Imported Healpix, cfitsio, cosmotool. Added cmake tool to build dependencies (cfitsio, hdf5, netcdf, boost, healpix, gsl, ..). Adjusted CMakeLists.txt

external/cfitsio/vmsieeed.mar

@@ -0,0 +1,137 @@
+	.TITLE	ieeed - ieee double to vax floating conversions
+	.ident	/v1.0/
+
+;# Copyright(c) 1986 Association of Universities for Research in Astronomy Inc.
+;#
+;# IEEED.S -- IEEE double to VAX double floating conversions.
+;#
+;#	ieepakd (x)				# scalar, vax->ieee
+;#	ieeupkd (x)				# scalar, ieee->vax
+;#	ieevpakd (native, ieee, nelem)		# vector, vax->ieee
+;#	ieevupkd (ieee, native, nelem)		# vector, ieee->vax
+;#	ieesnand (NaN)				# set VAX NaN value
+;#	ieegnand (NaN)				# get VAX NaN value
+;#
+;# These routines convert between the VAX and IEEE double floating formats,
+;# operating upon a single value or an array of values.  +/- zero is converted
+;# to zero.  When converting IEEE to VAX, underflow maps to zero, and exponent
+;# overflow and NaN input values map to the value set by IEESNAND (default 0).
+;# These routines are functionally equivalent to the semi-portable versions of
+;# the IRAF ieee/native floating conversion routines in osb$ieeed.x.
+;# TODO - Add a function callback option for processing NaN values.
+
+; Vax NaN *MUST* be 11111... or the fitsio code will break horribly.
+; It is explicitly tested for in a couple of places, so be warned.
+
+	.PSECT	IEEED$CODE, PIC,USR,CON,REL,LCL,SHR,EXE,RD,NOWRT,NOVEC
+
+	.ENTRY	IEEPAD ^M<R2,R3,R4,R5>
+;_ieepad_:	;# IEEPAKD (X)
+	movl	4(ap), r4			;# data addr -> r4
+	movl	r4, r5				;# output clobbers input
+	jsb	cvt_vax_ieee			;# convert value
+	ret
+	.ENTRY	IEEVPD ^M<R2,R3,R4,R5,R6>
+;_ieevpd_:	;# IEEVPAKD (VAX, IEEE, NELEM)
+	movl	4(ap), r4			;# input vector -> r4
+	movl	8(ap), r5			;# output vector -> r5
+	movl	@12(ap), r6			;# loop counter
+L1:	jsb	cvt_vax_ieee			;# convert one value
+	sobgtr	r6, L1				;# loop
+	ret
+	.ENTRY	IEEUPD ^M<R2,R3,R4,R5>
+;_ieeupd_:	;# IEEUPKD (X)
+	movl	4(ap), r4			;# data addr -> r4
+	movl	r4, r5				;# output clobbers input
+	jsb	cvt_ieee_vax			;# convert value
+	ret
+	.ENTRY	IEEVUD ^M<R2,R3,R4,R5,R6>
+;_ieevud_:	;# IEEVUPKD (IEEE, VAX, NELEM)
+	movl	4(ap), r4			;# input vector -> r4
+	movl	8(ap), r5			;# output vector -> r5
+	movl	@12(ap), r6			;# loop counter
+L2:	jsb	cvt_ieee_vax			;# convert one value
+	sobgtr	r6, L2				;# loop
+	ret
+	.ENTRY	IEESND ^M<>
+;_ieesnd_:	;# IEESNAND (VAXNAN)
+bugger::nop					; real no-op added to enable
+						; enbuging.	
+;	movq	@4(ap), vaxnan			; no-oped. See above.
+	ret					; This could be no-oped in
+						; the vector, but isn't.
+	.ENTRY	IEEGND ^M<>
+;_ieegnd_:	;# IEEGNAND (VAXNAN)
+	movq	#-1, @4(ap)			; See above
+	ret
+
+cvt_vax_ieee:					;# R4=in, R5=out
+	rotl	#16, (r4)+, r1			;# swap words -> r1
+	rotl	#16, (r4)+, r0			;# swap words -> r0
+
+	extzv	#23, #8, r1, r2			;# 8 bit exponent -> r2
+	beql	L6				;# branch if zero exponent 
+	extzv	#2, #1, r0, r3			;# get round bit -> r3
+	ashq	#-3, r0, r0			;# shift 64 data bits by 3
+	addw2	#<1024-130>, r2			;# adjust exponent bias
+	insv	r2, #20, #11, r1		;# insert new exponent
+	blbc	r3, L5				;# branch if round bit clear
+	incl	r0				;# round low longword
+	adwc	#0, r1				;# carry to high longword
+L5:
+	movl	sp, r3				;# r3 points to input byte
+	pushl	r1				;# push r1 on stack
+	pushl	r0				;# push r0 on stack
+	movb	-(r3), (r5)+			;# output quadword, swapped
+	movb	-(r3), (r5)+
+	movb	-(r3), (r5)+
+	movb	-(r3), (r5)+
+	movb	-(r3), (r5)+
+	movb	-(r3), (r5)+
+	movb	-(r3), (r5)+
+	movb	-(r3), (r5)+
+	addl2	#8, sp				;# pop stack
+	rsb					;# all done
+L6:
+	clrl	r0				;# return all 64 bits zero
+	clrl	r1
+	brb	L5
+
+cvt_ieee_vax:					;# R4=in, R5=out
+	movb	(r4)+, -(sp)			;# byte swap quadword onto stack
+	movb	(r4)+, -(sp)
+	movb	(r4)+, -(sp)
+	movb	(r4)+, -(sp)
+	movb	(r4)+, -(sp)
+	movb	(r4)+, -(sp)
+	movb	(r4)+, -(sp)
+	movb	(r4)+, -(sp)
+
+	movl	(sp)+, r0			;# pop low bits
+	movl	(sp)+, r1			;# pop high bits
+	extzv	#20, #11, r1, r2		;# exponent -> r2
+	beql	L10				;# zero exponent
+	extzv	#31, #1, r1, r3			;# save sign bit
+	ashq	#3, r0, r0			;# shift 64 bits left 3 bits
+	subw2	#<1024-130>, r2			;# adjust exponent bias
+	bleq	L10				;# return zero if underflow
+	cmpw	r2, #256			;# compare with max VAX exponent
+	bgeq	L11				;# return VAX-NaN if overflow
+	insv	r2, #23, #8, r1			;# insert VAX-D exponent
+	insv	r3, #31, #1, r1			;# restore sign bit
+
+	rotl	#16, r1, (r5)+			;# output VAX double
+	rotl	#16, r0, (r5)+			;# output VAX double
+	rsb
+L10:
+	clrl	(r5)+				;# return all 64 bits zero
+	clrl	(r5)+
+	rsb
+L11:
+	movl	#-1, r3			;# return VAX equiv. of NaN
+	movl	r3, (r5)+
+	movl	r3, (r5)+		; changed to only return -1
+	rsb
+
+	.END
+