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/* Copyright (C) 2001-2020 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., 1305 Grant Avenue - Suite 200, Novato,
CA 94945, U.S.A., +1(415)492-9861, for further information.
*/
/* Dash expansion for paths */
#include "math_.h"
#include "gx.h"
#include "gsmatrix.h" /* for gscoord.h */
#include "gscoord.h"
#include "gxfixed.h"
#include "gxarith.h"
#include "gxgstate.h"
#include "gsline.h"
#include "gzline.h"
#include "gzpath.h"
/* Expand a dashed path into explicit segments. */
/* The path contains no curves. */
static int subpath_expand_dashes(const subpath *, gx_path *,
const gs_gstate *,
const gx_dash_params *);
int
gx_path_add_dash_expansion(const gx_path * ppath_old, gx_path * ppath,
const gs_gstate * pgs)
{
const subpath *psub;
const gx_dash_params *dash = &gs_currentlineparams(pgs)->dash;
int code = 0;
if (dash->pattern_size == 0)
return gx_path_copy(ppath_old, ppath);
for (psub = ppath_old->first_subpath; psub != 0 && code >= 0;
psub = (const subpath *)psub->last->next
)
code = subpath_expand_dashes(psub, ppath, pgs, dash);
return code;
}
static int
subpath_expand_dashes(const subpath * psub, gx_path * ppath,
const gs_gstate * pgs, const gx_dash_params * dash)
{
const float *pattern = dash->pattern;
int count, index;
bool ink_on;
double elt_length;
fixed x0 = psub->pt.x, y0 = psub->pt.y;
fixed x, y;
const segment *pseg;
int wrap = (dash->init_ink_on && psub->is_closed ? -1 : 0);
int drawing = wrap;
segment_notes notes = ~sn_not_first;
const gx_line_params *pgs_lp = gs_currentlineparams_inline(pgs);
bool zero_length = true;
int code;
gs_line_cap cap;
segment_notes start_notes, end_notes;
if (wrap) {
/* If we are wrapping around, then we use dash caps throughout */
cap = pgs_lp->dash_cap;
start_notes = sn_dash_head;
} else {
/* Otherwise, start off with a start cap */
cap = pgs_lp->start_cap;
start_notes = 0;
}
if ((code = gx_path_add_point(ppath, x0, y0)) < 0)
return code;
/*
* To do the right thing at the beginning of a closed path, we have
* to skip any initial line, and then redo it at the end of the
* path. Drawing = -1 while skipping, 0 while drawing normally, and
* 1 on the second round. Note that drawing != 0 implies ink_on.
*/
top:count = dash->pattern_size;
ink_on = dash->init_ink_on;
index = dash->init_index;
elt_length = dash->init_dist_left;
x = x0, y = y0;
pseg = (const segment *)psub;
while ((pseg = pseg->next) != 0 && pseg->type != s_start) {
fixed sx = pseg->pt.x, sy = pseg->pt.y;
fixed udx = sx - x, udy = sy - y;
double length, dx, dy;
double scale = 1;
double left;
int gap = pseg->type == s_gap;
if (!(udx | udy)) { /* degenerate */
if (pgs_lp->dot_length == 0 &&
cap != gs_cap_round) {
/* From PLRM, stroke operator :
If a subpath is degenerate (consists of a single-point closed path
or of two or more points at the same coordinates),
stroke paints it only if round line caps have been specified */
if (zero_length || pseg->type != s_line_close)
continue;
}
dx = 0, dy = 0, length = 0;
} else {
gs_point d;
zero_length = false;
dx = udx, dy = udy; /* scaled as fixed */
code = gs_gstate_idtransform(pgs, dx, dy, &d);
if (code < 0) {
d.x = 0; d.y = 0;
/* Swallow the error */
code = 0;
}
length = hypot(d.x, d.y) * (1.0 / fixed_1);
if (gs_gstate_currentdashadapt(pgs)) {
double reps = length / dash->pattern_length;
scale = reps / ceil(reps);
/* Ensure we're starting at the start of a */
/* repetition. (This shouldn't be necessary, */
/* but it is.) */
count = dash->pattern_size;
ink_on = dash->init_ink_on;
index = dash->init_index;
elt_length = dash->init_dist_left * scale;
}
}
left = length;
while (left > elt_length) { /* We are using up the line segment. */
double fraction = elt_length / length;
fixed fx = (fixed) (dx * fraction);
fixed fy = (fixed) (dy * fraction);
fixed nx = x + fx;
fixed ny = y + fy;
if (ink_on && !gap) {
if (drawing >= 0) {
if (left >= elt_length && any_abs(fx) + any_abs(fy) < fixed_half)
code = gx_path_add_dash_notes(ppath, nx, ny, udx, udy,
((notes & pseg->notes)|
start_notes|
sn_dash_tail));
else
code = gx_path_add_line_notes(ppath, nx, ny,
((notes & pseg->notes)|
start_notes|
sn_dash_tail));
}
notes |= sn_not_first;
} else {
if (drawing > 0) /* done */
return 0;
code = gx_path_add_point(ppath, nx, ny);
notes &= ~sn_not_first;
drawing = 0;
}
if (code < 0)
return code;
left -= elt_length;
ink_on = !ink_on;
start_notes = sn_dash_head;
if (++index == count)
index = 0;
elt_length = pattern[index] * scale;
x = nx, y = ny;
}
elt_length -= left;
/* Handle the last dash of a segment. */
if (wrap) {
/* We are wrapping, therefore we always use the dash cap */
end_notes = sn_dash_tail;
} else {
/* Look ahead to see if we have any more non-degenerate segments
* before the next move or end of subpath. (i.e. should we use an
* end cap or a dash cap?) */
const segment *pseg2 = pseg->next;
end_notes = 0;
while (pseg2 != 0 && pseg2->type != s_start)
{
if ((pseg2->pt.x != sx) || (pseg2->pt.x != sy)) {
/* Non degenerate. We aren't the last one */
end_notes = sn_dash_tail;
break;
}
pseg2 = pseg2->next;
}
}
on:if (ink_on && !gap) {
if (drawing >= 0) {
if (pseg->type == s_line_close && drawing > 0)
code = gx_path_close_subpath_notes(ppath,
((notes & pseg->notes)|
start_notes |
end_notes));
else if ((any_abs(sx - x) + any_abs(sy - y) < fixed_half) &&
(udx | udy))
/* If we only need to move a short distance, then output
* dash notes to ensure that the stroke tangent remains
* accurate. There is no point in outputting such dash
* notes if we don't have any useful information to put
* in the note though (if udx == 0 && udy == 0). */
code = gx_path_add_dash_notes(ppath, sx, sy, udx, udy,
((notes & pseg->notes)|
start_notes | end_notes));
else
code = gx_path_add_line_notes(ppath, sx, sy,
((notes & pseg->notes)|
start_notes | end_notes));
notes |= sn_not_first;
}
} else {
code = gx_path_add_point(ppath, sx, sy);
notes &= ~sn_not_first;
if (elt_length < fixed2float(fixed_epsilon) &&
(pseg->next == 0 ||
pseg->next->type == s_start ||
pseg->next->type == s_gap ||
elt_length == 0)) {
/*
* Ink is off, but we're within epsilon of the end
* of the dash element.
* "Stretch" a little so we get a dot.
* Also if the next dash pattern is zero length,
* use the last segment orientation.
*/
double elt_length1;
if (code < 0)
return code;
if (++index == count)
index = 0;
elt_length1 = pattern[index] * scale;
if (pseg->next == 0 ||
pseg->next->type == s_start ||
pseg->next->type == s_gap) {
elt_length = elt_length1;
left = 0;
ink_on = true;
goto on;
}
/* Looking ahead one dash pattern element.
If it is zero length, apply to the current segment
(at its end). */
if (elt_length1 == 0) {
left = 0;
code = gx_path_add_dash_notes(ppath, sx, sy, udx, udy,
((notes & pseg->notes)|
start_notes | end_notes));
if (++index == count)
index = 0;
elt_length = pattern[index] * scale;
ink_on = false;
} else if (--index == 0) {
/* Revert lookahead. */
index = count - 1;
}
}
if (drawing > 0) /* done */
return code;
drawing = 0;
}
if (code < 0)
return code;
x = sx, y = sy;
cap = pgs_lp->dash_cap;
}
/* Check for wraparound. */
if (wrap && drawing <= 0) { /* We skipped some initial lines. */
/* Go back and do them now. */
drawing = 1;
goto top;
}
return 0;
}
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