// 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 import "math/bits" /************************************ * 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[$]0" if a&0x1 != 0 { return 1 } return 0 } func biton32(a, b uint32) (n uint32) { // amd64:"BTSL" n += b | (1 << (a & 31)) // amd64:"ORL\t[$]-2147483648" n += a | (1 << 31) // amd64:"ORL\t[$]268435456" n += a | (1 << 28) // amd64:"ORL\t[$]1" n += a | (1 << 0) return n } func bitoff32(a, b uint32) (n uint32) { // amd64:"BTRL" n += b &^ (1 << (a & 31)) // amd64:"ANDL\t[$]2147483647" n += a &^ (1 << 31) // amd64:"ANDL\t[$]-268435457" n += a &^ (1 << 28) // amd64:"ANDL\t[$]-2" n += a &^ (1 << 0) return n } func bitcompl32(a, b uint32) (n uint32) { // amd64:"BTCL" n += b ^ (1 << (a & 31)) // amd64:"XORL\t[$]-2147483648" n += a ^ (1 << 31) // amd64:"XORL\t[$]268435456" n += a ^ (1 << 28) // amd64:"XORL\t[$]1" n += a ^ (1 << 0) return n } // check direct operation on memory with constant and shifted constant sources func bitOpOnMem(a []uint32, b, c, d uint32) { // amd64:`ANDL\s[$]200,\s\([A-Z][A-Z0-9]+\)` a[0] &= 200 // amd64:`ORL\s[$]220,\s4\([A-Z][A-Z0-9]+\)` a[1] |= 220 // amd64:`XORL\s[$]240,\s8\([A-Z][A-Z0-9]+\)` a[2] ^= 240 } func bitcheckMostNegative(b uint8) bool { // amd64:"TESTB" return b&0x80 == 0x80 } // 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, z uint32, a []uint32, n, m uint64) uint64 { // arm64:`EON\t`,-`EOR`,-`MVN` a[0] = x ^ (y ^ 0xffffffff) // arm64:`EON\t`,-`EOR`,-`MVN` a[1] = ^(y ^ z) // arm64:`EON\t`,-`XOR` a[2] = x ^ ^z // arm64:`EON\t`,-`EOR`,-`MVN` return n ^ (m ^ 0xffffffffffffffff) } func op_orn(x, y uint32) uint32 { // arm64:`ORN\t`,-`ORR` return x | ^y } // check bitsets func bitSetPowerOf2Test(x int) bool { // amd64:"BTL\t[$]3" return x&8 == 8 } func bitSetTest(x int) bool { // amd64:"ANDL\t[$]9, AX" // amd64:"CMPQ\tAX, [$]9" return x&9 == 9 } // mask contiguous one bits func cont1Mask64U(x uint64) uint64 { // s390x:"RISBGZ\t[$]16, [$]47, [$]0," return x & 0x0000ffffffff0000 } // mask contiguous zero bits func cont0Mask64U(x uint64) uint64 { // s390x:"RISBGZ\t[$]48, [$]15, [$]0," return x & 0xffff00000000ffff } func issue44228a(a []int64, i int) bool { // amd64: "BTQ", -"SHL" return a[i>>6]&(1<<(i&63)) != 0 } func issue44228b(a []int32, i int) bool { // amd64: "BTL", -"SHL" return a[i>>5]&(1<<(i&31)) != 0 } func issue48467(x, y uint64) uint64 { // arm64: -"NEG" d, borrow := bits.Sub64(x, y, 0) return x - d&(-borrow) } func foldConst(x, y uint64) uint64 { // arm64: "ADDS\t[$]7",-"MOVD\t[$]7" d, b := bits.Add64(x, 7, 0) return b & d } func foldConstOutOfRange(a uint64) uint64 { // arm64: "MOVD\t[$]19088744",-"ADD\t[$]19088744" return a + 0x1234568 } // Verify sign-extended values are not zero-extended under a bit mask (#61297) func signextendAndMask8to64(a int8) (s, z uint64) { // ppc64x: "MOVB", "ANDCC\t[$]1015," s = uint64(a) & 0x3F7 // ppc64x: -"MOVB", "ANDCC\t[$]247," z = uint64(uint8(a)) & 0x3F7 return } // Verify zero-extended values are not sign-extended under a bit mask (#61297) func zeroextendAndMask8to64(a int8, b int16) (x, y uint64) { // ppc64x: -"MOVB\t", -"ANDCC", "MOVBZ" x = uint64(a) & 0xFF // ppc64x: -"MOVH\t", -"ANDCC", "MOVHZ" y = uint64(b) & 0xFFFF return } // Verify rotate and mask instructions, and further simplified instructions for small types func bitRotateAndMask(io64 [8]uint64, io32 [4]uint32, io16 [4]uint16, io8 [4]uint8) { // ppc64x: "RLDICR\t[$]0, R[0-9]*, [$]47, R" io64[0] = io64[0] & 0xFFFFFFFFFFFF0000 // ppc64x: "RLDICL\t[$]0, R[0-9]*, [$]16, R" io64[1] = io64[1] & 0x0000FFFFFFFFFFFF // ppc64x: -"SRD", -"AND", "RLDICL\t[$]60, R[0-9]*, [$]16, R" io64[2] = (io64[2] >> 4) & 0x0000FFFFFFFFFFFF // ppc64x: -"SRD", -"AND", "RLDICL\t[$]36, R[0-9]*, [$]28, R" io64[3] = (io64[3] >> 28) & 0x0000FFFFFFFFFFFF // ppc64x: "MOVWZ", "RLWNM\t[$]1, R[0-9]*, [$]28, [$]3, R" io64[4] = uint64(bits.RotateLeft32(io32[0], 1) & 0xF000000F) // ppc64x: "RLWNM\t[$]0, R[0-9]*, [$]4, [$]19, R" io32[0] = io32[0] & 0x0FFFF000 // ppc64x: "RLWNM\t[$]0, R[0-9]*, [$]20, [$]3, R" io32[1] = io32[1] & 0xF0000FFF // ppc64x: -"RLWNM", MOVD, AND io32[2] = io32[2] & 0xFFFF0002 var bigc uint32 = 0x12345678 // ppc64x: "ANDCC\t[$]22136" io16[0] = io16[0] & uint16(bigc) // ppc64x: "ANDCC\t[$]120" io8[0] = io8[0] & uint8(bigc) }