#include "../types.h"
#include "../mem.h"
#include "../q.h"
+#include "../log.h"
typedef struct _mymatrix {
float m00,m01,m10,m11;
char*id;
+ unsigned char alpha;
} mymatrix_t;
static void* mymatrix_clone(const void*_m) {
h = crc32_add_bytes(h, (char*)&m->m01, sizeof(m->m01));
h = crc32_add_bytes(h, (char*)&m->m10, sizeof(m->m10));
h = crc32_add_bytes(h, (char*)&m->m11, sizeof(m->m11));
+ h = crc32_add_bytes(h, (char*)&m->alpha, 1);
h = crc32_add_string(h, m->id);
return h;
}
*(U32*)&m1->m01 == *(U32*)&m2->m01 &&
*(U32*)&m1->m10 == *(U32*)&m2->m10 &&
*(U32*)&m1->m11 == *(U32*)&m2->m11 &&
+ m1->alpha == m2->alpha &&
!strcmp(m1->id, m2->id);
}
type_t mymatrix_type = {
#ifdef __GNUC__
-void __attribute__((noinline))
- matrix_convert(gfxmatrix_t*in, const char*id, mymatrix_t*out, gfxmatrix_t*scalematrix)
+int __attribute__((noinline))
+ matrix_convert(gfxmatrix_t*in, const char*id, mymatrix_t*out, gfxmatrix_t*scalematrix, unsigned char alpha)
#else
-void matrix_convert(gfxmatrix_t*in, const char*id, mymatrix_t*out, gfxmatrix_t*scalematrix)
+int matrix_convert(gfxmatrix_t*in, const char*id, mymatrix_t*out, gfxmatrix_t*scalematrix, unsigned char alpha)
#endif
{
double l1 = sqrt(in->m00 * in->m00 + in->m01 * in->m01);
double l2 = sqrt(in->m10 * in->m10 + in->m11 * in->m11);
- double l = l1+l2;
+ double l = (l1+l2)/2.0;
if(l < 1e-10) {
memset(out, 0, sizeof(*out));
- return;
+ return 0;
}
out->m00 = in->m00 / l;
out->m10 = in->m10 / l;
out->m01 = -in->m01 / l;
out->m11 = -in->m11 / l;
out->id = (char*)id;
+ out->alpha = alpha?1:0;
if(scalematrix) {
scalematrix->m00 = l;
scalematrix->tx = in->tx;
scalematrix->ty = in->ty;
}
+ return 1;
}
typedef struct _matrixdata {
gfxfont_t*font;
mymatrix_t matrix;
int*used;
- double dx,dy;
+ double dx;
} transformedfont_t;
static transformedfont_t* transformedfont_new(gfxfont_t*orig, mymatrix_t*m)
transformedfont_t*f = rfx_calloc(sizeof(transformedfont_t));
f->orig = orig;
f->matrix = *m;
- f->used = malloc(sizeof(f->used[0])*orig->num_glyphs);
+ f->used = rfx_calloc(sizeof(f->used[0])*orig->num_glyphs);
+ int t;
+ for(t=0;t<orig->num_glyphs;t++) {
+ if(orig->glyphs[t].unicode==32 &&
+ (!orig->glyphs[t].line ||
+ !orig->glyphs[t].line->next ||
+ !orig->glyphs[t].line->next->next))
+ f->used[t]=1; //always preserve the space char in fonts
+ }
return f;
}
{
internal_t*i = (internal_t*)f->internal;
mymatrix_t m;
- matrix_convert(matrix, font->id, &m, 0);
+ if(!font->id)
+ msg("<error> Font has no ID");
+ if(!matrix_convert(matrix, font->id?font->id:"unknown", &m, 0, color->a))
+ return;
transformedfont_t*fd = dict_lookup(i->matrices, &m);
if(!fd) {
fd = transformedfont_new(font, &m);
m.m11 = mm->m11;
m.tx = 0;
m.ty = 0;
+ if(m.m00>0)
+ g->advance *= m.m00;
g->line = gfxline_clone(g->line);
gfxline_transform(g->line, &m);
}
if(fd->used[t]) {
font->glyphs[count] = fd->orig->glyphs[t];
glyph_transform(&font->glyphs[count], &fd->matrix);
- fd->used[t] = count;
+ fd->used[t] = count + 1;
count++;
}
}
gfxline_t*line = font->glyphs[t].line;
gfxbbox_t b = gfxline_getbbox(line);
total = gfxbbox_expand_to_bbox(total, b);
- font->glyphs[t].advance = b.xmax;
}
if(count)
average_xmax /= count;
- fd->dx = -total.xmin;
- fd->dy = 0;
-
+ fd->dx = 0;//-total.xmin;
+
+ font->ascent = total.ymax;
+ font->descent = -total.ymin;
+
for(t=0;t<count;t++) {
+ gfxglyph_t*g = &font->glyphs[t];
gfxline_t*line = font->glyphs[t].line;
- font->glyphs[t].advance += fd->dx;
- while(line) {
- line->x += fd->dx;
- line->y += fd->dy;
- line->sx += fd->dx;
- line->sy += fd->dy;
- line = line->next;
+
+ if(fd->matrix.alpha) {
+ while(line) {
+ line->x += fd->dx;
+ line->sx += fd->dx;
+ line = line->next;
+ }
+ } else {
+ gfxline_free(g->line);
+ /* for OCR: remove the outlines of characters that are only
+ ever displayed with alpha=0 */
+ g->line = (gfxline_t*)rfx_calloc(sizeof(gfxline_t));
+ g->line->type = gfx_moveTo;
+ g->line->x = g->advance;
+ }
+ }
+
+ if(fd->matrix.m00>0) {
+ /* subset kerning table */
+ count = 0;
+ for(t=0;t<fd->orig->kerning_size;t++) {
+ int char1 = fd->used[fd->orig->kerning[t].c1]-1;
+ int char2 = fd->used[fd->orig->kerning[t].c2]-1;
+ if(char1>=0 && char2>=0) {
+ count++;
+ }
+ }
+ font->kerning = malloc(sizeof(font->kerning[0])*count);
+ font->kerning_size = count;
+ count = 0;
+ for(t=0;t<fd->orig->kerning_size;t++) {
+ int char1 = fd->used[fd->orig->kerning[t].c1]-1;
+ int char2 = fd->used[fd->orig->kerning[t].c2]-1;
+ if(char1>=0 && char2>=0) {
+ font->kerning[count].c1 = char1;
+ font->kerning[count].c2 = char2;
+ font->kerning[count].advance = fd->orig->kerning[t].advance * fd->matrix.m00;
+ count++;
+ }
}
}
gfxfont_fix_unicode(font);
return out->finish(out);
}
-static void pass2_drawchar(gfxfilter_t*f, gfxfont_t*font, int glyphnr, gfxcolor_t*color, gfxmatrix_t*matrix, gfxdevice_t*out)
+static void pass2_addfont(gfxfilter_t*f, gfxfont_t*font, gfxdevice_t*out)
+{
+ /* we throw away original fonts, and do the addfont() for the transformed
+ fonts in the first drawchar() */
+}
+
+static void pass2_drawchar(gfxfilter_t*f, gfxfont_t*font, int glyphnr, gfxcolor_t*_color, gfxmatrix_t*matrix, gfxdevice_t*out)
{
internal_t*i = (internal_t*)f->internal;
+ gfxcolor_t color = *_color;
if(i->first) {
i->first = 0;
mymatrix_t m;
gfxmatrix_t scalematrix;
- matrix_convert(matrix, font->id, &m, &scalematrix);
+ matrix_convert(matrix, font->id?font->id:"unknown", &m, &scalematrix, color.a);
transformedfont_t*d = dict_lookup(i->matrices, &m);
- scalematrix.tx -= d->dx;
- scalematrix.ty -= d->dy;
- out->drawchar(out, d->font, d->used[glyphnr], color, &scalematrix);
+ scalematrix.tx -= d->dx*scalematrix.m00;
+
+ /* if this character is invisible (alpha=0), then we will have removed the
+ outline, so we make set the alpha color channel to "fully visible" again to allow
+ output devices to be more performant (transparency is expensive) */
+ if(!m.alpha)
+ color.a = 255;
+
+ out->drawchar(out, d->font, d->used[glyphnr]-1, &color, &scalematrix);
+}
+
+static gfxresult_t* pass2_finish(gfxfilter_t*f, gfxdevice_t*out)
+{
+ internal_t*i = (internal_t*)f->internal;
+ DICT_ITERATE_DATA(i->matrices, transformedfont_t*, fd) {
+ if(fd->used) {
+ free(fd->used);fd->used=0;
+ }
+ free(fd);
+ }
+ dict_destroy(i->matrices);i->matrices=0;
+ return out->finish(out);
}
void gfxtwopassfilter_remove_font_transforms_init(gfxtwopassfilter_t*f)
f->pass1.internal = i;
f->pass2.name = "remove font transforms pass 2";
+ f->pass2.addfont = pass2_addfont;
f->pass2.drawchar = pass2_drawchar;
+ f->pass2.finish = pass2_finish;
f->pass2.internal = i;
i->matrices = dict_new2(&mymatrix_type);