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Utilities

Utilities

Functions

void gsf_init ()
void gsf_shutdown ()
void gsf_init_dynamic ()
void gsf_shutdown_dynamic ()
#define GSF_CLASS()
#define GSF_CLASS_FULL()
#define GSF_CLASS_ABSTRACT()
#define GSF_INTERFACE()
#define GSF_INTERFACE_FULL()
#define GSF_DYNAMIC_CLASS()
#define GSF_DYNAMIC_CLASS_FULL()
#define GSF_DYNAMIC_CLASS_ABSTRACT()
#define GSF_DYNAMIC_INTERFACE()
#define GSF_DYNAMIC_INTERFACE_FULL()
GQuark gsf_error_quark ()
void gsf_mem_dump ()
void gsf_input_dump ()
gboolean gsf_debug_flag ()
char * gsf_filename_to_utf8 ()
void gsf_iconv_close ()
char const * gsf_extension_pointer ()
guint8 * gsf_base64_encode_simple ()
size_t gsf_base64_encode_close ()
size_t gsf_base64_encode_step ()
size_t gsf_base64_decode_simple ()
size_t gsf_base64_decode_step ()
#define GSF_LE_GET_GINT8()
#define GSF_LE_GET_GUINT64()
#define GSF_LE_GET_GINT16()
#define GSF_LE_GET_GUINT8()
#define GSF_LE_GET_GINT32()
#define GSF_LE_GET_GUINT16()
#define GSF_LE_GET_GUINT32()
#define GSF_LE_GET_GINT64()
guint64 gsf_le_get_guint64 ()
#define GSF_LE_GET_FLOAT()
float gsf_le_get_float ()
#define GSF_LE_GET_DOUBLE()
double gsf_le_get_double ()
#define GSF_LE_SET_GUINT8()
#define GSF_LE_SET_GUINT16()
#define GSF_LE_SET_GUINT32()
#define GSF_LE_SET_GINT8()
#define GSF_LE_SET_GINT16()
#define GSF_LE_SET_GINT32()
#define GSF_LE_SET_GINT64()
#define GSF_LE_SET_GUINT64()
#define GSF_LE_SET_FLOAT()
#define GSF_LE_SET_DOUBLE()
void gsf_le_set_float ()
void gsf_le_set_double ()
GsfTimestamp * gsf_timestamp_new ()
void gsf_timestamp_set_time ()
GsfTimestamp * gsf_timestamp_copy ()
void gsf_timestamp_free ()
char * gsf_timestamp_as_string ()
int gsf_timestamp_load_from_string ()
int gsf_timestamp_from_string ()
guint gsf_timestamp_hash ()
gboolean gsf_timestamp_equal ()
void gsf_timestamp_to_value ()
void gsf_value_set_timestamp ()
#define VAL_IS_GSF_TIMESTAMP()
int gsf_timestamp_parse ()
GValue * gsf_doc_prop_swap_val ()
void gsf_property_settings_collect ()
void gsf_property_settings_collect_valist ()
void gsf_property_settings_free ()

Types and Values

Object Hierarchy

    GBoxed
    ╰── GsfTimestamp

Description

Functions

gsf_init ()

void
gsf_init (void);

Initializes the GSF library


gsf_shutdown ()

void
gsf_shutdown (void);

De-intializes the GSF library Currently does nothing.


gsf_init_dynamic ()

void
gsf_init_dynamic (GTypeModule *module);

Initializes the GSF library and associates it with a type module mod .

Parameters

module

GTypeModule.

 

gsf_shutdown_dynamic ()

void
gsf_shutdown_dynamic (GTypeModule *module);

De-intializes the GSF library from a type module. Currently does nothing.

Parameters

module

currently unused

 

GSF_CLASS()

#define             GSF_CLASS(name, prefix, class_init, instance_init, parent)

Set up a GSF class.

Parameters

name

Name of the class.

 

prefix

Symbol prefix designating the namespace to be used for implementing the class.

 

class_init

Initialisation function of type GClassInitFunc for the class.

 

instance_init

Initialisation function of type GInstanceInitFunc for an instance of the class.

 

parent

Parent class to this class.

 

GSF_CLASS_FULL()

#define             GSF_CLASS_FULL(name, prefix, base_init, base_finalize, \
            		       class_init, class_finalize, instance_init, parent_type, \
            		       abstract, interface_decl)

GSF_CLASS_ABSTRACT()

#define             GSF_CLASS_ABSTRACT(name, prefix, class_init, instance_init, parent)

GSF_INTERFACE()

#define             GSF_INTERFACE(init_func, iface_type)

GSF_INTERFACE_FULL()

#define             GSF_INTERFACE_FULL(type, init_func, iface_type)

GSF_DYNAMIC_CLASS()

#define             GSF_DYNAMIC_CLASS(name, prefix, class_init, instance_init, parent)

GSF_DYNAMIC_CLASS_FULL()

#define             GSF_DYNAMIC_CLASS_FULL(name, prefix, base_init, base_finalize, \
            				   class_init,  class_finalize, instance_init, parent_type, \
            			       abstract, interface_decl)

GSF_DYNAMIC_CLASS_ABSTRACT()

#define             GSF_DYNAMIC_CLASS_ABSTRACT(name, prefix, class_init, instance_init, parent)

GSF_DYNAMIC_INTERFACE()

#define             GSF_DYNAMIC_INTERFACE(init_func, iface_type, module)

GSF_DYNAMIC_INTERFACE_FULL()

#define             GSF_DYNAMIC_INTERFACE_FULL(type, init_func, iface_type, module)

gsf_error_quark ()

GQuark
gsf_error_quark (void);

Returns

the GQuark used to identify libgsf errors in GError structures. Specific error codes come from the GsfError enumeration.


gsf_mem_dump ()

void
gsf_mem_dump (guint8 const *ptr,
              size_t len);

Dump len bytes from the memory location given by ptr .

Parameters

ptr

memory area to be dumped.

 

len

how many bytes will be dumped.

 

gsf_input_dump ()

void
gsf_input_dump (GsfInput *input,
                gboolean dump_as_hex);

Dumps input 's contents to STDOUT, optionally in hex format.

Parameters

input

a GsfInput

 

dump_as_hex

If TRUE, dump in hexidecmal format

 

gsf_debug_flag ()

gboolean
gsf_debug_flag (const char *flag);

gsf_filename_to_utf8 ()

char *
gsf_filename_to_utf8 (char const *filename,
                      gboolean quoted);

A utility wrapper to make sure filenames are valid utf8. Caller must g_free the result.

Parameters

filename

file name suitable for open(2).

 

quoted

if TRUE, the resulting utf8 file name will be quoted (unless it is invalid).

 

Returns

filename using utf-8 encoding for display


gsf_iconv_close ()

void
gsf_iconv_close (GIConv handle);

A utility wrapper to safely close an iconv handle.

Parameters

handle

handle to be closed.

 

gsf_extension_pointer ()

char const *
gsf_extension_pointer (char const *path);

Extracts the extension from the end of a filename (the part after the final '.' in the filename).

Parameters

path

A filename or file path.

 

Returns

A pointer to the extension part of the filename, or a pointer to the end of the string if the filename does not have an extension.

[transfer none]


gsf_base64_encode_simple ()

guint8 *
gsf_base64_encode_simple (guint8 const *data,
                          size_t len);

Encodes data from data back into data using base64 encoding.

Parameters

data

data stream.

[array]

len

max length of data to encode

 

Returns

the number of bytes encoded


gsf_base64_encode_close ()

size_t
gsf_base64_encode_close (guint8 const *in,
                         size_t inlen,
                         gboolean break_lines,
                         guint8 *out,
                         int *state,
                         guint *save);

This funcion should be called to when finished encoding everything, to flush off the last little bit.

Parameters

in

Data to be encoded.

[array length=inlen]

inlen

Length of data to be encoded

 

break_lines

Whether to use line breaks

 

out

Encoded data.

[array]

state

holds the number of bits that are stored in save .

[inout]

save

leftover bits that have not yet been decoded.

[inout]

Returns

a count of the number of bytes in the final block.


gsf_base64_encode_step ()

size_t
gsf_base64_encode_step (guint8 const *in,
                        size_t len,
                        gboolean break_lines,
                        guint8 *out,
                        int *state,
                        guint *save);

Performs an 'encode step', only encodes blocks of 3 characters from in into the output out at a time, saves left-over state in state and save (initialise to 0 on first invocation).

Parameters

in

input stream.

[array]

len

max length of data to decode

 

break_lines

Whether to use line breaks

 

out

output stream.

[array]

state

holds the number of bits that are stored in save .

[inout]

save

leftover bits that have not yet been decoded.

[inout]

Returns

the number of bytes encoded


gsf_base64_decode_simple ()

size_t
gsf_base64_decode_simple (guint8 *data,
                          size_t len);

Decodes a chunk of base64 encoded data from data back into data .

Parameters

data

data stream.

[array]

len

max length of data to decode

 

Returns

the number of bytes converted


gsf_base64_decode_step ()

size_t
gsf_base64_decode_step (guint8 const *in,
                        size_t len,
                        guint8 *out,
                        int *state,
                        guint *save);

Decodes a chunk of base64 encoded data

Parameters

in

input stream.

[array]

len

max length of data to decode

 

out

output stream.

[array]

state

holds the number of bits that are stored in save .

[inout]

save

leftover bits that have not yet been decoded.

[inout]

Returns

the number of bytes converted


GSF_LE_GET_GINT8()

#define GSF_LE_GET_GINT8(p) ((gint8)GSF_LE_GET_GUINT8(p))

Interpret binary data as a signed 8-bit integer in little endian order.

Parameters

p

pointer to storage

 

Returns

interpreted data


GSF_LE_GET_GUINT64()

#define GSF_LE_GET_GUINT64(p) (gsf_le_get_guint64 (p))

Interpret binary data as an unsigned 64-bit integer in little endian order.

Parameters

p

pointer to storage

 

Returns

interpreted data


GSF_LE_GET_GINT16()

#define GSF_LE_GET_GINT16(p) ((gint16)GSF_LE_GET_GUINT16(p))

Interpret binary data as a signed 16-bit integer in little endian order.

Parameters

p

pointer to storage

 

Returns

interpreted data


GSF_LE_GET_GUINT8()

#define GSF_LE_GET_GUINT8(p) (*(guint8 const *)(p))

Interpret binary data as an unsigned 8-bit integer in little endian order.

Parameters

p

pointer to storage

 

Returns

interpreted data


GSF_LE_GET_GINT32()

#define GSF_LE_GET_GINT32(p) ((gint32)GSF_LE_GET_GUINT32(p))

Interpret binary data as a signed 32-bit integer in little endian order.

Parameters

p

pointer to storage

 

Returns

interpreted data


GSF_LE_GET_GUINT16()

#define             GSF_LE_GET_GUINT16(p)

Interpret binary data as an unsigned 16-bit integer in little endian order.

Parameters

p

pointer to storage

 

Returns

interpreted data


GSF_LE_GET_GUINT32()

#define             GSF_LE_GET_GUINT32(p)

Interpret binary data as an unsigned 32-bit integer in little endian order.

Parameters

p

pointer to storage

 

Returns

interpreted data


GSF_LE_GET_GINT64()

#define GSF_LE_GET_GINT64(p) ((gint64)GSF_LE_GET_GUINT64(p))

Interpret binary data as a signed 64-bit integer in little endian order.

Parameters

p

pointer to storage

 

Returns

interpreted data


gsf_le_get_guint64 ()

guint64
gsf_le_get_guint64 (void const *p);

Interpret binary data as a guint64 (8 byte unsigned integer type) in little endian order.

Parameters

p

pointer to storage

 

Returns

interpreted data


GSF_LE_GET_FLOAT()

#define GSF_LE_GET_FLOAT(p) (gsf_le_get_float (p))

Interpret binary data as a float in little endian order.

Parameters

p

pointer to storage

 

Returns

interpreted data


gsf_le_get_float ()

float
gsf_le_get_float (void const *p);

Interpret binary data as a float in little endian order.

Parameters

p

pointer to storage

 

Returns

interpreted data


GSF_LE_GET_DOUBLE()

#define GSF_LE_GET_DOUBLE(p) (gsf_le_get_double (p))

Interpret binary data as a double in little endian order.

Parameters

p

pointer to storage

 

Returns

interpreted data


gsf_le_get_double ()

double
gsf_le_get_double (void const *p);

Interpret binary data as a double in little endian order.

Parameters

p

pointer to storage

 

Returns

interpreted data


GSF_LE_SET_GUINT8()

#define             GSF_LE_SET_GUINT8(p, dat)

Store dat in little endian order in memory pointed to by p .

Parameters

p

pointer to storage

 

dat

8-bit unsigned integer

 

GSF_LE_SET_GUINT16()

#define             GSF_LE_SET_GUINT16(p, dat)

Store dat in little endian order in memory pointed to by p .

Parameters

p

pointer to storage

 

dat

16-bit unsigned integer

 

GSF_LE_SET_GUINT32()

#define             GSF_LE_SET_GUINT32(p, dat)

Store dat in little endian order in memory pointed to by p .

Parameters

p

pointer to storage

 

dat

32-bit unsigned integer

 

GSF_LE_SET_GINT8()

#define GSF_LE_SET_GINT8(p,dat) GSF_LE_SET_GUINT8((p),(dat))

Store dat in little endian order in memory pointed to by p .

Parameters

p

pointer to storage

 

dat

8-bit signed integer

 

GSF_LE_SET_GINT16()

#define GSF_LE_SET_GINT16(p,dat) GSF_LE_SET_GUINT16((p),(dat))

Store dat in little endian order in memory pointed to by p .

Parameters

p

pointer to storage

 

dat

16-bit signed integer

 

GSF_LE_SET_GINT32()

#define GSF_LE_SET_GINT32(p,dat) GSF_LE_SET_GUINT32((p),(dat))

Store dat in little endian order in memory pointed to by p .

Parameters

p

pointer to storage

 

dat

32-bit signed integer

 

GSF_LE_SET_GINT64()

#define GSF_LE_SET_GINT64(p,dat) GSF_LE_SET_GUINT64((p),(dat))

Store dat in little endian order in memory pointed to by p .

Parameters

p

pointer to storage

 

dat

64-bit signed integer

 

GSF_LE_SET_GUINT64()

#define             GSF_LE_SET_GUINT64(p, dat)

Store dat in little endian order in memory pointed to by p .

Parameters

p

pointer to storage

 

dat

64-bit unsigned integer

 

GSF_LE_SET_FLOAT()

#define GSF_LE_SET_FLOAT(p,dat) gsf_le_set_float((p),(dat))

Store dat in little endian order in memory pointed to by p .

Parameters

p

pointer to storage

 

dat

float to be stored

 

GSF_LE_SET_DOUBLE()

#define GSF_LE_SET_DOUBLE(p,dat) gsf_le_set_double((p),(dat))

Store dat in little endian order in memory pointed to by p .

Parameters

p

pointer to storage

 

dat

double to be stored

 

gsf_le_set_float ()

void
gsf_le_set_float (void *p,
                  float f);

Store a value of type float in memory in little endian order.

Parameters

p

pointer to storage

 

f

float to be stored

 

gsf_le_set_double ()

void
gsf_le_set_double (void *p,
                   double d);

Store a value of type double in memory in little endian order

Parameters

p

pointer to storage

 

d

double to be stored

 

gsf_timestamp_new ()

GsfTimestamp *
gsf_timestamp_new (void);

gsf_timestamp_set_time ()

void
gsf_timestamp_set_time (GsfTimestamp *stamp,
                        guint64 t);

gsf_timestamp_copy ()

GsfTimestamp *
gsf_timestamp_copy (GsfTimestamp const *stamp);

Copies a timestamp.

Parameters

stamp

timestamp to be copied

 

Returns

a separate copy of stamp .


gsf_timestamp_free ()

void
gsf_timestamp_free (GsfTimestamp *stamp);

Releases the memory in use for stamp (if any).

Parameters

stamp

timestamp to be freed

 

gsf_timestamp_as_string ()

char *
gsf_timestamp_as_string (GsfTimestamp const *stamp);

Produce a string representation (ISO 8601 format) of stamp .

Parameters

stamp

timestamp to be converted.

 

Returns

a string representation of stamp . When stamp is invalid, the representation is "<invalid>".


gsf_timestamp_load_from_string ()

int
gsf_timestamp_load_from_string (GsfTimestamp *stamp,
                                char const *spec);

Parser for time stamps. Requires a ISO 8601 formatted string.

Parameters

stamp

GsfTimestamp

 

spec

The string to parse

 

Returns

TRUE on success

Since: 1.14.24


gsf_timestamp_from_string ()

int
gsf_timestamp_from_string (char const *spec,
                           GsfTimestamp *stamp);

gsf_timestamp_from_string has been deprecated since version 1.14.24 and should not be used in newly-written code.

, use gsf_timestamp_load_from_string

Parser for time stamps. Requires a ISO 8601 formatted string.

[skip]

Parameters

spec

The string to parse

 

stamp

GsfTimestamp

 

Returns

TRUE on success


gsf_timestamp_hash ()

guint
gsf_timestamp_hash (GsfTimestamp const *stamp);

gsf_timestamp_equal ()

gboolean
gsf_timestamp_equal (GsfTimestamp const *a,
                     GsfTimestamp const *b);

Compare timestamps a and b .

Parameters

a

a timestamp

 

b

another timestamp

 

Returns

true if a and b represent the same point in time; false otherwise.


gsf_timestamp_to_value ()

void
gsf_timestamp_to_value (GsfTimestamp const *stamp,
                        GValue *value);

Calls g_value_set_box (value, stamp);

Parameters

stamp

GsfTimestamp

 

value

GValue

 

Since: 1.14.24


gsf_value_set_timestamp ()

void
gsf_value_set_timestamp (GValue *value,
                         GsfTimestamp const *stamp);

gsf_value_set_timestamp has been deprecated since version 1.14.24 and should not be used in newly-written code.

, use gsf_timestamp_to_value.

[skip]

Parameters

value

GValue

 

stamp

GsfTimestamp

 

VAL_IS_GSF_TIMESTAMP()

#define VAL_IS_GSF_TIMESTAMP(v) (G_TYPE_CHECK_VALUE_TYPE((v), GSF_TIMESTAMP_TYPE))

gsf_timestamp_parse ()

int
gsf_timestamp_parse (char const *spec,
                     GsfTimestamp *stamp);

gsf_timestamp_parse is deprecated and should not be used in newly-written code.

Use gsf_timestamp_load_from_string

Parser for time stamps. Requires a ISO 8601 formatted string.

[skip]

Parameters

spec

The string to parse

 

stamp

GsfTimestamp

 

Returns

TRUE on success


gsf_doc_prop_swap_val ()

GValue *
gsf_doc_prop_swap_val (GsfDocProp *prop,
                       GValue *val);

Parameters

prop

GsfDocProp

 

val

GValue.

[transfer full]

Returns

the current value of prop , and replaces it with val .

[transfer full]


gsf_property_settings_collect ()

void
gsf_property_settings_collect (GType object_type,
                               GParameter **p_params,
                               size_t *p_n_params,
                               const gchar *first_property_name,
                               ...);

gsf_property_settings_collect is deprecated and should not be used in newly-written code.


gsf_property_settings_collect_valist ()

void
gsf_property_settings_collect_valist (GType object_type,
                                      GParameter **p_params,
                                      size_t *p_n_params,
                                      const gchar *first_property_name,
                                      va_list var_args);

gsf_property_settings_collect_valist is deprecated and should not be used in newly-written code.

This function builds a GParameter array suitable for g_object_newv.

Parameters

object_type

the GType for which the properties are being set.

 

p_n_params

a pointer to the number of properties collected. (Used for both input and output.)

 

p_params

a pointer to the GParameter array that holds the properties. (Used for both input and output. This may point to a NULL pointer if there are no properties collected yet.)

 

first_property_name

the name of the first property being set, or NULL.

 

var_args

a va_list holding the remainder of the property names and values, terminated by a NULL.

 

gsf_property_settings_free ()

void
gsf_property_settings_free (GParameter *params,
                            size_t n_params);

gsf_property_settings_free is deprecated and should not be used in newly-written code.

Parameters

params

.

[array length=n_params][transfer full]

Types and Values

libgsf_major_version

extern int libgsf_major_version;

Major version number of libgsf, indicating the ABI version.


libgsf_minor_version

extern int libgsf_minor_version;

Minor (secondary) version number of libgsf, indicating the API version.


libgsf_micro_version

extern int libgsf_micro_version;

Micro (tertiary) version number of libgsf, indicating bug fixes.


GSF_PARAM_STATIC

#define GSF_PARAM_STATIC G_PARAM_STATIC_STRINGS

GSF_ERROR

#define GSF_ERROR (gsf_error_quark ())

enum GsfError

Members

GSF_ERROR_OUT_OF_MEMORY

Memory allocation failed

 

GSF_ERROR_INVALID_DATA

Invalid data encountered (e.g. not enough data)

 

GSF_OFF_T_FORMAT

#define GSF_OFF_T_FORMAT G_GINT64_FORMAT

The printf(3) conversion specifier to be used for printing values of type gsf_off_t.


gsf_off_t

typedef gint64 gsf_off_t;

Data type to represent offsets (positions) within a data stream.

FIXME: gsf_off_t is really supposed to be the widest type off_t can be configured to on the platform


GsfTimestamp

typedef struct {
	GDate	  date;			/* In local timezone */
	glong     seconds;		/* time of day */
	GString	  time_zone;		/* possibly blank */

	guint32	  timet;
} GsfTimestamp;

A point in time.

Members

GDate date;

GDate in local timezone

 

glong seconds;

glong number of seconds since date .

 

GString time_zone;

possibly blank GString of the timezone

 

guint32 timet;

as from g_date_time_to_unix.

 
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