Store a Transform in keyframes instead of a Matrix

[libs/gl.git] / source / object.cpp

diff --git a/source/object.cpp b/source/object.cpp
index ab7afc1480aaf272589df76a6dbe31ac732dd084..1852f91b50222ead401dfa177605c31d9d1ee21b 100644 (file)
--- a/source/object.cpp
+++ b/source/object.cpp
@@ -1,5 +1,6 @@
 #include <msp/datafile/collection.h>
 #include <msp/strings/format.h>
+#include "error.h"
 #include "material.h"
 #include "mesh.h"
 #include "object.h"
@@ -7,6 +8,7 @@
 #include "program.h"
 #include "programdata.h"
 #include "renderer.h"
+#include "resourcemanager.h"
 #include "technique.h"
 #include "texturing.h"
 
@@ -15,172 +17,248 @@ using namespace std;
 namespace Msp {
 namespace GL {
 
+Matrix Object::identity_matrix;
+
 Object::Object():
-       meshes(1)
+       lods(1),
+       lod0_watched(false)
 { }
 
-Object::Object(const Mesh *m, const Technique *t)
+Object::Object(const Mesh *m, const Technique *t):
+       lods(1),
+       lod0_watched(false)
 {
        set_mesh(m);
        set_technique(t);
 }
 
+// TODO should have copy-c'tor to set watch on lod0 mesh if necessary
+
 Object::~Object()
 {
+       if(lods[0].mesh && lod0_watched)
+               if(ResourceManager *rm = lods[0].mesh->get_manager())
+                       rm->unwatch_resource(*lods[0].mesh, *this);
+}
+
+Object::LevelOfDetail &Object::get_lod(unsigned i, const char *caller)
+{
+       if(i>lods.size())
+               throw out_of_range(caller);
+       if(i>0 && (!lods[0].mesh || !lods[0].technique))
+               throw invalid_operation(caller);
+
+       if(i==lods.size())
+               lods.push_back(lods.back());
+
+       return lods[i];
 }
 
 void Object::set_mesh(unsigned i, const Mesh *m)
 {
-       if(i>meshes.size())
-               throw out_of_range("Object::set_mesh");
+       RefPtr<const Mesh> &ptr = get_lod(i, "Object::set_mesh").mesh;
+       if(i==0 && ptr && lod0_watched)
+               if(ResourceManager *rm = ptr->get_manager())
+                       rm->unwatch_resource(*ptr, *this);
+       ptr = m;
+       ptr.keep();
+       lod0_watched = false;
+
+       if(i==0 && m)
+               if(ResourceManager *rm = m->get_manager())
+               {
+                       rm->watch_resource(*m, *this);
+                       lod0_watched = true;
+               }
+
+       update_bounding_sphere();
+}
 
-       if(i==meshes.size())
-               meshes.push_back(m);
-       else
-               meshes[i] = m;
-       meshes[i].keep();
+void Object::update_bounding_sphere()
+{
+       vector<Vector3> points;
+       for(vector<LevelOfDetail>::const_iterator i=lods.begin(); i!=lods.end(); ++i)
+       {
+               if(!i->mesh || !i->mesh->is_loaded())
+                       continue;
+
+               const VertexArray &vertices = i->mesh->get_vertices();
+
+               int offset = vertices.get_format().offset(VERTEX3);
+               bool three = true;
+               if(offset<0)
+               {
+                       offset = vertices.get_format().offset(VERTEX2);
+                       three = false;
+                       if(offset<0)
+                               continue;
+               }
+
+               unsigned n_vertices = vertices.size();
+               points.reserve(points.size()+n_vertices);
+               for(unsigned j=0; j<n_vertices; ++j)
+               {
+                       const float *v = vertices[j];
+                       points.push_back(Vector3(v[offset], v[offset+1], (three ? v[offset+2] : 0.0f)));
+               }
+       }
+
+       /* Don't touch the bounding sphere if we had no vertices to avoid
+       overwriting a possible hint. */
+       if(points.empty())
+               return;
+
+       bounding_sphere = Geometry::BoundingSphere<float, 3>::from_point_cloud(points.begin(), points.end());
 }
 
 const Mesh *Object::get_mesh(unsigned i) const
 {
-       if(i>=meshes.size())
+       if(i>=lods.size())
                return 0;
 
-       return meshes[i].get();
+       return lods[i].mesh.get();
 }
 
-void Object::set_technique(const Technique *t)
+void Object::set_technique(unsigned i, const Technique *t)
 {
-       technique = t;
-       technique.keep();
+       RefPtr<const Technique> &ptr = get_lod(i, "Object::set_technique").technique;
+       ptr = t;
+       ptr.keep();
 }
 
-void Object::render(const Tag &tag) const
+const Technique *Object::get_technique(unsigned i) const
 {
-       const RenderPass *pass = get_pass(tag);
-       if(!pass)
-               return;
-
-       Bind bind_shader(pass->get_shader_program());
-       if(pass->get_shader_data())
-               pass->get_shader_data()->apply();
-       Bind bind_material(pass->get_material());
-       Bind bind_texturing(pass->get_texturing());
+       if(i>=lods.size())
+               return 0;
 
-       meshes.front()->draw();
+       return lods[i].technique.get();
 }
 
 void Object::render(Renderer &renderer, const Tag &tag) const
 {
-       const RenderPass *pass = get_pass(tag);
+       const RenderPass *pass = get_pass(tag, 0);
        if(!pass)
                return;
 
        Renderer::Push push(renderer);
-       renderer.set_shader_program(pass->get_shader_program(), pass->get_shader_data());
-       renderer.set_material(pass->get_material());
-       renderer.set_texturing(pass->get_texturing());
+       pass->apply(renderer);
 
        setup_render(renderer, tag);
-       meshes.front()->draw(renderer);
+       lods.front().mesh->draw(renderer);
        finish_render(renderer, tag);
 }
 
 void Object::render(Renderer &renderer, const ObjectInstance &inst, const Tag &tag) const
 {
-       const RenderPass *pass = get_pass(tag);
+       unsigned lod = min<unsigned>(inst.get_level_of_detail(renderer), lods.size()-1);
+       const RenderPass *pass = get_pass(tag, lod);
        if(!pass)
                return;
 
        Renderer::Push push(renderer);
-       renderer.set_shader_program(pass->get_shader_program(), pass->get_shader_data());
-       renderer.set_material(pass->get_material());
-       renderer.set_texturing(pass->get_texturing());
+       pass->apply(renderer);
 
        setup_render(renderer, tag);
        inst.setup_render(renderer, tag);
-       unsigned lod = min<unsigned>(inst.get_level_of_detail(renderer), meshes.size()-1);
-       meshes[lod]->draw(renderer);
+       lods[lod].mesh->draw(renderer);
        inst.finish_render(renderer, tag);
        finish_render(renderer, tag);
 }
 
-const RenderPass *Object::get_pass(const Tag &tag) const
+const RenderPass *Object::get_pass(const Tag &tag, unsigned lod) const
 {
-       if(!technique || !technique->has_pass(tag))
+       const Technique *tech = lods[lod].technique.get();
+       if(!tech)
+               throw logic_error("no technique");
+       if(!tech->has_pass(tag))
                return 0;
-       return &technique->get_pass(tag);
+       return &tech->get_pass(tag);
+}
+
+void Object::resource_loaded(Resource &res)
+{
+       if(&res==lods.front().mesh.get() && bounding_sphere.is_empty())
+               update_bounding_sphere();
+}
+
+void Object::resource_removed(Resource &res)
+{
+       if(&res==lods.front().mesh.get())
+               lod0_watched = false;
 }
 
 
 Object::Loader::Loader(Object &o):
-       DataFile::CollectionObjectLoader<Object>(o, 0)
+       LodLoader(o, 0, 0)
 {
        init();
 }
 
 Object::Loader::Loader(Object &o, Collection &c):
-       DataFile::CollectionObjectLoader<Object>(o, &c)
+       LodLoader(o, 0, &c)
 {
        init();
 }
 
 void Object::Loader::init()
 {
-       add("mesh",     &Loader::mesh_inline);
-       add("mesh",     &Loader::mesh_inline_lod);
-       add("mesh",     &Loader::mesh);
-       add("mesh",     &Loader::mesh_lod);
-       add("technique", &Loader::technique_inline);
-       add("technique", &Loader::technique);
+       add("bounding_sphere_hint", &Loader::bounding_sphere_hint);
+       add("level_of_detail", &Loader::level_of_detail);
+}
 
-       // Deprecated alias, will be removed
-       add("lod_mesh", &Loader::mesh_lod);
+void Object::Loader::finish()
+{
+       obj.update_bounding_sphere();
 }
 
-void Object::Loader::mesh_inline()
+void Object::Loader::bounding_sphere_hint(float x, float y, float z, float r)
 {
-       RefPtr<Mesh> msh = new Mesh;
-       load_sub(*msh);
-       obj.meshes.front() = msh;
+       obj.bounding_sphere = Geometry::BoundingSphere<float, 3>(Vector3(x, y, z), r);
 }
 
-void Object::Loader::mesh_inline_lod(unsigned l)
+void Object::Loader::level_of_detail(unsigned i)
 {
-       if(l>obj.meshes.size())
-               throw out_of_range("Object::Loader::mesh_inline_lod");
+       LodLoader ldr(obj, i, coll);
+       load_sub_with(ldr);
+}
 
-       RefPtr<Mesh> msh = new Mesh;
-       load_sub(*msh);
-       if(l==obj.meshes.size())
-               obj.meshes.push_back(msh);
-       else
-               obj.meshes[l] = msh;
+
+Object::LodLoader::LodLoader(Object &o, unsigned i, Collection *c):
+       DataFile::CollectionObjectLoader<Object>(o, c),
+       index(i),
+       lod(obj.get_lod(index, "Object::LodLoader::LodLoader"))
+{
+       add("mesh",      &LodLoader::mesh_inline);
+       add("mesh",      &LodLoader::mesh);
+       add("technique", &LodLoader::technique_inline);
+       add("technique", &LodLoader::technique);
+}
+
+void Object::LodLoader::mesh(const string &n)
+{
+       obj.set_mesh(index, &get_collection().get<Mesh>(n));
 }
 
-void Object::Loader::mesh(const std::string &n)
+void Object::LodLoader::mesh_inline()
 {
-       obj.set_mesh(&get_collection().get<Mesh>(n));
+       RefPtr<Mesh> msh = new Mesh;
+       load_sub(*msh);
+       lod.mesh = msh;
 }
 
-void Object::Loader::mesh_lod(unsigned l, const string &n)
+void Object::LodLoader::technique(const std::string &n)
 {
-       obj.set_mesh(l, &get_collection().get<Mesh>(n));
+       obj.set_technique(index, &get_collection().get<Technique>(n));
 }
 
-void Object::Loader::technique_inline()
+void Object::LodLoader::technique_inline()
 {
        RefPtr<Technique> tech = new Technique;
        if(coll)
                load_sub(*tech, get_collection());
        else
                load_sub(*tech);
-       obj.technique = tech;
-}
-
-void Object::Loader::technique(const std::string &n)
-{
-       obj.set_technique(&get_collection().get<Technique>(n));
+       lod.technique = tech;
 }
 
 } // namespace GL