#include <stdio.h>
#include <stdlib.h>
#include <memory.h>
+#include <assert.h>
#include "log.h"
#include "os.h"
+#include "q.h"
#include "mem.h"
#include "ttf.h"
r->pos += len;
}
}
+static void reader_reset(memreader_t*r)
+{
+ r->pos;
+}
#define INIT_READ(r,data,length,pos) memreader_t r = {(data),(pos),(length)};
static void expand(ttf_table_t*w, int newsize)
w->data[w->len++] = v>>8;
w->data[w->len++] = v;
}
+static inline void writeU16_LE(ttf_table_t*w, unsigned short v)
+{
+ if(w->memsize<w->len+2)
+ expand(w, w->len+2);
+ w->data[w->len++] = v;
+ w->data[w->len++] = v>>8;
+}
#define writeS16 writeU16
static inline void writeU32(ttf_table_t*w, unsigned long v)
{
w->data[w->len++] = v>>8;
w->data[w->len++] = v;
}
+static inline void writeU32_LE(ttf_table_t*w, unsigned long v)
+{
+ if(w->memsize<w->len+4)
+ expand(w, w->len+4);
+ w->data[w->len++] = v;
+ w->data[w->len++] = v>>8;
+ w->data[w->len++] = v>>16;
+ w->data[w->len++] = v>>24;
+}
static inline void writeBlock(ttf_table_t*w, void*data, int len)
{
if(w->memsize<w->len+len)
before->len = 0;
return before;
}
-
+
if(!after) {
t->next = ttf->tables;
ttf->tables = t;
{
ttf_table_t*table = ttf->tables;
while(table) {
- if(table->id == id)
+ if(table->id == id)
return table;
table = table->next;
}
if(ttf && ttf->tables == table) {
ttf->tables = table->next;
}
- if(table->prev)
+ if(table->prev)
table->prev->next = table->next;
- if(table->next)
+ if(table->next)
table->next->prev = table->prev;
free(table->data);
free(table);
{
ttf->head = rfx_calloc(sizeof(table_head_t));
U32 version = readU32(r);
- if(version!=VERSION_1_0)
+ if(version!=VERSION_1_0)
msg("<warning> Font HEAD has unknown version %08x", version);
U32 revision = readU32(r);
U32 checksum2 = readU32(r);
U32 magic = readU32(r);
- if(magic!=0x5f0f3cf5)
+ if(magic!=0x5f0f3cf5)
msg("<warning> Font HEAD has unknown magic number %08x", magic);
ttf->head->flags = readU16(r);
ttf->head->units_per_em = readU16(r);
/* that's what everybody seems to fill in */
os2->usWeightClass = 400;
os2->usWidthClass = 5;
-
+
if(ttf->head) {
int advance = (ttf->head->xmax - ttf->head->xmin)/2;
int height = (ttf->head->xmax - ttf->head->xmin);
os2->ySuperscriptYOffset = (ttf->head->ymax - ttf->head->ymin)/2;
os2->yStrikeoutSize = ttf->head->units_per_em / 10;
os2->yStrikeoutPosition = ymid;
- os2->usWinAscent = ttf->head->ymax;
- os2->usWinDescent = ttf->head->ymin<0?0:ttf->head->ymin;
+ os2->usWinAscent = ttf->head->ymax>0?ttf->head->ymax:0;
+ os2->usWinDescent = ttf->head->ymin<0?-ttf->head->ymin:0;
os2->sxHeight = ymid;
os2->sCapHeight = height*2/3;
}
os2->usDefaultChar = readU16(r);
os2->usBreakChar = readU16(r);
os2->usMaxContext = readU16(r);
-
+
if(r->pos < r->size) {
msg("<warning> Leftover bytes (%d) in OS2 tag", r->size - r->pos);
}
{
table_maxp_t*maxp = rfx_calloc(sizeof(table_maxp_t));
int t;
+ maxp->maxContours=1;
if(ttf->num_glyphs) {
- int max = 0;
+ int max = 1;
for(t=0;t<ttf->num_glyphs;t++) {
if(ttf->glyphs[t].num_points>max)
max = ttf->glyphs[t].num_points;
{
U32 version = readU32(r);
ttf->num_glyphs = readU16(r);
- /* according to freetype, older fonts (version<0x10000)
+ /* according to freetype, older fonts (version<0x10000)
apparently only contain the number of glyphs. this is
rather rare, though. */
if(version<0x10000 && r->size==6) return 0;
rest = ttf->num_glyphs-num_advances;
}
for(t=0;t<rest;t++) {
- ttf->glyphs[t].advance = old_advance;
+ ttf->glyphs[t].advance = old_advance;
ttf->glyphs[t].bearing = readS16(r);
}
}
glyph->code_size = code_len;
}
- if(!endpoints)
+ if(!endpoints)
return 1;
- /*msg("<notice> TTF Glyph %d) code_size=%d num_contours=%d glyph->num_points=%d %d/%d/%d/%d",
+ /*msg("<notice> TTF Glyph %d) code_size=%d num_contours=%d glyph->num_points=%d %d/%d/%d/%d",
glyphnr, code_len, num_contours, glyph->num_points,
xmin, ymin, xmax, ymax);*/
INIT_READ(fx, r->mem, r->size, r->pos);
INIT_READ(fy, r->mem, r->size, r->pos);
-
+
glyph->num_points = endpoints[num_contours-1] + 1;
glyph->points = rfx_calloc(sizeof(ttfpoint_t)*glyph->num_points);
return 0;
}
int count = 1;
- if(flag & 0x08)
+ if(flag & 0x08)
count += readU8(r);
if(count+num>glyph->num_points) {
msg("<warning> Bad count (%d) in glyph (%d) (at pos %d)", count, glyphnr, num);
if((flag&0x12) == 0x12) x += readU8(r);
else if((flag&0x12) == 0x02) x -= readU8(r);
else if((flag&0x12) == 0x00) x += readS16(r);
-
+
glyph->points[num].x = x;
U8 f = flag&GLYPH_ON_CURVE;
if(is_start) f|=GLYPH_CONTOUR_START;
is_start = is_end;
} while(--count);
}
-
+
/* parse flag array (3rd pass) and y coordinates */
num=0;
int y = 0;
if(loca[t]==loca[t+1] || loca[t]==r.size)
continue; //empty glyph
if(r.pos+10>r.size) {
- msg("<warning> Truncated glyph entry %d/%d (or bad loca entry %d/%d, next loca: %d)",
+ msg("<warning> Truncated glyph entry %d/%d (or bad loca entry %d/%d, next loca: %d)",
t, ttf->num_glyphs, loca[t], r.size, loca[t+1]);
break;
}
ttf->glyphs[t].ymin = readS16(&r);
ttf->glyphs[t].xmax = readS16(&r);
ttf->glyphs[t].ymax = readS16(&r);
-
+
if(num_contours<0) {
if(warn_about_compound_glyphs)
msg("<error> Compound glyphs not supported yet");
if(g->points[s].flags&GLYPH_CONTOUR_END)
writeU16(w, s);
}
-
+
/* bytecode */
writeU16(w, g->code_size);
if(g->code_size)
writeS16(w, g->ymin);
writeS16(w, g->xmax);
writeS16(w, g->ymax);
-
+
if(!num_contours) {
/* some ttf parsers can't deal with zero contours, so in the case
of an empty glyph, write a single point (0,0) */
printf("%d/%d/0x%02x", g->points[s].x, g->points[s].y, g->points[s].flags);
}
printf(")\n");
- if(g->code_size)
+ if(g->code_size)
hexdump(g->code, g->code_size, " ");
}
}
void glyf_delete(ttf_t* ttf)
{
- if(!ttf->glyphs)
+ if(!ttf->glyphs)
return;
int t;
for(t=0;t<ttf->num_glyphs;t++) {
readU16(r); // version (0)
int num_subtables = readU16(r);
int t;
+ char warn=1;
if(r->pos+num_subtables*8 > r->size) {
msg("<warning> CMap overflow");
num_subtables = (r->size-r->pos)/8;
platform==3 && encoding == 1 ||
platform==3 && encoding == 10;
- if(!is_unicode)
+ if(!is_unicode)
continue;
INIT_READ(t, r->mem, r->size, offset);
ttf->unicode[s] = readU8(&t);
}
} else if(format == 4) {
- U16 segment_count = readU16(&t);
+ U16 segment_count = readU16(&t);
if(segment_count&1) {
msg("<error> Bad segmentx2 count %d", segment_count);
continue;
INIT_READ(r_delta, t.mem, t.size, t.pos+2+segment_count*4);
INIT_READ(r_range, t.mem, t.size, t.pos+2+segment_count*6);
int glyphmap_start = t.pos+2+segment_count*8;
+ int glyphmap_size = t.size - glyphmap_start;
int s;
for(s=0;s<segment_count;s++) {
U16 start = readU16(&r_start);
U16 delta = readU16(&r_delta);
U16 range = readU16(&r_range);
if(start==0xffff && end==0xffff && delta==1) {
- /* this is a common (maybe even required) occurence in fonts
- which explicitly map "unicode undefined" (0xffff) to
+ /* this is a common (maybe even required) occurence in fonts
+ which explicitly map "unicode undefined" (0xffff) to
"glyph undefined" (0).
We don't want to blow our unicode table up to 65536 just
because of this, so ignore this entry.
ttf->unicode[u] = (u + delta) & 0xffff;
}
} else {
- INIT_READ(g, t.mem, t.size, r_range.pos-2+range);
+ int pos = r_range.pos-2+range;
+ if(warn && pos+end-start+1 > t.size) {
+ msg("<warning> glyphmap index out of bounds (%d-%d/%d)", pos, pos+end-start, t.size);
+ warn=0;
+ }
+ INIT_READ(g, t.mem, t.size, pos);
for(u=start;u<=end;u++) {
ttf->unicode[u] = readU16(&g);
}
if(!unicode[s])
count++;
if(count>4) {
- /* a segment costs us 8 bytes, so for more than 4 consecutive
+ /* a segment costs us 8 bytes, so for more than 4 consecutive
zero entries (16 bit each) in the glyph index array,
it pays off to start a new segment */
break;
num_segments++; // account for 0xffff mapping
+ int glyphmap_start = w->len+2+num_segments*8;
+
int t;
int end_pos = w->len;
for(t=0;t<num_segments;t++) {writeU16(w, 0);} //end array
for(t=0;t<num_segments;t++) {writeU16(w, 0);} //delta array
int range_pos = w->len;
for(t=0;t<num_segments;t++) {writeU16(w, 0);} //range array
-
- w->data[num_segments_pos]=(num_segments*2)>>8;
- w->data[num_segments_pos+1]=(num_segments*2);
+
+ /* backpatch number of segments */
+ w->data[num_segments_pos++]=(num_segments*2)>>8;
+ w->data[num_segments_pos++]=(num_segments*2);
+ /* backpatch search range */
+ int tmp = num_segments;
+ int search_range = 0;
+ while(tmp) {
+ search_range = tmp;
+ tmp = tmp&(tmp-1);
+ }
+ w->data[num_segments_pos++]=(search_range*2)>>8;
+ w->data[num_segments_pos++]=(search_range*2);
+ /* backpatch entry selector */
+ int entry_selector = 0;
+ while(tmp>1) {tmp>>=1;entry_selector++;}
+ w->data[num_segments_pos++]=entry_selector>>8;
+ w->data[num_segments_pos++]=entry_selector;
+ /* backpatch range shift */
+ int range_shift = num_segments*2 - search_range;
+ w->data[num_segments_pos++]=range_shift>>8;
+ w->data[num_segments_pos++]=range_shift;
pos=0;
num_segments = 0;
U16 delta = ttf->unicode[pos]-pos;
char do_delta=1;
for(s=pos+1;s<=end;s++) {
- U16 delta2 = ttf->unicode[pos]-pos;
+ U16 delta2 = ttf->unicode[s]-s;
if(delta2!=delta) {
do_delta=0;
break;
range = 0;
} else {
delta = 0;
- range = w->len - range_pos+num_segments*2;
+ range = w->len - range_pos;
for(s=pos;s<=end;s++) {
writeU16(w, ttf->unicode[s]);
}
}
ttf->unicode_size=0;
}
+static char*readString(memreader_t*r, int len)
+{
+ char*s = malloc(len+1);
+ readBlock(r, s, len);
+ s[len] = 0;
+ return s;
+}
void name_parse(memreader_t*r, ttf_t*ttf)
{
U16 format = readU16(r);
U16 count = readU16(r);
U16 offset = readU16(r);
-
+
int t;
for(t=0;t<count;t++) {
U16 platform = readU16(r);
U16 name_id = readU16(r);
U16 len = readU16(r);
U16 offset_2 = readU16(r);
- /*printf("%d %d %d %d at %d, %d bytes:", platform, encoding, language, name_id, offset+offset_2, len);
- int s;
- for(s=0;s<len;s++) {
- printf("%c", r->mem[offset+offset_2+s]);
+
+ INIT_READ(ss, r->mem, r->size, offset+offset_2);
+ if(!(platform==0 || (platform==1 && encoding==0)))
+ continue;
+
+ INIT_READ(s, r->mem, r->size, offset+offset_2);
+
+ if(name_id==1) {
+ if(ttf->family_name) free(ttf->family_name);
+ ttf->family_name = readString(&s, len);
+ }
+ if(name_id==2) {
+ if(ttf->subfamily_name) free(ttf->subfamily_name);
+ ttf->subfamily_name = readString(&s, len);
+ }
+ if(name_id==3) {
+ if(ttf->version_string) free(ttf->version_string);
+ ttf->version_string = readString(&s, len);
+ }
+ if(name_id==4) {
+ if(ttf->full_name) free(ttf->full_name);
+ ttf->full_name = readString(&s, len);
}
- printf("\n");*/
}
}
void name_write(ttf_t*ttf, ttf_table_t*table)
{
+ char*strings[4] = {ttf->family_name, ttf->subfamily_name, ttf->version_string, ttf->full_name};
+ int codes[4] = {1,2,3,4};
+
writeU16(table, 0); //format
- writeU16(table, 1); //count
- int offset = 18;
- writeU16(table, offset); //offset
-
- writeU16(table, 1); //platform id
- writeU16(table, 0); //encoding id
- writeU16(table, 0); //language
- writeU16(table, 4); //4: full name
- int len = strlen(ttf->name);
- writeU16(table, len);
- writeU16(table, table->len+2 - offset);
+ int count = 0;
int t;
- for(t=0;t<len;t++) {
- writeU8(table, ttf->name[t]);
+ int nr = sizeof(strings)/sizeof(strings[0]);
+
+ for(t=0;t<nr;t++) {
+ if(strings[t])
+ count+=2;
+ }
+ writeU16(table, count); //count
+
+ int offset_pos = table->len;
+ writeU16(table, 0); //offset (will be filled in later)
+
+ /* Windows expects the name table to be sorted by platform/encoding/language/name_id */
+ int offset = 0;
+ for(t=0;t<nr;t++) {
+ if(strings[t]) {
+ writeU16(table, 1); //platform id (mac)
+ writeU16(table, 0); //encoding id (latin-1)
+ writeU16(table, 0); //language (english)
+ writeU16(table, codes[t]);
+ int len = strlen(strings[t]);
+ writeU16(table, len);
+ writeU16(table, offset);
+ offset += len;
+ }
+ }
+ for(t=0;t<nr;t++) {
+ if(strings[t]) {
+ writeU16(table, 3); //platform id (windows)
+ writeU16(table, 1); //encoding id (ucs-2)
+ writeU16(table, 0x409); //language (US)
+ writeU16(table, codes[t]);
+ int len2 = strlen(strings[t]) * 2;
+ writeU16(table, len2);
+ writeU16(table, offset);
+ offset += len2;
+ }
+ }
+
+ table->data[offset_pos] = table->len>>8;
+ table->data[offset_pos+1] = table->len;
+
+ for(t=0;t<nr;t++) {
+ if(strings[t]) {
+ int len = strlen(strings[t]);
+ writeBlock(table, strings[t], len);
+ }
+ }
+ for(t=0;t<nr;t++) {
+ if(strings[t]) {
+ int s;
+ int len = strlen(strings[t]);
+ for(s=0;s<len;s++) {
+ writeU8(table, 0);
+ writeU8(table, strings[t][s]);
+ }
+ }
}
}
void name_delete(ttf_t*ttf)
{
- if(ttf->name)
- free(ttf->name);
+ if(ttf->full_name) {
+ free(ttf->full_name);
+ ttf->full_name=0;
+ }
+ if(ttf->family_name) {
+ free(ttf->family_name);
+ ttf->family_name=0;
+ }
+ if(ttf->subfamily_name) {
+ free(ttf->subfamily_name);
+ ttf->subfamily_name=0;
+ }
+ if(ttf->version_string) {
+ free(ttf->version_string);
+ ttf->version_string=0;
+ }
+}
+
+static table_post_t*post_new(ttf_t*ttf)
+{
+ table_post_t*post = rfx_calloc(sizeof(table_post_t));
+ return post;
+}
+void post_parse(memreader_t*r, ttf_t*ttf)
+{
+ table_post_t*post = ttf->post = rfx_calloc(sizeof(table_post_t));
+ U16 format = readU16(r);
+ post->italic_angle = readU16(r);
+ post->underline_position = readU16(r);
+ post->underline_thickness = readU16(r);
+ U16 is_monospaced = readU16(r);
+ readU16(r); // min mem 42
+ readU16(r);
+ readU16(r); // min mem 1
+ readU16(r);
+}
+void post_write(ttf_t*ttf, ttf_table_t*table)
+{
+ table_post_t*post = ttf->post;
+ writeU32(table, 0x00030000);
+ writeU32(table, post->italic_angle);
+ writeU16(table, post->underline_position);
+ writeU16(table, post->underline_thickness);
+ writeU32(table, 0); //is monospaced TODO
+ writeU32(table, 0); //min mem 42
+ writeU32(table, 0);
+ writeU32(table, 0); //min mem 1
+ writeU32(table, 0);
+}
+void post_delete(ttf_t*ttf)
+{
+ if(ttf->post) {
+ free(ttf->post);
+ ttf->post = 0;
+ }
}
static int ttf_parse_tables(ttf_t*ttf)
INIT_READ(m, table->data, table->len, 0);
int loc_index = head_parse(ttf, &m);
ttf_table_delete(ttf, table);
-
+
table = ttf_find_table(ttf, TAG_MAXP);
if(!table) {
msg("<error> Font has no maxp table");
INIT_READ(m2, table->data, table->len, 0);
ttf->maxp = maxp_parse(ttf, &m2);
ttf_table_delete(ttf, table);
-
+
if(!ttf->num_glyphs) {
msg("<error> Invalid number of characters");
return 0;
ttf_table_delete(ttf, table);
}
+
table = ttf_find_table(ttf, TAG_HHEA);
if(table) {
INIT_READ(m, table->data, table->len, 0);
int num_advances = hea_parse(&m, ttf);
ttf_table_delete(ttf, table);
-
+
table = ttf_find_table(ttf, TAG_HMTX);
if(table) {
INIT_READ(m, table->data, table->len, 0);
}
free(loca);
}
-
+
table = ttf_find_table(ttf, TAG_CMAP);
if(table) {
INIT_READ(m, table->data, table->len, 0);
cmap_parse(&m, ttf);
ttf_table_delete(ttf, table);
}
-
+
+ table = ttf_find_table(ttf, TAG_POST);
+ if(table) {
+ INIT_READ(m, table->data, table->len, 0);
+ post_parse(&m, ttf);
+ ttf_table_delete(ttf, table);
+ }
+
table = ttf_find_table(ttf, TAG_NAME);
if(table) {
INIT_READ(m, table->data, table->len, 0);
static void ttf_collapse_tables(ttf_t*ttf)
{
ttf_table_t*table;
-
- table = ttf_addtable(ttf, TAG_MAXP);
- maxp_write(ttf, table);
- maxp_delete(ttf);
- table = ttf_addtable(ttf, TAG_OS2);
- os2_write(ttf, table);
- os2_delete(ttf);
+ ttf_table_t*head = ttf_find_table(ttf, TAG_HEAD);
+ if(head)
+ return; //already collapsed
- if(!ttf->is_vertical) {
- table = ttf_addtable(ttf, TAG_HMTX);
- int num_advances = mtx_write(ttf, table);
- table = ttf_addtable(ttf, TAG_HHEA);
- hea_write(ttf, table, num_advances);
- } else {
- table = ttf_addtable(ttf, TAG_VMTX);
- int num_advances = mtx_write(ttf, table);
- table = ttf_addtable(ttf, TAG_VHEA);
- hea_write(ttf, table, num_advances);
+ if(ttf->maxp) {
+ table = ttf_addtable(ttf, TAG_MAXP);
+ maxp_write(ttf, table);
+ maxp_delete(ttf);
}
-
+
+ if(ttf->os2) {
+ table = ttf_addtable(ttf, TAG_OS2);
+ os2_write(ttf, table);
+ os2_delete(ttf);
+ }
+
+ if(ttf->hea) {
+ if(!ttf->is_vertical) {
+ table = ttf_addtable(ttf, TAG_HMTX);
+ int num_advances = mtx_write(ttf, table);
+ table = ttf_addtable(ttf, TAG_HHEA);
+ hea_write(ttf, table, num_advances);
+ hea_delete(ttf);
+ } else {
+ table = ttf_addtable(ttf, TAG_VMTX);
+ int num_advances = mtx_write(ttf, table);
+ table = ttf_addtable(ttf, TAG_VHEA);
+ hea_write(ttf, table, num_advances);
+ hea_delete(ttf);
+ }
+ }
+
int loca_size=0;
if(ttf->num_glyphs) {
- table = ttf_addtable(ttf, TAG_CMAP);
- cmap_write(ttf, table);
- cmap_delete(ttf);
+ if(ttf->unicode) {
+ table = ttf_addtable(ttf, TAG_CMAP);
+ cmap_write(ttf, table);
+ cmap_delete(ttf);
+ }
- table = ttf_addtable(ttf, TAG_GLYF);
- U32*locations = glyf_write(ttf, table);
- glyf_delete(ttf);
-
- table = ttf_addtable(ttf, TAG_LOCA);
- loca_size = loca_write(ttf, table, locations);
- free(locations);
+ if(ttf->glyphs) {
+ table = ttf_addtable(ttf, TAG_GLYF);
+ U32*locations = glyf_write(ttf, table);
+ table = ttf_addtable(ttf, TAG_LOCA);
+ loca_size = loca_write(ttf, table, locations);
+ free(locations);
+ glyf_delete(ttf);
+ }
}
- if(ttf->name) {
+ if(ttf->full_name || ttf->family_name || ttf->subfamily_name) {
table = ttf_addtable(ttf, TAG_NAME);
name_write(ttf, table);
name_delete(ttf);
}
-
+ if(ttf->post) {
+ table = ttf_addtable(ttf, TAG_POST);
+ post_write(ttf, table);
+ post_delete(ttf);
+ }
+
table = ttf_addtable(ttf, TAG_HEAD);
head_write(ttf, table, loca_size);
head_delete(ttf);
ttf_t*ttf = rfx_calloc(sizeof(ttf_t));
ttf->version = readU32(&r);
+ if(ttf->version == SWAP32(length)) {
+ U32 fontDataSize = readU32(&r);
+ U32 version = readU32(&r);
+ U32 flags = readU32(&r);
+ U8 panose[10];
+ readBlock(&r, panose, 10);
+ readU8(&r); //charset
+ readU8(&r); //italoc
+ readU32(&r); //weight
+ readU16(&r); //fstype
+ U16 magic = readU16(&r); //magicNumber
+ /* we're being paranoid: it's entirely possible for the font
+ size to be exactly 0x10000. Only treat this font as eot if
+ it has the right magic number */
+ if(magic == 0x4c50) {
+ readU32(&r); //unicoderange[0]
+ readU32(&r); //unicoderange[1]
+ readU32(&r); //unicoderange[2]
+ readU32(&r); //unicoderange[3]
+ readU32(&r); //codepagerange[0]
+ readU32(&r); //codepagerange[1]
+ readU32(&r); //checksumadjustment
+ readU32(&r); //reserved[0]
+ readU32(&r); //reserved[1]
+ readU32(&r); //reserved[2]
+ readU32(&r); //reserved[3]
+ readU16(&r); //padding
+
+ int nr=0;
+ for(nr=0;nr<4;nr++) {
+ int t, len;
+ /* All of ttf is big-endian. All of ttf? No. One small eot table
+ of indomitable little-endian... */
+ len = readU8(&r);
+ len |= readU8(&r)<<8;
+ len /= 2;
+ for(t=0;t<len;t++) {
+ U8 c = readU16(&r)>>8;
+ }
+ readU16(&r); // zero terminator
+ }
+ readU16(&r); // more padding
+
+ /* adjust the offset to the start of the actual truetype
+ data- the positions in the table header will be relative
+ to the ttf data after the header, not to the file */
+ r.mem += r.pos;
+ r.size -= r.pos;
+ r.pos = 0;
+ ttf->version = readU32(&r);
+ } else {
+ reader_reset(&r);
+ ttf->version = readU32(&r);
+ }
+ }
+
if(ttf->version == TTCFTAG) {
/* a ttc collection is a number of truetype fonts
packaged together */
r.pos = font1_position;
ttf->version = readU32(&r);
}
-
+
int num_tables = readU16(&r);
-
+
readU16(&r); //search range
readU16(&r); //entry selector
readU16(&r); //range shift
if(num_tables*16 > length) {
- msg("<error> Truncated TTC file (table entries: %d)", num_tables);
- if(ttf->version != OPENTYPE &&
- ttf->version != TRUETYPE_MACOS &&
+ msg("<error> Truncated TTF file (table entries: %d)", num_tables);
+ if(ttf->version != OPENTYPE &&
+ ttf->version != TRUETYPE_MACOS &&
ttf->version != VERSION_1_0) {
// bad table length, weird version. This is probably not a ttf file.
return 0;
U8*mem = malloc(len);
r.pos = pos;
readBlock(&r, mem, len);
-
+
ttf_table_t*table = ttf_addtable(ttf, tag);
table->data = mem;
table->len = table->memsize = len;
#if 0
U32 checksum2 = ttf_table_checksum(table);
if(checksum2!=checksum) {
- msg("<warning> Checksum mismatch in tag %02x%02x%02x%02x %c%c%c%c (%d bytes) %08x!=%08x",
+ msg("<warning> Checksum mismatch in tag %02x%02x%02x%02x %c%c%c%c (%d bytes) %08x!=%08x",
(tag>>24)&0xff, (tag>>16)&0xff, (tag>>8)&0xff, (tag)&0xff,
(tag>>24)&0xff, (tag>>16)&0xff, (tag>>8)&0xff, (tag)&0xff,
len, checksum2, checksum);
}
free(table_data);
- if(!ttf_parse_tables(ttf))
+ if(!ttf_parse_tables(ttf))
return 0;
return ttf;
}
void ttf_create_truetype_tables(ttf_t*ttf)
{
- if(!ttf->head)
+ if(!ttf->head)
ttf->head = head_new(ttf);
- if(!ttf->maxp)
+ if(!ttf->maxp)
ttf->maxp = maxp_new(ttf);
if(!ttf->hea)
ttf->hea = hea_new(ttf);
if(!ttf->os2)
ttf->os2 = os2_new(ttf);
+ if(!ttf->post)
+ ttf->post = post_new(ttf);
}
-ttf_table_t* ttf_write(ttf_t*ttf)
+
+ttf_table_t* ttf_write(ttf_t*ttf, U32*checksum_adjust)
{
ttf_collapse_tables(ttf);
-
+
ttf_table_t*file = ttf_table_new(0);
writeU32(file, VERSION_1_0);
t = t->next;
}
writeU16(file, num_tables);
-
+
/* write search range */
int tmp = num_tables;
int search_range = 0;
writeBlock(file, zero, (-t->len)&3); //pad
}
U32 checksum = 0xb1b0afba - ttf_table_checksum(file);
+ if(checksum_adjust)
+ *checksum_adjust = checksum;
U8*checksum2 = file->data + head_pos + 8;
checksum2[0] = checksum>>24;
checksum2[1] = checksum>>16;
checksum2[3] = checksum>>0;
return file;
}
+
+ttf_table_t* ttf_eot_head(ttf_t*ttf)
+{
+ ttf_table_t*file = ttf_table_new(0);
+ writeU32(file, 0); //file size (filled in later)
+ writeU32(file, 0); //fontdatasize (filled in later)
+ writeU32(file, 0x01000200);
+ writeU32(file, 0); //flags
+ writeU8(file, ttf->os2->panose_FamilyType);
+ writeU8(file, ttf->os2->panose_SerifStyle);
+ writeU8(file, ttf->os2->panose_Weight);
+ writeU8(file, ttf->os2->panose_Proportion);
+ writeU8(file, ttf->os2->panose_Contrast);
+ writeU8(file, ttf->os2->panose_StrokeVariation);
+ writeU8(file, ttf->os2->panose_ArmStyle);
+ writeU8(file, ttf->os2->panose_Letterform);
+ writeU8(file, ttf->os2->panose_Midline);
+ writeU8(file, ttf->os2->panose_XHeight);
+ writeU8(file, 1); //charset (default)
+ writeU8(file, ttf->os2->fsSelection&1); //italic
+ writeU32_LE(file, ttf->os2->usWeightClass);
+ writeU16(file, 0); //fstype
+ writeU16(file, 0x4c50); //magic
+ writeU32_LE(file, ttf->os2->ulCharRange[0]);
+ writeU32_LE(file, ttf->os2->ulCharRange[1]);
+ writeU32_LE(file, ttf->os2->ulCharRange[2]);
+ writeU32_LE(file, ttf->os2->ulCharRange[3]);
+ writeU32_LE(file, ttf->os2->ulCodePageRange1);
+ writeU32_LE(file, ttf->os2->ulCodePageRange2);
+ writeU32(file, 0); //checksum adjust (filled in later)
+ writeU32(file, 0); //reserved[0]
+ writeU32(file, 0); //reserved[1]
+ writeU32(file, 0); //reserved[2]
+ writeU32(file, 0); //reserved[3]
+ writeU16(file, 0); //padding(1)
+
+ int t,len;
+
+ //family name
+ len = strlen(ttf->family_name);
+ writeU16_LE(file, len*2);
+ for(t=0;t<len;t++) {
+ writeU8(file, 0);
+ writeU8(file, ttf->family_name[t]);
+ }
+ writeU16(file, 0); //zero byte pad
+
+ //subfamily name
+ len = strlen(ttf->subfamily_name);
+ writeU16_LE(file, len*2);
+ for(t=0;t<len;t++) {
+ writeU8(file, 0);
+ writeU8(file, ttf->subfamily_name[t]);
+ }
+ writeU16(file, 0); //zero byte pad
+
+ //version string
+ len = strlen(ttf->version_string);
+ writeU16_LE(file, len*2); //len
+ for(t=0;t<len;t++) {
+ writeU8(file, 0);
+ writeU8(file, ttf->version_string[t]);
+ }
+ writeU16(file, 0); //zero byte pad
+
+ //full name
+ len = strlen(ttf->full_name);
+ writeU16_LE(file, len*2); //len
+ for(t=0;t<len;t++) {
+ writeU8(file, 0);
+ writeU8(file, ttf->full_name[t]);
+ }
+ writeU16(file, 0); //zero byte pad
+
+ writeU16(file, 0); //padding(2)
+ return file;
+}
+
+void ttf_save_eot(ttf_t*ttf, const char*filename)
+{
+ ttf_table_t* eot = ttf_eot_head(ttf);
+ U32 checksum_adjust = 0;
+ ttf_table_t* t = ttf_write(ttf, &checksum_adjust);
+
+ U8*len_data = eot->data;
+ U32 full_len = eot->len + t->len;
+ len_data[0] = full_len>>0;
+ len_data[1] = full_len>>8;
+ len_data[2] = full_len>>16;
+ len_data[3] = full_len>>24;
+
+ U8*len_data2 = eot->data+4;
+ len_data2[0] = t->len>>0;
+ len_data2[1] = t->len>>8;
+ len_data2[2] = t->len>>16;
+ len_data2[3] = t->len>>24;
+
+ U8*checksum_data = eot->data + 60;
+ checksum_data[0] = checksum_adjust>>0;
+ checksum_data[1] = checksum_adjust>>8;
+ checksum_data[2] = checksum_adjust>>16;
+ checksum_data[3] = checksum_adjust>>24;
+
+ FILE*fi = fopen(filename, "wb");
+ if(!fi) {
+ perror(filename);
+ return;
+ }
+
+ fwrite(eot->data, eot->len, 1, fi);
+ fwrite(t->data, t->len, 1, fi);
+ fclose(fi);
+ ttf_table_delete(0, t);
+ ttf_table_delete(0, eot);
+}
+
void ttf_save(ttf_t*ttf, const char*filename)
{
- ttf_table_t* t = ttf_write(ttf);
+ ttf_table_t* t = ttf_write(ttf, 0);
FILE*fi = fopen(filename, "wb");
if(!fi) {
perror(filename);
fclose(fi);
ttf_table_delete(0, t);
}
+
void ttf_dump(ttf_t*ttf)
{
msg("<notice> Truetype file version %08x%s", ttf->version, ttf->version == OPENTYPE?" (opentype)":"");
ttf_table_t*table = ttf->tables;
while(table) {
U32 tag = table->id;
- msg("<notice> Tag %02x%02x%02x%02x [%c%c%c%c] (length: %d)",
- (tag>>24)&0xff, (tag>>16)&0xff, (tag>>8)&0xff, (tag)&0xff,
+ msg("<notice> Tag %02x%02x%02x%02x [%c%c%c%c] (length: %d)",
+ (tag>>24)&0xff, (tag>>16)&0xff, (tag>>8)&0xff, (tag)&0xff,
(tag>>24)&0xff, (tag>>16)&0xff, (tag>>8)&0xff, (tag)&0xff, table->len);
table = table->next;
}
maxp_dump(ttf);
glyf_dump(ttf);
}
-void ttf_destroy(ttf_t*ttf)
+void ttf_destroy_tables(ttf_t*ttf)
{
ttf_table_t*table = ttf->tables;
while(table) {
free(table);
table = next;
}
+ ttf->tables = 0;
+}
+void ttf_reduce(ttf_t*ttf)
+{
+ ttf_destroy_tables(ttf);
+}
+void ttf_destroy(ttf_t*ttf)
+{
+ ttf_destroy_tables(ttf);
maxp_delete(ttf);
os2_delete(ttf);
head_delete(ttf);
hea_delete(ttf);
glyf_delete(ttf);
+ post_delete(ttf);
+ name_delete(ttf);
free(ttf);
}
{
setConsoleLogging(7);
const char*filename = "comic.ttf";
- if(argn>1)
+ if(argn>1)
filename = argv[1];
//msg("<notice> Loading %s", filename);
memfile_t*m = memfile_open(filename);
ttf_t*ttf = ttf_load(m->data, m->len);
- ttf->name = strdup("testfont");
+
+ if(!ttf) {
+ msg("<error> Couldn't load %s", filename);
+ return 1;
+ }
+ ttf_reduce(ttf);
+
+ ttf->full_name = strdup("Test-Normal");
+ ttf->family_name = strdup("Test");
+ ttf->subfamily_name = strdup("Normal");
+ ttf->version_string = strdup("Version 1.0");
+
if(!ttf) return 1;
memfile_close(m);
//ttf_dump(ttf);
- //printf("os2 version: %04x (%d), maxp size: %d\n",
+ //printf("os2 version: %04x (%d), maxp size: %d\n",
// ttf->os2->version, ttf->os2->size, ttf->maxp->size);
- ttf_save(ttf, "output.ttf");
+ ttf_save_eot(ttf, "testfont.eot");
+ ttf_save(ttf, "testfont.ttf");
ttf_destroy(ttf);
return 0;