source: libcfa/src/collections/string.cfa @ 35c792f

Last change on this file since 35c792f was fbe3f03, checked in by Peter A. Buhr <pabuhr@…>, 7 months ago

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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// string -- variable-length, mutable run of text, with value semantics
8//
9// Author           : Michael L. Brooks
10// Created On       : Fri Sep 03 11:00:00 2021
11// Last Modified By : Peter A. Buhr
12// Last Modified On : Mon Apr 15 21:56:28 2024
13// Update Count     : 260
14//
15
16#include "string.hfa"
17#include "string_res.hfa"
18#include <stdlib.hfa>
19
20#pragma GCC visibility push(default)
21
22/*
23Implementation Principle: typical operation translates to the equivalent
24operation on `inner`.  Exceptions are implementing new RAII pattern for value
25semantics and some const-hell handling.
26*/
27
28////////////////////////////////////////////////////////
29// string RAII
30
31// private (not in header)
32static void ?{}( string & s, string_res & src, size_t start, size_t len ) {
33    (s.inner) { malloc() };
34    ?{}( *s.inner, src, SHARE_EDITS, start, len );
35}
36
37void ?{}( string & s ) {
38    (s.inner) { malloc() };
39    ?{}( *s.inner );
40}
41
42void ?{}( string & s, const string & c ) {
43    (s.inner) { malloc() };
44    ?{}( *s.inner, *c.inner, COPY_VALUE );
45}
46
47void ?{}( string & s, const string & s2, size_t maxlen) {
48    (s.inner) { malloc() };
49    ?{}( *s.inner, *s2.inner, COPY_VALUE, maxlen );
50}
51
52
53void ?{}( string & s, string & c ) {
54    ?{}( s, (const string &) c );
55}
56
57void ?{}( string & s, const char c ) {
58    (s.inner) { malloc() };
59    ?{}( *s.inner, c );
60}
61
62void ?{}( string & s, const char * c ) {
63    (s.inner) { malloc() };
64    ?{}( *s.inner, c );
65}
66
67void ?{}( string & s, const char * c, size_t size) {
68    (s.inner) { malloc() };
69    ?{}( *s.inner, c, size );
70}
71
72void ?{}( string & s, ssize_t rhs ) {
73    (s.inner) { malloc() };
74    ?{}( *s.inner, rhs );
75}
76
77void ?{}( string & s, size_t rhs ) {
78    (s.inner) { malloc() };
79    ?{}( *s.inner, rhs );
80}
81
82void ?{}( string & s, double rhs ) {
83    (s.inner) { malloc() };
84    ?{}( *s.inner, rhs );
85}
86
87void ?{}( string & s, long double rhs ) {
88    (s.inner) { malloc() };
89    ?{}( *s.inner, rhs );
90}
91
92void ?{}( string & s, double _Complex rhs ) {
93    (s.inner) { malloc() };
94    ?{}( *s.inner, rhs );
95}
96
97void ?{}( string & s, long double _Complex rhs ) {
98    (s.inner) { malloc() };
99    ?{}( *s.inner, rhs );
100}
101
102void ^?{}( string & s ) {
103    ^(*s.inner){};
104    free( s.inner );
105    s.inner = 0p;
106}
107
108////////////////////////////////////////////////////////
109// Alternate construction: request shared edits
110
111string_WithSharedEdits ?`shareEdits( string & s ) {
112    string_WithSharedEdits ret = { &s };
113    return ret;
114}
115
116void ?{}( string & s, string_WithSharedEdits src ) {
117    ?{}( s, *src.s->inner, 0, src.s->inner->Handle.lnth);
118}
119
120////////////////////////////////////////////////////////
121// Assignment
122
123string & ?=?(string & s, const string & c) {
124    (*s.inner) = (*c.inner);
125    return s;
126}
127
128string & ?=?(string & s, string & c) {
129    (*s.inner) = (*c.inner);
130    return s;
131}
132
133string & ?=?( string & s, const char * val ) {
134    (*s.inner) = val;
135    return s;
136}
137
138string & ?=?( string & s, char val ) {
139    (*s.inner) = val;
140    return s;
141}
142
143string & assign(string & s, const string & c, size_t n) {
144    assign(*s.inner, *c.inner, n);
145    return s;
146}
147
148string & assign(string & s, const char * c, size_t n) {
149    assign(*s.inner, c, n);
150    return s;
151}
152
153string & ?=?( string & s, ssize_t rhs ) {
154    (*s.inner) = rhs;
155    return s;
156}
157
158string & ?=?( string & s, size_t rhs ) {
159    (*s.inner) = rhs;
160    return s;
161}
162
163string & ?=?( string & s, double rhs ) {
164    (*s.inner) = rhs;
165    return s;
166}
167
168string & ?=?( string & s, long double rhs ) {
169    (*s.inner) = rhs;
170    return s;
171}
172
173string & ?=?( string & s, double _Complex rhs ) {
174    (*s.inner) = rhs;
175    return s;
176}
177
178string & ?=?( string & s, long double _Complex rhs ) {
179    (*s.inner) = rhs;
180    return s;
181}
182
183////////////////////////////////////////////////////////
184// Input-Output
185
186ofstream & ?|?( ofstream & out, const string & s ) {
187    return out | (*s.inner); // print internal string_res
188}
189
190void ?|?( ofstream & out, const string & s ) {
191    (ofstream &)(out | (*s.inner)); ends( out );
192}
193
194ofstream & ?|?( ofstream & os, _Ostream_Manip(string) f ) {
195        size_t len = size( f.val );
196        char cstr[len + 1];                                                                     // room for null terminator
197        for ( i; len ) cstr[i] = f.val[i];                                      // copy string
198        cstr[len] = '\0';                                                                       // terminate
199        _Ostream_Manip(const char *) cf @= { cstr, f.wd, f.pc, f.base, {f.all} };
200        return os | cf | nonl;
201} // ?|?
202
203void ?|?( ofstream & os, _Ostream_Manip(string) f ) {
204        (ofstream &)(os | f); ends( os );
205}
206
207ifstream & ?|?(ifstream & in, string & s) {
208    return in | (*s.inner); // read to internal string_res
209}
210
211ifstream & ?|?( ifstream & is, _Istream_Squoted f ) {
212        _Istream_Rquoted f2 = { { f.sstr.s.inner, (_Istream_str_base)f.sstr } };
213    return is | f2;
214} // ?|?
215
216ifstream & ?|?( ifstream & is, _Istream_Sstr f ) {
217//      _Istream_Rstr f2 = {f.sstr.s.inner, (_Istream_str_base)f.sstr};
218        _Istream_Rstr f2 = {f.s.inner, (_Istream_str_base)f};
219    return is | f2;
220} // ?|?
221
222////////////////////////////////////////////////////////
223// Slicing
224
225string ?()( string & s, size_t start, size_t len ) {
226    string ret = { *s.inner, start, len };
227    return ret`shareEdits;
228}
229
230string ?()( string & s, size_t start ) {
231    string ret = { *s.inner, start, size( s ) - start };
232    return ret`shareEdits;
233}
234
235////////////////////////////////////////////////////////
236// Comparison
237
238int  strcmp(const string & s1, const string & s2) { return strcmp(*s1.inner, *s2.inner); }
239bool ?==?(const string & s1, const string & s2) { return *s1.inner == *s2.inner; }
240bool ?!=?(const string & s1, const string & s2) { return *s1.inner != *s2.inner; }
241bool ?>? (const string & s1, const string & s2) { return *s1.inner >  *s2.inner; }
242bool ?>=?(const string & s1, const string & s2) { return *s1.inner >= *s2.inner; }
243bool ?<=?(const string & s1, const string & s2) { return *s1.inner <= *s2.inner; }
244bool ?<? (const string & s1, const string & s2) { return *s1.inner <  *s2.inner; }
245
246int  strcmp(const string & s1, const char * s2) { return strcmp(*s1.inner, s2 ); }
247bool ?==?(const string & s1, const char * s2) { return *s1.inner == s2; }
248bool ?!=?(const string & s1, const char * s2) { return *s1.inner != s2; }
249bool ?>? (const string & s1, const char * s2) { return *s1.inner >  s2; }
250bool ?>=?(const string & s1, const char * s2) { return *s1.inner >= s2; }
251bool ?<=?(const string & s1, const char * s2) { return *s1.inner <= s2; }
252bool ?<? (const string & s1, const char * s2) { return *s1.inner <  s2; }
253
254int  strcmp(const char * s1, const string & s2) { return strcmp( s1, *s2.inner); }
255bool ?==?(const char * s1, const string & s2) { return s1 == *s2.inner; }
256bool ?!=?(const char * s1, const string & s2) { return s1 != *s2.inner; }
257bool ?>? (const char * s1, const string & s2) { return s1 >  *s2.inner; }
258bool ?>=?(const char * s1, const string & s2) { return s1 >= *s2.inner; }
259bool ?<=?(const char * s1, const string & s2) { return s1 <= *s2.inner; }
260bool ?<? (const char * s1, const string & s2) { return s1 <  *s2.inner; }
261
262
263////////////////////////////////////////////////////////
264// Getter
265
266size_t size(const string & s) {
267    return size( *s.inner );
268}
269
270////////////////////////////////////////////////////////
271// Concatenation
272
273void ?+=?(string & s, char c) {
274    (*s.inner) += c;
275}
276
277void ?+=?(string & s, const string & s2) {
278    (*s.inner) += (*s2.inner);
279}
280
281void append(string & s, const string & s2, size_t maxlen) {
282    append( (*s.inner), (*s2.inner), maxlen );
283}
284
285void ?+=?(string & s, const char * c) {
286    (*s.inner) += c;
287}
288
289void append(string & s, const char * buffer, size_t bsize) {
290    append( (*s.inner), buffer, bsize );
291}
292
293string ?+?(const string & s, char c) {
294    string ret = s;
295    ret += c;
296    return ret;
297}
298
299string ?+?(const string & s, const string & s2) {
300    string ret = s;
301    ret += s2;
302    return ret;
303}
304
305string ?+?(const char * s1, const char * s2) {
306    string ret = s1;
307    ret += s2;
308    return ret;
309}
310
311string ?+?(const string & s, const char * c) {
312    string ret = s;
313    ret += c;
314    return ret;
315}
316
317////////////////////////////////////////////////////////
318// Repetition
319
320void ?*=?(string & s, size_t factor) {
321    (*s.inner) *= factor;
322}
323
324string ?*?(const string & s, size_t factor) {
325    string ret = s;
326    ret *= factor;
327    return ret;
328}
329
330string ?*?(char c, size_t factor) {
331    string ret = c;
332    ret *= factor;
333    return ret;
334}
335
336string ?*?(const char * s, size_t factor) {
337    string ret = s;
338    ret *= factor;
339    return ret;
340}
341
342////////////////////////////////////////////////////////
343// Character access
344
345char ?[?](const string & s, size_t index) {
346    return (*s.inner)[index];
347}
348
349string ?[?](string & s, size_t index) {
350    string ret = { *s.inner, index, 1 };
351    return ret`shareEdits;
352}
353
354////////////////////////////////////////////////////////
355// Search
356
357bool contains(const string & s, char ch) {
358    return contains( *s.inner, ch );
359}
360
361int find(const string & s, char search) {
362    return find( *s.inner, search );
363}
364
365int find(const string & s, const string & search) {
366    return find( *s.inner, *search.inner );
367}
368
369int find(const string & s, const char * search) {
370    return find( *s.inner, search);
371}
372
373int find(const string & s, const char * search, size_t searchsize) {
374    return find( *s.inner, search, searchsize);
375}
376
377int findFrom(const string & s, size_t fromPos, char search) {
378    return findFrom( *s.inner, fromPos, search );
379}
380
381int findFrom(const string & s, size_t fromPos, const string & search) {
382    return findFrom( *s.inner, fromPos, *search.inner );
383}
384
385int findFrom(const string & s, size_t fromPos, const char * search) {
386    return findFrom( *s.inner, fromPos, search );
387}
388
389int findFrom(const string & s, size_t fromPos, const char * search, size_t searchsize) {
390    return findFrom( *s.inner, fromPos, search, searchsize );
391}
392
393bool includes(const string & s, const string & search) {
394    return includes( *s.inner, *search.inner );
395}
396
397bool includes(const string & s, const char * search) {
398    return includes( *s.inner, search );
399}
400
401bool includes(const string & s, const char * search, size_t searchsize) {
402    return includes( *s.inner, search, searchsize );
403}
404
405bool startsWith(const string & s, const string & prefix) {
406    return startsWith( *s.inner, *prefix.inner );
407}
408
409bool startsWith(const string & s, const char * prefix) {
410    return startsWith( *s.inner, prefix );
411}
412
413bool startsWith(const string & s, const char * prefix, size_t prefixsize) {
414    return startsWith( *s.inner, prefix, prefixsize );
415}
416
417bool endsWith(const string & s, const string & suffix) {
418    return endsWith( *s.inner, *suffix.inner );
419}
420
421bool endsWith(const string & s, const char * suffix) {
422    return endsWith( *s.inner, suffix );
423}
424
425bool endsWith(const string & s, const char * suffix, size_t suffixsize) {
426    return endsWith( *s.inner, suffix, suffixsize );
427}
428
429
430///////////////////////////////////////////////////////////////////////////
431// charclass, include, exclude
432
433void ?{}( charclass & s, const string & chars) {
434    (s.inner) { malloc() };
435    ?{}( *s.inner, *(const string_res *)chars.inner );
436}
437
438void ?{}( charclass & s, const char * chars ) {
439    (s.inner) { malloc() };
440    ?{}( *s.inner, chars );
441}
442
443void ?{}( charclass & s, const char * chars, size_t charssize ) {
444    (s.inner) { malloc() };
445    ?{}( *s.inner, chars, charssize );
446}
447
448void ^?{}( charclass & s ) {
449    ^(*s.inner){};
450    free( s.inner );
451    s.inner = 0p;
452}
453
454
455int exclude(const string & s, const charclass & mask) {
456    return exclude( *s.inner, *mask.inner );
457}
458/*
459StrSlice exclude(string & s, const charclass & mask) {
460}
461*/
462
463int include(const string & s, const charclass & mask) {
464    return include( *s.inner, *mask.inner );
465}
466
467/*
468StrSlice include(string & s, const charclass & mask) {
469}
470*/
471
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