/* 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: ttfoutl.h,v 1.16 2005/08/02 11:12:32 igor Exp $ */ /* The TrueType instruction interpreter interface definition. */ #ifndef incl_ttfoutl #define incl_ttfoutl #ifndef TFace_defined #define TFace_defined typedef struct _TFace TFace; #endif #ifndef TInstance_defined #define TInstance_defined typedef struct _TInstance TInstance; #endif #ifndef TExecution_Context_defined #define TExecution_Context_defined typedef struct _TExecution_Context TExecution_Context; #endif #ifndef ttfInterpreter_DEFINED # define ttfInterpreter_DEFINED typedef struct ttfInterpreter_s ttfInterpreter; #endif /* Define auxiliary data types for the TT interpreter. */ typedef struct ttfMemoryDescriptor_s ttfMemoryDescriptor; typedef struct { double a, b, c, d, tx, ty; } FloatMatrix; typedef struct { double x, y; } FloatPoint; #if ARCH_LOG2_SIZEOF_LONG == 2 typedef signed long F26Dot6; #elif ARCH_LOG2_SIZEOF_INT == 2 typedef signed int F26Dot6; #else #error "No appropriate type for Fixed 26.6 Floats" #endif typedef struct { F26Dot6 x; F26Dot6 y; } F26Dot6Point; /* Define an abstract class for accessing memory managers from the TT interpreter. */ typedef struct ttfMemory_s ttfMemory; struct ttfMemory_s { void *(*alloc_bytes)(ttfMemory *, int size, const char *cname); void *(*alloc_struct)(ttfMemory *, const ttfMemoryDescriptor *, const char *cname); void (*free)(ttfMemory *, void *p, const char *cname); } ; typedef struct ttfSubGlyphUsage_s ttfSubGlyphUsage; /* Define a capsule for the TT interpreter. */ struct ttfInterpreter_s { TExecution_Context *exec; ttfSubGlyphUsage *usage; int usage_size; int usage_top; int lock; ttfMemory *ttf_memory; }; /* Define TT interpreter return codes. */ typedef enum { fNoError, fTableNotFound, fNameNotFound, fMemoryError, fUnimplemented, fCMapNotFound, fGlyphNotFound, fBadFontData, fPatented, fBadInstruction } FontError; /* Define an abstract class for accessing TT data from the TT interpreter. */ typedef struct ttfReader_s ttfReader; struct ttfReader_s { bool (*Eof)(ttfReader *); void (*Read)(ttfReader *, void *p, int n); void (*Seek)(ttfReader *, int nPos); int (*Tell)(ttfReader *); bool (*Error)(ttfReader *); int (*LoadGlyph)(ttfReader *, int nIndex, const byte **, int *); void (*ReleaseGlyph)(ttfReader *, int nIndex); }; /* Define an auxiliary structure for ttfFont. */ typedef struct { int nPos, nLen; } ttfPtrElem; /* Define a capsule for a TT face. Diue to historical reason the name is some misleading. It should be ttfFace. */ #ifndef ttfFont_DEFINED # define ttfFont_DEFINED typedef struct ttfFont_s ttfFont; #endif struct ttfFont_s { ttfPtrElem t_cvt_; ttfPtrElem t_fpgm; ttfPtrElem t_glyf; ttfPtrElem t_head; ttfPtrElem t_hhea; ttfPtrElem t_hmtx; ttfPtrElem t_vhea; ttfPtrElem t_vmtx; ttfPtrElem t_loca; ttfPtrElem t_maxp; ttfPtrElem t_prep; ttfPtrElem t_cmap; unsigned short nUnitsPerEm; unsigned int nFlags; unsigned int nNumGlyphs; unsigned int nMaxComponents; unsigned int nLongMetricsVert; unsigned int nLongMetricsHorz; unsigned int nIndexToLocFormat; bool patented; bool design_grid; TFace *face; TInstance *inst; TExecution_Context *exec; ttfInterpreter *tti; void (*DebugRepaint)(ttfFont *); int (*DebugPrint)(ttfFont *, const char *s, ...); }; void ttfFont__init(ttfFont *this, ttfMemory *mem, void (*DebugRepaint)(ttfFont *), int (*DebugPrint)(ttfFont *, const char *s, ...)); void ttfFont__finit(ttfFont *this); FontError ttfFont__Open(ttfInterpreter *, ttfFont *, ttfReader *r, unsigned int nTTC, float w, float h, bool design_grid); /* Define an abstract class for exporting outlines from the TT interpreter. */ typedef struct ttfExport_s ttfExport; struct ttfExport_s { bool bPoints, bOutline; void (*MoveTo)(ttfExport *, FloatPoint*); void (*LineTo)(ttfExport *, FloatPoint*); void (*CurveTo)(ttfExport *, FloatPoint*, FloatPoint*, FloatPoint*); void (*Close)(ttfExport *); void (*Point)(ttfExport *, FloatPoint*, bool bOnCurve, bool bNewPath); void (*SetWidth)(ttfExport *, FloatPoint*); void (*DebugPaint)(ttfExport *); }; int ttfInterpreter__obtain(ttfMemory *mem, ttfInterpreter **ptti); void ttfInterpreter__release(ttfInterpreter **ptti); /* Define an class for outline description. */ typedef struct { bool bCompound; int contourCount; uint pointCount; F26Dot6Point advance; F26Dot6 sideBearing; F26Dot6 xMinB, yMinB, xMaxB, yMaxB; } ttfGlyphOutline; /* Define an class for generating TT outlines. */ typedef struct { bool bOutline; bool bFirst; bool bVertical; int nPointsTotal; int nContoursTotal; F26Dot6 ppx, ppy; ttfReader *r; ttfExport *exp; ttfFont *pFont; ttfGlyphOutline out; FloatMatrix post_transform; } ttfOutliner; void ttfOutliner__init(ttfOutliner *, ttfFont *f, ttfReader *r, ttfExport *exp, bool bOutline, bool bFirst, bool bVertical); FontError ttfOutliner__Outline(ttfOutliner *this, int glyphIndex, float orig_x, float orig_y, FloatMatrix *m1); void ttfOutliner__DrawGlyphOutline(ttfOutliner *this); #endif