Blob Blame History Raw
# commit db9b4570c5dc550074140ac1d1677077fba29a26
# Author: Alan Modra <amodra@gmail.com>
# Date:   Sat Aug 17 18:40:11 2013 +0930
# 
#     PowerPC LE strlen
#     http://sourceware.org/ml/libc-alpha/2013-08/msg00097.html
#     
#     This is the first of nine patches adding little-endian support to the
#     existing optimised string and memory functions.  I did spend some
#     time with a power7 simulator looking at cycle by cycle behaviour for
#     memchr, but most of these patches have not been run on cpu simulators
#     to check that we are going as fast as possible.  I'm sure PowerPC can
#     do better.  However, the little-endian support mostly leaves main
#     loops unchanged, so I'm banking on previous authors having done a
#     good job on big-endian..  As with most code you stare at long enough,
#     I found some improvements for big-endian too.
#     
#     Little-endian support for strlen.  Like most of the string functions,
#     I leave the main word or multiple-word loops substantially unchanged,
#     just needing to modify the tail.
#     
#     Removing the branch in the power7 functions is just a tidy.  .align
#     produces a branch anyway.  Modifying regs in the non-power7 functions
#     is to suit the new little-endian tail.
#     
#         * sysdeps/powerpc/powerpc64/power7/strlen.S (strlen): Add little-endian
#         support.  Don't branch over align.
#         * sysdeps/powerpc/powerpc32/power7/strlen.S: Likewise.
#         * sysdeps/powerpc/powerpc64/strlen.S (strlen): Add little-endian support.
#         Rearrange tmp reg use to suit.  Comment.
#         * sysdeps/powerpc/powerpc32/strlen.S: Likewise.
# 
diff -urN glibc-2.17-c758a686/sysdeps/powerpc/powerpc32/power7/strlen.S glibc-2.17-c758a686/sysdeps/powerpc/powerpc32/power7/strlen.S
--- glibc-2.17-c758a686/sysdeps/powerpc/powerpc32/power7/strlen.S	2014-05-28 12:28:44.000000000 -0500
+++ glibc-2.17-c758a686/sysdeps/powerpc/powerpc32/power7/strlen.S	2014-05-28 12:28:45.000000000 -0500
@@ -31,7 +31,11 @@
 	li	r0,0	      /* Word with null chars to use with cmpb.  */
 	li	r5,-1	      /* MASK = 0xffffffffffffffff.  */
 	lwz	r12,0(r4)     /* Load word from memory.  */
+#ifdef __LITTLE_ENDIAN__
+	slw	r5,r5,r6
+#else
 	srw	r5,r5,r6      /* MASK = MASK >> padding.  */
+#endif
 	orc	r9,r12,r5     /* Mask bits that are not part of the string.  */
 	cmpb	r10,r9,r0     /* Check for null bytes in WORD1.  */
 	cmpwi	cr7,r10,0     /* If r10 == 0, no null's have been found.  */
@@ -49,9 +53,6 @@
 	cmpb	r10,r12,r0
 	cmpwi	cr7,r10,0
 	bne	cr7,L(done)
-	b	L(loop)	      /* We branch here (rather than falling through)
-				 to skip the nops due to heavy alignment
-				 of the loop below.  */
 
 	/* Main loop to look for the end of the string.  Since it's a
 	   small loop (< 8 instructions), align it to 32-bytes.  */
@@ -88,9 +89,15 @@
 	   0xff in the same position as the null byte in the original
 	   word from the string.  Use that to calculate the length.  */
 L(done):
-	cntlzw	r0,r10	      /* Count leading zeroes before the match.  */
+#ifdef __LITTLE_ENDIAN__
+	addi	r9, r10, -1   /* Form a mask from trailing zeros.  */
+	andc	r9, r9, r10
+	popcntw r0, r9	      /* Count the bits in the mask.  */
+#else
+	cntlzw	r0,r10	      /* Count leading zeros before the match.  */
+#endif
 	subf	r5,r3,r4
-	srwi	r0,r0,3	      /* Convert leading zeroes to bytes.  */
+	srwi	r0,r0,3	      /* Convert leading zeros to bytes.  */
 	add	r3,r5,r0      /* Compute final length.  */
 	blr
 END (BP_SYM (strlen))
diff -urN glibc-2.17-c758a686/sysdeps/powerpc/powerpc32/strlen.S glibc-2.17-c758a686/sysdeps/powerpc/powerpc32/strlen.S
--- glibc-2.17-c758a686/sysdeps/powerpc/powerpc32/strlen.S	2014-05-28 12:28:44.000000000 -0500
+++ glibc-2.17-c758a686/sysdeps/powerpc/powerpc32/strlen.S	2014-05-28 12:32:24.000000000 -0500
@@ -31,7 +31,12 @@
       1 is subtracted you get a value in the range 0x00-0x7f, none of which
       have their high bit set. The expression here is
       (x + 0xfefefeff) & ~(x | 0x7f7f7f7f), which gives 0x00000000 when
-      there were no 0x00 bytes in the word.
+      there were no 0x00 bytes in the word.  You get 0x80 in bytes that
+      match, but possibly false 0x80 matches in the next more significant
+      byte to a true match due to carries.  For little-endian this is
+      of no consequence since the least significant match is the one
+      we're interested in, but big-endian needs method 2 to find which
+      byte matches.
 
    2) Given a word 'x', we can test to see _which_ byte was zero by
       calculating ~(((x & 0x7f7f7f7f) + 0x7f7f7f7f) | x | 0x7f7f7f7f).
@@ -74,7 +79,7 @@
 
 ENTRY (BP_SYM (strlen))
 
-#define rTMP1	r0
+#define rTMP4	r0
 #define rRTN	r3	/* incoming STR arg, outgoing result */
 #define rSTR	r4	/* current string position */
 #define rPADN	r5	/* number of padding bits we prepend to the
@@ -84,9 +89,9 @@
 #define rWORD1	r8	/* current string word */
 #define rWORD2	r9	/* next string word */
 #define rMASK	r9	/* mask for first string word */
-#define rTMP2	r10
-#define rTMP3	r11
-#define rTMP4	r12
+#define rTMP1	r10
+#define rTMP2	r11
+#define rTMP3	r12
 
 	CHECK_BOUNDS_LOW (rRTN, rTMP1, rTMP2)
 
@@ -96,15 +101,20 @@
 	lwz	rWORD1, 0(rSTR)
 	li	rMASK, -1
 	addi	r7F7F, r7F7F, 0x7f7f
-/* That's the setup done, now do the first pair of words.
-   We make an exception and use method (2) on the first two words, to reduce
-   overhead.  */
+/* We use method (2) on the first two words, because rFEFE isn't
+   required which reduces setup overhead.  Also gives a faster return
+   for small strings on big-endian due to needing to recalculate with
+   method (2) anyway.  */
+#ifdef __LITTLE_ENDIAN__
+	slw	rMASK, rMASK, rPADN
+#else
 	srw	rMASK, rMASK, rPADN
+#endif
 	and	rTMP1, r7F7F, rWORD1
 	or	rTMP2, r7F7F, rWORD1
 	add	rTMP1, rTMP1, r7F7F
-	nor	rTMP1, rTMP2, rTMP1
-	and.	rWORD1, rTMP1, rMASK
+	nor	rTMP3, rTMP2, rTMP1
+	and.	rTMP3, rTMP3, rMASK
 	mtcrf	0x01, rRTN
 	bne	L(done0)
 	lis	rFEFE, -0x101
@@ -113,11 +123,12 @@
 	bt	29, L(loop)
 
 /* Handle second word of pair.  */
+/* Perhaps use method (1) here for little-endian, saving one instruction?  */
 	lwzu	rWORD1, 4(rSTR)
 	and	rTMP1, r7F7F, rWORD1
 	or	rTMP2, r7F7F, rWORD1
 	add	rTMP1, rTMP1, r7F7F
-	nor.	rWORD1, rTMP2, rTMP1
+	nor.	rTMP3, rTMP2, rTMP1
 	bne	L(done0)
 
 /* The loop.  */
@@ -131,29 +142,53 @@
 	add	rTMP3, rFEFE, rWORD2
 	nor	rTMP4, r7F7F, rWORD2
 	bne	L(done1)
-	and.	rTMP1, rTMP3, rTMP4
+	and.	rTMP3, rTMP3, rTMP4
 	beq	L(loop)
 
+#ifndef __LITTLE_ENDIAN__
 	and	rTMP1, r7F7F, rWORD2
 	add	rTMP1, rTMP1, r7F7F
-	andc	rWORD1, rTMP4, rTMP1
+	andc	rTMP3, rTMP4, rTMP1
 	b	L(done0)
 
 L(done1):
 	and	rTMP1, r7F7F, rWORD1
 	subi	rSTR, rSTR, 4
 	add	rTMP1, rTMP1, r7F7F
-	andc	rWORD1, rTMP2, rTMP1
+	andc	rTMP3, rTMP2, rTMP1
 
 /* When we get to here, rSTR points to the first word in the string that
-   contains a zero byte, and the most significant set bit in rWORD1 is in that
-   byte.  */
+   contains a zero byte, and rTMP3 has 0x80 for bytes that are zero,
+   and 0x00 otherwise.  */
 L(done0):
-	cntlzw	rTMP3, rWORD1
+	cntlzw	rTMP3, rTMP3
 	subf	rTMP1, rRTN, rSTR
 	srwi	rTMP3, rTMP3, 3
 	add	rRTN, rTMP1, rTMP3
 	/* GKM FIXME: check high bound.  */
 	blr
+#else
+
+L(done0):
+	addi	rTMP1, rTMP3, -1	/* Form a mask from trailing zeros.  */
+	andc	rTMP1, rTMP1, rTMP3
+	cntlzw	rTMP1, rTMP1		/* Count bits not in the mask.  */
+	subf	rTMP3, rRTN, rSTR
+	subfic	rTMP1, rTMP1, 32-7
+	srwi	rTMP1, rTMP1, 3
+	add	rRTN, rTMP1, rTMP3
+	blr
+
+L(done1):
+	addi	rTMP3, rTMP1, -1
+	andc	rTMP3, rTMP3, rTMP1
+	cntlzw	rTMP3, rTMP3
+	subf	rTMP1, rRTN, rSTR
+	subfic	rTMP3, rTMP3, 32-7-32
+	srawi	rTMP3, rTMP3, 3
+	add	rRTN, rTMP1, rTMP3
+	blr
+#endif
+
 END (BP_SYM (strlen))
 libc_hidden_builtin_def (strlen)
diff -urN glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/power7/strlen.S glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/power7/strlen.S
--- glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/power7/strlen.S	2014-05-28 12:28:44.000000000 -0500
+++ glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/power7/strlen.S	2014-05-28 12:28:45.000000000 -0500
@@ -32,7 +32,11 @@
 				 with cmpb.  */
 	li	r5,-1	      /* MASK = 0xffffffffffffffff.  */
 	ld	r12,0(r4)     /* Load doubleword from memory.  */
+#ifdef __LITTLE_ENDIAN__
+	sld	r5,r5,r6
+#else
 	srd	r5,r5,r6      /* MASK = MASK >> padding.  */
+#endif
 	orc	r9,r12,r5     /* Mask bits that are not part of the string.  */
 	cmpb	r10,r9,r0     /* Check for null bytes in DWORD1.  */
 	cmpdi	cr7,r10,0     /* If r10 == 0, no null's have been found.  */
@@ -50,9 +54,6 @@
 	cmpb	r10,r12,r0
 	cmpdi	cr7,r10,0
 	bne	cr7,L(done)
-	b	L(loop)	      /* We branch here (rather than falling through)
-				 to skip the nops due to heavy alignment
-				 of the loop below.  */
 
 	/* Main loop to look for the end of the string.  Since it's a
 	   small loop (< 8 instructions), align it to 32-bytes.  */
@@ -89,9 +90,15 @@
 	   0xff in the same position as the null byte in the original
 	   doubleword from the string.  Use that to calculate the length.  */
 L(done):
-	cntlzd	r0,r10	      /* Count leading zeroes before the match.  */
+#ifdef __LITTLE_ENDIAN__
+	addi	r9, r10, -1   /* Form a mask from trailing zeros.  */
+	andc	r9, r9, r10
+	popcntd r0, r9	      /* Count the bits in the mask.  */
+#else
+	cntlzd	r0,r10	      /* Count leading zeros before the match.  */
+#endif
 	subf	r5,r3,r4
-	srdi	r0,r0,3	      /* Convert leading zeroes to bytes.  */
+	srdi	r0,r0,3	      /* Convert leading/trailing zeros to bytes.  */
 	add	r3,r5,r0      /* Compute final length.  */
 	blr
 END (BP_SYM (strlen))
diff -urN glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/strlen.S glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/strlen.S
--- glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/strlen.S	2014-05-28 12:28:44.000000000 -0500
+++ glibc-2.17-c758a686/sysdeps/powerpc/powerpc64/strlen.S	2014-05-28 12:38:17.000000000 -0500
@@ -31,7 +31,12 @@
       1 is subtracted you get a value in the range 0x00-0x7f, none of which
       have their high bit set. The expression here is
       (x + 0xfefefeff) & ~(x | 0x7f7f7f7f), which gives 0x00000000 when
-      there were no 0x00 bytes in the word.
+      there were no 0x00 bytes in the word.  You get 0x80 in bytes that
+      match, but possibly false 0x80 matches in the next more significant
+      byte to a true match due to carries.  For little-endian this is
+      of no consequence since the least significant match is the one
+      we're interested in, but big-endian needs method 2 to find which
+      byte matches.
 
    2) Given a word 'x', we can test to see _which_ byte was zero by
       calculating ~(((x & 0x7f7f7f7f) + 0x7f7f7f7f) | x | 0x7f7f7f7f).
@@ -64,7 +69,7 @@
    Answer:
    1) Added a Data Cache Block Touch early to prefetch the first 128 
    byte cache line. Adding dcbt instructions to the loop would not be 
-   effective since most strings will be shorter than the cache line.*/
+   effective since most strings will be shorter than the cache line.  */
 
 /* Some notes on register usage: Under the SVR4 ABI, we can use registers
    0 and 3 through 12 (so long as we don't call any procedures) without
@@ -80,7 +85,7 @@
 ENTRY (BP_SYM (strlen))
 	CALL_MCOUNT 1
 
-#define rTMP1	r0
+#define rTMP4	r0
 #define rRTN	r3	/* incoming STR arg, outgoing result */
 #define rSTR	r4	/* current string position */
 #define rPADN	r5	/* number of padding bits we prepend to the
@@ -90,9 +95,9 @@
 #define rWORD1	r8	/* current string doubleword */
 #define rWORD2	r9	/* next string doubleword */
 #define rMASK	r9	/* mask for first string doubleword */
-#define rTMP2	r10
-#define rTMP3	r11
-#define rTMP4	r12
+#define rTMP1	r10
+#define rTMP2	r11
+#define rTMP3	r12
 
 /* Note:  The Bounded pointer support in this code is broken.  This code
    was inherited from PPC32 and that support was never completed.
@@ -109,30 +114,36 @@
 	addi	r7F7F, r7F7F, 0x7f7f
 	li	rMASK, -1
 	insrdi	r7F7F, r7F7F, 32, 0
-/* That's the setup done, now do the first pair of doublewords.
-   We make an exception and use method (2) on the first two doublewords, 
-   to reduce overhead.  */
-	srd	rMASK, rMASK, rPADN
+/* We use method (2) on the first two doublewords, because rFEFE isn't
+   required which reduces setup overhead.  Also gives a faster return
+   for small strings on big-endian due to needing to recalculate with
+   method (2) anyway.  */
+#ifdef __LITTLE_ENDIAN__
+	sld	rMASK, rMASK, rPADN
+#else
+ 	srd	rMASK, rMASK, rPADN
+#endif
 	and	rTMP1, r7F7F, rWORD1
 	or	rTMP2, r7F7F, rWORD1
 	lis	rFEFE, -0x101
 	add	rTMP1, rTMP1, r7F7F
 	addi	rFEFE, rFEFE, -0x101
-	nor	rTMP1, rTMP2, rTMP1
-	and.	rWORD1, rTMP1, rMASK
+	nor	rTMP3, rTMP2, rTMP1
+	and.	rTMP3, rTMP3, rMASK
 	mtcrf	0x01, rRTN
 	bne	L(done0)
-	sldi  rTMP1, rFEFE, 32
-	add  rFEFE, rFEFE, rTMP1
+	sldi	rTMP1, rFEFE, 32
+	add	rFEFE, rFEFE, rTMP1
 /* Are we now aligned to a doubleword boundary?  */
 	bt	28, L(loop)
 
 /* Handle second doubleword of pair.  */
+/* Perhaps use method (1) here for little-endian, saving one instruction?  */
 	ldu	rWORD1, 8(rSTR)
 	and	rTMP1, r7F7F, rWORD1
 	or	rTMP2, r7F7F, rWORD1
 	add	rTMP1, rTMP1, r7F7F
-	nor.	rWORD1, rTMP2, rTMP1
+	nor.	rTMP3, rTMP2, rTMP1
 	bne	L(done0)
 
 /* The loop.  */
@@ -146,29 +157,53 @@
 	add	rTMP3, rFEFE, rWORD2
 	nor	rTMP4, r7F7F, rWORD2
 	bne	L(done1)
-	and.	rTMP1, rTMP3, rTMP4
+	and.	rTMP3, rTMP3, rTMP4
 	beq	L(loop)
 
+#ifndef __LITTLE_ENDIAN__
 	and	rTMP1, r7F7F, rWORD2
 	add	rTMP1, rTMP1, r7F7F
-	andc	rWORD1, rTMP4, rTMP1
+	andc	rTMP3, rTMP4, rTMP1
 	b	L(done0)
 
 L(done1):
 	and	rTMP1, r7F7F, rWORD1
 	subi	rSTR, rSTR, 8
 	add	rTMP1, rTMP1, r7F7F
-	andc	rWORD1, rTMP2, rTMP1
+	andc	rTMP3, rTMP2, rTMP1
 
 /* When we get to here, rSTR points to the first doubleword in the string that
-   contains a zero byte, and the most significant set bit in rWORD1 is in that
-   byte.  */
+   contains a zero byte, and rTMP3 has 0x80 for bytes that are zero, and 0x00
+   otherwise.  */
 L(done0):
-	cntlzd	rTMP3, rWORD1
+	cntlzd	rTMP3, rTMP3
 	subf	rTMP1, rRTN, rSTR
 	srdi	rTMP3, rTMP3, 3
 	add	rRTN, rTMP1, rTMP3
 	/* GKM FIXME: check high bound.  */
 	blr
+#else
+
+L(done0):
+	addi	rTMP1, rTMP3, -1	/* Form a mask from trailing zeros.  */
+	andc	rTMP1, rTMP1, rTMP3
+	cntlzd	rTMP1, rTMP1		/* Count bits not in the mask.  */
+	subf	rTMP3, rRTN, rSTR
+	subfic	rTMP1, rTMP1, 64-7
+	srdi	rTMP1, rTMP1, 3
+	add	rRTN, rTMP1, rTMP3
+	blr
+
+L(done1):
+	addi	rTMP3, rTMP1, -1
+	andc	rTMP3, rTMP3, rTMP1
+	cntlzd	rTMP3, rTMP3
+	subf	rTMP1, rRTN, rSTR
+	subfic	rTMP3, rTMP3, 64-7-64
+	sradi	rTMP3, rTMP3, 3
+	add	rRTN, rTMP1, rTMP3
+	blr
+#endif
+
 END (BP_SYM (strlen))
 libc_hidden_builtin_def (strlen)