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doc/webp-*: fix some punctuation, grammar
based on comments from: https://datatracker.ietf.org/doc/draft-zern-webp/ballot/#draft-zern-webp_lars-eggert Bug: webp:448 Change-Id: I0a410b28b7b62fb4552ea3db444743be61469fe8
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@ -25,7 +25,7 @@ to compress image data in a lossy way, or (ii) the WebP lossless encoding
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(and possibly other encodings in the future). These encoding schemes should
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make it more efficient than currently used formats. It is optimized for fast
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image transfer over the network (e.g., for websites). The WebP format has
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feature parity (color profile, metadata, animation etc) with other formats as
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feature parity (color profile, metadata, animation, etc.) with other formats as
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well. This document describes the structure of a WebP file.
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The WebP container (i.e., RIFF container for WebP) allows feature support over
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@ -51,7 +51,7 @@ the stream containing them, and bits of each byte are read in
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least-significant-bit-first order. When multiple bits are read at the
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same time, the integer is constructed from the original data in the
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original order. The most significant bits of the returned integer are
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also the most significant bits of the original data. Thus the statement
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also the most significant bits of the original data. Thus, the statement
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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b = ReadBits(2);
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@ -196,7 +196,7 @@ once. The transformations are used only for the main level ARGB image:
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the subresolution images have no transforms, not even the 0 bit
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indicating the end-of-transforms.
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Typically an encoder would use these transforms to reduce the Shannon
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Typically, an encoder would use these transforms to reduce the Shannon
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entropy in the residual image. Also, the transform data can be decided
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based on entropy minimization.
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@ -568,7 +568,7 @@ distribution entropy coding of neighboring pixels, and gives some
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arithmetic coding-like benefits to the entropy code, but it can only be
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used when there are a small number of unique values.
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`color_table_size` specifies how many pixels are combined together:
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`color_table_size` specifies how many pixels are combined:
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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int width_bits;
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@ -583,13 +583,12 @@ if (color_table_size <= 2) {
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}
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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`width_bits` has a value of 0, 1, 2 or 3. A value of 0 indicates no
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pixel bundling to be done for the image. A value of 1 indicates that two
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pixels are combined together, and each pixel has a range of \[0..15\]. A
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value of 2 indicates that four pixels are combined together, and each
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pixel has a range of \[0..3\]. A value of 3 indicates that eight pixels
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are combined together and each pixel has a range of \[0..1\], i.e., a
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binary value.
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`width_bits` has a value of 0, 1, 2 or 3. A value of 0 indicates no pixel
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bundling to be done for the image. A value of 1 indicates that two pixels are
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combined, and each pixel has a range of \[0..15\]. A value of 2 indicates that
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four pixels are combined, and each pixel has a range of \[0..3\]. A value of 3
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indicates that eight pixels are combined and each pixel has a range of \[0..1\],
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i.e., a binary value.
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The values are packed into the green component as follows:
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@ -659,7 +658,7 @@ Each pixel is encoded using one of the three possible methods:
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3. Color cache code: using a short multiplicative hash code (color cache
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index) of a recently seen color.
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The following sub-sections describe each of these in detail.
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The following subsections describe each of these in detail.
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#### 5.2.1 Prefix Coded Literals
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@ -725,7 +724,7 @@ return offset + ReadBits(extra_bits) + 1;
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{:#distance-mapping}
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As noted previously, distance code is a number indicating the position of a
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previously seen pixel, from which the pixels are to be copied. This sub-section
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previously seen pixel, from which the pixels are to be copied. This subsection
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defines the mapping between a distance code and the position of a previous
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pixel.
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