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// Copyright 2018 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
//go:build ppc64le || ppc64
#include "go_asm.h"
#include "textflag.h"
TEXT ·Count<ABIInternal>(SB),NOSPLIT|NOFRAME,$0-40
// R3 = byte array pointer
// R4 = length
MOVBZ R6, R5 // R5 = byte
BR countbytebody<>(SB)
TEXT ·CountString<ABIInternal>(SB), NOSPLIT|NOFRAME, $0-32
// R3 = byte array pointer
// R4 = length
MOVBZ R5, R5 // R5 = byte
BR countbytebody<>(SB)
// R3: addr of string
// R4: len of string
// R5: byte to count
// On exit:
// R3: return value
// endianness shouldn't matter since we are just counting and order
// is irrelevant
TEXT countbytebody<>(SB), NOSPLIT|NOFRAME, $0-0
DCBT (R3) // Prepare cache line.
MOVD R0, R18 // byte count
MOVD R3, R19 // Save base address for calculating the index later.
MOVD R4, R16
MOVD R5, R6
RLDIMI $8, R6, $48, R6
RLDIMI $16, R6, $32, R6
RLDIMI $32, R6, $0, R6 // fill reg with the byte to count
VSPLTISW $3, V4 // used for shift
MTVRD R6, V1 // move compare byte
VSPLTB $7, V1, V1 // replicate byte across V1
CMPU R4, $32 // Check if it's a small string (<32 bytes)
BLT tail // Jump to the small string case
XXLXOR VS37, VS37, VS37 // clear V5 (aka VS37) to use as accumulator
cmploop:
LXVW4X (R3), VS32 // load bytes from string
// when the bytes match, the corresponding byte contains all 1s
VCMPEQUB V1, V0, V2 // compare bytes
VPOPCNTD V2, V3 // each double word contains its count
VADDUDM V3, V5, V5 // accumulate bit count in each double word
ADD $16, R3, R3 // increment pointer
SUB $16, R16, R16 // remaining bytes
CMP R16, $16 // at least 16 remaining?
BGE cmploop
VSRD V5, V4, V5 // shift by 3 to convert bits to bytes
VSLDOI $8, V5, V5, V6 // get the double word values from vector
MFVSRD V5, R9
MFVSRD V6, R10
ADD R9, R10, R9
ADD R9, R18, R18
tail:
CMP R16, $8 // 8 bytes left?
BLT small
MOVD (R3), R12 // load 8 bytes
CMPB R12, R6, R17 // compare bytes
POPCNTD R17, R15 // bit count
SRD $3, R15, R15 // byte count
ADD R15, R18, R18 // add to byte count
next1:
ADD $8, R3, R3
SUB $8, R16, R16 // remaining bytes
BR tail
small:
CMP $0, R16 // any remaining
BEQ done
MOVBZ (R3), R12 // check each remaining byte
CMP R12, R5
BNE next2
ADD $1, R18
next2:
SUB $1, R16
ADD $1, R3 // inc address
BR small
done:
MOVD R18, R3 // return count
RET