kc3-lang/angle/src/libANGLE/HandleAllocator_unittest.cpp

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• Author : Jamie Madill
  Date : 2017-06-27 16:49:21
  Hash : 96a483bc
  Message : Add a ResourceMap class for faster GL resource maps. This gives a very fast query time for handles that are within a fixed range. For WebGL, where we don't allow create-on-bind, this will be 100% of the time, unless we create a very large number of resources. It is implemented as a two-tier map - the first uses a flat array to index into a handle buffer. The second tier uses a map for out-of- range values. BUG=angleproject:1458 Change-Id: I421bb3725cf523918cdfdbfaab035ad0dd3bf82d Reviewed-on: https://chromium-review.googlesource.com/544684 Commit-Queue: Jamie Madill <jmadill@chromium.org> Reviewed-by: Corentin Wallez <cwallez@chromium.org>

• src/libANGLE/HandleAllocator_unittest.cpp

• //
  // Copyright 2015 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.
  //
  // Unit tests for HandleAllocator.
  //
  
  #include "gmock/gmock.h"
  #include "gtest/gtest.h"
  
  #include "libANGLE/HandleAllocator.h"
  
  namespace
  {
  
  TEST(HandleAllocatorTest, ReservationsWithGaps)
  {
      gl::HandleAllocator allocator;
  
      std::set<GLuint> allocationList;
      for (GLuint id = 2; id < 50; id += 2)
      {
          allocationList.insert(id);
      }
  
      for (GLuint id : allocationList)
      {
          allocator.reserve(id);
      }
  
      std::set<GLuint> allocatedList;
      for (size_t allocationNum = 0; allocationNum < allocationList.size() * 2; ++allocationNum)
      {
          GLuint handle = allocator.allocate();
          EXPECT_EQ(0u, allocationList.count(handle));
          EXPECT_EQ(0u, allocatedList.count(handle));
          allocatedList.insert(handle);
      }
  }
  
  TEST(HandleAllocatorTest, Random)
  {
      gl::HandleAllocator allocator;
  
      std::set<GLuint> allocationList;
      for (size_t iterationCount = 0; iterationCount < 40; ++iterationCount)
      {
          for (size_t randomCount = 0; randomCount < 40; ++randomCount)
          {
              GLuint randomHandle = (rand() % 1000) + 1;
              if (allocationList.count(randomHandle) == 0)
              {
                  allocator.reserve(randomHandle);
                  allocationList.insert(randomHandle);
              }
          }
  
          for (size_t normalCount = 0; normalCount < 40; ++normalCount)
          {
              GLuint normalHandle = allocator.allocate();
              EXPECT_EQ(0u, allocationList.count(normalHandle));
              allocationList.insert(normalHandle);
          }
      }
  }
  
  TEST(HandleAllocatorTest, Reallocation)
  {
      // Note: no current test for overflow
      gl::HandleAllocator limitedAllocator(10);
  
      for (GLuint count = 1; count < 10; count++)
      {
          GLuint result = limitedAllocator.allocate();
          EXPECT_EQ(count, result);
      }
  
      for (GLuint count = 1; count < 10; count++)
      {
          limitedAllocator.release(count);
      }
  
      for (GLuint count = 2; count < 10; count++)
      {
          limitedAllocator.reserve(count);
      }
  
      GLint finalResult = limitedAllocator.allocate();
      EXPECT_EQ(finalResult, 1);
  }
  
  // The following test covers reserving a handle with max uint value. See http://anglebug.com/1052
  TEST(HandleAllocatorTest, ReserveMaxUintHandle)
  {
      gl::HandleAllocator allocator;
  
      GLuint maxUintHandle = std::numeric_limits<GLuint>::max();
      allocator.reserve(maxUintHandle);
  
      GLuint normalHandle = allocator.allocate();
      EXPECT_EQ(1u, normalHandle);
  }
  
  // The following test covers reserving a handle with max uint value minus one then max uint value.
  TEST(HandleAllocatorTest, ReserveMaxUintHandle2)
  {
      gl::HandleAllocator allocator;
  
      GLuint maxUintHandle = std::numeric_limits<GLuint>::max();
      allocator.reserve(maxUintHandle - 1);
      allocator.reserve(maxUintHandle);
  
      GLuint normalHandle = allocator.allocate();
      EXPECT_EQ(1u, normalHandle);
  }
  
  // To test if the allocator keep the handle in a sorted order.
  TEST(HandleAllocatorTest, SortedOrderHandle)
  {
      gl::HandleAllocator allocator;
  
      allocator.reserve(3);
  
      GLuint allocatedList[5];
      for (GLuint count = 0; count < 5; count++)
      {
          allocatedList[count] = allocator.allocate();
      }
  
      EXPECT_EQ(1u, allocatedList[0]);
      EXPECT_EQ(2u, allocatedList[1]);
      EXPECT_EQ(4u, allocatedList[2]);
      EXPECT_EQ(5u, allocatedList[3]);
      EXPECT_EQ(6u, allocatedList[4]);
  }
  
  // Tests the reset method.
  TEST(HandleAllocatorTest, Reset)
  {
      gl::HandleAllocator allocator;
  
      for (int iteration = 0; iteration < 1; ++iteration)
      {
          allocator.reserve(3);
          EXPECT_EQ(1u, allocator.allocate());
          EXPECT_EQ(2u, allocator.allocate());
          EXPECT_EQ(4u, allocator.allocate());
          allocator.reset();
      }
  }
  
  }  // anonymous namespace