test/codegen/bits.go - go - Git at Google

 // asmcheck

 // 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.

 package codegen

 /************************************
  * 64-bit instructions
  ************************************/

 func bitcheck64_constleft(a uint64) (n int) {
 	// amd64:"BTQ\t[$]63"
 	if a&(1<<63) != 0 {
 		return 1
 	}
 	// amd64:"BTQ\t[$]60"
 	if a&(1<<60) != 0 {
 		return 1
 	}
 	// amd64:"BTL\t[$]0"
 	if a&(1<<0) != 0 {
 		return 1
 	}
 	return 0
 }

 func bitcheck64_constright(a [8]uint64) (n int) {
 	// amd64:"BTQ\t[$]63"
 	if (a[0]>>63)&1 != 0 {
 		return 1
 	}
 	// amd64:"BTQ\t[$]63"
 	if a[1]>>63 != 0 {
 		return 1
 	}
 	// amd64:"BTQ\t[$]63"
 	if a[2]>>63 == 0 {
 		return 1
 	}
 	// amd64:"BTQ\t[$]60"
 	if (a[3]>>60)&1 == 0 {
 		return 1
 	}
 	// amd64:"BTL\t[$]1"
 	if (a[4]>>1)&1 == 0 {
 		return 1
 	}
 	// amd64:"BTL\t[$]0"
 	if (a[5]>>0)&1 == 0 {
 		return 1
 	}
 	// amd64:"BTL\t[$]7"
 	if (a[6]>>5)&4 == 0 {
 		return 1
 	}
 	return 0
 }

 func bitcheck64_var(a, b uint64) (n int) {
 	// amd64:"BTQ"
 	if a&(1<<(b&63)) != 0 {
 		return 1
 	}
 	// amd64:"BTQ",-"BT.\t[$]0"
 	if (b>>(a&63))&1 != 0 {
 		return 1
 	}
 	return 0
 }

 func bitcheck64_mask(a uint64) (n int) {
 	// amd64:"BTQ\t[$]63"
 	if a&0x8000000000000000 != 0 {
 		return 1
 	}
 	// amd64:"BTQ\t[$]59"
 	if a&0x800000000000000 != 0 {
 		return 1
 	}
 	// amd64:"BTL\t[$]0"
 	if a&0x1 != 0 {
 		return 1
 	}
 	return 0
 }

 func biton64(a, b uint64) (n uint64) {
 	// amd64:"BTSQ"
 	n += b | (1 << (a & 63))

 	// amd64:"BTSQ\t[$]63"
 	n += a | (1 << 63)

 	// amd64:"BTSQ\t[$]60"
 	n += a | (1 << 60)

 	// amd64:"ORQ\t[$]1"
 	n += a | (1 << 0)

 	return n
 }

 func bitoff64(a, b uint64) (n uint64) {
 	// amd64:"BTRQ"
 	n += b &^ (1 << (a & 63))

 	// amd64:"BTRQ\t[$]63"
 	n += a &^ (1 << 63)

 	// amd64:"BTRQ\t[$]60"
 	n += a &^ (1 << 60)

 	// amd64:"ANDQ\t[$]-2"
 	n += a &^ (1 << 0)

 	return n
 }

 func bitcompl64(a, b uint64) (n uint64) {
 	// amd64:"BTCQ"
 	n += b ^ (1 << (a & 63))

 	// amd64:"BTCQ\t[$]63"
 	n += a ^ (1 << 63)

 	// amd64:"BTCQ\t[$]60"
 	n += a ^ (1 << 60)

 	// amd64:"XORQ\t[$]1"
 	n += a ^ (1 << 0)

 	return n
 }

 /************************************
  * 32-bit instructions
  ************************************/

 func bitcheck32_constleft(a uint32) (n int) {
 	// amd64:"BTL\t[$]31"
 	if a&(1<<31) != 0 {
 		return 1
 	}
 	// amd64:"BTL\t[$]28"
 	if a&(1<<28) != 0 {
 		return 1
 	}
 	// amd64:"BTL\t[$]0"
 	if a&(1<<0) != 0 {
 		return 1
 	}
 	return 0
 }

 func bitcheck32_constright(a [8]uint32) (n int) {
 	// amd64:"BTL\t[$]31"
 	if (a[0]>>31)&1 != 0 {
 		return 1
 	}
 	// amd64:"BTL\t[$]31"
 	if a[1]>>31 != 0 {
 		return 1
 	}
 	// amd64:"BTL\t[$]31"
 	if a[2]>>31 == 0 {
 		return 1
 	}
 	// amd64:"BTL\t[$]28"
 	if (a[3]>>28)&1 == 0 {
 		return 1
 	}
 	// amd64:"BTL\t[$]1"
 	if (a[4]>>1)&1 == 0 {
 		return 1
 	}
 	// amd64:"BTL\t[$]0"
 	if (a[5]>>0)&1 == 0 {
 		return 1
 	}
 	// amd64:"BTL\t[$]7"
 	if (a[6]>>5)&4 == 0 {
 		return 1
 	}
 	return 0
 }

 func bitcheck32_var(a, b uint32) (n int) {
 	// amd64:"BTL"
 	if a&(1<<(b&31)) != 0 {
 		return 1
 	}
 	// amd64:"BTL",-"BT.\t[$]0"
 	if (b>>(a&31))&1 != 0 {
 		return 1
 	}
 	return 0
 }

 func bitcheck32_mask(a uint32) (n int) {
 	// amd64:"BTL\t[$]31"
 	if a&0x80000000 != 0 {
 		return 1
 	}
 	// amd64:"BTL\t[$]27"
 	if a&0x8000000 != 0 {
 		return 1
 	}
 	// amd64:"BTL\t[$]0"
 	if a&0x1 != 0 {
 		return 1
 	}
 	return 0
 }

 func biton32(a, b uint32) (n uint32) {
 	// amd64:"BTSL"
 	n += b | (1 << (a & 31))

 	// amd64:"BTSL\t[$]31"
 	n += a | (1 << 31)

 	// amd64:"BTSL\t[$]28"
 	n += a | (1 << 28)

 	// amd64:"ORL\t[$]1"
 	n += a | (1 << 0)

 	return n
 }

 func bitoff32(a, b uint32) (n uint32) {
 	// amd64:"BTRL"
 	n += b &^ (1 << (a & 31))

 	// amd64:"BTRL\t[$]31"
 	n += a &^ (1 << 31)

 	// amd64:"BTRL\t[$]28"
 	n += a &^ (1 << 28)

 	// amd64:"ANDL\t[$]-2"
 	n += a &^ (1 << 0)

 	return n
 }

 func bitcompl32(a, b uint32) (n uint32) {
 	// amd64:"BTCL"
 	n += b ^ (1 << (a & 31))

 	// amd64:"BTCL\t[$]31"
 	n += a ^ (1 << 31)

 	// amd64:"BTCL\t[$]28"
 	n += a ^ (1 << 28)

 	// amd64:"XORL\t[$]1"
 	n += a ^ (1 << 0)

 	return n
 }

 // check direct operation on memory with constant source
 func bitOpOnMem(a []uint32) {
 	// amd64:`ANDL\s[$]200,\s\([A-Z]+\)`
 	a[0] &= 200
 	// amd64:`ORL\s[$]220,\s4\([A-Z]+\)`
 	a[1] |= 220
 	// amd64:`XORL\s[$]240,\s8\([A-Z]+\)`
 	a[2] ^= 240
 	// amd64:`BTRL\s[$]15,\s12\([A-Z]+\)`,-`ANDL`
 	a[3] &= 0xffff7fff
 	// amd64:`BTSL\s[$]14,\s16\([A-Z]+\)`,-`ORL`
 	a[4] |= 0x4000
 	// amd64:`BTCL\s[$]13,\s20\([A-Z]+\)`,-`XORL`
 	a[5] ^= 0x2000
 }

 // Check AND masking on arm64 (Issue #19857)

 func and_mask_1(a uint64) uint64 {
 	// arm64:`AND\t`
 	return a & ((1 << 63) - 1)
 }

 func and_mask_2(a uint64) uint64 {
 	// arm64:`AND\t`
 	return a & (1 << 63)
 }

 func and_mask_3(a, b uint32) (uint32, uint32) {
 	// arm/7:`BIC`,-`AND`
 	a &= 0xffffaaaa
 	// arm/7:`BFC`,-`AND`,-`BIC`
 	b &= 0xffc003ff
 	return a, b
 }

 // Check generation of arm64 BIC/EON/ORN instructions

 func op_bic(x, y uint32) uint32 {
 	// arm64:`BIC\t`,-`AND`
 	return x &^ y
 }

 func op_eon(x, y uint32) uint32 {
 	// arm64:`EON\t`,-`XOR`
 	return x ^ ^y
 }

 func op_orn(x, y uint32) uint32 {
 	// arm64:`ORN\t`,-`ORR`
 	return x | ^y
 }
	// asmcheck

	// 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.

	package codegen

	/************************************
	* 64-bit instructions
	************************************/

	func bitcheck64_constleft(a uint64) (n int) {
	// amd64:"BTQ\t[$]63"
	if a&(1<<63) != 0 {
	return 1
	}
	// amd64:"BTQ\t[$]60"
	if a&(1<<60) != 0 {
	return 1
	}
	// amd64:"BTL\t[$]0"
	if a&(1<<0) != 0 {
	return 1
	}
	return 0
	}

	func bitcheck64_constright(a [8]uint64) (n int) {
	// amd64:"BTQ\t[$]63"
	if (a[0]>>63)&1 != 0 {
	return 1
	}
	// amd64:"BTQ\t[$]63"
	if a[1]>>63 != 0 {
	return 1
	}
	// amd64:"BTQ\t[$]63"
	if a[2]>>63 == 0 {
	return 1
	}
	// amd64:"BTQ\t[$]60"
	if (a[3]>>60)&1 == 0 {
	return 1
	}
	// amd64:"BTL\t[$]1"
	if (a[4]>>1)&1 == 0 {
	return 1
	}
	// amd64:"BTL\t[$]0"
	if (a[5]>>0)&1 == 0 {
	return 1
	}
	// amd64:"BTL\t[$]7"
	if (a[6]>>5)&4 == 0 {
	return 1
	}
	return 0
	}

	func bitcheck64_var(a, b uint64) (n int) {
	// amd64:"BTQ"
	if a&(1<<(b&63)) != 0 {
	return 1
	}
	// amd64:"BTQ",-"BT.\t[$]0"
	if (b>>(a&63))&1 != 0 {
	return 1
	}
	return 0
	}

	func bitcheck64_mask(a uint64) (n int) {
	// amd64:"BTQ\t[$]63"
	if a&0x8000000000000000 != 0 {
	return 1
	}
	// amd64:"BTQ\t[$]59"
	if a&0x800000000000000 != 0 {
	return 1
	}
	// amd64:"BTL\t[$]0"
	if a&0x1 != 0 {
	return 1
	}
	return 0
	}

	func biton64(a, b uint64) (n uint64) {
	// amd64:"BTSQ"
	n += b \| (1 << (a & 63))

	// amd64:"BTSQ\t[$]63"
	n += a \| (1 << 63)

	// amd64:"BTSQ\t[$]60"
	n += a \| (1 << 60)

	// amd64:"ORQ\t[$]1"
	n += a \| (1 << 0)

	return n
	}

	func bitoff64(a, b uint64) (n uint64) {
	// amd64:"BTRQ"
	n += b &^ (1 << (a & 63))

	// amd64:"BTRQ\t[$]63"
	n += a &^ (1 << 63)

	// amd64:"BTRQ\t[$]60"
	n += a &^ (1 << 60)

	// amd64:"ANDQ\t[$]-2"
	n += a &^ (1 << 0)

	return n
	}

	func bitcompl64(a, b uint64) (n uint64) {
	// amd64:"BTCQ"
	n += b ^ (1 << (a & 63))

	// amd64:"BTCQ\t[$]63"
	n += a ^ (1 << 63)

	// amd64:"BTCQ\t[$]60"
	n += a ^ (1 << 60)

	// amd64:"XORQ\t[$]1"
	n += a ^ (1 << 0)

	return n
	}

	/************************************
	* 32-bit instructions
	************************************/

	func bitcheck32_constleft(a uint32) (n int) {
	// amd64:"BTL\t[$]31"
	if a&(1<<31) != 0 {
	return 1
	}
	// amd64:"BTL\t[$]28"
	if a&(1<<28) != 0 {
	return 1
	}
	// amd64:"BTL\t[$]0"
	if a&(1<<0) != 0 {
	return 1
	}
	return 0
	}

	func bitcheck32_constright(a [8]uint32) (n int) {
	// amd64:"BTL\t[$]31"
	if (a[0]>>31)&1 != 0 {
	return 1
	}
	// amd64:"BTL\t[$]31"
	if a[1]>>31 != 0 {
	return 1
	}
	// amd64:"BTL\t[$]31"
	if a[2]>>31 == 0 {
	return 1
	}
	// amd64:"BTL\t[$]28"
	if (a[3]>>28)&1 == 0 {
	return 1
	}
	// amd64:"BTL\t[$]1"
	if (a[4]>>1)&1 == 0 {
	return 1
	}
	// amd64:"BTL\t[$]0"
	if (a[5]>>0)&1 == 0 {
	return 1
	}
	// amd64:"BTL\t[$]7"
	if (a[6]>>5)&4 == 0 {
	return 1
	}
	return 0
	}

	func bitcheck32_var(a, b uint32) (n int) {
	// amd64:"BTL"
	if a&(1<<(b&31)) != 0 {
	return 1
	}
	// amd64:"BTL",-"BT.\t[$]0"
	if (b>>(a&31))&1 != 0 {
	return 1
	}
	return 0
	}

	func bitcheck32_mask(a uint32) (n int) {
	// amd64:"BTL\t[$]31"
	if a&0x80000000 != 0 {
	return 1
	}
	// amd64:"BTL\t[$]27"
	if a&0x8000000 != 0 {
	return 1
	}
	// amd64:"BTL\t[$]0"
	if a&0x1 != 0 {
	return 1
	}
	return 0
	}

	func biton32(a, b uint32) (n uint32) {
	// amd64:"BTSL"
	n += b \| (1 << (a & 31))

	// amd64:"BTSL\t[$]31"
	n += a \| (1 << 31)

	// amd64:"BTSL\t[$]28"
	n += a \| (1 << 28)

	// amd64:"ORL\t[$]1"
	n += a \| (1 << 0)

	return n
	}

	func bitoff32(a, b uint32) (n uint32) {
	// amd64:"BTRL"
	n += b &^ (1 << (a & 31))

	// amd64:"BTRL\t[$]31"
	n += a &^ (1 << 31)

	// amd64:"BTRL\t[$]28"
	n += a &^ (1 << 28)

	// amd64:"ANDL\t[$]-2"
	n += a &^ (1 << 0)

	return n
	}

	func bitcompl32(a, b uint32) (n uint32) {
	// amd64:"BTCL"
	n += b ^ (1 << (a & 31))

	// amd64:"BTCL\t[$]31"
	n += a ^ (1 << 31)

	// amd64:"BTCL\t[$]28"
	n += a ^ (1 << 28)

	// amd64:"XORL\t[$]1"
	n += a ^ (1 << 0)

	return n
	}

	// check direct operation on memory with constant source
	func bitOpOnMem(a []uint32) {
	// amd64:`ANDL\s[$]200,\s\([A-Z]+\)`
	a[0] &= 200
	// amd64:`ORL\s[$]220,\s4\([A-Z]+\)`
	a[1] \|= 220
	// amd64:`XORL\s[$]240,\s8\([A-Z]+\)`
	a[2] ^= 240
	// amd64:`BTRL\s[$]15,\s12\([A-Z]+\)`,-`ANDL`
	a[3] &= 0xffff7fff
	// amd64:`BTSL\s[$]14,\s16\([A-Z]+\)`,-`ORL`
	a[4] \|= 0x4000
	// amd64:`BTCL\s[$]13,\s20\([A-Z]+\)`,-`XORL`
	a[5] ^= 0x2000
	}

	// Check AND masking on arm64 (Issue #19857)

	func and_mask_1(a uint64) uint64 {
	// arm64:`AND\t`
	return a & ((1 << 63) - 1)
	}

	func and_mask_2(a uint64) uint64 {
	// arm64:`AND\t`
	return a & (1 << 63)
	}

	func and_mask_3(a, b uint32) (uint32, uint32) {
	// arm/7:`BIC`,-`AND`
	a &= 0xffffaaaa
	// arm/7:`BFC`,-`AND`,-`BIC`
	b &= 0xffc003ff
	return a, b
	}

	// Check generation of arm64 BIC/EON/ORN instructions

	func op_bic(x, y uint32) uint32 {
	// arm64:`BIC\t`,-`AND`
	return x &^ y
	}

	func op_eon(x, y uint32) uint32 {
	// arm64:`EON\t`,-`XOR`
	return x ^ ^y
	}

	func op_orn(x, y uint32) uint32 {
	// arm64:`ORN\t`,-`ORR`
	return x \| ^y
	}