence does
  1236. their sum, hence its log has an imagpart <= pi/2 and > -pi/2.
  1237. If z is in Range(sqrt), we have
  1238. sqrt(z+1)*sqrt(z-1) = sqrt(z^2-1)
  1239. ==> (sqrt((z+1)/2)+sqrt((z-1)/2))^2 = (z+1)/2 + sqrt(z^2-1) + (z-1)/2
  1240. = z + sqrt(z^2-1)
  1241. ==> arcosh(z) = log(z+sqrt(z^2-1)) mod 2*pi*i
  1242. and since the imagpart of both expressions is > -pi, <= pi
  1243. ==> arcosh(z) = log(z+sqrt(z^2-1))
  1244. To prove that the realpart of this is >= 0, write z = x+iy with x>=0,
  1245. z^2-1 = u+iv with u = x^2-y^2-1, v = 2xy,
  1246. sqrt(z^2-1) = p+iq with p = sqrt((sqrt(u^2+v^2)+u)/2) >= 0,
  1247. q = sqrt((sqrt(u^2+v^2)-u)/2) * sign(v),
  1248. then |z+sqrt(z^2-1)|^2 = |x+iy + p+iq|^2
  1249. = (x+p)^2 + (y+q)^2
  1250. = x^2 + 2xp + p^2 + y^2 + 2yq + q^2
  1251. >= x^2 + p^2 + y^2 + q^2 (since x>=0, p>=0, yq>=0)
  1252. = x^2 + y^2 + sqrt(u^2+v^2)
  1253. >= x^2 + y^2 + |u|
  1254. >= x^2 + y^2 - u
  1255. = 1 + 2*y^2
  1256. >= 1
  1257. hence realpart(log(z+sqrt(z^2-1))) = log(|z+sqrt(z^2-1)|) >= 0.
  1258. Equality holds only if y = 0 and u <= 0, i.e. 0 <= x < 1.
  1259. In this case arcosh(z) = log(x+i*sqrt(1-x^2)) has imagpart >=0.
  1260. Otherwise, -z is in Range(sqrt).
  1261. If y != 0, sqrt((z+1)/2) = i^sign(y) * sqrt((-z-1)/2),
  1262. sqrt((z-1)/2) = i^sign(y) * sqrt((-z+1)/2),
  1263. hence arcosh(z) = sign(y)*pi/2*i + arcosh(-z),
  1264. and this has realpart > 0.
  1265. If y = 0 and -1<=x<=0, we still have sqrt(z+1)*sqrt(z-1) = sqrt(z^2-1),
  1266. ==> arcosh(z) = log(z+sqrt(z^2-1)) = log(x+i*sqrt(1-x^2))
  1267. has realpart = 0 and imagpart > 0.
  1268. If y = 0 and x<=-1, however, sqrt(z+1)*sqrt(z-1) = - sqrt(z^2-1),
  1269. ==> arcosh(z) = log(z-sqrt(z^2-1)) = pi*i + arcosh(-z).
  1270. This has realpart >= 0 and imagpart = pi.
  1271. @end ignore
  1272. @item cl_N atanh (const cl_N& z)
  1273. @cindex @code{atanh ()}
  1274. Returns @code{artanh(z)}. This is defined as
  1275. @code{artanh(z) = (log(1+z)-log(1-z)) / 2} and satisfies
  1276. @code{artanh(-z) = -artanh(z)}. The range of the result is
  1277. the strip in the complex domain
  1278. @code{-pi/2 <= imagpart(artanh(z)) <= pi/2}, excluding the numbers
  1279. with @code{imagpart = -pi/2} and @code{realpart <= 0} and the numbers
  1280. with @code{imagpart = pi/2} and @code{realpart >= 0}.
  1281. @ignore
  1282. Proof: Write z = x+iy. Examine
  1283. imagpart(artanh(z)) = (atan(1+x,y) - atan(1-x,-y))/2.
  1284. Case 1: y = 0.
  1285. x > 1 ==> imagpart = -pi/2, realpart = 1/2 log((x+1)/(x-1)) > 0,
  1286. x < -1 ==> imagpart = pi/2, realpart = 1/2 log((-x-1)/(-x+1)) < 0,
  1287. |x| < 1 ==> imagpart = 0
  1288. Case 2: y > 0.
  1289. imagpart(artanh(z))
  1290. = (atan(1+x,y) - atan(1-x,-y))/2
  1291. = ((pi/2 - atan((1+x)/y)) - (-pi/2 - atan((1-x)/-y)))/2
  1292. = (pi - atan((1+x)/y) - atan((1-x)/y))/2
  1293. > (pi - pi/2 - pi/2 )/2 = 0
  1294. and (1+x)/y > (1-x)/y
  1295. ==> atan((1+x)/y) > atan((-1+x)/y) = - atan((1-x)/y)
  1296. ==> imagpart < pi/2.
  1297. Hence 0 < imagpart < pi/2.
  1298. Case 3: y < 0.
  1299. By artanh(z) = -artanh(-z) and case 2, -pi/2 < imagpart < 0.
  1300. @end ignore
  1301. @end table
  1302. @subsection Euler gamma
  1303. @cindex Euler's constant
  1304. Euler's constant C = 0.577@dots{} is returned by the following functions:
  1305. @table @code
  1306. @item cl_F eulerconst (float_format_t f)
  1307. @cindex @code{eulerconst ()}
  1308. Returns Euler's constant as a float of format @code{f}.
  1309. @item cl_F eulerconst (const cl_F& y)
  1310. Returns Euler's constant in the float format of @code{y}.
  1311. @item cl_F eulerconst (void)
  1312. Returns Euler's constant as a float of format @code{default_float_format}.
  1313. @end table
  1314. Catalan's constant G = 0.915@dots{} is returned by the following functions:
  1315. @cindex Catalan's constant
  1316. @table @code
  1317. @item cl_F catalanconst (float_format_t f)
  1318. @cindex @code{catalanconst ()}
  1319. Returns Catalan's constant as a float of format @code{f}.
  1320. @item cl_F catalanconst (const cl_F& y)
  1321. Returns Catalan's constant in the float format of @code{y}.
  1322. @item cl_F catalanconst (void)
  1323. Returns Catalan's constant as a float of format @code{default_float_format}.
  1324. @end table
  1325. @subsection Riemann zeta
  1326. @cindex Riemann's zeta
  1327. Riemann's zeta function at an integral point @code{s>1} is returned by the
  1328. following functions:
  1329. @table @code
  1330. @item cl_F zeta (int s, float_format_t f)
  1331. @cindex @code{zeta ()}
  1332. Returns Riemann's zeta function at @code{s} as a float of format @code{f}.
  1333. @item cl_F zeta (int s, const cl_F& y)
  1334. Returns Riemann's zeta function at @code{s} in the float format of @code{y}.
  1335. @item cl_F zeta (int s)
  1336. Returns Riemann's zeta function at @code{s} as a float of format
  1337. @code{default_float_format}.
  1338. @end table
  1339. @section Functions on integers
  1340. @subsection Logical functions
  1341. Integers, when viewed as in two's complement notation, can be thought as
  1342. infinite bit strings where the bits' values eventually are constant.
  1343. For example,
  1344. @example
  1345. 17 = ......00010001
  1346. -6 = ......11111010
  1347. @end example
  1348. The logical operations view integers as such bit strings and operate
  1349. on each of the bit positions in parallel.
  1350. @table @code
  1351. @item cl_I lognot (const cl_I& x)
  1352. @cindex @code{lognot ()}
  1353. @itemx cl_I operator ~ (const cl_I& x)
  1354. @cindex @code{operator ~ ()}
  1355. Logical not, like @code{~x} in C. This is the same as @code{-1-x}.
  1356. @item cl_I logand (const cl_I& x, const cl_I& y)
  1357. @cindex @code{logand ()}
  1358. @itemx cl_I operator & (const cl_I& x, const cl_I& y)
  1359. @cindex @code{operator & ()}
  1360. Logical and, like @code{x & y} in C.
  1361. @item cl_I logior (const cl_I& x, const cl_I& y)
  1362. @cindex @code{logior ()}
  1363. @itemx cl_I operator | (const cl_I& x, const cl_I& y)
  1364. @cindex @code{operator | ()}
  1365. Logical (inclusive) or, like @code{x | y} in C.
  1366. @item cl_I logxor (const cl_I& x, const cl_I& y)
  1367. @cindex @code{logxor ()}
  1368. @itemx cl_I operator ^ (const cl_I& x, const cl_I& y)
  1369. @cindex @code{operator ^ ()}
  1370. Exclusive or, like @code{x ^ y} in C.
  1371. @item cl_I logeqv (const cl_I& x, const cl_I& y)
  1372. @cindex @code{logeqv ()}
  1373. Bitwise equivalence, like @code{~(x ^ y)} in C.
  1374. @item cl_I lognand (const cl_I& x, const cl_I& y)
  1375. @cindex @code{lognand ()}
  1376. Bitwise not and, like @code{~(x & y)} in C.
  1377. @item cl_I lognor (const cl_I& x, const cl_I& y)
  1378. @cindex @code{lognor ()}
  1379. Bitwise not or, like @code{~(x | y)} in C.
  1380. @item cl_I logandc1 (const cl_I& x, const cl_I& y)
  1381. @cindex @code{logandc1 ()}
  1382. Logical and, complementing the first argument, like @code{~x & y} in C.
  1383. @item cl_I logandc2 (const cl_I& x, const cl_I& y)
  1384. @cindex @code{logandc2 ()}
  1385. Logical and, complementing the second argument, like @code{x & ~y} in C.
  1386. @item cl_I logorc1 (const cl_I& x, const cl_I& y)
  1387. @cindex @code{logorc1 ()}
  1388. Logical or, complementing the first argument, like @code{~x | y} in C.
  1389. @item cl_I logorc2 (const cl_I& x, const cl_I& y)
  1390. @cindex @code{logorc2 ()}
  1391. Logical or, complementing the second argument, like @code{x | ~y} in C.
  1392. @end table
  1393. These operations are all available though the function
  1394. @table @code
  1395. @item cl_I boole (cl_boole op, const cl_I& x, const cl_I& y)
  1396. @cindex @code{boole ()}
  1397. @end table
  1398. where @code{op} must have one of the 16 values (each one stands for a function
  1399. which combines two bits into one bit): @code{boole_clr}, @code{boole_set},
  1400. @code{boole_1}, @code{boole_2}, @code{boole_c1}, @code{boole_c2},
  1401. @code{boole_and}, @code{boole_ior}, @code{boole_xor}, @code{boole_eqv},
  1402. @code{boole_nand}, @code{boole_nor}, @code{boole_andc1}, @code{boole_andc2},
  1403. @code{boole_orc1}, @code{boole_orc2}.
  1404. @cindex @code{boole_clr}
  1405. @cindex @code{boole_set}
  1406. @cindex @code{boole_1}
  1407. @cindex @code{boole_2}
  1408. @cindex @code{boole_c1}
  1409. @cindex @code{boole_c2}
  1410. @cindex @code{boole_and}
  1411. @cindex @code{boole_xor}
  1412. @cindex @code{boole_eqv}
  1413. @cindex @code{boole_nand}
  1414. @cindex @code{boole_nor}
  1415. @cindex @code{boole_andc1}
  1416. @cindex @code{boole_andc2}
  1417. @cindex @code{boole_orc1}
  1418. @cindex @code{boole_orc2}
  1419. Other functions that view integers as bit strings:
  1420. @table @code
  1421. @item bool logtest (const cl_I& x, const cl_I& y)
  1422. @cindex @code{logtest ()}
  1423. Returns true if some bit is set in both @code{x} and @code{y}, i.e. if
  1424. @code{logand(x,y) != 0}.
  1425. @item bool logbitp (const cl_I& n, const cl_I& x)
  1426. @cindex @code{logbitp ()}
  1427. Returns true if the @code{n}th bit (from the right) of @code{x} is set.
  1428. Bit 0 is the least significant bit.
  1429. @item uintC logcount (const cl_I& x)
  1430. @cindex @code{logcount ()}
  1431. Returns the number of one bits in @code{x}, if @code{x} >= 0, or
  1432. the number of zero bits in @code{x}, if @code{x} < 0.
  1433. @end table
  1434. The following functions operate on intervals of bits in integers.
  1435. The type
  1436. @example
  1437. struct cl_byte @{ uintC size; uintC position; @};
  1438. @end example
  1439. @cindex @code{cl_byte}
  1440. represents the bit interval containing the bits
  1441. @code{position}@dots{}@code{position+size-1} of an integer.
  1442. The constructor @code{cl_byte(size,position)} constructs a @code{cl_byte}.
  1443. @table @code
  1444. @item cl_I ldb (const cl_I& n, const cl_byte& b)
  1445. @cindex @code{ldb ()}
  1446. extracts the bits of @code{n} described by the bit interval @code{b}
  1447. and returns them as a nonnegative integer with @code{b.size} bits.
  1448. @item bool ldb_test (const cl_I& n, const cl_byte& b)
  1449. @cindex @code{ldb_test ()}
  1450. Returns true if some bit described by the bit interval @code{b} is set in
  1451. @code{n}.
  1452. @item cl_I dpb (const cl_I& newbyte, const cl_I& n, const cl_byte& b)
  1453. @cindex @code{dpb ()}
  1454. Returns @code{n}, with the bits described by the bit interval @code{b}
  1455. replaced by @code{newbyte}. Only the lowest @code{b.size} bits of
  1456. @code{newbyte} are relevant.
  1457. @end table
  1458. The functions @code{ldb} and @code{dpb} implicitly shift. The following
  1459. functions are their counterparts without shifting:
  1460. @table @code
  1461. @item cl_I mask_field (const cl_I& n, const cl_byte& b)
  1462. @cindex @code{mask_field ()}
  1463. returns an integer with the bits described by the bit interval @code{b}
  1464. copied from the corresponding bits in @code{n}, the other bits zero.
  1465. @item cl_I deposit_field (const cl_I& newbyte, const cl_I& n, const cl_byte& b)
  1466. @cindex @code{deposit_field ()}
  1467. returns an integer where the bits described by the bit interval @code{b}
  1468. come from @code{newbyte} and the other bits come from @code{n}.
  1469. @end table
  1470. The following relations hold:
  1471. @itemize @asis
  1472. @item
  1473. @code{ldb (n, b) = mask_field(n, b) >> b.position},
  1474. @item
  1475. @code{dpb (newbyte, n, b) = deposit_field (newbyte << b.position, n, b)},
  1476. @item
  1477. @code{deposit_field(newbyte,n,b) = n ^ mask_field(n,b) ^ mask_field(new_byte,b)}.
  1478. @end itemize
  1479. The following operations on integers as bit strings are efficient shortcuts
  1480. for common arithmetic operations:
  1481. @table @code
  1482. @item bool oddp (const cl_I& x)
  1483. @cindex @code{oddp ()}
  1484. Returns true if the least significant bit of @code{x} is 1. Equivalent to
  1485. @code{mod(x,2) != 0}.
  1486. @item bool evenp (const cl_I& x)
  1487. @cindex @code{evenp ()}
  1488. Returns true if the least significant bit of @code{x} is 0. Equivalent to
  1489. @code{mod(x,2) == 0}.
  1490. @item cl_I operator << (const cl_I& x, const cl_I& n)
  1491. @cindex @code{operator << ()}
  1492. Shifts @code{x} by @code{n} bits to the left. @code{n} should be >=0.
  1493. Equivalent to @code{x * expt(2,n)}.
  1494. @item cl_I operator >> (const cl_I& x, const cl_I& n)
  1495. @cindex @code{operator >> ()}
  1496. Shifts @code{x} by @code{n} bits to the right. @code{n} should be >=0.
  1497. Bits shifted out to the right are thrown away.
  1498. Equivalent to @code{floor(x / expt(2,n))}.
  1499. @item cl_I ash (const cl_I& x, const cl_I& y)
  1500. @cindex @code{ash ()}
  1501. Shifts @code{x} by @code{y} bits to the left (if @code{y}>=0) or
  1502. by @code{-y} bits to the right (if @code{y}<=0). In other words, this
  1503. returns @code{floor(x * expt(2,y))}.
  1504. @item uintC integer_length (const cl_I& x)
  1505. @cindex @code{integer_length ()}
  1506. Returns the number of bits (excluding the sign bit) needed to represent @code{x}
  1507. in two's complement notation. This is the smallest n >= 0 such that
  1508. -2^n <= x < 2^n. If x > 0, this is the unique n > 0 such that
  1509. 2^(n-1) <= x < 2^n.
  1510. @item uintC ord2 (const cl_I& x)
  1511. @cindex @code{ord2 ()}
  1512. @code{x} must be non-zero. This function returns the number of 0 bits at the
  1513. right of @code{x} in two's complement notation. This is the largest n >= 0
  1514. such that 2^n divides @code{x}.
  1515. @item uintC power2p (const cl_I& x)
  1516. @cindex @code{power2p ()}
  1517. @code{x} must be > 0. This function checks whether @code{x} is a power of 2.
  1518. If @code{x} = 2^(n-1), it returns n. Else it returns 0.
  1519. (See also the function @code{logp}.)
  1520. @end table
  1521. @subsection Number theoretic functions
  1522. @table @code
  1523. @item uint32 gcd (unsigned long a, unsigned long b)
  1524. @cindex @code{gcd ()}
  1525. @itemx cl_I gcd (const cl_I& a, const cl_I& b)
  1526. This function returns the greatest common divisor of @code{a} and @code{b},
  1527. normalized to be >= 0.
  1528. @item cl_I xgcd (const cl_I& a, const cl_I& b, cl_I* u, cl_I* v)
  1529. @cindex @code{xgcd ()}
  1530. This function (``extended gcd'') returns the greatest common divisor @code{g} of
  1531. @code{a} and @code{b} and at the same time the representation of @code{g}
  1532. as an integral linear combination of @code{a} and @code{b}:
  1533. @code{u} and @code{v} with @code{u*a+v*b = g}, @code{g} >= 0.
  1534. @code{u} and @code{v} will be normalized to be of smallest possible absolute
  1535. value, in the following sense: If @code{a} and @code{b} are non-zero, and
  1536. @code{abs(a) != abs(b)}, @code{u} and @code{v} will satisfy the inequalities
  1537. @code{abs(u) <= abs(b)/(2*g)}, @code{abs(v) <= abs(a)/(2*g)}.
  1538. @item cl_I lcm (const cl_I& a, const cl_I& b)
  1539. @cindex @code{lcm ()}
  1540. This function returns the least common multiple of @code{a} and @code{b},
  1541. normalized to be >= 0.
  1542. @item bool logp (const cl_I& a, const cl_I& b, cl_RA* l)
  1543. @cindex @code{logp ()}
  1544. @itemx bool logp (const cl_RA& a, const cl_RA& b, cl_RA* l)
  1545. @code{a} must be > 0. @code{b} must be >0 and != 1. If log(a,b) is
  1546. rational number, this function returns true and sets *l = log(a,b), else
  1547. it returns false.
  1548. @item int jacobi (signed long a, signed long b)
  1549. @cindex @code{jacobi()}
  1550. @itemx int jacobi (const cl_I& a, const cl_I& b)
  1551. Returns the Jacobi symbol
  1552. @tex
  1553. $\left({a\over b}\right)$,
  1554. @end tex
  1555. @ifnottex
  1556. (a/b),
  1557. @end ifnottex
  1558. @code{a,b} must be integers, @code{b>0} and odd. The result is 0
  1559. iff gcd(a,b)>1.
  1560. @item bool isprobprime (const cl_I& n)
  1561. @cindex prime
  1562. @cindex @code{isprobprime()}
  1563. Returns true if @code{n} is a small prime or passes the Miller-Rabin
  1564. primality test. The probability of a false positive is 1:10^30.
  1565. @item cl_I nextprobprime (const cl_R& x)
  1566. @cindex @code{nextprobprime()}
  1567. Returns the smallest probable prime >=@code{x}.
  1568. @end table
  1569. @subsection Combinatorial functions
  1570. @table @code
  1571. @item cl_I factorial (uintL n)
  1572. @cindex @code{factorial ()}
  1573. @code{n} must be a small integer >= 0. This function returns the factorial
  1574. @code{n}! = @code{1*2*@dots{}*n}.
  1575. @item cl_I doublefactorial (uintL n)
  1576. @cindex @code{doublefactorial ()}
  1577. @code{n} must be a small integer >= 0. This function returns the
  1578. doublefactorial @code{n}!! = @code{1*3*@dots{}*n} or
  1579. @code{n}!! = @code{2*4*@dots{}*n}, respectively.
  1580. @item cl_I binomial (uintL n, uintL k)
  1581. @cindex @code{binomial ()}
  1582. @code{n} and @code{k} must be small integers >= 0. This function returns the
  1583. binomial coefficient
  1584. @tex
  1585. ${n \choose k} = {n! \over n! (n-k)!}$
  1586. @end tex
  1587. @ifinfo
  1588. (@code{n} choose @code{k}) = @code{n}! / @code{k}! @code{(n-k)}!
  1589. @end ifinfo
  1590. for 0 <= k <= n, 0 else.
  1591. @end table
  1592. @section Functions on floating-point numbers
  1593. Recall that a floating-point number consists of a sign @code{s}, an
  1594. exponent @code{e} and a mantissa @code{m}. The value of the number is
  1595. @code{(-1)^s * 2^e * m}.
  1596. Each of the classes
  1597. @code{cl_F}, @code{cl_SF}, @code{cl_FF}, @code{cl_DF}, @code{cl_LF}
  1598. defines the following operations.
  1599. @table @code
  1600. @item @var{type} scale_float (const @var{type}& x, sintC delta)
  1601. @cindex @code{scale_float ()}
  1602. @itemx @var{type} scale_float (const @var{type}& x, const cl_I& delta)
  1603. Returns @code{x*2^delta}. This is more efficient than an explicit multiplication
  1604. because it copies @code{x} and modifies the exponent.
  1605. @end table
  1606. The following functions provide an abstract interface to the underlying
  1607. representation of floating-point numbers.
  1608. @table @code
  1609. @item sintE float_exponent (const @var{type}& x)
  1610. @cindex @code{float_exponent ()}
  1611. Returns the exponent @code{e} of @code{x}.
  1612. For @code{x = 0.0}, this is 0. For @code{x} non-zero, this is the unique
  1613. integer with @code{2^(e-1) <= abs(x) < 2^e}.
  1614. @item sintL float_radix (const @var{type}& x)
  1615. @cindex @code{float_radix ()}
  1616. Returns the base of the floating-point representation. This is always @code{2}.
  1617. @item @var{type} float_sign (const @var{type}& x)
  1618. @cindex @code{float_sign ()}
  1619. Returns the sign @code{s} of @code{x} as a float. The value is 1 for
  1620. @code{x} >= 0, -1 for @code{x} < 0.
  1621. @item uintC float_digits (const @var{type}& x)
  1622. @cindex @code{float_digits ()}
  1623. Returns the number of mantissa bits in the floating-point representation
  1624. of @code{x}, including the hidden bit. The value only depends on the type
  1625. of @code{x}, not on its value.
  1626. @item uintC float_precision (const @var{type}& x)
  1627. @cindex @code{float_precision ()}
  1628. Returns the number of significant mantissa bits in the floating-point
  1629. representation of @code{x}. Since denormalized numbers are not supported,
  1630. this is the same as @code{float_digits(x)} if @code{x} is non-zero, and
  1631. 0 if @code{x} = 0.
  1632. @end table
  1633. The complete internal representation of a float is encoded in the type
  1634. @cindex @code{decoded_float}
  1635. @cindex @code{decoded_sfloat}
  1636. @cindex @code{decoded_ffloat}
  1637. @cindex @code{decoded_dfloat}
  1638. @cindex @code{decoded_lfloat}
  1639. @code{decoded_float} (or @code{decoded_sfloat}, @code{decoded_ffloat},
  1640. @code{decoded_dfloat}, @code{decoded_lfloat}, respectively), defined by
  1641. @example
  1642. struct decoded_@var{type}float @{
  1643. @var{type} mantissa; cl_I exponent; @var{type} sign;
  1644. @};
  1645. @end example
  1646. and returned by the function
  1647. @table @code
  1648. @item decoded_@var{type}float decode_float (const @var{type}& x)
  1649. @cindex @code{decode_float ()}
  1650. For @code{x} non-zero, this returns @code{(-1)^s}, @code{e}, @code{m} with
  1651. @code{x = (-1)^s * 2^e * m} and @code{0.5 <= m < 1.0}. For @code{x} = 0,
  1652. it returns @code{(-1)^s}=1, @code{e}=0, @code{m}=0.
  1653. @code{e} is the same as returned by the function @code{float_exponent}.
  1654. @end table
  1655. A complete decoding in terms of integers is provided as type
  1656. @cindex @code{cl_idecoded_float}
  1657. @example
  1658. struct cl_idecoded_float @{
  1659. cl_I mantissa; cl_I exponent; cl_I sign;
  1660. @};
  1661. @end example
  1662. by the following function:
  1663. @table @code
  1664. @item cl_idecoded_float integer_decode_float (const @var{type}& x)
  1665. @cindex @code{integer_decode_float ()}
  1666. For @code{x} non-zero, this returns @code{(-1)^s}, @code{e}, @code{m} with
  1667. @code{x = (-1)^s * 2^e * m} and @code{m} an integer with @code{float_digits(x)}
  1668. bits. For @code{x} = 0, it returns @code{(-1)^s}=1, @code{e}=0, @code{m}=0.
  1669. WARNING: The exponent @code{e} is not the same as the one returned by
  1670. the functions @code{decode_float} and @code{float_exponent}.
  1671. @end table
  1672. Some other function, implemented only for class @code{cl_F}:
  1673. @table @code
  1674. @item cl_F float_sign (const cl_F& x, const cl_F& y)
  1675. @cindex @code{float_sign ()}
  1676. This returns a floating point number whose precision and absolute value
  1677. is that of @code{y} and whose sign is that of @code{x}. If @code{x} is
  1678. zero, it is treated as positive. Same for @code{y}.
  1679. @end table
  1680. @section Conversion functions
  1681. @cindex conversion
  1682. @subsection Conversion to floating-point numbers
  1683. The type @code{float_format_t} describes a floating-point format.
  1684. @cindex @code{float_format_t}
  1685. @table @code
  1686. @item float_format_t float_format (uintE n)
  1687. @cindex @code{float_format ()}
  1688. Returns the smallest float format which guarantees at least @code{n}
  1689. decimal digits in the mantissa (after the decimal point).
  1690. @item float_format_t float_format (const cl_F& x)
  1691. Returns the floating point format of @code{x}.
  1692. @item float_format_t default_float_format
  1693. @cindex @code{default_float_format}
  1694. Global variable: the default float format used when converting rational numbers
  1695. to floats.
  1696. @end table
  1697. To convert a real number to a float, each of the types
  1698. @code{cl_R}, @code{cl_F}, @code{cl_I}, @code{cl_RA},
  1699. @code{int}, @code{unsigned int}, @code{float}, @code{double}
  1700. defines the following operations:
  1701. @table @code
  1702. @item cl_F cl_float (const @var{type}&x, float_format_t f)
  1703. @cindex @code{cl_float ()}
  1704. Returns @code{x} as a float of format @code{f}.
  1705. @item cl_F cl_float (const @var{type}&x, const cl_F& y)
  1706. Returns @code{x} in the float format of @code{y}.
  1707. @item cl_F cl_float (const @var{type}&x)
  1708. Returns @code{x} as a float of format @code{default_float_format} if
  1709. it is an exact number, or @code{x} itself if it is already a float.
  1710. @end table
  1711. Of course, converting a number to a float can lose precision.
  1712. Every floating-point format has some characteristic numbers:
  1713. @table @code
  1714. @item cl_F most_positive_float (float_format_t f)
  1715. @cindex @code{most_positive_float ()}
  1716. Returns the largest (most positive) floating point number in float format @code{f}.
  1717. @item cl_F most_negative_float (float_format_t f)
  1718. @cindex @code{most_negative_float ()}
  1719. Returns the smallest (most negative) floating point number in float format @code{f}.
  1720. @item cl_F least_positive_float (float_format_t f)
  1721. @cindex @code{least_positive_float ()}
  1722. Returns the least positive floating point number (i.e. > 0 but closest to 0)
  1723. in float format @code{f}.
  1724. @item cl_F least_negative_float (float_format_t f)
  1725. @cindex @code{least_negative_float ()}
  1726. Returns the least negative floating point number (i.e. < 0 but closest to 0)
  1727. in float format @code{f}.
  1728. @item cl_F float_epsilon (float_format_t f)
  1729. @cindex @code{float_epsilon ()}
  1730. Returns the smallest floating point number e > 0 such that @code{1+e != 1}.
  1731. @item cl_F float_negative_epsilon (float_format_t f)
  1732. @cindex @code{float_negative_epsilon ()}
  1733. Returns the smallest floating point number e > 0 such that @code{1-e != 1}.
  1734. @end table
  1735. @subsection Conversion to rational numbers
  1736. Each of the classes @code{cl_R}, @code{cl_RA}, @code{cl_F}
  1737. defines the following operation:
  1738. @table @code
  1739. @item cl_RA rational (const @var{type}& x)
  1740. @cindex @code{rational ()}
  1741. Returns the value of @code{x} as an exact number. If @code{x} is already
  1742. an exact number, this is @code{x}. If @code{x} is a floating-point number,
  1743. the value is a rational number whose denominator is a power of 2.
  1744. @end table
  1745. In order to convert back, say, @code{(cl_F)(cl_R)"1/3"} to @code{1/3}, there is
  1746. the function
  1747. @table @code
  1748. @item cl_RA rationalize (const cl_R& x)
  1749. @cindex @code{rationalize ()}
  1750. If @code{x} is a floating-point number, it actually represents an interval
  1751. of real numbers, and this function returns the rational number with
  1752. smallest denominator (and smallest numerator, in magnitude)
  1753. which lies in this interval.
  1754. If @code{x} is already an exact number, this function returns @code{x}.
  1755. @end table
  1756. If @code{x} is any float, one has
  1757. @itemize @asis
  1758. @item
  1759. @code{cl_float(rational(x),x) = x}
  1760. @item
  1761. @code{cl_float(rationalize(x),x) = x}
  1762. @end itemize
  1763. @section Random number generators
  1764. A random generator is a machine which produces (pseudo-)random numbers.
  1765. The include file @code{<cln/random.h>} defines a class @code{random_state}
  1766. which contains the state of a random generator. If you make a copy
  1767. of the random number generator, the original one and the copy will produce
  1768. the same sequence of random numbers.
  1769. The following functions return (pseudo-)random numbers in different formats.
  1770. Calling one of these modifies the state of the random number generator in
  1771. a complicated but deterministic way.
  1772. The global variable
  1773. @cindex @code{random_state}
  1774. @cindex @code{default_random_state}
  1775. @example
  1776. random_state default_random_state
  1777. @end example
  1778. contains a default random number generator. It is used when the functions
  1779. below are called without @code{random_state} argument.
  1780. @table @code
  1781. @item uint32 random32 (random_state& randomstate)
  1782. @itemx uint32 random32 ()
  1783. @cindex @code{random32 ()}
  1784. Returns a random unsigned 32-bit number. All bits are equally random.
  1785. @item cl_I random_I (random_state& randomstate, const cl_I& n)
  1786. @itemx cl_I random_I (const cl_I& n)
  1787. @cindex @code{random_I ()}
  1788. @code{n} must be an integer > 0. This function returns a random integer @code{x}
  1789. in the range @code{0 <= x < n}.
  1790. @item cl_F random_F (random_state& randomstate, const cl_F& n)
  1791. @itemx cl_F random_F (const cl_F& n)
  1792. @cindex @code{random_F ()}
  1793. @code{n} must be a float > 0. This function returns a random floating-point
  1794. number of the same format as @code{n} in the range @code{0 <= x < n}.
  1795. @item cl_R random_R (random_state& randomstate, const cl_R& n)
  1796. @itemx cl_R random_R (const cl_R& n)
  1797. @cindex @code{random_R ()}
  1798. Behaves like @code{random_I} if @code{n} is an integer and like @code{random_F}
  1799. if @code{n} is a float.
  1800. @end table
  1801. @section Obfuscating operators
  1802. @cindex modifying operators
  1803. The modifying C/C++ operators @code{+=}, @code{-=}, @code{*=}, @code{/=},
  1804. @code{&=}, @code{|=}, @code{^=}, @code{<<=}, @code{>>=}
  1805. are not available by default because their
  1806. use tends to make programs unreadable. It is trivial to get away without
  1807. them. However, if you feel that you absolutely need these operators
  1808. to get happy, then add
  1809. @example
  1810. #define WANT_OBFUSCATING_OPERATORS
  1811. @end example
  1812. @cindex @code{WANT_OBFUSCATING_OPERATORS}
  1813. to the beginning of your source files, before the inclusion of any CLN
  1814. include files. This flag will enable the following operators:
  1815. For the classes @code{cl_N}, @code{cl_R}, @code{cl_RA},
  1816. @code{cl_F}, @code{cl_SF}, @code{cl_FF}, @code{cl_DF}, @code{cl_LF}:
  1817. @table @code
  1818. @item @var{type}& operator += (@var{type}&, const @var{type}&)
  1819. @cindex @code{operator += ()}
  1820. @itemx @var{type}& operator -= (@var{type}&, const @var{type}&)
  1821. @cindex @code{operator -= ()}
  1822. @itemx @var{type}& operator *= (@var{type}&, const @var{type}&)
  1823. @cindex @code{operator *= ()}
  1824. @itemx @var{type}& operator /= (@var{type}&, const @var{type}&)
  1825. @cindex @code{operator /= ()}
  1826. @end table
  1827. For the class @code{cl_I}:
  1828. @table @code
  1829. @item @var{type}& operator += (@var{type}&, const @var{type}&)
  1830. @itemx @var{type}& operator -= (@var{type}&, const @var{type}&)
  1831. @itemx @var{type}& operator *= (@var{type}&, const @var{type}&)
  1832. @itemx @var{type}& operator &= (@var{type}&, const @var{type}&)
  1833. @cindex @code{operator &= ()}
  1834. @itemx @var{type}& operator |= (@var{type}&, const @var{type}&)
  1835. @cindex @code{operator |= ()}
  1836. @itemx @var{type}& operator ^= (@var{type}&, const @var{type}&)
  1837. @cindex @code{operator ^= ()}
  1838. @itemx @var{type}& operator <<= (@var{type}&, const @var{type}&)
  1839. @cindex @code{operator <<= ()}
  1840. @itemx @var{type}& operator >>= (@var{type}&, const @var{type}&)
  1841. @cindex @code{operator >>= ()}
  1842. @end table
  1843. For the classes @code{cl_N}, @code{cl_R}, @code{cl_RA}, @code{cl_I},
  1844. @code{cl_F}, @code{cl_SF}, @code{cl_FF}, @code{cl_DF}, @code{cl_LF}:
  1845. @table @code
  1846. @item @var{type}& operator ++ (@var{type}& x)
  1847. @cindex @code{operator ++ ()}
  1848. The prefix operator @code{++x}.
  1849. @item void operator ++ (@var{type}& x, int)
  1850. The postfix operator @code{x++}.
  1851. @item @var{type}& operator -- (@var{type}& x)
  1852. @cindex @code{operator -- ()}
  1853. The prefix operator @code{--x}.
  1854. @item void operator -- (@var{type}& x, int)
  1855. The postfix operator @code{x--}.
  1856. @end table
  1857. Note that by using these obfuscating operators, you wouldn't gain efficiency:
  1858. In CLN @samp{x += y;} is exactly the same as @samp{x = x+y;}, not more
  1859. efficient.
  1860. @chapter Input/Output
  1861. @cindex Input/Output
  1862. @section Internal and printed representation
  1863. @cindex representation
  1864. All computations deal with the internal representations of the numbers.
  1865. Every number has an external representation as a sequence of ASCII characters.
  1866. Several external representations may denote the same number, for example,
  1867. "20.0" and "20.000".
  1868. Converting an internal to an external representation is called ``printing'',
  1869. @cindex printing
  1870. converting an external to an internal representation is called ``reading''.
  1871. @cindex reading
  1872. In CLN, it is always true that conversion of an internal to an external
  1873. representation and then back to an internal representation will yield the
  1874. same internal representation. Symbolically: @code{read(print(x)) == x}.
  1875. This is called ``print-read consistency''.
  1876. Different types of numbers have different external representations (case
  1877. is insignificant):
  1878. @table @asis
  1879. @item Integers
  1880. External representation: @var{sign}@{@var{digit}@}+. The reader also accepts the
  1881. Common Lisp syntaxes @var{sign}@{@var{digit}@}+@code{.} with a trailing dot
  1882. for decimal integers
  1883. and the @code{#@var{n}R}, @code{#b}, @code{#o}, @code{#x} prefixes.
  1884. @item Rational numbers
  1885. External representation: @var{sign}@{@var{digit}@}+@code{/}@{@var{digit}@}+.
  1886. The @code{#@var{n}R}, @code{#b}, @code{#o}, @code{#x} prefixes are allowed
  1887. here as well.
  1888. @item Floating-point numbers
  1889. External representation: @var{sign}@{@var{digit}@}*@var{exponent} or
  1890. @var{sign}@{@var{digit}@}*@code{.}@{@var{digit}@}*@var{exponent} or
  1891. @var{sign}@{@var{digit}@}*@code{.}@{@var{digit}@}+. A precision specifier
  1892. of the form _@var{prec} may be appended. There must be at least
  1893. one digit in the non-exponent part. The exponent has the syntax
  1894. @var{expmarker} @var{expsign} @{@var{digit}@}+.
  1895. The exponent marker is
  1896. @itemize @asis
  1897. @item
  1898. @samp{s} for short-floats,
  1899. @item
  1900. @samp{f} for single-floats,
  1901. @item
  1902. @samp{d} for double-floats,
  1903. @item
  1904. @samp{L} for long-floats,
  1905. @end itemize
  1906. or @samp{e}, which denotes a default float format. The precision specifying
  1907. suffix has the syntax _@var{prec} where @var{prec} denotes the number of
  1908. valid mantissa digits (in decimal, excluding leading zeroes), cf. also
  1909. function @samp{float_format}.
  1910. @item Complex numbers
  1911. External representation:
  1912. @itemize @asis
  1913. @item
  1914. In algebraic notation: @code{@var{realpart}+@var{imagpart}i}. Of course,
  1915. if @var{imagpart} is negative, its printed representation begins with
  1916. a @samp{-}, and the @samp{+} between @var{realpart} and @var{imagpart}
  1917. may be omitted. Note that this notation cannot be used when the @var{imagpart}
  1918. is rational and the rational number's base is >18, because the @samp{i}
  1919. is then read as a digit.
  1920. @item
  1921. In Common Lisp notation: @code{#C(@var{realpart} @var{imagpart})}.
  1922. @end itemize
  1923. @end table
  1924. @section Input functions
  1925. Including @code{<cln/io.h>} defines a number of simple input functions
  1926. that read from @code{std::istream&}:
  1927. @table @code
  1928. @item int freadchar (std::istream& stream)
  1929. Reads a character from @code{stream}. Returns @code{cl_EOF} (not a @samp{char}!)
  1930. if the end of stream was encountered or an error occurred.
  1931. @item int funreadchar (std::istream& stream, int c)
  1932. Puts back @code{c} onto @code{stream}. @code{c} must be the result of the
  1933. last @code{freadchar} operation on @code{stream}.
  1934. @end table
  1935. Each of the classes @code{cl_N}, @code{cl_R}, @code{cl_RA}, @code{cl_I},
  1936. @code{cl_F}, @code{cl_SF}, @code{cl_FF}, @code{cl_DF}, @code{cl_LF}
  1937. defines, in @code{<cln/@var{type}_io.h>}, the following input function:
  1938. @table @code
  1939. @item std::istream& operator>> (std::istream& stream, @var{type}& result)
  1940. Reads a number from @code{stream} and stores it in the @code{result}.
  1941. @end table
  1942. The most flexible input functions, defined in @code{<cln/@var{type}_io.h>},
  1943. are the following:
  1944. @table @code
  1945. @item cl_N read_complex (std::istream& stream, const cl_read_flags& flags)
  1946. @itemx cl_R read_real (std::istream& stream, const cl_read_flags& flags)
  1947. @itemx cl_F read_float (std::istream& stream, const cl_read_flags& flags)
  1948. @itemx cl_RA read_rational (std::istream& stream, const cl_read_flags& flags)
  1949. @itemx cl_I read_integer (std::istream& stream, const cl_read_flags& flags)
  1950. Reads a number from @code{stream}. The @code{flags} are parameters which
  1951. affect the input syntax. Whitespace before the number is silently skipped.
  1952. @item cl_N read_complex (const cl_read_flags& flags, const char * string, const char * string_limit, const char * * end_of_parse)
  1953. @itemx cl_R read_real (const cl_read_flags& flags, const char * string, const char * string_limit, const char * * end_of_parse)
  1954. @itemx cl_F read_float (const cl_read_flags& flags, const char * string, const char * string_limit, const char * * end_of_parse)
  1955. @itemx cl_RA read_rational (const cl_read_flags& flags, const char * string, const char * string_limit, const char * * end_of_parse)
  1956. @itemx cl_I read_integer (const cl_read_flags& flags, const char * string, const char * string_limit, const char * * end_of_parse)
  1957. Reads a number from a string in memory. The @code{flags} are parameters which
  1958. affect the input syntax. The string starts at @code{string} and ends at
  1959. @code{string_limit} (exclusive limit). @code{string_limit} may also be
  1960. @code{NULL}, denoting the entire string, i.e. equivalent to
  1961. @code{string_limit = string + strlen(string)}. If @code{end_of_parse} is
  1962. @code{NULL}, the string in memory must contain exactly one number and nothing
  1963. more, else an exception will be thrown. If @code{end_of_parse}
  1964. is not @code{NULL}, @code{*end_of_parse} will be assigned a pointer past
  1965. the last parsed character (i.e. @code{string_limit} if nothing came after
  1966. the number). Whitespace is not allowed.
  1967. @end table
  1968. The structure @code{cl_read_flags} contains the following fields:
  1969. @table @code
  1970. @item cl_read_syntax_t syntax
  1971. The possible results of the read operation. Possible values are
  1972. @code{syntax_number}, @code{syntax_real}, @code{syntax_rational},
  1973. @code{syntax_integer}, @code{syntax_float}, @code{syntax_sfloat},
  1974. @code{syntax_ffloat}, @code{syntax_dfloat}, @code{syntax_lfloat}.
  1975. @item cl_read_lsyntax_t lsyntax
  1976. Specifies the language-dependent syntax variant for the read operation.
  1977. Possible values are
  1978. @table @code
  1979. @item lsyntax_standard
  1980. accept standard algebraic notation only, no complex numbers,
  1981. @item lsyntax_algebraic
  1982. accept the algebraic notation @code{@var{x}+@var{y}i} for complex numbers,
  1983. @item lsyntax_commonlisp
  1984. accept the @code{#b}, @code{#o}, @code{#x} syntaxes for binary, octal,
  1985. hexadecimal numbers,
  1986. @code{#@var{base}R} for rational numbers in a given base,
  1987. @code{#c(@var{realpart} @var{imagpart})} for complex numbers,
  1988. @item lsyntax_all
  1989. accept all of these extensions.
  1990. @end table
  1991. @item unsigned int rational_base
  1992. The base in which rational numbers are read.
  1993. @item float_format_t float_flags.default_float_format
  1994. The float format used when reading floats with exponent marker @samp{e}.
  1995. @item float_format_t float_flags.default_lfloat_format
  1996. The float format used when reading floats with exponent marker @samp{l}.
  1997. @item bool float_flags.mantissa_dependent_float_format
  1998. When this flag is true, floats specified with more digits than corresponding
  1999. to the exponent marker they contain, but without @var{_nnn} suffix, will get a
  2000. precision corresponding to their number of significant digits.
  2001. @end table
  2002. @section Output functions
  2003. Including @code{<cln/io.h>} defines a number of simple output functions
  2004. that write to @code{std::ostream&}:
  2005. @table @code
  2006. @item void fprintchar (std::ostream& stream, char c)
  2007. Prints the character @code{x} literally on the @code{stream}.
  2008. @item void fprint (std::ostream& stream, const char * string)
  2009. Prints the @code{string} literally on the @code{stream}.
  2010. @item void fprintdecimal (std::ostream& stream, int x)
  2011. @itemx void fprintdecimal (std::ostream& stream, const cl_I& x)
  2012. Prints the integer @code{x} in decimal on the @code{stream}.
  2013. @item void fprintbinary (std::ostream& stream, const cl_I& x)
  2014. Prints the integer @code{x} in binary (base 2, without prefix)
  2015. on the @code{stream}.
  2016. @item void fprintoctal (std::ostream& stream, const cl_I& x)
  2017. Prints the integer @code{x} in octal (base 8, without prefix)
  2018. on the @code{stream}.
  2019. @item void fprinthexadecimal (std::ostream& stream, const cl_I& x)
  2020. Prints the integer @code{x} in hexadecimal (base 16, without prefix)
  2021. on the @code{stream}.
  2022. @end table
  2023. Each of the classes @code{cl_N}, @code{cl_R}, @code{cl_RA}, @code{cl_I},
  2024. @code{cl_F}, @code{cl_SF}, @code{cl_FF}, @code{cl_DF}, @code{cl_LF}
  2025. defines, in @code{<cln/@var{type}_io.h>}, the following output functions:
  2026. @table @code
  2027. @item void fprint (std::ostream& stream, const @var{type}& x)
  2028. @itemx std::ostream& operator<< (std::ostream& stream, const @var{type}& x)
  2029. Prints the number @code{x} on the @code{stream}. The output may depend
  2030. on the global printer settings in the variable @code{default_print_flags}.
  2031. The @code{ostream} flags and settings (flags, width and locale) are
  2032. ignored.
  2033. @end table
  2034. The most flexible output function, defined in @code{<cln/@var{type}_io.h>},
  2035. are the following:
  2036. @example
  2037. void print_complex (std::ostream& stream, const cl_print_flags& flags,
  2038. const cl_N& z);
  2039. void print_real (std::ostream& stream, const cl_print_flags& flags,
  2040. const cl_R& z);
  2041. void print_float (std::ostream& stream, const cl_print_flags& flags,
  2042. const cl_F& z);
  2043. void print_rational (std::ostream& stream, const cl_print_flags& flags,
  2044. const cl_RA& z);
  2045. void print_integer (std::ostream& stream, const cl_print_flags& flags,
  2046. const cl_I& z);
  2047. @end example
  2048. Prints the number @code{x} on the @code{stream}. The @code{flags} are
  2049. parameters which affect the output.
  2050. The structure type @code{cl_print_flags} contains the following fields:
  2051. @table @code
  2052. @item unsigned int rational_base
  2053. The base in which rational numbers are printed. Default is @code{10}.
  2054. @item bool rational_readably
  2055. If this flag is true, rational numbers are printed with radix specifiers in
  2056. Common Lisp syntax (@code{#@var{n}R} or @code{#b} or @code{#o} or @code{#x}
  2057. prefixes, trailing dot). Default is false.
  2058. @item bool float_readably
  2059. If this flag is true, type specific exponent markers have precedence over 'E'.
  2060. Default is false.
  2061. @item float_format_t default_float_format
  2062. Floating point numbers of this format will be printed using the 'E' exponent
  2063. marker. Default is @code{float_format_ffloat}.
  2064. @item bool complex_readably
  2065. If this flag is true, complex numbers will be printed using the Common Lisp
  2066. syntax @code{#C(@var{realpart} @var{imagpart})}. Default is false.
  2067. @item cl_string univpoly_varname
  2068. Univariate polynomials with no explicit indeterminate name will be printed
  2069. using this variable name. Default is @code{"x"}.
  2070. @end table
  2071. The global variable @code{default_print_flags} contains the default values,
  2072. used by the function @code{fprint}.
  2073. @chapter Rings
  2074. CLN has a class of abstract rings.
  2075. @example
  2076. Ring
  2077. cl_ring
  2078. <cln/ring.h>
  2079. @end example
  2080. Rings can be compared for equality:
  2081. @table @code
  2082. @item bool operator== (const cl_ring&, const cl_ring&)
  2083. @itemx bool operator!= (const cl_ring&, const cl_ring&)
  2084. These compare two rings for equality.
  2085. @end table
  2086. Given a ring @code{R}, the following members can be used.
  2087. @table @code
  2088. @item void R->fprint (std::ostream& stream, const cl_ring_element& x)
  2089. @cindex @code{fprint ()}
  2090. @itemx bool R->equal (const cl_ring_element& x, const cl_ring_element& y)
  2091. @cindex @code{equal ()}
  2092. @itemx cl_ring_element R->zero ()
  2093. @cindex @code{zero ()}
  2094. @itemx bool R->zerop (const cl_ring_element& x)
  2095. @cindex @code{zerop ()}
  2096. @itemx cl_ring_element R->plus (const cl_ring_element& x, const cl_ring_element& y)
  2097. @cindex @code{plus ()}
  2098. @itemx cl_ring_element R->minus (const cl_ring_element& x, const cl_ring_element& y)
  2099. @cindex @code{minus ()}
  2100. @itemx cl_ring_element R->uminus (const cl_ring_element& x)
  2101. @cindex @code{uminus ()}
  2102. @itemx cl_ring_element R->one ()
  2103. @cindex @code{one ()}
  2104. @itemx cl_ring_element R->canonhom (const cl_I& x)
  2105. @cindex @code{canonhom ()}
  2106. @itemx cl_ring_element R->mul (const cl_ring_element& x, const cl_ring_element& y)
  2107. @cindex @code{mul ()}
  2108. @itemx cl_ring_element R->square (const cl_ring_element& x)
  2109. @cindex @code{square ()}
  2110. @itemx cl_ring_element R->expt_pos (const cl_ring_element& x, const cl_I& y)
  2111. @cindex @code{expt_pos ()}
  2112. @end table
  2113. The following rings are built-in.
  2114. @table @code
  2115. @item cl_null_ring cl_0_ring
  2116. The null ring, containing only zero.
  2117. @item cl_complex_ring cl_C_ring
  2118. The ring of complex numbers. This corresponds to the type @code{cl_N}.
  2119. @item cl_real_ring cl_R_ring
  2120. The ring of real numbers. This corresponds to the type @code{cl_R}.
  2121. @item cl_rational_ring cl_RA_ring
  2122. The ring of rational numbers. This corresponds to the type @code{cl_RA}.
  2123. @item cl_integer_ring cl_I_ring
  2124. The ring of integers. This corresponds to the type @code{cl_I}.
  2125. @end table
  2126. Type tests can be performed for any of @code{cl_C_ring}, @code{cl_R_ring},
  2127. @code{cl_RA_ring}, @code{cl_I_ring}:
  2128. @table @code
  2129. @item bool instanceof (const cl_number& x, const cl_number_ring& R)
  2130. @cindex @code{instanceof ()}
  2131. Tests whether the given number is an element of the number ring R.
  2132. @end table
  2133. @chapter Modular integers
  2134. @cindex modular integer
  2135. @section Modular integer rings
  2136. @cindex ring
  2137. CLN implements modular integers, i.e. integers modulo a fixed integer N.
  2138. The modulus is explicitly part of every modular integer. CLN doesn't
  2139. allow you to (accidentally) mix elements of different modular rings,
  2140. e.g. @code{(3 mod 4) + (2 mod 5)} will result in a runtime error.
  2141. (Ideally one would imagine a generic data type @code{cl_MI(N)}, but C++
  2142. doesn't have generic types. So one has to live with runtime checks.)
  2143. The class of modular integer rings is
  2144. @example
  2145. Ring
  2146. cl_ring
  2147. <cln/ring.h>
  2148. |
  2149. |
  2150. Modular integer ring
  2151. cl_modint_ring
  2152. <cln/modinteger.h>
  2153. @end example
  2154. @cindex @code{cl_modint_ring}
  2155. and the class of all modular integers (elements of modular integer rings) is
  2156. @example
  2157. Modular integer
  2158. cl_MI
  2159. <cln/modinteger.h>
  2160. @end example
  2161. Modular integer rings are constructed using the function
  2162. @table @code
  2163. @item cl_modint_ring find_modint_ring (const cl_I& N)
  2164. @cindex @code{find_modint_ring ()}
  2165. This function returns the modular ring @samp{Z/NZ}. It takes care
  2166. of finding out about special cases of @code{N}, like powers of two
  2167. and odd numbers for which Montgomery multiplication will be a win,
  2168. @cindex Montgomery multiplication
  2169. and precomputes any necessary auxiliary data for computing modulo @code{N}.
  2170. There is a cache table of rings, indexed by @code{N} (or, more precisely,
  2171. by @code{abs(N)}). This ensures that the precomputation costs are reduced
  2172. to a minimum.
  2173. @end table
  2174. Modular integer rings can be compared for equality:
  2175. @table @code
  2176. @item bool operator== (const cl_modint_ring&, const cl_modint_ring&)
  2177. @cindex @code{operator == ()}
  2178. @itemx bool operator!= (const cl_modint_ring&, const cl_modint_ring&)
  2179. @cindex @code{operator != ()}
  2180. These compare two modular integer rings for equality. Two different calls
  2181. to @code{find_modint_ring} with the same argument necessarily return the
  2182. same ring because it is memoized in the cache table.
  2183. @end table
  2184. @section Functions on modular integers
  2185. Given a modular integer ring @code{R}, the following members can be used.
  2186. @table @code
  2187. @item cl_I R->modulus
  2188. @cindex @code{modulus}
  2189. This is the ring's modulus, normalized to be nonnegative: @code{abs(N)}.
  2190. @item cl_MI R->zero()
  2191. @cindex @code{zero ()}
  2192. This returns @code{0 mod N}.
  2193. @item cl_MI R->one()
  2194. @cindex @code{one ()}
  2195. This returns @code{1 mod N}.
  2196. @item cl_MI R->canonhom (const cl_I& x)
  2197. @cindex @code{canonhom ()}
  2198. This returns @code{x mod N}.
  2199. @item cl_I R->retract (const cl_MI& x)
  2200. @cindex @code{retract ()}
  2201. This is a partial inverse function to @code{R->canonhom}. It returns the
  2202. standard representative (@code{>=0}, @code{<N}) of @code{x}.
  2203. @item cl_MI R->random(random_state& randomstate)
  2204. @itemx cl_MI R->random()
  2205. @cindex @code{random ()}
  2206. This returns a random integer modulo @code{N}.
  2207. @end table
  2208. The following operations are defined on modular integers.
  2209. @table @code
  2210. @item cl_modint_ring x.ring ()
  2211. @cindex @code{ring ()}
  2212. Returns the ring to which the modular integer @code{x} belongs.
  2213. @item cl_MI operator+ (const cl_MI&, const cl_MI&)
  2214. @cindex @code{operator + ()}
  2215. Returns the sum of two modular integers. One of the arguments may also
  2216. be a plain integer.
  2217. @item cl_MI operator- (const cl_MI&, const cl_MI&)
  2218. @cindex @code{operator - ()}
  2219. Returns the difference of two modular integers. One of the arguments may also
  2220. be a plain integer.
  2221. @item cl_MI operator- (const cl_MI&)
  2222. Returns the negative of a modular integer.
  2223. @item cl_MI operator* (const cl_MI&, const cl_MI&)
  2224. @cindex @code{operator * ()}
  2225. Returns the product of two modular integers. One of the arguments may also
  2226. be a plain integer.
  2227. @item cl_MI square (const cl_MI&)
  2228. @cindex @code{square ()}
  2229. Returns the square of a modular integer.
  2230. @item cl_MI recip (const cl_MI& x)
  2231. @cindex @code{recip ()}
  2232. Returns the reciprocal @code{x^-1} of a modular integer @code{x}. @code{x}
  2233. must be coprime to the modulus, otherwise an error message is issued.
  2234. @item cl_MI div (const cl_MI& x, const cl_MI& y)
  2235. @cindex @code{div ()}
  2236. Returns the quotient @code{x*y^-1} of two modular integers @code{x}, @code{y}.
  2237. @code{y} must be coprime to the modulus, otherwise an error message is issued.
  2238. @item cl_MI expt_pos (const cl_MI& x, const cl_I& y)
  2239. @cindex @code{expt_pos ()}
  2240. @code{y} must be > 0. Returns @code{x^y}.
  2241. @item cl_MI expt (const cl_MI& x, const cl_I& y)
  2242. @cindex @code{expt ()}
  2243. Returns @code{x^y}. If @code{y} is negative, @code{x} must be coprime to the
  2244. modulus, else an error message is issued.
  2245. @item cl_MI operator<< (const cl_MI& x, const cl_I& y)
  2246. @cindex @code{operator << ()}
  2247. Returns @code{x*2^y}.
  2248. @item cl_MI operator>> (const cl_MI& x, const cl_I& y)
  2249. @cindex @code{operator >> ()}
  2250. Returns @code{x*2^-y}. When @code{y} is positive, the modulus must be odd,
  2251. or an error message is issued.
  2252. @item bool operator== (const cl_MI&, const cl_MI&)
  2253. @cindex @code{operator == ()}
  2254. @itemx bool operator!= (const cl_MI&, const cl_MI&)
  2255. @cindex @code{operator != ()}
  2256. Compares two modular integers, belonging to the same modular integer ring,
  2257. for equality.
  2258. @item bool zerop (const cl_MI& x)
  2259. @cindex @code{zerop ()}
  2260. Returns true if @code{x} is @code{0 mod N}.
  2261. @end table
  2262. The following output functions are defined (see also the chapter on
  2263. input/output).
  2264. @table @code
  2265. @item void fprint (std::ostream& stream, const cl_MI& x)
  2266. @cindex @code{fprint ()}
  2267. @itemx std::ostream& operator<< (std::ostream& stream, const cl_MI& x)
  2268. @cindex @code{operator << ()}
  2269. Prints the modular integer @code{x} on the @code{stream}. The output may depend
  2270. on the global printer settings in the variable @code{default_print_flags}.
  2271. @end table
  2272. @chapter Symbolic data types
  2273. @cindex symbolic type
  2274. CLN implements two symbolic (non-numeric) data types: strings and symbols.
  2275. @section Strings
  2276. @cindex string
  2277. @cindex @code{cl_string}
  2278. The class
  2279. @example
  2280. String
  2281. cl_string
  2282. <cln/string.h>
  2283. @end example
  2284. implements immutable strings.
  2285. Strings are constructed through the following constructors:
  2286. @table @code
  2287. @item cl_string (const char * s)
  2288. Returns an immutable copy of the (zero-terminated) C string @code{s}.
  2289. @item cl_string (const char * ptr, unsigned long len)
  2290. Returns an immutable copy of the @code{len} characters at
  2291. @code{ptr[0]}, @dots{}, @code{ptr[len-1]}. NUL characters are allowed.
  2292. @end table
  2293. The following functions are available on strings:
  2294. @table @code
  2295. @item operator =
  2296. Assignment from @code{cl_string} and @code{const char *}.
  2297. @item s.length()
  2298. @cindex @code{length ()}
  2299. @itemx strlen(s)
  2300. @cindex @code{strlen ()}
  2301. Returns the length of the string @code{s}.
  2302. @item s[i]
  2303. @cindex @code{operator [] ()}
  2304. Returns the @code{i}th character of the string @code{s}.
  2305. @code{i} must be in the range @code{0 <= i < s.length()}.
  2306. @item bool equal (const cl_string& s1, const cl_string& s2)
  2307. @cindex @code{equal ()}
  2308. Compares two strings for equality. One of the arguments may also be a
  2309. plain @code{const char *}.
  2310. @end table
  2311. @section Symbols
  2312. @cindex symbol
  2313. @cindex @code{cl_symbol}
  2314. Symbols are uniquified strings: all symbols with the same name are shared.
  2315. This means that comparison of two symbols is fast (effectively just a pointer
  2316. comparison), whereas comparison of two strings must in the worst case walk
  2317. both strings until their end.
  2318. Symbols are used, for example, as tags for properties, as names of variables
  2319. in polynomial rings, etc.
  2320. Symbols are constructed through the following constructor:
  2321. @table @code
  2322. @item cl_symbol (const cl_string& s)
  2323. Looks up or creates a new symbol with a given name.
  2324. @end table
  2325. The following operations are available on symbols:
  2326. @table @code
  2327. @item cl_string (const cl_symbol& sym)
  2328. Conversion to @code{cl_string}: Returns the string which names the symbol
  2329. @code{sym}.
  2330. @item bool equal (const cl_symbol& sym1, const cl_symbol& sym2)
  2331. @cindex @code{equal ()}
  2332. Compares two symbols for equality. This is very fast.
  2333. @end table
  2334. @chapter Univariate polynomials
  2335. @cindex polynomial
  2336. @cindex univariate polynomial
  2337. @section Univariate polynomial rings
  2338. CLN implements univariate polynomials (polynomials in one variable) over an
  2339. arbitrary ring. The indeterminate variable may be either unnamed (and will be
  2340. printed according to @code{default_print_flags.univpoly_varname}, which
  2341. defaults to @samp{x}) or carry a given name. The base ring and the
  2342. indeterminate are explicitly part of every polynomial. CLN doesn't allow you to
  2343. (accidentally) mix elements of different polynomial rings, e.g.
  2344. @code{(a^2+1) * (b^3-1)} will result in a runtime error. (Ideally this should
  2345. return a multivariate polynomial, but they are not yet implemented in CLN.)
  2346. The classes of univariate polynomial rings are
  2347. @example
  2348. Ring
  2349. cl_ring
  2350. <cln/ring.h>
  2351. |
  2352. |
  2353. Univariate polynomial ring
  2354. cl_univpoly_ring
  2355. <cln/univpoly.h>
  2356. |
  2357. +----------------+-------------------+
  2358. | | |
  2359. Complex polynomial ring | Modular integer polynomial ring
  2360. cl_univpoly_complex_ring | cl_univpoly_modint_ring
  2361. <cln/univpoly_complex.h> | <cln/univpoly_modint.h>
  2362. |
  2363. +----------------+
  2364. | |
  2365. Real polynomial ring |
  2366. cl_univpoly_real_ring |
  2367. <cln/univpoly_real.h> |
  2368. |
  2369. +----------------+
  2370. | |
  2371. Rational polynomial ring |
  2372. cl_univpoly_rational_ring |
  2373. <cln/univpoly_rational.h> |
  2374. |
  2375. +----------------+
  2376. |
  2377. Integer polynomial ring
  2378. cl_univpoly_integer_ring
  2379. <cln/univpoly_integer.h>
  2380. @end example
  2381. and the corresponding classes of univariate polynomials are
  2382. @example
  2383. Univariate polynomial
  2384. cl_UP
  2385. <cln/univpoly.h>
  2386. |
  2387. +----------------+-------------------+
  2388. | | |
  2389. Complex polynomial | Modular integer polynomial
  2390. cl_UP_N | cl_UP_MI
  2391. <cln/univpoly_complex.h> | <cln/univpoly_modint.h>
  2392. |
  2393. +----------------+
  2394. | |
  2395. Real polynomial |
  2396. cl_UP_R |
  2397. <cln/univpoly_real.h> |
  2398. |
  2399. +----------------+
  2400. | |
  2401. Rational polynomial |
  2402. cl_UP_RA |
  2403. <cln/univpoly_rational.h> |
  2404. |
  2405. +----------------+
  2406. |
  2407. Integer polynomial
  2408. cl_UP_I
  2409. <cln/univpoly_integer.h>
  2410. @end example
  2411. Univariate polynomial rings are constructed using the functions
  2412. @table @code
  2413. @item cl_univpoly_ring find_univpoly_ring (const cl_ring& R)
  2414. @itemx cl_univpoly_ring find_univpoly_ring (const cl_ring& R, const cl_symbol& varname)
  2415. This function returns the polynomial ring @samp{R[X]}, unnamed or named.
  2416. @code{R} may be an arbitrary ring. This function takes care of finding out
  2417. about special cases of @code{R}, such as the rings of complex numbers,
  2418. real numbers, rational numbers, integers, or modular integer rings.
  2419. There is a cache table of rings, indexed by @code{R} and @code{varname}.
  2420. This ensures that two calls of this function with the same arguments will
  2421. return the same polynomial ring.
  2422. @itemx cl_univpoly_complex_ring find_univpoly_ring (const cl_complex_ring& R)
  2423. @cindex @code{find_univpoly_ring ()}
  2424. @itemx cl_univpoly_complex_ring find_univpoly_ring (const cl_complex_ring& R, const cl_symbol& varname)
  2425. @itemx cl_univpoly_real_ring find_univpoly_ring (const cl_real_ring& R)
  2426. @itemx cl_univpoly_real_ring find_univpoly_ring (const cl_real_ring& R, const cl_symbol& varname)
  2427. @itemx cl_univpoly_rational_ring find_univpoly_ring (const cl_rational_ring& R)
  2428. @itemx cl_univpoly_rational_ring find_univpoly_ring (const cl_rational_ring& R, const cl_symbol& varname)
  2429. @itemx cl_univpoly_integer_ring find_univpoly_ring (const cl_integer_ring& R)
  2430. @itemx cl_univpoly_integer_ring find_univpoly_ring (const cl_integer_ring& R, const cl_symbol& varname)
  2431. @itemx cl_univpoly_modint_ring find_univpoly_ring (const cl_modint_ring& R)
  2432. @itemx cl_univpoly_modint_ring find_univpoly_ring (const cl_modint_ring& R, const cl_symbol& varname)
  2433. These functions are equivalent to the general @code{find_univpoly_ring},
  2434. only the return type is more specific, according to the base ring's type.
  2435. @end table
  2436. @section Functions on univariate polynomials
  2437. Given a univariate polynomial ring @code{R}, the following members can be used.
  2438. @table @code
  2439. @item cl_ring R->basering()
  2440. @cindex @code{basering ()}
  2441. This returns the base ring, as passed to @samp{find_univpoly_ring}.
  2442. @item cl_UP R->zero()
  2443. @cindex @code{zero ()}
  2444. This returns @code{0 in R}, a polynomial of degree -1.
  2445. @item cl_UP R->one()
  2446. @cindex @code{one ()}
  2447. This returns @code{1 in R}, a polynomial of degree == 0.
  2448. @item cl_UP R->canonhom (const cl_I& x)
  2449. @cindex @code{canonhom ()}
  2450. This returns @code{x in R}, a polynomial of degree <= 0.
  2451. @item cl_UP R->monomial (const cl_ring_element& x, uintL e)
  2452. @cindex @code{monomial ()}
  2453. This returns a sparse polynomial: @code{x * X^e}, where @code{X} is the
  2454. indeterminate.
  2455. @item cl_UP R->create (sintL degree)
  2456. @cindex @code{create ()}
  2457. Creates a new polynomial with a given degree. The zero polynomial has degree
  2458. @code{-1}. After creating the polynomial, you should put in the coefficients,
  2459. using the @code{set_coeff} member function, and then call the @code{finalize}
  2460. member function.
  2461. @end table
  2462. The following are the only destructive operations on univariate polynomials.
  2463. @table @code
  2464. @item void set_coeff (cl_UP& x, uintL index, const cl_ring_element& y)
  2465. @cindex @code{set_coeff ()}
  2466. This changes the coefficient of @code{X^index} in @code{x} to be @code{y}.
  2467. After changing a polynomial and before applying any "normal" operation on it,
  2468. you should call its @code{finalize} member function.
  2469. @item void finalize (cl_UP& x)
  2470. @cindex @code{finalize ()}
  2471. This function marks the endpoint of destructive modifications of a polynomial.
  2472. It normalizes the internal representation so that subsequent computations have
  2473. less overhead. Doing normal computations on unnormalized polynomials may
  2474. produce wrong results or crash the program.
  2475. @end table
  2476. The following operations are defined on univariate polynomials.
  2477. @table @code
  2478. @item cl_univpoly_ring x.ring ()
  2479. @cindex @code{ring ()}
  2480. Returns the ring to which the univariate polynomial @code{x} belongs.
  2481. @item cl_UP operator+ (const cl_UP&, const cl_UP&)
  2482. @cindex @code{operator + ()}
  2483. Returns the sum of two univariate polynomials.
  2484. @item cl_UP operator- (const cl_UP&, const cl_UP&)
  2485. @cindex @code{operator - ()}
  2486. Returns the difference of two univariate polynomials.
  2487. @item cl_UP operator- (const cl_UP&)
  2488. Returns the negative of a univariate polynomial.
  2489. @item cl_UP operator* (const cl_UP&, const cl_UP&)
  2490. @cindex @code{operator * ()}
  2491. Returns the product of two univariate polynomials. One of the arguments may
  2492. also be a plain integer or an element of the base ring.
  2493. @item cl_UP square (const cl_UP&)
  2494. @cindex @code{square ()}
  2495. Returns the square of a univariate polynomial.
  2496. @item cl_UP expt_pos (const cl_UP& x, const cl_I& y)
  2497. @cindex @code{expt_pos ()}
  2498. @code{y} must be > 0. Returns @code{x^y}.
  2499. @item bool operator== (const cl_UP&, const cl_UP&)
  2500. @cindex @code{operator == ()}
  2501. @itemx bool operator!= (const cl_UP&, const cl_UP&)
  2502. @cindex @code{operator != ()}
  2503. Compares two univariate polynomials, belonging to the same univariate
  2504. polynomial ring, for equality.
  2505. @item bool zerop (const cl_UP& x)
  2506. @cindex @code{zerop ()}
  2507. Returns true if @code{x} is @code{0 in R}.
  2508. @item sintL degree (const cl_UP& x)
  2509. @cindex @code{degree ()}
  2510. Returns the degree of the polynomial. The zero polynomial has degree @code{-1}.
  2511. @item sintL ldegree (const cl_UP& x)
  2512. @cindex @code{degree ()}
  2513. Returns the low degree of the polynomial. This is the degree of the first
  2514. non-vanishing polynomial coefficient. The zero polynomial has ldegree @code{-1}.
  2515. @item cl_ring_element coeff (const cl_UP& x, uintL index)
  2516. @cindex @code{coeff ()}
  2517. Returns the coefficient of @code{X^index} in the polynomial @code{x}.
  2518. @item cl_ring_element x (const cl_ring_element& y)
  2519. @cindex @code{operator () ()}
  2520. Evaluation: If @code{x} is a polynomial and @code{y} belongs to the base ring,
  2521. then @samp{x(y)} returns the value of the substitution of @code{y} into
  2522. @code{x}.
  2523. @item cl_UP deriv (const cl_UP& x)
  2524. @cindex @code{deriv ()}
  2525. Returns the derivative of the polynomial @code{x} with respect to the
  2526. indeterminate @code{X}.
  2527. @end table
  2528. The following output functions are defined (see also the chapter on
  2529. input/output).
  2530. @table @code
  2531. @item void fprint (std::ostream& stream, const cl_UP& x)
  2532. @cindex @code{fprint ()}
  2533. @itemx std::ostream& operator<< (std::ostream& stream, const cl_UP& x)
  2534. @cindex @code{operator << ()}
  2535. Prints the univariate polynomial @code{x} on the @code{stream}. The output may
  2536. depend on the global printer settings in the variable
  2537. @code{default_print_flags}.
  2538. @end table
  2539. @section Special polynomials
  2540. The following functions return special polynomials.
  2541. @table @code
  2542. @item cl_UP_I tschebychev (sintL n)
  2543. @cindex @code{tschebychev ()}
  2544. @cindex Chebyshev polynomial
  2545. Returns the n-th Chebyshev polynomial (n >= 0).
  2546. @item cl_UP_I hermite (sintL n)
  2547. @cindex @code{hermite ()}
  2548. @cindex Hermite polynomial
  2549. Returns the n-th Hermite polynomial (n >= 0).
  2550. @item cl_UP_RA legendre (sintL n)
  2551. @cindex @code{legendre ()}
  2552. @cindex Legende polynomial
  2553. Returns the n-th Legendre polynomial (n >= 0).
  2554. @item cl_UP_I laguerre (sintL n)
  2555. @cindex @code{laguerre ()}
  2556. @cindex Laguerre polynomial
  2557. Returns the n-th Laguerre polynomial (n >= 0).
  2558. @end table
  2559. Information how to derive the differential equation satisfied by each
  2560. of these polynomials from their definition can be found in the
  2561. @code{doc/polynomial/} directory.
  2562. @chapter Internals
  2563. @section Why C++ ?
  2564. @cindex advocacy
  2565. Using C++ as an implementation language provides
  2566. @itemize @bullet
  2567. @item
  2568. Efficiency: It compiles to machine code.
  2569. @item
  2570. @cindex portability
  2571. Portability: It runs on all platforms supporting a C++ compiler. Because
  2572. of the availability of GNU C++, this includes all currently used 32-bit and
  2573. 64-bit platforms, independently of the quality of the vendor's C++ compiler.
  2574. @item
  2575. Type safety: The C++ compilers knows about the number types and complains if,
  2576. for example, you try to assign a float to an integer variable. However,
  2577. a drawback is that C++ doesn't know about generic types, hence a restriction
  2578. like that @code{operator+ (const cl_MI&, const cl_MI&)} requires that both
  2579. arguments belong to the same modular ring cannot be expressed as a compile-time
  2580. information.
  2581. @item
  2582. Algebraic syntax: The elementary operations @code{+}, @code{-}, @code{*},
  2583. @code{=}, @code{==}, ... can be used in infix notation, which is more
  2584. convenient than Lisp notation @samp{(+ x y)} or C notation @samp{add(x,y,&z)}.
  2585. @end itemize
  2586. With these language features, there is no need for two separate languages,
  2587. one for the implementation of the library and one in which the library's users
  2588. can program. This means that a prototype implementation of an algorithm
  2589. can be integrated into the library immediately after it has been tested and
  2590. debugged. No need to rewrite it in a low-level language after having prototyped
  2591. in a high-level language.
  2592. @section Memory efficiency
  2593. In order to save memory allocations, CLN implements:
  2594. @itemize @bullet
  2595. @item
  2596. Object sharing: An operation like @code{x+0} returns @code{x} without copying
  2597. it.
  2598. @item
  2599. @cindex garbage collection
  2600. @cindex reference counting
  2601. Garbage collection: A reference counting mechanism makes sure that any
  2602. number object's storage is freed immediately when the last reference to the
  2603. object is gone.
  2604. @item
  2605. @cindex immediate numbers
  2606. Small integers are represented as immediate values instead of pointers
  2607. to heap allocated storage. This means that integers @code{>= -2^29},
  2608. @code{< 2^29} don't consume heap memory, unless they were explicitly allocated
  2609. on the heap.
  2610. @end itemize
  2611. @section Speed efficiency
  2612. Speed efficiency is obtained by the combination of the following tricks
  2613. and algorithms:
  2614. @itemize @bullet
  2615. @item
  2616. Small integers, being represented as immediate values, don't require
  2617. memory access, just a couple of instructions for each elementary operation.
  2618. @item
  2619. The kernel of CLN has been written in assembly language for some CPUs
  2620. (@code{i386}, @code{m68k}, @code{sparc}, @code{mips}, @code{arm}).
  2621. @item
  2622. On all CPUs, CLN may be configured to use the superefficient low-level
  2623. routines from GNU GMP version 3.
  2624. @item
  2625. For large numbers, CLN uses, instead of the standard @code{O(N^2)}
  2626. algorithm, the Karatsuba multiplication, which is an
  2627. @iftex
  2628. @tex
  2629. $O(N^{1.6})$
  2630. @end tex
  2631. @end iftex
  2632. @ifinfo
  2633. @code{O(N^1.6)}
  2634. @end ifinfo
  2635. algorithm.
  2636. @item
  2637. For very large numbers (more than 12000 decimal digits), CLN uses
  2638. @iftex
  2639. Sch{@"o}nhage-Strassen
  2640. @cindex Sch{@"o}nhage-Strassen multiplication
  2641. @end iftex
  2642. @ifinfo
  2643. Schnhage-Strassen
  2644. @cindex Schnhage-Strassen multiplication
  2645. @end ifinfo
  2646. multiplication, which is an asymptotically optimal multiplication
  2647. algorithm.
  2648. @item
  2649. These fast multiplication algorithms also give improvements in the speed
  2650. of division and radix conversion.
  2651. @end itemize
  2652. @section Garbage collection
  2653. @cindex garbage collection
  2654. All the number classes are reference count classes: They only contain a pointer
  2655. to an object in the heap. Upon construction, assignment and destruction of
  2656. number objects, only the objects' reference count are manipulated.
  2657. Memory occupied by number objects are automatically reclaimed as soon as
  2658. their reference count drops to zero.
  2659. For number rings, another strategy is implemented: There is a cache of,
  2660. for example, the modular integer rings. A modular integer ring is destroyed
  2661. only if its reference count dropped to zero and the cache is about to be
  2662. resized. The effect of this strategy is that recently used rings remain
  2663. cached, whereas undue memory consumption through cached rings is avoided.
  2664. @chapter Using the library
  2665. For the following discussion, we will assume that you have installed
  2666. the CLN source in @code{$CLN_DIR} and built it in @code{$CLN_TARGETDIR}.
  2667. For example, for me it's @code{CLN_DIR="$HOME/cln"} and
  2668. @code{CLN_TARGETDIR="$HOME/cln/linuxelf"}. You might define these as
  2669. environment variables, or directly substitute the appropriate values.
  2670. @section Compiler options
  2671. @cindex compiler options
  2672. Until you have installed CLN in a public place, the following options are
  2673. needed:
  2674. When you compile CLN application code, add the flags
  2675. @example
  2676. -I$CLN_DIR/include -I$CLN_TARGETDIR/include
  2677. @end example
  2678. to the C++ compiler's command line (@code{make} variable CFLAGS or CXXFLAGS).
  2679. When you link CLN application code to form an executable, add the flags
  2680. @example
  2681. $CLN_TARGETDIR/src/libcln.a
  2682. @end example
  2683. to the C/C++ compiler's command line (@code{make} variable LIBS).
  2684. If you did a @code{make install}, the include files are installed in a
  2685. public directory (normally @code{/usr/local/include}), hence you don't
  2686. need special flags for compiling. The library has been installed to a
  2687. public directory as well (normally @code{/usr/local/lib}), hence when
  2688. linking a CLN application it is sufficient to give the flag @code{-lcln}.
  2689. @cindex @code{pkg-config}
  2690. To make the creation of software packages that use CLN easier, the
  2691. @code{pkg-config} utility can be used. CLN provides all the necessary
  2692. metainformation in a file called @code{cln.pc} (installed in
  2693. @code{/usr/local/lib/pkgconfig} by default). A program using CLN can
  2694. be compiled and linked using @footnote{If you installed CLN to
  2695. non-standard location @var{prefix}, you need to set the
  2696. @env{PKG_CONFIG_PATH} environment variable to @var{prefix}/lib/pkgconfig
  2697. for this to work.}
  2698. @example
  2699. g++ `pkg-config --libs cln` `pkg-config --cflags cln` prog.cc -o prog
  2700. @end example
  2701. Software using GNU autoconf can check for CLN with the
  2702. @code{PKG_CHECK_MODULES} macro supplied with @code{pkg-config}.
  2703. @example
  2704. PKG_CHECK_MODULES([CLN], [cln >= @var{MIN-VERSION}])
  2705. @end example
  2706. This will check for CLN version at least @var{MIN-VERSION}. If the
  2707. required version was found, the variables @var{CLN_CFLAGS} and
  2708. @var{CLN_LIBS} are set. Otherwise the configure script aborts. If this
  2709. is not the desired behaviour, use the following code instead
  2710. @footnote{See the @code{pkg-config} documentation for more details.}
  2711. @example
  2712. PKG_CHECK_MODULES([CLN], [cln >= @var{MIN-VERSION}], [],
  2713. [AC_MSG_WARNING([No suitable version of CLN can be found])])
  2714. @end example
  2715. @section Include files
  2716. @cindex include files
  2717. @cindex header files
  2718. Here is a summary of the include files and their contents.
  2719. @table @code
  2720. @item <cln/object.h>
  2721. General definitions, reference counting, garbage collection.
  2722. @item <cln/number.h>
  2723. The class cl_number.
  2724. @item <cln/complex.h>
  2725. Functions for class cl_N, the complex numbers.
  2726. @item <cln/real.h>
  2727. Functions for class cl_R, the real numbers.
  2728. @item <cln/float.h>
  2729. Functions for class cl_F, the floats.
  2730. @item <cln/sfloat.h>
  2731. Functions for class cl_SF, the short-floats.
  2732. @item <cln/ffloat.h>
  2733. Functions for class cl_FF, the single-floats.
  2734. @item <cln/dfloat.h>
  2735. Functions for class cl_DF, the double-floats.
  2736. @item <cln/lfloat.h>
  2737. Functions for class cl_LF, the long-floats.
  2738. @item <cln/rational.h>
  2739. Functions for class cl_RA, the rational numbers.
  2740. @item <cln/integer.h>
  2741. Functions for class cl_I, the integers.
  2742. @item <cln/io.h>
  2743. Input/Output.
  2744. @item <cln/complex_io.h>
  2745. Input/Output for class cl_N, the complex numbers.
  2746. @item <cln/real_io.h>
  2747. Input/Output for class cl_R, the real numbers.
  2748. @item <cln/float_io.h>
  2749. Input/Output for class cl_F, the floats.
  2750. @item <cln/sfloat_io.h>
  2751. Input/Output for class cl_SF, the short-floats.
  2752. @item <cln/ffloat_io.h>
  2753. Input/Output for class cl_FF, the single-floats.
  2754. @item <cln/dfloat_io.h>
  2755. Input/Output for class cl_DF, the double-floats.
  2756. @item <cln/lfloat_io.h>
  2757. Input/Output for class cl_LF, the long-floats.
  2758. @item <cln/rational_io.h>
  2759. Input/Output for class cl_RA, the rational numbers.
  2760. @item <cln/integer_io.h>
  2761. Input/Output for class cl_I, the integers.
  2762. @item <cln/input.h>
  2763. Flags for customizing input operations.
  2764. @item <cln/output.h>
  2765. Flags for customizing output operations.
  2766. @item <cln/malloc.h>
  2767. @code{malloc_hook}, @code{free_hook}.
  2768. @item <cln/exception.h>
  2769. Exception base class.
  2770. @item <cln/condition.h>
  2771. Conditions.
  2772. @item <cln/string.h>
  2773. Strings.
  2774. @item <cln/symbol.h>
  2775. Symbols.
  2776. @item <cln/proplist.h>
  2777. Property lists.
  2778. @item <cln/ring.h>
  2779. General rings.
  2780. @item <cln/null_ring.h>
  2781. The null ring.
  2782. @item <cln/complex_ring.h>
  2783. The ring of complex numbers.
  2784. @item <cln/real_ring.h>
  2785. The ring of real numbers.
  2786. @item <cln/rational_ring.h>
  2787. The ring of rational numbers.
  2788. @item <cln/integer_ring.h>
  2789. The ring of integers.
  2790. @item <cln/numtheory.h>
  2791. Number threory functions.
  2792. @item <cln/modinteger.h>
  2793. Modular integers.
  2794. @item <cln/V.h>
  2795. Vectors.
  2796. @item <cln/GV.h>
  2797. General vectors.
  2798. @item <cln/GV_number.h>
  2799. General vectors over cl_number.
  2800. @item <cln/GV_complex.h>
  2801. General vectors over cl_N.
  2802. @item <cln/GV_real.h>
  2803. General vectors over cl_R.
  2804. @item <cln/GV_rational.h>
  2805. General vectors over cl_RA.
  2806. @item <cln/GV_integer.h>
  2807. General vectors over cl_I.
  2808. @item <cln/GV_modinteger.h>
  2809. General vectors of modular integers.
  2810. @item <cln/SV.h>
  2811. Simple vectors.
  2812. @item <cln/SV_number.h>
  2813. Simple vectors over cl_number.
  2814. @item <cln/SV_complex.h>
  2815. Simple vectors over cl_N.
  2816. @item <cln/SV_real.h>
  2817. Simple vectors over cl_R.
  2818. @item <cln/SV_rational.h>
  2819. Simple vectors over cl_RA.
  2820. @item <cln/SV_integer.h>
  2821. Simple vectors over cl_I.
  2822. @item <cln/SV_ringelt.h>
  2823. Simple vectors of general ring elements.
  2824. @item <cln/univpoly.h>
  2825. Univariate polynomials.
  2826. @item <cln/univpoly_integer.h>
  2827. Univariate polynomials over the integers.
  2828. @item <cln/univpoly_rational.h>
  2829. Univariate polynomials over the rational numbers.
  2830. @item <cln/univpoly_real.h>
  2831. Univariate polynomials over the real numbers.
  2832. @item <cln/univpoly_complex.h>
  2833. Univariate polynomials over the complex numbers.
  2834. @item <cln/univpoly_modint.h>
  2835. Univariate polynomials over modular integer rings.
  2836. @item <cln/timing.h>
  2837. Timing facilities.
  2838. @item <cln/cln.h>
  2839. Includes all of the above.
  2840. @end table
  2841. @section An Example
  2842. A function which computes the nth Fibonacci number can be written as follows.
  2843. @cindex Fibonacci number
  2844. @example
  2845. #include <cln/integer.h>
  2846. #include <cln/real.h>
  2847. using namespace cln;
  2848. // Returns F_n, computed as the nearest integer to
  2849. // ((1+sqrt(5))/2)^n/sqrt(5). Assume n>=0.
  2850. const cl_I fibonacci (int n)
  2851. @{
  2852. // Need a precision of ((1+sqrt(5))/2)^-n.
  2853. float_format_t prec = float_format((int)(0.208987641*n+5));
  2854. cl_R sqrt5 = sqrt(cl_float(5,prec));
  2855. cl_R phi = (1+sqrt5)/2;
  2856. return round1( expt(phi,n)/sqrt5 );
  2857. @}
  2858. @end example
  2859. Let's explain what is going on in detail.
  2860. The include file @code{<cln/integer.h>} is necessary because the type
  2861. @code{cl_I} is used in the function, and the include file @code{<cln/real.h>}
  2862. is needed for the type @code{cl_R} and the floating point number functions.
  2863. The order of the include files does not matter. In order not to write
  2864. out @code{cln::}@var{foo} in this simple example we can safely import
  2865. the whole namespace @code{cln}.
  2866. Then comes the function declaration. The argument is an @code{int}, the
  2867. result an integer. The return type is defined as @samp{const cl_I}, not
  2868. simply @samp{cl_I}, because that allows the compiler to detect typos like
  2869. @samp{fibonacci(n) = 100}. It would be possible to declare the return
  2870. type as @code{const cl_R} (real number) or even @code{const cl_N} (complex
  2871. number). We use the most specialized possible return type because functions
  2872. which call @samp{fibonacci} will be able to profit from the compiler's type
  2873. analysis: Adding two integers is slightly more efficient than adding the
  2874. same objects declared as complex numbers, because it needs less type
  2875. dispatch. Also, when linking to CLN as a non-shared library, this minimizes
  2876. the size of the resulting executable program.
  2877. The result will be computed as expt(phi,n)/sqrt(5), rounded to the nearest
  2878. integer. In order to get a correct result, the absolute error should be less
  2879. than 1/2, i.e. the relative error should be less than sqrt(5)/(2*expt(phi,n)).
  2880. To this end, the first line computes a floating point precision for sqrt(5)
  2881. and phi.
  2882. Then sqrt(5) is computed by first converting the integer 5 to a floating point
  2883. number and than taking the square root. The converse, first taking the square
  2884. root of 5, and then converting to the desired precision, would not work in
  2885. CLN: The square root would be computed to a default precision (normally
  2886. single-float precision), and the following conversion could not help about
  2887. the lacking accuracy. This is because CLN is not a symbolic computer algebra
  2888. system and does not represent sqrt(5) in a non-numeric way.
  2889. The type @code{cl_R} for sqrt5 and, in the following line, phi is the only
  2890. possible choice. You cannot write @code{cl_F} because the C++ compiler can
  2891. only infer that @code{cl_float(5,prec)} is a real number. You cannot write
  2892. @code{cl_N} because a @samp{round1} does not exist for general complex
  2893. numbers.
  2894. When the function returns, all the local variables in the function are
  2895. automatically reclaimed (garbage collected). Only the result survives and
  2896. gets passed to the caller.
  2897. The file @code{fibonacci.cc} in the subdirectory @code{examples}
  2898. contains this implementation together with an even faster algorithm.
  2899. @section Debugging support
  2900. @cindex debugging
  2901. When debugging a CLN application with GNU @code{gdb}, two facilities are
  2902. available from the library:
  2903. @itemize @bullet
  2904. @item The library does type checks, range checks, consistency checks at
  2905. many places. When one of these fails, an exception of a type derived from
  2906. @code{runtime_exception} is thrown. When an exception is cought, the stack
  2907. has already been unwound, so it is may not be possible to tell at which
  2908. point the exception was thrown. For debugging, it is best to set up a
  2909. catchpoint at the event of throwning a C++ exception:
  2910. @example
  2911. (gdb) catch throw
  2912. @end example
  2913. When this catchpoint is hit, look at the stack's backtrace:
  2914. @example
  2915. (gdb) where
  2916. @end example
  2917. When control over the type of exception is required, it may be possible
  2918. to set a breakpoint at the @code{g++} runtime library function
  2919. @code{__raise_exception}. Refer to the documentation of GNU @code{gdb}
  2920. for details.
  2921. @item The debugger's normal @code{print} command doesn't know about
  2922. CLN's types and therefore prints mostly useless hexadecimal addresses.
  2923. CLN offers a function @code{cl_print}, callable from the debugger,
  2924. for printing number objects. In order to get this function, you have
  2925. to define the macro @samp{CL_DEBUG} and then include all the header files
  2926. for which you want @code{cl_print} debugging support. For example:
  2927. @cindex @code{CL_DEBUG}
  2928. @example
  2929. #define CL_DEBUG
  2930. #include <cln/string.h>
  2931. @end example
  2932. Now, if you have in your program a variable @code{cl_string s}, and
  2933. inspect it under @code{gdb}, the output may look like this:
  2934. @example
  2935. (gdb) print s
  2936. $7 = @{<cl_gcpointer> = @{ = @{pointer = 0x8055b60, heappointer = 0x8055b60,
  2937. word = 134568800@}@}, @}
  2938. (gdb) call cl_print(s)
  2939. (cl_string) ""
  2940. $8 = 134568800
  2941. @end example
  2942. Note that the output of @code{cl_print} goes to the program's error output,
  2943. not to gdb's standard output.
  2944. Note, however, that the above facility does not work with all CLN types,
  2945. only with number objects and similar. Therefore CLN offers a member function
  2946. @code{debug_print()} on all CLN types. The same macro @samp{CL_DEBUG}
  2947. is needed for this member function to be implemented. Under @code{gdb},
  2948. you call it like this:
  2949. @cindex @code{debug_print ()}
  2950. @example
  2951. (gdb) print s
  2952. $7 = @{<cl_gcpointer> = @{ = @{pointer = 0x8055b60, heappointer = 0x8055b60,
  2953. word = 134568800@}@}, @}
  2954. (gdb) call s.debug_print()
  2955. (cl_string) ""
  2956. (gdb) define cprint
  2957. >call ($1).debug_print()
  2958. >end
  2959. (gdb) cprint s
  2960. (cl_string) ""
  2961. @end example
  2962. Unfortunately, this feature does not seem to work under all circumstances.
  2963. @end itemize
  2964. @chapter Customizing
  2965. @cindex customizing
  2966. @section Error handling
  2967. @cindex Exception
  2968. @cindex Error handling
  2969. @cindex @code{runtime_exception}
  2970. CLN signals abnormal situations by throwning exceptions. All exceptions
  2971. thrown by the library are of type @code{runtime_exception} or of a
  2972. derived type. Class @code{cln::runtime_exception} in turn is derived
  2973. from the C++ standard library class @code{std::runtime_error} and
  2974. inherits the @code{.what()} member function that can be used to query
  2975. details about the cause of error.
  2976. The most important classes thrown by the library are
  2977. @cindex @code{floating_point_exception}
  2978. @cindex @code{read_number_exception}
  2979. @example
  2980. Exception base class
  2981. runtime_exception
  2982. <cln/exception.h>
  2983. |
  2984. +----------------+----------------+
  2985. | |
  2986. Malformed number input Floating-point error
  2987. read_number_exception floating_poing_exception
  2988. <cln/number_io.h> <cln/float.h>
  2989. @end example
  2990. CLN has many more exception classes that allow for more fine-grained
  2991. control but I refrain from documenting them all here. They are all
  2992. declared in the public header files and they are all subclasses of the
  2993. above exceptions, so catching those you are always on the safe side.
  2994. @section Floating-point underflow
  2995. @cindex underflow
  2996. @cindex @code{floating_point_underflow_exception}
  2997. Floating point underflow denotes the situation when a floating-point
  2998. number is to be created which is so close to @code{0} that its exponent
  2999. is too low to be represented internally. By default, this causes the
  3000. exception @code{floating_point_underflow_exception} (subclass of
  3001. @code{floating_point_exception}) to be thrown. If you set the global
  3002. variable
  3003. @example
  3004. bool cl_inhibit_floating_point_underflow
  3005. @end example
  3006. to @code{true}, the exception will be inhibited, and a floating-point
  3007. zero will be generated instead. The default value of
  3008. @code{cl_inhibit_floating_point_underflow} is @code{false}.
  3009. @section Customizing I/O
  3010. The output of the function @code{fprint} may be customized by changing the
  3011. value of the global variable @code{default_print_flags}.
  3012. @cindex @code{default_print_flags}
  3013. @section Customizing the memory allocator
  3014. Every memory allocation of CLN is done through the function pointer
  3015. @code{malloc_hook}. Freeing of this memory is done through the function
  3016. pointer @code{free_hook}. The default versions of these functions,
  3017. provided in the library, call @code{malloc} and @code{free} and check
  3018. the @code{malloc} result against @code{NULL}.
  3019. If you want to provide another memory allocator, you need to define
  3020. the variables @code{malloc_hook} and @code{free_hook} yourself,
  3021. like this:
  3022. @example
  3023. #include <cln/malloc.h>
  3024. namespace cln @{
  3025. void* (*malloc_hook) (size_t size) = @dots{};
  3026. void (*free_hook) (void* ptr) = @dots{};
  3027. @}
  3028. @end example
  3029. @cindex @code{malloc_hook ()}
  3030. @cindex @code{free_hook ()}
  3031. The @code{cl_malloc_hook} function must not return a @code{NULL} pointer.
  3032. It is not possible to change the memory allocator at runtime, because
  3033. it is already called at program startup by the constructors of some
  3034. global variables.
  3035. @c Indices
  3036. @unnumbered Index
  3037. @printindex my
  3038. @bye