/src/ghostpdl/base/gscicach.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.
*/


/* A color index cache. */
#include "gx.h"
#include "gserrors.h"
#include "gsccolor.h"
#include "gxcspace.h"
#include "gxdcolor.h"
#include "gscicach.h"
#include "memory_.h"

#define COLOR_INDEX_CACHE_SIZE 256
#define COLOR_INDEX_CACHE_CHAINS (COLOR_INDEX_CACHE_SIZE / 16)

typedef struct gs_color_index_cache_elem_s gs_color_index_cache_elem_t;

struct gs_color_index_cache_elem_s {
    union _color {
      gx_color_index cindex;
      ushort devn[GS_CLIENT_COLOR_MAX_COMPONENTS];
    } color;
    gx_device_color_type color_type;
    uint chain;
    uint prev, next; /* NULL for unused. */
    uint touch_prev, touch_next;
    bool frac_values_done;
};

struct gs_color_index_cache_s {
    const gs_color_space *direct_space;
    gs_gstate *pgs;
    gx_device *dev;
    gx_device *trans_dev;
    int client_num_components;
    int device_num_components;
    gs_memory_t *memory;
    int used;
    gs_color_index_cache_elem_t *buf;
    uint recent_touch;
    float *paint_values;
    frac31 *frac_values;
    int chains[COLOR_INDEX_CACHE_CHAINS];
    /* Note : the 0th element of buf, paint_values, frac_values is never used,
       because we consider the index 0 as NULL
       just for a faster initialization. */
#   define MYNULL 0
};

gs_private_st_ptrs6(st_color_index_cache, gs_color_index_cache_t, "gs_color_index_cache_t",
                    gs_color_index_cache_elem_ptrs, gs_color_index_cache_reloc_ptrs,
                    direct_space, memory, buf, paint_values, frac_values, trans_dev);

gs_color_index_cache_t *
gs_color_index_cache_create(gs_memory_t *memory, const gs_color_space *direct_space, gx_device *dev,
                            gs_gstate *pgs, bool need_frac, gx_device *trans_dev)
{
    int client_num_components = cs_num_components(direct_space);
    int device_num_components = trans_dev->color_info.num_components;
    gs_color_index_cache_elem_t *buf = ( gs_color_index_cache_elem_t *)gs_alloc_byte_array(memory, COLOR_INDEX_CACHE_SIZE,
                    sizeof(gs_color_index_cache_elem_t), "gs_color_index_cache_create");
    float *paint_values = (float *)gs_alloc_byte_array(memory, COLOR_INDEX_CACHE_SIZE * client_num_components,
                    sizeof(float), "gs_color_index_cache_create");
    frac31 *frac_values = (need_frac ? (frac31 *)gs_alloc_byte_array(memory, COLOR_INDEX_CACHE_SIZE * device_num_components,
                                            sizeof(frac31), "gs_color_index_cache_create") : NULL);
    gs_color_index_cache_t *pcic = gs_alloc_struct(memory, gs_color_index_cache_t, &st_color_index_cache, "gs_color_index_cache_create");

    if (buf == NULL || paint_values == NULL || (need_frac && frac_values == NULL) || pcic == NULL) {
        gs_free_object(memory, buf, "gs_color_index_cache_create");
        gs_free_object(memory, paint_values, "gs_color_index_cache_create");
        gs_free_object(memory, frac_values, "gs_color_index_cache_create");
        gs_free_object(memory, pcic, "gs_color_index_cache_create");
        return NULL;
    }
    memset(pcic, 0, sizeof(*pcic));
    memset(buf, 0, COLOR_INDEX_CACHE_SIZE * sizeof(gs_color_index_cache_elem_t));
    pcic->direct_space = direct_space;
    pcic->pgs = pgs;
    pcic->dev = dev;
    pcic->trans_dev = trans_dev;
    pcic->device_num_components = device_num_components;
    pcic->client_num_components = client_num_components;
    pcic->memory = memory;
    pcic->used = 1; /* Never use the 0th element. */
    pcic->buf = buf;
    pcic->recent_touch = MYNULL;
    pcic->paint_values = paint_values;
    pcic->frac_values = frac_values;
    return pcic;
}

void
gs_color_index_cache_destroy(gs_color_index_cache_t *pcic)
{
    gs_free_object(pcic->memory, pcic->buf, "gs_color_index_cache_create");
    gs_free_object(pcic->memory, pcic->paint_values, "gs_color_index_cache_create");
    gs_free_object(pcic->memory, pcic->frac_values, "gs_color_index_cache_create");
    pcic->buf = NULL;
    pcic->paint_values = NULL;
    pcic->frac_values = NULL;
    gs_free_object(pcic->memory, pcic, "gs_color_index_cache_create");
}

static inline int
hash_paint_values(const gs_color_index_cache_t *self, const float *paint_values)
{
    int i;
    float v = 0;
    uint k = 0;
    const uint a_prime = 79;

    for (i = 0; i < self->client_num_components; i++)
        v = v * a_prime + paint_values[i];
    /* Don't know the range of v, so hash its bytes : */
    for(i = 0; i < sizeof(v); i++)
        k = k * a_prime + ((byte *)&v)[i];
    return k % COLOR_INDEX_CACHE_CHAINS;
}

static inline void
exclude_from_chain(gs_color_index_cache_t *self, uint i)
{
    uint co = self->buf[i].chain;
    uint ip = self->buf[i].prev, in = self->buf[i].next;

    self->buf[ip].next = in;
    self->buf[in].prev = ip;
    if (self->chains[co] == i)
        self->chains[co] = in;
}

static inline void
include_into_chain(gs_color_index_cache_t *self, uint i, uint c)
{
    if (self->chains[c] != MYNULL) {
        uint in = self->chains[c], ip = self->buf[in].prev;

        self->buf[i].next = in;
        self->buf[i].prev = ip;
        self->buf[in].prev = i;
        self->buf[ip].next = i;
    } else
        self->buf[i].prev = self->buf[i].next = i;
    self->chains[c] = i;
    self->buf[i].chain = c;
}

static inline void
exclude_from_touch_list(gs_color_index_cache_t *self, uint i)
{
    uint ip = self->buf[i].touch_prev, in = self->buf[i].touch_next;

    self->buf[ip].touch_next = in;
    self->buf[in].touch_prev = ip;
    if (self->recent_touch == i) {
        if (i == in)
            self->recent_touch = MYNULL;
        else
            self->recent_touch = in;
    }
}

static inline void
include_into_touch_list(gs_color_index_cache_t *self, uint i)
{
    if (self->recent_touch != MYNULL) {
        uint in = self->recent_touch, ip = self->buf[in].touch_prev;

        self->buf[i].touch_next = in;
        self->buf[i].touch_prev = ip;
        self->buf[in].touch_prev = i;
        self->buf[ip].touch_next = i;
    } else
        self->buf[i].touch_prev = self->buf[i].touch_next = i;
    self->recent_touch = i;
}

static int
get_color_index_cache_elem(gs_color_index_cache_t *self,
                           const float *paint_values, uint *pi)
{
    int client_num_components = self->client_num_components;
    uint c = hash_paint_values(self, paint_values);
    uint i = self->chains[c], j;

    if (i != MYNULL) {
        uint tries = 16; /* Arbitrary. */

        if (!memcmp(paint_values, self->paint_values + i * client_num_components,
                    sizeof(*paint_values) * client_num_components)) {
            if (self->recent_touch != i) {
                exclude_from_touch_list(self, i);
                include_into_touch_list(self, i);
            }
            *pi = i;
            return 1;
        }
        for (j = self->buf[i].next; tries -- && j != i; j = self->buf[j].next) {
            if (!memcmp(paint_values, self->paint_values + j * client_num_components,
                        sizeof(*paint_values) * client_num_components)) {
                exclude_from_chain(self, j);
                include_into_chain(self, j, c);
                if (self->recent_touch != j) {
                    exclude_from_touch_list(self, j);
                    include_into_touch_list(self, j);
                }
                *pi = j;
                return 1;
            }
        }
    }
    if (self->used < COLOR_INDEX_CACHE_SIZE) {
        /* Use a new one */
        i = self->used++;
        include_into_touch_list(self, i);
    } else {
        i = self->recent_touch;
        self->recent_touch = self->buf[i].touch_prev; /* Assuming the cyclic list,
                                                      just move the head pointer to the last element. */
        exclude_from_chain(self, i);
    }
    include_into_chain(self, i, c);
    *pi = i;
    return 0;
}

static inline void
compute_frac_values(gs_color_index_cache_t *self, uint i)
{

    const gx_device_color_info *cinfo = &self->trans_dev->color_info;
    int device_num_components = self->device_num_components;
    int j;
    gx_color_index c;

    if (self->buf[i].color_type == &gx_dc_type_data_pure) {
        c = self->buf[i].color.cindex;
        for (j = 0; j < device_num_components; j++) {
                int shift = cinfo->comp_shift[j];
                int bits = cinfo->comp_bits[j];
                self->frac_values[i * device_num_components + j] =
                    ((c >> shift) & ((1 << bits) - 1)) <<
                    (sizeof(frac31) * 8 - 1 - bits);
        }
        self->buf[i].frac_values_done = true;
    } else {
        /* Must be devn */
        for (j = 0; j < device_num_components; j++) {
            self->frac_values[i * device_num_components + j] =
                cv2frac31(self->buf[i].color.devn[j]);
        }
        self->buf[i].frac_values_done = true;
    }
}

int
gs_cached_color_index(gs_color_index_cache_t *self, const float *paint_values,
                      gx_device_color *pdevc, frac31 *frac_values)
{
    /* Must return 2 if the color is not pure.
       See patch_color_to_device_color. */
    const gs_color_space *pcs = self->direct_space;
    int client_num_components = self->client_num_components;
    int device_num_components = self->device_num_components;
    uint i, j;
    int code;

    if (get_color_index_cache_elem(self, paint_values, &i)) {
        if (pdevc != NULL) {
            if (self->buf[i].color_type == &gx_dc_type_data_pure) {
                pdevc->colors.pure = self->buf[i].color.cindex;
                pdevc->type = &gx_dc_type_data_pure;
                memcpy(pdevc->ccolor.paint.values, paint_values,
                       sizeof(*paint_values) * client_num_components);
            } else {
                /* devn case */
                for (j = 0; j < device_num_components; j++) {
                    pdevc->colors.devn.values[j] = self->buf[i].color.devn[j];
                }
                pdevc->type = &gx_dc_type_data_devn;
                memcpy(pdevc->ccolor.paint.values, paint_values,
                       sizeof(*paint_values) * client_num_components);
            }
            pdevc->ccolor_valid = true;
        }
        if (frac_values != NULL && !self->buf[i].frac_values_done)
            compute_frac_values(self, i);
    } else {
        gx_device_color devc_local;
        gs_client_color fcc;

        if (pdevc == NULL)
            pdevc = &devc_local;
        memcpy(self->paint_values + i * client_num_components, paint_values,
               sizeof(*paint_values) * client_num_components);
        memcpy(fcc.paint.values, paint_values,
               sizeof(*paint_values) * client_num_components);
        code = pcs->type->remap_color(&fcc, pcs, pdevc, self->pgs,
                                      self->trans_dev, gs_color_select_texture);
        if (code < 0)
            return code;
        if (pdevc->type == &gx_dc_type_data_pure) {
            self->buf[i].color.cindex = pdevc->colors.pure;
        } else if (pdevc->type == &gx_dc_type_data_devn) {
            for (j = 0; j < device_num_components; j++) {
                self->buf[i].color.devn[j] = pdevc->colors.devn.values[j];
            }
        } else {
            return 2;
        }
        self->buf[i].color_type = pdevc->type;
        if (frac_values != NULL)
            compute_frac_values(self, i);
        else
            self->buf[i].frac_values_done = false;
    }
    if (frac_values != NULL)
        memcpy(frac_values, self->frac_values + i * device_num_components,
               sizeof(*frac_values) * device_num_components);
    return 0;
}

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		/* A color index cache. */
18		#include "gx.h"
19		#include "gserrors.h"
20		#include "gsccolor.h"
21		#include "gxcspace.h"
22		#include "gxdcolor.h"
23		#include "gscicach.h"
24		#include "memory_.h"
25
26	157M	#define COLOR_INDEX_CACHE_SIZE 256
27	118M	#define COLOR_INDEX_CACHE_CHAINS (COLOR_INDEX_CACHE_SIZE / 16)
28
29		typedef struct gs_color_index_cache_elem_s gs_color_index_cache_elem_t;
30
31		struct gs_color_index_cache_elem_s {
32		union _color {
33		gx_color_index cindex;
34		ushort devn[GS_CLIENT_COLOR_MAX_COMPONENTS];
35		} color;
36		gx_device_color_type color_type;
37		uint chain;
38		uint prev, next; /* NULL for unused. */
39		uint touch_prev, touch_next;
40		bool frac_values_done;
41		};
42
43		struct gs_color_index_cache_s {
44		const gs_color_space *direct_space;
45		gs_gstate *pgs;
46		gx_device *dev;
47		gx_device *trans_dev;
48		int client_num_components;
49		int device_num_components;
50		gs_memory_t *memory;
51		int used;
52		gs_color_index_cache_elem_t *buf;
53		uint recent_touch;
54		float *paint_values;
55		frac31 *frac_values;
56		int chains[COLOR_INDEX_CACHE_CHAINS];
57		/* Note : the 0th element of buf, paint_values, frac_values is never used,
58		because we consider the index 0 as NULL
59		just for a faster initialization. */
60	243M	# define MYNULL 0
61		};
62
63		gs_private_st_ptrs6(st_color_index_cache, gs_color_index_cache_t, "gs_color_index_cache_t",
64		gs_color_index_cache_elem_ptrs, gs_color_index_cache_reloc_ptrs,
65		direct_space, memory, buf, paint_values, frac_values, trans_dev);
66
67		gs_color_index_cache_t *
68		gs_color_index_cache_create(gs_memory_t memory, const gs_color_space direct_space, gx_device *dev,
69		gs_gstate pgs, bool need_frac, gx_device trans_dev)
70	125k	{
71	125k	int client_num_components = cs_num_components(direct_space);
72	125k	int device_num_components = trans_dev->color_info.num_components;
73	125k	gs_color_index_cache_elem_t buf = ( gs_color_index_cache_elem_t )gs_alloc_byte_array(memory, COLOR_INDEX_CACHE_SIZE,
74	125k	sizeof(gs_color_index_cache_elem_t), "gs_color_index_cache_create");
75	125k	float paint_values = (float )gs_alloc_byte_array(memory, COLOR_INDEX_CACHE_SIZE * client_num_components,
76	125k	sizeof(float), "gs_color_index_cache_create");
77	125k	frac31 frac_values = (need_frac ? (frac31 )gs_alloc_byte_array(memory, COLOR_INDEX_CACHE_SIZE * device_num_components,
78	125k	sizeof(frac31), "gs_color_index_cache_create") : NULL);
79	125k	gs_color_index_cache_t *pcic = gs_alloc_struct(memory, gs_color_index_cache_t, &st_color_index_cache, "gs_color_index_cache_create");
80
81	125k	if (buf == NULL \|\| paint_values == NULL \|\| (need_frac && frac_values == NULL) \|\| pcic == NULL) {
82	0	gs_free_object(memory, buf, "gs_color_index_cache_create");
83	0	gs_free_object(memory, paint_values, "gs_color_index_cache_create");
84	0	gs_free_object(memory, frac_values, "gs_color_index_cache_create");
85	0	gs_free_object(memory, pcic, "gs_color_index_cache_create");
86	0	return NULL;
87	0	}
88	125k	memset(pcic, 0, sizeof(*pcic));
89	125k	memset(buf, 0, COLOR_INDEX_CACHE_SIZE * sizeof(gs_color_index_cache_elem_t));
90	125k	pcic->direct_space = direct_space;
91	125k	pcic->pgs = pgs;
92	125k	pcic->dev = dev;
93	125k	pcic->trans_dev = trans_dev;
94	125k	pcic->device_num_components = device_num_components;
95	125k	pcic->client_num_components = client_num_components;
96	125k	pcic->memory = memory;
97	125k	pcic->used = 1; /* Never use the 0th element. */
98	125k	pcic->buf = buf;
99	125k	pcic->recent_touch = MYNULL;
100	125k	pcic->paint_values = paint_values;
101	125k	pcic->frac_values = frac_values;
102	125k	return pcic;
103	125k	}
104
105		void
106		gs_color_index_cache_destroy(gs_color_index_cache_t *pcic)
107	125k	{
108	125k	gs_free_object(pcic->memory, pcic->buf, "gs_color_index_cache_create");
109	125k	gs_free_object(pcic->memory, pcic->paint_values, "gs_color_index_cache_create");
110	125k	gs_free_object(pcic->memory, pcic->frac_values, "gs_color_index_cache_create");
111	125k	pcic->buf = NULL;
112	125k	pcic->paint_values = NULL;
113	125k	pcic->frac_values = NULL;
114	125k	gs_free_object(pcic->memory, pcic, "gs_color_index_cache_create");
115	125k	}
116
117		static inline int
118		hash_paint_values(const gs_color_index_cache_t self, const float paint_values)
119	118M	{
120	118M	int i;
121	118M	float v = 0;
122	118M	uint k = 0;
123	118M	const uint a_prime = 79;
124
125	563M	for (i = 0; i < self->client_num_components; i++)
126	444M	v = v * a_prime + paint_values[i];
127		/* Don't know the range of v, so hash its bytes : */
128	593M	for(i = 0; i < sizeof(v); i++)
129	474M	k = k * a_prime + ((byte *)&v)[i];
130	118M	return k % COLOR_INDEX_CACHE_CHAINS;
131	118M	}
132
133		static inline void
134		exclude_from_chain(gs_color_index_cache_t *self, uint i)
135	54.4M	{
136	54.4M	uint co = self->buf[i].chain;
137	54.4M	uint ip = self->buf[i].prev, in = self->buf[i].next;
138
139	54.4M	self->buf[ip].next = in;
140	54.4M	self->buf[in].prev = ip;
141	54.4M	if (self->chains[co] == i)
142	32.3M	self->chains[co] = in;
143	54.4M	}
144
145		static inline void
146		include_into_chain(gs_color_index_cache_t *self, uint i, uint c)
147	55.2M	{
148	55.2M	if (self->chains[c] != MYNULL) {
149	54.8M	uint in = self->chains[c], ip = self->buf[in].prev;
150
151	54.8M	self->buf[i].next = in;
152	54.8M	self->buf[i].prev = ip;
153	54.8M	self->buf[in].prev = i;
154	54.8M	self->buf[ip].next = i;
155	54.8M	} else
156	379k	self->buf[i].prev = self->buf[i].next = i;
157	55.2M	self->chains[c] = i;
158	55.2M	self->buf[i].chain = c;
159	55.2M	}
160
161		static inline void
162		exclude_from_touch_list(gs_color_index_cache_t *self, uint i)
163	68.3M	{
164	68.3M	uint ip = self->buf[i].touch_prev, in = self->buf[i].touch_next;
165
166	68.3M	self->buf[ip].touch_next = in;
167	68.3M	self->buf[in].touch_prev = ip;
168	68.3M	if (self->recent_touch == i) {
169	0	if (i == in)
170	0	self->recent_touch = MYNULL;
171	0	else
172	0	self->recent_touch = in;
173	0	}
174	68.3M	}
175
176		static inline void
177		include_into_touch_list(gs_color_index_cache_t *self, uint i)
178	69.2M	{
179	69.2M	if (self->recent_touch != MYNULL) {
180	69.1M	uint in = self->recent_touch, ip = self->buf[in].touch_prev;
181
182	69.1M	self->buf[i].touch_next = in;
183	69.1M	self->buf[i].touch_prev = ip;
184	69.1M	self->buf[in].touch_prev = i;
185	69.1M	self->buf[ip].touch_next = i;
186	69.1M	} else
187	123k	self->buf[i].touch_prev = self->buf[i].touch_next = i;
188	69.2M	self->recent_touch = i;
189	69.2M	}
190
191		static int
192		get_color_index_cache_elem(gs_color_index_cache_t *self,
193		const float paint_values, uint pi)
194	118M	{
195	118M	int client_num_components = self->client_num_components;
196	118M	uint c = hash_paint_values(self, paint_values);
197	118M	uint i = self->chains[c], j;
198
199	118M	if (i != MYNULL) {
200	118M	uint tries = 16; /* Arbitrary. */
201
202	118M	if (!memcmp(paint_values, self->paint_values + i * client_num_components,
203	118M	sizeof(paint_values) client_num_components)) {
204	63.3M	if (self->recent_touch != i) {
205	51.9M	exclude_from_touch_list(self, i);
206	51.9M	include_into_touch_list(self, i);
207	51.9M	}
208	63.3M	*pi = i;
209	63.3M	return 1;
210	63.3M	}
211	598M	for (j = self->buf[i].next; tries -- && j != i; j = self->buf[j].next) {
212	560M	if (!memcmp(paint_values, self->paint_values + j * client_num_components,
213	560M	sizeof(paint_values) client_num_components)) {
214	16.4M	exclude_from_chain(self, j);
215	16.4M	include_into_chain(self, j, c);
216	16.4M	if (self->recent_touch != j) {
217	16.4M	exclude_from_touch_list(self, j);
218	16.4M	include_into_touch_list(self, j);
219	16.4M	}
220	16.4M	*pi = j;
221	16.4M	return 1;
222	16.4M	}
223	560M	}
224	54.8M	}
225	38.8M	if (self->used < COLOR_INDEX_CACHE_SIZE) {
226		/* Use a new one */
227	847k	i = self->used++;
228	847k	include_into_touch_list(self, i);
229	37.9M	} else {
230	37.9M	i = self->recent_touch;
231	37.9M	self->recent_touch = self->buf[i].touch_prev; /* Assuming the cyclic list,
232		just move the head pointer to the last element. */
233	37.9M	exclude_from_chain(self, i);
234	37.9M	}
235	38.8M	include_into_chain(self, i, c);
236	38.8M	*pi = i;
237	38.8M	return 0;
238	118M	}
239
240		static inline void
241		compute_frac_values(gs_color_index_cache_t *self, uint i)
242	38.3M	{
243
244	38.3M	const gx_device_color_info *cinfo = &self->trans_dev->color_info;
245	38.3M	int device_num_components = self->device_num_components;
246	38.3M	int j;
247	38.3M	gx_color_index c;
248
249	38.3M	if (self->buf[i].color_type == &gx_dc_type_data_pure) {
250	35.2M	c = self->buf[i].color.cindex;
251	130M	for (j = 0; j < device_num_components; j++) {
252	95.5M	int shift = cinfo->comp_shift[j];
253	95.5M	int bits = cinfo->comp_bits[j];
254	95.5M	self->frac_values[i * device_num_components + j] =
255	95.5M	((c >> shift) & ((1 << bits) - 1)) <<
256	95.5M	(sizeof(frac31) * 8 - 1 - bits);
257	95.5M	}
258	35.2M	self->buf[i].frac_values_done = true;
259	35.2M	} else {
260		/* Must be devn */
261	15.3M	for (j = 0; j < device_num_components; j++) {
262	12.2M	self->frac_values[i * device_num_components + j] =
263	12.2M	cv2frac31(self->buf[i].color.devn[j]);
264	12.2M	}
265	3.06M	self->buf[i].frac_values_done = true;
266	3.06M	}
267	38.3M	}
268
269		int
270		gs_cached_color_index(gs_color_index_cache_t self, const float paint_values,
271		gx_device_color pdevc, frac31 frac_values)
272	118M	{
273		/* Must return 2 if the color is not pure.
274		See patch_color_to_device_color. */
275	118M	const gs_color_space *pcs = self->direct_space;
276	118M	int client_num_components = self->client_num_components;
277	118M	int device_num_components = self->device_num_components;
278	118M	uint i, j;
279	118M	int code;
280
281	118M	if (get_color_index_cache_elem(self, paint_values, &i)) {
282	79.8M	if (pdevc != NULL) {
283	67.3M	if (self->buf[i].color_type == &gx_dc_type_data_pure) {
284	61.9M	pdevc->colors.pure = self->buf[i].color.cindex;
285	61.9M	pdevc->type = &gx_dc_type_data_pure;
286	61.9M	memcpy(pdevc->ccolor.paint.values, paint_values,
287	61.9M	sizeof(paint_values) client_num_components);
288	61.9M	} else {
289		/* devn case */
290	27.1M	for (j = 0; j < device_num_components; j++) {
291	21.7M	pdevc->colors.devn.values[j] = self->buf[i].color.devn[j];
292	21.7M	}
293	5.45M	pdevc->type = &gx_dc_type_data_devn;
294	5.45M	memcpy(pdevc->ccolor.paint.values, paint_values,
295	5.45M	sizeof(paint_values) client_num_components);
296	5.45M	}
297	67.3M	pdevc->ccolor_valid = true;
298	67.3M	}
299	79.8M	if (frac_values != NULL && !self->buf[i].frac_values_done)
300	203k	compute_frac_values(self, i);
301	79.8M	} else {
302	38.8M	gx_device_color devc_local;
303	38.8M	gs_client_color fcc;
304
305	38.8M	if (pdevc == NULL)
306	4.28M	pdevc = &devc_local;
307	38.8M	memcpy(self->paint_values + i * client_num_components, paint_values,
308	38.8M	sizeof(paint_values) client_num_components);
309	38.8M	memcpy(fcc.paint.values, paint_values,
310	38.8M	sizeof(paint_values) client_num_components);
311	38.8M	code = pcs->type->remap_color(&fcc, pcs, pdevc, self->pgs,
312	38.8M	self->trans_dev, gs_color_select_texture);
313	38.8M	if (code < 0)
314	0	return code;
315	38.8M	if (pdevc->type == &gx_dc_type_data_pure) {
316	35.7M	self->buf[i].color.cindex = pdevc->colors.pure;
317	35.7M	} else if (pdevc->type == &gx_dc_type_data_devn) {
318	15.5M	for (j = 0; j < device_num_components; j++) {
319	12.4M	self->buf[i].color.devn[j] = pdevc->colors.devn.values[j];
320	12.4M	}
321	3.11M	} else {
322	0	return 2;
323	0	}
324	38.8M	self->buf[i].color_type = pdevc->type;
325	38.8M	if (frac_values != NULL)
326	38.1M	compute_frac_values(self, i);
327	684k	else
328	684k	self->buf[i].frac_values_done = false;
329	38.8M	}
330	118M	if (frac_values != NULL)
331	117M	memcpy(frac_values, self->frac_values + i * device_num_components,
332	117M	sizeof(frac_values) device_num_components);
333	118M	return 0;
334	118M	}