lol

GazeTests/Services/PupilDetectorTests.swift

@@ -2,41 +2,42 @@
 //  PupilDetectorTests.swift
 //  GazeTests
 //
-//  Created by Claude on 1/16/26.
+//  Created by Mike Freno on 1/16/26.
 //
 
-import XCTest
 import CoreVideo
 import Vision
+import XCTest
+
 @testable import Gaze
 
 final class PupilDetectorTests: XCTestCase {
-    
+
     override func setUp() async throws {
         // Reset the detector state
         PupilDetector.cleanup()
     }
-    
+
     func testCreateCGImageFromData() throws {
         // Test basic image creation
         let width = 50
         let height = 50
         var pixels = [UInt8](repeating: 128, count: width * height)
-        
+
         // Add some dark pixels for a "pupil"
         for y in 20..<30 {
             for x in 20..<30 {
                 pixels[y * width + x] = 10  // Very dark
             }
         }
-        
+
         // Save test image to verify
         let pixelData = Data(pixels)
         guard let provider = CGDataProvider(data: pixelData as CFData) else {
             XCTFail("Failed to create CGDataProvider")
             return
         }
-        
+
         let cgImage = CGImage(
             width: width,
             height: height,
@@ -50,18 +51,18 @@ final class PupilDetectorTests: XCTestCase {
             shouldInterpolate: false,
             intent: .defaultIntent
         )
-        
+
         XCTAssertNotNil(cgImage, "Should create CGImage from pixel data")
     }
-    
+
     func testImageProcessingWithDarkPixels() throws {
         // Test that imageProcessingOptimized produces dark pixels
         let width = 60
         let height = 40
-        
+
         // Create input with a dark circle (simulating pupil)
         var input = [UInt8](repeating: 200, count: width * height)  // Light background (like eye white)
-        
+
         // Add a dark ellipse in center (pupil)
         let centerX = width / 2
         let centerY = height / 2
@@ -74,10 +75,10 @@ final class PupilDetectorTests: XCTestCase {
                 }
             }
         }
-        
+
         var output = [UInt8](repeating: 255, count: width * height)
         let threshold = 50  // Same as default
-        
+
         // Call the actual processing function
         input.withUnsafeMutableBufferPointer { inputPtr in
             output.withUnsafeMutableBufferPointer { outputPtr in
@@ -85,7 +86,7 @@ final class PupilDetectorTests: XCTestCase {
                 // But we can verify by saving input for inspection
             }
         }
-        
+
         // Save the input for manual inspection
         let inputData = Data(input)
         let url = URL(fileURLWithPath: "/Users/mike/gaze/images/test_input_synthetic.png")
@@ -103,28 +104,30 @@ final class PupilDetectorTests: XCTestCase {
                 shouldInterpolate: false,
                 intent: .defaultIntent
             ) {
-                if let dest = CGImageDestinationCreateWithURL(url as CFURL, "public.png" as CFString, 1, nil) {
+                if let dest = CGImageDestinationCreateWithURL(
+                    url as CFURL, "public.png" as CFString, 1, nil)
+                {
                     CGImageDestinationAddImage(dest, cgImage, nil)
                     CGImageDestinationFinalize(dest)
                     print("💾 Saved synthetic test input to: \(url.path)")
                 }
             }
         }
-        
+
         // Count dark pixels in input
         let darkCount = input.filter { $0 < 50 }.count
         print("📊 Input has \(darkCount) dark pixels (< 50)")
         XCTAssertGreaterThan(darkCount, 0, "Input should have dark pixels for pupil")
     }
-    
+
     func testFindPupilFromContoursWithSyntheticData() throws {
         // Create synthetic binary image with a dark region
         let width = 60
         let height = 40
-        
+
         // All white except a dark blob
         var binaryData = [UInt8](repeating: 255, count: width * height)
-        
+
         // Add dark region (0 = dark/pupil)
         let centerX = 30
         let centerY = 20
@@ -139,9 +142,9 @@ final class PupilDetectorTests: XCTestCase {
                 }
             }
         }
-        
+
         print("📊 Created synthetic image with \(darkPixelCount) dark pixels")
-        
+
         // Save for inspection
         let binaryDataObj = Data(binaryData)
         let url = URL(fileURLWithPath: "/Users/mike/gaze/images/test_binary_synthetic.png")
@@ -159,14 +162,16 @@ final class PupilDetectorTests: XCTestCase {
                 shouldInterpolate: false,
                 intent: .defaultIntent
             ) {
-                if let dest = CGImageDestinationCreateWithURL(url as CFURL, "public.png" as CFString, 1, nil) {
+                if let dest = CGImageDestinationCreateWithURL(
+                    url as CFURL, "public.png" as CFString, 1, nil)
+                {
                     CGImageDestinationAddImage(dest, cgImage, nil)
                     CGImageDestinationFinalize(dest)
                     print("💾 Saved synthetic binary image to: \(url.path)")
                 }
             }
         }
-        
+
         XCTAssertGreaterThan(darkPixelCount, 10, "Should have enough dark pixels")
     }
 }

GazeTests/VideoGazeTests.swift

@@ -2,77 +2,103 @@
 //  VideoGazeTests.swift
 //  GazeTests
 //
-//  Created by Claude on 1/16/26.
+//  Created by Mike Freno on 1/16/26.
 //
 
-import XCTest
 import AVFoundation
 import Vision
+import XCTest
+
 @testable import Gaze
 
 final class VideoGazeTests: XCTestCase {
-    
+
     var logLines: [String] = []
-    
+
     private func log(_ message: String) {
         logLines.append(message)
     }
-    
+
     private func attachLogs() {
         let attachment = XCTAttachment(string: logLines.joined(separator: "\n"))
         attachment.name = "Test Logs"
         attachment.lifetime = .keepAlways
         add(attachment)
     }
-    
+
     /// Process the outer video (looking away from screen) - should detect "looking away"
     func testOuterVideoGazeDetection() async throws {
         logLines = []
-        
+
         let projectPath = "/Users/mike/Code/Gaze/GazeTests/video-test-outer.mp4"
         guard FileManager.default.fileExists(atPath: projectPath) else {
             XCTFail("Video file not found at: \(projectPath)")
             return
         }
-        let stats = try await processVideo(at: URL(fileURLWithPath: projectPath), expectLookingAway: true)
-        
+        let stats = try await processVideo(
+            at: URL(fileURLWithPath: projectPath), expectLookingAway: true)
+
         // For outer video, most frames should detect gaze outside center
-        let nonCenterRatio = Double(stats.nonCenterFrames) / Double(max(1, stats.pupilDetectedFrames))
-        log("🎯 OUTER video: \(String(format: "%.1f%%", nonCenterRatio * 100)) frames detected as non-center (expected: >50%)")
-        log("   H-range: \(String(format: "%.3f", stats.minH)) to \(String(format: "%.3f", stats.maxH))")
-        log("   V-range: \(String(format: "%.3f", stats.minV)) to \(String(format: "%.3f", stats.maxV))")
-        log("   Face width: \(String(format: "%.3f", stats.avgFaceWidth)) (range: \(String(format: "%.3f", stats.minFaceWidth))-\(String(format: "%.3f", stats.maxFaceWidth)))")
-        
+        let nonCenterRatio =
+            Double(stats.nonCenterFrames) / Double(max(1, stats.pupilDetectedFrames))
+        log(
+            "🎯 OUTER video: \(String(format: "%.1f%%", nonCenterRatio * 100)) frames detected as non-center (expected: >50%)"
+        )
+        log(
+            "   H-range: \(String(format: "%.3f", stats.minH)) to \(String(format: "%.3f", stats.maxH))"
+        )
+        log(
+            "   V-range: \(String(format: "%.3f", stats.minV)) to \(String(format: "%.3f", stats.maxV))"
+        )
+        log(
+            "   Face width: \(String(format: "%.3f", stats.avgFaceWidth)) (range: \(String(format: "%.3f", stats.minFaceWidth))-\(String(format: "%.3f", stats.maxFaceWidth)))"
+        )
+
         attachLogs()
-        
+
         // At least 50% should be detected as non-center when looking away
-        XCTAssertGreaterThan(nonCenterRatio, 0.5, "Looking away video should have >50% non-center detections. Log:\n\(logLines.joined(separator: "\n"))")
+        XCTAssertGreaterThan(
+            nonCenterRatio, 0.5,
+            "Looking away video should have >50% non-center detections. Log:\n\(logLines.joined(separator: "\n"))"
+        )
     }
-    
+
     /// Process the inner video (looking at screen) - should detect "looking at screen"
     func testInnerVideoGazeDetection() async throws {
         logLines = []
-        
+
         let projectPath = "/Users/mike/Code/Gaze/GazeTests/video-test-inner.mp4"
         guard FileManager.default.fileExists(atPath: projectPath) else {
             XCTFail("Video file not found at: \(projectPath)")
             return
         }
-        let stats = try await processVideo(at: URL(fileURLWithPath: projectPath), expectLookingAway: false)
-        
+        let stats = try await processVideo(
+            at: URL(fileURLWithPath: projectPath), expectLookingAway: false)
+
         // For inner video, most frames should detect gaze at center
         let centerRatio = Double(stats.centerFrames) / Double(max(1, stats.pupilDetectedFrames))
-        log("🎯 INNER video: \(String(format: "%.1f%%", centerRatio * 100)) frames detected as center (expected: >50%)")
-        log("   H-range: \(String(format: "%.3f", stats.minH)) to \(String(format: "%.3f", stats.maxH))")
-        log("   V-range: \(String(format: "%.3f", stats.minV)) to \(String(format: "%.3f", stats.maxV))")
-        log("   Face width: \(String(format: "%.3f", stats.avgFaceWidth)) (range: \(String(format: "%.3f", stats.minFaceWidth))-\(String(format: "%.3f", stats.maxFaceWidth)))")
-        
+        log(
+            "🎯 INNER video: \(String(format: "%.1f%%", centerRatio * 100)) frames detected as center (expected: >50%)"
+        )
+        log(
+            "   H-range: \(String(format: "%.3f", stats.minH)) to \(String(format: "%.3f", stats.maxH))"
+        )
+        log(
+            "   V-range: \(String(format: "%.3f", stats.minV)) to \(String(format: "%.3f", stats.maxV))"
+        )
+        log(
+            "   Face width: \(String(format: "%.3f", stats.avgFaceWidth)) (range: \(String(format: "%.3f", stats.minFaceWidth))-\(String(format: "%.3f", stats.maxFaceWidth)))"
+        )
+
         attachLogs()
-        
+
         // At least 50% should be detected as center when looking at screen
-        XCTAssertGreaterThan(centerRatio, 0.5, "Looking at screen video should have >50% center detections. Log:\n\(logLines.joined(separator: "\n"))")
+        XCTAssertGreaterThan(
+            centerRatio, 0.5,
+            "Looking at screen video should have >50% center detections. Log:\n\(logLines.joined(separator: "\n"))"
+        )
     }
-    
+
     struct VideoStats {
         var totalFrames = 0
         var faceDetectedFrames = 0
@@ -87,34 +113,38 @@ final class VideoGazeTests: XCTestCase {
         var maxFaceWidth = -Double.greatestFiniteMagnitude
         var totalFaceWidth = 0.0
         var faceWidthCount = 0
-        
+
         var avgFaceWidth: Double {
             faceWidthCount > 0 ? totalFaceWidth / Double(faceWidthCount) : 0
         }
     }
-    
+
     private func processVideo(at url: URL, expectLookingAway: Bool) async throws -> VideoStats {
         var stats = VideoStats()
-        
+
         log("\n" + String(repeating: "=", count: 60))
         log("Processing video: \(url.lastPathComponent)")
-        log("Expected behavior: \(expectLookingAway ? "LOOKING AWAY (non-center)" : "LOOKING AT SCREEN (center)")")
+        log(
+            "Expected behavior: \(expectLookingAway ? "LOOKING AWAY (non-center)" : "LOOKING AT SCREEN (center)")"
+        )
         log(String(repeating: "=", count: 60))
-        
+
         let asset = AVURLAsset(url: url)
         let duration = try await asset.load(.duration)
         let durationSeconds = CMTimeGetSeconds(duration)
         log("Duration: \(String(format: "%.2f", durationSeconds)) seconds")
-        
+
         guard let track = try await asset.loadTracks(withMediaType: .video).first else {
             XCTFail("No video track found")
             return stats
         }
-        
+
         let size = try await track.load(.naturalSize)
         let frameRate = try await track.load(.nominalFrameRate)
-        log("Size: \(Int(size.width))x\(Int(size.height)), FPS: \(String(format: "%.1f", frameRate))")
-        
+        log(
+            "Size: \(Int(size.width))x\(Int(size.height)), FPS: \(String(format: "%.1f", frameRate))"
+        )
+
         let reader = try AVAssetReader(asset: asset)
         let outputSettings: [String: Any] = [
             kCVPixelBufferPixelFormatTypeKey as String: kCVPixelFormatType_32BGRA
@@ -122,82 +152,86 @@ final class VideoGazeTests: XCTestCase {
         let trackOutput = AVAssetReaderTrackOutput(track: track, outputSettings: outputSettings)
         reader.add(trackOutput)
         reader.startReading()
-        
+
         var frameIndex = 0
-        let sampleInterval = max(1, Int(frameRate / 2)) // Sample ~2 frames per second
-        
+        let sampleInterval = max(1, Int(frameRate / 2))  // Sample ~2 frames per second
+
         log("\nFrame | Time  | Face | H-Ratio L/R    | V-Ratio L/R    | Direction")
         log(String(repeating: "-", count: 75))
-        
+
         // Reset calibration for fresh test
         PupilDetector.calibration.reset()
-        
+
         // Disable frame skipping for video testing
         let originalFrameSkip = PupilDetector.frameSkipCount
         PupilDetector.frameSkipCount = 1
         defer { PupilDetector.frameSkipCount = originalFrameSkip }
-        
+
         while let sampleBuffer = trackOutput.copyNextSampleBuffer() {
-            defer { 
-                frameIndex += 1 
+            defer {
+                frameIndex += 1
                 PupilDetector.advanceFrame()
             }
-            
+
             // Only process every Nth frame
             if frameIndex % sampleInterval != 0 {
                 continue
             }
-            
+
             stats.totalFrames += 1
-            
+
             guard let pixelBuffer = CMSampleBufferGetImageBuffer(sampleBuffer) else {
                 continue
             }
-            
+
             let timestamp = CMSampleBufferGetPresentationTimeStamp(sampleBuffer)
             let timeSeconds = CMTimeGetSeconds(timestamp)
-            
+
             // Run face detection
             let request = VNDetectFaceLandmarksRequest()
             request.revision = VNDetectFaceLandmarksRequestRevision3
-            
+
             let handler = VNImageRequestHandler(
                 cvPixelBuffer: pixelBuffer,
                 orientation: .leftMirrored,
                 options: [:]
             )
-            
+
             try handler.perform([request])
-            
+
             guard let observations = request.results, !observations.isEmpty,
-                  let face = observations.first,
-                  let landmarks = face.landmarks,
-                  let leftEye = landmarks.leftEye,
-                  let rightEye = landmarks.rightEye else {
-                log(String(format: "%5d | %5.1fs | NO   | -              | -              | -", frameIndex, timeSeconds))
+                let face = observations.first,
+                let landmarks = face.landmarks,
+                let leftEye = landmarks.leftEye,
+                let rightEye = landmarks.rightEye
+            else {
+                log(
+                    String(
+                        format: "%5d | %5.1fs | NO   | -              | -              | -",
+                        frameIndex, timeSeconds))
                 continue
             }
-            
+
             stats.faceDetectedFrames += 1
-            
+
             // Track face width (bounding box width as ratio of image width)
             let faceWidth = face.boundingBox.width
             stats.minFaceWidth = min(stats.minFaceWidth, faceWidth)
             stats.maxFaceWidth = max(stats.maxFaceWidth, faceWidth)
             stats.totalFaceWidth += faceWidth
             stats.faceWidthCount += 1
-            
+
             let imageSize = CGSize(
                 width: CVPixelBufferGetWidth(pixelBuffer),
                 height: CVPixelBufferGetHeight(pixelBuffer)
             )
-            
+
             // Detect pupils
             var leftHRatio: Double?
             var rightHRatio: Double?
             var leftVRatio: Double?
             var rightVRatio: Double?
-            
+
             if let leftResult = PupilDetector.detectPupil(
                 in: pixelBuffer,
                 eyeLandmarks: leftEye,
@@ -205,10 +239,12 @@ final class VideoGazeTests: XCTestCase {
                 imageSize: imageSize,
                 side: 0
             ) {
-                leftHRatio = calculateHorizontalRatio(pupilPosition: leftResult.pupilPosition, eyeRegion: leftResult.eyeRegion)
-                leftVRatio = calculateVerticalRatio(pupilPosition: leftResult.pupilPosition, eyeRegion: leftResult.eyeRegion)
+                leftHRatio = calculateHorizontalRatio(
+                    pupilPosition: leftResult.pupilPosition, eyeRegion: leftResult.eyeRegion)
+                leftVRatio = calculateVerticalRatio(
+                    pupilPosition: leftResult.pupilPosition, eyeRegion: leftResult.eyeRegion)
             }
-            
+
             if let rightResult = PupilDetector.detectPupil(
                 in: pixelBuffer,
                 eyeLandmarks: rightEye,
@@ -216,62 +252,79 @@ final class VideoGazeTests: XCTestCase {
                 imageSize: imageSize,
                 side: 1
             ) {
-                rightHRatio = calculateHorizontalRatio(pupilPosition: rightResult.pupilPosition, eyeRegion: rightResult.eyeRegion)
-                rightVRatio = calculateVerticalRatio(pupilPosition: rightResult.pupilPosition, eyeRegion: rightResult.eyeRegion)
+                rightHRatio = calculateHorizontalRatio(
+                    pupilPosition: rightResult.pupilPosition, eyeRegion: rightResult.eyeRegion)
+                rightVRatio = calculateVerticalRatio(
+                    pupilPosition: rightResult.pupilPosition, eyeRegion: rightResult.eyeRegion)
             }
-            
+
             if let lh = leftHRatio, let rh = rightHRatio,
-               let lv = leftVRatio, let rv = rightVRatio {
+                let lv = leftVRatio, let rv = rightVRatio
+            {
                 stats.pupilDetectedFrames += 1
                 let avgH = (lh + rh) / 2.0
                 let avgV = (lv + rv) / 2.0
-                
+
                 // Track min/max ranges
                 stats.minH = min(stats.minH, avgH)
                 stats.maxH = max(stats.maxH, avgH)
                 stats.minV = min(stats.minV, avgV)
                 stats.maxV = max(stats.maxV, avgV)
-                
+
                 let direction = GazeDirection.from(horizontal: avgH, vertical: avgV)
                 if direction == .center {
                     stats.centerFrames += 1
                 } else {
                     stats.nonCenterFrames += 1
                 }
-                log(String(format: "%5d | %5.1fs | YES  | %.2f / %.2f    | %.2f / %.2f    | %@ %@", 
-                      frameIndex, timeSeconds, lh, rh, lv, rv, direction.rawValue, String(describing: direction)))
+                log(
+                    String(
+                        format: "%5d | %5.1fs | YES  | %.2f / %.2f    | %.2f / %.2f    | %@ %@",
+                        frameIndex, timeSeconds, lh, rh, lv, rv, direction.rawValue,
+                        String(describing: direction)))
             } else {
-                log(String(format: "%5d | %5.1fs | YES  | PUPIL FAIL     | PUPIL FAIL     | -", frameIndex, timeSeconds))
+                log(
+                    String(
+                        format: "%5d | %5.1fs | YES  | PUPIL FAIL     | PUPIL FAIL     | -",
+                        frameIndex, timeSeconds))
             }
         }
-        
+
         log(String(repeating: "=", count: 75))
-        log("Summary: \(stats.totalFrames) frames sampled, \(stats.faceDetectedFrames) with face, \(stats.pupilDetectedFrames) with pupils")
+        log(
+            "Summary: \(stats.totalFrames) frames sampled, \(stats.faceDetectedFrames) with face, \(stats.pupilDetectedFrames) with pupils"
+        )
         log("Center frames: \(stats.centerFrames), Non-center: \(stats.nonCenterFrames)")
-        log("Face width: avg=\(String(format: "%.3f", stats.avgFaceWidth)), range=\(String(format: "%.3f", stats.minFaceWidth)) to \(String(format: "%.3f", stats.maxFaceWidth))")
+        log(
+            "Face width: avg=\(String(format: "%.3f", stats.avgFaceWidth)), range=\(String(format: "%.3f", stats.minFaceWidth)) to \(String(format: "%.3f", stats.maxFaceWidth))"
+        )
         log("Processing complete\n")
-        
+
         return stats
     }
-    
-    private func calculateHorizontalRatio(pupilPosition: PupilPosition, eyeRegion: EyeRegion) -> Double {
+
+    private func calculateHorizontalRatio(pupilPosition: PupilPosition, eyeRegion: EyeRegion)
+        -> Double
+    {
         // pupilPosition.y controls horizontal gaze due to image orientation
         let pupilY = Double(pupilPosition.y)
         let eyeHeight = Double(eyeRegion.frame.height)
-        
+
         guard eyeHeight > 0 else { return 0.5 }
-        
+
         let ratio = pupilY / eyeHeight
         return max(0.0, min(1.0, ratio))
     }
-    
-    private func calculateVerticalRatio(pupilPosition: PupilPosition, eyeRegion: EyeRegion) -> Double {
+
+    private func calculateVerticalRatio(pupilPosition: PupilPosition, eyeRegion: EyeRegion)
+        -> Double
+    {
         // pupilPosition.x controls vertical gaze due to image orientation
         let pupilX = Double(pupilPosition.x)
         let eyeWidth = Double(eyeRegion.frame.width)
-        
+
         guard eyeWidth > 0 else { return 0.5 }
-        
+
         let ratio = pupilX / eyeWidth
         return max(0.0, min(1.0, ratio))
     }