From 6e7b96ca3a7d47b0441bed904a9b8bb25c3223de Mon Sep 17 00:00:00 2001 From: jaybinks Date: Wed, 12 Sep 2007 12:43:38 +0000 Subject: * added missed dependency PNGImage. * moved FUNCTION InitializePaths(), from uFiles to uMain as this is a more sane location for it. * updated files that used UFiles to point to UMain, and removed uFiles where its not needed. git-svn-id: svn://svn.code.sf.net/p/ultrastardx/svn/trunk@385 b956fd51-792f-4845-bead-9b4dfca2ff2c --- Game/Code/lib/PngImage/Tpngimage.DPK | 34 + Game/Code/lib/PngImage/Tpngimage.bdsproj | 177 + Game/Code/lib/PngImage/Tpngimage.bdsproj.local | 2 + Game/Code/lib/PngImage/Tpngimage.cfg | 40 + Game/Code/lib/PngImage/Tpngimage.dcu | Bin 0 -> 1140 bytes Game/Code/lib/PngImage/Tpngimage.dof | 136 + Game/Code/lib/PngImage/Tpngimage.drc | 62 + Game/Code/lib/PngImage/Tpngimage.res | Bin 0 -> 1536 bytes Game/Code/lib/PngImage/Tpngimage.stat | 10 + Game/Code/lib/PngImage/obj/adler32.obj | Bin 0 -> 602 bytes Game/Code/lib/PngImage/obj/deflate.obj | Bin 0 -> 6993 bytes Game/Code/lib/PngImage/obj/infblock.obj | Bin 0 -> 5347 bytes Game/Code/lib/PngImage/obj/infcodes.obj | Bin 0 -> 3600 bytes Game/Code/lib/PngImage/obj/inffast.obj | Bin 0 -> 2323 bytes Game/Code/lib/PngImage/obj/inflate.obj | Bin 0 -> 3188 bytes Game/Code/lib/PngImage/obj/inftrees.obj | Bin 0 -> 7995 bytes Game/Code/lib/PngImage/obj/infutil.obj | Bin 0 -> 1339 bytes Game/Code/lib/PngImage/obj/trees.obj | Bin 0 -> 11623 bytes Game/Code/lib/PngImage/pngimage.chm | Bin 0 -> 162254 bytes Game/Code/lib/PngImage/pngimage.dcu | Bin 0 -> 91395 bytes Game/Code/lib/PngImage/pngimage.pas | 5205 ++++++++++++++++++++++++ Game/Code/lib/PngImage/pngimage.~pas | 5205 ++++++++++++++++++++++++ Game/Code/lib/PngImage/pnglang.dcu | Bin 0 -> 4226 bytes Game/Code/lib/PngImage/pnglang.pas | 301 ++ Game/Code/lib/PngImage/pngzlib.dcu | Bin 0 -> 37565 bytes Game/Code/lib/PngImage/pngzlib.pas | 169 + 26 files changed, 11341 insertions(+) create mode 100644 Game/Code/lib/PngImage/Tpngimage.DPK create mode 100644 Game/Code/lib/PngImage/Tpngimage.bdsproj create mode 100644 Game/Code/lib/PngImage/Tpngimage.bdsproj.local create mode 100644 Game/Code/lib/PngImage/Tpngimage.cfg create mode 100644 Game/Code/lib/PngImage/Tpngimage.dcu create mode 100644 Game/Code/lib/PngImage/Tpngimage.dof create mode 100644 Game/Code/lib/PngImage/Tpngimage.drc create mode 100644 Game/Code/lib/PngImage/Tpngimage.res create mode 100644 Game/Code/lib/PngImage/Tpngimage.stat create mode 100644 Game/Code/lib/PngImage/obj/adler32.obj create mode 100644 Game/Code/lib/PngImage/obj/deflate.obj create mode 100644 Game/Code/lib/PngImage/obj/infblock.obj create mode 100644 Game/Code/lib/PngImage/obj/infcodes.obj create mode 100644 Game/Code/lib/PngImage/obj/inffast.obj create mode 100644 Game/Code/lib/PngImage/obj/inflate.obj create mode 100644 Game/Code/lib/PngImage/obj/inftrees.obj create mode 100644 Game/Code/lib/PngImage/obj/infutil.obj create mode 100644 Game/Code/lib/PngImage/obj/trees.obj create mode 100644 Game/Code/lib/PngImage/pngimage.chm create mode 100644 Game/Code/lib/PngImage/pngimage.dcu create mode 100644 Game/Code/lib/PngImage/pngimage.pas create mode 100644 Game/Code/lib/PngImage/pngimage.~pas create mode 100644 Game/Code/lib/PngImage/pnglang.dcu create mode 100644 Game/Code/lib/PngImage/pnglang.pas create mode 100644 Game/Code/lib/PngImage/pngzlib.dcu create mode 100644 Game/Code/lib/PngImage/pngzlib.pas (limited to 'Game/Code/lib/PngImage') diff --git a/Game/Code/lib/PngImage/Tpngimage.DPK b/Game/Code/lib/PngImage/Tpngimage.DPK new file mode 100644 index 00000000..b9c395f4 --- /dev/null +++ b/Game/Code/lib/PngImage/Tpngimage.DPK @@ -0,0 +1,34 @@ +package Tpngimage; + +{$R *.res} +{$ALIGN 8} +{$ASSERTIONS ON} +{$BOOLEVAL OFF} +{$DEBUGINFO ON} +{$EXTENDEDSYNTAX ON} +{$IMPORTEDDATA ON} +{$IOCHECKS ON} +{$LOCALSYMBOLS ON} +{$LONGSTRINGS ON} +{$OPENSTRINGS ON} +{$OPTIMIZATION ON} +{$OVERFLOWCHECKS OFF} +{$RANGECHECKS OFF} +{$REFERENCEINFO ON} +{$SAFEDIVIDE OFF} +{$STACKFRAMES OFF} +{$TYPEDADDRESS OFF} +{$VARSTRINGCHECKS ON} +{$WRITEABLECONST OFF} +{$MINENUMSIZE 1} +{$IMAGEBASE $400000} +{$IMPLICITBUILD OFF} + +requires + rtl, + vcl; + +contains + pngimage in 'pngimage.pas'; + +end. diff --git a/Game/Code/lib/PngImage/Tpngimage.bdsproj b/Game/Code/lib/PngImage/Tpngimage.bdsproj new file mode 100644 index 00000000..b7a30970 --- /dev/null +++ b/Game/Code/lib/PngImage/Tpngimage.bdsproj @@ -0,0 +1,177 @@ + + + + + + + + + + + + Tpngimage.DPK + + + 7.0 + + + 8 + 0 + 1 + 1 + 0 + 0 + 1 + 1 + 1 + 0 + 0 + 1 + 0 + 1 + 1 + 1 + 0 + 0 + 0 + 0 + 0 + 1 + 0 + 1 + 1 + 1 + True + True + WinTypes=Windows;WinProcs=Windows;DbiTypes=BDE;DbiProcs=BDE;DbiErrs=BDE; + + False + + True + True + True + True + True + True + True + True + True + True + True + True + True + True + True + True + True + True + True + True + True + True + True + True + True + True + True + True + True + True + True + True + True + True + True + True + True + True + True + True + True + True + True + True + True + True + True + False + False + False + True + True + True True + True + + + + 3 + 0 + 1 + False + False + False + 16384 + 1048576 + 4194304 + False + + + + + + + + + + + False + + + + + + False + + + + + + False + True + False + + + + $00000000 + C:\Program Files\Borland\Delphi7\Bin\ + + + True + False + 1 + 0 + 0 + 0 + False + False + False + False + False + 1033 + 1252 + + + + + 1.0.0.0 + + + + + + 1.0.0.0 + + + + diff --git a/Game/Code/lib/PngImage/Tpngimage.bdsproj.local b/Game/Code/lib/PngImage/Tpngimage.bdsproj.local new file mode 100644 index 00000000..d576f039 --- /dev/null +++ b/Game/Code/lib/PngImage/Tpngimage.bdsproj.local @@ -0,0 +1,2 @@ + + diff --git a/Game/Code/lib/PngImage/Tpngimage.cfg b/Game/Code/lib/PngImage/Tpngimage.cfg new file mode 100644 index 00000000..4a78a005 --- /dev/null +++ b/Game/Code/lib/PngImage/Tpngimage.cfg @@ -0,0 +1,40 @@ +-$A8 +-$B- +-$C+ +-$D+ +-$E- +-$F- +-$G+ +-$H+ +-$I+ +-$J- +-$K- +-$L+ +-$M- +-$N+ +-$O+ +-$P+ +-$Q- +-$R- +-$S- +-$T- +-$U- +-$V+ +-$W- +-$X+ +-$YD +-$Z1 +-GD +-cg +-AWinTypes=Windows;WinProcs=Windows;DbiTypes=BDE;DbiProcs=BDE;DbiErrs=BDE; +-H+ +-W+ +-M +-$M16384,1048576 +-K$00400000 +-LE"C:\Documents and Settings\Jay Binks\My Documents\Borland Studio Projects\Bpl" +-LN"C:\Documents and Settings\Jay Binks\My Documents\Borland Studio Projects\Bpl" +-Z +-w-UNSAFE_TYPE +-w-UNSAFE_CODE +-w-UNSAFE_CAST diff --git a/Game/Code/lib/PngImage/Tpngimage.dcu b/Game/Code/lib/PngImage/Tpngimage.dcu new file mode 100644 index 00000000..8cbbd152 Binary files /dev/null and b/Game/Code/lib/PngImage/Tpngimage.dcu differ diff --git a/Game/Code/lib/PngImage/Tpngimage.dof b/Game/Code/lib/PngImage/Tpngimage.dof new file mode 100644 index 00000000..45e43c01 --- /dev/null +++ b/Game/Code/lib/PngImage/Tpngimage.dof @@ -0,0 +1,136 @@ +[FileVersion] +Version=7.0 +[Compiler] +A=8 +B=0 +C=1 +D=1 +E=0 +F=0 +G=1 +H=1 +I=1 +J=0 +K=0 +L=1 +M=0 +N=1 +O=1 +P=1 +Q=0 +R=0 +S=0 +T=0 +U=0 +V=1 +W=0 +X=1 +Y=1 +Z=1 +ShowHints=1 +ShowWarnings=1 +UnitAliases=WinTypes=Windows;WinProcs=Windows;DbiTypes=BDE;DbiProcs=BDE;DbiErrs=BDE; +NamespacePrefix= +SymbolDeprecated=1 +SymbolLibrary=1 +SymbolPlatform=1 +UnitLibrary=1 +UnitPlatform=1 +UnitDeprecated=1 +HResultCompat=1 +HidingMember=1 +HiddenVirtual=1 +Garbage=1 +BoundsError=1 +ZeroNilCompat=1 +StringConstTruncated=1 +ForLoopVarVarPar=1 +TypedConstVarPar=1 +AsgToTypedConst=1 +CaseLabelRange=1 +ForVariable=1 +ConstructingAbstract=1 +ComparisonFalse=1 +ComparisonTrue=1 +ComparingSignedUnsigned=1 +CombiningSignedUnsigned=1 +UnsupportedConstruct=1 +FileOpen=1 +FileOpenUnitSrc=1 +BadGlobalSymbol=1 +DuplicateConstructorDestructor=1 +InvalidDirective=1 +PackageNoLink=1 +PackageThreadVar=1 +ImplicitImport=1 +HPPEMITIgnored=1 +NoRetVal=1 +UseBeforeDef=1 +ForLoopVarUndef=1 +UnitNameMismatch=1 +NoCFGFileFound=1 +MessageDirective=1 +ImplicitVariants=1 +UnicodeToLocale=1 +LocaleToUnicode=1 +ImagebaseMultiple=1 +SuspiciousTypecast=1 +PrivatePropAccessor=1 +UnsafeType=0 +UnsafeCode=0 +UnsafeCast=0 +[Linker] +MapFile=0 +OutputObjs=0 +ConsoleApp=1 +DebugInfo=0 +RemoteSymbols=0 +MinStackSize=16384 +MaxStackSize=1048576 +ImageBase=4194304 +ExeDescription= +[Directories] +OutputDir= +UnitOutputDir= +PackageDLLOutputDir= +PackageDCPOutputDir= +SearchPath= +Packages=vcl;rtl;vclx;VclSmp;vclshlctrls;VirtualTreesD7;Tpngimage;THTTPGet;XmlComponents_D6;EmbWb;TINetDetector;FolderDialog;Indy70;madBasic_;madHelp_;madDisAsm_;madExcept_;madRemote_;madKernel_;madCodeHook_;madSecurity_;madShell_;TRegs32;Progress;TTRAYICON;TXPPanel;DelphiX_for5 +Conditionals= +DebugSourceDirs= +UsePackages=0 +[Parameters] +RunParams= +HostApplication= +Launcher= +UseLauncher=0 +DebugCWD= +[Language] +ActiveLang= +ProjectLang= +RootDir=C:\Program Files\Borland\Delphi7\Bin\ +[Version Info] +IncludeVerInfo=1 +AutoIncBuild=0 +MajorVer=1 +MinorVer=0 +Release=0 +Build=0 +Debug=0 +PreRelease=0 +Special=0 +Private=0 +DLL=0 +Locale=1033 +CodePage=1252 +[Version Info Keys] +CompanyName= +FileDescription= +FileVersion=1.0.0.0 +InternalName= +LegalCopyright= +LegalTrademarks= +OriginalFilename= +ProductName= +ProductVersion=1.0.0.0 +Comments= diff --git a/Game/Code/lib/PngImage/Tpngimage.drc b/Game/Code/lib/PngImage/Tpngimage.drc new file mode 100644 index 00000000..52d3a522 --- /dev/null +++ b/Game/Code/lib/PngImage/Tpngimage.drc @@ -0,0 +1,62 @@ +/* VER180 + Generated by the Borland Delphi Pascal Compiler + because -GD or --drc was supplied to the compiler. + + This file contains compiler-generated resources that + were bound to the executable. + If this file is empty, then no compiler-generated + resources were bound to the produced executable. +*/ + +#define pnglang_EPNGNoImageDataText 65504 +#define pnglang_EPNGCannotChangeSizeText 65505 +#define pnglang_EPNGCannotAddChunkText 65506 +#define pnglang_EPNGCannotAddInvalidImageText 65507 +#define pnglang_EPNGCouldNotLoadResourceText 65508 +#define pnglang_EPNGOutMemoryText 65509 +#define pnglang_EPNGCannotChangeTransparentText 65510 +#define pnglang_EPNGHeaderNotPresentText 65511 +#define pnglang_EPngInvalidCRCText 65520 +#define pnglang_EPNGInvalidIHDRText 65521 +#define pnglang_EPNGMissingMultipleIDATText 65522 +#define pnglang_EPNGZLIBErrorText 65523 +#define pnglang_EPNGInvalidPaletteText 65524 +#define pnglang_EPNGInvalidFileHeaderText 65525 +#define pnglang_EPNGIHDRNotFirstText 65526 +#define pnglang_EPNGNotExistsText 65527 +#define pnglang_EPNGSizeExceedsText 65528 +#define pnglang_EPNGUnknownPalEntryText 65529 +#define pnglang_EPNGMissingPaletteText 65530 +#define pnglang_EPNGUnknownCriticalChunkText 65531 +#define pnglang_EPNGUnknownCompressionText 65532 +#define pnglang_EPNGUnknownInterlaceText 65533 +#define pnglang_EPNGCannotAssignChunkText 65534 +#define pnglang_EPNGUnexpectedEndText 65535 +STRINGTABLE +BEGIN + pnglang_EPNGNoImageDataText, "This \"Portable Network Graphics\" image contains no data." + pnglang_EPNGCannotChangeSizeText, "The \"Portable Network Graphics\" image can not be resize by changing width and height properties. Try assigning the image from a bitmap." + pnglang_EPNGCannotAddChunkText, "The program tried to add a existent critical chunk to the current image which is not allowed." + pnglang_EPNGCannotAddInvalidImageText, "It's not allowed to add a new chunk because the current image is invalid." + pnglang_EPNGCouldNotLoadResourceText, "The png image could not be loaded from the resource ID." + pnglang_EPNGOutMemoryText, "Some operation could not be performed because the system is out of resources. Close some windows and try again." + pnglang_EPNGCannotChangeTransparentText, "Setting bit transparency color is not allowed for png images containing alpha value for each pixel (COLOR_RGBALPHA and COLOR_GRAYSCALEALPHA)" + pnglang_EPNGHeaderNotPresentText, "This operation is not valid because the current image contains no valid header." + pnglang_EPngInvalidCRCText, "This \"Portable Network Graphics\" image is not valid because it contains invalid pieces of data (crc error)" + pnglang_EPNGInvalidIHDRText, "The \"Portable Network Graphics\" image could not be loaded because one of its main piece of data (ihdr) might be corrupted" + pnglang_EPNGMissingMultipleIDATText, "This \"Portable Network Graphics\" image is invalid because it has missing image parts." + pnglang_EPNGZLIBErrorText, "Could not decompress the image because it contains invalid compressed data.\r\n Description: " + pnglang_EPNGInvalidPaletteText, "The \"Portable Network Graphics\" image contains an invalid palette." + pnglang_EPNGInvalidFileHeaderText, "The file being readed is not a valid \"Portable Network Graphics\" image because it contains an invalid header. This file may be corruped, try obtaining it again." + pnglang_EPNGIHDRNotFirstText, "This \"Portable Network Graphics\" image is not supported or it might be invalid.\r\n(IHDR chunk is not the first)" + pnglang_EPNGNotExistsText, "The png file could not be loaded because it does not exists." + pnglang_EPNGSizeExceedsText, "This \"Portable Network Graphics\" image is not supported because either it's width or height exceeds the maximum size, which is 65535 pixels length." + pnglang_EPNGUnknownPalEntryText, "There is no such palette entry." + pnglang_EPNGMissingPaletteText, "This \"Portable Network Graphics\" could not be loaded because it uses a color table which is missing." + pnglang_EPNGUnknownCriticalChunkText, "This \"Portable Network Graphics\" image contains an unknown critical part which could not be decoded." + pnglang_EPNGUnknownCompressionText, "This \"Portable Network Graphics\" image is encoded with an unknown compression scheme which could not be decoded." + pnglang_EPNGUnknownInterlaceText, "This \"Portable Network Graphics\" image uses an unknown interlace scheme which could not be decoded." + pnglang_EPNGCannotAssignChunkText, "The chunks must be compatible to be assigned." + pnglang_EPNGUnexpectedEndText, "This \"Portable Network Graphics\" image is invalid because the decoder found an unexpected end of the file." +END + diff --git a/Game/Code/lib/PngImage/Tpngimage.res b/Game/Code/lib/PngImage/Tpngimage.res new file mode 100644 index 00000000..aac9aa64 Binary files /dev/null and b/Game/Code/lib/PngImage/Tpngimage.res differ diff --git a/Game/Code/lib/PngImage/Tpngimage.stat b/Game/Code/lib/PngImage/Tpngimage.stat new file mode 100644 index 00000000..57f32789 --- /dev/null +++ b/Game/Code/lib/PngImage/Tpngimage.stat @@ -0,0 +1,10 @@ +[Stats] +EditorSecs=3 +DesignerSecs=1 +InspectorSecs=1 +CompileSecs=1542 +OtherSecs=11 +StartTime=5/6/2004 7:36:05 PM +RealKeys=0 +EffectiveKeys=0 +DebugSecs=1 diff --git a/Game/Code/lib/PngImage/obj/adler32.obj b/Game/Code/lib/PngImage/obj/adler32.obj new file mode 100644 index 00000000..7da9fd19 Binary files /dev/null and b/Game/Code/lib/PngImage/obj/adler32.obj differ diff --git a/Game/Code/lib/PngImage/obj/deflate.obj b/Game/Code/lib/PngImage/obj/deflate.obj new file mode 100644 index 00000000..804e9334 Binary files /dev/null and b/Game/Code/lib/PngImage/obj/deflate.obj differ diff --git a/Game/Code/lib/PngImage/obj/infblock.obj b/Game/Code/lib/PngImage/obj/infblock.obj new file mode 100644 index 00000000..3bc38e41 Binary files /dev/null and b/Game/Code/lib/PngImage/obj/infblock.obj differ diff --git a/Game/Code/lib/PngImage/obj/infcodes.obj b/Game/Code/lib/PngImage/obj/infcodes.obj new file mode 100644 index 00000000..faec2222 Binary files /dev/null and b/Game/Code/lib/PngImage/obj/infcodes.obj differ diff --git a/Game/Code/lib/PngImage/obj/inffast.obj b/Game/Code/lib/PngImage/obj/inffast.obj new file mode 100644 index 00000000..62e18ceb Binary files /dev/null and b/Game/Code/lib/PngImage/obj/inffast.obj differ diff --git a/Game/Code/lib/PngImage/obj/inflate.obj b/Game/Code/lib/PngImage/obj/inflate.obj new file mode 100644 index 00000000..7dc522e0 Binary files /dev/null and b/Game/Code/lib/PngImage/obj/inflate.obj differ diff --git a/Game/Code/lib/PngImage/obj/inftrees.obj b/Game/Code/lib/PngImage/obj/inftrees.obj new file mode 100644 index 00000000..5755233f Binary files /dev/null and b/Game/Code/lib/PngImage/obj/inftrees.obj differ diff --git a/Game/Code/lib/PngImage/obj/infutil.obj b/Game/Code/lib/PngImage/obj/infutil.obj new file mode 100644 index 00000000..7e175a83 Binary files /dev/null and b/Game/Code/lib/PngImage/obj/infutil.obj differ diff --git a/Game/Code/lib/PngImage/obj/trees.obj b/Game/Code/lib/PngImage/obj/trees.obj new file mode 100644 index 00000000..81f05568 Binary files /dev/null and b/Game/Code/lib/PngImage/obj/trees.obj differ diff --git a/Game/Code/lib/PngImage/pngimage.chm b/Game/Code/lib/PngImage/pngimage.chm new file mode 100644 index 00000000..c7e51b2e Binary files /dev/null and b/Game/Code/lib/PngImage/pngimage.chm differ diff --git a/Game/Code/lib/PngImage/pngimage.dcu b/Game/Code/lib/PngImage/pngimage.dcu new file mode 100644 index 00000000..633a7430 Binary files /dev/null and b/Game/Code/lib/PngImage/pngimage.dcu differ diff --git a/Game/Code/lib/PngImage/pngimage.pas b/Game/Code/lib/PngImage/pngimage.pas new file mode 100644 index 00000000..ec712737 --- /dev/null +++ b/Game/Code/lib/PngImage/pngimage.pas @@ -0,0 +1,5205 @@ +{Portable Network Graphics Delphi 1.4361 (8 March 2003) } + +{This is the latest implementation for TPngImage component } +{It's meant to be a full replacement for the previous one. } +{There are lots of new improvements, including cleaner code, } +{full partial transparency support, speed improvements, } +{saving using ADAM 7 interlacing, better error handling, also } +{the best compression for the final image ever. And now it's } +{truly able to read about any png image. } + +{ + Version 1.4361 + 2003-03-04 - Fixed important bug for simple transparency when using + RGB, Grayscale color modes + + Version 1.436 + 2003-03-04 - * NEW * Property Pixels for direct access to pixels + * IMPROVED * Palette property (TPngObject) (read only) + Slovenian traslation for the component (Miha Petelin) + Help file update (scanline article/png->jpg example) + + Version 1.435 + 2003-11-03 - * NEW * New chunk implementation zTXt (method AddzTXt) + * NEW * New compiler flags to store the extra 8 bits + from 16 bits samples (when saving it is ignored), the + extra data may be acessed using ExtraScanline property + * Fixed * a bug on tIMe chunk + French translation included (Thanks to IBE Software) + Bugs fixed + + Version 1.432 + 2002-08-24 - * NEW * A new method, CreateAlpha will transform the + current image into partial transparency. + Help file updated with a new article on how to handle + partial transparency. + + Version 1.431 + 2002-08-14 - Fixed and tested to work on: + C++ Builder 3 + C++ Builder 5 + Delphi 3 + There was an error when setting TransparentColor, fixed + New method, RemoveTransparency to remove image + BIT TRANSPARENCY + + Version 1.43 + 2002-08-01 - * NEW * Support for Delphi 3 and C++ Builder 3 + Implements mostly some things that were missing, + a few tweaks and fixes. + + Version 1.428 + 2002-07-24 - More minor fixes (thanks to Ian Boyd) + Bit transparency fixes + * NEW * Finally support to bit transparency + (palette / rgb / grayscale -> all) + + Version 1.427 + 2002-07-19 - Lots of bugs and leaks fixed + * NEW * method to easy adding text comments, AddtEXt + * NEW * property for setting bit transparency, + TransparentColor + + Version 1.426 + 2002-07-18 - Clipboard finally fixed (hope) + Changed UseDelphi trigger to UseDelphi + * NEW * Support for bit transparency bitmaps + when assigning from/to TBitmap objects + Altough it does not support drawing transparent + parts of bit transparency pngs (only partial) + it is closer than ever + + Version 1.425 + 2002-07-01 - Clipboard methods implemented + Lots of bugs fixed + + Version 1.424 + 2002-05-16 - Scanline and AlphaScanline are now working correctly. + New methods for handling the clipboard + + Version 1.423 + 2002-05-16 - * NEW * Partial transparency for 1, 2, 4 and 8 bits is + also supported using the tRNS chunk (for palette and + grayscaling). + New bug fixes (Peter Haas). + + Version 1.422 + 2002-05-14 - Fixed some critical leaks, thanks to Peter Haas tips. + New translation for German (Peter Haas). + + Version 1.421 + 2002-05-06 - Now uses new ZLIB version, 1.1.4 with some security + fixes. + LoadFromResourceID and LoadFromResourceName added and + help file updated for that. + The resources strings are now located in pnglang.pas. + New translation for Brazilian Portuguese. + Bugs fixed. + + IMPORTANT: I'm currently looking for bugs on the library. If + anyone has found one, please send me an email and + I will fix right away. Thanks for all the help and + ideias I'm receiving so far.} + +{My new email is: gubadaud@terra.com.br} +{Website link : pngdelphi.sourceforge.net} +{Gustavo Huffenbacher Daud} + +unit pngimage; + +interface + +{Triggers avaliable (edit the fields bellow)} +{$DEFINE UseDelphi} //Disable fat vcl units (perfect to small apps) +{$DEFINE ErrorOnUnknownCritical} //Error when finds an unknown critical chunk +{$DEFINE CheckCRC} //Enables CRC checking +{$DEFINE RegisterGraphic} //Registers TPNGObject to use with TPicture +{$DEFINE PartialTransparentDraw} //Draws partial transparent images +{.$DEFINE Store16bits} //Stores the extra 8 bits from 16bits/sample +{.$DEFINE Debug} //For programming purposes +{$RANGECHECKS OFF} {$J+} + + + +uses + Windows {$IFDEF UseDelphi}, Classes, Graphics, SysUtils{$ENDIF} {$IFDEF Debug}, + dialogs{$ENDIF}, pngzlib, pnglang; + +{$IFNDEF UseDelphi} + const + soFromBeginning = 0; + soFromCurrent = 1; + soFromEnd = 2; +{$ENDIF} + +const + {ZLIB constants} + ZLIBErrors: Array[-6..2] of string = ('incompatible version (-6)', + 'buffer error (-5)', 'insufficient memory (-4)', 'data error (-3)', + 'stream error (-2)', 'file error (-1)', '(0)', 'stream end (1)', + 'need dictionary (2)'); + Z_NO_FLUSH = 0; + Z_FINISH = 4; + Z_STREAM_END = 1; + + {Avaliable PNG filters for mode 0} + FILTER_NONE = 0; + FILTER_SUB = 1; + FILTER_UP = 2; + FILTER_AVERAGE = 3; + FILTER_PAETH = 4; + + {Avaliable color modes for PNG} + COLOR_GRAYSCALE = 0; + COLOR_RGB = 2; + COLOR_PALETTE = 3; + COLOR_GRAYSCALEALPHA = 4; + COLOR_RGBALPHA = 6; + + +type + {$IFNDEF UseDelphi} + {Custom exception handler} + Exception = class(TObject) + constructor Create(Msg: String); + end; + ExceptClass = class of Exception; + TColor = ColorRef; + {$ENDIF} + + {Error types} + EPNGOutMemory = class(Exception); + EPngError = class(Exception); + EPngUnexpectedEnd = class(Exception); + EPngInvalidCRC = class(Exception); + EPngInvalidIHDR = class(Exception); + EPNGMissingMultipleIDAT = class(Exception); + EPNGZLIBError = class(Exception); + EPNGInvalidPalette = class(Exception); + EPNGInvalidFileHeader = class(Exception); + EPNGIHDRNotFirst = class(Exception); + EPNGNotExists = class(Exception); + EPNGSizeExceeds = class(Exception); + EPNGMissingPalette = class(Exception); + EPNGUnknownCriticalChunk = class(Exception); + EPNGUnknownCompression = class(Exception); + EPNGUnknownInterlace = class(Exception); + EPNGNoImageData = class(Exception); + EPNGCouldNotLoadResource = class(Exception); + EPNGCannotChangeTransparent = class(Exception); + EPNGHeaderNotPresent = class(Exception); + +type + {Direct access to pixels using R,G,B} + TRGBLine = array[word] of TRGBTriple; + pRGBLine = ^TRGBLine; + + {Same as TBitmapInfo but with allocated space for} + {palette entries} + TMAXBITMAPINFO = packed record + bmiHeader: TBitmapInfoHeader; + bmiColors: packed array[0..255] of TRGBQuad; + end; + + {Transparency mode for pngs} + TPNGTransparencyMode = (ptmNone, ptmBit, ptmPartial); + {Pointer to a cardinal type} + pCardinal = ^Cardinal; + {Access to a rgb pixel} + pRGBPixel = ^TRGBPixel; + TRGBPixel = packed record + B, G, R: Byte; + end; + + {Pointer to an array of bytes type} + TByteArray = Array[Word] of Byte; + pByteArray = ^TByteArray; + + {Forward} + TPNGObject = class; + pPointerArray = ^TPointerArray; + TPointerArray = Array[Word] of Pointer; + + {Contains a list of objects} + TPNGPointerList = class + private + fOwner: TPNGObject; + fCount : Cardinal; + fMemory: pPointerArray; + function GetItem(Index: Cardinal): Pointer; + procedure SetItem(Index: Cardinal; const Value: Pointer); + protected + {Removes an item} + function Remove(Value: Pointer): Pointer; virtual; + {Inserts an item} + procedure Insert(Value: Pointer; Position: Cardinal); + {Add a new item} + procedure Add(Value: Pointer); + {Returns an item} + property Item[Index: Cardinal]: Pointer read GetItem write SetItem; + {Set the size of the list} + procedure SetSize(const Size: Cardinal); + {Returns owner} + property Owner: TPNGObject read fOwner; + public + {Returns number of items} + property Count: Cardinal read fCount write SetSize; + {Object being either created or destroyed} + constructor Create(AOwner: TPNGObject); + destructor Destroy; override; + end; + + {Forward declaration} + TChunk = class; + TChunkClass = class of TChunk; + + {Same as TPNGPointerList but providing typecasted values} + TPNGList = class(TPNGPointerList) + private + {Used with property Item} + function GetItem(Index: Cardinal): TChunk; + public + {Removes an item} + procedure RemoveChunk(Chunk: TChunk); overload; + {Add a new chunk using the class from the parameter} + function Add(ChunkClass: TChunkClass): TChunk; + {Returns pointer to the first chunk of class} + function ItemFromClass(ChunkClass: TChunkClass): TChunk; + {Returns a chunk item from the list} + property Item[Index: Cardinal]: TChunk read GetItem; + end; + + {$IFNDEF UseDelphi} + {The STREAMs bellow are only needed in case delphi provided ones is not} + {avaliable (UseDelphi trigger not set)} + {Object becomes handles} + TCanvas = THandle; + TBitmap = HBitmap; + {Trick to work} + TPersistent = TObject; + + {Base class for all streams} + TStream = class + protected + {Returning/setting size} + function GetSize: Longint; virtual; + procedure SetSize(const Value: Longint); virtual; abstract; + {Returns/set position} + function GetPosition: Longint; virtual; + procedure SetPosition(const Value: Longint); virtual; + public + {Returns/sets current position} + property Position: Longint read GetPosition write SetPosition; + {Property returns/sets size} + property Size: Longint read GetSize write SetSize; + {Allows reading/writing data} + function Read(var Buffer; Count: Longint): Cardinal; virtual; abstract; + function Write(const Buffer; Count: Longint): Cardinal; virtual; abstract; + {Copies from another Stream} + function CopyFrom(Source: TStream; + Count: Cardinal): Cardinal; virtual; + {Seeks a stream position} + function Seek(Offset: Longint; Origin: Word): Longint; virtual; abstract; + end; + + {File stream modes} + TFileStreamMode = (fsmRead, fsmWrite, fsmCreate); + TFileStreamModeSet = set of TFileStreamMode; + + {File stream for reading from files} + TFileStream = class(TStream) + private + {Opened mode} + Filemode: TFileStreamModeSet; + {Handle} + fHandle: THandle; + protected + {Set the size of the file} + procedure SetSize(const Value: Longint); override; + public + {Seeks a file position} + function Seek(Offset: Longint; Origin: Word): Longint; override; + {Reads/writes data from/to the file} + function Read(var Buffer; Count: Longint): Cardinal; override; + function Write(const Buffer; Count: Longint): Cardinal; override; + {Stream being created and destroy} + constructor Create(Filename: String; Mode: TFileStreamModeSet); + destructor Destroy; override; + end; + + {Stream for reading from resources} + TResourceStream = class(TStream) + constructor Create(Instance: HInst; const ResName: String; ResType:PChar); + private + {Variables for reading} + Size: Integer; + Memory: Pointer; + Position: Integer; + protected + {Set the size of the file} + procedure SetSize(const Value: Longint); override; + public + {Stream processing} + function Read(var Buffer; Count: Integer): Cardinal; override; + function Seek(Offset: Integer; Origin: Word): Longint; override; + function Write(const Buffer; Count: Longint): Cardinal; override; + end; + {$ENDIF} + + {Forward} + TChunkIHDR = class; + {Interlace method} + TInterlaceMethod = (imNone, imAdam7); + {Compression level type} + TCompressionLevel = 0..9; + {Filters type} + TFilter = (pfNone, pfSub, pfUp, pfAverage, pfPaeth); + TFilters = set of TFilter; + + {Png implementation object} + TPngObject = class{$IFDEF UseDelphi}(TGraphic){$ENDIF} + protected + {Gamma table values} + GammaTable, InverseGamma: Array[Byte] of Byte; + procedure InitializeGamma; + private + {Temporary palette} + TempPalette: HPalette; + {Filters to test to encode} + fFilters: TFilters; + {Compression level for ZLIB} + fCompressionLevel: TCompressionLevel; + {Maximum size for IDAT chunks} + fMaxIdatSize: Cardinal; + {Returns if image is interlaced} + fInterlaceMethod: TInterlaceMethod; + {Chunks object} + fChunkList: TPngList; + {Clear all chunks in the list} + procedure ClearChunks; + {Returns if header is present} + function HeaderPresent: Boolean; + {Returns linesize and byte offset for pixels} + procedure GetPixelInfo(var LineSize, Offset: Cardinal); + procedure SetMaxIdatSize(const Value: Cardinal); + function GetAlphaScanline(const LineIndex: Integer): pByteArray; + function GetScanline(const LineIndex: Integer): Pointer; + {$IFDEF Store16bits} + function GetExtraScanline(const LineIndex: Integer): Pointer; + {$ENDIF} + function GetTransparencyMode: TPNGTransparencyMode; + function GetTransparentColor: TColor; + procedure SetTransparentColor(const Value: TColor); + protected + {Returns the image palette} + function GetPalette: HPALETTE; {$IFDEF UseDelphi}override;{$ENDIF} + {Returns/sets image width and height} + function GetWidth: Integer; {$IFDEF UseDelphi}override;{$ENDIF} + function GetHeight: Integer; {$IFDEF UseDelphi}override; {$ENDIF} + procedure SetWidth(Value: Integer); {$IFDEF UseDelphi}override; {$ENDIF} + procedure SetHeight(Value: Integer); {$IFDEF UseDelphi}override;{$ENDIF} + {Assigns from another TPNGObject} + procedure AssignPNG(Source: TPNGObject); + {Returns if the image is empty} + function GetEmpty: Boolean; {$IFDEF UseDelphi}override; {$ENDIF} + {Used with property Header} + function GetHeader: TChunkIHDR; + {Draws using partial transparency} + procedure DrawPartialTrans(DC: HDC; Rect: TRect); + {$IFDEF UseDelphi} + {Returns if the image is transparent} + function GetTransparent: Boolean; override; + {$ENDIF} + {Returns a pixel} + function GetPixels(const X, Y: Integer): TColor; virtual; + procedure SetPixels(const X, Y: Integer; const Value: TColor); virtual; + public + {Generates alpha information} + procedure CreateAlpha; + {Removes the image transparency} + procedure RemoveTransparency; + {Transparent color} + property TransparentColor: TColor read GetTransparentColor write + SetTransparentColor; + {Add text chunk, TChunkTEXT, TChunkzTXT} + procedure AddtEXt(const Keyword, Text: String); + procedure AddzTXt(const Keyword, Text: String); + {$IFDEF UseDelphi} + {Saves to clipboard format (thanks to Antoine Pottern)} + procedure SaveToClipboardFormat(var AFormat: Word; var AData: THandle; + var APalette: HPalette); override; + procedure LoadFromClipboardFormat(AFormat: Word; AData: THandle; + APalette: HPalette); override; + {$ENDIF} + {Calling errors} + procedure RaiseError(ExceptionClass: ExceptClass; Text: String); + {Returns a scanline from png} + property Scanline[const Index: Integer]: Pointer read GetScanline; + {$IFDEF Store16bits} + property ExtraScanline[const Index: Integer]: Pointer read GetExtraScanline; + {$ENDIF} + property AlphaScanline[const Index: Integer]: pByteArray read GetAlphaScanline; + {Returns pointer to the header} + property Header: TChunkIHDR read GetHeader; + {Returns the transparency mode used by this png} + property TransparencyMode: TPNGTransparencyMode read GetTransparencyMode; + {Assigns from another object} + procedure Assign(Source: TPersistent);{$IFDEF UseDelphi}override;{$ENDIF} + {Assigns to another object} + procedure AssignTo(Dest: TPersistent);{$IFDEF UseDelphi}override;{$ENDIF} + {Assigns from a windows bitmap handle} + procedure AssignHandle(Handle: HBitmap; Transparent: Boolean; + TransparentColor: ColorRef); + {Draws the image into a canvas} + procedure Draw(ACanvas: TCanvas; const Rect: TRect); + {$IFDEF UseDelphi}override;{$ENDIF} + {Width and height properties} + property Width: Integer read GetWidth; + property Height: Integer read GetHeight; + {Returns if the image is interlaced} + property InterlaceMethod: TInterlaceMethod read fInterlaceMethod + write fInterlaceMethod; + {Filters to test to encode} + property Filters: TFilters read fFilters write fFilters; + {Maximum size for IDAT chunks, default and minimum is 65536} + property MaxIdatSize: Cardinal read fMaxIdatSize write SetMaxIdatSize; + {Property to return if the image is empty or not} + property Empty: Boolean read GetEmpty; + {Compression level} + property CompressionLevel: TCompressionLevel read fCompressionLevel + write fCompressionLevel; + {Access to the chunk list} + property Chunks: TPngList read fChunkList; + {Object being created and destroyed} + constructor Create; {$IFDEF UseDelphi}override;{$ENDIF} + destructor Destroy; override; + {$IFNDEF UseDelphi}procedure LoadFromFile(const Filename: String);{$ENDIF} + {$IFNDEF UseDelphi}procedure SaveToFile(const Filename: String);{$ENDIF} + procedure LoadFromStream(Stream: TStream); {$IFDEF UseDelphi}override;{$ENDIF} + procedure SaveToStream(Stream: TStream); {$IFDEF UseDelphi}override;{$ENDIF} + {Loading the image from resources} + procedure LoadFromResourceName(Instance: HInst; const Name: String); + procedure LoadFromResourceID(Instance: HInst; ResID: Integer); + {Access to the png pixels} + property Pixels[const X, Y: Integer]: TColor read GetPixels write SetPixels; + {Palette property} + {$IFNDEF UseDelphi}property Palette: HPalette read GetPalette;{$ENDIF} + end; + + {Chunk name object} + TChunkName = Array[0..3] of Char; + + {Global chunk object} + TChunk = class + private + {Contains data} + fData: Pointer; + fDataSize: Cardinal; + {Stores owner} + fOwner: TPngObject; + {Stores the chunk name} + fName: TChunkName; + {Returns pointer to the TChunkIHDR} + function GetHeader: TChunkIHDR; + {Used with property index} + function GetIndex: Integer; + {Should return chunk class/name} + class function GetName: String; virtual; + {Returns the chunk name} + function GetChunkName: String; + public + {Returns index from list} + property Index: Integer read GetIndex; + {Returns pointer to the TChunkIHDR} + property Header: TChunkIHDR read GetHeader; + {Resize the data} + procedure ResizeData(const NewSize: Cardinal); + {Returns data and size} + property Data: Pointer read fData; + property DataSize: Cardinal read fDataSize; + {Assigns from another TChunk} + procedure Assign(Source: TChunk); virtual; + {Returns owner} + property Owner: TPngObject read fOwner; + {Being destroyed/created} + constructor Create(Owner: TPngObject); virtual; + destructor Destroy; override; + {Returns chunk class/name} + property Name: String read GetChunkName; + {Loads the chunk from a stream} + function LoadFromStream(Stream: TStream; const ChunkName: TChunkName; + Size: Integer): Boolean; virtual; + {Saves the chunk to a stream} + function SaveData(Stream: TStream): Boolean; + function SaveToStream(Stream: TStream): Boolean; virtual; + end; + + {Chunk classes} + TChunkIEND = class(TChunk); {End chunk} + + {IHDR data} + pIHDRData = ^TIHDRData; + TIHDRData = packed record + Width, Height: Cardinal; + BitDepth, + ColorType, + CompressionMethod, + FilterMethod, + InterlaceMethod: Byte; + end; + + {Information header chunk} + TChunkIHDR = class(TChunk) + private + {Current image} + ImageHandle: HBitmap; + ImageDC: HDC; + + {Output windows bitmap} + HasPalette: Boolean; + BitmapInfo: TMaxBitmapInfo; + BytesPerRow: Integer; + {Stores the image bytes} + {$IFDEF Store16bits}ExtraImageData: Pointer;{$ENDIF} + ImageData: pointer; + ImageAlpha: Pointer; + + {Contains all the ihdr data} + IHDRData: TIHDRData; + protected + {Resizes the image data to fill the color type, bit depth, } + {width and height parameters} + procedure PrepareImageData; + {Release allocated ImageData memory} + procedure FreeImageData; + public + {Properties} + property Width: Cardinal read IHDRData.Width write IHDRData.Width; + property Height: Cardinal read IHDRData.Height write IHDRData.Height; + property BitDepth: Byte read IHDRData.BitDepth write IHDRData.BitDepth; + property ColorType: Byte read IHDRData.ColorType write IHDRData.ColorType; + property CompressionMethod: Byte read IHDRData.CompressionMethod + write IHDRData.CompressionMethod; + property FilterMethod: Byte read IHDRData.FilterMethod + write IHDRData.FilterMethod; + property InterlaceMethod: Byte read IHDRData.InterlaceMethod + write IHDRData.InterlaceMethod; + {Loads the chunk from a stream} + function LoadFromStream(Stream: TStream; const ChunkName: TChunkName; + Size: Integer): Boolean; override; + {Saves the chunk to a stream} + function SaveToStream(Stream: TStream): Boolean; override; + {Destructor/constructor} + constructor Create(Owner: TPngObject); override; + destructor Destroy; override; + {Assigns from another TChunk} + procedure Assign(Source: TChunk); override; + end; + + {Gamma chunk} + TChunkgAMA = class(TChunk) + private + {Returns/sets the value for the gamma chunk} + function GetValue: Cardinal; + procedure SetValue(const Value: Cardinal); + public + {Returns/sets gamma value} + property Gamma: Cardinal read GetValue write SetValue; + {Loading the chunk from a stream} + function LoadFromStream(Stream: TStream; const ChunkName: TChunkName; + Size: Integer): Boolean; override; + {Being created} + constructor Create(Owner: TPngObject); override; + {Assigns from another TChunk} + procedure Assign(Source: TChunk); override; + end; + + {ZLIB Decompression extra information} + TZStreamRec2 = packed record + {From ZLIB} + ZLIB: TZStreamRec; + {Additional info} + Data: Pointer; + fStream : TStream; + end; + + {Palette chunk} + TChunkPLTE = class(TChunk) + private + {Number of items in the palette} + fCount: Integer; + {Contains the palette handle} + function GetPaletteItem(Index: Byte): TRGBQuad; + public + {Returns the color for each item in the palette} + property Item[Index: Byte]: TRGBQuad read GetPaletteItem; + {Returns the number of items in the palette} + property Count: Integer read fCount; + {Loads the chunk from a stream} + function LoadFromStream(Stream: TStream; const ChunkName: TChunkName; + Size: Integer): Boolean; override; + {Saves the chunk to a stream} + function SaveToStream(Stream: TStream): Boolean; override; + {Assigns from another TChunk} + procedure Assign(Source: TChunk); override; + end; + + {Transparency information} + TChunktRNS = class(TChunk) + private + fBitTransparency: Boolean; + function GetTransparentColor: ColorRef; + {Returns the transparent color} + procedure SetTransparentColor(const Value: ColorRef); + public + {Palette values for transparency} + PaletteValues: Array[Byte] of Byte; + {Returns if it uses bit transparency} + property BitTransparency: Boolean read fBitTransparency; + {Returns the transparent color} + property TransparentColor: ColorRef read GetTransparentColor write + SetTransparentColor; + {Loads/saves the chunk from/to a stream} + function LoadFromStream(Stream: TStream; const ChunkName: TChunkName; + Size: Integer): Boolean; override; + function SaveToStream(Stream: TStream): Boolean; override; + {Assigns from another TChunk} + procedure Assign(Source: TChunk); override; + end; + + {Actual image information} + TChunkIDAT = class(TChunk) + private + {Holds another pointer to the TChunkIHDR} + Header: TChunkIHDR; + {Stores temporary image width and height} + ImageWidth, ImageHeight: Integer; + {Size in bytes of each line and offset} + Row_Bytes, Offset : Cardinal; + {Contains data for the lines} + Encode_Buffer: Array[0..5] of pByteArray; + Row_Buffer: Array[Boolean] of pByteArray; + {Variable to invert the Row_Buffer used} + RowUsed: Boolean; + {Ending position for the current IDAT chunk} + EndPos: Integer; + {Filter the current line} + procedure FilterRow; + {Filter to encode and returns the best filter} + function FilterToEncode: Byte; + {Reads ZLIB compressed data} + function IDATZlibRead(var ZLIBStream: TZStreamRec2; Buffer: Pointer; + Count: Integer; var EndPos: Integer; var crcfile: Cardinal): Integer; + {Compress and writes IDAT data} + procedure IDATZlibWrite(var ZLIBStream: TZStreamRec2; Buffer: Pointer; + const Length: Cardinal); + procedure FinishIDATZlib(var ZLIBStream: TZStreamRec2); + {Prepares the palette} + procedure PreparePalette; + protected + {Decode interlaced image} + procedure DecodeInterlacedAdam7(Stream: TStream; + var ZLIBStream: TZStreamRec2; const Size: Integer; var crcfile: Cardinal); + {Decode non interlaced imaged} + procedure DecodeNonInterlaced(Stream: TStream; + var ZLIBStream: TZStreamRec2; const Size: Integer; + var crcfile: Cardinal); + protected + {Encode non interlaced images} + procedure EncodeNonInterlaced(Stream: TStream; + var ZLIBStream: TZStreamRec2); + {Encode interlaced images} + procedure EncodeInterlacedAdam7(Stream: TStream; + var ZLIBStream: TZStreamRec2); + protected + {Memory copy methods to decode} + procedure CopyNonInterlacedRGB8( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyNonInterlacedRGB16( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyNonInterlacedPalette148( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyNonInterlacedPalette2( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyNonInterlacedGray2( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyNonInterlacedGrayscale16( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyNonInterlacedRGBAlpha8( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyNonInterlacedRGBAlpha16( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyNonInterlacedGrayscaleAlpha8( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyNonInterlacedGrayscaleAlpha16( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyInterlacedRGB8(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyInterlacedRGB16(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyInterlacedPalette148(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyInterlacedPalette2(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyInterlacedGray2(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyInterlacedGrayscale16(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyInterlacedRGBAlpha8(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyInterlacedRGBAlpha16(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyInterlacedGrayscaleAlpha8(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyInterlacedGrayscaleAlpha16(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + protected + {Memory copy methods to encode} + procedure EncodeNonInterlacedRGB8(Src, Dest, Trans: pChar); + procedure EncodeNonInterlacedRGB16(Src, Dest, Trans: pChar); + procedure EncodeNonInterlacedGrayscale16(Src, Dest, Trans: pChar); + procedure EncodeNonInterlacedPalette148(Src, Dest, Trans: pChar); + procedure EncodeNonInterlacedRGBAlpha8(Src, Dest, Trans: pChar); + procedure EncodeNonInterlacedRGBAlpha16(Src, Dest, Trans: pChar); + procedure EncodeNonInterlacedGrayscaleAlpha8(Src, Dest, Trans: pChar); + procedure EncodeNonInterlacedGrayscaleAlpha16(Src, Dest, Trans: pChar); + procedure EncodeInterlacedRGB8(const Pass: Byte; Src, Dest, Trans: pChar); + procedure EncodeInterlacedRGB16(const Pass: Byte; Src, Dest, Trans: pChar); + procedure EncodeInterlacedPalette148(const Pass: Byte; + Src, Dest, Trans: pChar); + procedure EncodeInterlacedGrayscale16(const Pass: Byte; + Src, Dest, Trans: pChar); + procedure EncodeInterlacedRGBAlpha8(const Pass: Byte; + Src, Dest, Trans: pChar); + procedure EncodeInterlacedRGBAlpha16(const Pass: Byte; + Src, Dest, Trans: pChar); + procedure EncodeInterlacedGrayscaleAlpha8(const Pass: Byte; + Src, Dest, Trans: pChar); + procedure EncodeInterlacedGrayscaleAlpha16(const Pass: Byte; + Src, Dest, Trans: pChar); + public + {Loads the chunk from a stream} + function LoadFromStream(Stream: TStream; const ChunkName: TChunkName; + Size: Integer): Boolean; override; + {Saves the chunk to a stream} + function SaveToStream(Stream: TStream): Boolean; override; + end; + + {Image last modification chunk} + TChunktIME = class(TChunk) + private + {Holds the variables} + fYear: Word; + fMonth, fDay, fHour, fMinute, fSecond: Byte; + public + {Returns/sets variables} + property Year: Word read fYear write fYear; + property Month: Byte read fMonth write fMonth; + property Day: Byte read fDay write fDay; + property Hour: Byte read fHour write fHour; + property Minute: Byte read fMinute write fMinute; + property Second: Byte read fSecond write fSecond; + {Loads the chunk from a stream} + function LoadFromStream(Stream: TStream; const ChunkName: TChunkName; + Size: Integer): Boolean; override; + {Saves the chunk to a stream} + function SaveToStream(Stream: TStream): Boolean; override; + end; + + {Textual data} + TChunktEXt = class(TChunk) + private + fKeyword, fText: String; + public + {Keyword and text} + property Keyword: String read fKeyword write fKeyword; + property Text: String read fText write fText; + {Loads the chunk from a stream} + function LoadFromStream(Stream: TStream; const ChunkName: TChunkName; + Size: Integer): Boolean; override; + {Saves the chunk to a stream} + function SaveToStream(Stream: TStream): Boolean; override; + {Assigns from another TChunk} + procedure Assign(Source: TChunk); override; + end; + + {zTXT chunk} + TChunkzTXt = class(TChunktEXt) + {Loads the chunk from a stream} + function LoadFromStream(Stream: TStream; const ChunkName: TChunkName; + Size: Integer): Boolean; override; + {Saves the chunk to a stream} + function SaveToStream(Stream: TStream): Boolean; override; + end; + +{Here we test if it's c++ builder or delphi version 3 or less} +{$IFDEF VER110}{$DEFINE DelphiBuilder3Less}{$ENDIF} +{$IFDEF VER100}{$DEFINE DelphiBuilder3Less}{$ENDIF} +{$IFDEF VER93}{$DEFINE DelphiBuilder3Less}{$ENDIF} +{$IFDEF VER90}{$DEFINE DelphiBuilder3Less}{$ENDIF} +{$IFDEF VER80}{$DEFINE DelphiBuilder3Less}{$ENDIF} + + +{Registers a new chunk class} +procedure RegisterChunk(ChunkClass: TChunkClass); +{Calculates crc} +function update_crc(crc: {$IFNDEF DelphiBuilder3Less}Cardinal{$ELSE}Integer + {$ENDIF}; buf: pByteArray; len: Integer): Cardinal; +{Invert bytes using assembly} +function ByteSwap(const a: integer): integer; + +implementation + +var + ChunkClasses: TPngPointerList; + {Table of CRCs of all 8-bit messages} + crc_table: Array[0..255] of Cardinal; + {Flag: has the table been computed? Initially false} + crc_table_computed: Boolean; + +{Draw transparent image using transparent color} +procedure DrawTransparentBitmap(dc: HDC; srcBits: Pointer; + var srcHeader: TBitmapInfoHeader; + srcBitmapInfo: pBitmapInfo; Rect: TRect; cTransparentColor: COLORREF); +var + cColor: COLORREF; + bmAndBack, bmAndObject, bmAndMem: HBITMAP; + bmBackOld, bmObjectOld, bmMemOld: HBITMAP; + hdcMem, hdcBack, hdcObject, hdcTemp: HDC; + ptSize, orgSize: TPOINT; + OldBitmap, DrawBitmap: HBITMAP; +begin + hdcTemp := CreateCompatibleDC(dc); + // Select the bitmap + DrawBitmap := CreateDIBitmap(dc, srcHeader, CBM_INIT, srcBits, srcBitmapInfo^, + DIB_RGB_COLORS); + OldBitmap := SelectObject(hdcTemp, DrawBitmap); + + // Sizes + OrgSize.x := abs(srcHeader.biWidth); + OrgSize.y := abs(srcHeader.biHeight); + ptSize.x := Rect.Right - Rect.Left; // Get width of bitmap + ptSize.y := Rect.Bottom - Rect.Top; // Get height of bitmap + + // Create some DCs to hold temporary data. + hdcBack := CreateCompatibleDC(dc); + hdcObject := CreateCompatibleDC(dc); + hdcMem := CreateCompatibleDC(dc); + + // Create a bitmap for each DC. DCs are required for a number of + // GDI functions. + + // Monochrome DCs + bmAndBack := CreateBitmap(ptSize.x, ptSize.y, 1, 1, nil); + bmAndObject := CreateBitmap(ptSize.x, ptSize.y, 1, 1, nil); + + bmAndMem := CreateCompatibleBitmap(dc, ptSize.x, ptSize.y); + + // Each DC must select a bitmap object to store pixel data. + bmBackOld := SelectObject(hdcBack, bmAndBack); + bmObjectOld := SelectObject(hdcObject, bmAndObject); + bmMemOld := SelectObject(hdcMem, bmAndMem); + + // Set the background color of the source DC to the color. + // contained in the parts of the bitmap that should be transparent + cColor := SetBkColor(hdcTemp, cTransparentColor); + + // Create the object mask for the bitmap by performing a BitBlt + // from the source bitmap to a monochrome bitmap. + StretchBlt(hdcObject, 0, 0, ptSize.x, ptSize.y, hdcTemp, 0, 0, + orgSize.x, orgSize.y, SRCCOPY); + + // Set the background color of the source DC back to the original + // color. + SetBkColor(hdcTemp, cColor); + + // Create the inverse of the object mask. + BitBlt(hdcBack, 0, 0, ptSize.x, ptSize.y, hdcObject, 0, 0, + NOTSRCCOPY); + + // Copy the background of the main DC to the destination. + BitBlt(hdcMem, 0, 0, ptSize.x, ptSize.y, dc, Rect.Left, Rect.Top, + SRCCOPY); + + // Mask out the places where the bitmap will be placed. + BitBlt(hdcMem, 0, 0, ptSize.x, ptSize.y, hdcObject, 0, 0, SRCAND); + + // Mask out the transparent colored pixels on the bitmap. +// BitBlt(hdcTemp, 0, 0, ptSize.x, ptSize.y, hdcBack, 0, 0, SRCAND); + StretchBlt(hdcTemp, 0, 0, OrgSize.x, OrgSize.y, hdcBack, 0, 0, + PtSize.x, PtSize.y, SRCAND); + + // XOR the bitmap with the background on the destination DC. + StretchBlt(hdcMem, 0, 0, ptSize.x, ptSize.y, hdcTemp, 0, 0, + OrgSize.x, OrgSize.y, SRCPAINT); + + // Copy the destination to the screen. + BitBlt(dc, Rect.Left, Rect.Top, ptSize.x, ptSize.y, hdcMem, 0, 0, + SRCCOPY); + + // Delete the memory bitmaps. + DeleteObject(SelectObject(hdcBack, bmBackOld)); + DeleteObject(SelectObject(hdcObject, bmObjectOld)); + DeleteObject(SelectObject(hdcMem, bmMemOld)); + DeleteObject(SelectObject(hdcTemp, OldBitmap)); + + // Delete the memory DCs. + DeleteDC(hdcMem); + DeleteDC(hdcBack); + DeleteDC(hdcObject); + DeleteDC(hdcTemp); +end; + +{Make the table for a fast CRC.} +procedure make_crc_table; +var + c: Cardinal; + n, k: Integer; +begin + + {fill the crc table} + for n := 0 to 255 do + begin + c := Cardinal(n); + for k := 0 to 7 do + begin + if Boolean(c and 1) then + c := $edb88320 xor (c shr 1) + else + c := c shr 1; + end; + crc_table[n] := c; + end; + + {The table has already being computated} + crc_table_computed := true; +end; + +{Update a running CRC with the bytes buf[0..len-1]--the CRC + should be initialized to all 1's, and the transmitted value + is the 1's complement of the final running CRC (see the + crc() routine below)).} +function update_crc(crc: {$IFNDEF DelphiBuilder3Less}Cardinal{$ELSE}Integer + {$ENDIF}; buf: pByteArray; len: Integer): Cardinal; +var + c: Cardinal; + n: Integer; +begin + c := crc; + + {Create the crc table in case it has not being computed yet} + if not crc_table_computed then make_crc_table; + + {Update} + for n := 0 to len - 1 do + c := crc_table[(c XOR buf^[n]) and $FF] XOR (c shr 8); + + {Returns} + Result := c; +end; + +{$IFNDEF UseDelphi} + function FileExists(Filename: String): Boolean; + var + FindFile: THandle; + FindData: TWin32FindData; + begin + FindFile := FindFirstFile(PChar(Filename), FindData); + Result := FindFile <> INVALID_HANDLE_VALUE; + if Result then Windows.FindClose(FindFile); + end; + + +{$ENDIF} + +{$IFNDEF UseDelphi} + {Exception implementation} + constructor Exception.Create(Msg: String); + begin + end; +{$ENDIF} + +{Calculates the paeth predictor} +function PaethPredictor(a, b, c: Byte): Byte; +var + pa, pb, pc: Integer; +begin + { a = left, b = above, c = upper left } + pa := abs(b - c); { distances to a, b, c } + pb := abs(a - c); + pc := abs(a + b - c * 2); + + { return nearest of a, b, c, breaking ties in order a, b, c } + if (pa <= pb) and (pa <= pc) then + Result := a + else + if pb <= pc then + Result := b + else + Result := c; +end; + +{Invert bytes using assembly} +function ByteSwap(const a: integer): integer; +asm + bswap eax +end; +function ByteSwap16(inp:word): word; +asm + bswap eax + shr eax, 16 +end; + +{Calculates number of bytes for the number of pixels using the} +{color mode in the paramenter} +function BytesForPixels(const Pixels: Integer; const ColorType, + BitDepth: Byte): Integer; +begin + case ColorType of + {Palette and grayscale contains a single value, for palette} + {an value of size 2^bitdepth pointing to the palette index} + {and grayscale the value from 0 to 2^bitdepth with color intesity} + COLOR_GRAYSCALE, COLOR_PALETTE: + Result := (Pixels * BitDepth + 7) div 8; + {RGB contains 3 values R, G, B with size 2^bitdepth each} + COLOR_RGB: + Result := (Pixels * BitDepth * 3) div 8; + {Contains one value followed by alpha value booth size 2^bitdepth} + COLOR_GRAYSCALEALPHA: + Result := (Pixels * BitDepth * 2) div 8; + {Contains four values size 2^bitdepth, Red, Green, Blue and alpha} + COLOR_RGBALPHA: + Result := (Pixels * BitDepth * 4) div 8; + else + Result := 0; + end {case ColorType} +end; + +type + pChunkClassInfo = ^TChunkClassInfo; + TChunkClassInfo = record + ClassName: TChunkClass; + end; + +{Register a chunk type} +procedure RegisterChunk(ChunkClass: TChunkClass); +var + NewClass: pChunkClassInfo; +begin + {In case the list object has not being created yet} + if ChunkClasses = nil then ChunkClasses := TPngPointerList.Create(nil); + + {Add this new class} + new(NewClass); + NewClass^.ClassName := ChunkClass; + ChunkClasses.Add(NewClass); +end; + +{Free chunk class list} +procedure FreeChunkClassList; +var + i: Integer; +begin + if (ChunkClasses <> nil) then + begin + FOR i := 0 TO ChunkClasses.Count - 1 do + Dispose(pChunkClassInfo(ChunkClasses.Item[i])); + ChunkClasses.Free; + end; +end; + +{Registering of common chunk classes} +procedure RegisterCommonChunks; +begin + {Important chunks} + RegisterChunk(TChunkIEND); + RegisterChunk(TChunkIHDR); + RegisterChunk(TChunkIDAT); + RegisterChunk(TChunkPLTE); + RegisterChunk(TChunkgAMA); + RegisterChunk(TChunktRNS); + + {Not so important chunks} + RegisterChunk(TChunktIME); + RegisterChunk(TChunktEXt); + RegisterChunk(TChunkzTXt); +end; + +{Creates a new chunk of this class} +function CreateClassChunk(Owner: TPngObject; Name: TChunkName): TChunk; +var + i : Integer; + NewChunk: TChunkClass; +begin + {Looks for this chunk} + NewChunk := TChunk; {In case there is no registered class for this} + + {Looks for this class in all registered chunks} + if Assigned(ChunkClasses) then + FOR i := 0 TO ChunkClasses.Count - 1 DO + begin + if pChunkClassInfo(ChunkClasses.Item[i])^.ClassName.GetName = Name then + begin + NewChunk := pChunkClassInfo(ChunkClasses.Item[i])^.ClassName; + break; + end; + end; + + {Returns chunk class} + Result := NewChunk.Create(Owner); + Result.fName := Name; +end; + +{ZLIB support} + +const + ZLIBAllocate = High(Word); + +{Initializes ZLIB for decompression} +function ZLIBInitInflate(Stream: TStream): TZStreamRec2; +begin + {Fill record} + Fillchar(Result, SIZEOF(TZStreamRec2), #0); + + {Set internal record information} + with Result do + begin + GetMem(Data, ZLIBAllocate); + fStream := Stream; + end; + + {Init decompression} + InflateInit_(Result.zlib, zlib_version, SIZEOF(TZStreamRec)); +end; + +{Initializes ZLIB for compression} +function ZLIBInitDeflate(Stream: TStream; + Level: TCompressionlevel; Size: Cardinal): TZStreamRec2; +begin + {Fill record} + Fillchar(Result, SIZEOF(TZStreamRec2), #0); + + {Set internal record information} + with Result, ZLIB do + begin + GetMem(Data, Size); + fStream := Stream; + next_out := Data; + avail_out := Size; + end; + + {Inits compression} + deflateInit_(Result.zlib, Level, zlib_version, sizeof(TZStreamRec)); +end; + +{Terminates ZLIB for compression} +procedure ZLIBTerminateDeflate(var ZLIBStream: TZStreamRec2); +begin + {Terminates decompression} + DeflateEnd(ZLIBStream.zlib); + {Free internal record} + FreeMem(ZLIBStream.Data, ZLIBAllocate); +end; + +{Terminates ZLIB for decompression} +procedure ZLIBTerminateInflate(var ZLIBStream: TZStreamRec2); +begin + {Terminates decompression} + InflateEnd(ZLIBStream.zlib); + {Free internal record} + FreeMem(ZLIBStream.Data, ZLIBAllocate); +end; + +{Decompresses ZLIB into a memory address} +function DecompressZLIB(const Input: Pointer; InputSize: Integer; + var Output: Pointer; var OutputSize: Integer; + var ErrorOutput: String): Boolean; +var + StreamRec : TZStreamRec; + Buffer : Array[Byte] of Byte; + InflateRet: Integer; +begin + with StreamRec do + begin + {Initializes} + Result := True; + OutputSize := 0; + + {Prepares the data to decompress} + FillChar(StreamRec, SizeOf(TZStreamRec), #0); + InflateInit_(StreamRec, zlib_version, SIZEOF(TZStreamRec)); + next_in := Input; + avail_in := InputSize; + + {Decodes data} + repeat + {In case it needs an output buffer} + if (avail_out = 0) then + begin + next_out := @Buffer; + avail_out := SizeOf(Buffer); + end {if (avail_out = 0)}; + + {Decompress and put in output} + InflateRet := inflate(StreamRec, 0); + if (InflateRet = Z_STREAM_END) or (InflateRet = 0) then + begin + {Reallocates output buffer} + inc(OutputSize, total_out); + if Output = nil then + GetMem(Output, OutputSize) else ReallocMem(Output, OutputSize); + {Copies the new data} + CopyMemory(Ptr(Longint(Output) + OutputSize - total_out), + @Buffer, total_out); + end {if (InflateRet = Z_STREAM_END) or (InflateRet = 0)} + {Now tests for errors} + else if InflateRet < 0 then + begin + Result := False; + ErrorOutput := StreamRec.msg; + InflateEnd(StreamRec); + Exit; + end {if InflateRet < 0} + until InflateRet = Z_STREAM_END; + + {Terminates decompression} + InflateEnd(StreamRec); + end {with StreamRec} + +end; + +{Compresses ZLIB into a memory address} +function CompressZLIB(Input: Pointer; InputSize, CompressionLevel: Integer; + var Output: Pointer; var OutputSize: Integer; + var ErrorOutput: String): Boolean; +var + StreamRec : TZStreamRec; + Buffer : Array[Byte] of Byte; + DeflateRet: Integer; +begin + with StreamRec do + begin + Result := True; {By default returns TRUE as everything might have gone ok} + OutputSize := 0; {Initialize} + {Prepares the data to compress} + FillChar(StreamRec, SizeOf(TZStreamRec), #0); + DeflateInit_(StreamRec, CompressionLevel,zlib_version, SIZEOF(TZStreamRec)); + + next_in := Input; + avail_in := InputSize; + + while avail_in > 0 do + begin + {When it needs new buffer to stores the compressed data} + if avail_out = 0 then + begin + {Restore buffer} + next_out := @Buffer; + avail_out := SizeOf(Buffer); + end {if avail_out = 0}; + + {Compresses} + DeflateRet := deflate(StreamRec, Z_FINISH); + + if (DeflateRet = Z_STREAM_END) or (DeflateRet = 0) then + begin + {Updates the output memory} + inc(OutputSize, total_out); + if Output = nil then + GetMem(Output, OutputSize) else ReallocMem(Output, OutputSize); + + {Copies the new data} + CopyMemory(Ptr(Longint(Output) + OutputSize - total_out), + @Buffer, total_out); + end {if (InflateRet = Z_STREAM_END) or (InflateRet = 0)} + {Now tests for errors} + else if DeflateRet < 0 then + begin + Result := False; + ErrorOutput := StreamRec.msg; + DeflateEnd(StreamRec); + Exit; + end {if InflateRet < 0} + + end {while avail_in > 0}; + + {Finishes compressing} + DeflateEnd(StreamRec); + end {with StreamRec} + +end; + +{TPngPointerList implementation} + +{Object being created} +constructor TPngPointerList.Create(AOwner: TPNGObject); +begin + inherited Create; {Let ancestor work} + {Holds owner} + fOwner := AOwner; + {Memory pointer not being used yet} + fMemory := nil; + {No items yet} + fCount := 0; +end; + +{Removes value from the list} +function TPngPointerList.Remove(Value: Pointer): Pointer; +var + I, Position: Integer; +begin + {Gets item position} + Position := -1; + FOR I := 0 TO Count - 1 DO + if Value = Item[I] then Position := I; + {In case a match was found} + if Position >= 0 then + begin + Result := Item[Position]; {Returns pointer} + {Remove item and move memory} + Dec(fCount); + if Position < Integer(FCount) then + System.Move(fMemory^[Position + 1], fMemory^[Position], + (Integer(fCount) - Position) * SizeOf(Pointer)); + end {if Position >= 0} else Result := nil +end; + +{Add a new value in the list} +procedure TPngPointerList.Add(Value: Pointer); +begin + Count := Count + 1; + Item[Count - 1] := Value; +end; + + +{Object being destroyed} +destructor TPngPointerList.Destroy; +begin + {Release memory if needed} + if fMemory <> nil then + FreeMem(fMemory, fCount * sizeof(Pointer)); + + {Free things} + inherited Destroy; +end; + +{Returns one item from the list} +function TPngPointerList.GetItem(Index: Cardinal): Pointer; +begin + if (Index <= Count - 1) then + Result := fMemory[Index] + else + {In case it's out of bounds} + Result := nil; +end; + +{Inserts a new item in the list} +procedure TPngPointerList.Insert(Value: Pointer; Position: Cardinal); +begin + if (Position < Count) then + begin + {Increase item count} + SetSize(Count + 1); + {Move other pointers} + if Position < Count then + System.Move(fMemory^[Position], fMemory^[Position + 1], + (Count - Position - 1) * SizeOf(Pointer)); + {Sets item} + Item[Position] := Value; + end; +end; + +{Sets one item from the list} +procedure TPngPointerList.SetItem(Index: Cardinal; const Value: Pointer); +begin + {If index is in bounds, set value} + if (Index <= Count - 1) then + fMemory[Index] := Value +end; + +{This method resizes the list} +procedure TPngPointerList.SetSize(const Size: Cardinal); +begin + {Sets the size} + if (fMemory = nil) and (Size > 0) then + GetMem(fMemory, Size * SIZEOF(Pointer)) + else + if Size > 0 then {Only realloc if the new size is greater than 0} + ReallocMem(fMemory, Size * SIZEOF(Pointer)) + else + {In case user is resize to 0 items} + begin + FreeMem(fMemory); + fMemory := nil; + end; + {Update count} + fCount := Size; +end; + +{TPNGList implementation} + +{Removes an item} +procedure TPNGList.RemoveChunk(Chunk: TChunk); +begin + Remove(Chunk); + Chunk.Free +end; + +{Add a new item} +function TPNGList.Add(ChunkClass: TChunkClass): TChunk; +var + IHDR: TChunkIHDR; + IEND: TChunkIEND; + + IDAT: TChunkIDAT; + PLTE: TChunkPLTE; +begin + Result := nil; {Default result} + {Adding these is not allowed} + if (ChunkClass = TChunkIHDR) or (ChunkClass = TChunkIDAT) or + (ChunkClass = TChunkPLTE) or (ChunkClass = TChunkIEND) then + fOwner.RaiseError(EPngError, EPNGCannotAddChunkText) + {Two of these is not allowed} + else if ((ChunkClass = TChunkgAMA) and (ItemFromClass(TChunkgAMA) <> nil)) or + ((ChunkClass = TChunktRNS) and (ItemFromClass(TChunktRNS) <> nil)) then + fOwner.RaiseError(EPngError, EPNGCannotAddChunkText) + {There must have an IEND and IHDR chunk} + else if (ItemFromClass(TChunkIEND) = nil) or + (ItemFromClass(TChunkIHDR) = nil) then + fOwner.RaiseError(EPngError, EPNGCannotAddInvalidImageText) + else + begin + {Get common chunks} + IHDR := ItemFromClass(TChunkIHDR) as TChunkIHDR; + IEND := ItemFromClass(TChunkIEND) as TChunkIEND; + {Create new chunk} + Result := ChunkClass.Create(Owner); + {Add to the list} + if (ChunkClass = TChunkgAMA) then + Insert(Result, IHDR.Index + 1) + {Transparency chunk (fix by Ian Boyd)} + else if (ChunkClass = TChunktRNS) then + begin + {Transparecy chunk must be after PLTE; before IDAT} + IDAT := ItemFromClass(TChunkIDAT) as TChunkIDAT; + PLTE := ItemFromClass(TChunkPLTE) as TChunkPLTE; + + if Assigned(PLTE) then + Insert(Result, PLTE.Index + 1) + else if Assigned(IDAT) then + Insert(Result, IDAT.Index) + else + Insert(Result, IHDR.Index + 1) + end + else {All other chunks} + Insert(Result, IEND.Index); + end {if} +end; + +{Returns item from the list} +function TPNGList.GetItem(Index: Cardinal): TChunk; +begin + Result := inherited GetItem(Index); +end; + +{Returns first item from the list using the class from parameter} +function TPNGList.ItemFromClass(ChunkClass: TChunkClass): TChunk; +var + i: Integer; +begin + Result := nil; {Initial result} + FOR i := 0 TO Count - 1 DO + {Test if this item has the same class} + if Item[i] is ChunkClass then + begin + {Returns this item and exit} + Result := Item[i]; + break; + end {if} +end; + +{$IFNDEF UseDelphi} + + {TStream implementation} + + {Copies all from another stream} + function TStream.CopyFrom(Source: TStream; Count: Cardinal): Cardinal; + const + MaxBytes = $f000; + var + Buffer: PChar; + BufSize, N: Cardinal; + begin + {If count is zero, copy everything from Source} + if Count = 0 then + begin + Source.Seek(0, soFromBeginning); + Count := Source.Size; + end; + + Result := Count; {Returns the number of bytes readed} + {Allocates memory} + if Count > MaxBytes then BufSize := MaxBytes else BufSize := Count; + GetMem(Buffer, BufSize); + + {Copy memory} + while Count > 0 do + begin + if Count > BufSize then N := BufSize else N := Count; + Source.Read(Buffer^, N); + Write(Buffer^, N); + dec(Count, N); + end; + + {Deallocates memory} + FreeMem(Buffer, BufSize); + end; + +{Set current stream position} +procedure TStream.SetPosition(const Value: Longint); +begin + Seek(Value, soFromBeginning); +end; + +{Returns position} +function TStream.GetPosition: Longint; +begin + Result := Seek(0, soFromCurrent); +end; + + {Returns stream size} +function TStream.GetSize: Longint; + var + Pos: Cardinal; + begin + Pos := Seek(0, soFromCurrent); + Result := Seek(0, soFromEnd); + Seek(Pos, soFromCurrent); + end; + + {TFileStream implementation} + + {Filestream object being created} + constructor TFileStream.Create(Filename: String; Mode: TFileStreamModeSet); + {Makes file mode} + function OpenMode: DWORD; + begin + Result := 0; + if fsmRead in Mode then Result := GENERIC_READ; + if (fsmWrite in Mode) or (fsmCreate in Mode) then + Result := Result OR GENERIC_WRITE; + end; + const + IsCreate: Array[Boolean] of Integer = (OPEN_ALWAYS, CREATE_ALWAYS); + begin + {Call ancestor} + inherited Create; + + {Create handle} + fHandle := CreateFile(PChar(Filename), OpenMode, FILE_SHARE_READ or + FILE_SHARE_WRITE, nil, IsCreate[fsmCreate in Mode], 0, 0); + {Store mode} + FileMode := Mode; + end; + + {Filestream object being destroyed} + destructor TFileStream.Destroy; + begin + {Terminates file and close} + if FileMode = [fsmWrite] then + SetEndOfFile(fHandle); + CloseHandle(fHandle); + + {Call ancestor} + inherited Destroy; + end; + + {Writes data to the file} + function TFileStream.Write(const Buffer; Count: Longint): Cardinal; + begin + if not WriteFile(fHandle, Buffer, Count, Result, nil) then + Result := 0; + end; + + {Reads data from the file} + function TFileStream.Read(var Buffer; Count: Longint): Cardinal; + begin + if not ReadFile(fHandle, Buffer, Count, Result, nil) then + Result := 0; + end; + + {Seeks the file position} + function TFileStream.Seek(Offset: Integer; Origin: Word): Longint; + begin + Result := SetFilePointer(fHandle, Offset, nil, Origin); + end; + + {Sets the size of the file} + procedure TFileStream.SetSize(const Value: Longint); + begin + Seek(Value, soFromBeginning); + SetEndOfFile(fHandle); + end; + + {TResourceStream implementation} + + {Creates the resource stream} + constructor TResourceStream.Create(Instance: HInst; const ResName: String; + ResType: PChar); + var + ResID: HRSRC; + ResGlobal: HGlobal; + begin + {Obtains the resource ID} + ResID := FindResource(hInstance, PChar(ResName), RT_RCDATA); + if ResID = 0 then raise EPNGError.Create(''); + {Obtains memory and size} + ResGlobal := LoadResource(hInstance, ResID); + Size := SizeOfResource(hInstance, ResID); + Memory := LockResource(ResGlobal); + if (ResGlobal = 0) or (Memory = nil) then EPNGError.Create(''); + end; + + + {Setting resource stream size is not supported} + procedure TResourceStream.SetSize(const Value: Integer); + begin + end; + + {Writing into a resource stream is not supported} + function TResourceStream.Write(const Buffer; Count: Integer): Cardinal; + begin + Result := 0; + end; + + {Reads data from the stream} + function TResourceStream.Read(var Buffer; Count: Integer): Cardinal; + begin + //Returns data + CopyMemory(@Buffer, Ptr(Longint(Memory) + Position), Count); + //Update position + inc(Position, Count); + //Returns + Result := Count; + end; + + {Seeks data} + function TResourceStream.Seek(Offset: Integer; Origin: Word): Longint; + begin + {Move depending on the origin} + case Origin of + soFromBeginning: Position := Offset; + soFromCurrent: inc(Position, Offset); + soFromEnd: Position := Size + Offset; + end; + + {Returns the current position} + Result := Position; + end; + +{$ENDIF} + +{TChunk implementation} + +{Resizes the data} +procedure TChunk.ResizeData(const NewSize: Cardinal); +begin + fDataSize := NewSize; + ReallocMem(fData, NewSize + 1); +end; + +{Returns index from list} +function TChunk.GetIndex: Integer; +var + i: Integer; +begin + Result := -1; {Avoiding warnings} + {Searches in the list} + FOR i := 0 TO Owner.Chunks.Count - 1 DO + if Owner.Chunks.Item[i] = Self then + begin + {Found match} + Result := i; + exit; + end {for i} +end; + +{Returns pointer to the TChunkIHDR} +function TChunk.GetHeader: TChunkIHDR; +begin + Result := Owner.Chunks.Item[0] as TChunkIHDR; +end; + +{Assigns from another TChunk} +procedure TChunk.Assign(Source: TChunk); +begin + {Copy properties} + fName := Source.fName; + {Set data size and realloc} + ResizeData(Source.fDataSize); + + {Copy data (if there's any)} + if fDataSize > 0 then CopyMemory(fData, Source.fData, fDataSize); +end; + +{Chunk being created} +constructor TChunk.Create(Owner: TPngObject); +var + ChunkName: String; +begin + {Ancestor create} + inherited Create; + + {If it's a registered class, set the chunk name based on the class} + {name. For instance, if the class name is TChunkgAMA, the GAMA part} + {will become the chunk name} + ChunkName := Copy(ClassName, Length('TChunk') + 1, Length(ClassName)); + if Length(ChunkName) = 4 then CopyMemory(@fName[0], @ChunkName[1], 4); + + {Initialize data holder} + GetMem(fData, 1); + fDataSize := 0; + {Record owner} + fOwner := Owner; +end; + +{Chunk being destroyed} +destructor TChunk.Destroy; +begin + {Free data holder} + FreeMem(fData, fDataSize + 1); + {Let ancestor destroy} + inherited Destroy; +end; + +{Returns the chunk name 1} +function TChunk.GetChunkName: String; +begin + Result := fName +end; + +{Returns the chunk name 2} +class function TChunk.GetName: String; +begin + {For avoid writing GetName for each TChunk descendent, by default for} + {classes which don't declare GetName, it will look for the class name} + {to extract the chunk kind. Example, if the class name is TChunkIEND } + {this method extracts and returns IEND} + Result := Copy(ClassName, Length('TChunk') + 1, Length(ClassName)); +end; + +{Saves the data to the stream} +function TChunk.SaveData(Stream: TStream): Boolean; +var + ChunkSize, ChunkCRC: Cardinal; +begin + {First, write the size for the following data in the chunk} + ChunkSize := ByteSwap(DataSize); + Stream.Write(ChunkSize, 4); + {The chunk name} + Stream.Write(fName, 4); + {If there is data for the chunk, write it} + if DataSize > 0 then Stream.Write(Data^, DataSize); + {Calculates and write CRC} + ChunkCRC := update_crc($ffffffff, @fName[0], 4); + ChunkCRC := Byteswap(update_crc(ChunkCRC, Data, DataSize) xor $ffffffff); + Stream.Write(ChunkCRC, 4); + + {Returns that everything went ok} + Result := TRUE; +end; + +{Saves the chunk to the stream} +function TChunk.SaveToStream(Stream: TStream): Boolean; +begin + Result := SaveData(Stream) +end; + + +{Loads the chunk from a stream} +function TChunk.LoadFromStream(Stream: TStream; const ChunkName: TChunkName; + Size: Integer): Boolean; +var + CheckCRC: Cardinal; + {$IFDEF CheckCRC}RightCRC: Cardinal;{$ENDIF} +begin + {Copies data from source} + ResizeData(Size); + if Size > 0 then Stream.Read(fData^, Size); + {Reads CRC} + Stream.Read(CheckCRC, 4); + CheckCrc := ByteSwap(CheckCRC); + + {Check if crc readed is valid} + {$IFDEF CheckCRC} + RightCRC := update_crc($ffffffff, @ChunkName[0], 4); + RightCRC := update_crc(RightCRC, fData, Size) xor $ffffffff; + Result := RightCRC = CheckCrc; + + {Handle CRC error} + if not Result then + begin + {In case it coult not load chunk} + Owner.RaiseError(EPngInvalidCRC, EPngInvalidCRCText); + exit; + end + {$ELSE}Result := TRUE; {$ENDIF} + +end; + +{TChunktIME implementation} + +{Chunk being loaded from a stream} +function TChunktIME.LoadFromStream(Stream: TStream; + const ChunkName: TChunkName; Size: Integer): Boolean; +begin + {Let ancestor load the data} + Result := inherited LoadFromStream(Stream, ChunkName, Size); + if not Result or (Size <> 7) then exit; {Size must be 7} + + {Reads data} + fYear := ((pByte(Longint(Data) )^) * 256)+ (pByte(Longint(Data) + 1)^); + fMonth := pByte(Longint(Data) + 2)^; + fDay := pByte(Longint(Data) + 3)^; + fHour := pByte(Longint(Data) + 4)^; + fMinute := pByte(Longint(Data) + 5)^; + fSecond := pByte(Longint(Data) + 6)^; +end; + +{Saving the chunk to a stream} +function TChunktIME.SaveToStream(Stream: TStream): Boolean; +begin + {Update data} + ResizeData(7); {Make sure the size is 7} + pWord(Data)^ := Year; + pByte(Longint(Data) + 2)^ := Month; + pByte(Longint(Data) + 3)^ := Day; + pByte(Longint(Data) + 4)^ := Hour; + pByte(Longint(Data) + 5)^ := Minute; + pByte(Longint(Data) + 6)^ := Second; + + {Let inherited save data} + Result := inherited SaveToStream(Stream); +end; + +{TChunkztXt implementation} + +{Loading the chunk from a stream} +function TChunkzTXt.LoadFromStream(Stream: TStream; + const ChunkName: TChunkName; Size: Integer): Boolean; +var + ErrorOutput: String; + CompressionMethod: Byte; + Output: Pointer; + OutputSize: Integer; +begin + {Load data from stream and validate} + Result := inherited LoadFromStream(Stream, ChunkName, Size); + if not Result or (Size < 4) then exit; + fKeyword := PChar(Data); {Get keyword and compression method bellow} + CompressionMethod := pByte(Longint(fKeyword) + Length(fKeyword))^; + fText := ''; + + {In case the compression is 0 (only one accepted by specs), reads it} + if CompressionMethod = 0 then + begin + Output := nil; + if DecompressZLIB(PChar(Longint(Data) + Length(fKeyword) + 2), + Size - Length(fKeyword) - 2, Output, OutputSize, ErrorOutput) then + begin + SetLength(fText, OutputSize); + CopyMemory(@fText[1], Output, OutputSize); + end {if DecompressZLIB(...}; + FreeMem(Output); + end {if CompressionMethod = 0} + +end; + +{Saving the chunk to a stream} +function TChunkztXt.SaveToStream(Stream: TStream): Boolean; +var + Output: Pointer; + OutputSize: Integer; + ErrorOutput: String; +begin + Output := nil; {Initializes output} + if fText = '' then fText := ' '; + + {Compresses the data} + if CompressZLIB(@fText[1], Length(fText), Owner.CompressionLevel, Output, + OutputSize, ErrorOutput) then + begin + {Size is length from keyword, plus a null character to divide} + {plus the compression method, plus the length of the text (zlib compressed)} + ResizeData(Length(fKeyword) + 2 + OutputSize); + + Fillchar(Data^, DataSize, #0); + {Copies the keyword data} + if Keyword <> '' then + CopyMemory(Data, @fKeyword[1], Length(Keyword)); + {Compression method 0 (inflate/deflate)} + pByte(Ptr(Longint(Data) + Length(Keyword) + 1))^ := 0; + if OutputSize > 0 then + CopyMemory(Ptr(Longint(Data) + Length(Keyword) + 2), Output, OutputSize); + + {Let ancestor calculate crc and save} + Result := SaveData(Stream); + end {if CompressZLIB(...} else Result := False; + + {Frees output} + if Output <> nil then FreeMem(Output) +end; + +{TChunktEXt implementation} + +{Assigns from another text chunk} +procedure TChunktEXt.Assign(Source: TChunk); +begin + fKeyword := TChunktEXt(Source).fKeyword; + fText := TChunktEXt(Source).fText; +end; + +{Loading the chunk from a stream} +function TChunktEXt.LoadFromStream(Stream: TStream; + const ChunkName: TChunkName; Size: Integer): Boolean; +begin + {Load data from stream and validate} + Result := inherited LoadFromStream(Stream, ChunkName, Size); + if not Result or (Size < 3) then exit; + {Get text} + fKeyword := PChar(Data); + SetLength(fText, Size - Length(fKeyword) - 1); + CopyMemory(@fText[1], Ptr(Longint(Data) + Length(fKeyword) + 1), + Length(fText)); +end; + +{Saving the chunk to a stream} +function TChunktEXt.SaveToStream(Stream: TStream): Boolean; +begin + {Size is length from keyword, plus a null character to divide} + {plus the length of the text} + ResizeData(Length(fKeyword) + 1 + Length(fText)); + Fillchar(Data^, DataSize, #0); + {Copy data} + if Keyword <> '' then + CopyMemory(Data, @fKeyword[1], Length(Keyword)); + if Text <> '' then + CopyMemory(Ptr(Longint(Data) + Length(Keyword) + 1), @fText[1], + Length(Text)); + {Let ancestor calculate crc and save} + Result := inherited SaveToStream(Stream); +end; + + +{TChunkIHDR implementation} + +{Chunk being created} +constructor TChunkIHDR.Create(Owner: TPngObject); +begin + {Call inherited} + inherited Create(Owner); + {Prepare pointers} + ImageHandle := 0; + ImageDC := 0; +end; + +{Chunk being destroyed} +destructor TChunkIHDR.Destroy; +begin + {Free memory} + FreeImageData(); + + {Calls TChunk destroy} + inherited Destroy; +end; + +{Assigns from another IHDR chunk} +procedure TChunkIHDR.Assign(Source: TChunk); +begin + {Copy the IHDR data} + if Source is TChunkIHDR then + begin + {Copy IHDR values} + IHDRData := TChunkIHDR(Source).IHDRData; + + {Prepare to hold data by filling BitmapInfo structure and} + {resizing ImageData and ImageAlpha memory allocations} + PrepareImageData(); + + {Copy image data} + CopyMemory(ImageData, TChunkIHDR(Source).ImageData, + BytesPerRow * Integer(Height)); + CopyMemory(ImageAlpha, TChunkIHDR(Source).ImageAlpha, + Integer(Width) * Integer(Height)); + + {Copy palette colors} + BitmapInfo.bmiColors := TChunkIHDR(Source).BitmapInfo.bmiColors; + end + else + Owner.RaiseError(EPNGError, EPNGCannotAssignChunkText); +end; + +{Release allocated image data} +procedure TChunkIHDR.FreeImageData; +begin + {Free old image data} + if ImageHandle <> 0 then DeleteObject(ImageHandle); + if ImageDC <> 0 then DeleteDC(ImageDC); + if ImageAlpha <> nil then FreeMem(ImageAlpha); + {$IFDEF Store16bits} + if ExtraImageData <> nil then FreeMem(ExtraImageData); + {$ENDIF} + ImageHandle := 0; ImageDC := 0; ImageAlpha := nil; ImageData := nil; +end; + +{Chunk being loaded from a stream} +function TChunkIHDR.LoadFromStream(Stream: TStream; const ChunkName: TChunkName; + Size: Integer): Boolean; +begin + {Let TChunk load it} + Result := inherited LoadFromStream(Stream, ChunkName, Size); + if not Result then Exit; + + {Now check values} + {Note: It's recommended by png specification to make sure that the size} + {must be 13 bytes to be valid, but some images with 14 bytes were found} + {which could be loaded by internet explorer and other tools} + if (fDataSize < SIZEOF(TIHdrData)) then + begin + {Ihdr must always have at least 13 bytes} + Result := False; + Owner.RaiseError(EPNGInvalidIHDR, EPNGInvalidIHDRText); + exit; + end; + + {Everything ok, reads IHDR} + IHDRData := pIHDRData(fData)^; + IHDRData.Width := ByteSwap(IHDRData.Width); + IHDRData.Height := ByteSwap(IHDRData.Height); + + {The width and height must not be larger than 65535 pixels} + if (IHDRData.Width > High(Word)) or (IHDRData.Height > High(Word)) then + begin + Result := False; + Owner.RaiseError(EPNGSizeExceeds, EPNGSizeExceedsText); + exit; + end {if IHDRData.Width > High(Word)}; + {Compression method must be 0 (inflate/deflate)} + if (IHDRData.CompressionMethod <> 0) then + begin + Result := False; + Owner.RaiseError(EPNGUnknownCompression, EPNGUnknownCompressionText); + exit; + end; + {Interlace must be either 0 (none) or 7 (adam7)} + if (IHDRData.InterlaceMethod <> 0) and (IHDRData.InterlaceMethod <> 1) then + begin + Result := False; + Owner.RaiseError(EPNGUnknownInterlace, EPNGUnknownInterlaceText); + exit; + end; + + {Updates owner properties} + Owner.InterlaceMethod := TInterlaceMethod(IHDRData.InterlaceMethod); + + {Prepares data to hold image} + PrepareImageData(); +end; + +{Saving the IHDR chunk to a stream} +function TChunkIHDR.SaveToStream(Stream: TStream): Boolean; +begin + {Ignore 2 bits images} + if BitDepth = 2 then BitDepth := 4; + + {It needs to do is update the data with the IHDR data} + {structure containing the write values} + ResizeData(SizeOf(TIHDRData)); + pIHDRData(fData)^ := IHDRData; + {..byteswap 4 byte types} + pIHDRData(fData)^.Width := ByteSwap(pIHDRData(fData)^.Width); + pIHDRData(fData)^.Height := ByteSwap(pIHDRData(fData)^.Height); + {..update interlace method} + pIHDRData(fData)^.InterlaceMethod := Byte(Owner.InterlaceMethod); + {..and then let the ancestor SaveToStream do the hard work} + Result := inherited SaveToStream(Stream); +end; + +{Resizes the image data to fill the color type, bit depth, } +{width and height parameters} +procedure TChunkIHDR.PrepareImageData(); + + {Set the bitmap info} + procedure SetInfo(const Bitdepth: Integer; const Palette: Boolean); + begin + + {Copy if the bitmap contain palette entries} + HasPalette := Palette; + {Initialize the structure with zeros} + fillchar(BitmapInfo, sizeof(BitmapInfo), #0); + {Fill the strucutre} + with BitmapInfo.bmiHeader do + begin + biSize := sizeof(TBitmapInfoHeader); + biHeight := Height; + biWidth := Width; + biPlanes := 1; + biBitCount := BitDepth; + biCompression := BI_RGB; + end {with BitmapInfo.bmiHeader} + end; +begin + {Prepare bitmap info header} + Fillchar(BitmapInfo, sizeof(TMaxBitmapInfo), #0); + {Release old image data} + FreeImageData(); + + {Obtain number of bits for each pixel} + case ColorType of + COLOR_GRAYSCALE, COLOR_PALETTE, COLOR_GRAYSCALEALPHA: + case BitDepth of + {These are supported by windows} + 1, 4, 8: SetInfo(BitDepth, TRUE); + {2 bits for each pixel is not supported by windows bitmap} + 2 : SetInfo(4, TRUE); + {Also 16 bits (2 bytes) for each pixel is not supported} + {and should be transormed into a 8 bit grayscale} + 16 : SetInfo(8, TRUE); + end; + {Only 1 byte (8 bits) is supported} + COLOR_RGB, COLOR_RGBALPHA: SetInfo(24, FALSE); + end {case ColorType}; + {Number of bytes for each scanline} + BytesPerRow := (((BitmapInfo.bmiHeader.biBitCount * Width) + 31) + and not 31) div 8; + + {Build array for alpha information, if necessary} + if (ColorType = COLOR_RGBALPHA) or (ColorType = COLOR_GRAYSCALEALPHA) then + begin + GetMem(ImageAlpha, Integer(Width) * Integer(Height)); + FillChar(ImageAlpha^, Integer(Width) * Integer(Height), #0); + end; + + {Build array for extra byte information} + {$IFDEF Store16bits} + if (BitDepth = 16) then + begin + GetMem(ExtraImageData, BytesPerRow * Integer(Height)); + FillChar(ExtraImageData^, BytesPerRow * Integer(Height), #0); + end; + {$ENDIF} + + {Creates the image to hold the data, CreateDIBSection does a better} + {work in allocating necessary memory} + ImageDC := CreateCompatibleDC(0); + ImageHandle := CreateDIBSection(ImageDC, pBitmapInfo(@BitmapInfo)^, + DIB_RGB_COLORS, ImageData, 0, 0); + + {Clears the old palette (if any)} + with Owner do + if TempPalette <> 0 then + begin + DeleteObject(TempPalette); + TempPalette := 0; + end {with Owner, if TempPalette <> 0}; + + {Build array and allocate bytes for each row} + zeromemory(ImageData, BytesPerRow * Integer(Height)); +end; + +{TChunktRNS implementation} + +{$IFNDEF UseDelphi} +function CompareMem(P1, P2: pByte; const Size: Integer): Boolean; +var i: Integer; +begin + Result := True; + for i := 1 to Size do + begin + if P1^ <> P2^ then Result := False; + inc(P1); inc(P2); + end {for i} +end; +{$ENDIF} + +{Sets the transpararent color} +procedure TChunktRNS.SetTransparentColor(const Value: ColorRef); +var + i: Byte; + LookColor: TRGBQuad; +begin + {Clears the palette values} + Fillchar(PaletteValues, SizeOf(PaletteValues), #0); + {Sets that it uses bit transparency} + fBitTransparency := True; + + + {Depends on the color type} + with Header do + case ColorType of + COLOR_GRAYSCALE: + begin + Self.ResizeData(2); + pWord(@PaletteValues[0])^ := ByteSwap16(GetRValue(Value)); + end; + COLOR_RGB: + begin + Self.ResizeData(6); + pWord(@PaletteValues[0])^ := ByteSwap16(GetRValue(Value)); + pWord(@PaletteValues[2])^ := ByteSwap16(GetGValue(Value)); + pWord(@PaletteValues[4])^ := ByteSwap16(GetBValue(Value)); + end; + COLOR_PALETTE: + begin + {Creates a RGBQuad to search for the color} + LookColor.rgbRed := GetRValue(Value); + LookColor.rgbGreen := GetGValue(Value); + LookColor.rgbBlue := GetBValue(Value); + {Look in the table for the entry} + for i := 0 to 255 do + if CompareMem(@BitmapInfo.bmiColors[i], @LookColor, 3) then + Break; + {Fill the transparency table} + Fillchar(PaletteValues, i, 255); + Self.ResizeData(i + 1) + + end + end {case / with}; + +end; + +{Returns the transparent color for the image} +function TChunktRNS.GetTransparentColor: ColorRef; +var + PaletteChunk: TChunkPLTE; + i: Integer; +begin + Result := 0; {Default: Unknown transparent color} + + {Depends on the color type} + with Header do + case ColorType of + COLOR_GRAYSCALE: + Result := RGB(PaletteValues[0], PaletteValues[0], + PaletteValues[0]); + COLOR_RGB: + Result := RGB(PaletteValues[1], PaletteValues[3], PaletteValues[5]); + COLOR_PALETTE: + begin + {Obtains the palette chunk} + PaletteChunk := Owner.Chunks.ItemFromClass(TChunkPLTE) as TChunkPLTE; + + {Looks for an entry with 0 transparency meaning that it is the} + {full transparent entry} + for i := 0 to Self.DataSize - 1 do + if PaletteValues[i] = 0 then + with PaletteChunk.GetPaletteItem(i) do + begin + Result := RGB(rgbRed, rgbGreen, rgbBlue); + break + end + end {COLOR_PALETTE} + end {case Header.ColorType}; +end; + +{Saving the chunk to a stream} +function TChunktRNS.SaveToStream(Stream: TStream): Boolean; +begin + {Copy palette into data buffer} + if DataSize <= 256 then + CopyMemory(fData, @PaletteValues[0], DataSize); + + Result := inherited SaveToStream(Stream); +end; + +{Assigns from another chunk} +procedure TChunktRNS.Assign(Source: TChunk); +begin + CopyMemory(@PaletteValues[0], @TChunkTrns(Source).PaletteValues[0], 256); + fBitTransparency := TChunkTrns(Source).fBitTransparency; + inherited Assign(Source); +end; + +{Loads the chunk from a stream} +function TChunktRNS.LoadFromStream(Stream: TStream; const ChunkName: TChunkName; + Size: Integer): Boolean; +var + i, Differ255: Integer; +begin + {Let inherited load} + Result := inherited LoadFromStream(Stream, ChunkName, Size); + + if not Result then Exit; + + {Make sure size is correct} + if Size > 256 then Owner.RaiseError(EPNGInvalidPalette, + EPNGInvalidPaletteText); + + {The unset items should have value 255} + Fillchar(PaletteValues[0], 256, 255); + {Copy the other values} + CopyMemory(@PaletteValues[0], fData, Size); + + {Create the mask if needed} + case Header.ColorType of + {Mask for grayscale and RGB} + COLOR_RGB, COLOR_GRAYSCALE: fBitTransparency := True; + COLOR_PALETTE: + begin + Differ255 := 0; {Count the entries with a value different from 255} + {Tests if it uses bit transparency} + for i := 0 to Size - 1 do + if PaletteValues[i] <> 255 then inc(Differ255); + + {If it has one value different from 255 it is a bit transparency} + fBitTransparency := (Differ255 = 1); + end {COLOR_PALETTE} + end {case Header.ColorType}; + +end; + +{Prepares the image palette} +procedure TChunkIDAT.PreparePalette; +var + Entries: Word; + j : Integer; +begin + {In case the image uses grayscale, build a grayscale palette} + with Header do + if (ColorType = COLOR_GRAYSCALE) or (ColorType = COLOR_GRAYSCALEALPHA) then + begin + {Calculate total number of palette entries} + Entries := (1 shl Byte(BitmapInfo.bmiHeader.biBitCount)); + + FOR j := 0 TO Entries - 1 DO + with BitmapInfo.bmiColors[j] do + begin + + {Calculate each palette entry} + rgbRed := fOwner.GammaTable[MulDiv(j, 255, Entries - 1)]; + rgbGreen := rgbRed; + rgbBlue := rgbRed; + end {with BitmapInfo.bmiColors[j]} + end {if ColorType = COLOR_GRAYSCALE..., with Header} +end; + +{Reads from ZLIB} +function TChunkIDAT.IDATZlibRead(var ZLIBStream: TZStreamRec2; + Buffer: Pointer; Count: Integer; var EndPos: Integer; + var crcfile: Cardinal): Integer; +var + ProcResult : Integer; + IDATHeader : Array[0..3] of char; + IDATCRC : Cardinal; +begin + {Uses internal record pointed by ZLIBStream to gather information} + with ZLIBStream, ZLIBStream.zlib do + begin + {Set the buffer the zlib will read into} + next_out := Buffer; + avail_out := Count; + + {Decode until it reach the Count variable} + while avail_out > 0 do + begin + {In case it needs more data and it's in the end of a IDAT chunk,} + {it means that there are more IDAT chunks} + if (fStream.Position = EndPos) and (avail_out > 0) and + (avail_in = 0) then + begin + {End this chunk by reading and testing the crc value} + fStream.Read(IDATCRC, 4); + + {$IFDEF CheckCRC} + if crcfile xor $ffffffff <> Cardinal(ByteSwap(IDATCRC)) then + begin + Result := -1; + Owner.RaiseError(EPNGInvalidCRC, EPNGInvalidCRCText); + exit; + end; + {$ENDIF} + + {Start reading the next chunk} + fStream.Read(EndPos, 4); {Reads next chunk size} + fStream.Read(IDATHeader[0], 4); {Next chunk header} + {It must be a IDAT chunk since image data is required and PNG} + {specification says that multiple IDAT chunks must be consecutive} + if IDATHeader <> 'IDAT' then + begin + Owner.RaiseError(EPNGMissingMultipleIDAT, EPNGMissingMultipleIDATText); + result := -1; + exit; + end; + + {Calculate chunk name part of the crc} + {$IFDEF CheckCRC} + crcfile := update_crc($ffffffff, @IDATHeader[0], 4); + {$ENDIF} + EndPos := fStream.Position + ByteSwap(EndPos); + end; + + + {In case it needs compressed data to read from} + if avail_in = 0 then + begin + {In case it's trying to read more than it is avaliable} + if fStream.Position + ZLIBAllocate > EndPos then + avail_in := fStream.Read(Data^, EndPos - fStream.Position) + else + avail_in := fStream.Read(Data^, ZLIBAllocate); + {Update crc} + {$IFDEF CheckCRC} + crcfile := update_crc(crcfile, Data, avail_in); + {$ENDIF} + + {In case there is no more compressed data to read from} + if avail_in = 0 then + begin + Result := Count - avail_out; + Exit; + end; + + {Set next buffer to read and record current position} + next_in := Data; + + end {if avail_in = 0}; + + ProcResult := inflate(zlib, 0); + + {In case the result was not sucessfull} + if (ProcResult < 0) then + begin + Result := -1; + Owner.RaiseError(EPNGZLIBError, + EPNGZLIBErrorText + zliberrors[procresult]); + exit; + end; + + end {while avail_out > 0}; + + end {with}; + + {If everything gone ok, it returns the count bytes} + Result := Count; +end; + +{TChunkIDAT implementation} + +const + {Adam 7 interlacing values} + RowStart: array[0..6] of Integer = (0, 0, 4, 0, 2, 0, 1); + ColumnStart: array[0..6] of Integer = (0, 4, 0, 2, 0, 1, 0); + RowIncrement: array[0..6] of Integer = (8, 8, 8, 4, 4, 2, 2); + ColumnIncrement: array[0..6] of Integer = (8, 8, 4, 4, 2, 2, 1); + +{Copy interlaced images with 1 byte for R, G, B} +procedure TChunkIDAT.CopyInterlacedRGB8(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + Col: Integer; +begin + {Get first column and enter in loop} + Col := ColumnStart[Pass]; + Dest := pChar(Longint(Dest) + Col * 3); + repeat + {Copy this row} + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) + 2)^]; inc(Dest); + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) + 1)^]; inc(Dest); + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) )^]; inc(Dest); + + {Move to next column} + inc(Src, 3); + inc(Dest, ColumnIncrement[Pass] * 3 - 3); + inc(Col, ColumnIncrement[Pass]); + until Col >= ImageWidth; +end; + +{Copy interlaced images with 2 bytes for R, G, B} +procedure TChunkIDAT.CopyInterlacedRGB16(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + Col: Integer; +begin + {Get first column and enter in loop} + Col := ColumnStart[Pass]; + Dest := pChar(Longint(Dest) + Col * 3); + repeat + {Copy this row} + Byte(Dest^) := Owner.GammaTable[pByte(Longint(Src) + 4)^]; inc(Dest); + Byte(Dest^) := Owner.GammaTable[pByte(Longint(Src) + 2)^]; inc(Dest); + Byte(Dest^) := Owner.GammaTable[pByte(Longint(Src) )^]; inc(Dest); + {$IFDEF Store16bits} + {Copy extra pixel values} + Byte(Extra^) := fOwner.GammaTable[pByte(Longint(Src) + 5)^]; inc(Extra); + Byte(Extra^) := fOwner.GammaTable[pByte(Longint(Src) + 3)^]; inc(Extra); + Byte(Extra^) := fOwner.GammaTable[pByte(Longint(Src) + 1)^]; inc(Extra); + {$ENDIF} + + {Move to next column} + inc(Src, 6); + inc(Dest, ColumnIncrement[Pass] * 3 - 3); + inc(Col, ColumnIncrement[Pass]); + until Col >= ImageWidth; +end; + +{Copy ímages with palette using bit depths 1, 4 or 8} +procedure TChunkIDAT.CopyInterlacedPalette148(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +const + BitTable: Array[1..8] of Integer = ($1, $3, 0, $F, 0, 0, 0, $FF); + StartBit: Array[1..8] of Integer = (7 , 0 , 0, 4, 0, 0, 0, 0); +var + CurBit, Col: Integer; + Dest2: PChar; +begin + {Get first column and enter in loop} + Col := ColumnStart[Pass]; + repeat + {Copy data} + CurBit := StartBit[Header.BitDepth]; + repeat + {Adjust pointer to pixel byte bounds} + Dest2 := pChar(Longint(Dest) + (Header.BitDepth * Col) div 8); + {Copy data} + Byte(Dest2^) := Byte(Dest2^) or + ( ((Byte(Src^) shr CurBit) and BitTable[Header.BitDepth]) + shl (StartBit[Header.BitDepth] - (Col * Header.BitDepth mod 8))); + + {Move to next column} + inc(Col, ColumnIncrement[Pass]); + {Will read next bits} + dec(CurBit, Header.BitDepth); + until CurBit < 0; + + {Move to next byte in source} + inc(Src); + until Col >= ImageWidth; +end; + +{Copy ímages with palette using bit depth 2} +procedure TChunkIDAT.CopyInterlacedPalette2(const Pass: Byte; Src, Dest, + Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + CurBit, Col: Integer; + Dest2: PChar; +begin + {Get first column and enter in loop} + Col := ColumnStart[Pass]; + repeat + {Copy data} + CurBit := 6; + repeat + {Adjust pointer to pixel byte bounds} + Dest2 := pChar(Longint(Dest) + Col div 2); + {Copy data} + Byte(Dest2^) := Byte(Dest2^) or (((Byte(Src^) shr CurBit) and $3) + shl (4 - (4 * Col) mod 8)); + {Move to next column} + inc(Col, ColumnIncrement[Pass]); + {Will read next bits} + dec(CurBit, 2); + until CurBit < 0; + + {Move to next byte in source} + inc(Src); + until Col >= ImageWidth; +end; + +{Copy ímages with grayscale using bit depth 2} +procedure TChunkIDAT.CopyInterlacedGray2(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + CurBit, Col: Integer; + Dest2: PChar; +begin + {Get first column and enter in loop} + Col := ColumnStart[Pass]; + repeat + {Copy data} + CurBit := 6; + repeat + {Adjust pointer to pixel byte bounds} + Dest2 := pChar(Longint(Dest) + Col div 2); + {Copy data} + Byte(Dest2^) := Byte(Dest2^) or ((((Byte(Src^) shr CurBit) shl 2) and $F) + shl (4 - (Col*4) mod 8)); + {Move to next column} + inc(Col, ColumnIncrement[Pass]); + {Will read next bits} + dec(CurBit, 2); + until CurBit < 0; + + {Move to next byte in source} + inc(Src); + until Col >= ImageWidth; +end; + +{Copy ímages with palette using 2 bytes for each pixel} +procedure TChunkIDAT.CopyInterlacedGrayscale16(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + Col: Integer; +begin + {Get first column and enter in loop} + Col := ColumnStart[Pass]; + Dest := pChar(Longint(Dest) + Col); + repeat + {Copy this row} + Dest^ := Src^; inc(Dest); + {$IFDEF Store16bits} + Extra^ := pChar(Longint(Src) + 1)^; inc(Extra); + {$ENDIF} + + {Move to next column} + inc(Src, 2); + inc(Dest, ColumnIncrement[Pass] - 1); + inc(Col, ColumnIncrement[Pass]); + until Col >= ImageWidth; +end; + +{Decodes interlaced RGB alpha with 1 byte for each sample} +procedure TChunkIDAT.CopyInterlacedRGBAlpha8(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + Col: Integer; +begin + {Get first column and enter in loop} + Col := ColumnStart[Pass]; + Dest := pChar(Longint(Dest) + Col * 3); + Trans := pChar(Longint(Trans) + Col); + repeat + {Copy this row and alpha value} + Trans^ := pChar(Longint(Src) + 3)^; + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) + 2)^]; inc(Dest); + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) + 1)^]; inc(Dest); + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) )^]; inc(Dest); + + {Move to next column} + inc(Src, 4); + inc(Dest, ColumnIncrement[Pass] * 3 - 3); + inc(Trans, ColumnIncrement[Pass]); + inc(Col, ColumnIncrement[Pass]); + until Col >= ImageWidth; +end; + +{Decodes interlaced RGB alpha with 2 bytes for each sample} +procedure TChunkIDAT.CopyInterlacedRGBAlpha16(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + Col: Integer; +begin + {Get first column and enter in loop} + Col := ColumnStart[Pass]; + Dest := pChar(Longint(Dest) + Col * 3); + Trans := pChar(Longint(Trans) + Col); + repeat + {Copy this row and alpha value} + Trans^ := pChar(Longint(Src) + 6)^; + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) + 4)^]; inc(Dest); + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) + 2)^]; inc(Dest); + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) )^]; inc(Dest); + {$IFDEF Store16bits} + {Copy extra pixel values} + Byte(Extra^) := fOwner.GammaTable[pByte(Longint(Src) + 5)^]; inc(Extra); + Byte(Extra^) := fOwner.GammaTable[pByte(Longint(Src) + 3)^]; inc(Extra); + Byte(Extra^) := fOwner.GammaTable[pByte(Longint(Src) + 1)^]; inc(Extra); + {$ENDIF} + + {Move to next column} + inc(Src, 8); + inc(Dest, ColumnIncrement[Pass] * 3 - 3); + inc(Trans, ColumnIncrement[Pass]); + inc(Col, ColumnIncrement[Pass]); + until Col >= ImageWidth; +end; + +{Decodes 8 bit grayscale image followed by an alpha sample} +procedure TChunkIDAT.CopyInterlacedGrayscaleAlpha8(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + Col: Integer; +begin + {Get first column, pointers to the data and enter in loop} + Col := ColumnStart[Pass]; + Dest := pChar(Longint(Dest) + Col); + Trans := pChar(Longint(Trans) + Col); + repeat + {Copy this grayscale value and alpha} + Dest^ := Src^; inc(Src); + Trans^ := Src^; inc(Src); + + {Move to next column} + inc(Dest, ColumnIncrement[Pass]); + inc(Trans, ColumnIncrement[Pass]); + inc(Col, ColumnIncrement[Pass]); + until Col >= ImageWidth; +end; + +{Decodes 16 bit grayscale image followed by an alpha sample} +procedure TChunkIDAT.CopyInterlacedGrayscaleAlpha16(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + Col: Integer; +begin + {Get first column, pointers to the data and enter in loop} + Col := ColumnStart[Pass]; + Dest := pChar(Longint(Dest) + Col); + Trans := pChar(Longint(Trans) + Col); + repeat + {$IFDEF Store16bits} + Extra^ := pChar(Longint(Src) + 1)^; inc(Extra); + {$ENDIF} + {Copy this grayscale value and alpha, transforming 16 bits into 8} + Dest^ := Src^; inc(Src, 2); + Trans^ := Src^; inc(Src, 2); + + {Move to next column} + inc(Dest, ColumnIncrement[Pass]); + inc(Trans, ColumnIncrement[Pass]); + inc(Col, ColumnIncrement[Pass]); + until Col >= ImageWidth; +end; + +{Decodes an interlaced image} +procedure TChunkIDAT.DecodeInterlacedAdam7(Stream: TStream; + var ZLIBStream: TZStreamRec2; const Size: Integer; var crcfile: Cardinal); +var + CurrentPass: Byte; + PixelsThisRow: Integer; + CurrentRow: Integer; + Trans, Data{$IFDEF Store16bits}, Extra{$ENDIF}: pChar; + CopyProc: procedure(const Pass: Byte; Src, Dest, + Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar) of object; +begin + + CopyProc := nil; {Initialize} + {Determine method to copy the image data} + case Header.ColorType of + {R, G, B values for each pixel} + COLOR_RGB: + case Header.BitDepth of + 8: CopyProc := CopyInterlacedRGB8; + 16: CopyProc := CopyInterlacedRGB16; + end {case Header.BitDepth}; + {Palette} + COLOR_PALETTE, COLOR_GRAYSCALE: + case Header.BitDepth of + 1, 4, 8: CopyProc := CopyInterlacedPalette148; + 2 : if Header.ColorType = COLOR_PALETTE then + CopyProc := CopyInterlacedPalette2 + else + CopyProc := CopyInterlacedGray2; + 16 : CopyProc := CopyInterlacedGrayscale16; + end; + {RGB followed by alpha} + COLOR_RGBALPHA: + case Header.BitDepth of + 8: CopyProc := CopyInterlacedRGBAlpha8; + 16: CopyProc := CopyInterlacedRGBAlpha16; + end; + {Grayscale followed by alpha} + COLOR_GRAYSCALEALPHA: + case Header.BitDepth of + 8: CopyProc := CopyInterlacedGrayscaleAlpha8; + 16: CopyProc := CopyInterlacedGrayscaleAlpha16; + end; + end {case Header.ColorType}; + + {Adam7 method has 7 passes to make the final image} + FOR CurrentPass := 0 TO 6 DO + begin + {Calculates the number of pixels and bytes for this pass row} + PixelsThisRow := (ImageWidth - ColumnStart[CurrentPass] + + ColumnIncrement[CurrentPass] - 1) div ColumnIncrement[CurrentPass]; + Row_Bytes := BytesForPixels(PixelsThisRow, Header.ColorType, + Header.BitDepth); + {Clear buffer for this pass} + ZeroMemory(Row_Buffer[not RowUsed], Row_Bytes); + + {Get current row index} + CurrentRow := RowStart[CurrentPass]; + {Get a pointer to the current row image data} + Data := Ptr(Longint(Header.ImageData) + Header.BytesPerRow * + (ImageHeight - 1 - CurrentRow)); + Trans := Ptr(Longint(Header.ImageAlpha) + ImageWidth * CurrentRow); + {$IFDEF Store16bits} + Extra := Ptr(Longint(Header.ExtraImageData) + Header.BytesPerRow * + (ImageHeight - 1 - CurrentRow)); + {$ENDIF} + + if Row_Bytes > 0 then {There must have bytes for this interlaced pass} + while CurrentRow < ImageHeight do + begin + {Reads this line and filter} + if IDATZlibRead(ZLIBStream, @Row_Buffer[RowUsed][0], Row_Bytes + 1, + EndPos, CRCFile) = 0 then break; + + FilterRow; + {Copy image data} + + CopyProc(CurrentPass, @Row_Buffer[RowUsed][1], Data, Trans + {$IFDEF Store16bits}, Extra{$ENDIF}); + + {Use the other RowBuffer item} + RowUsed := not RowUsed; + + {Move to the next row} + inc(CurrentRow, RowIncrement[CurrentPass]); + {Move pointer to the next line} + dec(Data, RowIncrement[CurrentPass] * Header.BytesPerRow); + inc(Trans, RowIncrement[CurrentPass] * ImageWidth); + {$IFDEF Store16bits} + dec(Extra, RowIncrement[CurrentPass] * Header.BytesPerRow); + {$ENDIF} + end {while CurrentRow < ImageHeight}; + + end {FOR CurrentPass}; + +end; + +{Copy 8 bits RGB image} +procedure TChunkIDAT.CopyNonInterlacedRGB8( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + I: Integer; +begin + FOR I := 1 TO ImageWidth DO + begin + {Copy pixel values} + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) + 2)^]; inc(Dest); + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) + 1)^]; inc(Dest); + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) )^]; inc(Dest); + {Move to next pixel} + inc(Src, 3); + end {for I} +end; + +{Copy 16 bits RGB image} +procedure TChunkIDAT.CopyNonInterlacedRGB16( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + I: Integer; +begin + FOR I := 1 TO ImageWidth DO + begin + //Since windows does not supports 2 bytes for + //each R, G, B value, the method will read only 1 byte from it + {Copy pixel values} + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) + 4)^]; inc(Dest); + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) + 2)^]; inc(Dest); + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) )^]; inc(Dest); + {$IFDEF Store16bits} + {Copy extra pixel values} + Byte(Extra^) := fOwner.GammaTable[pByte(Longint(Src) + 5)^]; inc(Extra); + Byte(Extra^) := fOwner.GammaTable[pByte(Longint(Src) + 3)^]; inc(Extra); + Byte(Extra^) := fOwner.GammaTable[pByte(Longint(Src) + 1)^]; inc(Extra); + {$ENDIF} + + {Move to next pixel} + inc(Src, 6); + end {for I} +end; + +{Copy types using palettes (1, 4 or 8 bits per pixel)} +procedure TChunkIDAT.CopyNonInterlacedPalette148( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +begin + {It's simple as copying the data} + CopyMemory(Dest, Src, Row_Bytes); +end; + +{Copy grayscale types using 2 bits for each pixel} +procedure TChunkIDAT.CopyNonInterlacedGray2( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + i: Integer; +begin + {2 bits is not supported, this routine will converted into 4 bits} + FOR i := 1 TO Row_Bytes do + begin + Byte(Dest^) := ((Byte(Src^) shr 2) and $F) or ((Byte(Src^)) and $F0); inc(Dest); + Byte(Dest^) := ((Byte(Src^) shl 2) and $F) or ((Byte(Src^) shl 4) and $F0); inc(Dest); + inc(Src); + end {FOR i} +end; + +{Copy types using palette with 2 bits for each pixel} +procedure TChunkIDAT.CopyNonInterlacedPalette2( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + i: Integer; +begin + {2 bits is not supported, this routine will converted into 4 bits} + FOR i := 1 TO Row_Bytes do + begin + Byte(Dest^) := ((Byte(Src^) shr 4) and $3) or ((Byte(Src^) shr 2) and $30); inc(Dest); + Byte(Dest^) := (Byte(Src^) and $3) or ((Byte(Src^) shl 2) and $30); inc(Dest); + inc(Src); + end {FOR i} +end; + +{Copy grayscale images with 16 bits} +procedure TChunkIDAT.CopyNonInterlacedGrayscale16( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + I: Integer; +begin + FOR I := 1 TO ImageWidth DO + begin + {Windows does not supports 16 bits for each pixel in grayscale} + {mode, so reduce to 8} + Dest^ := Src^; inc(Dest); + {$IFDEF Store16bits} + Extra^ := pChar(Longint(Src) + 1)^; inc(Extra); + {$ENDIF} + + {Move to next pixel} + inc(Src, 2); + end {for I} +end; + +{Copy 8 bits per sample RGB images followed by an alpha byte} +procedure TChunkIDAT.CopyNonInterlacedRGBAlpha8( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + i: Integer; +begin + FOR I := 1 TO ImageWidth DO + begin + {Copy pixel values and transparency} + Trans^ := pChar(Longint(Src) + 3)^; + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) + 2)^]; inc(Dest); + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) + 1)^]; inc(Dest); + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) )^]; inc(Dest); + {Move to next pixel} + inc(Src, 4); inc(Trans); + end {for I} +end; + +{Copy 16 bits RGB image with alpha using 2 bytes for each sample} +procedure TChunkIDAT.CopyNonInterlacedRGBAlpha16( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + I: Integer; +begin + FOR I := 1 TO ImageWidth DO + begin + //Copy rgb and alpha values (transforming from 16 bits to 8 bits) + {Copy pixel values} + Trans^ := pChar(Longint(Src) + 6)^; + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) + 4)^]; inc(Dest); + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) + 2)^]; inc(Dest); + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) )^]; inc(Dest); + {$IFDEF Store16bits} + {Copy extra pixel values} + Byte(Extra^) := fOwner.GammaTable[pByte(Longint(Src) + 5)^]; inc(Extra); + Byte(Extra^) := fOwner.GammaTable[pByte(Longint(Src) + 3)^]; inc(Extra); + Byte(Extra^) := fOwner.GammaTable[pByte(Longint(Src) + 1)^]; inc(Extra); + {$ENDIF} + {Move to next pixel} + inc(Src, 8); inc(Trans); + end {for I} +end; + +{Copy 8 bits per sample grayscale followed by alpha} +procedure TChunkIDAT.CopyNonInterlacedGrayscaleAlpha8( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + I: Integer; +begin + FOR I := 1 TO ImageWidth DO + begin + {Copy alpha value and then gray value} + Dest^ := Src^; inc(Src); + Trans^ := Src^; inc(Src); + inc(Dest); inc(Trans); + end; +end; + +{Copy 16 bits per sample grayscale followed by alpha} +procedure TChunkIDAT.CopyNonInterlacedGrayscaleAlpha16( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + I: Integer; +begin + FOR I := 1 TO ImageWidth DO + begin + {Copy alpha value and then gray value} + {$IFDEF Store16bits} + Extra^ := pChar(Longint(Src) + 1)^; inc(Extra); + {$ENDIF} + Dest^ := Src^; inc(Src, 2); + Trans^ := Src^; inc(Src, 2); + inc(Dest); inc(Trans); + end; +end; + +{Decode non interlaced image} +procedure TChunkIDAT.DecodeNonInterlaced(Stream: TStream; + var ZLIBStream: TZStreamRec2; const Size: Integer; var crcfile: Cardinal); +var + j: Cardinal; + Trans, Data{$IFDEF Store16bits}, Extra{$ENDIF}: pChar; + CopyProc: procedure( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar) of object; +begin + CopyProc := nil; {Initialize} + {Determines the method to copy the image data} + case Header.ColorType of + {R, G, B values} + COLOR_RGB: + case Header.BitDepth of + 8: CopyProc := CopyNonInterlacedRGB8; + 16: CopyProc := CopyNonInterlacedRGB16; + end; + {Types using palettes} + COLOR_PALETTE, COLOR_GRAYSCALE: + case Header.BitDepth of + 1, 4, 8: CopyProc := CopyNonInterlacedPalette148; + 2 : if Header.ColorType = COLOR_PALETTE then + CopyProc := CopyNonInterlacedPalette2 + else + CopyProc := CopyNonInterlacedGray2; + 16 : CopyProc := CopyNonInterlacedGrayscale16; + end; + {R, G, B followed by alpha} + COLOR_RGBALPHA: + case Header.BitDepth of + 8 : CopyProc := CopyNonInterlacedRGBAlpha8; + 16 : CopyProc := CopyNonInterlacedRGBAlpha16; + end; + {Grayscale followed by alpha} + COLOR_GRAYSCALEALPHA: + case Header.BitDepth of + 8 : CopyProc := CopyNonInterlacedGrayscaleAlpha8; + 16 : CopyProc := CopyNonInterlacedGrayscaleAlpha16; + end; + end; + + {Get the image data pointer} + Longint(Data) := Longint(Header.ImageData) + + Header.BytesPerRow * (ImageHeight - 1); + Trans := Header.ImageAlpha; + {$IFDEF Store16bits} + Longint(Extra) := Longint(Header.ExtraImageData) + + Header.BytesPerRow * (ImageHeight - 1); + {$ENDIF} + {Reads each line} + FOR j := 0 to ImageHeight - 1 do + begin + {Read this line Row_Buffer[RowUsed][0] if the filter type for this line} + if IDATZlibRead(ZLIBStream, @Row_Buffer[RowUsed][0], Row_Bytes + 1, EndPos, + CRCFile) = 0 then break; + + {Filter the current row} + FilterRow; + {Copies non interlaced row to image} + CopyProc(@Row_Buffer[RowUsed][1], Data, Trans{$IFDEF Store16bits}, Extra + {$ENDIF}); + + {Invert line used} + RowUsed := not RowUsed; + dec(Data, Header.BytesPerRow); + {$IFDEF Store16bits}dec(Extra, Header.BytesPerRow);{$ENDIF} + inc(Trans, ImageWidth); + end {for I}; + + +end; + +{Filter the current line} +procedure TChunkIDAT.FilterRow; +var + pp: Byte; + vv, left, above, aboveleft: Integer; + Col: Cardinal; +begin + {Test the filter} + case Row_Buffer[RowUsed]^[0] of + {No filtering for this line} + FILTER_NONE: begin end; + {AND 255 serves only to never let the result be larger than one byte} + {Sub filter} + FILTER_SUB: + FOR Col := Offset + 1 to Row_Bytes DO + Row_Buffer[RowUsed][Col] := (Row_Buffer[RowUsed][Col] + + Row_Buffer[RowUsed][Col - Offset]) and 255; + {Up filter} + FILTER_UP: + FOR Col := 1 to Row_Bytes DO + Row_Buffer[RowUsed][Col] := (Row_Buffer[RowUsed][Col] + + Row_Buffer[not RowUsed][Col]) and 255; + {Average filter} + FILTER_AVERAGE: + FOR Col := 1 to Row_Bytes DO + begin + {Obtains up and left pixels} + above := Row_Buffer[not RowUsed][Col]; + if col - 1 < Offset then + left := 0 + else + Left := Row_Buffer[RowUsed][Col - Offset]; + + {Calculates} + Row_Buffer[RowUsed][Col] := (Row_Buffer[RowUsed][Col] + + (left + above) div 2) and 255; + end; + {Paeth filter} + FILTER_PAETH: + begin + {Initialize} + left := 0; + aboveleft := 0; + {Test each byte} + FOR Col := 1 to Row_Bytes DO + begin + {Obtains above pixel} + above := Row_Buffer[not RowUsed][Col]; + {Obtains left and top-left pixels} + if (col - 1 >= offset) Then + begin + left := row_buffer[RowUsed][col - offset]; + aboveleft := row_buffer[not RowUsed][col - offset]; + end; + + {Obtains current pixel and paeth predictor} + vv := row_buffer[RowUsed][Col]; + pp := PaethPredictor(left, above, aboveleft); + + {Calculates} + Row_Buffer[RowUsed][Col] := (pp + vv) and $FF; + end {for}; + end; + + end {case}; +end; + +{Reads the image data from the stream} +function TChunkIDAT.LoadFromStream(Stream: TStream; const ChunkName: TChunkName; + Size: Integer): Boolean; +var + ZLIBStream: TZStreamRec2; + CRCCheck, + CRCFile : Cardinal; +begin + {Get pointer to the header chunk} + Header := Owner.Chunks.Item[0] as TChunkIHDR; + {Build palette if necessary} + if Header.HasPalette then PreparePalette(); + + {Copy image width and height} + ImageWidth := Header.Width; + ImageHeight := Header.Height; + + {Initialize to calculate CRC} + {$IFDEF CheckCRC} + CRCFile := update_crc($ffffffff, @ChunkName[0], 4); + {$ENDIF} + + Owner.GetPixelInfo(Row_Bytes, Offset); {Obtain line information} + ZLIBStream := ZLIBInitInflate(Stream); {Initializes decompression} + + {Calculate ending position for the current IDAT chunk} + EndPos := Stream.Position + Size; + + {Allocate memory} + GetMem(Row_Buffer[false], Row_Bytes + 1); + GetMem(Row_Buffer[true], Row_Bytes + 1); + ZeroMemory(Row_Buffer[false], Row_bytes + 1); + {Set the variable to alternate the Row_Buffer item to use} + RowUsed := TRUE; + + {Call special methods for the different interlace methods} + case Owner.InterlaceMethod of + imNone: DecodeNonInterlaced(stream, ZLIBStream, Size, crcfile); + imAdam7: DecodeInterlacedAdam7(stream, ZLIBStream, size, crcfile); + end; + + {Free memory} + ZLIBTerminateInflate(ZLIBStream); {Terminates decompression} + FreeMem(Row_Buffer[False], Row_Bytes + 1); + FreeMem(Row_Buffer[True], Row_Bytes + 1); + + {Now checks CRC} + Stream.Read(CRCCheck, 4); + {$IFDEF CheckCRC} + CRCFile := CRCFile xor $ffffffff; + CRCCheck := ByteSwap(CRCCheck); + Result := CRCCheck = CRCFile; + + {Handle CRC error} + if not Result then + begin + {In case it coult not load chunk} + Owner.RaiseError(EPngInvalidCRC, EPngInvalidCRCText); + exit; + end; + {$ELSE}Result := TRUE; {$ENDIF} +end; + +const + IDATHeader: Array[0..3] of char = ('I', 'D', 'A', 'T'); + BUFFER = 5; + +{Saves the IDAT chunk to a stream} +function TChunkIDAT.SaveToStream(Stream: TStream): Boolean; +var + ZLIBStream : TZStreamRec2; +begin + {Get pointer to the header chunk} + Header := Owner.Chunks.Item[0] as TChunkIHDR; + {Copy image width and height} + ImageWidth := Header.Width; + ImageHeight := Header.Height; + Owner.GetPixelInfo(Row_Bytes, Offset); {Obtain line information} + + {Allocate memory} + GetMem(Encode_Buffer[BUFFER], Row_Bytes); + ZeroMemory(Encode_Buffer[BUFFER], Row_Bytes); + {Allocate buffers for the filters selected} + {Filter none will always be calculated to the other filters to work} + GetMem(Encode_Buffer[FILTER_NONE], Row_Bytes); + ZeroMemory(Encode_Buffer[FILTER_NONE], Row_Bytes); + if pfSub in Owner.Filters then + GetMem(Encode_Buffer[FILTER_SUB], Row_Bytes); + if pfUp in Owner.Filters then + GetMem(Encode_Buffer[FILTER_UP], Row_Bytes); + if pfAverage in Owner.Filters then + GetMem(Encode_Buffer[FILTER_AVERAGE], Row_Bytes); + if pfPaeth in Owner.Filters then + GetMem(Encode_Buffer[FILTER_PAETH], Row_Bytes); + + {Initialize ZLIB} + ZLIBStream := ZLIBInitDeflate(Stream, Owner.fCompressionLevel, + Owner.MaxIdatSize); + {Write data depending on the interlace method} + case Owner.InterlaceMethod of + imNone: EncodeNonInterlaced(stream, ZLIBStream); + imAdam7: EncodeInterlacedAdam7(stream, ZLIBStream); + end; + {Terminates ZLIB} + ZLIBTerminateDeflate(ZLIBStream); + + {Release allocated memory} + FreeMem(Encode_Buffer[BUFFER], Row_Bytes); + FreeMem(Encode_Buffer[FILTER_NONE], Row_Bytes); + if pfSub in Owner.Filters then + FreeMem(Encode_Buffer[FILTER_SUB], Row_Bytes); + if pfUp in Owner.Filters then + FreeMem(Encode_Buffer[FILTER_UP], Row_Bytes); + if pfAverage in Owner.Filters then + FreeMem(Encode_Buffer[FILTER_AVERAGE], Row_Bytes); + if pfPaeth in Owner.Filters then + FreeMem(Encode_Buffer[FILTER_PAETH], Row_Bytes); + + {Everything went ok} + Result := True; +end; + +{Writes the IDAT using the settings} +procedure WriteIDAT(Stream: TStream; Data: Pointer; const Length: Cardinal); +var + ChunkLen, CRC: Cardinal; +begin + {Writes IDAT header} + ChunkLen := ByteSwap(Length); + Stream.Write(ChunkLen, 4); {Chunk length} + Stream.Write(IDATHeader[0], 4); {Idat header} + CRC := update_crc($ffffffff, @IDATHeader[0], 4); {Crc part for header} + + {Writes IDAT data and calculates CRC for data} + Stream.Write(Data^, Length); + CRC := Byteswap(update_crc(CRC, Data, Length) xor $ffffffff); + {Writes final CRC} + Stream.Write(CRC, 4); +end; + +{Compress and writes IDAT chunk data} +procedure TChunkIDAT.IDATZlibWrite(var ZLIBStream: TZStreamRec2; + Buffer: Pointer; const Length: Cardinal); +begin + with ZLIBStream, ZLIBStream.ZLIB do + begin + {Set data to be compressed} + next_in := Buffer; + avail_in := Length; + + {Compress all the data avaliable to compress} + while avail_in > 0 do + begin + deflate(ZLIB, Z_NO_FLUSH); + + {The whole buffer was used, save data to stream and restore buffer} + if avail_out = 0 then + begin + {Writes this IDAT chunk} + WriteIDAT(fStream, Data, ZLIBAllocate); + + {Restore buffer} + next_out := Data; + avail_out := ZLIBAllocate; + end {if avail_out = 0}; + + end {while avail_in}; + + end {with ZLIBStream, ZLIBStream.ZLIB} +end; + +{Finishes compressing data to write IDAT chunk} +procedure TChunkIDAT.FinishIDATZlib(var ZLIBStream: TZStreamRec2); +begin + with ZLIBStream, ZLIBStream.ZLIB do + begin + {Set data to be compressed} + next_in := nil; + avail_in := 0; + + while deflate(ZLIB,Z_FINISH) <> Z_STREAM_END do + begin + {Writes this IDAT chunk} + WriteIDAT(fStream, Data, ZLIBAllocate - avail_out); + {Re-update buffer} + next_out := Data; + avail_out := ZLIBAllocate; + end; + + if avail_out < ZLIBAllocate then + {Writes final IDAT} + WriteIDAT(fStream, Data, ZLIBAllocate - avail_out); + + end {with ZLIBStream, ZLIBStream.ZLIB}; +end; + +{Copy memory to encode RGB image with 1 byte for each color sample} +procedure TChunkIDAT.EncodeNonInterlacedRGB8(Src, Dest, Trans: pChar); +var + I: Integer; +begin + FOR I := 1 TO ImageWidth DO + begin + {Copy pixel values} + Byte(Dest^) := fOwner.InverseGamma[pByte(Longint(Src) + 2)^]; inc(Dest); + Byte(Dest^) := fOwner.InverseGamma[pByte(Longint(Src) + 1)^]; inc(Dest); + Byte(Dest^) := fOwner.InverseGamma[pByte(Longint(Src) )^]; inc(Dest); + {Move to next pixel} + inc(Src, 3); + end {for I} +end; + +{Copy memory to encode RGB images with 16 bits for each color sample} +procedure TChunkIDAT.EncodeNonInterlacedRGB16(Src, Dest, Trans: pChar); +var + I: Integer; +begin + FOR I := 1 TO ImageWidth DO + begin + //Now we copy from 1 byte for each sample stored to a 2 bytes (or 1 word) + //for sample + {Copy pixel values} + pWORD(Dest)^ := fOwner.InverseGamma[pByte(Longint(Src) + 2)^]; inc(Dest, 2); + pWORD(Dest)^ := fOwner.InverseGamma[pByte(Longint(Src) + 1)^]; inc(Dest, 2); + pWORD(Dest)^ := fOwner.InverseGamma[pByte(Longint(Src) )^]; inc(Dest, 2); + {Move to next pixel} + inc(Src, 3); + end {for I} + +end; + +{Copy memory to encode types using palettes (1, 4 or 8 bits per pixel)} +procedure TChunkIDAT.EncodeNonInterlacedPalette148(Src, Dest, Trans: pChar); +begin + {It's simple as copying the data} + CopyMemory(Dest, Src, Row_Bytes); +end; + +{Copy memory to encode grayscale images with 2 bytes for each sample} +procedure TChunkIDAT.EncodeNonInterlacedGrayscale16(Src, Dest, Trans: pChar); +var + I: Integer; +begin + FOR I := 1 TO ImageWidth DO + begin + //Now we copy from 1 byte for each sample stored to a 2 bytes (or 1 word) + //for sample + pWORD(Dest)^ := pByte(Longint(Src))^; inc(Dest, 2); + {Move to next pixel} + inc(Src); + end {for I} +end; + +{Encode images using RGB followed by an alpha value using 1 byte for each} +procedure TChunkIDAT.EncodeNonInterlacedRGBAlpha8(Src, Dest, Trans: pChar); +var + i: Integer; +begin + {Copy the data to the destination, including data from Trans pointer} + FOR i := 1 TO ImageWidth do + begin + Byte(Dest^) := Owner.InverseGamma[PByte(Longint(Src) + 2)^]; inc(Dest); + Byte(Dest^) := Owner.InverseGamma[PByte(Longint(Src) + 1)^]; inc(Dest); + Byte(Dest^) := Owner.InverseGamma[PByte(Longint(Src) )^]; inc(Dest); + Dest^ := Trans^; inc(Dest); + inc(Src, 3); inc(Trans); + end {for i}; +end; + +{Encode images using RGB followed by an alpha value using 2 byte for each} +procedure TChunkIDAT.EncodeNonInterlacedRGBAlpha16(Src, Dest, Trans: pChar); +var + i: Integer; +begin + {Copy the data to the destination, including data from Trans pointer} + FOR i := 1 TO ImageWidth do + begin + pWord(Dest)^ := Owner.InverseGamma[PByte(Longint(Src) + 2)^]; inc(Dest, 2); + pWord(Dest)^ := Owner.InverseGamma[PByte(Longint(Src) + 1)^]; inc(Dest, 2); + pWord(Dest)^ := Owner.InverseGamma[PByte(Longint(Src) )^]; inc(Dest, 2); + pWord(Dest)^ := PByte(Longint(Trans) )^; inc(Dest, 2); + inc(Src, 3); inc(Trans); + end {for i}; +end; + +{Encode grayscale images followed by an alpha value using 1 byte for each} +procedure TChunkIDAT.EncodeNonInterlacedGrayscaleAlpha8( + Src, Dest, Trans: pChar); +var + i: Integer; +begin + {Copy the data to the destination, including data from Trans pointer} + FOR i := 1 TO ImageWidth do + begin + Dest^ := Src^; inc(Dest); + Dest^ := Trans^; inc(Dest); + inc(Src); inc(Trans); + end {for i}; +end; + +{Encode grayscale images followed by an alpha value using 2 byte for each} +procedure TChunkIDAT.EncodeNonInterlacedGrayscaleAlpha16( + Src, Dest, Trans: pChar); +var + i: Integer; +begin + {Copy the data to the destination, including data from Trans pointer} + FOR i := 1 TO ImageWidth do + begin + pWord(Dest)^ := pByte(Src)^; inc(Dest, 2); + pWord(Dest)^ := pByte(Trans)^; inc(Dest, 2); + inc(Src); inc(Trans); + end {for i}; +end; + +{Encode non interlaced images} +procedure TChunkIDAT.EncodeNonInterlaced(Stream: TStream; + var ZLIBStream: TZStreamRec2); +var + {Current line} + j: Cardinal; + {Pointers to image data} + Data, Trans: PChar; + {Filter used for this line} + Filter: Byte; + {Method which will copy the data into the buffer} + CopyProc: procedure(Src, Dest, Trans: pChar) of object; +begin + CopyProc := nil; {Initialize to avoid warnings} + {Defines the method to copy the data to the buffer depending on} + {the image parameters} + case Header.ColorType of + {R, G, B values} + COLOR_RGB: + case Header.BitDepth of + 8: CopyProc := EncodeNonInterlacedRGB8; + 16: CopyProc := EncodeNonInterlacedRGB16; + end; + {Palette and grayscale values} + COLOR_GRAYSCALE, COLOR_PALETTE: + case Header.BitDepth of + 1, 4, 8: CopyProc := EncodeNonInterlacedPalette148; + 16: CopyProc := EncodeNonInterlacedGrayscale16; + end; + {RGB with a following alpha value} + COLOR_RGBALPHA: + case Header.BitDepth of + 8: CopyProc := EncodeNonInterlacedRGBAlpha8; + 16: CopyProc := EncodeNonInterlacedRGBAlpha16; + end; + {Grayscale images followed by an alpha} + COLOR_GRAYSCALEALPHA: + case Header.BitDepth of + 8: CopyProc := EncodeNonInterlacedGrayscaleAlpha8; + 16: CopyProc := EncodeNonInterlacedGrayscaleAlpha16; + end; + end {case Header.ColorType}; + + {Get the image data pointer} + Longint(Data) := Longint(Header.ImageData) + + Header.BytesPerRow * (ImageHeight - 1); + Trans := Header.ImageAlpha; + + {Writes each line} + FOR j := 0 to ImageHeight - 1 do + begin + {Copy data into buffer} + CopyProc(Data, @Encode_Buffer[BUFFER][0], Trans); + {Filter data} + Filter := FilterToEncode; + + {Compress data} + IDATZlibWrite(ZLIBStream, @Filter, 1); + IDATZlibWrite(ZLIBStream, @Encode_Buffer[Filter][0], Row_Bytes); + + {Adjust pointers to the actual image data} + dec(Data, Header.BytesPerRow); + inc(Trans, ImageWidth); + end; + + {Compress and finishes copying the remaining data} + FinishIDATZlib(ZLIBStream); +end; + +{Copy memory to encode interlaced images using RGB value with 1 byte for} +{each color sample} +procedure TChunkIDAT.EncodeInterlacedRGB8(const Pass: Byte; + Src, Dest, Trans: pChar); +var + Col: Integer; +begin + {Get first column and enter in loop} + Col := ColumnStart[Pass]; + Src := pChar(Longint(Src) + Col * 3); + repeat + {Copy this row} + Byte(Dest^) := fOwner.InverseGamma[pByte(Longint(Src) + 2)^]; inc(Dest); + Byte(Dest^) := fOwner.InverseGamma[pByte(Longint(Src) + 1)^]; inc(Dest); + Byte(Dest^) := fOwner.InverseGamma[pByte(Longint(Src) )^]; inc(Dest); + + {Move to next column} + inc(Src, ColumnIncrement[Pass] * 3); + inc(Col, ColumnIncrement[Pass]); + until Col >= ImageWidth; +end; + +{Copy memory to encode interlaced RGB images with 2 bytes each color sample} +procedure TChunkIDAT.EncodeInterlacedRGB16(const Pass: Byte; + Src, Dest, Trans: pChar); +var + Col: Integer; +begin + {Get first column and enter in loop} + Col := ColumnStart[Pass]; + Src := pChar(Longint(Src) + Col * 3); + repeat + {Copy this row} + pWord(Dest)^ := Owner.InverseGamma[pByte(Longint(Src) + 2)^]; inc(Dest, 2); + pWord(Dest)^ := Owner.InverseGamma[pByte(Longint(Src) + 1)^]; inc(Dest, 2); + pWord(Dest)^ := Owner.InverseGamma[pByte(Longint(Src) )^]; inc(Dest, 2); + + {Move to next column} + inc(Src, ColumnIncrement[Pass] * 3); + inc(Col, ColumnIncrement[Pass]); + until Col >= ImageWidth; +end; + +{Copy memory to encode interlaced images using palettes using bit depths} +{1, 4, 8 (each pixel in the image)} +procedure TChunkIDAT.EncodeInterlacedPalette148(const Pass: Byte; + Src, Dest, Trans: pChar); +const + BitTable: Array[1..8] of Integer = ($1, $3, 0, $F, 0, 0, 0, $FF); + StartBit: Array[1..8] of Integer = (7 , 0 , 0, 4, 0, 0, 0, 0); +var + CurBit, Col: Integer; + Src2: PChar; +begin + {Clean the line} + fillchar(Dest^, Row_Bytes, #0); + {Get first column and enter in loop} + Col := ColumnStart[Pass]; + with Header.BitmapInfo.bmiHeader do + repeat + {Copy data} + CurBit := StartBit[biBitCount]; + repeat + {Adjust pointer to pixel byte bounds} + Src2 := pChar(Longint(Src) + (biBitCount * Col) div 8); + {Copy data} + Byte(Dest^) := Byte(Dest^) or + (((Byte(Src2^) shr (StartBit[Header.BitDepth] - (biBitCount * Col) + mod 8))) and (BitTable[biBitCount])) shl CurBit; + + {Move to next column} + inc(Col, ColumnIncrement[Pass]); + {Will read next bits} + dec(CurBit, biBitCount); + until CurBit < 0; + + {Move to next byte in source} + inc(Dest); + until Col >= ImageWidth; +end; + +{Copy to encode interlaced grayscale images using 16 bits for each sample} +procedure TChunkIDAT.EncodeInterlacedGrayscale16(const Pass: Byte; + Src, Dest, Trans: pChar); +var + Col: Integer; +begin + {Get first column and enter in loop} + Col := ColumnStart[Pass]; + Src := pChar(Longint(Src) + Col); + repeat + {Copy this row} + pWord(Dest)^ := Byte(Src^); inc(Dest, 2); + + {Move to next column} + inc(Src, ColumnIncrement[Pass]); + inc(Col, ColumnIncrement[Pass]); + until Col >= ImageWidth; +end; + +{Copy to encode interlaced rgb images followed by an alpha value, all using} +{one byte for each sample} +procedure TChunkIDAT.EncodeInterlacedRGBAlpha8(const Pass: Byte; + Src, Dest, Trans: pChar); +var + Col: Integer; +begin + {Get first column and enter in loop} + Col := ColumnStart[Pass]; + Src := pChar(Longint(Src) + Col * 3); + Trans := pChar(Longint(Trans) + Col); + repeat + {Copy this row} + Byte(Dest^) := Owner.InverseGamma[pByte(Longint(Src) + 2)^]; inc(Dest); + Byte(Dest^) := Owner.InverseGamma[pByte(Longint(Src) + 1)^]; inc(Dest); + Byte(Dest^) := Owner.InverseGamma[pByte(Longint(Src) )^]; inc(Dest); + Dest^ := Trans^; inc(Dest); + + {Move to next column} + inc(Src, ColumnIncrement[Pass] * 3); + inc(Trans, ColumnIncrement[Pass]); + inc(Col, ColumnIncrement[Pass]); + until Col >= ImageWidth; +end; + +{Copy to encode interlaced rgb images followed by an alpha value, all using} +{two byte for each sample} +procedure TChunkIDAT.EncodeInterlacedRGBAlpha16(const Pass: Byte; + Src, Dest, Trans: pChar); +var + Col: Integer; +begin + {Get first column and enter in loop} + Col := ColumnStart[Pass]; + Src := pChar(Longint(Src) + Col * 3); + Trans := pChar(Longint(Trans) + Col); + repeat + {Copy this row} + pWord(Dest)^ := pByte(Longint(Src) + 2)^; inc(Dest, 2); + pWord(Dest)^ := pByte(Longint(Src) + 1)^; inc(Dest, 2); + pWord(Dest)^ := pByte(Longint(Src) )^; inc(Dest, 2); + pWord(Dest)^ := pByte(Trans)^; inc(Dest, 2); + + {Move to next column} + inc(Src, ColumnIncrement[Pass] * 3); + inc(Trans, ColumnIncrement[Pass]); + inc(Col, ColumnIncrement[Pass]); + until Col >= ImageWidth; +end; + +{Copy to encode grayscale interlaced images followed by an alpha value, all} +{using 1 byte for each sample} +procedure TChunkIDAT.EncodeInterlacedGrayscaleAlpha8(const Pass: Byte; + Src, Dest, Trans: pChar); +var + Col: Integer; +begin + {Get first column and enter in loop} + Col := ColumnStart[Pass]; + Src := pChar(Longint(Src) + Col); + Trans := pChar(Longint(Trans) + Col); + repeat + {Copy this row} + Dest^ := Src^; inc(Dest); + Dest^ := Trans^; inc(Dest); + + {Move to next column} + inc(Src, ColumnIncrement[Pass]); + inc(Trans, ColumnIncrement[Pass]); + inc(Col, ColumnIncrement[Pass]); + until Col >= ImageWidth; +end; + +{Copy to encode grayscale interlaced images followed by an alpha value, all} +{using 2 bytes for each sample} +procedure TChunkIDAT.EncodeInterlacedGrayscaleAlpha16(const Pass: Byte; + Src, Dest, Trans: pChar); +var + Col: Integer; +begin + {Get first column and enter in loop} + Col := ColumnStart[Pass]; + Src := pChar(Longint(Src) + Col); + Trans := pChar(Longint(Trans) + Col); + repeat + {Copy this row} + pWord(Dest)^ := pByte(Src)^; inc(Dest, 2); + pWord(Dest)^ := pByte(Trans)^; inc(Dest, 2); + + {Move to next column} + inc(Src, ColumnIncrement[Pass]); + inc(Trans, ColumnIncrement[Pass]); + inc(Col, ColumnIncrement[Pass]); + until Col >= ImageWidth; +end; + +{Encode interlaced images} +procedure TChunkIDAT.EncodeInterlacedAdam7(Stream: TStream; + var ZLIBStream: TZStreamRec2); +var + CurrentPass, Filter: Byte; + PixelsThisRow: Integer; + CurrentRow : Integer; + Trans, Data: pChar; + CopyProc: procedure(const Pass: Byte; + Src, Dest, Trans: pChar) of object; +begin + CopyProc := nil; {Initialize to avoid warnings} + {Defines the method to copy the data to the buffer depending on} + {the image parameters} + case Header.ColorType of + {R, G, B values} + COLOR_RGB: + case Header.BitDepth of + 8: CopyProc := EncodeInterlacedRGB8; + 16: CopyProc := EncodeInterlacedRGB16; + end; + {Grayscale and palette} + COLOR_PALETTE, COLOR_GRAYSCALE: + case Header.BitDepth of + 1, 4, 8: CopyProc := EncodeInterlacedPalette148; + 16: CopyProc := EncodeInterlacedGrayscale16; + end; + {RGB followed by alpha} + COLOR_RGBALPHA: + case Header.BitDepth of + 8: CopyProc := EncodeInterlacedRGBAlpha8; + 16: CopyProc := EncodeInterlacedRGBAlpha16; + end; + COLOR_GRAYSCALEALPHA: + {Grayscale followed by alpha} + case Header.BitDepth of + 8: CopyProc := EncodeInterlacedGrayscaleAlpha8; + 16: CopyProc := EncodeInterlacedGrayscaleAlpha16; + end; + end {case Header.ColorType}; + + {Compress the image using the seven passes for ADAM 7} + FOR CurrentPass := 0 TO 6 DO + begin + {Calculates the number of pixels and bytes for this pass row} + PixelsThisRow := (ImageWidth - ColumnStart[CurrentPass] + + ColumnIncrement[CurrentPass] - 1) div ColumnIncrement[CurrentPass]; + Row_Bytes := BytesForPixels(PixelsThisRow, Header.ColorType, + Header.BitDepth); + ZeroMemory(Encode_Buffer[FILTER_NONE], Row_Bytes); + + {Get current row index} + CurrentRow := RowStart[CurrentPass]; + {Get a pointer to the current row image data} + Data := Ptr(Longint(Header.ImageData) + Header.BytesPerRow * + (ImageHeight - 1 - CurrentRow)); + Trans := Ptr(Longint(Header.ImageAlpha) + ImageWidth * CurrentRow); + + {Process all the image rows} + if Row_Bytes > 0 then + while CurrentRow < ImageHeight do + begin + {Copy data into buffer} + CopyProc(CurrentPass, Data, @Encode_Buffer[BUFFER][0], Trans); + {Filter data} + Filter := FilterToEncode; + + {Compress data} + IDATZlibWrite(ZLIBStream, @Filter, 1); + IDATZlibWrite(ZLIBStream, @Encode_Buffer[Filter][0], Row_Bytes); + + {Move to the next row} + inc(CurrentRow, RowIncrement[CurrentPass]); + {Move pointer to the next line} + dec(Data, RowIncrement[CurrentPass] * Header.BytesPerRow); + inc(Trans, RowIncrement[CurrentPass] * ImageWidth); + end {while CurrentRow < ImageHeight} + + end {CurrentPass}; + + {Compress and finishes copying the remaining data} + FinishIDATZlib(ZLIBStream); +end; + +{Filters the row to be encoded and returns the best filter} +function TChunkIDAT.FilterToEncode: Byte; +var + Run, LongestRun, ii, jj: Cardinal; + Last, Above, LastAbove: Byte; +begin + {Selecting more filters using the Filters property from TPngObject} + {increases the chances to the file be much smaller, but decreases} + {the performace} + + {This method will creates the same line data using the different} + {filter methods and select the best} + + {Sub-filter} + if pfSub in Owner.Filters then + for ii := 0 to Row_Bytes - 1 do + begin + {There is no previous pixel when it's on the first pixel, so} + {set last as zero when in the first} + if (ii >= Offset) then + last := Encode_Buffer[BUFFER]^[ii - Offset] + else + last := 0; + Encode_Buffer[FILTER_SUB]^[ii] := Encode_Buffer[BUFFER]^[ii] - last; + end; + + {Up filter} + if pfUp in Owner.Filters then + for ii := 0 to Row_Bytes - 1 do + Encode_Buffer[FILTER_UP]^[ii] := Encode_Buffer[BUFFER]^[ii] - + Encode_Buffer[FILTER_NONE]^[ii]; + + {Average filter} + if pfAverage in Owner.Filters then + for ii := 0 to Row_Bytes - 1 do + begin + {Get the previous pixel, if the current pixel is the first, the} + {previous is considered to be 0} + if (ii >= Offset) then + last := Encode_Buffer[BUFFER]^[ii - Offset] + else + last := 0; + {Get the pixel above} + above := Encode_Buffer[FILTER_NONE]^[ii]; + + {Calculates formula to the average pixel} + Encode_Buffer[FILTER_AVERAGE]^[ii] := Encode_Buffer[BUFFER]^[ii] - + (above + last) div 2 ; + end; + + {Paeth filter (the slower)} + if pfPaeth in Owner.Filters then + begin + {Initialize} + last := 0; + lastabove := 0; + for ii := 0 to Row_Bytes - 1 do + begin + {In case this pixel is not the first in the line obtains the} + {previous one and the one above the previous} + if (ii >= Offset) then + begin + last := Encode_Buffer[BUFFER]^[ii - Offset]; + lastabove := Encode_Buffer[FILTER_NONE]^[ii - Offset]; + end; + {Obtains the pixel above} + above := Encode_Buffer[FILTER_NONE]^[ii]; + {Calculate paeth filter for this byte} + Encode_Buffer[FILTER_PAETH]^[ii] := Encode_Buffer[BUFFER]^[ii] - + PaethPredictor(last, above, lastabove); + end; + end; + + {Now calculates the same line using no filter, which is necessary} + {in order to have data to the filters when the next line comes} + CopyMemory(@Encode_Buffer[FILTER_NONE]^[0], + @Encode_Buffer[BUFFER]^[0], Row_Bytes); + + {If only filter none is selected in the filter list, we don't need} + {to proceed and further} + if (Owner.Filters = [pfNone]) or (Owner.Filters = []) then + begin + Result := FILTER_NONE; + exit; + end {if (Owner.Filters = [pfNone...}; + + {Check which filter is the best by checking which has the larger} + {sequence of the same byte, since they are best compressed} + LongestRun := 0; Result := FILTER_NONE; + for ii := FILTER_NONE TO FILTER_PAETH do + {Check if this filter was selected} + if TFilter(ii) in Owner.Filters then + begin + Run := 0; + {Check if it's the only filter} + if Owner.Filters = [TFilter(ii)] then + begin + Result := ii; + exit; + end; + + {Check using a sequence of four bytes} + for jj := 2 to Row_Bytes - 1 do + if (Encode_Buffer[ii]^[jj] = Encode_Buffer [ii]^[jj-1]) or + (Encode_Buffer[ii]^[jj] = Encode_Buffer [ii]^[jj-2]) then + inc(Run); {Count the number of sequences} + + {Check if this one is the best so far} + if (Run > LongestRun) then + begin + Result := ii; + LongestRun := Run; + end {if (Run > LongestRun)}; + + end {if TFilter(ii) in Owner.Filters}; +end; + +{TChunkPLTE implementation} + +{Returns an item in the palette} +function TChunkPLTE.GetPaletteItem(Index: Byte): TRGBQuad; +begin + {Test if item is valid, if not raise error} + if Index > Count - 1 then + Owner.RaiseError(EPNGError, EPNGUnknownPalEntryText) + else + {Returns the item} + Result := Header.BitmapInfo.bmiColors[Index]; +end; + +{Loads the palette chunk from a stream} +function TChunkPLTE.LoadFromStream(Stream: TStream; + const ChunkName: TChunkName; Size: Integer): Boolean; +type + pPalEntry = ^PalEntry; + PalEntry = record r, g, b: Byte end; +var + j : Integer; {For the FOR} + PalColor : pPalEntry; +begin + {Let ancestor load data and check CRC} + Result := inherited LoadFromStream(Stream, ChunkName, Size); + if not Result then exit; + + {This chunk must be divisible by 3 in order to be valid} + if (Size mod 3 <> 0) or (Size div 3 > 256) then + begin + {Raise error} + Result := FALSE; + Owner.RaiseError(EPNGInvalidPalette, EPNGInvalidPaletteText); + exit; + end {if Size mod 3 <> 0}; + + {Fill array with the palette entries} + fCount := Size div 3; + PalColor := Data; + FOR j := 0 TO fCount - 1 DO + with Header.BitmapInfo.bmiColors[j] do + begin + rgbRed := Owner.GammaTable[PalColor.r]; + rgbGreen := Owner.GammaTable[PalColor.g]; + rgbBlue := Owner.GammaTable[PalColor.b]; + rgbReserved := 0; + inc(PalColor); {Move to next palette entry} + end; +end; + +{Saves the PLTE chunk to a stream} +function TChunkPLTE.SaveToStream(Stream: TStream): Boolean; +var + J: Integer; + DataPtr: pByte; +begin + {Adjust size to hold all the palette items} + ResizeData(fCount * 3); + {Copy pointer to data} + DataPtr := fData; + + {Copy palette items} + with Header do + FOR j := 0 TO fCount - 1 DO + with BitmapInfo.bmiColors[j] do + begin + DataPtr^ := Owner.InverseGamma[rgbRed]; inc(DataPtr); + DataPtr^ := Owner.InverseGamma[rgbGreen]; inc(DataPtr); + DataPtr^ := Owner.InverseGamma[rgbBlue]; inc(DataPtr); + end {with BitmapInfo}; + + {Let ancestor do the rest of the work} + Result := inherited SaveToStream(Stream); +end; + +{Assigns from another PLTE chunk} +procedure TChunkPLTE.Assign(Source: TChunk); +begin + {Copy the number of palette items} + if Source is TChunkPLTE then + fCount := TChunkPLTE(Source).fCount + else + Owner.RaiseError(EPNGError, EPNGCannotAssignChunkText); +end; + +{TChunkgAMA implementation} + +{Assigns from another chunk} +procedure TChunkgAMA.Assign(Source: TChunk); +begin + {Copy the gamma value} + if Source is TChunkgAMA then + Gamma := TChunkgAMA(Source).Gamma + else + Owner.RaiseError(EPNGError, EPNGCannotAssignChunkText); +end; + +{Gamma chunk being created} +constructor TChunkgAMA.Create(Owner: TPngObject); +begin + {Call ancestor} + inherited Create(Owner); + Gamma := 1; {Initial value} +end; + +{Returns gamma value} +function TChunkgAMA.GetValue: Cardinal; +begin + {Make sure that the size is four bytes} + if DataSize <> 4 then + begin + {Adjust size and returns 1} + ResizeData(4); + Result := 1; + end + {If it's right, read the value} + else Result := Cardinal(ByteSwap(pCardinal(Data)^)) +end; + +function Power(Base, Exponent: Extended): Extended; +begin + if Exponent = 0.0 then + Result := 1.0 {Math rule} + else if (Base = 0) or (Exponent = 0) then Result := 0 + else + Result := Exp(Exponent * Ln(Base)); +end; + + +{Loading the chunk from a stream} +function TChunkgAMA.LoadFromStream(Stream: TStream; + const ChunkName: TChunkName; Size: Integer): Boolean; +var + i: Integer; + Value: Cardinal; +begin + {Call ancestor and test if it went ok} + Result := inherited LoadFromStream(Stream, ChunkName, Size); + if not Result then exit; + Value := Gamma; + {Build gamma table and inverse table for saving} + if Value <> 0 then + with Owner do + FOR i := 0 TO 255 DO + begin + GammaTable[I] := Round(Power((I / 255), 1 / + (Value / 100000 * 2.2)) * 255); + InverseGamma[Round(Power((I / 255), 1 / + (Value / 100000 * 2.2)) * 255)] := I; + end +end; + +{Sets the gamma value} +procedure TChunkgAMA.SetValue(const Value: Cardinal); +begin + {Make sure that the size is four bytes} + if DataSize <> 4 then ResizeData(4); + {If it's right, set the value} + pCardinal(Data)^ := ByteSwap(Value); +end; + +{TPngObject implementation} + +{Assigns from another object} +procedure TPngObject.Assign(Source: TPersistent); +begin + {Assigns contents from another TPNGObject} + if Source is TPNGObject then + AssignPNG(Source as TPNGObject) + {Copy contents from a TBitmap} + {$IFDEF UseDelphi}else if Source is TBitmap then + with Source as TBitmap do + AssignHandle(Handle, Transparent, + ColorToRGB(TransparentColor)){$ENDIF} + {Unknown source, let ancestor deal with it} + else + inherited; +end; + +{Clear all the chunks in the list} +procedure TPngObject.ClearChunks; +var + i: Integer; +begin + {Initialize gamma} + InitializeGamma(); + {Free all the objects and memory (0 chunks Bug fixed by Noel Sharpe)} + for i := 0 TO Integer(Chunks.Count) - 1 do + TChunk(Chunks.Item[i]).Free; + Chunks.Count := 0; +end; + +{Portable Network Graphics object being created} +constructor TPngObject.Create; +begin + {Let it be created} + inherited Create; + + {Initial properties} + TempPalette := 0; + fFilters := [pfSub]; + fCompressionLevel := 7; + fInterlaceMethod := imNone; + fMaxIdatSize := High(Word); + {Create chunklist object} + fChunkList := TPngList.Create(Self); +end; + +{Portable Network Graphics object being destroyed} +destructor TPngObject.Destroy; +begin + {Free object list} + ClearChunks; + fChunkList.Free; + {Free the temporary palette} + if TempPalette <> 0 then DeleteObject(TempPalette); + + {Call ancestor destroy} + inherited Destroy; +end; + +{Returns linesize and byte offset for pixels} +procedure TPngObject.GetPixelInfo(var LineSize, Offset: Cardinal); +begin + {There must be an Header chunk to calculate size} + if HeaderPresent then + begin + {Calculate number of bytes for each line} + LineSize := BytesForPixels(Header.Width, Header.ColorType, Header.BitDepth); + + {Calculates byte offset} + Case Header.ColorType of + {Grayscale} + COLOR_GRAYSCALE: + If Header.BitDepth = 16 Then + Offset := 2 + Else + Offset := 1 ; + {It always smaller or equal one byte, so it occupes one byte} + COLOR_PALETTE: + offset := 1; + {It might be 3 or 6 bytes} + COLOR_RGB: + offset := 3 * Header.BitDepth Div 8; + {It might be 2 or 4 bytes} + COLOR_GRAYSCALEALPHA: + offset := 2 * Header.BitDepth Div 8; + {4 or 8 bytes} + COLOR_RGBALPHA: + offset := 4 * Header.BitDepth Div 8; + else + Offset := 0; + End ; + + end + else + begin + {In case if there isn't any Header chunk} + Offset := 0; + LineSize := 0; + end; + +end; + +{Returns image height} +function TPngObject.GetHeight: Integer; +begin + {There must be a Header chunk to get the size, otherwise returns 0} + if HeaderPresent then + Result := TChunkIHDR(Chunks.Item[0]).Height + else Result := 0; +end; + +{Returns image width} +function TPngObject.GetWidth: Integer; +begin + {There must be a Header chunk to get the size, otherwise returns 0} + if HeaderPresent then + Result := Header.Width + else Result := 0; +end; + +{Returns if the image is empty} +function TPngObject.GetEmpty: Boolean; +begin + Result := (Chunks.Count = 0); +end; + +{Raises an error} +procedure TPngObject.RaiseError(ExceptionClass: ExceptClass; Text: String); +begin + raise ExceptionClass.Create(Text); +end; + +{Set the maximum size for IDAT chunk} +procedure TPngObject.SetMaxIdatSize(const Value: Cardinal); +begin + {Make sure the size is at least 65535} + if Value < High(Word) then + fMaxIdatSize := High(Word) else fMaxIdatSize := Value; +end; + +{$IFNDEF UseDelphi} + {Creates a file stream reading from the filename in the parameter and load} + procedure TPngObject.LoadFromFile(const Filename: String); + var + FileStream: TFileStream; + begin + {Test if the file exists} + if not FileExists(Filename) then + begin + {In case it does not exists, raise error} + RaiseError(EPNGNotExists, EPNGNotExistsText); + exit; + end; + + {Creates the file stream to read} + FileStream := TFileStream.Create(Filename, [fsmRead]); + LoadFromStream(FileStream); {Loads the data} + FileStream.Free; {Free file stream} + end; + + {Saves the current png image to a file} + procedure TPngObject.SaveToFile(const Filename: String); + var + FileStream: TFileStream; + begin + {Creates the file stream to write} + FileStream := TFileStream.Create(Filename, [fsmWrite]); + SaveToStream(FileStream); {Saves the data} + FileStream.Free; {Free file stream} + end; + +{$ENDIF} + +{Returns pointer to the chunk TChunkIHDR which should be the first} +function TPngObject.GetHeader: TChunkIHDR; +begin + {If there is a TChunkIHDR returns it, otherwise returns nil} + if (Chunks.Count <> 0) and (Chunks.Item[0] is TChunkIHDR) then + Result := Chunks.Item[0] as TChunkIHDR + else + begin + {No header, throw error message} + RaiseError(EPNGHeaderNotPresent, EPNGHeaderNotPresentText); + Result := nil + end +end; + +{Draws using partial transparency} +procedure TPngObject.DrawPartialTrans(DC: HDC; Rect: TRect); +type + {Access to pixels} + TPixelLine = Array[Word] of TRGBQuad; + pPixelLine = ^TPixelLine; +const + {Structure used to create the bitmap} + BitmapInfoHeader: TBitmapInfoHeader = + (biSize: sizeof(TBitmapInfoHeader); + biWidth: 100; + biHeight: 100; + biPlanes: 1; + biBitCount: 32; + biCompression: BI_RGB; + biSizeImage: 0; + biXPelsPerMeter: 0; + biYPelsPerMeter: 0; + biClrUsed: 0; + biClrImportant: 0); +var + {Buffer bitmap creation} + BitmapInfo : TBitmapInfo; + BufferDC : HDC; + BufferBits : Pointer; + OldBitmap, + BufferBitmap: HBitmap; + + {Transparency/palette chunks} + TransparencyChunk: TChunktRNS; + PaletteChunk: TChunkPLTE; + TransValue, PaletteIndex: Byte; + CurBit: Integer; + Data: PByte; + + {Buffer bitmap modification} + BytesPerRowDest, + BytesPerRowSrc, + BytesPerRowAlpha: Integer; + ImageSource, + AlphaSource : pByteArray; + ImageData : pPixelLine; + i, j : Integer; +begin + {Prepare to create the bitmap} + Fillchar(BitmapInfo, sizeof(BitmapInfo), #0); + BitmapInfoHeader.biWidth := Header.Width; + BitmapInfoHeader.biHeight := -1 * Header.Height; + BitmapInfo.bmiHeader := BitmapInfoHeader; + + {Create the bitmap which will receive the background, the applied} + {alpha blending and then will be painted on the background} + BufferDC := CreateCompatibleDC(0); + {In case BufferDC could not be created} + if (BufferDC = 0) then RaiseError(EPNGOutMemory, EPNGOutMemoryText); + BufferBitmap := CreateDIBSection(BufferDC, BitmapInfo, DIB_RGB_COLORS, + BufferBits, 0, 0); + {In case buffer bitmap could not be created} + if (BufferBitmap = 0) or (BufferBits = Nil) then + begin + if BufferBitmap <> 0 then DeleteObject(BufferBitmap); + DeleteDC(BufferDC); + RaiseError(EPNGOutMemory, EPNGOutMemoryText); + end; + + {Selects new bitmap and release old bitmap} + OldBitmap := SelectObject(BufferDC, BufferBitmap); + + {Draws the background on the buffer image} + StretchBlt(BufferDC, 0, 0, Header.Width, Header.height, DC, Rect.Left, + Rect.Top, Header.Width, Header.Height, SRCCOPY); + + {Obtain number of bytes for each row} + BytesPerRowAlpha := Header.Width; + BytesPerRowDest := (((BitmapInfo.bmiHeader.biBitCount * Width) + 31) + and not 31) div 8; {Number of bytes for each image row in destination} + BytesPerRowSrc := (((Header.BitmapInfo.bmiHeader.biBitCount * Header.Width) + + 31) and not 31) div 8; {Number of bytes for each image row in source} + + {Obtains image pointers} + ImageData := BufferBits; + AlphaSource := Header.ImageAlpha; + Longint(ImageSource) := Longint(Header.ImageData) + + Header.BytesPerRow * Longint(Header.Height - 1); + + case Header.BitmapInfo.bmiHeader.biBitCount of + {R, G, B images} + 24: + FOR j := 1 TO Header.Height DO + begin + {Process all the pixels in this line} + FOR i := 0 TO Header.Width - 1 DO + with ImageData[i] do + begin + rgbRed := (255+ImageSource[2+i*3] * AlphaSource[i] + rgbRed * (255 - + AlphaSource[i])) shr 8; + rgbGreen := (255+ImageSource[1+i*3] * AlphaSource[i] + rgbGreen * + (255 - AlphaSource[i])) shr 8; + rgbBlue := (255+ImageSource[i*3] * AlphaSource[i] + rgbBlue * + (255 - AlphaSource[i])) shr 8; + end; + + {Move pointers} + Longint(ImageData) := Longint(ImageData) + BytesPerRowDest; + Longint(ImageSource) := Longint(ImageSource) - BytesPerRowSrc; + Longint(AlphaSource) := Longint(AlphaSource) + BytesPerRowAlpha; + end; + {Palette images with 1 byte for each pixel} + 1,4,8: if Header.ColorType = COLOR_GRAYSCALEALPHA then + FOR j := 1 TO Header.Height DO + begin + {Process all the pixels in this line} + FOR i := 0 TO Header.Width - 1 DO + with ImageData[i], Header.BitmapInfo do begin + rgbRed := (255 + ImageSource[i] * AlphaSource[i] + + rgbRed * (255 - AlphaSource[i])) shr 8; + rgbGreen := (255 + ImageSource[i] * AlphaSource[i] + + rgbGreen * (255 - AlphaSource[i])) shr 8; + rgbBlue := (255 + ImageSource[i] * AlphaSource[i] + + rgbBlue * (255 - AlphaSource[i])) shr 8; + end; + + {Move pointers} + Longint(ImageData) := Longint(ImageData) + BytesPerRowDest; + Longint(ImageSource) := Longint(ImageSource) - BytesPerRowSrc; + Longint(AlphaSource) := Longint(AlphaSource) + BytesPerRowAlpha; + end + else {Palette images} + begin + {Obtain pointer to the transparency chunk} + TransparencyChunk := TChunktRNS(Chunks.ItemFromClass(TChunktRNS)); + PaletteChunk := TChunkPLTE(Chunks.ItemFromClass(TChunkPLTE)); + + FOR j := 1 TO Header.Height DO + begin + {Process all the pixels in this line} + i := 0; Data := @ImageSource[0]; + repeat + CurBit := 0; + + repeat + {Obtains the palette index} + case Header.BitDepth of + 1: PaletteIndex := (Data^ shr (7-(I Mod 8))) and 1; + 2,4: PaletteIndex := (Data^ shr ((1-(I Mod 2))*4)) and $0F; + else PaletteIndex := Data^; + end; + + {Updates the image with the new pixel} + with ImageData[i] do + begin + TransValue := TransparencyChunk.PaletteValues[PaletteIndex]; + rgbRed := (255 + PaletteChunk.Item[PaletteIndex].rgbRed * + TransValue + rgbRed * (255 - TransValue)) shr 8; + rgbGreen := (255 + PaletteChunk.Item[PaletteIndex].rgbGreen * + TransValue + rgbGreen * (255 - TransValue)) shr 8; + rgbBlue := (255 + PaletteChunk.Item[PaletteIndex].rgbBlue * + TransValue + rgbBlue * (255 - TransValue)) shr 8; + end; + + {Move to next data} + inc(i); inc(CurBit, Header.BitmapInfo.bmiHeader.biBitCount); + until CurBit >= 8; + {Move to next source data} + inc(Data); + until i >= Integer(Header.Width); + + {Move pointers} + Longint(ImageData) := Longint(ImageData) + BytesPerRowDest; + Longint(ImageSource) := Longint(ImageSource) - BytesPerRowSrc; + end + end {Palette images} + end {case Header.BitmapInfo.bmiHeader.biBitCount}; + + {Draws the new bitmap on the foreground} + StretchBlt(DC, Rect.Left, Rect.Top, Header.Width, Header.Height, BufferDC, + 0, 0, Header.Width, Header.Height, SRCCOPY); + + {Free bitmap} + SelectObject(BufferDC, OldBitmap); + DeleteObject(BufferBitmap); + DeleteDC(BufferDC); +end; + +{Draws the image into a canvas} +procedure TPngObject.Draw(ACanvas: TCanvas; const Rect: TRect); +var + Header: TChunkIHDR; +begin + {Quit in case there is no header, otherwise obtain it} + if (Chunks.Count = 0) or not (Chunks.GetItem(0) is TChunkIHDR) then Exit; + Header := Chunks.GetItem(0) as TChunkIHDR; + + {Copy the data to the canvas} + case Self.TransparencyMode of + {$IFDEF PartialTransparentDraw} + ptmPartial: + DrawPartialTrans(ACanvas{$IFDEF UseDelphi}.Handle{$ENDIF}, Rect); + {$ENDIF} + ptmBit: DrawTransparentBitmap(ACanvas{$IFDEF UseDelphi}.Handle{$ENDIF}, + Header.ImageData, Header.BitmapInfo.bmiHeader, + pBitmapInfo(@Header.BitmapInfo), Rect, + {$IFDEF UseDelphi}ColorToRGB({$ENDIF}TransparentColor) + {$IFDEF UseDelphi}){$ENDIF} + else + StretchDiBits(ACanvas{$IFDEF UseDelphi}.Handle{$ENDIF}, Rect.Left, + Rect.Top, Rect.Right - Rect.Left, Rect.Bottom - Rect.Top, 0, 0, + Header.Width, Header.Height, Header.ImageData, + pBitmapInfo(@Header.BitmapInfo)^, DIB_RGB_COLORS, SRCCOPY) + end {case} +end; + +{Characters for the header} +const + PngHeader: Array[0..7] of Char = (#137, #80, #78, #71, #13, #10, #26, #10); + +{Loads the image from a stream of data} +procedure TPngObject.LoadFromStream(Stream: TStream); +var + Header : Array[0..7] of Char; + HasIDAT : Boolean; + + {Chunks reading} + ChunkCount : Cardinal; + ChunkLength: Cardinal; + ChunkName : TChunkName; +begin + {Initialize before start loading chunks} + ChunkCount := 0; + ClearChunks(); + {Reads the header} + Stream.Read(Header[0], 8); + + {Test if the header matches} + if Header <> PngHeader then + begin + RaiseError(EPNGInvalidFileHeader, EPNGInvalidFileHeaderText); + Exit; + end; + + + HasIDAT := FALSE; + Chunks.Count := 10; + + {Load chunks} + repeat + inc(ChunkCount); {Increment number of chunks} + if Chunks.Count < ChunkCount then {Resize the chunks list if needed} + Chunks.Count := Chunks.Count + 10; + + {Reads chunk length and invert since it is in network order} + {also checks the Read method return, if it returns 0, it} + {means that no bytes was readed, probably because it reached} + {the end of the file} + if Stream.Read(ChunkLength, 4) = 0 then + begin + {In case it found the end of the file here} + Chunks.Count := ChunkCount - 1; + RaiseError(EPNGUnexpectedEnd, EPNGUnexpectedEndText); + end; + + ChunkLength := ByteSwap(ChunkLength); + {Reads chunk name} + Stream.Read(Chunkname, 4); + + {Here we check if the first chunk is the Header which is necessary} + {to the file in order to be a valid Portable Network Graphics image} + if (ChunkCount = 1) and (ChunkName <> 'IHDR') then + begin + Chunks.Count := ChunkCount - 1; + RaiseError(EPNGIHDRNotFirst, EPNGIHDRNotFirstText); + exit; + end; + + {Has a previous IDAT} + if (HasIDAT and (ChunkName = 'IDAT')) or (ChunkName = 'cHRM') then + begin + dec(ChunkCount); + Stream.Seek(ChunkLength + 4, soFromCurrent); + Continue; + end; + {Tell it has an IDAT chunk} + if ChunkName = 'IDAT' then HasIDAT := TRUE; + + {Creates object for this chunk} + Chunks.SetItem(ChunkCount - 1, CreateClassChunk(Self, ChunkName)); + + {Check if the chunk is critical and unknown} + {$IFDEF ErrorOnUnknownCritical} + if (TChunk(Chunks.Item[ChunkCount - 1]).ClassType = TChunk) and + ((Byte(ChunkName[0]) AND $20) = 0) and (ChunkName <> '') then + begin + Chunks.Count := ChunkCount; + RaiseError(EPNGUnknownCriticalChunk, EPNGUnknownCriticalChunkText); + end; + {$ENDIF} + + {Loads it} + try if not TChunk(Chunks.Item[ChunkCount - 1]).LoadFromStream(Stream, + ChunkName, ChunkLength) then break; + except + Chunks.Count := ChunkCount; + raise; + end; + + {Terminates when it reaches the IEND chunk} + until (ChunkName = 'IEND'); + + {Resize the list to the appropriate size} + Chunks.Count := ChunkCount; + + {Check if there is data} + if not HasIDAT then + RaiseError(EPNGNoImageData, EPNGNoImageDataText); +end; + +{Changing height is not supported} +procedure TPngObject.SetHeight(Value: Integer); +begin + RaiseError(EPNGError, EPNGCannotChangeSizeText); +end; + +{Changing width is not supported} +procedure TPngObject.SetWidth(Value: Integer); +begin + RaiseError(EPNGError, EPNGCannotChangeSizeText); +end; + +{$IFDEF UseDelphi} +{Saves to clipboard format (thanks to Antoine Pottern)} +procedure TPNGObject.SaveToClipboardFormat(var AFormat: Word; + var AData: THandle; var APalette: HPalette); +begin + with TBitmap.Create do + try + Width := Self.Width; + Height := Self.Height; + Self.Draw(Canvas, Rect(0, 0, Width, Height)); + SaveToClipboardFormat(AFormat, AData, APalette); + finally + Free; + end {try} +end; + +{Loads data from clipboard} +procedure TPngObject.LoadFromClipboardFormat(AFormat: Word; + AData: THandle; APalette: HPalette); +begin + with TBitmap.Create do + try + LoadFromClipboardFormat(AFormat, AData, APalette); + Self.AssignHandle(Handle, False, 0); + finally + Free; + end {try} +end; + +{Returns if the image is transparent} +function TPngObject.GetTransparent: Boolean; +begin + Result := (TransparencyMode <> ptmNone); +end; + +{$ENDIF} + +{Saving the PNG image to a stream of data} +procedure TPngObject.SaveToStream(Stream: TStream); +var + j: Integer; +begin + {Reads the header} + Stream.Write(PNGHeader[0], 8); + {Write each chunk} + FOR j := 0 TO Chunks.Count - 1 DO + Chunks.Item[j].SaveToStream(Stream) +end; + +{Prepares the Header chunk} +procedure BuildHeader(Header: TChunkIHDR; Handle: HBitmap; Info: pBitmap; + HasPalette: Boolean); +var + DC: HDC; +begin + {Set width and height} + Header.Width := Info.bmWidth; + Header.Height := abs(Info.bmHeight); + {Set bit depth} + if Info.bmBitsPixel >= 16 then + Header.BitDepth := 8 else Header.BitDepth := Info.bmBitsPixel; + {Set color type} + if Info.bmBitsPixel >= 16 then + Header.ColorType := COLOR_RGB else Header.ColorType := COLOR_PALETTE; + {Set other info} + Header.CompressionMethod := 0; {deflate/inflate} + Header.InterlaceMethod := 0; {no interlace} + + {Prepares bitmap headers to hold data} + Header.PrepareImageData(); + {Copy image data} + DC := CreateCompatibleDC(0); + GetDIBits(DC, Handle, 0, Header.Height, Header.ImageData, + pBitmapInfo(@Header.BitmapInfo)^, DIB_RGB_COLORS); + DeleteDC(DC); +end; + +{Loads the image from a resource} +procedure TPngObject.LoadFromResourceName(Instance: HInst; + const Name: String); +var + ResStream: TResourceStream; +begin + {Creates an especial stream to load from the resource} + try ResStream := TResourceStream.Create(Instance, Name, RT_RCDATA); + except RaiseError(EPNGCouldNotLoadResource, EPNGCouldNotLoadResourceText); + exit; end; + + {Loads the png image from the resource} + try + LoadFromStream(ResStream); + finally + ResStream.Free; + end; +end; + +{Loads the png from a resource ID} +procedure TPngObject.LoadFromResourceID(Instance: HInst; ResID: Integer); +begin + LoadFromResourceName(Instance, String(ResID)); +end; + +{Assigns this tpngobject to another object} +procedure TPngObject.AssignTo(Dest: TPersistent); +{$IFDEF UseDelphi} +var + DeskDC: HDC; + TRNS: TChunkTRNS; +{$ENDIF} +begin + {If the destination is also a TPNGObject make it assign} + {this one} + if Dest is TPNGObject then + TPNGObject(Dest).AssignPNG(Self) + {$IFDEF UseDelphi} + {In case the destination is a bitmap} + else if (Dest is TBitmap) and HeaderPresent then + begin + {Device context} + DeskDC := GetDC(0); + {Copy the data} + TBitmap(Dest).Handle := CreateDIBitmap(DeskDC, + Header.BitmapInfo.bmiHeader, CBM_INIT, Header.ImageData, + pBitmapInfo(@Header.BitmapInfo)^, DIB_RGB_COLORS); + ReleaseDC(0, DeskDC); + {Tests for the best pixelformat} + case Header.BitmapInfo.bmiHeader.biBitCount of + 1: TBitmap(Dest).PixelFormat := pf1Bit; + 4: TBitmap(Dest).PixelFormat := pf4Bit; + 8: TBitmap(Dest).PixelFormat := pf8Bit; + 24: TBitmap(Dest).PixelFormat := pf24Bit; + 32: TBitmap(Dest).PixelFormat := pf32Bit; + end {case Header.BitmapInfo.bmiHeader.biBitCount}; + + {Copy transparency mode} + if (TransparencyMode = ptmBit) then + begin + TRNS := Chunks.ItemFromClass(TChunkTRNS) as TChunkTRNS; + TBitmap(Dest).TransparentColor := TRNS.TransparentColor; + TBitmap(Dest).Transparent := True + end {if (TransparencyMode = ptmBit)} + + end + else + {Unknown destination kind, } + inherited AssignTo(Dest); + {$ENDIF} +end; + +{Assigns from a bitmap object} +procedure TPngObject.AssignHandle(Handle: HBitmap; Transparent: Boolean; + TransparentColor: ColorRef); +var + BitmapInfo: Windows.TBitmap; + HasPalette: Boolean; + + {Chunks} + Header: TChunkIHDR; + PLTE: TChunkPLTE; + IDAT: TChunkIDAT; + IEND: TChunkIEND; + TRNS: TChunkTRNS; +begin + {Obtain bitmap info} + GetObject(Handle, SizeOf(BitmapInfo), @BitmapInfo); + + {Only bit depths 1, 4 and 8 needs a palette} + HasPalette := (BitmapInfo.bmBitsPixel < 16); + + {Clear old chunks and prepare} + ClearChunks(); + + {Create the chunks} + Header := TChunkIHDR.Create(Self); + if HasPalette then PLTE := TChunkPLTE.Create(Self) else PLTE := nil; + if Transparent then TRNS := TChunkTRNS.Create(Self) else TRNS := nil; + IDAT := TChunkIDAT.Create(Self); + IEND := TChunkIEND.Create(Self); + + {Add chunks} + TPNGPointerList(Chunks).Add(Header); + if HasPalette then TPNGPointerList(Chunks).Add(PLTE); + if Transparent then TPNGPointerList(Chunks).Add(TRNS); + TPNGPointerList(Chunks).Add(IDAT); + TPNGPointerList(Chunks).Add(IEND); + + {This method will fill the Header chunk with bitmap information} + {and copy the image data} + BuildHeader(Header, Handle, @BitmapInfo, HasPalette); + {In case there is a image data, set the PLTE chunk fCount variable} + {to the actual number of palette colors which is 2^(Bits for each pixel)} + if HasPalette then PLTE.fCount := 1 shl BitmapInfo.bmBitsPixel; + + {In case it is a transparent bitmap, prepares it} + if Transparent then TRNS.TransparentColor := TransparentColor; + +end; + +{Assigns from another PNG} +procedure TPngObject.AssignPNG(Source: TPNGObject); +var + J: Integer; +begin + {Copy properties} + InterlaceMethod := Source.InterlaceMethod; + MaxIdatSize := Source.MaxIdatSize; + CompressionLevel := Source.CompressionLevel; + Filters := Source.Filters; + + {Clear old chunks and prepare} + ClearChunks(); + Chunks.Count := Source.Chunks.Count; + {Create chunks and makes a copy from the source} + FOR J := 0 TO Chunks.Count - 1 DO + with Source.Chunks do + begin + Chunks.SetItem(J, TChunkClass(TChunk(Item[J]).ClassType).Create(Self)); + TChunk(Chunks.Item[J]).Assign(TChunk(Item[J])); + end {with}; +end; + +{Returns a alpha data scanline} +function TPngObject.GetAlphaScanline(const LineIndex: Integer): pByteArray; +begin + with Header do + if (ColorType = COLOR_RGBALPHA) or (ColorType = COLOR_GRAYSCALEALPHA) then + Longint(Result) := Longint(ImageAlpha) + (LineIndex * Longint(Width)) + else Result := nil; {In case the image does not use alpha information} +end; + +{$IFDEF Store16bits} +{Returns a png data extra scanline} +function TPngObject.GetExtraScanline(const LineIndex: Integer): Pointer; +begin + with Header do + Longint(Result) := (Longint(ExtraImageData) + ((Longint(Height) - 1) * + BytesPerRow)) - (LineIndex * BytesPerRow); +end; +{$ENDIF} + +{Returns a png data scanline} +function TPngObject.GetScanline(const LineIndex: Integer): Pointer; +begin + with Header do + Longint(Result) := (Longint(ImageData) + ((Longint(Height) - 1) * + BytesPerRow)) - (LineIndex * BytesPerRow); +end; + +{Initialize gamma table} +procedure TPngObject.InitializeGamma; +var + i: Integer; +begin + {Build gamma table as if there was no gamma} + FOR i := 0 to 255 do + begin + GammaTable[i] := i; + InverseGamma[i] := i; + end {for i} +end; + +{Returns the transparency mode used by this png} +function TPngObject.GetTransparencyMode: TPNGTransparencyMode; +var + TRNS: TChunkTRNS; +begin + with Header do + begin + Result := ptmNone; {Default result} + {Gets the TRNS chunk pointer} + TRNS := Chunks.ItemFromClass(TChunkTRNS) as TChunkTRNS; + + {Test depending on the color type} + case ColorType of + {This modes are always partial} + COLOR_RGBALPHA, COLOR_GRAYSCALEALPHA: Result := ptmPartial; + {This modes support bit transparency} + COLOR_RGB, COLOR_GRAYSCALE: if TRNS <> nil then Result := ptmBit; + {Supports booth translucid and bit} + COLOR_PALETTE: + {A TRNS chunk must be present, otherwise it won't support transparency} + if TRNS <> nil then + if TRNS.BitTransparency then + Result := ptmBit else Result := ptmPartial + end {case} + + end {with Header} +end; + +{Add a text chunk} +procedure TPngObject.AddtEXt(const Keyword, Text: String); +var + TextChunk: TChunkTEXT; +begin + TextChunk := Chunks.Add(TChunkText) as TChunkTEXT; + TextChunk.Keyword := Keyword; + TextChunk.Text := Text; +end; + +{Add a text chunk} +procedure TPngObject.AddzTXt(const Keyword, Text: String); +var + TextChunk: TChunkzTXt; +begin + TextChunk := Chunks.Add(TChunkText) as TChunkzTXt; + TextChunk.Keyword := Keyword; + TextChunk.Text := Text; +end; + +{Removes the image transparency} +procedure TPngObject.RemoveTransparency; +var + TRNS: TChunkTRNS; +begin + TRNS := Chunks.ItemFromClass(TChunkTRNS) as TChunkTRNS; + if TRNS <> nil then Chunks.RemoveChunk(TRNS) +end; + +{Generates alpha information} +procedure TPngObject.CreateAlpha; +var + TRNS: TChunkTRNS; +begin + {Generates depending on the color type} + with Header do + case ColorType of + {Png allocates different memory space to hold alpha information} + {for these types} + COLOR_GRAYSCALE, COLOR_RGB: + begin + {Transform into the appropriate color type} + if ColorType = COLOR_GRAYSCALE then + ColorType := COLOR_GRAYSCALEALPHA + else ColorType := COLOR_RGBALPHA; + {Allocates memory to hold alpha information} + GetMem(ImageAlpha, Integer(Width) * Integer(Height)); + FillChar(ImageAlpha^, Integer(Width) * Integer(Height), #255); + end; + {Palette uses the TChunktRNS to store alpha} + COLOR_PALETTE: + begin + {Gets/creates TRNS chunk} + if Chunks.ItemFromClass(TChunkTRNS) = nil then + TRNS := Chunks.Add(TChunkTRNS) as TChunkTRNS + else + TRNS := Chunks.ItemFromClass(TChunkTRNS) as TChunkTRNS; + + {Prepares the TRNS chunk} + with TRNS do + begin + Fillchar(PaletteValues[0], 256, 255); + fDataSize := 1 shl Header.BitDepth; + fBitTransparency := False + end {with Chunks.Add}; + end; + end {case Header.ColorType} + +end; + +{Returns transparent color} +function TPngObject.GetTransparentColor: TColor; +var + TRNS: TChunkTRNS; +begin + TRNS := Chunks.ItemFromClass(TChunkTRNS) as TChunkTRNS; + {Reads the transparency chunk to get this info} + if Assigned(TRNS) then Result := TRNS.TransparentColor + else Result := 0 +end; + +{$OPTIMIZATION OFF} +procedure TPngObject.SetTransparentColor(const Value: TColor); +var + TRNS: TChunkTRNS; +begin + if HeaderPresent then + {Tests the ColorType} + case Header.ColorType of + {Not allowed for this modes} + COLOR_RGBALPHA, COLOR_GRAYSCALEALPHA: Self.RaiseError( + EPNGCannotChangeTransparent, EPNGCannotChangeTransparentText); + {Allowed} + COLOR_PALETTE, COLOR_RGB, COLOR_GRAYSCALE: + begin + TRNS := Chunks.ItemFromClass(TChunkTRNS) as TChunkTRNS; + if not Assigned(TRNS) then TRNS := Chunks.Add(TChunkTRNS) as TChunkTRNS; + + {Sets the transparency value from TRNS chunk} + TRNS.TransparentColor := {$IFDEF UseDelphi}ColorToRGB({$ENDIF}Value{$IFDEF UseDelphi}){$ENDIF} + end {COLOR_PALETTE, COLOR_RGB, COLOR_GRAYSCALE)} + end {case} +end; + +{Returns if header is present} +function TPngObject.HeaderPresent: Boolean; +begin + Result := ((Chunks.Count <> 0) and (Chunks.Item[0] is TChunkIHDR)) +end; + +{Returns pixel for png using palette and grayscale} +function GetByteArrayPixel(const png: TPngObject; const X, Y: Integer): TColor; +var + ByteData: Byte; + DataDepth: Byte; +begin + with png, Header do + begin + {Make sure the bitdepth is not greater than 8} + DataDepth := BitDepth; + if DataDepth > 8 then DataDepth := 8; + {Obtains the byte containing this pixel} + ByteData := pByteArray(png.Scanline[Y])^[X div (8 div DataDepth)]; + {Moves the bits we need to the right} + ByteData := (ByteData shr ((8 - DataDepth) - + (X mod (8 div DataDepth)) * DataDepth)); + {Discard the unwanted pixels} + ByteData:= ByteData and ($FF shr (8 - DataDepth)); + + {For palette mode map the palette entry and for grayscale convert and + returns the intensity} + case ColorType of + COLOR_PALETTE: + with TChunkPLTE(png.Chunks.ItemFromClass(TChunkPLTE)).Item[ByteData] do + Result := rgb(GammaTable[rgbRed], GammaTable[rgbGreen], + GammaTable[rgbBlue]); + COLOR_GRAYSCALE: + begin + ByteData := GammaTable[ByteData * ((1 shl DataDepth) + 1)]; + Result := rgb(ByteData, ByteData, ByteData); + end; + else Result := 0; + end {case}; + end {with} +end; + +{In case vcl units are not being used} +{$IFNDEF UseDelphi} +function ColorToRGB(const Color: TColor): COLORREF; +begin + Result := Color +end; +{$ENDIF} + +{Sets a pixel for grayscale and palette pngs} +procedure SetByteArrayPixel(const png: TPngObject; const X, Y: Integer; + const Value: TColor); +const + ClearFlag: Array[1..8] of Integer = (1, 3, 0, 15, 0, 0, 0, $FF); +var + ByteData: pByte; + DataDepth: Byte; + ValEntry: Byte; +begin + with png.Header do + begin + {Map into a palette entry} + ValEntry := GetNearestPaletteIndex(Png.Palette, ColorToRGB(Value)); + + {16 bits grayscale extra bits are discarted} + DataDepth := BitDepth; + if DataDepth > 8 then DataDepth := 8; + {Gets a pointer to the byte we intend to change} + ByteData := @pByteArray(png.Scanline[Y])^[X div (8 div DataDepth)]; + {Clears the old pixel data} + ByteData^ := ByteData^ and not (ClearFlag[DataDepth] shl ((8 - DataDepth) - + (X mod (8 div DataDepth)) * DataDepth)); + + {Setting the new pixel} + ByteData^ := ByteData^ or (ValEntry shl ((8 - DataDepth) - + (X mod (8 div DataDepth)) * DataDepth)); + end {with png.Header} +end; + +{Returns pixel when png uses RGB} +function GetRGBLinePixel(const png: TPngObject; + const X, Y: Integer): TColor; +begin + with pRGBLine(png.Scanline[Y])^[X] do + Result := RGB(rgbtRed, rgbtGreen, rgbtBlue) +end; + +{Sets pixel when png uses RGB} +procedure SetRGBLinePixel(const png: TPngObject; + const X, Y: Integer; Value: TColor); +begin + with pRGBLine(png.Scanline[Y])^[X] do + begin + rgbtRed := GetRValue(Value); + rgbtGreen := GetGValue(Value); + rgbtBlue := GetBValue(Value) + end +end; + +{Sets a pixel} +procedure TPngObject.SetPixels(const X, Y: Integer; const Value: TColor); +begin + if (X in [0..Width - 1]) and (Y in [0..Height - 1]) then + with Header do + begin + if ColorType in [COLOR_GRAYSCALE, COLOR_PALETTE] then + SetByteArrayPixel(Self, X, Y, Value) + else + SetRGBLinePixel(Self, X, Y, Value) + end {with} +end; + +{Returns a pixel} +function TPngObject.GetPixels(const X, Y: Integer): TColor; +begin + if (X in [0..Width - 1]) and (Y in [0..Height - 1]) then + with Header do + begin + if ColorType in [COLOR_GRAYSCALE, COLOR_PALETTE] then + Result := GetByteArrayPixel(Self, X, Y) + else + Result := GetRGBLinePixel(Self, X, Y) + end {with} + else Result := 0 +end; + +{Returns the image palette} +function TPngObject.GetPalette: HPALETTE; +var + LogPalette: TMaxLogPalette; + i: Integer; +begin + {Palette is avaliable for COLOR_PALETTE and COLOR_GRAYSCALE modes} + if (Header.ColorType in [COLOR_PALETTE, COLOR_GRAYSCALE]) then + begin + {In case the pal} + if TempPalette = 0 then + with LogPalette do + begin + {Prepares the new palette} + palVersion := $300; + palNumEntries := 256; + {Copy entries} + for i := 0 to LogPalette.palNumEntries - 1 do + begin + palPalEntry[i].peRed := Header.BitmapInfo.bmiColors[i].rgbRed; + palPalEntry[i].peGreen := Header.BitmapInfo.bmiColors[i].rgbGreen; + palPalEntry[i].peBlue := Header.BitmapInfo.bmiColors[i].rgbBlue; + palPalEntry[i].peFlags := 0; + end {for i}; + {Creates the palette} + TempPalette := CreatePalette(pLogPalette(@LogPalette)^); + end {with LogPalette, if Temppalette = 0} + end {if Header.ColorType in ...}; + Result := TempPalette; +end; + +initialization + {Initialize} + ChunkClasses := nil; + {crc table has not being computed yet} + crc_table_computed := FALSE; + {Register the necessary chunks for png} + RegisterCommonChunks; + {Registers TPNGObject to use with TPicture} + {$IFDEF UseDelphi}{$IFDEF RegisterGraphic} + TPicture.RegisterFileFormat('PNG', 'Portable Network Graphics', TPNGObject); + {$ENDIF}{$ENDIF} +finalization + {$IFDEF UseDelphi}{$IFDEF RegisterGraphic} + TPicture.UnregisterGraphicClass(TPNGObject); + {$ENDIF}{$ENDIF} + {Free chunk classes} + FreeChunkClassList; +end. + + diff --git a/Game/Code/lib/PngImage/pngimage.~pas b/Game/Code/lib/PngImage/pngimage.~pas new file mode 100644 index 00000000..ec712737 --- /dev/null +++ b/Game/Code/lib/PngImage/pngimage.~pas @@ -0,0 +1,5205 @@ +{Portable Network Graphics Delphi 1.4361 (8 March 2003) } + +{This is the latest implementation for TPngImage component } +{It's meant to be a full replacement for the previous one. } +{There are lots of new improvements, including cleaner code, } +{full partial transparency support, speed improvements, } +{saving using ADAM 7 interlacing, better error handling, also } +{the best compression for the final image ever. And now it's } +{truly able to read about any png image. } + +{ + Version 1.4361 + 2003-03-04 - Fixed important bug for simple transparency when using + RGB, Grayscale color modes + + Version 1.436 + 2003-03-04 - * NEW * Property Pixels for direct access to pixels + * IMPROVED * Palette property (TPngObject) (read only) + Slovenian traslation for the component (Miha Petelin) + Help file update (scanline article/png->jpg example) + + Version 1.435 + 2003-11-03 - * NEW * New chunk implementation zTXt (method AddzTXt) + * NEW * New compiler flags to store the extra 8 bits + from 16 bits samples (when saving it is ignored), the + extra data may be acessed using ExtraScanline property + * Fixed * a bug on tIMe chunk + French translation included (Thanks to IBE Software) + Bugs fixed + + Version 1.432 + 2002-08-24 - * NEW * A new method, CreateAlpha will transform the + current image into partial transparency. + Help file updated with a new article on how to handle + partial transparency. + + Version 1.431 + 2002-08-14 - Fixed and tested to work on: + C++ Builder 3 + C++ Builder 5 + Delphi 3 + There was an error when setting TransparentColor, fixed + New method, RemoveTransparency to remove image + BIT TRANSPARENCY + + Version 1.43 + 2002-08-01 - * NEW * Support for Delphi 3 and C++ Builder 3 + Implements mostly some things that were missing, + a few tweaks and fixes. + + Version 1.428 + 2002-07-24 - More minor fixes (thanks to Ian Boyd) + Bit transparency fixes + * NEW * Finally support to bit transparency + (palette / rgb / grayscale -> all) + + Version 1.427 + 2002-07-19 - Lots of bugs and leaks fixed + * NEW * method to easy adding text comments, AddtEXt + * NEW * property for setting bit transparency, + TransparentColor + + Version 1.426 + 2002-07-18 - Clipboard finally fixed (hope) + Changed UseDelphi trigger to UseDelphi + * NEW * Support for bit transparency bitmaps + when assigning from/to TBitmap objects + Altough it does not support drawing transparent + parts of bit transparency pngs (only partial) + it is closer than ever + + Version 1.425 + 2002-07-01 - Clipboard methods implemented + Lots of bugs fixed + + Version 1.424 + 2002-05-16 - Scanline and AlphaScanline are now working correctly. + New methods for handling the clipboard + + Version 1.423 + 2002-05-16 - * NEW * Partial transparency for 1, 2, 4 and 8 bits is + also supported using the tRNS chunk (for palette and + grayscaling). + New bug fixes (Peter Haas). + + Version 1.422 + 2002-05-14 - Fixed some critical leaks, thanks to Peter Haas tips. + New translation for German (Peter Haas). + + Version 1.421 + 2002-05-06 - Now uses new ZLIB version, 1.1.4 with some security + fixes. + LoadFromResourceID and LoadFromResourceName added and + help file updated for that. + The resources strings are now located in pnglang.pas. + New translation for Brazilian Portuguese. + Bugs fixed. + + IMPORTANT: I'm currently looking for bugs on the library. If + anyone has found one, please send me an email and + I will fix right away. Thanks for all the help and + ideias I'm receiving so far.} + +{My new email is: gubadaud@terra.com.br} +{Website link : pngdelphi.sourceforge.net} +{Gustavo Huffenbacher Daud} + +unit pngimage; + +interface + +{Triggers avaliable (edit the fields bellow)} +{$DEFINE UseDelphi} //Disable fat vcl units (perfect to small apps) +{$DEFINE ErrorOnUnknownCritical} //Error when finds an unknown critical chunk +{$DEFINE CheckCRC} //Enables CRC checking +{$DEFINE RegisterGraphic} //Registers TPNGObject to use with TPicture +{$DEFINE PartialTransparentDraw} //Draws partial transparent images +{.$DEFINE Store16bits} //Stores the extra 8 bits from 16bits/sample +{.$DEFINE Debug} //For programming purposes +{$RANGECHECKS OFF} {$J+} + + + +uses + Windows {$IFDEF UseDelphi}, Classes, Graphics, SysUtils{$ENDIF} {$IFDEF Debug}, + dialogs{$ENDIF}, pngzlib, pnglang; + +{$IFNDEF UseDelphi} + const + soFromBeginning = 0; + soFromCurrent = 1; + soFromEnd = 2; +{$ENDIF} + +const + {ZLIB constants} + ZLIBErrors: Array[-6..2] of string = ('incompatible version (-6)', + 'buffer error (-5)', 'insufficient memory (-4)', 'data error (-3)', + 'stream error (-2)', 'file error (-1)', '(0)', 'stream end (1)', + 'need dictionary (2)'); + Z_NO_FLUSH = 0; + Z_FINISH = 4; + Z_STREAM_END = 1; + + {Avaliable PNG filters for mode 0} + FILTER_NONE = 0; + FILTER_SUB = 1; + FILTER_UP = 2; + FILTER_AVERAGE = 3; + FILTER_PAETH = 4; + + {Avaliable color modes for PNG} + COLOR_GRAYSCALE = 0; + COLOR_RGB = 2; + COLOR_PALETTE = 3; + COLOR_GRAYSCALEALPHA = 4; + COLOR_RGBALPHA = 6; + + +type + {$IFNDEF UseDelphi} + {Custom exception handler} + Exception = class(TObject) + constructor Create(Msg: String); + end; + ExceptClass = class of Exception; + TColor = ColorRef; + {$ENDIF} + + {Error types} + EPNGOutMemory = class(Exception); + EPngError = class(Exception); + EPngUnexpectedEnd = class(Exception); + EPngInvalidCRC = class(Exception); + EPngInvalidIHDR = class(Exception); + EPNGMissingMultipleIDAT = class(Exception); + EPNGZLIBError = class(Exception); + EPNGInvalidPalette = class(Exception); + EPNGInvalidFileHeader = class(Exception); + EPNGIHDRNotFirst = class(Exception); + EPNGNotExists = class(Exception); + EPNGSizeExceeds = class(Exception); + EPNGMissingPalette = class(Exception); + EPNGUnknownCriticalChunk = class(Exception); + EPNGUnknownCompression = class(Exception); + EPNGUnknownInterlace = class(Exception); + EPNGNoImageData = class(Exception); + EPNGCouldNotLoadResource = class(Exception); + EPNGCannotChangeTransparent = class(Exception); + EPNGHeaderNotPresent = class(Exception); + +type + {Direct access to pixels using R,G,B} + TRGBLine = array[word] of TRGBTriple; + pRGBLine = ^TRGBLine; + + {Same as TBitmapInfo but with allocated space for} + {palette entries} + TMAXBITMAPINFO = packed record + bmiHeader: TBitmapInfoHeader; + bmiColors: packed array[0..255] of TRGBQuad; + end; + + {Transparency mode for pngs} + TPNGTransparencyMode = (ptmNone, ptmBit, ptmPartial); + {Pointer to a cardinal type} + pCardinal = ^Cardinal; + {Access to a rgb pixel} + pRGBPixel = ^TRGBPixel; + TRGBPixel = packed record + B, G, R: Byte; + end; + + {Pointer to an array of bytes type} + TByteArray = Array[Word] of Byte; + pByteArray = ^TByteArray; + + {Forward} + TPNGObject = class; + pPointerArray = ^TPointerArray; + TPointerArray = Array[Word] of Pointer; + + {Contains a list of objects} + TPNGPointerList = class + private + fOwner: TPNGObject; + fCount : Cardinal; + fMemory: pPointerArray; + function GetItem(Index: Cardinal): Pointer; + procedure SetItem(Index: Cardinal; const Value: Pointer); + protected + {Removes an item} + function Remove(Value: Pointer): Pointer; virtual; + {Inserts an item} + procedure Insert(Value: Pointer; Position: Cardinal); + {Add a new item} + procedure Add(Value: Pointer); + {Returns an item} + property Item[Index: Cardinal]: Pointer read GetItem write SetItem; + {Set the size of the list} + procedure SetSize(const Size: Cardinal); + {Returns owner} + property Owner: TPNGObject read fOwner; + public + {Returns number of items} + property Count: Cardinal read fCount write SetSize; + {Object being either created or destroyed} + constructor Create(AOwner: TPNGObject); + destructor Destroy; override; + end; + + {Forward declaration} + TChunk = class; + TChunkClass = class of TChunk; + + {Same as TPNGPointerList but providing typecasted values} + TPNGList = class(TPNGPointerList) + private + {Used with property Item} + function GetItem(Index: Cardinal): TChunk; + public + {Removes an item} + procedure RemoveChunk(Chunk: TChunk); overload; + {Add a new chunk using the class from the parameter} + function Add(ChunkClass: TChunkClass): TChunk; + {Returns pointer to the first chunk of class} + function ItemFromClass(ChunkClass: TChunkClass): TChunk; + {Returns a chunk item from the list} + property Item[Index: Cardinal]: TChunk read GetItem; + end; + + {$IFNDEF UseDelphi} + {The STREAMs bellow are only needed in case delphi provided ones is not} + {avaliable (UseDelphi trigger not set)} + {Object becomes handles} + TCanvas = THandle; + TBitmap = HBitmap; + {Trick to work} + TPersistent = TObject; + + {Base class for all streams} + TStream = class + protected + {Returning/setting size} + function GetSize: Longint; virtual; + procedure SetSize(const Value: Longint); virtual; abstract; + {Returns/set position} + function GetPosition: Longint; virtual; + procedure SetPosition(const Value: Longint); virtual; + public + {Returns/sets current position} + property Position: Longint read GetPosition write SetPosition; + {Property returns/sets size} + property Size: Longint read GetSize write SetSize; + {Allows reading/writing data} + function Read(var Buffer; Count: Longint): Cardinal; virtual; abstract; + function Write(const Buffer; Count: Longint): Cardinal; virtual; abstract; + {Copies from another Stream} + function CopyFrom(Source: TStream; + Count: Cardinal): Cardinal; virtual; + {Seeks a stream position} + function Seek(Offset: Longint; Origin: Word): Longint; virtual; abstract; + end; + + {File stream modes} + TFileStreamMode = (fsmRead, fsmWrite, fsmCreate); + TFileStreamModeSet = set of TFileStreamMode; + + {File stream for reading from files} + TFileStream = class(TStream) + private + {Opened mode} + Filemode: TFileStreamModeSet; + {Handle} + fHandle: THandle; + protected + {Set the size of the file} + procedure SetSize(const Value: Longint); override; + public + {Seeks a file position} + function Seek(Offset: Longint; Origin: Word): Longint; override; + {Reads/writes data from/to the file} + function Read(var Buffer; Count: Longint): Cardinal; override; + function Write(const Buffer; Count: Longint): Cardinal; override; + {Stream being created and destroy} + constructor Create(Filename: String; Mode: TFileStreamModeSet); + destructor Destroy; override; + end; + + {Stream for reading from resources} + TResourceStream = class(TStream) + constructor Create(Instance: HInst; const ResName: String; ResType:PChar); + private + {Variables for reading} + Size: Integer; + Memory: Pointer; + Position: Integer; + protected + {Set the size of the file} + procedure SetSize(const Value: Longint); override; + public + {Stream processing} + function Read(var Buffer; Count: Integer): Cardinal; override; + function Seek(Offset: Integer; Origin: Word): Longint; override; + function Write(const Buffer; Count: Longint): Cardinal; override; + end; + {$ENDIF} + + {Forward} + TChunkIHDR = class; + {Interlace method} + TInterlaceMethod = (imNone, imAdam7); + {Compression level type} + TCompressionLevel = 0..9; + {Filters type} + TFilter = (pfNone, pfSub, pfUp, pfAverage, pfPaeth); + TFilters = set of TFilter; + + {Png implementation object} + TPngObject = class{$IFDEF UseDelphi}(TGraphic){$ENDIF} + protected + {Gamma table values} + GammaTable, InverseGamma: Array[Byte] of Byte; + procedure InitializeGamma; + private + {Temporary palette} + TempPalette: HPalette; + {Filters to test to encode} + fFilters: TFilters; + {Compression level for ZLIB} + fCompressionLevel: TCompressionLevel; + {Maximum size for IDAT chunks} + fMaxIdatSize: Cardinal; + {Returns if image is interlaced} + fInterlaceMethod: TInterlaceMethod; + {Chunks object} + fChunkList: TPngList; + {Clear all chunks in the list} + procedure ClearChunks; + {Returns if header is present} + function HeaderPresent: Boolean; + {Returns linesize and byte offset for pixels} + procedure GetPixelInfo(var LineSize, Offset: Cardinal); + procedure SetMaxIdatSize(const Value: Cardinal); + function GetAlphaScanline(const LineIndex: Integer): pByteArray; + function GetScanline(const LineIndex: Integer): Pointer; + {$IFDEF Store16bits} + function GetExtraScanline(const LineIndex: Integer): Pointer; + {$ENDIF} + function GetTransparencyMode: TPNGTransparencyMode; + function GetTransparentColor: TColor; + procedure SetTransparentColor(const Value: TColor); + protected + {Returns the image palette} + function GetPalette: HPALETTE; {$IFDEF UseDelphi}override;{$ENDIF} + {Returns/sets image width and height} + function GetWidth: Integer; {$IFDEF UseDelphi}override;{$ENDIF} + function GetHeight: Integer; {$IFDEF UseDelphi}override; {$ENDIF} + procedure SetWidth(Value: Integer); {$IFDEF UseDelphi}override; {$ENDIF} + procedure SetHeight(Value: Integer); {$IFDEF UseDelphi}override;{$ENDIF} + {Assigns from another TPNGObject} + procedure AssignPNG(Source: TPNGObject); + {Returns if the image is empty} + function GetEmpty: Boolean; {$IFDEF UseDelphi}override; {$ENDIF} + {Used with property Header} + function GetHeader: TChunkIHDR; + {Draws using partial transparency} + procedure DrawPartialTrans(DC: HDC; Rect: TRect); + {$IFDEF UseDelphi} + {Returns if the image is transparent} + function GetTransparent: Boolean; override; + {$ENDIF} + {Returns a pixel} + function GetPixels(const X, Y: Integer): TColor; virtual; + procedure SetPixels(const X, Y: Integer; const Value: TColor); virtual; + public + {Generates alpha information} + procedure CreateAlpha; + {Removes the image transparency} + procedure RemoveTransparency; + {Transparent color} + property TransparentColor: TColor read GetTransparentColor write + SetTransparentColor; + {Add text chunk, TChunkTEXT, TChunkzTXT} + procedure AddtEXt(const Keyword, Text: String); + procedure AddzTXt(const Keyword, Text: String); + {$IFDEF UseDelphi} + {Saves to clipboard format (thanks to Antoine Pottern)} + procedure SaveToClipboardFormat(var AFormat: Word; var AData: THandle; + var APalette: HPalette); override; + procedure LoadFromClipboardFormat(AFormat: Word; AData: THandle; + APalette: HPalette); override; + {$ENDIF} + {Calling errors} + procedure RaiseError(ExceptionClass: ExceptClass; Text: String); + {Returns a scanline from png} + property Scanline[const Index: Integer]: Pointer read GetScanline; + {$IFDEF Store16bits} + property ExtraScanline[const Index: Integer]: Pointer read GetExtraScanline; + {$ENDIF} + property AlphaScanline[const Index: Integer]: pByteArray read GetAlphaScanline; + {Returns pointer to the header} + property Header: TChunkIHDR read GetHeader; + {Returns the transparency mode used by this png} + property TransparencyMode: TPNGTransparencyMode read GetTransparencyMode; + {Assigns from another object} + procedure Assign(Source: TPersistent);{$IFDEF UseDelphi}override;{$ENDIF} + {Assigns to another object} + procedure AssignTo(Dest: TPersistent);{$IFDEF UseDelphi}override;{$ENDIF} + {Assigns from a windows bitmap handle} + procedure AssignHandle(Handle: HBitmap; Transparent: Boolean; + TransparentColor: ColorRef); + {Draws the image into a canvas} + procedure Draw(ACanvas: TCanvas; const Rect: TRect); + {$IFDEF UseDelphi}override;{$ENDIF} + {Width and height properties} + property Width: Integer read GetWidth; + property Height: Integer read GetHeight; + {Returns if the image is interlaced} + property InterlaceMethod: TInterlaceMethod read fInterlaceMethod + write fInterlaceMethod; + {Filters to test to encode} + property Filters: TFilters read fFilters write fFilters; + {Maximum size for IDAT chunks, default and minimum is 65536} + property MaxIdatSize: Cardinal read fMaxIdatSize write SetMaxIdatSize; + {Property to return if the image is empty or not} + property Empty: Boolean read GetEmpty; + {Compression level} + property CompressionLevel: TCompressionLevel read fCompressionLevel + write fCompressionLevel; + {Access to the chunk list} + property Chunks: TPngList read fChunkList; + {Object being created and destroyed} + constructor Create; {$IFDEF UseDelphi}override;{$ENDIF} + destructor Destroy; override; + {$IFNDEF UseDelphi}procedure LoadFromFile(const Filename: String);{$ENDIF} + {$IFNDEF UseDelphi}procedure SaveToFile(const Filename: String);{$ENDIF} + procedure LoadFromStream(Stream: TStream); {$IFDEF UseDelphi}override;{$ENDIF} + procedure SaveToStream(Stream: TStream); {$IFDEF UseDelphi}override;{$ENDIF} + {Loading the image from resources} + procedure LoadFromResourceName(Instance: HInst; const Name: String); + procedure LoadFromResourceID(Instance: HInst; ResID: Integer); + {Access to the png pixels} + property Pixels[const X, Y: Integer]: TColor read GetPixels write SetPixels; + {Palette property} + {$IFNDEF UseDelphi}property Palette: HPalette read GetPalette;{$ENDIF} + end; + + {Chunk name object} + TChunkName = Array[0..3] of Char; + + {Global chunk object} + TChunk = class + private + {Contains data} + fData: Pointer; + fDataSize: Cardinal; + {Stores owner} + fOwner: TPngObject; + {Stores the chunk name} + fName: TChunkName; + {Returns pointer to the TChunkIHDR} + function GetHeader: TChunkIHDR; + {Used with property index} + function GetIndex: Integer; + {Should return chunk class/name} + class function GetName: String; virtual; + {Returns the chunk name} + function GetChunkName: String; + public + {Returns index from list} + property Index: Integer read GetIndex; + {Returns pointer to the TChunkIHDR} + property Header: TChunkIHDR read GetHeader; + {Resize the data} + procedure ResizeData(const NewSize: Cardinal); + {Returns data and size} + property Data: Pointer read fData; + property DataSize: Cardinal read fDataSize; + {Assigns from another TChunk} + procedure Assign(Source: TChunk); virtual; + {Returns owner} + property Owner: TPngObject read fOwner; + {Being destroyed/created} + constructor Create(Owner: TPngObject); virtual; + destructor Destroy; override; + {Returns chunk class/name} + property Name: String read GetChunkName; + {Loads the chunk from a stream} + function LoadFromStream(Stream: TStream; const ChunkName: TChunkName; + Size: Integer): Boolean; virtual; + {Saves the chunk to a stream} + function SaveData(Stream: TStream): Boolean; + function SaveToStream(Stream: TStream): Boolean; virtual; + end; + + {Chunk classes} + TChunkIEND = class(TChunk); {End chunk} + + {IHDR data} + pIHDRData = ^TIHDRData; + TIHDRData = packed record + Width, Height: Cardinal; + BitDepth, + ColorType, + CompressionMethod, + FilterMethod, + InterlaceMethod: Byte; + end; + + {Information header chunk} + TChunkIHDR = class(TChunk) + private + {Current image} + ImageHandle: HBitmap; + ImageDC: HDC; + + {Output windows bitmap} + HasPalette: Boolean; + BitmapInfo: TMaxBitmapInfo; + BytesPerRow: Integer; + {Stores the image bytes} + {$IFDEF Store16bits}ExtraImageData: Pointer;{$ENDIF} + ImageData: pointer; + ImageAlpha: Pointer; + + {Contains all the ihdr data} + IHDRData: TIHDRData; + protected + {Resizes the image data to fill the color type, bit depth, } + {width and height parameters} + procedure PrepareImageData; + {Release allocated ImageData memory} + procedure FreeImageData; + public + {Properties} + property Width: Cardinal read IHDRData.Width write IHDRData.Width; + property Height: Cardinal read IHDRData.Height write IHDRData.Height; + property BitDepth: Byte read IHDRData.BitDepth write IHDRData.BitDepth; + property ColorType: Byte read IHDRData.ColorType write IHDRData.ColorType; + property CompressionMethod: Byte read IHDRData.CompressionMethod + write IHDRData.CompressionMethod; + property FilterMethod: Byte read IHDRData.FilterMethod + write IHDRData.FilterMethod; + property InterlaceMethod: Byte read IHDRData.InterlaceMethod + write IHDRData.InterlaceMethod; + {Loads the chunk from a stream} + function LoadFromStream(Stream: TStream; const ChunkName: TChunkName; + Size: Integer): Boolean; override; + {Saves the chunk to a stream} + function SaveToStream(Stream: TStream): Boolean; override; + {Destructor/constructor} + constructor Create(Owner: TPngObject); override; + destructor Destroy; override; + {Assigns from another TChunk} + procedure Assign(Source: TChunk); override; + end; + + {Gamma chunk} + TChunkgAMA = class(TChunk) + private + {Returns/sets the value for the gamma chunk} + function GetValue: Cardinal; + procedure SetValue(const Value: Cardinal); + public + {Returns/sets gamma value} + property Gamma: Cardinal read GetValue write SetValue; + {Loading the chunk from a stream} + function LoadFromStream(Stream: TStream; const ChunkName: TChunkName; + Size: Integer): Boolean; override; + {Being created} + constructor Create(Owner: TPngObject); override; + {Assigns from another TChunk} + procedure Assign(Source: TChunk); override; + end; + + {ZLIB Decompression extra information} + TZStreamRec2 = packed record + {From ZLIB} + ZLIB: TZStreamRec; + {Additional info} + Data: Pointer; + fStream : TStream; + end; + + {Palette chunk} + TChunkPLTE = class(TChunk) + private + {Number of items in the palette} + fCount: Integer; + {Contains the palette handle} + function GetPaletteItem(Index: Byte): TRGBQuad; + public + {Returns the color for each item in the palette} + property Item[Index: Byte]: TRGBQuad read GetPaletteItem; + {Returns the number of items in the palette} + property Count: Integer read fCount; + {Loads the chunk from a stream} + function LoadFromStream(Stream: TStream; const ChunkName: TChunkName; + Size: Integer): Boolean; override; + {Saves the chunk to a stream} + function SaveToStream(Stream: TStream): Boolean; override; + {Assigns from another TChunk} + procedure Assign(Source: TChunk); override; + end; + + {Transparency information} + TChunktRNS = class(TChunk) + private + fBitTransparency: Boolean; + function GetTransparentColor: ColorRef; + {Returns the transparent color} + procedure SetTransparentColor(const Value: ColorRef); + public + {Palette values for transparency} + PaletteValues: Array[Byte] of Byte; + {Returns if it uses bit transparency} + property BitTransparency: Boolean read fBitTransparency; + {Returns the transparent color} + property TransparentColor: ColorRef read GetTransparentColor write + SetTransparentColor; + {Loads/saves the chunk from/to a stream} + function LoadFromStream(Stream: TStream; const ChunkName: TChunkName; + Size: Integer): Boolean; override; + function SaveToStream(Stream: TStream): Boolean; override; + {Assigns from another TChunk} + procedure Assign(Source: TChunk); override; + end; + + {Actual image information} + TChunkIDAT = class(TChunk) + private + {Holds another pointer to the TChunkIHDR} + Header: TChunkIHDR; + {Stores temporary image width and height} + ImageWidth, ImageHeight: Integer; + {Size in bytes of each line and offset} + Row_Bytes, Offset : Cardinal; + {Contains data for the lines} + Encode_Buffer: Array[0..5] of pByteArray; + Row_Buffer: Array[Boolean] of pByteArray; + {Variable to invert the Row_Buffer used} + RowUsed: Boolean; + {Ending position for the current IDAT chunk} + EndPos: Integer; + {Filter the current line} + procedure FilterRow; + {Filter to encode and returns the best filter} + function FilterToEncode: Byte; + {Reads ZLIB compressed data} + function IDATZlibRead(var ZLIBStream: TZStreamRec2; Buffer: Pointer; + Count: Integer; var EndPos: Integer; var crcfile: Cardinal): Integer; + {Compress and writes IDAT data} + procedure IDATZlibWrite(var ZLIBStream: TZStreamRec2; Buffer: Pointer; + const Length: Cardinal); + procedure FinishIDATZlib(var ZLIBStream: TZStreamRec2); + {Prepares the palette} + procedure PreparePalette; + protected + {Decode interlaced image} + procedure DecodeInterlacedAdam7(Stream: TStream; + var ZLIBStream: TZStreamRec2; const Size: Integer; var crcfile: Cardinal); + {Decode non interlaced imaged} + procedure DecodeNonInterlaced(Stream: TStream; + var ZLIBStream: TZStreamRec2; const Size: Integer; + var crcfile: Cardinal); + protected + {Encode non interlaced images} + procedure EncodeNonInterlaced(Stream: TStream; + var ZLIBStream: TZStreamRec2); + {Encode interlaced images} + procedure EncodeInterlacedAdam7(Stream: TStream; + var ZLIBStream: TZStreamRec2); + protected + {Memory copy methods to decode} + procedure CopyNonInterlacedRGB8( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyNonInterlacedRGB16( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyNonInterlacedPalette148( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyNonInterlacedPalette2( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyNonInterlacedGray2( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyNonInterlacedGrayscale16( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyNonInterlacedRGBAlpha8( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyNonInterlacedRGBAlpha16( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyNonInterlacedGrayscaleAlpha8( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyNonInterlacedGrayscaleAlpha16( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyInterlacedRGB8(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyInterlacedRGB16(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyInterlacedPalette148(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyInterlacedPalette2(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyInterlacedGray2(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyInterlacedGrayscale16(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyInterlacedRGBAlpha8(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyInterlacedRGBAlpha16(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyInterlacedGrayscaleAlpha8(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + procedure CopyInterlacedGrayscaleAlpha16(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); + protected + {Memory copy methods to encode} + procedure EncodeNonInterlacedRGB8(Src, Dest, Trans: pChar); + procedure EncodeNonInterlacedRGB16(Src, Dest, Trans: pChar); + procedure EncodeNonInterlacedGrayscale16(Src, Dest, Trans: pChar); + procedure EncodeNonInterlacedPalette148(Src, Dest, Trans: pChar); + procedure EncodeNonInterlacedRGBAlpha8(Src, Dest, Trans: pChar); + procedure EncodeNonInterlacedRGBAlpha16(Src, Dest, Trans: pChar); + procedure EncodeNonInterlacedGrayscaleAlpha8(Src, Dest, Trans: pChar); + procedure EncodeNonInterlacedGrayscaleAlpha16(Src, Dest, Trans: pChar); + procedure EncodeInterlacedRGB8(const Pass: Byte; Src, Dest, Trans: pChar); + procedure EncodeInterlacedRGB16(const Pass: Byte; Src, Dest, Trans: pChar); + procedure EncodeInterlacedPalette148(const Pass: Byte; + Src, Dest, Trans: pChar); + procedure EncodeInterlacedGrayscale16(const Pass: Byte; + Src, Dest, Trans: pChar); + procedure EncodeInterlacedRGBAlpha8(const Pass: Byte; + Src, Dest, Trans: pChar); + procedure EncodeInterlacedRGBAlpha16(const Pass: Byte; + Src, Dest, Trans: pChar); + procedure EncodeInterlacedGrayscaleAlpha8(const Pass: Byte; + Src, Dest, Trans: pChar); + procedure EncodeInterlacedGrayscaleAlpha16(const Pass: Byte; + Src, Dest, Trans: pChar); + public + {Loads the chunk from a stream} + function LoadFromStream(Stream: TStream; const ChunkName: TChunkName; + Size: Integer): Boolean; override; + {Saves the chunk to a stream} + function SaveToStream(Stream: TStream): Boolean; override; + end; + + {Image last modification chunk} + TChunktIME = class(TChunk) + private + {Holds the variables} + fYear: Word; + fMonth, fDay, fHour, fMinute, fSecond: Byte; + public + {Returns/sets variables} + property Year: Word read fYear write fYear; + property Month: Byte read fMonth write fMonth; + property Day: Byte read fDay write fDay; + property Hour: Byte read fHour write fHour; + property Minute: Byte read fMinute write fMinute; + property Second: Byte read fSecond write fSecond; + {Loads the chunk from a stream} + function LoadFromStream(Stream: TStream; const ChunkName: TChunkName; + Size: Integer): Boolean; override; + {Saves the chunk to a stream} + function SaveToStream(Stream: TStream): Boolean; override; + end; + + {Textual data} + TChunktEXt = class(TChunk) + private + fKeyword, fText: String; + public + {Keyword and text} + property Keyword: String read fKeyword write fKeyword; + property Text: String read fText write fText; + {Loads the chunk from a stream} + function LoadFromStream(Stream: TStream; const ChunkName: TChunkName; + Size: Integer): Boolean; override; + {Saves the chunk to a stream} + function SaveToStream(Stream: TStream): Boolean; override; + {Assigns from another TChunk} + procedure Assign(Source: TChunk); override; + end; + + {zTXT chunk} + TChunkzTXt = class(TChunktEXt) + {Loads the chunk from a stream} + function LoadFromStream(Stream: TStream; const ChunkName: TChunkName; + Size: Integer): Boolean; override; + {Saves the chunk to a stream} + function SaveToStream(Stream: TStream): Boolean; override; + end; + +{Here we test if it's c++ builder or delphi version 3 or less} +{$IFDEF VER110}{$DEFINE DelphiBuilder3Less}{$ENDIF} +{$IFDEF VER100}{$DEFINE DelphiBuilder3Less}{$ENDIF} +{$IFDEF VER93}{$DEFINE DelphiBuilder3Less}{$ENDIF} +{$IFDEF VER90}{$DEFINE DelphiBuilder3Less}{$ENDIF} +{$IFDEF VER80}{$DEFINE DelphiBuilder3Less}{$ENDIF} + + +{Registers a new chunk class} +procedure RegisterChunk(ChunkClass: TChunkClass); +{Calculates crc} +function update_crc(crc: {$IFNDEF DelphiBuilder3Less}Cardinal{$ELSE}Integer + {$ENDIF}; buf: pByteArray; len: Integer): Cardinal; +{Invert bytes using assembly} +function ByteSwap(const a: integer): integer; + +implementation + +var + ChunkClasses: TPngPointerList; + {Table of CRCs of all 8-bit messages} + crc_table: Array[0..255] of Cardinal; + {Flag: has the table been computed? Initially false} + crc_table_computed: Boolean; + +{Draw transparent image using transparent color} +procedure DrawTransparentBitmap(dc: HDC; srcBits: Pointer; + var srcHeader: TBitmapInfoHeader; + srcBitmapInfo: pBitmapInfo; Rect: TRect; cTransparentColor: COLORREF); +var + cColor: COLORREF; + bmAndBack, bmAndObject, bmAndMem: HBITMAP; + bmBackOld, bmObjectOld, bmMemOld: HBITMAP; + hdcMem, hdcBack, hdcObject, hdcTemp: HDC; + ptSize, orgSize: TPOINT; + OldBitmap, DrawBitmap: HBITMAP; +begin + hdcTemp := CreateCompatibleDC(dc); + // Select the bitmap + DrawBitmap := CreateDIBitmap(dc, srcHeader, CBM_INIT, srcBits, srcBitmapInfo^, + DIB_RGB_COLORS); + OldBitmap := SelectObject(hdcTemp, DrawBitmap); + + // Sizes + OrgSize.x := abs(srcHeader.biWidth); + OrgSize.y := abs(srcHeader.biHeight); + ptSize.x := Rect.Right - Rect.Left; // Get width of bitmap + ptSize.y := Rect.Bottom - Rect.Top; // Get height of bitmap + + // Create some DCs to hold temporary data. + hdcBack := CreateCompatibleDC(dc); + hdcObject := CreateCompatibleDC(dc); + hdcMem := CreateCompatibleDC(dc); + + // Create a bitmap for each DC. DCs are required for a number of + // GDI functions. + + // Monochrome DCs + bmAndBack := CreateBitmap(ptSize.x, ptSize.y, 1, 1, nil); + bmAndObject := CreateBitmap(ptSize.x, ptSize.y, 1, 1, nil); + + bmAndMem := CreateCompatibleBitmap(dc, ptSize.x, ptSize.y); + + // Each DC must select a bitmap object to store pixel data. + bmBackOld := SelectObject(hdcBack, bmAndBack); + bmObjectOld := SelectObject(hdcObject, bmAndObject); + bmMemOld := SelectObject(hdcMem, bmAndMem); + + // Set the background color of the source DC to the color. + // contained in the parts of the bitmap that should be transparent + cColor := SetBkColor(hdcTemp, cTransparentColor); + + // Create the object mask for the bitmap by performing a BitBlt + // from the source bitmap to a monochrome bitmap. + StretchBlt(hdcObject, 0, 0, ptSize.x, ptSize.y, hdcTemp, 0, 0, + orgSize.x, orgSize.y, SRCCOPY); + + // Set the background color of the source DC back to the original + // color. + SetBkColor(hdcTemp, cColor); + + // Create the inverse of the object mask. + BitBlt(hdcBack, 0, 0, ptSize.x, ptSize.y, hdcObject, 0, 0, + NOTSRCCOPY); + + // Copy the background of the main DC to the destination. + BitBlt(hdcMem, 0, 0, ptSize.x, ptSize.y, dc, Rect.Left, Rect.Top, + SRCCOPY); + + // Mask out the places where the bitmap will be placed. + BitBlt(hdcMem, 0, 0, ptSize.x, ptSize.y, hdcObject, 0, 0, SRCAND); + + // Mask out the transparent colored pixels on the bitmap. +// BitBlt(hdcTemp, 0, 0, ptSize.x, ptSize.y, hdcBack, 0, 0, SRCAND); + StretchBlt(hdcTemp, 0, 0, OrgSize.x, OrgSize.y, hdcBack, 0, 0, + PtSize.x, PtSize.y, SRCAND); + + // XOR the bitmap with the background on the destination DC. + StretchBlt(hdcMem, 0, 0, ptSize.x, ptSize.y, hdcTemp, 0, 0, + OrgSize.x, OrgSize.y, SRCPAINT); + + // Copy the destination to the screen. + BitBlt(dc, Rect.Left, Rect.Top, ptSize.x, ptSize.y, hdcMem, 0, 0, + SRCCOPY); + + // Delete the memory bitmaps. + DeleteObject(SelectObject(hdcBack, bmBackOld)); + DeleteObject(SelectObject(hdcObject, bmObjectOld)); + DeleteObject(SelectObject(hdcMem, bmMemOld)); + DeleteObject(SelectObject(hdcTemp, OldBitmap)); + + // Delete the memory DCs. + DeleteDC(hdcMem); + DeleteDC(hdcBack); + DeleteDC(hdcObject); + DeleteDC(hdcTemp); +end; + +{Make the table for a fast CRC.} +procedure make_crc_table; +var + c: Cardinal; + n, k: Integer; +begin + + {fill the crc table} + for n := 0 to 255 do + begin + c := Cardinal(n); + for k := 0 to 7 do + begin + if Boolean(c and 1) then + c := $edb88320 xor (c shr 1) + else + c := c shr 1; + end; + crc_table[n] := c; + end; + + {The table has already being computated} + crc_table_computed := true; +end; + +{Update a running CRC with the bytes buf[0..len-1]--the CRC + should be initialized to all 1's, and the transmitted value + is the 1's complement of the final running CRC (see the + crc() routine below)).} +function update_crc(crc: {$IFNDEF DelphiBuilder3Less}Cardinal{$ELSE}Integer + {$ENDIF}; buf: pByteArray; len: Integer): Cardinal; +var + c: Cardinal; + n: Integer; +begin + c := crc; + + {Create the crc table in case it has not being computed yet} + if not crc_table_computed then make_crc_table; + + {Update} + for n := 0 to len - 1 do + c := crc_table[(c XOR buf^[n]) and $FF] XOR (c shr 8); + + {Returns} + Result := c; +end; + +{$IFNDEF UseDelphi} + function FileExists(Filename: String): Boolean; + var + FindFile: THandle; + FindData: TWin32FindData; + begin + FindFile := FindFirstFile(PChar(Filename), FindData); + Result := FindFile <> INVALID_HANDLE_VALUE; + if Result then Windows.FindClose(FindFile); + end; + + +{$ENDIF} + +{$IFNDEF UseDelphi} + {Exception implementation} + constructor Exception.Create(Msg: String); + begin + end; +{$ENDIF} + +{Calculates the paeth predictor} +function PaethPredictor(a, b, c: Byte): Byte; +var + pa, pb, pc: Integer; +begin + { a = left, b = above, c = upper left } + pa := abs(b - c); { distances to a, b, c } + pb := abs(a - c); + pc := abs(a + b - c * 2); + + { return nearest of a, b, c, breaking ties in order a, b, c } + if (pa <= pb) and (pa <= pc) then + Result := a + else + if pb <= pc then + Result := b + else + Result := c; +end; + +{Invert bytes using assembly} +function ByteSwap(const a: integer): integer; +asm + bswap eax +end; +function ByteSwap16(inp:word): word; +asm + bswap eax + shr eax, 16 +end; + +{Calculates number of bytes for the number of pixels using the} +{color mode in the paramenter} +function BytesForPixels(const Pixels: Integer; const ColorType, + BitDepth: Byte): Integer; +begin + case ColorType of + {Palette and grayscale contains a single value, for palette} + {an value of size 2^bitdepth pointing to the palette index} + {and grayscale the value from 0 to 2^bitdepth with color intesity} + COLOR_GRAYSCALE, COLOR_PALETTE: + Result := (Pixels * BitDepth + 7) div 8; + {RGB contains 3 values R, G, B with size 2^bitdepth each} + COLOR_RGB: + Result := (Pixels * BitDepth * 3) div 8; + {Contains one value followed by alpha value booth size 2^bitdepth} + COLOR_GRAYSCALEALPHA: + Result := (Pixels * BitDepth * 2) div 8; + {Contains four values size 2^bitdepth, Red, Green, Blue and alpha} + COLOR_RGBALPHA: + Result := (Pixels * BitDepth * 4) div 8; + else + Result := 0; + end {case ColorType} +end; + +type + pChunkClassInfo = ^TChunkClassInfo; + TChunkClassInfo = record + ClassName: TChunkClass; + end; + +{Register a chunk type} +procedure RegisterChunk(ChunkClass: TChunkClass); +var + NewClass: pChunkClassInfo; +begin + {In case the list object has not being created yet} + if ChunkClasses = nil then ChunkClasses := TPngPointerList.Create(nil); + + {Add this new class} + new(NewClass); + NewClass^.ClassName := ChunkClass; + ChunkClasses.Add(NewClass); +end; + +{Free chunk class list} +procedure FreeChunkClassList; +var + i: Integer; +begin + if (ChunkClasses <> nil) then + begin + FOR i := 0 TO ChunkClasses.Count - 1 do + Dispose(pChunkClassInfo(ChunkClasses.Item[i])); + ChunkClasses.Free; + end; +end; + +{Registering of common chunk classes} +procedure RegisterCommonChunks; +begin + {Important chunks} + RegisterChunk(TChunkIEND); + RegisterChunk(TChunkIHDR); + RegisterChunk(TChunkIDAT); + RegisterChunk(TChunkPLTE); + RegisterChunk(TChunkgAMA); + RegisterChunk(TChunktRNS); + + {Not so important chunks} + RegisterChunk(TChunktIME); + RegisterChunk(TChunktEXt); + RegisterChunk(TChunkzTXt); +end; + +{Creates a new chunk of this class} +function CreateClassChunk(Owner: TPngObject; Name: TChunkName): TChunk; +var + i : Integer; + NewChunk: TChunkClass; +begin + {Looks for this chunk} + NewChunk := TChunk; {In case there is no registered class for this} + + {Looks for this class in all registered chunks} + if Assigned(ChunkClasses) then + FOR i := 0 TO ChunkClasses.Count - 1 DO + begin + if pChunkClassInfo(ChunkClasses.Item[i])^.ClassName.GetName = Name then + begin + NewChunk := pChunkClassInfo(ChunkClasses.Item[i])^.ClassName; + break; + end; + end; + + {Returns chunk class} + Result := NewChunk.Create(Owner); + Result.fName := Name; +end; + +{ZLIB support} + +const + ZLIBAllocate = High(Word); + +{Initializes ZLIB for decompression} +function ZLIBInitInflate(Stream: TStream): TZStreamRec2; +begin + {Fill record} + Fillchar(Result, SIZEOF(TZStreamRec2), #0); + + {Set internal record information} + with Result do + begin + GetMem(Data, ZLIBAllocate); + fStream := Stream; + end; + + {Init decompression} + InflateInit_(Result.zlib, zlib_version, SIZEOF(TZStreamRec)); +end; + +{Initializes ZLIB for compression} +function ZLIBInitDeflate(Stream: TStream; + Level: TCompressionlevel; Size: Cardinal): TZStreamRec2; +begin + {Fill record} + Fillchar(Result, SIZEOF(TZStreamRec2), #0); + + {Set internal record information} + with Result, ZLIB do + begin + GetMem(Data, Size); + fStream := Stream; + next_out := Data; + avail_out := Size; + end; + + {Inits compression} + deflateInit_(Result.zlib, Level, zlib_version, sizeof(TZStreamRec)); +end; + +{Terminates ZLIB for compression} +procedure ZLIBTerminateDeflate(var ZLIBStream: TZStreamRec2); +begin + {Terminates decompression} + DeflateEnd(ZLIBStream.zlib); + {Free internal record} + FreeMem(ZLIBStream.Data, ZLIBAllocate); +end; + +{Terminates ZLIB for decompression} +procedure ZLIBTerminateInflate(var ZLIBStream: TZStreamRec2); +begin + {Terminates decompression} + InflateEnd(ZLIBStream.zlib); + {Free internal record} + FreeMem(ZLIBStream.Data, ZLIBAllocate); +end; + +{Decompresses ZLIB into a memory address} +function DecompressZLIB(const Input: Pointer; InputSize: Integer; + var Output: Pointer; var OutputSize: Integer; + var ErrorOutput: String): Boolean; +var + StreamRec : TZStreamRec; + Buffer : Array[Byte] of Byte; + InflateRet: Integer; +begin + with StreamRec do + begin + {Initializes} + Result := True; + OutputSize := 0; + + {Prepares the data to decompress} + FillChar(StreamRec, SizeOf(TZStreamRec), #0); + InflateInit_(StreamRec, zlib_version, SIZEOF(TZStreamRec)); + next_in := Input; + avail_in := InputSize; + + {Decodes data} + repeat + {In case it needs an output buffer} + if (avail_out = 0) then + begin + next_out := @Buffer; + avail_out := SizeOf(Buffer); + end {if (avail_out = 0)}; + + {Decompress and put in output} + InflateRet := inflate(StreamRec, 0); + if (InflateRet = Z_STREAM_END) or (InflateRet = 0) then + begin + {Reallocates output buffer} + inc(OutputSize, total_out); + if Output = nil then + GetMem(Output, OutputSize) else ReallocMem(Output, OutputSize); + {Copies the new data} + CopyMemory(Ptr(Longint(Output) + OutputSize - total_out), + @Buffer, total_out); + end {if (InflateRet = Z_STREAM_END) or (InflateRet = 0)} + {Now tests for errors} + else if InflateRet < 0 then + begin + Result := False; + ErrorOutput := StreamRec.msg; + InflateEnd(StreamRec); + Exit; + end {if InflateRet < 0} + until InflateRet = Z_STREAM_END; + + {Terminates decompression} + InflateEnd(StreamRec); + end {with StreamRec} + +end; + +{Compresses ZLIB into a memory address} +function CompressZLIB(Input: Pointer; InputSize, CompressionLevel: Integer; + var Output: Pointer; var OutputSize: Integer; + var ErrorOutput: String): Boolean; +var + StreamRec : TZStreamRec; + Buffer : Array[Byte] of Byte; + DeflateRet: Integer; +begin + with StreamRec do + begin + Result := True; {By default returns TRUE as everything might have gone ok} + OutputSize := 0; {Initialize} + {Prepares the data to compress} + FillChar(StreamRec, SizeOf(TZStreamRec), #0); + DeflateInit_(StreamRec, CompressionLevel,zlib_version, SIZEOF(TZStreamRec)); + + next_in := Input; + avail_in := InputSize; + + while avail_in > 0 do + begin + {When it needs new buffer to stores the compressed data} + if avail_out = 0 then + begin + {Restore buffer} + next_out := @Buffer; + avail_out := SizeOf(Buffer); + end {if avail_out = 0}; + + {Compresses} + DeflateRet := deflate(StreamRec, Z_FINISH); + + if (DeflateRet = Z_STREAM_END) or (DeflateRet = 0) then + begin + {Updates the output memory} + inc(OutputSize, total_out); + if Output = nil then + GetMem(Output, OutputSize) else ReallocMem(Output, OutputSize); + + {Copies the new data} + CopyMemory(Ptr(Longint(Output) + OutputSize - total_out), + @Buffer, total_out); + end {if (InflateRet = Z_STREAM_END) or (InflateRet = 0)} + {Now tests for errors} + else if DeflateRet < 0 then + begin + Result := False; + ErrorOutput := StreamRec.msg; + DeflateEnd(StreamRec); + Exit; + end {if InflateRet < 0} + + end {while avail_in > 0}; + + {Finishes compressing} + DeflateEnd(StreamRec); + end {with StreamRec} + +end; + +{TPngPointerList implementation} + +{Object being created} +constructor TPngPointerList.Create(AOwner: TPNGObject); +begin + inherited Create; {Let ancestor work} + {Holds owner} + fOwner := AOwner; + {Memory pointer not being used yet} + fMemory := nil; + {No items yet} + fCount := 0; +end; + +{Removes value from the list} +function TPngPointerList.Remove(Value: Pointer): Pointer; +var + I, Position: Integer; +begin + {Gets item position} + Position := -1; + FOR I := 0 TO Count - 1 DO + if Value = Item[I] then Position := I; + {In case a match was found} + if Position >= 0 then + begin + Result := Item[Position]; {Returns pointer} + {Remove item and move memory} + Dec(fCount); + if Position < Integer(FCount) then + System.Move(fMemory^[Position + 1], fMemory^[Position], + (Integer(fCount) - Position) * SizeOf(Pointer)); + end {if Position >= 0} else Result := nil +end; + +{Add a new value in the list} +procedure TPngPointerList.Add(Value: Pointer); +begin + Count := Count + 1; + Item[Count - 1] := Value; +end; + + +{Object being destroyed} +destructor TPngPointerList.Destroy; +begin + {Release memory if needed} + if fMemory <> nil then + FreeMem(fMemory, fCount * sizeof(Pointer)); + + {Free things} + inherited Destroy; +end; + +{Returns one item from the list} +function TPngPointerList.GetItem(Index: Cardinal): Pointer; +begin + if (Index <= Count - 1) then + Result := fMemory[Index] + else + {In case it's out of bounds} + Result := nil; +end; + +{Inserts a new item in the list} +procedure TPngPointerList.Insert(Value: Pointer; Position: Cardinal); +begin + if (Position < Count) then + begin + {Increase item count} + SetSize(Count + 1); + {Move other pointers} + if Position < Count then + System.Move(fMemory^[Position], fMemory^[Position + 1], + (Count - Position - 1) * SizeOf(Pointer)); + {Sets item} + Item[Position] := Value; + end; +end; + +{Sets one item from the list} +procedure TPngPointerList.SetItem(Index: Cardinal; const Value: Pointer); +begin + {If index is in bounds, set value} + if (Index <= Count - 1) then + fMemory[Index] := Value +end; + +{This method resizes the list} +procedure TPngPointerList.SetSize(const Size: Cardinal); +begin + {Sets the size} + if (fMemory = nil) and (Size > 0) then + GetMem(fMemory, Size * SIZEOF(Pointer)) + else + if Size > 0 then {Only realloc if the new size is greater than 0} + ReallocMem(fMemory, Size * SIZEOF(Pointer)) + else + {In case user is resize to 0 items} + begin + FreeMem(fMemory); + fMemory := nil; + end; + {Update count} + fCount := Size; +end; + +{TPNGList implementation} + +{Removes an item} +procedure TPNGList.RemoveChunk(Chunk: TChunk); +begin + Remove(Chunk); + Chunk.Free +end; + +{Add a new item} +function TPNGList.Add(ChunkClass: TChunkClass): TChunk; +var + IHDR: TChunkIHDR; + IEND: TChunkIEND; + + IDAT: TChunkIDAT; + PLTE: TChunkPLTE; +begin + Result := nil; {Default result} + {Adding these is not allowed} + if (ChunkClass = TChunkIHDR) or (ChunkClass = TChunkIDAT) or + (ChunkClass = TChunkPLTE) or (ChunkClass = TChunkIEND) then + fOwner.RaiseError(EPngError, EPNGCannotAddChunkText) + {Two of these is not allowed} + else if ((ChunkClass = TChunkgAMA) and (ItemFromClass(TChunkgAMA) <> nil)) or + ((ChunkClass = TChunktRNS) and (ItemFromClass(TChunktRNS) <> nil)) then + fOwner.RaiseError(EPngError, EPNGCannotAddChunkText) + {There must have an IEND and IHDR chunk} + else if (ItemFromClass(TChunkIEND) = nil) or + (ItemFromClass(TChunkIHDR) = nil) then + fOwner.RaiseError(EPngError, EPNGCannotAddInvalidImageText) + else + begin + {Get common chunks} + IHDR := ItemFromClass(TChunkIHDR) as TChunkIHDR; + IEND := ItemFromClass(TChunkIEND) as TChunkIEND; + {Create new chunk} + Result := ChunkClass.Create(Owner); + {Add to the list} + if (ChunkClass = TChunkgAMA) then + Insert(Result, IHDR.Index + 1) + {Transparency chunk (fix by Ian Boyd)} + else if (ChunkClass = TChunktRNS) then + begin + {Transparecy chunk must be after PLTE; before IDAT} + IDAT := ItemFromClass(TChunkIDAT) as TChunkIDAT; + PLTE := ItemFromClass(TChunkPLTE) as TChunkPLTE; + + if Assigned(PLTE) then + Insert(Result, PLTE.Index + 1) + else if Assigned(IDAT) then + Insert(Result, IDAT.Index) + else + Insert(Result, IHDR.Index + 1) + end + else {All other chunks} + Insert(Result, IEND.Index); + end {if} +end; + +{Returns item from the list} +function TPNGList.GetItem(Index: Cardinal): TChunk; +begin + Result := inherited GetItem(Index); +end; + +{Returns first item from the list using the class from parameter} +function TPNGList.ItemFromClass(ChunkClass: TChunkClass): TChunk; +var + i: Integer; +begin + Result := nil; {Initial result} + FOR i := 0 TO Count - 1 DO + {Test if this item has the same class} + if Item[i] is ChunkClass then + begin + {Returns this item and exit} + Result := Item[i]; + break; + end {if} +end; + +{$IFNDEF UseDelphi} + + {TStream implementation} + + {Copies all from another stream} + function TStream.CopyFrom(Source: TStream; Count: Cardinal): Cardinal; + const + MaxBytes = $f000; + var + Buffer: PChar; + BufSize, N: Cardinal; + begin + {If count is zero, copy everything from Source} + if Count = 0 then + begin + Source.Seek(0, soFromBeginning); + Count := Source.Size; + end; + + Result := Count; {Returns the number of bytes readed} + {Allocates memory} + if Count > MaxBytes then BufSize := MaxBytes else BufSize := Count; + GetMem(Buffer, BufSize); + + {Copy memory} + while Count > 0 do + begin + if Count > BufSize then N := BufSize else N := Count; + Source.Read(Buffer^, N); + Write(Buffer^, N); + dec(Count, N); + end; + + {Deallocates memory} + FreeMem(Buffer, BufSize); + end; + +{Set current stream position} +procedure TStream.SetPosition(const Value: Longint); +begin + Seek(Value, soFromBeginning); +end; + +{Returns position} +function TStream.GetPosition: Longint; +begin + Result := Seek(0, soFromCurrent); +end; + + {Returns stream size} +function TStream.GetSize: Longint; + var + Pos: Cardinal; + begin + Pos := Seek(0, soFromCurrent); + Result := Seek(0, soFromEnd); + Seek(Pos, soFromCurrent); + end; + + {TFileStream implementation} + + {Filestream object being created} + constructor TFileStream.Create(Filename: String; Mode: TFileStreamModeSet); + {Makes file mode} + function OpenMode: DWORD; + begin + Result := 0; + if fsmRead in Mode then Result := GENERIC_READ; + if (fsmWrite in Mode) or (fsmCreate in Mode) then + Result := Result OR GENERIC_WRITE; + end; + const + IsCreate: Array[Boolean] of Integer = (OPEN_ALWAYS, CREATE_ALWAYS); + begin + {Call ancestor} + inherited Create; + + {Create handle} + fHandle := CreateFile(PChar(Filename), OpenMode, FILE_SHARE_READ or + FILE_SHARE_WRITE, nil, IsCreate[fsmCreate in Mode], 0, 0); + {Store mode} + FileMode := Mode; + end; + + {Filestream object being destroyed} + destructor TFileStream.Destroy; + begin + {Terminates file and close} + if FileMode = [fsmWrite] then + SetEndOfFile(fHandle); + CloseHandle(fHandle); + + {Call ancestor} + inherited Destroy; + end; + + {Writes data to the file} + function TFileStream.Write(const Buffer; Count: Longint): Cardinal; + begin + if not WriteFile(fHandle, Buffer, Count, Result, nil) then + Result := 0; + end; + + {Reads data from the file} + function TFileStream.Read(var Buffer; Count: Longint): Cardinal; + begin + if not ReadFile(fHandle, Buffer, Count, Result, nil) then + Result := 0; + end; + + {Seeks the file position} + function TFileStream.Seek(Offset: Integer; Origin: Word): Longint; + begin + Result := SetFilePointer(fHandle, Offset, nil, Origin); + end; + + {Sets the size of the file} + procedure TFileStream.SetSize(const Value: Longint); + begin + Seek(Value, soFromBeginning); + SetEndOfFile(fHandle); + end; + + {TResourceStream implementation} + + {Creates the resource stream} + constructor TResourceStream.Create(Instance: HInst; const ResName: String; + ResType: PChar); + var + ResID: HRSRC; + ResGlobal: HGlobal; + begin + {Obtains the resource ID} + ResID := FindResource(hInstance, PChar(ResName), RT_RCDATA); + if ResID = 0 then raise EPNGError.Create(''); + {Obtains memory and size} + ResGlobal := LoadResource(hInstance, ResID); + Size := SizeOfResource(hInstance, ResID); + Memory := LockResource(ResGlobal); + if (ResGlobal = 0) or (Memory = nil) then EPNGError.Create(''); + end; + + + {Setting resource stream size is not supported} + procedure TResourceStream.SetSize(const Value: Integer); + begin + end; + + {Writing into a resource stream is not supported} + function TResourceStream.Write(const Buffer; Count: Integer): Cardinal; + begin + Result := 0; + end; + + {Reads data from the stream} + function TResourceStream.Read(var Buffer; Count: Integer): Cardinal; + begin + //Returns data + CopyMemory(@Buffer, Ptr(Longint(Memory) + Position), Count); + //Update position + inc(Position, Count); + //Returns + Result := Count; + end; + + {Seeks data} + function TResourceStream.Seek(Offset: Integer; Origin: Word): Longint; + begin + {Move depending on the origin} + case Origin of + soFromBeginning: Position := Offset; + soFromCurrent: inc(Position, Offset); + soFromEnd: Position := Size + Offset; + end; + + {Returns the current position} + Result := Position; + end; + +{$ENDIF} + +{TChunk implementation} + +{Resizes the data} +procedure TChunk.ResizeData(const NewSize: Cardinal); +begin + fDataSize := NewSize; + ReallocMem(fData, NewSize + 1); +end; + +{Returns index from list} +function TChunk.GetIndex: Integer; +var + i: Integer; +begin + Result := -1; {Avoiding warnings} + {Searches in the list} + FOR i := 0 TO Owner.Chunks.Count - 1 DO + if Owner.Chunks.Item[i] = Self then + begin + {Found match} + Result := i; + exit; + end {for i} +end; + +{Returns pointer to the TChunkIHDR} +function TChunk.GetHeader: TChunkIHDR; +begin + Result := Owner.Chunks.Item[0] as TChunkIHDR; +end; + +{Assigns from another TChunk} +procedure TChunk.Assign(Source: TChunk); +begin + {Copy properties} + fName := Source.fName; + {Set data size and realloc} + ResizeData(Source.fDataSize); + + {Copy data (if there's any)} + if fDataSize > 0 then CopyMemory(fData, Source.fData, fDataSize); +end; + +{Chunk being created} +constructor TChunk.Create(Owner: TPngObject); +var + ChunkName: String; +begin + {Ancestor create} + inherited Create; + + {If it's a registered class, set the chunk name based on the class} + {name. For instance, if the class name is TChunkgAMA, the GAMA part} + {will become the chunk name} + ChunkName := Copy(ClassName, Length('TChunk') + 1, Length(ClassName)); + if Length(ChunkName) = 4 then CopyMemory(@fName[0], @ChunkName[1], 4); + + {Initialize data holder} + GetMem(fData, 1); + fDataSize := 0; + {Record owner} + fOwner := Owner; +end; + +{Chunk being destroyed} +destructor TChunk.Destroy; +begin + {Free data holder} + FreeMem(fData, fDataSize + 1); + {Let ancestor destroy} + inherited Destroy; +end; + +{Returns the chunk name 1} +function TChunk.GetChunkName: String; +begin + Result := fName +end; + +{Returns the chunk name 2} +class function TChunk.GetName: String; +begin + {For avoid writing GetName for each TChunk descendent, by default for} + {classes which don't declare GetName, it will look for the class name} + {to extract the chunk kind. Example, if the class name is TChunkIEND } + {this method extracts and returns IEND} + Result := Copy(ClassName, Length('TChunk') + 1, Length(ClassName)); +end; + +{Saves the data to the stream} +function TChunk.SaveData(Stream: TStream): Boolean; +var + ChunkSize, ChunkCRC: Cardinal; +begin + {First, write the size for the following data in the chunk} + ChunkSize := ByteSwap(DataSize); + Stream.Write(ChunkSize, 4); + {The chunk name} + Stream.Write(fName, 4); + {If there is data for the chunk, write it} + if DataSize > 0 then Stream.Write(Data^, DataSize); + {Calculates and write CRC} + ChunkCRC := update_crc($ffffffff, @fName[0], 4); + ChunkCRC := Byteswap(update_crc(ChunkCRC, Data, DataSize) xor $ffffffff); + Stream.Write(ChunkCRC, 4); + + {Returns that everything went ok} + Result := TRUE; +end; + +{Saves the chunk to the stream} +function TChunk.SaveToStream(Stream: TStream): Boolean; +begin + Result := SaveData(Stream) +end; + + +{Loads the chunk from a stream} +function TChunk.LoadFromStream(Stream: TStream; const ChunkName: TChunkName; + Size: Integer): Boolean; +var + CheckCRC: Cardinal; + {$IFDEF CheckCRC}RightCRC: Cardinal;{$ENDIF} +begin + {Copies data from source} + ResizeData(Size); + if Size > 0 then Stream.Read(fData^, Size); + {Reads CRC} + Stream.Read(CheckCRC, 4); + CheckCrc := ByteSwap(CheckCRC); + + {Check if crc readed is valid} + {$IFDEF CheckCRC} + RightCRC := update_crc($ffffffff, @ChunkName[0], 4); + RightCRC := update_crc(RightCRC, fData, Size) xor $ffffffff; + Result := RightCRC = CheckCrc; + + {Handle CRC error} + if not Result then + begin + {In case it coult not load chunk} + Owner.RaiseError(EPngInvalidCRC, EPngInvalidCRCText); + exit; + end + {$ELSE}Result := TRUE; {$ENDIF} + +end; + +{TChunktIME implementation} + +{Chunk being loaded from a stream} +function TChunktIME.LoadFromStream(Stream: TStream; + const ChunkName: TChunkName; Size: Integer): Boolean; +begin + {Let ancestor load the data} + Result := inherited LoadFromStream(Stream, ChunkName, Size); + if not Result or (Size <> 7) then exit; {Size must be 7} + + {Reads data} + fYear := ((pByte(Longint(Data) )^) * 256)+ (pByte(Longint(Data) + 1)^); + fMonth := pByte(Longint(Data) + 2)^; + fDay := pByte(Longint(Data) + 3)^; + fHour := pByte(Longint(Data) + 4)^; + fMinute := pByte(Longint(Data) + 5)^; + fSecond := pByte(Longint(Data) + 6)^; +end; + +{Saving the chunk to a stream} +function TChunktIME.SaveToStream(Stream: TStream): Boolean; +begin + {Update data} + ResizeData(7); {Make sure the size is 7} + pWord(Data)^ := Year; + pByte(Longint(Data) + 2)^ := Month; + pByte(Longint(Data) + 3)^ := Day; + pByte(Longint(Data) + 4)^ := Hour; + pByte(Longint(Data) + 5)^ := Minute; + pByte(Longint(Data) + 6)^ := Second; + + {Let inherited save data} + Result := inherited SaveToStream(Stream); +end; + +{TChunkztXt implementation} + +{Loading the chunk from a stream} +function TChunkzTXt.LoadFromStream(Stream: TStream; + const ChunkName: TChunkName; Size: Integer): Boolean; +var + ErrorOutput: String; + CompressionMethod: Byte; + Output: Pointer; + OutputSize: Integer; +begin + {Load data from stream and validate} + Result := inherited LoadFromStream(Stream, ChunkName, Size); + if not Result or (Size < 4) then exit; + fKeyword := PChar(Data); {Get keyword and compression method bellow} + CompressionMethod := pByte(Longint(fKeyword) + Length(fKeyword))^; + fText := ''; + + {In case the compression is 0 (only one accepted by specs), reads it} + if CompressionMethod = 0 then + begin + Output := nil; + if DecompressZLIB(PChar(Longint(Data) + Length(fKeyword) + 2), + Size - Length(fKeyword) - 2, Output, OutputSize, ErrorOutput) then + begin + SetLength(fText, OutputSize); + CopyMemory(@fText[1], Output, OutputSize); + end {if DecompressZLIB(...}; + FreeMem(Output); + end {if CompressionMethod = 0} + +end; + +{Saving the chunk to a stream} +function TChunkztXt.SaveToStream(Stream: TStream): Boolean; +var + Output: Pointer; + OutputSize: Integer; + ErrorOutput: String; +begin + Output := nil; {Initializes output} + if fText = '' then fText := ' '; + + {Compresses the data} + if CompressZLIB(@fText[1], Length(fText), Owner.CompressionLevel, Output, + OutputSize, ErrorOutput) then + begin + {Size is length from keyword, plus a null character to divide} + {plus the compression method, plus the length of the text (zlib compressed)} + ResizeData(Length(fKeyword) + 2 + OutputSize); + + Fillchar(Data^, DataSize, #0); + {Copies the keyword data} + if Keyword <> '' then + CopyMemory(Data, @fKeyword[1], Length(Keyword)); + {Compression method 0 (inflate/deflate)} + pByte(Ptr(Longint(Data) + Length(Keyword) + 1))^ := 0; + if OutputSize > 0 then + CopyMemory(Ptr(Longint(Data) + Length(Keyword) + 2), Output, OutputSize); + + {Let ancestor calculate crc and save} + Result := SaveData(Stream); + end {if CompressZLIB(...} else Result := False; + + {Frees output} + if Output <> nil then FreeMem(Output) +end; + +{TChunktEXt implementation} + +{Assigns from another text chunk} +procedure TChunktEXt.Assign(Source: TChunk); +begin + fKeyword := TChunktEXt(Source).fKeyword; + fText := TChunktEXt(Source).fText; +end; + +{Loading the chunk from a stream} +function TChunktEXt.LoadFromStream(Stream: TStream; + const ChunkName: TChunkName; Size: Integer): Boolean; +begin + {Load data from stream and validate} + Result := inherited LoadFromStream(Stream, ChunkName, Size); + if not Result or (Size < 3) then exit; + {Get text} + fKeyword := PChar(Data); + SetLength(fText, Size - Length(fKeyword) - 1); + CopyMemory(@fText[1], Ptr(Longint(Data) + Length(fKeyword) + 1), + Length(fText)); +end; + +{Saving the chunk to a stream} +function TChunktEXt.SaveToStream(Stream: TStream): Boolean; +begin + {Size is length from keyword, plus a null character to divide} + {plus the length of the text} + ResizeData(Length(fKeyword) + 1 + Length(fText)); + Fillchar(Data^, DataSize, #0); + {Copy data} + if Keyword <> '' then + CopyMemory(Data, @fKeyword[1], Length(Keyword)); + if Text <> '' then + CopyMemory(Ptr(Longint(Data) + Length(Keyword) + 1), @fText[1], + Length(Text)); + {Let ancestor calculate crc and save} + Result := inherited SaveToStream(Stream); +end; + + +{TChunkIHDR implementation} + +{Chunk being created} +constructor TChunkIHDR.Create(Owner: TPngObject); +begin + {Call inherited} + inherited Create(Owner); + {Prepare pointers} + ImageHandle := 0; + ImageDC := 0; +end; + +{Chunk being destroyed} +destructor TChunkIHDR.Destroy; +begin + {Free memory} + FreeImageData(); + + {Calls TChunk destroy} + inherited Destroy; +end; + +{Assigns from another IHDR chunk} +procedure TChunkIHDR.Assign(Source: TChunk); +begin + {Copy the IHDR data} + if Source is TChunkIHDR then + begin + {Copy IHDR values} + IHDRData := TChunkIHDR(Source).IHDRData; + + {Prepare to hold data by filling BitmapInfo structure and} + {resizing ImageData and ImageAlpha memory allocations} + PrepareImageData(); + + {Copy image data} + CopyMemory(ImageData, TChunkIHDR(Source).ImageData, + BytesPerRow * Integer(Height)); + CopyMemory(ImageAlpha, TChunkIHDR(Source).ImageAlpha, + Integer(Width) * Integer(Height)); + + {Copy palette colors} + BitmapInfo.bmiColors := TChunkIHDR(Source).BitmapInfo.bmiColors; + end + else + Owner.RaiseError(EPNGError, EPNGCannotAssignChunkText); +end; + +{Release allocated image data} +procedure TChunkIHDR.FreeImageData; +begin + {Free old image data} + if ImageHandle <> 0 then DeleteObject(ImageHandle); + if ImageDC <> 0 then DeleteDC(ImageDC); + if ImageAlpha <> nil then FreeMem(ImageAlpha); + {$IFDEF Store16bits} + if ExtraImageData <> nil then FreeMem(ExtraImageData); + {$ENDIF} + ImageHandle := 0; ImageDC := 0; ImageAlpha := nil; ImageData := nil; +end; + +{Chunk being loaded from a stream} +function TChunkIHDR.LoadFromStream(Stream: TStream; const ChunkName: TChunkName; + Size: Integer): Boolean; +begin + {Let TChunk load it} + Result := inherited LoadFromStream(Stream, ChunkName, Size); + if not Result then Exit; + + {Now check values} + {Note: It's recommended by png specification to make sure that the size} + {must be 13 bytes to be valid, but some images with 14 bytes were found} + {which could be loaded by internet explorer and other tools} + if (fDataSize < SIZEOF(TIHdrData)) then + begin + {Ihdr must always have at least 13 bytes} + Result := False; + Owner.RaiseError(EPNGInvalidIHDR, EPNGInvalidIHDRText); + exit; + end; + + {Everything ok, reads IHDR} + IHDRData := pIHDRData(fData)^; + IHDRData.Width := ByteSwap(IHDRData.Width); + IHDRData.Height := ByteSwap(IHDRData.Height); + + {The width and height must not be larger than 65535 pixels} + if (IHDRData.Width > High(Word)) or (IHDRData.Height > High(Word)) then + begin + Result := False; + Owner.RaiseError(EPNGSizeExceeds, EPNGSizeExceedsText); + exit; + end {if IHDRData.Width > High(Word)}; + {Compression method must be 0 (inflate/deflate)} + if (IHDRData.CompressionMethod <> 0) then + begin + Result := False; + Owner.RaiseError(EPNGUnknownCompression, EPNGUnknownCompressionText); + exit; + end; + {Interlace must be either 0 (none) or 7 (adam7)} + if (IHDRData.InterlaceMethod <> 0) and (IHDRData.InterlaceMethod <> 1) then + begin + Result := False; + Owner.RaiseError(EPNGUnknownInterlace, EPNGUnknownInterlaceText); + exit; + end; + + {Updates owner properties} + Owner.InterlaceMethod := TInterlaceMethod(IHDRData.InterlaceMethod); + + {Prepares data to hold image} + PrepareImageData(); +end; + +{Saving the IHDR chunk to a stream} +function TChunkIHDR.SaveToStream(Stream: TStream): Boolean; +begin + {Ignore 2 bits images} + if BitDepth = 2 then BitDepth := 4; + + {It needs to do is update the data with the IHDR data} + {structure containing the write values} + ResizeData(SizeOf(TIHDRData)); + pIHDRData(fData)^ := IHDRData; + {..byteswap 4 byte types} + pIHDRData(fData)^.Width := ByteSwap(pIHDRData(fData)^.Width); + pIHDRData(fData)^.Height := ByteSwap(pIHDRData(fData)^.Height); + {..update interlace method} + pIHDRData(fData)^.InterlaceMethod := Byte(Owner.InterlaceMethod); + {..and then let the ancestor SaveToStream do the hard work} + Result := inherited SaveToStream(Stream); +end; + +{Resizes the image data to fill the color type, bit depth, } +{width and height parameters} +procedure TChunkIHDR.PrepareImageData(); + + {Set the bitmap info} + procedure SetInfo(const Bitdepth: Integer; const Palette: Boolean); + begin + + {Copy if the bitmap contain palette entries} + HasPalette := Palette; + {Initialize the structure with zeros} + fillchar(BitmapInfo, sizeof(BitmapInfo), #0); + {Fill the strucutre} + with BitmapInfo.bmiHeader do + begin + biSize := sizeof(TBitmapInfoHeader); + biHeight := Height; + biWidth := Width; + biPlanes := 1; + biBitCount := BitDepth; + biCompression := BI_RGB; + end {with BitmapInfo.bmiHeader} + end; +begin + {Prepare bitmap info header} + Fillchar(BitmapInfo, sizeof(TMaxBitmapInfo), #0); + {Release old image data} + FreeImageData(); + + {Obtain number of bits for each pixel} + case ColorType of + COLOR_GRAYSCALE, COLOR_PALETTE, COLOR_GRAYSCALEALPHA: + case BitDepth of + {These are supported by windows} + 1, 4, 8: SetInfo(BitDepth, TRUE); + {2 bits for each pixel is not supported by windows bitmap} + 2 : SetInfo(4, TRUE); + {Also 16 bits (2 bytes) for each pixel is not supported} + {and should be transormed into a 8 bit grayscale} + 16 : SetInfo(8, TRUE); + end; + {Only 1 byte (8 bits) is supported} + COLOR_RGB, COLOR_RGBALPHA: SetInfo(24, FALSE); + end {case ColorType}; + {Number of bytes for each scanline} + BytesPerRow := (((BitmapInfo.bmiHeader.biBitCount * Width) + 31) + and not 31) div 8; + + {Build array for alpha information, if necessary} + if (ColorType = COLOR_RGBALPHA) or (ColorType = COLOR_GRAYSCALEALPHA) then + begin + GetMem(ImageAlpha, Integer(Width) * Integer(Height)); + FillChar(ImageAlpha^, Integer(Width) * Integer(Height), #0); + end; + + {Build array for extra byte information} + {$IFDEF Store16bits} + if (BitDepth = 16) then + begin + GetMem(ExtraImageData, BytesPerRow * Integer(Height)); + FillChar(ExtraImageData^, BytesPerRow * Integer(Height), #0); + end; + {$ENDIF} + + {Creates the image to hold the data, CreateDIBSection does a better} + {work in allocating necessary memory} + ImageDC := CreateCompatibleDC(0); + ImageHandle := CreateDIBSection(ImageDC, pBitmapInfo(@BitmapInfo)^, + DIB_RGB_COLORS, ImageData, 0, 0); + + {Clears the old palette (if any)} + with Owner do + if TempPalette <> 0 then + begin + DeleteObject(TempPalette); + TempPalette := 0; + end {with Owner, if TempPalette <> 0}; + + {Build array and allocate bytes for each row} + zeromemory(ImageData, BytesPerRow * Integer(Height)); +end; + +{TChunktRNS implementation} + +{$IFNDEF UseDelphi} +function CompareMem(P1, P2: pByte; const Size: Integer): Boolean; +var i: Integer; +begin + Result := True; + for i := 1 to Size do + begin + if P1^ <> P2^ then Result := False; + inc(P1); inc(P2); + end {for i} +end; +{$ENDIF} + +{Sets the transpararent color} +procedure TChunktRNS.SetTransparentColor(const Value: ColorRef); +var + i: Byte; + LookColor: TRGBQuad; +begin + {Clears the palette values} + Fillchar(PaletteValues, SizeOf(PaletteValues), #0); + {Sets that it uses bit transparency} + fBitTransparency := True; + + + {Depends on the color type} + with Header do + case ColorType of + COLOR_GRAYSCALE: + begin + Self.ResizeData(2); + pWord(@PaletteValues[0])^ := ByteSwap16(GetRValue(Value)); + end; + COLOR_RGB: + begin + Self.ResizeData(6); + pWord(@PaletteValues[0])^ := ByteSwap16(GetRValue(Value)); + pWord(@PaletteValues[2])^ := ByteSwap16(GetGValue(Value)); + pWord(@PaletteValues[4])^ := ByteSwap16(GetBValue(Value)); + end; + COLOR_PALETTE: + begin + {Creates a RGBQuad to search for the color} + LookColor.rgbRed := GetRValue(Value); + LookColor.rgbGreen := GetGValue(Value); + LookColor.rgbBlue := GetBValue(Value); + {Look in the table for the entry} + for i := 0 to 255 do + if CompareMem(@BitmapInfo.bmiColors[i], @LookColor, 3) then + Break; + {Fill the transparency table} + Fillchar(PaletteValues, i, 255); + Self.ResizeData(i + 1) + + end + end {case / with}; + +end; + +{Returns the transparent color for the image} +function TChunktRNS.GetTransparentColor: ColorRef; +var + PaletteChunk: TChunkPLTE; + i: Integer; +begin + Result := 0; {Default: Unknown transparent color} + + {Depends on the color type} + with Header do + case ColorType of + COLOR_GRAYSCALE: + Result := RGB(PaletteValues[0], PaletteValues[0], + PaletteValues[0]); + COLOR_RGB: + Result := RGB(PaletteValues[1], PaletteValues[3], PaletteValues[5]); + COLOR_PALETTE: + begin + {Obtains the palette chunk} + PaletteChunk := Owner.Chunks.ItemFromClass(TChunkPLTE) as TChunkPLTE; + + {Looks for an entry with 0 transparency meaning that it is the} + {full transparent entry} + for i := 0 to Self.DataSize - 1 do + if PaletteValues[i] = 0 then + with PaletteChunk.GetPaletteItem(i) do + begin + Result := RGB(rgbRed, rgbGreen, rgbBlue); + break + end + end {COLOR_PALETTE} + end {case Header.ColorType}; +end; + +{Saving the chunk to a stream} +function TChunktRNS.SaveToStream(Stream: TStream): Boolean; +begin + {Copy palette into data buffer} + if DataSize <= 256 then + CopyMemory(fData, @PaletteValues[0], DataSize); + + Result := inherited SaveToStream(Stream); +end; + +{Assigns from another chunk} +procedure TChunktRNS.Assign(Source: TChunk); +begin + CopyMemory(@PaletteValues[0], @TChunkTrns(Source).PaletteValues[0], 256); + fBitTransparency := TChunkTrns(Source).fBitTransparency; + inherited Assign(Source); +end; + +{Loads the chunk from a stream} +function TChunktRNS.LoadFromStream(Stream: TStream; const ChunkName: TChunkName; + Size: Integer): Boolean; +var + i, Differ255: Integer; +begin + {Let inherited load} + Result := inherited LoadFromStream(Stream, ChunkName, Size); + + if not Result then Exit; + + {Make sure size is correct} + if Size > 256 then Owner.RaiseError(EPNGInvalidPalette, + EPNGInvalidPaletteText); + + {The unset items should have value 255} + Fillchar(PaletteValues[0], 256, 255); + {Copy the other values} + CopyMemory(@PaletteValues[0], fData, Size); + + {Create the mask if needed} + case Header.ColorType of + {Mask for grayscale and RGB} + COLOR_RGB, COLOR_GRAYSCALE: fBitTransparency := True; + COLOR_PALETTE: + begin + Differ255 := 0; {Count the entries with a value different from 255} + {Tests if it uses bit transparency} + for i := 0 to Size - 1 do + if PaletteValues[i] <> 255 then inc(Differ255); + + {If it has one value different from 255 it is a bit transparency} + fBitTransparency := (Differ255 = 1); + end {COLOR_PALETTE} + end {case Header.ColorType}; + +end; + +{Prepares the image palette} +procedure TChunkIDAT.PreparePalette; +var + Entries: Word; + j : Integer; +begin + {In case the image uses grayscale, build a grayscale palette} + with Header do + if (ColorType = COLOR_GRAYSCALE) or (ColorType = COLOR_GRAYSCALEALPHA) then + begin + {Calculate total number of palette entries} + Entries := (1 shl Byte(BitmapInfo.bmiHeader.biBitCount)); + + FOR j := 0 TO Entries - 1 DO + with BitmapInfo.bmiColors[j] do + begin + + {Calculate each palette entry} + rgbRed := fOwner.GammaTable[MulDiv(j, 255, Entries - 1)]; + rgbGreen := rgbRed; + rgbBlue := rgbRed; + end {with BitmapInfo.bmiColors[j]} + end {if ColorType = COLOR_GRAYSCALE..., with Header} +end; + +{Reads from ZLIB} +function TChunkIDAT.IDATZlibRead(var ZLIBStream: TZStreamRec2; + Buffer: Pointer; Count: Integer; var EndPos: Integer; + var crcfile: Cardinal): Integer; +var + ProcResult : Integer; + IDATHeader : Array[0..3] of char; + IDATCRC : Cardinal; +begin + {Uses internal record pointed by ZLIBStream to gather information} + with ZLIBStream, ZLIBStream.zlib do + begin + {Set the buffer the zlib will read into} + next_out := Buffer; + avail_out := Count; + + {Decode until it reach the Count variable} + while avail_out > 0 do + begin + {In case it needs more data and it's in the end of a IDAT chunk,} + {it means that there are more IDAT chunks} + if (fStream.Position = EndPos) and (avail_out > 0) and + (avail_in = 0) then + begin + {End this chunk by reading and testing the crc value} + fStream.Read(IDATCRC, 4); + + {$IFDEF CheckCRC} + if crcfile xor $ffffffff <> Cardinal(ByteSwap(IDATCRC)) then + begin + Result := -1; + Owner.RaiseError(EPNGInvalidCRC, EPNGInvalidCRCText); + exit; + end; + {$ENDIF} + + {Start reading the next chunk} + fStream.Read(EndPos, 4); {Reads next chunk size} + fStream.Read(IDATHeader[0], 4); {Next chunk header} + {It must be a IDAT chunk since image data is required and PNG} + {specification says that multiple IDAT chunks must be consecutive} + if IDATHeader <> 'IDAT' then + begin + Owner.RaiseError(EPNGMissingMultipleIDAT, EPNGMissingMultipleIDATText); + result := -1; + exit; + end; + + {Calculate chunk name part of the crc} + {$IFDEF CheckCRC} + crcfile := update_crc($ffffffff, @IDATHeader[0], 4); + {$ENDIF} + EndPos := fStream.Position + ByteSwap(EndPos); + end; + + + {In case it needs compressed data to read from} + if avail_in = 0 then + begin + {In case it's trying to read more than it is avaliable} + if fStream.Position + ZLIBAllocate > EndPos then + avail_in := fStream.Read(Data^, EndPos - fStream.Position) + else + avail_in := fStream.Read(Data^, ZLIBAllocate); + {Update crc} + {$IFDEF CheckCRC} + crcfile := update_crc(crcfile, Data, avail_in); + {$ENDIF} + + {In case there is no more compressed data to read from} + if avail_in = 0 then + begin + Result := Count - avail_out; + Exit; + end; + + {Set next buffer to read and record current position} + next_in := Data; + + end {if avail_in = 0}; + + ProcResult := inflate(zlib, 0); + + {In case the result was not sucessfull} + if (ProcResult < 0) then + begin + Result := -1; + Owner.RaiseError(EPNGZLIBError, + EPNGZLIBErrorText + zliberrors[procresult]); + exit; + end; + + end {while avail_out > 0}; + + end {with}; + + {If everything gone ok, it returns the count bytes} + Result := Count; +end; + +{TChunkIDAT implementation} + +const + {Adam 7 interlacing values} + RowStart: array[0..6] of Integer = (0, 0, 4, 0, 2, 0, 1); + ColumnStart: array[0..6] of Integer = (0, 4, 0, 2, 0, 1, 0); + RowIncrement: array[0..6] of Integer = (8, 8, 8, 4, 4, 2, 2); + ColumnIncrement: array[0..6] of Integer = (8, 8, 4, 4, 2, 2, 1); + +{Copy interlaced images with 1 byte for R, G, B} +procedure TChunkIDAT.CopyInterlacedRGB8(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + Col: Integer; +begin + {Get first column and enter in loop} + Col := ColumnStart[Pass]; + Dest := pChar(Longint(Dest) + Col * 3); + repeat + {Copy this row} + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) + 2)^]; inc(Dest); + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) + 1)^]; inc(Dest); + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) )^]; inc(Dest); + + {Move to next column} + inc(Src, 3); + inc(Dest, ColumnIncrement[Pass] * 3 - 3); + inc(Col, ColumnIncrement[Pass]); + until Col >= ImageWidth; +end; + +{Copy interlaced images with 2 bytes for R, G, B} +procedure TChunkIDAT.CopyInterlacedRGB16(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + Col: Integer; +begin + {Get first column and enter in loop} + Col := ColumnStart[Pass]; + Dest := pChar(Longint(Dest) + Col * 3); + repeat + {Copy this row} + Byte(Dest^) := Owner.GammaTable[pByte(Longint(Src) + 4)^]; inc(Dest); + Byte(Dest^) := Owner.GammaTable[pByte(Longint(Src) + 2)^]; inc(Dest); + Byte(Dest^) := Owner.GammaTable[pByte(Longint(Src) )^]; inc(Dest); + {$IFDEF Store16bits} + {Copy extra pixel values} + Byte(Extra^) := fOwner.GammaTable[pByte(Longint(Src) + 5)^]; inc(Extra); + Byte(Extra^) := fOwner.GammaTable[pByte(Longint(Src) + 3)^]; inc(Extra); + Byte(Extra^) := fOwner.GammaTable[pByte(Longint(Src) + 1)^]; inc(Extra); + {$ENDIF} + + {Move to next column} + inc(Src, 6); + inc(Dest, ColumnIncrement[Pass] * 3 - 3); + inc(Col, ColumnIncrement[Pass]); + until Col >= ImageWidth; +end; + +{Copy ímages with palette using bit depths 1, 4 or 8} +procedure TChunkIDAT.CopyInterlacedPalette148(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +const + BitTable: Array[1..8] of Integer = ($1, $3, 0, $F, 0, 0, 0, $FF); + StartBit: Array[1..8] of Integer = (7 , 0 , 0, 4, 0, 0, 0, 0); +var + CurBit, Col: Integer; + Dest2: PChar; +begin + {Get first column and enter in loop} + Col := ColumnStart[Pass]; + repeat + {Copy data} + CurBit := StartBit[Header.BitDepth]; + repeat + {Adjust pointer to pixel byte bounds} + Dest2 := pChar(Longint(Dest) + (Header.BitDepth * Col) div 8); + {Copy data} + Byte(Dest2^) := Byte(Dest2^) or + ( ((Byte(Src^) shr CurBit) and BitTable[Header.BitDepth]) + shl (StartBit[Header.BitDepth] - (Col * Header.BitDepth mod 8))); + + {Move to next column} + inc(Col, ColumnIncrement[Pass]); + {Will read next bits} + dec(CurBit, Header.BitDepth); + until CurBit < 0; + + {Move to next byte in source} + inc(Src); + until Col >= ImageWidth; +end; + +{Copy ímages with palette using bit depth 2} +procedure TChunkIDAT.CopyInterlacedPalette2(const Pass: Byte; Src, Dest, + Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + CurBit, Col: Integer; + Dest2: PChar; +begin + {Get first column and enter in loop} + Col := ColumnStart[Pass]; + repeat + {Copy data} + CurBit := 6; + repeat + {Adjust pointer to pixel byte bounds} + Dest2 := pChar(Longint(Dest) + Col div 2); + {Copy data} + Byte(Dest2^) := Byte(Dest2^) or (((Byte(Src^) shr CurBit) and $3) + shl (4 - (4 * Col) mod 8)); + {Move to next column} + inc(Col, ColumnIncrement[Pass]); + {Will read next bits} + dec(CurBit, 2); + until CurBit < 0; + + {Move to next byte in source} + inc(Src); + until Col >= ImageWidth; +end; + +{Copy ímages with grayscale using bit depth 2} +procedure TChunkIDAT.CopyInterlacedGray2(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + CurBit, Col: Integer; + Dest2: PChar; +begin + {Get first column and enter in loop} + Col := ColumnStart[Pass]; + repeat + {Copy data} + CurBit := 6; + repeat + {Adjust pointer to pixel byte bounds} + Dest2 := pChar(Longint(Dest) + Col div 2); + {Copy data} + Byte(Dest2^) := Byte(Dest2^) or ((((Byte(Src^) shr CurBit) shl 2) and $F) + shl (4 - (Col*4) mod 8)); + {Move to next column} + inc(Col, ColumnIncrement[Pass]); + {Will read next bits} + dec(CurBit, 2); + until CurBit < 0; + + {Move to next byte in source} + inc(Src); + until Col >= ImageWidth; +end; + +{Copy ímages with palette using 2 bytes for each pixel} +procedure TChunkIDAT.CopyInterlacedGrayscale16(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + Col: Integer; +begin + {Get first column and enter in loop} + Col := ColumnStart[Pass]; + Dest := pChar(Longint(Dest) + Col); + repeat + {Copy this row} + Dest^ := Src^; inc(Dest); + {$IFDEF Store16bits} + Extra^ := pChar(Longint(Src) + 1)^; inc(Extra); + {$ENDIF} + + {Move to next column} + inc(Src, 2); + inc(Dest, ColumnIncrement[Pass] - 1); + inc(Col, ColumnIncrement[Pass]); + until Col >= ImageWidth; +end; + +{Decodes interlaced RGB alpha with 1 byte for each sample} +procedure TChunkIDAT.CopyInterlacedRGBAlpha8(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + Col: Integer; +begin + {Get first column and enter in loop} + Col := ColumnStart[Pass]; + Dest := pChar(Longint(Dest) + Col * 3); + Trans := pChar(Longint(Trans) + Col); + repeat + {Copy this row and alpha value} + Trans^ := pChar(Longint(Src) + 3)^; + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) + 2)^]; inc(Dest); + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) + 1)^]; inc(Dest); + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) )^]; inc(Dest); + + {Move to next column} + inc(Src, 4); + inc(Dest, ColumnIncrement[Pass] * 3 - 3); + inc(Trans, ColumnIncrement[Pass]); + inc(Col, ColumnIncrement[Pass]); + until Col >= ImageWidth; +end; + +{Decodes interlaced RGB alpha with 2 bytes for each sample} +procedure TChunkIDAT.CopyInterlacedRGBAlpha16(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + Col: Integer; +begin + {Get first column and enter in loop} + Col := ColumnStart[Pass]; + Dest := pChar(Longint(Dest) + Col * 3); + Trans := pChar(Longint(Trans) + Col); + repeat + {Copy this row and alpha value} + Trans^ := pChar(Longint(Src) + 6)^; + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) + 4)^]; inc(Dest); + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) + 2)^]; inc(Dest); + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) )^]; inc(Dest); + {$IFDEF Store16bits} + {Copy extra pixel values} + Byte(Extra^) := fOwner.GammaTable[pByte(Longint(Src) + 5)^]; inc(Extra); + Byte(Extra^) := fOwner.GammaTable[pByte(Longint(Src) + 3)^]; inc(Extra); + Byte(Extra^) := fOwner.GammaTable[pByte(Longint(Src) + 1)^]; inc(Extra); + {$ENDIF} + + {Move to next column} + inc(Src, 8); + inc(Dest, ColumnIncrement[Pass] * 3 - 3); + inc(Trans, ColumnIncrement[Pass]); + inc(Col, ColumnIncrement[Pass]); + until Col >= ImageWidth; +end; + +{Decodes 8 bit grayscale image followed by an alpha sample} +procedure TChunkIDAT.CopyInterlacedGrayscaleAlpha8(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + Col: Integer; +begin + {Get first column, pointers to the data and enter in loop} + Col := ColumnStart[Pass]; + Dest := pChar(Longint(Dest) + Col); + Trans := pChar(Longint(Trans) + Col); + repeat + {Copy this grayscale value and alpha} + Dest^ := Src^; inc(Src); + Trans^ := Src^; inc(Src); + + {Move to next column} + inc(Dest, ColumnIncrement[Pass]); + inc(Trans, ColumnIncrement[Pass]); + inc(Col, ColumnIncrement[Pass]); + until Col >= ImageWidth; +end; + +{Decodes 16 bit grayscale image followed by an alpha sample} +procedure TChunkIDAT.CopyInterlacedGrayscaleAlpha16(const Pass: Byte; + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + Col: Integer; +begin + {Get first column, pointers to the data and enter in loop} + Col := ColumnStart[Pass]; + Dest := pChar(Longint(Dest) + Col); + Trans := pChar(Longint(Trans) + Col); + repeat + {$IFDEF Store16bits} + Extra^ := pChar(Longint(Src) + 1)^; inc(Extra); + {$ENDIF} + {Copy this grayscale value and alpha, transforming 16 bits into 8} + Dest^ := Src^; inc(Src, 2); + Trans^ := Src^; inc(Src, 2); + + {Move to next column} + inc(Dest, ColumnIncrement[Pass]); + inc(Trans, ColumnIncrement[Pass]); + inc(Col, ColumnIncrement[Pass]); + until Col >= ImageWidth; +end; + +{Decodes an interlaced image} +procedure TChunkIDAT.DecodeInterlacedAdam7(Stream: TStream; + var ZLIBStream: TZStreamRec2; const Size: Integer; var crcfile: Cardinal); +var + CurrentPass: Byte; + PixelsThisRow: Integer; + CurrentRow: Integer; + Trans, Data{$IFDEF Store16bits}, Extra{$ENDIF}: pChar; + CopyProc: procedure(const Pass: Byte; Src, Dest, + Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar) of object; +begin + + CopyProc := nil; {Initialize} + {Determine method to copy the image data} + case Header.ColorType of + {R, G, B values for each pixel} + COLOR_RGB: + case Header.BitDepth of + 8: CopyProc := CopyInterlacedRGB8; + 16: CopyProc := CopyInterlacedRGB16; + end {case Header.BitDepth}; + {Palette} + COLOR_PALETTE, COLOR_GRAYSCALE: + case Header.BitDepth of + 1, 4, 8: CopyProc := CopyInterlacedPalette148; + 2 : if Header.ColorType = COLOR_PALETTE then + CopyProc := CopyInterlacedPalette2 + else + CopyProc := CopyInterlacedGray2; + 16 : CopyProc := CopyInterlacedGrayscale16; + end; + {RGB followed by alpha} + COLOR_RGBALPHA: + case Header.BitDepth of + 8: CopyProc := CopyInterlacedRGBAlpha8; + 16: CopyProc := CopyInterlacedRGBAlpha16; + end; + {Grayscale followed by alpha} + COLOR_GRAYSCALEALPHA: + case Header.BitDepth of + 8: CopyProc := CopyInterlacedGrayscaleAlpha8; + 16: CopyProc := CopyInterlacedGrayscaleAlpha16; + end; + end {case Header.ColorType}; + + {Adam7 method has 7 passes to make the final image} + FOR CurrentPass := 0 TO 6 DO + begin + {Calculates the number of pixels and bytes for this pass row} + PixelsThisRow := (ImageWidth - ColumnStart[CurrentPass] + + ColumnIncrement[CurrentPass] - 1) div ColumnIncrement[CurrentPass]; + Row_Bytes := BytesForPixels(PixelsThisRow, Header.ColorType, + Header.BitDepth); + {Clear buffer for this pass} + ZeroMemory(Row_Buffer[not RowUsed], Row_Bytes); + + {Get current row index} + CurrentRow := RowStart[CurrentPass]; + {Get a pointer to the current row image data} + Data := Ptr(Longint(Header.ImageData) + Header.BytesPerRow * + (ImageHeight - 1 - CurrentRow)); + Trans := Ptr(Longint(Header.ImageAlpha) + ImageWidth * CurrentRow); + {$IFDEF Store16bits} + Extra := Ptr(Longint(Header.ExtraImageData) + Header.BytesPerRow * + (ImageHeight - 1 - CurrentRow)); + {$ENDIF} + + if Row_Bytes > 0 then {There must have bytes for this interlaced pass} + while CurrentRow < ImageHeight do + begin + {Reads this line and filter} + if IDATZlibRead(ZLIBStream, @Row_Buffer[RowUsed][0], Row_Bytes + 1, + EndPos, CRCFile) = 0 then break; + + FilterRow; + {Copy image data} + + CopyProc(CurrentPass, @Row_Buffer[RowUsed][1], Data, Trans + {$IFDEF Store16bits}, Extra{$ENDIF}); + + {Use the other RowBuffer item} + RowUsed := not RowUsed; + + {Move to the next row} + inc(CurrentRow, RowIncrement[CurrentPass]); + {Move pointer to the next line} + dec(Data, RowIncrement[CurrentPass] * Header.BytesPerRow); + inc(Trans, RowIncrement[CurrentPass] * ImageWidth); + {$IFDEF Store16bits} + dec(Extra, RowIncrement[CurrentPass] * Header.BytesPerRow); + {$ENDIF} + end {while CurrentRow < ImageHeight}; + + end {FOR CurrentPass}; + +end; + +{Copy 8 bits RGB image} +procedure TChunkIDAT.CopyNonInterlacedRGB8( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + I: Integer; +begin + FOR I := 1 TO ImageWidth DO + begin + {Copy pixel values} + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) + 2)^]; inc(Dest); + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) + 1)^]; inc(Dest); + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) )^]; inc(Dest); + {Move to next pixel} + inc(Src, 3); + end {for I} +end; + +{Copy 16 bits RGB image} +procedure TChunkIDAT.CopyNonInterlacedRGB16( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + I: Integer; +begin + FOR I := 1 TO ImageWidth DO + begin + //Since windows does not supports 2 bytes for + //each R, G, B value, the method will read only 1 byte from it + {Copy pixel values} + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) + 4)^]; inc(Dest); + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) + 2)^]; inc(Dest); + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) )^]; inc(Dest); + {$IFDEF Store16bits} + {Copy extra pixel values} + Byte(Extra^) := fOwner.GammaTable[pByte(Longint(Src) + 5)^]; inc(Extra); + Byte(Extra^) := fOwner.GammaTable[pByte(Longint(Src) + 3)^]; inc(Extra); + Byte(Extra^) := fOwner.GammaTable[pByte(Longint(Src) + 1)^]; inc(Extra); + {$ENDIF} + + {Move to next pixel} + inc(Src, 6); + end {for I} +end; + +{Copy types using palettes (1, 4 or 8 bits per pixel)} +procedure TChunkIDAT.CopyNonInterlacedPalette148( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +begin + {It's simple as copying the data} + CopyMemory(Dest, Src, Row_Bytes); +end; + +{Copy grayscale types using 2 bits for each pixel} +procedure TChunkIDAT.CopyNonInterlacedGray2( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + i: Integer; +begin + {2 bits is not supported, this routine will converted into 4 bits} + FOR i := 1 TO Row_Bytes do + begin + Byte(Dest^) := ((Byte(Src^) shr 2) and $F) or ((Byte(Src^)) and $F0); inc(Dest); + Byte(Dest^) := ((Byte(Src^) shl 2) and $F) or ((Byte(Src^) shl 4) and $F0); inc(Dest); + inc(Src); + end {FOR i} +end; + +{Copy types using palette with 2 bits for each pixel} +procedure TChunkIDAT.CopyNonInterlacedPalette2( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + i: Integer; +begin + {2 bits is not supported, this routine will converted into 4 bits} + FOR i := 1 TO Row_Bytes do + begin + Byte(Dest^) := ((Byte(Src^) shr 4) and $3) or ((Byte(Src^) shr 2) and $30); inc(Dest); + Byte(Dest^) := (Byte(Src^) and $3) or ((Byte(Src^) shl 2) and $30); inc(Dest); + inc(Src); + end {FOR i} +end; + +{Copy grayscale images with 16 bits} +procedure TChunkIDAT.CopyNonInterlacedGrayscale16( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + I: Integer; +begin + FOR I := 1 TO ImageWidth DO + begin + {Windows does not supports 16 bits for each pixel in grayscale} + {mode, so reduce to 8} + Dest^ := Src^; inc(Dest); + {$IFDEF Store16bits} + Extra^ := pChar(Longint(Src) + 1)^; inc(Extra); + {$ENDIF} + + {Move to next pixel} + inc(Src, 2); + end {for I} +end; + +{Copy 8 bits per sample RGB images followed by an alpha byte} +procedure TChunkIDAT.CopyNonInterlacedRGBAlpha8( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + i: Integer; +begin + FOR I := 1 TO ImageWidth DO + begin + {Copy pixel values and transparency} + Trans^ := pChar(Longint(Src) + 3)^; + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) + 2)^]; inc(Dest); + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) + 1)^]; inc(Dest); + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) )^]; inc(Dest); + {Move to next pixel} + inc(Src, 4); inc(Trans); + end {for I} +end; + +{Copy 16 bits RGB image with alpha using 2 bytes for each sample} +procedure TChunkIDAT.CopyNonInterlacedRGBAlpha16( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + I: Integer; +begin + FOR I := 1 TO ImageWidth DO + begin + //Copy rgb and alpha values (transforming from 16 bits to 8 bits) + {Copy pixel values} + Trans^ := pChar(Longint(Src) + 6)^; + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) + 4)^]; inc(Dest); + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) + 2)^]; inc(Dest); + Byte(Dest^) := fOwner.GammaTable[pByte(Longint(Src) )^]; inc(Dest); + {$IFDEF Store16bits} + {Copy extra pixel values} + Byte(Extra^) := fOwner.GammaTable[pByte(Longint(Src) + 5)^]; inc(Extra); + Byte(Extra^) := fOwner.GammaTable[pByte(Longint(Src) + 3)^]; inc(Extra); + Byte(Extra^) := fOwner.GammaTable[pByte(Longint(Src) + 1)^]; inc(Extra); + {$ENDIF} + {Move to next pixel} + inc(Src, 8); inc(Trans); + end {for I} +end; + +{Copy 8 bits per sample grayscale followed by alpha} +procedure TChunkIDAT.CopyNonInterlacedGrayscaleAlpha8( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + I: Integer; +begin + FOR I := 1 TO ImageWidth DO + begin + {Copy alpha value and then gray value} + Dest^ := Src^; inc(Src); + Trans^ := Src^; inc(Src); + inc(Dest); inc(Trans); + end; +end; + +{Copy 16 bits per sample grayscale followed by alpha} +procedure TChunkIDAT.CopyNonInterlacedGrayscaleAlpha16( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar); +var + I: Integer; +begin + FOR I := 1 TO ImageWidth DO + begin + {Copy alpha value and then gray value} + {$IFDEF Store16bits} + Extra^ := pChar(Longint(Src) + 1)^; inc(Extra); + {$ENDIF} + Dest^ := Src^; inc(Src, 2); + Trans^ := Src^; inc(Src, 2); + inc(Dest); inc(Trans); + end; +end; + +{Decode non interlaced image} +procedure TChunkIDAT.DecodeNonInterlaced(Stream: TStream; + var ZLIBStream: TZStreamRec2; const Size: Integer; var crcfile: Cardinal); +var + j: Cardinal; + Trans, Data{$IFDEF Store16bits}, Extra{$ENDIF}: pChar; + CopyProc: procedure( + Src, Dest, Trans{$IFDEF Store16bits}, Extra{$ENDIF}: pChar) of object; +begin + CopyProc := nil; {Initialize} + {Determines the method to copy the image data} + case Header.ColorType of + {R, G, B values} + COLOR_RGB: + case Header.BitDepth of + 8: CopyProc := CopyNonInterlacedRGB8; + 16: CopyProc := CopyNonInterlacedRGB16; + end; + {Types using palettes} + COLOR_PALETTE, COLOR_GRAYSCALE: + case Header.BitDepth of + 1, 4, 8: CopyProc := CopyNonInterlacedPalette148; + 2 : if Header.ColorType = COLOR_PALETTE then + CopyProc := CopyNonInterlacedPalette2 + else + CopyProc := CopyNonInterlacedGray2; + 16 : CopyProc := CopyNonInterlacedGrayscale16; + end; + {R, G, B followed by alpha} + COLOR_RGBALPHA: + case Header.BitDepth of + 8 : CopyProc := CopyNonInterlacedRGBAlpha8; + 16 : CopyProc := CopyNonInterlacedRGBAlpha16; + end; + {Grayscale followed by alpha} + COLOR_GRAYSCALEALPHA: + case Header.BitDepth of + 8 : CopyProc := CopyNonInterlacedGrayscaleAlpha8; + 16 : CopyProc := CopyNonInterlacedGrayscaleAlpha16; + end; + end; + + {Get the image data pointer} + Longint(Data) := Longint(Header.ImageData) + + Header.BytesPerRow * (ImageHeight - 1); + Trans := Header.ImageAlpha; + {$IFDEF Store16bits} + Longint(Extra) := Longint(Header.ExtraImageData) + + Header.BytesPerRow * (ImageHeight - 1); + {$ENDIF} + {Reads each line} + FOR j := 0 to ImageHeight - 1 do + begin + {Read this line Row_Buffer[RowUsed][0] if the filter type for this line} + if IDATZlibRead(ZLIBStream, @Row_Buffer[RowUsed][0], Row_Bytes + 1, EndPos, + CRCFile) = 0 then break; + + {Filter the current row} + FilterRow; + {Copies non interlaced row to image} + CopyProc(@Row_Buffer[RowUsed][1], Data, Trans{$IFDEF Store16bits}, Extra + {$ENDIF}); + + {Invert line used} + RowUsed := not RowUsed; + dec(Data, Header.BytesPerRow); + {$IFDEF Store16bits}dec(Extra, Header.BytesPerRow);{$ENDIF} + inc(Trans, ImageWidth); + end {for I}; + + +end; + +{Filter the current line} +procedure TChunkIDAT.FilterRow; +var + pp: Byte; + vv, left, above, aboveleft: Integer; + Col: Cardinal; +begin + {Test the filter} + case Row_Buffer[RowUsed]^[0] of + {No filtering for this line} + FILTER_NONE: begin end; + {AND 255 serves only to never let the result be larger than one byte} + {Sub filter} + FILTER_SUB: + FOR Col := Offset + 1 to Row_Bytes DO + Row_Buffer[RowUsed][Col] := (Row_Buffer[RowUsed][Col] + + Row_Buffer[RowUsed][Col - Offset]) and 255; + {Up filter} + FILTER_UP: + FOR Col := 1 to Row_Bytes DO + Row_Buffer[RowUsed][Col] := (Row_Buffer[RowUsed][Col] + + Row_Buffer[not RowUsed][Col]) and 255; + {Average filter} + FILTER_AVERAGE: + FOR Col := 1 to Row_Bytes DO + begin + {Obtains up and left pixels} + above := Row_Buffer[not RowUsed][Col]; + if col - 1 < Offset then + left := 0 + else + Left := Row_Buffer[RowUsed][Col - Offset]; + + {Calculates} + Row_Buffer[RowUsed][Col] := (Row_Buffer[RowUsed][Col] + + (left + above) div 2) and 255; + end; + {Paeth filter} + FILTER_PAETH: + begin + {Initialize} + left := 0; + aboveleft := 0; + {Test each byte} + FOR Col := 1 to Row_Bytes DO + begin + {Obtains above pixel} + above := Row_Buffer[not RowUsed][Col]; + {Obtains left and top-left pixels} + if (col - 1 >= offset) Then + begin + left := row_buffer[RowUsed][col - offset]; + aboveleft := row_buffer[not RowUsed][col - offset]; + end; + + {Obtains current pixel and paeth predictor} + vv := row_buffer[RowUsed][Col]; + pp := PaethPredictor(left, above, aboveleft); + + {Calculates} + Row_Buffer[RowUsed][Col] := (pp + vv) and $FF; + end {for}; + end; + + end {case}; +end; + +{Reads the image data from the stream} +function TChunkIDAT.LoadFromStream(Stream: TStream; const ChunkName: TChunkName; + Size: Integer): Boolean; +var + ZLIBStream: TZStreamRec2; + CRCCheck, + CRCFile : Cardinal; +begin + {Get pointer to the header chunk} + Header := Owner.Chunks.Item[0] as TChunkIHDR; + {Build palette if necessary} + if Header.HasPalette then PreparePalette(); + + {Copy image width and height} + ImageWidth := Header.Width; + ImageHeight := Header.Height; + + {Initialize to calculate CRC} + {$IFDEF CheckCRC} + CRCFile := update_crc($ffffffff, @ChunkName[0], 4); + {$ENDIF} + + Owner.GetPixelInfo(Row_Bytes, Offset); {Obtain line information} + ZLIBStream := ZLIBInitInflate(Stream); {Initializes decompression} + + {Calculate ending position for the current IDAT chunk} + EndPos := Stream.Position + Size; + + {Allocate memory} + GetMem(Row_Buffer[false], Row_Bytes + 1); + GetMem(Row_Buffer[true], Row_Bytes + 1); + ZeroMemory(Row_Buffer[false], Row_bytes + 1); + {Set the variable to alternate the Row_Buffer item to use} + RowUsed := TRUE; + + {Call special methods for the different interlace methods} + case Owner.InterlaceMethod of + imNone: DecodeNonInterlaced(stream, ZLIBStream, Size, crcfile); + imAdam7: DecodeInterlacedAdam7(stream, ZLIBStream, size, crcfile); + end; + + {Free memory} + ZLIBTerminateInflate(ZLIBStream); {Terminates decompression} + FreeMem(Row_Buffer[False], Row_Bytes + 1); + FreeMem(Row_Buffer[True], Row_Bytes + 1); + + {Now checks CRC} + Stream.Read(CRCCheck, 4); + {$IFDEF CheckCRC} + CRCFile := CRCFile xor $ffffffff; + CRCCheck := ByteSwap(CRCCheck); + Result := CRCCheck = CRCFile; + + {Handle CRC error} + if not Result then + begin + {In case it coult not load chunk} + Owner.RaiseError(EPngInvalidCRC, EPngInvalidCRCText); + exit; + end; + {$ELSE}Result := TRUE; {$ENDIF} +end; + +const + IDATHeader: Array[0..3] of char = ('I', 'D', 'A', 'T'); + BUFFER = 5; + +{Saves the IDAT chunk to a stream} +function TChunkIDAT.SaveToStream(Stream: TStream): Boolean; +var + ZLIBStream : TZStreamRec2; +begin + {Get pointer to the header chunk} + Header := Owner.Chunks.Item[0] as TChunkIHDR; + {Copy image width and height} + ImageWidth := Header.Width; + ImageHeight := Header.Height; + Owner.GetPixelInfo(Row_Bytes, Offset); {Obtain line information} + + {Allocate memory} + GetMem(Encode_Buffer[BUFFER], Row_Bytes); + ZeroMemory(Encode_Buffer[BUFFER], Row_Bytes); + {Allocate buffers for the filters selected} + {Filter none will always be calculated to the other filters to work} + GetMem(Encode_Buffer[FILTER_NONE], Row_Bytes); + ZeroMemory(Encode_Buffer[FILTER_NONE], Row_Bytes); + if pfSub in Owner.Filters then + GetMem(Encode_Buffer[FILTER_SUB], Row_Bytes); + if pfUp in Owner.Filters then + GetMem(Encode_Buffer[FILTER_UP], Row_Bytes); + if pfAverage in Owner.Filters then + GetMem(Encode_Buffer[FILTER_AVERAGE], Row_Bytes); + if pfPaeth in Owner.Filters then + GetMem(Encode_Buffer[FILTER_PAETH], Row_Bytes); + + {Initialize ZLIB} + ZLIBStream := ZLIBInitDeflate(Stream, Owner.fCompressionLevel, + Owner.MaxIdatSize); + {Write data depending on the interlace method} + case Owner.InterlaceMethod of + imNone: EncodeNonInterlaced(stream, ZLIBStream); + imAdam7: EncodeInterlacedAdam7(stream, ZLIBStream); + end; + {Terminates ZLIB} + ZLIBTerminateDeflate(ZLIBStream); + + {Release allocated memory} + FreeMem(Encode_Buffer[BUFFER], Row_Bytes); + FreeMem(Encode_Buffer[FILTER_NONE], Row_Bytes); + if pfSub in Owner.Filters then + FreeMem(Encode_Buffer[FILTER_SUB], Row_Bytes); + if pfUp in Owner.Filters then + FreeMem(Encode_Buffer[FILTER_UP], Row_Bytes); + if pfAverage in Owner.Filters then + FreeMem(Encode_Buffer[FILTER_AVERAGE], Row_Bytes); + if pfPaeth in Owner.Filters then + FreeMem(Encode_Buffer[FILTER_PAETH], Row_Bytes); + + {Everything went ok} + Result := True; +end; + +{Writes the IDAT using the settings} +procedure WriteIDAT(Stream: TStream; Data: Pointer; const Length: Cardinal); +var + ChunkLen, CRC: Cardinal; +begin + {Writes IDAT header} + ChunkLen := ByteSwap(Length); + Stream.Write(ChunkLen, 4); {Chunk length} + Stream.Write(IDATHeader[0], 4); {Idat header} + CRC := update_crc($ffffffff, @IDATHeader[0], 4); {Crc part for header} + + {Writes IDAT data and calculates CRC for data} + Stream.Write(Data^, Length); + CRC := Byteswap(update_crc(CRC, Data, Length) xor $ffffffff); + {Writes final CRC} + Stream.Write(CRC, 4); +end; + +{Compress and writes IDAT chunk data} +procedure TChunkIDAT.IDATZlibWrite(var ZLIBStream: TZStreamRec2; + Buffer: Pointer; const Length: Cardinal); +begin + with ZLIBStream, ZLIBStream.ZLIB do + begin + {Set data to be compressed} + next_in := Buffer; + avail_in := Length; + + {Compress all the data avaliable to compress} + while avail_in > 0 do + begin + deflate(ZLIB, Z_NO_FLUSH); + + {The whole buffer was used, save data to stream and restore buffer} + if avail_out = 0 then + begin + {Writes this IDAT chunk} + WriteIDAT(fStream, Data, ZLIBAllocate); + + {Restore buffer} + next_out := Data; + avail_out := ZLIBAllocate; + end {if avail_out = 0}; + + end {while avail_in}; + + end {with ZLIBStream, ZLIBStream.ZLIB} +end; + +{Finishes compressing data to write IDAT chunk} +procedure TChunkIDAT.FinishIDATZlib(var ZLIBStream: TZStreamRec2); +begin + with ZLIBStream, ZLIBStream.ZLIB do + begin + {Set data to be compressed} + next_in := nil; + avail_in := 0; + + while deflate(ZLIB,Z_FINISH) <> Z_STREAM_END do + begin + {Writes this IDAT chunk} + WriteIDAT(fStream, Data, ZLIBAllocate - avail_out); + {Re-update buffer} + next_out := Data; + avail_out := ZLIBAllocate; + end; + + if avail_out < ZLIBAllocate then + {Writes final IDAT} + WriteIDAT(fStream, Data, ZLIBAllocate - avail_out); + + end {with ZLIBStream, ZLIBStream.ZLIB}; +end; + +{Copy memory to encode RGB image with 1 byte for each color sample} +procedure TChunkIDAT.EncodeNonInterlacedRGB8(Src, Dest, Trans: pChar); +var + I: Integer; +begin + FOR I := 1 TO ImageWidth DO + begin + {Copy pixel values} + Byte(Dest^) := fOwner.InverseGamma[pByte(Longint(Src) + 2)^]; inc(Dest); + Byte(Dest^) := fOwner.InverseGamma[pByte(Longint(Src) + 1)^]; inc(Dest); + Byte(Dest^) := fOwner.InverseGamma[pByte(Longint(Src) )^]; inc(Dest); + {Move to next pixel} + inc(Src, 3); + end {for I} +end; + +{Copy memory to encode RGB images with 16 bits for each color sample} +procedure TChunkIDAT.EncodeNonInterlacedRGB16(Src, Dest, Trans: pChar); +var + I: Integer; +begin + FOR I := 1 TO ImageWidth DO + begin + //Now we copy from 1 byte for each sample stored to a 2 bytes (or 1 word) + //for sample + {Copy pixel values} + pWORD(Dest)^ := fOwner.InverseGamma[pByte(Longint(Src) + 2)^]; inc(Dest, 2); + pWORD(Dest)^ := fOwner.InverseGamma[pByte(Longint(Src) + 1)^]; inc(Dest, 2); + pWORD(Dest)^ := fOwner.InverseGamma[pByte(Longint(Src) )^]; inc(Dest, 2); + {Move to next pixel} + inc(Src, 3); + end {for I} + +end; + +{Copy memory to encode types using palettes (1, 4 or 8 bits per pixel)} +procedure TChunkIDAT.EncodeNonInterlacedPalette148(Src, Dest, Trans: pChar); +begin + {It's simple as copying the data} + CopyMemory(Dest, Src, Row_Bytes); +end; + +{Copy memory to encode grayscale images with 2 bytes for each sample} +procedure TChunkIDAT.EncodeNonInterlacedGrayscale16(Src, Dest, Trans: pChar); +var + I: Integer; +begin + FOR I := 1 TO ImageWidth DO + begin + //Now we copy from 1 byte for each sample stored to a 2 bytes (or 1 word) + //for sample + pWORD(Dest)^ := pByte(Longint(Src))^; inc(Dest, 2); + {Move to next pixel} + inc(Src); + end {for I} +end; + +{Encode images using RGB followed by an alpha value using 1 byte for each} +procedure TChunkIDAT.EncodeNonInterlacedRGBAlpha8(Src, Dest, Trans: pChar); +var + i: Integer; +begin + {Copy the data to the destination, including data from Trans pointer} + FOR i := 1 TO ImageWidth do + begin + Byte(Dest^) := Owner.InverseGamma[PByte(Longint(Src) + 2)^]; inc(Dest); + Byte(Dest^) := Owner.InverseGamma[PByte(Longint(Src) + 1)^]; inc(Dest); + Byte(Dest^) := Owner.InverseGamma[PByte(Longint(Src) )^]; inc(Dest); + Dest^ := Trans^; inc(Dest); + inc(Src, 3); inc(Trans); + end {for i}; +end; + +{Encode images using RGB followed by an alpha value using 2 byte for each} +procedure TChunkIDAT.EncodeNonInterlacedRGBAlpha16(Src, Dest, Trans: pChar); +var + i: Integer; +begin + {Copy the data to the destination, including data from Trans pointer} + FOR i := 1 TO ImageWidth do + begin + pWord(Dest)^ := Owner.InverseGamma[PByte(Longint(Src) + 2)^]; inc(Dest, 2); + pWord(Dest)^ := Owner.InverseGamma[PByte(Longint(Src) + 1)^]; inc(Dest, 2); + pWord(Dest)^ := Owner.InverseGamma[PByte(Longint(Src) )^]; inc(Dest, 2); + pWord(Dest)^ := PByte(Longint(Trans) )^; inc(Dest, 2); + inc(Src, 3); inc(Trans); + end {for i}; +end; + +{Encode grayscale images followed by an alpha value using 1 byte for each} +procedure TChunkIDAT.EncodeNonInterlacedGrayscaleAlpha8( + Src, Dest, Trans: pChar); +var + i: Integer; +begin + {Copy the data to the destination, including data from Trans pointer} + FOR i := 1 TO ImageWidth do + begin + Dest^ := Src^; inc(Dest); + Dest^ := Trans^; inc(Dest); + inc(Src); inc(Trans); + end {for i}; +end; + +{Encode grayscale images followed by an alpha value using 2 byte for each} +procedure TChunkIDAT.EncodeNonInterlacedGrayscaleAlpha16( + Src, Dest, Trans: pChar); +var + i: Integer; +begin + {Copy the data to the destination, including data from Trans pointer} + FOR i := 1 TO ImageWidth do + begin + pWord(Dest)^ := pByte(Src)^; inc(Dest, 2); + pWord(Dest)^ := pByte(Trans)^; inc(Dest, 2); + inc(Src); inc(Trans); + end {for i}; +end; + +{Encode non interlaced images} +procedure TChunkIDAT.EncodeNonInterlaced(Stream: TStream; + var ZLIBStream: TZStreamRec2); +var + {Current line} + j: Cardinal; + {Pointers to image data} + Data, Trans: PChar; + {Filter used for this line} + Filter: Byte; + {Method which will copy the data into the buffer} + CopyProc: procedure(Src, Dest, Trans: pChar) of object; +begin + CopyProc := nil; {Initialize to avoid warnings} + {Defines the method to copy the data to the buffer depending on} + {the image parameters} + case Header.ColorType of + {R, G, B values} + COLOR_RGB: + case Header.BitDepth of + 8: CopyProc := EncodeNonInterlacedRGB8; + 16: CopyProc := EncodeNonInterlacedRGB16; + end; + {Palette and grayscale values} + COLOR_GRAYSCALE, COLOR_PALETTE: + case Header.BitDepth of + 1, 4, 8: CopyProc := EncodeNonInterlacedPalette148; + 16: CopyProc := EncodeNonInterlacedGrayscale16; + end; + {RGB with a following alpha value} + COLOR_RGBALPHA: + case Header.BitDepth of + 8: CopyProc := EncodeNonInterlacedRGBAlpha8; + 16: CopyProc := EncodeNonInterlacedRGBAlpha16; + end; + {Grayscale images followed by an alpha} + COLOR_GRAYSCALEALPHA: + case Header.BitDepth of + 8: CopyProc := EncodeNonInterlacedGrayscaleAlpha8; + 16: CopyProc := EncodeNonInterlacedGrayscaleAlpha16; + end; + end {case Header.ColorType}; + + {Get the image data pointer} + Longint(Data) := Longint(Header.ImageData) + + Header.BytesPerRow * (ImageHeight - 1); + Trans := Header.ImageAlpha; + + {Writes each line} + FOR j := 0 to ImageHeight - 1 do + begin + {Copy data into buffer} + CopyProc(Data, @Encode_Buffer[BUFFER][0], Trans); + {Filter data} + Filter := FilterToEncode; + + {Compress data} + IDATZlibWrite(ZLIBStream, @Filter, 1); + IDATZlibWrite(ZLIBStream, @Encode_Buffer[Filter][0], Row_Bytes); + + {Adjust pointers to the actual image data} + dec(Data, Header.BytesPerRow); + inc(Trans, ImageWidth); + end; + + {Compress and finishes copying the remaining data} + FinishIDATZlib(ZLIBStream); +end; + +{Copy memory to encode interlaced images using RGB value with 1 byte for} +{each color sample} +procedure TChunkIDAT.EncodeInterlacedRGB8(const Pass: Byte; + Src, Dest, Trans: pChar); +var + Col: Integer; +begin + {Get first column and enter in loop} + Col := ColumnStart[Pass]; + Src := pChar(Longint(Src) + Col * 3); + repeat + {Copy this row} + Byte(Dest^) := fOwner.InverseGamma[pByte(Longint(Src) + 2)^]; inc(Dest); + Byte(Dest^) := fOwner.InverseGamma[pByte(Longint(Src) + 1)^]; inc(Dest); + Byte(Dest^) := fOwner.InverseGamma[pByte(Longint(Src) )^]; inc(Dest); + + {Move to next column} + inc(Src, ColumnIncrement[Pass] * 3); + inc(Col, ColumnIncrement[Pass]); + until Col >= ImageWidth; +end; + +{Copy memory to encode interlaced RGB images with 2 bytes each color sample} +procedure TChunkIDAT.EncodeInterlacedRGB16(const Pass: Byte; + Src, Dest, Trans: pChar); +var + Col: Integer; +begin + {Get first column and enter in loop} + Col := ColumnStart[Pass]; + Src := pChar(Longint(Src) + Col * 3); + repeat + {Copy this row} + pWord(Dest)^ := Owner.InverseGamma[pByte(Longint(Src) + 2)^]; inc(Dest, 2); + pWord(Dest)^ := Owner.InverseGamma[pByte(Longint(Src) + 1)^]; inc(Dest, 2); + pWord(Dest)^ := Owner.InverseGamma[pByte(Longint(Src) )^]; inc(Dest, 2); + + {Move to next column} + inc(Src, ColumnIncrement[Pass] * 3); + inc(Col, ColumnIncrement[Pass]); + until Col >= ImageWidth; +end; + +{Copy memory to encode interlaced images using palettes using bit depths} +{1, 4, 8 (each pixel in the image)} +procedure TChunkIDAT.EncodeInterlacedPalette148(const Pass: Byte; + Src, Dest, Trans: pChar); +const + BitTable: Array[1..8] of Integer = ($1, $3, 0, $F, 0, 0, 0, $FF); + StartBit: Array[1..8] of Integer = (7 , 0 , 0, 4, 0, 0, 0, 0); +var + CurBit, Col: Integer; + Src2: PChar; +begin + {Clean the line} + fillchar(Dest^, Row_Bytes, #0); + {Get first column and enter in loop} + Col := ColumnStart[Pass]; + with Header.BitmapInfo.bmiHeader do + repeat + {Copy data} + CurBit := StartBit[biBitCount]; + repeat + {Adjust pointer to pixel byte bounds} + Src2 := pChar(Longint(Src) + (biBitCount * Col) div 8); + {Copy data} + Byte(Dest^) := Byte(Dest^) or + (((Byte(Src2^) shr (StartBit[Header.BitDepth] - (biBitCount * Col) + mod 8))) and (BitTable[biBitCount])) shl CurBit; + + {Move to next column} + inc(Col, ColumnIncrement[Pass]); + {Will read next bits} + dec(CurBit, biBitCount); + until CurBit < 0; + + {Move to next byte in source} + inc(Dest); + until Col >= ImageWidth; +end; + +{Copy to encode interlaced grayscale images using 16 bits for each sample} +procedure TChunkIDAT.EncodeInterlacedGrayscale16(const Pass: Byte; + Src, Dest, Trans: pChar); +var + Col: Integer; +begin + {Get first column and enter in loop} + Col := ColumnStart[Pass]; + Src := pChar(Longint(Src) + Col); + repeat + {Copy this row} + pWord(Dest)^ := Byte(Src^); inc(Dest, 2); + + {Move to next column} + inc(Src, ColumnIncrement[Pass]); + inc(Col, ColumnIncrement[Pass]); + until Col >= ImageWidth; +end; + +{Copy to encode interlaced rgb images followed by an alpha value, all using} +{one byte for each sample} +procedure TChunkIDAT.EncodeInterlacedRGBAlpha8(const Pass: Byte; + Src, Dest, Trans: pChar); +var + Col: Integer; +begin + {Get first column and enter in loop} + Col := ColumnStart[Pass]; + Src := pChar(Longint(Src) + Col * 3); + Trans := pChar(Longint(Trans) + Col); + repeat + {Copy this row} + Byte(Dest^) := Owner.InverseGamma[pByte(Longint(Src) + 2)^]; inc(Dest); + Byte(Dest^) := Owner.InverseGamma[pByte(Longint(Src) + 1)^]; inc(Dest); + Byte(Dest^) := Owner.InverseGamma[pByte(Longint(Src) )^]; inc(Dest); + Dest^ := Trans^; inc(Dest); + + {Move to next column} + inc(Src, ColumnIncrement[Pass] * 3); + inc(Trans, ColumnIncrement[Pass]); + inc(Col, ColumnIncrement[Pass]); + until Col >= ImageWidth; +end; + +{Copy to encode interlaced rgb images followed by an alpha value, all using} +{two byte for each sample} +procedure TChunkIDAT.EncodeInterlacedRGBAlpha16(const Pass: Byte; + Src, Dest, Trans: pChar); +var + Col: Integer; +begin + {Get first column and enter in loop} + Col := ColumnStart[Pass]; + Src := pChar(Longint(Src) + Col * 3); + Trans := pChar(Longint(Trans) + Col); + repeat + {Copy this row} + pWord(Dest)^ := pByte(Longint(Src) + 2)^; inc(Dest, 2); + pWord(Dest)^ := pByte(Longint(Src) + 1)^; inc(Dest, 2); + pWord(Dest)^ := pByte(Longint(Src) )^; inc(Dest, 2); + pWord(Dest)^ := pByte(Trans)^; inc(Dest, 2); + + {Move to next column} + inc(Src, ColumnIncrement[Pass] * 3); + inc(Trans, ColumnIncrement[Pass]); + inc(Col, ColumnIncrement[Pass]); + until Col >= ImageWidth; +end; + +{Copy to encode grayscale interlaced images followed by an alpha value, all} +{using 1 byte for each sample} +procedure TChunkIDAT.EncodeInterlacedGrayscaleAlpha8(const Pass: Byte; + Src, Dest, Trans: pChar); +var + Col: Integer; +begin + {Get first column and enter in loop} + Col := ColumnStart[Pass]; + Src := pChar(Longint(Src) + Col); + Trans := pChar(Longint(Trans) + Col); + repeat + {Copy this row} + Dest^ := Src^; inc(Dest); + Dest^ := Trans^; inc(Dest); + + {Move to next column} + inc(Src, ColumnIncrement[Pass]); + inc(Trans, ColumnIncrement[Pass]); + inc(Col, ColumnIncrement[Pass]); + until Col >= ImageWidth; +end; + +{Copy to encode grayscale interlaced images followed by an alpha value, all} +{using 2 bytes for each sample} +procedure TChunkIDAT.EncodeInterlacedGrayscaleAlpha16(const Pass: Byte; + Src, Dest, Trans: pChar); +var + Col: Integer; +begin + {Get first column and enter in loop} + Col := ColumnStart[Pass]; + Src := pChar(Longint(Src) + Col); + Trans := pChar(Longint(Trans) + Col); + repeat + {Copy this row} + pWord(Dest)^ := pByte(Src)^; inc(Dest, 2); + pWord(Dest)^ := pByte(Trans)^; inc(Dest, 2); + + {Move to next column} + inc(Src, ColumnIncrement[Pass]); + inc(Trans, ColumnIncrement[Pass]); + inc(Col, ColumnIncrement[Pass]); + until Col >= ImageWidth; +end; + +{Encode interlaced images} +procedure TChunkIDAT.EncodeInterlacedAdam7(Stream: TStream; + var ZLIBStream: TZStreamRec2); +var + CurrentPass, Filter: Byte; + PixelsThisRow: Integer; + CurrentRow : Integer; + Trans, Data: pChar; + CopyProc: procedure(const Pass: Byte; + Src, Dest, Trans: pChar) of object; +begin + CopyProc := nil; {Initialize to avoid warnings} + {Defines the method to copy the data to the buffer depending on} + {the image parameters} + case Header.ColorType of + {R, G, B values} + COLOR_RGB: + case Header.BitDepth of + 8: CopyProc := EncodeInterlacedRGB8; + 16: CopyProc := EncodeInterlacedRGB16; + end; + {Grayscale and palette} + COLOR_PALETTE, COLOR_GRAYSCALE: + case Header.BitDepth of + 1, 4, 8: CopyProc := EncodeInterlacedPalette148; + 16: CopyProc := EncodeInterlacedGrayscale16; + end; + {RGB followed by alpha} + COLOR_RGBALPHA: + case Header.BitDepth of + 8: CopyProc := EncodeInterlacedRGBAlpha8; + 16: CopyProc := EncodeInterlacedRGBAlpha16; + end; + COLOR_GRAYSCALEALPHA: + {Grayscale followed by alpha} + case Header.BitDepth of + 8: CopyProc := EncodeInterlacedGrayscaleAlpha8; + 16: CopyProc := EncodeInterlacedGrayscaleAlpha16; + end; + end {case Header.ColorType}; + + {Compress the image using the seven passes for ADAM 7} + FOR CurrentPass := 0 TO 6 DO + begin + {Calculates the number of pixels and bytes for this pass row} + PixelsThisRow := (ImageWidth - ColumnStart[CurrentPass] + + ColumnIncrement[CurrentPass] - 1) div ColumnIncrement[CurrentPass]; + Row_Bytes := BytesForPixels(PixelsThisRow, Header.ColorType, + Header.BitDepth); + ZeroMemory(Encode_Buffer[FILTER_NONE], Row_Bytes); + + {Get current row index} + CurrentRow := RowStart[CurrentPass]; + {Get a pointer to the current row image data} + Data := Ptr(Longint(Header.ImageData) + Header.BytesPerRow * + (ImageHeight - 1 - CurrentRow)); + Trans := Ptr(Longint(Header.ImageAlpha) + ImageWidth * CurrentRow); + + {Process all the image rows} + if Row_Bytes > 0 then + while CurrentRow < ImageHeight do + begin + {Copy data into buffer} + CopyProc(CurrentPass, Data, @Encode_Buffer[BUFFER][0], Trans); + {Filter data} + Filter := FilterToEncode; + + {Compress data} + IDATZlibWrite(ZLIBStream, @Filter, 1); + IDATZlibWrite(ZLIBStream, @Encode_Buffer[Filter][0], Row_Bytes); + + {Move to the next row} + inc(CurrentRow, RowIncrement[CurrentPass]); + {Move pointer to the next line} + dec(Data, RowIncrement[CurrentPass] * Header.BytesPerRow); + inc(Trans, RowIncrement[CurrentPass] * ImageWidth); + end {while CurrentRow < ImageHeight} + + end {CurrentPass}; + + {Compress and finishes copying the remaining data} + FinishIDATZlib(ZLIBStream); +end; + +{Filters the row to be encoded and returns the best filter} +function TChunkIDAT.FilterToEncode: Byte; +var + Run, LongestRun, ii, jj: Cardinal; + Last, Above, LastAbove: Byte; +begin + {Selecting more filters using the Filters property from TPngObject} + {increases the chances to the file be much smaller, but decreases} + {the performace} + + {This method will creates the same line data using the different} + {filter methods and select the best} + + {Sub-filter} + if pfSub in Owner.Filters then + for ii := 0 to Row_Bytes - 1 do + begin + {There is no previous pixel when it's on the first pixel, so} + {set last as zero when in the first} + if (ii >= Offset) then + last := Encode_Buffer[BUFFER]^[ii - Offset] + else + last := 0; + Encode_Buffer[FILTER_SUB]^[ii] := Encode_Buffer[BUFFER]^[ii] - last; + end; + + {Up filter} + if pfUp in Owner.Filters then + for ii := 0 to Row_Bytes - 1 do + Encode_Buffer[FILTER_UP]^[ii] := Encode_Buffer[BUFFER]^[ii] - + Encode_Buffer[FILTER_NONE]^[ii]; + + {Average filter} + if pfAverage in Owner.Filters then + for ii := 0 to Row_Bytes - 1 do + begin + {Get the previous pixel, if the current pixel is the first, the} + {previous is considered to be 0} + if (ii >= Offset) then + last := Encode_Buffer[BUFFER]^[ii - Offset] + else + last := 0; + {Get the pixel above} + above := Encode_Buffer[FILTER_NONE]^[ii]; + + {Calculates formula to the average pixel} + Encode_Buffer[FILTER_AVERAGE]^[ii] := Encode_Buffer[BUFFER]^[ii] - + (above + last) div 2 ; + end; + + {Paeth filter (the slower)} + if pfPaeth in Owner.Filters then + begin + {Initialize} + last := 0; + lastabove := 0; + for ii := 0 to Row_Bytes - 1 do + begin + {In case this pixel is not the first in the line obtains the} + {previous one and the one above the previous} + if (ii >= Offset) then + begin + last := Encode_Buffer[BUFFER]^[ii - Offset]; + lastabove := Encode_Buffer[FILTER_NONE]^[ii - Offset]; + end; + {Obtains the pixel above} + above := Encode_Buffer[FILTER_NONE]^[ii]; + {Calculate paeth filter for this byte} + Encode_Buffer[FILTER_PAETH]^[ii] := Encode_Buffer[BUFFER]^[ii] - + PaethPredictor(last, above, lastabove); + end; + end; + + {Now calculates the same line using no filter, which is necessary} + {in order to have data to the filters when the next line comes} + CopyMemory(@Encode_Buffer[FILTER_NONE]^[0], + @Encode_Buffer[BUFFER]^[0], Row_Bytes); + + {If only filter none is selected in the filter list, we don't need} + {to proceed and further} + if (Owner.Filters = [pfNone]) or (Owner.Filters = []) then + begin + Result := FILTER_NONE; + exit; + end {if (Owner.Filters = [pfNone...}; + + {Check which filter is the best by checking which has the larger} + {sequence of the same byte, since they are best compressed} + LongestRun := 0; Result := FILTER_NONE; + for ii := FILTER_NONE TO FILTER_PAETH do + {Check if this filter was selected} + if TFilter(ii) in Owner.Filters then + begin + Run := 0; + {Check if it's the only filter} + if Owner.Filters = [TFilter(ii)] then + begin + Result := ii; + exit; + end; + + {Check using a sequence of four bytes} + for jj := 2 to Row_Bytes - 1 do + if (Encode_Buffer[ii]^[jj] = Encode_Buffer [ii]^[jj-1]) or + (Encode_Buffer[ii]^[jj] = Encode_Buffer [ii]^[jj-2]) then + inc(Run); {Count the number of sequences} + + {Check if this one is the best so far} + if (Run > LongestRun) then + begin + Result := ii; + LongestRun := Run; + end {if (Run > LongestRun)}; + + end {if TFilter(ii) in Owner.Filters}; +end; + +{TChunkPLTE implementation} + +{Returns an item in the palette} +function TChunkPLTE.GetPaletteItem(Index: Byte): TRGBQuad; +begin + {Test if item is valid, if not raise error} + if Index > Count - 1 then + Owner.RaiseError(EPNGError, EPNGUnknownPalEntryText) + else + {Returns the item} + Result := Header.BitmapInfo.bmiColors[Index]; +end; + +{Loads the palette chunk from a stream} +function TChunkPLTE.LoadFromStream(Stream: TStream; + const ChunkName: TChunkName; Size: Integer): Boolean; +type + pPalEntry = ^PalEntry; + PalEntry = record r, g, b: Byte end; +var + j : Integer; {For the FOR} + PalColor : pPalEntry; +begin + {Let ancestor load data and check CRC} + Result := inherited LoadFromStream(Stream, ChunkName, Size); + if not Result then exit; + + {This chunk must be divisible by 3 in order to be valid} + if (Size mod 3 <> 0) or (Size div 3 > 256) then + begin + {Raise error} + Result := FALSE; + Owner.RaiseError(EPNGInvalidPalette, EPNGInvalidPaletteText); + exit; + end {if Size mod 3 <> 0}; + + {Fill array with the palette entries} + fCount := Size div 3; + PalColor := Data; + FOR j := 0 TO fCount - 1 DO + with Header.BitmapInfo.bmiColors[j] do + begin + rgbRed := Owner.GammaTable[PalColor.r]; + rgbGreen := Owner.GammaTable[PalColor.g]; + rgbBlue := Owner.GammaTable[PalColor.b]; + rgbReserved := 0; + inc(PalColor); {Move to next palette entry} + end; +end; + +{Saves the PLTE chunk to a stream} +function TChunkPLTE.SaveToStream(Stream: TStream): Boolean; +var + J: Integer; + DataPtr: pByte; +begin + {Adjust size to hold all the palette items} + ResizeData(fCount * 3); + {Copy pointer to data} + DataPtr := fData; + + {Copy palette items} + with Header do + FOR j := 0 TO fCount - 1 DO + with BitmapInfo.bmiColors[j] do + begin + DataPtr^ := Owner.InverseGamma[rgbRed]; inc(DataPtr); + DataPtr^ := Owner.InverseGamma[rgbGreen]; inc(DataPtr); + DataPtr^ := Owner.InverseGamma[rgbBlue]; inc(DataPtr); + end {with BitmapInfo}; + + {Let ancestor do the rest of the work} + Result := inherited SaveToStream(Stream); +end; + +{Assigns from another PLTE chunk} +procedure TChunkPLTE.Assign(Source: TChunk); +begin + {Copy the number of palette items} + if Source is TChunkPLTE then + fCount := TChunkPLTE(Source).fCount + else + Owner.RaiseError(EPNGError, EPNGCannotAssignChunkText); +end; + +{TChunkgAMA implementation} + +{Assigns from another chunk} +procedure TChunkgAMA.Assign(Source: TChunk); +begin + {Copy the gamma value} + if Source is TChunkgAMA then + Gamma := TChunkgAMA(Source).Gamma + else + Owner.RaiseError(EPNGError, EPNGCannotAssignChunkText); +end; + +{Gamma chunk being created} +constructor TChunkgAMA.Create(Owner: TPngObject); +begin + {Call ancestor} + inherited Create(Owner); + Gamma := 1; {Initial value} +end; + +{Returns gamma value} +function TChunkgAMA.GetValue: Cardinal; +begin + {Make sure that the size is four bytes} + if DataSize <> 4 then + begin + {Adjust size and returns 1} + ResizeData(4); + Result := 1; + end + {If it's right, read the value} + else Result := Cardinal(ByteSwap(pCardinal(Data)^)) +end; + +function Power(Base, Exponent: Extended): Extended; +begin + if Exponent = 0.0 then + Result := 1.0 {Math rule} + else if (Base = 0) or (Exponent = 0) then Result := 0 + else + Result := Exp(Exponent * Ln(Base)); +end; + + +{Loading the chunk from a stream} +function TChunkgAMA.LoadFromStream(Stream: TStream; + const ChunkName: TChunkName; Size: Integer): Boolean; +var + i: Integer; + Value: Cardinal; +begin + {Call ancestor and test if it went ok} + Result := inherited LoadFromStream(Stream, ChunkName, Size); + if not Result then exit; + Value := Gamma; + {Build gamma table and inverse table for saving} + if Value <> 0 then + with Owner do + FOR i := 0 TO 255 DO + begin + GammaTable[I] := Round(Power((I / 255), 1 / + (Value / 100000 * 2.2)) * 255); + InverseGamma[Round(Power((I / 255), 1 / + (Value / 100000 * 2.2)) * 255)] := I; + end +end; + +{Sets the gamma value} +procedure TChunkgAMA.SetValue(const Value: Cardinal); +begin + {Make sure that the size is four bytes} + if DataSize <> 4 then ResizeData(4); + {If it's right, set the value} + pCardinal(Data)^ := ByteSwap(Value); +end; + +{TPngObject implementation} + +{Assigns from another object} +procedure TPngObject.Assign(Source: TPersistent); +begin + {Assigns contents from another TPNGObject} + if Source is TPNGObject then + AssignPNG(Source as TPNGObject) + {Copy contents from a TBitmap} + {$IFDEF UseDelphi}else if Source is TBitmap then + with Source as TBitmap do + AssignHandle(Handle, Transparent, + ColorToRGB(TransparentColor)){$ENDIF} + {Unknown source, let ancestor deal with it} + else + inherited; +end; + +{Clear all the chunks in the list} +procedure TPngObject.ClearChunks; +var + i: Integer; +begin + {Initialize gamma} + InitializeGamma(); + {Free all the objects and memory (0 chunks Bug fixed by Noel Sharpe)} + for i := 0 TO Integer(Chunks.Count) - 1 do + TChunk(Chunks.Item[i]).Free; + Chunks.Count := 0; +end; + +{Portable Network Graphics object being created} +constructor TPngObject.Create; +begin + {Let it be created} + inherited Create; + + {Initial properties} + TempPalette := 0; + fFilters := [pfSub]; + fCompressionLevel := 7; + fInterlaceMethod := imNone; + fMaxIdatSize := High(Word); + {Create chunklist object} + fChunkList := TPngList.Create(Self); +end; + +{Portable Network Graphics object being destroyed} +destructor TPngObject.Destroy; +begin + {Free object list} + ClearChunks; + fChunkList.Free; + {Free the temporary palette} + if TempPalette <> 0 then DeleteObject(TempPalette); + + {Call ancestor destroy} + inherited Destroy; +end; + +{Returns linesize and byte offset for pixels} +procedure TPngObject.GetPixelInfo(var LineSize, Offset: Cardinal); +begin + {There must be an Header chunk to calculate size} + if HeaderPresent then + begin + {Calculate number of bytes for each line} + LineSize := BytesForPixels(Header.Width, Header.ColorType, Header.BitDepth); + + {Calculates byte offset} + Case Header.ColorType of + {Grayscale} + COLOR_GRAYSCALE: + If Header.BitDepth = 16 Then + Offset := 2 + Else + Offset := 1 ; + {It always smaller or equal one byte, so it occupes one byte} + COLOR_PALETTE: + offset := 1; + {It might be 3 or 6 bytes} + COLOR_RGB: + offset := 3 * Header.BitDepth Div 8; + {It might be 2 or 4 bytes} + COLOR_GRAYSCALEALPHA: + offset := 2 * Header.BitDepth Div 8; + {4 or 8 bytes} + COLOR_RGBALPHA: + offset := 4 * Header.BitDepth Div 8; + else + Offset := 0; + End ; + + end + else + begin + {In case if there isn't any Header chunk} + Offset := 0; + LineSize := 0; + end; + +end; + +{Returns image height} +function TPngObject.GetHeight: Integer; +begin + {There must be a Header chunk to get the size, otherwise returns 0} + if HeaderPresent then + Result := TChunkIHDR(Chunks.Item[0]).Height + else Result := 0; +end; + +{Returns image width} +function TPngObject.GetWidth: Integer; +begin + {There must be a Header chunk to get the size, otherwise returns 0} + if HeaderPresent then + Result := Header.Width + else Result := 0; +end; + +{Returns if the image is empty} +function TPngObject.GetEmpty: Boolean; +begin + Result := (Chunks.Count = 0); +end; + +{Raises an error} +procedure TPngObject.RaiseError(ExceptionClass: ExceptClass; Text: String); +begin + raise ExceptionClass.Create(Text); +end; + +{Set the maximum size for IDAT chunk} +procedure TPngObject.SetMaxIdatSize(const Value: Cardinal); +begin + {Make sure the size is at least 65535} + if Value < High(Word) then + fMaxIdatSize := High(Word) else fMaxIdatSize := Value; +end; + +{$IFNDEF UseDelphi} + {Creates a file stream reading from the filename in the parameter and load} + procedure TPngObject.LoadFromFile(const Filename: String); + var + FileStream: TFileStream; + begin + {Test if the file exists} + if not FileExists(Filename) then + begin + {In case it does not exists, raise error} + RaiseError(EPNGNotExists, EPNGNotExistsText); + exit; + end; + + {Creates the file stream to read} + FileStream := TFileStream.Create(Filename, [fsmRead]); + LoadFromStream(FileStream); {Loads the data} + FileStream.Free; {Free file stream} + end; + + {Saves the current png image to a file} + procedure TPngObject.SaveToFile(const Filename: String); + var + FileStream: TFileStream; + begin + {Creates the file stream to write} + FileStream := TFileStream.Create(Filename, [fsmWrite]); + SaveToStream(FileStream); {Saves the data} + FileStream.Free; {Free file stream} + end; + +{$ENDIF} + +{Returns pointer to the chunk TChunkIHDR which should be the first} +function TPngObject.GetHeader: TChunkIHDR; +begin + {If there is a TChunkIHDR returns it, otherwise returns nil} + if (Chunks.Count <> 0) and (Chunks.Item[0] is TChunkIHDR) then + Result := Chunks.Item[0] as TChunkIHDR + else + begin + {No header, throw error message} + RaiseError(EPNGHeaderNotPresent, EPNGHeaderNotPresentText); + Result := nil + end +end; + +{Draws using partial transparency} +procedure TPngObject.DrawPartialTrans(DC: HDC; Rect: TRect); +type + {Access to pixels} + TPixelLine = Array[Word] of TRGBQuad; + pPixelLine = ^TPixelLine; +const + {Structure used to create the bitmap} + BitmapInfoHeader: TBitmapInfoHeader = + (biSize: sizeof(TBitmapInfoHeader); + biWidth: 100; + biHeight: 100; + biPlanes: 1; + biBitCount: 32; + biCompression: BI_RGB; + biSizeImage: 0; + biXPelsPerMeter: 0; + biYPelsPerMeter: 0; + biClrUsed: 0; + biClrImportant: 0); +var + {Buffer bitmap creation} + BitmapInfo : TBitmapInfo; + BufferDC : HDC; + BufferBits : Pointer; + OldBitmap, + BufferBitmap: HBitmap; + + {Transparency/palette chunks} + TransparencyChunk: TChunktRNS; + PaletteChunk: TChunkPLTE; + TransValue, PaletteIndex: Byte; + CurBit: Integer; + Data: PByte; + + {Buffer bitmap modification} + BytesPerRowDest, + BytesPerRowSrc, + BytesPerRowAlpha: Integer; + ImageSource, + AlphaSource : pByteArray; + ImageData : pPixelLine; + i, j : Integer; +begin + {Prepare to create the bitmap} + Fillchar(BitmapInfo, sizeof(BitmapInfo), #0); + BitmapInfoHeader.biWidth := Header.Width; + BitmapInfoHeader.biHeight := -1 * Header.Height; + BitmapInfo.bmiHeader := BitmapInfoHeader; + + {Create the bitmap which will receive the background, the applied} + {alpha blending and then will be painted on the background} + BufferDC := CreateCompatibleDC(0); + {In case BufferDC could not be created} + if (BufferDC = 0) then RaiseError(EPNGOutMemory, EPNGOutMemoryText); + BufferBitmap := CreateDIBSection(BufferDC, BitmapInfo, DIB_RGB_COLORS, + BufferBits, 0, 0); + {In case buffer bitmap could not be created} + if (BufferBitmap = 0) or (BufferBits = Nil) then + begin + if BufferBitmap <> 0 then DeleteObject(BufferBitmap); + DeleteDC(BufferDC); + RaiseError(EPNGOutMemory, EPNGOutMemoryText); + end; + + {Selects new bitmap and release old bitmap} + OldBitmap := SelectObject(BufferDC, BufferBitmap); + + {Draws the background on the buffer image} + StretchBlt(BufferDC, 0, 0, Header.Width, Header.height, DC, Rect.Left, + Rect.Top, Header.Width, Header.Height, SRCCOPY); + + {Obtain number of bytes for each row} + BytesPerRowAlpha := Header.Width; + BytesPerRowDest := (((BitmapInfo.bmiHeader.biBitCount * Width) + 31) + and not 31) div 8; {Number of bytes for each image row in destination} + BytesPerRowSrc := (((Header.BitmapInfo.bmiHeader.biBitCount * Header.Width) + + 31) and not 31) div 8; {Number of bytes for each image row in source} + + {Obtains image pointers} + ImageData := BufferBits; + AlphaSource := Header.ImageAlpha; + Longint(ImageSource) := Longint(Header.ImageData) + + Header.BytesPerRow * Longint(Header.Height - 1); + + case Header.BitmapInfo.bmiHeader.biBitCount of + {R, G, B images} + 24: + FOR j := 1 TO Header.Height DO + begin + {Process all the pixels in this line} + FOR i := 0 TO Header.Width - 1 DO + with ImageData[i] do + begin + rgbRed := (255+ImageSource[2+i*3] * AlphaSource[i] + rgbRed * (255 - + AlphaSource[i])) shr 8; + rgbGreen := (255+ImageSource[1+i*3] * AlphaSource[i] + rgbGreen * + (255 - AlphaSource[i])) shr 8; + rgbBlue := (255+ImageSource[i*3] * AlphaSource[i] + rgbBlue * + (255 - AlphaSource[i])) shr 8; + end; + + {Move pointers} + Longint(ImageData) := Longint(ImageData) + BytesPerRowDest; + Longint(ImageSource) := Longint(ImageSource) - BytesPerRowSrc; + Longint(AlphaSource) := Longint(AlphaSource) + BytesPerRowAlpha; + end; + {Palette images with 1 byte for each pixel} + 1,4,8: if Header.ColorType = COLOR_GRAYSCALEALPHA then + FOR j := 1 TO Header.Height DO + begin + {Process all the pixels in this line} + FOR i := 0 TO Header.Width - 1 DO + with ImageData[i], Header.BitmapInfo do begin + rgbRed := (255 + ImageSource[i] * AlphaSource[i] + + rgbRed * (255 - AlphaSource[i])) shr 8; + rgbGreen := (255 + ImageSource[i] * AlphaSource[i] + + rgbGreen * (255 - AlphaSource[i])) shr 8; + rgbBlue := (255 + ImageSource[i] * AlphaSource[i] + + rgbBlue * (255 - AlphaSource[i])) shr 8; + end; + + {Move pointers} + Longint(ImageData) := Longint(ImageData) + BytesPerRowDest; + Longint(ImageSource) := Longint(ImageSource) - BytesPerRowSrc; + Longint(AlphaSource) := Longint(AlphaSource) + BytesPerRowAlpha; + end + else {Palette images} + begin + {Obtain pointer to the transparency chunk} + TransparencyChunk := TChunktRNS(Chunks.ItemFromClass(TChunktRNS)); + PaletteChunk := TChunkPLTE(Chunks.ItemFromClass(TChunkPLTE)); + + FOR j := 1 TO Header.Height DO + begin + {Process all the pixels in this line} + i := 0; Data := @ImageSource[0]; + repeat + CurBit := 0; + + repeat + {Obtains the palette index} + case Header.BitDepth of + 1: PaletteIndex := (Data^ shr (7-(I Mod 8))) and 1; + 2,4: PaletteIndex := (Data^ shr ((1-(I Mod 2))*4)) and $0F; + else PaletteIndex := Data^; + end; + + {Updates the image with the new pixel} + with ImageData[i] do + begin + TransValue := TransparencyChunk.PaletteValues[PaletteIndex]; + rgbRed := (255 + PaletteChunk.Item[PaletteIndex].rgbRed * + TransValue + rgbRed * (255 - TransValue)) shr 8; + rgbGreen := (255 + PaletteChunk.Item[PaletteIndex].rgbGreen * + TransValue + rgbGreen * (255 - TransValue)) shr 8; + rgbBlue := (255 + PaletteChunk.Item[PaletteIndex].rgbBlue * + TransValue + rgbBlue * (255 - TransValue)) shr 8; + end; + + {Move to next data} + inc(i); inc(CurBit, Header.BitmapInfo.bmiHeader.biBitCount); + until CurBit >= 8; + {Move to next source data} + inc(Data); + until i >= Integer(Header.Width); + + {Move pointers} + Longint(ImageData) := Longint(ImageData) + BytesPerRowDest; + Longint(ImageSource) := Longint(ImageSource) - BytesPerRowSrc; + end + end {Palette images} + end {case Header.BitmapInfo.bmiHeader.biBitCount}; + + {Draws the new bitmap on the foreground} + StretchBlt(DC, Rect.Left, Rect.Top, Header.Width, Header.Height, BufferDC, + 0, 0, Header.Width, Header.Height, SRCCOPY); + + {Free bitmap} + SelectObject(BufferDC, OldBitmap); + DeleteObject(BufferBitmap); + DeleteDC(BufferDC); +end; + +{Draws the image into a canvas} +procedure TPngObject.Draw(ACanvas: TCanvas; const Rect: TRect); +var + Header: TChunkIHDR; +begin + {Quit in case there is no header, otherwise obtain it} + if (Chunks.Count = 0) or not (Chunks.GetItem(0) is TChunkIHDR) then Exit; + Header := Chunks.GetItem(0) as TChunkIHDR; + + {Copy the data to the canvas} + case Self.TransparencyMode of + {$IFDEF PartialTransparentDraw} + ptmPartial: + DrawPartialTrans(ACanvas{$IFDEF UseDelphi}.Handle{$ENDIF}, Rect); + {$ENDIF} + ptmBit: DrawTransparentBitmap(ACanvas{$IFDEF UseDelphi}.Handle{$ENDIF}, + Header.ImageData, Header.BitmapInfo.bmiHeader, + pBitmapInfo(@Header.BitmapInfo), Rect, + {$IFDEF UseDelphi}ColorToRGB({$ENDIF}TransparentColor) + {$IFDEF UseDelphi}){$ENDIF} + else + StretchDiBits(ACanvas{$IFDEF UseDelphi}.Handle{$ENDIF}, Rect.Left, + Rect.Top, Rect.Right - Rect.Left, Rect.Bottom - Rect.Top, 0, 0, + Header.Width, Header.Height, Header.ImageData, + pBitmapInfo(@Header.BitmapInfo)^, DIB_RGB_COLORS, SRCCOPY) + end {case} +end; + +{Characters for the header} +const + PngHeader: Array[0..7] of Char = (#137, #80, #78, #71, #13, #10, #26, #10); + +{Loads the image from a stream of data} +procedure TPngObject.LoadFromStream(Stream: TStream); +var + Header : Array[0..7] of Char; + HasIDAT : Boolean; + + {Chunks reading} + ChunkCount : Cardinal; + ChunkLength: Cardinal; + ChunkName : TChunkName; +begin + {Initialize before start loading chunks} + ChunkCount := 0; + ClearChunks(); + {Reads the header} + Stream.Read(Header[0], 8); + + {Test if the header matches} + if Header <> PngHeader then + begin + RaiseError(EPNGInvalidFileHeader, EPNGInvalidFileHeaderText); + Exit; + end; + + + HasIDAT := FALSE; + Chunks.Count := 10; + + {Load chunks} + repeat + inc(ChunkCount); {Increment number of chunks} + if Chunks.Count < ChunkCount then {Resize the chunks list if needed} + Chunks.Count := Chunks.Count + 10; + + {Reads chunk length and invert since it is in network order} + {also checks the Read method return, if it returns 0, it} + {means that no bytes was readed, probably because it reached} + {the end of the file} + if Stream.Read(ChunkLength, 4) = 0 then + begin + {In case it found the end of the file here} + Chunks.Count := ChunkCount - 1; + RaiseError(EPNGUnexpectedEnd, EPNGUnexpectedEndText); + end; + + ChunkLength := ByteSwap(ChunkLength); + {Reads chunk name} + Stream.Read(Chunkname, 4); + + {Here we check if the first chunk is the Header which is necessary} + {to the file in order to be a valid Portable Network Graphics image} + if (ChunkCount = 1) and (ChunkName <> 'IHDR') then + begin + Chunks.Count := ChunkCount - 1; + RaiseError(EPNGIHDRNotFirst, EPNGIHDRNotFirstText); + exit; + end; + + {Has a previous IDAT} + if (HasIDAT and (ChunkName = 'IDAT')) or (ChunkName = 'cHRM') then + begin + dec(ChunkCount); + Stream.Seek(ChunkLength + 4, soFromCurrent); + Continue; + end; + {Tell it has an IDAT chunk} + if ChunkName = 'IDAT' then HasIDAT := TRUE; + + {Creates object for this chunk} + Chunks.SetItem(ChunkCount - 1, CreateClassChunk(Self, ChunkName)); + + {Check if the chunk is critical and unknown} + {$IFDEF ErrorOnUnknownCritical} + if (TChunk(Chunks.Item[ChunkCount - 1]).ClassType = TChunk) and + ((Byte(ChunkName[0]) AND $20) = 0) and (ChunkName <> '') then + begin + Chunks.Count := ChunkCount; + RaiseError(EPNGUnknownCriticalChunk, EPNGUnknownCriticalChunkText); + end; + {$ENDIF} + + {Loads it} + try if not TChunk(Chunks.Item[ChunkCount - 1]).LoadFromStream(Stream, + ChunkName, ChunkLength) then break; + except + Chunks.Count := ChunkCount; + raise; + end; + + {Terminates when it reaches the IEND chunk} + until (ChunkName = 'IEND'); + + {Resize the list to the appropriate size} + Chunks.Count := ChunkCount; + + {Check if there is data} + if not HasIDAT then + RaiseError(EPNGNoImageData, EPNGNoImageDataText); +end; + +{Changing height is not supported} +procedure TPngObject.SetHeight(Value: Integer); +begin + RaiseError(EPNGError, EPNGCannotChangeSizeText); +end; + +{Changing width is not supported} +procedure TPngObject.SetWidth(Value: Integer); +begin + RaiseError(EPNGError, EPNGCannotChangeSizeText); +end; + +{$IFDEF UseDelphi} +{Saves to clipboard format (thanks to Antoine Pottern)} +procedure TPNGObject.SaveToClipboardFormat(var AFormat: Word; + var AData: THandle; var APalette: HPalette); +begin + with TBitmap.Create do + try + Width := Self.Width; + Height := Self.Height; + Self.Draw(Canvas, Rect(0, 0, Width, Height)); + SaveToClipboardFormat(AFormat, AData, APalette); + finally + Free; + end {try} +end; + +{Loads data from clipboard} +procedure TPngObject.LoadFromClipboardFormat(AFormat: Word; + AData: THandle; APalette: HPalette); +begin + with TBitmap.Create do + try + LoadFromClipboardFormat(AFormat, AData, APalette); + Self.AssignHandle(Handle, False, 0); + finally + Free; + end {try} +end; + +{Returns if the image is transparent} +function TPngObject.GetTransparent: Boolean; +begin + Result := (TransparencyMode <> ptmNone); +end; + +{$ENDIF} + +{Saving the PNG image to a stream of data} +procedure TPngObject.SaveToStream(Stream: TStream); +var + j: Integer; +begin + {Reads the header} + Stream.Write(PNGHeader[0], 8); + {Write each chunk} + FOR j := 0 TO Chunks.Count - 1 DO + Chunks.Item[j].SaveToStream(Stream) +end; + +{Prepares the Header chunk} +procedure BuildHeader(Header: TChunkIHDR; Handle: HBitmap; Info: pBitmap; + HasPalette: Boolean); +var + DC: HDC; +begin + {Set width and height} + Header.Width := Info.bmWidth; + Header.Height := abs(Info.bmHeight); + {Set bit depth} + if Info.bmBitsPixel >= 16 then + Header.BitDepth := 8 else Header.BitDepth := Info.bmBitsPixel; + {Set color type} + if Info.bmBitsPixel >= 16 then + Header.ColorType := COLOR_RGB else Header.ColorType := COLOR_PALETTE; + {Set other info} + Header.CompressionMethod := 0; {deflate/inflate} + Header.InterlaceMethod := 0; {no interlace} + + {Prepares bitmap headers to hold data} + Header.PrepareImageData(); + {Copy image data} + DC := CreateCompatibleDC(0); + GetDIBits(DC, Handle, 0, Header.Height, Header.ImageData, + pBitmapInfo(@Header.BitmapInfo)^, DIB_RGB_COLORS); + DeleteDC(DC); +end; + +{Loads the image from a resource} +procedure TPngObject.LoadFromResourceName(Instance: HInst; + const Name: String); +var + ResStream: TResourceStream; +begin + {Creates an especial stream to load from the resource} + try ResStream := TResourceStream.Create(Instance, Name, RT_RCDATA); + except RaiseError(EPNGCouldNotLoadResource, EPNGCouldNotLoadResourceText); + exit; end; + + {Loads the png image from the resource} + try + LoadFromStream(ResStream); + finally + ResStream.Free; + end; +end; + +{Loads the png from a resource ID} +procedure TPngObject.LoadFromResourceID(Instance: HInst; ResID: Integer); +begin + LoadFromResourceName(Instance, String(ResID)); +end; + +{Assigns this tpngobject to another object} +procedure TPngObject.AssignTo(Dest: TPersistent); +{$IFDEF UseDelphi} +var + DeskDC: HDC; + TRNS: TChunkTRNS; +{$ENDIF} +begin + {If the destination is also a TPNGObject make it assign} + {this one} + if Dest is TPNGObject then + TPNGObject(Dest).AssignPNG(Self) + {$IFDEF UseDelphi} + {In case the destination is a bitmap} + else if (Dest is TBitmap) and HeaderPresent then + begin + {Device context} + DeskDC := GetDC(0); + {Copy the data} + TBitmap(Dest).Handle := CreateDIBitmap(DeskDC, + Header.BitmapInfo.bmiHeader, CBM_INIT, Header.ImageData, + pBitmapInfo(@Header.BitmapInfo)^, DIB_RGB_COLORS); + ReleaseDC(0, DeskDC); + {Tests for the best pixelformat} + case Header.BitmapInfo.bmiHeader.biBitCount of + 1: TBitmap(Dest).PixelFormat := pf1Bit; + 4: TBitmap(Dest).PixelFormat := pf4Bit; + 8: TBitmap(Dest).PixelFormat := pf8Bit; + 24: TBitmap(Dest).PixelFormat := pf24Bit; + 32: TBitmap(Dest).PixelFormat := pf32Bit; + end {case Header.BitmapInfo.bmiHeader.biBitCount}; + + {Copy transparency mode} + if (TransparencyMode = ptmBit) then + begin + TRNS := Chunks.ItemFromClass(TChunkTRNS) as TChunkTRNS; + TBitmap(Dest).TransparentColor := TRNS.TransparentColor; + TBitmap(Dest).Transparent := True + end {if (TransparencyMode = ptmBit)} + + end + else + {Unknown destination kind, } + inherited AssignTo(Dest); + {$ENDIF} +end; + +{Assigns from a bitmap object} +procedure TPngObject.AssignHandle(Handle: HBitmap; Transparent: Boolean; + TransparentColor: ColorRef); +var + BitmapInfo: Windows.TBitmap; + HasPalette: Boolean; + + {Chunks} + Header: TChunkIHDR; + PLTE: TChunkPLTE; + IDAT: TChunkIDAT; + IEND: TChunkIEND; + TRNS: TChunkTRNS; +begin + {Obtain bitmap info} + GetObject(Handle, SizeOf(BitmapInfo), @BitmapInfo); + + {Only bit depths 1, 4 and 8 needs a palette} + HasPalette := (BitmapInfo.bmBitsPixel < 16); + + {Clear old chunks and prepare} + ClearChunks(); + + {Create the chunks} + Header := TChunkIHDR.Create(Self); + if HasPalette then PLTE := TChunkPLTE.Create(Self) else PLTE := nil; + if Transparent then TRNS := TChunkTRNS.Create(Self) else TRNS := nil; + IDAT := TChunkIDAT.Create(Self); + IEND := TChunkIEND.Create(Self); + + {Add chunks} + TPNGPointerList(Chunks).Add(Header); + if HasPalette then TPNGPointerList(Chunks).Add(PLTE); + if Transparent then TPNGPointerList(Chunks).Add(TRNS); + TPNGPointerList(Chunks).Add(IDAT); + TPNGPointerList(Chunks).Add(IEND); + + {This method will fill the Header chunk with bitmap information} + {and copy the image data} + BuildHeader(Header, Handle, @BitmapInfo, HasPalette); + {In case there is a image data, set the PLTE chunk fCount variable} + {to the actual number of palette colors which is 2^(Bits for each pixel)} + if HasPalette then PLTE.fCount := 1 shl BitmapInfo.bmBitsPixel; + + {In case it is a transparent bitmap, prepares it} + if Transparent then TRNS.TransparentColor := TransparentColor; + +end; + +{Assigns from another PNG} +procedure TPngObject.AssignPNG(Source: TPNGObject); +var + J: Integer; +begin + {Copy properties} + InterlaceMethod := Source.InterlaceMethod; + MaxIdatSize := Source.MaxIdatSize; + CompressionLevel := Source.CompressionLevel; + Filters := Source.Filters; + + {Clear old chunks and prepare} + ClearChunks(); + Chunks.Count := Source.Chunks.Count; + {Create chunks and makes a copy from the source} + FOR J := 0 TO Chunks.Count - 1 DO + with Source.Chunks do + begin + Chunks.SetItem(J, TChunkClass(TChunk(Item[J]).ClassType).Create(Self)); + TChunk(Chunks.Item[J]).Assign(TChunk(Item[J])); + end {with}; +end; + +{Returns a alpha data scanline} +function TPngObject.GetAlphaScanline(const LineIndex: Integer): pByteArray; +begin + with Header do + if (ColorType = COLOR_RGBALPHA) or (ColorType = COLOR_GRAYSCALEALPHA) then + Longint(Result) := Longint(ImageAlpha) + (LineIndex * Longint(Width)) + else Result := nil; {In case the image does not use alpha information} +end; + +{$IFDEF Store16bits} +{Returns a png data extra scanline} +function TPngObject.GetExtraScanline(const LineIndex: Integer): Pointer; +begin + with Header do + Longint(Result) := (Longint(ExtraImageData) + ((Longint(Height) - 1) * + BytesPerRow)) - (LineIndex * BytesPerRow); +end; +{$ENDIF} + +{Returns a png data scanline} +function TPngObject.GetScanline(const LineIndex: Integer): Pointer; +begin + with Header do + Longint(Result) := (Longint(ImageData) + ((Longint(Height) - 1) * + BytesPerRow)) - (LineIndex * BytesPerRow); +end; + +{Initialize gamma table} +procedure TPngObject.InitializeGamma; +var + i: Integer; +begin + {Build gamma table as if there was no gamma} + FOR i := 0 to 255 do + begin + GammaTable[i] := i; + InverseGamma[i] := i; + end {for i} +end; + +{Returns the transparency mode used by this png} +function TPngObject.GetTransparencyMode: TPNGTransparencyMode; +var + TRNS: TChunkTRNS; +begin + with Header do + begin + Result := ptmNone; {Default result} + {Gets the TRNS chunk pointer} + TRNS := Chunks.ItemFromClass(TChunkTRNS) as TChunkTRNS; + + {Test depending on the color type} + case ColorType of + {This modes are always partial} + COLOR_RGBALPHA, COLOR_GRAYSCALEALPHA: Result := ptmPartial; + {This modes support bit transparency} + COLOR_RGB, COLOR_GRAYSCALE: if TRNS <> nil then Result := ptmBit; + {Supports booth translucid and bit} + COLOR_PALETTE: + {A TRNS chunk must be present, otherwise it won't support transparency} + if TRNS <> nil then + if TRNS.BitTransparency then + Result := ptmBit else Result := ptmPartial + end {case} + + end {with Header} +end; + +{Add a text chunk} +procedure TPngObject.AddtEXt(const Keyword, Text: String); +var + TextChunk: TChunkTEXT; +begin + TextChunk := Chunks.Add(TChunkText) as TChunkTEXT; + TextChunk.Keyword := Keyword; + TextChunk.Text := Text; +end; + +{Add a text chunk} +procedure TPngObject.AddzTXt(const Keyword, Text: String); +var + TextChunk: TChunkzTXt; +begin + TextChunk := Chunks.Add(TChunkText) as TChunkzTXt; + TextChunk.Keyword := Keyword; + TextChunk.Text := Text; +end; + +{Removes the image transparency} +procedure TPngObject.RemoveTransparency; +var + TRNS: TChunkTRNS; +begin + TRNS := Chunks.ItemFromClass(TChunkTRNS) as TChunkTRNS; + if TRNS <> nil then Chunks.RemoveChunk(TRNS) +end; + +{Generates alpha information} +procedure TPngObject.CreateAlpha; +var + TRNS: TChunkTRNS; +begin + {Generates depending on the color type} + with Header do + case ColorType of + {Png allocates different memory space to hold alpha information} + {for these types} + COLOR_GRAYSCALE, COLOR_RGB: + begin + {Transform into the appropriate color type} + if ColorType = COLOR_GRAYSCALE then + ColorType := COLOR_GRAYSCALEALPHA + else ColorType := COLOR_RGBALPHA; + {Allocates memory to hold alpha information} + GetMem(ImageAlpha, Integer(Width) * Integer(Height)); + FillChar(ImageAlpha^, Integer(Width) * Integer(Height), #255); + end; + {Palette uses the TChunktRNS to store alpha} + COLOR_PALETTE: + begin + {Gets/creates TRNS chunk} + if Chunks.ItemFromClass(TChunkTRNS) = nil then + TRNS := Chunks.Add(TChunkTRNS) as TChunkTRNS + else + TRNS := Chunks.ItemFromClass(TChunkTRNS) as TChunkTRNS; + + {Prepares the TRNS chunk} + with TRNS do + begin + Fillchar(PaletteValues[0], 256, 255); + fDataSize := 1 shl Header.BitDepth; + fBitTransparency := False + end {with Chunks.Add}; + end; + end {case Header.ColorType} + +end; + +{Returns transparent color} +function TPngObject.GetTransparentColor: TColor; +var + TRNS: TChunkTRNS; +begin + TRNS := Chunks.ItemFromClass(TChunkTRNS) as TChunkTRNS; + {Reads the transparency chunk to get this info} + if Assigned(TRNS) then Result := TRNS.TransparentColor + else Result := 0 +end; + +{$OPTIMIZATION OFF} +procedure TPngObject.SetTransparentColor(const Value: TColor); +var + TRNS: TChunkTRNS; +begin + if HeaderPresent then + {Tests the ColorType} + case Header.ColorType of + {Not allowed for this modes} + COLOR_RGBALPHA, COLOR_GRAYSCALEALPHA: Self.RaiseError( + EPNGCannotChangeTransparent, EPNGCannotChangeTransparentText); + {Allowed} + COLOR_PALETTE, COLOR_RGB, COLOR_GRAYSCALE: + begin + TRNS := Chunks.ItemFromClass(TChunkTRNS) as TChunkTRNS; + if not Assigned(TRNS) then TRNS := Chunks.Add(TChunkTRNS) as TChunkTRNS; + + {Sets the transparency value from TRNS chunk} + TRNS.TransparentColor := {$IFDEF UseDelphi}ColorToRGB({$ENDIF}Value{$IFDEF UseDelphi}){$ENDIF} + end {COLOR_PALETTE, COLOR_RGB, COLOR_GRAYSCALE)} + end {case} +end; + +{Returns if header is present} +function TPngObject.HeaderPresent: Boolean; +begin + Result := ((Chunks.Count <> 0) and (Chunks.Item[0] is TChunkIHDR)) +end; + +{Returns pixel for png using palette and grayscale} +function GetByteArrayPixel(const png: TPngObject; const X, Y: Integer): TColor; +var + ByteData: Byte; + DataDepth: Byte; +begin + with png, Header do + begin + {Make sure the bitdepth is not greater than 8} + DataDepth := BitDepth; + if DataDepth > 8 then DataDepth := 8; + {Obtains the byte containing this pixel} + ByteData := pByteArray(png.Scanline[Y])^[X div (8 div DataDepth)]; + {Moves the bits we need to the right} + ByteData := (ByteData shr ((8 - DataDepth) - + (X mod (8 div DataDepth)) * DataDepth)); + {Discard the unwanted pixels} + ByteData:= ByteData and ($FF shr (8 - DataDepth)); + + {For palette mode map the palette entry and for grayscale convert and + returns the intensity} + case ColorType of + COLOR_PALETTE: + with TChunkPLTE(png.Chunks.ItemFromClass(TChunkPLTE)).Item[ByteData] do + Result := rgb(GammaTable[rgbRed], GammaTable[rgbGreen], + GammaTable[rgbBlue]); + COLOR_GRAYSCALE: + begin + ByteData := GammaTable[ByteData * ((1 shl DataDepth) + 1)]; + Result := rgb(ByteData, ByteData, ByteData); + end; + else Result := 0; + end {case}; + end {with} +end; + +{In case vcl units are not being used} +{$IFNDEF UseDelphi} +function ColorToRGB(const Color: TColor): COLORREF; +begin + Result := Color +end; +{$ENDIF} + +{Sets a pixel for grayscale and palette pngs} +procedure SetByteArrayPixel(const png: TPngObject; const X, Y: Integer; + const Value: TColor); +const + ClearFlag: Array[1..8] of Integer = (1, 3, 0, 15, 0, 0, 0, $FF); +var + ByteData: pByte; + DataDepth: Byte; + ValEntry: Byte; +begin + with png.Header do + begin + {Map into a palette entry} + ValEntry := GetNearestPaletteIndex(Png.Palette, ColorToRGB(Value)); + + {16 bits grayscale extra bits are discarted} + DataDepth := BitDepth; + if DataDepth > 8 then DataDepth := 8; + {Gets a pointer to the byte we intend to change} + ByteData := @pByteArray(png.Scanline[Y])^[X div (8 div DataDepth)]; + {Clears the old pixel data} + ByteData^ := ByteData^ and not (ClearFlag[DataDepth] shl ((8 - DataDepth) - + (X mod (8 div DataDepth)) * DataDepth)); + + {Setting the new pixel} + ByteData^ := ByteData^ or (ValEntry shl ((8 - DataDepth) - + (X mod (8 div DataDepth)) * DataDepth)); + end {with png.Header} +end; + +{Returns pixel when png uses RGB} +function GetRGBLinePixel(const png: TPngObject; + const X, Y: Integer): TColor; +begin + with pRGBLine(png.Scanline[Y])^[X] do + Result := RGB(rgbtRed, rgbtGreen, rgbtBlue) +end; + +{Sets pixel when png uses RGB} +procedure SetRGBLinePixel(const png: TPngObject; + const X, Y: Integer; Value: TColor); +begin + with pRGBLine(png.Scanline[Y])^[X] do + begin + rgbtRed := GetRValue(Value); + rgbtGreen := GetGValue(Value); + rgbtBlue := GetBValue(Value) + end +end; + +{Sets a pixel} +procedure TPngObject.SetPixels(const X, Y: Integer; const Value: TColor); +begin + if (X in [0..Width - 1]) and (Y in [0..Height - 1]) then + with Header do + begin + if ColorType in [COLOR_GRAYSCALE, COLOR_PALETTE] then + SetByteArrayPixel(Self, X, Y, Value) + else + SetRGBLinePixel(Self, X, Y, Value) + end {with} +end; + +{Returns a pixel} +function TPngObject.GetPixels(const X, Y: Integer): TColor; +begin + if (X in [0..Width - 1]) and (Y in [0..Height - 1]) then + with Header do + begin + if ColorType in [COLOR_GRAYSCALE, COLOR_PALETTE] then + Result := GetByteArrayPixel(Self, X, Y) + else + Result := GetRGBLinePixel(Self, X, Y) + end {with} + else Result := 0 +end; + +{Returns the image palette} +function TPngObject.GetPalette: HPALETTE; +var + LogPalette: TMaxLogPalette; + i: Integer; +begin + {Palette is avaliable for COLOR_PALETTE and COLOR_GRAYSCALE modes} + if (Header.ColorType in [COLOR_PALETTE, COLOR_GRAYSCALE]) then + begin + {In case the pal} + if TempPalette = 0 then + with LogPalette do + begin + {Prepares the new palette} + palVersion := $300; + palNumEntries := 256; + {Copy entries} + for i := 0 to LogPalette.palNumEntries - 1 do + begin + palPalEntry[i].peRed := Header.BitmapInfo.bmiColors[i].rgbRed; + palPalEntry[i].peGreen := Header.BitmapInfo.bmiColors[i].rgbGreen; + palPalEntry[i].peBlue := Header.BitmapInfo.bmiColors[i].rgbBlue; + palPalEntry[i].peFlags := 0; + end {for i}; + {Creates the palette} + TempPalette := CreatePalette(pLogPalette(@LogPalette)^); + end {with LogPalette, if Temppalette = 0} + end {if Header.ColorType in ...}; + Result := TempPalette; +end; + +initialization + {Initialize} + ChunkClasses := nil; + {crc table has not being computed yet} + crc_table_computed := FALSE; + {Register the necessary chunks for png} + RegisterCommonChunks; + {Registers TPNGObject to use with TPicture} + {$IFDEF UseDelphi}{$IFDEF RegisterGraphic} + TPicture.RegisterFileFormat('PNG', 'Portable Network Graphics', TPNGObject); + {$ENDIF}{$ENDIF} +finalization + {$IFDEF UseDelphi}{$IFDEF RegisterGraphic} + TPicture.UnregisterGraphicClass(TPNGObject); + {$ENDIF}{$ENDIF} + {Free chunk classes} + FreeChunkClassList; +end. + + diff --git a/Game/Code/lib/PngImage/pnglang.dcu b/Game/Code/lib/PngImage/pnglang.dcu new file mode 100644 index 00000000..70b1587f Binary files /dev/null and b/Game/Code/lib/PngImage/pnglang.dcu differ diff --git a/Game/Code/lib/PngImage/pnglang.pas b/Game/Code/lib/PngImage/pnglang.pas new file mode 100644 index 00000000..7a9c5078 --- /dev/null +++ b/Game/Code/lib/PngImage/pnglang.pas @@ -0,0 +1,301 @@ +{Portable Network Graphics Delphi Language Info (24 July 2002)} + +{Feel free to change the text bellow to adapt to your language} +{Also if you have a translation to other languages and want to} +{share it, send me: gubadaud@terra.com.br } +unit pnglang; + +interface + +{$DEFINE English} +{.$DEFINE Portuguese} +{.$DEFINE German} +{.$DEFINE French} +{.$DEFINE Slovenian} + +{Language strings for english} +resourcestring + {$IFDEF English} + EPngInvalidCRCText = 'This "Portable Network Graphics" image is not valid ' + + 'because it contains invalid pieces of data (crc error)'; + EPNGInvalidIHDRText = 'The "Portable Network Graphics" image could not be ' + + 'loaded because one of its main piece of data (ihdr) might be corrupted'; + EPNGMissingMultipleIDATText = 'This "Portable Network Graphics" image is ' + + 'invalid because it has missing image parts.'; + EPNGZLIBErrorText = 'Could not decompress the image because it contains ' + + 'invalid compressed data.'#13#10 + ' Description: '; + EPNGInvalidPaletteText = 'The "Portable Network Graphics" image contains ' + + 'an invalid palette.'; + EPNGInvalidFileHeaderText = 'The file being readed is not a valid '+ + '"Portable Network Graphics" image because it contains an invalid header.' + + ' This file may be corruped, try obtaining it again.'; + EPNGIHDRNotFirstText = 'This "Portable Network Graphics" image is not ' + + 'supported or it might be invalid.'#13#10 + '(IHDR chunk is not the first)'; + EPNGNotExistsText = 'The png file could not be loaded because it does not ' + + 'exists.'; + EPNGSizeExceedsText = 'This "Portable Network Graphics" image is not ' + + 'supported because either it''s width or height exceeds the maximum ' + + 'size, which is 65535 pixels length.'; + EPNGUnknownPalEntryText = 'There is no such palette entry.'; + EPNGMissingPaletteText = 'This "Portable Network Graphics" could not be ' + + 'loaded because it uses a color table which is missing.'; + EPNGUnknownCriticalChunkText = 'This "Portable Network Graphics" image ' + + 'contains an unknown critical part which could not be decoded.'; + EPNGUnknownCompressionText = 'This "Portable Network Graphics" image is ' + + 'encoded with an unknown compression scheme which could not be decoded.'; + EPNGUnknownInterlaceText = 'This "Portable Network Graphics" image uses ' + + 'an unknown interlace scheme which could not be decoded.'; + EPNGCannotAssignChunkText = 'The chunks must be compatible to be assigned.'; + EPNGUnexpectedEndText = 'This "Portable Network Graphics" image is invalid ' + + 'because the decoder found an unexpected end of the file.'; + EPNGNoImageDataText = 'This "Portable Network Graphics" image contains no ' + + 'data.'; + EPNGCannotChangeSizeText = 'The "Portable Network Graphics" image can not ' + + 'be resize by changing width and height properties. Try assigning the ' + + 'image from a bitmap.'; + EPNGCannotAddChunkText = 'The program tried to add a existent critical ' + + 'chunk to the current image which is not allowed.'; + EPNGCannotAddInvalidImageText = 'It''s not allowed to add a new chunk ' + + 'because the current image is invalid.'; + EPNGCouldNotLoadResourceText = 'The png image could not be loaded from the ' + + 'resource ID.'; + EPNGOutMemoryText = 'Some operation could not be performed because the ' + + 'system is out of resources. Close some windows and try again.'; + EPNGCannotChangeTransparentText = 'Setting bit transparency color is not ' + + 'allowed for png images containing alpha value for each pixel ' + + '(COLOR_RGBALPHA and COLOR_GRAYSCALEALPHA)'; + EPNGHeaderNotPresentText = 'This operation is not valid because the ' + + 'current image contains no valid header.'; + {$ENDIF} + {$IFDEF Portuguese} + EPngInvalidCRCText = 'Essa imagem "Portable Network Graphics" não é válida ' + + 'porque contém chunks inválidos de dados (erro crc)'; + EPNGInvalidIHDRText = 'A imagem "Portable Network Graphics" não pode ser ' + + 'carregada porque um dos seus chunks importantes (ihdr) pode estar '+ + 'inválido'; + EPNGMissingMultipleIDATText = 'Essa imagem "Portable Network Graphics" é ' + + 'inválida porque tem chunks de dados faltando.'; + EPNGZLIBErrorText = 'Não foi possível descomprimir os dados da imagem ' + + 'porque ela contém dados inválidos.'#13#10 + ' Descrição: '; + EPNGInvalidPaletteText = 'A imagem "Portable Network Graphics" contém ' + + 'uma paleta inválida.'; + EPNGInvalidFileHeaderText = 'O arquivo sendo lido não é uma imagem '+ + '"Portable Network Graphics" válida porque contém um cabeçalho inválido.' + + ' O arquivo pode estar corrompida, tente obter ela novamente.'; + EPNGIHDRNotFirstText = 'Essa imagem "Portable Network Graphics" não é ' + + 'suportada ou pode ser inválida.'#13#10 + '(O chunk IHDR não é o ' + + 'primeiro)'; + EPNGNotExistsText = 'A imagem png não pode ser carregada porque ela não ' + + 'existe.'; + EPNGSizeExceedsText = 'Essa imagem "Portable Network Graphics" não é ' + + 'suportada porque a largura ou a altura ultrapassam o tamanho máximo, ' + + 'que é de 65535 pixels de diâmetro.'; + EPNGUnknownPalEntryText = 'Não existe essa entrada de paleta.'; + EPNGMissingPaletteText = 'Essa imagem "Portable Network Graphics" não pode ' + + 'ser carregada porque usa uma paleta que está faltando.'; + EPNGUnknownCriticalChunkText = 'Essa imagem "Portable Network Graphics" ' + + 'contém um chunk crítico desconheçido que não pode ser decodificado.'; + EPNGUnknownCompressionText = 'Essa imagem "Portable Network Graphics" está ' + + 'codificada com um esquema de compressão desconheçido e não pode ser ' + + 'decodificada.'; + EPNGUnknownInterlaceText = 'Essa imagem "Portable Network Graphics" usa um ' + + 'um esquema de interlace que não pode ser decodificado.'; + EPNGCannotAssignChunkText = 'Os chunk devem ser compatíveis para serem ' + + 'copiados.'; + EPNGUnexpectedEndText = 'Essa imagem "Portable Network Graphics" é ' + + 'inválida porque o decodificador encontrou um fim inesperado.'; + EPNGNoImageDataText = 'Essa imagem "Portable Network Graphics" não contém ' + + 'dados.'; + EPNGCannotChangeSizeText = 'A imagem "Portable Network Graphics" não pode ' + + 'ser redimensionada mudando as propriedades width e height. Tente ' + + 'copiar a imagem de um bitmap usando a função assign.'; + EPNGCannotAddChunkText = 'O programa tentou adicionar um chunk crítico ' + + 'já existente para a imagem atual, oque não é permitido.'; + EPNGCannotAddInvalidImageText = 'Não é permitido adicionar um chunk novo ' + + 'porque a imagem atual é inválida.'; + EPNGCouldNotLoadResourceText = 'A imagem png não pode ser carregada apartir' + + ' do resource.'; + EPNGOutMemoryText = 'Uma operação não pode ser completada porque o sistema ' + + 'está sem recursos. Fecha algumas janelas e tente novamente.'; + EPNGCannotChangeTransparentText = 'Definir transparência booleana não é ' + + 'permitido para imagens png contendo informação alpha para cada pixel ' + + '(COLOR_RGBALPHA e COLOR_GRAYSCALEALPHA)'; + EPNGHeaderNotPresentText = 'Essa operação não é válida porque a ' + + 'imagem atual não contém um cabeçalho válido.'; + {$ENDIF} + {Language strings for German} + {$IFDEF German} + EPngInvalidCRCText = 'Dieses "Portable Network Graphics" Image ist ' + + 'ungültig, weil Teile der Daten ungültig sind (CRC-Fehler).'; + EPNGInvalidIHDRText = 'Dieses "Portable Network Graphics" Image konnte ' + + 'nicht geladen werden, weil eine der Hauptdaten (IHDR) beschädigt ' + + 'sein könnte.'; + EPNGMissingMultipleIDATText = 'Dieses "Portable Network Graphics" Image ' + + 'ist ungültig, weil Grafikdaten fehlen.'; + EPNGZLIBErrorText = 'Die Grafik konnte nicht entpackt werden, weil sie ' + + 'fehlerhafte komprimierte Daten enthält.'#13#10 + ' Beschreibung: '; + EPNGInvalidPaletteText = 'Das "Portable Network Graphics" Image enthält ' + + 'eine ungültige Palette.'; + EPNGInvalidFileHeaderText = 'Die Datei, die gelesen wird, ist kein ' + + 'gültiges "Portable Network Graphics" Image, da es keinen gültigen ' + + 'Header enthält. Die Datei könnte beschädigt sein, versuchen Sie, ' + + 'eine neue Kopie zu bekommen.'; + EPNGIHDRNotFirstText = 'Dieses "Portable Network Graphics" Image wird ' + + 'nicht unterstützt bzw. es könnte ungültig sein.'#13#10 + + '(Der IHDR-Chunk ist nicht der erste Chunk in der Datei).'; + EPNGNotExistsText = 'Die PNG Datei konnte nicht geladen werden, da sie ' + + 'nicht existiert.'; + EPNGSizeExceedsText = 'Dieses "Portable Network Graphics" Image wird nicht ' + + 'unterstützt, weil entweder seine Breite oder seine Höhe das Maximum von ' + + '65535 Pixeln überschreitet.'; + EPNGUnknownPalEntryText = 'Es gibt keinen solchen Palettenwert.'; + EPNGMissingPaletteText = 'Dieses "Portable Network Graphics" Image konnte ' + + 'nicht geladen werden, weil die benötigte Farbtabelle fehlt.'; + EPNGUnknownCriticalChunkText = 'Dieses "Portable Network Graphics" Image ' + + 'enhält einen unbekannten kritischen Teil, welcher nicht entschlüsselt ' + + 'werden kann.'; + EPNGUnknownCompressionText = 'Dieses "Portable Network Graphics" Image ' + + 'wurde mit einem unbekannten Komprimierungsalgorithmus kodiert, welcher ' + + 'nicht entschlüsselt werden kann.'; + EPNGUnknownInterlaceText = 'Dieses "Portable Network Graphics" Image ' + + 'benutzt ein unbekanntes Interlace-Schema, welcher nicht entschlüsselt ' + + 'werden kann.'; + EPNGCannotAssignChunkText = 'Die Chunks müssen kompatibel sein, um ' + + 'zugewiesen werden zu können.'; + EPNGUnexpectedEndText = 'Dieses "Portable Network Graphics" Image ist ' + + 'ungültig, der Dekoder stieß unerwarteterweise auf das Ende der Datei.'; + EPNGNoImageDataText = 'Dieses "Portable Network Graphics" Image enthält ' + + 'keine Daten.'; + EPNGCannotChangeSizeText = 'Das "Portable Network Graphics" Image kann ' + + 'nicht durch Ändern der Eigenschaften Width und Height in seinen ' + + 'Abmessungen geändert werden. Versuchen Sie das Image von einer Bitmap ' + + 'aus zuzuweisen.'; + EPNGCannotAddChunkText = 'Das Programm versucht einen existierenden ' + + 'kritischen Chunk zum aktuellen Image hinzuzufügen. Dies ist nicht ' + + 'zulässig.'; + EPNGCannotAddInvalidImageText = 'Es ist nicht zulässig, dem aktuellen ' + + 'Image einen neuen Chunk hinzuzufügen, da es ungültig ist.'; + EPNGCouldNotLoadResourceText = 'Das PNG Image konnte nicht von den ' + + 'Resourcendaten geladen werden.'; + EPNGOutMemoryText = 'Es stehen nicht genügend Resourcen im System zur ' + + 'Verfügung, um die Operation auszuführen. Schließen Sie einige Fenster '+ + 'und versuchen Sie es erneut.'; + EPNGCannotChangeTransparentText = 'Das Setzen der Bit-' + + 'Transparent-Farbe ist fuer PNG-Images die Alpha-Werte fuer jedes ' + + 'Pixel enthalten (COLOR_RGBALPHA und COLOR_GRAYSCALEALPHA) nicht ' + + 'zulaessig'; + EPNGHeaderNotPresentText = 'Die Datei, die gelesen wird, ist kein ' + + 'gültiges "Portable Network Graphics" Image, da es keinen gültigen ' + + 'Header enthält.'; + {$ENDIF} + {Language strings for French} + {$IFDEF French} + EPngInvalidCRCText = 'Cette image "Portable Network Graphics" n''est pas valide ' + + 'car elle contient des données invalides (erreur crc)'; + EPNGInvalidIHDRText = 'Cette image "Portable Network Graphics" n''a pu être ' + + 'chargée car l''une de ses principale donnée (ihdr) doit être corrompue'; + EPNGMissingMultipleIDATText = 'Cette image "Portable Network Graphics" est ' + + 'invalide car elle contient des parties d''image manquantes.'; + EPNGZLIBErrorText = 'Impossible de décompresser l''image car elle contient ' + + 'des données compressées invalides.'#13#10 + ' Description: '; + EPNGInvalidPaletteText = 'L''image "Portable Network Graphics" contient ' + + 'une palette invalide.'; + EPNGInvalidFileHeaderText = 'Le fichier actuellement lu est une image '+ + '"Portable Network Graphics" invalide car elle contient un en-tête invalide.' + + ' Ce fichier doit être corrompu, essayer de l''obtenir à nouveau.'; + EPNGIHDRNotFirstText = 'Cette image "Portable Network Graphics" n''est pas ' + + 'supportée ou doit être invalide.'#13#10 + '(la partie IHDR n''est pas la première)'; + EPNGNotExistsText = 'Le fichier png n''a pu être chargé car il n''éxiste pas.'; + EPNGSizeExceedsText = 'Cette image "Portable Network Graphics" n''est pas supportée ' + + 'car sa longueur ou sa largeur excède la taille maximale, qui est de 65535 pixels.'; + EPNGUnknownPalEntryText = 'Il n''y a aucune entrée pour cette palette.'; + EPNGMissingPaletteText = 'Cette image "Portable Network Graphics" n''a pu être ' + + 'chargée car elle utilise une table de couleur manquante.'; + EPNGUnknownCriticalChunkText = 'Cette image "Portable Network Graphics" ' + + 'contient une partie critique inconnue qui n'' pu être décodée.'; + EPNGUnknownCompressionText = 'Cette image "Portable Network Graphics" est ' + + 'encodée à l''aide d''un schémas de compression inconnu qui ne peut être décodé.'; + EPNGUnknownInterlaceText = 'Cette image "Portable Network Graphics" utilise ' + + 'un schémas d''entrelacement inconnu qui ne peut être décodé.'; + EPNGCannotAssignChunkText = 'Ce morceau doit être compatible pour être assigné.'; + EPNGUnexpectedEndText = 'Cette image "Portable Network Graphics" est invalide ' + + 'car le decodeur est arrivé à une fin de fichier non attendue.'; + EPNGNoImageDataText = 'Cette image "Portable Network Graphics" ne contient pas de ' + + 'données.'; + EPNGCannotChangeSizeText = 'Cette image "Portable Network Graphics" ne peut pas ' + + 'être retaillée en changeant ses propriétés width et height. Essayer d''assigner l''image depuis ' + + 'un bitmap.'; + EPNGCannotAddChunkText = 'Le programme a essayé d''ajouter un morceau critique existant ' + + 'à l''image actuelle, ce qui n''est pas autorisé.'; + EPNGCannotAddInvalidImageText = 'Il n''est pas permis d''ajouter un nouveau morceau ' + + 'car l''image actuelle est invalide.'; + EPNGCouldNotLoadResourceText = 'L''image png n''a pu être chargée depuis ' + + 'l''ID ressource.'; + EPNGOutMemoryText = 'Certaines opérations n''ont pu être effectuée car le ' + + 'système n''a plus de ressources. Fermez quelques fenêtres et essayez à nouveau.'; + EPNGCannotChangeTransparentText = 'Définir le bit de transparence n''est pas ' + + 'permis pour des images png qui contiennent une valeur alpha pour chaque pixel ' + + '(COLOR_RGBALPHA et COLOR_GRAYSCALEALPHA)'; + EPNGHeaderNotPresentText = 'Cette opération n''est pas valide car l''image ' + + 'actuelle ne contient pas de header valide.'; + EPNGAlphaNotSupportedText = 'Le type de couleur de l''image "Portable Network Graphics" actuelle ' + + 'contient déjà des informations alpha ou il ne peut être converti.'; + {$ENDIF} + {Language strings for slovenian} + {$IFDEF Slovenian} + EPngInvalidCRCText = 'Ta "Portable Network Graphics" slika je neveljavna, ' + + 'ker vsebuje neveljavne dele podatkov (CRC napaka).'; + EPNGInvalidIHDRText = 'Slike "Portable Network Graphics" ni bilo možno ' + + 'naložiti, ker je eden od glavnih delov podatkov (IHDR) verjetno pokvarjen.'; + EPNGMissingMultipleIDATText = 'Ta "Portable Network Graphics" slika je ' + + 'naveljavna, ker manjkajo deli slike.'; + EPNGZLIBErrorText = 'Ne morem raztegniti slike, ker vsebuje ' + + 'neveljavne stisnjene podatke.'#13#10 + ' Opis: '; + EPNGInvalidPaletteText = 'Slika "Portable Network Graphics" vsebuje ' + + 'neveljavno barvno paleto.'; + EPNGInvalidFileHeaderText = 'Datoteka za branje ni veljavna '+ + '"Portable Network Graphics" slika, ker vsebuje neveljavno glavo.' + + ' Datoteka je verjetno pokvarjena, poskusite jo ponovno naložiti.'; + EPNGIHDRNotFirstText = 'Ta "Portable Network Graphics" slika ni ' + + 'podprta ali pa je neveljavna.'#13#10 + '(IHDR del datoteke ni prvi).'; + EPNGNotExistsText = 'Ne morem naložiti png datoteke, ker ta ne ' + + 'obstaja.'; + EPNGSizeExceedsText = 'Ta "Portable Network Graphics" slika ni ' + + 'podprta, ker ali njena širina ali višina presega najvecjo možno vrednost ' + + '65535 pik.'; + EPNGUnknownPalEntryText = 'Slika nima vnešene take barvne palete.'; + EPNGMissingPaletteText = 'Te "Portable Network Graphics" ne morem ' + + 'naložiti, ker uporablja manjkajoco barvno paleto.'; + EPNGUnknownCriticalChunkText = 'Ta "Portable Network Graphics" slika ' + + 'vsebuje neznan kriticni del podatkov, ki ga ne morem prebrati.'; + EPNGUnknownCompressionText = 'Ta "Portable Network Graphics" slika je ' + + 'kodirana z neznano kompresijsko shemo, ki je ne morem prebrati.'; + EPNGUnknownInterlaceText = 'Ta "Portable Network Graphics" slika uporablja ' + + 'neznano shemo za preliv, ki je ne morem prebrati.'; + EPNGCannotAssignChunkText = Košcki morajo biti med seboj kompatibilni za prireditev vrednosti.'; + EPNGUnexpectedEndText = 'Ta "Portable Network Graphics" slika je neveljavna, ' + + 'ker je bralnik prišel do nepricakovanega konca datoteke.'; + EPNGNoImageDataText = 'Ta "Portable Network Graphics" ne vsebuje nobenih ' + + 'podatkov.'; + EPNGCannotChangeSizeText = 'Te "Portable Network Graphics" sliki ne morem ' + + 'spremeniti velikosti s spremembo lastnosti višine in širine. Poskusite ' + + 'sliko prirediti v bitno sliko.'; + EPNGCannotAddChunkText = 'Program je poskusil dodati obstojeci kriticni ' + + 'kos podatkov k trenutni sliki, kar ni dovoljeno.'; + EPNGCannotAddInvalidImageText = 'Ni dovoljeno dodati nov kos podatkov, ' + + 'ker trenutna slika ni veljavna.'; + EPNGCouldNotLoadResourceText = 'Ne morem naložiti png slike iz ' + + 'skladišca.'; + EPNGOutMemoryText = 'Ne morem izvesti operacije, ker je ' + + 'sistem ostal brez resorjev. Zaprite nekaj oken in poskusite znova.'; + EPNGCannotChangeTransparentText = 'Ni dovoljeno nastaviti prosojnosti posamezne barve ' + + 'za png slike, ki vsebujejo alfa prosojno vrednost za vsako piko ' + + '(COLOR_RGBALPHA and COLOR_GRAYSCALEALPHA)'; + EPNGHeaderNotPresentText = 'Ta operacija ni veljavna, ker ' + + 'izbrana slika ne vsebuje veljavne glave.'; + {$ENDIF} + + +implementation + +end. diff --git a/Game/Code/lib/PngImage/pngzlib.dcu b/Game/Code/lib/PngImage/pngzlib.dcu new file mode 100644 index 00000000..a090ddae Binary files /dev/null and b/Game/Code/lib/PngImage/pngzlib.dcu differ diff --git a/Game/Code/lib/PngImage/pngzlib.pas b/Game/Code/lib/PngImage/pngzlib.pas new file mode 100644 index 00000000..12324f2c --- /dev/null +++ b/Game/Code/lib/PngImage/pngzlib.pas @@ -0,0 +1,169 @@ +{Portable Network Graphics Delphi ZLIB linking (16 May 2002) } + +{This unit links ZLIB to pngimage unit in order to implement } +{the library. It's now using the new ZLIB version, 1.1.4 } +{Note: The .obj files must be located in the subdirectory \obj} + +unit pngzlib; + +interface + +type + + TAlloc = function (AppData: Pointer; Items, Size: Integer): Pointer; + TFree = procedure (AppData, Block: Pointer); + + // Internal structure. Ignore. + TZStreamRec = packed record + next_in: PChar; // next input byte + avail_in: Integer; // number of bytes available at next_in + total_in: Integer; // total nb of input bytes read so far + + next_out: PChar; // next output byte should be put here + avail_out: Integer; // remaining free space at next_out + total_out: Integer; // total nb of bytes output so far + + msg: PChar; // last error message, NULL if no error + internal: Pointer; // not visible by applications + + zalloc: TAlloc; // used to allocate the internal state + zfree: TFree; // used to free the internal state + AppData: Pointer; // private data object passed to zalloc and zfree + + data_type: Integer; // best guess about the data type: ascii or binary + adler: Integer; // adler32 value of the uncompressed data + reserved: Integer; // reserved for future use + end; + +function inflateInit_(var strm: TZStreamRec; version: PChar; + recsize: Integer): Integer; forward; +function inflate(var strm: TZStreamRec; flush: Integer): Integer; forward; +function inflateEnd(var strm: TZStreamRec): Integer; forward; +function deflateInit_(var strm: TZStreamRec; level: Integer; version: PChar; + recsize: Integer): Integer; forward; +function deflate(var strm: TZStreamRec; flush: Integer): Integer; forward; +function deflateEnd(var strm: TZStreamRec): Integer; forward; + +const + zlib_version = '1.1.4'; + +function adler32(adler: Integer; buf: PChar; len: Integer): Integer; + + +const + Z_NO_FLUSH = 0; + Z_PARTIAL_FLUSH = 1; + Z_SYNC_FLUSH = 2; + Z_FULL_FLUSH = 3; + Z_FINISH = 4; + + Z_OK = 0; + Z_STREAM_END = 1; + Z_NEED_DICT = 2; + Z_ERRNO = (-1); + Z_STREAM_ERROR = (-2); + Z_DATA_ERROR = (-3); + Z_MEM_ERROR = (-4); + Z_BUF_ERROR = (-5); + Z_VERSION_ERROR = (-6); + + Z_NO_COMPRESSION = 0; + Z_BEST_SPEED = 1; + Z_BEST_COMPRESSION = 9; + Z_DEFAULT_COMPRESSION = (-1); + + Z_FILTERED = 1; + Z_HUFFMAN_ONLY = 2; + Z_DEFAULT_STRATEGY = 0; + + Z_BINARY = 0; + Z_ASCII = 1; + Z_UNKNOWN = 2; + + Z_DEFLATED = 8; + + _z_errmsg: array[0..9] of PChar = ( + 'need dictionary', // Z_NEED_DICT (2) + 'stream end', // Z_STREAM_END (1) + '', // Z_OK (0) + 'file error', // Z_ERRNO (-1) + 'stream error', // Z_STREAM_ERROR (-2) + 'data error', // Z_DATA_ERROR (-3) + 'insufficient memory', // Z_MEM_ERROR (-4) + 'buffer error', // Z_BUF_ERROR (-5) + 'incompatible version', // Z_VERSION_ERROR (-6) + '' + ); + +implementation + +{$L obj\deflate.obj} +{$L obj\trees.obj} +{$L obj\inflate.obj} +{$L obj\inftrees.obj} +{$L obj\adler32.obj} +{$L obj\infblock.obj} +{$L obj\infcodes.obj} +{$L obj\infutil.obj} +{$L obj\inffast.obj} + +procedure _tr_init; external; +procedure _tr_tally; external; +procedure _tr_flush_block; external; +procedure _tr_align; external; +procedure _tr_stored_block; external; +function adler32; external; +procedure inflate_blocks_new; external; +procedure inflate_blocks; external; +procedure inflate_blocks_reset; external; +procedure inflate_blocks_free; external; +procedure inflate_set_dictionary; external; +procedure inflate_trees_bits; external; +procedure inflate_trees_dynamic; external; +procedure inflate_trees_fixed; external; +procedure inflate_codes_new; external; +procedure inflate_codes; external; +procedure inflate_codes_free; external; +procedure _inflate_mask; external; +procedure inflate_flush; external; +procedure inflate_fast; external; + +procedure _memset(P: Pointer; B: Byte; count: Integer);cdecl; +begin + FillChar(P^, count, B); +end; + +procedure _memcpy(dest, source: Pointer; count: Integer);cdecl; +begin + Move(source^, dest^, count); +end; + + +// deflate compresses data +function deflateInit_(var strm: TZStreamRec; level: Integer; version: PChar; + recsize: Integer): Integer; external; +function deflate(var strm: TZStreamRec; flush: Integer): Integer; external; +function deflateEnd(var strm: TZStreamRec): Integer; external; + +// inflate decompresses data +function inflateInit_(var strm: TZStreamRec; version: PChar; + recsize: Integer): Integer; external; +function inflate(var strm: TZStreamRec; flush: Integer): Integer; external; +function inflateEnd(var strm: TZStreamRec): Integer; external; +function inflateReset(var strm: TZStreamRec): Integer; external; + + +function zcalloc(AppData: Pointer; Items, Size: Integer): Pointer; +begin + GetMem(Result, Items*Size); +end; + +procedure zcfree(AppData, Block: Pointer); +begin + FreeMem(Block); +end; + +end. + + + -- cgit v1.2.3 From f0bf8c49eadf2656bf91a4b24a6ce5106b887b0a Mon Sep 17 00:00:00 2001 From: jaybinks Date: Thu, 13 Sep 2007 09:39:24 +0000 Subject: removed unneeded DCU files from svn. fixed borked PNGImage in the project file Sorry guys :P git-svn-id: svn://svn.code.sf.net/p/ultrastardx/svn/trunk@386 b956fd51-792f-4845-bead-9b4dfca2ff2c --- Game/Code/lib/PngImage/Tpngimage.dcu | Bin 1140 -> 0 bytes Game/Code/lib/PngImage/pngimage.dcu | Bin 91395 -> 0 bytes Game/Code/lib/PngImage/pnglang.dcu | Bin 4226 -> 0 bytes Game/Code/lib/PngImage/pngzlib.dcu | Bin 37565 -> 0 bytes 4 files changed, 0 insertions(+), 0 deletions(-) delete mode 100644 Game/Code/lib/PngImage/Tpngimage.dcu delete mode 100644 Game/Code/lib/PngImage/pngimage.dcu delete mode 100644 Game/Code/lib/PngImage/pnglang.dcu delete mode 100644 Game/Code/lib/PngImage/pngzlib.dcu (limited to 'Game/Code/lib/PngImage') diff --git a/Game/Code/lib/PngImage/Tpngimage.dcu b/Game/Code/lib/PngImage/Tpngimage.dcu deleted file mode 100644 index 8cbbd152..00000000 Binary files a/Game/Code/lib/PngImage/Tpngimage.dcu and /dev/null differ diff --git a/Game/Code/lib/PngImage/pngimage.dcu b/Game/Code/lib/PngImage/pngimage.dcu deleted file mode 100644 index 633a7430..00000000 Binary files a/Game/Code/lib/PngImage/pngimage.dcu and /dev/null differ diff --git a/Game/Code/lib/PngImage/pnglang.dcu b/Game/Code/lib/PngImage/pnglang.dcu deleted file mode 100644 index 70b1587f..00000000 Binary files a/Game/Code/lib/PngImage/pnglang.dcu and /dev/null differ diff --git a/Game/Code/lib/PngImage/pngzlib.dcu b/Game/Code/lib/PngImage/pngzlib.dcu deleted file mode 100644 index a090ddae..00000000 Binary files a/Game/Code/lib/PngImage/pngzlib.dcu and /dev/null differ -- cgit v1.2.3 From 12a7652fe6cf20441dec4aae8156978bf751861f Mon Sep 17 00:00:00 2001 From: jaybinks Date: Tue, 18 Sep 2007 10:47:12 +0000 Subject: pngimage is NOT ( yet ) lazarus compatible It might compile, however the object files are in borland obj format to use this, it will need to be in GCC object file format format Or we can use the lazarus / freepascal png unit if we decide that pngimage IS required ( and we cant use the lazarus unit ) then we should investigate how this developer went with the port. http://www.lazarus.freepascal.org/index.php?name=PNphpBB2&file=viewtopic&t=3206 git-svn-id: svn://svn.code.sf.net/p/ultrastardx/svn/trunk@388 b956fd51-792f-4845-bead-9b4dfca2ff2c --- Game/Code/lib/PngImage/lazarustest.lpi | 239 +++++++++++++++++++++++++++++++++ Game/Code/lib/PngImage/lazarustest.lpr | 15 +++ Game/Code/lib/PngImage/pngimage.pas | 58 ++++---- Game/Code/lib/PngImage/pngzlib.pas | 41 +++--- 4 files changed, 309 insertions(+), 44 deletions(-) create mode 100644 Game/Code/lib/PngImage/lazarustest.lpi create mode 100644 Game/Code/lib/PngImage/lazarustest.lpr (limited to 'Game/Code/lib/PngImage') diff --git a/Game/Code/lib/PngImage/lazarustest.lpi b/Game/Code/lib/PngImage/lazarustest.lpi new file mode 100644 index 00000000..4dec8a9e --- /dev/null +++ b/Game/Code/lib/PngImage/lazarustest.lpi @@ -0,0 +1,239 @@ + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + diff --git a/Game/Code/lib/PngImage/lazarustest.lpr b/Game/Code/lib/PngImage/lazarustest.lpr new file mode 100644 index 00000000..f567b6cb --- /dev/null +++ b/Game/Code/lib/PngImage/lazarustest.lpr @@ -0,0 +1,15 @@ +program lazarustest; + +uses + pngimage in 'pngimage.pas', + pnglang in 'pnglang.pas', + pngzlib in 'pngzlib.pas', + sysutils; + +begin + writeln( 'pngimage is NOT lazarus compatible' ); + writeln( 'It might compile ( not link though ), however the object files are in borland obj format' ); + writeln( 'to use this, it will need to be in GCC object file format format' ); + writeln( 'Or we can use the lazarus / freepascal png unit' ); +end. + diff --git a/Game/Code/lib/PngImage/pngimage.pas b/Game/Code/lib/PngImage/pngimage.pas index ec712737..ecd52c5b 100644 --- a/Game/Code/lib/PngImage/pngimage.pas +++ b/Game/Code/lib/PngImage/pngimage.pas @@ -109,8 +109,15 @@ unit pngimage; interface +{$IFDEF FPC} + {$MODE DELPHI} +{$ENDIF} + {Triggers avaliable (edit the fields bellow)} +{$IFNDef FPC} {$DEFINE UseDelphi} //Disable fat vcl units (perfect to small apps) +{$ENDIF} + {$DEFINE ErrorOnUnknownCritical} //Error when finds an unknown critical chunk {$DEFINE CheckCRC} //Enables CRC checking {$DEFINE RegisterGraphic} //Registers TPNGObject to use with TPicture @@ -122,8 +129,17 @@ interface uses - Windows {$IFDEF UseDelphi}, Classes, Graphics, SysUtils{$ENDIF} {$IFDEF Debug}, - dialogs{$ENDIF}, pngzlib, pnglang; + Windows, + {$IFDEF UseDelphi} + Classes, + Graphics, + SysUtils, + {$ENDIF} + {$IFDEF Debug} + dialogs, + {$ENDIF} + pngzlib, + pnglang; {$IFNDEF UseDelphi} const @@ -1249,8 +1265,7 @@ begin if Output = nil then GetMem(Output, OutputSize) else ReallocMem(Output, OutputSize); {Copies the new data} - CopyMemory(Ptr(Longint(Output) + OutputSize - total_out), - @Buffer, total_out); + CopyMemory(pointer(Longint(Output) + OutputSize - total_out), @Buffer, total_out); end {if (InflateRet = Z_STREAM_END) or (InflateRet = 0)} {Now tests for errors} else if InflateRet < 0 then @@ -1309,8 +1324,7 @@ begin GetMem(Output, OutputSize) else ReallocMem(Output, OutputSize); {Copies the new data} - CopyMemory(Ptr(Longint(Output) + OutputSize - total_out), - @Buffer, total_out); + CopyMemory(Pointer(Longint(Output) + OutputSize - total_out), @Buffer, total_out); end {if (InflateRet = Z_STREAM_END) or (InflateRet = 0)} {Now tests for errors} else if DeflateRet < 0 then @@ -1676,7 +1690,7 @@ function TStream.GetSize: Longint; function TResourceStream.Read(var Buffer; Count: Integer): Cardinal; begin //Returns data - CopyMemory(@Buffer, Ptr(Longint(Memory) + Position), Count); + CopyMemory(@Buffer, pointer(Longint(Memory) + Position), Count); //Update position inc(Position, Count); //Returns @@ -1938,9 +1952,9 @@ begin if Keyword <> '' then CopyMemory(Data, @fKeyword[1], Length(Keyword)); {Compression method 0 (inflate/deflate)} - pByte(Ptr(Longint(Data) + Length(Keyword) + 1))^ := 0; + pByte(pointer(Longint(Data) + Length(Keyword) + 1))^ := 0; if OutputSize > 0 then - CopyMemory(Ptr(Longint(Data) + Length(Keyword) + 2), Output, OutputSize); + CopyMemory(pointer(Longint(Data) + Length(Keyword) + 2), Output, OutputSize); {Let ancestor calculate crc and save} Result := SaveData(Stream); @@ -1969,8 +1983,7 @@ begin {Get text} fKeyword := PChar(Data); SetLength(fText, Size - Length(fKeyword) - 1); - CopyMemory(@fText[1], Ptr(Longint(Data) + Length(fKeyword) + 1), - Length(fText)); + CopyMemory(@fText[1], pointer(Longint(Data) + Length(fKeyword) + 1), Length(fText)); end; {Saving the chunk to a stream} @@ -1984,8 +1997,7 @@ begin if Keyword <> '' then CopyMemory(Data, @fKeyword[1], Length(Keyword)); if Text <> '' then - CopyMemory(Ptr(Longint(Data) + Length(Keyword) + 1), @fText[1], - Length(Text)); + CopyMemory(pointer(Longint(Data) + Length(Keyword) + 1), @fText[1], Length(Text)); {Let ancestor calculate crc and save} Result := inherited SaveToStream(Stream); end; @@ -2819,12 +2831,10 @@ begin {Get current row index} CurrentRow := RowStart[CurrentPass]; {Get a pointer to the current row image data} - Data := Ptr(Longint(Header.ImageData) + Header.BytesPerRow * - (ImageHeight - 1 - CurrentRow)); - Trans := Ptr(Longint(Header.ImageAlpha) + ImageWidth * CurrentRow); + Data := pointer(Longint(Header.ImageData) + Header.BytesPerRow * (ImageHeight - 1 - CurrentRow)); + Trans := pointer(Longint(Header.ImageAlpha) + ImageWidth * CurrentRow); {$IFDEF Store16bits} - Extra := Ptr(Longint(Header.ExtraImageData) + Header.BytesPerRow * - (ImageHeight - 1 - CurrentRow)); + Extra := pointer(Longint(Header.ExtraImageData) + Header.BytesPerRow * (ImageHeight - 1 - CurrentRow)); {$ENDIF} if Row_Bytes > 0 then {There must have bytes for this interlaced pass} @@ -3808,9 +3818,8 @@ begin {Get current row index} CurrentRow := RowStart[CurrentPass]; {Get a pointer to the current row image data} - Data := Ptr(Longint(Header.ImageData) + Header.BytesPerRow * - (ImageHeight - 1 - CurrentRow)); - Trans := Ptr(Longint(Header.ImageAlpha) + ImageWidth * CurrentRow); + Data := pointer(Longint(Header.ImageData) + Header.BytesPerRow * (ImageHeight - 1 - CurrentRow)); + Trans := pointer(Longint(Header.ImageAlpha) + ImageWidth * CurrentRow); {Process all the image rows} if Row_Bytes > 0 then @@ -4021,9 +4030,9 @@ begin FOR j := 0 TO fCount - 1 DO with BitmapInfo.bmiColors[j] do begin - DataPtr^ := Owner.InverseGamma[rgbRed]; inc(DataPtr); + DataPtr^ := Owner.InverseGamma[rgbRed] ; inc(DataPtr); DataPtr^ := Owner.InverseGamma[rgbGreen]; inc(DataPtr); - DataPtr^ := Owner.InverseGamma[rgbBlue]; inc(DataPtr); + DataPtr^ := Owner.InverseGamma[rgbBlue] ; inc(DataPtr); end {with BitmapInfo}; {Let ancestor do the rest of the work} @@ -5100,8 +5109,7 @@ begin (X mod (8 div DataDepth)) * DataDepth)); {Setting the new pixel} - ByteData^ := ByteData^ or (ValEntry shl ((8 - DataDepth) - - (X mod (8 div DataDepth)) * DataDepth)); + ByteData^ := ByteData^ or (ValEntry shl ((8 - DataDepth) - (X mod (8 div DataDepth)) * DataDepth)); end {with png.Header} end; diff --git a/Game/Code/lib/PngImage/pngzlib.pas b/Game/Code/lib/PngImage/pngzlib.pas index 12324f2c..3155946a 100644 --- a/Game/Code/lib/PngImage/pngzlib.pas +++ b/Game/Code/lib/PngImage/pngzlib.pas @@ -6,6 +6,10 @@ unit pngzlib; +{$IFDEF FPC} + {$MODE DELPHI} +{$ENDIF} + interface type @@ -35,14 +39,12 @@ type reserved: Integer; // reserved for future use end; -function inflateInit_(var strm: TZStreamRec; version: PChar; - recsize: Integer): Integer; forward; -function inflate(var strm: TZStreamRec; flush: Integer): Integer; forward; -function inflateEnd(var strm: TZStreamRec): Integer; forward; -function deflateInit_(var strm: TZStreamRec; level: Integer; version: PChar; - recsize: Integer): Integer; forward; -function deflate(var strm: TZStreamRec; flush: Integer): Integer; forward; -function deflateEnd(var strm: TZStreamRec): Integer; forward; +function inflateInit_(var strm: TZStreamRec; version: PChar; recsize: Integer): Integer; // forward; +function inflate(var strm: TZStreamRec; flush: Integer): Integer; //forward; +function inflateEnd(var strm: TZStreamRec): Integer; //forward; +function deflateInit_(var strm: TZStreamRec; level: Integer; version: PChar; recsize: Integer): Integer; //forward; +function deflate(var strm: TZStreamRec; flush: Integer): Integer; //forward; +function deflateEnd(var strm: TZStreamRec): Integer; //forward; const zlib_version = '1.1.4'; @@ -97,15 +99,17 @@ const implementation -{$L obj\deflate.obj} -{$L obj\trees.obj} -{$L obj\inflate.obj} -{$L obj\inftrees.obj} -{$L obj\adler32.obj} -{$L obj\infblock.obj} -{$L obj\infcodes.obj} -{$L obj\infutil.obj} -{$L obj\inffast.obj} +{$IFNDef FPC} + {$L obj\deflate.obj} + {$L obj\trees.obj} + {$L obj\inflate.obj} + {$L obj\inftrees.obj} + {$L obj\adler32.obj} + {$L obj\infblock.obj} + {$L obj\infcodes.obj} + {$L obj\infutil.obj} + {$L obj\inffast.obj} +{$ENDIF} procedure _tr_init; external; procedure _tr_tally; external; @@ -146,8 +150,7 @@ function deflate(var strm: TZStreamRec; flush: Integer): Integer; external; function deflateEnd(var strm: TZStreamRec): Integer; external; // inflate decompresses data -function inflateInit_(var strm: TZStreamRec; version: PChar; - recsize: Integer): Integer; external; +function inflateInit_(var strm: TZStreamRec; version: PChar; recsize: Integer): Integer; external; function inflate(var strm: TZStreamRec; flush: Integer): Integer; external; function inflateEnd(var strm: TZStreamRec): Integer; external; function inflateReset(var strm: TZStreamRec): Integer; external; -- cgit v1.2.3