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stdlib@ 3b2b37f

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ADT aaron-thesis arm-eh ast-experimental cleanup-dtors deferred_resn demangler enum forall-pointer-decay jacob/cs343-translation jenkins-sandbox new-ast new-ast-unique-expr no_list persistent-indexer pthread-emulation qualifiedEnum

Last change on this file since 3b2b37f was b9c04946, checked in by Peter A. Buhr <pabuhr@…>, 7 years ago
rename array memset/memcpy
Property mode set to `100644`
File size: 9.7 KB

Line
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	//
7	// stdlib --
8	//
9	// Author : Peter A. Buhr
10	// Created On : Thu Jan 28 17:12:35 2016
11	// Last Modified By : Peter A. Buhr
12	// Last Modified On : Fri Jul 27 07:21:36 2018
13	// Update Count : 345
14	//
15
16	#pragma once
17
18	#include <stdlib.h> // alloc, strto, ato*
19	extern "C" {
20	void * memalign( size_t align, size_t size ); // malloc.h
21	void * memset( void * dest, int fill, size_t size ); // string.h
22	void * memcpy( void * dest, const void * src, size_t size ); // string.h
23	void * cmemalign( size_t alignment, size_t noOfElems, size_t elemSize ); // CFA
24	} // extern "C"
25
26	//---------------------------------------
27
28	#ifndef EXIT_FAILURE
29	#define EXIT_FAILURE 1 // failing exit status
30	#define EXIT_SUCCESS 0 // successful exit status
31	#endif // ! EXIT_FAILURE
32
33	//---------------------------------------
34
35	static inline forall( dtype T \| sized(T) ) {
36	// C dynamic allocation
37
38	T * malloc( void ) {
39	return (T )(void )malloc( (size_t)sizeof(T) ); // C malloc
40	} // malloc
41
42	// T & malloc( void ) {
43	// int & p = (T )(void *)malloc( (size_t)sizeof(T) ); // C malloc
44	// printf( "& malloc %p\n", &p );
45	// return p;
46	// // return (T &)(T )(void *)malloc( (size_t)sizeof(T) ); // C malloc
47	// } // malloc
48
49	T * calloc( size_t dim ) {
50	return (T )(void )calloc( dim, sizeof(T) ); // C calloc
51	} // calloc
52
53	T * realloc( T * ptr, size_t size ) {
54	return (T )(void )realloc( (void *)ptr, size );
55	} // realloc
56
57	T * memalign( size_t align ) {
58	return (T *)memalign( align, sizeof(T) );
59	} // memalign
60
61	T * aligned_alloc( size_t align ) {
62	return (T *)aligned_alloc( align, sizeof(T) );
63	} // aligned_alloc
64
65	int posix_memalign( T ** ptr, size_t align ) {
66	return posix_memalign( (void **)ptr, align, sizeof(T) ); // C posix_memalign
67	} // posix_memalign
68
69
70	// Cforall dynamic allocation
71
72	T * alloc( void ) {
73	return (T )(void )malloc( (size_t)sizeof(T) ); // C malloc
74	} // alloc
75
76	T * alloc( char fill ) {
77	T * ptr = (T )(void )malloc( (size_t)sizeof(T) ); // C malloc
78	return (T *)memset( ptr, (int)fill, sizeof(T) ); // initial with fill value
79	} // alloc
80
81	T * alloc( size_t dim ) {
82	return (T )(void )malloc( dim * (size_t)sizeof(T) ); // C malloc
83	} // alloc
84
85	T * alloc( size_t dim, char fill ) {
86	T * ptr = (T )(void )malloc( dim * (size_t)sizeof(T) ); // C malloc
87	return (T )memset( ptr, (int)fill, dim sizeof(T) ); // initial with fill value
88	} // alloc
89
90	T * alloc( T ptr[], size_t dim ) {
91	return (T )(void )realloc( (void )ptr, dim (size_t)sizeof(T) ); // C realloc
92	} // alloc
93	} // distribution
94
95
96	forall( dtype T \| sized(T) ) T * alloc( T ptr[], size_t dim, char fill );
97
98
99	static inline forall( dtype T \| sized(T) ) {
100	T * align_alloc( size_t align ) {
101	return (T *)memalign( align, sizeof(T) );
102	} // align_alloc
103
104	T * align_alloc( size_t align, char fill ) {
105	T * ptr = (T *)memalign( align, sizeof(T) );
106	return (T *)memset( ptr, (int)fill, sizeof(T) );
107	} // align_alloc
108
109	T * align_alloc( size_t align, size_t dim ) {
110	return (T )memalign( align, dim sizeof(T) );
111	} // align_alloc
112
113	T * align_alloc( size_t align, size_t dim, char fill ) {
114	T * ptr;
115	if ( fill == '\0' ) {
116	ptr = (T *)cmemalign( align, dim, sizeof(T) );
117	} else {
118	ptr = (T )memalign( align, dim sizeof(T) );
119	return (T )memset( ptr, (int)fill, dim sizeof(T) );
120	} // if
121	return ptr;
122	} // align_alloc
123	} // distribution
124
125
126	static inline forall( dtype T \| sized(T) ) {
127	// data, non-array types
128
129	T * memset( T * dest, char fill ) {
130	return (T *)memset( dest, fill, sizeof(T) );
131	} // memset
132
133	T * memcpy( T * dest, const T * src ) {
134	return (T *)memcpy( dest, src, sizeof(T) );
135	} // memcpy
136	} // distribution
137
138	static inline forall( dtype T \| sized(T) ) {
139	// data, array types
140
141	T * amemset( T dest[], char fill, size_t dim ) {
142	return (T )(void )memset( dest, fill, dim * sizeof(T) ); // C memset
143	} // amemset
144
145	T * amemcpy( T dest[], const T src[], size_t dim ) {
146	return (T )(void )memcpy( dest, src, dim * sizeof(T) ); // C memcpy
147	} // amemcpy
148	} // distribution
149
150	// allocation/deallocation and constructor/destructor, non-array types
151	forall( dtype T \| sized(T), ttype Params \| { void ?{}( T &, Params ); } ) T * new( Params p );
152	forall( dtype T \| sized(T) \| { void ^?{}( T & ); } ) void delete( T * ptr );
153	forall( dtype T, ttype Params \| sized(T) \| { void ^?{}( T & ); void delete( Params ); } ) void delete( T * ptr, Params rest );
154
155	// allocation/deallocation and constructor/destructor, array types
156	forall( dtype T \| sized(T), ttype Params \| { void ?{}( T &, Params ); } ) T * anew( size_t dim, Params p );
157	forall( dtype T \| sized(T) \| { void ^?{}( T & ); } ) void adelete( size_t dim, T arr[] );
158	forall( dtype T \| sized(T) \| { void ^?{}( T & ); }, ttype Params \| { void adelete( Params ); } ) void adelete( size_t dim, T arr[], Params rest );
159
160	//---------------------------------------
161
162	static inline {
163	int strto( const char * sptr, char ** eptr, int base ) { return (int)strtol( sptr, eptr, base ); }
164	unsigned int strto( const char * sptr, char ** eptr, int base ) { return (unsigned int)strtoul( sptr, eptr, base ); }
165	long int strto( const char * sptr, char ** eptr, int base ) { return strtol( sptr, eptr, base ); }
166	unsigned long int strto( const char * sptr, char ** eptr, int base ) { return strtoul( sptr, eptr, base ); }
167	long long int strto( const char * sptr, char ** eptr, int base ) { return strtoll( sptr, eptr, base ); }
168	unsigned long long int strto( const char * sptr, char ** eptr, int base ) { return strtoull( sptr, eptr, base ); }
169
170	float strto( const char * sptr, char ** eptr ) { return strtof( sptr, eptr ); }
171	double strto( const char * sptr, char ** eptr ) { return strtod( sptr, eptr ); }
172	long double strto( const char * sptr, char ** eptr ) { return strtold( sptr, eptr ); }
173	} // distribution
174
175	float _Complex strto( const char * sptr, char ** eptr );
176	double _Complex strto( const char * sptr, char ** eptr );
177	long double _Complex strto( const char * sptr, char ** eptr );
178
179	static inline {
180	int ato( const char * sptr ) {return (int)strtol( sptr, 0, 10 ); }
181	unsigned int ato( const char * sptr ) { return (unsigned int)strtoul( sptr, 0, 10 ); }
182	long int ato( const char * sptr ) { return strtol( sptr, 0, 10 ); }
183	unsigned long int ato( const char * sptr ) { return strtoul( sptr, 0, 10 ); }
184	long long int ato( const char * sptr ) { return strtoll( sptr, 0, 10 ); }
185	unsigned long long int ato( const char * sptr ) { return strtoull( sptr, 0, 10 ); }
186
187	float ato( const char * sptr ) { return strtof( sptr, 0 ); }
188	double ato( const char * sptr ) { return strtod( sptr, 0 ); }
189	long double ato( const char * sptr ) { return strtold( sptr, 0 ); }
190
191	float _Complex ato( const char * sptr ) { return strto( sptr, NULL ); }
192	double _Complex ato( const char * sptr ) { return strto( sptr, NULL ); }
193	long double _Complex ato( const char * sptr ) { return strto( sptr, NULL ); }
194	} // distribution
195
196	//---------------------------------------
197
198	forall( otype E \| { int ?<?( E, E ); } ) {
199	E * bsearch( E key, const E * vals, size_t dim );
200	size_t bsearch( E key, const E * vals, size_t dim );
201	E * bsearchl( E key, const E * vals, size_t dim );
202	size_t bsearchl( E key, const E * vals, size_t dim );
203	E * bsearchu( E key, const E * vals, size_t dim );
204	size_t bsearchu( E key, const E * vals, size_t dim );
205	} // distribution
206
207	forall( otype K, otype E \| { int ?<?( K, K ); K getKey( const E & ); } ) {
208	E * bsearch( K key, const E * vals, size_t dim );
209	size_t bsearch( K key, const E * vals, size_t dim );
210	E * bsearchl( K key, const E * vals, size_t dim );
211	size_t bsearchl( K key, const E * vals, size_t dim );
212	E * bsearchu( K key, const E * vals, size_t dim );
213	size_t bsearchu( K key, const E * vals, size_t dim );
214	} // distribution
215
216	forall( otype E \| { int ?<?( E, E ); } ) {
217	void qsort( E * vals, size_t dim );
218	} // distribution
219
220	//---------------------------------------
221
222	extern "C" { // override C version
223	void srandom( unsigned int seed );
224	long int random( void );
225	} // extern "C"
226
227	static inline {
228	long int random( long int l, long int u ) { if ( u < l ) [u, l] = [l, u]; return lrand48() % (u - l) + l; } // [l,u)
229	long int random( long int u ) { if ( u < 0 ) return random( u, 0 ); else return random( 0, u ); } // [0,u)
230	unsigned long int random( void ) { return lrand48(); }
231	unsigned long int random( unsigned long int l, unsigned long int u ) { if ( u < l ) [u, l] = [l, u]; return lrand48() % (u - l) + l; } // [l,u)
232	unsigned long int random( unsigned long int u ) { return lrand48() % u; } // [0,u)
233
234	char random( void ) { return (unsigned long int)random(); }
235	char random( char u ) { return random( (unsigned long int)u ); } // [0,u)
236	char random( char l, char u ) { return random( (unsigned long int)l, (unsigned long int)u ); } // [l,u)
237	int random( void ) { return (long int)random(); }
238	int random( int u ) { return random( (long int)u ); } // [0,u]
239	int random( int l, int u ) { return random( (long int)l, (long int)u ); } // [l,u)
240	unsigned int random( void ) { return (unsigned long int)random(); }
241	unsigned int random( unsigned int u ) { return random( (unsigned long int)u ); } // [0,u]
242	unsigned int random( unsigned int l, unsigned int u ) { return random( (unsigned long int)l, (unsigned long int)u ); } // [l,u)
243	} // distribution
244
245	float random( void ); // [0.0, 1.0)
246	double random( void ); // [0.0, 1.0)
247	float _Complex random( void ); // [0.0, 1.0)+[0.0, 1.0)i
248	double _Complex random( void ); // [0.0, 1.0)+[0.0, 1.0)i
249	long double _Complex random( void ); // [0.0, 1.0)+[0.0, 1.0)i
250
251	//---------------------------------------
252
253	#include "common"
254
255	// Local Variables: //
256	// mode: c //
257	// tab-width: 4 //
258	// End: //

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