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7 <title>TIFFRGBAImage</title>
8 </head>
9 <body>
10
11 <h1 align=center>TIFFRGBAImage</h1>
12 <a href="#NAME">NAME</a><br>
13 <a href="#SYNOPSIS">SYNOPSIS</a><br>
14 <a href="#DESCRIPTION">DESCRIPTION</a><br>
15 <a href="#ALTERNATE RASTER FORMATS">ALTERNATE RASTER FORMATS</a><br>
16 <a href="#SIMULTANEOUS RASTER STORE AND DISPLAY">SIMULTANEOUS RASTER STORE AND DISPLAY</a><br>
17 <a href="#SUPPORTING ADDITIONAL TIFF FORMATS">SUPPORTING ADDITIONAL TIFF FORMATS</a><br>
18 <a href="#NOTES">NOTES</a><br>
19 <a href="#RETURN VALUES">RETURN VALUES</a><br>
20 <a href="#DIAGNOSTICS">DIAGNOSTICS</a><br>
21 <a href="#SEE ALSO">SEE ALSO</a><br>
22
23 <hr>
24 <a name="NAME"></a>
25 <h2>NAME</h2>
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31 <td width="91%">
32 <p>TIFFRGBAImageOK, TIFFRGBAImageBegin, TIFFRGBAImageGet,
33 TIFFRGBAImageEnd &minus; read and decode an image into a
34 raster</p>
35 </td>
36 </table>
37 <a name="SYNOPSIS"></a>
38 <h2>SYNOPSIS</h2>
39 <!-- INDENTATION -->
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45 <p><b>#include &lt;tiffio.h&gt;</b></p>
46 <!-- INDENTATION -->
47 <p><b>typedef unsigned char TIFFRGBValue; typedef struct
48 _TIFFRGBAImage TIFFRGBAImage;</b></p>
49 <!-- INDENTATION -->
50 <p><b>int TIFFRGBAImageOK(TIFF *</b><i>tif</i><b>, char</b>
51 <i>emsg[1024]</i><b>)<br>
52 int TIFFRGBAImageBegin(TIFFRGBAImage *</b><i>img</i><b>,
53 TIFF*</b> <i>tif</i><b>, int</b> <i>stopOnError</i><b>,
54 char</b> <i>emsg[1024]</i><b>)<br>
55 int TIFFRGBAImageGet(TIFFRGBAImage *</b><i>img</i><b>,
56 uint32*</b> <i>raster</i><b>, uint32</b> <i>width</i> <b>,
57 uint32</b> <i>height</i><b>)<br>
58 void TIFFRGBAImageEnd(TIFFRGBAImage
59 *</b><i>img</i><b>)</b></p>
60 </td>
61 </table>
62 <a name="DESCRIPTION"></a>
63 <h2>DESCRIPTION</h2>
64 <!-- INDENTATION -->
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70 <p>The routines described here provide a high-level
71 interface through which <small>TIFF</small> images may be
72 read into memory. Images may be strip- or tile-based and
73 have a variety of different characteristics: bits/sample,
74 samples/pixel, photometric, etc. Decoding state is
75 encapsulated in a <i>TIFFRGBAImage</i> structure making it
76 possible to capture state for multiple images and quickly
77 switch between them. The target raster format can be
78 customized to a particular application&rsquo;s needs by
79 installing custom routines that manipulate image data
80 according to application requirements.</p>
81 <!-- INDENTATION -->
82 <p>The default usage for these routines is: check if an
83 image can be processed using <i>TIFFRGBAImageOK</i>,
84 construct a decoder state block using
85 <i>TIFFRGBAImageBegin</i>, read and decode an image into a
86 target raster using <i>TIFFRGBAImageGet</i>, and then
87 release resources using <i>TIFFRGBAImageEnd</i>.
88 <i>TIFFRGBAImageGet</i> can be called multiple times to
89 decode an image using different state parameters. If
90 multiple images are to be displayed and there is not enough
91 space for each of the decoded rasters, multiple state blocks
92 can be managed and then calls can be made to
93 <i>TIFFRGBAImageGet</i> as needed to display an image.</p>
94 <!-- INDENTATION -->
95 <p>The generated raster is assumed to be an array of
96 <i>width</i> times <i>height</i> 32-bit entries, where
97 <i>width</i> must be less than or equal to the width of the
98 image (<i>height</i> may be any non-zero size). If the
99 raster dimensions are smaller than the image, the image data
100 is cropped to the raster bounds. If the raster height is
101 greater than that of the image, then the image data are
102 placed in the lower part of the raster. (Note that the
103 raster is assume to be organized such that the pixel at
104 location (<i>x</i>,<i>y</i>) is
105 <i>raster</i>[<i>y</i>*<i>width</i>+<i>x</i>]; with the
106 raster origin in the <b>lower-left</b> hand corner.)</p>
107 <!-- INDENTATION -->
108 <p>Raster pixels are 8-bit packed red, green, blue, alpha
109 samples. The macros <i>TIFFGetR</i>, <i>TIFFGetG</i>,
110 <i>TIFFGetB</i>, and <i>TIFFGetA</i> should be used to
111 access individual samples. Images without Associated Alpha
112 matting information have a constant Alpha of 1.0 (255).</p>
113 <!-- INDENTATION -->
114 <p><i>TIFFRGBAImageGet</i> converts non-8-bit images by
115 scaling sample values. Palette, grayscale, bilevel,
116 <small>CMYK</small> , and YCbCr images are converted to
117 <small>RGB</small> transparently. Raster pixels are returned
118 uncorrected by any colorimetry information present in the
119 directory.</p>
120 <!-- INDENTATION -->
121 <p>The parameter <i>stopOnError</i> specifies how to act if
122 an error is encountered while reading the image. If
123 <i>stopOnError</i> is non-zero, then an error will terminate
124 the operation; otherwise <i>TIFFRGBAImageGet</i> will
125 continue processing data until all the possible data in the
126 image have been requested.</p>
127 </td>
128 </table>
129 <a name="ALTERNATE RASTER FORMATS"></a>
130 <h2>ALTERNATE RASTER FORMATS</h2>
131 <!-- INDENTATION -->
132 <table width="100%" border=0 rules="none" frame="void"
133 cols="2" cellspacing="0" cellpadding="0">
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135 <td width="8%"></td>
136 <td width="91%">
137 <p>To use the core support for reading and processing
138 <small>TIFF</small> images, but write the resulting raster
139 data in a different format one need only override the
140 &lsquo;&lsquo;<i>put methods</i>&rsquo;&rsquo; used to store
141 raster data. These methods are are defined in the
142 <i>TIFFRGBAImage</i> structure and initially setup by
143 <i>TIFFRGBAImageBegin</i> to point to routines that pack
144 raster data in the default <small>ABGR</small> pixel format.
145 Two different routines are used according to the physical
146 organization of the image data in the file:
147 <i>PlanarConfiguration</i>=1 (packed samples), and
148 <i>PlanarConfiguration</i>=2 (separated samples). Note that
149 this mechanism can be used to transform the data before
150 storing it in the raster. For example one can convert data
151 to colormap indices for display on a colormap display.</p>
152 </td>
153 </table>
154 <a name="SIMULTANEOUS RASTER STORE AND DISPLAY"></a>
155 <h2>SIMULTANEOUS RASTER STORE AND DISPLAY</h2>
156 <!-- INDENTATION -->
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162 <p>It is simple to display an image as it is being read into
163 memory by overriding the put methods as described above for
164 supporting alternate raster formats. Simply keep a reference
165 to the default put methods setup by
166 <i>TIFFRGBAImageBegin</i> and then invoke them before or
167 after each display operation. For example, the
168 <i>tiffgt</i>(1) utility uses the following put method to
169 update the display as the raster is being filled:</p>
170 <!-- INDENTATION -->
171 <pre>static void
172 putContigAndDraw(TIFFRGBAImage* img, uint32* raster,
173 uint32 x, uint32 y, uint32 w, uint32 h,
174 int32 fromskew, int32 toskew,
175 unsigned char* cp)
176 {
177 (*putContig)(img, raster, x, y, w, h, fromskew, toskew, cp);
178 if (x+w == width) {
179 w = width;
180 if (img-&gt;orientation == ORIENTATION_TOPLEFT)
181 lrectwrite(0, y-(h-1), w-1, y, raster-x-(h-1)*w);
182 else
183 lrectwrite(0, y, w-1, y+h-1, raster);
184 }
185 }
186 </pre>
187 <!-- INDENTATION -->
188 <p>(the original routine provided by the library is saved in
189 the variable <i>putContig</i>.)</p>
190 </td>
191 </table>
192 <a name="SUPPORTING ADDITIONAL TIFF FORMATS"></a>
193 <h2>SUPPORTING ADDITIONAL TIFF FORMATS</h2>
194 <!-- INDENTATION -->
195 <table width="100%" border=0 rules="none" frame="void"
196 cols="2" cellspacing="0" cellpadding="0">
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198 <td width="8%"></td>
199 <td width="91%">
200 <p>The <i>TIFFRGBAImage</i> routines support the most
201 commonly encountered flavors of <small>TIFF.</small> It is
202 possible to extend this support by overriding the
203 &lsquo;&lsquo;<i>get method</i>&rsquo;&rsquo; invoked by
204 <i>TIFFRGBAImageGet</i> to read <small>TIFF</small> image
205 data. Details of doing this are a bit involved, it is best
206 to make a copy of an existing get method and modify it to
207 suit the needs of an application.</p>
208 </td>
209 </table>
210 <a name="NOTES"></a>
211 <h2>NOTES</h2>
212 <!-- INDENTATION -->
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218 <p>Samples must be either 1, 2, 4, 8, or 16 bits.
219 Colorimetric samples/pixel must be either 1, 3, or 4 (i.e.
220 <i>SamplesPerPixel</i> minus <i>ExtraSamples</i>).</p>
221 <!-- INDENTATION -->
222 <p>Palette image colormaps that appear to be incorrectly
223 written as 8-bit values are automatically scaled to
224 16-bits.</p>
225 </td>
226 </table>
227 <a name="RETURN VALUES"></a>
228 <h2>RETURN VALUES</h2>
229 <!-- INDENTATION -->
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235 <p>All routines return 1 if the operation was successful.
236 Otherwise, 0 is returned if an error was encountered and
237 <i>stopOnError</i> is zero.</p>
238 </td>
239 </table>
240 <a name="DIAGNOSTICS"></a>
241 <h2>DIAGNOSTICS</h2>
242 <!-- INDENTATION -->
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248 <p>All error messages are directed to the
249 <i>TIFFError</i>(3TIFF) routine.</p>
250 <!-- INDENTATION -->
251 <p><b>Sorry, can not handle %d-bit pictures</b>. The image
252 had <i>BitsPerSample</i> other than 1, 2, 4, 8, or 16.</p>
253 <!-- INDENTATION -->
254 <p><b>Sorry, can not handle %d-channel images</b>. The image
255 had <i>SamplesPerPixel</i> other than 1, 3, or 4.</p>
256 <!-- INDENTATION -->
257 <p><b>Missing needed &quot;PhotometricInterpretation&quot;
258 tag</b>. The image did not have a tag that describes how to
259 display the data.</p>
260 <!-- INDENTATION -->
261 <p><b>No &quot;PhotometricInterpretation&quot; tag, assuming
262 RGB</b>. The image was missing a tag that describes how to
263 display it, but because it has 3 or 4 samples/pixel, it is
264 assumed to be <small>RGB.</small></p>
265 <!-- INDENTATION -->
266 <p><b>No &quot;PhotometricInterpretation&quot; tag, assuming
267 min-is-black</b>. The image was missing a tag that describes
268 how to display it, but because it has 1 sample/pixel, it is
269 assumed to be a grayscale or bilevel image.</p>
270 <!-- INDENTATION -->
271 <p><b>No space for photometric conversion table</b>. There
272 was insufficient memory for a table used to convert image
273 samples to 8-bit <small>RGB.</small></p>
274 <!-- INDENTATION -->
275 <p><b>Missing required &quot;Colormap&quot; tag</b>. A
276 Palette image did not have a required <i>Colormap</i>
277 tag.</p>
278 <!-- INDENTATION -->
279 <p><b>No space for tile buffer</b>. There was insufficient
280 memory to allocate an i/o buffer.</p>
281 <!-- INDENTATION -->
282 <p><b>No space for strip buffer</b>. There was insufficient
283 memory to allocate an i/o buffer.</p>
284 <!-- INDENTATION -->
285 <p><b>Can not handle format</b>. The image has a format
286 (combination of <i>BitsPerSample</i>,
287 <i>SamplesPerPixel</i>, and
288 <i>PhotometricInterpretation</i>) that can not be
289 handled.</p>
290 <!-- INDENTATION -->
291 <p><b>No space for B&amp;W mapping table</b>. There was
292 insufficient memory to allocate a table used to map
293 grayscale data to <small>RGB.</small></p>
294 <!-- INDENTATION -->
295 <p><b>No space for Palette mapping table</b>. There was
296 insufficient memory to allocate a table used to map data to
297 8-bit <small>RGB.</small></p>
298 </td>
299 </table>
300 <a name="SEE ALSO"></a>
301 <h2>SEE ALSO</h2>
302 <!-- INDENTATION -->
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307 <td width="91%">
308 <p><b>TIFFOpen</b>(3TIFF), <b>TIFFReadRGBAImage</b>(3TIFF),
309 <b>TIFFReadRGBAImageOriented</b>(3TIFF),
310 <b>TIFFReadRGBAStrip</b>(3TIFF),
311 <b>TIFFReadRGBATile</b>(3TIFF), <b>libtiff</b>(3TIFF)</p>
312 <!-- INDENTATION -->
313 <p>Libtiff library home page:
314 <b>http://www.remotesensing.org/libtiff/</b></p>
315 </td>
316 </table>
317 <hr>
318 </body>
319 </html>