+void cvt_parse(memreader_t*r, ttf_t*ttf)
+{
+ table_cvt_t*cvt = ttf->cvt = rfx_calloc(sizeof(table_cvt_t));
+ cvt->num = r->size/2;
+ cvt->values = malloc(cvt->num*sizeof(S16));
+ int t;
+ for(t=0;t<cvt->num;t++) {
+ cvt->values[t] = readS16(r);
+ }
+}
+void cvt_write(ttf_t*ttf, ttf_table_t*table)
+{
+ table_cvt_t*cvt = ttf->cvt;
+ int t;
+ for(t=0;t<cvt->num;t++) {
+ writeS16(table, cvt->values[t]);
+ }
+}
+void cvt_delete(ttf_t*ttf)
+{
+ if(ttf->cvt) {
+ if(ttf->cvt->values)
+ free(ttf->cvt->values);
+ free(ttf->cvt);
+ ttf->cvt = 0;
+ }
+}
+
+static table_gasp_t*gasp_new(ttf_t*ttf)
+{
+ table_gasp_t*gasp = rfx_calloc(sizeof(table_gasp_t));
+ gasp->num = 1;
+ gasp->records = rfx_calloc(sizeof(gasp->records[0])*gasp->num);
+
+ gasp->records[0].size = 65535;
+ gasp->records[0].behaviour = 15; //gridfit+grayscale rendering
+ return gasp;
+}
+void gasp_parse(memreader_t*r, ttf_t*ttf)
+{
+ table_gasp_t*gasp = ttf->gasp = rfx_calloc(sizeof(table_gasp_t));
+ readU16(r); //version
+ int num = readU16(r);
+ int t;
+ if(!num) return;
+ gasp->records = malloc(sizeof(gasp->records[0])*num);
+ for(t=0;t<num;t++) {
+ gasp->records[t].size = readU16(r);
+ gasp->records[t].behaviour = readU16(r);
+ }
+}
+
+#define GASP_SYMMETRIC_GRIDFIT 0x0008
+#define GASP_SYMMETRIC_SMOOTHING 0x0004
+#define GASP_DOGRAY 0x0002
+#define GASP_GRIDFIT 0x0001
+
+void gasp_write(ttf_t*ttf, ttf_table_t*table)
+{
+ table_gasp_t*gasp = ttf->gasp;
+ int version = 0;
+ int t;
+ for(t=0;t<gasp->num;t++) {
+ if(gasp->records[t].behaviour & ~(GASP_GRIDFIT | GASP_DOGRAY)) {
+ version = 1;
+ }
+ }
+ writeU16(table, version);
+ writeU16(table, gasp->num);
+ for(t=0;t<gasp->num;t++) {
+ writeU16(table, gasp->records[t].size);
+ writeU16(table, gasp->records[t].behaviour);
+ }
+}
+void gasp_delete(ttf_t*ttf)
+{
+ if(ttf->gasp) {
+ if(ttf->gasp->records)
+ free(ttf->gasp->records);
+ free(ttf->gasp);
+ ttf->gasp = 0;
+ }
+}
+
+table_code_t*prep_new(ttf_t*ttf)
+{
+ table_code_t*prep = ttf->prep = rfx_calloc(sizeof(table_code_t));
+ ttf_table_t*t = ttf_table_new(0);
+ writeU8(t,0xb8);writeU16(t,0x1ff); // pushword(0x1ff)
+ writeU8(t,0x85); //scanctrl (always do dropout, for all sizes)
+ writeU8(t,0xb0);writeU8(t,1); // pushbyte(1)
+ writeU8(t,0x8d); //scantype (simple dropout control w/o stubs)
+ writeU8(t,0xb0);writeU8(t,5); // pushbyte(5)
+ writeU8(t,0x8d); //scantype (for windows) smart dropout control w/o stubs
+ prep->code = t->data;
+ prep->size = t->len;
+ free(t);
+ return prep;
+
+}
+void fpgm_parse(memreader_t*r, ttf_t*ttf)
+{
+ table_code_t*fpgm = ttf->fpgm = rfx_calloc(sizeof(table_code_t));
+ if(!r->size) return;
+ fpgm->size = r->size;
+ fpgm->code = malloc(r->size);
+ readBlock(r, fpgm->code, r->size);
+}
+void fpgm_write(ttf_t*ttf, ttf_table_t*table)
+{
+ table_code_t*code = ttf->fpgm;
+ writeBlock(table, code->code, code->size);
+}
+void fpgm_delete(ttf_t*ttf)
+{
+ if(ttf->fpgm) {
+ if(ttf->fpgm->code)
+ free(ttf->fpgm->code);
+ free(ttf->fpgm);
+ ttf->fpgm = 0;
+ }
+}
+
+void prep_parse(memreader_t*r, ttf_t*ttf)
+{
+ table_code_t*prep = ttf->prep = rfx_calloc(sizeof(table_code_t));
+ if(!r->size) return;
+ prep->size = r->size;
+ prep->code = malloc(r->size);
+ readBlock(r, prep->code, r->size);
+}
+void prep_write(ttf_t*ttf, ttf_table_t*table)
+{
+ table_code_t*code = ttf->prep;
+ writeBlock(table, code->code, code->size);
+}
+void prep_delete(ttf_t*ttf)
+{
+ if(ttf->prep) {
+ if(ttf->prep->code)
+ free(ttf->prep->code);
+ free(ttf->prep);
+ ttf->prep = 0;
+ }
+}
+