mirror of
https://github.com/golang/go
synced 2024-11-21 14:54:40 -07:00
image/tiff: implement a decoder.
The current iteration can decode 8-bit images in grayscale, paletted, RGB, RGBA and NRGBA mode. LZW compression is implemented but does not work on my test images. Deflate (i.e. zlib) compression with or without a horizontal predictor is supported. R=nigeltao, nigeltao_gnome CC=golang-dev, mpl https://golang.org/cl/4240051
This commit is contained in:
parent
737e96c7f3
commit
d97b8a817b
@ -107,6 +107,7 @@ DIRS=\
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image\
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image/jpeg\
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image/png\
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image/tiff\
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image/ycbcr\
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index/suffixarray\
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io\
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@ -10,9 +10,10 @@ import (
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"os"
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"testing"
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// TODO(nigeltao): implement bmp, gif and tiff decoders.
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// TODO(nigeltao): implement bmp and gif decoders.
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_ "image/jpeg"
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_ "image/png"
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_ "image/tiff"
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)
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const goldenFile = "testdata/video-001.png"
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@ -30,7 +31,7 @@ var imageTests = []imageTest{
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// JPEG is a lossy format and hence needs a non-zero tolerance.
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{"testdata/video-001.jpeg", 8 << 8},
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{"testdata/video-001.png", 0},
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//{"testdata/video-001.tiff", 0},
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{"testdata/video-001.tiff", 0},
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}
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func decode(filename string) (image.Image, string, os.Error) {
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13
src/pkg/image/tiff/Makefile
Normal file
13
src/pkg/image/tiff/Makefile
Normal file
@ -0,0 +1,13 @@
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# Copyright 2011 The Go Authors. All rights reserved.
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# Use of this source code is governed by a BSD-style
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# license that can be found in the LICENSE file.
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include ../../../Make.inc
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TARG=image/tiff
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GOFILES=\
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buffer.go\
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consts.go\
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reader.go\
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include ../../../Make.pkg
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57
src/pkg/image/tiff/buffer.go
Normal file
57
src/pkg/image/tiff/buffer.go
Normal file
@ -0,0 +1,57 @@
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// Copyright 2011 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package tiff
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import (
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"io"
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"os"
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)
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// buffer buffers an io.Reader to satisfy io.ReaderAt.
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type buffer struct {
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r io.Reader
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buf []byte
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}
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func (b *buffer) ReadAt(p []byte, off int64) (int, os.Error) {
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o := int(off)
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end := o + len(p)
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if int64(end) != off+int64(len(p)) {
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return 0, os.EINVAL
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}
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m := len(b.buf)
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if end > m {
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if end > cap(b.buf) {
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newcap := 1024
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for newcap < end {
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newcap *= 2
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}
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newbuf := make([]byte, end, newcap)
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copy(newbuf, b.buf)
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b.buf = newbuf
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} else {
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b.buf = b.buf[:end]
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}
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if n, err := io.ReadFull(b.r, b.buf[m:end]); err != nil {
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end = m + n
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b.buf = b.buf[:end]
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return copy(p, b.buf[o:end]), err
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}
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}
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return copy(p, b.buf[o:end]), nil
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}
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// newReaderAt converts an io.Reader into an io.ReaderAt.
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func newReaderAt(r io.Reader) io.ReaderAt {
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if ra, ok := r.(io.ReaderAt); ok {
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return ra
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}
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return &buffer{
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r: r,
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buf: make([]byte, 0, 1024),
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}
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}
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36
src/pkg/image/tiff/buffer_test.go
Normal file
36
src/pkg/image/tiff/buffer_test.go
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@ -0,0 +1,36 @@
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// Copyright 2011 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package tiff
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import (
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"os"
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"strings"
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"testing"
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)
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var readAtTests = []struct {
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n int
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off int64
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s string
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err os.Error
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}{
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{2, 0, "ab", nil},
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{6, 0, "abcdef", nil},
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{3, 3, "def", nil},
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{3, 5, "f", os.EOF},
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{3, 6, "", os.EOF},
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}
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func TestReadAt(t *testing.T) {
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r := newReaderAt(strings.NewReader("abcdef"))
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b := make([]byte, 10)
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for _, test := range readAtTests {
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n, err := r.ReadAt(b[:test.n], test.off)
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s := string(b[:n])
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if s != test.s || err != test.err {
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t.Errorf("buffer.ReadAt(<%v bytes>, %v): got %v, %q; want %v, %q", test.n, test.off, err, s, test.err, test.s)
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}
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}
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}
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102
src/pkg/image/tiff/consts.go
Normal file
102
src/pkg/image/tiff/consts.go
Normal file
@ -0,0 +1,102 @@
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// Copyright 2011 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package tiff
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// A tiff image file contains one or more images. The metadata
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// of each image is contained in an Image File Directory (IFD),
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// which contains entries of 12 bytes each and is described
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// on page 14-16 of the specification. An IFD entry consists of
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//
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// - a tag, which describes the signification of the entry,
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// - the data type and length of the entry,
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// - the data itself or a pointer to it if it is more than 4 bytes.
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//
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// The presence of a length means that each IFD is effectively an array.
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const (
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leHeader = "II\x2A\x00" // Header for little-endian files.
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beHeader = "MM\x00\x2A" // Header for big-endian files.
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ifdLen = 12 // Length of an IFD entry in bytes.
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)
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// Data types (p. 14-16 of the spec).
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const (
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dtByte = 1
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dtASCII = 2
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dtShort = 3
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dtLong = 4
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dtRational = 5
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)
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// The length of one instance of each data type in bytes.
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var lengths = [...]uint32{0, 1, 1, 2, 4, 8}
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// Tags (see p. 28-41 of the spec).
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const (
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tImageWidth = 256
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tImageLength = 257
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tBitsPerSample = 258
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tCompression = 259
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tPhotometricInterpretation = 262
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tStripOffsets = 273
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tSamplesPerPixel = 277
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tRowsPerStrip = 278
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tStripByteCounts = 279
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tXResolution = 282
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tYResolution = 283
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tResolutionUnit = 296
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tPredictor = 317
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tColorMap = 320
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tExtraSamples = 338
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)
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// Compression types (defined in various places in the spec and supplements).
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const (
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cNone = 1
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cCCITT = 2
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cG3 = 3 // Group 3 Fax.
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cG4 = 4 // Group 4 Fax.
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cLZW = 5
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cJPEGOld = 6 // Superseded by cJPEG.
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cJPEG = 7
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cDeflate = 8 // zlib compression.
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cPackBits = 32773
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cDeflateOld = 32946 // Superseded by cDeflate.
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)
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// Photometric interpretation values (see p. 37 of the spec).
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const (
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pWhiteIsZero = 0
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pBlackIsZero = 1
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pRGB = 2
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pPaletted = 3
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pTransMask = 4 // transparency mask
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pCMYK = 5
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pYCbCr = 6
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pCIELab = 8
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)
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// Values for the tPredictor tag (page 64-65 of the spec).
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const (
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prNone = 1
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prHorizontal = 2
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)
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// imageMode represents the mode of the image.
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type imageMode int
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const (
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mBilevel imageMode = iota
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mPaletted
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mGray
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mGrayInvert
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mRGB
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mRGBA
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mNRGBA
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)
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385
src/pkg/image/tiff/reader.go
Normal file
385
src/pkg/image/tiff/reader.go
Normal file
@ -0,0 +1,385 @@
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// Copyright 2011 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// Package tiff implements a TIFF image decoder.
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//
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// The TIFF specification is at http://partners.adobe.com/public/developer/en/tiff/TIFF6.pdf
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package tiff
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import (
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"compress/lzw"
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"compress/zlib"
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"encoding/binary"
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"image"
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"io"
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"io/ioutil"
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"os"
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)
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// A FormatError reports that the input is not a valid TIFF image.
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type FormatError string
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func (e FormatError) String() string {
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return "tiff: invalid format: " + string(e)
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}
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// An UnsupportedError reports that the input uses a valid but
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// unimplemented feature.
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type UnsupportedError string
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func (e UnsupportedError) String() string {
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return "tiff: unsupported feature: " + string(e)
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}
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// An InternalError reports that an internal error was encountered.
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type InternalError string
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func (e InternalError) String() string {
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return "tiff: internal error: " + string(e)
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}
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type decoder struct {
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r io.ReaderAt
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byteOrder binary.ByteOrder
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config image.Config
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mode imageMode
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features map[int][]uint
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palette []image.Color
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}
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// firstVal returns the first uint of the features entry with the given tag,
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// or 0 if the tag does not exist.
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func (d *decoder) firstVal(tag int) uint {
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f := d.features[tag]
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if len(f) == 0 {
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return 0
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}
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return f[0]
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}
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// ifdUint decodes the IFD entry in p, which must be of the Byte, Short
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// or Long type, and returns the decoded uint values.
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func (d *decoder) ifdUint(p []byte) (u []uint, err os.Error) {
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var raw []byte
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datatype := d.byteOrder.Uint16(p[2:4])
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count := d.byteOrder.Uint32(p[4:8])
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if datalen := lengths[datatype] * count; datalen > 4 {
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// The IFD contains a pointer to the real value.
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raw = make([]byte, datalen)
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_, err = d.r.ReadAt(raw, int64(d.byteOrder.Uint32(p[8:12])))
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} else {
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raw = p[8 : 8+datalen]
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}
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if err != nil {
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return nil, err
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}
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u = make([]uint, count)
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switch datatype {
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case dtByte:
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for i := uint32(0); i < count; i++ {
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u[i] = uint(raw[i])
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}
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case dtShort:
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for i := uint32(0); i < count; i++ {
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u[i] = uint(d.byteOrder.Uint16(raw[2*i : 2*(i+1)]))
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}
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case dtLong:
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for i := uint32(0); i < count; i++ {
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u[i] = uint(d.byteOrder.Uint32(raw[4*i : 4*(i+1)]))
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}
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default:
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return nil, UnsupportedError("data type")
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}
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return u, nil
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}
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// parseIFD decides whether the the IFD entry in p is "interesting" and
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// stows away the data in the decoder.
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func (d *decoder) parseIFD(p []byte) os.Error {
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tag := d.byteOrder.Uint16(p[0:2])
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switch tag {
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case tBitsPerSample,
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tExtraSamples,
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tPhotometricInterpretation,
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tCompression,
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tPredictor,
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tStripOffsets,
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tStripByteCounts,
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tRowsPerStrip,
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tImageLength,
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tImageWidth:
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val, err := d.ifdUint(p)
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if err != nil {
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return err
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}
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d.features[int(tag)] = val
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case tColorMap:
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val, err := d.ifdUint(p)
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if err != nil {
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return err
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}
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numcolors := len(val) / 3
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if len(val)%3 != 0 || numcolors <= 0 || numcolors > 256 {
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return FormatError("bad ColorMap length")
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}
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d.palette = make([]image.Color, numcolors)
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for i := 0; i < numcolors; i++ {
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d.palette[i] = image.RGBA64Color{
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uint16(val[i]),
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uint16(val[i+numcolors]),
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uint16(val[i+2*numcolors]),
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0xffff,
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}
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}
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}
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return nil
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}
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// decode decodes the raw data of an image with 8 bits in each sample.
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// It reads from p and writes the strip with ymin <= y < ymax into dst.
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func (d *decoder) decode(dst image.Image, p []byte, ymin, ymax int) os.Error {
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spp := len(d.features[tBitsPerSample]) // samples per pixel
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off := 0
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width := dst.Bounds().Dx()
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if len(p) < spp*(ymax-ymin)*width {
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return FormatError("short data strip")
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}
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// Apply horizontal predictor if necessary.
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// In this case, p contains the color difference to the preceding pixel.
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// See page 64-65 of the spec.
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if d.firstVal(tPredictor) == prHorizontal {
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for y := ymin; y < ymax; y++ {
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off += spp
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for x := 0; x < (width-1)*spp; x++ {
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p[off] += p[off-spp]
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off++
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}
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}
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off = 0
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}
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switch d.mode {
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case mGray:
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img := dst.(*image.Gray)
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for y := ymin; y < ymax; y++ {
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for x := img.Rect.Min.X; x < img.Rect.Max.X; x++ {
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img.Set(x, y, image.GrayColor{p[off]})
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off += spp
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}
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}
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case mGrayInvert:
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img := dst.(*image.Gray)
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for y := ymin; y < ymax; y++ {
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for x := img.Rect.Min.X; x < img.Rect.Max.X; x++ {
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img.Set(x, y, image.GrayColor{0xff - p[off]})
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off += spp
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}
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}
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case mPaletted:
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img := dst.(*image.Paletted)
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for y := ymin; y < ymax; y++ {
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for x := img.Rect.Min.X; x < img.Rect.Max.X; x++ {
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img.SetColorIndex(x, y, p[off])
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off += spp
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}
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}
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case mRGB:
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img := dst.(*image.RGBA)
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for y := ymin; y < ymax; y++ {
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for x := img.Rect.Min.X; x < img.Rect.Max.X; x++ {
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img.Set(x, y, image.RGBAColor{p[off], p[off+1], p[off+2], 0xff})
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off += spp
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}
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}
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case mNRGBA:
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img := dst.(*image.NRGBA)
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for y := ymin; y < ymax; y++ {
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for x := img.Rect.Min.X; x < img.Rect.Max.X; x++ {
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img.Set(x, y, image.NRGBAColor{p[off], p[off+1], p[off+2], p[off+3]})
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off += spp
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}
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}
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case mRGBA:
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img := dst.(*image.RGBA)
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for y := ymin; y < ymax; y++ {
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for x := img.Rect.Min.X; x < img.Rect.Max.X; x++ {
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img.Set(x, y, image.RGBAColor{p[off], p[off+1], p[off+2], p[off+3]})
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off += spp
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}
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}
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}
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return nil
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}
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func newDecoder(r io.Reader) (*decoder, os.Error) {
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d := &decoder{
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r: newReaderAt(r),
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features: make(map[int][]uint),
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}
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p := make([]byte, 8)
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if _, err := d.r.ReadAt(p, 0); err != nil {
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return nil, err
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}
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switch string(p[0:4]) {
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case leHeader:
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d.byteOrder = binary.LittleEndian
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case beHeader:
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d.byteOrder = binary.BigEndian
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default:
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return nil, FormatError("malformed header")
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}
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ifdOffset := int64(d.byteOrder.Uint32(p[4:8]))
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// The first two bytes contain the number of entries (12 bytes each).
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if _, err := d.r.ReadAt(p[0:2], ifdOffset); err != nil {
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return nil, err
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}
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||||
numItems := int(d.byteOrder.Uint16(p[0:2]))
|
||||
|
||||
// All IFD entries are read in one chunk.
|
||||
p = make([]byte, ifdLen*numItems)
|
||||
if _, err := d.r.ReadAt(p, ifdOffset+2); err != nil {
|
||||
return nil, err
|
||||
}
|
||||
|
||||
for i := 0; i < len(p); i += ifdLen {
|
||||
if err := d.parseIFD(p[i : i+ifdLen]); err != nil {
|
||||
return nil, err
|
||||
}
|
||||
}
|
||||
|
||||
d.config.Width = int(d.firstVal(tImageWidth))
|
||||
d.config.Height = int(d.firstVal(tImageLength))
|
||||
|
||||
// Determine the image mode.
|
||||
switch d.firstVal(tPhotometricInterpretation) {
|
||||
case pRGB:
|
||||
d.config.ColorModel = image.RGBAColorModel
|
||||
// RGB images normally have 3 samples per pixel.
|
||||
// If there are more, ExtraSamples (p. 31-32 of the spec)
|
||||
// gives their meaning (usually an alpha channel).
|
||||
switch len(d.features[tBitsPerSample]) {
|
||||
case 3:
|
||||
d.mode = mRGB
|
||||
case 4:
|
||||
switch d.firstVal(tExtraSamples) {
|
||||
case 1:
|
||||
d.mode = mRGBA
|
||||
case 2:
|
||||
d.mode = mNRGBA
|
||||
d.config.ColorModel = image.NRGBAColorModel
|
||||
default:
|
||||
// The extra sample is discarded.
|
||||
d.mode = mRGB
|
||||
}
|
||||
default:
|
||||
return nil, FormatError("wrong number of samples for RGB")
|
||||
}
|
||||
case pPaletted:
|
||||
d.mode = mPaletted
|
||||
d.config.ColorModel = image.PalettedColorModel(d.palette)
|
||||
case pWhiteIsZero:
|
||||
d.mode = mGrayInvert
|
||||
d.config.ColorModel = image.GrayColorModel
|
||||
case pBlackIsZero:
|
||||
d.mode = mGray
|
||||
d.config.ColorModel = image.GrayColorModel
|
||||
default:
|
||||
return nil, UnsupportedError("color model")
|
||||
}
|
||||
|
||||
if _, ok := d.features[tBitsPerSample]; !ok {
|
||||
return nil, FormatError("BitsPerSample tag missing")
|
||||
}
|
||||
for _, b := range d.features[tBitsPerSample] {
|
||||
if b != 8 {
|
||||
return nil, UnsupportedError("not an 8-bit image")
|
||||
}
|
||||
}
|
||||
|
||||
return d, nil
|
||||
}
|
||||
|
||||
// DecodeConfig returns the color model and dimensions of a TIFF image without
|
||||
// decoding the entire image.
|
||||
func DecodeConfig(r io.Reader) (image.Config, os.Error) {
|
||||
d, err := newDecoder(r)
|
||||
if err != nil {
|
||||
return image.Config{}, err
|
||||
}
|
||||
return d.config, nil
|
||||
}
|
||||
|
||||
// Decode reads a TIFF image from r and returns it as an image.Image.
|
||||
// The type of Image returned depends on the contents of the TIFF.
|
||||
func Decode(r io.Reader) (img image.Image, err os.Error) {
|
||||
d, err := newDecoder(r)
|
||||
if err != nil {
|
||||
return
|
||||
}
|
||||
|
||||
// Check if we have the right number of strips, offsets and counts.
|
||||
rps := int(d.firstVal(tRowsPerStrip))
|
||||
numStrips := (d.config.Height + rps - 1) / rps
|
||||
if rps == 0 || len(d.features[tStripOffsets]) < numStrips || len(d.features[tStripByteCounts]) < numStrips {
|
||||
return nil, FormatError("inconsistent header")
|
||||
}
|
||||
|
||||
switch d.mode {
|
||||
case mGray, mGrayInvert:
|
||||
img = image.NewGray(d.config.Width, d.config.Height)
|
||||
case mPaletted:
|
||||
img = image.NewPaletted(d.config.Width, d.config.Height, d.palette)
|
||||
case mNRGBA:
|
||||
img = image.NewNRGBA(d.config.Width, d.config.Height)
|
||||
case mRGB, mRGBA:
|
||||
img = image.NewRGBA(d.config.Width, d.config.Height)
|
||||
}
|
||||
|
||||
var p []byte
|
||||
for i := 0; i < numStrips; i++ {
|
||||
ymin := i * rps
|
||||
// The last strip may be shorter.
|
||||
if i == numStrips-1 && d.config.Height%rps != 0 {
|
||||
rps = d.config.Height % rps
|
||||
}
|
||||
offset := int64(d.features[tStripOffsets][i])
|
||||
n := int64(d.features[tStripByteCounts][i])
|
||||
switch d.firstVal(tCompression) {
|
||||
case cNone:
|
||||
// TODO(bsiegert): Avoid copy if r is a tiff.buffer.
|
||||
p = make([]byte, 0, n)
|
||||
_, err = d.r.ReadAt(p, offset)
|
||||
case cLZW:
|
||||
r := lzw.NewReader(io.NewSectionReader(d.r, offset, n), lzw.MSB, 8)
|
||||
p, err = ioutil.ReadAll(r)
|
||||
r.Close()
|
||||
case cDeflate, cDeflateOld:
|
||||
r, err := zlib.NewReader(io.NewSectionReader(d.r, offset, n))
|
||||
if err != nil {
|
||||
return nil, err
|
||||
}
|
||||
p, err = ioutil.ReadAll(r)
|
||||
r.Close()
|
||||
default:
|
||||
err = UnsupportedError("compression")
|
||||
}
|
||||
if err != nil {
|
||||
return
|
||||
}
|
||||
err = d.decode(img, p, ymin, ymin+rps)
|
||||
}
|
||||
return
|
||||
}
|
||||
|
||||
func init() {
|
||||
image.RegisterFormat("tiff", leHeader, Decode, DecodeConfig)
|
||||
image.RegisterFormat("tiff", beHeader, Decode, DecodeConfig)
|
||||
}
|
Loading…
Reference in New Issue
Block a user