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stdlib.cfa@ 67a1c67

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ADT ast-experimental pthread-emulation

Last change on this file since 67a1c67 was f6a4917, checked in by Peter A. Buhr <pabuhr@…>, 3 years ago
change C loop control to CFA loop control
Property mode set to `100644`
File size: 7.7 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	//
[f4a6101]	7	// stdlib.c --
[bd85400]	8	//
	9	// Author : Peter A. Buhr
	10	// Created On : Thu Jan 28 17:10:29 2016
[e310238]	11	// Last Modified By : Peter A. Buhr
[f6a4917]	12	// Last Modified On : Thu Aug 25 22:41:14 2022
	13	// Update Count : 604
[bd85400]	14	//
	15
[58b6d1b]	16	#include "stdlib.hfa"
[5d1ebb9]	17	#include "bits/random.hfa"
[2210cfc]	18	#include "concurrency/invoke.h" // random_state
[bd85400]	19
	20	//---------------------------------------
	21
	22	#define _XOPEN_SOURCE 600 // posix_memalign, *rand48
[f3fc631f]	23	#include <string.h> // memcpy, memset
[89124ff]	24	//#include <math.h> // fabsf, fabs, fabsl
[6e991d6]	25	#include <complex.h> // _Complex_I
[e672372]	26	#include <assert.h>
[bd85400]	27
[0aa4beb]	28	#pragma GCC visibility push(default)
	29
[f4a6101]	30	//---------------------------------------
	31
[94429f8]	32	// Cforall allocation/deallocation and constructor/destructor, array types
[627f585]	33
[fd54fef]	34	forall( T & \| sized(T), TT... \| { void ?{}( T &, TT ); } )
[94429f8]	35	T * anew( size_t dim, TT p ) {
[6887a99]	36	T * arr = alloc( dim );
[f6a4917]	37	for ( i; dim ) {
[a493682]	38	(arr[i]){ p }; // run constructor
[6065b3aa]	39	} // for
	40	return arr;
	41	} // anew
	42
[fd54fef]	43	forall( T & \| sized(T) \| { void ^?{}( T & ); } )
[45444c3]	44	void adelete( T arr[] ) {
[6065b3aa]	45	if ( arr ) { // ignore null
[45444c3]	46	size_t dim = malloc_size( arr ) / sizeof( T );
[f6a4917]	47	for ( i; 0 -~= dim - 1 ) { // reverse allocation order, must be unsigned
[a493682]	48	^(arr[i]){}; // run destructor
[6065b3aa]	49	} // for
	50	free( arr );
	51	} // if
	52	} // adelete
	53
[fd54fef]	54	forall( T & \| sized(T) \| { void ^?{}( T & ); }, TT... \| { void adelete( TT ); } )
[94429f8]	55	void adelete( T arr[], TT rest ) {
[6065b3aa]	56	if ( arr ) { // ignore null
[45444c3]	57	size_t dim = malloc_size( arr ) / sizeof( T );
[f6a4917]	58	for ( i; 0 -~= dim - 1 ) { // reverse allocation order, must be unsigned
[a493682]	59	^(arr[i]){}; // run destructor
[6065b3aa]	60	} // for
	61	free( arr );
	62	} // if
	63	adelete( rest );
	64	} // adelete
	65
[bd85400]	66	//---------------------------------------
	67
[e3fea42]	68	float _Complex strto( const char sptr[], char ** eptr ) {
[bd85400]	69	float re, im;
[e672372]	70	char * eeptr;
	71	re = strtof( sptr, &eeptr );
[bbf3fda]	72	if ( sptr == eeptr ) { if ( eptr != 0 ) eptr = eeptr; return 0.0f + 0.0f _Complex_I; }
[e672372]	73	im = strtof( eeptr, &eeptr );
[bbf3fda]	74	if ( sptr == eeptr ) { if ( eptr != 0 ) eptr = eeptr; return 0.0f + 0.0f _Complex_I; }
[e672372]	75	if ( eeptr != 'i' ) { if ( eptr != 0 ) eptr = eeptr; return 0.0f + 0.0f * _Complex_I; }
[bd85400]	76	return re + im * _Complex_I;
[f3ddc21]	77	} // strto
	78
[e3fea42]	79	double _Complex strto( const char sptr[], char ** eptr ) {
[bd85400]	80	double re, im;
[e672372]	81	char * eeptr;
	82	re = strtod( sptr, &eeptr );
[bbf3fda]	83	if ( sptr == eeptr ) { if ( eptr != 0 ) eptr = eeptr; return 0.0 + 0.0 _Complex_I; }
[e672372]	84	im = strtod( eeptr, &eeptr );
[bbf3fda]	85	if ( sptr == eeptr ) { if ( eptr != 0 ) eptr = eeptr; return 0.0 + 0.0 _Complex_I; }
[e672372]	86	if ( eeptr != 'i' ) { if ( eptr != 0 ) eptr = eeptr; return 0.0 + 0.0 * _Complex_I; }
[bd85400]	87	return re + im * _Complex_I;
[f3ddc21]	88	} // strto
	89
[e3fea42]	90	long double _Complex strto( const char sptr[], char ** eptr ) {
[bd85400]	91	long double re, im;
[e672372]	92	char * eeptr;
	93	re = strtold( sptr, &eeptr );
[bbf3fda]	94	if ( sptr == eeptr ) { if ( eptr != 0 ) eptr = eeptr; return 0.0L + 0.0L _Complex_I; }
[e672372]	95	im = strtold( eeptr, &eeptr );
[bbf3fda]	96	if ( sptr == eeptr ) { if ( eptr != 0 ) eptr = eeptr; return 0.0L + 0.0L _Complex_I; }
[e672372]	97	if ( eeptr != 'i' ) { if ( eptr != 0 ) eptr = eeptr; return 0.0L + 0.0L * _Complex_I; }
[bd85400]	98	return re + im * _Complex_I;
[f3ddc21]	99	} // strto
[bd85400]	100
	101	//---------------------------------------
	102
[fd54fef]	103	forall( E \| { int ?<?( E, E ); } ) {
[3ce0d440]	104	E * bsearch( E key, const E * vals, size_t dim ) {
	105	int cmp( const void * t1, const void * t2 ) {
	106	return (E )t1 < (E )t2 ? -1 : (E )t2 < (E )t1 ? 1 : 0;
	107	} // cmp
	108	return (E *)bsearch( &key, vals, dim, sizeof(E), cmp );
	109	} // bsearch
	110
	111	size_t bsearch( E key, const E * vals, size_t dim ) {
	112	E * result = bsearch( key, vals, dim );
	113	return result ? result - vals : dim; // pointer subtraction includes sizeof(E)
	114	} // bsearch
	115
	116	size_t bsearchl( E key, const E * vals, size_t dim ) {
	117	size_t l = 0, m, h = dim;
	118	while ( l < h ) {
	119	m = (l + h) / 2;
	120	if ( (E &)(vals[m]) < key ) { // cast away const
	121	l = m + 1;
	122	} else {
	123	h = m;
	124	} // if
	125	} // while
	126	return l;
	127	} // bsearchl
	128
	129	E * bsearchl( E key, const E * vals, size_t dim ) {
	130	size_t posn = bsearchl( key, vals, dim );
	131	return (E *)(&vals[posn]); // cast away const
	132	} // bsearchl
	133
	134	size_t bsearchu( E key, const E * vals, size_t dim ) {
	135	size_t l = 0, m, h = dim;
	136	while ( l < h ) {
	137	m = (l + h) / 2;
	138	if ( ! ( key < (E &)(vals[m]) ) ) { // cast away const
	139	l = m + 1;
	140	} else {
	141	h = m;
	142	} // if
	143	} // while
	144	return l;
	145	} // bsearchu
	146
	147	E * bsearchu( E key, const E * vals, size_t dim ) {
	148	size_t posn = bsearchu( key, vals, dim );
	149	return (E *)(&vals[posn]);
	150	} // bsearchu
	151
	152
	153	void qsort( E * vals, size_t dim ) {
	154	int cmp( const void * t1, const void * t2 ) {
	155	return (E )t1 < (E )t2 ? -1 : (E )t2 < (E )t1 ? 1 : 0;
	156	} // cmp
	157	qsort( vals, dim, sizeof(E), cmp );
	158	} // qsort
	159	} // distribution
	160
	161
[fd54fef]	162	forall( K, E \| { int ?<?( K, K ); K getKey( const E & ); } ) {
[3ce0d440]	163	E * bsearch( K key, const E * vals, size_t dim ) {
	164	int cmp( const void * t1, const void * t2 ) {
	165	return (K )t1 < getKey( (E )t2 ) ? -1 : getKey( (E )t2 ) < (K )t1 ? 1 : 0;
	166	} // cmp
	167	return (E *)bsearch( &key, vals, dim, sizeof(E), cmp );
	168	} // bsearch
	169
	170	size_t bsearch( K key, const E * vals, size_t dim ) {
	171	E * result = bsearch( key, vals, dim );
	172	return result ? result - vals : dim; // pointer subtraction includes sizeof(E)
	173	} // bsearch
	174
	175	size_t bsearchl( K key, const E * vals, size_t dim ) {
	176	size_t l = 0, m, h = dim;
	177	while ( l < h ) {
	178	m = (l + h) / 2;
	179	if ( getKey( vals[m] ) < key ) {
	180	l = m + 1;
	181	} else {
	182	h = m;
	183	} // if
	184	} // while
	185	return l;
	186	} // bsearchl
	187
	188	E * bsearchl( K key, const E * vals, size_t dim ) {
	189	size_t posn = bsearchl( key, vals, dim );
	190	return (E *)(&vals[posn]); // cast away const
	191	} // bsearchl
	192
	193	size_t bsearchu( K key, const E * vals, size_t dim ) {
	194	size_t l = 0, m, h = dim;
	195	while ( l < h ) {
	196	m = (l + h) / 2;
	197	if ( ! ( key < getKey( vals[m] ) ) ) {
	198	l = m + 1;
	199	} else {
	200	h = m;
	201	} // if
	202	} // while
	203	return l;
	204	} // bsearchu
	205
	206	E * bsearchu( K key, const E * vals, size_t dim ) {
	207	size_t posn = bsearchu( key, vals, dim );
	208	return (E *)(&vals[posn]);
	209	} // bsearchu
	210	} // distribution
[bd85400]	211
	212	//---------------------------------------
	213
[bbe1a87]	214	extern "C" { // override C version
	215	void srandom( unsigned int seed ) { srand48( (long int)seed ); }
[4e7c0fc0]	216	long int random( void ) { return mrand48(); } // GENERATES POSITIVE AND NEGATIVE VALUES
[bbe1a87]	217	} // extern "C"
	218
[e672372]	219	float random( void ) { return (float)drand48(); } // cast otherwise float uses lrand48
[70e4895d]	220	double random( void ) { return drand48(); }
	221	float _Complex random( void ) { return (float)drand48() + (float _Complex)(drand48() * _Complex_I); }
	222	double _Complex random( void ) { return drand48() + (double _Complex)(drand48() * _Complex_I); }
[e672372]	223	long double _Complex random( void ) { return (long double)drand48() + (long double _Complex)(drand48() * _Complex_I); }
[a9f2c13]	224
[2026bb6]	225	//---------------------------------------
	226
[aa8e24c3]	227	#define GENERATOR LCG
	228
[0aa4beb]	229	// would be cool to make hidden but it's needed for libcfathread
	230	__attribute__((visibility("default"))) uint32_t __global_random_seed; // sequential/concurrent
	231	__attribute__((visibility("hidden"))) uint32_t __global_random_state; // sequential only
[2210cfc]	232
[1959528]	233	void set_seed( PRNG & prng, uint32_t seed_ ) with( prng ) { state = seed = seed_; GENERATOR( state ); } // set seed
[aa8e24c3]	234
[6a823241]	235	void set_seed( uint32_t seed ) { __global_random_state = __global_random_seed = seed; GENERATOR( __global_random_state ); }
[1959528]	236	uint32_t get_seed() { return __global_random_seed; }
[00f5fde]	237	uint32_t prng( void ) { return GENERATOR( __global_random_state ); } // [0,UINT_MAX]
[aa8e24c3]	238
	239	//---------------------------------------
	240
	241	bool threading_enabled( void ) __attribute__(( weak )) { return false; }
[bd85400]	242
	243	// Local Variables: //
	244	// tab-width: 4 //
	245	// End: //

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