mirror of
https://github.com/henrydcase/pqc.git
synced 2024-11-27 01:41:40 +00:00
ac2c20045c
* Add McEliece reference implementations * Add Vec implementations of McEliece * Add sse implementations * Add AVX2 implementations * Get rid of stuff not supported by Mac ABI * restrict to two cores * Ditch .data files * Remove .hidden from all .S files * speed up duplicate consistency tests by batching * make cpuinfo more robust * Hope to stabilize macos cpuinfo without ccache * Revert "Hope to stabilize macos cpuinfo without ccache" This reverts commit 6129c3cabe1abbc8b956bc87e902a698e32bf322. * Just hardcode what's available at travis * Fixed-size types in api.h * namespace all header files in mceliece * Ditch operations.h * Get rid of static inline functions * fixup! Ditch operations.h
531 lines
13 KiB
ArmAsm
531 lines
13 KiB
ArmAsm
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# qhasm: int64 input_0
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# qhasm: int64 input_1
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# qhasm: int64 input_2
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# qhasm: int64 input_3
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# qhasm: int64 input_4
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# qhasm: int64 input_5
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# qhasm: stack64 input_6
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# qhasm: stack64 input_7
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# qhasm: int64 caller_r11
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# qhasm: int64 caller_r12
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# qhasm: int64 caller_r13
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# qhasm: int64 caller_r14
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# qhasm: int64 caller_r15
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# qhasm: int64 caller_rbx
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# qhasm: int64 caller_rbp
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# qhasm: int64 b64
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# qhasm: int64 synd
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# qhasm: int64 addr
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# qhasm: int64 c
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# qhasm: int64 c_all
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# qhasm: int64 row
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# qhasm: int64 p
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# qhasm: int64 e
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# qhasm: int64 s
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# qhasm: reg256 pp
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# qhasm: reg256 ee
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# qhasm: reg256 ss
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# qhasm: int64 buf_ptr
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# qhasm: stack256 buf
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# qhasm: enter syndrome_asm
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.p2align 5
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.global _PQCLEAN_MCELIECE348864_AVX_syndrome_asm
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.global PQCLEAN_MCELIECE348864_AVX_syndrome_asm
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_PQCLEAN_MCELIECE348864_AVX_syndrome_asm:
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PQCLEAN_MCELIECE348864_AVX_syndrome_asm:
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mov %rsp,%r11
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and $31,%r11
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add $32,%r11
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sub %r11,%rsp
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# qhasm: input_1 += 260780
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# asm 1: add $260780,<input_1=int64#2
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# asm 2: add $260780,<input_1=%rsi
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add $260780,%rsi
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# qhasm: buf_ptr = &buf
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# asm 1: leaq <buf=stack256#1,>buf_ptr=int64#4
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# asm 2: leaq <buf=0(%rsp),>buf_ptr=%rcx
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leaq 0(%rsp),%rcx
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# qhasm: row = 768
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# asm 1: mov $768,>row=int64#5
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# asm 2: mov $768,>row=%r8
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mov $768,%r8
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# qhasm: loop:
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._loop:
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# qhasm: row -= 1
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# asm 1: sub $1,<row=int64#5
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# asm 2: sub $1,<row=%r8
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sub $1,%r8
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# qhasm: ss = mem256[ input_1 + 0 ]
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# asm 1: vmovupd 0(<input_1=int64#2),>ss=reg256#1
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# asm 2: vmovupd 0(<input_1=%rsi),>ss=%ymm0
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vmovupd 0(%rsi),%ymm0
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# qhasm: ee = mem256[ input_2 + 96 ]
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# asm 1: vmovupd 96(<input_2=int64#3),>ee=reg256#2
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# asm 2: vmovupd 96(<input_2=%rdx),>ee=%ymm1
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vmovupd 96(%rdx),%ymm1
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# qhasm: ss &= ee
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# asm 1: vpand <ee=reg256#2,<ss=reg256#1,<ss=reg256#1
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# asm 2: vpand <ee=%ymm1,<ss=%ymm0,<ss=%ymm0
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vpand %ymm1,%ymm0,%ymm0
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# qhasm: pp = mem256[ input_1 + 32 ]
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# asm 1: vmovupd 32(<input_1=int64#2),>pp=reg256#2
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# asm 2: vmovupd 32(<input_1=%rsi),>pp=%ymm1
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vmovupd 32(%rsi),%ymm1
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# qhasm: ee = mem256[ input_2 + 128 ]
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# asm 1: vmovupd 128(<input_2=int64#3),>ee=reg256#3
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# asm 2: vmovupd 128(<input_2=%rdx),>ee=%ymm2
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vmovupd 128(%rdx),%ymm2
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# qhasm: pp &= ee
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# asm 1: vpand <ee=reg256#3,<pp=reg256#2,<pp=reg256#2
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# asm 2: vpand <ee=%ymm2,<pp=%ymm1,<pp=%ymm1
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vpand %ymm2,%ymm1,%ymm1
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# qhasm: ss ^= pp
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# asm 1: vpxor <pp=reg256#2,<ss=reg256#1,<ss=reg256#1
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# asm 2: vpxor <pp=%ymm1,<ss=%ymm0,<ss=%ymm0
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vpxor %ymm1,%ymm0,%ymm0
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# qhasm: pp = mem256[ input_1 + 64 ]
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# asm 1: vmovupd 64(<input_1=int64#2),>pp=reg256#2
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# asm 2: vmovupd 64(<input_1=%rsi),>pp=%ymm1
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vmovupd 64(%rsi),%ymm1
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# qhasm: ee = mem256[ input_2 + 160 ]
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# asm 1: vmovupd 160(<input_2=int64#3),>ee=reg256#3
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# asm 2: vmovupd 160(<input_2=%rdx),>ee=%ymm2
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vmovupd 160(%rdx),%ymm2
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# qhasm: pp &= ee
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# asm 1: vpand <ee=reg256#3,<pp=reg256#2,<pp=reg256#2
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# asm 2: vpand <ee=%ymm2,<pp=%ymm1,<pp=%ymm1
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vpand %ymm2,%ymm1,%ymm1
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# qhasm: ss ^= pp
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# asm 1: vpxor <pp=reg256#2,<ss=reg256#1,<ss=reg256#1
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# asm 2: vpxor <pp=%ymm1,<ss=%ymm0,<ss=%ymm0
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vpxor %ymm1,%ymm0,%ymm0
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# qhasm: pp = mem256[ input_1 + 96 ]
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# asm 1: vmovupd 96(<input_1=int64#2),>pp=reg256#2
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# asm 2: vmovupd 96(<input_1=%rsi),>pp=%ymm1
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vmovupd 96(%rsi),%ymm1
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# qhasm: ee = mem256[ input_2 + 192 ]
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# asm 1: vmovupd 192(<input_2=int64#3),>ee=reg256#3
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# asm 2: vmovupd 192(<input_2=%rdx),>ee=%ymm2
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vmovupd 192(%rdx),%ymm2
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# qhasm: pp &= ee
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# asm 1: vpand <ee=reg256#3,<pp=reg256#2,<pp=reg256#2
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# asm 2: vpand <ee=%ymm2,<pp=%ymm1,<pp=%ymm1
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vpand %ymm2,%ymm1,%ymm1
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# qhasm: ss ^= pp
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# asm 1: vpxor <pp=reg256#2,<ss=reg256#1,<ss=reg256#1
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# asm 2: vpxor <pp=%ymm1,<ss=%ymm0,<ss=%ymm0
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vpxor %ymm1,%ymm0,%ymm0
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# qhasm: pp = mem256[ input_1 + 128 ]
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# asm 1: vmovupd 128(<input_1=int64#2),>pp=reg256#2
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# asm 2: vmovupd 128(<input_1=%rsi),>pp=%ymm1
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vmovupd 128(%rsi),%ymm1
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# qhasm: ee = mem256[ input_2 + 224 ]
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# asm 1: vmovupd 224(<input_2=int64#3),>ee=reg256#3
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# asm 2: vmovupd 224(<input_2=%rdx),>ee=%ymm2
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vmovupd 224(%rdx),%ymm2
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# qhasm: pp &= ee
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# asm 1: vpand <ee=reg256#3,<pp=reg256#2,<pp=reg256#2
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# asm 2: vpand <ee=%ymm2,<pp=%ymm1,<pp=%ymm1
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vpand %ymm2,%ymm1,%ymm1
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# qhasm: ss ^= pp
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# asm 1: vpxor <pp=reg256#2,<ss=reg256#1,<ss=reg256#1
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# asm 2: vpxor <pp=%ymm1,<ss=%ymm0,<ss=%ymm0
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vpxor %ymm1,%ymm0,%ymm0
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# qhasm: pp = mem256[ input_1 + 160 ]
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# asm 1: vmovupd 160(<input_1=int64#2),>pp=reg256#2
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# asm 2: vmovupd 160(<input_1=%rsi),>pp=%ymm1
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vmovupd 160(%rsi),%ymm1
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# qhasm: ee = mem256[ input_2 + 256 ]
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# asm 1: vmovupd 256(<input_2=int64#3),>ee=reg256#3
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# asm 2: vmovupd 256(<input_2=%rdx),>ee=%ymm2
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vmovupd 256(%rdx),%ymm2
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# qhasm: pp &= ee
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# asm 1: vpand <ee=reg256#3,<pp=reg256#2,<pp=reg256#2
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# asm 2: vpand <ee=%ymm2,<pp=%ymm1,<pp=%ymm1
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vpand %ymm2,%ymm1,%ymm1
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# qhasm: ss ^= pp
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# asm 1: vpxor <pp=reg256#2,<ss=reg256#1,<ss=reg256#1
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# asm 2: vpxor <pp=%ymm1,<ss=%ymm0,<ss=%ymm0
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vpxor %ymm1,%ymm0,%ymm0
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# qhasm: pp = mem256[ input_1 + 192 ]
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# asm 1: vmovupd 192(<input_1=int64#2),>pp=reg256#2
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# asm 2: vmovupd 192(<input_1=%rsi),>pp=%ymm1
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vmovupd 192(%rsi),%ymm1
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# qhasm: ee = mem256[ input_2 + 288 ]
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# asm 1: vmovupd 288(<input_2=int64#3),>ee=reg256#3
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# asm 2: vmovupd 288(<input_2=%rdx),>ee=%ymm2
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vmovupd 288(%rdx),%ymm2
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# qhasm: pp &= ee
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# asm 1: vpand <ee=reg256#3,<pp=reg256#2,<pp=reg256#2
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# asm 2: vpand <ee=%ymm2,<pp=%ymm1,<pp=%ymm1
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vpand %ymm2,%ymm1,%ymm1
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# qhasm: ss ^= pp
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# asm 1: vpxor <pp=reg256#2,<ss=reg256#1,<ss=reg256#1
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# asm 2: vpxor <pp=%ymm1,<ss=%ymm0,<ss=%ymm0
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vpxor %ymm1,%ymm0,%ymm0
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# qhasm: pp = mem256[ input_1 + 224 ]
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# asm 1: vmovupd 224(<input_1=int64#2),>pp=reg256#2
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# asm 2: vmovupd 224(<input_1=%rsi),>pp=%ymm1
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vmovupd 224(%rsi),%ymm1
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# qhasm: ee = mem256[ input_2 + 320 ]
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# asm 1: vmovupd 320(<input_2=int64#3),>ee=reg256#3
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# asm 2: vmovupd 320(<input_2=%rdx),>ee=%ymm2
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vmovupd 320(%rdx),%ymm2
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# qhasm: pp &= ee
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# asm 1: vpand <ee=reg256#3,<pp=reg256#2,<pp=reg256#2
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# asm 2: vpand <ee=%ymm2,<pp=%ymm1,<pp=%ymm1
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vpand %ymm2,%ymm1,%ymm1
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# qhasm: ss ^= pp
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# asm 1: vpxor <pp=reg256#2,<ss=reg256#1,<ss=reg256#1
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# asm 2: vpxor <pp=%ymm1,<ss=%ymm0,<ss=%ymm0
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vpxor %ymm1,%ymm0,%ymm0
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# qhasm: pp = mem256[ input_1 + 256 ]
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# asm 1: vmovupd 256(<input_1=int64#2),>pp=reg256#2
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# asm 2: vmovupd 256(<input_1=%rsi),>pp=%ymm1
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vmovupd 256(%rsi),%ymm1
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# qhasm: ee = mem256[ input_2 + 352 ]
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# asm 1: vmovupd 352(<input_2=int64#3),>ee=reg256#3
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# asm 2: vmovupd 352(<input_2=%rdx),>ee=%ymm2
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vmovupd 352(%rdx),%ymm2
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# qhasm: pp &= ee
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# asm 1: vpand <ee=reg256#3,<pp=reg256#2,<pp=reg256#2
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# asm 2: vpand <ee=%ymm2,<pp=%ymm1,<pp=%ymm1
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vpand %ymm2,%ymm1,%ymm1
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# qhasm: ss ^= pp
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# asm 1: vpxor <pp=reg256#2,<ss=reg256#1,<ss=reg256#1
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# asm 2: vpxor <pp=%ymm1,<ss=%ymm0,<ss=%ymm0
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vpxor %ymm1,%ymm0,%ymm0
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# qhasm: pp = mem256[ input_1 + 288 ]
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# asm 1: vmovupd 288(<input_1=int64#2),>pp=reg256#2
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# asm 2: vmovupd 288(<input_1=%rsi),>pp=%ymm1
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vmovupd 288(%rsi),%ymm1
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# qhasm: ee = mem256[ input_2 + 384 ]
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# asm 1: vmovupd 384(<input_2=int64#3),>ee=reg256#3
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# asm 2: vmovupd 384(<input_2=%rdx),>ee=%ymm2
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vmovupd 384(%rdx),%ymm2
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# qhasm: pp &= ee
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# asm 1: vpand <ee=reg256#3,<pp=reg256#2,<pp=reg256#2
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# asm 2: vpand <ee=%ymm2,<pp=%ymm1,<pp=%ymm1
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vpand %ymm2,%ymm1,%ymm1
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# qhasm: ss ^= pp
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# asm 1: vpxor <pp=reg256#2,<ss=reg256#1,<ss=reg256#1
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# asm 2: vpxor <pp=%ymm1,<ss=%ymm0,<ss=%ymm0
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vpxor %ymm1,%ymm0,%ymm0
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# qhasm: buf = ss
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# asm 1: vmovapd <ss=reg256#1,>buf=stack256#1
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# asm 2: vmovapd <ss=%ymm0,>buf=0(%rsp)
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vmovapd %ymm0,0(%rsp)
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# qhasm: s = *(uint64 *)(input_1 + 320)
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# asm 1: movq 320(<input_1=int64#2),>s=int64#6
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# asm 2: movq 320(<input_1=%rsi),>s=%r9
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movq 320(%rsi),%r9
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# qhasm: e = *(uint64 *)(input_2 + 416)
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# asm 1: movq 416(<input_2=int64#3),>e=int64#7
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# asm 2: movq 416(<input_2=%rdx),>e=%rax
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movq 416(%rdx),%rax
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# qhasm: s &= e
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# asm 1: and <e=int64#7,<s=int64#6
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# asm 2: and <e=%rax,<s=%r9
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and %rax,%r9
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# qhasm: p = *(uint64 *)(input_1 + 328)
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# asm 1: movq 328(<input_1=int64#2),>p=int64#7
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# asm 2: movq 328(<input_1=%rsi),>p=%rax
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movq 328(%rsi),%rax
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# qhasm: e = *(uint64 *)(input_2 + 424)
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# asm 1: movq 424(<input_2=int64#3),>e=int64#8
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# asm 2: movq 424(<input_2=%rdx),>e=%r10
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movq 424(%rdx),%r10
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# qhasm: p &= e
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# asm 1: and <e=int64#8,<p=int64#7
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# asm 2: and <e=%r10,<p=%rax
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and %r10,%rax
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# qhasm: s ^= p
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# asm 1: xor <p=int64#7,<s=int64#6
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# asm 2: xor <p=%rax,<s=%r9
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xor %rax,%r9
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# qhasm: p = *(uint32 *)(input_1 + 336)
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# asm 1: movl 336(<input_1=int64#2),>p=int64#7d
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# asm 2: movl 336(<input_1=%rsi),>p=%eax
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movl 336(%rsi),%eax
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# qhasm: e = *(uint32 *)(input_2 + 432)
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# asm 1: movl 432(<input_2=int64#3),>e=int64#8d
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# asm 2: movl 432(<input_2=%rdx),>e=%r10d
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movl 432(%rdx),%r10d
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# qhasm: p &= e
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# asm 1: and <e=int64#8,<p=int64#7
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# asm 2: and <e=%r10,<p=%rax
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and %r10,%rax
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# qhasm: s ^= p
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# asm 1: xor <p=int64#7,<s=int64#6
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# asm 2: xor <p=%rax,<s=%r9
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xor %rax,%r9
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# qhasm: c_all = count(s)
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# asm 1: popcnt <s=int64#6, >c_all=int64#6
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# asm 2: popcnt <s=%r9, >c_all=%r9
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popcnt %r9, %r9
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# qhasm: b64 = mem64[ buf_ptr + 0 ]
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# asm 1: movq 0(<buf_ptr=int64#4),>b64=int64#7
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# asm 2: movq 0(<buf_ptr=%rcx),>b64=%rax
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movq 0(%rcx),%rax
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# qhasm: c = count(b64)
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# asm 1: popcnt <b64=int64#7, >c=int64#7
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# asm 2: popcnt <b64=%rax, >c=%rax
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popcnt %rax, %rax
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# qhasm: c_all ^= c
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# asm 1: xor <c=int64#7,<c_all=int64#6
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# asm 2: xor <c=%rax,<c_all=%r9
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xor %rax,%r9
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# qhasm: b64 = mem64[ buf_ptr + 8 ]
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# asm 1: movq 8(<buf_ptr=int64#4),>b64=int64#7
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# asm 2: movq 8(<buf_ptr=%rcx),>b64=%rax
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movq 8(%rcx),%rax
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# qhasm: c = count(b64)
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# asm 1: popcnt <b64=int64#7, >c=int64#7
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# asm 2: popcnt <b64=%rax, >c=%rax
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popcnt %rax, %rax
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# qhasm: c_all ^= c
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# asm 1: xor <c=int64#7,<c_all=int64#6
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# asm 2: xor <c=%rax,<c_all=%r9
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xor %rax,%r9
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# qhasm: b64 = mem64[ buf_ptr + 16 ]
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# asm 1: movq 16(<buf_ptr=int64#4),>b64=int64#7
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# asm 2: movq 16(<buf_ptr=%rcx),>b64=%rax
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movq 16(%rcx),%rax
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|
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# qhasm: c = count(b64)
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# asm 1: popcnt <b64=int64#7, >c=int64#7
|
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# asm 2: popcnt <b64=%rax, >c=%rax
|
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popcnt %rax, %rax
|
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|
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# qhasm: c_all ^= c
|
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# asm 1: xor <c=int64#7,<c_all=int64#6
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# asm 2: xor <c=%rax,<c_all=%r9
|
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xor %rax,%r9
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|
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# qhasm: b64 = mem64[ buf_ptr + 24 ]
|
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# asm 1: movq 24(<buf_ptr=int64#4),>b64=int64#7
|
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# asm 2: movq 24(<buf_ptr=%rcx),>b64=%rax
|
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movq 24(%rcx),%rax
|
|
|
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# qhasm: c = count(b64)
|
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# asm 1: popcnt <b64=int64#7, >c=int64#7
|
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# asm 2: popcnt <b64=%rax, >c=%rax
|
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popcnt %rax, %rax
|
|
|
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# qhasm: c_all ^= c
|
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# asm 1: xor <c=int64#7,<c_all=int64#6
|
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# asm 2: xor <c=%rax,<c_all=%r9
|
|
xor %rax,%r9
|
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|
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# qhasm: addr = row
|
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# asm 1: mov <row=int64#5,>addr=int64#7
|
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# asm 2: mov <row=%r8,>addr=%rax
|
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mov %r8,%rax
|
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|
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# qhasm: (uint64) addr >>= 3
|
|
# asm 1: shr $3,<addr=int64#7
|
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# asm 2: shr $3,<addr=%rax
|
|
shr $3,%rax
|
|
|
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# qhasm: addr += input_0
|
|
# asm 1: add <input_0=int64#1,<addr=int64#7
|
|
# asm 2: add <input_0=%rdi,<addr=%rax
|
|
add %rdi,%rax
|
|
|
|
# qhasm: synd = *(uint8 *) (addr + 0)
|
|
# asm 1: movzbq 0(<addr=int64#7),>synd=int64#8
|
|
# asm 2: movzbq 0(<addr=%rax),>synd=%r10
|
|
movzbq 0(%rax),%r10
|
|
|
|
# qhasm: synd <<= 1
|
|
# asm 1: shl $1,<synd=int64#8
|
|
# asm 2: shl $1,<synd=%r10
|
|
shl $1,%r10
|
|
|
|
# qhasm: (uint32) c_all &= 1
|
|
# asm 1: and $1,<c_all=int64#6d
|
|
# asm 2: and $1,<c_all=%r9d
|
|
and $1,%r9d
|
|
|
|
# qhasm: synd |= c_all
|
|
# asm 1: or <c_all=int64#6,<synd=int64#8
|
|
# asm 2: or <c_all=%r9,<synd=%r10
|
|
or %r9,%r10
|
|
|
|
# qhasm: *(uint8 *) (addr + 0) = synd
|
|
# asm 1: movb <synd=int64#8b,0(<addr=int64#7)
|
|
# asm 2: movb <synd=%r10b,0(<addr=%rax)
|
|
movb %r10b,0(%rax)
|
|
|
|
# qhasm: input_1 -= 340
|
|
# asm 1: sub $340,<input_1=int64#2
|
|
# asm 2: sub $340,<input_1=%rsi
|
|
sub $340,%rsi
|
|
|
|
# qhasm: =? row-0
|
|
# asm 1: cmp $0,<row=int64#5
|
|
# asm 2: cmp $0,<row=%r8
|
|
cmp $0,%r8
|
|
# comment:fp stack unchanged by jump
|
|
|
|
# qhasm: goto loop if !=
|
|
jne ._loop
|
|
|
|
# qhasm: ss = mem256[ input_0 + 0 ]
|
|
# asm 1: vmovupd 0(<input_0=int64#1),>ss=reg256#1
|
|
# asm 2: vmovupd 0(<input_0=%rdi),>ss=%ymm0
|
|
vmovupd 0(%rdi),%ymm0
|
|
|
|
# qhasm: ee = mem256[ input_2 + 0 ]
|
|
# asm 1: vmovupd 0(<input_2=int64#3),>ee=reg256#2
|
|
# asm 2: vmovupd 0(<input_2=%rdx),>ee=%ymm1
|
|
vmovupd 0(%rdx),%ymm1
|
|
|
|
# qhasm: ss ^= ee
|
|
# asm 1: vpxor <ee=reg256#2,<ss=reg256#1,<ss=reg256#1
|
|
# asm 2: vpxor <ee=%ymm1,<ss=%ymm0,<ss=%ymm0
|
|
vpxor %ymm1,%ymm0,%ymm0
|
|
|
|
# qhasm: mem256[ input_0 + 0 ] = ss
|
|
# asm 1: vmovupd <ss=reg256#1,0(<input_0=int64#1)
|
|
# asm 2: vmovupd <ss=%ymm0,0(<input_0=%rdi)
|
|
vmovupd %ymm0,0(%rdi)
|
|
|
|
# qhasm: ss = mem256[ input_0 + 32 ]
|
|
# asm 1: vmovupd 32(<input_0=int64#1),>ss=reg256#1
|
|
# asm 2: vmovupd 32(<input_0=%rdi),>ss=%ymm0
|
|
vmovupd 32(%rdi),%ymm0
|
|
|
|
# qhasm: ee = mem256[ input_2 + 32 ]
|
|
# asm 1: vmovupd 32(<input_2=int64#3),>ee=reg256#2
|
|
# asm 2: vmovupd 32(<input_2=%rdx),>ee=%ymm1
|
|
vmovupd 32(%rdx),%ymm1
|
|
|
|
# qhasm: ss ^= ee
|
|
# asm 1: vpxor <ee=reg256#2,<ss=reg256#1,<ss=reg256#1
|
|
# asm 2: vpxor <ee=%ymm1,<ss=%ymm0,<ss=%ymm0
|
|
vpxor %ymm1,%ymm0,%ymm0
|
|
|
|
# qhasm: mem256[ input_0 + 32 ] = ss
|
|
# asm 1: vmovupd <ss=reg256#1,32(<input_0=int64#1)
|
|
# asm 2: vmovupd <ss=%ymm0,32(<input_0=%rdi)
|
|
vmovupd %ymm0,32(%rdi)
|
|
|
|
# qhasm: ss = mem256[ input_0 + 64 ]
|
|
# asm 1: vmovupd 64(<input_0=int64#1),>ss=reg256#1
|
|
# asm 2: vmovupd 64(<input_0=%rdi),>ss=%ymm0
|
|
vmovupd 64(%rdi),%ymm0
|
|
|
|
# qhasm: ee = mem256[ input_2 + 64 ]
|
|
# asm 1: vmovupd 64(<input_2=int64#3),>ee=reg256#2
|
|
# asm 2: vmovupd 64(<input_2=%rdx),>ee=%ymm1
|
|
vmovupd 64(%rdx),%ymm1
|
|
|
|
# qhasm: ss ^= ee
|
|
# asm 1: vpxor <ee=reg256#2,<ss=reg256#1,<ss=reg256#1
|
|
# asm 2: vpxor <ee=%ymm1,<ss=%ymm0,<ss=%ymm0
|
|
vpxor %ymm1,%ymm0,%ymm0
|
|
|
|
# qhasm: mem256[ input_0 + 64 ] = ss
|
|
# asm 1: vmovupd <ss=reg256#1,64(<input_0=int64#1)
|
|
# asm 2: vmovupd <ss=%ymm0,64(<input_0=%rdi)
|
|
vmovupd %ymm0,64(%rdi)
|
|
|
|
# qhasm: return
|
|
add %r11,%rsp
|
|
ret
|