* config/pa/milli64.S: Fix comment formatting.

[pf3gnuchains/gcc-fork.git] / gcc / config / pa / milli64.S

diff --git a/gcc/config/pa/milli64.S b/gcc/config/pa/milli64.S
index b7704d4..e456d87 100644 (file)
--- a/gcc/config/pa/milli64.S
+++ b/gcc/config/pa/milli64.S
@@ -388,7 +388,7 @@ LSYM(small_divisor)
 #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
@@ -1765,7 +1765,7 @@ LSYM(l4)
        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 ****************** */
@@ -1773,7 +1773,7 @@ LSYM(l2)  zdep            a1,30,8,t0      /* t0 = (a1&0xff)<<1 ********* */
 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
@@ -2031,7 +2031,7 @@ LSYM(x252)        t0__64a0        ! t0__t0ma0     ! b_e_shift     ! r__r_4t0
 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