../../libstore/do-bunzip2.c

Bug Summary

File:	obj-scan-build/libstore/../../libstore/do-bunzip2.c
Location:	line 1360, column 31
Description:	Value stored to 'retVal' is never read

Annotated Source Code

1	/* bunzip2 engine, modified by okuji@kuicr.kyoto-u.ac.jp. */
2
3	/* Stolen from util.c. */
4	#include <stdio.h>
5	#include <sys/types.h>
6
7	/* I/O interface */
8	extern int (unzip_read) (char buf, size_t maxread);
9	extern void (unzip_write) (const char buf, size_t nwrite);
10	extern void (*unzip_read_error) (void);
11	extern void (unzip_error) (const char msg);
12
13	/* bzip2 doesn't require window sliding. Just for buffering. */
14	#define INBUFSIZ0x1000 0x1000
15	#define OUTBUFSIZ0x1000 0x1000
16
17	static unsigned char inbuf[INBUFSIZ0x1000];
18	static unsigned char outbuf[OUTBUFSIZ0x1000];
19	static unsigned inptr;
20	static unsigned insize;
21	static unsigned outcnt;
22
23	/* ===========================================================================
24	* Fill the input buffer. This is called only when the buffer is empty.
25	*/
26	static int
27	fill_inbuf (int eof_ok)
28	{
29	int len;
30
31	/* Read as much as possible */
32	insize = 0;
33	do
34	{
35	len = (unzip_read)((char)inbuf+insize, INBUFSIZ0x1000-insize);
36	if (len == 0 \|\| len == EOF(-1))
37	break;
38	insize += len;
39	}
40	while (insize < INBUFSIZ0x1000);
41
42	if (insize == 0)
43	{
44	if (eof_ok)
45	return EOF(-1);
46	unzip_read_error();
47	}
48
49	inptr = 1;
50	return inbuf[0];
51	}
52
53	static void
54	flush_outbuf (void)
55	{
56	if (outcnt == 0)
57	return;
58
59	(unzip_write) ((char ) outbuf, outcnt);
60	outcnt = 0;
61	}
62
63	static inline int
64	bz2_getc (void *stream)
65	{
66	return inptr < insize ? inbuf[inptr++] : fill_inbuf (1);
67	}
68
69	static inline int
70	bz2_putc (int c, void *stream)
71	{
72	if (outcnt == OUTBUFSIZ0x1000)
73	flush_outbuf ();
74	outbuf[outcnt++] = c;
75	return c;
76	}
77
78	static inline int
79	bz2_ferror (void *stream)
80	{
81	return 0;
82	}
83
84	static inline int
85	bz2_fflush (void *stream)
86	{
87	flush_outbuf ();
88	return 0;
89	}
90
91	static inline int
92	bz2_fclose (void *stream)
93	{
94	flush_outbuf ();
95	return 0;
96	}
97
98	#define fprintf(s, f...) /**/
99
100
101	/-----------------------------------------------------------/
102	/--- A block-sorting, lossless compressor bzip2.c ---/
103	/-----------------------------------------------------------/
104
105	/*--
106	This program is bzip2, a lossless, block-sorting data compressor,
107	version 0.1pl2, dated 29-Aug-1997.
108
109	Copyright (C) 1996, 1997 by Julian Seward.
110	Guildford, Surrey, UK
111	email: jseward@acm.org
112
113	This program is free software; you can redistribute it and/or modify
114	it under the terms of the GNU General Public License as published by
115	the Free Software Foundation; either version 2 of the License, or
116	(at your option) any later version.
117
118	This program is distributed in the hope that it will be useful,
119	but WITHOUT ANY WARRANTY; without even the implied warranty of
120	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
121	GNU General Public License for more details.
122
123	You should have received a copy of the GNU General Public License
124	along with this program; if not, write to the Free Software
125	Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
126
127	The GNU General Public License is contained in the file LICENSE.
128
129	This program is based on (at least) the work of:
130	Mike Burrows
131	David Wheeler
132	Peter Fenwick
133	Alistair Moffat
134	Radford Neal
135	Ian H. Witten
136	Robert Sedgewick
137	Jon L. Bentley
138
139	For more information on these sources, see the file ALGORITHMS.
140	--*/
141
142	/----------------------------------------------------/
143	/--- IMPORTANT ---/
144	/----------------------------------------------------/
145
146	/*--
147	WARNING:
148	This program (attempts to) compress data by performing several
149	non-trivial transformations on it. Unless you are 100% familiar
150	with all the algorithms contained herein, and with the
151	consequences of modifying them, you should NOT meddle with the
152	compression or decompression machinery. Incorrect changes can
153	and very likely will lead to disastrous loss of data.
154
155	DISCLAIMER:
156	I TAKE NO RESPONSIBILITY FOR ANY LOSS OF DATA ARISING FROM THE
157	USE OF THIS PROGRAM, HOWSOEVER CAUSED.
158
159	Every compression of a file implies an assumption that the
160	compressed file can be decompressed to reproduce the original.
161	Great efforts in design, coding and testing have been made to
162	ensure that this program works correctly. However, the
163	complexity of the algorithms, and, in particular, the presence
164	of various special cases in the code which occur with very low
165	but non-zero probability make it impossible to rule out the
166	possibility of bugs remaining in the program. DO NOT COMPRESS
167	ANY DATA WITH THIS PROGRAM UNLESS YOU ARE PREPARED TO ACCEPT THE
168	POSSIBILITY, HOWEVER SMALL, THAT THE DATA WILL NOT BE RECOVERABLE.
169
170	That is not to say this program is inherently unreliable.
171	Indeed, I very much hope the opposite is true. bzip2 has been
172	carefully constructed and extensively tested.
173
174	PATENTS:
175	To the best of my knowledge, bzip2 does not use any patented
176	algorithms. However, I do not have the resources available to
177	carry out a full patent search. Therefore I cannot give any
178	guarantee of the above statement.
179	--*/
180
181
182
183	/----------------------------------------------------/
184	/--- and now for something much more pleasant :-) ---/
185	/----------------------------------------------------/
186
187	/---------------------------------------------/
188	/*--
189	Place a 1 beside your platform, and 0 elsewhere.
190	--*/
191
192	/*--
193	Generic 32-bit Unix.
194	Also works on 64-bit Unix boxes.
195	--*/
196	#define BZ_UNIX1 1
197
198	/*--
199	Win32, as seen by Jacob Navia's excellent
200	port of (Chris Fraser & David Hanson)'s excellent
201	lcc compiler.
202	--*/
203	#define BZ_LCCWIN320 0
204
205
206
207	/---------------------------------------------/
208	/*--
209	Some stuff for all platforms.
210	--*/
211
212	#include <stdio.h>
213	#include <stdlib.h>
214	#if DEBUG0
215	#include <assert.h>
216	#endif
217	#include <string.h>
218	#include <signal.h>
219	#include <math.h>
220
221	#define ERROR_IF_EOF(i){ if ((i) == (-1)) ioError(); } { if ((i) == EOF(-1)) ioError(); }
222	#define ERROR_IF_NOT_ZERO(i){ if ((i) != 0) ioError(); } { if ((i) != 0) ioError(); }
223	#define ERROR_IF_MINUS_ONE(i){ if ((i) == (-1)) ioError(); } { if ((i) == (-1)) ioError(); }
224
225
226	/---------------------------------------------/
227	/*--
228	Platform-specific stuff.
229	--*/
230
231	#if BZ_UNIX1
232	#include <sys/types.h>
233	#include <utime.h>
234	#include <unistd.h>
235	#include <malloc.h>
236	#include <sys/stat.h>
237	#include <sys/times.h>
238
239	#define Int32int int
240	#define UInt32unsigned int unsigned int
241	#define Charchar char
242	#define UCharunsigned char unsigned char
243	#define Int16short short
244	#define UInt16unsigned short unsigned short
245
246	#define PATH_SEP'/' '/'
247	#define MY_LSTATlstat lstat
248	#define MY_S_IFREGS_ISREG S_ISREG
249	#define MY_STATstat stat
250
251	#define APPEND_FILESPEC(root, name)root=snocString((root), (name)) \
252	root=snocString((root), (name))
253
254	#define SET_BINARY_MODE(fd) /**/
255
256	/*--
257	You should try very hard to persuade your C compiler
258	to inline the bits marked INLINE. Otherwise bzip2 will
259	run rather slowly. gcc version 2.x is recommended.
260	--*/
261	#ifdef __GNUC__4
262	#define INLINEinline inline
263	#define NORETURN__attribute__ ((noreturn)) __attribute__ ((noreturn))
264	#else
265	#define INLINEinline /**/
266	#define NORETURN__attribute__ ((noreturn)) /**/
267	#endif
268	#endif
269
270
271
272	#if BZ_LCCWIN320
273	#include <io.h>
274	#include <fcntl.h>
275	#include <sys\stat.h>
276
277	#define Int32int int
278	#define UInt32unsigned int unsigned int
279	#define Int16short short
280	#define UInt16unsigned short unsigned short
281	#define Charchar char
282	#define UCharunsigned char unsigned char
283
284	#define INLINEinline /**/
285	#define NORETURN__attribute__ ((noreturn)) /**/
286	#define PATH_SEP'/' '\\'
287	#define MY_LSTATlstat _stat
288	#define MY_STATstat _stat
289	#define MY_S_IFREG(x)((((x)) & 0170000) == (0100000)) ((x) & _S_IFREG)
290
291	#if 0
292	/-- lcc-win32 seems to expand wildcards itself --/
293	#define APPEND_FILESPEC(root, spec)root=snocString((root), (spec)) \
294	do { \
295	if ((spec)[0] == '-') { \
296	root = snocString((root), (spec)); \
297	} else { \
298	struct _finddata_t c_file; \
299	long hFile; \
300	hFile = _findfirst((spec), &c_file); \
301	if ( hFile == -1L ) { \
302	root = snocString ((root), (spec)); \
303	} else { \
304	int anInt = 0; \
305	while ( anInt == 0 ) { \
306	root = snocString((root), \
307	&c_file.name[0]); \
308	anInt = _findnext(hFile, &c_file); \
309	} \
310	} \
311	} \
312	} while ( 0 )
313	#else
314	#define APPEND_FILESPEC(root, name)root=snocString((root), (name)) \
315	root = snocString ((root), (name))
316	#endif
317
318	#define SET_BINARY_MODE(fd) \
319	do { \
320	int retVal = setmode ( fileno ( fd ), \
321	O_BINARY ); \
322	ERROR_IF_MINUS_ONE ( retVal ){ if ((retVal) == (-1)) ioError(); }; \
323	} while ( 0 )
324
325	#endif
326
327
328	/---------------------------------------------/
329	/*--
330	Some more stuff for all platforms :-)
331	--*/
332
333	#define Boolunsigned char unsigned char
334	#define True1 1
335	#define False0 0
336
337	/*--
338	IntNative is your platform's `native' int size.
339	Only here to avoid probs with 64-bit platforms.
340	--*/
341	#define IntNativeint int
342
343
344	/*--
345	change to 1, or compile with -DDEBUG=1 to debug
346	--*/
347	#ifndef DEBUG0
348	#define DEBUG0 0
349	#endif
350
351
352	/---------------------------------------------------/
353	/--- ---/
354	/---------------------------------------------------/
355
356	/*--
357	Implementation notes, July 1997
358	~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
359
360	Memory allocation
361	~~~~~~~~~~~~~~~~~
362	All large data structures are allocated on the C heap,
363	for better or for worse. That includes the various
364	arrays of pointers, striped words, bytes, frequency
365	tables and buffers for compression and decompression.
366
367	bzip2 can operate at various block-sizes, ranging from
368	100k to 900k in 100k steps, and it allocates only as
369	much as it needs to. When compressing, we know from the
370	command-line options what the block-size is going to be,
371	so all allocation can be done at start-up; if that
372	succeeds, there can be no further allocation problems.
373
374	Decompression is more complicated. Each compressed file
375	contains, in its header, a byte indicating the block
376	size used for compression. This means bzip2 potentially
377	needs to reallocate memory for each file it deals with,
378	which in turn opens the possibility for a memory allocation
379	failure part way through a run of files, by encountering
380	a file requiring a much larger block size than all the
381	ones preceding it.
382
383	The policy is to simply give up if a memory allocation
384	failure occurs. During decompression, it would be
385	possible to move on to subsequent files in the hope that
386	some might ask for a smaller block size, but the
387	complications for doing this seem more trouble than they
388	are worth.
389
390
391	Compressed file formats
392	~~~~~~~~~~~~~~~~~~~~~~~
393	[This is now entirely different from both 0.21, and from
394	any previous Huffman-coded variant of bzip.
395	See the associated file bzip2.txt for details.]
396
397
398	Error conditions
399	~~~~~~~~~~~~~~~~
400	Dealing with error conditions is the least satisfactory
401	aspect of bzip2. The policy is to try and leave the
402	filesystem in a consistent state, then quit, even if it
403	means not processing some of the files mentioned in the
404	command line. `A consistent state' means that a file
405	exists either in its compressed or uncompressed form,
406	but not both. This boils down to the rule `delete the
407	output file if an error condition occurs, leaving the
408	input intact'. Input files are only deleted when we can
409	be pretty sure the output file has been written and
410	closed successfully.
411
412	Errors are a dog because there's so many things to
413	deal with. The following can happen mid-file, and
414	require cleaning up.
415
416	internal `panics' -- indicating a bug
417	corrupted or inconsistent compressed file
418	can't allocate enough memory to decompress this file
419	I/O error reading/writing/opening/closing
420	signal catches -- Control-C, SIGTERM, SIGHUP.
421
422	Other conditions, primarily pertaining to file names,
423	can be checked in-between files, which makes dealing
424	with them easier.
425	--*/
426
427
428
429	/---------------------------------------------------/
430	/--- Misc (file handling) data decls ---/
431	/---------------------------------------------------/
432
433	static UInt32unsigned int bytesIn, bytesOut;
434	static Int32int verbosity;
435	static Boolunsigned char smallMode;
436	static UInt32unsigned int globalCrc;
437
438
439
440
441	static void panic ( Charchar* );
442	static void ioError ( void );
443	static void uncompressOutOfMemory ( Int32int, Int32int );
444	static void blockOverrun ( void );
445	static void badBlockHeader ( void );
446	static void crcError ( UInt32unsigned int, UInt32unsigned int );
447	static void cleanUpAndFail ( Int32int );
448	static void compressedStreamEOF ( void );
449
450
451
452	/---------------------------------------------------/
453	/--- Data decls for the front end ---/
454	/---------------------------------------------------/
455
456	/*--
457	The overshoot bytes allow us to avoid most of
458	the cost of pointer renormalisation during
459	comparison of rotations in sorting.
460	The figure of 20 is derived as follows:
461	qSort3 allows an overshoot of up to 10.
462	It then calls simpleSort, which calls
463	fullGtU, also with max overshoot 10.
464	fullGtU does up to 10 comparisons without
465	renormalising, giving 10+10 == 20.
466	--*/
467	#define NUM_OVERSHOOT_BYTES20 20
468
469	/*--
470	These are the main data structures for
471	the Burrows-Wheeler transform.
472	--*/
473
474	/*--
475	Pointers to compression and decompression
476	structures. Set by
477	allocateCompressStructures and
478	setDecompressStructureSizes
479
480	The structures are always set to be suitable
481	for a block of size 100000 * blockSize100k.
482	--*/
483	static UInt16unsigned short ll16; /-- small decompress --*/
484	static UCharunsigned char ll4; /-- small decompress --*/
485
486	static Int32int tt; /-- fast decompress --*/
487	static UCharunsigned char ll8; /-- fast decompress --*/
488
489
490	/*--
491	freq table collected to save a pass over the data
492	during decompression.
493	--*/
494	static Int32int unzftab[256];
495
496
497	/*--
498	index of the last char in the block, so
499	the block size == last + 1.
500	--*/
501	static Int32int last;
502
503
504	/*--
505	index in zptr[] of original string after sorting.
506	--*/
507	static Int32int origPtr;
508
509
510	/*--
511	always: in the range 0 .. 9.
512	The current block size is 100000 * this number.
513	--*/
514	static Int32int blockSize100k;
515
516
517	/*--
518	Used when sorting. If too many long comparisons
519	happen, we stop sorting, randomise the block
520	slightly, and try again.
521	--*/
522
523	static Boolunsigned char blockRandomised;
524
525
526
527	/---------------------------------------------------/
528	/--- Data decls for the back end ---/
529	/---------------------------------------------------/
530
531	#define MAX_ALPHA_SIZE258 258
532	#define MAX_CODE_LEN23 23
533
534	#define RUNA0 0
535	#define RUNB1 1
536
537	#define N_GROUPS6 6
538	#define G_SIZE50 50
539	#define N_ITERS4 4
540
541	#define MAX_SELECTORS(2 + (900000 / 50)) (2 + (900000 / G_SIZE50))
542
543	static Boolunsigned char inUse[256];
544	static Int32int nInUse;
545
546	static UCharunsigned char seqToUnseq[256];
547	static UCharunsigned char unseqToSeq[256];
548
549	static UCharunsigned char selector [MAX_SELECTORS(2 + (900000 / 50))];
550	static UCharunsigned char selectorMtf[MAX_SELECTORS(2 + (900000 / 50))];
551
552	static UCharunsigned char len [N_GROUPS6][MAX_ALPHA_SIZE258];
553
554	/-- decompress only --/
555	static Int32int limit [N_GROUPS6][MAX_ALPHA_SIZE258];
556	static Int32int base [N_GROUPS6][MAX_ALPHA_SIZE258];
557	static Int32int perm [N_GROUPS6][MAX_ALPHA_SIZE258];
558	static Int32int minLens[N_GROUPS6];
559
560
561	/---------------------------------------------------/
562	/--- 32-bit CRC grunge ---/
563	/---------------------------------------------------/
564
565	/*--
566	I think this is an implementation of the AUTODIN-II,
567	Ethernet & FDDI 32-bit CRC standard. Vaguely derived
568	from code by Rob Warnock, in Section 51 of the
569	comp.compression FAQ.
570	--*/
571
572	static UInt32unsigned int crc32Table[256] = {
573
574	/-- Ugly, innit? --/
575
576	0x00000000UL, 0x04c11db7UL, 0x09823b6eUL, 0x0d4326d9UL,
577	0x130476dcUL, 0x17c56b6bUL, 0x1a864db2UL, 0x1e475005UL,
578	0x2608edb8UL, 0x22c9f00fUL, 0x2f8ad6d6UL, 0x2b4bcb61UL,
579	0x350c9b64UL, 0x31cd86d3UL, 0x3c8ea00aUL, 0x384fbdbdUL,
580	0x4c11db70UL, 0x48d0c6c7UL, 0x4593e01eUL, 0x4152fda9UL,
581	0x5f15adacUL, 0x5bd4b01bUL, 0x569796c2UL, 0x52568b75UL,
582	0x6a1936c8UL, 0x6ed82b7fUL, 0x639b0da6UL, 0x675a1011UL,
583	0x791d4014UL, 0x7ddc5da3UL, 0x709f7b7aUL, 0x745e66cdUL,
584	0x9823b6e0UL, 0x9ce2ab57UL, 0x91a18d8eUL, 0x95609039UL,
585	0x8b27c03cUL, 0x8fe6dd8bUL, 0x82a5fb52UL, 0x8664e6e5UL,
586	0xbe2b5b58UL, 0xbaea46efUL, 0xb7a96036UL, 0xb3687d81UL,
587	0xad2f2d84UL, 0xa9ee3033UL, 0xa4ad16eaUL, 0xa06c0b5dUL,
588	0xd4326d90UL, 0xd0f37027UL, 0xddb056feUL, 0xd9714b49UL,
589	0xc7361b4cUL, 0xc3f706fbUL, 0xceb42022UL, 0xca753d95UL,
590	0xf23a8028UL, 0xf6fb9d9fUL, 0xfbb8bb46UL, 0xff79a6f1UL,
591	0xe13ef6f4UL, 0xe5ffeb43UL, 0xe8bccd9aUL, 0xec7dd02dUL,
592	0x34867077UL, 0x30476dc0UL, 0x3d044b19UL, 0x39c556aeUL,
593	0x278206abUL, 0x23431b1cUL, 0x2e003dc5UL, 0x2ac12072UL,
594	0x128e9dcfUL, 0x164f8078UL, 0x1b0ca6a1UL, 0x1fcdbb16UL,
595	0x018aeb13UL, 0x054bf6a4UL, 0x0808d07dUL, 0x0cc9cdcaUL,
596	0x7897ab07UL, 0x7c56b6b0UL, 0x71159069UL, 0x75d48ddeUL,
597	0x6b93dddbUL, 0x6f52c06cUL, 0x6211e6b5UL, 0x66d0fb02UL,
598	0x5e9f46bfUL, 0x5a5e5b08UL, 0x571d7dd1UL, 0x53dc6066UL,
599	0x4d9b3063UL, 0x495a2dd4UL, 0x44190b0dUL, 0x40d816baUL,
600	0xaca5c697UL, 0xa864db20UL, 0xa527fdf9UL, 0xa1e6e04eUL,
601	0xbfa1b04bUL, 0xbb60adfcUL, 0xb6238b25UL, 0xb2e29692UL,
602	0x8aad2b2fUL, 0x8e6c3698UL, 0x832f1041UL, 0x87ee0df6UL,
603	0x99a95df3UL, 0x9d684044UL, 0x902b669dUL, 0x94ea7b2aUL,
604	0xe0b41de7UL, 0xe4750050UL, 0xe9362689UL, 0xedf73b3eUL,
605	0xf3b06b3bUL, 0xf771768cUL, 0xfa325055UL, 0xfef34de2UL,
606	0xc6bcf05fUL, 0xc27dede8UL, 0xcf3ecb31UL, 0xcbffd686UL,
607	0xd5b88683UL, 0xd1799b34UL, 0xdc3abdedUL, 0xd8fba05aUL,
608	0x690ce0eeUL, 0x6dcdfd59UL, 0x608edb80UL, 0x644fc637UL,
609	0x7a089632UL, 0x7ec98b85UL, 0x738aad5cUL, 0x774bb0ebUL,
610	0x4f040d56UL, 0x4bc510e1UL, 0x46863638UL, 0x42472b8fUL,
611	0x5c007b8aUL, 0x58c1663dUL, 0x558240e4UL, 0x51435d53UL,
612	0x251d3b9eUL, 0x21dc2629UL, 0x2c9f00f0UL, 0x285e1d47UL,
613	0x36194d42UL, 0x32d850f5UL, 0x3f9b762cUL, 0x3b5a6b9bUL,
614	0x0315d626UL, 0x07d4cb91UL, 0x0a97ed48UL, 0x0e56f0ffUL,
615	0x1011a0faUL, 0x14d0bd4dUL, 0x19939b94UL, 0x1d528623UL,
616	0xf12f560eUL, 0xf5ee4bb9UL, 0xf8ad6d60UL, 0xfc6c70d7UL,
617	0xe22b20d2UL, 0xe6ea3d65UL, 0xeba91bbcUL, 0xef68060bUL,
618	0xd727bbb6UL, 0xd3e6a601UL, 0xdea580d8UL, 0xda649d6fUL,
619	0xc423cd6aUL, 0xc0e2d0ddUL, 0xcda1f604UL, 0xc960ebb3UL,
620	0xbd3e8d7eUL, 0xb9ff90c9UL, 0xb4bcb610UL, 0xb07daba7UL,
621	0xae3afba2UL, 0xaafbe615UL, 0xa7b8c0ccUL, 0xa379dd7bUL,
622	0x9b3660c6UL, 0x9ff77d71UL, 0x92b45ba8UL, 0x9675461fUL,
623	0x8832161aUL, 0x8cf30badUL, 0x81b02d74UL, 0x857130c3UL,
624	0x5d8a9099UL, 0x594b8d2eUL, 0x5408abf7UL, 0x50c9b640UL,
625	0x4e8ee645UL, 0x4a4ffbf2UL, 0x470cdd2bUL, 0x43cdc09cUL,
626	0x7b827d21UL, 0x7f436096UL, 0x7200464fUL, 0x76c15bf8UL,
627	0x68860bfdUL, 0x6c47164aUL, 0x61043093UL, 0x65c52d24UL,
628	0x119b4be9UL, 0x155a565eUL, 0x18197087UL, 0x1cd86d30UL,
629	0x029f3d35UL, 0x065e2082UL, 0x0b1d065bUL, 0x0fdc1becUL,
630	0x3793a651UL, 0x3352bbe6UL, 0x3e119d3fUL, 0x3ad08088UL,
631	0x2497d08dUL, 0x2056cd3aUL, 0x2d15ebe3UL, 0x29d4f654UL,
632	0xc5a92679UL, 0xc1683bceUL, 0xcc2b1d17UL, 0xc8ea00a0UL,
633	0xd6ad50a5UL, 0xd26c4d12UL, 0xdf2f6bcbUL, 0xdbee767cUL,
634	0xe3a1cbc1UL, 0xe760d676UL, 0xea23f0afUL, 0xeee2ed18UL,
635	0xf0a5bd1dUL, 0xf464a0aaUL, 0xf9278673UL, 0xfde69bc4UL,
636	0x89b8fd09UL, 0x8d79e0beUL, 0x803ac667UL, 0x84fbdbd0UL,
637	0x9abc8bd5UL, 0x9e7d9662UL, 0x933eb0bbUL, 0x97ffad0cUL,
638	0xafb010b1UL, 0xab710d06UL, 0xa6322bdfUL, 0xa2f33668UL,
639	0xbcb4666dUL, 0xb8757bdaUL, 0xb5365d03UL, 0xb1f740b4UL
640	};
641
642
643	/---------------------------------------------/
644
645	static void initialiseCRC ( void )
646	{
647	globalCrc = 0xffffffffUL;
648	}
649
650
651	/---------------------------------------------/
652
653	static UInt32unsigned int getFinalCRC ( void )
654	{
655	return ~globalCrc;
656	}
657
658
659	/---------------------------------------------/
660
661	static UInt32unsigned int getGlobalCRC ( void )
662	{
663	return globalCrc;
664	}
665
666
667	/---------------------------------------------/
668
669	static void setGlobalCRC ( UInt32unsigned int newCrc )
670	{
671	globalCrc = newCrc;
672	}
673
674
675	/---------------------------------------------/
676
677	#define UPDATE_CRC(crcVar,cha){ crcVar = (crcVar << 8) ^ crc32Table[(crcVar >> 24 ) ^ ((unsigned char)cha)]; } \
678	{ \
679	crcVar = (crcVar << 8) ^ \
680	crc32Table[(crcVar >> 24) ^ \
681	((UCharunsigned char)cha)]; \
682	}
683
684
685	/---------------------------------------------------/
686	/--- Bit stream I/O ---/
687	/---------------------------------------------------/
688
689
690	static UInt32unsigned int bsBuff;
691	static Int32int bsLive;
692	static void* bsStream;
693	static Boolunsigned char bsWriting;
694
695
696	/---------------------------------------------/
697
698	static void bsSetStream ( void* f, Boolunsigned char wr )
699	{
700	if (bsStream != NULL((void*)0)) panic ( "bsSetStream" );
701	bsStream = f;
702	bsLive = 0;
703	bsBuff = 0;
704	bytesOut = 0;
705	bytesIn = 0;
706	bsWriting = wr;
707	}
708
709
710	/---------------------------------------------/
711
712	static void bsFinishedWithStream ( void )
713	{
714	if (bsWriting)
715	while (bsLive > 0) {
716	bz2_putc ( (UCharunsigned char)(bsBuff >> 24), bsStream );
717	bsBuff <<= 8;
718	bsLive -= 8;
719	bytesOut++;
720	}
721	bsStream = NULL((void*)0);
722	}
723
724
725	/---------------------------------------------/
726
727	#define bsNEEDR(nz){ while (bsLive < nz) { int zzi = bz2_getc ( bsStream ); if (zzi == (-1)) compressedStreamEOF(); bsBuff = (bsBuff << 8) \| (zzi & 0xffL); bsLive += 8; } } \
728	{ \
729	while (bsLive < nz) { \
730	Int32int zzi = bz2_getc ( bsStream ); \
731	if (zzi == EOF(-1)) compressedStreamEOF(); \
732	bsBuff = (bsBuff << 8) \| (zzi & 0xffL); \
733	bsLive += 8; \
734	} \
735	}
736
737
738	/---------------------------------------------/
739
740	#define bsR1(vz){ { while (bsLive < 1) { int zzi = bz2_getc ( bsStream ); if (zzi == (-1)) compressedStreamEOF(); bsBuff = (bsBuff << 8) \| (zzi & 0xffL); bsLive += 8; } }; vz = (bsBuff >> (bsLive-1)) & 1; bsLive--; } \
741	{ \
742	bsNEEDR(1){ while (bsLive < 1) { int zzi = bz2_getc ( bsStream ); if (zzi == (-1)) compressedStreamEOF(); bsBuff = (bsBuff << 8) \| (zzi & 0xffL); bsLive += 8; } }; \
743	vz = (bsBuff >> (bsLive-1)) & 1; \
744	bsLive--; \
745	}
746
747
748	/---------------------------------------------/
749
750	static INLINEinline UInt32unsigned int bsR ( Int32int n )
751	{
752	UInt32unsigned int v;
753	bsNEEDR ( n ){ while (bsLive < n) { int zzi = bz2_getc ( bsStream ); if (zzi == (-1)) compressedStreamEOF(); bsBuff = (bsBuff << 8) \| (zzi & 0xffL); bsLive += 8; } };
754	v = (bsBuff >> (bsLive-n)) & ((1 << n)-1);
755	bsLive -= n;
756	return v;
757	}
758
759
760	/---------------------------------------------/
761
762	static UCharunsigned char bsGetUChar ( void )
763	{
764	return (UCharunsigned char)bsR(8);
765	}
766
767
768
769	/---------------------------------------------/
770
771	static Int32int bsGetUInt32 ( void )
772	{
773	UInt32unsigned int u;
774	u = 0;
775	u = (u << 8) \| bsR(8);
776	u = (u << 8) \| bsR(8);
777	u = (u << 8) \| bsR(8);
778	u = (u << 8) \| bsR(8);
779	return u;
780	}
781
782
783	/---------------------------------------------/
784
785	static UInt32unsigned int bsGetIntVS ( UInt32unsigned int numBits )
786	{
787	return (UInt32unsigned int)bsR(numBits);
788	}
789
790
791
792	/---------------------------------------------------/
793	/--- Huffman coding low-level stuff ---/
794	/---------------------------------------------------/
795
796
797	/---------------------------------------------/
798
799	static void hbCreateDecodeTables ( Int32int *limit,
800	Int32int *base,
801	Int32int *perm,
802	UCharunsigned char *length,
803	Int32int minLen,
804	Int32int maxLen,
805	Int32int alphaSize )
806	{
807	Int32int pp, i, j, vec;
808
809	pp = 0;
810	for (i = minLen; i <= maxLen; i++)
811	for (j = 0; j < alphaSize; j++)
812	if (length[j] == i) { perm[pp] = j; pp++; };
813
814	for (i = 0; i < MAX_CODE_LEN23; i++) base[i] = 0;
815	for (i = 0; i < alphaSize; i++) base[length[i]+1]++;
816
817	for (i = 1; i < MAX_CODE_LEN23; i++) base[i] += base[i-1];
818
819	for (i = 0; i < MAX_CODE_LEN23; i++) limit[i] = 0;
820	vec = 0;
821
822	for (i = minLen; i <= maxLen; i++) {
823	vec += (base[i+1] - base[i]);
824	limit[i] = vec-1;
825	vec <<= 1;
826	}
827	for (i = minLen + 1; i <= maxLen; i++)
828	base[i] = ((limit[i-1] + 1) << 1) - base[i];
829	}
830
831
832
833	/---------------------------------------------------/
834	/--- Undoing the reversible transformation ---/
835	/---------------------------------------------------/
836
837	/---------------------------------------------/
838
839	#define SET_LL4(i,n){ if (((i) & 0x1) == 0) ll4[(i) >> 1] = (ll4[(i) >> 1] & 0xf0) \| (n); else ll4[(i) >> 1] = (ll4[(i) >> 1] & 0x0f) \| ((n) << 4); } \
840	{ if (((i) & 0x1) == 0) \
841	ll4[(i) >> 1] = (ll4[(i) >> 1] & 0xf0) \| (n); else \
842	ll4[(i) >> 1] = (ll4[(i) >> 1] & 0x0f) \| ((n) << 4); \
843	}
844
845
846	#define GET_LL4(i)(((unsigned int)(ll4[(i) >> 1])) >> (((i) << 2) & 0x4) & 0xF) \
847	(((UInt32unsigned int)(ll4[(i) >> 1])) >> (((i) << 2) & 0x4) & 0xF)
848
849
850	#define SET_LL(i,n){ ll16[i] = (unsigned short)(n & 0x0000ffff); { if (((i) & 0x1) == 0) ll4[(i) >> 1] = (ll4[(i) >> 1] & 0xf0 ) \| (n >> 16); else ll4[(i) >> 1] = (ll4[(i) >> 1] & 0x0f) \| ((n >> 16) << 4); }; } \
851	{ ll16[i] = (UInt16unsigned short)(n & 0x0000ffff); \
852	SET_LL4(i, n >> 16){ if (((i) & 0x1) == 0) ll4[(i) >> 1] = (ll4[(i) >> 1] & 0xf0) \| (n >> 16); else ll4[(i) >> 1] = (ll4[(i) >> 1] & 0x0f) \| ((n >> 16) << 4); }; \
853	}
854
855
856	#define GET_LL(i)(((unsigned int)ll16[i]) \| ((((unsigned int)(ll4[(i) >> 1])) >> (((i) << 2) & 0x4) & 0xF) << 16)) \
857	(((UInt32unsigned int)ll16[i]) \| (GET_LL4(i)(((unsigned int)(ll4[(i) >> 1])) >> (((i) << 2) & 0x4) & 0xF) << 16))
858
859
860	/---------------------------------------------/
861	/*--
862	Manage memory for compression/decompression.
863	When compressing, a single block size applies to
864	all files processed, and that's set when the
865	program starts. But when decompressing, each file
866	processed could have been compressed with a
867	different block size, so we may have to free
868	and reallocate on a per-file basis.
869
870	A call with argument of zero means
871	`free up everything.' And a value of zero for
872	blockSize100k means no memory is currently allocated.
873	--*/
874
875
876	/---------------------------------------------/
877
878	static void setDecompressStructureSizes ( Int32int newSize100k )
879	{
880	if (! (0 <= newSize100k && newSize100k <= 9 &&
881	0 <= blockSize100k && blockSize100k <= 9))
882	panic ( "setDecompressStructureSizes" );
883
884	if (newSize100k == blockSize100k) return;
885
886	blockSize100k = newSize100k;
887
888	if (ll16 != NULL((void*)0)) free ( ll16 );
889	if (ll4 != NULL((void*)0)) free ( ll4 );
890	if (ll8 != NULL((void*)0)) free ( ll8 );
891	if (tt != NULL((void*)0)) free ( tt );
892
893	if (newSize100k == 0) return;
894
895	if (smallMode) {
896
897	Int32int n = 100000 * newSize100k;
898	ll16 = malloc ( n * sizeof(UInt16unsigned short) );
899	ll4 = malloc ( ((n+1) >> 1) * sizeof(UCharunsigned char) );
900
901	if (ll4 == NULL((void)0) \|\| ll16 == NULL((void)0)) {
902	Int32int totalDraw
903	= n * sizeof(Int16short) + ((n+1) >> 1) * sizeof(UCharunsigned char);
904	uncompressOutOfMemory ( totalDraw, n );
905	}
906
907	} else {
908
909	Int32int n = 100000 * newSize100k;
910	ll8 = malloc ( n * sizeof(UCharunsigned char) );
911	tt = malloc ( n * sizeof(Int32int) );
912
913	if (ll8 == NULL((void)0) \|\| tt == NULL((void)0)) {
914	Int32int totalDraw
915	= n * sizeof(UCharunsigned char) + n * sizeof(UInt32unsigned int);
916	uncompressOutOfMemory ( totalDraw, n );
917	}
918
919	}
920	}
921
922
923
924	/---------------------------------------------------/
925	/--- The new back end ---/
926	/---------------------------------------------------/
927
928	/---------------------------------------------/
929
930	static void makeMaps ( void )
931	{
932	Int32int i;
933	nInUse = 0;
934	for (i = 0; i < 256; i++)
935	if (inUse[i]) {
936	seqToUnseq[nInUse] = i;
937	unseqToSeq[i] = nInUse;
938	nInUse++;
939	}
940	}
941
942
943
944	/---------------------------------------------/
945
946	static void recvDecodingTables ( void )
947	{
948	Int32int i, j, t, nGroups, nSelectors, alphaSize;
949	Int32int minLen, maxLen;
950	Boolunsigned char inUse16[16];
951
952	/--- Receive the mapping table ---/
953	for (i = 0; i < 16; i++)
954	if (bsR(1) == 1)
955	inUse16[i] = True1; else
956	inUse16[i] = False0;
957
958	for (i = 0; i < 256; i++) inUse[i] = False0;
959
960	for (i = 0; i < 16; i++)
961	if (inUse16[i])
962	for (j = 0; j < 16; j++)
963	if (bsR(1) == 1) inUse[i * 16 + j] = True1;
964
965	makeMaps();
966	alphaSize = nInUse+2;
967
968	/--- Now the selectors ---/
969	nGroups = bsR ( 3 );
970	nSelectors = bsR ( 15 );
971	for (i = 0; i < nSelectors; i++) {
972	j = 0;
973	while (bsR(1) == 1) j++;
974	selectorMtf[i] = j;
975	}
976
977	/--- Undo the MTF values for the selectors. ---/
978	{
979	UCharunsigned char pos[N_GROUPS6], tmp, v;
980	for (v = 0; v < nGroups; v++) pos[v] = v;
981
982	for (i = 0; i < nSelectors; i++) {
983	v = selectorMtf[i];
984	tmp = pos[v];
985	while (v > 0) { pos[v] = pos[v-1]; v--; }
986	pos[0] = tmp;
987	selector[i] = tmp;
988	}
989	}
990
991	/--- Now the coding tables ---/
992	for (t = 0; t < nGroups; t++) {
993	Int32int curr = bsR ( 5 );
994	for (i = 0; i < alphaSize; i++) {
995	while (bsR(1) == 1) {
996	if (bsR(1) == 0) curr++; else curr--;
997	}
998	len[t][i] = curr;
999	}
1000	}
1001
1002	/--- Create the Huffman decoding tables ---/
1003	for (t = 0; t < nGroups; t++) {
1004	minLen = 32;
1005	maxLen = 0;
1006	for (i = 0; i < alphaSize; i++) {
1007	if (len[t][i] > maxLen) maxLen = len[t][i];
1008	if (len[t][i] < minLen) minLen = len[t][i];
1009	}
1010	hbCreateDecodeTables (
1011	&limit[t][0], &base[t][0], &perm[t][0], &len[t][0],
1012	minLen, maxLen, alphaSize
1013	);
1014	minLens[t] = minLen;
1015	}
1016	}
1017
1018
1019	/---------------------------------------------/
1020
1021	#define GET_MTF_VAL(lval){ int zt, zn, zvec, zj; if (groupPos == 0) { groupNo++; groupPos = 50; } groupPos--; zt = selector[groupNo]; zn = minLens[zt] ; zvec = bsR ( zn ); while (zvec > limit[zt][zn]) { zn++; { { while (bsLive < 1) { int zzi = bz2_getc ( bsStream ); if (zzi == (-1)) compressedStreamEOF(); bsBuff = (bsBuff << 8) \| (zzi & 0xffL); bsLive += 8; } }; zj = (bsBuff >> (bsLive-1)) & 1; bsLive--; }; zvec = (zvec << 1) \| zj; }; lval = perm[zt][zvec - base[zt][zn]]; } \
1022	{ \
1023	Int32int zt, zn, zvec, zj; \
1024	if (groupPos == 0) { \
1025	groupNo++; \
1026	groupPos = G_SIZE50; \
1027	} \
1028	groupPos--; \
1029	zt = selector[groupNo]; \
1030	zn = minLens[zt]; \
1031	zvec = bsR ( zn ); \
1032	while (zvec > limit[zt][zn]) { \
1033	zn++; bsR1(zj){ { while (bsLive < 1) { int zzi = bz2_getc ( bsStream ); if (zzi == (-1)) compressedStreamEOF(); bsBuff = (bsBuff << 8) \| (zzi & 0xffL); bsLive += 8; } }; zj = (bsBuff >> (bsLive-1)) & 1; bsLive--; }; \
1034	zvec = (zvec << 1) \| zj; \
1035	}; \
1036	lval = perm[zt][zvec - base[zt][zn]]; \
1037	}
1038
1039
1040	/---------------------------------------------/
1041
1042	static void getAndMoveToFrontDecode ( void )
1043	{
1044	UCharunsigned char yy[256];
1045	Int32int i, j, nextSym, limitLast;
1046	Int32int EOB, groupNo, groupPos;
1047
1048	limitLast = 100000 * blockSize100k;
1049	origPtr = bsGetIntVS ( 24 );
1050
1051	recvDecodingTables();
1052	EOB = nInUse+1;
1053	groupNo = -1;
1054	groupPos = 0;
1055
1056	/*--
1057	Setting up the unzftab entries here is not strictly
1058	necessary, but it does save having to do it later
1059	in a separate pass, and so saves a block's worth of
1060	cache misses.
1061	--*/
1062	for (i = 0; i <= 255; i++) unzftab[i] = 0;
1063
1064	for (i = 0; i <= 255; i++) yy[i] = (UCharunsigned char) i;
1065
1066	last = -1;
1067
1068	GET_MTF_VAL(nextSym){ int zt, zn, zvec, zj; if (groupPos == 0) { groupNo++; groupPos = 50; } groupPos--; zt = selector[groupNo]; zn = minLens[zt] ; zvec = bsR ( zn ); while (zvec > limit[zt][zn]) { zn++; { { while (bsLive < 1) { int zzi = bz2_getc ( bsStream ); if (zzi == (-1)) compressedStreamEOF(); bsBuff = (bsBuff << 8) \| (zzi & 0xffL); bsLive += 8; } }; zj = (bsBuff >> (bsLive-1)) & 1; bsLive--; }; zvec = (zvec << 1) \| zj; }; nextSym = perm[zt][zvec - base[zt][zn]]; };
1069
1070	while (True1) {
1071
1072	if (nextSym == EOB) break;
1073
1074	if (nextSym == RUNA0 \|\| nextSym == RUNB1) {
1075	UCharunsigned char ch;
1076	Int32int s = -1;
1077	Int32int N = 1;
1078	do {
1079	if (nextSym == RUNA0) s = s + (0+1) * N; else
1080	if (nextSym == RUNB1) s = s + (1+1) * N;
1081	N = N * 2;
1082	GET_MTF_VAL(nextSym){ int zt, zn, zvec, zj; if (groupPos == 0) { groupNo++; groupPos = 50; } groupPos--; zt = selector[groupNo]; zn = minLens[zt] ; zvec = bsR ( zn ); while (zvec > limit[zt][zn]) { zn++; { { while (bsLive < 1) { int zzi = bz2_getc ( bsStream ); if (zzi == (-1)) compressedStreamEOF(); bsBuff = (bsBuff << 8) \| (zzi & 0xffL); bsLive += 8; } }; zj = (bsBuff >> (bsLive-1)) & 1; bsLive--; }; zvec = (zvec << 1) \| zj; }; nextSym = perm[zt][zvec - base[zt][zn]]; };
1083	}
1084	while (nextSym == RUNA0 \|\| nextSym == RUNB1);
1085
1086	s++;
1087	ch = seqToUnseq[yy[0]];
1088	unzftab[ch] += s;
1089
1090	if (smallMode)
1091	while (s > 0) {
1092	last++;
1093	ll16[last] = ch;
1094	s--;
1095	}
1096	else
1097	while (s > 0) {
1098	last++;
1099	ll8[last] = ch;
1100	s--;
1101	};
1102
1103	if (last >= limitLast) blockOverrun();
1104	continue;
1105
1106	} else {
1107
1108	UCharunsigned char tmp;
1109	last++; if (last >= limitLast) blockOverrun();
1110
1111	tmp = yy[nextSym-1];
1112	unzftab[seqToUnseq[tmp]]++;
1113	if (smallMode)
1114	ll16[last] = seqToUnseq[tmp]; else
1115	ll8[last] = seqToUnseq[tmp];
1116
1117	/*--
1118	This loop is hammered during decompression,
1119	hence the unrolling.
1120
1121	for (j = nextSym-1; j > 0; j--) yy[j] = yy[j-1];
1122	--*/
1123
1124	j = nextSym-1;
1125	for (; j > 3; j -= 4) {
1126	yy[j] = yy[j-1];
1127	yy[j-1] = yy[j-2];
1128	yy[j-2] = yy[j-3];
1129	yy[j-3] = yy[j-4];
1130	}
1131	for (; j > 0; j--) yy[j] = yy[j-1];
1132
1133	yy[0] = tmp;
1134	GET_MTF_VAL(nextSym){ int zt, zn, zvec, zj; if (groupPos == 0) { groupNo++; groupPos = 50; } groupPos--; zt = selector[groupNo]; zn = minLens[zt] ; zvec = bsR ( zn ); while (zvec > limit[zt][zn]) { zn++; { { while (bsLive < 1) { int zzi = bz2_getc ( bsStream ); if (zzi == (-1)) compressedStreamEOF(); bsBuff = (bsBuff << 8) \| (zzi & 0xffL); bsLive += 8; } }; zj = (bsBuff >> (bsLive-1)) & 1; bsLive--; }; zvec = (zvec << 1) \| zj; }; nextSym = perm[zt][zvec - base[zt][zn]]; };
1135	continue;
1136	}
1137	}
1138	}
1139
1140
1141	/---------------------------------------------------/
1142	/--- Stuff for randomising repetitive blocks ---/
1143	/---------------------------------------------------/
1144
1145	/---------------------------------------------/
1146	static Int32int rNums[512] = {
1147	619, 720, 127, 481, 931, 816, 813, 233, 566, 247,
1148	985, 724, 205, 454, 863, 491, 741, 242, 949, 214,
1149	733, 859, 335, 708, 621, 574, 73, 654, 730, 472,
1150	419, 436, 278, 496, 867, 210, 399, 680, 480, 51,
1151	878, 465, 811, 169, 869, 675, 611, 697, 867, 561,
1152	862, 687, 507, 283, 482, 129, 807, 591, 733, 623,
1153	150, 238, 59, 379, 684, 877, 625, 169, 643, 105,
1154	170, 607, 520, 932, 727, 476, 693, 425, 174, 647,
1155	73, 122, 335, 530, 442, 853, 695, 249, 445, 515,
1156	909, 545, 703, 919, 874, 474, 882, 500, 594, 612,
1157	641, 801, 220, 162, 819, 984, 589, 513, 495, 799,
1158	161, 604, 958, 533, 221, 400, 386, 867, 600, 782,
1159	382, 596, 414, 171, 516, 375, 682, 485, 911, 276,
1160	98, 553, 163, 354, 666, 933, 424, 341, 533, 870,
1161	227, 730, 475, 186, 263, 647, 537, 686, 600, 224,
1162	469, 68, 770, 919, 190, 373, 294, 822, 808, 206,
1163	184, 943, 795, 384, 383, 461, 404, 758, 839, 887,
1164	715, 67, 618, 276, 204, 918, 873, 777, 604, 560,
1165	951, 160, 578, 722, 79, 804, 96, 409, 713, 940,
1166	652, 934, 970, 447, 318, 353, 859, 672, 112, 785,
1167	645, 863, 803, 350, 139, 93, 354, 99, 820, 908,
1168	609, 772, 154, 274, 580, 184, 79, 626, 630, 742,
1169	653, 282, 762, 623, 680, 81, 927, 626, 789, 125,
1170	411, 521, 938, 300, 821, 78, 343, 175, 128, 250,
1171	170, 774, 972, 275, 999, 639, 495, 78, 352, 126,
1172	857, 956, 358, 619, 580, 124, 737, 594, 701, 612,
1173	669, 112, 134, 694, 363, 992, 809, 743, 168, 974,
1174	944, 375, 748, 52, 600, 747, 642, 182, 862, 81,
1175	344, 805, 988, 739, 511, 655, 814, 334, 249, 515,
1176	897, 955, 664, 981, 649, 113, 974, 459, 893, 228,
1177	433, 837, 553, 268, 926, 240, 102, 654, 459, 51,
1178	686, 754, 806, 760, 493, 403, 415, 394, 687, 700,
1179	946, 670, 656, 610, 738, 392, 760, 799, 887, 653,
1180	978, 321, 576, 617, 626, 502, 894, 679, 243, 440,
1181	680, 879, 194, 572, 640, 724, 926, 56, 204, 700,
1182	707, 151, 457, 449, 797, 195, 791, 558, 945, 679,
1183	297, 59, 87, 824, 713, 663, 412, 693, 342, 606,
1184	134, 108, 571, 364, 631, 212, 174, 643, 304, 329,
1185	343, 97, 430, 751, 497, 314, 983, 374, 822, 928,
1186	140, 206, 73, 263, 980, 736, 876, 478, 430, 305,
1187	170, 514, 364, 692, 829, 82, 855, 953, 676, 246,
1188	369, 970, 294, 750, 807, 827, 150, 790, 288, 923,
1189	804, 378, 215, 828, 592, 281, 565, 555, 710, 82,
1190	896, 831, 547, 261, 524, 462, 293, 465, 502, 56,
1191	661, 821, 976, 991, 658, 869, 905, 758, 745, 193,
1192	768, 550, 608, 933, 378, 286, 215, 979, 792, 961,
1193	61, 688, 793, 644, 986, 403, 106, 366, 905, 644,
1194	372, 567, 466, 434, 645, 210, 389, 550, 919, 135,
1195	780, 773, 635, 389, 707, 100, 626, 958, 165, 504,
1196	920, 176, 193, 713, 857, 265, 203, 50, 668, 108,
1197	645, 990, 626, 197, 510, 357, 358, 850, 858, 364,
1198	936, 638
1199	};
1200
1201
1202	#define RAND_DECLSint rNToGo = 0; int rTPos = 0; \
1203	Int32int rNToGo = 0; \
1204	Int32int rTPos = 0; \
1205
1206	#define RAND_MASK((rNToGo == 1) ? 1 : 0) ((rNToGo == 1) ? 1 : 0)
1207
1208	#define RAND_UPD_MASKif (rNToGo == 0) { rNToGo = rNums[rTPos]; rTPos++; if (rTPos == 512) rTPos = 0; } rNToGo--; \
1209	if (rNToGo == 0) { \
1210	rNToGo = rNums[rTPos]; \
1211	rTPos++; if (rTPos == 512) rTPos = 0; \
1212	} \
1213	rNToGo--;
1214
1215
1216
1217	/---------------------------------------------------/
1218	/--- The Reversible Transformation (tm) ---/
1219	/---------------------------------------------------/
1220
1221	/---------------------------------------------/
1222
1223
1224	static INLINEinline Int32int indexIntoF ( Int32int indx, Int32int *cftab )
1225	{
1226	Int32int nb, na, mid;
1227	nb = 0;
1228	na = 256;
1229	do {
1230	mid = (nb + na) >> 1;
1231	if (indx >= cftab[mid]) nb = mid; else na = mid;
1232	}
1233	while (na - nb != 1);
1234	return nb;
1235	}
1236
1237
1238
1239	#define GET_SMALL(cccc) \
1240	\
1241	cccc = indexIntoF ( tPos, cftab ); \
1242	tPos = GET_LL(tPos)(((unsigned int)ll16[tPos]) \| ((((unsigned int)(ll4[(tPos) >> 1])) >> (((tPos) << 2) & 0x4) & 0xF) << 16));
1243
1244
1245
1246	static void undoReversibleTransformation_small ( void* dst )
1247	{
1248	Int32int cftab[257], cftabAlso[257];
1249	Int32int i, j, tmp, tPos;
1250	UCharunsigned char ch;
1251
1252	/*--
1253	We assume here that the global array unzftab will
1254	already be holding the frequency counts for
1255	ll8[0 .. last].
1256	--*/
1257
1258	/-- Set up cftab to facilitate generation of indexIntoF --/
1259	cftab[0] = 0;
1260	for (i = 1; i <= 256; i++) cftab[i] = unzftab[i-1];
1261	for (i = 1; i <= 256; i++) cftab[i] += cftab[i-1];
1262
1263	/-- Make a copy of it, used in generation of T --/
1264	for (i = 0; i <= 256; i++) cftabAlso[i] = cftab[i];
1265
1266	/-- compute the T vector --/
1267	for (i = 0; i <= last; i++) {
1268	ch = (UCharunsigned char)ll16[i];
1269	SET_LL(i, cftabAlso[ch]){ ll16[i] = (unsigned short)(cftabAlso[ch] & 0x0000ffff); { if (((i) & 0x1) == 0) ll4[(i) >> 1] = (ll4[(i) >> 1] & 0xf0) \| (cftabAlso[ch] >> 16); else ll4[(i) >> 1] = (ll4[(i) >> 1] & 0x0f) \| ((cftabAlso[ch] >> 16) << 4); }; };
1270	cftabAlso[ch]++;
1271	}
1272
1273	/*--
1274	Compute T^(-1) by pointer reversal on T. This is rather
1275	subtle, in that, if the original block was two or more
1276	(in general, N) concatenated copies of the same thing,
1277	the T vector will consist of N cycles, each of length
1278	blocksize / N, and decoding will involve traversing one
1279	of these cycles N times. Which particular cycle doesn't
1280	matter -- they are all equivalent. The tricky part is to
1281	make sure that the pointer reversal creates a correct
1282	reversed cycle for us to traverse. So, the code below
1283	simply reverses whatever cycle origPtr happens to fall into,
1284	without regard to the cycle length. That gives one reversed
1285	cycle, which for normal blocks, is the entire block-size long.
1286	For repeated blocks, it will be interspersed with the other
1287	N-1 non-reversed cycles. Providing that the F-subscripting
1288	phase which follows starts at origPtr, all then works ok.
1289	--*/
1290	i = origPtr;
1291	j = GET_LL(i)(((unsigned int)ll16[i]) \| ((((unsigned int)(ll4[(i) >> 1])) >> (((i) << 2) & 0x4) & 0xF) << 16));
1292	do {
1293	tmp = GET_LL(j)(((unsigned int)ll16[j]) \| ((((unsigned int)(ll4[(j) >> 1])) >> (((j) << 2) & 0x4) & 0xF) << 16));
1294	SET_LL(j, i){ ll16[j] = (unsigned short)(i & 0x0000ffff); { if (((j) & 0x1) == 0) ll4[(j) >> 1] = (ll4[(j) >> 1] & 0xf0 ) \| (i >> 16); else ll4[(j) >> 1] = (ll4[(j) >> 1] & 0x0f) \| ((i >> 16) << 4); }; };
1295	i = j;
1296	j = tmp;
1297	}
1298	while (i != origPtr);
1299
1300	/*--
1301	We recreate the original by subscripting F through T^(-1).
1302	The run-length-decoder below requires characters incrementally,
1303	so tPos is set to a starting value, and is updated by
1304	the GET_SMALL macro.
1305	--*/
1306	tPos = origPtr;
1307
1308	/-------------------------------------------------/
1309	/*--
1310	This is pretty much a verbatim copy of the
1311	run-length decoder present in the distribution
1312	bzip-0.21; it has to be here to avoid creating
1313	block[] as an intermediary structure. As in 0.21,
1314	this code derives from some sent to me by
1315	Christian von Roques.
1316
1317	It allows dst==NULL, so as to support the test (-t)
1318	option without slowing down the fast decompression
1319	code.
1320	--*/
1321	{
1322	IntNativeint retVal;
1323	Int32int i2, count, chPrev, ch2;
1324	UInt32unsigned int localCrc;
1325
1326	count = 0;
1327	i2 = 0;
1328	ch2 = 256; /-- not a char and not EOF --/
1329	localCrc = getGlobalCRC();
1330
1331	{
1332	RAND_DECLSint rNToGo = 0; int rTPos = 0;;
1333	while ( i2 <= last ) {
1334	chPrev = ch2;
1335	GET_SMALL(ch2);
1336	if (blockRandomised) {
1337	RAND_UPD_MASKif (rNToGo == 0) { rNToGo = rNums[rTPos]; rTPos++; if (rTPos == 512) rTPos = 0; } rNToGo--;;
1338	ch2 ^= (UInt32unsigned int)RAND_MASK((rNToGo == 1) ? 1 : 0);
1339	}
1340	i2++;
1341
1342	if (dst)
1343	retVal = bz2_putc ( ch2, dst );
1344
1345	UPDATE_CRC ( localCrc, (UChar)ch2 ){ localCrc = (localCrc << 8) ^ crc32Table[(localCrc >> 24) ^ ((unsigned char)(unsigned char)ch2)]; };
1346
1347	if (ch2 != chPrev) {
1348	count = 1;
1349	} else {
1350	count++;
1351	if (count >= 4) {
1352	Int32int j2;
1353	UCharunsigned char z;
1354	GET_SMALL(z);
1355	if (blockRandomised) {
1356	RAND_UPD_MASKif (rNToGo == 0) { rNToGo = rNums[rTPos]; rTPos++; if (rTPos == 512) rTPos = 0; } rNToGo--;;
1357	z ^= RAND_MASK((rNToGo == 1) ? 1 : 0);
1358	}
1359	for (j2 = 0; j2 < (Int32int)z; j2++) {
1360	if (dst) retVal = bz2_putc (ch2, dst);
	Value stored to 'retVal' is never read
1361	UPDATE_CRC ( localCrc, (UChar)ch2 ){ localCrc = (localCrc << 8) ^ crc32Table[(localCrc >> 24) ^ ((unsigned char)(unsigned char)ch2)]; };
1362	}
1363	i2++;
1364	count = 0;
1365	}
1366	}
1367	}
1368	}
1369
1370	setGlobalCRC ( localCrc );
1371	}
1372	/-- end of the in-line run-length-decoder. --/
1373	}
1374	#undef GET_SMALL
1375
1376
1377	/---------------------------------------------/
1378
1379	#define GET_FAST(cccc) \
1380	\
1381	cccc = ll8[tPos]; \
1382	tPos = tt[tPos];
1383
1384
1385
1386	static void undoReversibleTransformation_fast ( void* dst )
1387	{
1388	Int32int cftab[257];
1389	Int32int i, tPos;
1390	UCharunsigned char ch;
1391
1392	/*--
1393	We assume here that the global array unzftab will
1394	already be holding the frequency counts for
1395	ll8[0 .. last].
1396	--*/
1397
1398	/-- Set up cftab to facilitate generation of T^(-1) --/
1399	cftab[0] = 0;
1400	for (i = 1; i <= 256; i++) cftab[i] = unzftab[i-1];
1401	for (i = 1; i <= 256; i++) cftab[i] += cftab[i-1];
1402
1403	/-- compute the T^(-1) vector --/
1404	for (i = 0; i <= last; i++) {
1405	ch = (UCharunsigned char)ll8[i];
1406	tt[cftab[ch]] = i;
1407	cftab[ch]++;
1408	}
1409
1410	/*--
1411	We recreate the original by subscripting L through T^(-1).
1412	The run-length-decoder below requires characters incrementally,
1413	so tPos is set to a starting value, and is updated by
1414	the GET_FAST macro.
1415	--*/
1416	tPos = tt[origPtr];
1417
1418	/-------------------------------------------------/
1419	/*--
1420	This is pretty much a verbatim copy of the
1421	run-length decoder present in the distribution
1422	bzip-0.21; it has to be here to avoid creating
1423	block[] as an intermediary structure. As in 0.21,
1424	this code derives from some sent to me by
1425	Christian von Roques.
1426	--*/
1427	{
1428	IntNativeint retVal;
1429	Int32int i2, count, chPrev, ch2;
1430	UInt32unsigned int localCrc;
1431
1432	count = 0;
1433	i2 = 0;
1434	ch2 = 256; /-- not a char and not EOF --/
1435	localCrc = getGlobalCRC();
1436
1437	if (blockRandomised) {
1438	RAND_DECLSint rNToGo = 0; int rTPos = 0;;
1439	while ( i2 <= last ) {
1440	chPrev = ch2;
1441	GET_FAST(ch2);
1442	RAND_UPD_MASKif (rNToGo == 0) { rNToGo = rNums[rTPos]; rTPos++; if (rTPos == 512) rTPos = 0; } rNToGo--;;
1443	ch2 ^= (UInt32unsigned int)RAND_MASK((rNToGo == 1) ? 1 : 0);
1444	i2++;
1445
1446	retVal = bz2_putc ( ch2, dst );
1447	UPDATE_CRC ( localCrc, (UChar)ch2 ){ localCrc = (localCrc << 8) ^ crc32Table[(localCrc >> 24) ^ ((unsigned char)(unsigned char)ch2)]; };
1448
1449	if (ch2 != chPrev) {
1450	count = 1;
1451	} else {
1452	count++;
1453	if (count >= 4) {
1454	Int32int j2;
1455	UCharunsigned char z;
1456	GET_FAST(z);
1457	RAND_UPD_MASKif (rNToGo == 0) { rNToGo = rNums[rTPos]; rTPos++; if (rTPos == 512) rTPos = 0; } rNToGo--;;
1458	z ^= RAND_MASK((rNToGo == 1) ? 1 : 0);
1459	for (j2 = 0; j2 < (Int32int)z; j2++) {
1460	retVal = bz2_putc (ch2, dst);
1461	UPDATE_CRC ( localCrc, (UChar)ch2 ){ localCrc = (localCrc << 8) ^ crc32Table[(localCrc >> 24) ^ ((unsigned char)(unsigned char)ch2)]; };
1462	}
1463	i2++;
1464	count = 0;
1465	}
1466	}
1467	}
1468
1469	} else {
1470
1471	while ( i2 <= last ) {
1472	chPrev = ch2;
1473	GET_FAST(ch2);
1474	i2++;
1475
1476	retVal = bz2_putc ( ch2, dst );
1477	UPDATE_CRC ( localCrc, (UChar)ch2 ){ localCrc = (localCrc << 8) ^ crc32Table[(localCrc >> 24) ^ ((unsigned char)(unsigned char)ch2)]; };
1478
1479	if (ch2 != chPrev) {
1480	count = 1;
1481	} else {
1482	count++;
1483	if (count >= 4) {
1484	Int32int j2;
1485	UCharunsigned char z;
1486	GET_FAST(z);
1487	for (j2 = 0; j2 < (Int32int)z; j2++) {
1488	retVal = bz2_putc (ch2, dst);
1489	UPDATE_CRC ( localCrc, (UChar)ch2 ){ localCrc = (localCrc << 8) ^ crc32Table[(localCrc >> 24) ^ ((unsigned char)(unsigned char)ch2)]; };
1490	}
1491	i2++;
1492	count = 0;
1493	}
1494	}
1495	}
1496
1497	} /-- if (blockRandomised) --/
1498
1499	setGlobalCRC ( localCrc );
1500	}
1501	/-- end of the in-line run-length-decoder. --/
1502	}
1503	#undef GET_FAST
1504
1505
1506
1507	/---------------------------------------------------/
1508	/--- Processing of complete files and streams ---/
1509	/---------------------------------------------------/
1510
1511	/---------------------------------------------/
1512
1513	static Boolunsigned char uncompressStream ( void zStream, void stream )
1514	{
1515	UCharunsigned char magic1, magic2, magic3, magic4;
1516	UCharunsigned char magic5, magic6;
1517	UInt32unsigned int storedBlockCRC, storedCombinedCRC;
1518	UInt32unsigned int computedBlockCRC, computedCombinedCRC;
1519	Int32int currBlockNo;
1520	IntNativeint retVal;
1521
1522	SET_BINARY_MODE(stream);
1523	SET_BINARY_MODE(zStream);
1524
1525	ERROR_IF_NOT_ZERO ( bz2_ferror(stream) ){ if ((bz2_ferror(stream)) != 0) ioError(); };
1526	ERROR_IF_NOT_ZERO ( bz2_ferror(zStream) ){ if ((bz2_ferror(zStream)) != 0) ioError(); };
1527
1528	bsSetStream ( zStream, False0 );
1529
1530	/*--
1531	A bad magic number is `recoverable from';
1532	return with False so the caller skips the file.
1533	--*/
1534	magic1 = bsGetUChar ();
1535	magic2 = bsGetUChar ();
1536	magic3 = bsGetUChar ();
1537	magic4 = bsGetUChar ();
1538	if (magic1 != 'B' \|\|
1539	magic2 != 'Z' \|\|
1540	magic3 != 'h' \|\|
1541	magic4 < '1' \|\|
1542	magic4 > '9') {
1543	bsFinishedWithStream();
1544	retVal = bz2_fclose ( stream );
1545	ERROR_IF_EOF ( retVal ){ if ((retVal) == (-1)) ioError(); };
1546	return False0;
1547	}
1548
1549	setDecompressStructureSizes ( magic4 - '0' );
1550	computedCombinedCRC = 0;
1551
1552	if (verbosity >= 2) fprintf ( stderr, "\n " );
1553	currBlockNo = 0;
1554
1555	while (True1) {
1556	magic1 = bsGetUChar ();
1557	magic2 = bsGetUChar ();
1558	magic3 = bsGetUChar ();
1559	magic4 = bsGetUChar ();
1560	magic5 = bsGetUChar ();
1561	magic6 = bsGetUChar ();
1562	if (magic1 == 0x17 && magic2 == 0x72 &&
1563	magic3 == 0x45 && magic4 == 0x38 &&
1564	magic5 == 0x50 && magic6 == 0x90) break;
1565
1566	if (magic1 != 0x31 \|\| magic2 != 0x41 \|\|
1567	magic3 != 0x59 \|\| magic4 != 0x26 \|\|
1568	magic5 != 0x53 \|\| magic6 != 0x59) badBlockHeader();
1569
1570	storedBlockCRC = bsGetUInt32 ();
1571
1572	if (bsR(1) == 1)
1573	blockRandomised = True1; else
1574	blockRandomised = False0;
1575
1576	currBlockNo++;
1577	if (verbosity >= 2)
1578	fprintf ( stderr, "[%d: huff+mtf ", currBlockNo );
1579	getAndMoveToFrontDecode ();
1580	ERROR_IF_NOT_ZERO ( bz2_ferror(zStream) ){ if ((bz2_ferror(zStream)) != 0) ioError(); };
1581
1582	initialiseCRC();
1583	if (verbosity >= 2) fprintf ( stderr, "rt+rld" );
1584	if (smallMode)
1585	undoReversibleTransformation_small ( stream );
1586	else
1587	undoReversibleTransformation_fast ( stream );
1588
1589	ERROR_IF_NOT_ZERO ( bz2_ferror(stream) ){ if ((bz2_ferror(stream)) != 0) ioError(); };
1590
1591	computedBlockCRC = getFinalCRC();
1592	if (verbosity >= 3)
1593	fprintf ( stderr, " {0x%x, 0x%x}", storedBlockCRC, computedBlockCRC );
1594	if (verbosity >= 2) fprintf ( stderr, "] " );
1595
1596	/-- A bad CRC is considered a fatal error. --/
1597	if (storedBlockCRC != computedBlockCRC)
1598	crcError ( storedBlockCRC, computedBlockCRC );
1599
1600	computedCombinedCRC = (computedCombinedCRC << 1) \| (computedCombinedCRC >> 31);
1601	computedCombinedCRC ^= computedBlockCRC;
1602	};
1603
1604	if (verbosity >= 2) fprintf ( stderr, "\n " );
1605
1606	storedCombinedCRC = bsGetUInt32 ();
1607	if (verbosity >= 2)
1608	fprintf ( stderr,
1609	"combined CRCs: stored = 0x%x, computed = 0x%x\n ",
1610	storedCombinedCRC, computedCombinedCRC );
1611	if (storedCombinedCRC != computedCombinedCRC)
1612	crcError ( storedCombinedCRC, computedCombinedCRC );
1613
1614
1615	bsFinishedWithStream ();
1616	ERROR_IF_NOT_ZERO ( bz2_ferror(zStream) ){ if ((bz2_ferror(zStream)) != 0) ioError(); };
1617	retVal = bz2_fclose ( zStream );
1618	ERROR_IF_EOF ( retVal ){ if ((retVal) == (-1)) ioError(); };
1619
1620	ERROR_IF_NOT_ZERO ( bz2_ferror(stream) ){ if ((bz2_ferror(stream)) != 0) ioError(); };
1621	retVal = bz2_fflush ( stream );
1622	ERROR_IF_NOT_ZERO ( retVal ){ if ((retVal) != 0) ioError(); };
1623	return True1;
1624	}
1625
1626
1627	#if 0
1628
1629	#endif
1630	/---------------------------------------------------/
1631	/--- Error [non-] handling grunge ---/
1632	/---------------------------------------------------/
1633
1634
1635
1636	static void
1637	myFree (void **p)
1638	{
1639	free (*p);
1640	p = NULL((void)0);
1641	}
1642
1643	/---------------------------------------------/
1644	/* Ugg... Orignal code doesn't free dynamic allocated memories. */
1645
1646	static void cleanUpAndFail ( Int32int ec )
1647	{
1648	myFree ((void **) &ll16);
1649	myFree ((void **) &ll4);
1650	myFree ((void **) &ll8);
1651	myFree ((void **) &tt);
1652
1653	(unzip_error) (NULL((void)0));
1654	}
1655
1656
1657	/---------------------------------------------/
1658
1659	static void panic ( Charchar* s )
1660	{
1661	cleanUpAndFail( 3 );
1662	}
1663
1664
1665
1666	/---------------------------------------------/
1667
1668	static void crcError ( UInt32unsigned int crcStored, UInt32unsigned int crcComputed )
1669	{
1670	cleanUpAndFail( 2 );
1671	}
1672
1673
1674	/---------------------------------------------/
1675
1676	static void compressedStreamEOF ( void )
1677	{
1678	cleanUpAndFail( 2 );
1679	}
1680
1681
1682	/---------------------------------------------/
1683
1684	static void ioError ( )
1685	{
1686	cleanUpAndFail( 1 );
1687	}
1688
1689
1690	/---------------------------------------------/
1691
1692	static void blockOverrun ()
1693	{
1694	cleanUpAndFail( 2 );
1695	}
1696
1697
1698	/---------------------------------------------/
1699
1700	static void badBlockHeader ()
1701	{
1702	cleanUpAndFail( 2 );
1703	}
1704
1705
1706
1707	/---------------------------------------------/
1708	static void uncompressOutOfMemory ( Int32int draw, Int32int blockSize )
1709	{
1710	cleanUpAndFail(1);
1711	}
1712
1713
1714
1715	/-----------------------------------------------------------/
1716	/--- end bzip2.c ---/
1717	/-----------------------------------------------------------/
1718
1719	void
1720	do_bunzip2 (void)
1721	{
1722	Boolunsigned char ret;
1723
1724	/-- Initialise --/
1725	ll4 = NULL((void*)0);
1726	ll16 = NULL((void*)0);
1727	ll8 = NULL((void*)0);
1728	tt = NULL((void*)0);
1729	#ifdef SMALL_BZIP2
1730	smallMode = True1;
1731	#else
1732	smallMode = False0;
1733	#endif
1734	verbosity = 0;
1735	blockSize100k = 0;
1736	bsStream = NULL((void*)0);
1737
1738	outcnt = 0;
1739	inptr = 0;
1740	insize = 0;
1741
1742	ret = uncompressStream ((void )1, (void )2); /* Arguments ignored. */
1743	if (ret != True1)
1744	cleanUpAndFail(1);
1745	}