/* Copyright (C) 2003 Aladdin Enterprises. All rights reserved. This software is provided AS-IS with no warranty, either express or implied. This software is distributed under license and may not be copied, modified or distributed except as expressly authorized under the terms of the license contained in the file LICENSE in this distribution. For more information about licensing, please refer to http://www.ghostscript.com/licensing/. For information on commercial licensing, go to http://www.artifex.com/licensing/ or contact Artifex Software, Inc., 101 Lucas Valley Road #110, San Rafael, CA 94903, U.S.A., +1(415)492-9861. */ /* $Id: tttype.h,v 1.3 2005/05/31 13:05:20 igor Exp $ */ /* Changes after FreeType: cut out the TrueType instruction interpreter. */ /******************************************************************* * * tttype.h * * High-level interface specification. * * Copyright 1996-1998 by * David Turner, Robert Wilhelm, and Werner Lemberg. * * This file is part of the FreeType project and may only be used, * modified, and distributed under the terms of the FreeType project * license, LICENSE.TXT. By continuing to use, modify, or distribute * this file you indicate that you have read the license and * understand and accept it fully. * * Notes: * * This is the only file that should be included by client * application sources for the final release. All other types * and functions defined in the "tt*.h" files are library * internals, and should not be included (except of course * during development, as now). * * FreeType is still in beta! * ******************************************************************/ #ifndef FREETYPE_H #define FREETYPE_H #ifdef __cplusplus extern "C" { #endif /*******************************************************************/ /* */ /* FreeType types definitions. */ /* */ /* All these begin with a 'TT_' prefix. */ /* */ /*******************************************************************/ #if ARCH_LOG2_SIZEOF_LONG == 2 typedef signed long TT_Fixed; /* Signed Fixed 16.16 Float */ #elif ARCH_LOG2_SIZEOF_INT == 2 typedef signed int TT_Fixed; /* Signed Fixed 16.16 Float */ #else #error "No appropriate type for Fixed 16.16 Floats" #endif typedef signed short TT_FWord; /* Distance in FUnits */ typedef unsigned short TT_UFWord; /* Unsigned distance */ typedef signed short TT_Short; typedef unsigned short TT_UShort; typedef signed long TT_Long; typedef unsigned long TT_ULong; typedef signed short TT_F2Dot14; /* Signed fixed float 2.14 used for */ /* unary vectors, with layout: */ /* */ /* s : 1 -- sign bit */ /* m : 1 -- mantissa bit */ /* f : 14 -- unsigned fractional */ /* */ /* 's:m' is the 2-bit signed int */ /* value to which the positive */ /* fractional part should be */ /* added. */ /* */ #if ARCH_LOG2_SIZEOF_LONG == 2 typedef signed long TT_F26Dot6; /* 26.6 fixed float, used for */ #elif ARCH_LOG2_SIZEOF_INT == 2 typedef signed int TT_F26Dot6; /* 26.6 fixed float, used for */ /* glyph points pixel coordinates. */ #else #error "No appropriate type for Fixed 26.6 Floats" #endif #if ARCH_LOG2_SIZEOF_LONG == 2 typedef signed long TT_Pos; /* point position, expressed either */ #elif ARCH_LOG2_SIZEOF_INT == 2 typedef signed int TT_Pos; /* point position, expressed either */ /* in fractional pixels or notional */ /* units, depending on context. For */ /* example, glyph coordinates */ /* returned by TT_Load_Glyph are */ /* expressed in font units when */ /* scaling wasn't requested, and */ /* in 26.6 fractional pixels if it */ /* was */ /* */ #else #error "No appropriate type for point position" #endif struct _TT_UnitVector /* guess what... */ { TT_F2Dot14 x; TT_F2Dot14 y; }; typedef struct _TT_UnitVector TT_UnitVector; struct _TT_Vector /* Simple vector type */ { TT_F26Dot6 x; TT_F26Dot6 y; }; typedef struct _TT_Vector TT_Vector; /* A simple 2x2 matrix used for transformations. */ /* You should use 16.16 fixed floats */ /* */ /* x' = xx*x + xy*y */ /* y' = yx*x + yy*y */ /* */ struct _TT_Matrix { TT_Fixed xx, xy; TT_Fixed yx, yy; }; typedef struct _TT_Matrix TT_Matrix; /* A structure used to describe the source glyph to the renderer. */ struct _TT_Outline { unsigned int contours; /* number of contours in glyph */ unsigned int points; /* number of points in the glyph */ unsigned short* conEnds; /* points to an array of each contour's */ /* start point index */ TT_Pos* xCoord; /* table of x coordinates */ TT_Pos* yCoord; /* table of y coordinates */ unsigned char* flag; /* table of flags */ /* the following flag indicates that the outline owns the arrays it */ /* refers to. Typically, this is true of outlines created from the */ /* "TT_New_Outline" API, while it isn't for those returned by */ /* "TT_Get_Glyph_Outline" */ int owner; /* the outline owns the coordinates, */ /* flags and contours array it uses */ /* the following flags are set automatically by TT_Get_Glyph_Outline */ /* their meaning is the following : */ /* */ /* high_precision when true, the scan-line converter will use */ /* a higher precision to render bitmaps (i.e. a */ /* 1/1024 pixel precision). This is important for */ /* small ppem sizes. */ /* */ /* second_pass when true, the scan-line converter performs */ /* a second sweep phase dedicated to find */ /* vertical drop-outs. If false, only horizontal */ /* drop-outs will be checked during the first */ /* vertical sweep (yes, this is a bit confusing */ /* but it's really the way it should work). */ /* This is important for small ppems too. */ /* */ /* dropout_mode specifies the TrueType drop-out mode to */ /* use for continuity checking. valid values */ /* are 0 (no check), 1, 2, 4 and 5 */ /* */ /* Most of the engine's users will safely ignore these fields.. */ /* */ int high_precision; /* high precision rendering */ int second_pass; /* two sweeps rendering */ char dropout_mode; /* dropout mode */ }; typedef struct _TT_Outline TT_Outline; /* A structure used to describe a simple bounding box */ struct _TT_BBox { TT_Pos xMin; TT_Pos yMin; TT_Pos xMax; TT_Pos yMax; }; typedef struct _TT_BBox TT_BBox; /* A structure used to return glyph metrics. */ /* The "bearingX" isn't called "left-side bearing" anymore because */ /* it has different meanings depending on the glyph's orientation */ /* */ /* The same goes true for "bearingY", which is the top-side bearing */ /* defined by the TT_Spec, i.e. the distance from the baseline to the */ /* top of the glyph's bbox. According to our current convention, this */ /* is always the same as "bbox.yMax" but we make it appear for */ /* consistency in its proper field. */ /* */ /* the "advance" width is the advance width for horizontal layout, */ /* and advance height for vertical layouts. */ /* */ /* Finally, the library (1.0) doesn't support vertical text yet */ /* but these changes were introduced to accomodate it, as it will */ /* most certainly be introduced in later releases. */ /* */ struct _TT_Glyph_Metrics { TT_BBox bbox; /* glyph bounding box */ TT_Pos bearingX; /* left-side bearing */ TT_Pos bearingY; /* top-side bearing, per se the TT spec */ TT_Pos advance; /* advance width (or height) */ }; /* A structure used to return horizontal _and_ vertical glyph metrics */ /* */ /* A same glyph can be used either in a horizontal or vertical layout */ /* Its glyph metrics vary with orientation. The Big_Glyph_Metrics */ /* is used to return _all_ metrics in one call. */ /* */ /* This structure is currently unused.. */ /* */ struct _TT_Big_Glyph_Metrics { TT_BBox bbox; /* glyph bounding box */ TT_Pos horiBearingX; /* left side bearing in horizontal layouts */ TT_Pos horiBearingY; /* top side bearing in horizontal layouts */ TT_Pos vertBearingX; /* left side bearing in vertical layouts */ TT_Pos vertBearingY; /* top side bearing in vertical layouts */ TT_Pos horiAdvance; /* advance width for horizontal layout */ TT_Pos vertAdvance; /* advance height for vertical layout */ }; typedef struct _TT_Glyph_Metrics TT_Glyph_Metrics; typedef struct _TT_Big_Glyph_Metrics TT_Big_Glyph_Metrics; /* A structure used to return instance metrics. */ struct _TT_Instance_Metrics { int pointSize; /* char. size in points (1pt = 1/72 inch) */ int x_ppem; /* horizontal pixels per EM square */ int y_ppem; /* vertical pixels per EM square */ TT_Fixed x_scale; /* 16.16 to convert from EM units to 26.6 pix */ TT_Fixed y_scale; /* 16.16 to convert from EM units to 26.6 pix */ int x_resolution; /* device horizontal resolution in dpi */ int y_resolution; /* device vertical resolution in dpi */ }; typedef struct _TT_Instance_Metrics TT_Instance_Metrics; /* Flow constants: */ /* */ /* The flow of a bitmap refers to the way lines are oriented */ /* within the bitmap data, i.e., the orientation of the Y */ /* coordinate axis. */ /* for example, if the first bytes of the bitmap pertain to */ /* its top-most line, then the flow is 'down'. If these bytes */ /* pertain to its lowest line, the the flow is 'up'. */ #define TT_Flow_Down -1 /* bitmap is oriented from top to bottom */ #define TT_Flow_Up 1 /* bitmap is oriented from bottom to top */ #define TT_Flow_Error 0 /* an error occurred during rendering */ /* A structure used to describe the target bitmap or pixmap to the */ /* renderer. Note that there is nothing in this structure that */ /* gives the nature of the buffer. */ /* IMPORTANT NOTE: */ /* */ /* A pixmap's width _must_ be a multiple of 4. Clipping */ /* problems will arise otherwise, if not page faults! */ /* */ /* The typical settings are: */ /* */ /* - for an WxH bitmap: */ /* */ /* rows = H */ /* cols = (W+7)/8 */ /* width = W */ /* flow = your_choice */ /* */ /* - for an WxH pixmap: */ /* */ /* rows = H */ /* cols = (W+3) & ~3 */ /* width = cols */ /* flow = your_choice */ struct _TT_Raster_Map { int rows; /* number of rows */ int cols; /* number of columns (bytes) per row */ int width; /* number of pixels per line */ int flow; /* bitmap orientation */ void* bitmap; /* bit/pixmap buffer */ long size; /* bit/pixmap size in bytes */ }; typedef struct _TT_Raster_Map TT_Raster_Map; /* ------- The font header TrueType table structure ----- */ struct _TT_Header { TT_Fixed Table_Version; TT_Fixed Font_Revision; TT_Long CheckSum_Adjust; TT_Long Magic_Number; TT_UShort Flags; TT_UShort Units_Per_EM; TT_Long Created [2]; TT_Long Modified[2]; TT_FWord xMin; TT_FWord yMin; TT_FWord xMax; TT_FWord yMax; TT_UShort Mac_Style; TT_UShort Lowest_Rec_PPEM; TT_Short Font_Direction; TT_Short Index_To_Loc_Format; TT_Short Glyph_Data_Format; }; typedef struct _TT_Header TT_Header; /* ------- The horizontal header TrueType table structure ----- */ struct _TT_Horizontal_Header { TT_Fixed Version; TT_FWord Ascender; TT_FWord Descender; TT_FWord Line_Gap; TT_UFWord advance_Width_Max; TT_FWord min_Left_Side_Bearing; TT_FWord min_Right_Side_Bearing; TT_FWord xMax_Extent; TT_FWord caret_Slope_Rise; TT_FWord caret_Slope_Run; TT_Short Reserved[5]; TT_Short metric_Data_Format; TT_UShort number_Of_HMetrics; }; typedef struct _TT_Horizontal_Header TT_Horizontal_Header; /* ----------- OS/2 Table ----------------------------- */ struct _TT_OS2 { TT_UShort version; /* 0x0001 */ TT_FWord xAvgCharWidth; TT_UShort usWeightClass; TT_UShort usWidthClass; TT_Short fsType; TT_FWord ySubscriptXSize; TT_FWord ySubscriptYSize; TT_FWord ySubscriptXOffset; TT_FWord ySubscriptYOffset; TT_FWord ySuperscriptXSize; TT_FWord ySuperscriptYSize; TT_FWord ySuperscriptXOffset; TT_FWord ySuperscriptYOffset; TT_FWord yStrikeoutSize; TT_FWord yStrikeoutPosition; TT_Short sFamilyClass; char panose[10]; TT_ULong ulUnicodeRange1; /* Bits 0-31 */ TT_ULong ulUnicodeRange2; /* Bits 32-63 */ TT_ULong ulUnicodeRange3; /* Bits 64-95 */ TT_ULong ulUnicodeRange4; /* Bits 96-127 */ char achVendID[4]; TT_UShort fsSelection; TT_UShort usFirstCharIndex; TT_UShort usLastCharIndex; TT_UShort sTypoAscender; TT_UShort sTypoDescender; TT_UShort sTypoLineGap; TT_UShort usWinAscent; TT_UShort usWinDescent; /* only version 1 tables: */ TT_ULong ulCodePageRange1; /* Bits 0-31 */ TT_ULong ulCodePageRange2; /* Bits 32-63 */ }; typedef struct _TT_OS2 TT_OS2; /* ----------- Postscript table ------------------------ */ struct _TT_Postscript { TT_Fixed FormatType; TT_Fixed italicAngle; TT_FWord underlinePosition; TT_FWord underlineThickness; TT_ULong isFixedPitch; TT_ULong minMemType42; TT_ULong maxMemType42; TT_ULong minMemType1; TT_ULong maxMemType1; /* glyph names follow in the file, but we don't */ /* load them by default. */ }; typedef struct _TT_Postscript TT_Postscript; /* ------------ horizontal device metrics "hdmx" ---------- */ struct _TT_Hdmx_Record { unsigned char ppem; unsigned char max_width; unsigned char* widths; }; typedef struct _TT_Hdmx_Record TT_Hdmx_Record; struct _TT_Hdmx { TT_UShort version; TT_Short num_records; TT_Hdmx_Record* records; }; typedef struct _TT_Hdmx TT_Hdmx; /* A structure used to describe face properties. */ struct _TT_Face_Properties { int num_Glyphs; /* number of glyphs in face */ int max_Points; /* maximum number of points in a glyph */ int max_Contours; /* maximum number of contours in a glyph */ int num_Faces; /* 0 for normal TrueType files, and the */ /* number of embedded faces minus 1 for */ /* TrueType collections */ TT_Header* header; /* TrueType header table */ TT_Horizontal_Header* horizontal; /* TrueType horizontal header */ TT_OS2* os2; /* TrueType OS/2 table */ TT_Postscript* postscript; /* TrueType Postscript table */ TT_Hdmx* hdmx; }; typedef struct _TT_Face_Properties TT_Face_Properties; /* Here are the definitions of the handle types used for FreeType's */ /* most common objects accessed by the client application. We use */ /* a simple trick there: */ /* */ /* Each handle type is a structure that only contains one */ /* pointer. The advantage of structures is that there are */ /* mutually exclusive types. We could have defined the */ /* following types: */ /* */ /* typedef void* TT_Stream; */ /* typedef void* TT_Face; */ /* typedef void* TT_Instance; */ /* typedef void* TT_Glyph; */ /* typedef void* TT_CharMap; */ /* */ /* but these would have allowed lines like: */ /* */ /* stream = instance; */ /* */ /* in the client code this would be a severe bug, unnoticed */ /* by the compiler! */ /* */ /* Thus, we enforce type checking with a simple language */ /* trick... */ /* */ /* NOTE: Some macros are defined in tttypes.h to perform */ /* automatic type conversions for library hackers... */ /* */ struct _TT_Engine { void* z; }; struct _TT_Stream { void* z; }; struct _TT_Face { void* z; }; struct _TT_Instance { void* z; }; struct _TT_Glyph { void* z; }; struct _TT_CharMap { void* z; }; typedef struct _TT_Engine TT_Engine; /* engine instance */ typedef struct _TT_Stream TT_Stream; /* stream handle type */ typedef struct _TT_Face TT_Face; /* face handle type */ typedef struct _TT_Instance TT_Instance; /* instance handle type */ typedef struct _TT_Glyph TT_Glyph; /* glyph handle type */ typedef struct _TT_CharMap TT_CharMap; /* character map handle type */ typedef int TT_Error; extern const TT_Instance TT_Null_Instance; /*******************************************************************/ /* */ /* FreeType API */ /* */ /* All these begin with a 'TT_' prefix. */ /* */ /* Most of them are implemented in the 'ttapi.c' source file. */ /* */ /*******************************************************************/ /* Initialize the engine. */ TT_Error TT_Init_FreeType( TT_Engine* engine ); /* Finalize the engine, and release all allocated objects. */ TT_Error TT_Done_FreeType( TT_Engine engine ); /* Set the gray level palette. This is an array of 5 bytes used */ /* to produce the font smoothed pixmaps. By convention: */ /* */ /* palette[0] = background (white) */ /* palette[1] = light */ /* palette[2] = medium */ /* palette[3] = dark */ /* palette[4] = foreground (black) */ /* */ TT_Error TT_Set_Raster_Gray_Palette( TT_Engine engine, char* palette ); /* ----------------------- face management ----------------------- */ /* Open a new TrueType font file, and returns a handle for */ /* it in variable '*face'. */ /* Note: the file can be either a TrueType file (*.ttf) or */ /* a TrueType collection (*.ttc), in this case, only */ /* the first face is opened. The number of faces in */ /* the same collection can be obtained in the face's */ /* properties, through TT_Get_Face_Properties and the */ /* 'max_Faces' field. */ TT_Error TT_Open_Face( TT_Engine engine, const char* fontpathname, TT_Face* face ); /* Open a TrueType font file located inside a collection. */ /* The font is designed by its index in 'fontIndex'. */ TT_Error TT_Open_Collection( TT_Engine engine, const char* collectionpathname, int fontIndex, TT_Face* face ); /* Return face properties in the 'properties' structure. */ TT_Error TT_Get_Face_Properties( TT_Face face, TT_Face_Properties* properties ); /* Set a face object's generic pointer */ TT_Error TT_Set_Face_Pointer( TT_Face face, void* data ); /* Get a face object's geneeric pointer */ void* TT_Get_Face_Pointer( TT_Face face ); /* Close a face's file handle to save system resources. The file */ /* will be re-opened automatically on the next disk access */ TT_Error TT_Flush_Face( TT_Face face ); /* Close a given font object, destroying all associated */ /* instances. */ TT_Error TT_Close_Face( TT_Face face ); /* Get Font or Table Data */ TT_Error TT_Get_Font_Data( TT_Face face, long tag, long offset, void* buffer, long* length ); /* A simply macro to build table tags from ascii chars */ # define MAKE_TT_TAG( _x1, _x2, _x3, _x4 ) \ (_x1 << 24 | _x2 << 16 | _x3 << 8 | _x4) /* ----------------------- instance management -------------------- */ /* Open a new font instance and returns an instance handle */ /* for it in '*instance'. */ TT_Error TT_New_Instance( TT_Face face, TT_Instance* instance ); /* Set device resolution for a given instance. The values are */ /* given in dpi (Dots Per Inch). Default is 96 in both directions. */ /* NOTE: y_resolution is currently ignored, and the library */ /* assumes square pixels. */ TT_Error TT_Set_Instance_Resolutions( TT_Instance instance, int x_resolution, int y_resolution ); /* Set the pointsize for a given instance. Default is 10pt. */ TT_Error TT_Set_Instance_CharSize( TT_Instance instance, TT_F26Dot6 charSize ); TT_Error TT_Set_Instance_CharSizes( TT_Instance instance, TT_F26Dot6 charWidth, TT_F26Dot6 charHeight ); #define TT_Set_Instance_PointSize( ins, ptsize ) \ TT_Set_Instance_CharSize( ins, ptsize*64 ) TT_Error TT_Set_Instance_PixelSizes( TT_Instance instance, int pixelWidth, int pixelHeight, TT_F26Dot6 pointSize ); /* We do not provide direct support for rotation or stretching */ /* in the glyph loader. This means that you must perform these */ /* operations yourself through TT_Transform_Outline before */ /* calling TT_Get_Glyph_Bitmap. However, the loader needs to */ /* know what kind of text you're displaying. The following */ /* boolean flags inform the interpreter that: */ /* */ /* rotated : the glyphs will be rotated */ /* stretched: the glyphs will be stretched */ /* */ /* These setting only affect the hinting process! */ /* */ /* NOTE: 'stretched' means any transform that distorts the */ /* glyph (including skewing and 'linear stretching') */ /* */ TT_Error TT_Set_Instance_Transform_Flags( TT_Instance instance, int rotated, int stretched ); /* Return instance metrics in 'metrics'. */ TT_Error TT_Get_Instance_Metrics( TT_Instance instance, TT_Instance_Metrics* metrics ); /* Set an instance's generic pointer */ TT_Error TT_Set_Instance_Pointer( TT_Instance instance, void* data ); /* Get an instance's generic pointer */ void* TT_Get_Instance_Pointer( TT_Instance instance ); /* Close a given instance object, destroying all associated */ /* data. */ TT_Error TT_Done_Instance( TT_Instance instance ); /* ----------------------- glyph management ----------------------- */ /* Create a new glyph object related to the given 'face'. */ TT_Error TT_New_Glyph( TT_Face face, TT_Glyph* glyph ); /* Discard (and destroy) a given glyph object. */ TT_Error TT_Done_Glyph( TT_Glyph glyph ); #define TTLOAD_SCALE_GLYPH 1 #define TTLOAD_HINT_GLYPH 2 #define TTLOAD_DEFAULT (TTLOAD_SCALE_GLYPH | TTLOAD_HINT_GLYPH) /* load and process (scale/transform and hint) a glyph from the */ /* given 'instance'. The glyph and instance handles must be */ /* related to the same face object. The glyph index can be */ /* computed with a call to TT_Char_Index(). */ /* the 'load_flags' argument is a combination of the macros */ /* TTLOAD_SCALE_GLYPH and TTLOAD_HINT_GLYPH. Hinting will be */ /* applied only if the scaling is selected. */ /* When scaling is off (i.e. load_flags = 0), the returned */ /* outlines are in EM square coordinates (also called FUnits), */ /* extracted directly from the font with no hinting. */ /* Other glyph metrics are also in FUnits. */ /* When scaling is on, the returned outlines are in fractional */ /* pixel units (i.e. TT_F26Dot6 = 26.6 fixed floats). */ /* NOTE: the glyph index must be in the range 0..num_glyphs-1 */ /* where 'num_glyphs' is the total number of glyphs in */ /* the font file (given in the face properties). */ TT_Error TT_Load_Glyph( TT_Instance instance, TT_Glyph glyph, int glyph_index, int load_flags ); /* Return glyph outline pointers in 'outline'. Note that the returned */ /* pointers are owned by the glyph object, and will be destroyed with */ /* it. The client application should _not_ change the pointers. */ TT_Error TT_Get_Glyph_Outline( TT_Glyph glyph, TT_Outline* outline ); /* Copy the glyph metrics into 'metrics'. */ TT_Error TT_Get_Glyph_Metrics( TT_Glyph glyph, TT_Glyph_Metrics* metrics ); /* Render the glyph into a bitmap, with given position offsets. */ /* Note : Only use integer pixel offsets to preserve the fine */ /* hinting of the glyph and the 'correct' anti-aliasing */ /* (where vertical and horizontal stems aren't grayed). */ /* This means that x_offset and y_offset must be multiples */ /* of 64! */ /* */ TT_Error TT_Get_Glyph_Bitmap( TT_Glyph glyph, TT_Raster_Map* raster_map, TT_F26Dot6 x_offset, TT_F26Dot6 y_offset ); /* Render the glyph into a pixmap, with given position offsets. */ /* Note : Only use integer pixel offsets to preserve the fine */ /* hinting of the glyph and the 'correct' anti-aliasing */ /* (where vertical and horizontal stems aren't grayed). */ /* This means that x_offset and y_offset must be multiples */ /* of 64! */ /* */ TT_Error TT_Get_Glyph_Pixmap( TT_Glyph glyph, TT_Raster_Map* raster_map, TT_F26Dot6 x_offset, TT_F26Dot6 y_offset ); /* ----------------------- outline support ------------------------ */ /* Allocate a new outline. Reserve space for 'num_points' and */ /* 'num_contours' */ TT_Error TT_New_Outline( int num_points, int num_contours, TT_Outline* outline ); /* Release an outline */ TT_Error TT_Done_Outline( TT_Outline* outline ); /* Copy an outline into another one */ TT_Error TT_Copy_Outline( TT_Outline* source, TT_Outline* target ); /* Render an outline into a bitmap */ TT_Error TT_Get_Outline_Bitmap( TT_Engine engine, TT_Outline* outline, TT_Raster_Map* raster_map ); /* Render an outline into a pixmap - note that this function uses */ /* a different pixel scale, where 1.0 pixels = 128 XXXX */ TT_Error TT_Get_Outline_Pixmap( TT_Engine engine, TT_Outline* outline, TT_Raster_Map* raster_map ); /* return an outline's bounding box - this function is slow as it */ /* performs a complete scan-line process, without drawing, to get */ /* the most accurate values XXXX */ TT_Error TT_Get_Outline_BBox( TT_Outline* outline, TT_BBox* bbox ); /* Apply a transformation to a glyph outline */ void TT_Transform_Outline( TT_Outline* outline, TT_Matrix* matrix ); /* backwards compatibility macro */ # define TT_Appy_Outline_Matrix TT_Transform_Matrix; /* Apply a translation to a glyph outline */ void TT_Translate_Outline( TT_Outline* outline, TT_F26Dot6 x_offset, TT_F26Dot6 y_offset ); /* backwards compatibility */ # define TT_Apply_Outline_Translation TT_Translate_Outline /* Apply a transformation to a vector */ void TT_Transform_Vector( TT_F26Dot6* x, TT_F26Dot6* y, TT_Matrix* matrix ); /* backwards compatibility */ # define TT_Apply_Vector_Matrix( x, y, m ) \ TT_Transform_Vector( x, y, m ) /* Multiply a matrix with another - computes "b := a*b" */ void TT_Matrix_Multiply( TT_Matrix* a, TT_Matrix* b ); /* Invert a transformation matrix */ TT_Error TT_Matrix_Invert( TT_Matrix* matrix ); /* ----------------- character mappings support ------------- */ /* Return the number of character mappings found in this file. */ /* Returns -1 in case of failure (invalid face handle). */ int TT_Get_CharMap_Count( TT_Face face ); /* Return the ID of charmap number 'charmapIndex' of a given face */ /* used to enumerate the charmaps present in a TrueType file. */ TT_Error TT_Get_CharMap_ID( TT_Face face, int charmapIndex, short* platformID, short* encodingID ); /* Look up the character maps found in 'face' and return a handle */ /* for the one matching 'platformID' and 'platformEncodingID' */ /* (see the TrueType specs relating to the 'cmap' table for */ /* information on these ID numbers). Returns an error code. */ /* In case of failure, the handle is set to NULL and is invalid. */ TT_Error TT_Get_CharMap( TT_Face face, int charmapIndex, TT_CharMap* charMap ); /* Translate a character code through a given character map */ /* and return the corresponding glyph index to be used in */ /* a TT_Load_Glyph call. This function returns -1 in case of */ /* failure. */ int TT_Char_Index( TT_CharMap charMap, unsigned short charCode ); /* --------------------- names table support ------------------- */ /* Return the number of name strings found in the name table. */ /* Returns -1 in case of failure (invalid face handle). */ int TT_Get_Name_Count( TT_Face face ); /* Return the ID of the name number 'nameIndex' of a given face */ /* used to enumerate the charmaps present in a TrueType file. */ TT_Error TT_Get_Name_ID( TT_Face face, int nameIndex, short* platformID, short* encodingID, short* languageID, short* nameID ); /* Return the address and length of the name number 'nameIndex' */ /* of a given face. The string is part of the face object and */ /* shouldn't be written to or released. */ /* Note that if the string platformID is not in the range 0..3, */ /* a null pointer will be returned */ TT_Error TT_Get_Name_String( TT_Face face, int nameIndex, char** stringPtr, /* pointer address */ int* length ); /* str. length address */ /************************ callback definition ******************/ /* NOTE : Callbacks are still in beta stage, they'll be used to */ /* perform efficient glyph outline caching. */ /* There is currently only one callback defined */ #define TT_Callback_Glyph_Outline_Load 0 /* The glyph loader callback type defines a function that will */ /* be called by the TrueType glyph loader to query an already */ /* cached glyph outline from higher-level libraries. Normal */ /* clients of the TrueType engine shouldn't worry about this */ typedef int (*TT_Glyph_Loader_Callback)( void* instance_ptr, int glyph_index, TT_Outline* outline, TT_F26Dot6* lsb, TT_F26Dot6* aw ); /* Register a new callback to the TrueType engine - this should */ /* only be used by higher-level libraries, not typical clients */ TT_Error TT_Register_Callback( TT_Engine engine, int callback_id, void* callback_ptr ); /************************ error codes declaration **************/ /* The error codes are grouped in 'classes' used to indicate the */ /* 'level' at which the error happened. */ /* The class is given by an error code's high byte. */ /* ------------- Success is always 0 -------- */ #define TT_Err_Ok 0 /* -------- High-level API error codes ------ */ #define TT_Err_Invalid_Face_Handle 0x001 #define TT_Err_Invalid_Instance_Handle 0x002 #define TT_Err_Invalid_Glyph_Handle 0x003 #define TT_Err_Invalid_CharMap_Handle 0x004 #define TT_Err_Invalid_Result_Address 0x005 #define TT_Err_Invalid_Glyph_Index 0x006 #define TT_Err_Invalid_Argument 0x007 #define TT_Err_Could_Not_Open_File 0x008 #define TT_Err_File_Is_Not_Collection 0x009 #define TT_Err_Table_Missing 0x00A #define TT_Err_Invalid_Horiz_Metrics 0x00B #define TT_Err_Invalid_CharMap_Format 0x00C #define TT_Err_Invalid_PPem 0x00D #define TT_Err_Invalid_File_Format 0x010 #define TT_Err_Invalid_Engine 0x020 #define TT_Err_Too_Many_Extensions 0x021 #define TT_Err_Extensions_Unsupported 0x022 #define TT_Err_Invalid_Extension_Id 0x023 #define TT_Err_Max_Profile_Missing 0x080 #define TT_Err_Header_Table_Missing 0x081 #define TT_Err_Horiz_Header_Missing 0x082 #define TT_Err_Locations_Missing 0x083 #define TT_Err_Name_Table_Missing 0x084 #define TT_Err_CMap_Table_Missing 0x085 #define TT_Err_Hmtx_Table_Missing 0x086 #define TT_Err_OS2_Table_Missing 0x087 #define TT_Err_Post_Table_Missing 0x088 /* -------- Memory component error codes ---- */ /* this error indicates that an operation cannot */ /* be performed due to memory exhaustion. */ #define TT_Err_Out_Of_Memory 0x100 /* -------- File component error codes ------ */ /* these error codes indicate that the file could */ /* not be accessed properly. Usually, this means */ /* a broken font file! */ #define TT_Err_Invalid_File_Offset 0x200 #define TT_Err_Invalid_File_Read 0x201 #define TT_Err_Invalid_Frame_Access 0x202 /* -------- Glyph loader error codes -------- */ /* Produced only by the glyph loader, these error */ /* codes indicate a broken glyph in a font file. */ #define TT_Err_Too_Many_Points 0x300 #define TT_Err_Too_Many_Contours 0x301 #define TT_Err_Invalid_Composite 0x302 #define TT_Err_Too_Many_Ins 0x303 /* --- bytecode interpreter error codes ----- */ /* These error codes are produced by the TrueType */ /* bytecode interpreter. They usually indicate a */ /* broken font file, a broken glyph within a font */ /* file, or a bug in the interpreter! */ #define TT_Err_Invalid_Opcode 0x400 #define TT_Err_Too_Few_Arguments 0x401 #define TT_Err_Stack_Overflow 0x402 #define TT_Err_Code_Overflow 0x403 #define TT_Err_Bad_Argument 0x404 #define TT_Err_Divide_By_Zero 0x405 #define TT_Err_Storage_Overflow 0x406 #define TT_Err_Cvt_Overflow 0x407 #define TT_Err_Invalid_Reference 0x408 #define TT_Err_Invalid_Distance 0x409 #define TT_Err_Interpolate_Twilight 0x40A #define TT_Err_Debug_OpCode 0x40B #define TT_Err_ENDF_In_Exec_Stream 0x40C #define TT_Err_Out_Of_CodeRanges 0x40D #define TT_Err_Nested_DEFS 0x40E #define TT_Err_Invalid_CodeRange 0x40F #define TT_Err_Invalid_Displacement 0x410 /* ------ internal failure error codes ----- */ /* These error codes are produced when an incoherent */ /* library state has been detected. These reflect a */ /* severe bug in the engine! (or a major overwrite */ /* of your application into the library's data). */ #define TT_Err_Nested_Frame_Access 0x500 #define TT_Err_Invalid_Cache_List 0x501 #define TT_Err_Could_Not_Find_Context 0x502 #define TT_Err_Unlisted_Object 0x503 /* ---- scan-line converter error codes ----- */ /* These error codes are produced by the raster component. */ /* They indicate that an outline structure was incoherently */ /* setup, or that you're trying to render an horribly */ /* complex glyph! */ #define TT_Err_Raster_Pool_Overflow 0x600 #define TT_Err_Raster_Negative_Height 0x601 #define TT_Err_Raster_Invalid_Value 0x602 #define TT_Err_Raster_Not_Initialized 0x603 #ifdef __cplusplus } #endif #endif /* FREETYPE_H */ /* END */