/**************************************************************************** * * psintrp.c * * Adobe's CFF Interpreter (body). * * Copyright 2007-2014 Adobe Systems Incorporated. * * This software, and all works of authorship, whether in source or * object code form as indicated by the copyright notice(s) included * herein (collectively, the "Work") is made available, and may only be * used, modified, and distributed under the FreeType Project License, * LICENSE.TXT. Additionally, subject to the terms and conditions of the * FreeType Project License, each contributor to the Work hereby grants * to any individual or legal entity exercising permissions granted by * the FreeType Project License and this section (hereafter, "You" or * "Your") a perpetual, worldwide, non-exclusive, no-charge, * royalty-free, irrevocable (except as stated in this section) patent * license to make, have made, use, offer to sell, sell, import, and * otherwise transfer the Work, where such license applies only to those * patent claims licensable by such contributor that are necessarily * infringed by their contribution(s) alone or by combination of their * contribution(s) with the Work to which such contribution(s) was * submitted. If You institute patent litigation against any entity * (including a cross-claim or counterclaim in a lawsuit) alleging that * the Work or a contribution incorporated within the Work constitutes * direct or contributory patent infringement, then any patent licenses * granted to You under this License for that Work shall terminate as of * the date such litigation is filed. * * By using, modifying, or distributing the Work you indicate that you * have read and understood the terms and conditions of the * FreeType Project License as well as those provided in this section, * and you accept them fully. * */ #include "psft.h" #include FT_INTERNAL_DEBUG_H #include FT_SERVICE_CFF_TABLE_LOAD_H #include "psglue.h" #include "psfont.h" #include "psstack.h" #include "pshints.h" #include "psintrp.h" #include "pserror.h" #include "psobjs.h" /* for cff_random */ #include "t1decode.h" /* for t1 seac */ /************************************************************************** * * The macro FT_COMPONENT is used in trace mode. It is an implicit * parameter of the FT_TRACE() and FT_ERROR() macros, used to print/log * messages during execution. */ #undef FT_COMPONENT #define FT_COMPONENT cf2interp FT_LOCAL_DEF( void ) cf2_hintmask_init( CF2_HintMask hintmask, FT_Error* error ) { FT_ZERO( hintmask ); hintmask->error = error; } FT_LOCAL_DEF( FT_Bool ) cf2_hintmask_isValid( const CF2_HintMask hintmask ) { return hintmask->isValid; } FT_LOCAL_DEF( FT_Bool ) cf2_hintmask_isNew( const CF2_HintMask hintmask ) { return hintmask->isNew; } FT_LOCAL_DEF( void ) cf2_hintmask_setNew( CF2_HintMask hintmask, FT_Bool val ) { hintmask->isNew = val; } /* clients call `getMaskPtr' in order to iterate */ /* through hint mask */ FT_LOCAL_DEF( FT_Byte* ) cf2_hintmask_getMaskPtr( CF2_HintMask hintmask ) { return hintmask->mask; } static size_t cf2_hintmask_setCounts( CF2_HintMask hintmask, size_t bitCount ) { if ( bitCount > CF2_MAX_HINTS ) { /* total of h and v stems must be <= 96 */ CF2_SET_ERROR( hintmask->error, Invalid_Glyph_Format ); return 0; } hintmask->bitCount = bitCount; hintmask->byteCount = ( hintmask->bitCount + 7 ) / 8; hintmask->isValid = TRUE; hintmask->isNew = TRUE; return bitCount; } /* consume the hintmask bytes from the charstring, advancing the src */ /* pointer */ static void cf2_hintmask_read( CF2_HintMask hintmask, CF2_Buffer charstring, size_t bitCount ) { size_t i; #ifndef CF2_NDEBUG /* these are the bits in the final mask byte that should be zero */ /* Note: this variable is only used in an assert expression below */ /* and then only if CF2_NDEBUG is not defined */ CF2_UInt mask = ( 1 << ( -(CF2_Int)bitCount & 7 ) ) - 1; #endif /* initialize counts and isValid */ if ( cf2_hintmask_setCounts( hintmask, bitCount ) == 0 ) return; FT_ASSERT( hintmask->byteCount > 0 ); FT_TRACE4(( " (maskbytes:" )); /* set mask and advance interpreter's charstring pointer */ for ( i = 0; i < hintmask->byteCount; i++ ) { hintmask->mask[i] = (FT_Byte)cf2_buf_readByte( charstring ); FT_TRACE4(( " 0x%02X", hintmask->mask[i] )); } FT_TRACE4(( ")\n" )); /* assert any unused bits in last byte are zero unless there's a prior */ /* error */ /* bitCount -> mask, 0 -> 0, 1 -> 7f, 2 -> 3f, ... 6 -> 3, 7 -> 1 */ #ifndef CF2_NDEBUG FT_ASSERT( ( hintmask->mask[hintmask->byteCount - 1] & mask ) == 0 || *hintmask->error ); #endif } FT_LOCAL_DEF( void ) cf2_hintmask_setAll( CF2_HintMask hintmask, size_t bitCount ) { size_t i; CF2_UInt mask = ( 1 << ( -(CF2_Int)bitCount & 7 ) ) - 1; /* initialize counts and isValid */ if ( cf2_hintmask_setCounts( hintmask, bitCount ) == 0 ) return; FT_ASSERT( hintmask->byteCount > 0 ); FT_ASSERT( hintmask->byteCount <= sizeof ( hintmask->mask ) / sizeof ( hintmask->mask[0] ) ); /* set mask to all ones */ for ( i = 0; i < hintmask->byteCount; i++ ) hintmask->mask[i] = 0xFF; /* clear unused bits */ /* bitCount -> mask, 0 -> 0, 1 -> 7f, 2 -> 3f, ... 6 -> 3, 7 -> 1 */ hintmask->mask[hintmask->byteCount - 1] &= ~mask; } /* Type2 charstring opcodes */ enum { cf2_cmdRESERVED_0, /* 0 */ cf2_cmdHSTEM, /* 1 */ cf2_cmdRESERVED_2, /* 2 */ cf2_cmdVSTEM, /* 3 */ cf2_cmdVMOVETO, /* 4 */ cf2_cmdRLINETO, /* 5 */ cf2_cmdHLINETO, /* 6 */ cf2_cmdVLINETO, /* 7 */ cf2_cmdRRCURVETO, /* 8 */ cf2_cmdCLOSEPATH, /* 9 T1 only */ cf2_cmdCALLSUBR, /* 10 */ cf2_cmdRETURN, /* 11 */ cf2_cmdESC, /* 12 */ cf2_cmdHSBW, /* 13 T1 only */ cf2_cmdENDCHAR, /* 14 */ cf2_cmdVSINDEX, /* 15 */ cf2_cmdBLEND, /* 16 */ cf2_cmdRESERVED_17, /* 17 */ cf2_cmdHSTEMHM, /* 18 */ cf2_cmdHINTMASK, /* 19 */ cf2_cmdCNTRMASK, /* 20 */ cf2_cmdRMOVETO, /* 21 */ cf2_cmdHMOVETO, /* 22 */ cf2_cmdVSTEMHM, /* 23 */ cf2_cmdRCURVELINE, /* 24 */ cf2_cmdRLINECURVE, /* 25 */ cf2_cmdVVCURVETO, /* 26 */ cf2_cmdHHCURVETO, /* 27 */ cf2_cmdEXTENDEDNMBR, /* 28 */ cf2_cmdCALLGSUBR, /* 29 */ cf2_cmdVHCURVETO, /* 30 */ cf2_cmdHVCURVETO /* 31 */ }; enum { cf2_escDOTSECTION, /* 0 */ cf2_escVSTEM3, /* 1 T1 only */ cf2_escHSTEM3, /* 2 T1 only */ cf2_escAND, /* 3 */ cf2_escOR, /* 4 */ cf2_escNOT, /* 5 */ cf2_escSEAC, /* 6 T1 only */ cf2_escSBW, /* 7 T1 only */ cf2_escRESERVED_8, /* 8 */ cf2_escABS, /* 9 */ cf2_escADD, /* 10 like otherADD */ cf2_escSUB, /* 11 like otherSUB */ cf2_escDIV, /* 12 */ cf2_escRESERVED_13, /* 13 */ cf2_escNEG, /* 14 */ cf2_escEQ, /* 15 */ cf2_escCALLOTHERSUBR,/* 16 T1 only */ cf2_escPOP, /* 17 T1 only */ cf2_escDROP, /* 18 */ cf2_escRESERVED_19, /* 19 */ cf2_escPUT, /* 20 like otherPUT */ cf2_escGET, /* 21 like otherGET */ cf2_escIFELSE, /* 22 like otherIFELSE */ cf2_escRANDOM, /* 23 like otherRANDOM */ cf2_escMUL, /* 24 like otherMUL */ cf2_escRESERVED_25, /* 25 */ cf2_escSQRT, /* 26 */ cf2_escDUP, /* 27 like otherDUP */ cf2_escEXCH, /* 28 like otherEXCH */ cf2_escINDEX, /* 29 */ cf2_escROLL, /* 30 */ cf2_escRESERVED_31, /* 31 */ cf2_escRESERVED_32, /* 32 */ cf2_escSETCURRENTPT, /* 33 T1 only */ cf2_escHFLEX, /* 34 */ cf2_escFLEX, /* 35 */ cf2_escHFLEX1, /* 36 */ cf2_escFLEX1, /* 37 */ cf2_escRESERVED_38 /* 38 & all higher */ }; /* `stemHintArray' does not change once we start drawing the outline. */ static void cf2_doStems( const CF2_Font font, CF2_Stack opStack, CF2_ArrStack stemHintArray, CF2_Fixed* width, FT_Bool* haveWidth, CF2_Fixed hintOffset ) { CF2_UInt i; CF2_UInt count = cf2_stack_count( opStack ); FT_Bool hasWidthArg = FT_BOOL( count & 1 ); /* variable accumulates delta values from operand stack */ CF2_Fixed position = hintOffset; if ( font->isT1 && !font->decoder->flex_state && !*haveWidth ) FT_ERROR(( "cf2_doStems (Type 1 mode):" " No width. Use hsbw/sbw as first op\n" )); if ( !font->isT1 && hasWidthArg && !*haveWidth ) *width = ADD_INT32( cf2_stack_getReal( opStack, 0 ), cf2_getNominalWidthX( font->decoder ) ); if ( font->decoder->width_only ) goto exit; for ( i = hasWidthArg ? 1 : 0; i < count; i += 2 ) { /* construct a CF2_StemHint and push it onto the list */ CF2_StemHintRec stemhint; stemhint.min = position = ADD_INT32( position, cf2_stack_getReal( opStack, i ) ); stemhint.max = position = ADD_INT32( position, cf2_stack_getReal( opStack, i + 1 ) ); stemhint.used = FALSE; stemhint.maxDS = stemhint.minDS = 0; cf2_arrstack_push( stemHintArray, &stemhint ); /* defer error check */ } cf2_stack_clear( opStack ); exit: /* cf2_doStems must define a width (may be default) */ *haveWidth = TRUE; } static void cf2_doFlex( CF2_Stack opStack, CF2_Fixed* curX, CF2_Fixed* curY, CF2_GlyphPath glyphPath, const FT_Bool* readFromStack, FT_Bool doConditionalLastRead ) { CF2_Fixed vals[14]; CF2_UInt idx; FT_Bool isHFlex; CF2_Int top, i, j; vals[0] = *curX; vals[1] = *curY; idx = 0; isHFlex = FT_BOOL( readFromStack[9] == FALSE ); top = isHFlex ? 9 : 10; for ( i = 0; i < top; i++ ) { vals[i + 2] = vals[i]; if ( readFromStack[i] ) vals[i + 2] = ADD_INT32( vals[i + 2], cf2_stack_getReal( opStack, idx++ ) ); } if ( isHFlex ) vals[9 + 2] = *curY; if ( doConditionalLastRead ) { FT_Bool lastIsX = FT_BOOL( cf2_fixedAbs( SUB_INT32( vals[10], *curX ) ) > cf2_fixedAbs( SUB_INT32( vals[11], *curY ) ) ); CF2_Fixed lastVal = cf2_stack_getReal( opStack, idx ); if ( lastIsX ) { vals[12] = ADD_INT32( vals[10], lastVal ); vals[13] = *curY; } else { vals[12] = *curX; vals[13] = ADD_INT32( vals[11], lastVal ); } } else { if ( readFromStack[10] ) vals[12] = ADD_INT32( vals[10], cf2_stack_getReal( opStack, idx++ ) ); else vals[12] = *curX; if ( readFromStack[11] ) vals[13] = ADD_INT32( vals[11], cf2_stack_getReal( opStack, idx ) ); else vals[13] = *curY; } for ( j = 0; j < 2; j++ ) cf2_glyphpath_curveTo( glyphPath, vals[j * 6 + 2], vals[j * 6 + 3], vals[j * 6 + 4], vals[j * 6 + 5], vals[j * 6 + 6], vals[j * 6 + 7] ); cf2_stack_clear( opStack ); *curX = vals[12]; *curY = vals[13]; } /* Blend numOperands on the stack, */ /* store results into the first numBlends values, */ /* then pop remaining arguments. */ static void cf2_doBlend( const CFF_Blend blend, CF2_Stack opStack, CF2_UInt numBlends ) { CF2_UInt delta; CF2_UInt base; CF2_UInt i, j; CF2_UInt numOperands = (CF2_UInt)( numBlends * blend->lenBV ); base = cf2_stack_count( opStack ) - numOperands; delta = base + numBlends; for ( i = 0; i < numBlends; i++ ) { const CF2_Fixed* weight = &blend->BV[1]; /* start with first term */ CF2_Fixed sum = cf2_stack_getReal( opStack, i + base ); for ( j = 1; j < blend->lenBV; j++ ) sum = ADD_INT32( sum, FT_MulFix( *weight++, cf2_stack_getReal( opStack, delta++ ) ) ); /* store blended result */ cf2_stack_setReal( opStack, i + base, sum ); } /* leave only `numBlends' results on stack */ cf2_stack_pop( opStack, numOperands - numBlends ); } /* * `error' is a shared error code used by many objects in this * routine. Before the code continues from an error, it must check and * record the error in `*error'. The idea is that this shared * error code will record the first error encountered. If testing * for an error anyway, the cost of `goto exit' is small, so we do it, * even if continuing would be safe. In this case, `lastError' is * set, so the testing and storing can be done in one place, at `exit'. * * Continuing after an error is intended for objects which do their own * testing of `*error', e.g., array stack functions. This allows us to * avoid an extra test after the call. * * Unimplemented opcodes are ignored. * */ FT_LOCAL_DEF( void ) cf2_interpT2CharString( CF2_Font font, CF2_Buffer buf, CF2_OutlineCallbacks callbacks, const FT_Vector* translation, FT_Bool doingSeac, CF2_Fixed curX, CF2_Fixed curY, CF2_Fixed* width ) { /* lastError is used for errors that are immediately tested */ FT_Error lastError = FT_Err_Ok; /* pointer to parsed font object */ PS_Decoder* decoder = font->decoder; FT_Error* error = &font->error; FT_Memory memory = font->memory; CF2_Fixed scaleY = font->innerTransform.d; CF2_Fixed nominalWidthX = cf2_getNominalWidthX( decoder ); /* stuff for Type 1 */ FT_Int known_othersubr_result_cnt = 0; FT_Bool large_int = FALSE; FT_Bool initial_map_ready = FALSE; #define PS_STORAGE_SIZE 3 CF2_F16Dot16 results[PS_STORAGE_SIZE]; /* for othersubr results */ FT_Int result_cnt = 0; /* save this for hinting seac accents */ CF2_Fixed hintOriginY = curY; CF2_Stack opStack = NULL; FT_UInt stackSize; FT_Byte op1; /* first opcode byte */ CF2_F16Dot16 storage[CF2_STORAGE_SIZE]; /* for `put' and `get' */ CF2_F16Dot16 flexStore[6]; /* for Type 1 flex */ /* instruction limit; 20,000,000 matches Avalon */ FT_UInt32 instructionLimit = 20000000UL; CF2_ArrStackRec subrStack; FT_Bool haveWidth; CF2_Buffer charstring = NULL; CF2_Int charstringIndex = -1; /* initialize to empty */ /* TODO: placeholders for hint structures */ /* objects used for hinting */ CF2_ArrStackRec hStemHintArray; CF2_ArrStackRec vStemHintArray; CF2_HintMaskRec hintMask; CF2_GlyphPathRec glyphPath; FT_ZERO( &storage ); FT_ZERO( &results ); FT_ZERO( &flexStore ); /* initialize the remaining objects */ cf2_arrstack_init( &subrStack, memory, error, sizeof ( CF2_BufferRec ) ); cf2_arrstack_init( &hStemHintArray, memory, error, sizeof ( CF2_StemHintRec ) ); cf2_arrstack_init( &vStemHintArray, memory, error, sizeof ( CF2_StemHintRec ) ); /* initialize CF2_StemHint arrays */ cf2_hintmask_init( &hintMask, error ); /* initialize path map to manage drawing operations */ /* Note: last 4 params are used to handle `MoveToPermissive', which */ /* may need to call `hintMap.Build' */ /* TODO: MoveToPermissive is gone; are these still needed? */ cf2_glyphpath_init( &glyphPath, font, callbacks, scaleY, /* hShift, */ &hStemHintArray, &vStemHintArray, &hintMask, hintOriginY, &font->blues, translation ); /* * Initialize state for width parsing. From the CFF Spec: * * The first stack-clearing operator, which must be one of hstem, * hstemhm, vstem, vstemhm, cntrmask, hintmask, hmoveto, vmoveto, * rmoveto, or endchar, takes an additional argument - the width (as * described earlier), which may be expressed as zero or one numeric * argument. * * What we implement here uses the first validly specified width, but * does not detect errors for specifying more than one width. * * If one of the above operators occurs without explicitly specifying * a width, we assume the default width. * * CFF2 charstrings always return the default width (0). * */ haveWidth = font->isCFF2 ? TRUE : FALSE; *width = cf2_getDefaultWidthX( decoder ); /* * Note: At this point, all pointers to resources must be NULL * and all local objects must be initialized. * There must be no branches to `exit:' above this point. * */ /* allocate an operand stack */ stackSize = font->isCFF2 ? cf2_getMaxstack( decoder ) : CF2_OPERAND_STACK_SIZE; opStack = cf2_stack_init( memory, error, stackSize ); if ( !opStack ) { lastError = FT_THROW( Out_Of_Memory ); goto exit; } /* initialize subroutine stack by placing top level charstring as */ /* first element (max depth plus one for the charstring) */ /* Note: Caller owns and must finalize the first charstring. */ /* Our copy of it does not change that requirement. */ cf2_arrstack_setCount( &subrStack, CF2_MAX_SUBR + 1 ); charstring = (CF2_Buffer)cf2_arrstack_getBuffer( &subrStack ); *charstring = *buf; /* structure copy */ charstringIndex = 0; /* entry is valid now */ /* catch errors so far */ if ( *error ) goto exit; /* main interpreter loop */ while ( 1 ) { if ( font->isT1 ) FT_ASSERT( known_othersubr_result_cnt == 0 || result_cnt == 0 ); if ( cf2_buf_isEnd( charstring ) ) { /* If we've reached the end of the charstring, simulate a */ /* cf2_cmdRETURN or cf2_cmdENDCHAR. */ /* We do this for both CFF and CFF2. */ if ( charstringIndex ) op1 = cf2_cmdRETURN; /* end of buffer for subroutine */ else op1 = cf2_cmdENDCHAR; /* end of buffer for top level charstring */ } else { op1 = (FT_Byte)cf2_buf_readByte( charstring ); /* Explicit RETURN and ENDCHAR in CFF2 should be ignored. */ /* Note: Trace message will report 0 instead of 11 or 14. */ if ( ( op1 == cf2_cmdRETURN || op1 == cf2_cmdENDCHAR ) && font->isCFF2 ) op1 = cf2_cmdRESERVED_0; } if ( font->isT1 ) { if ( !initial_map_ready && !( op1 == cf2_cmdHSTEM || op1 == cf2_cmdVSTEM || op1 == cf2_cmdHSBW || op1 == cf2_cmdCALLSUBR || op1 == cf2_cmdRETURN || op1 == cf2_cmdESC || op1 == cf2_cmdENDCHAR || op1 >= 32 /* Numbers */ ) ) { /* Skip outline commands first time round. */ /* `endchar' will trigger initial hintmap build */ /* and rewind the charstring. */ FT_TRACE4(( " \n" )); cf2_stack_clear( opStack ); continue; } if ( result_cnt > 0 && !( op1 == cf2_cmdCALLSUBR || op1 == cf2_cmdRETURN || op1 == cf2_cmdESC || op1 >= 32 /* Numbers */ ) ) { /* all operands have been transferred by previous pops */ result_cnt = 0; } if ( large_int && !( op1 >= 32 || op1 == cf2_escDIV ) ) { FT_ERROR(( "cf2_interpT2CharString (Type 1 mode):" " no `div' after large integer\n" )); large_int = FALSE; } } /* check for errors once per loop */ if ( *error ) goto exit; instructionLimit--; if ( instructionLimit == 0 ) { lastError = FT_THROW( Invalid_Glyph_Format ); goto exit; } switch( op1 ) { case cf2_cmdRESERVED_0: case cf2_cmdRESERVED_2: case cf2_cmdRESERVED_17: /* we may get here if we have a prior error */ FT_TRACE4(( " unknown op (%d)\n", op1 )); break; case cf2_cmdVSINDEX: FT_TRACE4(( " vsindex\n" )); if ( !font->isCFF2 ) break; /* clear stack & ignore */ if ( font->blend.usedBV ) { /* vsindex not allowed after blend */ lastError = FT_THROW( Invalid_Glyph_Format ); goto exit; } { FT_Int temp = cf2_stack_popInt( opStack ); if ( temp >= 0 ) font->vsindex = (FT_UInt)temp; } break; case cf2_cmdBLEND: { FT_UInt numBlends; FT_TRACE4(( " blend\n" )); if ( !font->isCFF2 ) break; /* clear stack & ignore */ /* do we have a `blend' op in a non-variant font? */ if ( !font->blend.font ) { lastError = FT_THROW( Invalid_Glyph_Format ); goto exit; } /* check cached blend vector */ if ( font->cffload->blend_check_vector( &font->blend, font->vsindex, font->lenNDV, font->NDV ) ) { lastError = font->cffload->blend_build_vector( &font->blend, font->vsindex, font->lenNDV, font->NDV ); if ( lastError ) goto exit; } /* do the blend */ numBlends = (FT_UInt)cf2_stack_popInt( opStack ); if ( numBlends > stackSize ) { lastError = FT_THROW( Invalid_Glyph_Format ); goto exit; } cf2_doBlend( &font->blend, opStack, numBlends ); font->blend.usedBV = TRUE; } continue; /* do not clear the stack */ case cf2_cmdHSTEMHM: case cf2_cmdHSTEM: FT_TRACE4(( "%s\n", op1 == cf2_cmdHSTEMHM ? " hstemhm" : " hstem" )); if ( !font->isT1 ) { /* never add hints after the mask is computed */ /* except if in Type 1 mode (no hintmask op) */ if ( cf2_hintmask_isValid( &hintMask ) ) { FT_TRACE4(( "cf2_interpT2CharString:" " invalid horizontal hint mask\n" )); break; } } /* add left-sidebearing correction in Type 1 mode */ cf2_doStems( font, opStack, &hStemHintArray, width, &haveWidth, font->isT1 ? decoder->builder.left_bearing->y : 0 ); if ( decoder->width_only ) goto exit; break; case cf2_cmdVSTEMHM: case cf2_cmdVSTEM: FT_TRACE4(( "%s\n", op1 == cf2_cmdVSTEMHM ? " vstemhm" : " vstem" )); if ( !font->isT1 ) { /* never add hints after the mask is computed */ /* except if in Type 1 mode (no hintmask op) */ if ( cf2_hintmask_isValid( &hintMask ) ) { FT_TRACE4(( "cf2_interpT2CharString:" " invalid vertical hint mask\n" )); break; } } /* add left-sidebearing correction in Type 1 mode */ cf2_doStems( font, opStack, &vStemHintArray, width, &haveWidth, font->isT1 ? decoder->builder.left_bearing->x : 0 ); if ( decoder->width_only ) goto exit; break; case cf2_cmdVMOVETO: FT_TRACE4(( " vmoveto\n" )); if ( font->isT1 && !decoder->flex_state && !haveWidth ) FT_ERROR(( "cf2_interpT2CharString (Type 1 mode):" " No width. Use hsbw/sbw as first op\n" )); if ( cf2_stack_count( opStack ) > 1 && !haveWidth ) *width = ADD_INT32( cf2_stack_getReal( opStack, 0 ), nominalWidthX ); /* width is defined or default after this */ haveWidth = TRUE; if ( decoder->width_only ) goto exit; curY = ADD_INT32( curY, cf2_stack_popFixed( opStack ) ); if ( !decoder->flex_state ) cf2_glyphpath_moveTo( &glyphPath, curX, curY ); break; case cf2_cmdRLINETO: { CF2_UInt idx; CF2_UInt count = cf2_stack_count( opStack ); FT_TRACE4(( " rlineto\n" )); for ( idx = 0; idx < count; idx += 2 ) { curX = ADD_INT32( curX, cf2_stack_getReal( opStack, idx + 0 ) ); curY = ADD_INT32( curY, cf2_stack_getReal( opStack, idx + 1 ) ); cf2_glyphpath_lineTo( &glyphPath, curX, curY ); } cf2_stack_clear( opStack ); } continue; /* no need to clear stack again */ case cf2_cmdHLINETO: case cf2_cmdVLINETO: { CF2_UInt idx; CF2_UInt count = cf2_stack_count( opStack ); FT_Bool isX = FT_BOOL( op1 == cf2_cmdHLINETO ); FT_TRACE4(( "%s\n", isX ? " hlineto" : " vlineto" )); for ( idx = 0; idx < count; idx++ ) { CF2_Fixed v = cf2_stack_getReal( opStack, idx ); if ( isX ) curX = ADD_INT32( curX, v ); else curY = ADD_INT32( curY, v ); isX = !isX; cf2_glyphpath_lineTo( &glyphPath, curX, curY ); } cf2_stack_clear( opStack ); } continue; case cf2_cmdRCURVELINE: case cf2_cmdRRCURVETO: { CF2_UInt count = cf2_stack_count( opStack ); CF2_UInt idx = 0; FT_TRACE4(( "%s\n", op1 == cf2_cmdRCURVELINE ? " rcurveline" : " rrcurveto" )); while ( idx + 6 <= count ) { CF2_Fixed x1, y1, x2, y2, x3, y3; x1 = ADD_INT32( cf2_stack_getReal( opStack, idx + 0 ), curX ); y1 = ADD_INT32( cf2_stack_getReal( opStack, idx + 1 ), curY ); x2 = ADD_INT32( cf2_stack_getReal( opStack, idx + 2 ), x1 ); y2 = ADD_INT32( cf2_stack_getReal( opStack, idx + 3 ), y1 ); x3 = ADD_INT32( cf2_stack_getReal( opStack, idx + 4 ), x2 ); y3 = ADD_INT32( cf2_stack_getReal( opStack, idx + 5 ), y2 ); cf2_glyphpath_curveTo( &glyphPath, x1, y1, x2, y2, x3, y3 ); curX = x3; curY = y3; idx += 6; } if ( op1 == cf2_cmdRCURVELINE ) { curX = ADD_INT32( curX, cf2_stack_getReal( opStack, idx + 0 ) ); curY = ADD_INT32( curY, cf2_stack_getReal( opStack, idx + 1 ) ); cf2_glyphpath_lineTo( &glyphPath, curX, curY ); } cf2_stack_clear( opStack ); } continue; /* no need to clear stack again */ case cf2_cmdCLOSEPATH: if ( !font->isT1 ) FT_TRACE4(( " unknown op (%d)\n", op1 )); else { FT_TRACE4(( " closepath" )); /* if there is no path, `closepath' is a no-op */ cf2_glyphpath_closeOpenPath( &glyphPath ); haveWidth = TRUE; } break; case cf2_cmdCALLGSUBR: case cf2_cmdCALLSUBR: { CF2_Int subrNum; FT_TRACE4(( "%s", op1 == cf2_cmdCALLGSUBR ? " callgsubr" : " callsubr" )); if ( ( !font->isT1 && charstringIndex > CF2_MAX_SUBR ) || ( font->isT1 && charstringIndex > T1_MAX_SUBRS_CALLS ) ) { /* max subr plus one for charstring */ lastError = FT_THROW( Invalid_Glyph_Format ); goto exit; /* overflow of stack */ } /* push our current CFF charstring region on subrStack */ charstring = (CF2_Buffer) cf2_arrstack_getPointer( &subrStack, (size_t)charstringIndex + 1 ); /* set up the new CFF region and pointer */ subrNum = cf2_stack_popInt( opStack ); if ( font->isT1 && decoder->locals_hash ) { size_t* val = ft_hash_num_lookup( subrNum, decoder->locals_hash ); if ( val ) subrNum = *val; else subrNum = -1; } switch ( op1 ) { case cf2_cmdCALLGSUBR: FT_TRACE4(( " (idx %d, entering level %d)\n", subrNum + decoder->globals_bias, charstringIndex + 1 )); if ( cf2_initGlobalRegionBuffer( decoder, subrNum, charstring ) ) { lastError = FT_THROW( Invalid_Glyph_Format ); goto exit; /* subroutine lookup or stream error */ } break; default: /* cf2_cmdCALLSUBR */ FT_TRACE4(( " (idx %d, entering level %d)\n", subrNum + decoder->locals_bias, charstringIndex + 1 )); if ( cf2_initLocalRegionBuffer( decoder, subrNum, charstring ) ) { lastError = FT_THROW( Invalid_Glyph_Format ); goto exit; /* subroutine lookup or stream error */ } } charstringIndex += 1; /* entry is valid now */ } continue; /* do not clear the stack */ case cf2_cmdRETURN: FT_TRACE4(( " return (leaving level %d)\n", charstringIndex )); if ( charstringIndex < 1 ) { /* Note: cannot return from top charstring */ lastError = FT_THROW( Invalid_Glyph_Format ); goto exit; /* underflow of stack */ } /* restore position in previous charstring */ charstring = (CF2_Buffer) cf2_arrstack_getPointer( &subrStack, (CF2_UInt)--charstringIndex ); continue; /* do not clear the stack */ case cf2_cmdESC: { FT_Byte op2 = (FT_Byte)cf2_buf_readByte( charstring ); /* first switch for 2-byte operators handles CFF2 */ /* and opcodes that are reserved for both CFF and CFF2 */ switch ( op2 ) { case cf2_escHFLEX: { static const FT_Bool readFromStack[12] = { TRUE /* dx1 */, FALSE /* dy1 */, TRUE /* dx2 */, TRUE /* dy2 */, TRUE /* dx3 */, FALSE /* dy3 */, TRUE /* dx4 */, FALSE /* dy4 */, TRUE /* dx5 */, FALSE /* dy5 */, TRUE /* dx6 */, FALSE /* dy6 */ }; FT_TRACE4(( " hflex\n" )); cf2_doFlex( opStack, &curX, &curY, &glyphPath, readFromStack, FALSE /* doConditionalLastRead */ ); } continue; case cf2_escFLEX: { static const FT_Bool readFromStack[12] = { TRUE /* dx1 */, TRUE /* dy1 */, TRUE /* dx2 */, TRUE /* dy2 */, TRUE /* dx3 */, TRUE /* dy3 */, TRUE /* dx4 */, TRUE /* dy4 */, TRUE /* dx5 */, TRUE /* dy5 */, TRUE /* dx6 */, TRUE /* dy6 */ }; FT_TRACE4(( " flex\n" )); cf2_doFlex( opStack, &curX, &curY, &glyphPath, readFromStack, FALSE /* doConditionalLastRead */ ); } break; /* TODO: why is this not a continue? */ case cf2_escHFLEX1: { static const FT_Bool readFromStack[12] = { TRUE /* dx1 */, TRUE /* dy1 */, TRUE /* dx2 */, TRUE /* dy2 */, TRUE /* dx3 */, FALSE /* dy3 */, TRUE /* dx4 */, FALSE /* dy4 */, TRUE /* dx5 */, TRUE /* dy5 */, TRUE /* dx6 */, FALSE /* dy6 */ }; FT_TRACE4(( " hflex1\n" )); cf2_doFlex( opStack, &curX, &curY, &glyphPath, readFromStack, FALSE /* doConditionalLastRead */ ); } continue; case cf2_escFLEX1: { static const FT_Bool readFromStack[12] = { TRUE /* dx1 */, TRUE /* dy1 */, TRUE /* dx2 */, TRUE /* dy2 */, TRUE /* dx3 */, TRUE /* dy3 */, TRUE /* dx4 */, TRUE /* dy4 */, TRUE /* dx5 */, TRUE /* dy5 */, FALSE /* dx6 */, FALSE /* dy6 */ }; FT_TRACE4(( " flex1\n" )); cf2_doFlex( opStack, &curX, &curY, &glyphPath, readFromStack, TRUE /* doConditionalLastRead */ ); } continue; /* these opcodes are always reserved */ case cf2_escRESERVED_8: case cf2_escRESERVED_13: case cf2_escRESERVED_19: case cf2_escRESERVED_25: case cf2_escRESERVED_31: case cf2_escRESERVED_32: FT_TRACE4(( " unknown op (12, %d)\n", op2 )); break; default: { if ( font->isCFF2 || op2 >= cf2_escRESERVED_38 ) FT_TRACE4(( " unknown op (12, %d)\n", op2 )); else if ( font->isT1 && result_cnt > 0 && op2 != cf2_escPOP ) { /* all operands have been transferred by previous pops */ result_cnt = 0; } else { /* second switch for 2-byte operators handles */ /* CFF and Type 1 */ switch ( op2 ) { case cf2_escDOTSECTION: /* something about `flip type of locking' -- ignore it */ FT_TRACE4(( " dotsection\n" )); break; case cf2_escVSTEM3: case cf2_escHSTEM3: /* * Type 1: Type 2: * x0 dx0 x1 dx1 x2 dx2 vstem3 x dx {dxa dxb}* vstem * y0 dy0 y1 dy1 y2 dy2 hstem3 y dy {dya dyb}* hstem * relative to lsb point relative to zero * */ { if ( !font->isT1 ) FT_TRACE4(( " unknown op (12, %d)\n", op2 )); else { CF2_F16Dot16 v0, v1, v2; FT_Bool isV = FT_BOOL( op2 == cf2_escVSTEM3 ); FT_TRACE4(( "%s\n", isV ? " vstem3" : " hstem3" )); FT_ASSERT( cf2_stack_count( opStack ) == 6 ); v0 = cf2_stack_getReal( opStack, 0 ); v1 = cf2_stack_getReal( opStack, 2 ); v2 = cf2_stack_getReal( opStack, 4 ); cf2_stack_setReal( opStack, 2, SUB_INT32( SUB_INT32( v1, v0 ), cf2_stack_getReal( opStack, 1 ) ) ); cf2_stack_setReal( opStack, 4, SUB_INT32( SUB_INT32( v2, v1 ), cf2_stack_getReal( opStack, 3 ) ) ); /* add left-sidebearing correction */ cf2_doStems( font, opStack, isV ? &vStemHintArray : &hStemHintArray, width, &haveWidth, isV ? decoder->builder.left_bearing->x : decoder->builder.left_bearing->y ); if ( decoder->width_only ) goto exit; } } break; case cf2_escAND: { CF2_F16Dot16 arg1; CF2_F16Dot16 arg2; FT_TRACE4(( " and\n" )); arg2 = cf2_stack_popFixed( opStack ); arg1 = cf2_stack_popFixed( opStack ); cf2_stack_pushInt( opStack, arg1 && arg2 ); } continue; /* do not clear the stack */ case cf2_escOR: { CF2_F16Dot16 arg1; CF2_F16Dot16 arg2; FT_TRACE4(( " or\n" )); arg2 = cf2_stack_popFixed( opStack ); arg1 = cf2_stack_popFixed( opStack ); cf2_stack_pushInt( opStack, arg1 || arg2 ); } continue; /* do not clear the stack */ case cf2_escNOT: { CF2_F16Dot16 arg; FT_TRACE4(( " not\n" )); arg = cf2_stack_popFixed( opStack ); cf2_stack_pushInt( opStack, !arg ); } continue; /* do not clear the stack */ case cf2_escSEAC: if ( !font->isT1 ) FT_TRACE4(( " unknown op (12, %d)\n", op2 )); else { FT_Error error2; CF2_Int bchar_index, achar_index; FT_Vector left_bearing, advance; #ifdef FT_CONFIG_OPTION_INCREMENTAL T1_Face face = (T1_Face)decoder->builder.face; #endif CF2_BufferRec component; CF2_Fixed dummyWidth; CF2_Int achar = cf2_stack_popInt( opStack ); CF2_Int bchar = cf2_stack_popInt( opStack ); FT_Pos ady = cf2_stack_popFixed ( opStack ); FT_Pos adx = cf2_stack_popFixed ( opStack ); FT_Pos asb = cf2_stack_popFixed ( opStack ); FT_TRACE4(( " seac\n" )); if ( doingSeac ) { FT_ERROR(( " nested seac\n" )); lastError = FT_THROW( Invalid_Glyph_Format ); goto exit; /* nested seac */ } if ( decoder->builder.metrics_only ) { FT_ERROR(( " unexpected seac\n" )); lastError = FT_THROW( Invalid_Glyph_Format ); goto exit; /* unexpected seac */ } /* `glyph_names' is set to 0 for CID fonts which do */ /* not include an encoding. How can we deal with */ /* these? */ #ifdef FT_CONFIG_OPTION_INCREMENTAL if ( decoder->glyph_names == 0 && !face->root.internal->incremental_interface ) #else if ( decoder->glyph_names == 0 ) #endif /* FT_CONFIG_OPTION_INCREMENTAL */ { FT_ERROR(( "cf2_interpT2CharString: (Type 1 seac)" " glyph names table not available in this font\n" )); lastError = FT_THROW( Invalid_Glyph_Format ); goto exit; } /* seac weirdness */ adx += decoder->builder.left_bearing->x; #ifdef FT_CONFIG_OPTION_INCREMENTAL if ( face->root.internal->incremental_interface ) { /* the caller must handle the font encoding also */ bchar_index = bchar; achar_index = achar; } else #endif { bchar_index = t1_lookup_glyph_by_stdcharcode_ps( decoder, bchar ); achar_index = t1_lookup_glyph_by_stdcharcode_ps( decoder, achar ); } if ( bchar_index < 0 || achar_index < 0 ) { FT_ERROR(( "cf2_interpT2CharString: (Type 1 seac)" " invalid seac character code arguments\n" )); lastError = FT_THROW( Invalid_Glyph_Format ); goto exit; } /* if we are trying to load a composite glyph, */ /* do not load the accent character and return */ /* the array of subglyphs. */ if ( decoder->builder.no_recurse ) { FT_GlyphSlot glyph = (FT_GlyphSlot)decoder->builder.glyph; FT_GlyphLoader loader = glyph->internal->loader; FT_SubGlyph subg; /* reallocate subglyph array if necessary */ error2 = FT_GlyphLoader_CheckSubGlyphs( loader, 2 ); if ( error2 ) { lastError = error2; /* pass FreeType error through */ goto exit; } subg = loader->current.subglyphs; /* subglyph 0 = base character */ subg->index = bchar_index; subg->flags = FT_SUBGLYPH_FLAG_ARGS_ARE_XY_VALUES | FT_SUBGLYPH_FLAG_USE_MY_METRICS; subg->arg1 = 0; subg->arg2 = 0; subg++; /* subglyph 1 = accent character */ subg->index = achar_index; subg->flags = FT_SUBGLYPH_FLAG_ARGS_ARE_XY_VALUES; subg->arg1 = (FT_Int)FIXED_TO_INT( adx - asb ); subg->arg2 = (FT_Int)FIXED_TO_INT( ady ); /* set up remaining glyph fields */ glyph->num_subglyphs = 2; glyph->subglyphs = loader->base.subglyphs; glyph->format = FT_GLYPH_FORMAT_COMPOSITE; loader->current.num_subglyphs = 2; goto exit; } /* First load `bchar' in builder */ /* now load the unscaled outline */ /* prepare loader */ FT_GlyphLoader_Prepare( decoder->builder.loader ); error2 = cf2_getT1SeacComponent( decoder, (FT_UInt)bchar_index, &component ); if ( error2 ) { lastError = error2; /* pass FreeType error through */ goto exit; } cf2_interpT2CharString( font, &component, callbacks, translation, TRUE, 0, 0, &dummyWidth ); cf2_freeT1SeacComponent( decoder, &component ); /* save the left bearing and width of the base */ /* character as they will be erased by the next load */ left_bearing = *decoder->builder.left_bearing; advance = *decoder->builder.advance; decoder->builder.left_bearing->x = 0; decoder->builder.left_bearing->y = 0; /* Now load `achar' on top of */ /* the base outline */ error2 = cf2_getT1SeacComponent( decoder, (FT_UInt)achar_index, &component ); if ( error2 ) { lastError = error2; /* pass FreeType error through */ goto exit; } cf2_interpT2CharString( font, &component, callbacks, translation, TRUE, adx - asb, ady, &dummyWidth ); cf2_freeT1SeacComponent( decoder, &component ); /* restore the left side bearing and */ /* advance width of the base character */ *decoder->builder.left_bearing = left_bearing; *decoder->builder.advance = advance; goto exit; } break; case cf2_escSBW: if ( !font->isT1 ) FT_TRACE4(( " unknown op (12, %d)\n", op2 )); else { CF2_Fixed lsb_x, lsb_y; PS_Builder* builder; FT_TRACE4(( " sbw" )); builder = &decoder->builder; builder->advance->y = cf2_stack_popFixed( opStack ); builder->advance->x = cf2_stack_popFixed( opStack ); lsb_y = cf2_stack_popFixed( opStack ); lsb_x = cf2_stack_popFixed( opStack ); builder->left_bearing->x = ADD_INT32( builder->left_bearing->x, lsb_x ); builder->left_bearing->y = ADD_INT32( builder->left_bearing->y, lsb_y ); haveWidth = TRUE; /* the `metrics_only' indicates that we only want */ /* to compute the glyph's metrics (lsb + advance */ /* width), not load the rest of it; so exit */ /* immediately */ if ( builder->metrics_only ) goto exit; if ( initial_map_ready ) { curX = ADD_INT32( curX, lsb_x ); curY = ADD_INT32( curY, lsb_y ); } } break; case cf2_escABS: { CF2_F16Dot16 arg; FT_TRACE4(( " abs\n" )); arg = cf2_stack_popFixed( opStack ); if ( arg < -CF2_FIXED_MAX ) cf2_stack_pushFixed( opStack, CF2_FIXED_MAX ); else cf2_stack_pushFixed( opStack, FT_ABS( arg ) ); } continue; /* do not clear the stack */ case cf2_escADD: { CF2_F16Dot16 summand1; CF2_F16Dot16 summand2; FT_TRACE4(( " add\n" )); summand2 = cf2_stack_popFixed( opStack ); summand1 = cf2_stack_popFixed( opStack ); cf2_stack_pushFixed( opStack, ADD_INT32( summand1, summand2 ) ); } continue; /* do not clear the stack */ case cf2_escSUB: { CF2_F16Dot16 minuend; CF2_F16Dot16 subtrahend; FT_TRACE4(( " sub\n" )); subtrahend = cf2_stack_popFixed( opStack ); minuend = cf2_stack_popFixed( opStack ); cf2_stack_pushFixed( opStack, SUB_INT32( minuend, subtrahend ) ); } continue; /* do not clear the stack */ case cf2_escDIV: { CF2_F16Dot16 dividend; CF2_F16Dot16 divisor; FT_TRACE4(( " div\n" )); if ( font->isT1 && large_int ) { divisor = (CF2_F16Dot16)cf2_stack_popInt( opStack ); dividend = (CF2_F16Dot16)cf2_stack_popInt( opStack ); large_int = FALSE; } else { divisor = cf2_stack_popFixed( opStack ); dividend = cf2_stack_popFixed( opStack ); } cf2_stack_pushFixed( opStack, FT_DivFix( dividend, divisor ) ); } continue; /* do not clear the stack */ case cf2_escNEG: { CF2_F16Dot16 arg; FT_TRACE4(( " neg\n" )); arg = cf2_stack_popFixed( opStack ); if ( arg < -CF2_FIXED_MAX ) cf2_stack_pushFixed( opStack, CF2_FIXED_MAX ); else cf2_stack_pushFixed( opStack, -arg ); } continue; /* do not clear the stack */ case cf2_escEQ: { CF2_F16Dot16 arg1; CF2_F16Dot16 arg2; FT_TRACE4(( " eq\n" )); arg2 = cf2_stack_popFixed( opStack ); arg1 = cf2_stack_popFixed( opStack ); cf2_stack_pushInt( opStack, arg1 == arg2 ); } continue; /* do not clear the stack */ case cf2_escCALLOTHERSUBR: if ( !font->isT1 ) FT_TRACE4(( " unknown op (12, %d)\n", op2 )); else { CF2_Int subr_no; CF2_Int arg_cnt; CF2_UInt count; CF2_UInt opIdx = 0; FT_TRACE4(( " callothersubr\n" )); subr_no = cf2_stack_popInt( opStack ); arg_cnt = cf2_stack_popInt( opStack ); /******************************************************** * * remove all operands to callothersubr from the stack * * for handled othersubrs, where we know the number of * arguments, we increase the stack by the value of * known_othersubr_result_cnt * * for unhandled othersubrs the following pops adjust * the stack pointer as necessary */ count = cf2_stack_count( opStack ); FT_ASSERT( (CF2_UInt)arg_cnt <= count ); opIdx += count - (CF2_UInt)arg_cnt; known_othersubr_result_cnt = 0; result_cnt = 0; /* XXX TODO: The checks to `arg_count == ' */ /* might not be correct; an othersubr expects a */ /* certain number of operands on the PostScript stack */ /* (as opposed to the T1 stack) but it doesn't have to */ /* put them there by itself; previous othersubrs might */ /* have left the operands there if they were not */ /* followed by an appropriate number of pops */ /* */ /* On the other hand, Adobe Reader 7.0.8 for Linux */ /* doesn't accept a font that contains charstrings */ /* like */ /* */ /* 100 200 2 20 callothersubr */ /* 300 1 20 callothersubr pop */ /* */ /* Perhaps this is the reason why BuildCharArray */ /* exists. */ switch ( subr_no ) { case 0: /* end flex feature */ if ( arg_cnt != 3 ) goto Unexpected_OtherSubr; if ( initial_map_ready && ( !decoder->flex_state || decoder->num_flex_vectors != 7 ) ) { FT_ERROR(( "cf2_interpT2CharString (Type 1 mode):" " unexpected flex end\n" )); lastError = FT_THROW( Invalid_Glyph_Format ); goto exit; } /* the two `results' are popped */ /* by the following setcurrentpoint */ cf2_stack_pushFixed( opStack, curX ); cf2_stack_pushFixed( opStack, curY ); known_othersubr_result_cnt = 2; break; case 1: /* start flex feature */ if ( arg_cnt != 0 ) goto Unexpected_OtherSubr; if ( !initial_map_ready ) break; if ( ps_builder_check_points( &decoder->builder, 6 ) ) goto exit; decoder->flex_state = 1; decoder->num_flex_vectors = 0; break; case 2: /* add flex vectors */ { FT_Int idx; FT_Int idx2; if ( arg_cnt != 0 ) goto Unexpected_OtherSubr; if ( !initial_map_ready ) break; if ( !decoder->flex_state ) { FT_ERROR(( "cf2_interpT2CharString (Type 1 mode):" " missing flex start\n" )); lastError = FT_THROW( Invalid_Glyph_Format ); goto exit; } /* note that we should not add a point for */ /* index 0; this will move our current position */ /* to the flex point without adding any point */ /* to the outline */ idx = decoder->num_flex_vectors++; if ( idx > 0 && idx < 7 ) { /* in malformed fonts it is possible to have */ /* other opcodes in the middle of a flex (which */ /* don't increase `num_flex_vectors'); we thus */ /* have to check whether we can add a point */ if ( ps_builder_check_points( &decoder->builder, 1 ) ) { lastError = FT_THROW( Invalid_Glyph_Format ); goto exit; } /* map: 1->2 2->4 3->6 4->2 5->4 6->6 */ idx2 = ( idx > 3 ? idx - 3 : idx ) * 2; flexStore[idx2 - 2] = curX; flexStore[idx2 - 1] = curY; if ( idx == 3 || idx == 6 ) cf2_glyphpath_curveTo( &glyphPath, flexStore[0], flexStore[1], flexStore[2], flexStore[3], flexStore[4], flexStore[5] ); } } break; case 3: /* change hints */ if ( arg_cnt != 1 ) goto Unexpected_OtherSubr; if ( initial_map_ready ) { /* do not clear hints if initial hintmap */ /* is not ready - we need to collate all */ cf2_arrstack_clear( &vStemHintArray ); cf2_arrstack_clear( &hStemHintArray ); cf2_hintmask_init( &hintMask, error ); hintMask.isValid = FALSE; hintMask.isNew = TRUE; } known_othersubr_result_cnt = 1; break; case 12: case 13: /* counter control hints, clear stack */ cf2_stack_clear( opStack ); break; case 14: case 15: case 16: case 17: case 18: /* multiple masters */ { PS_Blend blend = decoder->blend; FT_UInt num_points, nn, mm; CF2_UInt delta; CF2_UInt values; if ( !blend ) { FT_ERROR(( "cf2_interpT2CharString:" " unexpected multiple masters operator\n" )); lastError = FT_THROW( Invalid_Glyph_Format ); goto exit; } num_points = (FT_UInt)subr_no - 13 + ( subr_no == 18 ); if ( arg_cnt != (FT_Int)( num_points * blend->num_designs ) ) { FT_ERROR(( "cf2_interpT2CharString:" " incorrect number of multiple masters arguments\n" )); lastError = FT_THROW( Invalid_Glyph_Format ); goto exit; } /* We want to compute */ /* */ /* a0*w0 + a1*w1 + ... + ak*wk */ /* */ /* but we only have a0, a1-a0, a2-a0, ..., ak-a0. */ /* */ /* However, given that w0 + w1 + ... + wk == 1, we */ /* can rewrite it easily as */ /* */ /* a0 + (a1-a0)*w1 + (a2-a0)*w2 + ... + (ak-a0)*wk */ /* */ /* where k == num_designs-1. */ /* */ /* I guess that's why it's written in this `compact' */ /* form. */ /* */ delta = opIdx + num_points; values = opIdx; for ( nn = 0; nn < num_points; nn++ ) { CF2_Fixed tmp = cf2_stack_getReal( opStack, values ); for ( mm = 1; mm < blend->num_designs; mm++ ) tmp = ADD_INT32( tmp, FT_MulFix( cf2_stack_getReal( opStack, delta++ ), blend->weight_vector[mm] ) ); cf2_stack_setReal( opStack, values++, tmp ); } cf2_stack_pop( opStack, (CF2_UInt)arg_cnt - num_points ); known_othersubr_result_cnt = (FT_Int)num_points; break; } case 19: /* 1 19 callothersubr */ /* ==> replace elements starting from index */ /* cvi( ) of BuildCharArray with */ /* WeightVector */ { FT_Int idx; PS_Blend blend = decoder->blend; if ( arg_cnt != 1 || !blend ) goto Unexpected_OtherSubr; idx = cf2_stack_popInt( opStack ); if ( idx < 0 || (FT_UInt)idx + blend->num_designs > decoder->len_buildchar ) goto Unexpected_OtherSubr; ft_memcpy( &decoder->buildchar[idx], blend->weight_vector, blend->num_designs * sizeof ( blend->weight_vector[0] ) ); } break; case 20: /* 2 20 callothersubr pop */ /* ==> push + onto T1 stack */ { CF2_F16Dot16 summand1; CF2_F16Dot16 summand2; if ( arg_cnt != 2 ) goto Unexpected_OtherSubr; summand2 = cf2_stack_popFixed( opStack ); summand1 = cf2_stack_popFixed( opStack ); cf2_stack_pushFixed( opStack, ADD_INT32( summand1, summand2 ) ); known_othersubr_result_cnt = 1; } break; case 21: /* 2 21 callothersubr pop */ /* ==> push - onto T1 stack */ { CF2_F16Dot16 minuend; CF2_F16Dot16 subtrahend; if ( arg_cnt != 2 ) goto Unexpected_OtherSubr; subtrahend = cf2_stack_popFixed( opStack ); minuend = cf2_stack_popFixed( opStack ); cf2_stack_pushFixed( opStack, SUB_INT32( minuend, subtrahend ) ); known_othersubr_result_cnt = 1; } break; case 22: /* 2 22 callothersubr pop */ /* ==> push * onto T1 stack */ { CF2_F16Dot16 factor1; CF2_F16Dot16 factor2; if ( arg_cnt != 2 ) goto Unexpected_OtherSubr; factor2 = cf2_stack_popFixed( opStack ); factor1 = cf2_stack_popFixed( opStack ); cf2_stack_pushFixed( opStack, FT_MulFix( factor1, factor2 ) ); known_othersubr_result_cnt = 1; } break; case 23: /* 2 23 callothersubr pop */ /* ==> push / onto T1 stack */ { CF2_F16Dot16 dividend; CF2_F16Dot16 divisor; if ( arg_cnt != 2 ) goto Unexpected_OtherSubr; divisor = cf2_stack_popFixed( opStack ); dividend = cf2_stack_popFixed( opStack ); if ( divisor == 0 ) goto Unexpected_OtherSubr; cf2_stack_pushFixed( opStack, FT_DivFix( dividend, divisor ) ); known_othersubr_result_cnt = 1; } break; case 24: /* 2 24 callothersubr */ /* ==> set BuildCharArray[cvi( )] = */ { CF2_Int idx; PS_Blend blend = decoder->blend; if ( arg_cnt != 2 || !blend ) goto Unexpected_OtherSubr; idx = cf2_stack_popInt( opStack ); if ( idx < 0 || (FT_UInt)idx >= decoder->len_buildchar ) goto Unexpected_OtherSubr; decoder->buildchar[idx] = cf2_stack_popFixed( opStack ); } break; case 25: /* 1 25 callothersubr pop */ /* ==> push BuildCharArray[cvi( idx )] */ /* onto T1 stack */ { CF2_Int idx; PS_Blend blend = decoder->blend; if ( arg_cnt != 1 || !blend ) goto Unexpected_OtherSubr; idx = cf2_stack_popInt( opStack ); if ( idx < 0 || (FT_UInt)idx >= decoder->len_buildchar ) goto Unexpected_OtherSubr; cf2_stack_pushFixed( opStack, decoder->buildchar[idx] ); known_othersubr_result_cnt = 1; } break; #if 0 case 26: /* mark */ /* ==> set BuildCharArray[cvi( )] = , */ /* leave mark on T1 stack */ /* */ /* ==> set BuildCharArray[cvi( )] = */ XXX which routine has left its mark on the XXX (PostScript) stack?; break; #endif case 27: /* 4 27 callothersubr pop */ /* ==> push onto T1 stack if <= , */ /* otherwise push */ { CF2_F16Dot16 arg1; CF2_F16Dot16 arg2; CF2_F16Dot16 cond1; CF2_F16Dot16 cond2; if ( arg_cnt != 4 ) goto Unexpected_OtherSubr; cond2 = cf2_stack_popFixed( opStack ); cond1 = cf2_stack_popFixed( opStack ); arg2 = cf2_stack_popFixed( opStack ); arg1 = cf2_stack_popFixed( opStack ); cf2_stack_pushFixed( opStack, cond1 <= cond2 ? arg1 : arg2 ); known_othersubr_result_cnt = 1; } break; case 28: /* 0 28 callothersubr pop */ /* ==> push random value from interval [0, 1) */ /* onto stack */ { CF2_F16Dot16 r; if ( arg_cnt != 0 ) goto Unexpected_OtherSubr; /* only use the lower 16 bits of `random' */ /* to generate a number in the range (0;1] */ r = (CF2_F16Dot16) ( ( decoder->current_subfont->random & 0xFFFF ) + 1 ); decoder->current_subfont->random = cff_random( decoder->current_subfont->random ); cf2_stack_pushFixed( opStack, r ); known_othersubr_result_cnt = 1; } break; default: if ( arg_cnt >= 0 && subr_no >= 0 ) { FT_Int i; FT_ERROR(( "cf2_interpT2CharString (Type 1 mode):" " unknown othersubr [%d %d], wish me luck\n", arg_cnt, subr_no )); /* store the unused args */ /* for this unhandled OtherSubr */ if ( arg_cnt > PS_STORAGE_SIZE ) arg_cnt = PS_STORAGE_SIZE; result_cnt = arg_cnt; for ( i = 1; i <= arg_cnt; i++ ) results[result_cnt - i] = cf2_stack_popFixed( opStack ); break; } /* fall through */ Unexpected_OtherSubr: FT_ERROR(( "cf2_interpT2CharString (Type 1 mode):" " invalid othersubr [%d %d]\n", arg_cnt, subr_no )); lastError = FT_THROW( Invalid_Glyph_Format ); goto exit; } } continue; /* do not clear the stack */ case cf2_escPOP: if ( !font->isT1 ) FT_TRACE4(( " unknown op (12, %d)\n", op2 )); else { FT_TRACE4(( " pop" )); if ( known_othersubr_result_cnt > 0 ) { known_othersubr_result_cnt--; /* ignore, we pushed the operands ourselves */ continue; } if ( result_cnt == 0 ) { FT_ERROR(( "cf2_interpT2CharString (Type 1 mode):" " no more operands for othersubr\n" )); lastError = FT_THROW( Invalid_Glyph_Format ); goto exit; } result_cnt--; cf2_stack_pushFixed( opStack, results[result_cnt] ); } continue; /* do not clear the stack */ case cf2_escDROP: FT_TRACE4(( " drop\n" )); (void)cf2_stack_popFixed( opStack ); continue; /* do not clear the stack */ case cf2_escPUT: { CF2_F16Dot16 val; CF2_Int idx; FT_TRACE4(( " put\n" )); idx = cf2_stack_popInt( opStack ); val = cf2_stack_popFixed( opStack ); if ( idx >= 0 && idx < CF2_STORAGE_SIZE ) storage[idx] = val; } continue; /* do not clear the stack */ case cf2_escGET: { CF2_Int idx; FT_TRACE4(( " get\n" )); idx = cf2_stack_popInt( opStack ); if ( idx >= 0 && idx < CF2_STORAGE_SIZE ) cf2_stack_pushFixed( opStack, storage[idx] ); } continue; /* do not clear the stack */ case cf2_escIFELSE: { CF2_F16Dot16 arg1; CF2_F16Dot16 arg2; CF2_F16Dot16 cond1; CF2_F16Dot16 cond2; FT_TRACE4(( " ifelse\n" )); cond2 = cf2_stack_popFixed( opStack ); cond1 = cf2_stack_popFixed( opStack ); arg2 = cf2_stack_popFixed( opStack ); arg1 = cf2_stack_popFixed( opStack ); cf2_stack_pushFixed( opStack, cond1 <= cond2 ? arg1 : arg2 ); } continue; /* do not clear the stack */ case cf2_escRANDOM: /* in spec */ { CF2_F16Dot16 r; FT_TRACE4(( " random\n" )); /* only use the lower 16 bits of `random' */ /* to generate a number in the range (0;1] */ r = (CF2_F16Dot16) ( ( decoder->current_subfont->random & 0xFFFF ) + 1 ); decoder->current_subfont->random = cff_random( decoder->current_subfont->random ); cf2_stack_pushFixed( opStack, r ); } continue; /* do not clear the stack */ case cf2_escMUL: { CF2_F16Dot16 factor1; CF2_F16Dot16 factor2; FT_TRACE4(( " mul\n" )); factor2 = cf2_stack_popFixed( opStack ); factor1 = cf2_stack_popFixed( opStack ); cf2_stack_pushFixed( opStack, FT_MulFix( factor1, factor2 ) ); } continue; /* do not clear the stack */ case cf2_escSQRT: { CF2_F16Dot16 arg; FT_TRACE4(( " sqrt\n" )); arg = cf2_stack_popFixed( opStack ); if ( arg > 0 ) { /* use a start value that doesn't make */ /* the algorithm's addition overflow */ FT_Fixed root = arg < 10 ? arg : arg >> 1; FT_Fixed new_root; /* Babylonian method */ for (;;) { new_root = ( root + FT_DivFix( arg, root ) + 1 ) >> 1; if ( new_root == root ) break; root = new_root; } arg = new_root; } else arg = 0; cf2_stack_pushFixed( opStack, arg ); } continue; /* do not clear the stack */ case cf2_escDUP: { CF2_F16Dot16 arg; FT_TRACE4(( " dup\n" )); arg = cf2_stack_popFixed( opStack ); cf2_stack_pushFixed( opStack, arg ); cf2_stack_pushFixed( opStack, arg ); } continue; /* do not clear the stack */ case cf2_escEXCH: { CF2_F16Dot16 arg1; CF2_F16Dot16 arg2; FT_TRACE4(( " exch\n" )); arg2 = cf2_stack_popFixed( opStack ); arg1 = cf2_stack_popFixed( opStack ); cf2_stack_pushFixed( opStack, arg2 ); cf2_stack_pushFixed( opStack, arg1 ); } continue; /* do not clear the stack */ case cf2_escINDEX: { CF2_Int idx; CF2_UInt size; FT_TRACE4(( " index\n" )); idx = cf2_stack_popInt( opStack ); size = cf2_stack_count( opStack ); if ( size > 0 ) { /* for `cf2_stack_getReal', */ /* index 0 is bottom of stack */ CF2_UInt gr_idx; if ( idx < 0 ) gr_idx = size - 1; else if ( (CF2_UInt)idx >= size ) gr_idx = 0; else gr_idx = size - 1 - (CF2_UInt)idx; cf2_stack_pushFixed( opStack, cf2_stack_getReal( opStack, gr_idx ) ); } } continue; /* do not clear the stack */ case cf2_escROLL: { CF2_Int idx; CF2_Int count; FT_TRACE4(( " roll\n" )); idx = cf2_stack_popInt( opStack ); count = cf2_stack_popInt( opStack ); cf2_stack_roll( opStack, count, idx ); } continue; /* do not clear the stack */ case cf2_escSETCURRENTPT: if ( !font->isT1 ) FT_TRACE4(( " unknown op (12, %d)\n", op2 )); else { FT_TRACE4(( " setcurrentpoint" )); if ( !initial_map_ready ) break; /* From the T1 specification, section 6.4: */ /* */ /* The setcurrentpoint command is used only in */ /* conjunction with results from OtherSubrs */ /* procedures. */ /* known_othersubr_result_cnt != 0 is already handled */ /* above. */ /* Note, however, that both Ghostscript and Adobe */ /* Distiller handle this situation by silently */ /* ignoring the inappropriate `setcurrentpoint' */ /* instruction. So we do the same. */ #if 0 if ( decoder->flex_state != 1 ) { FT_ERROR(( "cf2_interpT2CharString:" " unexpected `setcurrentpoint'\n" )); goto Syntax_Error; } else ... #endif curY = cf2_stack_popFixed( opStack ); curX = cf2_stack_popFixed( opStack ); decoder->flex_state = 0; } break; } /* end of 2nd switch checking op2 */ } } } /* end of 1st switch checking op2 */ } /* case cf2_cmdESC */ break; case cf2_cmdHSBW: if ( !font->isT1 ) FT_TRACE4(( " unknown op (%d)\n", op1 )); else { CF2_Fixed lsb_x; PS_Builder* builder; FT_TRACE4(( " hsbw" )); builder = &decoder->builder; builder->advance->x = cf2_stack_popFixed( opStack ); builder->advance->y = 0; lsb_x = cf2_stack_popFixed( opStack ); builder->left_bearing->x = ADD_INT32( builder->left_bearing->x, lsb_x ); haveWidth = TRUE; /* the `metrics_only' indicates that we only want to compute */ /* the glyph's metrics (lsb + advance width), not load the */ /* rest of it; so exit immediately */ if ( builder->metrics_only ) goto exit; if ( initial_map_ready ) curX = ADD_INT32( curX, lsb_x ); } break; case cf2_cmdENDCHAR: FT_TRACE4(( " endchar\n" )); if ( font->isT1 && !initial_map_ready ) { FT_TRACE5(( "cf2_interpT2CharString (Type 1 mode): " "Build initial hintmap, rewinding...\n" )); /* trigger initial hintmap build */ cf2_glyphpath_moveTo( &glyphPath, curX, curY ); initial_map_ready = TRUE; /* change hints routine - clear for rewind */ cf2_arrstack_clear( &vStemHintArray ); cf2_arrstack_clear( &hStemHintArray ); cf2_hintmask_init( &hintMask, error ); hintMask.isValid = FALSE; hintMask.isNew = TRUE; /* rewind charstring */ /* some charstrings use endchar from a final subroutine call */ /* without returning, detect these and exit to the top level */ /* charstring */ while ( charstringIndex > 0 ) { FT_TRACE4(( " return (leaving level %d)\n", charstringIndex )); /* restore position in previous charstring */ charstring = (CF2_Buffer) cf2_arrstack_getPointer( &subrStack, (CF2_UInt)--charstringIndex ); } charstring->ptr = charstring->start; break; } if ( cf2_stack_count( opStack ) == 1 || cf2_stack_count( opStack ) == 5 ) { if ( !haveWidth ) *width = ADD_INT32( cf2_stack_getReal( opStack, 0 ), nominalWidthX ); } /* width is defined or default after this */ haveWidth = TRUE; if ( decoder->width_only ) goto exit; /* close path if still open */ cf2_glyphpath_closeOpenPath( &glyphPath ); /* disable seac for CFF2 and Type1 */ /* (charstring ending with args on stack) */ if ( !font->isCFF2 && !font->isT1 && cf2_stack_count( opStack ) > 1 ) { /* must be either 4 or 5 -- */ /* this is a (deprecated) implied `seac' operator */ CF2_Int achar; CF2_Int bchar; CF2_BufferRec component; CF2_Fixed dummyWidth; /* ignore component width */ FT_Error error2; if ( doingSeac ) { lastError = FT_THROW( Invalid_Glyph_Format ); goto exit; /* nested seac */ } achar = cf2_stack_popInt( opStack ); bchar = cf2_stack_popInt( opStack ); curY = cf2_stack_popFixed( opStack ); curX = cf2_stack_popFixed( opStack ); error2 = cf2_getSeacComponent( decoder, achar, &component ); if ( error2 ) { lastError = error2; /* pass FreeType error through */ goto exit; } cf2_interpT2CharString( font, &component, callbacks, translation, TRUE, curX, curY, &dummyWidth ); cf2_freeSeacComponent( decoder, &component ); error2 = cf2_getSeacComponent( decoder, bchar, &component ); if ( error2 ) { lastError = error2; /* pass FreeType error through */ goto exit; } cf2_interpT2CharString( font, &component, callbacks, translation, TRUE, 0, 0, &dummyWidth ); cf2_freeSeacComponent( decoder, &component ); } goto exit; case cf2_cmdCNTRMASK: case cf2_cmdHINTMASK: /* the final \n in the tracing message gets added in */ /* `cf2_hintmask_read' (which also traces the mask bytes) */ FT_TRACE4(( "%s", op1 == cf2_cmdCNTRMASK ? " cntrmask" : " hintmask" )); /* never add hints after the mask is computed */ if ( cf2_stack_count( opStack ) > 1 && cf2_hintmask_isValid( &hintMask ) ) { FT_TRACE4(( "cf2_interpT2CharString: invalid hint mask\n" )); break; } /* if there are arguments on the stack, there this is an */ /* implied cf2_cmdVSTEMHM */ cf2_doStems( font, opStack, &vStemHintArray, width, &haveWidth, 0 ); if ( decoder->width_only ) goto exit; if ( op1 == cf2_cmdHINTMASK ) { /* consume the hint mask bytes which follow the operator */ cf2_hintmask_read( &hintMask, charstring, cf2_arrstack_size( &hStemHintArray ) + cf2_arrstack_size( &vStemHintArray ) ); } else { /* * Consume the counter mask bytes which follow the operator: * Build a temporary hint map, just to place and lock those * stems participating in the counter mask. These are most * likely the dominant hstems, and are grouped together in a * few counter groups, not necessarily in correspondence * with the hint groups. This reduces the chances of * conflicts between hstems that are initially placed in * separate hint groups and then brought together. The * positions are copied back to `hStemHintArray', so we can * discard `counterMask' and `counterHintMap'. * */ CF2_HintMapRec counterHintMap; CF2_HintMaskRec counterMask; cf2_hintmap_init( &counterHintMap, font, &glyphPath.initialHintMap, &glyphPath.hintMoves, scaleY ); cf2_hintmask_init( &counterMask, error ); cf2_hintmask_read( &counterMask, charstring, cf2_arrstack_size( &hStemHintArray ) + cf2_arrstack_size( &vStemHintArray ) ); cf2_hintmap_build( &counterHintMap, &hStemHintArray, &vStemHintArray, &counterMask, 0, FALSE ); } break; case cf2_cmdRMOVETO: FT_TRACE4(( " rmoveto\n" )); if ( font->isT1 && !decoder->flex_state && !haveWidth ) FT_ERROR(( "cf2_interpT2CharString (Type 1 mode):" " No width. Use hsbw/sbw as first op\n" )); if ( cf2_stack_count( opStack ) > 2 && !haveWidth ) *width = ADD_INT32( cf2_stack_getReal( opStack, 0 ), nominalWidthX ); /* width is defined or default after this */ haveWidth = TRUE; if ( decoder->width_only ) goto exit; curY = ADD_INT32( curY, cf2_stack_popFixed( opStack ) ); curX = ADD_INT32( curX, cf2_stack_popFixed( opStack ) ); if ( !decoder->flex_state ) cf2_glyphpath_moveTo( &glyphPath, curX, curY ); break; case cf2_cmdHMOVETO: FT_TRACE4(( " hmoveto\n" )); if ( font->isT1 && !decoder->flex_state && !haveWidth ) FT_ERROR(( "cf2_interpT2CharString (Type 1 mode):" " No width. Use hsbw/sbw as first op\n" )); if ( cf2_stack_count( opStack ) > 1 && !haveWidth ) *width = ADD_INT32( cf2_stack_getReal( opStack, 0 ), nominalWidthX ); /* width is defined or default after this */ haveWidth = TRUE; if ( decoder->width_only ) goto exit; curX = ADD_INT32( curX, cf2_stack_popFixed( opStack ) ); if ( !decoder->flex_state ) cf2_glyphpath_moveTo( &glyphPath, curX, curY ); break; case cf2_cmdRLINECURVE: { CF2_UInt count = cf2_stack_count( opStack ); CF2_UInt idx = 0; FT_TRACE4(( " rlinecurve\n" )); while ( idx + 6 < count ) { curX = ADD_INT32( curX, cf2_stack_getReal( opStack, idx + 0 ) ); curY = ADD_INT32( curY, cf2_stack_getReal( opStack, idx + 1 ) ); cf2_glyphpath_lineTo( &glyphPath, curX, curY ); idx += 2; } while ( idx < count ) { CF2_Fixed x1, y1, x2, y2, x3, y3; x1 = ADD_INT32( cf2_stack_getReal( opStack, idx + 0 ), curX ); y1 = ADD_INT32( cf2_stack_getReal( opStack, idx + 1 ), curY ); x2 = ADD_INT32( cf2_stack_getReal( opStack, idx + 2 ), x1 ); y2 = ADD_INT32( cf2_stack_getReal( opStack, idx + 3 ), y1 ); x3 = ADD_INT32( cf2_stack_getReal( opStack, idx + 4 ), x2 ); y3 = ADD_INT32( cf2_stack_getReal( opStack, idx + 5 ), y2 ); cf2_glyphpath_curveTo( &glyphPath, x1, y1, x2, y2, x3, y3 ); curX = x3; curY = y3; idx += 6; } cf2_stack_clear( opStack ); } continue; /* no need to clear stack again */ case cf2_cmdVVCURVETO: { CF2_UInt count, count1 = cf2_stack_count( opStack ); CF2_UInt idx = 0; /* if `cf2_stack_count' isn't of the form 4n or 4n+1, */ /* we enforce it by clearing the second bit */ /* (and sorting the stack indexing to suit) */ count = count1 & ~2U; idx += count1 - count; FT_TRACE4(( " vvcurveto\n" )); while ( idx < count ) { CF2_Fixed x1, y1, x2, y2, x3, y3; if ( ( count - idx ) & 1 ) { x1 = ADD_INT32( cf2_stack_getReal( opStack, idx ), curX ); idx++; } else x1 = curX; y1 = ADD_INT32( cf2_stack_getReal( opStack, idx + 0 ), curY ); x2 = ADD_INT32( cf2_stack_getReal( opStack, idx + 1 ), x1 ); y2 = ADD_INT32( cf2_stack_getReal( opStack, idx + 2 ), y1 ); x3 = x2; y3 = ADD_INT32( cf2_stack_getReal( opStack, idx + 3 ), y2 ); cf2_glyphpath_curveTo( &glyphPath, x1, y1, x2, y2, x3, y3 ); curX = x3; curY = y3; idx += 4; } cf2_stack_clear( opStack ); } continue; /* no need to clear stack again */ case cf2_cmdHHCURVETO: { CF2_UInt count, count1 = cf2_stack_count( opStack ); CF2_UInt idx = 0; /* if `cf2_stack_count' isn't of the form 4n or 4n+1, */ /* we enforce it by clearing the second bit */ /* (and sorting the stack indexing to suit) */ count = count1 & ~2U; idx += count1 - count; FT_TRACE4(( " hhcurveto\n" )); while ( idx < count ) { CF2_Fixed x1, y1, x2, y2, x3, y3; if ( ( count - idx ) & 1 ) { y1 = ADD_INT32( cf2_stack_getReal( opStack, idx ), curY ); idx++; } else y1 = curY; x1 = ADD_INT32( cf2_stack_getReal( opStack, idx + 0 ), curX ); x2 = ADD_INT32( cf2_stack_getReal( opStack, idx + 1 ), x1 ); y2 = ADD_INT32( cf2_stack_getReal( opStack, idx + 2 ), y1 ); x3 = ADD_INT32( cf2_stack_getReal( opStack, idx + 3 ), x2 ); y3 = y2; cf2_glyphpath_curveTo( &glyphPath, x1, y1, x2, y2, x3, y3 ); curX = x3; curY = y3; idx += 4; } cf2_stack_clear( opStack ); } continue; /* no need to clear stack again */ case cf2_cmdVHCURVETO: case cf2_cmdHVCURVETO: { CF2_UInt count, count1 = cf2_stack_count( opStack ); CF2_UInt idx = 0; FT_Bool alternate = FT_BOOL( op1 == cf2_cmdHVCURVETO ); /* if `cf2_stack_count' isn't of the form 8n, 8n+1, */ /* 8n+4, or 8n+5, we enforce it by clearing the */ /* second bit */ /* (and sorting the stack indexing to suit) */ count = count1 & ~2U; idx += count1 - count; FT_TRACE4(( "%s\n", alternate ? " hvcurveto" : " vhcurveto" )); while ( idx < count ) { CF2_Fixed x1, x2, x3, y1, y2, y3; if ( alternate ) { x1 = ADD_INT32( cf2_stack_getReal( opStack, idx + 0 ), curX ); y1 = curY; x2 = ADD_INT32( cf2_stack_getReal( opStack, idx + 1 ), x1 ); y2 = ADD_INT32( cf2_stack_getReal( opStack, idx + 2 ), y1 ); y3 = ADD_INT32( cf2_stack_getReal( opStack, idx + 3 ), y2 ); if ( count - idx == 5 ) { x3 = ADD_INT32( cf2_stack_getReal( opStack, idx + 4 ), x2 ); idx++; } else x3 = x2; alternate = FALSE; } else { x1 = curX; y1 = ADD_INT32( cf2_stack_getReal( opStack, idx + 0 ), curY ); x2 = ADD_INT32( cf2_stack_getReal( opStack, idx + 1 ), x1 ); y2 = ADD_INT32( cf2_stack_getReal( opStack, idx + 2 ), y1 ); x3 = ADD_INT32( cf2_stack_getReal( opStack, idx + 3 ), x2 ); if ( count - idx == 5 ) { y3 = ADD_INT32( cf2_stack_getReal( opStack, idx + 4 ), y2 ); idx++; } else y3 = y2; alternate = TRUE; } cf2_glyphpath_curveTo( &glyphPath, x1, y1, x2, y2, x3, y3 ); curX = x3; curY = y3; idx += 4; } cf2_stack_clear( opStack ); } continue; /* no need to clear stack again */ case cf2_cmdEXTENDEDNMBR: { CF2_Int v; CF2_Int byte1 = cf2_buf_readByte( charstring ); CF2_Int byte2 = cf2_buf_readByte( charstring ); v = (FT_Short)( ( byte1 << 8 ) | byte2 ); FT_TRACE4(( " %d", v )); cf2_stack_pushInt( opStack, v ); } continue; default: /* numbers */ { if ( /* op1 >= 32 && */ op1 <= 246 ) { CF2_Int v; v = op1 - 139; FT_TRACE4(( " %d", v )); /* -107 .. 107 */ cf2_stack_pushInt( opStack, v ); } else if ( /* op1 >= 247 && */ op1 <= 250 ) { CF2_Int v; v = op1; v -= 247; v *= 256; v += cf2_buf_readByte( charstring ); v += 108; FT_TRACE4(( " %d", v )); /* 108 .. 1131 */ cf2_stack_pushInt( opStack, v ); } else if ( /* op1 >= 251 && */ op1 <= 254 ) { CF2_Int v; v = op1; v -= 251; v *= 256; v += cf2_buf_readByte( charstring ); v = -v - 108; FT_TRACE4(( " %d", v )); /* -1131 .. -108 */ cf2_stack_pushInt( opStack, v ); } else /* op1 == 255 */ { CF2_Fixed v; FT_UInt32 byte1 = (FT_UInt32)cf2_buf_readByte( charstring ); FT_UInt32 byte2 = (FT_UInt32)cf2_buf_readByte( charstring ); FT_UInt32 byte3 = (FT_UInt32)cf2_buf_readByte( charstring ); FT_UInt32 byte4 = (FT_UInt32)cf2_buf_readByte( charstring ); v = (CF2_Fixed)( ( byte1 << 24 ) | ( byte2 << 16 ) | ( byte3 << 8 ) | byte4 ); /* * For Type 1: * * According to the specification, values > 32000 or < -32000 * must be followed by a `div' operator to make the result be * in the range [-32000;32000]. We expect that the second * argument of `div' is not a large number. Additionally, we * don't handle stuff like ` div * div' or div div'. This is probably * not allowed anyway. * * + div is not checked but should not be * allowed as the large value remains untouched. * */ if ( font->isT1 ) { if ( v > 32000 || v < -32000 ) { if ( large_int ) FT_ERROR(( "cf2_interpT2CharString (Type 1 mode):" " no `div' after large integer\n" )); else large_int = TRUE; } FT_TRACE4(( " %d", v )); cf2_stack_pushInt( opStack, (CF2_Int)v ); } else { FT_TRACE4(( " %.5fF", v / 65536.0 )); cf2_stack_pushFixed( opStack, v ); } } } continue; /* don't clear stack */ } /* end of switch statement checking `op1' */ cf2_stack_clear( opStack ); } /* end of main interpreter loop */ /* we get here if the charstring ends without cf2_cmdENDCHAR */ FT_TRACE4(( "cf2_interpT2CharString:" " charstring ends without ENDCHAR\n" )); exit: /* check whether last error seen is also the first one */ cf2_setError( error, lastError ); if ( *error ) FT_TRACE4(( "charstring error %d\n", *error )); /* free resources from objects we've used */ cf2_glyphpath_finalize( &glyphPath ); cf2_arrstack_finalize( &vStemHintArray ); cf2_arrstack_finalize( &hStemHintArray ); cf2_arrstack_finalize( &subrStack ); cf2_stack_free( opStack ); FT_TRACE4(( "\n" )); return; } /* END */