(continued...)
KRMesh::renderSubmesh is now private. Added KRMesh::renderNoMaterials. Replaced renderSubmesh loops outside KRMesh with calls to KRMesh::renderNoMaterials. Added KRMesh::getVertexAttributes. Call sites are now using KRMesh::getVertexAttributes and KRMesh::getModelFormat to configure the pipeline.
This commit is contained in:
@@ -127,6 +127,9 @@ void KRAmbientZone::render(RenderInfo& ri)
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bool bVisualize = ri.camera->settings.debug_display == KRRenderSettings::KRENGINE_DEBUG_DISPLAY_SIREN_AMBIENT_ZONES;
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if(ri.renderPass == KRNode::RENDER_PASS_FORWARD_TRANSPARENT && bVisualize) {
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std::vector<KRMesh*> sphereModels = getContext().getMeshManager()->getModel("__sphere");
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if (sphereModels.size()) {
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Matrix4 sphereModelMatrix = getModelMatrix();
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PipelineInfo info{};
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@@ -138,16 +141,14 @@ void KRAmbientZone::render(RenderInfo& ri)
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info.spot_lights = &ri.spot_lights;
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info.renderPass = ri.renderPass;
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info.rasterMode = PipelineInfo::RasterMode::kAdditive;
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info.modelFormat = sphereModels[0]->getModelFormat();
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info.vertexAttributes = sphereModels[0]->getVertexAttributes();
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KRPipeline *pPipeline = getContext().getPipelineManager()->getPipeline(*ri.surface, info);
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pPipeline->bind(*ri.camera, ri.viewport, sphereModelMatrix, &ri.point_lights, &ri.directional_lights, &ri.spot_lights, ri.renderPass, Vector3::Zero(), 0.0f, Vector4::Zero());
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std::vector<KRMesh *> sphereModels = getContext().getMeshManager()->getModel("__sphere");
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if(sphereModels.size()) {
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for(int i=0; i < sphereModels[0]->getSubmeshCount(); i++) {
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sphereModels[0]->renderSubmesh(ri.commandBuffer, i, ri.renderPass, getName(), "visualize_overlay", 1.0f);
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}
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}
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sphereModels[0]->renderNoMaterials(ri.commandBuffer, ri.renderPass, getName(), "visualize_overlay", 1.0f);
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} // sphereModels.size()
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}
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}
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@@ -194,6 +194,8 @@ void KRAudioSource::render(RenderInfo& ri)
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bool bVisualize = false;
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if(ri.renderPass == KRNode::RENDER_PASS_FORWARD_TRANSPARENT && bVisualize) {
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std::vector<KRMesh*> sphereModels = getContext().getMeshManager()->getModel("__sphere");
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if (sphereModels.size()) {
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Matrix4 sphereModelMatrix = getModelMatrix();
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PipelineInfo info{};
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@@ -205,16 +207,14 @@ void KRAudioSource::render(RenderInfo& ri)
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info.spot_lights = &ri.spot_lights;
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info.renderPass = ri.renderPass;
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info.rasterMode = PipelineInfo::RasterMode::kAdditive;
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info.modelFormat = sphereModels[0]->getModelFormat();
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info.vertexAttributes = sphereModels[0]->getVertexAttributes();
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KRPipeline *pShader = getContext().getPipelineManager()->getPipeline(*ri.surface, info);
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KRPipeline* pShader = getContext().getPipelineManager()->getPipeline(*ri.surface, info);
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pShader->bind(*ri.camera, ri.viewport, sphereModelMatrix, &ri.point_lights, &ri.directional_lights, &ri.spot_lights, ri.renderPass, Vector3::Zero(), 0.0f, Vector4::Zero());
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std::vector<KRMesh *> sphereModels = getContext().getMeshManager()->getModel("__sphere");
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if(sphereModels.size()) {
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for(int i=0; i < sphereModels[0]->getSubmeshCount(); i++) {
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sphereModels[0]->renderSubmesh(ri.commandBuffer, i, ri.renderPass, getName(), "visualize_overlay", 1.0f);
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}
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}
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sphereModels[0]->renderNoMaterials(ri.commandBuffer, ri.renderPass, getName(), "visualize_overlay", 1.0f);
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} // sphereModels.size()
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}
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}
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@@ -78,6 +78,8 @@ void KRBone::render(RenderInfo& ri)
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bool bVisualize = ri.camera->settings.debug_display == KRRenderSettings::KRENGINE_DEBUG_DISPLAY_BONES;
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if(ri.renderPass == KRNode::RENDER_PASS_FORWARD_TRANSPARENT && bVisualize) {
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std::vector<KRMesh*> sphereModels = getContext().getMeshManager()->getModel("__sphere");
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if (sphereModels.size()) {
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Matrix4 sphereModelMatrix = getModelMatrix();
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PipelineInfo info{};
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@@ -89,16 +91,14 @@ void KRBone::render(RenderInfo& ri)
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info.spot_lights = &ri.spot_lights;
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info.renderPass = ri.renderPass;
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info.rasterMode = PipelineInfo::RasterMode::kAdditiveNoTest;
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info.modelFormat = sphereModels[0]->getModelFormat();
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info.vertexAttributes = sphereModels[0]->getVertexAttributes();
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KRPipeline *pShader = getContext().getPipelineManager()->getPipeline(*ri.surface, info);
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pShader->bind(*ri.camera, ri.viewport, sphereModelMatrix, &ri.point_lights, &ri.directional_lights, &ri.spot_lights, ri.renderPass, Vector3::Zero(), 0.0f, Vector4::Zero());
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std::vector<KRMesh *> sphereModels = getContext().getMeshManager()->getModel("__sphere");
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if(sphereModels.size()) {
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for(int i=0; i < sphereModels[0]->getSubmeshCount(); i++) {
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sphereModels[0]->renderSubmesh(ri.commandBuffer, i, ri.renderPass, getName(), "visualize_overlay", 1.0f);
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}
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}
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sphereModels[0]->renderNoMaterials(ri.commandBuffer, ri.renderPass, getName(), "visualize_overlay", 1.0f);
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} // sphereModels.size()
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}
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}
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@@ -339,21 +339,25 @@ void KRCamera::renderFrame(VkCommandBuffer& commandBuffer, KRSurface& compositeS
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GL_PUSH_GROUP_MARKER("Debug Overlays");
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if(settings.debug_display == KRRenderSettings::KRENGINE_DEBUG_DISPLAY_OCTREE) {
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KRMeshManager::KRVBOData& vertices = getContext().getMeshManager()->KRENGINE_VBO_DATA_3D_CUBE_VERTICES;
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PipelineInfo info{};
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std::string shader_name("visualize_overlay");
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info.shader_name = &shader_name;
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info.pCamera = this;
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info.renderPass = KRNode::RENDER_PASS_FORWARD_TRANSPARENT;
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info.rasterMode = PipelineInfo::RasterMode::kAdditive;
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info.vertexAttributes = vertices.getVertexAttributes();
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info.modelFormat = KRMesh::model_format_t::KRENGINE_MODEL_FORMAT_STRIP;
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KRPipeline *pVisShader = getContext().getPipelineManager()->getPipeline(compositeSurface, info);
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m_pContext->getMeshManager()->bindVBO(commandBuffer, &getContext().getMeshManager()->KRENGINE_VBO_DATA_3D_CUBE_VERTICES, 1.0f);
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m_pContext->getMeshManager()->bindVBO(commandBuffer, &vertices, 1.0f);
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for(unordered_map<AABB, int>::iterator itr=m_viewport.getVisibleBounds().begin(); itr != m_viewport.getVisibleBounds().end(); itr++) {
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Matrix4 matModel = Matrix4();
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matModel.scale((*itr).first.size() * 0.5f);
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matModel.translate((*itr).first.center());
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pVisShader->bind(*this, m_viewport, matModel, nullptr, nullptr, nullptr, KRNode::RENDER_PASS_FORWARD_TRANSPARENT, Vector3::Zero(), 0.0f, Vector4::Zero());
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GLDEBUG(glDrawArrays(GL_TRIANGLE_STRIP, 0, 14));
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vkCmdDraw(commandBuffer, 14, 1, 0, 0);
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}
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}
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GL_POP_GROUP_MARKER;
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@@ -557,19 +561,20 @@ void KRCamera::renderPost(VkCommandBuffer& commandBuffer, KRSurface& surface)
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GLDEBUG(glViewport(0, 0, (GLsizei)m_viewport.getSize().x, (GLsizei)m_viewport.getSize().y));
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KRMeshManager::KRVBOData& vertices = getContext().getMeshManager()->KRENGINE_VBO_DATA_2D_SQUARE_VERTICES;
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PipelineInfo info{};
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std::string shader_name("PostShader");
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info.shader_name = &shader_name;
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info.pCamera = this;
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info.renderPass = KRNode::RENDER_PASS_FORWARD_TRANSPARENT;
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info.rasterMode = PipelineInfo::RasterMode::kOpaqueNoTest;
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info.modelFormat = KRMesh::model_format_t::KRENGINE_MODEL_FORMAT_STRIP;
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info.vertexAttributes = vertices.getVertexAttributes();
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KRPipeline *postShader = m_pContext->getPipelineManager()->getPipeline(surface, info);
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Vector3 rim_color;
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postShader->bind(*this, m_viewport, Matrix4(), nullptr, nullptr, nullptr, KRNode::RENDER_PASS_FORWARD_TRANSPARENT, rim_color, 0.0f, m_fade_color);
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postShader->bind(*this, m_viewport, Matrix4(), nullptr, nullptr, nullptr, KRNode::RENDER_PASS_FORWARD_TRANSPARENT, Vector3::Zero(), 0.0f, m_fade_color);
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m_pContext->getTextureManager()->selectTexture(GL_TEXTURE_2D, 0, compositeDepthTexture);
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m_pContext->getTextureManager()->selectTexture(GL_TEXTURE_2D, 1, compositeColorTexture);
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@@ -579,12 +584,9 @@ void KRCamera::renderPost(VkCommandBuffer& commandBuffer, KRSurface& surface)
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}
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// Update attribute values.
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m_pContext->getMeshManager()->bindVBO(commandBuffer, &getContext().getMeshManager()->KRENGINE_VBO_DATA_2D_SQUARE_VERTICES, 1.0f);
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m_pContext->getMeshManager()->bindVBO(commandBuffer, &vertices, 1.0f);
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GLDEBUG(glDrawArrays(GL_TRIANGLE_STRIP, 0, 4));
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m_pContext->getTextureManager()->selectTexture(GL_TEXTURE_2D, 0, 0);
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m_pContext->getTextureManager()->selectTexture(GL_TEXTURE_2D, 1, 0);
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vkCmdDraw(commandBuffer, 4, 1, 0, 0);
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// if(bShowShadowBuffer) {
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@@ -744,6 +746,8 @@ void KRCamera::renderPost(VkCommandBuffer& commandBuffer, KRSurface& surface)
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info.renderPass = KRNode::RENDER_PASS_FORWARD_TRANSPARENT;
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info.rasterMode = PipelineInfo::RasterMode::kAlphaBlendNoTest;
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info.cullMode = PipelineInfo::CullMode::kCullNone;
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info.vertexAttributes = (1 << KRMesh::KRENGINE_ATTRIB_VERTEX) | (1 << KRMesh::KRENGINE_ATTRIB_TEXUVA);
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info.modelFormat = KRMesh::model_format_t::KRENGINE_MODEL_FORMAT_TRIANGLES;
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KRPipeline *fontShader = m_pContext->getPipelineManager()->getPipeline(surface, info);
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fontShader->bind(*this, m_viewport, Matrix4(), nullptr, nullptr, nullptr, KRNode::RENDER_PASS_FORWARD_TRANSPARENT, Vector3::Zero(), 0.0f, Vector4::Zero());
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@@ -757,7 +761,7 @@ void KRCamera::renderPost(VkCommandBuffer& commandBuffer, KRSurface& surface)
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#endif
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);
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GLDEBUG(glDrawArrays(GL_TRIANGLES, 0, vertex_count));
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vkCmdDraw(commandBuffer, vertex_count, 1, 0, 0);
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m_debug_text_vertices.unlock();
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@@ -213,14 +213,14 @@ void KRCollider::render(RenderInfo& ri)
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info.spot_lights = &ri.spot_lights;
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info.renderPass = ri.renderPass;
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info.rasterMode = PipelineInfo::RasterMode::kAdditive;
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info.modelFormat = m_models[0]->getModelFormat();
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info.vertexAttributes = m_models[0]->getVertexAttributes();
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KRPipeline *pShader = getContext().getPipelineManager()->getPipeline(*ri.surface, info);
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pShader->bind(*ri.camera, ri.viewport, getModelMatrix(), &ri.point_lights, &ri.directional_lights, &ri.spot_lights, ri.renderPass, Vector3::Zero(), 0.0f, Vector4::Zero());
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for(int i=0; i < m_models[0]->getSubmeshCount(); i++) {
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m_models[0]->renderSubmesh(ri.commandBuffer, i, ri.renderPass, getName(), "visualize_overlay", 1.0f);
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}
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m_models[0]->renderNoMaterials(ri.commandBuffer, ri.renderPass, getName(), "visualize_overlay", 1.0f);
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GL_POP_GROUP_MARKER;
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}
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@@ -427,6 +427,14 @@ void KRMesh::createDataBlocks(KRMeshManager::KRVBOData::vbo_type t)
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}
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}
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void KRMesh::renderNoMaterials(VkCommandBuffer& commandBuffer, KRNode::RenderPass renderPass, const std::string& object_name, const std::string& material_name, float lodCoverage)
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{
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int submesh_count = getSubmeshCount();
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for (int i = 0; i < submesh_count; i++) {
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renderSubmesh(commandBuffer, i, renderPass, object_name, material_name, lodCoverage);
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}
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}
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void KRMesh::renderSubmesh(VkCommandBuffer& commandBuffer, int iSubmesh, KRNode::RenderPass renderPass, const std::string &object_name, const std::string &material_name, float lodCoverage) {
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getSubmeshes();
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@@ -859,6 +867,13 @@ int KRMesh::getVertexCount(int submesh) const
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return getSubmesh(submesh)->vertex_count;
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}
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__uint32_t KRMesh::getVertexAttributes() const
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{
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pack_header* header = getHeader();
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__uint32_t attributes = header->vertex_attrib_flags;
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return attributes;
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}
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Vector3 KRMesh::getVertexPosition(int index) const
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{
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if(has_vertex_attribute(KRENGINE_ATTRIB_VERTEX_SHORT)) {
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