kc3-lang/angle/src/tests/gl_tests/ViewportTest.cpp

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• Hash : 5cbaa3f8
  Author :
  Date : 2019-05-07T15:49:22
  

  Don't inherit ANGLETest SetUp and TearDown.
  
  Instead of inheriting from testing::Test's SetUp and TearDown we add
  new methods 'testSetUp' and 'testTearDown'. This helps prevent a common
  error of forgetting to call the base class method.
  
  Also add a check in the ANGLETest destructor that SetUp and TearDown
  have been called.
  
  Bug: angleproject:3393
  Change-Id: Iab211305cc06ffea9ca649e864ddc9b180f2cba0
  Reviewed-on: https://chromium-review.googlesource.com/c/angle/angle/+/1593960
  Reviewed-by: Geoff Lang <geofflang@chromium.org>
  Commit-Queue: Jamie Madill <jmadill@chromium.org>
  

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• src/tests/gl_tests/ViewportTest.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.
  //
  
  #include "test_utils/ANGLETest.h"
  #include "test_utils/gl_raii.h"
  
  using namespace angle;
  
  namespace
  {
  
  class ViewportTest : public ANGLETest
  {
    protected:
      ViewportTest()
      {
          setWindowWidth(512);
          setWindowHeight(512);
          setConfigRedBits(8);
          setConfigGreenBits(8);
          setConfigBlueBits(8);
          setConfigAlphaBits(8);
          setConfigDepthBits(24);
  
          mProgram = 0;
      }
  
      void runNonScissoredTest()
      {
          glClearColor(0, 0, 0, 1);
          glClear(GL_COLOR_BUFFER_BIT);
  
          runTest();
      }
  
      void runScissoredTest()
      {
          glClearColor(0, 0, 0, 1);
          glClear(GL_COLOR_BUFFER_BIT);
  
          glEnable(GL_SCISSOR_TEST);
          glScissor(0, getWindowHeight() / 2, getWindowWidth(), getWindowHeight() / 2);
  
          runTest();
      }
  
      void runTest()
      {
          // Firstly ensure that no errors have been hit.
          EXPECT_GL_NO_ERROR();
  
          GLint viewportSize[4];
          glGetIntegerv(GL_VIEWPORT, viewportSize);
  
          // Clear to green. Might be a scissored clear, if scissorSize != window size
          glClearColor(0, 1, 0, 1);
          glClear(GL_COLOR_BUFFER_BIT);
  
          // Draw a red quad centered in the middle of the viewport, with dimensions 25% of the size
          // of the viewport.
          drawQuad(mProgram, essl1_shaders::PositionAttrib(), 0.5f, 0.25f);
  
          GLint centerViewportX = viewportSize[0] + (viewportSize[2] / 2);
          GLint centerViewportY = viewportSize[1] + (viewportSize[3] / 2);
  
          GLint redQuadLeftSideX   = viewportSize[0] + viewportSize[2] * 3 / 8;
          GLint redQuadRightSideX  = viewportSize[0] + viewportSize[2] * 5 / 8;
          GLint redQuadTopSideY    = viewportSize[1] + viewportSize[3] * 3 / 8;
          GLint redQuadBottomSideY = viewportSize[1] + viewportSize[3] * 5 / 8;
  
          // The midpoint of the viewport should be red.
          checkPixel(centerViewportX, centerViewportY, true);
  
          // Pixels just inside the red quad should be red.
          checkPixel(redQuadLeftSideX, redQuadTopSideY, true);
          checkPixel(redQuadLeftSideX, redQuadBottomSideY - 1, true);
          checkPixel(redQuadRightSideX - 1, redQuadTopSideY, true);
          checkPixel(redQuadRightSideX - 1, redQuadBottomSideY - 1, true);
  
          // Pixels just outside the red quad shouldn't be red.
          checkPixel(redQuadLeftSideX - 1, redQuadTopSideY - 1, false);
          checkPixel(redQuadLeftSideX - 1, redQuadBottomSideY, false);
          checkPixel(redQuadRightSideX, redQuadTopSideY - 1, false);
          checkPixel(redQuadRightSideX, redQuadBottomSideY, false);
  
          // Pixels just within the viewport shouldn't be red.
          checkPixel(viewportSize[0], viewportSize[1], false);
          checkPixel(viewportSize[0], viewportSize[1] + viewportSize[3] - 1, false);
          checkPixel(viewportSize[0] + viewportSize[2] - 1, viewportSize[1], false);
          checkPixel(viewportSize[0] + viewportSize[2] - 1, viewportSize[1] + viewportSize[3] - 1,
                     false);
      }
  
      void checkPixel(GLint x, GLint y, GLboolean renderedRed)
      {
          // By default, expect the pixel to be black.
          GLint expectedRedChannel   = 0;
          GLint expectedGreenChannel = 0;
  
          GLint scissorSize[4];
          glGetIntegerv(GL_SCISSOR_BOX, scissorSize);
  
          EXPECT_GL_NO_ERROR();
  
          if (scissorSize[0] <= x && x < scissorSize[0] + scissorSize[2] && scissorSize[1] <= y &&
              y < scissorSize[1] + scissorSize[3])
          {
              // If the pixel lies within the scissor rect, then it should have been cleared to green.
              // If we rendered a red square on top of it, then the pixel should be red (the green
              // channel will have been reset to 0).
              expectedRedChannel   = renderedRed ? 255 : 0;
              expectedGreenChannel = renderedRed ? 0 : 255;
          }
  
          // If the pixel is within the bounds of the window, then we check it. Otherwise we skip it.
          if (0 <= x && x < getWindowWidth() && 0 <= y && y < getWindowHeight())
          {
              EXPECT_PIXEL_EQ(x, y, expectedRedChannel, expectedGreenChannel, 0, 255);
          }
      }
  
      void testSetUp() override
      {
          mProgram = CompileProgram(essl1_shaders::vs::Simple(), essl1_shaders::fs::Red());
          if (mProgram == 0)
          {
              FAIL() << "shader compilation failed.";
          }
  
          glUseProgram(mProgram);
  
          glClearColor(0, 0, 0, 1);
          glClearDepthf(0.0);
          glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT);
  
          // Call glViewport and glScissor with default parameters.
          glScissor(0, 0, getWindowWidth(), getWindowHeight());
          glViewport(0, 0, getWindowWidth(), getWindowHeight());
  
          glDisable(GL_DEPTH_TEST);
      }
  
      void testTearDown() override { glDeleteProgram(mProgram); }
  
      GLuint mProgram;
  };
  
  TEST_P(ViewportTest, QuarterWindow)
  {
      glViewport(0, 0, getWindowWidth() / 4, getWindowHeight() / 4);
  
      runNonScissoredTest();
  
      runScissoredTest();
  }
  
  TEST_P(ViewportTest, QuarterWindowCentered)
  {
      glViewport(getWindowWidth() * 3 / 8, getWindowHeight() * 3 / 8, getWindowWidth() / 4,
                 getWindowHeight() / 4);
  
      runNonScissoredTest();
  
      runScissoredTest();
  }
  
  TEST_P(ViewportTest, FullWindow)
  {
      glViewport(0, 0, getWindowWidth(), getWindowHeight());
  
      runNonScissoredTest();
  
      runScissoredTest();
  }
  
  TEST_P(ViewportTest, FullWindowOffCenter)
  {
      glViewport(-getWindowWidth() / 2, getWindowHeight() / 2, getWindowWidth(), getWindowHeight());
  
      runNonScissoredTest();
  
      runScissoredTest();
  }
  
  TEST_P(ViewportTest, DoubleWindow)
  {
      glViewport(0, 0, getWindowWidth() * 2, getWindowHeight() * 2);
  
      runNonScissoredTest();
  
      runScissoredTest();
  }
  
  TEST_P(ViewportTest, DoubleWindowCentered)
  {
      glViewport(-getWindowWidth() / 2, -getWindowHeight() / 2, getWindowWidth() * 2,
                 getWindowHeight() * 2);
  
      runNonScissoredTest();
  
      runScissoredTest();
  }
  
  TEST_P(ViewportTest, DoubleWindowOffCenter)
  {
      glViewport(-getWindowWidth() * 3 / 4, getWindowHeight() * 3 / 4, getWindowWidth(),
                 getWindowHeight());
  
      runNonScissoredTest();
  
      runScissoredTest();
  }
  
  TEST_P(ViewportTest, TripleWindow)
  {
      glViewport(0, 0, getWindowWidth() * 3, getWindowHeight() * 3);
  
      runNonScissoredTest();
  
      runScissoredTest();
  }
  
  TEST_P(ViewportTest, TripleWindowCentered)
  {
      glViewport(-getWindowWidth(), -getWindowHeight(), getWindowWidth() * 3, getWindowHeight() * 3);
  
      runNonScissoredTest();
  
      runScissoredTest();
  }
  
  TEST_P(ViewportTest, TripleWindowOffCenter)
  {
      glViewport(-getWindowWidth() * 3 / 2, -getWindowHeight() * 3 / 2, getWindowWidth() * 3,
                 getWindowHeight() * 3);
  
      runNonScissoredTest();
  
      runScissoredTest();
  }
  
  // Test line rendering with a non-standard viewport.
  TEST_P(ViewportTest, DrawLineWithViewport)
  {
      // We assume in the test the width and height are equal and we are tracing
      // the line from bottom left to top right. Verify that all pixels along that line
      // have been traced with green.
      ASSERT_EQ(getWindowWidth(), getWindowHeight());
  
      ANGLE_GL_PROGRAM(program, essl1_shaders::vs::Simple(), essl1_shaders::fs::Green());
      glUseProgram(program);
  
      std::vector<Vector3> vertices = {{-1.0f, -1.0f, 0.0f}, {1.0f, 1.0f, 0.0f}};
  
      const GLint positionLocation = glGetAttribLocation(program, essl1_shaders::PositionAttrib());
      ASSERT_NE(-1, positionLocation);
  
      GLBuffer vertexBuffer;
      glBindBuffer(GL_ARRAY_BUFFER, vertexBuffer);
      glBufferData(GL_ARRAY_BUFFER, sizeof(vertices[0]) * vertices.size(), vertices.data(),
                   GL_STATIC_DRAW);
      glVertexAttribPointer(positionLocation, 3, GL_FLOAT, GL_FALSE, 0, nullptr);
      glEnableVertexAttribArray(positionLocation);
  
      // Set the viewport.
      GLint quarterWidth  = getWindowWidth() / 4;
      GLint quarterHeight = getWindowHeight() / 4;
      glViewport(quarterWidth, quarterHeight, quarterWidth, quarterHeight);
  
      glClear(GL_COLOR_BUFFER_BIT);
      glDrawArrays(GL_LINES, 0, static_cast<GLsizei>(vertices.size()));
  
      glDisableVertexAttribArray(positionLocation);
  
      ASSERT_GL_NO_ERROR();
  
      for (GLint x = quarterWidth; x < getWindowWidth() / 2; x++)
      {
          EXPECT_PIXEL_COLOR_EQ(x, x, GLColor::green);
      }
  }
  
  // Test line rendering with an overly large viewport.
  TEST_P(ViewportTest, DrawLineWithLargeViewport)
  {
      // We assume in the test the width and height are equal and we are tracing
      // the line from bottom left to top right. Verify that all pixels along that line
      // have been traced with green.
      ASSERT_EQ(getWindowWidth(), getWindowHeight());
  
      ANGLE_GL_PROGRAM(program, essl1_shaders::vs::Simple(), essl1_shaders::fs::Green());
      glUseProgram(program);
  
      std::vector<Vector3> vertices = {{-1.0f, -1.0f, 0.0f}, {1.0f, 1.0f, 0.0f}};
  
      const GLint positionLocation = glGetAttribLocation(program, essl1_shaders::PositionAttrib());
      ASSERT_NE(-1, positionLocation);
  
      GLBuffer vertexBuffer;
      glBindBuffer(GL_ARRAY_BUFFER, vertexBuffer);
      glBufferData(GL_ARRAY_BUFFER, sizeof(vertices[0]) * vertices.size(), vertices.data(),
                   GL_STATIC_DRAW);
      glVertexAttribPointer(positionLocation, 3, GL_FLOAT, GL_FALSE, 0, nullptr);
      glEnableVertexAttribArray(positionLocation);
  
      // Set the viewport.
      glViewport(0, 0, getWindowWidth() * 2, getWindowHeight() * 2);
  
      glClear(GL_COLOR_BUFFER_BIT);
      glDrawArrays(GL_LINES, 0, static_cast<GLsizei>(vertices.size()));
  
      glDisableVertexAttribArray(positionLocation);
  
      ASSERT_GL_NO_ERROR();
  
      for (GLint x = 0; x < getWindowWidth(); x++)
      {
          EXPECT_PIXEL_COLOR_EQ(x, x, GLColor::green);
      }
  }
  
  // Use this to select which configurations (e.g. which renderer, which GLES major version) these
  // tests should be run against. D3D11 Feature Level 9 and D3D9 emulate large and negative viewports
  // in the vertex shader. We should test both of these as well as D3D11 Feature Level 10_0+.
  ANGLE_INSTANTIATE_TEST(ViewportTest,
                         ES2_D3D9(),
                         ES2_D3D11(),
                         ES2_D3D11_PRESENT_PATH_FAST(),
                         ES2_OPENGLES(),
                         ES3_OPENGLES(),
                         ES2_VULKAN());
  
  }  // namespace
  

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