sv-dependency-builds: src/zlib-1.2.8/contrib/pascal/example.pas annotate

annotate src/zlib-1.2.8/contrib/pascal/example.pas @ 128:5b4145a0d408

Current zlib source

author	Chris Cannam <cannam@all-day-breakfast.com>
date	Tue, 18 Oct 2016 14:33:52 +0100
parents
children

rev	line source
cannam@128	1 (* example.c -- usage example of the zlib compression library
cannam@128	2 * Copyright (C) 1995-2003 Jean-loup Gailly.
cannam@128	3 * For conditions of distribution and use, see copyright notice in zlib.h
cannam@128	4 *
cannam@128	5 * Pascal translation
cannam@128	6 * Copyright (C) 1998 by Jacques Nomssi Nzali.
cannam@128	7 * For conditions of distribution and use, see copyright notice in readme.txt
cannam@128	8 *
cannam@128	9 * Adaptation to the zlibpas interface
cannam@128	10 * Copyright (C) 2003 by Cosmin Truta.
cannam@128	11 * For conditions of distribution and use, see copyright notice in readme.txt
cannam@128	12 *)
cannam@128	13
cannam@128	14 program example;
cannam@128	15
cannam@128	16 {$DEFINE TEST_COMPRESS}
cannam@128	17 {DO NOT $DEFINE TEST_GZIO}
cannam@128	18 {$DEFINE TEST_DEFLATE}
cannam@128	19 {$DEFINE TEST_INFLATE}
cannam@128	20 {$DEFINE TEST_FLUSH}
cannam@128	21 {$DEFINE TEST_SYNC}
cannam@128	22 {$DEFINE TEST_DICT}
cannam@128	23
cannam@128	24 uses SysUtils, zlibpas;
cannam@128	25
cannam@128	26 const TESTFILE = 'foo.gz';
cannam@128	27
cannam@128	28 (* "hello world" would be more standard, but the repeated "hello"
cannam@128	29 * stresses the compression code better, sorry...
cannam@128	30 *)
cannam@128	31 const hello: PChar = 'hello, hello!';
cannam@128	32
cannam@128	33 const dictionary: PChar = 'hello';
cannam@128	34
cannam@128	35 var dictId: LongInt; (* Adler32 value of the dictionary *)
cannam@128	36
cannam@128	37 procedure CHECK_ERR(err: Integer; msg: String);
cannam@128	38 begin
cannam@128	39 if err <> Z_OK then
cannam@128	40 begin
cannam@128	41 WriteLn(msg, ' error: ', err);
cannam@128	42 Halt(1);
cannam@128	43 end;
cannam@128	44 end;
cannam@128	45
cannam@128	46 procedure EXIT_ERR(const msg: String);
cannam@128	47 begin
cannam@128	48 WriteLn('Error: ', msg);
cannam@128	49 Halt(1);
cannam@128	50 end;
cannam@128	51
cannam@128	52 (* ===========================================================================
cannam@128	53 * Test compress and uncompress
cannam@128	54 *)
cannam@128	55 {$IFDEF TEST_COMPRESS}
cannam@128	56 procedure test_compress(compr: Pointer; comprLen: LongInt;
cannam@128	57 uncompr: Pointer; uncomprLen: LongInt);
cannam@128	58 var err: Integer;
cannam@128	59 len: LongInt;
cannam@128	60 begin
cannam@128	61 len := StrLen(hello)+1;
cannam@128	62
cannam@128	63 err := compress(compr, comprLen, hello, len);
cannam@128	64 CHECK_ERR(err, 'compress');
cannam@128	65
cannam@128	66 StrCopy(PChar(uncompr), 'garbage');
cannam@128	67
cannam@128	68 err := uncompress(uncompr, uncomprLen, compr, comprLen);
cannam@128	69 CHECK_ERR(err, 'uncompress');
cannam@128	70
cannam@128	71 if StrComp(PChar(uncompr), hello) <> 0 then
cannam@128	72 EXIT_ERR('bad uncompress')
cannam@128	73 else
cannam@128	74 WriteLn('uncompress(): ', PChar(uncompr));
cannam@128	75 end;
cannam@128	76 {$ENDIF}
cannam@128	77
cannam@128	78 (* ===========================================================================
cannam@128	79 * Test read/write of .gz files
cannam@128	80 *)
cannam@128	81 {$IFDEF TEST_GZIO}
cannam@128	82 procedure test_gzio(const fname: PChar; (* compressed file name *)
cannam@128	83 uncompr: Pointer;
cannam@128	84 uncomprLen: LongInt);
cannam@128	85 var err: Integer;
cannam@128	86 len: Integer;
cannam@128	87 zfile: gzFile;
cannam@128	88 pos: LongInt;
cannam@128	89 begin
cannam@128	90 len := StrLen(hello)+1;
cannam@128	91
cannam@128	92 zfile := gzopen(fname, 'wb');
cannam@128	93 if zfile = NIL then
cannam@128	94 begin
cannam@128	95 WriteLn('gzopen error');
cannam@128	96 Halt(1);
cannam@128	97 end;
cannam@128	98 gzputc(zfile, 'h');
cannam@128	99 if gzputs(zfile, 'ello') <> 4 then
cannam@128	100 begin
cannam@128	101 WriteLn('gzputs err: ', gzerror(zfile, err));
cannam@128	102 Halt(1);
cannam@128	103 end;
cannam@128	104 {$IFDEF GZ_FORMAT_STRING}
cannam@128	105 if gzprintf(zfile, ', %s!', 'hello') <> 8 then
cannam@128	106 begin
cannam@128	107 WriteLn('gzprintf err: ', gzerror(zfile, err));
cannam@128	108 Halt(1);
cannam@128	109 end;
cannam@128	110 {$ELSE}
cannam@128	111 if gzputs(zfile, ', hello!') <> 8 then
cannam@128	112 begin
cannam@128	113 WriteLn('gzputs err: ', gzerror(zfile, err));
cannam@128	114 Halt(1);
cannam@128	115 end;
cannam@128	116 {$ENDIF}
cannam@128	117 gzseek(zfile, 1, SEEK_CUR); (* add one zero byte *)
cannam@128	118 gzclose(zfile);
cannam@128	119
cannam@128	120 zfile := gzopen(fname, 'rb');
cannam@128	121 if zfile = NIL then
cannam@128	122 begin
cannam@128	123 WriteLn('gzopen error');
cannam@128	124 Halt(1);
cannam@128	125 end;
cannam@128	126
cannam@128	127 StrCopy(PChar(uncompr), 'garbage');
cannam@128	128
cannam@128	129 if gzread(zfile, uncompr, uncomprLen) <> len then
cannam@128	130 begin
cannam@128	131 WriteLn('gzread err: ', gzerror(zfile, err));
cannam@128	132 Halt(1);
cannam@128	133 end;
cannam@128	134 if StrComp(PChar(uncompr), hello) <> 0 then
cannam@128	135 begin
cannam@128	136 WriteLn('bad gzread: ', PChar(uncompr));
cannam@128	137 Halt(1);
cannam@128	138 end
cannam@128	139 else
cannam@128	140 WriteLn('gzread(): ', PChar(uncompr));
cannam@128	141
cannam@128	142 pos := gzseek(zfile, -8, SEEK_CUR);
cannam@128	143 if (pos <> 6) or (gztell(zfile) <> pos) then
cannam@128	144 begin
cannam@128	145 WriteLn('gzseek error, pos=', pos, ', gztell=', gztell(zfile));
cannam@128	146 Halt(1);
cannam@128	147 end;
cannam@128	148
cannam@128	149 if gzgetc(zfile) <> ' ' then
cannam@128	150 begin
cannam@128	151 WriteLn('gzgetc error');
cannam@128	152 Halt(1);
cannam@128	153 end;
cannam@128	154
cannam@128	155 if gzungetc(' ', zfile) <> ' ' then
cannam@128	156 begin
cannam@128	157 WriteLn('gzungetc error');
cannam@128	158 Halt(1);
cannam@128	159 end;
cannam@128	160
cannam@128	161 gzgets(zfile, PChar(uncompr), uncomprLen);
cannam@128	162 uncomprLen := StrLen(PChar(uncompr));
cannam@128	163 if uncomprLen <> 7 then (* " hello!" *)
cannam@128	164 begin
cannam@128	165 WriteLn('gzgets err after gzseek: ', gzerror(zfile, err));
cannam@128	166 Halt(1);
cannam@128	167 end;
cannam@128	168 if StrComp(PChar(uncompr), hello + 6) <> 0 then
cannam@128	169 begin
cannam@128	170 WriteLn('bad gzgets after gzseek');
cannam@128	171 Halt(1);
cannam@128	172 end
cannam@128	173 else
cannam@128	174 WriteLn('gzgets() after gzseek: ', PChar(uncompr));
cannam@128	175
cannam@128	176 gzclose(zfile);
cannam@128	177 end;
cannam@128	178 {$ENDIF}
cannam@128	179
cannam@128	180 (* ===========================================================================
cannam@128	181 * Test deflate with small buffers
cannam@128	182 *)
cannam@128	183 {$IFDEF TEST_DEFLATE}
cannam@128	184 procedure test_deflate(compr: Pointer; comprLen: LongInt);
cannam@128	185 var c_stream: z_stream; (* compression stream *)
cannam@128	186 err: Integer;
cannam@128	187 len: LongInt;
cannam@128	188 begin
cannam@128	189 len := StrLen(hello)+1;
cannam@128	190
cannam@128	191 c_stream.zalloc := NIL;
cannam@128	192 c_stream.zfree := NIL;
cannam@128	193 c_stream.opaque := NIL;
cannam@128	194
cannam@128	195 err := deflateInit(c_stream, Z_DEFAULT_COMPRESSION);
cannam@128	196 CHECK_ERR(err, 'deflateInit');
cannam@128	197
cannam@128	198 c_stream.next_in := hello;
cannam@128	199 c_stream.next_out := compr;
cannam@128	200
cannam@128	201 while (c_stream.total_in <> len) and
cannam@128	202 (c_stream.total_out < comprLen) do
cannam@128	203 begin
cannam@128	204 c_stream.avail_out := 1; { force small buffers }
cannam@128	205 c_stream.avail_in := 1;
cannam@128	206 err := deflate(c_stream, Z_NO_FLUSH);
cannam@128	207 CHECK_ERR(err, 'deflate');
cannam@128	208 end;
cannam@128	209
cannam@128	210 (* Finish the stream, still forcing small buffers: *)
cannam@128	211 while TRUE do
cannam@128	212 begin
cannam@128	213 c_stream.avail_out := 1;
cannam@128	214 err := deflate(c_stream, Z_FINISH);
cannam@128	215 if err = Z_STREAM_END then
cannam@128	216 break;
cannam@128	217 CHECK_ERR(err, 'deflate');
cannam@128	218 end;
cannam@128	219
cannam@128	220 err := deflateEnd(c_stream);
cannam@128	221 CHECK_ERR(err, 'deflateEnd');
cannam@128	222 end;
cannam@128	223 {$ENDIF}
cannam@128	224
cannam@128	225 (* ===========================================================================
cannam@128	226 * Test inflate with small buffers
cannam@128	227 *)
cannam@128	228 {$IFDEF TEST_INFLATE}
cannam@128	229 procedure test_inflate(compr: Pointer; comprLen : LongInt;
cannam@128	230 uncompr: Pointer; uncomprLen : LongInt);
cannam@128	231 var err: Integer;
cannam@128	232 d_stream: z_stream; (* decompression stream *)
cannam@128	233 begin
cannam@128	234 StrCopy(PChar(uncompr), 'garbage');
cannam@128	235
cannam@128	236 d_stream.zalloc := NIL;
cannam@128	237 d_stream.zfree := NIL;
cannam@128	238 d_stream.opaque := NIL;
cannam@128	239
cannam@128	240 d_stream.next_in := compr;
cannam@128	241 d_stream.avail_in := 0;
cannam@128	242 d_stream.next_out := uncompr;
cannam@128	243
cannam@128	244 err := inflateInit(d_stream);
cannam@128	245 CHECK_ERR(err, 'inflateInit');
cannam@128	246
cannam@128	247 while (d_stream.total_out < uncomprLen) and
cannam@128	248 (d_stream.total_in < comprLen) do
cannam@128	249 begin
cannam@128	250 d_stream.avail_out := 1; (* force small buffers *)
cannam@128	251 d_stream.avail_in := 1;
cannam@128	252 err := inflate(d_stream, Z_NO_FLUSH);
cannam@128	253 if err = Z_STREAM_END then
cannam@128	254 break;
cannam@128	255 CHECK_ERR(err, 'inflate');
cannam@128	256 end;
cannam@128	257
cannam@128	258 err := inflateEnd(d_stream);
cannam@128	259 CHECK_ERR(err, 'inflateEnd');
cannam@128	260
cannam@128	261 if StrComp(PChar(uncompr), hello) <> 0 then
cannam@128	262 EXIT_ERR('bad inflate')
cannam@128	263 else
cannam@128	264 WriteLn('inflate(): ', PChar(uncompr));
cannam@128	265 end;
cannam@128	266 {$ENDIF}
cannam@128	267
cannam@128	268 (* ===========================================================================
cannam@128	269 * Test deflate with large buffers and dynamic change of compression level
cannam@128	270 *)
cannam@128	271 {$IFDEF TEST_DEFLATE}
cannam@128	272 procedure test_large_deflate(compr: Pointer; comprLen: LongInt;
cannam@128	273 uncompr: Pointer; uncomprLen: LongInt);
cannam@128	274 var c_stream: z_stream; (* compression stream *)
cannam@128	275 err: Integer;
cannam@128	276 begin
cannam@128	277 c_stream.zalloc := NIL;
cannam@128	278 c_stream.zfree := NIL;
cannam@128	279 c_stream.opaque := NIL;
cannam@128	280
cannam@128	281 err := deflateInit(c_stream, Z_BEST_SPEED);
cannam@128	282 CHECK_ERR(err, 'deflateInit');
cannam@128	283
cannam@128	284 c_stream.next_out := compr;
cannam@128	285 c_stream.avail_out := Integer(comprLen);
cannam@128	286
cannam@128	287 (* At this point, uncompr is still mostly zeroes, so it should compress
cannam@128	288 * very well:
cannam@128	289 *)
cannam@128	290 c_stream.next_in := uncompr;
cannam@128	291 c_stream.avail_in := Integer(uncomprLen);
cannam@128	292 err := deflate(c_stream, Z_NO_FLUSH);
cannam@128	293 CHECK_ERR(err, 'deflate');
cannam@128	294 if c_stream.avail_in <> 0 then
cannam@128	295 EXIT_ERR('deflate not greedy');
cannam@128	296
cannam@128	297 (* Feed in already compressed data and switch to no compression: *)
cannam@128	298 deflateParams(c_stream, Z_NO_COMPRESSION, Z_DEFAULT_STRATEGY);
cannam@128	299 c_stream.next_in := compr;
cannam@128	300 c_stream.avail_in := Integer(comprLen div 2);
cannam@128	301 err := deflate(c_stream, Z_NO_FLUSH);
cannam@128	302 CHECK_ERR(err, 'deflate');
cannam@128	303
cannam@128	304 (* Switch back to compressing mode: *)
cannam@128	305 deflateParams(c_stream, Z_BEST_COMPRESSION, Z_FILTERED);
cannam@128	306 c_stream.next_in := uncompr;
cannam@128	307 c_stream.avail_in := Integer(uncomprLen);
cannam@128	308 err := deflate(c_stream, Z_NO_FLUSH);
cannam@128	309 CHECK_ERR(err, 'deflate');
cannam@128	310
cannam@128	311 err := deflate(c_stream, Z_FINISH);
cannam@128	312 if err <> Z_STREAM_END then
cannam@128	313 EXIT_ERR('deflate should report Z_STREAM_END');
cannam@128	314
cannam@128	315 err := deflateEnd(c_stream);
cannam@128	316 CHECK_ERR(err, 'deflateEnd');
cannam@128	317 end;
cannam@128	318 {$ENDIF}
cannam@128	319
cannam@128	320 (* ===========================================================================
cannam@128	321 * Test inflate with large buffers
cannam@128	322 *)
cannam@128	323 {$IFDEF TEST_INFLATE}
cannam@128	324 procedure test_large_inflate(compr: Pointer; comprLen: LongInt;
cannam@128	325 uncompr: Pointer; uncomprLen: LongInt);
cannam@128	326 var err: Integer;
cannam@128	327 d_stream: z_stream; (* decompression stream *)
cannam@128	328 begin
cannam@128	329 StrCopy(PChar(uncompr), 'garbage');
cannam@128	330
cannam@128	331 d_stream.zalloc := NIL;
cannam@128	332 d_stream.zfree := NIL;
cannam@128	333 d_stream.opaque := NIL;
cannam@128	334
cannam@128	335 d_stream.next_in := compr;
cannam@128	336 d_stream.avail_in := Integer(comprLen);
cannam@128	337
cannam@128	338 err := inflateInit(d_stream);
cannam@128	339 CHECK_ERR(err, 'inflateInit');
cannam@128	340
cannam@128	341 while TRUE do
cannam@128	342 begin
cannam@128	343 d_stream.next_out := uncompr; (* discard the output *)
cannam@128	344 d_stream.avail_out := Integer(uncomprLen);
cannam@128	345 err := inflate(d_stream, Z_NO_FLUSH);
cannam@128	346 if err = Z_STREAM_END then
cannam@128	347 break;
cannam@128	348 CHECK_ERR(err, 'large inflate');
cannam@128	349 end;
cannam@128	350
cannam@128	351 err := inflateEnd(d_stream);
cannam@128	352 CHECK_ERR(err, 'inflateEnd');
cannam@128	353
cannam@128	354 if d_stream.total_out <> 2 * uncomprLen + comprLen div 2 then
cannam@128	355 begin
cannam@128	356 WriteLn('bad large inflate: ', d_stream.total_out);
cannam@128	357 Halt(1);
cannam@128	358 end
cannam@128	359 else
cannam@128	360 WriteLn('large_inflate(): OK');
cannam@128	361 end;
cannam@128	362 {$ENDIF}
cannam@128	363
cannam@128	364 (* ===========================================================================
cannam@128	365 * Test deflate with full flush
cannam@128	366 *)
cannam@128	367 {$IFDEF TEST_FLUSH}
cannam@128	368 procedure test_flush(compr: Pointer; var comprLen : LongInt);
cannam@128	369 var c_stream: z_stream; (* compression stream *)
cannam@128	370 err: Integer;
cannam@128	371 len: Integer;
cannam@128	372 begin
cannam@128	373 len := StrLen(hello)+1;
cannam@128	374
cannam@128	375 c_stream.zalloc := NIL;
cannam@128	376 c_stream.zfree := NIL;
cannam@128	377 c_stream.opaque := NIL;
cannam@128	378
cannam@128	379 err := deflateInit(c_stream, Z_DEFAULT_COMPRESSION);
cannam@128	380 CHECK_ERR(err, 'deflateInit');
cannam@128	381
cannam@128	382 c_stream.next_in := hello;
cannam@128	383 c_stream.next_out := compr;
cannam@128	384 c_stream.avail_in := 3;
cannam@128	385 c_stream.avail_out := Integer(comprLen);
cannam@128	386 err := deflate(c_stream, Z_FULL_FLUSH);
cannam@128	387 CHECK_ERR(err, 'deflate');
cannam@128	388
cannam@128	389 Inc(PByteArray(compr)^[3]); (* force an error in first compressed block *)
cannam@128	390 c_stream.avail_in := len - 3;
cannam@128	391
cannam@128	392 err := deflate(c_stream, Z_FINISH);
cannam@128	393 if err <> Z_STREAM_END then
cannam@128	394 CHECK_ERR(err, 'deflate');
cannam@128	395
cannam@128	396 err := deflateEnd(c_stream);
cannam@128	397 CHECK_ERR(err, 'deflateEnd');
cannam@128	398
cannam@128	399 comprLen := c_stream.total_out;
cannam@128	400 end;
cannam@128	401 {$ENDIF}
cannam@128	402
cannam@128	403 (* ===========================================================================
cannam@128	404 * Test inflateSync()
cannam@128	405 *)
cannam@128	406 {$IFDEF TEST_SYNC}
cannam@128	407 procedure test_sync(compr: Pointer; comprLen: LongInt;
cannam@128	408 uncompr: Pointer; uncomprLen : LongInt);
cannam@128	409 var err: Integer;
cannam@128	410 d_stream: z_stream; (* decompression stream *)
cannam@128	411 begin
cannam@128	412 StrCopy(PChar(uncompr), 'garbage');
cannam@128	413
cannam@128	414 d_stream.zalloc := NIL;
cannam@128	415 d_stream.zfree := NIL;
cannam@128	416 d_stream.opaque := NIL;
cannam@128	417
cannam@128	418 d_stream.next_in := compr;
cannam@128	419 d_stream.avail_in := 2; (* just read the zlib header *)
cannam@128	420
cannam@128	421 err := inflateInit(d_stream);
cannam@128	422 CHECK_ERR(err, 'inflateInit');
cannam@128	423
cannam@128	424 d_stream.next_out := uncompr;
cannam@128	425 d_stream.avail_out := Integer(uncomprLen);
cannam@128	426
cannam@128	427 inflate(d_stream, Z_NO_FLUSH);
cannam@128	428 CHECK_ERR(err, 'inflate');
cannam@128	429
cannam@128	430 d_stream.avail_in := Integer(comprLen-2); (* read all compressed data *)
cannam@128	431 err := inflateSync(d_stream); (* but skip the damaged part *)
cannam@128	432 CHECK_ERR(err, 'inflateSync');
cannam@128	433
cannam@128	434 err := inflate(d_stream, Z_FINISH);
cannam@128	435 if err <> Z_DATA_ERROR then
cannam@128	436 EXIT_ERR('inflate should report DATA_ERROR');
cannam@128	437 (* Because of incorrect adler32 *)
cannam@128	438
cannam@128	439 err := inflateEnd(d_stream);
cannam@128	440 CHECK_ERR(err, 'inflateEnd');
cannam@128	441
cannam@128	442 WriteLn('after inflateSync(): hel', PChar(uncompr));
cannam@128	443 end;
cannam@128	444 {$ENDIF}
cannam@128	445
cannam@128	446 (* ===========================================================================
cannam@128	447 * Test deflate with preset dictionary
cannam@128	448 *)
cannam@128	449 {$IFDEF TEST_DICT}
cannam@128	450 procedure test_dict_deflate(compr: Pointer; comprLen: LongInt);
cannam@128	451 var c_stream: z_stream; (* compression stream *)
cannam@128	452 err: Integer;
cannam@128	453 begin
cannam@128	454 c_stream.zalloc := NIL;
cannam@128	455 c_stream.zfree := NIL;
cannam@128	456 c_stream.opaque := NIL;
cannam@128	457
cannam@128	458 err := deflateInit(c_stream, Z_BEST_COMPRESSION);
cannam@128	459 CHECK_ERR(err, 'deflateInit');
cannam@128	460
cannam@128	461 err := deflateSetDictionary(c_stream, dictionary, StrLen(dictionary));
cannam@128	462 CHECK_ERR(err, 'deflateSetDictionary');
cannam@128	463
cannam@128	464 dictId := c_stream.adler;
cannam@128	465 c_stream.next_out := compr;
cannam@128	466 c_stream.avail_out := Integer(comprLen);
cannam@128	467
cannam@128	468 c_stream.next_in := hello;
cannam@128	469 c_stream.avail_in := StrLen(hello)+1;
cannam@128	470
cannam@128	471 err := deflate(c_stream, Z_FINISH);
cannam@128	472 if err <> Z_STREAM_END then
cannam@128	473 EXIT_ERR('deflate should report Z_STREAM_END');
cannam@128	474
cannam@128	475 err := deflateEnd(c_stream);
cannam@128	476 CHECK_ERR(err, 'deflateEnd');
cannam@128	477 end;
cannam@128	478 {$ENDIF}
cannam@128	479
cannam@128	480 (* ===========================================================================
cannam@128	481 * Test inflate with a preset dictionary
cannam@128	482 *)
cannam@128	483 {$IFDEF TEST_DICT}
cannam@128	484 procedure test_dict_inflate(compr: Pointer; comprLen: LongInt;
cannam@128	485 uncompr: Pointer; uncomprLen: LongInt);
cannam@128	486 var err: Integer;
cannam@128	487 d_stream: z_stream; (* decompression stream *)
cannam@128	488 begin
cannam@128	489 StrCopy(PChar(uncompr), 'garbage');
cannam@128	490
cannam@128	491 d_stream.zalloc := NIL;
cannam@128	492 d_stream.zfree := NIL;
cannam@128	493 d_stream.opaque := NIL;
cannam@128	494
cannam@128	495 d_stream.next_in := compr;
cannam@128	496 d_stream.avail_in := Integer(comprLen);
cannam@128	497
cannam@128	498 err := inflateInit(d_stream);
cannam@128	499 CHECK_ERR(err, 'inflateInit');
cannam@128	500
cannam@128	501 d_stream.next_out := uncompr;
cannam@128	502 d_stream.avail_out := Integer(uncomprLen);
cannam@128	503
cannam@128	504 while TRUE do
cannam@128	505 begin
cannam@128	506 err := inflate(d_stream, Z_NO_FLUSH);
cannam@128	507 if err = Z_STREAM_END then
cannam@128	508 break;
cannam@128	509 if err = Z_NEED_DICT then
cannam@128	510 begin
cannam@128	511 if d_stream.adler <> dictId then
cannam@128	512 EXIT_ERR('unexpected dictionary');
cannam@128	513 err := inflateSetDictionary(d_stream, dictionary, StrLen(dictionary));
cannam@128	514 end;
cannam@128	515 CHECK_ERR(err, 'inflate with dict');
cannam@128	516 end;
cannam@128	517
cannam@128	518 err := inflateEnd(d_stream);
cannam@128	519 CHECK_ERR(err, 'inflateEnd');
cannam@128	520
cannam@128	521 if StrComp(PChar(uncompr), hello) <> 0 then
cannam@128	522 EXIT_ERR('bad inflate with dict')
cannam@128	523 else
cannam@128	524 WriteLn('inflate with dictionary: ', PChar(uncompr));
cannam@128	525 end;
cannam@128	526 {$ENDIF}
cannam@128	527
cannam@128	528 var compr, uncompr: Pointer;
cannam@128	529 comprLen, uncomprLen: LongInt;
cannam@128	530
cannam@128	531 begin
cannam@128	532 if zlibVersion^ <> ZLIB_VERSION[1] then
cannam@128	533 EXIT_ERR('Incompatible zlib version');
cannam@128	534
cannam@128	535 WriteLn('zlib version: ', zlibVersion);
cannam@128	536 WriteLn('zlib compile flags: ', Format('0x%x', [zlibCompileFlags]));
cannam@128	537
cannam@128	538 comprLen := 10000 * SizeOf(Integer); (* don't overflow on MSDOS *)
cannam@128	539 uncomprLen := comprLen;
cannam@128	540 GetMem(compr, comprLen);
cannam@128	541 GetMem(uncompr, uncomprLen);
cannam@128	542 if (compr = NIL) or (uncompr = NIL) then
cannam@128	543 EXIT_ERR('Out of memory');
cannam@128	544 (* compr and uncompr are cleared to avoid reading uninitialized
cannam@128	545 * data and to ensure that uncompr compresses well.
cannam@128	546 *)
cannam@128	547 FillChar(compr^, comprLen, 0);
cannam@128	548 FillChar(uncompr^, uncomprLen, 0);
cannam@128	549
cannam@128	550 {$IFDEF TEST_COMPRESS}
cannam@128	551 WriteLn('** Testing compress');
cannam@128	552 test_compress(compr, comprLen, uncompr, uncomprLen);
cannam@128	553 {$ENDIF}
cannam@128	554
cannam@128	555 {$IFDEF TEST_GZIO}
cannam@128	556 WriteLn('** Testing gzio');
cannam@128	557 if ParamCount >= 1 then
cannam@128	558 test_gzio(ParamStr(1), uncompr, uncomprLen)
cannam@128	559 else
cannam@128	560 test_gzio(TESTFILE, uncompr, uncomprLen);
cannam@128	561 {$ENDIF}
cannam@128	562
cannam@128	563 {$IFDEF TEST_DEFLATE}
cannam@128	564 WriteLn('** Testing deflate with small buffers');
cannam@128	565 test_deflate(compr, comprLen);
cannam@128	566 {$ENDIF}
cannam@128	567 {$IFDEF TEST_INFLATE}
cannam@128	568 WriteLn('** Testing inflate with small buffers');
cannam@128	569 test_inflate(compr, comprLen, uncompr, uncomprLen);
cannam@128	570 {$ENDIF}
cannam@128	571
cannam@128	572 {$IFDEF TEST_DEFLATE}
cannam@128	573 WriteLn('** Testing deflate with large buffers');
cannam@128	574 test_large_deflate(compr, comprLen, uncompr, uncomprLen);
cannam@128	575 {$ENDIF}
cannam@128	576 {$IFDEF TEST_INFLATE}
cannam@128	577 WriteLn('** Testing inflate with large buffers');
cannam@128	578 test_large_inflate(compr, comprLen, uncompr, uncomprLen);
cannam@128	579 {$ENDIF}
cannam@128	580
cannam@128	581 {$IFDEF TEST_FLUSH}
cannam@128	582 WriteLn('** Testing deflate with full flush');
cannam@128	583 test_flush(compr, comprLen);
cannam@128	584 {$ENDIF}
cannam@128	585 {$IFDEF TEST_SYNC}
cannam@128	586 WriteLn('** Testing inflateSync');
cannam@128	587 test_sync(compr, comprLen, uncompr, uncomprLen);
cannam@128	588 {$ENDIF}
cannam@128	589 comprLen := uncomprLen;
cannam@128	590
cannam@128	591 {$IFDEF TEST_DICT}
cannam@128	592 WriteLn('** Testing deflate and inflate with preset dictionary');
cannam@128	593 test_dict_deflate(compr, comprLen);
cannam@128	594 test_dict_inflate(compr, comprLen, uncompr, uncomprLen);
cannam@128	595 {$ENDIF}
cannam@128	596
cannam@128	597 FreeMem(compr, comprLen);
cannam@128	598 FreeMem(uncompr, uncomprLen);
cannam@128	599 end.

Mercurial > hg > sv-dependency-builds

annotate src/zlib-1.2.8/contrib/pascal/example.pas @ 128:5b4145a0d408