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272 lines
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HTML
272 lines
12 KiB
HTML
<!DOCTYPE HTML PUBLIC "-//IETF//DTD HTML//EN">
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<html>
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<head>
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<title>Backward/Forward Compatability</title>
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</head>
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<body>
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<h1>Backward/Forward Compatability</h1>
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<p>The HDF5 development must proceed in such a manner as to
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satisfy the following conditions:
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<ol type=A>
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<li>HDF5 applications can produce data that HDF5
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applications can read and write and HDF4 applications can produce
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data that HDF4 applications can read and write. The situation
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that demands this condition is obvious.</li>
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<li>HDF5 applications are able to produce data that HDF4 applications
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can read and HDF4 applications can subsequently modify the
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file subject to certain constraints depending on the
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implementation. This condition is for the temporary
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situation where a consumer has neither been relinked with a new
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HDF4 API built on top of the HDF5 API nor recompiled with the
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HDF5 API.</li>
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<li>HDF5 applications can read existing HDF4 files and subsequently
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modify the file subject to certain constraints depending on
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the implementation. This is condition is for the temporary
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situation in which the producer has neither been relinked with a
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new HDF4 API built on top of the HDF5 API nor recompiled with
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the HDF5 API, or the permanent situation of HDF5 consumers
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reading archived HDF4 files.</li>
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</ul>
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<p>There's at least one invarient: new object features introduced
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in the HDF5 file format (like 2-d arrays of structs) might be
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impossible to "translate" to a format that an old HDF4
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application can understand either because the HDF4 file format
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or the HDF4 API has no mechanism to describe the object.
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<p>What follows is one possible implementation based on how
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Condition B was solved in the AIO/PDB world. It also attempts
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to satisfy these goals:
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<ol type=1>
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<li>The main HDF5 library contains as little extra baggage as
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possible by either relying on external programs to take care
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of compatability issues or by incorporating the logic of such
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programs as optional modules in the HDF5 library. Conditions B
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and C are separate programs/modules.</li>
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<li>No extra baggage not only means the library proper is small,
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but also means it can be implemented (rather than migrated
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from HDF4 source) from the ground up with minimal regard for
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HDF4 thus keeping the logic straight forward.</li>
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<li>Compatability issues are handled behind the scenes when
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necessary (and possible) but can be carried out explicitly
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during things like data migration.</li>
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</ol>
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<hr>
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<h2>Wrappers</h2>
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<p>The proposed implementation uses <i>wrappers</i> to handle
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compatability issues. A Format-X file is <i>wrapped</i> in a
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Format-Y file by creating a Format-Y skeleton that replicates
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the Format-X meta data. The Format-Y skeleton points to the raw
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data stored in Format-X without moving the raw data. The
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restriction is that raw data storage methods in Format-Y is a
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superset of raw data storage methods in Format-X (otherwise the
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raw data must be copied to Format-Y). We're assuming that meta
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data is small wrt the entire file.
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<p>The wrapper can be a separate file that has pointers into the
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first file or it can be contained within the first file. If
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contained in a single file, the file can appear as a Format-Y
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file or simultaneously a Format-Y and Format-X file.
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<p>The Format-X meta-data can be thought of as the original
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wrapper around raw data and Format-Y is a second wrapper around
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the same data. The wrappers are independend of one another;
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modifying the meta-data in one wrapper causes the other to
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become out of date. Modification of raw data doesn't invalidate
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either view as long as the meta data that describes its storage
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isn't modifed. For instance, an array element can change values
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if storage is already allocated for the element, but if storage
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isn't allocated then the meta data describing the storage must
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change, invalidating all wrappers but one.
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<p>It's perfectly legal to modify the meta data of one wrapper
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without modifying the meta data in the other wrapper(s). The
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illegal part is accessing the raw data through a wrapper which
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is out of date.
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<p>If raw data is wrapped by more than one internal wrapper
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(<i>internal</i> means that the wrapper is in the same file as
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the raw data) then access to that file must assume that
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unreferenced parts of that file contain meta data for another
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wrapper and cannot be reclaimed as free memory.
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<hr>
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<h2>Implementation of Condition B</h2>
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<p>Since this is a temporary situation which can't be
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automatically detected by the HDF5 library, we must rely
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on the application to notify the HDF5 library whether or not it
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must satisfy Condition B. (Even if we don't rely on the
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application, at some point someone is going to remove the
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Condition B constraint from the library.) So the module that
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handles Condition B is conditionally compiled and then enabled
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on a per-file basis.
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<p>If the application desires to produce an HDF4 file (determined
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by arguments to <code>H5Fopen</code>), and the Condition B
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module is compiled into the library, then <code>H5Fclose</code>
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calls the module to traverse the HDF5 wrapper and generate an
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additional internal or external HDF4 wrapper (wrapper specifics
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are described below). If Condition B is implemented as a module
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then it can benefit from the metadata already cached by the main
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library.
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<p>An internal HDF4 wrapper would be used if the HDF5 file is
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writable and the user doesn't mind that the HDF5 file is
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modified. An external wrapper would be used if the file isn't
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writable or if the user wants the data file to be primarily HDF5
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but a few applications need an HDF4 view of the data.
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<p>Modifying through the HDF5 library an HDF5 file that has
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internal HDF4 wrapper should invalidate the HDF4 wrapper (and
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optionally regenerate it when <code>H5Fclose</code> is
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called). The HDF5 library must understand how wrappers work, but
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not necessarily anything about the HDF4 file format.
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<p>Modifying through the HDF5 library an HDF5 file that has an
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external HDF4 wrapper will cause the HDF4 wrapper to become out
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of date (but possibly regenerated during <code>H5Fclose</code>).
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<b>Note: Perhaps the next release of the HDF4 library should
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insure that the HDF4 wrapper file has a more recent modification
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time than the raw data file (the HDF5 file) to which it
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points(?)</b>
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<p>Modifying through the HDF4 library an HDF5 file that has an
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internal or external HDF4 wrapper will cause the HDF5 wrapper to
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become out of date. However, there is now way for the old HDF4
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library to notify the HDF5 wrapper that it's out of date.
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Therefore the HDF5 library must be able to detect when the HDF5
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wrapper is out of date and be able to fix it. If the HDF4
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wrapper is complete then the easy way is to ignore the original
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HDF5 wrapper and generate a new one from the HDF4 wrapper. The
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other approach is to compare the HDF4 and HDF5 wrappers and
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assume that if they differ HDF4 is the right one, if HDF4 omits
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data then it was because HDF4 is a partial wrapper (rather than
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assume HDF4 deleted the data), and if HDF4 has new data then
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copy the new meta data to the HDF5 wrapper. On the other hand,
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perhaps we don't need to allow these situations (modifying an
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HDF5 file with the old HDF4 library and then accessing it with
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the HDF5 library is either disallowed or causes HDF5 objects
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that can't be described by HDF4 to be lost).
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<p>To convert an HDF5 file to an HDF4 file on demand, one simply
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opens the file with the HDF4 flag and closes it. This is also
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how AIO implemented backward compatability with PDB in its file
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format.
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<hr>
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<h2>Implementation of Condition C</h2>
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<p>This condition must be satisfied for all time because there
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will always be archived HDF4 files. If a pure HDF4 file (that
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is, one without HDF5 meta data) is opened with an HDF5 library,
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the <code>H5Fopen</code> builds an internal or external HDF5
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wrapper and then accesses the raw data through that wrapper. If
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the HDF5 library modifies the file then the HDF4 wrapper becomes
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out of date. However, since the HDF5 library hasn't been
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released, we can at least implement it to disable and/or reclaim
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the HDF4 wrapper.
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<p>If an external and temporary HDF5 wrapper is desired, the
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wrapper is created through the cache like all other HDF5 files.
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The data appears on disk only if a particular cached datum is
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preempted. Instead of calling <code>H5Fclose</code> on the HDF5
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wrapper file we call <code>H5Fabort</code> which immediately
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releases all file resources without updating the file, and then
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we unlink the file from Unix.
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<hr>
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<h2>What do wrappers look like?</h2>
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<p>External wrappers are quite obvious: they contain only things
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from the format specs for the wrapper and nothing from the
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format specs of the format which they wrap.
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<p>An internal HDF4 wrapper is added to an HDF5 file in such a way
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that the file appears to be both an HDF4 file and an HDF5
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file. HDF4 requires an HDF4 file header at file offset zero. If
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a user block is present then we just move the user block down a
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bit (and truncate it) and insert the minimum HDF4 signature.
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The HDF4 <code>dd</code> list and any other data it needs are
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appended to the end of the file and the HDF5 signature uses the
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logical file length field to determine the beginning of the
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trailing part of the wrapper.
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<p>
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<center>
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<table border width="60%">
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<tr>
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<td>HDF4 minimal file header. Its main job is to point to
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the <code>dd</code> list at the end of the file.</td>
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</tr>
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<tr>
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<td>User-defined block which is truncated by the size of the
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HDF4 file header so that the HDF5 boot block file address
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doesn't change.</td>
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</tr>
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<tr>
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<td>The HDF5 boot block and data, unmodified by adding the
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HDF4 wrapper.</td>
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</tr>
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<tr>
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<td>The main part of the HDF4 wrapper. The <code>dd</code>
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list will have entries for all parts of the file so
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hdpack(?) doesn't (re)move anything.</td>
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</tr>
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</table>
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</center>
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<p>When such a file is opened by the HDF5 library for
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modification it shifts the user block back down to address zero
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and fills with zeros, then truncates the file at the end of the
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HDF5 data or adds the trailing HDF4 wrapper to the free
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list. This prevents HDF4 applications from reading the file with
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an out of date wrapper.
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<p>If there is no user block then we have a problem. The HDF5
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boot block must be moved to make room for the HDF4 file header.
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But moving just the boot block causes problems because all file
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addresses stored in the file are relative to the boot block
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address. The only option is to shift the entire file contents
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by 512 bytes to open up a user block (too bad we don't have
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hooks into the Unix i-node stuff so we could shift the entire
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file contents by the size of a file system page without ever
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performing I/O on the file :-)
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<p>Is it possible to place an HDF5 wrapper in an HDF4 file? I
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don't know enough about the HDF4 format, but I would suspect it
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might be possible to open a hole at file address 512 (and
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possibly before) by moving some things to the end of the file
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to make room for the HDF5 signature. The remainder of the HDF5
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wrapper goes at the end of the file and entries are added to the
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HDF4 <code>dd</code> list to mark the location(s) of the HDF5
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wrapper.
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<hr>
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<h2>Other Thoughts</h2>
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<p>Conversion programs that copy an entire HDF4 file to a separate,
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self-contained HDF5 file and vice versa might be useful.
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<hr>
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<address><a href="mailto:matzke@llnl.gov">Robb Matzke</a></address>
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<!-- Created: Fri Oct 3 11:52:31 EST 1997 -->
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<!-- hhmts start -->
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Last modified: Wed Oct 8 12:34:42 EST 1997
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<!-- hhmts end -->
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</body>
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</html>
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