From fa080de7afc95aa1c19a6e6fc0e0708ced2eadc4 Mon Sep 17 00:00:00 2001
From: Joseph Hunkeler <jhunkeler@gmail.com>
Date: Wed, 8 Jul 2015 20:46:52 -0400
Subject: Initial commit

---
 noao/onedspec/smw/smwsctran.x | 96 +++++++++++++++++++++++++++++++++++++++++++
 1 file changed, 96 insertions(+)
 create mode 100644 noao/onedspec/smw/smwsctran.x

(limited to 'noao/onedspec/smw/smwsctran.x')

diff --git a/noao/onedspec/smw/smwsctran.x b/noao/onedspec/smw/smwsctran.x
new file mode 100644
index 00000000..06f240db
--- /dev/null
+++ b/noao/onedspec/smw/smwsctran.x
@@ -0,0 +1,96 @@
+include	<error.h>
+include	<smw.h>
+
+
+# SMW_SCTRAN -- Set the SMW coordinate system transformation.
+# This routine sets up the SMW_CT structure which may consist of multiple
+# pointers if the MWCS is split.  If the MWCS is not split then the MWCS
+# transformation routine is used directly.  However if the MWCS is split then
+# there may need to be an intermediate mapping from the input coordinate to
+# the physical coordinate in which the split MWCS is defined as well as a
+# transformation for each WCS piece.
+
+pointer procedure smw_sctran (smw, system1, system2, axbits)
+
+pointer	smw		#I SMW pointer
+char	system1[ARB]	#I Input coordinate system
+char	system2[ARB]	#I Output coordinate system
+int	axbits		#I Bitmap defining axes to be transformed
+pointer	ct		#O SMW CT pointer
+
+int	i, cttype, nct, axes[3], naxes, strdic()
+pointer	mw_sctran()
+errchk	mw_sctran
+
+begin
+	# Determine the coordinate transformation type and setup the structure.
+	cttype = 10 * (strdic (system1, system1, ARB, SMW_CTTYPES) + 1) +
+	    strdic (system2, system2, ARB, SMW_CTTYPES) + 1
+
+	nct = SMW_NMW(smw)
+	if (cttype == SMW_LP || cttype == SMW_PL)
+	    nct = 1
+
+	call calloc (ct, SMW_CTLEN(nct), TY_STRUCT)
+	SMW_SMW(ct) = smw
+	SMW_CTTYPE(ct) = cttype
+	SMW_NCT(ct) = nct
+
+	# Determine dispersion and aperture axes.
+	call mw_gaxlist (SMW_MW(smw,0), axbits, axes, naxes)
+	do i = 1, naxes {
+	    if (axes[i] == SMW_PAXIS(smw,1))
+		SMW_DAXIS(ct) = i
+	    if (axes[i] == SMW_PAXIS(smw,2))
+		SMW_AAXIS(ct) = i
+	}
+
+	# If the MWCS is not split use the MWCS transformation directly.
+	if (nct == 1) {
+	    iferr (SMW_CT(ct,0) = mw_sctran (SMW_MW(smw,0), system1, system2,
+		axbits)) {
+		switch (cttype) {
+		case SMW_WL, SMW_WP:
+	            SMW_CT(ct,0) = mw_sctran (SMW_MW(smw,0), "physical",
+			system2, axbits)
+		case SMW_LW, SMW_PW:
+	            SMW_CT(ct,0) = mw_sctran (SMW_MW(smw,0), system1,
+			"physical", axbits)
+		default:
+		    call erract (EA_ERROR)
+		}
+	    }
+	    return(ct)
+	}
+
+	# If there is a split MWCS then setup the intermediary transformation.
+	switch (cttype) {
+	case SMW_LW:
+	    SMW_CTL(ct) = mw_sctran (SMW_MW(smw,0), system1, "physical",
+		axbits)
+	    do i = 0, nct-1 {
+		iferr (SMW_CT(ct,i) = mw_sctran (SMW_MW(smw,i), "physical",
+		    system2, axbits))
+		    SMW_CT(ct,i) = mw_sctran (SMW_MW(smw,i), "physical",
+			"physical", axbits)
+	    }
+	case SMW_WL:
+	    do i = 0, nct-1 {
+		iferr (SMW_CT(ct,i) = mw_sctran (SMW_MW(smw,i), system1,
+		    "physical", axbits))
+		    SMW_CT(ct,i) = mw_sctran (SMW_MW(smw,i), "physical",
+			"physical", axbits)
+	    }
+	    SMW_CTL(ct) = mw_sctran (SMW_MW(smw,0), "physical", system2,
+		axbits)
+	case SMW_PW, SMW_WP:
+	    do i = 0, nct-1 {
+		iferr (SMW_CT(ct,i) = mw_sctran (SMW_MW(smw,i), system1,
+		    system2, axbits))
+		    SMW_CT(ct,i) = mw_sctran (SMW_MW(smw,i), "physical",
+			system2, axbits)
+	    }
+	}
+
+	return (ct)
+end
-- 
cgit