advancedskrald/ChessAR/Assets/OpenCVForUnity/Examples/Advanced/AlphaBlendingExample/AlphaBlendingExample.cs

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using System;
using System.Collections;
using System.Collections.Generic;
using System.Runtime.InteropServices;
using UnityEngine;
using UnityEngine.UI;
using UnityEngine.SceneManagement;
//using Unity.IL2CPP.CompilerServices;
using OpenCVForUnity.CoreModule;
using OpenCVForUnity.ImgprocModule;
using OpenCVForUnity.UnityUtils;
namespace OpenCVForUnityExample
{
/// <summary>
/// Alpha Blending Example
/// An example of alpha blending in multiple ways.
///
/// ### How to speed up pixel array access. (optional) ###
///
/// # IL2CPP Compiler options:
/// [Il2CppSetOption(Option.ArrayBoundsChecks, false)]
/// [Il2CppSetOption(Option.NullChecks, false)]
/// The runtime checks can be enabled or disabled in C# code using the Il2CppSetOptions attribute. To use this attribute,
/// find the Il2CppSetOptionsAttribute.cs source file in the IL2CPP directory in the Unity Editor installation on your computer.
/// (Data\il2cpp on Windows, Contents/Frameworks/il2cpp on OS X). Copy this source file into the Assets folder in your project.
/// https://docs.unity3d.com/Manual/IL2CPP-CompilerOptions.html
///
/// # Pointer acccess. (use -unsafe):
/// Unsafe code requires the `unsafe' command line option to be specified.
/// You need to add a file "smcs.rsp" (or "gmcs.rsp") in your "Assets" directory, which contains the line: -unsafe
/// https://answers.unity.com/questions/804103/how-to-enable-unsafe-and-use-pointers.html
///
/// To use these options, uncomment the code that enables the feature.
/// ######
/// </summary>
public class AlphaBlendingExample : MonoBehaviour
{
public enum ImageSize
{
Original,
Large,
Small
}
/// <summary>
/// The image size.
/// </summary>
public ImageSize imageSize = ImageSize.Original;
/// <summary>
/// The count dropdown.
/// </summary>
public Dropdown imageSizeDropdown;
/// <summary>
/// The count.
/// </summary>
public int count = 100;
/// <summary>
/// The image size dropdown.
/// </summary>
public Dropdown countDropdown;
public MeshRenderer fgQuad;
public MeshRenderer bgQuad;
public MeshRenderer alphaQuad;
public MeshRenderer dstQuad;
Texture2D fgTex;
Texture2D bgTex;
Texture2D alphaTex;
Texture2D dstTex;
Mat fgMat;
Mat bgMat;
Mat alphaMat;
Mat dstMat;
Mat fgMatLarge;
Mat bgMatLarge;
Mat alphaMatLarge;
Mat dstMatLarge;
Mat fgMatROI;
Mat bgMatROI;
Mat alphaMatROI;
Mat dstMatROI;
Mat _fgMat;
Mat _bgMat;
Mat _alphaMat;
Mat _dstMat;
/// <summary>
/// The FPS monitor.
/// </summary>
FpsMonitor fpsMonitor;
// Use this for initialization
void Start ()
{
fpsMonitor = GetComponent<FpsMonitor> ();
imageSizeDropdown.value = (int)imageSize;
countDropdown.value = 2;
fgTex = Resources.Load ("lena") as Texture2D;
bgTex = new Texture2D (fgTex.width, fgTex.height, TextureFormat.RGBA32, false);
alphaTex = new Texture2D (fgTex.width, fgTex.height, TextureFormat.RGBA32, false);
dstTex = new Texture2D (fgTex.width, fgTex.height, TextureFormat.RGBA32, false);
fgMat = new Mat (fgTex.height, fgTex.width, CvType.CV_8UC3);
bgMat = new Mat (fgTex.height, fgTex.width, CvType.CV_8UC3);
alphaMat = new Mat (fgTex.height, fgTex.width, CvType.CV_8UC1);
dstMat = new Mat (fgTex.height, fgTex.width, CvType.CV_8UC3, new Scalar (0, 0, 0));
// Generate fgMat.
Utils.texture2DToMat (fgTex, fgMat);
// Generate bgMat.
Core.flip (fgMat, bgMat, 1);
Core.bitwise_not (bgMat, bgMat);
// Generate alphaMat.
for (int r = 0; r < alphaMat.rows (); r++) {
alphaMat.row (r).setTo (new Scalar (r / (alphaMat.rows () / 256)));
}
#pragma warning disable 0618
Imgproc.linearPolar (alphaMat, alphaMat, new Point (alphaMat.cols () / 2, alphaMat.rows () / 2), alphaMat.rows (), Imgproc.INTER_CUBIC | Imgproc.WARP_FILL_OUTLIERS | Imgproc.WARP_INVERSE_MAP);
#pragma warning restore 0618
// Generate large size Mat.
fgMatLarge = new Mat ();
bgMatLarge = new Mat ();
alphaMatLarge = new Mat ();
dstMatLarge = new Mat ();
Imgproc.resize (fgMat, fgMatLarge, new Size (), 2, 2, 0);
Imgproc.resize (bgMat, bgMatLarge, new Size (), 2, 2, 0);
Imgproc.resize (alphaMat, alphaMatLarge, new Size (), 2, 2, 0);
Imgproc.resize (dstMat, dstMatLarge, new Size (), 2, 2, 0);
// Generate small size Mat (ROI).
OpenCVForUnity.CoreModule.Rect rect = new OpenCVForUnity.CoreModule.Rect (127, 127, 256, 256);
fgMatROI = new Mat (fgMat, rect);
bgMatROI = new Mat (bgMat, rect);
alphaMatROI = new Mat (alphaMat, rect);
dstMatROI = new Mat (dstMat, rect);
Utils.matToTexture2D (fgMat, fgTex, true, 0, true);
Utils.matToTexture2D (bgMat, bgTex, true, 0, true);
Utils.matToTexture2D (alphaMat, alphaTex, true, 0, true);
Utils.matToTexture2D (dstMat, dstTex, true, 0, true);
fgQuad.GetComponent<Renderer> ().material.mainTexture = fgTex;
bgQuad.GetComponent<Renderer> ().material.mainTexture = bgTex;
alphaQuad.GetComponent<Renderer> ().material.mainTexture = alphaTex;
dstQuad.GetComponent<Renderer> ().material.mainTexture = dstTex;
}
private IEnumerator AlphaBlending (Action action, int count = 100)
{
dstMat.setTo (new Scalar (0, 0, 0));
Utils.matToTexture2D (dstMat, dstTex);
yield return null;
switch (imageSize) {
default:
case ImageSize.Original:
_fgMat = fgMat;
_bgMat = bgMat;
_alphaMat = alphaMat;
_dstMat = dstMat;
break;
case ImageSize.Large:
_fgMat = fgMatLarge;
_bgMat = bgMatLarge;
_alphaMat = alphaMatLarge;
_dstMat = dstMatLarge;
break;
case ImageSize.Small:
_fgMat = fgMatROI;
_bgMat = bgMatROI;
_alphaMat = alphaMatROI;
_dstMat = dstMatROI;
break;
}
long ms = time (action, count);
if (imageSize == ImageSize.Large)
Imgproc.resize (dstMatLarge, dstMat, new Size (), 1.0 / 2.0, 1.0 / 2.0, 0);
Utils.matToTexture2D (dstMat, dstTex);
#if UNITY_WSA && ENABLE_DOTNET
if (fpsMonitor != null)
{
fpsMonitor.consoleText = imageSize + " : " + count + " : " + ms + " ms";
}
Debug.Log(imageSize + " : " + count + " : " + ms + " ms");
#else
if (fpsMonitor != null) {
fpsMonitor.consoleText = imageSize + " : " + count + " : " + action.Method.Name + " : " + ms + " ms";
}
Debug.Log (imageSize + " : " + count + " : " + action.Method.Name + " : " + ms + " ms");
#endif
}
private void getput ()
{
AlphaBlend_getput (_fgMat, _bgMat, _alphaMat, _dstMat);
}
private void matOp ()
{
AlphaBlend_matOp (_fgMat, _bgMat, _alphaMat, _dstMat);
}
private void matOp_alpha3c ()
{
AlphaBlend_matOp_alpha3c (_fgMat, _bgMat, _alphaMat, _dstMat);
}
private void copyFromMat ()
{
AlphaBlend_copyFromMat (_fgMat, _bgMat, _alphaMat, _dstMat);
}
private void marshal ()
{
AlphaBlend_Marshal (_fgMat, _bgMat, _alphaMat, _dstMat);
}
private void pointerAccess ()
{
// AlphaBlend_pointerAccess (_fgMat, _bgMat, _alphaMat, _dstMat);
}
private long time (Action action, int count)
{
System.GC.Collect ();
var tw = new System.Diagnostics.Stopwatch ();
tw.Start ();
for (int i = 0; i < count; i++)
action ();
tw.Stop ();
System.GC.Collect ();
return tw.ElapsedMilliseconds;
}
// mat.get() mat.put()
// [Il2CppSetOption(Option.ArrayBoundsChecks, false)]
// [Il2CppSetOption(Option.NullChecks, false)]
private void AlphaBlend_getput (Mat fg, Mat bg, Mat alpha, Mat dst)
{
byte[] fg_byte = new byte[fg.total () * fg.channels ()];
fg.get (0, 0, fg_byte);
byte[] bg_byte = new byte[bg.total () * bg.channels ()];
bg.get (0, 0, bg_byte);
byte[] alpha_byte = new byte[alpha.total () * alpha.channels ()];
alpha.get (0, 0, alpha_byte);
int pixel_i = 0;
int channels = (int)bg.channels ();
int total = (int)bg.total ();
for (int i = 0; i < total; i++) {
if (alpha_byte [i] == 0) {
} else if (alpha_byte [i] == 255) {
bg_byte [pixel_i] = fg_byte [pixel_i];
bg_byte [pixel_i + 1] = fg_byte [pixel_i + 1];
bg_byte [pixel_i + 2] = fg_byte [pixel_i + 2];
} else {
bg_byte [pixel_i] = (byte)((fg_byte [pixel_i] * alpha_byte [i] + bg_byte [pixel_i] * (255 - alpha_byte [i])) >> 8);
bg_byte [pixel_i + 1] = (byte)((fg_byte [pixel_i + 1] * alpha_byte [i] + bg_byte [pixel_i + 1] * (255 - alpha_byte [i])) >> 8);
bg_byte [pixel_i + 2] = (byte)((fg_byte [pixel_i + 2] * alpha_byte [i] + bg_byte [pixel_i + 2] * (255 - alpha_byte [i])) >> 8);
}
pixel_i += channels;
}
dst.put (0, 0, bg_byte);
}
// Mat operation
private void AlphaBlend_matOp (Mat fg, Mat bg, Mat alpha, Mat dst)
{
List<Mat> channels = new List<Mat> ();
using (Mat _bg = new Mat ())
using (Mat inv_alpha = new Mat (alpha.width (), alpha.height (), alpha.type ())) {
Core.bitwise_not (alpha, inv_alpha);
Core.split (bg, channels);
Core.multiply (inv_alpha, channels [0], channels [0], 1.0 / 255);
Core.multiply (inv_alpha, channels [1], channels [1], 1.0 / 255);
Core.multiply (inv_alpha, channels [2], channels [2], 1.0 / 255);
Core.merge (channels, _bg);
using (Mat _fg = new Mat ()) {
Core.split (fg, channels);
Core.multiply (alpha, channels [0], channels [0], 1.0 / 255);
Core.multiply (alpha, channels [1], channels [1], 1.0 / 255);
Core.multiply (alpha, channels [2], channels [2], 1.0 / 255);
Core.merge (channels, _fg);
Core.add (_fg, _bg, dst);
}
}
}
// Mat operation (3channel alpha)
private void AlphaBlend_matOp_alpha3c (Mat fg, Mat bg, Mat alpha, Mat dst)
{
using (Mat inv_alpha = new Mat (alpha.width (), alpha.height (), alpha.type ()))
using (Mat alpha3c = new Mat ())
using (Mat inv_alpha3c = new Mat ()) {
List<Mat> channels = new List<Mat> ();
channels.Add (alpha);
channels.Add (alpha);
channels.Add (alpha);
Core.merge (channels, alpha3c);
Core.bitwise_not (alpha, inv_alpha);
channels.Clear ();
channels.Add (inv_alpha);
channels.Add (inv_alpha);
channels.Add (inv_alpha);
Core.merge (channels, inv_alpha3c);
using (Mat _bg = new Mat ())
using (Mat _fg = new Mat ()) {
Core.multiply (inv_alpha3c, bg, _bg, 1.0 / 255);
Core.multiply (alpha3c, fg, _fg, 1.0 / 255);
Core.add (_fg, _bg, dst);
}
}
}
// Utils.copyFromMat
// [Il2CppSetOption(Option.ArrayBoundsChecks, false)]
// [Il2CppSetOption(Option.NullChecks, false)]
private void AlphaBlend_copyFromMat (Mat fg, Mat bg, Mat alpha, Mat dst)
{
byte[] fg_byte = new byte[fg.total () * fg.channels ()];
Utils.copyFromMat<byte> (fg, fg_byte);
byte[] bg_byte = new byte[bg.total () * bg.channels ()];
Utils.copyFromMat<byte> (bg, bg_byte);
byte[] alpha_byte = new byte[alpha.total () * alpha.channels ()];
Utils.copyFromMat<byte> (alpha, alpha_byte);
int pixel_i = 0;
int channels = (int)bg.channels ();
int total = (int)bg.total ();
for (int i = 0; i < total; i++) {
if (alpha_byte [i] == 0) {
} else if (alpha_byte [i] == 255) {
bg_byte [pixel_i] = fg_byte [pixel_i];
bg_byte [pixel_i + 1] = fg_byte [pixel_i + 1];
bg_byte [pixel_i + 2] = fg_byte [pixel_i + 2];
} else {
bg_byte [pixel_i] = (byte)((fg_byte [pixel_i] * alpha_byte [i] + bg_byte [pixel_i] * (255 - alpha_byte [i])) >> 8);
bg_byte [pixel_i + 1] = (byte)((fg_byte [pixel_i + 1] * alpha_byte [i] + bg_byte [pixel_i + 1] * (255 - alpha_byte [i])) >> 8);
bg_byte [pixel_i + 2] = (byte)((fg_byte [pixel_i + 2] * alpha_byte [i] + bg_byte [pixel_i + 2] * (255 - alpha_byte [i])) >> 8);
}
pixel_i += channels;
}
Utils.copyToMat (bg_byte, dst);
}
// Marshal
// [Il2CppSetOption(Option.ArrayBoundsChecks, false)]
// [Il2CppSetOption(Option.NullChecks, false)]
private void AlphaBlend_Marshal (Mat fg, Mat bg, Mat alpha, Mat dst)
{
byte[] fg_byte = new byte[fg.total () * fg.channels ()];
IntPtr fg_ptr = new IntPtr (fg.dataAddr ());
byte[] bg_byte = new byte[bg.total () * bg.channels ()];
IntPtr bg_ptr = new IntPtr (bg.dataAddr ());
byte[] alpha_byte = new byte[alpha.total () * alpha.channels ()];
IntPtr alpha_ptr = new IntPtr (alpha.dataAddr ());
byte[] dst_byte = new byte[dst.total () * dst.channels ()];
IntPtr dst_ptr = new IntPtr (dst.dataAddr ());
if (fg.isContinuous ()) {
Marshal.Copy (fg_ptr, fg_byte, 0, fg_byte.Length);
Marshal.Copy (bg_ptr, bg_byte, 0, bg_byte.Length);
Marshal.Copy (alpha_ptr, alpha_byte, 0, alpha_byte.Length);
Marshal.Copy (dst_ptr, dst_byte, 0, dst_byte.Length);
} else {
Size wholeSize = new Size ();
Point ofs = new Point ();
bg.locateROI (wholeSize, ofs);
long stride = (long)wholeSize.width * bg.elemSize ();
int w = bg.cols () * bg.channels ();
int h = bg.rows ();
long alpha_stride = (long)wholeSize.width * alpha.channels ();
int alpha_w = alpha.cols () * alpha.channels ();
for (int y = 0; y < h; y++) {
Marshal.Copy (fg_ptr, fg_byte, y * w, w);
Marshal.Copy (bg_ptr, bg_byte, y * w, w);
Marshal.Copy (alpha_ptr, alpha_byte, y * alpha_w, alpha_w);
Marshal.Copy (dst_ptr, dst_byte, y * w, w);
fg_ptr = new IntPtr (fg_ptr.ToInt64 () + stride);
bg_ptr = new IntPtr (bg_ptr.ToInt64 () + stride);
alpha_ptr = new IntPtr (alpha_ptr.ToInt64 () + alpha_stride);
dst_ptr = new IntPtr (dst_ptr.ToInt64 () + stride);
}
}
int pixel_i = 0;
int channels = (int)bg.channels ();
int total = (int)bg.total ();
for (int i = 0; i < total; i++) {
if (alpha_byte [i] == 0) {
} else if (alpha_byte [i] == 255) {
bg_byte [pixel_i] = fg_byte [pixel_i];
bg_byte [pixel_i + 1] = fg_byte [pixel_i + 1];
bg_byte [pixel_i + 2] = fg_byte [pixel_i + 2];
} else {
bg_byte [pixel_i] = (byte)((fg_byte [pixel_i] * alpha_byte [i] + bg_byte [pixel_i] * (255 - alpha_byte [i])) >> 8);
bg_byte [pixel_i + 1] = (byte)((fg_byte [pixel_i + 1] * alpha_byte [i] + bg_byte [pixel_i + 1] * (255 - alpha_byte [i])) >> 8);
bg_byte [pixel_i + 2] = (byte)((fg_byte [pixel_i + 2] * alpha_byte [i] + bg_byte [pixel_i + 2] * (255 - alpha_byte [i])) >> 8);
}
pixel_i += channels;
}
if (fg.isContinuous ()) {
Marshal.Copy (bg_byte, 0, dst_ptr, bg_byte.Length);
} else {
dst_ptr = new IntPtr (dst.dataAddr ());
Size wholeSize = new Size ();
Point ofs = new Point ();
bg.locateROI (wholeSize, ofs);
long stride = (long)wholeSize.width * bg.elemSize ();
int w = bg.cols () * bg.channels ();
int h = bg.rows ();
for (int y = 0; y < h; y++) {
Marshal.Copy (bg_byte, y * w, dst_ptr, w);
dst_ptr = new IntPtr (dst_ptr.ToInt64 () + stride);
}
}
}
/*
// pointer access
// [Il2CppSetOption(Option.ArrayBoundsChecks, false)]
// [Il2CppSetOption(Option.NullChecks, false)]
private void AlphaBlend_pointerAccess (Mat fg, Mat bg, Mat alpha, Mat dst)
{
IntPtr fg_ptr = new IntPtr (fg.dataAddr());
IntPtr bg_ptr = new IntPtr (bg.dataAddr());
IntPtr alpha_ptr = new IntPtr (alpha.dataAddr());
IntPtr dst_ptr = new IntPtr (dst.dataAddr());
if (fg.isContinuous ()) {
int total = (int)bg.total();
unsafe
{
byte* fg_p = (byte*)fg_ptr;
byte* bg_p = (byte*)bg_ptr;
byte* alpha_p = (byte*)alpha_ptr;
byte* dst_p = (byte*)dst_ptr;
for( int i = 0; i < total; i++)
{
*dst_p = (byte)(((*fg_p)*(*alpha_p) + (*bg_p)*(255 - *alpha_p)) >> 8);
fg_p++; bg_p++; dst_p++;
*dst_p = (byte)(((*fg_p)*(*alpha_p) + (*bg_p)*(255 - *alpha_p)) >> 8);
fg_p++; bg_p++; dst_p++;
*dst_p = (byte)(((*fg_p)*(*alpha_p) + (*bg_p)*(255 - *alpha_p)) >> 8);
fg_p++; bg_p++; dst_p++;
alpha_p++;
}
}
} else {
Size wholeSize = new Size ();
Point ofs = new Point ();
bg.locateROI(wholeSize, ofs);
long stride = (long)wholeSize.width * bg.channels ();
int w = bg.cols () * bg.channels ();
int h = bg.rows ();
long alpha_stride = (long)wholeSize.width * alpha.channels ();
int alpha_w = alpha.cols () ;
unsafe
{
byte* fg_p = (byte*)fg_ptr;
byte* bg_p = (byte*)bg_ptr;
byte* alpha_p = (byte*)alpha_ptr;
byte* dst_p = (byte*)dst_ptr;
for (int y = 0; y < h; y++) {
for (int x = 0; x < alpha_w; x++) {
*dst_p = (byte)(((*fg_p)*(*alpha_p) + (*bg_p)*(255 - *alpha_p)) >> 8);
fg_p++; bg_p++; dst_p++;
*dst_p = (byte)(((*fg_p)*(*alpha_p) + (*bg_p)*(255 - *alpha_p)) >> 8);
fg_p++; bg_p++; dst_p++;
*dst_p = (byte)(((*fg_p)*(*alpha_p) + (*bg_p)*(255 - *alpha_p)) >> 8);
fg_p++; bg_p++; dst_p++;
alpha_p++;
}
fg_p += stride - w;
bg_p += stride - w;
alpha_p += alpha_stride - alpha_w;
dst_p += stride - w;
}
}
}
}
*/
/// <summary>
/// Raises the back button click event.
/// </summary>
public void OnBackButtonClick ()
{
SceneManager.LoadScene ("OpenCVForUnityExample");
}
/// <summary>
/// Raises the image size dropdown value changed event.
/// </summary>
public void OnImageSizeDropdownValueChanged (int result)
{
if ((int)imageSize != result) {
imageSize = (ImageSize)result;
}
}
/// <summary>
/// Raises the count dropdown value changed event.
/// </summary>
public void OnCountDropdownValueChanged (int result)
{
switch (result) {
default:
case 0:
count = 1;
break;
case 1:
count = 10;
break;
case 2:
count = 100;
break;
}
}
/// <summary>
/// Raises the getput button click event.
/// </summary>
public void OnGetPutButtonClick ()
{
StartCoroutine (AlphaBlending (getput, count));
}
/// <summary>
/// Raises the MatOp button click event.
/// </summary>
public void OnMatOpButtonClick ()
{
StartCoroutine (AlphaBlending (matOp, count));
}
/// <summary>
/// Raises the MatOpAlpha3c button click event.
/// </summary>
public void OnMatOpAlpha3cButtonClick ()
{
StartCoroutine (AlphaBlending (matOp_alpha3c, count));
}
/// <summary>
/// Raises the copyFromMat button click event.
/// </summary>
public void OnCopyFromMatButtonClick ()
{
StartCoroutine (AlphaBlending (copyFromMat, count));
}
/// <summary>
/// Raises the Marshal button click event.
/// </summary>
public void OnMarshalButtonClick ()
{
StartCoroutine (AlphaBlending (marshal, count));
}
/// <summary>
/// Raises the pointer access button click event.
/// </summary>
public void OnPointerAccessButtonClick ()
{
StartCoroutine (AlphaBlending (pointerAccess, count));
}
}
}