#if defined(pa64)
/* Clear the upper 32 bits of the arg1 register. We are working with */
/* small divisors (and 32 bit integers) We must not be mislead */
-/* by "1" bits left in the upper 32 bits. */
+/* by "1" bits left in the upper 32 bits. */
depd %r0,31,32,%r25
#endif
blr,n arg1,r0
sub,> 0,a1,t0 /* otherwise negate both and */
combt,<=,n a0,t0,LREF(l2) /* swap back if |a0|<|a1| */
sub 0,a0,a1
- movb,tr,n t0,a0,LREF(l2) /* 10th inst. */
+ movb,tr,n t0,a0,LREF(l2) /* 10th inst. */
LSYM(l0) r__r_t0 /* add in this partial product */
LSYM(l1) a0__256a0 /* a0 <<= 8 ****************** */
LSYM(l3) blr t0,0 /* case on these 8 bits ****** */
extru a1,23,24,a1 /* a1 >>= 8 ****************** */
-/*16 insts before this. */
+/*16 insts before this. */
/* a0 <<= 8 ************************** */
LSYM(x0) a1_ne_0_b_l2 ! a0__256a0 ! MILLIRETN ! nop
LSYM(x1) a1_ne_0_b_l1 ! r__r_a0 ! MILLIRETN ! nop
LSYM(x253) t0__64a0 ! t0__t0ma0 ! b_e_t0 ! t0__4t0_a0
LSYM(x254) t0__128a0 ! t0__t0ma0 ! b_e_shift ! r__r_2t0
LSYM(x255) t0__256a0 ! a1_ne_0_b_l0 ! t0__t0ma0 ! b_n_ret_t0
-/*1040 insts before this. */
+/*1040 insts before this. */
LSYM(ret_t0) MILLIRET
LSYM(e_t0) r__r_t0
LSYM(e_shift) a1_ne_0_b_l2