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* For URL paths, the new approach essentially centralizes all information in the URL into the "#mode=" fragment key and uses that value to determine the dispatcher for (most) URLs. * The new approach has the following steps: 1. canonicalize the path if it is a URL. 2. use the mode= fragment key to determine the dispatcher 3. if dispatcher still not determined, then use the mode flags argument to nc_open/nc_create to determine the dispatcher. 4. if the path points to something readable, attempt to read the magic number at the front, and use that to determine the dispatcher. this case may override all previous cases. * Misc changes. 1. Update documentation 2. Moved some unit tests from libdispatch to unit_test directory. 3. Fixed use of wrong #ifdef macro in test_filter_reg.c [I think this may fix an previously reported esupport query].
539 lines
18 KiB
Plaintext
539 lines
18 KiB
Plaintext
/** \file
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\internal
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\page nc_dispatch Internal Dispatch Table Architecture
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\tableofcontents
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This document describes the architecture and details of the netCDF
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internal dispatch mechanism. The idea is that when a user opens or
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creates a netcdf file, a specific dispatch table is chosen.
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A dispatch table is a struct containing an entry for every function
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in the netcdf-c API.
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Subsequent netcdf API calls are then channeled through that
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dispatch table to the appropriate function for implementing that API
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call. The functions in the dispatch table are not quite the same
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as those defined in netcdf.h. For simplicity and compactness,
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some netcdf.h API calls are
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mapped to the same dispatch table function. In addition to
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the functions, the first entry in the table defines the model
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that this dispatch table implements. It will be one of the
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NC_FORMATX_XXX values.
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The list of supported dispatch tables will grow over time.
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To date, at least the following dispatch tables are supported.
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- netcdf classic files (netcdf-3)
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- netcdf enhanced files (netcdf-4)
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- DAP2 to netcdf-3
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- DAP4 to netcdf-4
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- PnetCDF (parallel I/O for classic files -- version 1,2, or 5)
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- HDF4 SD files
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The dispatch table represents a distillation of the netcdf API down to
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a minimal set of internal operations. The format of the dispatch table
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is defined in the file libdispatch/ncdispatch.h. Every new dispatch
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table must define this minimal set of operations.
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\section adding_dispatch Adding a New Dispatch Table
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In order to make this process concrete, let us assume we plan to add
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an in-memory implementation of netcdf-3.
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\subsection dispatch_configure_ac Defining configure.ac flags
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Define a _–-enable_ flag and an _AM_CONFIGURE_ flag in _configure.ac_.
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For our example, we assume the option "--enable-ncm" and the AM_CONFIGURE
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flag "ENABLE_NCM". If you examine the existing _configure.ac_ and see how,
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for example, _DAP2_ is defined, then it should be clear how to do it for
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your code.
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\subsection dispatch_namespace Defining a "name space"
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Choose some prefix of characters to identify the new dispatch
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system. In effect we are defining a name-space. For our in-memory
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system, we will choose "NCM" and "ncm". NCM is used for non-static
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procedures to be entered into the dispatch table and ncm for all other
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non-static procedures. Note that the chosen prefix should probably start
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with "nc" in order to avoid name conflicts outside the netcdf-c library.
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\subsection dispatch_netcdf_h Extend include/netcdf.h
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Modify the file _include/netcdf.h_ to add an NC_FORMATX_XXX flag
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by adding a flag for this dispatch format at the appropriate places.
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\code
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\c \#define NC_FORMATX_NCM 7
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\endcode
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Add any format specific new error codes.
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\code
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\c \#define NC_ENCM (?)
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\endcode
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\subsection dispatch_ncdispatch Extend include/ncdispatch.h
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Modify the file _include/ncdispatch.h_ to
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add format specific data and functions; note the use of our NCM namespace.
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\code
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#ifdef ENABLE_NCM
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extern NC_Dispatch* NCM_dispatch_table;
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extern int NCM_initialize(void);
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#endif
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\endcode
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\subsection dispatch_define_code Define the dispatch table functions
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Define the functions necessary to fill in the dispatch table. As a
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rule, we assume that a new directory is defined, _libsrcm_, say. Within
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this directory, we need to define _Makefile.am_ and _CMakeLists.txt_.
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We also need to define the source files
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containing the dispatch table and the functions to be placed in the
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dispatch table -– call them _ncmdispatch.c_ and _ncmdispatch.h_. Look at
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_libsrc/nc3dispatch.[ch]_ or _libdap4/ncd4dispatch.[ch]_ for examples.
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Similarly, it is best to take existing _Makefile.am_ and _CMakeLists.txt_
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files (from _libdap4_ for example) and modify them.
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\subsection dispatch_lib Adding the dispatch code to libnetcdf
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Provide for the inclusion of this library in the final libnetcdf
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library. This is accomplished by modifying _liblib/Makefile.am_ by
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adding something like the following.
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\code
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if ENABLE_NCM
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libnetcdf_la_LIBADD += $(top_builddir)/libsrcm/libnetcdfm.la
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endif
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\endcode
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\subsection dispatch_init Extend library initialization
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Modify the _NC_initialize_ function in _liblib/nc_initialize.c_ by adding
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appropriate references to the NCM dispatch function.
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\code
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#ifdef ENABLE_NCM
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extern int NCM_initialize(void);
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#endif
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...
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int NC_initialize(void)
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{
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...
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#ifdef ENABLE_NCM
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if((stat = NCM_initialize())) return stat;
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#endif
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...
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}
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\endcode
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\section dispatch_tests Testing the new dispatch table
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Add a directory of tests: _ncm_test_, say. The file _ncm_test/Makefile.am_
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will look something like this.
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\code
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# These files are created by the tests.
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CLEANFILES = ...
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# These are the tests which are always run.
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TESTPROGRAMS = test1 test2 ...
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test1_SOURCES = test1.c ...
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...
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# Set up the tests.
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check_PROGRAMS = $(TESTPROGRAMS)
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TESTS = $(TESTPROGRAMS)
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# Any extra files required by the tests
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EXTRA_DIST = ...
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\endcode
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\section dispatch_toplevel Top-Level build of the dispatch code
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Provide for _libnetcdfm_ to be constructed by adding the following to
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the top-level _Makefile.am_.
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\code
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if ENABLE_NCM
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NCM=libsrcm
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NCMTESTDIR=ncm_test
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endif
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...
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SUBDIRS = ... $(DISPATCHDIR) $(NCM) ... $(NCMTESTDIR)
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\endcode
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\section choosing_dispatch_table Choosing a Dispatch Table
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The dispatch table is chosen in the NC_create and the NC_open
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procedures.
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This can be, unfortunately, a complex process.
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The code for inferring a dispatch table is largely isolated
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to the file _libdispatch/dinfermodel.c_, which is invoked
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from _NC_create_ or _NC_open_ in _libdispatch/dfile.c_.
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In any case, the choice of dispatch table is currently based on the following
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pieces of information.
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1. The mode argument – this can be used to detect, for example, what kind
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of file to create: netcdf-3, netcdf-4, 64-bit netcdf-3, etc.
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Using a mode flag is the most common mechanism, in which case
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_netcdf.h_ needs to be modified to define the relevant mode flag.
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2. The file path – this can be used to detect, for example, a DAP url
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versus a normal file system file. If the path looks like a URL, then
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the choice is determined using the function _NC_urlmodel_.
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3. The file contents - when the contents of a real file are available,
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the contents of the file can be used to determine the dispatch table.
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As a rule, this is likely to be useful only for _nc_open_.
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\section special_dispatch Special Dispatch Table Signatures.
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The entries in the dispatch table do not necessarily correspond
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to the external API. In many cases, multiple related API functions
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are merged into a single dispatch table entry.
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\subsection create_open_dispatch Create/Open
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The create table entry and the open table entry in the dispatch table
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have the following signatures respectively.
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\code
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int (*create)(const char *path, int cmode,
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size_t initialsz, int basepe, size_t *chunksizehintp,
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int useparallel, void* parameters,
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struct NC_Dispatch* table, NC* ncp);
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\endcode
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\code
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int (*open)(const char *path, int mode,
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int basepe, size_t *chunksizehintp,
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int use_parallel, void* parameters,
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struct NC_Dispatch* table, NC* ncp);
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\endcode
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The key difference is that these are the union of all the possible
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create/open signatures from the include/netcdfXXX.h files. Note especially the last
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three parameters. The parameters argument is a pointer to arbitrary data
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to provide extra info to the dispatcher.
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The table argument is included in case the create
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function (e.g. _NCM_create_) needs to invoke other dispatch
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functions. The very last argument, ncp, is a pointer to an NC
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instance. The raw NC instance will have been created by _libdispatch/dfile.c_
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and is passed to e.g. open with the expectation that it will be filled in
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by the dispatch open function.
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\subsection put_vara_dispatch Accessing Data with put_vara() and get_vara()
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\code
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int (*put_vara)(int ncid, int varid, const size_t *start, const size_t *count,
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const void *value, nc_type memtype);
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\endcode
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\code
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int (*get_vara)(int ncid, int varid, const size_t *start, const size_t *count,
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void *value, nc_type memtype);
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\endcode
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Most of the parameters are similar to the netcdf API parameters. The
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last parameter, however, is the type of the data in
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memory. Additionally, instead of using an "int islong" parameter, the
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memtype will be either ::NC_INT or ::NC_INT64, depending on the value
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of sizeof(long). This means that even netcdf-3 code must be prepared
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to encounter the ::NC_INT64 type.
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\subsection put_attr_dispatch Accessing Attributes with put_attr() and get_attr()
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\code
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int (*get_att)(int ncid, int varid, const char *name,
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void *value, nc_type memtype);
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\endcode
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\code
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int (*put_att)(int ncid, int varid, const char *name, nc_type datatype, size_t len,
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const void *value, nc_type memtype);
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\endcode
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Again, the key difference is the memtype parameter. As with
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put/get_vara, it used ::NC_INT64 to encode the long case.
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\subsection pre_def_dispatch Pre-defined Dispatch Functions
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It is sometimes not necessary to implement all the functions in the
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dispatch table. Some pre-defined functions are available which may be
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used in many cases.
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\subsubsection inquiry_functions Inquiry Functions
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The netCDF inquiry functions operate from an in-memory model of
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metadata. Once a file is opened, or a file is created, this
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in-memory metadata model is kept up to date. Consequenty the inquiry
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functions do not depend on the dispatch layer code. These functions
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can be used by all dispatch layers which use the internal netCDF
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enhanced data model.
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- NC4_inq
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- NC4_inq_type
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- NC4_inq_dimid
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- NC4_inq_dim
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- NC4_inq_unlimdim
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- NC4_inq_att
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- NC4_inq_attid
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- NC4_inq_attname
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- NC4_get_att
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- NC4_inq_varid
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- NC4_inq_var_all
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- NC4_show_metadata
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- NC4_inq_unlimdims
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- NC4_inq_ncid
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- NC4_inq_grps
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- NC4_inq_grpname
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- NC4_inq_grpname_full
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- NC4_inq_grp_parent
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- NC4_inq_grp_full_ncid
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- NC4_inq_varids
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- NC4_inq_dimids
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- NC4_inq_typeids
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- NC4_inq_type_equal
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- NC4_inq_user_type
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- NC4_inq_typeid
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\subsubsection ncdefault_functions NCDEFAULT get/put Functions
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The mapped (varm) get/put functions have been
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implemented in terms of the array (vara) functions. So dispatch layers
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need only implement the vara functions, and can use the following
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functions to get the and varm functions:
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- NCDEFAULT_get_varm
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- NCDEFAULT_put_varm
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For the netcdf-3 format, the strided functions (nc_get/put_vars)
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are similarly implemented in terms of the vara functions. So the following
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convenience functions are available.
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- NCDEFAULT_get_vars
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- NCDEFAULT_put_vars
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For the netcdf-4 format, the vars functions actually exist, so
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the default vars functions are not used.
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\subsubsection read_only_functions Read-Only Functions
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Some dispatch layers are read-only (ex. HDF4). Any function which
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writes to a file, including nc_create(), needs to return error code
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::NC_EPERM. The following read-only functions are available so that
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these don't have to be re-implemented in each read-only dispatch layer:
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- NC_RO_create
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- NC_RO_redef
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- NC_RO__enddef
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- NC_RO_sync
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- NC_RO_set_fill
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- NC_RO_def_dim
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- NC_RO_rename_dim
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- NC_RO_rename_att
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- NC_RO_del_att
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- NC_RO_put_att
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- NC_RO_def_var
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- NC_RO_rename_var
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- NC_RO_put_vara
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- NC_RO_def_var_fill
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\subsubsection classic_functions Classic NetCDF Only Functions
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There are two functions that are only used in the classic code. All
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other dispatch layers (except PnetCDF) return error ::NC_ENOTNC3 for
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these functions. The following functions are provided for this
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purpose:
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- NOTNC3_inq_base_pe
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- NOTNC3_set_base_pe
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\section dispatch_layer HDF4 Dispatch Layer as a Simple Example
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The HDF4 dispatch layer is about the simplest possible dispatch
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layer. It is read-only, classic model. It will serve as a nice, simple
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example of a dispatch layer.
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Note that the HDF4 layer is optional in the netCDF build. Not all
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users will have HDF4 installed, and those users will not build with
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the HDF4 dispatch layer enabled. For this reason HDF4 code is guarded
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as follows.
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\code
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\c \#ifdef USE_HDF4
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...
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\c \#endif /*USE_HDF4*/
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\endcode
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Code in libhdf4 is only compiled if HDF4 is
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turned on in the build.
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\subsection header_changes Header File Changes in include Directory
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\subsubsection netcdf_h_file The netcdf.h File
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In the main netcdf.h file, we have the following:
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\code
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\c \#define NC_FORMATX_NC_HDF4 (3)
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\c \#define NC_FORMAT_NC_HDF4 NC_FORMATX_NC_HDF4
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\endcode
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\subsubsection ncdispatch_h_file The ncdispatch.h File
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In ncdispatch.h we have the following:
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\code
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#ifdef USE_HDF4
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extern NC_Dispatch* HDF4_dispatch_table;
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extern int HDF4_initialize(void);
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extern int HDF4_finalize(void);
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#endif
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\endcode
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\subsubsection netcdf_meta_h_file The netcdf_meta.h File
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The netcdf_meta.h file allows for easy determination of what features
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are in use. It contains the following, set by configure:
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\code
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\c \#define NC_HAS_HDF4 1 /*!< hdf4 support. */
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\endcode
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\subsubsection hdf4dispatch_h_file The hdf4dispatch.h File
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The file _hdf4dispatch.h_ contains prototypes and
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macro definitions used within the HDF4 code in libhdf4. This include
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file should not be used anywhere except in libhdf4.
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\subsection liblib_init Initialization Code Changes in liblib Directory
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The file _nc_initialize.c_ is modified to include the following:
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\code
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#ifdef USE_HDF4
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extern int HDF4_initialize(void);
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extern int HDF4_finalize(void);
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#endif
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\endcode
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\subsection libdispatch_changes Dispatch Code Changes in libdispatch Directory
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\subsubsection dfile_c_changes Changes to dfile.c
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In order for a dispatch layer to be used, it must be correctly
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determined in functions _NC_open()_ or _NC_create()_ in _libdispatch/dfile.c_.
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HDF4 has a magic number that is detected in
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_NC_interpret_magic_number()_, which allows _NC_open_ to automatically
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detect an HDF4 file.
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Once HDF4 is detected, the _model_ variable is set to _NC_FORMATX_NC_HDF4_,
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and later this is used in a case statement:
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\code
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case NC_FORMATX_NC_HDF4:
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dispatcher = HDF4_dispatch_table;
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break;
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\endcode
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This sets the dispatcher to the HDF4 dispatcher, which is defined in
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the libhdf4 directory.
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\subsection libhdf4_dispatch_code Dispatch Code in libhdf4
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\subsubsection hdf4dispatch_c_table Dispatch Table in hdf4dispatch.c
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The file _hdf4dispatch.c_ contains the definition of the HDF4 dispatch
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table. It looks like this:
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\code
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/* This is the dispatch object that holds pointers to all the
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* functions that make up the HDF4 dispatch interface. */
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static NC_Dispatch HDF4_dispatcher = {
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NC_FORMATX_NC_HDF4,
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NC_RO_create,
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NC_HDF4_open,
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NC_RO_redef,
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NC_RO__enddef,
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NC_RO_sync,
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...
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NC_NOTNC4_set_var_chunk_cache,
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NC_NOTNC4_get_var_chunk_cache,
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};
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\endcode
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Note that most functions use some of the predefined dispatch
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functions. Functions that start with NC_RO_ are read-only, they return
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::NC_EPERM. Functions that start with NOTNC4_ return ::NC_ENOTNC4.
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Only the functions that start with NC_HDF4_ need to be implemented for
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the HDF4 dispatch layer. There are 6 such functions:
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- NC_HDF4_open
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- NC_HDF4_abort
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- NC_HDF4_close
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- NC_HDF4_inq_format
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- NC_HDF4_inq_format_extended
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- NC_HDF4_get_vara
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\subsubsection hdf4_reading_code HDF4 Reading Code
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The code in _hdf4file.c_ opens the HDF4 SD dataset, and reads the
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metadata. This metadata is stored in the netCDF internal metadata
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model, allowing the inq functions to work.
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The code in _hdf4var.c_ does an _nc_get_vara()_ on the HDF4 SD
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dataset. This is all that is needed for all the nc_get_* functions to
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||
work.
|
||
|
||
\subsection model_infer Inferring the Dispatch Table
|
||
|
||
As mentioned above, the dispatch table is inferred using the following
|
||
information:
|
||
1. The mode argument
|
||
2. The file path/URL
|
||
3. The file contents (when available)
|
||
|
||
The primary function for doing this inference is in the file
|
||
_libdispatch/dinfermodel.c_ via the API in _include/ncmodel.h_.
|
||
The term _model_ is used here to include (at least) the following
|
||
information (see the structure type _NCmodel_ in _include/ncmodel.h_).
|
||
|
||
1. impl -- this is an NC_FORMATX_XXX value defining, in effect, the
|
||
dispatch table to use.
|
||
|
||
The construction of the model is primarily carried out by the function
|
||
_NC_infermodel()_ (in _libdispatch/dinfermodel.c_).
|
||
It is given the following parameters:
|
||
1. path -- (IN) absolute file path or URL
|
||
2. modep -- (IN/OUT) the set of mode flags given to _NC_open_ or _NC_create_.
|
||
3. iscreate -- (IN) distinguish open from create.
|
||
4. useparallel -- (IN) indicate if parallel IO can be used.
|
||
5. params -- (IN/OUT) arbitrary data dependent on the mode and path.
|
||
6. model -- (IN/OUT) place to store inferred model.
|
||
7. newpathp -- (OUT) the canonical rewrite of the path argument.
|
||
|
||
As a rule, these values are used in the this order to infer the model.
|
||
1. file contents -- highest precedence
|
||
2. url (if it is one) -- using the "mode=" key in the fragment (see below).
|
||
3. mode flags
|
||
4. default format -- lowest precedence
|
||
|
||
If the path appears to be a URL, then it is parsed.
|
||
Information is extracted from the URL, and specifically,
|
||
the fragment key "mode=" is the critical element.
|
||
The URL will be rewritten to a canonical form with the following
|
||
changes.
|
||
1. The fragment part ("#..." at the end) is parsed and the "mode=" key
|
||
is extracted and its value is converted to a list of tags.
|
||
2. If the leading protocol is not http/https, then the protocol is added
|
||
to the mode list. That protocol is then replaced with either http or https.
|
||
3. Certain singleton values inb the fragment are extracted and removed
|
||
and added to the mode list. Consider, for example, "http://....#dap4".
|
||
The "dap4" singleton is removed and added to the mode list.
|
||
4. For backward compatibility, the values of "proto=" and "protocol="
|
||
are removed from the fragment and their value is added to the mode list.
|
||
5. The final mode list is converted to a comma separated string
|
||
and re-inserted into the fragment.
|
||
6. The final mode list is modified to remove duplicates.
|
||
|
||
The final result is the canonical form of the URL and is returned in the
|
||
newpathp argument described above.
|
||
|
||
*/
|