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191 lines
5.6 KiB
C
191 lines
5.6 KiB
C
/* This is part of the netCDF package.
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Copyright 2021 University Corporation for Atmospheric Research/Unidata
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See COPYRIGHT file for conditions of use.
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Test quantization of netcdf-4 variables with parallel
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I/O. Quantization is the zeroing-out of bits in float or double
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data beyond a desired precision.
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Ed Hartnett, 9/2/21
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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 TEST "tst_quantize"
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#define FILE_NAME "tst_quantize_par.nc"
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#define NDIM1 1
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#define DIM_NAME_1 "DIM_1"
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#define DIM_LEN_5 5
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#define DIM_LEN_20 20
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#define VAR_NAME_1 "VAR_1"
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#define VAR_NAME_2 "VAR_2"
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#define NSD_3 3
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#define NSD_9 9
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/* This var used to help print a float in hex. */
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char pf_str[20];
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/* This struct allows us to treat float as uint32_t
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* types. */
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union FU {
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float f;
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uint32_t u;
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};
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/* This struct allows us to treat double points as uint64_t
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* types. */
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union DU {
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double d;
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uint64_t u;
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};
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/* This function prints a float as hex. */
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char *
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pf(float myf)
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{
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union {
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float f;
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uint32_t u;
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} fu;
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fu.f = myf;
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sprintf(pf_str, "0x%x", fu.u);
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return pf_str;
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}
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/* This function prints a double as hex. */
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char *
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pd(double myd)
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{
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union {
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double d;
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uint64_t u;
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} du;
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du.d = myd;
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sprintf(pf_str, "0x%lx", du.u);
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return pf_str;
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}
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int
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main(int argc, char **argv)
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{
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int mpi_size, mpi_rank;
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MPI_Comm comm = MPI_COMM_WORLD;
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MPI_Info info = MPI_INFO_NULL;
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/* Initialize MPI. */
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MPI_Init(&argc, &argv);
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MPI_Comm_size(MPI_COMM_WORLD, &mpi_size);
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MPI_Comm_rank(MPI_COMM_WORLD, &mpi_rank);
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/* Must be run on exactly 4 processors. */
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if (mpi_size != 4)
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{
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if (mpi_rank == 0)
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printf("Test must be run on 4 processors.\n");
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return 2;
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}
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if (mpi_rank == 0)
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{
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printf("\n*** Testing netcdf-4 variable quantization with parallel I/O.\n");
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printf("**** testing quantization on four processors...");
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}
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{
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int ncid, dimid, varid1, varid2;
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int quantize_mode_in, nsd_in;
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float float_data[DIM_LEN_5] = {1.11111111, 1.0, 9.99999999, 12345.67, .1234567};
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double double_data[DIM_LEN_5] = {1.1111111, 1.0, 9.999999999, 1234567890.12345, 123456789012345.0};
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size_t start[NDIM1], count[NDIM1] = {DIM_LEN_5};
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int x;
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/* Create a netcdf-4 file with two vars. */
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if (nc_create_par(FILE_NAME, NC_NETCDF4|NC_CLOBBER, comm, info, &ncid)) ERR;
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if (nc_def_dim(ncid, DIM_NAME_1, DIM_LEN_20, &dimid)) ERR;
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if (nc_def_var(ncid, VAR_NAME_1, NC_FLOAT, NDIM1, &dimid, &varid1)) ERR;
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if (nc_def_var(ncid, VAR_NAME_2, NC_DOUBLE, NDIM1, &dimid, &varid2)) ERR;
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/* Turn on quantize for both vars. */
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if (nc_def_var_quantize(ncid, varid1, NC_QUANTIZE_BITGROOM, NSD_3)) ERR;
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if (nc_def_var_quantize(ncid, varid2, NC_QUANTIZE_BITGROOM, NSD_3)) ERR;
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/* Write some data. Each of the 4 processes writes the same 5
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* values, writing 20 in all. */
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start[0] = mpi_rank * DIM_LEN_5;
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if (nc_put_vara_float(ncid, varid1, start, count, float_data)) ERR;
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if (nc_put_vara_double(ncid, varid2, start, count, double_data)) ERR;
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/* Close the file. */
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if (nc_close(ncid)) ERR;
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{
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float float_in[DIM_LEN_5];
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double double_in[DIM_LEN_5];
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union FU {
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float f;
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uint32_t u;
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};
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union FU fin;
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/* union FU fout; */
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union FU xpect[DIM_LEN_5];
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union DU dfin;
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/* union DU dfout; */
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union DU double_xpect[DIM_LEN_5];
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xpect[0].u = 0x3f8e3000;
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xpect[1].u = 0x3f800fff;
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xpect[2].u = 0x41200000;
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xpect[3].u = 0x4640efff;
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xpect[4].u = 0x3dfcd000;
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double_xpect[0].u = 0x3ff1c60000000000;
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double_xpect[1].u = 0x3ff001ffffffffff;
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double_xpect[2].u = 0x4023fe0000000000;
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double_xpect[3].u = 0x41d265ffffffffff;
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double_xpect[4].u = 0x42dc120000000000;
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/* Open the file and check metadata. */
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if (nc_open_par(FILE_NAME, NC_WRITE, comm, info, &ncid)) ERR;
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if (nc_inq_var_quantize(ncid, 0, &quantize_mode_in, &nsd_in)) ERR;
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if (quantize_mode_in != NC_QUANTIZE_BITGROOM || nsd_in != NSD_3) ERR;
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if (nc_inq_var_quantize(ncid, 1, &quantize_mode_in, &nsd_in)) ERR;
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if (quantize_mode_in != NC_QUANTIZE_BITGROOM || nsd_in != NSD_3) ERR;
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/* Check the data. */
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start[0] = mpi_rank * DIM_LEN_5;
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if (nc_get_vara_float(ncid, varid1, start, count, float_in)) ERR;
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if (nc_get_vara_double(ncid, varid2, start, count, double_in)) ERR;
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/* printf("\n"); */
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for (x = 0; x < DIM_LEN_5; x++)
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{
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/* fout.f = float_data[x]; */
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fin.f = float_in[x];
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/* printf ("float_data: %10f : 0x%x float_data_in: %10f : 0x%x\n", */
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/* float_data[x], fout.u, float_data[x], fin.u); */
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if (fin.u != xpect[x].u) ERR;
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/* dfout.d = double_data[x]; */
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dfin.d = double_in[x];
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/* printf("double_data: %15g : 0x%16lx double_data_in: %15g : 0x%16lx\n", */
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/* double_data[x], dfout.u, double_data[x], dfin.u); */
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if (dfin.u != double_xpect[x].u) ERR;
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}
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/* Close the file again. */
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if (nc_close(ncid)) ERR;
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}
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}
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/* Shut down MPI. */
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MPI_Finalize();
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if (mpi_rank == 0)
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{
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SUMMARIZE_ERR;
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FINAL_RESULTS;
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}
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return 0;
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}
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