packages/flutter_driver/lib/src/driver/raster_cache_summarizer.dart - mirrors/flutter - Git at Google

 // Copyright 2014 The Flutter Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 import 'percentile_utils.dart';
 import 'timeline.dart';

 /// Key for RasterCache timeline events.
 const String kRasterCacheEvent = 'RasterCache';

 const String _kLayerCount = 'LayerCount';
 const String _kLayerMemory = 'LayerMBytes';
 const String _kPictureCount = 'PictureCount';
 const String _kPictureMemory = 'PictureMBytes';

 /// Summarizes [TimelineEvents]s corresponding to [kRasterCacheEvent] events.
 ///
 /// A sample event (some fields have been omitted for brevity):
 /// ```
 ///     {
 ///       "name": "RasterCache",
 ///       "ts": 75598996256,
 ///       "ph": "C",
 ///       "args": {
 ///         "LayerCount": "1",
 ///         "LayerMBytes": "0.336491",
 ///         "PictureCount": "0",
 ///         "PictureMBytes": "0.000000",
 ///       }
 ///     },
 /// ```
 class RasterCacheSummarizer {
   /// Creates a RasterCacheSummarizer given the timeline events.
   RasterCacheSummarizer(this.rasterCacheEvents) {
     for (final TimelineEvent event in rasterCacheEvents) {
       assert(event.name == kRasterCacheEvent);
     }
   }

   /// The raster cache events.
   final List<TimelineEvent> rasterCacheEvents;

   late final List<double> _layerCounts = _extractValues(_kLayerCount);
   late final List<double> _layerMemories = _extractValues(_kLayerMemory);
   late final List<double> _pictureCounts = _extractValues(_kPictureCount);
   late final List<double> _pictureMemories = _extractValues(_kPictureMemory);

   /// Computes the average of the `LayerCount` values over the cache events.
   double computeAverageLayerCount() => _computeAverage(_layerCounts);

   /// Computes the average of the `LayerMemory` values over the cache events.
   double computeAverageLayerMemory() => _computeAverage(_layerMemories);

   /// Computes the average of the `PictureCount` values over the cache events.
   double computeAveragePictureCount() => _computeAverage(_pictureCounts);

   /// Computes the average of the `PictureMemory` values over the cache events.
   double computeAveragePictureMemory() => _computeAverage(_pictureMemories);

   /// The [percentile]-th percentile `LayerCount` over the cache events.
   double computePercentileLayerCount(double percentile) => _computePercentile(_layerCounts, percentile);

   /// The [percentile]-th percentile `LayerMemory` over the cache events.
   double computePercentileLayerMemory(double percentile) => _computePercentile(_layerMemories, percentile);

   /// The [percentile]-th percentile `PictureCount` over the cache events.
   double computePercentilePictureCount(double percentile) => _computePercentile(_pictureCounts, percentile);

   /// The [percentile]-th percentile `PictureMemory` over the cache events.
   double computePercentilePictureMemory(double percentile) => _computePercentile(_pictureMemories, percentile);

   /// Computes the worst of the `LayerCount` values over the cache events.
   double computeWorstLayerCount() => _computeWorst(_layerCounts);

   /// Computes the worst of the `LayerMemory` values over the cache events.
   double computeWorstLayerMemory() => _computeWorst(_layerMemories);

   /// Computes the worst of the `PictureCount` values over the cache events.
   double computeWorstPictureCount() => _computeWorst(_pictureCounts);

   /// Computes the worst of the `PictureMemory` values over the cache events.
   double computeWorstPictureMemory() => _computeWorst(_pictureMemories);

   static double _computeAverage(List<double> values) {
     if (values.isEmpty) {
       return 0;
     }

     final double total = values.reduce((double a, double b) => a + b);
     return total / values.length;
   }

   static double _computePercentile(List<double> values, double percentile) {
     if (values.isEmpty) {
       return 0;
     }

     return findPercentile(values, percentile);
   }

   static double _computeWorst(List<double> values) {
     if (values.isEmpty) {
       return 0;
     }

     values.sort();
     return values.last;
   }

   List<double> _extractValues(String name) =>
       rasterCacheEvents.map((TimelineEvent e) => _getValue(e, name)).toList();

   double _getValue(TimelineEvent e, String name) {
     assert(e.name == kRasterCacheEvent);
     assert(e.arguments!.containsKey(name));
     final dynamic valueString = e.arguments![name];
     assert(valueString is String);
     return double.parse(valueString as String);
   }
 }
	// Copyright 2014 The Flutter Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	import 'percentile_utils.dart';
	import 'timeline.dart';

	/// Key for RasterCache timeline events.
	const String kRasterCacheEvent = 'RasterCache';

	const String _kLayerCount = 'LayerCount';
	const String _kLayerMemory = 'LayerMBytes';
	const String _kPictureCount = 'PictureCount';
	const String _kPictureMemory = 'PictureMBytes';

	/// Summarizes [TimelineEvents]s corresponding to [kRasterCacheEvent] events.
	///
	/// A sample event (some fields have been omitted for brevity):
	/// ```
	/// {
	/// "name": "RasterCache",
	/// "ts": 75598996256,
	/// "ph": "C",
	/// "args": {
	/// "LayerCount": "1",
	/// "LayerMBytes": "0.336491",
	/// "PictureCount": "0",
	/// "PictureMBytes": "0.000000",
	/// }
	/// },
	/// ```
	class RasterCacheSummarizer {
	/// Creates a RasterCacheSummarizer given the timeline events.
	RasterCacheSummarizer(this.rasterCacheEvents) {
	for (final TimelineEvent event in rasterCacheEvents) {
	assert(event.name == kRasterCacheEvent);
	}
	}

	/// The raster cache events.
	final List<TimelineEvent> rasterCacheEvents;

	late final List<double> _layerCounts = _extractValues(_kLayerCount);
	late final List<double> _layerMemories = _extractValues(_kLayerMemory);
	late final List<double> _pictureCounts = _extractValues(_kPictureCount);
	late final List<double> _pictureMemories = _extractValues(_kPictureMemory);

	/// Computes the average of the `LayerCount` values over the cache events.
	double computeAverageLayerCount() => _computeAverage(_layerCounts);

	/// Computes the average of the `LayerMemory` values over the cache events.
	double computeAverageLayerMemory() => _computeAverage(_layerMemories);

	/// Computes the average of the `PictureCount` values over the cache events.
	double computeAveragePictureCount() => _computeAverage(_pictureCounts);

	/// Computes the average of the `PictureMemory` values over the cache events.
	double computeAveragePictureMemory() => _computeAverage(_pictureMemories);

	/// The [percentile]-th percentile `LayerCount` over the cache events.
	double computePercentileLayerCount(double percentile) => _computePercentile(_layerCounts, percentile);

	/// The [percentile]-th percentile `LayerMemory` over the cache events.
	double computePercentileLayerMemory(double percentile) => _computePercentile(_layerMemories, percentile);

	/// The [percentile]-th percentile `PictureCount` over the cache events.
	double computePercentilePictureCount(double percentile) => _computePercentile(_pictureCounts, percentile);

	/// The [percentile]-th percentile `PictureMemory` over the cache events.
	double computePercentilePictureMemory(double percentile) => _computePercentile(_pictureMemories, percentile);

	/// Computes the worst of the `LayerCount` values over the cache events.
	double computeWorstLayerCount() => _computeWorst(_layerCounts);

	/// Computes the worst of the `LayerMemory` values over the cache events.
	double computeWorstLayerMemory() => _computeWorst(_layerMemories);

	/// Computes the worst of the `PictureCount` values over the cache events.
	double computeWorstPictureCount() => _computeWorst(_pictureCounts);

	/// Computes the worst of the `PictureMemory` values over the cache events.
	double computeWorstPictureMemory() => _computeWorst(_pictureMemories);

	static double _computeAverage(List<double> values) {
	if (values.isEmpty) {
	return 0;
	}

	final double total = values.reduce((double a, double b) => a + b);
	return total / values.length;
	}

	static double _computePercentile(List<double> values, double percentile) {
	if (values.isEmpty) {
	return 0;
	}

	return findPercentile(values, percentile);
	}

	static double _computeWorst(List<double> values) {
	if (values.isEmpty) {
	return 0;
	}

	values.sort();
	return values.last;
	}

	List<double> _extractValues(String name) =>
	rasterCacheEvents.map((TimelineEvent e) => _getValue(e, name)).toList();

	double _getValue(TimelineEvent e, String name) {
	assert(e.name == kRasterCacheEvent);
	assert(e.arguments!.containsKey(name));
	final dynamic valueString = e.arguments![name];
	assert(valueString is String);
	return double.parse(valueString as String);
	}
	}