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806 lines
32 KiB
806 lines
32 KiB
15 years ago
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//C- -*- C++ -*-
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//C- -------------------------------------------------------------------
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//C- DjVuLibre-3.5
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//C- Copyright (c) 2002 Leon Bottou and Yann Le Cun.
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//C- Copyright (c) 2001 AT&T
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//C-
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//C- This software is subject to, and may be distributed under, the
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//C- GNU General Public License, Version 2. The license should have
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//C- accompanied the software or you may obtain a copy of the license
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//C- from the Free Software Foundation at http://www.fsf.org .
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//C-
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//C- This program is distributed in the hope that it will be useful,
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//C- but WITHOUT ANY WARRANTY; without even the implied warranty of
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//C- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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//C- GNU General Public License for more details.
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//C-
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//C- DjVuLibre-3.5 is derived from the DjVu(r) Reference Library
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//C- distributed by Lizardtech Software. On July 19th 2002, Lizardtech
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//C- Software authorized us to replace the original DjVu(r) Reference
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//C- Library notice by the following text (see doc/lizard2002.djvu):
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//C-
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//C- ------------------------------------------------------------------
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//C- | DjVu (r) Reference Library (v. 3.5)
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//C- | Copyright (c) 1999-2001 LizardTech, Inc. All Rights Reserved.
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//C- | The DjVu Reference Library is protected by U.S. Pat. No.
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//C- | 6,058,214 and patents pending.
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//C- |
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//C- | This software is subject to, and may be distributed under, the
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//C- | GNU General Public License, Version 2. The license should have
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//C- | accompanied the software or you may obtain a copy of the license
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//C- | from the Free Software Foundation at http://www.fsf.org .
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//C- |
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//C- | The computer code originally released by LizardTech under this
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//C- | license and unmodified by other parties is deemed "the LIZARDTECH
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//C- | ORIGINAL CODE." Subject to any third party intellectual property
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//C- | claims, LizardTech grants recipient a worldwide, royalty-free,
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//C- | non-exclusive license to make, use, sell, or otherwise dispose of
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//C- | the LIZARDTECH ORIGINAL CODE or of programs derived from the
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//C- | LIZARDTECH ORIGINAL CODE in compliance with the terms of the GNU
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//C- | General Public License. This grant only confers the right to
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//C- | infringe patent claims underlying the LIZARDTECH ORIGINAL CODE to
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//C- | the extent such infringement is reasonably necessary to enable
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//C- | recipient to make, have made, practice, sell, or otherwise dispose
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//C- | of the LIZARDTECH ORIGINAL CODE (or portions thereof) and not to
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//C- | any greater extent that may be necessary to utilize further
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//C- | modifications or combinations.
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//C- |
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//C- | The LIZARDTECH ORIGINAL CODE is provided "AS IS" WITHOUT WARRANTY
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//C- | OF ANY KIND, EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED
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//C- | TO ANY WARRANTY OF NON-INFRINGEMENT, OR ANY IMPLIED WARRANTY OF
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//C- | MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE.
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//C- +------------------------------------------------------------------
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//
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// $Id: JB2Image.h,v 1.9 2003/11/07 22:08:22 leonb Exp $
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// $Name: release_3_5_15 $
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#ifndef _JB2IMAGE_H
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#define _JB2IMAGE_H
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#ifdef HAVE_CONFIG_H
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#include "config.h"
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#endif
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#if NEED_GNUG_PRAGMAS
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# pragma interface
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#endif
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/** @name JB2Image.h
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Files #"JB2Image.h"# and #"JB2Image.cpp"# address the compression of
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bilevel images using the JB2 soft pattern matching scheme. These files
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provide the complete decoder and the decoder back-end. The JB2 scheme is
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optimized for images containing a large number of self-similar small
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components such as characters. Typical text images can be compressed into
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files 3 to 5 times smaller than with G4/MMR and 2 to 4 times smaller than
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with JBIG1.
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{\bf JB2 and JBIG2} --- JB2 has strong similarities with the forthcoming
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JBIG2 standard developed by the "ISO/IEC JTC1 SC29 Working Group 1" which
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is responsible for both the JPEG and JBIG standards. This is hardly
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surprising since JB2 was our own proposal for the JBIG2 standard
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and remained the only proposal for years. The full JBIG2 standard however
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is significantly more complex and slighlty less efficient than JB2 because
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it addresses a broader range of applications. Full JBIG2 compliance may
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be implemented in the future.
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{\bf JB2 Images} --- Class \Ref{JB2Image} is the central data structure
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implemented here. A #JB2Image# is composed of an array of shapes
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and an array of blits. Each shape contains a small bitmap representing an
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elementary blob of ink, such as a character or a segment of line art.
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Each blit instructs the decoder to render a particular shape at a
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specified position in the image. Some compression is already achieved
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because several blits can refer to the same shape. A shape can also
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contain a pointer to a parent shape. Additional compression is achieved
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when both shapes are similar because each shape is encoded using the
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parent shape as a model. A #"O"# shape for instance could be a parent for
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both a #"C"# shape and a #"Q"# shape.
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{\bf JB2 Dictionary} --- Class \Ref{JB2Dict} is a peculiar kind of
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JB2Image which only contains an array of shapes. These shapes can be
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referenced from another JB2Dict/JB2Image. This is arranged by setting the
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``inherited dictionary'' of a JB2Dict/JB2Image using function
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\Ref{JB2Dict::set_inherited_dict}. Several JB2Images can use shapes from a
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same JB2Dict encoded separately. This is how several pages of a same
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document can share information.
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{\bf Decoding JB2 data} --- The first step for decoding JB2 data consists of
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creating an empty #JB2Image# object. Function \Ref{JB2Image::decode} then
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reads the data and populates the #JB2Image# with the shapes and the blits.
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Function \Ref{JB2Image::get_bitmap} finally produces an anti-aliased image.
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{\bf Encoding JB2 data} --- The first step for decoding JB2 data also
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consists of creating an empty #JB2Image# object. You must then use
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functions \Ref{JB2Image::add_shape} and \Ref{JB2Image::add_blit} to
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populate the #JB2Image# object. Function \Ref{JB2Image::encode} finally
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produces the JB2 data. Function #encode# sequentially encodes the blits
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and the necessary shapes. The compression ratio depends on several
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factors:
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\begin{itemize}
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\item Blits should reuse shapes as often as possible.
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\item Blits should be sorted in reading order because this facilitates
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the prediction of the blit coordinates.
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\item Shapes should be sorted according to the order of first appearance
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in the sequence of blits because this facilitates the prediction of the
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shape indices.
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\item Shapes should be compared to all previous shapes in the shape array.
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The shape parent pointer should be set to a suitable parent shape if
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such a parent shape exists. The parent shape should have almost the
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same size and the same pixels.
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\end{itemize}
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All this is quite easy to achieve in the case of an electronically
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produced document such as a DVI file or a PS file: we know what the
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characters are and where they are located. If you only have a scanned
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image however you must first locate the characters (connected component
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analysis) and cut the remaining pieces of ink into smaller blobs.
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Ordering the blits and matching the shapes is then an essentially
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heuristic process. Although the quality of the heuristics substantially
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effects the file size, misordering blits or mismatching shapes never
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effects the quality of the image. The last refinement consists in
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smoothing the shapes in order to reduce the noise and maximize the
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similarities between shapes.
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{\bf JB2 extensions} --- Two extensions of the JB2
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encoding format have been introduced with DjVu files version 21. The first
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extension addresses the shared shape dictionaries. The second extension
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bounds the number of probability contexts used for coding numbers.
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Both extensions maintain backward compatibility with JB2 as
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described in the ICFDD proposal. A more complete discussion
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can be found in section \Ref{JB2 extensions for version 21.}.
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{\bf References}
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\begin{itemize}
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\item Paul G. Howard : {\em Text image compression using soft
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pattern matching}, Computer Journal, volume 40:2/3, 1997.
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\item JBIG1 : \URL{http://www.jpeg.org/public/jbighomepage.htm}.
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\item JBIG2 draft : \URL{http://www.jpeg.org/public/jbigpt2.htm}.
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\item ICFDD Draft Proposed American National Standard, 1999-08-26.
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\end{itemize}
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@version
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#$Id: JB2Image.h,v 1.9 2003/11/07 22:08:22 leonb Exp $#
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@memo
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Coding bilevel images with JB2.
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@author
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Paul Howard <pgh@research.att.com> -- JB2 design\\
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L\'eon Bottou <leonb@research.att.com> -- this implementation
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// From: Leon Bottou, 1/31/2002
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// Lizardtech has split the corresponding cpp file into a decoder and an encoder.
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// Only superficial changes. The meat is mine.
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*/
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//@{
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#include "GString.h"
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#include "ZPCodec.h"
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#ifdef HAVE_NAMESPACES
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namespace DJVU {
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# ifdef NOT_DEFINED // Just to fool emacs c++ mode
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}
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#endif
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#endif
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class JB2Dict;
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class JB2Image;
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class GRect;
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class GBitmap;
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class ByteStream;
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/** Blit data structure. A #JB2Image# contains an array of #JB2Blit# data
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structures. Each array entry instructs the decoder to render a particular
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shape at a particular location. Members #left# and #bottom# specify the
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coordinates of the bottom left corner of the shape bitmap. All
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coordinates are relative to the bottom left corner of the image. Member
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#shapeno# is the subscript of the shape to be rendered. */
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class JB2Blit {
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public:
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/** Horizontal coordinate of the blit. */
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unsigned short left;
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/** Vertical coordinate of the blit. */
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unsigned short bottom;
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/** Index of the shape to blit. */
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unsigned int shapeno;
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};
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/** Shape data structure. A #JB2Image# contains an array of #JB2Shape# data
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structures. Each array entry represents an elementary blob of ink such as
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a character or a segment of line art. Member #bits# points to a bilevel
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image representing the shape pixels. Member #parent# is the subscript of
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the parent shape. */
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class JB2Shape
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{
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public:
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/** Subscript of the parent shape. The parent shape must always be located
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before the current shape in the shape array. A negative value indicates
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that this shape has no parent. Any negative values smaller than #-1#
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further indicates that this shape does not look like a character. This
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is used to enable a few internal optimizations. This information is
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saved into the JB2 file, but the actual value of the #parent# variable
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is not. */
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int parent;
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/** Bilevel image of the shape pixels. This must be a pointer to a bilevel
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#GBitmap# image. This pointer can also be null. The encoder will just
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silently discard all blits referring to a shape containing a null
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bitmap. */
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GP<GBitmap> bits;
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/** Private user data. This long word is provided as a convenience for users
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of the JB2Image data structures. Neither the rendering functions nor
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the coding functions ever access this value. */
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long userdata;
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};
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/** JB2 Dictionary callback.
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The decoding function call this callback function when they discover that
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the current JB2Image or JB2Dict needs a pre-existing shape dictionary.
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The callback function must return a pointer to the dictionary or NULL
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if none is found. */
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typedef GP<JB2Dict> JB2DecoderCallback ( void* );
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/** Dictionary of JB2 shapes. */
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class JB2Dict : public GPEnabled
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{
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protected:
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JB2Dict(void);
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public:
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class JB2Codec;
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// CONSTRUCTION
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/** Default creator. Constructs an empty #JB2Dict# object. You can then
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call the decoding function #decode#. You can also manually set the
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image size using #add_shape#. */
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static GP<JB2Dict> create(void);
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// INITIALIZATION
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/** Resets the #JB2Image# object. This function reinitializes both the shape
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and the blit arrays. All allocated memory is freed. */
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void init(void);
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// INHERITED
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/** Returns the inherited dictionary. */
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GP<JB2Dict> get_inherited_dict(void) const;
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/** Returns the number of inherited shapes. */
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int get_inherited_shape_count(void) const;
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/** Sets the inherited dictionary. */
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void set_inherited_dict(const GP<JB2Dict> &dict);
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// ACCESSING THE SHAPE LIBRARY
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/** Returns the total number of shapes.
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Shape indices range from #0# to #get_shape_count()-1#. */
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int get_shape_count(void) const;
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/** Returns a pointer to shape #shapeno#.
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The returned pointer directly points into the shape array.
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This pointer can be used for reading or writing the shape data. */
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JB2Shape &get_shape(const int shapeno);
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/** Returns a constant pointer to shape #shapeno#.
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The returned pointer directly points into the shape array.
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This pointer can only be used for reading the shape data. */
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const JB2Shape &get_shape(const int shapeno) const;
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/** Appends a shape to the shape array. This function appends a copy of
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shape #shape# to the shape array and returns the subscript of the new
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shape. The subscript of the parent shape #shape.parent# must
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actually designate an already existing shape. */
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int add_shape(const JB2Shape &shape);
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// MEMORY OPTIMIZATION
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/** Compresses all shape bitmaps. This function reduces the memory required
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by the #JB2Image# by calling \Ref{GBitmap::compress} on all shapes
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bitmaps. This function is best called after decoding a #JB2Image#,
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because function \Ref{get_bitmap} can directly use the compressed
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bitmaps. */
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void compress(void);
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/** Returns the total memory used by the JB2Image.
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The returned value is expressed in bytes. */
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unsigned int get_memory_usage(void) const;
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// CODING
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/** Encodes the JB2Dict into ByteStream #bs#.
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This function generates the JB2 data stream without any header. */
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void encode(const GP<ByteStream> &gbs) const;
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/** Decodes JB2 data from ByteStream #bs#. This function decodes the image
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size and populates the shape and blit arrays. The callback function
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#cb# is called when the decoder determines that the ByteStream data
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requires a shape dictionary which has not been set with
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\Ref{JB2Dict::set_inherited_dict}. The callback receives argument #arg#
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and must return a suitable dictionary which will be installed as the
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inherited dictionary. The callback should return null if no such
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dictionary is found. */
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void decode(const GP<ByteStream> &gbs, JB2DecoderCallback *cb=0, void *arg=0);
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public:
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/** Comment string coded by JB2 file. */
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GUTF8String comment;
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private:
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int inherited_shapes;
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GP<JB2Dict> inherited_dict;
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GArray<JB2Shape> shapes;
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};
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/** Main JB2 data structure. Each #JB2Image# consists of an array of shapes
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and an array of blits. These arrays can be populated by hand using
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functions \Ref{add_shape} and \Ref{add_blit}, or by decoding JB2 data
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using function \Ref{decode}. You can then use function \Ref{get_bitmap}
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to render anti-aliased images, or use function \Ref{encode} to generate
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JB2 data. */
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class JB2Image : public JB2Dict
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{
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protected:
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JB2Image(void);
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public:
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/** Creates an empty #JB2Image# object. You can then
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call the decoding function #decode#. You can also manually set the
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image size using #set_dimension# and populate the shape and blit arrays
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using #add_shape# and #add_blit#. */
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static GP<JB2Image> create(void) { return new JB2Image(); }
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// INITIALIZATION
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/** Resets the #JB2Image# object. This function reinitializes both the shape
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and the blit arrays. All allocated memory is freed. */
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void init(void);
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// DIMENSION
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/** Returns the width of the image.
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This is the width value previously set with #set_dimension#. */
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int get_width(void) const;
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/** Returns the height of the image.
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This is the height value previously set with #set_dimension#. */
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int get_height(void) const;
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/** Sets the size of the JB2Image.
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This function can be called at any time.
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The corresponding #width# and the #height# are stored
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in the JB2 file. */
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void set_dimension(int width, int height);
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// RENDERING
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/** Renders an anti-aliased gray level image. This function renders the
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JB2Image as a bilevel or gray level image. Argument #subsample#
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specifies the desired subsampling ratio in range #1# to #15#. The
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returned image uses #1+subsample^2# gray levels for representing
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anti-aliased edges. Argument #align# specified the alignment of the
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rows of the returned images. Setting #align# to #4#, for instance, will
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adjust the bitmap border in order to make sure that each row of the
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returned image starts on a word (four byte) boundary. */
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GP<GBitmap> get_bitmap(int subsample = 1, int align = 1) const;
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/** Renders an anti-aliased gray level sub-image. This function renders a
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||
|
segment of the JB2Image as a bilevel or gray level image. Conceptually,
|
||
|
this function first renders the full JB2Image with subsampling ratio
|
||
|
#subsample# and then extracts rectangle #rect# in the subsampled image.
|
||
|
Both operations of course are efficiently performed simultaneously.
|
||
|
Argument #align# specified the alignment of the rows of the returned
|
||
|
images, as explained above. Argument #dispy# should remain null. */
|
||
|
GP<GBitmap> get_bitmap(const GRect &rect, int subsample=1, int align=1, int dispy=0) const;
|
||
|
|
||
|
// ACCESSING THE BLIT LIBRARY
|
||
|
/** Returns the total number of blits.
|
||
|
Blit indices range from #0# to #get_blit_count(void)-1#. */
|
||
|
int get_blit_count(void) const;
|
||
|
/** Returns a pointer to blit #blitno#.
|
||
|
The returned pointer directly points into the blit array.
|
||
|
This pointer can be used for reading or writing the blit data. */
|
||
|
JB2Blit *get_blit(int blitno);
|
||
|
/** Returns a constant pointer to blit #blitno#.
|
||
|
The returned pointer directly points into the shape array.
|
||
|
This pointer can only be used for reading the shape data. */
|
||
|
const JB2Blit *get_blit(int blitno) const;
|
||
|
/** Appends a blit to the blit array. This function appends a copy of blit
|
||
|
#blit# to the blit array and returns the subscript of the new blit. The
|
||
|
shape subscript #blit.shapeno# must actually designate an already
|
||
|
existing shape. */
|
||
|
int add_blit(const JB2Blit &blit);
|
||
|
|
||
|
// MEMORY OPTIMIZATION
|
||
|
/** Returns the total memory used by the JB2Image.
|
||
|
The returned value is expressed in bytes. */
|
||
|
unsigned int get_memory_usage(void) const;
|
||
|
|
||
|
// CODING
|
||
|
/** Encodes the JB2Image into ByteStream #bs#.
|
||
|
This function generates the JB2 data stream without any header. */
|
||
|
void encode(const GP<ByteStream> &gbs) const;
|
||
|
/** Decodes JB2 data from ByteStream #bs#. This function decodes the image
|
||
|
size and populates the shape and blit arrays. The callback function
|
||
|
#cb# is called when the decoder determines that the ByteStream data
|
||
|
requires a shape dictionary which has not been set with
|
||
|
\Ref{JB2Dict::set_inherited_dict}. The callback receives argument #arg#
|
||
|
and must return a suitable dictionary which will be installed as the
|
||
|
inherited dictionary. The callback should return null if no such
|
||
|
dictionary is found. */
|
||
|
void decode(const GP<ByteStream> &gbs, JB2DecoderCallback *cb=0, void *arg=0);
|
||
|
|
||
|
private:
|
||
|
// Implementation
|
||
|
int width;
|
||
|
int height;
|
||
|
GTArray<JB2Blit> blits;
|
||
|
public:
|
||
|
/** Reproduces a old bug. Setting this flag may be necessary for accurately
|
||
|
decoding DjVu files with version smaller than #18#. The default value
|
||
|
is of couse #false#. */
|
||
|
bool reproduce_old_bug;
|
||
|
};
|
||
|
|
||
|
|
||
|
|
||
|
// JB2DICT INLINE FUNCTIONS
|
||
|
|
||
|
inline int
|
||
|
JB2Dict::get_shape_count(void) const
|
||
|
{
|
||
|
return inherited_shapes + shapes.size();
|
||
|
}
|
||
|
|
||
|
inline int
|
||
|
JB2Dict::get_inherited_shape_count(void) const
|
||
|
{
|
||
|
return inherited_shapes;
|
||
|
}
|
||
|
|
||
|
inline GP<JB2Dict>
|
||
|
JB2Dict::get_inherited_dict(void) const
|
||
|
{
|
||
|
return inherited_dict;
|
||
|
}
|
||
|
|
||
|
// JB2IMAGE INLINE FUNCTIONS
|
||
|
|
||
|
inline int
|
||
|
JB2Image::get_width(void) const
|
||
|
{
|
||
|
return width;
|
||
|
}
|
||
|
|
||
|
inline int
|
||
|
JB2Image::get_height(void) const
|
||
|
{
|
||
|
return height;
|
||
|
}
|
||
|
|
||
|
|
||
|
inline int
|
||
|
JB2Image::get_blit_count(void) const
|
||
|
{
|
||
|
return blits.size();
|
||
|
}
|
||
|
|
||
|
|
||
|
inline JB2Blit *
|
||
|
JB2Image::get_blit(int blitno)
|
||
|
{
|
||
|
return & blits[blitno];
|
||
|
}
|
||
|
|
||
|
inline const JB2Blit *
|
||
|
JB2Image::get_blit(int blitno) const
|
||
|
{
|
||
|
return & blits[blitno];
|
||
|
}
|
||
|
|
||
|
|
||
|
|
||
|
|
||
|
|
||
|
/** @name JB2 extensions for version 21.
|
||
|
|
||
|
Two extensions of the JB2 encoding format have been introduced
|
||
|
with DjVu files version 21. Both extensions maintain significant
|
||
|
backward compatibility with previous version of the JB2 format.
|
||
|
These extensions are described below by reference to the ICFDD
|
||
|
proposal dated August 1999. Both extension make use of the unused
|
||
|
record type value #9# (cf. ICFDD page 24) which has been renamed
|
||
|
#REQUIRED_DICT_OR_RESET#.
|
||
|
|
||
|
{\bf Shared Shape Dictionaries} --- This extension provides
|
||
|
support for sharing symbol definitions between the pages of a
|
||
|
document. To achieve this objective, the JB2 image data chunk
|
||
|
must be able to address symbols defined elsewhere by a JB2
|
||
|
dictionary data chunk shared by all the pages of a document.
|
||
|
|
||
|
The arithmetically encoded JB2 image data logically consist of a
|
||
|
sequence of records. The decoder processes these records in
|
||
|
sequence and maintains a library of symbols which can be addressed
|
||
|
by the following records. The first record usually is a ``Start
|
||
|
Of Image'' record describing the size of the image.
|
||
|
|
||
|
Starting with version 21, a #REQUIRED_DICT_OR_RESET# (9) record
|
||
|
type can appear {\em before} the #START_OF_DATA# (0) record. The
|
||
|
record type field is followed by a single number arithmetically
|
||
|
encoded (cf. ICFDD page 26) using a sixteenth context (cf. ICFDD
|
||
|
page 25). This record appears when the JB2 data chunk requires
|
||
|
symbols encoded in a separate JB2 dictionary data chunk. The
|
||
|
number (the {\bf dictionary size}) indicates how many symbols
|
||
|
should have been defined by the JB2 dictionary data chunk. The
|
||
|
decoder should simply load these symbols in the symbol library and
|
||
|
proceed as usual. New symbols potentially defined by the
|
||
|
subsequent JB2 image data records will therefore be numbered with
|
||
|
integers greater or equal than the dictionary size.
|
||
|
|
||
|
The JB2 dictionary data format is a pure subset of the JB2 image
|
||
|
data format. The #START_OF_DATA# (0) record always specifies an
|
||
|
image width of zero and an image height of zero. The only allowed
|
||
|
record types are those defining library symbols only
|
||
|
(#NEW_SYMBOL_LIBRARY_ONLY# (2) and #MATCHED_REFINE_LIBRARY_ONLY#
|
||
|
(5) cf. ICFDD page 24) followed by a final #END_OF_DATA# (11)
|
||
|
record.
|
||
|
|
||
|
The JB2 dictionary data is usually located in an {\bf Djbz} chunk.
|
||
|
Each page {\bf FORM:DJVU} may directly contain a {\bf Djbz} chunk,
|
||
|
or may indirectly point to such a chunk using an {\bf INCL} chunk
|
||
|
(cf. \Ref{Multipage DjVu documents.}).
|
||
|
|
||
|
|
||
|
{\bf Numcoder Reset} --- This extension addresses a problem for
|
||
|
hardware implementations. The encoding of numbers (cf. ICFDD page
|
||
|
26) potentially uses an unbounded number of binary coding
|
||
|
contexts. These contexts are normally allocated when they are used
|
||
|
for the first time (cf. ICFDD informative note, page 27).
|
||
|
|
||
|
Starting with version 21, a #REQUIRED_DICT_OR_RESET# (9) record
|
||
|
type can appear {\em after} the #START_OF_DATA# (0) record. The
|
||
|
decoder should proceed with the next record after {\em clearing
|
||
|
all binary contexts used for coding numbers}. This operation
|
||
|
implies that all binary contexts previously allocated for coding
|
||
|
numbers can be deallocated.
|
||
|
|
||
|
Starting with version 21, the JB2 encoder should insert a
|
||
|
#REQUIRED_DICT_OR_RESET# record type whenever the number of these
|
||
|
allocated binary contexts exceeds #20000#. Only very large
|
||
|
documents ever reach such a large number of allocated binary
|
||
|
contexts (e.g large maps). Hardware implementation however can
|
||
|
benefit greatly from a hard bound on the total number of binary
|
||
|
coding contexts. Old JB2 decoders will treat this record type as
|
||
|
an #END_OF_DATA# record and cleanly stop decoding (cf. ICFDD page
|
||
|
30, Image refinement data).
|
||
|
|
||
|
|
||
|
{\bf References} ---
|
||
|
\begin{itemize}
|
||
|
\item ICFDD Draft Proposed American National Standard, 1999-08-26.
|
||
|
\item DjVu Specification, \URL{http://www.lizardtech.com/djvu/sci/djvuspec}.
|
||
|
\end{itemize}
|
||
|
|
||
|
@memo Extensions to the JB2 format introduced in version 21. */
|
||
|
|
||
|
//@}
|
||
|
|
||
|
////////////////////////////////////////
|
||
|
//// CLASS JB2CODEC: DECLARATION
|
||
|
////////////////////////////////////////
|
||
|
|
||
|
// This class is accessed via the encode and decode
|
||
|
// functions of class JB2Image
|
||
|
|
||
|
|
||
|
//**** Class JB2Codec
|
||
|
// This class implements the base class for both the JB2 coder and decoder.
|
||
|
// The JB2Codec's Contains all contextual information for encoding/decoding
|
||
|
// a JB2Image.
|
||
|
|
||
|
class JB2Dict::JB2Codec
|
||
|
{
|
||
|
public:
|
||
|
class Decode;
|
||
|
class Encode;
|
||
|
typedef unsigned int NumContext;
|
||
|
struct LibRect
|
||
|
{
|
||
|
int top,left,right,bottom;
|
||
|
void compute_bounding_box(const GBitmap &cbm);
|
||
|
};
|
||
|
virtual ~JB2Codec();
|
||
|
protected:
|
||
|
// Constructors
|
||
|
JB2Codec(const bool xencoding=false);
|
||
|
// Forbidden assignment
|
||
|
JB2Codec(const JB2Codec &ref);
|
||
|
JB2Codec& operator=(const JB2Codec &ref);
|
||
|
|
||
|
int CodeNum(int lo, int hi, NumContext *pctx,int v);
|
||
|
void reset_numcoder(void);
|
||
|
inline void code_eventual_lossless_refinement(void);
|
||
|
void init_library(JB2Dict &jim);
|
||
|
int add_library(const int shapeno, JB2Shape &jshp);
|
||
|
void code_relative_location(JB2Blit *jblt, int rows, int columns);
|
||
|
void code_bitmap_directly (GBitmap &bm);
|
||
|
void code_bitmap_by_cross_coding (GBitmap &bm, GP<GBitmap> &cbm, const int libno);
|
||
|
void code_record(int &rectype, const GP<JB2Dict> &jim, JB2Shape *jshp);
|
||
|
void code_record(int &rectype, const GP<JB2Image> &jim, JB2Shape *jshp, JB2Blit *jblt);
|
||
|
static void compute_bounding_box(GBitmap &cbm, LibRect &lrect);
|
||
|
static int get_direct_context( unsigned char const * const up2,
|
||
|
unsigned char const * const up1, unsigned char const * const up0,
|
||
|
const int column);
|
||
|
static int shift_direct_context ( const int context,
|
||
|
const int next, unsigned char const * const up2,
|
||
|
unsigned char const * const up1, unsigned char const * const up0,
|
||
|
const int column);
|
||
|
static int get_cross_context( unsigned char const * const up1,
|
||
|
unsigned char const * const up0, unsigned char const * const xup1,
|
||
|
unsigned char const * const xup0, unsigned char const * const xdn1,
|
||
|
const int column );
|
||
|
static int shift_cross_context( const int context,
|
||
|
const int n, unsigned char const * const up1,
|
||
|
unsigned char const * const up0, unsigned char const * const xup1,
|
||
|
unsigned char const * const xup0, unsigned char const * const xdn1,
|
||
|
const int column );
|
||
|
|
||
|
virtual bool CodeBit(const bool bit, BitContext &ctx) = 0;
|
||
|
virtual void code_comment(GUTF8String &comment) = 0;
|
||
|
virtual void code_record_type(int &rectype) = 0;
|
||
|
virtual int code_match_index(int &index, JB2Dict &jim)=0;
|
||
|
virtual void code_inherited_shape_count(JB2Dict &jim)=0;
|
||
|
virtual void code_image_size(JB2Dict &jim);
|
||
|
virtual void code_image_size(JB2Image &jim);
|
||
|
virtual void code_absolute_location(JB2Blit *jblt, int rows, int columns)=0;
|
||
|
virtual void code_absolute_mark_size(GBitmap &bm, int border=0) = 0;
|
||
|
virtual void code_relative_mark_size(GBitmap &bm, int cw, int ch, int border=0) = 0;
|
||
|
virtual void code_bitmap_directly(GBitmap &bm,const int dw, int dy,
|
||
|
unsigned char *up2, unsigned char *up1, unsigned char *up0 )=0;
|
||
|
virtual void code_bitmap_by_cross_coding (GBitmap &bm, GBitmap &cbm,
|
||
|
const int xd2c, const int dw, int dy, int cy,
|
||
|
unsigned char *up1, unsigned char *up0, unsigned char *xup1,
|
||
|
unsigned char *xup0, unsigned char *xdn1 )=0;
|
||
|
// Code records
|
||
|
virtual int get_diff(const int x_diff,NumContext &rel_loc) = 0;
|
||
|
|
||
|
private:
|
||
|
bool encoding;
|
||
|
|
||
|
protected:
|
||
|
// NumCoder
|
||
|
int cur_ncell;
|
||
|
BitContext *bitcells;
|
||
|
GPBuffer<BitContext> gbitcells;
|
||
|
NumContext *leftcell;
|
||
|
GPBuffer<NumContext> gleftcell;
|
||
|
NumContext *rightcell;
|
||
|
GPBuffer<NumContext> grightcell;
|
||
|
// Info
|
||
|
bool refinementp;
|
||
|
char gotstartrecordp;
|
||
|
// Code comment
|
||
|
NumContext dist_comment_byte;
|
||
|
NumContext dist_comment_length;
|
||
|
// Code values
|
||
|
NumContext dist_record_type;
|
||
|
NumContext dist_match_index;
|
||
|
BitContext dist_refinement_flag;
|
||
|
// Library
|
||
|
GTArray<int> shape2lib;
|
||
|
GTArray<int> lib2shape;
|
||
|
GTArray<LibRect> libinfo;
|
||
|
// Code pairs
|
||
|
NumContext abs_loc_x;
|
||
|
NumContext abs_loc_y;
|
||
|
NumContext abs_size_x;
|
||
|
NumContext abs_size_y;
|
||
|
NumContext image_size_dist;
|
||
|
NumContext inherited_shape_count_dist;
|
||
|
BitContext offset_type_dist;
|
||
|
NumContext rel_loc_x_current;
|
||
|
NumContext rel_loc_x_last;
|
||
|
NumContext rel_loc_y_current;
|
||
|
NumContext rel_loc_y_last;
|
||
|
NumContext rel_size_x;
|
||
|
NumContext rel_size_y;
|
||
|
int last_bottom;
|
||
|
int last_left;
|
||
|
int last_right;
|
||
|
int last_row_bottom;
|
||
|
int last_row_left;
|
||
|
int image_columns;
|
||
|
int image_rows;
|
||
|
int short_list[3];
|
||
|
int short_list_pos;
|
||
|
inline void fill_short_list(const int v);
|
||
|
int update_short_list(const int v);
|
||
|
// Code bitmaps
|
||
|
BitContext bitdist[1024];
|
||
|
BitContext cbitdist[2048];
|
||
|
};
|
||
|
|
||
|
inline void
|
||
|
JB2Dict::JB2Codec::code_eventual_lossless_refinement(void)
|
||
|
{
|
||
|
refinementp=CodeBit(refinementp, dist_refinement_flag);
|
||
|
}
|
||
|
|
||
|
inline void
|
||
|
JB2Dict::JB2Codec::fill_short_list(const int v)
|
||
|
{
|
||
|
short_list[0] = short_list[1] = short_list[2] = v;
|
||
|
short_list_pos = 0;
|
||
|
}
|
||
|
|
||
|
inline int
|
||
|
JB2Dict::JB2Codec::get_direct_context( unsigned char const * const up2,
|
||
|
unsigned char const * const up1,
|
||
|
unsigned char const * const up0,
|
||
|
const int column)
|
||
|
{
|
||
|
return ( (up2[column - 1] << 9) |
|
||
|
(up2[column ] << 8) |
|
||
|
(up2[column + 1] << 7) |
|
||
|
(up1[column - 2] << 6) |
|
||
|
(up1[column - 1] << 5) |
|
||
|
(up1[column ] << 4) |
|
||
|
(up1[column + 1] << 3) |
|
||
|
(up1[column + 2] << 2) |
|
||
|
(up0[column - 2] << 1) |
|
||
|
(up0[column - 1] << 0) );
|
||
|
}
|
||
|
|
||
|
inline int
|
||
|
JB2Dict::JB2Codec::shift_direct_context(const int context, const int next,
|
||
|
unsigned char const * const up2,
|
||
|
unsigned char const * const up1,
|
||
|
unsigned char const * const up0,
|
||
|
const int column)
|
||
|
{
|
||
|
return ( ((context << 1) & 0x37a) |
|
||
|
(up1[column + 2] << 2) |
|
||
|
(up2[column + 1] << 7) |
|
||
|
(next << 0) );
|
||
|
}
|
||
|
|
||
|
inline int
|
||
|
JB2Dict::JB2Codec::get_cross_context( unsigned char const * const up1,
|
||
|
unsigned char const * const up0,
|
||
|
unsigned char const * const xup1,
|
||
|
unsigned char const * const xup0,
|
||
|
unsigned char const * const xdn1,
|
||
|
const int column )
|
||
|
{
|
||
|
return ( ( up1[column - 1] << 10) |
|
||
|
( up1[column ] << 9) |
|
||
|
( up1[column + 1] << 8) |
|
||
|
( up0[column - 1] << 7) |
|
||
|
(xup1[column ] << 6) |
|
||
|
(xup0[column - 1] << 5) |
|
||
|
(xup0[column ] << 4) |
|
||
|
(xup0[column + 1] << 3) |
|
||
|
(xdn1[column - 1] << 2) |
|
||
|
(xdn1[column ] << 1) |
|
||
|
(xdn1[column + 1] << 0) );
|
||
|
}
|
||
|
|
||
|
inline int
|
||
|
JB2Dict::JB2Codec::shift_cross_context( const int context, const int n,
|
||
|
unsigned char const * const up1,
|
||
|
unsigned char const * const up0,
|
||
|
unsigned char const * const xup1,
|
||
|
unsigned char const * const xup0,
|
||
|
unsigned char const * const xdn1,
|
||
|
const int column )
|
||
|
{
|
||
|
return ( ((context<<1) & 0x636) |
|
||
|
( up1[column + 1] << 8) |
|
||
|
(xup1[column ] << 6) |
|
||
|
(xup0[column + 1] << 3) |
|
||
|
(xdn1[column + 1] << 0) |
|
||
|
(n << 7) );
|
||
|
}
|
||
|
|
||
|
// ---------- THE END
|
||
|
|
||
|
#ifdef HAVE_NAMESPACES
|
||
|
}
|
||
|
# ifndef NOT_USING_DJVU_NAMESPACE
|
||
|
using namespace DJVU;
|
||
|
# endif
|
||
|
#endif
|
||
|
#endif
|
||
|
|