Mercurial > hg > sv-dependency-builds

annotate src/zlib-1.2.8/contrib/delphi/ZLib.pas @ 155:54abead6ecce

Find changesets by keywords (author, files, the commit message), revision number or hash, or revset expression.
Opus for Windows (MSVC)
author Chris Cannam <cannam@all-day-breakfast.com>
date Fri, 25 Jan 2019 12:15:58 +0000
parents 5b4145a0d408
children
rev   line source
cannam@128 1 {*******************************************************}
cannam@128 2 { }
cannam@128 3 { Borland Delphi Supplemental Components }
cannam@128 4 { ZLIB Data Compression Interface Unit }
cannam@128 5 { }
cannam@128 6 { Copyright (c) 1997,99 Borland Corporation }
cannam@128 7 { }
cannam@128 8 {*******************************************************}
cannam@128 9
cannam@128 10 { Updated for zlib 1.2.x by Cosmin Truta <cosmint@cs.ubbcluj.ro> }
cannam@128 11
cannam@128 12 unit ZLib;
cannam@128 13
cannam@128 14 interface
cannam@128 15
cannam@128 16 uses SysUtils, Classes;
cannam@128 17
cannam@128 18 type
cannam@128 19 TAlloc = function (AppData: Pointer; Items, Size: Integer): Pointer; cdecl;
cannam@128 20 TFree = procedure (AppData, Block: Pointer); cdecl;
cannam@128 21
cannam@128 22 // Internal structure. Ignore.
cannam@128 23 TZStreamRec = packed record
cannam@128 24 next_in: PChar; // next input byte
cannam@128 25 avail_in: Integer; // number of bytes available at next_in
cannam@128 26 total_in: Longint; // total nb of input bytes read so far
cannam@128 27
cannam@128 28 next_out: PChar; // next output byte should be put here
cannam@128 29 avail_out: Integer; // remaining free space at next_out
cannam@128 30 total_out: Longint; // total nb of bytes output so far
cannam@128 31
cannam@128 32 msg: PChar; // last error message, NULL if no error
cannam@128 33 internal: Pointer; // not visible by applications
cannam@128 34
cannam@128 35 zalloc: TAlloc; // used to allocate the internal state
cannam@128 36 zfree: TFree; // used to free the internal state
cannam@128 37 AppData: Pointer; // private data object passed to zalloc and zfree
cannam@128 38
cannam@128 39 data_type: Integer; // best guess about the data type: ascii or binary
cannam@128 40 adler: Longint; // adler32 value of the uncompressed data
cannam@128 41 reserved: Longint; // reserved for future use
cannam@128 42 end;
cannam@128 43
cannam@128 44 // Abstract ancestor class
cannam@128 45 TCustomZlibStream = class(TStream)
cannam@128 46 private
cannam@128 47 FStrm: TStream;
cannam@128 48 FStrmPos: Integer;
cannam@128 49 FOnProgress: TNotifyEvent;
cannam@128 50 FZRec: TZStreamRec;
cannam@128 51 FBuffer: array [Word] of Char;
cannam@128 52 protected
cannam@128 53 procedure Progress(Sender: TObject); dynamic;
cannam@128 54 property OnProgress: TNotifyEvent read FOnProgress write FOnProgress;
cannam@128 55 constructor Create(Strm: TStream);
cannam@128 56 end;
cannam@128 57
cannam@128 58 { TCompressionStream compresses data on the fly as data is written to it, and
cannam@128 59 stores the compressed data to another stream.
cannam@128 60
cannam@128 61 TCompressionStream is write-only and strictly sequential. Reading from the
cannam@128 62 stream will raise an exception. Using Seek to move the stream pointer
cannam@128 63 will raise an exception.
cannam@128 64
cannam@128 65 Output data is cached internally, written to the output stream only when
cannam@128 66 the internal output buffer is full. All pending output data is flushed
cannam@128 67 when the stream is destroyed.
cannam@128 68
cannam@128 69 The Position property returns the number of uncompressed bytes of
cannam@128 70 data that have been written to the stream so far.
cannam@128 71
cannam@128 72 CompressionRate returns the on-the-fly percentage by which the original
cannam@128 73 data has been compressed: (1 - (CompressedBytes / UncompressedBytes)) * 100
cannam@128 74 If raw data size = 100 and compressed data size = 25, the CompressionRate
cannam@128 75 is 75%
cannam@128 76
cannam@128 77 The OnProgress event is called each time the output buffer is filled and
cannam@128 78 written to the output stream. This is useful for updating a progress
cannam@128 79 indicator when you are writing a large chunk of data to the compression
cannam@128 80 stream in a single call.}
cannam@128 81
cannam@128 82
cannam@128 83 TCompressionLevel = (clNone, clFastest, clDefault, clMax);
cannam@128 84
cannam@128 85 TCompressionStream = class(TCustomZlibStream)
cannam@128 86 private
cannam@128 87 function GetCompressionRate: Single;
cannam@128 88 public
cannam@128 89 constructor Create(CompressionLevel: TCompressionLevel; Dest: TStream);
cannam@128 90 destructor Destroy; override;
cannam@128 91 function Read(var Buffer; Count: Longint): Longint; override;
cannam@128 92 function Write(const Buffer; Count: Longint): Longint; override;
cannam@128 93 function Seek(Offset: Longint; Origin: Word): Longint; override;
cannam@128 94 property CompressionRate: Single read GetCompressionRate;
cannam@128 95 property OnProgress;
cannam@128 96 end;
cannam@128 97
cannam@128 98 { TDecompressionStream decompresses data on the fly as data is read from it.
cannam@128 99
cannam@128 100 Compressed data comes from a separate source stream. TDecompressionStream
cannam@128 101 is read-only and unidirectional; you can seek forward in the stream, but not
cannam@128 102 backwards. The special case of setting the stream position to zero is
cannam@128 103 allowed. Seeking forward decompresses data until the requested position in
cannam@128 104 the uncompressed data has been reached. Seeking backwards, seeking relative
cannam@128 105 to the end of the stream, requesting the size of the stream, and writing to
cannam@128 106 the stream will raise an exception.
cannam@128 107
cannam@128 108 The Position property returns the number of bytes of uncompressed data that
cannam@128 109 have been read from the stream so far.
cannam@128 110
cannam@128 111 The OnProgress event is called each time the internal input buffer of
cannam@128 112 compressed data is exhausted and the next block is read from the input stream.
cannam@128 113 This is useful for updating a progress indicator when you are reading a
cannam@128 114 large chunk of data from the decompression stream in a single call.}
cannam@128 115
cannam@128 116 TDecompressionStream = class(TCustomZlibStream)
cannam@128 117 public
cannam@128 118 constructor Create(Source: TStream);
cannam@128 119 destructor Destroy; override;
cannam@128 120 function Read(var Buffer; Count: Longint): Longint; override;
cannam@128 121 function Write(const Buffer; Count: Longint): Longint; override;
cannam@128 122 function Seek(Offset: Longint; Origin: Word): Longint; override;
cannam@128 123 property OnProgress;
cannam@128 124 end;
cannam@128 125
cannam@128 126
cannam@128 127
cannam@128 128 { CompressBuf compresses data, buffer to buffer, in one call.
cannam@128 129 In: InBuf = ptr to compressed data
cannam@128 130 InBytes = number of bytes in InBuf
cannam@128 131 Out: OutBuf = ptr to newly allocated buffer containing decompressed data
cannam@128 132 OutBytes = number of bytes in OutBuf }
cannam@128 133 procedure CompressBuf(const InBuf: Pointer; InBytes: Integer;
cannam@128 134 out OutBuf: Pointer; out OutBytes: Integer);
cannam@128 135
cannam@128 136
cannam@128 137 { DecompressBuf decompresses data, buffer to buffer, in one call.
cannam@128 138 In: InBuf = ptr to compressed data
cannam@128 139 InBytes = number of bytes in InBuf
cannam@128 140 OutEstimate = zero, or est. size of the decompressed data
cannam@128 141 Out: OutBuf = ptr to newly allocated buffer containing decompressed data
cannam@128 142 OutBytes = number of bytes in OutBuf }
cannam@128 143 procedure DecompressBuf(const InBuf: Pointer; InBytes: Integer;
cannam@128 144 OutEstimate: Integer; out OutBuf: Pointer; out OutBytes: Integer);
cannam@128 145
cannam@128 146 { DecompressToUserBuf decompresses data, buffer to buffer, in one call.
cannam@128 147 In: InBuf = ptr to compressed data
cannam@128 148 InBytes = number of bytes in InBuf
cannam@128 149 Out: OutBuf = ptr to user-allocated buffer to contain decompressed data
cannam@128 150 BufSize = number of bytes in OutBuf }
cannam@128 151 procedure DecompressToUserBuf(const InBuf: Pointer; InBytes: Integer;
cannam@128 152 const OutBuf: Pointer; BufSize: Integer);
cannam@128 153
cannam@128 154 const
cannam@128 155 zlib_version = '1.2.8';
cannam@128 156
cannam@128 157 type
cannam@128 158 EZlibError = class(Exception);
cannam@128 159 ECompressionError = class(EZlibError);
cannam@128 160 EDecompressionError = class(EZlibError);
cannam@128 161
cannam@128 162 implementation
cannam@128 163
cannam@128 164 uses ZLibConst;
cannam@128 165
cannam@128 166 const
cannam@128 167 Z_NO_FLUSH = 0;
cannam@128 168 Z_PARTIAL_FLUSH = 1;
cannam@128 169 Z_SYNC_FLUSH = 2;
cannam@128 170 Z_FULL_FLUSH = 3;
cannam@128 171 Z_FINISH = 4;
cannam@128 172
cannam@128 173 Z_OK = 0;
cannam@128 174 Z_STREAM_END = 1;
cannam@128 175 Z_NEED_DICT = 2;
cannam@128 176 Z_ERRNO = (-1);
cannam@128 177 Z_STREAM_ERROR = (-2);
cannam@128 178 Z_DATA_ERROR = (-3);
cannam@128 179 Z_MEM_ERROR = (-4);
cannam@128 180 Z_BUF_ERROR = (-5);
cannam@128 181 Z_VERSION_ERROR = (-6);
cannam@128 182
cannam@128 183 Z_NO_COMPRESSION = 0;
cannam@128 184 Z_BEST_SPEED = 1;
cannam@128 185 Z_BEST_COMPRESSION = 9;
cannam@128 186 Z_DEFAULT_COMPRESSION = (-1);
cannam@128 187
cannam@128 188 Z_FILTERED = 1;
cannam@128 189 Z_HUFFMAN_ONLY = 2;
cannam@128 190 Z_RLE = 3;
cannam@128 191 Z_DEFAULT_STRATEGY = 0;
cannam@128 192
cannam@128 193 Z_BINARY = 0;
cannam@128 194 Z_ASCII = 1;
cannam@128 195 Z_UNKNOWN = 2;
cannam@128 196
cannam@128 197 Z_DEFLATED = 8;
cannam@128 198
cannam@128 199
cannam@128 200 {$L adler32.obj}
cannam@128 201 {$L compress.obj}
cannam@128 202 {$L crc32.obj}
cannam@128 203 {$L deflate.obj}
cannam@128 204 {$L infback.obj}
cannam@128 205 {$L inffast.obj}
cannam@128 206 {$L inflate.obj}
cannam@128 207 {$L inftrees.obj}
cannam@128 208 {$L trees.obj}
cannam@128 209 {$L uncompr.obj}
cannam@128 210 {$L zutil.obj}
cannam@128 211
cannam@128 212 procedure adler32; external;
cannam@128 213 procedure compressBound; external;
cannam@128 214 procedure crc32; external;
cannam@128 215 procedure deflateInit2_; external;
cannam@128 216 procedure deflateParams; external;
cannam@128 217
cannam@128 218 function _malloc(Size: Integer): Pointer; cdecl;
cannam@128 219 begin
cannam@128 220 Result := AllocMem(Size);
cannam@128 221 end;
cannam@128 222
cannam@128 223 procedure _free(Block: Pointer); cdecl;
cannam@128 224 begin
cannam@128 225 FreeMem(Block);
cannam@128 226 end;
cannam@128 227
cannam@128 228 procedure _memset(P: Pointer; B: Byte; count: Integer); cdecl;
cannam@128 229 begin
cannam@128 230 FillChar(P^, count, B);
cannam@128 231 end;
cannam@128 232
cannam@128 233 procedure _memcpy(dest, source: Pointer; count: Integer); cdecl;
cannam@128 234 begin
cannam@128 235 Move(source^, dest^, count);
cannam@128 236 end;
cannam@128 237
cannam@128 238
cannam@128 239
cannam@128 240 // deflate compresses data
cannam@128 241 function deflateInit_(var strm: TZStreamRec; level: Integer; version: PChar;
cannam@128 242 recsize: Integer): Integer; external;
cannam@128 243 function deflate(var strm: TZStreamRec; flush: Integer): Integer; external;
cannam@128 244 function deflateEnd(var strm: TZStreamRec): Integer; external;
cannam@128 245
cannam@128 246 // inflate decompresses data
cannam@128 247 function inflateInit_(var strm: TZStreamRec; version: PChar;
cannam@128 248 recsize: Integer): Integer; external;
cannam@128 249 function inflate(var strm: TZStreamRec; flush: Integer): Integer; external;
cannam@128 250 function inflateEnd(var strm: TZStreamRec): Integer; external;
cannam@128 251 function inflateReset(var strm: TZStreamRec): Integer; external;
cannam@128 252
cannam@128 253
cannam@128 254 function zlibAllocMem(AppData: Pointer; Items, Size: Integer): Pointer; cdecl;
cannam@128 255 begin
cannam@128 256 // GetMem(Result, Items*Size);
cannam@128 257 Result := AllocMem(Items * Size);
cannam@128 258 end;
cannam@128 259
cannam@128 260 procedure zlibFreeMem(AppData, Block: Pointer); cdecl;
cannam@128 261 begin
cannam@128 262 FreeMem(Block);
cannam@128 263 end;
cannam@128 264
cannam@128 265 {function zlibCheck(code: Integer): Integer;
cannam@128 266 begin
cannam@128 267 Result := code;
cannam@128 268 if code < 0 then
cannam@128 269 raise EZlibError.Create('error'); //!!
cannam@128 270 end;}
cannam@128 271
cannam@128 272 function CCheck(code: Integer): Integer;
cannam@128 273 begin
cannam@128 274 Result := code;
cannam@128 275 if code < 0 then
cannam@128 276 raise ECompressionError.Create('error'); //!!
cannam@128 277 end;
cannam@128 278
cannam@128 279 function DCheck(code: Integer): Integer;
cannam@128 280 begin
cannam@128 281 Result := code;
cannam@128 282 if code < 0 then
cannam@128 283 raise EDecompressionError.Create('error'); //!!
cannam@128 284 end;
cannam@128 285
cannam@128 286 procedure CompressBuf(const InBuf: Pointer; InBytes: Integer;
cannam@128 287 out OutBuf: Pointer; out OutBytes: Integer);
cannam@128 288 var
cannam@128 289 strm: TZStreamRec;
cannam@128 290 P: Pointer;
cannam@128 291 begin
cannam@128 292 FillChar(strm, sizeof(strm), 0);
cannam@128 293 strm.zalloc := zlibAllocMem;
cannam@128 294 strm.zfree := zlibFreeMem;
cannam@128 295 OutBytes := ((InBytes + (InBytes div 10) + 12) + 255) and not 255;
cannam@128 296 GetMem(OutBuf, OutBytes);
cannam@128 297 try
cannam@128 298 strm.next_in := InBuf;
cannam@128 299 strm.avail_in := InBytes;
cannam@128 300 strm.next_out := OutBuf;
cannam@128 301 strm.avail_out := OutBytes;
cannam@128 302 CCheck(deflateInit_(strm, Z_BEST_COMPRESSION, zlib_version, sizeof(strm)));
cannam@128 303 try
cannam@128 304 while CCheck(deflate(strm, Z_FINISH)) <> Z_STREAM_END do
cannam@128 305 begin
cannam@128 306 P := OutBuf;
cannam@128 307 Inc(OutBytes, 256);
cannam@128 308 ReallocMem(OutBuf, OutBytes);
cannam@128 309 strm.next_out := PChar(Integer(OutBuf) + (Integer(strm.next_out) - Integer(P)));
cannam@128 310 strm.avail_out := 256;
cannam@128 311 end;
cannam@128 312 finally
cannam@128 313 CCheck(deflateEnd(strm));
cannam@128 314 end;
cannam@128 315 ReallocMem(OutBuf, strm.total_out);
cannam@128 316 OutBytes := strm.total_out;
cannam@128 317 except
cannam@128 318 FreeMem(OutBuf);
cannam@128 319 raise
cannam@128 320 end;
cannam@128 321 end;
cannam@128 322
cannam@128 323
cannam@128 324 procedure DecompressBuf(const InBuf: Pointer; InBytes: Integer;
cannam@128 325 OutEstimate: Integer; out OutBuf: Pointer; out OutBytes: Integer);
cannam@128 326 var
cannam@128 327 strm: TZStreamRec;
cannam@128 328 P: Pointer;
cannam@128 329 BufInc: Integer;
cannam@128 330 begin
cannam@128 331 FillChar(strm, sizeof(strm), 0);
cannam@128 332 strm.zalloc := zlibAllocMem;
cannam@128 333 strm.zfree := zlibFreeMem;
cannam@128 334 BufInc := (InBytes + 255) and not 255;
cannam@128 335 if OutEstimate = 0 then
cannam@128 336 OutBytes := BufInc
cannam@128 337 else
cannam@128 338 OutBytes := OutEstimate;
cannam@128 339 GetMem(OutBuf, OutBytes);
cannam@128 340 try
cannam@128 341 strm.next_in := InBuf;
cannam@128 342 strm.avail_in := InBytes;
cannam@128 343 strm.next_out := OutBuf;
cannam@128 344 strm.avail_out := OutBytes;
cannam@128 345 DCheck(inflateInit_(strm, zlib_version, sizeof(strm)));
cannam@128 346 try
cannam@128 347 while DCheck(inflate(strm, Z_NO_FLUSH)) <> Z_STREAM_END do
cannam@128 348 begin
cannam@128 349 P := OutBuf;
cannam@128 350 Inc(OutBytes, BufInc);
cannam@128 351 ReallocMem(OutBuf, OutBytes);
cannam@128 352 strm.next_out := PChar(Integer(OutBuf) + (Integer(strm.next_out) - Integer(P)));
cannam@128 353 strm.avail_out := BufInc;
cannam@128 354 end;
cannam@128 355 finally
cannam@128 356 DCheck(inflateEnd(strm));
cannam@128 357 end;
cannam@128 358 ReallocMem(OutBuf, strm.total_out);
cannam@128 359 OutBytes := strm.total_out;
cannam@128 360 except
cannam@128 361 FreeMem(OutBuf);
cannam@128 362 raise
cannam@128 363 end;
cannam@128 364 end;
cannam@128 365
cannam@128 366 procedure DecompressToUserBuf(const InBuf: Pointer; InBytes: Integer;
cannam@128 367 const OutBuf: Pointer; BufSize: Integer);
cannam@128 368 var
cannam@128 369 strm: TZStreamRec;
cannam@128 370 begin
cannam@128 371 FillChar(strm, sizeof(strm), 0);
cannam@128 372 strm.zalloc := zlibAllocMem;
cannam@128 373 strm.zfree := zlibFreeMem;
cannam@128 374 strm.next_in := InBuf;
cannam@128 375 strm.avail_in := InBytes;
cannam@128 376 strm.next_out := OutBuf;
cannam@128 377 strm.avail_out := BufSize;
cannam@128 378 DCheck(inflateInit_(strm, zlib_version, sizeof(strm)));
cannam@128 379 try
cannam@128 380 if DCheck(inflate(strm, Z_FINISH)) <> Z_STREAM_END then
cannam@128 381 raise EZlibError.CreateRes(@sTargetBufferTooSmall);
cannam@128 382 finally
cannam@128 383 DCheck(inflateEnd(strm));
cannam@128 384 end;
cannam@128 385 end;
cannam@128 386
cannam@128 387 // TCustomZlibStream
cannam@128 388
cannam@128 389 constructor TCustomZLibStream.Create(Strm: TStream);
cannam@128 390 begin
cannam@128 391 inherited Create;
cannam@128 392 FStrm := Strm;
cannam@128 393 FStrmPos := Strm.Position;
cannam@128 394 FZRec.zalloc := zlibAllocMem;
cannam@128 395 FZRec.zfree := zlibFreeMem;
cannam@128 396 end;
cannam@128 397
cannam@128 398 procedure TCustomZLibStream.Progress(Sender: TObject);
cannam@128 399 begin
cannam@128 400 if Assigned(FOnProgress) then FOnProgress(Sender);
cannam@128 401 end;
cannam@128 402
cannam@128 403
cannam@128 404 // TCompressionStream
cannam@128 405
cannam@128 406 constructor TCompressionStream.Create(CompressionLevel: TCompressionLevel;
cannam@128 407 Dest: TStream);
cannam@128 408 const
cannam@128 409 Levels: array [TCompressionLevel] of ShortInt =
cannam@128 410 (Z_NO_COMPRESSION, Z_BEST_SPEED, Z_DEFAULT_COMPRESSION, Z_BEST_COMPRESSION);
cannam@128 411 begin
cannam@128 412 inherited Create(Dest);
cannam@128 413 FZRec.next_out := FBuffer;
cannam@128 414 FZRec.avail_out := sizeof(FBuffer);
cannam@128 415 CCheck(deflateInit_(FZRec, Levels[CompressionLevel], zlib_version, sizeof(FZRec)));
cannam@128 416 end;
cannam@128 417
cannam@128 418 destructor TCompressionStream.Destroy;
cannam@128 419 begin
cannam@128 420 FZRec.next_in := nil;
cannam@128 421 FZRec.avail_in := 0;
cannam@128 422 try
cannam@128 423 if FStrm.Position <> FStrmPos then FStrm.Position := FStrmPos;
cannam@128 424 while (CCheck(deflate(FZRec, Z_FINISH)) <> Z_STREAM_END)
cannam@128 425 and (FZRec.avail_out = 0) do
cannam@128 426 begin
cannam@128 427 FStrm.WriteBuffer(FBuffer, sizeof(FBuffer));
cannam@128 428 FZRec.next_out := FBuffer;
cannam@128 429 FZRec.avail_out := sizeof(FBuffer);
cannam@128 430 end;
cannam@128 431 if FZRec.avail_out < sizeof(FBuffer) then
cannam@128 432 FStrm.WriteBuffer(FBuffer, sizeof(FBuffer) - FZRec.avail_out);
cannam@128 433 finally
cannam@128 434 deflateEnd(FZRec);
cannam@128 435 end;
cannam@128 436 inherited Destroy;
cannam@128 437 end;
cannam@128 438
cannam@128 439 function TCompressionStream.Read(var Buffer; Count: Longint): Longint;
cannam@128 440 begin
cannam@128 441 raise ECompressionError.CreateRes(@sInvalidStreamOp);
cannam@128 442 end;
cannam@128 443
cannam@128 444 function TCompressionStream.Write(const Buffer; Count: Longint): Longint;
cannam@128 445 begin
cannam@128 446 FZRec.next_in := @Buffer;
cannam@128 447 FZRec.avail_in := Count;
cannam@128 448 if FStrm.Position <> FStrmPos then FStrm.Position := FStrmPos;
cannam@128 449 while (FZRec.avail_in > 0) do
cannam@128 450 begin
cannam@128 451 CCheck(deflate(FZRec, 0));
cannam@128 452 if FZRec.avail_out = 0 then
cannam@128 453 begin
cannam@128 454 FStrm.WriteBuffer(FBuffer, sizeof(FBuffer));
cannam@128 455 FZRec.next_out := FBuffer;
cannam@128 456 FZRec.avail_out := sizeof(FBuffer);
cannam@128 457 FStrmPos := FStrm.Position;
cannam@128 458 Progress(Self);
cannam@128 459 end;
cannam@128 460 end;
cannam@128 461 Result := Count;
cannam@128 462 end;
cannam@128 463
cannam@128 464 function TCompressionStream.Seek(Offset: Longint; Origin: Word): Longint;
cannam@128 465 begin
cannam@128 466 if (Offset = 0) and (Origin = soFromCurrent) then
cannam@128 467 Result := FZRec.total_in
cannam@128 468 else
cannam@128 469 raise ECompressionError.CreateRes(@sInvalidStreamOp);
cannam@128 470 end;
cannam@128 471
cannam@128 472 function TCompressionStream.GetCompressionRate: Single;
cannam@128 473 begin
cannam@128 474 if FZRec.total_in = 0 then
cannam@128 475 Result := 0
cannam@128 476 else
cannam@128 477 Result := (1.0 - (FZRec.total_out / FZRec.total_in)) * 100.0;
cannam@128 478 end;
cannam@128 479
cannam@128 480
cannam@128 481 // TDecompressionStream
cannam@128 482
cannam@128 483 constructor TDecompressionStream.Create(Source: TStream);
cannam@128 484 begin
cannam@128 485 inherited Create(Source);
cannam@128 486 FZRec.next_in := FBuffer;
cannam@128 487 FZRec.avail_in := 0;
cannam@128 488 DCheck(inflateInit_(FZRec, zlib_version, sizeof(FZRec)));
cannam@128 489 end;
cannam@128 490
cannam@128 491 destructor TDecompressionStream.Destroy;
cannam@128 492 begin
cannam@128 493 FStrm.Seek(-FZRec.avail_in, 1);
cannam@128 494 inflateEnd(FZRec);
cannam@128 495 inherited Destroy;
cannam@128 496 end;
cannam@128 497
cannam@128 498 function TDecompressionStream.Read(var Buffer; Count: Longint): Longint;
cannam@128 499 begin
cannam@128 500 FZRec.next_out := @Buffer;
cannam@128 501 FZRec.avail_out := Count;
cannam@128 502 if FStrm.Position <> FStrmPos then FStrm.Position := FStrmPos;
cannam@128 503 while (FZRec.avail_out > 0) do
cannam@128 504 begin
cannam@128 505 if FZRec.avail_in = 0 then
cannam@128 506 begin
cannam@128 507 FZRec.avail_in := FStrm.Read(FBuffer, sizeof(FBuffer));
cannam@128 508 if FZRec.avail_in = 0 then
cannam@128 509 begin
cannam@128 510 Result := Count - FZRec.avail_out;
cannam@128 511 Exit;
cannam@128 512 end;
cannam@128 513 FZRec.next_in := FBuffer;
cannam@128 514 FStrmPos := FStrm.Position;
cannam@128 515 Progress(Self);
cannam@128 516 end;
cannam@128 517 CCheck(inflate(FZRec, 0));
cannam@128 518 end;
cannam@128 519 Result := Count;
cannam@128 520 end;
cannam@128 521
cannam@128 522 function TDecompressionStream.Write(const Buffer; Count: Longint): Longint;
cannam@128 523 begin
cannam@128 524 raise EDecompressionError.CreateRes(@sInvalidStreamOp);
cannam@128 525 end;
cannam@128 526
cannam@128 527 function TDecompressionStream.Seek(Offset: Longint; Origin: Word): Longint;
cannam@128 528 var
cannam@128 529 I: Integer;
cannam@128 530 Buf: array [0..4095] of Char;
cannam@128 531 begin
cannam@128 532 if (Offset = 0) and (Origin = soFromBeginning) then
cannam@128 533 begin
cannam@128 534 DCheck(inflateReset(FZRec));
cannam@128 535 FZRec.next_in := FBuffer;
cannam@128 536 FZRec.avail_in := 0;
cannam@128 537 FStrm.Position := 0;
cannam@128 538 FStrmPos := 0;
cannam@128 539 end
cannam@128 540 else if ( (Offset >= 0) and (Origin = soFromCurrent)) or
cannam@128 541 ( ((Offset - FZRec.total_out) > 0) and (Origin = soFromBeginning)) then
cannam@128 542 begin
cannam@128 543 if Origin = soFromBeginning then Dec(Offset, FZRec.total_out);
cannam@128 544 if Offset > 0 then
cannam@128 545 begin
cannam@128 546 for I := 1 to Offset div sizeof(Buf) do
cannam@128 547 ReadBuffer(Buf, sizeof(Buf));
cannam@128 548 ReadBuffer(Buf, Offset mod sizeof(Buf));
cannam@128 549 end;
cannam@128 550 end
cannam@128 551 else
cannam@128 552 raise EDecompressionError.CreateRes(@sInvalidStreamOp);
cannam@128 553 Result := FZRec.total_out;
cannam@128 554 end;
cannam@128 555
cannam@128 556
cannam@128 557 end.