ref: 27fd6f2204e2990046efb20819ae2abac4de6d83
dir: /otf.c/
#include <arpa/inet.h> #include <errno.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <unistd.h> #include "trfn.h" #define NGLYPHS (1 << 14) #define NLOOKUPS (1 << 12) #define GNLEN (64) #define BUFLEN (1 << 23) #define NGRPS 2048 #define MAX(a, b) ((a) < (b) ? (b) : (a)) #define U32(buf, off) (htonl(*(u32 *) ((buf) + (off)))) #define U16(buf, off) (htons(*(u16 *) ((buf) + (off)))) #define U8(buf, off) (*(u8 *) ((buf) + (off))) #define S16(buf, off) ((s16) htons(*(u16 *) ((buf) + (off)))) #define S32(buf, off) ((s32) htonl(*(u32 *) ((buf) + (off)))) #define GCTXLEN 16 /* number of context backtrack coverage arrays */ typedef unsigned int u32; typedef unsigned short u16; typedef unsigned char u8; typedef int s32; typedef short s16; static char glyph_name[NGLYPHS][GNLEN]; static int glyph_code[NGLYPHS]; static int glyph_bbox[NGLYPHS][4]; static int glyph_wid[NGLYPHS]; static int glyph_n; static int upm; /* units per em */ static int res; /* device resolution */ static int kmin; /* minimum kerning value */ static int warn; static char *macset[]; static int owid(int w) { return (w < 0 ? w * 1000 - upm / 2 : w * 1000 + upm / 2) / upm; } static int uwid(int w) { int d = 7200 / res; return (w < 0 ? owid(w) - d / 2 : owid(w) + d / 2) / d; } /* report unsupported otf tables */ static void otf_unsupported(char *sub, int type, int fmt) { if (warn) { fprintf(stderr, "neatmkfn: unsupported %s lookup %d", sub, type); if (fmt > 0) fprintf(stderr, " format %d", fmt); fprintf(stderr, "\n"); } } /* find the otf table with the given name */ static void *otf_table(void *otf, char *name) { int nrecs = U16(otf, 4); int i; for (i = 0; i < nrecs; i++) { void *rec = otf + 12 + i * 16; /* an otf table record */ if (!strncmp(rec, name, 4)) return otf + U32(rec, 8); } return NULL; } /* obtain postscript font name from name table */ static void otf_name(void *otf, void *tab) { char name[256]; void *str = tab + U16(tab, 4); /* storage area */ int n = U16(tab, 2); /* number of name records */ int i; for (i = 0; i < n; i++) { void *rec = tab + 6 + 12 * i; int pid = U16(rec, 0); /* platform id */ int eid = U16(rec, 2); /* encoding id */ int lid = U16(rec, 4); /* language id */ int nid = U16(rec, 6); /* name id */ int len = U16(rec, 8); /* string length */ int off = U16(rec, 10); /* string offset */ if (pid == 1 && eid == 0 && lid == 0 && nid == 6) { memcpy(name, str + off, len); name[len] = '\0'; trfn_psfont(name); } } } /* parse otf cmap format 4 subtable */ static void otf_cmap4(void *otf, void *cmap4) { int nsegs; void *ends, *begs, *deltas, *offsets; int beg, end, delta, offset; int i, j; nsegs = U16(cmap4, 6) / 2; ends = cmap4 + 14; begs = ends + 2 * nsegs + 2; deltas = begs + 2 * nsegs; offsets = deltas + 2 * nsegs; for (i = 0; i < nsegs; i++) { beg = U16(begs, 2 * i); end = U16(ends, 2 * i); delta = U16(deltas, 2 * i); offset = U16(offsets, 2 * i); if (offset) { for (j = beg; j <= end; j++) glyph_code[(U16(offsets + 2 * i, offset + (j - beg) * 2) + delta) & 0xffff] = j; } else { for (j = beg; j <= end; j++) glyph_code[(j + delta) & 0xffff] = j; } } } /* parse otf cmap header */ static void otf_cmap(void *otf, void *cmap) { int nrecs = U16(cmap, 2); int i; for (i = 0; i < nrecs; i++) { void *rec = cmap + 4 + i * 8; /* a cmap record */ int plat = U16(rec, 0); int enc = U16(rec, 2); void *tab = cmap + U32(rec, 4); /* a cmap subtable */ int fmt = U16(tab, 0); if (plat == 3 && enc == 1 && fmt == 4) otf_cmap4(otf, tab); } } static void otf_post(void *otf, void *post) { void *post2; /* version 2.0 header */ void *index; /* glyph name indices */ void *names; /* glyph names */ int cname = 0; int i; if (U32(post, 0) != 0x00020000) return; post2 = post + 32; glyph_n = U16(post2, 0); index = post2 + 2; names = index + 2 * glyph_n; for (i = 0; i < glyph_n; i++) { int idx = U16(index, 2 * i); if (idx <= 257) { strcpy(glyph_name[i], macset[idx]); } else { memcpy(glyph_name[i], names + cname + 1, U8(names, cname)); glyph_name[i][U8(names, cname)] = '\0'; cname += U8(names, cname) + 1; } } } static void otf_glyf(void *otf, void *glyf) { void *maxp = otf_table(otf, "maxp"); void *head = otf_table(otf, "head"); void *loca = otf_table(otf, "loca"); void *gdat; void *gdat_next; int n = U16(maxp, 4); int fmt = U16(head, 50); int i, j; for (i = 0; i < n; i++) { if (fmt) { gdat = glyf + U32(loca, 4 * i); gdat_next = glyf + U32(loca, 4 * (i + 1)); } else { gdat = glyf + U16(loca, 2 * i) * 2; gdat_next = glyf + U16(loca, 2 * (i + 1)) * 2; } if (gdat < gdat_next) for (j = 0; j < 4; j++) glyph_bbox[i][j] = S16(gdat, 2 + 2 * j); } } static void otf_hmtx(void *otf, void *hmtx) { void *hhea = otf_table(otf, "hhea"); int n; int i; n = U16(hhea, 34); for (i = 0; i < n; i++) glyph_wid[i] = U16(hmtx, i * 4); for (i = n; i < glyph_n; i++) glyph_wid[i] = glyph_wid[n - 1]; } static void otf_kern(void *otf, void *kern) { int off = 4; int i, j; int n = U16(kern, 2); /* number of kern subtables */ for (i = 0; i < n; i++) { void *tab = kern + off; /* a kern subtable */ int cov = U16(tab, 4); off += U16(tab, 2); if ((cov >> 8) == 0 && (cov & 1)) { /* format 0 */ int npairs = U16(tab, 6); for (j = 0; j < npairs; j++) { int c1 = U16(tab, 14 + 6 * j); int c2 = U16(tab, 14 + 6 * j + 2); int val = S16(tab, 14 + 6 * j + 4); trfn_kern(glyph_name[c1], glyph_name[c2], owid(val)); } } } } static int coverage(void *cov, int *out) { int fmt = U16(cov, 0); int n = U16(cov, 2); int beg, end; int ncov = 0; int i, j; if (fmt == 1) { for (i = 0; i < n; i++) out[ncov++] = U16(cov, 4 + 2 * i); } if (fmt == 2) { for (i = 0; i < n; i++) { beg = U16(cov, 4 + 6 * i); end = U16(cov, 4 + 6 * i + 2); for (j = beg; j <= end; j++) out[ncov++] = j; } } return ncov; } static int classdef(void *tab, int *gl, int *cls) { int fmt = U16(tab, 0); int ngl = 0; int i, j; if (fmt == 1) { int beg = U16(tab, 2); ngl = U16(tab, 4); for (i = 0; i < ngl; i++) { gl[i] = beg + i; cls[i] = U16(tab, 6 + 2 * i); } } if (fmt == 2) { int n = U16(tab, 2); for (i = 0; i < n; i++) { int beg = U16(tab, 4 + 6 * i); int end = U16(tab, 4 + 6 * i + 2); for (j = beg; j <= end; j++) { gl[ngl] = j; cls[ngl] = U16(tab, 4 + 6 * i + 4); ngl++; } } } return ngl; } static int intcmp(void *v1, void *v2) { return *(int *) v1 - *(int *) v2; } int ggrp_make(int *src, int n); static int ggrp_class(int *src, int *cls, int nsrc, int id) { int g[NGLYPHS]; int n = 0; int i; for (i = 0; i < nsrc; i++) if (cls[i] == id) g[n++] = src[i]; qsort(g, n, sizeof(g[0]), (void *) intcmp); return ggrp_make(g, n); } static int ggrp_coverage(int *g, int n) { qsort(g, n, sizeof(g[0]), (void *) intcmp); return ggrp_make(g, n); } static int valuerecord_len(int fmt) { int off = 0; int i; for (i = 0; i < 8; i++) if (fmt & (1 << i)) off += 2; return off; } static void valuerecord_print(int fmt, void *rec) { int vals[8] = {0}; int off = 0; int i; for (i = 0; i < 8; i++) { if (fmt & (1 << i)) { vals[i] = uwid(S16(rec, off)); off += 2; } } if (fmt) printf(":%+d%+d%+d%+d", vals[0], vals[1], vals[2], vals[3]); } static int valuerecord_small(int fmt, void *rec) { int off = 0; int i; for (i = 0; i < 8; i++) { if (fmt & (1 << i)) { if (abs(uwid(S16(rec, off))) >= MAX(1, kmin)) return 0; off += 2; } } return 1; } /* single adjustment positioning */ static void otf_gpostype1(void *otf, void *sub, char *feat) { int fmt = U16(sub, 0); int vfmt = U16(sub, 4); int cov[NGLYPHS]; int ncov, nvals; int vlen = valuerecord_len(vfmt); int i; ncov = coverage(sub + U16(sub, 2), cov); if (fmt == 1) { for (i = 0; i < ncov; i++) { if (valuerecord_small(vfmt, sub + 6)) continue; printf("gpos %s 1 %s", feat, glyph_name[cov[i]]); valuerecord_print(vfmt, sub + 6); printf("\n"); } } if (fmt == 2) { nvals = U16(sub, 6); for (i = 0; i < nvals; i++) { if (valuerecord_small(vfmt, sub + 6)) continue; printf("gpos %s 1 %s", feat, glyph_name[cov[i]]); valuerecord_print(vfmt, sub + 8 + i * vlen); printf("\n"); } } } /* pair adjustment positioning */ static void otf_gpostype2(void *otf, void *sub, char *feat) { int fmt = U16(sub, 0); int vfmt1 = U16(sub, 4); /* valuerecord 1 */ int vfmt2 = U16(sub, 6); /* valuerecord 2 */ int fmtoff1, fmtoff2; int vrlen; /* the length of vfmt1 and vfmt2 */ int i, j; vrlen = valuerecord_len(vfmt1) + valuerecord_len(vfmt2); if (fmt == 1) { int cov[NGLYPHS]; int nc1 = U16(sub, 8); coverage(sub + U16(sub, 2), cov); for (i = 0; i < nc1; i++) { void *c2 = sub + U16(sub, 10 + 2 * i); int nc2 = U16(c2, 0); for (j = 0; j < nc2; j++) { int second = U16(c2 + 2 + (2 + vrlen) * j, 0); fmtoff1 = 2 + (2 + vrlen) * j + 2; fmtoff2 = fmtoff1 + valuerecord_len(vfmt1); if (valuerecord_small(vfmt1, c2 + fmtoff1) && valuerecord_small(vfmt2, c2 + fmtoff2)) continue; printf("gpos %s 2", feat); printf(" %s", glyph_name[cov[i]]); valuerecord_print(vfmt1, c2 + fmtoff1); printf(" %s", glyph_name[second]); valuerecord_print(vfmt2, c2 + fmtoff2); printf("\n"); } } } if (fmt == 2) { int gl1[NGLYPHS], gl2[NGLYPHS]; int cls1[NGLYPHS], cls2[NGLYPHS]; int grp1[NGLYPHS], grp2[NGLYPHS]; int ngl1 = classdef(sub + U16(sub, 8), gl1, cls1); int ngl2 = classdef(sub + U16(sub, 10), gl2, cls2); int ncls1 = U16(sub, 12); int ncls2 = U16(sub, 14); for (i = 0; i < ncls1; i++) grp1[i] = ggrp_class(gl1, cls1, ngl1, i); for (i = 0; i < ncls2; i++) grp2[i] = ggrp_class(gl2, cls2, ngl2, i); for (i = 0; i < ncls1; i++) { for (j = 0; j < ncls2; j++) { fmtoff1 = 16 + (i * ncls2 + j) * vrlen; fmtoff2 = fmtoff1 + valuerecord_len(vfmt1); if (valuerecord_small(vfmt1, sub + fmtoff1) && valuerecord_small(vfmt2, sub + fmtoff2)) continue; printf("gpos %s %d", feat, 2); printf(" @%d", grp1[i]); valuerecord_print(vfmt1, sub + fmtoff1); printf(" @%d", grp2[j]); valuerecord_print(vfmt2, sub + fmtoff2); printf("\n"); } } } } /* cursive attachment positioning */ static void otf_gpostype3(void *otf, void *sub, char *feat) { int fmt = U16(sub, 0); int cov[NGLYPHS]; int i, n; coverage(sub + U16(sub, 2), cov); if (fmt != 1) return; n = U16(sub, 4); for (i = 0; i < n; i++) { int prev = U16(sub, 6 + 4 * i); int next = U16(sub, 6 + 4 * i + 2); printf("gcur %s %s", feat, glyph_name[cov[i]]); if (prev) printf(" %d %d", uwid(S16(sub, prev + 2)), uwid(S16(sub, prev + 4))); else printf(" - -"); if (next) printf(" %d %d", uwid(S16(sub, next + 2)), uwid(S16(sub, next + 4))); else printf(" - -"); printf("\n"); } } /* mark-to-base attachment positioning */ static void otf_gpostype4(void *otf, void *sub, char *feat) { int fmt = U16(sub, 0); int mcov[NGLYPHS]; /* mark coverage */ int bcov[NGLYPHS]; /* base coverage */ int cgrp[1024]; /* glyph groups assigned to classes */ int bgrp; /* the group assigned to base glyphs */ int mcnt; /* mark coverage size */ int bcnt; /* base coverage size */ int ccnt; /* class count */ void *marks; /* mark array table */ void *bases; /* base array table */ int i, j; if (fmt != 1) return; mcnt = coverage(sub + U16(sub, 2), mcov); bcnt = coverage(sub + U16(sub, 4), bcov); ccnt = U16(sub, 6); marks = sub + U16(sub, 8); bases = sub + U16(sub, 10); bgrp = ggrp_coverage(bcov, bcnt); for (i = 0; i < ccnt; i++) { int grp[NGLYPHS]; int cnt = 0; for (j = 0; j < mcnt; j++) if (U16(marks, 2 + 4 * j) == i) grp[cnt++] = mcov[j]; cgrp[i] = ggrp_coverage(grp, cnt); } for (i = 0; i < mcnt; i++) { void *mark = marks + U16(marks, 2 + 4 * i + 2); /* mark anchor */ int dx = -uwid(S16(mark, 2)); int dy = uwid(S16(mark, 4)); printf("gpos %s 2 @%d %s:%+d%+d%+d%+d\n", feat, bgrp, glyph_name[mcov[i]], dx, dy, 0, 0); } for (i = 0; i < bcnt; i++) { for (j = 0; j < ccnt; j++) { void *base = bases + U16(bases, 2 + ccnt * 2 * i + 2 * j); int dx = uwid(S16(base, 2)); int dy = -uwid(S16(base, 4)); printf("gpos %s 2 %s @%d:%+d%+d%+d%+d\n", feat, glyph_name[bcov[i]], cgrp[j], dx, dy, 0, 0); } } } /* gsub context */ struct gctx { int bgrp[GCTXLEN]; /* backtrack coverage arrays */ int igrp[GCTXLEN]; /* input coverage arrays */ int lgrp[GCTXLEN]; /* lookahead coverage arrays*/ int bn, in, ln; /* size of b[], i[], l[] */ int seqidx; /* sequence index */ }; static int gctx_len(struct gctx *ctx, int patlen) { return ctx ? ctx->bn + ctx->in + ctx->ln - patlen : 0; } static void gctx_backtrack(struct gctx *ctx) { int i; if (!ctx) return; for (i = 0; i < ctx->bn; i++) printf(" =@%d", ctx->bgrp[i]); for (i = 0; i < ctx->seqidx; i++) printf(" =@%d", ctx->igrp[i]); } static void gctx_lookahead(struct gctx *ctx, int patlen) { int i; if (!ctx) return; for (i = ctx->seqidx + patlen; i < ctx->in; i++) printf(" =@%d", ctx->igrp[i]); for (i = 0; i < ctx->ln; i++) printf(" =@%d", ctx->lgrp[i]); } /* single substitution */ static void otf_gsubtype1(void *otf, void *sub, char *feat, struct gctx *ctx) { int cov[NGLYPHS]; int fmt = U16(sub, 0); int ncov; int i; ncov = coverage(sub + U16(sub, 2), cov); if (fmt == 1) { for (i = 0; i < ncov; i++) { printf("gsub %s %d", feat, 2 + gctx_len(ctx, 1)); gctx_backtrack(ctx); printf(" -%s +%s", glyph_name[cov[i]], glyph_name[cov[i] + S16(sub, 4)]); gctx_lookahead(ctx, 1); printf("\n"); } } if (fmt == 2) { int n = U16(sub, 4); for (i = 0; i < n; i++) { printf("gsub %s %d", feat, 2 + gctx_len(ctx, 1)); gctx_backtrack(ctx); printf(" -%s +%s", glyph_name[cov[i]], glyph_name[U16(sub, 6 + 2 * i)]); gctx_lookahead(ctx, 1); printf("\n"); } } } /* alternate substitution */ static void otf_gsubtype3(void *otf, void *sub, char *feat, struct gctx *ctx) { int cov[NGLYPHS]; int fmt = U16(sub, 0); int n, i, j; if (fmt != 1) return; coverage(sub + U16(sub, 2), cov); n = U16(sub, 4); for (i = 0; i < n; i++) { void *alt = sub + U16(sub, 6 + 2 * i); int nalt = U16(alt, 0); for (j = 0; j < nalt; j++) { printf("gsub %s %d", feat, 2 + gctx_len(ctx, 1)); gctx_backtrack(ctx); printf(" -%s +%s", glyph_name[cov[i]], glyph_name[U16(alt, 2 + 2 * j)]); gctx_lookahead(ctx, 1); printf("\n"); } } } /* ligature substitution */ static void otf_gsubtype4(void *otf, void *sub, char *feat, struct gctx *ctx) { int fmt = U16(sub, 0); int cov[NGLYPHS]; int n, i, j, k; if (fmt != 1) return; coverage(sub + U16(sub, 2), cov); n = U16(sub, 4); for (i = 0; i < n; i++) { void *set = sub + U16(sub, 6 + 2 * i); int nset = U16(set, 0); for (j = 0; j < nset; j++) { void *lig = set + U16(set, 2 + 2 * j); int nlig = U16(lig, 2); printf("gsub %s %d", feat, nlig + 1 + gctx_len(ctx, nlig)); gctx_backtrack(ctx); printf(" -%s", glyph_name[cov[i]]); for (k = 0; k < nlig - 1; k++) printf(" -%s", glyph_name[U16(lig, 4 + 2 * k)]); printf(" +%s", glyph_name[U16(lig, 0)]); gctx_lookahead(ctx, nlig); printf("\n"); } } } /* chaining contextual substitution */ static void otf_gsubtype6(void *otf, void *sub, char *feat, void *gsub) { struct gctx ctx = {{0}}; void *lookups = gsub + U16(gsub, 8); int fmt = U16(sub, 0); int cov[NGLYPHS]; int i, j, nsub, ncov; int off = 2; if (fmt != 3) { otf_unsupported("GSUB", 6, fmt); return; } ctx.bn = U16(sub, off); for (i = 0; i < ctx.bn; i++) { ncov = coverage(sub + U16(sub, off + 2 + 2 * i), cov); ctx.bgrp[i] = ggrp_coverage(cov, ncov); } off += 2 + 2 * ctx.bn; ctx.in = U16(sub, off); for (i = 0; i < ctx.in; i++) { ncov = coverage(sub + U16(sub, off + 2 + 2 * i), cov); ctx.igrp[i] = ggrp_coverage(cov, ncov); } off += 2 + 2 * ctx.in; ctx.ln = U16(sub, off); for (i = 0; i < ctx.ln; i ++) { ncov = coverage(sub + U16(sub, off + 2 + 2 * i), cov); ctx.lgrp[i] = ggrp_coverage(cov, ncov); } off += 2 + 2 * ctx.ln; nsub = U16(sub, off); /* nsub > 1 is not supported */ for (i = 0; i < nsub && i < 1; i++) { int lidx = U16(sub, off + 2 + 4 * i + 2); void *lookup = lookups + U16(lookups, 2 + 2 * lidx); int ltype = U16(lookup, 0); int ntabs = U16(lookup, 4); ctx.seqidx = U16(sub, off + 2 + 4 * i); for (j = 0; j < ntabs; j++) { void *tab = lookup + U16(lookup, 6 + 2 * j); int type = ltype; if (type == 7) { /* extension substitution */ type = U16(tab, 2); tab = tab + U32(tab, 4); } if (type == 1) otf_gsubtype1(otf, tab, feat, &ctx); if (type == 3) otf_gsubtype3(otf, tab, feat, &ctx); if (type == 4) otf_gsubtype4(otf, tab, feat, &ctx); } } } /* an otf gsub/gpos lookup */ struct otflookup { char feat[8]; /* feature name */ int lookup; /* index into the lookup table */ }; /* parse the given gsub/gpos feature table */ static int otf_featrec(void *otf, void *gtab, void *featrec, struct otflookup *lookups) { void *feats = gtab + U16(gtab, 6); void *feat = feats + U16(featrec, 4); int nlookups = U16(feat, 2); int i; for (i = 0; i < nlookups; i++) { memcpy(lookups[i].feat, featrec, 4); lookups[i].feat[4] = '\0'; lookups[i].lookup = U16(feat, 4 + 2 * i); } return nlookups; } /* parse the given language table and its feature tables */ static int otf_lang(void *otf, void *gtab, void *lang, struct otflookup *lookups) { void *feats = gtab + U16(gtab, 6); int featidx = U16(lang, 2); int nfeat = U16(lang, 4); int n = 0; int i; if (featidx != 0xffff) n += otf_featrec(otf, gtab, feats + 2 + 6 * featidx, lookups + n); for (i = 0; i < nfeat; i++) n += otf_featrec(otf, gtab, feats + 2 + 6 * U16(lang, 6 + 2 * i), lookups + n); return n; } static int lookupcmp(void *v1, void *v2) { struct otflookup *l1 = v1; struct otflookup *l2 = v2; if (trfn_featrank(l1->feat) != trfn_featrank(l2->feat)) return trfn_featrank(l1->feat) - trfn_featrank(l2->feat); return l1->lookup - l2->lookup; } /* extract lookup tables for all features of the given gsub/gpos table */ static int otf_gtab(void *otf, void *gpos, struct otflookup *lookups) { void *scripts = gpos + U16(gpos, 4); int nscripts, nlangs; void *script; char tag[8]; int i, j; int n = 0; nscripts = U16(scripts, 0); for (i = 0; i < nscripts; i++) { void *grec = scripts + 2 + 6 * i; memcpy(tag, grec, 4); tag[4] = '\0'; if (!trfn_script(tag, nscripts)) continue; script = scripts + U16(grec, 4); nlangs = U16(script, 2); if (U16(script, 0) && trfn_lang(NULL, nlangs + (U16(script, 0) != 0))) n += otf_lang(otf, gpos, script + U16(script, 0), lookups + n); for (j = 0; j < nlangs; j++) { void *lrec = script + 4 + 6 * j; memcpy(tag, lrec, 4); tag[4] = '\0'; if (trfn_lang(tag, nlangs + (U16(script, 0) != 0))) n += otf_lang(otf, gpos, script + U16(lrec, 4), lookups + n); } } qsort(lookups, n, sizeof(lookups[0]), (void *) lookupcmp); return n; } static void otf_gpos(void *otf, void *gpos) { struct otflookup lookups[NLOOKUPS]; void *lookuplist = gpos + U16(gpos, 8); int nlookups = otf_gtab(otf, gpos, lookups); int i, j; for (i = 0; i < nlookups; i++) { void *lookup = lookuplist + U16(lookuplist, 2 + 2 * lookups[i].lookup); char *tag = lookups[i].feat; int ltype = U16(lookup, 0); int ntabs = U16(lookup, 4); for (j = 0; j < ntabs; j++) { void *tab = lookup + U16(lookup, 6 + 2 * j); int type = ltype; if (type == 9) { /* extension positioning */ type = U16(tab, 2); tab = tab + U32(tab, 4); } switch (type) { case 1: otf_gpostype1(otf, tab, tag); break; case 2: otf_gpostype2(otf, tab, tag); break; case 3: otf_gpostype3(otf, tab, tag); break; case 4: otf_gpostype4(otf, tab, tag); break; default: otf_unsupported("GPOS", type, 0); } } } } static void otf_gsub(void *otf, void *gsub) { struct otflookup lookups[NLOOKUPS]; void *lookuplist = gsub + U16(gsub, 8); int nlookups = otf_gtab(otf, gsub, lookups); int i, j; for (i = 0; i < nlookups; i++) { void *lookup = lookuplist + U16(lookuplist, 2 + 2 * lookups[i].lookup); char *tag = lookups[i].feat; int ltype = U16(lookup, 0); int ntabs = U16(lookup, 4); for (j = 0; j < ntabs; j++) { void *tab = lookup + U16(lookup, 6 + 2 * j); int type = ltype; if (type == 7) { /* extension substitution */ type = U16(tab, 2); tab = tab + U32(tab, 4); } switch (type) { case 1: otf_gsubtype1(otf, tab, tag, NULL); break; case 3: otf_gsubtype3(otf, tab, tag, NULL); break; case 4: otf_gsubtype4(otf, tab, tag, NULL); break; case 6: otf_gsubtype6(otf, tab, tag, gsub); break; default: otf_unsupported("GSUB", type, 0); } } } } static int xread(int fd, char *buf, int len) { int nr = 0; while (nr < len) { int ret = read(fd, buf + nr, len - nr); if (ret == -1 && (errno == EAGAIN || errno == EINTR)) continue; if (ret <= 0) break; nr += ret; } return nr; } static char buf[BUFLEN]; int otf_read(void) { int i; if (xread(0, buf, sizeof(buf)) <= 0) return 1; upm = U16(otf_table(buf, "head"), 18); otf_name(buf, otf_table(buf, "name")); otf_cmap(buf, otf_table(buf, "cmap")); otf_post(buf, otf_table(buf, "post")); if (otf_table(buf, "glyf")) otf_glyf(buf, otf_table(buf, "glyf")); otf_hmtx(buf, otf_table(buf, "hmtx")); for (i = 0; i < glyph_n; i++) { trfn_char(glyph_name[i], -1, glyph_code[i] != 0xffff ? glyph_code[i] : 0, owid(glyph_wid[i]), owid(glyph_bbox[i][0]), owid(glyph_bbox[i][1]), owid(glyph_bbox[i][2]), owid(glyph_bbox[i][3])); } if (otf_table(buf, "kern")) otf_kern(buf, otf_table(buf, "kern")); return 0; } void otf_feat(int r, int k, int w) { res = r; kmin = k; warn = w; if (otf_table(buf, "GSUB")) otf_gsub(buf, otf_table(buf, "GSUB")); if (otf_table(buf, "GPOS")) otf_gpos(buf, otf_table(buf, "GPOS")); } /* glyph groups */ static int *ggrp_g[NGRPS]; static int ggrp_len[NGRPS]; static int ggrp_n; static int ggrp_find(int *src, int n) { int i, j; for (i = 0; i < ggrp_n; i++) { if (ggrp_len[i] == n) { for (j = 0; j < n; j++) if (src[j] != ggrp_g[i][j]) break; if (j == n) return i; } } return -1; } int ggrp_make(int *src, int n) { int id = ggrp_find(src, n); int i; if (id >= 0) return id; id = ggrp_n++; ggrp_g[id] = malloc(n * sizeof(ggrp_g[id][0])); ggrp_len[id] = n; for (i = 0; i < n; i++) ggrp_g[id][i] = src[i]; printf("ggrp %d %d", id, n); for (i = 0; i < n; i++) printf(" %s", glyph_name[src[i]]); printf("\n"); return id; } static char *macset[] = { ".notdef", ".null", "nonmarkingreturn", "space", "exclam", "quotedbl", "numbersign", "dollar", "percent", "ampersand", "quotesingle", "parenleft", "parenright", "asterisk", "plus", "comma", "hyphen", "period", "slash", "zero", "one", "two", "three", "four", "five", "six", "seven", "eight", "nine", "colon", "semicolon", "less", "equal", "greater", "question", "at", "A", "B", "C", "D", "E", "F", "G", "H", "I", "J", "K", "L", "M", "N", "O", "P", "Q", "R", "S", "T", "U", "V", "W", "X", "Y", "Z", "bracketleft", "backslash", "bracketright", "asciicircum", "underscore", "grave", "a", "b", "c", "d", "e", "f", "g", "h", "i", "j", "k", "l", "m", "n", "o", "p", "q", "r", "s", "t", "u", "v", "w", "x", "y", "z", "braceleft", "bar", "braceright", "asciitilde", "Adieresis", "Aring", "Ccedilla", "Eacute", "Ntilde", "Odieresis", "Udieresis", "aacute", "agrave", "acircumflex", "adieresis", "atilde", "aring", "ccedilla", "eacute", "egrave", "ecircumflex", "edieresis", "iacute", "igrave", "icircumflex", "idieresis", "ntilde", "oacute", "ograve", "ocircumflex", "odieresis", "otilde", "uacute", "ugrave", "ucircumflex", "udieresis", "dagger", "degree", "cent", "sterling", "section", "bullet", "paragraph", "germandbls", "registered", "copyright", "trademark", "acute", "dieresis", "notequal", "AE", "Oslash", "infinity", "plusminus", "lessequal", "greaterequal", "yen", "mu", "partialdiff", "summation", "product", "pi", "integral", "ordfeminine", "ordmasculine", "Omega", "ae", "oslash", "questiondown", "exclamdown", "logicalnot", "radical", "florin", "approxequal", "Delta", "guillemotleft", "guillemotright", "ellipsis", "nonbreakingspace", "Agrave", "Atilde", "Otilde", "OE", "oe", "endash", "emdash", "quotedblleft", "quotedblright", "quoteleft", "quoteright", "divide", "lozenge", "ydieresis", "Ydieresis", "fraction", "currency", "guilsinglleft", "guilsinglright", "fi", "fl", "daggerdbl", "periodcentered", "quotesinglbase", "quotedblbase", "perthousand", "Acircumflex", "Ecircumflex", "Aacute", "Edieresis", "Egrave", "Iacute", "Icircumflex", "Idieresis", "Igrave", "Oacute", "Ocircumflex", "apple", "Ograve", "Uacute", "Ucircumflex", "Ugrave", "dotlessi", "circumflex", "tilde", "macron", "breve", "dotaccent", "ring", "cedilla", "hungarumlaut", "ogonek", "caron", "Lslash", "lslash", "Scaron", "scaron", "Zcaron", "zcaron", "brokenbar", "Eth", "eth", "Yacute", "yacute", "Thorn", "thorn", "minus", "multiply", "onesuperior", "twosuperior", "threesuperior", "onehalf", "onequarter", "threequarters", "franc", "Gbreve", "gbreve", "Idotaccent", "Scedilla", "scedilla", "Cacute", "cacute", "Ccaron", "ccaron", "dcroat", };