// // Copyright (c) 2019 Open Whisper Systems. All rights reserved. // import XCTest @testable import Session @testable import SignalMessaging class ImageEditorModelTest: SignalBaseTest { func testImageEditorTransform0() { let imageSizePixels = CGSize(width: 200, height: 300) let outputSizePixels = CGSize(width: 200, height: 300) let unitTranslation = CGPoint.zero let rotationRadians: CGFloat = 0 let scaling: CGFloat = 1 let transform = ImageEditorTransform(outputSizePixels: outputSizePixels, unitTranslation: unitTranslation, rotationRadians: rotationRadians, scaling: scaling, isFlipped: false) let viewSize = outputSizePixels let imageFrame = ImageEditorCanvasView.imageFrame(forViewSize: viewSize, imageSize: imageSizePixels, transform: transform) let affineTransform = transform.affineTransform(viewSize: viewSize) XCTAssertEqual(0.0, imageFrame.topLeft.applying(affineTransform).x, accuracy: 0.1) XCTAssertEqual(0.0, imageFrame.topLeft.applying(affineTransform).y, accuracy: 0.1) XCTAssertEqual(100.0, imageFrame.center.applying(affineTransform).x, accuracy: 0.1) XCTAssertEqual(150.0, imageFrame.center.applying(affineTransform).y, accuracy: 0.1) XCTAssertEqual(200.0, imageFrame.bottomRight.applying(affineTransform).x, accuracy: 0.1) XCTAssertEqual(300.0, imageFrame.bottomRight.applying(affineTransform).y, accuracy: 0.1) } func testImageEditorTransform1() { let imageSizePixels = CGSize(width: 864, height: 1536) let outputSizePixels = CGSize(width: 432, height: 768) let unitTranslation = CGPoint(x: +0.5, y: -0.5) let rotationRadians: CGFloat = 0 let scaling: CGFloat = 2 let transform = ImageEditorTransform(outputSizePixels: outputSizePixels, unitTranslation: unitTranslation, rotationRadians: rotationRadians, scaling: scaling, isFlipped: false) let viewSize = CGSize(width: 335, height: 595) let imageFrame = ImageEditorCanvasView.imageFrame(forViewSize: viewSize, imageSize: imageSizePixels, transform: transform) let affineTransform = transform.affineTransform(viewSize: viewSize) XCTAssertEqual(+167.5, imageFrame.topLeft.applying(affineTransform).x, accuracy: 0.1) XCTAssertEqual(-298.0, imageFrame.topLeft.applying(affineTransform).y, accuracy: 0.1) XCTAssertEqual(+502.5, imageFrame.center.applying(affineTransform).x, accuracy: 0.1) XCTAssertEqual(+297.5, imageFrame.center.applying(affineTransform).y, accuracy: 0.1) XCTAssertEqual(+837.5, imageFrame.bottomRight.applying(affineTransform).x, accuracy: 0.1) XCTAssertEqual(+893.0, imageFrame.bottomRight.applying(affineTransform).y, accuracy: 0.1) } func testAffineTransformComposition() { // Documents how classic SRT (scale-rotate-translate) ordering is specified // in _reverse_ order using CGAffineTransform. // The transformed origin should reflect ONLY the translation, not scaling or rotation. XCTAssertEqual(+20.0, CGPoint.zero.applying(CGAffineTransform.translate(CGPoint(x: 20, y: 30)).scale(5)).x, accuracy: 0.1) XCTAssertEqual(+30.0, CGPoint.zero.applying(CGAffineTransform.translate(CGPoint(x: 20, y: 30)).scale(5)).y, accuracy: 0.1) // WRONG: the translation is being scaled. XCTAssertEqual(+100.0, CGPoint.zero.applying(CGAffineTransform.scale(5).translate(CGPoint(x: 20, y: 30))).x, accuracy: 0.1) XCTAssertEqual(+150.0, CGPoint.zero.applying(CGAffineTransform.scale(5).translate(CGPoint(x: 20, y: 30))).y, accuracy: 0.1) // The transformed origin should reflect ONLY the translation, not scaling or rotation. XCTAssertEqual(+20.0, CGPoint.zero.applying(CGAffineTransform.translate(CGPoint(x: 20, y: 30)).rotate(CGFloat.halfPi).scale(5)).x, accuracy: 0.1) XCTAssertEqual(+30.0, CGPoint.zero.applying(CGAffineTransform.translate(CGPoint(x: 20, y: 30)).rotate(CGFloat.halfPi).scale(5)).y, accuracy: 0.1) // WRONG: the translation is being scaled. XCTAssertEqual(-150.0, CGPoint.zero.applying(CGAffineTransform.scale(5).rotate(CGFloat.halfPi).translate(CGPoint(x: 20, y: 30))).x, accuracy: 0.1) XCTAssertEqual(+100.0, CGPoint.zero.applying(CGAffineTransform.scale(5).rotate(CGFloat.halfPi).translate(CGPoint(x: 20, y: 30))).y, accuracy: 0.1) // An arbitrary point one "unit" away from the origin should be end up scaled (unit x scaling) + translation. XCTAssertEqual(+25.0, CGPoint.unit.applying(CGAffineTransform.translate(CGPoint(x: 20, y: 30)).scale(5)).x, accuracy: 0.1) XCTAssertEqual(+35.0, CGPoint.unit.applying(CGAffineTransform.translate(CGPoint(x: 20, y: 30)).scale(5)).y, accuracy: 0.1) // WRONG: the translation is being scaled. XCTAssertEqual(+105.0, CGPoint.unit.applying(CGAffineTransform.scale(5).translate(CGPoint(x: 20, y: 30))).x, accuracy: 0.1) XCTAssertEqual(+155.0, CGPoint.unit.applying(CGAffineTransform.scale(5).translate(CGPoint(x: 20, y: 30))).y, accuracy: 0.1) // An arbitrary point one "unit" away from the origin should be end up scaled (unit x scaling ... rotated about the origin) + translation. XCTAssertEqual(+15.0, CGPoint.unit.applying(CGAffineTransform.translate(CGPoint(x: 20, y: 30)).rotate(CGFloat.halfPi).scale(5)).x, accuracy: 0.1) XCTAssertEqual(+35.0, CGPoint.unit.applying(CGAffineTransform.translate(CGPoint(x: 20, y: 30)).rotate(CGFloat.halfPi).scale(5)).y, accuracy: 0.1) // WRONG: the translation is being scaled. XCTAssertEqual(-155.0, CGPoint.unit.applying(CGAffineTransform.scale(5).rotate(CGFloat.halfPi).translate(CGPoint(x: 20, y: 30))).x, accuracy: 0.1) XCTAssertEqual(+105.0, CGPoint.unit.applying(CGAffineTransform.scale(5).rotate(CGFloat.halfPi).translate(CGPoint(x: 20, y: 30))).y, accuracy: 0.1) } }