WebCAD/__test__/Polyline/Fillet.test.ts

import { LoadEntityFromFileData } from "../Utils/LoadEntity.util";
import { Polyline } from "../../src/DatabaseServices/Entity/Polyline";
import { Vector3 } from "three";
import { FilletUtils, FilletRes } from "../../src/Add-on/FilletUtils";
import { PromptEntityResult } from "../../src/Editor/PromptResult";
import "../Utils/jest.util";


//#IOX9F 倒角半径100
test('', () =>
{
    [1, "Polyline", 2, 1, 104, false, 7, 0, [1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 5438.7151791877595, -4532.723515247859, -1.344596967101097e-7, 1], 1, 2, 4, [-272.5963980009974, 125.26453527188733], -0.6297899607010771, [268.45496627781176, 133.9101604837315], 0, [286.92760827694747, 96.87732841911384], 0, [648.509529180903, 718.346254972786], 0, false]
});

function excepeRes(fres: FilletRes)
{
    let len = 0;
    if (fres && fres.cu1)
        len = fres.cu1.Length;

    expect(len).toMatchNumberSnapshot();
}

test('首尾缺口倒角', () =>
{

    let f = [1, "Polyline", 5, 2, 105, false, 1, 7, 0, [1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1], 0, 0, 2, 4, [547.6394707904332, 156.420708807656], 0, [1451.8754993607672, 156.420708807656], 0, [1451.8754993607672, 1354.8058069129183], 0, [563.9810857645957, 249.02319366124436], 0, false]

    let pl = LoadEntityFromFileData(f)[0] as Polyline;

    let fillet = new FilletUtils();

    fillet.FilletRadius = 10;

    let pts = [new Vector3(694.7372611476585, 156.420708807656, 0), new Vector3(628.6117019682237, 329.5140837798733, 0), new Vector3(1391.744556282656, 156.420708807656, 0), new Vector3(1451.8754993607672, 255.1882779806288, 0), new Vector3(1451.8754993607672, 1174.0426264535326, 0), new Vector3(1364.317471005074, 1245.7611458319013, 0)];


    for (let i = 0; i + 1 < pts.length; i = i + 2)
    {
        let p1 = pts[i];
        let p2 = pts[i + 1];

        let e1 = new PromptEntityResult(pl, p1);
        let e2 = new PromptEntityResult(pl, p2);
        let fres = fillet.Fillet(e1, e2);

        excepeRes(fres);
    }
});

test('首尾开口and跨越直线1', () =>
{

    let f = [1, "Polyline", 5, 2, 109, false, 1, 7, 0, [1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1], 0, 0, 2, 4, [1912.1643211330174, 150.15642306756], 0, [3347.5028363636384, 555.9731949259332], 0, [3347.5028363636384, 584.026300631579], 0, [1923.0587311157924, 1605.3772365167458], 0, false]

    let pl = LoadEntityFromFileData(f)[0] as Polyline;

    let fillet = new FilletUtils();

    fillet.FilletRadius = 10;

    let pts = [new Vector3(3008.6463375692947, 826.9922414497031, 0), new Vector3(2953.8062841777946, 444.6624050289869, 0)];


    for (let i = 0; i + 1 < pts.length; i = i + 2)
    {
        let p1 = pts[i];
        let p2 = pts[i + 1];

        let e1 = new PromptEntityResult(pl, p1);
        let e2 = new PromptEntityResult(pl, p2);
        let fres = fillet.Fillet(e1, e2);

        excepeRes(fres);
    }

});

test('首尾开口and跨越直线2', () =>
{

    let f = [1, "Polyline", 5, 2, 145, false, 1, 7, 0, [1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1], 0, 0, 2, 7, [1765.3076108911919, 1872.4190121644488], 0, [3504.2406116319507, 2310.4177043718623], 0, [3458.7468373285233, 2322.549377519443], 0, [3495.1418567712653, 2377.141906683556], 0, [3431.0761383900667, 2352.76623008148], 0, [3520.0042980366775, 2441.6943897280908], 0, [1849.090982571283, 3377.7802807451185], 0, false]

    let pl = LoadEntityFromFileData(f)[0] as Polyline;

    let fillet = new FilletUtils();

    fillet.FilletRadius = 10;

    let pts = [new Vector3(3175.187610856738, 2227.536544519773, 0), new Vector3(3244.4053600367315, 2596.0915538737186, 0)];


    for (let i = 0; i + 1 < pts.length; i = i + 2)
    {
        let p1 = pts[i];
        let p2 = pts[i + 1];

        let e1 = new PromptEntityResult(pl, p1);
        let e2 = new PromptEntityResult(pl, p2);
        let fres = fillet.Fillet(e1, e2);

        excepeRes(fres);
    }


});


test('首尾且点重叠', () =>
{

    let f = [1, "Polyline", 5, 2, 110, false, 1, 7, 0, [1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1], 0, 0, 2, 5, [4475.389771693963, 292.48317396453035], 0, [5793.726681473572, 292.48317396453035], 0, [5793.726681473572, 1165.0966523424624], 0, [4475.389771693963, 1165.0966523424624], 0, [4475.389771693963, 292.48317396453035], 0, false]

    let pl = LoadEntityFromFileData(f)[0] as Polyline;

    let fillet = new FilletUtils();

    fillet.FilletRadius = 10;

    let pts = [new Vector3(4598.039581827028, 292.48317396453035, 0), new Vector3(4475.389771693963, 398.56637305394077, 0)];


    for (let i = 0; i + 1 < pts.length; i = i + 2)
    {
        let p1 = pts[i];
        let p2 = pts[i + 1];

        let e1 = new PromptEntityResult(pl, p1);
        let e2 = new PromptEntityResult(pl, p2);
        let fres = fillet.Fillet(e1, e2);

        excepeRes(fres);
    }

});

test('首尾重复并且closemark', () =>
{

    let f = [1, "Polyline", 5, 2, 111, false, 1, 7, 0, [1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 1914.7274165846702, 12.555589616967154, 0, 1], 0, 0, 2, 5, [4475.389771693963, 292.48317396453035], 0, [5793.726681473572, 292.48317396453035], 0, [5793.726681473572, 1165.0966523424624], 0, [4475.389771693963, 1165.0966523424624], 0, [4475.389771693963, 292.48317396453035], 0, true]

    let pl = LoadEntityFromFileData(f)[0] as Polyline;

    let fillet = new FilletUtils();

    fillet.FilletRadius = 10;

    let pts = [new Vector3(6598.6773483589595, 305.0387635814975, 0), new Vector3(6390.117188278633, 422.42066338147515, 0)];


    for (let i = 0; i + 1 < pts.length; i = i + 2)
    {
        let p1 = pts[i];
        let p2 = pts[i + 1];

        let e1 = new PromptEntityResult(pl, p1);
        let e2 = new PromptEntityResult(pl, p2);
        let fres = fillet.Fillet(e1, e2);

        excepeRes(fres);
    }

});

test('只有closemark', () =>
{

    let f = [1, "Polyline", 5, 2, 112, false, 1, 7, 0, [1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1], 0, 0, 2, 4, [8430.400501032793, 279.92758434758196], 0, [9723.626231578504, 279.92758434758196], 0, [9723.626231578504, 1309.485932937372], 0, [8430.400501032793, 1309.485932937372], 0, true]

    let pl = LoadEntityFromFileData(f)[0] as Polyline;

    let fillet = new FilletUtils();

    fillet.FilletRadius = 10;

    let pts = [new Vector3(8537.935865598118, 279.92758434758196, 0), new Vector3(8430.400501032793, 388.47038336421406, 0)];


    for (let i = 0; i + 1 < pts.length; i = i + 2)
    {
        let p1 = pts[i];
        let p2 = pts[i + 1];

        let e1 = new PromptEntityResult(pl, p1);
        let e2 = new PromptEntityResult(pl, p2);
        let fres = fillet.Fillet(e1, e2);

        excepeRes(fres);
    }

});


test('跨越首尾且首尾重叠', () =>
{

    let f = [1, "Polyline", 5, 2, 121, false, 1, 7, 0, [1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1], 0, 0, 2, 6, [12032.496266837241, 1167.7503167910863], 0, [10719.863427339778, 1167.7503167910863], 0, [10719.863427339778, 374.5161686031184], 0, [12222.34222567228, 374.5161686031184], 0, [12222.34222567228, 990.022185115731], 0, [12032.496266837241, 1167.7503167910868], 0, false]

    let pl = LoadEntityFromFileData(f)[0] as Polyline;

    let fillet = new FilletUtils();

    fillet.FilletRadius = 10;

    let pts = [new Vector3(12222.34222567228, 793.6354478254848, 0), new Vector3(11763.529750469466, 1167.7503167910863, 0)];


    for (let i = 0; i + 1 < pts.length; i = i + 2)
    {
        let p1 = pts[i];
        let p2 = pts[i + 1];

        let e1 = new PromptEntityResult(pl, p1);
        let e2 = new PromptEntityResult(pl, p2);
        let fres = fillet.Fillet(e1, e2);

        excepeRes(fres);
    }

    pl.CloseMark = true;

    for (let i = 0; i + 1 < pts.length; i = i + 2)
    {
        let p1 = pts[i];
        let p2 = pts[i + 1];

        let e1 = new PromptEntityResult(pl, p1);
        let e2 = new PromptEntityResult(pl, p2);
        let fres = fillet.Fillet(e1, e2);

        excepeRes(fres);
    }

});


test('圆弧跨越分割线', () =>
{

    let f = [1, "Polyline", 5, 2, 150, false, 1, 7, 0, [1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 17932.217574766102, 923.3102914449528, -1.344596967101097e-7, 1], 0, 0, 2, 4, [-272.5963980009974, 125.26453527188733], -0.6297899607010771, [268.45496627781176, 133.9101604837315], 0, [286.92760827694747, 96.87732841911384], 0, [648.509529180903, 718.346254972786], 0, false]

    let pl = LoadEntityFromFileData(f)[0] as Polyline;

    let fillet = new FilletUtils();

    fillet.FilletRadius = 10;

    let pts = [new Vector3(18057.464592553017, 1195.9147384656944, -1.344596967101097e-7), new Vector3(18308.17874769076, 1173.2140591023185, -1.344596967101097e-7)];


    for (let i = 0; i + 1 < pts.length; i = i + 2)
    {
        let p1 = pts[i];
        let p2 = pts[i + 1];

        let e1 = new PromptEntityResult(pl, p1);
        let e2 = new PromptEntityResult(pl, p2);
        let fres = fillet.Fillet(e1, e2);

        excepeRes(fres);
    }

});


test('自交多段线', () =>
{

    let f = [1, "Polyline", 5, 2, 147, false, 1, 7, 0, [1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1], 0, 0, 2, 5, [7963.40305968292, 5219.86997448622], 0, [8839.024211760872, 2266.977365882911], 0, [12322.878582794428, 3217.119467073881], 0, [5243.388417057789, 4055.4801445953253], 0, [6538.189907896463, 6756.864549942202], 0, false]

    let pl = LoadEntityFromFileData(f)[0] as Polyline;

    let fillet = new FilletUtils();

    fillet.FilletRadius = 10;

    let pts = [new Vector3(8203.851497581623, 3704.898990322766, 0), new Vector3(8309.132884106548, 4053.951311270369, 0), new Vector3(8963.280381174896, 3614.9666225288256, 0), new Vector3(8559.839423169416, 3208.483514643456, 0), new Vector3(7775.277793586963, 3755.651139480028, 0), new Vector3(8598.964992014366, 3076.538777155703, 0), new Vector3(8325.80177953219, 3997.738121377507, 0), new Vector3(8970.970528592596, 3614.0559471767297, 0)];


    for (let i = 0; i + 1 < pts.length; i = i + 2)
    {
        let p1 = pts[i];
        let p2 = pts[i + 1];

        let e1 = new PromptEntityResult(pl, p1);
        let e2 = new PromptEntityResult(pl, p2);
        let fres = fillet.Fillet(e1, e2);

        excepeRes(fres);
    }

});


//R0

test('多段线双圆R0', () =>
{

    let f = [1, "Polyline", 5, 2, 105, false, 1, 7, 0, [1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 1571.0622009569374, 642.1282296650719, 0, 1], 0, 0, 2, 3, [-454.206027432087, 320.6147368421051], -2.9766539744084812, [-431.6922770664303, -350.340837980916], -2.8993396583254722, [-518.3394309084008, 201.0501410134426], 0, false]

    let pl = LoadEntityFromFileData(f)[0] as Polyline;

    let fillet = new FilletUtils();

    fillet.FilletRadius = 0;

    let pts = [new Vector3(909.9440085668164, 933.3077477050381, 0), new Vector3(1280.5718361808256, 1116.166490576796, 0)];

    for (let i = 0; i + 1 < pts.length; i = i + 2)
    {
        let p1 = pts[i];
        let p2 = pts[i + 1];

        let e1 = new PromptEntityResult(pl, p1);
        let e2 = new PromptEntityResult(pl, p2);
        let fres = fillet.Fillet(e1, e2);

        excepeRes(fres);
    }

});

test('自交多段线R0', () =>
{

    let f = [1, "Polyline", 5, 2, 106, false, 0, 7, 0, [1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1], 0, 0, 2, 7, [4276.596835215311, 1149.2698457416268], 0, [4814.832566507177, -666.4651513875599], 0, [6251.870712226028, 1084.2122721667558], -0.5612019988173412, [6572.455012671152, 1039.2528815304759], 0, [7078.0165450717695, -128.2294200956936], 0, [9088.294577607654, 1700.475112727273], 0, [5906.768985493756, 210.08998230825014], 0, false]

    let pl = LoadEntityFromFileData(f)[0] as Polyline;

    let fillet = new FilletUtils();

    fillet.FilletRadius = 10;

    let pts = [new Vector3(4759.472137764609, -479.7070785210667, 0), new Vector3(6024.774672494344, 265.369726606551, 0), new Vector3(5976.082363634626, 748.2320220970707, 0), new Vector3(6672.691303327904, 807.7793855808623, 0), new Vector3(6683.501141538695, 782.8164602281072, 0), new Vector3(6586.348726590796, 528.4389981312158, 0), new Vector3(6696.36087689051, 753.119751786805, 0), new Vector3(7099.123174513582, 768.6481023223804, 0), new Vector3(6658.806811968616, 562.3819760828667, 0), new Vector3(6851.152936781651, 395.661799048499, 0), new Vector3(6890.235750785234, 305.4087027928025, 0), new Vector3(7047.556803344554, 744.4918443904984, 0)];


    for (let i = 0; i + 1 < pts.length; i = i + 2)
    {
        let p1 = pts[i];
        let p2 = pts[i + 1];

        let e1 = new PromptEntityResult(pl, p1);
        let e2 = new PromptEntityResult(pl, p2);
        let fres = fillet.Fillet(e1, e2);

        excepeRes(fres);
    }
});

test('多段线平行倒圆弧', () =>
{
    let f = [1, "Polyline", 5, 2, 101, false, 1, 7, 0, [1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1, 0, 0, 0, 0, 1], 0, 0, 2, 4, [697.5655502392347, 300.3177033492824], 0, [1666.4995215311, 300.3177033492824], 0, [1666.4995215311, 1182.5990430622012], 0, [697.5655502392347, 1182.5990430622012], 0, true]

    let pl = LoadEntityFromFileData(f)[0] as Polyline;

    let fillet = new FilletUtils();

    fillet.FilletRadius = 10;

    let pts = [new Vector3(697.5655502392347, 1007.4491640902602, 0), new Vector3(1666.4995215311, 999.8584025880182, 0), new Vector3(1011.2689613363971, 300.3177033492824, 0), new Vector3(1056.8135303498493, 1182.5990430622012, 0), new Vector3(697.5655502392347, 458.38408209475665, 0), new Vector3(1666.4995215311, 450.79332059251453, 0)];

    for (let i = 0; i + 1 < pts.length; i = i + 2)
    {
        let p1 = pts[i];
        let p2 = pts[i + 1];

        let e1 = new PromptEntityResult(pl, p1);
        let e2 = new PromptEntityResult(pl, p2);
        let fres = fillet.Fillet(e1, e2);

        excepeRes(fres);
    }
});