int
pxSetClipIntersect(px_args_t *par, px_state_t *pxs)
{ gs_state *pgs = pxs->pgs;
pxeClipRegion_t clip_region = par->pv[0]->value.i;
int code;
check_clip_region(par, pxs);
/*
* The discussion of ClipMode and ClipRegion in the published
* specification is confused and incorrect. Based on testing with
* the LaserJet 6MP, we believe that ClipMode works just like
* PostScript clip and eoclip, and that ClipRegion applies only to
* the *current* path (i.e., support for "outside clipping" in the
* library is unnecessary). If we had only known....
*/
#if 0
gs_setclipoutside(pgs, false);
#endif
if ( clip_region == eExterior )
{ /*
* We know clip_mode is eEvenOdd, so we can complement the
* region defined by the current path by just adding a
* rectangle that encloses the entire page.
*/
gs_rect bbox;
code = gs_gsave(pgs);
if ( code < 0 )
return code;
px_initclip(pxs);
if ( (code = gs_clippath(pgs)) < 0 ||
(code = gs_pathbbox(pgs, &bbox)) < 0
)
DO_NOTHING;
gs_grestore(pgs);
if ( code < 0 ||
(code = gs_rectappend(pgs, &bbox, 1)) < 0
)
return code;
#ifdef CLIP_INTERSECT_EXTERIOR_REPLACES
px_initclip(pxs);
#endif
}
code =
(pxs->pxgs->clip_mode == eEvenOdd ? gs_eoclip(pgs) : gs_clip(pgs));
if ( code < 0 )
return code;
#if 0
gs_setclipoutside(pgs, clip_region == eExterior);
#endif
return gs_newpath(pgs);
}
/* This is very inefficient right now. */
int
gx_clip_to_path(gs_state * pgs)
{
gs_fixed_rect bbox;
int code;
if ((code = gx_path_bbox(pgs->path, &bbox)) < 0 ||
(code = gx_clip_to_rectangle(pgs, &bbox)) < 0 ||
(code = gs_clip(pgs)) < 0
)
return code;
note_set_clip_path(pgs);
return 0;
}
/* Clip to a list of rectangles. */
int
gs_rectclip(gs_state * 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;
}
static int
xps_paint_tiling_brush_clipped(struct tile_closure_s *c)
{
xps_context_t *ctx = c->ctx;
int code;
gs_moveto(ctx->pgs, c->viewbox.p.x, c->viewbox.p.y);
gs_lineto(ctx->pgs, c->viewbox.p.x, c->viewbox.q.y);
gs_lineto(ctx->pgs, c->viewbox.q.x, c->viewbox.q.y);
gs_lineto(ctx->pgs, c->viewbox.q.x, c->viewbox.p.y);
gs_closepath(ctx->pgs);
gs_clip(ctx->pgs);
gs_newpath(ctx->pgs);
code = c->func(c->ctx, c->base_uri, c->dict, c->tag, c->user);
if (code < 0)
return gs_rethrow(code, "cannot draw clipped tile");
return 0;
}
/* - clip - */
static int
zclip(i_ctx_t *i_ctx_p)
{
return gs_clip(igs);
}
int
xps_parse_tiling_brush(xps_context_t *ctx, char *base_uri, xps_resource_t *dict, xps_item_t *root,
int (*func)(xps_context_t*, char*, xps_resource_t*, xps_item_t*, void*), void *user)
{
xps_item_t *node;
int code;
char *opacity_att;
char *transform_att;
char *viewbox_att;
char *viewport_att;
char *tile_mode_att;
/*char *viewbox_units_att;*/
/*char *viewport_units_att;*/
xps_item_t *transform_tag = NULL;
gs_matrix transform;
gs_rect viewbox;
gs_rect viewport;
float scalex, scaley;
int tile_mode;
opacity_att = xps_att(root, "Opacity");
transform_att = xps_att(root, "Transform");
viewbox_att = xps_att(root, "Viewbox");
viewport_att = xps_att(root, "Viewport");
tile_mode_att = xps_att(root, "TileMode");
/*viewbox_units_att = xps_att(root, "ViewboxUnits");*/
/*viewport_units_att = xps_att(root, "ViewportUnits");*/
for (node = xps_down(root); node; node = xps_next(node))
{
if (!strcmp(xps_tag(node), "ImageBrush.Transform"))
transform_tag = xps_down(node);
if (!strcmp(xps_tag(node), "VisualBrush.Transform"))
transform_tag = xps_down(node);
}
xps_resolve_resource_reference(ctx, dict, &transform_att, &transform_tag, NULL);
gs_make_identity(&transform);
if (transform_att)
xps_parse_render_transform(ctx, transform_att, &transform);
if (transform_tag)
xps_parse_matrix_transform(ctx, transform_tag, &transform);
viewbox.p.x = 0.0; viewbox.p.y = 0.0;
viewbox.q.x = 1.0; viewbox.q.y = 1.0;
if (viewbox_att)
xps_parse_rectangle(ctx, viewbox_att, &viewbox);
viewport.p.x = 0.0; viewport.p.y = 0.0;
viewport.q.x = 1.0; viewport.q.y = 1.0;
if (viewport_att)
xps_parse_rectangle(ctx, viewport_att, &viewport);
/* some sanity checks on the viewport/viewbox size */
if (fabs(viewport.q.x - viewport.p.x) < 0.01) { gs_warn("skipping tile with zero width view port"); return 0; }
if (fabs(viewport.q.y - viewport.p.y) < 0.01) { gs_warn("skipping tile with zero height view port"); return 0; }
if (fabs(viewbox.q.x - viewbox.p.x) < 0.01) { gs_warn("skipping tile with zero width view box"); return 0; }
if (fabs(viewbox.q.y - viewbox.p.y) < 0.01) { gs_warn("skipping tile with zero height view box"); return 0; }
scalex = (viewport.q.x - viewport.p.x) / (viewbox.q.x - viewbox.p.x);
scaley = (viewport.q.y - viewport.p.y) / (viewbox.q.y - viewbox.p.y);
tile_mode = TILE_NONE;
if (tile_mode_att)
{
if (!strcmp(tile_mode_att, "None"))
tile_mode = TILE_NONE;
if (!strcmp(tile_mode_att, "Tile"))
tile_mode = TILE_TILE;
if (!strcmp(tile_mode_att, "FlipX"))
tile_mode = TILE_FLIP_X;
if (!strcmp(tile_mode_att, "FlipY"))
tile_mode = TILE_FLIP_Y;
if (!strcmp(tile_mode_att, "FlipXY"))
tile_mode = TILE_FLIP_X_Y;
}
gs_gsave(ctx->pgs);
code = xps_begin_opacity(ctx, base_uri, dict, opacity_att, NULL, false, false);
if (code)
{
gs_grestore(ctx->pgs);
return gs_rethrow(code, "cannot create transparency group");
}
/* TODO(tor): check viewport and tiling to see if we can set it to TILE_NONE */
if (tile_mode != TILE_NONE)
{
struct tile_closure_s closure;
gs_client_pattern gspat;
gs_client_color gscolor;
gs_color_space *cs;
bool sa;
closure.ctx = ctx;
closure.base_uri = base_uri;
closure.dict = dict;
closure.tag = root;
closure.tile_mode = tile_mode;
closure.user = user;
closure.func = func;
closure.viewbox.p.x = viewbox.p.x;
closure.viewbox.p.y = viewbox.p.y;
closure.viewbox.q.x = viewbox.q.x;
closure.viewbox.q.y = viewbox.q.y;
gs_pattern1_init(&gspat);
uid_set_UniqueID(&gspat.uid, gs_next_ids(ctx->memory, 1));
gspat.PaintType = 1;
gspat.TilingType = 2;
gspat.PaintProc = xps_remap_pattern;
gspat.client_data = &closure;
/* We need to know if this tiling brush includes transparency.
We could do a proper scan, but for now we'll be lazy and just look
at the flag from scanning the page. */
gspat.uses_transparency = ctx->has_transparency;
gspat.XStep = viewbox.q.x - viewbox.p.x;
gspat.YStep = viewbox.q.y - viewbox.p.y;
gspat.BBox.p.x = viewbox.p.x;
gspat.BBox.p.y = viewbox.p.y;
gspat.BBox.q.x = viewbox.q.x;
gspat.BBox.q.y = viewbox.q.y;
if (tile_mode == TILE_FLIP_X || tile_mode == TILE_FLIP_X_Y)
{
gspat.BBox.q.x += gspat.XStep;
gspat.XStep *= 2;
}
if (tile_mode == TILE_FLIP_Y || tile_mode == TILE_FLIP_X_Y)
{
gspat.BBox.q.y += gspat.YStep;
gspat.YStep *= 2;
}
gs_matrix_translate(&transform, viewport.p.x, viewport.p.y, &transform);
gs_matrix_scale(&transform, scalex, scaley, &transform);
gs_matrix_translate(&transform, -viewbox.p.x, -viewbox.p.y, &transform);
cs = ctx->srgb;
gs_setcolorspace(ctx->pgs, cs);
gsicc_profile_reference(cs->cmm_icc_profile_data, 1);
sa = gs_currentstrokeadjust(ctx->pgs);
gs_setstrokeadjust(ctx->pgs, false);
gs_makepattern(&gscolor, &gspat, &transform, ctx->pgs, NULL);
gs_setpattern(ctx->pgs, &gscolor);
xps_fill(ctx);
gs_setstrokeadjust(ctx->pgs, sa);
gsicc_profile_reference(cs->cmm_icc_profile_data, -1);
/* gs_makepattern increments the pattern count stored in the color
* structure. We will discard the color struct (its on the stack)
* so we need to decrement the reference before we throw away
* the structure.
*/
gs_pattern_reference(&gscolor, -1);
}
else
{
xps_clip(ctx);
gs_concat(ctx->pgs, &transform);
gs_translate(ctx->pgs, viewport.p.x, viewport.p.y);
gs_scale(ctx->pgs, scalex, scaley);
gs_translate(ctx->pgs, -viewbox.p.x, -viewbox.p.y);
gs_moveto(ctx->pgs, viewbox.p.x, viewbox.p.y);
gs_lineto(ctx->pgs, viewbox.p.x, viewbox.q.y);
gs_lineto(ctx->pgs, viewbox.q.x, viewbox.q.y);
gs_lineto(ctx->pgs, viewbox.q.x, viewbox.p.y);
gs_closepath(ctx->pgs);
gs_clip(ctx->pgs);
gs_newpath(ctx->pgs);
code = func(ctx, base_uri, dict, root, user);
if (code < 0)
{
xps_end_opacity(ctx, base_uri, dict, opacity_att, NULL);
gs_grestore(ctx->pgs);
return gs_rethrow(code, "cannot draw tile");
}
}
xps_end_opacity(ctx, base_uri, dict, opacity_att, NULL);
gs_grestore(ctx->pgs);
return 0;
}