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615 lines
17 KiB
HTML
615 lines
17 KiB
HTML
<!DOCTYPE HTML PUBLIC "-//IETF//DTD HTML//EN">
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<html>
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<head>
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<title>
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Description of nc_test
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</title>
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</head>
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<body bgcolor="#00009C" text=#FFFF00 link=#FFFFFF alink=#00FF00 vlink=#FFFFFF>
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<center>
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<h1>
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Description of <tt>nc_test</tt>
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</h1>
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</a>
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<h2>Harvey Davies</h2>
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<h3>7 August 1996</h3>
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</center>
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<h3>
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TERMINOLOGY
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</h3>
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<dl>
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<dt>Test
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<dd>Process of testing one netCDF library function.
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<dt>Comparison
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<dd>Successful match of value of individual variable/attribute
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element read (possibly after put) with that expected.
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<dt>Error
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<dd>Non-zero status returned by netCDF library function.
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<dt>Failure
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<dd>Unexpected result (including error status). Possible causes:
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<ul>
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<li>absent data file
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<li>wrong permissions
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<li>bug in netCDF library function
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</ul>
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<dt>Blunder
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<dd>Bug in <tt>nc_test</tt>.
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</dl>
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<h3>
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PROGRAM OPERATION AND COMMAND-LINE OPTIONS
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</h3>
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All printed output is written to <tt>stderr</tt>, not <tt>stdout</tt>. This
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is intended to facilitate debugging.
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<p>
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There is a separate test for each netCDF library function (apart from
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<tt>test_nc_enddef</tt> which simply calls <tt>test_nc_redef</tt>, which tests
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both <tt>nc_redef</tt> and <tt>nc_enddef</tt>). Each test generates one line
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of results if there are no failures and additional lines if there are
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failures. The simplest such line for no failures is one such as:
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<pre>
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*** Testing nc_open ... ok
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</pre>
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Many tests count the number of comparisons and if there are no failures print
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a line such as:
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<pre>
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*** Testing nc_get_var1_short ... 682 good comparisons. ok
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</pre>
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Each failure produces a line until the limit (per test) specified by the
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<tt>-n</tt>
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option (default 8) is reached. E.g. running the full test in a read-only
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directory produces:
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<pre>
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*** Testing nc_open ...
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FAILURE at line 119 of test_read.c: nc_create: Permission denied
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FAILURE at line 124 of test_read.c: nc_open: No such file or directory
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FAILURE at line 129 of test_read.c: remove of scratch.nc failed
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### 3 FAILURES TESTING nc_open! ###
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</pre>
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The total number of failures is printed at the end. E.g.
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<pre>
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Total number of failures: 60
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</pre>
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If there are no failures then <tt>nc_test</tt> exits with exit-status 0, otherwise 1.
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<p>
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The following usage instructions are produced by the command
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<tt>nc_test -h</tt>:
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<pre>
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nc_test [-hrv] [-n <MAX_NMPT>]
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[-h] Print help
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[-c] Create file test.nc (Do not do tests)
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[-r] Just do read-only tests
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[-v] Verbose mode
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[-n <MAX_NMPT>] max. number of messages per test (Default: 8)
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</pre>
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The <tt>-c</tt> option creates the read-only test file test.nc and does
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nothing else. (Originally I had a separate program, but it was simpler to
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combine them.) The utility <tt>make</tt> will run <tt>nc_test -c</tt> to
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recreate <tt>test.nc</tt> whenever <tt>nc_test</tt> is changed, but I suggest
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including <tt>test.nc</tt> in the distribution so users do not normally have
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to do this step.
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<p>
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As mentioned above, it is possible to run the full test in a read-only
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directory. (This currently generates 60 failures.) But in a read-only
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directory it is better to use the <tt>-r</tt> option which suppresses all
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actions which write, so there should be no failures.
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<p>
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The option <tt>-v</tt> sets verbose mode, in which additional details are
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produced after certain failures. (This is not consistent across tests. An
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earlier version also produced details of each comparison, whether successful
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or not; but this proved too voluminous.)
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<p>
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The option <tt>-n <i>MAX_NMPT</i></tt> sets the maximum number of messages
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printed per test. This defaults to 8.
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<h3>
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SOURCE FILES
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</h3>
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<dl>
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<dt><tt>nc_test.c</tt>
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<dd>Driver
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<dt><tt>tests.h</tt>
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<dd>Main include file
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<dt><tt>error.c</tt>
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<dd>Functions concerned with low-level printing and failure handling.
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<dt><tt>error.h</tt>
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<dd>Include file related to error.c.
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<dt><tt>util.c</tt>
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<dd>Various utility functions for generating data, comparisons, etc.
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<dt><tt>test_get.m4</tt>
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<dd>Read-only type-specific tests.
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<dt><tt>test_put.m4</tt>
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<dd>Write type-specific tests.
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<dt><tt>test_read.c</tt>
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<dd>Other read-only tests (in fact there is some writing).
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<dt><tt>test_write.c</tt>
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<dd>Other write tests.
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</dl>
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<p>
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The <tt>wc</tt> utility gives the following counts of lines, words and
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characters:
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<pre>
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22 70 622 error.h
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324 1000 9226 tests.h
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366 1303 11029 test_get.m4
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610 1941 16469 test_put.m4
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52 155 1159 error.c
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277 692 7645 nc_test.c
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1599 5908 45979 test_read.c
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1882 6887 55625 test_write.c
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728 2623 19434 util.c
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5860 20579 167188 total
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</pre>
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<h3>
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DATA FILES
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</h3>
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Two netCDF files are used. One (<tt>test.nc</tt>) is read-only, except that
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the <tt>-c</tt> option creates it. The other (<tt>scratch.nc</tt>) has a
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lifetime within the period of any test which does writing.
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<p>
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The file <tt>tests.h</tt> is used merely as an example of a non-netCDF file.
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<h3>
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INTERNAL METADATA DESCRIBING TEST DATA
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</h3>
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The test metadata defining the file <tt>tests.nc</tt> (and for many tests also
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<tt>scratch.nc</tt>) is described by parameters (e.g. <tt>NVARS</tt>, the
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number of variables) defined in <tt>tests.h</tt> and global variables with the
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prefix <tt>dim</tt>, <tt>var</tt>, <tt>att</tt> or <tt>gatt</tt> (global
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attribute). E.g. a netCDF variable is described by global variables such as
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<tt>var_name</tt>, <tt>var_type</tt> and <tt>var_dimid</tt>. Note that the
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data values of netCDF variables and attributes are not stored in this way.
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Instead, these are generated by function <tt>hash</tt> each time they are
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needed.
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<p>
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The need for separate global attribute tests is obviated by accessing
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<tt>att/gatt</tt>
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variables via macros which give global values for a varid of -1. E.g.
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<tt>ATT_NAME(varid,j)</tt> gives <tt>gatt_name[j]</tt> if varid is -1,
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otherwise it gives <tt>att_name[varid][j]</tt>. Thus attribute tests will
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typically vary <tt>varid</tt> from -1 to <tt>NVARS-1</tt>.
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<p>
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The function <tt>init_gvars</tt> (in <tt>util.c</tt>) defines the values of
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these global variables defining the metadata. It defines variable names such
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as <tt>sr23</tt> for a 3D short dimensioned <tt>UNLIMITED</tt> (record) x 2 x
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3. The maximum dimension size is 4. There is a vector of length 1, 2, 3 and
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4 for each data type. However for ranks 2 and 3 (<tt>MAX_RANK</tt>) there is
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only one type for each shape, but there is an example of each possible shape
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(including one with the <tt>UNLIMITED</tt> dimension). This produces a total
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of 136 (<tt>NVARS</tt>) variables.
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<p>
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The command
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<pre>
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ncdump -h test.nc | grep char
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</pre>
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produces the following list of all the character variables:
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<pre>
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char c ;
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char cr(Dr) ;
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char c1(D1) ;
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char c2(D2) ;
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char c3(D3) ;
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char c4(D4) ;
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char cr1(Dr, D1) ;
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char c13(D1, D3) ;
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char c31(D3, D1) ;
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char c43(D4, D3) ;
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char cr21(Dr, D2, D1) ;
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char cr33(Dr, D3, D3) ;
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char c111(D1, D1, D1) ;
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char c123(D1, D2, D3) ;
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char c141(D1, D4, D1) ;
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char c213(D2, D1, D3) ;
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char c231(D2, D3, D1) ;
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char c243(D2, D4, D3) ;
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char c321(D3, D2, D1) ;
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char c333(D3, D3, D3) ;
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char c411(D4, D1, D1) ;
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char c423(D4, D2, D3) ;
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char c441(D4, D4, D1) ;
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</pre>
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Given that there are two records (<tt>Dr</tt> = 2 currently), one can use this
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to calculate the number of character elements as:
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1+2+1+2+3+4+2+3+3+12+4+18+1+6+4+6+6+24+6+27+4+24+16 = 179. This corresponds
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to the number of comparisons for characters given in output such as:
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<pre>
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*** Testing nc_get_vara_text ... 179 good comparisons. ok
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</pre>
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The number of comparisons for numeric types is more difficult to calculate
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because it depends on whether the data values are within the ranges for the
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external and internal types. However one can do quite a number of consistency
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checks. For example the number of comparisons done by the <tt>(void *)</tt>
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functions (e.g. <tt>nc_get_var1</tt>) is 1386 which equals the sum of that
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for <tt>nc_get_var1_double</tt> (1207, the total number of numeric elements)
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and the above value of 179.
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<p>
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There is one global attribute of each data-type and lengths vary from 1 to 6.
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Only the six scalar variables have attributes and their lengths vary from 0 to
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5.
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<h3>
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GENERATION OF TEST DATA VALUES
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</h3>
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Variable and attribute data values are generated by function <tt>hash</tt> in
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file <tt>util.c</tt>. The type <tt>double</tt> result is a function of the
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data-type, rank (-1 for attribute) and index vector.
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<p>
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Vectors are treated specially. Index 0 gives the minimum for the type and
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index 1 gives the maximum. For types other than <tt>NC_CHAR</tt> and
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<tt>NC_DOUBLE</tt>, index 2 gives a value just less than the minimum and index
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3 gives a value just more than the maximum.
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<p>
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Otherwise <tt>hash</tt> uses an algorithm which always generates a valid value
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for the type.
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<p>
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There is also a 4-argument wrapper function <tt>hash4</tt> which has an
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additional argument specifying whether the internal type is <tt>uchar</tt>.
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This handles the special <tt>NC_BYTE/uchar</tt> adjustment.
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<h3>
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ncdump of <tt>test.nc</tt>
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</h3>
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The following is the start of output from <tt>ncdump test.nc</tt>:
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<pre>
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netcdf test {
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dimensions:
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Dr = UNLIMITED ; // (2 currently)
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D1 = 1 ;
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D2 = 2 ;
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D3 = 3 ;
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D4 = 4 ;
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variables:
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char c ;
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byte b ;
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b:c = "" ;
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short s ;
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s:b = '\200' ;
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s:s = -32768s, 32767s ;
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long l ;
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l:l = -2147483648, 2147483647, 2147483647 ;
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l:f = -3.4028235e+38f, 3.4028235e+38f, -3.4028235e+38f, 3.4028235e+38f ;
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l:d = -1.797693134862316e+308, 1.797693134862316e+308, -1., 1., 660. ;
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float f ;
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double d ;
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d:c = "<22>AZ$&" ;
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char cr(Dr) ;
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byte br(Dr) ;
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short sr(Dr) ;
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long lr(Dr) ;
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float fr(Dr) ;
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double dr(Dr) ;
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char c1(D1) ;
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byte b1(D1) ;
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short s1(D1) ;
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long l1(D1) ;
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float f1(D1) ;
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double d1(D1) ;
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char c2(D2) ;
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byte b2(D2) ;
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short s2(D2) ;
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long l2(D2) ;
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float f2(D2) ;
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double d2(D2) ;
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char c3(D3) ;
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byte b3(D3) ;
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short s3(D3) ;
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long l3(D3) ;
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float f3(D3) ;
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double d3(D3) ;
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char c4(D4) ;
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byte b4(D4) ;
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short s4(D4) ;
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long l4(D4) ;
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float f4(D4) ;
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double d4(D4) ;
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char cr1(Dr, D1) ;
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byte br2(Dr, D2) ;
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short sr3(Dr, D3) ;
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long lr4(Dr, D4) ;
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float f11(D1, D1) ;
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double d12(D1, D2) ;
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char c13(D1, D3) ;
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byte b14(D1, D4) ;
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short s21(D2, D1) ;
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long l22(D2, D2) ;
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float f23(D2, D3) ;
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double d24(D2, D4) ;
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char c31(D3, D1) ;
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byte b32(D3, D2) ;
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short s33(D3, D3) ;
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long l34(D3, D4) ;
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float f41(D4, D1) ;
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double d42(D4, D2) ;
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char c43(D4, D3) ;
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byte b44(D4, D4) ;
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short sr11(Dr, D1, D1) ;
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long lr12(Dr, D1, D2) ;
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float fr13(Dr, D1, D3) ;
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double dr14(Dr, D1, D4) ;
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char cr21(Dr, D2, D1) ;
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byte br22(Dr, D2, D2) ;
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short sr23(Dr, D2, D3) ;
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long lr24(Dr, D2, D4) ;
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float fr31(Dr, D3, D1) ;
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double dr32(Dr, D3, D2) ;
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char cr33(Dr, D3, D3) ;
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byte br34(Dr, D3, D4) ;
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short sr41(Dr, D4, D1) ;
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long lr42(Dr, D4, D2) ;
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float fr43(Dr, D4, D3) ;
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double dr44(Dr, D4, D4) ;
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char c111(D1, D1, D1) ;
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byte b112(D1, D1, D2) ;
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short s113(D1, D1, D3) ;
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long l114(D1, D1, D4) ;
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float f121(D1, D2, D1) ;
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double d122(D1, D2, D2) ;
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char c123(D1, D2, D3) ;
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byte b124(D1, D2, D4) ;
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short s131(D1, D3, D1) ;
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long l132(D1, D3, D2) ;
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float f133(D1, D3, D3) ;
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double d134(D1, D3, D4) ;
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char c141(D1, D4, D1) ;
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byte b142(D1, D4, D2) ;
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short s143(D1, D4, D3) ;
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long l144(D1, D4, D4) ;
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float f211(D2, D1, D1) ;
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double d212(D2, D1, D2) ;
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char c213(D2, D1, D3) ;
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byte b214(D2, D1, D4) ;
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short s221(D2, D2, D1) ;
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long l222(D2, D2, D2) ;
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float f223(D2, D2, D3) ;
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double d224(D2, D2, D4) ;
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char c231(D2, D3, D1) ;
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byte b232(D2, D3, D2) ;
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short s233(D2, D3, D3) ;
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long l234(D2, D3, D4) ;
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float f241(D2, D4, D1) ;
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double d242(D2, D4, D2) ;
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char c243(D2, D4, D3) ;
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byte b244(D2, D4, D4) ;
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short s311(D3, D1, D1) ;
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long l312(D3, D1, D2) ;
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float f313(D3, D1, D3) ;
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double d314(D3, D1, D4) ;
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char c321(D3, D2, D1) ;
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byte b322(D3, D2, D2) ;
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short s323(D3, D2, D3) ;
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long l324(D3, D2, D4) ;
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float f331(D3, D3, D1) ;
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double d332(D3, D3, D2) ;
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char c333(D3, D3, D3) ;
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byte b334(D3, D3, D4) ;
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short s341(D3, D4, D1) ;
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long l342(D3, D4, D2) ;
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float f343(D3, D4, D3) ;
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double d344(D3, D4, D4) ;
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char c411(D4, D1, D1) ;
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byte b412(D4, D1, D2) ;
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short s413(D4, D1, D3) ;
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long l414(D4, D1, D4) ;
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float f421(D4, D2, D1) ;
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double d422(D4, D2, D2) ;
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char c423(D4, D2, D3) ;
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byte b424(D4, D2, D4) ;
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short s431(D4, D3, D1) ;
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long l432(D4, D3, D2) ;
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float f433(D4, D3, D3) ;
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double d434(D4, D3, D4) ;
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char c441(D4, D4, D1) ;
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byte b442(D4, D4, D2) ;
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short s443(D4, D4, D3) ;
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long l444(D4, D4, D4) ;
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// global attributes:
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:Gc = "" ;
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:Gb = '\200', '\177' ;
|
||
:Gs = -32768s, 32767s, 32767s ;
|
||
:Gl = -2147483648, 2147483647, 2147483647, 2147483647 ;
|
||
:Gf = -3.4028235e+38f, 3.4028235e+38f, -3.4028235e+38f, 3.4028235e+38f, 531.f ;
|
||
:Gd = -1.797693134862316e+308, 1.797693134862316e+308, -1., 1., 660., 650. ;
|
||
|
||
data:
|
||
c = "\002" ;
|
||
b = 254 ;
|
||
s = -5 ;
|
||
l = -20 ;
|
||
f = -9 ;
|
||
d = -10 ;
|
||
cr = "\000\377" ;
|
||
br = 128, 127 ;
|
||
sr = -32768, 32767 ;
|
||
lr = -2147483648, 2147483647 ;
|
||
fr = -3.402823e+38 , 3.402823e+38 ;
|
||
dr = -1.79769313486232e+308, 1.79769313486232e+308 ;
|
||
c1 = "" ;
|
||
b1 = 128 ;
|
||
s1 = -32768 ;
|
||
</pre>
|
||
|
||
<h3>
|
||
HANDLING OF FAILURES
|
||
</h3>
|
||
|
||
The macro <tt>IF</tt> is used in place of an ordinary <tt>if</tt> as in:
|
||
|
||
<pre>
|
||
IF (err)
|
||
error("nc_open: %s", nc_strerror(err));
|
||
</pre>
|
||
|
||
<tt>IF</tt> acts like an ordinary <tt>if</tt> except for two side effects.
|
||
Firstly, it prints a failure message. Secondly, it increments the global
|
||
variable <tt>nfails</tt>, which contains a count of the failures in the
|
||
current test. The true condition should always correspond to a failure.
|
||
There can be an <tt>else</tt>.
|
||
|
||
<p>
|
||
The macro <tt>IF</tt> is defined in file <tt>error.h</tt> as follows:
|
||
|
||
<pre>
|
||
#define IF(EXPR) if (ifFail(EXPR, __LINE__, __FILE__))
|
||
</pre>
|
||
|
||
The function <tt>ifFail</tt> is defined in file <tt>error.c</tt> as follows:
|
||
|
||
<pre>
|
||
int
|
||
ifFail(const int expr, const int line, const char *file)
|
||
{
|
||
if (expr) {
|
||
++nfails;
|
||
error("\n\tFAILURE at line %d of %s: ", line, file);
|
||
}
|
||
return expr;
|
||
}
|
||
</pre>
|
||
|
||
<p>
|
||
The driver calls each test function and prints summary messages using the
|
||
following macro <tt>NC_TEST</tt> defined in file <tt>nc_test.c</tt>:
|
||
|
||
<pre>
|
||
#define NC_TEST(func) \
|
||
print( "*** Testing " #func " ... ");\
|
||
nfails = 0;\
|
||
test_ ## func();\
|
||
nfailsTotal += nfails;\
|
||
if (verbose) \
|
||
print("\n"); \
|
||
if ( nfails == 0) \
|
||
print( "ok\n");\
|
||
else\
|
||
print( "\n\t### %d FAILURES TESTING %s! ###\n", nfails, #func)
|
||
</pre>
|
||
|
||
|
||
<h3>
|
||
INDIVIDUAL TESTS
|
||
</h3>
|
||
|
||
The file <tt>scratch.nc</tt> is created at the start, and deleted at the end,
|
||
of each test that uses it.
|
||
|
||
<p>
|
||
An attempt has been made to generate all possible errors (including all
|
||
possible illegal argument values) and check their error status values. Where
|
||
some arguments could be <tt>NULL</tt>, this <tt>NULL</tt> alternative is
|
||
typically chosen for odd variable ID values.
|
||
|
||
<p>
|
||
In most cases the get/put tests read/write each variable/attribute element
|
||
exactly once.
|
||
|
||
<p>
|
||
The <tt>get_vara/put_vara</tt> tests split each dimension at a randomly
|
||
selected point. So a matrix is divided into four sub-matrices.
|
||
|
||
<p>
|
||
The <tt>get_vars/put_vars</tt> tests do the same splitting, but also randomly
|
||
select a stride vector for each sub-array. The whole sub-array is covered by
|
||
repeating with different start-index-vectors. (The number of different starts
|
||
is the product of the elements of the stride vector.)
|
||
|
||
<p>
|
||
The buffer for get/put att, <tt>var1</tt>, <tt>vara</tt> and <tt>vars</tt> is
|
||
used for only a single get/put. However the buffer for <tt>varm</tt> tests is
|
||
a bit-image of the external variable and each get/put transfers some elements,
|
||
filling in the gaps. Otherwise, these <tt>varm</tt> tests are similar to the
|
||
<tt>vars</tt> tests.
|
||
|
||
|
||
<h3>
|
||
TESTING DONE
|
||
</h3>
|
||
|
||
Tests were run on slim, binnie and laraine. These tests consisted of:
|
||
|
||
<pre>
|
||
nc_test -c # in writable directory
|
||
nc_test # in writable directory
|
||
nc_test -r # in read-only directory
|
||
nc_test # in read-only directory
|
||
</pre>
|
||
|
||
<p>
|
||
A full test on slim gave the following timings:
|
||
|
||
<pre>
|
||
real 0m17.67s
|
||
user 0m7.81s
|
||
sys 0m1.15s
|
||
</pre>
|
||
|
||
|
||
<h3>
|
||
CURRENT STATUS AND WORK REMAINING
|
||
</h3>
|
||
|
||
Currently there are 95 tests implemented. There are 32 tests not yet
|
||
implemented, corresponding to library functions have not yet been
|
||
implemented. These correspond to the eight types for each of
|
||
<tt>nc_get_vars_</tt><i>TYPE</I>, <tt>nc_get_varm_</tt><i>TYPE</I>,
|
||
<tt>nc_put_vars_</tt><i>TYPE</I>, <tt>nc_put_varm_</tt><i>TYPE</I>. However
|
||
these will all be generated by four <tt>m4</tt> macros, which will be similar
|
||
to the existing <tt>nc_get_vars</tt>, <tt>nc_get_varm</tt>,
|
||
<tt>nc_put_vars</tt>, <tt>nc_put_varm</tt>.
|
||
|
||
<p>
|
||
The code to test negative strides is currently commented out, because this
|
||
feature has not yet been implemented in the library.
|
||
|
||
</body>
|
||
</html>
|