219 lines
8.2 KiB
C++
219 lines
8.2 KiB
C++
#include "renderlogic.hpp"
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#include "sceneGraph.hpp"
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#include <GLFW/glfw3.h>
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#include <SFML/Audio/Sound.hpp>
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#include <SFML/Audio/SoundBuffer.hpp>
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#include <chrono>
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#include <glad/glad.h>
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#include <glm/gtc/matrix_transform.hpp>
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#include <glm/gtc/type_ptr.hpp>
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#include <glm/vec3.hpp>
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#include <iostream>
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#include <string>
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#include <utilities/glfont.h>
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#include <utilities/shader.hpp>
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#include <utilities/timeutils.h>
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using glm::vec3;
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using glm::vec4;
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using glm::mat4;
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typedef unsigned int uint;
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sf::Sound* sound;
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sf::SoundBuffer* buffer;
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void mouse_callback(GLFWwindow* window, double x, double y) {
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static bool mouse_mode = false;
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int winw, winh;
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glfwGetWindowSize(window, &winw, &winh);
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glViewport(0, 0, winw, winh);
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double mx = (x - winw/2) / double(winh) * 2; // winh instead of winw, like the hudNode space
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double my = (winh/2 - y) / double(winh) * 2;
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bool reset_mouse = mouse_position_handler(mx, my, winh/2);
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if (reset_mouse)
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glfwSetCursorPos(window, winw/2, winh/2);
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if (reset_mouse != mouse_mode) {
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mouse_mode = reset_mouse;
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glfwSetInputMode(window, GLFW_CURSOR, (reset_mouse)
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? GLFW_CURSOR_DISABLED
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: GLFW_CURSOR_NORMAL);
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}
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}
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void initRenderer(GLFWwindow* window, CommandLineOptions options) {
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buffer = new sf::SoundBuffer();
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if (!buffer->loadFromFile("../res/Hall of the Mountain King.ogg")) {
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return;
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}
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glfwSetCursorPosCallback(window, mouse_callback);
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init_scene(options);
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// init
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getTimeDeltaSeconds();
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}
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// traverses and updates matricies
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void updateNodeTransformations(SceneNode* node, mat4 transformationThusFar, mat4 const& V, mat4 const& P) {
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mat4 transformationMatrix
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= glm::translate(mat4(1.0), node->position)
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* glm::translate(mat4(1.0), node->referencePoint)
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* glm::rotate(mat4(1.0), node->rotation.z, vec3(0,0,1))
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* glm::rotate(mat4(1.0), node->rotation.y, vec3(0,1,0))
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* glm::rotate(mat4(1.0), node->rotation.x, vec3(1,0,0))
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* glm::scale(mat4(1.0), node->scale)
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* glm::translate(mat4(1.0), -node->referencePoint);
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mat4 M = transformationThusFar * transformationMatrix;
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node->MV = V*M;
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node->MVP = P*node->MV;
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node->MVnormal = glm::inverse(glm::transpose(node->MV));
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for(SceneNode* child : node->children)
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updateNodeTransformations(child, M, V, P);
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}
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// step
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void updateFrame(GLFWwindow* window, int windowWidth, int windowHeight) {
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double timeDelta = getTimeDeltaSeconds();
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float aspect = float(windowWidth) / float(windowHeight);
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// main action:
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step_scene(timeDelta);
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// calculate camera
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mat4 projection = glm::perspective(
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glm::radians(45.0f), // fovy
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aspect, // aspect
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0.1f, 5000.f // near, far
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);
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mat4 cameraTransform
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= glm::lookAt(cameraPosition, cameraLookAt, cameraUpward);
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// update scene with camera
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updateNodeTransformations(rootNode, mat4(1.0), cameraTransform, projection);
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// We orthographic now, bitches!
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// set orthographic VP for hud
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cameraTransform = mat4(1.0);
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projection = glm::ortho(-aspect, aspect, -1.0f, 1.0f);
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// update hud
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updateNodeTransformations(hudNode, mat4(1.0), cameraTransform, projection);
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// update spots
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for (SceneNode* node : lightNode) {
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if (node->nodeType == SPOT_LIGHT && node->spot_target) {
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node->spot_direction = glm::normalize(
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vec3(node->spot_target->MV * vec4(0,0,0,1))
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- vec3(node->MV * vec4(0,0,0,1)));
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}
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}
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}
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// traverses and renders one and one node
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void renderNode(SceneNode* node, Gloom::Shader* parent_shader) {
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struct Light { // lights as stored in the shader
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// coordinates in MV space
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vec3 position; // MV
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vec3 attenuation;
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vec3 color;
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bool is_spot;
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vec3 spot_direction; // MV, must be normalized
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float spot_cuttof_cos;
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void push_to_shader(Gloom::Shader* shader, uint id) {
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#define L(x) shader->location("light[" + std::to_string(id) + "]." #x)
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#define V(x) glUniform3fv(L(x), 1, glm::value_ptr(x))
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glUniform1i (L(is_spot) , is_spot);
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glUniform1f (L(spot_cuttof_cos), spot_cuttof_cos);
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V(position);
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V(spot_direction);
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V(attenuation);
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V(color);
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#undef V
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#undef L
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}
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};
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static Light lights[N_LIGHTS];
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static Gloom::Shader* s = nullptr; // The currently active shader
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// activate the correct shader
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Gloom::Shader* node_shader = (node->shader != nullptr)
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? node->shader
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: parent_shader;
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if (s != node_shader) {
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s = node_shader;
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s->activate();
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uint i = 0; for (Light l : lights) l.push_to_shader(s, i++);
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}
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switch(node->nodeType) {
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case GEOMETRY:
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if(node->vertexArrayObjectID != -1) {
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// load uniforms
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glUniformMatrix4fv(s->location("MVP") , 1, GL_FALSE, glm::value_ptr(node->MVP));
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glUniformMatrix4fv(s->location("MV") , 1, GL_FALSE, glm::value_ptr(node->MV));
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glUniformMatrix4fv(s->location("MVnormal"), 1, GL_FALSE, glm::value_ptr(node->MVnormal));
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glUniform2fv(s->location("uvOffset") , 1, glm::value_ptr(node->uvOffset));
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glUniform3fv(s->location("diffuse_color") , 1, glm::value_ptr(node->diffuse_color));
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glUniform3fv(s->location("emissive_color"), 1, glm::value_ptr(node->emissive_color));
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glUniform3fv(s->location("specular_color"), 1, glm::value_ptr(node->specular_color));
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glUniform1f( s->location("opacity"), node->opacity);
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glUniform1f( s->location("shininess"), node->shininess);
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glUniform1f( s->location("reflexiveness"), node->reflexiveness);
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glUniform1f( s->location("displacementCoefficient"), node->displacementCoefficient);
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glUniform1ui(s->location("isTextured"), node->isTextured);
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glUniform1ui(s->location("isVertexColored"), node->isVertexColored);
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glUniform1ui(s->location("isNormalMapped"), node->isNormalMapped);
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glUniform1ui(s->location("isDisplacementMapped"), node->isDisplacementMapped);
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glUniform1ui(s->location("isReflectionMapped"), node->isReflectionMapped);
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glUniform1ui(s->location("isIlluminated"), node->isIlluminated);
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glUniform1ui(s->location("isInverted"), node->isInverted);
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if (node->isTextured) glBindTextureUnit(0, node->diffuseTextureID);
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if (node->isNormalMapped) glBindTextureUnit(1, node->normalTextureID);
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if (node->isDisplacementMapped) glBindTextureUnit(2, node->displacementTextureID);
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if (node->isReflectionMapped) glBindTextureUnit(3, node->reflectionTextureID);
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glBindVertexArray(node->vertexArrayObjectID);
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glDrawElements(GL_TRIANGLES, node->VAOIndexCount, GL_UNSIGNED_INT, nullptr);
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}
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break;
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case SPOT_LIGHT:
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case POINT_LIGHT: {
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uint id = node->lightID;
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lights[id].position = vec3(node->MV * vec4(vec3(0.0), 1.0));
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lights[id].is_spot = node->nodeType == SPOT_LIGHT;
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lights[id].spot_direction = node->spot_direction; // MV space
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lights[id].spot_cuttof_cos = node->spot_cuttof_cos;
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lights[id].attenuation = node->attenuation;
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lights[id].color = node->light_color;
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lights[id].push_to_shader(s, id);
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break;
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}
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default:
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break;
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}
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for(SceneNode* child : node->children) {
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renderNode(child, node_shader);
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}
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}
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// draw
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void renderFrame(GLFWwindow* window, int windowWidth, int windowHeight) {
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glViewport(0, 0, windowWidth, windowHeight);
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// externs from scene.hpp, they must have shaders set
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renderNode(rootNode, nullptr);
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renderNode(hudNode, nullptr);
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}
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