tests/compiler/dart2js/helpers/compiler_helper.dart - sdk - Git at Google

 // Copyright (c) 2012, 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.

 library compiler_helper;

 import 'dart:async';
 import 'package:compiler/compiler_new.dart';
 import 'package:compiler/src/common_elements.dart';
 import 'package:compiler/src/elements/entities.dart';
 import 'package:compiler/src/js_backend/js_backend.dart' as js;
 import 'package:compiler/src/commandline_options.dart';
 import 'package:compiler/src/world.dart';
 import 'package:compiler/src/compiler.dart' show Compiler;
 import 'package:expect/expect.dart';
 import 'package:front_end/src/fasta/util/link.dart' show Link;
 import 'memory_compiler.dart';
 import 'output_collector.dart';

 export 'package:compiler/src/diagnostics/messages.dart';
 export 'package:compiler/src/diagnostics/source_span.dart';
 export 'package:compiler/src/diagnostics/spannable.dart';
 export 'package:compiler/src/util/util.dart';
 export 'output_collector.dart';

 /// Compile [code] and returns either the code for [methodName] or, if
 /// [returnAll] is true, the code for the entire program.
 ///
 /// If [check] is provided, it is executed on the code for [entry] before
 /// returning.
 Future<String> compile(String code,
     {String entry: 'main',
     String methodName,
     bool enableTypeAssertions: false,
     bool minify: false,
     bool disableInlining: true,
     bool trustJSInteropTypeAnnotations: false,
     bool disableTypeInference: true,
     bool omitImplicitChecks: true,
     void check(String generatedEntry),
     bool returnAll: false}) async {
   OutputCollector outputCollector = returnAll ? new OutputCollector() : null;
   List<String> options = <String>[];
   if (disableTypeInference) {
     options.add(Flags.disableTypeInference);
   }
   if (enableTypeAssertions) {
     options.add(Flags.enableCheckedMode);
   }
   if (omitImplicitChecks) {
     options.add(Flags.omitImplicitChecks);
   }
   if (minify) {
     options.add(Flags.minify);
   }
   if (trustJSInteropTypeAnnotations) {
     options.add(Flags.trustJSInteropTypeAnnotations);
   }
   if (disableInlining) {
     options.add(Flags.disableInlining);
   }

   // Pretend this is a dart2js_native test to allow use of 'native' keyword
   // and import of private libraries.
   String commonTestPath = 'sdk/tests/compiler';
   Uri entryPoint = Uri.parse('memory:$commonTestPath/dart2js_native/main.dart');

   Map<String, String> source;
   methodName ??= entry;
   if (entry != 'main') {
     source = {entryPoint.path: "$code\n\nmain() => $entry;"};
   } else {
     source = {entryPoint.path: code};
   }

   CompilationResult result = await runCompiler(
       entryPoint: entryPoint,
       memorySourceFiles: source,
       options: options,
       outputProvider: outputCollector);
   Expect.isTrue(result.isSuccess);
   Compiler compiler = result.compiler;
   JClosedWorld closedWorld = compiler.backendClosedWorldForTesting;
   ElementEnvironment elementEnvironment = closedWorld.elementEnvironment;
   LibraryEntity mainLibrary = elementEnvironment.mainLibrary;
   FunctionEntity element =
       elementEnvironment.lookupLibraryMember(mainLibrary, methodName);
   js.JavaScriptBackend backend = compiler.backend;
   String generated = backend.getGeneratedCode(element);
   if (check != null) {
     check(generated);
   }
   return returnAll ? outputCollector.getOutput('', OutputType.js) : generated;
 }

 Future<String> compileAll(String code,
     {bool disableInlining: true,
     bool minify: false,
     int expectedErrors,
     int expectedWarnings}) async {
   OutputCollector outputCollector = new OutputCollector();
   DiagnosticCollector diagnosticCollector = new DiagnosticCollector();
   List<String> options = <String>[];
   if (disableInlining) {
     options.add(Flags.disableInlining);
   }
   if (minify) {
     options.add(Flags.minify);
   }

   // Pretend this is a dart2js_native test to allow use of 'native' keyword
   // and import of private libraries.
   String commonTestPath = 'sdk/tests/compiler';
   Uri entryPoint = Uri.parse('memory:$commonTestPath/dart2js_native/main.dart');

   CompilationResult result = await runCompiler(
       entryPoint: entryPoint,
       memorySourceFiles: {entryPoint.path: code},
       options: options,
       outputProvider: outputCollector,
       diagnosticHandler: diagnosticCollector);
   Expect.isTrue(
       result.isSuccess,
       'Unexpected compilation error(s): '
       '${diagnosticCollector.errors}');
   return outputCollector.getOutput('', OutputType.js);
 }

 String anyIdentifier = "[a-zA-Z][a-zA-Z0-9]*";

 String getIntTypeCheck(String variable) {
   return "\\($variable ?!== ?\\($variable ?\\| ?0\\)|"
       "\\($variable ?>>> ?0 ?!== ?$variable";
 }

 String getNumberTypeCheck(String variable) {
   return """\\(typeof $variable ?!== ?"number"\\)""";
 }

 void checkNumberOfMatches(Iterator it, int nb) {
   bool hasNext = it.moveNext();
   for (int i = 0; i < nb; i++) {
     Expect.isTrue(hasNext, "Found less than $nb matches");
     hasNext = it.moveNext();
   }
   Expect.isFalse(hasNext, "Found more than $nb matches");
 }

 Future compileAndMatch(String code, String entry, RegExp regexp) {
   return compile(code, entry: entry, check: (String generated) {
     Expect.isTrue(regexp.hasMatch(generated),
         '"$generated" does not match /$regexp/ from source:\n$code');
   });
 }

 Future compileAndDoNotMatch(String code, String entry, RegExp regexp) {
   return compile(code, entry: entry, check: (String generated) {
     Expect.isFalse(regexp.hasMatch(generated),
         '"$generated" has a match in /$regexp/ from source:\n$code');
   });
 }

 int length(Link link) => link.isEmpty ? 0 : length(link.tail) + 1;

 // Does a compile and then a match where every 'x' is replaced by something
 // that matches any variable, and every space is optional.
 Future compileAndMatchFuzzy(String code, String entry, String regexp) {
   return compileAndMatchFuzzyHelper(code, entry, regexp, shouldMatch: true);
 }

 Future compileAndDoNotMatchFuzzy(String code, String entry, String regexp) {
   return compileAndMatchFuzzyHelper(code, entry, regexp, shouldMatch: false);
 }

 Future compileAndMatchFuzzyHelper(String code, String entry, String regexp,
     {bool shouldMatch}) {
   return compile(code, entry: entry, check: (String generated) {
     String originalRegexp = regexp;
     final xRe = new RegExp('\\bx\\b');
     regexp = regexp.replaceAll(xRe, '(?:$anyIdentifier)');
     final spaceRe = new RegExp('\\s+');
     regexp = regexp.replaceAll(spaceRe, '(?:\\s*)');
     if (shouldMatch) {
       Expect.isTrue(
           new RegExp(regexp).hasMatch(generated),
           "Pattern '$originalRegexp' not found in\n$generated\n"
           "from source\n$code");
     } else {
       Expect.isFalse(new RegExp(regexp).hasMatch(generated),
           "Pattern '$originalRegexp' found in\n$generated\nfrom source\n$code");
     }
   });
 }

 /// Returns a 'check' function that uses comments in [test] to drive checking.
 ///
 /// The comments contains one or more 'present:' or 'absent:' tags, each
 /// followed by a quoted string. For example, the returned checker for the
 /// following text will ensure that the argument contains the three characters
 /// 'foo' and does not contain the two characters '""':
 ///
 ///    // present: "foo"
 ///    // absent:  '""'
 checkerForAbsentPresent(String test) {
   var matches = _directivePattern.allMatches(test).toList();
   checker(String generated) {
     if (matches.isEmpty) {
       Expect.fail("No 'absent:' or 'present:' directives in '$test'");
     }
     for (Match match in matches) {
       String directive = match.group(1);
       String pattern = match.groups([2, 3]).where((s) => s != null).single;
       if (directive == 'present') {
         Expect.isTrue(generated.contains(pattern),
             "Cannot find '$pattern' in:\n$generated");
       } else {
         assert(directive == 'absent');
         Expect.isFalse(generated.contains(pattern),
             "Must not find '$pattern' in:\n$generated");
       }
     }
   }

   return checker;
 }

 RegExp _directivePattern = new RegExp(
     //      \1                     \2        \3
     r'''// *(present|absent): *(?:"([^"]*)"|'([^'']*)')''', multiLine: true);
	// Copyright (c) 2012, 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.

	library compiler_helper;

	import 'dart:async';
	import 'package:compiler/compiler_new.dart';
	import 'package:compiler/src/common_elements.dart';
	import 'package:compiler/src/elements/entities.dart';
	import 'package:compiler/src/js_backend/js_backend.dart' as js;
	import 'package:compiler/src/commandline_options.dart';
	import 'package:compiler/src/world.dart';
	import 'package:compiler/src/compiler.dart' show Compiler;
	import 'package:expect/expect.dart';
	import 'package:front_end/src/fasta/util/link.dart' show Link;
	import 'memory_compiler.dart';
	import 'output_collector.dart';

	export 'package:compiler/src/diagnostics/messages.dart';
	export 'package:compiler/src/diagnostics/source_span.dart';
	export 'package:compiler/src/diagnostics/spannable.dart';
	export 'package:compiler/src/util/util.dart';
	export 'output_collector.dart';

	/// Compile [code] and returns either the code for [methodName] or, if
	/// [returnAll] is true, the code for the entire program.
	///
	/// If [check] is provided, it is executed on the code for [entry] before
	/// returning.
	Future<String> compile(String code,
	{String entry: 'main',
	String methodName,
	bool enableTypeAssertions: false,
	bool minify: false,
	bool disableInlining: true,
	bool trustJSInteropTypeAnnotations: false,
	bool disableTypeInference: true,
	bool omitImplicitChecks: true,
	void check(String generatedEntry),
	bool returnAll: false}) async {
	OutputCollector outputCollector = returnAll ? new OutputCollector() : null;
	List<String> options = <String>[];
	if (disableTypeInference) {
	options.add(Flags.disableTypeInference);
	}
	if (enableTypeAssertions) {
	options.add(Flags.enableCheckedMode);
	}
	if (omitImplicitChecks) {
	options.add(Flags.omitImplicitChecks);
	}
	if (minify) {
	options.add(Flags.minify);
	}
	if (trustJSInteropTypeAnnotations) {
	options.add(Flags.trustJSInteropTypeAnnotations);
	}
	if (disableInlining) {
	options.add(Flags.disableInlining);
	}

	// Pretend this is a dart2js_native test to allow use of 'native' keyword
	// and import of private libraries.
	String commonTestPath = 'sdk/tests/compiler';
	Uri entryPoint = Uri.parse('memory:$commonTestPath/dart2js_native/main.dart');

	Map<String, String> source;
	methodName ??= entry;
	if (entry != 'main') {
	source = {entryPoint.path: "$code\n\nmain() => $entry;"};
	} else {
	source = {entryPoint.path: code};
	}

	CompilationResult result = await runCompiler(
	entryPoint: entryPoint,
	memorySourceFiles: source,
	options: options,
	outputProvider: outputCollector);
	Expect.isTrue(result.isSuccess);
	Compiler compiler = result.compiler;
	JClosedWorld closedWorld = compiler.backendClosedWorldForTesting;
	ElementEnvironment elementEnvironment = closedWorld.elementEnvironment;
	LibraryEntity mainLibrary = elementEnvironment.mainLibrary;
	FunctionEntity element =
	elementEnvironment.lookupLibraryMember(mainLibrary, methodName);
	js.JavaScriptBackend backend = compiler.backend;
	String generated = backend.getGeneratedCode(element);
	if (check != null) {
	check(generated);
	}
	return returnAll ? outputCollector.getOutput('', OutputType.js) : generated;
	}

	Future<String> compileAll(String code,
	{bool disableInlining: true,
	bool minify: false,
	int expectedErrors,
	int expectedWarnings}) async {
	OutputCollector outputCollector = new OutputCollector();
	DiagnosticCollector diagnosticCollector = new DiagnosticCollector();
	List<String> options = <String>[];
	if (disableInlining) {
	options.add(Flags.disableInlining);
	}
	if (minify) {
	options.add(Flags.minify);
	}

	// Pretend this is a dart2js_native test to allow use of 'native' keyword
	// and import of private libraries.
	String commonTestPath = 'sdk/tests/compiler';
	Uri entryPoint = Uri.parse('memory:$commonTestPath/dart2js_native/main.dart');

	CompilationResult result = await runCompiler(
	entryPoint: entryPoint,
	memorySourceFiles: {entryPoint.path: code},
	options: options,
	outputProvider: outputCollector,
	diagnosticHandler: diagnosticCollector);
	Expect.isTrue(
	result.isSuccess,
	'Unexpected compilation error(s): '
	'${diagnosticCollector.errors}');
	return outputCollector.getOutput('', OutputType.js);
	}

	String anyIdentifier = "[a-zA-Z][a-zA-Z0-9]*";

	String getIntTypeCheck(String variable) {
	return "\\($variable ?!== ?\\($variable ?\\\| ?0\\)\|"
	"\\($variable ?>>> ?0 ?!== ?$variable";
	}

	String getNumberTypeCheck(String variable) {
	return """\\(typeof $variable ?!== ?"number"\\)""";
	}

	void checkNumberOfMatches(Iterator it, int nb) {
	bool hasNext = it.moveNext();
	for (int i = 0; i < nb; i++) {
	Expect.isTrue(hasNext, "Found less than $nb matches");
	hasNext = it.moveNext();
	}
	Expect.isFalse(hasNext, "Found more than $nb matches");
	}

	Future compileAndMatch(String code, String entry, RegExp regexp) {
	return compile(code, entry: entry, check: (String generated) {
	Expect.isTrue(regexp.hasMatch(generated),
	'"$generated" does not match /$regexp/ from source:\n$code');
	});
	}

	Future compileAndDoNotMatch(String code, String entry, RegExp regexp) {
	return compile(code, entry: entry, check: (String generated) {
	Expect.isFalse(regexp.hasMatch(generated),
	'"$generated" has a match in /$regexp/ from source:\n$code');
	});
	}

	int length(Link link) => link.isEmpty ? 0 : length(link.tail) + 1;

	// Does a compile and then a match where every 'x' is replaced by something
	// that matches any variable, and every space is optional.
	Future compileAndMatchFuzzy(String code, String entry, String regexp) {
	return compileAndMatchFuzzyHelper(code, entry, regexp, shouldMatch: true);
	}

	Future compileAndDoNotMatchFuzzy(String code, String entry, String regexp) {
	return compileAndMatchFuzzyHelper(code, entry, regexp, shouldMatch: false);
	}

	Future compileAndMatchFuzzyHelper(String code, String entry, String regexp,
	{bool shouldMatch}) {
	return compile(code, entry: entry, check: (String generated) {
	String originalRegexp = regexp;
	final xRe = new RegExp('\\bx\\b');
	regexp = regexp.replaceAll(xRe, '(?:$anyIdentifier)');
	final spaceRe = new RegExp('\\s+');
	regexp = regexp.replaceAll(spaceRe, '(?:\\s*)');
	if (shouldMatch) {
	Expect.isTrue(
	new RegExp(regexp).hasMatch(generated),
	"Pattern '$originalRegexp' not found in\n$generated\n"
	"from source\n$code");
	} else {
	Expect.isFalse(new RegExp(regexp).hasMatch(generated),
	"Pattern '$originalRegexp' found in\n$generated\nfrom source\n$code");
	}
	});
	}

	/// Returns a 'check' function that uses comments in [test] to drive checking.
	///
	/// The comments contains one or more 'present:' or 'absent:' tags, each
	/// followed by a quoted string. For example, the returned checker for the
	/// following text will ensure that the argument contains the three characters
	/// 'foo' and does not contain the two characters '""':
	///
	/// // present: "foo"
	/// // absent: '""'
	checkerForAbsentPresent(String test) {
	var matches = _directivePattern.allMatches(test).toList();
	checker(String generated) {
	if (matches.isEmpty) {
	Expect.fail("No 'absent:' or 'present:' directives in '$test'");
	}
	for (Match match in matches) {
	String directive = match.group(1);
	String pattern = match.groups([2, 3]).where((s) => s != null).single;
	if (directive == 'present') {
	Expect.isTrue(generated.contains(pattern),
	"Cannot find '$pattern' in:\n$generated");
	} else {
	assert(directive == 'absent');
	Expect.isFalse(generated.contains(pattern),
	"Must not find '$pattern' in:\n$generated");
	}
	}
	}

	return checker;
	}

	RegExp _directivePattern = new RegExp(
	// \1 \2 \3
	r'''// (present\|absent): (?:"([^"])"\|'([^''])')''', multiLine: true);