void swf_Render_Delete(RENDERBUF*dest)
{
renderbuf_internal*i = (renderbuf_internal*)dest->internal;
int y;
bitmap_t*b = i->bitmaps;
/* delete canvas */
rfx_free(i->zbuf);
rfx_free(i->img);
/* delete line buffers */
for(y=0;y<i->height2;y++) {
swf_DeleteTag(0, i->lines[y].points);
i->lines[y].points = 0;
}
/* delete bitmaps */
while(b) {
bitmap_t*next = b->next;
free(b->data);b->data=0;
rfx_free(b);
b = next;
}
rfx_free(i->lines); i->lines = 0;
rfx_free(dest->internal); dest->internal = 0;
}
void swf_ActionFree(ActionTAG*action)
{
if(!action) {
return;
}
action = action->parent;
if(!action) {
fprintf(stderr, "Warning: freeing zero action (no parent)");
return;
}
while(action)
{
ActionTAG*tmp;
if(action->data && action->data != action->tmp) {
rfx_free(action->data);
action->data = 0;
}
action->len = 0;
tmp = action;
action=action->next;
rfx_free(tmp);
}
}
GRADIENT* interpolateGradient(GRADIENT* g1, GRADIENT* g2, float fraction, interpolation_t* inter)
{
int i;
GRADIENT g;
g.ratios = rfx_calloc(16*sizeof(U8));
g.rgba = rfx_calloc(16*sizeof(RGBA));
if (g1->num > g2->num)
{
copyGradient(&g, g2);
growGradient(&g, g1->num);
GRADIENT* result = interpolateNodes(g1, &g, fraction, inter);
rfx_free(g.rgba);
rfx_free(g.ratios);
return result;
}
else
if (g1->num < g2->num)
{
copyGradient(&g, g1);
growGradient(&g, g2->num);
GRADIENT* result = interpolateNodes(&g, g2, fraction, inter);
rfx_free(g.rgba);
rfx_free(g.ratios);
return result;
}
else
return interpolateNodes(g1, g2, fraction, inter);
}
void gfxline_free(gfxline_t*l)
{
if(l && (l+1) == l->next) {
/* flattened */
rfx_free(l);
} else {
gfxline_t*next;
while(l) {
next = l->next;
l->next = 0;
rfx_free(l);
l = next;
}
}
}
static void* linedraw_result(gfxdrawer_t*d)
{
linedraw_internal_t*i = (linedraw_internal_t*)d->internal;
void*result = (void*)i->start;
rfx_free(i);
memset(d, 0, sizeof(gfxdrawer_t));
return result;
}
int swf_FreeTags(SWF* swf)
{
int tag_counter;
TAG* t;
TAG* tnew;
t = swf->firstTag;
tag_counter = 0;
while(t)
{
tag_counter++;
tnew = t->next;
if(t->data) rfx_free(t->data);
rfx_free(t);
t = tnew;
}
swf->firstTag = 0;
return tag_counter;
}
static void swf_ShapeDrawerClear(drawer_t*draw)
{
SWFSHAPEDRAWER*sdraw = (SWFSHAPEDRAWER*)draw->internal;
if(sdraw->tagfree) {
swf_DeleteTag(0, sdraw->tag);
sdraw->tag = 0;
}
swf_ShapeFree(sdraw->shape);
sdraw->shape = 0;
rfx_free(draw->internal);
draw->internal = 0;
}
void gfxline_optimize(gfxline_t*line)
{
gfxline_t*l = line;
/* step 1: convert splines to lines, where possible */
double x=0,y=0;
while(l) {
if(l->type == gfx_splineTo && splineIsStraight(x,y,l)) {
l->type = gfx_lineTo;
}
x = l->x;
y = l->y;
l = l->next;
}
/* step 2: combine adjacent lines and splines, where possible */
l = line;
while(l && l->next) {
gfxline_t*next = l->next;
char combine = 0;
double sx=0,sy=0;
if(l->type == gfx_lineTo && next->type == gfx_lineTo) {
double dx = l->x-x;
double dy = l->y-y;
double nx = next->x-l->x;
double ny = next->y-l->y;
if(fabs(dx*ny - dy*nx) < 0.000001 && (dx*nx + dy*ny) >= 0) {
combine = 1;
}
} else if(l->type == gfx_splineTo && next->type == gfx_splineTo) {
/* TODO */
}
if(combine) {
l->next = next->next;
next->next = 0;
l->x = next->x;
l->y = next->y;
l->sx = sx;
l->sy = sy;
rfx_free(next);
} else {
x = l->x;
y = l->y;
l = l->next;
}
}
}
static void maketransparent_fillbitmap(gfxfilter_t*f, gfxline_t*line, gfximage_t*img, gfxmatrix_t*matrix, gfxcxform_t*cxform, gfxdevice_t*out)
{
internal_t*i = (internal_t*)f->internal;
gfximage_t img2;
img2.width = img->width;
img2.height = img->height;
img2.data = (gfxcolor_t*)rfx_alloc(img->width*img->height*4);
int x,y;
for(y=0;y<img->height;y++) {
gfxcolor_t*in = &img->data[y*img->width];
gfxcolor_t*out = &img2.data[y*img->width];
for(x=0;x<img->width;x++) {
out[x] = transform_color(i, &in[x]);
}
}
out->fillbitmap(out, line, &img2, matrix, cxform);
rfx_free(img2.data);
}
ActionTAG* swf_ActionCompile(const char* source, int version)
{
TAG* tag;
ActionTAG* a = 0;
void*buffer = 0;
int len = 0;
int ret;
tag = swf_InsertTag(NULL, ST_DOACTION);
ret = compileSWFActionCode(source, version, &buffer, &len);
if(!ret || buffer==0 || len == 0)
return 0;
swf_SetBlock(tag, (U8*)buffer, len);
swf_SetU8(tag, 0);
rfx_free(buffer);
a = swf_ActionGet(tag);
swf_DeleteTag(0, tag);
return a;
}
void swf_RenderShape(RENDERBUF*dest, SHAPE2*shape, MATRIX*m, CXFORM*c, U16 _depth,U16 _clipdepth)
{
// renderbuf_internal*i = (renderbuf_internal*)dest->internal;
SHAPELINE*line;
int x=0,y=0;
MATRIX mat = *m;
SHAPE2* s2 = 0;
SHAPE2* lshape = 0;
renderpoint_t p, lp;
U32 clipdepth;
double widthmultiply = matrixsize(m);
memset(&p, 0, sizeof(renderpoint_t));
memset(&lp, 0, sizeof(renderpoint_t));
clipdepth = _clipdepth? _clipdepth << 16 | 0xffff : 0;
p.depth = _depth << 16;
mat.tx -= dest->posx*20;
mat.ty -= dest->posy*20;
s2 = swf_Shape2Clone(shape);
line = s2->lines;
if(shape->numfillstyles) {
int t;
p.s = s2;
/* multiply fillstyles matrices with placement matrix-
important for texture and gradient fill */
for(t=0;t<s2->numfillstyles;t++) {
MATRIX nm;
swf_MatrixJoin(&nm, &mat, &s2->fillstyles[t].m);
/*nm.sx *= i->multiply;
nm.sy *= i->multiply;
nm.r0 *= i->multiply;
nm.r1 *= i->multiply;
nm.tx *= i->multiply;
nm.ty *= i->multiply;*/
s2->fillstyles[t].m = nm;
}
}
if(shape->numlinestyles) {
lshape = linestyle2fillstyle(shape);
lp.s = lshape;
lp.depth = (_depth << 16)+1;
}
while(line)
{
int x1,y1,x2,y2,x3,y3;
if(line->type == moveTo)
{
}
else if(line->type == lineTo)
{
transform_point(&mat, x, y, &x1, &y1);
transform_point(&mat, line->x, line->y, &x3, &y3);
if(line->linestyle && ! clipdepth)
{
lp.shapeline = &lshape->lines[line->linestyle-1];
add_solidline(dest, x1, y1, x3, y3, shape->linestyles[line->linestyle-1].width * widthmultiply, &lp);
lp.depth++;
}
if(line->fillstyle0 || line->fillstyle1)
{
assert(shape->numfillstyles);
p.shapeline = line;
add_line(dest, x1, y1, x3, y3, &p);
}
}
else if(line->type == splineTo)
{
int c,t,parts;//,qparts;
double xx,yy;
transform_point(&mat, x, y, &x1, &y1);
transform_point(&mat, line->sx, line->sy, &x2, &y2);
transform_point(&mat, line->x, line->y, &x3, &y3);
c = abs(x3-2*x2+x1) + abs(y3-2*y2+y1);
xx=x1;
yy=y1;
parts = (int)(sqrt((float)c)/3);
if(!parts) parts = 1;
for(t=1;t<=parts;t++) {
double nx = (double)(t*t*x3 + 2*t*(parts-t)*x2 + (parts-t)*(parts-t)*x1)/(double)(parts*parts);
double ny = (double)(t*t*y3 + 2*t*(parts-t)*y2 + (parts-t)*(parts-t)*y1)/(double)(parts*parts);
if(line->linestyle && ! clipdepth) {
lp.shapeline = &lshape->lines[line->linestyle-1];
add_solidline(dest, xx, yy, nx, ny, shape->linestyles[line->linestyle-1].width * widthmultiply, &lp);
lp.depth++;
}
if(line->fillstyle0 || line->fillstyle1) {
assert(shape->numfillstyles);
p.shapeline = line;
add_line(dest, xx, yy, nx, ny, &p);
}
xx = nx;
yy = ny;
}
}
x = line->x;
y = line->y;
line = line->next;
}
swf_Process(dest, clipdepth);
if(s2)
{
swf_Shape2Free(s2);
rfx_free(s2);s2=0;
}
if(lshape)
{
swf_Shape2Free(lshape);
rfx_free(lshape);lshape=0;
}
}
int swf_ActionEnumerate(ActionTAG*atag, char*(*callback)(char*), int type)
{
int t;
U8*data;
char* cp;
int count = 0;
while(atag)
{
U16 poollen = 0;
for(t=0;t<definedactions;t++)
if(actions[t].op == atag->op)
break;
if(t==definedactions) {
// unknown actiontag
atag = atag->next;
count++;
continue;
}
cp = actions[t].flags;
data = atag->data;
if(atag->len) {
while(*cp) {
U8 * replacepos = 0;
int replacelen = 0;
U8 * replacement = 0;
switch(*cp)
{
case 'u': {
if(type&TYPE_URL)
{
replacelen = strlen((const char*)data);
replacepos = data;
replacement = (U8*)callback((char*)data); // may be null
}
} break;
case 't': {
if(type&TYPE_TARGET)
{
replacelen = strlen((const char*)data);
replacepos = data;
replacement = (U8*)callback((char*)data); // may be null
}
} break;
case 'c': {
if(type&TYPE_STRING)
{
replacelen = strlen((const char*)data);
replacepos = data;
replacement = (U8*)callback((char*)data); // may be null
}
} break;
case 'C': {
poollen = (data[0]+256*data[1]);
} break;
case 'o': {
} break;
case 'p': {
U8 datatype = *data;
char*value = (char*)&data[1];
if(datatype == 0) { //string
if(type&TYPE_STRING)
{
replacelen = strlen(value);
replacepos = (U8*)value;
replacement = (U8*)callback(value); // may be null
}
} else if (datatype == 8) { //lookup
}
} break;
}
data += OpAdvance(*cp, data);
if(*cp!='c' || !poollen)
cp++;
if(poollen)
poollen--;
if(replacement)
{
int newlen = strlen((const char *)replacement);
char * newdata = (char*)rfx_alloc(atag->len - replacelen + newlen);
int rpos = replacepos - atag->data;
memcpy(newdata, atag->data, rpos);
memcpy(&newdata[rpos], replacement, newlen);
memcpy(&newdata[rpos+newlen], &replacepos[replacelen],
&data[atag->len] - &replacepos[replacelen]);
rfx_free(atag->data);
atag->data = (U8*)newdata;
data = &atag->data[rpos+newlen+1];
}
}
}
atag = atag->next;
count ++;
}
return count;
}
/* TODO: * this should be in swfdump.c */
void swf_DumpActions(ActionTAG*atag, char*prefix)
{
int t;
U8*data;
char* cp;
int entry = 0;
char spaces[MAX_LEVELS*4+1];
struct {
char*text;
int count;
} counter[MAX_LEVELS];
int countpos = 0;
#ifdef MAX_LOOKUP
char * lookup[MAX_LOOKUP];
memset(lookup,0x00,sizeof(lookup));
#endif
memset(spaces, 32, sizeof(spaces));
spaces[sizeof(spaces)-1] = 0;
if (!prefix)
prefix="";
while(atag)
{
char*indent = &spaces[sizeof(spaces)-1-countpos*4];
U16 poollen = 0;
for(t=0;t<definedactions;t++)
if(actions[t].op == atag->op)
break;
if(t==definedactions) {
printf("%s (%5d bytes) action:%s unknown[%02x]", prefix, atag->len, indent, atag->op);
} else {
printf("%s (%5d bytes) action:%s %s", prefix, atag->len, indent, actions[t].name);
}
data = atag->data;
if(atag->len && t!=definedactions) //TODO: check for consistency: should we have a length?
{
cp = actions[t].flags;
while(*cp)
{
switch(*cp)
{
case 'f': { //frame
printf(" %d", data[0]+256*data[1]);
} break;
case 'u': {
printf(" URL:\"%s\"", data);
} break;
case 't': {
printf(" Target:\"%s\"", data);
} break;
case 'l': {
printf(" Label:\"%s\"", data);
} break;
case 'c': {
printf(" String:\"%s\"", data);
#ifdef MAX_LOOKUP
if (entry<MAX_LOOKUP)
lookup[entry++] = strdup((const char*)data);
#endif
} break;
case 'C': {
poollen = data[0]+256*data[1];
entry = 0;
printf("(%d entries)", poollen);
} break;
case 's': {
printf(" +%d", *data);
} break;
case 'm': {
//m: method (byte) url:(0=none, 1=get, 2=datat)/gf2:(1=play)
printf(" %d", *data);
} break;
case '{': {
U16 num;
U16 codesize;
int s = 0;
int t;
printf(" %s(", data);
while(data[s++]); //name
num = (data[s++]); //num
num += (data[s++])*256;
for(t=0;t<num;t++) {
printf("%s",data+s); // 10/22/04 MD: added +s to
if(t<num-1)
printf(", ");
while(data[s++]); //param
}
printf(")");
codesize = (data[s++]); //num
codesize += (data[s++])*256;
printf(" codesize:%d ",codesize);
printf("\n%s %s{", prefix, indent);
if(countpos>=15) {
printf("Error: nested too deep\n");
continue;
}
counter[countpos].text = "}";
counter[countpos].count = codesize + ATAG_FULLLENGTH(atag);
countpos++;
} break;
case 'o': {
int t;
U16 codesize = data[0]+256*data[1];
printf(" codesize:%d ", codesize);
/* the following tries to find the "string"
the flash documentation speaks of- I've
never actually seen one yet. -mk */
for(t=2;t<atag->len;t++)
printf("[%02x]", atag->data[t]);
printf("\n%s %s{", prefix, indent);
if(countpos>=15) {
printf("Error: nested too deep\n");
continue;
}
counter[countpos].text = "}";
counter[countpos].count = codesize + ATAG_FULLLENGTH(atag);
countpos++;
} break;
case 'b': {
printf(" %d", data[0]+256*(signed char)data[1]);
} break;
case 'r': {
printf(" %d", data[0]);
} break;
case 'p': {
U8 type = *data;
unsigned char*value = data+1;
if(type == 0) {
printf(" String:\"%s\"", value);
} else if (type == 1) {
U32 f = value[0]+(value[1]<<8)+
(value[2]<<16)+(value[3]<<24);
printf(" Float:%f", *(float*)&f);
} else if (type == 2) {
printf(" NULL");
} else if (type == 3) {
printf(" Undefined");
} else if (type == 4) {
printf(" register:%d", *value);
} else if (type == 5) {
printf(" bool:%s", *value?"true":"false");
} else if (type == 6) {
U8 a[8];
memcpy(&a[4],value,4);
memcpy(a,&value[4],4);
#ifdef WORDS_BIGENDIAN
int t;
for(t=0;t<4;t++) {
U8 tmp = a[t];
a[t]=a[7-t];
a[7-t] = tmp;
}
#endif
printf(" double:%f", *(double*)a);
} else if (type == 7) {
printf(" int:%d", value[0]+(value[1]<<8)+
(value[2]<<16)+(value[3]<<24));
} else if (type == 8) {
printf(" Lookup:%d", *value);
#ifdef MAX_LOOKUP
if (lookup[*value])
printf(" (\"%s\")",lookup[*value]);
#endif
} else if (type == 9) {
U32 offset = value[0]+(value[1]<<8);
printf(" Lookup16:%d", offset);
#ifdef MAX_LOOKUP
if (lookup[offset])
printf(" (\"%s\")",lookup[offset]);
#endif
} else {
printf(" UNKNOWN[%02x]",type);
}
} break;
}
data += OpAdvance(*cp, data);
if((*cp!='c' || !poollen) &&
(*cp!='p' || !(data<&atag->data[atag->len])))
cp++;
if(poollen)
poollen--;
}
}
if(data < atag->data + atag->len)
{
int nl = ((atag->data+atag->len)-data);
int t;
printf(" (remainder of %d bytes:\"", nl);
for(t=0;t<nl;t++) {
if(data[t]<32)
printf("\\%d",data[t]);
else
printf("%c", data[t]);
}
printf("\")");
}
printf("\n");
for(t=0;t<countpos;t++) {
counter[t].count -= ATAG_FULLLENGTH(atag);
if(counter[t].count < 0) {
printf("===== Error: Oplength errors =====\n");
countpos = 0;
break;
}
}
while(countpos && !counter[countpos-1].count)
{
printf("%s %s%s\n",
prefix, indent, counter[countpos-1].text);
indent += 4;
countpos--;
}
atag = atag->next;
}
#ifdef MAX_LOOKUP
for (t=0;t<MAX_LOOKUP;t++) if (lookup[t]) rfx_free(lookup[t]);
#endif
}
SWFFONT* swf_LoadT1Font(const char*filename)
{
SWFFONT * font;
int nr;
float angle,underline;
char*fontname,*fullname,*familyname;
BBox bbox;
int s,num;
char**charnames;
char**charname;
char*encoding[256];
int c;
int t;
if(!t1lib_initialized) {
T1_SetBitmapPad(16);
if ((T1_InitLib(NO_LOGFILE)==NULL)){
fprintf(stderr, "Initialization of t1lib failed\n");
return 0;
}
t1lib_initialized = 1;
}
nr = T1_AddFont(filename);
T1_LoadFont(nr);
charnames = T1_GetAllCharNames(nr);
if(!charnames) {
fprintf(stderr, "No Charnames record- not a Type1 Font?\n");
return 0;
}
angle = T1_GetItalicAngle(nr);
fontname = T1_GetFontName(nr);
fullname = T1_GetFullName(nr);
familyname = T1_GetFamilyName(nr);
underline = T1_GetUnderlinePosition(nr);
bbox = T1_GetFontBBox(nr);
font = (SWFFONT*)rfx_calloc(sizeof(SWFFONT));
font->version = 2;
if(fontname)
font->name = (U8*)strdup(fontname);
else
font->name = 0;
font->layout = (SWFLAYOUT*)rfx_calloc(sizeof(SWFLAYOUT));
num = 0;
charname = charnames;
while(*charname) {
charname++;
if(num<256) {
if(*charname) encoding[num] = strdup(*charname);
else encoding[num] = strdup(".notdef");
}
num++;
}
for(t=num;t<256;t++)
encoding[t] = strdup(".notdef");
//T1_ReencodeFont(nr, encoding);
font->maxascii = num;
font->numchars = num;
font->style = (/*bold*/0?FONT_STYLE_BOLD:0) + (angle>0.05?FONT_STYLE_ITALIC:0);
font->glyph = (SWFGLYPH*)rfx_calloc(num*sizeof(SWFGLYPH));
font->glyph2ascii = (U16*)rfx_calloc(num*sizeof(U16));
font->ascii2glyph = (int*)rfx_calloc(font->maxascii*sizeof(int));
font->layout->ascent = (U16)(underline - bbox.lly);
font->layout->descent = (U16)(bbox.ury - underline);
font->layout->leading = (U16)(font->layout->ascent -
font->layout->descent -
(bbox.lly - bbox.ury));
font->layout->bounds = (SRECT*)rfx_calloc(sizeof(SRECT)*num);
font->layout->kerningcount = 0;
font->layout->kerning = 0;
font->glyphnames = rfx_calloc(num*sizeof(char*));
num = 0;
charname = charnames;
for(c=0;c<font->numchars;c++) {
drawer_t draw;
SRECT bbox;
T1_OUTLINE * outline;
FPOINT pos,last;
int firstx;
outline = T1_GetCharOutline(nr, c, 100.0, 0);
firstx = outline->dest.x/0xffff;
pos.x = 0;
pos.y = 0;
last = pos;
font->glyphnames[c] = strdup(*charname);
if(c<font->maxascii)
font->ascii2glyph[c] = c;
font->glyph2ascii[c] = c;
swf_Shape01DrawerInit(&draw, 0);
while(outline) {
pos.x += (outline->dest.x/(float)0xffff);
pos.y += (outline->dest.y/(float)0xffff);
if(outline->type == T1_PATHTYPE_MOVE) {
draw.moveTo(&draw,&pos);
} else if(outline->type == T1_PATHTYPE_LINE) {
draw.lineTo(&draw,&pos);
} else if(outline->type == T1_PATHTYPE_BEZIER) {
T1_BEZIERSEGMENT*o2 = (T1_BEZIERSEGMENT*)outline;
FPOINT b,c;
b.x = o2->B.x/(float)0xffff+last.x;
b.y = o2->B.y/(float)0xffff+last.y;
c.x = o2->C.x/(float)0xffff+last.x;
c.y = o2->C.y/(float)0xffff+last.y;
draw_cubicTo(&draw,&b,&c,&pos);
} else {
fprintf(stderr, "loadT1Font: unknown outline type:%d\n", outline->type);
}
last = pos;
outline = outline->link;
}
draw.finish(&draw);
font->glyph[c].shape = swf_ShapeDrawerToShape(&draw);
bbox = swf_ShapeDrawerGetBBox(&draw);
draw.dealloc(&draw);
font->layout->bounds[c] = bbox;
font->glyph[c].advance = bbox.xmax;
if(!font->glyph[c].advance) {
font->glyph[c].advance = firstx;
}
charname++;
}
T1_DeleteFont(nr);
for(t=0;t<256;t++)
rfx_free(encoding[t]);
return font;
}
SWFFONT* swf_LoadTrueTypeFont(const char*filename, char flashtype)
{
FT_Face face;
FT_Error error;
const char* name = 0;
FT_ULong charcode;
FT_UInt gindex;
SWFFONT* font;
int t;
int*glyph2glyph;
int max_unicode = 0;
int charmap = -1;
if(ftlibrary == 0) {
if(FT_Init_FreeType(&ftlibrary)) {
fprintf(stderr, "Couldn't init freetype library!\n");
exit(1);
}
}
error = FT_New_Face(ftlibrary, filename, 0, &face);
if(error || !face) {
fprintf(stderr, "Couldn't load file %s- not a TTF file?\n", filename);
return 0;
}
int scale = flashtype?20:1;
FT_Set_Pixel_Sizes (face, 16*loadfont_scale*scale, 16*loadfont_scale*scale);
if(face->num_glyphs <= 0) {
fprintf(stderr, "File %s contains %d glyphs\n", filename, (int)face->num_glyphs);
return 0;
}
font = (SWFFONT*)rfx_calloc(sizeof(SWFFONT));
font->id = -1;
font->version = flashtype?3:2;
font->layout = (SWFLAYOUT*)rfx_calloc(sizeof(SWFLAYOUT));
font->layout->bounds = (SRECT*)rfx_calloc(face->num_glyphs*sizeof(SRECT));
font->style = ((face->style_flags&FT_STYLE_FLAG_ITALIC)?FONT_STYLE_ITALIC:0)
|((face->style_flags&FT_STYLE_FLAG_BOLD)?FONT_STYLE_BOLD:0);
font->encoding = FONT_ENCODING_UNICODE;
font->glyph2ascii = (U16*)rfx_calloc(face->num_glyphs*sizeof(U16));
font->maxascii = 0;
font->glyph = (SWFGLYPH*)rfx_calloc(face->num_glyphs*sizeof(SWFGLYPH));
if(FT_HAS_GLYPH_NAMES(face)) {
font->glyphnames = (char**)rfx_calloc(face->num_glyphs*sizeof(char*));
}
font->layout->kerningcount = 0;
name = face->family_name;
if(!(name && *name))
name = FT_Get_Postscript_Name(face);
if(name && *name)
font->name = (U8*)strdup(name);
while(1)
{
/* // Map Glyphs to Unicode, version 1 (quick and dirty):
int t;
for(t=0;t<65536;t++) {
int index = FT_Get_Char_Index(face, t);
if(index>=0 && index<face->num_glyphs) {
if(font->glyph2ascii[index]<0)
font->glyph2ascii[index] = t;
}
}*/
// Map Glyphs to Unicode, version 2 (much nicer):
// (The third way would be the AGL algorithm, as proposed
// by Werner Lemberg on [email protected])
charcode = FT_Get_First_Char(face, &gindex);
while(gindex != 0)
{
if(gindex >= 0 && gindex<face->num_glyphs) {
if(!font->glyph2ascii[gindex]) {
font->glyph2ascii[gindex] = charcode;
if(charcode + 1 > font->maxascii) {
font->maxascii = charcode + 1;
}
}
}
charcode = FT_Get_Next_Char(face, charcode, &gindex);
}
/* if we didn't find a single encoding character, try
the font's charmaps instead. That usually means that
the encoding is no longer unicode.
TODO: find a way to convert the encoding to unicode
*/
if(font->maxascii == 0 && charmap < face->num_charmaps - 1) {
charmap++;
FT_Set_Charmap(face, face->charmaps[charmap]);
font->encoding = 0;//anything but unicode FIXME
} else
break;
}
if(full_unicode)
font->maxascii = 65535;
font->ascii2glyph = (int*)rfx_calloc(font->maxascii*sizeof(int));
for(t=0;t<font->maxascii;t++) {
int g = FT_Get_Char_Index(face, t);
if(!g || g>=face->num_glyphs)
g = -1;
font->ascii2glyph[t] = g;
if(g>=0) {
max_unicode = t+1;
if(!font->glyph2ascii[g]) {
font->glyph2ascii[g] = t;
}
}
}
font->maxascii = max_unicode;
font->numchars = 0;
glyph2glyph = (int*)rfx_calloc(face->num_glyphs*sizeof(int));
SRECT fontbbox = {0,0,0,0};
for(t=0; t < face->num_glyphs; t++) {
FT_Glyph glyph;
FT_BBox bbox;
char name[128];
drawer_t draw;
char hasname = 0;
name[0]=0;
if(FT_HAS_GLYPH_NAMES(face)) {
error = FT_Get_Glyph_Name(face, t, name, 127);
if(!error && name[0] && !strstr(name, "notdef")) {
font->glyphnames[font->numchars] = strdup(name);
hasname = 1;
}
}
if(!font->glyph2ascii[t] && !hasname && skip_unused) {
continue;
}
error = FT_Load_Glyph(face, t, FT_LOAD_NO_BITMAP);
if(error) {
//tends to happen with some pdfs
fprintf(stderr, "Warning: Glyph %d has return code %d\n", t, error);
glyph=0;
if(skip_unused)
continue;
} else {
error = FT_Get_Glyph(face->glyph, &glyph);
if(error) {
fprintf(stderr, "Couldn't get glyph %d, error:%d\n", t, error);
glyph=0;
if(skip_unused)
continue;
}
}
if(glyph)
FT_Glyph_Get_CBox(glyph, ft_glyph_bbox_unscaled, &bbox);
else
memset(&bbox, 0, sizeof(bbox));
bbox.yMin = -bbox.yMin;
bbox.yMax = -bbox.yMax;
if(bbox.xMax < bbox.xMin) {
// swap
bbox.xMax ^= bbox.xMin;
bbox.xMin ^= bbox.xMax;
bbox.xMax ^= bbox.xMin;
}
if(bbox.yMax < bbox.yMin) {
// swap
bbox.yMax ^= bbox.yMin;
bbox.yMin ^= bbox.yMax;
bbox.yMax ^= bbox.yMin;
}
swf_Shape01DrawerInit(&draw, 0);
//error = FT_Outline_Decompose(&face->glyph->outline, &outline_functions, &draw);
if(glyph)
error = FT_Outline_Decompose(&face->glyph->outline, &outline_functions, &draw);
else
error = 0;
draw.finish(&draw);
if(error) {
fprintf(stderr, "Couldn't decompose glyph %d\n", t);
draw.dealloc(&draw);
continue;
}
#if 0
if(bbox.xMin > 0) {
font->glyph[font->numchars].advance = (bbox.xMax*20*FT_SCALE)/FT_SUBPIXELS;
} else {
font->glyph[font->numchars].advance = ((bbox.xMax - bbox.xMin)*20*FT_SCALE)/FT_SUBPIXELS;
}
#else
if(glyph)
font->glyph[font->numchars].advance = glyph->advance.x*20/65536;
else
font->glyph[font->numchars].advance = 0;
#endif
SRECT b = swf_ShapeDrawerGetBBox(&draw);
//font->layout->bounds[font->numchars].xmin = (bbox.xMin*FT_SCALE*20)/FT_SUBPIXELS;
//font->layout->bounds[font->numchars].ymin = (bbox.yMin*FT_SCALE*20)/FT_SUBPIXELS;
//font->layout->bounds[font->numchars].xmax = (bbox.xMax*FT_SCALE*20)/FT_SUBPIXELS;
//font->layout->bounds[font->numchars].ymax = (bbox.yMax*FT_SCALE*20)/FT_SUBPIXELS;
font->layout->bounds[font->numchars] = b;
font->glyph[font->numchars].shape = swf_ShapeDrawerToShape(&draw);
swf_ExpandRect2(&fontbbox, &font->layout->bounds[font->numchars]);
draw.dealloc(&draw);
if(glyph)
FT_Done_Glyph(glyph);
font->glyph2ascii[font->numchars] = font->glyph2ascii[t];
glyph2glyph[t] = font->numchars;
font->numchars++;
}
//font->layout->ascent = abs(face->ascender)*FT_SCALE*loadfont_scale*20/FT_SUBPIXELS/2; //face->bbox.xMin;
//font->layout->descent = abs(face->descender)*FT_SCALE*loadfont_scale*20/FT_SUBPIXELS/2; //face->bbox.xMax;
//font->layout->leading = font->layout->ascent + font->layout->descent;
if(-fontbbox.ymin < 0)
font->layout->ascent = 0;
else
font->layout->ascent = -fontbbox.ymin;
if(fontbbox.ymax < 0)
font->layout->descent = 0;
else
font->layout->descent = fontbbox.ymax;
int leading = fontbbox.ymax - fontbbox.ymin;
font->layout->leading = leading>0x7fff?0x7fff:leading;
/* notice: if skip_unused is true, font->glyph2ascii, font->glyphnames and font->layout->bounds will
have more memory allocated than just font->numchars, but only the first font->numchars
are used/valid */
for(t=0;t<font->maxascii;t++) {
if(font->ascii2glyph[t]>=0) {
font->ascii2glyph[t] = glyph2glyph[font->ascii2glyph[t]];
}
}
rfx_free(glyph2glyph);
FT_Done_Face(face);
FT_Done_FreeType(ftlibrary);ftlibrary=0;
return font;
}
