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eval_f.c
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eval_f.c
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/************************************************************************/
/* */
/* CFITSIO Lexical Parser */
/* */
/* This file is one of 3 files containing code which parses an */
/* arithmetic expression and evaluates it in the context of an input */
/* FITS file table extension. The CFITSIO lexical parser is divided */
/* into the following 3 parts/files: the CFITSIO "front-end", */
/* eval_f.c, contains the interface between the user/CFITSIO and the */
/* real core of the parser; the FLEX interpreter, eval_l.c, takes the */
/* input string and parses it into tokens and identifies the FITS */
/* information required to evaluate the expression (ie, keywords and */
/* columns); and, the BISON grammar and evaluation routines, eval_y.c, */
/* receives the FLEX output and determines and performs the actual */
/* operations. The files eval_l.c and eval_y.c are produced from */
/* running flex and bison on the files eval.l and eval.y, respectively. */
/* (flex and bison are available from any GNU archive: see www.gnu.org) */
/* */
/* The grammar rules, rather than evaluating the expression in situ, */
/* builds a tree, or Nodal, structure mapping out the order of */
/* operations and expression dependencies. This "compilation" process */
/* allows for much faster processing of multiple rows. This technique */
/* was developed by Uwe Lammers of the XMM Science Analysis System, */
/* although the CFITSIO implementation is entirely code original. */
/* */
/* */
/* Modification History: */
/* */
/* Kent Blackburn c1992 Original parser code developed for the */
/* FTOOLS software package, in particular, */
/* the fselect task. */
/* Kent Blackburn c1995 BIT column support added */
/* Peter D Wilson Feb 1998 Vector column support added */
/* Peter D Wilson May 1998 Ported to CFITSIO library. User */
/* interface routines written, in essence */
/* making fselect, fcalc, and maketime */
/* capabilities available to all tools */
/* via single function calls. */
/* Peter D Wilson Jun 1998 Major rewrite of parser core, so as to */
/* create a run-time evaluation tree, */
/* inspired by the work of Uwe Lammers, */
/* resulting in a speed increase of */
/* 10-100 times. */
/* Peter D Wilson Jul 1998 gtifilter(a,b,c,d) function added */
/* Peter D Wilson Aug 1998 regfilter(a,b,c,d) function added */
/* Peter D Wilson Jul 1999 Make parser fitsfile-independent, */
/* allowing a purely vector-based usage */
/* Peter D Wilson Aug 1999 Add row-offset capability */
/* Peter D Wilson Sep 1999 Add row-range capability to ffcalc_rng */
/* */
/************************************************************************/
#include <limits.h>
#include <ctype.h>
#include "eval_defs.h"
#include "region.h"
/* Internal routines needed to allow the evaluator to operate on FITS data */
static void Setup_DataArrays( ParseData *lParse, int nCols, iteratorCol *cols,
long fRow, long nRows );
static int find_column( ParseData *lParse, char *colName, void *itslval );
static int find_keywd ( ParseData *lParse, char *key, void *itslval );
static int load_column( ParseData *lParse, int varNum, long fRow, long nRows,
void *data, char *undef );
static int DEBUG_PIXFILTER;
#define FREE(x) { if (x) free(x); else printf("invalid free(" #x ") at %s:%d\n", __FILE__, __LINE__); }
/*---------------------------------------------------------------------------*/
int fffrow( fitsfile *fptr, /* I - Input FITS file */
char *expr, /* I - Boolean expression */
long firstrow, /* I - First row of table to eval */
long nrows, /* I - Number of rows to evaluate */
long *n_good_rows, /* O - Number of rows eval to True */
char *row_status, /* O - Array of boolean results */
int *status ) /* O - Error status */
/* */
/* Evaluate a boolean expression using the indicated rows, returning an */
/* array of flags indicating which rows evaluated to TRUE/FALSE */
/*---------------------------------------------------------------------------*/
{
parseInfo Info;
int naxis, constant;
long nelem, naxes[MAXDIMS], elem;
char result;
ParseData lParse;
if( *status ) return( *status );
memset(&Info, 0, sizeof(Info));
if( ffiprs( fptr, 0, expr, MAXDIMS, &Info.datatype, &nelem, &naxis,
naxes, &lParse, status ) ) {
ffcprs(&lParse);
return( *status );
}
if( nelem<0 ) {
constant = 1;
nelem = -nelem;
} else
constant = 0;
if( Info.datatype!=TLOGICAL || nelem!=1 ) {
ffcprs(&lParse);
ffpmsg("Expression does not evaluate to a logical scalar.");
return( *status = PARSE_BAD_TYPE );
}
if( constant ) { /* No need to call parser... have result from ffiprs */
result = lParse.Nodes[lParse.resultNode].value.data.log;
*n_good_rows = nrows;
for( elem=0; elem<nrows; elem++ )
row_status[elem] = result;
} else {
firstrow = (firstrow>1 ? firstrow : 1);
Info.dataPtr = row_status;
Info.nullPtr = NULL;
Info.maxRows = nrows;
Info.parseData = &lParse;
if( ffiter( lParse.nCols, lParse.colData, firstrow-1, 0,
fits_parser_workfn, (void*)&Info, status ) == -1 )
*status = 0; /* -1 indicates exitted without error before end... OK */
if( *status ) {
/***********************/
/* Error... Do nothing */
/***********************/
} else {
/***********************************/
/* Count number of good rows found */
/***********************************/
*n_good_rows = 0L;
for( elem=0; elem<Info.maxRows; elem++ ) {
if( row_status[elem]==1 ) ++*n_good_rows;
}
}
}
ffcprs(&lParse);
return(*status);
}
/*--------------------------------------------------------------------------*/
int ffsrow( fitsfile *infptr, /* I - Input FITS file */
fitsfile *outfptr, /* I - Output FITS file */
char *expr, /* I - Boolean expression */
int *status ) /* O - Error status */
/* */
/* Evaluate an expression on all rows of a table. If the input and output */
/* files are not the same, copy the TRUE rows to the output file. If the */
/* files are the same, delete the FALSE rows (preserve the TRUE rows). */
/* Can copy rows between extensions of the same file, *BUT* if output */
/* extension is before the input extension, the second extension *MUST* be */
/* opened using ffreopen, so that CFITSIO can handle changing file lengths. */
/*--------------------------------------------------------------------------*/
{
parseInfo Info;
int naxis, constant;
long nelem, rdlen, naxes[MAXDIMS], maxrows, nbuff, nGood, inloc, outloc;
LONGLONG ntodo, inbyteloc, outbyteloc, hsize;
long freespace;
unsigned char *buffer, result;
struct {
LONGLONG rowLength, numRows, heapSize;
LONGLONG dataStart, heapStart;
} inExt, outExt;
ParseData lParse;
if( *status ) return( *status );
memset(&Info, 0, sizeof(Info));
memset(&inExt, 0, sizeof(inExt));
memset(&outExt, 0, sizeof(outExt));
if( ffiprs( infptr, 0, expr, MAXDIMS, &Info.datatype, &nelem, &naxis,
naxes, &lParse, status ) ) {
ffcprs(&lParse);
return( *status );
}
if( nelem<0 ) {
constant = 1;
nelem = -nelem;
} else
constant = 0;
/**********************************************************************/
/* Make sure expression evaluates to the right type... logical scalar */
/**********************************************************************/
if( Info.datatype!=TLOGICAL || nelem!=1 ) {
ffcprs(&lParse);
ffpmsg("Expression does not evaluate to a logical scalar.");
return( *status = PARSE_BAD_TYPE );
}
/***********************************************************/
/* Extract various table information from each extension */
/***********************************************************/
if( infptr->HDUposition != (infptr->Fptr)->curhdu )
ffmahd( infptr, (infptr->HDUposition) + 1, NULL, status );
if( *status ) {
ffcprs(&lParse);
return( *status );
}
inExt.rowLength = (long) (infptr->Fptr)->rowlength;
inExt.numRows = (infptr->Fptr)->numrows;
inExt.heapSize = (infptr->Fptr)->heapsize;
if( inExt.numRows == 0 ) { /* Nothing to copy */
ffcprs(&lParse);
return( *status );
}
if( outfptr->HDUposition != (outfptr->Fptr)->curhdu )
ffmahd( outfptr, (outfptr->HDUposition) + 1, NULL, status );
if( (outfptr->Fptr)->datastart < 0 )
ffrdef( outfptr, status );
if( *status ) {
ffcprs(&lParse);
return( *status );
}
outExt.rowLength = (long) (outfptr->Fptr)->rowlength;
outExt.numRows = (outfptr->Fptr)->numrows;
if( !outExt.numRows )
(outfptr->Fptr)->heapsize = 0L;
outExt.heapSize = (outfptr->Fptr)->heapsize;
if( inExt.rowLength != outExt.rowLength ) {
ffpmsg("Output table has different row length from input");
ffcprs(&lParse);
return( *status = PARSE_BAD_OUTPUT );
}
/***********************************/
/* Fill out Info data for parser */
/***********************************/
Info.dataPtr = (char *)malloc( (size_t) ((inExt.numRows + 1) * sizeof(char)) );
Info.nullPtr = NULL;
Info.maxRows = (long) inExt.numRows;
Info.parseData = &lParse;
if( !Info.dataPtr ) {
ffpmsg("Unable to allocate memory for row selection");
ffcprs(&lParse);
return( *status = MEMORY_ALLOCATION );
}
/* make sure array is zero terminated */
((char*)Info.dataPtr)[inExt.numRows] = 0;
if( constant ) { /* Set all rows to the same value from constant result */
result = lParse.Nodes[lParse.resultNode].value.data.log;
for( ntodo = 0; ntodo<inExt.numRows; ntodo++ )
((char*)Info.dataPtr)[ntodo] = result;
nGood = (long) (result ? inExt.numRows : 0);
} else {
ffiter( lParse.nCols, lParse.colData, 0L, 0L,
fits_parser_workfn, (void*)&Info, status );
nGood = 0;
for( ntodo = 0; ntodo<inExt.numRows; ntodo++ )
if( ((char*)Info.dataPtr)[ntodo] ) nGood++;
}
if( *status ) {
/* Error... Do nothing */
} else {
rdlen = (long) inExt.rowLength;
buffer = (unsigned char *)malloc(maxvalue(500000,rdlen) * sizeof(char) );
if( buffer==NULL ) {
ffcprs(&lParse);
return( *status=MEMORY_ALLOCATION );
}
maxrows = maxvalue( (500000L/rdlen), 1);
nbuff = 0;
inloc = 1;
if( infptr==outfptr ) { /* Skip initial good rows if input==output file */
while( ((char*)Info.dataPtr)[inloc-1] ) inloc++;
outloc = inloc;
} else {
outloc = (long) (outExt.numRows + 1);
if (outloc > 1)
ffirow( outfptr, outExt.numRows, nGood, status );
}
do {
if( ((char*)Info.dataPtr)[inloc-1] ) {
ffgtbb( infptr, inloc, 1L, rdlen, buffer+rdlen*nbuff, status );
nbuff++;
if( nbuff==maxrows ) {
ffptbb( outfptr, outloc, 1L, rdlen*nbuff, buffer, status );
outloc += nbuff;
nbuff = 0;
}
}
inloc++;
} while( !*status && inloc<=inExt.numRows );
if( nbuff ) {
ffptbb( outfptr, outloc, 1L, rdlen*nbuff, buffer, status );
outloc += nbuff;
}
if( infptr==outfptr ) {
if( outloc<=inExt.numRows )
ffdrow( infptr, outloc, inExt.numRows-outloc+1, status );
} else if( inExt.heapSize && nGood ) {
/* Copy heap, if it exists and at least one row copied */
/********************************************************/
/* Get location information from the output extension */
/********************************************************/
if( outfptr->HDUposition != (outfptr->Fptr)->curhdu )
ffmahd( outfptr, (outfptr->HDUposition) + 1, NULL, status );
outExt.dataStart = (outfptr->Fptr)->datastart;
outExt.heapStart = (outfptr->Fptr)->heapstart;
/*************************************************/
/* Insert more space into outfptr if necessary */
/*************************************************/
hsize = outExt.heapStart + outExt.heapSize;
freespace = (long) (( ( (hsize + 2879) / 2880) * 2880) - hsize);
ntodo = inExt.heapSize;
if ( (freespace - ntodo) < 0) { /* not enough existing space? */
ntodo = (ntodo - freespace + 2879) / 2880; /* number of blocks */
ffiblk(outfptr, (long) ntodo, 1, status); /* insert the blocks */
}
ffukyj( outfptr, "PCOUNT", inExt.heapSize+outExt.heapSize,
NULL, status );
/*******************************************************/
/* Get location information from the input extension */
/*******************************************************/
if( infptr->HDUposition != (infptr->Fptr)->curhdu )
ffmahd( infptr, (infptr->HDUposition) + 1, NULL, status );
inExt.dataStart = (infptr->Fptr)->datastart;
inExt.heapStart = (infptr->Fptr)->heapstart;
/**********************************/
/* Finally copy heap to outfptr */
/**********************************/
ntodo = inExt.heapSize;
inbyteloc = inExt.heapStart + inExt.dataStart;
outbyteloc = outExt.heapStart + outExt.dataStart + outExt.heapSize;
while ( ntodo && !*status ) {
rdlen = (long) minvalue(ntodo,500000);
ffmbyt( infptr, inbyteloc, REPORT_EOF, status );
ffgbyt( infptr, rdlen, buffer, status );
ffmbyt( outfptr, outbyteloc, IGNORE_EOF, status );
ffpbyt( outfptr, rdlen, buffer, status );
inbyteloc += rdlen;
outbyteloc += rdlen;
ntodo -= rdlen;
}
/***********************************************************/
/* But must update DES if data is being appended to a */
/* pre-existing heap space. Edit each new entry in file */
/***********************************************************/
if( outExt.heapSize ) {
LONGLONG repeat, offset, j;
int i;
for( i=1; i<=(outfptr->Fptr)->tfield; i++ ) {
if( (outfptr->Fptr)->tableptr[i-1].tdatatype<0 ) {
for( j=outExt.numRows+1; j<=outExt.numRows+nGood; j++ ) {
ffgdesll( outfptr, i, j, &repeat, &offset, status );
offset += outExt.heapSize;
ffpdes( outfptr, i, j, repeat, offset, status );
}
}
}
}
} /* End of HEAP copy */
FREE(buffer);
}
FREE(Info.dataPtr);
ffcprs(&lParse);
ffcmph(outfptr, status); /* compress heap, deleting any orphaned data */
return(*status);
}
/*---------------------------------------------------------------------------*/
int ffcrow( fitsfile *fptr, /* I - Input FITS file */
int datatype, /* I - Datatype to return results as */
char *expr, /* I - Arithmetic expression */
long firstrow, /* I - First row to evaluate */
long nelements, /* I - Number of elements to return */
void *nulval, /* I - Ptr to value to use as UNDEF */
void *array, /* O - Array of results */
int *anynul, /* O - Were any UNDEFs encountered? */
int *status ) /* O - Error status */
/* */
/* Calculate an expression for the indicated rows of a table, returning */
/* the results, cast as datatype (TSHORT, TDOUBLE, etc), in array. If */
/* nulval==NULL, UNDEFs will be zeroed out. For vector results, the number */
/* of elements returned may be less than nelements if nelements is not an */
/* even multiple of the result dimension. Call fftexp to obtain the */
/* dimensions of the results. */
/*---------------------------------------------------------------------------*/
{
parseInfo Info;
int naxis;
long nelem1, naxes[MAXDIMS];
ParseData lParse;
if( *status ) return( *status );
memset(&Info, 0, sizeof(Info));
if( ffiprs( fptr, 0, expr, MAXDIMS, &Info.datatype, &nelem1, &naxis,
naxes, &lParse, status ) ) {
ffcprs(&lParse);
return( *status );
}
if( nelem1<0 ) nelem1 = - nelem1;
if( nelements<nelem1 ) {
ffcprs(&lParse);
ffpmsg("Array not large enough to hold at least one row of data.");
return( *status = PARSE_LRG_VECTOR );
}
firstrow = (firstrow>1 ? firstrow : 1);
if( datatype ) Info.datatype = datatype;
Info.dataPtr = array;
Info.nullPtr = nulval;
Info.maxRows = nelements / nelem1;
Info.parseData = &lParse;
if( ffiter( lParse.nCols, lParse.colData, firstrow-1, 0,
fits_parser_workfn, (void*)&Info, status ) == -1 )
*status=0; /* -1 indicates exitted without error before end... OK */
*anynul = Info.anyNull;
ffcprs(&lParse);
return( *status );
}
/*--------------------------------------------------------------------------*/
int ffcalc( fitsfile *infptr, /* I - Input FITS file */
char *expr, /* I - Arithmetic expression */
fitsfile *outfptr, /* I - Output fits file */
char *parName, /* I - Name of output parameter */
char *parInfo, /* I - Extra information on parameter */
int *status ) /* O - Error status */
/* */
/* Evaluate an expression for all rows of a table. Call ffcalc_rng with */
/* a row range of 1-MAX. */
{
long start=1, end=LONG_MAX;
return ffcalc_rng( infptr, expr, outfptr, parName, parInfo,
1, &start, &end, status );
}
/*--------------------------------------------------------------------------*/
int ffcalc_rng( fitsfile *infptr, /* I - Input FITS file */
char *expr, /* I - Arithmetic expression */
fitsfile *outfptr, /* I - Output fits file */
char *parName, /* I - Name of output parameter */
char *parInfo, /* I - Extra information on parameter */
int nRngs, /* I - Row range info */
long *start, /* I - Row range info */
long *end, /* I - Row range info */
int *status ) /* O - Error status */
/* */
/* Evaluate an expression using the data in the input FITS file and place */
/* the results into either a column or keyword in the output fits file, */
/* depending on the value of parName (keywords normally prefixed with '#') */
/* and whether the expression evaluates to a constant or a table column. */
/* The logic is as follows: */
/* (1) If a column exists with name, parName, put results there. */
/* (2) If parName starts with '#', as in #NAXIS, put result there, */
/* with parInfo used as the comment. If expression does not evaluate */
/* to a constant, flag an error. */
/* (3) If a keyword exists with name, parName, and expression is a */
/* constant, put result there, using parInfo as the new comment. */
/* (4) Else, create a new column with name parName and TFORM parInfo. */
/* If parInfo is NULL, use a default data type for the column. */
/*--------------------------------------------------------------------------*/
{
parseInfo Info;
int naxis, constant, typecode, newNullKwd=0;
long nelem, naxes[MAXDIMS], repeat, width;
int col_cnt, colNo;
Node *result;
char card[81], tform[16], nullKwd[9], tdimKwd[9];
ParseData lParse;
if( *status ) return( *status );
memset(&Info, 0, sizeof(Info));
if( ffiprs( infptr, 0, expr, MAXDIMS, &Info.datatype, &nelem, &naxis,
naxes, &lParse, status ) ) {
ffcprs(&lParse);
return( *status );
}
if( nelem<0 ) {
constant = 1;
nelem = -nelem;
} else
constant = 0;
Info.parseData = &lParse;
/* Case (1): If column exists put it there */
colNo = 0;
ffpmrk(); /* prevent lack of column name from sullying the stack */
ffgcno( outfptr, CASEINSEN, parName, &colNo, status );
ffcmsg();
if( *status ) {
/* Output column doesn't exist. Test for keyword. */
/* Case (2): Does parName indicate result should be put into keyword */
*status = 0;
if( parName[0]=='#' ) {
if( ! constant ) {
ffcprs(&lParse);
ffpmsg( "Cannot put tabular result into keyword (ffcalc)" );
return( *status = PARSE_BAD_TYPE );
}
parName++; /* Advance past '#' */
if ( (fits_strcasecmp(parName,"HISTORY") == 0 || fits_strcasecmp(parName,"COMMENT") == 0) &&
Info.datatype != TSTRING ) {
ffcprs(&lParse);
ffpmsg( "HISTORY and COMMENT values must be strings (ffcalc)" );
return( *status = PARSE_BAD_TYPE );
}
} else if( constant ) {
/* Case (3): Does a keyword named parName already exist */
if( ffgcrd( outfptr, parName, card, status )==KEY_NO_EXIST ) {
colNo = -1;
} else if( *status ) {
ffcprs(&lParse);
return( *status );
}
} else
colNo = -1;
if( colNo<0 ) {
/* Case (4): Create new column */
*status = 0;
ffgncl( outfptr, &colNo, status );
colNo++;
if( parInfo==NULL || *parInfo=='\0' ) {
/* Figure out best default column type */
if( lParse.hdutype==BINARY_TBL ) {
snprintf(tform,15,"%ld",nelem);
switch( Info.datatype ) {
case TLOGICAL: strcat(tform,"L"); break;
case TLONG: strcat(tform,"J"); break;
case TDOUBLE: strcat(tform,"D"); break;
case TSTRING: strcat(tform,"A"); break;
case TBIT: strcat(tform,"X"); break;
case TLONGLONG: strcat(tform,"K"); break;
}
} else {
switch( Info.datatype ) {
case TLOGICAL:
ffcprs(&lParse);
ffpmsg("Cannot create LOGICAL column in ASCII table");
return( *status = NOT_BTABLE );
case TLONG: strcpy(tform,"I11"); break;
case TDOUBLE: strcpy(tform,"D23.15"); break;
case TSTRING:
case TBIT: snprintf(tform,16,"A%ld",nelem); break;
}
}
parInfo = tform;
} else if( !(isdigit((int) *parInfo)) && lParse.hdutype==BINARY_TBL ) {
if( Info.datatype==TBIT && *parInfo=='B' )
nelem = (nelem+7)/8;
snprintf(tform,16,"%ld%s",nelem,parInfo);
parInfo = tform;
}
fficol( outfptr, colNo, parName, parInfo, status );
if( naxis>1 )
ffptdm( outfptr, colNo, naxis, naxes, status );
/* Setup TNULLn keyword in case NULLs are encountered */
ffkeyn("TNULL", colNo, nullKwd, status);
if( ffgcrd( outfptr, nullKwd, card, status )==KEY_NO_EXIST ) {
*status = 0;
if( lParse.hdutype==BINARY_TBL ) {
LONGLONG nullVal=0;
fits_binary_tform( parInfo, &typecode, &repeat, &width, status );
if( typecode==TBYTE )
nullVal = UCHAR_MAX;
else if( typecode==TSHORT )
nullVal = SHRT_MIN;
else if( typecode==TINT )
nullVal = INT_MIN;
else if( typecode==TLONG ) {
if (sizeof(long) == 8 && sizeof(int) == 4)
nullVal = INT_MIN;
else
nullVal = LONG_MIN;
}
else if( typecode==TLONGLONG )
nullVal = LONGLONG_MIN;
if( nullVal ) {
ffpkyj( outfptr, nullKwd, nullVal, "Null value", status );
fits_set_btblnull( outfptr, colNo, nullVal, status );
newNullKwd = 1;
}
} else if( lParse.hdutype==ASCII_TBL ) {
ffpkys( outfptr, nullKwd, "NULL", "Null value string", status );
fits_set_atblnull( outfptr, colNo, "NULL", status );
newNullKwd = 1;
}
}
}
} else if( *status ) {
ffcprs(&lParse);
return( *status );
} else {
/********************************************************/
/* Check if a TDIM keyword should be written/updated. */
/********************************************************/
ffkeyn("TDIM", colNo, tdimKwd, status);
ffgcrd( outfptr, tdimKwd, card, status );
if( *status==0 ) {
/* TDIM exists, so update it with result's dimension */
ffptdm( outfptr, colNo, naxis, naxes, status );
} else if( *status==KEY_NO_EXIST ) {
/* TDIM does not exist, so clear error stack and */
/* write a TDIM only if result is multi-dimensional */
*status = 0;
ffcmsg();
if( naxis>1 )
ffptdm( outfptr, colNo, naxis, naxes, status );
}
if( *status ) {
/* Either some other error happened in ffgcrd */
/* or one happened in ffptdm */
ffcprs(&lParse);
return( *status );
}
}
if( colNo>0 ) {
/* Output column exists (now)... put results into it */
int anyNull = 0;
int nPerLp, i;
long totaln;
ffgkyj(infptr, "NAXIS2", &totaln, 0, status);
/*************************************/
/* Create new iterator Output Column */
/*************************************/
col_cnt = lParse.nCols;
if( fits_parser_allocateCol( &lParse, col_cnt, status ) ) {
ffcprs(&lParse);
return( *status );
}
fits_iter_set_by_num( lParse.colData+col_cnt, outfptr,
colNo, 0, OutputCol );
lParse.nCols++;
for( i=0; i<nRngs; i++ ) {
Info.dataPtr = NULL;
Info.maxRows = end[i]-start[i]+1;
/*
If there is only 1 range, and it includes all the rows,
and there are 10 or more rows, then set nPerLp = 0 so
that the iterator function will dynamically choose the
most efficient number of rows to process in each loop.
Otherwise, set nPerLp to the number of rows in this range.
*/
if( (Info.maxRows >= 10) && (nRngs == 1) &&
(start[0] == 1) && (end[0] == totaln))
nPerLp = 0;
else
nPerLp = Info.maxRows;
if( ffiter( lParse.nCols, lParse.colData, start[i]-1,
nPerLp, fits_parser_workfn, (void*)&Info, status ) == -1 )
*status = 0;
else if( *status ) {
ffcprs(&lParse);
return( *status );
}
if( Info.anyNull ) anyNull = 1;
}
if( newNullKwd && !anyNull ) {
ffdkey( outfptr, nullKwd, status );
}
} else {
/* Put constant result into keyword */
result = lParse.Nodes + lParse.resultNode;
switch( Info.datatype ) {
case TDOUBLE:
ffukyd( outfptr, parName, result->value.data.dbl, 15,
parInfo, status );
break;
case TLONG:
ffukyj( outfptr, parName, result->value.data.lng, parInfo, status );
break;
case TLOGICAL:
ffukyl( outfptr, parName, result->value.data.log, parInfo, status );
break;
case TBIT:
case TSTRING:
if (fits_strcasecmp(parName,"HISTORY") == 0) {
ffphis( outfptr, result->value.data.str, status);
} else if (fits_strcasecmp(parName,"COMMENT") == 0) {
ffpcom( outfptr, result->value.data.str, status);
} else {
ffukys( outfptr, parName, result->value.data.str, parInfo, status );
}
break;
}
}
ffcprs(&lParse);
return( *status );
}
/*--------------------------------------------------------------------------*/
int fftexp( fitsfile *fptr, /* I - Input FITS file */
char *expr, /* I - Arithmetic expression */
int maxdim, /* I - Max Dimension of naxes */
int *datatype, /* O - Data type of result */
long *nelem, /* O - Vector length of result */
int *naxis, /* O - # of dimensions of result */
long *naxes, /* O - Size of each dimension */
int *status ) /* O - Error status */
/* */
/* Evaluate the given expression and return information on the result. */
/*--------------------------------------------------------------------------*/
{
ParseData lParse;
ffiprs( fptr, 0, expr, maxdim, datatype, nelem, naxis, naxes, &lParse, status );
ffcprs(&lParse);
return( *status );
}
/*--------------------------------------------------------------------------*/
int ffiprs( fitsfile *fptr, /* I - Input FITS file */
int compressed, /* I - Is FITS file hkunexpanded? */
char *expr, /* I - Arithmetic expression */
int maxdim, /* I - Max Dimension of naxes */
int *datatype, /* O - Data type of result */
long *nelem, /* O - Vector length of result */
int *naxis, /* O - # of dimensions of result */
long *naxes, /* O - Size of each dimension */
ParseData *lParse, /* O - parser status */
int *status ) /* O - Error status */
/* */
/* Initialize the parser and determine what type of result the expression */
/* produces. */
/*--------------------------------------------------------------------------*/
{
Node *result;
int i,lexpr, tstatus = 0;
int xaxis, bitpix;
long xaxes[9];
yyscan_t yylex_scanner; /* Used internally by FLEX lexer */
PixelFilter *pixFilter = 0;
if( *status ) return( *status );
/* make sure all internal structures for this HDU are current */
if ( ffrdef(fptr, status) ) return(*status);
/* Initialize the Parser structure */
/* Unfortunately we need to preserve the pixFilter value since it
is pre-set when ffiprs() is called */
pixFilter = lParse->pixFilter;
memset(lParse, 0, sizeof(*lParse));
lParse->pixFilter = pixFilter;
lParse->def_fptr = fptr;
lParse->compressed = compressed;
lParse->nCols = 0;
lParse->colData = NULL;
lParse->varData = NULL;
lParse->getData = find_column;
lParse->loadData = load_column;
lParse->Nodes = NULL;
lParse->nNodesAlloc= 0;
lParse->nNodes = 0;
lParse->hdutype = 0;
lParse->status = 0;
fits_get_hdu_type(fptr, &(lParse->hdutype), status );
if (lParse->hdutype == IMAGE_HDU) {
fits_get_img_param(fptr, 9, &bitpix, &xaxis, xaxes, status);
if (*status) {
ffpmsg("ffiprs: unable to get image dimensions");
return( *status );
}
lParse->totalRows = xaxis > 0 ? 1 : 0;
for (i = 0; i < xaxis; ++i)
lParse->totalRows *= xaxes[i];
if (DEBUG_PIXFILTER)
printf("naxis=%d, lParse->totalRows=%ld\n", xaxis, lParse->totalRows);
}
else if( ffgkyj(fptr, "NAXIS2", &lParse->totalRows, 0, &tstatus) )
{
/* this might be a 1D or null image with no NAXIS2 keyword */
lParse->totalRows = 0;
}
/* Copy expression into parser... read from file if necessary */
if( expr[0]=='@' ) {
if( ffimport_file( expr+1, &lParse->expr, status ) ) return( *status );
lexpr = strlen(lParse->expr);
} else {
lexpr = strlen(expr);
lParse->expr = (char*)malloc( (2+lexpr)*sizeof(char));
strcpy(lParse->expr,expr);
}
strcat(lParse->expr + lexpr,"\n");
lParse->index = 0;
lParse->is_eobuf = 0;
/* Parse the expression, building the Nodes and determing */
/* which columns are needed and what data type is returned */
fits_parser_yylex_init_extra(lParse, &yylex_scanner);
fits_parser_yyrestart(NULL, yylex_scanner);
*status = fits_parser_yyparse(yylex_scanner, lParse);
fits_parser_yylex_destroy(yylex_scanner);
if( *status ) return( *status = PARSE_SYNTAX_ERR );
/* Check results */
*status = lParse->status;
if( *status ) return(*status);
if( !lParse->nNodes ) {
ffpmsg("Blank expression");
return( *status = PARSE_SYNTAX_ERR );
}
if( !lParse->nCols ) {
lParse->colData = (iteratorCol *) malloc(sizeof(iteratorCol));
if (lParse->colData == 0) {
ffpmsg("memory allocation failed (ffiprs)");
return( *status = MEMORY_ALLOCATION );
}
/* This allows iterator to know value of */
/* fptr when no columns are referenced */
memset(lParse->colData, 0, sizeof(iteratorCol));
lParse->colData[0].fptr = fptr;
}
result = lParse->Nodes + lParse->resultNode;
*naxis = lParse->nAxis = result->value.naxis;
*nelem = lParse->nElements = result->value.nelem;
for( i=0; i<*naxis && i<maxdim; i++ )
naxes[i] = lParse->nAxes[i] = result->value.naxes[i];
switch( result->type ) {
case BOOLEAN:
*datatype = TLOGICAL;
break;
case LONG:
*datatype = TLONG;
break;
case DOUBLE:
*datatype = TDOUBLE;
break;
case BITSTR:
*datatype = TBIT;
break;
case STRING:
*datatype = TSTRING;
break;
default:
*datatype = 0;
ffpmsg("Bad return data type");
*status = lParse->status = PARSE_BAD_TYPE;
break;
}
lParse->datatype = *datatype;
FREE(lParse->expr);
if( result->operation==CONST_OP ) *nelem = - *nelem;
return(*status);
}
/*--------------------------------------------------------------------------*/
void ffcprs( ParseData *lParse )
/* */
/* Clear the parser, making it ready to accept a new expression. */
/*--------------------------------------------------------------------------*/
{
int col, node, i;
if( lParse->nCols > 0 ) {
FREE( lParse->colData );
for( col=0; col<lParse->nCols; col++ ) {
if( lParse->varData[col].undef == NULL ) continue;
if( lParse->varData[col].type == BITSTR )
FREE( ((char**)lParse->varData[col].data)[0] );
free( lParse->varData[col].undef );
}
FREE( lParse->varData );
lParse->nCols = 0;
} else if ( lParse->colData ) {
/* Special case if colData needed to be created with no columns */
FREE( lParse->colData );
}
if( lParse->nNodes > 0 ) {
node = lParse->nNodes;
while( node-- ) {
if( lParse->Nodes[node].operation==gtifilt_fct ) {
i = lParse->Nodes[node].SubNodes[0];
if (lParse->Nodes[ i ].value.data.ptr)
FREE( lParse->Nodes[ i ].value.data.ptr );
}
else if( lParse->Nodes[node].operation==regfilt_fct ) {
i = lParse->Nodes[node].SubNodes[0];
fits_free_region( (SAORegion *)lParse->Nodes[ i ].value.data.ptr );
}
}
lParse->nNodes = 0;
}
if( lParse->Nodes ) free( lParse->Nodes );
lParse->Nodes = NULL;
lParse->hdutype = ANY_HDU;
lParse->pixFilter = 0;
lParse->nDataRows = lParse->nPrevDataRows = 0;
}
/*---------------------------------------------------------------------------*/
int fits_parser_workfn( long totalrows, /* I - Total rows to be processed */
long offset, /* I - Number of rows skipped at start*/
long firstrow, /* I - First row of this iteration */
long nrows, /* I - Number of rows in this iter */
int nCols, /* I - Number of columns in use */
iteratorCol *colData, /* IO- Column information/data */
void *userPtr ) /* I - Data handling instructions */