tests/ArenaAllocTest.cpp - platform/external/skia - Gitiles

 /*
  * 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 "include/core/SkRefCnt.h"
 #include "include/core/SkTypes.h"
 #include "src/core/SkArenaAlloc.h"
 #include "tests/Test.h"

 #include <memory>
 #include <new>
 #include <type_traits>

 DEF_TEST(ArenaAlloc, r) {
     static int created = 0,
                destroyed = 0;

     struct Foo {
         Foo() : x(-2), y(-3.0f) { created++; }
         Foo(int X, float Y) : x(X), y(Y) { created++; }
         ~Foo() { destroyed++; }
         int x;
         float y;
     };

     struct alignas(8) OddAlignment {
         char buf[10];
     };

     created = 0;
     destroyed = 0;
     {
         SkArenaAlloc arena{0};
         REPORTER_ASSERT(r, *arena.make<int>(3) == 3);
         Foo* foo = arena.make<Foo>(3, 4.0f);
         REPORTER_ASSERT(r, foo->x == 3);
         REPORTER_ASSERT(r, foo->y == 4.0f);
         REPORTER_ASSERT(r, created == 1);
         REPORTER_ASSERT(r, destroyed == 0);
         arena.makeArrayDefault<int>(10);
         int* zeroed = arena.makeArray<int>(10);
         for (int i = 0; i < 10; i++) {
             REPORTER_ASSERT(r, zeroed[i] == 0);
         }
         Foo* fooArray = arena.makeArrayDefault<Foo>(10);
         REPORTER_ASSERT(r, fooArray[3].x == -2);
         REPORTER_ASSERT(r, fooArray[4].y == -3.0f);
         REPORTER_ASSERT(r, created == 11);
         REPORTER_ASSERT(r, destroyed == 0);
         arena.make<OddAlignment>();
     }
     REPORTER_ASSERT(r, created == 11);
     REPORTER_ASSERT(r, destroyed == 11);

     created = 0;
     destroyed = 0;
     {
         SkSTArenaAlloc<64> arena;
         REPORTER_ASSERT(r, *arena.make<int>(3) == 3);
         Foo* foo = arena.make<Foo>(3, 4.0f);
         REPORTER_ASSERT(r, foo->x == 3);
         REPORTER_ASSERT(r, foo->y == 4.0f);
         REPORTER_ASSERT(r, created == 1);
         REPORTER_ASSERT(r, destroyed == 0);
         arena.makeArrayDefault<int>(10);
         int* zeroed = arena.makeArray<int>(10);
         for (int i = 0; i < 10; i++) {
             REPORTER_ASSERT(r, zeroed[i] == 0);
         }
         Foo* fooArray = arena.makeArrayDefault<Foo>(10);
         REPORTER_ASSERT(r, fooArray[3].x == -2);
         REPORTER_ASSERT(r, fooArray[4].y == -3.0f);
         REPORTER_ASSERT(r, created == 11);
         REPORTER_ASSERT(r, destroyed == 0);
         arena.make<OddAlignment>();
     }
     REPORTER_ASSERT(r, created == 11);
     REPORTER_ASSERT(r, destroyed == 11);

     created = 0;
     destroyed = 0;
     {
         std::unique_ptr<char[]> block{new char[1024]};
         SkArenaAlloc arena{block.get(), 1024, 0};
         REPORTER_ASSERT(r, *arena.make<int>(3) == 3);
         Foo* foo = arena.make<Foo>(3, 4.0f);
         REPORTER_ASSERT(r, foo->x == 3);
         REPORTER_ASSERT(r, foo->y == 4.0f);
         REPORTER_ASSERT(r, created == 1);
         REPORTER_ASSERT(r, destroyed == 0);
         arena.makeArrayDefault<int>(10);
         int* zeroed = arena.makeArray<int>(10);
         for (int i = 0; i < 10; i++) {
             REPORTER_ASSERT(r, zeroed[i] == 0);
         }
         Foo* fooArray = arena.makeArrayDefault<Foo>(10);
         REPORTER_ASSERT(r, fooArray[3].x == -2);
         REPORTER_ASSERT(r, fooArray[4].y == -3.0f);
         REPORTER_ASSERT(r, created == 11);
         REPORTER_ASSERT(r, destroyed == 0);
         arena.make<OddAlignment>();
     }
     REPORTER_ASSERT(r, created == 11);
     REPORTER_ASSERT(r, destroyed == 11);

     {
         SkSTArenaAllocWithReset<64> arena;
         arena.makeArrayDefault<char>(256);
         arena.reset();
         arena.reset();
     }

     // Make sure that multiple blocks are handled correctly.
     created = 0;
     destroyed = 0;
     {
         struct Node {
             Node(Node* n) : next(n) { created++; }
             ~Node() { destroyed++; }
             Node *next;
             char filler[64];
         };

         SkSTArenaAlloc<64> arena;
         Node* current = nullptr;
         for (int i = 0; i < 128; i++) {
             current = arena.make<Node>(current);
         }
     }
     REPORTER_ASSERT(r, created == 128);
     REPORTER_ASSERT(r, destroyed == 128);

     // Make sure that objects and blocks are destroyed in the correct order. If they are not,
     // then there will be a use after free error in asan.
     created = 0;
     destroyed = 0;
     {
         struct Node {
             Node(Node* n) : next(n) { created++; }
             ~Node() {
                 destroyed++;
                 if (next) {
                     next->~Node();
                 }
             }
             Node *next;
         };

         SkSTArenaAlloc<64> arena;
         Node* current = nullptr;
         for (int i = 0; i < 128; i++) {
             uint64_t* temp = arena.makeArrayDefault<uint64_t>(sizeof(Node) / sizeof(Node*));
             current = new (temp)Node(current);
         }
         current->~Node();
     }
     REPORTER_ASSERT(r, created == 128);
     REPORTER_ASSERT(r, destroyed == 128);

     {
         SkSTArenaAlloc<64> arena;
         auto a = arena.makeInitializedArray<int>(8, [](size_t i ) { return i; });
         for (size_t i = 0; i < 8; i++) {
             REPORTER_ASSERT(r, a[i] == (int)i);
         }
     }

     {
         SkArenaAlloc arena(4096);
         // Move to a 1 character boundary.
         arena.make<char>();
         // Allocate something with interesting alignment.
         void* ptr = arena.makeBytesAlignedTo(4081, 8);
         REPORTER_ASSERT(r, ((intptr_t)ptr & 7) == 0);
     }
 }

 DEF_TEST(SkFibBlockSizes, r) {
     {
         SkFibBlockSizes<std::numeric_limits<uint32_t>::max()> fibs{1, 1};
         uint32_t lastSize = 1;
         for (int i = 0; i < 64; i++) {
             uint32_t size = fibs.nextBlockSize();
             REPORTER_ASSERT(r, lastSize <= size);
             lastSize = size;
         }
         REPORTER_ASSERT(r, lastSize == 2971215073u);
     }
     {
         SkFibBlockSizes<std::numeric_limits<uint32_t>::max()> fibs{0, 1024};
         uint32_t lastSize = 1;
         for (int i = 0; i < 64; i++) {
             uint32_t size = fibs.nextBlockSize();
             REPORTER_ASSERT(r, lastSize <= size);
             lastSize = size;
             REPORTER_ASSERT(r, lastSize <= std::numeric_limits<uint32_t>::max());
         }
         REPORTER_ASSERT(r, lastSize == 3524578u * 1024);
     }

     {
         SkFibBlockSizes<std::numeric_limits<uint32_t>::max() / 2> fibs{1024, 0};
         uint32_t lastSize = 1;
         for (int i = 0; i < 64; i++) {
             uint32_t size = fibs.nextBlockSize();
             REPORTER_ASSERT(r, lastSize <= size);
             lastSize = size;
             REPORTER_ASSERT(r, lastSize <= std::numeric_limits<uint32_t>::max() / 2);
         }
         REPORTER_ASSERT(r, lastSize == 1346269u * 1024);
     }
 }
	/*
	* 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 "include/core/SkRefCnt.h"
	#include "include/core/SkTypes.h"
	#include "src/core/SkArenaAlloc.h"
	#include "tests/Test.h"

	#include <memory>
	#include <new>
	#include <type_traits>

	DEF_TEST(ArenaAlloc, r) {
	static int created = 0,
	destroyed = 0;

	struct Foo {
	Foo() : x(-2), y(-3.0f) { created++; }
	Foo(int X, float Y) : x(X), y(Y) { created++; }
	~Foo() { destroyed++; }
	int x;
	float y;
	};

	struct alignas(8) OddAlignment {
	char buf[10];
	};

	created = 0;
	destroyed = 0;
	{
	SkArenaAlloc arena{0};
	REPORTER_ASSERT(r, *arena.make<int>(3) == 3);
	Foo* foo = arena.make<Foo>(3, 4.0f);
	REPORTER_ASSERT(r, foo->x == 3);
	REPORTER_ASSERT(r, foo->y == 4.0f);
	REPORTER_ASSERT(r, created == 1);
	REPORTER_ASSERT(r, destroyed == 0);
	arena.makeArrayDefault<int>(10);
	int* zeroed = arena.makeArray<int>(10);
	for (int i = 0; i < 10; i++) {
	REPORTER_ASSERT(r, zeroed[i] == 0);
	}
	Foo* fooArray = arena.makeArrayDefault<Foo>(10);
	REPORTER_ASSERT(r, fooArray[3].x == -2);
	REPORTER_ASSERT(r, fooArray[4].y == -3.0f);
	REPORTER_ASSERT(r, created == 11);
	REPORTER_ASSERT(r, destroyed == 0);
	arena.make<OddAlignment>();
	}
	REPORTER_ASSERT(r, created == 11);
	REPORTER_ASSERT(r, destroyed == 11);

	created = 0;
	destroyed = 0;
	{
	SkSTArenaAlloc<64> arena;
	REPORTER_ASSERT(r, *arena.make<int>(3) == 3);
	Foo* foo = arena.make<Foo>(3, 4.0f);
	REPORTER_ASSERT(r, foo->x == 3);
	REPORTER_ASSERT(r, foo->y == 4.0f);
	REPORTER_ASSERT(r, created == 1);
	REPORTER_ASSERT(r, destroyed == 0);
	arena.makeArrayDefault<int>(10);
	int* zeroed = arena.makeArray<int>(10);
	for (int i = 0; i < 10; i++) {
	REPORTER_ASSERT(r, zeroed[i] == 0);
	}
	Foo* fooArray = arena.makeArrayDefault<Foo>(10);
	REPORTER_ASSERT(r, fooArray[3].x == -2);
	REPORTER_ASSERT(r, fooArray[4].y == -3.0f);
	REPORTER_ASSERT(r, created == 11);
	REPORTER_ASSERT(r, destroyed == 0);
	arena.make<OddAlignment>();
	}
	REPORTER_ASSERT(r, created == 11);
	REPORTER_ASSERT(r, destroyed == 11);

	created = 0;
	destroyed = 0;
	{
	std::unique_ptr<char[]> block{new char[1024]};
	SkArenaAlloc arena{block.get(), 1024, 0};
	REPORTER_ASSERT(r, *arena.make<int>(3) == 3);
	Foo* foo = arena.make<Foo>(3, 4.0f);
	REPORTER_ASSERT(r, foo->x == 3);
	REPORTER_ASSERT(r, foo->y == 4.0f);
	REPORTER_ASSERT(r, created == 1);
	REPORTER_ASSERT(r, destroyed == 0);
	arena.makeArrayDefault<int>(10);
	int* zeroed = arena.makeArray<int>(10);
	for (int i = 0; i < 10; i++) {
	REPORTER_ASSERT(r, zeroed[i] == 0);
	}
	Foo* fooArray = arena.makeArrayDefault<Foo>(10);
	REPORTER_ASSERT(r, fooArray[3].x == -2);
	REPORTER_ASSERT(r, fooArray[4].y == -3.0f);
	REPORTER_ASSERT(r, created == 11);
	REPORTER_ASSERT(r, destroyed == 0);
	arena.make<OddAlignment>();
	}
	REPORTER_ASSERT(r, created == 11);
	REPORTER_ASSERT(r, destroyed == 11);

	{
	SkSTArenaAllocWithReset<64> arena;
	arena.makeArrayDefault<char>(256);
	arena.reset();
	arena.reset();
	}

	// Make sure that multiple blocks are handled correctly.
	created = 0;
	destroyed = 0;
	{
	struct Node {
	Node(Node* n) : next(n) { created++; }
	~Node() { destroyed++; }
	Node *next;
	char filler[64];
	};

	SkSTArenaAlloc<64> arena;
	Node* current = nullptr;
	for (int i = 0; i < 128; i++) {
	current = arena.make<Node>(current);
	}
	}
	REPORTER_ASSERT(r, created == 128);
	REPORTER_ASSERT(r, destroyed == 128);

	// Make sure that objects and blocks are destroyed in the correct order. If they are not,
	// then there will be a use after free error in asan.
	created = 0;
	destroyed = 0;
	{
	struct Node {
	Node(Node* n) : next(n) { created++; }
	~Node() {
	destroyed++;
	if (next) {
	next->~Node();
	}
	}
	Node *next;
	};

	SkSTArenaAlloc<64> arena;
	Node* current = nullptr;
	for (int i = 0; i < 128; i++) {
	uint64_t* temp = arena.makeArrayDefault<uint64_t>(sizeof(Node) / sizeof(Node*));
	current = new (temp)Node(current);
	}
	current->~Node();
	}
	REPORTER_ASSERT(r, created == 128);
	REPORTER_ASSERT(r, destroyed == 128);

	{
	SkSTArenaAlloc<64> arena;
	auto a = arena.makeInitializedArray<int>(8, [](size_t i ) { return i; });
	for (size_t i = 0; i < 8; i++) {
	REPORTER_ASSERT(r, a[i] == (int)i);
	}
	}

	{
	SkArenaAlloc arena(4096);
	// Move to a 1 character boundary.
	arena.make<char>();
	// Allocate something with interesting alignment.
	void* ptr = arena.makeBytesAlignedTo(4081, 8);
	REPORTER_ASSERT(r, ((intptr_t)ptr & 7) == 0);
	}
	}

	DEF_TEST(SkFibBlockSizes, r) {
	{
	SkFibBlockSizes<std::numeric_limits<uint32_t>::max()> fibs{1, 1};
	uint32_t lastSize = 1;
	for (int i = 0; i < 64; i++) {
	uint32_t size = fibs.nextBlockSize();
	REPORTER_ASSERT(r, lastSize <= size);
	lastSize = size;
	}
	REPORTER_ASSERT(r, lastSize == 2971215073u);
	}
	{
	SkFibBlockSizes<std::numeric_limits<uint32_t>::max()> fibs{0, 1024};
	uint32_t lastSize = 1;
	for (int i = 0; i < 64; i++) {
	uint32_t size = fibs.nextBlockSize();
	REPORTER_ASSERT(r, lastSize <= size);
	lastSize = size;
	REPORTER_ASSERT(r, lastSize <= std::numeric_limits<uint32_t>::max());
	}
	REPORTER_ASSERT(r, lastSize == 3524578u * 1024);
	}

	{
	SkFibBlockSizes<std::numeric_limits<uint32_t>::max() / 2> fibs{1024, 0};
	uint32_t lastSize = 1;
	for (int i = 0; i < 64; i++) {
	uint32_t size = fibs.nextBlockSize();
	REPORTER_ASSERT(r, lastSize <= size);
	lastSize = size;
	REPORTER_ASSERT(r, lastSize <= std::numeric_limits<uint32_t>::max() / 2);
	}
	REPORTER_ASSERT(r, lastSize == 1346269u * 1024);
	}
	}