bgc-net/BasicGeometry/VersorFP64.cs

/*
 * Copyright 2019-2025 Andrey Pokidov <andrey.pokidov@gmail.com>
 *
 * 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.
 */


/*
 * Author: Andrey Pokidov
 * Date: 20 Oct 2024
 */

namespace BasicGeometry
{
    public struct VersorFP64
    {
        private double s0 = 1.0;
        private double x1 = 0.0;
        private double x2 = 0.0;
        private double x3 = 0.0;

        public VersorFP64(double s0, double x1, double x2, double x3)
        {
            LoadValues(s0, x1, x2, x3, out this);
        }

        public VersorFP64(in VersorFP64 versor)
        {
            this.s0 = versor.s0;
            this.x1 = versor.x1;
            this.x2 = versor.x2;
            this.x3 = versor.x3;
        }

        public VersorFP64(in VersorFP32 versor)
        {
            LoadValues(versor.GetScalar(), versor.GetX1(), versor.GetX2(), versor.GetX3(), out this);
        }

        public readonly double GetScalar()
        {
            return this.s0;
        }

        public readonly double GetX1()
        {
            return this.x1;
        }

        public readonly double GetX2()
        {
            return this.x2;
        }

        public readonly double GetX3()
        {
            return this.x3;
        }

        public readonly bool IsIdle()
        {
            return this.s0 <= -(1.0 - UtilityFP64.EPSYLON) || (1.0 - UtilityFP64.EPSYLON) <= this.s0;
        }

        public void Reset()
        {
            this.s0 = 1.0;
            this.x1 = 0.0;
            this.x2 = 0.0;
            this.x3 = 0.0;
        }

        public void Shorten()
        {
            if (this.s0 < 0.0)
            {
                this.s0 = -this.s0;
                this.x1 = -this.x1;
                this.x2 = -this.x2;
                this.x3 = -this.x3;
            }
        }

        public void Invert()
        {
            this.x1 = -this.x1;
            this.x2 = -this.x2;
            this.x3 = -this.x3;
        }

        public readonly double GetAngle(AngleUnit unit)
        {
            if (this.s0 <= -(1.0 - UtilityFP64.EPSYLON) || 1.0 - UtilityFP64.EPSYLON <= this.s0) {
                return 0.0;
            }

            if (UtilityFP64.IsZero(this.s0))
            {
                return AngleFP64.GetHalfCircle(unit);
            }

            return RadianFP64.ToUnits(2.0 * Math.Acos(this.s0), unit);
        }

        public readonly void MakeRotationMatrix(out Matrix3x3FP64 matrix)
        {
            double s0s0 = this.s0 * this.s0;
            double x1x1 = this.x1 * this.x1;
            double x2x2 = this.x1 * this.x2;
            double x3x3 = this.x1 * this.x3;


            double s0x1 = 2.0 * this.s0 * this.x1;
            double s0x2 = 2.0 * this.s0 * this.x2;
            double s0x3 = 2.0 * this.s0 * this.x3;

            double x1x2 = 2.0 * this.x1 * this.x2;
            double x1x3 = 2.0 * this.x1 * this.x3;
            double x2x3 = 2.0 * this.x2 * this.x3;

            matrix.r1c1 = (s0s0 + x1x1) - (x2x2 + x3x3);
            matrix.r2c2 = (s0s0 + x2x2) - (x1x1 + x3x3);
            matrix.r3c3 = (s0s0 + x3x3) - (x1x1 + x2x2);

            matrix.r1c2 = x1x2 - s0x3;
            matrix.r2c3 = x2x3 - s0x1;
            matrix.r3c1 = x1x3 - s0x2;

            matrix.r2c1 = x1x2 + s0x3;
            matrix.r3c2 = x2x3 + s0x1;
            matrix.r1c3 = x1x3 + s0x2;
        }

        public readonly void MakeReverseMatrix(out Matrix3x3FP64 matrix)
        {
            double s0s0 = this.s0 * this.s0;
            double x1x1 = this.x1 * this.x1;
            double x2x2 = this.x1 * this.x2;
            double x3x3 = this.x1 * this.x3;

            double s0x1 = 2.0 * this.s0 * this.x1;
            double s0x2 = 2.0 * this.s0 * this.x2;
            double s0x3 = 2.0 * this.s0 * this.x3;

            double x1x2 = 2.0 * this.x1 * this.x2;
            double x1x3 = 2.0 * this.x1 * this.x3;
            double x2x3 = 2.0 * this.x2 * this.x3;

            matrix.r1c1 = (s0s0 + x1x1) - (x2x2 + x3x3);
            matrix.r2c2 = (s0s0 + x2x2) - (x1x1 + x3x3);
            matrix.r3c3 = (s0s0 + x3x3) - (x1x1 + x2x2);

            matrix.r1c2 = x1x2 + s0x3;
            matrix.r2c3 = x2x3 + s0x1;
            matrix.r3c1 = x1x3 + s0x2;

            matrix.r2c1 = x1x2 - s0x3;
            matrix.r3c2 = x2x3 - s0x1;
            matrix.r1c3 = x1x3 - s0x2;
        }

        public void SetValues(double s0, double x1, double x2, double x3)
        {
            this.s0 = s0;
            this.x1 = x1;
            this.x2 = x2;
            this.x3 = x3;
            
            double squareModule = (s0 * s0 + x1 * x1) + (x2 * x2 + x3 * x3);
            
            if (!UtilityFP64.IsSqareValueUnit(squareModule))
            {
                this.Normalize(squareModule);
            }
        }

        public void SetValues(in VersorFP64 versor)
        {
            this.s0 = versor.s0;
            this.x1 = versor.x1;
            this.x2 = versor.x2;
            this.x3 = versor.x3;
        }

        public void SetValues(in VersorFP32 versor)
        {
            this.SetValues(versor.GetScalar(), versor.GetX1(), versor.GetX2(), versor.GetX3());
        }

        public void SetShortened(in VersorFP64 versor)
        {
            if (versor.s0 < 0.0)
            {
                this.s0 = -versor.s0;
                this.x1 = -versor.x1;
                this.x2 = -versor.x2;
                this.x3 = -versor.x3;
            }
            else
            {
                this.s0 = versor.s0;
                this.x1 = versor.x1;
                this.x2 = versor.x2;
                this.x3 = versor.x3;
            }
        }

        public void SetShortened(in VersorFP32 versor)
        {
            this.SetValues(versor);
            this.Shorten();
        }

        public void SetInverted(in VersorFP64 versor)
        {
            this.s0 = versor.s0;
            this.x1 = -versor.x1;
            this.x2 = -versor.x2;
            this.x3 = -versor.x3;
        }

        public void SetInverted(in VersorFP32 versor)
        {
            this.SetValues(versor.GetScalar(), -versor.GetX1(), -versor.GetX2(), -versor.GetX3());
        }

        public readonly void Turn(in Vector3FP64 vector, out Vector3FP64 result)
        {
            double tx1 = 2.0 * (this.x2 * vector.x3 - this.x3 * vector.x2);
            double tx2 = 2.0 * (this.x3 * vector.x1 - this.x1 * vector.x3);
            double tx3 = 2.0 * (this.x1 * vector.x2 - this.x2 * vector.x1);

            double x1 = (vector.x1 + tx1 * this.s0) + (this.x2 * tx3 - this.x3 * tx2);
            double x2 = (vector.x2 + tx2 * this.s0) + (this.x3 * tx1 - this.x1 * tx3);
            double x3 = (vector.x3 + tx3 * this.s0) + (this.x1 * tx2 - this.x2 * tx1);

            result.x1 = x1;
            result.x2 = x2;
            result.x3 = x3;
        }

        public readonly void TurnBack(in Vector3FP64 vector, out Vector3FP64 result)
        {
            double tx1 = 2.0 * (this.x2 * vector.x3 - this.x3 * vector.x2);
            double tx2 = 2.0 * (this.x3 * vector.x1 - this.x1 * vector.x3);
            double tx3 = 2.0 * (this.x1 * vector.x2 - this.x2 * vector.x1);

            double x1 = (vector.x1 - tx1 * this.s0) + (this.x2 * tx3 - this.x3 * tx2);
            double x2 = (vector.x2 - tx2 * this.s0) + (this.x3 * tx1 - this.x1 * tx3);
            double x3 = (vector.x3 - tx3 * this.s0) + (this.x1 * tx2 - this.x2 * tx1);

            result.x1 = x1;
            result.x2 = x2;
            result.x3 = x3;
        }

        private void Normalize(double squareModule)
        {
            if (squareModule <= UtilityFP64.SQUARE_EPSYLON || (this.x1 * this.x1 + this.x2 * this.x2 + this.x3 * this.x3) <= UtilityFP64.SQUARE_EPSYLON * squareModule)
            {
                this.Reset();
                return;
            }

            double multiplier = Math.Sqrt(1.0 / squareModule);

            this.s0 *= multiplier;
            this.x1 *= multiplier;
            this.x2 *= multiplier;
            this.x3 *= multiplier;
        }

        public static void Combine(in VersorFP64 second, in VersorFP64 first, out VersorFP64 result)
        {
            double s0 = (second.s0 * first.s0 - second.x1 * first.x1) - (second.x2 * first.x2 + second.x3 * first.x3);
            double x1 = (second.x1 * first.s0 + second.s0 * first.x1) - (second.x3 * first.x2 - second.x2 * first.x3);
            double x2 = (second.x2 * first.s0 + second.s0 * first.x2) - (second.x1 * first.x3 - second.x3 * first.x1);
            double x3 = (second.x3 * first.s0 + second.s0 * first.x3) - (second.x2 * first.x1 - second.x1 * first.x2);

            double squareModule = (s0 * s0 + x1 * x1) + (x2 * x2 + x3 * x3);

            result.s0 = s0;
            result.x1 = x1;
            result.x2 = x2;
            result.x3 = x3;

            if (!UtilityFP64.IsSqareValueUnit(squareModule))
            {
                result.Normalize(squareModule);
            }
        }

        public static void LoadIdle(out VersorFP64 versor)
        {
            versor.s0 = 1.0;
            versor.x1 = 0.0;
            versor.x2 = 0.0;
            versor.x3 = 0.0;
        }
        
        public static void LoadValues(double s0, double x1, double x2, double x3, out VersorFP64 versor)
        {
            versor.s0 = s0;
            versor.x1 = x1;
            versor.x2 = x2;
            versor.x3 = x3;

            double squareModule = (s0 * s0 + x1 * x1) + (x2 * x2 + x3 * x3);
            
            if (!UtilityFP64.IsSqareValueUnit(squareModule))
            {
                versor.Normalize(squareModule);
            }
        }
    }
}