hdf5/tools/lib/h5tools.h

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/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* Copyright by The HDF Group. *
* Copyright by the Board of Trustees of the University of Illinois. *
* All rights reserved. *
* *
* This file is part of HDF5. The full HDF5 copyright notice, including *
* terms governing use, modification, and redistribution, is contained in *
* the files COPYING and Copyright.html. COPYING can be found at the root *
* of the source code distribution tree; Copyright.html can be found at the *
* root level of an installed copy of the electronic HDF5 document set and *
* is linked from the top-level documents page. It can also be found at *
* http://hdfgroup.org/HDF5/doc/Copyright.html. If you do not have *
* access to either file, you may request a copy from help@hdfgroup.org. *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
/*
* Programmer: Robb Matzke <matzke@llnl.gov>
* Thursday, July 23, 1998
*
* Purpose: Support functions for the various tools.
*/
#ifndef H5TOOLS_H__
#define H5TOOLS_H__
#include "hdf5.h"
#define ESCAPE_HTML 1
#define OPT(X,S) ((X) ? (X) : (S))
#define OPTIONAL_LINE_BREAK "\001" /* Special strings embedded in the output */
#define START_OF_DATA 0x0001
#define END_OF_DATA 0x0002
/*
* The output functions need a temporary buffer to hold a piece of the
* dataset while it's being printed. This constant sets the limit on the
* size of that temporary buffer in bytes. For efficiency's sake, choose the
* largest value suitable for your machine (for testing use a small value).
*/
#if 1
#define H5TOOLS_BUFSIZE (1024 * 1024)
#else
#define H5TOOLS_BUFSIZE (1024)
#endif
/*
* Maximum size used in a call to malloc
*/
#define H5TOOLS_MALLOCSIZE ((size_t)1024 * 1024 * 1024)
/* format for hsize_t */
#define HSIZE_T_FORMAT "%"H5_PRINTF_LL_WIDTH"u"
/*
* Information about how to format output.
*/
typedef struct h5tool_format_t {
/*
* Fields associated with formatting numeric data. If a datatype matches
* multiple formats based on its size, then the first applicable format
* from this list is used. However, if `raw' is non-zero then dump all
* data in hexadecimal format without translating from what appears on
* disk.
*
* raw: If set then print all data as hexadecimal without
* performing any conversion from disk.
*
* fmt_raw: The printf() format for each byte of raw data. The
* default is `%02x'.
*
* fmt_int: The printf() format to use when rendering data which is
* typed `int'. The default is `%d'.
*
* fmt_uint: The printf() format to use when rendering data which is
* typed `unsigned'. The default is `%u'.
*
* fmt_schar: The printf() format to use when rendering data which is
* typed `signed char'. The default is `%d'. This format is
* used ony if the `ascii' field is zero.
*
* fmt_uchar: The printf() format to use when rendering data which is
* typed `unsigned char'. The default is `%u'. This format
* is used only if the `ascii' field is zero.
*
* fmt_short: The printf() format to use when rendering data which is
* typed `short'. The default is `%d'.
*
* fmt_ushort: The printf() format to use when rendering data which is
* typed `unsigned short'. The default is `%u'.
*
* fmt_long: The printf() format to use when rendering data which is
* typed `long'. The default is `%ld'.
*
* fmt_ulong: The printf() format to use when rendering data which is
* typed `unsigned long'. The default is `%lu'.
*
* fmt_llong: The printf() format to use when rendering data which is
* typed `long long'. The default depends on what printf()
* format is available to print this datatype.
*
* fmt_ullong: The printf() format to use when rendering data which is
* typed `unsigned long long'. The default depends on what
* printf() format is available to print this datatype.
*
* fmt_double: The printf() format to use when rendering data which is
* typed `double'. The default is `%g'.
*
* fmt_float: The printf() format to use when rendering data which is
* typed `float'. The default is `%g'.
*
* ascii: If set then print 1-byte integer values as an ASCII
* character (no quotes). If the character is one of the
* standard C escapes then print the escaped version. If
* the character is unprintable then print a 3-digit octal
* escape. If `ascii' is zero then then 1-byte integers are
* printed as numeric values. The default is zero.
*
* str_locale: Determines how strings are printed. If zero then strings
* are printed like in C except. If set to ESCAPE_HTML then
* strings are printed using HTML encoding where each
* character not in the class [a-zA-Z0-9] is substituted
* with `%XX' where `X' is a hexadecimal digit.
*
* str_repeat: If set to non-zero then any character value repeated N
* or more times is printed as 'C'*N
*
* Numeric data is also subject to the formats for individual elements.
*/
hbool_t raw;
const char *fmt_raw;
const char *fmt_int;
const char *fmt_uint;
const char *fmt_schar;
const char *fmt_uchar;
const char *fmt_short;
const char *fmt_ushort;
const char *fmt_long;
const char *fmt_ulong;
const char *fmt_llong;
const char *fmt_ullong;
const char *fmt_double;
const char *fmt_float;
int ascii;
int str_locale;
int str_repeat;
/*
* Fields associated with compound array members.
*
* pre: A string to print at the beginning of each array. The
* default value is the left square bracket `['.
*
* sep: A string to print between array values. The default
* value is a ",\001" ("\001" indicates an optional line
* break).
*
* suf: A string to print at the end of each array. The default
* value is a right square bracket `]'.
*
* linebreaks: a boolean value to determine if we want to break the line
* after each row of an array.
*/
const char *arr_pre;
const char *arr_sep;
const char *arr_suf;
int arr_linebreak;
/*
* Fields associated with compound data types.
*
* name: How the name of the struct member is printed in the
* values. By default the name is not printed, but a
* reasonable setting might be "%s=" which prints the name
* followed by an equal sign and then the value.
*
* sep: A string that separates one member from another. The
* default is ", \001" (the \001 indicates an optional
* line break to allow structs to span multiple lines of
* output).
*
* pre: A string to print at the beginning of a compound type.
* The default is a left curly brace.
*
* suf: A string to print at the end of each compound type. The
* default is right curly brace.
*
* end: a string to print after we reach the last element of
* each compound type. prints out before the suf.
*/
const char *cmpd_name;
const char *cmpd_sep;
const char *cmpd_pre;
const char *cmpd_suf;
const char *cmpd_end;
/*
* Fields associated with vlen data types.
*
* sep: A string that separates one member from another. The
* default is ", \001" (the \001 indicates an optional
* line break to allow structs to span multiple lines of
* output).
*
* pre: A string to print at the beginning of a vlen type.
* The default is a left parentheses.
*
* suf: A string to print at the end of each vlen type. The
* default is a right parentheses.
*
* end: a string to print after we reach the last element of
* each compound type. prints out before the suf.
*/
const char *vlen_sep;
const char *vlen_pre;
const char *vlen_suf;
const char *vlen_end;
/*
* Fields associated with the individual elements.
*
* fmt: A printf(3c) format to use to print the value string
* after it has been rendered. The default is "%s".
*
* suf1: This string is appended to elements which are followed by
* another element whether the following element is on the
* same line or the next line. The default is a comma.
*
* suf2: This string is appended (after `suf1') to elements which
* are followed on the same line by another element. The
* default is a single space.
*/
const char *elmt_fmt;
const char *elmt_suf1;
const char *elmt_suf2;
/*
* Fields associated with the index values printed at the left edge of
* each line of output.
*
* n_fmt: Each index value is printed according to this printf(3c)
* format string which should include a format for a long
* integer. The default is "%lu".
*
* sep: Each integer in the index list will be separated from the
* others by this string, which defaults to a comma.
*
* fmt: After the index values are formated individually and
* separated from one another by some string, the entire
* resulting string will be formated according to this
* printf(3c) format which should include a format for a
* character string. The default is "%s".
*/
const char *idx_n_fmt; /*index number format */
const char *idx_sep; /*separator between numbers */
const char *idx_fmt; /*entire index format */
/*
* Fields associated with entire lines.
*
* ncols: Number of columns per line defaults to 80.
*
* per_line: If this field has a positive value then every Nth element
* will be printed at the beginning of a line.
*
* pre: Each line of output contains an optional prefix area
* before the data. This area can contain the index for the
* first datum (represented by `%s') as well as other
* constant text. The default value is `%s'.
*
* 1st: This is the format to print at the beginning of the first
* line of output. The default value is the current value of
* `pre' described above.
*
* cont: This is the format to print at the beginning of each line
* which was continued because the line was split onto
* multiple lines. This often happens with compound
* data which is longer than one line of output. The default
* value is the current value of the `pre' field
* described above.
*
* suf: This character string will be appended to each line of
* output. It should not contain line feeds. The default
* is the empty string.
*
* sep: A character string to be printed after every line feed
* defaulting to the empty string. It should end with a
* line feed.
*
* multi_new: Indicates the algorithm to use when data elements tend to
* occupy more than one line of output. The possible values
* are (zero is the default):
*
* 0: No consideration. Each new element is printed
* beginning where the previous element ended.
*
* 1: Print the current element beginning where the
* previous element left off. But if that would result
* in the element occupying more than one line and it
* would only occupy one line if it started at the
* beginning of a line, then it is printed at the
* beginning of the next line.
*
* multi_new: If an element is continued onto additional lines then
* should the following element begin on the next line? The
* default is to start the next element on the same line
* unless it wouldn't fit.
*
* indentlevel: a string that shows how far to indent if extra spacing
* is needed. dumper uses it.
*/
int line_ncols; /*columns of output */
size_t line_per_line; /*max elements per line */
const char *line_pre; /*prefix at front of each line */
const char *line_1st; /*alternate pre. on first line */
const char *line_cont; /*alternate pre. on continuation*/
const char *line_suf; /*string to append to each line */
const char *line_sep; /*separates lines */
int line_multi_new; /*split multi-line outputs? */
const char *line_indent; /*for extra identation if we need it*/
/*used to skip the first set of checks for line length*/
int skip_first;
/*flag used to hide or show the file number for obj refs*/
int obj_hidefileno;
/*string used to format the output for the obje refs*/
const char *obj_format;
/*flag used to hide or show the file number for dataset regions*/
int dset_hidefileno;
/*string used to format the output for the dataset regions*/
const char *dset_format;
const char *dset_blockformat_pre;
const char *dset_ptformat_pre;
const char *dset_ptformat;
/*print array indices in output matrix */
int pindex;
/*escape non printable characters */
int do_escape;
} h5tool_format_t;
typedef struct h5tools_context_t {
size_t cur_column; /*current column for output */
size_t cur_elmt; /*current element/output line */
int need_prefix; /*is line prefix needed? */
int ndims; /*dimensionality */
hsize_t p_min_idx[H5S_MAX_RANK]; /*min selected index */
hsize_t p_max_idx[H5S_MAX_RANK]; /*max selected index */
int prev_multiline; /*was prev datum multiline? */
size_t prev_prefix_len; /*length of previous prefix */
int continuation; /*continuation of previous data?*/
hsize_t size_last_dim; /*the size of the last dimension,
*needed so we can break after each
*row */
int indent_level; /*the number of times we need some
*extra indentation */
int default_indent_level; /*this is used when the indent level gets changed */
hsize_t acc[H5S_MAX_RANK]; /* accumulator position */
hsize_t pos[H5S_MAX_RANK]; /* matrix position */
hsize_t sm_pos; /* current stripmine element position */
} h5tools_context_t;
/* a structure to hold the subsetting particulars for a dataset */
struct subset_t {
hsize_t *start;
hsize_t *stride;
hsize_t *count;
hsize_t *block;
};
extern FILE *rawdatastream; /* output stream for raw data */
extern int bin_output; /* binary output */
extern int bin_form; /* binary form */
/* Strings for output */
#define GROUP "GROUP"
#define DATASET "DATASET"
#define DATATYPE "DATATYPE"
/* Definitions of useful routines */
extern void h5tools_init(void);
extern void h5tools_close(void);
extern hid_t h5tools_fopen(const char *fname, unsigned flags, hid_t fapl,
const char *driver, char *drivername, size_t drivername_len);
extern int h5tools_dump_dset(FILE *stream, const h5tool_format_t *info, hid_t dset,
hid_t p_typ, struct subset_t *sset, int indentlevel);
extern int h5tools_dump_mem(FILE *stream, const h5tool_format_t *info, hid_t obj_id,
hid_t type, hid_t space, void *mem, int indentlevel);
extern hid_t h5tools_get_native_type(hid_t type);
extern hid_t h5tools_get_little_endian_type(hid_t type);
extern hid_t h5tools_get_big_endian_type(hid_t type);
extern void h5tools_dump_simple_data(FILE *stream, const h5tool_format_t *info, hid_t container,
h5tools_context_t *ctx/*in,out*/, unsigned flags,
hsize_t nelmts, hid_t type, void *_mem);
extern int h5tools_canreadf(const char* name,
hid_t dcpl_id);
extern int h5tools_can_encode(H5Z_filter_t filtn);
void init_acc_pos(h5tools_context_t *ctx, hsize_t *dims);
#endif /* H5TOOLS_H__ */