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SynPdf.pas
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SynPdf.pas
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/// PDF file generation
// - this unit is a part of the freeware Synopse framework,
// licensed under a MPL/GPL/LGPL tri-license; version 1.18
unit SynPdf;
{
This file is part of Synopse framework.
Synopse framework. Copyright (c) Arnaud Bouchez
Synopse Informatique - https://synopse.info
*** BEGIN LICENSE BLOCK *****
Version: MPL 1.1/GPL 2.0/LGPL 2.1
The contents of this file are subject to the Mozilla Public License Version
1.1 (the "License"); you may not use this file except in compliance with
the License. You may obtain a copy of the License at
http://www.mozilla.org/MPL
Software distributed under the License is distributed on an "AS IS" basis,
WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
for the specific language governing rights and limitations under the License.
The Original Code is Synopse framework.
The Initial Developer of the Original Code is Arnaud Bouchez.
Portions created by the Initial Developer are Copyright (c)
the Initial Developer. All Rights Reserved.
Contributor(s):
Achim Kalwa
Alexander (chaa)
aweste
CoMPi
Damien (ddemars)
David Mead (MDW)
David Heffernan
FalconB
Florian Grummel
Harald Simon
Josh Kelley (joshkel)
Karel (vandrovnik)
Kukhtin Igor
LoukaO
Marsh
MChaos
Mehrdad Momeni (nosa)
mogulza
Nzsolt
Ondrej (reddwarf)
Pierre le Riche
Sinisa (sinisav)
Sundazer
Alternatively, the contents of this file may be used under the terms of
either the GNU General Public License Version 2 or later (the "GPL"), or
the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
in which case the provisions of the GPL or the LGPL are applicable instead
of those above. If you wish to allow use of your version of this file only
under the terms of either the GPL or the LGPL, and not to allow others to
use your version of this file under the terms of the MPL, indicate your
decision by deleting the provisions above and replace them with the notice
and other provisions required by the GPL or the LGPL. If you do not delete
the provisions above, a recipient may use your version of this file under
the terms of any one of the MPL, the GPL or the LGPL.
***** END LICENSE BLOCK *****
Sponsors: https://synopse.info/fossil/wiki?name=HelpDonate
Ongoing development and maintenance of the SynPDF library was sponsored
in part by:
https://www.helpndoc.com
Easy to use yet powerful help authoring environment which can generate
various documentation formats from a single source.
Thanks for your contribution!
}
{$I Synopse.inc} // define HASINLINE CPU32 CPU64
{$ifndef MSWINDOWS}
{ disable features requiring OS specific APIs
- until they are implemented }
{$define NO_USE_SYNGDIPLUS}
{$define NO_USE_UNISCRIBE}
{$define NO_USE_METAFILE}
{$define NO_USE_BITMAP}
{$endif}
{.$define USE_PDFALEVEL}
{ - if defined, the TPdfDocument*.Create() constructor will have an PDF/A level
value instead of the boolean value PDFA1}
{$ifdef NO_USE_PDFALEVEL}
{ this special conditional can be set globaly for an application which doesn't
need the PDF/A level features }
{$undef USE_PDFALEVEL}
{$endif}
{$define USE_PDFSECURITY}
{ - if defined, the TPdfDocument*.Create() constructor will have an additional
AEncryption: TPdfEncryption parameter able to create secured PDF files
- this feature will link the SynCrypto unit for MD5 and RC4 algorithms }
{$ifdef NO_USE_PDFSECURITY}
{ this special conditional can be set globaly for an application which doesn't
need the security features, therefore dependency to SynCrypto unit }
{$undef USE_PDFSECURITY}
{$endif}
{$define USE_UNISCRIBE}
{ - if defined, the PDF engine will use the Windows Uniscribe API to
render Ordering and Shaping of the text (useful for Hebrew, Arabic and
some Asiatic languages)
- this feature need the TPdfDocument.UseUniscribe property to be forced to
true according to the language of the text you want to render
- can be undefined to safe some KB if you're sure you won't need it }
{$ifdef NO_USE_UNISCRIBE}
{ this special conditional can be set globaly for an application which doesn't
need the UniScribe features }
{$undef USE_UNISCRIBE}
{$endif}
{$define USE_SYNGDIPLUS}
{ - if defined, the PDF engine will use SynGdiPlus to handle all
JPG, TIF, PNG and GIF image types (prefered way, but need XP or later OS)
- if you'd rather use the default jpeg unit (and add some more code to your
executable), undefine this conditional }
{$ifdef NO_USE_SYNGDIPLUS}
{ this special conditional can be set globaly for an application which doesn't
need the SynGdiPlus features (like TMetaFile drawing), and would rather
use the default jpeg unit }
{$undef USE_SYNGDIPLUS}
{$endif}
{$define USE_SYNZIP}
{ - if defined, the PDF engine will use SynZip to handle the ZIP/deflate
compression schema (this unit is faster than the default ZLib unit,
and used by other units of the framework)
- if you'd rather use the default ZLib unit (and add some more code to your
executable), undefine this conditional }
{$ifdef NO_USE_SYNZIP}
{ this special conditional can be set globaly for an application for which
standard ZLib unit is enough (not to be used with a mORMot application) }
{$undef USE_SYNZIP}
{$endif}
{$define USE_BITMAP}
{ - if defined, the PDF engine will support TBitmap
- it would induce a dependency to the VCL.Graphics unit }
{$ifdef NO_USE_BITMAP}
{ this special conditional can be set globaly for an application which doesn't
need the TBitmap features }
{$undef USE_BITMAP}
{$endif}
{$define USE_METAFILE}
{ - if defined, the PDF engine will support TMetaFile/TMetaFileCanvas
- it would induce a dependency to the VCL.Graphics unit }
{$ifdef NO_USE_METAFILE}
{ this special conditional can be set globaly for an application which doesn't
need the TMetaFile features }
{$undef USE_METAFILE}
{$endif}
{$define USE_ARC}
{ - if defined, the PDF engine will support ARC, inducing a dependency to Math.pas }
{$ifdef NO_USE_ARC}
{$undef USE_ARC}
{$endif}
{$ifdef USE_BITMAP}
{$define USE_GRAPHICS_UNIT}
{$endif}
{$ifdef USE_METAFILE}
{$define USE_GRAPHICS_UNIT}
{$endif}
interface
uses
{$ifdef MSWINDOWS}
Windows,
WinSpool,
{$ifdef USE_GRAPHICS_UNIT}
{$ifdef ISDELPHIXE2}
VCL.Graphics,
{$else}
Graphics,
{$endif}
{$endif}
{$endif MSWINDOWS}
{$ifdef USE_SYNGDIPLUS}
SynGdiPlus, // use our GDI+ library for handling TJpegImage and such
{$else}
jpeg,
{$endif}
SysConst,
SysUtils,
Classes,
{$ifdef USE_ARC}
Math,
{$endif}
{$ifdef ISDELPHIXE3}
System.Types,
System.AnsiStrings,
{$else}
{$ifdef HASINLINE}
Types,
{$endif}
{$endif}
{$ifdef USE_SYNZIP}
SynZip,
{$else}
ZLib,
{$endif}
{$ifdef USE_PDFSECURITY}
SynCrypto,
{$endif}
SynCommons,
SynLZ;
const
MWT_IDENTITY = 1;
MWT_LEFTMULTIPLY = 2;
MWT_RIGHTMULTIPLY = 3;
MWT_SET = 4;
{$NODEFINE MWT_IDENTITY}
{$NODEFINE MWT_LEFTMULTIPLY}
{$NODEFINE MWT_RIGHTMULTIPLY}
{ some low-level record definition for True Type format table reading }
type
PSmallIntArray = ^TSmallIntArray;
TSmallIntArray = array[byte] of SmallInt;
PPointArray = ^TPointArray;
TPointArray = array[word] of TPoint;
PSmallPointArray = ^TSmallPointArray;
TSmallPointArray = array[word] of TSmallPoint;
/// The 'cmap' table begins with an index containing the table version number
// followed by the number of encoding tables. The encoding subtables follow.
TCmapHeader = packed record
/// Version number (Set to zero)
version: word;
/// Number of encoding subtables
numberSubtables: word;
end;
/// points to every 'cmap' encoding subtables
TCmapSubTableArray = packed array[byte] of packed record
/// Platform identifier
platformID: word;
/// Platform-specific encoding identifier
platformSpecificID: word;
/// Offset of the mapping table
offset: Cardinal;
end;
/// 'hhea' table contains information needed to layout fonts whose
// characters are written horizontally, that is, either left to right or
// right to left
TCmapHHEA = packed record
version: longint;
ascent: word;
descent: word;
lineGap: word;
advanceWidthMax: word;
minLeftSideBearing: word;
minRightSideBearing: word;
xMaxExtent: word;
caretSlopeRise: SmallInt;
caretSlopeRun: SmallInt;
caretOffset: SmallInt;
reserved: Int64;
metricDataFormat: SmallInt;
numOfLongHorMetrics: word;
end;
/// 'head' table contains global information about the font
TCmapHEAD = packed record
version: longint;
fontRevision: longint;
checkSumAdjustment: cardinal;
magicNumber: cardinal;
flags: word;
unitsPerEm: word;
createdDate: Int64;
modifiedDate: Int64;
xMin: SmallInt;
yMin: SmallInt;
xMax: SmallInt;
yMax: SmallInt;
macStyle: word;
lowestRec: word;
fontDirection: SmallInt;
indexToLocFormat: SmallInt;
glyphDataFormat: SmallInt
end;
/// header for the 'cmap' Format 4 table
// - this is a two-byte encoding format
TCmapFmt4 = packed record
format: word;
length: word;
language: word;
segCountX2: word;
searchRange: word;
entrySelector: word;
rangeShift: word;
end;
type
/// the PDF library use internaly AnsiString text encoding
// - the corresponding charset is the current system charset, or the one
// supplied as a parameter to TPdfDocument.Create
PDFString = AnsiString;
/// a PDF date, encoded as 'D:20100414113241'
TPdfDate = PDFString;
/// the internal pdf file format
TPdfFileFormat = (pdf13, pdf14, pdf15, pdf16);
/// the PDF/A level
TPdfALevel = (pdfaNone, pdfa1A, pdfa1B, pdfa2A, pdfa2B, pdfa3A, pdfa3B);
/// PDF exception, raised when an invalid value is given to a constructor
EPdfInvalidValue = class(Exception);
/// PDF exception, raised when an invalid operation is triggered
EPdfInvalidOperation = class(Exception);
/// Page mode determines how the document should appear when opened
TPdfPageMode = (
pmUseNone, pmUseOutlines, pmUseThumbs, pmFullScreen);
/// Line cap style specifies the shape to be used at the ends of open
// subpaths when they are stroked
TLineCapStyle = (
lcButt_End, lcRound_End, lcProjectingSquareEnd);
/// The line join style specifies the shape to be used at the corners of paths
// that are stroked
TLineJoinStyle = (
ljMiterJoin, ljRoundJoin, ljBevelJoin);
/// The text rendering mode determines whether text is stroked, filled, or used
// as a clipping path
TTextRenderingMode = (
trFill, trStroke, trFillThenStroke, trInvisible,
trFillClipping, trStrokeClipping, trFillStrokeClipping, trClipping);
/// The annotation types determines the valid annotation subtype of TPdfDoc
TPdfAnnotationSubType = (
asTextNotes, asLink);
/// The border style of an annotation
TPdfAnnotationBorder = (
abSolid, abDashed, abBeveled, abInset, abUnderline);
/// Destination Type determines default user space coordinate system of
// Explicit destinations
TPdfDestinationType = (
dtXYZ, dtFit, dtFitH, dtFitV, dtFitR, dtFitB, dtFitBH, dtFitBV);
/// The page layout to be used when the document is opened
TPdfPageLayout = (
plSinglePage, plOneColumn, plTwoColumnLeft, plTwoColumnRight);
/// Viewer preferences specifying how the reader User Interface must start
// - vpEnforcePrintScaling will set the file version to be PDF 1.6
TPdfViewerPreference = (
vpHideToolbar, vpHideMenubar, vpHideWindowUI, vpFitWindow, vpCenterWindow,
vpEnforcePrintScaling);
/// set of Viewer preferences
TPdfViewerPreferences = set of TPdfViewerPreference;
/// available known paper size (psA4 is the default on TPdfDocument creation)
TPDFPaperSize = (
psA4, psA5, psA3, psA2, psA1, psA0, psLetter, psLegal, psUserDefined);
/// define if streams must be compressed
TPdfCompressionMethod = (
cmNone, cmFlateDecode);
/// the available PDF color range
TPdfColor = -$7FFFFFFF-1..$7FFFFFFF;
/// the PDF color, as expressed in RGB terms
// - maps COLORREF / TColorRef as used e.g. under windows
TPdfColorRGB = cardinal;
/// the recognized families of the Standard 14 Fonts
TPdfFontStandard = (pfsTimes, pfsHelvetica, pfsCourier);
/// numerical ID for every XObject
TXObjectID = integer;
const
/// used for an used xref entry
PDF_IN_USE_ENTRY = 'n';
/// used for an unused (free) xref entry, e.g. the root entry
PDF_FREE_ENTRY = 'f';
/// used e.g. for the root xref entry
PDF_MAX_GENERATION_NUM = 65535;
PDF_ENTRY_CLOSED = 0;
PDF_ENTRY_OPENED = 1;
/// the Carriage Return and Line Feed values used in the PDF file generation
// - expect #13 and #10 under Windows, but #10 (e.g. only Line Feed) is enough
// for the PDF standard, and will create somewhat smaller PDF files
CRLF = #10;
/// the Line Feed value
LF = #10;
PDF_MIN_HORIZONTALSCALING = 10;
PDF_MAX_HORIZONTALSCALING = 300;
PDF_MAX_WORDSPACE = 300;
PDF_MIN_CHARSPACE = -30;
PDF_MAX_CHARSPACE = 300;
PDF_MAX_FONTSIZE = 2000;
PDF_MAX_ZOOMSIZE = 10;
PDF_MAX_LEADING = 300;
/// list of common fonts available by default since Windows 2000
// - to not embedd these fonts in the PDF document, and save some KB,
// just use the EmbeddedTTFIgnore property of TPdfDocument/TPdfDocumentGDI:
// ! PdfDocument.EmbeddedTTFIgnore.Text := MSWINDOWS_DEFAULT_FONTS;
// - note that this is useful only if the EmbeddedTTF property was set to TRUE
MSWINDOWS_DEFAULT_FONTS: RawUTF8 =
'Arial'#13#10'Courier New'#13#10'Georgia'#13#10+
'Impact'#13#10'Lucida Console'#13#10'Roman'#13#10'Symbol'#13#10+
'Tahoma'#13#10'Times New Roman'#13#10'Trebuchet'#13#10+
'Verdana'#13#10'WingDings';
type
/// PDF text paragraph alignment
TPdfAlignment = (paLeftJustify, paRightJustify, paCenter);
/// PDF gradient direction
TGradientDirection = (gdHorizontal, gdVertical);
/// a PDF coordinates rectangle
TPdfRect = record
Left, Top, Right, Bottom: Single;
end;
PPdfRect = ^TPdfRect;
/// a PDF coordinates box
TPdfBox = record
Left, Top, Width, Height: Single;
end;
PPdfBox = ^TPdfBox;
/// allowed types for PDF objects (i.e. TPdfObject)
TPdfObjectType = (otDirectObject, otIndirectObject, otVirtualObject);
TPdfObject = class;
TPdfCanvas = class;
TPdfFont = class;
TPdfFontTrueType = class;
TPdfDocument = class;
{$ifdef USE_PDFSECURITY}
/// the available encryption levels
// - in current version only RC4 40-bit and RC4 128-bit are available, which
// correspond respectively to PDF 1.3 and PDF 1.4 formats
// - for RC4 40-bit and RC4 128-bit, associated password are restricted to a
// maximum length of 32 characters and could contain only characters from the
// Latin-1 encoding (i.e. no accent)
TPdfEncryptionLevel = (elNone, elRC4_40, elRC4_128);
/// PDF can encode various restrictions on document operations which can be
// granted or denied individually (some settings depend on others, though):
// - Printing: If printing is not allowed, the print button in Acrobat will be
// disabled. Acrobat supports a distinction between high-resolution and
// low-resolution printing. Low-resolution printing generates a bitmapped
// image of the page which is suitable only for personal use, but prevents
// high-quality reproduction and re-distilling. Note that bitmap printing
// not only results in low output quality, but will also considerably slow
// down the printing process.
// - General Editing: If this is disabled, any document modification is
// prohibited. Content extraction and printing are allowed.
// - Content Copying and Extraction: If this is disabled, selecting document
// contents and copying it to the clipboard for repurposing the contents is
// prohibited. The accessibility interface also is disabled. If you need to
// search such documents with Acrobat you must select the Certified Plugins
// Only preference in Acrobat.
// - Authoring Comments and Form Fields: If this is disabled, adding,
// modifying, or deleting comments and form fields is prohibited. Form field
// filling is allowed.
// - Form Field Fill-in or Signing: If this is enabled, users can sign and
// fill in forms, but not create form fields.
// - Document Assembly: If this is disabled, inserting, deleting or rotating
// pages, or creating bookmarks and thumbnails is prohibited.
TPdfEncryptionPermission = (epPrinting, epGeneralEditing, epContentCopy,
epAuthoringComment, epFillingForms, epContentExtraction,
epDocumentAssembly, epPrintingHighResolution);
/// set of restrictions on PDF document operations
TPdfEncryptionPermissions = set of TPdfEncryptionPermission;
/// abstract class to handle PDF security
TPdfEncryption = class
protected
fLevel: TPdfEncryptionLevel;
fFlags: integer;
fInternalKey: TByteDynArray;
fPermissions: TPdfEncryptionPermissions;
fUserPassword: string;
fOwnerPassword: string;
fDoc: TPdfDocument;
procedure EncodeBuffer(const BufIn; var BufOut; Count: cardinal); virtual; abstract;
public
/// initialize the internal structures with the proper classes
// - do not call this method directly, but class function TPdfEncryption.New()
constructor Create(aLevel: TPdfEncryptionLevel; aPermissions: TPdfEncryptionPermissions;
const aUserPassword, aOwnerPassword: string); virtual;
/// prepare a specific document to be encrypted
// - internally used by TPdfDocument.NewDoc method
procedure AttachDocument(aDoc: TPdfDocument); virtual;
/// will create the expected TPdfEncryption instance, depending on aLevel
// - to be called as parameter of TPdfDocument/TPdfDocumentGDI.Create()
// - currently, only elRC4_40 and elRC4_128 levels are implemented
// - both passwords are expected to be ASCII-7 characters only
// - aUserPassword will be asked at file opening: to be set to '' for not
// blocking display, but optional permission
// - aOwnerPassword shall not be '', and will be used internally to cypher
// the pdf file content
// - aPermissions can be either one of the PDF_PERMISSION_ALL /
// PDF_PERMISSION_NOMODIF / PDF_PERSMISSION_NOPRINT / PDF_PERMISSION_NOCOPY /
// PDF_PERMISSION_NOCOPYNORPRINT set of options
// - typical use may be:
// ! Doc := TPdfDocument.Create(false,0,false,
// ! TPdfEncryption.New(elRC4_40,'','toto',PDF_PERMISSION_NOMODIF));
// ! Doc := TPdfDocument.Create(false,0,false,
// ! TPdfEncryption.New(elRC4_128,'','toto',PDF_PERMISSION_NOCOPYNORPRINT));
class function New(aLevel: TPdfEncryptionLevel;
const aUserPassword, aOwnerPassword: string;
aPermissions: TPdfEncryptionPermissions): TPdfEncryption;
end;
/// internal 32 bytes buffer, used during encryption process
TPdfBuffer32 = array[0..31] of byte;
/// handle PDF security with RC4+MD5 scheme in 40-bit and 128-bit
// - allowed aLevel parameters for Create() are only elRC4_40 and elRC4_128
TPdfEncryptionRC4MD5 = class(TPdfEncryption)
protected
fLastObjectNumber: integer;
fLastGenerationNumber: Integer;
fUserPass, fOwnerPass: TPdfBuffer32;
fLastRC4Key: TRC4;
procedure EncodeBuffer(const BufIn; var BufOut; Count: cardinal); override;
public
/// prepare a specific document to be encrypted
// - will compute the internal keys
procedure AttachDocument(aDoc: TPdfDocument); override;
end;
{$endif USE_PDFSECURITY}
/// buffered writer class, specialized for PDF encoding
TPdfWrite = class
protected
B, BEnd, BEnd4: PAnsiChar;
fDestStream: TStream;
fDestStreamPosition: integer;
fCodePage: integer;
fAddGlyphFont: (fNone, fMain, fFallBack);
fDoc: TPdfDocument;
Tmp: array[0..511] of AnsiChar;
/// internal Ansi->Unicode conversion, using the CodePage used in Create()
// - caller must release the returned memory via FreeMem()
function ToWideChar(const Ansi: PDFString; out DLen: Integer): PWideChar;
{$ifdef USE_UNISCRIBE}
/// internal method using the Windows Uniscribe API
// - return FALSE if PW was not appened to the PDF content, TRUE if OK
function AddUnicodeHexTextUniScribe(PW: PWideChar; WinAnsiTTF: TPdfFontTrueType;
NextLine: boolean; Canvas: TPdfCanvas): boolean;
{$endif}
/// internal method NOT using the Windows Uniscribe API
procedure AddUnicodeHexTextNoUniScribe(PW: PWideChar; TTF: TPdfFontTrueType;
NextLine: boolean; Canvas: TPdfCanvas);
/// internal methods handling font fall-back
procedure AddGlyphFromChar(Char: WideChar; Canvas: TPdfCanvas;
TTF: TPdfFontTrueType; NextLine: PBoolean);
procedure AddGlyphFlush(Canvas: TPdfCanvas; TTF: TPdfFontTrueType; NextLine: PBoolean);
public
/// create the buffered writer, for a specified destination stream
constructor Create(Destination: TPdfDocument; DestStream: TStream);
/// add a character to the buffer
function Add(c: AnsiChar): TPdfWrite; overload; {$ifdef HASINLINE}inline;{$endif}
/// add an integer numerical value to the buffer
function Add(Value: Integer): TPdfWrite; overload;
/// add an integer numerical value to the buffer
// - and append a trailing space
function AddWithSpace(Value: Integer): TPdfWrite; overload;
/// add an integer numerical value to the buffer
// - with a specified fixed number of digits (left filled by '0')
function Add(Value, DigitCount: Integer): TPdfWrite; overload;
/// add a floating point numerical value to the buffer
// - up to 2 decimals are written
function Add(Value: TSynExtended): TPdfWrite; overload;
/// add a floating point numerical value to the buffer
// - up to 2 decimals are written, together with a trailing space
function AddWithSpace(Value: TSynExtended): TPdfWrite; overload;
/// add a floating point numerical value to the buffer
// - this version handles a variable number of decimals, together with
// a trailing space - this is used by ConcatToCTM e.g. or enhanced precision
function AddWithSpace(Value: TSynExtended; Decimals: cardinal): TPdfWrite; overload;
/// direct raw write of some data
// - no conversion is made
function Add(Text: PAnsiChar; Len: integer): TPdfWrite; overload;
/// direct raw write of some data
// - no conversion is made
function Add(const Text: RawByteString): TPdfWrite; overload;
/// hexadecimal write of some row data
// - row data is written as hexadecimal byte values, one by one
function AddHex(const Bin: PDFString): TPdfWrite;
/// add a word value, as Big-Endian 4 hexadecimal characters
function AddHex4(aWordValue: cardinal): TPdfWrite;
/// convert some text into unicode characters, then write it as as Big-Endian
// 4 hexadecimal characters
// - Ansi to Unicode conversion uses the CodePage set by Create() constructor
function AddToUnicodeHex(const Text: PDFString): TPdfWrite;
/// write some unicode text as as Big-Endian 4 hexadecimal characters
function AddUnicodeHex(PW: PWideChar; WideCharCount: integer): TPdfWrite;
/// convert some text into unicode characters, then write it as PDF Text
// - Ansi to Unicode conversion uses the CodePage set by Create() constructor
// - use (...) for all WinAnsi characters, or <..hexa..> for Unicode characters
// - if NextLine is TRUE, the first written PDF Text command is not Tj but '
// - during the text process, corresponding TPdfTrueTypeFont properties are
// updated (Unicode version created if necessary, indicate used glyphs for
// further Font properties writting to the PDF file content...)
// - if the current font is not True Type, all Unicode characters are
// drawn as '?'
function AddToUnicodeHexText(const Text: PDFString; NextLine: boolean;
Canvas: TPdfCanvas): TPdfWrite;
/// write some Unicode text, as PDF text
// - incoming unicode text must end with a #0
// - use (...) for all WinAnsi characters, or <..hexa..> for Unicode characters
// - if NextLine is TRUE, the first written PDF Text command is not Tj but '
// - during the text process, corresponding TPdfTrueTypeFont properties are
// updated (Unicode version created if necessary, indicate used glyphs for
// further Font properties writting to the PDF file content...)
// - if the current font is not True Type, all Unicode characters are
// drawn as '?'
function AddUnicodeHexText(PW: PWideChar; NextLine: boolean;
Canvas: TPdfCanvas): TPdfWrite;
/// write some Unicode text, encoded as Glyphs indexes, corresponding
// to the current font
function AddGlyphs(Glyphs: PWord; GlyphsCount: integer; Canvas: TPdfCanvas;
AVisAttrsPtr: Pointer=nil): TPdfWrite;
/// add some WinAnsi text as PDF text
// - used by TPdfText object
// - will optionally encrypt the content
function AddEscapeContent(const Text: RawByteString): TPdfWrite;
/// add some WinAnsi text as PDF text
// - used by TPdfText object
function AddEscape(Text: PAnsiChar; TextLen: integer): TPdfWrite;
/// add some WinAnsi text as PDF text
// - used by TPdfCanvas.ShowText method for WinAnsi text
function AddEscapeText(Text: PAnsiChar; Font: TPdfFont): TPdfWrite;
/// add some PDF /property value
function AddEscapeName(Text: PAnsiChar): TPdfWrite;
{$ifdef MSWINDOWS}
/// add a PDF color, from its TPdfColorRGB RGB value
function AddColorStr(Color: TPdfColorRGB): TPdfWrite;
{$endif}
/// add a TBitmap.Scanline[] content into the stream
procedure AddRGB(P: PAnsiChar; PInc, Count: integer);
/// add an ISO 8601 encoded date time (e.g. '2010-06-16T15:06:59-07:00')
function AddIso8601(DateTime: TDateTime): TPdfWrite;
/// add an integer value as binary, specifying a storage size in bytes
function AddIntegerBin(value: integer; bytesize: cardinal): TPdfWrite;
public
/// flush the internal buffer to the destination stream
procedure Save; {$ifdef HASINLINE}inline;{$endif}
/// return the current position
// - add the current internal buffer stream position to the destination
// stream position
function Position: Integer; {$ifdef HASINLINE}inline;{$endif}
/// get the data written to the Writer as a PDFString
// - this method could not use Save to flush the data, if all input was
// inside the internal buffer (save some CPU and memory): so don't intend
// the destination stream to be flushed after having called this method
function ToPDFString: PDFString;
end;
/// object manager is a virtual class to manage instance of indirect PDF objects
TPdfObjectMgr = class(TObject)
public
procedure AddObject(AObject: TPdfObject); virtual; abstract;
function GetObject(ObjectID: integer): TPdfObject; virtual; abstract;
end;
/// master class for most PDF objects declaration
TPdfObject = class(TObject)
private
FObjectType: TPdfObjectType;
FObjectNumber: integer;
FGenerationNumber: integer;
FSaveAtTheEnd: boolean;
protected
procedure InternalWriteTo(W: TPdfWrite); virtual;
procedure SetObjectNumber(Value: integer);
function SpaceNotNeeded: boolean; virtual;
public
/// create the PDF object instance
constructor Create; virtual;
/// Write object to specified stream
// - If object is indirect object then write references to stream
procedure WriteTo(var W: TPdfWrite);
/// write indirect object to specified stream
// - this method called by parent object
procedure WriteValueTo(var W: TPdfWrite);
/// low-level force the object to be saved now
// - you should not use this low-level method, unless you want to force
// the FSaveAtTheEnd internal flag to be set to force, so that
// TPdfDocument.SaveToStreamDirectPageFlush would flush the object content
procedure ForceSaveNow;
/// the associated PDF Object Number
// - If you set an object number higher than zero, the object is considered
// as indirect. Otherwise, the object is considered as direct object.
property ObjectNumber: integer read FObjectNumber write SetObjectNumber;
/// the associated PDF Generation Number
property GenerationNumber: integer read FGenerationNumber;
/// the corresponding type of this PDF object
property ObjectType: TPdfObjectType read FObjectType;
end;
/// a virtual PDF object, with an associated PDF Object Number
TPdfVirtualObject = class(TPdfObject)
public
constructor Create(AObjectId: integer); reintroduce;
end;
/// a PDF object, storing a boolean value
TPdfBoolean = class(TPdfObject)
private
FValue: boolean;
protected
procedure InternalWriteTo(W: TPdfWrite); override;
public
constructor Create(AValue: Boolean); reintroduce;
property Value: boolean read FValue write FValue;
end;
/// a PDF object, storing a NULL value
TPdfNull = class(TPdfObject)
protected
procedure InternalWriteTo(W: TPdfWrite); override;
end;
/// a PDF object, storing a numerical (integer) value
TPdfNumber = class(TPdfObject)
private
FValue: integer;
protected
procedure InternalWriteTo(W: TPdfWrite); override;
public
constructor Create(AValue: Integer); reintroduce;
property Value: integer read FValue write FValue;
end;
/// a PDF object, storing a numerical (floating point) value
TPdfReal = class(TPdfObject)
private
FValue: double;
protected
procedure InternalWriteTo(W: TPdfWrite); override;
public
constructor Create(AValue: double); reintroduce;
property Value: double read FValue write FValue;
end;
/// a PDF object, storing a textual value
// - the value is specified as a PDFString
// - this object is stored as '(escapedValue)'
// - in case of MBCS, conversion is made into Unicode before writing, and
// stored as '<FEFFHexUnicodeEncodedValue>'
TPdfText = class(TPdfObject)
private
FValue: RawByteString;
protected
procedure InternalWriteTo(W: TPdfWrite); override;
function SpaceNotNeeded: boolean; override;
public
constructor Create(const AValue: RawByteString); reintroduce;
property Value: RawByteString read FValue write FValue;
end;
/// a PDF object, storing a textual value
// - the value is specified as an UTF-8 encoded string
// - this object is stored as '(escapedValue)'
// - in case characters with ANSI code higher than 8 Bits, conversion is made
// into Unicode before writing, and '<FEFFHexUnicodeEncodedValue>'
TPdfTextUTF8 = class(TPdfObject)
private
FValue: RawUTF8;
protected
procedure InternalWriteTo(W: TPdfWrite); override;
function SpaceNotNeeded: boolean; override;
public
constructor Create(const AValue: RawUTF8); reintroduce;
property Value: RawUTF8 read FValue write FValue;
end;
/// a PDF object, storing a textual value
// - the value is specified as a generic VCL string
// - this object is stored as '(escapedValue)'
// - in case characters with ANSI code higher than 8 Bits, conversion is made
// into Unicode before writing, and '<FEFFHexUnicodeEncodedValue>'
TPdfTextString = class(TPdfTextUTF8)
private
function GetValue: string;
procedure SetValue(const Value: string);
public
constructor Create(const AValue: string); reintroduce;
property Value: string read GetValue write SetValue;
end;
/// a PDF object, storing a raw PDF content
// - this object is stored into the PDF stream as the defined Value
TPdfRawText = class(TPdfText)
protected
function SpaceNotNeeded: boolean; override;
procedure InternalWriteTo(W: TPdfWrite); override;
end;
/// a PDF object, storing a textual value with no encryption
// - the value is specified as a memory buffer
// - this object is stored as '(escapedValue)'
TPdfClearText = class(TPdfText)
protected
procedure InternalWriteTo(W: TPdfWrite); override;
public
constructor Create(Buffer: pointer; Len: integer); reintroduce;
end;
/// a PDF object, storing a PDF name
// - this object is stored as '/Value'
TPdfName = class(TPdfText)
protected
procedure InternalWriteTo(W: TPdfWrite); override;
public
/// append the 'SUBSET+' prefix to the Value
// - used e.g. to notify that a font is included as a subset
function AppendPrefix: RawUtf8;
end;
/// used to store an array of PDF objects
TPdfArray = class(TPdfObject)
private
FArray: TList;
FObjectMgr: TPdfObjectMgr;
function GetItems(Index: integer): TPdfObject; {$ifdef HASINLINE}inline;{$endif}
function GetItemCount: integer; {$ifdef HASINLINE}inline;{$endif}
protected
procedure InternalWriteTo(W: TPdfWrite); override;
function SpaceNotNeeded: boolean; override;
public
/// create an array of PDF objects
constructor Create(AObjectMgr: TPdfObjectMgr); reintroduce; overload;
/// create an array of PDF objects, with some specified TPdfNumber values
constructor Create(AObjectMgr: TPdfObjectMgr;
const AArray: array of Integer); reintroduce; overload;
/// create an array of PDF objects, with some specified TPdfNumber values
constructor Create(AObjectMgr: TPdfObjectMgr;
AArray: PWordArray; AArrayCount: integer); reintroduce; overload;
/// create an array of PDF objects, with some specified TPdfName values
constructor CreateNames(AObjectMgr: TPdfObjectMgr;
const AArray: array of PDFString); reintroduce; overload;
/// create an array of PDF objects, with some specified TPdfReal values
constructor CreateReals(AObjectMgr: TPdfObjectMgr;
const AArray: array of double); reintroduce; overload;
/// release the instance memory, and all embedded objects instances
destructor Destroy; override;
/// Add a PDF object to the array
// - if AItem already exists, do nothing
function AddItem(AItem: TPdfObject): integer;
/// insert a PDF object to the array
// - if AItem already exists, do nothing
procedure InsertItem(Index: Integer; AItem: TPdfObject);
/// retrieve a TPDFName object stored in the array
function FindName(const AName: PDFString): TPdfName;
/// remove a specified TPDFName object stored in the array
function RemoveName(const AName: PDFString): boolean;
/// retrieve an object instance, stored in the array
property Items[Index: integer]: TPdfObject read GetItems; default;
/// retrieve the array size
property ItemCount: integer read GetItemCount;
/// the associated PDF Object Manager
property ObjectMgr: TPdfObjectMgr read FObjectMgr;
/// direct access to the internal TList instance
// - not to be used normally
property List: TList read FArray;
end;
/// PDF dictionary element definition
TPdfDictionaryElement = class(TObject)
private
FKey: TPdfName;
FValue: TPdfObject;
FIsInternal: boolean;
function GetKey: PDFString;
public
/// create the corresponding Key / Value pair
constructor Create(const AKey: PDFString; AValue: TPdfObject; AInternal: Boolean=false);
/// release the element instance, and both associated Key and Value
destructor Destroy; override;
/// the associated Key Name
property Key: PDFString read GetKey;
/// the associated Value stored in this element
property Value: TPdfObject read FValue;
/// if this element was created as internal, i.e. not to be saved to the PDF content
property IsInternal: boolean read FIsInternal;
end;
/// a PDF Dictionary is used to manage Key / Value pairs
TPdfDictionary = class(TPdfObject)
private
FArray: TList;
FObjectMgr: TPdfObjectMgr;
function GetItems(Index: integer): TPdfDictionaryElement; {$ifdef HASINLINE}inline;{$endif}
function GetItemCount: integer; {$ifdef HASINLINE}inline;{$endif}
protected
function getTypeOf: PDFString;
function SpaceNotNeeded: boolean; override;
procedure DirectWriteto(W: TPdfWrite; Secondary: TPdfDictionary);
procedure InternalWriteTo(W: TPdfWrite); override;
public
/// create the PDF dictionary
constructor Create(AObjectMgr: TPdfObjectMgr); reintroduce;
/// release the dictionay instance, and all associated elements
destructor Destroy; override;
/// fast find a value by its name
function ValueByName(const AKey: PDFString): TPdfObject;
/// fast find a boolean value by its name
function PdfBooleanByName(const AKey: PDFString): TPdfBoolean; {$ifdef HASINLINE}inline;{$endif}
/// fast find a numerical (integer) value by its name
function PdfNumberByName(const AKey: PDFString): TPdfNumber; {$ifdef HASINLINE}inline;{$endif}
/// fast find a textual value by its name
function PdfTextByName(const AKey: PDFString): TPdfText; {$ifdef HASINLINE}inline;{$endif}
/// fast find a textual value by its name
// - return '' if not found, the TPdfText.Value otherwise
function PdfTextValueByName(const AKey: PDFString): PDFString; {$ifdef HASINLINE}inline;{$endif}
/// fast find a textual value by its name
// - return '' if not found, the TPdfTextUTF8.Value otherwise
function PdfTextUTF8ValueByName(const AKey: PDFString): RawUTF8; {$ifdef HASINLINE}inline;{$endif}
/// fast find a textual value by its name
// - return '' if not found, the TPdfTextString.Value otherwise
function PdfTextStringValueByName(const AKey: PDFString): string; {$ifdef HASINLINE}inline;{$endif}
/// fast find a numerical (floating-point) value by its name
function PdfRealByName(const AKey: PDFString): TPdfReal; {$ifdef HASINLINE}inline;{$endif}
/// fast find a name value by its name
function PdfNameByName(const AKey: PDFString): TPdfName; {$ifdef HASINLINE}inline;{$endif}
/// fast find a dictionary value by its name
function PdfDictionaryByName(const AKey: PDFString): TPdfDictionary; {$ifdef HASINLINE}inline;{$endif}
/// fast find an array value by its name
function PdfArrayByName(const AKey: PDFString): TPdfArray; {$ifdef HASINLINE}inline;{$endif}
/// add a specified Key / Value pair to the dictionary
// - create PdfDictionaryElement with given key and value, and add it to list
// - if the element exists, replace value of element by given value
// - internal items are local to the framework, and not to be saved to the PDF content
procedure AddItem(const AKey: PDFString; AValue: TPdfObject; AInternal: Boolean=false); overload;
/// add a specified Key / Value pair (of type TPdfName) to the dictionary
procedure AddItem(const AKey, AValue: PDFString); overload; {$ifdef HASINLINE}inline;{$endif}
/// add a specified Key / Value pair (of type TPdfNumber) to the dictionary
procedure AddItem(const AKey: PDFString; AValue: integer); overload; {$ifdef HASINLINE}inline;{$endif}
/// add a specified Key / Value pair (of type TPdfText) to the dictionary
procedure AddItemText(const AKey, AValue: PDFString); overload; {$ifdef HASINLINE}inline;{$endif}
/// add a specified Key / Value pair (of type TPdfTextUTF8) to the dictionary
// - the value can be any UTF-8 encoded text: it will be written as
// Unicode hexadecimal to the PDF stream, if necessary
procedure AddItemTextUTF8(const AKey: PDFString; const AValue: RawUTF8); overload;
{$ifdef HASINLINE}inline;{$endif}
/// add a specified Key / Value pair (of type TPdfTextUTF8) to the dictionary
// - the value is a generic VCL string: it will be written as
// Unicode hexadecimal to the PDF stream, if necessary
procedure AddItemTextString(const AKey: PDFString; const AValue: string); overload;
{$ifdef HASINLINE}inline;{$endif}
/// remove the element specified by its Key from the dictionary
// - if the element does not exist, do nothing
procedure RemoveItem(const AKey: PDFString);
/// retrieve any dictionary element
property Items[Index: integer]: TPdfDictionaryElement read GetItems; default;
/// retrieve the dictionary element count
property ItemCount: integer read GetItemCount;
/// retrieve the associated Object Manager
property ObjectMgr: TPdfObjectMgr read FObjectMgr;
/// retrieve the type of the pdfdictionary object, i.e. the 'Type' property name
property TypeOf: PDFString read getTypeOf;
/// direct access to the internal TList instance
// - not to be used normally
property List: TList read FArray;
end;