ref: 68ebd1bee4fe76909b4b8a9bb08d29722d61d0af
dir: /src/type1/t1load.c/
#include <ftconfig.h> #include <ftdebug.h> #include <t1types.h> #include <t1tokens.h> #include <t1parse.h> #include <stdio.h> #undef FT_COMPONENT #define FT_COMPONENT trace_t1load typedef T1_Error (*T1_Parse_Func)( T1_Parser* parser ); /*************************************************************************/ /* */ /* <Function> Init_T1_Parser */ /* */ /* <Description> */ /* Initialise a given parser object to build a given T1_Face */ /* */ /* <Input> */ /* parser :: handle to the newly built parser object */ /* face :: handle to target T1 face object */ /* */ LOCAL_FUNC void Init_T1_Parser( T1_Parser* parser, T1_Face face, T1_Tokenizer tokenizer ) { parser->error = 0; parser->face = face; parser->tokenizer = tokenizer; parser->top = parser->stack; parser->limit = parser->stack + T1_MAX_STACK_DEPTH; parser->state_index = 0; parser->state_stack[0] = dict_none; parser->encoding_type = t1_encoding_none; parser->encoding_names = 0; parser->encoding_offsets = 0; parser->encoding_lengths = 0; parser->dump_tokens = 0; face->type1.lenIV = 4; /* XXX : is it sure ?? */ } /*************************************************************************/ /* */ /* <Function> Next_T1_Token */ /* */ /* <Description> */ /* grabs the next significant token from a parser's input stream. */ /* this function ignores a number of tokens, and translates */ /* alternate forms into their common ones.. */ /* */ /* <Input> */ /* parser :: handle to source parser */ /* */ /* <Output> */ /* token :: the extracted token descriptor */ /* */ /* <Return> */ /* Error code. 0 means success */ /* */ LOCAL_FUNC T1_Error Next_T1_Token( T1_Parser* parser, T1_Token* token ) { T1_Error error; T1_Tokenizer tokzer = parser->tokenizer; L1: error = Read_Token( tokzer ); if (error) return error; /* We now must ignore a number of tokens like "dup", "executeonly", */ /* "readonly", etc... */ *token = tokzer->token; if ( token->kind == tok_keyword ) switch( token->kind2 ) { case key_dup: case key_execonly: case key_readonly: case key_noaccess: case key_userdict: /* do nothing - loop */ goto L1; /* We also translate some other keywords from their alternative */ /* to their "normal" form.. */ case key_NP_alternate: token->kind2 = key_NP; break; case key_RD_alternate: token->kind2 = key_RD; break; case key_ND_alternate: token->kind2 = key_ND; break; default: ; } /* Dump the token when requested. This feature is only available */ /* in the 'error' and 'trace' debug levels.. */ #if defined( FT_DEBUG_LEVEL_ERROR ) || defined( FT_DEBUG_LEVEL_TRACE ) if ( parser->dump_tokens ) { T1_String temp_string[128]; T1_Int len; len = token->len; if ( len > 127 ) len = 127; strncpy( temp_string, (T1_String*)tokzer->base + token->start, len ); temp_string[len] = '\0'; FT_ERROR(( "%s\n", temp_string )); } #endif return T1_Err_Ok; } static T1_Error Expect_Keyword( T1_Parser* parser, T1_TokenType keyword ) { T1_Token token; T1_Error error; error = Next_T1_Token( parser, &token ); if (error) goto Exit; if ( token.kind != tok_keyword || token.kind2 != keyword ) { error = T1_Err_Syntax_Error; FT_ERROR(( "T1.Parse: keyword '%s' expected.\n", t1_keywords[ keyword - key_first_ ] )); } Exit: return error; } static T1_Error Expect_Keyword2( T1_Parser* parser, T1_TokenType keyword1, T1_TokenType keyword2 ) { T1_Token token; T1_Error error; error = Next_T1_Token( parser, &token ); if (error) goto Exit; if ( token.kind != tok_keyword || ( token.kind2 != keyword1 && token.kind2 != keyword2 ) ) { error = T1_Err_Syntax_Error; FT_ERROR(( "T1.Parse: keyword '%s' or '%s' expected.\n", t1_keywords[ keyword1 - key_first_ ], t1_keywords[ keyword2 - key_first_ ] )); } Exit: return error; } static void Parse_Encoding( T1_Parser* parser ) { T1_Token* token = parser->top+1; FT_Memory memory = parser->face->root.memory; T1_Encoding* encode = &parser->face->type1.encoding; T1_Error error = 0; if (token->kind == tok_keyword && (token->kind2 == key_StandardEncoding || token->kind2 == key_ExpertEncoding ) ) { encode->num_chars = 256; encode->code_first = 32; encode->code_last = 255; if ( ALLOC_ARRAY( encode->char_index, 256, T1_Short ) ) goto Exit; encode->char_name = 0; /* no need to store glyph names */ /* Now copy the encoding */ switch (token->kind2) { case key_ExpertEncoding : parser->encoding_type = t1_encoding_expert; default : parser->encoding_type = t1_encoding_standard; break; } } else { FT_ERROR(( "T1.Parse_Encoding: invalid encoding type\n" )); error = T1_Err_Syntax_Error; } Exit: parser->error = error; } /**********************************************************************/ /* */ /* */ /* IMPLEMENTATION OF THE "DEF" KEYWORD DEPENDING ON */ /* CURRENT DICTIONARY STATE */ /* */ /* */ /**********************************************************************/ /**************************************************************************/ /* */ /* <Function> Do_Def_Font */ /* */ /* <Description> */ /* This function performs a 'def' when in the Font dictionary */ /* Its purpose is to build the T1_Face attributes directly from */ /* the stream.. */ /* */ /* <Input> */ /* parser :: handle to current parser. */ /* */ /* <Return> */ /* Error code. 0 means success */ /* */ static T1_Error Do_Def_Font( T1_Parser* parser ) { T1_Token* top = parser->top; T1_Face face = parser->face; T1_Font* type1 = &face->type1; switch ( top[0].kind2 ) { case imm_FontName: /* in some cases, the /FontName is an immediate like */ /* /TimesNewRoman. In this case, we simply copy the */ /* token string (without the /).. */ if (top[1].kind == tok_immediate) { FT_Memory memory = parser->tokenizer->memory; T1_Error error; T1_Int len = top[1].len; if ( ALLOC( type1->font_name, len+1 ) ) { parser->error = error; return error; } MEM_Copy( type1->font_name, parser->tokenizer->base + top[1].start, len ); type1->font_name[len] = '\0'; } else type1->font_name = CopyString( parser ); break; case imm_Encoding: Parse_Encoding( parser ); break; case imm_PaintType: type1->paint_type = (T1_Byte)CopyInteger( parser ); break; case imm_FontType: type1->font_type = (T1_Byte)CopyInteger( parser ); break; case imm_FontMatrix: CopyMatrix( parser, &type1->font_matrix ); break; case imm_FontBBox: CopyBBox( parser, &type1->font_bbox ); break; case imm_UniqueID: type1->unique_id = CopyInteger( parser ); break; case imm_StrokeWidth: type1->stroke_width = CopyInteger( parser ); break; case imm_FontID: type1->font_id = CopyInteger( parser ); break; default: /* ignore all other things */ parser->error = T1_Err_Ok; } return parser->error; } /**************************************************************************/ /* */ /* <Function> Do_Def_FontInfo */ /* */ /* <Description> */ /* This function performs a 'def' when in the FontInfo dictionary */ /* Its purpose is to build the T1_FontInfo structure directly from */ /* the stream.. */ /* */ /* <Input> */ /* parser :: handle to current parser. */ /* */ /* <Return> */ /* Error code. 0 means success */ /* */ static T1_Error Do_Def_FontInfo( T1_Parser* parser ) { T1_Token* top = parser->top; T1_Font* info = &parser->face->type1; switch ( top[0].kind2 ) { case imm_version: info->version = CopyString( parser ); break; case imm_Notice: info->notice = CopyString( parser ); break; case imm_FullName: info->full_name = CopyString( parser ); break; case imm_FamilyName: info->family_name = CopyString( parser ); break; case imm_Weight: info->weight = CopyString( parser ); break; case imm_ItalicAngle: info->italic_angle = CopyInteger( parser ); break; case imm_isFixedPitch: info->is_fixed_pitch = CopyBoolean( parser ); break; case imm_UnderlinePosition: info->underline_position = (T1_Short)CopyInteger( parser ); break; case imm_UnderlineThickness: info->underline_thickness = (T1_Short)CopyInteger( parser ); break; default: /* ignore all other things */ parser->error = T1_Err_Ok; } return parser->error; } /**************************************************************************/ /* */ /* <Function> Do_Def_Private */ /* */ /* <Description> */ /* This function performs a 'def' when in the Private dictionary */ /* Its purpose is to build the T1_Private structure directly from */ /* the stream.. */ /* */ /* <Input> */ /* parser :: handle to current parser. */ /* */ /* <Return> */ /* Error code. 0 means success */ /* */ static T1_Error Do_Def_Private( T1_Parser* parser ) { T1_Token* top = parser->top; T1_Font* priv = &parser->face->type1; switch ( top[0].kind2 ) { case imm_RD: case imm_RD_alternate: /* Ignore the definitions */ case imm_ND: case imm_ND_alternate: /* of RD, NP, ND and their */ case imm_NP: case imm_NP_alternate: /* alternate forms ... */ parser->error = T1_Err_Ok; break; case imm_BlueValues: CopyArray( parser, &priv->num_blues, priv->blue_values, 14 ); break; case imm_OtherBlues: CopyArray( parser, &priv->num_other_blues, priv->other_blues, 10 ); break; case imm_FamilyBlues: CopyArray( parser, &priv->num_family_blues, priv->family_blues, 14 ); break; case imm_FamilyOtherBlues: CopyArray( parser, &priv->num_family_other_blues, priv->family_other_blues, 10 ); break; case imm_BlueScale: priv->blue_scale = CopyFloat( parser, 0x10000 ); break; case imm_BlueShift: priv->blue_shift = CopyInteger( parser ); break; case imm_BlueFuzz: priv->blue_fuzz = CopyInteger( parser ); break; case imm_StdHW: CopyArray( parser, 0, (T1_Short*)&priv->standard_width, 1 ); break; case imm_StdVW: CopyArray( parser, 0, (T1_Short*)&priv->standard_height, 1 ); break; case imm_StemSnapH: CopyArray( parser, &priv->num_snap_widths, priv->stem_snap_widths, 12 ); break; case imm_StemSnapV: CopyArray( parser, &priv->num_snap_heights, priv->stem_snap_heights, 12 ); break; case imm_ForceBold: priv->force_bold = CopyBoolean( parser ); break; case imm_LanguageGroup: priv->language_group = CopyInteger( parser ); break; case imm_password: priv->password = CopyInteger( parser ); break; case imm_UniqueID: priv->unique_id = CopyInteger( parser ); break; case imm_lenIV: priv->lenIV = CopyInteger( parser ); break; case imm_MinFeature: CopyArray( parser, 0, priv->min_feature, 2 ); break; default: /* ignore all other things */ parser->error = T1_Err_Ok; } return parser->error; } /**************************************************************************/ /* */ /* <Function> Do_Def_Error */ /* */ /* <Description> */ /* This function returns a simple syntax error when invoked. It is */ /* ued for the "def" keyword when in the "encoding", "subrs", */ /* "othersubrs" and "charstrings" dictionary states.. */ /* */ /* <Input> */ /* parser :: handle to current parser. */ /* */ /* <Return> */ /* Error code. 0 means success */ /* */ static T1_Error Do_Def_Error( T1_Parser* parser ) { FT_ERROR(( "T1.Load : 'def' keyword encountered in bad dictionary/array\n" )); parser->error = T1_Err_Syntax_Error; return parser->error; } static T1_Error Do_Def_Ignore( T1_Parser* parser ) { (void)parser; return T1_Err_Ok; } static T1_Parse_Func def_funcs[ dict_max ] = { Do_Def_Error, Do_Def_Font, Do_Def_FontInfo, Do_Def_Ignore, Do_Def_Private, Do_Def_Ignore, Do_Def_Ignore, Do_Def_Ignore, Do_Def_Ignore, Do_Def_Ignore, Do_Def_Ignore, }; /**********************************************************************/ /* */ /* */ /* IMPLEMENTATION OF THE "PUT" KEYWORD DEPENDING ON */ /* CURRENT DICTIONARY STATE */ /* */ /* */ /**********************************************************************/ /**************************************************************************/ /* */ /* <Function> Do_Put_Encoding */ /* */ /* <Description> */ /* This function performs a 'put' when in the Encoding array */ /* The glyph name is copied into the T1 recorder, and the charcode */ /* and glyph name pointer are written into the face object encoding */ /* */ /* <Input> */ /* parser :: handle to current parser. */ /* */ /* <Return> */ /* Error code. 0 means success */ /* */ static T1_Error Do_Put_Encoding( T1_Parser* parser ) { T1_Error error = T1_Err_Ok; T1_Face face = parser->face; T1_Token* top = parser->top; T1_Encoding* encode = &face->type1.encoding; T1_Int index; /* record and check the character code */ if ( top[0].kind != tok_number ) { FT_TRACE4(( "T1.Parse.put: number expected\n" )); goto Syntax_Error; } index = (T1_Int)CopyInteger( parser ); if (parser->error) return parser->error; if ( index < 0 || index >= encode->num_chars ) { FT_TRACE4(( "T1.Parse.put: invalid character code\n" )); goto Syntax_Error; } /* record the immediate name */ if ( top[1].kind != tok_immediate ) { FT_TRACE4(( "T1.Parse.put: immediate name expected\n" )); goto Syntax_Error; } /* if the glyph name is '.notdef', store a NULL char name */ /* otherwise, record the glyph name.. */ if ( top[1].kind == imm_notdef ) { parser->table.elements[ index ] = 0; parser->table.lengths [ index ] = 0; } else { T1_String temp_name[128]; T1_Token* token = top+1; T1_Int len = token->len-1; /* copy immediate name */ if (len > 127) len = 127; MEM_Copy( temp_name, parser->tokenizer->base + token->start+1, len ); temp_name[len] = '\0'; error = T1_Add_Table( &parser->table, index, (T1_Byte*)temp_name, len+1 ); /* adjust code_first and code_last */ if ( index < encode->code_first ) encode->code_first = index; if ( index > encode->code_last ) encode->code_last = index; } return error; Syntax_Error: /* ignore the error, and simply clear the stack */ FT_TRACE4(( "T1.Put.Encoding: invalid syntax encountered\n" )); parser->top = parser->stack; return T1_Err_Ok; } /**********************************************************************/ /* */ /* */ /* IMPLEMENTATION OF THE "RD" KEYWORD DEPENDING ON */ /* CURRENT DICTIONARY STATE */ /* */ /* */ /**********************************************************************/ /**************************************************************************/ /* */ /* <Function> Do_RD_Subrs */ /* */ /* <Description> */ /* This function performs a 'RD' when in the Subrs dictionary */ /* It simply records the array of bytecodes/charstrings corresponding */ /* to the sub-routine.. */ /* */ /* <Input> */ /* parser :: handle to current parser. */ /* */ /* <Return> */ /* Error code. 0 means success */ /* */ static T1_Error Do_RD_Subrs( T1_Parser* parser ) { T1_Error error = T1_Err_Ok; T1_Face face = parser->face; T1_Token* top = parser->top; T1_Tokenizer tokzer = parser->tokenizer; T1_Int index, count; /* record and check the character code */ if ( top[0].kind != tok_number || top[1].kind != tok_number ) { FT_ERROR(( "T1.Parse.put: number expected\n" )); goto Syntax_Error; } index = (T1_Int)CopyInteger( parser ); error = parser->error; if (error) goto Exit; count = (T1_Int)CopyInteger( parser ); error = parser->error; if (error) goto Exit; if ( index < 0 || index >= face->type1.num_subrs ) { FT_ERROR(( "T1.Parse.put: invalid character code\n" )); goto Syntax_Error; } /* decrypt charstring and skip them */ { T1_Byte* base = tokzer->base + tokzer->cursor; t1_decrypt( base, count, 4330 ); tokzer->cursor += count; base += face->type1.lenIV; count -= face->type1.lenIV; error = T1_Add_Table( &parser->table, index, base, count ); } /* consume the closing NP or 'put' */ error = Expect_Keyword2( parser, key_NP, key_put ); Exit: return error; Syntax_Error: return T1_Err_Syntax_Error; } /**************************************************************************/ /* */ /* <Function> Do_RD_CharStrings */ /* */ /* <Description> */ /* This function performs a 'RD' when in the CharStrings dictionary */ /* It simply records the array of bytecodes/charstrings corresponding */ /* to the glyph program string. */ /* */ /* <Input> */ /* parser :: handle to current parser. */ /* */ /* <Return> */ /* Error code. 0 means success */ /* */ static T1_Error Do_RD_Charstrings( T1_Parser* parser ) { T1_Error error = T1_Err_Ok; T1_Face face = parser->face; T1_Token* top = parser->top; T1_Tokenizer tokzer = parser->tokenizer; T1_Int index, count; /* check the character name argument */ if ( top[0].kind != tok_immediate ) { FT_ERROR(( "T1.Parse.RD: immediate character name expected\n" )); goto Syntax_Error; } /* check the count argument */ if ( top[1].kind != tok_number ) { FT_ERROR(( "T1.Parse.put: number expected\n" )); goto Syntax_Error; } parser->args++; count = (T1_Int)CopyInteger( parser ); error = parser->error; if (error) goto Exit; /* record the glyph name and get the corresponding glyph index */ if ( top[0].kind2 == imm_notdef ) index = 0; else { T1_String temp_name[128]; T1_Token* token = top; T1_Int len = token->len-1; /* copy immediate name */ if (len > 127) len = 127; MEM_Copy( temp_name, parser->tokenizer->base + token->start+1, len ); temp_name[len] = '\0'; index = parser->cur_name++; error = T1_Add_Table( &parser->table, index*2, (T1_Byte*)temp_name, len+1 ); if (error) goto Exit; } /* decrypt and record charstring, then skip them */ { T1_Byte* base = tokzer->base + tokzer->cursor; t1_decrypt( base, count, 4330 ); tokzer->cursor += count; /* skip */ base += face->type1.lenIV; count -= face->type1.lenIV; error = T1_Add_Table( &parser->table, index*2+1, base, count ); } /* consume the closing ND */ if (!error) error = Expect_Keyword( parser, key_ND ); Exit: return error; Syntax_Error: return T1_Err_Syntax_Error; } static T1_Error Expect_Dict_Arguments( T1_Parser* parser, T1_Int num_args, T1_TokenType immediate, T1_DictState new_state, T1_Int *count ) { /* check that we have enough arguments in the stack, including */ /* the 'dict' keyword.. */ if ( parser->top - parser->stack < num_args ) { FT_ERROR(( "T1.Parse.Dict : expecting at least %d arguments", num_args )); goto Syntax_Error; } /* check that we have the correct immediate, if needed */ if ( num_args == 2 ) { if ( parser->top[-2].kind != tok_immediate || parser->top[-2].kind2 != immediate ) { FT_ERROR(( "T1.Parse.Dict : expecting '/%s' dictionary\n", t1_immediates[ immediate - imm_first_ ] )); goto Syntax_Error; } } parser->args = parser->top-1; /* check that the count argument is a number */ if ( parser->args->kind != tok_number ) { FT_ERROR(( "T1.Parse.Dict : expecting numerical count argument for 'dict'\n" )); goto Syntax_Error; } if (count) { *count = CopyInteger( parser ); if (parser->error) return parser->error; } /* save the dictionary state */ parser->state_stack[ ++parser->state_index ] = new_state; /* consume the 'begin' keyword, and clear the stack */ parser->top -= num_args; return Expect_Keyword( parser, key_begin ); Syntax_Error: return T1_Err_Syntax_Error; } static T1_Error Expect_Array_Arguments( T1_Parser* parser ) { T1_Token* top = parser->top; T1_Error error = T1_Err_Ok; T1_DictState new_state; T1_Int count; T1_Face face = parser->face; FT_Memory memory = face->root.memory; /* Check arguments format */ if ( top - parser->stack < 2 ) { FT_ERROR(( "T1.Parse.array: two arguments expected\n" )); error = T1_Err_Stack_Underflow; goto Exit; } parser->top -= 2; top -= 2; parser->args = top + 1; if ( top[0].kind != tok_immediate ) { FT_ERROR(( "T1.Parse.array: first argument must be an immediate name\n" )); goto Syntax_Error; } if ( top[1].kind != tok_number ) { FT_ERROR(( "T1.Parse.array: second argument must be a number\n" )); goto Syntax_Error; } count = (T1_Int)CopyInteger( parser ); /* Is this an array we know about ?? */ switch ( top[0].kind2 ) { case imm_Encoding: { T1_Encoding* encode = &face->type1.encoding; new_state = dict_encoding; encode->code_first = count; encode->code_last = 0; encode->num_chars = count; /* allocate the table of character indexes. The table of */ /* character names is allocated through init_t1_recorder */ if ( ALLOC_ARRAY( encode->char_index, count, T1_Short ) ) return error; error = T1_New_Table( &parser->table, count, memory ); if (error) goto Exit; parser->encoding_type = t1_encoding_array; } break; case imm_Subrs: { new_state = dict_subrs; face->type1.num_subrs = count; error = T1_New_Table( &parser->table, count, memory ); if (error) goto Exit; } break; case imm_CharStrings: new_state = dict_charstrings; break; default: new_state = dict_unknown_array; } parser->state_stack[ ++parser->state_index ] = new_state; Exit: return error; Syntax_Error: return T1_Err_Syntax_Error; } static T1_Error Finalise_Parsing( T1_Parser* parser ) { T1_Face face = parser->face; T1_Font* type1 = &face->type1; FT_Memory memory = face->root.memory; T1_Table* strings = &parser->table; PSNames_Interface* psnames = (PSNames_Interface*)face->psnames; T1_Int num_glyphs; T1_Int n; T1_Error error; num_glyphs = type1->num_glyphs = parser->cur_name; /* allocate glyph names and charstrings arrays */ if ( ALLOC_ARRAY( type1->glyph_names , num_glyphs, T1_String* ) || ALLOC_ARRAY( type1->charstrings , num_glyphs, T1_Byte* ) || ALLOC_ARRAY( type1->charstrings_len, num_glyphs, T1_Int* ) ) return error; /* copy glyph names and charstrings offsets and lengths */ type1->charstrings_block = strings->block; for ( n = 0; n < num_glyphs; n++ ) { type1->glyph_names[n] = (T1_String*)strings->elements[2*n]; type1->charstrings[n] = strings->elements[2*n+1]; type1->charstrings_len[n] = strings->lengths [2*n+1]; } /* now free the old tables */ FREE( strings->elements ); FREE( strings->lengths ); if (!psnames) { FT_ERROR(( "T1.Parse.Finalise : PSNames module missing !!\n" )); return T1_Err_Unimplemented_Feature; } /* Compute encoding if required. */ if (parser->encoding_type == t1_encoding_none) { FT_ERROR(( "T1.Parse.Finalise : no encoding specified in font file\n" )); return T1_Err_Syntax_Error; } { T1_Int n; T1_Encoding* encode = &type1->encoding; encode->code_first = encode->num_chars-1; encode->code_last = 0; for ( n = 0; n < encode->num_chars; n++ ) { T1_String** names; T1_Int index; T1_Int m; switch (parser->encoding_type) { case t1_encoding_standard: index = psnames->adobe_std_encoding[n]; names = 0; break; case t1_encoding_expert: index = psnames->adobe_expert_encoding[n]; names = 0; break; default: index = n; names = (T1_String**)parser->encoding_offsets; } encode->char_index[n] = 0; if (index) { T1_String* name; if (names) name = names[index]; else name = (T1_String*)psnames->adobe_std_strings(index); if ( name ) { T1_Int len = strlen(name); /* lookup glyph index from name */ for ( m = 0; m < num_glyphs; m++ ) { if ( strncmp( type1->glyph_names[m], name, len ) == 0 ) { encode->char_index[n] = m; break; } } if ( n < encode->code_first ) encode->code_first = n; if ( n > encode->code_last ) encode->code_last = n; } } } parser->encoding_type = t1_encoding_none; FREE( parser->encoding_names ); FREE( parser->encoding_lengths ); FREE( parser->encoding_offsets ); } return T1_Err_Ok; } LOCAL_FUNC T1_Error Parse_T1_FontProgram( T1_Parser* parser ) { T1_Error error; T1_Font* type1 = &parser->face->type1; for (;;) { T1_Token token; T1_Token* top; T1_DictState dict_state; T1_Int dict_index; error = Next_T1_Token( parser, &token ); top = parser->top; dict_index = parser->state_index; dict_state = parser->state_stack[ dict_index ]; switch ( token.kind ) { /* A keyword was detected */ case tok_keyword: switch (token.kind2) { case key_dict: switch (dict_state) { case dict_none: /* All right, we're beggining the font dictionary */ /* check that we only have one number argument, then */ /* consume the 'begin' and change to 'dict_font' */ /* state.. */ error = Expect_Dict_Arguments( parser, 1, tok_error, dict_font, 0 ); if (error) goto Exit; /* clear stack from all the previous content. This */ /* could be some stupid Postscript code ... */ parser->top = parser->stack; break; case dict_font: /* This must be the /FontInfo dictionary, so check */ /* That we have at least two arguments, that they */ /* are "/FontInfo" and a number, then change the */ /* dictionary state.. */ error = Expect_Dict_Arguments( parser, 2, imm_FontInfo, dict_fontinfo, 0 ); if (error) goto Exit; break; case dict_none2: error = Expect_Dict_Arguments( parser, 2, imm_Private, dict_private, 0 ); if (error) goto Exit; break; case dict_private: { T1_Face face = parser->face; T1_Int count; error = Expect_Dict_Arguments( parser, 2, imm_CharStrings, dict_charstrings, &count ); if (error) goto Exit; type1->num_glyphs = count; error = T1_New_Table( &parser->table, count*2, face->root.memory ); if (error) goto Exit; /* record '.notdef' as the first glyph in the font */ error = T1_Add_Table( &parser->table, 0, (T1_Byte*)".notdef", 8 ); parser->cur_name = 1; /* XXXXX : DO SOMETHING HERE */ } break; default: /* All other uses are invalid */ FT_ERROR(( "T1.Parse: invalid use of the 'dict' keyword\n" )); goto Syntax_Error; } break; case key_array: /* Are we in an array yet ? Is so, raise an error */ switch (dict_state) { case dict_encoding: case dict_subrs: case dict_othersubrs: case dict_charstrings: case dict_unknown_array: FT_ERROR(( "T1.Parse.array: nested array definitions\n" )); goto Syntax_Error; default: ; } error = Expect_Array_Arguments( parser ); if (error) goto Exit; break; case key_ND: case key_NP: case key_def: /* Are we in an array ? If so, finalise it.. */ switch ( dict_state ) { case dict_encoding: /* finish encoding array */ { /* copy table names to the face object */ T1_Done_Table( &parser->table ); parser->encoding_names = parser->table.block; parser->encoding_lengths = parser->table.lengths; parser->encoding_offsets = parser->table.elements; parser->state_index--; } break; case dict_subrs: { /* copy recorder sub-routines */ T1_Done_Table( &parser->table ); parser->subrs = parser->table.block; type1->subrs = parser->table.elements; type1->subrs_len = parser->table.lengths; parser->state_index--; } break; case dict_charstrings: case dict_othersubrs: case dict_unknown_array: FT_ERROR(( "T1.Parser.def: unsupported array\n" )); goto Syntax_Error; break; default: /* normal 'def' processing */ { /* Check that we have sufficient operands in the stack */ if ( top >= parser->stack+2 ) { /* Now check that the first operand is an immediate */ /* If so, call the appropriate "def" routine based */ /* on the current parser state.. */ if ( top[-2].kind == tok_immediate ) { parser->top -= 2; parser->args = parser->top + 1; error = def_funcs[dict_state](parser); } else { /* This is an error, but some fonts contain some */ /* stupid Postscript code. We simply ignore */ /* an invalid 'def' by clearing the stack */ #if 0 FT_ERROR(( "T1.Parse.def: immediate expected\n" )); goto Syntax_Error; #else parser->top = parser->stack; #endif } } else { FT_ERROR(( "T1.Parse.def: not enough arguments\n" )); goto Stack_Underflow; } } } break; case key_index: if ( top <= parser->stack ) { FT_ERROR(( "T1.Parse.index: not enough arguments\n" )); goto Stack_Underflow; } /* simply ignore ?? */ parser->top --; break; case key_put: /* Check that we have sufficient operands in stack */ if ( top < parser->stack+2 ) { FT_ERROR(( "T1.Parse.put: not enough arguments\n" )); goto Stack_Underflow; } parser->top -= 2; parser->args = parser->top; switch (dict_state) { case dict_encoding: error = Do_Put_Encoding( parser ); if (error) goto Exit; break; case dict_unknown_array: /* ignore the put */ break; default: #if 0 FT_ERROR(( "T1.Parse.put: invalid context\n" )); goto Syntax_Error; #else /* invalid context, simply ignore the put and */ /* clear the stack (stupid Postscript code..) */ FT_TRACE4(( "T1.Parse.put: invalid context. ignored.\n" )); parser->top = parser->stack; #endif } break; case key_RD: /* Check that we have sufficient operands in stack */ if ( top < parser->stack+2 ) { FT_ERROR(( "T1.Parse.RD: not enough arguments\n" )); goto Stack_Underflow; } parser->top -= 2; parser->args = parser->top; switch (dict_state) { case dict_subrs: error = Do_RD_Subrs( parser ); if (error) goto Exit; break; case dict_charstrings: error = Do_RD_Charstrings( parser ); if (error) goto Exit; break; default: FT_ERROR(( "T1.Parse.RD: invalid context\n" )); goto Syntax_Error; } break; case key_end: /* Were we in a dictionary or in an array ? */ if ( dict_index <= 0 ) { FT_ERROR(( "T1.Parse.end: no dictionary defined\n" )); goto Syntax_Error; } switch (dict_state) { /* Jump to the private dictionary if we're closing the */ /* /Font dictionary.. */ case dict_font: goto Open_Private; /* Exit the parser when closing the CharStrings dictionary */ case dict_charstrings: return Finalise_Parsing( parser ); default: /* Pop the current dictionary state and return to previous */ /* one. Consume the "def".. */ /* Because some buggy fonts (BitStream) have incorrect */ /* syntax, we never escape from the private dictionary */ if (dict_state != dict_private) parser->state_index--; /* many fonts use a NP instead of def or put, so */ /* we simply ignore the nest token.. */ #if 0 error = Expect_Keyword2( parser, key_def, key_put ); if (error) goto Exit; #else (void)Expect_Keyword2( parser, key_def, key_put ); #endif } break; case key_for: /* check that we have four arguments, and simply */ /* ignore them.. */ if ( top - parser->stack < 4 ) { FT_ERROR(( "T1.Parse.for: not enough arguments\n" )); goto Stack_Underflow; } parser->top -= 4; break; case key_currentdict: Open_Private: parser->state_index = 0; parser->state_stack[0] = dict_none2; error = Open_PrivateDict( parser->tokenizer ); if (error) goto Exit; break; case key_true: case key_false: case key_StandardEncoding: case key_ExpertEncoding: goto Push_Element; default: FT_ERROR(( "T1.Parser: invalid keyword in context\n" )); error = T1_Err_Syntax_Error; } break; /* A number was detected */ case tok_string: case tok_program: case tok_immediate: case tok_array: case tok_hexarray: case tok_any: case tok_number: /* push number on stack */ Push_Element: if ( top >= parser->limit ) { error = T1_Err_Stack_Overflow; goto Exit; } else *parser->top++ = token; break; /* anything else is an error per se the spec, but we */ /* frequently encountre stupid postscript code in fonts, */ /* so just ignore them.. */ default: error = T1_Err_Ok; /* ignore token */ } if (error) return error; } Exit: return error; Syntax_Error: return T1_Err_Syntax_Error; Stack_Underflow: return T1_Err_Stack_Underflow; }