ASCU_ALL/PrintPDF/PdfSharp/Pdf.IO/PdfWriter.cs
2021-05-25 17:00:45 +05:00

662 lines
22 KiB
C#
Raw Permalink Blame History

#region PDFsharp - A .NET library for processing PDF
//
// Authors:
// Stefan Lange
//
// Copyright (c) 2005-2017 empira Software GmbH, Cologne Area (Germany)
//
// http://www.pdfsharp.com
// http://sourceforge.net/projects/pdfsharp
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the "Software"),
// to deal in the Software without restriction, including without limitation
// the rights to use, copy, modify, merge, publish, distribute, sublicense,
// and/or sell copies of the Software, and to permit persons to whom the
// Software is furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included
// in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
// THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
// FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
// DEALINGS IN THE SOFTWARE.
#endregion
using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.Globalization;
using System.Text;
using System.IO;
using PdfSharp.Pdf.Advanced;
using PdfSharp.Pdf.Security;
using PdfSharp.Pdf.Internal;
namespace PdfSharp.Pdf.IO
{
/// <summary>
/// Represents a writer for generation of PDF streams.
/// </summary>
internal class PdfWriter
{
public PdfWriter(Stream pdfStream, PdfStandardSecurityHandler securityHandler)
{
_stream = pdfStream;
_securityHandler = securityHandler;
//System.Xml.XmlTextWriter
#if DEBUG
_layout = PdfWriterLayout.Verbose;
#endif
}
public void Close(bool closeUnderlyingStream)
{
if (_stream != null && closeUnderlyingStream)
{
#if UWP
_stream.Dispose();
#else
_stream.Close();
#endif
}
_stream = null;
}
public void Close()
{
Close(true);
}
public int Position
{
get { return (int)_stream.Position; }
}
/// <summary>
/// Gets or sets the kind of layout.
/// </summary>
public PdfWriterLayout Layout
{
get { return _layout; }
set { _layout = value; }
}
PdfWriterLayout _layout;
public PdfWriterOptions Options
{
get { return _options; }
set { _options = value; }
}
PdfWriterOptions _options;
// -----------------------------------------------------------
/// <summary>
/// Writes the specified value to the PDF stream.
/// </summary>
public void Write(bool value)
{
WriteSeparator(CharCat.Character);
WriteRaw(value ? bool.TrueString : bool.FalseString);
_lastCat = CharCat.Character;
}
/// <summary>
/// Writes the specified value to the PDF stream.
/// </summary>
public void Write(PdfBoolean value)
{
WriteSeparator(CharCat.Character);
WriteRaw(value.Value ? "true" : "false");
_lastCat = CharCat.Character;
}
/// <summary>
/// Writes the specified value to the PDF stream.
/// </summary>
public void Write(int value)
{
WriteSeparator(CharCat.Character);
WriteRaw(value.ToString(CultureInfo.InvariantCulture));
_lastCat = CharCat.Character;
}
/// <summary>
/// Writes the specified value to the PDF stream.
/// </summary>
public void Write(uint value)
{
WriteSeparator(CharCat.Character);
WriteRaw(value.ToString(CultureInfo.InvariantCulture));
_lastCat = CharCat.Character;
}
/// <summary>
/// Writes the specified value to the PDF stream.
/// </summary>
public void Write(PdfInteger value)
{
WriteSeparator(CharCat.Character);
_lastCat = CharCat.Character;
WriteRaw(value.Value.ToString(CultureInfo.InvariantCulture));
}
/// <summary>
/// Writes the specified value to the PDF stream.
/// </summary>
public void Write(PdfUInteger value)
{
WriteSeparator(CharCat.Character);
_lastCat = CharCat.Character;
WriteRaw(value.Value.ToString(CultureInfo.InvariantCulture));
}
/// <summary>
/// Writes the specified value to the PDF stream.
/// </summary>
public void Write(double value)
{
WriteSeparator(CharCat.Character);
WriteRaw(value.ToString(Config.SignificantFigures7, CultureInfo.InvariantCulture));
_lastCat = CharCat.Character;
}
/// <summary>
/// Writes the specified value to the PDF stream.
/// </summary>
public void Write(PdfReal value)
{
WriteSeparator(CharCat.Character);
WriteRaw(value.Value.ToString(Config.SignificantFigures7, CultureInfo.InvariantCulture));
_lastCat = CharCat.Character;
}
/// <summary>
/// Writes the specified value to the PDF stream.
/// </summary>
public void Write(PdfString value)
{
WriteSeparator(CharCat.Delimiter);
#if true
PdfStringEncoding encoding = (PdfStringEncoding)(value.Flags & PdfStringFlags.EncodingMask);
string pdf = (value.Flags & PdfStringFlags.HexLiteral) == 0 ?
PdfEncoders.ToStringLiteral(value.Value, encoding, SecurityHandler) :
PdfEncoders.ToHexStringLiteral(value.Value, encoding, SecurityHandler);
WriteRaw(pdf);
#else
switch (value.Flags & PdfStringFlags.EncodingMask)
{
case PdfStringFlags.Undefined:
case PdfStringFlags.PDFDocEncoding:
if ((value.Flags & PdfStringFlags.HexLiteral) == 0)
WriteRaw(PdfEncoders.DocEncode(value.Value, false));
else
WriteRaw(PdfEncoders.DocEncodeHex(value.Value, false));
break;
case PdfStringFlags.WinAnsiEncoding:
throw new NotImplementedException("Unexpected encoding: WinAnsiEncoding");
case PdfStringFlags.Unicode:
if ((value.Flags & PdfStringFlags.HexLiteral) == 0)
WriteRaw(PdfEncoders.DocEncode(value.Value, true));
else
WriteRaw(PdfEncoders.DocEncodeHex(value.Value, true));
break;
case PdfStringFlags.StandardEncoding:
case PdfStringFlags.MacRomanEncoding:
case PdfStringFlags.MacExpertEncoding:
default:
throw new NotImplementedException("Unexpected encoding");
}
#endif
_lastCat = CharCat.Delimiter;
}
/// <summary>
/// Writes the specified value to the PDF stream.
/// </summary>
public void Write(PdfName value)
{
WriteSeparator(CharCat.Delimiter, '/');
string name = value.Value;
StringBuilder pdf = new StringBuilder("/");
for (int idx = 1; idx < name.Length; idx++)
{
char ch = name[idx];
Debug.Assert(ch < 256);
if (ch > ' ')
switch (ch)
{
// TODO: is this all?
case '%':
case '/':
case '<':
case '>':
case '(':
case ')':
case '[':
case ']':
case '#':
break;
default:
pdf.Append(name[idx]);
continue;
}
pdf.AppendFormat("#{0:X2}", (int)name[idx]);
}
WriteRaw(pdf.ToString());
_lastCat = CharCat.Character;
}
public void Write(PdfLiteral value)
{
WriteSeparator(CharCat.Character);
WriteRaw(value.Value);
_lastCat = CharCat.Character;
}
public void Write(PdfRectangle rect)
{
const string format = Config.SignificantFigures3;
WriteSeparator(CharCat.Delimiter, '/');
WriteRaw(PdfEncoders.Format("[{0:" + format + "} {1:" + format + "} {2:" + format + "} {3:" + format + "}]", rect.X1, rect.Y1, rect.X2, rect.Y2));
_lastCat = CharCat.Delimiter;
}
public void Write(PdfReference iref)
{
WriteSeparator(CharCat.Character);
WriteRaw(iref.ToString());
_lastCat = CharCat.Character;
}
public void WriteDocString(string text, bool unicode)
{
WriteSeparator(CharCat.Delimiter);
//WriteRaw(PdfEncoders.DocEncode(text, unicode));
byte[] bytes;
if (!unicode)
bytes = PdfEncoders.DocEncoding.GetBytes(text);
else
bytes = PdfEncoders.UnicodeEncoding.GetBytes(text);
bytes = PdfEncoders.FormatStringLiteral(bytes, unicode, true, false, _securityHandler);
Write(bytes);
_lastCat = CharCat.Delimiter;
}
public void WriteDocString(string text)
{
WriteSeparator(CharCat.Delimiter);
//WriteRaw(PdfEncoders.DocEncode(text, false));
byte[] bytes = PdfEncoders.DocEncoding.GetBytes(text);
bytes = PdfEncoders.FormatStringLiteral(bytes, false, false, false, _securityHandler);
Write(bytes);
_lastCat = CharCat.Delimiter;
}
public void WriteDocStringHex(string text)
{
WriteSeparator(CharCat.Delimiter);
//WriteRaw(PdfEncoders.DocEncodeHex(text));
byte[] bytes = PdfEncoders.DocEncoding.GetBytes(text);
bytes = PdfEncoders.FormatStringLiteral(bytes, false, false, true, _securityHandler);
_stream.Write(bytes, 0, bytes.Length);
_lastCat = CharCat.Delimiter;
}
/// <summary>
/// Begins a direct or indirect dictionary or array.
/// </summary>
public void WriteBeginObject(PdfObject obj)
{
bool indirect = obj.IsIndirect;
if (indirect)
{
WriteObjectAddress(obj);
if (_securityHandler != null)
_securityHandler.SetHashKey(obj.ObjectID);
}
_stack.Add(new StackItem(obj));
if (indirect)
{
if (obj is PdfArray)
WriteRaw("[\n");
else if (obj is PdfDictionary)
WriteRaw("<<\n");
_lastCat = CharCat.NewLine;
}
else
{
if (obj is PdfArray)
{
WriteSeparator(CharCat.Delimiter);
WriteRaw('[');
_lastCat = CharCat.Delimiter;
}
else if (obj is PdfDictionary)
{
NewLine();
WriteSeparator(CharCat.Delimiter);
WriteRaw("<<\n");
_lastCat = CharCat.NewLine;
}
}
if (_layout == PdfWriterLayout.Verbose)
IncreaseIndent();
}
/// <summary>
/// Ends a direct or indirect dictionary or array.
/// </summary>
public void WriteEndObject()
{
int count = _stack.Count;
Debug.Assert(count > 0, "PdfWriter stack underflow.");
StackItem stackItem = _stack[count - 1];
_stack.RemoveAt(count - 1);
PdfObject value = stackItem.Object;
bool indirect = value.IsIndirect;
if (_layout == PdfWriterLayout.Verbose)
DecreaseIndent();
if (value is PdfArray)
{
if (indirect)
{
WriteRaw("\n]\n");
_lastCat = CharCat.NewLine;
}
else
{
WriteRaw("]");
_lastCat = CharCat.Delimiter;
}
}
else if (value is PdfDictionary)
{
if (indirect)
{
if (!stackItem.HasStream)
WriteRaw(_lastCat == CharCat.NewLine ? ">>\n" : " >>\n");
}
else
{
Debug.Assert(!stackItem.HasStream, "Direct object with stream??");
WriteSeparator(CharCat.NewLine);
WriteRaw(">>\n");
_lastCat = CharCat.NewLine;
}
}
if (indirect)
{
NewLine();
WriteRaw("endobj\n");
if (_layout == PdfWriterLayout.Verbose)
WriteRaw("%--------------------------------------------------------------------------------------------------\n");
}
}
/// <summary>
/// Writes the stream of the specified dictionary.
/// </summary>
public void WriteStream(PdfDictionary value, bool omitStream)
{
StackItem stackItem = _stack[_stack.Count - 1];
Debug.Assert(stackItem.Object is PdfDictionary);
Debug.Assert(stackItem.Object.IsIndirect);
stackItem.HasStream = true;
WriteRaw(_lastCat == CharCat.NewLine ? ">>\nstream\n" : " >>\nstream\n");
if (omitStream)
{
WriteRaw(" <20>...stream content omitted...<2E>\n"); // useful for debugging only
}
else
{
byte[] bytes = value.Stream.Value;
if (bytes.Length != 0)
{
if (_securityHandler != null)
{
bytes = (byte[])bytes.Clone();
bytes = _securityHandler.EncryptBytes(bytes);
}
Write(bytes);
if (_lastCat != CharCat.NewLine)
WriteRaw('\n');
}
}
WriteRaw("endstream\n");
}
public void WriteRaw(string rawString)
{
if (String.IsNullOrEmpty(rawString))
return;
byte[] bytes = PdfEncoders.RawEncoding.GetBytes(rawString);
_stream.Write(bytes, 0, bytes.Length);
_lastCat = GetCategory((char)bytes[bytes.Length - 1]);
}
public void WriteRaw(char ch)
{
Debug.Assert(ch < 256, "Raw character greater than 255 detected.");
_stream.WriteByte((byte)ch);
_lastCat = GetCategory(ch);
}
public void Write(byte[] bytes)
{
if (bytes == null || bytes.Length == 0)
return;
_stream.Write(bytes, 0, bytes.Length);
_lastCat = GetCategory((char)bytes[bytes.Length - 1]);
}
void WriteObjectAddress(PdfObject value)
{
if (_layout == PdfWriterLayout.Verbose)
WriteRaw(String.Format("{0} {1} obj % {2}\n",
value.ObjectID.ObjectNumber, value.ObjectID.GenerationNumber,
value.GetType().FullName));
else
WriteRaw(String.Format("{0} {1} obj\n", value.ObjectID.ObjectNumber, value.ObjectID.GenerationNumber));
}
public void WriteFileHeader(PdfDocument document)
{
StringBuilder header = new StringBuilder("%PDF-");
int version = document._version;
header.Append((version / 10).ToString(CultureInfo.InvariantCulture) + "." +
(version % 10).ToString(CultureInfo.InvariantCulture) + "\n%\xD3\xF4\xCC\xE1\n");
WriteRaw(header.ToString());
if (_layout == PdfWriterLayout.Verbose)
{
WriteRaw(String.Format("% PDFsharp Version {0} (verbose mode)\n", VersionInfo.Version));
// Keep some space for later fix-up.
_commentPosition = (int)_stream.Position + 2;
WriteRaw("% \n");
WriteRaw("% \n");
WriteRaw("% \n");
WriteRaw("% \n");
WriteRaw("% \n");
WriteRaw("%--------------------------------------------------------------------------------------------------\n");
}
}
public void WriteEof(PdfDocument document, int startxref)
{
WriteRaw("startxref\n");
WriteRaw(startxref.ToString(CultureInfo.InvariantCulture));
WriteRaw("\n%%EOF\n");
int fileSize = (int)_stream.Position;
if (_layout == PdfWriterLayout.Verbose)
{
TimeSpan duration = DateTime.Now - document._creation;
_stream.Position = _commentPosition;
// Without InvariantCulture parameter the following line fails if the current culture is e.g.
// a Far East culture, because the date string contains non-ASCII characters.
// So never never never never use ToString without a culture info.
WriteRaw("Creation date: " + document._creation.ToString("G", CultureInfo.InvariantCulture));
_stream.Position = _commentPosition + 50;
WriteRaw("Creation time: " + duration.TotalSeconds.ToString("0.000", CultureInfo.InvariantCulture) + " seconds");
_stream.Position = _commentPosition + 100;
WriteRaw("File size: " + fileSize.ToString(CultureInfo.InvariantCulture) + " bytes");
_stream.Position = _commentPosition + 150;
WriteRaw("Pages: " + document.Pages.Count.ToString(CultureInfo.InvariantCulture));
_stream.Position = _commentPosition + 200;
WriteRaw("Objects: " + document._irefTable.ObjectTable.Count.ToString(CultureInfo.InvariantCulture));
}
}
/// <summary>
/// Gets or sets the indentation for a new indentation level.
/// </summary>
internal int Indent
{
get { return _indent; }
set { _indent = value; }
}
int _indent = 2;
int _writeIndent;
/// <summary>
/// Increases indent level.
/// </summary>
void IncreaseIndent()
{
_writeIndent += _indent;
}
/// <summary>
/// Decreases indent level.
/// </summary>
void DecreaseIndent()
{
_writeIndent -= _indent;
}
///// <summary>
///// Returns an indent string of blanks.
///// </summary>
//static string Ind(int _indent)
//{
// return new String(' ', _indent);
//}
/// <summary>
/// Gets an indent string of current indent.
/// </summary>
string IndentBlanks
{
get { return new string(' ', _writeIndent); }
}
void WriteIndent()
{
WriteRaw(IndentBlanks);
}
void WriteSeparator(CharCat cat, char ch)
{
switch (_lastCat)
{
case CharCat.NewLine:
if (_layout == PdfWriterLayout.Verbose)
WriteIndent();
break;
case CharCat.Delimiter:
break;
case CharCat.Character:
if (_layout == PdfWriterLayout.Verbose)
{
//if (cat == CharCat.Character || ch == '/')
_stream.WriteByte((byte)' ');
}
else
{
if (cat == CharCat.Character)
_stream.WriteByte((byte)' ');
}
break;
}
}
void WriteSeparator(CharCat cat)
{
WriteSeparator(cat, '\0');
}
public void NewLine()
{
if (_lastCat != CharCat.NewLine)
WriteRaw('\n');
}
CharCat GetCategory(char ch)
{
if (Lexer.IsDelimiter(ch))
return CharCat.Delimiter;
if (ch == Chars.LF)
return CharCat.NewLine;
return CharCat.Character;
}
enum CharCat
{
NewLine,
Character,
Delimiter,
}
CharCat _lastCat;
/// <summary>
/// Gets the underlying stream.
/// </summary>
internal Stream Stream
{
get { return _stream; }
}
Stream _stream;
internal PdfStandardSecurityHandler SecurityHandler
{
get { return _securityHandler; }
set { _securityHandler = value; }
}
PdfStandardSecurityHandler _securityHandler;
class StackItem
{
public StackItem(PdfObject value)
{
Object = value;
}
public readonly PdfObject Object;
public bool HasStream;
}
readonly List<StackItem> _stack = new List<StackItem>();
int _commentPosition;
}
}