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1.\" $Id: TIFFRGBAImage.3tiff,v 1.2 2005/11/02 11:07:18 dron Exp $
2.\"
3.\" Copyright (c) 1991-1997 Sam Leffler
4.\" Copyright (c) 1991-1997 Silicon Graphics, Inc.
5.\"
6.\" Permission to use, copy, modify, distribute, and sell this software and
7.\" its documentation for any purpose is hereby granted without fee, provided
8.\" that (i) the above copyright notices and this permission notice appear in
9.\" all copies of the software and related documentation, and (ii) the names of
10.\" Sam Leffler and Silicon Graphics may not be used in any advertising or
11.\" publicity relating to the software without the specific, prior written
12.\" permission of Sam Leffler and Silicon Graphics.
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14.\" THE SOFTWARE IS PROVIDED "AS-IS" AND WITHOUT WARRANTY OF ANY KIND,
15.\" EXPRESS, IMPLIED OR OTHERWISE, INCLUDING WITHOUT LIMITATION, ANY
16.\" WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE.
17.\"
18.\" IN NO EVENT SHALL SAM LEFFLER OR SILICON GRAPHICS BE LIABLE FOR
19.\" ANY SPECIAL, INCIDENTAL, INDIRECT OR CONSEQUENTIAL DAMAGES OF ANY KIND,
20.\" OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS,
21.\" WHETHER OR NOT ADVISED OF THE POSSIBILITY OF DAMAGE, AND ON ANY THEORY OF
22.\" LIABILITY, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE
23.\" OF THIS SOFTWARE.
24.\"
25.if n .po 0
26.TH TIFFRGBAImage 3TIFF "October 29, 2004" "libtiff"
27.SH NAME
28TIFFRGBAImageOK, TIFFRGBAImageBegin, TIFFRGBAImageGet, TIFFRGBAImageEnd
29\- read and decode an image into a raster
30.SH SYNOPSIS
31.B "#include <tiffio.h>"
32.sp
33.B "typedef unsigned char TIFFRGBValue;"
34.B "typedef struct _TIFFRGBAImage TIFFRGBAImage;"
35.sp
36.BI "int TIFFRGBAImageOK(TIFF *" tif ", char " emsg[1024] ")"
37.br
38.BI "int TIFFRGBAImageBegin(TIFFRGBAImage *" img ", TIFF* " tif ", int " stopOnError ", char " emsg[1024] ")"
39.br
40.BI "int TIFFRGBAImageGet(TIFFRGBAImage *" img ", uint32* " raster ", uint32 " width " , uint32 " height ")"
41.br
42.BI "void TIFFRGBAImageEnd(TIFFRGBAImage *" img ")"
43.br
44.SH DESCRIPTION
45The routines described here provide a high-level interface
46through which
47.SM TIFF
48images may be read into memory.
49Images may be strip- or tile-based and have a variety of different
50characteristics: bits/sample, samples/pixel, photometric, etc.
51Decoding state is encapsulated in a
52.I TIFFRGBAImage
53structure making it possible to capture state for multiple images
54and quickly switch between them.
55The target raster format can be customized to a particular application's
56needs by installing custom routines that manipulate image data
57according to application requirements.
58.PP
59The default usage for these routines is: check if an image can
60be processed using
61.IR TIFFRGBAImageOK ,
62construct a decoder state block using
63.IR TIFFRGBAImageBegin ,
64read and decode an image into a target raster using
65.IR TIFFRGBAImageGet ,
66and then
67release resources using
68.IR TIFFRGBAImageEnd .
69.I TIFFRGBAImageGet
70can be called multiple times to decode an image using different
71state parameters.
72If multiple images are to be displayed and there is not enough
73space for each of the decoded rasters, multiple state blocks can
74be managed and then calls can be made to
75.I TIFFRGBAImageGet
76as needed to display an image.
77.PP
78The generated raster is assumed to be an array of
79.I width
80times
81.I height
8232-bit entries, where
83.I width
84must be less than or equal to the width of the image (\c
85.I height
86may be any non-zero size).
87If the raster dimensions are smaller than the image, the image data
88is cropped to the raster bounds.
89If the raster height is greater than that of the image, then the
90image data are placed in the lower part of the raster.
91(Note that the raster is assume to be organized such that the pixel
92at location (\fIx\fP,\fIy\fP) is \fIraster\fP[\fIy\fP*\fIwidth\fP+\fIx\fP];
93with the raster origin in the
94.B lower-left
95hand corner.)
96.PP
97Raster pixels are 8-bit packed red, green, blue, alpha samples.
98The macros
99.IR TIFFGetR ,
100.IR TIFFGetG ,
101.IR TIFFGetB ,
102and
103.I TIFFGetA
104should be used to access individual samples.
105Images without Associated Alpha matting information have a constant
106Alpha of 1.0 (255).
107.PP
108.I TIFFRGBAImageGet
109converts non-8-bit images by scaling sample values.
110Palette, grayscale, bilevel,
111.SM CMYK\c
112, and YCbCr images are converted to
113.SM RGB
114transparently.
115Raster pixels are returned uncorrected by any colorimetry information
116present in the directory.
117.PP
118The parameter
119.I stopOnError
120specifies how to act if an error is encountered while reading
121the image.
122If
123.I stopOnError
124is non-zero, then an error will terminate the operation; otherwise
125.I TIFFRGBAImageGet
126will continue processing data until all the possible data in the
127image have been requested.
128.SH "ALTERNATE RASTER FORMATS"
129To use the core support for reading and processing
130.SM TIFF
131images, but write the resulting raster data in a different format
132one need only override the ``\fIput methods\fP'' used to store raster data.
133These methods are are defined in the
134.I TIFFRGBAImage
135structure and initially setup by
136.I TIFFRGBAImageBegin
137to point to routines that pack raster data in the default
138.SM ABGR
139pixel format.
140Two different routines are used according to the physical organization
141of the image data in the file:
142.IR PlanarConfiguration =1
143(packed samples),
144and
145.IR PlanarConfiguration =2
146(separated samples).
147Note that this mechanism can be used to transform the data before
148storing it in the raster.
149For example one can convert data
150to colormap indices for display on a colormap display.
151.SH "SIMULTANEOUS RASTER STORE AND DISPLAY"
152It is simple to display an image as it is being read into memory
153by overriding the put methods as described above for supporting
154alternate raster formats.
155Simply keep a reference to the default put methods setup by
156.I TIFFRGBAImageBegin
157and then invoke them before or after each display operation.
158For example, the
159.IR tiffgt (1)
160utility uses the following put method to update the display as
161the raster is being filled:
162.sp
163.nf
164.ft C
165static void
166putContigAndDraw(TIFFRGBAImage* img, uint32* raster,
167 uint32 x, uint32 y, uint32 w, uint32 h,
168 int32 fromskew, int32 toskew,
169 unsigned char* cp)
170{
171 (*putContig)(img, raster, x, y, w, h, fromskew, toskew, cp);
172 if (x+w == width) {
173 w = width;
174 if (img->orientation == ORIENTATION_TOPLEFT)
175 lrectwrite(0, y-(h-1), w-1, y, raster-x-(h-1)*w);
176 else
177 lrectwrite(0, y, w-1, y+h-1, raster);
178 }
179}
180.ft R
181.fi
182.sp
183(the original routine provided by the library is saved in the
184variable
185.IR putContig .)
186.SH "SUPPORTING ADDITIONAL TIFF FORMATS"
187The
188.I TIFFRGBAImage
189routines support the most commonly encountered flavors of
190.SM TIFF.
191It is possible to extend this support by overriding the ``\fIget method\fP''
192invoked by
193.I TIFFRGBAImageGet
194to read
195.SM TIFF
196image data.
197Details of doing this are a bit involved, it is best to make a copy
198of an existing get method and modify it to suit the needs of an
199application.
200.SH NOTES
201Samples must be either 1, 2, 4, 8, or 16 bits.
202Colorimetric samples/pixel must be either 1, 3, or 4 (i.e.
203.I SamplesPerPixel
204minus
205.IR ExtraSamples ).
206.PP
207Palette image colormaps that appear to be incorrectly written
208as 8-bit values are automatically scaled to 16-bits.
209.SH "RETURN VALUES"
210All routines return
2111 if the operation was successful.
212Otherwise, 0 is returned if an error was encountered and
213.I stopOnError
214is zero.
215.SH DIAGNOSTICS
216All error messages are directed to the
217.IR TIFFError (3TIFF)
218routine.
219.PP
220.BR "Sorry, can not handle %d-bit pictures" .
221The image had
222.I BitsPerSample
223other than 1, 2, 4, 8, or 16.
224.PP
225.BR "Sorry, can not handle %d-channel images" .
226The image had
227.I SamplesPerPixel
228other than 1, 3, or 4.
229.PP
230\fBMissing needed "PhotometricInterpretation" tag\fP.
231The image did not have a tag that describes how to display
232the data.
233.PP
234\fBNo "PhotometricInterpretation" tag, assuming RGB\fP.
235The image was missing a tag that describes how to display it,
236but because it has 3 or 4 samples/pixel, it is assumed to be
237.SM RGB.
238.PP
239\fBNo "PhotometricInterpretation" tag, assuming min-is-black\fP.
240The image was missing a tag that describes how to display it,
241but because it has 1 sample/pixel, it is assumed to be a grayscale
242or bilevel image.
243.PP
244.BR "No space for photometric conversion table" .
245There was insufficient memory for a table used to convert
246image samples to 8-bit
247.SM RGB.
248.PP
249\fBMissing required "Colormap" tag\fP.
250A Palette image did not have a required
251.I Colormap
252tag.
253.PP
254.BR "No space for tile buffer" .
255There was insufficient memory to allocate an i/o buffer.
256.PP
257.BR "No space for strip buffer" .
258There was insufficient memory to allocate an i/o buffer.
259.PP
260.BR "Can not handle format" .
261The image has a format (combination of
262.IR BitsPerSample ,
263.IR SamplesPerPixel ,
264and
265.IR PhotometricInterpretation )
266that can not be handled.
267.PP
268.BR "No space for B&W mapping table" .
269There was insufficient memory to allocate a table used to map
270grayscale data to
271.SM RGB.
272.PP
273.BR "No space for Palette mapping table" .
274There was insufficient memory to allocate a table used to map
275data to 8-bit
276.SM RGB.
277.SH "SEE ALSO"
278.BR TIFFOpen (3TIFF),
279.BR TIFFReadRGBAImage (3TIFF),
280.BR TIFFReadRGBAImageOriented (3TIFF),
281.BR TIFFReadRGBAStrip (3TIFF),
282.BR TIFFReadRGBATile (3TIFF),
283.BR libtiff (3TIFF)
284.PP
285Libtiff library home page:
286.BR http://www.remotesensing.org/libtiff/