third_party/angle/src/libANGLE/HandleAllocator.cpp - cobalt - Git at Google

 //
 // Copyright 2002 The ANGLE Project Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.
 //

 // HandleAllocator.cpp: Implements the gl::HandleAllocator class, which is used
 // to allocate GL handles.

 #include "libANGLE/HandleAllocator.h"

 #include <algorithm>
 #include <functional>

 #include "common/debug.h"

 namespace gl
 {

 struct HandleAllocator::HandleRangeComparator
 {
     bool operator()(const HandleRange &range, GLuint handle) const { return (range.end < handle); }
 };

 HandleAllocator::HandleAllocator() : mBaseValue(1), mNextValue(1), mLoggingEnabled(false)
 {
     mUnallocatedList.push_back(HandleRange(1, std::numeric_limits<GLuint>::max()));
 }

 HandleAllocator::HandleAllocator(GLuint maximumHandleValue)
     : mBaseValue(1), mNextValue(1), mLoggingEnabled(false)
 {
     mUnallocatedList.push_back(HandleRange(1, maximumHandleValue));
 }

 HandleAllocator::~HandleAllocator() {}

 void HandleAllocator::setBaseHandle(GLuint value)
 {
     ASSERT(mBaseValue == mNextValue);
     mBaseValue = value;
     mNextValue = value;
 }

 GLuint HandleAllocator::allocate()
 {
     ASSERT(!mUnallocatedList.empty() || !mReleasedList.empty());

     // Allocate from released list, logarithmic time for pop_heap.
     if (!mReleasedList.empty())
     {
         std::pop_heap(mReleasedList.begin(), mReleasedList.end(), std::greater<GLuint>());
         GLuint reusedHandle = mReleasedList.back();
         mReleasedList.pop_back();

         if (mLoggingEnabled)
         {
             WARN() << "HandleAllocator::allocate reusing " << reusedHandle << std::endl;
         }

         return reusedHandle;
     }

     // Allocate from unallocated list, constant time.
     auto listIt = mUnallocatedList.begin();

     GLuint freeListHandle = listIt->begin;
     ASSERT(freeListHandle > 0);

     if (listIt->begin == listIt->end)
     {
         mUnallocatedList.erase(listIt);
     }
     else
     {
         listIt->begin++;
     }

     if (mLoggingEnabled)
     {
         WARN() << "HandleAllocator::allocate allocating " << freeListHandle << std::endl;
     }

     return freeListHandle;
 }

 void HandleAllocator::release(GLuint handle)
 {
     if (mLoggingEnabled)
     {
         WARN() << "HandleAllocator::release releasing " << handle << std::endl;
     }

     // Add to released list, logarithmic time for push_heap.
     mReleasedList.push_back(handle);
     std::push_heap(mReleasedList.begin(), mReleasedList.end(), std::greater<GLuint>());
 }

 void HandleAllocator::reserve(GLuint handle)
 {
     if (mLoggingEnabled)
     {
         WARN() << "HandleAllocator::reserve reserving " << handle << std::endl;
     }

     // Clear from released list -- might be a slow operation.
     if (!mReleasedList.empty())
     {
         auto releasedIt = std::find(mReleasedList.begin(), mReleasedList.end(), handle);
         if (releasedIt != mReleasedList.end())
         {
             mReleasedList.erase(releasedIt);
             std::make_heap(mReleasedList.begin(), mReleasedList.end(), std::greater<GLuint>());
             return;
         }
     }

     // Not in released list, reserve in the unallocated list.
     auto boundIt = std::lower_bound(mUnallocatedList.begin(), mUnallocatedList.end(), handle,
                                     HandleRangeComparator());

     ASSERT(boundIt != mUnallocatedList.end());

     GLuint begin = boundIt->begin;
     GLuint end   = boundIt->end;

     if (handle == begin || handle == end)
     {
         if (begin == end)
         {
             mUnallocatedList.erase(boundIt);
         }
         else if (handle == begin)
         {
             boundIt->begin++;
         }
         else
         {
             ASSERT(handle == end);
             boundIt->end--;
         }
         return;
     }

     ASSERT(begin < handle && handle < end);

     // need to split the range
     auto placementIt = mUnallocatedList.erase(boundIt);
     placementIt      = mUnallocatedList.insert(placementIt, HandleRange(handle + 1, end));
     mUnallocatedList.insert(placementIt, HandleRange(begin, handle - 1));
 }

 void HandleAllocator::reset()
 {
     mUnallocatedList.clear();
     mUnallocatedList.push_back(HandleRange(1, std::numeric_limits<GLuint>::max()));
     mReleasedList.clear();
     mBaseValue = 1;
     mNextValue = 1;
 }

 void HandleAllocator::enableLogging(bool enabled)
 {
     mLoggingEnabled = enabled;
 }

 }  // namespace gl
	//
	// Copyright 2002 The ANGLE Project Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.
	//

	// HandleAllocator.cpp: Implements the gl::HandleAllocator class, which is used
	// to allocate GL handles.

	#include "libANGLE/HandleAllocator.h"

	#include <algorithm>
	#include <functional>

	#include "common/debug.h"

	namespace gl
	{

	struct HandleAllocator::HandleRangeComparator
	{
	bool operator()(const HandleRange &range, GLuint handle) const { return (range.end < handle); }
	};

	HandleAllocator::HandleAllocator() : mBaseValue(1), mNextValue(1), mLoggingEnabled(false)
	{
	mUnallocatedList.push_back(HandleRange(1, std::numeric_limits<GLuint>::max()));
	}

	HandleAllocator::HandleAllocator(GLuint maximumHandleValue)
	: mBaseValue(1), mNextValue(1), mLoggingEnabled(false)
	{
	mUnallocatedList.push_back(HandleRange(1, maximumHandleValue));
	}

	HandleAllocator::~HandleAllocator() {}

	void HandleAllocator::setBaseHandle(GLuint value)
	{
	ASSERT(mBaseValue == mNextValue);
	mBaseValue = value;
	mNextValue = value;
	}

	GLuint HandleAllocator::allocate()
	{
	ASSERT(!mUnallocatedList.empty() \|\| !mReleasedList.empty());

	// Allocate from released list, logarithmic time for pop_heap.
	if (!mReleasedList.empty())
	{
	std::pop_heap(mReleasedList.begin(), mReleasedList.end(), std::greater<GLuint>());
	GLuint reusedHandle = mReleasedList.back();
	mReleasedList.pop_back();

	if (mLoggingEnabled)
	{
	WARN() << "HandleAllocator::allocate reusing " << reusedHandle << std::endl;
	}

	return reusedHandle;
	}

	// Allocate from unallocated list, constant time.
	auto listIt = mUnallocatedList.begin();

	GLuint freeListHandle = listIt->begin;
	ASSERT(freeListHandle > 0);

	if (listIt->begin == listIt->end)
	{
	mUnallocatedList.erase(listIt);
	}
	else
	{
	listIt->begin++;
	}

	if (mLoggingEnabled)
	{
	WARN() << "HandleAllocator::allocate allocating " << freeListHandle << std::endl;
	}

	return freeListHandle;
	}

	void HandleAllocator::release(GLuint handle)
	{
	if (mLoggingEnabled)
	{
	WARN() << "HandleAllocator::release releasing " << handle << std::endl;
	}

	// Add to released list, logarithmic time for push_heap.
	mReleasedList.push_back(handle);
	std::push_heap(mReleasedList.begin(), mReleasedList.end(), std::greater<GLuint>());
	}

	void HandleAllocator::reserve(GLuint handle)
	{
	if (mLoggingEnabled)
	{
	WARN() << "HandleAllocator::reserve reserving " << handle << std::endl;
	}

	// Clear from released list -- might be a slow operation.
	if (!mReleasedList.empty())
	{
	auto releasedIt = std::find(mReleasedList.begin(), mReleasedList.end(), handle);
	if (releasedIt != mReleasedList.end())
	{
	mReleasedList.erase(releasedIt);
	std::make_heap(mReleasedList.begin(), mReleasedList.end(), std::greater<GLuint>());
	return;
	}
	}

	// Not in released list, reserve in the unallocated list.
	auto boundIt = std::lower_bound(mUnallocatedList.begin(), mUnallocatedList.end(), handle,
	HandleRangeComparator());

	ASSERT(boundIt != mUnallocatedList.end());

	GLuint begin = boundIt->begin;
	GLuint end = boundIt->end;

	if (handle == begin \|\| handle == end)
	{
	if (begin == end)
	{
	mUnallocatedList.erase(boundIt);
	}
	else if (handle == begin)
	{
	boundIt->begin++;
	}
	else
	{
	ASSERT(handle == end);
	boundIt->end--;
	}
	return;
	}

	ASSERT(begin < handle && handle < end);

	// need to split the range
	auto placementIt = mUnallocatedList.erase(boundIt);
	placementIt = mUnallocatedList.insert(placementIt, HandleRange(handle + 1, end));
	mUnallocatedList.insert(placementIt, HandleRange(begin, handle - 1));
	}

	void HandleAllocator::reset()
	{
	mUnallocatedList.clear();
	mUnallocatedList.push_back(HandleRange(1, std::numeric_limits<GLuint>::max()));
	mReleasedList.clear();
	mBaseValue = 1;
	mNextValue = 1;
	}

	void HandleAllocator::enableLogging(bool enabled)
	{
	mLoggingEnabled = enabled;
	}

	} // namespace gl