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#include "test_MI.h"
int test_MI_expt (int iterations) { int error = 0; int i; // Check special cases 0, 1, 2.
for (i = iterations; i > 0; i--) { cl_I m = testrandom_I(); cl_modint_ring R = cl_find_modint_ring(m); cl_MI a = R->canonhom(testrandom_I()); ASSERT2(expt(a,0) == R->one(), m,a); ASSERT2(expt(a,1) == a, m,a); ASSERT2(expt(a,2) == a*a, m,a); } // Check special cases -1, -2.
for (i = iterations; i > 0; i--) { cl_I m = testrandom_I(); cl_modint_ring R = cl_find_modint_ring(m); cl_I ai = testrandom_I(); if (gcd(m,ai)==1) { cl_MI a = R->canonhom(ai); cl_MI ar = R->recip(a); ASSERT2(expt(a,-1) == ar, m,a); ASSERT2(expt(a,-2) == ar*ar, m,a); } } // Check homomorphism (fixed exponent).
for (i = iterations; i > 0; i--) { cl_I m = testrandom_I(); if (!zerop(m)) { // avoid generating huge numbers
cl_modint_ring R = cl_find_modint_ring(m); cl_MI a = R->canonhom(testrandom_I()); cl_MI b = R->canonhom(testrandom_I()); cl_I e = abs(testrandom_I()); ASSERT4(expt(a,e)*expt(b,e) == expt(a*b,e), m,a,b,e); } } // Check distributive formulas (fixed base).
for (i = iterations; i > 0; i--) { cl_I m = testrandom_I(); if (!zerop(m)) { // avoid generating huge numbers
cl_modint_ring R = cl_find_modint_ring(m); cl_MI a = R->canonhom(testrandom_I()); cl_I e = abs(testrandom_I()); cl_I f = abs(testrandom_I()); ASSERT4(expt(a,e)*expt(a,f) == expt(a,e+f), m,a,e,f); ASSERT4(expt(expt(a,e),f) == expt(a,e*f), m,a,e,f); } } return error; }
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