/src/ghostpdl/base/gsdps1.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.
*/


/* Display PostScript graphics additions for Ghostscript library */
#include "math_.h"
#include "gx.h"
#include "gserrors.h"
#include "gsmatrix.h"   /* for gscoord.h */
#include "gscoord.h"
#include "gspaint.h"
#include "gxdevice.h"
#include "gxfixed.h"
#include "gxmatrix.h"
#include "gxhldevc.h"
#include "gspath.h"
#include "gspath2.h"    /* defines interface */
#include "gzpath.h"
#include "gzcpath.h"
#include "gzstate.h"
#include "gsutil.h"
#include "gxdevsop.h"

/*
 * Define how much rounding slop setbbox should leave,
 * in device coordinates.  Because of rounding in transforming
 * path coordinates to fixed point, the minimum realistic value is:
 *
 *      #define box_rounding_slop_fixed (fixed_epsilon)
 *
 * But even this isn't enough to compensate for cumulative rounding error
 * in rmoveto or rcurveto.  Instead, we somewhat arbitrarily use:
 */
#define box_rounding_slop_fixed (fixed_epsilon * 3)

/* ------ Graphics state ------ */

/* Set the bounding box for the current path. */
int
gs_setbbox(gs_gstate * pgs, double llx, double lly, double urx, double ury)
{
    gs_rect ubox, dbox;
    gs_fixed_rect obox, bbox;
    gx_path *ppath = pgs->path;
    int code;

    if (llx > urx || lly > ury)
        return_error(gs_error_rangecheck);
    /* Transform box to device coordinates. */
    ubox.p.x = llx;
    ubox.p.y = lly;
    ubox.q.x = urx;
    ubox.q.y = ury;
    if ((code = gs_bbox_transform(&ubox, &ctm_only(pgs), &dbox)) < 0)
        return code;
    /* Round the corners in opposite directions. */
    /* Because we can't predict the magnitude of the dbox values, */
    /* we add/subtract the slop after fixing. */
    if (dbox.p.x < fixed2float(min_fixed + box_rounding_slop_fixed) ||
        dbox.p.y < fixed2float(min_fixed + box_rounding_slop_fixed) ||
        dbox.q.x >= fixed2float(max_fixed - box_rounding_slop_fixed + fixed_epsilon) ||
        dbox.q.y >= fixed2float(max_fixed - box_rounding_slop_fixed + fixed_epsilon)
        )
        return_error(gs_error_limitcheck);
    bbox.p.x =
        (fixed) floor(dbox.p.x * fixed_scale) - box_rounding_slop_fixed;
    bbox.p.y =
        (fixed) floor(dbox.p.y * fixed_scale) - box_rounding_slop_fixed;
    bbox.q.x =
        (fixed) ceil(dbox.q.x * fixed_scale) + box_rounding_slop_fixed;
    bbox.q.y =
        (fixed) ceil(dbox.q.y * fixed_scale) + box_rounding_slop_fixed;
    if (gx_path_bbox_set(ppath, &obox) >= 0) { /* Take the union of the bboxes. */
        ppath->bbox.p.x = min(obox.p.x, bbox.p.x);
        ppath->bbox.p.y = min(obox.p.y, bbox.p.y);
        ppath->bbox.q.x = max(obox.q.x, bbox.q.x);
        ppath->bbox.q.y = max(obox.q.y, bbox.q.y);
    } else {     /* empty path *//* Just set the bbox. */
        ppath->bbox = bbox;
    }
    ppath->bbox_set = 1;
    return 0;
}

/* ------ Rectangles ------ */

/* Append a list of rectangles to a path. */
static int
gs_rectappend_compat(gs_gstate * pgs, const gs_rect * pr, uint count, bool clip)
{
    bool CPSI_mode = gs_currentcpsimode(pgs->memory);

    for (; count != 0; count--, pr++) {
        double px = pr->p.x, py = pr->p.y, qx = pr->q.x, qy = pr->q.y;
        int code;

        if (CPSI_mode) {
            /* We believe that the result must be independent
               on the device initial matrix.
               Particularly for the correct dashing
               the starting point and the contour direction
               must be same with any device initial matrix.
               Only way to provide it is to choose the starting point
               and the direction in the user space. */
            if (clip) {
                /* CPSI starts a clippath with the upper right corner. */
                /* Debugged with CET 11-11.PS page 6 item much13.*/
                if ((code = gs_moveto(pgs, qx, qy)) < 0 ||
                    (code = gs_lineto(pgs, qx, py)) < 0 ||
                    (code = gs_lineto(pgs, px, py)) < 0 ||
                    (code = gs_lineto(pgs, px, qy)) < 0 ||
                    (code = gs_closepath(pgs)) < 0
                    )
                    return code;
            } else {
                /* Debugged with CET 12-12.PS page 10 item more20.*/
                if (px > qx) {
                    px = qx; qx = pr->p.x;
                }
                if (py > qy) {
                    py = qy; qy = pr->p.y;
                }
                if ((code = gs_moveto(pgs, px, py)) < 0 ||
                    (code = gs_lineto(pgs, qx, py)) < 0 ||
                    (code = gs_lineto(pgs, qx, qy)) < 0 ||
                    (code = gs_lineto(pgs, px, qy)) < 0 ||
                    (code = gs_closepath(pgs)) < 0
                    )
                    return code;
            }
        } else {
            /* Ensure counter-clockwise drawing. */
            if ((qx >= px) != (qy >= py))
                qx = px, px = pr->q.x; /* swap x values */
            if ((code = gs_moveto(pgs, px, py)) < 0 ||
                (code = gs_lineto(pgs, qx, py)) < 0 ||
                (code = gs_lineto(pgs, qx, qy)) < 0 ||
                (code = gs_lineto(pgs, px, qy)) < 0 ||
                (code = gs_closepath(pgs)) < 0
                )
                return code;
        }
    }
    return 0;
}
int
gs_rectappend(gs_gstate * pgs, const gs_rect * pr, uint count)
{
    return gs_rectappend_compat(pgs, pr, count, false);
}

/* Clip to a list of rectangles. */
int
gs_rectclip(gs_gstate * pgs, const gs_rect * pr, uint count)
{
    int code;
    gx_path save;

    gx_path_init_local(&save, pgs->memory);
    gx_path_assign_preserve(&save, pgs->path);
    gs_newpath(pgs);
    if ((code = gs_rectappend_compat(pgs, pr, count, true)) < 0 ||
        (code = gs_clip(pgs)) < 0
        ) {
        gx_path_assign_free(pgs->path, &save);
        return code;
    }
    gx_path_free(&save, "gs_rectclip");
    gs_newpath(pgs);
    return 0;
}

/* Setup for black vector handling */
static inline bool black_vectors(gs_gstate *pgs, gx_device *dev)
{
    if (dev->icc_struct != NULL && dev->icc_struct->blackvector &&
        pgs->black_textvec_state == NULL) {
        return gsicc_setup_blacktextvec(pgs, dev, false);
    }
    return false;
}

/* Fill a list of rectangles. */
/* We take the trouble to do this efficiently in the simple cases. */
int
gs_rectfill(gs_gstate * pgs, const gs_rect * pr, uint count)
{
    const gs_rect *rlist = pr;
    gx_clip_path *pcpath;
    uint rcount = count;
    int code;
    gx_device * pdev = pgs->device;
    gx_device_color *pdc = gs_currentdevicecolor_inline(pgs);
    const gs_gstate *pgs2 = (const gs_gstate *)pgs;
    bool hl_color_available = gx_hld_is_hl_color_available(pgs2, pdc);
    bool hl_color = (hl_color_available &&
                dev_proc(pdev, dev_spec_op)(pdev, gxdso_supports_hlcolor,
                                  NULL, 0));
    bool center_of_pixel = (pgs->fill_adjust.x == 0 && pgs->fill_adjust.y == 0);
    bool black_vector = false;

    /* Processing a fill object operation */
    ensure_tag_is_set(pgs, pgs->device, GS_VECTOR_TAG); /* NB: may unset_dev_color */

    black_vector = black_vectors(pgs, pgs->device); /* Set vector fill to black */

    code = gx_set_dev_color(pgs);
    if (code != 0)
        goto exit;

    if ( !(pgs->device->page_uses_transparency ||
          dev_proc(pgs->device, dev_spec_op)(pgs->device,
              gxdso_is_pdf14_device, &(pgs->device),
              sizeof(pgs->device))) &&
        (is_fzero2(pgs->ctm.xy, pgs->ctm.yx) ||
         is_fzero2(pgs->ctm.xx, pgs->ctm.yy)) &&
        gx_effective_clip_path(pgs, &pcpath) >= 0 &&
        clip_list_is_rectangle(gx_cpath_list(pcpath)) &&
        (hl_color ||
         pdc->type == gx_dc_type_pure ||
         pdc->type == gx_dc_type_ht_binary ||
         pdc->type == gx_dc_type_ht_colored) &&
        gs_gstate_color_load(pgs) >= 0 &&
        (*dev_proc(pdev, get_alpha_bits)) (pdev, go_graphics)
        <= 1 &&
        (!pgs->overprint || !gs_currentcolor_eopm(pgs))
        ) {
        uint i;
        gs_fixed_rect clip_rect;

        gx_cpath_inner_box(pcpath, &clip_rect);
        /* We should never plot anything for an empty clip rectangle */
        if ((clip_rect.p.x >= clip_rect.q.x) &&
            (clip_rect.p.y >= clip_rect.q.y))
            goto exit;
        for (i = 0; i < count; ++i) {
            gs_fixed_point p, q;
            gs_fixed_rect draw_rect;

            if (gs_point_transform2fixed(&pgs->ctm, pr[i].p.x, pr[i].p.y, &p) < 0 ||
                gs_point_transform2fixed(&pgs->ctm, pr[i].q.x, pr[i].q.y, &q) < 0
                ) {   /* Switch to the slow algorithm. */
                goto slow;
            }
            draw_rect.p.x = min(p.x, q.x);
            draw_rect.p.y = min(p.y, q.y);
            draw_rect.q.x = max(p.x, q.x);
            draw_rect.q.y = max(p.y, q.y);
            if (hl_color) {
                rect_intersect(draw_rect, clip_rect);
                /* We do pass on 0 extant rectangles to high level
                   devices.  It isn't clear how a client and an output
                   device should interact if one uses a center of
                   pixel algorithm and the other uses any part of
                   pixel.  For now we punt and just pass the high
                   level rectangle on without adjustment. */
                if (draw_rect.p.x <= draw_rect.q.x &&
                    draw_rect.p.y <= draw_rect.q.y) {
                    code = dev_proc(pdev, fill_rectangle_hl_color)(pdev,
                             &draw_rect, pgs2, pdc, pcpath);
                    if (code < 0)
                        goto exit;
                }
            } else {
                int x, y, w, h;

                rect_intersect(draw_rect, clip_rect);
                if (center_of_pixel) {
                    draw_rect.p.x = fixed_rounded(draw_rect.p.x);
                    draw_rect.p.y = fixed_rounded(draw_rect.p.y);
                    draw_rect.q.x = fixed_rounded(draw_rect.q.x);
                    draw_rect.q.y = fixed_rounded(draw_rect.q.y);
                } else { /* any part of pixel rule - touched */
                    draw_rect.p.x = fixed_floor(draw_rect.p.x);
                    draw_rect.p.y = fixed_floor(draw_rect.p.y);
                    draw_rect.q.x = fixed_ceiling(draw_rect.q.x);
                    draw_rect.q.y = fixed_ceiling(draw_rect.q.y);
                }
                x = fixed2int(draw_rect.p.x);
                y = fixed2int(draw_rect.p.y);
                w = fixed2int(draw_rect.q.x) - x;
                h = fixed2int(draw_rect.q.y) - y;
                /* clients that use the "any part of pixel" rule also
                   fill 0 areas.  This is true of current graphics
                   library clients but not a general rule.  */
                if (!center_of_pixel) {
                    if (w == 0)
                        w = 1;
                    /* yes Adobe Acrobat 8, seems to back up the y
                       coordinate when the width is 0, sigh. */
                    if (h == 0) {
                        y--;
                        h = 1;
                    }
                }
                if (gx_fill_rectangle(x, y, w, h, pdc, pgs) < 0)
                    goto slow;
            }
        }
        code = 0;
        goto exit;
      slow:rlist = pr + i;
        rcount = count - i;
    } {
        bool do_save = !gx_path_is_null(pgs->path);

        if (do_save) {
            if ((code = gs_gsave(pgs)) < 0)
                goto exit;
            code = gs_newpath(pgs);
        }
        if ((code >= 0) &&
            (((code = gs_rectappend(pgs, rlist, rcount)) < 0) ||
            ((code = gs_fill(pgs)) < 0))
            )
            DO_NOTHING;
        if (do_save)
            gs_grestore(pgs);
        else if (code < 0)
            gs_newpath(pgs);
    }

exit:
    if (black_vector) {
        /* Restore color */
        gsicc_restore_blacktextvec(pgs, false);
    }
    return code;
}

/* Stroke a list of rectangles. */
/* (We could do this a lot more efficiently.) */
int
gs_rectstroke(gs_gstate * pgs, const gs_rect * pr, uint count,
              const gs_matrix * pmat)
{
    bool do_save = pmat != NULL || !gx_path_is_null(pgs->path);
    int code;

    if (do_save) {
        if ((code = gs_gsave(pgs)) < 0)
            return code;
        gs_newpath(pgs);
    }
    if ((code = gs_rectappend(pgs, pr, count)) < 0 ||
        (pmat != NULL && (code = gs_concat(pgs, pmat)) < 0) ||
        (code = gs_stroke(pgs)) < 0
        )
        DO_NOTHING;
    if (do_save)
        gs_grestore(pgs);
    else if (code < 0)
        gs_newpath(pgs);
    return code;
}

Coverage Report

Created: 2025-06-10 07:19

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		/* Display PostScript graphics additions for Ghostscript library */
18		#include "math_.h"
19		#include "gx.h"
20		#include "gserrors.h"
21		#include "gsmatrix.h" /* for gscoord.h */
22		#include "gscoord.h"
23		#include "gspaint.h"
24		#include "gxdevice.h"
25		#include "gxfixed.h"
26		#include "gxmatrix.h"
27		#include "gxhldevc.h"
28		#include "gspath.h"
29		#include "gspath2.h" /* defines interface */
30		#include "gzpath.h"
31		#include "gzcpath.h"
32		#include "gzstate.h"
33		#include "gsutil.h"
34		#include "gxdevsop.h"
35
36		/*
37		* Define how much rounding slop setbbox should leave,
38		* in device coordinates. Because of rounding in transforming
39		* path coordinates to fixed point, the minimum realistic value is:
40		*
41		* #define box_rounding_slop_fixed (fixed_epsilon)
42		*
43		* But even this isn't enough to compensate for cumulative rounding error
44		* in rmoveto or rcurveto. Instead, we somewhat arbitrarily use:
45		*/
46	0	#define box_rounding_slop_fixed (fixed_epsilon * 3)
47
48		/* ------ Graphics state ------ */
49
50		/* Set the bounding box for the current path. */
51		int
52		gs_setbbox(gs_gstate * pgs, double llx, double lly, double urx, double ury)
53	0	{
54	0	gs_rect ubox, dbox;
55	0	gs_fixed_rect obox, bbox;
56	0	gx_path *ppath = pgs->path;
57	0	int code;
58
59	0	if (llx > urx \|\| lly > ury)
60	0	return_error(gs_error_rangecheck);
61		/* Transform box to device coordinates. */
62	0	ubox.p.x = llx;
63	0	ubox.p.y = lly;
64	0	ubox.q.x = urx;
65	0	ubox.q.y = ury;
66	0	if ((code = gs_bbox_transform(&ubox, &ctm_only(pgs), &dbox)) < 0)
67	0	return code;
68		/* Round the corners in opposite directions. */
69		/* Because we can't predict the magnitude of the dbox values, */
70		/* we add/subtract the slop after fixing. */
71	0	if (dbox.p.x < fixed2float(min_fixed + box_rounding_slop_fixed) \|\|
72	0	dbox.p.y < fixed2float(min_fixed + box_rounding_slop_fixed) \|\|
73	0	dbox.q.x >= fixed2float(max_fixed - box_rounding_slop_fixed + fixed_epsilon) \|\|
74	0	dbox.q.y >= fixed2float(max_fixed - box_rounding_slop_fixed + fixed_epsilon)
75	0	)
76	0	return_error(gs_error_limitcheck);
77	0	bbox.p.x =
78	0	(fixed) floor(dbox.p.x * fixed_scale) - box_rounding_slop_fixed;
79	0	bbox.p.y =
80	0	(fixed) floor(dbox.p.y * fixed_scale) - box_rounding_slop_fixed;
81	0	bbox.q.x =
82	0	(fixed) ceil(dbox.q.x * fixed_scale) + box_rounding_slop_fixed;
83	0	bbox.q.y =
84	0	(fixed) ceil(dbox.q.y * fixed_scale) + box_rounding_slop_fixed;
85	0	if (gx_path_bbox_set(ppath, &obox) >= 0) { /* Take the union of the bboxes. */
86	0	ppath->bbox.p.x = min(obox.p.x, bbox.p.x);
87	0	ppath->bbox.p.y = min(obox.p.y, bbox.p.y);
88	0	ppath->bbox.q.x = max(obox.q.x, bbox.q.x);
89	0	ppath->bbox.q.y = max(obox.q.y, bbox.q.y);
90	0	} else { /* empty path // Just set the bbox. */
91	0	ppath->bbox = bbox;
92	0	}
93	0	ppath->bbox_set = 1;
94	0	return 0;
95	0	}
96
97		/* ------ Rectangles ------ */
98
99		/* Append a list of rectangles to a path. */
100		static int
101		gs_rectappend_compat(gs_gstate * pgs, const gs_rect * pr, uint count, bool clip)
102	17.3k	{
103	17.3k	bool CPSI_mode = gs_currentcpsimode(pgs->memory);
104
105	34.6k	for (; count != 0; count--, pr++) {
106	17.3k	double px = pr->p.x, py = pr->p.y, qx = pr->q.x, qy = pr->q.y;
107	17.3k	int code;
108
109	17.3k	if (CPSI_mode) {
110		/* We believe that the result must be independent
111		on the device initial matrix.
112		Particularly for the correct dashing
113		the starting point and the contour direction
114		must be same with any device initial matrix.
115		Only way to provide it is to choose the starting point
116		and the direction in the user space. */
117	0	if (clip) {
118		/* CPSI starts a clippath with the upper right corner. */
119		/* Debugged with CET 11-11.PS page 6 item much13.*/
120	0	if ((code = gs_moveto(pgs, qx, qy)) < 0 \|\|
121	0	(code = gs_lineto(pgs, qx, py)) < 0 \|\|
122	0	(code = gs_lineto(pgs, px, py)) < 0 \|\|
123	0	(code = gs_lineto(pgs, px, qy)) < 0 \|\|
124	0	(code = gs_closepath(pgs)) < 0
125	0	)
126	0	return code;
127	0	} else {
128		/* Debugged with CET 12-12.PS page 10 item more20.*/
129	0	if (px > qx) {
130	0	px = qx; qx = pr->p.x;
131	0	}
132	0	if (py > qy) {
133	0	py = qy; qy = pr->p.y;
134	0	}
135	0	if ((code = gs_moveto(pgs, px, py)) < 0 \|\|
136	0	(code = gs_lineto(pgs, qx, py)) < 0 \|\|
137	0	(code = gs_lineto(pgs, qx, qy)) < 0 \|\|
138	0	(code = gs_lineto(pgs, px, qy)) < 0 \|\|
139	0	(code = gs_closepath(pgs)) < 0
140	0	)
141	0	return code;
142	0	}
143	17.3k	} else {
144		/* Ensure counter-clockwise drawing. */
145	17.3k	if ((qx >= px) != (qy >= py))
146	737	qx = px, px = pr->q.x; /* swap x values */
147	17.3k	if ((code = gs_moveto(pgs, px, py)) < 0 \|\|
148	17.3k	(code = gs_lineto(pgs, qx, py)) < 0 \|\|
149	17.3k	(code = gs_lineto(pgs, qx, qy)) < 0 \|\|
150	17.3k	(code = gs_lineto(pgs, px, qy)) < 0 \|\|
151	17.3k	(code = gs_closepath(pgs)) < 0
152	17.3k	)
153	0	return code;
154	17.3k	}
155	17.3k	}
156	17.3k	return 0;
157	17.3k	}
158		int
159		gs_rectappend(gs_gstate * pgs, const gs_rect * pr, uint count)
160	1.09k	{
161	1.09k	return gs_rectappend_compat(pgs, pr, count, false);
162	1.09k	}
163
164		/* Clip to a list of rectangles. */
165		int
166		gs_rectclip(gs_gstate * pgs, const gs_rect * pr, uint count)
167	16.2k	{
168	16.2k	int code;
169	16.2k	gx_path save;
170
171	16.2k	gx_path_init_local(&save, pgs->memory);
172	16.2k	gx_path_assign_preserve(&save, pgs->path);
173	16.2k	gs_newpath(pgs);
174	16.2k	if ((code = gs_rectappend_compat(pgs, pr, count, true)) < 0 \|\|
175	16.2k	(code = gs_clip(pgs)) < 0
176	16.2k	) {
177	0	gx_path_assign_free(pgs->path, &save);
178	0	return code;
179	0	}
180	16.2k	gx_path_free(&save, "gs_rectclip");
181	16.2k	gs_newpath(pgs);
182	16.2k	return 0;
183	16.2k	}
184
185		/* Setup for black vector handling */
186		static inline bool black_vectors(gs_gstate pgs, gx_device dev)
187	6.52k	{
188	6.52k	if (dev->icc_struct != NULL && dev->icc_struct->blackvector &&
189	6.52k	pgs->black_textvec_state == NULL) {
190	0	return gsicc_setup_blacktextvec(pgs, dev, false);
191	0	}
192	6.52k	return false;
193	6.52k	}
194
195		/* Fill a list of rectangles. */
196		/* We take the trouble to do this efficiently in the simple cases. */
197		int
198		gs_rectfill(gs_gstate * pgs, const gs_rect * pr, uint count)
199	6.52k	{
200	6.52k	const gs_rect *rlist = pr;
201	6.52k	gx_clip_path *pcpath;
202	6.52k	uint rcount = count;
203	6.52k	int code;
204	6.52k	gx_device * pdev = pgs->device;
205	6.52k	gx_device_color *pdc = gs_currentdevicecolor_inline(pgs);
206	6.52k	const gs_gstate pgs2 = (const gs_gstate )pgs;
207	6.52k	bool hl_color_available = gx_hld_is_hl_color_available(pgs2, pdc);
208	6.52k	bool hl_color = (hl_color_available &&
209	6.52k	dev_proc(pdev, dev_spec_op)(pdev, gxdso_supports_hlcolor,
210	6.52k	NULL, 0));
211	6.52k	bool center_of_pixel = (pgs->fill_adjust.x == 0 && pgs->fill_adjust.y == 0);
212	6.52k	bool black_vector = false;
213
214		/* Processing a fill object operation */
215	6.52k	ensure_tag_is_set(pgs, pgs->device, GS_VECTOR_TAG); /* NB: may unset_dev_color */
216
217	6.52k	black_vector = black_vectors(pgs, pgs->device); /* Set vector fill to black */
218
219	6.52k	code = gx_set_dev_color(pgs);
220	6.52k	if (code != 0)
221	0	goto exit;
222
223	6.52k	if ( !(pgs->device->page_uses_transparency \|\|
224	6.52k	dev_proc(pgs->device, dev_spec_op)(pgs->device,
225	6.52k	gxdso_is_pdf14_device, &(pgs->device),
226	6.52k	sizeof(pgs->device))) &&
227	6.52k	(is_fzero2(pgs->ctm.xy, pgs->ctm.yx) \|\|
228	6.51k	is_fzero2(pgs->ctm.xx, pgs->ctm.yy)) &&
229	6.52k	gx_effective_clip_path(pgs, &pcpath) >= 0 &&
230	6.52k	clip_list_is_rectangle(gx_cpath_list(pcpath)) &&
231	6.52k	(hl_color \|\|
232	6.50k	pdc->type == gx_dc_type_pure \|\|
233	6.50k	pdc->type == gx_dc_type_ht_binary \|\|
234	6.50k	pdc->type == gx_dc_type_ht_colored) &&
235	6.52k	gs_gstate_color_load(pgs) >= 0 &&
236	6.52k	(*dev_proc(pdev, get_alpha_bits)) (pdev, go_graphics)
237	6.50k	<= 1 &&
238	6.52k	(!pgs->overprint \|\| !gs_currentcolor_eopm(pgs))
239	6.52k	) {
240	6.50k	uint i;
241	6.50k	gs_fixed_rect clip_rect;
242
243	6.50k	gx_cpath_inner_box(pcpath, &clip_rect);
244		/* We should never plot anything for an empty clip rectangle */
245	6.50k	if ((clip_rect.p.x >= clip_rect.q.x) &&
246	6.50k	(clip_rect.p.y >= clip_rect.q.y))
247	3	goto exit;
248	11.9k	for (i = 0; i < count; ++i) {
249	6.50k	gs_fixed_point p, q;
250	6.50k	gs_fixed_rect draw_rect;
251
252	6.50k	if (gs_point_transform2fixed(&pgs->ctm, pr[i].p.x, pr[i].p.y, &p) < 0 \|\|
253	6.50k	gs_point_transform2fixed(&pgs->ctm, pr[i].q.x, pr[i].q.y, &q) < 0
254	6.50k	) { /* Switch to the slow algorithm. */
255	1.02k	goto slow;
256	1.02k	}
257	5.47k	draw_rect.p.x = min(p.x, q.x);
258	5.47k	draw_rect.p.y = min(p.y, q.y);
259	5.47k	draw_rect.q.x = max(p.x, q.x);
260	5.47k	draw_rect.q.y = max(p.y, q.y);
261	5.47k	if (hl_color) {
262	0	rect_intersect(draw_rect, clip_rect);
263		/* We do pass on 0 extant rectangles to high level
264		devices. It isn't clear how a client and an output
265		device should interact if one uses a center of
266		pixel algorithm and the other uses any part of
267		pixel. For now we punt and just pass the high
268		level rectangle on without adjustment. */
269	0	if (draw_rect.p.x <= draw_rect.q.x &&
270	0	draw_rect.p.y <= draw_rect.q.y) {
271	0	code = dev_proc(pdev, fill_rectangle_hl_color)(pdev,
272	0	&draw_rect, pgs2, pdc, pcpath);
273	0	if (code < 0)
274	0	goto exit;
275	0	}
276	5.47k	} else {
277	5.47k	int x, y, w, h;
278
279	5.47k	rect_intersect(draw_rect, clip_rect);
280	5.47k	if (center_of_pixel) {
281	0	draw_rect.p.x = fixed_rounded(draw_rect.p.x);
282	0	draw_rect.p.y = fixed_rounded(draw_rect.p.y);
283	0	draw_rect.q.x = fixed_rounded(draw_rect.q.x);
284	0	draw_rect.q.y = fixed_rounded(draw_rect.q.y);
285	5.47k	} else { /* any part of pixel rule - touched */
286	5.47k	draw_rect.p.x = fixed_floor(draw_rect.p.x);
287	5.47k	draw_rect.p.y = fixed_floor(draw_rect.p.y);
288	5.47k	draw_rect.q.x = fixed_ceiling(draw_rect.q.x);
289	5.47k	draw_rect.q.y = fixed_ceiling(draw_rect.q.y);
290	5.47k	}
291	5.47k	x = fixed2int(draw_rect.p.x);
292	5.47k	y = fixed2int(draw_rect.p.y);
293	5.47k	w = fixed2int(draw_rect.q.x) - x;
294	5.47k	h = fixed2int(draw_rect.q.y) - y;
295		/* clients that use the "any part of pixel" rule also
296		fill 0 areas. This is true of current graphics
297		library clients but not a general rule. */
298	5.47k	if (!center_of_pixel) {
299	5.47k	if (w == 0)
300	806	w = 1;
301		/* yes Adobe Acrobat 8, seems to back up the y
302		coordinate when the width is 0, sigh. */
303	5.47k	if (h == 0) {
304	109	y--;
305	109	h = 1;
306	109	}
307	5.47k	}
308	5.47k	if (gx_fill_rectangle(x, y, w, h, pdc, pgs) < 0)
309	0	goto slow;
310	5.47k	}
311	5.47k	}
312	5.47k	code = 0;
313	5.47k	goto exit;
314	1.02k	slow:rlist = pr + i;
315	1.02k	rcount = count - i;
316	1.04k	} {
317	1.04k	bool do_save = !gx_path_is_null(pgs->path);
318
319	1.04k	if (do_save) {
320	0	if ((code = gs_gsave(pgs)) < 0)
321	0	goto exit;
322	0	code = gs_newpath(pgs);
323	0	}
324	1.04k	if ((code >= 0) &&
325	1.04k	(((code = gs_rectappend(pgs, rlist, rcount)) < 0) \|\|
326	1.04k	((code = gs_fill(pgs)) < 0))
327	1.04k	)
328	1.04k	DO_NOTHING;
329	1.04k	if (do_save)
330	0	gs_grestore(pgs);
331	1.04k	else if (code < 0)
332	0	gs_newpath(pgs);
333	1.04k	}
334
335	6.52k	exit:
336	6.52k	if (black_vector) {
337		/* Restore color */
338	0	gsicc_restore_blacktextvec(pgs, false);
339	0	}
340	6.52k	return code;
341	1.04k	}
342
343		/* Stroke a list of rectangles. */
344		/* (We could do this a lot more efficiently.) */
345		int
346		gs_rectstroke(gs_gstate * pgs, const gs_rect * pr, uint count,
347		const gs_matrix * pmat)
348	48	{
349	48	bool do_save = pmat != NULL \|\| !gx_path_is_null(pgs->path);
350	48	int code;
351
352	48	if (do_save) {
353	0	if ((code = gs_gsave(pgs)) < 0)
354	0	return code;
355	0	gs_newpath(pgs);
356	0	}
357	48	if ((code = gs_rectappend(pgs, pr, count)) < 0 \|\|
358	48	(pmat != NULL && (code = gs_concat(pgs, pmat)) < 0) \|\|
359	48	(code = gs_stroke(pgs)) < 0
360	48	)
361	48	DO_NOTHING;
362	48	if (do_save)
363	0	gs_grestore(pgs);
364	48	else if (code < 0)
365	0	gs_newpath(pgs);
366	48	return code;
367	48	}