/src/ghostpdl/base/gsutil.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.
*/


/* Utilities for Ghostscript library */

#include "string_.h"
#include "memory_.h"
#include "gstypes.h"
#include "gserrors.h"
#include "gsmemory.h"   /* for init procedure */
#include "gsrect.h"   /* for prototypes */
#include "gsuid.h"
#include "gsutil.h"   /* for prototypes */
#include "gxsync.h"   /* for gx_monitor_t */

/* ------ Unique IDs ------ */

/* This is used by multiple threads, so lock around updates */
ulong
gs_next_ids(const gs_memory_t *mem, uint count)
{
    gs_lib_ctx_core_t *core = mem->gs_lib_ctx->core;
    ulong id;

    gx_monitor_enter((gx_monitor_t *)(core->monitor));
    id = core->gs_next_id;
    core->gs_next_id += count;
    gx_monitor_leave((gx_monitor_t *)(core->monitor));

    return id;
}

/* ------ Memory utilities ------ */

/* Transpose an 8 x 8 block of bits.  line_size is the raster of */
/* the input data.  dist is the distance between output bytes. */

void
memflip8x8(const byte * inp, int line_size, byte * outp, int dist)
{
    uint aceg, bdfh;

    {
        const byte *ptr4 = inp + (line_size << 2);
        const int ls2 = line_size << 1;

        aceg = ((uint)*inp) | ((uint)inp[ls2] << 8) |
            ((uint)*ptr4 << 16) | ((uint)ptr4[ls2] << 24);
        inp += line_size, ptr4 += line_size;
        bdfh = ((uint)*inp) | ((uint)inp[ls2] << 8) |
            ((uint)*ptr4 << 16) | ((uint)ptr4[ls2] << 24);
    }

    /* Check for all 8 bytes being the same. */
    /* This is especially worth doing for the case where all are zero. */
    if (aceg == bdfh && (aceg >> 8) == (aceg & 0xffffff)) {
        if (aceg == 0 || aceg == 0xffffffff)
            goto store;
        *outp = (byte)-(int)((aceg >> 7) & 1);
        outp[dist] = (byte)-(int)((aceg >> 6) & 1);
        outp += dist << 1;
        *outp = (byte)-(int)((aceg >> 5) & 1);
        outp[dist] = (byte)-(int)((aceg >> 4) & 1);
        outp += dist << 1;
        *outp = (byte)-(int)((aceg >> 3) & 1);
        outp[dist] = (byte)-(int)((aceg >> 2) & 1);
        outp += dist << 1;
        *outp = (byte)-(int)((aceg >> 1) & 1);
        outp[dist] = (byte)-(int)(aceg & 1);
        return;
    } {
        register uint temp;

/* Transpose a block of bits between registers. */
#define TRANSPOSE(r,s,mask,shift)\
  (r ^= (temp = ((s >> shift) ^ r) & mask),\
   s ^= temp << shift)

/* Transpose blocks of 4 x 4 */
        TRANSPOSE(aceg, aceg, 0x00000f0f, 20);
        TRANSPOSE(bdfh, bdfh, 0x00000f0f, 20);

/* Transpose blocks of 2 x 2 */
        TRANSPOSE(aceg, aceg, 0x00330033, 10);
        TRANSPOSE(bdfh, bdfh, 0x00330033, 10);

/* Transpose blocks of 1 x 1 */
        TRANSPOSE(aceg, bdfh, 0x55555555, 1);

#undef TRANSPOSE
    }

  store:
    *outp = (byte)aceg;
    outp[dist] = (byte)bdfh;
    outp += dist << 1;
    *outp = (byte)(aceg >>= 8);
    outp[dist] = (byte)(bdfh >>= 8);
    outp += dist << 1;
    *outp = (byte)(aceg >>= 8);
    outp[dist] = (byte)(bdfh >>= 8);
    outp += dist << 1;
    *outp = (byte)(aceg >> 8);
    outp[dist] = (byte)(bdfh >> 8);
}

#ifdef PACIFY_VALGRIND
void
memflip8x8_eol(const byte * inp, int line_size, byte * outp, int dist, int bits)
{
    uint aceg, bdfh;
    uint mask;

    {
        const byte *ptr4 = inp + (line_size << 2);
        const int ls2 = line_size << 1;

        aceg = ((uint)*inp) | ((uint)inp[ls2] << 8) |
            ((uint)*ptr4 << 16) | ((uint)ptr4[ls2] << 24);
        inp += line_size, ptr4 += line_size;
        bdfh = ((uint)*inp) | ((uint)inp[ls2] << 8) |
            ((uint)*ptr4 << 16) | ((uint)ptr4[ls2] << 24);
    }

    /* Keep just the defined bits */
    mask = (0xff00>>(bits&7)) & 0xff;
    mask |= mask<<8;
    mask |= mask<<16;
    aceg &= mask;
    bdfh &= mask;

    /* Check for all 8 bytes being the same. */
    /* This is especially worth doing for the case where all are zero. */
    if (aceg == bdfh && (aceg >> 8) == (aceg & 0xffffff)) {
        if (aceg == 0 || aceg == 0xffffffff)
            goto store;
        *outp = (byte)-(int)((aceg >> 7) & 1);
        outp[dist] = (byte)-(int)((aceg >> 6) & 1);
        outp += dist << 1;
        *outp = (byte)-(int)((aceg >> 5) & 1);
        outp[dist] = (byte)-(int)((aceg >> 4) & 1);
        outp += dist << 1;
        *outp = (byte)-(int)((aceg >> 3) & 1);
        outp[dist] = (byte)-(int)((aceg >> 2) & 1);
        outp += dist << 1;
        *outp = (byte)-(int)((aceg >> 1) & 1);
        outp[dist] = (byte)-(int)(aceg & 1);
        return;
    } {
        register uint temp;

/* Transpose a block of bits between registers. */
#define TRANSPOSE(r,s,mask,shift)\
  (r ^= (temp = ((s >> shift) ^ r) & mask),\
   s ^= temp << shift)

/* Transpose blocks of 4 x 4 */
        TRANSPOSE(aceg, aceg, 0x00000f0f, 20);
        TRANSPOSE(bdfh, bdfh, 0x00000f0f, 20);

/* Transpose blocks of 2 x 2 */
        TRANSPOSE(aceg, aceg, 0x00330033, 10);
        TRANSPOSE(bdfh, bdfh, 0x00330033, 10);

/* Transpose blocks of 1 x 1 */
        TRANSPOSE(aceg, bdfh, 0x55555555, 1);

#undef TRANSPOSE
    }

  store:
    *outp = (byte)aceg;
    outp[dist] = (byte)bdfh;
    outp += dist << 1;
    *outp = (byte)(aceg >>= 8);
    outp[dist] = (byte)(bdfh >>= 8);
    outp += dist << 1;
    *outp = (byte)(aceg >>= 8);
    outp[dist] = (byte)(bdfh >>= 8);
    outp += dist << 1;
    *outp = (byte)(aceg >> 8);
    outp[dist] = (byte)(bdfh >> 8);
}
#endif

/* Get an unsigned, big-endian 32-bit value. */
ulong
get_u32_msb(const byte *p)
{
    return ((uint)p[0] << 24) + ((uint)p[1] << 16) + ((uint)p[2] << 8) + p[3];
}

/* Put an unsigned, big-endian 32-bit value. */
void
put_u32_msb(byte *p, const ulong n, const int offs)
{
    (p + offs)[0] = n >> 24 & 255;
    (p + offs)[1] = n >> 16 & 255;
    (p + offs)[2] = n >> 8  & 255;
    (p + offs)[3] = n & 255;
}

/* ------ String utilities ------ */

/* Compare two strings, returning -1 if the first is less, */
/* 0 if they are equal, and 1 if first is greater. */
/* We can't use memcmp, because we always use unsigned characters. */
int
bytes_compare(const byte * s1, uint len1, const byte * s2, uint len2)
{
    register uint len = len1;

    if (len2 < len)
        len = len2;
    {
        register const byte *p1 = s1;
        register const byte *p2 = s2;

        while (len--)
            if (*p1++ != *p2++)
                return (p1[-1] < p2[-1] ? -1 : 1);
    }
    /* Now check for differing lengths */
    return (len1 == len2 ? 0 : len1 < len2 ? -1 : 1);
}

/* Test whether a string matches a pattern with wildcards. */
/* '*' = any substring, '?' = any character, '\' quotes next character. */
const string_match_params string_match_params_default = {
    '*', '?', '\\', false, false
};

bool
string_match(const byte * str, uint len, const byte * pstr, uint plen,
             register const string_match_params * psmp)
{
    const byte *pback = 0;
    const byte *spback = 0; /* initialized only to pacify gcc */
    const byte *p = pstr, *pend = pstr + plen;
    const byte *sp = str, *spend = str + len;

    if (psmp == 0)
        psmp = &string_match_params_default;
  again:while (p < pend) {
        register byte ch = *p;

        if (ch == psmp->any_substring) {
            pback = ++p, spback = sp;
            continue;
        } else if (ch == psmp->any_char) {
            if (sp == spend)
                return false; /* str too short */
            p++, sp++;
            continue;
        } else if (ch == psmp->quote_next) {
            if (++p == pend)
                return true; /* bad pattern */
            ch = *p;
        }
        if (sp == spend)
            return false; /* str too short */
        if (*sp == ch ||
            (psmp->ignore_case && (*sp ^ ch) == 0x20 &&
             (ch &= ~0x20) >= 0x41 && ch <= 0x5a) ||
             (psmp->slash_equiv && ((ch == '\\' && *sp == '/') ||
             (ch == '/' && *sp == '\\')))
            )
            p++, sp++;
        else if (pback == 0)
            return false;  /* no * to back up to */
        else {
            sp = ++spback;
            p = pback;
        }
    }
    if (sp < spend) {   /* We got a match, but there are chars left over. */
        /* If we can back up, back up to the only place that */
        /* could produce a complete match, otherwise fail. */
        if (pback == 0)
            return false;
        p = pback;
        pback = 0;
        sp = spend - (pend - p);
        goto again;
    }
    return true;
}

/* ------ UID utilities ------ */

/* Compare two UIDs for equality. */
/* We know that at least one of them is valid. */
bool
uid_equal(register const gs_uid * puid1, register const gs_uid * puid2)
{
    if (puid1->id != puid2->id)
        return false;
    if (puid1->id >= 0)
        return true;    /* UniqueID */
    return
        !memcmp((const char *)puid1->xvalues,
                (const char *)puid2->xvalues,
                (uint) - (puid1->id) * sizeof(long));
}

/* Copy the XUID data for a uid, if needed, updating the uid in place. */
int
uid_copy(gs_uid *puid, gs_memory_t *mem, client_name_t cname)
{
    if (uid_is_XUID(puid)) {
        uint xsize = uid_XUID_size(puid);
        long *xvalues = (long *)
            gs_alloc_byte_array(mem, xsize, sizeof(long), cname);

        if (xvalues == 0)
            return_error(gs_error_VMerror);
        memcpy(xvalues, uid_XUID_values(puid), xsize * sizeof(long));
        puid->xvalues = xvalues;
    }
    return 0;
}

/* ------ Rectangle utilities ------ */

/*
 * Calculate the difference of two rectangles, a list of up to 4 rectangles.
 * Return the number of rectangles in the list, and set the first rectangle
 * to the intersection.
 */
int
int_rect_difference(gs_int_rect * outer, const gs_int_rect * inner,
                    gs_int_rect * diffs /*[4] */ )
{
    int x0 = outer->p.x, y0 = outer->p.y;
    int x1 = outer->q.x, y1 = outer->q.y;
    int count = 0;

    if (y0 < inner->p.y) {
        diffs[0].p.x = x0, diffs[0].p.y = y0;
        diffs[0].q.x = x1, diffs[0].q.y = min(y1, inner->p.y);
        outer->p.y = y0 = diffs[0].q.y;
        ++count;
    }
    if (y1 > inner->q.y) {
        diffs[count].p.x = x0, diffs[count].p.y = max(y0, inner->q.y);
        diffs[count].q.x = x1, diffs[count].q.y = y1;
        outer->q.y = y1 = diffs[count].p.y;
        ++count;
    }
    if (x0 < inner->p.x) {
        diffs[0].p.x = x0, diffs[0].p.y = y0;
        diffs[0].q.x = min(x1, inner->p.x), diffs[0].q.y = y1;
        outer->p.x = x0 = diffs[count].q.x;
        ++count;
    }
    if (x1 > inner->q.x) {
        diffs[count].p.x = max(x0, inner->q.x), diffs[count].p.y = y0;
        diffs[count].q.x = x1, diffs[count].q.y = y1;
        outer->q.x = x1 = diffs[count].p.x;
        ++count;
    }
    return count;
}

Coverage Report

Created: 2025-06-10 06:59

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		/* Utilities for Ghostscript library */
18
19		#include "string_.h"
20		#include "memory_.h"
21		#include "gstypes.h"
22		#include "gserrors.h"
23		#include "gsmemory.h" /* for init procedure */
24		#include "gsrect.h" /* for prototypes */
25		#include "gsuid.h"
26		#include "gsutil.h" /* for prototypes */
27		#include "gxsync.h" /* for gx_monitor_t */
28
29		/* ------ Unique IDs ------ */
30
31		/* This is used by multiple threads, so lock around updates */
32		ulong
33		gs_next_ids(const gs_memory_t *mem, uint count)
34	15.7M	{
35	15.7M	gs_lib_ctx_core_t *core = mem->gs_lib_ctx->core;
36	15.7M	ulong id;
37
38	15.7M	gx_monitor_enter((gx_monitor_t *)(core->monitor));
39	15.7M	id = core->gs_next_id;
40	15.7M	core->gs_next_id += count;
41	15.7M	gx_monitor_leave((gx_monitor_t *)(core->monitor));
42
43	15.7M	return id;
44	15.7M	}
45
46		/* ------ Memory utilities ------ */
47
48		/* Transpose an 8 x 8 block of bits. line_size is the raster of */
49		/* the input data. dist is the distance between output bytes. */
50
51		void
52		memflip8x8(const byte * inp, int line_size, byte * outp, int dist)
53	43.5k	{
54	43.5k	uint aceg, bdfh;
55
56	43.5k	{
57	43.5k	const byte *ptr4 = inp + (line_size << 2);
58	43.5k	const int ls2 = line_size << 1;
59
60	43.5k	aceg = ((uint)*inp) \| ((uint)inp[ls2] << 8) \|
61	43.5k	((uint)*ptr4 << 16) \| ((uint)ptr4[ls2] << 24);
62	43.5k	inp += line_size, ptr4 += line_size;
63	43.5k	bdfh = ((uint)*inp) \| ((uint)inp[ls2] << 8) \|
64	43.5k	((uint)*ptr4 << 16) \| ((uint)ptr4[ls2] << 24);
65	43.5k	}
66
67		/* Check for all 8 bytes being the same. */
68		/* This is especially worth doing for the case where all are zero. */
69	43.5k	if (aceg == bdfh && (aceg >> 8) == (aceg & 0xffffff)) {
70	17.9k	if (aceg == 0 \|\| aceg == 0xffffffff)
71	17.3k	goto store;
72	619	*outp = (byte)-(int)((aceg >> 7) & 1);
73	619	outp[dist] = (byte)-(int)((aceg >> 6) & 1);
74	619	outp += dist << 1;
75	619	*outp = (byte)-(int)((aceg >> 5) & 1);
76	619	outp[dist] = (byte)-(int)((aceg >> 4) & 1);
77	619	outp += dist << 1;
78	619	*outp = (byte)-(int)((aceg >> 3) & 1);
79	619	outp[dist] = (byte)-(int)((aceg >> 2) & 1);
80	619	outp += dist << 1;
81	619	*outp = (byte)-(int)((aceg >> 1) & 1);
82	619	outp[dist] = (byte)-(int)(aceg & 1);
83	619	return;
84	25.5k	} {
85	25.5k	register uint temp;
86
87		/* Transpose a block of bits between registers. */
88	25.5k	#define TRANSPOSE(r,s,mask,shift)\
89	127k	(r ^= (temp = ((s >> shift) ^ r) & mask),\
90	127k	s ^= temp << shift)
91
92		/* Transpose blocks of 4 x 4 */
93	25.5k	TRANSPOSE(aceg, aceg, 0x00000f0f, 20);
94	25.5k	TRANSPOSE(bdfh, bdfh, 0x00000f0f, 20);
95
96		/* Transpose blocks of 2 x 2 */
97	25.5k	TRANSPOSE(aceg, aceg, 0x00330033, 10);
98	25.5k	TRANSPOSE(bdfh, bdfh, 0x00330033, 10);
99
100		/* Transpose blocks of 1 x 1 */
101	25.5k	TRANSPOSE(aceg, bdfh, 0x55555555, 1);
102
103	25.5k	#undef TRANSPOSE
104	25.5k	}
105
106	42.8k	store:
107	42.8k	*outp = (byte)aceg;
108	42.8k	outp[dist] = (byte)bdfh;
109	42.8k	outp += dist << 1;
110	42.8k	*outp = (byte)(aceg >>= 8);
111	42.8k	outp[dist] = (byte)(bdfh >>= 8);
112	42.8k	outp += dist << 1;
113	42.8k	*outp = (byte)(aceg >>= 8);
114	42.8k	outp[dist] = (byte)(bdfh >>= 8);
115	42.8k	outp += dist << 1;
116	42.8k	*outp = (byte)(aceg >> 8);
117	42.8k	outp[dist] = (byte)(bdfh >> 8);
118	42.8k	}
119
120		#ifdef PACIFY_VALGRIND
121		void
122		memflip8x8_eol(const byte * inp, int line_size, byte * outp, int dist, int bits)
123	24.6k	{
124	24.6k	uint aceg, bdfh;
125	24.6k	uint mask;
126
127	24.6k	{
128	24.6k	const byte *ptr4 = inp + (line_size << 2);
129	24.6k	const int ls2 = line_size << 1;
130
131	24.6k	aceg = ((uint)*inp) \| ((uint)inp[ls2] << 8) \|
132	24.6k	((uint)*ptr4 << 16) \| ((uint)ptr4[ls2] << 24);
133	24.6k	inp += line_size, ptr4 += line_size;
134	24.6k	bdfh = ((uint)*inp) \| ((uint)inp[ls2] << 8) \|
135	24.6k	((uint)*ptr4 << 16) \| ((uint)ptr4[ls2] << 24);
136	24.6k	}
137
138		/* Keep just the defined bits */
139	24.6k	mask = (0xff00>>(bits&7)) & 0xff;
140	24.6k	mask \|= mask<<8;
141	24.6k	mask \|= mask<<16;
142	24.6k	aceg &= mask;
143	24.6k	bdfh &= mask;
144
145		/* Check for all 8 bytes being the same. */
146		/* This is especially worth doing for the case where all are zero. */
147	24.6k	if (aceg == bdfh && (aceg >> 8) == (aceg & 0xffffff)) {
148	7.37k	if (aceg == 0 \|\| aceg == 0xffffffff)
149	6.36k	goto store;
150	1.00k	*outp = (byte)-(int)((aceg >> 7) & 1);
151	1.00k	outp[dist] = (byte)-(int)((aceg >> 6) & 1);
152	1.00k	outp += dist << 1;
153	1.00k	*outp = (byte)-(int)((aceg >> 5) & 1);
154	1.00k	outp[dist] = (byte)-(int)((aceg >> 4) & 1);
155	1.00k	outp += dist << 1;
156	1.00k	*outp = (byte)-(int)((aceg >> 3) & 1);
157	1.00k	outp[dist] = (byte)-(int)((aceg >> 2) & 1);
158	1.00k	outp += dist << 1;
159	1.00k	*outp = (byte)-(int)((aceg >> 1) & 1);
160	1.00k	outp[dist] = (byte)-(int)(aceg & 1);
161	1.00k	return;
162	17.2k	} {
163	17.2k	register uint temp;
164
165		/* Transpose a block of bits between registers. */
166	17.2k	#define TRANSPOSE(r,s,mask,shift)\
167	86.3k	(r ^= (temp = ((s >> shift) ^ r) & mask),\
168	86.3k	s ^= temp << shift)
169
170		/* Transpose blocks of 4 x 4 */
171	17.2k	TRANSPOSE(aceg, aceg, 0x00000f0f, 20);
172	17.2k	TRANSPOSE(bdfh, bdfh, 0x00000f0f, 20);
173
174		/* Transpose blocks of 2 x 2 */
175	17.2k	TRANSPOSE(aceg, aceg, 0x00330033, 10);
176	17.2k	TRANSPOSE(bdfh, bdfh, 0x00330033, 10);
177
178		/* Transpose blocks of 1 x 1 */
179	17.2k	TRANSPOSE(aceg, bdfh, 0x55555555, 1);
180
181	17.2k	#undef TRANSPOSE
182	17.2k	}
183
184	23.6k	store:
185	23.6k	*outp = (byte)aceg;
186	23.6k	outp[dist] = (byte)bdfh;
187	23.6k	outp += dist << 1;
188	23.6k	*outp = (byte)(aceg >>= 8);
189	23.6k	outp[dist] = (byte)(bdfh >>= 8);
190	23.6k	outp += dist << 1;
191	23.6k	*outp = (byte)(aceg >>= 8);
192	23.6k	outp[dist] = (byte)(bdfh >>= 8);
193	23.6k	outp += dist << 1;
194	23.6k	*outp = (byte)(aceg >> 8);
195	23.6k	outp[dist] = (byte)(bdfh >> 8);
196	23.6k	}
197		#endif
198
199		/* Get an unsigned, big-endian 32-bit value. */
200		ulong
201		get_u32_msb(const byte *p)
202	24.6M	{
203	24.6M	return ((uint)p[0] << 24) + ((uint)p[1] << 16) + ((uint)p[2] << 8) + p[3];
204	24.6M	}
205
206		/* Put an unsigned, big-endian 32-bit value. */
207		void
208		put_u32_msb(byte *p, const ulong n, const int offs)
209	0	{
210	0	(p + offs)[0] = n >> 24 & 255;
211	0	(p + offs)[1] = n >> 16 & 255;
212	0	(p + offs)[2] = n >> 8 & 255;
213	0	(p + offs)[3] = n & 255;
214	0	}
215
216		/* ------ String utilities ------ */
217
218		/* Compare two strings, returning -1 if the first is less, */
219		/* 0 if they are equal, and 1 if first is greater. */
220		/* We can't use memcmp, because we always use unsigned characters. */
221		int
222		bytes_compare(const byte * s1, uint len1, const byte * s2, uint len2)
223	17.1M	{
224	17.1M	register uint len = len1;
225
226	17.1M	if (len2 < len)
227	4.76M	len = len2;
228	17.1M	{
229	17.1M	register const byte *p1 = s1;
230	17.1M	register const byte *p2 = s2;
231
232	82.4M	while (len--)
233	76.2M	if (p1++ != p2++)
234	11.0M	return (p1[-1] < p2[-1] ? -1 : 1);
235	17.1M	}
236		/* Now check for differing lengths */
237	6.15M	return (len1 == len2 ? 0 : len1 < len2 ? -1 : 1);
238	17.1M	}
239
240		/* Test whether a string matches a pattern with wildcards. */
241		/* '' = any substring, '?' = any character, '\' quotes next character. /
242		const string_match_params string_match_params_default = {
243		'*', '?', '\\', false, false
244		};
245
246		bool
247		string_match(const byte * str, uint len, const byte * pstr, uint plen,
248		register const string_match_params * psmp)
249	7.95M	{
250	7.95M	const byte *pback = 0;
251	7.95M	const byte spback = 0; / initialized only to pacify gcc */
252	7.95M	const byte p = pstr, pend = pstr + plen;
253	7.95M	const byte sp = str, spend = str + len;
254
255	7.95M	if (psmp == 0)
256	7.95M	psmp = &string_match_params_default;
257	54.2M	again:while (p < pend) {
258	54.1M	register byte ch = *p;
259
260	54.1M	if (ch == psmp->any_substring) {
261	19.7k	pback = ++p, spback = sp;
262	19.7k	continue;
263	54.1M	} else if (ch == psmp->any_char) {
264	0	if (sp == spend)
265	0	return false; /* str too short */
266	0	p++, sp++;
267	0	continue;
268	54.1M	} else if (ch == psmp->quote_next) {
269	0	if (++p == pend)
270	0	return true; /* bad pattern */
271	0	ch = *p;
272	0	}
273	54.1M	if (sp == spend)
274	0	return false; /* str too short */
275	54.1M	if (*sp == ch \|\|
276	54.1M	(psmp->ignore_case && (*sp ^ ch) == 0x20 &&
277	7.93M	(ch &= ~0x20) >= 0x41 && ch <= 0x5a) \|\|
278	54.1M	(psmp->slash_equiv && ((ch == '\\' && *sp == '/') \|\|
279	0	(ch == '/' && *sp == '\\')))
280	54.1M	)
281	46.2M	p++, sp++;
282	7.93M	else if (pback == 0)
283	7.93M	return false; /* no * to back up to */
284	0	else {
285	0	sp = ++spback;
286	0	p = pback;
287	0	}
288	54.1M	}
289	39.4k	if (sp < spend) { /* We got a match, but there are chars left over. */
290		/* If we can back up, back up to the only place that */
291		/* could produce a complete match, otherwise fail. */
292	19.7k	if (pback == 0)
293	0	return false;
294	19.7k	p = pback;
295	19.7k	pback = 0;
296	19.7k	sp = spend - (pend - p);
297	19.7k	goto again;
298	19.7k	}
299	19.7k	return true;
300	39.4k	}
301
302		/* ------ UID utilities ------ */
303
304		/* Compare two UIDs for equality. */
305		/* We know that at least one of them is valid. */
306		bool
307		uid_equal(register const gs_uid * puid1, register const gs_uid * puid2)
308	951k	{
309	951k	if (puid1->id != puid2->id)
310	146k	return false;
311	804k	if (puid1->id >= 0)
312	245	return true; /* UniqueID */
313	804k	return
314	804k	!memcmp((const char *)puid1->xvalues,
315	804k	(const char *)puid2->xvalues,
316	804k	(uint) - (puid1->id) * sizeof(long));
317	804k	}
318
319		/* Copy the XUID data for a uid, if needed, updating the uid in place. */
320		int
321		uid_copy(gs_uid puid, gs_memory_t mem, client_name_t cname)
322	222k	{
323	222k	if (uid_is_XUID(puid)) {
324	7.85k	uint xsize = uid_XUID_size(puid);
325	7.85k	long xvalues = (long )
326	7.85k	gs_alloc_byte_array(mem, xsize, sizeof(long), cname);
327
328	7.85k	if (xvalues == 0)
329	0	return_error(gs_error_VMerror);
330	7.85k	memcpy(xvalues, uid_XUID_values(puid), xsize * sizeof(long));
331	7.85k	puid->xvalues = xvalues;
332	7.85k	}
333	222k	return 0;
334	222k	}
335
336		/* ------ Rectangle utilities ------ */
337
338		/*
339		* Calculate the difference of two rectangles, a list of up to 4 rectangles.
340		* Return the number of rectangles in the list, and set the first rectangle
341		* to the intersection.
342		*/
343		int
344		int_rect_difference(gs_int_rect * outer, const gs_int_rect * inner,
345		gs_int_rect * diffs /[4] / )
346	0	{
347	0	int x0 = outer->p.x, y0 = outer->p.y;
348	0	int x1 = outer->q.x, y1 = outer->q.y;
349	0	int count = 0;
350
351	0	if (y0 < inner->p.y) {
352	0	diffs[0].p.x = x0, diffs[0].p.y = y0;
353	0	diffs[0].q.x = x1, diffs[0].q.y = min(y1, inner->p.y);
354	0	outer->p.y = y0 = diffs[0].q.y;
355	0	++count;
356	0	}
357	0	if (y1 > inner->q.y) {
358	0	diffs[count].p.x = x0, diffs[count].p.y = max(y0, inner->q.y);
359	0	diffs[count].q.x = x1, diffs[count].q.y = y1;
360	0	outer->q.y = y1 = diffs[count].p.y;
361	0	++count;
362	0	}
363	0	if (x0 < inner->p.x) {
364	0	diffs[0].p.x = x0, diffs[0].p.y = y0;
365	0	diffs[0].q.x = min(x1, inner->p.x), diffs[0].q.y = y1;
366	0	outer->p.x = x0 = diffs[count].q.x;
367	0	++count;
368	0	}
369	0	if (x1 > inner->q.x) {
370	0	diffs[count].p.x = max(x0, inner->q.x), diffs[count].p.y = y0;
371	0	diffs[count].q.x = x1, diffs[count].q.y = y1;
372	0	outer->q.x = x1 = diffs[count].p.x;
373	0	++count;
374	0	}
375	0	return count;
376	0	}