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Modifying The TIFF Library

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Defining New TIFF Tags

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Libtiff has built-in knowledge of all the standard TIFF tags, as

new tags as builtins to libtiff, or how to application specific tags can

be used by applications without modifying libtiff.

<p>

<h2>TIFFFieldInfo</h2>

How libtiff manages specific tags is primarily controlled by the

definition for that tag value stored internally as a TIFFFieldInfo structure.

This structure looks like this:

<p>

<pre>

typedef struct {

ttag_t field_tag; /* field's tag */

short field_readcount; /* read count/TIFF_VARIABLE/TIFF_SPP */

short field_writecount; /* write count/TIFF_VARIABLE */

TIFFDataType field_type; /* type of associated data */

unsigned short field_bit; /* bit in fieldsset bit vector */

unsigned char field_oktochange;/* if true, can change while writing */

unsigned char field_passcount;/* if true, pass dir count on set */

char *field_name; /* ASCII name */

} TIFFFieldInfo;

</pre>

<ul>

<li> <b>field_tag</b>: the tag number. For instance 277 for the

SamplesPerPixel tag. Builtin tags will generally have a #define in

tiff.h for each known tag. <p>

<li> <b>field_readcount</b>: The number of values which should be read.

The special value TIFF_VARIABLE (-1) indicates that a variable number of

values may be read. The special value TIFFTAG_SPP (-2) indicates that there

should be one value for each sample as defined by TIFFTAG_SAMPLESPERPIXEL.

The special value TIFF_VARIABLE2 (-3) is presumably similar to TIFF_VARIABLE

though I am not sure what the distinction in behaviour is. This field

is TIFF_VARIABLE for variable length ascii fields.<p>

<li> <b>field_writecount</b>: The number of values which should be written.

Generally the same as field_readcount. A few built-in exceptions exist, but

I haven't analysed why they differ. <p>

<li> <b>field_type</b>: Type of the field. One of TIFF_BYTE, TIFF_ASCII,

TIFF_SHORT, TIFF_LONG, TIFF_RATIONAL, TIFF_SBYTE, TIFF_UNDEFINED,

TIFF_SSHORT, TIFF_SLONG, TIFF_SRATIONAL, TIFF_FLOAT, TIFF_DOUBLE or

TIFF_IFD. Note that some fields can support more than one type (for

instance short and long). These fields should have multiple TIFFFieldInfos.

<p>

<li> <b>field_bit</b>: Built-in tags stored in special fields in the

TIFF structure have assigned field numbers to distinguish them (ie.

FIELD_SAMPLESPERPIXEL). New tags should generally just use

FIELD_CUSTOM indicating they are stored in the generic tag list.<p>

<li> <b>field_oktochange</b>: TRUE if it is OK to change this tag value

while an image is being written. FALSE for stuff that must be set once

and then left unchanged (like ImageWidth, or PhotometricInterpretation for

instance).<p>

<li> <b>field_passcount</b>: If TRUE, then the count value must be passed

in TIFFSetField(), and TIFFGetField(), otherwise the count is not required.

This should generally be TRUE for non-ascii variable count tags unless

the count is implicit (such as with the colormap).<p>

<li> <b>field_name</b>: A name for the tag. Normally mixed case (studly caps)

like "StripByteCounts" and relatively short. <p>

</ul>

A TIFFFieldInfo definition exists for each built-in tag in the tif_dirinfo.c

file. Some tags which support multiple data types have more than one

definition, one per data type supported. <p>

Various functions exist for getting the internal TIFFFieldInfo definitions,

including _TIFFFindFieldInfo(), and _TIFFFindFieldInfoByName(). See

tif_dirinfo.c for details. There must be some mechanism to get the whole

list, though I don't see it off hand.<p>

<h2>Default Tag Auto-registration</h2>

In libtiff 3.6.0 a new mechanism was introduced allowing libtiff to

read unrecognised tags automatically. When an unknown tags is encountered,

it is automatically internally defined with a default name and a type

derived from the tag value in the file. Applications only need to predefine

application specific tags if they need to be able to set them in a file, or

if particular calling conventions are desired for TIFFSetField() and

TIFFGetField().<p>

When tags are autodefined like this the <b>field_readcount</b> and

<b>field_writecount</b> values are always TIFF_VARIABLE. The

<b>field_passcount</b> is always TRUE, and the <b>field_bit</b> is

FIELD_CUSTOM. The field name will be "Tag %d" where the %d is the tag

number.<p>

<h2>Defining Application Tags</h2>

For various reasons, it is common for applications to want to define

their own tags to store information outside the core TIFF specification.

This is done by calling TIFFMergeFieldInfo() with one or more TIFFFieldInfos.

<p>

a TIFF file. First, a set of TIFFFieldInfo's is prepared with information

on the new tags:<p>

<pre>

static const TIFFFieldInfo xtiffFieldInfo[] = {

/* XXX Insert Your tags here */

{ TIFFTAG_GEOPIXELSCALE, -1,-1, TIFF_DOUBLE, FIELD_CUSTOM,

TRUE, TRUE, "GeoPixelScale" },

{ TIFFTAG_GEOTRANSMATRIX, -1,-1, TIFF_DOUBLE, FIELD_CUSTOM,

TRUE, TRUE, "GeoTransformationMatrix" },

{ TIFFTAG_GEOTIEPOINTS, -1,-1, TIFF_DOUBLE, FIELD_CUSTOM,

TRUE, TRUE, "GeoTiePoints" },

{ TIFFTAG_GEOKEYDIRECTORY, -1,-1, TIFF_SHORT, FIELD_CUSTOM,

TRUE, TRUE, "GeoKeyDirectory" },

{ TIFFTAG_GEODOUBLEPARAMS, -1,-1, TIFF_DOUBLE, FIELD_CUSTOM,

TRUE, TRUE, "GeoDoubleParams" },

{ TIFFTAG_GEOASCIIPARAMS, -1,-1, TIFF_ASCII, FIELD_CUSTOM,

TRUE, FALSE, "GeoASCIIParams" }

};

</pre>

In order to define the tags, we call TIFFMergeFieldInfo() on the

desired TIFF handle with the list of TIFFFieldInfos.<p>

<pre>

#define N(a) (sizeof (a) / sizeof (a[0]))

/* Install the extended Tag field info */

TIFFMergeFieldInfo(tif, xtiffFieldInfo, N(xtiffFieldInfo));

</pre>

The tags need to be defined for each TIFF file opened - and when reading

they should be defined before the tags of the file are read, yet a valid

TIFF * is needed to merge the tags against. In order to get them

registered at the appropriate part of the setup process, it is necessary

to register our merge function as an extender callback with libtiff.

This is done with TIFFSetTagExtender(). We also keep track of the

previous tag extender (if any) so that we can call it from our extender

allowing a chain of customizations to take effect. <P>

<pre>

static TIFFExtendProc _ParentExtender = NULL;

static

void _XTIFFInitialize(void)

{

static int first_time=1;

if (! first_time) return; /* Been there. Done that. */

first_time = 0;

/* Grab the inherited method and install */

_ParentExtender = TIFFSetTagExtender(_XTIFFDefaultDirectory);

}

</pre>

The extender callback is looks like this. It merges in our new fields

and then calls the next extender if there is one in effect.<p>

<pre>

static void

_XTIFFDefaultDirectory(TIFF *tif)

{

/* Install the extended Tag field info */

TIFFMergeFieldInfo(tif, xtiffFieldInfo, N(xtiffFieldInfo));

/* Since an XTIFF client module may have overridden

* the default directory method, we call it now to

* allow it to set up the rest of its own methods.

*/

if (_ParentExtender)

(*_ParentExtender)(tif);

}

</pre>

The above approach ensures that our new definitions are used when reading

or writing any TIFF file. However, since on reading we already have

default definitions for tags, it is usually not critical to pre-define them.

If tag definitions are only required for writing custom tags, you can just

call TIFFMergeFieldInfo() before setting new tags. The whole extender

architecture can then be avoided.<p>

<A NAME=AddingTags><P><H2>Adding New Builtin Tags</H2></A>

A similar approach is taken to the above. However, the TIFFFieldInfo

should be added to the tiffFieldInfo[] list in tif_dirinfo.c. Ensure that

new tags are added in sorted order by the tag number.<p>

Normally new built-in tags should be defined with FIELD_CUSTOM; however, if

it is desirable for the tag value to have it's own field in the TIFFDirectory

structure, then you will need to #define a new FIELD_ value for it, and

add appropriate handling as follows:

<OL>

<LI>Define the tag in <B>tiff.h</B>.

<LI>Add a field to the directory structure in <B>tif_dir.h</B>

and define a <TT>FIELD_*</TT> bit (also update the definition of

<TT>FIELD_CODEC</TT> to reflect your addition).

<LI>Add an entry in the <TT>TIFFFieldInfo</TT> array defined at the top of

<B>tif_dirinfo.c</B>.

Note that you must keep this array sorted by tag

number and that the widest variant entry for a tag should come

first (e.g. <TT>LONG</TT> before <TT>SHORT</TT>).

<LI>Add entries in <TT>_TIFFVSetField()</TT> and <TT>_TIFFVGetField()</TT>

for the new tag.

<LI>(<I>optional</I>) If the value associated with the tag is not a scalar value

(e.g. the array for <TT>TransferFunction</TT>) and requires

special processing,

then add the appropriate code to <TT>TIFFReadDirectory()</TT> and

<TT>TIFFWriteDirectory()</TT>. You're best off finding a similar tag and

cribbing code.

<LI>Add support to <TT>TIFFPrintDirectory()</TT> in <B>tif_print.c</B>

to print the tag's value.

</OL>

<P>

If you want to maintain portability, beware of making assumptions

about data types. Use the typedefs (<TT>uint16</TT>, etc. when dealing with

data on disk and <TT>t*_t</TT> when stuff is in memory) and be careful about

passing items through printf or similar vararg interfaces.

<A NAME=AddingCODECTags><P><H2>Adding New Codec-private Tags</H2></A>

To add tags that are meaningful <EM>only when a particular compression

algorithm is used</EM> follow these steps:

<OL>

<LI>Define the tag in <B>tiff.h</B>.

<LI>Allocate storage for the tag values in the private state block of

the codec.

<LI>Insure the state block is created when the codec is initialized.

<LI>At <TT>TIFFInitfoo</TT> time override the method pointers in the

TIFF structure

for getting, setting and printing tag values. For example,

<PRE>

sp->vgetparent = tif->tif_vgetfield;

tif->tif_vgetfield = fooVGetField; /* hook for codec tags */

sp->vsetparent = tif->tif_vsetfield;

tif->tif_vsetfield = fooVSetField; /* hook for codec tags */

tif->tif_printdir = fooPrintDir; /* hook for codec tags */

</PRE>

(Actually you may decide not to override the

<TT>tif_printdir</TT> method, but rather just specify it).

<LI>Create a private <TT>TIFFFieldInfo</TT> array for your tags and

merge them into the core tags at initialization time using

<TT>_TIFFMergeFieldInfo</TT>; e.g.

<PRE>

_TIFFMergeFieldInfo(tif, fooFieldInfo, N(fooFieldInfo));

</PRE>

(where <TT>N</TT> is a macro used liberaly throughout the distributed code).

<LI>Fill in the get and set routines. Be sure to call the parent method

for tags that you are not handled directly. Also be sure to set the

<TT>FIELD_*</TT> bits for tags that are to be written to the file. Note that

you can create ``pseudo-tags'' by defining tags that are processed

exclusively in the get/set routines and never written to file (see

the handling of <TT>TIFFTAG_FAXMODE</TT> in <B>tif_fax3.c</B>

for an example of this).

<LI>Fill in the print routine, if appropriate.

</OL>

Note that space has been allocated in the <TT>FIELD_*</TT> bit space for

codec-private tags. Define your bits as <TT>FIELD_CODEC+&lt;offset&gt;</TT> to

keep them away from the core tags. If you need more tags than there

is room for, just increase <TT>FIELD_SETLONGS</TT> at the top of

<B>tiffiop.h</B>.

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Last updated: $Date: 2016-09-25 20:05:44 $

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