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//
//      $Id$
//
//	sint.sa 3.1 12/10/90
//
//	The entry point sINT computes the rounded integer
//	equivalent of the input argument, sINTRZ computes
//	the integer rounded to zero of the input argument.
//
//	Entry points sint and sintrz are called from do_func
//	to emulate the fint and fintrz unimplemented instructions,
//	respectively.  Entry point sintdo is used by bindec.
//
//	Input: (Entry points sint and sintrz) Double-extended
//		number X in the ETEMP space in the floating-point
//		save stack.
//	       (Entry point sintdo) Double-extended number X in
//		location pointed to by the address register a0.
//	       (Entry point sintd) Double-extended denormalized
//		number X in the ETEMP space in the floating-point
//		save stack.
//
//	Output: The function returns int(X) or intrz(X) in fp0.
//
//	Modifies: fp0.
//
//	Algorithm: (sint and sintrz)
//
//	1. If exp(X) >= 63, return X.
//	   If exp(X) < 0, return +/- 0 or +/- 1, according to
//	   the rounding mode.
//
//	2. (X is in range) set rsc = 63 - exp(X). Unnormalize the
//	   result to the exponent $403e.
//
//	3. Round the result in the mode given in USER_FPCR. For
//	   sintrz, force round-to-zero mode.
//
//	4. Normalize the rounded result; store in fp0.
//
//	For the denormalized cases, force the correct result
//	for the given sign and rounding mode.
//
//		        Sign(X)
//		RMODE   +    -
//		-----  --------
//		 RN    +0   -0
//		 RZ    +0   -0
//		 RM    +0   -1
//		 RP    +1   -0
//
//
//		Copyright (C) Motorola, Inc. 1990
//			All Rights Reserved
//
//	THIS IS UNPUBLISHED PROPRIETARY SOURCE CODE OF MOTOROLA
//	The copyright notice above does not evidence any
//	actual or intended publication of such source code.

//SINT    idnt    2,1 | Motorola 040 Floating Point Software Package

	|section	8

#include "fpsp.defs"

	|xref	dnrm_lp
	|xref	nrm_set
	|xref	round
	|xref	t_inx2
	|xref	ld_pone
	|xref	ld_mone
	|xref	ld_pzero
	|xref	ld_mzero
	|xref	snzrinx

//
//	FINT
//
	.global	sint
sint:
	bfextu	FPCR_MODE(%a6){#2:#2},%d1	//use user's mode for rounding
//					;implicitly has extend precision
//					;in upper word.
	movel	%d1,L_SCR1(%a6)		//save mode bits
	bras	sintexc

//
//	FINT with extended denorm inputs.
//
	.global	sintd
sintd:
	btstb	#5,FPCR_MODE(%a6)
	beq	snzrinx		//if round nearest or round zero, +/- 0
	btstb	#4,FPCR_MODE(%a6)
	beqs	rnd_mns
rnd_pls:
	btstb	#sign_bit,LOCAL_EX(%a0)
	bnes	sintmz
	bsr	ld_pone		//if round plus inf and pos, answer is +1
	bra	t_inx2
rnd_mns:
	btstb	#sign_bit,LOCAL_EX(%a0)
	beqs	sintpz
	bsr	ld_mone		//if round mns inf and neg, answer is -1
	bra	t_inx2
sintpz:
	bsr	ld_pzero
	bra	t_inx2
sintmz:
	bsr	ld_mzero
	bra	t_inx2

//
//	FINTRZ
//
	.global	sintrz
sintrz:
	movel	#1,L_SCR1(%a6)		//use rz mode for rounding
//					;implicitly has extend precision
//					;in upper word.
	bras	sintexc
//
//	SINTDO
//
//	Input:	a0 points to an IEEE extended format operand
// 	Output:	fp0 has the result
//
// Exceptions:
//
// If the subroutine results in an inexact operation, the inx2 and
// ainx bits in the USER_FPSR are set.
//
//
	.global	sintdo
sintdo:
	bfextu	FPCR_MODE(%a6){#2:#2},%d1	//use user's mode for rounding
//					;implicitly has ext precision
//					;in upper word.
	movel	%d1,L_SCR1(%a6)		//save mode bits
//
// Real work of sint is in sintexc
//
sintexc:
	bclrb	#sign_bit,LOCAL_EX(%a0)	//convert to internal extended
//					;format
	sne	LOCAL_SGN(%a0)
	cmpw	#0x403e,LOCAL_EX(%a0)	//check if (unbiased) exp > 63
	bgts	out_rnge			//branch if exp < 63
	cmpw	#0x3ffd,LOCAL_EX(%a0)	//check if (unbiased) exp < 0
	bgt	in_rnge			//if 63 >= exp > 0, do calc
//
// Input is less than zero.  Restore sign, and check for directed
// rounding modes.  L_SCR1 contains the rmode in the lower byte.
//
un_rnge:
	btstb	#1,L_SCR1+3(%a6)		//check for rn and rz
	beqs	un_rnrz
	tstb	LOCAL_SGN(%a0)		//check for sign
	bnes	un_rmrp_neg
//
// Sign is +.  If rp, load +1.0, if rm, load +0.0
//
	cmpib	#3,L_SCR1+3(%a6)		//check for rp
	beqs	un_ldpone		//if rp, load +1.0
	bsr	ld_pzero		//if rm, load +0.0
	bra	t_inx2
un_ldpone:
	bsr	ld_pone
	bra	t_inx2
//
// Sign is -.  If rm, load -1.0, if rp, load -0.0
//
un_rmrp_neg:
	cmpib	#2,L_SCR1+3(%a6)		//check for rm
	beqs	un_ldmone		//if rm, load -1.0
	bsr	ld_mzero		//if rp, load -0.0
	bra	t_inx2
un_ldmone:
	bsr	ld_mone
	bra	t_inx2
//
// Rmode is rn or rz; return signed zero
//
un_rnrz:
	tstb	LOCAL_SGN(%a0)		//check for sign
	bnes	un_rnrz_neg
	bsr	ld_pzero
	bra	t_inx2
un_rnrz_neg:
	bsr	ld_mzero
	bra	t_inx2

//
// Input is greater than 2^63.  All bits are significant.  Return
// the input.
//
out_rnge:
	bfclr	LOCAL_SGN(%a0){#0:#8}	//change back to IEEE ext format
	beqs	intps
	bsetb	#sign_bit,LOCAL_EX(%a0)
intps:
	fmovel	%fpcr,-(%sp)
	fmovel	#0,%fpcr
	fmovex LOCAL_EX(%a0),%fp0	//if exp > 63
//					;then return X to the user
//					;there are no fraction bits
	fmovel	(%sp)+,%fpcr
	rts

in_rnge:
// 					;shift off fraction bits
	clrl	%d0			//clear d0 - initial g,r,s for
//					;dnrm_lp
	movel	#0x403e,%d1		//set threshold for dnrm_lp
//					;assumes a0 points to operand
	bsr	dnrm_lp
//					;returns unnormalized number
//					;pointed by a0
//					;output d0 supplies g,r,s
//					;used by round
	movel	L_SCR1(%a6),%d1		//use selected rounding mode
//
//
	bsr	round			//round the unnorm based on users
//					;input	a0 ptr to ext X
//					;	d0 g,r,s bits
//					;	d1 PREC/MODE info
//					;output a0 ptr to rounded result
//					;inexact flag set in USER_FPSR
//					;if initial grs set
//
// normalize the rounded result and store value in fp0
//
	bsr	nrm_set			//normalize the unnorm
//					;Input: a0 points to operand to
//					;be normalized
//					;Output: a0 points to normalized
//					;result
	bfclr	LOCAL_SGN(%a0){#0:#8}
	beqs	nrmrndp
	bsetb	#sign_bit,LOCAL_EX(%a0)	//return to IEEE extended format
nrmrndp:
	fmovel	%fpcr,-(%sp)
	fmovel	#0,%fpcr
	fmovex LOCAL_EX(%a0),%fp0	//move result to fp0
	fmovel	(%sp)+,%fpcr
	rts

	|end