using System;
using System.Collections;
using System.Collections.Generic;
using System.Linq;
using FidelityFX;
using UnityEngine;
using UnityEngine.Rendering;

/// <summary>
/// This class is responsible for hooking into various Unity events and translating them to the FSR2 subsystem.
/// This includes creation and destruction of the FSR2 context, as well as dispatching commands at the right time.
/// This class also exposes various FSR2 parameters to the Unity inspector.
/// </summary>
public class Fsr2Controller : MonoBehaviour
{
    [SerializeField]
    private bool performSharpenPass = true;

    [SerializeField, Range(0, 1)]
    private float sharpness = 0.8f;
    
    [HideInInspector]
    public Camera gameCamera;

    [HideInInspector]
    public Camera outputCamera;

    [HideInInspector]
    public float renderScale;

    private bool _started;
    
    private Vector2Int DisplaySize => new Vector2Int(Screen.width, Screen.height);
    private Vector2Int RenderSize => new Vector2Int(Mathf.FloorToInt(Screen.width * renderScale), Mathf.FloorToInt(Screen.height * renderScale));

    private Fsr2Context _context;
    private readonly Fsr2.DispatchDescription _dispatchDescription = new Fsr2.DispatchDescription();

    private RenderTexture _colorRT, _depthRT, _motionVectorsRT;
    private RenderTexture _outputRT;
    private Texture2D _exposure;

    private Material _copyDepthMat;
    private Material CopyDepthMaterial
    {
        get
        {
            if (_copyDepthMat == null)
            {
                var copyDepthShader = Fsr2.GlobalCallbacks.LoadShader("Shaders/FSR2CopyDepth");
                _copyDepthMat = new Material(copyDepthShader);
            }

            return _copyDepthMat;
        }
    }

    private Material _copyMotionMat;
    private Material CopyMotionVectorsMaterial
    {
        get
        {
            if (_copyMotionMat == null)
            {
                var copyMotionShader = Fsr2.GlobalCallbacks.LoadShader("Shaders/FSR2CopyMotionVectors");
                _copyMotionMat = new Material(copyMotionShader);
            }

            return _copyMotionMat;
        }
    }

    private void Start()
    {
        _started = true;
        OnEnable();
    }

    private void OnEnable()
    {
        // Delay OnEnable until we're sure all fields and properties are set
        if (!_started)
            return;
        
        RenderPipelineManager.endContextRendering += OnEndContextRendering;

        // TODO: destroy and recreate context on screen resolution and/or quality mode change
        // TODO: enable motion vector jitter cancellation or not?
        _context = Fsr2.CreateContext(DisplaySize, RenderSize);

        // TODO: could make these temporary RTs
        _colorRT = new RenderTexture(RenderSize.x, RenderSize.y, 0, RenderTextureFormat.ARGBHalf) { name = "FSR2 Color Input" };
        _colorRT.Create();

        _depthRT = new RenderTexture(RenderSize.x, RenderSize.y, 0, RenderTextureFormat.RFloat) { name = "FSR2 Depth Input" };
        _depthRT.Create();

        _motionVectorsRT = new RenderTexture(RenderSize.x, RenderSize.y, 0, RenderTextureFormat.RGHalf) { name = "FSR2 Motion Vectors Input" };
        _motionVectorsRT.Create();

        _outputRT = new RenderTexture(Screen.width, Screen.height, 24, RenderTextureFormat.ARGBHalf) { enableRandomWrite = true };  // TODO: does this need to be a UAV?
        _outputRT.Create();

        _exposure = new Texture2D(1, 1) { name = "FSR2 Exposure" };
        _exposure.SetPixel(0, 0, Color.white);
        _exposure.Apply();
    }

    private void OnDisable()
    {
        if (_exposure != null)
        {
            Destroy(_exposure);
            _exposure = null;
        }

        if (_outputRT != null)
        {
            _outputRT.Release();
            _outputRT = null;
        }

        if (_motionVectorsRT != null)
        {
            _motionVectorsRT.Release();
            _motionVectorsRT = null;
        }

        if (_depthRT != null)
        {
            _depthRT.Release();
            _depthRT = null;
        }

        if (_colorRT != null)
        {
            _colorRT.Release();
            _colorRT = null;
        }

        if (_context != null)
        {
            _context.Destroy();
            _context = null;
        }

        RenderPipelineManager.endContextRendering -= OnEndContextRendering;
    }

    public void UpdateInputResources(RenderTexture src)
    {
        Graphics.Blit(src, _colorRT);
        Graphics.Blit(src, _depthRT, CopyDepthMaterial);
        Graphics.Blit(src, _motionVectorsRT, CopyMotionVectorsMaterial);
    }

    // For scriptable rendering pipeline
    private void OnEndContextRendering(ScriptableRenderContext context, List<Camera> cameras)
    {
        Debug.Log($"OnEndContentRendering, cameras = {string.Join(", ", cameras.Select(c => c.name))}");
    }

    // For legacy built-in render pipeline
    private void OnRenderImage(RenderTexture src, RenderTexture dest)
    {
        _dispatchDescription.Color = _colorRT;
        _dispatchDescription.Depth = _depthRT;
        _dispatchDescription.MotionVectors = _motionVectorsRT;
        _dispatchDescription.Output = _outputRT;
        _dispatchDescription.Exposure = _exposure;
        _dispatchDescription.PreExposure = 1.0f;
        _dispatchDescription.EnableSharpening = performSharpenPass;
        _dispatchDescription.Sharpness = sharpness;
        _dispatchDescription.MotionVectorScale.x = gameCamera.pixelWidth;
        _dispatchDescription.MotionVectorScale.y = gameCamera.pixelHeight;
        _dispatchDescription.RenderSize = RenderSize;
        _dispatchDescription.FrameTimeDelta = Time.unscaledDeltaTime;
        _dispatchDescription.CameraNear = gameCamera.nearClipPlane;
        _dispatchDescription.CameraFar = gameCamera.farClipPlane;
        _dispatchDescription.CameraFovAngleVertical = gameCamera.fieldOfView * Mathf.Deg2Rad;

        _context.Dispatch(_dispatchDescription);
        
        // Output sharpened image to screen
        Graphics.Blit(_outputRT, dest);
    }
}