#include "imager.h" #include "imrender.h" #include #include #include #include #include /* =head1 NAME fontft1.c - Freetype 1.x font driver for Imager =head1 SYNOPSIS handle = i_tt_new(path_to_ttf); rc = i_tt_bbox(handle, points, "foo", 3, int cords[6], utf8); i_tt_destroy(handle); // and much more =head1 DESCRIPTION fontft1.c implements font creation, rendering, bounding box functions and more for Imager using Freetype 1.x. In general this driver should be ignored in favour of the FT2 driver. =head1 FUNCTION REFERENCE Some of these functions are internal. =over =cut */ /* Truetype font support */ /* These are enabled by default when configuring Freetype 1.x I haven't a clue how to reliably detect it at compile time. We need a compilation probe in Makefile.PL */ #define FTXPOST 1 #define FTXERR18 1 #include #define TT_CHC 5 #ifdef FTXPOST #include #endif #ifdef FTXERR18 #include #endif /* some versions of FT1.x don't seem to define this - it's font defined so it won't change */ #ifndef TT_MS_LANGID_ENGLISH_GENERAL #define TT_MS_LANGID_ENGLISH_GENERAL 0x0409 #endif static im_slot_t slot = -1; /* convert a code point into an index in the glyph cache */ #define TT_HASH(x) ((x) & 0xFF) typedef struct { int initialized; TT_Engine engine; } i_tt_engine; typedef struct i_glyph_entry_ { TT_Glyph glyph; unsigned long ch; } i_tt_glyph_entry; #define TT_NOCHAR (~0UL) struct TT_Instancehandle_ { TT_Instance instance; TT_Instance_Metrics imetrics; TT_Glyph_Metrics gmetrics[256]; i_tt_glyph_entry glyphs[256]; int smooth; int order; i_img_dim ptsize; }; typedef struct TT_Instancehandle_ TT_Instancehandle; struct TT_Fonthandle_ { TT_Face face; TT_Face_Properties properties; TT_Instancehandle instanceh[TT_CHC]; TT_CharMap char_map; #ifdef FTXPOST int loaded_names; TT_Error load_cond; #endif }; /* Defines */ #define USTRCT(x) ((x).z) #define TT_VALID( handle ) ( ( handle ).z != NULL ) static void i_tt_push_error(TT_Error rc); static void i_tt_uninit(void *); /* Prototypes */ static int i_tt_get_instance( TT_Fonthandle *handle, i_img_dim points, int smooth ); static void i_tt_init_raster_map( TT_Raster_Map* bit, i_img_dim width, i_img_dim height, int smooth ); static void i_tt_done_raster_map( TT_Raster_Map *bit ); static void i_tt_clear_raster_map( TT_Raster_Map* bit ); static void i_tt_blit_or( TT_Raster_Map *dst, TT_Raster_Map *src,i_img_dim x_off, i_img_dim y_off ); static int i_tt_get_glyph( TT_Fonthandle *handle, int inst, unsigned long j ); static void i_tt_render_glyph( TT_Glyph glyph, TT_Glyph_Metrics* gmetrics, TT_Raster_Map *bit, TT_Raster_Map *small_bit, i_img_dim x_off, i_img_dim y_off, int smooth ); static int i_tt_render_all_glyphs( TT_Fonthandle *handle, int inst, TT_Raster_Map *bit, TT_Raster_Map *small_bit, i_img_dim cords[6], char const* txt, size_t len, int smooth, int utf8 ); static void i_tt_dump_raster_map2( i_img* im, TT_Raster_Map* bit, i_img_dim xb, i_img_dim yb, const i_color *cl, int smooth ); static void i_tt_dump_raster_map_channel( i_img* im, TT_Raster_Map* bit, i_img_dim xb, i_img_dim yb, int channel, int smooth ); static int i_tt_rasterize( TT_Fonthandle *handle, TT_Raster_Map *bit, i_img_dim cords[6], double points, char const* txt, size_t len, int smooth, int utf8 ); static undef_int i_tt_bbox_inst( TT_Fonthandle *handle, int inst ,const char *txt, size_t len, i_img_dim cords[6], int utf8 ); /* static globals needed */ static int LTT_dpi = 72; /* FIXME: this ought to be a part of the call interface */ static int LTT_hinted = 1; /* FIXME: this too */ /* * FreeType interface */ void i_tt_start(void) { if (slot == -1) slot = im_context_slot_new(i_tt_uninit); } /* =item init_tt() Initializes the freetype font rendering engine (if needed) =cut */ static i_tt_engine * i_init_tt(void) { TT_Error error; im_context_t ctx = im_get_context(); TT_Byte palette[] = { 0, 64, 127, 191, 255 }; i_tt_engine *result = im_context_slot_get(ctx, slot); i_clear_error(); if (result == NULL) { result = mymalloc(sizeof(i_tt_engine)); memset(result, 0, sizeof(*result)); im_context_slot_set(ctx, slot, result); mm_log((1, "allocated FT1 state %p\n", result)); } mm_log((1,"init_tt()\n")); if (result->initialized) return result; error = TT_Init_FreeType( &result->engine ); if ( error ){ mm_log((1,"Initialization of freetype failed, code = 0x%x\n", (unsigned)error)); i_tt_push_error(error); i_push_error(0, "Could not initialize freetype 1.x"); return NULL; } #ifdef FTXPOST error = TT_Init_Post_Extension( result->engine ); if (error) { mm_log((1, "Initialization of Post extension failed = 0x%x\n", (unsigned)error)); i_tt_push_error(error); i_push_error(0, "Could not initialize FT 1.x POST extension"); return NULL; } #endif error = TT_Set_Raster_Gray_Palette(result->engine, palette); if (error) { mm_log((1, "Initialization of gray levels failed = 0x%x\n", (unsigned)error)); i_tt_push_error(error); i_push_error(0, "Could not initialize FT 1.x POST extension"); return NULL; } mm_log((1, "initialized FT1 state %p\n", result)); result->initialized = 1; return result; } static void i_tt_uninit(void *p) { i_tt_engine *tteng = p; if (tteng->initialized) { mm_log((1, "finalizing FT1 state %p\n", tteng)); TT_Done_FreeType(tteng->engine); } mm_log((1, "freeing FT1 state %p\n", tteng)); myfree(tteng); } /* =item i_tt_get_instance(handle, points, smooth) Finds a points+smooth instance or if one doesn't exist in the cache allocates room and returns its cache entry fontname - path to the font to load handle - handle to the font. points - points of the requested font smooth - boolean (True: antialias on, False: antialias is off) =cut */ static int i_tt_get_instance( TT_Fonthandle *handle, i_img_dim points, int smooth ) { int i,idx; TT_Error error; mm_log((1,"i_tt_get_instance(handle %p, points %" i_DF ", smooth %d)\n", handle, i_DFc(points), smooth)); if (smooth == -1) { /* Smooth doesn't matter for this search */ for(i=0;iinstanceh[i].ptsize==points) { mm_log((1,"i_tt_get_instance: in cache - (non selective smoothing search) returning %d\n",i)); return i; } } smooth=1; /* We will be adding a font - add it as smooth then */ } else { /* Smooth doesn't matter for this search */ for(i=0;iinstanceh[i].ptsize == points && handle->instanceh[i].smooth == smooth) { mm_log((1,"i_tt_get_instance: in cache returning %d\n",i)); return i; } } } /* Found the instance in the cache - return the cache index */ for(idx=0;idxinstanceh[idx].order)) break; /* find the lru item */ } mm_log((1,"i_tt_get_instance: lru item is %d\n",idx)); mm_log((1,"i_tt_get_instance: lru pointer %p\n", USTRCT(handle->instanceh[idx].instance) )); if ( USTRCT(handle->instanceh[idx].instance) ) { mm_log((1,"i_tt_get_instance: freeing lru item from cache %d\n",idx)); /* Free cached glyphs */ for(i=0;i<256;i++) if ( USTRCT(handle->instanceh[idx].glyphs[i].glyph) ) TT_Done_Glyph( handle->instanceh[idx].glyphs[i].glyph ); for(i=0;i<256;i++) { handle->instanceh[idx].glyphs[i].ch = TT_NOCHAR; USTRCT(handle->instanceh[idx].glyphs[i].glyph)=NULL; } /* Free instance if needed */ TT_Done_Instance( handle->instanceh[idx].instance ); } /* create and initialize instance */ /* FIXME: probably a memory leak on fail */ (void) (( error = TT_New_Instance( handle->face, &handle->instanceh[idx].instance ) ) || ( error = TT_Set_Instance_Resolutions( handle->instanceh[idx].instance, LTT_dpi, LTT_dpi ) ) || ( error = TT_Set_Instance_CharSize( handle->instanceh[idx].instance, points*64 ) ) ); if ( error ) { mm_log((1, "Could not create and initialize instance: error %x.\n", (unsigned)error )); return -1; } /* Now that the instance should the inplace we need to lower all of the ru counts and put `this' one with the highest entry */ for(i=0;iinstanceh[i].order--; handle->instanceh[idx].order=TT_CHC-1; handle->instanceh[idx].ptsize=points; handle->instanceh[idx].smooth=smooth; TT_Get_Instance_Metrics( handle->instanceh[idx].instance, &(handle->instanceh[idx].imetrics) ); /* Zero the memory for the glyph storage so they are not thought as cached if they haven't been cached since this new font was loaded */ for(i=0;i<256;i++) { handle->instanceh[idx].glyphs[i].ch = TT_NOCHAR; USTRCT(handle->instanceh[idx].glyphs[i].glyph)=NULL; } return idx; } /* =item i_tt_new(fontname) Creates a new font handle object, finds a character map and initialise the the font handle's cache fontname - path to the font to load =cut */ TT_Fonthandle* i_tt_new(const char *fontname) { TT_Error error; TT_Fonthandle *handle; unsigned short i,n; unsigned short platform,encoding; i_tt_engine *tteng; if ((tteng = i_init_tt()) == NULL) { i_push_error(0, "Could not initialize FT1 engine"); return NULL; } i_clear_error(); mm_log((1,"i_tt_new(fontname '%s')\n",fontname)); /* allocate memory for the structure */ handle = mymalloc( sizeof(TT_Fonthandle) ); /* checked 5Nov05 tonyc */ /* load the typeface */ error = TT_Open_Face( tteng->engine, fontname, &handle->face ); if ( error ) { myfree(handle); if ( error == TT_Err_Could_Not_Open_File ) { mm_log((1, "Could not find/open %s.\n", fontname )); } else { mm_log((1, "Error while opening %s, error code = 0x%x.\n",fontname, (unsigned)error )); } i_tt_push_error(error); return NULL; } TT_Get_Face_Properties( handle->face, &(handle->properties) ); /* First, look for a Unicode charmap */ n = handle->properties.num_CharMaps; USTRCT( handle->char_map )=NULL; /* Invalidate character map */ for ( i = 0; i < n; i++ ) { TT_Get_CharMap_ID( handle->face, i, &platform, &encoding ); if ( (platform == 3 && encoding == 1 ) || (platform == 0 && encoding == 0 ) ) { mm_log((2,"i_tt_new - found char map platform %u encoding %u\n", platform, encoding)); TT_Get_CharMap( handle->face, i, &(handle->char_map) ); break; } } if (!USTRCT(handle->char_map) && n != 0) { /* just use the first one */ TT_Get_CharMap( handle->face, 0, &(handle->char_map)); } /* Zero the pointsizes - and ordering */ for(i=0;iinstanceh[i].instance)=NULL; handle->instanceh[i].order=i; handle->instanceh[i].ptsize=0; handle->instanceh[i].smooth=-1; } #ifdef FTXPOST handle->loaded_names = 0; #endif mm_log((1,"i_tt_new <- %p\n",handle)); return handle; } /* * raster map management */ /* =item i_tt_init_raster_map(bit, width, height, smooth) Allocates internal memory for the bitmap as needed by the parameters (internal) bit - bitmap to allocate into width - width of the bitmap height - height of the bitmap smooth - boolean (True: antialias on, False: antialias is off) =cut */ static void i_tt_init_raster_map( TT_Raster_Map* bit, i_img_dim width, i_img_dim height, int smooth ) { mm_log((1,"i_tt_init_raster_map( bit %p, width %" i_DF ", height %" i_DF ", smooth %d)\n", bit, i_DFc(width), i_DFc(height), smooth)); bit->rows = height; bit->width = ( width + 3 ) & -4; bit->flow = TT_Flow_Down; if ( smooth ) { bit->cols = bit->width; bit->size = bit->rows * bit->width; } else { bit->cols = ( bit->width + 7 ) / 8; /* convert to # of bytes */ bit->size = bit->rows * bit->cols; /* number of bytes in buffer */ } /* rows can be 0 for some glyphs, for example ' ' */ if (bit->rows && bit->size / bit->rows != bit->cols) { i_fatal(0, "Integer overflow calculating bitmap size (%d, %d)\n", bit->width, bit->rows); } mm_log((1,"i_tt_init_raster_map: bit->width %d, bit->cols %d, bit->rows %d, bit->size %ld)\n", bit->width, bit->cols, bit->rows, bit->size )); bit->bitmap = (void *) mymalloc( bit->size ); /* checked 6Nov05 tonyc */ if ( !bit->bitmap ) i_fatal(0,"Not enough memory to allocate bitmap (%d)!\n",bit->size ); } /* =item i_tt_clear_raster_map(bit) Frees the bitmap data and sets pointer to NULL (internal) bit - bitmap to free =cut */ static void i_tt_done_raster_map( TT_Raster_Map *bit ) { myfree( bit->bitmap ); bit->bitmap = NULL; } /* =item i_tt_clear_raster_map(bit) Clears the specified bitmap (internal) bit - bitmap to zero =cut */ static void i_tt_clear_raster_map( TT_Raster_Map* bit ) { memset( bit->bitmap, 0, bit->size ); } /* =item i_tt_blit_or(dst, src, x_off, y_off) function that blits one raster map into another (internal) dst - destination bitmap src - source bitmap x_off - x offset into the destination bitmap y_off - y offset into the destination bitmap =cut */ static void i_tt_blit_or( TT_Raster_Map *dst, TT_Raster_Map *src,i_img_dim x_off, i_img_dim y_off ) { i_img_dim x, y; i_img_dim x1, x2, y1, y2; unsigned char *s, *d; x1 = x_off < 0 ? -x_off : 0; y1 = y_off < 0 ? -y_off : 0; x2 = (int)dst->cols - x_off; if ( x2 > src->cols ) x2 = src->cols; y2 = (int)dst->rows - y_off; if ( y2 > src->rows ) y2 = src->rows; if ( x1 >= x2 ) return; /* do the real work now */ for ( y = y1; y < y2; ++y ) { s = ( (unsigned char*)src->bitmap ) + y * src->cols + x1; d = ( (unsigned char*)dst->bitmap ) + ( y + y_off ) * dst->cols + x1 + x_off; for ( x = x1; x < x2; ++x ) { if (*s > *d) *d = *s; d++; s++; } } } /* useful for debugging */ #if 0 static void dump_raster_map(FILE *out, TT_Raster_Map *bit ) { int x, y; fprintf(out, "cols %d rows %d flow %d\n", bit->cols, bit->rows, bit->flow); for (y = 0; y < bit->rows; ++y) { fprintf(out, "%2d:", y); for (x = 0; x < bit->cols; ++x) { if ((x & 7) == 0 && x) putc(' ', out); fprintf(out, "%02x", ((unsigned char *)bit->bitmap)[y*bit->cols+x]); } putc('\n', out); } } #endif /* =item i_tt_get_glyph(handle, inst, j) Function to see if a glyph exists and if so cache it (internal) handle - pointer to font handle inst - font instance j - charcode of glyph =cut */ static int i_tt_get_glyph( TT_Fonthandle *handle, int inst, unsigned long j) { unsigned short load_flags, code; TT_Error error; mm_log((1, "i_tt_get_glyph(handle %p, inst %d, j %lu (%c))\n", handle,inst,j, (int)((j >= ' ' && j <= '~') ? j : '.'))); /*mm_log((1, "handle->instanceh[inst].glyphs[j]=0x%08X\n",handle->instanceh[inst].glyphs[j] ));*/ if ( TT_VALID(handle->instanceh[inst].glyphs[TT_HASH(j)].glyph) && handle->instanceh[inst].glyphs[TT_HASH(j)].ch == j) { mm_log((1,"i_tt_get_glyph: %lu in cache\n",j)); return 1; } if ( TT_VALID(handle->instanceh[inst].glyphs[TT_HASH(j)].glyph) ) { /* clean up the entry */ TT_Done_Glyph( handle->instanceh[inst].glyphs[TT_HASH(j)].glyph ); USTRCT( handle->instanceh[inst].glyphs[TT_HASH(j)].glyph ) = NULL; handle->instanceh[inst].glyphs[TT_HASH(j)].ch = TT_NOCHAR; } /* Ok - it wasn't cached - try to get it in */ load_flags = TTLOAD_SCALE_GLYPH; if ( LTT_hinted ) load_flags |= TTLOAD_HINT_GLYPH; if ( !TT_VALID(handle->char_map) ) { code = (j < ' ' - 1) ? 0 : (j - (' ' - 1)); if ( code >= handle->properties.num_Glyphs ) code = 0; } else code = TT_Char_Index( handle->char_map, j ); if ( (error = TT_New_Glyph( handle->face, &handle->instanceh[inst].glyphs[TT_HASH(j)].glyph)) ) { mm_log((1, "Cannot allocate and load glyph: error %#x.\n", (unsigned)error )); i_push_error(error, "TT_New_Glyph()"); return 0; } if ( (error = TT_Load_Glyph( handle->instanceh[inst].instance, handle->instanceh[inst].glyphs[TT_HASH(j)].glyph, code, load_flags)) ) { mm_log((1, "Cannot allocate and load glyph: error %#x.\n", (unsigned)error )); /* Don't leak */ TT_Done_Glyph( handle->instanceh[inst].glyphs[TT_HASH(j)].glyph ); USTRCT( handle->instanceh[inst].glyphs[TT_HASH(j)].glyph ) = NULL; i_push_error(error, "TT_Load_Glyph()"); return 0; } /* At this point the glyph should be allocated and loaded */ handle->instanceh[inst].glyphs[TT_HASH(j)].ch = j; /* Next get the glyph metrics */ error = TT_Get_Glyph_Metrics( handle->instanceh[inst].glyphs[TT_HASH(j)].glyph, &handle->instanceh[inst].gmetrics[TT_HASH(j)] ); if (error) { mm_log((1, "TT_Get_Glyph_Metrics: error %#x.\n", (unsigned)error )); TT_Done_Glyph( handle->instanceh[inst].glyphs[TT_HASH(j)].glyph ); USTRCT( handle->instanceh[inst].glyphs[TT_HASH(j)].glyph ) = NULL; handle->instanceh[inst].glyphs[TT_HASH(j)].ch = TT_NOCHAR; i_push_error(error, "TT_Get_Glyph_Metrics()"); return 0; } return 1; } /* =item i_tt_has_chars(handle, text, len, utf8, out) Check if the given characters are defined by the font. Note that len is the number of bytes, not the number of characters (when utf8 is non-zero). Returns the number of characters that were checked. =cut */ size_t i_tt_has_chars(TT_Fonthandle *handle, char const *text, size_t len, int utf8, char *out) { size_t count = 0; mm_log((1, "i_tt_has_chars(handle %p, text %p, len %ld, utf8 %d)\n", handle, text, (long)len, utf8)); while (len) { unsigned long c; int index; if (utf8) { c = i_utf8_advance(&text, &len); if (c == ~0UL) { i_push_error(0, "invalid UTF8 character"); return 0; } } else { c = (unsigned char)*text++; --len; } if (TT_VALID(handle->char_map)) { index = TT_Char_Index(handle->char_map, c); } else { index = (c < ' ' - 1) ? 0 : (c - (' ' - 1)); if (index >= handle->properties.num_Glyphs) index = 0; } *out++ = index != 0; ++count; } return count; } /* =item i_tt_destroy(handle) Clears the data taken by a font including all cached data such as pixmaps and glyphs handle - pointer to font handle =cut */ void i_tt_destroy( TT_Fonthandle *handle) { TT_Close_Face( handle->face ); myfree( handle ); /* FIXME: Should these be freed automatically by the library? TT_Done_Instance( instance ); void i_tt_done_glyphs( void ) { int i; if ( !glyphs ) return; for ( i = 0; i < 256; ++i ) TT_Done_Glyph( glyphs[i] ); free( glyphs ); glyphs = NULL; } */ } /* * FreeType Rendering functions */ /* =item i_tt_render_glyph(handle, gmetrics, bit, smallbit, x_off, y_off, smooth) Renders a single glyph into the bit rastermap (internal) handle - pointer to font handle gmetrics - the metrics for the glyph to be rendered bit - large bitmap that is the destination for the text smallbit - small bitmap that is used only if smooth is true x_off - x offset of glyph y_off - y offset of glyph smooth - boolean (True: antialias on, False: antialias is off) =cut */ static void i_tt_render_glyph( TT_Glyph glyph, TT_Glyph_Metrics* gmetrics, TT_Raster_Map *bit, TT_Raster_Map *small_bit, i_img_dim x_off, i_img_dim y_off, int smooth ) { mm_log((1,"i_tt_render_glyph(glyph %p, gmetrics %p, bit %p, small_bit %p, x_off %" i_DF ", y_off %" i_DF ", smooth %d)\n", USTRCT(glyph), gmetrics, bit, small_bit, i_DFc(x_off), i_DFc(y_off), smooth)); if ( !smooth ) TT_Get_Glyph_Bitmap( glyph, bit, x_off * 64, y_off * 64); else { TT_F26Dot6 xmin, ymin; xmin = gmetrics->bbox.xMin & -64; ymin = gmetrics->bbox.yMin & -64; i_tt_clear_raster_map( small_bit ); TT_Get_Glyph_Pixmap( glyph, small_bit, -xmin, -ymin ); i_tt_blit_or( bit, small_bit, xmin/64 + x_off, -ymin/64 - y_off ); } } /* =item i_tt_render_all_glyphs(handle, inst, bit, small_bit, cords, txt, len, smooth) calls i_tt_render_glyph to render each glyph into the bit rastermap (internal) handle - pointer to font handle inst - font instance bit - large bitmap that is the destination for the text smallbit - small bitmap that is used only if smooth is true txt - string to render len - length of the string to render smooth - boolean (True: antialias on, False: antialias is off) =cut */ static int i_tt_render_all_glyphs( TT_Fonthandle *handle, int inst, TT_Raster_Map *bit, TT_Raster_Map *small_bit, i_img_dim cords[6], char const* txt, size_t len, int smooth, int utf8 ) { unsigned long j; TT_F26Dot6 x,y; mm_log((1,"i_tt_render_all_glyphs( handle %p, inst %d, bit %p, small_bit %p, txt '%.*s', len %ld, smooth %d, utf8 %d)\n", handle, inst, bit, small_bit, (int)len, txt, (long)len, smooth, utf8)); /* y=-( handle->properties.horizontal->Descender * handle->instanceh[inst].imetrics.y_ppem )/(handle->properties.header->Units_Per_EM); */ x=-cords[0]; /* FIXME: If you font is antialiased this should be expanded by one to allow for aa expansion and the allocation too - do before passing here */ y=-cords[4]; while (len) { if (utf8) { j = i_utf8_advance(&txt, &len); if (j == ~0UL) { i_push_error(0, "invalid UTF8 character"); return 0; } } else { j = (unsigned char)*txt++; --len; } if ( !i_tt_get_glyph(handle,inst,j) ) continue; i_tt_render_glyph( handle->instanceh[inst].glyphs[TT_HASH(j)].glyph, &handle->instanceh[inst].gmetrics[TT_HASH(j)], bit, small_bit, x, y, smooth ); x += handle->instanceh[inst].gmetrics[TT_HASH(j)].advance / 64; } return 1; } /* * Functions to render rasters (single channel images) onto images */ /* =item i_tt_dump_raster_map2(im, bit, xb, yb, cl, smooth) Function to dump a raster onto an image in color used by i_tt_text() (internal). im - image to dump raster on bit - bitmap that contains the text to be dumped to im xb, yb - coordinates, left edge and baseline cl - color to use for text smooth - boolean (True: antialias on, False: antialias is off) =cut */ static void i_tt_dump_raster_map2( i_img* im, TT_Raster_Map* bit, i_img_dim xb, i_img_dim yb, const i_color *cl, int smooth ) { unsigned char *bmap; i_img_dim x, y; mm_log((1,"i_tt_dump_raster_map2(im %p, bit %p, xb %" i_DF ", yb %" i_DF ", cl %p)\n", im, bit, i_DFc(xb), i_DFc(yb), cl)); bmap = bit->bitmap; if ( smooth ) { i_render r; i_render_init(&r, im, bit->cols); for(y=0;yrows;y++) { i_render_color(&r, xb, yb+y, bit->cols, bmap + y*bit->cols, cl); } i_render_done(&r); } else { unsigned char *bmp = mymalloc(bit->width); i_render r; i_render_init(&r, im, bit->width); for(y=0;yrows;y++) { unsigned mask = 0x80; unsigned char *p = bmap + y * bit->cols; unsigned char *pout = bmp; for(x = 0; x < bit->width; x++) { *pout++ = (*p & mask) ? 0xFF : 0; mask >>= 1; if (!mask) { mask = 0x80; ++p; } } i_render_color(&r, xb, yb+y, bit->width, bmp, cl); } i_render_done(&r); myfree(bmp); } } /* =item i_tt_dump_raster_map_channel(im, bit, xb, yb, channel, smooth) Function to dump a raster onto a single channel image in color (internal) im - image to dump raster on bit - bitmap that contains the text to be dumped to im xb, yb - coordinates, left edge and baseline channel - channel to copy to smooth - boolean (True: antialias on, False: antialias is off) =cut */ static void i_tt_dump_raster_map_channel( i_img* im, TT_Raster_Map* bit, i_img_dim xb, i_img_dim yb, int channel, int smooth ) { unsigned char *bmap; i_color val; int c; i_img_dim x,y; int old_mask = im->ch_mask; im->ch_mask = 1 << channel; mm_log((1,"i_tt_dump_raster_channel(im %p, bit %p, xb %" i_DF ", yb %" i_DF ", channel %d)\n", im, bit, i_DFc(xb), i_DFc(yb), channel)); bmap = bit->bitmap; if ( smooth ) { for(y=0;yrows;y++) for(x=0;xwidth;x++) { c = bmap[y*(bit->cols)+x]; val.channel[channel] = c; i_ppix(im,x+xb,y+yb,&val); } } else { for(y=0;yrows;y++) { unsigned mask = 0x80; unsigned char *p = bmap + y * bit->cols; for(x=0;xwidth;x++) { val.channel[channel] = (*p & mask) ? 255 : 0; i_ppix(im,x+xb,y+yb,&val); mask >>= 1; if (!mask) { ++p; mask = 0x80; } } } } im->ch_mask = old_mask; } /* =item i_tt_rasterize(handle, bit, cords, points, txt, len, smooth) interface for generating single channel raster of text (internal) handle - pointer to font handle bit - the bitmap that is allocated, rendered into and NOT freed cords - the bounding box (modified in place) points - font size to use txt - string to render len - length of the string to render smooth - boolean (True: antialias on, False: antialias is off) =cut */ static int i_tt_rasterize( TT_Fonthandle *handle, TT_Raster_Map *bit, i_img_dim *cords, double points, char const* txt, size_t len, int smooth, int utf8 ) { int inst; i_img_dim width, height; TT_Raster_Map small_bit; /* find or install an instance */ if ( (inst=i_tt_get_instance(handle,points,smooth)) < 0) { mm_log((1,"i_tt_rasterize: get instance failed\n")); return 0; } /* calculate bounding box */ if (!i_tt_bbox_inst( handle, inst, txt, len, cords, utf8 )) return 0; width = cords[2]-cords[0]; height = cords[5]-cords[4]; mm_log((1,"i_tt_rasterize: width=%" i_DF ", height=%" i_DF "\n", i_DFc(width), i_DFc(height) )); i_tt_init_raster_map ( bit, width, height, smooth ); i_tt_clear_raster_map( bit ); if ( smooth ) i_tt_init_raster_map( &small_bit, handle->instanceh[inst].imetrics.x_ppem + 32, height, smooth ); if (!i_tt_render_all_glyphs( handle, inst, bit, &small_bit, cords, txt, len, smooth, utf8 )) { if ( smooth ) i_tt_done_raster_map( &small_bit ); return 0; } if ( smooth ) i_tt_done_raster_map( &small_bit ); return 1; } /* * Exported text rendering interfaces */ /* =item i_tt_cp(handle, im, xb, yb, channel, points, txt, len, smooth, utf8) Interface to text rendering into a single channel in an image handle - pointer to font handle im - image to render text on to xb, yb - coordinates, left edge and baseline channel - channel to render into points - font size to use txt - string to render len - length of the string to render smooth - boolean (True: antialias on, False: antialias is off) =cut */ undef_int i_tt_cp( TT_Fonthandle *handle, i_img *im, i_img_dim xb, i_img_dim yb, int channel, double points, char const* txt, size_t len, int smooth, int utf8, int align ) { i_img_dim cords[BOUNDING_BOX_COUNT]; i_img_dim ascent, st_offset, y; TT_Raster_Map bit; i_clear_error(); if (! i_tt_rasterize( handle, &bit, cords, points, txt, len, smooth, utf8 ) ) return 0; ascent=cords[BBOX_ASCENT]; st_offset=cords[BBOX_NEG_WIDTH]; y = align ? yb-ascent : yb; i_tt_dump_raster_map_channel( im, &bit, xb-st_offset , y, channel, smooth ); i_tt_done_raster_map( &bit ); return 1; } /* =item i_tt_text(handle, im, xb, yb, cl, points, txt, len, smooth, utf8) Interface to text rendering in a single color onto an image handle - pointer to font handle im - image to render text on to xb, yb - coordinates, left edge and baseline cl - color to use for text points - font size to use txt - string to render len - length of the string to render smooth - boolean (True: antialias on, False: antialias is off) =cut */ undef_int i_tt_text( TT_Fonthandle *handle, i_img *im, i_img_dim xb, i_img_dim yb, const i_color *cl, double points, char const* txt, size_t len, int smooth, int utf8, int align) { i_img_dim cords[BOUNDING_BOX_COUNT]; i_img_dim ascent, st_offset, y; TT_Raster_Map bit; i_clear_error(); if (! i_tt_rasterize( handle, &bit, cords, points, txt, len, smooth, utf8 ) ) return 0; ascent=cords[BBOX_ASCENT]; st_offset=cords[BBOX_NEG_WIDTH]; y = align ? yb-ascent : yb; i_tt_dump_raster_map2( im, &bit, xb+st_offset, y, cl, smooth ); i_tt_done_raster_map( &bit ); return 1; } /* =item i_tt_bbox_inst(handle, inst, txt, len, cords, utf8) Function to get texts bounding boxes given the instance of the font (internal) handle - pointer to font handle inst - font instance txt - string to measure len - length of the string to render cords - the bounding box (modified in place) =cut */ static undef_int i_tt_bbox_inst( TT_Fonthandle *handle, int inst ,const char *txt, size_t len, i_img_dim *cords, int utf8 ) { int upm, casc, cdesc, first; int start = 0; i_img_dim width = 0; int gdescent = 0; int gascent = 0; int descent = 0; int ascent = 0; int rightb = 0; unsigned long j; mm_log((1,"i_tt_box_inst(handle %p,inst %d,txt '%.*s', len %ld, utf8 %d)\n", handle, inst, (int)len, txt, (long)len, utf8)); upm = handle->properties.header->Units_Per_EM; gascent = ( handle->properties.horizontal->Ascender * handle->instanceh[inst].imetrics.y_ppem + upm - 1) / upm; gdescent = ( handle->properties.horizontal->Descender * handle->instanceh[inst].imetrics.y_ppem - upm + 1) / upm; width = 0; start = 0; mm_log((1, "i_tt_box_inst: gascent=%d gdescent=%d\n", gascent, gdescent)); first=1; while (len) { if (utf8) { j = i_utf8_advance(&txt, &len); if (j == ~0UL) { i_push_error(0, "invalid UTF8 character"); return 0; } } else { j = (unsigned char)*txt++; --len; } if ( i_tt_get_glyph(handle,inst,j) ) { TT_Glyph_Metrics *gm = handle->instanceh[inst].gmetrics + TT_HASH(j); width += gm->advance / 64; casc = (gm->bbox.yMax+63) / 64; cdesc = (gm->bbox.yMin-63) / 64; mm_log((1, "i_tt_box_inst: glyph='%c' casc=%d cdesc=%d\n", (int)((j >= ' ' && j <= '~') ? j : '.'), casc, cdesc)); if (first) { start = gm->bbox.xMin / 64; ascent = (gm->bbox.yMax+63) / 64; descent = (gm->bbox.yMin-63) / 64; first = 0; } if (!len) { /* if at end of string */ /* the right-side bearing - in case the right-side of a character goes past the right of the advance width, as is common for italic fonts */ rightb = gm->advance - gm->bearingX - (gm->bbox.xMax - gm->bbox.xMin); /* fprintf(stderr, "font info last: %d %d %d %d\n", gm->bbox.xMax, gm->bbox.xMin, gm->advance, rightb); */ } ascent = (ascent > casc ? ascent : casc ); descent = (descent < cdesc ? descent : cdesc); } } cords[BBOX_NEG_WIDTH]=start; cords[BBOX_GLOBAL_DESCENT]=gdescent; cords[BBOX_POS_WIDTH]=width; if (rightb < 0) cords[BBOX_POS_WIDTH] -= rightb / 64; cords[BBOX_GLOBAL_ASCENT]=gascent; cords[BBOX_DESCENT]=descent; cords[BBOX_ASCENT]=ascent; cords[BBOX_ADVANCE_WIDTH] = width; cords[BBOX_RIGHT_BEARING] = rightb / 64; return BBOX_RIGHT_BEARING + 1; } /* =item i_tt_bbox(handle, points, txt, len, cords, utf8) Interface to get a strings bounding box handle - pointer to font handle points - font size to use txt - string to render len - length of the string to render cords - the bounding box (modified in place) =cut */ undef_int i_tt_bbox( TT_Fonthandle *handle, double points,const char *txt,size_t len,i_img_dim *cords, int utf8) { int inst; i_clear_error(); mm_log((1,"i_tt_box(handle %p,points %f,txt '%.*s', len %ld, utf8 %d)\n", handle, points, (int)len, txt, (long)len, utf8)); if ( (inst=i_tt_get_instance(handle,points,-1)) < 0) { i_push_errorf(0, "i_tt_get_instance(%g)", points); mm_log((1,"i_tt_text: get instance failed\n")); return 0; } return i_tt_bbox_inst(handle, inst, txt, len, cords, utf8); } /* =item i_tt_face_name(handle, name_buf, name_buf_size) Retrieve's the font's postscript name. This is complicated by the need to handle encodings and so on. =cut */ size_t i_tt_face_name(TT_Fonthandle *handle, char *name_buf, size_t name_buf_size) { TT_Face_Properties props; int name_count; int i; TT_UShort platform_id, encoding_id, lang_id, name_id; TT_UShort name_len; TT_String *name; int want_index = -1; /* an acceptable but not perfect name */ int score = 0; i_clear_error(); TT_Get_Face_Properties(handle->face, &props); name_count = props.num_Names; for (i = 0; i < name_count; ++i) { TT_Get_Name_ID(handle->face, i, &platform_id, &encoding_id, &lang_id, &name_id); TT_Get_Name_String(handle->face, i, &name, &name_len); if (platform_id != TT_PLATFORM_APPLE_UNICODE && name_len && name_id == TT_NAME_ID_PS_NAME) { int might_want_index = -1; int might_score = 0; if ((platform_id == TT_PLATFORM_MACINTOSH && encoding_id == TT_MAC_ID_ROMAN) || (platform_id == TT_PLATFORM_MICROSOFT && encoding_id == TT_MS_LANGID_ENGLISH_UNITED_STATES)) { /* exactly what we want */ want_index = i; break; } if (platform_id == TT_PLATFORM_MICROSOFT && (encoding_id & 0xFF) == TT_MS_LANGID_ENGLISH_GENERAL) { /* any english is good */ might_want_index = i; might_score = 9; } /* there might be something in between */ else { /* anything non-unicode is better than nothing */ might_want_index = i; might_score = 1; } if (might_score > score) { score = might_score; want_index = might_want_index; } } } if (want_index != -1) { TT_Get_Name_String(handle->face, want_index, &name, &name_len); strncpy(name_buf, name, name_buf_size); name_buf[name_buf_size-1] = '\0'; return strlen(name) + 1; } else { i_push_error(0, "no face name present"); return 0; } } void i_tt_dump_names(TT_Fonthandle *handle) { TT_Face_Properties props; int name_count; int i; TT_UShort platform_id, encoding_id, lang_id, name_id; TT_UShort name_len; TT_String *name; TT_Get_Face_Properties(handle->face, &props); name_count = props.num_Names; for (i = 0; i < name_count; ++i) { TT_Get_Name_ID(handle->face, i, &platform_id, &encoding_id, &lang_id, &name_id); TT_Get_Name_String(handle->face, i, &name, &name_len); printf("# %d: plat %d enc %d lang %d name %d value ", i, platform_id, encoding_id, lang_id, name_id); if (platform_id == TT_PLATFORM_APPLE_UNICODE) { printf("(unicode)\n"); } else { printf("'%s'\n", name); } } fflush(stdout); } size_t i_tt_glyph_name(TT_Fonthandle *handle, unsigned long ch, char *name_buf, size_t name_buf_size) { #ifdef FTXPOST TT_Error rc; TT_String *psname; TT_UShort index; i_clear_error(); if (!handle->loaded_names) { TT_Post post; mm_log((1, "Loading PS Names")); handle->load_cond = TT_Load_PS_Names(handle->face, &post); ++handle->loaded_names; } if (handle->load_cond) { i_push_errorf(handle->load_cond, "error loading names (%#x)", (unsigned)handle->load_cond); return 0; } index = TT_Char_Index(handle->char_map, ch); if (!index) { i_push_error(0, "no such character"); return 0; } rc = TT_Get_PS_Name(handle->face, index, &psname); if (rc) { i_push_error(rc, "error getting name"); return 0; } strncpy(name_buf, psname, name_buf_size); name_buf[name_buf_size-1] = '\0'; return strlen(psname) + 1; #else mm_log((1, "FTXPOST extension not enabled\n")); i_clear_error(); i_push_error(0, "Use of FTXPOST extension disabled"); return 0; #endif } /* =item i_tt_push_error(code) Push an error message and code onto the Imager error stack. =cut */ static void i_tt_push_error(TT_Error rc) { #ifdef FTXERR18 TT_String const *msg = TT_ErrToString18(rc); i_push_error(rc, msg); #else i_push_errorf(rc, "Error code 0x%04x", (unsigned)rc); #endif } /* =back =head1 AUTHOR Arnar M. Hrafnkelsson =head1 SEE ALSO Imager(3) =cut */