/** \file This header file contains the definitions of structs used to hold netCDF file metadata in memory. Copyright 2005-2011 University Corporation for Atmospheric Research/Unidata. */ #ifndef _NC4INTERNAL_ #define _NC4INTERNAL_ #include "config.h" #include #include #include #include #include #include #include "ncdimscale.h" #include "nc_logging.h" #ifdef USE_PARALLEL #include "netcdf_par.h" #endif /* USE_PARALLEL */ #include "netcdf.h" #include "netcdf_f.h" /* Always needed */ #include "nc.h" #ifdef USE_HDF4 #include #endif #define FILE_ID_MASK (0xffff0000) #define GRP_ID_MASK (0x0000ffff) #define ID_SHIFT (16) typedef enum {GET, PUT} NC_PG_T; typedef enum {VAR, DIM, ATT} NC_OBJ_T; #define NC_MAX_HDF5_NAME (NC_MAX_NAME + 10) #define NC_V2_ERR (-1) /* The name of the root group. */ #define NC_GROUP_NAME "/" #define MEGABYTE 1048576 /* * limits of the external representation */ #define X_SCHAR_MIN (-128) #define X_SCHAR_MAX 127 #define X_UCHAR_MAX 255U #define X_SHORT_MIN (-32768) #define X_SHRT_MIN X_SHORT_MIN /* alias compatible with limits.h */ #define X_SHORT_MAX 32767 #define X_SHRT_MAX X_SHORT_MAX /* alias compatible with limits.h */ #define X_USHORT_MAX 65535U #define X_USHRT_MAX X_USHORT_MAX /* alias compatible with limits.h */ #define X_INT_MIN (-2147483647-1) #define X_INT_MAX 2147483647 #define X_LONG_MIN X_INT_MIN #define X_LONG_MAX X_INT_MAX #define X_UINT_MAX 4294967295U #ifdef WIN32 /* Windows, of course, has to be a *little* different. */ #define X_FLOAT_MAX 3.402823466e+38f #else #define X_FLOAT_MAX 3.40282347e+38f #endif /* WIN32 */ #define X_FLOAT_MIN (-X_FLOAT_MAX) #define X_DOUBLE_MAX 1.7976931348623157e+308 #define X_DOUBLE_MIN (-X_DOUBLE_MAX) /* These have to do with creating chuncked datasets in HDF5. */ #define NC_HDF5_UNLIMITED_DIMSIZE (0) #define NC_HDF5_CHUNKSIZE_FACTOR (10) #define NC_HDF5_MIN_CHUNK_SIZE (2) #define NC_EMPTY_SCALE "NC_EMPTY_SCALE" /* This is an attribute I had to add to handle multidimensional * coordinate variables. */ #define COORDINATES "_Netcdf4Coordinates" #define COORDINATES_LEN (NC_MAX_NAME * 5) /* This is used when the user defines a non-coordinate variable with * same name as a dimension. */ #define NON_COORD_PREPEND "_nc4_non_coord_" /* An attribute in the HDF5 root group of this name means that the * file must follow strict netCDF classic format rules. */ #define NC3_STRICT_ATT_NAME "_nc3_strict" /* If this attribute is present on a dimscale variable, use the value * as the netCDF dimid. */ #define NC_DIMID_ATT_NAME "_Netcdf4Dimid" /* Boolean type, to make the code easier to read */ typedef enum {NC_FALSE = 0, NC_TRUE = 1} nc_bool_t; #ifdef ENABLE_FILEINFO /*Forward*/ struct NCFILEINFO; #endif /* Generic doubly-linked list node */ typedef struct NC_LIST_NODE { void *next; void *prev; } NC_LIST_NODE_T; /* This is a struct to handle the dim metadata. */ typedef struct NC_DIM_INFO { NC_LIST_NODE_T l; /* Use generic doubly-linked list (must be first) */ char *name; size_t len; uint32_t hash; int dimid; nc_bool_t unlimited; /* True if the dimension is unlimited */ nc_bool_t extended; /* True if the dimension needs to be extended */ nc_bool_t too_long; /* True if len is too big to fit in local size_t. */ hid_t hdf_dimscaleid; HDF5_OBJID_T hdf5_objid; struct NC_VAR_INFO *coord_var; /* The coord var, if it exists. */ } NC_DIM_INFO_T; typedef struct NC_ATT_INFO { NC_LIST_NODE_T l; /* Use generic doubly-linked list (must be first) */ char *name; int len; nc_bool_t dirty; /* True if attribute modified */ nc_bool_t created; /* True if attribute already created */ nc_type nc_typeid; /* netCDF type of attribute's data */ hid_t native_hdf_typeid; /* Native HDF5 datatype for attribute's data */ int attnum; void *data; nc_vlen_t *vldata; /* only used for vlen */ char **stdata; /* only for string type. */ } NC_ATT_INFO_T; /* This is a struct to handle the var metadata. */ typedef struct NC_VAR_INFO { NC_LIST_NODE_T l; /* Use generic doubly-linked list (must be first) */ char *name; char *hdf5_name; /* used if different from name */ int ndims; int *dimids; NC_DIM_INFO_T **dim; int varid; int natts; uint32_t hash; nc_bool_t is_new_var; /* True if variable is newly created */ nc_bool_t was_coord_var; /* True if variable was a coordinate var, but either the dim or var has been renamed */ nc_bool_t became_coord_var; /* True if variable _became_ a coordinate var, because either the dim or var has been renamed */ nc_bool_t fill_val_changed; /* True if variable's fill value changes after it has been created */ nc_bool_t attr_dirty; /* True if variable's attributes are dirty and should be rewritten */ nc_bool_t created; /* Variable has already been created (_not_ that it was just created) */ nc_bool_t written_to; /* True if variable has data written to it */ struct NC_TYPE_INFO *type_info; hid_t hdf_datasetid; NC_ATT_INFO_T *att; nc_bool_t no_fill; /* True if no fill value is defined for var */ void *fill_value; size_t *chunksizes; nc_bool_t contiguous; /* True if variable is stored contiguously in HDF5 file */ int parallel_access; /* Type of parallel access for I/O on variable (collective or independent) */ nc_bool_t dimscale; /* True if var is a dimscale */ nc_bool_t *dimscale_attached; /* Array of flags that are true if dimscale is attached for that dim index */ HDF5_OBJID_T *dimscale_hdf5_objids; nc_bool_t deflate; /* True if var has deflate filter applied */ int deflate_level; nc_bool_t shuffle; /* True if var has shuffle filter applied */ nc_bool_t fletcher32; /* True if var has fletcher32 filter applied */ nc_bool_t szip; /* True if var has szip filter applied */ int options_mask; int pixels_per_block; size_t chunk_cache_size, chunk_cache_nelems; float chunk_cache_preemption; #ifdef USE_HDF4 /* Stuff below is for hdf4 files. */ int sdsid; int hdf4_data_type; #endif /* USE_HDF4 */ /* Stuff below for diskless data files. */ void *diskless_data; } NC_VAR_INFO_T; typedef struct NC_FIELD_INFO { NC_LIST_NODE_T l; /* Use generic doubly-linked list (must be first) */ nc_type nc_typeid; hid_t hdf_typeid; hid_t native_hdf_typeid; size_t offset; char *name; int fieldid; /* ID (index?) of field */ int ndims; int *dim_size; } NC_FIELD_INFO_T; typedef struct NC_ENUM_MEMBER_INFO { NC_LIST_NODE_T l; /* Use generic doubly-linked list (must be first) */ char *name; void *value; } NC_ENUM_MEMBER_INFO_T; typedef struct NC_TYPE_INFO { NC_LIST_NODE_T l; /* Use generic doubly-linked list (must be first) */ char *name; nc_type nc_typeid; /* netCDF type ID, equivalent to a pre-defined type * for atomic types, but a dynamically * defined value for user-defined types (stored * as named datatypes in the HDF5 file). */ unsigned rc; /* Ref. count of objects using this type */ hid_t hdf_typeid; /* HDF5 type ID, in the file */ hid_t native_hdf_typeid; /* HDF5 type ID, in memory */ int endianness; /* What endianness for the type? */ /* (Set for integer types as well as "complex" * types, like compound/enum/vlen, used for the * endianness of the fields and/or base type) */ size_t size; /* Size of the type in memory, in bytes */ nc_bool_t committed; /* True when datatype is committed in the file */ nc_type nc_type_class; /* NC_VLEN, NC_COMPOUND, NC_OPAQUE, or NC_ENUM * NOTE: NC_INT is used for all integer types, * NC_FLOAT is used for all floating-point * types, and NC_STRING is also used for * fixed- and variable-length strings. * (NC_CHAR is used for characters though) * * This is somewhat redundant with the * nc_type field, but allows the code to * have a single location to look at for * the "kind" of a type. */ /* Information for each type or class */ union { struct { int num_members; NC_ENUM_MEMBER_INFO_T *enum_member; nc_type base_nc_typeid; hid_t base_hdf_typeid; } e; /* Enum */ struct { int num_fields; NC_FIELD_INFO_T *field; } c; /* Compound */ struct { nc_type base_nc_typeid; hid_t base_hdf_typeid; } v; /* Variable-length */ } u; /* Union of structs, for each type/class */ } NC_TYPE_INFO_T; /* This holds information for one group. Groups reproduce with * parthenogenesis. */ typedef struct NC_GRP_INFO { NC_LIST_NODE_T l; /* Use generic doubly-linked list (must be first) */ char *name; hid_t hdf_grpid; int nc_grpid; struct NC_HDF5_FILE_INFO *nc4_info; struct NC_GRP_INFO *parent; struct NC_GRP_INFO *children; NC_VAR_INFO_T *var; NC_DIM_INFO_T *dim; NC_ATT_INFO_T *att; NC_TYPE_INFO_T *type; int nvars; int ndims; int natts; } NC_GRP_INFO_T; /* These constants apply to the cmode parameter in the * HDF5_FILE_INFO_T defined below. */ #define NC_CREAT 2 /* in create phase, cleared by ncendef */ #define NC_INDEF 8 /* in define mode, cleared by ncendef */ #define NC_NSYNC 0x10 /* synchronise numrecs on change */ #define NC_HSYNC 0x20 /* synchronise whole header on change */ #define NC_NDIRTY 0x40 /* numrecs has changed */ #define NC_HDIRTY 0x80 /* header info has changed */ /* This is the metadata we need to keep track of for each netcdf-4/HDF5 file. */ typedef struct NC_HDF5_FILE_INFO { NC* controller; hid_t hdfid; #ifdef USE_PARALLEL4 MPI_Comm comm; /* Copy of MPI Communicator used to open the file */ MPI_Info info; /* Copy of MPI Information Object used to open the file */ #endif int flags; int cmode; int nvars; int ndims; int natts; nc_bool_t parallel; /* True if file is open for parallel access */ nc_bool_t redef; /* True if redefining an existing file */ int fill_mode; /* Fill mode for vars - Unused internally currently */ nc_bool_t no_write; /* true if nc_open has mode NC_NOWRITE. */ NC_GRP_INFO_T *root_grp; short next_nc_grpid; NC_TYPE_INFO_T *type; int next_typeid; int next_dimid; #ifdef USE_HDF4 nc_bool_t hdf4; /* True for HDF4 file */ int sdid; #endif /* USE_HDF4 */ #ifdef ENABLE_FILEINFO struct NCFILEINFO* fileinfo; #endif } NC_HDF5_FILE_INFO_T; /* Defined in lookup3.c */ extern uint32_t hash_fast(const void *key, size_t length); /* These functions convert between netcdf and HDF5 types. */ int nc4_get_typelen_mem(NC_HDF5_FILE_INFO_T *h5, nc_type xtype, int is_long, size_t *len); int nc4_convert_type(const void *src, void *dest, const nc_type src_type, const nc_type dest_type, const size_t len, int *range_error, const void *fill_value, int strict_nc3, int src_long, int dest_long); /* These functions do HDF5 things. */ int rec_detach_scales(NC_GRP_INFO_T *grp, int dimid, hid_t dimscaleid); int rec_reattach_scales(NC_GRP_INFO_T *grp, int dimid, hid_t dimscaleid); int nc4_open_var_grp2(NC_GRP_INFO_T *grp, int varid, hid_t *dataset); int nc4_put_vara(NC *nc, int ncid, int varid, const size_t *startp, const size_t *countp, nc_type xtype, int is_long, void *op); int nc4_get_vara(NC *nc, int ncid, int varid, const size_t *startp, const size_t *countp, nc_type xtype, int is_long, void *op); int nc4_rec_match_dimscales(NC_GRP_INFO_T *grp); int nc4_rec_detect_need_to_preserve_dimids(NC_GRP_INFO_T *grp, nc_bool_t *bad_coord_orderp); int nc4_rec_write_metadata(NC_GRP_INFO_T *grp, nc_bool_t bad_coord_order); int nc4_rec_write_groups_types(NC_GRP_INFO_T *grp); int nc4_enddef_netcdf4_file(NC_HDF5_FILE_INFO_T *h5); int nc4_reopen_dataset(NC_GRP_INFO_T *grp, NC_VAR_INFO_T *var); int nc4_adjust_var_cache(NC_GRP_INFO_T *grp, NC_VAR_INFO_T * var); /* The following functions manipulate the in-memory linked list of metadata, without using HDF calls. */ int nc4_find_nc_grp_h5(int ncid, NC **nc, NC_GRP_INFO_T **grp, NC_HDF5_FILE_INFO_T **h5); int nc4_find_grp_h5(int ncid, NC_GRP_INFO_T **grp, NC_HDF5_FILE_INFO_T **h5); int nc4_find_nc4_grp(int ncid, NC_GRP_INFO_T **grp); NC_GRP_INFO_T *nc4_find_nc_grp(int ncid); NC_GRP_INFO_T *nc4_rec_find_grp(NC_GRP_INFO_T *start_grp, int target_nc_grpid); NC *nc4_find_nc_file(int ncid, NC_HDF5_FILE_INFO_T**); int nc4_find_dim(NC_GRP_INFO_T *grp, int dimid, NC_DIM_INFO_T **dim, NC_GRP_INFO_T **dim_grp); int nc4_find_var(NC_GRP_INFO_T *grp, const char *name, NC_VAR_INFO_T **var); int nc4_find_dim_len(NC_GRP_INFO_T *grp, int dimid, size_t **len); int nc4_find_type(const NC_HDF5_FILE_INFO_T *h5, int typeid1, NC_TYPE_INFO_T **type); NC_TYPE_INFO_T *nc4_rec_find_nc_type(const NC_GRP_INFO_T *start_grp, nc_type target_nc_typeid); NC_TYPE_INFO_T *nc4_rec_find_hdf_type(NC_GRP_INFO_T *start_grp, hid_t target_hdf_typeid); NC_TYPE_INFO_T *nc4_rec_find_named_type(NC_GRP_INFO_T *start_grp, char *name); NC_TYPE_INFO_T *nc4_rec_find_equal_type(NC_GRP_INFO_T *start_grp, int ncid1, NC_TYPE_INFO_T *type); int nc4_find_nc_att(int ncid, int varid, const char *name, int attnum, NC_ATT_INFO_T **att); int nc4_find_g_var_nc(NC *nc, int ncid, int varid, NC_GRP_INFO_T **grp, NC_VAR_INFO_T **var); int nc4_find_grp_att(NC_GRP_INFO_T *grp, int varid, const char *name, int attnum, NC_ATT_INFO_T **att); int nc4_get_hdf_typeid(NC_HDF5_FILE_INFO_T *h5, nc_type xtype, hid_t *hdf_typeid, int endianness); int nc4_get_typeclass(const NC_HDF5_FILE_INFO_T *h5, nc_type xtype, int *type_class); /* Free various types */ int nc4_type_free(NC_TYPE_INFO_T *type); /* These list functions add and delete vars, atts. */ int nc4_nc4f_list_add(NC *nc, const char *path, int mode); int nc4_var_list_add(NC_VAR_INFO_T **list, NC_VAR_INFO_T **var); int nc4_var_list_del(NC_VAR_INFO_T **list, NC_VAR_INFO_T *var); int nc4_dim_list_add(NC_DIM_INFO_T **list, NC_DIM_INFO_T **dim); int nc4_dim_list_del(NC_DIM_INFO_T **list, NC_DIM_INFO_T *dim); int nc4_att_list_add(NC_ATT_INFO_T **list, NC_ATT_INFO_T **att); int nc4_type_list_add(NC_GRP_INFO_T *grp, size_t size, const char *name, NC_TYPE_INFO_T **type); int nc4_field_list_add(NC_FIELD_INFO_T **list, int fieldid, const char *name, size_t offset, hid_t field_hdf_typeid, hid_t native_typeid, nc_type xtype, int ndims, const int *dim_sizesp); void nc4_file_list_del(NC *nc); int nc4_att_list_del(NC_ATT_INFO_T **list, NC_ATT_INFO_T *att); int nc4_grp_list_add(NC_GRP_INFO_T **list, int new_nc_grpid, NC_GRP_INFO_T *parent_grp, NC *nc, char *name, NC_GRP_INFO_T **grp); int nc4_rec_grp_del(NC_GRP_INFO_T **list, NC_GRP_INFO_T *grp); int nc4_enum_member_add(NC_ENUM_MEMBER_INFO_T **list, size_t size, const char *name, const void *value); /* Break & reform coordinate variables */ int nc4_break_coord_var(NC_GRP_INFO_T *grp, NC_VAR_INFO_T *coord_var, NC_DIM_INFO_T *dim); int nc4_reform_coord_var(NC_GRP_INFO_T *grp, NC_VAR_INFO_T *coord_var, NC_DIM_INFO_T *dim); /* Check and normalize names. */ int NC_check_name(const char *name); int nc4_check_name(const char *name, char *norm_name); int nc4_normalize_name(const char *name, char *norm_name); int nc4_check_dup_name(NC_GRP_INFO_T *grp, char *norm_name); /* HDF5 initialization */ extern int nc4_hdf5_initialized; extern void nc4_hdf5_initialize(void); /* This is only included if --enable-logging is used for configure; it prints info about the metadata to stderr. */ #ifdef LOGGING int log_metadata_nc(NC *nc); #endif /* Define accessors for the dispatchdata */ #define NC4_DATA(nc) ((NC_HDF5_FILE_INFO_T*)(nc)->dispatchdata) #define NC4_DATA_SET(nc,data) ((nc)->dispatchdata = (void*)(data)) /* Reserved Attributes */ extern const char* NC_RESERVED_VARATT_LIST[]; extern const char* NC_RESERVED_ATT_LIST[]; extern const char* NC_RESERVED_SPECIAL_LIST[]; #define NC_ATT_REFERENCE_LIST "REFERENCE_LIST" #define NC_ATT_CLASS "CLASS" #define NC_ATT_DIMENSION_LIST "DIMENSION_LIST" #define NC_ATT_NAME "NAME" #define NC_ATT_COORDINATES COORDINATES /*defined above*/ #define NC_ATT_FORMAT "_Format" /**************************************************/ /** For netcdf4 files, capture state information about the following: 1. Global: netcdf library version 2. Global: hdf5 library version 3. Per file: superblock version 4. Per File: was it created by netcdf-4? 5. Per file: _NCProperties attribute */ #ifdef ENABLE_FILEINFO #define NCPROPS "_NCProperties" #define NCPROPS_VERSION (1) #define NCPROPSSEP '|' #define NCPROPS_LENGTH (8192) /* Currently used properties */ #define NCPVERSION "version" /* Of the properties format */ #define NCPHDF5LIBVERSION "hdf5libversion" #define NCPNCLIBVERSION "netcdflibversion" /* Other hidden attributes */ #define ISNETCDF4ATT "_IsNetcdf4" #define SUPERBLOCKATT "_SuperblockVersion" struct NCFILEINFO { int superblockversion; /* Following is filled from NCPROPS attribute or from global version */ struct NCPROPINFO { int version; /* 0 => not defined */ char hdf5ver[NC_MAX_NAME+1]; char netcdfver[NC_MAX_NAME+1]; char text[NCPROPS_LENGTH+1]; /* Value of the NCPROPS attribute */ } propattr; }; extern struct NCPROPINFO globalpropinfo; extern int NC4_fileinfo_init(void); /*libsrc4/ncinfo.c*/ extern int NC4_get_fileinfo(struct NC_HDF5_FILE_INFO* info, struct NCPROPINFO*); /*libsrc4/ncinfo.c*/ extern int NC4_put_propattr(struct NC_HDF5_FILE_INFO* info); /*libsrc4/ncinfo.c*/ /* ENABLE_FILEINFO => ENABLE_NETCDF4 */ extern int NC4_hdf5get_libversion(unsigned*,unsigned*,unsigned*);/*libsrc4/nc4hdf.c*/ extern int NC4_hdf5get_superblock(struct NC_HDF5_FILE_INFO*, int*);/*libsrc4/nc4hdf.c*/ extern int NC4_isnetcdf4(struct NC_HDF5_FILE_INFO*); /*libsrc4/nc4hdf.c*/ #endif /*ENABLE_FILEINFO*/ #endif /* _NETCDF4_ */