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[71.245.178.39]) by smtp.googlemail.com with ESMTPSA id h3sm4343105qka.122.2021.04.19.11.43.54 (version=TLS1_3 cipher=TLS_AES_256_GCM_SHA384 bits=256/256); Mon, 19 Apr 2021 11:43:54 -0700 (PDT) To: libc-alpha@sourceware.org Subject: [PATCH v4 1/2] x86: Optimize strlen-evex.S Date: Mon, 19 Apr 2021 14:43:44 -0400 Message-Id: <20210419184345.2576413-1-goldstein.w.n@gmail.com> X-Mailer: git-send-email 2.29.2 MIME-Version: 1.0 X-Spam-Status: No, score=-12.5 required=5.0 tests=BAYES_00, DKIM_SIGNED, DKIM_VALID, DKIM_VALID_AU, DKIM_VALID_EF, FREEMAIL_FROM, GIT_PATCH_0, RCVD_IN_DNSWL_NONE, SPF_HELO_NONE, SPF_PASS, TXREP autolearn=ham autolearn_force=no version=3.4.2 X-Spam-Checker-Version: SpamAssassin 3.4.2 (2018-09-13) on server2.sourceware.org X-BeenThere: libc-alpha@sourceware.org X-Mailman-Version: 2.1.29 Precedence: list List-Id: Libc-alpha mailing list List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , X-Patchwork-Original-From: Noah Goldstein via Libc-alpha From: Noah Goldstein Reply-To: Noah Goldstein Errors-To: libc-alpha-bounces@sourceware.org Sender: "Libc-alpha" No bug. This commit optimizes strlen-evex.S. The optimizations are mostly small things but they add up to roughly 10-30% performance improvement for strlen. The results for strnlen are bit more ambiguous. test-strlen, test-strnlen, test-wcslen, and test-wcsnlen are all passing. Signed-off-by: Noah Goldstein --- sysdeps/x86_64/multiarch/strlen-evex.S | 584 ++++++++++++++----------- 1 file changed, 320 insertions(+), 264 deletions(-) diff --git a/sysdeps/x86_64/multiarch/strlen-evex.S b/sysdeps/x86_64/multiarch/strlen-evex.S index 0583819078..36b28198c8 100644 --- a/sysdeps/x86_64/multiarch/strlen-evex.S +++ b/sysdeps/x86_64/multiarch/strlen-evex.S @@ -29,11 +29,13 @@ # ifdef USE_AS_WCSLEN # define VPCMP vpcmpd # define VPMINU vpminud -# define SHIFT_REG r9d +# define SHIFT_REG ecx +# define CHAR_SIZE 4 # else # define VPCMP vpcmpb # define VPMINU vpminub -# define SHIFT_REG ecx +# define SHIFT_REG edx +# define CHAR_SIZE 1 # endif # define XMMZERO xmm16 @@ -46,132 +48,168 @@ # define YMM6 ymm22 # define VEC_SIZE 32 +# define PAGE_SIZE 4096 +# define LOG_PAGE_SIZE 12 +# define CHAR_PER_VEC (VEC_SIZE / CHAR_SIZE) .section .text.evex,"ax",@progbits ENTRY (STRLEN) # ifdef USE_AS_STRNLEN - /* Check for zero length. */ + /* Check zero length. */ test %RSI_LP, %RSI_LP jz L(zero) -# ifdef USE_AS_WCSLEN - shl $2, %RSI_LP -# elif defined __ILP32__ +# ifdef __ILP32__ /* Clear the upper 32 bits. */ movl %esi, %esi # endif mov %RSI_LP, %R8_LP # endif - movl %edi, %ecx - movq %rdi, %rdx + movl %edi, %eax vpxorq %XMMZERO, %XMMZERO, %XMMZERO - + /* Shift left eax to clear all bits not relevant to page cross + check. This saves 2 bytes of code as opposed to using andl with + PAGE_SIZE - 1. Then compare with PAGE_SIZE - VEC_SIZE shifted + left by the same amount (an imm32 either way). */ + sall $(32 - LOG_PAGE_SIZE), %eax /* Check if we may cross page boundary with one vector load. */ - andl $(2 * VEC_SIZE - 1), %ecx - cmpl $VEC_SIZE, %ecx - ja L(cros_page_boundary) + cmpl $((PAGE_SIZE - VEC_SIZE) << (32 - LOG_PAGE_SIZE)), %eax + ja L(cross_page_boundary) /* Check the first VEC_SIZE bytes. Each bit in K0 represents a null byte. */ VPCMP $0, (%rdi), %YMMZERO, %k0 kmovd %k0, %eax - testl %eax, %eax - # ifdef USE_AS_STRNLEN - jnz L(first_vec_x0_check) - /* Adjust length and check the end of data. */ - subq $VEC_SIZE, %rsi - jbe L(max) -# else - jnz L(first_vec_x0) + /* If length < CHAR_PER_VEC handle special. */ + cmpq $CHAR_PER_VEC, %rsi + jbe L(first_vec_x0) # endif - - /* Align data for aligned loads in the loop. */ - addq $VEC_SIZE, %rdi - andl $(VEC_SIZE - 1), %ecx - andq $-VEC_SIZE, %rdi - + testl %eax, %eax + jz L(aligned_more) + tzcntl %eax, %eax + ret # ifdef USE_AS_STRNLEN - /* Adjust length. */ - addq %rcx, %rsi +L(zero): + xorl %eax, %eax + ret - subq $(VEC_SIZE * 4), %rsi - jbe L(last_4x_vec_or_less) + .p2align 4 +L(first_vec_x0): + /* Set bit for max len so that tzcnt will return min of max len + and position of first match. */ + btsq %rsi, %rax + tzcntl %eax, %eax + ret # endif - jmp L(more_4x_vec) .p2align 4 -L(cros_page_boundary): - andl $(VEC_SIZE - 1), %ecx - andq $-VEC_SIZE, %rdi - -# ifdef USE_AS_WCSLEN - /* NB: Divide shift count by 4 since each bit in K0 represent 4 - bytes. */ - movl %ecx, %SHIFT_REG - sarl $2, %SHIFT_REG +L(first_vec_x1): + tzcntl %eax, %eax + /* Safe to use 32 bit instructions as these are only called for + size = [1, 159]. */ +# ifdef USE_AS_STRNLEN + /* Use ecx which was computed earlier to compute correct value. + */ + leal -(CHAR_PER_VEC * 4 + 1)(%rcx, %rax), %eax +# else + subl %edx, %edi +# ifdef USE_AS_WCSLEN + /* NB: Divide bytes by 4 to get the wchar_t count. */ + sarl $2, %edi +# endif + leal CHAR_PER_VEC(%rdi, %rax), %eax # endif - VPCMP $0, (%rdi), %YMMZERO, %k0 - kmovd %k0, %eax + ret - /* Remove the leading bytes. */ - sarxl %SHIFT_REG, %eax, %eax - testl %eax, %eax - jz L(aligned_more) + .p2align 4 +L(first_vec_x2): tzcntl %eax, %eax -# ifdef USE_AS_WCSLEN - /* NB: Multiply wchar_t count by 4 to get the number of bytes. */ - sall $2, %eax -# endif + /* Safe to use 32 bit instructions as these are only called for + size = [1, 159]. */ # ifdef USE_AS_STRNLEN - /* Check the end of data. */ - cmpq %rax, %rsi - jbe L(max) -# endif - addq %rdi, %rax - addq %rcx, %rax - subq %rdx, %rax -# ifdef USE_AS_WCSLEN - shrq $2, %rax + /* Use ecx which was computed earlier to compute correct value. + */ + leal -(CHAR_PER_VEC * 3 + 1)(%rcx, %rax), %eax +# else + subl %edx, %edi +# ifdef USE_AS_WCSLEN + /* NB: Divide bytes by 4 to get the wchar_t count. */ + sarl $2, %edi +# endif + leal (CHAR_PER_VEC * 2)(%rdi, %rax), %eax # endif ret .p2align 4 -L(aligned_more): +L(first_vec_x3): + tzcntl %eax, %eax + /* Safe to use 32 bit instructions as these are only called for + size = [1, 159]. */ # ifdef USE_AS_STRNLEN - /* "rcx" is less than VEC_SIZE. Calculate "rdx + rcx - VEC_SIZE" - with "rdx - (VEC_SIZE - rcx)" instead of "(rdx + rcx) - VEC_SIZE" - to void possible addition overflow. */ - negq %rcx - addq $VEC_SIZE, %rcx - - /* Check the end of data. */ - subq %rcx, %rsi - jbe L(max) + /* Use ecx which was computed earlier to compute correct value. + */ + leal -(CHAR_PER_VEC * 2 + 1)(%rcx, %rax), %eax +# else + subl %edx, %edi +# ifdef USE_AS_WCSLEN + /* NB: Divide bytes by 4 to get the wchar_t count. */ + sarl $2, %edi +# endif + leal (CHAR_PER_VEC * 3)(%rdi, %rax), %eax # endif + ret - addq $VEC_SIZE, %rdi - + .p2align 4 +L(first_vec_x4): + tzcntl %eax, %eax + /* Safe to use 32 bit instructions as these are only called for + size = [1, 159]. */ # ifdef USE_AS_STRNLEN - subq $(VEC_SIZE * 4), %rsi - jbe L(last_4x_vec_or_less) + /* Use ecx which was computed earlier to compute correct value. + */ + leal -(CHAR_PER_VEC + 1)(%rcx, %rax), %eax +# else + subl %edx, %edi +# ifdef USE_AS_WCSLEN + /* NB: Divide bytes by 4 to get the wchar_t count. */ + sarl $2, %edi +# endif + leal (CHAR_PER_VEC * 4)(%rdi, %rax), %eax # endif + ret -L(more_4x_vec): + .p2align 5 +L(aligned_more): + movq %rdi, %rdx + /* Align data to VEC_SIZE. */ + andq $-(VEC_SIZE), %rdi +L(cross_page_continue): /* Check the first 4 * VEC_SIZE. Only one VEC_SIZE at a time since data is only aligned to VEC_SIZE. */ - VPCMP $0, (%rdi), %YMMZERO, %k0 - kmovd %k0, %eax - testl %eax, %eax - jnz L(first_vec_x0) - +# ifdef USE_AS_STRNLEN + /* + CHAR_SIZE because it simplies the logic in + last_4x_vec_or_less. */ + leaq (VEC_SIZE * 5 + CHAR_SIZE)(%rdi), %rcx + subq %rdx, %rcx +# ifdef USE_AS_WCSLEN + /* NB: Divide bytes by 4 to get the wchar_t count. */ + sarl $2, %ecx +# endif +# endif + /* Load first VEC regardless. */ VPCMP $0, VEC_SIZE(%rdi), %YMMZERO, %k0 +# ifdef USE_AS_STRNLEN + /* Adjust length. If near end handle specially. */ + subq %rcx, %rsi + jb L(last_4x_vec_or_less) +# endif kmovd %k0, %eax testl %eax, %eax jnz L(first_vec_x1) VPCMP $0, (VEC_SIZE * 2)(%rdi), %YMMZERO, %k0 kmovd %k0, %eax - testl %eax, %eax + test %eax, %eax jnz L(first_vec_x2) VPCMP $0, (VEC_SIZE * 3)(%rdi), %YMMZERO, %k0 @@ -179,258 +217,276 @@ L(more_4x_vec): testl %eax, %eax jnz L(first_vec_x3) - addq $(VEC_SIZE * 4), %rdi - -# ifdef USE_AS_STRNLEN - subq $(VEC_SIZE * 4), %rsi - jbe L(last_4x_vec_or_less) -# endif - - /* Align data to 4 * VEC_SIZE. */ - movq %rdi, %rcx - andl $(4 * VEC_SIZE - 1), %ecx - andq $-(4 * VEC_SIZE), %rdi + VPCMP $0, (VEC_SIZE * 4)(%rdi), %YMMZERO, %k0 + kmovd %k0, %eax + testl %eax, %eax + jnz L(first_vec_x4) + addq $VEC_SIZE, %rdi # ifdef USE_AS_STRNLEN - /* Adjust length. */ + /* Check if at last VEC_SIZE * 4 length. */ + cmpq $(CHAR_PER_VEC * 4 - 1), %rsi + jbe L(last_4x_vec_or_less_load) + movl %edi, %ecx + andl $(VEC_SIZE * 4 - 1), %ecx +# ifdef USE_AS_WCSLEN + /* NB: Divide bytes by 4 to get the wchar_t count. */ + sarl $2, %ecx +# endif + /* Readjust length. */ addq %rcx, %rsi # endif + /* Align data to VEC_SIZE * 4. */ + andq $-(VEC_SIZE * 4), %rdi + /* Compare 4 * VEC at a time forward. */ .p2align 4 L(loop_4x_vec): - /* Compare 4 * VEC at a time forward. */ - VMOVA (%rdi), %YMM1 - VMOVA VEC_SIZE(%rdi), %YMM2 - VMOVA (VEC_SIZE * 2)(%rdi), %YMM3 - VMOVA (VEC_SIZE * 3)(%rdi), %YMM4 - - VPMINU %YMM1, %YMM2, %YMM5 - VPMINU %YMM3, %YMM4, %YMM6 + /* Load first VEC regardless. */ + VMOVA (VEC_SIZE * 4)(%rdi), %YMM1 +# ifdef USE_AS_STRNLEN + /* Break if at end of length. */ + subq $(CHAR_PER_VEC * 4), %rsi + jb L(last_4x_vec_or_less_cmpeq) +# endif + /* Save some code size by microfusing VPMINU with the load. Since + the matches in ymm2/ymm4 can only be returned if there where no + matches in ymm1/ymm3 respectively there is no issue with overlap. + */ + VPMINU (VEC_SIZE * 5)(%rdi), %YMM1, %YMM2 + VMOVA (VEC_SIZE * 6)(%rdi), %YMM3 + VPMINU (VEC_SIZE * 7)(%rdi), %YMM3, %YMM4 + + VPCMP $0, %YMM2, %YMMZERO, %k0 + VPCMP $0, %YMM4, %YMMZERO, %k1 + subq $-(VEC_SIZE * 4), %rdi + kortestd %k0, %k1 + jz L(loop_4x_vec) + + /* Check if end was in first half. */ + kmovd %k0, %eax + subq %rdx, %rdi +# ifdef USE_AS_WCSLEN + shrq $2, %rdi +# endif + testl %eax, %eax + jz L(second_vec_return) - VPMINU %YMM5, %YMM6, %YMM5 - VPCMP $0, %YMM5, %YMMZERO, %k0 - ktestd %k0, %k0 - jnz L(4x_vec_end) + VPCMP $0, %YMM1, %YMMZERO, %k2 + kmovd %k2, %edx + /* Combine VEC1 matches (edx) with VEC2 matches (eax). */ +# ifdef USE_AS_WCSLEN + sall $CHAR_PER_VEC, %eax + orl %edx, %eax + tzcntl %eax, %eax +# else + salq $CHAR_PER_VEC, %rax + orq %rdx, %rax + tzcntq %rax, %rax +# endif + addq %rdi, %rax + ret - addq $(VEC_SIZE * 4), %rdi -# ifndef USE_AS_STRNLEN - jmp L(loop_4x_vec) -# else - subq $(VEC_SIZE * 4), %rsi - ja L(loop_4x_vec) +# ifdef USE_AS_STRNLEN +L(last_4x_vec_or_less_load): + /* Depending on entry adjust rdi / prepare first VEC in YMM1. */ + VMOVA (VEC_SIZE * 4)(%rdi), %YMM1 +L(last_4x_vec_or_less_cmpeq): + VPCMP $0, %YMM1, %YMMZERO, %k0 + addq $(VEC_SIZE * 3), %rdi L(last_4x_vec_or_less): - /* Less than 4 * VEC and aligned to VEC_SIZE. */ - addl $(VEC_SIZE * 2), %esi - jle L(last_2x_vec) - - VPCMP $0, (%rdi), %YMMZERO, %k0 kmovd %k0, %eax + /* If remaining length > VEC_SIZE * 2. This works if esi is off by + VEC_SIZE * 4. */ + testl $(CHAR_PER_VEC * 2), %esi + jnz L(last_4x_vec) + + /* length may have been negative or positive by an offset of + CHAR_PER_VEC * 4 depending on where this was called from. This + fixes that. */ + andl $(CHAR_PER_VEC * 4 - 1), %esi testl %eax, %eax - jnz L(first_vec_x0) + jnz L(last_vec_x1_check) - VPCMP $0, VEC_SIZE(%rdi), %YMMZERO, %k0 - kmovd %k0, %eax - testl %eax, %eax - jnz L(first_vec_x1) + /* Check the end of data. */ + subl $CHAR_PER_VEC, %esi + jb L(max) VPCMP $0, (VEC_SIZE * 2)(%rdi), %YMMZERO, %k0 kmovd %k0, %eax - testl %eax, %eax - jnz L(first_vec_x2_check) - subl $VEC_SIZE, %esi - jle L(max) + tzcntl %eax, %eax + /* Check the end of data. */ + cmpl %eax, %esi + jb L(max) - VPCMP $0, (VEC_SIZE * 3)(%rdi), %YMMZERO, %k0 - kmovd %k0, %eax - testl %eax, %eax - jnz L(first_vec_x3_check) + subq %rdx, %rdi +# ifdef USE_AS_WCSLEN + /* NB: Divide bytes by 4 to get the wchar_t count. */ + sarq $2, %rdi +# endif + leaq (CHAR_PER_VEC * 2)(%rdi, %rax), %rax + ret +L(max): movq %r8, %rax + ret +# endif + + /* Placed here in strnlen so that the jcc L(last_4x_vec_or_less) + in the 4x VEC loop can use 2 byte encoding. */ + .p2align 4 +L(second_vec_return): + VPCMP $0, %YMM3, %YMMZERO, %k0 + /* Combine YMM3 matches (k0) with YMM4 matches (k1). */ +# ifdef USE_AS_WCSLEN + kunpckbw %k0, %k1, %k0 + kmovd %k0, %eax + tzcntl %eax, %eax +# else + kunpckdq %k0, %k1, %k0 + kmovq %k0, %rax + tzcntq %rax, %rax +# endif + leaq (CHAR_PER_VEC * 2)(%rdi, %rax), %rax + ret + + +# ifdef USE_AS_STRNLEN +L(last_vec_x1_check): + tzcntl %eax, %eax + /* Check the end of data. */ + cmpl %eax, %esi + jb L(max) + subq %rdx, %rdi # ifdef USE_AS_WCSLEN - shrq $2, %rax + /* NB: Divide bytes by 4 to get the wchar_t count. */ + sarq $2, %rdi # endif + leaq (CHAR_PER_VEC)(%rdi, %rax), %rax ret .p2align 4 -L(last_2x_vec): - addl $(VEC_SIZE * 2), %esi +L(last_4x_vec): + /* Test first 2x VEC normally. */ + testl %eax, %eax + jnz L(last_vec_x1) - VPCMP $0, (%rdi), %YMMZERO, %k0 + VPCMP $0, (VEC_SIZE * 2)(%rdi), %YMMZERO, %k0 kmovd %k0, %eax testl %eax, %eax - jnz L(first_vec_x0_check) - subl $VEC_SIZE, %esi - jle L(max) + jnz L(last_vec_x2) - VPCMP $0, VEC_SIZE(%rdi), %YMMZERO, %k0 + /* Normalize length. */ + andl $(CHAR_PER_VEC * 4 - 1), %esi + VPCMP $0, (VEC_SIZE * 3)(%rdi), %YMMZERO, %k0 kmovd %k0, %eax testl %eax, %eax - jnz L(first_vec_x1_check) - movq %r8, %rax -# ifdef USE_AS_WCSLEN - shrq $2, %rax -# endif - ret + jnz L(last_vec_x3) - .p2align 4 -L(first_vec_x0_check): + /* Check the end of data. */ + subl $(CHAR_PER_VEC * 3), %esi + jb L(max) + + VPCMP $0, (VEC_SIZE * 4)(%rdi), %YMMZERO, %k0 + kmovd %k0, %eax tzcntl %eax, %eax -# ifdef USE_AS_WCSLEN - /* NB: Multiply wchar_t count by 4 to get the number of bytes. */ - sall $2, %eax -# endif /* Check the end of data. */ - cmpq %rax, %rsi - jbe L(max) - addq %rdi, %rax - subq %rdx, %rax + cmpl %eax, %esi + jb L(max_end) + + subq %rdx, %rdi # ifdef USE_AS_WCSLEN - shrq $2, %rax + /* NB: Divide bytes by 4 to get the wchar_t count. */ + sarq $2, %rdi # endif + leaq (CHAR_PER_VEC * 4)(%rdi, %rax), %rax ret .p2align 4 -L(first_vec_x1_check): +L(last_vec_x1): tzcntl %eax, %eax + subq %rdx, %rdi # ifdef USE_AS_WCSLEN - /* NB: Multiply wchar_t count by 4 to get the number of bytes. */ - sall $2, %eax -# endif - /* Check the end of data. */ - cmpq %rax, %rsi - jbe L(max) - addq $VEC_SIZE, %rax - addq %rdi, %rax - subq %rdx, %rax -# ifdef USE_AS_WCSLEN - shrq $2, %rax + /* NB: Divide bytes by 4 to get the wchar_t count. */ + sarq $2, %rdi # endif + leaq (CHAR_PER_VEC)(%rdi, %rax), %rax ret .p2align 4 -L(first_vec_x2_check): +L(last_vec_x2): tzcntl %eax, %eax + subq %rdx, %rdi # ifdef USE_AS_WCSLEN - /* NB: Multiply wchar_t count by 4 to get the number of bytes. */ - sall $2, %eax -# endif - /* Check the end of data. */ - cmpq %rax, %rsi - jbe L(max) - addq $(VEC_SIZE * 2), %rax - addq %rdi, %rax - subq %rdx, %rax -# ifdef USE_AS_WCSLEN - shrq $2, %rax + /* NB: Divide bytes by 4 to get the wchar_t count. */ + sarq $2, %rdi # endif + leaq (CHAR_PER_VEC * 2)(%rdi, %rax), %rax ret .p2align 4 -L(first_vec_x3_check): +L(last_vec_x3): tzcntl %eax, %eax -# ifdef USE_AS_WCSLEN - /* NB: Multiply wchar_t count by 4 to get the number of bytes. */ - sall $2, %eax -# endif + subl $(CHAR_PER_VEC * 2), %esi /* Check the end of data. */ - cmpq %rax, %rsi - jbe L(max) - addq $(VEC_SIZE * 3), %rax - addq %rdi, %rax - subq %rdx, %rax + cmpl %eax, %esi + jb L(max_end) + subq %rdx, %rdi # ifdef USE_AS_WCSLEN - shrq $2, %rax + /* NB: Divide bytes by 4 to get the wchar_t count. */ + sarq $2, %rdi # endif + leaq (CHAR_PER_VEC * 3)(%rdi, %rax), %rax ret - - .p2align 4 -L(max): +L(max_end): movq %r8, %rax -# ifdef USE_AS_WCSLEN - shrq $2, %rax -# endif - ret - - .p2align 4 -L(zero): - xorl %eax, %eax ret # endif + /* Cold case for crossing page with first load. */ .p2align 4 -L(first_vec_x0): - tzcntl %eax, %eax -# ifdef USE_AS_WCSLEN - /* NB: Multiply wchar_t count by 4 to get the number of bytes. */ - sall $2, %eax -# endif - addq %rdi, %rax - subq %rdx, %rax +L(cross_page_boundary): + movq %rdi, %rdx + /* Align data to VEC_SIZE. */ + andq $-VEC_SIZE, %rdi + VPCMP $0, (%rdi), %YMMZERO, %k0 + kmovd %k0, %eax + /* Remove the leading bytes. */ # ifdef USE_AS_WCSLEN - shrq $2, %rax + /* NB: Divide shift count by 4 since each bit in K0 represent 4 + bytes. */ + movl %edx, %ecx + shrl $2, %ecx + andl $(CHAR_PER_VEC - 1), %ecx # endif - ret - - .p2align 4 -L(first_vec_x1): + /* SHIFT_REG is ecx for USE_AS_WCSLEN and edx otherwise. */ + sarxl %SHIFT_REG, %eax, %eax + testl %eax, %eax +# ifndef USE_AS_STRNLEN + jz L(cross_page_continue) tzcntl %eax, %eax -# ifdef USE_AS_WCSLEN - /* NB: Multiply wchar_t count by 4 to get the number of bytes. */ - sall $2, %eax -# endif - addq $VEC_SIZE, %rax - addq %rdi, %rax - subq %rdx, %rax -# ifdef USE_AS_WCSLEN - shrq $2, %rax -# endif ret - - .p2align 4 -L(first_vec_x2): - tzcntl %eax, %eax -# ifdef USE_AS_WCSLEN - /* NB: Multiply wchar_t count by 4 to get the number of bytes. */ - sall $2, %eax -# endif - addq $(VEC_SIZE * 2), %rax - addq %rdi, %rax - subq %rdx, %rax -# ifdef USE_AS_WCSLEN - shrq $2, %rax -# endif +# else + jnz L(cross_page_less_vec) +# ifndef USE_AS_WCSLEN + movl %edx, %ecx + andl $(CHAR_PER_VEC - 1), %ecx +# endif + movl $CHAR_PER_VEC, %eax + subl %ecx, %eax + /* Check the end of data. */ + cmpq %rax, %rsi + ja L(cross_page_continue) + movl %esi, %eax ret - - .p2align 4 -L(4x_vec_end): - VPCMP $0, %YMM1, %YMMZERO, %k0 - kmovd %k0, %eax - testl %eax, %eax - jnz L(first_vec_x0) - VPCMP $0, %YMM2, %YMMZERO, %k1 - kmovd %k1, %eax - testl %eax, %eax - jnz L(first_vec_x1) - VPCMP $0, %YMM3, %YMMZERO, %k2 - kmovd %k2, %eax - testl %eax, %eax - jnz L(first_vec_x2) - VPCMP $0, %YMM4, %YMMZERO, %k3 - kmovd %k3, %eax -L(first_vec_x3): +L(cross_page_less_vec): tzcntl %eax, %eax -# ifdef USE_AS_WCSLEN - /* NB: Multiply wchar_t count by 4 to get the number of bytes. */ - sall $2, %eax -# endif - addq $(VEC_SIZE * 3), %rax - addq %rdi, %rax - subq %rdx, %rax -# ifdef USE_AS_WCSLEN - shrq $2, %rax -# endif + /* Select min of length and position of first null. */ + cmpq %rax, %rsi + cmovb %esi, %eax ret +# endif END (STRLEN) #endif