/**
* Return a log-string representing the <em>complete</em> user-input.
* <em>NOTE:</em> we only record user-variables that have been set
* by the user.
*/
CHAR *
XLALUserVarGetLog ( UserVarLogFormat format /**< output format: return as config-file or command-line */
)
{
XLAL_CHECK_NULL ( UVAR_vars.next != NULL, XLAL_EINVAL, "No UVAR memory allocated. Did you register any user-variables?" );
XLAL_CHECK_NULL ( format < UVAR_LOGFMT_LAST, XLAL_EINVAL );
CHAR *record = NULL;
if ( format == UVAR_LOGFMT_CMDLINE ) {
XLAL_CHECK_NULL ( (record = XLALStringAppend ( record, program_name)) != NULL, XLAL_EFUNC );
}
LALUserVariable *ptr = &UVAR_vars;
while ( (ptr = ptr->next) )
{
if ( ! ptr->was_set ) { // skip unset variables
continue;
}
CHAR *valstr;
XLAL_CHECK_NULL ( (valstr = UserVarTypeMap [ ptr->type ].printer( ptr->varp )) != NULL, XLAL_EFUNC );
char append[256];
switch (format)
{
case UVAR_LOGFMT_CFGFILE:
snprintf (append, sizeof(append), "%s = %s;\n", ptr->name, valstr);
break;
case UVAR_LOGFMT_CMDLINE:
snprintf (append, sizeof(append), " --%s=%s", ptr->name, valstr);
break;
case UVAR_LOGFMT_PROCPARAMS:
snprintf (append, sizeof(append), "--%s = %s :%s;", ptr->name, valstr, UserVarTypeMap[ptr->type].name );
break;
default:
XLAL_ERROR_NULL ( XLAL_EINVAL, "Unknown format for recording user-input: '%i'\n", format );
break;
} // switch (format)
XLAL_LAST_ELEM(append) = 0;
XLAL_CHECK_NULL ( (record = XLALStringAppend (record, append)) != NULL, XLAL_EFUNC );
XLALFree (valstr);
} // while ptr=ptr->next
return record;
} // XLALUserVarGetLog()
/**
* \brief Chops and remerges data into stationary segments
*
* This function finds segments of data that appear to be stationary (have the same standard deviation).
*
* The function first attempts to chop up the data into as many stationary segments as possible. The splitting may not
* be optimal, so it then tries remerging consecutive segments to see if the merged segments show more evidence of
* stationarity. <b>[NOTE: Remerging is currently turned off and will make very little difference to the algorithm]</b>.
* It then, if necessary, chops the segments again to make sure there are none greater than the required \c chunkMax.
* The default \c chunkMax is 0, so this rechopping will not normally happen.
*
* This is all performed on data that has had a running median subtracted, to try and removed any underlying trends in
* the data (e.g. those caused by a strong signal), which might affect the calculations (which assume the data is
* Gaussian with zero mean).
*
* If the \c verbose flag is set then a list of the segments will be output to a file called \c data_segment_list.txt,
* with a prefix of the detector name.
*
* \param data [in] A data structure
* \param chunkMin [in] The minimum length of a segment
* \param chunkMax [in] The maximum length of a segment
*
* \return A vector of segment/chunk lengths
*
* \sa subtract_running_median
* \sa chop_data
* \sa merge_data
* \sa rechop_data
*/
UINT4Vector *chop_n_merge( LALInferenceIFOData *data, INT4 chunkMin, INT4 chunkMax ){
UINT4 j = 0;
UINT4Vector *chunkLengths = NULL;
UINT4Vector *chunkIndex = NULL;
COMPLEX16Vector *meddata = NULL;
/* subtract a running median value from the data to remove any underlying trends (e.g. caused by a string signal) that
* might affect the chunk calculations (which can assume the data is Gaussian with zero mean). */
meddata = subtract_running_median( data->compTimeData->data );
/* pass chop data a gsl_vector_view, so that internally it can use vector views rather than having to create new vectors */
gsl_vector_complex_view meddatagsl = gsl_vector_complex_view_array((double*)meddata->data, meddata->length);
chunkIndex = chop_data( &meddatagsl.vector, chunkMin );
/* DON'T BOTHER WITH THE MERGING AS IT WILL MAKE VERY LITTLE DIFFERENCE */
/* merge_data( meddata, chunkIndex ); */
/* if a maximum chunk length is defined then rechop up the data, to segment any chunks longer than this value */
if ( chunkMax > chunkMin ) { rechop_data( chunkIndex, chunkMax, chunkMin ); }
chunkLengths = XLALCreateUINT4Vector( chunkIndex->length );
/* go through segments and turn into vector of chunk lengths */
for ( j = 0; j < chunkIndex->length; j++ ){
if ( j == 0 ) { chunkLengths->data[j] = chunkIndex->data[j]; }
else { chunkLengths->data[j] = chunkIndex->data[j] - chunkIndex->data[j-1]; }
}
/* if verbose print out the segment end indices to a file */
if ( verbose_output ){
FILE *fpsegs = NULL;
CHAR *outfile = NULL;
/* set detector name as prefix */
outfile = XLALStringDuplicate( data->detector->frDetector.prefix );
outfile = XLALStringAppend( outfile, "data_segment_list.txt" );
if ( (fpsegs = fopen(outfile, "w")) == NULL ){
fprintf(stderr, "Non-fatal error open file to output segment list.\n");
return chunkLengths;
}
for ( j = 0; j < chunkIndex->length; j++ ) { fprintf(fpsegs, "%u\n", chunkIndex->data[j]); }
/* add space at the end so that you can separate lists from different detector data streams */
fprintf(fpsegs, "\n");
fclose( fpsegs );
}
return chunkLengths;
}
/**
* \brief Remove a variable from the current parameters and remove it's scaling and prior values
*
* This function will clear out a variable from the \c currentParams and also remove it's scale
* factors and prior ranges.
*
* \param runState [in] The analysis information structure
* \param ifo [in] The IFO data structure
* \param var [in] The variable to remove
*
*/
void remove_variable_and_prior( LALInferenceRunState *runState, LALInferenceIFOModel *ifo, const CHAR *var ){
/* remove variable from currentParams */
if( LALInferenceCheckVariable( runState->currentParams, var ) ){
LALInferenceRemoveVariable( runState->currentParams, var );
}
else{
fprintf(stderr, "Error... variable %s cannot be removed as it does not exist!\n", var);
exit(3);
}
/* remove variable scale parameters from data */
LALInferenceIFOModel *ifotemp = ifo;
while ( ifotemp ){
CHAR *varscale = XLALStringDuplicate( var );
varscale = XLALStringAppend( varscale, "_scale" );
if( LALInferenceCheckVariable( ifotemp->params, varscale ) ){
LALInferenceRemoveVariable( ifotemp->params, varscale );
}
else{
fprintf(stderr, "Error... variable %s cannot be removed as it does not exist!\n", varscale);
exit(3);
}
varscale = XLALStringAppend( varscale, "_min" );
if( LALInferenceCheckVariable( ifotemp->params, varscale ) ){
LALInferenceRemoveVariable( ifotemp->params, varscale );
}
else{
fprintf(stderr, "Error... variable %s cannot be removed as it does not exist!\n", varscale);
exit(3);
}
ifotemp = ifotemp->next;
}
/* remove prior */
if ( LALInferenceCheckGaussianPrior( runState->priorArgs, var ) ){
LALInferenceRemoveGaussianPrior( runState->priorArgs, var );
}
else { LALInferenceRemoveMinMaxPrior( runState->priorArgs, var ); }
}
/**
* \brief Automatically set the solar system ephemeris file based on environment variables and data time span
*
* This function will attempt to construct the file name for Sun, Earth and time correction ephemeris files
* based on the ephemeris used for the equivalent TEMPO(2) pulsar timing information. It assumes that the
* ephemeris files are those constructed between 2000 and 2020. The path to the file is not required as this
* will be found in \c XLALInitBarycenter.
*
* \param efile [in] a string that will return the Earth ephemeris file
* \param sfile [in] a string that will return the Sun ephemeris file
* \param tfile [in] a string that will return the time correction file
* \param pulsar [in] the pulsar parameters read from a .par file
* \param gpsstart [in] the GPS time of the start of the data
* \param gpsend [in] the GPS time of the end of the data
*
* \return The TimeCorrectionType e.g. TDB or TCB
*/
TimeCorrectionType XLALAutoSetEphemerisFiles( CHAR **efile, CHAR **sfile, CHAR **tfile, PulsarParameters *pulsar,
INT4 gpsstart, INT4 gpsend ){
/* set the times that the ephemeris files span */
INT4 ephemstart = 630720013; /* GPS time of Jan 1, 2000, 00:00:00 UTC */
INT4 ephemend = 1261872015; /* GPS time of Jan 1, 2020, 00:00:00 UTC */
TimeCorrectionType ttype = TIMECORRECTION_NONE;
if( gpsstart < ephemstart || gpsend < ephemstart || gpsstart > ephemend || gpsend > ephemend ){
XLAL_ERROR(XLAL_EFUNC, "Start and end times are outside the ephemeris file ranges!" );
}
*efile = XLALStringDuplicate("earth00-19-");
*sfile = XLALStringDuplicate("sun00-19-");
if( !PulsarCheckParam(pulsar, "EPHEM") ){
/* default to use DE405 */
*efile = XLALStringAppend(*efile, "DE405");
*sfile = XLALStringAppend(*sfile, "DE405");
}
else{
if( !strcmp(PulsarGetStringParam(pulsar, "EPHEM"), "DE405") || !strcmp(PulsarGetStringParam(pulsar, "EPHEM"), "DE200") ||
!strcmp(PulsarGetStringParam(pulsar, "EPHEM"), "DE414") || !strcmp(PulsarGetStringParam(pulsar, "EPHEM"), "DE421") ){
*efile = XLALStringAppend(*efile, PulsarGetStringParam(pulsar, "EPHEM"));
*sfile = XLALStringAppend(*sfile, PulsarGetStringParam(pulsar, "EPHEM"));
}
else{
XLAL_ERROR(XLAL_EFUNC, "Unknown ephemeris %s in par file.", PulsarGetStringParam(pulsar, "EPHEM") );
}
}
/* add .dat.gz extension */
*efile = XLALStringAppend(*efile, ".dat.gz");
*sfile = XLALStringAppend(*sfile, ".dat.gz");
if( !PulsarCheckParam( pulsar, "UNITS" ) ){
/* default to using TCB units */
*tfile = XLALStringDuplicate("te405_2000-2019.dat.gz");
ttype = TIMECORRECTION_TCB;
}
else{
if ( !strcmp( PulsarGetStringParam(pulsar, "UNITS"), "TDB" ) ){
*tfile = XLALStringDuplicate("tdb_2000-2019.dat.gz");
ttype = TIMECORRECTION_TDB;
}
else if ( !strcmp( PulsarGetStringParam(pulsar, "UNITS"), "TCB" ) ) {
*tfile = XLALStringDuplicate("te405_2000-2019.dat.gz");
ttype = TIMECORRECTION_TCB;
}
else{
XLAL_ERROR(XLAL_EFUNC, "Error... unknown units %s in par file!", PulsarGetStringParam(pulsar, "UNITS"));
}
}
return ttype;
}
/**
* \brief Automatically set the solar system ephemeris file based on environment variables and data time span
*
* This function will attempt to find Earth and Sun ephemeris files based on LAL environment variables (as set up by
* <code> lalpulsar-user-env.(c)sh </code>) and a given start and end GPS time (presumably taken from the data that is
* to be analysed). It requires \c LALPULSAR is installed and the \c LALPULSAR_PREFIX variable is set, which should mean
* that ephemeris files are installed in the directory \c ${LALPULSAR_PREFIX}/share/lalpulsar/.
*
* \param efile [in] a string that will return the Earth ephemeris file
* \param sfile [in] a string that will return the Sun ephemeris file
* \param tfile [in] a string that will return the time correction file
* \param pulsar [in] the pulsar parameters read from a .par file
* \param gpsstart [in] the GPS time of the start of the data
* \param gpsend [in] the GPS time of the end of the data
*
* \return The TimeCorrectionType e.g. TDB or TCB
*/
TimeCorrectionType XLALAutoSetEphemerisFiles( CHAR *efile, CHAR *sfile, CHAR *tfile, BinaryPulsarParams pulsar,
INT4 gpsstart, INT4 gpsend ){
/* set the times that the ephemeris files span */
INT4 ephemstart = 630720013; /* GPS time of Jan 1, 2000, 00:00:00 UTC */
INT4 ephemend = 1261872015; /* GPS time of Jan 1, 2020, 00:00:00 UTC */
CHAR *eftmp = NULL, *sftmp = NULL, *tftmp = NULL;
TimeCorrectionType ttype = TIMECORRECTION_NONE;
CHAR *lalpath = NULL, *lalpulsarpath = NULL;
if( gpsstart < ephemstart || gpsend < ephemstart || gpsstart > ephemend || gpsend > ephemend ){
XLALPrintError("Start and end times are outside the ephemeris file ranges!\n");
XLAL_ERROR(XLAL_EFUNC);
}
/* first check that the path to the Ephemeris files is available in the
environment variables */
if((lalpath = getenv("LALPULSAR_PREFIX")) == NULL){
XLALPrintError("LALPULSAR_PREFIX environment variable not set. Cannot automatically generate ephemeris files!\n");
XLAL_ERROR(XLAL_EFUNC);
}
lalpulsarpath = XLALStringDuplicate( lalpath );
if ( (lalpulsarpath = XLALStringAppend(lalpulsarpath, "/share/lalpulsar/")) == NULL ) { XLAL_ERROR(XLAL_EFUNC); }
eftmp = XLALStringDuplicate(lalpulsarpath);
sftmp = XLALStringDuplicate(lalpulsarpath);
tftmp = XLALStringDuplicate(lalpulsarpath);
eftmp = XLALStringAppend(eftmp, "earth00-19-");
sftmp = XLALStringAppend(sftmp, "sun00-19-");
if( pulsar.ephem == NULL ){
/* default to use DE405 */
eftmp = XLALStringAppend(eftmp, "DE405");
sftmp = XLALStringAppend(sftmp, "DE405");
}
else{
if( !strcmp(pulsar.ephem, "DE405") || !strcmp(pulsar.ephem, "DE200") ||
!strcmp(pulsar.ephem, "DE414") ){
eftmp = XLALStringAppend(eftmp, pulsar.ephem);
sftmp = XLALStringAppend(sftmp, pulsar.ephem);
}
else{
XLALPrintError("Unknown ephemeris %s in par file\n", pulsar.ephem);
XLAL_ERROR(XLAL_EFUNC);
}
}
/* add .dat extension */
eftmp = XLALStringAppend(eftmp, ".dat.gz");
sftmp = XLALStringAppend(sftmp, ".dat.gz");
if ( eftmp == NULL || sftmp == NULL ) { XLAL_ERROR(XLAL_EFUNC); }
XLALStringCopy( efile, eftmp, strlen(eftmp)+1 );
XLALStringCopy( sfile, sftmp, strlen(sftmp)+1 );
/* double check that the files exist */
if( fopen(sfile, "r") == NULL || fopen(efile, "r") == NULL ){
XLALPrintError("Error... ephemeris files not, or incorrectly, defined!\n");
XLAL_ERROR(XLAL_EFUNC);
}
if( pulsar.units == NULL ){
/* default to using TCB units */
tftmp = XLALStringAppend(tftmp, "te405_2000-2019.dat.gz");
ttype = TIMECORRECTION_TCB;
}
else{
if ( !strcmp( pulsar.units, "TDB" ) ){
tftmp = XLALStringAppend(tftmp, "tdb_2000-2019.dat.gz");
ttype = TIMECORRECTION_TDB;
}
else{
XLALPrintError("Error... unknown units %s in par file!\n", pulsar.units);
XLAL_ERROR(XLAL_EFUNC);
}
}
if ( tftmp == NULL ) { XLAL_ERROR(XLAL_EFUNC); }
XLALStringCopy( tfile, tftmp, strlen(tftmp)+1 );
if( fopen(tfile, "r") == NULL ){
XLALPrintError("Error... time ephemeris files not, or incorrectly, defined!\n");
XLAL_ERROR(XLAL_EFUNC);
}
return ttype;
}
/**
* Assemble all help-info from uvars into a help-string.
*/
CHAR *
XLALUserVarHelpString ( const CHAR *progname )
{
XLAL_CHECK_NULL ( progname != NULL, XLAL_EINVAL );
XLAL_CHECK_NULL ( UVAR_vars.next != NULL, XLAL_EINVAL, "No UVAR memory allocated. Did you register any user-variables?\n" );
BOOLEAN showDeveloperOptions = (lalDebugLevel >= LALWARNING); // only output for lalDebugLevel >= warning
BOOLEAN showDeprecatedOptions = (lalDebugLevel >= LALINFO); // only output for lalDebugLevel >= info
// ---------- ZEROTH PASS: find longest long-option and type names, for proper output formatting
LALUserVariable *ptr = &UVAR_vars;
UINT4 nameFieldLen = 0;
UINT4 typeFieldLen = 0;
BOOLEAN haveDeveloperOptions = 0;
BOOLEAN haveDeprecatedOptions = 0;
while ( (ptr=ptr->next) != NULL )
{
if (ptr->category == UVAR_CATEGORY_DEVELOPER) {
haveDeveloperOptions = 1;
}
if ( ptr->category == UVAR_CATEGORY_DEPRECATED ) {
haveDeprecatedOptions = 1;
}
if ( (ptr->category == UVAR_CATEGORY_DEVELOPER) && !showDeveloperOptions ) {
continue; // skip developer options if not requested
}
if ( (ptr->category == UVAR_CATEGORY_DEPRECATED) && !showDeprecatedOptions ) {
continue; // skip deprecated options if not requested
}
if ( ptr->category == UVAR_CATEGORY_DEFUNCT ) {
continue; // always skip defunct options to hide them completely from help string
}
UINT4 len;
// max variable name length
if ( ptr->name != NULL )
{
len = strlen ( ptr->name );
nameFieldLen = (len > nameFieldLen) ? len : nameFieldLen;
}
// max type name length
len = strlen ( UserVarTypeMap[ptr->type].name );
typeFieldLen = (len > typeFieldLen) ? len : typeFieldLen;
} // while ptr=ptr->next
CHAR fmtStr[256]; // for building a dynamic format-string
snprintf ( fmtStr, sizeof(fmtStr), " %%s --%%-%ds %%-%ds %%s [%%s]\n", nameFieldLen, typeFieldLen );
XLAL_LAST_ELEM(fmtStr)=0;
CHAR defaultstr[256]; // for display of default-value
CHAR strbuf[512];
CHAR *helpstr_regular = NULL;
CHAR *helpstr_developer = NULL;
CHAR *helpstr_deprecated = NULL;
// ---------- provide header line: info about config-file reading
snprintf (strbuf, sizeof(strbuf), "Usage: %s [@ConfigFile] [options], where options are:\n\n", progname);
XLAL_LAST_ELEM(strbuf) = 0;
XLAL_CHECK_NULL ( (helpstr_regular = XLALStringDuplicate ( strbuf )) != NULL, XLAL_EFUNC );
// ---------- MAIN LOOP: step through all user variables and add entry to appropriate help string
ptr = &UVAR_vars;
while ( (ptr=ptr->next) != NULL ) // header always empty
{
if ( ptr->category == UVAR_CATEGORY_REQUIRED ) {
strcpy (defaultstr, "REQUIRED");
}
else if ( ptr->category == UVAR_CATEGORY_HELP ) {
strcpy ( defaultstr, "");
}
else // write the current default-value into a string
{
CHAR *valstr;
XLAL_CHECK_NULL ( (valstr = UserVarTypeMap [ ptr->type ].printer( ptr->varp )) != NULL, XLAL_EFUNC );
strncpy ( defaultstr, valstr, sizeof(defaultstr) ); // cut short for default-entry
XLAL_LAST_ELEM(defaultstr) = 0;
XLALFree (valstr);
}
CHAR optstr[10];
if (ptr->optchar != 0) {
sprintf (optstr, "-%c,", ptr->optchar);
} else {
strcpy (optstr, " ");
}
snprintf ( strbuf, sizeof(strbuf), fmtStr,
optstr,
ptr->name ? ptr->name : "-NONE-",
UserVarTypeMap[ptr->type].name,
ptr->help ? ptr->help : "-NONE-",
defaultstr
);
XLAL_LAST_ELEM(strbuf) = 0;
// now append new line to the appropriate helpstring
switch ( ptr->category )
{
case UVAR_CATEGORY_DEVELOPER:
if ( showDeveloperOptions ) {
helpstr_developer = XLALStringAppend ( helpstr_developer, strbuf );
}
break;
case UVAR_CATEGORY_DEPRECATED:
if ( showDeprecatedOptions ) {
helpstr_deprecated = XLALStringAppend ( helpstr_deprecated, strbuf );
}
break;
default:
helpstr_regular = XLALStringAppend ( helpstr_regular, strbuf );
break;
} // switch category
} // while ptr=ptr->next
CHAR *helpstr = NULL;
XLAL_CHECK_NULL ( (helpstr = XLALStringAppend ( helpstr, helpstr_regular )) != NULL, XLAL_EFUNC );
XLAL_CHECK_NULL ( (helpstr = XLALStringAppend ( helpstr, "\n" )) != NULL, XLAL_EFUNC );
// handle output of developer options, if requested
if ( haveDeveloperOptions )
{
if ( !showDeveloperOptions )
{
const char *str = " ---------- Use help with lalDebugLevel >= warning to also see all 'developer' options ----------\n";
XLAL_CHECK_NULL ( (helpstr = XLALStringAppend ( helpstr, str )) != NULL, XLAL_EFUNC );
}
else
{
const char *str = " ---------- The following are 'developer'-options not useful for most users:----------\n\n";
XLAL_CHECK_NULL ( (helpstr = XLALStringAppend ( helpstr, str )) != NULL, XLAL_EFUNC );
XLAL_CHECK_NULL ( (helpstr = XLALStringAppend ( helpstr, helpstr_developer )) != NULL, XLAL_EFUNC );
XLAL_CHECK_NULL ( (helpstr = XLALStringAppend ( helpstr, "\n" )) != NULL, XLAL_EFUNC );
}
} // if haveDeveloperOptions
// handle output of deprecated options, if requested
if ( haveDeprecatedOptions )
{
if ( !showDeprecatedOptions )
{
const char *str = " ---------- Use help with lalDebugLevel >= info to also see deprecated options ----------\n";
XLAL_CHECK_NULL ( (helpstr = XLALStringAppend ( helpstr, str )) != NULL, XLAL_EFUNC );
}
else
{
const char *str = " ---------- The following are *DEPRECATED* options that shouldn't be used any more:----------\n\n";
XLAL_CHECK_NULL ( (helpstr = XLALStringAppend ( helpstr, str )) != NULL, XLAL_EFUNC );
XLAL_CHECK_NULL ( (helpstr = XLALStringAppend ( helpstr, helpstr_deprecated )) != NULL, XLAL_EFUNC );
XLAL_CHECK_NULL ( (helpstr = XLALStringAppend ( helpstr, "\n" )) != NULL, XLAL_EFUNC );
}
} // if haveDeprecatedOptions
XLALFree ( helpstr_regular );
XLALFree ( helpstr_developer );
XLALFree ( helpstr_deprecated );
return helpstr;
} // XLALUserVarHelpString()
