forked from minhngoc25a/freetype2
656 lines
15 KiB
C
656 lines
15 KiB
C
/***************************************************************************/
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/* */
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/* t2parse.c */
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/* */
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/* OpenType parser (body). */
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/* */
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/* Copyright 1996-2000 by */
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/* David Turner, Robert Wilhelm, and Werner Lemberg. */
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/* */
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/* This file is part of the FreeType project, and may only be used, */
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/* modified, and distributed under the terms of the FreeType project */
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/* license, LICENSE.TXT. By continuing to use, modify, or distribute */
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/* this file you indicate that you have read the license and */
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/* understand and accept it fully. */
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/* */
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/***************************************************************************/
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#ifdef FT_FLAT_COMPILE
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#include "t2parse.h"
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#else
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#include <cff/t2parse.h>
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#endif
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#include <freetype/internal/t2errors.h>
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#include <freetype/internal/ftstream.h>
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/*************************************************************************/
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/* */
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/* The macro FT_COMPONENT is used in trace mode. It is an implicit */
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/* parameter of the FT_TRACE() and FT_ERROR() macros, used to print/log */
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/* messages during execution. */
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/* */
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#undef FT_COMPONENT
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#define FT_COMPONENT trace_t2parse
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#define T2_Err_Stack_Underflow FT_Err_Invalid_Argument
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#define T2_Err_Syntax_Error FT_Err_Invalid_Argument
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enum
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{
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t2_kind_none = 0,
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t2_kind_num,
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t2_kind_fixed,
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t2_kind_string,
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t2_kind_bool,
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t2_kind_delta,
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t2_kind_callback,
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t2_kind_max /* do not remove */
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};
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/* now generate handlers for the most simple fields */
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typedef FT_Error (*T2_Field_Reader)( T2_Parser* parser );
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typedef struct T2_Field_Handler_
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{
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int kind;
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int code;
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FT_UInt offset;
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FT_Byte size;
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T2_Field_Reader reader;
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FT_UInt array_max;
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FT_UInt count_offset;
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} T2_Field_Handler;
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FT_LOCAL_DEF
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void T2_Parser_Init( T2_Parser* parser,
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FT_UInt code,
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void* object )
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{
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MEM_Set( parser, 0, sizeof ( *parser ) );
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parser->top = parser->stack;
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parser->object_code = code;
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parser->object = object;
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}
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/* reads an integer */
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static
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FT_Long parse_t2_integer( FT_Byte* start,
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FT_Byte* limit )
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{
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FT_Byte* p = start;
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FT_Int v = *p++;
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FT_Long val = 0;
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if ( v == 28 )
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{
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if ( p + 2 > limit )
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goto Bad;
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val = (FT_Short)( ( (FT_Int)p[0] << 8 ) | p[1] );
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p += 2;
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}
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else if ( v == 29 )
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{
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if ( p + 4 > limit )
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goto Bad;
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val = ( (FT_Long)p[0] << 24 ) |
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( (FT_Long)p[1] << 16 ) |
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( (FT_Long)p[2] << 8 ) |
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p[3];
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p += 4;
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}
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else if ( v < 247 )
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{
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val = v - 139;
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}
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else if ( v < 251 )
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{
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if ( p + 1 > limit )
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goto Bad;
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val = ( v - 247 ) * 256 + p[0] + 108;
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p++;
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}
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else
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{
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if ( p + 1 > limit )
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goto Bad;
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val = -( v - 251 ) * 256 - p[0] - 108;
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p++;
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}
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Exit:
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return val;
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Bad:
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val = 0;
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goto Exit;
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}
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/* read a real */
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static
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FT_Fixed parse_t2_real( FT_Byte* start,
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FT_Byte* limit,
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FT_Int power_ten )
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{
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FT_Byte* p = start;
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FT_Long num, divider, result, exp;
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FT_Int sign = 0, exp_sign = 0;
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FT_Byte nib;
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FT_Byte phase;
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result = 0;
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num = 0;
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divider = 1;
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/* first of all, read the integer part */
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phase = 4;
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for (;;)
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{
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/* If we entered this iteration with phase == 4, we need to */
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/* read a new byte. This also skips past the intial 0x1E. */
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if ( phase )
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p++;
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/* Make sure we don't read past the end. */
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if ( p >= limit )
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goto Bad;
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/* Get the nibble. */
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nib = ( p[0] >> phase ) & 0xF;
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phase = 4 - phase;
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if ( nib == 0xE )
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sign = 1;
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else if ( nib > 9 )
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break;
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else
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result = result * 10 + nib;
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}
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/* read decimal part, if any */
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if ( nib == 0xa )
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for (;;)
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{
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/* If we entered this iteration with phase == 4, we need */
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/* to read a new byte. */
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if ( phase )
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p++;
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/* Make sure we don't read past the end. */
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if ( p >= limit )
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goto Bad;
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/* Get the nibble. */
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nib = ( p[0] >> phase ) & 0xF;
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phase = 4 - phase;
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if ( nib >= 10 )
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break;
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if (divider < 10000000L)
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{
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num = num * 10 + nib;
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divider *= 10;
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}
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}
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/* read exponent, if any */
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if ( nib == 12 )
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{
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exp_sign = 1;
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nib = 11;
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}
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if ( nib == 11 )
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{
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exp = 0;
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for (;;)
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{
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/* If we entered this iteration with phase == 4, we need */
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/* to read a new byte. */
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if ( phase )
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p++;
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/* Make sure we don't read past the end. */
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if ( p >= limit )
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goto Bad;
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/* Get the nibble. */
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nib = ( p[0] >> phase ) & 0xF;
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phase = 4 - phase;
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if ( nib >= 10 )
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break;
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exp = exp * 10 + nib;
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}
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if ( exp_sign )
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exp = -exp;
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power_ten += exp;
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}
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/* raise to power of ten if needed */
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while ( power_ten > 0 )
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{
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result = result * 10;
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num = num * 10;
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power_ten--;
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}
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while ( power_ten < 0 )
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{
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result = result / 10;
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divider = divider * 10;
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power_ten++;
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}
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if ( num )
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result += FT_DivFix( num, divider );
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if ( sign )
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result = -result;
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Exit:
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return result;
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Bad:
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result = 0;
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goto Exit;
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}
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/* read a number, either integer or real */
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static
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FT_Long t2_parse_num( FT_Byte** d )
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{
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return ( **d == 30 ? ( parse_t2_real( d[0], d[1], 0 ) >> 16 )
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: parse_t2_integer( d[0], d[1] ) );
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}
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/* reads a floating point number, either integer or real */
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static
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FT_Fixed t2_parse_fixed( FT_Byte** d )
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{
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return ( **d == 30 ? parse_t2_real( d[0], d[1], 0 )
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: parse_t2_integer( d[0], d[1] ) << 16 );
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}
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static
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FT_Error parse_font_matrix( T2_Parser* parser )
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{
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CFF_Font_Dict* dict = (CFF_Font_Dict*)parser->object;
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FT_Matrix* matrix = &dict->font_matrix;
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FT_Byte** data = parser->stack;
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FT_Error error;
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error = T2_Err_Stack_Underflow;
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if ( parser->top >= parser->stack + 4 )
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{
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matrix->xx = t2_parse_fixed( data++ );
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matrix->yx = t2_parse_fixed( data++ );
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matrix->xy = t2_parse_fixed( data++ );
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matrix->yy = t2_parse_fixed( data );
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error = T2_Err_Ok;
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}
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return error;
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}
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static
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FT_Error parse_font_bbox( T2_Parser* parser )
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{
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CFF_Font_Dict* dict = (CFF_Font_Dict*)parser->object;
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FT_BBox* bbox = &dict->font_bbox;
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FT_Byte** data = parser->stack;
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FT_Error error;
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error = T2_Err_Stack_Underflow;
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if ( parser->top >= parser->stack + 4 )
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{
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bbox->xMin = t2_parse_num( data++ );
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bbox->yMin = t2_parse_num( data++ );
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bbox->xMax = t2_parse_num( data++ );
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bbox->yMax = t2_parse_num( data );
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error = T2_Err_Ok;
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}
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return error;
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}
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static
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FT_Error parse_private_dict( T2_Parser* parser )
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{
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CFF_Font_Dict* dict = (CFF_Font_Dict*)parser->object;
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FT_Byte** data = parser->stack;
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FT_Error error;
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error = T2_Err_Stack_Underflow;
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if ( parser->top >= parser->stack + 2 )
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{
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dict->private_size = t2_parse_num( data++ );
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dict->private_offset = t2_parse_num( data );
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error = T2_Err_Ok;
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}
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return error;
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}
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static
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FT_Error parse_cid_ros( T2_Parser* parser )
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{
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CFF_Font_Dict* dict = (CFF_Font_Dict*)parser->object;
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FT_Byte** data = parser->stack;
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FT_Error error;
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error = T2_Err_Stack_Underflow;
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if ( parser->top >= parser->stack + 3 )
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{
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dict->cid_registry = (FT_UInt)t2_parse_num( data++ );
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dict->cid_ordering = (FT_UInt)t2_parse_num( data++ );
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dict->cid_supplement = (FT_ULong)t2_parse_num( data );
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error = T2_Err_Ok;
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}
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return error;
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}
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#define T2_FIELD_NUM( code, name ) \
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T2_FIELD( code, name, t2_kind_num )
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#define T2_FIELD_FIXED( code, name ) \
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T2_FIELD( code, name, t2_kind_fixed )
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#define T2_FIELD_STRING( code, name ) \
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T2_FIELD( code, name, t2_kind_string )
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#define T2_FIELD_BOOL( code, name ) \
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T2_FIELD( code, name, t2_kind_bool )
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#define T2_FIELD_DELTA( code, name, max ) \
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T2_FIELD( code, name, t2_kind_delta )
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#define T2_FIELD_CALLBACK( code, name ) \
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{ \
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t2_kind_callback, \
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code | T2CODE, \
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0, 0, \
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parse_ ## name, \
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0, 0 \
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},
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#undef T2_FIELD
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#define T2_FIELD( code, name, kind ) \
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{ \
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kind, \
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code | T2CODE, \
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FT_FIELD_OFFSET( name ), \
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FT_FIELD_SIZE( name ), \
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0, 0, 0 \
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},
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#undef T2_FIELD_DELTA
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#define T2_FIELD_DELTA( code, name, max ) \
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{ \
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t2_kind_delta, \
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code | T2CODE, \
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FT_FIELD_OFFSET( name ), \
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FT_FIELD_SIZE_DELTA( name ), \
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0, \
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max, \
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FT_FIELD_OFFSET( num_ ## name ) \
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},
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#define T2CODE_TOPDICT 0x1000
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#define T2CODE_PRIVATE 0x2000
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static const T2_Field_Handler t2_field_handlers[] =
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{
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#ifdef FT_FLAT_COMPILE
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#include "t2tokens.h"
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#else
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#include <cff/t2tokens.h>
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#endif
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{ 0, 0, 0, 0, 0, 0, 0 }
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};
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FT_LOCAL_DEF
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FT_Error T2_Parser_Run( T2_Parser* parser,
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FT_Byte* start,
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FT_Byte* limit )
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{
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FT_Byte* p = start;
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FT_Error error = T2_Err_Ok;
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parser->top = parser->stack;
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parser->start = start;
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parser->limit = limit;
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parser->cursor = start;
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while ( p < limit )
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{
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FT_Byte v = *p;
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if ( v >= 27 && v != 31 )
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{
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/* it's a number; we will push its position on the stack */
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if ( parser->top - parser->stack >= T2_MAX_STACK_DEPTH )
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goto Stack_Overflow;
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*parser->top ++ = p;
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/* now, skip it */
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if ( v == 30 )
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{
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/* skip real number */
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p++;
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for (;;)
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{
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if ( p >= limit )
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goto Syntax_Error;
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v = p[0] >> 4;
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if ( v == 15 )
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break;
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v = p[0] & 0xF;
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if ( v == 15 )
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break;
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p++;
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}
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}
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else if ( v == 28 )
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p += 2;
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else if ( v == 29 )
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p += 4;
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else if ( v > 246 )
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p += 1;
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}
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else
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{
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/* This is not a number, hence it's an operator. Compute its code */
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/* and look for it in our current list. */
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FT_UInt code;
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FT_UInt num_args = (FT_UInt)
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( parser->top - parser->stack );
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const T2_Field_Handler* field;
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/* first of all, a trivial check */
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if ( num_args < 1 )
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goto Stack_Underflow;
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*parser->top = p;
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code = v;
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if ( v == 12 )
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{
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/* two byte operator */
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p++;
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code = 0x100 | p[0];
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}
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code = code | parser->object_code;
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for ( field = t2_field_handlers; field->kind; field++ )
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{
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if ( field->code == (FT_Int)code )
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{
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/* we found our field's handler; read it */
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FT_Long val;
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FT_Byte* q = (FT_Byte*)parser->object + field->offset;
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switch ( field->kind )
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{
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case t2_kind_bool:
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case t2_kind_string:
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case t2_kind_num:
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val = t2_parse_num( parser->stack );
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goto Store_Number;
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case t2_kind_fixed:
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val = t2_parse_fixed( parser->stack );
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Store_Number:
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switch ( field->size )
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{
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case 1:
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*(FT_Byte*)q = (FT_Byte)val;
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break;
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case 2:
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*(FT_Short*)q = (FT_Short)val;
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break;
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case 4:
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*(FT_Int32*)q = (FT_Int)val;
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break;
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default: /* for 64-bit systems where long is 8 bytes */
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*(FT_Long*)q = val;
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}
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break;
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case t2_kind_delta:
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{
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FT_Byte* qcount = (FT_Byte*)parser->object +
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field->count_offset;
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FT_Byte** data = parser->stack;
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if ( num_args > field->array_max )
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num_args = field->array_max;
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/* store count */
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*qcount = (FT_Byte)num_args;
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val = 0;
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while ( num_args > 0 )
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{
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val += t2_parse_num( data++ );
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switch ( field->size )
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{
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case 1:
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*(FT_Byte*)q = (FT_Byte)val;
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break;
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case 2:
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*(FT_Short*)q = (FT_Short)val;
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break;
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case 4:
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*(FT_Int32*)q = (FT_Int)val;
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break;
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default: /* for 64-bit systems */
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*(FT_Long*)q = val;
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}
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q += field->size;
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num_args--;
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}
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}
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break;
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default: /* callback */
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error = field->reader( parser );
|
|
if ( error )
|
|
goto Exit;
|
|
}
|
|
goto Found;
|
|
}
|
|
}
|
|
|
|
/* this is an unknown operator, or it is unsupported; */
|
|
/* we will ignore it for now. */
|
|
|
|
Found:
|
|
/* clear stack */
|
|
parser->top = parser->stack;
|
|
}
|
|
p++;
|
|
}
|
|
|
|
Exit:
|
|
return error;
|
|
|
|
Stack_Overflow:
|
|
error = T2_Err_Invalid_Argument;
|
|
goto Exit;
|
|
|
|
Stack_Underflow:
|
|
error = T2_Err_Invalid_Argument;
|
|
goto Exit;
|
|
|
|
Syntax_Error:
|
|
error = T2_Err_Invalid_Argument;
|
|
goto Exit;
|
|
}
|
|
|
|
|
|
/* END */
|