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ppc/string/strcmp.s /dev/null Libc-320 
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+/*
+ * Copyright (c) 2002 Apple Computer, Inc. All rights reserved.
+ *
+ * @APPLE_LICENSE_HEADER_START@
+ * 
+ * Copyright (c) 1999-2003 Apple Computer, Inc.  All Rights Reserved.
+ * 
+ * This file contains Original Code and/or Modifications of Original Code
+ * as defined in and that are subject to the Apple Public Source License
+ * Version 2.0 (the 'License'). You may not use this file except in
+ * compliance with the License. Please obtain a copy of the License at
+ * http://www.opensource.apple.com/apsl/ and read it before using this
+ * file.
+ * 
+ * The Original Code and all software distributed under the License are
+ * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
+ * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
+ * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
+ * Please see the License for the specific language governing rights and
+ * limitations under the License.
+ * 
+ * @APPLE_LICENSE_HEADER_END@
+ */
+#define	ASSEMBLER
+#include <mach/ppc/asm.h>
+#undef	ASSEMBLER
+
+// ***************
+// * S T R C M P *
+// ***************
+//
+// int	strcmp(const char *s1, const char *s2);
+//
+// We optimize the compare by doing it word parallel.  This introduces
+// a complication: if we blindly did word loads from both sides until
+// finding a difference (or 0), we might get a spurious page fault by
+// reading bytes past the difference.  To avoid this, we never do a "lwz"
+// that crosses a page boundary.
+//
+// The test for 0s relies on the following inobvious but very efficient
+// word-parallel test:
+//		x =  dataWord + 0xFEFEFEFF
+//		y = ~dataWord & 0x80808080
+//		if (x & y) == 0 then no zero found
+// The test maps any non-zero byte to zero, and any zero byte to 0x80,
+// with one exception: 0x01 bytes preceeding the first zero are also
+// mapped to 0x80.
+	
+        .text
+        .globl EXT(strcmp)
+
+        .align 	5
+LEXT(strcmp)					// int	strcmp(const char *s1, const char *s2);
+        andi.	r0,r3,3				// is LHS aligned?
+        dcbt	0,r3				// touch in LHS
+        lis		r5,hi16(0xFEFEFEFF)	// start to load magic constants
+        lis		r6,hi16(0x80808080)
+        dcbt	0,r4				// touch in RHS
+        ori		r5,r5,lo16(0xFEFEFEFF)
+        ori		r6,r6,lo16(0x80808080)
+        subi	r3,r3,4				// we use "lwzu" in the inner loops
+        subi	r4,r4,4
+        beq		Laligned			// LHS is aligned
+        subfic	r0,r0,4				// r0 <- #bytes to word align LHS
+        mtctr	r0
+        
+// Loop over bytes.
+
+Lbyteloop:
+        lbz		r7,4(r3)			// r7 <- next LHS byte
+        addi	r3,r3,1
+        lbz		r8,4(r4)			// r8 <- next RHS byte
+        addi	r4,r4,1
+        cntlzw	r9,r7				// is r7 zero?
+        sub		r0,r7,r8			// different?
+        srwi	r9,r9,5				// r9 <- (r7==0) ? 1 : 0
+        or.		r9,r9,r0			// r9 is nonzero if either different or 0
+        bdnzt	eq,Lbyteloop		// loop until different, 0, or buf end
+        
+        bne		Ldone				// done if different or 0
+        
+// LHS is word aligned.  If RHS also is, we need not worry about page
+// crossing.  Otherwise, we must stop the word loop before page is crossed.
+
+Laligned:
+        andi.	r0,r4,3				// is RHS now word aligned too?
+        addi	r9,r4,4				// restore true address of next RHS byte
+        rlwinm	r9,r9,0,0xFFF		// get RHS offset in page
+        beq		Lalignedloop		// RHS word aligned, use simple loop
+        subfic	r9,r9,4096			// get #bytes left in RHS page
+        srwi.	r0,r9,2				// get #words left in RHS page
+        mtctr	r0					// set up loop count
+        bne++	Lunalignedloop		// at least one word left in RHS page
+        li		r0,4				// must check 4 bytes, a byte at a time...
+        mtctr	r0					// ...in order to keep LHS word aligned
+        b		Lbyteloop			// go cross RHS page
+        
+// Unaligned inner loop: compare a word at a time, until one of three conditions:
+//		- a difference is found
+//		- a zero byte is found
+//		- end of RHS page (we dare not touch next page until we must)
+// At this point, registers are as follows:
+//		r3 = LHS ptr - 4 (word aligned)
+//		r4 = RHS ptr - 4 (not aligned)
+//		r5 = 0xFEFEFEFF
+//		r6 = 0x80808080
+//     ctr = whole words left in RHS page
+
+        .align	5					// align inner loop, which is 8 words long
+Lunalignedloop:
+        lwzu	r7,4(r3)			// r7 <- next 4 LHS bytes
+        lwzu	r8,4(r4)			// r8 <- next 4 RHS bytes
+        add		r10,r7,r5			// r10 <- LHS + 0xFEFEFEFF
+        andc	r12,r6,r7			// r12 <- ~LHS & 0x80808080
+        xor		r11,r7,r8			// r11 <- compare the words
+        and		r0,r10,r12			// r0 <- nonzero iff LHS has a 0-byte
+        or.		r12,r0,r11			// combine difference and 0-test vectors
+        bdnzt	eq,Lunalignedloop	// loop if ctr!=0 and cr0_eq
+        
+        bne++	Ldifferent			// done if we found a 0 or difference
+        li		r0,4				// must check 4 bytes, a byte at a time...
+        mtctr	r0					// ...in order to keep LHS word aligned
+        b		Lbyteloop			// cross RHS page, then resume word loop
+        
+// Aligned inner loop: compare a word at a time, until one of two conditions:
+//		- a difference is found
+//		- a zero byte is found
+// At this point, registers are as follows:
+//		r3 = LHS ptr - 4 (word aligned)
+//		r4 = RHS ptr - 4 (word aligned)
+//		r5 = 0xFEFEFEFF
+//		r6 = 0x80808080
+
+        .align	5					// align inner loop, which is 8 words ling
+Lalignedloop:
+        lwzu	r7,4(r3)			// r7 <- next 4 LHS bytes
+        lwzu	r8,4(r4)			// r8 <- next 4 RHS bytes
+        add		r10,r7,r5			// r10 <- LHS + 0xFEFEFEFF
+        andc	r12,r6,r7			// r12 <- ~LHS & 0x80808080
+        xor		r11,r7,r8			// r11 <- compare the words
+        and		r0,r10,r12			// r0 <- nonzero iff LHS has a 0-byte
+        or.		r12,r0,r11			// combine difference and 0-test vectors
+        beq		Lalignedloop		// loop if neither found
+        
+// Found differing bytes and/or a 0-byte.  Determine which comes first, and
+// subtract the bytes to compute the return value.  We also need to mask out the
+// false hits in the 0-byte test, which consist of 0x01 bytes that preceed
+// the 0-byte.
+
+Ldifferent:							// r0 == 0-test vector (with 0x01 false hits)
+        slwi	r9,r7,7				// move 0x01 bits in LHS into position 0x80
+        andc	r0,r0,r9			// mask out the false 0-hits from 0x01 bytes
+        or		r11,r11,r0			// recompute difference vector
+        cntlzw	r9,r11				// find 1st difference (r9 = 0..31)
+        rlwinm	r9,r9,0,0x18		// byte align bit offset (now, r9 = 0,8,16, or 24)
+        addi	r9,r9,8				// now, r9 = 8, 16, 24, or 32
+        rlwnm	r5,r7,r9,24,31		// right justify differing bytes and mask off rest
+        rlwnm	r6,r8,r9,24,31
+        sub		r3,r5,r6			// compute difference (0, +, or -)
+        blr
+        
+Ldone:								// r0 = return value
+        mr		r3,r0				// return in r3
+        blr
+