/src/ghostpdl/base/spngp.c

Source (jump to first uncovered line)
/* Copyright (C) 2001-2023 Artifex Software, Inc.
   All Rights Reserved.

   This software is provided AS-IS with no warranty, either express or
   implied.

   This software is distributed under license and may not be copied,
   modified or distributed except as expressly authorized under the terms
   of the license contained in the file LICENSE in this distribution.

   Refer to licensing information at http://www.artifex.com or contact
   Artifex Software, Inc.,  39 Mesa Street, Suite 108A, San Francisco,
   CA 94129, USA, for further information.
*/


/* PNG pixel prediction filters */
#include "memory_.h"
#include "strimpl.h"
#include "spngpx.h"

/* ------ PNGPredictorEncode/Decode ------ */

private_st_PNGP_state();

/* Define values for case dispatch. */
#define cNone 10
#define cSub 11
#define cUp 12
#define cAverage 13
#define cPaeth 14
#define cOptimum 15
#define cEncode -10
#define cDecode -4
static const byte pngp_case_needs_prev[] = {
    0, 0, 1, 1, 1, 1
};

/* Set defaults */
static void
s_PNGP_set_defaults(stream_state * st)
{
    stream_PNGP_state *const ss = (stream_PNGP_state *) st;

    s_PNGP_set_defaults_inline(ss);
}

/* Common (re)initialization. */
static int
s_PNGP_reinit(stream_state * st)
{
    stream_PNGP_state *const ss = (stream_PNGP_state *) st;

    if (ss->prev_row != 0)
        memset(ss->prev_row + ss->bpp, 0, ss->row_count);
    ss->row_left = 0;
    return 0;
}

/* Common initialization. */
static int
s_pngp_init(stream_state * st, bool need_prev)
{
    stream_PNGP_state *const ss = (stream_PNGP_state *) st;
    int bits_per_pixel = ss->Colors * ss->BitsPerComponent;
    long bits_per_row = (long)bits_per_pixel * ss->Columns;
    byte *prev_row = 0;

#if ARCH_SIZEOF_LONG > ARCH_SIZEOF_INT
    if (bits_per_row > max_uint * 7L)
        return ERRC; /****** WRONG ******/
#endif
    ss->row_count = (uint) ((bits_per_row + 7) >> 3);
    ss->end_mask = (1 << (-bits_per_row & 7)) - 1;

    if (ss->Colors > s_PNG_max_Colors)
        return ERRC; /* Too many colorants */

    if (bits_per_row < 1)
        return ERRC;

    ss->bpp = (bits_per_pixel + 7) >> 3;
    if (need_prev) {
        prev_row = gs_alloc_bytes(st->memory, ss->bpp + ss->row_count,
                                  "PNGPredictor prev row");
        if (prev_row == 0)
            return ERRC;  /****** WRONG ******/
        memset(prev_row, 0, ss->bpp);
    }
    ss->prev_row = prev_row;
    /* case_index is only preset for encoding */
    return s_PNGP_reinit(st);
}

/* Initialize PNGPredictorEncode filter. */
static int
s_PNGPE_init(stream_state * st)
{
    stream_PNGP_state *const ss = (stream_PNGP_state *) st;

    return s_pngp_init(st, pngp_case_needs_prev[ss->Predictor - cNone]);
}

/* Initialize PNGPredictorDecode filter. */
static int
s_PNGPD_init(stream_state * st)
{
    return s_pngp_init(st, true);
}

/* Release a PNGPredictor filter. */
static void
s_PNGP_release(stream_state *st)
{
    stream_PNGP_state *const ss = (stream_PNGP_state *) st;

    if (ss->prev_row)
        gs_free_object(st->memory, ss->prev_row, "PNGPredictor prev row");
}

/*
 * Process a partial buffer.  We pass in current and previous pointers
 * to both the current and preceding scan line.  Note that dprev is
 * p - bpp for encoding, q - bpp for decoding; similarly, the 'up' row
 * is the raw data for encoding, the filtered (encoded) data for decoding.
 * Note also that the case_index cannot be cOptimum.
 *
 * Uses ss->case_index; uses and updates ss->row_left, pr->ptr, pw->ptr.
 */
static int
paeth_predictor(int a, int b, int c)
{
    /* The definitions of ac and bc are correct, not a typo. */
    int ac = b - c, bc = a - c, abcc = ac + bc;
    int pa = (ac < 0 ? -ac : ac), pb = (bc < 0 ? -bc : bc),
        pc = (abcc < 0 ? -abcc : abcc);

    return (pa <= pb && pa <= pc ? a : pb <= pc ? b : c);
}
static void
s_pngp_process(stream_state * st, stream_cursor_write * pw,
               const byte * dprev, stream_cursor_read * pr,
               const byte * upprev, const byte * up, uint count)
{
    stream_PNGP_state *const ss = (stream_PNGP_state *) st;
    byte *q = pw->ptr + 1;
    const byte *p = pr->ptr + 1;

    pr->ptr += count;
    pw->ptr += count;
    ss->row_left -= count;
    switch (ss->case_index) {
        case cEncode + cNone:
        case cDecode + cNone:
            memcpy(q, p, count);
            break;
        case cEncode + cSub:
            for (; count; ++q, ++dprev, ++p, --count)
                *q = (byte) (*p - *dprev);
            break;
        case cDecode + cSub:
            for (; count; ++q, ++dprev, ++p, --count)
                *q = (byte) (*p + *dprev);
            break;
        case cEncode + cUp:
            for (; count; ++q, ++up, ++p, --count)
                *q = (byte) (*p - *up);
            break;
        case cDecode + cUp:
            for (; count; ++q, ++up, ++p, --count)
                *q = (byte) (*p + *up);
            break;
        case cEncode + cAverage:
            for (; count; ++q, ++dprev, ++up, ++p, --count)
                *q = (byte) (*p - arith_rshift_1((int)*dprev + (int)*up));
            break;
        case cDecode + cAverage:
            for (; count; ++q, ++dprev, ++up, ++p, --count)
                *q = (byte) (*p + arith_rshift_1((int)*dprev + (int)*up));
            break;
        case cEncode + cPaeth:
            for (; count; ++q, ++dprev, ++up, ++upprev, ++p, --count)
                *q = (byte) (*p - paeth_predictor(*dprev, *up, *upprev));
            break;
        case cDecode + cPaeth:
            for (; count; ++q, ++dprev, ++up, ++upprev, ++p, --count)
                *q = (byte) (*p + paeth_predictor(*dprev, *up, *upprev));
            break;
    }
}

/* Calculate the number of bytes for the next processing step, */
/* the min of (input data, output data, remaining row length). */
static uint
s_pngp_count(const stream_state * st_const, const stream_cursor_read * pr,
             const stream_cursor_write * pw)
{
    const stream_PNGP_state *const ss_const =
        (const stream_PNGP_state *)st_const;
    uint rcount = pr->limit - pr->ptr;
    uint wcount = pw->limit - pw->ptr;
    uint row_left = ss_const->row_left;

    if (rcount < row_left)
        row_left = rcount;
    if (wcount < row_left)
        row_left = wcount;
    return row_left;
}

/*
 * Encode a buffer.  Let N = ss->row_count, P = N - ss->row_left,
 * and B = ss->bpp.  Consider that bytes [-B .. -1] of every row are zero.
 * Then:
 *      prev_row[0 .. P - 1] contain bytes -B .. P - B - 1
 *        of the current input row.
 *      ss->prev[0 .. B - 1] contain bytes P - B .. P - 1
 *        of the current input row.
 *      prev_row[P .. N + B - 1] contain bytes P - B .. N - 1
 *        of the previous input row.
 * We must handle the edges of each row specially, by clearing ss->prev at
 * the beginning of each row, and copying trailing bytes from ss->prev (and
 * possibly the input) to prev_row at the end of each row.
 */
static int
optimum_predictor(const stream_state * st, const stream_cursor_read * pr)
{
    return cSub;
}
static int
s_PNGPE_process(stream_state * st, stream_cursor_read * pr,
                stream_cursor_write * pw, bool last)
{
    stream_PNGP_state *const ss = (stream_PNGP_state *) st;
    int bpp = ss->bpp;
    int status = 0;

    while (pr->ptr < pr->limit) {
        uint count;

        if (ss->row_left == 0) {
            /* Beginning of row, write algorithm byte. */
            int predictor;

            if (pw->ptr >= pw->limit) {
                status = 1;
                break;
            }
            predictor =
                (ss->Predictor == cOptimum ?
                 optimum_predictor(st, pr) :
                 ss->Predictor);
            *++(pw->ptr) = (byte) predictor - cNone;
            ss->case_index = predictor + cEncode;
            ss->row_left = ss->row_count;
            memset(ss->prev, 0, bpp);
            continue;
        }
        count = s_pngp_count(st, pr, pw);
        if (count == 0) {
            /* We know we have input, so output must be full. */
            status = 1;
            break;
        } {
            byte *up = ss->prev_row + bpp + ss->row_count - ss->row_left;
            uint n = min(count, bpp);

            /* Process bytes whose predecessors are in prev. */
            s_pngp_process(st, pw, ss->prev, pr, up - bpp, up, n);
            if (ss->row_left == 0) {
                if (ss->prev_row) {
                    memcpy(up - bpp, ss->prev, bpp);
                    memcpy(up, pr->ptr - (n - 1), n);
                }
                continue;
            }
            if (ss->prev_row)
                memcpy(up - bpp, ss->prev, n);
            if (n < bpp) {
                /*
                 * We didn't have both enough input data and enough output
                 * space to use up all of prev.  Shift more data into prev
                 * and exit.
                 */
                int prev_left = bpp - n;

                memmove(ss->prev, ss->prev + n, prev_left);
                memcpy(ss->prev + prev_left, pr->ptr - (n - 1), n);
                if (pw->ptr >= pw->limit && pr->ptr < pr->limit)
                    status = 1;
                break;
            }
            /* Process bytes whose predecessors are in the input. */
            /* We know we have at least bpp input and output bytes, */
            /* and that n = bpp. */
            count -= bpp;
            s_pngp_process(st, pw, pr->ptr - (bpp - 1), pr,
                           up, up + bpp, count);
            memcpy(ss->prev, pr->ptr - (bpp - 1), bpp);
            if (ss->prev_row) {
                memcpy(up, pr->ptr - (bpp + count - 1), count);
                if (ss->row_left == 0)
                    memcpy(up + count, ss->prev, bpp);
            }
        }
    }
    return status;
}

/*
 * Decode a buffer.  Let N = ss->row_count, P = N - ss->row_left,
 * and B = ss->bpp.  Consider that bytes [-B .. -1] of every row are zero.
 * Then:
 *      prev_row[0 .. P - 1] contain bytes -B .. P - B - 1
 *        of the current output row.
 *      ss->prev[0 .. B - 1] contain bytes P - B .. P - 1
 *        of the current output row.
 *      prev_row[P .. N + B - 1] contain bytes P - B .. N - 1
 *        of the previous output row.
 * We must handle the edges of each row specially, by clearing ss->prev at
 * the beginning of each row, and copying trailing bytes from ss->prev (and
 * possibly the output) to prev_row at the end of each row.
 */
static int
s_PNGPD_process(stream_state * st, stream_cursor_read * pr,
                stream_cursor_write * pw, bool last)
{
    stream_PNGP_state *const ss = (stream_PNGP_state *) st;
    int bpp = ss->bpp;
    int status = 0;

    while (pr->ptr < pr->limit) {
        uint count;

        if (ss->row_left == 0) {
            /* Beginning of row, read algorithm byte. */
            int predictor = pr->ptr[1];

            if (predictor >= cOptimum - cNone) {
                status = ERRC;
                break;
            }
            pr->ptr++;
            ss->case_index = predictor + cNone + cDecode;
            ss->row_left = ss->row_count;
            memset(ss->prev, 0, bpp);
            continue;
        }
        count = s_pngp_count(st, pr, pw);
        if (count == 0) {
            /* We know we have input, so output must be full. */
            status = 1;
            break;
        } {
            byte *up = ss->prev_row + bpp + ss->row_count - ss->row_left;
            uint n = min(count, bpp);

            /* Process bytes whose predecessors are in prev. */
            s_pngp_process(st, pw, ss->prev, pr, up - bpp, up, n);
            if (ss->row_left == 0) {
                if (ss->prev_row) {
                    memcpy(up - bpp, ss->prev, bpp);
                    memcpy(up, pw->ptr - (n - 1), n);
                }
                continue;
            }
            if (ss->prev_row)
                memcpy(up - bpp, ss->prev, n);
            if (n < bpp) {
                /*
                 * We didn't have both enough input data and enough output
                 * space to use up all of prev.  Shift more data into prev
                 * and exit.
                 */
                int prev_left = bpp - n;

                memmove(ss->prev, ss->prev + n, prev_left);
                memcpy(ss->prev + prev_left, pw->ptr - (n - 1), n);
                if (pw->ptr >= pw->limit && pr->ptr < pr->limit)
                    status = 1;
                break;
            }
            /* Process bytes whose predecessors are in the output. */
            /* We know we have at least bpp input and output bytes, */
            /* and that n = bpp. */
            count -= bpp;
            s_pngp_process(st, pw, pw->ptr - (bpp - 1), pr,
                           up, up + bpp, count);
            memcpy(ss->prev, pw->ptr - (bpp - 1), bpp);
            if (ss->prev_row) {
                memcpy(up, pw->ptr - (bpp + count - 1), count);
                if (ss->row_left == 0)
                    memcpy(up + count, ss->prev, bpp);
            }
        }
    }
    return status;
}

/* Stream templates */
const stream_template s_PNGPE_template = {
    &st_PNGP_state, s_PNGPE_init, s_PNGPE_process, 1, 1, s_PNGP_release,
    s_PNGP_set_defaults, s_PNGP_reinit
};
const stream_template s_PNGPD_template = {
    &st_PNGP_state, s_PNGPD_init, s_PNGPD_process, 1, 1, s_PNGP_release,
    s_PNGP_set_defaults, s_PNGP_reinit
};

Coverage Report

Created: 2025-06-10 07:27

Line	Count	Source (jump to first uncovered line)
1		/* Copyright (C) 2001-2023 Artifex Software, Inc.
2		All Rights Reserved.
3
4		This software is provided AS-IS with no warranty, either express or
5		implied.
6
7		This software is distributed under license and may not be copied,
8		modified or distributed except as expressly authorized under the terms
9		of the license contained in the file LICENSE in this distribution.
10
11		Refer to licensing information at http://www.artifex.com or contact
12		Artifex Software, Inc., 39 Mesa Street, Suite 108A, San Francisco,
13		CA 94129, USA, for further information.
14		*/
15
16
17		/* PNG pixel prediction filters */
18		#include "memory_.h"
19		#include "strimpl.h"
20		#include "spngpx.h"
21
22		/* ------ PNGPredictorEncode/Decode ------ */
23
24		private_st_PNGP_state();
25
26		/* Define values for case dispatch. */
27	8.45M	#define cNone 10
28	13.2M	#define cSub 11
29	1.48M	#define cUp 12
30	125k	#define cAverage 13
31	507k	#define cPaeth 14
32	3.71M	#define cOptimum 15
33	12.0M	#define cEncode -10
34	7.96M	#define cDecode -4
35		static const byte pngp_case_needs_prev[] = {
36		0, 0, 1, 1, 1, 1
37		};
38
39		/* Set defaults */
40		static void
41		s_PNGP_set_defaults(stream_state * st)
42	19.3k	{
43	19.3k	stream_PNGP_state const ss = (stream_PNGP_state ) st;
44
45	19.3k	s_PNGP_set_defaults_inline(ss);
46	19.3k	}
47
48		/* Common (re)initialization. */
49		static int
50		s_PNGP_reinit(stream_state * st)
51	61.6k	{
52	61.6k	stream_PNGP_state const ss = (stream_PNGP_state ) st;
53
54	61.6k	if (ss->prev_row != 0)
55	61.6k	memset(ss->prev_row + ss->bpp, 0, ss->row_count);
56	61.6k	ss->row_left = 0;
57	61.6k	return 0;
58	61.6k	}
59
60		/* Common initialization. */
61		static int
62		s_pngp_init(stream_state * st, bool need_prev)
63	61.6k	{
64	61.6k	stream_PNGP_state const ss = (stream_PNGP_state ) st;
65	61.6k	int bits_per_pixel = ss->Colors * ss->BitsPerComponent;
66	61.6k	long bits_per_row = (long)bits_per_pixel * ss->Columns;
67	61.6k	byte *prev_row = 0;
68
69	61.6k	#if ARCH_SIZEOF_LONG > ARCH_SIZEOF_INT
70	61.6k	if (bits_per_row > max_uint * 7L)
71	0	return ERRC; /**** WRONG ****/
72	61.6k	#endif
73	61.6k	ss->row_count = (uint) ((bits_per_row + 7) >> 3);
74	61.6k	ss->end_mask = (1 << (-bits_per_row & 7)) - 1;
75
76	61.6k	if (ss->Colors > s_PNG_max_Colors)
77	0	return ERRC; /* Too many colorants */
78
79	61.6k	if (bits_per_row < 1)
80	0	return ERRC;
81
82	61.6k	ss->bpp = (bits_per_pixel + 7) >> 3;
83	61.6k	if (need_prev) {
84	61.6k	prev_row = gs_alloc_bytes(st->memory, ss->bpp + ss->row_count,
85	61.6k	"PNGPredictor prev row");
86	61.6k	if (prev_row == 0)
87	1	return ERRC; /**** WRONG ****/
88	61.6k	memset(prev_row, 0, ss->bpp);
89	61.6k	}
90	61.6k	ss->prev_row = prev_row;
91		/* case_index is only preset for encoding */
92	61.6k	return s_PNGP_reinit(st);
93	61.6k	}
94
95		/* Initialize PNGPredictorEncode filter. */
96		static int
97		s_PNGPE_init(stream_state * st)
98	19.3k	{
99	19.3k	stream_PNGP_state const ss = (stream_PNGP_state ) st;
100
101	19.3k	return s_pngp_init(st, pngp_case_needs_prev[ss->Predictor - cNone]);
102	19.3k	}
103
104		/* Initialize PNGPredictorDecode filter. */
105		static int
106		s_PNGPD_init(stream_state * st)
107	42.2k	{
108	42.2k	return s_pngp_init(st, true);
109	42.2k	}
110
111		/* Release a PNGPredictor filter. */
112		static void
113		s_PNGP_release(stream_state *st)
114	61.6k	{
115	61.6k	stream_PNGP_state const ss = (stream_PNGP_state ) st;
116
117	61.6k	if (ss->prev_row)
118	61.6k	gs_free_object(st->memory, ss->prev_row, "PNGPredictor prev row");
119	61.6k	}
120
121		/*
122		* Process a partial buffer. We pass in current and previous pointers
123		* to both the current and preceding scan line. Note that dprev is
124		* p - bpp for encoding, q - bpp for decoding; similarly, the 'up' row
125		* is the raw data for encoding, the filtered (encoded) data for decoding.
126		* Note also that the case_index cannot be cOptimum.
127		*
128		* Uses ss->case_index; uses and updates ss->row_left, pr->ptr, pw->ptr.
129		*/
130		static int
131		paeth_predictor(int a, int b, int c)
132	60.4M	{
133		/* The definitions of ac and bc are correct, not a typo. */
134	60.4M	int ac = b - c, bc = a - c, abcc = ac + bc;
135	60.4M	int pa = (ac < 0 ? -ac : ac), pb = (bc < 0 ? -bc : bc),
136	60.4M	pc = (abcc < 0 ? -abcc : abcc);
137
138	60.4M	return (pa <= pb && pa <= pc ? a : pb <= pc ? b : c);
139	60.4M	}
140		static void
141		s_pngp_process(stream_state * st, stream_cursor_write * pw,
142		const byte * dprev, stream_cursor_read * pr,
143		const byte * upprev, const byte * up, uint count)
144	16.3M	{
145	16.3M	stream_PNGP_state const ss = (stream_PNGP_state ) st;
146	16.3M	byte *q = pw->ptr + 1;
147	16.3M	const byte *p = pr->ptr + 1;
148
149	16.3M	pr->ptr += count;
150	16.3M	pw->ptr += count;
151	16.3M	ss->row_left -= count;
152	16.3M	switch (ss->case_index) {
153	0	case cEncode + cNone:
154	2.31M	case cDecode + cNone:
155	2.31M	memcpy(q, p, count);
156	2.31M	break;
157	10.7M	case cEncode + cSub:
158	551M	for (; count; ++q, ++dprev, ++p, --count)
159	540M	q = (byte) (p - *dprev);
160	10.7M	break;
161	1.13M	case cDecode + cSub:
162	310M	for (; count; ++q, ++dprev, ++p, --count)
163	309M	q = (byte) (p + *dprev);
164	1.13M	break;
165	0	case cEncode + cUp:
166	0	for (; count; ++q, ++up, ++p, --count)
167	0	q = (byte) (p - *up);
168	0	break;
169	1.48M	case cDecode + cUp:
170	24.2M	for (; count; ++q, ++up, ++p, --count)
171	22.7M	q = (byte) (p + *up);
172	1.48M	break;
173	0	case cEncode + cAverage:
174	0	for (; count; ++q, ++dprev, ++up, ++p, --count)
175	0	q = (byte) (p - arith_rshift_1((int)dprev + (int)up));
176	0	break;
177	125k	case cDecode + cAverage:
178	14.8M	for (; count; ++q, ++dprev, ++up, ++p, --count)
179	14.7M	q = (byte) (p + arith_rshift_1((int)dprev + (int)up));
180	125k	break;
181	0	case cEncode + cPaeth:
182	0	for (; count; ++q, ++dprev, ++up, ++upprev, ++p, --count)
183	0	q = (byte) (p - paeth_predictor(dprev, up, *upprev));
184	0	break;
185	507k	case cDecode + cPaeth:
186	60.9M	for (; count; ++q, ++dprev, ++up, ++upprev, ++p, --count)
187	60.4M	q = (byte) (p + paeth_predictor(dprev, up, *upprev));
188	507k	break;
189	16.3M	}
190	16.3M	}
191
192		/* Calculate the number of bytes for the next processing step, */
193		/* the min of (input data, output data, remaining row length). */
194		static uint
195		s_pngp_count(const stream_state * st_const, const stream_cursor_read * pr,
196		const stream_cursor_write * pw)
197	12.7M	{
198	12.7M	const stream_PNGP_state *const ss_const =
199	12.7M	(const stream_PNGP_state *)st_const;
200	12.7M	uint rcount = pr->limit - pr->ptr;
201	12.7M	uint wcount = pw->limit - pw->ptr;
202	12.7M	uint row_left = ss_const->row_left;
203
204	12.7M	if (rcount < row_left)
205	7.88M	row_left = rcount;
206	12.7M	if (wcount < row_left)
207	6.73M	row_left = wcount;
208	12.7M	return row_left;
209	12.7M	}
210
211		/*
212		* Encode a buffer. Let N = ss->row_count, P = N - ss->row_left,
213		* and B = ss->bpp. Consider that bytes [-B .. -1] of every row are zero.
214		* Then:
215		* prev_row[0 .. P - 1] contain bytes -B .. P - B - 1
216		* of the current input row.
217		* ss->prev[0 .. B - 1] contain bytes P - B .. P - 1
218		* of the current input row.
219		* prev_row[P .. N + B - 1] contain bytes P - B .. N - 1
220		* of the previous input row.
221		* We must handle the edges of each row specially, by clearing ss->prev at
222		* the beginning of each row, and copying trailing bytes from ss->prev (and
223		* possibly the input) to prev_row at the end of each row.
224		*/
225		static int
226		optimum_predictor(const stream_state * st, const stream_cursor_read * pr)
227	1.30M	{
228	1.30M	return cSub;
229	1.30M	}
230		static int
231		s_PNGPE_process(stream_state * st, stream_cursor_read * pr,
232		stream_cursor_write * pw, bool last)
233	6.33M	{
234	6.33M	stream_PNGP_state const ss = (stream_PNGP_state ) st;
235	6.33M	int bpp = ss->bpp;
236	6.33M	int status = 0;
237
238	13.0M	while (pr->ptr < pr->limit) {
239	10.9M	uint count;
240
241	10.9M	if (ss->row_left == 0) {
242		/* Beginning of row, write algorithm byte. */
243	1.32M	int predictor;
244
245	1.32M	if (pw->ptr >= pw->limit) {
246	24.4k	status = 1;
247	24.4k	break;
248	24.4k	}
249	1.30M	predictor =
250	1.30M	(ss->Predictor == cOptimum ?
251	1.30M	optimum_predictor(st, pr) :
252	1.30M	ss->Predictor);
253	1.30M	*++(pw->ptr) = (byte) predictor - cNone;
254	1.30M	ss->case_index = predictor + cEncode;
255	1.30M	ss->row_left = ss->row_count;
256	1.30M	memset(ss->prev, 0, bpp);
257	1.30M	continue;
258	1.32M	}
259	9.63M	count = s_pngp_count(st, pr, pw);
260	9.63M	if (count == 0) {
261		/* We know we have input, so output must be full. */
262	4.18M	status = 1;
263	4.18M	break;
264	5.44M	} {
265	5.44M	byte *up = ss->prev_row + bpp + ss->row_count - ss->row_left;
266	5.44M	uint n = min(count, bpp);
267
268		/* Process bytes whose predecessors are in prev. */
269	5.44M	s_pngp_process(st, pw, ss->prev, pr, up - bpp, up, n);
270	5.44M	if (ss->row_left == 0) {
271	80.5k	if (ss->prev_row) {
272	80.5k	memcpy(up - bpp, ss->prev, bpp);
273	80.5k	memcpy(up, pr->ptr - (n - 1), n);
274	80.5k	}
275	80.5k	continue;
276	80.5k	}
277	5.36M	if (ss->prev_row)
278	5.36M	memcpy(up - bpp, ss->prev, n);
279	5.36M	if (n < bpp) {
280		/*
281		* We didn't have both enough input data and enough output
282		* space to use up all of prev. Shift more data into prev
283		* and exit.
284		*/
285	30.0k	int prev_left = bpp - n;
286
287	30.0k	memmove(ss->prev, ss->prev + n, prev_left);
288	30.0k	memcpy(ss->prev + prev_left, pr->ptr - (n - 1), n);
289	30.0k	if (pw->ptr >= pw->limit && pr->ptr < pr->limit)
290	9.37k	status = 1;
291	30.0k	break;
292	30.0k	}
293		/* Process bytes whose predecessors are in the input. */
294		/* We know we have at least bpp input and output bytes, */
295		/* and that n = bpp. */
296	5.33M	count -= bpp;
297	5.33M	s_pngp_process(st, pw, pr->ptr - (bpp - 1), pr,
298	5.33M	up, up + bpp, count);
299	5.33M	memcpy(ss->prev, pr->ptr - (bpp - 1), bpp);
300	5.33M	if (ss->prev_row) {
301	5.33M	memcpy(up, pr->ptr - (bpp + count - 1), count);
302	5.33M	if (ss->row_left == 0)
303	1.21M	memcpy(up + count, ss->prev, bpp);
304	5.33M	}
305	5.33M	}
306	5.33M	}
307	6.33M	return status;
308	6.33M	}
309
310		/*
311		* Decode a buffer. Let N = ss->row_count, P = N - ss->row_left,
312		* and B = ss->bpp. Consider that bytes [-B .. -1] of every row are zero.
313		* Then:
314		* prev_row[0 .. P - 1] contain bytes -B .. P - B - 1
315		* of the current output row.
316		* ss->prev[0 .. B - 1] contain bytes P - B .. P - 1
317		* of the current output row.
318		* prev_row[P .. N + B - 1] contain bytes P - B .. N - 1
319		* of the previous output row.
320		* We must handle the edges of each row specially, by clearing ss->prev at
321		* the beginning of each row, and copying trailing bytes from ss->prev (and
322		* possibly the output) to prev_row at the end of each row.
323		*/
324		static int
325		s_PNGPD_process(stream_state * st, stream_cursor_read * pr,
326		stream_cursor_write * pw, bool last)
327	557k	{
328	557k	stream_PNGP_state const ss = (stream_PNGP_state ) st;
329	557k	int bpp = ss->bpp;
330	557k	int status = 0;
331
332	5.83M	while (pr->ptr < pr->limit) {
333	5.51M	uint count;
334
335	5.51M	if (ss->row_left == 0) {
336		/* Beginning of row, read algorithm byte. */
337	2.41M	int predictor = pr->ptr[1];
338
339	2.41M	if (predictor >= cOptimum - cNone) {
340	10.1k	status = ERRC;
341	10.1k	break;
342	10.1k	}
343	2.40M	pr->ptr++;
344	2.40M	ss->case_index = predictor + cNone + cDecode;
345	2.40M	ss->row_left = ss->row_count;
346	2.40M	memset(ss->prev, 0, bpp);
347	2.40M	continue;
348	2.41M	}
349	3.10M	count = s_pngp_count(st, pr, pw);
350	3.10M	if (count == 0) {
351		/* We know we have input, so output must be full. */
352	230k	status = 1;
353	230k	break;
354	2.87M	} {
355	2.87M	byte *up = ss->prev_row + bpp + ss->row_count - ss->row_left;
356	2.87M	uint n = min(count, bpp);
357
358		/* Process bytes whose predecessors are in prev. */
359	2.87M	s_pngp_process(st, pw, ss->prev, pr, up - bpp, up, n);
360	2.87M	if (ss->row_left == 0) {
361	179k	if (ss->prev_row) {
362	179k	memcpy(up - bpp, ss->prev, bpp);
363	179k	memcpy(up, pw->ptr - (n - 1), n);
364	179k	}
365	179k	continue;
366	179k	}
367	2.69M	if (ss->prev_row)
368	2.69M	memcpy(up - bpp, ss->prev, n);
369	2.69M	if (n < bpp) {
370		/*
371		* We didn't have both enough input data and enough output
372		* space to use up all of prev. Shift more data into prev
373		* and exit.
374		*/
375	3.38k	int prev_left = bpp - n;
376
377	3.38k	memmove(ss->prev, ss->prev + n, prev_left);
378	3.38k	memcpy(ss->prev + prev_left, pw->ptr - (n - 1), n);
379	3.38k	if (pw->ptr >= pw->limit && pr->ptr < pr->limit)
380	190	status = 1;
381	3.38k	break;
382	3.38k	}
383		/* Process bytes whose predecessors are in the output. */
384		/* We know we have at least bpp input and output bytes, */
385		/* and that n = bpp. */
386	2.69M	count -= bpp;
387	2.69M	s_pngp_process(st, pw, pw->ptr - (bpp - 1), pr,
388	2.69M	up, up + bpp, count);
389	2.69M	memcpy(ss->prev, pw->ptr - (bpp - 1), bpp);
390	2.69M	if (ss->prev_row) {
391	2.69M	memcpy(up, pw->ptr - (bpp + count - 1), count);
392	2.69M	if (ss->row_left == 0)
393	2.22M	memcpy(up + count, ss->prev, bpp);
394	2.69M	}
395	2.69M	}
396	2.69M	}
397	557k	return status;
398	557k	}
399
400		/* Stream templates */
401		const stream_template s_PNGPE_template = {
402		&st_PNGP_state, s_PNGPE_init, s_PNGPE_process, 1, 1, s_PNGP_release,
403		s_PNGP_set_defaults, s_PNGP_reinit
404		};
405		const stream_template s_PNGPD_template = {
406		&st_PNGP_state, s_PNGPD_init, s_PNGPD_process, 1, 1, s_PNGP_release,
407		s_PNGP_set_defaults, s_PNGP_reinit
408		};