帮助分析软件/程序如何构建Bezier曲线

Question

我试图理解由cambridgesoft开发的行业领先的化学工具ChemDraw如何构建Bezier曲线，以便我可以手动将Bezier曲线点转换为其他程序/例程（例如自制的Delphi / C＃工具） ）进入ChemDraw可识别的曲线数据。在开始之前，我必须承认我在询问某些黑盒内部是如何工作的，因此想要为任何麻烦道歉并感谢任何帮助！

我在ChemDraw中制作了四种最简单的Bezier曲线并将它们保存为.CDXML文件，其曲线部分最后粘贴了。 .CDXML文件和相应的图片都可以从fileserve下载。 Download Bezier_curve_ChemDraw_sample here。 ChemDraw trial edition can be downloaded here

问题

问题1.例如，以“线”类型的曲线点为例，我在制作此曲线时总共有两个点。为什么ChemDraw会为它存储六个积分？ ChemDraw如何准确地解释这些要点？其他三种类型存在同样的问题，最多使用四个显式点。

问题2.如果在ChemDraw中显示“Bezier曲线使用三点 - 第一类型”的内容，可以看到第一点不能（12.22,104.25）。我的意思是，它的X坐标明显大于12.为什么会发生这种情况？ ChemDraw会对数据进行一些转换吗？对于“使用四点的贝塞尔曲线”存在同样的问题。

问题3.似乎CurvePoints属性末尾的额外空白字符有所不同。有什么区别？

有人可以告诉我这些问题吗？

ChemDraw .CDXML文件中的曲线部分

============行==============

 <curve  
 id="2"  
 Z="1"  
 ArrowheadType="Solid"  
 CurvePoints="143.47 116.25 143.47 116.25 143.47 116.25 300.22 117.75 300.22 117.75 300.22 117.75"  
 />  

============ Bezier曲线使用三个点 - 第一个类型==============

 <curve  
 id="2"  
 Z="1"  
 ArrowheadType="Solid"  
 CurvePoints="12.22 104.25 121.72 106.5 231.22 108.75 230.47 204 230.47 204 230.47 204"  
 />  

============ Bezier曲线使用三点 - 第二种类型==============

 <curve  
 id="2"  
 Z="1"  
 ArrowheadType="Solid"  
 CurvePoints="134.47 97.5 134.47 97.5 134.47 97.5 231.22 60.75 229.72 109.5 228.22 158.25"  
 />  

============贝塞尔曲线使用四点==============

 <curve  
 id="2"  
 Z="1"  
 ArrowheadType="Solid"  
 CurvePoints="5.47 93.75 123.22 93.75 240.97 93.75 351.22 177.75 236.47 177.75 121.72 177.75"   
 />  

示例C＃程序生成相同的曲线

using System;
using System.Collections.Generic;
using System.ComponentModel;
using System.Data;
using System.Drawing;
using System.Linq;
using System.Text;
using System.Windows.Forms;

namespace WinForms_2_DrawBezier
{
    public partial class Form1 : Form
    {
        public Form1()
        {
            InitializeComponent();
        }

        private void Form1_Load(object sender, EventArgs e)
        {
            Text = "Draw Bezier Curve";
        }

        private void Form1_Paint(object sender, PaintEventArgs e)
        {
            // DrawBezier_1(this, e);
            // DrawBezier_2(this, e);
            // DrawBezier_3(this, e);
             DrawBezier_4(this, e);
        }

        private void DrawBezier_1(object sender, PaintEventArgs e)
        {
            Pen l_pen = new Pen(Color.Black);
            PointF l_pt1 = new PointF(143.47f, 116.25f);
            PointF l_pt2 = new PointF(l_pt1.X, l_pt1.Y);
            PointF l_pt3 = new PointF(l_pt1.X, l_pt1.Y);
            PointF l_pt4 = new PointF(300.22f, 117.75f);
            PointF l_pt5 = new PointF(l_pt4.X, l_pt4.Y);
            PointF l_pt6 = new PointF(l_pt4.X, l_pt4.Y);

            PointF[] l_pts = new PointF[6];
            l_pts[0] = l_pt1;
            l_pts[1] = l_pt2;
            l_pts[2] = l_pt3;
            l_pts[3] = l_pt4;
            l_pts[4] = l_pt5;
            l_pts[5] = l_pt6;

            // e.Graphics.DrawBezier(l_pen, l_pt1, l_pt2, l_pt5, l_pt6);

            e.Graphics.DrawBezier(l_pen, l_pt1, l_pt3, l_pt4, l_pt6); // As suggested by Dani

            // e.Graphics.DrawBeziers(l_pen, l_pts);
        }

        private void DrawBezier_2(object sender, PaintEventArgs e)
        {
            Pen l_pen = new Pen(Color.Black);
            PointF l_pt1 = new PointF(12.22f, 104.25f);
            PointF l_pt2 = new PointF(121.72f, 106.5f);
            PointF l_pt3 = new PointF(231.22f, 108.75f);
            PointF l_pt4 = new PointF(230.47f, 204f);
            PointF l_pt5 = new PointF(l_pt4.X, l_pt4.Y);
            PointF l_pt6 = new PointF(l_pt4.X, l_pt4.Y);

            PointF[] l_pts = new PointF[6];
            l_pts[0] = l_pt1;
            l_pts[1] = l_pt2;
            l_pts[2] = l_pt3;
            l_pts[3] = l_pt4;
            l_pts[4] = l_pt5;
            l_pts[5] = l_pt6;

            // e.Graphics.DrawBezier(l_pen, l_pt1, l_pt2, l_pt3, l_pt4);

            e.Graphics.DrawBezier(l_pen, l_pt1, l_pt3, l_pt4, l_pt6); // As suggested by Dani

            // e.Graphics.DrawBeziers(l_pen, l_pts);
        }

        private void DrawBezier_3(object sender, PaintEventArgs e)
        {
            Pen l_pen = new Pen(Color.Black);
            PointF l_pt1 = new PointF(134.47f, 97.5f);
            PointF l_pt2 = new PointF(l_pt1.X, l_pt1.Y);
            PointF l_pt3 = new PointF(l_pt1.X, l_pt1.Y);
            PointF l_pt4 = new PointF(231.22f, 60.75f);
            PointF l_pt5 = new PointF(229.72f, 109.5f);
            PointF l_pt6 = new PointF(228.22f, 158.25f);

            PointF[] l_pts = new PointF[6];
            l_pts[0] = l_pt1;
            l_pts[1] = l_pt2;
            l_pts[2] = l_pt3;
            l_pts[3] = l_pt4;
            l_pts[4] = l_pt5;
            l_pts[5] = l_pt6;

            // e.Graphics.DrawBezier(l_pen, l_pt3, l_pt4, l_pt5, l_pt6);

            e.Graphics.DrawBezier(l_pen, l_pt1, l_pt3, l_pt4, l_pt6); // As suggested by Dani

            // e.Graphics.DrawBeziers(l_pen, l_pts);
        }

        private void DrawBezier_4(object sender, PaintEventArgs e)
        {
            Pen l_pen = new Pen(Color.Black);
            PointF l_pt1 = new PointF(5.47f, 93.75f);
            PointF l_pt2 = new PointF(123.22f, 93.75f);
            PointF l_pt3 = new PointF(240.97f, 93.75f);
            PointF l_pt4 = new PointF(351.22f, 177.75f);
            PointF l_pt5 = new PointF(236.47f, 177.75f);
            PointF l_pt6 = new PointF(121.72f, 177.75f);

            PointF[] l_pts = new PointF[6];
            l_pts[0] = l_pt1;
            l_pts[1] = l_pt2;
            l_pts[2] = l_pt3;
            l_pts[3] = l_pt4;
            l_pts[4] = l_pt5;
            l_pts[5] = l_pt6;

            // e.Graphics.DrawBezier(l_pen, l_pt1, l_pt4, l_pt5, l_pt6);

            e.Graphics.DrawBezier(l_pen, l_pt1, l_pt3, l_pt4, l_pt6); // As suggested by Dani

            // e.Graphics.DrawBeziers(l_pen, l_pts);
        }
    }
}

但是，除了第一个Line类型之外，我无法使此C＃实用程序生成与ChemDraw显示的相同的曲线。

Answer 1

它使用标准贝塞尔曲线算法，可以采用任意数量的点来构建曲线。看看Bézier curve

编辑：
C＃DrawBezier仅支持二次（四点）贝塞尔曲线。您将使用以下方法将四点bezier翻译为C＃：

float[] CurvePoints = GetCurvePoints();

DrawBezier(Pen, CurvePoints[0], CurvePoints[1], CurvePoints[4], CurvePoints[5],
                CurvePoints[6], CurvePoints[7], CurvePoints[10], CurvePoints[11]);

GetCurvePoints()只会为您提供CurvePoints xml属性中的点列表。

编辑2：
用于重现最后一条曲线的代码 所有曲线：

using System;
using System.Drawing;
using System.Windows.Forms;
using System.Linq;
using System.Collections.Generic;

public class Bezier : Form
{
    static public void Main ()
    {
        Application.Run (new Bezier ());
    }

    protected override void OnPaint (PaintEventArgs e)
    {
        // The input with all points
        string CurveDataString = "5.47 93.75 123.22 93.75 240.97 93.75 351.22 177.75 236.47 177.75 121.72 177.75";

        string[] CurveDataStringParts = CurveDataString.Split(' ');

        int[] Keep = {2, 3, 4, 5, 6, 7, 8, 9};
        float[] CurveData = (from i in Keep select float.Parse(CurveDataStringParts[i])).ToArray();

        e.Graphics.DrawBezier(Pens.Black, CurveData[0], CurveData[1], CurveData[2], CurveData[3],
                                          CurveData[4], CurveData[5], CurveData[6], CurveData[7]);

        for(int i = 0; i < CurveData.Length; i += 2)
        {
            e.Graphics.FillEllipse(Brushes.Black, new RectangleF(CurveData[i] - 2, CurveData[i + 1] - 2, 4, 4));
        }

        base.OnPaint (e);
    }
}

结果：