示例#1
0
void TouchscreenButton::DebugRender(const vec3& position,
                                    const vec3& texture_size,
                                    fplbase::Renderer& renderer) const {
#if defined(DEBUG_RENDER_BOUNDS)
    if (debug_shader_ && draw_bounds_) {
        const vec2 window_size = vec2(renderer.window_size());
        static const float kButtonZDepth = 0.0f;
        static const fplbase::Attribute kFormat[] = {fplbase::kPosition3f,
                                                     fplbase::kEND
                                                    };
        static const unsigned short kIndices[] = {0, 1, 1, 3, 2, 3, 2, 0};
        const vec3 bottom_left = position - (texture_size / 2.0f);
        const vec3 top_right = position + (texture_size / 2.0f);

        // vertex format is [x, y, z]
        float vertices[] = {
            bottom_left.x(), bottom_left.y(), bottom_left.z(), top_right.x(),
            bottom_left.y(), bottom_left.z(), bottom_left.x(), top_right.y(),
            top_right.z(),   top_right.x(),   top_right.y(),   top_right.z(),
        };
        renderer.set_color(vec4(1.0f, 0.0f, 1.0f, 1.0f));
        debug_shader_->Set(renderer);
        fplbase::Mesh::RenderArray(fplbase::Mesh::kLines, 8,
                                   kFormat, sizeof(float) * 3,
                                   reinterpret_cast<const char*>(vertices),
                                   kIndices);

        renderer.set_color(vec4(1.0f, 1.0f, 0.0f, 1.0f));
        debug_shader_->Set(renderer);
        static unsigned short indicesButtonDef[] = {1, 0, 1, 2, 2, 3, 3, 0};
        float verticesButtonDef[] = {
            button_def()->top_left()->x() * window_size.x(),
            button_def()->top_left()->y() * window_size.y(),
            kButtonZDepth,
            button_def()->top_left()->x() * window_size.x(),
            button_def()->bottom_right()->y() * window_size.y(),
            kButtonZDepth,
            button_def()->bottom_right()->x() * window_size.x(),
            button_def()->bottom_right()->y() * window_size.y(),
            kButtonZDepth,
            button_def()->bottom_right()->x() * window_size.x(),
            button_def()->top_left()->y() * window_size.y(),
            kButtonZDepth,
        };
        fplbase::Mesh::RenderArray(fplbase::Mesh::kLines, 8, kFormat,
                                   sizeof(float) * 3,
                                   reinterpret_cast<const char*>(verticesButtonDef),
                                   indicesButtonDef);
    }
#else
    (void)position;
    (void)texture_size;
    (void)renderer;
#endif  // DEBUG_RENDER_BOUNDS
}
示例#2
0
void TouchscreenButton::Render(fplbase::Renderer& renderer) {
    static const float kButtonZDepth = 0.0f;

    if (!is_visible_) {
        return;
    }
    renderer.set_color(vec4(color_));

    auto mat = (button_.is_down() && down_material_ != nullptr)
               ? down_material_
               : up_current_ < up_materials_.size()
               ? up_materials_[up_current_]
               : nullptr;
    if (!mat) return;  // This is an invisible button.

    const vec2 window_size = vec2(renderer.window_size());
    const float texture_scale =
        window_size.y() * one_over_cannonical_window_height_;

    vec2 base_size = LoadVec2(
                         is_highlighted_ ? button_def_->draw_scale_highlighted()
                         : (button_.is_down() ? button_def_->draw_scale_pressed()
                            : button_def_->draw_scale_normal()));

    auto pulse = sinf(static_cast<float>(elapsed_time_) / 100.0f);
    if (is_highlighted_) {
        base_size += mathfu::kOnes2f * pulse * 0.05f;
    }

    vec3 texture_size =
        texture_scale * vec3(mat->textures()[0]->size().x() * base_size.x(),
                             -mat->textures()[0]->size().y() * base_size.y(), 0);

    vec3 position = vec3(button_def()->texture_position()->x() * window_size.x(),
                         button_def()->texture_position()->y() * window_size.y(),
                         kButtonZDepth);

    renderer.set_color(mathfu::kOnes4f);
    if (is_active_ || inactive_shader_ == nullptr) {
        shader_->Set(renderer);
    } else {
        inactive_shader_->Set(renderer);
    }
    mat->Set(renderer);
    fplbase::Mesh::RenderAAQuadAlongX(position - (texture_size / 2.0f),
                                      position + (texture_size / 2.0f), vec2(0, 1),
                                      vec2(1, 0));
#if defined(DEBUG_RENDER_BOUNDS)
    DebugRender(position, texture_size, renderer);
#endif  // DEBUG_RENDER_BOUNDS
}
示例#3
0
static void RenderSettingsGear(fplbase::Renderer& renderer, World* world) {
  vec2i res = renderer.window_size();
  renderer.set_model_view_projection(mathfu::mat4::Ortho(
      0.0f, static_cast<float>(res.x), static_cast<float>(res.y), 0.0f,
      -1.0f, 1.0f));
  renderer.set_color(mathfu::kOnes4f);
  auto shader = world->asset_manager->LoadShader("shaders/textured");
  world->cardboard_settings_gear->Set(renderer);
  shader->Set(renderer);

  fplbase::Mesh::RenderAAQuadAlongX(
      vec3((res.x - kGearSize) / 2.0f, res.y - kGearSize, 0.0f),
      vec3((res.x + kGearSize) / 2.0f, res.y, 0.0f));
}
示例#4
0
void StaticImage::Render(fplbase::Renderer& renderer) {
    if (!Valid()) return;
    if (!is_visible_) return;
    renderer.set_color(vec4(color_));

    auto material = materials_[current_material_index_];
    const vec2 window_size = vec2(renderer.window_size());
    const float texture_scale =
        window_size.y() * one_over_cannonical_window_height_;
    const vec2 texture_size =
        texture_scale * vec2(material->textures()[0]->size()) * vec2(scale_);
    const vec2 position_percent = vec2(texture_position_);
    const vec2 position = window_size * position_percent;

    const vec3 position3d(position.x(), position.y(), image_def_->z_depth());
    const vec3 texture_size3d(texture_size.x(), -texture_size.y(), 0.0f);

    shader_->Set(renderer);
    material->Set(renderer);

    fplbase::Mesh::RenderAAQuadAlongX(position3d - texture_size3d * 0.5f,
                                      position3d + texture_size3d * 0.5f, vec2(0, 1),
                                      vec2(1, 0));
}
示例#5
0
void RenderWorld(fplbase::Renderer& renderer, World* world, Camera& camera,
                 Camera* cardboard_camera, fplbase::InputSystem* input_system) {
  vec2 window_size = vec2(renderer.window_size());
  world->river_component.UpdateRiverMeshes();
  if (world->rendering_mode() == kRenderingStereoscopic) {
    window_size.x = window_size.x / 2;
    cardboard_camera->set_viewport_resolution(window_size);
  }
  camera.set_viewport_resolution(window_size);
  if (world->rendering_mode() == kRenderingStereoscopic) {
    // This takes care of setting/clearing the framebuffer for us.
    RenderStereoscopic(renderer, world, camera, cardboard_camera, input_system);
  } else {
    // Always clear the framebuffer, even though we overwrite it with the
    // skybox, since it's a speedup on tile-based architectures, see .e.g.:
    // http://www.seas.upenn.edu/~pcozzi/OpenGLInsights/OpenGLInsights-TileBasedArchitectures.pdf
    renderer.ClearFrameBuffer(mathfu::kZeros4f);

    if (world->RenderingOptionEnabled(kShadowEffect)) {
      world->world_renderer->RenderShadowMap(camera, renderer, world);
    }
    world->world_renderer->RenderWorld(camera, renderer, world);
  }
}
示例#6
0
文件: viewer.cpp 项目: google/motive
static float AspectRatio(const fplbase::Renderer& renderer) {
  return static_cast<float>(renderer.window_size().x) /
         renderer.window_size().y;
}