C# 使用itextsharp 读取pdf中文字坐标

 

程序调用:

using iTextSharp.text.pdf;
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks; namespace TestIText
{
class Program
{
static void Main(string[] args)
{
PdfReader readerTemp = new PdfReader(@"D:\_Number position.pdf"); PdfHelper.LocationTextExtractionStrategyEx pz = new PdfHelper.LocationTextExtractionStrategyEx(); iTextSharp.text.pdf.parser.PdfReaderContentParser p = new iTextSharp.text.pdf.parser.PdfReaderContentParser(readerTemp);
p.ProcessContent<PdfHelper.LocationTextExtractionStrategyEx>(, pz); Console.WriteLine(pz.GetResultantText());//文字坐标信息等
Console.ReadLine(); }
}
}

PdfHelper帮助类:

using System;
using System.Collections.Generic;
using System.Linq;
using System.Text; using iTextSharp.text.pdf.parser; namespace PdfHelper
{
/// <summary>
/// Taken from http://www.java-frameworks.com/java/itext/com/itextpdf/text/pdf/parser/LocationTextExtractionStrategy.java.html
/// </summary>
class LocationTextExtractionStrategyEx : LocationTextExtractionStrategy
{
private List<TextChunk> m_locationResult = new List<TextChunk>();
private List<TextInfo> m_TextLocationInfo = new List<TextInfo>();
public List<TextChunk> LocationResult
{
get { return m_locationResult; }
}
public List<TextInfo> TextLocationInfo
{
get { return m_TextLocationInfo; }
} /// <summary>
/// Creates a new LocationTextExtracationStrategyEx
/// </summary>
public LocationTextExtractionStrategyEx()
{
} /// <summary>
/// Returns the result so far
/// </summary>
/// <returns>a String with the resulting text</returns>
public override String GetResultantText()
{
m_locationResult.Sort(); StringBuilder sb = new StringBuilder();
TextChunk lastChunk = null;
TextInfo lastTextInfo = null;
foreach (TextChunk chunk in m_locationResult)
{
if (lastChunk == null)
{
sb.Append(chunk.Text);
lastTextInfo = new TextInfo(chunk);
m_TextLocationInfo.Add(lastTextInfo);
}
else
{
if (chunk.sameLine(lastChunk))
{
float dist = chunk.distanceFromEndOf(lastChunk); if (dist < -chunk.CharSpaceWidth)
{
sb.Append(' ');
lastTextInfo.addSpace();
}
//append a space if the trailing char of the prev string wasn't a space && the 1st char of the current string isn't a space
else if (dist > chunk.CharSpaceWidth / 2.0f && chunk.Text[] != ' ' && lastChunk.Text[lastChunk.Text.Length - ] != ' ')
{
sb.Append(' ');
lastTextInfo.addSpace();
}
sb.Append(chunk.Text);
lastTextInfo.appendText(chunk);
}
else
{
sb.Append('\n');
sb.Append(chunk.Text);
lastTextInfo = new TextInfo(chunk);
m_TextLocationInfo.Add(lastTextInfo);
}
}
lastChunk = chunk;
}
return sb.ToString();
} /// <summary>
///
/// </summary>
/// <param name="renderInfo"></param>
public override void RenderText(TextRenderInfo renderInfo)
{
LineSegment segment = renderInfo.GetBaseline();
TextChunk location = new TextChunk(renderInfo.GetText(), segment.GetStartPoint(), segment.GetEndPoint(), renderInfo.GetSingleSpaceWidth(), renderInfo.GetAscentLine(), renderInfo.GetDescentLine());
m_locationResult.Add(location);
} public class TextChunk : IComparable, ICloneable
{
string m_text;
Vector m_startLocation;
Vector m_endLocation;
Vector m_orientationVector;
int m_orientationMagnitude;
int m_distPerpendicular;
float m_distParallelStart;
float m_distParallelEnd;
float m_charSpaceWidth; public LineSegment AscentLine;
public LineSegment DecentLine; public object Clone()
{
TextChunk copy = new TextChunk(m_text, m_startLocation, m_endLocation, m_charSpaceWidth, AscentLine, DecentLine);
return copy;
} public string Text
{
get { return m_text; }
set { m_text = value; }
}
public float CharSpaceWidth
{
get { return m_charSpaceWidth; }
set { m_charSpaceWidth = value; }
}
public Vector StartLocation
{
get { return m_startLocation; }
set { m_startLocation = value; }
}
public Vector EndLocation
{
get { return m_endLocation; }
set { m_endLocation = value; }
} /// <summary>
/// Represents a chunk of text, it's orientation, and location relative to the orientation vector
/// </summary>
/// <param name="txt"></param>
/// <param name="startLoc"></param>
/// <param name="endLoc"></param>
/// <param name="charSpaceWidth"></param>
public TextChunk(string txt, Vector startLoc, Vector endLoc, float charSpaceWidth, LineSegment ascentLine, LineSegment decentLine)
{
m_text = txt;
m_startLocation = startLoc;
m_endLocation = endLoc;
m_charSpaceWidth = charSpaceWidth;
AscentLine = ascentLine;
DecentLine = decentLine; m_orientationVector = m_endLocation.Subtract(m_startLocation).Normalize();
m_orientationMagnitude = (int)(Math.Atan2(m_orientationVector[Vector.I2], m_orientationVector[Vector.I1]) * ); // see http://mathworld.wolfram.com/Point-LineDistance2-Dimensional.html
// the two vectors we are crossing are in the same plane, so the result will be purely
// in the z-axis (out of plane) direction, so we just take the I3 component of the result
Vector origin = new Vector(, , );
m_distPerpendicular = (int)(m_startLocation.Subtract(origin)).Cross(m_orientationVector)[Vector.I3]; m_distParallelStart = m_orientationVector.Dot(m_startLocation);
m_distParallelEnd = m_orientationVector.Dot(m_endLocation);
} /// <summary>
/// true if this location is on the the same line as the other text chunk
/// </summary>
/// <param name="textChunkToCompare">the location to compare to</param>
/// <returns>true if this location is on the the same line as the other</returns>
public bool sameLine(TextChunk textChunkToCompare)
{
if (m_orientationMagnitude != textChunkToCompare.m_orientationMagnitude) return false;
if (m_distPerpendicular != textChunkToCompare.m_distPerpendicular) return false;
return true;
} /// <summary>
/// Computes the distance between the end of 'other' and the beginning of this chunk
/// in the direction of this chunk's orientation vector. Note that it's a bad idea
/// to call this for chunks that aren't on the same line and orientation, but we don't
/// explicitly check for that condition for performance reasons.
/// </summary>
/// <param name="other"></param>
/// <returns>the number of spaces between the end of 'other' and the beginning of this chunk</returns>
public float distanceFromEndOf(TextChunk other)
{
float distance = m_distParallelStart - other.m_distParallelEnd;
return distance;
} /// <summary>
/// Compares based on orientation, perpendicular distance, then parallel distance
/// </summary>
/// <param name="obj"></param>
/// <returns></returns>
public int CompareTo(object obj)
{
if (obj == null) throw new ArgumentException("Object is now a TextChunk"); TextChunk rhs = obj as TextChunk;
if (rhs != null)
{
if (this == rhs) return ; int rslt;
rslt = m_orientationMagnitude - rhs.m_orientationMagnitude;
if (rslt != ) return rslt; rslt = m_distPerpendicular - rhs.m_distPerpendicular;
if (rslt != ) return rslt; // note: it's never safe to check floating point numbers for equality, and if two chunks
// are truly right on top of each other, which one comes first or second just doesn't matter
// so we arbitrarily choose this way.
rslt = m_distParallelStart < rhs.m_distParallelStart ? - : ; return rslt;
}
else
{
throw new ArgumentException("Object is now a TextChunk");
}
}
} public class TextInfo
{
public Vector TopLeft;
public Vector BottomRight;
private string m_Text; public string Text
{
get { return m_Text; }
} /// <summary>
/// Create a TextInfo.
/// </summary>
/// <param name="initialTextChunk"></param>
public TextInfo(TextChunk initialTextChunk)
{
TopLeft = initialTextChunk.AscentLine.GetStartPoint();
BottomRight = initialTextChunk.DecentLine.GetEndPoint();
m_Text = initialTextChunk.Text;
} /// <summary>
/// Add more text to this TextInfo.
/// </summary>
/// <param name="additionalTextChunk"></param>
public void appendText(TextChunk additionalTextChunk)
{
BottomRight = additionalTextChunk.DecentLine.GetEndPoint();
m_Text += additionalTextChunk.Text;
} /// <summary>
/// Add a space to the TextInfo. This will leave the endpoint out of sync with the text.
/// The assumtion is that you will add more text after the space which will correct the endpoint.
/// </summary>
public void addSpace()
{
m_Text += ' ';
} }
}
}
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