static void
fz_draw_stroke_text(fz_device *devp, fz_text *text, fz_stroke_state *stroke, fz_matrix ctm,
fz_colorspace *colorspace, float *color, float alpha)
{
fz_draw_device *dev = devp->user;
unsigned char colorbv[FZ_MAX_COLORS + 1];
float colorfv[FZ_MAX_COLORS];
fz_matrix tm, trm, trunc_trm;
fz_pixmap *glyph;
int i, x, y, gid;
fz_draw_state *state = &dev->stack[dev->top];
fz_colorspace *model = state->dest->colorspace;
fz_bbox scissor = state->scissor;
if (state->blendmode & FZ_BLEND_KNOCKOUT)
state = fz_knockout_begin(dev);
fz_convert_color(dev->ctx, model, colorfv, colorspace, color);
for (i = 0; i < model->n; i++)
colorbv[i] = colorfv[i] * 255;
colorbv[i] = alpha * 255;
tm = text->trm;
for (i = 0; i < text->len; i++)
{
gid = text->items[i].gid;
if (gid < 0)
continue;
tm.e = text->items[i].x;
tm.f = text->items[i].y;
trm = fz_concat(tm, ctm);
x = floorf(trm.e);
y = floorf(trm.f);
trunc_trm = trm;
trunc_trm.e = QUANT(trm.e - floorf(trm.e), HSUBPIX);
trunc_trm.f = QUANT(trm.f - floorf(trm.f), VSUBPIX);
scissor.x0 -= x; scissor.x1 -= x;
scissor.y0 -= y; scissor.y1 -= y;
glyph = fz_render_stroked_glyph(dev->ctx, text->font, gid, trunc_trm, ctm, stroke, scissor);
if (glyph)
{
draw_glyph(colorbv, state->dest, glyph, x, y, state->scissor);
if (state->shape)
draw_glyph(colorbv, state->shape, glyph, x, y, state->scissor);
fz_drop_pixmap(dev->ctx, glyph);
}
else
{
fz_path *path = fz_outline_glyph(dev->ctx, text->font, gid, trm);
if (path)
{
fz_draw_stroke_path(devp, path, stroke, fz_identity, colorspace, color, alpha);
fz_free_path(dev->ctx, path);
}
else
{
fz_warn(dev->ctx, "cannot render glyph");
}
}
}
if (state->blendmode & FZ_BLEND_KNOCKOUT)
fz_knockout_end(dev);
}
static void
fz_draw_clip_text(fz_device *devp, fz_text *text, fz_matrix ctm, int accumulate)
{
fz_draw_device *dev = devp->user;
fz_context *ctx = dev->ctx;
fz_bbox bbox;
fz_pixmap *mask, *dest, *shape;
fz_matrix tm, trm, trunc_trm;
fz_pixmap *glyph;
int i, x, y, gid;
fz_draw_state *state;
fz_colorspace *model;
/* If accumulate == 0 then this text object is guaranteed complete */
/* If accumulate == 1 then this text object is the first (or only) in a sequence */
/* If accumulate == 2 then this text object is a continuation */
state = push_stack(dev);
model = state->dest->colorspace;
if (accumulate == 0)
{
/* make the mask the exact size needed */
bbox = fz_bbox_covering_rect(fz_bound_text(dev->ctx, text, ctm));
bbox = fz_intersect_bbox(bbox, state->scissor);
}
else
{
/* be conservative about the size of the mask needed */
bbox = state->scissor;
}
if (accumulate == 0 || accumulate == 1)
{
mask = fz_new_pixmap_with_bbox(dev->ctx, NULL, bbox);
fz_clear_pixmap(dev->ctx, mask);
dest = fz_new_pixmap_with_bbox(dev->ctx, model, bbox);
fz_clear_pixmap(dev->ctx, dest);
if (state->shape)
{
shape = fz_new_pixmap_with_bbox(dev->ctx, NULL, bbox);
fz_clear_pixmap(dev->ctx, shape);
}
else
shape = NULL;
state[1].blendmode |= FZ_BLEND_ISOLATED;
state[1].scissor = bbox;
state[1].dest = dest;
state[1].mask = mask;
state[1].shape = shape;
#ifdef DUMP_GROUP_BLENDS
dump_spaces(dev->top-1, "Clip (text) begin\n");
#endif
}
else
{
mask = state->mask;
dev->top--;
}
if (!fz_is_empty_rect(bbox) && mask)
{
tm = text->trm;
for (i = 0; i < text->len; i++)
{
gid = text->items[i].gid;
if (gid < 0)
continue;
tm.e = text->items[i].x;
tm.f = text->items[i].y;
trm = fz_concat(tm, ctm);
x = floorf(trm.e);
y = floorf(trm.f);
trunc_trm = trm;
trunc_trm.e = QUANT(trm.e - floorf(trm.e), HSUBPIX);
trunc_trm.f = QUANT(trm.f - floorf(trm.f), VSUBPIX);
glyph = fz_render_glyph(dev->ctx, text->font, gid, trunc_trm, model, bbox);
if (glyph)
{
draw_glyph(NULL, mask, glyph, x, y, bbox);
if (state[1].shape)
draw_glyph(NULL, state[1].shape, glyph, x, y, bbox);
fz_drop_pixmap(dev->ctx, glyph);
}
else
{
fz_path *path = fz_outline_glyph(dev->ctx, text->font, gid, trm);
if (path)
{
fz_pixmap *old_dest;
float white = 1;
state = &dev->stack[dev->top];
old_dest = state[0].dest;
state[0].dest = state[0].mask;
state[0].mask = NULL;
fz_try(ctx)
{
fz_draw_fill_path(devp, path, 0, fz_identity, fz_device_gray, &white, 1);
}
fz_always(ctx)
{
state[0].mask = state[0].dest;
state[0].dest = old_dest;
fz_free_path(dev->ctx, path);
}
fz_catch(ctx)
{
fz_rethrow(ctx);
}
}
else
{
fz_warn(dev->ctx, "cannot render glyph for clipping");
}
}
}
static font *
svg_dev_text_span_as_paths_defs(fz_context *ctx, fz_device *dev, fz_text_span *span, const fz_matrix *ctm)
{
svg_device *sdev = (svg_device*)dev;
fz_output *out = sdev->out;
int i, font_idx;
font *fnt;
fz_matrix shift = fz_identity;
for (font_idx = 0; font_idx < sdev->num_fonts; font_idx++)
{
if (sdev->fonts[font_idx].font == span->font)
break;
}
if (font_idx == sdev->num_fonts)
{
/* New font */
if (font_idx == sdev->max_fonts)
{
int newmax = sdev->max_fonts * 2;
if (newmax == 0)
newmax = 4;
sdev->fonts = fz_resize_array(ctx, sdev->fonts, newmax, sizeof(*sdev->fonts));
memset(&sdev->fonts[font_idx], 0, (newmax - font_idx) * sizeof(sdev->fonts[0]));
sdev->max_fonts = newmax;
}
sdev->fonts[font_idx].id = sdev->id++;
sdev->fonts[font_idx].font = fz_keep_font(ctx, span->font);
sdev->num_fonts++;
}
fnt = &sdev->fonts[font_idx];
for (i=0; i < span->len; i++)
{
fz_text_item *it = &span->items[i];
int gid = it->gid;
if (gid < 0)
continue;
if (gid >= fnt->max_sentlist)
{
int j;
fnt->sentlist = fz_resize_array(ctx, fnt->sentlist, gid+1, sizeof(fnt->sentlist[0]));
for (j = fnt->max_sentlist; j <= gid; j++)
{
fnt->sentlist[j].x_off = FLT_MIN;
fnt->sentlist[j].y_off = FLT_MIN;
}
fnt->max_sentlist = gid+1;
}
if (fnt->sentlist[gid].x_off == FLT_MIN)
{
/* Need to send this one */
fz_rect rect;
fz_path *path;
path = fz_outline_glyph(ctx, span->font, gid, &fz_identity);
if (path)
{
fz_bound_path(ctx, path, NULL, &fz_identity, &rect);
shift.e = -rect.x0;
shift.f = -rect.y0;
fz_transform_path(ctx, path, &shift);
out = start_def(ctx, sdev);
fz_printf(ctx, out, "<symbol id=\"font_%x_%x\">", fnt->id, gid);
fz_printf(ctx, out, "<path");
svg_dev_path(ctx, sdev, path);
fz_printf(ctx, out, "/>\n");
}
else
{
fz_bound_glyph(ctx, span->font, gid, &fz_identity, &rect);
shift.e = -rect.x0;
shift.f = -rect.y0;
out = start_def(ctx, sdev);
fz_printf(ctx, out, "<symbol id=\"font_%x_%x\">", fnt->id, gid);
fz_run_t3_glyph(ctx, span->font, gid, &shift, dev);
}
fz_printf(ctx, out, "</symbol>");
out = end_def(ctx, sdev);
fnt->sentlist[gid].x_off = rect.x0;
fnt->sentlist[gid].y_off = rect.y0;
}
}
return fnt;
}
