src/scene.c@81a089a47eff
src/scene.c
Sun, 11 Aug 2024 16:29:09 +0200
- author
- Mike Becker <universe@uap-core.de>
- date
- Sun, 11 Aug 2024 16:29:09 +0200
- changeset 70
- 81a089a47eff
- parent 69
- 86d545f490e4
- child 71
- baa73a0be3ce
- permissions
- -rw-r--r--
redesign FPS counter
/* * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS HEADER. * Copyright 2023 Mike Becker. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include "ascension/scene.h" #include "ascension/context.h" #include "ascension/utils.h" #include <cx/linked_list.h> #include <cx/array_list.h> #include <cx/tree.h> #include <cx/utils.h> #include "ascension/shader.h" #include <GL/glew.h> #include <assert.h> static CxTreeIterator asc_scene_node_iterator( AscSceneNode *node, bool visit_on_exit ) { return cx_tree_iterator( node, visit_on_exit, offsetof(AscSceneNode, children), offsetof(AscSceneNode, next) ); } static CxTreeVisitor asc_scene_node_visitor(AscSceneNode *node) { return cx_tree_visitor(node, offsetof(AscSceneNode, children), offsetof(AscSceneNode, next) ); } struct asc_render_group_entry { asc_scene_draw_func draw; AscSceneNode const *node; }; #define asc_draw_render_group(iter) \ cx_foreach(struct asc_render_group_entry*, entry, iter) { \ entry->draw(entry->node); \ } void asc_scene_draw(AscSceneNode *root, asc_recti viewport, AscCamera *camera) { // create render groups CxList *render_group[ASC_RENDER_GROUP_COUNT]; cx_for_n(i, ASC_RENDER_GROUP_COUNT) { render_group[i] = cxArrayListCreateSimple( sizeof(struct asc_render_group_entry), 32); } // skip the root node deliberately, we know it's just the container CxTreeVisitor iter = asc_scene_node_visitor(root); cxIteratorNext(iter); // update the children and add them to the render groups cx_foreach(AscSceneNode*, node, iter) { node->depth = iter.depth; // skip hidden nodes (and all their children) if (asc_test_flag(node->flags, ASC_SCENE_NODE_HIDDEN)) { cxTreeVisitorContinue(iter); } // execute behaviors, first if (node->behaviors != NULL) { CxIterator behavior_iter = cxListIterator(node->behaviors); cx_foreach(asc_scene_update_func, behavior, behavior_iter) { behavior(node); } } // TODO: implement culling // check if geometry needs update asc_clear_flag(node->flags, ASC_SCENE_NODE_GRAPHICS_UPDATED | ASC_SCENE_NODE_TRANSFORM_UPDATED); if (asc_test_flag(node->flags, ASC_SCENE_NODE_UPDATE_GRAPHICS)) { asc_set_flag(node->flags, ASC_SCENE_NODE_GRAPHICS_UPDATED); asc_clear_flag(node->flags, ASC_SCENE_NODE_UPDATE_GRAPHICS); assert(node->update_func != NULL); node->update_func(node); } if (asc_test_flag(node->flags, ASC_SCENE_NODE_UPDATE_TRANSFORM)) { asc_set_flag(node->flags, ASC_SCENE_NODE_TRANSFORM_UPDATED); asc_clear_flag(node->flags, ASC_SCENE_NODE_UPDATE_TRANSFORM); asc_transform_from_parts( node->transform, node->position, node->scale, node->rotation ); asc_mat4f_mulst( node->world_transform, node->transform, node->parent->world_transform ); } // add to render group if (node->draw_func != NULL) { struct asc_render_group_entry entry = { node->draw_func, node }; cxListAdd(render_group[node->render_group], &entry); } } // set the viewport (in OpenGL we need to invert the Y axis) glViewport( viewport.pos.x, -viewport.pos.y, viewport.size.width, viewport.size.height ); // ------------------------- // process the render groups // ------------------------- AscShaderProgram *shader; CxIterator render_iter; // 2D Elements // =========== glEnable(GL_DEPTH_TEST); glClear(GL_DEPTH_BUFFER_BIT); // Sprites // ------- // TODO: implement view matrix for 2D worlds shader = &asc_active_window->glctx.shader.sprite.base; glUseProgram(shader->id); glUniformMatrix4fv(shader->projection, 1, GL_FALSE, camera->projection); // render opaque sprites from front to back glDisable(GL_BLEND); render_iter = cxListBackwardsIterator(render_group[ASC_RENDER_GROUP_SPRITE_OPAQUE]); asc_draw_render_group(render_iter); // render sprites with alpha value from back to front glEnable(GL_BLEND); glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA); render_iter = cxListIterator(render_group[ASC_RENDER_GROUP_SPRITE_BLEND]); asc_draw_render_group(render_iter); // destroy render groups cx_for_n(i, ASC_RENDER_GROUP_COUNT) { cxListDestroy(render_group[i]); } } AscSceneNode *asc_scene_node_empty(void) { AscSceneNode *node = calloc(1, sizeof(AscSceneNode)); node->free_func = (asc_scene_free_func) free; node->scale.x = node->scale.y = node->scale.z = 1; asc_transform_identity(node->transform); asc_transform_identity(node->world_transform); return node; } void asc_scene_node_free(AscSceneNode *node) { if (node == NULL) return; // remove this node from its parent asc_scene_node_unlink(node); // free the entire subtree CxTreeIterator iter = asc_scene_node_iterator(node, true); cx_foreach(AscSceneNode*, child, iter) { if (!iter.exiting) continue; if (child->behaviors != NULL) { cxListDestroy(child->behaviors); } if (child->free_func != NULL) { child->free_func(child); } else { free(child); } } } void asc_scene_node_link(AscSceneNode * restrict parent, AscSceneNode * restrict node) { cx_tree_link( parent, node, offsetof(AscSceneNode, parent), offsetof(AscSceneNode, children), offsetof(AscSceneNode, prev), offsetof(AscSceneNode, next) ); } void asc_scene_node_unlink(AscSceneNode *node) { cx_tree_unlink( node, offsetof(AscSceneNode, parent), offsetof(AscSceneNode, children), offsetof(AscSceneNode, prev), offsetof(AscSceneNode, next) ); } void asc_scene_add_behavior( AscSceneNode *node, asc_scene_update_func behavior ) { if (node->behaviors == NULL) { node->behaviors = cxLinkedListCreateSimple(CX_STORE_POINTERS); } cxListAdd(node->behaviors, behavior); } void asc_scene_remove_behavior( AscSceneNode *node, asc_scene_update_func behavior ) { if (node->behaviors != NULL) { cxListFindRemove(node->behaviors, behavior); } } void asc_node_update(AscSceneNode *node) { asc_set_flag(node->flags, ASC_SCENE_NODE_UPDATE_GRAPHICS); } void asc_node_update_transform(AscSceneNode *node) { // fast skip if node is already marked if (asc_test_flag(node->flags, ASC_SCENE_NODE_UPDATE_TRANSFORM)) { return; } CxTreeIterator iter = asc_scene_node_iterator(node, false); cx_foreach(AscSceneNode*, n, iter) { if (asc_test_flag(n->flags, ASC_SCENE_NODE_UPDATE_TRANSFORM)) { cxTreeIteratorContinue(iter); } asc_set_flag(n->flags, ASC_SCENE_NODE_UPDATE_TRANSFORM); } }
