]> git.saurik.com Git - apple/icu.git/blame - icuSources/test/intltest/convtest.cpp
ICU-511.27.tar.gz
[apple/icu.git] / icuSources / test / intltest / convtest.cpp
CommitLineData
374ca955
A
1/*
2*******************************************************************************
3*
51004dcb 4* Copyright (C) 2003-2013, International Business Machines
374ca955
A
5* Corporation and others. All Rights Reserved.
6*
7*******************************************************************************
8* file name: convtest.cpp
9* encoding: US-ASCII
10* tab size: 8 (not used)
11* indentation:4
12*
13* created on: 2003jul15
14* created by: Markus W. Scherer
15*
16* Test file for data-driven conversion tests.
17*/
18
19#include "unicode/utypes.h"
20
21#if !UCONFIG_NO_LEGACY_CONVERSION
22/*
23 * Note: Turning off all of convtest.cpp if !UCONFIG_NO_LEGACY_CONVERSION
24 * is slightly unnecessary - it removes tests for Unicode charsets
25 * like UTF-8 that should work.
26 * However, there is no easy way for the test to detect whether a test case
27 * is for a Unicode charset, so it would be difficult to only exclude those.
28 * Also, regular testing of ICU is done with all modules on, therefore
29 * not testing conversion for a custom configuration like this should be ok.
30 */
31
32#include "unicode/ucnv.h"
33#include "unicode/unistr.h"
34#include "unicode/parsepos.h"
35#include "unicode/uniset.h"
36#include "unicode/ustring.h"
37#include "unicode/ures.h"
38#include "convtest.h"
39#include "unicode/tstdtmod.h"
40#include <string.h>
41#include <stdlib.h>
42
43#define LENGTHOF(array) (int32_t)(sizeof(array)/sizeof((array)[0]))
44
45enum {
46 // characters used in test data for callbacks
47 SUB_CB='?',
48 SKIP_CB='0',
49 STOP_CB='.',
50 ESC_CB='&'
51};
52
46f4442e
A
53ConversionTest::ConversionTest() {
54 UErrorCode errorCode=U_ZERO_ERROR;
55 utf8Cnv=ucnv_open("UTF-8", &errorCode);
56 ucnv_setToUCallBack(utf8Cnv, UCNV_TO_U_CALLBACK_STOP, NULL, NULL, NULL, &errorCode);
57 if(U_FAILURE(errorCode)) {
58 errln("unable to open UTF-8 converter");
59 }
60}
61
62ConversionTest::~ConversionTest() {
63 ucnv_close(utf8Cnv);
64}
374ca955
A
65
66void
67ConversionTest::runIndexedTest(int32_t index, UBool exec, const char *&name, char * /*par*/) {
68 if (exec) logln("TestSuite ConversionTest: ");
69 switch (index) {
729e4ab9 70#if !UCONFIG_NO_FILE_IO
374ca955
A
71 case 0: name="TestToUnicode"; if (exec) TestToUnicode(); break;
72 case 1: name="TestFromUnicode"; if (exec) TestFromUnicode(); break;
73 case 2: name="TestGetUnicodeSet"; if (exec) TestGetUnicodeSet(); break;
729e4ab9
A
74#else
75 case 0:
76 case 1:
77 case 2: name="skip"; break;
78#endif
46f4442e 79 case 3: name="TestGetUnicodeSet2"; if (exec) TestGetUnicodeSet2(); break;
374ca955
A
80 default: name=""; break; //needed to end loop
81 }
82}
83
84// test data interface ----------------------------------------------------- ***
85
86void
87ConversionTest::TestToUnicode() {
88 ConversionCase cc;
89 char charset[100], cbopt[4];
90 const char *option;
91 UnicodeString s, unicode;
92 int32_t offsetsLength;
93 UConverterToUCallback callback;
94
95 TestDataModule *dataModule;
96 TestData *testData;
97 const DataMap *testCase;
98 UErrorCode errorCode;
99 int32_t i;
100
101 errorCode=U_ZERO_ERROR;
102 dataModule=TestDataModule::getTestDataModule("conversion", *this, errorCode);
103 if(U_SUCCESS(errorCode)) {
104 testData=dataModule->createTestData("toUnicode", errorCode);
105 if(U_SUCCESS(errorCode)) {
106 for(i=0; testData->nextCase(testCase, errorCode); ++i) {
107 if(U_FAILURE(errorCode)) {
108 errln("error retrieving conversion/toUnicode test case %d - %s",
109 i, u_errorName(errorCode));
110 errorCode=U_ZERO_ERROR;
111 continue;
112 }
113
114 cc.caseNr=i;
115
116 s=testCase->getString("charset", errorCode);
117 s.extract(0, 0x7fffffff, charset, sizeof(charset), "");
118 cc.charset=charset;
119
120 cc.bytes=testCase->getBinary(cc.bytesLength, "bytes", errorCode);
121 unicode=testCase->getString("unicode", errorCode);
122 cc.unicode=unicode.getBuffer();
123 cc.unicodeLength=unicode.length();
124
125 offsetsLength=0;
126 cc.offsets=testCase->getIntVector(offsetsLength, "offsets", errorCode);
127 if(offsetsLength==0) {
128 cc.offsets=NULL;
129 } else if(offsetsLength!=unicode.length()) {
130 errln("toUnicode[%d] unicode[%d] and offsets[%d] must have the same length",
131 i, unicode.length(), offsetsLength);
132 errorCode=U_ILLEGAL_ARGUMENT_ERROR;
133 }
134
135 cc.finalFlush= 0!=testCase->getInt28("flush", errorCode);
136 cc.fallbacks= 0!=testCase->getInt28("fallbacks", errorCode);
137
138 s=testCase->getString("errorCode", errorCode);
139 if(s==UNICODE_STRING("invalid", 7)) {
140 cc.outErrorCode=U_INVALID_CHAR_FOUND;
141 } else if(s==UNICODE_STRING("illegal", 7)) {
142 cc.outErrorCode=U_ILLEGAL_CHAR_FOUND;
143 } else if(s==UNICODE_STRING("truncated", 9)) {
144 cc.outErrorCode=U_TRUNCATED_CHAR_FOUND;
145 } else if(s==UNICODE_STRING("illesc", 6)) {
146 cc.outErrorCode=U_ILLEGAL_ESCAPE_SEQUENCE;
147 } else if(s==UNICODE_STRING("unsuppesc", 9)) {
148 cc.outErrorCode=U_UNSUPPORTED_ESCAPE_SEQUENCE;
149 } else {
150 cc.outErrorCode=U_ZERO_ERROR;
151 }
152
153 s=testCase->getString("callback", errorCode);
154 s.extract(0, 0x7fffffff, cbopt, sizeof(cbopt), "");
155 cc.cbopt=cbopt;
156 switch(cbopt[0]) {
157 case SUB_CB:
158 callback=UCNV_TO_U_CALLBACK_SUBSTITUTE;
159 break;
160 case SKIP_CB:
161 callback=UCNV_TO_U_CALLBACK_SKIP;
162 break;
163 case STOP_CB:
164 callback=UCNV_TO_U_CALLBACK_STOP;
165 break;
166 case ESC_CB:
167 callback=UCNV_TO_U_CALLBACK_ESCAPE;
168 break;
169 default:
170 callback=NULL;
171 break;
172 }
173 option=callback==NULL ? cbopt : cbopt+1;
174 if(*option==0) {
175 option=NULL;
176 }
177
178 cc.invalidChars=testCase->getBinary(cc.invalidLength, "invalidChars", errorCode);
179
180 if(U_FAILURE(errorCode)) {
181 errln("error parsing conversion/toUnicode test case %d - %s",
182 i, u_errorName(errorCode));
183 errorCode=U_ZERO_ERROR;
184 } else {
185 logln("TestToUnicode[%d] %s", i, charset);
186 ToUnicodeCase(cc, callback, option);
187 }
188 }
189 delete testData;
190 }
191 delete dataModule;
192 }
193 else {
729e4ab9 194 dataerrln("Could not load test conversion data");
374ca955
A
195 }
196}
197
198void
199ConversionTest::TestFromUnicode() {
200 ConversionCase cc;
201 char charset[100], cbopt[4];
202 const char *option;
203 UnicodeString s, unicode, invalidUChars;
73c04bcf 204 int32_t offsetsLength, index;
374ca955
A
205 UConverterFromUCallback callback;
206
207 TestDataModule *dataModule;
208 TestData *testData;
209 const DataMap *testCase;
210 const UChar *p;
211 UErrorCode errorCode;
212 int32_t i, length;
213
214 errorCode=U_ZERO_ERROR;
215 dataModule=TestDataModule::getTestDataModule("conversion", *this, errorCode);
216 if(U_SUCCESS(errorCode)) {
217 testData=dataModule->createTestData("fromUnicode", errorCode);
218 if(U_SUCCESS(errorCode)) {
219 for(i=0; testData->nextCase(testCase, errorCode); ++i) {
220 if(U_FAILURE(errorCode)) {
221 errln("error retrieving conversion/fromUnicode test case %d - %s",
222 i, u_errorName(errorCode));
223 errorCode=U_ZERO_ERROR;
224 continue;
225 }
226
227 cc.caseNr=i;
228
229 s=testCase->getString("charset", errorCode);
230 s.extract(0, 0x7fffffff, charset, sizeof(charset), "");
231 cc.charset=charset;
232
233 unicode=testCase->getString("unicode", errorCode);
234 cc.unicode=unicode.getBuffer();
235 cc.unicodeLength=unicode.length();
236 cc.bytes=testCase->getBinary(cc.bytesLength, "bytes", errorCode);
237
238 offsetsLength=0;
239 cc.offsets=testCase->getIntVector(offsetsLength, "offsets", errorCode);
240 if(offsetsLength==0) {
241 cc.offsets=NULL;
242 } else if(offsetsLength!=cc.bytesLength) {
243 errln("fromUnicode[%d] bytes[%d] and offsets[%d] must have the same length",
244 i, cc.bytesLength, offsetsLength);
245 errorCode=U_ILLEGAL_ARGUMENT_ERROR;
246 }
247
248 cc.finalFlush= 0!=testCase->getInt28("flush", errorCode);
249 cc.fallbacks= 0!=testCase->getInt28("fallbacks", errorCode);
250
251 s=testCase->getString("errorCode", errorCode);
252 if(s==UNICODE_STRING("invalid", 7)) {
253 cc.outErrorCode=U_INVALID_CHAR_FOUND;
254 } else if(s==UNICODE_STRING("illegal", 7)) {
255 cc.outErrorCode=U_ILLEGAL_CHAR_FOUND;
256 } else if(s==UNICODE_STRING("truncated", 9)) {
257 cc.outErrorCode=U_TRUNCATED_CHAR_FOUND;
258 } else {
259 cc.outErrorCode=U_ZERO_ERROR;
260 }
261
262 s=testCase->getString("callback", errorCode);
73c04bcf 263 cc.setSub=0; // default: no subchar
374ca955 264
73c04bcf
A
265 if((index=s.indexOf((UChar)0))>0) {
266 // read NUL-separated subchar first, if any
374ca955
A
267 // copy the subchar from Latin-1 characters
268 // start after the NUL
73c04bcf
A
269 p=s.getTerminatedBuffer();
270 length=index+1;
374ca955
A
271 p+=length;
272 length=s.length()-length;
73c04bcf 273 if(length<=0 || length>=(int32_t)sizeof(cc.subchar)) {
374ca955
A
274 errorCode=U_ILLEGAL_ARGUMENT_ERROR;
275 } else {
276 int32_t j;
277
278 for(j=0; j<length; ++j) {
279 cc.subchar[j]=(char)p[j];
280 }
281 // NUL-terminate the subchar
282 cc.subchar[j]=0;
73c04bcf 283 cc.setSub=1;
374ca955
A
284 }
285
286 // remove the NUL and subchar from s
73c04bcf
A
287 s.truncate(index);
288 } else if((index=s.indexOf((UChar)0x3d))>0) /* '=' */ {
289 // read a substitution string, separated by an equal sign
290 p=s.getBuffer()+index+1;
291 length=s.length()-(index+1);
292 if(length<0 || length>=LENGTHOF(cc.subString)) {
293 errorCode=U_ILLEGAL_ARGUMENT_ERROR;
294 } else {
295 u_memcpy(cc.subString, p, length);
296 // NUL-terminate the subString
297 cc.subString[length]=0;
298 cc.setSub=-1;
299 }
300
301 // remove the equal sign and subString from s
302 s.truncate(index);
374ca955
A
303 }
304
305 s.extract(0, 0x7fffffff, cbopt, sizeof(cbopt), "");
306 cc.cbopt=cbopt;
307 switch(cbopt[0]) {
308 case SUB_CB:
309 callback=UCNV_FROM_U_CALLBACK_SUBSTITUTE;
310 break;
311 case SKIP_CB:
312 callback=UCNV_FROM_U_CALLBACK_SKIP;
313 break;
314 case STOP_CB:
315 callback=UCNV_FROM_U_CALLBACK_STOP;
316 break;
317 case ESC_CB:
318 callback=UCNV_FROM_U_CALLBACK_ESCAPE;
319 break;
320 default:
321 callback=NULL;
322 break;
323 }
324 option=callback==NULL ? cbopt : cbopt+1;
325 if(*option==0) {
326 option=NULL;
327 }
328
329 invalidUChars=testCase->getString("invalidUChars", errorCode);
330 cc.invalidUChars=invalidUChars.getBuffer();
331 cc.invalidLength=invalidUChars.length();
332
333 if(U_FAILURE(errorCode)) {
334 errln("error parsing conversion/fromUnicode test case %d - %s",
335 i, u_errorName(errorCode));
336 errorCode=U_ZERO_ERROR;
337 } else {
338 logln("TestFromUnicode[%d] %s", i, charset);
339 FromUnicodeCase(cc, callback, option);
340 }
341 }
342 delete testData;
343 }
344 delete dataModule;
345 }
346 else {
729e4ab9 347 dataerrln("Could not load test conversion data");
374ca955
A
348 }
349}
350
351static const UChar ellipsis[]={ 0x2e, 0x2e, 0x2e };
352
353void
354ConversionTest::TestGetUnicodeSet() {
355 char charset[100];
356 UnicodeString s, map, mapnot;
357 int32_t which;
358
359 ParsePosition pos;
360 UnicodeSet cnvSet, mapSet, mapnotSet, diffSet;
73c04bcf 361 UnicodeSet *cnvSetPtr = &cnvSet;
729e4ab9 362 LocalUConverterPointer cnv;
374ca955
A
363
364 TestDataModule *dataModule;
365 TestData *testData;
366 const DataMap *testCase;
367 UErrorCode errorCode;
368 int32_t i;
369
370 errorCode=U_ZERO_ERROR;
371 dataModule=TestDataModule::getTestDataModule("conversion", *this, errorCode);
372 if(U_SUCCESS(errorCode)) {
373 testData=dataModule->createTestData("getUnicodeSet", errorCode);
374 if(U_SUCCESS(errorCode)) {
375 for(i=0; testData->nextCase(testCase, errorCode); ++i) {
376 if(U_FAILURE(errorCode)) {
377 errln("error retrieving conversion/getUnicodeSet test case %d - %s",
378 i, u_errorName(errorCode));
379 errorCode=U_ZERO_ERROR;
380 continue;
381 }
382
383 s=testCase->getString("charset", errorCode);
384 s.extract(0, 0x7fffffff, charset, sizeof(charset), "");
385
386 map=testCase->getString("map", errorCode);
387 mapnot=testCase->getString("mapnot", errorCode);
388
389 which=testCase->getInt28("which", errorCode);
390
391 if(U_FAILURE(errorCode)) {
392 errln("error parsing conversion/getUnicodeSet test case %d - %s",
393 i, u_errorName(errorCode));
394 errorCode=U_ZERO_ERROR;
395 continue;
396 }
397
398 // test this test case
399 mapSet.clear();
400 mapnotSet.clear();
401
402 pos.setIndex(0);
403 mapSet.applyPattern(map, pos, 0, NULL, errorCode);
404 if(U_FAILURE(errorCode) || pos.getIndex()!=map.length()) {
405 errln("error creating the map set for conversion/getUnicodeSet test case %d - %s\n"
406 " error index %d index %d U+%04x",
407 i, u_errorName(errorCode), pos.getErrorIndex(), pos.getIndex(), map.char32At(pos.getIndex()));
408 errorCode=U_ZERO_ERROR;
409 continue;
410 }
411
412 pos.setIndex(0);
413 mapnotSet.applyPattern(mapnot, pos, 0, NULL, errorCode);
414 if(U_FAILURE(errorCode) || pos.getIndex()!=mapnot.length()) {
415 errln("error creating the mapnot set for conversion/getUnicodeSet test case %d - %s\n"
416 " error index %d index %d U+%04x",
417 i, u_errorName(errorCode), pos.getErrorIndex(), pos.getIndex(), mapnot.char32At(pos.getIndex()));
418 errorCode=U_ZERO_ERROR;
419 continue;
420 }
421
422 logln("TestGetUnicodeSet[%d] %s", i, charset);
423
729e4ab9 424 cnv.adoptInstead(cnv_open(charset, errorCode));
374ca955 425 if(U_FAILURE(errorCode)) {
729e4ab9 426 errcheckln(errorCode, "error opening \"%s\" for conversion/getUnicodeSet test case %d - %s",
374ca955
A
427 charset, i, u_errorName(errorCode));
428 errorCode=U_ZERO_ERROR;
429 continue;
430 }
431
729e4ab9 432 ucnv_getUnicodeSet(cnv.getAlias(), cnvSetPtr->toUSet(), (UConverterUnicodeSet)which, &errorCode);
374ca955
A
433
434 if(U_FAILURE(errorCode)) {
435 errln("error in ucnv_getUnicodeSet(\"%s\") for conversion/getUnicodeSet test case %d - %s",
436 charset, i, u_errorName(errorCode));
437 errorCode=U_ZERO_ERROR;
438 continue;
439 }
440
441 // are there items that must be in cnvSet but are not?
442 (diffSet=mapSet).removeAll(cnvSet);
443 if(!diffSet.isEmpty()) {
444 diffSet.toPattern(s, TRUE);
445 if(s.length()>100) {
446 s.replace(100, 0x7fffffff, ellipsis, LENGTHOF(ellipsis));
447 }
448 errln("error: ucnv_getUnicodeSet(\"%s\") is missing items - conversion/getUnicodeSet test case %d",
449 charset, i);
450 errln(s);
451 }
452
453 // are there items that must not be in cnvSet but are?
454 (diffSet=mapnotSet).retainAll(cnvSet);
455 if(!diffSet.isEmpty()) {
456 diffSet.toPattern(s, TRUE);
457 if(s.length()>100) {
458 s.replace(100, 0x7fffffff, ellipsis, LENGTHOF(ellipsis));
459 }
460 errln("error: ucnv_getUnicodeSet(\"%s\") contains unexpected items - conversion/getUnicodeSet test case %d",
461 charset, i);
462 errln(s);
463 }
464 }
465 delete testData;
466 }
467 delete dataModule;
468 }
469 else {
729e4ab9 470 dataerrln("Could not load test conversion data");
374ca955
A
471 }
472}
473
46f4442e
A
474U_CDECL_BEGIN
475static void U_CALLCONV
476getUnicodeSetCallback(const void *context,
477 UConverterFromUnicodeArgs * /*fromUArgs*/,
478 const UChar* /*codeUnits*/,
479 int32_t /*length*/,
480 UChar32 codePoint,
481 UConverterCallbackReason reason,
482 UErrorCode *pErrorCode) {
483 if(reason<=UCNV_IRREGULAR) {
484 ((UnicodeSet *)context)->remove(codePoint); // the converter cannot convert this code point
485 *pErrorCode=U_ZERO_ERROR; // skip
486 } // else ignore the reset, close and clone calls.
487}
488U_CDECL_END
489
490// Compare ucnv_getUnicodeSet() with the set of characters that can be converted.
491void
492ConversionTest::TestGetUnicodeSet2() {
493 // Build a string with all code points.
494 UChar32 cpLimit;
495 int32_t s0Length;
496 if(quick) {
497 cpLimit=s0Length=0x10000; // BMP only
498 } else {
499 cpLimit=0x110000;
500 s0Length=0x10000+0x200000; // BMP + surrogate pairs
501 }
502 UChar *s0=new UChar[s0Length];
503 if(s0==NULL) {
504 return;
505 }
506 UChar *s=s0;
507 UChar32 c;
508 UChar c2;
509 // low BMP
510 for(c=0; c<=0xd7ff; ++c) {
511 *s++=(UChar)c;
512 }
513 // trail surrogates
514 for(c=0xdc00; c<=0xdfff; ++c) {
515 *s++=(UChar)c;
516 }
517 // lead surrogates
518 // (after trails so that there is not even one surrogate pair in between)
519 for(c=0xd800; c<=0xdbff; ++c) {
520 *s++=(UChar)c;
521 }
522 // high BMP
523 for(c=0xe000; c<=0xffff; ++c) {
524 *s++=(UChar)c;
525 }
526 // supplementary code points = surrogate pairs
527 if(cpLimit==0x110000) {
528 for(c=0xd800; c<=0xdbff; ++c) {
529 for(c2=0xdc00; c2<=0xdfff; ++c2) {
530 *s++=(UChar)c;
531 *s++=c2;
532 }
533 }
534 }
535
536 static const char *const cnvNames[]={
537 "UTF-8",
538 "UTF-7",
539 "UTF-16",
540 "US-ASCII",
541 "ISO-8859-1",
542 "windows-1252",
543 "Shift-JIS",
544 "ibm-1390", // EBCDIC_STATEFUL table
545 "ibm-16684", // DBCS-only extension table based on EBCDIC_STATEFUL table
546 "HZ",
547 "ISO-2022-JP",
548 "JIS7",
549 "ISO-2022-CN",
550 "ISO-2022-CN-EXT",
551 "LMBCS"
552 };
729e4ab9 553 LocalUConverterPointer cnv;
46f4442e
A
554 char buffer[1024];
555 int32_t i;
556 for(i=0; i<LENGTHOF(cnvNames); ++i) {
557 UErrorCode errorCode=U_ZERO_ERROR;
729e4ab9 558 cnv.adoptInstead(cnv_open(cnvNames[i], errorCode));
46f4442e 559 if(U_FAILURE(errorCode)) {
729e4ab9 560 errcheckln(errorCode, "failed to open converter %s - %s", cnvNames[i], u_errorName(errorCode));
46f4442e
A
561 continue;
562 }
563 UnicodeSet expected;
729e4ab9 564 ucnv_setFromUCallBack(cnv.getAlias(), getUnicodeSetCallback, &expected, NULL, NULL, &errorCode);
46f4442e
A
565 if(U_FAILURE(errorCode)) {
566 errln("failed to set the callback on converter %s - %s", cnvNames[i], u_errorName(errorCode));
46f4442e
A
567 continue;
568 }
569 UConverterUnicodeSet which;
570 for(which=UCNV_ROUNDTRIP_SET; which<UCNV_SET_COUNT; which=(UConverterUnicodeSet)((int)which+1)) {
571 if(which==UCNV_ROUNDTRIP_AND_FALLBACK_SET) {
729e4ab9 572 ucnv_setFallback(cnv.getAlias(), TRUE);
46f4442e
A
573 }
574 expected.add(0, cpLimit-1);
575 s=s0;
576 UBool flush;
577 do {
578 char *t=buffer;
579 flush=(UBool)(s==s0+s0Length);
729e4ab9 580 ucnv_fromUnicode(cnv.getAlias(), &t, buffer+sizeof(buffer), (const UChar **)&s, s0+s0Length, NULL, flush, &errorCode);
46f4442e
A
581 if(U_FAILURE(errorCode)) {
582 if(errorCode==U_BUFFER_OVERFLOW_ERROR) {
583 errorCode=U_ZERO_ERROR;
584 continue;
585 } else {
586 break; // unexpected error, should not occur
587 }
588 }
589 } while(!flush);
590 UnicodeSet set;
729e4ab9 591 ucnv_getUnicodeSet(cnv.getAlias(), set.toUSet(), which, &errorCode);
46f4442e
A
592 if(cpLimit<0x110000) {
593 set.remove(cpLimit, 0x10ffff);
594 }
595 if(which==UCNV_ROUNDTRIP_SET) {
596 // ignore PUA code points because they will be converted even if they
597 // are fallbacks and when other fallbacks are turned off,
598 // but ucnv_getUnicodeSet(UCNV_ROUNDTRIP_SET) delivers true roundtrips
599 expected.remove(0xe000, 0xf8ff);
600 expected.remove(0xf0000, 0xffffd);
601 expected.remove(0x100000, 0x10fffd);
602 set.remove(0xe000, 0xf8ff);
603 set.remove(0xf0000, 0xffffd);
604 set.remove(0x100000, 0x10fffd);
605 }
606 if(set!=expected) {
607 // First try to see if we have different sets because ucnv_getUnicodeSet()
608 // added strings: The above conversion method does not tell us what strings might be convertible.
609 // Remove strings from the set and compare again.
610 // Unfortunately, there are no good, direct set methods for finding out whether there are strings
611 // in the set, nor for enumerating or removing just them.
612 // Intersect all code points with the set. The intersection will not contain strings.
613 UnicodeSet temp(0, 0x10ffff);
614 temp.retainAll(set);
615 set=temp;
616 }
617 if(set!=expected) {
618 UnicodeSet diffSet;
619 UnicodeString out;
620
621 // are there items that must be in the set but are not?
622 (diffSet=expected).removeAll(set);
623 if(!diffSet.isEmpty()) {
624 diffSet.toPattern(out, TRUE);
625 if(out.length()>100) {
626 out.replace(100, 0x7fffffff, ellipsis, LENGTHOF(ellipsis));
627 }
628 errln("error: ucnv_getUnicodeSet(\"%s\") is missing items - which set: %d",
629 cnvNames[i], which);
630 errln(out);
631 }
632
633 // are there items that must not be in the set but are?
634 (diffSet=set).removeAll(expected);
635 if(!diffSet.isEmpty()) {
636 diffSet.toPattern(out, TRUE);
637 if(out.length()>100) {
638 out.replace(100, 0x7fffffff, ellipsis, LENGTHOF(ellipsis));
639 }
640 errln("error: ucnv_getUnicodeSet(\"%s\") contains unexpected items - which set: %d",
641 cnvNames[i], which);
642 errln(out);
643 }
644 }
645 }
46f4442e
A
646 }
647
648 delete [] s0;
649}
650
374ca955
A
651// open testdata or ICU data converter ------------------------------------- ***
652
653UConverter *
654ConversionTest::cnv_open(const char *name, UErrorCode &errorCode) {
51004dcb
A
655 if(name!=NULL && *name=='+') {
656 // Converter names that start with '+' are ignored in ICU4J tests.
657 ++name;
658 }
374ca955
A
659 if(name!=NULL && *name=='*') {
660 /* loadTestData(): set the data directory */
661 return ucnv_openPackage(loadTestData(errorCode), name+1, &errorCode);
662 } else {
663 return ucnv_open(name, &errorCode);
664 }
665}
666
667// output helpers ---------------------------------------------------------- ***
668
669static inline char
670hexDigit(uint8_t digit) {
671 return digit<=9 ? (char)('0'+digit) : (char)('a'-10+digit);
672}
673
674static char *
675printBytes(const uint8_t *bytes, int32_t length, char *out) {
676 uint8_t b;
677
678 if(length>0) {
679 b=*bytes++;
680 --length;
681 *out++=hexDigit((uint8_t)(b>>4));
682 *out++=hexDigit((uint8_t)(b&0xf));
683 }
684
685 while(length>0) {
686 b=*bytes++;
687 --length;
688 *out++=' ';
689 *out++=hexDigit((uint8_t)(b>>4));
690 *out++=hexDigit((uint8_t)(b&0xf));
691 }
692 *out++=0;
693 return out;
694}
695
696static char *
697printUnicode(const UChar *unicode, int32_t length, char *out) {
698 UChar32 c;
699 int32_t i;
700
701 for(i=0; i<length;) {
702 if(i>0) {
703 *out++=' ';
704 }
705 U16_NEXT(unicode, i, length, c);
706 // write 4..6 digits
707 if(c>=0x100000) {
708 *out++='1';
709 }
710 if(c>=0x10000) {
711 *out++=hexDigit((uint8_t)((c>>16)&0xf));
712 }
713 *out++=hexDigit((uint8_t)((c>>12)&0xf));
714 *out++=hexDigit((uint8_t)((c>>8)&0xf));
715 *out++=hexDigit((uint8_t)((c>>4)&0xf));
716 *out++=hexDigit((uint8_t)(c&0xf));
717 }
718 *out++=0;
719 return out;
720}
721
722static char *
723printOffsets(const int32_t *offsets, int32_t length, char *out) {
724 int32_t i, o, d;
725
726 if(offsets==NULL) {
727 length=0;
728 }
729
730 for(i=0; i<length; ++i) {
731 if(i>0) {
732 *out++=' ';
733 }
734 o=offsets[i];
735
736 // print all offsets with 2 characters each (-x, -9..99, xx)
737 if(o<-9) {
738 *out++='-';
739 *out++='x';
740 } else if(o<0) {
741 *out++='-';
742 *out++=(char)('0'-o);
743 } else if(o<=99) {
744 *out++=(d=o/10)==0 ? ' ' : (char)('0'+d);
745 *out++=(char)('0'+o%10);
746 } else /* o>99 */ {
747 *out++='x';
748 *out++='x';
749 }
750 }
751 *out++=0;
752 return out;
753}
754
755// toUnicode test worker functions ----------------------------------------- ***
756
757static int32_t
758stepToUnicode(ConversionCase &cc, UConverter *cnv,
759 UChar *result, int32_t resultCapacity,
760 int32_t *resultOffsets, /* also resultCapacity */
761 int32_t step,
762 UErrorCode *pErrorCode) {
763 const char *source, *sourceLimit, *bytesLimit;
764 UChar *target, *targetLimit, *resultLimit;
765 UBool flush;
766
767 source=(const char *)cc.bytes;
768 target=result;
769 bytesLimit=source+cc.bytesLength;
770 resultLimit=result+resultCapacity;
771
772 if(step>=0) {
773 // call ucnv_toUnicode() with in/out buffers no larger than (step) at a time
774 // move only one buffer (in vs. out) at a time to be extra mean
775 // step==0 performs bulk conversion and generates offsets
776
777 // initialize the partial limits for the loop
778 if(step==0) {
779 // use the entire buffers
780 sourceLimit=bytesLimit;
781 targetLimit=resultLimit;
782 flush=cc.finalFlush;
783 } else {
784 // start with empty partial buffers
785 sourceLimit=source;
786 targetLimit=target;
787 flush=FALSE;
788
789 // output offsets only for bulk conversion
790 resultOffsets=NULL;
791 }
792
793 for(;;) {
794 // resetting the opposite conversion direction must not affect this one
795 ucnv_resetFromUnicode(cnv);
796
797 // convert
798 ucnv_toUnicode(cnv,
799 &target, targetLimit,
800 &source, sourceLimit,
801 resultOffsets,
802 flush, pErrorCode);
803
804 // check pointers and errors
805 if(source>sourceLimit || target>targetLimit) {
806 *pErrorCode=U_INTERNAL_PROGRAM_ERROR;
807 break;
808 } else if(*pErrorCode==U_BUFFER_OVERFLOW_ERROR) {
809 if(target!=targetLimit) {
810 // buffer overflow must only be set when the target is filled
811 *pErrorCode=U_INTERNAL_PROGRAM_ERROR;
812 break;
813 } else if(targetLimit==resultLimit) {
814 // not just a partial overflow
815 break;
816 }
817
818 // the partial target is filled, set a new limit, reset the error and continue
819 targetLimit=(resultLimit-target)>=step ? target+step : resultLimit;
820 *pErrorCode=U_ZERO_ERROR;
821 } else if(U_FAILURE(*pErrorCode)) {
822 // some other error occurred, done
823 break;
824 } else {
825 if(source!=sourceLimit) {
826 // when no error occurs, then the input must be consumed
827 *pErrorCode=U_INTERNAL_PROGRAM_ERROR;
828 break;
829 }
830
831 if(sourceLimit==bytesLimit) {
832 // we are done
833 break;
834 }
835
836 // the partial conversion succeeded, set a new limit and continue
837 sourceLimit=(bytesLimit-source)>=step ? source+step : bytesLimit;
838 flush=(UBool)(cc.finalFlush && sourceLimit==bytesLimit);
839 }
840 }
841 } else /* step<0 */ {
842 /*
843 * step==-1: call only ucnv_getNextUChar()
844 * otherwise alternate between ucnv_toUnicode() and ucnv_getNextUChar()
845 * if step==-2 or -3, then give ucnv_toUnicode() the whole remaining input,
846 * else give it at most (-step-2)/2 bytes
847 */
848 UChar32 c;
849
850 // end the loop by getting an index out of bounds error
851 for(;;) {
852 // resetting the opposite conversion direction must not affect this one
853 ucnv_resetFromUnicode(cnv);
854
855 // convert
856 if((step&1)!=0 /* odd: -1, -3, -5, ... */) {
857 sourceLimit=source; // use sourceLimit not as a real limit
858 // but to remember the pre-getNextUChar source pointer
859 c=ucnv_getNextUChar(cnv, &source, bytesLimit, pErrorCode);
860
861 // check pointers and errors
862 if(*pErrorCode==U_INDEX_OUTOFBOUNDS_ERROR) {
863 if(source!=bytesLimit) {
864 *pErrorCode=U_INTERNAL_PROGRAM_ERROR;
865 } else {
866 *pErrorCode=U_ZERO_ERROR;
867 }
868 break;
869 } else if(U_FAILURE(*pErrorCode)) {
870 break;
871 }
872 // source may not move if c is from previous overflow
873
874 if(target==resultLimit) {
875 *pErrorCode=U_BUFFER_OVERFLOW_ERROR;
876 break;
877 }
878 if(c<=0xffff) {
879 *target++=(UChar)c;
880 } else {
881 *target++=U16_LEAD(c);
882 if(target==resultLimit) {
883 *pErrorCode=U_BUFFER_OVERFLOW_ERROR;
884 break;
885 }
886 *target++=U16_TRAIL(c);
887 }
888
889 // alternate between -n-1 and -n but leave -1 alone
890 if(step<-1) {
891 ++step;
892 }
893 } else /* step is even */ {
894 // allow only one UChar output
895 targetLimit=target<resultLimit ? target+1 : resultLimit;
896
897 // as with ucnv_getNextUChar(), we always flush (if we go to bytesLimit)
898 // and never output offsets
899 if(step==-2) {
900 sourceLimit=bytesLimit;
901 } else {
902 sourceLimit=source+(-step-2)/2;
903 if(sourceLimit>bytesLimit) {
904 sourceLimit=bytesLimit;
905 }
906 }
907
908 ucnv_toUnicode(cnv,
909 &target, targetLimit,
910 &source, sourceLimit,
911 NULL, (UBool)(sourceLimit==bytesLimit), pErrorCode);
912
913 // check pointers and errors
914 if(*pErrorCode==U_BUFFER_OVERFLOW_ERROR) {
915 if(target!=targetLimit) {
916 // buffer overflow must only be set when the target is filled
917 *pErrorCode=U_INTERNAL_PROGRAM_ERROR;
918 break;
919 } else if(targetLimit==resultLimit) {
920 // not just a partial overflow
921 break;
922 }
923
924 // the partial target is filled, set a new limit and continue
925 *pErrorCode=U_ZERO_ERROR;
926 } else if(U_FAILURE(*pErrorCode)) {
927 // some other error occurred, done
928 break;
929 } else {
930 if(source!=sourceLimit) {
931 // when no error occurs, then the input must be consumed
932 *pErrorCode=U_INTERNAL_PROGRAM_ERROR;
933 break;
934 }
935
936 // we are done (flush==TRUE) but we continue, to get the index out of bounds error above
937 }
938
939 --step;
940 }
941 }
942 }
943
944 return (int32_t)(target-result);
945}
946
947UBool
948ConversionTest::ToUnicodeCase(ConversionCase &cc, UConverterToUCallback callback, const char *option) {
374ca955 949 // open the converter
729e4ab9
A
950 IcuTestErrorCode errorCode(*this, "ToUnicodeCase");
951 LocalUConverterPointer cnv(cnv_open(cc.charset, errorCode));
952 if(errorCode.isFailure()) {
953 errcheckln(errorCode, "toUnicode[%d](%s cb=\"%s\" fb=%d flush=%d) ucnv_open() failed - %s",
954 cc.caseNr, cc.charset, cc.cbopt, cc.fallbacks, cc.finalFlush, errorCode.errorName());
955 errorCode.reset();
374ca955
A
956 return FALSE;
957 }
958
959 // set the callback
960 if(callback!=NULL) {
729e4ab9 961 ucnv_setToUCallBack(cnv.getAlias(), callback, option, NULL, NULL, errorCode);
374ca955
A
962 if(U_FAILURE(errorCode)) {
963 errln("toUnicode[%d](%s cb=\"%s\" fb=%d flush=%d) ucnv_setToUCallBack() failed - %s",
964 cc.caseNr, cc.charset, cc.cbopt, cc.fallbacks, cc.finalFlush, u_errorName(errorCode));
374ca955
A
965 return FALSE;
966 }
967 }
968
46f4442e
A
969 int32_t resultOffsets[256];
970 UChar result[256];
374ca955
A
971 int32_t resultLength;
972 UBool ok;
973
974 static const struct {
975 int32_t step;
976 const char *name;
977 } steps[]={
978 { 0, "bulk" }, // must be first for offsets to be checked
979 { 1, "step=1" },
980 { 3, "step=3" },
981 { 7, "step=7" },
982 { -1, "getNext" },
983 { -2, "toU(bulk)+getNext" },
984 { -3, "getNext+toU(bulk)" },
985 { -4, "toU(1)+getNext" },
986 { -5, "getNext+toU(1)" },
987 { -12, "toU(5)+getNext" },
988 { -13, "getNext+toU(5)" },
989 };
990 int32_t i, step;
991
992 ok=TRUE;
993 for(i=0; i<LENGTHOF(steps) && ok; ++i) {
994 step=steps[i].step;
995 if(step<0 && !cc.finalFlush) {
996 // skip ucnv_getNextUChar() if !finalFlush because
997 // ucnv_getNextUChar() always implies flush
998 continue;
999 }
1000 if(step!=0) {
1001 // bulk test is first, then offsets are not checked any more
1002 cc.offsets=NULL;
1003 }
46f4442e
A
1004 else {
1005 memset(resultOffsets, -1, LENGTHOF(resultOffsets));
1006 }
1007 memset(result, -1, LENGTHOF(result));
729e4ab9
A
1008 errorCode.reset();
1009 resultLength=stepToUnicode(cc, cnv.getAlias(),
374ca955
A
1010 result, LENGTHOF(result),
1011 step==0 ? resultOffsets : NULL,
729e4ab9 1012 step, errorCode);
374ca955 1013 ok=checkToUnicode(
729e4ab9 1014 cc, cnv.getAlias(), steps[i].name,
374ca955
A
1015 result, resultLength,
1016 cc.offsets!=NULL ? resultOffsets : NULL,
1017 errorCode);
729e4ab9 1018 if(errorCode.isFailure() || !cc.finalFlush) {
374ca955
A
1019 // reset if an error occurred or we did not flush
1020 // otherwise do nothing to make sure that flushing resets
729e4ab9 1021 ucnv_resetToUnicode(cnv.getAlias());
374ca955 1022 }
729e4ab9 1023 if (cc.offsets != NULL && resultOffsets[resultLength] != -1) {
46f4442e
A
1024 errln("toUnicode[%d](%s) Conversion wrote too much to offsets at index %d",
1025 cc.caseNr, cc.charset, resultLength);
1026 }
1027 if (result[resultLength] != (UChar)-1) {
1028 errln("toUnicode[%d](%s) Conversion wrote too much to result at index %d",
1029 cc.caseNr, cc.charset, resultLength);
1030 }
374ca955
A
1031 }
1032
1033 // not a real loop, just a convenience for breaking out of the block
1034 while(ok && cc.finalFlush) {
1035 // test ucnv_toUChars()
1036 memset(result, 0, sizeof(result));
1037
729e4ab9
A
1038 errorCode.reset();
1039 resultLength=ucnv_toUChars(cnv.getAlias(),
374ca955
A
1040 result, LENGTHOF(result),
1041 (const char *)cc.bytes, cc.bytesLength,
729e4ab9 1042 errorCode);
374ca955 1043 ok=checkToUnicode(
729e4ab9 1044 cc, cnv.getAlias(), "toUChars",
374ca955
A
1045 result, resultLength,
1046 NULL,
1047 errorCode);
1048 if(!ok) {
1049 break;
1050 }
1051
1052 // test preflighting
1053 // keep the correct result for simple checking
729e4ab9
A
1054 errorCode.reset();
1055 resultLength=ucnv_toUChars(cnv.getAlias(),
374ca955
A
1056 NULL, 0,
1057 (const char *)cc.bytes, cc.bytesLength,
729e4ab9
A
1058 errorCode);
1059 if(errorCode.get()==U_STRING_NOT_TERMINATED_WARNING || errorCode.get()==U_BUFFER_OVERFLOW_ERROR) {
1060 errorCode.reset();
374ca955
A
1061 }
1062 ok=checkToUnicode(
729e4ab9 1063 cc, cnv.getAlias(), "preflight toUChars",
374ca955
A
1064 result, resultLength,
1065 NULL,
1066 errorCode);
1067 break;
1068 }
1069
729e4ab9 1070 errorCode.reset(); // all errors have already been reported
374ca955
A
1071 return ok;
1072}
1073
1074UBool
1075ConversionTest::checkToUnicode(ConversionCase &cc, UConverter *cnv, const char *name,
1076 const UChar *result, int32_t resultLength,
1077 const int32_t *resultOffsets,
1078 UErrorCode resultErrorCode) {
1079 char resultInvalidChars[8];
1080 int8_t resultInvalidLength;
1081 UErrorCode errorCode;
1082
1083 const char *msg;
1084
1085 // reset the message; NULL will mean "ok"
1086 msg=NULL;
1087
1088 errorCode=U_ZERO_ERROR;
1089 resultInvalidLength=sizeof(resultInvalidChars);
1090 ucnv_getInvalidChars(cnv, resultInvalidChars, &resultInvalidLength, &errorCode);
1091 if(U_FAILURE(errorCode)) {
1092 errln("toUnicode[%d](%s cb=\"%s\" fb=%d flush=%d %s) ucnv_getInvalidChars() failed - %s",
1093 cc.caseNr, cc.charset, cc.cbopt, cc.fallbacks, cc.finalFlush, name, u_errorName(errorCode));
1094 return FALSE;
1095 }
1096
1097 // check everything that might have gone wrong
1098 if(cc.unicodeLength!=resultLength) {
1099 msg="wrong result length";
1100 } else if(0!=u_memcmp(cc.unicode, result, cc.unicodeLength)) {
1101 msg="wrong result string";
1102 } else if(cc.offsets!=NULL && 0!=memcmp(cc.offsets, resultOffsets, cc.unicodeLength*sizeof(*cc.offsets))) {
1103 msg="wrong offsets";
1104 } else if(cc.outErrorCode!=resultErrorCode) {
1105 msg="wrong error code";
1106 } else if(cc.invalidLength!=resultInvalidLength) {
1107 msg="wrong length of last invalid input";
1108 } else if(0!=memcmp(cc.invalidChars, resultInvalidChars, cc.invalidLength)) {
1109 msg="wrong last invalid input";
1110 }
1111
1112 if(msg==NULL) {
1113 return TRUE;
1114 } else {
1115 char buffer[2000]; // one buffer for all strings
1116 char *s, *bytesString, *unicodeString, *resultString,
1117 *offsetsString, *resultOffsetsString,
1118 *invalidCharsString, *resultInvalidCharsString;
1119
1120 bytesString=s=buffer;
1121 s=printBytes(cc.bytes, cc.bytesLength, bytesString);
1122 s=printUnicode(cc.unicode, cc.unicodeLength, unicodeString=s);
1123 s=printUnicode(result, resultLength, resultString=s);
1124 s=printOffsets(cc.offsets, cc.unicodeLength, offsetsString=s);
1125 s=printOffsets(resultOffsets, resultLength, resultOffsetsString=s);
1126 s=printBytes(cc.invalidChars, cc.invalidLength, invalidCharsString=s);
1127 s=printBytes((uint8_t *)resultInvalidChars, resultInvalidLength, resultInvalidCharsString=s);
1128
1129 if((s-buffer)>(int32_t)sizeof(buffer)) {
1130 errln("toUnicode[%d](%s cb=\"%s\" fb=%d flush=%d %s) fatal error: checkToUnicode() test output buffer overflow writing %d chars\n",
1131 cc.caseNr, cc.charset, cc.cbopt, cc.fallbacks, cc.finalFlush, name, (int)(s-buffer));
1132 exit(1);
1133 }
1134
1135 errln("toUnicode[%d](%s cb=\"%s\" fb=%d flush=%d %s) failed: %s\n"
1136 " bytes <%s>[%d]\n"
1137 " expected <%s>[%d]\n"
1138 " result <%s>[%d]\n"
1139 " offsets <%s>\n"
1140 " result offsets <%s>\n"
1141 " error code expected %s got %s\n"
1142 " invalidChars expected <%s> got <%s>\n",
1143 cc.caseNr, cc.charset, cc.cbopt, cc.fallbacks, cc.finalFlush, name, msg,
1144 bytesString, cc.bytesLength,
1145 unicodeString, cc.unicodeLength,
1146 resultString, resultLength,
1147 offsetsString,
1148 resultOffsetsString,
1149 u_errorName(cc.outErrorCode), u_errorName(resultErrorCode),
1150 invalidCharsString, resultInvalidCharsString);
1151
1152 return FALSE;
1153 }
1154}
1155
1156// fromUnicode test worker functions --------------------------------------- ***
1157
46f4442e
A
1158static int32_t
1159stepFromUTF8(ConversionCase &cc,
1160 UConverter *utf8Cnv, UConverter *cnv,
1161 char *result, int32_t resultCapacity,
1162 int32_t step,
1163 UErrorCode *pErrorCode) {
1164 const char *source, *sourceLimit, *utf8Limit;
1165 UChar pivotBuffer[32];
1166 UChar *pivotSource, *pivotTarget, *pivotLimit;
1167 char *target, *targetLimit, *resultLimit;
1168 UBool flush;
1169
1170 source=cc.utf8;
1171 pivotSource=pivotTarget=pivotBuffer;
1172 target=result;
1173 utf8Limit=source+cc.utf8Length;
1174 resultLimit=result+resultCapacity;
1175
1176 // call ucnv_convertEx() with in/out buffers no larger than (step) at a time
1177 // move only one buffer (in vs. out) at a time to be extra mean
1178 // step==0 performs bulk conversion
1179
1180 // initialize the partial limits for the loop
1181 if(step==0) {
1182 // use the entire buffers
1183 sourceLimit=utf8Limit;
1184 targetLimit=resultLimit;
1185 flush=cc.finalFlush;
1186
1187 pivotLimit=pivotBuffer+LENGTHOF(pivotBuffer);
1188 } else {
1189 // start with empty partial buffers
1190 sourceLimit=source;
1191 targetLimit=target;
1192 flush=FALSE;
1193
1194 // empty pivot is not allowed, make it of length step
1195 pivotLimit=pivotBuffer+step;
1196 }
1197
1198 for(;;) {
1199 // resetting the opposite conversion direction must not affect this one
1200 ucnv_resetFromUnicode(utf8Cnv);
1201 ucnv_resetToUnicode(cnv);
1202
1203 // convert
1204 ucnv_convertEx(cnv, utf8Cnv,
1205 &target, targetLimit,
1206 &source, sourceLimit,
1207 pivotBuffer, &pivotSource, &pivotTarget, pivotLimit,
1208 FALSE, flush, pErrorCode);
1209
1210 // check pointers and errors
1211 if(source>sourceLimit || target>targetLimit) {
1212 *pErrorCode=U_INTERNAL_PROGRAM_ERROR;
1213 break;
1214 } else if(*pErrorCode==U_BUFFER_OVERFLOW_ERROR) {
1215 if(target!=targetLimit) {
1216 // buffer overflow must only be set when the target is filled
1217 *pErrorCode=U_INTERNAL_PROGRAM_ERROR;
1218 break;
1219 } else if(targetLimit==resultLimit) {
1220 // not just a partial overflow
1221 break;
1222 }
1223
1224 // the partial target is filled, set a new limit, reset the error and continue
1225 targetLimit=(resultLimit-target)>=step ? target+step : resultLimit;
1226 *pErrorCode=U_ZERO_ERROR;
1227 } else if(U_FAILURE(*pErrorCode)) {
1228 if(pivotSource==pivotBuffer) {
1229 // toUnicode error, should not occur
1230 // toUnicode errors are tested in cintltst TestConvertExFromUTF8()
1231 break;
1232 } else {
1233 // fromUnicode error
1234 // some other error occurred, done
1235 break;
1236 }
1237 } else {
1238 if(source!=sourceLimit) {
1239 // when no error occurs, then the input must be consumed
1240 *pErrorCode=U_INTERNAL_PROGRAM_ERROR;
1241 break;
1242 }
1243
1244 if(sourceLimit==utf8Limit) {
1245 // we are done
1246 if(*pErrorCode==U_STRING_NOT_TERMINATED_WARNING) {
1247 // ucnv_convertEx() warns about not terminating the output
1248 // but ucnv_fromUnicode() does not and so
1249 // checkFromUnicode() does not expect it
1250 *pErrorCode=U_ZERO_ERROR;
1251 }
1252 break;
1253 }
1254
1255 // the partial conversion succeeded, set a new limit and continue
1256 sourceLimit=(utf8Limit-source)>=step ? source+step : utf8Limit;
1257 flush=(UBool)(cc.finalFlush && sourceLimit==utf8Limit);
1258 }
1259 }
1260
1261 return (int32_t)(target-result);
1262}
1263
374ca955
A
1264static int32_t
1265stepFromUnicode(ConversionCase &cc, UConverter *cnv,
1266 char *result, int32_t resultCapacity,
1267 int32_t *resultOffsets, /* also resultCapacity */
1268 int32_t step,
1269 UErrorCode *pErrorCode) {
1270 const UChar *source, *sourceLimit, *unicodeLimit;
1271 char *target, *targetLimit, *resultLimit;
1272 UBool flush;
1273
1274 source=cc.unicode;
1275 target=result;
1276 unicodeLimit=source+cc.unicodeLength;
1277 resultLimit=result+resultCapacity;
1278
1279 // call ucnv_fromUnicode() with in/out buffers no larger than (step) at a time
1280 // move only one buffer (in vs. out) at a time to be extra mean
1281 // step==0 performs bulk conversion and generates offsets
1282
1283 // initialize the partial limits for the loop
1284 if(step==0) {
1285 // use the entire buffers
1286 sourceLimit=unicodeLimit;
1287 targetLimit=resultLimit;
1288 flush=cc.finalFlush;
1289 } else {
1290 // start with empty partial buffers
1291 sourceLimit=source;
1292 targetLimit=target;
1293 flush=FALSE;
1294
1295 // output offsets only for bulk conversion
1296 resultOffsets=NULL;
1297 }
1298
1299 for(;;) {
1300 // resetting the opposite conversion direction must not affect this one
1301 ucnv_resetToUnicode(cnv);
1302
1303 // convert
1304 ucnv_fromUnicode(cnv,
1305 &target, targetLimit,
1306 &source, sourceLimit,
1307 resultOffsets,
1308 flush, pErrorCode);
1309
1310 // check pointers and errors
1311 if(source>sourceLimit || target>targetLimit) {
1312 *pErrorCode=U_INTERNAL_PROGRAM_ERROR;
1313 break;
1314 } else if(*pErrorCode==U_BUFFER_OVERFLOW_ERROR) {
1315 if(target!=targetLimit) {
1316 // buffer overflow must only be set when the target is filled
1317 *pErrorCode=U_INTERNAL_PROGRAM_ERROR;
1318 break;
1319 } else if(targetLimit==resultLimit) {
1320 // not just a partial overflow
1321 break;
1322 }
1323
1324 // the partial target is filled, set a new limit, reset the error and continue
1325 targetLimit=(resultLimit-target)>=step ? target+step : resultLimit;
1326 *pErrorCode=U_ZERO_ERROR;
1327 } else if(U_FAILURE(*pErrorCode)) {
1328 // some other error occurred, done
1329 break;
1330 } else {
1331 if(source!=sourceLimit) {
1332 // when no error occurs, then the input must be consumed
1333 *pErrorCode=U_INTERNAL_PROGRAM_ERROR;
1334 break;
1335 }
1336
1337 if(sourceLimit==unicodeLimit) {
1338 // we are done
1339 break;
1340 }
1341
1342 // the partial conversion succeeded, set a new limit and continue
1343 sourceLimit=(unicodeLimit-source)>=step ? source+step : unicodeLimit;
1344 flush=(UBool)(cc.finalFlush && sourceLimit==unicodeLimit);
1345 }
1346 }
1347
1348 return (int32_t)(target-result);
1349}
1350
1351UBool
1352ConversionTest::FromUnicodeCase(ConversionCase &cc, UConverterFromUCallback callback, const char *option) {
1353 UConverter *cnv;
1354 UErrorCode errorCode;
1355
1356 // open the converter
1357 errorCode=U_ZERO_ERROR;
1358 cnv=cnv_open(cc.charset, errorCode);
1359 if(U_FAILURE(errorCode)) {
729e4ab9 1360 errcheckln(errorCode, "fromUnicode[%d](%s cb=\"%s\" fb=%d flush=%d) ucnv_open() failed - %s",
374ca955
A
1361 cc.caseNr, cc.charset, cc.cbopt, cc.fallbacks, cc.finalFlush, u_errorName(errorCode));
1362 return FALSE;
1363 }
46f4442e 1364 ucnv_resetToUnicode(utf8Cnv);
374ca955
A
1365
1366 // set the callback
1367 if(callback!=NULL) {
1368 ucnv_setFromUCallBack(cnv, callback, option, NULL, NULL, &errorCode);
1369 if(U_FAILURE(errorCode)) {
1370 errln("fromUnicode[%d](%s cb=\"%s\" fb=%d flush=%d) ucnv_setFromUCallBack() failed - %s",
1371 cc.caseNr, cc.charset, cc.cbopt, cc.fallbacks, cc.finalFlush, u_errorName(errorCode));
1372 ucnv_close(cnv);
1373 return FALSE;
1374 }
1375 }
1376
1377 // set the fallbacks flag
1378 // TODO change with Jitterbug 2401, then add a similar call for toUnicode too
1379 ucnv_setFallback(cnv, cc.fallbacks);
1380
1381 // set the subchar
1382 int32_t length;
1383
73c04bcf
A
1384 if(cc.setSub>0) {
1385 length=(int32_t)strlen(cc.subchar);
374ca955
A
1386 ucnv_setSubstChars(cnv, cc.subchar, (int8_t)length, &errorCode);
1387 if(U_FAILURE(errorCode)) {
73c04bcf
A
1388 errln("fromUnicode[%d](%s cb=\"%s\" fb=%d flush=%d) ucnv_setSubstChars() failed - %s",
1389 cc.caseNr, cc.charset, cc.cbopt, cc.fallbacks, cc.finalFlush, u_errorName(errorCode));
1390 ucnv_close(cnv);
1391 return FALSE;
1392 }
1393 } else if(cc.setSub<0) {
1394 ucnv_setSubstString(cnv, cc.subString, -1, &errorCode);
1395 if(U_FAILURE(errorCode)) {
1396 errln("fromUnicode[%d](%s cb=\"%s\" fb=%d flush=%d) ucnv_setSubstString() failed - %s",
374ca955
A
1397 cc.caseNr, cc.charset, cc.cbopt, cc.fallbacks, cc.finalFlush, u_errorName(errorCode));
1398 ucnv_close(cnv);
1399 return FALSE;
1400 }
1401 }
1402
46f4442e
A
1403 // convert unicode to utf8
1404 char utf8[256];
1405 cc.utf8=utf8;
1406 u_strToUTF8(utf8, LENGTHOF(utf8), &cc.utf8Length,
1407 cc.unicode, cc.unicodeLength,
1408 &errorCode);
1409 if(U_FAILURE(errorCode)) {
1410 // skip UTF-8 testing of a string with an unpaired surrogate,
1411 // or of one that's too long
1412 // toUnicode errors are tested in cintltst TestConvertExFromUTF8()
1413 cc.utf8Length=-1;
1414 }
1415
1416 int32_t resultOffsets[256];
1417 char result[256];
374ca955
A
1418 int32_t resultLength;
1419 UBool ok;
1420
1421 static const struct {
1422 int32_t step;
46f4442e 1423 const char *name, *utf8Name;
374ca955 1424 } steps[]={
46f4442e
A
1425 { 0, "bulk", "utf8" }, // must be first for offsets to be checked
1426 { 1, "step=1", "utf8 step=1" },
1427 { 3, "step=3", "utf8 step=3" },
1428 { 7, "step=7", "utf8 step=7" }
374ca955
A
1429 };
1430 int32_t i, step;
1431
1432 ok=TRUE;
1433 for(i=0; i<LENGTHOF(steps) && ok; ++i) {
1434 step=steps[i].step;
46f4442e
A
1435 memset(resultOffsets, -1, LENGTHOF(resultOffsets));
1436 memset(result, -1, LENGTHOF(result));
374ca955
A
1437 errorCode=U_ZERO_ERROR;
1438 resultLength=stepFromUnicode(cc, cnv,
1439 result, LENGTHOF(result),
1440 step==0 ? resultOffsets : NULL,
1441 step, &errorCode);
1442 ok=checkFromUnicode(
1443 cc, cnv, steps[i].name,
1444 (uint8_t *)result, resultLength,
1445 cc.offsets!=NULL ? resultOffsets : NULL,
1446 errorCode);
1447 if(U_FAILURE(errorCode) || !cc.finalFlush) {
1448 // reset if an error occurred or we did not flush
1449 // otherwise do nothing to make sure that flushing resets
1450 ucnv_resetFromUnicode(cnv);
1451 }
46f4442e
A
1452 if (resultOffsets[resultLength] != -1) {
1453 errln("fromUnicode[%d](%s) Conversion wrote too much to offsets at index %d",
1454 cc.caseNr, cc.charset, resultLength);
1455 }
1456 if (result[resultLength] != (char)-1) {
1457 errln("fromUnicode[%d](%s) Conversion wrote too much to result at index %d",
1458 cc.caseNr, cc.charset, resultLength);
1459 }
1460
1461 // bulk test is first, then offsets are not checked any more
1462 cc.offsets=NULL;
1463
1464 // test direct conversion from UTF-8
1465 if(cc.utf8Length>=0) {
1466 errorCode=U_ZERO_ERROR;
1467 resultLength=stepFromUTF8(cc, utf8Cnv, cnv,
1468 result, LENGTHOF(result),
1469 step, &errorCode);
1470 ok=checkFromUnicode(
1471 cc, cnv, steps[i].utf8Name,
1472 (uint8_t *)result, resultLength,
1473 NULL,
1474 errorCode);
1475 if(U_FAILURE(errorCode) || !cc.finalFlush) {
1476 // reset if an error occurred or we did not flush
1477 // otherwise do nothing to make sure that flushing resets
1478 ucnv_resetToUnicode(utf8Cnv);
1479 ucnv_resetFromUnicode(cnv);
1480 }
1481 }
374ca955
A
1482 }
1483
1484 // not a real loop, just a convenience for breaking out of the block
1485 while(ok && cc.finalFlush) {
1486 // test ucnv_fromUChars()
1487 memset(result, 0, sizeof(result));
1488
1489 errorCode=U_ZERO_ERROR;
1490 resultLength=ucnv_fromUChars(cnv,
1491 result, LENGTHOF(result),
1492 cc.unicode, cc.unicodeLength,
1493 &errorCode);
1494 ok=checkFromUnicode(
1495 cc, cnv, "fromUChars",
1496 (uint8_t *)result, resultLength,
1497 NULL,
1498 errorCode);
1499 if(!ok) {
1500 break;
1501 }
1502
1503 // test preflighting
1504 // keep the correct result for simple checking
1505 errorCode=U_ZERO_ERROR;
1506 resultLength=ucnv_fromUChars(cnv,
1507 NULL, 0,
1508 cc.unicode, cc.unicodeLength,
1509 &errorCode);
1510 if(errorCode==U_STRING_NOT_TERMINATED_WARNING || errorCode==U_BUFFER_OVERFLOW_ERROR) {
1511 errorCode=U_ZERO_ERROR;
1512 }
1513 ok=checkFromUnicode(
1514 cc, cnv, "preflight fromUChars",
1515 (uint8_t *)result, resultLength,
1516 NULL,
1517 errorCode);
1518 break;
1519 }
1520
1521 ucnv_close(cnv);
1522 return ok;
1523}
1524
1525UBool
1526ConversionTest::checkFromUnicode(ConversionCase &cc, UConverter *cnv, const char *name,
1527 const uint8_t *result, int32_t resultLength,
1528 const int32_t *resultOffsets,
1529 UErrorCode resultErrorCode) {
1530 UChar resultInvalidUChars[8];
1531 int8_t resultInvalidLength;
1532 UErrorCode errorCode;
1533
1534 const char *msg;
1535
1536 // reset the message; NULL will mean "ok"
1537 msg=NULL;
1538
1539 errorCode=U_ZERO_ERROR;
1540 resultInvalidLength=LENGTHOF(resultInvalidUChars);
1541 ucnv_getInvalidUChars(cnv, resultInvalidUChars, &resultInvalidLength, &errorCode);
1542 if(U_FAILURE(errorCode)) {
1543 errln("fromUnicode[%d](%s cb=\"%s\" fb=%d flush=%d %s) ucnv_getInvalidUChars() failed - %s",
1544 cc.caseNr, cc.charset, cc.cbopt, cc.fallbacks, cc.finalFlush, name, u_errorName(errorCode));
1545 return FALSE;
1546 }
1547
1548 // check everything that might have gone wrong
1549 if(cc.bytesLength!=resultLength) {
1550 msg="wrong result length";
1551 } else if(0!=memcmp(cc.bytes, result, cc.bytesLength)) {
1552 msg="wrong result string";
1553 } else if(cc.offsets!=NULL && 0!=memcmp(cc.offsets, resultOffsets, cc.bytesLength*sizeof(*cc.offsets))) {
1554 msg="wrong offsets";
1555 } else if(cc.outErrorCode!=resultErrorCode) {
1556 msg="wrong error code";
1557 } else if(cc.invalidLength!=resultInvalidLength) {
1558 msg="wrong length of last invalid input";
1559 } else if(0!=u_memcmp(cc.invalidUChars, resultInvalidUChars, cc.invalidLength)) {
1560 msg="wrong last invalid input";
1561 }
1562
1563 if(msg==NULL) {
1564 return TRUE;
1565 } else {
1566 char buffer[2000]; // one buffer for all strings
1567 char *s, *unicodeString, *bytesString, *resultString,
1568 *offsetsString, *resultOffsetsString,
1569 *invalidCharsString, *resultInvalidUCharsString;
1570
1571 unicodeString=s=buffer;
1572 s=printUnicode(cc.unicode, cc.unicodeLength, unicodeString);
1573 s=printBytes(cc.bytes, cc.bytesLength, bytesString=s);
1574 s=printBytes(result, resultLength, resultString=s);
1575 s=printOffsets(cc.offsets, cc.bytesLength, offsetsString=s);
1576 s=printOffsets(resultOffsets, resultLength, resultOffsetsString=s);
1577 s=printUnicode(cc.invalidUChars, cc.invalidLength, invalidCharsString=s);
1578 s=printUnicode(resultInvalidUChars, resultInvalidLength, resultInvalidUCharsString=s);
1579
1580 if((s-buffer)>(int32_t)sizeof(buffer)) {
1581 errln("fromUnicode[%d](%s cb=\"%s\" fb=%d flush=%d %s) fatal error: checkFromUnicode() test output buffer overflow writing %d chars\n",
1582 cc.caseNr, cc.charset, cc.cbopt, cc.fallbacks, cc.finalFlush, name, (int)(s-buffer));
1583 exit(1);
1584 }
1585
1586 errln("fromUnicode[%d](%s cb=\"%s\" fb=%d flush=%d %s) failed: %s\n"
1587 " unicode <%s>[%d]\n"
1588 " expected <%s>[%d]\n"
1589 " result <%s>[%d]\n"
1590 " offsets <%s>\n"
1591 " result offsets <%s>\n"
1592 " error code expected %s got %s\n"
1593 " invalidChars expected <%s> got <%s>\n",
1594 cc.caseNr, cc.charset, cc.cbopt, cc.fallbacks, cc.finalFlush, name, msg,
1595 unicodeString, cc.unicodeLength,
1596 bytesString, cc.bytesLength,
1597 resultString, resultLength,
1598 offsetsString,
1599 resultOffsetsString,
1600 u_errorName(cc.outErrorCode), u_errorName(resultErrorCode),
1601 invalidCharsString, resultInvalidUCharsString);
1602
1603 return FALSE;
1604 }
1605}
1606
1607#endif /* #if !UCONFIG_NO_LEGACY_CONVERSION */