netcdf-c/libdispatch/dvar.c

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/* Copyright 2010-2018 University Corporation for Atmospheric
Research/Unidata. See COPYRIGHT file for more info. */
/**
* @file
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* Functions for defining and inquiring about variables. @note The
* order of functions in this file affects the doxygen documentation.
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*/
Add support for multiple filters per variable. re: https://github.com/Unidata/netcdf-c/issues/1584 Support has been added for multiple filters per variable. This affects a number of components in netcdf. The new APIs are documented in NUG/filters.md. The primary changes are: * A set of new functions are provided (see __include/netcdf_filter.h__). - Obtain a list of the filters associated with a variable - Obtain the parameters for a specific filter. * The existing __nc_inq_var_filter__ function now returns info about the first defined filter. * The utilities (ncgen, ncdump, and nccopy) now support an extended format for specifying a sequence of filters. The general form is __<filter>|<filter>..._. * The ncdump **_Filter** attribute now dumps a list of all the filters associated with a variable using the above new format. * Filter specifications can now use a filter name instead of number for filters known to the netcdf library, which in turn is taken from the HDF5 filter registration page. * New errors are defined: NC_EFILTER and NC_ENOFILTER. The latter is returned if an attempt is made to access an unknown filter. * Internally, the dispatch table has been extended to add a function to handle all of the filter functions. * New, filter-related, tests were added to nc_test4. * A new plugin was added to the plugins directory to help with testing. Notes: 1. The shuffle and fletcher32 filters are not part of the multifilter system. Misc. changes: 1. A debug module was added to libhdf5 to help catch error locations.
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#include "config.h"
#include "netcdf.h"
#include "netcdf_filter.h"
#include "ncdispatch.h"
Add support for multiple filters per variable. re: https://github.com/Unidata/netcdf-c/issues/1584 Support has been added for multiple filters per variable. This affects a number of components in netcdf. The new APIs are documented in NUG/filters.md. The primary changes are: * A set of new functions are provided (see __include/netcdf_filter.h__). - Obtain a list of the filters associated with a variable - Obtain the parameters for a specific filter. * The existing __nc_inq_var_filter__ function now returns info about the first defined filter. * The utilities (ncgen, ncdump, and nccopy) now support an extended format for specifying a sequence of filters. The general form is __<filter>|<filter>..._. * The ncdump **_Filter** attribute now dumps a list of all the filters associated with a variable using the above new format. * Filter specifications can now use a filter name instead of number for filters known to the netcdf library, which in turn is taken from the HDF5 filter registration page. * New errors are defined: NC_EFILTER and NC_ENOFILTER. The latter is returned if an attempt is made to access an unknown filter. * Internally, the dispatch table has been extended to add a function to handle all of the filter functions. * New, filter-related, tests were added to nc_test4. * A new plugin was added to the plugins directory to help with testing. Notes: 1. The shuffle and fletcher32 filters are not part of the multifilter system. Misc. changes: 1. A debug module was added to libhdf5 to help catch error locations.
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#include "nc4internal.h"
#include "netcdf_f.h"
#include "nc4internal.h"
/**
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@defgroup variables Variables
Variables hold multi-dimensional arrays of data.
Variables for a netCDF dataset are defined when the dataset is
created, while the netCDF dataset is in define mode. Other
variables may be added later by reentering define mode. A netCDF
variable has a name, a type, and a shape, which are specified when
it is defined. A variable may also have values, which are
established later in data mode.
Ordinarily, the name, type, and shape are fixed when the variable
is first defined. The name may be changed, but the type and shape
of a variable cannot be changed. However, a variable defined in
terms of the unlimited dimension can grow without bound in that
dimension.
A netCDF variable in an open netCDF dataset is referred to by a
small integer called a variable ID.
Variable IDs reflect the order in which variables were defined
within a netCDF dataset. Variable IDs are 0, 1, 2,..., in the order
in which the variables were defined. A function is available for
getting the variable ID from the variable name and vice-versa.
@ref attributes may be associated with a variable to specify such
properties as units.
Operations supported on variables are:
- Create a variable, given its name, data type, and shape.
- Get a variable ID from its name.
- Get a variable's name, data type, shape, and number of attributes
from its ID.
- Put a data value into a variable, given variable ID, indices, and value.
- Put an array of values into a variable, given variable ID, corner
indices, edge lengths, and a block of values.
- Put a subsampled or mapped array-section of values into a variable,
given variable ID, corner indices, edge lengths, stride vector,
index mapping vector, and a block of values.
- Get a data value from a variable, given variable ID and indices.
- Get an array of values from a variable, given variable ID, corner
indices, and edge lengths.
- Get a subsampled or mapped array-section of values from a variable,
given variable ID, corner indices, edge lengths, stride vector, and
index mapping vector.
- Rename a variable.
@section language_types Data Types
NetCDF supported six atomic data types through version 3.6.0 (char,
byte, short, int, float, and double). Starting with version 4.0, many
new atomic and user defined data types are supported (unsigned int
types, strings, compound types, variable length arrays, enums,
opaque).
The additional data types are only supported in netCDF-4/HDF5
files. To create netCDF-4/HDF5 files, use the ::NC_NETCDF4 flag in
nc_create().
@section classic_types NetCDF-3 Classic and 64-Bit Offset Data Types
NetCDF-3 classic and 64-bit offset files support 6 atomic data types,
and none of the user defined datatype introduced in NetCDF-4.
The following table gives the netCDF-3 external data types and the
corresponding type constants for defining variables in the C
interface:
<table>
<tr><td>Type</td><td>C define</td><td>Bits</td></tr>
<tr><td>byte</td><td>::NC_BYTE</td><td>8</td></tr>
<tr><td>char</td><td>::NC_CHAR</td><td>8</td></tr>
<tr><td>short</td><td>::NC_SHORT</td><td>16</td></tr>
<tr><td>int</td><td>::NC_INT</td><td>32</td></tr>
<tr><td>float</td><td>::NC_FLOAT</td><td>32</td></tr>
<tr><td>double</td><td>::NC_DOUBLE</td><td>64</td></tr>
</table>
The first column gives the netCDF external data type, which is the
same as the CDL data type. The next column gives the corresponding C
pre-processor macro for use in netCDF functions (the pre-processor
macros are defined in the netCDF C header-file netcdf.h). The last
column gives the number of bits used in the external representation of
values of the corresponding type.
@section netcdf_4_atomic NetCDF-4 Atomic Data Types
NetCDF-4 files support all of the atomic data types from netCDF-3,
plus additional unsigned integer types, 64-bit integer types, and a
string type.
<table>
<tr><td>Type</td><td>C define</td><td>Bits
<tr><td>byte</td><td>::NC_BYTE</td><td>8</td></tr>
<tr><td>unsigned byte </td><td>::NC_UBYTE^</td><td> 8</td></tr>
<tr><td>char </td><td>::NC_CHAR </td><td>8</td></tr>
<tr><td>short </td><td>::NC_SHORT </td><td>16</td></tr>
<tr><td>unsigned short </td><td>::NC_USHORT^ </td><td>16</td></tr>
<tr><td>int </td><td>::NC_INT </td><td>32</td></tr>
<tr><td>unsigned int </td><td>::NC_UINT^ </td><td>32</td></tr>
<tr><td>unsigned long long </td><td>::NC_UINT64^ </td><td>64</td></tr>
<tr><td>long long </td><td>::NC_INT64^ </td><td>64</td></tr>
<tr><td>float </td><td>::NC_FLOAT </td><td>32</td></tr>
<tr><td>double </td><td>::NC_DOUBLE </td><td>64</td></tr>
<tr><td>char ** </td><td>::NC_STRING^ </td><td>string length + 1</td></tr>
</table>
^This type was introduced in netCDF-4, and is not supported in netCDF
classic or 64-bit offset format files, or in netCDF-4 files if they
are created with the ::NC_CLASSIC_MODEL flags.
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*/
/** @{ */
/**
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@name Defining Variables
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Use these functions to define variables.
*/
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/*! @{ */
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/**
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Define a new variable.
This function adds a new variable to an open netCDF dataset or group.
It returns (as an argument) a variable ID, given the netCDF ID,
the variable name, the variable type, the number of dimensions, and a
list of the dimension IDs.
@param ncid NetCDF or group ID, from a previous call to nc_open(),
nc_create(), nc_def_grp(), or associated inquiry functions such as
nc_inq_ncid().
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@param name Variable @ref object_name.
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@param xtype (Data
type)[https://docs.unidata.ucar.edu/nug/current/md_types.html#data_type]
of the variable.
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@param ndims Number of dimensions for the variable. For example, 2
specifies a matrix, 1 specifies a vector, and 0 means the variable is
a scalar with no dimensions. Must not be negative or greater than the
predefined constant ::NC_MAX_VAR_DIMS. In netCDF-4/HDF5 files, may not
exceed the HDF5 maximum number of dimensions (32).
@param dimidsp Vector of ndims dimension IDs corresponding to the
variable dimensions. For classic model netCDF files, if the ID of the
unlimited dimension is included, it must be first. This argument is
ignored if ndims is 0. For expanded model netCDF4/HDF5 files, there
may be any number of unlimited dimensions, and they may be used in any
element of the dimids array.
@param varidp Pointer to location for the returned variable ID.
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@return ::NC_NOERR No error.
@return ::NC_EBADID Bad ncid.
@return ::NC_ENOTINDEFINE Not in define mode.
@return ::NC_ESTRICTNC3 Attempting netcdf-4 operation on strict nc3 netcdf-4 file.
@return ::NC_EMAXVARS NC_MAX_VARS exceeded [Not enforced after 4.5.0]
@return ::NC_EBADTYPE Bad type.
@return ::NC_EINVAL Invalid input.
@return ::NC_ENAMEINUSE Name already in use.
@return ::NC_EPERM Attempt to create object in read-only file.
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@section nc_def_var_example Example
Here is an example using nc_def_var to create a variable named rh of
type double with three dimensions, time, lat, and lon in a new netCDF
dataset named foo.nc:
@code
#include <netcdf.h>
...
int status;
int ncid;
int lat_dim, lon_dim, time_dim;
int rh_id;
int rh_dimids[3];
...
status = nc_create("foo.nc", NC_NOCLOBBER, &ncid);
if (status != NC_NOERR) handle_error(status);
...
status = nc_def_dim(ncid, "lat", 5L, &lat_dim);
if (status != NC_NOERR) handle_error(status);
status = nc_def_dim(ncid, "lon", 10L, &lon_dim);
if (status != NC_NOERR) handle_error(status);
status = nc_def_dim(ncid, "time", NC_UNLIMITED, &time_dim);
if (status != NC_NOERR) handle_error(status);
...
rh_dimids[0] = time_dim;
rh_dimids[1] = lat_dim;
rh_dimids[2] = lon_dim;
status = nc_def_var (ncid, "rh", NC_DOUBLE, 3, rh_dimids, &rh_id);
if (status != NC_NOERR) handle_error(status);
@endcode
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@author Glenn Davis, Ed Hartnett, Dennis Heimbigner
*/
int
nc_def_var(int ncid, const char *name, nc_type xtype,
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int ndims, const int *dimidsp, int *varidp)
{
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NC* ncp;
int stat = NC_NOERR;
if ((stat = NC_check_id(ncid, &ncp)))
return stat;
TRACE(nc_def_var);
return ncp->dispatch->def_var(ncid, name, xtype, ndims,
dimidsp, varidp);
}
/**
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Set the fill value for a variable.
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@note For netCDF classic, 64-bit offset, and CDF5 formats, it is
allowed (but not good practice) to set the fill value after data
have been written to the variable. In this case, unless the
variable has been completely specified (without gaps in the data),
any existing filled values will not be recognized as fill values by
applications reading the data. Best practice is to set the fill
value after the variable has been defined, but before any data have
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been written to that variable. In NetCDF-4 files, this is enforced
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by the HDF5 library. For netCDF-4 files, an error is returned if
the user attempts to set the fill value after writing data to the
variable.
@param ncid NetCDF ID, from a previous call to nc_open() or
nc_create().
@param varid Variable ID.
@param no_fill Set to ::NC_NOFILL to turn off fill mode for this
variable. Set to ::NC_FILL (the default) to turn on fill mode for
the variable.
@param fill_value the fill value to be used for this variable. Must
be the same type as the variable. This must point to enough free
memory to hold one element of the data type of the variable. (For
example, an ::NC_INT will require 4 bytes for it's fill value,
which is also an ::NC_INT.)
@return ::NC_NOERR No error.
@return ::NC_EBADID Bad ID.
@return ::NC_ENOTINDEFINE Not in define mode. This is returned for
netCDF classic, 64-bit offset, or 64-bit data files, or for
netCDF-4 files, when they were created with ::NC_CLASSIC_MODEL flag by
nc_creae().
@return ::NC_EPERM Attempt to create object in read-only file.
@return ::NC_ELATEDEF (NetCDF-4 only). Returned when user attempts
to set fill value after data are written.
@return ::NC_EGLOBAL Attempt to set fill value on NC_GLOBAL.
Fix various problem around VLEN's re: https://github.com/Unidata/netcdf-c/issues/541 re: https://github.com/Unidata/netcdf-c/issues/1208 re: https://github.com/Unidata/netcdf-c/issues/2078 re: https://github.com/Unidata/netcdf-c/issues/2041 re: https://github.com/Unidata/netcdf-c/issues/2143 For a long time, there have been known problems with the management of complex types containing VLENs. This also involves the string type because it is stored as a VLEN of chars. This PR (mostly) fixes this problem. But note that it adds new functions to netcdf.h (see below) and this may require bumping the .so number. These new functions can be removed, if desired, in favor of functions in netcdf_aux.h, but netcdf.h seems the better place for them because they are intended as alternatives to the nc_free_vlen and nc_free_string functions already in netcdf.h. The term complex type refers to any type that directly or transitively references a VLEN type. So an array of VLENS, a compound with a VLEN field, and so on. In order to properly handle instances of these complex types, it is necessary to have function that can recursively walk instances of such types to perform various actions on them. The term "deep" is also used to mean recursive. At the moment, the two operations needed by the netcdf library are: * free'ing an instance of the complex type * copying an instance of the complex type. The current library does only shallow free and shallow copy of complex types. This means that only the top level is properly free'd or copied, but deep internal blocks in the instance are not touched. Note that the term "vector" will be used to mean a contiguous (in memory) sequence of instances of some type. Given an array with, say, dimensions 2 X 3 X 4, this will be stored in memory as a vector of length 2*3*4=24 instances. The use cases are primarily these. ## nc_get_vars Suppose one is reading a vector of instances using nc_get_vars (or nc_get_vara or nc_get_var, etc.). These functions will return the vector in the top-level memory provided. All interior blocks (form nested VLEN or strings) will have been dynamically allocated. After using this vector of instances, it is necessary to free (aka reclaim) the dynamically allocated memory, otherwise a memory leak occurs. So, the recursive reclaim function is used to walk the returned instance vector and do a deep reclaim of the data. Currently functions are defined in netcdf.h that are supposed to handle this: nc_free_vlen(), nc_free_vlens(), and nc_free_string(). Unfortunately, these functions only do a shallow free, so deeply nested instances are not properly handled by them. Note that internally, the provided data is immediately written so there is no need to copy it. But the caller may need to reclaim the data it passed into the function. ## nc_put_att Suppose one is writing a vector of instances as the data of an attribute using, say, nc_put_att. Internally, the incoming attribute data must be copied and stored so that changes/reclamation of the input data will not affect the attribute. Again, the code inside the netcdf library does only shallow copying rather than deep copy. As a result, one sees effects such as described in Github Issue https://github.com/Unidata/netcdf-c/issues/2143. Also, after defining the attribute, it may be necessary for the user to free the data that was provided as input to nc_put_att(). ## nc_get_att Suppose one is reading a vector of instances as the data of an attribute using, say, nc_get_att. Internally, the existing attribute data must be copied and returned to the caller, and the caller is responsible for reclaiming the returned data. Again, the code inside the netcdf library does only shallow copying rather than deep copy. So this can lead to memory leaks and errors because the deep data is shared between the library and the user. # Solution The solution is to build properly recursive reclaim and copy functions and use those as needed. These recursive functions are defined in libdispatch/dinstance.c and their signatures are defined in include/netcdf.h. For back compatibility, corresponding "ncaux_XXX" functions are defined in include/netcdf_aux.h. ```` int nc_reclaim_data(int ncid, nc_type xtypeid, void* memory, size_t count); int nc_reclaim_data_all(int ncid, nc_type xtypeid, void* memory, size_t count); int nc_copy_data(int ncid, nc_type xtypeid, const void* memory, size_t count, void* copy); int nc_copy_data_all(int ncid, nc_type xtypeid, const void* memory, size_t count, void** copyp); ```` There are two variants. The first two, nc_reclaim_data() and nc_copy_data(), assume the top-level vector is managed by the caller. For reclaim, this is so the user can use, for example, a statically allocated vector. For copy, it assumes the user provides the space into which the copy is stored. The second two, nc_reclaim_data_all() and nc_copy_data_all(), allows the functions to manage the top-level. So for nc_reclaim_data_all, the top level is assumed to be dynamically allocated and will be free'd by nc_reclaim_data_all(). The nc_copy_data_all() function will allocate the top level and return a pointer to it to the user. The user can later pass that pointer to nc_reclaim_data_all() to reclaim the instance(s). # Internal Changes The netcdf-c library internals are changed to use the proper reclaim and copy functions. It turns out that the places where these functions are needed is quite pervasive in the netcdf-c library code. Using these functions also allows some simplification of the code since the stdata and vldata fields of NC_ATT_INFO are no longer needed. Currently this is commented out using the SEPDATA \#define macro. When any bugs are largely fixed, all this code will be removed. # Known Bugs 1. There is still one known failure that has not been solved. All the failures revolve around some variant of this .cdl file. The proximate cause of failure is the use of a VLEN FillValue. ```` netcdf x { types: float(*) row_of_floats ; dimensions: m = 5 ; variables: row_of_floats ragged_array(m) ; row_of_floats ragged_array:_FillValue = {-999} ; data: ragged_array = {10, 11, 12, 13, 14}, {20, 21, 22, 23}, {30, 31, 32}, {40, 41}, _ ; } ```` When a solution is found, I will either add it to this PR or post a new PR. # Related Changes * Mark nc_free_vlen(s) as deprecated in favor of ncaux_reclaim_data. * Remove the --enable-unfixed-memory-leaks option. * Remove the NC_VLENS_NOTEST code that suppresses some vlen tests. * Document this change in docs/internal.md * Disable the tst_vlen_data test in ncdump/tst_nccopy4.sh. * Mark types as fixed size or not (transitively) to optimize the reclaim and copy functions. # Misc. Changes * Make Doxygen process libdispatch/daux.c * Make sure the NC_ATT_INFO_T.container field is set.
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Warning: Using a vlen type as the fill value may lead to a memory
leak.
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@section nc_def_var_fill_example Example
In this example from libsrc4/tst_vars.c, a variable is defined, and
the fill mode turned off. Then nc_inq_fill() is used to check that
the setting is correct. Then some data are written to the
variable. Since the data that are written do not cover the full
extent of the variable, the missing values will just be random. If
fill value mode was turned on, the missing values would get the
fill value.
@code
#define DIM7_LEN 2
#define DIM7_NAME "dim_7_from_Indiana"
#define VAR7_NAME "var_7_from_Idaho"
#define NDIMS 1
int dimids[NDIMS];
size_t index[NDIMS];
int varid;
int no_fill;
unsigned short ushort_data = 42, ushort_data_in, fill_value_in;
if (nc_create(FILE_NAME, NC_NETCDF4, &ncid)) ERR;
if (nc_def_dim(ncid, DIM7_NAME, DIM7_LEN, &dimids[0])) ERR;
if (nc_def_var(ncid, VAR7_NAME, NC_USHORT, NDIMS, dimids,
&varid)) ERR;
if (nc_def_var_fill(ncid, varid, 1, NULL)) ERR;
if (nc_inq_var_fill(ncid, varid, &no_fill, &fill_value_in)) ERR;
if (!no_fill) ERR;
index[0] = 1;
if (nc_put_var1_ushort(ncid, varid, index, &ushort_data)) ERR;
index[0] = 0;
if (nc_get_var1_ushort(ncid, varid, index, &ushort_data_in)) ERR;
if (nc_close(ncid)) ERR;
@endcode
@author Glenn Davis, Ed Hartnett, Dennis Heimbigner
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*/
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int
nc_def_var_fill(int ncid, int varid, int no_fill, const void *fill_value)
{
NC* ncp;
int stat = NC_check_id(ncid,&ncp);
if(stat != NC_NOERR) return stat;
/* Using NC_GLOBAL is illegal, as this API has no provision for
* specifying the type of the fillvalue, it must of necessity be
* using the type of the variable to interpret the bytes of the
* fill_value argument. */
if (varid == NC_GLOBAL) return NC_EGLOBAL;
return ncp->dispatch->def_var_fill(ncid,varid,no_fill,fill_value);
}
/**
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Set the zlib compression and shuffle settings for a variable in an
netCDF/HDF5 file.
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This function must be called after nc_def_var and before nc_enddef
or any functions which writes data to the file.
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Deflation and shuffle are only available for HDF5 files. Attempting
to set them on non-HDF5 files will return ::NC_ENOTNC4.
Deflation and shuffle require chunked data. If this function is
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called on a variable with contiguous data, then the data is changed
to chunked data, with default chunksizes. Use nc_def_var_chunking()
to tune performance with user-defined chunksizes.
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If this function is called on a scalar variable, ::NC_EINVAL is
returned. Only chunked variables may use filters.
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Zlib compression cannot be used with szip compression. If this
function is called on a variable which already has szip compression
turned on, ::NC_EINVAL is returned.
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@note Parallel I/O reads work with compressed data. Parallel I/O
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writes work with compressed data in netcdf-c-4.7.4 and later
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releases, using hdf5-1.10.3 and later releases. Using the zlib,
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shuffle (or any other) filter requires that collective access be
used with the variable. Turning on deflate and/or shuffle for a
variable in a file opened for parallel I/O will automatically
switch the access for that variable to collective access.
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@note The HDF5 manual has this to say about shuffle:
The shuffle filter de-interlaces a block of data by reordering
the bytes. All the bytes from one consistent byte position of
each data element are placed together in one block; all bytes
from a second consistent byte position of each data element are
placed together a second block; etc. For example, given three
data elements of a 4-byte datatype stored as 012301230123,
shuffling will re-order data as 000111222333. This can be a
valuable step in an effective compression algorithm because the
bytes in each byte position are often closely related to each
other and putting them together can increase the compression
ratio.
As implied above, the primary value of the shuffle filter lies
in its coordinated use with a compression filter; it does not
provide data compression when used alone. When the shuffle
filter is applied to a dataset immediately prior to the use of a
compression filter, the compression ratio achieved is often
superior to that achieved by the use of a compression filter
without the shuffle filter.
Mostly revert the filter code to reduce its complexity of use. re: https://github.com/Unidata/netcdf-c/issues/1836 Revert the internal filter code to simplify it. From the user's point of view, the only visible changes should be: 1. The functions that convert text to filter specs have had their signature reverted and have been moved to netcdf_aux.h 2. Some filter API functions now return NC_ENOFILTER when inquiry is made about some filter. Internally,the dispatch table has been modified to get rid of the filter_actions entry and associated complex structures. It has been replaced with inq_var_filter_ids and inq_var_filter_info entries and the dispatch table version has been bumped to 3. Corresponding NOOP and NOTNC4 functions were added to libdispatch/dnotnc4.c. Also, the filter_action entries in dispatch tables were replaced for all dispatch code bases (HDF5, DAP2, etc). This should only impact UDF users. In the process, it became clear that the form of the filters field in NC_VAR_INFO_T was format dependent, so I converted it to be of type void* and pushed its management into the various dispatch code bases. Specifically libhdf5 and libnczarr now manage the filters field in their own way. The auxilliary functions for parsing textual filter specifications were moved to netcdf_aux.h and were renamed to the following: * ncaux_h5filterspec_parse * ncaux_h5filterspec_parselist * ncaux_h5filterspec_free * ncaux_h5filter_fix8 Misc. Other Changes: 1. Document NUG/filters.md updated to reflect the changes above. 2. All the old data types (structs and enums) used by filter_actions actions were deleted. The exception is the NC_H5_Filterspec because it is needed by ncaux_h5filterspec_parselist. 3. Clientside filters were removed -- another enhancement for which no-one ever asked. 4. The ability to remove filters was itself removed. 5. Some functionality needed by nczarr was moved from libhdf5 to libsrc4 e.g. nc4_find_default_chunksizes 6. All the filterx code was removed 7. ncfilter.h and nc4filter.c no longer used Misc. Unrelated Changes: 1. The nczarr_test makefile clean was leaving some directories; so add clean-local to take care of them.
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@note The shuffle and deflate flags are ambiguous.
In most cases, if the shuffle or deflate flag is zero, then it is interpreted
to mean that shuffle or deflate should not be set. However, if the variable
already has shuffle or deflate turned on, then it is unclear if a flag
value of zero means leave the state as it is, or if it means
that it should be turned off. Since currently no other filters can be
disabled, it is assumed here that a zero value means to leave the
state as it is.
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@param ncid NetCDF or group ID, from a previous call to nc_open(),
nc_create(), nc_def_grp(), or associated inquiry functions such as
nc_inq_ncid().
@param varid Variable ID
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@param shuffle True to turn on the shuffle filter. The shuffle
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filter can assist with the compression of data by changing the byte
order in the data stream. It makes no sense to use the shuffle
filter without setting a deflate level.
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@param deflate True to turn on deflation for this variable.
@param deflate_level A number between 0 (no compression) and 9
(maximum compression).
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@return ::NC_NOERR No error.
@return ::NC_EBADID Bad ncid.
@return ::NC_ENOTVAR Invalid variable ID.
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@return ::NC_ENOTNC4 Attempting netcdf-4 operation on file that is
not netCDF-4/HDF5.
@return ::NC_ESTRICTNC3 Attempting netcdf-4 operation on strict nc3
netcdf-4 file.
@return ::NC_ELATEDEF Too late to change settings for this variable.
@return ::NC_ENOTINDEFINE Not in define mode.
@return ::NC_EPERM File is read only.
@return ::NC_ESTRICTNC3 Attempting to create netCDF-4 type var in
classic model file
@return ::NC_EHDFERR Error returned by HDF5 layer.
@return ::NC_EINVAL Invalid input. Deflate can't be set unless
variable storage is NC_CHUNK.
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@section nc_def_var_deflate_example Example
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Here is an example from /examples/C/simple_xy_nc4_wr.c using
nc_def_var_deflate to create a variable and then turn on the shuffle
filter and compression.
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@code
#include <netcdf.h>
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#define NDIMS 2
#define NX 6
#define NY 12
int ncid, x_dimid, y_dimid, varid;
int dimids[NDIMS];
int shuffle, deflate, deflate_level;
int data_out[NX][NY];
int x, y, retval;
shuffle = NC_SHUFFLE;
deflate = 1;
deflate_level = 1;
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...
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if ((retval = nc_create(FILE_NAME, NC_NETCDF4, &ncid)))
ERR(retval);
if ((retval = nc_def_dim(ncid, "x", NX, &x_dimid)))
ERR(retval);
if ((retval = nc_def_dim(ncid, "y", NY, &y_dimid)))
ERR(retval);
dimids[0] = x_dimid;
dimids[1] = y_dimid;
if ((retval = nc_def_var(ncid, "data", NC_INT, NDIMS,
dimids, &varid)))
ERR(retval);
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...
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if ((retval = nc_def_var_deflate(ncid, varid, shuffle, deflate,
deflate_level)))
ERR(retval);
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...
@endcode
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@author Ed Hartnett, Dennis Heimbigner
2011-07-12 00:04:49 +08:00
*/
int
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nc_def_var_deflate(int ncid, int varid, int shuffle, int deflate, int deflate_level)
{
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NC* ncp;
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int stat = NC_check_id(ncid,&ncp);
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if(stat != NC_NOERR) return stat;
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return ncp->dispatch->def_var_deflate(ncid,varid,shuffle,deflate,deflate_level);
}
/**
Turn on quantization for a variable.
The data are quantized by setting unneeded bits to zeros or ones
so that they may compress well. BitGroom sets bits alternately to 1/0,
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while BitRound and Granular BitRound (GBR) round (more) bits to zeros
Quantization is lossy (data are irretrievably altered), and it
improves the compression ratio provided by a subsequent lossless
compression filter. Quantization alone will not reduce the data size.
Lossless compression like zlib must also be used (see nc_def_var_deflate()).
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Producers of large datasets may find that using quantize with
compression will result in significant improvent in the final data
size.
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A notable feature of all the quantization algorithms is data remain
in IEEE754 format afterwards. Therefore quantization algorithms do
nothing when data are read.
Quantization is only available for variables of type NC_FLOAT or
NC_DOUBLE. Attempts to set quantization for other variable
types return an error (NC_EINVAL).
Variables that use quantize will have added an attribute with name
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NC_QUANTIZE_[ALGORITHM_NAME]_ATT_NAME, which will contain the
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number of significant digits. Users should not delete or change this
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attribute. This is the only record that quantize has been applied
to the data.
Quantization is not applied to values equal to the value of the
_FillValue attribute, if any. If the _FillValue attribute is not
set, then quantization is not applied to values matching the
default fill value.
Quantization may be applied to scalar variables.
When type conversion takes place during a write, then it occurs
before quantization is applied. For example, if nc_put_var_double()
is called on a variable of type NC_FLOAT, which has quantize
turned on, then the data are first converted from double to float,
then quantization is applied to the float values.
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As with the deflate settings, quantize settings may only be
modified before the first call to nc_enddef(). Once nc_enddef() is
called for the file, quantize settings for any variable in the file
may not be changed.
Use of quantization is fully backwards compatible with existing
versions and packages that can read compressed netCDF data. A
variable which has been quantized is readable to older versions of
the netCDF libraries, and to netCDF-Java.
For more information about quantization and the BitGroom filter,
see @ref quantize.
@note Users new to quantization should start with Granular Bit
Round, which results in the best compression. The Bit Groom
algorithm is not as effective when compressing, but is faster than
Granular Bit Round. The Bit Round algorithm accepts a number of
bits to maintain, rather than a number of decimal digits, and is
provided for users who are already performing some bit-based
quantization, and wish to turn this task over to the netCDF
library.
@param ncid File ID.
@param varid Variable ID. ::NC_GLOBAL may not be used.
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@param quantize_mode Quantization mode. May be ::NC_NOQUANTIZE or
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::NC_QUANTIZE_BITGROOM or ::NC_QUANTIZE_GRANULARBR or
::NC_QUANTIZE_BITROUND.
@param nsd Number of significant digits (either decimal or binary).
May be any integer from 1 to ::NC_QUANTIZE_MAX_FLOAT_NSD (for variables
of type ::NC_FLOAT) or ::NC_QUANTIZE_MAX_DOUBLE_NSD (for variables
of type ::NC_DOUBLE) for mode ::NC_QUANTIZE_BITGROOM and mode
::NC_QUANTIZE_GRANULARBR. May be any integer from 1 to
::NC_QUANTIZE_MAX_FLOAT_NSB (for variables of type ::NC_FLOAT) or
::NC_QUANTIZE_MAX_DOUBLE_NSB (for variables of type ::NC_DOUBLE)
for mode ::NC_QUANTIZE_BITROUND. Ignored if quantize_mode = NC_NOQUANTIZE.
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@return ::NC_NOERR No error.
@return ::NC_EGLOBAL Can't use ::NC_GLOBAL with this function.
@return ::NC_EBADID Bad ncid.
@return ::NC_ENOTVAR Invalid variable ID.
@return ::NC_ENOTNC4 Attempting netcdf-4 operation on file that is
not netCDF-4/HDF5.
@return ::NC_ESTRICTNC3 Attempting netcdf-4 operation on strict nc3
netcdf-4 file.
@return ::NC_ELATEDEF Too late to change settings for this variable.
@return ::NC_EINVAL Invalid input.
@author Charlie Zender, Ed Hartnett
*/
int
nc_def_var_quantize(int ncid, int varid, int quantize_mode, int nsd)
{
NC* ncp;
int stat = NC_check_id(ncid,&ncp);
if(stat != NC_NOERR) return stat;
/* Using NC_GLOBAL is illegal. */
if (varid == NC_GLOBAL) return NC_EGLOBAL;
return ncp->dispatch->def_var_quantize(ncid,varid,quantize_mode,nsd);
}
/**
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Set checksum for a var.
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This function must be called after nc_def_var and before nc_enddef
or any functions which writes data to the file.
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Checksums require chunked data. If this function is called on a
variable with contiguous data, then the data is changed to chunked
data, with default chunksizes. Use nc_def_var_chunking() to tune
performance with user-defined chunksizes.
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@note Parallel I/O reads work with fletcher32 encoded
data. Parallel I/O writes work with fletcher32 in netcdf-c-4.7.4
and later releases, using hdf5-1.10.2 and later releases. Using the
fletcher32 (or any) filter requires that collective access be used
with the variable. Turning on fletcher32 for a variable in a file
opened for parallel I/O will automatically switch the access for
that variable to collective access.
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@param ncid NetCDF or group ID, from a previous call to nc_open(),
nc_create(), nc_def_grp(), or associated inquiry functions such as
nc_inq_ncid().
@param varid Variable ID
@param fletcher32 True to turn on Fletcher32 checksums for this
variable.
@return ::NC_NOERR No error.
@return ::NC_EBADID Bad ncid.
@return ::NC_ENOTVAR Invalid variable ID.
@return ::NC_ENOTNC4 Attempting netcdf-4 operation on file that is
not netCDF-4/HDF5.
@return ::NC_ESTRICTNC3 Attempting netcdf-4 operation on strict nc3
netcdf-4 file.
@return ::NC_ELATEDEF Too late to change settings for this variable.
@return ::NC_EINVAL Invalid input
@author Ed Hartnett, Dennis Heimbigner
2019-02-25 23:14:42 +08:00
*/
int
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nc_def_var_fletcher32(int ncid, int varid, int fletcher32)
{
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NC* ncp;
int stat = NC_check_id(ncid,&ncp);
if(stat != NC_NOERR) return stat;
return ncp->dispatch->def_var_fletcher32(ncid,varid,fletcher32);
}
/**
Define storage and, if chunked storage is used, chunking parameters
for a variable
The storage may be set to NC_CONTIGUOUS, NC_COMPACT, or NC_CHUNKED.
Contiguous storage means the variable is stored as one block of
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data in the file. This is the default storage.
Compact storage means the variable is stored in the header record
of the file. This can have large performance benefits on HPC system
running many processors. Compact storage is only available for
variables whose data are 64 KB or less. Attempting to turn on
compact storage for a variable that is too large will result in the
::NC_EVARSIZE error.
Chunked storage means the data are stored as chunks, of
user-configurable size. Chunked storage is required for variable
with one or more unlimted dimensions, or variable which use
compression, or any other filter.
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The total size of a chunk must be less than 4 GiB. That is, the
product of all chunksizes and the size of the data (or the size of
nc_vlen_t for VLEN types) must be less than 4 GiB.
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This function may only be called after the variable is defined, but
before nc_enddef is called. Once the chunking parameters are set for a
variable, they cannot be changed.
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@note Scalar variables may have a storage of NC_CONTIGUOUS or
NC_COMPACT. Attempts to set chunking on a scalare variable will
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cause ::NC_EINVAL to be returned. Only non-scalar variables can
have chunking.
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@param ncid NetCDF ID, from a previous call to nc_open() or
nc_create().
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@param varid Variable ID.
@param storage If ::NC_CONTIGUOUS or ::NC_COMPACT, then contiguous
or compact storage is used for this variable. Variables with one or
more unlimited dimensions cannot use contiguous or compact
storage. If contiguous or compact storage is turned on, the
chunksizes parameter is ignored. If ::NC_CHUNKED, then chunked
storage is used for this variable. Chunk sizes may be specified
with the chunksizes parameter or default sizes will be used if that
parameter is NULL.
@param chunksizesp A pointer to an array list of chunk sizes. The
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array must have one chunksize for each dimension of the variable. If
::NC_CONTIGUOUS storage is set, then the chunksizes parameter is
ignored. Ignored if NULL.
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@return ::NC_NOERR No error.
@return ::NC_EBADID Bad ID.
@return ::NC_ENOTNC4 Not a netCDF-4 file.
@return ::NC_ELATEDEF This variable has already been the subject of
a nc_enddef call. In netCDF-4 files nc_enddef will be called
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automatically for any data read or write. Once nc_enddef has been
called after the nc_def_var call for a variable, it is impossible
to set the chunking for that variable.
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@return ::NC_ENOTINDEFINE Not in define mode. This is returned for
netCDF classic or 64-bit offset files, or for netCDF-4 files, when
they wwere created with ::NC_CLASSIC_MODEL flag by nc_create().
@return ::NC_EPERM Attempt to create object in read-only file.
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@return ::NC_EBADCHUNK Returns if the chunk size specified for a
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variable is larger than the length of the dimensions associated with
variable.
@return ::NC_EVARSIZE Compact storage attempted for variable bigger
than 64 KB.
@return ::NC_EINVAL Attempt to set contiguous or compact storage
for var with one or more unlimited dimensions, or chunking for a
scalar var.
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@section nc_def_var_chunking_example Example
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In this example from libsrc4/tst_vars2.c, chunksizes are set with
nc_var_def_chunking, and checked with nc_var_inq_chunking.
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@code
printf("**** testing chunking...");
{
#define NDIMS5 1
#define DIM5_NAME "D5"
#define VAR_NAME5 "V5"
#define DIM5_LEN 1000
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int dimids[NDIMS5], dimids_in[NDIMS5];
int varid;
int ndims, nvars, natts, unlimdimid;
nc_type xtype_in;
char name_in[NC_MAX_NAME + 1];
int data[DIM5_LEN], data_in[DIM5_LEN];
size_t chunksize[NDIMS5] = {5};
size_t chunksize_in[NDIMS5];
int storage_in;
int i, d;
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for (i = 0; i < DIM5_LEN; i++)
data[i] = i;
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if (nc_create(FILE_NAME, NC_NETCDF4, &ncid)) ERR;
if (nc_def_dim(ncid, DIM5_NAME, DIM5_LEN, &dimids[0])) ERR;
if (nc_def_var(ncid, VAR_NAME5, NC_INT, NDIMS5, dimids, &varid)) ERR;
if (nc_def_var_chunking(ncid, varid, NC_CHUNKED, chunksize)) ERR;
if (nc_put_var_int(ncid, varid, data)) ERR;
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if (nc_inq_var_chunking(ncid, varid, &storage_in, chunksize_in)) ERR;
for (d = 0; d < NDIMS5; d++)
if (chunksize[d] != chunksize_in[d]) ERR;
if (storage_in != NC_CHUNKED) ERR;
@endcode
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@author Ed Hartnett, Dennis Heimbigner
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*/
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int
nc_def_var_chunking(int ncid, int varid, int storage, const size_t *chunksizesp)
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{
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NC* ncp;
int stat = NC_check_id(ncid, &ncp);
if(stat != NC_NOERR) return stat;
return ncp->dispatch->def_var_chunking(ncid, varid, storage,
chunksizesp);
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}
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/**
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Define endianness of a variable.
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With this function the endianness (i.e. order of bits in integers) can
be changed on a per-variable basis. By default, the endianness is the
same as the default endianness of the platform. But with
nc_def_var_endianness the endianness can be explicitly set for a
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variable.
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Warning: this function is only defined if the type of the variable
is an atomic integer or float type.
This function may only be called after the variable is defined, but
before nc_enddef is called.
@param ncid NetCDF ID, from a previous call to nc_open() or
nc_create().
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@param varid Variable ID.
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@param endian ::NC_ENDIAN_NATIVE to select the native endianness of
the platform (the default), ::NC_ENDIAN_LITTLE to use
little-endian, ::NC_ENDIAN_BIG to use big-endian.
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@return ::NC_NOERR No error.
@return ::NC_EBADID Bad ID.
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@return ::NC_ENOTNC4 Not a netCDF-4 file.
@return ::NC_ELATEDEF This variable has already been the subject of a
nc_enddef call. In netCDF-4 files nc_enddef will be called
automatically for any data read or write. Once nc_enddef has been
called after the nc_def_var call for a variable, it is impossible to
set the chunking for that variable.
@return ::NC_ENOTINDEFINE Not in define mode. This is returned for
netCDF classic or 64-bit offset files, or for netCDF-4 files, when
they wwere created with ::NC_CLASSIC_MODEL flag by nc_create().
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@return ::NC_EPERM Attempt to create object in read-only file.
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@section nc_def_var_endian_example Example
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In this example from libsrc4/tst_vars2.c, a variable is created, and
the endianness set to ::NC_ENDIAN_BIG.
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@code
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#define NDIMS4 1
#define DIM4_NAME "Joe"
#define VAR_NAME4 "Ed"
#define DIM4_LEN 10
{
int dimids[NDIMS4], dimids_in[NDIMS4];
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int varid;
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int ndims, nvars, natts, unlimdimid;
nc_type xtype_in;
char name_in[NC_MAX_NAME + 1];
int data[DIM4_LEN], data_in[DIM4_LEN];
int endian_in;
int i;
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for (i = 0; i < DIM4_LEN; i++)
data[i] = i;
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if (nc_create(FILE_NAME, NC_NETCDF4, &ncid)) ERR;
if (nc_def_dim(ncid, DIM4_NAME, DIM4_LEN, &dimids[0])) ERR;
if (dimids[0] != 0) ERR;
if (nc_def_var(ncid, VAR_NAME4, NC_INT, NDIMS4, dimids, &varid)) ERR;
if (nc_def_var_endian(ncid, varid, NC_ENDIAN_BIG)) ERR;
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@endcode
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@author Ed Hartnett
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*/
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int
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nc_def_var_endian(int ncid, int varid, int endian)
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{
NC* ncp;
int stat = NC_check_id(ncid,&ncp);
if(stat != NC_NOERR) return stat;
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return ncp->dispatch->def_var_endian(ncid,varid,endian);
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}
/**
* Set szip compression settings on a variable. Szip is an
* implementation of the extended-Rice lossless compression algorithm;
* it is reported to provide fast and effective compression. Szip is
* only available to netCDF if HDF5 was built with szip support.
*
* SZIP compression cannot be applied to variables with any
* user-defined type.
*
* If zlib compression has already be turned on for a variable, then
* this function will return ::NC_EINVAL.
*
* To learn the szip settings for a variable, use nc_inq_var_szip().
*
* @note The options_mask parameter may be either ::NC_SZIP_EC (entropy
* coding) or ::NC_SZIP_NN (nearest neighbor):
* * The entropy coding method is best suited for data that has been
* processed. The EC method works best for small numbers.
* * The nearest neighbor coding method preprocesses the data then the
* applies EC method as above.
*
* For more information about HDF5 and szip, see
* https://support.hdfgroup.org/HDF5/doc/RM/RM_H5P.html#Property-SetSzip
* and
* https://support.hdfgroup.org/doc_resource/SZIP/index.html.
*
* @param ncid File ID.
* @param varid Variable ID.
* @param options_mask The options mask. Can be ::NC_SZIP_EC or
* ::NC_SZIP_NN.
* @param pixels_per_block Pixels per block. Must be even and not
* greater than 32, with typical values being 8, 10, 16, or 32. This
* parameter affects compression ratio; the more pixel values vary,
* the smaller this number should be to achieve better performance. If
* pixels_per_block is bigger than the total number of elements in a
* dataset chunk, ::NC_EINVAL will be returned.
*
* @returns ::NC_NOERR No error.
* @returns ::NC_EBADID Bad ncid.
* @returns ::NC_ENOTVAR Invalid variable ID.
* @returns ::NC_ENOTNC4 Attempting netcdf-4 operation on file that is
* not netCDF-4/HDF5.
* @returns ::NC_ELATEDEF Too late to change settings for this variable.
* @returns ::NC_ENOTINDEFINE Not in define mode.
* @returns ::NC_EINVAL Invalid input, or zlib filter already applied
* to this var.
* @author Ed Hartnett
*/
int
nc_def_var_szip(int ncid, int varid, int options_mask, int pixels_per_block)
{
int ret;
/* This will cause H5Pset_szip to be called when the var is
* created. */
unsigned int params[2];
params[0] = options_mask;
params[1] = pixels_per_block;
if ((ret = nc_def_var_filter(ncid, varid, HDF5_FILTER_SZIP, 2, params)))
return ret;
return NC_NOERR;
}
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/** @} */
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/**
@name Rename a Variable
Rename a variable.
*/
/** @{ */
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/**
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Rename a variable.
This function changes the name of a netCDF variable in an open netCDF
file or group. You cannot rename a variable to have the name of any existing
variable.
For classic format, 64-bit offset format, and netCDF-4/HDF5 with
classic mode, if the new name is longer than the old name, the netCDF
dataset must be in define mode.
For netCDF-4/HDF5 files, renaming the variable changes the order of
the variables in the file. The renamed variable becomes the last
variable in the file.
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@param ncid NetCDF or group ID, from a previous call to nc_open(),
nc_create(), nc_def_grp(), or associated inquiry functions such as
nc_inq_ncid().
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@param varid Variable ID
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@param name New name of the variable.
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@return ::NC_NOERR No error.
@return ::NC_EBADID Bad ncid.
@return ::NC_ENOTVAR Invalid variable ID.
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@return ::NC_EBADNAME Bad name.
@return ::NC_EMAXNAME Name is too long.
@return ::NC_ENAMEINUSE Name in use.
@return ::NC_ENOMEM Out of memory.
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@section nc_rename_var_example Example
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Here is an example using nc_rename_var to rename the variable rh to
rel_hum in an existing netCDF dataset named foo.nc:
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@code
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#include <netcdf.h>
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...
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int status;
int ncid;
int rh_id;
...
status = nc_open("foo.nc", NC_WRITE, &ncid);
if (status != NC_NOERR) handle_error(status);
...
status = nc_redef(ncid);
if (status != NC_NOERR) handle_error(status);
status = nc_inq_varid (ncid, "rh", &rh_id);
if (status != NC_NOERR) handle_error(status);
status = nc_rename_var (ncid, rh_id, "rel_hum");
if (status != NC_NOERR) handle_error(status);
status = nc_enddef(ncid);
if (status != NC_NOERR) handle_error(status);
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@endcode
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@author Glenn Davis, Ed Hartnett, Dennis Heimbigner
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*/
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int
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nc_rename_var(int ncid, int varid, const char *name)
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{
NC* ncp;
int stat = NC_check_id(ncid, &ncp);
if(stat != NC_NOERR) return stat;
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TRACE(nc_rename_var);
return ncp->dispatch->rename_var(ncid, varid, name);
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}
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/** @} */
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/**
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@internal Does a variable have a record dimension?
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@param ncid File ID.
@param varid Variable ID.
@param nrecs Pointer that gets number of records.
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@return 0 if not a record var, 1 if it is.
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*/
int
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NC_is_recvar(int ncid, int varid, size_t* nrecs)
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{
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int status = NC_NOERR;
int unlimid;
int ndims;
int dimset[NC_MAX_VAR_DIMS];
status = nc_inq_unlimdim(ncid,&unlimid);
if(status != NC_NOERR) return 0; /* no unlimited defined */
status = nc_inq_varndims(ncid,varid,&ndims);
if(status != NC_NOERR) return 0; /* no unlimited defined */
if(ndims == 0) return 0; /* scalar */
status = nc_inq_vardimid(ncid,varid,dimset);
if(status != NC_NOERR) return 0; /* no unlimited defined */
status = nc_inq_dim(ncid,dimset[0],NULL,nrecs);
if(status != NC_NOERR) return 0;
return (dimset[0] == unlimid ? 1: 0);
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}
/**
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@internal Get the number of record dimensions for a variable and an
array that identifies which of a variable's dimensions are record
dimensions. Intended to be used instead of NC_is_recvar(), which
doesn't work for netCDF-4 variables which have multiple unlimited
dimensions or an unlimited dimension that is not the first of a
variable's dimensions.
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@param ncid File ID.
@param varid Variable ID.
@param nrecdimsp Pointer that gets number of record dims.
@param is_recdim Pointer that gets 1 if there is one or more record
dimensions, 0 if not.
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@return 0 if not a record var, 1 if it is.
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Example use:
@code
int nrecdims;
int is_recdim[NC_MAX_VAR_DIMS];
...
status = NC_inq_recvar(ncid,varid,&nrecdims,is_recdim);
isrecvar = (nrecdims > 0);
@endcode
*/
int
NC_inq_recvar(int ncid, int varid, int* nrecdimsp, int *is_recdim)
{
int status = NC_NOERR;
int unlimid;
int nvardims;
int dimset[NC_MAX_VAR_DIMS];
int dim;
int nrecdims = 0;
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status = nc_inq_varndims(ncid,varid,&nvardims);
if(status != NC_NOERR) return status;
if(nvardims == 0) return NC_NOERR; /* scalars have no dims */
for(dim = 0; dim < nvardims; dim++)
is_recdim[dim] = 0;
status = nc_inq_unlimdim(ncid, &unlimid);
if(status != NC_NOERR) return status;
if(unlimid == -1) return status; /* no unlimited dims for any variables */
#ifdef USE_NETCDF4
{
int nunlimdims;
int *unlimids;
int recdim;
status = nc_inq_unlimdims(ncid, &nunlimdims, NULL); /* for group or file, not variable */
if(status != NC_NOERR) return status;
if(nunlimdims == 0) return status;
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if (!(unlimids = malloc(nunlimdims * sizeof(int))))
return NC_ENOMEM;
status = nc_inq_unlimdims(ncid, &nunlimdims, unlimids); /* for group or file, not variable */
if(status != NC_NOERR) {
free(unlimids);
return status;
}
status = nc_inq_vardimid(ncid, varid, dimset);
if(status != NC_NOERR) {
free(unlimids);
return status;
}
for (dim = 0; dim < nvardims; dim++) { /* netCDF-4 rec dims need not be first dim for a rec var */
for(recdim = 0; recdim < nunlimdims; recdim++) {
if(dimset[dim] == unlimids[recdim]) {
is_recdim[dim] = 1;
nrecdims++;
}
}
}
free(unlimids);
}
#else
status = nc_inq_vardimid(ncid, varid, dimset);
if(status != NC_NOERR) return status;
if(dimset[0] == unlimid) {
is_recdim[0] = 1;
nrecdims++;
}
#endif /* USE_NETCDF4 */
if(nrecdimsp) *nrecdimsp = nrecdims;
return status;
}
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/* Ok to use NC pointers because
all IOSP's will use that structure,
but not ok to use e.g. NC_Var pointers
because they may be different structure
entirely.
*/
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/**
@internal
Find the length of a type. This is how much space is required by
the in memory to hold one element of this type.
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@param type A netCDF atomic type.
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@return Length of the type in bytes, or -1 if type not found.
@author Ed Hartnett
*/
int
nctypelen(nc_type type)
{
switch(type){
case NC_CHAR :
return ((int)sizeof(char));
case NC_BYTE :
return ((int)sizeof(signed char));
case NC_SHORT :
return ((int)sizeof(short));
case NC_INT :
return ((int)sizeof(int));
case NC_FLOAT :
return ((int)sizeof(float));
case NC_DOUBLE :
return ((int)sizeof(double));
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/* These can occur in netcdf-3 code */
case NC_UBYTE :
return ((int)sizeof(unsigned char));
case NC_USHORT :
return ((int)(sizeof(unsigned short)));
case NC_UINT :
return ((int)sizeof(unsigned int));
case NC_INT64 :
return ((int)sizeof(signed long long));
case NC_UINT64 :
return ((int)sizeof(unsigned long long));
#ifdef USE_NETCDF4
case NC_STRING :
return ((int)sizeof(char*));
#endif /*USE_NETCDF4*/
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default:
return -1;
}
}
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/**
@internal
Find the length of a type. Redundant over nctypelen() above.
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@param xtype an nc_type.
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@author Dennis Heimbigner
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*/
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size_t
NC_atomictypelen(nc_type xtype)
{
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size_t sz = 0;
switch(xtype) {
case NC_NAT: sz = 0; break;
case NC_BYTE: sz = sizeof(signed char); break;
case NC_CHAR: sz = sizeof(char); break;
case NC_SHORT: sz = sizeof(short); break;
case NC_INT: sz = sizeof(int); break;
case NC_FLOAT: sz = sizeof(float); break;
case NC_DOUBLE: sz = sizeof(double); break;
case NC_INT64: sz = sizeof(signed long long); break;
case NC_UBYTE: sz = sizeof(unsigned char); break;
case NC_USHORT: sz = sizeof(unsigned short); break;
case NC_UINT: sz = sizeof(unsigned int); break;
case NC_UINT64: sz = sizeof(unsigned long long); break;
#ifdef USE_NETCDF4
case NC_STRING: sz = sizeof(char*); break;
#endif
default: break;
}
return sz;
}
/**
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@internal
Get the type name.
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@param xtype an nc_type.
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@author Dennis Heimbigner
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*/
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char *
NC_atomictypename(nc_type xtype)
{
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char* nm = NULL;
switch(xtype) {
case NC_NAT: nm = "undefined"; break;
case NC_BYTE: nm = "byte"; break;
case NC_CHAR: nm = "char"; break;
case NC_SHORT: nm = "short"; break;
case NC_INT: nm = "int"; break;
case NC_FLOAT: nm = "float"; break;
case NC_DOUBLE: nm = "double"; break;
case NC_INT64: nm = "int64"; break;
case NC_UBYTE: nm = "ubyte"; break;
case NC_USHORT: nm = "ushort"; break;
case NC_UINT: nm = "uint"; break;
case NC_UINT64: nm = "uint64"; break;
#ifdef USE_NETCDF4
case NC_STRING: nm = "string"; break;
#endif
default: break;
}
return nm;
}
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/**
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@internal
Get the shape of a variable.
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@param ncid NetCDF ID, from a previous call to nc_open() or
nc_create().
@param varid Variable ID.
@param ndims Number of dimensions for this var.
@param shape Pointer to pre-allocated array that gets the size of
each dimension.
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@return ::NC_NOERR No error.
@return ::NC_EBADID Bad ncid.
@return ::NC_ENOTVAR Bad varid.
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@author Dennis Heimbigner
*/
int
NC_getshape(int ncid, int varid, int ndims, size_t* shape)
{
int dimids[NC_MAX_VAR_DIMS];
int i;
int status = NC_NOERR;
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if ((status = nc_inq_vardimid(ncid, varid, dimids)))
return status;
for(i = 0; i < ndims; i++)
if ((status = nc_inq_dimlen(ncid, dimids[i], &shape[i])))
break;
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return status;
}
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/**
@internal Check the start, count, and stride parameters for gets
and puts, and handle NULLs.
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@param ncid The file ID.
@param varid The variable ID.
@param start Pointer to start array. If NULL ::NC_EINVALCOORDS will
be returned for non-scalar variable.
@param count Pointer to pointer to count array. If *count is NULL,
an array of the correct size will be allocated, and filled with
counts that represent the full extent of the variable. In this
case, the memory must be freed by the caller.
@param stride Pointer to pointer to stride array. If NULL, stide is
ignored. If *stride is NULL an array of the correct size will be
allocated, and filled with ones. In this case, the memory must be
freed by the caller.
@return ::NC_NOERR No error.
@return ::NC_EBADID Bad ncid.
@return ::NC_ENOTVAR Variable not found.
@return ::NC_ENOMEM Out of memory.
@return ::NC_EINVALCOORDS Missing start array.
@author Ed Hartnett
*/
int
NC_check_nulls(int ncid, int varid, const size_t *start, size_t **count,
ptrdiff_t **stride)
{
int varndims;
int stat;
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if ((stat = nc_inq_varndims(ncid, varid, &varndims)))
return stat;
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/* For non-scalar vars, start is required. */
if (!start && varndims)
return NC_EINVALCOORDS;
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/* If count is NULL, assume full extent of var. */
if (!*count)
{
if (!(*count = malloc(varndims * sizeof(size_t))))
return NC_ENOMEM;
if ((stat = NC_getshape(ncid, varid, varndims, *count)))
{
free(*count);
*count = NULL;
return stat;
}
}
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/* If stride is NULL, do nothing, if *stride is NULL use all
* 1s. */
if (stride && !*stride)
{
int i;
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if (!(*stride = malloc(varndims * sizeof(ptrdiff_t))))
return NC_ENOMEM;
for (i = 0; i < varndims; i++)
(*stride)[i] = 1;
}
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return NC_NOERR;
}
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/**
@name Free String Resources
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Use this functions to free resources associated with ::NC_STRING
data.
*/
/*! @{ */
/**
Free string space allocated by the library.
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When you read string type the library will allocate the storage
space for the data. This storage space must be freed, so pass the
pointer back to this function, when you're done with the data, and
it will free the string memory.
@param len The number of character arrays in the array.
@param data The pointer to the data array.
@return ::NC_NOERR No error.
@author Ed Hartnett
*/
int
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nc_free_string(size_t len, char **data)
{
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int i;
for (i = 0; i < len; i++)
free(data[i]);
return NC_NOERR;
}
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/** @} */
/**
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@name Variables Chunk Caches
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Use these functions to change the variable chunk cache settings.
*/
/*! @{ */
/**
Change the cache settings for a chunked variable. This function allows
users to control the amount of memory used in the per-variable chunk
cache at the HDF5 level. Changing the chunk cache only has effect
until the file is closed. Once re-opened, the variable chunk cache
returns to its default value.
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Current cache settings for each var may be obtained with
nc_get_var_chunk_cache().
Default values for these settings may be changed for the whole file
with nc_set_chunk_cache().
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@param ncid NetCDF or group ID, from a previous call to nc_open(),
nc_create(), nc_def_grp(), or associated inquiry functions such as
nc_inq_ncid().
@param varid Variable ID
@param size The total size of the raw data chunk cache, in bytes.
@param nelems The number of chunk slots in the raw data chunk cache.
@param preemption The preemption, a value between 0 and 1 inclusive
that indicates how much chunks that have been fully read are favored
for preemption. A value of zero means fully read chunks are treated no
differently than other chunks (the preemption is strictly LRU) while a
value of one means fully read chunks are always preempted before other
chunks.
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@return ::NC_NOERR No error.
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@return ::NC_EBADID Bad ncid.
@return ::NC_ENOTVAR Invalid variable ID.
@return ::NC_ESTRICTNC3 Attempting netcdf-4 operation on strict nc3
netcdf-4 file.
@return ::NC_EINVAL Invalid input
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@section nc_def_var_chunk_cache_example Example
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In this example from nc_test4/tst_coords.c, a variable is defined, and
the chunk cache settings are changed for that variable.
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@code
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printf("**** testing setting cache values for coordinate variables...");
{
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#define RANK_1 1
#define DIM0_NAME "d0"
#define CACHE_SIZE 1000000
#define CACHE_NELEMS 1009
#define CACHE_PREEMPTION .90
int ncid, dimid, varid;
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char name_in[NC_MAX_NAME + 1];
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if (nc_create(FILE_NAME, NC_CLASSIC_MODEL|NC_NETCDF4, &ncid)) ERR;
if (nc_def_dim(ncid, DIM0_NAME, NC_UNLIMITED, &dimid)) ERR;
if (nc_def_var(ncid, DIM0_NAME, NC_DOUBLE, 1, &dimid, &varid)) ERR;
if (nc_set_var_chunk_cache(ncid, varid, CACHE_SIZE, CACHE_NELEMS, CACHE_PREEMPTION)) ERR;
if (nc_close(ncid)) ERR;
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...
}
SUMMARIZE_ERR;
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@endcode
@author Ed Hartnett
*/
int
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nc_set_var_chunk_cache(int ncid, int varid, size_t size, size_t nelems,
float preemption)
{
NC* ncp;
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int stat = NC_check_id(ncid, &ncp);
if(stat != NC_NOERR) return stat;
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return ncp->dispatch->set_var_chunk_cache(ncid, varid, size,
nelems, preemption);
}
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/**
Get the per-variable chunk cache settings from the HDF5
layer. These settings may be changed with nc_set_var_chunk_cache().
See nc_set_chunk_cache() for a full discussion of these settings.
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@param ncid NetCDF or group ID, from a previous call to nc_open(),
nc_create(), nc_def_grp(), or associated inquiry functions such as
nc_inq_ncid().
@param varid Variable ID
@param sizep The total size of the raw data chunk cache, in bytes,
will be put here. @ref ignored_if_null.
@param nelemsp The number of chunk slots in the raw data chunk
cache hash table will be put here. @ref ignored_if_null.
@param preemptionp The preemption will be put here. The preemtion
value is between 0 and 1 inclusive and indicates how much chunks
that have been fully read are favored for preemption. A value of
zero means fully read chunks are treated no differently than other
chunks (the preemption is strictly LRU) while a value of one means
fully read chunks are always preempted before other chunks. @ref
ignored_if_null.
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@return ::NC_NOERR No error.
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@return ::NC_EBADID Bad ncid.
@return ::NC_ENOTVAR Invalid variable ID.
@return ::NC_ESTRICTNC3 Attempting netcdf-4 operation on strict nc3
netcdf-4 file.
@return ::NC_EINVAL Invalid input
@author Ed Hartnett
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*/
int
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nc_get_var_chunk_cache(int ncid, int varid, size_t *sizep, size_t *nelemsp,
float *preemptionp)
{
NC* ncp;
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int stat = NC_check_id(ncid, &ncp);
if(stat != NC_NOERR) return stat;
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return ncp->dispatch->get_var_chunk_cache(ncid, varid, sizep,
nelemsp, preemptionp);
}
#ifndef USE_NETCDF4
/* Make sure the fortran API is defined, even if it only returns errors */
int
nc_set_chunk_cache_ints(int size, int nelems, int preemption)
{
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return NC_ENOTBUILT;
}
int
nc_get_chunk_cache_ints(int *sizep, int *nelemsp, int *preemptionp)
{
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return NC_ENOTBUILT;
}
int
nc_set_var_chunk_cache_ints(int ncid, int varid, int size, int nelems,
int preemption)
{
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return NC_ENOTBUILT;
}
int
nc_get_var_chunk_cache_ints(int ncid, int varid, int *sizep,
int *nelemsp, int *preemptionp)
{
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return NC_ENOTBUILT;
}
#endif /*USE_NETCDF4*/
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/** @} */
/** @} */