More elegant solution to "sparse decimal printout on PPC" problem.

diff --git a/crypto/bn/asm/ppc.pl b/crypto/bn/asm/ppc.pl
index 8c567424aee41f92b9ccd5f041330b700d3c98fe..538e3093ac446641628fe98d84974ba29f8fc424 100644 (file)
--- a/crypto/bn/asm/ppc.pl
+++ b/crypto/bn/asm/ppc.pl
@@ -116,7 +116,7 @@ if ($opf =~ /32\.s/) {
        $UDIV=  "divwu";        # unsigned divide
        $UCMPI= "cmplwi";       # unsigned compare with immediate
        $UCMP=  "cmplw";        # unsigned compare
-       $COUNTZ="cntlzw";       # count leading zeros
+       $CNTLZ= "cntlzw";       # count leading zeros
        $SHL=   "slw";          # shift left
        $SHR=   "srw";          # unsigned shift right
        $SHRI=  "srwi";         # unsigned shift right by immediate     
@@ -139,7 +139,7 @@ if ($opf =~ /32\.s/) {
        $UDIV=  "divdu";        # unsigned divide
        $UCMPI= "cmpldi";       # unsigned compare with immediate
        $UCMP=  "cmpld";        # unsigned compare
-       $COUNTZ="cntlzd";       # count leading zeros
+       $CNTLZ= "cntlzd";       # count leading zeros
        $SHL=   "sld";          # shift left
        $SHR=   "srd";          # unsigned shift right
        $SHRI=  "srdi";         # unsigned shift right by immediate     
@@ -1710,17 +1710,12 @@ Lppcasm_add_adios:
        bclr    BO_ALWAYS,CR0_LT        
 Lppcasm_div1:
        xor     r0,r0,r0                #r0=0
-       $COUNTZ r7,r5                   #r7 = num leading 0s in d.
-       subfic  r8,r7,$BITS             #r8 = BN_num_bits_word(d)
-       cmpi    0,0,r8,$BITS            #
-       bc      BO_IF,CR0_EQ,Lppcasm_div2       #proceed if (r8==$BITS) 
-       li      r9,1                    # r9=1
-       $SHL    r10,r9,r8               # r9<<=r8
-       $UCMP   0,r3,r10                #       
-       bc      BO_IF_NOT,CR0_GT,Lppcasm_div2   #or if (h > (1<<r8))
-       $UDIV   r3,r3,r0                #if not assert(0) divide by 0!
-                                       #that's how we signal overflow
-       bclr    BO_ALWAYS,CR0_LT        #return. NEVER REACHED.
+       li      r8,$BITS
+       $CNTLZ. r7,r5                   #r7 = num leading 0s in d.
+       bc      BO_IF,CR0_EQ,Lppcasm_div2       #proceed if no leading zeros
+       subf    r8,r7,r8                #r8 = BN_num_bits_word(d)
+       $SHR.   r9,r3,r8                #are there any bits above r8'th?
+       tw      16,r9,r0                #if there're, signal to dump core...
 Lppcasm_div2:
        $UCMP   0,r3,r5                 #h>=d?
        bc      BO_IF,CR0_LT,Lppcasm_div3       #goto Lppcasm_div3 if not