src/internal/bytealg/compare_ppc64x.s - go - Git at Google

 // 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.

 // +build ppc64 ppc64le

 #include "go_asm.h"
 #include "textflag.h"

 TEXT ·Compare(SB),NOSPLIT|NOFRAME,$0-56
 	MOVD	a_base+0(FP), R5
 	MOVD	b_base+24(FP), R6
 	MOVD	a_len+8(FP), R3
 	CMP	R5,R6,CR7
 	MOVD	b_len+32(FP), R4
 	MOVD	$ret+48(FP), R7
 	CMP	R3,R4,CR6
 	BEQ	CR7,equal

 #ifdef	GOARCH_ppc64le
 	BR	cmpbodyLE<>(SB)
 #else
 	BR      cmpbodyBE<>(SB)
 #endif

 equal:
 	BEQ	CR6,done
 	MOVD	$1, R8
 	BGT	CR6,greater
 	NEG	R8

 greater:
 	MOVD	R8, (R7)
 	RET

 done:
 	MOVD	$0, (R7)
 	RET

 TEXT runtime·cmpstring(SB),NOSPLIT|NOFRAME,$0-40
 	MOVD	a_base+0(FP), R5
 	MOVD	b_base+16(FP), R6
 	MOVD	a_len+8(FP), R3
 	CMP	R5,R6,CR7
 	MOVD	b_len+24(FP), R4
 	MOVD	$ret+32(FP), R7
 	CMP	R3,R4,CR6
 	BEQ	CR7,equal

 #ifdef	GOARCH_ppc64le
 	BR	cmpbodyLE<>(SB)
 #else
 	BR      cmpbodyBE<>(SB)
 #endif

 equal:
 	BEQ	CR6,done
 	MOVD	$1, R8
 	BGT	CR6,greater
 	NEG	R8

 greater:
 	MOVD	R8, (R7)
 	RET

 done:
 	MOVD	$0, (R7)
 	RET

 // Do an efficient memcmp for ppc64le
 // R3 = a len
 // R4 = b len
 // R5 = a addr
 // R6 = b addr
 // R7 = addr of return value
 TEXT cmpbodyLE<>(SB),NOSPLIT|NOFRAME,$0-0
 	MOVD	R3,R8		// set up length
 	CMP	R3,R4,CR2	// unequal?
 	BC	12,8,setuplen	// BLT CR2
 	MOVD	R4,R8		// use R4 for comparison len
 setuplen:
 	MOVD	R8,CTR		// set up loop counter
 	CMP	R8,$8		// only optimize >=8
 	BLT	simplecheck
 	DCBT	(R5)		// cache hint
 	DCBT	(R6)
 	CMP	R8,$32		// optimize >= 32
 	MOVD	R8,R9
 	BLT	setup8a		// 8 byte moves only
 setup32a:
 	SRADCC	$5,R8,R9	// number of 32 byte chunks
 	MOVD	R9,CTR

         // Special processing for 32 bytes or longer.
         // Loading this way is faster and correct as long as the
 	// doublewords being compared are equal. Once they
 	// are found unequal, reload them in proper byte order
 	// to determine greater or less than.
 loop32a:
 	MOVD	0(R5),R9	// doublewords to compare
 	MOVD	0(R6),R10	// get 4 doublewords
 	MOVD	8(R5),R14
 	MOVD	8(R6),R15
 	CMPU	R9,R10		// bytes equal?
 	MOVD	$0,R16		// set up for cmpne
 	BNE	cmpne		// further compare for LT or GT
 	MOVD	16(R5),R9	// get next pair of doublewords
 	MOVD	16(R6),R10
 	CMPU	R14,R15		// bytes match?
 	MOVD	$8,R16		// set up for cmpne
 	BNE	cmpne		// further compare for LT or GT
 	MOVD	24(R5),R14	// get next pair of doublewords
 	MOVD    24(R6),R15
 	CMPU	R9,R10		// bytes match?
 	MOVD	$16,R16		// set up for cmpne
 	BNE	cmpne		// further compare for LT or GT
 	MOVD	$-8,R16		// for cmpne, R5,R6 already inc by 32
 	ADD	$32,R5		// bump up to next 32
 	ADD	$32,R6
 	CMPU    R14,R15		// bytes match?
 	BC	8,2,loop32a	// br ctr and cr
 	BNE	cmpne
 	ANDCC	$24,R8,R9	// Any 8 byte chunks?
 	BEQ	leftover	// and result is 0
 setup8a:
 	SRADCC	$3,R9,R9	// get the 8 byte count
 	BEQ	leftover	// shifted value is 0
 	MOVD	R9,CTR		// loop count for doublewords
 loop8:
 	MOVDBR	(R5+R0),R9	// doublewords to compare
 	MOVDBR	(R6+R0),R10	// LE compare order
 	ADD	$8,R5
 	ADD	$8,R6
 	CMPU	R9,R10		// match?
 	BC	8,2,loop8	// bt ctr <> 0 && cr
 	BGT	greater
 	BLT	less
 leftover:
 	ANDCC	$7,R8,R9	// check for leftover bytes
 	MOVD	R9,CTR		// save the ctr
 	BNE	simple		// leftover bytes
 	BC	12,10,equal	// test CR2 for length comparison
 	BC	12,8,less
 	BR	greater
 simplecheck:
 	CMP	R8,$0		// remaining compare length 0
 	BNE	simple		// do simple compare
 	BC	12,10,equal	// test CR2 for length comparison
 	BC	12,8,less	// 1st len < 2nd len, result less
 	BR	greater		// 1st len > 2nd len must be greater
 simple:
 	MOVBZ	0(R5), R9	// get byte from 1st operand
 	ADD	$1,R5
 	MOVBZ	0(R6), R10	// get byte from 2nd operand
 	ADD	$1,R6
 	CMPU	R9, R10
 	BC	8,2,simple	// bc ctr <> 0 && cr
 	BGT	greater		// 1st > 2nd
 	BLT	less		// 1st < 2nd
 	BC	12,10,equal	// test CR2 for length comparison
 	BC	12,9,greater	// 2nd len > 1st len
 	BR	less		// must be less
 cmpne:				// only here is not equal
 	MOVDBR	(R5+R16),R8	// reload in reverse order
 	MOVDBR	(R6+R16),R9
 	CMPU	R8,R9		// compare correct endianness
 	BGT	greater		// here only if NE
 less:
 	MOVD	$-1,R3
 	MOVD	R3,(R7)		// return value if A < B
 	RET
 equal:
 	MOVD	$0,(R7)		// return value if A == B
 	RET
 greater:
 	MOVD	$1,R3
 	MOVD	R3,(R7)		// return value if A > B
 	RET

 // Do an efficient memcmp for ppc64 (BE)
 // R3 = a len
 // R4 = b len
 // R5 = a addr
 // R6 = b addr
 // R7 = addr of return value
 TEXT cmpbodyBE<>(SB),NOSPLIT|NOFRAME,$0-0
 	MOVD	R3,R8		// set up length
 	CMP	R3,R4,CR2	// unequal?
 	BC	12,8,setuplen	// BLT CR2
 	MOVD	R4,R8		// use R4 for comparison len
 setuplen:
 	MOVD	R8,CTR		// set up loop counter
 	CMP	R8,$8		// only optimize >=8
 	BLT	simplecheck
 	DCBT	(R5)		// cache hint
 	DCBT	(R6)
 	CMP	R8,$32		// optimize >= 32
 	MOVD	R8,R9
 	BLT	setup8a		// 8 byte moves only

 setup32a:
 	SRADCC	$5,R8,R9	// number of 32 byte chunks
 	MOVD	R9,CTR
 loop32a:
 	MOVD	0(R5),R9	// doublewords to compare
 	MOVD	0(R6),R10	// get 4 doublewords
 	MOVD	8(R5),R14
 	MOVD	8(R6),R15
 	CMPU	R9,R10		// bytes equal?
 	BLT	less		// found to be less
 	BGT	greater		// found to be greater
 	MOVD	16(R5),R9	// get next pair of doublewords
 	MOVD	16(R6),R10
 	CMPU	R14,R15		// bytes match?
 	BLT	less		// found less
 	BGT	greater		// found greater
 	MOVD	24(R5),R14	// get next pair of doublewords
 	MOVD	24(R6),R15
 	CMPU	R9,R10		// bytes match?
 	BLT	less		// found to be less
 	BGT	greater		// found to be greater
 	ADD	$32,R5		// bump up to next 32
 	ADD	$32,R6
 	CMPU	R14,R15		// bytes match?
 	BC	8,2,loop32a	// br ctr and cr
 	BLT	less		// with BE, byte ordering is
 	BGT	greater		// good for compare
 	ANDCC	$24,R8,R9	// Any 8 byte chunks?
 	BEQ	leftover	// and result is 0
 setup8a:
 	SRADCC	$3,R9,R9	// get the 8 byte count
 	BEQ	leftover	// shifted value is 0
 	MOVD	R9,CTR		// loop count for doublewords
 loop8:
 	MOVD	(R5),R9
 	MOVD	(R6),R10
 	ADD	$8,R5
 	ADD	$8,R6
 	CMPU	R9,R10		// match?
 	BC	8,2,loop8	// bt ctr <> 0 && cr
 	BGT	greater
 	BLT	less
 leftover:
 	ANDCC	$7,R8,R9	// check for leftover bytes
 	MOVD	R9,CTR		// save the ctr
 	BNE	simple		// leftover bytes
 	BC	12,10,equal	// test CR2 for length comparison
 	BC	12,8,less
 	BR	greater
 simplecheck:
 	CMP	R8,$0		// remaining compare length 0
 	BNE	simple		// do simple compare
 	BC	12,10,equal	// test CR2 for length comparison
 	BC 	12,8,less	// 1st len < 2nd len, result less
 	BR	greater		// same len, must be equal
 simple:
 	MOVBZ	0(R5),R9	// get byte from 1st operand
 	ADD	$1,R5
 	MOVBZ	0(R6),R10	// get byte from 2nd operand
 	ADD	$1,R6
 	CMPU	R9,R10
 	BC	8,2,simple	// bc ctr <> 0 && cr
 	BGT	greater		// 1st > 2nd
 	BLT	less		// 1st < 2nd
 	BC	12,10,equal	// test CR2 for length comparison
 	BC	12,9,greater	// 2nd len > 1st len
 less:
 	MOVD	$-1,R3
 	MOVD    R3,(R7)		// return value if A < B
 	RET
 equal:
 	MOVD    $0,(R7)		// return value if A == B
 	RET
 greater:
 	MOVD	$1,R3
 	MOVD	R3,(R7)		// return value if A > B
 	RET
	// 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.

	// +build ppc64 ppc64le

	#include "go_asm.h"
	#include "textflag.h"

	TEXT ·Compare(SB),NOSPLIT\|NOFRAME,$0-56
	MOVD a_base+0(FP), R5
	MOVD b_base+24(FP), R6
	MOVD a_len+8(FP), R3
	CMP R5,R6,CR7
	MOVD b_len+32(FP), R4
	MOVD $ret+48(FP), R7
	CMP R3,R4,CR6
	BEQ CR7,equal

	#ifdef GOARCH_ppc64le
	BR cmpbodyLE<>(SB)
	#else
	BR cmpbodyBE<>(SB)
	#endif

	equal:
	BEQ CR6,done
	MOVD $1, R8
	BGT CR6,greater
	NEG R8

	greater:
	MOVD R8, (R7)
	RET

	done:
	MOVD $0, (R7)
	RET

	TEXT runtime·cmpstring(SB),NOSPLIT\|NOFRAME,$0-40
	MOVD a_base+0(FP), R5
	MOVD b_base+16(FP), R6
	MOVD a_len+8(FP), R3
	CMP R5,R6,CR7
	MOVD b_len+24(FP), R4
	MOVD $ret+32(FP), R7
	CMP R3,R4,CR6
	BEQ CR7,equal

	#ifdef GOARCH_ppc64le
	BR cmpbodyLE<>(SB)
	#else
	BR cmpbodyBE<>(SB)
	#endif

	equal:
	BEQ CR6,done
	MOVD $1, R8
	BGT CR6,greater
	NEG R8

	greater:
	MOVD R8, (R7)
	RET

	done:
	MOVD $0, (R7)
	RET

	// Do an efficient memcmp for ppc64le
	// R3 = a len
	// R4 = b len
	// R5 = a addr
	// R6 = b addr
	// R7 = addr of return value
	TEXT cmpbodyLE<>(SB),NOSPLIT\|NOFRAME,$0-0
	MOVD R3,R8 // set up length
	CMP R3,R4,CR2 // unequal?
	BC 12,8,setuplen // BLT CR2
	MOVD R4,R8 // use R4 for comparison len
	setuplen:
	MOVD R8,CTR // set up loop counter
	CMP R8,$8 // only optimize >=8
	BLT simplecheck
	DCBT (R5) // cache hint
	DCBT (R6)
	CMP R8,$32 // optimize >= 32
	MOVD R8,R9
	BLT setup8a // 8 byte moves only
	setup32a:
	SRADCC $5,R8,R9 // number of 32 byte chunks
	MOVD R9,CTR

	// Special processing for 32 bytes or longer.
	// Loading this way is faster and correct as long as the
	// doublewords being compared are equal. Once they
	// are found unequal, reload them in proper byte order
	// to determine greater or less than.
	loop32a:
	MOVD 0(R5),R9 // doublewords to compare
	MOVD 0(R6),R10 // get 4 doublewords
	MOVD 8(R5),R14
	MOVD 8(R6),R15
	CMPU R9,R10 // bytes equal?
	MOVD $0,R16 // set up for cmpne
	BNE cmpne // further compare for LT or GT
	MOVD 16(R5),R9 // get next pair of doublewords
	MOVD 16(R6),R10
	CMPU R14,R15 // bytes match?
	MOVD $8,R16 // set up for cmpne
	BNE cmpne // further compare for LT or GT
	MOVD 24(R5),R14 // get next pair of doublewords
	MOVD 24(R6),R15
	CMPU R9,R10 // bytes match?
	MOVD $16,R16 // set up for cmpne
	BNE cmpne // further compare for LT or GT
	MOVD $-8,R16 // for cmpne, R5,R6 already inc by 32
	ADD $32,R5 // bump up to next 32
	ADD $32,R6
	CMPU R14,R15 // bytes match?
	BC 8,2,loop32a // br ctr and cr
	BNE cmpne
	ANDCC $24,R8,R9 // Any 8 byte chunks?
	BEQ leftover // and result is 0
	setup8a:
	SRADCC $3,R9,R9 // get the 8 byte count
	BEQ leftover // shifted value is 0
	MOVD R9,CTR // loop count for doublewords
	loop8:
	MOVDBR (R5+R0),R9 // doublewords to compare
	MOVDBR (R6+R0),R10 // LE compare order
	ADD $8,R5
	ADD $8,R6
	CMPU R9,R10 // match?
	BC 8,2,loop8 // bt ctr <> 0 && cr
	BGT greater
	BLT less
	leftover:
	ANDCC $7,R8,R9 // check for leftover bytes
	MOVD R9,CTR // save the ctr
	BNE simple // leftover bytes
	BC 12,10,equal // test CR2 for length comparison
	BC 12,8,less
	BR greater
	simplecheck:
	CMP R8,$0 // remaining compare length 0
	BNE simple // do simple compare
	BC 12,10,equal // test CR2 for length comparison
	BC 12,8,less // 1st len < 2nd len, result less
	BR greater // 1st len > 2nd len must be greater
	simple:
	MOVBZ 0(R5), R9 // get byte from 1st operand
	ADD $1,R5
	MOVBZ 0(R6), R10 // get byte from 2nd operand
	ADD $1,R6
	CMPU R9, R10
	BC 8,2,simple // bc ctr <> 0 && cr
	BGT greater // 1st > 2nd
	BLT less // 1st < 2nd
	BC 12,10,equal // test CR2 for length comparison
	BC 12,9,greater // 2nd len > 1st len
	BR less // must be less
	cmpne: // only here is not equal
	MOVDBR (R5+R16),R8 // reload in reverse order
	MOVDBR (R6+R16),R9
	CMPU R8,R9 // compare correct endianness
	BGT greater // here only if NE
	less:
	MOVD $-1,R3
	MOVD R3,(R7) // return value if A < B
	RET
	equal:
	MOVD $0,(R7) // return value if A == B
	RET
	greater:
	MOVD $1,R3
	MOVD R3,(R7) // return value if A > B
	RET

	// Do an efficient memcmp for ppc64 (BE)
	// R3 = a len
	// R4 = b len
	// R5 = a addr
	// R6 = b addr
	// R7 = addr of return value
	TEXT cmpbodyBE<>(SB),NOSPLIT\|NOFRAME,$0-0
	MOVD R3,R8 // set up length
	CMP R3,R4,CR2 // unequal?
	BC 12,8,setuplen // BLT CR2
	MOVD R4,R8 // use R4 for comparison len
	setuplen:
	MOVD R8,CTR // set up loop counter
	CMP R8,$8 // only optimize >=8
	BLT simplecheck
	DCBT (R5) // cache hint
	DCBT (R6)
	CMP R8,$32 // optimize >= 32
	MOVD R8,R9
	BLT setup8a // 8 byte moves only

	setup32a:
	SRADCC $5,R8,R9 // number of 32 byte chunks
	MOVD R9,CTR
	loop32a:
	MOVD 0(R5),R9 // doublewords to compare
	MOVD 0(R6),R10 // get 4 doublewords
	MOVD 8(R5),R14
	MOVD 8(R6),R15
	CMPU R9,R10 // bytes equal?
	BLT less // found to be less
	BGT greater // found to be greater
	MOVD 16(R5),R9 // get next pair of doublewords
	MOVD 16(R6),R10
	CMPU R14,R15 // bytes match?
	BLT less // found less
	BGT greater // found greater
	MOVD 24(R5),R14 // get next pair of doublewords
	MOVD 24(R6),R15
	CMPU R9,R10 // bytes match?
	BLT less // found to be less
	BGT greater // found to be greater
	ADD $32,R5 // bump up to next 32
	ADD $32,R6
	CMPU R14,R15 // bytes match?
	BC 8,2,loop32a // br ctr and cr
	BLT less // with BE, byte ordering is
	BGT greater // good for compare
	ANDCC $24,R8,R9 // Any 8 byte chunks?
	BEQ leftover // and result is 0
	setup8a:
	SRADCC $3,R9,R9 // get the 8 byte count
	BEQ leftover // shifted value is 0
	MOVD R9,CTR // loop count for doublewords
	loop8:
	MOVD (R5),R9
	MOVD (R6),R10
	ADD $8,R5
	ADD $8,R6
	CMPU R9,R10 // match?
	BC 8,2,loop8 // bt ctr <> 0 && cr
	BGT greater
	BLT less
	leftover:
	ANDCC $7,R8,R9 // check for leftover bytes
	MOVD R9,CTR // save the ctr
	BNE simple // leftover bytes
	BC 12,10,equal // test CR2 for length comparison
	BC 12,8,less
	BR greater
	simplecheck:
	CMP R8,$0 // remaining compare length 0
	BNE simple // do simple compare
	BC 12,10,equal // test CR2 for length comparison
	BC 12,8,less // 1st len < 2nd len, result less
	BR greater // same len, must be equal
	simple:
	MOVBZ 0(R5),R9 // get byte from 1st operand
	ADD $1,R5
	MOVBZ 0(R6),R10 // get byte from 2nd operand
	ADD $1,R6
	CMPU R9,R10
	BC 8,2,simple // bc ctr <> 0 && cr
	BGT greater // 1st > 2nd
	BLT less // 1st < 2nd
	BC 12,10,equal // test CR2 for length comparison
	BC 12,9,greater // 2nd len > 1st len
	less:
	MOVD $-1,R3
	MOVD R3,(R7) // return value if A < B
	RET
	equal:
	MOVD $0,(R7) // return value if A == B
	RET
	greater:
	MOVD $1,R3
	MOVD R3,(R7) // return value if A > B
	RET