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iostream.cfa @ 8f74a6a

ADTaaron-thesisarm-ehast-experimentalcleanup-dtorsenumforall-pointer-decayjacob/cs343-translationjenkins-sandboxnew-astnew-ast-unique-exprpersistent-indexerpthread-emulationqualifiedEnum

Last change on this file since 8f74a6a was 9d362a0, checked in by Peter A. Buhr <pabuhr@…>, 6 years ago
simplify code
Property mode set to `100644`
File size: 14.1 KB

Line
1	//
2	// Cforall Version 1.0.0 Copyright (C) 2015 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	// iostream.c --
8	//
9	// Author : Peter A. Buhr
10	// Created On : Wed May 27 17:56:53 2015
11	// Last Modified By : Peter A. Buhr
12	// Last Modified On : Mon Dec 24 18:33:40 2018
13	// Update Count : 589
14	//
15
16	#include "iostream.hfa"
17
18	extern "C" {
19	#include <stdio.h>
20	#include <stdbool.h> // true/false
21	//#include <string.h> // strlen, strcmp
22	extern int strcmp (const char __s1, const char __s2) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__pure__)) __attribute__ ((__nonnull__ (1, 2)));
23	extern size_t strlen (const char *__s) __attribute__ ((__nothrow__ , __leaf__)) __attribute__ ((__pure__)) __attribute__ ((__nonnull__ (1)));
24	#include <float.h> // DBL_DIG, LDBL_DIG
25	#include <complex.h> // creal, cimag
26	}
27
28	forall( dtype ostype \| ostream( ostype ) ) {
29	ostype & ?\|?( ostype & os, bool b ) {
30	if ( sepPrt( os ) ) fmt( os, "%s", sepGetCur( os ) );
31	fmt( os, "%s", b ? "true" : "false" );
32	return os;
33	} // ?\|?
34	void ?\|?( ostype & os, bool b ) {
35	(ostype &)(os \| b); nl( os );
36	} // ?\|?
37
38	ostype & ?\|?( ostype & os, char c ) {
39	fmt( os, "%c", c );
40	if ( c == '\n' ) setNL( os, true );
41	return sepOff( os );
42	} // ?\|?
43	void ?\|?( ostype & os, char c ) {
44	(ostype &)(os \| c); nl( os );
45	} // ?\|?
46
47	ostype & ?\|?( ostype & os, signed char sc ) {
48	if ( sepPrt( os ) ) fmt( os, "%s", sepGetCur( os ) );
49	fmt( os, "%hhd", sc );
50	return os;
51	} // ?\|?
52	void ?\|?( ostype & os, signed char sc ) {
53	(ostype &)(os \| sc); nl( os );
54	} // ?\|?
55
56	ostype & ?\|?( ostype & os, unsigned char usc ) {
57	if ( sepPrt( os ) ) fmt( os, "%s", sepGetCur( os ) );
58	fmt( os, "%hhu", usc );
59	return os;
60	} // ?\|?
61	void ?\|?( ostype & os, unsigned char usc ) {
62	(ostype &)(os \| usc); nl( os );
63	} // ?\|?
64
65	ostype & ?\|?( ostype & os, short int si ) {
66	if ( sepPrt( os ) ) fmt( os, "%s", sepGetCur( os ) );
67	fmt( os, "%hd", si );
68	return os;
69	} // ?\|?
70	void & ?\|?( ostype & os, short int si ) {
71	(ostype &)(os \| si); nl( os );
72	} // ?\|?
73
74	ostype & ?\|?( ostype & os, unsigned short int usi ) {
75	if ( sepPrt( os ) ) fmt( os, "%s", sepGetCur( os ) );
76	fmt( os, "%hu", usi );
77	return os;
78	} // ?\|?
79	void & ?\|?( ostype & os, unsigned short int usi ) {
80	(ostype &)(os \| usi); nl( os );
81	} // ?\|?
82
83	ostype & ?\|?( ostype & os, int i ) {
84	if ( sepPrt( os ) ) fmt( os, "%s", sepGetCur( os ) );
85	fmt( os, "%d", i );
86	return os;
87	} // ?\|?
88	void & ?\|?( ostype & os, int i ) {
89	(ostype &)(os \| i); nl( os );
90	} // ?\|?
91
92	ostype & ?\|?( ostype & os, unsigned int ui ) {
93	if ( sepPrt( os ) ) fmt( os, "%s", sepGetCur( os ) );
94	fmt( os, "%u", ui );
95	return os;
96	} // ?\|?
97	void & ?\|?( ostype & os, unsigned int ui ) {
98	(ostype &)(os \| ui); nl( os );
99	} // ?\|?
100
101	ostype & ?\|?( ostype & os, long int li ) {
102	if ( sepPrt( os ) ) fmt( os, "%s", sepGetCur( os ) );
103	fmt( os, "%ld", li );
104	return os;
105	} // ?\|?
106	void & ?\|?( ostype & os, long int li ) {
107	(ostype &)(os \| li); nl( os );
108	} // ?\|?
109
110	ostype & ?\|?( ostype & os, unsigned long int uli ) {
111	if ( sepPrt( os ) ) fmt( os, "%s", sepGetCur( os ) );
112	fmt( os, "%lu", uli );
113	return os;
114	} // ?\|?
115	void & ?\|?( ostype & os, unsigned long int uli ) {
116	(ostype &)(os \| uli); nl( os );
117	} // ?\|?
118
119	ostype & ?\|?( ostype & os, long long int lli ) {
120	if ( sepPrt( os ) ) fmt( os, "%s", sepGetCur( os ) );
121	fmt( os, "%lld", lli );
122	return os;
123	} // ?\|?
124	void & ?\|?( ostype & os, long long int lli ) {
125	(ostype &)(os \| lli); nl( os );
126	} // ?\|?
127
128	ostype & ?\|?( ostype & os, unsigned long long int ulli ) {
129	if ( sepPrt( os ) ) fmt( os, "%s", sepGetCur( os ) );
130	fmt( os, "%llu", ulli );
131	return os;
132	} // ?\|?
133	void & ?\|?( ostype & os, unsigned long long int ulli ) {
134	(ostype &)(os \| ulli); nl( os );
135	} // ?\|?
136
137	ostype & ?\|?( ostype & os, float f ) {
138	if ( sepPrt( os ) ) fmt( os, "%s", sepGetCur( os ) );
139	fmt( os, "%g", f );
140	return os;
141	} // ?\|?
142	void & ?\|?( ostype & os, float f ) {
143	(ostype &)(os \| f); nl( os );
144	} // ?\|?
145
146	ostype & ?\|?( ostype & os, double d ) {
147	if ( sepPrt( os ) ) fmt( os, "%s", sepGetCur( os ) );
148	fmt( os, "%.*lg", DBL_DIG, d );
149	return os;
150	} // ?\|?
151	void & ?\|?( ostype & os, double d ) {
152	(ostype &)(os \| d); nl( os );
153	} // ?\|?
154
155	ostype & ?\|?( ostype & os, long double ld ) {
156	if ( sepPrt( os ) ) fmt( os, "%s", sepGetCur( os ) );
157	fmt( os, "%.*Lg", LDBL_DIG, ld );
158	return os;
159	} // ?\|?
160	void & ?\|?( ostype & os, long double ld ) {
161	(ostype &)(os \| ld); nl( os );
162	} // ?\|?
163
164	ostype & ?\|?( ostype & os, float _Complex fc ) {
165	if ( sepPrt( os ) ) fmt( os, "%s", sepGetCur( os ) );
166	fmt( os, "%g%+gi", crealf( fc ), cimagf( fc ) );
167	return os;
168	} // ?\|?
169	void & ?\|?( ostype & os, float _Complex fc ) {
170	(ostype &)(os \| fc); nl( os );
171	} // ?\|?
172
173	ostype & ?\|?( ostype & os, double _Complex dc ) {
174	if ( sepPrt( os ) ) fmt( os, "%s", sepGetCur( os ) );
175	fmt( os, "%.lg%+.lgi", DBL_DIG, creal( dc ), DBL_DIG, cimag( dc ) );
176	return os;
177	} // ?\|?
178	void & ?\|?( ostype & os, double _Complex dc ) {
179	(ostype &)(os \| dc); nl( os );
180	} // ?\|?
181
182	ostype & ?\|?( ostype & os, long double _Complex ldc ) {
183	if ( sepPrt( os ) ) fmt( os, "%s", sepGetCur( os ) );
184	fmt( os, "%.Lg%+.Lgi", LDBL_DIG, creall( ldc ), LDBL_DIG, cimagl( ldc ) );
185	return os;
186	} // ?\|?
187	void & ?\|?( ostype & os, long double _Complex ldc ) {
188	(ostype &)(os \| ldc); nl( os );
189	} // ?\|?
190
191	ostype & ?\|?( ostype & os, const char * str ) {
192	enum { Open = 1, Close, OpenClose };
193	static const unsigned char mask[256] @= {
194	// opening delimiters, no space after
195	['('] : Open, ['['] : Open, ['{'] : Open,
196	['='] : Open, ['$'] : Open, [(unsigned char)'£'] : Open, [(unsigned char)'¥'] : Open,
197	[(unsigned char)'¡'] : Open, [(unsigned char)'¿'] : Open, [(unsigned char)'«'] : Open,
198	// closing delimiters, no space before
199	[','] : Close, ['.'] : Close, [';'] : Close, ['!'] : Close, ['?'] : Close,
200	['%'] : Close, [(unsigned char)'¢'] : Close, [(unsigned char)'»'] : Close,
201	[')'] : Close, [']'] : Close, ['}'] : Close,
202	// opening-closing delimiters, no space before or after
203	['\''] : OpenClose, ['`'] : OpenClose, ['"'] : OpenClose, [':'] : OpenClose,
204	[' '] : OpenClose, ['\f'] : OpenClose, ['\n'] : OpenClose, ['\r'] : OpenClose, ['\t'] : OpenClose, ['\v'] : OpenClose, // isspace
205	}; // mask
206
207	if ( str[0] == '\0' ) { sepOff( os ); return os; } // null string => no separator
208
209	// first character IS NOT spacing or closing punctuation => add left separator
210	unsigned char ch = str[0]; // must make unsigned
211	if ( sepPrt( os ) && mask[ ch ] != Close && mask[ ch ] != OpenClose ) {
212	fmt( os, "%s", sepGetCur( os ) );
213	} // if
214
215	// if string starts line, must reset to determine open state because separator is off
216	sepReset( os ); // reset separator
217
218	// last character IS spacing or opening punctuation => turn off separator for next item
219	size_t len = strlen( str );
220	ch = str[len - 1]; // must make unsigned
221	if ( sepPrt( os ) && mask[ ch ] != Open && mask[ ch ] != OpenClose ) {
222	sepOn( os );
223	} else {
224	sepOff( os );
225	} // if
226	if ( ch == '\n' ) setNL( os, true ); // check AFTER sepPrt call above as it resets NL flag
227	return write( os, str, len );
228	} // ?\|?
229	void ?\|?( ostype & os, const char * str ) {
230	(ostype &)(os \| str); nl( os );
231	} // ?\|?
232
233	// ostype & ?\|?( ostype & os, const char16_t * str ) {
234	// if ( sepPrt( os ) ) fmt( os, "%s", sepGetCur( os ) );
235	// fmt( os, "%ls", str );
236	// return os;
237	// } // ?\|?
238
239	// #if ! ( __ARM_ARCH_ISA_ARM == 1 && __ARM_32BIT_STATE == 1 ) // char32_t == wchar_t => ambiguous
240	// ostype & ?\|?( ostype & os, const char32_t * str ) {
241	// if ( sepPrt( os ) ) fmt( os, "%s", sepGetCur( os ) );
242	// fmt( os, "%ls", str );
243	// return os;
244	// } // ?\|?
245	// #endif // ! ( __ARM_ARCH_ISA_ARM == 1 && __ARM_32BIT_STATE == 1 )
246
247	// ostype & ?\|?( ostype & os, const wchar_t * str ) {
248	// if ( sepPrt( os ) ) fmt( os, "%s", sepGetCur( os ) );
249	// fmt( os, "%ls", str );
250	// return os;
251	// } // ?\|?
252
253	ostype & ?\|?( ostype & os, const void * p ) {
254	if ( sepPrt( os ) ) fmt( os, "%s", sepGetCur( os ) );
255	fmt( os, "%p", p );
256	return os;
257	} // ?\|?
258	void ?\|?( ostype & os, const void * p ) {
259	(ostype &)(os \| p); nl( os );
260	} // ?\|?
261
262	// manipulators
263	ostype & ?\|?( ostype & os, ostype & (* manip)( ostype & ) ) {
264	(ostype &)(manip( os ));
265	return os;
266	} // ?\|?
267	void ?\|?( ostype & os, ostype & (* manip)( ostype & ) ) {
268	(ostype &)(manip( os ));
269	if ( getPrt( os ) ) nl( os ); // something printed ?
270	setPrt( os, false ); // turn off
271	} // ?\|?
272
273	ostype & sep( ostype & os ) {
274	return (ostype &)(os \| sepGet( os ));
275	} // sep
276
277	ostype & sepTuple( ostype & os ) {
278	return os \| sepGetTuple( os );
279	} // sepTuple
280
281	ostype & nl( ostype & os ) {
282	(ostype &)(os \| '\n');
283	setPrt( os, false ); // turn off
284	setNL( os, true );
285	flush( os );
286	return sepOff( os ); // prepare for next line
287	} // nl
288
289	void nl( ostype & os ) {
290	if ( getANL( os ) ) (ostype &)(nl( os )); // implementation only
291	else setPrt( os, false ); // turn off
292	} // nl
293
294	ostype & nonl( ostype & os ) {
295	setPrt( os, false ); // turn off
296	return os;
297	} // nonl
298
299	ostype & sepOn( ostype & os ) {
300	sepOn( os ); // call void returning
301	return os;
302	} // sepOn
303
304	ostype & sepOff( ostype & os ) {
305	sepOff( os ); // call void returning
306	return os;
307	} // sepOff
308
309	ostype & sepEnable( ostype & os ) {
310	sepEnable( os ); // call void returning
311	return os;
312	} // sepEnable
313
314	ostype & sepDisable( ostype & os ) {
315	sepDisable( os ); // call void returning
316	return os;
317	} // sepDisable
318
319	ostype & nlOn( ostype & os ) {
320	nlOn( os ); // call void returning
321	return os;
322	} // nlOn
323
324	ostype & nlOff( ostype & os ) {
325	nlOff( os ); // call void returning
326	return os;
327	} // nlOff
328	} // distribution
329
330	// tuples
331	forall( dtype ostype, otype T, ttype Params \| writeable( T, ostype ) \| { ostype & ?\|?( ostype &, Params ); } ) {
332	ostype & ?\|?( ostype & os, T arg, Params rest ) {
333	(ostype &)(os \| arg); // print first argument
334	sepSetCur( os, sepGetTuple( os ) ); // switch to tuple separator
335	(ostype &)(os \| rest); // print remaining arguments
336	sepSetCur( os, sepGet( os ) ); // switch to regular separator
337	return os;
338	} // ?\|?
339	void ?\|?( ostype & os, T arg, Params rest ) {
340	// (ostype &)(?\|?( os, arg, rest )); nl( os );
341	(ostype &)(os \| arg); // print first argument
342	sepSetCur( os, sepGetTuple( os ) ); // switch to tuple separator
343	(ostype &)(os \| rest); // print remaining arguments
344	sepSetCur( os, sepGet( os ) ); // switch to regular separator
345	nl( os );
346	} // ?\|?
347	} // distribution
348
349	//---------------------------------------
350
351	// writes the range [begin, end) to the given stream
352	forall( dtype ostype, otype elt_type \| writeable( elt_type, ostype ), otype iterator_type \| iterator( iterator_type, elt_type ) ) {
353	void write( iterator_type begin, iterator_type end, ostype & os ) {
354	void print( elt_type i ) { os \| i; }
355	for_each( begin, end, print );
356	} // ?\|?
357
358	void write_reverse( iterator_type begin, iterator_type end, ostype & os ) {
359	void print( elt_type i ) { os \| i; }
360	for_each_reverse( begin, end, print );
361	} // ?\|?
362	} // distribution
363
364	//---------------------------------------
365
366	forall( dtype istype \| istream( istype ) ) {
367	istype & ?\|?( istype & is, bool & b ) {
368	char val[6];
369	fmt( is, "%5s", val );
370	if ( strcmp( val, "true" ) == 0 ) b = true;
371	else if ( strcmp( val, "false" ) == 0 ) b = false;
372	else {
373	fprintf( stderr, "invalid Boolean constant\n" );
374	abort();
375	} // if
376	return is;
377	} // ?\|?
378
379	istype & ?\|?( istype & is, char & c ) {
380	fmt( is, "%c", &c ); // must pass pointer through varg to fmt
381	return is;
382	} // ?\|?
383
384	istype & ?\|?( istype & is, signed char & sc ) {
385	fmt( is, "%hhd", &sc );
386	return is;
387	} // ?\|?
388
389	istype & ?\|?( istype & is, unsigned char & usc ) {
390	fmt( is, "%hhu", &usc );
391	return is;
392	} // ?\|?
393
394	istype & ?\|?( istype & is, short int & si ) {
395	fmt( is, "%hd", &si );
396	return is;
397	} // ?\|?
398
399	istype & ?\|?( istype & is, unsigned short int & usi ) {
400	fmt( is, "%hu", &usi );
401	return is;
402	} // ?\|?
403
404	istype & ?\|?( istype & is, int & i ) {
405	fmt( is, "%d", &i );
406	return is;
407	} // ?\|?
408
409	istype & ?\|?( istype & is, unsigned int & ui ) {
410	fmt( is, "%u", &ui );
411	return is;
412	} // ?\|?
413
414	istype & ?\|?( istype & is, long int & li ) {
415	fmt( is, "%ld", &li );
416	return is;
417	} // ?\|?
418
419	istype & ?\|?( istype & is, unsigned long int & ulli ) {
420	fmt( is, "%lu", &ulli );
421	return is;
422	} // ?\|?
423
424	istype & ?\|?( istype & is, long long int & lli ) {
425	fmt( is, "%lld", &lli );
426	return is;
427	} // ?\|?
428
429	istype & ?\|?( istype & is, unsigned long long int & ulli ) {
430	fmt( is, "%llu", &ulli );
431	return is;
432	} // ?\|?
433
434
435	istype & ?\|?( istype & is, float & f ) {
436	fmt( is, "%f", &f );
437	return is;
438	} // ?\|?
439
440	istype & ?\|?( istype & is, double & d ) {
441	fmt( is, "%lf", &d );
442	return is;
443	} // ?\|?
444
445	istype & ?\|?( istype & is, long double & ld ) {
446	fmt( is, "%Lf", &ld );
447	return is;
448	} // ?\|?
449
450
451	istype & ?\|?( istype & is, float _Complex & fc ) {
452	float re, im;
453	fmt( is, "%g%gi", &re, &im );
454	fc = re + im * _Complex_I;
455	return is;
456	} // ?\|?
457
458	istype & ?\|?( istype & is, double _Complex & dc ) {
459	double re, im;
460	fmt( is, "%lf%lfi", &re, &im );
461	dc = re + im * _Complex_I;
462	return is;
463	} // ?\|?
464
465	istype & ?\|?( istype & is, long double _Complex & ldc ) {
466	long double re, im;
467	fmt( is, "%Lf%Lfi", &re, &im );
468	ldc = re + im * _Complex_I;
469	return is;
470	} // ?\|?
471
472
473	// manipulators
474	istype & ?\|?( istype & is, istype & (* manip)( istype & ) ) {
475	return manip( is );
476	} // ?\|?
477
478	istype & nl( istype & is ) {
479	fmt( is, "%*[ \t\f\n\r\v]" ); // ignore whitespace
480	return is;
481	} // nl
482	} // distribution
483
484	_Istream_cstrUC cstr( char * str ) { return (_Istream_cstrUC){ str }; }
485	forall( dtype istype \| istream( istype ) )
486	istype & ?\|?( istype & is, _Istream_cstrUC cstr ) {
487	fmt( is, "%s", cstr.s );
488	return is;
489	} // cstr
490
491	_Istream_cstrC cstr( char * str, int size ) { return (_Istream_cstrC){ str, size }; }
492	forall( dtype istype \| istream( istype ) )
493	istype & ?\|?( istype & is, _Istream_cstrC cstr ) {
494	char buf[16];
495	sprintf( buf, "%%%ds", cstr.size );
496	fmt( is, buf, cstr.s );
497	return is;
498	} // cstr
499
500	// Local Variables: //
501	// tab-width: 4 //
502	// compile-command: "cfa iostream.cfa" //
503	// End: //

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