libs/renderengine/skia/debug/SkiaMemoryReporter.cpp - third_party/android/platform/frameworks/native - Git at Google

 /*
  * Copyright (C) 2021 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */
 #undef LOG_TAG
 #define LOG_TAG "RenderEngine"

 #include "SkiaMemoryReporter.h"

 #include <SkString.h>
 #include <android-base/stringprintf.h>
 #include <log/log_main.h>

 namespace android {
 namespace renderengine {
 namespace skia {

 using base::StringAppendF;

 SkiaMemoryReporter::SkiaMemoryReporter(const std::vector<ResourcePair>& resourceMap, bool itemize)
       : mResourceMap(resourceMap),
         mItemize(itemize),
         mTotalSize("bytes", 0),
         mPurgeableSize("bytes", 0) {}

 const char* SkiaMemoryReporter::mapName(const char* resourceName) {
     for (auto& resource : mResourceMap) {
         if (SkStrContains(resourceName, resource.first)) {
             return resource.second;
         }
     }
     return nullptr;
 }

 void SkiaMemoryReporter::resetCurrentElement() {
     mCurrentElement.clear();
     mCurrentValues.clear();
     mIsCurrentValueWrapped = false;
 }

 void SkiaMemoryReporter::processCurrentElement() {
     // compute the top level element name using the map
     const char* resourceName = mCurrentElement.empty() ? nullptr : mapName(mCurrentElement.c_str());

     // if we don't have a resource name then we don't know how to label the
     // data and should abort.
     if (resourceName == nullptr) {
         resetCurrentElement();
         return;
     }

     // Only count elements that contain "size"; other values just provide metadata.
     auto sizeResult = mCurrentValues.find("size");
     if (sizeResult != mCurrentValues.end() && sizeResult->second.value > 0) {
         if (!mIsCurrentValueWrapped) {
             mTotalSize.value += sizeResult->second.value;
             mTotalSize.count++;
         }
     } else {
         resetCurrentElement();
         return;
     }

     // find the purgeable size if one exists
     auto purgeableResult = mCurrentValues.find("purgeable_size");
     if (!mIsCurrentValueWrapped && purgeableResult != mCurrentValues.end()) {
         mPurgeableSize.value += purgeableResult->second.value;
         mPurgeableSize.count++;
     }

     // do we store this element in the wrapped list or the skia managed list
     auto& results = mIsCurrentValueWrapped ? mWrappedResults : mResults;

     // insert a copy of the element and all of its keys. We must make a copy here instead of
     // std::move() as we will continue to use these values later in the function and again
     // when we move on to process the next element.
     results.insert({mCurrentElement, mCurrentValues});

     // insert the item into its mapped category
     auto result = results.find(resourceName);
     if (result != results.end()) {
         auto& resourceValues = result->second;
         auto totalResult = resourceValues.find(sizeResult->first);
         if (totalResult != resourceValues.end()) {
             ALOGE_IF(sizeResult->second.units != totalResult->second.units,
                      "resource units do not match so the sum of resource type (%s) will be invalid",
                      resourceName);
             totalResult->second.value += sizeResult->second.value;
             totalResult->second.count++;
         } else {
             ALOGE("an entry (%s) should not exist in the results without a size", resourceName);
         }
     } else {
         // only store the size for the top level resource
         results.insert({resourceName, {{sizeResult->first, sizeResult->second}}});
     }

     resetCurrentElement();
 }

 void SkiaMemoryReporter::dumpNumericValue(const char* dumpName, const char* valueName,
                                           const char* units, uint64_t value) {
     if (mCurrentElement != dumpName) {
         processCurrentElement();
         mCurrentElement = dumpName;
     }
     mCurrentValues.insert({valueName, {units, value}});
 }

 void SkiaMemoryReporter::dumpWrappedState(const char* dumpName, bool isWrappedObject) {
     if (mCurrentElement != dumpName) {
         processCurrentElement();
         mCurrentElement = dumpName;
     }
     mIsCurrentValueWrapped = isWrappedObject;
 }

 void SkiaMemoryReporter::logOutput(std::string& log, bool wrappedResources) {
     // process the current element before logging
     processCurrentElement();

     const auto& resultsMap = wrappedResources ? mWrappedResults : mResults;

     // log each individual element based on the resource map
     for (const auto& resourceCategory : mResourceMap) {
         // find the named item and print the totals
         const auto categoryItem = resultsMap.find(resourceCategory.second);
         if (categoryItem != resultsMap.end()) {
             auto result = categoryItem->second.find("size");
             if (result != categoryItem->second.end()) {
                 TraceValue traceValue = convertUnits(result->second);
                 const char* entry = (traceValue.count > 1) ? "entries" : "entry";
                 StringAppendF(&log, "  %s: %.2f %s (%d %s)\n", categoryItem->first.c_str(),
                               traceValue.value, traceValue.units, traceValue.count, entry);
             }
             if (mItemize) {
                 for (const auto& individualItem : resultsMap) {
                     // if the individual item matches the category then print all its details or
                     // in the case of wrapped resources just print the wrapped size
                     const char* categoryMatch = mapName(individualItem.first.c_str());
                     if (categoryMatch && strcmp(categoryMatch, resourceCategory.second) == 0) {
                         auto result = individualItem.second.find("size");
                         TraceValue size = convertUnits(result->second);
                         StringAppendF(&log, "    %s: size[%.2f %s]", individualItem.first.c_str(),
                                       size.value, size.units);
                         if (!wrappedResources) {
                             for (const auto& itemValues : individualItem.second) {
                                 if (strcmp("size", itemValues.first) == 0) {
                                     continue;
                                 }
                                 TraceValue traceValue = convertUnits(itemValues.second);
                                 if (traceValue.value == 0.0f) {
                                     StringAppendF(&log, " %s[%s]", itemValues.first,
                                                   traceValue.units);
                                 } else {
                                     StringAppendF(&log, " %s[%.2f %s]", itemValues.first,
                                                   traceValue.value, traceValue.units);
                                 }
                             }
                         }
                         StringAppendF(&log, "\n");
                     }
                 }
             }
         }
     }
 }

 void SkiaMemoryReporter::logTotals(std::string& log) {
     // process the current element before logging
     processCurrentElement();

     TraceValue total = convertUnits(mTotalSize);
     TraceValue purgeable = convertUnits(mPurgeableSize);
     StringAppendF(&log, " %.0f bytes, %.2f %s (%.2f %s is purgeable)\n", mTotalSize.value,
                   total.value, total.units, purgeable.value, purgeable.units);
 }

 SkiaMemoryReporter::TraceValue SkiaMemoryReporter::convertUnits(const TraceValue& value) {
     TraceValue output(value);
     if (SkString("bytes") == SkString(output.units) && output.value >= 1024) {
         output.value = output.value / 1024.0f;
         output.units = "KB";
     }
     if (SkString("KB") == SkString(output.units) && output.value >= 1024) {
         output.value = output.value / 1024.0f;
         output.units = "MB";
     }
     return output;
 }

 } /* namespace skia */
 } /* namespace renderengine */
 } /* namespace android */
	/*
	* Copyright (C) 2021 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/
	#undef LOG_TAG
	#define LOG_TAG "RenderEngine"

	#include "SkiaMemoryReporter.h"

	#include <SkString.h>
	#include <android-base/stringprintf.h>
	#include <log/log_main.h>

	namespace android {
	namespace renderengine {
	namespace skia {

	using base::StringAppendF;

	SkiaMemoryReporter::SkiaMemoryReporter(const std::vector<ResourcePair>& resourceMap, bool itemize)
	: mResourceMap(resourceMap),
	mItemize(itemize),
	mTotalSize("bytes", 0),
	mPurgeableSize("bytes", 0) {}

	const char* SkiaMemoryReporter::mapName(const char* resourceName) {
	for (auto& resource : mResourceMap) {
	if (SkStrContains(resourceName, resource.first)) {
	return resource.second;
	}
	}
	return nullptr;
	}

	void SkiaMemoryReporter::resetCurrentElement() {
	mCurrentElement.clear();
	mCurrentValues.clear();
	mIsCurrentValueWrapped = false;
	}

	void SkiaMemoryReporter::processCurrentElement() {
	// compute the top level element name using the map
	const char* resourceName = mCurrentElement.empty() ? nullptr : mapName(mCurrentElement.c_str());

	// if we don't have a resource name then we don't know how to label the
	// data and should abort.
	if (resourceName == nullptr) {
	resetCurrentElement();
	return;
	}

	// Only count elements that contain "size"; other values just provide metadata.
	auto sizeResult = mCurrentValues.find("size");
	if (sizeResult != mCurrentValues.end() && sizeResult->second.value > 0) {
	if (!mIsCurrentValueWrapped) {
	mTotalSize.value += sizeResult->second.value;
	mTotalSize.count++;
	}
	} else {
	resetCurrentElement();
	return;
	}

	// find the purgeable size if one exists
	auto purgeableResult = mCurrentValues.find("purgeable_size");
	if (!mIsCurrentValueWrapped && purgeableResult != mCurrentValues.end()) {
	mPurgeableSize.value += purgeableResult->second.value;
	mPurgeableSize.count++;
	}

	// do we store this element in the wrapped list or the skia managed list
	auto& results = mIsCurrentValueWrapped ? mWrappedResults : mResults;

	// insert a copy of the element and all of its keys. We must make a copy here instead of
	// std::move() as we will continue to use these values later in the function and again
	// when we move on to process the next element.
	results.insert({mCurrentElement, mCurrentValues});

	// insert the item into its mapped category
	auto result = results.find(resourceName);
	if (result != results.end()) {
	auto& resourceValues = result->second;
	auto totalResult = resourceValues.find(sizeResult->first);
	if (totalResult != resourceValues.end()) {
	ALOGE_IF(sizeResult->second.units != totalResult->second.units,
	"resource units do not match so the sum of resource type (%s) will be invalid",
	resourceName);
	totalResult->second.value += sizeResult->second.value;
	totalResult->second.count++;
	} else {
	ALOGE("an entry (%s) should not exist in the results without a size", resourceName);
	}
	} else {
	// only store the size for the top level resource
	results.insert({resourceName, {{sizeResult->first, sizeResult->second}}});
	}

	resetCurrentElement();
	}

	void SkiaMemoryReporter::dumpNumericValue(const char* dumpName, const char* valueName,
	const char* units, uint64_t value) {
	if (mCurrentElement != dumpName) {
	processCurrentElement();
	mCurrentElement = dumpName;
	}
	mCurrentValues.insert({valueName, {units, value}});
	}

	void SkiaMemoryReporter::dumpWrappedState(const char* dumpName, bool isWrappedObject) {
	if (mCurrentElement != dumpName) {
	processCurrentElement();
	mCurrentElement = dumpName;
	}
	mIsCurrentValueWrapped = isWrappedObject;
	}

	void SkiaMemoryReporter::logOutput(std::string& log, bool wrappedResources) {
	// process the current element before logging
	processCurrentElement();

	const auto& resultsMap = wrappedResources ? mWrappedResults : mResults;

	// log each individual element based on the resource map
	for (const auto& resourceCategory : mResourceMap) {
	// find the named item and print the totals
	const auto categoryItem = resultsMap.find(resourceCategory.second);
	if (categoryItem != resultsMap.end()) {
	auto result = categoryItem->second.find("size");
	if (result != categoryItem->second.end()) {
	TraceValue traceValue = convertUnits(result->second);
	const char* entry = (traceValue.count > 1) ? "entries" : "entry";
	StringAppendF(&log, " %s: %.2f %s (%d %s)\n", categoryItem->first.c_str(),
	traceValue.value, traceValue.units, traceValue.count, entry);
	}
	if (mItemize) {
	for (const auto& individualItem : resultsMap) {
	// if the individual item matches the category then print all its details or
	// in the case of wrapped resources just print the wrapped size
	const char* categoryMatch = mapName(individualItem.first.c_str());
	if (categoryMatch && strcmp(categoryMatch, resourceCategory.second) == 0) {
	auto result = individualItem.second.find("size");
	TraceValue size = convertUnits(result->second);
	StringAppendF(&log, " %s: size[%.2f %s]", individualItem.first.c_str(),
	size.value, size.units);
	if (!wrappedResources) {
	for (const auto& itemValues : individualItem.second) {
	if (strcmp("size", itemValues.first) == 0) {
	continue;
	}
	TraceValue traceValue = convertUnits(itemValues.second);
	if (traceValue.value == 0.0f) {
	StringAppendF(&log, " %s[%s]", itemValues.first,
	traceValue.units);
	} else {
	StringAppendF(&log, " %s[%.2f %s]", itemValues.first,
	traceValue.value, traceValue.units);
	}
	}
	}
	StringAppendF(&log, "\n");
	}
	}
	}
	}
	}
	}

	void SkiaMemoryReporter::logTotals(std::string& log) {
	// process the current element before logging
	processCurrentElement();

	TraceValue total = convertUnits(mTotalSize);
	TraceValue purgeable = convertUnits(mPurgeableSize);
	StringAppendF(&log, " %.0f bytes, %.2f %s (%.2f %s is purgeable)\n", mTotalSize.value,
	total.value, total.units, purgeable.value, purgeable.units);
	}

	SkiaMemoryReporter::TraceValue SkiaMemoryReporter::convertUnits(const TraceValue& value) {
	TraceValue output(value);
	if (SkString("bytes") == SkString(output.units) && output.value >= 1024) {
	output.value = output.value / 1024.0f;
	output.units = "KB";
	}
	if (SkString("KB") == SkString(output.units) && output.value >= 1024) {
	output.value = output.value / 1024.0f;
	output.units = "MB";
	}
	return output;
	}

	} /* namespace skia */
	} /* namespace renderengine */
	} /* namespace android */