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// Copyright (c) 2014, 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.
//
// This file has been automatically generated. Please do not edit it manually.
// To regenerate the file, use the script
// "pkg/analysis_server/tool/spec/generate_files".
/**
* Convenience methods for running integration tests
*/
library test.integration.methods;
import 'dart:async';
import 'package:analysis_server/plugin/protocol/protocol.dart';
import 'package:analysis_server/src/protocol/protocol_internal.dart';
import 'package:unittest/unittest.dart';
import 'integration_tests.dart';
import 'protocol_matchers.dart';
/**
* Convenience methods for running integration tests
*/
abstract class IntegrationTestMixin {
Server get server;
/**
* Return the version number of the analysis server.
*
* Returns
*
* version ( String )
*
* The version number of the analysis server.
*/
Future<ServerGetVersionResult> sendServerGetVersion() {
return server.send("server.getVersion", null)
.then((result) {
ResponseDecoder decoder = new ResponseDecoder(null);
return new ServerGetVersionResult.fromJson(decoder, 'result', result);
});
}
/**
* Cleanly shutdown the analysis server. Requests that are received after
* this request will not be processed. Requests that were received before
* this request, but for which a response has not yet been sent, will not be
* responded to. No further responses or notifications will be sent after the
* response to this request has been sent.
*/
Future sendServerShutdown() {
return server.send("server.shutdown", null)
.then((result) {
expect(result, isNull);
return null;
});
}
/**
* Subscribe for services. All previous subscriptions are replaced by the
* given set of services.
*
* It is an error if any of the elements in the list are not valid services.
* If there is an error, then the current subscriptions will remain
* unchanged.
*
* Parameters
*
* subscriptions ( List<ServerService> )
*
* A list of the services being subscribed to.
*/
Future sendServerSetSubscriptions(List<ServerService> subscriptions) {
var params = new ServerSetSubscriptionsParams(subscriptions).toJson();
return server.send("server.setSubscriptions", params)
.then((result) {
expect(result, isNull);
return null;
});
}
/**
* Reports that the server is running. This notification is issued once after
* the server has started running but before any requests are processed to
* let the client know that it started correctly.
*
* It is not possible to subscribe to or unsubscribe from this notification.
*
* Parameters
*
* version ( String )
*
* The version number of the analysis server.
*/
Stream<ServerConnectedParams> onServerConnected;
/**
* Stream controller for [onServerConnected].
*/
StreamController<ServerConnectedParams> _onServerConnected;
/**
* Reports that an unexpected error has occurred while executing the server.
* This notification is not used for problems with specific requests (which
* are returned as part of the response) but is used for exceptions that
* occur while performing other tasks, such as analysis or preparing
* notifications.
*
* It is not possible to subscribe to or unsubscribe from this notification.
*
* Parameters
*
* isFatal ( bool )
*
* True if the error is a fatal error, meaning that the server will
* shutdown automatically after sending this notification.
*
* message ( String )
*
* The error message indicating what kind of error was encountered.
*
* stackTrace ( String )
*
* The stack trace associated with the generation of the error, used for
* debugging the server.
*/
Stream<ServerErrorParams> onServerError;
/**
* Stream controller for [onServerError].
*/
StreamController<ServerErrorParams> _onServerError;
/**
* Reports the current status of the server. Parameters are omitted if there
* has been no change in the status represented by that parameter.
*
* This notification is not subscribed to by default. Clients can subscribe
* by including the value "STATUS" in the list of services passed in a
* server.setSubscriptions request.
*
* Parameters
*
* analysis ( optional AnalysisStatus )
*
* The current status of analysis, including whether analysis is being
* performed and if so what is being analyzed.
*
* pub ( optional PubStatus )
*
* The current status of pub execution, indicating whether we are currently
* running pub.
*/
Stream<ServerStatusParams> onServerStatus;
/**
* Stream controller for [onServerStatus].
*/
StreamController<ServerStatusParams> _onServerStatus;
/**
* Return the errors associated with the given file. If the errors for the
* given file have not yet been computed, or the most recently computed
* errors for the given file are out of date, then the response for this
* request will be delayed until they have been computed. If some or all of
* the errors for the file cannot be computed, then the subset of the errors
* that can be computed will be returned and the response will contain an
* error to indicate why the errors could not be computed. If the content of
* the file changes after this request was received but before a response
* could be sent, then an error of type CONTENT_MODIFIED will be generated.
*
* This request is intended to be used by clients that cannot asynchronously
* apply updated error information. Clients that can apply error information
* as it becomes available should use the information provided by the
* 'analysis.errors' notification.
*
* If a request is made for a file which does not exist, or which is not
* currently subject to analysis (e.g. because it is not associated with any
* analysis root specified to analysis.setAnalysisRoots), an error of type
* GET_ERRORS_INVALID_FILE will be generated.
*
* Parameters
*
* file ( FilePath )
*
* The file for which errors are being requested.
*
* Returns
*
* errors ( List<AnalysisError> )
*
* The errors associated with the file.
*/
Future<AnalysisGetErrorsResult> sendAnalysisGetErrors(String file) {
var params = new AnalysisGetErrorsParams(file).toJson();
return server.send("analysis.getErrors", params)
.then((result) {
ResponseDecoder decoder = new ResponseDecoder(null);
return new AnalysisGetErrorsResult.fromJson(decoder, 'result', result);
});
}
/**
* Return the hover information associate with the given location. If some or
* all of the hover information is not available at the time this request is
* processed the information will be omitted from the response.
*
* Parameters
*
* file ( FilePath )
*
* The file in which hover information is being requested.
*
* offset ( int )
*
* The offset for which hover information is being requested.
*
* Returns
*
* hovers ( List<HoverInformation> )
*
* The hover information associated with the location. The list will be
* empty if no information could be determined for the location. The list
* can contain multiple items if the file is being analyzed in multiple
* contexts in conflicting ways (such as a part that is included in
* multiple libraries).
*/
Future<AnalysisGetHoverResult> sendAnalysisGetHover(String file, int offset) {
var params = new AnalysisGetHoverParams(file, offset).toJson();
return server.send("analysis.getHover", params)
.then((result) {
ResponseDecoder decoder = new ResponseDecoder(null);
return new AnalysisGetHoverResult.fromJson(decoder, 'result', result);
});
}
/**
* Return the transitive closure of reachable sources for a given file.
*
* If a request is made for a file which does not exist, or which is not
* currently subject to analysis (e.g. because it is not associated with any
* analysis root specified to analysis.setAnalysisRoots), an error of type
* GET_REACHABLE_SOURCES_INVALID_FILE will be generated.
*
* Parameters
*
* file ( FilePath )
*
* The file for which reachable source information is being requested.
*
* Returns
*
* sources ( Map<String, List<String>> )
*
* A mapping from source URIs to directly reachable source URIs. For
* example, a file "foo.dart" that imports "bar.dart" would have the
* corresponding mapping { "file:///foo.dart" : ["file:///bar.dart"] }. If
* "bar.dart" has further imports (or exports) there will be a mapping from
* the URI "file:///bar.dart" to them. To check if a specific URI is
* reachable from a given file, clients can check for its presence in the
* resulting key set.
*/
Future<AnalysisGetReachableSourcesResult> sendAnalysisGetReachableSources(String file) {
var params = new AnalysisGetReachableSourcesParams(file).toJson();
return server.send("analysis.getReachableSources", params)
.then((result) {
ResponseDecoder decoder = new ResponseDecoder(null);
return new AnalysisGetReachableSourcesResult.fromJson(decoder, 'result', result);
});
}
/**
* Return library dependency information for use in client-side indexing and
* package URI resolution.
*
* Clients that are only using the libraries field should consider using the
* analyzedFiles notification instead.
*
* Returns
*
* libraries ( List<FilePath> )
*
* A list of the paths of library elements referenced by files in existing
* analysis roots.
*
* packageMap ( Map<String, Map<String, List<FilePath>>> )
*
* A mapping from context source roots to package maps which map package
* names to source directories for use in client-side package URI
* resolution.
*/
Future<AnalysisGetLibraryDependenciesResult> sendAnalysisGetLibraryDependencies() {
return server.send("analysis.getLibraryDependencies", null)
.then((result) {
ResponseDecoder decoder = new ResponseDecoder(null);
return new AnalysisGetLibraryDependenciesResult.fromJson(decoder, 'result', result);
});
}
/**
* Return the navigation information associated with the given region of the
* given file. If the navigation information for the given file has not yet
* been computed, or the most recently computed navigation information for
* the given file is out of date, then the response for this request will be
* delayed until it has been computed. If the content of the file changes
* after this request was received but before a response could be sent, then
* an error of type CONTENT_MODIFIED will be generated.
*
* If a navigation region overlaps (but extends either before or after) the
* given region of the file it will be included in the result. This means
* that it is theoretically possible to get the same navigation region in
* response to multiple requests. Clients can avoid this by always choosing a
* region that starts at the beginning of a line and ends at the end of a
* (possibly different) line in the file.
*
* If a request is made for a file which does not exist, or which is not
* currently subject to analysis (e.g. because it is not associated with any
* analysis root specified to analysis.setAnalysisRoots), an error of type
* GET_NAVIGATION_INVALID_FILE will be generated.
*
* Parameters
*
* file ( FilePath )
*
* The file in which navigation information is being requested.
*
* offset ( int )
*
* The offset of the region for which navigation information is being
* requested.
*
* length ( int )
*
* The length of the region for which navigation information is being
* requested.
*
* Returns
*
* files ( List<FilePath> )
*
* A list of the paths of files that are referenced by the navigation
* targets.
*
* targets ( List<NavigationTarget> )
*
* A list of the navigation targets that are referenced by the navigation
* regions.
*
* regions ( List<NavigationRegion> )
*
* A list of the navigation regions within the requested region of the
* file.
*/
Future<AnalysisGetNavigationResult> sendAnalysisGetNavigation(String file, int offset, int length) {
var params = new AnalysisGetNavigationParams(file, offset, length).toJson();
return server.send("analysis.getNavigation", params)
.then((result) {
ResponseDecoder decoder = new ResponseDecoder(null);
return new AnalysisGetNavigationResult.fromJson(decoder, 'result', result);
});
}
/**
* Force the re-analysis of everything contained in the specified analysis
* roots. This will cause all previously computed analysis results to be
* discarded and recomputed, and will cause all subscribed notifications to
* be re-sent.
*
* If no analysis roots are provided, then all current analysis roots will be
* re-analyzed. If an empty list of analysis roots is provided, then nothing
* will be re-analyzed. If the list contains one or more paths that are not
* currently analysis roots, then an error of type INVALID_ANALYSIS_ROOT will
* be generated.
*
* Parameters
*
* roots ( optional List<FilePath> )
*
* A list of the analysis roots that are to be re-analyzed.
*/
Future sendAnalysisReanalyze({List<String> roots}) {
var params = new AnalysisReanalyzeParams(roots: roots).toJson();
return server.send("analysis.reanalyze", params)
.then((result) {
expect(result, isNull);
return null;
});
}
/**
* Sets the root paths used to determine which files to analyze. The set of
* files to be analyzed are all of the files in one of the root paths that
* are not either explicitly or implicitly excluded. A file is explicitly
* excluded if it is in one of the excluded paths. A file is implicitly
* excluded if it is in a subdirectory of one of the root paths where the
* name of the subdirectory starts with a period (that is, a hidden
* directory).
*
* Note that this request determines the set of requested analysis roots. The
* actual set of analysis roots at any given time is the intersection of this
* set with the set of files and directories actually present on the
* filesystem. When the filesystem changes, the actual set of analysis roots
* is automatically updated, but the set of requested analysis roots is
* unchanged. This means that if the client sets an analysis root before the
* root becomes visible to server in the filesystem, there is no error; once
* the server sees the root in the filesystem it will start analyzing it.
* Similarly, server will stop analyzing files that are removed from the file
* system but they will remain in the set of requested roots.
*
* If an included path represents a file, then server will look in the
* directory containing the file for a pubspec.yaml file. If none is found,
* then the parents of the directory will be searched until such a file is
* found or the root of the file system is reached. If such a file is found,
* it will be used to resolve package: URI’s within the file.
*
* Parameters
*
* included ( List<FilePath> )
*
* A list of the files and directories that should be analyzed.
*
* excluded ( List<FilePath> )
*
* A list of the files and directories within the included directories that
* should not be analyzed.
*
* packageRoots ( optional Map<FilePath, FilePath> )
*
* A mapping from source directories to target directories that should
* override the normal package: URI resolution mechanism. The analyzer will
* behave as though each source directory in the map contains a special
* pubspec.yaml file which resolves any package: URI to the corresponding
* path within the target directory. The effect is the same as specifying
* the target directory as a "--package_root" parameter to the Dart VM when
* executing any Dart file inside the source directory.
*
* Files in any directories that are not overridden by this mapping have
* their package: URI's resolved using the normal pubspec.yaml mechanism.
* If this field is absent, or the empty map is specified, that indicates
* that the normal pubspec.yaml mechanism should always be used.
*/
Future sendAnalysisSetAnalysisRoots(List<String> included, List<String> excluded, {Map<String, String> packageRoots}) {
var params = new AnalysisSetAnalysisRootsParams(included, excluded, packageRoots: packageRoots).toJson();
return server.send("analysis.setAnalysisRoots", params)
.then((result) {
expect(result, isNull);
return null;
});
}
/**
* Subscribe for general services (that is, services that are not specific to
* individual files). All previous subscriptions are replaced by the given
* set of services.
*
* It is an error if any of the elements in the list are not valid services.
* If there is an error, then the current subscriptions will remain
* unchanged.
*
* Parameters
*
* subscriptions ( List<GeneralAnalysisService> )
*
* A list of the services being subscribed to.
*/
Future sendAnalysisSetGeneralSubscriptions(List<GeneralAnalysisService> subscriptions) {
var params = new AnalysisSetGeneralSubscriptionsParams(subscriptions).toJson();
return server.send("analysis.setGeneralSubscriptions", params)
.then((result) {
expect(result, isNull);
return null;
});
}
/**
* Set the priority files to the files in the given list. A priority file is
* a file that is given priority when scheduling which analysis work to do
* first. The list typically contains those files that are visible to the
* user and those for which analysis results will have the biggest impact on
* the user experience. The order of the files within the list is
* significant: the first file will be given higher priority than the second,
* the second higher priority than the third, and so on.
*
* Note that this request determines the set of requested priority files. The
* actual set of priority files is the intersection of the requested set of
* priority files with the set of files currently subject to analysis. (See
* analysis.setSubscriptions for a description of files that are subject to
* analysis.)
*
* If a requested priority file is a directory it is ignored, but remains in
* the set of requested priority files so that if it later becomes a file it
* can be included in the set of actual priority files.
*
* Parameters
*
* files ( List<FilePath> )
*
* The files that are to be a priority for analysis.
*/
Future sendAnalysisSetPriorityFiles(List<String> files) {
var params = new AnalysisSetPriorityFilesParams(files).toJson();
return server.send("analysis.setPriorityFiles", params)
.then((result) {
expect(result, isNull);
return null;
});
}
/**
* Subscribe for services that are specific to individual files. All previous
* subscriptions are replaced by the current set of subscriptions. If a given
* service is not included as a key in the map then no files will be
* subscribed to the service, exactly as if the service had been included in
* the map with an explicit empty list of files.
*
* Note that this request determines the set of requested subscriptions. The
* actual set of subscriptions at any given time is the intersection of this
* set with the set of files currently subject to analysis. The files
* currently subject to analysis are the set of files contained within an
* actual analysis root but not excluded, plus all of the files transitively
* reachable from those files via import, export and part directives. (See
* analysis.setAnalysisRoots for an explanation of how the actual analysis
* roots are determined.) When the actual analysis roots change, the actual
* set of subscriptions is automatically updated, but the set of requested
* subscriptions is unchanged.
*
* If a requested subscription is a directory it is ignored, but remains in
* the set of requested subscriptions so that if it later becomes a file it
* can be included in the set of actual subscriptions.
*
* It is an error if any of the keys in the map are not valid services. If
* there is an error, then the existing subscriptions will remain unchanged.
*
* Parameters
*
* subscriptions ( Map<AnalysisService, List<FilePath>> )
*
* A table mapping services to a list of the files being subscribed to the
* service.
*/
Future sendAnalysisSetSubscriptions(Map<AnalysisService, List<String>> subscriptions) {
var params = new AnalysisSetSubscriptionsParams(subscriptions).toJson();
return server.send("analysis.setSubscriptions", params)
.then((result) {
expect(result, isNull);
return null;
});
}
/**
* Update the content of one or more files. Files that were previously
* updated but not included in this update remain unchanged. This effectively
* represents an overlay of the filesystem. The files whose content is
* overridden are therefore seen by server as being files with the given
* content, even if the files do not exist on the filesystem or if the file
* path represents the path to a directory on the filesystem.
*
* Parameters
*
* files ( Map<FilePath, AddContentOverlay | ChangeContentOverlay |
* RemoveContentOverlay> )
*
* A table mapping the files whose content has changed to a description of
* the content change.
*
* Returns
*/
Future<AnalysisUpdateContentResult> sendAnalysisUpdateContent(Map<String, dynamic> files) {
var params = new AnalysisUpdateContentParams(files).toJson();
return server.send("analysis.updateContent", params)
.then((result) {
ResponseDecoder decoder = new ResponseDecoder(null);
return new AnalysisUpdateContentResult.fromJson(decoder, 'result', result);
});
}
/**
* Update the options controlling analysis based on the given set of options.
* Any options that are not included in the analysis options will not be
* changed. If there are options in the analysis options that are not valid,
* they will be silently ignored.
*
* Parameters
*
* options ( AnalysisOptions )
*
* The options that are to be used to control analysis.
*/
Future sendAnalysisUpdateOptions(AnalysisOptions options) {
var params = new AnalysisUpdateOptionsParams(options).toJson();
return server.send("analysis.updateOptions", params)
.then((result) {
expect(result, isNull);
return null;
});
}
/**
* Reports the paths of the files that are being analyzed.
*
* This notification is not subscribed to by default. Clients can subscribe
* by including the value "ANALYZED_FILES" in the list of services passed in
* an analysis.setGeneralSubscriptions request.
*
* Parameters
*
* directories ( List<FilePath> )
*
* A list of the paths of the files that are being analyzed.
*/
Stream<AnalysisAnalyzedFilesParams> onAnalysisAnalyzedFiles;
/**
* Stream controller for [onAnalysisAnalyzedFiles].
*/
StreamController<AnalysisAnalyzedFilesParams> _onAnalysisAnalyzedFiles;
/**
* Reports the errors associated with a given file. The set of errors
* included in the notification is always a complete list that supersedes any
* previously reported errors.
*
* It is only possible to unsubscribe from this notification by using the
* command-line flag --no-error-notification.
*
* Parameters
*
* file ( FilePath )
*
* The file containing the errors.
*
* errors ( List<AnalysisError> )
*
* The errors contained in the file.
*/
Stream<AnalysisErrorsParams> onAnalysisErrors;
/**
* Stream controller for [onAnalysisErrors].
*/
StreamController<AnalysisErrorsParams> _onAnalysisErrors;
/**
* Reports that any analysis results that were previously associated with the
* given files should be considered to be invalid because those files are no
* longer being analyzed, either because the analysis root that contained it
* is no longer being analyzed or because the file no longer exists.
*
* If a file is included in this notification and at some later time a
* notification with results for the file is received, clients should assume
* that the file is once again being analyzed and the information should be
* processed.
*
* It is not possible to subscribe to or unsubscribe from this notification.
*
* Parameters
*
* files ( List<FilePath> )
*
* The files that are no longer being analyzed.
*/
Stream<AnalysisFlushResultsParams> onAnalysisFlushResults;
/**
* Stream controller for [onAnalysisFlushResults].
*/
StreamController<AnalysisFlushResultsParams> _onAnalysisFlushResults;
/**
* Reports the folding regions associated with a given file. Folding regions
* can be nested, but will not be overlapping. Nesting occurs when a foldable
* element, such as a method, is nested inside another foldable element such
* as a class.
*
* This notification is not subscribed to by default. Clients can subscribe
* by including the value "FOLDING" in the list of services passed in an
* analysis.setSubscriptions request.
*
* Parameters
*
* file ( FilePath )
*
* The file containing the folding regions.
*
* regions ( List<FoldingRegion> )
*
* The folding regions contained in the file.
*/
Stream<AnalysisFoldingParams> onAnalysisFolding;
/**
* Stream controller for [onAnalysisFolding].
*/
StreamController<AnalysisFoldingParams> _onAnalysisFolding;
/**
* Reports the highlight regions associated with a given file.
*
* This notification is not subscribed to by default. Clients can subscribe
* by including the value "HIGHLIGHTS" in the list of services passed in an
* analysis.setSubscriptions request.
*
* Parameters
*
* file ( FilePath )
*
* The file containing the highlight regions.
*
* regions ( List<HighlightRegion> )
*
* The highlight regions contained in the file. Each highlight region
* represents a particular syntactic or semantic meaning associated with
* some range. Note that the highlight regions that are returned can
* overlap other highlight regions if there is more than one meaning
* associated with a particular region.
*/
Stream<AnalysisHighlightsParams> onAnalysisHighlights;
/**
* Stream controller for [onAnalysisHighlights].
*/
StreamController<AnalysisHighlightsParams> _onAnalysisHighlights;
/**
* Reports the classes that are implemented or extended and class members
* that are implemented or overridden in a file.
*
* This notification is not subscribed to by default. Clients can subscribe
* by including the value "IMPLEMENTED" in the list of services passed in an
* analysis.setSubscriptions request.
*
* Parameters
*
* file ( FilePath )
*
* The file with which the implementations are associated.
*
* classes ( List<ImplementedClass> )
*
* The classes defined in the file that are implemented or extended.
*
* members ( List<ImplementedMember> )
*
* The member defined in the file that are implemented or overridden.
*/
Stream<AnalysisImplementedParams> onAnalysisImplemented;
/**
* Stream controller for [onAnalysisImplemented].
*/
StreamController<AnalysisImplementedParams> _onAnalysisImplemented;
/**
* Reports that the navigation information associated with a region of a
* single file has become invalid and should be re-requested.
*
* This notification is not subscribed to by default. Clients can subscribe
* by including the value "INVALIDATE" in the list of services passed in an
* analysis.setSubscriptions request.
*
* Parameters
*
* file ( FilePath )
*
* The file whose information has been invalidated.
*
* offset ( int )
*
* The offset of the invalidated region.
*
* length ( int )
*
* The length of the invalidated region.
*
* delta ( int )
*
* The delta to be applied to the offsets in information that follows the
* invalidated region in order to update it so that it doesn't need to be
* re-requested.
*/
Stream<AnalysisInvalidateParams> onAnalysisInvalidate;
/**
* Stream controller for [onAnalysisInvalidate].
*/
StreamController<AnalysisInvalidateParams> _onAnalysisInvalidate;
/**
* Reports the navigation targets associated with a given file.
*
* This notification is not subscribed to by default. Clients can subscribe
* by including the value "NAVIGATION" in the list of services passed in an
* analysis.setSubscriptions request.
*
* Parameters
*
* file ( FilePath )
*
* The file containing the navigation regions.
*
* regions ( List<NavigationRegion> )
*
* The navigation regions contained in the file. The regions are sorted by
* their offsets. Each navigation region represents a list of targets
* associated with some range. The lists will usually contain a single
* target, but can contain more in the case of a part that is included in
* multiple libraries or in Dart code that is compiled against multiple
* versions of a package. Note that the navigation regions that are
* returned do not overlap other navigation regions.
*
* targets ( List<NavigationTarget> )
*
* The navigation targets referenced in the file. They are referenced by
* NavigationRegions by their index in this array.
*
* files ( List<FilePath> )
*
* The files containing navigation targets referenced in the file. They are
* referenced by NavigationTargets by their index in this array.
*/
Stream<AnalysisNavigationParams> onAnalysisNavigation;
/**
* Stream controller for [onAnalysisNavigation].
*/
StreamController<AnalysisNavigationParams> _onAnalysisNavigation;
/**
* Reports the occurrences of references to elements within a single file.
*
* This notification is not subscribed to by default. Clients can subscribe
* by including the value "OCCURRENCES" in the list of services passed in an
* analysis.setSubscriptions request.
*
* Parameters
*
* file ( FilePath )
*
* The file in which the references occur.
*
* occurrences ( List<Occurrences> )
*
* The occurrences of references to elements within the file.
*/
Stream<AnalysisOccurrencesParams> onAnalysisOccurrences;
/**
* Stream controller for [onAnalysisOccurrences].
*/
StreamController<AnalysisOccurrencesParams> _onAnalysisOccurrences;
/**
* Reports the outline associated with a single file.
*
* This notification is not subscribed to by default. Clients can subscribe
* by including the value "OUTLINE" in the list of services passed in an
* analysis.setSubscriptions request.
*
* Parameters
*
* file ( FilePath )
*
* The file with which the outline is associated.
*
* kind ( FileKind )
*
* The kind of the file.
*
* libraryName ( optional String )
*
* The name of the library defined by the file using a "library" directive,
* or referenced by a "part of" directive. If both "library" and "part of"
* directives are present, then the "library" directive takes precedence.
* This field will be omitted if the file has neither "library" nor "part
* of" directives.
*
* outline ( Outline )
*
* The outline associated with the file.
*/
Stream<AnalysisOutlineParams> onAnalysisOutline;
/**
* Stream controller for [onAnalysisOutline].
*/
StreamController<AnalysisOutlineParams> _onAnalysisOutline;
/**
* Reports the overriding members in a file.
*
* This notification is not subscribed to by default. Clients can subscribe
* by including the value "OVERRIDES" in the list of services passed in an
* analysis.setSubscriptions request.
*
* Parameters
*
* file ( FilePath )
*
* The file with which the overrides are associated.
*
* overrides ( List<Override> )
*
* The overrides associated with the file.
*/
Stream<AnalysisOverridesParams> onAnalysisOverrides;
/**
* Stream controller for [onAnalysisOverrides].
*/
StreamController<AnalysisOverridesParams> _onAnalysisOverrides;
/**
* Request that completion suggestions for the given offset in the given file
* be returned.
*
* Parameters
*
* file ( FilePath )
*
* The file containing the point at which suggestions are to be made.
*
* offset ( int )
*
* The offset within the file at which suggestions are to be made.
*
* Returns
*
* id ( CompletionId )
*
* The identifier used to associate results with this completion request.
*/
Future<CompletionGetSuggestionsResult> sendCompletionGetSuggestions(String file, int offset) {
var params = new CompletionGetSuggestionsParams(file, offset).toJson();
return server.send("completion.getSuggestions", params)
.then((result) {
ResponseDecoder decoder = new ResponseDecoder(null);
return new CompletionGetSuggestionsResult.fromJson(decoder, 'result', result);
});
}
/**
* Reports the completion suggestions that should be presented to the user.
* The set of suggestions included in the notification is always a complete
* list that supersedes any previously reported suggestions.
*
* Parameters
*
* id ( CompletionId )
*
* The id associated with the completion.
*
* replacementOffset ( int )
*
* The offset of the start of the text to be replaced. This will be
* different than the offset used to request the completion suggestions if
* there was a portion of an identifier before the original offset. In
* particular, the replacementOffset will be the offset of the beginning of
* said identifier.
*
* replacementLength ( int )
*
* The length of the text to be replaced if the remainder of the identifier
* containing the cursor is to be replaced when the suggestion is applied
* (that is, the number of characters in the existing identifier).
*
* results ( List<CompletionSuggestion> )
*
* The completion suggestions being reported. The notification contains all
* possible completions at the requested cursor position, even those that
* do not match the characters the user has already typed. This allows the
* client to respond to further keystrokes from the user without having to
* make additional requests.
*
* isLast ( bool )
*
* True if this is that last set of results that will be returned for the
* indicated completion.
*/
Stream<CompletionResultsParams> onCompletionResults;
/**
* Stream controller for [onCompletionResults].
*/
StreamController<CompletionResultsParams> _onCompletionResults;
/**
* Perform a search for references to the element defined or referenced at
* the given offset in the given file.
*
* An identifier is returned immediately, and individual results will be
* returned via the search.results notification as they become available.
*
* Parameters
*
* file ( FilePath )
*
* The file containing the declaration of or reference to the element used
* to define the search.
*
* offset ( int )
*
* The offset within the file of the declaration of or reference to the
* element.
*
* includePotential ( bool )
*
* True if potential matches are to be included in the results.
*
* Returns
*
* id ( optional SearchId )
*
* The identifier used to associate results with this search request.
*
* If no element was found at the given location, this field will be
* absent, and no results will be reported via the search.results
* notification.
*
* element ( optional Element )
*
* The element referenced or defined at the given offset and whose
* references will be returned in the search results.
*
* If no element was found at the given location, this field will be
* absent.
*/
Future<SearchFindElementReferencesResult> sendSearchFindElementReferences(String file, int offset, bool includePotential) {
var params = new SearchFindElementReferencesParams(file, offset, includePotential).toJson();
return server.send("search.findElementReferences", params)
.then((result) {
ResponseDecoder decoder = new ResponseDecoder(null);
return new SearchFindElementReferencesResult.fromJson(decoder, 'result', result);
});
}
/**
* Perform a search for declarations of members whose name is equal to the
* given name.
*
* An identifier is returned immediately, and individual results will be
* returned via the search.results notification as they become available.
*
* Parameters
*
* name ( String )
*
* The name of the declarations to be found.
*
* Returns
*
* id ( SearchId )
*
* The identifier used to associate results with this search request.
*/
Future<SearchFindMemberDeclarationsResult> sendSearchFindMemberDeclarations(String name) {
var params = new SearchFindMemberDeclarationsParams(name).toJson();
return server.send("search.findMemberDeclarations", params)
.then((result) {
ResponseDecoder decoder = new ResponseDecoder(null);
return new SearchFindMemberDeclarationsResult.fromJson(decoder, 'result', result);
});
}
/**
* Perform a search for references to members whose name is equal to the
* given name. This search does not check to see that there is a member
* defined with the given name, so it is able to find references to undefined
* members as well.
*
* An identifier is returned immediately, and individual results will be
* returned via the search.results notification as they become available.
*
* Parameters
*
* name ( String )
*
* The name of the references to be found.
*
* Returns
*
* id ( SearchId )
*
* The identifier used to associate results with this search request.
*/
Future<SearchFindMemberReferencesResult> sendSearchFindMemberReferences(String name) {
var params = new SearchFindMemberReferencesParams(name).toJson();
return server.send("search.findMemberReferences", params)
.then((result) {
ResponseDecoder decoder = new ResponseDecoder(null);
return new SearchFindMemberReferencesResult.fromJson(decoder, 'result', result);
});
}
/**
* Perform a search for declarations of top-level elements (classes,
* typedefs, getters, setters, functions and fields) whose name matches the
* given pattern.
*
* An identifier is returned immediately, and individual results will be
* returned via the search.results notification as they become available.
*
* Parameters
*
* pattern ( String )
*
* The regular expression used to match the names of the declarations to be
* found.
*
* Returns
*
* id ( SearchId )
*
* The identifier used to associate results with this search request.
*/
Future<SearchFindTopLevelDeclarationsResult> sendSearchFindTopLevelDeclarations(String pattern) {
var params = new SearchFindTopLevelDeclarationsParams(pattern).toJson();
return server.send("search.findTopLevelDeclarations", params)
.then((result) {
ResponseDecoder decoder = new ResponseDecoder(null);
return new SearchFindTopLevelDeclarationsResult.fromJson(decoder, 'result', result);
});
}
/**
* Return the type hierarchy of the class declared or referenced at the given
* location.
*
* Parameters
*
* file ( FilePath )
*
* The file containing the declaration or reference to the type for which a
* hierarchy is being requested.
*
* offset ( int )
*
* The offset of the name of the type within the file.
*
* superOnly ( optional bool )
*
* True if the client is only requesting superclasses and interfaces
* hierarchy.
*
* Returns
*
* hierarchyItems ( optional List<TypeHierarchyItem> )
*
* A list of the types in the requested hierarchy. The first element of the
* list is the item representing the type for which the hierarchy was
* requested. The index of other elements of the list is unspecified, but
* correspond to the integers used to reference supertype and subtype items
* within the items.
*
* This field will be absent if the code at the given file and offset does
* not represent a type, or if the file has not been sufficiently analyzed
* to allow a type hierarchy to be produced.
*/
Future<SearchGetTypeHierarchyResult> sendSearchGetTypeHierarchy(String file, int offset, {bool superOnly}) {
var params = new SearchGetTypeHierarchyParams(file, offset, superOnly: superOnly).toJson();
return server.send("search.getTypeHierarchy", params)
.then((result) {
ResponseDecoder decoder = new ResponseDecoder(null);
return new SearchGetTypeHierarchyResult.fromJson(decoder, 'result', result);
});
}
/**
* Reports some or all of the results of performing a requested search.
* Unlike other notifications, this notification contains search results that
* should be added to any previously received search results associated with
* the same search id.
*
* Parameters
*
* id ( SearchId )
*
* The id associated with the search.
*
* results ( List<SearchResult> )
*
* The search results being reported.
*
* isLast ( bool )
*
* True if this is that last set of results that will be returned for the
* indicated search.
*/
Stream<SearchResultsParams> onSearchResults;
/**
* Stream controller for [onSearchResults].
*/
StreamController<SearchResultsParams> _onSearchResults;
/**
* Format the contents of a single file. The currently selected region of
* text is passed in so that the selection can be preserved across the
* formatting operation. The updated selection will be as close to matching
* the original as possible, but whitespace at the beginning or end of the
* selected region will be ignored. If preserving selection information is
* not required, zero (0) can be specified for both the selection offset and
* selection length.
*
* If a request is made for a file which does not exist, or which is not
* currently subject to analysis (e.g. because it is not associated with any
* analysis root specified to analysis.setAnalysisRoots), an error of type
* FORMAT_INVALID_FILE will be generated. If the source contains syntax
* errors, an error of type FORMAT_WITH_ERRORS will be generated.
*
* Parameters
*
* file ( FilePath )
*
* The file containing the code to be formatted.
*
* selectionOffset ( int )
*
* The offset of the current selection in the file.
*
* selectionLength ( int )
*
* The length of the current selection in the file.
*
* lineLength ( optional int )
*
* The line length to be used by the formatter.
*
* Returns
*
* edits ( List<SourceEdit> )
*
* The edit(s) to be applied in order to format the code. The list will be
* empty if the code was already formatted (there are no changes).
*
* selectionOffset ( int )
*
* The offset of the selection after formatting the code.
*
* selectionLength ( int )
*
* The length of the selection after formatting the code.
*/
Future<EditFormatResult> sendEditFormat(String file, int selectionOffset, int selectionLength, {int lineLength}) {
var params = new EditFormatParams(file, selectionOffset, selectionLength, lineLength: lineLength).toJson();
return server.send("edit.format", params)
.then((result) {
ResponseDecoder decoder = new ResponseDecoder(null);
return new EditFormatResult.fromJson(decoder, 'result', result);
});
}
/**
* Return the set of assists that are available at the given location. An
* assist is distinguished from a refactoring primarily by the fact that it
* affects a single file and does not require user input in order to be
* performed.
*
* Parameters
*
* file ( FilePath )
*
* The file containing the code for which assists are being requested.
*
* offset ( int )
*
* The offset of the code for which assists are being requested.
*
* length ( int )
*
* The length of the code for which assists are being requested.
*
* Returns
*
* assists ( List<SourceChange> )
*
* The assists that are available at the given location.
*/
Future<EditGetAssistsResult> sendEditGetAssists(String file, int offset, int length) {
var params = new EditGetAssistsParams(file, offset, length).toJson();
return server.send("edit.getAssists", params)
.then((result) {
ResponseDecoder decoder = new ResponseDecoder(null);
return new EditGetAssistsResult.fromJson(decoder, 'result', result);
});
}
/**
* Get a list of the kinds of refactorings that are valid for the given
* selection in the given file.
*
* Parameters
*
* file ( FilePath )
*
* The file containing the code on which the refactoring would be based.
*
* offset ( int )
*
* The offset of the code on which the refactoring would be based.
*
* length ( int )
*
* The length of the code on which the refactoring would be based.
*
* Returns
*
* kinds ( List<RefactoringKind> )
*
* The kinds of refactorings that are valid for the given selection.
*/
Future<EditGetAvailableRefactoringsResult> sendEditGetAvailableRefactorings(String file, int offset, int length) {
var params = new EditGetAvailableRefactoringsParams(file, offset, length).toJson();
return server.send("edit.getAvailableRefactorings", params)
.then((result) {
ResponseDecoder decoder = new ResponseDecoder(null);
return new EditGetAvailableRefactoringsResult.fromJson(decoder, 'result', result);
});
}
/**
* Return the set of fixes that are available for the errors at a given
* offset in a given file.
*
* Parameters
*
* file ( FilePath )
*
* The file containing the errors for which fixes are being requested.
*
* offset ( int )
*
* The offset used to select the errors for which fixes will be returned.
*
* Returns
*
* fixes ( List<AnalysisErrorFixes> )
*
* The fixes that are available for the errors at the given offset.
*/
Future<EditGetFixesResult> sendEditGetFixes(String file, int offset) {
var params = new EditGetFixesParams(file, offset).toJson();
return server.send("edit.getFixes", params)
.then((result) {
ResponseDecoder decoder = new ResponseDecoder(null);
return new EditGetFixesResult.fromJson(decoder, 'result', result);
});
}
/**
* Get the changes required to perform a refactoring.
*
* If another refactoring request is received during the processing of this
* one, an error of type REFACTORING_REQUEST_CANCELLED will be generated.
*
* Parameters
*
* kind ( RefactoringKind )
*
* The kind of refactoring to be performed.
*
* file ( FilePath )
*
* The file containing the code involved in the refactoring.
*
* offset ( int )
*
* The offset of the region involved in the refactoring.
*
* length ( int )
*
* The length of the region involved in the refactoring.
*
* validateOnly ( bool )
*
* True if the client is only requesting that the values of the options be
* validated and no change be generated.
*
* options ( optional RefactoringOptions )
*
* Data used to provide values provided by the user. The structure of the
* data is dependent on the kind of refactoring being performed. The data
* that is expected is documented in the section titled Refactorings,
* labeled as “Options”. This field can be omitted if the refactoring does
* not require any options or if the values of those options are not known.
*
* Returns
*
* initialProblems ( List<RefactoringProblem> )
*
* The initial status of the refactoring, i.e. problems related to the
* context in which the refactoring is requested. The array will be empty
* if there are no known problems.
*
* optionsProblems ( List<RefactoringProblem> )
*
* The options validation status, i.e. problems in the given options, such
* as light-weight validation of a new name, flags compatibility, etc. The
* array will be empty if there are no known problems.
*
* finalProblems ( List<RefactoringProblem> )
*
* The final status of the refactoring, i.e. problems identified in the
* result of a full, potentially expensive validation and / or change
* creation. The array will be empty if there are no known problems.
*
* feedback ( optional RefactoringFeedback )
*
* Data used to provide feedback to the user. The structure of the data is
* dependent on the kind of refactoring being created. The data that is
* returned is documented in the section titled Refactorings, labeled as
* “Feedback”.
*
* change ( optional SourceChange )
*
* The changes that are to be applied to affect the refactoring. This field
* will be omitted if there are problems that prevent a set of changes from
* being computed, such as having no options specified for a refactoring
* that requires them, or if only validation was requested.
*
* potentialEdits ( optional List<String> )
*
* The ids of source edits that are not known to be valid. An edit is not
* known to be valid if there was insufficient type information for the
* server to be able to determine whether or not the code needs to be
* modified, such as when a member is being renamed and there is a
* reference to a member from an unknown type. This field will be omitted
* if the change field is omitted or if there are no potential edits for
* the refactoring.
*/
Future<EditGetRefactoringResult> sendEditGetRefactoring(RefactoringKind kind, String file, int offset, int length, bool validateOnly, {RefactoringOptions options}) {
var params = new EditGetRefactoringParams(kind, file, offset, length, validateOnly, options: options).toJson();
return server.send("edit.getRefactoring", params)
.then((result) {
ResponseDecoder decoder = new ResponseDecoder(kind);
return new EditGetRefactoringResult.fromJson(decoder, 'result', result);
});
}
/**
* Sort all of the directives, unit and class members of the given Dart file.
*
* If a request is made for a file that does not exist, does not belong to an
* analysis root or is not a Dart file, SORT_MEMBERS_INVALID_FILE will be
* generated.
*
* If the Dart file has scan or parse errors, SORT_MEMBERS_PARSE_ERRORS will
* be generated.
*
* Parameters
*
* file ( FilePath )
*
* The Dart file to sort.
*
* Returns
*
* edit ( SourceFileEdit )
*
* The file edit that is to be applied to the given file to effect the
* sorting.
*/
Future<EditSortMembersResult> sendEditSortMembers(String file) {
var params = new EditSortMembersParams(file).toJson();
return server.send("edit.sortMembers", params)
.then((result) {
ResponseDecoder decoder = new ResponseDecoder(null);
return new EditSortMembersResult.fromJson(decoder, 'result', result);
});
}
/**
* Organizes all of the directives - removes unused imports and sorts
* directives of the given Dart file according to the Dart Style Guide.
*
* If a request is made for a file that does not exist, does not belong to an
* analysis root or is not a Dart file, FILE_NOT_ANALYZED will be generated.
*
* If directives of the Dart file cannot be organized, for example because it
* has scan or parse errors, or by other reasons, ORGANIZE_DIRECTIVES_ERROR
* will be generated. The message will provide details about the reason.
*
* Parameters
*
* file ( FilePath )
*
* The Dart file to organize directives in.
*
* Returns
*
* edit ( SourceFileEdit )
*
* The file edit that is to be applied to the given file to effect the
* organizing.
*/
Future<EditOrganizeDirectivesResult> sendEditOrganizeDirectives(String file) {
var params = new EditOrganizeDirectivesParams(file).toJson();
return server.send("edit.organizeDirectives", params)
.then((result) {
ResponseDecoder decoder = new ResponseDecoder(null);
return new EditOrganizeDirectivesResult.fromJson(decoder, 'result', result);
});
}
/**
* Create an execution context for the executable file with the given path.
* The context that is created will persist until execution.deleteContext is
* used to delete it. Clients, therefore, are responsible for managing the
* lifetime of execution contexts.
*
* Parameters
*
* contextRoot ( FilePath )
*
* The path of the Dart or HTML file that will be launched, or the path of
* the directory containing the file.
*
* Returns
*
* id ( ExecutionContextId )
*
* The identifier used to refer to the execution context that was created.
*/
Future<ExecutionCreateContextResult> sendExecutionCreateContext(String contextRoot) {
var params = new ExecutionCreateContextParams(contextRoot).toJson();
return server.send("execution.createContext", params)
.then((result) {
ResponseDecoder decoder = new ResponseDecoder(null);
return new ExecutionCreateContextResult.fromJson(decoder, 'result', result);
});
}
/**
* Delete the execution context with the given identifier. The context id is
* no longer valid after this command. The server is allowed to re-use ids
* when they are no longer valid.
*
* Parameters
*
* id ( ExecutionContextId )
*
* The identifier of the execution context that is to be deleted.
*/
Future sendExecutionDeleteContext(String id) {
var params = new ExecutionDeleteContextParams(id).toJson();
return server.send("execution.deleteContext", params)
.then((result) {
expect(result, isNull);
return null;
});
}
/**
* Map a URI from the execution context to the file that it corresponds to,
* or map a file to the URI that it corresponds to in the execution context.
*
* Exactly one of the file and uri fields must be provided. If both fields
* are provided, then an error of type INVALID_PARAMETER will be generated.
* Similarly, if neither field is provided, then an error of type
* INVALID_PARAMETER will be generated.
*
* If the file field is provided and the value is not the path of a file
* (either the file does not exist or the path references something other
* than a file), then an error of type INVALID_PARAMETER will be generated.
*
* If the uri field is provided and the value is not a valid URI or if the
* URI references something that is not a file (either a file that does not
* exist or something other than a file), then an error of type
* INVALID_PARAMETER will be generated.
*
* If the contextRoot used to create the execution context does not exist,
* then an error of type INVALID_EXECUTION_CONTEXT will be generated.
*
* Parameters
*
* id ( ExecutionContextId )
*
* The identifier of the execution context in which the URI is to be
* mapped.
*
* file ( optional FilePath )
*
* The path of the file to be mapped into a URI.
*
* uri ( optional String )
*
* The URI to be mapped into a file path.
*
* Returns
*
* file ( optional FilePath )
*
* The file to which the URI was mapped. This field is omitted if the uri
* field was not given in the request.
*
* uri ( optional String )
*
* The URI to which the file path was mapped. This field is omitted if the
* file field was not given in the request.
*/
Future<ExecutionMapUriResult> sendExecutionMapUri(String id, {String file, String uri}) {
var params = new ExecutionMapUriParams(id, file: file, uri: uri).toJson();
return server.send("execution.mapUri", params)
.then((result) {
ResponseDecoder decoder = new ResponseDecoder(null);
return new ExecutionMapUriResult.fromJson(decoder, 'result', result);
});
}
/**
* Subscribe for services. All previous subscriptions are replaced by the
* given set of services.
*
* It is an error if any of the elements in the list are not valid services.
* If there is an error, then the current subscriptions will remain
* unchanged.
*
* Parameters
*
* subscriptions ( List<ExecutionService> )
*
* A list of the services being subscribed to.
*/
Future sendExecutionSetSubscriptions(List<ExecutionService> subscriptions) {
var params = new ExecutionSetSubscriptionsParams(subscriptions).toJson();
return server.send("execution.setSubscriptions", params)
.then((result) {
expect(result, isNull);
return null;
});
}
/**
* Reports information needed to allow a single file to be launched.
*
* This notification is not subscribed to by default. Clients can subscribe
* by including the value "LAUNCH_DATA" in the list of services passed in an
* execution.setSubscriptions request.
*
* Parameters
*
* file ( FilePath )
*
* The file for which launch data is being provided. This will either be a
* Dart library or an HTML file.
*
* kind ( optional ExecutableKind )
*
* The kind of the executable file. This field is omitted if the file is
* not a Dart file.
*
* referencedFiles ( optional List<FilePath> )
*
* A list of the Dart files that are referenced by the file. This field is
* omitted if the file is not an HTML file.
*/
Stream<ExecutionLaunchDataParams> onExecutionLaunchData;
/**
* Stream controller for [onExecutionLaunchData].
*/
StreamController<ExecutionLaunchDataParams> _onExecutionLaunchData;
/**
* Return server diagnostics.
*
* Returns
*
* contexts ( List<ContextData> )
*
* The list of analysis contexts.
*/
Future<DiagnosticGetDiagnosticsResult> sendDiagnosticGetDiagnostics() {
return server.send("diagnostic.getDiagnostics", null)
.then((result) {
ResponseDecoder decoder = new ResponseDecoder(null);
return new DiagnosticGetDiagnosticsResult.fromJson(decoder, 'result', result);
});
}
/**
* Initialize the fields in InttestMixin, and ensure that notifications will
* be handled.
*/
void initializeInttestMixin() {
_onServerConnected = new StreamController<ServerConnectedParams>(sync: true);
onServerConnected = _onServerConnected.stream.asBroadcastStream();
_onServerError = new StreamController<ServerErrorParams>(sync: true);
onServerError = _onServerError.stream.asBroadcastStream();
_onServerStatus = new StreamController<ServerStatusParams>(sync: true);
onServerStatus = _onServerStatus.stream.asBroadcastStream();
_onAnalysisAnalyzedFiles = new StreamController<AnalysisAnalyzedFilesParams>(sync: true);
onAnalysisAnalyzedFiles = _onAnalysisAnalyzedFiles.stream.asBroadcastStream();
_onAnalysisErrors = new StreamController<AnalysisErrorsParams>(sync: true);
onAnalysisErrors = _onAnalysisErrors.stream.asBroadcastStream();
_onAnalysisFlushResults = new StreamController<AnalysisFlushResultsParams>(sync: true);
onAnalysisFlushResults = _onAnalysisFlushResults.stream.asBroadcastStream();
_onAnalysisFolding = new StreamController<AnalysisFoldingParams>(sync: true);
onAnalysisFolding = _onAnalysisFolding.stream.asBroadcastStream();
_onAnalysisHighlights = new StreamController<AnalysisHighlightsParams>(sync: true);
onAnalysisHighlights = _onAnalysisHighlights.stream.asBroadcastStream();
_onAnalysisImplemented = new StreamController<AnalysisImplementedParams>(sync: true);
onAnalysisImplemented = _onAnalysisImplemented.stream.asBroadcastStream();
_onAnalysisInvalidate = new StreamController<AnalysisInvalidateParams>(sync: true);
onAnalysisInvalidate = _onAnalysisInvalidate.stream.asBroadcastStream();
_onAnalysisNavigation = new StreamController<AnalysisNavigationParams>(sync: true);
onAnalysisNavigation = _onAnalysisNavigation.stream.asBroadcastStream();
_onAnalysisOccurrences = new StreamController<AnalysisOccurrencesParams>(sync: true);
onAnalysisOccurrences = _onAnalysisOccurrences.stream.asBroadcastStream();
_onAnalysisOutline = new StreamController<AnalysisOutlineParams>(sync: true);
onAnalysisOutline = _onAnalysisOutline.stream.asBroadcastStream();
_onAnalysisOverrides = new StreamController<AnalysisOverridesParams>(sync: true);
onAnalysisOverrides = _onAnalysisOverrides.stream.asBroadcastStream();
_onCompletionResults = new StreamController<CompletionResultsParams>(sync: true);
onCompletionResults = _onCompletionResults.stream.asBroadcastStream();
_onSearchResults = new StreamController<SearchResultsParams>(sync: true);
onSearchResults = _onSearchResults.stream.asBroadcastStream();
_onExecutionLaunchData = new StreamController<ExecutionLaunchDataParams>(sync: true);
onExecutionLaunchData = _onExecutionLaunchData.stream.asBroadcastStream();
}
/**
* Dispatch the notification named [event], and containing parameters
* [params], to the appropriate stream.
*/
void dispatchNotification(String event, params) {
ResponseDecoder decoder = new ResponseDecoder(null);
switch (event) {
case "server.connected":
expect(params, isServerConnectedParams);
_onServerConnected.add(new ServerConnectedParams.fromJson(decoder, 'params', params));
break;
case "server.error":
expect(params, isServerErrorParams);
_onServerError.add(new ServerErrorParams.fromJson(decoder, 'params', params));
break;
case "server.status":
expect(params, isServerStatusParams);
_onServerStatus.add(new ServerStatusParams.fromJson(decoder, 'params', params));
break;
case "analysis.analyzedFiles":
expect(params, isAnalysisAnalyzedFilesParams);
_onAnalysisAnalyzedFiles.add(new AnalysisAnalyzedFilesParams.fromJson(decoder, 'params', params));
break;
case "analysis.errors":
expect(params, isAnalysisErrorsParams);
_onAnalysisErrors.add(new AnalysisErrorsParams.fromJson(decoder, 'params', params));
break;
case "analysis.flushResults":
expect(params, isAnalysisFlushResultsParams);
_onAnalysisFlushResults.add(new AnalysisFlushResultsParams.fromJson(decoder, 'params', params));
break;
case "analysis.folding":
expect(params, isAnalysisFoldingParams);
_onAnalysisFolding.add(new AnalysisFoldingParams.fromJson(decoder, 'params', params));
break;
case "analysis.highlights":
expect(params, isAnalysisHighlightsParams);
_onAnalysisHighlights.add(new AnalysisHighlightsParams.fromJson(decoder, 'params', params));
break;
case "analysis.implemented":
expect(params, isAnalysisImplementedParams);
_onAnalysisImplemented.add(new AnalysisImplementedParams.fromJson(decoder, 'params', params));
break;
case "analysis.invalidate":
expect(params, isAnalysisInvalidateParams);
_onAnalysisInvalidate.add(new AnalysisInvalidateParams.fromJson(decoder, 'params', params));
break;
case "analysis.navigation":
expect(params, isAnalysisNavigationParams);
_onAnalysisNavigation.add(new AnalysisNavigationParams.fromJson(decoder, 'params', params));
break;
case "analysis.occurrences":
expect(params, isAnalysisOccurrencesParams);
_onAnalysisOccurrences.add(new AnalysisOccurrencesParams.fromJson(decoder, 'params', params));
break;
case "analysis.outline":
expect(params, isAnalysisOutlineParams);
_onAnalysisOutline.add(new AnalysisOutlineParams.fromJson(decoder, 'params', params));
break;
case "analysis.overrides":
expect(params, isAnalysisOverridesParams);
_onAnalysisOverrides.add(new AnalysisOverridesParams.fromJson(decoder, 'params', params));
break;
case "completion.results":
expect(params, isCompletionResultsParams);
_onCompletionResults.add(new CompletionResultsParams.fromJson(decoder, 'params', params));
break;
case "search.results":
expect(params, isSearchResultsParams);
_onSearchResults.add(new SearchResultsParams.fromJson(decoder, 'params', params));
break;
case "execution.launchData":
expect(params, isExecutionLaunchDataParams);
_onExecutionLaunchData.add(new ExecutionLaunchDataParams.fromJson(decoder, 'params', params));
break;
default:
fail('Unexpected notification: $event');
break;
}
}
}