[英]Calculate a point along the line A-B at a given distance from A
我非常疯狂地试图计算沿给定线 AB 的点,距离 A 给定的距离,以便我可以“绘制”两个给定点之间的线。 一开始听起来很简单,但我似乎无法理解。 更糟糕的是,我不明白我哪里出错了。 几何(和一般的数学)不是我的强项。
我已经阅读过类似的问题,并且有关于 SO 的答案。 事实上,我直接从Mads Elvheim的回答中提升了我当前的 CalculatePoint 函数实现: 给定起点和终点以及距离,计算沿线的一个点(加上后面评论中的更正 - 如果我理解正确的话) 因为我解决问题的独立尝试使我无处可去,除了头等舱特快票 frusterpationland。
这是我更新后的代码(请参阅帖子底部的编辑说明):
using System;
using System.Drawing;
using System.Windows.Forms;
namespace DrawLines
{
public class MainForm : Form
{
// =====================================================================
// Here's the part I'm having trouble with. I don't really understand
// how this is suposed to work, so I can't seem to get it right!
// ---------------------------------------------------------------------
// A "local indirector" - Just so I don't have go down and edit the
// actual call everytime this bluddy thing changes names.
private Point CalculatePoint(Point a, Point b, int distance) {
return CalculatePoint_ByAgentFire(a, b, distance);
}
#region CalculatePoint_ByAgentFire
//AgentFire: Better approach (you can rename the struct if you need):
struct Vector2
{
public readonly double X;
public readonly double Y;
public Vector2(double x, double y) {
this.X = x;
this.Y = y;
}
public static Vector2 operator -(Vector2 a, Vector2 b) {
return new Vector2(b.X - a.X, b.Y - a.Y);
}
public static Vector2 operator *(Vector2 a, double d) {
return new Vector2(a.X * d, a.Y * d);
}
public override string ToString() {
return string.Format("[{0}, {1}]", X, Y);
}
}
// For getting the midpoint you just need to do the (a - b) * d action:
//static void Main(string[] args)
//{
// Vector2 a = new Vector2(1, 1);
// Vector2 b = new Vector2(3, 1);
// float distance = 0.5f; // From 0.0 to 1.0.
// Vector2 c = (a - b) * distance;
// Console.WriteLine(c);
//}
private Point CalculatePoint_ByAgentFire(Point a, Point b, int distance) {
var vA = new Vector2(a.X, a.Y);
var vB = new Vector2(b.X, b.Y);
double lengthOfHypotenuse = LengthOfHypotenuseAsDouble(a,b);
double portionOfDistanceFromAtoB = distance / lengthOfHypotenuse;
var vC = (vA - vB) * portionOfDistanceFromAtoB;
Console.WriteLine("vC="+vC);
return new Point((int)(vC.X+0.5), (int)(vC.Y+0.5));
}
// Returns the length of the hypotenuse rounded to an integer, using
// Pythagoras' Theorem for right angle triangles: The length of the
// hypotenuse equals the sum of the square of the other two sides.
// Ergo: h = Sqrt(a*a + b*b)
private double LengthOfHypotenuseAsDouble(Point a, Point b) {
double aSq = Math.Pow(Math.Abs(a.X - b.X), 2); // horizontal length squared
double bSq = Math.Pow(Math.Abs(b.Y - b.Y), 2); // vertical length squared
return Math.Sqrt(aSq + bSq); // length of the hypotenuse
}
#endregion
//dbaseman: I thought something looked strange about the formula ... the question
//you linked was how to get the point at a distance after B, whereas you want the
//distance after A. This should give you the right answer, the start point plus
//distance in the vector direction.
//
// Didn't work as per: http://s1264.photobucket.com/albums/jj496/corlettk/?action=view¤t=DrawLinesAB-broken_zps069161e9.jpg
//
private Point CalculatePoint_ByDbaseman(Point a, Point b, int distance) {
// a. calculate the vector from a to b:
double vectorX = b.X - a.X;
double vectorY = b.Y - a.Y;
// b. calculate the length:
double magnitude = Math.Sqrt(vectorX * vectorX + vectorY * vectorY);
// c. normalize the vector to unit length:
vectorX /= magnitude;
vectorY /= magnitude;
// d. calculate and Draw the new vector, which is x1y1 + vxvy * (mag + distance).
return new Point(
(int)((double)a.X + vectorX * distance) // x = col
, (int)((double)a.Y + vectorY * distance) // y = row
);
}
// MBo: Try to remove 'magnitude' term in the parentheses both for X and for Y expressions.
//
// Didn't work as per: http://s1264.photobucket.com/albums/jj496/corlettk/?action=view¤t=DrawLinesAB-broken_zps069161e9.jpg
//
//private Point CalculatePoint_ByMBo(Point a, Point b, int distance) {
// // a. calculate the vector from a to b:
// double vectorX = b.X - a.X;
// double vectorY = b.Y - a.Y;
// // b. calculate the length:
// double magnitude = Math.Sqrt(vectorX * vectorX + vectorY * vectorY);
// // c. normalize the vector to unit length:
// vectorX /= magnitude;
// vectorY /= magnitude;
// // d. calculate and Draw the new vector, which is x1y1 + vxvy * (mag + distance).
// return new Point(
// (int)( ((double)a.X + vectorX * distance) + 0.5 )
// , (int)( ((double)a.X + vectorX * distance) + 0.5 )
// );
//}
// Didn't work
//private Point CalculatePoint_ByUser1556110(Point a, Point b, int distance) {
// Double magnitude = Math.Sqrt(Math.Pow(b.Y - a.Y, 2) + Math.Pow(b.X - a.X, 2));
// return new Point(
// (int)(a.X + distance * (b.X - a.X) / magnitude + 0.5)
// , (int)(a.Y + distance * (b.Y - a.Y) / magnitude + 0.5)
// );
//}
// didn't work
//private static Point CalculatePoint_ByCadairIdris(Point a, Point b, int distance) {
// // a. calculate the vector from a to b:
// double vectorX = b.X - a.X;
// double vectorY = b.Y - a.Y;
// // b. calculate the proportion of hypotenuse
// double factor = distance / Math.Sqrt(vectorX*vectorX + vectorY*vectorY);
// // c. factor the lengths
// vectorX *= factor;
// vectorY *= factor;
// // d. calculate and Draw the new vector,
// return new Point((int)(a.X + vectorX), (int)(a.Y + vectorY));
//}
// Returns a point along the line A-B at the given distance from A
// based on Mads Elvheim's answer to:
// https://stackoverflow.com/questions/1800138/given-a-start-and-end-point-and-a-distance-calculate-a-point-along-a-line
private Point MyCalculatePoint(Point a, Point b, int distance) {
// a. calculate the vector from o to g:
double vectorX = b.X - a.X;
double vectorY = b.Y - a.Y;
// b. calculate the length:
double magnitude = Math.Sqrt(vectorX * vectorX + vectorY * vectorY);
// c. normalize the vector to unit length:
vectorX /= magnitude;
vectorY /= magnitude;
// d. calculate and Draw the new vector, which is x1y1 + vxvy * (mag + distance).
return new Point(
(int)(((double)a.X + vectorX * (magnitude + distance)) + 0.5) // x = col
, (int)(((double)a.Y + vectorY * (magnitude + distance)) + 0.5) // y = row
);
}
// =====================================================================
private const int CELL_SIZE = 4; // width and height of each "cell" in the bitmap.
private readonly Bitmap _bitmap; // to draw on (displayed in picBox1).
private readonly Graphics _graphics; // to draw with.
// actual points on _theLineString are painted red.
private static readonly SolidBrush _thePointBrush = new SolidBrush(Color.Red);
// ... and are labeled in Red, Courier New, 12 point, Bold
private static readonly SolidBrush _theLabelBrush = new SolidBrush(Color.Red);
private static readonly Font _theLabelFont = new Font("Courier New", 12, FontStyle.Bold);
// the interveening calculated cells on the lines between actaul points are painted Black.
private static readonly SolidBrush _theLineBrush = new SolidBrush(Color.Black);
// the points in my line-string.
private static readonly Point[] _theLineString = new Point[] {
// x, y
new Point(170, 85), // A
new Point( 85, 70), // B
//new Point(209, 66), // C
//new Point( 98, 120), // D
//new Point(158, 19), // E
//new Point( 2, 61), // F
//new Point( 42, 177), // G
//new Point(191, 146), // H
//new Point( 25, 128), // I
//new Point( 95, 24) // J
};
public MainForm() {
InitializeComponent();
// initialise "the graphics system".
_bitmap = new Bitmap(picBox1.Width, picBox1.Height);
_graphics = Graphics.FromImage(_bitmap);
picBox1.Image = _bitmap;
}
#region actual drawing on the Grpahics
private void DrawCell(int x, int y, Brush brush) {
_graphics.FillRectangle(
brush
, x * CELL_SIZE, y * CELL_SIZE // x, y
, CELL_SIZE, CELL_SIZE // width, heigth
);
}
private void DrawLabel(int x, int y, char c) {
string s = c.ToString();
_graphics.DrawString(
s, _theLabelFont, _theLabelBrush
, x * CELL_SIZE + 5 // x
, y * CELL_SIZE - 8 // y
);
}
// ... there should be no mention of _graphics or CELL_SIZE below here ...
#endregion
#region draw points on form load
private void MainForm_Load(object sender, EventArgs e) {
DrawPoints();
}
// draws and labels each point in _theLineString
private void DrawPoints() {
char c = 'A'; // label text, as a char so we can increment it for each point.
foreach ( Point p in _theLineString ) {
DrawCell(p.X, p.Y, _thePointBrush);
DrawLabel(p.X, p.Y, c++);
}
}
#endregion
#region DrawLines on button click
private void btnDrawLines_Click(object sender, EventArgs e) {
DrawLinesBetweenPointsInTheString();
}
// Draws "the lines" between the points in _theLineString.
private void DrawLinesBetweenPointsInTheString() {
int n = _theLineString.Length - 1; // one less line-segment than points
for ( int i = 0; i < n; ++i )
Draw(_theLineString[i], _theLineString[i + 1]);
picBox1.Invalidate(); // tell the graphics system that the picture box needs to be repainted.
}
// Draws all the cells along the line from Point "a" to Point "b".
private void Draw(Point a, Point b) {
int maxDistance = LengthOfHypotenuse(a, b);
for ( int distance = 1; distance < maxDistance; ++distance ) {
var point = CalculatePoint(a, b, distance);
DrawCell(point.X, point.X, _theLineBrush);
}
}
// Returns the length of the hypotenuse rounded to an integer, using
// Pythagoras' Theorem for right angle triangles: The length of the
// hypotenuse equals the sum of the square of the other two sides.
// Ergo: h = Sqrt(a*a + b*b)
private int LengthOfHypotenuse(Point a, Point b) {
double aSq = Math.Pow(Math.Abs(a.X - b.X), 2); // horizontal length squared
double bSq = Math.Pow(Math.Abs(b.Y - b.Y), 2); // vertical length squared
return (int)(Math.Sqrt(aSq + bSq) + 0.5); // length of the hypotenuse
}
#endregion
#region Windows Form Designer generated code
/// <summary>
/// Required method for Designer support - do not modify
/// the contents of this method with the code editor.
/// </summary>
private void InitializeComponent() {
this.picBox1 = new System.Windows.Forms.PictureBox();
this.btnDrawLines = new System.Windows.Forms.Button();
((System.ComponentModel.ISupportInitialize)(this.picBox1)).BeginInit();
this.SuspendLayout();
//
// picBox1
//
this.picBox1.Dock = System.Windows.Forms.DockStyle.Fill;
this.picBox1.Location = new System.Drawing.Point(0, 0);
this.picBox1.Name = "picBox1";
this.picBox1.Size = new System.Drawing.Size(1000, 719);
this.picBox1.TabIndex = 0;
this.picBox1.TabStop = false;
//
// btnDrawLines
//
this.btnDrawLines.Location = new System.Drawing.Point(23, 24);
this.btnDrawLines.Name = "btnDrawLines";
this.btnDrawLines.Size = new System.Drawing.Size(77, 23);
this.btnDrawLines.TabIndex = 1;
this.btnDrawLines.Text = "Draw Lines";
this.btnDrawLines.UseVisualStyleBackColor = true;
this.btnDrawLines.Click += new System.EventHandler(this.btnDrawLines_Click);
//
// MainForm
//
this.AutoScaleDimensions = new System.Drawing.SizeF(6F, 13F);
this.AutoScaleMode = System.Windows.Forms.AutoScaleMode.Font;
this.ClientSize = new System.Drawing.Size(1000, 719);
this.Controls.Add(this.btnDrawLines);
this.Controls.Add(this.picBox1);
this.Location = new System.Drawing.Point(10, 10);
this.MinimumSize = new System.Drawing.Size(1016, 755);
this.Name = "MainForm";
this.SizeGripStyle = System.Windows.Forms.SizeGripStyle.Hide;
this.StartPosition = System.Windows.Forms.FormStartPosition.Manual;
this.Text = "Draw Lines on a Matrix.";
this.Load += new System.EventHandler(this.MainForm_Load);
((System.ComponentModel.ISupportInitialize)(this.picBox1)).EndInit();
this.ResumeLayout(false);
}
private System.Windows.Forms.PictureBox picBox1;
private System.Windows.Forms.Button btnDrawLines;
#endregion
}
}
抱歉,如果它有点长,但这是从我的真实项目中挖掘出来的SSCCE ,它是运行MazeOfBolton的A* 最短路线算法的实现......即迷宫赛跑者。
我真正想做的是在迷宫(矩阵)中的两个给定点(原点和目标)周围预先计算一个“围栏”(即缓冲的MBR ),这样“围栏”内的所有点都在给定的范围内距离“两点之间的直线”的距离,以快速消除数十万条可能远离目标的路径。
请注意,此编程挑战已于多年前结束,因此此处不存在“竞争性剽窃”问题。 不,这不是家庭作业,事实上我是一名专业的程序员......我只是远离我的舒适区,即使是相对简单的几何图形。 叹。
所以......请谁能给我任何指示来帮助我正确地获得CalculatePoint函数:在距A的给定距离处沿着AB线计算一个点?
在此先感谢您的慷慨……即使阅读到此为止。
干杯。 基思。
编辑:我刚刚更新了发布的源代码,因为:
(1) 我刚刚意识到它不是独立的。 我忘记了单独的 MainForm。 Designer .cs 文件,我已将其附加到已发布代码的底部。
(2) 最新版本包括我迄今为止尝试过的内容,带有指向每个失败情况的图片的 photobucket 链接……而且它们都是相同的。 咦? 跆拳道?
我想我的问题可能出在其他地方,比如以前因为我忘记发布设计者生成的代码而被其他人忽略的一些时髦的窗口窗体设置......那么为什么计算点应该有所不同。 我不知道!?!?!? 我很沮丧,我变得暴躁,所以我想我会再留一天;-)
去展示我们通常低估了多少努力让计算机做任何事情......即使只是画一条简单的线......它甚至不是一条曲线,更不用说一个大圆或横向墨卡托或任何东西花哨......只是一个简单的bluddy台词!?!?!? ;-)
再次欢呼。 基思。
计算向量AB
首先定义从点 A(1,-1) 到点 B(2,4) 的向量,从 B 中减去 A。向量将是 Vab(1,5)。
计算AB的长度
使用勾股定理计算向量 AB 的长度。
|Vab| = SQRT(1²+5²)
长度为(四舍五入)5.1
计算单位向量
将向量除以其长度得到单位向量(长度为 1 的向量)。
V1(1/5.1,5/5.1) = V1(0.2, 0.98)
计算长度为 4 的向量
现在将 V1 乘以你想要的长度,例如 4,得到 Vt。
Vt(0.2*4,0.98*4) = Vt(0.8,3.92)
计算目标点
将向量 Vt 与点 A 相加得到点 T(目标)。
T = A + Vt = T(1.8,2.92)
编辑:回答您的编辑
LengthOfHypotenuse 方法应该是这样的
您至少应该使用浮点数作为返回值(双精度或十进制也可以)
//You should work with Vector2 class instead of Point and use their Length property private double LengthOfHypotenuse(Point a, Point b) { double aSq = Math.Pow(aX - bX, 2); // horizontal length squared double bSq = Math.Pow(aY - bY, 2); // vertical length squared return Math.Sqrt(aSq + bSq); // length of the hypotenuse }方法 Draw(Point a, Point b) 应该是这样的:
更正的 DrawCell() 调用
private void Draw(Point a, Point b) { double maxDistance = LengthOfHypotenuse(a, b); for (int distance = 0; distance < maxDistance; ++distance) { var point = CalculatePoint(new Vector2(a), new Vector2(b), distance); DrawCell(point.X, point.Y, _theLineBrush); } }您的CalculatePoint(Point a, Point b, int distance) 方法:
将一些计算移动到 Vector2 类中
private Point CalculatePoint(Vector2 a, Vector2 b, int distance) { Vector2 vectorAB = a - b; return a + vectorAB.UnitVector * distance; }我为您扩展了 Vector 类以添加缺少的运算符(归功于 AgentFire)
//AgentFire: Better approach (you can rename the struct if you need):
struct Vector2 {
public readonly double X;
public readonly double Y;
public Vector2(Point p) : this(p.X,p.Y) {
}
public Vector2(double x, double y) {
this.X = x;
this.Y = y;
}
public static Vector2 operator -(Vector2 a, Vector2 b) {
return new Vector2(b.X - a.X, b.Y - a.Y);
}
public static Vector2 operator +(Vector2 a, Vector2 b) {
return new Vector2(b.X + a.X, b.Y + a.Y);
}
public static Vector2 operator *(Vector2 a, double d) {
return new Vector2(a.X * d, a.Y * d);
}
public static Vector2 operator /(Vector2 a, double d) {
return new Vector2(a.X / d, a.Y / d);
}
public static implicit operator Point(Vector2 a) {
return new Point((int)a.X, (int)a.Y);
}
public Vector2 UnitVector {
get { return this / Length; }
}
public double Length {
get {
double aSq = Math.Pow(X, 2);
double bSq = Math.Pow(Y, 2);
return Math.Sqrt(aSq + bSq);
}
}
public override string ToString() {
return string.Format("[{0}, {1}]", X, Y);
}
}
更好的方法(如果需要,您可以重命名结构):
struct Vector2
{
public readonly float X;
public readonly float Y;
public Vector2(float x, float y)
{
this.X = x;
this.Y = y;
}
public static Vector2 operator -(Vector2 a, Vector2 b)
{
return new Vector2(b.X - a.X, b.Y - a.Y);
}
public static Vector2 operator +(Vector2 a, Vector2 b)
{
return new Vector2(a.X + b.X, a.Y + b.Y);
}
public static Vector2 operator *(Vector2 a, float d)
{
return new Vector2(a.X * d, a.Y * d);
}
public override string ToString()
{
return string.Format("[{0}, {1}]", X, Y);
}
}
要获得中点,您只需要执行(a - b) * d + a操作:
class Program
{
static void Main(string[] args)
{
Vector2 a = new Vector2(1, 1);
Vector2 b = new Vector2(3, 1);
float distance = 0.5f; // From 0.0 to 1.0.
Vector2 c = (a - b) * distance + a;
Console.WriteLine(c);
}
}
这将为您提供要点:
output:\\> [2, 1]
之后你所需要的就是for(the distance; up to one ; d += step)从0.0到1.0并绘制你的像素。
private static Point CalculatePoint(Point a, Point b, int distance)
{
// a. calculate the vector from o to g:
double vectorX = b.X - a.X;
double vectorY = b.Y - a.Y;
// b. calculate the proportion of hypotenuse
double factor = distance / Math.Sqrt(vectorX * vectorX + vectorY * vectorY);
// c. factor the lengths
vectorX *= factor;
vectorY *= factor;
// d. calculate and Draw the new vector,
return new Point((int)(a.X + vectorX), (int)(a.Y + vectorY));
}
尝试删除 X 和 Y 表达式括号中的“幅度”项:
(int)( ((double)a.X + vectorX * distance) + 0.5 )
private Point CalculatePoint(Point a, Point b, int distance) {
Point newPoint = new Point(10,10);
Double Magnitude = Math.Sqrt(Math.Pow((b.Y - a.Y),2) + Math.Pow((b.X - a.X),2));
newPoint.X = (int)(a.X + (distance * ((b.X - a.X)/magnitude)));
newPoint.Y = (int)(a.Y + (distance * ((b.Y - a.Y)/magnitude)));
return newPoint;
}
好的,伙计们,我发现了我的主要错误。 这是一个经典的 Doh! 我的 Draw 方法是在 pX, p 上绘画。 X
所以,我终于得到了一些有效的东西。 请注意,我并不是说这是一个“好的解决方案”或“唯一可行的解决方案”,我只是说它可以完成我想要它做的事情;-)
这是我更新后的工作代码:(这次完整且独立;-)
using System;
using System.Drawing;
using System.Windows.Forms;
using System.Diagnostics;
namespace DrawLines
{
public class MainForm : Form
{
#region constants and readonly attributes
private const int CELL_SIZE = 4; // width and height of each "cell" in the bitmap.
private readonly Bitmap _myBitmap; // to draw on (displayed in picBox1).
private readonly Graphics _myGraphics; // to draw with.
// actual points on _theLineString are painted red.
private static readonly SolidBrush _thePointBrush = new SolidBrush(Color.Red);
// ... and are labeled in /*Bold*/ Black, 16 point Courier New
private static readonly SolidBrush _theLabelBrush = new SolidBrush(Color.Black);
private static readonly Font _theLabelFont = new Font("Courier New", 16); //, FontStyle.Bold);
// the interveening calculated cells on the lines between actaul points are painted Silver.
private static readonly SolidBrush _theLineBrush = new SolidBrush(Color.Silver);
// the points in my line-string.
private static readonly Point[] _thePoints = new Point[] {
// x, y c i
new Point(170, 85), // A 0
new Point( 85, 70), // B 1
new Point(209, 66), // C 2
new Point( 98, 120), // D 3
new Point(158, 19), // E 4
new Point( 2, 61), // F 5
new Point( 42, 177), // G 6
new Point(191, 146), // H 7
new Point( 25, 128), // I 8
new Point( 95, 24) // J 9
};
#endregion
public MainForm() {
InitializeComponent();
// initialise "the graphics system".
_myBitmap = new Bitmap(picBox1.Width, picBox1.Height);
_myGraphics = Graphics.FromImage(_myBitmap);
picBox1.Image = _myBitmap;
}
#region DrawPoints upon MainForm_Load
private void MainForm_Load(object sender, EventArgs e) {
DrawPoints();
}
// draws and labels each point in _theLineString
private void DrawPoints() {
char c = 'A'; // label text, as a char so we can increment it for each point.
foreach ( Point p in _thePoints ) {
DrawCell(p.X, p.Y, _thePointBrush);
DrawLabel(p.X, p.Y, c++);
}
}
#endregion
#region DrawLines on button click
// =====================================================================
// Here's the interesting bit. DrawLine was called Draw
// Draws a line from A to B, by using X-values to calculate the Y values.
private void DrawLine(Point a, Point b)
{
if ( a.Y > b.Y ) // A is below B
Swap(ref a, ref b); // make A the topmost point (ergo sort by Y)
Debug.Assert(a.Y < b.Y, "A is still below B!");
var left = Math.Min(a.X, b.X);
var right = Math.Max(a.X, b.X);
int width = right - left;
Debug.Assert(width >= 0, "width is negative!");
var top = a.Y;
var bottom = b.Y;
int height = bottom - top;
Debug.Assert(height >= 0, "height is negative!");
if ( width > height ) {
// use given X values to calculate the Y values,
// otherwise it "skips" some X's
double slope = (double)height / (double)width;
Debug.Assert(slope >= 0, "slope is negative!");
if (a.X <= b.X) // a is left-of b, so draw left-to-right.
for ( int x=1; x<width; ++x ) // xOffset
DrawCell( (left+x), (a.Y + ((int)(slope*x + 0.5))), _theLineBrush);
else // a is right-of b, so draw right-to-left.
for ( int x=1; x<width; ++x ) // xOffset
DrawCell( (right-x), (a.Y + ((int)(slope*x + 0.5))), _theLineBrush);
} else {
// use given Y values to calculate the X values,
// otherwise it "skips" some Y's
double slope = (double)width/ (double)height;
Debug.Assert(slope >= 0, "slope is negative!");
if (a.X <= b.X) { // a is left-of b, so draw left-to-right. (FG)
for ( int y=1; y<height; ++y ) // yOffset
DrawCell( (a.X + ((int)(slope*y + 0.5))), (top+y), _theLineBrush);
} else { // a is right-of b, so draw right-to-left. (DE,IJ)
for ( int y=1; y<height; ++y ) // yOffset
DrawCell( (b.X + ((int)(slope*y + 0.5))), (bottom-y), _theLineBrush);
}
}
}
private void btnDrawLines_Click(object sender, EventArgs e) {
DrawLines(); // join the points
DrawPoints(); // redraw the labels over the lines.
}
// Draws a line between each point in _theLineString.
private void DrawLines() {
int n = _thePoints.Length - 1; // one less line-segment than points
for ( int i=0; i<n; ++i )
DrawLine(_thePoints[i], _thePoints[i+1]);
picBox1.Invalidate(); // tell the graphics system that the picture box needs to be repainted.
}
private void Swap(ref Point a, ref Point b) {
Point tmp = a;
a = b;
b = tmp;
}
#endregion
#region actual drawing on _myGraphics
// there should be no calls to Draw or Fill outside of this region
private void DrawCell(int x, int y, Brush brush) {
_myGraphics.FillRectangle(
brush
, x*CELL_SIZE
, y*CELL_SIZE
, CELL_SIZE // width
, CELL_SIZE // heigth
);
}
private void DrawLabel(int x, int y, char c) {
string s = c.ToString();
_myGraphics.DrawString(
s, _theLabelFont, _theLabelBrush
, x * CELL_SIZE + 5 // x
, y * CELL_SIZE - 10 // y
);
}
#endregion
#region Windows Form Designer generated code
/// <summary>
/// Required method for Designer support - do not modify
/// the contents of this method with the code editor.
/// </summary>
private void InitializeComponent() {
this.picBox1 = new System.Windows.Forms.PictureBox();
this.btnDrawLines = new System.Windows.Forms.Button();
((System.ComponentModel.ISupportInitialize)(this.picBox1)).BeginInit();
this.SuspendLayout();
//
// picBox1
//
this.picBox1.Dock = System.Windows.Forms.DockStyle.Fill;
this.picBox1.Location = new System.Drawing.Point(0, 0);
this.picBox1.Name = "picBox1";
this.picBox1.Size = new System.Drawing.Size(1000, 719);
this.picBox1.TabIndex = 0;
this.picBox1.TabStop = false;
//
// btnDrawLines
//
this.btnDrawLines.Location = new System.Drawing.Point(23, 24);
this.btnDrawLines.Name = "btnDrawLines";
this.btnDrawLines.Size = new System.Drawing.Size(77, 23);
this.btnDrawLines.TabIndex = 1;
this.btnDrawLines.Text = "Draw Lines";
this.btnDrawLines.UseVisualStyleBackColor = true;
this.btnDrawLines.Click += new System.EventHandler(this.btnDrawLines_Click);
//
// MainForm
//
this.AutoScaleDimensions = new System.Drawing.SizeF(6F, 13F);
this.AutoScaleMode = System.Windows.Forms.AutoScaleMode.Font;
this.ClientSize = new System.Drawing.Size(1000, 719);
this.Controls.Add(this.btnDrawLines);
this.Controls.Add(this.picBox1);
this.Location = new System.Drawing.Point(10, 10);
this.MinimumSize = new System.Drawing.Size(1016, 755);
this.Name = "MainForm";
this.SizeGripStyle = System.Windows.Forms.SizeGripStyle.Hide;
this.StartPosition = System.Windows.Forms.FormStartPosition.Manual;
this.Text = "Draw Lines on a Matrix.";
this.Load += new System.EventHandler(this.MainForm_Load);
((System.ComponentModel.ISupportInitialize)(this.picBox1)).EndInit();
this.ResumeLayout(false);
}
private System.Windows.Forms.PictureBox picBox1;
private System.Windows.Forms.Button btnDrawLines;
#endregion
}
}
编辑 - 以上代码更新:此版本绘制“实线”。 之前发布的版本跳过了几乎垂直的单元格,因此在这些情况下我反转了算法来计算 X 值(而不是 Y 值)……现在我可以使用它来设置(和绘制)“实心围栏”围绕“可航行区域”;-)
这是正确结果的更新图片。
再次感谢所有帮助过的人......你确实帮助了;-)
干杯。 基思。
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