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// General vectors.
#ifndef _CL_GV_H
#define _CL_GV_H
#include "cln/object.h"
#include "cln/V.h"
#include "cln/abort.h"
#include <stdlib.h>
namespace cln {
// A vector is a structure having the following interface:
// v.length() returns the number of elements
// v[i] returns the i-th element (0<=i<length), as a
// pseudo-lvalue (you can assign to it, but not take its
// address - exactly what you want for bit-vectors)
// This is implemented by letting v[i] be of a special "vector index" type.
template <class T> class cl_GV_inner; template <class T> class cl_GV_index; template <class T> class cl_GV_constindex; template <class T> struct cl_GV_vectorops;
template <class T> class cl_GV_inner { protected: uintL len; // number of elements
public: uintL length () const; // number of elements
cl_GV_vectorops<T>* vectorops; // get/set element
const cl_GV_index<T> operator[] (unsigned long index); const cl_GV_constindex<T> operator[] (unsigned long index) const; const cl_GV_index<T> operator[] (long index); const cl_GV_constindex<T> operator[] (long index) const; const cl_GV_index<T> operator[] (unsigned int index); const cl_GV_constindex<T> operator[] (unsigned int index) const; const cl_GV_index<T> operator[] (int index); const cl_GV_constindex<T> operator[] (int index) const; public: /* ugh */ // Constructor.
cl_GV_inner (uintL l, cl_GV_vectorops<T>* ops) : len (l), vectorops (ops) {} public: // Destructor.
~cl_GV_inner (); // Ability to place an object at a given address.
void* operator new (size_t size, void* ptr) { (void)size; return ptr; } private: // No default constructor, copy constructor, assignment operator, new.
cl_GV_inner (); cl_GV_inner (const cl_GV_inner&); cl_GV_inner& operator= (const cl_GV_inner&); void* operator new (size_t size) { (void)size; return (void*)1; } // SGI CC needs this definition
// Friend declarations. They are for the compiler. Just ignore them.
friend class cl_GV_index<T>; friend class cl_GV_constindex<T>; };
template <class T> class cl_GV_index { // This is the class of objects created by accessing a non-const vector
// through [].
public: cl_GV_inner<T>* vec; uintL index; operator T () const; // Constructor:
cl_GV_index (cl_GV_inner<T>* v, uintL i) : vec (v), index (i) {} // Assignment operator.
void operator= (const T& x) const; #if (defined(__sparc__) || defined(__sparc64__) || defined(__mips__) || defined(__mips64__)) && !defined(__GNUC__) // maybe an SGI CC and Sun CC bug?
void operator= (const cl_GV_index<T>&) const; void operator= (const cl_GV_constindex<T>&) const; #else
private: // No assignment operator.
cl_GV_index& operator= (const cl_GV_index&); #endif
private: // No default constructor.
cl_GV_index (); };
template <class T> class cl_GV_constindex { // This is the class of objects created by accessing a const vector
// through []. It lacks the assignment operator.
public: const cl_GV_inner<T>* vec; uintL index; operator T () const; // Constructor:
cl_GV_constindex (const cl_GV_inner<T>* v, uintL i) : vec (v), index (i) {} private: // No default constructor, assignment operator.
cl_GV_constindex (); cl_GV_constindex& operator= (const cl_GV_constindex&); };
template <class T> struct cl_GV_vectorops { const T (*element) (const cl_GV_inner<T>* vec, uintL index); void (*set_element) (cl_GV_inner<T>* vec, uintL index, const T& x); void (*do_delete) (cl_GV_inner<T>* vec); void (*copy_elements) (const cl_GV_inner<T>* srcvec, uintL srcindex, cl_GV_inner<T>* destvec, uintL destindex, uintL count); };
// All member functions are inline.
template <class T> inline uintL cl_GV_inner<T>::length () const { return len; }
template <class T> inline const cl_GV_index<T> cl_GV_inner<T>::operator[] (unsigned long index) { return cl_GV_index<T>(this,index); }
template <class T> inline const cl_GV_constindex<T> cl_GV_inner<T>::operator[] (unsigned long index) const { return cl_GV_constindex<T>(this,index); }
template <class T> inline const cl_GV_index<T> cl_GV_inner<T>::operator[] (long index) { return operator[]((unsigned long)index); }
template <class T> inline const cl_GV_constindex<T> cl_GV_inner<T>::operator[] (long index) const { return operator[]((unsigned long)index); }
template <class T> inline const cl_GV_index<T> cl_GV_inner<T>::operator[] (unsigned int index) { return operator[]((unsigned long)index); }
template <class T> inline const cl_GV_constindex<T> cl_GV_inner<T>::operator[] (unsigned int index) const { return operator[]((unsigned long)index); }
template <class T> inline const cl_GV_index<T> cl_GV_inner<T>::operator[] (int index) { return operator[]((unsigned long)index); }
template <class T> inline const cl_GV_constindex<T> cl_GV_inner<T>::operator[] (int index) const { return operator[]((unsigned long)index); }
template <class T> inline cl_GV_inner<T>::~cl_GV_inner () { vectorops->do_delete(this); }
template <class T> inline cl_GV_index<T>::operator T () const { #ifndef CL_GV_NO_RANGECHECKS
if (!(index < vec->len)) cl_abort(); #endif
return vec->vectorops->element(vec,index); }
template <class T> inline void cl_GV_index<T>::operator= (const T& x) const { #ifndef CL_GV_NO_RANGECHECKS
if (!(index < vec->len)) cl_abort(); #endif
vec->vectorops->set_element(vec,index,x); }
template <class T> inline cl_GV_constindex<T>::operator T () const { #ifndef CL_GV_NO_RANGECHECKS
if (!(index < vec->len)) cl_abort(); #endif
return vec->vectorops->element(vec,index); }
#if (defined(__sparc__) || defined(__mips__) || defined(__mips64__)) && !defined(__GNUC__) // maybe an SGI CC and Sun CC bug? handle "y[j] = x[i];"
template <class T> inline void cl_GV_index<T>::operator= (const cl_GV_index<T>& x) const { operator= ((T) x); } template <class T> inline void cl_GV_index<T>::operator= (const cl_GV_constindex<T>& x) const { operator= ((T) x); } #endif
// In memory, a vector looks like this:
template <class T> struct cl_heap_GV : cl_heap { cl_GV_inner<T> v; // here room for the elements
};
// And a reference to a vector always looks like this:
template <class T, class BASE> struct cl_GV : public BASE { public: // Length.
uintL length () const { return ((const cl_heap_GV<T> *) pointer)->v.length(); } // Reference. Forbid modification of `const cl_GV&' arguments.
const cl_GV_constindex<T> operator[] (unsigned long index) const { return ((const cl_heap_GV<T> *) pointer)->v[index]; } const cl_GV_index<T> operator[] (unsigned long index) { return ((cl_heap_GV<T> *) pointer)->v[index]; } const cl_GV_constindex<T> operator[] (long index) const { return operator[]((unsigned long)index); } const cl_GV_index<T> operator[] (long index) { return operator[]((unsigned long)index); } const cl_GV_constindex<T> operator[] (unsigned int index) const { return operator[]((unsigned long)index); } const cl_GV_index<T> operator[] (unsigned int index) { return operator[]((unsigned long)index); } const cl_GV_constindex<T> operator[] (int index) const { return operator[]((unsigned long)index); } const cl_GV_index<T> operator[] (int index) { return operator[]((unsigned long)index); } // Copy constructor.
cl_GV (const cl_GV&); // Assignment operator.
cl_GV& operator= (const cl_GV&); // Copy a piece of a vector into another vector.
// (Both vectors must be of the same type. Overlapping not allowed.)
static void copy_elements (const cl_GV& src, uintL srcindex, cl_GV& dest, uintL destindex, uintL count) { const cl_heap_GV<T> * hsrc = (const cl_heap_GV<T> *) src.pointer; cl_heap_GV<T> * hdest = (cl_heap_GV<T> *) dest.pointer; if (!(hsrc->v.vectorops == hdest->v.vectorops)) cl_abort(); hsrc->v.vectorops->copy_elements(&hsrc->v,srcindex,&hdest->v,destindex,count); } // Private pointer manipulations.
operator cl_heap_GV<T>* () const; cl_GV (cl_heap_GV<T>* p) : BASE ((cl_private_thing) p) {} cl_GV (cl_private_thing p) : BASE (p) {} protected: // Forbid use of default constructor.
cl_GV (); }; #define CL_GV(T,BASE) cl_GV<T,BASE>
// Define copy constructor.
template <class T, class BASE> _CL_DEFINE_COPY_CONSTRUCTOR2(CL_GV(T,BASE),cl_GV,BASE) // Define assignment operator.
template <class T, class BASE> CL_DEFINE_ASSIGNMENT_OPERATOR(CL_GV(T,BASE),CL_GV(T,BASE)) // Private pointer manipulations. Never throw away a `struct cl_heap_GV<T> *'!
template <class T, class BASE> inline CL_GV(T,BASE)::operator cl_heap_GV<T>* () const { cl_heap_GV<T>* hpointer = (cl_heap_GV<T>*)pointer; cl_inc_refcount(*this); return hpointer; } #undef CL_GV
// The "generic" general vector type.
typedef cl_heap_GV<cl_gcobject> cl_heap_GV_any; typedef cl_GV<cl_gcobject,cl_V_any> cl_GV_any;
// Hack section.
// Conversions to subtypes without checking:
#define The(type) *(const type *) & cl_identity
// This inline function is for type checking purposes only.
inline const cl_GV_any& cl_identity (const cl_GV_any& x) { return x; }
} // namespace cln
#endif /* _CL_GV_H */
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