// ScreenMatching.cs
// https://github.com/gnh1201/welsonjs
// https://github.com/gnh1201/welsonjs/wiki/Screen-Time-Feature
using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.Drawing;
using System.IO;
using System.IO.Hashing;
using System.Runtime.InteropServices;
using System.ServiceProcess;
using System.Text;
using System.Threading;
using System.Windows.Forms;
using System.Linq;
using Tesseract;
using WelsonJS.Service;
public class ScreenMatch
{
// User32.dll API 함수 선언
[DllImport("user32.dll")]
private static extern bool EnumWindows(EnumWindowsProc lpEnumFunc, IntPtr lParam);
[DllImport("user32.dll")]
private static extern bool IsWindowVisible(IntPtr hWnd);
[DllImport("user32.dll")]
private static extern int GetWindowRect(IntPtr hWnd, out RECT lpRect);
[DllImport("user32.dll")]
private static extern IntPtr GetDC(IntPtr hWnd);
[DllImport("user32.dll")]
private static extern int ReleaseDC(IntPtr hWnd, IntPtr hDC);
[DllImport("user32.dll")]
private static extern int GetWindowText(IntPtr hWnd, StringBuilder lpString, int nMaxCount);
[DllImport("user32.dll")]
private static extern int GetWindowTextLength(IntPtr hWnd);
[DllImport("gdi32.dll")]
private static extern bool BitBlt(IntPtr hDestDC, int x, int y, int nWidth, int nHeight, IntPtr hSrcDC, int xSrc, int ySrc, int dwRop);
[DllImport("user32.dll", SetLastError = true)]
private static extern uint GetWindowThreadProcessId(IntPtr hWnd, out uint lpdwProcessId);
[DllImport("user32.dll")]
private static extern bool EnumDisplaySettings(string lpszDeviceName, int iModeNum, ref DEVMODE lpDevMode);
// https://stackoverflow.com/questions/60872044/how-to-get-scaling-factor-for-each-monitor-e-g-1-1-25-1-5
[StructLayout(LayoutKind.Sequential)]
private struct DEVMODE
{
private const int CCHDEVICENAME = 0x20;
private const int CCHFORMNAME = 0x20;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 0x20)]
public string dmDeviceName;
public short dmSpecVersion;
public short dmDriverVersion;
public short dmSize;
public short dmDriverExtra;
public int dmFields;
public int dmPositionX;
public int dmPositionY;
public ScreenOrientation dmDisplayOrientation;
public int dmDisplayFixedOutput;
public short dmColor;
public short dmDuplex;
public short dmYResolution;
public short dmTTOption;
public short dmCollate;
[MarshalAs(UnmanagedType.ByValTStr, SizeConst = 0x20)]
public string dmFormName;
public short dmLogPixels;
public int dmBitsPerPel;
public int dmPelsWidth;
public int dmPelsHeight;
public int dmDisplayFlags;
public int dmDisplayFrequency;
public int dmICMMethod;
public int dmICMIntent;
public int dmMediaType;
public int dmDitherType;
public int dmReserved1;
public int dmReserved2;
public int dmPanningWidth;
public int dmPanningHeight;
}
private const int SRCCOPY = 0x00CC0020;
// 델리게이트 선언
public delegate bool EnumWindowsProc(IntPtr hWnd, IntPtr lParam);
// RECT 구조체 선언
[StructLayout(LayoutKind.Sequential)]
public struct RECT
{
public int Left;
public int Top;
public int Right;
public int Bottom;
}
private ServiceMain parent;
private List<Bitmap> templateImages;
private string templateDirectoryPath;
private string outputDirectoryPath;
private int templateCurrentIndex = 0;
private double threshold = 0.4;
private string mode;
private bool busy = false;
private List<string> _params = new List<string>();
private bool isSearchFromEnd = false;
private bool isSaveToFile = false;
private Size sampleSize;
private int sampleAdjustX;
private int sampleAdjustY;
private List<string> sampleAny;
private List<string> sampleClipboard;
private List<string> sampleOcr;
private List<string> sampleNodup;
private Size sampleNodupSize;
private Queue<Bitmap> sampleOutdated;
private byte thresholdConvertToBinary = 191;
private string tesseractDataPath;
private string tesseractLanguage;
public ScreenMatch(ServiceBase parent, string workingDirectory)
{
this.parent = (ServiceMain)parent;
templateDirectoryPath = Path.Combine(workingDirectory, "app/assets/img/_templates");
outputDirectoryPath = Path.Combine(workingDirectory, "app/assets/img/_captured");
templateImages = new List<Bitmap>();
// Initialize variables for sampling process
sampleSize = new Size
{
Width = 128,
Height = 128
};
sampleAdjustX = 0;
sampleAdjustY = 0;
sampleAny = new List<string>();
sampleClipboard = new List<string>();
sampleOcr = new List<string>();
sampleNodup = new List<string>();
sampleNodupSize = new Size
{
Width = 256,
Height = 32
};
sampleOutdated = new Queue<Bitmap>();
// Read values from configration file
string screen_time_mode;
string screen_time_params;
try
{
screen_time_mode = this.parent.GetSettingsHandler().Read("SCREEN_TIME_MODE", "Service");
screen_time_params = this.parent.GetSettingsHandler().Read("SCREEN_TIME_PARAMS", "Service");
}
catch (Exception ex)
{
screen_time_mode = null;
screen_time_params = null;
this.parent.Log($"Failed to read from configration file: {ex.Message}");
}
if (!String.IsNullOrEmpty(screen_time_params))
{
var screen_time_configs = screen_time_params
.Split(',')
.Select(pair => pair.Split('='))
.ToDictionary(
parts => parts[0],
parts => parts.Length > 1 ? parts[1] : parts[0]
);
var config_keys = new string[]
{
"process_name",
"sample_width",
"sample_height",
"sample_adjust_x",
"sample_adjust_y",
"sample_any",
"sample_nodup",
"backward",
"save",
"sample_clipboard",
"sample_ocr"
};
foreach (var config_key in config_keys)
{
string config_value;
screen_time_configs.TryGetValue(config_key, out config_value);
if (config_value != null)
{
switch (config_key)
{
case "backward":
{
isSearchFromEnd = true;
this.parent.Log("Use the backward search when screen time");
break;
}
case "save":
{
isSaveToFile = true;
this.parent.Log("Will be save an image file when capture the screens");
break;
}
case "sample_clipboard":
{
sampleClipboard = new List<string>(config_value.Split(':'));
break;
}
case "sample_ocr":
{
tesseractDataPath = Path.Combine(workingDirectory, "app/assets/tessdata_best");
tesseractLanguage = "eng";
sampleOcr = new List<string>(config_value.Split(':'));
break;
}
case "sample_width":
{
int.TryParse(config_value, out int w);
sampleSize.Width = w;
break;
}
case "sample_height":
{
int.TryParse(config_value, out int h);
sampleSize.Height = h;
break;
}
case "sample_adjust_x":
{
int.TryParse(config_value, out sampleAdjustX);
break;
}
case "sample_adjust_y":
{
int.TryParse(config_value, out sampleAdjustY);
break;
}
case "sample_any":
{
sampleAny = new List<string>(config_value.Split(':'));
break;
}
case "sample_nodup":
{
sampleNodup = new List<string>(config_value.Split(':'));
break;
}
}
}
}
}
SetMode(screen_time_mode);
LoadTemplateImages();
}
public void SetMode(string mode)
{
if (!String.IsNullOrEmpty(mode))
{
this.mode = mode;
}
else
{
this.mode = "screen";
}
}
public void SetThreshold(double threshold)
{
this.threshold = threshold;
}
public void LoadTemplateImages()
{
string[] files;
try
{
files = Directory.GetFiles(templateDirectoryPath, "*.png");
}
catch (Exception ex)
{
files = new string[]{};
parent.Log($"Failed to read the directory structure: {ex.Message}");
}
foreach (var file in files)
{
string filename = Path.GetFileName(file);
string realpath;
string altpath = parent.GetUserVariablesHandler().GetValue(filename);
if (!String.IsNullOrEmpty(altpath))
{
realpath = altpath;
parent.Log($"Use the alternative image: {realpath}");
}
else
{
realpath = file;
parent.Log($"Use the default image: {realpath}");
}
Bitmap bitmap = new Bitmap(realpath)
{
Tag = filename
};
if (!filename.StartsWith("no_"))
{
if (filename.StartsWith("binary_"))
{
templateImages.Add(ConvertToBinary(bitmap, thresholdConvertToBinary));
}
else
{
templateImages.Add(bitmap);
}
}
}
}
// 캡쳐 및 템플릿 매칭 진행
public List<ScreenMatchResult> CaptureAndMatch()
{
List<ScreenMatchResult> results = new List<ScreenMatchResult>();
if (busy)
{
throw new Exception("Waiting done a previous job...");
}
if (templateImages.Count > 0)
{
toggleBusy();
switch (mode)
{
case "screen": // 화면 기준
results = CaptureAndMatchAllScreens();
toggleBusy();
break;
case "window": // 윈도우 핸들 기준
results = CaptureAndMatchAllWindows();
toggleBusy();
break;
default:
toggleBusy();
throw new Exception($"Unknown capture mode {mode}");
}
}
return results;
}
// 화면을 기준으로 찾기
public List<ScreenMatchResult> CaptureAndMatchAllScreens()
{
var results = new List<ScreenMatchResult>();
for (int i = 0; i < Screen.AllScreens.Length; i++)
{
Screen screen = Screen.AllScreens[i];
Bitmap mainImage = CaptureScreen(screen);
if (isSaveToFile)
{
string outputFilePath = Path.Combine(outputDirectoryPath, $"{DateTime.Now.ToString("yyyy-MM-dd hh mm ss")}.png");
((Bitmap)mainImage.Clone()).Save(outputFilePath);
parent.Log($"Screenshot saved: {outputFilePath}");
}
Bitmap image = templateImages[templateCurrentIndex];
string templateName = image.Tag as string;
string nextTemplateName = parent.GetNextTemplateName();
Size templateSize = new Size
{
Width = image.Width,
Height = image.Height
};
parent.Log($"Trying match the template {templateName} on the screen {i}...");
if (!String.IsNullOrEmpty(nextTemplateName) && templateName != nextTemplateName)
{
parent.Log($"Ignored the template {templateName}");
break;
}
Bitmap _mainImage;
if (templateName.StartsWith("binary_"))
{
_mainImage = ConvertToBinary((Bitmap)mainImage.Clone(), thresholdConvertToBinary);
}
else
{
_mainImage = mainImage;
}
List<Point> matchPositions = FindTemplate(_mainImage, (Bitmap)image.Clone());
foreach (Point matchPosition in matchPositions)
{
try
{
string text = sampleAny.Contains(templateName) ?
InspectSample((Bitmap)mainImage.Clone(), matchPosition, templateSize, templateName, sampleSize) : string.Empty;
results.Add(new ScreenMatchResult
{
FileName = templateName,
ScreenNumber = i,
Position = matchPosition,
Text = text
});
break; // Only one
}
catch (Exception ex)
{
parent.Log($"Ignore the match. {ex.Message}");
}
}
}
if (results.Count > 0)
{
parent.Log("Match found");
}
else
{
parent.Log($"No match found");
}
templateCurrentIndex = ++templateCurrentIndex % templateImages.Count;
return results;
}
public Bitmap CropBitmap(Bitmap bitmap, Point matchPosition, Size templateSize, Size sampleSize, int dx = 0, int dy = 0)
{
// Adjust coordinates to the center
int x = matchPosition.X + (templateSize.Width / 2);
int y = matchPosition.Y + (templateSize.Height / 2);
// Set range of crop image
int cropX = Math.Max((x - sampleSize.Width / 2) + dx, 0);
int cropY = Math.Max((y - sampleSize.Height / 2) + dy, 0);
int cropWidth = Math.Min(sampleSize.Width, bitmap.Width - cropX);
int cropHeight = Math.Min(sampleSize.Height, bitmap.Height - cropY);
Rectangle cropArea = new Rectangle(cropX, cropY, cropWidth, cropHeight);
// Crop image
return bitmap.Clone(cropArea, bitmap.PixelFormat);
}
public string InspectSample(Bitmap bitmap, Point matchPosition, Size templateSize, string templateName, Size sampleSize)
{
if (bitmap == null)
{
throw new ArgumentNullException(nameof(bitmap), "Bitmap cannot be null.");
}
if (matchPosition == null || matchPosition == Point.Empty)
{
throw new ArgumentException("matchPosition cannot be empty.");
}
// initialize the text
string text = "";
// Crop image
Bitmap croppedBitmap = CropBitmap(bitmap, matchPosition, templateSize, sampleSize, sampleAdjustX, sampleAdjustY);
// Save to the outdated samples
if (sampleNodup.Contains(templateName))
{
Bitmap croppedNodupBitmap = CropBitmap(bitmap, matchPosition, templateSize, sampleNodupSize);
uint bitmapCrc32 = ComputeBitmapCrc32(croppedNodupBitmap);
croppedNodupBitmap.Tag = bitmapCrc32;
bool bitmapExists = sampleOutdated.Any(x => (uint)x.Tag == bitmapCrc32);
if (bitmapExists)
{
throw new InvalidOperationException($"This may be a duplicate request. {templateName}");
}
else
{
sampleOutdated.Enqueue(croppedNodupBitmap);
parent.Log($"Added to the image queue. {templateName}");
}
}
// if use Clipboard
if (sampleClipboard.Contains(templateName))
{
parent.Log($"Trying to use the clipboard... {templateName}");
Thread th = new Thread(new ThreadStart(() =>
{
try
{
Clipboard.SetImage((Bitmap)croppedBitmap.Clone());
parent.Log($"Copied the image to Clipboard");
}
catch (Exception ex)
{
parent.Log($"Failed to copy to the clipboard: {ex.Message}");
}
}));
th.SetApartmentState(ApartmentState.STA);
th.Start();
}
// if use OCR
if (sampleOcr.Contains(templateName))
{
try
{
using (var engine = new TesseractEngine(tesseractDataPath, tesseractLanguage, EngineMode.Default))
{
using (var page = engine.Process(croppedBitmap))
{
text = page.GetText();
parent.Log($"Mean confidence: {page.GetMeanConfidence()}");
parent.Log($"Text (GetText): {text}");
}
}
}
catch (Exception ex)
{
parent.Log($"Failed to OCR: {ex.Message}");
}
}
return text;
}
public Bitmap CaptureScreen(Screen screen)
{
Rectangle screenSize = screen.Bounds;
DEVMODE dm = new DEVMODE();
dm.dmSize = (short)Marshal.SizeOf(typeof(DEVMODE));
EnumDisplaySettings(screen.DeviceName, -1, ref dm);
var scalingFactor = Math.Round(Decimal.Divide(dm.dmPelsWidth, screen.Bounds.Width), 2);
parent.Log($"Resolved the screen scale: {scalingFactor}");
int adjustedWidth = (int)(screenSize.Width * scalingFactor);
int adjustedHeight = (int)(screenSize.Height * scalingFactor);
Bitmap bitmap = new Bitmap(adjustedWidth, adjustedHeight);
using (Graphics bitmapGraphics = Graphics.FromImage(bitmap))
{
bitmapGraphics.CopyFromScreen(screenSize.Left, screenSize.Top, 0, 0, new Size(adjustedWidth, adjustedHeight));
}
return bitmap;
}
// 윈도우 핸들을 기준으로 찾기
public List<ScreenMatchResult> CaptureAndMatchAllWindows()
{
var results = new List<ScreenMatchResult>();
// 모든 윈도우 핸들을 열거
EnumWindows((hWnd, lParam) =>
{
if (IsWindowVisible(hWnd))
{
try
{
string windowTitle = GetWindowTitle(hWnd);
string processName = GetProcessName(hWnd);
GetWindowRect(hWnd, out RECT windowRect);
Point windowPosition = new Point(windowRect.Left, windowRect.Top);
Bitmap windowImage = CaptureWindow(hWnd);
if (windowImage != null)
{
Bitmap image = templateImages[templateCurrentIndex];
string templateName = image.Tag as string;
Size templateSize = new Size
{
Width = image.Width,
Height = image.Height
};
List<Point> matchPositions = FindTemplate(windowImage, image);
matchPositions.ForEach((matchPosition) =>
{
try
{
string text = sampleAny.Contains(templateName) ?
InspectSample((Bitmap)windowImage.Clone(), matchPosition, templateSize, templateName, sampleSize) : string.Empty;
results.Add(new ScreenMatchResult
{
FileName = templateName,
WindowHandle = hWnd,
WindowTitle = windowTitle,
ProcessName = processName,
WindowPosition = windowPosition,
Position = matchPosition,
Text = text
});
}
catch (Exception ex)
{
parent.Log($"Ignore the match. {ex.Message}");
}
});
}
}
catch (Exception ex) {
parent.Log($"Error {ex.Message}");
}
}
return true;
}, IntPtr.Zero);
templateCurrentIndex = ++templateCurrentIndex % templateImages.Count;
return results;
}
public string GetWindowTitle(IntPtr hWnd)
{
int length = GetWindowTextLength(hWnd);
StringBuilder sb = new StringBuilder(length + 1);
GetWindowText(hWnd, sb, sb.Capacity);
return sb.ToString();
}
public string GetProcessName(IntPtr hWnd)
{
uint processId;
GetWindowThreadProcessId(hWnd, out processId);
Process process = Process.GetProcessById((int)processId);
return process.ProcessName;
}
public Bitmap CaptureWindow(IntPtr hWnd)
{
GetWindowRect(hWnd, out RECT rect);
int width = rect.Right - rect.Left;
int height = rect.Bottom - rect.Top;
if (width <= 0 || height <= 0)
return null;
Bitmap bitmap = new Bitmap(width, height);
Graphics graphics = Graphics.FromImage(bitmap);
IntPtr hDC = graphics.GetHdc();
IntPtr windowDC = GetDC(hWnd);
bool success = BitBlt(hDC, 0, 0, width, height, windowDC, 0, 0, SRCCOPY);
ReleaseDC(hWnd, windowDC);
graphics.ReleaseHdc(hDC);
return success ? bitmap : null;
}
public List<Point> FindTemplate(Bitmap mainImage, Bitmap templateImage)
{
var matches = new List<Point>();
int mainWidth = mainImage.Width;
int mainHeight = mainImage.Height;
int templateWidth = templateImage.Width;
int templateHeight = templateImage.Height;
int startX = isSearchFromEnd ? mainWidth - templateWidth : 0;
int endX = isSearchFromEnd ? -1 : mainWidth - templateWidth + 1;
int stepX = isSearchFromEnd ? -1 : 1;
int startY = isSearchFromEnd ? mainHeight - templateHeight : 0;
int endY = isSearchFromEnd ? -1 : mainHeight - templateHeight + 1;
int stepY = isSearchFromEnd ? -1 : 1;
for (int x = startX; x != endX; x += stepX)
{
for (int y = startY; y != endY; y += stepY)
{
if (IsTemplateMatch(mainImage, templateImage, x, y, threshold))
{
matches.Add(new Point(x, y));
}
}
}
return matches;
}
private void toggleBusy()
{
busy = !busy;
}
private bool IsTemplateMatch(Bitmap mainImage, Bitmap templateImage, int offsetX, int offsetY, double threshold)
{
int templateWidth = templateImage.Width;
int templateHeight = templateImage.Height;
int totalPixels = templateWidth * templateHeight;
int requiredMatches = (int)(totalPixels * threshold);
// When the square root of the canvas size of the image to be matched is less than 10, a complete match is applied.
if (Math.Sqrt(templateWidth * templateHeight) < 10.0)
{
for (int y = 0; y < templateHeight; y++)
{
for (int x = 0; x < templateWidth; x++)
{
if (mainImage.GetPixel(x + offsetX, y + offsetY) != templateImage.GetPixel(x, y))
{
return false;
}
}
}
return true;
}
// Otherwise, randomness is used.
int matchedCount = 0;
Random rand = new Random();
while (matchedCount < requiredMatches)
{
int x = rand.Next(templateWidth);
int y = rand.Next(templateHeight);
if (mainImage.GetPixel(x + offsetX, y + offsetY) != templateImage.GetPixel(x, y))
{
return false;
}
matchedCount++;
}
return true;
}
private Bitmap ConvertToBinary(Bitmap image, byte threshold)
{
Bitmap binaryImage = new Bitmap(image.Width, image.Height);
if (image.Tag != null)
{
binaryImage.Tag = image.Tag;
}
for (int y = 0; y < image.Height; y++)
{
for (int x = 0; x < image.Width; x++)
{
// Convert the pixel to grayscale
Color pixelColor = image.GetPixel(x, y);
byte grayValue = (byte)((pixelColor.R + pixelColor.G + pixelColor.B) / 3);
// Apply threshold to convert to binary
Color binaryColor = grayValue >= threshold ? Color.White : Color.Black;
binaryImage.SetPixel(x, y, binaryColor);
}
}
return binaryImage;
}
private uint ComputeBitmapCrc32(Bitmap bitmap)
{
using (MemoryStream ms = new MemoryStream())
{
bitmap.Save(ms, System.Drawing.Imaging.ImageFormat.Png);
byte[] bitmapBytes = ms.ToArray();
Crc32 crc32 = new Crc32();
crc32.Append(bitmapBytes);
return BitConverter.ToUInt32(crc32.GetCurrentHash(), 0);
}
}
}