tests/DynamicHashTest.cpp - platform/external/skqp - Gitiles

 /*
  * Copyright 2013 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #include "SkTDynamicHash.h"
 #include "Test.h"

 namespace {

 struct Entry {
     int key;
     double value;

     static const int& GetKey(const Entry& entry) { return entry.key; }
     static uint32_t Hash(const int& key) { return key; }
 };


 class Hash : public SkTDynamicHash<Entry, int> {
 public:
     Hash() : INHERITED() {}

     // Promote protected methods to public for this test.
     int capacity() const { return this->INHERITED::capacity(); }
     int countCollisions(const int& key) const { return this->INHERITED::countCollisions(key); }

 private:
     typedef SkTDynamicHash<Entry, int> INHERITED;
 };

 }  // namespace

 #define ASSERT(x) REPORTER_ASSERT(reporter, x)

 DEF_TEST(DynamicHash_growth, reporter) {
     Entry a = { 1, 2.0 };
     Entry b = { 2, 3.0 };
     Entry c = { 3, 4.0 };
     Entry d = { 4, 5.0 };
     Entry e = { 5, 6.0 };

     Hash hash;
     ASSERT(hash.capacity() == 0);

     hash.add(&a);
     ASSERT(hash.capacity() == 4);

     hash.add(&b);
     ASSERT(hash.capacity() == 4);

     hash.add(&c);
     ASSERT(hash.capacity() == 4);

     hash.add(&d);
     ASSERT(hash.capacity() == 8);

     hash.add(&e);
     ASSERT(hash.capacity() == 8);

     ASSERT(hash.count() == 5);
 }

 DEF_TEST(DynamicHash_add, reporter) {
     Hash hash;
     Entry a = { 1, 2.0 };
     Entry b = { 2, 3.0 };

     ASSERT(hash.count() == 0);
     hash.add(&a);
     ASSERT(hash.count() == 1);
     hash.add(&b);
     ASSERT(hash.count() == 2);
 }

 DEF_TEST(DynamicHash_lookup, reporter) {
     Hash hash;

     // These collide.
     Entry a = { 1, 2.0 };
     Entry b = { 5, 3.0 };

     // Before we insert anything, nothing can collide.
     ASSERT(hash.countCollisions(1) == 0);
     ASSERT(hash.countCollisions(5) == 0);
     ASSERT(hash.countCollisions(9) == 0);

     // First is easy.
     hash.add(&a);
     ASSERT(hash.countCollisions(1) == 0);
     ASSERT(hash.countCollisions(5) == 1);
     ASSERT(hash.countCollisions(9) == 1);

     // Second is one step away.
     hash.add(&b);
     ASSERT(hash.countCollisions(1) == 0);
     ASSERT(hash.countCollisions(5) == 1);
     ASSERT(hash.countCollisions(9) == 2);

     // We can find our data right?
     ASSERT(hash.find(1) != nullptr);
     ASSERT(hash.find(1)->value == 2.0);
     ASSERT(hash.find(5) != nullptr);
     ASSERT(hash.find(5)->value == 3.0);

     // These aren't in the hash.
     ASSERT(hash.find(2) == nullptr);
     ASSERT(hash.find(9) == nullptr);
 }

 DEF_TEST(DynamicHash_remove, reporter) {
     Hash hash;

     // These collide.
     Entry a = { 1, 2.0 };
     Entry b = { 5, 3.0 };
     Entry c = { 9, 4.0 };

     hash.add(&a);
     hash.add(&b);
     hash.remove(1);
     // a should be marked deleted, and b should still be findable.

     ASSERT(hash.find(1) == nullptr);
     ASSERT(hash.find(5) != nullptr);
     ASSERT(hash.find(5)->value == 3.0);

     // This will go in the same slot as 'a' did before.
     ASSERT(hash.countCollisions(9) == 0);
     hash.add(&c);
     ASSERT(hash.find(9) != nullptr);
     ASSERT(hash.find(9)->value == 4.0);
     ASSERT(hash.find(5) != nullptr);
     ASSERT(hash.find(5)->value == 3.0);
 }

 template<typename T> static void TestIter(skiatest::Reporter* reporter) {
     Hash hash;

     int count = 0;
     // this should fall out of loop immediately
     for (T iter(&hash); !iter.done(); ++iter) {
         ++count;
     }
     ASSERT(0 == count);

     // These collide.
     Entry a = { 1, 2.0 };
     Entry b = { 5, 3.0 };
     Entry c = { 9, 4.0 };

     hash.add(&a);
     hash.add(&b);
     hash.add(&c);

     // should see all 3 unique keys when iterating over hash
     count = 0;
     int keys[3] = {0, 0, 0};
     for (T iter(&hash); !iter.done(); ++iter) {
         int key = (*iter).key;
         keys[count] = key;
         ASSERT(hash.find(key) != nullptr);
         ++count;
     }
     ASSERT(3 == count);
     ASSERT(keys[0] != keys[1]);
     ASSERT(keys[0] != keys[2]);
     ASSERT(keys[1] != keys[2]);

     // should see 2 unique keys when iterating over hash that aren't 1
     hash.remove(1);
     count = 0;
     memset(keys, 0, sizeof(keys));
     for (T iter(&hash); !iter.done(); ++iter) {
         int key = (*iter).key;
         keys[count] = key;
         ASSERT(key != 1);
         ASSERT(hash.find(key) != nullptr);
         ++count;
     }
     ASSERT(2 == count);
     ASSERT(keys[0] != keys[1]);
 }

 DEF_TEST(DynamicHash_iterator, reporter) {
     TestIter<Hash::Iter>(reporter);
     TestIter<Hash::ConstIter>(reporter);
 }

 static void TestResetOrRewind(skiatest::Reporter* reporter, bool testReset) {
     Hash hash;
     Entry a = { 1, 2.0 };
     Entry b = { 2, 3.0 };

     ASSERT(hash.capacity() == 0);
     hash.add(&a);
     hash.add(&b);
     ASSERT(hash.count() == 2);
     ASSERT(hash.capacity() == 4);

     if (testReset) {
         hash.reset();
         ASSERT(hash.capacity() == 0);
     } else {
         hash.rewind();
         ASSERT(hash.capacity() == 4);
     }
     ASSERT(hash.count() == 0);

     // make sure things still work
     hash.add(&a);
     hash.add(&b);
     ASSERT(hash.count() == 2);
     ASSERT(hash.capacity() == 4);

     ASSERT(hash.find(1) != nullptr);
     ASSERT(hash.find(2) != nullptr);
 }

 DEF_TEST(DynamicHash_reset, reporter) {
     TestResetOrRewind(reporter, true);
 }

 DEF_TEST(DynamicHash_rewind, reporter) {
     TestResetOrRewind(reporter, false);
 }
	/*
	* Copyright 2013 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#include "SkTDynamicHash.h"
	#include "Test.h"

	namespace {

	struct Entry {
	int key;
	double value;

	static const int& GetKey(const Entry& entry) { return entry.key; }
	static uint32_t Hash(const int& key) { return key; }
	};


	class Hash : public SkTDynamicHash<Entry, int> {
	public:
	Hash() : INHERITED() {}

	// Promote protected methods to public for this test.
	int capacity() const { return this->INHERITED::capacity(); }
	int countCollisions(const int& key) const { return this->INHERITED::countCollisions(key); }

	private:
	typedef SkTDynamicHash<Entry, int> INHERITED;
	};

	} // namespace

	#define ASSERT(x) REPORTER_ASSERT(reporter, x)

	DEF_TEST(DynamicHash_growth, reporter) {
	Entry a = { 1, 2.0 };
	Entry b = { 2, 3.0 };
	Entry c = { 3, 4.0 };
	Entry d = { 4, 5.0 };
	Entry e = { 5, 6.0 };

	Hash hash;
	ASSERT(hash.capacity() == 0);

	hash.add(&a);
	ASSERT(hash.capacity() == 4);

	hash.add(&b);
	ASSERT(hash.capacity() == 4);

	hash.add(&c);
	ASSERT(hash.capacity() == 4);

	hash.add(&d);
	ASSERT(hash.capacity() == 8);

	hash.add(&e);
	ASSERT(hash.capacity() == 8);

	ASSERT(hash.count() == 5);
	}

	DEF_TEST(DynamicHash_add, reporter) {
	Hash hash;
	Entry a = { 1, 2.0 };
	Entry b = { 2, 3.0 };

	ASSERT(hash.count() == 0);
	hash.add(&a);
	ASSERT(hash.count() == 1);
	hash.add(&b);
	ASSERT(hash.count() == 2);
	}

	DEF_TEST(DynamicHash_lookup, reporter) {
	Hash hash;

	// These collide.
	Entry a = { 1, 2.0 };
	Entry b = { 5, 3.0 };

	// Before we insert anything, nothing can collide.
	ASSERT(hash.countCollisions(1) == 0);
	ASSERT(hash.countCollisions(5) == 0);
	ASSERT(hash.countCollisions(9) == 0);

	// First is easy.
	hash.add(&a);
	ASSERT(hash.countCollisions(1) == 0);
	ASSERT(hash.countCollisions(5) == 1);
	ASSERT(hash.countCollisions(9) == 1);

	// Second is one step away.
	hash.add(&b);
	ASSERT(hash.countCollisions(1) == 0);
	ASSERT(hash.countCollisions(5) == 1);
	ASSERT(hash.countCollisions(9) == 2);

	// We can find our data right?
	ASSERT(hash.find(1) != nullptr);
	ASSERT(hash.find(1)->value == 2.0);
	ASSERT(hash.find(5) != nullptr);
	ASSERT(hash.find(5)->value == 3.0);

	// These aren't in the hash.
	ASSERT(hash.find(2) == nullptr);
	ASSERT(hash.find(9) == nullptr);
	}

	DEF_TEST(DynamicHash_remove, reporter) {
	Hash hash;

	// These collide.
	Entry a = { 1, 2.0 };
	Entry b = { 5, 3.0 };
	Entry c = { 9, 4.0 };

	hash.add(&a);
	hash.add(&b);
	hash.remove(1);
	// a should be marked deleted, and b should still be findable.

	ASSERT(hash.find(1) == nullptr);
	ASSERT(hash.find(5) != nullptr);
	ASSERT(hash.find(5)->value == 3.0);

	// This will go in the same slot as 'a' did before.
	ASSERT(hash.countCollisions(9) == 0);
	hash.add(&c);
	ASSERT(hash.find(9) != nullptr);
	ASSERT(hash.find(9)->value == 4.0);
	ASSERT(hash.find(5) != nullptr);
	ASSERT(hash.find(5)->value == 3.0);
	}

	template<typename T> static void TestIter(skiatest::Reporter* reporter) {
	Hash hash;

	int count = 0;
	// this should fall out of loop immediately
	for (T iter(&hash); !iter.done(); ++iter) {
	++count;
	}
	ASSERT(0 == count);

	// These collide.
	Entry a = { 1, 2.0 };
	Entry b = { 5, 3.0 };
	Entry c = { 9, 4.0 };

	hash.add(&a);
	hash.add(&b);
	hash.add(&c);

	// should see all 3 unique keys when iterating over hash
	count = 0;
	int keys[3] = {0, 0, 0};
	for (T iter(&hash); !iter.done(); ++iter) {
	int key = (*iter).key;
	keys[count] = key;
	ASSERT(hash.find(key) != nullptr);
	++count;
	}
	ASSERT(3 == count);
	ASSERT(keys[0] != keys[1]);
	ASSERT(keys[0] != keys[2]);
	ASSERT(keys[1] != keys[2]);

	// should see 2 unique keys when iterating over hash that aren't 1
	hash.remove(1);
	count = 0;
	memset(keys, 0, sizeof(keys));
	for (T iter(&hash); !iter.done(); ++iter) {
	int key = (*iter).key;
	keys[count] = key;
	ASSERT(key != 1);
	ASSERT(hash.find(key) != nullptr);
	++count;
	}
	ASSERT(2 == count);
	ASSERT(keys[0] != keys[1]);
	}

	DEF_TEST(DynamicHash_iterator, reporter) {
	TestIter<Hash::Iter>(reporter);
	TestIter<Hash::ConstIter>(reporter);
	}

	static void TestResetOrRewind(skiatest::Reporter* reporter, bool testReset) {
	Hash hash;
	Entry a = { 1, 2.0 };
	Entry b = { 2, 3.0 };

	ASSERT(hash.capacity() == 0);
	hash.add(&a);
	hash.add(&b);
	ASSERT(hash.count() == 2);
	ASSERT(hash.capacity() == 4);

	if (testReset) {
	hash.reset();
	ASSERT(hash.capacity() == 0);
	} else {
	hash.rewind();
	ASSERT(hash.capacity() == 4);
	}
	ASSERT(hash.count() == 0);

	// make sure things still work
	hash.add(&a);
	hash.add(&b);
	ASSERT(hash.count() == 2);
	ASSERT(hash.capacity() == 4);

	ASSERT(hash.find(1) != nullptr);
	ASSERT(hash.find(2) != nullptr);
	}

	DEF_TEST(DynamicHash_reset, reporter) {
	TestResetOrRewind(reporter, true);
	}

	DEF_TEST(DynamicHash_rewind, reporter) {
	TestResetOrRewind(reporter, false);
	}