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f376c23329
re: https://github.com/Unidata/netcdf-c/issues/1642 Modify ncdump, nccopy, and ncgen to support the NC_COMPACT storage option. Added test cases and added description to the man pages for the utilities. 1. ncdump: For compact storage variable, print special attribute __Storage_ as ```` <var>: _Storage = "compact"; ```` 2. ncgen: parse and implement ```` <var>: _Storage = "compact"; ```` in a .cdl file 3. nccopy: Extend the chunk specification (-c flag) to support compact using the forms ```` nccopy ... -c <var>:compact and nccopy ... -c <var>:contiguous ```` Misc. other changes 1. cleanup the copy_chunking function in ncdump/nccopy.c
217 lines
7.8 KiB
C
217 lines
7.8 KiB
C
/* This is part of the netCDF package. Copyright 2018 University
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Corporation for Atmospheric Research/Unidata See COPYRIGHT file for
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conditions of use. See www.unidata.ucar.edu for more info.
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Create a test netCDF-4 file with compression, chunking, endianness
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settings to test ncdump "-s" option for displaying special
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attributes.
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$Id: tst_special_atts.c,v 1.12 2009/01/28 18:19:49 russ Exp $
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*/
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#include <nc_tests.h>
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#include "err_macros.h"
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#include <netcdf.h>
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#define FILE_NAME "tst_special_atts.nc"
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#define DIM1_NAME "dim1"
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#define DIM1_LEN 10
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#define DIM2_NAME "dim2"
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#define DIM2_LEN 20
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#define DIM3_NAME "dim3"
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#define DIM3_LEN 30
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#define VAR1_NAME "var1"
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#define VAR1_RANK 1
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#define VAR2_NAME "var2"
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#define VAR2_RANK 2
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#define VAR3_NAME "var3"
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#define VAR3_RANK 3
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#define VAR4_NAME "var4"
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#define VAR4_RANK 3
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#define VAR5_NAME "var5"
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#define VAR5_RANK VAR1_RANK
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#define VAR6_NAME "var6"
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#define VAR6_RANK 1
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#define VAR7_NAME "var7"
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#define CHUNK1 (DIM1_LEN/2 + 1)
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#define CHUNK2 (DIM2_LEN/3 + 1)
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#define CHUNK3 (DIM3_LEN/4 + 1)
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#define DEFLATE_LEVEL 2
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#define COMPRESS 1
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#define TYPE6_NAME "obs_t"
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int
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main(int argc, char **argv)
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{
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int ncid;
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int i, j, k, m;
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int dimids[VAR3_RANK];
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int var1id, var2id, var3id, var4id, var5id, var6id, var7id;
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size_t chunksizes[] = {CHUNK1, CHUNK2, CHUNK3};
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int data1[DIM1_LEN];
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int data1_in[DIM1_LEN];
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int data2[DIM1_LEN][DIM2_LEN];
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int data2_in[DIM1_LEN][DIM2_LEN];
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int data3[DIM1_LEN][DIM2_LEN][DIM3_LEN];
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int data3_in[DIM1_LEN][DIM2_LEN][DIM3_LEN];
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printf("\n*** Testing '-s' option for special attributes.\n");
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printf("*** creating special attributes test file %s...", FILE_NAME);
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if (nc_create(FILE_NAME, NC_CLOBBER | NC_NETCDF4, &ncid)) ERR;
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/* Declare dimensions and variables */
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if (nc_def_dim(ncid, DIM1_NAME, DIM1_LEN, &dimids[0])) ERR;
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if (nc_def_dim(ncid, DIM2_NAME, DIM2_LEN, &dimids[1])) ERR;
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if (nc_def_dim(ncid, DIM3_NAME, DIM3_LEN, &dimids[2])) ERR;
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if (nc_def_var(ncid, VAR1_NAME, NC_INT, VAR1_RANK, dimids, &var1id)) ERR;
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if (nc_def_var(ncid, VAR2_NAME, NC_INT, VAR2_RANK, dimids, &var2id)) ERR;
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if (nc_def_var(ncid, VAR3_NAME, NC_INT, VAR3_RANK, dimids, &var3id)) ERR;
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if (nc_def_var(ncid, VAR4_NAME, NC_INT, VAR4_RANK, dimids, &var4id)) ERR;
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{
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typedef struct obs_t {
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char day;
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short elev;
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int count;
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float relhum;
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double time;
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unsigned char category;
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unsigned short id;
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unsigned int particularity;
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long long attention_span;
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} obs_t ;
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nc_type typeid;
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/* Create a compound type. */
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if (nc_def_compound(ncid, sizeof(obs_t), TYPE6_NAME, &typeid)) ERR;
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if (nc_insert_compound(ncid, typeid, "day",
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NC_COMPOUND_OFFSET(struct obs_t, day), NC_BYTE)) ERR;
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if (nc_insert_compound(ncid, typeid, "elev",
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NC_COMPOUND_OFFSET(struct obs_t, elev), NC_SHORT)) ERR;
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if (nc_insert_compound(ncid, typeid, "count",
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NC_COMPOUND_OFFSET(struct obs_t, count), NC_INT)) ERR;
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if (nc_insert_compound(ncid, typeid, "relhum",
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NC_COMPOUND_OFFSET(struct obs_t, relhum),
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NC_FLOAT)) ERR;
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if (nc_insert_compound(ncid, typeid, "time",
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NC_COMPOUND_OFFSET(struct obs_t, time),
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NC_DOUBLE)) ERR;
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if (nc_insert_compound(ncid, typeid, "category",
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NC_COMPOUND_OFFSET(struct obs_t, category),
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NC_UBYTE)) ERR;
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if (nc_insert_compound(ncid, typeid, "id",
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NC_COMPOUND_OFFSET(struct obs_t, id),
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NC_USHORT)) ERR;
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if (nc_insert_compound(ncid, typeid, "particularity",
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NC_COMPOUND_OFFSET(struct obs_t, particularity),
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NC_UINT)) ERR;
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if (nc_insert_compound(ncid, typeid, "attention_span",
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NC_COMPOUND_OFFSET(struct obs_t, attention_span),
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NC_INT64)) ERR;
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/* create a variable of that compound type */
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if (nc_def_var(ncid, VAR5_NAME, typeid, VAR5_RANK, dimids, &var5id))
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ERR;
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}
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if (nc_def_var(ncid, VAR6_NAME, NC_INT, VAR6_RANK, dimids, &var6id)) ERR;
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if (nc_def_var(ncid, VAR7_NAME, NC_INT, 0, NULL, &var7id)) ERR;
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/* Specify contiguous storage and endianness explicitly for var1. */
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if (nc_def_var_chunking(ncid, var1id, NC_CONTIGUOUS, NULL)) ERR;
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if (nc_def_var_endian(ncid, var1id, NC_ENDIAN_LITTLE)) ERR;
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/* Specify chunking for var2, note only uses CHUNK1 and CHUNK2.
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Also, specify using a checksum for this variable. */
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if (nc_def_var_chunking(ncid, var2id, NC_CHUNKED, chunksizes)) ERR;
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if (nc_def_var_fletcher32(ncid, var2id, NC_FLETCHER32)) ERR;
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if (nc_def_var_endian(ncid, var2id, NC_ENDIAN_BIG)) ERR;
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/* Use compression but no shuffle for var3, also set to big endian */
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if (nc_def_var_deflate(ncid, var3id, NC_NOSHUFFLE, COMPRESS, DEFLATE_LEVEL)) ERR;
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if (nc_def_var_chunking(ncid, var3id, NC_CHUNKED, chunksizes)) ERR;
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if (nc_def_var_endian(ncid, var3id, NC_ENDIAN_LITTLE)) ERR;
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/* Use compression, chunking, shuffle filter, and no-fill for var4 */
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if (nc_def_var_deflate(ncid, var4id, NC_SHUFFLE, COMPRESS, DEFLATE_LEVEL)) ERR;
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if (nc_def_var_chunking(ncid, var4id, NC_CHUNKED, chunksizes)) ERR;
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if (nc_def_var_endian(ncid, var4id, NC_ENDIAN_LITTLE)) ERR;
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if (nc_def_var_fill(ncid, var4id, NC_NOFILL, NULL)) ERR;
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/* Set endianness, chunking, checksums, shuffle, and compression for var5 */
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if (nc_def_var_chunking(ncid, var5id, NC_CHUNKED, chunksizes)) ERR;
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if (nc_def_var_fletcher32(ncid, var5id, NC_FLETCHER32)) ERR;
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if (nc_def_var_deflate(ncid, var5id, NC_SHUFFLE, COMPRESS, DEFLATE_LEVEL)) ERR;
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/* Set _Storage as compact */
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if (nc_def_var_chunking(ncid, var6id, NC_COMPACT, NULL)) ERR;
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if (nc_def_var_chunking(ncid, var7id, NC_COMPACT, NULL)) ERR;
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if (nc_enddef(ncid)) ERR;
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/* Some artificial data */
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m = 0;
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for(i = 0; i < DIM1_LEN; i++) {
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data1[i] = m++;
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for(j = 0; j < DIM2_LEN; j++) {
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data2[i][j] = m++;
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for(k = 0; k < DIM3_LEN; k++) {
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data3[i][j][k] = m++;
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}
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}
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}
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/* Store data in each variable */
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if(nc_put_var(ncid, var1id, &data1[0])) ERR;
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if(nc_put_var(ncid, var2id, &data2[0][0])) ERR;
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if(nc_put_var(ncid, var3id, &data3[0][0][0])) ERR;
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if(nc_put_var(ncid, var4id, &data3[0][0][0])) ERR;
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if(nc_put_var(ncid, var6id, &data3[0][0][0])) ERR;
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if(nc_put_var(ncid, var7id, &data3[0][0][0])) ERR;
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if (nc_close(ncid)) ERR;
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/* Check it out. */
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if (nc_open(FILE_NAME, NC_NOWRITE, &ncid)) ERR;
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if (nc_inq_varid(ncid, VAR1_NAME, &var1id)) ERR;
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if (nc_inq_varid(ncid, VAR2_NAME, &var2id)) ERR;
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if (nc_inq_varid(ncid, VAR3_NAME, &var3id)) ERR;
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if (nc_inq_varid(ncid, VAR4_NAME, &var4id)) ERR;
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/* Check chunk sizes */
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{
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size_t chunks_in[VAR3_RANK];
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if (nc_inq_var_chunking(ncid, var2id, NULL, chunks_in)) ERR;
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for(i = 0; i < VAR2_RANK; i++)
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if(chunks_in[i] != chunksizes[i]) ERR;
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if (nc_inq_var_chunking(ncid, var3id, NULL, chunks_in)) ERR;
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for(i = 0; i < VAR3_RANK; i++)
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if(chunks_in[i] != chunksizes[i]) ERR;
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if (nc_inq_var_chunking(ncid, var4id, NULL, chunks_in)) ERR;
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for(i = 0; i < VAR4_RANK; i++)
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if(chunks_in[i] != chunksizes[i]) ERR;
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}
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if(nc_get_var(ncid, var1id, &data1_in[0])) ERR;
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for(i = 0; i < DIM1_LEN; i++)
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if(data1_in[i] != data1[i]) ERR;
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if(nc_get_var(ncid, var2id, &data2_in[0][0])) ERR;
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for(i = 0; i < DIM1_LEN; i++)
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for(j = 0; j < DIM2_LEN; j++)
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if(data2_in[i][j] != data2[i][j]) ERR;
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if(nc_get_var(ncid, var3id, &data3_in[0][0][0])) ERR;
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for(i = 0; i < DIM1_LEN; i++)
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for(j = 0; j < DIM2_LEN; j++)
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for(k = 0; k < DIM3_LEN; k++)
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if(data3_in[i][j][k] != data3[i][j][k]) ERR;
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if(nc_get_var(ncid, var4id, &data3_in[0][0][0])) ERR;
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for(i = 0; i < DIM1_LEN; i++)
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for(j = 0; j < DIM2_LEN; j++)
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for(k = 0; k < DIM3_LEN; k++)
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if(data3_in[i][j][k] != data3[i][j][k]) ERR;
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SUMMARIZE_ERR;
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FINAL_RESULTS;
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}
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