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Manually number "chapters," as chapter numbers are used in the narrative.
modified: doc/webp-lossless-bitstream-spec.txt Change-Id: Ice662960ff988a6ff577a8ca5a594e14ba69d4de
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@ -18,15 +18,15 @@ _2012-06-08_
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Abstract
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--------
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WebP lossless is an image format for lossless compression
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of ARGB images. The lossless format stores and restores the pixel
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values exactly, including the color values for zero alpha pixels. The
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WebP lossless is an image format for lossless compression of ARGB
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images. The lossless format stores and restores the pixel values
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exactly, including the color values for zero alpha pixels. The
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format uses subresolution images, recursively embedded into the format
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itself, for storing statistical data about the images, such as the
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used entropy codes, spatial predictors, color space conversion, and
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color table. LZ77, Huffman coding, and a color cache are used for
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compression of the bulk data. Decoding speeds faster than PNG have
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been demonstrated, as well as 25 % denser compression than what can be
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itself, for storing statistical data about the images, such as the used
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entropy codes, spatial predictors, color space conversion, and color
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table. LZ77, Huffman coding, and a color cache are used for compression
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of the bulk data. Decoding speeds faster than PNG have been
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demonstrated, as well as 25 % denser compression than what can be
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achieved using today's PNG format.
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@ -93,8 +93,8 @@ scan-line order
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the next row.
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Introduction
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------------
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1 Introduction
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--------------
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This document describes the compressed data representation of a WebP
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lossless image. It is intended as a detailed reference for WebP lossless
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@ -138,8 +138,8 @@ in the bitstream contains the required data to apply the respective
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inverse transforms.
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RIFF Header
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-----------
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2 RIFF Header
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-------------
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The beginning of the header has the RIFF container. This consist of the
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following 21 bytes:
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@ -170,8 +170,8 @@ The 14-bit dynamics for image size limit the maximum size of a WebP
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lossless image to 16384✕16384 pixels.
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Transformations
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---------------
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3 Transformations
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-----------------
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Transformations are reversible manipulations of the image data that can
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reduce the remaining symbolic entropy by modeling spatial and color
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@ -595,8 +595,8 @@ The values are packed into the green component as follows:
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significant bits of the green value at x / 8.
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Image Data
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----------
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4 Image Data
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------------
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Image data is an array of pixel values in scan-line order. We use image
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data in five different roles: The main role, an auxiliary role related
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@ -762,8 +762,8 @@ by inserting every pixel, be it produced by backward referencing or as
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literals, into the cache in the order they appear in the stream.
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Entropy Code
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------------
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5 Entropy Code
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--------------
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### Huffman coding
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@ -944,8 +944,8 @@ length of the Huffman code:
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* k = 4, length = 40.
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Overall Structure of the Format
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-------------------------------
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6 Overall Structure of the Format
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---------------------------------
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Below there is a eagles-eye-view into the format in Backus-Naur form. It
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does not cover all details. End-of-image EOI is only implicitly coded
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