--- a/misc/libfreetype/src/truetype/ttinterp.c Tue Jul 16 11:14:27 2013 +0200
+++ /dev/null Thu Jan 01 00:00:00 1970 +0000
@@ -1,8210 +0,0 @@
-/***************************************************************************/
-/* */
-/* ttinterp.c */
-/* */
-/* TrueType bytecode interpreter (body). */
-/* */
-/* Copyright 1996-2011 */
-/* by David Turner, Robert Wilhelm, and Werner Lemberg. */
-/* */
-/* This file is part of the FreeType project, and may only be used, */
-/* modified, and distributed under the terms of the FreeType project */
-/* license, LICENSE.TXT. By continuing to use, modify, or distribute */
-/* this file you indicate that you have read the license and */
-/* understand and accept it fully. */
-/* */
-/***************************************************************************/
-
-
-#include <ft2build.h>
-#include FT_INTERNAL_DEBUG_H
-#include FT_INTERNAL_CALC_H
-#include FT_TRIGONOMETRY_H
-#include FT_SYSTEM_H
-
-#include "ttinterp.h"
-
-#include "tterrors.h"
-
-
-#ifdef TT_USE_BYTECODE_INTERPRETER
-
-
-#define TT_MULFIX FT_MulFix
-#define TT_MULDIV FT_MulDiv
-#define TT_MULDIV_NO_ROUND FT_MulDiv_No_Round
-
-
- /*************************************************************************/
- /* */
- /* 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_ttinterp
-
- /*************************************************************************/
- /* */
- /* In order to detect infinite loops in the code, we set up a counter */
- /* within the run loop. A single stroke of interpretation is now */
- /* limited to a maximal number of opcodes defined below. */
- /* */
-#define MAX_RUNNABLE_OPCODES 1000000L
-
-
- /*************************************************************************/
- /* */
- /* There are two kinds of implementations: */
- /* */
- /* a. static implementation */
- /* */
- /* The current execution context is a static variable, which fields */
- /* are accessed directly by the interpreter during execution. The */
- /* context is named `cur'. */
- /* */
- /* This version is non-reentrant, of course. */
- /* */
- /* b. indirect implementation */
- /* */
- /* The current execution context is passed to _each_ function as its */
- /* first argument, and each field is thus accessed indirectly. */
- /* */
- /* This version is fully re-entrant. */
- /* */
- /* The idea is that an indirect implementation may be slower to execute */
- /* on low-end processors that are used in some systems (like 386s or */
- /* even 486s). */
- /* */
- /* As a consequence, the indirect implementation is now the default, as */
- /* its performance costs can be considered negligible in our context. */
- /* Note, however, that we kept the same source with macros because: */
- /* */
- /* - The code is kept very close in design to the Pascal code used for */
- /* development. */
- /* */
- /* - It's much more readable that way! */
- /* */
- /* - It's still open to experimentation and tuning. */
- /* */
- /*************************************************************************/
-
-
-#ifndef TT_CONFIG_OPTION_STATIC_INTERPRETER /* indirect implementation */
-
-#define CUR (*exc) /* see ttobjs.h */
-
- /*************************************************************************/
- /* */
- /* This macro is used whenever `exec' is unused in a function, to avoid */
- /* stupid warnings from pedantic compilers. */
- /* */
-#define FT_UNUSED_EXEC FT_UNUSED( exc )
-
-#else /* static implementation */
-
-#define CUR cur
-
-#define FT_UNUSED_EXEC int __dummy = __dummy
-
- static
- TT_ExecContextRec cur; /* static exec. context variable */
-
- /* apparently, we have a _lot_ of direct indexing when accessing */
- /* the static `cur', which makes the code bigger (due to all the */
- /* four bytes addresses). */
-
-#endif /* TT_CONFIG_OPTION_STATIC_INTERPRETER */
-
-
- /*************************************************************************/
- /* */
- /* The instruction argument stack. */
- /* */
-#define INS_ARG EXEC_OP_ FT_Long* args /* see ttobjs.h for EXEC_OP_ */
-
-
- /*************************************************************************/
- /* */
- /* This macro is used whenever `args' is unused in a function, to avoid */
- /* stupid warnings from pedantic compilers. */
- /* */
-#define FT_UNUSED_ARG FT_UNUSED_EXEC; FT_UNUSED( args )
-
-
- /*************************************************************************/
- /* */
- /* The following macros hide the use of EXEC_ARG and EXEC_ARG_ to */
- /* increase readability of the code. */
- /* */
- /*************************************************************************/
-
-
-#define SKIP_Code() \
- SkipCode( EXEC_ARG )
-
-#define GET_ShortIns() \
- GetShortIns( EXEC_ARG )
-
-#define NORMalize( x, y, v ) \
- Normalize( EXEC_ARG_ x, y, v )
-
-#define SET_SuperRound( scale, flags ) \
- SetSuperRound( EXEC_ARG_ scale, flags )
-
-#define ROUND_None( d, c ) \
- Round_None( EXEC_ARG_ d, c )
-
-#define INS_Goto_CodeRange( range, ip ) \
- Ins_Goto_CodeRange( EXEC_ARG_ range, ip )
-
-#define CUR_Func_move( z, p, d ) \
- CUR.func_move( EXEC_ARG_ z, p, d )
-
-#define CUR_Func_move_orig( z, p, d ) \
- CUR.func_move_orig( EXEC_ARG_ z, p, d )
-
-#define CUR_Func_round( d, c ) \
- CUR.func_round( EXEC_ARG_ d, c )
-
-#define CUR_Func_read_cvt( index ) \
- CUR.func_read_cvt( EXEC_ARG_ index )
-
-#define CUR_Func_write_cvt( index, val ) \
- CUR.func_write_cvt( EXEC_ARG_ index, val )
-
-#define CUR_Func_move_cvt( index, val ) \
- CUR.func_move_cvt( EXEC_ARG_ index, val )
-
-#define CURRENT_Ratio() \
- Current_Ratio( EXEC_ARG )
-
-#define CURRENT_Ppem() \
- Current_Ppem( EXEC_ARG )
-
-#define CUR_Ppem() \
- Cur_PPEM( EXEC_ARG )
-
-#define INS_SxVTL( a, b, c, d ) \
- Ins_SxVTL( EXEC_ARG_ a, b, c, d )
-
-#define COMPUTE_Funcs() \
- Compute_Funcs( EXEC_ARG )
-
-#define COMPUTE_Round( a ) \
- Compute_Round( EXEC_ARG_ a )
-
-#define COMPUTE_Point_Displacement( a, b, c, d ) \
- Compute_Point_Displacement( EXEC_ARG_ a, b, c, d )
-
-#define MOVE_Zp2_Point( a, b, c, t ) \
- Move_Zp2_Point( EXEC_ARG_ a, b, c, t )
-
-
-#define CUR_Func_project( v1, v2 ) \
- CUR.func_project( EXEC_ARG_ (v1)->x - (v2)->x, (v1)->y - (v2)->y )
-
-#define CUR_Func_dualproj( v1, v2 ) \
- CUR.func_dualproj( EXEC_ARG_ (v1)->x - (v2)->x, (v1)->y - (v2)->y )
-
-#define CUR_fast_project( v ) \
- CUR.func_project( EXEC_ARG_ (v)->x, (v)->y )
-
-#define CUR_fast_dualproj( v ) \
- CUR.func_dualproj( EXEC_ARG_ (v)->x, (v)->y )
-
-
- /*************************************************************************/
- /* */
- /* Instruction dispatch function, as used by the interpreter. */
- /* */
- typedef void (*TInstruction_Function)( INS_ARG );
-
-
- /*************************************************************************/
- /* */
- /* Two simple bounds-checking macros. */
- /* */
-#define BOUNDS( x, n ) ( (FT_UInt)(x) >= (FT_UInt)(n) )
-#define BOUNDSL( x, n ) ( (FT_ULong)(x) >= (FT_ULong)(n) )
-
-#undef SUCCESS
-#define SUCCESS 0
-
-#undef FAILURE
-#define FAILURE 1
-
-#ifdef TT_CONFIG_OPTION_UNPATENTED_HINTING
-#define GUESS_VECTOR( V ) \
- if ( CUR.face->unpatented_hinting ) \
- { \
- CUR.GS.V.x = (FT_F2Dot14)( CUR.GS.both_x_axis ? 0x4000 : 0 ); \
- CUR.GS.V.y = (FT_F2Dot14)( CUR.GS.both_x_axis ? 0 : 0x4000 ); \
- }
-#else
-#define GUESS_VECTOR( V )
-#endif
-
- /*************************************************************************/
- /* */
- /* CODERANGE FUNCTIONS */
- /* */
- /*************************************************************************/
-
-
- /*************************************************************************/
- /* */
- /* <Function> */
- /* TT_Goto_CodeRange */
- /* */
- /* <Description> */
- /* Switches to a new code range (updates the code related elements in */
- /* `exec', and `IP'). */
- /* */
- /* <Input> */
- /* range :: The new execution code range. */
- /* */
- /* IP :: The new IP in the new code range. */
- /* */
- /* <InOut> */
- /* exec :: The target execution context. */
- /* */
- /* <Return> */
- /* FreeType error code. 0 means success. */
- /* */
- FT_LOCAL_DEF( FT_Error )
- TT_Goto_CodeRange( TT_ExecContext exec,
- FT_Int range,
- FT_Long IP )
- {
- TT_CodeRange* coderange;
-
-
- FT_ASSERT( range >= 1 && range <= 3 );
-
- coderange = &exec->codeRangeTable[range - 1];
-
- FT_ASSERT( coderange->base != NULL );
-
- /* NOTE: Because the last instruction of a program may be a CALL */
- /* which will return to the first byte *after* the code */
- /* range, we test for IP <= Size instead of IP < Size. */
- /* */
- FT_ASSERT( (FT_ULong)IP <= coderange->size );
-
- exec->code = coderange->base;
- exec->codeSize = coderange->size;
- exec->IP = IP;
- exec->curRange = range;
-
- return TT_Err_Ok;
- }
-
-
- /*************************************************************************/
- /* */
- /* <Function> */
- /* TT_Set_CodeRange */
- /* */
- /* <Description> */
- /* Sets a code range. */
- /* */
- /* <Input> */
- /* range :: The code range index. */
- /* */
- /* base :: The new code base. */
- /* */
- /* length :: The range size in bytes. */
- /* */
- /* <InOut> */
- /* exec :: The target execution context. */
- /* */
- /* <Return> */
- /* FreeType error code. 0 means success. */
- /* */
- FT_LOCAL_DEF( FT_Error )
- TT_Set_CodeRange( TT_ExecContext exec,
- FT_Int range,
- void* base,
- FT_Long length )
- {
- FT_ASSERT( range >= 1 && range <= 3 );
-
- exec->codeRangeTable[range - 1].base = (FT_Byte*)base;
- exec->codeRangeTable[range - 1].size = length;
-
- return TT_Err_Ok;
- }
-
-
- /*************************************************************************/
- /* */
- /* <Function> */
- /* TT_Clear_CodeRange */
- /* */
- /* <Description> */
- /* Clears a code range. */
- /* */
- /* <Input> */
- /* range :: The code range index. */
- /* */
- /* <InOut> */
- /* exec :: The target execution context. */
- /* */
- /* <Return> */
- /* FreeType error code. 0 means success. */
- /* */
- /* <Note> */
- /* Does not set the Error variable. */
- /* */
- FT_LOCAL_DEF( FT_Error )
- TT_Clear_CodeRange( TT_ExecContext exec,
- FT_Int range )
- {
- FT_ASSERT( range >= 1 && range <= 3 );
-
- exec->codeRangeTable[range - 1].base = NULL;
- exec->codeRangeTable[range - 1].size = 0;
-
- return TT_Err_Ok;
- }
-
-
- /*************************************************************************/
- /* */
- /* EXECUTION CONTEXT ROUTINES */
- /* */
- /*************************************************************************/
-
-
- /*************************************************************************/
- /* */
- /* <Function> */
- /* TT_Done_Context */
- /* */
- /* <Description> */
- /* Destroys a given context. */
- /* */
- /* <Input> */
- /* exec :: A handle to the target execution context. */
- /* */
- /* memory :: A handle to the parent memory object. */
- /* */
- /* <Return> */
- /* FreeType error code. 0 means success. */
- /* */
- /* <Note> */
- /* Only the glyph loader and debugger should call this function. */
- /* */
- FT_LOCAL_DEF( FT_Error )
- TT_Done_Context( TT_ExecContext exec )
- {
- FT_Memory memory = exec->memory;
-
-
- /* points zone */
- exec->maxPoints = 0;
- exec->maxContours = 0;
-
- /* free stack */
- FT_FREE( exec->stack );
- exec->stackSize = 0;
-
- /* free call stack */
- FT_FREE( exec->callStack );
- exec->callSize = 0;
- exec->callTop = 0;
-
- /* free glyph code range */
- FT_FREE( exec->glyphIns );
- exec->glyphSize = 0;
-
- exec->size = NULL;
- exec->face = NULL;
-
- FT_FREE( exec );
-
- return TT_Err_Ok;
- }
-
-
- /*************************************************************************/
- /* */
- /* <Function> */
- /* Init_Context */
- /* */
- /* <Description> */
- /* Initializes a context object. */
- /* */
- /* <Input> */
- /* memory :: A handle to the parent memory object. */
- /* */
- /* <InOut> */
- /* exec :: A handle to the target execution context. */
- /* */
- /* <Return> */
- /* FreeType error code. 0 means success. */
- /* */
- static FT_Error
- Init_Context( TT_ExecContext exec,
- FT_Memory memory )
- {
- FT_Error error;
-
-
- FT_TRACE1(( "Init_Context: new object at 0x%08p\n", exec ));
-
- exec->memory = memory;
- exec->callSize = 32;
-
- if ( FT_NEW_ARRAY( exec->callStack, exec->callSize ) )
- goto Fail_Memory;
-
- /* all values in the context are set to 0 already, but this is */
- /* here as a remainder */
- exec->maxPoints = 0;
- exec->maxContours = 0;
-
- exec->stackSize = 0;
- exec->glyphSize = 0;
-
- exec->stack = NULL;
- exec->glyphIns = NULL;
-
- exec->face = NULL;
- exec->size = NULL;
-
- return TT_Err_Ok;
-
- Fail_Memory:
- FT_ERROR(( "Init_Context: not enough memory for %p\n", exec ));
- TT_Done_Context( exec );
-
- return error;
- }
-
-
- /*************************************************************************/
- /* */
- /* <Function> */
- /* Update_Max */
- /* */
- /* <Description> */
- /* Checks the size of a buffer and reallocates it if necessary. */
- /* */
- /* <Input> */
- /* memory :: A handle to the parent memory object. */
- /* */
- /* multiplier :: The size in bytes of each element in the buffer. */
- /* */
- /* new_max :: The new capacity (size) of the buffer. */
- /* */
- /* <InOut> */
- /* size :: The address of the buffer's current size expressed */
- /* in elements. */
- /* */
- /* buff :: The address of the buffer base pointer. */
- /* */
- /* <Return> */
- /* FreeType error code. 0 means success. */
- /* */
- FT_LOCAL_DEF( FT_Error )
- Update_Max( FT_Memory memory,
- FT_ULong* size,
- FT_Long multiplier,
- void* _pbuff,
- FT_ULong new_max )
- {
- FT_Error error;
- void** pbuff = (void**)_pbuff;
-
-
- if ( *size < new_max )
- {
- if ( FT_REALLOC( *pbuff, *size * multiplier, new_max * multiplier ) )
- return error;
- *size = new_max;
- }
-
- return TT_Err_Ok;
- }
-
-
- /*************************************************************************/
- /* */
- /* <Function> */
- /* TT_Load_Context */
- /* */
- /* <Description> */
- /* Prepare an execution context for glyph hinting. */
- /* */
- /* <Input> */
- /* face :: A handle to the source face object. */
- /* */
- /* size :: A handle to the source size object. */
- /* */
- /* <InOut> */
- /* exec :: A handle to the target execution context. */
- /* */
- /* <Return> */
- /* FreeType error code. 0 means success. */
- /* */
- /* <Note> */
- /* Only the glyph loader and debugger should call this function. */
- /* */
- FT_LOCAL_DEF( FT_Error )
- TT_Load_Context( TT_ExecContext exec,
- TT_Face face,
- TT_Size size )
- {
- FT_Int i;
- FT_ULong tmp;
- TT_MaxProfile* maxp;
- FT_Error error;
-
-
- exec->face = face;
- maxp = &face->max_profile;
- exec->size = size;
-
- if ( size )
- {
- exec->numFDefs = size->num_function_defs;
- exec->maxFDefs = size->max_function_defs;
- exec->numIDefs = size->num_instruction_defs;
- exec->maxIDefs = size->max_instruction_defs;
- exec->FDefs = size->function_defs;
- exec->IDefs = size->instruction_defs;
- exec->tt_metrics = size->ttmetrics;
- exec->metrics = size->metrics;
-
- exec->maxFunc = size->max_func;
- exec->maxIns = size->max_ins;
-
- for ( i = 0; i < TT_MAX_CODE_RANGES; i++ )
- exec->codeRangeTable[i] = size->codeRangeTable[i];
-
- /* set graphics state */
- exec->GS = size->GS;
-
- exec->cvtSize = size->cvt_size;
- exec->cvt = size->cvt;
-
- exec->storeSize = size->storage_size;
- exec->storage = size->storage;
-
- exec->twilight = size->twilight;
-
- /* In case of multi-threading it can happen that the old size object */
- /* no longer exists, thus we must clear all glyph zone references. */
- ft_memset( &exec->zp0, 0, sizeof ( exec->zp0 ) );
- exec->zp1 = exec->zp0;
- exec->zp2 = exec->zp0;
- }
-
- /* XXX: We reserve a little more elements on the stack to deal safely */
- /* with broken fonts like arialbs, courbs, timesbs, etc. */
- tmp = exec->stackSize;
- error = Update_Max( exec->memory,
- &tmp,
- sizeof ( FT_F26Dot6 ),
- (void*)&exec->stack,
- maxp->maxStackElements + 32 );
- exec->stackSize = (FT_UInt)tmp;
- if ( error )
- return error;
-
- tmp = exec->glyphSize;
- error = Update_Max( exec->memory,
- &tmp,
- sizeof ( FT_Byte ),
- (void*)&exec->glyphIns,
- maxp->maxSizeOfInstructions );
- exec->glyphSize = (FT_UShort)tmp;
- if ( error )
- return error;
-
- exec->pts.n_points = 0;
- exec->pts.n_contours = 0;
-
- exec->zp1 = exec->pts;
- exec->zp2 = exec->pts;
- exec->zp0 = exec->pts;
-
- exec->instruction_trap = FALSE;
-
- return TT_Err_Ok;
- }
-
-
- /*************************************************************************/
- /* */
- /* <Function> */
- /* TT_Save_Context */
- /* */
- /* <Description> */
- /* Saves the code ranges in a `size' object. */
- /* */
- /* <Input> */
- /* exec :: A handle to the source execution context. */
- /* */
- /* <InOut> */
- /* size :: A handle to the target size object. */
- /* */
- /* <Return> */
- /* FreeType error code. 0 means success. */
- /* */
- /* <Note> */
- /* Only the glyph loader and debugger should call this function. */
- /* */
- FT_LOCAL_DEF( FT_Error )
- TT_Save_Context( TT_ExecContext exec,
- TT_Size size )
- {
- FT_Int i;
-
-
- /* XXXX: Will probably disappear soon with all the code range */
- /* management, which is now rather obsolete. */
- /* */
- size->num_function_defs = exec->numFDefs;
- size->num_instruction_defs = exec->numIDefs;
-
- size->max_func = exec->maxFunc;
- size->max_ins = exec->maxIns;
-
- for ( i = 0; i < TT_MAX_CODE_RANGES; i++ )
- size->codeRangeTable[i] = exec->codeRangeTable[i];
-
- return TT_Err_Ok;
- }
-
-
- /*************************************************************************/
- /* */
- /* <Function> */
- /* TT_Run_Context */
- /* */
- /* <Description> */
- /* Executes one or more instructions in the execution context. */
- /* */
- /* <Input> */
- /* debug :: A Boolean flag. If set, the function sets some internal */
- /* variables and returns immediately, otherwise TT_RunIns() */
- /* is called. */
- /* */
- /* This is commented out currently. */
- /* */
- /* <Input> */
- /* exec :: A handle to the target execution context. */
- /* */
- /* <Return> */
- /* TrueType error code. 0 means success. */
- /* */
- /* <Note> */
- /* Only the glyph loader and debugger should call this function. */
- /* */
- FT_LOCAL_DEF( FT_Error )
- TT_Run_Context( TT_ExecContext exec,
- FT_Bool debug )
- {
- FT_Error error;
-
-
- if ( ( error = TT_Goto_CodeRange( exec, tt_coderange_glyph, 0 ) )
- != TT_Err_Ok )
- return error;
-
- exec->zp0 = exec->pts;
- exec->zp1 = exec->pts;
- exec->zp2 = exec->pts;
-
- exec->GS.gep0 = 1;
- exec->GS.gep1 = 1;
- exec->GS.gep2 = 1;
-
- exec->GS.projVector.x = 0x4000;
- exec->GS.projVector.y = 0x0000;
-
- exec->GS.freeVector = exec->GS.projVector;
- exec->GS.dualVector = exec->GS.projVector;
-
-#ifdef TT_CONFIG_OPTION_UNPATENTED_HINTING
- exec->GS.both_x_axis = TRUE;
-#endif
-
- exec->GS.round_state = 1;
- exec->GS.loop = 1;
-
- /* some glyphs leave something on the stack. so we clean it */
- /* before a new execution. */
- exec->top = 0;
- exec->callTop = 0;
-
-#if 1
- FT_UNUSED( debug );
-
- return exec->face->interpreter( exec );
-#else
- if ( !debug )
- return TT_RunIns( exec );
- else
- return TT_Err_Ok;
-#endif
- }
-
-
- /* The default value for `scan_control' is documented as FALSE in the */
- /* TrueType specification. This is confusing since it implies a */
- /* Boolean value. However, this is not the case, thus both the */
- /* default values of our `scan_type' and `scan_control' fields (which */
- /* the documentation's `scan_control' variable is split into) are */
- /* zero. */
-
- const TT_GraphicsState tt_default_graphics_state =
- {
- 0, 0, 0,
- { 0x4000, 0 },
- { 0x4000, 0 },
- { 0x4000, 0 },
-
-#ifdef TT_CONFIG_OPTION_UNPATENTED_HINTING
- TRUE,
-#endif
-
- 1, 64, 1,
- TRUE, 68, 0, 0, 9, 3,
- 0, FALSE, 0, 1, 1, 1
- };
-
-
- /* documentation is in ttinterp.h */
-
- FT_EXPORT_DEF( TT_ExecContext )
- TT_New_Context( TT_Driver driver )
- {
- TT_ExecContext exec;
- FT_Memory memory;
-
-
- memory = driver->root.root.memory;
- exec = driver->context;
-
- if ( !driver->context )
- {
- FT_Error error;
-
-
- /* allocate object */
- if ( FT_NEW( exec ) )
- goto Fail;
-
- /* initialize it; in case of error this deallocates `exec' too */
- error = Init_Context( exec, memory );
- if ( error )
- goto Fail;
-
- /* store it into the driver */
- driver->context = exec;
- }
-
- return driver->context;
-
- Fail:
- return NULL;
- }
-
-
- /*************************************************************************/
- /* */
- /* Before an opcode is executed, the interpreter verifies that there are */
- /* enough arguments on the stack, with the help of the `Pop_Push_Count' */
- /* table. */
- /* */
- /* For each opcode, the first column gives the number of arguments that */
- /* are popped from the stack; the second one gives the number of those */
- /* that are pushed in result. */
- /* */
- /* Opcodes which have a varying number of parameters in the data stream */
- /* (NPUSHB, NPUSHW) are handled specially; they have a negative value in */
- /* the `opcode_length' table, and the value in `Pop_Push_Count' is set */
- /* to zero. */
- /* */
- /*************************************************************************/
-
-
-#undef PACK
-#define PACK( x, y ) ( ( x << 4 ) | y )
-
-
- static
- const FT_Byte Pop_Push_Count[256] =
- {
- /* opcodes are gathered in groups of 16 */
- /* please keep the spaces as they are */
-
- /* SVTCA y */ PACK( 0, 0 ),
- /* SVTCA x */ PACK( 0, 0 ),
- /* SPvTCA y */ PACK( 0, 0 ),
- /* SPvTCA x */ PACK( 0, 0 ),
- /* SFvTCA y */ PACK( 0, 0 ),
- /* SFvTCA x */ PACK( 0, 0 ),
- /* SPvTL // */ PACK( 2, 0 ),
- /* SPvTL + */ PACK( 2, 0 ),
- /* SFvTL // */ PACK( 2, 0 ),
- /* SFvTL + */ PACK( 2, 0 ),
- /* SPvFS */ PACK( 2, 0 ),
- /* SFvFS */ PACK( 2, 0 ),
- /* GPV */ PACK( 0, 2 ),
- /* GFV */ PACK( 0, 2 ),
- /* SFvTPv */ PACK( 0, 0 ),
- /* ISECT */ PACK( 5, 0 ),
-
- /* SRP0 */ PACK( 1, 0 ),
- /* SRP1 */ PACK( 1, 0 ),
- /* SRP2 */ PACK( 1, 0 ),
- /* SZP0 */ PACK( 1, 0 ),
- /* SZP1 */ PACK( 1, 0 ),
- /* SZP2 */ PACK( 1, 0 ),
- /* SZPS */ PACK( 1, 0 ),
- /* SLOOP */ PACK( 1, 0 ),
- /* RTG */ PACK( 0, 0 ),
- /* RTHG */ PACK( 0, 0 ),
- /* SMD */ PACK( 1, 0 ),
- /* ELSE */ PACK( 0, 0 ),
- /* JMPR */ PACK( 1, 0 ),
- /* SCvTCi */ PACK( 1, 0 ),
- /* SSwCi */ PACK( 1, 0 ),
- /* SSW */ PACK( 1, 0 ),
-
- /* DUP */ PACK( 1, 2 ),
- /* POP */ PACK( 1, 0 ),
- /* CLEAR */ PACK( 0, 0 ),
- /* SWAP */ PACK( 2, 2 ),
- /* DEPTH */ PACK( 0, 1 ),
- /* CINDEX */ PACK( 1, 1 ),
- /* MINDEX */ PACK( 1, 0 ),
- /* AlignPTS */ PACK( 2, 0 ),
- /* INS_$28 */ PACK( 0, 0 ),
- /* UTP */ PACK( 1, 0 ),
- /* LOOPCALL */ PACK( 2, 0 ),
- /* CALL */ PACK( 1, 0 ),
- /* FDEF */ PACK( 1, 0 ),
- /* ENDF */ PACK( 0, 0 ),
- /* MDAP[0] */ PACK( 1, 0 ),
- /* MDAP[1] */ PACK( 1, 0 ),
-
- /* IUP[0] */ PACK( 0, 0 ),
- /* IUP[1] */ PACK( 0, 0 ),
- /* SHP[0] */ PACK( 0, 0 ),
- /* SHP[1] */ PACK( 0, 0 ),
- /* SHC[0] */ PACK( 1, 0 ),
- /* SHC[1] */ PACK( 1, 0 ),
- /* SHZ[0] */ PACK( 1, 0 ),
- /* SHZ[1] */ PACK( 1, 0 ),
- /* SHPIX */ PACK( 1, 0 ),
- /* IP */ PACK( 0, 0 ),
- /* MSIRP[0] */ PACK( 2, 0 ),
- /* MSIRP[1] */ PACK( 2, 0 ),
- /* AlignRP */ PACK( 0, 0 ),
- /* RTDG */ PACK( 0, 0 ),
- /* MIAP[0] */ PACK( 2, 0 ),
- /* MIAP[1] */ PACK( 2, 0 ),
-
- /* NPushB */ PACK( 0, 0 ),
- /* NPushW */ PACK( 0, 0 ),
- /* WS */ PACK( 2, 0 ),
- /* RS */ PACK( 1, 1 ),
- /* WCvtP */ PACK( 2, 0 ),
- /* RCvt */ PACK( 1, 1 ),
- /* GC[0] */ PACK( 1, 1 ),
- /* GC[1] */ PACK( 1, 1 ),
- /* SCFS */ PACK( 2, 0 ),
- /* MD[0] */ PACK( 2, 1 ),
- /* MD[1] */ PACK( 2, 1 ),
- /* MPPEM */ PACK( 0, 1 ),
- /* MPS */ PACK( 0, 1 ),
- /* FlipON */ PACK( 0, 0 ),
- /* FlipOFF */ PACK( 0, 0 ),
- /* DEBUG */ PACK( 1, 0 ),
-
- /* LT */ PACK( 2, 1 ),
- /* LTEQ */ PACK( 2, 1 ),
- /* GT */ PACK( 2, 1 ),
- /* GTEQ */ PACK( 2, 1 ),
- /* EQ */ PACK( 2, 1 ),
- /* NEQ */ PACK( 2, 1 ),
- /* ODD */ PACK( 1, 1 ),
- /* EVEN */ PACK( 1, 1 ),
- /* IF */ PACK( 1, 0 ),
- /* EIF */ PACK( 0, 0 ),
- /* AND */ PACK( 2, 1 ),
- /* OR */ PACK( 2, 1 ),
- /* NOT */ PACK( 1, 1 ),
- /* DeltaP1 */ PACK( 1, 0 ),
- /* SDB */ PACK( 1, 0 ),
- /* SDS */ PACK( 1, 0 ),
-
- /* ADD */ PACK( 2, 1 ),
- /* SUB */ PACK( 2, 1 ),
- /* DIV */ PACK( 2, 1 ),
- /* MUL */ PACK( 2, 1 ),
- /* ABS */ PACK( 1, 1 ),
- /* NEG */ PACK( 1, 1 ),
- /* FLOOR */ PACK( 1, 1 ),
- /* CEILING */ PACK( 1, 1 ),
- /* ROUND[0] */ PACK( 1, 1 ),
- /* ROUND[1] */ PACK( 1, 1 ),
- /* ROUND[2] */ PACK( 1, 1 ),
- /* ROUND[3] */ PACK( 1, 1 ),
- /* NROUND[0] */ PACK( 1, 1 ),
- /* NROUND[1] */ PACK( 1, 1 ),
- /* NROUND[2] */ PACK( 1, 1 ),
- /* NROUND[3] */ PACK( 1, 1 ),
-
- /* WCvtF */ PACK( 2, 0 ),
- /* DeltaP2 */ PACK( 1, 0 ),
- /* DeltaP3 */ PACK( 1, 0 ),
- /* DeltaCn[0] */ PACK( 1, 0 ),
- /* DeltaCn[1] */ PACK( 1, 0 ),
- /* DeltaCn[2] */ PACK( 1, 0 ),
- /* SROUND */ PACK( 1, 0 ),
- /* S45Round */ PACK( 1, 0 ),
- /* JROT */ PACK( 2, 0 ),
- /* JROF */ PACK( 2, 0 ),
- /* ROFF */ PACK( 0, 0 ),
- /* INS_$7B */ PACK( 0, 0 ),
- /* RUTG */ PACK( 0, 0 ),
- /* RDTG */ PACK( 0, 0 ),
- /* SANGW */ PACK( 1, 0 ),
- /* AA */ PACK( 1, 0 ),
-
- /* FlipPT */ PACK( 0, 0 ),
- /* FlipRgON */ PACK( 2, 0 ),
- /* FlipRgOFF */ PACK( 2, 0 ),
- /* INS_$83 */ PACK( 0, 0 ),
- /* INS_$84 */ PACK( 0, 0 ),
- /* ScanCTRL */ PACK( 1, 0 ),
- /* SDPVTL[0] */ PACK( 2, 0 ),
- /* SDPVTL[1] */ PACK( 2, 0 ),
- /* GetINFO */ PACK( 1, 1 ),
- /* IDEF */ PACK( 1, 0 ),
- /* ROLL */ PACK( 3, 3 ),
- /* MAX */ PACK( 2, 1 ),
- /* MIN */ PACK( 2, 1 ),
- /* ScanTYPE */ PACK( 1, 0 ),
- /* InstCTRL */ PACK( 2, 0 ),
- /* INS_$8F */ PACK( 0, 0 ),
-
- /* INS_$90 */ PACK( 0, 0 ),
- /* INS_$91 */ PACK( 0, 0 ),
- /* INS_$92 */ PACK( 0, 0 ),
- /* INS_$93 */ PACK( 0, 0 ),
- /* INS_$94 */ PACK( 0, 0 ),
- /* INS_$95 */ PACK( 0, 0 ),
- /* INS_$96 */ PACK( 0, 0 ),
- /* INS_$97 */ PACK( 0, 0 ),
- /* INS_$98 */ PACK( 0, 0 ),
- /* INS_$99 */ PACK( 0, 0 ),
- /* INS_$9A */ PACK( 0, 0 ),
- /* INS_$9B */ PACK( 0, 0 ),
- /* INS_$9C */ PACK( 0, 0 ),
- /* INS_$9D */ PACK( 0, 0 ),
- /* INS_$9E */ PACK( 0, 0 ),
- /* INS_$9F */ PACK( 0, 0 ),
-
- /* INS_$A0 */ PACK( 0, 0 ),
- /* INS_$A1 */ PACK( 0, 0 ),
- /* INS_$A2 */ PACK( 0, 0 ),
- /* INS_$A3 */ PACK( 0, 0 ),
- /* INS_$A4 */ PACK( 0, 0 ),
- /* INS_$A5 */ PACK( 0, 0 ),
- /* INS_$A6 */ PACK( 0, 0 ),
- /* INS_$A7 */ PACK( 0, 0 ),
- /* INS_$A8 */ PACK( 0, 0 ),
- /* INS_$A9 */ PACK( 0, 0 ),
- /* INS_$AA */ PACK( 0, 0 ),
- /* INS_$AB */ PACK( 0, 0 ),
- /* INS_$AC */ PACK( 0, 0 ),
- /* INS_$AD */ PACK( 0, 0 ),
- /* INS_$AE */ PACK( 0, 0 ),
- /* INS_$AF */ PACK( 0, 0 ),
-
- /* PushB[0] */ PACK( 0, 1 ),
- /* PushB[1] */ PACK( 0, 2 ),
- /* PushB[2] */ PACK( 0, 3 ),
- /* PushB[3] */ PACK( 0, 4 ),
- /* PushB[4] */ PACK( 0, 5 ),
- /* PushB[5] */ PACK( 0, 6 ),
- /* PushB[6] */ PACK( 0, 7 ),
- /* PushB[7] */ PACK( 0, 8 ),
- /* PushW[0] */ PACK( 0, 1 ),
- /* PushW[1] */ PACK( 0, 2 ),
- /* PushW[2] */ PACK( 0, 3 ),
- /* PushW[3] */ PACK( 0, 4 ),
- /* PushW[4] */ PACK( 0, 5 ),
- /* PushW[5] */ PACK( 0, 6 ),
- /* PushW[6] */ PACK( 0, 7 ),
- /* PushW[7] */ PACK( 0, 8 ),
-
- /* MDRP[00] */ PACK( 1, 0 ),
- /* MDRP[01] */ PACK( 1, 0 ),
- /* MDRP[02] */ PACK( 1, 0 ),
- /* MDRP[03] */ PACK( 1, 0 ),
- /* MDRP[04] */ PACK( 1, 0 ),
- /* MDRP[05] */ PACK( 1, 0 ),
- /* MDRP[06] */ PACK( 1, 0 ),
- /* MDRP[07] */ PACK( 1, 0 ),
- /* MDRP[08] */ PACK( 1, 0 ),
- /* MDRP[09] */ PACK( 1, 0 ),
- /* MDRP[10] */ PACK( 1, 0 ),
- /* MDRP[11] */ PACK( 1, 0 ),
- /* MDRP[12] */ PACK( 1, 0 ),
- /* MDRP[13] */ PACK( 1, 0 ),
- /* MDRP[14] */ PACK( 1, 0 ),
- /* MDRP[15] */ PACK( 1, 0 ),
-
- /* MDRP[16] */ PACK( 1, 0 ),
- /* MDRP[17] */ PACK( 1, 0 ),
- /* MDRP[18] */ PACK( 1, 0 ),
- /* MDRP[19] */ PACK( 1, 0 ),
- /* MDRP[20] */ PACK( 1, 0 ),
- /* MDRP[21] */ PACK( 1, 0 ),
- /* MDRP[22] */ PACK( 1, 0 ),
- /* MDRP[23] */ PACK( 1, 0 ),
- /* MDRP[24] */ PACK( 1, 0 ),
- /* MDRP[25] */ PACK( 1, 0 ),
- /* MDRP[26] */ PACK( 1, 0 ),
- /* MDRP[27] */ PACK( 1, 0 ),
- /* MDRP[28] */ PACK( 1, 0 ),
- /* MDRP[29] */ PACK( 1, 0 ),
- /* MDRP[30] */ PACK( 1, 0 ),
- /* MDRP[31] */ PACK( 1, 0 ),
-
- /* MIRP[00] */ PACK( 2, 0 ),
- /* MIRP[01] */ PACK( 2, 0 ),
- /* MIRP[02] */ PACK( 2, 0 ),
- /* MIRP[03] */ PACK( 2, 0 ),
- /* MIRP[04] */ PACK( 2, 0 ),
- /* MIRP[05] */ PACK( 2, 0 ),
- /* MIRP[06] */ PACK( 2, 0 ),
- /* MIRP[07] */ PACK( 2, 0 ),
- /* MIRP[08] */ PACK( 2, 0 ),
- /* MIRP[09] */ PACK( 2, 0 ),
- /* MIRP[10] */ PACK( 2, 0 ),
- /* MIRP[11] */ PACK( 2, 0 ),
- /* MIRP[12] */ PACK( 2, 0 ),
- /* MIRP[13] */ PACK( 2, 0 ),
- /* MIRP[14] */ PACK( 2, 0 ),
- /* MIRP[15] */ PACK( 2, 0 ),
-
- /* MIRP[16] */ PACK( 2, 0 ),
- /* MIRP[17] */ PACK( 2, 0 ),
- /* MIRP[18] */ PACK( 2, 0 ),
- /* MIRP[19] */ PACK( 2, 0 ),
- /* MIRP[20] */ PACK( 2, 0 ),
- /* MIRP[21] */ PACK( 2, 0 ),
- /* MIRP[22] */ PACK( 2, 0 ),
- /* MIRP[23] */ PACK( 2, 0 ),
- /* MIRP[24] */ PACK( 2, 0 ),
- /* MIRP[25] */ PACK( 2, 0 ),
- /* MIRP[26] */ PACK( 2, 0 ),
- /* MIRP[27] */ PACK( 2, 0 ),
- /* MIRP[28] */ PACK( 2, 0 ),
- /* MIRP[29] */ PACK( 2, 0 ),
- /* MIRP[30] */ PACK( 2, 0 ),
- /* MIRP[31] */ PACK( 2, 0 )
- };
-
-
-#ifdef FT_DEBUG_LEVEL_TRACE
-
- static
- const char* const opcode_name[256] =
- {
- "SVTCA y",
- "SVTCA x",
- "SPvTCA y",
- "SPvTCA x",
- "SFvTCA y",
- "SFvTCA x",
- "SPvTL ||",
- "SPvTL +",
- "SFvTL ||",
- "SFvTL +",
- "SPvFS",
- "SFvFS",
- "GPV",
- "GFV",
- "SFvTPv",
- "ISECT",
-
- "SRP0",
- "SRP1",
- "SRP2",
- "SZP0",
- "SZP1",
- "SZP2",
- "SZPS",
- "SLOOP",
- "RTG",
- "RTHG",
- "SMD",
- "ELSE",
- "JMPR",
- "SCvTCi",
- "SSwCi",
- "SSW",
-
- "DUP",
- "POP",
- "CLEAR",
- "SWAP",
- "DEPTH",
- "CINDEX",
- "MINDEX",
- "AlignPTS",
- "INS_$28",
- "UTP",
- "LOOPCALL",
- "CALL",
- "FDEF",
- "ENDF",
- "MDAP[0]",
- "MDAP[1]",
-
- "IUP[0]",
- "IUP[1]",
- "SHP[0]",
- "SHP[1]",
- "SHC[0]",
- "SHC[1]",
- "SHZ[0]",
- "SHZ[1]",
- "SHPIX",
- "IP",
- "MSIRP[0]",
- "MSIRP[1]",
- "AlignRP",
- "RTDG",
- "MIAP[0]",
- "MIAP[1]",
-
- "NPushB",
- "NPushW",
- "WS",
- "RS",
- "WCvtP",
- "RCvt",
- "GC[0]",
- "GC[1]",
- "SCFS",
- "MD[0]",
- "MD[1]",
- "MPPEM",
- "MPS",
- "FlipON",
- "FlipOFF",
- "DEBUG",
-
- "LT",
- "LTEQ",
- "GT",
- "GTEQ",
- "EQ",
- "NEQ",
- "ODD",
- "EVEN",
- "IF",
- "EIF",
- "AND",
- "OR",
- "NOT",
- "DeltaP1",
- "SDB",
- "SDS",
-
- "ADD",
- "SUB",
- "DIV",
- "MUL",
- "ABS",
- "NEG",
- "FLOOR",
- "CEILING",
- "ROUND[0]",
- "ROUND[1]",
- "ROUND[2]",
- "ROUND[3]",
- "NROUND[0]",
- "NROUND[1]",
- "NROUND[2]",
- "NROUND[3]",
-
- "WCvtF",
- "DeltaP2",
- "DeltaP3",
- "DeltaCn[0]",
- "DeltaCn[1]",
- "DeltaCn[2]",
- "SROUND",
- "S45Round",
- "JROT",
- "JROF",
- "ROFF",
- "INS_$7B",
- "RUTG",
- "RDTG",
- "SANGW",
- "AA",
-
- "FlipPT",
- "FlipRgON",
- "FlipRgOFF",
- "INS_$83",
- "INS_$84",
- "ScanCTRL",
- "SDVPTL[0]",
- "SDVPTL[1]",
- "GetINFO",
- "IDEF",
- "ROLL",
- "MAX",
- "MIN",
- "ScanTYPE",
- "InstCTRL",
- "INS_$8F",
-
- "INS_$90",
- "INS_$91",
- "INS_$92",
- "INS_$93",
- "INS_$94",
- "INS_$95",
- "INS_$96",
- "INS_$97",
- "INS_$98",
- "INS_$99",
- "INS_$9A",
- "INS_$9B",
- "INS_$9C",
- "INS_$9D",
- "INS_$9E",
- "INS_$9F",
-
- "INS_$A0",
- "INS_$A1",
- "INS_$A2",
- "INS_$A3",
- "INS_$A4",
- "INS_$A5",
- "INS_$A6",
- "INS_$A7",
- "INS_$A8",
- "INS_$A9",
- "INS_$AA",
- "INS_$AB",
- "INS_$AC",
- "INS_$AD",
- "INS_$AE",
- "INS_$AF",
-
- "PushB[0]",
- "PushB[1]",
- "PushB[2]",
- "PushB[3]",
- "PushB[4]",
- "PushB[5]",
- "PushB[6]",
- "PushB[7]",
- "PushW[0]",
- "PushW[1]",
- "PushW[2]",
- "PushW[3]",
- "PushW[4]",
- "PushW[5]",
- "PushW[6]",
- "PushW[7]",
-
- "MDRP[00]",
- "MDRP[01]",
- "MDRP[02]",
- "MDRP[03]",
- "MDRP[04]",
- "MDRP[05]",
- "MDRP[06]",
- "MDRP[07]",
- "MDRP[08]",
- "MDRP[09]",
- "MDRP[10]",
- "MDRP[11]",
- "MDRP[12]",
- "MDRP[13]",
- "MDRP[14]",
- "MDRP[15]",
-
- "MDRP[16]",
- "MDRP[17]",
- "MDRP[18]",
- "MDRP[19]",
- "MDRP[20]",
- "MDRP[21]",
- "MDRP[22]",
- "MDRP[23]",
- "MDRP[24]",
- "MDRP[25]",
- "MDRP[26]",
- "MDRP[27]",
- "MDRP[28]",
- "MDRP[29]",
- "MDRP[30]",
- "MDRP[31]",
-
- "MIRP[00]",
- "MIRP[01]",
- "MIRP[02]",
- "MIRP[03]",
- "MIRP[04]",
- "MIRP[05]",
- "MIRP[06]",
- "MIRP[07]",
- "MIRP[08]",
- "MIRP[09]",
- "MIRP[10]",
- "MIRP[11]",
- "MIRP[12]",
- "MIRP[13]",
- "MIRP[14]",
- "MIRP[15]",
-
- "MIRP[16]",
- "MIRP[17]",
- "MIRP[18]",
- "MIRP[19]",
- "MIRP[20]",
- "MIRP[21]",
- "MIRP[22]",
- "MIRP[23]",
- "MIRP[24]",
- "MIRP[25]",
- "MIRP[26]",
- "MIRP[27]",
- "MIRP[28]",
- "MIRP[29]",
- "MIRP[30]",
- "MIRP[31]"
- };
-
-#endif /* FT_DEBUG_LEVEL_TRACE */
-
-
- static
- const FT_Char opcode_length[256] =
- {
- 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
- 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
- 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
- 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
-
- -1,-2, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
- 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
- 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
- 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
-
- 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
- 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
- 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
- 2, 3, 4, 5, 6, 7, 8, 9, 3, 5, 7, 9, 11,13,15,17,
-
- 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
- 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
- 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
- 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1
- };
-
-#undef PACK
-
-#if 1
-
- static FT_Int32
- TT_MulFix14( FT_Int32 a,
- FT_Int b )
- {
- FT_Int32 sign;
- FT_UInt32 ah, al, mid, lo, hi;
-
-
- sign = a ^ b;
-
- if ( a < 0 )
- a = -a;
- if ( b < 0 )
- b = -b;
-
- ah = (FT_UInt32)( ( a >> 16 ) & 0xFFFFU );
- al = (FT_UInt32)( a & 0xFFFFU );
-
- lo = al * b;
- mid = ah * b;
- hi = mid >> 16;
- mid = ( mid << 16 ) + ( 1 << 13 ); /* rounding */
- lo += mid;
- if ( lo < mid )
- hi += 1;
-
- mid = ( lo >> 14 ) | ( hi << 18 );
-
- return sign >= 0 ? (FT_Int32)mid : -(FT_Int32)mid;
- }
-
-#else
-
- /* compute (a*b)/2^14 with maximal accuracy and rounding */
- static FT_Int32
- TT_MulFix14( FT_Int32 a,
- FT_Int b )
- {
- FT_Int32 m, s, hi;
- FT_UInt32 l, lo;
-
-
- /* compute ax*bx as 64-bit value */
- l = (FT_UInt32)( ( a & 0xFFFFU ) * b );
- m = ( a >> 16 ) * b;
-
- lo = l + (FT_UInt32)( m << 16 );
- hi = ( m >> 16 ) + ( (FT_Int32)l >> 31 ) + ( lo < l );
-
- /* divide the result by 2^14 with rounding */
- s = hi >> 31;
- l = lo + (FT_UInt32)s;
- hi += s + ( l < lo );
- lo = l;
-
- l = lo + 0x2000U;
- hi += l < lo;
-
- return ( hi << 18 ) | ( l >> 14 );
- }
-#endif
-
-
- /* compute (ax*bx+ay*by)/2^14 with maximal accuracy and rounding */
- static FT_Int32
- TT_DotFix14( FT_Int32 ax,
- FT_Int32 ay,
- FT_Int bx,
- FT_Int by )
- {
- FT_Int32 m, s, hi1, hi2, hi;
- FT_UInt32 l, lo1, lo2, lo;
-
-
- /* compute ax*bx as 64-bit value */
- l = (FT_UInt32)( ( ax & 0xFFFFU ) * bx );
- m = ( ax >> 16 ) * bx;
-
- lo1 = l + (FT_UInt32)( m << 16 );
- hi1 = ( m >> 16 ) + ( (FT_Int32)l >> 31 ) + ( lo1 < l );
-
- /* compute ay*by as 64-bit value */
- l = (FT_UInt32)( ( ay & 0xFFFFU ) * by );
- m = ( ay >> 16 ) * by;
-
- lo2 = l + (FT_UInt32)( m << 16 );
- hi2 = ( m >> 16 ) + ( (FT_Int32)l >> 31 ) + ( lo2 < l );
-
- /* add them */
- lo = lo1 + lo2;
- hi = hi1 + hi2 + ( lo < lo1 );
-
- /* divide the result by 2^14 with rounding */
- s = hi >> 31;
- l = lo + (FT_UInt32)s;
- hi += s + ( l < lo );
- lo = l;
-
- l = lo + 0x2000U;
- hi += ( l < lo );
-
- return ( hi << 18 ) | ( l >> 14 );
- }
-
-
- /* return length of given vector */
-
-#if 0
-
- static FT_Int32
- TT_VecLen( FT_Int32 x,
- FT_Int32 y )
- {
- FT_Int32 m, hi1, hi2, hi;
- FT_UInt32 l, lo1, lo2, lo;
-
-
- /* compute x*x as 64-bit value */
- lo = (FT_UInt32)( x & 0xFFFFU );
- hi = x >> 16;
-
- l = lo * lo;
- m = hi * lo;
- hi = hi * hi;
-
- lo1 = l + (FT_UInt32)( m << 17 );
- hi1 = hi + ( m >> 15 ) + ( lo1 < l );
-
- /* compute y*y as 64-bit value */
- lo = (FT_UInt32)( y & 0xFFFFU );
- hi = y >> 16;
-
- l = lo * lo;
- m = hi * lo;
- hi = hi * hi;
-
- lo2 = l + (FT_UInt32)( m << 17 );
- hi2 = hi + ( m >> 15 ) + ( lo2 < l );
-
- /* add them to get 'x*x+y*y' as 64-bit value */
- lo = lo1 + lo2;
- hi = hi1 + hi2 + ( lo < lo1 );
-
- /* compute the square root of this value */
- {
- FT_UInt32 root, rem, test_div;
- FT_Int count;
-
-
- root = 0;
-
- {
- rem = 0;
- count = 32;
- do
- {
- rem = ( rem << 2 ) | ( (FT_UInt32)hi >> 30 );
- hi = ( hi << 2 ) | ( lo >> 30 );
- lo <<= 2;
- root <<= 1;
- test_div = ( root << 1 ) + 1;
-
- if ( rem >= test_div )
- {
- rem -= test_div;
- root += 1;
- }
- } while ( --count );
- }
-
- return (FT_Int32)root;
- }
- }
-
-#else
-
- /* this version uses FT_Vector_Length which computes the same value */
- /* much, much faster.. */
- /* */
- static FT_F26Dot6
- TT_VecLen( FT_F26Dot6 X,
- FT_F26Dot6 Y )
- {
- FT_Vector v;
-
-
- v.x = X;
- v.y = Y;
-
- return FT_Vector_Length( &v );
- }
-
-#endif
-
-
- /*************************************************************************/
- /* */
- /* <Function> */
- /* Current_Ratio */
- /* */
- /* <Description> */
- /* Returns the current aspect ratio scaling factor depending on the */
- /* projection vector's state and device resolutions. */
- /* */
- /* <Return> */
- /* The aspect ratio in 16.16 format, always <= 1.0 . */
- /* */
- static FT_Long
- Current_Ratio( EXEC_OP )
- {
- if ( !CUR.tt_metrics.ratio )
- {
-#ifdef TT_CONFIG_OPTION_UNPATENTED_HINTING
- if ( CUR.face->unpatented_hinting )
- {
- if ( CUR.GS.both_x_axis )
- CUR.tt_metrics.ratio = CUR.tt_metrics.x_ratio;
- else
- CUR.tt_metrics.ratio = CUR.tt_metrics.y_ratio;
- }
- else
-#endif
- {
- if ( CUR.GS.projVector.y == 0 )
- CUR.tt_metrics.ratio = CUR.tt_metrics.x_ratio;
-
- else if ( CUR.GS.projVector.x == 0 )
- CUR.tt_metrics.ratio = CUR.tt_metrics.y_ratio;
-
- else
- {
- FT_Long x, y;
-
-
- x = TT_MULDIV( CUR.GS.projVector.x,
- CUR.tt_metrics.x_ratio, 0x4000 );
- y = TT_MULDIV( CUR.GS.projVector.y,
- CUR.tt_metrics.y_ratio, 0x4000 );
- CUR.tt_metrics.ratio = TT_VecLen( x, y );
- }
- }
- }
- return CUR.tt_metrics.ratio;
- }
-
-
- static FT_Long
- Current_Ppem( EXEC_OP )
- {
- return TT_MULFIX( CUR.tt_metrics.ppem, CURRENT_Ratio() );
- }
-
-
- /*************************************************************************/
- /* */
- /* Functions related to the control value table (CVT). */
- /* */
- /*************************************************************************/
-
-
- FT_CALLBACK_DEF( FT_F26Dot6 )
- Read_CVT( EXEC_OP_ FT_ULong idx )
- {
- return CUR.cvt[idx];
- }
-
-
- FT_CALLBACK_DEF( FT_F26Dot6 )
- Read_CVT_Stretched( EXEC_OP_ FT_ULong idx )
- {
- return TT_MULFIX( CUR.cvt[idx], CURRENT_Ratio() );
- }
-
-
- FT_CALLBACK_DEF( void )
- Write_CVT( EXEC_OP_ FT_ULong idx,
- FT_F26Dot6 value )
- {
- CUR.cvt[idx] = value;
- }
-
-
- FT_CALLBACK_DEF( void )
- Write_CVT_Stretched( EXEC_OP_ FT_ULong idx,
- FT_F26Dot6 value )
- {
- CUR.cvt[idx] = FT_DivFix( value, CURRENT_Ratio() );
- }
-
-
- FT_CALLBACK_DEF( void )
- Move_CVT( EXEC_OP_ FT_ULong idx,
- FT_F26Dot6 value )
- {
- CUR.cvt[idx] += value;
- }
-
-
- FT_CALLBACK_DEF( void )
- Move_CVT_Stretched( EXEC_OP_ FT_ULong idx,
- FT_F26Dot6 value )
- {
- CUR.cvt[idx] += FT_DivFix( value, CURRENT_Ratio() );
- }
-
-
- /*************************************************************************/
- /* */
- /* <Function> */
- /* GetShortIns */
- /* */
- /* <Description> */
- /* Returns a short integer taken from the instruction stream at */
- /* address IP. */
- /* */
- /* <Return> */
- /* Short read at code[IP]. */
- /* */
- /* <Note> */
- /* This one could become a macro. */
- /* */
- static FT_Short
- GetShortIns( EXEC_OP )
- {
- /* Reading a byte stream so there is no endianess (DaveP) */
- CUR.IP += 2;
- return (FT_Short)( ( CUR.code[CUR.IP - 2] << 8 ) +
- CUR.code[CUR.IP - 1] );
- }
-
-
- /*************************************************************************/
- /* */
- /* <Function> */
- /* Ins_Goto_CodeRange */
- /* */
- /* <Description> */
- /* Goes to a certain code range in the instruction stream. */
- /* */
- /* <Input> */
- /* aRange :: The index of the code range. */
- /* */
- /* aIP :: The new IP address in the code range. */
- /* */
- /* <Return> */
- /* SUCCESS or FAILURE. */
- /* */
- static FT_Bool
- Ins_Goto_CodeRange( EXEC_OP_ FT_Int aRange,
- FT_ULong aIP )
- {
- TT_CodeRange* range;
-
-
- if ( aRange < 1 || aRange > 3 )
- {
- CUR.error = TT_Err_Bad_Argument;
- return FAILURE;
- }
-
- range = &CUR.codeRangeTable[aRange - 1];
-
- if ( range->base == NULL ) /* invalid coderange */
- {
- CUR.error = TT_Err_Invalid_CodeRange;
- return FAILURE;
- }
-
- /* NOTE: Because the last instruction of a program may be a CALL */
- /* which will return to the first byte *after* the code */
- /* range, we test for AIP <= Size, instead of AIP < Size. */
-
- if ( aIP > range->size )
- {
- CUR.error = TT_Err_Code_Overflow;
- return FAILURE;
- }
-
- CUR.code = range->base;
- CUR.codeSize = range->size;
- CUR.IP = aIP;
- CUR.curRange = aRange;
-
- return SUCCESS;
- }
-
-
- /*************************************************************************/
- /* */
- /* <Function> */
- /* Direct_Move */
- /* */
- /* <Description> */
- /* Moves a point by a given distance along the freedom vector. The */
- /* point will be `touched'. */
- /* */
- /* <Input> */
- /* point :: The index of the point to move. */
- /* */
- /* distance :: The distance to apply. */
- /* */
- /* <InOut> */
- /* zone :: The affected glyph zone. */
- /* */
- static void
- Direct_Move( EXEC_OP_ TT_GlyphZone zone,
- FT_UShort point,
- FT_F26Dot6 distance )
- {
- FT_F26Dot6 v;
-
-
-#ifdef TT_CONFIG_OPTION_UNPATENTED_HINTING
- FT_ASSERT( !CUR.face->unpatented_hinting );
-#endif
-
- v = CUR.GS.freeVector.x;
-
- if ( v != 0 )
- {
- zone->cur[point].x += TT_MULDIV( distance,
- v * 0x10000L,
- CUR.F_dot_P );
-
- zone->tags[point] |= FT_CURVE_TAG_TOUCH_X;
- }
-
- v = CUR.GS.freeVector.y;
-
- if ( v != 0 )
- {
- zone->cur[point].y += TT_MULDIV( distance,
- v * 0x10000L,
- CUR.F_dot_P );
-
- zone->tags[point] |= FT_CURVE_TAG_TOUCH_Y;
- }
- }
-
-
- /*************************************************************************/
- /* */
- /* <Function> */
- /* Direct_Move_Orig */
- /* */
- /* <Description> */
- /* Moves the *original* position of a point by a given distance along */
- /* the freedom vector. Obviously, the point will not be `touched'. */
- /* */
- /* <Input> */
- /* point :: The index of the point to move. */
- /* */
- /* distance :: The distance to apply. */
- /* */
- /* <InOut> */
- /* zone :: The affected glyph zone. */
- /* */
- static void
- Direct_Move_Orig( EXEC_OP_ TT_GlyphZone zone,
- FT_UShort point,
- FT_F26Dot6 distance )
- {
- FT_F26Dot6 v;
-
-
-#ifdef TT_CONFIG_OPTION_UNPATENTED_HINTING
- FT_ASSERT( !CUR.face->unpatented_hinting );
-#endif
-
- v = CUR.GS.freeVector.x;
-
- if ( v != 0 )
- zone->org[point].x += TT_MULDIV( distance,
- v * 0x10000L,
- CUR.F_dot_P );
-
- v = CUR.GS.freeVector.y;
-
- if ( v != 0 )
- zone->org[point].y += TT_MULDIV( distance,
- v * 0x10000L,
- CUR.F_dot_P );
- }
-
-
- /*************************************************************************/
- /* */
- /* Special versions of Direct_Move() */
- /* */
- /* The following versions are used whenever both vectors are both */
- /* along one of the coordinate unit vectors, i.e. in 90% of the cases. */
- /* */
- /*************************************************************************/
-
-
- static void
- Direct_Move_X( EXEC_OP_ TT_GlyphZone zone,
- FT_UShort point,
- FT_F26Dot6 distance )
- {
- FT_UNUSED_EXEC;
-
- zone->cur[point].x += distance;
- zone->tags[point] |= FT_CURVE_TAG_TOUCH_X;
- }
-
-
- static void
- Direct_Move_Y( EXEC_OP_ TT_GlyphZone zone,
- FT_UShort point,
- FT_F26Dot6 distance )
- {
- FT_UNUSED_EXEC;
-
- zone->cur[point].y += distance;
- zone->tags[point] |= FT_CURVE_TAG_TOUCH_Y;
- }
-
-
- /*************************************************************************/
- /* */
- /* Special versions of Direct_Move_Orig() */
- /* */
- /* The following versions are used whenever both vectors are both */
- /* along one of the coordinate unit vectors, i.e. in 90% of the cases. */
- /* */
- /*************************************************************************/
-
-
- static void
- Direct_Move_Orig_X( EXEC_OP_ TT_GlyphZone zone,
- FT_UShort point,
- FT_F26Dot6 distance )
- {
- FT_UNUSED_EXEC;
-
- zone->org[point].x += distance;
- }
-
-
- static void
- Direct_Move_Orig_Y( EXEC_OP_ TT_GlyphZone zone,
- FT_UShort point,
- FT_F26Dot6 distance )
- {
- FT_UNUSED_EXEC;
-
- zone->org[point].y += distance;
- }
-
-
- /*************************************************************************/
- /* */
- /* <Function> */
- /* Round_None */
- /* */
- /* <Description> */
- /* Does not round, but adds engine compensation. */
- /* */
- /* <Input> */
- /* distance :: The distance (not) to round. */
- /* */
- /* compensation :: The engine compensation. */
- /* */
- /* <Return> */
- /* The compensated distance. */
- /* */
- /* <Note> */
- /* The TrueType specification says very few about the relationship */
- /* between rounding and engine compensation. However, it seems from */
- /* the description of super round that we should add the compensation */
- /* before rounding. */
- /* */
- static FT_F26Dot6
- Round_None( EXEC_OP_ FT_F26Dot6 distance,
- FT_F26Dot6 compensation )
- {
- FT_F26Dot6 val;
-
- FT_UNUSED_EXEC;
-
-
- if ( distance >= 0 )
- {
- val = distance + compensation;
- if ( distance && val < 0 )
- val = 0;
- }
- else
- {
- val = distance - compensation;
- if ( val > 0 )
- val = 0;
- }
- return val;
- }
-
-
- /*************************************************************************/
- /* */
- /* <Function> */
- /* Round_To_Grid */
- /* */
- /* <Description> */
- /* Rounds value to grid after adding engine compensation. */
- /* */
- /* <Input> */
- /* distance :: The distance to round. */
- /* */
- /* compensation :: The engine compensation. */
- /* */
- /* <Return> */
- /* Rounded distance. */
- /* */
- static FT_F26Dot6
- Round_To_Grid( EXEC_OP_ FT_F26Dot6 distance,
- FT_F26Dot6 compensation )
- {
- FT_F26Dot6 val;
-
- FT_UNUSED_EXEC;
-
-
- if ( distance >= 0 )
- {
- val = distance + compensation + 32;
- if ( distance && val > 0 )
- val &= ~63;
- else
- val = 0;
- }
- else
- {
- val = -FT_PIX_ROUND( compensation - distance );
- if ( val > 0 )
- val = 0;
- }
-
- return val;
- }
-
-
- /*************************************************************************/
- /* */
- /* <Function> */
- /* Round_To_Half_Grid */
- /* */
- /* <Description> */
- /* Rounds value to half grid after adding engine compensation. */
- /* */
- /* <Input> */
- /* distance :: The distance to round. */
- /* */
- /* compensation :: The engine compensation. */
- /* */
- /* <Return> */
- /* Rounded distance. */
- /* */
- static FT_F26Dot6
- Round_To_Half_Grid( EXEC_OP_ FT_F26Dot6 distance,
- FT_F26Dot6 compensation )
- {
- FT_F26Dot6 val;
-
- FT_UNUSED_EXEC;
-
-
- if ( distance >= 0 )
- {
- val = FT_PIX_FLOOR( distance + compensation ) + 32;
- if ( distance && val < 0 )
- val = 0;
- }
- else
- {
- val = -( FT_PIX_FLOOR( compensation - distance ) + 32 );
- if ( val > 0 )
- val = 0;
- }
-
- return val;
- }
-
-
- /*************************************************************************/
- /* */
- /* <Function> */
- /* Round_Down_To_Grid */
- /* */
- /* <Description> */
- /* Rounds value down to grid after adding engine compensation. */
- /* */
- /* <Input> */
- /* distance :: The distance to round. */
- /* */
- /* compensation :: The engine compensation. */
- /* */
- /* <Return> */
- /* Rounded distance. */
- /* */
- static FT_F26Dot6
- Round_Down_To_Grid( EXEC_OP_ FT_F26Dot6 distance,
- FT_F26Dot6 compensation )
- {
- FT_F26Dot6 val;
-
- FT_UNUSED_EXEC;
-
-
- if ( distance >= 0 )
- {
- val = distance + compensation;
- if ( distance && val > 0 )
- val &= ~63;
- else
- val = 0;
- }
- else
- {
- val = -( ( compensation - distance ) & -64 );
- if ( val > 0 )
- val = 0;
- }
-
- return val;
- }
-
-
- /*************************************************************************/
- /* */
- /* <Function> */
- /* Round_Up_To_Grid */
- /* */
- /* <Description> */
- /* Rounds value up to grid after adding engine compensation. */
- /* */
- /* <Input> */
- /* distance :: The distance to round. */
- /* */
- /* compensation :: The engine compensation. */
- /* */
- /* <Return> */
- /* Rounded distance. */
- /* */
- static FT_F26Dot6
- Round_Up_To_Grid( EXEC_OP_ FT_F26Dot6 distance,
- FT_F26Dot6 compensation )
- {
- FT_F26Dot6 val;
-
- FT_UNUSED_EXEC;
-
-
- if ( distance >= 0 )
- {
- val = distance + compensation + 63;
- if ( distance && val > 0 )
- val &= ~63;
- else
- val = 0;
- }
- else
- {
- val = - FT_PIX_CEIL( compensation - distance );
- if ( val > 0 )
- val = 0;
- }
-
- return val;
- }
-
-
- /*************************************************************************/
- /* */
- /* <Function> */
- /* Round_To_Double_Grid */
- /* */
- /* <Description> */
- /* Rounds value to double grid after adding engine compensation. */
- /* */
- /* <Input> */
- /* distance :: The distance to round. */
- /* */
- /* compensation :: The engine compensation. */
- /* */
- /* <Return> */
- /* Rounded distance. */
- /* */
- static FT_F26Dot6
- Round_To_Double_Grid( EXEC_OP_ FT_F26Dot6 distance,
- FT_F26Dot6 compensation )
- {
- FT_F26Dot6 val;
-
- FT_UNUSED_EXEC;
-
-
- if ( distance >= 0 )
- {
- val = distance + compensation + 16;
- if ( distance && val > 0 )
- val &= ~31;
- else
- val = 0;
- }
- else
- {
- val = -FT_PAD_ROUND( compensation - distance, 32 );
- if ( val > 0 )
- val = 0;
- }
-
- return val;
- }
-
-
- /*************************************************************************/
- /* */
- /* <Function> */
- /* Round_Super */
- /* */
- /* <Description> */
- /* Super-rounds value to grid after adding engine compensation. */
- /* */
- /* <Input> */
- /* distance :: The distance to round. */
- /* */
- /* compensation :: The engine compensation. */
- /* */
- /* <Return> */
- /* Rounded distance. */
- /* */
- /* <Note> */
- /* The TrueType specification says very few about the relationship */
- /* between rounding and engine compensation. However, it seems from */
- /* the description of super round that we should add the compensation */
- /* before rounding. */
- /* */
- static FT_F26Dot6
- Round_Super( EXEC_OP_ FT_F26Dot6 distance,
- FT_F26Dot6 compensation )
- {
- FT_F26Dot6 val;
-
-
- if ( distance >= 0 )
- {
- val = ( distance - CUR.phase + CUR.threshold + compensation ) &
- -CUR.period;
- if ( distance && val < 0 )
- val = 0;
- val += CUR.phase;
- }
- else
- {
- val = -( ( CUR.threshold - CUR.phase - distance + compensation ) &
- -CUR.period );
- if ( val > 0 )
- val = 0;
- val -= CUR.phase;
- }
-
- return val;
- }
-
-
- /*************************************************************************/
- /* */
- /* <Function> */
- /* Round_Super_45 */
- /* */
- /* <Description> */
- /* Super-rounds value to grid after adding engine compensation. */
- /* */
- /* <Input> */
- /* distance :: The distance to round. */
- /* */
- /* compensation :: The engine compensation. */
- /* */
- /* <Return> */
- /* Rounded distance. */
- /* */
- /* <Note> */
- /* There is a separate function for Round_Super_45() as we may need */
- /* greater precision. */
- /* */
- static FT_F26Dot6
- Round_Super_45( EXEC_OP_ FT_F26Dot6 distance,
- FT_F26Dot6 compensation )
- {
- FT_F26Dot6 val;
-
-
- if ( distance >= 0 )
- {
- val = ( ( distance - CUR.phase + CUR.threshold + compensation ) /
- CUR.period ) * CUR.period;
- if ( distance && val < 0 )
- val = 0;
- val += CUR.phase;
- }
- else
- {
- val = -( ( ( CUR.threshold - CUR.phase - distance + compensation ) /
- CUR.period ) * CUR.period );
- if ( val > 0 )
- val = 0;
- val -= CUR.phase;
- }
-
- return val;
- }
-
-
- /*************************************************************************/
- /* */
- /* <Function> */
- /* Compute_Round */
- /* */
- /* <Description> */
- /* Sets the rounding mode. */
- /* */
- /* <Input> */
- /* round_mode :: The rounding mode to be used. */
- /* */
- static void
- Compute_Round( EXEC_OP_ FT_Byte round_mode )
- {
- switch ( round_mode )
- {
- case TT_Round_Off:
- CUR.func_round = (TT_Round_Func)Round_None;
- break;
-
- case TT_Round_To_Grid:
- CUR.func_round = (TT_Round_Func)Round_To_Grid;
- break;
-
- case TT_Round_Up_To_Grid:
- CUR.func_round = (TT_Round_Func)Round_Up_To_Grid;
- break;
-
- case TT_Round_Down_To_Grid:
- CUR.func_round = (TT_Round_Func)Round_Down_To_Grid;
- break;
-
- case TT_Round_To_Half_Grid:
- CUR.func_round = (TT_Round_Func)Round_To_Half_Grid;
- break;
-
- case TT_Round_To_Double_Grid:
- CUR.func_round = (TT_Round_Func)Round_To_Double_Grid;
- break;
-
- case TT_Round_Super:
- CUR.func_round = (TT_Round_Func)Round_Super;
- break;
-
- case TT_Round_Super_45:
- CUR.func_round = (TT_Round_Func)Round_Super_45;
- break;
- }
- }
-
-
- /*************************************************************************/
- /* */
- /* <Function> */
- /* SetSuperRound */
- /* */
- /* <Description> */
- /* Sets Super Round parameters. */
- /* */
- /* <Input> */
- /* GridPeriod :: Grid period */
- /* selector :: SROUND opcode */
- /* */
- static void
- SetSuperRound( EXEC_OP_ FT_F26Dot6 GridPeriod,
- FT_Long selector )
- {
- switch ( (FT_Int)( selector & 0xC0 ) )
- {
- case 0:
- CUR.period = GridPeriod / 2;
- break;
-
- case 0x40:
- CUR.period = GridPeriod;
- break;
-
- case 0x80:
- CUR.period = GridPeriod * 2;
- break;
-
- /* This opcode is reserved, but... */
-
- case 0xC0:
- CUR.period = GridPeriod;
- break;
- }
-
- switch ( (FT_Int)( selector & 0x30 ) )
- {
- case 0:
- CUR.phase = 0;
- break;
-
- case 0x10:
- CUR.phase = CUR.period / 4;
- break;
-
- case 0x20:
- CUR.phase = CUR.period / 2;
- break;
-
- case 0x30:
- CUR.phase = CUR.period * 3 / 4;
- break;
- }
-
- if ( ( selector & 0x0F ) == 0 )
- CUR.threshold = CUR.period - 1;
- else
- CUR.threshold = ( (FT_Int)( selector & 0x0F ) - 4 ) * CUR.period / 8;
-
- CUR.period /= 256;
- CUR.phase /= 256;
- CUR.threshold /= 256;
- }
-
-
- /*************************************************************************/
- /* */
- /* <Function> */
- /* Project */
- /* */
- /* <Description> */
- /* Computes the projection of vector given by (v2-v1) along the */
- /* current projection vector. */
- /* */
- /* <Input> */
- /* v1 :: First input vector. */
- /* v2 :: Second input vector. */
- /* */
- /* <Return> */
- /* The distance in F26dot6 format. */
- /* */
- static FT_F26Dot6
- Project( EXEC_OP_ FT_Pos dx,
- FT_Pos dy )
- {
-#ifdef TT_CONFIG_OPTION_UNPATENTED_HINTING
- FT_ASSERT( !CUR.face->unpatented_hinting );
-#endif
-
- return TT_DotFix14( (FT_UInt32)dx, (FT_UInt32)dy,
- CUR.GS.projVector.x,
- CUR.GS.projVector.y );
- }
-
-
- /*************************************************************************/
- /* */
- /* <Function> */
- /* Dual_Project */
- /* */
- /* <Description> */
- /* Computes the projection of the vector given by (v2-v1) along the */
- /* current dual vector. */
- /* */
- /* <Input> */
- /* v1 :: First input vector. */
- /* v2 :: Second input vector. */
- /* */
- /* <Return> */
- /* The distance in F26dot6 format. */
- /* */
- static FT_F26Dot6
- Dual_Project( EXEC_OP_ FT_Pos dx,
- FT_Pos dy )
- {
- return TT_DotFix14( (FT_UInt32)dx, (FT_UInt32)dy,
- CUR.GS.dualVector.x,
- CUR.GS.dualVector.y );
- }
-
-
- /*************************************************************************/
- /* */
- /* <Function> */
- /* Project_x */
- /* */
- /* <Description> */
- /* Computes the projection of the vector given by (v2-v1) along the */
- /* horizontal axis. */
- /* */
- /* <Input> */
- /* v1 :: First input vector. */
- /* v2 :: Second input vector. */
- /* */
- /* <Return> */
- /* The distance in F26dot6 format. */
- /* */
- static FT_F26Dot6
- Project_x( EXEC_OP_ FT_Pos dx,
- FT_Pos dy )
- {
- FT_UNUSED_EXEC;
- FT_UNUSED( dy );
-
- return dx;
- }
-
-
- /*************************************************************************/
- /* */
- /* <Function> */
- /* Project_y */
- /* */
- /* <Description> */
- /* Computes the projection of the vector given by (v2-v1) along the */
- /* vertical axis. */
- /* */
- /* <Input> */
- /* v1 :: First input vector. */
- /* v2 :: Second input vector. */
- /* */
- /* <Return> */
- /* The distance in F26dot6 format. */
- /* */
- static FT_F26Dot6
- Project_y( EXEC_OP_ FT_Pos dx,
- FT_Pos dy )
- {
- FT_UNUSED_EXEC;
- FT_UNUSED( dx );
-
- return dy;
- }
-
-
- /*************************************************************************/
- /* */
- /* <Function> */
- /* Compute_Funcs */
- /* */
- /* <Description> */
- /* Computes the projection and movement function pointers according */
- /* to the current graphics state. */
- /* */
- static void
- Compute_Funcs( EXEC_OP )
- {
-#ifdef TT_CONFIG_OPTION_UNPATENTED_HINTING
- if ( CUR.face->unpatented_hinting )
- {
- /* If both vectors point rightwards along the x axis, set */
- /* `both-x-axis' true, otherwise set it false. The x values only */
- /* need be tested because the vector has been normalised to a unit */
- /* vector of length 0x4000 = unity. */
- CUR.GS.both_x_axis = (FT_Bool)( CUR.GS.projVector.x == 0x4000 &&
- CUR.GS.freeVector.x == 0x4000 );
-
- /* Throw away projection and freedom vector information */
- /* because the patents don't allow them to be stored. */
- /* The relevant US Patents are 5155805 and 5325479. */
- CUR.GS.projVector.x = 0;
- CUR.GS.projVector.y = 0;
- CUR.GS.freeVector.x = 0;
- CUR.GS.freeVector.y = 0;
-
- if ( CUR.GS.both_x_axis )
- {
- CUR.func_project = Project_x;
- CUR.func_move = Direct_Move_X;
- CUR.func_move_orig = Direct_Move_Orig_X;
- }
- else
- {
- CUR.func_project = Project_y;
- CUR.func_move = Direct_Move_Y;
- CUR.func_move_orig = Direct_Move_Orig_Y;
- }
-
- if ( CUR.GS.dualVector.x == 0x4000 )
- CUR.func_dualproj = Project_x;
- else
- {
- if ( CUR.GS.dualVector.y == 0x4000 )
- CUR.func_dualproj = Project_y;
- else
- CUR.func_dualproj = Dual_Project;
- }
-
- /* Force recalculation of cached aspect ratio */
- CUR.tt_metrics.ratio = 0;
-
- return;
- }
-#endif /* TT_CONFIG_OPTION_UNPATENTED_HINTING */
-
- if ( CUR.GS.freeVector.x == 0x4000 )
- CUR.F_dot_P = CUR.GS.projVector.x * 0x10000L;
- else
- {
- if ( CUR.GS.freeVector.y == 0x4000 )
- CUR.F_dot_P = CUR.GS.projVector.y * 0x10000L;
- else
- CUR.F_dot_P = (FT_Long)CUR.GS.projVector.x * CUR.GS.freeVector.x * 4 +
- (FT_Long)CUR.GS.projVector.y * CUR.GS.freeVector.y * 4;
- }
-
- if ( CUR.GS.projVector.x == 0x4000 )
- CUR.func_project = (TT_Project_Func)Project_x;
- else
- {
- if ( CUR.GS.projVector.y == 0x4000 )
- CUR.func_project = (TT_Project_Func)Project_y;
- else
- CUR.func_project = (TT_Project_Func)Project;
- }
-
- if ( CUR.GS.dualVector.x == 0x4000 )
- CUR.func_dualproj = (TT_Project_Func)Project_x;
- else
- {
- if ( CUR.GS.dualVector.y == 0x4000 )
- CUR.func_dualproj = (TT_Project_Func)Project_y;
- else
- CUR.func_dualproj = (TT_Project_Func)Dual_Project;
- }
-
- CUR.func_move = (TT_Move_Func)Direct_Move;
- CUR.func_move_orig = (TT_Move_Func)Direct_Move_Orig;
-
- if ( CUR.F_dot_P == 0x40000000L )
- {
- if ( CUR.GS.freeVector.x == 0x4000 )
- {
- CUR.func_move = (TT_Move_Func)Direct_Move_X;
- CUR.func_move_orig = (TT_Move_Func)Direct_Move_Orig_X;
- }
- else
- {
- if ( CUR.GS.freeVector.y == 0x4000 )
- {
- CUR.func_move = (TT_Move_Func)Direct_Move_Y;
- CUR.func_move_orig = (TT_Move_Func)Direct_Move_Orig_Y;
- }
- }
- }
-
- /* at small sizes, F_dot_P can become too small, resulting */
- /* in overflows and `spikes' in a number of glyphs like `w'. */
-
- if ( FT_ABS( CUR.F_dot_P ) < 0x4000000L )
- CUR.F_dot_P = 0x40000000L;
-
- /* Disable cached aspect ratio */
- CUR.tt_metrics.ratio = 0;
- }
-
-
- /*************************************************************************/
- /* */
- /* <Function> */
- /* Normalize */
- /* */
- /* <Description> */
- /* Norms a vector. */
- /* */
- /* <Input> */
- /* Vx :: The horizontal input vector coordinate. */
- /* Vy :: The vertical input vector coordinate. */
- /* */
- /* <Output> */
- /* R :: The normed unit vector. */
- /* */
- /* <Return> */
- /* Returns FAILURE if a vector parameter is zero. */
- /* */
- /* <Note> */
- /* In case Vx and Vy are both zero, Normalize() returns SUCCESS, and */
- /* R is undefined. */
- /* */
-
-
- static FT_Bool
- Normalize( EXEC_OP_ FT_F26Dot6 Vx,
- FT_F26Dot6 Vy,
- FT_UnitVector* R )
- {
- FT_F26Dot6 W;
- FT_Bool S1, S2;
-
- FT_UNUSED_EXEC;
-
-
- if ( FT_ABS( Vx ) < 0x10000L && FT_ABS( Vy ) < 0x10000L )
- {
- Vx *= 0x100;
- Vy *= 0x100;
-
- W = TT_VecLen( Vx, Vy );
-
- if ( W == 0 )
- {
- /* XXX: UNDOCUMENTED! It seems that it is possible to try */
- /* to normalize the vector (0,0). Return immediately. */
- return SUCCESS;
- }
-
- R->x = (FT_F2Dot14)FT_MulDiv( Vx, 0x4000L, W );
- R->y = (FT_F2Dot14)FT_MulDiv( Vy, 0x4000L, W );
-
- return SUCCESS;
- }
-
- W = TT_VecLen( Vx, Vy );
-
- Vx = FT_MulDiv( Vx, 0x4000L, W );
- Vy = FT_MulDiv( Vy, 0x4000L, W );
-
- W = Vx * Vx + Vy * Vy;
-
- /* Now, we want that Sqrt( W ) = 0x4000 */
- /* Or 0x10000000 <= W < 0x10004000 */
-
- if ( Vx < 0 )
- {
- Vx = -Vx;
- S1 = TRUE;
- }
- else
- S1 = FALSE;
-
- if ( Vy < 0 )
- {
- Vy = -Vy;
- S2 = TRUE;
- }
- else
- S2 = FALSE;
-
- while ( W < 0x10000000L )
- {
- /* We need to increase W by a minimal amount */
- if ( Vx < Vy )
- Vx++;
- else
- Vy++;
-
- W = Vx * Vx + Vy * Vy;
- }
-
- while ( W >= 0x10004000L )
- {
- /* We need to decrease W by a minimal amount */
- if ( Vx < Vy )
- Vx--;
- else
- Vy--;
-
- W = Vx * Vx + Vy * Vy;
- }
-
- /* Note that in various cases, we can only */
- /* compute a Sqrt(W) of 0x3FFF, eg. Vx = Vy */
-
- if ( S1 )
- Vx = -Vx;
-
- if ( S2 )
- Vy = -Vy;
-
- R->x = (FT_F2Dot14)Vx; /* Type conversion */
- R->y = (FT_F2Dot14)Vy; /* Type conversion */
-
- return SUCCESS;
- }
-
-
- /*************************************************************************/
- /* */
- /* Here we start with the implementation of the various opcodes. */
- /* */
- /*************************************************************************/
-
-
- static FT_Bool
- Ins_SxVTL( EXEC_OP_ FT_UShort aIdx1,
- FT_UShort aIdx2,
- FT_Int aOpc,
- FT_UnitVector* Vec )
- {
- FT_Long A, B, C;
- FT_Vector* p1;
- FT_Vector* p2;
-
-
- if ( BOUNDS( aIdx1, CUR.zp2.n_points ) ||
- BOUNDS( aIdx2, CUR.zp1.n_points ) )
- {
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Invalid_Reference;
- return FAILURE;
- }
-
- p1 = CUR.zp1.cur + aIdx2;
- p2 = CUR.zp2.cur + aIdx1;
-
- A = p1->x - p2->x;
- B = p1->y - p2->y;
-
- if ( ( aOpc & 1 ) != 0 )
- {
- C = B; /* counter clockwise rotation */
- B = A;
- A = -C;
- }
-
- NORMalize( A, B, Vec );
-
- return SUCCESS;
- }
-
-
- /* When not using the big switch statements, the interpreter uses a */
- /* call table defined later below in this source. Each opcode must */
- /* thus have a corresponding function, even trivial ones. */
- /* */
- /* They are all defined there. */
-
-#define DO_SVTCA \
- { \
- FT_Short A, B; \
- \
- \
- A = (FT_Short)( CUR.opcode & 1 ) << 14; \
- B = A ^ (FT_Short)0x4000; \
- \
- CUR.GS.freeVector.x = A; \
- CUR.GS.projVector.x = A; \
- CUR.GS.dualVector.x = A; \
- \
- CUR.GS.freeVector.y = B; \
- CUR.GS.projVector.y = B; \
- CUR.GS.dualVector.y = B; \
- \
- COMPUTE_Funcs(); \
- }
-
-
-#define DO_SPVTCA \
- { \
- FT_Short A, B; \
- \
- \
- A = (FT_Short)( CUR.opcode & 1 ) << 14; \
- B = A ^ (FT_Short)0x4000; \
- \
- CUR.GS.projVector.x = A; \
- CUR.GS.dualVector.x = A; \
- \
- CUR.GS.projVector.y = B; \
- CUR.GS.dualVector.y = B; \
- \
- GUESS_VECTOR( freeVector ); \
- \
- COMPUTE_Funcs(); \
- }
-
-
-#define DO_SFVTCA \
- { \
- FT_Short A, B; \
- \
- \
- A = (FT_Short)( CUR.opcode & 1 ) << 14; \
- B = A ^ (FT_Short)0x4000; \
- \
- CUR.GS.freeVector.x = A; \
- CUR.GS.freeVector.y = B; \
- \
- GUESS_VECTOR( projVector ); \
- \
- COMPUTE_Funcs(); \
- }
-
-
-#define DO_SPVTL \
- if ( INS_SxVTL( (FT_UShort)args[1], \
- (FT_UShort)args[0], \
- CUR.opcode, \
- &CUR.GS.projVector ) == SUCCESS ) \
- { \
- CUR.GS.dualVector = CUR.GS.projVector; \
- GUESS_VECTOR( freeVector ); \
- COMPUTE_Funcs(); \
- }
-
-
-#define DO_SFVTL \
- if ( INS_SxVTL( (FT_UShort)args[1], \
- (FT_UShort)args[0], \
- CUR.opcode, \
- &CUR.GS.freeVector ) == SUCCESS ) \
- { \
- GUESS_VECTOR( projVector ); \
- COMPUTE_Funcs(); \
- }
-
-
-#define DO_SFVTPV \
- GUESS_VECTOR( projVector ); \
- CUR.GS.freeVector = CUR.GS.projVector; \
- COMPUTE_Funcs();
-
-
-#define DO_SPVFS \
- { \
- FT_Short S; \
- FT_Long X, Y; \
- \
- \
- /* Only use low 16bits, then sign extend */ \
- S = (FT_Short)args[1]; \
- Y = (FT_Long)S; \
- S = (FT_Short)args[0]; \
- X = (FT_Long)S; \
- \
- NORMalize( X, Y, &CUR.GS.projVector ); \
- \
- CUR.GS.dualVector = CUR.GS.projVector; \
- GUESS_VECTOR( freeVector ); \
- COMPUTE_Funcs(); \
- }
-
-
-#define DO_SFVFS \
- { \
- FT_Short S; \
- FT_Long X, Y; \
- \
- \
- /* Only use low 16bits, then sign extend */ \
- S = (FT_Short)args[1]; \
- Y = (FT_Long)S; \
- S = (FT_Short)args[0]; \
- X = S; \
- \
- NORMalize( X, Y, &CUR.GS.freeVector ); \
- GUESS_VECTOR( projVector ); \
- COMPUTE_Funcs(); \
- }
-
-
-#ifdef TT_CONFIG_OPTION_UNPATENTED_HINTING
-#define DO_GPV \
- if ( CUR.face->unpatented_hinting ) \
- { \
- args[0] = CUR.GS.both_x_axis ? 0x4000 : 0; \
- args[1] = CUR.GS.both_x_axis ? 0 : 0x4000; \
- } \
- else \
- { \
- args[0] = CUR.GS.projVector.x; \
- args[1] = CUR.GS.projVector.y; \
- }
-#else
-#define DO_GPV \
- args[0] = CUR.GS.projVector.x; \
- args[1] = CUR.GS.projVector.y;
-#endif
-
-
-#ifdef TT_CONFIG_OPTION_UNPATENTED_HINTING
-#define DO_GFV \
- if ( CUR.face->unpatented_hinting ) \
- { \
- args[0] = CUR.GS.both_x_axis ? 0x4000 : 0; \
- args[1] = CUR.GS.both_x_axis ? 0 : 0x4000; \
- } \
- else \
- { \
- args[0] = CUR.GS.freeVector.x; \
- args[1] = CUR.GS.freeVector.y; \
- }
-#else
-#define DO_GFV \
- args[0] = CUR.GS.freeVector.x; \
- args[1] = CUR.GS.freeVector.y;
-#endif
-
-
-#define DO_SRP0 \
- CUR.GS.rp0 = (FT_UShort)args[0];
-
-
-#define DO_SRP1 \
- CUR.GS.rp1 = (FT_UShort)args[0];
-
-
-#define DO_SRP2 \
- CUR.GS.rp2 = (FT_UShort)args[0];
-
-
-#define DO_RTHG \
- CUR.GS.round_state = TT_Round_To_Half_Grid; \
- CUR.func_round = (TT_Round_Func)Round_To_Half_Grid;
-
-
-#define DO_RTG \
- CUR.GS.round_state = TT_Round_To_Grid; \
- CUR.func_round = (TT_Round_Func)Round_To_Grid;
-
-
-#define DO_RTDG \
- CUR.GS.round_state = TT_Round_To_Double_Grid; \
- CUR.func_round = (TT_Round_Func)Round_To_Double_Grid;
-
-
-#define DO_RUTG \
- CUR.GS.round_state = TT_Round_Up_To_Grid; \
- CUR.func_round = (TT_Round_Func)Round_Up_To_Grid;
-
-
-#define DO_RDTG \
- CUR.GS.round_state = TT_Round_Down_To_Grid; \
- CUR.func_round = (TT_Round_Func)Round_Down_To_Grid;
-
-
-#define DO_ROFF \
- CUR.GS.round_state = TT_Round_Off; \
- CUR.func_round = (TT_Round_Func)Round_None;
-
-
-#define DO_SROUND \
- SET_SuperRound( 0x4000, args[0] ); \
- CUR.GS.round_state = TT_Round_Super; \
- CUR.func_round = (TT_Round_Func)Round_Super;
-
-
-#define DO_S45ROUND \
- SET_SuperRound( 0x2D41, args[0] ); \
- CUR.GS.round_state = TT_Round_Super_45; \
- CUR.func_round = (TT_Round_Func)Round_Super_45;
-
-
-#define DO_SLOOP \
- if ( args[0] < 0 ) \
- CUR.error = TT_Err_Bad_Argument; \
- else \
- CUR.GS.loop = args[0];
-
-
-#define DO_SMD \
- CUR.GS.minimum_distance = args[0];
-
-
-#define DO_SCVTCI \
- CUR.GS.control_value_cutin = (FT_F26Dot6)args[0];
-
-
-#define DO_SSWCI \
- CUR.GS.single_width_cutin = (FT_F26Dot6)args[0];
-
-
- /* XXX: UNDOCUMENTED! or bug in the Windows engine? */
- /* */
- /* It seems that the value that is read here is */
- /* expressed in 16.16 format rather than in font */
- /* units. */
- /* */
-#define DO_SSW \
- CUR.GS.single_width_value = (FT_F26Dot6)( args[0] >> 10 );
-
-
-#define DO_FLIPON \
- CUR.GS.auto_flip = TRUE;
-
-
-#define DO_FLIPOFF \
- CUR.GS.auto_flip = FALSE;
-
-
-#define DO_SDB \
- CUR.GS.delta_base = (FT_Short)args[0];
-
-
-#define DO_SDS \
- CUR.GS.delta_shift = (FT_Short)args[0];
-
-
-#define DO_MD /* nothing */
-
-
-#define DO_MPPEM \
- args[0] = CURRENT_Ppem();
-
-
- /* Note: The pointSize should be irrelevant in a given font program; */
- /* we thus decide to return only the ppem. */
-#if 0
-
-#define DO_MPS \
- args[0] = CUR.metrics.pointSize;
-
-#else
-
-#define DO_MPS \
- args[0] = CURRENT_Ppem();
-
-#endif /* 0 */
-
-
-#define DO_DUP \
- args[1] = args[0];
-
-
-#define DO_CLEAR \
- CUR.new_top = 0;
-
-
-#define DO_SWAP \
- { \
- FT_Long L; \
- \
- \
- L = args[0]; \
- args[0] = args[1]; \
- args[1] = L; \
- }
-
-
-#define DO_DEPTH \
- args[0] = CUR.top;
-
-
-#define DO_CINDEX \
- { \
- FT_Long L; \
- \
- \
- L = args[0]; \
- \
- if ( L <= 0 || L > CUR.args ) \
- { \
- if ( CUR.pedantic_hinting ) \
- CUR.error = TT_Err_Invalid_Reference; \
- args[0] = 0; \
- } \
- else \
- args[0] = CUR.stack[CUR.args - L]; \
- }
-
-
-#define DO_JROT \
- if ( args[1] != 0 ) \
- { \
- if ( args[0] == 0 && CUR.args == 0 ) \
- CUR.error = TT_Err_Bad_Argument; \
- CUR.IP += args[0]; \
- if ( CUR.IP < 0 ) \
- CUR.error = TT_Err_Bad_Argument; \
- CUR.step_ins = FALSE; \
- }
-
-
-#define DO_JMPR \
- if ( args[0] == 0 && CUR.args == 0 ) \
- CUR.error = TT_Err_Bad_Argument; \
- CUR.IP += args[0]; \
- if ( CUR.IP < 0 ) \
- CUR.error = TT_Err_Bad_Argument; \
- CUR.step_ins = FALSE;
-
-
-#define DO_JROF \
- if ( args[1] == 0 ) \
- { \
- if ( args[0] == 0 && CUR.args == 0 ) \
- CUR.error = TT_Err_Bad_Argument; \
- CUR.IP += args[0]; \
- if ( CUR.IP < 0 ) \
- CUR.error = TT_Err_Bad_Argument; \
- CUR.step_ins = FALSE; \
- }
-
-
-#define DO_LT \
- args[0] = ( args[0] < args[1] );
-
-
-#define DO_LTEQ \
- args[0] = ( args[0] <= args[1] );
-
-
-#define DO_GT \
- args[0] = ( args[0] > args[1] );
-
-
-#define DO_GTEQ \
- args[0] = ( args[0] >= args[1] );
-
-
-#define DO_EQ \
- args[0] = ( args[0] == args[1] );
-
-
-#define DO_NEQ \
- args[0] = ( args[0] != args[1] );
-
-
-#define DO_ODD \
- args[0] = ( ( CUR_Func_round( args[0], 0 ) & 127 ) == 64 );
-
-
-#define DO_EVEN \
- args[0] = ( ( CUR_Func_round( args[0], 0 ) & 127 ) == 0 );
-
-
-#define DO_AND \
- args[0] = ( args[0] && args[1] );
-
-
-#define DO_OR \
- args[0] = ( args[0] || args[1] );
-
-
-#define DO_NOT \
- args[0] = !args[0];
-
-
-#define DO_ADD \
- args[0] += args[1];
-
-
-#define DO_SUB \
- args[0] -= args[1];
-
-
-#define DO_DIV \
- if ( args[1] == 0 ) \
- CUR.error = TT_Err_Divide_By_Zero; \
- else \
- args[0] = TT_MULDIV_NO_ROUND( args[0], 64L, args[1] );
-
-
-#define DO_MUL \
- args[0] = TT_MULDIV( args[0], args[1], 64L );
-
-
-#define DO_ABS \
- args[0] = FT_ABS( args[0] );
-
-
-#define DO_NEG \
- args[0] = -args[0];
-
-
-#define DO_FLOOR \
- args[0] = FT_PIX_FLOOR( args[0] );
-
-
-#define DO_CEILING \
- args[0] = FT_PIX_CEIL( args[0] );
-
-
-#define DO_RS \
- { \
- FT_ULong I = (FT_ULong)args[0]; \
- \
- \
- if ( BOUNDSL( I, CUR.storeSize ) ) \
- { \
- if ( CUR.pedantic_hinting ) \
- { \
- ARRAY_BOUND_ERROR; \
- } \
- else \
- args[0] = 0; \
- } \
- else \
- args[0] = CUR.storage[I]; \
- }
-
-
-#define DO_WS \
- { \
- FT_ULong I = (FT_ULong)args[0]; \
- \
- \
- if ( BOUNDSL( I, CUR.storeSize ) ) \
- { \
- if ( CUR.pedantic_hinting ) \
- { \
- ARRAY_BOUND_ERROR; \
- } \
- } \
- else \
- CUR.storage[I] = args[1]; \
- }
-
-
-#define DO_RCVT \
- { \
- FT_ULong I = (FT_ULong)args[0]; \
- \
- \
- if ( BOUNDSL( I, CUR.cvtSize ) ) \
- { \
- if ( CUR.pedantic_hinting ) \
- { \
- ARRAY_BOUND_ERROR; \
- } \
- else \
- args[0] = 0; \
- } \
- else \
- args[0] = CUR_Func_read_cvt( I ); \
- }
-
-
-#define DO_WCVTP \
- { \
- FT_ULong I = (FT_ULong)args[0]; \
- \
- \
- if ( BOUNDSL( I, CUR.cvtSize ) ) \
- { \
- if ( CUR.pedantic_hinting ) \
- { \
- ARRAY_BOUND_ERROR; \
- } \
- } \
- else \
- CUR_Func_write_cvt( I, args[1] ); \
- }
-
-
-#define DO_WCVTF \
- { \
- FT_ULong I = (FT_ULong)args[0]; \
- \
- \
- if ( BOUNDSL( I, CUR.cvtSize ) ) \
- { \
- if ( CUR.pedantic_hinting ) \
- { \
- ARRAY_BOUND_ERROR; \
- } \
- } \
- else \
- CUR.cvt[I] = TT_MULFIX( args[1], CUR.tt_metrics.scale ); \
- }
-
-
-#define DO_DEBUG \
- CUR.error = TT_Err_Debug_OpCode;
-
-
-#define DO_ROUND \
- args[0] = CUR_Func_round( \
- args[0], \
- CUR.tt_metrics.compensations[CUR.opcode - 0x68] );
-
-
-#define DO_NROUND \
- args[0] = ROUND_None( args[0], \
- CUR.tt_metrics.compensations[CUR.opcode - 0x6C] );
-
-
-#define DO_MAX \
- if ( args[1] > args[0] ) \
- args[0] = args[1];
-
-
-#define DO_MIN \
- if ( args[1] < args[0] ) \
- args[0] = args[1];
-
-
-#ifndef TT_CONFIG_OPTION_INTERPRETER_SWITCH
-
-
-#undef ARRAY_BOUND_ERROR
-#define ARRAY_BOUND_ERROR \
- { \
- CUR.error = TT_Err_Invalid_Reference; \
- return; \
- }
-
-
- /*************************************************************************/
- /* */
- /* SVTCA[a]: Set (F and P) Vectors to Coordinate Axis */
- /* Opcode range: 0x00-0x01 */
- /* Stack: --> */
- /* */
- static void
- Ins_SVTCA( INS_ARG )
- {
- DO_SVTCA
- }
-
-
- /*************************************************************************/
- /* */
- /* SPVTCA[a]: Set PVector to Coordinate Axis */
- /* Opcode range: 0x02-0x03 */
- /* Stack: --> */
- /* */
- static void
- Ins_SPVTCA( INS_ARG )
- {
- DO_SPVTCA
- }
-
-
- /*************************************************************************/
- /* */
- /* SFVTCA[a]: Set FVector to Coordinate Axis */
- /* Opcode range: 0x04-0x05 */
- /* Stack: --> */
- /* */
- static void
- Ins_SFVTCA( INS_ARG )
- {
- DO_SFVTCA
- }
-
-
- /*************************************************************************/
- /* */
- /* SPVTL[a]: Set PVector To Line */
- /* Opcode range: 0x06-0x07 */
- /* Stack: uint32 uint32 --> */
- /* */
- static void
- Ins_SPVTL( INS_ARG )
- {
- DO_SPVTL
- }
-
-
- /*************************************************************************/
- /* */
- /* SFVTL[a]: Set FVector To Line */
- /* Opcode range: 0x08-0x09 */
- /* Stack: uint32 uint32 --> */
- /* */
- static void
- Ins_SFVTL( INS_ARG )
- {
- DO_SFVTL
- }
-
-
- /*************************************************************************/
- /* */
- /* SFVTPV[]: Set FVector To PVector */
- /* Opcode range: 0x0E */
- /* Stack: --> */
- /* */
- static void
- Ins_SFVTPV( INS_ARG )
- {
- DO_SFVTPV
- }
-
-
- /*************************************************************************/
- /* */
- /* SPVFS[]: Set PVector From Stack */
- /* Opcode range: 0x0A */
- /* Stack: f2.14 f2.14 --> */
- /* */
- static void
- Ins_SPVFS( INS_ARG )
- {
- DO_SPVFS
- }
-
-
- /*************************************************************************/
- /* */
- /* SFVFS[]: Set FVector From Stack */
- /* Opcode range: 0x0B */
- /* Stack: f2.14 f2.14 --> */
- /* */
- static void
- Ins_SFVFS( INS_ARG )
- {
- DO_SFVFS
- }
-
-
- /*************************************************************************/
- /* */
- /* GPV[]: Get Projection Vector */
- /* Opcode range: 0x0C */
- /* Stack: ef2.14 --> ef2.14 */
- /* */
- static void
- Ins_GPV( INS_ARG )
- {
- DO_GPV
- }
-
-
- /*************************************************************************/
- /* GFV[]: Get Freedom Vector */
- /* Opcode range: 0x0D */
- /* Stack: ef2.14 --> ef2.14 */
- /* */
- static void
- Ins_GFV( INS_ARG )
- {
- DO_GFV
- }
-
-
- /*************************************************************************/
- /* */
- /* SRP0[]: Set Reference Point 0 */
- /* Opcode range: 0x10 */
- /* Stack: uint32 --> */
- /* */
- static void
- Ins_SRP0( INS_ARG )
- {
- DO_SRP0
- }
-
-
- /*************************************************************************/
- /* */
- /* SRP1[]: Set Reference Point 1 */
- /* Opcode range: 0x11 */
- /* Stack: uint32 --> */
- /* */
- static void
- Ins_SRP1( INS_ARG )
- {
- DO_SRP1
- }
-
-
- /*************************************************************************/
- /* */
- /* SRP2[]: Set Reference Point 2 */
- /* Opcode range: 0x12 */
- /* Stack: uint32 --> */
- /* */
- static void
- Ins_SRP2( INS_ARG )
- {
- DO_SRP2
- }
-
-
- /*************************************************************************/
- /* */
- /* RTHG[]: Round To Half Grid */
- /* Opcode range: 0x19 */
- /* Stack: --> */
- /* */
- static void
- Ins_RTHG( INS_ARG )
- {
- DO_RTHG
- }
-
-
- /*************************************************************************/
- /* */
- /* RTG[]: Round To Grid */
- /* Opcode range: 0x18 */
- /* Stack: --> */
- /* */
- static void
- Ins_RTG( INS_ARG )
- {
- DO_RTG
- }
-
-
- /*************************************************************************/
- /* RTDG[]: Round To Double Grid */
- /* Opcode range: 0x3D */
- /* Stack: --> */
- /* */
- static void
- Ins_RTDG( INS_ARG )
- {
- DO_RTDG
- }
-
-
- /*************************************************************************/
- /* RUTG[]: Round Up To Grid */
- /* Opcode range: 0x7C */
- /* Stack: --> */
- /* */
- static void
- Ins_RUTG( INS_ARG )
- {
- DO_RUTG
- }
-
-
- /*************************************************************************/
- /* */
- /* RDTG[]: Round Down To Grid */
- /* Opcode range: 0x7D */
- /* Stack: --> */
- /* */
- static void
- Ins_RDTG( INS_ARG )
- {
- DO_RDTG
- }
-
-
- /*************************************************************************/
- /* */
- /* ROFF[]: Round OFF */
- /* Opcode range: 0x7A */
- /* Stack: --> */
- /* */
- static void
- Ins_ROFF( INS_ARG )
- {
- DO_ROFF
- }
-
-
- /*************************************************************************/
- /* */
- /* SROUND[]: Super ROUND */
- /* Opcode range: 0x76 */
- /* Stack: Eint8 --> */
- /* */
- static void
- Ins_SROUND( INS_ARG )
- {
- DO_SROUND
- }
-
-
- /*************************************************************************/
- /* */
- /* S45ROUND[]: Super ROUND 45 degrees */
- /* Opcode range: 0x77 */
- /* Stack: uint32 --> */
- /* */
- static void
- Ins_S45ROUND( INS_ARG )
- {
- DO_S45ROUND
- }
-
-
- /*************************************************************************/
- /* */
- /* SLOOP[]: Set LOOP variable */
- /* Opcode range: 0x17 */
- /* Stack: int32? --> */
- /* */
- static void
- Ins_SLOOP( INS_ARG )
- {
- DO_SLOOP
- }
-
-
- /*************************************************************************/
- /* */
- /* SMD[]: Set Minimum Distance */
- /* Opcode range: 0x1A */
- /* Stack: f26.6 --> */
- /* */
- static void
- Ins_SMD( INS_ARG )
- {
- DO_SMD
- }
-
-
- /*************************************************************************/
- /* */
- /* SCVTCI[]: Set Control Value Table Cut In */
- /* Opcode range: 0x1D */
- /* Stack: f26.6 --> */
- /* */
- static void
- Ins_SCVTCI( INS_ARG )
- {
- DO_SCVTCI
- }
-
-
- /*************************************************************************/
- /* */
- /* SSWCI[]: Set Single Width Cut In */
- /* Opcode range: 0x1E */
- /* Stack: f26.6 --> */
- /* */
- static void
- Ins_SSWCI( INS_ARG )
- {
- DO_SSWCI
- }
-
-
- /*************************************************************************/
- /* */
- /* SSW[]: Set Single Width */
- /* Opcode range: 0x1F */
- /* Stack: int32? --> */
- /* */
- static void
- Ins_SSW( INS_ARG )
- {
- DO_SSW
- }
-
-
- /*************************************************************************/
- /* */
- /* FLIPON[]: Set auto-FLIP to ON */
- /* Opcode range: 0x4D */
- /* Stack: --> */
- /* */
- static void
- Ins_FLIPON( INS_ARG )
- {
- DO_FLIPON
- }
-
-
- /*************************************************************************/
- /* */
- /* FLIPOFF[]: Set auto-FLIP to OFF */
- /* Opcode range: 0x4E */
- /* Stack: --> */
- /* */
- static void
- Ins_FLIPOFF( INS_ARG )
- {
- DO_FLIPOFF
- }
-
-
- /*************************************************************************/
- /* */
- /* SANGW[]: Set ANGle Weight */
- /* Opcode range: 0x7E */
- /* Stack: uint32 --> */
- /* */
- static void
- Ins_SANGW( INS_ARG )
- {
- /* instruction not supported anymore */
- }
-
-
- /*************************************************************************/
- /* */
- /* SDB[]: Set Delta Base */
- /* Opcode range: 0x5E */
- /* Stack: uint32 --> */
- /* */
- static void
- Ins_SDB( INS_ARG )
- {
- DO_SDB
- }
-
-
- /*************************************************************************/
- /* */
- /* SDS[]: Set Delta Shift */
- /* Opcode range: 0x5F */
- /* Stack: uint32 --> */
- /* */
- static void
- Ins_SDS( INS_ARG )
- {
- DO_SDS
- }
-
-
- /*************************************************************************/
- /* */
- /* MPPEM[]: Measure Pixel Per EM */
- /* Opcode range: 0x4B */
- /* Stack: --> Euint16 */
- /* */
- static void
- Ins_MPPEM( INS_ARG )
- {
- DO_MPPEM
- }
-
-
- /*************************************************************************/
- /* */
- /* MPS[]: Measure Point Size */
- /* Opcode range: 0x4C */
- /* Stack: --> Euint16 */
- /* */
- static void
- Ins_MPS( INS_ARG )
- {
- DO_MPS
- }
-
-
- /*************************************************************************/
- /* */
- /* DUP[]: DUPlicate the top stack's element */
- /* Opcode range: 0x20 */
- /* Stack: StkElt --> StkElt StkElt */
- /* */
- static void
- Ins_DUP( INS_ARG )
- {
- DO_DUP
- }
-
-
- /*************************************************************************/
- /* */
- /* POP[]: POP the stack's top element */
- /* Opcode range: 0x21 */
- /* Stack: StkElt --> */
- /* */
- static void
- Ins_POP( INS_ARG )
- {
- /* nothing to do */
- }
-
-
- /*************************************************************************/
- /* */
- /* CLEAR[]: CLEAR the entire stack */
- /* Opcode range: 0x22 */
- /* Stack: StkElt... --> */
- /* */
- static void
- Ins_CLEAR( INS_ARG )
- {
- DO_CLEAR
- }
-
-
- /*************************************************************************/
- /* */
- /* SWAP[]: SWAP the stack's top two elements */
- /* Opcode range: 0x23 */
- /* Stack: 2 * StkElt --> 2 * StkElt */
- /* */
- static void
- Ins_SWAP( INS_ARG )
- {
- DO_SWAP
- }
-
-
- /*************************************************************************/
- /* */
- /* DEPTH[]: return the stack DEPTH */
- /* Opcode range: 0x24 */
- /* Stack: --> uint32 */
- /* */
- static void
- Ins_DEPTH( INS_ARG )
- {
- DO_DEPTH
- }
-
-
- /*************************************************************************/
- /* */
- /* CINDEX[]: Copy INDEXed element */
- /* Opcode range: 0x25 */
- /* Stack: int32 --> StkElt */
- /* */
- static void
- Ins_CINDEX( INS_ARG )
- {
- DO_CINDEX
- }
-
-
- /*************************************************************************/
- /* */
- /* EIF[]: End IF */
- /* Opcode range: 0x59 */
- /* Stack: --> */
- /* */
- static void
- Ins_EIF( INS_ARG )
- {
- /* nothing to do */
- }
-
-
- /*************************************************************************/
- /* */
- /* JROT[]: Jump Relative On True */
- /* Opcode range: 0x78 */
- /* Stack: StkElt int32 --> */
- /* */
- static void
- Ins_JROT( INS_ARG )
- {
- DO_JROT
- }
-
-
- /*************************************************************************/
- /* */
- /* JMPR[]: JuMP Relative */
- /* Opcode range: 0x1C */
- /* Stack: int32 --> */
- /* */
- static void
- Ins_JMPR( INS_ARG )
- {
- DO_JMPR
- }
-
-
- /*************************************************************************/
- /* */
- /* JROF[]: Jump Relative On False */
- /* Opcode range: 0x79 */
- /* Stack: StkElt int32 --> */
- /* */
- static void
- Ins_JROF( INS_ARG )
- {
- DO_JROF
- }
-
-
- /*************************************************************************/
- /* */
- /* LT[]: Less Than */
- /* Opcode range: 0x50 */
- /* Stack: int32? int32? --> bool */
- /* */
- static void
- Ins_LT( INS_ARG )
- {
- DO_LT
- }
-
-
- /*************************************************************************/
- /* */
- /* LTEQ[]: Less Than or EQual */
- /* Opcode range: 0x51 */
- /* Stack: int32? int32? --> bool */
- /* */
- static void
- Ins_LTEQ( INS_ARG )
- {
- DO_LTEQ
- }
-
-
- /*************************************************************************/
- /* */
- /* GT[]: Greater Than */
- /* Opcode range: 0x52 */
- /* Stack: int32? int32? --> bool */
- /* */
- static void
- Ins_GT( INS_ARG )
- {
- DO_GT
- }
-
-
- /*************************************************************************/
- /* */
- /* GTEQ[]: Greater Than or EQual */
- /* Opcode range: 0x53 */
- /* Stack: int32? int32? --> bool */
- /* */
- static void
- Ins_GTEQ( INS_ARG )
- {
- DO_GTEQ
- }
-
-
- /*************************************************************************/
- /* */
- /* EQ[]: EQual */
- /* Opcode range: 0x54 */
- /* Stack: StkElt StkElt --> bool */
- /* */
- static void
- Ins_EQ( INS_ARG )
- {
- DO_EQ
- }
-
-
- /*************************************************************************/
- /* */
- /* NEQ[]: Not EQual */
- /* Opcode range: 0x55 */
- /* Stack: StkElt StkElt --> bool */
- /* */
- static void
- Ins_NEQ( INS_ARG )
- {
- DO_NEQ
- }
-
-
- /*************************************************************************/
- /* */
- /* ODD[]: Is ODD */
- /* Opcode range: 0x56 */
- /* Stack: f26.6 --> bool */
- /* */
- static void
- Ins_ODD( INS_ARG )
- {
- DO_ODD
- }
-
-
- /*************************************************************************/
- /* */
- /* EVEN[]: Is EVEN */
- /* Opcode range: 0x57 */
- /* Stack: f26.6 --> bool */
- /* */
- static void
- Ins_EVEN( INS_ARG )
- {
- DO_EVEN
- }
-
-
- /*************************************************************************/
- /* */
- /* AND[]: logical AND */
- /* Opcode range: 0x5A */
- /* Stack: uint32 uint32 --> uint32 */
- /* */
- static void
- Ins_AND( INS_ARG )
- {
- DO_AND
- }
-
-
- /*************************************************************************/
- /* */
- /* OR[]: logical OR */
- /* Opcode range: 0x5B */
- /* Stack: uint32 uint32 --> uint32 */
- /* */
- static void
- Ins_OR( INS_ARG )
- {
- DO_OR
- }
-
-
- /*************************************************************************/
- /* */
- /* NOT[]: logical NOT */
- /* Opcode range: 0x5C */
- /* Stack: StkElt --> uint32 */
- /* */
- static void
- Ins_NOT( INS_ARG )
- {
- DO_NOT
- }
-
-
- /*************************************************************************/
- /* */
- /* ADD[]: ADD */
- /* Opcode range: 0x60 */
- /* Stack: f26.6 f26.6 --> f26.6 */
- /* */
- static void
- Ins_ADD( INS_ARG )
- {
- DO_ADD
- }
-
-
- /*************************************************************************/
- /* */
- /* SUB[]: SUBtract */
- /* Opcode range: 0x61 */
- /* Stack: f26.6 f26.6 --> f26.6 */
- /* */
- static void
- Ins_SUB( INS_ARG )
- {
- DO_SUB
- }
-
-
- /*************************************************************************/
- /* */
- /* DIV[]: DIVide */
- /* Opcode range: 0x62 */
- /* Stack: f26.6 f26.6 --> f26.6 */
- /* */
- static void
- Ins_DIV( INS_ARG )
- {
- DO_DIV
- }
-
-
- /*************************************************************************/
- /* */
- /* MUL[]: MULtiply */
- /* Opcode range: 0x63 */
- /* Stack: f26.6 f26.6 --> f26.6 */
- /* */
- static void
- Ins_MUL( INS_ARG )
- {
- DO_MUL
- }
-
-
- /*************************************************************************/
- /* */
- /* ABS[]: ABSolute value */
- /* Opcode range: 0x64 */
- /* Stack: f26.6 --> f26.6 */
- /* */
- static void
- Ins_ABS( INS_ARG )
- {
- DO_ABS
- }
-
-
- /*************************************************************************/
- /* */
- /* NEG[]: NEGate */
- /* Opcode range: 0x65 */
- /* Stack: f26.6 --> f26.6 */
- /* */
- static void
- Ins_NEG( INS_ARG )
- {
- DO_NEG
- }
-
-
- /*************************************************************************/
- /* */
- /* FLOOR[]: FLOOR */
- /* Opcode range: 0x66 */
- /* Stack: f26.6 --> f26.6 */
- /* */
- static void
- Ins_FLOOR( INS_ARG )
- {
- DO_FLOOR
- }
-
-
- /*************************************************************************/
- /* */
- /* CEILING[]: CEILING */
- /* Opcode range: 0x67 */
- /* Stack: f26.6 --> f26.6 */
- /* */
- static void
- Ins_CEILING( INS_ARG )
- {
- DO_CEILING
- }
-
-
- /*************************************************************************/
- /* */
- /* RS[]: Read Store */
- /* Opcode range: 0x43 */
- /* Stack: uint32 --> uint32 */
- /* */
- static void
- Ins_RS( INS_ARG )
- {
- DO_RS
- }
-
-
- /*************************************************************************/
- /* */
- /* WS[]: Write Store */
- /* Opcode range: 0x42 */
- /* Stack: uint32 uint32 --> */
- /* */
- static void
- Ins_WS( INS_ARG )
- {
- DO_WS
- }
-
-
- /*************************************************************************/
- /* */
- /* WCVTP[]: Write CVT in Pixel units */
- /* Opcode range: 0x44 */
- /* Stack: f26.6 uint32 --> */
- /* */
- static void
- Ins_WCVTP( INS_ARG )
- {
- DO_WCVTP
- }
-
-
- /*************************************************************************/
- /* */
- /* WCVTF[]: Write CVT in Funits */
- /* Opcode range: 0x70 */
- /* Stack: uint32 uint32 --> */
- /* */
- static void
- Ins_WCVTF( INS_ARG )
- {
- DO_WCVTF
- }
-
-
- /*************************************************************************/
- /* */
- /* RCVT[]: Read CVT */
- /* Opcode range: 0x45 */
- /* Stack: uint32 --> f26.6 */
- /* */
- static void
- Ins_RCVT( INS_ARG )
- {
- DO_RCVT
- }
-
-
- /*************************************************************************/
- /* */
- /* AA[]: Adjust Angle */
- /* Opcode range: 0x7F */
- /* Stack: uint32 --> */
- /* */
- static void
- Ins_AA( INS_ARG )
- {
- /* intentionally no longer supported */
- }
-
-
- /*************************************************************************/
- /* */
- /* DEBUG[]: DEBUG. Unsupported. */
- /* Opcode range: 0x4F */
- /* Stack: uint32 --> */
- /* */
- /* Note: The original instruction pops a value from the stack. */
- /* */
- static void
- Ins_DEBUG( INS_ARG )
- {
- DO_DEBUG
- }
-
-
- /*************************************************************************/
- /* */
- /* ROUND[ab]: ROUND value */
- /* Opcode range: 0x68-0x6B */
- /* Stack: f26.6 --> f26.6 */
- /* */
- static void
- Ins_ROUND( INS_ARG )
- {
- DO_ROUND
- }
-
-
- /*************************************************************************/
- /* */
- /* NROUND[ab]: No ROUNDing of value */
- /* Opcode range: 0x6C-0x6F */
- /* Stack: f26.6 --> f26.6 */
- /* */
- static void
- Ins_NROUND( INS_ARG )
- {
- DO_NROUND
- }
-
-
- /*************************************************************************/
- /* */
- /* MAX[]: MAXimum */
- /* Opcode range: 0x68 */
- /* Stack: int32? int32? --> int32 */
- /* */
- static void
- Ins_MAX( INS_ARG )
- {
- DO_MAX
- }
-
-
- /*************************************************************************/
- /* */
- /* MIN[]: MINimum */
- /* Opcode range: 0x69 */
- /* Stack: int32? int32? --> int32 */
- /* */
- static void
- Ins_MIN( INS_ARG )
- {
- DO_MIN
- }
-
-
-#endif /* !TT_CONFIG_OPTION_INTERPRETER_SWITCH */
-
-
- /*************************************************************************/
- /* */
- /* The following functions are called as is within the switch statement. */
- /* */
- /*************************************************************************/
-
-
- /*************************************************************************/
- /* */
- /* MINDEX[]: Move INDEXed element */
- /* Opcode range: 0x26 */
- /* Stack: int32? --> StkElt */
- /* */
- static void
- Ins_MINDEX( INS_ARG )
- {
- FT_Long L, K;
-
-
- L = args[0];
-
- if ( L <= 0 || L > CUR.args )
- {
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Invalid_Reference;
- }
- else
- {
- K = CUR.stack[CUR.args - L];
-
- FT_ARRAY_MOVE( &CUR.stack[CUR.args - L ],
- &CUR.stack[CUR.args - L + 1],
- ( L - 1 ) );
-
- CUR.stack[CUR.args - 1] = K;
- }
- }
-
-
- /*************************************************************************/
- /* */
- /* ROLL[]: ROLL top three elements */
- /* Opcode range: 0x8A */
- /* Stack: 3 * StkElt --> 3 * StkElt */
- /* */
- static void
- Ins_ROLL( INS_ARG )
- {
- FT_Long A, B, C;
-
- FT_UNUSED_EXEC;
-
-
- A = args[2];
- B = args[1];
- C = args[0];
-
- args[2] = C;
- args[1] = A;
- args[0] = B;
- }
-
-
- /*************************************************************************/
- /* */
- /* MANAGING THE FLOW OF CONTROL */
- /* */
- /* Instructions appear in the specification's order. */
- /* */
- /*************************************************************************/
-
-
- static FT_Bool
- SkipCode( EXEC_OP )
- {
- CUR.IP += CUR.length;
-
- if ( CUR.IP < CUR.codeSize )
- {
- CUR.opcode = CUR.code[CUR.IP];
-
- CUR.length = opcode_length[CUR.opcode];
- if ( CUR.length < 0 )
- {
- if ( CUR.IP + 1 > CUR.codeSize )
- goto Fail_Overflow;
- CUR.length = 2 - CUR.length * CUR.code[CUR.IP + 1];
- }
-
- if ( CUR.IP + CUR.length <= CUR.codeSize )
- return SUCCESS;
- }
-
- Fail_Overflow:
- CUR.error = TT_Err_Code_Overflow;
- return FAILURE;
- }
-
-
- /*************************************************************************/
- /* */
- /* IF[]: IF test */
- /* Opcode range: 0x58 */
- /* Stack: StkElt --> */
- /* */
- static void
- Ins_IF( INS_ARG )
- {
- FT_Int nIfs;
- FT_Bool Out;
-
-
- if ( args[0] != 0 )
- return;
-
- nIfs = 1;
- Out = 0;
-
- do
- {
- if ( SKIP_Code() == FAILURE )
- return;
-
- switch ( CUR.opcode )
- {
- case 0x58: /* IF */
- nIfs++;
- break;
-
- case 0x1B: /* ELSE */
- Out = FT_BOOL( nIfs == 1 );
- break;
-
- case 0x59: /* EIF */
- nIfs--;
- Out = FT_BOOL( nIfs == 0 );
- break;
- }
- } while ( Out == 0 );
- }
-
-
- /*************************************************************************/
- /* */
- /* ELSE[]: ELSE */
- /* Opcode range: 0x1B */
- /* Stack: --> */
- /* */
- static void
- Ins_ELSE( INS_ARG )
- {
- FT_Int nIfs;
-
- FT_UNUSED_ARG;
-
-
- nIfs = 1;
-
- do
- {
- if ( SKIP_Code() == FAILURE )
- return;
-
- switch ( CUR.opcode )
- {
- case 0x58: /* IF */
- nIfs++;
- break;
-
- case 0x59: /* EIF */
- nIfs--;
- break;
- }
- } while ( nIfs != 0 );
- }
-
-
- /*************************************************************************/
- /* */
- /* DEFINING AND USING FUNCTIONS AND INSTRUCTIONS */
- /* */
- /* Instructions appear in the specification's order. */
- /* */
- /*************************************************************************/
-
-
- /*************************************************************************/
- /* */
- /* FDEF[]: Function DEFinition */
- /* Opcode range: 0x2C */
- /* Stack: uint32 --> */
- /* */
- static void
- Ins_FDEF( INS_ARG )
- {
- FT_ULong n;
- TT_DefRecord* rec;
- TT_DefRecord* limit;
-
-
- /* some font programs are broken enough to redefine functions! */
- /* We will then parse the current table. */
-
- rec = CUR.FDefs;
- limit = rec + CUR.numFDefs;
- n = args[0];
-
- for ( ; rec < limit; rec++ )
- {
- if ( rec->opc == n )
- break;
- }
-
- if ( rec == limit )
- {
- /* check that there is enough room for new functions */
- if ( CUR.numFDefs >= CUR.maxFDefs )
- {
- CUR.error = TT_Err_Too_Many_Function_Defs;
- return;
- }
- CUR.numFDefs++;
- }
-
- /* Although FDEF takes unsigned 32-bit integer, */
- /* func # must be within unsigned 16-bit integer */
- if ( n > 0xFFFFU )
- {
- CUR.error = TT_Err_Too_Many_Function_Defs;
- return;
- }
-
- rec->range = CUR.curRange;
- rec->opc = (FT_UInt16)n;
- rec->start = CUR.IP + 1;
- rec->active = TRUE;
-
- if ( n > CUR.maxFunc )
- CUR.maxFunc = (FT_UInt16)n;
-
- /* Now skip the whole function definition. */
- /* We don't allow nested IDEFS & FDEFs. */
-
- while ( SKIP_Code() == SUCCESS )
- {
- switch ( CUR.opcode )
- {
- case 0x89: /* IDEF */
- case 0x2C: /* FDEF */
- CUR.error = TT_Err_Nested_DEFS;
- return;
-
- case 0x2D: /* ENDF */
- return;
- }
- }
- }
-
-
- /*************************************************************************/
- /* */
- /* ENDF[]: END Function definition */
- /* Opcode range: 0x2D */
- /* Stack: --> */
- /* */
- static void
- Ins_ENDF( INS_ARG )
- {
- TT_CallRec* pRec;
-
- FT_UNUSED_ARG;
-
-
- if ( CUR.callTop <= 0 ) /* We encountered an ENDF without a call */
- {
- CUR.error = TT_Err_ENDF_In_Exec_Stream;
- return;
- }
-
- CUR.callTop--;
-
- pRec = &CUR.callStack[CUR.callTop];
-
- pRec->Cur_Count--;
-
- CUR.step_ins = FALSE;
-
- if ( pRec->Cur_Count > 0 )
- {
- CUR.callTop++;
- CUR.IP = pRec->Cur_Restart;
- }
- else
- /* Loop through the current function */
- INS_Goto_CodeRange( pRec->Caller_Range,
- pRec->Caller_IP );
-
- /* Exit the current call frame. */
-
- /* NOTE: If the last instruction of a program is a */
- /* CALL or LOOPCALL, the return address is */
- /* always out of the code range. This is a */
- /* valid address, and it is why we do not test */
- /* the result of Ins_Goto_CodeRange() here! */
- }
-
-
- /*************************************************************************/
- /* */
- /* CALL[]: CALL function */
- /* Opcode range: 0x2B */
- /* Stack: uint32? --> */
- /* */
- static void
- Ins_CALL( INS_ARG )
- {
- FT_ULong F;
- TT_CallRec* pCrec;
- TT_DefRecord* def;
-
-
- /* first of all, check the index */
-
- F = args[0];
- if ( BOUNDSL( F, CUR.maxFunc + 1 ) )
- goto Fail;
-
- /* Except for some old Apple fonts, all functions in a TrueType */
- /* font are defined in increasing order, starting from 0. This */
- /* means that we normally have */
- /* */
- /* CUR.maxFunc+1 == CUR.numFDefs */
- /* CUR.FDefs[n].opc == n for n in 0..CUR.maxFunc */
- /* */
- /* If this isn't true, we need to look up the function table. */
-
- def = CUR.FDefs + F;
- if ( CUR.maxFunc + 1 != CUR.numFDefs || def->opc != F )
- {
- /* look up the FDefs table */
- TT_DefRecord* limit;
-
-
- def = CUR.FDefs;
- limit = def + CUR.numFDefs;
-
- while ( def < limit && def->opc != F )
- def++;
-
- if ( def == limit )
- goto Fail;
- }
-
- /* check that the function is active */
- if ( !def->active )
- goto Fail;
-
- /* check the call stack */
- if ( CUR.callTop >= CUR.callSize )
- {
- CUR.error = TT_Err_Stack_Overflow;
- return;
- }
-
- pCrec = CUR.callStack + CUR.callTop;
-
- pCrec->Caller_Range = CUR.curRange;
- pCrec->Caller_IP = CUR.IP + 1;
- pCrec->Cur_Count = 1;
- pCrec->Cur_Restart = def->start;
-
- CUR.callTop++;
-
- INS_Goto_CodeRange( def->range,
- def->start );
-
- CUR.step_ins = FALSE;
- return;
-
- Fail:
- CUR.error = TT_Err_Invalid_Reference;
- }
-
-
- /*************************************************************************/
- /* */
- /* LOOPCALL[]: LOOP and CALL function */
- /* Opcode range: 0x2A */
- /* Stack: uint32? Eint16? --> */
- /* */
- static void
- Ins_LOOPCALL( INS_ARG )
- {
- FT_ULong F;
- TT_CallRec* pCrec;
- TT_DefRecord* def;
-
-
- /* first of all, check the index */
- F = args[1];
- if ( BOUNDSL( F, CUR.maxFunc + 1 ) )
- goto Fail;
-
- /* Except for some old Apple fonts, all functions in a TrueType */
- /* font are defined in increasing order, starting from 0. This */
- /* means that we normally have */
- /* */
- /* CUR.maxFunc+1 == CUR.numFDefs */
- /* CUR.FDefs[n].opc == n for n in 0..CUR.maxFunc */
- /* */
- /* If this isn't true, we need to look up the function table. */
-
- def = CUR.FDefs + F;
- if ( CUR.maxFunc + 1 != CUR.numFDefs || def->opc != F )
- {
- /* look up the FDefs table */
- TT_DefRecord* limit;
-
-
- def = CUR.FDefs;
- limit = def + CUR.numFDefs;
-
- while ( def < limit && def->opc != F )
- def++;
-
- if ( def == limit )
- goto Fail;
- }
-
- /* check that the function is active */
- if ( !def->active )
- goto Fail;
-
- /* check stack */
- if ( CUR.callTop >= CUR.callSize )
- {
- CUR.error = TT_Err_Stack_Overflow;
- return;
- }
-
- if ( args[0] > 0 )
- {
- pCrec = CUR.callStack + CUR.callTop;
-
- pCrec->Caller_Range = CUR.curRange;
- pCrec->Caller_IP = CUR.IP + 1;
- pCrec->Cur_Count = (FT_Int)args[0];
- pCrec->Cur_Restart = def->start;
-
- CUR.callTop++;
-
- INS_Goto_CodeRange( def->range, def->start );
-
- CUR.step_ins = FALSE;
- }
- return;
-
- Fail:
- CUR.error = TT_Err_Invalid_Reference;
- }
-
-
- /*************************************************************************/
- /* */
- /* IDEF[]: Instruction DEFinition */
- /* Opcode range: 0x89 */
- /* Stack: Eint8 --> */
- /* */
- static void
- Ins_IDEF( INS_ARG )
- {
- TT_DefRecord* def;
- TT_DefRecord* limit;
-
-
- /* First of all, look for the same function in our table */
-
- def = CUR.IDefs;
- limit = def + CUR.numIDefs;
-
- for ( ; def < limit; def++ )
- if ( def->opc == (FT_ULong)args[0] )
- break;
-
- if ( def == limit )
- {
- /* check that there is enough room for a new instruction */
- if ( CUR.numIDefs >= CUR.maxIDefs )
- {
- CUR.error = TT_Err_Too_Many_Instruction_Defs;
- return;
- }
- CUR.numIDefs++;
- }
-
- /* opcode must be unsigned 8-bit integer */
- if ( 0 > args[0] || args[0] > 0x00FF )
- {
- CUR.error = TT_Err_Too_Many_Instruction_Defs;
- return;
- }
-
- def->opc = (FT_Byte)args[0];
- def->start = CUR.IP + 1;
- def->range = CUR.curRange;
- def->active = TRUE;
-
- if ( (FT_ULong)args[0] > CUR.maxIns )
- CUR.maxIns = (FT_Byte)args[0];
-
- /* Now skip the whole function definition. */
- /* We don't allow nested IDEFs & FDEFs. */
-
- while ( SKIP_Code() == SUCCESS )
- {
- switch ( CUR.opcode )
- {
- case 0x89: /* IDEF */
- case 0x2C: /* FDEF */
- CUR.error = TT_Err_Nested_DEFS;
- return;
- case 0x2D: /* ENDF */
- return;
- }
- }
- }
-
-
- /*************************************************************************/
- /* */
- /* PUSHING DATA ONTO THE INTERPRETER STACK */
- /* */
- /* Instructions appear in the specification's order. */
- /* */
- /*************************************************************************/
-
-
- /*************************************************************************/
- /* */
- /* NPUSHB[]: PUSH N Bytes */
- /* Opcode range: 0x40 */
- /* Stack: --> uint32... */
- /* */
- static void
- Ins_NPUSHB( INS_ARG )
- {
- FT_UShort L, K;
-
-
- L = (FT_UShort)CUR.code[CUR.IP + 1];
-
- if ( BOUNDS( L, CUR.stackSize + 1 - CUR.top ) )
- {
- CUR.error = TT_Err_Stack_Overflow;
- return;
- }
-
- for ( K = 1; K <= L; K++ )
- args[K - 1] = CUR.code[CUR.IP + K + 1];
-
- CUR.new_top += L;
- }
-
-
- /*************************************************************************/
- /* */
- /* NPUSHW[]: PUSH N Words */
- /* Opcode range: 0x41 */
- /* Stack: --> int32... */
- /* */
- static void
- Ins_NPUSHW( INS_ARG )
- {
- FT_UShort L, K;
-
-
- L = (FT_UShort)CUR.code[CUR.IP + 1];
-
- if ( BOUNDS( L, CUR.stackSize + 1 - CUR.top ) )
- {
- CUR.error = TT_Err_Stack_Overflow;
- return;
- }
-
- CUR.IP += 2;
-
- for ( K = 0; K < L; K++ )
- args[K] = GET_ShortIns();
-
- CUR.step_ins = FALSE;
- CUR.new_top += L;
- }
-
-
- /*************************************************************************/
- /* */
- /* PUSHB[abc]: PUSH Bytes */
- /* Opcode range: 0xB0-0xB7 */
- /* Stack: --> uint32... */
- /* */
- static void
- Ins_PUSHB( INS_ARG )
- {
- FT_UShort L, K;
-
-
- L = (FT_UShort)( CUR.opcode - 0xB0 + 1 );
-
- if ( BOUNDS( L, CUR.stackSize + 1 - CUR.top ) )
- {
- CUR.error = TT_Err_Stack_Overflow;
- return;
- }
-
- for ( K = 1; K <= L; K++ )
- args[K - 1] = CUR.code[CUR.IP + K];
- }
-
-
- /*************************************************************************/
- /* */
- /* PUSHW[abc]: PUSH Words */
- /* Opcode range: 0xB8-0xBF */
- /* Stack: --> int32... */
- /* */
- static void
- Ins_PUSHW( INS_ARG )
- {
- FT_UShort L, K;
-
-
- L = (FT_UShort)( CUR.opcode - 0xB8 + 1 );
-
- if ( BOUNDS( L, CUR.stackSize + 1 - CUR.top ) )
- {
- CUR.error = TT_Err_Stack_Overflow;
- return;
- }
-
- CUR.IP++;
-
- for ( K = 0; K < L; K++ )
- args[K] = GET_ShortIns();
-
- CUR.step_ins = FALSE;
- }
-
-
- /*************************************************************************/
- /* */
- /* MANAGING THE GRAPHICS STATE */
- /* */
- /* Instructions appear in the specs' order. */
- /* */
- /*************************************************************************/
-
-
- /*************************************************************************/
- /* */
- /* GC[a]: Get Coordinate projected onto */
- /* Opcode range: 0x46-0x47 */
- /* Stack: uint32 --> f26.6 */
- /* */
- /* BULLSHIT: Measures from the original glyph must be taken along the */
- /* dual projection vector! */
- /* */
- static void
- Ins_GC( INS_ARG )
- {
- FT_ULong L;
- FT_F26Dot6 R;
-
-
- L = (FT_ULong)args[0];
-
- if ( BOUNDSL( L, CUR.zp2.n_points ) )
- {
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Invalid_Reference;
- R = 0;
- }
- else
- {
- if ( CUR.opcode & 1 )
- R = CUR_fast_dualproj( &CUR.zp2.org[L] );
- else
- R = CUR_fast_project( &CUR.zp2.cur[L] );
- }
-
- args[0] = R;
- }
-
-
- /*************************************************************************/
- /* */
- /* SCFS[]: Set Coordinate From Stack */
- /* Opcode range: 0x48 */
- /* Stack: f26.6 uint32 --> */
- /* */
- /* Formula: */
- /* */
- /* OA := OA + ( value - OA.p )/( f.p ) * f */
- /* */
- static void
- Ins_SCFS( INS_ARG )
- {
- FT_Long K;
- FT_UShort L;
-
-
- L = (FT_UShort)args[0];
-
- if ( BOUNDS( L, CUR.zp2.n_points ) )
- {
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Invalid_Reference;
- return;
- }
-
- K = CUR_fast_project( &CUR.zp2.cur[L] );
-
- CUR_Func_move( &CUR.zp2, L, args[1] - K );
-
- /* not part of the specs, but here for safety */
-
- if ( CUR.GS.gep2 == 0 )
- CUR.zp2.org[L] = CUR.zp2.cur[L];
- }
-
-
- /*************************************************************************/
- /* */
- /* MD[a]: Measure Distance */
- /* Opcode range: 0x49-0x4A */
- /* Stack: uint32 uint32 --> f26.6 */
- /* */
- /* BULLSHIT: Measure taken in the original glyph must be along the dual */
- /* projection vector. */
- /* */
- /* Second BULLSHIT: Flag attributes are inverted! */
- /* 0 => measure distance in original outline */
- /* 1 => measure distance in grid-fitted outline */
- /* */
- /* Third one: `zp0 - zp1', and not `zp2 - zp1! */
- /* */
- static void
- Ins_MD( INS_ARG )
- {
- FT_UShort K, L;
- FT_F26Dot6 D;
-
-
- K = (FT_UShort)args[1];
- L = (FT_UShort)args[0];
-
- if ( BOUNDS( L, CUR.zp0.n_points ) ||
- BOUNDS( K, CUR.zp1.n_points ) )
- {
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Invalid_Reference;
- D = 0;
- }
- else
- {
- if ( CUR.opcode & 1 )
- D = CUR_Func_project( CUR.zp0.cur + L, CUR.zp1.cur + K );
- else
- {
- FT_Vector* vec1 = CUR.zp0.orus + L;
- FT_Vector* vec2 = CUR.zp1.orus + K;
-
-
- if ( CUR.metrics.x_scale == CUR.metrics.y_scale )
- {
- /* this should be faster */
- D = CUR_Func_dualproj( vec1, vec2 );
- D = TT_MULFIX( D, CUR.metrics.x_scale );
- }
- else
- {
- FT_Vector vec;
-
-
- vec.x = TT_MULFIX( vec1->x - vec2->x, CUR.metrics.x_scale );
- vec.y = TT_MULFIX( vec1->y - vec2->y, CUR.metrics.y_scale );
-
- D = CUR_fast_dualproj( &vec );
- }
- }
- }
-
- args[0] = D;
- }
-
-
- /*************************************************************************/
- /* */
- /* SDPVTL[a]: Set Dual PVector to Line */
- /* Opcode range: 0x86-0x87 */
- /* Stack: uint32 uint32 --> */
- /* */
- static void
- Ins_SDPVTL( INS_ARG )
- {
- FT_Long A, B, C;
- FT_UShort p1, p2; /* was FT_Int in pas type ERROR */
-
-
- p1 = (FT_UShort)args[1];
- p2 = (FT_UShort)args[0];
-
- if ( BOUNDS( p2, CUR.zp1.n_points ) ||
- BOUNDS( p1, CUR.zp2.n_points ) )
- {
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Invalid_Reference;
- return;
- }
-
- {
- FT_Vector* v1 = CUR.zp1.org + p2;
- FT_Vector* v2 = CUR.zp2.org + p1;
-
-
- A = v1->x - v2->x;
- B = v1->y - v2->y;
- }
-
- if ( ( CUR.opcode & 1 ) != 0 )
- {
- C = B; /* counter clockwise rotation */
- B = A;
- A = -C;
- }
-
- NORMalize( A, B, &CUR.GS.dualVector );
-
- {
- FT_Vector* v1 = CUR.zp1.cur + p2;
- FT_Vector* v2 = CUR.zp2.cur + p1;
-
-
- A = v1->x - v2->x;
- B = v1->y - v2->y;
- }
-
- if ( ( CUR.opcode & 1 ) != 0 )
- {
- C = B; /* counter clockwise rotation */
- B = A;
- A = -C;
- }
-
- NORMalize( A, B, &CUR.GS.projVector );
-
- GUESS_VECTOR( freeVector );
-
- COMPUTE_Funcs();
- }
-
-
- /*************************************************************************/
- /* */
- /* SZP0[]: Set Zone Pointer 0 */
- /* Opcode range: 0x13 */
- /* Stack: uint32 --> */
- /* */
- static void
- Ins_SZP0( INS_ARG )
- {
- switch ( (FT_Int)args[0] )
- {
- case 0:
- CUR.zp0 = CUR.twilight;
- break;
-
- case 1:
- CUR.zp0 = CUR.pts;
- break;
-
- default:
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Invalid_Reference;
- return;
- }
-
- CUR.GS.gep0 = (FT_UShort)args[0];
- }
-
-
- /*************************************************************************/
- /* */
- /* SZP1[]: Set Zone Pointer 1 */
- /* Opcode range: 0x14 */
- /* Stack: uint32 --> */
- /* */
- static void
- Ins_SZP1( INS_ARG )
- {
- switch ( (FT_Int)args[0] )
- {
- case 0:
- CUR.zp1 = CUR.twilight;
- break;
-
- case 1:
- CUR.zp1 = CUR.pts;
- break;
-
- default:
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Invalid_Reference;
- return;
- }
-
- CUR.GS.gep1 = (FT_UShort)args[0];
- }
-
-
- /*************************************************************************/
- /* */
- /* SZP2[]: Set Zone Pointer 2 */
- /* Opcode range: 0x15 */
- /* Stack: uint32 --> */
- /* */
- static void
- Ins_SZP2( INS_ARG )
- {
- switch ( (FT_Int)args[0] )
- {
- case 0:
- CUR.zp2 = CUR.twilight;
- break;
-
- case 1:
- CUR.zp2 = CUR.pts;
- break;
-
- default:
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Invalid_Reference;
- return;
- }
-
- CUR.GS.gep2 = (FT_UShort)args[0];
- }
-
-
- /*************************************************************************/
- /* */
- /* SZPS[]: Set Zone PointerS */
- /* Opcode range: 0x16 */
- /* Stack: uint32 --> */
- /* */
- static void
- Ins_SZPS( INS_ARG )
- {
- switch ( (FT_Int)args[0] )
- {
- case 0:
- CUR.zp0 = CUR.twilight;
- break;
-
- case 1:
- CUR.zp0 = CUR.pts;
- break;
-
- default:
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Invalid_Reference;
- return;
- }
-
- CUR.zp1 = CUR.zp0;
- CUR.zp2 = CUR.zp0;
-
- CUR.GS.gep0 = (FT_UShort)args[0];
- CUR.GS.gep1 = (FT_UShort)args[0];
- CUR.GS.gep2 = (FT_UShort)args[0];
- }
-
-
- /*************************************************************************/
- /* */
- /* INSTCTRL[]: INSTruction ConTRoL */
- /* Opcode range: 0x8e */
- /* Stack: int32 int32 --> */
- /* */
- static void
- Ins_INSTCTRL( INS_ARG )
- {
- FT_Long K, L;
-
-
- K = args[1];
- L = args[0];
-
- if ( K < 1 || K > 2 )
- {
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Invalid_Reference;
- return;
- }
-
- if ( L != 0 )
- L = K;
-
- CUR.GS.instruct_control = FT_BOOL(
- ( (FT_Byte)CUR.GS.instruct_control & ~(FT_Byte)K ) | (FT_Byte)L );
- }
-
-
- /*************************************************************************/
- /* */
- /* SCANCTRL[]: SCAN ConTRoL */
- /* Opcode range: 0x85 */
- /* Stack: uint32? --> */
- /* */
- static void
- Ins_SCANCTRL( INS_ARG )
- {
- FT_Int A;
-
-
- /* Get Threshold */
- A = (FT_Int)( args[0] & 0xFF );
-
- if ( A == 0xFF )
- {
- CUR.GS.scan_control = TRUE;
- return;
- }
- else if ( A == 0 )
- {
- CUR.GS.scan_control = FALSE;
- return;
- }
-
- if ( ( args[0] & 0x100 ) != 0 && CUR.tt_metrics.ppem <= A )
- CUR.GS.scan_control = TRUE;
-
- if ( ( args[0] & 0x200 ) != 0 && CUR.tt_metrics.rotated )
- CUR.GS.scan_control = TRUE;
-
- if ( ( args[0] & 0x400 ) != 0 && CUR.tt_metrics.stretched )
- CUR.GS.scan_control = TRUE;
-
- if ( ( args[0] & 0x800 ) != 0 && CUR.tt_metrics.ppem > A )
- CUR.GS.scan_control = FALSE;
-
- if ( ( args[0] & 0x1000 ) != 0 && CUR.tt_metrics.rotated )
- CUR.GS.scan_control = FALSE;
-
- if ( ( args[0] & 0x2000 ) != 0 && CUR.tt_metrics.stretched )
- CUR.GS.scan_control = FALSE;
- }
-
-
- /*************************************************************************/
- /* */
- /* SCANTYPE[]: SCAN TYPE */
- /* Opcode range: 0x8D */
- /* Stack: uint32? --> */
- /* */
- static void
- Ins_SCANTYPE( INS_ARG )
- {
- if ( args[0] >= 0 )
- CUR.GS.scan_type = (FT_Int)args[0];
- }
-
-
- /*************************************************************************/
- /* */
- /* MANAGING OUTLINES */
- /* */
- /* Instructions appear in the specification's order. */
- /* */
- /*************************************************************************/
-
-
- /*************************************************************************/
- /* */
- /* FLIPPT[]: FLIP PoinT */
- /* Opcode range: 0x80 */
- /* Stack: uint32... --> */
- /* */
- static void
- Ins_FLIPPT( INS_ARG )
- {
- FT_UShort point;
-
- FT_UNUSED_ARG;
-
-
- if ( CUR.top < CUR.GS.loop )
- {
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Too_Few_Arguments;
- goto Fail;
- }
-
- while ( CUR.GS.loop > 0 )
- {
- CUR.args--;
-
- point = (FT_UShort)CUR.stack[CUR.args];
-
- if ( BOUNDS( point, CUR.pts.n_points ) )
- {
- if ( CUR.pedantic_hinting )
- {
- CUR.error = TT_Err_Invalid_Reference;
- return;
- }
- }
- else
- CUR.pts.tags[point] ^= FT_CURVE_TAG_ON;
-
- CUR.GS.loop--;
- }
-
- Fail:
- CUR.GS.loop = 1;
- CUR.new_top = CUR.args;
- }
-
-
- /*************************************************************************/
- /* */
- /* FLIPRGON[]: FLIP RanGe ON */
- /* Opcode range: 0x81 */
- /* Stack: uint32 uint32 --> */
- /* */
- static void
- Ins_FLIPRGON( INS_ARG )
- {
- FT_UShort I, K, L;
-
-
- K = (FT_UShort)args[1];
- L = (FT_UShort)args[0];
-
- if ( BOUNDS( K, CUR.pts.n_points ) ||
- BOUNDS( L, CUR.pts.n_points ) )
- {
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Invalid_Reference;
- return;
- }
-
- for ( I = L; I <= K; I++ )
- CUR.pts.tags[I] |= FT_CURVE_TAG_ON;
- }
-
-
- /*************************************************************************/
- /* */
- /* FLIPRGOFF: FLIP RanGe OFF */
- /* Opcode range: 0x82 */
- /* Stack: uint32 uint32 --> */
- /* */
- static void
- Ins_FLIPRGOFF( INS_ARG )
- {
- FT_UShort I, K, L;
-
-
- K = (FT_UShort)args[1];
- L = (FT_UShort)args[0];
-
- if ( BOUNDS( K, CUR.pts.n_points ) ||
- BOUNDS( L, CUR.pts.n_points ) )
- {
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Invalid_Reference;
- return;
- }
-
- for ( I = L; I <= K; I++ )
- CUR.pts.tags[I] &= ~FT_CURVE_TAG_ON;
- }
-
-
- static FT_Bool
- Compute_Point_Displacement( EXEC_OP_ FT_F26Dot6* x,
- FT_F26Dot6* y,
- TT_GlyphZone zone,
- FT_UShort* refp )
- {
- TT_GlyphZoneRec zp;
- FT_UShort p;
- FT_F26Dot6 d;
-
-
- if ( CUR.opcode & 1 )
- {
- zp = CUR.zp0;
- p = CUR.GS.rp1;
- }
- else
- {
- zp = CUR.zp1;
- p = CUR.GS.rp2;
- }
-
- if ( BOUNDS( p, zp.n_points ) )
- {
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Invalid_Reference;
- *refp = 0;
- return FAILURE;
- }
-
- *zone = zp;
- *refp = p;
-
- d = CUR_Func_project( zp.cur + p, zp.org + p );
-
-#ifdef TT_CONFIG_OPTION_UNPATENTED_HINTING
- if ( CUR.face->unpatented_hinting )
- {
- if ( CUR.GS.both_x_axis )
- {
- *x = d;
- *y = 0;
- }
- else
- {
- *x = 0;
- *y = d;
- }
- }
- else
-#endif
- {
- *x = TT_MULDIV( d,
- (FT_Long)CUR.GS.freeVector.x * 0x10000L,
- CUR.F_dot_P );
- *y = TT_MULDIV( d,
- (FT_Long)CUR.GS.freeVector.y * 0x10000L,
- CUR.F_dot_P );
- }
-
- return SUCCESS;
- }
-
-
- static void
- Move_Zp2_Point( EXEC_OP_ FT_UShort point,
- FT_F26Dot6 dx,
- FT_F26Dot6 dy,
- FT_Bool touch )
- {
-#ifdef TT_CONFIG_OPTION_UNPATENTED_HINTING
- if ( CUR.face->unpatented_hinting )
- {
- if ( CUR.GS.both_x_axis )
- {
- CUR.zp2.cur[point].x += dx;
- if ( touch )
- CUR.zp2.tags[point] |= FT_CURVE_TAG_TOUCH_X;
- }
- else
- {
- CUR.zp2.cur[point].y += dy;
- if ( touch )
- CUR.zp2.tags[point] |= FT_CURVE_TAG_TOUCH_Y;
- }
- return;
- }
-#endif
-
- if ( CUR.GS.freeVector.x != 0 )
- {
- CUR.zp2.cur[point].x += dx;
- if ( touch )
- CUR.zp2.tags[point] |= FT_CURVE_TAG_TOUCH_X;
- }
-
- if ( CUR.GS.freeVector.y != 0 )
- {
- CUR.zp2.cur[point].y += dy;
- if ( touch )
- CUR.zp2.tags[point] |= FT_CURVE_TAG_TOUCH_Y;
- }
- }
-
-
- /*************************************************************************/
- /* */
- /* SHP[a]: SHift Point by the last point */
- /* Opcode range: 0x32-0x33 */
- /* Stack: uint32... --> */
- /* */
- static void
- Ins_SHP( INS_ARG )
- {
- TT_GlyphZoneRec zp;
- FT_UShort refp;
-
- FT_F26Dot6 dx,
- dy;
- FT_UShort point;
-
- FT_UNUSED_ARG;
-
-
- if ( CUR.top < CUR.GS.loop )
- {
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Invalid_Reference;
- goto Fail;
- }
-
- if ( COMPUTE_Point_Displacement( &dx, &dy, &zp, &refp ) )
- return;
-
- while ( CUR.GS.loop > 0 )
- {
- CUR.args--;
- point = (FT_UShort)CUR.stack[CUR.args];
-
- if ( BOUNDS( point, CUR.zp2.n_points ) )
- {
- if ( CUR.pedantic_hinting )
- {
- CUR.error = TT_Err_Invalid_Reference;
- return;
- }
- }
- else
- /* XXX: UNDOCUMENTED! SHP touches the points */
- MOVE_Zp2_Point( point, dx, dy, TRUE );
-
- CUR.GS.loop--;
- }
-
- Fail:
- CUR.GS.loop = 1;
- CUR.new_top = CUR.args;
- }
-
-
- /*************************************************************************/
- /* */
- /* SHC[a]: SHift Contour */
- /* Opcode range: 0x34-35 */
- /* Stack: uint32 --> */
- /* */
- static void
- Ins_SHC( INS_ARG )
- {
- TT_GlyphZoneRec zp;
- FT_UShort refp;
- FT_F26Dot6 dx,
- dy;
-
- FT_Short contour;
- FT_UShort first_point, last_point, i;
-
-
- contour = (FT_UShort)args[0];
-
- if ( BOUNDS( contour, CUR.pts.n_contours ) )
- {
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Invalid_Reference;
- return;
- }
-
- if ( COMPUTE_Point_Displacement( &dx, &dy, &zp, &refp ) )
- return;
-
- if ( contour == 0 )
- first_point = 0;
- else
- first_point = (FT_UShort)( CUR.pts.contours[contour - 1] + 1 -
- CUR.pts.first_point );
-
- last_point = (FT_UShort)( CUR.pts.contours[contour] -
- CUR.pts.first_point );
-
- /* XXX: this is probably wrong... at least it prevents memory */
- /* corruption when zp2 is the twilight zone */
- if ( BOUNDS( last_point, CUR.zp2.n_points ) )
- {
- if ( CUR.zp2.n_points > 0 )
- last_point = (FT_UShort)(CUR.zp2.n_points - 1);
- else
- last_point = 0;
- }
-
- /* XXX: UNDOCUMENTED! SHC touches the points */
- for ( i = first_point; i <= last_point; i++ )
- {
- if ( zp.cur != CUR.zp2.cur || refp != i )
- MOVE_Zp2_Point( i, dx, dy, TRUE );
- }
- }
-
-
- /*************************************************************************/
- /* */
- /* SHZ[a]: SHift Zone */
- /* Opcode range: 0x36-37 */
- /* Stack: uint32 --> */
- /* */
- static void
- Ins_SHZ( INS_ARG )
- {
- TT_GlyphZoneRec zp;
- FT_UShort refp;
- FT_F26Dot6 dx,
- dy;
-
- FT_UShort last_point, i;
-
-
- if ( BOUNDS( args[0], 2 ) )
- {
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Invalid_Reference;
- return;
- }
-
- if ( COMPUTE_Point_Displacement( &dx, &dy, &zp, &refp ) )
- return;
-
- /* XXX: UNDOCUMENTED! SHZ doesn't move the phantom points. */
- /* Twilight zone has no contours, so use `n_points'. */
- /* Normal zone's `n_points' includes phantoms, so must */
- /* use end of last contour. */
- if ( CUR.GS.gep2 == 0 && CUR.zp2.n_points > 0 )
- last_point = (FT_UShort)( CUR.zp2.n_points - 1 );
- else if ( CUR.GS.gep2 == 1 && CUR.zp2.n_contours > 0 )
- {
- last_point = (FT_UShort)( CUR.zp2.contours[CUR.zp2.n_contours - 1] );
-
- if ( BOUNDS( last_point, CUR.zp2.n_points ) )
- {
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Invalid_Reference;
- return;
- }
- }
- else
- last_point = 0;
-
- /* XXX: UNDOCUMENTED! SHZ doesn't touch the points */
- for ( i = 0; i <= last_point; i++ )
- {
- if ( zp.cur != CUR.zp2.cur || refp != i )
- MOVE_Zp2_Point( i, dx, dy, FALSE );
- }
- }
-
-
- /*************************************************************************/
- /* */
- /* SHPIX[]: SHift points by a PIXel amount */
- /* Opcode range: 0x38 */
- /* Stack: f26.6 uint32... --> */
- /* */
- static void
- Ins_SHPIX( INS_ARG )
- {
- FT_F26Dot6 dx, dy;
- FT_UShort point;
-
-
- if ( CUR.top < CUR.GS.loop + 1 )
- {
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Invalid_Reference;
- goto Fail;
- }
-
-#ifdef TT_CONFIG_OPTION_UNPATENTED_HINTING
- if ( CUR.face->unpatented_hinting )
- {
- if ( CUR.GS.both_x_axis )
- {
- dx = TT_MulFix14( (FT_UInt32)args[0], 0x4000 );
- dy = 0;
- }
- else
- {
- dx = 0;
- dy = TT_MulFix14( (FT_UInt32)args[0], 0x4000 );
- }
- }
- else
-#endif
- {
- dx = TT_MulFix14( (FT_UInt32)args[0], CUR.GS.freeVector.x );
- dy = TT_MulFix14( (FT_UInt32)args[0], CUR.GS.freeVector.y );
- }
-
- while ( CUR.GS.loop > 0 )
- {
- CUR.args--;
-
- point = (FT_UShort)CUR.stack[CUR.args];
-
- if ( BOUNDS( point, CUR.zp2.n_points ) )
- {
- if ( CUR.pedantic_hinting )
- {
- CUR.error = TT_Err_Invalid_Reference;
- return;
- }
- }
- else
- MOVE_Zp2_Point( point, dx, dy, TRUE );
-
- CUR.GS.loop--;
- }
-
- Fail:
- CUR.GS.loop = 1;
- CUR.new_top = CUR.args;
- }
-
-
- /*************************************************************************/
- /* */
- /* MSIRP[a]: Move Stack Indirect Relative Position */
- /* Opcode range: 0x3A-0x3B */
- /* Stack: f26.6 uint32 --> */
- /* */
- static void
- Ins_MSIRP( INS_ARG )
- {
- FT_UShort point;
- FT_F26Dot6 distance;
-
-
- point = (FT_UShort)args[0];
-
- if ( BOUNDS( point, CUR.zp1.n_points ) ||
- BOUNDS( CUR.GS.rp0, CUR.zp0.n_points ) )
- {
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Invalid_Reference;
- return;
- }
-
- /* XXX: UNDOCUMENTED! behaviour */
- if ( CUR.GS.gep1 == 0 ) /* if the point that is to be moved */
- /* is in twilight zone */
- {
- CUR.zp1.org[point] = CUR.zp0.org[CUR.GS.rp0];
- CUR_Func_move_orig( &CUR.zp1, point, args[1] );
- CUR.zp1.cur[point] = CUR.zp1.org[point];
- }
-
- distance = CUR_Func_project( CUR.zp1.cur + point,
- CUR.zp0.cur + CUR.GS.rp0 );
-
- CUR_Func_move( &CUR.zp1, point, args[1] - distance );
-
- CUR.GS.rp1 = CUR.GS.rp0;
- CUR.GS.rp2 = point;
-
- if ( ( CUR.opcode & 1 ) != 0 )
- CUR.GS.rp0 = point;
- }
-
-
- /*************************************************************************/
- /* */
- /* MDAP[a]: Move Direct Absolute Point */
- /* Opcode range: 0x2E-0x2F */
- /* Stack: uint32 --> */
- /* */
- static void
- Ins_MDAP( INS_ARG )
- {
- FT_UShort point;
- FT_F26Dot6 cur_dist,
- distance;
-
-
- point = (FT_UShort)args[0];
-
- if ( BOUNDS( point, CUR.zp0.n_points ) )
- {
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Invalid_Reference;
- return;
- }
-
- /* XXX: Is there some undocumented feature while in the */
- /* twilight zone? ? */
- if ( ( CUR.opcode & 1 ) != 0 )
- {
- cur_dist = CUR_fast_project( &CUR.zp0.cur[point] );
- distance = CUR_Func_round( cur_dist,
- CUR.tt_metrics.compensations[0] ) - cur_dist;
- }
- else
- distance = 0;
-
- CUR_Func_move( &CUR.zp0, point, distance );
-
- CUR.GS.rp0 = point;
- CUR.GS.rp1 = point;
- }
-
-
- /*************************************************************************/
- /* */
- /* MIAP[a]: Move Indirect Absolute Point */
- /* Opcode range: 0x3E-0x3F */
- /* Stack: uint32 uint32 --> */
- /* */
- static void
- Ins_MIAP( INS_ARG )
- {
- FT_ULong cvtEntry;
- FT_UShort point;
- FT_F26Dot6 distance,
- org_dist;
-
-
- cvtEntry = (FT_ULong)args[1];
- point = (FT_UShort)args[0];
-
- if ( BOUNDS( point, CUR.zp0.n_points ) ||
- BOUNDSL( cvtEntry, CUR.cvtSize ) )
- {
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Invalid_Reference;
- goto Fail;
- }
-
- /* XXX: UNDOCUMENTED! */
- /* */
- /* The behaviour of an MIAP instruction is quite */
- /* different when used in the twilight zone. */
- /* */
- /* First, no control value cut-in test is performed */
- /* as it would fail anyway. Second, the original */
- /* point, i.e. (org_x,org_y) of zp0.point, is set */
- /* to the absolute, unrounded distance found in */
- /* the CVT. */
- /* */
- /* This is used in the CVT programs of the Microsoft */
- /* fonts Arial, Times, etc., in order to re-adjust */
- /* some key font heights. It allows the use of the */
- /* IP instruction in the twilight zone, which */
- /* otherwise would be `illegal' according to the */
- /* specification. */
- /* */
- /* We implement it with a special sequence for the */
- /* twilight zone. This is a bad hack, but it seems */
- /* to work. */
-
- distance = CUR_Func_read_cvt( cvtEntry );
-
- if ( CUR.GS.gep0 == 0 ) /* If in twilight zone */
- {
- CUR.zp0.org[point].x = TT_MulFix14( (FT_UInt32)distance, CUR.GS.freeVector.x );
- CUR.zp0.org[point].y = TT_MulFix14( (FT_UInt32)distance, CUR.GS.freeVector.y ),
- CUR.zp0.cur[point] = CUR.zp0.org[point];
- }
-
- org_dist = CUR_fast_project( &CUR.zp0.cur[point] );
-
- if ( ( CUR.opcode & 1 ) != 0 ) /* rounding and control cutin flag */
- {
- if ( FT_ABS( distance - org_dist ) > CUR.GS.control_value_cutin )
- distance = org_dist;
-
- distance = CUR_Func_round( distance, CUR.tt_metrics.compensations[0] );
- }
-
- CUR_Func_move( &CUR.zp0, point, distance - org_dist );
-
- Fail:
- CUR.GS.rp0 = point;
- CUR.GS.rp1 = point;
- }
-
-
- /*************************************************************************/
- /* */
- /* MDRP[abcde]: Move Direct Relative Point */
- /* Opcode range: 0xC0-0xDF */
- /* Stack: uint32 --> */
- /* */
- static void
- Ins_MDRP( INS_ARG )
- {
- FT_UShort point;
- FT_F26Dot6 org_dist, distance;
-
-
- point = (FT_UShort)args[0];
-
- if ( BOUNDS( point, CUR.zp1.n_points ) ||
- BOUNDS( CUR.GS.rp0, CUR.zp0.n_points ) )
- {
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Invalid_Reference;
- goto Fail;
- }
-
- /* XXX: Is there some undocumented feature while in the */
- /* twilight zone? */
-
- /* XXX: UNDOCUMENTED: twilight zone special case */
-
- if ( CUR.GS.gep0 == 0 || CUR.GS.gep1 == 0 )
- {
- FT_Vector* vec1 = &CUR.zp1.org[point];
- FT_Vector* vec2 = &CUR.zp0.org[CUR.GS.rp0];
-
-
- org_dist = CUR_Func_dualproj( vec1, vec2 );
- }
- else
- {
- FT_Vector* vec1 = &CUR.zp1.orus[point];
- FT_Vector* vec2 = &CUR.zp0.orus[CUR.GS.rp0];
-
-
- if ( CUR.metrics.x_scale == CUR.metrics.y_scale )
- {
- /* this should be faster */
- org_dist = CUR_Func_dualproj( vec1, vec2 );
- org_dist = TT_MULFIX( org_dist, CUR.metrics.x_scale );
- }
- else
- {
- FT_Vector vec;
-
-
- vec.x = TT_MULFIX( vec1->x - vec2->x, CUR.metrics.x_scale );
- vec.y = TT_MULFIX( vec1->y - vec2->y, CUR.metrics.y_scale );
-
- org_dist = CUR_fast_dualproj( &vec );
- }
- }
-
- /* single width cut-in test */
-
- if ( FT_ABS( org_dist - CUR.GS.single_width_value ) <
- CUR.GS.single_width_cutin )
- {
- if ( org_dist >= 0 )
- org_dist = CUR.GS.single_width_value;
- else
- org_dist = -CUR.GS.single_width_value;
- }
-
- /* round flag */
-
- if ( ( CUR.opcode & 4 ) != 0 )
- distance = CUR_Func_round(
- org_dist,
- CUR.tt_metrics.compensations[CUR.opcode & 3] );
- else
- distance = ROUND_None(
- org_dist,
- CUR.tt_metrics.compensations[CUR.opcode & 3] );
-
- /* minimum distance flag */
-
- if ( ( CUR.opcode & 8 ) != 0 )
- {
- if ( org_dist >= 0 )
- {
- if ( distance < CUR.GS.minimum_distance )
- distance = CUR.GS.minimum_distance;
- }
- else
- {
- if ( distance > -CUR.GS.minimum_distance )
- distance = -CUR.GS.minimum_distance;
- }
- }
-
- /* now move the point */
-
- org_dist = CUR_Func_project( CUR.zp1.cur + point,
- CUR.zp0.cur + CUR.GS.rp0 );
-
- CUR_Func_move( &CUR.zp1, point, distance - org_dist );
-
- Fail:
- CUR.GS.rp1 = CUR.GS.rp0;
- CUR.GS.rp2 = point;
-
- if ( ( CUR.opcode & 16 ) != 0 )
- CUR.GS.rp0 = point;
- }
-
-
- /*************************************************************************/
- /* */
- /* MIRP[abcde]: Move Indirect Relative Point */
- /* Opcode range: 0xE0-0xFF */
- /* Stack: int32? uint32 --> */
- /* */
- static void
- Ins_MIRP( INS_ARG )
- {
- FT_UShort point;
- FT_ULong cvtEntry;
-
- FT_F26Dot6 cvt_dist,
- distance,
- cur_dist,
- org_dist;
-
-
- point = (FT_UShort)args[0];
- cvtEntry = (FT_ULong)( args[1] + 1 );
-
- /* XXX: UNDOCUMENTED! cvt[-1] = 0 always */
-
- if ( BOUNDS( point, CUR.zp1.n_points ) ||
- BOUNDSL( cvtEntry, CUR.cvtSize + 1 ) ||
- BOUNDS( CUR.GS.rp0, CUR.zp0.n_points ) )
- {
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Invalid_Reference;
- goto Fail;
- }
-
- if ( !cvtEntry )
- cvt_dist = 0;
- else
- cvt_dist = CUR_Func_read_cvt( cvtEntry - 1 );
-
- /* single width test */
-
- if ( FT_ABS( cvt_dist - CUR.GS.single_width_value ) <
- CUR.GS.single_width_cutin )
- {
- if ( cvt_dist >= 0 )
- cvt_dist = CUR.GS.single_width_value;
- else
- cvt_dist = -CUR.GS.single_width_value;
- }
-
- /* XXX: UNDOCUMENTED! -- twilight zone */
-
- if ( CUR.GS.gep1 == 0 )
- {
- CUR.zp1.org[point].x = CUR.zp0.org[CUR.GS.rp0].x +
- TT_MulFix14( (FT_UInt32)cvt_dist,
- CUR.GS.freeVector.x );
-
- CUR.zp1.org[point].y = CUR.zp0.org[CUR.GS.rp0].y +
- TT_MulFix14( (FT_UInt32)cvt_dist,
- CUR.GS.freeVector.y );
-
- CUR.zp1.cur[point] = CUR.zp0.cur[point];
- }
-
- org_dist = CUR_Func_dualproj( &CUR.zp1.org[point],
- &CUR.zp0.org[CUR.GS.rp0] );
- cur_dist = CUR_Func_project ( &CUR.zp1.cur[point],
- &CUR.zp0.cur[CUR.GS.rp0] );
-
- /* auto-flip test */
-
- if ( CUR.GS.auto_flip )
- {
- if ( ( org_dist ^ cvt_dist ) < 0 )
- cvt_dist = -cvt_dist;
- }
-
- /* control value cutin and round */
-
- if ( ( CUR.opcode & 4 ) != 0 )
- {
- /* XXX: UNDOCUMENTED! Only perform cut-in test when both points */
- /* refer to the same zone. */
-
- if ( CUR.GS.gep0 == CUR.GS.gep1 )
- {
- /* XXX: According to Greg Hitchcock, the following wording is */
- /* the right one: */
- /* */
- /* When the absolute difference between the value in */
- /* the table [CVT] and the measurement directly from */
- /* the outline is _greater_ than the cut_in value, the */
- /* outline measurement is used. */
- /* */
- /* This is from `instgly.doc'. The description in */
- /* `ttinst2.doc', version 1.66, is thus incorrect since */
- /* it implies `>=' instead of `>'. */
-
- if ( FT_ABS( cvt_dist - org_dist ) > CUR.GS.control_value_cutin )
- cvt_dist = org_dist;
- }
-
- distance = CUR_Func_round(
- cvt_dist,
- CUR.tt_metrics.compensations[CUR.opcode & 3] );
- }
- else
- distance = ROUND_None(
- cvt_dist,
- CUR.tt_metrics.compensations[CUR.opcode & 3] );
-
- /* minimum distance test */
-
- if ( ( CUR.opcode & 8 ) != 0 )
- {
- if ( org_dist >= 0 )
- {
- if ( distance < CUR.GS.minimum_distance )
- distance = CUR.GS.minimum_distance;
- }
- else
- {
- if ( distance > -CUR.GS.minimum_distance )
- distance = -CUR.GS.minimum_distance;
- }
- }
-
- CUR_Func_move( &CUR.zp1, point, distance - cur_dist );
-
- Fail:
- CUR.GS.rp1 = CUR.GS.rp0;
-
- if ( ( CUR.opcode & 16 ) != 0 )
- CUR.GS.rp0 = point;
-
- /* XXX: UNDOCUMENTED! */
- CUR.GS.rp2 = point;
- }
-
-
- /*************************************************************************/
- /* */
- /* ALIGNRP[]: ALIGN Relative Point */
- /* Opcode range: 0x3C */
- /* Stack: uint32 uint32... --> */
- /* */
- static void
- Ins_ALIGNRP( INS_ARG )
- {
- FT_UShort point;
- FT_F26Dot6 distance;
-
- FT_UNUSED_ARG;
-
-
- if ( CUR.top < CUR.GS.loop ||
- BOUNDS( CUR.GS.rp0, CUR.zp0.n_points ) )
- {
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Invalid_Reference;
- goto Fail;
- }
-
- while ( CUR.GS.loop > 0 )
- {
- CUR.args--;
-
- point = (FT_UShort)CUR.stack[CUR.args];
-
- if ( BOUNDS( point, CUR.zp1.n_points ) )
- {
- if ( CUR.pedantic_hinting )
- {
- CUR.error = TT_Err_Invalid_Reference;
- return;
- }
- }
- else
- {
- distance = CUR_Func_project( CUR.zp1.cur + point,
- CUR.zp0.cur + CUR.GS.rp0 );
-
- CUR_Func_move( &CUR.zp1, point, -distance );
- }
-
- CUR.GS.loop--;
- }
-
- Fail:
- CUR.GS.loop = 1;
- CUR.new_top = CUR.args;
- }
-
-
- /*************************************************************************/
- /* */
- /* ISECT[]: moves point to InterSECTion */
- /* Opcode range: 0x0F */
- /* Stack: 5 * uint32 --> */
- /* */
- static void
- Ins_ISECT( INS_ARG )
- {
- FT_UShort point,
- a0, a1,
- b0, b1;
-
- FT_F26Dot6 discriminant;
-
- FT_F26Dot6 dx, dy,
- dax, day,
- dbx, dby;
-
- FT_F26Dot6 val;
-
- FT_Vector R;
-
-
- point = (FT_UShort)args[0];
-
- a0 = (FT_UShort)args[1];
- a1 = (FT_UShort)args[2];
- b0 = (FT_UShort)args[3];
- b1 = (FT_UShort)args[4];
-
- if ( BOUNDS( b0, CUR.zp0.n_points ) ||
- BOUNDS( b1, CUR.zp0.n_points ) ||
- BOUNDS( a0, CUR.zp1.n_points ) ||
- BOUNDS( a1, CUR.zp1.n_points ) ||
- BOUNDS( point, CUR.zp2.n_points ) )
- {
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Invalid_Reference;
- return;
- }
-
- dbx = CUR.zp0.cur[b1].x - CUR.zp0.cur[b0].x;
- dby = CUR.zp0.cur[b1].y - CUR.zp0.cur[b0].y;
-
- dax = CUR.zp1.cur[a1].x - CUR.zp1.cur[a0].x;
- day = CUR.zp1.cur[a1].y - CUR.zp1.cur[a0].y;
-
- dx = CUR.zp0.cur[b0].x - CUR.zp1.cur[a0].x;
- dy = CUR.zp0.cur[b0].y - CUR.zp1.cur[a0].y;
-
- CUR.zp2.tags[point] |= FT_CURVE_TAG_TOUCH_BOTH;
-
- discriminant = TT_MULDIV( dax, -dby, 0x40 ) +
- TT_MULDIV( day, dbx, 0x40 );
-
- if ( FT_ABS( discriminant ) >= 0x40 )
- {
- val = TT_MULDIV( dx, -dby, 0x40 ) + TT_MULDIV( dy, dbx, 0x40 );
-
- R.x = TT_MULDIV( val, dax, discriminant );
- R.y = TT_MULDIV( val, day, discriminant );
-
- CUR.zp2.cur[point].x = CUR.zp1.cur[a0].x + R.x;
- CUR.zp2.cur[point].y = CUR.zp1.cur[a0].y + R.y;
- }
- else
- {
- /* else, take the middle of the middles of A and B */
-
- CUR.zp2.cur[point].x = ( CUR.zp1.cur[a0].x +
- CUR.zp1.cur[a1].x +
- CUR.zp0.cur[b0].x +
- CUR.zp0.cur[b1].x ) / 4;
- CUR.zp2.cur[point].y = ( CUR.zp1.cur[a0].y +
- CUR.zp1.cur[a1].y +
- CUR.zp0.cur[b0].y +
- CUR.zp0.cur[b1].y ) / 4;
- }
- }
-
-
- /*************************************************************************/
- /* */
- /* ALIGNPTS[]: ALIGN PoinTS */
- /* Opcode range: 0x27 */
- /* Stack: uint32 uint32 --> */
- /* */
- static void
- Ins_ALIGNPTS( INS_ARG )
- {
- FT_UShort p1, p2;
- FT_F26Dot6 distance;
-
-
- p1 = (FT_UShort)args[0];
- p2 = (FT_UShort)args[1];
-
- if ( BOUNDS( p1, CUR.zp1.n_points ) ||
- BOUNDS( p2, CUR.zp0.n_points ) )
- {
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Invalid_Reference;
- return;
- }
-
- distance = CUR_Func_project( CUR.zp0.cur + p2,
- CUR.zp1.cur + p1 ) / 2;
-
- CUR_Func_move( &CUR.zp1, p1, distance );
- CUR_Func_move( &CUR.zp0, p2, -distance );
- }
-
-
- /*************************************************************************/
- /* */
- /* IP[]: Interpolate Point */
- /* Opcode range: 0x39 */
- /* Stack: uint32... --> */
- /* */
-
- /* SOMETIMES, DUMBER CODE IS BETTER CODE */
-
- static void
- Ins_IP( INS_ARG )
- {
- FT_F26Dot6 old_range, cur_range;
- FT_Vector* orus_base;
- FT_Vector* cur_base;
- FT_Int twilight;
-
- FT_UNUSED_ARG;
-
-
- if ( CUR.top < CUR.GS.loop )
- {
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Invalid_Reference;
- goto Fail;
- }
-
- /*
- * We need to deal in a special way with the twilight zone.
- * Otherwise, by definition, the value of CUR.twilight.orus[n] is (0,0),
- * for every n.
- */
- twilight = CUR.GS.gep0 == 0 || CUR.GS.gep1 == 0 || CUR.GS.gep2 == 0;
-
- if ( BOUNDS( CUR.GS.rp1, CUR.zp0.n_points ) )
- {
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Invalid_Reference;
- goto Fail;
- }
-
- if ( twilight )
- orus_base = &CUR.zp0.org[CUR.GS.rp1];
- else
- orus_base = &CUR.zp0.orus[CUR.GS.rp1];
-
- cur_base = &CUR.zp0.cur[CUR.GS.rp1];
-
- /* XXX: There are some glyphs in some braindead but popular */
- /* fonts out there (e.g. [aeu]grave in monotype.ttf) */
- /* calling IP[] with bad values of rp[12]. */
- /* Do something sane when this odd thing happens. */
- if ( BOUNDS( CUR.GS.rp1, CUR.zp0.n_points ) ||
- BOUNDS( CUR.GS.rp2, CUR.zp1.n_points ) )
- {
- old_range = 0;
- cur_range = 0;
- }
- else
- {
- if ( twilight )
- old_range = CUR_Func_dualproj( &CUR.zp1.org[CUR.GS.rp2],
- orus_base );
- else
- old_range = CUR_Func_dualproj( &CUR.zp1.orus[CUR.GS.rp2],
- orus_base );
-
- cur_range = CUR_Func_project ( &CUR.zp1.cur[CUR.GS.rp2], cur_base );
- }
-
- for ( ; CUR.GS.loop > 0; --CUR.GS.loop )
- {
- FT_UInt point = (FT_UInt)CUR.stack[--CUR.args];
- FT_F26Dot6 org_dist, cur_dist, new_dist;
-
-
- /* check point bounds */
- if ( BOUNDS( point, CUR.zp2.n_points ) )
- {
- if ( CUR.pedantic_hinting )
- {
- CUR.error = TT_Err_Invalid_Reference;
- return;
- }
- continue;
- }
-
- if ( twilight )
- org_dist = CUR_Func_dualproj( &CUR.zp2.org[point], orus_base );
- else
- org_dist = CUR_Func_dualproj( &CUR.zp2.orus[point], orus_base );
-
- cur_dist = CUR_Func_project ( &CUR.zp2.cur[point], cur_base );
-
- if ( org_dist )
- new_dist = ( old_range != 0 )
- ? TT_MULDIV( org_dist, cur_range, old_range )
- : cur_dist;
- else
- new_dist = 0;
-
- CUR_Func_move( &CUR.zp2, (FT_UShort)point, new_dist - cur_dist );
- }
-
- Fail:
- CUR.GS.loop = 1;
- CUR.new_top = CUR.args;
- }
-
-
- /*************************************************************************/
- /* */
- /* UTP[a]: UnTouch Point */
- /* Opcode range: 0x29 */
- /* Stack: uint32 --> */
- /* */
- static void
- Ins_UTP( INS_ARG )
- {
- FT_UShort point;
- FT_Byte mask;
-
-
- point = (FT_UShort)args[0];
-
- if ( BOUNDS( point, CUR.zp0.n_points ) )
- {
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Invalid_Reference;
- return;
- }
-
- mask = 0xFF;
-
- if ( CUR.GS.freeVector.x != 0 )
- mask &= ~FT_CURVE_TAG_TOUCH_X;
-
- if ( CUR.GS.freeVector.y != 0 )
- mask &= ~FT_CURVE_TAG_TOUCH_Y;
-
- CUR.zp0.tags[point] &= mask;
- }
-
-
- /* Local variables for Ins_IUP: */
- typedef struct IUP_WorkerRec_
- {
- FT_Vector* orgs; /* original and current coordinate */
- FT_Vector* curs; /* arrays */
- FT_Vector* orus;
- FT_UInt max_points;
-
- } IUP_WorkerRec, *IUP_Worker;
-
-
- static void
- _iup_worker_shift( IUP_Worker worker,
- FT_UInt p1,
- FT_UInt p2,
- FT_UInt p )
- {
- FT_UInt i;
- FT_F26Dot6 dx;
-
-
- dx = worker->curs[p].x - worker->orgs[p].x;
- if ( dx != 0 )
- {
- for ( i = p1; i < p; i++ )
- worker->curs[i].x += dx;
-
- for ( i = p + 1; i <= p2; i++ )
- worker->curs[i].x += dx;
- }
- }
-
-
- static void
- _iup_worker_interpolate( IUP_Worker worker,
- FT_UInt p1,
- FT_UInt p2,
- FT_UInt ref1,
- FT_UInt ref2 )
- {
- FT_UInt i;
- FT_F26Dot6 orus1, orus2, org1, org2, delta1, delta2;
-
-
- if ( p1 > p2 )
- return;
-
- if ( BOUNDS( ref1, worker->max_points ) ||
- BOUNDS( ref2, worker->max_points ) )
- return;
-
- orus1 = worker->orus[ref1].x;
- orus2 = worker->orus[ref2].x;
-
- if ( orus1 > orus2 )
- {
- FT_F26Dot6 tmp_o;
- FT_UInt tmp_r;
-
-
- tmp_o = orus1;
- orus1 = orus2;
- orus2 = tmp_o;
-
- tmp_r = ref1;
- ref1 = ref2;
- ref2 = tmp_r;
- }
-
- org1 = worker->orgs[ref1].x;
- org2 = worker->orgs[ref2].x;
- delta1 = worker->curs[ref1].x - org1;
- delta2 = worker->curs[ref2].x - org2;
-
- if ( orus1 == orus2 )
- {
- /* simple shift of untouched points */
- for ( i = p1; i <= p2; i++ )
- {
- FT_F26Dot6 x = worker->orgs[i].x;
-
-
- if ( x <= org1 )
- x += delta1;
- else
- x += delta2;
-
- worker->curs[i].x = x;
- }
- }
- else
- {
- FT_Fixed scale = 0;
- FT_Bool scale_valid = 0;
-
-
- /* interpolation */
- for ( i = p1; i <= p2; i++ )
- {
- FT_F26Dot6 x = worker->orgs[i].x;
-
-
- if ( x <= org1 )
- x += delta1;
-
- else if ( x >= org2 )
- x += delta2;
-
- else
- {
- if ( !scale_valid )
- {
- scale_valid = 1;
- scale = TT_MULDIV( org2 + delta2 - ( org1 + delta1 ),
- 0x10000L, orus2 - orus1 );
- }
-
- x = ( org1 + delta1 ) +
- TT_MULFIX( worker->orus[i].x - orus1, scale );
- }
- worker->curs[i].x = x;
- }
- }
- }
-
-
- /*************************************************************************/
- /* */
- /* IUP[a]: Interpolate Untouched Points */
- /* Opcode range: 0x30-0x31 */
- /* Stack: --> */
- /* */
- static void
- Ins_IUP( INS_ARG )
- {
- IUP_WorkerRec V;
- FT_Byte mask;
-
- FT_UInt first_point; /* first point of contour */
- FT_UInt end_point; /* end point (last+1) of contour */
-
- FT_UInt first_touched; /* first touched point in contour */
- FT_UInt cur_touched; /* current touched point in contour */
-
- FT_UInt point; /* current point */
- FT_Short contour; /* current contour */
-
- FT_UNUSED_ARG;
-
-
- /* ignore empty outlines */
- if ( CUR.pts.n_contours == 0 )
- return;
-
- if ( CUR.opcode & 1 )
- {
- mask = FT_CURVE_TAG_TOUCH_X;
- V.orgs = CUR.pts.org;
- V.curs = CUR.pts.cur;
- V.orus = CUR.pts.orus;
- }
- else
- {
- mask = FT_CURVE_TAG_TOUCH_Y;
- V.orgs = (FT_Vector*)( (FT_Pos*)CUR.pts.org + 1 );
- V.curs = (FT_Vector*)( (FT_Pos*)CUR.pts.cur + 1 );
- V.orus = (FT_Vector*)( (FT_Pos*)CUR.pts.orus + 1 );
- }
- V.max_points = CUR.pts.n_points;
-
- contour = 0;
- point = 0;
-
- do
- {
- end_point = CUR.pts.contours[contour] - CUR.pts.first_point;
- first_point = point;
-
- if ( BOUNDS ( end_point, CUR.pts.n_points ) )
- end_point = CUR.pts.n_points - 1;
-
- while ( point <= end_point && ( CUR.pts.tags[point] & mask ) == 0 )
- point++;
-
- if ( point <= end_point )
- {
- first_touched = point;
- cur_touched = point;
-
- point++;
-
- while ( point <= end_point )
- {
- if ( ( CUR.pts.tags[point] & mask ) != 0 )
- {
- _iup_worker_interpolate( &V,
- cur_touched + 1,
- point - 1,
- cur_touched,
- point );
- cur_touched = point;
- }
-
- point++;
- }
-
- if ( cur_touched == first_touched )
- _iup_worker_shift( &V, first_point, end_point, cur_touched );
- else
- {
- _iup_worker_interpolate( &V,
- (FT_UShort)( cur_touched + 1 ),
- end_point,
- cur_touched,
- first_touched );
-
- if ( first_touched > 0 )
- _iup_worker_interpolate( &V,
- first_point,
- first_touched - 1,
- cur_touched,
- first_touched );
- }
- }
- contour++;
- } while ( contour < CUR.pts.n_contours );
- }
-
-
- /*************************************************************************/
- /* */
- /* DELTAPn[]: DELTA exceptions P1, P2, P3 */
- /* Opcode range: 0x5D,0x71,0x72 */
- /* Stack: uint32 (2 * uint32)... --> */
- /* */
- static void
- Ins_DELTAP( INS_ARG )
- {
- FT_ULong k, nump;
- FT_UShort A;
- FT_ULong C;
- FT_Long B;
-
-
-#ifdef TT_CONFIG_OPTION_UNPATENTED_HINTING
- /* Delta hinting is covered by US Patent 5159668. */
- if ( CUR.face->unpatented_hinting )
- {
- FT_Long n = args[0] * 2;
-
-
- if ( CUR.args < n )
- {
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Too_Few_Arguments;
- n = CUR.args;
- }
-
- CUR.args -= n;
- CUR.new_top = CUR.args;
- return;
- }
-#endif
-
- nump = (FT_ULong)args[0]; /* some points theoretically may occur more
- than once, thus UShort isn't enough */
-
- for ( k = 1; k <= nump; k++ )
- {
- if ( CUR.args < 2 )
- {
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Too_Few_Arguments;
- CUR.args = 0;
- goto Fail;
- }
-
- CUR.args -= 2;
-
- A = (FT_UShort)CUR.stack[CUR.args + 1];
- B = CUR.stack[CUR.args];
-
- /* XXX: Because some popular fonts contain some invalid DeltaP */
- /* instructions, we simply ignore them when the stacked */
- /* point reference is off limit, rather than returning an */
- /* error. As a delta instruction doesn't change a glyph */
- /* in great ways, this shouldn't be a problem. */
-
- if ( !BOUNDS( A, CUR.zp0.n_points ) )
- {
- C = ( (FT_ULong)B & 0xF0 ) >> 4;
-
- switch ( CUR.opcode )
- {
- case 0x5D:
- break;
-
- case 0x71:
- C += 16;
- break;
-
- case 0x72:
- C += 32;
- break;
- }
-
- C += CUR.GS.delta_base;
-
- if ( CURRENT_Ppem() == (FT_Long)C )
- {
- B = ( (FT_ULong)B & 0xF ) - 8;
- if ( B >= 0 )
- B++;
- B = B * 64 / ( 1L << CUR.GS.delta_shift );
-
- CUR_Func_move( &CUR.zp0, A, B );
- }
- }
- else
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Invalid_Reference;
- }
-
- Fail:
- CUR.new_top = CUR.args;
- }
-
-
- /*************************************************************************/
- /* */
- /* DELTACn[]: DELTA exceptions C1, C2, C3 */
- /* Opcode range: 0x73,0x74,0x75 */
- /* Stack: uint32 (2 * uint32)... --> */
- /* */
- static void
- Ins_DELTAC( INS_ARG )
- {
- FT_ULong nump, k;
- FT_ULong A, C;
- FT_Long B;
-
-
-#ifdef TT_CONFIG_OPTION_UNPATENTED_HINTING
- /* Delta hinting is covered by US Patent 5159668. */
- if ( CUR.face->unpatented_hinting )
- {
- FT_Long n = args[0] * 2;
-
-
- if ( CUR.args < n )
- {
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Too_Few_Arguments;
- n = CUR.args;
- }
-
- CUR.args -= n;
- CUR.new_top = CUR.args;
- return;
- }
-#endif
-
- nump = (FT_ULong)args[0];
-
- for ( k = 1; k <= nump; k++ )
- {
- if ( CUR.args < 2 )
- {
- if ( CUR.pedantic_hinting )
- CUR.error = TT_Err_Too_Few_Arguments;
- CUR.args = 0;
- goto Fail;
- }
-
- CUR.args -= 2;
-
- A = (FT_ULong)CUR.stack[CUR.args + 1];
- B = CUR.stack[CUR.args];
-
- if ( BOUNDSL( A, CUR.cvtSize ) )
- {
- if ( CUR.pedantic_hinting )
- {
- CUR.error = TT_Err_Invalid_Reference;
- return;
- }
- }
- else
- {
- C = ( (FT_ULong)B & 0xF0 ) >> 4;
-
- switch ( CUR.opcode )
- {
- case 0x73:
- break;
-
- case 0x74:
- C += 16;
- break;
-
- case 0x75:
- C += 32;
- break;
- }
-
- C += CUR.GS.delta_base;
-
- if ( CURRENT_Ppem() == (FT_Long)C )
- {
- B = ( (FT_ULong)B & 0xF ) - 8;
- if ( B >= 0 )
- B++;
- B = B * 64 / ( 1L << CUR.GS.delta_shift );
-
- CUR_Func_move_cvt( A, B );
- }
- }
- }
-
- Fail:
- CUR.new_top = CUR.args;
- }
-
-
- /*************************************************************************/
- /* */
- /* MISC. INSTRUCTIONS */
- /* */
- /*************************************************************************/
-
-
- /*************************************************************************/
- /* */
- /* GETINFO[]: GET INFOrmation */
- /* Opcode range: 0x88 */
- /* Stack: uint32 --> uint32 */
- /* */
- static void
- Ins_GETINFO( INS_ARG )
- {
- FT_Long K;
-
-
- K = 0;
-
- /* We return MS rasterizer version 1.7 for the font scaler. */
- if ( ( args[0] & 1 ) != 0 )
- K = 35;
-
- /* Has the glyph been rotated? */
- if ( ( args[0] & 2 ) != 0 && CUR.tt_metrics.rotated )
- K |= 0x80;
-
- /* Has the glyph been stretched? */
- if ( ( args[0] & 4 ) != 0 && CUR.tt_metrics.stretched )
- K |= 1 << 8;
-
- /* Are we hinting for grayscale? */
- if ( ( args[0] & 32 ) != 0 && CUR.grayscale )
- K |= 1 << 12;
-
- args[0] = K;
- }
-
-
- static void
- Ins_UNKNOWN( INS_ARG )
- {
- TT_DefRecord* def = CUR.IDefs;
- TT_DefRecord* limit = def + CUR.numIDefs;
-
- FT_UNUSED_ARG;
-
-
- for ( ; def < limit; def++ )
- {
- if ( (FT_Byte)def->opc == CUR.opcode && def->active )
- {
- TT_CallRec* call;
-
-
- if ( CUR.callTop >= CUR.callSize )
- {
- CUR.error = TT_Err_Stack_Overflow;
- return;
- }
-
- call = CUR.callStack + CUR.callTop++;
-
- call->Caller_Range = CUR.curRange;
- call->Caller_IP = CUR.IP + 1;
- call->Cur_Count = 1;
- call->Cur_Restart = def->start;
-
- INS_Goto_CodeRange( def->range, def->start );
-
- CUR.step_ins = FALSE;
- return;
- }
- }
-
- CUR.error = TT_Err_Invalid_Opcode;
- }
-
-
-#ifndef TT_CONFIG_OPTION_INTERPRETER_SWITCH
-
-
- static
- TInstruction_Function Instruct_Dispatch[256] =
- {
- /* Opcodes are gathered in groups of 16. */
- /* Please keep the spaces as they are. */
-
- /* SVTCA y */ Ins_SVTCA,
- /* SVTCA x */ Ins_SVTCA,
- /* SPvTCA y */ Ins_SPVTCA,
- /* SPvTCA x */ Ins_SPVTCA,
- /* SFvTCA y */ Ins_SFVTCA,
- /* SFvTCA x */ Ins_SFVTCA,
- /* SPvTL // */ Ins_SPVTL,
- /* SPvTL + */ Ins_SPVTL,
- /* SFvTL // */ Ins_SFVTL,
- /* SFvTL + */ Ins_SFVTL,
- /* SPvFS */ Ins_SPVFS,
- /* SFvFS */ Ins_SFVFS,
- /* GPV */ Ins_GPV,
- /* GFV */ Ins_GFV,
- /* SFvTPv */ Ins_SFVTPV,
- /* ISECT */ Ins_ISECT,
-
- /* SRP0 */ Ins_SRP0,
- /* SRP1 */ Ins_SRP1,
- /* SRP2 */ Ins_SRP2,
- /* SZP0 */ Ins_SZP0,
- /* SZP1 */ Ins_SZP1,
- /* SZP2 */ Ins_SZP2,
- /* SZPS */ Ins_SZPS,
- /* SLOOP */ Ins_SLOOP,
- /* RTG */ Ins_RTG,
- /* RTHG */ Ins_RTHG,
- /* SMD */ Ins_SMD,
- /* ELSE */ Ins_ELSE,
- /* JMPR */ Ins_JMPR,
- /* SCvTCi */ Ins_SCVTCI,
- /* SSwCi */ Ins_SSWCI,
- /* SSW */ Ins_SSW,
-
- /* DUP */ Ins_DUP,
- /* POP */ Ins_POP,
- /* CLEAR */ Ins_CLEAR,
- /* SWAP */ Ins_SWAP,
- /* DEPTH */ Ins_DEPTH,
- /* CINDEX */ Ins_CINDEX,
- /* MINDEX */ Ins_MINDEX,
- /* AlignPTS */ Ins_ALIGNPTS,
- /* INS_0x28 */ Ins_UNKNOWN,
- /* UTP */ Ins_UTP,
- /* LOOPCALL */ Ins_LOOPCALL,
- /* CALL */ Ins_CALL,
- /* FDEF */ Ins_FDEF,
- /* ENDF */ Ins_ENDF,
- /* MDAP[0] */ Ins_MDAP,
- /* MDAP[1] */ Ins_MDAP,
-
- /* IUP[0] */ Ins_IUP,
- /* IUP[1] */ Ins_IUP,
- /* SHP[0] */ Ins_SHP,
- /* SHP[1] */ Ins_SHP,
- /* SHC[0] */ Ins_SHC,
- /* SHC[1] */ Ins_SHC,
- /* SHZ[0] */ Ins_SHZ,
- /* SHZ[1] */ Ins_SHZ,
- /* SHPIX */ Ins_SHPIX,
- /* IP */ Ins_IP,
- /* MSIRP[0] */ Ins_MSIRP,
- /* MSIRP[1] */ Ins_MSIRP,
- /* AlignRP */ Ins_ALIGNRP,
- /* RTDG */ Ins_RTDG,
- /* MIAP[0] */ Ins_MIAP,
- /* MIAP[1] */ Ins_MIAP,
-
- /* NPushB */ Ins_NPUSHB,
- /* NPushW */ Ins_NPUSHW,
- /* WS */ Ins_WS,
- /* RS */ Ins_RS,
- /* WCvtP */ Ins_WCVTP,
- /* RCvt */ Ins_RCVT,
- /* GC[0] */ Ins_GC,
- /* GC[1] */ Ins_GC,
- /* SCFS */ Ins_SCFS,
- /* MD[0] */ Ins_MD,
- /* MD[1] */ Ins_MD,
- /* MPPEM */ Ins_MPPEM,
- /* MPS */ Ins_MPS,
- /* FlipON */ Ins_FLIPON,
- /* FlipOFF */ Ins_FLIPOFF,
- /* DEBUG */ Ins_DEBUG,
-
- /* LT */ Ins_LT,
- /* LTEQ */ Ins_LTEQ,
- /* GT */ Ins_GT,
- /* GTEQ */ Ins_GTEQ,
- /* EQ */ Ins_EQ,
- /* NEQ */ Ins_NEQ,
- /* ODD */ Ins_ODD,
- /* EVEN */ Ins_EVEN,
- /* IF */ Ins_IF,
- /* EIF */ Ins_EIF,
- /* AND */ Ins_AND,
- /* OR */ Ins_OR,
- /* NOT */ Ins_NOT,
- /* DeltaP1 */ Ins_DELTAP,
- /* SDB */ Ins_SDB,
- /* SDS */ Ins_SDS,
-
- /* ADD */ Ins_ADD,
- /* SUB */ Ins_SUB,
- /* DIV */ Ins_DIV,
- /* MUL */ Ins_MUL,
- /* ABS */ Ins_ABS,
- /* NEG */ Ins_NEG,
- /* FLOOR */ Ins_FLOOR,
- /* CEILING */ Ins_CEILING,
- /* ROUND[0] */ Ins_ROUND,
- /* ROUND[1] */ Ins_ROUND,
- /* ROUND[2] */ Ins_ROUND,
- /* ROUND[3] */ Ins_ROUND,
- /* NROUND[0] */ Ins_NROUND,
- /* NROUND[1] */ Ins_NROUND,
- /* NROUND[2] */ Ins_NROUND,
- /* NROUND[3] */ Ins_NROUND,
-
- /* WCvtF */ Ins_WCVTF,
- /* DeltaP2 */ Ins_DELTAP,
- /* DeltaP3 */ Ins_DELTAP,
- /* DeltaCn[0] */ Ins_DELTAC,
- /* DeltaCn[1] */ Ins_DELTAC,
- /* DeltaCn[2] */ Ins_DELTAC,
- /* SROUND */ Ins_SROUND,
- /* S45Round */ Ins_S45ROUND,
- /* JROT */ Ins_JROT,
- /* JROF */ Ins_JROF,
- /* ROFF */ Ins_ROFF,
- /* INS_0x7B */ Ins_UNKNOWN,
- /* RUTG */ Ins_RUTG,
- /* RDTG */ Ins_RDTG,
- /* SANGW */ Ins_SANGW,
- /* AA */ Ins_AA,
-
- /* FlipPT */ Ins_FLIPPT,
- /* FlipRgON */ Ins_FLIPRGON,
- /* FlipRgOFF */ Ins_FLIPRGOFF,
- /* INS_0x83 */ Ins_UNKNOWN,
- /* INS_0x84 */ Ins_UNKNOWN,
- /* ScanCTRL */ Ins_SCANCTRL,
- /* SDPVTL[0] */ Ins_SDPVTL,
- /* SDPVTL[1] */ Ins_SDPVTL,
- /* GetINFO */ Ins_GETINFO,
- /* IDEF */ Ins_IDEF,
- /* ROLL */ Ins_ROLL,
- /* MAX */ Ins_MAX,
- /* MIN */ Ins_MIN,
- /* ScanTYPE */ Ins_SCANTYPE,
- /* InstCTRL */ Ins_INSTCTRL,
- /* INS_0x8F */ Ins_UNKNOWN,
-
- /* INS_0x90 */ Ins_UNKNOWN,
- /* INS_0x91 */ Ins_UNKNOWN,
- /* INS_0x92 */ Ins_UNKNOWN,
- /* INS_0x93 */ Ins_UNKNOWN,
- /* INS_0x94 */ Ins_UNKNOWN,
- /* INS_0x95 */ Ins_UNKNOWN,
- /* INS_0x96 */ Ins_UNKNOWN,
- /* INS_0x97 */ Ins_UNKNOWN,
- /* INS_0x98 */ Ins_UNKNOWN,
- /* INS_0x99 */ Ins_UNKNOWN,
- /* INS_0x9A */ Ins_UNKNOWN,
- /* INS_0x9B */ Ins_UNKNOWN,
- /* INS_0x9C */ Ins_UNKNOWN,
- /* INS_0x9D */ Ins_UNKNOWN,
- /* INS_0x9E */ Ins_UNKNOWN,
- /* INS_0x9F */ Ins_UNKNOWN,
-
- /* INS_0xA0 */ Ins_UNKNOWN,
- /* INS_0xA1 */ Ins_UNKNOWN,
- /* INS_0xA2 */ Ins_UNKNOWN,
- /* INS_0xA3 */ Ins_UNKNOWN,
- /* INS_0xA4 */ Ins_UNKNOWN,
- /* INS_0xA5 */ Ins_UNKNOWN,
- /* INS_0xA6 */ Ins_UNKNOWN,
- /* INS_0xA7 */ Ins_UNKNOWN,
- /* INS_0xA8 */ Ins_UNKNOWN,
- /* INS_0xA9 */ Ins_UNKNOWN,
- /* INS_0xAA */ Ins_UNKNOWN,
- /* INS_0xAB */ Ins_UNKNOWN,
- /* INS_0xAC */ Ins_UNKNOWN,
- /* INS_0xAD */ Ins_UNKNOWN,
- /* INS_0xAE */ Ins_UNKNOWN,
- /* INS_0xAF */ Ins_UNKNOWN,
-
- /* PushB[0] */ Ins_PUSHB,
- /* PushB[1] */ Ins_PUSHB,
- /* PushB[2] */ Ins_PUSHB,
- /* PushB[3] */ Ins_PUSHB,
- /* PushB[4] */ Ins_PUSHB,
- /* PushB[5] */ Ins_PUSHB,
- /* PushB[6] */ Ins_PUSHB,
- /* PushB[7] */ Ins_PUSHB,
- /* PushW[0] */ Ins_PUSHW,
- /* PushW[1] */ Ins_PUSHW,
- /* PushW[2] */ Ins_PUSHW,
- /* PushW[3] */ Ins_PUSHW,
- /* PushW[4] */ Ins_PUSHW,
- /* PushW[5] */ Ins_PUSHW,
- /* PushW[6] */ Ins_PUSHW,
- /* PushW[7] */ Ins_PUSHW,
-
- /* MDRP[00] */ Ins_MDRP,
- /* MDRP[01] */ Ins_MDRP,
- /* MDRP[02] */ Ins_MDRP,
- /* MDRP[03] */ Ins_MDRP,
- /* MDRP[04] */ Ins_MDRP,
- /* MDRP[05] */ Ins_MDRP,
- /* MDRP[06] */ Ins_MDRP,
- /* MDRP[07] */ Ins_MDRP,
- /* MDRP[08] */ Ins_MDRP,
- /* MDRP[09] */ Ins_MDRP,
- /* MDRP[10] */ Ins_MDRP,
- /* MDRP[11] */ Ins_MDRP,
- /* MDRP[12] */ Ins_MDRP,
- /* MDRP[13] */ Ins_MDRP,
- /* MDRP[14] */ Ins_MDRP,
- /* MDRP[15] */ Ins_MDRP,
-
- /* MDRP[16] */ Ins_MDRP,
- /* MDRP[17] */ Ins_MDRP,
- /* MDRP[18] */ Ins_MDRP,
- /* MDRP[19] */ Ins_MDRP,
- /* MDRP[20] */ Ins_MDRP,
- /* MDRP[21] */ Ins_MDRP,
- /* MDRP[22] */ Ins_MDRP,
- /* MDRP[23] */ Ins_MDRP,
- /* MDRP[24] */ Ins_MDRP,
- /* MDRP[25] */ Ins_MDRP,
- /* MDRP[26] */ Ins_MDRP,
- /* MDRP[27] */ Ins_MDRP,
- /* MDRP[28] */ Ins_MDRP,
- /* MDRP[29] */ Ins_MDRP,
- /* MDRP[30] */ Ins_MDRP,
- /* MDRP[31] */ Ins_MDRP,
-
- /* MIRP[00] */ Ins_MIRP,
- /* MIRP[01] */ Ins_MIRP,
- /* MIRP[02] */ Ins_MIRP,
- /* MIRP[03] */ Ins_MIRP,
- /* MIRP[04] */ Ins_MIRP,
- /* MIRP[05] */ Ins_MIRP,
- /* MIRP[06] */ Ins_MIRP,
- /* MIRP[07] */ Ins_MIRP,
- /* MIRP[08] */ Ins_MIRP,
- /* MIRP[09] */ Ins_MIRP,
- /* MIRP[10] */ Ins_MIRP,
- /* MIRP[11] */ Ins_MIRP,
- /* MIRP[12] */ Ins_MIRP,
- /* MIRP[13] */ Ins_MIRP,
- /* MIRP[14] */ Ins_MIRP,
- /* MIRP[15] */ Ins_MIRP,
-
- /* MIRP[16] */ Ins_MIRP,
- /* MIRP[17] */ Ins_MIRP,
- /* MIRP[18] */ Ins_MIRP,
- /* MIRP[19] */ Ins_MIRP,
- /* MIRP[20] */ Ins_MIRP,
- /* MIRP[21] */ Ins_MIRP,
- /* MIRP[22] */ Ins_MIRP,
- /* MIRP[23] */ Ins_MIRP,
- /* MIRP[24] */ Ins_MIRP,
- /* MIRP[25] */ Ins_MIRP,
- /* MIRP[26] */ Ins_MIRP,
- /* MIRP[27] */ Ins_MIRP,
- /* MIRP[28] */ Ins_MIRP,
- /* MIRP[29] */ Ins_MIRP,
- /* MIRP[30] */ Ins_MIRP,
- /* MIRP[31] */ Ins_MIRP
- };
-
-
-#endif /* !TT_CONFIG_OPTION_INTERPRETER_SWITCH */
-
-
- /*************************************************************************/
- /* */
- /* RUN */
- /* */
- /* This function executes a run of opcodes. It will exit in the */
- /* following cases: */
- /* */
- /* - Errors (in which case it returns FALSE). */
- /* */
- /* - Reaching the end of the main code range (returns TRUE). */
- /* Reaching the end of a code range within a function call is an */
- /* error. */
- /* */
- /* - After executing one single opcode, if the flag `Instruction_Trap' */
- /* is set to TRUE (returns TRUE). */
- /* */
- /* On exit with TRUE, test IP < CodeSize to know whether it comes from */
- /* an instruction trap or a normal termination. */
- /* */
- /* */
- /* Note: The documented DEBUG opcode pops a value from the stack. This */
- /* behaviour is unsupported; here a DEBUG opcode is always an */
- /* error. */
- /* */
- /* */
- /* THIS IS THE INTERPRETER'S MAIN LOOP. */
- /* */
- /* Instructions appear in the specification's order. */
- /* */
- /*************************************************************************/
-
-
- /* documentation is in ttinterp.h */
-
- FT_EXPORT_DEF( FT_Error )
- TT_RunIns( TT_ExecContext exc )
- {
- FT_Long ins_counter = 0; /* executed instructions counter */
-
-
-#ifdef TT_CONFIG_OPTION_STATIC_RASTER
- cur = *exc;
-#endif
-
- /* set CVT functions */
- CUR.tt_metrics.ratio = 0;
- if ( CUR.metrics.x_ppem != CUR.metrics.y_ppem )
- {
- /* non-square pixels, use the stretched routines */
- CUR.func_read_cvt = Read_CVT_Stretched;
- CUR.func_write_cvt = Write_CVT_Stretched;
- CUR.func_move_cvt = Move_CVT_Stretched;
- }
- else
- {
- /* square pixels, use normal routines */
- CUR.func_read_cvt = Read_CVT;
- CUR.func_write_cvt = Write_CVT;
- CUR.func_move_cvt = Move_CVT;
- }
-
- COMPUTE_Funcs();
- COMPUTE_Round( (FT_Byte)exc->GS.round_state );
-
- do
- {
- CUR.opcode = CUR.code[CUR.IP];
-
- FT_TRACE7(( " " ));
- FT_TRACE7(( opcode_name[CUR.opcode] ));
- FT_TRACE7(( "\n" ));
-
- if ( ( CUR.length = opcode_length[CUR.opcode] ) < 0 )
- {
- if ( CUR.IP + 1 > CUR.codeSize )
- goto LErrorCodeOverflow_;
-
- CUR.length = 2 - CUR.length * CUR.code[CUR.IP + 1];
- }
-
- if ( CUR.IP + CUR.length > CUR.codeSize )
- goto LErrorCodeOverflow_;
-
- /* First, let's check for empty stack and overflow */
- CUR.args = CUR.top - ( Pop_Push_Count[CUR.opcode] >> 4 );
-
- /* `args' is the top of the stack once arguments have been popped. */
- /* One can also interpret it as the index of the last argument. */
- if ( CUR.args < 0 )
- {
- FT_UShort i;
-
-
- if ( CUR.pedantic_hinting )
- {
- CUR.error = TT_Err_Too_Few_Arguments;
- goto LErrorLabel_;
- }
-
- /* push zeroes onto the stack */
- for ( i = 0; i < Pop_Push_Count[CUR.opcode] >> 4; i++ )
- CUR.stack[i] = 0;
- CUR.args = 0;
- }
-
- CUR.new_top = CUR.args + ( Pop_Push_Count[CUR.opcode] & 15 );
-
- /* `new_top' is the new top of the stack, after the instruction's */
- /* execution. `top' will be set to `new_top' after the `switch' */
- /* statement. */
- if ( CUR.new_top > CUR.stackSize )
- {
- CUR.error = TT_Err_Stack_Overflow;
- goto LErrorLabel_;
- }
-
- CUR.step_ins = TRUE;
- CUR.error = TT_Err_Ok;
-
-#ifdef TT_CONFIG_OPTION_INTERPRETER_SWITCH
-
- {
- FT_Long* args = CUR.stack + CUR.args;
- FT_Byte opcode = CUR.opcode;
-
-
-#undef ARRAY_BOUND_ERROR
-#define ARRAY_BOUND_ERROR goto Set_Invalid_Ref
-
-
- switch ( opcode )
- {
- case 0x00: /* SVTCA y */
- case 0x01: /* SVTCA x */
- case 0x02: /* SPvTCA y */
- case 0x03: /* SPvTCA x */
- case 0x04: /* SFvTCA y */
- case 0x05: /* SFvTCA x */
- {
- FT_Short AA, BB;
-
-
- AA = (FT_Short)( ( opcode & 1 ) << 14 );
- BB = (FT_Short)( AA ^ 0x4000 );
-
- if ( opcode < 4 )
- {
- CUR.GS.projVector.x = AA;
- CUR.GS.projVector.y = BB;
-
- CUR.GS.dualVector.x = AA;
- CUR.GS.dualVector.y = BB;
- }
- else
- {
- GUESS_VECTOR( projVector );
- }
-
- if ( ( opcode & 2 ) == 0 )
- {
- CUR.GS.freeVector.x = AA;
- CUR.GS.freeVector.y = BB;
- }
- else
- {
- GUESS_VECTOR( freeVector );
- }
-
- COMPUTE_Funcs();
- }
- break;
-
- case 0x06: /* SPvTL // */
- case 0x07: /* SPvTL + */
- DO_SPVTL
- break;
-
- case 0x08: /* SFvTL // */
- case 0x09: /* SFvTL + */
- DO_SFVTL
- break;
-
- case 0x0A: /* SPvFS */
- DO_SPVFS
- break;
-
- case 0x0B: /* SFvFS */
- DO_SFVFS
- break;
-
- case 0x0C: /* GPV */
- DO_GPV
- break;
-
- case 0x0D: /* GFV */
- DO_GFV
- break;
-
- case 0x0E: /* SFvTPv */
- DO_SFVTPV
- break;
-
- case 0x0F: /* ISECT */
- Ins_ISECT( EXEC_ARG_ args );
- break;
-
- case 0x10: /* SRP0 */
- DO_SRP0
- break;
-
- case 0x11: /* SRP1 */
- DO_SRP1
- break;
-
- case 0x12: /* SRP2 */
- DO_SRP2
- break;
-
- case 0x13: /* SZP0 */
- Ins_SZP0( EXEC_ARG_ args );
- break;
-
- case 0x14: /* SZP1 */
- Ins_SZP1( EXEC_ARG_ args );
- break;
-
- case 0x15: /* SZP2 */
- Ins_SZP2( EXEC_ARG_ args );
- break;
-
- case 0x16: /* SZPS */
- Ins_SZPS( EXEC_ARG_ args );
- break;
-
- case 0x17: /* SLOOP */
- DO_SLOOP
- break;
-
- case 0x18: /* RTG */
- DO_RTG
- break;
-
- case 0x19: /* RTHG */
- DO_RTHG
- break;
-
- case 0x1A: /* SMD */
- DO_SMD
- break;
-
- case 0x1B: /* ELSE */
- Ins_ELSE( EXEC_ARG_ args );
- break;
-
- case 0x1C: /* JMPR */
- DO_JMPR
- break;
-
- case 0x1D: /* SCVTCI */
- DO_SCVTCI
- break;
-
- case 0x1E: /* SSWCI */
- DO_SSWCI
- break;
-
- case 0x1F: /* SSW */
- DO_SSW
- break;
-
- case 0x20: /* DUP */
- DO_DUP
- break;
-
- case 0x21: /* POP */
- /* nothing :-) */
- break;
-
- case 0x22: /* CLEAR */
- DO_CLEAR
- break;
-
- case 0x23: /* SWAP */
- DO_SWAP
- break;
-
- case 0x24: /* DEPTH */
- DO_DEPTH
- break;
-
- case 0x25: /* CINDEX */
- DO_CINDEX
- break;
-
- case 0x26: /* MINDEX */
- Ins_MINDEX( EXEC_ARG_ args );
- break;
-
- case 0x27: /* ALIGNPTS */
- Ins_ALIGNPTS( EXEC_ARG_ args );
- break;
-
- case 0x28: /* ???? */
- Ins_UNKNOWN( EXEC_ARG_ args );
- break;
-
- case 0x29: /* UTP */
- Ins_UTP( EXEC_ARG_ args );
- break;
-
- case 0x2A: /* LOOPCALL */
- Ins_LOOPCALL( EXEC_ARG_ args );
- break;
-
- case 0x2B: /* CALL */
- Ins_CALL( EXEC_ARG_ args );
- break;
-
- case 0x2C: /* FDEF */
- Ins_FDEF( EXEC_ARG_ args );
- break;
-
- case 0x2D: /* ENDF */
- Ins_ENDF( EXEC_ARG_ args );
- break;
-
- case 0x2E: /* MDAP */
- case 0x2F: /* MDAP */
- Ins_MDAP( EXEC_ARG_ args );
- break;
-
-
- case 0x30: /* IUP */
- case 0x31: /* IUP */
- Ins_IUP( EXEC_ARG_ args );
- break;
-
- case 0x32: /* SHP */
- case 0x33: /* SHP */
- Ins_SHP( EXEC_ARG_ args );
- break;
-
- case 0x34: /* SHC */
- case 0x35: /* SHC */
- Ins_SHC( EXEC_ARG_ args );
- break;
-
- case 0x36: /* SHZ */
- case 0x37: /* SHZ */
- Ins_SHZ( EXEC_ARG_ args );
- break;
-
- case 0x38: /* SHPIX */
- Ins_SHPIX( EXEC_ARG_ args );
- break;
-
- case 0x39: /* IP */
- Ins_IP( EXEC_ARG_ args );
- break;
-
- case 0x3A: /* MSIRP */
- case 0x3B: /* MSIRP */
- Ins_MSIRP( EXEC_ARG_ args );
- break;
-
- case 0x3C: /* AlignRP */
- Ins_ALIGNRP( EXEC_ARG_ args );
- break;
-
- case 0x3D: /* RTDG */
- DO_RTDG
- break;
-
- case 0x3E: /* MIAP */
- case 0x3F: /* MIAP */
- Ins_MIAP( EXEC_ARG_ args );
- break;
-
- case 0x40: /* NPUSHB */
- Ins_NPUSHB( EXEC_ARG_ args );
- break;
-
- case 0x41: /* NPUSHW */
- Ins_NPUSHW( EXEC_ARG_ args );
- break;
-
- case 0x42: /* WS */
- DO_WS
- break;
-
- Set_Invalid_Ref:
- CUR.error = TT_Err_Invalid_Reference;
- break;
-
- case 0x43: /* RS */
- DO_RS
- break;
-
- case 0x44: /* WCVTP */
- DO_WCVTP
- break;
-
- case 0x45: /* RCVT */
- DO_RCVT
- break;
-
- case 0x46: /* GC */
- case 0x47: /* GC */
- Ins_GC( EXEC_ARG_ args );
- break;
-
- case 0x48: /* SCFS */
- Ins_SCFS( EXEC_ARG_ args );
- break;
-
- case 0x49: /* MD */
- case 0x4A: /* MD */
- Ins_MD( EXEC_ARG_ args );
- break;
-
- case 0x4B: /* MPPEM */
- DO_MPPEM
- break;
-
- case 0x4C: /* MPS */
- DO_MPS
- break;
-
- case 0x4D: /* FLIPON */
- DO_FLIPON
- break;
-
- case 0x4E: /* FLIPOFF */
- DO_FLIPOFF
- break;
-
- case 0x4F: /* DEBUG */
- DO_DEBUG
- break;
-
- case 0x50: /* LT */
- DO_LT
- break;
-
- case 0x51: /* LTEQ */
- DO_LTEQ
- break;
-
- case 0x52: /* GT */
- DO_GT
- break;
-
- case 0x53: /* GTEQ */
- DO_GTEQ
- break;
-
- case 0x54: /* EQ */
- DO_EQ
- break;
-
- case 0x55: /* NEQ */
- DO_NEQ
- break;
-
- case 0x56: /* ODD */
- DO_ODD
- break;
-
- case 0x57: /* EVEN */
- DO_EVEN
- break;
-
- case 0x58: /* IF */
- Ins_IF( EXEC_ARG_ args );
- break;
-
- case 0x59: /* EIF */
- /* do nothing */
- break;
-
- case 0x5A: /* AND */
- DO_AND
- break;
-
- case 0x5B: /* OR */
- DO_OR
- break;
-
- case 0x5C: /* NOT */
- DO_NOT
- break;
-
- case 0x5D: /* DELTAP1 */
- Ins_DELTAP( EXEC_ARG_ args );
- break;
-
- case 0x5E: /* SDB */
- DO_SDB
- break;
-
- case 0x5F: /* SDS */
- DO_SDS
- break;
-
- case 0x60: /* ADD */
- DO_ADD
- break;
-
- case 0x61: /* SUB */
- DO_SUB
- break;
-
- case 0x62: /* DIV */
- DO_DIV
- break;
-
- case 0x63: /* MUL */
- DO_MUL
- break;
-
- case 0x64: /* ABS */
- DO_ABS
- break;
-
- case 0x65: /* NEG */
- DO_NEG
- break;
-
- case 0x66: /* FLOOR */
- DO_FLOOR
- break;
-
- case 0x67: /* CEILING */
- DO_CEILING
- break;
-
- case 0x68: /* ROUND */
- case 0x69: /* ROUND */
- case 0x6A: /* ROUND */
- case 0x6B: /* ROUND */
- DO_ROUND
- break;
-
- case 0x6C: /* NROUND */
- case 0x6D: /* NROUND */
- case 0x6E: /* NRRUND */
- case 0x6F: /* NROUND */
- DO_NROUND
- break;
-
- case 0x70: /* WCVTF */
- DO_WCVTF
- break;
-
- case 0x71: /* DELTAP2 */
- case 0x72: /* DELTAP3 */
- Ins_DELTAP( EXEC_ARG_ args );
- break;
-
- case 0x73: /* DELTAC0 */
- case 0x74: /* DELTAC1 */
- case 0x75: /* DELTAC2 */
- Ins_DELTAC( EXEC_ARG_ args );
- break;
-
- case 0x76: /* SROUND */
- DO_SROUND
- break;
-
- case 0x77: /* S45Round */
- DO_S45ROUND
- break;
-
- case 0x78: /* JROT */
- DO_JROT
- break;
-
- case 0x79: /* JROF */
- DO_JROF
- break;
-
- case 0x7A: /* ROFF */
- DO_ROFF
- break;
-
- case 0x7B: /* ???? */
- Ins_UNKNOWN( EXEC_ARG_ args );
- break;
-
- case 0x7C: /* RUTG */
- DO_RUTG
- break;
-
- case 0x7D: /* RDTG */
- DO_RDTG
- break;
-
- case 0x7E: /* SANGW */
- case 0x7F: /* AA */
- /* nothing - obsolete */
- break;
-
- case 0x80: /* FLIPPT */
- Ins_FLIPPT( EXEC_ARG_ args );
- break;
-
- case 0x81: /* FLIPRGON */
- Ins_FLIPRGON( EXEC_ARG_ args );
- break;
-
- case 0x82: /* FLIPRGOFF */
- Ins_FLIPRGOFF( EXEC_ARG_ args );
- break;
-
- case 0x83: /* UNKNOWN */
- case 0x84: /* UNKNOWN */
- Ins_UNKNOWN( EXEC_ARG_ args );
- break;
-
- case 0x85: /* SCANCTRL */
- Ins_SCANCTRL( EXEC_ARG_ args );
- break;
-
- case 0x86: /* SDPVTL */
- case 0x87: /* SDPVTL */
- Ins_SDPVTL( EXEC_ARG_ args );
- break;
-
- case 0x88: /* GETINFO */
- Ins_GETINFO( EXEC_ARG_ args );
- break;
-
- case 0x89: /* IDEF */
- Ins_IDEF( EXEC_ARG_ args );
- break;
-
- case 0x8A: /* ROLL */
- Ins_ROLL( EXEC_ARG_ args );
- break;
-
- case 0x8B: /* MAX */
- DO_MAX
- break;
-
- case 0x8C: /* MIN */
- DO_MIN
- break;
-
- case 0x8D: /* SCANTYPE */
- Ins_SCANTYPE( EXEC_ARG_ args );
- break;
-
- case 0x8E: /* INSTCTRL */
- Ins_INSTCTRL( EXEC_ARG_ args );
- break;
-
- case 0x8F:
- Ins_UNKNOWN( EXEC_ARG_ args );
- break;
-
- default:
- if ( opcode >= 0xE0 )
- Ins_MIRP( EXEC_ARG_ args );
- else if ( opcode >= 0xC0 )
- Ins_MDRP( EXEC_ARG_ args );
- else if ( opcode >= 0xB8 )
- Ins_PUSHW( EXEC_ARG_ args );
- else if ( opcode >= 0xB0 )
- Ins_PUSHB( EXEC_ARG_ args );
- else
- Ins_UNKNOWN( EXEC_ARG_ args );
- }
-
- }
-
-#else
-
- Instruct_Dispatch[CUR.opcode]( EXEC_ARG_ &CUR.stack[CUR.args] );
-
-#endif /* TT_CONFIG_OPTION_INTERPRETER_SWITCH */
-
- if ( CUR.error != TT_Err_Ok )
- {
- switch ( CUR.error )
- {
- case TT_Err_Invalid_Opcode: /* looking for redefined instructions */
- {
- TT_DefRecord* def = CUR.IDefs;
- TT_DefRecord* limit = def + CUR.numIDefs;
-
-
- for ( ; def < limit; def++ )
- {
- if ( def->active && CUR.opcode == (FT_Byte)def->opc )
- {
- TT_CallRec* callrec;
-
-
- if ( CUR.callTop >= CUR.callSize )
- {
- CUR.error = TT_Err_Invalid_Reference;
- goto LErrorLabel_;
- }
-
- callrec = &CUR.callStack[CUR.callTop];
-
- callrec->Caller_Range = CUR.curRange;
- callrec->Caller_IP = CUR.IP + 1;
- callrec->Cur_Count = 1;
- callrec->Cur_Restart = def->start;
-
- if ( INS_Goto_CodeRange( def->range, def->start ) == FAILURE )
- goto LErrorLabel_;
-
- goto LSuiteLabel_;
- }
- }
- }
-
- CUR.error = TT_Err_Invalid_Opcode;
- goto LErrorLabel_;
-
-#if 0
- break; /* Unreachable code warning suppression. */
- /* Leave to remind in case a later change the editor */
- /* to consider break; */
-#endif
-
- default:
- goto LErrorLabel_;
-
-#if 0
- break;
-#endif
- }
- }
-
- CUR.top = CUR.new_top;
-
- if ( CUR.step_ins )
- CUR.IP += CUR.length;
-
- /* increment instruction counter and check if we didn't */
- /* run this program for too long (e.g. infinite loops). */
- if ( ++ins_counter > MAX_RUNNABLE_OPCODES )
- return TT_Err_Execution_Too_Long;
-
- LSuiteLabel_:
- if ( CUR.IP >= CUR.codeSize )
- {
- if ( CUR.callTop > 0 )
- {
- CUR.error = TT_Err_Code_Overflow;
- goto LErrorLabel_;
- }
- else
- goto LNo_Error_;
- }
- } while ( !CUR.instruction_trap );
-
- LNo_Error_:
-
-#ifdef TT_CONFIG_OPTION_STATIC_RASTER
- *exc = cur;
-#endif
-
- return TT_Err_Ok;
-
- LErrorCodeOverflow_:
- CUR.error = TT_Err_Code_Overflow;
-
- LErrorLabel_:
-
-#ifdef TT_CONFIG_OPTION_STATIC_RASTER
- *exc = cur;
-#endif
-
- /* If any errors have occurred, function tables may be broken. */
- /* Force a re-execution of `prep' and `fpgm' tables if no */
- /* bytecode debugger is run. */
- if ( CUR.error && !CUR.instruction_trap )
- {
- FT_TRACE1(( " The interpreter returned error 0x%x\n", CUR.error ));
- exc->size->cvt_ready = FALSE;
- }
-
- return CUR.error;
- }
-
-
-#endif /* TT_USE_BYTECODE_INTERPRETER */
-
-
-/* END */