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#include <assert.h>
#include "mupdf/fitz.h"
fz_path *
fz_new_path(fz_context *ctx)
{
fz_path *path;
path = fz_malloc_struct(ctx, fz_path);
path->refs = 1;
path->last_cmd = 0;
path->current.x = 0;
path->current.y = 0;
path->begin.x = 0;
path->begin.y = 0;
return path;
}
fz_path *
fz_keep_path(fz_context *ctx, fz_path *path)
{
if (path->refs == 1)
fz_trim_path(ctx, path);
return fz_keep_imp(ctx, path, &path->refs);
}
void
fz_drop_path(fz_context *ctx, fz_path *path)
{
if (fz_drop_imp(ctx, path, &path->refs))
{
fz_free(ctx, path->cmds);
fz_free(ctx, path->coords);
fz_free(ctx, path);
}
}
static void
push_cmd(fz_context *ctx, fz_path *path, int cmd)
{
if (path->refs != 1)
fz_throw(ctx, FZ_ERROR_GENERIC, "cannot modify shared paths");
if (path->cmd_len + 1 >= path->cmd_cap)
{
int new_cmd_cap = fz_maxi(16, path->cmd_cap * 2);
path->cmds = fz_resize_array(ctx, path->cmds, new_cmd_cap, sizeof(unsigned char));
path->cmd_cap = new_cmd_cap;
}
path->cmds[path->cmd_len++] = cmd;
path->last_cmd = cmd;
}
static void
push_coord(fz_context *ctx, fz_path *path, float x, float y)
{
if (path->coord_len + 2 >= path->coord_cap)
{
int new_coord_cap = fz_maxi(32, path->coord_cap * 2);
path->coords = fz_resize_array(ctx, path->coords, new_coord_cap, sizeof(float));
path->coord_cap = new_coord_cap;
}
path->coords[path->coord_len++] = x;
path->coords[path->coord_len++] = y;
path->current.x = x;
path->current.y = y;
}
fz_point
fz_currentpoint(fz_context *ctx, fz_path *path)
{
return path->current;
}
void
fz_moveto(fz_context *ctx, fz_path *path, float x, float y)
{
if (path->cmd_len > 0 && path->last_cmd == FZ_MOVETO)
{
/* Collapse moveto followed by moveto. */
path->coords[path->coord_len-2] = x;
path->coords[path->coord_len-1] = y;
path->current.x = x;
path->current.y = y;
path->begin = path->current;
return;
}
push_cmd(ctx, path, FZ_MOVETO);
push_coord(ctx, path, x, y);
path->begin = path->current;
}
void
fz_lineto(fz_context *ctx, fz_path *path, float x, float y)
{
float x0 = path->current.x;
float y0 = path->current.y;
if (path->cmd_len == 0)
{
fz_warn(ctx, "lineto with no current point");
return;
}
/* Anything other than MoveTo followed by LineTo the same place is a nop */
if (path->last_cmd != FZ_MOVETO && x0 == x && y0 == y)
return;
push_cmd(ctx, path, FZ_LINETO);
push_coord(ctx, path, x, y);
}
void
fz_curveto(fz_context *ctx, fz_path *path,
float x1, float y1,
float x2, float y2,
float x3, float y3)
{
float x0 = path->current.x;
float y0 = path->current.y;
if (path->cmd_len == 0)
{
fz_warn(ctx, "curveto with no current point");
return;
}
/* Check for degenerate cases: */
if (x0 == x1 && y0 == y1)
{
if (x2 == x3 && y2 == y3)
{
/* If (x1,y1)==(x2,y2) and prev wasn't a moveto, then skip */
if (x1 == x2 && y1 == y2 && path->last_cmd != FZ_MOVETO)
return;
/* Otherwise a line will suffice */
fz_lineto(ctx, path, x3, y3);
return;
}
if (x1 == x2 && y1 == y2)
{
/* A line will suffice */
fz_lineto(ctx, path, x3, y3);
return;
}
}
else if (x1 == x2 && y1 == y2 && x2 == x3 && y2 == y3)
{
/* A line will suffice */
fz_lineto(ctx, path, x3, y3);
return;
}
push_cmd(ctx, path, FZ_CURVETO);
push_coord(ctx, path, x1, y1);
push_coord(ctx, path, x2, y2);
push_coord(ctx, path, x3, y3);
}
void
fz_curvetov(fz_context *ctx, fz_path *path, float x2, float y2, float x3, float y3)
{
float x1 = path->current.x;
float y1 = path->current.y;
if (path->cmd_len == 0)
{
fz_warn(ctx, "curvetov with no current point");
return;
}
fz_curveto(ctx, path, x1, y1, x2, y2, x3, y3);
}
void
fz_curvetoy(fz_context *ctx, fz_path *path, float x1, float y1, float x3, float y3)
{
fz_curveto(ctx, path, x1, y1, x3, y3, x3, y3);
}
void
fz_closepath(fz_context *ctx, fz_path *path)
{
if (path->cmd_len == 0)
{
fz_warn(ctx, "closepath with no current point");
return;
}
/* CLOSE following a CLOSE is a NOP */
if (path->last_cmd == FZ_CLOSE_PATH)
return;
push_cmd(ctx, path, FZ_CLOSE_PATH);
path->current = path->begin;
}
static inline fz_rect *bound_expand(fz_rect *r, const fz_point *p)
{
if (p->x < r->x0) r->x0 = p->x;
if (p->y < r->y0) r->y0 = p->y;
if (p->x > r->x1) r->x1 = p->x;
if (p->y > r->y1) r->y1 = p->y;
return r;
}
fz_rect *
fz_bound_path(fz_context *ctx, fz_path *path, const fz_stroke_state *stroke, const fz_matrix *ctm, fz_rect *r)
{
fz_point p;
int i = 0, k = 0;
/* If the path is empty, return the empty rectangle here - don't wait
* for it to be expanded in the stroked case below.
* A path must start with a moveto - and if that's all there is
* then the path is empty. */
if (path->cmd_len == 0 || path->cmd_len == 1)
{
*r = fz_empty_rect;
return r;
}
/* Initial moveto point */
p.x = path->coords[0];
p.y = path->coords[1];
fz_transform_point(&p, ctm);
r->x0 = r->x1 = p.x;
r->y0 = r->y1 = p.y;
while (i < path->cmd_len)
{
switch (path->cmds[i++])
{
case FZ_CURVETO:
p.x = path->coords[k++];
p.y = path->coords[k++];
bound_expand(r, fz_transform_point(&p, ctm));
p.x = path->coords[k++];
p.y = path->coords[k++];
bound_expand(r, fz_transform_point(&p, ctm));
p.x = path->coords[k++];
p.y = path->coords[k++];
bound_expand(r, fz_transform_point(&p, ctm));
break;
case FZ_MOVETO:
if (k + 2 == path->coord_len)
{
/* Trailing Moveto - cannot affect bbox */
k += 2;
break;
}
/* fallthrough */
case FZ_LINETO:
p.x = path->coords[k++];
p.y = path->coords[k++];
bound_expand(r, fz_transform_point(&p, ctm));
break;
case FZ_CLOSE_PATH:
break;
}
}
if (stroke)
{
fz_adjust_rect_for_stroke(ctx, r, stroke, ctm);
}
return r;
}
fz_rect *
fz_adjust_rect_for_stroke(fz_context *ctx, fz_rect *r, const fz_stroke_state *stroke, const fz_matrix *ctm)
{
float expand;
if (!stroke)
return r;
expand = stroke->linewidth;
if (expand == 0)
expand = 1.0f;
expand *= fz_matrix_max_expansion(ctm);
if ((stroke->linejoin == FZ_LINEJOIN_MITER || stroke->linejoin == FZ_LINEJOIN_MITER_XPS) && stroke->miterlimit > 1)
expand *= stroke->miterlimit;
r->x0 -= expand;
r->y0 -= expand;
r->x1 += expand;
r->y1 += expand;
return r;
}
void
fz_transform_path(fz_context *ctx, fz_path *path, const fz_matrix *ctm)
{
int i;
for (i = 0; i < path->coord_len; i += 2)
fz_transform_point((fz_point *)&path->coords[i], ctm);
}
void fz_trim_path(fz_context *ctx, fz_path *path)
{
if (path->cmd_cap > path->cmd_len)
{
path->cmds = fz_resize_array(ctx, path->cmds, path->cmd_len, sizeof(unsigned char));
path->cmd_cap = path->cmd_len;
}
if (path->coord_cap > path->coord_len)
{
path->coords = fz_resize_array(ctx, path->coords, path->coord_len, sizeof(float));
path->coord_cap = path->coord_len;
}
}
#ifndef NDEBUG
void
fz_print_path(fz_context *ctx, FILE *out, fz_path *path, int indent)
{
float x, y;
int i = 0, k = 0;
int n;
while (i < path->cmd_len)
{
for (n = 0; n < indent; n++)
fputc(' ', out);
switch (path->cmds[i++])
{
case FZ_MOVETO:
x = path->coords[k++];
y = path->coords[k++];
fprintf(out, "%g %g m\n", x, y);
break;
case FZ_LINETO:
x = path->coords[k++];
y = path->coords[k++];
fprintf(out, "%g %g l\n", x, y);
break;
case FZ_CURVETO:
x = path->coords[k++];
y = path->coords[k++];
fprintf(out, "%g %g ", x, y);
x = path->coords[k++];
y = path->coords[k++];
fprintf(out, "%g %g ", x, y);
x = path->coords[k++];
y = path->coords[k++];
fprintf(out, "%g %g c\n", x, y);
break;
case FZ_CLOSE_PATH:
fprintf(out, "h\n");
break;
}
}
}
#endif
const fz_stroke_state fz_default_stroke_state = {
-2, /* -2 is the magic number we use when we have stroke states stored on the stack */
FZ_LINECAP_BUTT, FZ_LINECAP_BUTT, FZ_LINECAP_BUTT,
FZ_LINEJOIN_MITER,
1, 10,
0, 0, { 0 }
};
fz_stroke_state *
fz_keep_stroke_state(fz_context *ctx, fz_stroke_state *stroke)
{
if (!stroke)
return NULL;
/* -2 is the magic number we use when we have stroke states stored on the stack */
if (stroke->refs == -2)
return fz_clone_stroke_state(ctx, stroke);
return fz_keep_imp(ctx, stroke, &stroke->refs);
}
void
fz_drop_stroke_state(fz_context *ctx, fz_stroke_state *stroke)
{
if (fz_drop_imp(ctx, stroke, &stroke->refs))
fz_free(ctx, stroke);
}
fz_stroke_state *
fz_new_stroke_state_with_dash_len(fz_context *ctx, int len)
{
fz_stroke_state *state;
len -= nelem(state->dash_list);
if (len < 0)
len = 0;
state = Memento_label(fz_malloc(ctx, sizeof(*state) + sizeof(state->dash_list[0]) * len), "fz_stroke_state");
state->refs = 1;
state->start_cap = FZ_LINECAP_BUTT;
state->dash_cap = FZ_LINECAP_BUTT;
state->end_cap = FZ_LINECAP_BUTT;
state->linejoin = FZ_LINEJOIN_MITER;
state->linewidth = 1;
state->miterlimit = 10;
state->dash_phase = 0;
state->dash_len = 0;
memset(state->dash_list, 0, sizeof(state->dash_list[0]) * (len + nelem(state->dash_list)));
return state;
}
fz_stroke_state *
fz_new_stroke_state(fz_context *ctx)
{
return fz_new_stroke_state_with_dash_len(ctx, 0);
}
fz_stroke_state *
fz_clone_stroke_state(fz_context *ctx, fz_stroke_state *stroke)
{
fz_stroke_state *clone = fz_new_stroke_state_with_dash_len(ctx, stroke->dash_len);
int extra = stroke->dash_len - nelem(stroke->dash_list);
int size = sizeof(*stroke) + sizeof(stroke->dash_list[0]) * extra;
memcpy(clone, stroke, size);
clone->refs = 1;
return clone;
}
fz_stroke_state *
fz_unshare_stroke_state_with_dash_len(fz_context *ctx, fz_stroke_state *shared, int len)
{
int single, unsize, shsize, shlen, drop;
fz_stroke_state *unshared;
fz_lock(ctx, FZ_LOCK_ALLOC);
single = (shared->refs == 1);
fz_unlock(ctx, FZ_LOCK_ALLOC);
shlen = shared->dash_len - nelem(shared->dash_list);
if (shlen < 0)
shlen = 0;
shsize = sizeof(*shared) + sizeof(shared->dash_list[0]) * shlen;
len -= nelem(shared->dash_list);
if (len < 0)
len = 0;
if (single && shlen >= len)
return shared;
unsize = sizeof(*unshared) + sizeof(unshared->dash_list[0]) * len;
unshared = Memento_label(fz_malloc(ctx, unsize), "fz_stroke_state");
memcpy(unshared, shared, (shsize > unsize ? unsize : shsize));
unshared->refs = 1;
fz_lock(ctx, FZ_LOCK_ALLOC);
drop = (shared->refs > 0 ? --shared->refs == 0 : 0);
fz_unlock(ctx, FZ_LOCK_ALLOC);
if (drop)
fz_free(ctx, shared);
return unshared;
}
fz_stroke_state *
fz_unshare_stroke_state(fz_context *ctx, fz_stroke_state *shared)
{
return fz_unshare_stroke_state_with_dash_len(ctx, shared, shared->dash_len);
}
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