public void TestEqualOperator() { var size = new QSizeF(500, 100); var size2 = new QSizeF(500, 100); Assert.AreEqual(size, size2); }
public void TestIntConstructor() { var s = new QSizeF(100, 200); Assert.AreEqual(200, s.Height); Assert.AreEqual(100, s.Width); }
public void TestTransposed() { var size = new QSizeF(500, 100); var tr = size.Transposed; Assert.AreEqual(100, tr.Width); Assert.AreEqual(500, tr.Height); }
public void TestDivWidthIntegerOperator() { var size = new QSizeF(500, 100); size /= 5; Assert.AreEqual(100, size.Width); Assert.AreEqual(20, size.Height); }
public void TestDivOperator() { var size = new QSizeF(500, 100); var res = size / 5; Assert.AreEqual(100, res.Width); Assert.AreEqual(20, res.Height); }
public void TestMult2Operator() { var size = new QSizeF(500, 100); var res = 50 * size; Assert.AreEqual(500 * 50, res.Width); Assert.AreEqual(50 * 100, res.Height); }
public void TestTranspose() { var size = new QSizeF(500, 100); size.Transpose(); Assert.AreEqual(100, size.Width); Assert.AreEqual(500, size.Height); }
public void TestSubOperator() { var size = new QSizeF(500, 100); var size2 = new QSizeF(500, 100); var res = size - size2; Assert.AreEqual(0, res.Width); Assert.AreEqual(0, res.Height); }
public void TestAddOperator() { var size = new QSizeF(500, 100); var size2 = new QSizeF(500, 100); var res = size + size2; Assert.AreEqual(1000, res.Width); Assert.AreEqual(200, res.Height); }
public void TestPointSizeConstructor() { var p1 = new QPointF(50, 100); var p2 = new QSizeF(200, 150); var s = new QRectF(p1, p2); Assert.AreEqual(50, s.Left); Assert.AreEqual(100, s.Top); Assert.AreEqual(200, s.Width); Assert.AreEqual(150, s.Height); }
public void TestBoundedTo() { this._qSize.Width = 500; this._qSize.Height = 100; var other = new QSizeF(); other.Width = 400; other.Height = 500; var res = _qSize.BoundedTo(other); Assert.AreEqual(400, res.Width); Assert.AreEqual(100, res.Height); }
public void TestExpandedTo() { this._qSize.Width = 500; this._qSize.Height = 100; var other = new QSizeF(); other.Width = 400; other.Height = 500; var res = _qSize.ExpandedTo(other); Assert.AreEqual(500, res.Width); Assert.AreEqual(500, res.Height); }
public void TestScaledWithInteger() { var s1 = new QSizeF(10, 12); var res1 = s1.Scaled(60, 60, AspectRatioMode.IgnoreAspectRatio); Assert.AreEqual(60, res1.Width); Assert.AreEqual(60, res1.Height); var s2 = new QSizeF(10, 12); var res2 = s2.Scaled(60, 60, AspectRatioMode.KeepAspectRatio); Assert.AreEqual(50, res2.Width); Assert.AreEqual(60, res2.Height); var s3 = new QSize(10, 12); var res3 = s3.Scaled(60, 60, AspectRatioMode.KeepAspectRatioByExpanding); Assert.AreEqual(60, res3.Width); Assert.AreEqual(72, res3.Height); }
public void TestScaleWithSize() { var s1 = new QSizeF(10, 12); var sS1 = new QSizeF(60, 60); s1.Scale(sS1, AspectRatioMode.IgnoreAspectRatio); Assert.AreEqual(60, s1.Width); Assert.AreEqual(60, s1.Height); var s2 = new QSizeF(10, 12); var sS2 = new QSizeF(60, 60); s2.Scale(sS2, AspectRatioMode.KeepAspectRatio); Assert.AreEqual(50, s2.Width); Assert.AreEqual(60, s2.Height); var s3 = new QSizeF(10, 12); var sS3 = new QSizeF(60, 60); s3.Scale(sS3, AspectRatioMode.KeepAspectRatioByExpanding); Assert.AreEqual(60, s3.Width); Assert.AreEqual(72, s3.Height); }
public void TestEmpyConstructor() { var s = new QSizeF(); }
public void Init() { // TODO: Add Init code. _qSize = new QSizeF(500, 100); }
public void TestMultOperator() { var size = new QSizeF(500, 100); var res = size * 50; Assert.AreEqual(500 * 50, res.Width); Assert.AreEqual(50 * 100, res.Height); }