Lines Matching +full:ten +full:- +full:bit

5 |	register A6 to extended-precision value in FP0.
9 |	Output:	Exact floating-point representation of the packed bcd value.
11 |	Saves and Modifies: D2-D5
20 |	Expected is a normal bcd (i.e. non-exceptional; all inf, zero,
33 |	assumed following the least-significant digit.
43 |	SM = 0	a non-zero digit in the integer position
44 |	SM = 1	a non-zero digit in Mant0, lsd of the fraction
47 |	representation (ex. 0.1E2, 1E1, 10E0, 100E-1), is converted
116 	.set	TEN,10  define
121 	moveml	%d2-%d5,-(%a7)
153 	mulul	#TEN,%d1	|mul partial product by one digit place
248 |   3. Add one for each zero encountered until a non-zero digit.
255 |   3. Add one for each zero encountered until a non-zero digit.
260 |  *Why 27?  If the adjusted exponent is within -28 < expA < 28, than
282 | and do append (+) or strip (-) zeros accordingly.
294 	bnes	ap_p_fx		|if M16 is non-zero, go fix exp
307 	bnes	ap_p_fx		|if non-zero, go to fix exp
325 	movel	#PTENRN,%a1	|get address of power-of-ten table
336 	bnes	ap_p_el		|if not, get next bit
355 	bnes	ap_n_fx		|if non-zero, go to exp fix
373 	movel	#PTENRN,%a1	|get address of power-of-ten table
384 	bnes	ap_n_el		|if not, get next bit
388 | Calculate power-of-ten factor from adjusted and shifted exponent.
405 |	(*) fp1: power-of-ten accumulator
415 |	 -	   +	RP	RM
416 |	 +	   -	RP	RM
417 |	 -	   -	RP	RP
420 |	 -	   +	RM	RP
421 |	 +	   -	RM	RP
422 |	 -	   -	RM	RM
425 |	 -	   +	RZ	RM
426 |	 +	   -	RZ	RP
427 |	 -	   -	RZ	RP
457 	orl	#0x40000000,(%a0)	|and set SE bit
462 	asrl	#1,%d0		|shift next bit into carry
479 |	( ) fp1: scaling factor - 10**(abs(exp))
503 	moveml	(%a7)+,%d2-%d5