blob: 0a69b8bd5cbd073ca2d2687ec59a9b897aa37ae0 [file] [log] [blame]
// Copyright (c) 2019, the Dart project authors. Please see the AUTHORS file
// for details. All rights reserved. Use of this source code is governed by a
// BSD-style license that can be found in the LICENSE file.
// @dart = 2.9
import 'dart:io';
import 'dart:typed_data';
import 'package:_fe_analyzer_shared/src/parser/parser.dart';
import 'package:_fe_analyzer_shared/src/scanner/utf8_bytes_scanner.dart';
import 'package:_fe_analyzer_shared/src/scanner/token.dart';
import 'package:dart_style/dart_style.dart' show DartFormatter;
import 'utils/io_utils.dart' show computeRepoDirUri;
main(List<String> args) {
final Uri repoDir = computeRepoDirUri();
String generated = generateTestParser(repoDir);
new File.fromUri(computeTestParserUri(repoDir))
.writeAsStringSync(generated, flush: true);
}
Uri computeTestParserUri(Uri repoDir) {
return repoDir.resolve("pkg/front_end/test/parser_test_parser.dart");
}
String generateTestParser(Uri repoDir) {
StringBuffer out = new StringBuffer();
File f = new File.fromUri(repoDir
.resolve("pkg/_fe_analyzer_shared/lib/src/parser/parser_impl.dart"));
List<int> rawBytes = f.readAsBytesSync();
Uint8List bytes = new Uint8List(rawBytes.length + 1);
bytes.setRange(0, rawBytes.length, rawBytes);
Utf8BytesScanner scanner = new Utf8BytesScanner(bytes, includeComments: true);
Token firstToken = scanner.tokenize();
out.write(r"""
// Copyright (c) 2019, the Dart project authors. Please see the AUTHORS file
// for details. All rights reserved. Use of this source code is governed by a
// BSD-style license that can be found in the LICENSE file.
import 'package:_fe_analyzer_shared/src/parser/assert.dart';
import 'package:_fe_analyzer_shared/src/parser/block_kind.dart';
import 'package:_fe_analyzer_shared/src/parser/declaration_kind.dart';
import 'package:_fe_analyzer_shared/src/parser/directive_context.dart';
import 'package:_fe_analyzer_shared/src/parser/formal_parameter_kind.dart';
import 'package:_fe_analyzer_shared/src/parser/identifier_context.dart';
import 'package:_fe_analyzer_shared/src/parser/listener.dart' show Listener;
import 'package:_fe_analyzer_shared/src/parser/member_kind.dart';
import 'package:_fe_analyzer_shared/src/parser/parser.dart' show Parser;
import 'package:_fe_analyzer_shared/src/parser/token_stream_rewriter.dart';
import 'package:_fe_analyzer_shared/src/parser/type_info.dart';
import 'package:_fe_analyzer_shared/src/scanner/token.dart';
import 'package:front_end/src/fasta/fasta_codes.dart' as codes;
// THIS FILE IS AUTO GENERATED BY 'test/parser_test_parser_creator.dart'
// Run this command to update it:
// 'dart pkg/front_end/test/parser_test_parser_creator.dart'
class TestParser extends Parser {
int indent = 0;
StringBuffer sb = new StringBuffer();
final bool trace;
TestParser(Listener listener, this.trace) : super(listener);
String createTrace() {
List<String> traceLines = StackTrace.current.toString().split("\n");
for (int i = 0; i < traceLines.length; i++) {
// Find first one that's not any of the denylisted ones.
String line = traceLines[i];
if (line.contains("parser_test_listener.dart:") ||
line.contains("parser_suite.dart:") ||
line.contains("parser_test_parser.dart:") ||
line == "<asynchronous suspension>") continue;
return line.substring(line.indexOf("(") + 1, line.lastIndexOf(")"));
}
return "N/A";
}
void doPrint(String s) {
String traceString = "";
if (trace) traceString = " (${createTrace()})";
sb.writeln((" " * indent) + s + traceString);
}
""");
ParserCreatorListener listener = new ParserCreatorListener(out);
ClassMemberParser parser = new ClassMemberParser(listener);
parser.parseUnit(firstToken);
out.writeln("}");
return new DartFormatter().format("$out");
}
class ParserCreatorListener extends Listener {
final StringSink out;
bool insideParserClass = false;
String currentMethodName;
List<String> parameters = <String>[];
List<String> parametersNamed = <String>[];
ParserCreatorListener(this.out);
void beginClassDeclaration(Token begin, Token abstractToken, Token name) {
if (name.lexeme == "Parser") insideParserClass = true;
}
void endClassDeclaration(Token beginToken, Token endToken) {
insideParserClass = false;
}
void beginMethod(Token externalToken, Token staticToken, Token covariantToken,
Token varFinalOrConst, Token getOrSet, Token name) {
currentMethodName = name.lexeme;
}
void endClassConstructor(Token getOrSet, Token beginToken, Token beginParam,
Token beginInitializers, Token endToken) {
parameters.clear();
parametersNamed.clear();
currentMethodName = null;
}
void endClassMethod(Token getOrSet, Token beginToken, Token beginParam,
Token beginInitializers, Token endToken) {
if (insideParserClass && !currentMethodName.startsWith("_")) {
Token token = beginToken;
Token latestToken;
out.write(" ");
while (true) {
if (troubleParameterTokens.containsKey(token)) {
if (latestToken != null && latestToken.charEnd < token.charOffset) {
out.write(" ");
}
out.write("dynamic");
token = troubleParameterTokens[token];
}
if (latestToken != null && latestToken.charEnd < token.charOffset) {
out.write(" ");
}
if (token is SimpleToken && token.type == TokenType.FUNCTION) {
// Don't write out the '=>'.
out.write("{");
break;
}
out.write(token.lexeme);
if (token is BeginToken &&
token.type == TokenType.OPEN_CURLY_BRACKET &&
(beginParam == null ||
beginParam.endGroup == endToken ||
token.charOffset > beginParam.endGroup.charOffset)) {
break;
}
if (token == endToken) {
throw token.runtimeType;
}
latestToken = token;
token = token.next;
}
out.write("\n ");
out.write("doPrint('$currentMethodName(");
String separator = "";
for (int i = 0; i < parameters.length; i++) {
out.write(separator);
out.write(r"' '$");
out.write(parameters[i]);
separator = ", ";
}
for (int i = 0; i < parametersNamed.length; i++) {
out.write(separator);
out.write("' '");
out.write(parametersNamed[i]);
out.write(r": $");
out.write(parametersNamed[i]);
separator = ", ";
}
out.write(")');\n ");
out.write("indent++;\n ");
out.write("var result = super.$currentMethodName");
if (getOrSet != null && getOrSet.lexeme == "get") {
// no parens
out.write(";\n ");
} else {
out.write("(");
String separator = "";
for (int i = 0; i < parameters.length; i++) {
out.write(separator);
out.write(parameters[i]);
separator = ", ";
}
for (int i = 0; i < parametersNamed.length; i++) {
out.write(separator);
out.write(parametersNamed[i]);
out.write(": ");
out.write(parametersNamed[i]);
separator = ", ";
}
out.write(");\n ");
}
out.write("indent--;\n ");
out.write("return result;\n ");
out.write("}");
out.write("\n\n");
}
parameters.clear();
parametersNamed.clear();
currentMethodName = null;
}
int formalParametersNestLevel = 0;
void beginFormalParameters(Token token, MemberKind kind) {
formalParametersNestLevel++;
}
void endFormalParameters(
int count, Token beginToken, Token endToken, MemberKind kind) {
formalParametersNestLevel--;
}
Token currentFormalParameterToken;
void beginFormalParameter(Token token, MemberKind kind, Token requiredToken,
Token covariantToken, Token varFinalOrConst) {
if (formalParametersNestLevel == 1) {
currentFormalParameterToken = token;
}
}
Map<Token, Token> troubleParameterTokens = {};
void handleIdentifier(Token token, IdentifierContext context) {
if (formalParametersNestLevel > 0 && token.lexeme.startsWith("_")) {
troubleParameterTokens[currentFormalParameterToken] = null;
}
}
void endFormalParameter(
Token thisKeyword,
Token periodAfterThis,
Token nameToken,
Token initializerStart,
Token initializerEnd,
FormalParameterKind kind,
MemberKind memberKind) {
if (formalParametersNestLevel != 1) {
return;
}
if (troubleParameterTokens.containsKey(currentFormalParameterToken)) {
troubleParameterTokens[currentFormalParameterToken] = nameToken;
}
currentFormalParameterToken = null;
if (kind == FormalParameterKind.optionalNamed) {
parametersNamed.add(nameToken.lexeme);
} else {
parameters.add(nameToken.lexeme);
}
}
}