Lines Matching refs:round

503 set rn_mode,		0x0			# round-to-nearest
504 set rz_mode,		0x1			# round-to-zero
505 set rm_mode,		0x2			# round-tp-minus-infinity
506 set rp_mode,		0x3			# round-to-plus-infinity
4903 #	d0 = round precision,mode					#
5612 #	d0 = round precision,mode					#
5832 	fmov.l		%d0,%fpcr		# restore users round mode,prec
5871 	fmov.l		%d0,%fpcr		# restore users round mode,prec
5883 	fmov.l		%d0,%fpcr		# restore users round mode,prec
6492 #	d0 = round precision,mode					#
6689 #	d0 = round precision,mode					#
6733 #	Step 2.	Calculate N = round-to-nearest-int( X * 64/log2 ).	#
6736 #		2.2	N := round-to-nearest-integer( X * 64/log2 ).	#
6745 #			N := round-to-nearest-integer(Z)		#
6847 #		8.2	N := round-to-integer( X * 64/log2 )		#
7570 #	d0 = round precision,mode					#
7684 #	d0 = round precision,mode					#
7802 #	d0 = round precision,mode					#
7833 #	6. (|X| >= 50 log2) Tanh(X) = +-1 (round to nearest). Thus, we	#
7889 	fmov.l		%d0,%fpcr		# restore users round prec,mode
7931 	fmov.l		%d0,%fpcr		# restore users round prec,mode
7937 	fmov.l		%d0,%fpcr		# restore users round prec,mode
7951 	fmov.l		%d0,%fpcr		# restore users round prec,mode
7968 #	d0 = round precision,mode					#
8563 #	d0 = round precision,mode					#
8653 #	d0 = round precision,mode					#
8670 #       Notes:  Default means round-to-nearest mode, no floating-point	#
8684 #       Notes:  Default means round-to-nearest mode, no floating-point	#
8697 #       Notes:  Default means round-to-nearest mode, no floating-point	#
8711 #       Notes:  Default means round-to-nearest mode, no floating-point	#
8817 #	d0 = round precision,mode					#
8849 #		N := round-to-int(y). Decompose N as			#
9053 	fmov.l		%d0,%fpcr		# restore users round prec,mode
9184 	fmov.l		%d0,%fpcr		# restore users round prec,mode
9347 #	d0 = round precision,mode					#