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mirror of https://github.com/rsms/inter.git synced 2024-11-23 11:43:47 +03:00
inter/misc/ttf2woff/optimize.c
2017-08-22 02:23:08 -07:00

320 lines
5.7 KiB
C

/*
* Copyright (C) 2013 Jan Bobrowski <jb@wizard.ae.krakow.pl>
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* version 2 as published by the Free Software Foundation.
*/
#include <stdlib.h>
#include <stdio.h>
#include <assert.h>
#include "ttf2woff.h"
struct table *find_table(struct ttf *ttf, char tag[4])
{
u32 tg = g32((u8*)tag);
int i;
for(i=0; i<ttf->ntables; i++)
if(ttf->tables[i].tag == tg)
return &ttf->tables[i];
return 0;
}
static void replace_table(struct table *t, u8 *p, int l)
{
if(t->free_buf)
t->buf.ptr = my_free(t->buf.ptr);
t->free_buf = 1;
t->modified = 1;
t->buf.ptr = p;
t->buf.len = l;
}
static void optimized(struct table *t, struct buf new)
{
if(g.verbose)
echo("Optimized %s table: %u > %u (%d bytes)", t->name, t->buf.len, new.len, new.len-t->buf.len);
replace_table(t, new.ptr, new.len);
}
static void optimize_loca(struct ttf *ttf)
{
struct table *head, *loca, *glyf;
struct buf new;
int i,n;
head = find_table(ttf, "head");
loca = find_table(ttf, "loca");
glyf = find_table(ttf, "glyf");
if(!head || !loca || !glyf)
return;
if(head->buf.len<54 || g16(head->buf.ptr+50)!=1)
return;
if(loca->buf.len&3 || loca->buf.len<4)
return;
// we have 32-bit loca table
if(glyf->buf.len != g32(loca->buf.ptr+loca->buf.len-4))
return;
if(glyf->buf.len >= 1<<16)
return;
n = loca->buf.len>>2;
new.len = 2*n;
new.ptr = my_alloc(new.len);
for(i=0;i<n;i++) {
u32 o = g32(loca->buf.ptr+4*i);
if(o&1) {
echo("Bad offset in loca");
my_free(new.ptr);
return;
}
p16(new.ptr+2*i, o>>1);
}
optimized(loca, new);
p16(head->buf.ptr+50, 0);
head->modified = 1;
}
static int overlap(struct buf a, struct buf b)
{
int o = a.len<b.len ? a.len : b.len;
while(o) {
if(memcmp(a.len-o+a.ptr, b.ptr, o)==0)
break;
o--;
}
return o;
}
static u8 *bufbuf(struct buf a, struct buf b)
{
u8 *p=a.ptr, *e=a.ptr+a.len-b.len;
while(p<=e) {
if(memcmp(p,b.ptr,b.len)==0)
return p;
p++;
}
return 0;
}
static int name_cmp_len(const void *va, const void *vb) {
struct buf a = *(struct buf*)va;
struct buf b = *(struct buf*)vb;
int d = a.len - b.len;
if(!d) d = memcmp(a.ptr, b.ptr, a.len);
return d;
}
static void optimize_name(struct ttf *ttf)
{
struct table *name = find_table(ttf, "name");
struct buf str, new;
struct buf *ent;
u8 *p;
int count,n,i;
if(!name || name->buf.len<6+2*12+1 || g16(name->buf.ptr))
return;
n = g16(name->buf.ptr+4); // stringOffset
if(name->buf.len < n)
goto corrupted;
str.ptr = name->buf.ptr+n;
str.len = name->buf.len-n;
count = g16(name->buf.ptr+2);
if(name->buf.len < 6+12*count) {
corrupted:
echo("Name table corrupted");
return;
}
n = count;
ent = my_alloc(n * sizeof *ent);
p = name->buf.ptr+6;
for(i=0; i<n; i++) {
unsigned l = g16(p+8);
unsigned o = g16(p+10);
if(o+l > str.len) {
echo("Bad string location in name table");
my_free(ent);
return;
}
if(l) {
ent[i].ptr = str.ptr + o;
ent[i].len = l;
}
p += 12;
}
qsort(ent, n, sizeof *ent, name_cmp_len);
for(;;) {
int j,mo,mi,mj;
struct buf a, b, c;
mo = 0;
for(j=0;j<n;j++) for(i=1;i<n;i++) if(i!=j) {
int o;
a = ent[i];
b = ent[j];
if(bufbuf(a,b))
goto remove_b;
o = overlap(a,b);
if(o > mo) {
mo = o;
mi = i;
mj = j;
}
}
if(!mo)
break;
a = ent[mi];
b = ent[mj];
c.len = a.len + b.len - mo;
c.ptr = my_alloc(c.len);
p = append(c.ptr, a.ptr, a.len);
append(p, b.ptr+mo, b.len-mo);
if(a.ptr<str.ptr || a.ptr>=str.ptr+str.len)
my_free(a.ptr);
i = mi<mj ? mi : mj;
j = mi<mj ? mj : mi;
ent[i] = c;
remove_b:
if(b.ptr<str.ptr || b.ptr>=str.ptr+str.len)
my_free(b.ptr);
n--;
while(j < n) ent[j]=ent[j+1], j++;
}
{
int sz = 6 + 12*count;
for(i=0;i<n;i++)
sz += ent[i].len;
if(sz >= name->buf.len) {
my_free(ent);
return;
}
new.len = sz;
new.ptr = my_alloc(sz);
p = new.ptr + 6 + 12*count;
for(i=0;i<n;i++) {
struct buf a = ent[i];
memcpy(p,a.ptr,a.len); p+=a.len;
if(a.ptr<str.ptr || a.ptr>=str.ptr+str.len)
my_free(a.ptr);
}
assert(p == new.ptr+new.len);
}
my_free(ent);
memcpy(new.ptr, name->buf.ptr, 6+12*count);
p16(new.ptr+4,6+12*count);
{
struct buf newstr;
newstr.ptr = new.ptr + 6+12*count;
newstr.len = new.len - 6+12*count;
p = new.ptr + 6 + 10;
for(i=0;i<count;i++) {
struct buf a = {str.ptr+g16(p), g16(p-2)};
u8 *s = bufbuf(newstr, a);
assert(s);
p16(p, s-newstr.ptr);
p += 12;
}
}
#ifndef NDEBUG
for(i=0; i<count; i++) {
u8 *p0 = name->buf.ptr;
u8 *p1 = new.ptr;
p0 += g16(p0+4) + g16(p0+6+12*i+10);
p1 += g16(p1+4) + g16(p1+6+12*i+10);
assert(!memcmp(p0,p1,g16(new.ptr+6+12*i+8)));
}
#endif
optimized(name, new);
}
static void optimize_hmtx(struct ttf *ttf)
{
struct table *hhea, *hmtx;
struct buf buf;
u8 *p, *q;
int nlhm,adv,n;
hhea = find_table(ttf, "hhea");
hmtx = find_table(ttf, "hmtx");
if(!hhea || !hmtx || hhea->buf.len < 36 || g32(hhea->buf.ptr)!=0x10000)
return;
nlhm = g16(hhea->buf.ptr + 34);
buf = hmtx->buf;
if(!nlhm || buf.len&1 || buf.len < 4*nlhm) {
return;
}
if(nlhm<2)
return;
p = buf.ptr + 4*(nlhm-1);
adv = g16(p);
for(n=nlhm; n>1; n--) {
p -= 4;
if(adv != g16(p))
break;
}
if(n < nlhm) {
struct buf new;
int i, nent = (buf.len>>1) - nlhm;
new.len = 2*nent + 2*n;
new.ptr = my_alloc(new.len);
p = append(new.ptr, buf.ptr, n<<2);
q = buf.ptr + (n<<2);
for(i=n; i<nlhm; i++) {
p = p16(p, g16(q+2));
q += 4;
}
p = append(p, q, buf.ptr+buf.len-q);
assert(p == new.ptr+new.len);
optimized(hmtx, new);
p16(hhea->buf.ptr+34, n);
hhea->modified = 1;
}
}
void optimize(struct ttf *ttf)
{
optimize_loca(ttf);
optimize_name(ttf);
optimize_hmtx(ttf);
}