怎么用C#制作印章

news/2024/11/24 1:51:30/

制作印章来说,主要是如何让字均匀的显示在弧线段上,那么一般的印章要么以圆或者椭圆为底图,不过这两者的算法大致相同,为了方便说明,如下就用相对简单的圆来举例说明,如果需要做椭圆的话,可以在我的基础上进行扩展,因为核心算法是一样的,相对于圆来说,椭圆求弧长以及各个字符的位置,这两点相对麻烦些,但是这两者都可找到相应的数学公式。

 

这里首先提一点,我这篇文章部分借鉴了codeproject的一个例子,原文可以参看如下地址。

http://www.codeproject.com/vb/net/Text_on_Path_with_VBNET.asp

(说实话,这篇文章写得有些乱,而且对于buffer的操作近乎于疯狂)

 

由于印章的实现相对于这篇文章来说,相对简单多了,而且规律性很强,因此我自己考虑重新组织算法进行实现。

 

那么实现一个印章,大致步骤如下。

1. 计算字符串总长度,以及各个字符的长度;

2. 计算出字符串的起始角度;

3. 求出每个字符的所在的点,以及相对于中心的角度;

4. 绘制每个字符。

 

计算字符串总长度,以及各个字符的长度

这里需要用到“Graphics.MeasureString”和“Graphics.MeasureCharacterRanges”这两个方法,由于前者算出来的总长度有问题,所以需要后面进行重新计算(此外,这里我还考虑了字符最后显示方向)。

这部分的代码如下:

    /// <summary>

    /// Compute string total length and every char length

    /// </summary>

    /// <param name="sText"></param>

    /// <param name="g"></param>

    /// <param name="fCharWidth"></param>

    /// <param name="fIntervalWidth"></param>

    /// <returns></returns>

    private float ComputeStringLength( string sText, Graphics g, float[] fCharWidth,

        float fIntervalWidth,

        Char_Direction Direction )

    {

        // Init string format

        StringFormat sf = new StringFormat();

        sf.Trimming = StringTrimming.None;

        sf.FormatFlags = StringFormatFlags.NoClip | StringFormatFlags.NoWrap

            | StringFormatFlags.LineLimit;

       

        // Measure whole string length

        SizeF size = g.MeasureString( sText, _font, (int)_font.Style );

        RectangleF rect = new RectangleF( 0f,0f, size.Width, size.Height );

        // Measure every character size

        CharacterRange[] crs = new CharacterRange[sText.Length];

        for( int i = 0; i < sText.Length; i++ )

            crs[i] = new CharacterRange( i, 1 );

        // Reset string format

        sf.FormatFlags = StringFormatFlags.NoClip;

        sf.SetMeasurableCharacterRanges( crs );

        sf.Alignment = StringAlignment.Near;

        // Get every character size

        Region[] regs = g.MeasureCharacterRanges( sText,

            _font, rect, sf );

        // Re-compute whole string length with space interval width

        float fTotalWidth = 0f;

        for( int i = 0; i < regs.Length; i++ )

        {

            if( Direction == Char_Direction.Center || Direction == Char_Direction.OutSide )

                fCharWidth[i] = regs[i].GetBounds( g ).Width;

            else

                fCharWidth[i] = regs[i].GetBounds( g ).Height;

            fTotalWidth += fCharWidth[i] + fIntervalWidth;

        }

        fTotalWidth -= fIntervalWidth;//Remove the last interval width

        return fTotalWidth;

    }

 

计算出字符串的起始角度

为了更好地开展文章,那么首先说说在我这篇文章中,坐标的度数位置。详情参看如下图示。

 

对于图形角度分布有个概念后,那么对于整个字符串所跨的弧度以及起始弧度的计算,就相对比较简单了。具体如下:

    // Compute arc's start-angle and end-angle

    double fStartAngle, fSweepAngle;

    fSweepAngle = fTotalWidth * 360 / ( _rectcircle.Width * Math.PI );

    fStartAngle = 270 - fSweepAngle / 2;

求出每个字符的所在的点,以及相对于中心的角度

这一部分相对要麻烦些,大致步骤如下。

1.  通过字符长度,求出字符所跨的弧度;

2.  根据字符所跨的弧度,以及字符起始位置,算出字符的中心位置所对应的角度;

3.  由于相对中心的角度已知,根据三角公式很容易算出字符所在弧上的点,如下图所示;

4.  根据字符长度以及间隔距离,算出下一个字符的起始角度;

5.  重复1直至整个字符串结束。

那么这部分的具体代码如下。

    /// <summary>

    /// Compute every char position

    /// </summary>

    /// <param name="CharWidth"></param>

    /// <param name="recChars"></param>

    /// <param name="CharAngle"></param>

    /// <param name="StartAngle"></param>

    private void ComputeCharPos(

        float[] CharWidth,

        PointF[] recChars,

        double[] CharAngle,

        double StartAngle )

    {

        double fSweepAngle, fCircleLength;

        //Compute the circumference

        fCircleLength = _rectcircle.Width * Math.PI;

       

        for( int i = 0; i < CharWidth.Length; i++ )

        {

            //Get char sweep angle

            fSweepAngle = CharWidth[i] * 360 / fCircleLength;

            //Set point angle

            CharAngle[i] = StartAngle + fSweepAngle / 2;

            //Get char position

            if( CharAngle[i] < 270f )

                recChars[i] = new PointF(

                    _rectcircle.X + _rectcircle.Width / 2

                    -(float)( _rectcircle.Width / 2 *

                    Math.Sin( Math.Abs( CharAngle[i] - 270 ) * Math.PI / 180 ) ) ,

                    _rectcircle.Y + _rectcircle.Width / 2

                    -(float)( _rectcircle.Width / 2 * Math.Cos(

                    Math.Abs( CharAngle[i] - 270 ) * Math.PI / 180 ) ) );

            else

                recChars[i] = new PointF(

                    _rectcircle.X + _rectcircle.Width / 2

                    +(float)( _rectcircle.Width / 2 *

                    Math.Sin( Math.Abs( CharAngle[i] - 270 ) * Math.PI / 180 ) ) ,

                    _rectcircle.Y + _rectcircle.Width / 2

                    -(float)( _rectcircle.Width / 2 * Math.Cos(

                    Math.Abs( CharAngle[i] - 270 ) * Math.PI / 180 ) ) );

            //Get total sweep angle with interval space

            fSweepAngle = ( CharWidth[i] + _letterspace ) * 360 / fCircleLength;

            StartAngle += fSweepAngle;

        }

    }

绘制每个字符

由于每个字符所在的点以及相对于圆心的角度都已经计算出来,那么进行绘制就相对简单多了,这里只是通过Matrix来转换一下坐标而已。

具体代码如下。

    /// <summary>

    /// Draw every rotated character

    /// </summary>

    /// <param name="g"></param>

    /// <param name="_text"></param>

    /// <param name="_angle"></param>

    /// <param name="_PointCenter"></param>

    private void DrawRotatedText( Graphics g, string _text, float _angle, PointF _PointCenter )

    {

        // Init format

        StringFormat sf = new StringFormat();

        sf.Alignment = StringAlignment.Center;

        sf.LineAlignment = StringAlignment.Center;

        // Create graphics path

        GraphicsPath gp = new GraphicsPath( System.Drawing.Drawing2D.FillMode.Winding );

        int x = (int)_PointCenter.X;

        int y = (int)_PointCenter.Y;

        // Add string

        gp.AddString( _text, _font.FontFamily, (int)_font.Style,

            _font.Size, new Point( x, y ), sf );

        // Rotate string and draw it

        Matrix m = new Matrix();

        m.RotateAt( _angle, new PointF( x,y ) );

        g.Transform = m;

        g.DrawPath( new Pen( _color), gp );

        g.FillPath( new SolidBrush( _fillcolor ), gp );

    }

 

以上就是绘制印章的核心算法。对于这个类的调用,如下即可。

    TextOnSeal _top = new TextOnSeal();

    _top.TextFont = new Font("宋体", 16, FontStyle.Regular);

    _top.FillColor = Color.Red;

    _top.ColorTOP = Color.Black;

    _top.Text = "中华人民共和国";

    _top.BaseString = "愚翁专用章";

    _top.ShowPath = true;

    _top.LetterSpace = 20;

    _top.SealSize = 180;

    _top.CharDirection = Char_Direction.Center;

    _top.SetIndent( 20 );

    Graphics g = this.CreateGraphics();

    g.DrawImage( _top.TextOnPathBitmap(), 0, 0 );

    _top.CharDirection = Char_Direction.ClockWise;

    g.DrawImage( _top.TextOnPathBitmap(), 180, 0 );

    _top.CharDirection = Char_Direction.AntiClockWise;

    g.DrawImage( _top.TextOnPathBitmap(), 0, 180 );

    _top.SetIndent( 20 );

    _top.CharDirection = Char_Direction.OutSide;

    g.DrawImage( _top.TextOnPathBitmap(), 180, 180 );

 

通过如上的代码,可以得到如下的效果。

 

其实如果做印章来说,还有很多地方需要细化,那么如果网友对此有兴趣,可以在我的基础上进行扩展,在此我就不一一述说。

 

如下是整个类的完整代码。

//--------------------------- TextOnSeal class ---------------------------------------

//------------------------------------------------------------------------------------

//---File:          TextOnSeal

//---Description:   The class file to create seal bitmap with text

//---Author:        Knight

//---Date:          Nov.3, 2006

//------------------------------------------------------------------------------------

//---------------------------{TextOnSeal class}---------------------------------------

namespace Seal

{

    using System;

    using System.Drawing;

    using System.Drawing.Drawing2D;

    using System.Diagnostics;

    /// <summary>

    /// Summary description for TextOnSeal.

    /// </summary>

    public class TextOnSeal

    {

        private string _text;

        private Font _font;

        private Color _pathcolor = Color.Red;

        private Color _color = Color.Black;

        private Color _fillcolor = Color.Black;

        private int _letterspace = 10;

        private bool _showpath = true;

        private Rectangle _rectcircle;

        private Rectangle _rect;

        private int _intentlength = 10;

        private Char_Direction _chardirect = Char_Direction.Center;

        private int _degree = 90;

        private string _basestring;

        #region Class_Properties

        public Char_Direction CharDirection

        {

            get{ return _chardirect;}

            set{

                if( _chardirect != value )

                {

                    _chardirect = value;

                    switch( _chardirect )

                    {

                        case Char_Direction.Center:

                            _degree = 90;

                            break;

                        case Char_Direction.ClockWise:

                            _degree = 0;

                            break;

                        case Char_Direction.OutSide:

                            _degree = -90;

                            break;

                        case Char_Direction.AntiClockWise:

                            _degree = 180;

                            break;

                    }

                }

            }

        }

        public string BaseString

        {

            get{ return _basestring;}

            set{ _basestring = value; }

        }

        public string Text

        {

            get{ return _text;}

            set{ _text = value;}

        }

        public Font TextFont

        {

            get{ return _font;}

            set{ _font = value;}

        }

        public Color PathColor

        {

            get{ return _pathcolor;}

            set{ _pathcolor = value; }

        }

        public Color ColorTOP

        {

            get{ return _color;}

            set{ _color = value;}

        }

        public Color FillColor

        {

            get{ return _fillcolor;}

            set{ _fillcolor = value;}

        }

        public int LetterSpace

        {

            get{ return _letterspace;}

            set{ _letterspace = value;}

        }

        public bool ShowPath

        {

            get{ return _showpath;}

            set{ _showpath = value;}

        }

        public int SealSize

        {

            set{

                _rect = new Rectangle( 0, 0, value, value );

                _rectcircle = new Rectangle(

                    new Point( _rect.X + _intentlength, _rect.Y + _intentlength ),

                    new Size( _rect.Width - 2 * _intentlength, _rect.Height - 2 * _intentlength ) ) ;

            }

        }

        #endregion {Class_Properties}

        public void SetIndent( int IntentLength )

        {

            _intentlength = IntentLength;

            _rectcircle = new Rectangle( _intentlength, _intentlength,

                _rect.Width - _intentlength * 2, _rect.Height - _intentlength * 2 );

        }

        public TextOnSeal()

        {

            //

            // TODO: Add constructor logic here

            //

        }

        public Bitmap TextOnPathBitmap(

            Rectangle rectCircle,

            string strText,

            Font fntText,

            Color clrColor,

            Color clrFill,

            int nPercentage )

        {

            _rect = rectCircle;

            _rectcircle = new Rectangle(

                new Point( _rect.X + _intentlength, _rect.Y + _intentlength ),

                new Size( _rect.Width - 2 * _intentlength, _rect.Height - 2 * _intentlength ) ) ;

            _text = strText;

            _font = fntText;

            _color = clrColor;

            _fillcolor = clrFill;

            _letterspace = nPercentage;

            return TextOnPathBitmap();

        }

        /// <summary>

        /// Compute string total length and every char length

        /// </summary>

        /// <param name="sText"></param>

        /// <param name="g"></param>

        /// <param name="fCharWidth"></param>

        /// <param name="fIntervalWidth"></param>

        /// <returns></returns>

        private float ComputeStringLength( string sText, Graphics g, float[] fCharWidth,

            float fIntervalWidth,

            Char_Direction Direction )

        {

            // Init string format

            StringFormat sf = new StringFormat();

            sf.Trimming = StringTrimming.None;

            sf.FormatFlags = StringFormatFlags.NoClip | StringFormatFlags.NoWrap

                | StringFormatFlags.LineLimit;

           

            // Measure whole string length

            SizeF size = g.MeasureString( sText, _font, (int)_font.Style );

            RectangleF rect = new RectangleF( 0f,0f, size.Width, size.Height );

            // Measure every character size

            CharacterRange[] crs = new CharacterRange[sText.Length];

            for( int i = 0; i < sText.Length; i++ )

                crs[i] = new CharacterRange( i, 1 );

            // Reset string format

            sf.FormatFlags = StringFormatFlags.NoClip;

            sf.SetMeasurableCharacterRanges( crs );

            sf.Alignment = StringAlignment.Near;

            // Get every character size

            Region[] regs = g.MeasureCharacterRanges( sText,

                _font, rect, sf );

            // Re-compute whole string length with space interval width

            float fTotalWidth = 0f;

            for( int i = 0; i < regs.Length; i++ )

            {

                if( Direction == Char_Direction.Center || Direction == Char_Direction.OutSide )

                    fCharWidth[i] = regs[i].GetBounds( g ).Width;

                else

                    fCharWidth[i] = regs[i].GetBounds( g ).Height;

                fTotalWidth += fCharWidth[i] + fIntervalWidth;

            }

            fTotalWidth -= fIntervalWidth;//Remove the last interval width

            return fTotalWidth;

        }

        /// <summary>

        /// Compute every char position

        /// </summary>

        /// <param name="CharWidth"></param>

        /// <param name="recChars"></param>

        /// <param name="CharAngle"></param>

        /// <param name="StartAngle"></param>

        private void ComputeCharPos(

            float[] CharWidth,

            PointF[] recChars,

            double[] CharAngle,

            double StartAngle )

        {

            double fSweepAngle, fCircleLength;

            //Compute the circumference

            fCircleLength = _rectcircle.Width * Math.PI;

           

            for( int i = 0; i < CharWidth.Length; i++ )

            {

                //Get char sweep angle

                fSweepAngle = CharWidth[i] * 360 / fCircleLength;

                //Set point angle

                CharAngle[i] = StartAngle + fSweepAngle / 2;

                //Get char position

                if( CharAngle[i] < 270f )

                    recChars[i] = new PointF(

                        _rectcircle.X + _rectcircle.Width / 2

                        -(float)( _rectcircle.Width / 2 *

                        Math.Sin( Math.Abs( CharAngle[i] - 270 ) * Math.PI / 180 ) ) ,

                        _rectcircle.Y + _rectcircle.Width / 2

                        -(float)( _rectcircle.Width / 2 * Math.Cos(

                        Math.Abs( CharAngle[i] - 270 ) * Math.PI / 180 ) ) );

                else

                    recChars[i] = new PointF(

                        _rectcircle.X + _rectcircle.Width / 2

                        +(float)( _rectcircle.Width / 2 *

                        Math.Sin( Math.Abs( CharAngle[i] - 270 ) * Math.PI / 180 ) ) ,

                        _rectcircle.Y + _rectcircle.Width / 2

                        -(float)( _rectcircle.Width / 2 * Math.Cos(

                        Math.Abs( CharAngle[i] - 270 ) * Math.PI / 180 ) ) );

                //Get total sweep angle with interval space

                fSweepAngle = ( CharWidth[i] + _letterspace ) * 360 / fCircleLength;

                StartAngle += fSweepAngle;

            }

        }

        /// <summary>

        /// Generate seal bitmap

        /// </summary>

        /// <returns></returns>

        public Bitmap TextOnPathBitmap()

        {

            // Create bitmap and graphics

            Bitmap bit = new Bitmap( _rect.Width, _rect.Height );

            Graphics g = Graphics.FromImage( bit );

            // Compute string length in graphics

            float[] fCharWidth = new float[_text.Length];

            float fTotalWidth = ComputeStringLength( _text, g, fCharWidth,

                _letterspace, _chardirect );

            // Compute arc's start-angle and end-angle

            double fStartAngle, fSweepAngle;

            fSweepAngle = fTotalWidth * 360 / ( _rectcircle.Width * Math.PI );

            fStartAngle = 270 - fSweepAngle / 2;

            // Compute every character's position and angle

            PointF[] pntChars = new PointF[ _text.Length ];

            double[] fCharAngle = new double[ _text.Length ];

            ComputeCharPos( fCharWidth, pntChars, fCharAngle, fStartAngle );

            g.SmoothingMode = SmoothingMode.HighQuality;

            g.CompositingQuality = CompositingQuality.HighQuality;

            g.TextRenderingHint = System.Drawing.Text.TextRenderingHint.AntiAlias;

            DrawSealBase( g );

            // Draw every character

            for( int i = 0; i < _text.Length; i++ )

                DrawRotatedText( g, _text[i].ToString(), (float)(fCharAngle[i] + _degree), pntChars[i] );

            g.Dispose();

            // Return bitmap

            return bit;

        }

        /// <summary>

        /// Draw seal base

        /// </summary>

        /// <param name="g"></param>

        private void DrawSealBase( Graphics g )

        {

            // Draw background

            g.FillRectangle( Brushes.Black, _rect );

            g.FillEllipse( new SolidBrush( _fillcolor ),

                new Rectangle( 1,1, _rect.Width - 2, _rect.Height - 2 ) );

            g.FillEllipse( Brushes.White,

                new Rectangle( 4, 4, _rect.Width - 8, _rect.Height - 8 ) );

            // Draw start signal

            StringFormat sf = new StringFormat();

            string strStar = "";

            Font fnt = new Font( _font.FontFamily, _font.Size * 3 );

            sf.Alignment = StringAlignment.Center;

            sf.LineAlignment = StringAlignment.Center;

            SizeF siz = g.MeasureString( strStar, fnt );

            g.DrawString( strStar, fnt, new SolidBrush( _fillcolor ),

                new RectangleF( _rect.Width / 2 - siz.Width / 2,

                _rect.Height / 2 - siz.Height/ 2,

                siz.Width, siz.Height ), sf );

            // Draw base string

            float[] fCharWidth = new float[_basestring.Length];

            float fTotalWidths = ComputeStringLength( _basestring, g, fCharWidth, 0,

                Char_Direction.Center );

            float fLeftPos = ( _rect.Width - fTotalWidths ) / 2;

            PointF pt;

            for( int i = 0; i < _basestring.Length; i++ )

            {

                pt = new PointF( fLeftPos + fCharWidth[i] / 2,

                    _rect.Height / 2 + siz.Height / 2 + 10 );

                DrawRotatedText( g, _basestring[i].ToString(), 0, pt );

                fLeftPos += fCharWidth[i];

            }

        }

        /// <summary>

        /// Draw every rotated character

        /// </summary>

        /// <param name="g"></param>

        /// <param name="_text"></param>

        /// <param name="_angle"></param>

        /// <param name="_PointCenter"></param>

        private void DrawRotatedText( Graphics g, string _text, float _angle, PointF _PointCenter )

        {

            // Init format

            StringFormat sf = new StringFormat();

            sf.Alignment = StringAlignment.Center;

            sf.LineAlignment = StringAlignment.Center;

            // Create graphics path

            GraphicsPath gp = new GraphicsPath( System.Drawing.Drawing2D.FillMode.Winding );

            int x = (int)_PointCenter.X;

            int y = (int)_PointCenter.Y;

            // Add string

            gp.AddString( _text, _font.FontFamily, (int)_font.Style,

                _font.Size, new Point( x, y ), sf );

            // Rotate string and draw it

            Matrix m = new Matrix();

            m.RotateAt( _angle, new PointF( x,y ) );

            g.Transform = m;

            g.DrawPath( new Pen( _color), gp );

            g.FillPath( new SolidBrush( _fillcolor ), gp );

        }

    }

    public enum Char_Direction

    {

        Center          = 0,

        OutSide         = 1,

        ClockWise       = 2,

        AntiClockWise   = 3,

    }

}

 

 

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