mpv/TOOLS/subfont-c/subfont.c

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/*
* Renders antialiased fonts for mplayer using freetype library.
* Should work with TrueType, Type1 and any other font supported by libfreetype.
* Can generate font.desc for any encoding.
*
*
* Artur Zaprzala <zybi@fanthom.irc.pl>
*
*/
#include <stdio.h>
#include <stdlib.h>
#include <iconv.h>
#include <math.h>
#include <string.h>
#include <libgen.h>
#ifndef OLD_FREETYPE2
#include <ft2build.h>
#include FT_FREETYPE_H
#include FT_GLYPH_H
#else /* freetype 2.0.1 */
#include <freetype/freetype.h>
#include <freetype/ftglyph.h>
#endif
#include "../../bswap.h"
#include "../../osdep/timer.h"
#ifndef DEBUG
#define DEBUG 0
#endif
//// default values
char *encoding = "iso-8859-1"; /* target encoding */
char *charmap = "ucs-4"; /* font charmap encoding, I hope ucs-4 is always big endian */
/* gcc 2.1.3 doesn't support ucs-4le, but supports ucs-4 (==ucs-4be) */
float ppem = 22; /* font size in pixels */
double radius = 2; /* blur radius */
double thickness = 1.5; /* outline thickness */
char* font_desc = "font.desc";
//char* font_desc = "/dev/stdout";
char *outdir = ".";
//// constants
int const colors = 256;
int const maxcolor = 255;
unsigned const base = 256;
unsigned const first_char = 33;
#define max_charset_size 60000
//int const max_charset_size = 256;
unsigned charset_size = 0;
////
char *command;
char *encoding_name;
char *font_path;
//char *font_metrics;
int append_mode = 0;
int unicode_desc = 0;
unsigned char *bbuffer, *abuffer;
int width, height;
int padding;
static FT_ULong charset[max_charset_size]; /* characters we want to render; Unicode */
static FT_ULong charcodes[max_charset_size]; /* character codes in 'encoding' */
iconv_t cd; // iconv conversion descriptor
#define eprintf(...) fprintf(stderr, __VA_ARGS__)
#define ERROR_(msg, ...) (eprintf("%s: error: " msg "\n", command, __VA_ARGS__), exit(1))
#define WARNING_(msg, ...) eprintf("%s: warning: " msg "\n", command, __VA_ARGS__)
#define ERROR(...) ERROR_(__VA_ARGS__, NULL)
#define WARNING(...) WARNING_(__VA_ARGS__, NULL)
#define f266ToInt(x) (((x)+32)>>6) // round fractional fixed point number to integer
// coordinates are in 26.6 pixels (i.e. 1/64th of pixels)
#define f266CeilToInt(x) (((x)+63)>>6) // ceiling
#define f266FloorToInt(x) ((x)>>6) // floor
#define f1616ToInt(x) (((x)+0x8000)>>16) // 16.16
#define floatTof266(x) ((int)((x)*(1<<6)+0.5))
#define ALIGN(x) (((x)+7)&~7) // 8 byte align
void paste_bitmap(FT_Bitmap *bitmap, int x, int y) {
int drow = x+y*width;
int srow = 0;
int sp, dp, w, h;
if (bitmap->pixel_mode==ft_pixel_mode_mono)
for (h = bitmap->rows; h>0; --h, drow+=width, srow+=bitmap->pitch)
for (w = bitmap->width, sp=dp=0; w>0; --w, ++dp, ++sp)
bbuffer[drow+dp] = (bitmap->buffer[srow+sp/8] & (0x80>>(sp%8))) ? 255:0;
else
for (h = bitmap->rows; h>0; --h, drow+=width, srow+=bitmap->pitch)
for (w = bitmap->width, sp=dp=0; w>0; --w, ++dp, ++sp)
bbuffer[drow+dp] = bitmap->buffer[srow+sp];
}
void write_header(FILE *f) {
static unsigned char header[800] = "mhwanh";
int i;
header[7] = 4;
if (width < 0x10000) { // are two bytes enough for the width?
header[8] = width>>8; header[9] = (unsigned char)width;
} else { // store width using 4 bytes at the end of the header
header[8] = header[9] = 0;
header[28] = (width >> 030) & 0xFF;
header[29] = (width >> 020) & 0xFF;
header[30] = (width >> 010) & 0xFF;
header[31] = (width ) & 0xFF;
}
header[10] = height>>8; header[11] = (unsigned char)height;
header[12] = colors>>8; header[13] = (unsigned char)colors;
for (i = 32; i<800; ++i) header[i] = (i-32)/3;
fwrite(header, 1, 800, f);
}
void write_bitmap(void *buffer, char type) {
FILE *f;
int const max_name = 128;
char name[max_name];
snprintf(name, max_name, "%s/%s-%c.raw", outdir, encoding_name, type);
f = fopen(name, "wb");
if (f==NULL) ERROR("fopen failed.");
write_header(f);
fwrite(buffer, 1, width*height, f);
fclose(f);
}
void render() {
FT_Library library;
FT_Face face;
FT_Error error;
FT_Glyph *glyphs;
FT_BitmapGlyph glyph;
FILE *f;
int const load_flags = FT_LOAD_DEFAULT | FT_LOAD_NO_HINTING;
int pen_x = 0, pen_xa;
int ymin = INT_MAX, ymax = INT_MIN;
int i, uni_charmap = 1;
int baseline, space_advance = 20;
int glyphs_count = 0;
/* initialize freetype */
error = FT_Init_FreeType(&library);
if (error) ERROR("Init_FreeType failed.");
error = FT_New_Face(library, font_path, 0, &face);
if (error) ERROR("New_Face failed. Maybe the font path `%s' is wrong.", font_path);
/*
if (font_metrics) {
error = FT_Attach_File(face, font_metrics);
if (error) WARNING("FT_Attach_File failed.");
}
*/
#if 0
/************************************************************/
eprintf("Font encodings:\n");
for (i = 0; i<face->num_charmaps; ++i)
eprintf("'%.4s'\n", (char*)&face->charmaps[i]->encoding);
//error = FT_Select_Charmap(face, ft_encoding_unicode);
//error = FT_Select_Charmap(face, ft_encoding_adobe_standard);
//error = FT_Select_Charmap(face, ft_encoding_adobe_custom);
//error = FT_Set_Charmap(face, face->charmaps[1]);
//if (error) WARNING("FT_Select_Charmap failed.");
#endif
#if 0
/************************************************************/
if (FT_HAS_GLYPH_NAMES(face)) {
int const max_gname = 128;
char gname[max_gname];
for (i = 0; i<face->num_glyphs; ++i) {
FT_Get_Glyph_Name(face, i, gname, max_gname);
eprintf("%02x `%s'\n", i, gname);
}
}
#endif
if (face->charmap==NULL || face->charmap->encoding!=ft_encoding_unicode) {
WARNING("Unicode charmap not available for this font. Very bad!");
uni_charmap = 0;
error = FT_Set_Charmap(face, face->charmaps[0]);
if (error) WARNING("No charmaps! Strange.");
}
/* set size */
if (FT_IS_SCALABLE(face)) {
error = FT_Set_Char_Size(face, floatTof266(ppem), 0, 0, 0);
if (error) WARNING("FT_Set_Char_Size failed.");
} else {
int j = 0;
int jppem = face->available_sizes[0].height;
/* find closest size */
for (i = 0; i<face->num_fixed_sizes; ++i) {
if (fabs(face->available_sizes[i].height - ppem) < abs(face->available_sizes[i].height - jppem)) {
j = i;
jppem = face->available_sizes[i].height;
}
}
WARNING("Selected font is not scalable. Using ppem=%i.", face->available_sizes[j].height);
error = FT_Set_Pixel_Sizes(face, face->available_sizes[j].width, face->available_sizes[j].height);
if (error) WARNING("FT_Set_Pixel_Sizes failed.");
}
if (FT_IS_FIXED_WIDTH(face))
WARNING("Selected font is fixed-width.");
/* compute space advance */
error = FT_Load_Char(face, ' ', load_flags);
if (error) WARNING("spacewidth set to default.");
else space_advance = f266ToInt(face->glyph->advance.x);
/* create font.desc */
{
int const max_name = 128;
char name[max_name];
snprintf(name, max_name, "%s/%s", outdir, font_desc);
f = fopen(name, append_mode ? "a":"w");
}
if (f==NULL) ERROR("fopen failed.");
/* print font.desc header */
if (append_mode) {
fprintf(f, "\n\n# ");
} else {
fprintf(f, "# This file was generated with subfont for MPlayer.\n"
"# Subfont by Artur Zaprzala <zybi@fanthom.irc.pl>.\n\n");
fprintf(f, "[info]\n");
}
fprintf(f, "name 'Subtitle font for %s %s, \"%s%s%s\" face, size: %.1f pixels, blur: %.1f, outline: %.1f'\n",
encoding_name,
unicode_desc ? "charset, Unicode encoding":"encoding",
face->family_name ? face->family_name : font_path,
face->style_name ? " ":"", face->style_name ? face->style_name:"",
ppem, radius, thickness);
if (!append_mode) {
#ifdef NEW_DESC
fprintf(f, "descversion 2\n");
#else
fprintf(f, "descversion 1\n");
#endif
fprintf(f, "spacewidth %i\n", 2*padding + space_advance);
#ifndef NEW_DESC
fprintf(f, "charspace %i\n", -2*padding);
#endif
fprintf(f, "height %li\n", f266ToInt(face->size->metrics.height));
#ifdef NEW_DESC
fprintf(f, "ascender %i\n", f266CeilToInt(face->size->metrics.ascender));
fprintf(f, "descender %i\n", f266FloorToInt(face->size->metrics.descender));
#endif
}
fprintf(f, "\n[files]\n");
fprintf(f, "alpha %s-a.raw\n", encoding_name);
fprintf(f, "bitmap %s-b.raw\n", encoding_name);
fprintf(f, "\n[characters]\n");
// render glyphs, compute bitmap size and [characters] section
glyphs = (FT_Glyph*)malloc(charset_size*sizeof(FT_Glyph*));
for (i= 0; i<charset_size; ++i) {
FT_GlyphSlot slot;
FT_ULong character, code;
FT_UInt glyph_index;
FT_BBox bbox;
character = charset[i];
code = charcodes[i];
// get glyph index
if (character==0)
glyph_index = 0;
else {
glyph_index = FT_Get_Char_Index(face, uni_charmap ? character:code);
if (glyph_index==0) {
WARNING("Glyph for char 0x%02lx|U+%04lX|%c not found.", code, character,
code<' '||code>255 ? '.':code);
continue;
}
}
// load glyph
error = FT_Load_Glyph(face, glyph_index, load_flags);
if (error) {
WARNING("FT_Load_Glyph 0x%02x (char 0x%02lx|U+%04lX) failed.", glyph_index, code, character);
continue;
}
slot = face->glyph;
// render glyph
if (slot->format != ft_glyph_format_bitmap) {
error = FT_Render_Glyph(slot, ft_render_mode_normal);
if (error) {
WARNING("FT_Render_Glyph 0x%04x (char 0x%02lx|U+%04lX) failed.", glyph_index, code, character);
continue;
}
}
// extract glyph image
error = FT_Get_Glyph(slot, (FT_Glyph*)&glyph);
if (error) {
WARNING("FT_Get_Glyph 0x%04x (char 0x%02lx|U+%04lX) failed.", glyph_index, code, character);
continue;
}
glyphs[glyphs_count++] = (FT_Glyph)glyph;
#ifdef NEW_DESC
// max height
if (glyph->bitmap.rows > height) height = glyph->bitmap.rows;
// advance pen
pen_xa = pen_x + glyph->bitmap.width + 2*padding;
// font.desc
fprintf(f, "0x%04x %i %i %i %i %i %i;\tU+%04X|%c\n", unicode_desc ? character:code,
pen_x, // bitmap start
glyph->bitmap.width + 2*padding, // bitmap width
glyph->bitmap.rows + 2*padding, // bitmap height
glyph->left - padding, // left bearing
glyph->top + padding, // top bearing
f266ToInt(slot->advance.x), // advance
character, code<' '||code>255 ? '.':code);
#else
// max height
if (glyph->top > ymax) {
ymax = glyph->top;
//eprintf("%3i: ymax %i (%c)\n", code, ymax, code);
}
if (glyph->top - glyph->bitmap.rows < ymin) {
ymin = glyph->top - glyph->bitmap.rows;
//eprintf("%3i: ymin %i (%c)\n", code, ymin, code);
}
/* advance pen */
pen_xa = pen_x + f266ToInt(slot->advance.x) + 2*padding;
/* font.desc */
fprintf(f, "0x%04lx %i %i;\tU+%04lX|%c\n", unicode_desc ? character:code,
pen_x, // bitmap start
pen_xa-1, // bitmap end
character, code<' '||code>255 ? '.':code);
#endif
pen_x = ALIGN(pen_xa);
}
width = pen_x;
pen_x = 0;
#ifdef NEW_DESC
if (height<=0) ERROR("Something went wrong. Use the source!");
height += 2*padding;
#else
if (ymax<=ymin) ERROR("Something went wrong. Use the source!");
height = ymax - ymin + 2*padding;
baseline = ymax + padding;
#endif
// end of font.desc
if (DEBUG) eprintf("bitmap size: %ix%i\n", width, height);
fprintf(f, "# bitmap size: %ix%i\n", width, height);
fclose(f);
bbuffer = (unsigned char*)malloc(width*height);
if (bbuffer==NULL) ERROR("malloc failed.");
memset(bbuffer, 0, width*height);
/* paste glyphs */
for (i= 0; i<glyphs_count; ++i) {
glyph = (FT_BitmapGlyph)glyphs[i];
#ifdef NEW_DESC
paste_bitmap(&glyph->bitmap,
pen_x + padding,
padding);
/* advance pen */
pen_x += glyph->bitmap.width + 2*padding;
#else
paste_bitmap(&glyph->bitmap,
pen_x + padding + glyph->left,
baseline - glyph->top);
/* advance pen */
pen_x += f1616ToInt(glyph->root.advance.x) + 2*padding;
#endif
pen_x = ALIGN(pen_x);
FT_Done_Glyph((FT_Glyph)glyph);
}
free(glyphs);
error = FT_Done_FreeType(library);
if (error) ERROR("FT_Done_FreeType failed.");
}
/* decode from 'encoding' to unicode */
FT_ULong decode_char(char c) {
FT_ULong o;
char *inbuf = &c;
char *outbuf = (char*)&o;
int inbytesleft = 1;
int outbytesleft = sizeof(FT_ULong);
size_t count = iconv(cd, &inbuf, &inbytesleft, &outbuf, &outbytesleft);
/* convert unicode BigEndian -> MachineEndian */
o = be2me_32(o);
// if (count==-1) o = 0; // not OK, at least my iconv() returns E2BIG for all
if (outbytesleft!=0) o = 0;
/* we don't want control characters */
if (o>=0x7f && o<0xa0) o = 0;
return o;
}
void prepare_charset() {
FILE *f;
FT_ULong i;
f = fopen(encoding, "r"); // try to read custom encoding
if (f==NULL) {
int count = 0;
// check if ucs-4 is available
cd = iconv_open(charmap, charmap);
if (cd==(iconv_t)-1) ERROR("iconv doesn't know %s encoding. Use the source!", charmap);
iconv_close(cd);
cd = iconv_open(charmap, encoding);
if (cd==(iconv_t)-1) ERROR("Unsupported encoding `%s', use iconv --list to list character sets known on your system.", encoding);
charset_size = 256 - first_char;
for (i = 0; i<charset_size; ++i) {
charcodes[count] = i+first_char;
charset[count] = decode_char(i+first_char);
//eprintf("%04X U%04X\n", charcodes[count], charset[count]);
if (charset[count]!=0) ++count;
}
charcodes[count] = charset[count] = 0; ++count;
charset_size = count;
iconv_close(cd);
} else {
unsigned int character, code;
int count;
eprintf("Reading custom encoding from file '%s'.\n", encoding);
while ((count = fscanf(f, "%x%*[ \t]%x", &character, &code)) != EOF) {
if (charset_size==max_charset_size) {
WARNING("There is no place for more than %i characters. Use the source!", max_charset_size);
break;
}
if (count==0) ERROR("Unable to parse custom encoding file.");
if (character<32) continue; // skip control characters
charset[charset_size] = character;
charcodes[charset_size] = count==2 ? code : character;
++charset_size;
}
fclose(f);
// encoding = basename(encoding);
}
if (charset_size==0) ERROR("No characters to render!");
}
// general outline
void outline(
unsigned char *s,
unsigned char *t,
int width,
int height,
unsigned char *m,
int r,
int mwidth,
int msize) {
int x, y;
#if 1
for (y = 0; y<height; y++) {
for (x = 0; x<width; x++) {
const int src= s[x];
if(src==0) continue;
#if 0
if(src==255 && x>0 && y>0 && x+1<width && y+1<height
&& s[x-1]==255 && s[x+1]==255 && s[x-width]==255 && s[x+width]==255){
t[x + y*width]=255;
}else
#endif
{
const int x1=(x<r) ? r-x : 0;
const int y1=(y<r) ? r-y : 0;
const int x2=(x+r>=width ) ? r+width -x : 2*r+1;
const int y2=(y+r>=height) ? r+height-y : 2*r+1;
register unsigned char *dstp= t + (y1+y-r)* width + x-r;
//register int *mp = m + y1 *mwidth;
register unsigned char *mp= m + msize*src + y1*mwidth;
int my;
for(my= y1; my<y2; my++){
// unsigned char *dstp= t + (my+y-r)* width + x-r;
// int *mp = m + my *mwidth;
register int mx;
for(mx= x1; mx<x2; mx++){
// const int tmp= (src*mp[mx] + 128)>>8;
// if(dstp[mx] < tmp) dstp[mx]= tmp;
if(dstp[mx] < mp[mx]) dstp[mx]= mp[mx];
}
dstp+=width;
mp+=mwidth;
}
}
}
s+= width;
}
#else
for (y = 0; y<height; ++y) {
for (x = 0; x<width; ++x, ++s, ++t) {
//if(s[0]>=192) printf("%d\n",s[0]);
if(s[0]!=255){
unsigned max = 0;
unsigned *mrow = m + r;
unsigned char *srow = s -r*width;
int x1=(x<r)?-x:-r;
int x2=(x+r>=width)?(width-x-1):r;
int my;
for (my = -r; my<=r; ++my, srow+= width, mrow+= mwidth) {
int mx;
if (y+my < 0) continue;
if (y+my >= height) break;
for (mx = x1; mx<=x2; ++mx) {
unsigned v = srow[mx] * mrow[mx];
if (v>max) max = v;
}
}
// if(!max) *t = 0; else
*t = (max + base/2) / base;
} else
*t = 255;
}
}
#endif
}
// 1 pixel outline
void outline1(
unsigned char *s,
unsigned char *t,
int width,
int height) {
int x, y, mx, my;
for (x = 0; x<width; ++x, ++s, ++t) *t = *s;
for (y = 1; y<height-1; ++y) {
*t++ = *s++;
for (x = 1; x<width-1; ++x, ++s, ++t) {
unsigned v = (
s[-1-width]+
s[-1+width]+
s[+1-width]+
s[+1+width]
)/2 + (
s[-1]+
s[+1]+
s[-width]+
s[+width]+
s[0]
);
*t = v>maxcolor ? maxcolor : v;
}
*t++ = *s++;
}
for (x = 0; x<width; ++x, ++s, ++t) *t = *s;
}
// gaussian blur
void blur(
unsigned char *buffer,
unsigned short *tmp2,
int width,
int height,
int *m,
int *m2,
int r,
int mwidth,
unsigned volume) {
int x, y;
#if 1
unsigned char *s = buffer;
unsigned short *t = tmp2+1;
for(y=0; y<height; y++){
memset(t-1, 0, (width+1)*sizeof(short));
// for(x=0; x<width+1; x++)
// t[x]= 128;
for(x=0; x<r; x++){
const int src= s[x];
if(src){
register unsigned short *dstp= t + x-r;
int mx;
unsigned *m3= m2 + src*mwidth;
for(mx=r-x; mx<mwidth; mx++){
dstp[mx]+= m3[mx];
}
}
}
for(; x<width-r; x++){
const int src= s[x];
if(src){
register unsigned short *dstp= t + x-r;
int mx;
unsigned *m3= m2 + src*mwidth;
for(mx=0; mx<mwidth; mx++){
dstp[mx]+= m3[mx];
}
}
}
for(; x<width; x++){
const int src= s[x];
if(src){
register unsigned short *dstp= t + x-r;
int mx;
const int x2= r+width -x;
const int off= src*mwidth;
unsigned *m3= m2 + src*mwidth;
for(mx=0; mx<x2; mx++){
dstp[mx]+= m3[mx];
}
}
}
s+= width;
t+= width + 1;
}
t = tmp2;
for(x=0; x<width; x++){
for(y=0; y<r; y++){
unsigned short *srcp= t + y*(width+1) + 1;
int src= *srcp;
if(src){
register unsigned short *dstp= srcp - 1 + width+1;
const int src2= (src + 128)>>8;
unsigned *m3= m2 + src2*mwidth;
int mx;
*srcp= 128;
for(mx=r-1; mx<mwidth; mx++){
*dstp += m3[mx];
dstp+= width+1;
}
}
}
for(; y<height-r; y++){
unsigned short *srcp= t + y*(width+1) + 1;
int src= *srcp;
if(src){
register unsigned short *dstp= srcp - 1 - r*(width+1);
const int src2= (src + 128)>>8;
unsigned *m3= m2 + src2*mwidth;
int mx;
*srcp= 128;
for(mx=0; mx<mwidth; mx++){
*dstp += m3[mx];
dstp+= width+1;
}
}
}
for(; y<height; y++){
unsigned short *srcp= t + y*(width+1) + 1;
int src= *srcp;
if(src){
const int y2=r+height-y;
register unsigned short *dstp= srcp - 1 - r*(width+1);
const int src2= (src + 128)>>8;
unsigned *m3= m2 + src2*mwidth;
int mx;
*srcp= 128;
for(mx=0; mx<y2; mx++){
*dstp += m3[mx];
dstp+= width+1;
}
}
}
t++;
}
t = tmp2;
s = buffer;
for(y=0; y<height; y++){
for(x=0; x<width; x++){
s[x]= t[x]>>8;
}
s+= width;
t+= width + 1;
}
#else
unsigned char *tmp = (unsigned char*)tmp2;
unsigned char *s = buffer - r;
unsigned char *t = tmp;
int *m_end=m+256*mwidth;
for (y = 0; y<height; ++y) {
for (x = 0; x<width; ++x, ++s, ++t) {
unsigned sum = 65536/2;
int x1 = (x<r) ? r-x:0;
int x2 = (x+r>=width) ? (r+width-x):mwidth;
unsigned* mp = m + 256*x1;
int mx;
for (mx = x1; mx<x2; ++mx, mp+=256) sum+= mp[s[mx]];
*t = sum>>16;
}
}
tmp -= r*width;
for (x = 0; x<width; ++x, ++tmp, ++buffer) {
int y1max=(r<height)?r:height;
int y2min=height-r;
if(y2min<y1max) y2min=y1max;
s = tmp;
t = buffer;
#if 0
for (y = 0; y<height; ++y, s+= width, t+= width) {
unsigned sum = 65536/2;
int y1 = (y<r) ? r-y:0;
int y2 = (y+r>=height) ? (r+height-y):mwidth;
register unsigned *mp = m + 256*y1;
register unsigned char *smy = s + y1*width;
int my;
for (my = y1; my<y2; ++my, smy+= width, mp+=256)
sum+= mp[*smy];
*t = sum>>16;
}
#else
// pass 1: 0..r
for (y = 0; y<y1max; ++y, s+= width, t+= width) {
unsigned sum = 65536/2;
int y1 = r-y;
int my = y1;
int y2 = (y+r>=height) ? (r+height-y):mwidth;
unsigned char *smy = s + y1*width;
unsigned* mp = m + 256*y1;
for (; my<y2; ++my, smy+= width, mp+=256) sum+=mp[*smy];
*t = sum>>16;
}
// pass 2: r..(height-r)
for (; y<y2min; ++y, s+= width, t+= width) {
unsigned sum = 65536/2;
unsigned char *smy = s;
unsigned* mp = m;
// int my=0;
// for (; my<mwidth; ++my, smy+=width, mp+=256) sum+=mp[*smy];
for (; mp<m_end; smy+=width, mp+=256) sum+=mp[*smy];
*t = sum>>16;
}
// pass 3: (height-r)..height
for (; y<height; ++y, s+= width, t+= width) {
unsigned sum = 65536/2;
int y2 = r+height-y;
unsigned char *smy = s;
unsigned* mp = m;
int my=0;
for (; my<y2; ++my, smy+= width, mp+=256) sum+=mp[*smy];
*t = sum>>16;
}
#endif
}
#endif
}
// Gaussian matrix
// Maybe for future use.
unsigned gmatrix(unsigned *m, int r, int w, double const A) {
unsigned volume = 0; // volume under Gaussian area is exactly -pi*base/A
int mx, my;
for (my = 0; my<w; ++my) {
for (mx = 0; mx<w; ++mx) {
m[mx+my*w] = (unsigned)(exp(A * ((mx-r)*(mx-r)+(my-r)*(my-r))) * base + .5);
volume+= m[mx+my*w];
if (DEBUG) eprintf("%3i ", m[mx+my*w]);
}
if (DEBUG) eprintf("\n");
}
if (DEBUG) {
eprintf("A= %f\n", A);
eprintf("volume: %i; exact: %.0f; volume/exact: %.6f\n\n", volume, -M_PI*base/A, volume/(-M_PI*base/A));
}
return volume;
}
void alpha() {
unsigned int ttime;
int const g_r = ceil(radius);
int const o_r = ceil(thickness);
int const g_w = 2*g_r+1; // matrix size
int const o_w = 2*o_r+1; // matrix size
int const o_size = o_w * o_w;
double const A = log(1.0/base)/(radius*radius*2);
double volume_factor=0.0;
double volume_diff;
int mx, my, i;
unsigned volume = 0; // volume under Gaussian area is exactly -pi*base/A
unsigned *g = (unsigned*)malloc(g_w * sizeof(unsigned));
unsigned *gt = (unsigned*)malloc(256 * g_w * sizeof(unsigned));
unsigned *gt2 = (unsigned*)malloc(256 * g_w * sizeof(unsigned));
unsigned *om = (unsigned*)malloc(o_w*o_w * sizeof(unsigned));
unsigned char *omt = malloc(o_size*256);
unsigned char *omtp = omt;
unsigned short *tmp = malloc((width+1)*height*sizeof(short));
if (g==NULL || gt==NULL || gt2==NULL || om==NULL || omt==NULL) ERROR("malloc failed.");
// gaussian curve with volume = 256
for (volume_diff=10000000; volume_diff>0.0000001; volume_diff*=0.5){
volume_factor+= volume_diff;
volume=0;
for (i = 0; i<g_w; ++i) {
g[i] = (unsigned)(exp(A * (i-g_r)*(i-g_r)) * volume_factor + .5);
volume+= g[i];
}
if(volume>256) volume_factor-= volume_diff;
}
volume=0;
for (i = 0; i<g_w; ++i) {
g[i] = (unsigned)(exp(A * (i-g_r)*(i-g_r)) * volume_factor + .5);
volume+= g[i];
if (DEBUG) eprintf("%3i ", g[i]);
}
//volume *= volume;
if (DEBUG) eprintf("\n");
// gauss table:
for(mx=0;mx<g_w;mx++){
for(i=0;i<256;i++){
gt[256*mx+i] = (i*g[mx]*65536+(volume/2))/volume;
gt2[mx+i*g_w] = i*g[mx];
}
}
/* outline matrix */
for (my = 0; my<o_w; ++my) {
for (mx = 0; mx<o_w; ++mx) {
// antialiased circle would be perfect here, but this one is good enough
double d = thickness + 1 - sqrt((mx-o_r)*(mx-o_r)+(my-o_r)*(my-o_r));
om[mx+my*o_w] = d>=1 ? base : d<=0 ? 0 : (d*base + .5);
if (DEBUG) eprintf("%3i ", om[mx+my*o_w]);
}
if (DEBUG) eprintf("\n");
}
if (DEBUG) eprintf("\n");
// outline table:
for(i=0;i<256;i++){
for(mx=0;mx<o_size;mx++) *(omtp++) = (i*om[mx] + (base/2))/base;
}
ttime=GetTimer();
if(thickness==1.0)
outline1(bbuffer, abuffer, width, height); // FAST solid 1 pixel outline
else
outline(bbuffer, abuffer, width, height, omt, o_r, o_w, o_size); // solid outline
//outline(bbuffer, abuffer, width, height, gm, g_r, g_w); // Gaussian outline
ttime=GetTimer()-ttime;
printf("outline: %7d us\n",ttime);
ttime=GetTimer();
// blur(abuffer, bbuffer, width, height, g, g_r, g_w, volume);
blur(abuffer, tmp, width, height, gt, gt2, g_r, g_w, volume);
ttime=GetTimer()-ttime;
printf("gauss: %7d us\n",ttime);
free(g);
free(om);
}
void usage() {
printf("Usage: %s [--outdir dir] [--append] [--unicode] [--blur b] [--outline o] encoding ppem font\n", command);
printf("\n"
" Program creates 3 files: font.desc, <encoding>-a.raw, <encoding>-b.raw.\n"
"\n"
" --outdir output directory to place files.\n"
" --append append results to existing font.desc, suppress info header.\n"
" --unicode use Unicode in font.desc. This will work with -utf8 option of mplayer.\n"
" --blur b specify blur radius, float.\n"
" --outline o specify outline thickness, float.\n"
" encoding must be an 8 bit encoding, like iso-8859-2, or path to custom encoding file (see README).\n"
" To list encodings available on your system use iconv --list.\n"
" ppem Font size in pixels (default 24), float.\n"
" font Font file path. Any format supported by the freetype library (*.ttf, *.pfb, ...).\n"
);
exit(1);
}
void parse_args(int argc, char **argv) {
int i, a = 0;
double d;
command = strrchr(argv[a], '/');
if (command==NULL) command = argv[a];
else ++command;
++a; --argc;
if (argc>=1 && strcmp(argv[a], "--outdir")==0) {
++a; --argc;
if (argc==0) usage();
outdir = strdup(argv[a]);
++a; --argc;
}
if (argc>=1 && strcmp(argv[a], "--append")==0) {
append_mode = 1;
++a; --argc;
}
if (argc>=1 && strcmp(argv[a], "--unicode")==0) {
unicode_desc = 1;
++a; --argc;
}
if (argc>=1 && strcmp(argv[a], "--blur")==0) {
++a; --argc;
if (argc==0) usage();
d = atof(argv[a]);
if (d>=0 && d<20) radius = d;
else WARNING("using default blur radius.");
++a; --argc;
}
if (argc>=1 && strcmp(argv[a], "--outline")==0) {
++a; --argc;
if (argc==0) usage();
d = atof(argv[a]);
if (d>=0 && d<20) thickness = d;
else WARNING("using default outline thickness.");
++a; --argc;
}
if (argc<3) usage();
// encoding
if (argv[a][0]!=0)
encoding = argv[a];
encoding_name = strrchr(encoding, '/');
if (!encoding_name) encoding_name=encoding;
else ++encoding_name;
++a; --argc;
// ppem
d = atof(argv[a]);
if (d>2.) ppem = d;
++a; --argc;
// font
font_path = argv[a];
++a; --argc;
}
int main(int argc, char **argv) {
unsigned int ttime;
parse_args(argc, argv);
padding = ceil(radius) + ceil(thickness);
ttime=GetTimer();
prepare_charset();
ttime=GetTimer()-ttime;
printf("charset: %7d us\n",ttime);
ttime=GetTimer();
render();
ttime=GetTimer()-ttime;
printf("render: %7d us\n",ttime);
write_bitmap(bbuffer, 'b');
abuffer = (unsigned char*)malloc(width*height);
if (abuffer==NULL) ERROR("malloc failed.");
memset(abuffer, 0, width*height);
alpha();
write_bitmap(abuffer, 'a');
free(bbuffer);
free(abuffer);
// fflush(stderr);
return 0;
}