SWFFont loadSWFFontfromTTF(char *filename)
{
int i;
TT_Engine *engine;
TT_Face face;
TT_Instance instance;
TT_Glyph glyph;
TT_Glyph_Metrics metrics;
TT_Outline outline;
TT_CharMap charmap;
TT_Face_Properties properties;
TT_UShort pid, eid;
TT_Init_FreeType(engine);
error = TT_Open_Face(engine, filename, &face);
if(error)
fprintf(stderr, "Could not open face.\n");
TT_Get_Face_Properties(face, &properties);
for(i=0; i<properties->num_CharMaps; ++i)
TT_Get_CharMap_ID(face, i, &pid, &eid);
TT_Get_CharMap(face, charmapIndex, &charmap);
TT_New_Instance(face, &instance);
TT_New_Glyph(face, &glyph);
for(i=0; i<whatever; ++i)
{
TT_Load_Glyph(instance, glyph, TT_Char_Index(charmap, i), loadFlags);
TT_Get_Glyph_Outline(glyph, &outline);
TT_Get_Glyph_Metrics(glyph, &metrics);
}
TT_Done_FreeType(engine);
}
TT_Error LoadTrueTypeChar( int idx )
{
error = TT_Load_Glyph( instance, glyph, idx, TTLOAD_DEFAULT );
if ( error )
return error;
TT_Get_Glyph_Outline( glyph, &outline );
outline.second_pass = 0;
outline.high_precision = 0;
outline.dropout_mode = 0;
/* debugging */
#if 0
if ( idx == 0 && !visual )
{
printf( "points = %d\n", outline.points );
for ( j = 0; j < outline.points; j++ )
printf( "%02x (%01hx,%01hx)\n",
j, outline.xCoord[j], outline.yCoord[j] );
printf( "\n" );
}
#endif
/* create a new outline */
TT_New_Outline( outline.n_points,
outline.n_contours,
&outlines[cur_glyph] );
/* copy the glyph outline into it */
outline.high_precision = 0;
outline.second_pass = 0;
TT_Copy_Outline( &outline, &outlines[cur_glyph] );
/* translate it */
TT_Translate_Outline( &outlines[cur_glyph],
vio_Width * 16,
vio_Height * 16 );
cur_glyph++;
return TT_Err_Ok;
}
static TT_Error
LoadTrueTypeChar(Font *fnt,
int idx,
Boolean hint,
Boolean quiet)
{
TT_Error error;
int flags;
flags = TTLOAD_SCALE_GLYPH;
if (hint)
flags |= TTLOAD_HINT_GLYPH;
error = TT_Load_Glyph(instance, glyph, idx, flags);
if (!error)
error = TT_Get_Glyph_Big_Metrics(glyph, &metrics);
if (!error)
error = TT_Get_Glyph_Outline(glyph, &outline);
if (!error)
{
if (fnt->efactor != 1.0 || fnt->slant != 0.0 )
TT_Transform_Outline(&outline, &matrix1);
if (fnt->rotate)
TT_Transform_Outline(&outline, &matrix2);
}
if (!error)
error = TT_Get_Outline_BBox(&outline, &bbox); /* we need the non-
grid-fitted bbox */
if (fnt->rotate)
TT_Translate_Outline(&outline,
metrics.vertBearingY - bbox.xMin,
-fnt->y_offset * ppem * 64);
if (!error)
error = TT_Get_Outline_BBox(&outline, &bbox);
if (!error)
SetRasterArea(quiet);
return error;
}
static TT_Error Load_Glyph(TTF_Font *font, Uint16 ch, struct glyph *glyph)
{
TT_UShort index;
TT_Glyph_Metrics metrics;
TT_Outline outline;
int x_offset;
int y_offset;
TT_Error error;
/* Load the glyph */
index = TT_Char_Index(font->map, UNICODE(ch));
error = TT_Load_Glyph(font->inst, font->glyph, index, TTLOAD_DEFAULT);
if ( error ) return error;
/* Get the bounding box */
TT_Get_Glyph_Metrics(font->glyph, &metrics);
glyph->minx = (metrics.bbox.xMin & -64) / 64;
glyph->maxx = ((metrics.bbox.xMax + 63) & -64) / 64;
glyph->miny = (metrics.bbox.yMin & -64) / 64;
glyph->maxy = ((metrics.bbox.yMax + 63) & -64) / 64;
glyph->advance = (metrics.advance & -64) / 64;
/* Adjust for bold and italic text */
if ( font->style & TTF_STYLE_BOLD ) {
glyph->maxx += font->glyph_overhang;
}
if ( font->style & TTF_STYLE_ITALIC ) {
glyph->maxx += round(font->glyph_italics);
}
/* Get the bitmap memory */
glyph->bitmap.width = ((glyph->maxx - glyph->minx) + 7) & ~7;
glyph->bitmap.rows = font->height;
glyph->bitmap.cols = glyph->bitmap.width/8;
glyph->bitmap.flow = TT_Flow_Down;
glyph->bitmap.size = (glyph->bitmap.rows * glyph->bitmap.cols);
if ( glyph->bitmap.size ) {
glyph->bitmap.bitmap = malloc(glyph->bitmap.size);
if ( ! glyph->bitmap.bitmap ) {
error = TT_Err_Out_Of_Memory;
goto was_error;
}
memset(glyph->bitmap.bitmap, 0, glyph->bitmap.size);
} else {
glyph->bitmap.bitmap = 0;
}
/* Get the pixmap memory */
glyph->pixmap.width = ((glyph->maxx - glyph->minx) + 3) & ~3;
glyph->pixmap.rows = font->height;
glyph->pixmap.cols = glyph->pixmap.width;
glyph->pixmap.flow = TT_Flow_Down;
glyph->pixmap.size = (glyph->pixmap.rows * glyph->pixmap.cols);
if ( glyph->pixmap.size ) {
glyph->pixmap.bitmap = malloc(glyph->pixmap.size);
if ( ! glyph->pixmap.bitmap ) {
error = TT_Err_Out_Of_Memory;
goto was_error;
}
memset(glyph->pixmap.bitmap, 0, glyph->pixmap.size);
} else {
glyph->pixmap.bitmap = 0;
}
/* Render the glyph into the bitmap and pixmap */
error = TT_Get_Glyph_Outline(font->glyph, &outline);
/* Handle the italic style */
if ( font->style & TTF_STYLE_ITALIC ) {
TT_Matrix shear;
shear.xx = 1<<16;
shear.xy = (int)(font->glyph_italics*(1<<16))/font->height;
shear.yx = 0;
shear.yy = 1<<16;
TT_Transform_Outline(&outline, &shear);
}
x_offset = -glyph->minx * 64;
y_offset = -round(font->descent) * 64;
TT_Translate_Outline(&outline, x_offset, y_offset);
error += TT_Get_Outline_Bitmap(engine, &outline, &glyph->bitmap);
error += TT_Get_Outline_Pixmap(engine, &outline, &glyph->pixmap);
/* Handle the bold style */
if ( font->style & TTF_STYLE_BOLD ) {
int row, col;
int offset;
int pixel;
Uint8 *pixmap;
/* The bitmap is easy, just render another copy */
for ( offset=0; offset < font->glyph_overhang; ++offset ) {
TT_Translate_Outline(&outline, 64, 0);
error += TT_Get_Outline_Bitmap(engine,
&outline,&glyph->bitmap);
}
x_offset += font->glyph_overhang*64;
/* The pixmap is a little harder, we have to add and clamp */
for ( row=glyph->pixmap.rows-1; row >= 0; --row ) {
pixmap = (Uint8 *)glyph->pixmap.bitmap +
row*glyph->pixmap.cols;
for (offset=1; offset<=font->glyph_overhang; ++offset) {
for (col=glyph->pixmap.cols-1; col > 0; --col) {
pixel=(pixmap[col]+pixmap[col-1]);
if ( pixel > 4 ) {
pixel = 4;
}
pixmap[col] = (Uint8)pixel;
}
}
}
}
TT_Translate_Outline(&outline, -x_offset, -y_offset);
was_error:
if ( error ) {
if ( glyph->bitmap.bitmap ) {
free(glyph->bitmap.bitmap);
glyph->bitmap.bitmap = 0;
}
if ( glyph->pixmap.bitmap ) {
free(glyph->pixmap.bitmap);
glyph->pixmap.bitmap = 0;
}
return error;
}
/* We're done, mark this glyph cached */
glyph->cached = ch;
return TT_Err_Ok;
}
void
readttf(Font *fnt, Boolean quiet, Boolean only_range)
{
TT_Error error;
ttfinfo *ti, *Ti;
long Num, index;
unsigned int i, j;
long k, max_k;
unsigned short num_cmap;
unsigned short cmap_plat, cmap_enc;
int index_array[257];
static Boolean initialized = False;
TT_UShort in_string[2];
TTO_GSUB_String in, out;
TT_UShort script_index, language_index, feature_index;
TT_UShort req_feature_index = 0xFFFF;
/*
* We allocate a placeholder boundary and the `.notdef' character.
*/
if (!only_range)
{
ti = newchar(fnt);
ti->charcode = -1;
ti->adobename = ".notdef";
ti = newchar(fnt);
ti->charcode = -1;
ti->adobename = "||"; /* boundary character name */
}
/*
* Initialize FreeType engine.
*/
if (!initialized)
{
if ((error = TT_Init_FreeType(&engine)))
oops("Cannot initialize engine (error code = 0x%x).", error);
if ((error = TT_Init_Kerning_Extension(engine)))
oops("Cannot initialize kerning (error code = 0x%x).", error);
if (fnt->PSnames)
if ((error = TT_Init_Post_Extension(engine)))
oops("Cannot initialize PS name support (error code = 0x%x).", error);
if (fnt->rotate)
if ((error = TT_Init_GSUB_Extension(engine)))
oops("Cannot initialize GSUB support (error code = 0x%x).", error);
/*
* Load face.
*/
real_ttfname = TeX_search_ttf_file(&(fnt->ttfname));
if (!real_ttfname)
oops("Cannot find `%s'.", fnt->ttfname);
if ((error = TT_Open_Face(engine, real_ttfname, &face)))
oops("Cannot open `%s'.", real_ttfname);
/*
* Get face properties and allocate preload arrays.
*/
TT_Get_Face_Properties(face, &properties);
/*
* Now we try to open the proper font in a collection.
*/
if (fnt->fontindex != 0)
{
if (properties.num_Faces == 1)
{
warning("This isn't a TrueType collection.\n"
"Parameter `-f' is ignored.");
fnt->fontindex = 0;
fnt->fontindexparam = NULL;
}
else
{
TT_Close_Face(face);
if ((error = TT_Open_Collection(engine, real_ttfname,
fnt->fontindex, &face)))
oops("Cannot open font %lu in TrueType Collection `%s'.",
fnt->fontindex, real_ttfname);
}
}
/*
* Create instance.
*/
if ((error = TT_New_Instance(face, &instance)))
oops("Cannot create instance for `%s' (error code = 0x%x).",
real_ttfname, error);
/*
* We use a dummy glyph size of 10pt.
*/
if ((error = TT_Set_Instance_CharSize(instance, 10 * 64)))
oops("Cannot set character size (error code = 0x%x).", error);
matrix1.xx = (TT_Fixed)(floor(fnt->efactor * 1024) * (1L<<16)/1024);
matrix1.xy = (TT_Fixed)(floor(fnt->slant * 1024) * (1L<<16)/1024);
matrix1.yx = (TT_Fixed)0;
matrix1.yy = (TT_Fixed)(1L<<16);
if (fnt->rotate)
{
matrix2.xx = 0;
matrix2.yx = 1L << 16;
matrix2.xy = -matrix2.yx;
matrix2.yy = matrix2.xx;
}
if ((error = TT_Set_Instance_Transform_Flags(
instance,
fnt->rotate ? 1 : 0,
fnt->efactor != 1.0 ? 1 : 0)))
oops("Cannot set transform flags (error code = 0x%x).", error);
/*
* Create glyph container.
*/
if ((error = TT_New_Glyph(face, &glyph)))
oops("Cannot create glyph container (error code = 0x%x).", error);
fnt->units_per_em = properties.header->Units_Per_EM;
fnt->fixedpitch = properties.postscript->isFixedPitch;
fnt->italicangle = properties.postscript->italicAngle / 65536.0;
if (fnt->PSnames != Only)
{
num_cmap = properties.num_CharMaps;
for (i = 0; i < num_cmap; i++)
{
if ((error = TT_Get_CharMap_ID(face, i, &cmap_plat, &cmap_enc)))
oops("Cannot query cmap (error code = 0x%x).", error);
if (cmap_plat == fnt->pid && cmap_enc == fnt->eid)
break;
}
if (i == num_cmap)
{
fprintf(stderr, "%s: ERROR: Invalid platform and/or encoding ID.\n",
progname);
if (num_cmap == 1)
fprintf(stderr, " The only valid PID/EID pair is");
else
fprintf(stderr, " Valid PID/EID pairs are:\n");
for (i = 0; i < num_cmap; i++)
{
TT_Get_CharMap_ID(face, i, &cmap_plat, &cmap_enc);
fprintf(stderr, " (%i,%i)\n", cmap_plat, cmap_enc);
}
fprintf(stderr, "\n");
exit(1);
}
if ((error = TT_Get_CharMap(face, i, &char_map)))
oops("Cannot load cmap (error code = 0x%x).", error);
}
if (fnt->PSnames)
{
if ((error = TT_Load_PS_Names(face, &post)))
oops("Cannot load TrueType PS names (error code = 0x%x).", error);
}
else if (cmap_plat == Microsoft_platform &&
cmap_enc == Microsoft_Unicode_encoding)
set_encoding_scheme(encUnicode, fnt);
else if (cmap_plat == Macintosh_platform &&
cmap_enc == Macintosh_encoding)
set_encoding_scheme(encMac, fnt);
else
set_encoding_scheme(encFontSpecific, fnt);
if (fnt->rotate)
{
gsub = &gsub_;
error = TT_Load_GSUB_Table(face, gsub, NULL);
if (!error)
has_gsub = True;
else if (error != TT_Err_Table_Missing)
warning("Cannot load GSUB table (error code = 0x%x).", error);
else
warning("No GSUB data available "
"for vertical glyph presentation forms.");
/* we check for the `vert' feature in Chinese, Japanese, and Korean */
error = TT_GSUB_Select_Script(gsub,
SCRIPT_kana,
&script_index);
if (error)
goto check_hani;
error = TT_GSUB_Select_Feature(gsub,
FEATURE_vert,
script_index,
0xFFFF,
&feature_index);
if (error)
{
error = TT_GSUB_Select_Language(gsub,
LANGUAGE_JAN,
script_index,
&language_index,
&req_feature_index);
if (error)
goto check_hani;
error = TT_GSUB_Select_Feature(gsub,
FEATURE_vert,
script_index,
language_index,
&feature_index);
if (error)
goto check_hani;
else
goto Done;
}
else
goto Done;
check_hani:
error = TT_GSUB_Select_Script(gsub,
SCRIPT_hani,
&script_index);
if (error)
goto check_hang;
error = TT_GSUB_Select_Feature(gsub,
FEATURE_vert,
script_index,
0xFFFF,
&feature_index);
if (error)
{
error = TT_GSUB_Select_Language(gsub,
LANGUAGE_CHN,
script_index,
&language_index,
&req_feature_index);
if (error)
goto check_hang;
error = TT_GSUB_Select_Feature(gsub,
FEATURE_vert,
script_index,
language_index,
&feature_index);
if (error)
goto check_hang;
else
goto Done;
}
else
goto Done;
check_hang:
error = TT_GSUB_Select_Script(gsub,
SCRIPT_hang,
&script_index);
if (error)
goto Done;
error = TT_GSUB_Select_Feature(gsub,
FEATURE_vert,
script_index,
0xFFFF,
&feature_index);
if (error)
{
error = TT_GSUB_Select_Language(gsub,
LANGUAGE_KOR,
script_index,
&language_index,
&req_feature_index);
if (error)
goto Done;
error = TT_GSUB_Select_Feature(gsub,
FEATURE_vert,
script_index,
language_index,
&feature_index);
}
Done:
if (error)
{
warning("There is no data for vertical typesetting in GSUB table.");
has_gsub = False;
}
if (req_feature_index != 0xFFFF)
TT_GSUB_Add_Feature(gsub, req_feature_index, ALL_GLYPHS);
TT_GSUB_Add_Feature(gsub, feature_index, ALL_GLYPHS);
in.length = 1;
in.pos = 0;
in.string = in_string;
in.properties = NULL;
out.pos = 0;
out.allocated = 0;
out.string = NULL;
out.properties = NULL;
}
initialized = True;
}
if (!quiet)
{
if (only_range)
printf("\n\n%s:\n", fnt->fullname);
printf("\n");
printf("Glyph Code Glyph Name ");
printf("Width llx lly urx ury\n");
printf("---------------------------------------");
printf("---------------------------------\n");
}
/*
* We load only glyphs with a valid cmap entry. Nevertheless, for
* the default mapping, we use the first 256 glyphs addressed by
* ascending code points, followed by glyphs not in the cmap.
*
* If we compute a range, we take the character codes given in
* the fnt->sf_code array.
*
* If the -N flag is set, no cmap is used at all. Instead, the
* first 256 glyphs (with a valid PS name) are used for the default
* mapping.
*/
if (!only_range)
for (i = 0; i < 257; i++)
index_array[i] = 0;
else
for (i = 0; i < 256; i++)
fnt->inencptrs[i] = 0;
j = 0;
if (fnt->PSnames == Only)
max_k = properties.num_Glyphs - 1;
else
max_k = only_range ? 0xFF : 0x16FFFF;
for (k = 0; k <= max_k; k++)
{
char *an;
if (fnt->PSnames != Only)
{
if (only_range)
{
index = fnt->sf_code[k];
if (index < 0)
continue;
j = k;
}
else
index = k;
Num = TT_Char_Index(char_map, index);
/* now we try to get a vertical glyph form */
if (has_gsub)
{
in_string[0] = Num;
error = TT_GSUB_Apply_String(gsub, &in, &out);
if (error && error != TTO_Err_Not_Covered)
warning("Cannot get the vertical glyph form for glyph index %d.",
Num);
else
Num = out.string[0];
}
if (Num < 0)
oops("Failure on cmap mapping from %s.", fnt->ttfname);
if (Num == 0)
continue;
if (!only_range)
if (Num <= 256)
index_array[Num] = 1;
}
else
{
Num = k;
index = 0;
}
error = TT_Load_Glyph(instance, glyph, Num, 0);
if (!error)
error = TT_Get_Glyph_Big_Metrics(glyph, &metrics);
if (!error)
error = TT_Get_Glyph_Outline(glyph, &outline);
if (!error)
{
if (fnt->efactor != 1.0 || fnt->slant != 0.0 )
TT_Transform_Outline(&outline, &matrix1);
if (fnt->rotate)
TT_Transform_Outline(&outline, &matrix2);
}
if (!error)
error = TT_Get_Outline_BBox(&outline, &bbox); /* we need the non-
grid-fitted bbox */
if (!error)
{
if (fnt->PSnames)
(void)TT_Get_PS_Name(face, Num, &an);
else
an = code_to_adobename(index);
/* ignore characters not usable for typesetting with TeX */
if (strcmp(an, ".notdef") == 0)
continue;
if (strcmp(an, ".null") == 0)
continue;
if (strcmp(an, "nonmarkingreturn") == 0)
continue;
ti = newchar(fnt);
ti->charcode = index;
ti->glyphindex = Num;
ti->adobename = an;
ti->llx = bbox.xMin * 1000 / fnt->units_per_em;
ti->lly = bbox.yMin * 1000 / fnt->units_per_em;
ti->urx = bbox.xMax * 1000 / fnt->units_per_em;
ti->ury = bbox.yMax * 1000 / fnt->units_per_em;
/*
* We must now shift the rotated character both horizontally
* and vertically. The vertical amount is 25% by default.
*/
if (fnt->rotate)
{
ti->llx += (metrics.vertBearingY - bbox.xMin) *
1000 / fnt->units_per_em;
ti->lly -= 1000 * fnt->y_offset;
ti->urx += (metrics.vertBearingY - bbox.xMin) *
1000 / fnt->units_per_em;
ti->ury -= 1000 * fnt->y_offset;
}
/*
* We need to avoid negative heights or depths. They break accents
* in math mode, among other things.
*/
if (ti->lly > 0)
ti->lly = 0;
if (ti->ury < 0)
ti->ury = 0;
if (fnt->rotate)
ti->width = metrics.vertAdvance * 1000 / fnt->units_per_em;
else
ti->width = transform(metrics.horiAdvance * 1000 / fnt->units_per_em,
0, fnt->efactor, fnt->slant);
if (!quiet)
printf("%5ld %05lx %-25s %5d % 5d,% 5d -- % 5d,% 5d\n",
Num, index, ti->adobename,
ti->width,
ti->llx, ti->lly, ti->urx, ti->ury);
if (j < 256)
{
fnt->inencptrs[j] = ti;
ti->incode = j;
}
j++;
}
}
/*
* Now we load glyphs without a cmap entry, provided some slots are
* still free -- we skip this if we have to compute a range or use
* PS names.
*/
if (!only_range && !fnt->PSnames)
{
for (i = 1; i <= properties.num_Glyphs; i++)
{
char *an;
if (index_array[i] == 0)
{
error = TT_Load_Glyph(instance, glyph, i, 0);
if (!error)
error = TT_Get_Glyph_Big_Metrics(glyph, &metrics);
if (!error)
error = TT_Get_Glyph_Outline(glyph, &outline);
if (!error)
error = TT_Get_Outline_BBox(&outline, &bbox);
if (!error)
{
an = code_to_adobename(i | 0x1000000);
ti = newchar(fnt);
ti->charcode = i | 0x1000000;
ti->glyphindex = i;
ti->adobename = an;
ti->llx = bbox.xMin * 1000 / fnt->units_per_em;
ti->lly = bbox.yMin * 1000 / fnt->units_per_em;
ti->urx = bbox.xMax * 1000 / fnt->units_per_em;
ti->ury = bbox.yMax * 1000 / fnt->units_per_em;
if (ti->lly > 0)
ti->lly = 0;
if (ti->ury < 0)
ti->ury = 0;
ti->width = transform(metrics.horiAdvance*1000 / fnt->units_per_em,
0, fnt->efactor, fnt->slant);
if (!quiet)
printf("%5d %-25s %5d % 5d,% 5d -- % 5d,% 5d\n",
i, ti->adobename,
ti->width,
ti->llx, ti->lly, ti->urx, ti->ury);
if (j < 256)
{
fnt->inencptrs[j] = ti;
ti->incode = j;
}
else
break;
j++;
}
}
}
}
/* Finally, we construct a `Germandbls' glyph if necessary */
if (!only_range)
{
if (NULL == findadobe("Germandbls", fnt->charlist) &&
NULL != (Ti = findadobe("S", fnt->charlist)))
{
pcc *np, *nq;
ti = newchar(fnt);
ti->charcode = properties.num_Glyphs | 0x1000000;
ti->glyphindex = properties.num_Glyphs;
ti->adobename = "Germandbls";
ti->width = Ti->width << 1;
ti->llx = Ti->llx;
ti->lly = Ti->lly;
ti->urx = Ti->width + Ti->urx;
ti->ury = Ti->ury;
ti->kerns = Ti->kerns;
np = newpcc();
np->partname = "S";
nq = newpcc();
nq->partname = "S";
nq->xoffset = Ti->width;
np->next = nq;
ti->pccs = np;
ti->constructed = True;
if (!quiet)
printf("* %-25s %5d % 5d,% 5d -- % 5d,% 5d\n",
ti->adobename,
ti->width,
ti->llx, ti->lly, ti->urx, ti->ury);
}
}
/* kerning between subfonts isn't available */
if (!only_range)
readttf_kern(fnt);
}