IMPLEMENTATION MODULE Transpiler; FROM FIO IMPORT WriteNBytes, StdOut; FROM SYSTEM IMPORT ADR, ADDRESS; FROM Terminal IMPORT Write, WriteLn, WriteString; FROM Lexer IMPORT Lexer, LexerToken, lexer_current, lexer_lex, LexerKind; TYPE PTranspilerContext = POINTER TO TranspilerContext; TranspilerContext = RECORD Indentation: CARDINAL END; (* Calls lexer_lex() but skips the comments. *) PROCEDURE transpiler_lex(lexer: PLexer): LexerToken; VAR result: LexerToken; BEGIN result := lexer_lex(lexer); WHILE result.Kind = lexerKindComment DO result := lexer_lex(lexer) END; RETURN result END transpiler_lex; (* Write a semicolon followed by a newline. *) PROCEDURE write_semicolon(); BEGIN WriteString(';'); WriteLn() END write_semicolon; PROCEDURE transpile_import(context: PTranspilerContext; lexer: PLexer); VAR token: LexerToken; written_bytes: CARDINAL; BEGIN WriteString('FROM '); token := transpiler_lex(lexer); written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start); token := transpiler_lex(lexer); WriteString(' IMPORT '); token := transpiler_lex(lexer); written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start); token := transpiler_lex(lexer); WHILE token.Kind <> lexerKindSemicolon DO WriteString(', '); token := transpiler_lex(lexer); written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start); token := transpiler_lex(lexer) END; write_semicolon(); token := transpiler_lex(lexer) END transpile_import; PROCEDURE transpile_import_part(context: PTranspilerContext; lexer: PLexer); VAR token: LexerToken; BEGIN token := lexer_current(lexer); WHILE token.Kind = lexerKindFrom DO transpile_import(context, lexer); token := lexer_current(lexer) END; WriteLn() END transpile_import_part; PROCEDURE transpile_constant(context: PTranspilerContext; lexer: PLexer); VAR Token: LexerToken; written_bytes: CARDINAL; BEGIN WriteString(' '); Token := lexer_current(lexer); written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start); Token := transpiler_lex(lexer); WriteString(' = '); Token := transpiler_lex(lexer); written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start); Token := transpiler_lex(lexer); write_semicolon() END transpile_constant; PROCEDURE transpile_constant_part(context: PTranspilerContext; lexer: PLexer): BOOLEAN; VAR Token: LexerToken; result: BOOLEAN; BEGIN Token := lexer_current(lexer); result := Token.Kind = lexerKindConst; IF result THEN WriteString('CONST'); WriteLn(); Token := transpiler_lex(lexer); WHILE Token.Kind = lexerKindIdentifier DO transpile_constant(context, lexer); Token := transpiler_lex(lexer) END END; RETURN result END transpile_constant_part; PROCEDURE transpile_module(context: PTranspilerContext; lexer: PLexer); VAR Token: LexerToken; written_bytes: CARDINAL; BEGIN Token := transpiler_lex(lexer); IF Token.Kind = lexerKindDefinition THEN WriteString('DEFINITION '); Token := transpiler_lex(lexer) END; IF Token.Kind = lexerKindImplementation THEN WriteString('IMPLEMENTATION '); Token := transpiler_lex(lexer) END; WriteString('MODULE '); (* Write the module name and end the line with a semicolon and newline. *) Token := transpiler_lex(lexer); written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start); Token := transpiler_lex(lexer); write_semicolon(); WriteLn(); (* Write the module body. *) Token := transpiler_lex(lexer); transpile_import_part(context, lexer); IF transpile_constant_part(context, lexer) THEN WriteLn() END; transpile_type_part(context, lexer); IF transpile_variable_part(context, lexer) THEN WriteLn() END; transpile_procedure_part(context, lexer); transpile_statement_part(context, lexer); WriteString('END '); Token := transpiler_lex(lexer); written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start); Token := transpiler_lex(lexer); Write('.'); Token := transpiler_lex(lexer); WriteLn() END transpile_module; PROCEDURE transpile_type_fields(context: PTranspilerContext; lexer: PLexer); VAR Token: LexerToken; written_bytes: CARDINAL; BEGIN Token := transpiler_lex(lexer); WHILE Token.Kind <> lexerKindEnd DO WriteString(' '); written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start); Token := transpiler_lex(lexer); WriteString(': '); transpile_type_expression(context, lexer); Token := transpiler_lex(lexer); IF Token.Kind = lexerKindSemicolon THEN Token := transpiler_lex(lexer); Write(';') END; WriteLn() END END transpile_type_fields; PROCEDURE transpile_record_type(context: PTranspilerContext; lexer: PLexer); VAR Token: LexerToken; BEGIN WriteString('RECORD'); WriteLn(); transpile_type_fields(context, lexer); WriteString(' END') END transpile_record_type; PROCEDURE transpile_pointer_type(context: PTranspilerContext; lexer: PLexer); VAR Token: LexerToken; written_bytes: CARDINAL; BEGIN Token := lexer_current(lexer); WriteString('POINTER TO '); IF Token.Kind = lexerKindPointer THEN 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; written_bytes: CARDINAL; BEGIN WriteString('ARRAY'); Token := lexer_current(lexer); IF Token.Kind = lexerKindArray THEN Token := transpiler_lex(lexer) END; IF Token.Kind <> lexerKindOf THEN WriteString('[1..'); Token := transpiler_lex(lexer); written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start); Token := transpiler_lex(lexer); Write(']') END; WriteString(' OF '); transpile_type_expression(context, lexer) END transpile_array_type; PROCEDURE transpile_enumeration_type(context: PTranspilerContext; lexer: PLexer); VAR Token: LexerToken; written_bytes: CARDINAL; BEGIN WriteString('('); WriteLn(); WriteString(' '); Token := transpiler_lex(lexer); written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start); Token := transpiler_lex(lexer); WHILE Token.Kind = lexerKindComma DO Write(','); WriteLn(); WriteString(' '); Token := transpiler_lex(lexer); written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start); Token := transpiler_lex(lexer) END; WriteLn(); WriteString(' )') END transpile_enumeration_type; PROCEDURE transpile_union_type(context: PTranspilerContext; lexer: PLexer); VAR Token: LexerToken; END transpile_union_type; PROCEDURE transpile_procedure_type(context: PTranspilerContext; lexer: PLexer); VAR Token: LexerToken; written_bytes: CARDINAL; BEGIN Token := transpiler_lex(lexer); WriteString('PROCEDURE('); Token := transpiler_lex(lexer); WHILE Token.Kind <> lexerKindRightParen DO written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start); Token := transpiler_lex(lexer); IF Token.Kind = lexerKindComma THEN Token := transpiler_lex(lexer); WriteString(', ') END END; Write(')') END transpile_procedure_type; PROCEDURE transpile_type_expression(context: PTranspilerContext; lexer: PLexer); VAR Token: LexerToken; written_bytes: CARDINAL; BEGIN Token := transpiler_lex(lexer); IF Token.Kind = lexerKindRecord THEN transpile_record_type(context, lexer) END; IF Token.Kind = lexerKindLeftParen THEN transpile_enumeration_type(context, lexer) END; IF (Token.Kind = lexerKindArray) OR (Token.Kind = lexerKindLeftSquare) THEN transpile_array_type(context, lexer) END; IF Token.Kind = lexerKindHat THEN transpile_pointer_type(context, lexer) END; IF Token.Kind = lexerKindProc THEN transpile_procedure_type(context, lexer) END; 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; written_bytes: CARDINAL; BEGIN WriteString(' '); Token := lexer_current(lexer); written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start); Token := transpiler_lex(lexer); WriteString(' = '); transpile_type_expression(context, lexer); Token := transpiler_lex(lexer); write_semicolon(); END transpile_type_declaration; PROCEDURE transpile_type_part(context: PTranspilerContext; lexer: PLexer); VAR token: LexerToken; BEGIN token := lexer_current(lexer); IF token.Kind = lexerKindType THEN WriteString('TYPE'); WriteLn(); token := transpiler_lex(lexer); WHILE token.Kind = lexerKindIdentifier DO transpile_type_declaration(context, lexer); token := transpiler_lex(lexer) END; WriteLn() END END transpile_type_part; PROCEDURE transpile_variable_declaration(context: PTranspilerContext; lexer: PLexer); VAR Token: LexerToken; written_bytes: CARDINAL; BEGIN WriteString(' '); Token := lexer_current(lexer); written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start); Token := transpiler_lex(lexer); WriteString(': '); transpile_type_expression(context, lexer); Token := transpiler_lex(lexer); write_semicolon() END transpile_variable_declaration; PROCEDURE transpile_variable_part(context: PTranspilerContext; lexer: PLexer): BOOLEAN; VAR Token: LexerToken; result: BOOLEAN; BEGIN Token := lexer_current(lexer); result := Token.Kind = lexerKindVar; IF result THEN WriteString('VAR'); WriteLn(); Token := transpiler_lex(lexer); WHILE Token.Kind = lexerKindIdentifier DO transpile_variable_declaration(context, lexer); Token := transpiler_lex(lexer) END END; RETURN result END transpile_variable_part; PROCEDURE transpile_procedure_heading(context: PTranspilerContext; lexer: PLexer): LexerToken; VAR token: LexerToken; result: LexerToken; written_bytes: CARDINAL; BEGIN WriteString('PROCEDURE '); result := transpiler_lex(lexer); written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start); token := transpiler_lex(lexer); Write('('); token := transpiler_lex(lexer); WHILE token.Kind <> lexerKindRightParen DO written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start); token := transpiler_lex(lexer); WriteString(': '); transpile_type_expression(context, lexer); token := transpiler_lex(lexer); IF (token.Kind = lexerKindSemicolon) OR (token.Kind = lexerKindComma) THEN WriteString('; '); token := transpiler_lex(lexer) END END; WriteString(')'); token := transpiler_lex(lexer); (* Check for the return type and write it. *) IF token.Kind = lexerKindColon THEN WriteString(': '); token := transpiler_lex(lexer); written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start); token := transpiler_lex(lexer) END; token := transpiler_lex(lexer); write_semicolon(); RETURN result END transpile_procedure_heading; PROCEDURE transpile_expression(context: PTranspilerContext; lexer: PLexer; TrailingToken: LexerKind); VAR token: LexerToken; written_bytes: CARDINAL; BEGIN token := transpiler_lex(lexer); WHILE (token.Kind <> TrailingToken) AND (token.Kind <> lexerKindEnd) DO written_bytes := 0; IF token.Kind = lexerKindNull THEN WriteString('NIL '); written_bytes := 1 END; IF token.Kind = lexerKindOr THEN WriteString('OR '); written_bytes := 1 END; IF token.Kind = lexerKindAnd THEN WriteString('AND '); written_bytes := 1 END; IF token.Kind = lexerKindNot THEN WriteString('NOT '); written_bytes := 1 END; IF written_bytes = 0 THEN written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start); Write(' ') END; token := transpiler_lex(lexer) END END transpile_expression; PROCEDURE transpile_if_statement(context: PTranspilerContext; lexer: PLexer); VAR token: LexerToken; written_bytes: CARDINAL; BEGIN WriteString(' IF '); transpile_expression(context, lexer, lexerKindThen); WriteString('THEN'); WriteLn(); transpile_statements(context, lexer); WriteString(' END'); token := transpiler_lex(lexer) END transpile_if_statement; PROCEDURE transpile_while_statement(context: PTranspilerContext; lexer: PLexer); VAR Token: LexerToken; written_bytes: CARDINAL; BEGIN WriteString(' WHILE '); transpile_expression(context, lexer, lexerKindDo); WriteString('DO'); WriteLn(); transpile_statements(context, lexer); WriteString(' END'); Token := transpiler_lex(lexer) END transpile_while_statement; PROCEDURE transpile_assignment_statement(context: PTranspilerContext; lexer: PLexer); BEGIN WriteString(' := '); transpile_expression(context, lexer, lexerKindSemicolon); END transpile_assignment_statement; PROCEDURE transpile_call_statement(context: PTranspilerContext; lexer: PLexer); VAR Token: LexerToken; written_bytes: CARDINAL; BEGIN WriteString('('); Token := transpiler_lex(lexer); WHILE (Token.Kind <> lexerKindSemicolon) AND (Token.Kind <> lexerKindEnd) DO written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start); Token := transpiler_lex(lexer) END END transpile_call_statement; PROCEDURE transpile_return_statement(context: PTranspilerContext; lexer: PLexer); VAR Token: LexerToken; written_bytes: CARDINAL; BEGIN WriteString(' RETURN '); Token := transpiler_lex(lexer); written_bytes := WriteNBytes(StdOut, ADDRESS(lexer^.Current - lexer^.Start), lexer^.Start); Token := transpiler_lex(lexer) END transpile_return_statement; PROCEDURE transpile_statement(context: PTranspilerContext; lexer: PLexer); VAR token: LexerToken; written_bytes: CARDINAL; BEGIN token := transpiler_lex(lexer); IF token.Kind = lexerKindIf THEN transpile_if_statement(context, lexer) END; IF token.Kind = lexerKindWhile THEN transpile_while_statement(context, lexer) END; IF token.Kind = lexerKindReturn THEN transpile_return_statement(context, lexer) END; IF token.Kind = lexerKindIdentifier THEN 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; IF token.Kind = lexerKindAssignment THEN transpile_assignment_statement(context, lexer) END; IF token.Kind = lexerKindLeftParen THEN transpile_call_statement(context, lexer) END END END transpile_statement; PROCEDURE transpile_statements(context: PTranspilerContext; lexer: PLexer); VAR Token: LexerToken; BEGIN Token := lexer_current(lexer); WHILE Token.Kind <> lexerKindEnd DO transpile_statement(context, lexer); Token := lexer_current(lexer); IF Token.Kind = lexerKindSemicolon THEN Write(';') END; WriteLn() END END transpile_statements; PROCEDURE transpile_statement_part(context: PTranspilerContext; lexer: PLexer); VAR Token: LexerToken; BEGIN Token := lexer_current(lexer); IF Token.Kind = lexerKindBegin THEN WriteString('BEGIN'); WriteLn(); transpile_statements(context, lexer) END END transpile_statement_part; PROCEDURE transpile_procedure_declaration(context: PTranspilerContext; lexer: PLexer); VAR Token: LexerToken; seen_part: BOOLEAN; written_bytes: CARDINAL; BEGIN 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])); Token := transpiler_lex(lexer); write_semicolon(); Token := transpiler_lex(lexer) END transpile_procedure_declaration; PROCEDURE transpile_procedure_part(context: PTranspilerContext; lexer: PLexer); VAR Token: LexerToken; BEGIN Token := lexer_current(lexer); WHILE Token.Kind = lexerKindProc DO transpile_procedure_declaration(context, lexer); Token := lexer_current(lexer); WriteLn() END END transpile_procedure_part; PROCEDURE transpile(lexer: PLexer); VAR Token: LexerToken; written_bytes: CARDINAL; Context: TranspilerContext; BEGIN transpile_module(ADR(Context), lexer) END transpile; END Transpiler.