Handle ASCII codes > 128 in the tokenizer

source/Lexer.mod

@@ -72,6 +72,8 @@ VAR
   transitions: ARRAY[1..16] OF TransitionClasses;
 
 PROCEDURE initialize_classification();
+VAR
+  i: CARDINAL;
 BEGIN
   classification[1] := transitionClassEof; (* NUL *)
   classification[2] := transitionClassInvalid; (* SOH *)
@@ -200,255 +202,261 @@ BEGIN
   classification[125] := transitionClassSingle; (* | *)
   classification[126] := transitionClassOther; (* } *)
   classification[127] := transitionClassSingle; (* ~ *)
-  classification[128] := transitionClassInvalid (* DEL *)
+  classification[128] := transitionClassInvalid; (* DEL *)
+
+  i := 129;
+  WHILE i <= 256 DO
+    classification[i] := transitionClassOther;
+    i := i + 1
+  END
 END initialize_classification;
 PROCEDURE compare_keyword(Keyword: ARRAY OF CHAR;  TokenStart: PLexerBuffer;  TokenEnd: PLexerBuffer): BOOLEAN;
 VAR
-  Result: BOOLEAN;
+  result: BOOLEAN;
-  Index: CARDINAL;
+  index: CARDINAL;
 BEGIN
-  Index := 0;
+  index := 0;
-  Result := TRUE;
+  result := TRUE;
 
-  WHILE (Index < Length(Keyword)) AND (TokenStart <> TokenEnd) AND Result DO
+  WHILE (index < Length(Keyword)) AND (TokenStart <> TokenEnd) AND result DO
-    Result := (Keyword[Index] = TokenStart^) OR (Lower(Keyword[Index]) = TokenStart^);
+    result := (Keyword[index] = TokenStart^) OR (Lower(Keyword[index]) = TokenStart^);
     INC(TokenStart);
-    INC(Index)
+    INC(index)
   END;
-  Result := (Index = Length(Keyword)) AND (TokenStart = TokenEnd) AND Result;
+  result := (index = Length(Keyword)) AND (TokenStart = TokenEnd) AND result;
-  RETURN Result
+  RETURN result
 END compare_keyword;
 (* Reached the end of file. *)
-PROCEDURE transition_action_eof(lexer: PLexer;  AToken: PLexerToken);
+PROCEDURE transition_action_eof(lexer: PLexer;  token: PLexerToken);
 BEGIN
-  AToken^.Kind := lexerKindEof
+  token^.Kind := lexerKindEof
 END transition_action_eof;
 (* Add the character to the token currently read and advance to the next character. *)
-PROCEDURE transition_action_accumulate(lexer: PLexer;  AToken: PLexerToken);
+PROCEDURE transition_action_accumulate(lexer: PLexer;  token: PLexerToken);
 BEGIN
   INC(lexer^.Current)
 END transition_action_accumulate;
 (* The current character is not a part of the token. Finish the token already
  * read. Don't advance to the next character. *)
-PROCEDURE transition_action_finalize(lexer: PLexer;  AToken: PLexerToken);
+PROCEDURE transition_action_finalize(lexer: PLexer;  token: PLexerToken);
 BEGIN
   IF lexer^.Start^ = ':' THEN
-    AToken^.Kind := lexerKindColon
+    token^.Kind := lexerKindColon
   END;
   IF lexer^.Start^ = '>' THEN
-    AToken^.Kind := lexerKindGreaterThan
+    token^.Kind := lexerKindGreaterThan
   END;
   IF lexer^.Start^ = '<' THEN
-    AToken^.Kind := lexerKindLessThan
+    token^.Kind := lexerKindLessThan
   END;
   IF lexer^.Start^ = '(' THEN
-    AToken^.Kind := lexerKindLeftParen
+    token^.Kind := lexerKindLeftParen
   END;
   IF lexer^.Start^ = '-' THEN
-    AToken^.Kind := lexerKindLeftParen
+    token^.Kind := lexerKindLeftParen
   END;
   IF lexer^.Start^ = '.' THEN
-    AToken^.Kind := lexerKindDot
+    token^.Kind := lexerKindDot
   END
 END transition_action_finalize;
 (* An action for tokens containing multiple characters. *)
-PROCEDURE transition_action_composite(lexer: PLexer;  AToken: PLexerToken);
+PROCEDURE transition_action_composite(lexer: PLexer;  token: PLexerToken);
 BEGIN
   IF lexer^.Start^ = '<' THEN
     IF lexer^.Current^ = '>' THEN
-      AToken^.Kind := lexerKindNotEqual
+      token^.Kind := lexerKindNotEqual
     END;
     IF lexer^.Current^ = '=' THEN
-      AToken^.Kind := lexerKindLessEqual
+      token^.Kind := lexerKindLessEqual
     END
   END;
   IF (lexer^.Start^ = '>') AND (lexer^.Current^ = '=') THEN
-    AToken^.Kind := lexerKindGreaterEqual
+    token^.Kind := lexerKindGreaterEqual
   END;
   IF (lexer^.Start^ = '.') AND (lexer^.Current^ = '.') THEN
-    AToken^.Kind := lexerKindRange
+    token^.Kind := lexerKindRange
   END;
   IF (lexer^.Start^ = ':') AND (lexer^.Current^ = '=') THEN
-    AToken^.Kind := lexerKindAssignment
+    token^.Kind := lexerKindAssignment
   END;
   INC(lexer^.Current)
 END transition_action_composite;
 (* Skip a space. *)
-PROCEDURE transition_action_skip(lexer: PLexer;  AToken: PLexerToken);
+PROCEDURE transition_action_skip(lexer: PLexer;  token: PLexerToken);
 BEGIN
   INC(lexer^.Current);
   INC(lexer^.Start)
 END transition_action_skip;
 (* Delimited string action. *)
-PROCEDURE transition_action_delimited(lexer: PLexer;  AToken: PLexerToken);
+PROCEDURE transition_action_delimited(lexer: PLexer;  token: PLexerToken);
 BEGIN
   IF lexer^.Start^ = '(' THEN
-    AToken^.Kind := lexerKindComment
+    token^.Kind := lexerKindComment
   END;
   IF lexer^.Start^ = '"' THEN
-    AToken^.Kind := lexerKindCharacter
+    token^.Kind := lexerKindCharacter
   END;
   IF lexer^.Start^ = "'" THEN
-    AToken^.Kind := lexerKindString
+    token^.Kind := lexerKindString
   END;
   INC(lexer^.Current)
 END transition_action_delimited;
 (* Finalize keyword OR identifier. *)
-PROCEDURE transition_action_key_id(lexer: PLexer;  AToken: PLexerToken);
+PROCEDURE transition_action_key_id(lexer: PLexer;  token: PLexerToken);
 BEGIN
-  AToken^.Kind := lexerKindIdentifier;
+  token^.Kind := lexerKindIdentifier;
 
-  AToken^.identifierKind[1] := lexer^.Current - lexer^.Start;
+  token^.identifierKind[1] := lexer^.Current - lexer^.Start;
-  MemCopy(lexer^.Start, ORD(AToken^.identifierKind[1]), ADR(AToken^.identifierKind[2]));
+  MemCopy(lexer^.Start, ORD(token^.identifierKind[1]), ADR(token^.identifierKind[2]));
 
   IF compare_keyword('PROGRAM', lexer^.Start, lexer^.Current) THEN
-    AToken^.Kind := lexerKindProgram
+    token^.Kind := lexerKindProgram
   END;
   IF compare_keyword('IMPORT', lexer^.Start, lexer^.Current) THEN
-    AToken^.Kind := lexerKindImport
+    token^.Kind := lexerKindImport
   END;
   IF compare_keyword('CONST', lexer^.Start, lexer^.Current) THEN
-    AToken^.Kind := lexerKindConst
+    token^.Kind := lexerKindConst
   END;
   IF compare_keyword('VAR', lexer^.Start, lexer^.Current) THEN
-    AToken^.Kind := lexerKindVar
+    token^.Kind := lexerKindVar
   END;
   IF compare_keyword('IF', lexer^.Start, lexer^.Current) THEN
-    AToken^.Kind := lexerKindIf
+    token^.Kind := lexerKindIf
   END;
   IF compare_keyword('THEN', lexer^.Start, lexer^.Current) THEN
-    AToken^.Kind := lexerKindThen
+    token^.Kind := lexerKindThen
   END;
   IF compare_keyword('ELSIF', lexer^.Start, lexer^.Current) THEN
-    AToken^.Kind := lexerKindElsif
+    token^.Kind := lexerKindElsif
   END;
   IF compare_keyword('ELSE', lexer^.Start, lexer^.Current) THEN
-    AToken^.Kind := lexerKindElse
+    token^.Kind := lexerKindElse
   END;
   IF compare_keyword('WHILE', lexer^.Start, lexer^.Current) THEN
-    AToken^.Kind := lexerKindWhile
+    token^.Kind := lexerKindWhile
   END;
   IF compare_keyword('DO', lexer^.Start, lexer^.Current) THEN
-    AToken^.Kind := lexerKindDo
+    token^.Kind := lexerKindDo
   END;
   IF compare_keyword('proc', lexer^.Start, lexer^.Current) THEN
-    AToken^.Kind := lexerKindProc
+    token^.Kind := lexerKindProc
   END;
   IF compare_keyword('BEGIN', lexer^.Start, lexer^.Current) THEN
-    AToken^.Kind := lexerKindBegin
+    token^.Kind := lexerKindBegin
   END;
   IF compare_keyword('END', lexer^.Start, lexer^.Current) THEN
-    AToken^.Kind := lexerKindEnd
+    token^.Kind := lexerKindEnd
   END;
   IF compare_keyword('TYPE', lexer^.Start, lexer^.Current) THEN
-    AToken^.Kind := lexerKindType
+    token^.Kind := lexerKindType
   END;
   IF compare_keyword('RECORD', lexer^.Start, lexer^.Current) THEN
-    AToken^.Kind := lexerKindRecord
+    token^.Kind := lexerKindRecord
   END;
   IF compare_keyword('UNION', lexer^.Start, lexer^.Current) THEN
-    AToken^.Kind := lexerKindUnion
+    token^.Kind := lexerKindUnion
   END;
   IF compare_keyword('NIL', lexer^.Start, lexer^.Current) THEN
-    AToken^.Kind := lexerKindNull
+    token^.Kind := lexerKindNull
   END;
   IF compare_keyword('AND', lexer^.Start, lexer^.Current) THEN
-    AToken^.Kind := lexerKindAnd
+    token^.Kind := lexerKindAnd
   END;
   IF compare_keyword('OR', lexer^.Start, lexer^.Current) THEN
-    AToken^.Kind := lexerKindOr
+    token^.Kind := lexerKindOr
   END;
   IF compare_keyword('RETURN', lexer^.Start, lexer^.Current) THEN
-    AToken^.Kind := lexerKindReturn
+    token^.Kind := lexerKindReturn
   END;
   IF compare_keyword('DEFINITION', lexer^.Start, lexer^.Current) THEN
-    AToken^.Kind := lexerKindDefinition
+    token^.Kind := lexerKindDefinition
   END;
   IF compare_keyword('TO', lexer^.Start, lexer^.Current) THEN
-    AToken^.Kind := lexerKindTo
+    token^.Kind := lexerKindTo
   END;
   IF compare_keyword('CASE', lexer^.Start, lexer^.Current) THEN
-    AToken^.Kind := lexerKindCase
+    token^.Kind := lexerKindCase
   END;
   IF compare_keyword('OF', lexer^.Start, lexer^.Current) THEN
-    AToken^.Kind := lexerKindOf
+    token^.Kind := lexerKindOf
   END;
   IF compare_keyword('FROM', lexer^.Start, lexer^.Current) THEN
-    AToken^.Kind := lexerKindFrom
+    token^.Kind := lexerKindFrom
   END;
   IF compare_keyword('MODULE', lexer^.Start, lexer^.Current) THEN
-    AToken^.Kind := lexerKindModule
+    token^.Kind := lexerKindModule
   END;
   IF compare_keyword('IMPLEMENTATION', lexer^.Start, lexer^.Current) THEN
-    AToken^.Kind := lexerKindImplementation
+    token^.Kind := lexerKindImplementation
   END;
   IF compare_keyword('POINTER', lexer^.Start, lexer^.Current) THEN
-    AToken^.Kind := lexerKindPointer
+    token^.Kind := lexerKindPointer
   END;
   IF compare_keyword('ARRAY', lexer^.Start, lexer^.Current) THEN
-    AToken^.Kind := lexerKindArray
+    token^.Kind := lexerKindArray
   END;
   IF compare_keyword('TRUE', lexer^.Start, lexer^.Current) THEN
-    AToken^.Kind := lexerKindBoolean;
+    token^.Kind := lexerKindBoolean;
-    AToken^.booleanKind := TRUE
+    token^.booleanKind := TRUE
   END;
   IF compare_keyword('FALSE', lexer^.Start, lexer^.Current) THEN
-    AToken^.Kind := lexerKindBoolean;
+    token^.Kind := lexerKindBoolean;
-    AToken^.booleanKind := FALSE
+    token^.booleanKind := FALSE
   END
 END transition_action_key_id;
 (* Action for tokens containing only one character. The character cannot be
  * followed by other characters forming a composite token. *)
-PROCEDURE transition_action_single(lexer: PLexer;  AToken: PLexerToken);
+PROCEDURE transition_action_single(lexer: PLexer;  token: PLexerToken);
 BEGIN
   IF lexer^.Current^ = '&' THEN
-    AToken^.Kind := lexerKindAnd
+    token^.Kind := lexerKindAnd
   END;
   IF lexer^.Current^ = ';' THEN
-    AToken^.Kind := lexerKindSemicolon
+    token^.Kind := lexerKindSemicolon
   END;
   IF lexer^.Current^ = ',' THEN
-    AToken^.Kind := lexerKindComma
+    token^.Kind := lexerKindComma
   END;
   IF lexer^.Current^ = ',' THEN
-    AToken^.Kind := lexerKindComma
+    token^.Kind := lexerKindComma
   END;
   IF lexer^.Current^ = ')' THEN
-    AToken^.Kind := lexerKindRightParen
+    token^.Kind := lexerKindRightParen
   END;
   IF lexer^.Current^ = '[' THEN
-    AToken^.Kind := lexerKindLeftSquare
+    token^.Kind := lexerKindLeftSquare
   END;
   IF lexer^.Current^ = ']' THEN
-    AToken^.Kind := lexerKindRightSquare
+    token^.Kind := lexerKindRightSquare
   END;
   IF lexer^.Current^ = '^' THEN
-    AToken^.Kind := lexerKindHat
+    token^.Kind := lexerKindHat
   END;
   IF lexer^.Current^ = '=' THEN
-    AToken^.Kind := lexerKindEqual
+    token^.Kind := lexerKindEqual
   END;
   IF lexer^.Current^ = '+' THEN
-    AToken^.Kind := lexerKindPlus
+    token^.Kind := lexerKindPlus
   END;
   IF lexer^.Current^ = '/' THEN
-    AToken^.Kind := lexerKindDivision
+    token^.Kind := lexerKindDivision
   END;
   IF lexer^.Current^ = '%' THEN
-    AToken^.Kind := lexerKindRemainder
+    token^.Kind := lexerKindRemainder
   END;
   IF lexer^.Current^ = '@' THEN
-    AToken^.Kind := lexerKindAt
+    token^.Kind := lexerKindAt
   END;
   IF lexer^.Current^ = '|' THEN
-    AToken^.Kind := lexerKindPipe
+    token^.Kind := lexerKindPipe
   END;
   INC(lexer^.Current)
 END transition_action_single;
 (* Handle an integer literal. *)
-PROCEDURE transition_action_integer(lexer: PLexer;  AToken: PLexerToken);
+PROCEDURE transition_action_integer(lexer: PLexer;  token: PLexerToken);
 BEGIN
-  AToken^.Kind := lexerKindInteger
+  token^.Kind := lexerKindInteger
 END transition_action_integer;
 PROCEDURE set_default_transition(CurrentState: TransitionState;  DefaultAction: TransitionAction;  NextState: TransitionState);
 VAR
@@ -747,7 +755,7 @@ VAR
   CurrentClass: TransitionClass;
   CurrentState: TransitionState;
   CurrentTransition: Transition;
-  Result: LexerToken;
+  result: LexerToken;
 BEGIN
   lexer^.Current := lexer^.Start;
   CurrentState := transitionStateStart;
@@ -757,15 +765,15 @@ BEGIN
 
     CurrentTransition := transitions[ORD(CurrentState) + 1][ORD(CurrentClass) + 1];
     IF CurrentTransition.Action <> NIL THEN
-      CurrentTransition.Action(lexer, ADR(Result))
+      CurrentTransition.Action(lexer, ADR(result))
     END;
     CurrentState := CurrentTransition.NextState
   END;
-  RETURN Result
+  RETURN result
 END lexer_current;
 PROCEDURE lexer_lex(lexer: PLexer): LexerToken;
 VAR
-  Result: LexerToken;
+  result: LexerToken;
 BEGIN
   IF lexer^.Length = 0 THEN
     lexer^.Length := ReadNBytes(lexer^.Input, CHUNK_SIZE, lexer^.Buffer);
@@ -773,8 +781,8 @@ BEGIN
   END;
   lexer^.Start := lexer^.Current;
 
-  Result := lexer_current(lexer);
+  result := lexer_current(lexer);
-  RETURN Result
+  RETURN result
 END lexer_lex;
 PROCEDURE lexer_destroy(lexer: PLexer);
 BEGIN

source/Transpiler.mod

@@ -71,69 +71,69 @@ BEGIN
 END transpile_import_part;
 PROCEDURE transpile_constant(context: PTranspilerContext;  lexer: PLexer);
 VAR
-  Token: LexerToken;
+  token: LexerToken;
   written_bytes: CARDINAL;
 BEGIN
   WriteString('  ');
-  Token := lexer_current(lexer);
+  token := lexer_current(lexer);
   written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start);
 
-  Token := transpiler_lex(lexer);
+  token := transpiler_lex(lexer);
   WriteString(' = ');
 
-  Token := transpiler_lex(lexer);
+  token := transpiler_lex(lexer);
   written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start);
 
-  Token := transpiler_lex(lexer);
+  token := transpiler_lex(lexer);
   write_semicolon()
 END transpile_constant;
 PROCEDURE transpile_constant_part(context: PTranspilerContext;  lexer: PLexer): BOOLEAN;
 VAR
-  Token: LexerToken;
+  token: LexerToken;
   result: BOOLEAN;
 BEGIN
-  Token := lexer_current(lexer);
+  token := lexer_current(lexer);
-  result := Token.Kind = lexerKindConst;
+  result := token.Kind = lexerKindConst;
 
   IF result THEN
     WriteString('CONST');
     WriteLn();
-    Token := transpiler_lex(lexer);
+    token := transpiler_lex(lexer);
 
-    WHILE Token.Kind = lexerKindIdentifier DO
+    WHILE token.Kind = lexerKindIdentifier DO
       transpile_constant(context, lexer);
-      Token := transpiler_lex(lexer)
+      token := transpiler_lex(lexer)
     END
   END;
   RETURN result
 END transpile_constant_part;
 PROCEDURE transpile_module(context: PTranspilerContext;  lexer: PLexer);
 VAR
-  Token: LexerToken;
+  token: LexerToken;
   written_bytes: CARDINAL;
 BEGIN
-  Token := transpiler_lex(lexer);
+  token := transpiler_lex(lexer);
 
-  IF Token.Kind = lexerKindDefinition THEN
+  IF token.Kind = lexerKindDefinition THEN
     WriteString('DEFINITION ');
-    Token := transpiler_lex(lexer)
+    token := transpiler_lex(lexer)
   END;
-  IF Token.Kind = lexerKindImplementation THEN
+  IF token.Kind = lexerKindImplementation THEN
     WriteString('IMPLEMENTATION ');
-    Token := transpiler_lex(lexer)
+    token := transpiler_lex(lexer)
   END;
   WriteString('MODULE ');
 
   (* Write the module name and end the line with a semicolon and newline. *)
-  Token := transpiler_lex(lexer);
+  token := transpiler_lex(lexer);
   written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start);
 
-  Token := transpiler_lex(lexer);
+  token := transpiler_lex(lexer);
   write_semicolon();
   WriteLn();
 
   (* Write the module body. *)
-  Token := transpiler_lex(lexer);
+  token := transpiler_lex(lexer);
   transpile_import_part(context, lexer);
   IF transpile_constant_part(context, lexer) THEN
     WriteLn()
@@ -147,32 +147,32 @@ BEGIN
 
   WriteString('END ');
 
-  Token := transpiler_lex(lexer);
+  token := transpiler_lex(lexer);
   written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start);
 
-  Token := transpiler_lex(lexer);
+  token := transpiler_lex(lexer);
   Write('.');
 
-  Token := transpiler_lex(lexer);
+  token := transpiler_lex(lexer);
   WriteLn()
 END transpile_module;
 PROCEDURE transpile_type_fields(context: PTranspilerContext;  lexer: PLexer);
 VAR
-  Token: LexerToken;
+  token: LexerToken;
   written_bytes: CARDINAL;
 BEGIN
-  Token := transpiler_lex(lexer);
+  token := transpiler_lex(lexer);
 
-  WHILE Token.Kind <> lexerKindEnd DO
+  WHILE token.Kind <> lexerKindEnd DO
     WriteString('    ');
     written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start);
-    Token := transpiler_lex(lexer);
+    token := transpiler_lex(lexer);
     WriteString(': ');
     transpile_type_expression(context, lexer);
-    Token := transpiler_lex(lexer);
+    token := transpiler_lex(lexer);
 
-    IF Token.Kind = lexerKindSemicolon THEN
+    IF token.Kind = lexerKindSemicolon THEN
-      Token := transpiler_lex(lexer);
+      token := transpiler_lex(lexer);
       Write(';')
     END;
     WriteLn()
@@ -180,7 +180,7 @@ BEGIN
 END transpile_type_fields;
 PROCEDURE transpile_record_type(context: PTranspilerContext;  lexer: PLexer);
 VAR
-  Token: LexerToken;
+  token: LexerToken;
 BEGIN
   WriteString('RECORD');
   WriteLn();
@@ -189,32 +189,32 @@ BEGIN
 END transpile_record_type;
 PROCEDURE transpile_pointer_type(context: PTranspilerContext;  lexer: PLexer);
 VAR
-  Token: LexerToken;
+  token: LexerToken;
   written_bytes: CARDINAL;
 BEGIN
-  Token := lexer_current(lexer);
+  token := lexer_current(lexer);
   WriteString('POINTER TO ');
-  IF Token.Kind = lexerKindPointer THEN
+  IF token.Kind = lexerKindPointer THEN
-    Token := transpiler_lex(lexer)
+    token := transpiler_lex(lexer)
   END;
   transpile_type_expression(context, lexer)
 END transpile_pointer_type;
 PROCEDURE transpile_array_type(context: PTranspilerContext;  lexer: PLexer);
 VAR
-  Token: LexerToken;
+  token: LexerToken;
   written_bytes: CARDINAL;
 BEGIN
   WriteString('ARRAY');
-  Token := lexer_current(lexer);
+  token := lexer_current(lexer);
 
-  IF Token.Kind = lexerKindArray THEN
+  IF token.Kind = lexerKindArray THEN
-    Token := transpiler_lex(lexer)
+    token := transpiler_lex(lexer)
   END;
-  IF Token.Kind <> lexerKindOf THEN
+  IF token.Kind <> lexerKindOf THEN
     WriteString('[1..');
-    Token := transpiler_lex(lexer);
+    token := transpiler_lex(lexer);
     written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start);
-    Token := transpiler_lex(lexer);
+    token := transpiler_lex(lexer);
     Write(']')
   END;
   WriteString(' OF ');
@@ -222,50 +222,50 @@ BEGIN
 END transpile_array_type;
 PROCEDURE transpile_enumeration_type(context: PTranspilerContext;  lexer: PLexer);
 VAR
-  Token: LexerToken;
+  token: LexerToken;
   written_bytes: CARDINAL;
 BEGIN
   WriteString('(');
   WriteLn();
   WriteString('    ');
 
-  Token := transpiler_lex(lexer);
+  token := transpiler_lex(lexer);
   written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start);
 
-  Token := transpiler_lex(lexer);
+  token := transpiler_lex(lexer);
 
-  WHILE Token.Kind = lexerKindComma DO
+  WHILE token.Kind = lexerKindComma DO
     Write(',');
     WriteLn();
     WriteString('    ');
-    Token := transpiler_lex(lexer);
+    token := transpiler_lex(lexer);
     written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start);
 
-    Token := transpiler_lex(lexer)
+    token := transpiler_lex(lexer)
   END;
   WriteLn();
   WriteString('  )')
 END transpile_enumeration_type;
 PROCEDURE transpile_union_type(context: PTranspilerContext;  lexer: PLexer);
 VAR
-  Token: LexerToken;
+  token: LexerToken;
 END transpile_union_type;
 PROCEDURE transpile_procedure_type(context: PTranspilerContext;  lexer: PLexer);
 VAR
-  Token: LexerToken;
+  token: LexerToken;
   written_bytes: CARDINAL;
 BEGIN
-  Token := transpiler_lex(lexer);
+  token := transpiler_lex(lexer);
   WriteString('PROCEDURE(');
 
-  Token := transpiler_lex(lexer);
+  token := transpiler_lex(lexer);
 
-  WHILE Token.Kind <> lexerKindRightParen DO
+  WHILE token.Kind <> lexerKindRightParen DO
     written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start);
 
-    Token := transpiler_lex(lexer);
+    token := transpiler_lex(lexer);
-    IF Token.Kind = lexerKindComma THEN
+    IF token.Kind = lexerKindComma THEN
-      Token := transpiler_lex(lexer);
+      token := transpiler_lex(lexer);
       WriteString(', ')
     END
   END;
@@ -273,42 +273,42 @@ BEGIN
 END transpile_procedure_type;
 PROCEDURE transpile_type_expression(context: PTranspilerContext;  lexer: PLexer);
 VAR
-  Token: LexerToken;
+  token: LexerToken;
   written_bytes: CARDINAL;
 BEGIN
-  Token := transpiler_lex(lexer);
+  token := transpiler_lex(lexer);
-  IF Token.Kind = lexerKindRecord THEN
+  IF token.Kind = lexerKindRecord THEN
     transpile_record_type(context, lexer)
   END;
-  IF Token.Kind = lexerKindLeftParen THEN
+  IF token.Kind = lexerKindLeftParen THEN
     transpile_enumeration_type(context, lexer)
   END;
-  IF (Token.Kind = lexerKindArray) OR (Token.Kind = lexerKindLeftSquare) THEN
+  IF (token.Kind = lexerKindArray) OR (token.Kind = lexerKindLeftSquare) THEN
     transpile_array_type(context, lexer)
   END;
-  IF Token.Kind = lexerKindHat THEN
+  IF token.Kind = lexerKindHat THEN
     transpile_pointer_type(context, lexer)
   END;
-  IF Token.Kind = lexerKindProc THEN
+  IF token.Kind = lexerKindProc THEN
     transpile_procedure_type(context, lexer)
   END;
-  IF Token.Kind = lexerKindIdentifier THEN
+  IF token.Kind = lexerKindIdentifier THEN
     written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start)
   END
 END transpile_type_expression;
 PROCEDURE transpile_type_declaration(context: PTranspilerContext;  lexer: PLexer);
 VAR
-  Token: LexerToken;
+  token: LexerToken;
   written_bytes: CARDINAL;
 BEGIN
   WriteString('  ');
-  Token := lexer_current(lexer);
+  token := lexer_current(lexer);
   written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start);
 
-  Token := transpiler_lex(lexer);
+  token := transpiler_lex(lexer);
   WriteString(' = ');
   transpile_type_expression(context, lexer);
-  Token := transpiler_lex(lexer);
+  token := transpiler_lex(lexer);
   write_semicolon();
 END transpile_type_declaration;
 PROCEDURE transpile_type_part(context: PTranspilerContext;  lexer: PLexer);
@@ -331,35 +331,35 @@ BEGIN
 END transpile_type_part;
 PROCEDURE transpile_variable_declaration(context: PTranspilerContext;  lexer: PLexer);
 VAR
-  Token: LexerToken;
+  token: LexerToken;
   written_bytes: CARDINAL;
 BEGIN
   WriteString('  ');
-  Token := lexer_current(lexer);
+  token := lexer_current(lexer);
   written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start);
 
-  Token := transpiler_lex(lexer);
+  token := transpiler_lex(lexer);
   WriteString(': ');
   transpile_type_expression(context, lexer);
-  Token := transpiler_lex(lexer);
+  token := transpiler_lex(lexer);
   write_semicolon()
 END transpile_variable_declaration;
 PROCEDURE transpile_variable_part(context: PTranspilerContext;  lexer: PLexer): BOOLEAN;
 VAR
-  Token: LexerToken;
+  token: LexerToken;
   result: BOOLEAN;
 BEGIN
-  Token := lexer_current(lexer);
+  token := lexer_current(lexer);
-  result := Token.Kind = lexerKindVar;
+  result := token.Kind = lexerKindVar;
 
   IF result THEN
     WriteString('VAR');
     WriteLn();
-    Token := transpiler_lex(lexer);
+    token := transpiler_lex(lexer);
 
-    WHILE Token.Kind = lexerKindIdentifier DO
+    WHILE token.Kind = lexerKindIdentifier DO
       transpile_variable_declaration(context, lexer);
-      Token := transpiler_lex(lexer)
+      token := transpiler_lex(lexer)
     END
   END;
   RETURN result
@@ -408,14 +408,14 @@ BEGIN
 
   RETURN result
 END transpile_procedure_heading;
-PROCEDURE transpile_expression(context: PTranspilerContext;  lexer: PLexer;  TrailingToken: LexerKind);
+PROCEDURE transpile_expression(context: PTranspilerContext;  lexer: PLexer; trailing_token: LexerKind);
 VAR
   token: LexerToken;
   written_bytes: CARDINAL;
 BEGIN
   token := transpiler_lex(lexer);
 
-  WHILE (token.Kind <> TrailingToken) AND (token.Kind <> lexerKindEnd) DO
+  WHILE (token.Kind <> trailing_token) AND (token.Kind <> lexerKindEnd) DO
     written_bytes := 0;
     IF token.Kind = lexerKindNull THEN
       WriteString('NIL ');
@@ -456,7 +456,7 @@ BEGIN
 END transpile_if_statement;
 PROCEDURE transpile_while_statement(context: PTranspilerContext;  lexer: PLexer);
 VAR
-  Token: LexerToken;
+  token: LexerToken;
   written_bytes: CARDINAL;
 BEGIN
   WriteString('  WHILE ');
@@ -466,7 +466,7 @@ BEGIN
   WriteLn();
   transpile_statements(context, lexer);
   WriteString('  END');
-  Token := transpiler_lex(lexer)
+  token := transpiler_lex(lexer)
 END transpile_while_statement;
 PROCEDURE transpile_assignment_statement(context: PTranspilerContext;  lexer: PLexer);
 BEGIN
@@ -475,26 +475,70 @@ BEGIN
 END transpile_assignment_statement;
 PROCEDURE transpile_call_statement(context: PTranspilerContext;  lexer: PLexer);
 VAR
-  Token: LexerToken;
+  token: LexerToken;
   written_bytes: CARDINAL;
 BEGIN
   WriteString('(');
-  Token := transpiler_lex(lexer);
+  token := transpiler_lex(lexer);
 
-  WHILE (Token.Kind <> lexerKindSemicolon) AND (Token.Kind <> lexerKindEnd) DO
+  WHILE (token.Kind <> lexerKindSemicolon) AND (token.Kind <> lexerKindEnd) DO
     written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start);
-    Token := transpiler_lex(lexer)
+    token := transpiler_lex(lexer)
   END
 END transpile_call_statement;
-PROCEDURE transpile_return_statement(context: PTranspilerContext;  lexer: PLexer);
+PROCEDURE transpile_designator_expression(context: PTranspilerContext; lexer: PLexer);
 VAR
-  Token: LexerToken;
+  token: LexerToken;
+  written_bytes: CARDINAL;
+BEGIN
+  WriteString('  ');
+  written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start);
+  token := transpiler_lex(lexer);
+
+  WHILE token.Kind = lexerKindLeftSquare DO
+    Write('[');
+    token := transpiler_lex(lexer);
+    WHILE token.Kind <> lexerKindRightSquare DO
+      written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start);
+      token := transpiler_lex(lexer)
+    END;
+    Write(']');
+    token := transpiler_lex(lexer)
+  END;
+  IF token.Kind = lexerKindHat THEN
+    Write('^');
+    token := transpiler_lex(lexer)
+  END;
+  IF token.Kind = lexerKindDot THEN
+    Write('.');
+    token := transpiler_lex(lexer);
+    written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start);
+    token := transpiler_lex(lexer)
+  END;
+  IF token.Kind = lexerKindHat THEN
+    Write('^');
+    token := transpiler_lex(lexer)
+  END;
+  WHILE token.Kind = lexerKindLeftSquare DO
+    Write('[');
+    token := transpiler_lex(lexer);
+    WHILE token.Kind <> lexerKindRightSquare DO
+      written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start);
+      token := transpiler_lex(lexer)
+    END;
+    Write(']');
+    token := transpiler_lex(lexer)
+  END
+END transpile_designator_expression;
+PROCEDURE transpile_return_statement(context: PTranspilerContext; lexer: PLexer);
+VAR
+  token: LexerToken;
   written_bytes: CARDINAL;
 BEGIN
   WriteString('  RETURN ');
-  Token := transpiler_lex(lexer);
+  token := transpiler_lex(lexer);
   written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start);
-  Token := transpiler_lex(lexer)
+  token := transpiler_lex(lexer)
 END transpile_return_statement;
 PROCEDURE transpile_statement(context: PTranspilerContext;  lexer: PLexer);
 VAR
@@ -513,44 +557,8 @@ BEGIN
     transpile_return_statement(context, lexer)
   END;
   IF token.Kind = lexerKindIdentifier THEN
-    WriteString('  ');
+    transpile_designator_expression(context, lexer);
-    written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start);
+    token := lexer_current(lexer);
-    token := transpiler_lex(lexer);
-
-    WHILE token.Kind = lexerKindLeftSquare DO
-      Write('[');
-      token := transpiler_lex(lexer);
-      WHILE token.Kind <> lexerKindRightSquare DO
-        written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start);
-        token := transpiler_lex(lexer)
-      END;
-      Write(']');
-      token := transpiler_lex(lexer);
-    END;
-    IF token.Kind = lexerKindHat THEN
-      Write('^');
-      token := transpiler_lex(lexer)
-    END;
-    IF token.Kind = lexerKindDot THEN
-      Write('.');
-      token := transpiler_lex(lexer);
-      written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start);
-      token := transpiler_lex(lexer);
-    END;
-    IF token.Kind = lexerKindHat THEN
-      Write('^');
-      token := transpiler_lex(lexer)
-    END;
-    WHILE token.Kind = lexerKindLeftSquare DO
-      Write('[');
-      token := transpiler_lex(lexer);
-      WHILE token.Kind <> lexerKindRightSquare DO
-        written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start);
-        token := transpiler_lex(lexer)
-      END;
-      Write(']');
-      token := transpiler_lex(lexer);
-    END;
 
     IF token.Kind = lexerKindAssignment THEN
       transpile_assignment_statement(context, lexer)
@@ -562,15 +570,15 @@ BEGIN
 END transpile_statement;
 PROCEDURE transpile_statements(context: PTranspilerContext;  lexer: PLexer);
 VAR
-  Token: LexerToken;
+  token: LexerToken;
 BEGIN
-  Token := lexer_current(lexer);
+  token := lexer_current(lexer);
 
-  WHILE Token.Kind <> lexerKindEnd DO
+  WHILE token.Kind <> lexerKindEnd DO
     transpile_statement(context, lexer);
-    Token := lexer_current(lexer);
+    token := lexer_current(lexer);
 
-    IF Token.Kind = lexerKindSemicolon THEN
+    IF token.Kind = lexerKindSemicolon THEN
       Write(';')
     END;
     WriteLn()
@@ -578,10 +586,10 @@ BEGIN
 END transpile_statements;
 PROCEDURE transpile_statement_part(context: PTranspilerContext;  lexer: PLexer);
 VAR
-  Token: LexerToken;
+  token: LexerToken;
 BEGIN
-  Token := lexer_current(lexer);
+  token := lexer_current(lexer);
-  IF Token.Kind = lexerKindBegin THEN
+  IF token.Kind = lexerKindBegin THEN
     WriteString('BEGIN');
     WriteLn();
     transpile_statements(context, lexer)
@@ -589,40 +597,40 @@ BEGIN
 END transpile_statement_part;
 PROCEDURE transpile_procedure_declaration(context: PTranspilerContext;  lexer: PLexer);
 VAR
-  Token: LexerToken;
+  token: LexerToken;
   seen_part: BOOLEAN;
   written_bytes: CARDINAL;
 BEGIN
-  Token := transpile_procedure_heading(context, lexer);
+  token := transpile_procedure_heading(context, lexer);
   seen_part := transpile_constant_part(context, lexer);
   seen_part := transpile_variable_part(context, lexer);
   transpile_statement_part(context, lexer);
 
   WriteString('END ');
-  written_bytes := WriteNBytes(StdOut, ORD(Token.identifierKind[1]), ADR(Token.identifierKind[2]));
+  written_bytes := WriteNBytes(StdOut, ORD(token.identifierKind[1]), ADR(token.identifierKind[2]));
 
-  Token := transpiler_lex(lexer);
+  token := transpiler_lex(lexer);
   write_semicolon();
-  Token := transpiler_lex(lexer)
+  token := transpiler_lex(lexer)
 END transpile_procedure_declaration;
 PROCEDURE transpile_procedure_part(context: PTranspilerContext;  lexer: PLexer);
 VAR
-  Token: LexerToken;
+  token: LexerToken;
 BEGIN
-  Token := lexer_current(lexer);
+  token := lexer_current(lexer);
 
-  WHILE Token.Kind = lexerKindProc DO
+  WHILE token.Kind = lexerKindProc DO
     transpile_procedure_declaration(context, lexer);
-    Token := lexer_current(lexer);
+    token := lexer_current(lexer);
     WriteLn()
   END
 END transpile_procedure_part;
 PROCEDURE transpile(lexer: PLexer);
 VAR
-  Token: LexerToken;
+  token: LexerToken;
   written_bytes: CARDINAL;
-  Context: TranspilerContext;
+  context: TranspilerContext;
 BEGIN
-  transpile_module(ADR(Context), lexer)
+  transpile_module(ADR(context), lexer)
 END transpile;
 END Transpiler.