/src/bzip2/huffman.c

Source

/*-------------------------------------------------------------*/
/*--- Huffman coding low-level stuff                        ---*/
/*---                                             huffman.c ---*/
/*-------------------------------------------------------------*/

/* ------------------------------------------------------------------
   This file is part of bzip2/libbzip2, a program and library for
   lossless, block-sorting data compression.

   bzip2/libbzip2 version 1.0.8 of 13 July 2019
   Copyright (C) 1996-2019 Julian Seward <jseward@acm.org>

   Please read the WARNING, DISCLAIMER and PATENTS sections in the 
   README file.

   This program is released under the terms of the license contained
   in the file LICENSE.
   ------------------------------------------------------------------ */


#include "bzlib_private.h"

/*---------------------------------------------------*/
#define WEIGHTOF(zz0)  ((zz0) & 0xffffff00)
#define DEPTHOF(zz1)   ((zz1) & 0x000000ff)
#define MYMAX(zz2,zz3) ((zz2) > (zz3) ? (zz2) : (zz3))

#define ADDWEIGHTS(zw1,zw2)                           \
   (WEIGHTOF(zw1)+WEIGHTOF(zw2)) |                    \
   (1 + MYMAX(DEPTHOF(zw1),DEPTHOF(zw2)))

#define UPHEAP(z)                                     \
{                                                     \
   Int32 zz, tmp;                                     \
   zz = z; tmp = heap[zz];                            \
   while (weight[tmp] < weight[heap[zz >> 1]]) {      \
      heap[zz] = heap[zz >> 1];                       \
      zz >>= 1;                                       \
   }                                                  \
   heap[zz] = tmp;                                    \
}

#define DOWNHEAP(z)                                   \
{                                                     \
   Int32 zz, yy, tmp;                                 \
   zz = z; tmp = heap[zz];                            \
   while (True) {                                     \
      yy = zz << 1;                                   \
      if (yy > nHeap) break;                          \
      if (yy < nHeap &&                               \
          weight[heap[yy+1]] < weight[heap[yy]])      \
         yy++;                                        \
      if (weight[tmp] < weight[heap[yy]]) break;      \
      heap[zz] = heap[yy];                            \
      zz = yy;                                        \
   }                                                  \
   heap[zz] = tmp;                                    \
}


/*---------------------------------------------------*/
void BZ2_hbMakeCodeLengths ( UChar *len, 
                             Int32 *freq,
                             Int32 alphaSize,
                             Int32 maxLen )
{
   /*--
      Nodes and heap entries run from 1.  Entry 0
      for both the heap and nodes is a sentinel.
   --*/
   Int32 nNodes, nHeap, n1, n2, i, j, k;
   Bool  tooLong;

   Int32 heap   [ BZ_MAX_ALPHA_SIZE + 2 ];
   Int32 weight [ BZ_MAX_ALPHA_SIZE * 2 ];
   Int32 parent [ BZ_MAX_ALPHA_SIZE * 2 ]; 

   for (i = 0; i < alphaSize; i++)
      weight[i+1] = (freq[i] == 0 ? 1 : freq[i]) << 8;

   while (True) {

      nNodes = alphaSize;
      nHeap = 0;

      heap[0] = 0;
      weight[0] = 0;
      parent[0] = -2;

      for (i = 1; i <= alphaSize; i++) {
         parent[i] = -1;
         nHeap++;
         heap[nHeap] = i;
         UPHEAP(nHeap);
      }

      AssertH( nHeap < (BZ_MAX_ALPHA_SIZE+2), 2001 );
   
      while (nHeap > 1) {
         n1 = heap[1]; heap[1] = heap[nHeap]; nHeap--; DOWNHEAP(1);
         n2 = heap[1]; heap[1] = heap[nHeap]; nHeap--; DOWNHEAP(1);
         nNodes++;
         parent[n1] = parent[n2] = nNodes;
         weight[nNodes] = ADDWEIGHTS(weight[n1], weight[n2]);
         parent[nNodes] = -1;
         nHeap++;
         heap[nHeap] = nNodes;
         UPHEAP(nHeap);
      }

      AssertH( nNodes < (BZ_MAX_ALPHA_SIZE * 2), 2002 );

      tooLong = False;
      for (i = 1; i <= alphaSize; i++) {
         j = 0;
         k = i;
         while (parent[k] >= 0) { k = parent[k]; j++; }
         len[i-1] = j;
         if (j > maxLen) tooLong = True;
      }
      
      if (! tooLong) break;

      /* 17 Oct 04: keep-going condition for the following loop used
         to be 'i < alphaSize', which missed the last element,
         theoretically leading to the possibility of the compressor
         looping.  However, this count-scaling step is only needed if
         one of the generated Huffman code words is longer than
         maxLen, which up to and including version 1.0.2 was 20 bits,
         which is extremely unlikely.  In version 1.0.3 maxLen was
         changed to 17 bits, which has minimal effect on compression
         ratio, but does mean this scaling step is used from time to
         time, enough to verify that it works.

         This means that bzip2-1.0.3 and later will only produce
         Huffman codes with a maximum length of 17 bits.  However, in
         order to preserve backwards compatibility with bitstreams
         produced by versions pre-1.0.3, the decompressor must still
         handle lengths of up to 20. */

      for (i = 1; i <= alphaSize; i++) {
         j = weight[i] >> 8;
         j = 1 + (j / 2);
         weight[i] = j << 8;
      }
   }
}


/*---------------------------------------------------*/
void BZ2_hbAssignCodes ( Int32 *code,
                         UChar *length,
                         Int32 minLen,
                         Int32 maxLen,
                         Int32 alphaSize )
{
   Int32 n, vec, i;

   vec = 0;
   for (n = minLen; n <= maxLen; n++) {
      for (i = 0; i < alphaSize; i++)
         if (length[i] == n) { code[i] = vec; vec++; };
      vec <<= 1;
   }
}


/*---------------------------------------------------*/
void BZ2_hbCreateDecodeTables ( Int32 *limit,
                                Int32 *base,
                                Int32 *perm,
                                UChar *length,
                                Int32 minLen,
                                Int32 maxLen,
                                Int32 alphaSize )
{
   Int32 pp, i, j, vec;

   pp = 0;
   for (i = minLen; i <= maxLen; i++)
      for (j = 0; j < alphaSize; j++)
         if (length[j] == i) { perm[pp] = j; pp++; };

   for (i = 0; i < BZ_MAX_CODE_LEN; i++) base[i] = 0;
   for (i = 0; i < alphaSize; i++) base[length[i]+1]++;

   for (i = 1; i < BZ_MAX_CODE_LEN; i++) base[i] += base[i-1];

   for (i = 0; i < BZ_MAX_CODE_LEN; i++) limit[i] = 0;
   vec = 0;

   for (i = minLen; i <= maxLen; i++) {
      vec += (base[i+1] - base[i]);
      limit[i] = vec-1;
      vec <<= 1;
   }
   for (i = minLen + 1; i <= maxLen; i++)
      base[i] = ((limit[i-1] + 1) << 1) - base[i];
}


/*-------------------------------------------------------------*/
/*--- end                                         huffman.c ---*/
/*-------------------------------------------------------------*/

Coverage Report

Created: 2025-07-11 07:02

Line	Count	Source
1
2		/-------------------------------------------------------------/
3		/--- Huffman coding low-level stuff ---/
4		/--- huffman.c ---/
5		/-------------------------------------------------------------/
6
7		/* ------------------------------------------------------------------
8		This file is part of bzip2/libbzip2, a program and library for
9		lossless, block-sorting data compression.
10
11		bzip2/libbzip2 version 1.0.8 of 13 July 2019
12		Copyright (C) 1996-2019 Julian Seward <jseward@acm.org>
13
14		Please read the WARNING, DISCLAIMER and PATENTS sections in the
15		README file.
16
17		This program is released under the terms of the license contained
18		in the file LICENSE.
19		------------------------------------------------------------------ */
20
21
22		#include "bzlib_private.h"
23
24		/---------------------------------------------------/
25	19.8M	#define WEIGHTOF(zz0) ((zz0) & 0xffffff00)
26		#define DEPTHOF(zz1) ((zz1) & 0x000000ff)
27	9.90M	#define MYMAX(zz2,zz3) ((zz2) > (zz3) ? (zz2) : (zz3))
28
29		#define ADDWEIGHTS(zw1,zw2) \
30	9.90M	(WEIGHTOF(zw1)+WEIGHTOF(zw2)) \| \
31	9.90M	(1 + MYMAX(DEPTHOF(zw1),DEPTHOF(zw2)))
32
33	19.8M	#define UPHEAP(z) \
34	19.8M	{ \
35	19.8M	Int32 zz, tmp; \
36	19.8M	zz = z; tmp = heap[zz]; \
37	27.1M	while (weight[tmp] < weight[heap[zz >> 1]]) { \
38	7.25M	heap[zz] = heap[zz >> 1]; \
39	7.25M	zz >>= 1; \
40	7.25M	} \
41	19.8M	heap[zz] = tmp; \
42	19.8M	}
43
44	19.8M	#define DOWNHEAP(z) \
45	19.8M	{ \
46	19.8M	Int32 zz, yy, tmp; \
47	19.8M	zz = z; tmp = heap[zz]; \
48	124M	while (True) { \
49	124M	yy = zz << 1; \
50	124M	if (yy > nHeap) break; \
51	124M	if (yy < nHeap && \
52	107M	weight[heap[yy+1]] < weight[heap[yy]]) \
53	107M	yy++; \
54	107M	if (weight[tmp] < weight[heap[yy]]) break; \
55	107M	heap[zz] = heap[yy]; \
56	104M	zz = yy; \
57	104M	} \
58	19.8M	heap[zz] = tmp; \
59	19.8M	}
60
61
62		/---------------------------------------------------/
63		void BZ2_hbMakeCodeLengths ( UChar *len,
64		Int32 *freq,
65		Int32 alphaSize,
66		Int32 maxLen )
67	60.2k	{
68		/*--
69		Nodes and heap entries run from 1. Entry 0
70		for both the heap and nodes is a sentinel.
71		--*/
72	60.2k	Int32 nNodes, nHeap, n1, n2, i, j, k;
73	60.2k	Bool tooLong;
74
75	60.2k	Int32 heap [ BZ_MAX_ALPHA_SIZE + 2 ];
76	60.2k	Int32 weight [ BZ_MAX_ALPHA_SIZE * 2 ];
77	60.2k	Int32 parent [ BZ_MAX_ALPHA_SIZE * 2 ];
78
79	9.98M	for (i = 0; i < alphaSize; i++)
80	9.92M	weight[i+1] = (freq[i] == 0 ? 1 : freq[i]) << 8;
81
82	60.3k	while (True) {
83
84	60.3k	nNodes = alphaSize;
85	60.3k	nHeap = 0;
86
87	60.3k	heap[0] = 0;
88	60.3k	weight[0] = 0;
89	60.3k	parent[0] = -2;
90
91	10.0M	for (i = 1; i <= alphaSize; i++) {
92	9.96M	parent[i] = -1;
93	9.96M	nHeap++;
94	9.96M	heap[nHeap] = i;
95	9.96M	UPHEAP(nHeap);
96	9.96M	}
97
98	60.3k	AssertH( nHeap < (BZ_MAX_ALPHA_SIZE+2), 2001 );
99
100	9.96M	while (nHeap > 1) {
101	9.90M	n1 = heap[1]; heap[1] = heap[nHeap]; nHeap--; DOWNHEAP(1);
102	9.90M	n2 = heap[1]; heap[1] = heap[nHeap]; nHeap--; DOWNHEAP(1);
103	9.90M	nNodes++;
104	9.90M	parent[n1] = parent[n2] = nNodes;
105	9.90M	weight[nNodes] = ADDWEIGHTS(weight[n1], weight[n2]);
106	9.90M	parent[nNodes] = -1;
107	9.90M	nHeap++;
108	9.90M	heap[nHeap] = nNodes;
109	9.90M	UPHEAP(nHeap);
110	9.90M	}
111
112	60.3k	AssertH( nNodes < (BZ_MAX_ALPHA_SIZE * 2), 2002 );
113
114	60.3k	tooLong = False;
115	10.0M	for (i = 1; i <= alphaSize; i++) {
116	9.96M	j = 0;
117	9.96M	k = i;
118	92.9M	while (parent[k] >= 0) { k = parent[k]; j++; }
119	9.96M	len[i-1] = j;
120	9.96M	if (j > maxLen) tooLong = True;
121	9.96M	}
122
123	60.3k	if (! tooLong) break;
124
125		/* 17 Oct 04: keep-going condition for the following loop used
126		to be 'i < alphaSize', which missed the last element,
127		theoretically leading to the possibility of the compressor
128		looping. However, this count-scaling step is only needed if
129		one of the generated Huffman code words is longer than
130		maxLen, which up to and including version 1.0.2 was 20 bits,
131		which is extremely unlikely. In version 1.0.3 maxLen was
132		changed to 17 bits, which has minimal effect on compression
133		ratio, but does mean this scaling step is used from time to
134		time, enough to verify that it works.
135
136		This means that bzip2-1.0.3 and later will only produce
137		Huffman codes with a maximum length of 17 bits. However, in
138		order to preserve backwards compatibility with bitstreams
139		produced by versions pre-1.0.3, the decompressor must still
140		handle lengths of up to 20. */
141
142	34.6k	for (i = 1; i <= alphaSize; i++) {
143	34.5k	j = weight[i] >> 8;
144	34.5k	j = 1 + (j / 2);
145	34.5k	weight[i] = j << 8;
146	34.5k	}
147	142	}
148	60.2k	}
149
150
151		/---------------------------------------------------/
152		void BZ2_hbAssignCodes ( Int32 *code,
153		UChar *length,
154		Int32 minLen,
155		Int32 maxLen,
156		Int32 alphaSize )
157	15.0k	{
158	15.0k	Int32 n, vec, i;
159
160	15.0k	vec = 0;
161	92.9k	for (n = minLen; n <= maxLen; n++) {
162	14.5M	for (i = 0; i < alphaSize; i++)
163	14.4M	if (length[i] == n) { code[i] = vec; vec++; };
164	77.8k	vec <<= 1;
165	77.8k	}
166	15.0k	}
167
168
169		/---------------------------------------------------/
170		void BZ2_hbCreateDecodeTables ( Int32 *limit,
171		Int32 *base,
172		Int32 *perm,
173		UChar *length,
174		Int32 minLen,
175		Int32 maxLen,
176		Int32 alphaSize )
177	15.0k	{
178	15.0k	Int32 pp, i, j, vec;
179
180	15.0k	pp = 0;
181	92.9k	for (i = minLen; i <= maxLen; i++)
182	14.5M	for (j = 0; j < alphaSize; j++)
183	14.4M	if (length[j] == i) { perm[pp] = j; pp++; };
184
185	361k	for (i = 0; i < BZ_MAX_CODE_LEN; i++) base[i] = 0;
186	2.49M	for (i = 0; i < alphaSize; i++) base[length[i]+1]++;
187
188	346k	for (i = 1; i < BZ_MAX_CODE_LEN; i++) base[i] += base[i-1];
189
190	361k	for (i = 0; i < BZ_MAX_CODE_LEN; i++) limit[i] = 0;
191	15.0k	vec = 0;
192
193	92.9k	for (i = minLen; i <= maxLen; i++) {
194	77.8k	vec += (base[i+1] - base[i]);
195	77.8k	limit[i] = vec-1;
196	77.8k	vec <<= 1;
197	77.8k	}
198	77.8k	for (i = minLen + 1; i <= maxLen; i++)
199	62.8k	base[i] = ((limit[i-1] + 1) << 1) - base[i];
200	15.0k	}
201
202
203		/-------------------------------------------------------------/
204		/--- end huffman.c ---/
205		/-------------------------------------------------------------/