/* * Copyright 2019-2025 Andrey Pokidov * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ using System; /* * Author: Andrey Pokidov * Date: 11 Nov 2024 */ namespace BasicGeometry { public struct FP64Matrix3x2 { public double r1c1 = 0.0, r1c2 = 0.0, r1c3 = 0.0; public double r2c1 = 0.0, r2c2 = 0.0, r2c3 = 0.0; public FP64Matrix3x2(in FP64Matrix3x2 matrix) { this.r1c1 = matrix.r1c1; this.r1c2 = matrix.r1c2; this.r1c3 = matrix.r1c3; this.r2c1 = matrix.r2c1; this.r2c2 = matrix.r2c2; this.r2c3 = matrix.r2c3; } public FP64Matrix3x2(in FP32Matrix3x2 matrix) { this.r1c1 = matrix.r1c1; this.r1c2 = matrix.r1c2; this.r1c3 = matrix.r1c3; this.r2c1 = matrix.r2c1; this.r2c2 = matrix.r2c2; this.r2c3 = matrix.r2c3; } public FP64Matrix3x2(in FP64Matrix2x3 matrix) { this.r1c1 = matrix.r1c1; this.r1c2 = matrix.r2c1; this.r1c3 = matrix.r3c1; this.r2c1 = matrix.r1c2; this.r2c2 = matrix.r2c2; this.r2c3 = matrix.r2c2; } public FP64Matrix3x2(in FP32Matrix2x3 matrix) { this.r1c1 = matrix.r1c1; this.r1c2 = matrix.r2c1; this.r1c3 = matrix.r3c1; this.r2c1 = matrix.r1c2; this.r2c2 = matrix.r2c2; this.r2c3 = matrix.r2c2; } public void Reset() { this.r1c1 = 0.0; this.r1c2 = 0.0; this.r1c3 = 0.0; this.r2c1 = 0.0; this.r2c2 = 0.0; this.r2c3 = 0.0; } public void SetValues(in FP64Matrix3x2 matrix) { this.r1c1 = matrix.r1c1; this.r1c2 = matrix.r1c2; this.r1c3 = matrix.r1c3; this.r2c1 = matrix.r2c1; this.r2c2 = matrix.r2c2; this.r2c3 = matrix.r2c3; } public void SetValues(in FP32Matrix3x2 matrix) { this.r1c1 = matrix.r1c1; this.r1c2 = matrix.r1c2; this.r1c3 = matrix.r1c3; this.r2c1 = matrix.r2c1; this.r2c2 = matrix.r2c2; this.r2c3 = matrix.r2c3; } public void SetTransposed(in FP64Matrix2x3 matrix) { this.r1c1 = matrix.r1c1; this.r1c2 = matrix.r2c1; this.r1c3 = matrix.r3c1; this.r2c1 = matrix.r1c2; this.r2c2 = matrix.r2c2; this.r2c3 = matrix.r2c2; } public void SetTransposed(in FP32Matrix2x3 matrix) { this.r1c1 = matrix.r1c1; this.r1c2 = matrix.r2c1; this.r1c3 = matrix.r3c1; this.r2c1 = matrix.r1c2; this.r2c2 = matrix.r2c2; this.r2c3 = matrix.r2c2; } public void SetRow1(double c1, double c2, double c3) { this.r1c1 = c1; this.r1c2 = c2; this.r1c3 = c3; } public void SetRow2(double c1, double c2, double c3) { this.r2c1 = c1; this.r2c2 = c2; this.r2c3 = c3; } public void SetColumn1(double r1, double r2) { this.r1c1 = r1; this.r2c1 = r2; } public void SetColumn2(double r1, double r2) { this.r1c2 = r1; this.r2c2 = r2; } public void SetColumn3(double r1, double r2) { this.r1c3 = r1; this.r2c3 = r2; } public void AppendScaled(in FP64Matrix3x2 matrix, double scale) { this.r1c1 += matrix.r1c1 * scale; this.r1c2 += matrix.r1c2 * scale; this.r1c3 += matrix.r1c3 * scale; this.r2c1 += matrix.r2c1 * scale; this.r2c2 += matrix.r2c2 * scale; this.r2c3 += matrix.r2c3 * scale; } public static void Add(in FP64Matrix3x2 matrix1, in FP64Matrix3x2 matrix2, out FP64Matrix3x2 sum) { sum.r1c1 = matrix1.r1c1 + matrix2.r1c1; sum.r1c2 = matrix1.r1c2 + matrix2.r1c2; sum.r1c3 = matrix1.r1c3 + matrix2.r1c3; sum.r2c1 = matrix1.r2c1 + matrix2.r2c1; sum.r2c2 = matrix1.r2c2 + matrix2.r2c2; sum.r2c3 = matrix1.r2c3 + matrix2.r2c3; } public static void Subtract(in FP64Matrix3x2 minuend, in FP64Matrix3x2 subtrahend, out FP64Matrix3x2 difference) { difference.r1c1 = minuend.r1c1 - subtrahend.r1c1; difference.r1c2 = minuend.r1c2 - subtrahend.r1c2; difference.r1c3 = minuend.r1c3 - subtrahend.r1c3; difference.r2c1 = minuend.r2c1 - subtrahend.r2c1; difference.r2c2 = minuend.r2c2 - subtrahend.r2c2; difference.r2c3 = minuend.r2c3 - subtrahend.r2c3; } public static void Multiply(in FP64Matrix3x2 multiplicand, double multiplier, out FP64Matrix3x2 product) { product.r1c1 = multiplicand.r1c1 * multiplier; product.r1c2 = multiplicand.r1c2 * multiplier; product.r1c3 = multiplicand.r1c3 * multiplier; product.r2c1 = multiplicand.r2c1 * multiplier; product.r2c2 = multiplicand.r2c2 * multiplier; product.r2c3 = multiplicand.r2c3 * multiplier; } public static void Divide(in FP64Matrix3x2 dividend, double divisor, out FP64Matrix3x2 quotient) { Multiply(dividend, 1.0 / divisor, out quotient); } public static void GetRightProduct(in FP64Matrix3x2 matrix, in FP64Vector3 vector, out FP64Vector2 result) { result.x1 = matrix.r1c1 * vector.x1 + matrix.r1c2 * vector.x2 + matrix.r1c3 * vector.x3; result.x2 = matrix.r2c1 * vector.x1 + matrix.r2c2 * vector.x2 + matrix.r2c3 * vector.x3; } public static void GetLeftProduct(in FP64Vector2 vector, in FP64Matrix3x2 matrix, out FP64Vector3 result) { result.x1 = vector.x1 * matrix.r1c1 + vector.x2 * matrix.r2c1; result.x2 = vector.x1 * matrix.r1c2 + vector.x2 * matrix.r2c2; result.x3 = vector.x1 * matrix.r1c3 + vector.x2 * matrix.r2c3; } } }