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author | Rajalakshmi Srinivasaraghavan <raji@linux.vnet.ibm.com> | 2014-12-31 14:05:00 -0500 |
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committer | Adhemerval Zanella <azanella@linux.vnet.ibm.com> | 2014-12-31 14:35:59 -0500 |
commit | f59ad976ed979d22637c5187f6a92fbbd8c191e4 (patch) | |
tree | adf67bb23ce8a0a994d21d95ab4a541217bb9f05 /sysdeps/powerpc/powerpc64 | |
parent | 4a3d39994e07105fb1bd20ed71d166f6ebb21974 (diff) | |
download | glibc-f59ad976ed979d22637c5187f6a92fbbd8c191e4.tar.gz glibc-f59ad976ed979d22637c5187f6a92fbbd8c191e4.tar.xz glibc-f59ad976ed979d22637c5187f6a92fbbd8c191e4.zip |
powerpc: POWER7 strcpy optimization for unaligned strings
This patch optimizes strcpy for ppc64/power7 for unaligned source or destination address. The source or destination address is aligned to doubleword and data is shifted based on the alignment and added with the previous loaded data to be written as a doubleword. For each load, cmpb instruction is used for faster null check. The word aligned optimization is also removed, since the new unaligned code path shows better results handling word-aligned strings. More combination of unaligned inputs is also added in benchtest to measure the improvement.The new optimization shows 2 to 80% of performance improvement for longer string though it does not show big difference on string size less than 16 due to additional checks.
Diffstat (limited to 'sysdeps/powerpc/powerpc64')
-rw-r--r-- | sysdeps/powerpc/powerpc64/power7/strcpy.S | 327 |
1 files changed, 245 insertions, 82 deletions
diff --git a/sysdeps/powerpc/powerpc64/power7/strcpy.S b/sysdeps/powerpc/powerpc64/power7/strcpy.S index ce71982eaf..115f98a304 100644 --- a/sysdeps/powerpc/powerpc64/power7/strcpy.S +++ b/sysdeps/powerpc/powerpc64/power7/strcpy.S @@ -31,8 +31,6 @@ if (((((uintptr_t)dst & 0x7UL) == 0) && ((uintptr_t)src & 0x7UL) == 0)) goto aligned_doubleword_copy; - if (((((uintptr_t)dst & 0x3UL) == 0) && ((uintptr_t)src & 0x3UL) == 0)) - goto aligned_word_copy; if (((uintptr_t)dst & 0x7UL) == ((uintptr_t)src & 0x7UL)) goto same_alignment; goto unaligned; @@ -70,9 +68,18 @@ EALIGN (FUNC_NAME, 4, 0) #endif or rTMP, rSRC, rRTN clrldi. rTMP, rTMP, 61 - bne L(check_word_alignment) + bne L(check_alignment) b L(aligned_doubleword_copy) + .align 4 +L(check_alignment): + rldicl rRTNAL, rRTN, 0, 61 + rldicl rSRCAL, rSRC, 0, 61 + cmpld cr7, rSRCAL, rRTNAL + beq cr7, L(same_alignment) + b L(unaligned) + + .align 4 L(same_alignment): /* Src and dst with same alignment: align both to doubleword. */ mr rALCNT, rRTN @@ -180,93 +187,249 @@ L(g1): #endif blr -L(check_word_alignment): - clrldi. rTMP, rTMP, 62 - beq L(aligned_word_copy) - rldicl rRTNAL, rRTN, 0, 61 - rldicl rSRCAL, rSRC, 0, 61 - cmpld cr7, rSRCAL, rRTNAL - beq cr7, L(same_alignment) - b L(unaligned) - -/* For word aligned memory, operate using word load and stores. */ .align 4 -L(aligned_word_copy): - li rMASK, 0 - addi rRTN, rRTN, -4 - lwz rWORD, 0(rSRC) - b L(g5) +L(unaligned): + cmpdi rSRCAL, 0 /* Check src alignment */ + beq L(srcaligndstunalign) + /* src is unaligned */ + rlwinm r10, rSRC, 3,26,28 /* Calculate padding. */ + clrrdi rSRC, rSRC, 3 /* Align the addr to dw boundary */ + ld rWORD, 0(rSRC) /* Load doubleword from memory. */ + li rTMP, 0 + /* Discard bits not part of the string */ +#ifdef __LITTLE_ENDIAN__ + srd rALT, rWORD, r10 +#else + sld rALT, rWORD, r10 +#endif + cmpb rTMP, rALT, rTMP /* Compare each byte against null */ + /* Discard bits not part of the string */ +#ifdef __LITTLE_ENDIAN__ + sld rTMP, rTMP, r10 +#else + srd rTMP, rTMP, r10 +#endif + cmpdi rTMP, 0 + bne L(bytebybyte) /* if it has null, copy byte by byte */ + subfic r8, r9, 8 + rlwinm r5, rRTN, 3,26,28 /* Calculate padding in bits. */ + rldicl r9, rRTN, 0, 61 /* Calculate padding in bytes. */ + addi rRTN, rRTN, -1 - .align 4 -L(g3): lwzu rALT, 4(rSRC) - stwu rWORD, 4(rRTN) - cmpb rTMP, rALT, rMASK - cmpwi rTMP, 0 - bne L(g4) - lwzu rWORD, 4(rSRC) - stwu rALT, 4(rRTN) -L(g5): cmpb rTMP, rWORD, rMASK - cmpwi rTMP, 0 /* If rTMP is 0, no null in word. */ - beq L(g3) - - mr rALT, rWORD -/* We've hit the end of the string. Do the rest byte-by-byte. */ -L(g4): + cmpdi r5, 0 /* check dest alignment */ + beq L(srcunaligndstalign) + + /* both src and dst unaligned */ #ifdef __LITTLE_ENDIAN__ - rlwinm. rTMP, rALT, 0, 24, 31 - stbu rALT, 4(rRTN) - beqlr- - rlwinm. rTMP, rALT, 24, 24, 31 - stbu rTMP, 1(rRTN) - beqlr- - rlwinm. rTMP, rALT, 16, 24, 31 - stbu rTMP, 1(rRTN) - beqlr- - rlwinm rTMP, rALT, 8, 24, 31 - stbu rTMP, 1(rRTN) + sld rWORD, rALT, r10 + mr r11, r10 + addi r11, r11, -8 /* Adjust byte pointer on loaded dw */ #else - rlwinm. rTMP, rALT, 8, 24, 31 - stbu rTMP, 4(rRTN) - beqlr - rlwinm. rTMP, rALT, 16, 24, 31 - stbu rTMP, 1(rRTN) - beqlr - rlwinm. rTMP, rALT, 24, 24, 31 - stbu rTMP, 1(rRTN) - beqlr - stbu rALT, 1(rRTN) + srd rWORD, rALT, r10 + subfic r11, r10, 64 #endif - blr + /* dst alignment is greater then src alignment? */ + cmpd cr7, r5, r10 + blt cr7, L(dst_align_small) + /* src alignment is less than dst */ -/* Oh well. In this case, we just do a byte-by-byte copy. */ - .align 4 -L(unaligned): - lbz rWORD, 0(rSRC) - addi rRTN, rRTN, -1 - cmpdi rWORD, 0 - beq L(u2) - - .align 5 -L(u0): lbzu rALT, 1(rSRC) - stbu rWORD, 1(rRTN) - cmpdi rALT, 0 - beq L(u1) - lbzu rWORD, 1(rSRC) + /* Calculate the dst alignment differnce */ + subfic rALT, r9, 8 + mtctr rALT + + /* Write till dst is aligned */ + cmpdi rTMP, rALT, 4 + blt L(storebyte1) /* less than 4, store byte by byte */ + beq L(equal1) /* if its 4, store word */ + addi rTMP, rALT, -4 /* greater than 4, so stb and stw */ + mtctr rTMP +L(storebyte1): +#ifdef __LITTLE_ENDIAN__ + addi r11, r11, 8 /* Adjust byte pointer on loaded dw */ +#else + addi r11, r11, -8 +#endif + srd rALT, rWORD, r11 + stbu rALT, 1(rRTN) + bdnz L(storebyte1) + + subfic rALT, r9, 8 /* Check the remaining bytes */ + cmpdi rTMP, rALT, 4 + blt L(proceed) + + .align 4 +L(equal1): +#ifdef __LITTLE_ENDIAN__ + addi r11, r11, 8 /* Adjust byte pointer on loaded dw */ + srd rALT, rWORD, r11 +#else + subfic r11, r11, 64 + sld rALT, rWORD, r11 + srdi rALT, rALT, 32 +#endif + stw rALT, 1(rRTN) + addi rRTN, rRTN, 4 + +L(proceed): + mr rALT, rWORD + /* calculate the Left over bytes to be written */ + subfic r11, r10, 64 + subfic r5, r5, 64 + subf r5, r5, r11 /* remaining bytes on second dw */ + subfic r10, r5, 64 /* remaining bytes on first dw */ + subfic r9, r9, 8 + subf r8, r9, r8 /* recalculate padding */ +L(srcunaligndstalign): + addi rRTN, rRTN, 1 + subfic r5, r10, 64 /* remaining bytes on second dw */ + addi rSRC, rSRC, 8 + li rTMP,0 + b L(storedouble) + + .align 4 +L(dst_align_small): + mtctr r8 + /* Write till src is aligned */ +L(storebyte2): +#ifdef __LITTLE_ENDIAN__ + addi r11, r11, 8 /* Adjust byte pointer on dw */ +#else + addi r11, r11, -8 +#endif + srd rALT, rWORD, r11 stbu rALT, 1(rRTN) - cmpdi rWORD, 0 - beq L(u2) - lbzu rALT, 1(rSRC) - stbu rWORD, 1(rRTN) - cmpdi rALT, 0 - beq L(u1) - lbzu rWORD, 1(rSRC) + bdnz L(storebyte2) + + addi rSRC, rSRC, 8 /* Increment src pointer */ + addi rRTN, rRTN, 1 /* Increment dst pointer */ + rldicl r8, rRTN, 0, 61 /* Recalculate padding */ + + /* src is aligned */ +L(srcaligndstunalign): + ld rWORD, 0(rSRC) + mr rALT, rWORD + li rTMP, 0 /* Check null */ + cmpb rTMP, rWORD, rTMP + cmpdi rTMP, 0 + bne L(bytebybyte) /* Do byte by byte if there is NULL */ + rlwinm r5, rRTN, 3,26,28 /* Calculate padding */ + addi rRTN, rRTN, -1 + subfic r10, r8, 8 + /* write byte by byte till aligned */ +#ifdef __LITTLE_ENDIAN__ + li r11, -8 +#else + li r11, 64 +#endif + mtctr r10 + cmpdi rTMP, r10, 4 + blt L(storebyte) + beq L(equal) + addi rTMP, r10, -4 + mtctr rTMP +L(storebyte): +#ifdef __LITTLE_ENDIAN__ + addi r11, r11, 8 /* Adjust byte pointer on dw */ +#else + addi r11, r11, -8 +#endif + srd rALT, rWORD, r11 stbu rALT, 1(rRTN) - cmpdi rWORD, 0 - bne L(u0) -L(u2): stbu rWORD, 1(rRTN) - blr -L(u1): stbu rALT, 1(rRTN) - blr + bdnz L(storebyte) + + cmpdi rTMP, r10, 4 + blt L(align) + + .align 4 +L(equal): +#ifdef __LITTLE_ENDIAN__ + addi r11, r11, 8 + srd rALT, rWORD, r11 +#else + subfic r11, r11, 64 + sld rALT, rWORD, r11 + srdi rALT, rALT, 32 +#endif + stw rALT, 1(rRTN) + addi rRTN, rRTN, 4 +L(align): + addi rRTN, rRTN, 1 + addi rSRC, rSRC, 8 /* Increment src pointer */ + subfic r10, r5, 64 + li rTMP, 0 + /* dst addr aligned to 8 */ +L(storedouble): + ld rALT, 0(rSRC) /* load next dw */ + cmpb rTMP, rALT, rTMP + cmpdi rTMP, 0 /* check for null on each new dw */ + bne L(null) +#ifdef __LITTLE_ENDIAN__ + srd r9, rWORD, r10 /* bytes from first dw */ + sld r11, rALT, r5 /* bytes from second dw */ +#else + sld r9, rWORD, r10 + srd r11, rALT, r5 +#endif + or r11, r9, r11 /* make as a single dw */ + std r11, 0(rRTN) /* store as std on aligned addr */ + mr rWORD, rALT /* still few bytes left to be written */ + addi rRTN, rRTN, 8 /* increment dst addr */ + addi rSRC, rSRC, 8 /* increment src addr */ + b L(storedouble) /* Loop till NULL */ + + .align 4 + +/* We've hit the end of the string. Do the rest byte-by-byte. */ +L(null): + addi rRTN, rRTN, -1 + mr r10, r5 + mtctr r8 +#ifdef __LITTLE_ENDIAN__ + subfic r10, r10, 64 + addi r10, r10, -8 +#endif + cmpdi rTMP, r8, 4 + blt L(loop) + + /* we can still use stw if leftover >= 4*/ +#ifdef __LITTLE_ENDIAN__ + addi r10, r10, 8 + srd r11, rWORD, r10 +#else + subfic r10, r10, 64 + sld r11, rWORD, r10 + srdi r11, r11, 32 +#endif + stw r11, 1(rRTN) + addi rRTN, rRTN, 4 + + beq L(bytebybyte1) + addi r10, r10, 32 +#ifdef __LITTLE_ENDIAN__ + addi r10, r10, -8 +#else + subfic r10, r10, 64 +#endif + addi rTMP, r8, -4 + mtctr rTMP + /* remaining byte by byte part of first dw */ +L(loop): +#ifdef __LITTLE_ENDIAN__ + addi r10, r10, 8 +#else + addi r10, r10, -8 +#endif + srd rTMP, rWORD, r10 + stbu rTMP, 1(rRTN) + bdnz L(loop) + +L(bytebybyte1): + addi rRTN, rRTN, 1 + /* remaining byte by byte part of second dw */ +L(bytebybyte): + addi rRTN, rRTN, -8 + b L(g1) + END (FUNC_NAME) #ifndef USE_AS_STPCPY |