/src/ghostpdl/base/gxshade4.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.
*/


/* Rendering for Gouraud triangle shadings */
#include "math_.h"
#include "memory_.h"
#include "gx.h"
#include "gserrors.h"
#include "gsmatrix.h"   /* for gscoord.h */
#include "gscoord.h"
#include "gsptype2.h"
#include "gxcspace.h"
#include "gxdcolor.h"
#include "gxdevcli.h"
#include "gxgstate.h"
#include "gxpath.h"
#include "gxshade.h"
#include "gxshade4.h"
#include "gsicc_cache.h"

/* Initialize the fill state for triangle shading. */
int
mesh_init_fill_state(mesh_fill_state_t * pfs, const gs_shading_mesh_t * psh,
                     const gs_fixed_rect * rect_clip, gx_device * dev,
                     gs_gstate * pgs)
{
    int code;
    code = shade_init_fill_state((shading_fill_state_t *) pfs,
                                 (const gs_shading_t *)psh, dev, pgs);
    if (code < 0)
        return code;
    pfs->pshm = psh;
    pfs->rect = *rect_clip;
    return 0;
}

/* ---------------- Gouraud triangle shadings ---------------- */

static int
Gt_next_vertex(const gs_shading_mesh_t * psh, shade_coord_stream_t * cs,
               shading_vertex_t * vertex, patch_color_t *c)
{
    int code = shade_next_vertex(cs, vertex, c);
    if (code < 0)
        return code;

    if (psh->params.Function) {
        c->t[0] = c->cc.paint.values[0];
        c->t[1] = 0;
        /* Decode the color with the function. */
        code = gs_function_evaluate(psh->params.Function, c->t,
                                    c->cc.paint.values);
    } else
        psh->params.ColorSpace->type->restrict_color(&c->cc, psh->params.ColorSpace);
    return code;
}

static inline int
Gt_fill_triangle(patch_fill_state_t * pfs, const shading_vertex_t * va,
                 const shading_vertex_t * vb, const shading_vertex_t * vc)
{
    int code = 0;

    if (INTERPATCH_PADDING) {
        code = mesh_padding(pfs, &va->p, &vb->p, va->c, vb->c);
        if (code >= 0)
            code = mesh_padding(pfs, &vb->p, &vc->p, vb->c, vc->c);
        if (code >= 0)
            code = mesh_padding(pfs, &vc->p, &va->p, vc->c, va->c);
    }
    if (code >= 0)
        code = mesh_triangle(pfs, va, vb, vc);
    return code;
}

int
gs_shading_FfGt_fill_rectangle(const gs_shading_t * psh0, const gs_rect * rect,
                               const gs_fixed_rect * rect_clip,
                               gx_device * dev, gs_gstate * pgs)
{
    const gs_shading_FfGt_t * const psh = (const gs_shading_FfGt_t *)psh0;
    patch_fill_state_t pfs;
    const gs_shading_mesh_t *pshm = (const gs_shading_mesh_t *)psh;
    shade_coord_stream_t cs;
    int num_bits = psh->params.BitsPerFlag;
    int flag;
    shading_vertex_t va, vb, vc;
    patch_color_t *c, *C[3], *ca, *cb, *cc; /* va.c == ca && vb.c == cb && vc.c == cc always,
                                        provides a non-const access. */
    int code;

    code = shade_init_fill_state((shading_fill_state_t *)&pfs,
                                 (const gs_shading_t *)psh, dev, pgs);
    if (code < 0)
        return code;
    pfs.Function = pshm->params.Function;
    pfs.rect = *rect_clip;
    code = init_patch_fill_state(&pfs);
    if (code < 0) {
        if (pfs.icclink != NULL) gsicc_release_link(pfs.icclink);
        return code;
    }
    reserve_colors(&pfs, C, 3); /* Can't fail */
    va.c = ca = C[0];
    vb.c = cb = C[1];
    vc.c = cc = C[2];
    shade_next_init(&cs, (const gs_shading_mesh_params_t *)&psh->params,
                    pgs);
    /* CET 09-47J.PS SpecialTestI04Test01 does not need the color data alignment. */
    while ((flag = shade_next_flag(&cs, num_bits)) >= 0) {
        switch (flag) {
            default:
                code = gs_note_error(gs_error_rangecheck);
                goto error;
            case 0:
                if ((code = Gt_next_vertex(pshm, &cs, &va, ca)) < 0 ||
                    (code = shade_next_flag(&cs, num_bits)) < 0 ||
                    (code = Gt_next_vertex(pshm, &cs, &vb, cb)) < 0 ||
                    (code = shade_next_flag(&cs, num_bits)) < 0
                    )
                    break;
                goto v2;
            case 1:
                c = ca;
                va = vb;
                ca = cb;
                vb.c = cb = c;
                /* fall through */
            case 2:
                c = cb;
                vb = vc;
                cb = cc;
                vc.c = cc = c;
v2:   if ((code = Gt_next_vertex(pshm, &cs, &vc, cc)) < 0)
                    break;
                if ((code = Gt_fill_triangle(&pfs, &va, &vb, &vc)) < 0)
                    break;
        }
        cs.align(&cs, 8); /* Debugged with 12-14O.PS page 2. */
    }
error:
    release_colors(&pfs, pfs.color_stack, 3);
    if (pfs.icclink != NULL) gsicc_release_link(pfs.icclink);
    if (term_patch_fill_state(&pfs))
        return_error(gs_error_unregistered); /* Must not happen. */
    if (!cs.is_eod(&cs))
        return_error(gs_error_rangecheck);
    return code;
}

int
gs_shading_LfGt_fill_rectangle(const gs_shading_t * psh0, const gs_rect * rect,
                               const gs_fixed_rect * rect_clip,
                               gx_device * dev, gs_gstate * pgs)
{
    const gs_shading_LfGt_t * const psh = (const gs_shading_LfGt_t *)psh0;
    patch_fill_state_t pfs;
    const gs_shading_mesh_t *pshm = (const gs_shading_mesh_t *)psh;
    shade_coord_stream_t cs;
    shading_vertex_t *vertex = NULL;
    byte *color_buffer = NULL;
    patch_color_t **color_buffer_ptrs = NULL; /* non-const access to vertex[i].c */
    shading_vertex_t next;
    int per_row = psh->params.VerticesPerRow;
    patch_color_t *c, *cn; /* cn == next.c always, provides a non-contst access. */
    int i, code;

    code = shade_init_fill_state((shading_fill_state_t *)&pfs,
                                 (const gs_shading_t *)psh, dev, pgs);
    if (code < 0)
        return code;
    pfs.Function = pshm->params.Function;
    pfs.rect = *rect_clip;
    code = init_patch_fill_state(&pfs);
    if (code < 0)
        goto out;
    reserve_colors(&pfs, &cn, 1); /* Can't fail. */
    next.c = cn;
    shade_next_init(&cs, (const gs_shading_mesh_params_t *)&psh->params,
                    pgs);
    vertex = (shading_vertex_t *)
        gs_alloc_byte_array(pgs->memory, per_row, sizeof(*vertex),
                            "gs_shading_LfGt_render");
    if (vertex == NULL) {
        code = gs_note_error(gs_error_VMerror);
        goto out;
    }
    color_buffer = gs_alloc_bytes(pgs->memory,
                                  (size_t)pfs.color_stack_step * per_row,
                                  "gs_shading_LfGt_fill_rectangle");
    if (color_buffer == NULL) {
        code = gs_note_error(gs_error_VMerror);
        goto out;
    }
    color_buffer_ptrs = (patch_color_t **)gs_alloc_bytes(pgs->memory,
                            sizeof(patch_color_t *) * per_row, "gs_shading_LfGt_fill_rectangle");
    if (color_buffer_ptrs == NULL) {
        code = gs_note_error(gs_error_VMerror);
        goto out;
    }
    /* CET 09-47K.PS SpecialTestJ02Test05 needs the color data alignment. */
    for (i = 0; i < per_row; ++i) {
        color_buffer_ptrs[i] = (patch_color_t *)(color_buffer + pfs.color_stack_step * i);
        vertex[i].c = color_buffer_ptrs[i];
        if ((code = Gt_next_vertex(pshm, &cs, &vertex[i], color_buffer_ptrs[i])) < 0)
            goto out;
    }
    while (!seofp(cs.s)) {
        code = Gt_next_vertex(pshm, &cs, &next, cn);
        if (code < 0)
            goto out;
        for (i = 1; i < per_row; ++i) {
            code = Gt_fill_triangle(&pfs, &vertex[i - 1], &vertex[i], &next);
            if (code < 0)
                goto out;
            c = color_buffer_ptrs[i - 1];
            vertex[i - 1] = next;
            color_buffer_ptrs[i - 1] = cn;
            next.c = cn = c;
            code = Gt_next_vertex(pshm, &cs, &next, cn);
            if (code < 0)
                goto out;
            code = Gt_fill_triangle(&pfs, &vertex[i], &vertex[i - 1], &next);
            if (code < 0)
                goto out;
        }
        c = color_buffer_ptrs[per_row - 1];
        vertex[per_row - 1] = next;
        color_buffer_ptrs[per_row - 1] = cn;
        next.c = cn = c;
    }
out:
    gs_free_object(pgs->memory, vertex, "gs_shading_LfGt_render");
    gs_free_object(pgs->memory, color_buffer, "gs_shading_LfGt_render");
    gs_free_object(pgs->memory, color_buffer_ptrs, "gs_shading_LfGt_render");
    release_colors(&pfs, pfs.color_stack, 1);
    if (pfs.icclink != NULL) gsicc_release_link(pfs.icclink);
    if (term_patch_fill_state(&pfs))
        return_error(gs_error_unregistered); /* Must not happen. */
    return code;
}

Coverage Report

Created: 2025-06-10 07:26

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		/* Rendering for Gouraud triangle shadings */
18		#include "math_.h"
19		#include "memory_.h"
20		#include "gx.h"
21		#include "gserrors.h"
22		#include "gsmatrix.h" /* for gscoord.h */
23		#include "gscoord.h"
24		#include "gsptype2.h"
25		#include "gxcspace.h"
26		#include "gxdcolor.h"
27		#include "gxdevcli.h"
28		#include "gxgstate.h"
29		#include "gxpath.h"
30		#include "gxshade.h"
31		#include "gxshade4.h"
32		#include "gsicc_cache.h"
33
34		/* Initialize the fill state for triangle shading. */
35		int
36		mesh_init_fill_state(mesh_fill_state_t * pfs, const gs_shading_mesh_t * psh,
37		const gs_fixed_rect * rect_clip, gx_device * dev,
38		gs_gstate * pgs)
39	150	{
40	150	int code;
41	150	code = shade_init_fill_state((shading_fill_state_t *) pfs,
42	150	(const gs_shading_t *)psh, dev, pgs);
43	150	if (code < 0)
44	0	return code;
45	150	pfs->pshm = psh;
46	150	pfs->rect = *rect_clip;
47	150	return 0;
48	150	}
49
50		/* ---------------- Gouraud triangle shadings ---------------- */
51
52		static int
53		Gt_next_vertex(const gs_shading_mesh_t * psh, shade_coord_stream_t * cs,
54		shading_vertex_t * vertex, patch_color_t *c)
55	224k	{
56	224k	int code = shade_next_vertex(cs, vertex, c);
57	224k	if (code < 0)
58	26	return code;
59
60	224k	if (psh->params.Function) {
61	222k	c->t[0] = c->cc.paint.values[0];
62	222k	c->t[1] = 0;
63		/* Decode the color with the function. */
64	222k	code = gs_function_evaluate(psh->params.Function, c->t,
65	222k	c->cc.paint.values);
66	222k	} else
67	2.17k	psh->params.ColorSpace->type->restrict_color(&c->cc, psh->params.ColorSpace);
68	224k	return code;
69	224k	}
70
71		static inline int
72		Gt_fill_triangle(patch_fill_state_t * pfs, const shading_vertex_t * va,
73		const shading_vertex_t * vb, const shading_vertex_t * vc)
74	400k	{
75	400k	int code = 0;
76
77	400k	if (INTERPATCH_PADDING) {
78	400k	code = mesh_padding(pfs, &va->p, &vb->p, va->c, vb->c);
79	400k	if (code >= 0)
80	400k	code = mesh_padding(pfs, &vb->p, &vc->p, vb->c, vc->c);
81	400k	if (code >= 0)
82	400k	code = mesh_padding(pfs, &vc->p, &va->p, vc->c, va->c);
83	400k	}
84	400k	if (code >= 0)
85	400k	code = mesh_triangle(pfs, va, vb, vc);
86	400k	return code;
87	400k	}
88
89		int
90		gs_shading_FfGt_fill_rectangle(const gs_shading_t * psh0, const gs_rect * rect,
91		const gs_fixed_rect * rect_clip,
92		gx_device * dev, gs_gstate * pgs)
93	23	{
94	23	const gs_shading_FfGt_t * const psh = (const gs_shading_FfGt_t *)psh0;
95	23	patch_fill_state_t pfs;
96	23	const gs_shading_mesh_t pshm = (const gs_shading_mesh_t )psh;
97	23	shade_coord_stream_t cs;
98	23	int num_bits = psh->params.BitsPerFlag;
99	23	int flag;
100	23	shading_vertex_t va, vb, vc;
101	23	patch_color_t c, C[3], ca, cb, cc; / va.c == ca && vb.c == cb && vc.c == cc always,
102		provides a non-const access. */
103	23	int code;
104
105	23	code = shade_init_fill_state((shading_fill_state_t *)&pfs,
106	23	(const gs_shading_t *)psh, dev, pgs);
107	23	if (code < 0)
108	0	return code;
109	23	pfs.Function = pshm->params.Function;
110	23	pfs.rect = *rect_clip;
111	23	code = init_patch_fill_state(&pfs);
112	23	if (code < 0) {
113	0	if (pfs.icclink != NULL) gsicc_release_link(pfs.icclink);
114	0	return code;
115	0	}
116	23	reserve_colors(&pfs, C, 3); /* Can't fail */
117	23	va.c = ca = C[0];
118	23	vb.c = cb = C[1];
119	23	vc.c = cc = C[2];
120	23	shade_next_init(&cs, (const gs_shading_mesh_params_t *)&psh->params,
121	23	pgs);
122		/* CET 09-47J.PS SpecialTestI04Test01 does not need the color data alignment. */
123	728	while ((flag = shade_next_flag(&cs, num_bits)) >= 0) {
124	717	switch (flag) {
125	12	default:
126	12	code = gs_note_error(gs_error_rangecheck);
127	12	goto error;
128	705	case 0:
129	705	if ((code = Gt_next_vertex(pshm, &cs, &va, ca)) < 0 \|\|
130	705	(code = shade_next_flag(&cs, num_bits)) < 0 \|\|
131	705	(code = Gt_next_vertex(pshm, &cs, &vb, cb)) < 0 \|\|
132	705	(code = shade_next_flag(&cs, num_bits)) < 0
133	705	)
134	0	break;
135	705	goto v2;
136	705	case 1:
137	0	c = ca;
138	0	va = vb;
139	0	ca = cb;
140	0	vb.c = cb = c;
141		/* fall through */
142	0	case 2:
143	0	c = cb;
144	0	vb = vc;
145	0	cb = cc;
146	0	vc.c = cc = c;
147	705	v2: if ((code = Gt_next_vertex(pshm, &cs, &vc, cc)) < 0)
148	0	break;
149	705	if ((code = Gt_fill_triangle(&pfs, &va, &vb, &vc)) < 0)
150	0	break;
151	717	}
152	705	cs.align(&cs, 8); /* Debugged with 12-14O.PS page 2. */
153	705	}
154	23	error:
155	23	release_colors(&pfs, pfs.color_stack, 3);
156	23	if (pfs.icclink != NULL) gsicc_release_link(pfs.icclink);
157	23	if (term_patch_fill_state(&pfs))
158	0	return_error(gs_error_unregistered); /* Must not happen. */
159	23	if (!cs.is_eod(&cs))
160	12	return_error(gs_error_rangecheck);
161	11	return code;
162	23	}
163
164		int
165		gs_shading_LfGt_fill_rectangle(const gs_shading_t * psh0, const gs_rect * rect,
166		const gs_fixed_rect * rect_clip,
167		gx_device * dev, gs_gstate * pgs)
168	27	{
169	27	const gs_shading_LfGt_t * const psh = (const gs_shading_LfGt_t *)psh0;
170	27	patch_fill_state_t pfs;
171	27	const gs_shading_mesh_t pshm = (const gs_shading_mesh_t )psh;
172	27	shade_coord_stream_t cs;
173	27	shading_vertex_t *vertex = NULL;
174	27	byte *color_buffer = NULL;
175	27	patch_color_t *color_buffer_ptrs = NULL; / non-const access to vertex[i].c */
176	27	shading_vertex_t next;
177	27	int per_row = psh->params.VerticesPerRow;
178	27	patch_color_t c, cn; /* cn == next.c always, provides a non-contst access. */
179	27	int i, code;
180
181	27	code = shade_init_fill_state((shading_fill_state_t *)&pfs,
182	27	(const gs_shading_t *)psh, dev, pgs);
183	27	if (code < 0)
184	0	return code;
185	27	pfs.Function = pshm->params.Function;
186	27	pfs.rect = *rect_clip;
187	27	code = init_patch_fill_state(&pfs);
188	27	if (code < 0)
189	0	goto out;
190	27	reserve_colors(&pfs, &cn, 1); /* Can't fail. */
191	27	next.c = cn;
192	27	shade_next_init(&cs, (const gs_shading_mesh_params_t *)&psh->params,
193	27	pgs);
194	27	vertex = (shading_vertex_t *)
195	27	gs_alloc_byte_array(pgs->memory, per_row, sizeof(*vertex),
196	27	"gs_shading_LfGt_render");
197	27	if (vertex == NULL) {
198	0	code = gs_note_error(gs_error_VMerror);
199	0	goto out;
200	0	}
201	27	color_buffer = gs_alloc_bytes(pgs->memory,
202	27	(size_t)pfs.color_stack_step * per_row,
203	27	"gs_shading_LfGt_fill_rectangle");
204	27	if (color_buffer == NULL) {
205	0	code = gs_note_error(gs_error_VMerror);
206	0	goto out;
207	0	}
208	27	color_buffer_ptrs = (patch_color_t **)gs_alloc_bytes(pgs->memory,
209	27	sizeof(patch_color_t ) per_row, "gs_shading_LfGt_fill_rectangle");
210	27	if (color_buffer_ptrs == NULL) {
211	0	code = gs_note_error(gs_error_VMerror);
212	0	goto out;
213	0	}
214		/* CET 09-47K.PS SpecialTestJ02Test05 needs the color data alignment. */
215	277	for (i = 0; i < per_row; ++i) {
216	252	color_buffer_ptrs[i] = (patch_color_t )(color_buffer + pfs.color_stack_step i);
217	252	vertex[i].c = color_buffer_ptrs[i];
218	252	if ((code = Gt_next_vertex(pshm, &cs, &vertex[i], color_buffer_ptrs[i])) < 0)
219	2	goto out;
220	252	}
221	22.2k	while (!seofp(cs.s)) {
222	22.2k	code = Gt_next_vertex(pshm, &cs, &next, cn);
223	22.2k	if (code < 0)
224	2	goto out;
225	222k	for (i = 1; i < per_row; ++i) {
226	200k	code = Gt_fill_triangle(&pfs, &vertex[i - 1], &vertex[i], &next);
227	200k	if (code < 0)
228	0	goto out;
229	200k	c = color_buffer_ptrs[i - 1];
230	200k	vertex[i - 1] = next;
231	200k	color_buffer_ptrs[i - 1] = cn;
232	200k	next.c = cn = c;
233	200k	code = Gt_next_vertex(pshm, &cs, &next, cn);
234	200k	if (code < 0)
235	22	goto out;
236	200k	code = Gt_fill_triangle(&pfs, &vertex[i], &vertex[i - 1], &next);
237	200k	if (code < 0)
238	0	goto out;
239	200k	}
240	22.2k	c = color_buffer_ptrs[per_row - 1];
241	22.2k	vertex[per_row - 1] = next;
242	22.2k	color_buffer_ptrs[per_row - 1] = cn;
243	22.2k	next.c = cn = c;
244	22.2k	}
245	27	out:
246	27	gs_free_object(pgs->memory, vertex, "gs_shading_LfGt_render");
247	27	gs_free_object(pgs->memory, color_buffer, "gs_shading_LfGt_render");
248	27	gs_free_object(pgs->memory, color_buffer_ptrs, "gs_shading_LfGt_render");
249	27	release_colors(&pfs, pfs.color_stack, 1);
250	27	if (pfs.icclink != NULL) gsicc_release_link(pfs.icclink);
251	27	if (term_patch_fill_state(&pfs))
252	0	return_error(gs_error_unregistered); /* Must not happen. */
253	27	return code;
254	27	}