third_party/skia/src/core/SkArenaAlloc.cpp - cobalt - Git at Google

 /*
  * Copyright 2016 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #include "src/core/SkArenaAlloc.h"
 #include <algorithm>
 #include <new>

 static char* end_chain(char*) { return nullptr; }

 SkArenaAlloc::SkArenaAlloc(char* block, size_t size, size_t firstHeapAllocation)
     : fDtorCursor {block}
     , fCursor     {block}
     , fEnd        {block + SkToU32(size)}
     , fFibonacciProgression{SkToU32(size), SkToU32(firstHeapAllocation)}
 {
     if (size < sizeof(Footer)) {
         fEnd = fCursor = fDtorCursor = nullptr;
     }

     if (fCursor != nullptr) {
         this->installFooter(end_chain, 0);
     }
 }

 SkArenaAlloc::~SkArenaAlloc() {
     RunDtorsOnBlock(fDtorCursor);
 }

 void SkArenaAlloc::installFooter(FooterAction* action, uint32_t padding) {
     assert(SkTFitsIn<uint8_t>(padding));
     this->installRaw(action);
     this->installRaw((uint8_t)padding);
     fDtorCursor = fCursor;
 }

 char* SkArenaAlloc::SkipPod(char* footerEnd) {
     char* objEnd = footerEnd - (sizeof(Footer) + sizeof(uint32_t));
     uint32_t skip;
     memmove(&skip, objEnd, sizeof(uint32_t));
     return objEnd - (ptrdiff_t) skip;
 }

 void SkArenaAlloc::RunDtorsOnBlock(char* footerEnd) {
     while (footerEnd != nullptr) {
         FooterAction* action;
         uint8_t       padding;

         memcpy(&action,  footerEnd - sizeof( Footer), sizeof( action));
         memcpy(&padding, footerEnd - sizeof(padding), sizeof(padding));

         footerEnd = action(footerEnd) - (ptrdiff_t)padding;
     }
 }

 char* SkArenaAlloc::NextBlock(char* footerEnd) {
     char* objEnd = footerEnd - (sizeof(char*) + sizeof(Footer));
     char* next;
     memmove(&next, objEnd, sizeof(char*));
     RunDtorsOnBlock(next);
     delete [] objEnd;
     return nullptr;
 }


 void SkArenaAlloc::ensureSpace(uint32_t size, uint32_t alignment) {
     constexpr uint32_t headerSize = sizeof(Footer) + sizeof(ptrdiff_t);
     constexpr uint32_t maxSize = std::numeric_limits<uint32_t>::max();
     constexpr uint32_t overhead = headerSize + sizeof(Footer);
     AssertRelease(size <= maxSize - overhead);
     uint32_t objSizeAndOverhead = size + overhead;

     const uint32_t alignmentOverhead = alignment - 1;
     AssertRelease(objSizeAndOverhead <= maxSize - alignmentOverhead);
     objSizeAndOverhead += alignmentOverhead;

     uint32_t minAllocationSize = fFibonacciProgression.nextBlockSize();
     uint32_t allocationSize = std::max(objSizeAndOverhead, minAllocationSize);

     // Round up to a nice size. If > 32K align to 4K boundary else up to max_align_t. The > 32K
     // heuristic is from the JEMalloc behavior.
     {
         uint32_t mask = allocationSize > (1 << 15) ? (1 << 12) - 1 : 16 - 1;
         AssertRelease(allocationSize <= maxSize - mask);
         allocationSize = (allocationSize + mask) & ~mask;
     }

     char* newBlock = new char[allocationSize];

     auto previousDtor = fDtorCursor;
     fCursor = newBlock;
     fDtorCursor = newBlock;
     fEnd = fCursor + allocationSize;
     this->installRaw(previousDtor);
     this->installFooter(NextBlock, 0);
 }

 char* SkArenaAlloc::allocObjectWithFooter(uint32_t sizeIncludingFooter, uint32_t alignment) {
     uintptr_t mask = alignment - 1;

 restart:
     uint32_t skipOverhead = 0;
     const bool needsSkipFooter = fCursor != fDtorCursor;
     if (needsSkipFooter) {
         skipOverhead = sizeof(Footer) + sizeof(uint32_t);
     }
     const uint32_t totalSize = sizeIncludingFooter + skipOverhead;

     // Math on null fCursor/fEnd is undefined behavior, so explicitly check for first alloc.
     if (!fCursor) {
         this->ensureSpace(totalSize, alignment);
         goto restart;
     }

     assert(fEnd);
     // This test alone would be enough nullptr were defined to be 0, but it's not.
     char* objStart = (char*)((uintptr_t)(fCursor + skipOverhead + mask) & ~mask);
     if ((ptrdiff_t)totalSize > fEnd - objStart) {
         this->ensureSpace(totalSize, alignment);
         goto restart;
     }

     AssertRelease((ptrdiff_t)totalSize <= fEnd - objStart);

     // Install a skip footer if needed, thus terminating a run of POD data. The calling code is
     // responsible for installing the footer after the object.
     if (needsSkipFooter) {
         this->installRaw(SkToU32(fCursor - fDtorCursor));
         this->installFooter(SkipPod, 0);
     }

     return objStart;
 }

 SkArenaAllocWithReset::SkArenaAllocWithReset(char* block,
                                              size_t size,
                                              size_t firstHeapAllocation)
         : SkArenaAlloc(block, size, firstHeapAllocation)
         , fFirstBlock{block}
         , fFirstSize{SkToU32(size)}
         , fFirstHeapAllocationSize{SkToU32(firstHeapAllocation)} {}

 void SkArenaAllocWithReset::reset() {
     this->~SkArenaAllocWithReset();
     new (this) SkArenaAllocWithReset{fFirstBlock, fFirstSize, fFirstHeapAllocationSize};
 }

 // SkFibonacci47 is the first 47 Fibonacci numbers. Fib(47) is the largest value less than 2 ^ 32.
 // Used by SkFibBlockSizes.
 std::array<const uint32_t, 47> SkFibonacci47 {
                 1,         1,          2,          3,          5,          8,
                13,        21,         34,         55,         89,        144,
               233,       377,        610,        987,       1597,       2584,
              4181,      6765,      10946,      17711,      28657,      46368,
             75025,    121393,     196418,     317811,     514229,     832040,
           1346269,   2178309,    3524578,    5702887,    9227465,   14930352,
          24157817,  39088169,   63245986,  102334155,  165580141,  267914296,
         433494437, 701408733, 1134903170, 1836311903, 2971215073,
 };
	/*
	* Copyright 2016 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#include "src/core/SkArenaAlloc.h"
	#include <algorithm>
	#include <new>

	static char* end_chain(char*) { return nullptr; }

	SkArenaAlloc::SkArenaAlloc(char* block, size_t size, size_t firstHeapAllocation)
	: fDtorCursor {block}
	, fCursor {block}
	, fEnd {block + SkToU32(size)}
	, fFibonacciProgression{SkToU32(size), SkToU32(firstHeapAllocation)}
	{
	if (size < sizeof(Footer)) {
	fEnd = fCursor = fDtorCursor = nullptr;
	}

	if (fCursor != nullptr) {
	this->installFooter(end_chain, 0);
	}
	}

	SkArenaAlloc::~SkArenaAlloc() {
	RunDtorsOnBlock(fDtorCursor);
	}

	void SkArenaAlloc::installFooter(FooterAction* action, uint32_t padding) {
	assert(SkTFitsIn<uint8_t>(padding));
	this->installRaw(action);
	this->installRaw((uint8_t)padding);
	fDtorCursor = fCursor;
	}

	char* SkArenaAlloc::SkipPod(char* footerEnd) {
	char* objEnd = footerEnd - (sizeof(Footer) + sizeof(uint32_t));
	uint32_t skip;
	memmove(&skip, objEnd, sizeof(uint32_t));
	return objEnd - (ptrdiff_t) skip;
	}

	void SkArenaAlloc::RunDtorsOnBlock(char* footerEnd) {
	while (footerEnd != nullptr) {
	FooterAction* action;
	uint8_t padding;

	memcpy(&action, footerEnd - sizeof( Footer), sizeof( action));
	memcpy(&padding, footerEnd - sizeof(padding), sizeof(padding));

	footerEnd = action(footerEnd) - (ptrdiff_t)padding;
	}
	}

	char* SkArenaAlloc::NextBlock(char* footerEnd) {
	char* objEnd = footerEnd - (sizeof(char*) + sizeof(Footer));
	char* next;
	memmove(&next, objEnd, sizeof(char*));
	RunDtorsOnBlock(next);
	delete [] objEnd;
	return nullptr;
	}


	void SkArenaAlloc::ensureSpace(uint32_t size, uint32_t alignment) {
	constexpr uint32_t headerSize = sizeof(Footer) + sizeof(ptrdiff_t);
	constexpr uint32_t maxSize = std::numeric_limits<uint32_t>::max();
	constexpr uint32_t overhead = headerSize + sizeof(Footer);
	AssertRelease(size <= maxSize - overhead);
	uint32_t objSizeAndOverhead = size + overhead;

	const uint32_t alignmentOverhead = alignment - 1;
	AssertRelease(objSizeAndOverhead <= maxSize - alignmentOverhead);
	objSizeAndOverhead += alignmentOverhead;

	uint32_t minAllocationSize = fFibonacciProgression.nextBlockSize();
	uint32_t allocationSize = std::max(objSizeAndOverhead, minAllocationSize);

	// Round up to a nice size. If > 32K align to 4K boundary else up to max_align_t. The > 32K
	// heuristic is from the JEMalloc behavior.
	{
	uint32_t mask = allocationSize > (1 << 15) ? (1 << 12) - 1 : 16 - 1;
	AssertRelease(allocationSize <= maxSize - mask);
	allocationSize = (allocationSize + mask) & ~mask;
	}

	char* newBlock = new char[allocationSize];

	auto previousDtor = fDtorCursor;
	fCursor = newBlock;
	fDtorCursor = newBlock;
	fEnd = fCursor + allocationSize;
	this->installRaw(previousDtor);
	this->installFooter(NextBlock, 0);
	}

	char* SkArenaAlloc::allocObjectWithFooter(uint32_t sizeIncludingFooter, uint32_t alignment) {
	uintptr_t mask = alignment - 1;

	restart:
	uint32_t skipOverhead = 0;
	const bool needsSkipFooter = fCursor != fDtorCursor;
	if (needsSkipFooter) {
	skipOverhead = sizeof(Footer) + sizeof(uint32_t);
	}
	const uint32_t totalSize = sizeIncludingFooter + skipOverhead;

	// Math on null fCursor/fEnd is undefined behavior, so explicitly check for first alloc.
	if (!fCursor) {
	this->ensureSpace(totalSize, alignment);
	goto restart;
	}

	assert(fEnd);
	// This test alone would be enough nullptr were defined to be 0, but it's not.
	char* objStart = (char*)((uintptr_t)(fCursor + skipOverhead + mask) & ~mask);
	if ((ptrdiff_t)totalSize > fEnd - objStart) {
	this->ensureSpace(totalSize, alignment);
	goto restart;
	}

	AssertRelease((ptrdiff_t)totalSize <= fEnd - objStart);

	// Install a skip footer if needed, thus terminating a run of POD data. The calling code is
	// responsible for installing the footer after the object.
	if (needsSkipFooter) {
	this->installRaw(SkToU32(fCursor - fDtorCursor));
	this->installFooter(SkipPod, 0);
	}

	return objStart;
	}

	SkArenaAllocWithReset::SkArenaAllocWithReset(char* block,
	size_t size,
	size_t firstHeapAllocation)
	: SkArenaAlloc(block, size, firstHeapAllocation)
	, fFirstBlock{block}
	, fFirstSize{SkToU32(size)}
	, fFirstHeapAllocationSize{SkToU32(firstHeapAllocation)} {}

	void SkArenaAllocWithReset::reset() {
	this->~SkArenaAllocWithReset();
	new (this) SkArenaAllocWithReset{fFirstBlock, fFirstSize, fFirstHeapAllocationSize};
	}

	// SkFibonacci47 is the first 47 Fibonacci numbers. Fib(47) is the largest value less than 2 ^ 32.
	// Used by SkFibBlockSizes.
	std::array<const uint32_t, 47> SkFibonacci47 {
	1, 1, 2, 3, 5, 8,
	13, 21, 34, 55, 89, 144,
	233, 377, 610, 987, 1597, 2584,
	4181, 6765, 10946, 17711, 28657, 46368,
	75025, 121393, 196418, 317811, 514229, 832040,
	1346269, 2178309, 3524578, 5702887, 9227465, 14930352,
	24157817, 39088169, 63245986, 102334155, 165580141, 267914296,
	433494437, 701408733, 1134903170, 1836311903, 2971215073,
	};