#include <glfw3.h>

#include "../example_scene.h"
#include "animation.h"
#include "camera.h"
#include "core.h"
#include "input.h"
#include "keys.h"
#include "log.h"
#include "maths.h"
#include "maths_types.h"
#include "primitives.h"
#include "render.h"
#include "render_backend.h"
#include "render_types.h"

typedef struct game_state {
  camera camera;
  vec3 camera_euler;
  bool first_mouse_update;  // so the camera doesnt lurch when you run the first
                            // process_camera_rotation
} game_state;

void update_camera_rotation(input_state* input, game_state* game, camera* cam);

int main() {
  double currentFrame = glfwGetTime();
  double lastFrame = currentFrame;
  double deltaTime;

  core* core = core_bringup();

  model_handle animated_cube_handle =
      model_load_gltf(core, "assets/models/gltf/AnimatedCube/glTF/AnimatedCube.gltf", false);
  model* cube = &core->models->data[animated_cube_handle.raw];
  model_upload_meshes(&core->renderer, cube);

  scene our_scene = make_default_scene();

  vec3 cam_pos = vec3_create(5, 5, 5);
  game_state game = {
    .camera = camera_create(cam_pos, vec3_negate(cam_pos), VEC3_Y, deg_to_rad(45.0)),
    .camera_euler = vec3_create(90, 0, 0),
    .first_mouse_update = true,
  };

  print_vec3(game.camera.front);

  // Main loop
  const f32 camera_lateral_speed = 0.2;
  const f32 camera_zoom_speed = 0.15;

  // animation
  animation_clip track = cube->animations->data[0];
  f64 total_time = 0.0;

  while (!should_exit(core)) {
    input_update(&core->input);

    currentFrame = glfwGetTime();
    deltaTime = currentFrame - lastFrame;
    lastFrame = currentFrame;
    total_time += deltaTime;
    printf("delta time %f\n", deltaTime);
    f64 t = fmod(total_time, 1.0);
    INFO("Total time: %f", t);

    vec3 translation = VEC3_ZERO;
    if (key_is_pressed(KEYCODE_W) || key_is_pressed(KEYCODE_KEY_UP)) {
      translation = vec3_mult(game.camera.front, camera_zoom_speed);
    } else if (key_is_pressed(KEYCODE_S) || key_is_pressed(KEYCODE_KEY_DOWN)) {
      translation = vec3_mult(game.camera.front, -camera_zoom_speed);
    } else if (key_is_pressed(KEYCODE_A) || key_is_pressed(KEYCODE_KEY_LEFT)) {
      vec3 lateral = vec3_normalise(vec3_cross(game.camera.front, game.camera.up));
      translation = vec3_mult(lateral, -camera_lateral_speed);
    } else if (key_is_pressed(KEYCODE_D) || key_is_pressed(KEYCODE_KEY_RIGHT)) {
      vec3 lateral = vec3_normalise(vec3_cross(game.camera.front, game.camera.up));
      translation = vec3_mult(lateral, camera_lateral_speed);
    }
    game.camera.position = vec3_add(game.camera.position, translation);

    // UNUSED: threadpool_process_results(&core->threadpool, 1);

    render_frame_begin(&core->renderer);

    quat rot = animation_sample(track.rotation, t).rotation;
    // quat rot = quat_ident();
    transform tf = transform_create(VEC3_ZERO, rot, 1.0);
    mat4 model_tf = transform_to_mat(&tf);
    draw_model(&core->renderer, &game.camera, cube, &model_tf, &our_scene);

    // gfx_backend_draw_frame(&core->renderer, &game.camera, model, NULL);

    render_frame_end(&core->renderer);
  }

  INFO("Shutting down");
  model_destroy(cube);

  core_shutdown(core);

  return 0;
}