rhi: Take mip size into account for render target size
Also extend autotesting, both for rendering into a given mip level and for rendering into a given cubemap face. Change-Id: Ida94b71150477ceb50a3b5616d8b7be13174558b Reviewed-by: Andy Nichols <andy.nichols@qt.io>
This commit is contained in:
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@ -582,6 +582,13 @@ Q_LOGGING_CATEGORY(QRHI_LOG_INFO, "qt.rhi.general")
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practice this will be reported as unsupported with OpenGL ES 2.0 and OpenGL
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2.x contexts, because GLSL 100 es and versions before 130 do not support
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this function.
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\value RenderToNonBaseMipLevel Indicates that specifying a mip level other
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than 0 is supported when creating a QRhiTextureRenderTarget with a
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QRhiTexture as its color attachment. When not supported, build() will fail
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whenever the target mip level is not zero. In practice this feature will be
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unsupported with OpenGL ES 2.0, while it will likely be supported everywhere
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else.
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*/
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/*!
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@ -1446,7 +1446,8 @@ public:
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TriangleFanTopology,
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ReadBackNonUniformBuffer,
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ReadBackNonBaseMipLevel,
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TexelFetch
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TexelFetch,
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RenderToNonBaseMipLevel
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};
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enum BeginFrameFlag {
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@ -470,6 +470,8 @@ bool QRhiD3D11::isFeatureSupported(QRhi::Feature feature) const
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return true;
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case QRhi::TexelFetch:
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return true;
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case QRhi::RenderToNonBaseMipLevel:
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return true;
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default:
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Q_UNREACHABLE();
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return false;
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@ -3243,7 +3245,7 @@ bool QD3D11TextureRenderTarget::build()
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}
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ownsRtv[attIndex] = true;
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if (attIndex == 0) {
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d.pixelSize = texD->pixelSize();
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d.pixelSize = rhiD->q->sizeForMipLevel(colorAtt.level(), texD->pixelSize());
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d.sampleCount = int(texD->sampleDesc.Count);
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}
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} else if (rb) {
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@ -769,6 +769,8 @@ bool QRhiGles2::isFeatureSupported(QRhi::Feature feature) const
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return caps.nonBaseLevelFramebufferTexture;
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case QRhi::TexelFetch:
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return caps.texelFetch;
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case QRhi::RenderToNonBaseMipLevel:
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return caps.nonBaseLevelFramebufferTexture;
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default:
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Q_UNREACHABLE();
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return false;
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@ -3930,7 +3932,7 @@ bool QGles2TextureRenderTarget::build()
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rhiD->f->glFramebufferTexture2D(GL_FRAMEBUFFER, GL_COLOR_ATTACHMENT0 + uint(attIndex), faceTargetBase + uint(colorAtt.layer()),
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texD->texture, colorAtt.level());
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if (attIndex == 0) {
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d.pixelSize = texD->pixelSize();
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d.pixelSize = rhiD->q->sizeForMipLevel(colorAtt.level(), texD->pixelSize());
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d.sampleCount = 1;
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}
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} else if (renderBuffer) {
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@ -564,6 +564,8 @@ bool QRhiMetal::isFeatureSupported(QRhi::Feature feature) const
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return true;
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case QRhi::TexelFetch:
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return true;
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case QRhi::RenderToNonBaseMipLevel:
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return true;
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default:
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Q_UNREACHABLE();
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return false;
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@ -2863,6 +2865,7 @@ QRhiRenderPassDescriptor *QMetalTextureRenderTarget::newCompatibleRenderPassDesc
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bool QMetalTextureRenderTarget::build()
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{
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QRHI_RES_RHI(QRhiMetal);
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const bool hasColorAttachments = m_desc.cbeginColorAttachments() != m_desc.cendColorAttachments();
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Q_ASSERT(hasColorAttachments || m_desc.depthTexture());
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Q_ASSERT(!m_desc.depthStencilBuffer() || !m_desc.depthTexture());
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@ -2879,7 +2882,7 @@ bool QMetalTextureRenderTarget::build()
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if (texD) {
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dst = texD->d->tex;
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if (attIndex == 0) {
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d->pixelSize = texD->pixelSize();
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d->pixelSize = rhiD->q->sizeForMipLevel(it->level(), texD->pixelSize());
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d->sampleCount = texD->samples;
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}
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} else if (rbD) {
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@ -740,11 +740,13 @@ QRhiRenderPassDescriptor *QNullTextureRenderTarget::newCompatibleRenderPassDescr
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bool QNullTextureRenderTarget::build()
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{
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QRHI_RES_RHI(QRhiNull);
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d.rp = QRHI_RES(QNullRenderPassDescriptor, m_renderPassDesc);
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if (m_desc.cbeginColorAttachments() != m_desc.cendColorAttachments()) {
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QRhiTexture *tex = m_desc.cbeginColorAttachments()->texture();
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QRhiRenderBuffer *rb = m_desc.cbeginColorAttachments()->renderBuffer();
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d.pixelSize = tex ? tex->pixelSize() : rb->pixelSize();
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const QRhiColorAttachment *colorAtt = m_desc.cbeginColorAttachments();
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QRhiTexture *tex = colorAtt->texture();
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QRhiRenderBuffer *rb = colorAtt->renderBuffer();
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d.pixelSize = tex ? rhiD->q->sizeForMipLevel(colorAtt->level(), tex->pixelSize()) : rb->pixelSize();
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} else if (m_desc.depthStencilBuffer()) {
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d.pixelSize = m_desc.depthStencilBuffer()->pixelSize();
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} else if (m_desc.depthTexture()) {
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@ -4023,6 +4023,8 @@ bool QRhiVulkan::isFeatureSupported(QRhi::Feature feature) const
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return true;
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case QRhi::TexelFetch:
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return true;
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case QRhi::RenderToNonBaseMipLevel:
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return true;
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default:
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Q_UNREACHABLE();
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return false;
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@ -5911,7 +5913,7 @@ bool QVkTextureRenderTarget::build()
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}
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views.append(rtv[attIndex]);
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if (attIndex == 0) {
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d.pixelSize = texD->pixelSize();
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d.pixelSize = rhiD->q->sizeForMipLevel(it->level(), texD->pixelSize());
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d.sampleCount = texD->samples;
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}
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} else if (rbD) {
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@ -89,6 +89,10 @@ private slots:
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void invalidPipeline();
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void renderToTextureSimple_data();
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void renderToTextureSimple();
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void renderToTextureMip_data();
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void renderToTextureMip();
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void renderToTextureCubemapFace_data();
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void renderToTextureCubemapFace();
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void renderToTextureTexturedQuad_data();
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void renderToTextureTexturedQuad();
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void renderToTextureArrayOfTexturedQuad_data();
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@ -299,7 +303,8 @@ void tst_QRhi::create()
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QRhi::TriangleFanTopology,
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QRhi::ReadBackNonUniformBuffer,
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QRhi::ReadBackNonBaseMipLevel,
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QRhi::TexelFetch
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QRhi::TexelFetch,
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QRhi::RenderToNonBaseMipLevel
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};
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for (size_t i = 0; i <sizeof(features) / sizeof(QRhi::Feature); ++i)
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rhi->isFeatureSupported(features[i]);
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@ -1341,6 +1346,267 @@ void tst_QRhi::renderToTextureSimple()
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QVERIFY(redCount > blueCount);
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}
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void tst_QRhi::renderToTextureMip_data()
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{
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rhiTestData();
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}
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void tst_QRhi::renderToTextureMip()
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{
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QFETCH(QRhi::Implementation, impl);
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QFETCH(QRhiInitParams *, initParams);
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QScopedPointer<QRhi> rhi(QRhi::create(impl, initParams, QRhi::Flags(), nullptr));
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if (!rhi)
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QSKIP("QRhi could not be created, skipping testing rendering");
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if (!rhi->isFeatureSupported(QRhi::RenderToNonBaseMipLevel))
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QSKIP("Rendering to non-base mip levels is not supported on this platform, skipping test");
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const QSize baseLevelSize(1024, 1024);
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const int LEVEL = 3; // render into mip #3 (128x128)
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QScopedPointer<QRhiTexture> texture(rhi->newTexture(QRhiTexture::RGBA8, baseLevelSize, 1,
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QRhiTexture::RenderTarget
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| QRhiTexture::UsedAsTransferSource
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| QRhiTexture::MipMapped));
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QVERIFY(texture->build());
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QRhiColorAttachment colorAtt(texture.data());
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colorAtt.setLevel(LEVEL);
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QRhiTextureRenderTargetDescription rtDesc(colorAtt);
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QScopedPointer<QRhiTextureRenderTarget> rt(rhi->newTextureRenderTarget(rtDesc));
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QScopedPointer<QRhiRenderPassDescriptor> rpDesc(rt->newCompatibleRenderPassDescriptor());
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rt->setRenderPassDescriptor(rpDesc.data());
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QVERIFY(rt->build());
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QCOMPARE(rt->pixelSize(), rhi->sizeForMipLevel(LEVEL, baseLevelSize));
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const QSize mipSize(baseLevelSize.width() >> LEVEL, baseLevelSize.height() >> LEVEL);
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QCOMPARE(rt->pixelSize(), mipSize);
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QRhiCommandBuffer *cb = nullptr;
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QVERIFY(rhi->beginOffscreenFrame(&cb) == QRhi::FrameOpSuccess);
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QVERIFY(cb);
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QRhiResourceUpdateBatch *updates = rhi->nextResourceUpdateBatch();
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static const float vertices[] = {
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-1.0f, -1.0f,
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1.0f, -1.0f,
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0.0f, 1.0f
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};
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QScopedPointer<QRhiBuffer> vbuf(rhi->newBuffer(QRhiBuffer::Immutable, QRhiBuffer::VertexBuffer, sizeof(vertices)));
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QVERIFY(vbuf->build());
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updates->uploadStaticBuffer(vbuf.data(), vertices);
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QScopedPointer<QRhiShaderResourceBindings> srb(rhi->newShaderResourceBindings());
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QVERIFY(srb->build());
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QScopedPointer<QRhiGraphicsPipeline> pipeline(rhi->newGraphicsPipeline());
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QShader vs = loadShader(":/data/simple.vert.qsb");
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QVERIFY(vs.isValid());
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QShader fs = loadShader(":/data/simple.frag.qsb");
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QVERIFY(fs.isValid());
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pipeline->setShaderStages({ { QRhiShaderStage::Vertex, vs }, { QRhiShaderStage::Fragment, fs } });
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QRhiVertexInputLayout inputLayout;
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inputLayout.setBindings({ { 2 * sizeof(float) } });
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inputLayout.setAttributes({ { 0, 0, QRhiVertexInputAttribute::Float2, 0 } });
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pipeline->setVertexInputLayout(inputLayout);
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pipeline->setShaderResourceBindings(srb.data());
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pipeline->setRenderPassDescriptor(rpDesc.data());
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QVERIFY(pipeline->build());
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cb->beginPass(rt.data(), Qt::blue, { 1.0f, 0 }, updates);
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cb->setGraphicsPipeline(pipeline.data());
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cb->setViewport({ 0, 0, float(rt->pixelSize().width()), float(rt->pixelSize().height()) });
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QRhiCommandBuffer::VertexInput vbindings(vbuf.data(), 0);
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cb->setVertexInput(0, 1, &vbindings);
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cb->draw(3);
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QRhiReadbackResult readResult;
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QImage result;
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readResult.completed = [&readResult, &result] {
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result = QImage(reinterpret_cast<const uchar *>(readResult.data.constData()),
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readResult.pixelSize.width(), readResult.pixelSize.height(),
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QImage::Format_RGBA8888_Premultiplied);
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};
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QRhiResourceUpdateBatch *readbackBatch = rhi->nextResourceUpdateBatch();
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QRhiReadbackDescription readbackDescription(texture.data());
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readbackDescription.setLevel(LEVEL);
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readbackBatch->readBackTexture(readbackDescription, &readResult);
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cb->endPass(readbackBatch);
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rhi->endOffscreenFrame();
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if (!rhi->isFeatureSupported(QRhi::ReadBackNonBaseMipLevel))
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QSKIP("Reading back non-base mip levels is not supported on this platform, skipping readback");
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QCOMPARE(result.size(), mipSize);
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if (impl == QRhi::Null)
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return;
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const int y = 100;
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const quint32 *p = reinterpret_cast<const quint32 *>(result.constScanLine(y));
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int x = result.width() - 1;
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int redCount = 0;
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int blueCount = 0;
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const int maxFuzz = 1;
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while (x-- >= 0) {
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const QRgb c(*p++);
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if (qRed(c) >= (255 - maxFuzz) && qGreen(c) == 0 && qBlue(c) == 0)
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++redCount;
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else if (qRed(c) == 0 && qGreen(c) == 0 && qBlue(c) >= (255 - maxFuzz))
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++blueCount;
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else
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QFAIL("Encountered a pixel that is neither red or blue");
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}
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QCOMPARE(redCount + blueCount, mipSize.width());
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if (rhi->isYUpInFramebuffer() == rhi->isYUpInNDC())
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QVERIFY(redCount > blueCount); // 100, 28
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else
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QVERIFY(redCount < blueCount); // 28, 100
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}
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void tst_QRhi::renderToTextureCubemapFace_data()
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{
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rhiTestData();
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}
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void tst_QRhi::renderToTextureCubemapFace()
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{
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QFETCH(QRhi::Implementation, impl);
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QFETCH(QRhiInitParams *, initParams);
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QScopedPointer<QRhi> rhi(QRhi::create(impl, initParams, QRhi::Flags(), nullptr));
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if (!rhi)
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QSKIP("QRhi could not be created, skipping testing rendering");
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const QSize outputSize(512, 512); // width must be same as height
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QScopedPointer<QRhiTexture> texture(rhi->newTexture(QRhiTexture::RGBA8, outputSize, 1,
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QRhiTexture::RenderTarget
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| QRhiTexture::UsedAsTransferSource
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| QRhiTexture::CubeMap)); // will be a cubemap, so 6 layers
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QVERIFY(texture->build());
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const int LAYER = 1; // render into the layer for face -X
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const int BAD_LAYER = 2; // +Y
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QRhiColorAttachment colorAtt(texture.data());
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colorAtt.setLayer(LAYER);
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QRhiTextureRenderTargetDescription rtDesc(colorAtt);
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QScopedPointer<QRhiTextureRenderTarget> rt(rhi->newTextureRenderTarget(rtDesc));
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QScopedPointer<QRhiRenderPassDescriptor> rpDesc(rt->newCompatibleRenderPassDescriptor());
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rt->setRenderPassDescriptor(rpDesc.data());
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QVERIFY(rt->build());
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QCOMPARE(rt->pixelSize(), texture->pixelSize());
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QCOMPARE(rt->pixelSize(), outputSize);
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QRhiCommandBuffer *cb = nullptr;
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QVERIFY(rhi->beginOffscreenFrame(&cb) == QRhi::FrameOpSuccess);
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QVERIFY(cb);
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QRhiResourceUpdateBatch *updates = rhi->nextResourceUpdateBatch();
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static const float vertices[] = {
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-1.0f, -1.0f,
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1.0f, -1.0f,
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0.0f, 1.0f
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};
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QScopedPointer<QRhiBuffer> vbuf(rhi->newBuffer(QRhiBuffer::Immutable, QRhiBuffer::VertexBuffer, sizeof(vertices)));
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QVERIFY(vbuf->build());
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updates->uploadStaticBuffer(vbuf.data(), vertices);
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QScopedPointer<QRhiShaderResourceBindings> srb(rhi->newShaderResourceBindings());
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QVERIFY(srb->build());
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QScopedPointer<QRhiGraphicsPipeline> pipeline(rhi->newGraphicsPipeline());
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QShader vs = loadShader(":/data/simple.vert.qsb");
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QVERIFY(vs.isValid());
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QShader fs = loadShader(":/data/simple.frag.qsb");
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QVERIFY(fs.isValid());
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pipeline->setShaderStages({ { QRhiShaderStage::Vertex, vs }, { QRhiShaderStage::Fragment, fs } });
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QRhiVertexInputLayout inputLayout;
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inputLayout.setBindings({ { 2 * sizeof(float) } });
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inputLayout.setAttributes({ { 0, 0, QRhiVertexInputAttribute::Float2, 0 } });
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pipeline->setVertexInputLayout(inputLayout);
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pipeline->setShaderResourceBindings(srb.data());
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pipeline->setRenderPassDescriptor(rpDesc.data());
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QVERIFY(pipeline->build());
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cb->beginPass(rt.data(), Qt::blue, { 1.0f, 0 }, updates);
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cb->setGraphicsPipeline(pipeline.data());
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cb->setViewport({ 0, 0, float(rt->pixelSize().width()), float(rt->pixelSize().height()) });
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QRhiCommandBuffer::VertexInput vbindings(vbuf.data(), 0);
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cb->setVertexInput(0, 1, &vbindings);
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cb->draw(3);
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QRhiReadbackResult readResult;
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QImage result;
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readResult.completed = [&readResult, &result] {
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result = QImage(reinterpret_cast<const uchar *>(readResult.data.constData()),
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readResult.pixelSize.width(), readResult.pixelSize.height(),
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QImage::Format_RGBA8888_Premultiplied);
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};
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QRhiResourceUpdateBatch *readbackBatch = rhi->nextResourceUpdateBatch();
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QRhiReadbackDescription readbackDescription(texture.data());
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readbackDescription.setLayer(LAYER);
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readbackBatch->readBackTexture(readbackDescription, &readResult);
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// also read back a layer we did not render into
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QRhiReadbackResult readResult2;
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QImage result2;
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readResult2.completed = [&readResult2, &result2] {
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result2 = QImage(reinterpret_cast<const uchar *>(readResult2.data.constData()),
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readResult2.pixelSize.width(), readResult2.pixelSize.height(),
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QImage::Format_RGBA8888_Premultiplied);
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};
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QRhiReadbackDescription readbackDescription2(texture.data());
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readbackDescription2.setLayer(BAD_LAYER);
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readbackBatch->readBackTexture(readbackDescription2, &readResult2);
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cb->endPass(readbackBatch);
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rhi->endOffscreenFrame();
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QCOMPARE(result.size(), outputSize);
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QCOMPARE(result2.size(), outputSize);
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if (impl == QRhi::Null)
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return;
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// just want to ensure that we did not read the same thing back twice, i.e.
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// that the 'layer' parameter was not ignored
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QVERIFY(result != result2);
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const int y = 100;
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const quint32 *p = reinterpret_cast<const quint32 *>(result.constScanLine(y));
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int x = result.width() - 1;
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int redCount = 0;
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int blueCount = 0;
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const int maxFuzz = 1;
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while (x-- >= 0) {
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const QRgb c(*p++);
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if (qRed(c) >= (255 - maxFuzz) && qGreen(c) == 0 && qBlue(c) == 0)
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++redCount;
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else if (qRed(c) == 0 && qGreen(c) == 0 && qBlue(c) >= (255 - maxFuzz))
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++blueCount;
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else
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QFAIL("Encountered a pixel that is neither red or blue");
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}
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QCOMPARE(redCount + blueCount, outputSize.width());
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if (rhi->isYUpInFramebuffer() == rhi->isYUpInNDC())
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QVERIFY(redCount < blueCount); // 100, 412
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else
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QVERIFY(redCount > blueCount); // 412, 100
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}
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void tst_QRhi::renderToTextureTexturedQuad_data()
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{
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rhiTestData();
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