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| author | Dana Robinson <derobins@hdfgroup.org> | 2013-10-31 07:44:00 (GMT) |
|---|---|---|
| committer | Dana Robinson <derobins@hdfgroup.org> | 2013-10-31 07:44:00 (GMT) |
| commit | 0aa06db0a4e5d01b752fecf9e33d4db302ee3abc (patch) | |
| tree | 5bd2d0032760de036383fa28004a89972265e52d /testpar/t_dset.c | |
| parent | 89f2019ecf51f46a99a1d08149d633655c1e7dec (diff) | |
| download | hdf5-0aa06db0a4e5d01b752fecf9e33d4db302ee3abc.zip hdf5-0aa06db0a4e5d01b752fecf9e33d4db302ee3abc.tar.gz hdf5-0aa06db0a4e5d01b752fecf9e33d4db302ee3abc.tar.bz2 | |
[svn-r24380] The parallel test code now uses HDfree, HDmalloc, and HDcalloc
exclusively.
Part of the preparation for a fix for HDFFV-8551.
Tested on:
32-bit LE linux (jam) w/ parallel and Fortran.
There are no behavior changes, so testing was minimal.
Diffstat (limited to 'testpar/t_dset.c')
| -rw-r--r-- | testpar/t_dset.c | 130 |
1 files changed, 65 insertions, 65 deletions
diff --git a/testpar/t_dset.c b/testpar/t_dset.c index 743de3a..34ccab7 100644 --- a/testpar/t_dset.c +++ b/testpar/t_dset.c @@ -255,8 +255,8 @@ dataset_writeInd(void) MPI_Comm_rank(MPI_COMM_WORLD,&mpi_rank); /* allocate memory for data buffer */ - data_array1 = (DATATYPE *)malloc(dim0*dim1*sizeof(DATATYPE)); - VRFY((data_array1 != NULL), "data_array1 malloc succeeded"); + data_array1 = (DATATYPE *)HDmalloc(dim0*dim1*sizeof(DATATYPE)); + VRFY((data_array1 != NULL), "data_array1 HDmalloc succeeded"); /* ---------------------------------------- * CREATE AN HDF5 FILE WITH PARALLEL ACCESS @@ -365,7 +365,7 @@ MPI_Barrier(MPI_COMM_WORLD); H5Fclose(fid); /* release data buffers */ - if(data_array1) free(data_array1); + if(data_array1) HDfree(data_array1); } /* Example of using the parallel HDF5 library to read a dataset */ @@ -401,10 +401,10 @@ dataset_readInd(void) MPI_Comm_rank(MPI_COMM_WORLD,&mpi_rank); /* allocate memory for data buffer */ - data_array1 = (DATATYPE *)malloc(dim0*dim1*sizeof(DATATYPE)); - VRFY((data_array1 != NULL), "data_array1 malloc succeeded"); - data_origin1 = (DATATYPE *)malloc(dim0*dim1*sizeof(DATATYPE)); - VRFY((data_origin1 != NULL), "data_origin1 malloc succeeded"); + data_array1 = (DATATYPE *)HDmalloc(dim0*dim1*sizeof(DATATYPE)); + VRFY((data_array1 != NULL), "data_array1 HDmalloc succeeded"); + data_origin1 = (DATATYPE *)HDmalloc(dim0*dim1*sizeof(DATATYPE)); + VRFY((data_origin1 != NULL), "data_origin1 HDmalloc succeeded"); /* setup file access template */ acc_tpl = create_faccess_plist(comm, info, facc_type, use_gpfs); @@ -474,8 +474,8 @@ dataset_readInd(void) H5Fclose(fid); /* release data buffers */ - if(data_array1) free(data_array1); - if(data_origin1) free(data_origin1); + if(data_array1) HDfree(data_array1); + if(data_origin1) HDfree(data_origin1); } @@ -527,8 +527,8 @@ dataset_writeAll(void) MPI_Comm_rank(MPI_COMM_WORLD,&mpi_rank); /* allocate memory for data buffer */ - data_array1 = (DATATYPE *)malloc(dim0*dim1*sizeof(DATATYPE)); - VRFY((data_array1 != NULL), "data_array1 malloc succeeded"); + data_array1 = (DATATYPE *)HDmalloc(dim0*dim1*sizeof(DATATYPE)); + VRFY((data_array1 != NULL), "data_array1 HDmalloc succeeded"); /* ------------------- * START AN HDF5 FILE @@ -862,7 +862,7 @@ dataset_writeAll(void) H5Fclose(fid); /* release data buffers */ - if(data_array1) free(data_array1); + if(data_array1) HDfree(data_array1); } /* @@ -907,10 +907,10 @@ dataset_readAll(void) MPI_Comm_rank(MPI_COMM_WORLD,&mpi_rank); /* allocate memory for data buffer */ - data_array1 = (DATATYPE *)malloc(dim0*dim1*sizeof(DATATYPE)); - VRFY((data_array1 != NULL), "data_array1 malloc succeeded"); - data_origin1 = (DATATYPE *)malloc(dim0*dim1*sizeof(DATATYPE)); - VRFY((data_origin1 != NULL), "data_origin1 malloc succeeded"); + data_array1 = (DATATYPE *)HDmalloc(dim0*dim1*sizeof(DATATYPE)); + VRFY((data_array1 != NULL), "data_array1 HDmalloc succeeded"); + data_origin1 = (DATATYPE *)HDmalloc(dim0*dim1*sizeof(DATATYPE)); + VRFY((data_origin1 != NULL), "data_origin1 HDmalloc succeeded"); /* ------------------- * OPEN AN HDF5 FILE @@ -1090,8 +1090,8 @@ dataset_readAll(void) H5Fclose(fid); /* release data buffers */ - if(data_array1) free(data_array1); - if(data_origin1) free(data_origin1); + if(data_array1) HDfree(data_array1); + if(data_origin1) HDfree(data_origin1); } @@ -1149,8 +1149,8 @@ extend_writeInd(void) chunk_dims[1] = chunkdim1; /* allocate memory for data buffer */ - data_array1 = (DATATYPE *)malloc(dim0*dim1*sizeof(DATATYPE)); - VRFY((data_array1 != NULL), "data_array1 malloc succeeded"); + data_array1 = (DATATYPE *)HDmalloc(dim0*dim1*sizeof(DATATYPE)); + VRFY((data_array1 != NULL), "data_array1 HDmalloc succeeded"); /* ------------------- * START AN HDF5 FILE @@ -1329,7 +1329,7 @@ extend_writeInd(void) H5Fclose(fid); /* release data buffers */ - if(data_array1) free(data_array1); + if(data_array1) HDfree(data_array1); } /* @@ -1535,12 +1535,12 @@ extend_readInd(void) MPI_Comm_rank(MPI_COMM_WORLD,&mpi_rank); /* allocate memory for data buffer */ - data_array1 = (DATATYPE *)malloc(dim0*dim1*sizeof(DATATYPE)); - VRFY((data_array1 != NULL), "data_array1 malloc succeeded"); - data_array2 = (DATATYPE *)malloc(dim0*dim1*sizeof(DATATYPE)); - VRFY((data_array2 != NULL), "data_array2 malloc succeeded"); - data_origin1 = (DATATYPE *)malloc(dim0*dim1*sizeof(DATATYPE)); - VRFY((data_origin1 != NULL), "data_origin1 malloc succeeded"); + data_array1 = (DATATYPE *)HDmalloc(dim0*dim1*sizeof(DATATYPE)); + VRFY((data_array1 != NULL), "data_array1 HDmalloc succeeded"); + data_array2 = (DATATYPE *)HDmalloc(dim0*dim1*sizeof(DATATYPE)); + VRFY((data_array2 != NULL), "data_array2 HDmalloc succeeded"); + data_origin1 = (DATATYPE *)HDmalloc(dim0*dim1*sizeof(DATATYPE)); + VRFY((data_origin1 != NULL), "data_origin1 HDmalloc succeeded"); /* ------------------- * OPEN AN HDF5 FILE @@ -1663,9 +1663,9 @@ extend_readInd(void) H5Fclose(fid); /* release data buffers */ - if(data_array1) free(data_array1); - if(data_array2) free(data_array2); - if(data_origin1) free(data_origin1); + if(data_array1) HDfree(data_array1); + if(data_array2) HDfree(data_array2); + if(data_origin1) HDfree(data_origin1); } /* @@ -1723,8 +1723,8 @@ extend_writeAll(void) chunk_dims[1] = chunkdim1; /* allocate memory for data buffer */ - data_array1 = (DATATYPE *)malloc(dim0*dim1*sizeof(DATATYPE)); - VRFY((data_array1 != NULL), "data_array1 malloc succeeded"); + data_array1 = (DATATYPE *)HDmalloc(dim0*dim1*sizeof(DATATYPE)); + VRFY((data_array1 != NULL), "data_array1 HDmalloc succeeded"); /* ------------------- * START AN HDF5 FILE @@ -1928,7 +1928,7 @@ extend_writeAll(void) H5Fclose(fid); /* release data buffers */ - if(data_array1) free(data_array1); + if(data_array1) HDfree(data_array1); } /* Example of using the parallel HDF5 library to read an extendible dataset */ @@ -1967,12 +1967,12 @@ extend_readAll(void) MPI_Comm_rank(MPI_COMM_WORLD,&mpi_rank); /* allocate memory for data buffer */ - data_array1 = (DATATYPE *)malloc(dim0*dim1*sizeof(DATATYPE)); - VRFY((data_array1 != NULL), "data_array1 malloc succeeded"); - data_array2 = (DATATYPE *)malloc(dim0*dim1*sizeof(DATATYPE)); - VRFY((data_array2 != NULL), "data_array2 malloc succeeded"); - data_origin1 = (DATATYPE *)malloc(dim0*dim1*sizeof(DATATYPE)); - VRFY((data_origin1 != NULL), "data_origin1 malloc succeeded"); + data_array1 = (DATATYPE *)HDmalloc(dim0*dim1*sizeof(DATATYPE)); + VRFY((data_array1 != NULL), "data_array1 HDmalloc succeeded"); + data_array2 = (DATATYPE *)HDmalloc(dim0*dim1*sizeof(DATATYPE)); + VRFY((data_array2 != NULL), "data_array2 HDmalloc succeeded"); + data_origin1 = (DATATYPE *)HDmalloc(dim0*dim1*sizeof(DATATYPE)); + VRFY((data_origin1 != NULL), "data_origin1 HDmalloc succeeded"); /* ------------------- * OPEN AN HDF5 FILE @@ -2119,9 +2119,9 @@ extend_readAll(void) H5Fclose(fid); /* release data buffers */ - if(data_array1) free(data_array1); - if(data_array2) free(data_array2); - if(data_origin1) free(data_origin1); + if(data_array1) HDfree(data_array1); + if(data_array2) HDfree(data_array2); + if(data_origin1) HDfree(data_origin1); } /* @@ -2161,9 +2161,9 @@ compress_readAll(void) /* Allocate data buffer */ data_orig = (DATATYPE *)HDmalloc((size_t)dim*sizeof(DATATYPE)); - VRFY((data_orig != NULL), "data_origin1 malloc succeeded"); + VRFY((data_orig != NULL), "data_origin1 HDmalloc succeeded"); data_read = (DATATYPE *)HDmalloc((size_t)dim*sizeof(DATATYPE)); - VRFY((data_read != NULL), "data_array1 malloc succeeded"); + VRFY((data_read != NULL), "data_array1 HDmalloc succeeded"); /* Initialize data buffers */ for(u=0; u<dim;u++) @@ -2394,11 +2394,11 @@ none_selection_chunk(void) /* allocate memory for data buffer. Only allocate enough buffer for * each processor's data. */ if(mpi_rank) { - data_origin = (DATATYPE *)malloc(block[0]*block[1]*sizeof(DATATYPE)); - VRFY((data_origin != NULL), "data_origin malloc succeeded"); + data_origin = (DATATYPE *)HDmalloc(block[0]*block[1]*sizeof(DATATYPE)); + VRFY((data_origin != NULL), "data_origin HDmalloc succeeded"); - data_array = (DATATYPE *)malloc(block[0]*block[1]*sizeof(DATATYPE)); - VRFY((data_array != NULL), "data_array malloc succeeded"); + data_array = (DATATYPE *)HDmalloc(block[0]*block[1]*sizeof(DATATYPE)); + VRFY((data_array != NULL), "data_array HDmalloc succeeded"); /* put some trivial data in the data_array */ mstart[0] = mstart[1] = 0; @@ -2495,8 +2495,8 @@ none_selection_chunk(void) H5Fclose(fid); /* release data buffers */ - if(data_origin) free(data_origin); - if(data_array) free(data_array); + if(data_origin) HDfree(data_origin); + if(data_array) HDfree(data_array); } @@ -2849,7 +2849,7 @@ test_actual_io_mode(int selection_mode) { /* Allocate and initialize the buffer */ buffer = (int *)HDmalloc(sizeof(int) * length); - VRFY((buffer != NULL), "malloc of buffer succeeded"); + VRFY((buffer != NULL), "HDmalloc of buffer succeeded"); for(i = 0; i < length; i++) buffer[i] = i; @@ -3323,7 +3323,7 @@ test_no_collective_cause_mode(int selection_mode) /* Allocate and initialize the buffer */ buffer = (int *)HDmalloc(sizeof(int) * length); - VRFY((buffer != NULL), "malloc of buffer succeeded"); + VRFY((buffer != NULL), "HDmalloc of buffer succeeded"); for(i = 0; i < length; i++) buffer[i] = i; @@ -3571,7 +3571,7 @@ test_no_collective_cause_mode_filter(int selection_mode) /* Allocate and initialize the buffer */ buffer = (int *)HDmalloc(sizeof(int) * length); - VRFY((buffer != NULL), "malloc of buffer succeeded"); + VRFY((buffer != NULL), "HDmalloc of buffer succeeded"); for(i = 0; i < length; i++) buffer[i] = i; @@ -3763,11 +3763,11 @@ dataset_atomicity(void) buf_size = dim0 * dim1; /* allocate memory for data buffer */ - write_buf = (int *)calloc(buf_size, sizeof(int)); - VRFY((write_buf != NULL), "write_buf malloc succeeded"); + write_buf = (int *)HDcalloc(buf_size, sizeof(int)); + VRFY((write_buf != NULL), "write_buf HDcalloc succeeded"); /* allocate memory for data buffer */ - read_buf = (int *)calloc(buf_size, sizeof(int)); - VRFY((read_buf != NULL), "read_buf malloc succeeded"); + read_buf = (int *)HDcalloc(buf_size, sizeof(int)); + VRFY((read_buf != NULL), "read_buf HDcalloc succeeded"); /* setup file access template */ acc_tpl = create_faccess_plist(comm, info, facc_type, use_gpfs); @@ -3909,19 +3909,19 @@ dataset_atomicity(void) VRFY((ret >= 0), "H5D close succeeded"); /* release data buffers */ - if(write_buf) free(write_buf); - if(read_buf) free(read_buf); + if(write_buf) HDfree(write_buf); + if(read_buf) HDfree(read_buf); /* open dataset2 (non-contiguous case) */ dataset2 = H5Dopen2(fid, DATASETNAME6, H5P_DEFAULT); VRFY((dataset2 >= 0), "H5Dopen2 succeeded"); /* allocate memory for data buffer */ - write_buf = (int *)calloc(buf_size, sizeof(int)); - VRFY((write_buf != NULL), "write_buf malloc succeeded"); + write_buf = (int *)HDcalloc(buf_size, sizeof(int)); + VRFY((write_buf != NULL), "write_buf HDcalloc succeeded"); /* allocate memory for data buffer */ - read_buf = (int *)calloc(buf_size, sizeof(int)); - VRFY((read_buf != NULL), "read_buf malloc succeeded"); + read_buf = (int *)HDcalloc(buf_size, sizeof(int)); + VRFY((read_buf != NULL), "read_buf HDcalloc succeeded"); for (i=0 ; i<buf_size ; i++) { write_buf[i] = 5; @@ -4031,8 +4031,8 @@ dataset_atomicity(void) VRFY((ret >= 0), "H5Sclose succeeded"); /* release data buffers */ - if(write_buf) free(write_buf); - if(read_buf) free(read_buf); + if(write_buf) HDfree(write_buf); + if(read_buf) HDfree(read_buf); ret = H5Fclose(fid); VRFY((ret >= 0), "H5Fclose succeeded"); |