3430 lines
116 KiB
Plaintext
3430 lines
116 KiB
Plaintext
{
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$Id: Imaging.pas 124 2008-04-21 09:47:07Z galfar $
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Vampyre Imaging Library
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by Marek Mauder
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http://imaginglib.sourceforge.net
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The contents of this file are used with permission, subject to the Mozilla
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Public License Version 1.1 (the "License"); you may not use this file except
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in compliance with the License. You may obtain a copy of the License at
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http://www.mozilla.org/MPL/MPL-1.1.html
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Software distributed under the License is distributed on an "AS IS" basis,
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WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License for
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the specific language governing rights and limitations under the License.
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Alternatively, the contents of this file may be used under the terms of the
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GNU Lesser General Public License (the "LGPL License"), in which case the
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provisions of the LGPL License are applicable instead of those above.
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If you wish to allow use of your version of this file only under the terms
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of the LGPL License and not to allow others to use your version of this file
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under the MPL, indicate your decision by deleting the provisions above and
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replace them with the notice and other provisions required by the LGPL
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License. If you do not delete the provisions above, a recipient may use
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your version of this file under either the MPL or the LGPL License.
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For more information about the LGPL: http://www.gnu.org/copyleft/lesser.html
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}
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{ This unit is heart of Imaging library. It contains basic functions for
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manipulating image data as well as various image file format support.}
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unit Imaging;
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{$I ImagingOptions.inc}
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interface
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uses
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ImagingTypes, SysUtils, Classes;
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type
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{ Default Imaging excepton class.}
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EImagingError = class(Exception);
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{ Dynamic array of TImageData records.}
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TDynImageDataArray = array of TImageData;
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{ ------------------------------------------------------------------------
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Low Level Interface Functions
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------------------------------------------------------------------------}
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{ General Functions }
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{ Initializes image (all is set to zeroes). Call this for each image
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before using it (before calling every other function) to be sure there
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are no random-filled bytes (which would cause errors later).}
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procedure InitImage(var Image: TImageData);
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{ Creates empty image of given dimensions and format. Image is filled with
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transparent black color (A=0, R=0, G=0, B=0).}
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function NewImage(Width, Height: LongInt; Format: TImageFormat;
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var Image: TImageData): Boolean;
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{ Returns True if given TImageData record is valid.}
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function TestImage(const Image: TImageData): Boolean;
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{ Frees given image data. Ater this call image is in the same state
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as after calling InitImage. If image is not valid (dost not pass TestImage
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test) it is only zeroed by calling InitImage.}
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procedure FreeImage(var Image: TImageData);
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{ Call FreeImage() on all images in given dynamic array and sets its
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length to zero.}
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procedure FreeImagesInArray(var Images: TDynImageDataArray);
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{ Returns True if all TImageData records in given array are valid. Returns False
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if at least one is invalid or if array is empty.}
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function TestImagesInArray(const Images: TDynImageDataArray): Boolean;
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{ Checks given file for every supported image file format and if
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the file is in one of them returns its string identifier
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(which can be used in LoadFromStream/LoadFromMem type functions).
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If file is not in any of the supported formats empty string is returned.}
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function DetermineFileFormat(const FileName: string): string;
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{ Checks given stream for every supported image file format and if
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the stream is in one of them returns its string identifier
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(which can be used in LoadFromStream/LoadFromMem type functions).
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If stream is not in any of the supported formats empty string is returned.}
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function DetermineStreamFormat(Stream: TStream): string;
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{ Checks given memory for every supported image file format and if
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the memory is in one of them returns its string identifier
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(which can be used in LoadFromStream/LoadFromMem type functions).
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If memory is not in any of the supported formats empty string is returned.}
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function DetermineMemoryFormat(Data: Pointer; Size: LongInt): string;
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{ Checks that an apropriate file format is supported purely from inspecting
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the given file name's extension (not contents of the file itself).
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The file need not exist.}
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function IsFileFormatSupported(const FileName: string): Boolean;
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{ Enumerates all registered image file formats. Descriptive name,
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default extension, masks (like '*.jpg,*.jfif') and some capabilities
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of each format are returned. To enumerate all formats start with Index at 0 and
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call EnumFileFormats with given Index in loop until it returns False (Index is
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automatically increased by 1 in function's body on successful call).}
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function EnumFileFormats(var Index: LongInt; var Name, DefaultExt, Masks: string;
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var CanSaveImages, IsMultiImageFormat: Boolean): Boolean;
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{ Loading Functions }
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{ Loads single image from given file.}
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function LoadImageFromFile(const FileName: string; var Image: TImageData): Boolean;
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{ Loads single image from given stream. If function fails stream position
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is not changed.}
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function LoadImageFromStream(Stream: TStream; var Image: TImageData): Boolean;
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{ Loads single image from given memory location.}
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function LoadImageFromMemory(Data: Pointer; Size: LongInt; var Image: TImageData): Boolean;
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{ Loads multiple images from given file.}
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function LoadMultiImageFromFile(const FileName: string;
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var Images: TDynImageDataArray): Boolean;
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{ Loads multiple images from given stream. If function fails stream position
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is not changed.}
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function LoadMultiImageFromStream(Stream: TStream;
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var Images: TDynImageDataArray): Boolean;
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{ Loads multiple images from given memory location.}
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function LoadMultiImageFromMemory(Data: Pointer; Size: LongInt;
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var Images: TDynImageDataArray): Boolean;
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{ Saving Functions }
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{ Saves single image to given file.}
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function SaveImageToFile(const FileName: string; const Image: TImageData): Boolean;
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{ Saves single image to given stream. If function fails stream position
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is not changed. Ext identifies desired image file format (jpg, png, dds, ...).}
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function SaveImageToStream(const Ext: string; Stream: TStream;
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const Image: TImageData): Boolean;
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{ Saves single image to given memory location. Memory must be allocated and its
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size is passed in Size parameter in which number of written bytes is returned.
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Ext identifies desired image file format (jpg, png, dds, ...).}
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function SaveImageToMemory(const Ext: string; Data: Pointer; var Size: LongInt;
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const Image: TImageData): Boolean;
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{ Saves multiple images to given file. If format supports
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only single level images and there are multiple images to be saved,
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they are saved as sequence of files img000.jpg, img001.jpg ....).}
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function SaveMultiImageToFile(const FileName: string;
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const Images: TDynImageDataArray): Boolean;
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{ Saves multiple images to given stream. If format supports
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only single level images and there are multiple images to be saved,
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they are saved one after another to the stream. If function fails stream
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position is not changed. Ext identifies desired image file format (jpg, png, dds, ...).}
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function SaveMultiImageToStream(const Ext: string; Stream: TStream;
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const Images: TDynImageDataArray): Boolean;
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{ Saves multiple images to given memory location. If format supports
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only single level images and there are multiple images to be saved,
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they are saved one after another to the memory. Memory must be allocated and
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its size is passed in Size parameter in which number of written bytes is returned.
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Ext identifies desired image file format (jpg, png, dds, ...).}
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function SaveMultiImageToMemory(const Ext: string; Data: Pointer;
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var Size: LongInt; const Images: TDynImageDataArray): Boolean;
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{ Manipulation Functions }
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{ Creates identical copy of image data. Clone should be initialized
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by InitImage or it should be vaild image which will be freed by CloneImage.}
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function CloneImage(const Image: TImageData; var Clone: TImageData): Boolean;
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{ Converts image to the given format.}
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function ConvertImage(var Image: TImageData; DestFormat: TImageFormat): Boolean;
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{ Flips given image. Reverses the image along its horizontal axis <20> the top
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becomes the bottom and vice versa.}
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function FlipImage(var Image: TImageData): Boolean;
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{ Mirrors given image. Reverses the image along its vertical axis <20> the left
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side becomes the right and vice versa.}
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function MirrorImage(var Image: TImageData): Boolean;
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{ Resizes given image to new dimensions. Nearest, bilinear, or bicubic filtering
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can be used. Input Image must already be created - use NewImage to create new images.}
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function ResizeImage(var Image: TImageData; NewWidth, NewHeight: LongInt;
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Filter: TResizeFilter): Boolean;
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{ Swaps SrcChannel and DstChannel color or alpha channels of image.
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Use ChannelRed, ChannelBlue, ChannelGreen, ChannelAlpha constants to
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identify channels.}
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function SwapChannels(var Image: TImageData; SrcChannel, DstChannel: LongInt): Boolean;
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{ Reduces the number of colors of the Image. Currently MaxColors must be in
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range <2, 4096>. Color reduction works also for alpha channel. Note that for
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large images and big number of colors it can be very slow.
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Output format of the image is the same as input format.}
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function ReduceColors(var Image: TImageData; MaxColors: LongInt): Boolean;
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{ Generates mipmaps for image. Levels is the number of desired mipmaps levels
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with zero (or some invalid number) meaning all possible levels.}
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function GenerateMipMaps(const Image: TImageData; Levels: LongInt;
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var MipMaps: TDynImageDataArray): Boolean;
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{ Maps image to existing palette producing image in ifIndex8 format.
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Pal must be allocated to at least Entries * SizeOf(TColor32Rec) bytes.
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As resulting image is in 8bit indexed format Entries must be lower or
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equal to 256.}
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function MapImageToPalette(var Image: TImageData; Pal: PPalette32;
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Entries: LongInt): Boolean;
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{ Splits image into XChunks x YChunks subimages. Default size of each chunk is
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ChunkWidth x ChunkHeight. If PreserveSize si True chunks at the edges of
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the image are also ChunkWidth x ChunkHeight sized and empty space is filled
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with Fill pixels. After calling this function XChunks contains number of
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chunks along x axis and YChunks along y axis. To access chunk [X, Y] use this
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index: Chunks[Y * XChunks + X].}
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function SplitImage(var Image: TImageData; var Chunks: TDynImageDataArray;
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ChunkWidth, ChunkHeight: LongInt; var XChunks, YChunks: LongInt;
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PreserveSize: Boolean; Fill: Pointer): Boolean;
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{ Creates palette with MaxColors based on the colors of images in Images array.
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Use it when you want to convert several images to indexed format using
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single palette for all of them. If ConvertImages is True images in array
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are converted to indexed format using resulting palette. if it is False
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images are left intact and only resulting palatte is returned in Pal.
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Pal must be allocated to have at least MaxColors entries.}
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function MakePaletteForImages(var Images: TDynImageDataArray; Pal: PPalette32;
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MaxColors: LongInt; ConvertImages: Boolean): Boolean;
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{ Rotates image by 90, 180, 270, -90, -180, or -270 degrees counterclockwise.
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Only multiples of 90 degrees are allowed.}
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function RotateImage(var Image: TImageData; Angle: LongInt): Boolean;
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{ Drawing/Pixel functions }
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{ Copies rectangular part of SrcImage to DstImage. No blending is performed -
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alpha is simply copied to destination image. Operates also with
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negative X and Y coordinates.
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Note that copying is fastest for images in the same data format
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(and slowest for images in special formats).}
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function CopyRect(const SrcImage: TImageData; SrcX, SrcY, Width, Height: LongInt;
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var DstImage: TImageData; DstX, DstY: LongInt): Boolean;
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{ Fills given rectangle of image with given pixel fill data. Fill should point
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to the pixel in the same format as the given image is in.}
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function FillRect(var Image: TImageData; X, Y, Width, Height: LongInt; FillColor: Pointer): Boolean;
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{ Replaces pixels with OldPixel in the given rectangle by NewPixel.
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OldPixel and NewPixel should point to the pixels in the same format
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as the given image is in.}
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function ReplaceColor(var Image: TImageData; X, Y, Width, Height: LongInt;
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OldColor, NewColor: Pointer): Boolean;
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{ Stretches the contents of the source rectangle to the destination rectangle
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with optional resampling. No blending is performed - alpha is
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simply copied/resampled to destination image. Note that stretching is
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fastest for images in the same data format (and slowest for
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images in special formats).}
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function StretchRect(const SrcImage: TImageData; SrcX, SrcY, SrcWidth,
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SrcHeight: LongInt; var DstImage: TImageData; DstX, DstY, DstWidth,
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DstHeight: LongInt; Filter: TResizeFilter): Boolean;
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{ Copies pixel of Image at [X, Y] to memory pointed at by Pixel. Doesn't
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work with special formats.}
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procedure GetPixelDirect(const Image: TImageData; X, Y: LongInt; Pixel: Pointer);
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{ Copies pixel from memory pointed at by Pixel to Image at position [X, Y].
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Doesn't work with special formats.}
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procedure SetPixelDirect(const Image: TImageData; X, Y: LongInt; Pixel: Pointer);
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{ Function for getting pixel colors. Native pixel is read from Image and
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then translated to 32 bit ARGB. Works for all image formats (except special)
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so it is not very fast.}
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function GetPixel32(const Image: TImageData; X, Y: LongInt): TColor32Rec;
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{ Procedure for setting pixel colors. Input 32 bit ARGB color is translated to
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native format and then written to Image. Works for all image formats (except special)
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so it is not very fast.}
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procedure SetPixel32(const Image: TImageData; X, Y: LongInt; const Color: TColor32Rec);
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{ Function for getting pixel colors. Native pixel is read from Image and
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then translated to FP ARGB. Works for all image formats (except special)
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so it is not very fast.}
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function GetPixelFP(const Image: TImageData; X, Y: LongInt): TColorFPRec;
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{ Procedure for setting pixel colors. Input FP ARGB color is translated to
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native format and then written to Image. Works for all image formats (except special)
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so it is not very fast.}
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procedure SetPixelFP(const Image: TImageData; X, Y: LongInt; const Color: TColorFPRec);
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{ Palette Functions }
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{ Allocates new palette with Entries ARGB color entries.}
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procedure NewPalette(Entries: LongInt; var Pal: PPalette32);
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{ Frees given palette.}
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procedure FreePalette(var Pal: PPalette32);
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{ Copies Count palette entries from SrcPal starting at index SrcIdx to
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DstPal at index DstPal.}
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procedure CopyPalette(SrcPal, DstPal: PPalette32; SrcIdx, DstIdx, Count: LongInt);
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{ Returns index of color in palette or index of nearest color if exact match
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is not found. Pal must have at least Entries color entries.}
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function FindColor(Pal: PPalette32; Entries: LongInt; Color: TColor32): LongInt;
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{ Creates grayscale palette where each color channel has the same value.
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Pal must have at least Entries color entries.}
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procedure FillGrayscalePalette(Pal: PPalette32; Entries: LongInt);
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{ Creates palette with given bitcount for each channel.
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2^(RBits + GBits + BBits) should be equl to Entries. Examples:
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(3, 3, 2) will create palette with all possible colors of R3G3B2 format
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and (8, 0, 0) will create palette with 256 shades of red.
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Pal must be allocated to at least Entries * SizeOf(TColor32Rec) bytes.}
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procedure FillCustomPalette(Pal: PPalette32; Entries: LongInt; RBits, GBits,
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BBits: Byte; Alpha: Byte = $FF);
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{ Swaps SrcChannel and DstChannel color or alpha channels of palette.
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Use ChannelRed, ChannelBlue, ChannelGreen, ChannelAlpha constants to
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identify channels. Pal must be allocated to at least
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Entries * SizeOf(TColor32Rec) bytes.}
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procedure SwapChannelsOfPalette(Pal: PPalette32; Entries, SrcChannel,
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DstChannel: LongInt);
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{ Options Functions }
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{ Sets value of integer option specified by OptionId parameter.
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Option Ids are constans starting ImagingXXX.}
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function SetOption(OptionId, Value: LongInt): Boolean;
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{ Returns value of integer option specified by OptionId parameter. If OptionId is
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invalid, InvalidOption is returned. Option Ids are constans
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starting ImagingXXX.}
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function GetOption(OptionId: LongInt): LongInt;
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{ Pushes current values of all options on the stack. Returns True
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if successfull (max stack depth is 8 now). }
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function PushOptions: Boolean;
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{ Pops back values of all options from the top of the stack. Returns True
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if successfull (max stack depth is 8 now). }
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function PopOptions: Boolean;
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{ Image Format Functions }
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{ Returns short information about given image format.}
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function GetImageFormatInfo(Format: TImageFormat; var Info: TImageFormatInfo): Boolean;
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{ Returns size in bytes of Width x Height area of pixels. Works for all formats.}
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function GetPixelsSize(Format: TImageFormat; Width, Height: LongInt): LongInt;
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{ IO Functions }
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{ User can set his own file IO functions used when loading from/saving to
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files by this function.}
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procedure SetUserFileIO(OpenReadProc: TOpenReadProc; OpenWriteProc:
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TOpenWriteProc; CloseProc: TCloseProc; EofProc: TEofProc; SeekProc:
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TSeekProc; TellProc: TTellProc; ReadProc: TReadProc; WriteProc: TWriteProc);
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{ Sets file IO functions to Imaging default.}
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procedure ResetFileIO;
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{ ------------------------------------------------------------------------
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Other Imaging Stuff
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------------------------------------------------------------------------}
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type
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{ Set of TImageFormat enum.}
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TImageFormats = set of TImageFormat;
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{ Record containg set of IO functions internaly used by image loaders/savers.}
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TIOFunctions = record
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OpenRead: TOpenReadProc;
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OpenWrite: TOpenWriteProc;
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Close: TCloseProc;
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Eof: TEofProc;
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Seek: TSeekProc;
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Tell: TTellProc;
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Read: TReadProc;
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Write: TWriteProc;
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end;
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PIOFunctions = ^TIOFunctions;
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{ Base class for various image file format loaders/savers which
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descend from this class. If you want to add support for new image file
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format the best way is probably to look at TImageFileFormat descendants'
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implementations that are already part of Imaging.}
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{$TYPEINFO ON}
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TImageFileFormat = class(TObject)
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private
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FExtensions: TStringList;
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FMasks: TStringList;
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{ Does various checks and actions before LoadData method is called.}
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function PrepareLoad(Handle: TImagingHandle; var Images: TDynImageDataArray;
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OnlyFirstFrame: Boolean): Boolean;
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{ Processes some actions according to result of LoadData.}
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function PostLoadCheck(var Images: TDynImageDataArray; LoadResult: Boolean): Boolean;
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{ Helper function to be called in SaveData methods of descendants (ensures proper
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index and sets FFirstIdx and FLastIdx for multi-images).}
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function PrepareSave(Handle: TImagingHandle; const Images: TDynImageDataArray;
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var Index: LongInt): Boolean;
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protected
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FName: string;
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FCanLoad: Boolean;
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FCanSave: Boolean;
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FIsMultiImageFormat: Boolean;
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FSupportedFormats: TImageFormats;
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FFirstIdx, FLastIdx: LongInt;
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{ Defines filename masks for this image file format. AMasks should be
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in format '*.ext1,*.ext2,umajo.*'.}
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procedure AddMasks(const AMasks: string);
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function GetFormatInfo(Format: TImageFormat): TImageFormatInfo;
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{ Returns set of TImageData formats that can be saved in this file format
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without need for conversion.}
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function GetSupportedFormats: TImageFormats; virtual;
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{ Method which must be overrided in descendants if they' are be capable
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of loading images. Images are already freed and length is set to zero
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whenever this method gets called. Also Handle is assured to be valid
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and contains data that passed TestFormat method's check.}
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function LoadData(Handle: TImagingHandle; var Images: TDynImageDataArray;
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OnlyFirstFrame: Boolean): Boolean; virtual;
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{ Method which must be overrided in descendants if they are be capable
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of saving images. Images are checked to have length >0 and
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that they contain valid images. For single-image file formats
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Index contain valid index to Images array (to image which should be saved).
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Multi-image formats should use FFirstIdx and FLastIdx fields to
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to get all images that are to be saved.}
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function SaveData(Handle: TImagingHandle; const Images: TDynImageDataArray;
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Index: LongInt): Boolean; virtual;
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{ This method is called internaly by MakeCompatible when input image
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is in format not supported by this file format. Image is clone of
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MakeCompatible's input and Info is its extended format info.}
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procedure ConvertToSupported(var Image: TImageData;
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const Info: TImageFormatInfo); virtual;
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{ Returns True if given image is supported for saving by this file format.
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Most file formats don't need to override this method. It checks
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(in this base class) if Image's format is in SupportedFromats set.
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But you may override it if you want further checks
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(proper widht and height for example).}
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function IsSupported(const Image: TImageData): Boolean; virtual;
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public
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constructor Create; virtual;
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destructor Destroy; override;
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||
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{ Loads images from file source.}
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function LoadFromFile(const FileName: string; var Images: TDynImageDataArray;
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OnlyFirstLevel: Boolean = False): Boolean;
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{ Loads images from stream source.}
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function LoadFromStream(Stream: TStream; var Images: TDynImageDataArray;
|
||
OnlyFirstLevel: Boolean = False): Boolean;
|
||
{ Loads images from memory source.}
|
||
function LoadFromMemory(Data: Pointer; Size: LongInt;
|
||
var Images: TDynImageDataArray; OnlyFirstLevel: Boolean = False): Boolean;
|
||
|
||
{ Saves images to file. If format supports only single level images and
|
||
there are multiple images to be saved, they are saved as sequence of
|
||
independent images (for example SaveToFile saves sequence of
|
||
files img000.jpg, img001.jpg ....).}
|
||
function SaveToFile(const FileName: string; const Images: TDynImageDataArray;
|
||
OnlyFirstLevel: Boolean = False): Boolean;
|
||
{ Saves images to stream. If format supports only single level images and
|
||
there are multiple images to be saved, they are saved as sequence of
|
||
independent images.}
|
||
function SaveToStream(Stream: TStream; const Images: TDynImageDataArray;
|
||
OnlyFirstLevel: Boolean = False): Boolean;
|
||
{ Saves images to memory. If format supports only single level images and
|
||
there are multiple images to be saved, they are saved as sequence of
|
||
independent images. Data must be already allocated and their size passed
|
||
as Size parameter, number of written bytes is then returned in the same
|
||
parameter.}
|
||
function SaveToMemory(Data: Pointer; var Size: LongInt;
|
||
const Images: TDynImageDataArray; OnlyFirstLevel: Boolean = False): Boolean;
|
||
|
||
{ Makes Image compatible with this file format (that means it is in one
|
||
of data formats in Supported formats set). If input is already
|
||
in supported format then Compatible just use value from input
|
||
(Compatible := Image) so must not free it after you are done with it
|
||
(image bits pointer points to input image's bits).
|
||
If input is not in supported format then it is cloned to Compatible
|
||
and concerted to one of supported formats (which one dependeds on
|
||
this file format). If image is cloned MustBeFreed is set to True
|
||
to indicated that you must free Compatible after you are done with it.}
|
||
function MakeCompatible(const Image: TImageData; var Compatible: TImageData;
|
||
out MustBeFreed: Boolean): Boolean;
|
||
{ Returns True if data located in source identified by Handle
|
||
represent valid image in current format.}
|
||
function TestFormat(Handle: TImagingHandle): Boolean; virtual;
|
||
{ Resturns True if the given FileName matches filter for this file format.
|
||
For most formats it just checks filename extensions.
|
||
It uses filename masks in from Masks property so it can recognize
|
||
filenames like this 'umajoXXXumajo.j0j' if one of themasks is
|
||
'umajo*umajo.j?j'.}
|
||
function TestFileName(const FileName: string): Boolean;
|
||
{ Descendants use this method to check if their options (registered with
|
||
constant Ids for SetOption/GetOption interface or accessible as properties
|
||
of descendants) have valid values and make necessary changes.}
|
||
procedure CheckOptionsValidity; virtual;
|
||
|
||
{ Description of this format.}
|
||
property Name: string read FName;
|
||
{ Indicates whether images in this format can be loaded.}
|
||
property CanLoad: Boolean read FCanLoad;
|
||
{ Indicates whether images in this format can be saved.}
|
||
property CanSave: Boolean read FCanSave;
|
||
{ Indicates whether images in this format can contain multiple image levels.}
|
||
property IsMultiImageFormat: Boolean read FIsMultiImageFormat;
|
||
{ List of filename extensions for this format.}
|
||
property Extensions: TStringList read FExtensions;
|
||
{ List of filename mask that are used to associate filenames
|
||
with TImageFileFormat descendants. Typical mask looks like
|
||
'*.bmp' or 'texture.*' (supports file formats which use filename instead
|
||
of extension to identify image files).}
|
||
property Masks: TStringList read FMasks;
|
||
{ Set of TImageFormats supported by saving functions of this format. Images
|
||
can be saved only in one those formats.}
|
||
property SupportedFormats: TImageFormats read GetSupportedFormats;
|
||
end;
|
||
{$TYPEINFO OFF}
|
||
|
||
{ Class reference for TImageFileFormat class}
|
||
TImageFileFormatClass = class of TImageFileFormat;
|
||
|
||
{ Returns symbolic name of given format.}
|
||
function GetFormatName(Format: TImageFormat): string;
|
||
{ Returns string with information about given Image.}
|
||
function ImageToStr(const Image: TImageData): string;
|
||
{ Returns Imaging version string in format 'Major.Minor.Patch'.}
|
||
function GetVersionStr: string;
|
||
{ If Condition is True then TruePart is retured, otherwise FalsePart is returned.}
|
||
function IffFormat(Condition: Boolean; const TruePart, FalsePart: TImageFormat): TImageFormat;
|
||
{ Registers new image loader/saver so it can be used by LoadFrom/SaveTo
|
||
functions.}
|
||
procedure RegisterImageFileFormat(AClass: TImageFileFormatClass);
|
||
{ Registers new option so it can be used by SetOption and GetOption functions.
|
||
Returns True if registration was succesful - that is Id is valid and is
|
||
not already taken by another option.}
|
||
function RegisterOption(OptionId: LongInt; Variable: PLongInt): Boolean;
|
||
{ Returns image format loader/saver according to given extension
|
||
or nil if not found.}
|
||
function FindImageFileFormatByExt(const Ext: string): TImageFileFormat;
|
||
{ Returns image format loader/saver according to given filename
|
||
or nil if not found.}
|
||
function FindImageFileFormatByName(const FileName: string): TImageFileFormat;
|
||
{ Returns image format loader/saver based on its class
|
||
or nil if not found or not registered.}
|
||
function FindImageFileFormatByClass(AClass: TImageFileFormatClass): TImageFileFormat;
|
||
{ Returns number of registered image file format loaders/saver.}
|
||
function GetFileFormatCount: LongInt;
|
||
{ Returns image file format loader/saver at given index. Index must be
|
||
in range [0..GetFileFormatCount - 1] otherwise nil is returned.}
|
||
function GetFileFormatAtIndex(Index: LongInt): TImageFileFormat;
|
||
{ Returns filter string for usage with open and save picture dialogs
|
||
which contains all registered image file formats.
|
||
Set OpenFileFilter to True if you want filter for open dialog
|
||
and to False if you want save dialog filter (formats that cannot save to files
|
||
are not added then).
|
||
For open dialog filter for all known graphic files
|
||
(like All(*.jpg;*.png;....) is added too at the first index.}
|
||
function GetImageFileFormatsFilter(OpenFileFilter: Boolean): string;
|
||
{ Returns file extension (without dot) of image format selected
|
||
by given filter index. Used filter string is defined by GetImageFileFormatsFilter
|
||
function. This function can be used with save dialogs (with filters created
|
||
by GetImageFileFormatsFilter) to get the extension of file format selected
|
||
in dialog quickly. Index is in range 1..N (as FilterIndex property
|
||
of TOpenDialog/TSaveDialog)}
|
||
function GetFilterIndexExtension(Index: LongInt; OpenFileFilter: Boolean): string;
|
||
{ Returns filter index of image file format of file specified by FileName. Used filter
|
||
string is defined by GetImageFileFormatsFilter function.
|
||
Returned index is in range 1..N (as FilterIndex property of TOpenDialog/TSaveDialog)}
|
||
function GetFileNameFilterIndex(const FileName: string; OpenFileFilter: Boolean): LongInt;
|
||
{ Returns current IO functions.}
|
||
function GetIO: TIOFunctions;
|
||
{ Raises EImagingError with given message.}
|
||
procedure RaiseImaging(const Msg: string; const Args: array of const);
|
||
|
||
implementation
|
||
|
||
uses
|
||
{$IFDEF LINK_BITMAP}
|
||
ImagingBitmap,
|
||
{$ENDIF}
|
||
{$IFDEF LINK_JPEG}
|
||
ImagingJpeg,
|
||
{$ENDIF}
|
||
{$IF Defined(LINK_PNG) or Defined(LINK_MNG) or Defined(LINK_JNG)}
|
||
ImagingNetworkGraphics,
|
||
{$IFEND}
|
||
{$IFDEF LINK_GIF}
|
||
ImagingGif,
|
||
{$ENDIF}
|
||
{$IFDEF LINK_DDS}
|
||
ImagingDds,
|
||
{$ENDIF}
|
||
{$IFDEF LINK_TARGA}
|
||
ImagingTarga,
|
||
{$ENDIF}
|
||
{$IFDEF LINK_PNM}
|
||
ImagingPortableMaps,
|
||
{$ENDIF}
|
||
{$IFDEF LINK_EXTRAS}
|
||
ImagingExtras,
|
||
{$ENDIF}
|
||
ImagingFormats, ImagingUtility, ImagingIO;
|
||
|
||
resourcestring
|
||
SImagingTitle = 'Vampyre Imaging Library';
|
||
SExceptMsg = 'Exception Message';
|
||
SAllFilter = 'All Images';
|
||
SUnknownFormat = 'Unknown and unsupported format';
|
||
SErrorFreeImage = 'Error while freeing image. %s';
|
||
SErrorCloneImage = 'Error while cloning image. %s';
|
||
SErrorFlipImage = 'Error while flipping image. %s';
|
||
SErrorMirrorImage = 'Error while mirroring image. %s';
|
||
SErrorResizeImage = 'Error while resizing image. %s';
|
||
SErrorSwapImage = 'Error while swapping channels of image. %s';
|
||
SFileFormatCanNotLoad = 'Image Format "%s" does not support loading images.';
|
||
SFileFormatCanNotSave = 'Image Format "%s" does not support saving images.';
|
||
SErrorNewImage = 'Error while creating image data with params: Width=%d ' +
|
||
'Height=%d Format=%s.';
|
||
SErrorConvertImage = 'Error while converting image to format "%s". %s';
|
||
SImageInfo = 'Image @%p info: Width = %dpx, Height = %dpx, ' +
|
||
'Format = %s, Size = %.0n %s, Bits @%p, Palette @%p.';
|
||
SImageInfoInvalid = 'Access violation encountered when getting info on ' +
|
||
'image at address %p.';
|
||
SFileNotValid = 'File "%s" is not valid image in "%s" format.';
|
||
SStreamNotValid = 'Stream %p does not contain valid image in "%s" format.';
|
||
SMemoryNotValid = 'Memory %p (%d Bytes) does not contain valid image ' +
|
||
'in "%s" format.';
|
||
SErrorLoadingFile = 'Error while loading images from file "%s" (file format: %s).';
|
||
SErrorLoadingStream = 'Error while loading images from stream %p (file format: %s).';
|
||
SErrorLoadingMemory = 'Error while loading images from memory %p (%d Bytes) (file format: %s).';
|
||
SErrorSavingFile = 'Error while saving images to file "%s" (file format: %s).';
|
||
SErrorSavingStream = 'Error while saving images to stream %p (file format: %s).';
|
||
SErrorSavingMemory = 'Error while saving images to memory %p (%d Bytes) (file format: %s).';
|
||
SErrorFindColor = 'Error while finding color in palette @%p with %d entries.';
|
||
SErrorGrayscalePalette = 'Error while filling grayscale palette @%p with %d entries.';
|
||
SErrorCustomPalette = 'Error while filling custom palette @%p with %d entries.';
|
||
SErrorSwapPalette = 'Error while swapping channels of palette @%p with %d entries.';
|
||
SErrorReduceColors = 'Error while reducing number of colors of image to %d. %s';
|
||
SErrorGenerateMipMaps = 'Error while generating %d mipmap levels for image %s';
|
||
SImagesNotValid = 'One or more images are not valid.';
|
||
SErrorCopyRect = 'Error while copying rect from image %s to image %s.';
|
||
SErrorMapImage = 'Error while mapping image %s to palette.';
|
||
SErrorFillRect = 'Error while filling rectangle X:%d Y:%d W:%d H:%d in image %s';
|
||
SErrorSplitImage = 'Error while splitting image %s to %dx%d sized chunks.';
|
||
SErrorMakePaletteForImages = 'Error while making %d color palette for %d images.';
|
||
SErrorNewPalette = 'Error while creating new palette with %d entries';
|
||
SErrorFreePalette = 'Error while freeing palette @%p';
|
||
SErrorCopyPalette = 'Error while copying %d entries from palette @%p to @%p';
|
||
SErrorReplaceColor = 'Error while replacing colors in rectangle X:%d Y:%d W:%d H:%d of image %s';
|
||
SErrorRotateImage = 'Error while rotating image %s by %d degrees';
|
||
SErrorStretchRect = 'Error while stretching rect from image %s to image %s.';
|
||
|
||
const
|
||
// initial size of array with options information
|
||
InitialOptions = 256;
|
||
// max depth of the option stack
|
||
OptionStackDepth = 8;
|
||
// do not change the default format now, its too late
|
||
DefaultImageFormat: TImageFormat = ifA8R8G8B8;
|
||
|
||
type
|
||
TOptionArray = array of PLongInt;
|
||
TOptionValueArray = array of LongInt;
|
||
|
||
TOptionStack = class(TObject)
|
||
private
|
||
FStack: array[0..OptionStackDepth - 1] of TOptionValueArray;
|
||
FPosition: LongInt;
|
||
public
|
||
constructor Create;
|
||
destructor Destroy; override;
|
||
function Push: Boolean;
|
||
function Pop: Boolean;
|
||
end;
|
||
|
||
var
|
||
// currently set IO functions
|
||
IO: TIOFunctions;
|
||
// list with all registered TImageFileFormat classes
|
||
ImageFileFormats: TList = nil;
|
||
// array with registered options (pointers to their values)
|
||
Options: TOptionArray = nil;
|
||
// array containing addional infomation about every image format
|
||
ImageFormatInfos: TImageFormatInfoArray;
|
||
// stack used by PushOptions/PopOtions functions
|
||
OptionStack: TOptionStack = nil;
|
||
var
|
||
// variable for ImagingColorReduction option
|
||
ColorReductionMask: LongInt = $FF;
|
||
// variable for ImagingLoadOverrideFormat option
|
||
LoadOverrideFormat: TImageFormat = ifUnknown;
|
||
// variable for ImagingSaveOverrideFormat option
|
||
SaveOverrideFormat: TImageFormat = ifUnknown;
|
||
// variable for ImagingSaveOverrideFormat option
|
||
MipMapFilter: TSamplingFilter = sfLinear;
|
||
|
||
|
||
{ Internal unit functions }
|
||
|
||
{ Modifies option value to be in the allowed range. Works only
|
||
for options registered in this unit.}
|
||
function CheckOptionValue(OptionId, Value: LongInt): LongInt; forward;
|
||
{ Sets IO functions to file IO.}
|
||
procedure SetFileIO; forward;
|
||
{ Sets IO functions to stream IO.}
|
||
procedure SetStreamIO; forward;
|
||
{ Sets IO functions to memory IO.}
|
||
procedure SetMemoryIO; forward;
|
||
{ Inits image format infos array.}
|
||
procedure InitImageFormats; forward;
|
||
{ Freew image format infos array.}
|
||
procedure FreeImageFileFormats; forward;
|
||
{ Creates options array and stack.}
|
||
procedure InitOptions; forward;
|
||
{ Frees options array and stack.}
|
||
procedure FreeOptions; forward;
|
||
|
||
{$IFDEF USE_INLINE}
|
||
{ Those inline functions are copied here from ImagingFormats
|
||
because Delphi 9/10 cannot inline them if they are declared in
|
||
circularly dependent units.}
|
||
|
||
procedure CopyPixel(Src, Dest: Pointer; BytesPerPixel: LongInt); inline;
|
||
begin
|
||
case BytesPerPixel of
|
||
1: PByte(Dest)^ := PByte(Src)^;
|
||
2: PWord(Dest)^ := PWord(Src)^;
|
||
3: PColor24Rec(Dest)^ := PColor24Rec(Src)^;
|
||
4: PLongWord(Dest)^ := PLongWord(Src)^;
|
||
6: PColor48Rec(Dest)^ := PColor48Rec(Src)^;
|
||
8: PInt64(Dest)^ := PInt64(Src)^;
|
||
16: PColorFPRec(Dest)^ := PColorFPRec(Src)^;
|
||
end;
|
||
end;
|
||
|
||
function ComparePixels(PixelA, PixelB: Pointer; BytesPerPixel: LongInt): Boolean; inline;
|
||
begin
|
||
case BytesPerPixel of
|
||
1: Result := PByte(PixelA)^ = PByte(PixelB)^;
|
||
2: Result := PWord(PixelA)^ = PWord(PixelB)^;
|
||
3: Result := (PWord(PixelA)^ = PWord(PixelB)^) and
|
||
(PColor24Rec(PixelA).R = PColor24Rec(PixelB).R);
|
||
4: Result := PLongWord(PixelA)^ = PLongWord(PixelB)^;
|
||
6: Result := (PLongWord(PixelA)^ = PLongWord(PixelB)^) and
|
||
(PColor48Rec(PixelA).R = PColor48Rec(PixelB).R);
|
||
8: Result := PInt64(PixelA)^ = PInt64(PixelB)^;
|
||
16: Result := (PFloatHelper(PixelA).Data2 = PFloatHelper(PixelB).Data2) and
|
||
(PFloatHelper(PixelA).Data1 = PFloatHelper(PixelB).Data1);
|
||
else
|
||
Result := False;
|
||
end;
|
||
end;
|
||
{$ENDIF}
|
||
|
||
{ ------------------------------------------------------------------------
|
||
Low Level Interface Functions
|
||
------------------------------------------------------------------------}
|
||
|
||
{ General Functions }
|
||
|
||
procedure InitImage(var Image: TImageData);
|
||
begin
|
||
FillChar(Image, SizeOf(Image), 0);
|
||
end;
|
||
|
||
function NewImage(Width, Height: LongInt; Format: TImageFormat; var Image:
|
||
TImageData): Boolean;
|
||
var
|
||
FInfo: PImageFormatInfo;
|
||
begin
|
||
Assert((Width >= 0) and (Height >= 0));
|
||
Assert(IsImageFormatValid(Format));
|
||
Result := False;
|
||
FreeImage(Image);
|
||
try
|
||
Image.Width := Width;
|
||
Image.Height := Height;
|
||
// Select default data format if selected
|
||
if (Format = ifDefault) then
|
||
Image.Format := DefaultImageFormat
|
||
else
|
||
Image.Format := Format;
|
||
// Get extended format info
|
||
FInfo := ImageFormatInfos[Image.Format];
|
||
if FInfo = nil then
|
||
begin
|
||
InitImage(Image);
|
||
Exit;
|
||
end;
|
||
// Check image dimensions and calculate its size in bytes
|
||
FInfo.CheckDimensions(FInfo.Format, Image.Width, Image.Height);
|
||
Image.Size := FInfo.GetPixelsSize(FInfo.Format, Image.Width, Image.Height);
|
||
if Image.Size = 0 then
|
||
begin
|
||
InitImage(Image);
|
||
Exit;
|
||
end;
|
||
// Image bits are allocated and set to zeroes
|
||
GetMem(Image.Bits, Image.Size);
|
||
FillChar(Image.Bits^, Image.Size, 0);
|
||
// Palette is allocated and set to zeroes
|
||
if FInfo.PaletteEntries > 0 then
|
||
begin
|
||
GetMem(Image.Palette, FInfo.PaletteEntries * SizeOf(TColor32Rec));
|
||
FillChar(Image.Palette^, FInfo.PaletteEntries * SizeOf(TColor32Rec), 0);
|
||
end;
|
||
Result := TestImage(Image);
|
||
except
|
||
RaiseImaging(SErrorNewImage, [Width, Height, GetFormatName(Format)]);
|
||
end;
|
||
end;
|
||
|
||
function TestImage(const Image: TImageData): Boolean;
|
||
begin
|
||
try
|
||
Result := (LongInt(Image.Format) >= LongInt(Low(TImageFormat))) and
|
||
(LongInt(Image.Format) <= LongInt(High(TImageFormat))) and
|
||
(ImageFormatInfos[Image.Format] <> nil) and
|
||
(Assigned(ImageFormatInfos[Image.Format].GetPixelsSize) and
|
||
(ImageFormatInfos[Image.Format].GetPixelsSize(Image.Format,
|
||
Image.Width, Image.Height) = Image.Size));
|
||
except
|
||
// Possible int overflows or other errors
|
||
Result := False;
|
||
end;
|
||
end;
|
||
|
||
procedure FreeImage(var Image: TImageData);
|
||
begin
|
||
try
|
||
if TestImage(Image) then
|
||
begin
|
||
FreeMemNil(Image.Bits);
|
||
FreeMemNil(Image.Palette);
|
||
end;
|
||
InitImage(Image);
|
||
except
|
||
RaiseImaging(SErrorFreeImage, [ImageToStr(Image)]);
|
||
end;
|
||
end;
|
||
|
||
procedure FreeImagesInArray(var Images: TDynImageDataArray);
|
||
var
|
||
I: LongInt;
|
||
begin
|
||
if Length(Images) > 0 then
|
||
begin
|
||
for I := 0 to Length(Images) - 1 do
|
||
FreeImage(Images[I]);
|
||
SetLength(Images, 0);
|
||
end;
|
||
end;
|
||
|
||
function TestImagesInArray(const Images: TDynImageDataArray): Boolean;
|
||
var
|
||
I: LongInt;
|
||
begin
|
||
if Length(Images) > 0 then
|
||
begin
|
||
Result := True;
|
||
for I := 0 to Length(Images) - 1 do
|
||
begin
|
||
Result := Result and TestImage(Images[I]);
|
||
if not Result then
|
||
Break;
|
||
end;
|
||
end
|
||
else
|
||
Result := False;
|
||
end;
|
||
|
||
function DetermineFileFormat(const FileName: string): string;
|
||
var
|
||
I: LongInt;
|
||
Fmt: TImageFileFormat;
|
||
Handle: TImagingHandle;
|
||
begin
|
||
Assert(FileName <> '');
|
||
Result := '';
|
||
SetFileIO;
|
||
try
|
||
Handle := IO.OpenRead(PChar(FileName));
|
||
try
|
||
// First file format according to FileName and test if the data in
|
||
// file is really in that format
|
||
for I := 0 to ImageFileFormats.Count - 1 do
|
||
begin
|
||
Fmt := TImageFileFormat(ImageFileFormats[I]);
|
||
if Fmt.TestFileName(FileName) and Fmt.TestFormat(Handle) then
|
||
begin
|
||
Result := Fmt.Extensions[0];
|
||
Exit;
|
||
end;
|
||
end;
|
||
// No file format was found with filename search so try data-based search
|
||
for I := 0 to ImageFileFormats.Count - 1 do
|
||
begin
|
||
Fmt := TImageFileFormat(ImageFileFormats[I]);
|
||
if Fmt.TestFormat(Handle) then
|
||
begin
|
||
Result := Fmt.Extensions[0];
|
||
Exit;
|
||
end;
|
||
end;
|
||
finally
|
||
IO.Close(Handle);
|
||
end;
|
||
except
|
||
Result := '';
|
||
end;
|
||
end;
|
||
|
||
function DetermineStreamFormat(Stream: TStream): string;
|
||
var
|
||
I: LongInt;
|
||
Fmt: TImageFileFormat;
|
||
Handle: TImagingHandle;
|
||
begin
|
||
Assert(Stream <> nil);
|
||
Result := '';
|
||
SetStreamIO;
|
||
try
|
||
Handle := IO.OpenRead(Pointer(Stream));
|
||
try
|
||
for I := 0 to ImageFileFormats.Count - 1 do
|
||
begin
|
||
Fmt := TImageFileFormat(ImageFileFormats[I]);
|
||
if Fmt.TestFormat(Handle) then
|
||
begin
|
||
Result := Fmt.Extensions[0];
|
||
Exit;
|
||
end;
|
||
end;
|
||
finally
|
||
IO.Close(Handle);
|
||
end;
|
||
except
|
||
Result := '';
|
||
end;
|
||
end;
|
||
|
||
function DetermineMemoryFormat(Data: Pointer; Size: LongInt): string;
|
||
var
|
||
I: LongInt;
|
||
Fmt: TImageFileFormat;
|
||
Handle: TImagingHandle;
|
||
IORec: TMemoryIORec;
|
||
begin
|
||
Assert((Data <> nil) and (Size > 0));
|
||
Result := '';
|
||
SetMemoryIO;
|
||
IORec.Data := Data;
|
||
IORec.Position := 0;
|
||
IORec.Size := Size;
|
||
try
|
||
Handle := IO.OpenRead(@IORec);
|
||
try
|
||
for I := 0 to ImageFileFormats.Count - 1 do
|
||
begin
|
||
Fmt := TImageFileFormat(ImageFileFormats[I]);
|
||
if Fmt.TestFormat(Handle) then
|
||
begin
|
||
Result := Fmt.Extensions[0];
|
||
Exit;
|
||
end;
|
||
end;
|
||
finally
|
||
IO.Close(Handle);
|
||
end;
|
||
except
|
||
Result := '';
|
||
end;
|
||
end;
|
||
|
||
function IsFileFormatSupported(const FileName: string): Boolean;
|
||
begin
|
||
Result := FindImageFileFormatByName(FileName) <> nil;
|
||
end;
|
||
|
||
function EnumFileFormats(var Index: LongInt; var Name, DefaultExt, Masks: string;
|
||
var CanSaveImages, IsMultiImageFormat: Boolean): Boolean;
|
||
var
|
||
FileFmt: TImageFileFormat;
|
||
begin
|
||
FileFmt := GetFileFormatAtIndex(Index);
|
||
Result := FileFmt <> nil;
|
||
if Result then
|
||
begin
|
||
Name := FileFmt.Name;
|
||
DefaultExt := FileFmt.Extensions[0];
|
||
Masks := FileFmt.Masks.DelimitedText;
|
||
CanSaveImages := FileFmt.CanSave;
|
||
IsMultiImageFormat := FileFmt.IsMultiImageFormat;
|
||
Inc(Index);
|
||
end
|
||
else
|
||
begin
|
||
Name := '';
|
||
DefaultExt := '';
|
||
Masks := '';
|
||
CanSaveImages := False;
|
||
IsMultiImageFormat := False;
|
||
end;
|
||
end;
|
||
|
||
{ Loading Functions }
|
||
|
||
function LoadImageFromFile(const FileName: string; var Image: TImageData):
|
||
Boolean;
|
||
var
|
||
Format: TImageFileFormat;
|
||
IArray: TDynImageDataArray;
|
||
I: LongInt;
|
||
begin
|
||
Assert(FileName <> '');
|
||
Result := False;
|
||
Format := FindImageFileFormatByExt(DetermineFileFormat(FileName));
|
||
if Format <> nil then
|
||
begin
|
||
FreeImage(Image);
|
||
Result := Format.LoadFromFile(FileName, IArray, True);
|
||
if Result and (Length(IArray) > 0) then
|
||
begin
|
||
Image := IArray[0];
|
||
for I := 1 to Length(IArray) - 1 do
|
||
FreeImage(IArray[I]);
|
||
end
|
||
else
|
||
Result := False;
|
||
end;
|
||
end;
|
||
|
||
function LoadImageFromStream(Stream: TStream; var Image: TImageData): Boolean;
|
||
var
|
||
Format: TImageFileFormat;
|
||
IArray: TDynImageDataArray;
|
||
I: LongInt;
|
||
begin
|
||
Assert(Stream <> nil);
|
||
Result := False;
|
||
Format := FindImageFileFormatByExt(DetermineStreamFormat(Stream));
|
||
if Format <> nil then
|
||
begin
|
||
FreeImage(Image);
|
||
Result := Format.LoadFromStream(Stream, IArray, True);
|
||
if Result and (Length(IArray) > 0) then
|
||
begin
|
||
Image := IArray[0];
|
||
for I := 1 to Length(IArray) - 1 do
|
||
FreeImage(IArray[I]);
|
||
end
|
||
else
|
||
Result := False;
|
||
end;
|
||
end;
|
||
|
||
function LoadImageFromMemory(Data: Pointer; Size: LongInt; var Image: TImageData): Boolean;
|
||
var
|
||
Format: TImageFileFormat;
|
||
IArray: TDynImageDataArray;
|
||
I: LongInt;
|
||
begin
|
||
Assert((Data <> nil) and (Size > 0));
|
||
Result := False;
|
||
Format := FindImageFileFormatByExt(DetermineMemoryFormat(Data, Size));
|
||
if Format <> nil then
|
||
begin
|
||
FreeImage(Image);
|
||
Result := Format.LoadFromMemory(Data, Size, IArray, True);
|
||
if Result and (Length(IArray) > 0) then
|
||
begin
|
||
Image := IArray[0];
|
||
for I := 1 to Length(IArray) - 1 do
|
||
FreeImage(IArray[I]);
|
||
end
|
||
else
|
||
Result := False;
|
||
end;
|
||
end;
|
||
|
||
function LoadMultiImageFromFile(const FileName: string; var Images:
|
||
TDynImageDataArray): Boolean;
|
||
var
|
||
Format: TImageFileFormat;
|
||
begin
|
||
Assert(FileName <> '');
|
||
Result := False;
|
||
Format := FindImageFileFormatByExt(DetermineFileFormat(FileName));
|
||
if Format <> nil then
|
||
begin
|
||
FreeImagesInArray(Images);
|
||
Result := Format.LoadFromFile(FileName, Images);
|
||
end;
|
||
end;
|
||
|
||
function LoadMultiImageFromStream(Stream: TStream; var Images: TDynImageDataArray): Boolean;
|
||
var
|
||
Format: TImageFileFormat;
|
||
begin
|
||
Assert(Stream <> nil);
|
||
Result := False;
|
||
Format := FindImageFileFormatByExt(DetermineStreamFormat(Stream));
|
||
if Format <> nil then
|
||
begin
|
||
FreeImagesInArray(Images);
|
||
Result := Format.LoadFromStream(Stream, Images);
|
||
end;
|
||
end;
|
||
|
||
function LoadMultiImageFromMemory(Data: Pointer; Size: LongInt;
|
||
var Images: TDynImageDataArray): Boolean;
|
||
var
|
||
Format: TImageFileFormat;
|
||
begin
|
||
Assert((Data <> nil) and (Size > 0));
|
||
Result := False;
|
||
Format := FindImageFileFormatByExt(DetermineMemoryFormat(Data, Size));
|
||
if Format <> nil then
|
||
begin
|
||
FreeImagesInArray(Images);
|
||
Result := Format.LoadFromMemory(Data, Size, Images);
|
||
end;
|
||
end;
|
||
|
||
{ Saving Functions }
|
||
|
||
function SaveImageToFile(const FileName: string; const Image: TImageData): Boolean;
|
||
var
|
||
Format: TImageFileFormat;
|
||
IArray: TDynImageDataArray;
|
||
begin
|
||
Assert(FileName <> '');
|
||
Result := False;
|
||
Format := FindImageFileFormatByName(FileName);
|
||
if Format <> nil then
|
||
begin
|
||
SetLength(IArray, 1);
|
||
IArray[0] := Image;
|
||
Result := Format.SaveToFile(FileName, IArray, True);
|
||
end;
|
||
end;
|
||
|
||
function SaveImageToStream(const Ext: string; Stream: TStream;
|
||
const Image: TImageData): Boolean;
|
||
var
|
||
Format: TImageFileFormat;
|
||
IArray: TDynImageDataArray;
|
||
begin
|
||
Assert((Ext <> '') and (Stream <> nil));
|
||
Result := False;
|
||
Format := FindImageFileFormatByExt(Ext);
|
||
if Format <> nil then
|
||
begin
|
||
SetLength(IArray, 1);
|
||
IArray[0] := Image;
|
||
Result := Format.SaveToStream(Stream, IArray, True);
|
||
end;
|
||
end;
|
||
|
||
function SaveImageToMemory(const Ext: string; Data: Pointer; var Size: LongInt;
|
||
const Image: TImageData): Boolean;
|
||
var
|
||
Format: TImageFileFormat;
|
||
IArray: TDynImageDataArray;
|
||
begin
|
||
Assert((Ext <> '') and (Data <> nil) and (Size > 0));
|
||
Result := False;
|
||
Format := FindImageFileFormatByExt(Ext);
|
||
if Format <> nil then
|
||
begin
|
||
SetLength(IArray, 1);
|
||
IArray[0] := Image;
|
||
Result := Format.SaveToMemory(Data, Size, IArray, True);
|
||
end;
|
||
end;
|
||
|
||
function SaveMultiImageToFile(const FileName: string;
|
||
const Images: TDynImageDataArray): Boolean;
|
||
var
|
||
Format: TImageFileFormat;
|
||
begin
|
||
Assert(FileName <> '');
|
||
Result := False;
|
||
Format := FindImageFileFormatByName(FileName);
|
||
if Format <> nil then
|
||
Result := Format.SaveToFile(FileName, Images);
|
||
end;
|
||
|
||
function SaveMultiImageToStream(const Ext: string; Stream: TStream;
|
||
const Images: TDynImageDataArray): Boolean;
|
||
var
|
||
Format: TImageFileFormat;
|
||
begin
|
||
Assert((Ext <> '') and (Stream <> nil));
|
||
Result := False;
|
||
Format := FindImageFileFormatByExt(Ext);
|
||
if Format <> nil then
|
||
Result := Format.SaveToStream(Stream, Images);
|
||
end;
|
||
|
||
function SaveMultiImageToMemory(const Ext: string; Data: Pointer;
|
||
var Size: LongInt; const Images: TDynImageDataArray): Boolean;
|
||
var
|
||
Format: TImageFileFormat;
|
||
begin
|
||
Assert((Ext <> '') and (Data <> nil) and (Size > 0));
|
||
Result := False;
|
||
Format := FindImageFileFormatByExt(Ext);
|
||
if Format <> nil then
|
||
Result := Format.SaveToMemory(Data, Size, Images);
|
||
end;
|
||
|
||
{ Manipulation Functions }
|
||
|
||
function CloneImage(const Image: TImageData; var Clone: TImageData): Boolean;
|
||
var
|
||
Info: PImageFormatInfo;
|
||
begin
|
||
Result := False;
|
||
if TestImage(Image) then
|
||
try
|
||
if TestImage(Clone) and (Image.Bits <> Clone.Bits) then
|
||
FreeImage(Clone)
|
||
else
|
||
InitImage(Clone);
|
||
|
||
Info := ImageFormatInfos[Image.Format];
|
||
Clone.Width := Image.Width;
|
||
Clone.Height := Image.Height;
|
||
Clone.Format := Image.Format;
|
||
Clone.Size := Image.Size;
|
||
|
||
if Info.PaletteEntries > 0 then
|
||
begin
|
||
GetMem(Clone.Palette, Info.PaletteEntries * SizeOf(TColor32Rec));
|
||
Move(Image.Palette^, Clone.Palette^, Info.PaletteEntries *
|
||
SizeOf(TColor32Rec));
|
||
end;
|
||
|
||
GetMem(Clone.Bits, Clone.Size);
|
||
Move(Image.Bits^, Clone.Bits^, Clone.Size);
|
||
Result := True;
|
||
except
|
||
RaiseImaging(SErrorCloneImage, [ImageToStr(Image)]);
|
||
end;
|
||
end;
|
||
|
||
function ConvertImage(var Image: TImageData; DestFormat: TImageFormat): Boolean;
|
||
var
|
||
NewData: Pointer;
|
||
NewPal: PPalette32;
|
||
NewSize, NumPixels: LongInt;
|
||
SrcInfo, DstInfo: PImageFormatInfo;
|
||
begin
|
||
Assert(IsImageFormatValid(DestFormat));
|
||
Result := False;
|
||
if TestImage(Image) then
|
||
with Image do
|
||
try
|
||
// If default format is set we use DefaultImageFormat
|
||
if DestFormat = ifDefault then
|
||
DestFormat := DefaultImageFormat;
|
||
SrcInfo := ImageFormatInfos[Format];
|
||
DstInfo := ImageFormatInfos[DestFormat];
|
||
if SrcInfo = DstInfo then
|
||
begin
|
||
// There is nothing to convert - src is alredy in dest format
|
||
Result := True;
|
||
Exit;
|
||
end;
|
||
// Exit Src or Dest format is invalid
|
||
if (SrcInfo = nil) or (DstInfo = nil) then Exit;
|
||
// If dest format is just src with swapped channels we call
|
||
// SwapChannels instead
|
||
if (SrcInfo.RBSwapFormat = DestFormat) and
|
||
(DstInfo.RBSwapFormat = SrcInfo.Format) then
|
||
begin
|
||
Result := SwapChannels(Image, ChannelRed, ChannelBlue);
|
||
Image.Format := SrcInfo.RBSwapFormat;
|
||
Exit;
|
||
end;
|
||
|
||
if (not SrcInfo.IsSpecial) and (not DstInfo.IsSpecial) then
|
||
begin
|
||
NumPixels := Width * Height;
|
||
NewSize := NumPixels * DstInfo.BytesPerPixel;
|
||
GetMem(NewData, NewSize);
|
||
FillChar(NewData^, NewSize, 0);
|
||
GetMem(NewPal, DstInfo.PaletteEntries * SizeOf(TColor32Rec));
|
||
FillChar(NewPal^, DstInfo.PaletteEntries * SizeOf(TColor32Rec), 0);
|
||
|
||
if SrcInfo.IsIndexed then
|
||
begin
|
||
// Source: indexed format
|
||
if DstInfo.IsIndexed then
|
||
IndexToIndex(NumPixels, Bits, NewData, SrcInfo, DstInfo, Palette, NewPal)
|
||
else if DstInfo.HasGrayChannel then
|
||
IndexToGray(NumPixels, Bits, NewData, SrcInfo, DstInfo, Palette)
|
||
else if DstInfo.IsFloatingPoint then
|
||
IndexToFloat(NumPixels, Bits, NewData, SrcInfo, DstInfo, Palette)
|
||
else
|
||
IndexToChannel(NumPixels, Bits, NewData, SrcInfo, DstInfo, Palette);
|
||
end
|
||
else if SrcInfo.HasGrayChannel then
|
||
begin
|
||
// Source: grayscale format
|
||
if DstInfo.IsIndexed then
|
||
GrayToIndex(NumPixels, Bits, NewData, SrcInfo, DstInfo, NewPal)
|
||
else if DstInfo.HasGrayChannel then
|
||
GrayToGray(NumPixels, Bits, NewData, SrcInfo, DstInfo)
|
||
else if DstInfo.IsFloatingPoint then
|
||
GrayToFloat(NumPixels, Bits, NewData, SrcInfo, DstInfo)
|
||
else
|
||
GrayToChannel(NumPixels, Bits, NewData, SrcInfo, DstInfo);
|
||
end
|
||
else if SrcInfo.IsFloatingPoint then
|
||
begin
|
||
// Source: floating point format
|
||
if DstInfo.IsIndexed then
|
||
FloatToIndex(NumPixels, Bits, NewData, SrcInfo, DstInfo, NewPal)
|
||
else if DstInfo.HasGrayChannel then
|
||
FloatToGray(NumPixels, Bits, NewData, SrcInfo, DstInfo)
|
||
else if DstInfo.IsFloatingPoint then
|
||
FloatToFloat(NumPixels, Bits, NewData, SrcInfo, DstInfo)
|
||
else
|
||
FloatToChannel(NumPixels, Bits, NewData, SrcInfo, DstInfo);
|
||
end
|
||
else
|
||
begin
|
||
// Source: standard multi channel image
|
||
if DstInfo.IsIndexed then
|
||
ChannelToIndex(NumPixels, Bits, NewData, SrcInfo, DstInfo, NewPal)
|
||
else if DstInfo.HasGrayChannel then
|
||
ChannelToGray(NumPixels, Bits, NewData, SrcInfo, DstInfo)
|
||
else if DstInfo.IsFloatingPoint then
|
||
ChannelToFloat(NumPixels, Bits, NewData, SrcInfo, DstInfo)
|
||
else
|
||
ChannelToChannel(NumPixels, Bits, NewData, SrcInfo, DstInfo);
|
||
end;
|
||
|
||
FreeMemNil(Bits);
|
||
FreeMemNil(Palette);
|
||
Format := DestFormat;
|
||
Bits := NewData;
|
||
Size := NewSize;
|
||
Palette := NewPal;
|
||
end
|
||
else
|
||
ConvertSpecial(Image, SrcInfo, DstInfo);
|
||
|
||
Assert(SrcInfo.Format <> Image.Format);
|
||
|
||
Result := True;
|
||
except
|
||
RaiseImaging(SErrorConvertImage, [GetFormatName(DestFormat), ImageToStr(Image)]);
|
||
end;
|
||
end;
|
||
|
||
function FlipImage(var Image: TImageData): Boolean;
|
||
var
|
||
P1, P2, Buff: Pointer;
|
||
WidthBytes, I: LongInt;
|
||
OldFmt: TImageFormat;
|
||
begin
|
||
Result := False;
|
||
OldFmt := Image.Format;
|
||
if TestImage(Image) then
|
||
with Image do
|
||
try
|
||
if ImageFormatInfos[OldFmt].IsSpecial then
|
||
ConvertImage(Image, ifDefault);
|
||
|
||
WidthBytes := Width * ImageFormatInfos[Format].BytesPerPixel;
|
||
GetMem(Buff, WidthBytes);
|
||
try
|
||
// Swap all scanlines of image
|
||
for I := 0 to Height div 2 - 1 do
|
||
begin
|
||
P1 := @PByteArray(Bits)[I * WidthBytes];
|
||
P2 := @PByteArray(Bits)[(Height - I - 1) * WidthBytes];
|
||
Move(P1^, Buff^, WidthBytes);
|
||
Move(P2^, P1^, WidthBytes);
|
||
Move(Buff^, P2^, WidthBytes);
|
||
end;
|
||
finally
|
||
FreeMemNil(Buff);
|
||
end;
|
||
|
||
if OldFmt <> Format then
|
||
ConvertImage(Image, OldFmt);
|
||
|
||
Result := True;
|
||
except
|
||
RaiseImaging(SErrorFlipImage, [ImageToStr(Image)]);
|
||
end;
|
||
end;
|
||
|
||
function MirrorImage(var Image: TImageData): Boolean;
|
||
var
|
||
Scanline: PByte;
|
||
Buff: TColorFPRec;
|
||
Bpp, Y, X, WidthDiv2, WidthBytes, XLeft, XRight: LongInt;
|
||
OldFmt: TImageFormat;
|
||
begin
|
||
Result := False;
|
||
OldFmt := Image.Format;
|
||
if TestImage(Image) then
|
||
with Image do
|
||
try
|
||
if ImageFormatInfos[OldFmt].IsSpecial then
|
||
ConvertImage(Image, ifDefault);
|
||
|
||
Bpp := ImageFormatInfos[Format].BytesPerPixel;
|
||
WidthDiv2 := Width div 2;
|
||
WidthBytes := Width * Bpp;
|
||
// Mirror all pixels on each scanline of image
|
||
for Y := 0 to Height - 1 do
|
||
begin
|
||
Scanline := @PByteArray(Bits)[Y * WidthBytes];
|
||
XLeft := 0;
|
||
XRight := (Width - 1) * Bpp;
|
||
for X := 0 to WidthDiv2 - 1 do
|
||
begin
|
||
CopyPixel(@PByteArray(Scanline)[XLeft], @Buff, Bpp);
|
||
CopyPixel(@PByteArray(Scanline)[XRight],
|
||
@PByteArray(Scanline)[XLeft], Bpp);
|
||
CopyPixel(@Buff, @PByteArray(Scanline)[XRight], Bpp);
|
||
Inc(XLeft, Bpp);
|
||
Dec(XRight, Bpp);
|
||
end;
|
||
end;
|
||
|
||
if OldFmt <> Format then
|
||
ConvertImage(Image, OldFmt);
|
||
|
||
Result := True;
|
||
except
|
||
RaiseImaging(SErrorMirrorImage, [ImageToStr(Image)]);
|
||
end;
|
||
end;
|
||
|
||
function ResizeImage(var Image: TImageData; NewWidth, NewHeight: LongInt;
|
||
Filter: TResizeFilter): Boolean;
|
||
var
|
||
WorkImage: TImageData;
|
||
begin
|
||
Assert((NewWidth > 0) and (NewHeight > 0));
|
||
Result := False;
|
||
if TestImage(Image) and ((Image.Width <> NewWidth) or (Image.Height <> NewHeight)) then
|
||
try
|
||
InitImage(WorkImage);
|
||
// Create new image with desired dimensions
|
||
NewImage(NewWidth, NewHeight, Image.Format, WorkImage);
|
||
// Stretch pixels from old image to new one
|
||
StretchRect(Image, 0, 0, Image.Width, Image.Height,
|
||
WorkImage, 0, 0, WorkImage.Width, WorkImage.Height, Filter);
|
||
// Free old image and assign new image to it
|
||
FreeMemNil(Image.Bits);
|
||
if Image.Palette <> nil then
|
||
WorkImage.Palette := Image.Palette;
|
||
Image := WorkImage;
|
||
Result := True;
|
||
except
|
||
RaiseImaging(SErrorResizeImage, [ImageToStr(Image)]);
|
||
end;
|
||
end;
|
||
|
||
function SwapChannels(var Image: TImageData; SrcChannel, DstChannel: LongInt): Boolean;
|
||
var
|
||
I, NumPixels: LongInt;
|
||
Info: PImageFormatInfo;
|
||
Swap, Alpha: Word;
|
||
Data: PByte;
|
||
Pix64: TColor64Rec;
|
||
PixF: TColorFPRec;
|
||
SwapF: Single;
|
||
begin
|
||
Assert((SrcChannel in [0..3]) and (DstChannel in [0..3]));
|
||
Result := False;
|
||
if TestImage(Image) and (SrcChannel <> DstChannel) then
|
||
with Image do
|
||
try
|
||
NumPixels := Width * Height;
|
||
Info := ImageFormatInfos[Format];
|
||
Data := Bits;
|
||
|
||
if (Info.Format = ifR8G8B8) or ((Info.Format = ifA8R8G8B8) and
|
||
(SrcChannel <> ChannelAlpha) and (DstChannel <> ChannelAlpha)) then
|
||
begin
|
||
// Swap channels of most common formats R8G8B8 and A8R8G8B8 (no alpha)
|
||
for I := 0 to NumPixels - 1 do
|
||
with PColor24Rec(Data)^ do
|
||
begin
|
||
Swap := Channels[SrcChannel];
|
||
Channels[SrcChannel] := Channels[DstChannel];
|
||
Channels[DstChannel] := Swap;
|
||
Inc(Data, Info.BytesPerPixel);
|
||
end;
|
||
end
|
||
else if Info.IsIndexed then
|
||
begin
|
||
// Swap palette channels of indexed images
|
||
SwapChannelsOfPalette(Palette, Info.PaletteEntries, SrcChannel, DstChannel)
|
||
end
|
||
else if Info.IsFloatingPoint then
|
||
begin
|
||
// Swap channels of floating point images
|
||
for I := 0 to NumPixels - 1 do
|
||
begin
|
||
FloatGetSrcPixel(Data, Info, PixF);
|
||
with PixF do
|
||
begin
|
||
SwapF := Channels[SrcChannel];
|
||
Channels[SrcChannel] := Channels[DstChannel];
|
||
Channels[DstChannel] := SwapF;
|
||
end;
|
||
FloatSetDstPixel(Data, Info, PixF);
|
||
Inc(Data, Info.BytesPerPixel);
|
||
end;
|
||
end
|
||
else if Info.IsSpecial then
|
||
begin
|
||
// Swap channels of special format images
|
||
ConvertImage(Image, ifDefault);
|
||
SwapChannels(Image, SrcChannel, DstChannel);
|
||
ConvertImage(Image, Info.Format);
|
||
end
|
||
else if Info.HasGrayChannel and Info.HasAlphaChannel and
|
||
((SrcChannel = ChannelAlpha) or (DstChannel = ChannelAlpha)) then
|
||
begin
|
||
for I := 0 to NumPixels - 1 do
|
||
begin
|
||
// If we have grayscale image with alpha and alpha is channel
|
||
// to be swapped, we swap it. No other alternative for gray images,
|
||
// just alpha and something
|
||
GrayGetSrcPixel(Data, Info, Pix64, Alpha);
|
||
Swap := Alpha;
|
||
Alpha := Pix64.A;
|
||
Pix64.A := Swap;
|
||
GraySetDstPixel(Data, Info, Pix64, Alpha);
|
||
Inc(Data, Info.BytesPerPixel);
|
||
end;
|
||
end
|
||
else
|
||
begin
|
||
// Then do general swap on other channel image formats
|
||
for I := 0 to NumPixels - 1 do
|
||
begin
|
||
ChannelGetSrcPixel(Data, Info, Pix64);
|
||
with Pix64 do
|
||
begin
|
||
Swap := Channels[SrcChannel];
|
||
Channels[SrcChannel] := Channels[DstChannel];
|
||
Channels[DstChannel] := Swap;
|
||
end;
|
||
ChannelSetDstPixel(Data, Info, Pix64);
|
||
Inc(Data, Info.BytesPerPixel);
|
||
end;
|
||
end;
|
||
|
||
Result := True;
|
||
except
|
||
RaiseImaging(SErrorSwapImage, [ImageToStr(Image)]);
|
||
end;
|
||
end;
|
||
|
||
function ReduceColors(var Image: TImageData; MaxColors: LongInt): Boolean;
|
||
var
|
||
TmpInfo: TImageFormatInfo;
|
||
Data, Index: PWord;
|
||
I, NumPixels: LongInt;
|
||
Pal: PPalette32;
|
||
Col:PColor32Rec;
|
||
OldFmt: TImageFormat;
|
||
begin
|
||
Result := False;
|
||
if TestImage(Image) then
|
||
with Image do
|
||
try
|
||
// First create temp image info and allocate output bits and palette
|
||
MaxColors := ClampInt(MaxColors, 2, High(Word));
|
||
OldFmt := Format;
|
||
FillChar(TmpInfo, SizeOf(TmpInfo), 0);
|
||
TmpInfo.PaletteEntries := MaxColors;
|
||
TmpInfo.BytesPerPixel := 2;
|
||
NumPixels := Width * Height;
|
||
GetMem(Data, NumPixels * TmpInfo.BytesPerPixel);
|
||
GetMem(Pal, MaxColors * SizeOf(TColor32Rec));
|
||
ConvertImage(Image, ifA8R8G8B8);
|
||
// We use median cut algorithm to create reduced palette and to
|
||
// fill Data with indices to this palette
|
||
ReduceColorsMedianCut(NumPixels, Bits, PByte(Data),
|
||
ImageFormatInfos[Format], @TmpInfo, MaxColors, ColorReductionMask, Pal);
|
||
Col := Bits;
|
||
Index := Data;
|
||
// Then we write reduced colors to the input image
|
||
for I := 0 to NumPixels - 1 do
|
||
begin
|
||
Col.Color := Pal[Index^].Color;
|
||
Inc(Col);
|
||
Inc(Index);
|
||
end;
|
||
FreeMemNil(Data);
|
||
FreeMemNil(Pal);
|
||
// And convert it to its original format
|
||
ConvertImage(Image, OldFmt);
|
||
Result := True;
|
||
except
|
||
RaiseImaging(SErrorReduceColors, [MaxColors, ImageToStr(Image)]);
|
||
end;
|
||
end;
|
||
|
||
function GenerateMipMaps(const Image: TImageData; Levels: LongInt;
|
||
var MipMaps: TDynImageDataArray): Boolean;
|
||
var
|
||
Width, Height, I, Count: LongInt;
|
||
Info: TImageFormatInfo;
|
||
CompatibleCopy: TImageData;
|
||
begin
|
||
Result := False;
|
||
if TestImage(Image) then
|
||
try
|
||
Width := Image.Width;
|
||
Height := Image.Height;
|
||
// We compute number of possible mipmap levels and if
|
||
// the given levels are invalid or zero we use this value
|
||
Count := GetNumMipMapLevels(Width, Height);
|
||
if (Levels <= 0) or (Levels > Count) then
|
||
Levels := Count;
|
||
|
||
// If we have special format image we create copy to allow pixel access.
|
||
// This is also done in FillMipMapLevel which is called for each level
|
||
// but then the main big image would be converted to compatible
|
||
// for every level.
|
||
GetImageFormatInfo(Image.Format, Info);
|
||
if Info.IsSpecial then
|
||
begin
|
||
InitImage(CompatibleCopy);
|
||
CloneImage(Image, CompatibleCopy);
|
||
ConvertImage(CompatibleCopy, ifDefault);
|
||
end
|
||
else
|
||
CompatibleCopy := Image;
|
||
|
||
FreeImagesInArray(MipMaps);
|
||
SetLength(MipMaps, Levels);
|
||
CloneImage(Image, MipMaps[0]);
|
||
|
||
for I := 1 to Levels - 1 do
|
||
begin
|
||
Width := Width shr 1;
|
||
Height := Height shr 1;
|
||
if Width < 1 then Width := 1;
|
||
if Height < 1 then Height := 1;
|
||
FillMipMapLevel(CompatibleCopy, Width, Height, MipMaps[I]);
|
||
end;
|
||
|
||
if CompatibleCopy.Format <> MipMaps[0].Format then
|
||
begin
|
||
// Must convert smaller levels to proper format
|
||
for I := 1 to High(MipMaps) do
|
||
ConvertImage(MipMaps[I], MipMaps[0].Format);
|
||
FreeImage(CompatibleCopy);
|
||
end;
|
||
|
||
Result := True;
|
||
except
|
||
RaiseImaging(SErrorGenerateMipMaps, [Levels, ImageToStr(Image)]);
|
||
end;
|
||
end;
|
||
|
||
function MapImageToPalette(var Image: TImageData; Pal: PPalette32;
|
||
Entries: LongInt): Boolean;
|
||
|
||
function FindNearestColor(Pal: PPalette32; Entries: LongInt; Col: TColor32Rec): LongInt;
|
||
var
|
||
I, MinDif, Dif: LongInt;
|
||
begin
|
||
Result := 0;
|
||
MinDif := 1020;
|
||
for I := 0 to Entries - 1 do
|
||
with Pal[I] do
|
||
begin
|
||
Dif := Abs(R - Col.R);
|
||
if Dif > MinDif then Continue;
|
||
Dif := Dif + Abs(G - Col.G);
|
||
if Dif > MinDif then Continue;
|
||
Dif := Dif + Abs(B - Col.B);
|
||
if Dif > MinDif then Continue;
|
||
Dif := Dif + Abs(A - Col.A);
|
||
if Dif < MinDif then
|
||
begin
|
||
MinDif := Dif;
|
||
Result := I;
|
||
end;
|
||
end;
|
||
end;
|
||
|
||
var
|
||
I, MaxEntries: LongInt;
|
||
PIndex: PByte;
|
||
PColor: PColor32Rec;
|
||
CloneARGB: TImageData;
|
||
Info: PImageFormatInfo;
|
||
begin
|
||
Assert((Entries >= 2) and (Entries <= 256));
|
||
Result := False;
|
||
|
||
if TestImage(Image) then
|
||
try
|
||
// We create clone of source image in A8R8G8B8 and
|
||
// then recreate source image in ifIndex8 format
|
||
// with palette taken from Pal parameter
|
||
InitImage(CloneARGB);
|
||
CloneImage(Image, CloneARGB);
|
||
ConvertImage(CloneARGB, ifA8R8G8B8);
|
||
FreeImage(Image);
|
||
NewImage(CloneARGB.Width, CloneARGB.Height, ifIndex8, Image);
|
||
|
||
Info := ImageFormatInfos[Image.Format];
|
||
MaxEntries := Min(Info.PaletteEntries, Entries);
|
||
Move(Pal^, Image.Palette^, MaxEntries * SizeOf(TColor32Rec));
|
||
PIndex := Image.Bits;
|
||
PColor := CloneARGB.Bits;
|
||
|
||
// For every pixel of ARGB clone we find closest color in
|
||
// given palette and assign its index to resulting image's pixel
|
||
// procedure used here is very slow but simple and memory usage friendly
|
||
// (contrary to other methods)
|
||
for I := 0 to Image.Width * Image.Height - 1 do
|
||
begin
|
||
PIndex^ := Byte(FindNearestColor(Image.Palette, MaxEntries, PColor^));
|
||
Inc(PIndex);
|
||
Inc(PColor);
|
||
end;
|
||
|
||
FreeImage(CloneARGB);
|
||
Result := True;
|
||
except
|
||
RaiseImaging(SErrorMapImage, [ImageToStr(Image)]);
|
||
end;
|
||
end;
|
||
|
||
function SplitImage(var Image: TImageData; var Chunks: TDynImageDataArray;
|
||
ChunkWidth, ChunkHeight: LongInt; var XChunks, YChunks: LongInt;
|
||
PreserveSize: Boolean; Fill: Pointer): Boolean;
|
||
var
|
||
X, Y, XTrunc, YTrunc: LongInt;
|
||
NotOnEdge: Boolean;
|
||
Info: PImageFormatInfo;
|
||
OldFmt: TImageFormat;
|
||
begin
|
||
Assert((ChunkWidth > 0) and (ChunkHeight > 0));
|
||
Result := False;
|
||
OldFmt := Image.Format;
|
||
FreeImagesInArray(Chunks);
|
||
|
||
if TestImage(Image) then
|
||
try
|
||
Info := ImageFormatInfos[Image.Format];
|
||
if Info.IsSpecial then
|
||
ConvertImage(Image, ifDefault);
|
||
|
||
// We compute make sure that chunks are not larger than source image or negative
|
||
ChunkWidth := ClampInt(ChunkWidth, 0, Image.Width);
|
||
ChunkHeight := ClampInt(ChunkHeight, 0, Image.Height);
|
||
// Number of chunks along X and Y axes is computed
|
||
XChunks := Trunc(Ceil(Image.Width / ChunkWidth));
|
||
YChunks := Trunc(Ceil(Image.Height / ChunkHeight));
|
||
SetLength(Chunks, XChunks * YChunks);
|
||
|
||
// For every chunk we create new image and copy a portion of
|
||
// the source image to it. If chunk is on the edge of the source image
|
||
// we fill enpty space with Fill pixel data if PreserveSize is set or
|
||
// make the chunk smaller if it is not set
|
||
for Y := 0 to YChunks - 1 do
|
||
for X := 0 to XChunks - 1 do
|
||
begin
|
||
// Determine if current chunk is on the edge of original image
|
||
NotOnEdge := ((X < XChunks - 1) and (Y < YChunks - 1)) or
|
||
((Image.Width mod ChunkWidth = 0) and (Image.Height mod ChunkHeight = 0));
|
||
|
||
if PreserveSize or NotOnEdge then
|
||
begin
|
||
// We should preserve chunk sizes or we are somewhere inside original image
|
||
NewImage(ChunkWidth, ChunkHeight, Image.Format, Chunks[Y * XChunks + X]);
|
||
if (not NotOnEdge) and (Fill <> nil) then
|
||
FillRect(Chunks[Y * XChunks + X], 0, 0, ChunkWidth, ChunkHeight, Fill);
|
||
CopyRect(Image, X * ChunkWidth, Y * ChunkHeight, ChunkWidth, ChunkHeight,
|
||
Chunks[Y * XChunks + X], 0, 0);
|
||
end
|
||
else
|
||
begin
|
||
// Create smaller edge chunk
|
||
XTrunc := Image.Width - (Image.Width div ChunkWidth) * ChunkWidth;
|
||
YTrunc := Image.Height - (Image.Height div ChunkHeight) * ChunkHeight;
|
||
NewImage(XTrunc, YTrunc, Image.Format, Chunks[Y * XChunks + X]);
|
||
CopyRect(Image, X * ChunkWidth, Y * ChunkHeight, XTrunc, YTrunc,
|
||
Chunks[Y * XChunks + X], 0, 0);
|
||
end;
|
||
|
||
// If source image is in indexed format we copy its palette to chunk
|
||
if Info.IsIndexed then
|
||
begin
|
||
Move(Image.Palette^, Chunks[Y * XChunks + X].Palette^,
|
||
Info.PaletteEntries * SizeOf(TColor32Rec));
|
||
end;
|
||
end;
|
||
|
||
if OldFmt <> Image.Format then
|
||
begin
|
||
ConvertImage(Image, OldFmt);
|
||
for X := 0 to Length(Chunks) - 1 do
|
||
ConvertImage(Chunks[X], OldFmt);
|
||
end;
|
||
|
||
Result := True;
|
||
except
|
||
RaiseImaging(SErrorSplitImage, [ImageToStr(Image), ChunkWidth, ChunkHeight]);
|
||
end;
|
||
end;
|
||
|
||
function MakePaletteForImages(var Images: TDynImageDataArray; Pal: PPalette32;
|
||
MaxColors: LongInt; ConvertImages: Boolean): Boolean;
|
||
var
|
||
I: Integer;
|
||
SrcInfo, DstInfo: PImageFormatInfo;
|
||
Target, TempImage: TImageData;
|
||
DstFormat: TImageFormat;
|
||
begin
|
||
Assert((Pal <> nil) and (MaxColors > 0));
|
||
Result := False;
|
||
InitImage(TempImage);
|
||
|
||
if TestImagesInArray(Images) then
|
||
try
|
||
// Null the color histogram
|
||
ReduceColorsMedianCut(0, nil, nil, nil, nil, 0, 0, nil, [raCreateHistogram]);
|
||
for I := 0 to Length(Images) - 1 do
|
||
begin
|
||
SrcInfo := ImageFormatInfos[Images[I].Format];
|
||
if SrcInfo.IsIndexed or SrcInfo.IsSpecial then
|
||
begin
|
||
// create temp image in supported format for updating histogram
|
||
CloneImage(Images[I], TempImage);
|
||
ConvertImage(TempImage, ifA8R8G8B8);
|
||
SrcInfo := ImageFormatInfos[TempImage.Format];
|
||
end
|
||
else
|
||
TempImage := Images[I];
|
||
|
||
// Update histogram with colors of each input image
|
||
ReduceColorsMedianCut(TempImage.Width * TempImage.Height, TempImage.Bits,
|
||
nil, SrcInfo, nil, MaxColors, ColorReductionMask, nil, [raUpdateHistogram]);
|
||
|
||
if Images[I].Bits <> TempImage.Bits then
|
||
FreeImage(TempImage);
|
||
end;
|
||
// Construct reduced color map from the histogram
|
||
ReduceColorsMedianCut(0, nil, nil, nil, nil, MaxColors, ColorReductionMask,
|
||
Pal, [raMakeColorMap]);
|
||
|
||
if ConvertImages then
|
||
begin
|
||
DstFormat := ifIndex8;
|
||
DstInfo := ImageFormatInfos[DstFormat];
|
||
MaxColors := Min(DstInfo.PaletteEntries, MaxColors);
|
||
|
||
for I := 0 to Length(Images) - 1 do
|
||
begin
|
||
SrcInfo := ImageFormatInfos[Images[I].Format];
|
||
if SrcInfo.IsIndexed or SrcInfo.IsSpecial then
|
||
begin
|
||
// If source image is in format not supported by ReduceColorsMedianCut
|
||
// we convert it
|
||
ConvertImage(Images[I], ifA8R8G8B8);
|
||
SrcInfo := ImageFormatInfos[Images[I].Format];
|
||
end;
|
||
|
||
InitImage(Target);
|
||
NewImage(Images[I].Width, Images[I].Height, DstFormat, Target);
|
||
// We map each input image to reduced palette and replace
|
||
// image in array with mapped image
|
||
ReduceColorsMedianCut(Images[I].Width * Images[I].Height, Images[I].Bits,
|
||
Target.Bits, SrcInfo, DstInfo, MaxColors, 0, nil, [raMapImage]);
|
||
Move(Pal^, Target.Palette^, MaxColors * SizeOf(TColor32Rec));
|
||
|
||
FreeImage(Images[I]);
|
||
Images[I] := Target;
|
||
end;
|
||
end;
|
||
Result := True;
|
||
except
|
||
RaiseImaging(SErrorMakePaletteForImages, [MaxColors, Length(Images)]);
|
||
end;
|
||
end;
|
||
|
||
function RotateImage(var Image: TImageData; Angle: LongInt): Boolean;
|
||
var
|
||
X, Y, BytesPerPixel: LongInt;
|
||
RotImage: TImageData;
|
||
Pix, RotPix: PByte;
|
||
OldFmt: TImageFormat;
|
||
begin
|
||
Assert(Angle mod 90 = 0);
|
||
Result := False;
|
||
|
||
if TestImage(Image) then
|
||
try
|
||
if (Angle < -360) or (Angle > 360) then Angle := Angle mod 360;
|
||
if (Angle = 0) or (Abs(Angle) = 360) then
|
||
begin
|
||
Result := True;
|
||
Exit;
|
||
end;
|
||
|
||
Angle := Iff(Angle = -90, 270, Angle);
|
||
Angle := Iff(Angle = -270, 90, Angle);
|
||
Angle := Iff(Angle = -180, 180, Angle);
|
||
|
||
OldFmt := Image.Format;
|
||
if ImageFormatInfos[Image.Format].IsSpecial then
|
||
ConvertImage(Image, ifDefault);
|
||
|
||
InitImage(RotImage);
|
||
BytesPerPixel := ImageFormatInfos[Image.Format].BytesPerPixel;
|
||
|
||
if ((Angle = 90) or (Angle = 270)) and (Image.Width <> Image.Height) then
|
||
NewImage(Image.Height, Image.Width, Image.Format, RotImage)
|
||
else
|
||
NewImage(Image.Width, Image.Height, Image.Format, RotImage);
|
||
|
||
RotPix := RotImage.Bits;
|
||
case Angle of
|
||
90:
|
||
begin
|
||
for Y := 0 to RotImage.Height - 1 do
|
||
begin
|
||
Pix := @PByteArray(Image.Bits)[(Image.Width - Y - 1) * BytesPerPixel];
|
||
for X := 0 to RotImage.Width - 1 do
|
||
begin
|
||
CopyPixel(Pix, RotPix, BytesPerPixel);
|
||
Inc(RotPix, BytesPerPixel);
|
||
Inc(Pix, Image.Width * BytesPerPixel);
|
||
end;
|
||
end;
|
||
end;
|
||
180:
|
||
begin
|
||
Pix := @PByteArray(Image.Bits)[((Image.Height - 1) * Image.Width +
|
||
(Image.Width - 1)) * BytesPerPixel];
|
||
for Y := 0 to RotImage.Height - 1 do
|
||
for X := 0 to RotImage.Width - 1 do
|
||
begin
|
||
CopyPixel(Pix, RotPix, BytesPerPixel);
|
||
Inc(RotPix, BytesPerPixel);
|
||
Dec(Pix, BytesPerPixel);
|
||
end;
|
||
end;
|
||
270:
|
||
begin
|
||
for Y := 0 to RotImage.Height - 1 do
|
||
begin
|
||
Pix := @PByteArray(Image.Bits)[((Image.Height - 1) * Image.Width +
|
||
Y) * BytesPerPixel];
|
||
for X := 0 to RotImage.Width - 1 do
|
||
begin
|
||
CopyPixel(Pix, RotPix, BytesPerPixel);
|
||
Inc(RotPix, BytesPerPixel);
|
||
Dec(Pix, Image.Width * BytesPerPixel);
|
||
end;
|
||
end;
|
||
end;
|
||
end;
|
||
|
||
FreeMemNil(Image.Bits);
|
||
RotImage.Palette := Image.Palette;
|
||
Image := RotImage;
|
||
|
||
if OldFmt <> Image.Format then
|
||
ConvertImage(Image, OldFmt);
|
||
|
||
Result := True;
|
||
except
|
||
RaiseImaging(SErrorRotateImage, [ImageToStr(Image), Angle]);
|
||
end;
|
||
end;
|
||
|
||
{ Drawing/Pixel functions }
|
||
|
||
function CopyRect(const SrcImage: TImageData; SrcX, SrcY, Width, Height: LongInt;
|
||
var DstImage: TImageData; DstX, DstY: LongInt): Boolean;
|
||
var
|
||
Info: PImageFormatInfo;
|
||
I, SrcWidthBytes, DstWidthBytes, MoveBytes: LongInt;
|
||
SrcPointer, DstPointer: PByte;
|
||
WorkImage: TImageData;
|
||
OldFormat: TImageFormat;
|
||
begin
|
||
Result := False;
|
||
OldFormat := ifUnknown;
|
||
if TestImage(SrcImage) and TestImage(DstImage) then
|
||
try
|
||
// Make sure we are still copying image to image, not invalid pointer to protected memory
|
||
ClipCopyBounds(SrcX, SrcY, Width, Height, DstX, DstY, SrcImage.Width, SrcImage.Height,
|
||
Rect(0, 0, DstImage.Width, DstImage.Height));
|
||
|
||
if (Width > 0) and (Height > 0) then
|
||
begin
|
||
Info := ImageFormatInfos[DstImage.Format];
|
||
if Info.IsSpecial then
|
||
begin
|
||
// If dest image is in special format we convert it to default
|
||
OldFormat := Info.Format;
|
||
ConvertImage(DstImage, ifDefault);
|
||
Info := ImageFormatInfos[DstImage.Format];
|
||
end;
|
||
if SrcImage.Format <> DstImage.Format then
|
||
begin
|
||
// If images are in different format source is converted to dest's format
|
||
InitImage(WorkImage);
|
||
CloneImage(SrcImage, WorkImage);
|
||
ConvertImage(WorkImage, DstImage.Format);
|
||
end
|
||
else
|
||
WorkImage := SrcImage;
|
||
|
||
MoveBytes := Width * Info.BytesPerPixel;
|
||
DstWidthBytes := DstImage.Width * Info.BytesPerPixel;
|
||
DstPointer := @PByteArray(DstImage.Bits)[DstY * DstWidthBytes +
|
||
DstX * Info.BytesPerPixel];
|
||
SrcWidthBytes := WorkImage.Width * Info.BytesPerPixel;
|
||
SrcPointer := @PByteArray(WorkImage.Bits)[SrcY * SrcWidthBytes +
|
||
SrcX * Info.BytesPerPixel];
|
||
|
||
for I := 0 to Height - 1 do
|
||
begin
|
||
Move(SrcPointer^, DstPointer^, MoveBytes);
|
||
Inc(SrcPointer, SrcWidthBytes);
|
||
Inc(DstPointer, DstWidthBytes);
|
||
end;
|
||
// If dest image was in special format we convert it back
|
||
if OldFormat <> ifUnknown then
|
||
ConvertImage(DstImage, OldFormat);
|
||
// Working image must be freed if it is not the same as source image
|
||
if WorkImage.Bits <> SrcImage.Bits then
|
||
FreeImage(WorkImage);
|
||
|
||
Result := True;
|
||
end;
|
||
except
|
||
RaiseImaging(SErrorCopyRect, [ImageToStr(SrcImage), ImageToStr(DstImage)]);
|
||
end;
|
||
end;
|
||
|
||
function FillRect(var Image: TImageData; X, Y, Width, Height: LongInt;
|
||
FillColor: Pointer): Boolean;
|
||
var
|
||
Info: PImageFormatInfo;
|
||
I, J, ImageWidthBytes, RectWidthBytes, Bpp: Longint;
|
||
LinePointer, PixPointer: PByte;
|
||
OldFmt: TImageFormat;
|
||
begin
|
||
Result := False;
|
||
if TestImage(Image) then
|
||
try
|
||
ClipRectBounds(X, Y, Width, Height, Rect(0, 0, Image.Width, Image.Height));
|
||
|
||
if (Width > 0) and (Height > 0) then
|
||
begin
|
||
OldFmt := Image.Format;
|
||
if ImageFormatInfos[OldFmt].IsSpecial then
|
||
ConvertImage(Image, ifDefault);
|
||
|
||
Info := ImageFormatInfos[Image.Format];
|
||
Bpp := Info.BytesPerPixel;
|
||
ImageWidthBytes := Image.Width * Bpp;
|
||
RectWidthBytes := Width * Bpp;
|
||
LinePointer := @PByteArray(Image.Bits)[Y * ImageWidthBytes + X * Bpp];
|
||
|
||
for I := 0 to Height - 1 do
|
||
begin
|
||
case Bpp of
|
||
1: FillMemoryByte(LinePointer, RectWidthBytes, PByte(FillColor)^);
|
||
2: FillMemoryWord(LinePointer, RectWidthBytes, PWord(FillColor)^);
|
||
4: FillMemoryLongWord(LinePointer, RectWidthBytes, PLongWord(FillColor)^);
|
||
else
|
||
PixPointer := LinePointer;
|
||
for J := 0 to Width - 1 do
|
||
begin
|
||
CopyPixel(FillColor, PixPointer, Bpp);
|
||
Inc(PixPointer, Bpp);
|
||
end;
|
||
end;
|
||
Inc(LinePointer, ImageWidthBytes);
|
||
end;
|
||
|
||
if OldFmt <> Image.Format then
|
||
ConvertImage(Image, OldFmt);
|
||
end;
|
||
|
||
Result := True;
|
||
except
|
||
RaiseImaging(SErrorFillRect, [X, Y, Width, Height, ImageToStr(Image)]);
|
||
end;
|
||
end;
|
||
|
||
function ReplaceColor(var Image: TImageData; X, Y, Width, Height: LongInt;
|
||
OldColor, NewColor: Pointer): Boolean;
|
||
var
|
||
Info: PImageFormatInfo;
|
||
I, J, WidthBytes, Bpp: Longint;
|
||
LinePointer, PixPointer: PByte;
|
||
OldFmt: TImageFormat;
|
||
begin
|
||
Assert((OldColor <> nil) and (NewColor <> nil));
|
||
Result := False;
|
||
if TestImage(Image) then
|
||
try
|
||
ClipRectBounds(X, Y, Width, Height, Rect(0, 0, Image.Width, Image.Height));
|
||
|
||
if (Width > 0) and (Height > 0) then
|
||
begin
|
||
OldFmt := Image.Format;
|
||
if ImageFormatInfos[OldFmt].IsSpecial then
|
||
ConvertImage(Image, ifDefault);
|
||
|
||
Info := ImageFormatInfos[Image.Format];
|
||
Bpp := Info.BytesPerPixel;
|
||
WidthBytes := Image.Width * Bpp;
|
||
LinePointer := @PByteArray(Image.Bits)[Y * WidthBytes + X * Bpp];
|
||
|
||
for I := 0 to Height - 1 do
|
||
begin
|
||
PixPointer := LinePointer;
|
||
for J := 0 to Width - 1 do
|
||
begin
|
||
if ComparePixels(PixPointer, OldColor, Bpp) then
|
||
CopyPixel(NewColor, PixPointer, Bpp);
|
||
Inc(PixPointer, Bpp);
|
||
end;
|
||
Inc(LinePointer, WidthBytes);
|
||
end;
|
||
|
||
if OldFmt <> Image.Format then
|
||
ConvertImage(Image, OldFmt);
|
||
end;
|
||
|
||
Result := True;
|
||
except
|
||
RaiseImaging(SErrorReplaceColor, [X, Y, Width, Height, ImageToStr(Image)]);
|
||
end;
|
||
end;
|
||
|
||
function StretchRect(const SrcImage: TImageData; SrcX, SrcY, SrcWidth,
|
||
SrcHeight: LongInt; var DstImage: TImageData; DstX, DstY, DstWidth,
|
||
DstHeight: LongInt; Filter: TResizeFilter): Boolean;
|
||
var
|
||
Info: PImageFormatInfo;
|
||
WorkImage: TImageData;
|
||
OldFormat: TImageFormat;
|
||
begin
|
||
Result := False;
|
||
OldFormat := ifUnknown;
|
||
if TestImage(SrcImage) and TestImage(DstImage) then
|
||
try
|
||
// Make sure we are still copying image to image, not invalid pointer to protected memory
|
||
ClipStretchBounds(SrcX, SrcY, SrcWidth, SrcHeight, DstX, DstY, DstWidth, DstHeight,
|
||
SrcImage.Width, SrcImage.Height, Rect(0, 0, DstImage.Width, DstImage.Height));
|
||
|
||
if (SrcWidth = DstWidth) and (SrcHeight = DstHeight) then
|
||
begin
|
||
// If source and dest rectangles have the same size call CopyRect
|
||
Result := CopyRect(SrcImage, SrcX, SrcY, SrcWidth, SrcHeight, DstImage, DstX, DstY);
|
||
end
|
||
else if (SrcWidth > 0) and (SrcHeight > 0) and (DstWidth > 0) and (DstHeight > 0) then
|
||
begin
|
||
// If source and dest rectangles don't have the same size we do stretch
|
||
Info := ImageFormatInfos[DstImage.Format];
|
||
|
||
if Info.IsSpecial then
|
||
begin
|
||
// If dest image is in special format we convert it to default
|
||
OldFormat := Info.Format;
|
||
ConvertImage(DstImage, ifDefault);
|
||
Info := ImageFormatInfos[DstImage.Format];
|
||
end;
|
||
|
||
if SrcImage.Format <> DstImage.Format then
|
||
begin
|
||
// If images are in different format source is converted to dest's format
|
||
InitImage(WorkImage);
|
||
CloneImage(SrcImage, WorkImage);
|
||
ConvertImage(WorkImage, DstImage.Format);
|
||
end
|
||
else
|
||
WorkImage := SrcImage;
|
||
|
||
// Only pixel resize is supported for indexed images
|
||
if Info.IsIndexed then
|
||
Filter := rfNearest;
|
||
|
||
case Filter of
|
||
rfNearest: StretchNearest(WorkImage, SrcX, SrcY, SrcWidth, SrcHeight,
|
||
DstImage, DstX, DstY, DstWidth, DstHeight);
|
||
rfBilinear: StretchResample(WorkImage, SrcX, SrcY, SrcWidth, SrcHeight,
|
||
DstImage, DstX, DstY, DstWidth, DstHeight, sfLinear);
|
||
rfBicubic: StretchResample(WorkImage, SrcX, SrcY, SrcWidth, SrcHeight,
|
||
DstImage, DstX, DstY, DstWidth, DstHeight, sfCatmullRom);
|
||
end;
|
||
|
||
// If dest image was in special format we convert it back
|
||
if OldFormat <> ifUnknown then
|
||
ConvertImage(DstImage, OldFormat);
|
||
// Working image must be freed if it is not the same as source image
|
||
if WorkImage.Bits <> SrcImage.Bits then
|
||
FreeImage(WorkImage);
|
||
|
||
Result := True;
|
||
end;
|
||
except
|
||
RaiseImaging(SErrorStretchRect, [ImageToStr(SrcImage), ImageToStr(DstImage)]);
|
||
end;
|
||
end;
|
||
|
||
procedure GetPixelDirect(const Image: TImageData; X, Y: LongInt; Pixel: Pointer);
|
||
var
|
||
BytesPerPixel: LongInt;
|
||
begin
|
||
Assert(Pixel <> nil);
|
||
BytesPerPixel := ImageFormatInfos[Image.Format].BytesPerPixel;
|
||
CopyPixel(@PByteArray(Image.Bits)[(Y * Image.Width + X) * BytesPerPixel],
|
||
Pixel, BytesPerPixel);
|
||
end;
|
||
|
||
procedure SetPixelDirect(const Image: TImageData; X, Y: LongInt; Pixel: Pointer);
|
||
var
|
||
BytesPerPixel: LongInt;
|
||
begin
|
||
Assert(Pixel <> nil);
|
||
BytesPerPixel := ImageFormatInfos[Image.Format].BytesPerPixel;
|
||
CopyPixel(Pixel, @PByteArray(Image.Bits)[(Y * Image.Width + X) * BytesPerPixel],
|
||
BytesPerPixel);
|
||
end;
|
||
|
||
function GetPixel32(const Image: TImageData; X, Y: LongInt): TColor32Rec;
|
||
var
|
||
Info: PImageFormatInfo;
|
||
Data: PByte;
|
||
begin
|
||
Info := ImageFormatInfos[Image.Format];
|
||
Data := @PByteArray(Image.Bits)[(Y * Image.Width + X) * Info.BytesPerPixel];
|
||
Result := GetPixel32Generic(Data, Info, Image.Palette);
|
||
end;
|
||
|
||
procedure SetPixel32(const Image: TImageData; X, Y: LongInt; const Color: TColor32Rec);
|
||
var
|
||
Info: PImageFormatInfo;
|
||
Data: PByte;
|
||
begin
|
||
Info := ImageFormatInfos[Image.Format];
|
||
Data := @PByteArray(Image.Bits)[(Y * Image.Width + X) * Info.BytesPerPixel];
|
||
SetPixel32Generic(Data, Info, Image.Palette, Color);
|
||
end;
|
||
|
||
function GetPixelFP(const Image: TImageData; X, Y: LongInt): TColorFPRec;
|
||
var
|
||
Info: PImageFormatInfo;
|
||
Data: PByte;
|
||
begin
|
||
Info := ImageFormatInfos[Image.Format];
|
||
Data := @PByteArray(Image.Bits)[(Y * Image.Width + X) * Info.BytesPerPixel];
|
||
Result := GetPixelFPGeneric(Data, Info, Image.Palette);
|
||
end;
|
||
|
||
procedure SetPixelFP(const Image: TImageData; X, Y: LongInt; const Color: TColorFPRec);
|
||
var
|
||
Info: PImageFormatInfo;
|
||
Data: PByte;
|
||
begin
|
||
Info := ImageFormatInfos[Image.Format];
|
||
Data := @PByteArray(Image.Bits)[(Y * Image.Width + X) * Info.BytesPerPixel];
|
||
SetPixelFPGeneric(Data, Info, Image.Palette, Color);
|
||
end;
|
||
|
||
{ Palette Functions }
|
||
|
||
procedure NewPalette(Entries: LongInt; var Pal: PPalette32);
|
||
begin
|
||
Assert((Entries > 2) and (Entries <= 65535));
|
||
try
|
||
GetMem(Pal, Entries * SizeOf(TColor32Rec));
|
||
FillChar(Pal^, Entries * SizeOf(TColor32Rec), $FF);
|
||
except
|
||
RaiseImaging(SErrorNewPalette, [Entries]);
|
||
end;
|
||
end;
|
||
|
||
procedure FreePalette(var Pal: PPalette32);
|
||
begin
|
||
try
|
||
FreeMemNil(Pal);
|
||
except
|
||
RaiseImaging(SErrorFreePalette, [Pal]);
|
||
end;
|
||
end;
|
||
|
||
procedure CopyPalette(SrcPal, DstPal: PPalette32; SrcIdx, DstIdx, Count: LongInt);
|
||
begin
|
||
Assert((SrcPal <> nil) and (DstPal <> nil));
|
||
Assert((SrcIdx >= 0) and (DstIdx >= 0) and (Count >= 0));
|
||
try
|
||
Move(SrcPal[SrcIdx], DstPal[DstIdx], Count * SizeOf(TColor32Rec));
|
||
except
|
||
RaiseImaging(SErrorCopyPalette, [Count, SrcPal, DstPal]);
|
||
end;
|
||
end;
|
||
|
||
function FindColor(Pal: PPalette32; Entries: LongInt; Color: TColor32):
|
||
LongInt;
|
||
var
|
||
Col: TColor32Rec;
|
||
I, MinDif, Dif: LongInt;
|
||
begin
|
||
Assert(Pal <> nil);
|
||
Result := -1;
|
||
Col.Color := Color;
|
||
try
|
||
// First try to find exact match
|
||
for I := 0 to Entries - 1 do
|
||
with Pal[I] do
|
||
begin
|
||
if (A = Col.A) and (R = Col.R) and
|
||
(G = Col.G) and (B = Col.B) then
|
||
begin
|
||
Result := I;
|
||
Exit;
|
||
end;
|
||
end;
|
||
|
||
// If exact match was not found, find nearest color
|
||
MinDif := 1020;
|
||
for I := 0 to Entries - 1 do
|
||
with Pal[I] do
|
||
begin
|
||
Dif := Abs(R - Col.R);
|
||
if Dif > MinDif then Continue;
|
||
Dif := Dif + Abs(G - Col.G);
|
||
if Dif > MinDif then Continue;
|
||
Dif := Dif + Abs(B - Col.B);
|
||
if Dif > MinDif then Continue;
|
||
Dif := Dif + Abs(A - Col.A);
|
||
if Dif < MinDif then
|
||
begin
|
||
MinDif := Dif;
|
||
Result := I;
|
||
end;
|
||
end;
|
||
except
|
||
RaiseImaging(SErrorFindColor, [Pal, Entries]);
|
||
end;
|
||
end;
|
||
|
||
procedure FillGrayscalePalette(Pal: PPalette32; Entries: LongInt);
|
||
var
|
||
I: LongInt;
|
||
begin
|
||
Assert(Pal <> nil);
|
||
try
|
||
for I := 0 to Entries - 1 do
|
||
with Pal[I] do
|
||
begin
|
||
A := $FF;
|
||
R := Byte(I);
|
||
G := Byte(I);
|
||
B := Byte(I);
|
||
end;
|
||
except
|
||
RaiseImaging(SErrorGrayscalePalette, [Pal, Entries]);
|
||
end;
|
||
end;
|
||
|
||
procedure FillCustomPalette(Pal: PPalette32; Entries: LongInt; RBits, GBits,
|
||
BBits: Byte; Alpha: Byte = $FF);
|
||
var
|
||
I, TotalBits, MaxEntries: LongInt;
|
||
begin
|
||
Assert(Pal <> nil);
|
||
TotalBits := RBits + GBits + BBits;
|
||
MaxEntries := Min(Pow2Int(TotalBits), Entries);
|
||
FillChar(Pal^, Entries * SizeOf(TColor32Rec), 0);
|
||
try
|
||
for I := 0 to MaxEntries - 1 do
|
||
with Pal[I] do
|
||
begin
|
||
A := Alpha;
|
||
if RBits > 0 then
|
||
R := ((I shr Max(0, GBits + BBits - 1)) and (1 shl RBits - 1)) * 255 div (1 shl RBits - 1);
|
||
if GBits > 0 then
|
||
G := ((I shr Max(0, BBits - 1)) and (1 shl GBits - 1)) * 255 div (1 shl GBits - 1);
|
||
if BBits > 0 then
|
||
B := ((I shr 0) and (1 shl BBits - 1)) * 255 div (1 shl BBits - 1);
|
||
end;
|
||
except
|
||
RaiseImaging(SErrorCustomPalette, [Pal, Entries]);
|
||
end;
|
||
end;
|
||
|
||
procedure SwapChannelsOfPalette(Pal: PPalette32; Entries, SrcChannel,
|
||
DstChannel: LongInt);
|
||
var
|
||
I: LongInt;
|
||
Swap: Byte;
|
||
begin
|
||
Assert(Pal <> nil);
|
||
Assert((SrcChannel in [0..3]) and (DstChannel in [0..3]));
|
||
try
|
||
for I := 0 to Entries - 1 do
|
||
with Pal[I] do
|
||
begin
|
||
Swap := Channels[SrcChannel];
|
||
Channels[SrcChannel] := Channels[DstChannel];
|
||
Channels[DstChannel] := Swap;
|
||
end;
|
||
except
|
||
RaiseImaging(SErrorSwapPalette, [Pal, Entries]);
|
||
end;
|
||
end;
|
||
|
||
{ Options Functions }
|
||
|
||
function SetOption(OptionId, Value: LongInt): Boolean;
|
||
begin
|
||
Result := False;
|
||
if (OptionId >= 0) and (OptionId < Length(Options)) and
|
||
(Options[OptionID] <> nil) then
|
||
begin
|
||
Options[OptionID]^ := CheckOptionValue(OptionId, Value);
|
||
Result := True;
|
||
end;
|
||
end;
|
||
|
||
function GetOption(OptionId: LongInt): LongInt;
|
||
begin
|
||
Result := InvalidOption;
|
||
if (OptionId >= 0) and (OptionId < Length(Options)) and
|
||
(Options[OptionID] <> nil) then
|
||
begin
|
||
Result := Options[OptionID]^;
|
||
end;
|
||
end;
|
||
|
||
function PushOptions: Boolean;
|
||
begin
|
||
Result := OptionStack.Push;
|
||
end;
|
||
|
||
function PopOptions: Boolean;
|
||
begin
|
||
Result := OptionStack.Pop;
|
||
end;
|
||
|
||
{ Image Format Functions }
|
||
|
||
function GetImageFormatInfo(Format: TImageFormat; var Info: TImageFormatInfo): Boolean;
|
||
begin
|
||
FillChar(Info, SizeOf(Info), 0);
|
||
if ImageFormatInfos[Format] <> nil then
|
||
begin
|
||
Info := ImageFormatInfos[Format]^;
|
||
Result := True;
|
||
end
|
||
else
|
||
Result := False;
|
||
end;
|
||
|
||
function GetPixelsSize(Format: TImageFormat; Width, Height: LongInt): LongInt;
|
||
begin
|
||
if ImageFormatInfos[Format] <> nil then
|
||
Result := ImageFormatInfos[Format].GetPixelsSize(Format, Width, Height)
|
||
else
|
||
Result := 0;
|
||
end;
|
||
|
||
{ IO Functions }
|
||
|
||
procedure SetUserFileIO(OpenReadProc: TOpenReadProc; OpenWriteProc:
|
||
TOpenWriteProc;
|
||
CloseProc: TCloseProc; EofProc: TEofProc; SeekProc: TSeekProc; TellProc:
|
||
TTellProc; ReadProc: TReadProc; WriteProc: TWriteProc);
|
||
begin
|
||
FileIO.OpenRead := OpenReadProc;
|
||
FileIO.OpenWrite := OpenWriteProc;
|
||
FileIO.Close := CloseProc;
|
||
FileIO.Eof := EofProc;
|
||
FileIO.Seek := SeekProc;
|
||
FileIO.Tell := TellProc;
|
||
FileIO.Read := ReadProc;
|
||
FileIO.Write := WriteProc;
|
||
end;
|
||
|
||
procedure ResetFileIO;
|
||
begin
|
||
FileIO := OriginalFileIO;
|
||
end;
|
||
|
||
|
||
{ ------------------------------------------------------------------------
|
||
Other Imaging Stuff
|
||
------------------------------------------------------------------------}
|
||
|
||
function GetFormatName(Format: TImageFormat): string;
|
||
begin
|
||
if ImageFormatInfos[Format] <> nil then
|
||
Result := ImageFormatInfos[Format].Name
|
||
else
|
||
Result := SUnknownFormat;
|
||
end;
|
||
|
||
function ImageToStr(const Image: TImageData): string;
|
||
var
|
||
ImgSize: Integer;
|
||
begin
|
||
if TestImage(Image) then
|
||
with Image do
|
||
begin
|
||
ImgSize := Size;
|
||
if ImgSize > 8192 then
|
||
ImgSize := ImgSize div 1024;
|
||
Result := SysUtils.Format(SImageInfo, [@Image, Width, Height,
|
||
GetFormatName(Format), ImgSize + 0.0, Iff(ImgSize = Size, 'B', 'KiB'), Bits,
|
||
Palette]);
|
||
end
|
||
else
|
||
Result := SysUtils.Format(SImageInfoInvalid, [@Image]);
|
||
end;
|
||
|
||
function GetVersionStr: string;
|
||
begin
|
||
Result := Format('%.1d.%.2d.%.1d', [ImagingVersionMajor,
|
||
ImagingVersionMinor, ImagingVersionPatch]);
|
||
end;
|
||
|
||
function IffFormat(Condition: Boolean; const TruePart, FalsePart: TImageFormat): TImageFormat;
|
||
begin
|
||
if Condition then
|
||
Result := TruePart
|
||
else
|
||
Result := FalsePart;
|
||
end;
|
||
|
||
procedure RegisterImageFileFormat(AClass: TImageFileFormatClass);
|
||
begin
|
||
Assert(AClass <> nil);
|
||
if ImageFileFormats = nil then
|
||
ImageFileFormats := TList.Create;
|
||
if ImageFileFormats <> nil then
|
||
ImageFileFormats.Add(AClass.Create);
|
||
end;
|
||
|
||
function RegisterOption(OptionId: LongInt; Variable: PLongInt): Boolean;
|
||
begin
|
||
Result := False;
|
||
if Options = nil then
|
||
InitOptions;
|
||
|
||
Assert(Variable <> nil);
|
||
|
||
if OptionId >= Length(Options) then
|
||
SetLength(Options, OptionId + InitialOptions);
|
||
if (OptionId >= 0) and (OptionId < Length(Options)) and (Options[OptionId] = nil) then
|
||
begin
|
||
Options[OptionId] := Variable;
|
||
Result := True;
|
||
end;
|
||
end;
|
||
|
||
function FindImageFileFormatByExt(const Ext: string): TImageFileFormat;
|
||
var
|
||
I: LongInt;
|
||
begin
|
||
Result := nil;
|
||
for I := 0 to ImageFileFormats.Count - 1 do
|
||
if TImageFileFormat(ImageFileFormats[I]).Extensions.IndexOf(Ext) >= 0 then
|
||
begin
|
||
Result := TImageFileFormat(ImageFileFormats[I]);
|
||
Exit;
|
||
end;
|
||
end;
|
||
|
||
function FindImageFileFormatByName(const FileName: string): TImageFileFormat;
|
||
var
|
||
I: LongInt;
|
||
begin
|
||
Result := nil;
|
||
for I := 0 to ImageFileFormats.Count - 1 do
|
||
if TImageFileFormat(ImageFileFormats[I]).TestFileName(FileName) then
|
||
begin
|
||
Result := TImageFileFormat(ImageFileFormats[I]);
|
||
Exit;
|
||
end;
|
||
end;
|
||
|
||
function FindImageFileFormatByClass(AClass: TImageFileFormatClass): TImageFileFormat;
|
||
var
|
||
I: LongInt;
|
||
begin
|
||
Result := nil;
|
||
for I := 0 to ImageFileFormats.Count - 1 do
|
||
if TImageFileFormat(ImageFileFormats[I]) is AClass then
|
||
begin
|
||
Result := TObject(ImageFileFormats[I]) as TImageFileFormat;
|
||
Break;
|
||
end;
|
||
end;
|
||
|
||
function GetFileFormatCount: LongInt;
|
||
begin
|
||
Result := ImageFileFormats.Count;
|
||
end;
|
||
|
||
function GetFileFormatAtIndex(Index: LongInt): TImageFileFormat;
|
||
begin
|
||
if (Index >= 0) and (Index < ImageFileFormats.Count) then
|
||
Result := TImageFileFormat(ImageFileFormats[Index])
|
||
else
|
||
Result := nil;
|
||
end;
|
||
|
||
function GetImageFileFormatsFilter(OpenFileFilter: Boolean): string;
|
||
var
|
||
I, J, Count: LongInt;
|
||
Descriptions: string;
|
||
Filters, CurFilter: string;
|
||
FileFormat: TImageFileFormat;
|
||
begin
|
||
Descriptions := '';
|
||
Filters := '';
|
||
Count := 0;
|
||
|
||
for I := 0 to ImageFileFormats.Count - 1 do
|
||
begin
|
||
FileFormat := TObject(ImageFileFormats[I]) as TImageFileFormat;
|
||
|
||
// If we are creating filter for save dialog and this format cannot save
|
||
// files the we skip it
|
||
if not OpenFileFilter and not FileFormat.CanSave then
|
||
Continue;
|
||
|
||
CurFilter := '';
|
||
for J := 0 to FileFormat.Masks.Count - 1 do
|
||
begin
|
||
CurFilter := CurFilter + FileFormat.Masks[J];
|
||
if J < FileFormat.Masks.Count - 1 then
|
||
CurFilter := CurFilter + ';';
|
||
end;
|
||
|
||
FmtStr(Descriptions, '%s%s (%s)|%2:s', [Descriptions, FileFormat.Name, CurFilter]);
|
||
if Filters <> '' then
|
||
FmtStr(Filters, '%s;%s', [Filters, CurFilter])
|
||
else
|
||
Filters := CurFilter;
|
||
|
||
if I < ImageFileFormats.Count - 1 then
|
||
Descriptions := Descriptions + '|';
|
||
|
||
Inc(Count);
|
||
end;
|
||
|
||
if (Count > 1) and OpenFileFilter then
|
||
FmtStr(Descriptions, '%s (%s)|%1:s|%s', [SAllFilter, Filters, Descriptions]);
|
||
|
||
Result := Descriptions;
|
||
end;
|
||
|
||
function GetFilterIndexExtension(Index: LongInt; OpenFileFilter: Boolean): string;
|
||
var
|
||
I, Count: LongInt;
|
||
FileFormat: TImageFileFormat;
|
||
begin
|
||
// -1 because filter indices are in 1..n range
|
||
Index := Index - 1;
|
||
Result := '';
|
||
if OpenFileFilter then
|
||
begin
|
||
if Index > 0 then
|
||
Index := Index - 1;
|
||
end;
|
||
|
||
if (Index >= 0) and (Index < ImageFileFormats.Count) then
|
||
begin
|
||
Count := 0;
|
||
for I := 0 to ImageFileFormats.Count - 1 do
|
||
begin
|
||
FileFormat := TObject(ImageFileFormats[I]) as TImageFileFormat;
|
||
if not OpenFileFilter and not FileFormat.CanSave then
|
||
Continue;
|
||
if Index = Count then
|
||
begin
|
||
if FileFormat.Extensions.Count > 0 then
|
||
Result := FileFormat.Extensions[0];
|
||
Exit;
|
||
end;
|
||
Inc(Count);
|
||
end;
|
||
end;
|
||
end;
|
||
|
||
function GetFileNameFilterIndex(const FileName: string; OpenFileFilter: Boolean): LongInt;
|
||
var
|
||
I: LongInt;
|
||
FileFormat: TImageFileFormat;
|
||
begin
|
||
Result := 0;
|
||
for I := 0 to ImageFileFormats.Count - 1 do
|
||
begin
|
||
FileFormat := TObject(ImageFileFormats[I]) as TImageFileFormat;
|
||
if not OpenFileFilter and not FileFormat.CanSave then
|
||
Continue;
|
||
if FileFormat.TestFileName(FileName) then
|
||
begin
|
||
// +1 because filter indices are in 1..n range
|
||
Inc(Result);
|
||
if OpenFileFilter then
|
||
Inc(Result);
|
||
Exit;
|
||
end;
|
||
Inc(Result);
|
||
end;
|
||
Result := -1;
|
||
end;
|
||
|
||
function GetIO: TIOFunctions;
|
||
begin
|
||
Result := IO;
|
||
end;
|
||
|
||
procedure RaiseImaging(const Msg: string; const Args: array of const);
|
||
var
|
||
WholeMsg: string;
|
||
begin
|
||
WholeMsg := Msg;
|
||
if GetExceptObject <> nil then
|
||
WholeMsg := WholeMsg + ' ' + SExceptMsg + ': ' +
|
||
GetExceptObject.Message;
|
||
raise EImagingError.CreateFmt(WholeMsg, Args);
|
||
end;
|
||
|
||
{ Internal unit functions }
|
||
|
||
function CheckOptionValue(OptionId, Value: LongInt): LongInt;
|
||
begin
|
||
case OptionId of
|
||
ImagingColorReductionMask:
|
||
Result := ClampInt(Value, 0, $FF);
|
||
ImagingLoadOverrideFormat, ImagingSaveOverrideFormat:
|
||
Result := Iff(ImagingFormats.IsImageFormatValid(TImageFormat(Value)),
|
||
Value, LongInt(ifUnknown));
|
||
ImagingMipMapFilter: Result := ClampInt(Value, Ord(Low(TSamplingFilter)),
|
||
Ord(High(TSamplingFilter)));
|
||
else
|
||
Result := Value;
|
||
end;
|
||
end;
|
||
|
||
procedure SetFileIO;
|
||
begin
|
||
IO := FileIO;
|
||
end;
|
||
|
||
procedure SetStreamIO;
|
||
begin
|
||
IO := StreamIO;
|
||
end;
|
||
|
||
procedure SetMemoryIO;
|
||
begin
|
||
IO := MemoryIO;
|
||
end;
|
||
|
||
procedure InitImageFormats;
|
||
begin
|
||
ImagingFormats.InitImageFormats(ImageFormatInfos);
|
||
end;
|
||
|
||
procedure FreeImageFileFormats;
|
||
var
|
||
I: LongInt;
|
||
begin
|
||
if ImageFileFormats <> nil then
|
||
for I := 0 to ImageFileFormats.Count - 1 do
|
||
TImageFileFormat(ImageFileFormats[I]).Free;
|
||
FreeAndNil(ImageFileFormats);
|
||
end;
|
||
|
||
procedure InitOptions;
|
||
begin
|
||
SetLength(Options, InitialOptions);
|
||
OptionStack := TOptionStack.Create;
|
||
end;
|
||
|
||
procedure FreeOptions;
|
||
begin
|
||
SetLength(Options, 0);
|
||
FreeAndNil(OptionStack);
|
||
end;
|
||
|
||
{
|
||
TImageFileFormat class implementation
|
||
}
|
||
|
||
constructor TImageFileFormat.Create;
|
||
begin
|
||
inherited Create;
|
||
FName := SUnknownFormat;
|
||
FExtensions := TStringList.Create;
|
||
FMasks := TStringList.Create;
|
||
end;
|
||
|
||
destructor TImageFileFormat.Destroy;
|
||
begin
|
||
FExtensions.Free;
|
||
FMasks.Free;
|
||
inherited Destroy;
|
||
end;
|
||
|
||
function TImageFileFormat.PrepareLoad(Handle: TImagingHandle;
|
||
var Images: TDynImageDataArray; OnlyFirstFrame: Boolean): Boolean;
|
||
begin
|
||
FreeImagesInArray(Images);
|
||
SetLength(Images, 0);
|
||
Result := Handle <> nil;
|
||
end;
|
||
|
||
function TImageFileFormat.PostLoadCheck(var Images: TDynImageDataArray;
|
||
LoadResult: Boolean): Boolean;
|
||
var
|
||
I: LongInt;
|
||
begin
|
||
if not LoadResult then
|
||
begin
|
||
FreeImagesInArray(Images);
|
||
SetLength(Images, 0);
|
||
Result := False;
|
||
end
|
||
else
|
||
begin
|
||
Result := (Length(Images) > 0) and TestImagesInArray(Images);
|
||
|
||
if Result then
|
||
begin
|
||
// Convert to overriden format if it is set
|
||
if LoadOverrideFormat <> ifUnknown then
|
||
for I := Low(Images) to High(Images) do
|
||
ConvertImage(Images[I], LoadOverrideFormat);
|
||
end;
|
||
end;
|
||
end;
|
||
|
||
function TImageFileFormat.PrepareSave(Handle: TImagingHandle;
|
||
const Images: TDynImageDataArray; var Index: Integer): Boolean;
|
||
var
|
||
Len, I: LongInt;
|
||
begin
|
||
CheckOptionsValidity;
|
||
Result := False;
|
||
if FCanSave then
|
||
begin
|
||
Len := Length(Images);
|
||
Assert(Len > 0);
|
||
|
||
// If there are no images to be saved exit
|
||
if Len = 0 then Exit;
|
||
|
||
// Check index of image to be saved (-1 as index means save all images)
|
||
if FIsMultiImageFormat then
|
||
begin
|
||
if (Index >= Len) then
|
||
Index := 0;
|
||
|
||
if Index < 0 then
|
||
begin
|
||
Index := 0;
|
||
FFirstIdx := 0;
|
||
FLastIdx := Len - 1;
|
||
end
|
||
else
|
||
begin
|
||
FFirstIdx := Index;
|
||
FLastIdx := Index;
|
||
end;
|
||
|
||
for I := FFirstIdx to FLastIdx - 1 do
|
||
if not TestImage(Images[I]) then
|
||
Exit;
|
||
end
|
||
else
|
||
begin
|
||
if (Index >= Len) or (Index < 0) then
|
||
Index := 0;
|
||
if not TestImage(Images[Index]) then
|
||
Exit;
|
||
end;
|
||
|
||
Result := True;
|
||
end;
|
||
end;
|
||
|
||
procedure TImageFileFormat.AddMasks(const AMasks: string);
|
||
var
|
||
I: LongInt;
|
||
Ext: string;
|
||
begin
|
||
FExtensions.Clear;
|
||
FMasks.CommaText := AMasks;
|
||
FMasks.Delimiter := ';';
|
||
|
||
for I := 0 to FMasks.Count - 1 do
|
||
begin
|
||
FMasks[I] := Trim(FMasks[I]);
|
||
Ext := GetFileExt(FMasks[I]);
|
||
if (Ext <> '') and (Ext <> '*') then
|
||
FExtensions.Add(Ext);
|
||
end;
|
||
end;
|
||
|
||
function TImageFileFormat.GetFormatInfo(Format: TImageFormat): TImageFormatInfo;
|
||
begin
|
||
Result := ImageFormatInfos[Format]^;
|
||
end;
|
||
|
||
function TImageFileFormat.GetSupportedFormats: TImageFormats;
|
||
begin
|
||
Result := FSupportedFormats;
|
||
end;
|
||
|
||
function TImageFileFormat.LoadData(Handle: TImagingHandle;
|
||
var Images: TDynImageDataArray; OnlyFirstFrame: Boolean): Boolean;
|
||
begin
|
||
Result := False;
|
||
RaiseImaging(SFileFormatCanNotLoad, [FName]);
|
||
end;
|
||
|
||
function TImageFileFormat.SaveData(Handle: TImagingHandle;
|
||
const Images: TDynImageDataArray; Index: LongInt): Boolean;
|
||
begin
|
||
Result := False;
|
||
RaiseImaging(SFileFormatCanNotSave, [FName]);
|
||
end;
|
||
|
||
procedure TImageFileFormat.ConvertToSupported(var Image: TImageData;
|
||
const Info: TImageFormatInfo);
|
||
begin
|
||
end;
|
||
|
||
function TImageFileFormat.IsSupported(const Image: TImageData): Boolean;
|
||
begin
|
||
Result := Image.Format in GetSupportedFormats;
|
||
end;
|
||
|
||
function TImageFileFormat.LoadFromFile(const FileName: string;
|
||
var Images: TDynImageDataArray; OnlyFirstLevel: Boolean): Boolean;
|
||
var
|
||
Handle: TImagingHandle;
|
||
begin
|
||
Result := False;
|
||
if FCanLoad then
|
||
try
|
||
// Set IO ops to file ops and open given file
|
||
SetFileIO;
|
||
Handle := IO.OpenRead(PChar(FileName));
|
||
try
|
||
// Test if file contains valid image and if so then load it
|
||
if TestFormat(Handle) then
|
||
begin
|
||
Result := PrepareLoad(Handle, Images, OnlyFirstLevel) and
|
||
LoadData(Handle, Images, OnlyFirstlevel);
|
||
Result := Result and PostLoadCheck(Images, Result);
|
||
end
|
||
else
|
||
RaiseImaging(SFileNotValid, [FileName, Name]);
|
||
finally
|
||
IO.Close(Handle);
|
||
end;
|
||
except
|
||
RaiseImaging(SErrorLoadingFile, [FileName, FExtensions[0]]);
|
||
end;
|
||
end;
|
||
|
||
function TImageFileFormat.LoadFromStream(Stream: TStream;
|
||
var Images: TDynImageDataArray; OnlyFirstLevel: Boolean): Boolean;
|
||
var
|
||
Handle: TImagingHandle;
|
||
OldPosition: Int64;
|
||
begin
|
||
Result := False;
|
||
OldPosition := Stream.Position;
|
||
if FCanLoad then
|
||
try
|
||
// Set IO ops to stream ops and "open" given memory
|
||
SetStreamIO;
|
||
Handle := IO.OpenRead(Pointer(Stream));
|
||
try
|
||
// Test if stream contains valid image and if so then load it
|
||
if TestFormat(Handle) then
|
||
begin
|
||
Result := PrepareLoad(Handle, Images, OnlyFirstLevel) and
|
||
LoadData(Handle, Images, OnlyFirstlevel);
|
||
Result := Result and PostLoadCheck(Images, Result);
|
||
end
|
||
else
|
||
RaiseImaging(SStreamNotValid, [@Stream, Name]);
|
||
finally
|
||
IO.Close(Handle);
|
||
end;
|
||
except
|
||
Stream.Position := OldPosition;
|
||
RaiseImaging(SErrorLoadingStream, [@Stream, FExtensions[0]]);
|
||
end;
|
||
end;
|
||
|
||
function TImageFileFormat.LoadFromMemory(Data: Pointer; Size: LongInt; var
|
||
Images: TDynImageDataArray; OnlyFirstLevel: Boolean): Boolean;
|
||
var
|
||
Handle: TImagingHandle;
|
||
IORec: TMemoryIORec;
|
||
begin
|
||
Result := False;
|
||
if FCanLoad then
|
||
try
|
||
// Set IO ops to memory ops and "open" given memory
|
||
SetMemoryIO;
|
||
IORec := PrepareMemIO(Data, Size);
|
||
Handle := IO.OpenRead(@IORec);
|
||
try
|
||
// Test if memory contains valid image and if so then load it
|
||
if TestFormat(Handle) then
|
||
begin
|
||
Result := PrepareLoad(Handle, Images, OnlyFirstLevel) and
|
||
LoadData(Handle, Images, OnlyFirstlevel);
|
||
Result := Result and PostLoadCheck(Images, Result);
|
||
end
|
||
else
|
||
RaiseImaging(SMemoryNotValid, [Data, Size, Name]);
|
||
finally
|
||
IO.Close(Handle);
|
||
end;
|
||
except
|
||
RaiseImaging(SErrorLoadingMemory, [Data, Size, FExtensions[0]]);
|
||
end;
|
||
end;
|
||
|
||
function TImageFileFormat.SaveToFile(const FileName: string;
|
||
const Images: TDynImageDataArray; OnlyFirstLevel: Boolean): Boolean;
|
||
var
|
||
Handle: TImagingHandle;
|
||
Len, Index, I: LongInt;
|
||
Ext, FName: string;
|
||
begin
|
||
Result := False;
|
||
if FCanSave and TestImagesInArray(Images) then
|
||
try
|
||
SetFileIO;
|
||
Len := Length(Images);
|
||
if FIsMultiImageFormat or
|
||
(not FIsMultiImageFormat and (OnlyFirstLevel or (Len = 1))) then
|
||
begin
|
||
Handle := IO.OpenWrite(PChar(FileName));
|
||
try
|
||
if OnlyFirstLevel then
|
||
Index := 0
|
||
else
|
||
Index := -1;
|
||
// Write multi image to one file
|
||
Result := PrepareSave(Handle, Images, Index) and SaveData(Handle, Images, Index);
|
||
finally
|
||
IO.Close(Handle);
|
||
end;
|
||
end
|
||
else
|
||
begin
|
||
// Write multi image to file sequence
|
||
Ext := ExtractFileExt(FileName);
|
||
FName := ChangeFileExt(FileName, '');
|
||
Result := True;
|
||
for I := 0 to Len - 1 do
|
||
begin
|
||
Handle := IO.OpenWrite(PChar(Format(FName + '%.3d' + Ext, [I])));
|
||
try
|
||
Index := I;
|
||
Result := Result and PrepareSave(Handle, Images, Index) and
|
||
SaveData(Handle, Images, Index);
|
||
if not Result then
|
||
Break;
|
||
finally
|
||
IO.Close(Handle);
|
||
end;
|
||
end;
|
||
end;
|
||
except
|
||
RaiseImaging(SErrorSavingFile, [FileName, FExtensions[0]]);
|
||
end;
|
||
end;
|
||
|
||
function TImageFileFormat.SaveToStream(Stream: TStream;
|
||
const Images: TDynImageDataArray; OnlyFirstLevel: Boolean): Boolean;
|
||
var
|
||
Handle: TImagingHandle;
|
||
Len, Index, I: LongInt;
|
||
OldPosition: Int64;
|
||
begin
|
||
Result := False;
|
||
OldPosition := Stream.Position;
|
||
if FCanSave and TestImagesInArray(Images) then
|
||
try
|
||
SetStreamIO;
|
||
Handle := IO.OpenWrite(PChar(Stream));
|
||
try
|
||
if FIsMultiImageFormat or OnlyFirstLevel then
|
||
begin
|
||
if OnlyFirstLevel then
|
||
Index := 0
|
||
else
|
||
Index := -1;
|
||
// Write multi image in one run
|
||
Result := PrepareSave(Handle, Images, Index) and SaveData(Handle, Images, Index);
|
||
end
|
||
else
|
||
begin
|
||
// Write multi image to sequence
|
||
Result := True;
|
||
Len := Length(Images);
|
||
for I := 0 to Len - 1 do
|
||
begin
|
||
Index := I;
|
||
Result := Result and PrepareSave(Handle, Images, Index) and
|
||
SaveData(Handle, Images, Index);
|
||
if not Result then
|
||
Break;
|
||
end;
|
||
end;
|
||
finally
|
||
IO.Close(Handle);
|
||
end;
|
||
except
|
||
Stream.Position := OldPosition;
|
||
RaiseImaging(SErrorSavingStream, [@Stream, FExtensions[0]]);
|
||
end;
|
||
end;
|
||
|
||
function TImageFileFormat.SaveToMemory(Data: Pointer; var Size: LongInt;
|
||
const Images: TDynImageDataArray; OnlyFirstLevel: Boolean): Boolean;
|
||
var
|
||
Handle: TImagingHandle;
|
||
Len, Index, I: LongInt;
|
||
IORec: TMemoryIORec;
|
||
begin
|
||
Result := False;
|
||
if FCanSave and TestImagesInArray(Images) then
|
||
try
|
||
SetMemoryIO;
|
||
IORec := PrepareMemIO(Data, Size);
|
||
Handle := IO.OpenWrite(PChar(@IORec));
|
||
try
|
||
if FIsMultiImageFormat or OnlyFirstLevel then
|
||
begin
|
||
if OnlyFirstLevel then
|
||
Index := 0
|
||
else
|
||
Index := -1;
|
||
// Write multi image in one run
|
||
Result := PrepareSave(Handle, Images, Index) and SaveData(Handle, Images, Index);
|
||
end
|
||
else
|
||
begin
|
||
// Write multi image to sequence
|
||
Result := True;
|
||
Len := Length(Images);
|
||
for I := 0 to Len - 1 do
|
||
begin
|
||
Index := I;
|
||
Result := Result and PrepareSave(Handle, Images, Index) and
|
||
SaveData(Handle, Images, Index);
|
||
if not Result then
|
||
Break;
|
||
end;
|
||
end;
|
||
Size := IORec.Position;
|
||
finally
|
||
IO.Close(Handle);
|
||
end;
|
||
except
|
||
RaiseImaging(SErrorSavingMemory, [Data, Size, FExtensions[0]]);
|
||
end;
|
||
end;
|
||
|
||
function TImageFileFormat.MakeCompatible(const Image: TImageData;
|
||
var Compatible: TImageData; out MustBeFreed: Boolean): Boolean;
|
||
begin
|
||
InitImage(Compatible);
|
||
|
||
if SaveOverrideFormat <> ifUnknown then
|
||
begin
|
||
// Save format override is active. Clone input and convert it to override format.
|
||
CloneImage(Image, Compatible);
|
||
ConvertImage(Compatible, SaveOverrideFormat);
|
||
// Now check if override format is supported by file format. If it is not
|
||
// then file format specific conversion (virtual method) is called.
|
||
Result := IsSupported(Compatible);
|
||
if not Result then
|
||
begin
|
||
ConvertToSupported(Compatible, GetFormatInfo(Compatible.Format));
|
||
Result := IsSupported(Compatible);
|
||
end;
|
||
end // Add IsCompatible function! not only checking by Format
|
||
else if IsSupported(Image) then
|
||
begin
|
||
// No save format override and input is in format supported by this
|
||
// file format. Just copy Image's fields to Compatible
|
||
Compatible := Image;
|
||
Result := True;
|
||
end
|
||
else
|
||
begin
|
||
// No override and input's format is not compatible with file format.
|
||
// Clone it and the call file format specific conversion (virtual method).
|
||
CloneImage(Image, Compatible);
|
||
ConvertToSupported(Compatible, GetFormatInfo(Compatible.Format));
|
||
Result := IsSupported(Compatible);
|
||
end;
|
||
// Tell the user that he must free Compatible after he's done with it
|
||
// (if necessary).
|
||
MustBeFreed := Image.Bits <> Compatible.Bits;
|
||
end;
|
||
|
||
function TImageFileFormat.TestFormat(Handle: TImagingHandle): Boolean;
|
||
begin
|
||
Result := False;
|
||
end;
|
||
|
||
function TImageFileFormat.TestFileName(const FileName: string): Boolean;
|
||
var
|
||
I: LongInt;
|
||
OnlyName: string;
|
||
begin
|
||
OnlyName := ExtractFileName(FileName);
|
||
// For each mask test if filename matches it
|
||
for I := 0 to FMasks.Count - 1 do
|
||
if MatchFileNameMask(OnlyName, FMasks[I], False) then
|
||
begin
|
||
Result := True;
|
||
Exit;
|
||
end;
|
||
Result := False;
|
||
end;
|
||
|
||
procedure TImageFileFormat.CheckOptionsValidity;
|
||
begin
|
||
end;
|
||
|
||
{ TOptionStack class implementation }
|
||
|
||
constructor TOptionStack.Create;
|
||
begin
|
||
inherited Create;
|
||
FPosition := -1;
|
||
end;
|
||
|
||
destructor TOptionStack.Destroy;
|
||
var
|
||
I: LongInt;
|
||
begin
|
||
for I := 0 to OptionStackDepth - 1 do
|
||
SetLength(FStack[I], 0);
|
||
inherited Destroy;
|
||
end;
|
||
|
||
function TOptionStack.Pop: Boolean;
|
||
var
|
||
I: LongInt;
|
||
begin
|
||
Result := False;
|
||
if FPosition >= 0 then
|
||
begin
|
||
SetLength(Options, Length(FStack[FPosition]));
|
||
for I := 0 to Length(FStack[FPosition]) - 1 do
|
||
if Options[I] <> nil then
|
||
Options[I]^ := FStack[FPosition, I];
|
||
Dec(FPosition);
|
||
Result := True;
|
||
end;
|
||
end;
|
||
|
||
function TOptionStack.Push: Boolean;
|
||
var
|
||
I: LongInt;
|
||
begin
|
||
Result := False;
|
||
if FPosition < OptionStackDepth - 1 then
|
||
begin
|
||
Inc(FPosition);
|
||
SetLength(FStack[FPosition], Length(Options));
|
||
for I := 0 to Length(Options) - 1 do
|
||
if Options[I] <> nil then
|
||
FStack[FPosition, I] := Options[I]^;
|
||
Result := True;
|
||
end;
|
||
end;
|
||
|
||
initialization
|
||
{$IFDEF MEMCHECK}
|
||
{$IF CompilerVersion >= 18}
|
||
System.ReportMemoryLeaksOnShutdown := True;
|
||
{$IFEND}
|
||
{$ENDIF}
|
||
if ImageFileFormats = nil then
|
||
ImageFileFormats := TList.Create;
|
||
InitImageFormats;
|
||
RegisterOption(ImagingColorReductionMask, @ColorReductionMask);
|
||
RegisterOption(ImagingLoadOverrideFormat, @LoadOverrideFormat);
|
||
RegisterOption(ImagingSaveOverrideFormat, @SaveOverrideFormat);
|
||
RegisterOption(ImagingMipMapFilter, @MipMapFilter);
|
||
finalization
|
||
FreeOptions;
|
||
FreeImageFileFormats;
|
||
|
||
{
|
||
File Notes:
|
||
|
||
-- TODOS ----------------------------------------------------
|
||
- nothing now
|
||
|
||
-- 0.24.3 Changes/Bug Fixes ---------------------------------
|
||
- GenerateMipMaps now generates all smaller levels from
|
||
original big image (better results when using more advanced filters).
|
||
Also conversion to compatible image format is now done here not
|
||
in FillMipMapLevel (that is called for every mipmap level).
|
||
|
||
-- 0.23 Changes/Bug Fixes -----------------------------------
|
||
- MakePaletteForImages now works correctly for indexed and special format images
|
||
- Fixed bug in StretchRect: Image was not properly stretched if
|
||
src and dst dimensions differed only in height.
|
||
- ConvertImage now fills new image with zeroes to avoid random data in
|
||
some conversions (RGB->XRGB)
|
||
- Changed RegisterOption procedure to function
|
||
- Changed bunch of palette functions from low level interface to procedure
|
||
(there was no reason for them to be functions).
|
||
- Changed FreeImage and FreeImagesInArray functions to procedures.
|
||
- Added many assertions, come try-finally, other checks, and small code
|
||
and doc changes.
|
||
|
||
-- 0.21 Changes/Bug Fixes -----------------------------------
|
||
- GenerateMipMaps threw failed assertion when input was indexed or special,
|
||
fixed.
|
||
- Added CheckOptionsValidity to TImageFileFormat and its decendants.
|
||
- Unit ImagingExtras which registers file formats in Extras package
|
||
is now automatically added to uses clause if LINK_EXTRAS symbol is
|
||
defined in ImagingOptions.inc file.
|
||
- Added EnumFileFormats function to low level interface.
|
||
- Fixed bug in SwapChannels which could cause AV when swapping alpha
|
||
channel of A8R8G8B8 images.
|
||
- Converting loaded images to ImagingOverrideFormat is now done
|
||
in PostLoadCheck method to avoid code duplicity.
|
||
- Added GetFileFormatCount and GetFileFormatAtIndex functions
|
||
- Bug in ConvertImage: if some format was converted to similar format
|
||
only with swapped channels (R16G16B16<>B16G16R16) then channels were
|
||
swapped correctly but new data format (swapped one) was not set.
|
||
- Made TImageFileFormat.MakeCompatible public non-virtual method
|
||
(and modified its function). Created new virtual
|
||
ConvertToSupported which should be overriden by descendants.
|
||
Main reason for doint this is to avoid duplicate code that was in all
|
||
TImageFileFormat's descendants.
|
||
- Changed TImageFileFormat.GetFormatInfo's result type to TImageFormatInfo.
|
||
- Split overloaded FindImageFileFormat functions to
|
||
FindImageFileFormatByClass and FindImageFileFormatByExt and created new
|
||
FindImageFileFormatByName which operates on whole filenames.
|
||
- Function GetExtensionFilterIndex renamed to GetFileNameFilterIndex
|
||
(because it now works with filenames not extensions).
|
||
- DetermineFileFormat now first searches by filename and if not found
|
||
then by data.
|
||
- Added TestFileName method to TImageFileFormat.
|
||
- Updated GetImageFileFormatsFilter to uses Masks instead of Extensions
|
||
property of TImageFileFormat. Also you can now request
|
||
OpenDialog and SaveDialog type filters
|
||
- Added Masks property and AddMasks method to TImageFileFormat.
|
||
AddMasks replaces AddExtensions, it uses filename masks instead
|
||
of sime filename extensions to identify supported files.
|
||
- Changed TImageFileFormat.LoadData procedure to function and
|
||
moved varios duplicate code from its descandats (check index,...)
|
||
here to TImageFileFormat helper methods.
|
||
- Changed TImageFileFormat.SaveData procedure to function and
|
||
moved varios duplicate code from its descandats (check index,...)
|
||
here to TImageFileFormat helper methods.
|
||
- Removed RAISE_EXCEPTIONS define, exceptions are now raised everytime
|
||
- Added MustBeFreed parameter to TImageFileFormat.MakeComptible method
|
||
that indicates that compatible image returned by this method must be
|
||
freed after its usage.
|
||
|
||
-- 0.19 Changes/Bug Fixes -----------------------------------
|
||
- fixed bug in NewImage: if given format was ifDefault it wasn't
|
||
replaced with DefaultImageFormat constant which caused problems later
|
||
in other units
|
||
- fixed bug in RotateImage which caused that rotated special format
|
||
images were whole black
|
||
- LoadImageFromXXX and LoadMultiImageFromXXX now use DetermineXXXFormat
|
||
when choosing proper loader, this eliminated need for Ext parameter
|
||
in stream and memory loading functions
|
||
- added GetVersionStr function
|
||
- fixed bug in ResizeImage which caued indexed images to lose their
|
||
palette during process resulting in whole black image
|
||
- Clipping in ...Rect functions now uses clipping procs from ImagingUtility,
|
||
it also works better
|
||
- FillRect optimization for 8, 16, and 32 bit formats
|
||
- added pixel set/get functions to low level interface:
|
||
GetPixelDirect, SetPixelDirect, GetPixel32, SetPixel32,
|
||
GetPixelFP, SetPixelFP
|
||
- removed GetPixelBytes low level intf function - redundant
|
||
(same data can be obtained by GetImageFormatInfo)
|
||
- made small changes in many parts of library to compile
|
||
on AMD64 CPU (Linux with FPC)
|
||
- changed InitImage to procedure (function was pointless)
|
||
- Method TestFormat of TImageFileFormat class made public
|
||
(was protected)
|
||
- added function IsFileFormatSupported to low level interface
|
||
(contributed by Paul Michell)
|
||
- fixed some missing format arguments from error strings
|
||
which caused Format function to raise exception
|
||
- removed forgotten debug code that disabled filtered resizing of images with
|
||
channel bitcounts > 8
|
||
|
||
-- 0.17 Changes/Bug Fixes -----------------------------------
|
||
- changed order of parameters of CopyRect function
|
||
- GenerateMipMaps now filters mipmap levels
|
||
- ResizeImage functions was extended to allow bilinear and bicubic filtering
|
||
- added StretchRect function to low level interface
|
||
- added functions GetImageFileFormatsFilter, GetFilterIndexExtension,
|
||
and GetExtensionFilterIndex
|
||
|
||
-- 0.15 Changes/Bug Fixes -----------------------------------
|
||
- added function RotateImage to low level interface
|
||
- moved TImageFormatInfo record and types required by it to
|
||
ImagingTypes unit, changed GetImageFormatInfo low level
|
||
interface function to return TImageFormatInfo instead of short info
|
||
- added checking of options values validity before they are used
|
||
- fixed possible memory leak in CloneImage
|
||
- added ReplaceColor function to low level interface
|
||
- new function FindImageFileFormat by class added
|
||
|
||
-- 0.13 Changes/Bug Fixes -----------------------------------
|
||
- added DetermineFileFormat, DetermineStreamFormat, DetermineMemoryFormat,
|
||
GetPixelsSize functions to low level interface
|
||
- added NewPalette, CopyPalette, FreePalette functions
|
||
to low level interface
|
||
- added MapImageToPalette, FillRect, SplitImage, MakePaletteForImages
|
||
functions to low level interface
|
||
- fixed buggy FillCustomPalette function (possible div by zero and others)
|
||
- added CopyRect function to low level interface
|
||
- Member functions of TImageFormatInfo record implemented for all formats
|
||
- before saving images TestImagesInArray is called now
|
||
- added TestImagesInArray function to low level interface
|
||
- added GenerateMipMaps function to low level interface
|
||
- stream position in load/save from/to stream is now set to position before
|
||
function was called if error occurs
|
||
- when error occured during load/save from/to file file handle
|
||
was not released
|
||
- CloneImage returned always False
|
||
|
||
}
|
||
end.
|
||
|