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source: src/libcfa/stdlib.c @ bf76eab

ADTaaron-thesisarm-ehast-experimentalcleanup-dtorsdeferred_resndemanglerenumforall-pointer-decayjacob/cs343-translationjenkins-sandboxnew-astnew-ast-unique-exprnew-envno_listpersistent-indexerpthread-emulationqualifiedEnumresolv-newwith_gc

Last change on this file since bf76eab was bf76eab, checked in by Peter A. Buhr <pabuhr@…>, 7 years ago
add variadic delete to stdlib
Property mode set to `100644`
File size: 8.5 KB

Rev	Line
[bd85400]	1	//
	2	// Cforall Version 1.0.0 Copyright (C) 2016 University of Waterloo
	3	//
	4	// The contents of this file are covered under the licence agreement in the
	5	// file "LICENCE" distributed with Cforall.
	6	//
[43385ca]	7	// algorithm.c --
[bd85400]	8	//
	9	// Author : Peter A. Buhr
	10	// Created On : Thu Jan 28 17:10:29 2016
	11	// Last Modified By : Peter A. Buhr
[bf76eab]	12	// Last Modified On : Thu Feb 23 14:11:29 2017
	13	// Update Count : 170
[bd85400]	14	//
	15
	16	#include "stdlib"
	17
	18	//---------------------------------------
	19
	20	extern "C" {
	21	#define _XOPEN_SOURCE 600 // posix_memalign, *rand48
	22	#include <stdlib.h> // malloc, free, calloc, realloc, memalign, posix_memalign, bsearch
	23	#include <string.h> // memset
	24	#include <malloc.h> // malloc_usable_size
	25	#include <math.h> // fabsf, fabs, fabsl
[6e991d6]	26	#include <complex.h> // _Complex_I
[bd85400]	27	} // extern "C"
	28
[59239b8]	29	forall( dtype T \| sized(T) ) T * malloc( void ) {
[3849857]	30	//printf( "malloc1\n" );
[a9fc180]	31	return (T )(void)malloc( (size_t)sizeof(T) );
[bd85400]	32	} // malloc
[59239b8]	33	forall( dtype T \| sized(T) ) T * malloc( char fill ) {
[3849857]	34	//printf( "malloc3\n" );
[a9fc180]	35	T * ptr = (T )(void)malloc( (size_t)sizeof(T) );
[6b6597c]	36	return memset( ptr, (int)fill, sizeof(T) );
[bd85400]	37	} // malloc
	38
[59239b8]	39	forall( dtype T \| sized(T) ) T * calloc( size_t nmemb ) {
[3849857]	40	//printf( "calloc\n" );
[45161b4d]	41	return (T *)calloc( nmemb, sizeof(T) );
[bd85400]	42	} // calloc
	43
[59239b8]	44	forall( dtype T \| sized(T) ) T * realloc( T * ptr, size_t size ) {
[3849857]	45	//printf( "realloc1\n" );
[bd85400]	46	return (T )(void )realloc( (void *)ptr, size );
	47	} // realloc
[59239b8]	48	forall( dtype T \| sized(T) ) T * realloc( T * ptr, size_t size, unsigned char fill ) {
[3849857]	49	//printf( "realloc2\n" );
[bd85400]	50	char * nptr = (T )(void )realloc( (void *)ptr, size );
	51	size_t unused = malloc_usable_size( nptr );
	52	memset( nptr + size - unused, (int)fill, unused ); // initialize any new storage
	53	return nptr;
	54	} // realloc
	55
[59239b8]	56	forall( dtype T \| sized(T) ) T * malloc( T * ptr, size_t size ) {
[3849857]	57	//printf( "malloc4\n" );
[bd85400]	58	return (T *)realloc( ptr, size );
	59	} // malloc
[59239b8]	60	forall( dtype T \| sized(T) ) T * malloc( T * ptr, size_t size, unsigned char fill ) {
[3849857]	61	//printf( "malloc5\n" );
[bd85400]	62	return (T *)realloc( ptr, size, fill );
	63	} // malloc
	64
[59239b8]	65	forall( dtype T \| sized(T) ) T * aligned_alloc( size_t alignment ) {
[3849857]	66	//printf( "aligned_alloc\n" );
[bd85400]	67	return (T *)memalign( alignment, sizeof(T) );
	68	} // aligned_alloc
	69
[59239b8]	70	forall( dtype T \| sized(T) ) T * memalign( size_t alignment ) {
[3849857]	71	//printf( "memalign\n" );
[bd85400]	72	return (T *)memalign( alignment, sizeof(T) );
	73	} // memalign
	74
[59239b8]	75	forall( dtype T \| sized(T) ) int posix_memalign( T ** ptr, size_t alignment ) {
[3849857]	76	//printf( "posix_memalign\n" );
[bd85400]	77	return posix_memalign( (void **)ptr, alignment, sizeof(T) );
	78	} // posix_memalign
	79
[59239b8]	80	forall( dtype T, ttype Params \| sized(T) \| { void ?{}(T *, Params); } )
[627f585]	81	T * new( Params p ) {
	82	return ((T*)malloc()){ p };
	83	}
	84
	85	forall( dtype T \| { void ^?{}(T *); } )
	86	void delete( T * ptr ) {
	87	if ( ptr ) {
	88	^ptr{};
	89	free( ptr );
	90	}
	91	}
	92
[bf76eab]	93	forall( dtype T, ttype Params \| { void ^?{}(T *); void delete(Params); } )
	94	void delete( T * ptr, Params rest ) {
	95	if ( ptr ) {
	96	^ptr{};
	97	free( ptr );
	98	}
	99	delete( rest );
	100	}
	101
[bd85400]	102	//---------------------------------------
	103
	104	int ato( const char * ptr ) {
	105	int i;
[6e991d6]	106	if ( sscanf( ptr, "%d", &i ) == EOF ) {}
[bd85400]	107	return i;
	108	}
	109	unsigned int ato( const char * ptr ) {
	110	unsigned int ui;
[6e991d6]	111	if ( sscanf( ptr, "%u", &ui ) == EOF ) {}
[bd85400]	112	return ui;
	113	}
	114	long int ato( const char * ptr ) {
	115	long int li;
[6e991d6]	116	if ( sscanf( ptr, "%ld", &li ) == EOF ) {}
[bd85400]	117	return li;
	118	}
	119	unsigned long int ato( const char * ptr ) {
	120	unsigned long int uli;
[6e991d6]	121	if ( sscanf( ptr, "%lu", &uli ) == EOF ) {}
[bd85400]	122	return uli;
	123	}
	124	long long int ato( const char * ptr ) {
	125	long long int lli;
[6e991d6]	126	if ( sscanf( ptr, "%lld", &lli ) == EOF ) {}
[bd85400]	127	return lli;
	128	}
	129	unsigned long long int ato( const char * ptr ) {
	130	unsigned long long int ulli;
[6e991d6]	131	if ( sscanf( ptr, "%llu", &ulli ) == EOF ) {}
[bd85400]	132	return ulli;
	133	}
[90c3b1c]	134
[bd85400]	135	float ato( const char * ptr ) {
	136	float f;
[6e991d6]	137	if ( sscanf( ptr, "%f", &f ) == EOF ) {}
[bd85400]	138	return f;
	139	}
	140	double ato( const char * ptr ) {
	141	double d;
[6e991d6]	142	if ( sscanf( ptr, "%lf", &d ) == EOF ) {}
[bd85400]	143	return d;
	144	}
	145	long double ato( const char * ptr ) {
	146	long double ld;
[6e991d6]	147	if ( sscanf( ptr, "%Lf", &ld ) == EOF ) {}
[bd85400]	148	return ld;
	149	}
[90c3b1c]	150
[bd85400]	151	float _Complex ato( const char * ptr ) {
	152	float re, im;
[6e991d6]	153	if ( sscanf( ptr, "%g%gi", &re, &im ) == EOF ) {}
[bd85400]	154	return re + im * _Complex_I;
	155	}
	156	double _Complex ato( const char * ptr ) {
	157	double re, im;
[6e991d6]	158	if ( sscanf( ptr, "%lf%lfi", &re, &im ) == EOF ) {}
[bd85400]	159	return re + im * _Complex_I;
	160	}
	161	long double _Complex ato( const char * ptr ) {
	162	long double re, im;
[6e991d6]	163	if ( sscanf( ptr, "%Lf%Lfi", &re, &im ) == EOF ) {}
[bd85400]	164	return re + im * _Complex_I;
[43385ca]	165	}
[bd85400]	166
	167	int strto( const char * sptr, char ** eptr, int base ) {
	168	return (int)strtol( sptr, eptr, base );
	169	}
	170	unsigned int strto( const char * sptr, char ** eptr, int base ) {
	171	return (unsigned int)strtoul( sptr, eptr, base );
	172	}
	173	long int strto( const char * sptr, char ** eptr, int base ) {
	174	return strtol( sptr, eptr, base );
	175	}
	176	unsigned long int strto( const char * sptr, char ** eptr, int base ) {
	177	return strtoul( sptr, eptr, base );
	178	}
	179	long long int strto( const char * sptr, char ** eptr, int base ) {
	180	return strtoll( sptr, eptr, base );
	181	}
	182	unsigned long long int strto( const char * sptr, char ** eptr, int base ) {
	183	return strtoull( sptr, eptr, base );
	184	}
[90c3b1c]	185
[bd85400]	186	float strto( const char * sptr, char ** eptr ) {
	187	return strtof( sptr, eptr );
	188	}
	189	double strto( const char * sptr, char ** eptr ) {
	190	return strtod( sptr, eptr );
	191	}
	192	long double strto( const char * sptr, char ** eptr ) {
	193	return strtold( sptr, eptr );
	194	}
[90c3b1c]	195
[bd85400]	196	float _Complex strto( const char * sptr, char ** eptr ) {
	197	float re, im;
	198	re = strtof( sptr, eptr );
	199	if ( sptr == *eptr ) return 0.0;
	200	im = strtof( sptr, eptr );
	201	if ( sptr == *eptr ) return 0.0;
	202	return re + im * _Complex_I;
	203	}
	204	double _Complex strto( const char * sptr, char ** eptr ) {
	205	double re, im;
	206	re = strtod( sptr, eptr );
	207	if ( sptr == *eptr ) return 0.0;
	208	im = strtod( sptr, eptr );
	209	if ( sptr == *eptr ) return 0.0;
	210	return re + im * _Complex_I;
	211	}
	212	long double _Complex strto( const char * sptr, char ** eptr ) {
	213	long double re, im;
	214	re = strtold( sptr, eptr );
	215	if ( sptr == *eptr ) return 0.0;
	216	im = strtold( sptr, eptr );
	217	if ( sptr == *eptr ) return 0.0;
	218	return re + im * _Complex_I;
	219	}
	220
	221	//---------------------------------------
	222
[4040425]	223	forall( otype T \| { int ?<?( T, T ); } )
[a797e2b1]	224	T * bsearch( T key, const T * arr, size_t dimension ) {
[bd85400]	225	int comp( const void * t1, const void * t2 ) { return (T )t1 < (T )t2 ? -1 : (T )t2 < (T )t1 ? 1 : 0; }
	226	return (T *)bsearch( &key, arr, dimension, sizeof(T), comp );
	227	} // bsearch
	228
[4040425]	229	forall( otype T \| { int ?<?( T, T ); } )
[bd85400]	230	void qsort( const T * arr, size_t dimension ) {
	231	int comp( const void * t1, const void * t2 ) { return (T )t1 < (T )t2 ? -1 : (T )t2 < (T )t1 ? 1 : 0; }
	232	qsort( arr, dimension, sizeof(T), comp );
	233	} // qsort
	234
	235	//---------------------------------------
	236
[43385ca]	237	forall( otype T \| { T ?/?( T, T ); T ?%?( T, T ); } )
	238	[ T, T ] div( T t1, T t2 ) { return [ t1 / t2, t1 % t2 ]; }
[bd85400]	239
	240	//---------------------------------------
	241
	242	char abs( char v ) { return abs( (int)v ); }
	243	long int abs( long int v ) { return labs( v ); }
	244	long long int abs( long long int v ) { return llabs( v ); }
[6e991d6]	245	float abs( float x ) { return fabsf( x ); }
	246	double abs( double x ) { return fabs( x ); }
	247	long double abs( long double x ) { return fabsl( x ); }
	248	float abs( float _Complex x ) { return cabsf( x ); }
	249	double abs( double _Complex x ) { return cabs( x ); }
	250	long double abs( long double _Complex x ) { return cabsl( x ); }
[53ba273]	251
	252	//---------------------------------------
	253
[0438091]	254	void rand48seed( long int s ) { srand48( s ); }
[3cfe27f]	255	char rand48() { return mrand48(); }
[0438091]	256	int rand48() { return mrand48(); }
	257	unsigned int rand48() { return lrand48(); }
	258	long int rand48() { return mrand48(); }
	259	unsigned long int rand48() { return lrand48(); }
	260	float rand48() { return (float)drand48(); } // otherwise float uses lrand48
	261	double rand48() { return drand48(); }
	262	float _Complex rand48() { return (float)drand48() + (float _Complex)(drand48() * _Complex_I); }
	263	double _Complex rand48() { return drand48() + (double _Complex)(drand48() * _Complex_I); }
	264	long double _Complex rand48() { return (long double)drand48() + (long double _Complex)(drand48() * _Complex_I); }
[bd85400]	265
	266	//---------------------------------------
	267
[4040425]	268	forall( otype T \| { int ?<?( T, T ); } )
[a797e2b1]	269	T min( T t1, T t2 ) {
[bd85400]	270	return t1 < t2 ? t1 : t2;
	271	} // min
	272
[4040425]	273	forall( otype T \| { int ?>?( T, T ); } )
[a797e2b1]	274	T max( T t1, T t2 ) {
[bd85400]	275	return t1 > t2 ? t1 : t2;
	276	} // max
	277
[a9f2c13]	278	forall( otype T \| { T min( T, T ); T max( T, T ); } )
[a797e2b1]	279	T clamp( T value, T min_val, T max_val ) {
[a9f2c13]	280	return max( min_val, min( value, max_val ) );
	281	} // clamp
	282
[4040425]	283	forall( otype T )
[bd85400]	284	void swap( T * t1, T * t2 ) {
	285	T temp = *t1;
	286	t1 = t2;
	287	*t2 = temp;
	288	} // swap
	289
	290	// Local Variables: //
	291	// tab-width: 4 //
	292	// End: //

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