Hash :
0589e3c0
Author :
Date :
2017-09-25T06:10:20
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/***************************************************************************/
/* */
/* cf2intrp.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 */
/*************************************************************************/
/* */
/* 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 trace_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_cmdRESERVED_9, /* 9 */
cf2_cmdCALLSUBR, /* 10 */
cf2_cmdRETURN, /* 11 */
cf2_cmdESC, /* 12 */
cf2_cmdRESERVED_13, /* 13 */
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_escRESERVED_1, /* 1 */
cf2_escRESERVED_2, /* 2 */
cf2_escAND, /* 3 */
cf2_escOR, /* 4 */
cf2_escNOT, /* 5 */
cf2_escRESERVED_6, /* 6 */
cf2_escRESERVED_7, /* 7 */
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_escRESERVED_16, /* 16 */
cf2_escRESERVED_17, /* 17 */
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_escRESERVED_33, /* 33 */
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 ( hasWidthArg && !*haveWidth )
*width = 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 );
/* 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' */
/* 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 );
/* 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 ( 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;
}
/* 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_9:
case cf2_cmdRESERVED_13:
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(( op1 == cf2_cmdHSTEMHM ? " hstemhm\n" : " hstem\n" ));
/* never add hints after the mask is computed */
if ( cf2_hintmask_isValid( &hintMask ) )
{
FT_TRACE4(( "cf2_interpT2CharString:"
" invalid horizontal hint mask\n" ));
break;
}
cf2_doStems( font,
opStack,
&hStemHintArray,
width,
&haveWidth,
0 );
if ( font->decoder->width_only )
goto exit;
break;
case cf2_cmdVSTEMHM:
case cf2_cmdVSTEM:
FT_TRACE4(( op1 == cf2_cmdVSTEMHM ? " vstemhm\n" : " vstem\n" ));
/* never add hints after the mask is computed */
if ( cf2_hintmask_isValid( &hintMask ) )
{
FT_TRACE4(( "cf2_interpT2CharString:"
" invalid vertical hint mask\n" ));
break;
}
cf2_doStems( font,
opStack,
&vStemHintArray,
width,
&haveWidth,
0 );
if ( font->decoder->width_only )
goto exit;
break;
case cf2_cmdVMOVETO:
FT_TRACE4(( " vmoveto\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 ( font->decoder->width_only )
goto exit;
curY = ADD_INT32( curY, cf2_stack_popFixed( opStack ) );
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(( isX ? " hlineto\n" : " vlineto\n" ));
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(( op1 == cf2_cmdRCURVELINE ? " rcurveline\n"
: " rrcurveto\n" ));
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_cmdCALLGSUBR:
case cf2_cmdCALLSUBR:
{
CF2_Int subrNum;
FT_TRACE4(( op1 == cf2_cmdCALLGSUBR ? " callgsubr"
: " callsubr" ));
if ( charstringIndex > CF2_MAX_SUBR )
{
/* 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 );
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 reserved in both CFF & CFF2 */
case cf2_escRESERVED_1:
case cf2_escRESERVED_2:
case cf2_escRESERVED_6:
case cf2_escRESERVED_7:
case cf2_escRESERVED_8:
case cf2_escRESERVED_13:
case cf2_escRESERVED_16:
case cf2_escRESERVED_17:
case cf2_escRESERVED_19:
case cf2_escRESERVED_25:
case cf2_escRESERVED_31:
case cf2_escRESERVED_32:
case cf2_escRESERVED_33:
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
{
/* second switch for 2-byte operators handles just CFF */
switch ( op2 )
{
case cf2_escDOTSECTION:
/* something about `flip type of locking' -- ignore it */
FT_TRACE4(( " dotsection\n" ));
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_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" ));
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_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 */
} /* end of 2nd switch checking op2 */
}
}
} /* end of 1st switch checking op2 */
} /* case cf2_cmdESC */
break;
case cf2_cmdENDCHAR:
FT_TRACE4(( " endchar\n" ));
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 ( font->decoder->width_only )
goto exit;
/* close path if still open */
cf2_glyphpath_closeOpenPath( &glyphPath );
/* disable seac for CFF2 (charstring ending with args on stack) */
if ( !font->isCFF2 && 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(( 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 ( font->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 ( 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 ( font->decoder->width_only )
goto exit;
curY = ADD_INT32( curY, cf2_stack_popFixed( opStack ) );
curX = ADD_INT32( curX, cf2_stack_popFixed( opStack ) );
cf2_glyphpath_moveTo( &glyphPath, curX, curY );
break;
case cf2_cmdHMOVETO:
FT_TRACE4(( " hmoveto\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 ( font->decoder->width_only )
goto exit;
curX = ADD_INT32( curX, cf2_stack_popFixed( opStack ) );
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(( alternate ? " hvcurveto\n" : " vhcurveto\n" ));
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 );
FT_TRACE4(( " %.5f", 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 */