]> git.hungrycats.org Git - linux/commitdiff
ia64: Fix formatting inconsistencies introduced by my
authorDavid Mosberger <davidm@tiger.hpl.hp.com>
Fri, 28 Feb 2003 08:51:17 +0000 (00:51 -0800)
committerDavid Mosberger <davidm@tiger.hpl.hp.com>
Fri, 28 Feb 2003 08:51:17 +0000 (00:51 -0800)
fsys_gettimeofday() patch.

arch/ia64/kernel/fsys.S

index e0f623da102f71255c48373b82047793e99df449..d43460504544800ca6b4c93d87c7af9bc5b1dba8 100644 (file)
@@ -151,14 +151,14 @@ ENTRY(fsys_gettimeofday)
        ;;
 
 #ifdef CONFIG_SMP
-       movl r10 = __per_cpu_offset
+       movl r10=__per_cpu_offset
        ;;
-       ld8 r10 = [r10]                 // r10 <- __per_cpu_offset[0]
-       movl r21 = cpu_info__per_cpu
+       ld8 r10=[r10]                   // r10 <- __per_cpu_offset[0]
+       movl r21=cpu_info__per_cpu
        ;;
-       add r10 = r21, r10              // r10 <- &cpu_data(time_keeper_id)
+       add r10=r21, r10                // r10 <- &cpu_data(time_keeper_id)
 #else
-       mov r10 = r3
+       mov r10=r3
 #endif
        ld4 r9=[r9]
        movl r17=xtime_lock
@@ -166,7 +166,7 @@ ENTRY(fsys_gettimeofday)
 
        // r32, r33 should contain the 2 args of gettimeofday
        adds r21=IA64_CPUINFO_ITM_NEXT_OFFSET, r10
-       mov r2 = -1
+       mov r2=-1
        tnat.nz p6,p7=r32               // guard against NaT args
        ;;
 
@@ -179,7 +179,7 @@ ENTRY(fsys_gettimeofday)
        ;;
 
        ldf8 f7=[r10]                   // f7 now contains itm_delta
-       setf.sig f11 = r2
+       setf.sig f11=r2
        adds r10=8, r32
 
        adds r20=IA64_TIMESPEC_TV_NSEC_OFFSET, r19      // r20 = &xtime->tv_nsec
@@ -229,13 +229,13 @@ EX(.fail, probe.w.fault r10, 3)           // this must come _after_ NaT-check
        xma.l f8=f6, f7, f8     // f8 (last_tick) <- -(lost + 1)*itm_delta + itm_next   (5 cyc)
        nop 0
 
-       setf.sig f12=r31        // f12 <- ITC                                           (6 cyc)
+       setf.sig f12=r31                // f12 <- ITC                                   (6 cyc)
        // *** if (unlikely(read_seqretry(&xtime_lock, seq))) continue; ***
        ld4 r24=[r17]                   // r24 = xtime_lock->sequence (re-read)
        nop 0
        ;;
 
-       mov r31 = ar.itc                // re-read ITC in case we .retry                (35 cyc)
+       mov r31=ar.itc                  // re-read ITC in case we .retry                (35 cyc)
        xma.l f8=f11, f8, f12   // f8 (elapsed_cycles) <- (-1*last_tick + now) = (now - last_tick)
        nop 0
        ;;
@@ -245,7 +245,7 @@ EX(.fail, probe.w.fault r10, 3)             // this must come _after_ NaT-check
        add r3=r29, r14                 // r3 = (nsec + old)
        ;;
 
-       cmp.lt p7, p8 = r18, r0         // if now < last_tick, set p7 = 1, p8 = 0
+       cmp.lt p7, p8=r18, r0           // if now < last_tick, set p7 = 1, p8 = 0
        getf.sig r18=f8                 // r18 = elapsed_cycles*nsec_per_cyc            (6 cyc)
        nop 0
        ;;
@@ -262,19 +262,19 @@ EX(.fail, probe.w.fault r10, 3)           // this must come _after_ NaT-check
 (p8)   cmpxchg8.rel r24=[r25], r18, ar.ccv     // compare-and-exchange (atomic!)
 (p8)   add r3=r29, r18                 // r3 = (nsec + offset)
        ;;
-       shr.u r3 = r3, 3                // initiate dividing r3 by 1000
+       shr.u r3=r3, 3                  // initiate dividing r3 by 1000
        ;;
-       setf.sig f8 = r3                //                                              (6 cyc)
+       setf.sig f8=r3                  //                                              (6 cyc)
        mov r10=1000000                 // r10 = 1000000
        ;;
-(p8)   cmp.ne.unc p9, p0 = r24, r14
-       xmpy.hu f6 = f8, f9             //                                              (5 cyc)
+(p8)   cmp.ne.unc p9, p0=r24, r14
+       xmpy.hu f6=f8, f9               //                                              (5 cyc)
 (p9)   br.spnt.many .retry
        ;;
 
-       getf.sig r3 = f6                //                                              (6 cyc)
+       getf.sig r3=f6                  //                                              (6 cyc)
        ;;
-       shr.u r3 = r3, 4                // end of division, r3 is divided by 1000 (=usec)
+       shr.u r3=r3, 4                  // end of division, r3 is divided by 1000 (=usec)
        ;;
 
 1:     cmp.geu p7, p0=r3, r10          // while (usec >= 1000000)