pkg/compiler/lib/compiler.dart - sdk.git - 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;

 import 'dart:async';

 import 'compiler_new.dart' as new_api;
 import 'src/old_to_new_api.dart';
 import 'src/options.dart' show CompilerOptions;

 // Unless explicitly allowed, passing [:null:] for any argument to the
 // methods of library will result in an Error being thrown.

 /// Returns a future that completes to the source corresponding to [uri].
 /// If an exception occurs, the future completes with this exception.
 ///
 /// The source can be represented either as a [:List<int>:] of UTF-8 bytes or as
 /// a [String].
 ///
 /// The following text is non-normative:
 ///
 /// It is recommended to return a UTF-8 encoded list of bytes because the
 /// scanner is more efficient in this case. In either case, the data structure
 /// is expected to hold a zero element at the last position. If this is not the
 /// case, the entire data structure is copied before scanning.
 typedef Future /* <String | List<int>> */ CompilerInputProvider(Uri uri);

 /// Deprecated, please use [CompilerInputProvider] instead.
 typedef Future<String> ReadStringFromUri(Uri uri);

 /// Returns an [EventSink] that will serve as compiler output for the given
 /// component.
 ///
 /// Components are identified by [name] and [extension]. By convention,
 /// the empty string [:"":] will represent the main script
 /// (corresponding to the script parameter of [compile]) even if the
 /// main script is a library. For libraries that are compiled
 /// separately, the library name is used.
 ///
 /// At least the following extensions can be expected:
 ///
 /// * "js" for JavaScript output.
 /// * "js.map" for source maps.
 /// * "dart" for Dart output.
 /// * "dart.map" for source maps.
 ///
 /// As more features are added to the compiler, new names and
 /// extensions may be introduced.
 typedef EventSink<String> CompilerOutputProvider(String name, String extension);

 /// Invoked by the compiler to report diagnostics. If [uri] is
 /// [:null:], so are [begin] and [end]. No other arguments may be
 /// [:null:]. If [uri] is not [:null:], neither are [begin] and
 /// [end]. [uri] indicates the compilation unit from where the
 /// diagnostic originates. [begin] and [end] are zero-based character
 /// offsets from the beginning of the compilation unit. [message] is the
 /// diagnostic message, and [kind] indicates indicates what kind of
 /// diagnostic it is.
 typedef void DiagnosticHandler(
     Uri uri, int begin, int end, String message, Diagnostic kind);

 /// Information resulting from the compilation.
 class CompilationResult {
   /// `true` if the compilation succeeded, that is, compilation didn't fail due
   /// to compile-time errors and/or internal errors.
   final bool isSuccess;

   /// The compiler object used for the compilation.
   ///
   /// Note: The type of [compiler] is implementation dependent and may vary.
   /// Use only for debugging and testing.
   final compiler;

   CompilationResult(this.compiler, {this.isSuccess: true});
 }

 /// Returns a future that completes to a non-null String when [script]
 /// has been successfully compiled.
 ///
 /// The compiler output is obtained by providing an [outputProvider].
 ///
 /// If the compilation fails, the future's value will be [:null:] and
 /// [handler] will have been invoked at least once with [:kind ==
 /// Diagnostic.ERROR:] or [:kind == Diagnostic.CRASH:].
 ///
 /// Deprecated: if no [outputProvider] is given, the future completes
 /// to the compiled script. This behavior will be removed in the future
 /// as the compiler may create multiple files to support lazy loading
 /// of libraries.
 Future<CompilationResult> compile(Uri script, Uri librariesSpecificationUri,
     CompilerInputProvider inputProvider, DiagnosticHandler handler,
     [List<String> options = const [],
     CompilerOutputProvider outputProvider,
     Map<String, String> environment = const {},
     Uri packageConfig]) {
   CompilerOptions compilerOptions = CompilerOptions.parse(options,
       librariesSpecificationUri: librariesSpecificationUri)
     ..entryPoint = script
     ..packageConfig = packageConfig
     ..environment = environment;

   new_api.CompilerInput compilerInput = new LegacyCompilerInput(inputProvider);
   new_api.CompilerDiagnostics compilerDiagnostics =
       new LegacyCompilerDiagnostics(handler);
   new_api.CompilerOutput compilerOutput =
       new LegacyCompilerOutput(outputProvider);

   return new_api
       .compile(
           compilerOptions, compilerInput, compilerDiagnostics, compilerOutput)
       .then((new_api.CompilationResult result) {
     return new CompilationResult(result.compiler, isSuccess: result.isSuccess);
   });
 }

 /// Kind of diagnostics that the compiler can report.
 class Diagnostic {
   /// An error as identified by the "Dart Programming Language
   /// Specification" [http://www.dartlang.org/docs/spec/].
   ///
   /// Note: the compiler may still produce an executable result after
   /// reporting a compilation error. The specification says:
   ///
   /// "A compile-time error must be reported by a Dart compiler before
   /// the erroneous code is executed." and "If a compile-time error
   /// occurs within the code of a running isolate A, A is immediately
   /// suspended."
   ///
   /// This means that the compiler can generate code that when executed
   /// terminates execution.
   static const Diagnostic ERROR = const Diagnostic(1, 'error');

   /// A warning as identified by the "Dart Programming Language
   /// Specification" [http://www.dartlang.org/docs/spec/].
   static const Diagnostic WARNING = const Diagnostic(2, 'warning');

   /// Any other warning that is not covered by [WARNING].
   static const Diagnostic HINT = const Diagnostic(4, 'hint');

   /// Additional information about the preceding non-info diagnostic from the
   /// compiler.
   ///
   /// For example, consider a duplicated definition. The compiler first emits a
   /// message about the duplicated definition, then emits an info message about
   /// the location of the existing definition.
   static const Diagnostic INFO = const Diagnostic(8, 'info');

   /// Informational messages that shouldn't be printed unless
   /// explicitly requested by the user of a compiler.
   static const Diagnostic VERBOSE_INFO = const Diagnostic(16, 'verbose info');

   /// An internal error in the compiler.
   static const Diagnostic CRASH = const Diagnostic(32, 'crash');

   /// An [int] representation of this kind. The ordinals are designed
   /// to be used as bitsets.
   final int ordinal;

   /// The name of this kind.
   final String name;

   /// This constructor is not private to support user-defined
   /// diagnostic kinds.
   const Diagnostic(this.ordinal, this.name);

   @override
   String toString() => name;
 }
	// 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;

	import 'dart:async';

	import 'compiler_new.dart' as new_api;
	import 'src/old_to_new_api.dart';
	import 'src/options.dart' show CompilerOptions;

	// Unless explicitly allowed, passing [:null:] for any argument to the
	// methods of library will result in an Error being thrown.

	/// Returns a future that completes to the source corresponding to [uri].
	/// If an exception occurs, the future completes with this exception.
	///
	/// The source can be represented either as a [:List<int>:] of UTF-8 bytes or as
	/// a [String].
	///
	/// The following text is non-normative:
	///
	/// It is recommended to return a UTF-8 encoded list of bytes because the
	/// scanner is more efficient in this case. In either case, the data structure
	/// is expected to hold a zero element at the last position. If this is not the
	/// case, the entire data structure is copied before scanning.
	typedef Future /* <String \| List<int>> */ CompilerInputProvider(Uri uri);

	/// Deprecated, please use [CompilerInputProvider] instead.
	typedef Future<String> ReadStringFromUri(Uri uri);

	/// Returns an [EventSink] that will serve as compiler output for the given
	/// component.
	///
	/// Components are identified by [name] and [extension]. By convention,
	/// the empty string [:"":] will represent the main script
	/// (corresponding to the script parameter of [compile]) even if the
	/// main script is a library. For libraries that are compiled
	/// separately, the library name is used.
	///
	/// At least the following extensions can be expected:
	///
	/// * "js" for JavaScript output.
	/// * "js.map" for source maps.
	/// * "dart" for Dart output.
	/// * "dart.map" for source maps.
	///
	/// As more features are added to the compiler, new names and
	/// extensions may be introduced.
	typedef EventSink<String> CompilerOutputProvider(String name, String extension);

	/// Invoked by the compiler to report diagnostics. If [uri] is
	/// [:null:], so are [begin] and [end]. No other arguments may be
	/// [:null:]. If [uri] is not [:null:], neither are [begin] and
	/// [end]. [uri] indicates the compilation unit from where the
	/// diagnostic originates. [begin] and [end] are zero-based character
	/// offsets from the beginning of the compilation unit. [message] is the
	/// diagnostic message, and [kind] indicates indicates what kind of
	/// diagnostic it is.
	typedef void DiagnosticHandler(
	Uri uri, int begin, int end, String message, Diagnostic kind);

	/// Information resulting from the compilation.
	class CompilationResult {
	/// `true` if the compilation succeeded, that is, compilation didn't fail due
	/// to compile-time errors and/or internal errors.
	final bool isSuccess;

	/// The compiler object used for the compilation.
	///
	/// Note: The type of [compiler] is implementation dependent and may vary.
	/// Use only for debugging and testing.
	final compiler;

	CompilationResult(this.compiler, {this.isSuccess: true});
	}

	/// Returns a future that completes to a non-null String when [script]
	/// has been successfully compiled.
	///
	/// The compiler output is obtained by providing an [outputProvider].
	///
	/// If the compilation fails, the future's value will be [:null:] and
	/// [handler] will have been invoked at least once with [:kind ==
	/// Diagnostic.ERROR:] or [:kind == Diagnostic.CRASH:].
	///
	/// Deprecated: if no [outputProvider] is given, the future completes
	/// to the compiled script. This behavior will be removed in the future
	/// as the compiler may create multiple files to support lazy loading
	/// of libraries.
	Future<CompilationResult> compile(Uri script, Uri librariesSpecificationUri,
	CompilerInputProvider inputProvider, DiagnosticHandler handler,
	[List<String> options = const [],
	CompilerOutputProvider outputProvider,
	Map<String, String> environment = const {},
	Uri packageConfig]) {
	CompilerOptions compilerOptions = CompilerOptions.parse(options,
	librariesSpecificationUri: librariesSpecificationUri)
	..entryPoint = script
	..packageConfig = packageConfig
	..environment = environment;

	new_api.CompilerInput compilerInput = new LegacyCompilerInput(inputProvider);
	new_api.CompilerDiagnostics compilerDiagnostics =
	new LegacyCompilerDiagnostics(handler);
	new_api.CompilerOutput compilerOutput =
	new LegacyCompilerOutput(outputProvider);

	return new_api
	.compile(
	compilerOptions, compilerInput, compilerDiagnostics, compilerOutput)
	.then((new_api.CompilationResult result) {
	return new CompilationResult(result.compiler, isSuccess: result.isSuccess);
	});
	}

	/// Kind of diagnostics that the compiler can report.
	class Diagnostic {
	/// An error as identified by the "Dart Programming Language
	/// Specification" [http://www.dartlang.org/docs/spec/].
	///
	/// Note: the compiler may still produce an executable result after
	/// reporting a compilation error. The specification says:
	///
	/// "A compile-time error must be reported by a Dart compiler before
	/// the erroneous code is executed." and "If a compile-time error
	/// occurs within the code of a running isolate A, A is immediately
	/// suspended."
	///
	/// This means that the compiler can generate code that when executed
	/// terminates execution.
	static const Diagnostic ERROR = const Diagnostic(1, 'error');

	/// A warning as identified by the "Dart Programming Language
	/// Specification" [http://www.dartlang.org/docs/spec/].
	static const Diagnostic WARNING = const Diagnostic(2, 'warning');

	/// Any other warning that is not covered by [WARNING].
	static const Diagnostic HINT = const Diagnostic(4, 'hint');

	/// Additional information about the preceding non-info diagnostic from the
	/// compiler.
	///
	/// For example, consider a duplicated definition. The compiler first emits a
	/// message about the duplicated definition, then emits an info message about
	/// the location of the existing definition.
	static const Diagnostic INFO = const Diagnostic(8, 'info');

	/// Informational messages that shouldn't be printed unless
	/// explicitly requested by the user of a compiler.
	static const Diagnostic VERBOSE_INFO = const Diagnostic(16, 'verbose info');

	/// An internal error in the compiler.
	static const Diagnostic CRASH = const Diagnostic(32, 'crash');

	/// An [int] representation of this kind. The ordinals are designed
	/// to be used as bitsets.
	final int ordinal;

	/// The name of this kind.
	final String name;

	/// This constructor is not private to support user-defined
	/// diagnostic kinds.
	const Diagnostic(this.ordinal, this.name);

	@override
	String toString() => name;
	}