void srfcss_c ( SpiceInt code,
ConstSpiceChar * bodstr,
SpiceInt srflen,
SpiceChar * srfstr,
SpiceBoolean * isname )
Translate a surface ID code, together with a body string, to the
corresponding surface name. If no such surface name exists,
return a string representation of the surface ID code.
DSK
NAIF_IDS
CONVERSION
DSK
ID
NAME
STRING
SURFACE
Variable I/O Description
-------- --- --------------------------------------------------
code I Integer surface ID code to translate to a string.
bodstr I Name or ID of body associated with surface.
srflen I Length of output string `srfstr'.
srfstr O String corresponding to surface ID code.
isname O Flag indicating whether output is a surface name.
SPICE_SRF_SFNMLN
P Maximum length of surface name.
code is an integer ID code for a surface associated with a
specified body.
bodstr is a string designating the body associated with the
input surface ID code. `bodstr' may contain a body name
or a string representation of the body's integer ID
code. For example, `bodstr' may contain
"1000012"
instead of
'67P/CHURYUMOV-GERASIMENKO (1969 R1)'
Case and leading and trailing blanks in a name are not
significant. Sequences of consecutive embedded blanks
are considered equivalent to a single blank. That is,
all of the following strings are equivalent names:
'67P/CHURYUMOV-GERASIMENKO (1969 R1)'
'67P/Churyumov-Gerasimenko (1969 R1)'
'67P/CHURYUMOV-GERASIMENKO (1969 R1) '
'67P/CHURYUMOV-GERASIMENKO (1969 R1)'
' 67P/CHURYUMOV-GERASIMENKO (1969 R1)'
However, '67P/CHURYUMOV-GERASIMENKO(1969R1)'
is not equivalent to the names above.
srflen is the maximum number of characters that can be
accommodated in the output string `srfstr'. This count
includes room for the terminating null character.
Normally `srflen' should be set to the value of the
parameter SPICE_SRF_SFNMLN.
srfstr the name of the surface identified by `code', for the body
designated by `bodstr', if for this body an association
exists between the input surface ID and a surface name.
If `code' has more than one translation, then the most
recently defined surface name corresponding to `code' is
returned. `srfstr' will have the exact format (case and
embedded blanks) used in the definition of the
name/code association.
If the input surface ID code and body name do not map
to a surface name, `srfstr' is set to the string
representation of `code'.
`srfstr' should be declared with length
SPICE_SRF_SFNMLN
(see the Parameters section below).
isname is a logical flag that is SPICETRUE if a surface name
corresponding to the input ID codes was found and
SPICEFALSE otherwise. When `isname' is SPICEFALSE, the
output string `srfstr' contains a string representing the
integer `code'.
SPICE_SRF_SFNMLN
is the maximum length of a surface name. This
parameter is declared in the CSPICE header file
SpiceSrf.h
1) If the input body string cannot be mapped to a body name, the
output `srfstr' is set to a string representation of the surface
ID code. The output `isname' is set to SPICEFALSE.
This case is not treated as an error.
2) If the input surface code cannot be mapped to a surface name,
the output `srfstr' is set to a string representation of the
surface ID code. The input body string is ignored. The output
`isname' is set to SPICEFALSE.
This case is not treated as an error.
3) The error SPICE(NULLPOINTER) is signaled if the input body
string pointer is null.
4) The error SPICE(EMPTYSTRING) is signaled if the input body
string has length zero.
5) The error SPICE(NULLPOINTER) is signaled if the output surface
string pointer is null.
6) The caller must pass a value indicating the length of the output
surface string. If this value is not at least 2, the error
SPICE(STRINGTOOSHORT) is signaled.
Surface name-to-ID mappings may be defined at run time by loading
text kernels containing kernel variable assignments of the form
NAIF_SURFACE_NAME += ( <surface name 1>, ... )
NAIF_SURFACE_CODE += ( <surface code 1>, ... )
NAIF_SURFACE_BODY += ( <body code 1>, ... )
Above, the Ith elements of the lists on the assignments' right
hand sides together define the Ith surface name/ID mapping.
The same effect can be achieved using assignments formatted as
follows:
NAIF_SURFACE_NAME += <surface name 1>
NAIF_SURFACE_CODE += <surface code 1>
NAIF_SURFACE_BODY += <body code 1>
NAIF_SURFACE_NAME += <surface name 2>
NAIF_SURFACE_CODE += <surface code 2>
NAIF_SURFACE_BODY += <body code 2>
...
Note the use of the
+=
operator; this operator appends to rather than overwrites the
kernel variable named on the left hand side of the assignment.
Surfaces are always associated with bodies (which usually are
ephemeris objects). For any given body, a mapping between surface
names and surface ID codes can be established.
Bodies serve to disambiguate surface names and ID codes: the set
of surface names and surface ID codes for a given body can be
thought of as belonging to a name space. A given surface ID code
or surface name may be used for surfaces of multiple bodies,
without conflict.
Associations between surface names and ID codes are always made
via kernel pool assignments; there are no built-in associations.
srfcss_c is one of four related subroutines:
srfs2c_c Surface string and body string to surface ID code
srfscc_c Surface string and body ID code to surface ID code
srfc2s_c Surface ID code and body ID code to surface string
srfcss_c Surface ID code and body string to surface string
srfs2c_c, srfc2s_c, srfscc_c, and srfcss_c perform translations
between surface strings and their corresponding integer ID codes.
Refer to naif_ids.req for details concerning adding new surface
name/code associations at run time by loading text kernels.
The formatting of the results shown for this example may differ
across platforms.
1) Supposed a text kernel has been loaded that contains
the following assignments:
NAIF_SURFACE_NAME += ( 'MGS MOLA 64 pixel/deg',
'MGS MOLA 128 pixel/deg',
'PHOBOS GASKELL Q512' )
NAIF_SURFACE_CODE += ( 1, 2, 1 )
NAIF_SURFACE_BODY += ( 499, 499, 401 )
Translate each surface and body ID code pair to the
associated surface name. Also perform a translation
for a surface ID having no matching name.
Use the meta-kernel shown below to define the required SPICE
kernel variables.
KPL/MK
File: srfcss_ex1.tm
This meta-kernel is intended to support operation of SPICE
example programs. The file contents shown here should not be
assumed to contain adequate or correct versions of data
required by SPICE-based user applications.
\begindata
NAIF_SURFACE_NAME += ( 'MGS MOLA 64 pixel/deg',
'MGS MOLA 128 pixel/deg',
'PHOBOS GASKELL Q512' )
NAIF_SURFACE_CODE += ( 1, 2, 1 )
NAIF_SURFACE_BODY += ( 499, 499, 401 )
\begintext
Example code begins here.
/.
srfcss_c example 1
./
#include <stdio.h>
#include "SpiceUsr.h"
int main()
{
/.
Local constants
./
#define BDNMLN 37
#define NCASE 5
/.
Local variables
./
SpiceBoolean isname;
SpiceChar srfnam [ SPICE_SRF_SFNMLN ];
static SpiceChar tf [2][6] =
{ "false", "true" };
SpiceChar * meta;
static SpiceChar bodstr [NCASE][BDNMLN] =
{ "MARS", "PHOBOS", "499",
"MARS", "ZZZ" };
static SpiceInt surfid [NCASE] =
{ 1, 1, 2, 3, 1 };
SpiceInt i;
meta = "srfcss_ex1.tm";
furnsh_c ( meta );
printf ( "\n" );
for ( i = 0; i < NCASE; i++ )
{
srfcss_c ( surfid[i], bodstr[i], SPICE_SRF_SFNMLN,
srfnam, &isname );
printf ( "surface ID = %d\n"
"body string = %s\n"
"name found = %s\n"
"surface string = %s\n\n",
(int) surfid[i],
bodstr[i],
tf[isname],
srfnam );
}
return ( 0 );
}
When this program was executed on a PC/Linux/gcc/64-bit
platform, the output was:
surface ID = 1
body string = MARS
name found = true
surface string = MGS MOLA 64 pixel/deg
surface ID = 1
body string = PHOBOS
name found = true
surface string = PHOBOS GASKELL Q512
surface ID = 2
body string = 499
name found = true
surface string = MGS MOLA 128 pixel/deg
surface ID = 3
body string = MARS
name found = false
surface string = 3
surface ID = 1
body string = ZZZ
name found = false
surface string = 1
None.
None.
N.J. Bachman (JPL)
B.V. Semenov (JPL)
E.D. Wright (JPL)
-CSPICE Version 1.0.0, 05-APR-2017 (NJB) (BVS) (EDW)
surface ID code and body string to surface string
Link to routine srfcss_c source file srfcss_c.c
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