// Copyright 2016 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 gc import ( "bytes" "fmt" "internal/testenv" "io/ioutil" "os" "os/exec" "path/filepath" "regexp" "runtime" "strings" "testing" ) // This file contains code generation tests. // // Each test is defined in a variable of type asmTest. Tests are // architecture-specific, and they are grouped in arrays of tests, one // for each architecture. // // Each asmTest consists of a function to compile, an array of // positive regexps that must match the generated assembly and // an array of negative regexps that must not match generated assembly. // For example, the following amd64 test // // { // fn: ` // func f0(x int) int { // return x * 64 // } // `, // pos: []string{"\tSHLQ\t[$]6,"}, // neg: []string{"MULQ"} // } // // verifies that the code the compiler generates for a multiplication // by 64 contains a 'SHLQ' instruction and does not contain a MULQ. // // Since all the tests for a given architecture are dumped in the same // file, the function names must be unique. As a workaround for this // restriction, the test harness supports the use of a '$' placeholder // for function names. The func f0 above can be also written as // // { // fn: ` // func $(x int) int { // return x * 64 // } // `, // pos: []string{"\tSHLQ\t[$]6,"}, // neg: []string{"MULQ"} // } // // Each '$'-function will be given a unique name of form f_, // where is the test index in the test array, and is the // test's architecture. // // It is allowed to mix named and unnamed functions in the same test // array; the named functions will retain their original names. // TestAssembly checks to make sure the assembly generated for // functions contains certain expected instructions. func TestAssembly(t *testing.T) { testenv.MustHaveGoBuild(t) if runtime.GOOS == "windows" { // TODO: remove if we can get "go tool compile -S" to work on windows. t.Skipf("skipping test: recursive windows compile not working") } dir, err := ioutil.TempDir("", "TestAssembly") if err != nil { t.Fatalf("could not create directory: %v", err) } defer os.RemoveAll(dir) nameRegexp := regexp.MustCompile("func \\w+") t.Run("platform", func(t *testing.T) { for _, ats := range allAsmTests { ats := ats t.Run(ats.os+"/"+ats.arch, func(tt *testing.T) { tt.Parallel() asm := ats.compileToAsm(tt, dir) for i, at := range ats.tests { var funcName string if strings.Contains(at.fn, "func $") { funcName = fmt.Sprintf("f%d_%s", i, ats.arch) } else { funcName = nameRegexp.FindString(at.fn)[len("func "):] } fa := funcAsm(tt, asm, funcName) if fa != "" { at.verifyAsm(tt, fa) } } }) } }) } var nextTextRegexp = regexp.MustCompile(`\n\S`) // funcAsm returns the assembly listing for the given function name. func funcAsm(t *testing.T, asm string, funcName string) string { if i := strings.Index(asm, fmt.Sprintf("TEXT\t\"\".%s(SB)", funcName)); i >= 0 { asm = asm[i:] } else { t.Errorf("could not find assembly for function %v", funcName) return "" } // Find the next line that doesn't begin with whitespace. loc := nextTextRegexp.FindStringIndex(asm) if loc != nil { asm = asm[:loc[0]] } return asm } type asmTest struct { // function to compile fn string // regular expressions that must match the generated assembly pos []string // regular expressions that must not match the generated assembly neg []string } func (at asmTest) verifyAsm(t *testing.T, fa string) { for _, r := range at.pos { if b, err := regexp.MatchString(r, fa); !b || err != nil { t.Errorf("expected:%s\ngo:%s\nasm:%s\n", r, at.fn, fa) } } for _, r := range at.neg { if b, err := regexp.MatchString(r, fa); b || err != nil { t.Errorf("not expected:%s\ngo:%s\nasm:%s\n", r, at.fn, fa) } } } type asmTests struct { arch string os string imports []string tests []*asmTest } func (ats *asmTests) generateCode() []byte { var buf bytes.Buffer fmt.Fprintln(&buf, "package main") for _, s := range ats.imports { fmt.Fprintf(&buf, "import %q\n", s) } for i, t := range ats.tests { function := strings.Replace(t.fn, "func $", fmt.Sprintf("func f%d_%s", i, ats.arch), 1) fmt.Fprintln(&buf, function) } return buf.Bytes() } // compile compiles the package pkg for architecture arch and // returns the generated assembly. dir is a scratch directory. func (ats *asmTests) compileToAsm(t *testing.T, dir string) string { // create test directory testDir := filepath.Join(dir, fmt.Sprintf("%s_%s", ats.arch, ats.os)) err := os.Mkdir(testDir, 0700) if err != nil { t.Fatalf("could not create directory: %v", err) } // Create source. src := filepath.Join(testDir, "test.go") err = ioutil.WriteFile(src, ats.generateCode(), 0600) if err != nil { t.Fatalf("error writing code: %v", err) } // First, install any dependencies we need. This builds the required export data // for any packages that are imported. for _, i := range ats.imports { out := filepath.Join(testDir, i+".a") if s := ats.runGo(t, "build", "-o", out, "-gcflags=-dolinkobj=false", i); s != "" { t.Fatalf("Stdout = %s\nWant empty", s) } } // Now, compile the individual file for which we want to see the generated assembly. asm := ats.runGo(t, "tool", "compile", "-I", testDir, "-S", "-o", filepath.Join(testDir, "out.o"), src) return asm } // runGo runs go command with the given args and returns stdout string. // go is run with GOARCH and GOOS set as ats.arch and ats.os respectively func (ats *asmTests) runGo(t *testing.T, args ...string) string { var stdout, stderr bytes.Buffer cmd := exec.Command(testenv.GoToolPath(t), args...) cmd.Env = append(os.Environ(), "GOARCH="+ats.arch, "GOOS="+ats.os) cmd.Stdout = &stdout cmd.Stderr = &stderr if err := cmd.Run(); err != nil { t.Fatalf("error running cmd: %v\nstdout:\n%sstderr:\n%s\n", err, stdout.String(), stderr.String()) } if s := stderr.String(); s != "" { t.Fatalf("Stderr = %s\nWant empty", s) } return stdout.String() } var allAsmTests = []*asmTests{ { arch: "amd64", os: "linux", imports: []string{"encoding/binary", "math", "math/bits", "unsafe", "runtime"}, tests: linuxAMD64Tests, }, { arch: "386", os: "linux", imports: []string{"encoding/binary"}, tests: linux386Tests, }, { arch: "s390x", os: "linux", imports: []string{"encoding/binary", "math/bits"}, tests: linuxS390XTests, }, { arch: "arm", os: "linux", imports: []string{"math/bits"}, tests: linuxARMTests, }, { arch: "arm64", os: "linux", imports: []string{"math/bits"}, tests: linuxARM64Tests, }, { arch: "mips", os: "linux", imports: []string{"math/bits"}, tests: linuxMIPSTests, }, { arch: "mips64", os: "linux", tests: linuxMIPS64Tests, }, { arch: "ppc64le", os: "linux", tests: linuxPPC64LETests, }, { arch: "amd64", os: "plan9", tests: plan9AMD64Tests, }, } var linuxAMD64Tests = []*asmTest{ { fn: ` func f0(x int) int { return x * 64 } `, pos: []string{"\tSHLQ\t\\$6,"}, }, { fn: ` func f1(x int) int { return x * 96 } `, pos: []string{"\tSHLQ\t\\$5,", "\tLEAQ\t\$.*\$\$.*\\*2\$,"}, }, // Load-combining tests. { fn: ` func f2(b []byte) uint64 { return binary.LittleEndian.Uint64(b) } `, pos: []string{"\tMOVQ\t\$.*\$,"}, }, { fn: ` func f3(b []byte, i int) uint64 { return binary.LittleEndian.Uint64(b[i:]) } `, pos: []string{"\tMOVQ\t\$.*\$\$.*\\*1\$,"}, }, { fn: ` func f4(b []byte) uint32 { return binary.LittleEndian.Uint32(b) } `, pos: []string{"\tMOVL\t\$.*\$,"}, }, { fn: ` func f5(b []byte, i int) uint32 { return binary.LittleEndian.Uint32(b[i:]) } `, pos: []string{"\tMOVL\t\$.*\$\$.*\\*1\$,"}, }, { fn: ` func f6(b []byte) uint64 { return binary.BigEndian.Uint64(b) } `, pos: []string{"\tBSWAPQ\t"}, }, { fn: ` func f7(b []byte, i int) uint64 { return binary.BigEndian.Uint64(b[i:]) } `, pos: []string{"\tBSWAPQ\t"}, }, { fn: ` func f8(b []byte, v uint64) { binary.BigEndian.PutUint64(b, v) } `, pos: []string{"\tBSWAPQ\t"}, }, { fn: ` func f9(b []byte, i int, v uint64) { binary.BigEndian.PutUint64(b[i:], v) } `, pos: []string{"\tBSWAPQ\t"}, }, { fn: ` func f10(b []byte) uint32 { return binary.BigEndian.Uint32(b) } `, pos: []string{"\tBSWAPL\t"}, }, { fn: ` func f11(b []byte, i int) uint32 { return binary.BigEndian.Uint32(b[i:]) } `, pos: []string{"\tBSWAPL\t"}, }, { fn: ` func f12(b []byte, v uint32) { binary.BigEndian.PutUint32(b, v) } `, pos: []string{"\tBSWAPL\t"}, }, { fn: ` func f13(b []byte, i int, v uint32) { binary.BigEndian.PutUint32(b[i:], v) } `, pos: []string{"\tBSWAPL\t"}, }, { fn: ` func f14(b []byte) uint16 { return binary.BigEndian.Uint16(b) } `, pos: []string{"\tROLW\t\\$8,"}, }, { fn: ` func f15(b []byte, i int) uint16 { return binary.BigEndian.Uint16(b[i:]) } `, pos: []string{"\tROLW\t\\$8,"}, }, { fn: ` func f16(b []byte, v uint16) { binary.BigEndian.PutUint16(b, v) } `, pos: []string{"\tROLW\t\\$8,"}, }, { fn: ` func f17(b []byte, i int, v uint16) { binary.BigEndian.PutUint16(b[i:], v) } `, pos: []string{"\tROLW\t\\$8,"}, }, // Structure zeroing. See issue #18370. { fn: ` type T1 struct { a, b, c int } func $(t *T1) { *t = T1{} } `, pos: []string{"\tXORPS\tX., X", "\tMOVUPS\tX., \$.*\$", "\tMOVQ\t\\$0, 16\$.*\$"}, }, // SSA-able composite literal initialization. Issue 18872. { fn: ` type T18872 struct { a, b, c, d int } func f18872(p *T18872) { *p = T18872{1, 2, 3, 4} } `, pos: []string{"\tMOVQ\t[$]1", "\tMOVQ\t[$]2", "\tMOVQ\t[$]3", "\tMOVQ\t[$]4"}, }, // Also test struct containing pointers (this was special because of write barriers). { fn: ` type T2 struct { a, b, c *int } func f19(t *T2) { *t = T2{} } `, pos: []string{"\tXORPS\tX., X", "\tMOVUPS\tX., \$.*\$", "\tMOVQ\t\\$0, 16\$.*\$", "\tCALL\truntime\\.writebarrierptr\$SB\$"}, }, // Rotate tests { fn: ` func f20(x uint64) uint64 { return x<<7 | x>>57 } `, pos: []string{"\tROLQ\t[$]7,"}, }, { fn: ` func f21(x uint64) uint64 { return x<<7 + x>>57 } `, pos: []string{"\tROLQ\t[$]7,"}, }, { fn: ` func f22(x uint64) uint64 { return x<<7 ^ x>>57 } `, pos: []string{"\tROLQ\t[$]7,"}, }, { fn: ` func f23(x uint32) uint32 { return x<<7 + x>>25 } `, pos: []string{"\tROLL\t[$]7,"}, }, { fn: ` func f24(x uint32) uint32 { return x<<7 | x>>25 } `, pos: []string{"\tROLL\t[$]7,"}, }, { fn: ` func f25(x uint32) uint32 { return x<<7 ^ x>>25 } `, pos: []string{"\tROLL\t[$]7,"}, }, { fn: ` func f26(x uint16) uint16 { return x<<7 + x>>9 } `, pos: []string{"\tROLW\t[$]7,"}, }, { fn: ` func f27(x uint16) uint16 { return x<<7 | x>>9 } `, pos: []string{"\tROLW\t[$]7,"}, }, { fn: ` func f28(x uint16) uint16 { return x<<7 ^ x>>9 } `, pos: []string{"\tROLW\t[$]7,"}, }, { fn: ` func f29(x uint8) uint8 { return x<<7 + x>>1 } `, pos: []string{"\tROLB\t[$]7,"}, }, { fn: ` func f30(x uint8) uint8 { return x<<7 | x>>1 } `, pos: []string{"\tROLB\t[$]7,"}, }, { fn: ` func f31(x uint8) uint8 { return x<<7 ^ x>>1 } `, pos: []string{"\tROLB\t[$]7,"}, }, // Rotate after inlining (see issue 18254). { fn: ` func f32(x uint32) uint32 { return g(x, 7) } func g(x uint32, k uint) uint32 { return x<>(32-k) } `, pos: []string{"\tROLL\t[$]7,"}, }, { fn: ` func f33(m map[int]int) int { return m[5] } `, pos: []string{"\tMOVQ\t[$]5,"}, }, // Direct use of constants in fast map access calls. Issue 19015. { fn: ` func f34(m map[int]int) bool { _, ok := m[5] return ok } `, pos: []string{"\tMOVQ\t[$]5,"}, }, { fn: ` func f35(m map[string]int) int { return m["abc"] } `, pos: []string{"\"abc\""}, }, { fn: ` func f36(m map[string]int) bool { _, ok := m["abc"] return ok } `, pos: []string{"\"abc\""}, }, // Bit test ops on amd64, issue 18943. { fn: ` func f37(a, b uint64) int { if a&(1<<(b&63)) != 0 { return 1 } return -1 } `, pos: []string{"\tBTQ\t"}, }, { fn: ` func f38(a, b uint64) bool { return a&(1<<(b&63)) != 0 } `, pos: []string{"\tBTQ\t"}, }, { fn: ` func f39(a uint64) int { if a&(1<<60) != 0 { return 1 } return -1 } `, pos: []string{"\tBTQ\t\\$60"}, }, { fn: ` func f40(a uint64) bool { return a&(1<<60) != 0 } `, pos: []string{"\tBTQ\t\\$60"}, }, // Intrinsic tests for math/bits { fn: ` func f41(a uint64) int { return bits.TrailingZeros64(a) } `, pos: []string{"\tBSFQ\t", "\tMOVL\t\\$64,", "\tCMOVQEQ\t"}, }, { fn: ` func f42(a uint32) int { return bits.TrailingZeros32(a) } `, pos: []string{"\tBSFQ\t", "\tORQ\t[^$]", "\tMOVQ\t\\$4294967296,"}, }, { fn: ` func f43(a uint16) int { return bits.TrailingZeros16(a) } `, pos: []string{"\tBSFQ\t", "\tORQ\t\\$65536,"}, }, { fn: ` func f44(a uint8) int { return bits.TrailingZeros8(a) } `, pos: []string{"\tBSFQ\t", "\tORQ\t\\$256,"}, }, { fn: ` func f45(a uint64) uint64 { return bits.ReverseBytes64(a) } `, pos: []string{"\tBSWAPQ\t"}, }, { fn: ` func f46(a uint32) uint32 { return bits.ReverseBytes32(a) } `, pos: []string{"\tBSWAPL\t"}, }, { fn: ` func f47(a uint16) uint16 { return bits.ReverseBytes16(a) } `, pos: []string{"\tROLW\t\\$8,"}, }, { fn: ` func f48(a uint64) int { return bits.Len64(a) } `, pos: []string{"\tBSRQ\t"}, }, { fn: ` func f49(a uint32) int { return bits.Len32(a) } `, pos: []string{"\tBSRQ\t"}, }, { fn: ` func f50(a uint16) int { return bits.Len16(a) } `, pos: []string{"\tBSRQ\t"}, }, /* see ssa.go { fn:` func f51(a uint8) int { return bits.Len8(a) } `, pos:[]string{"\tBSRQ\t"}, }, */ { fn: ` func f52(a uint) int { return bits.Len(a) } `, pos: []string{"\tBSRQ\t"}, }, { fn: ` func f53(a uint64) int { return bits.LeadingZeros64(a) } `, pos: []string{"\tBSRQ\t"}, }, { fn: ` func f54(a uint32) int { return bits.LeadingZeros32(a) } `, pos: []string{"\tBSRQ\t"}, }, { fn: ` func f55(a uint16) int { return bits.LeadingZeros16(a) } `, pos: []string{"\tBSRQ\t"}, }, /* see ssa.go { fn:` func f56(a uint8) int { return bits.LeadingZeros8(a) } `, pos:[]string{"\tBSRQ\t"}, }, */ { fn: ` func f57(a uint) int { return bits.LeadingZeros(a) } `, pos: []string{"\tBSRQ\t"}, }, { fn: ` func pop1(x uint64) int { return bits.OnesCount64(x) }`, pos: []string{"\tPOPCNTQ\t", "support_popcnt"}, }, { fn: ` func pop2(x uint32) int { return bits.OnesCount32(x) }`, pos: []string{"\tPOPCNTL\t", "support_popcnt"}, }, { fn: ` func pop3(x uint16) int { return bits.OnesCount16(x) }`, pos: []string{"\tPOPCNTL\t", "support_popcnt"}, }, { fn: ` func pop4(x uint) int { return bits.OnesCount(x) }`, pos: []string{"\tPOPCNTQ\t", "support_popcnt"}, }, // multiplication merging tests { fn: ` func mul1(n int) int { return 15*n + 31*n }`, pos: []string{"\tIMULQ\t[$]46"}, // 46*n }, { fn: ` func mul2(n int) int { return 5*n + 7*(n+1) + 11*(n+2) }`, pos: []string{"\tIMULQ\t[$]23", "\tADDQ\t[$]29"}, // 23*n + 29 }, { fn: ` func mul3(a, n int) int { return a*n + 19*n }`, pos: []string{"\tADDQ\t[$]19", "\tIMULQ"}, // (a+19)*n }, // see issue 19595. // We want to merge load+op in f58, but not in f59. { fn: ` func f58(p, q *int) { x := *p *q += x }`, pos: []string{"\tADDQ\t\\("}, }, { fn: ` func f59(p, q *int) { x := *p for i := 0; i < 10; i++ { *q += x } }`, pos: []string{"\tADDQ\t[A-Z]"}, }, // Floating-point strength reduction { fn: ` func f60(f float64) float64 { return f * 2.0 }`, pos: []string{"\tADDSD\t"}, }, { fn: ` func f62(f float64) float64 { return f / 16.0 }`, pos: []string{"\tMULSD\t"}, }, { fn: ` func f63(f float64) float64 { return f / 0.125 }`, pos: []string{"\tMULSD\t"}, }, { fn: ` func f64(f float64) float64 { return f / 0.5 }`, pos: []string{"\tADDSD\t"}, }, // Check that compare to constant string uses 2/4/8 byte compares { fn: ` func f65(a string) bool { return a == "xx" }`, pos: []string{"\tCMPW\t[A-Z]"}, }, { fn: ` func f66(a string) bool { return a == "xxxx" }`, pos: []string{"\tCMPL\t[A-Z]"}, }, { fn: ` func f67(a string) bool { return a == "xxxxxxxx" }`, pos: []string{"\tCMPQ\t[A-Z]"}, }, // Non-constant rotate { fn: `func rot64l(x uint64, y int) uint64 { z := uint(y & 63) return x << z | x >> (64-z) }`, pos: []string{"\tROLQ\t"}, }, { fn: `func rot64r(x uint64, y int) uint64 { z := uint(y & 63) return x >> z | x << (64-z) }`, pos: []string{"\tRORQ\t"}, }, { fn: `func rot32l(x uint32, y int) uint32 { z := uint(y & 31) return x << z | x >> (32-z) }`, pos: []string{"\tROLL\t"}, }, { fn: `func rot32r(x uint32, y int) uint32 { z := uint(y & 31) return x >> z | x << (32-z) }`, pos: []string{"\tRORL\t"}, }, { fn: `func rot16l(x uint16, y int) uint16 { z := uint(y & 15) return x << z | x >> (16-z) }`, pos: []string{"\tROLW\t"}, }, { fn: `func rot16r(x uint16, y int) uint16 { z := uint(y & 15) return x >> z | x << (16-z) }`, pos: []string{"\tRORW\t"}, }, { fn: `func rot8l(x uint8, y int) uint8 { z := uint(y & 7) return x << z | x >> (8-z) }`, pos: []string{"\tROLB\t"}, }, { fn: `func rot8r(x uint8, y int) uint8 { z := uint(y & 7) return x >> z | x << (8-z) }`, pos: []string{"\tRORB\t"}, }, // Check that array compare uses 2/4/8 byte compares { fn: ` func f68(a,b [2]byte) bool { return a == b }`, pos: []string{"\tCMPW\t[A-Z]"}, }, { fn: ` func f69(a,b [3]uint16) bool { return a == b }`, pos: []string{"\tCMPL\t[A-Z]"}, }, { fn: ` func f70(a,b [15]byte) bool { return a == b }`, pos: []string{"\tCMPQ\t[A-Z]"}, }, { fn: ` func f71(a,b unsafe.Pointer) bool { // This was a TODO in mapaccess1_faststr return *((*[4]byte)(a)) != *((*[4]byte)(b)) }`, pos: []string{"\tCMPL\t[A-Z]"}, }, { // make sure assembly output has matching offset and base register. fn: ` func f72(a, b int) int { //go:noinline func() {_, _ = a, b} () // use some frame return b } `, pos: []string{"b\\+40\$SP\$"}, }, { // check load combining fn: ` func f73(a, b byte) (byte,byte) { return f73(f73(a,b)) } `, pos: []string{"\tMOVW\t"}, }, { fn: ` func f74(a, b uint16) (uint16,uint16) { return f74(f74(a,b)) } `, pos: []string{"\tMOVL\t"}, }, { fn: ` func f75(a, b uint32) (uint32,uint32) { return f75(f75(a,b)) } `, pos: []string{"\tMOVQ\t"}, }, { fn: ` func f76(a, b uint64) (uint64,uint64) { return f76(f76(a,b)) } `, pos: []string{"\tMOVUPS\t"}, }, // Make sure we don't put pointers in SSE registers across safe points. { fn: ` func $(p, q *[2]*int) { a, b := p[0], p[1] runtime.GC() q[0], q[1] = a, b } `, neg: []string{"MOVUPS"}, }, { // check that stack store is optimized away fn: ` func $() int { var x int return *(&x) } `, pos: []string{"TEXT\t.*, [$]0-8"}, }, // math.Abs using integer registers { fn: ` func $(x float64) float64 { return math.Abs(x) } `, pos: []string{"\tSHLQ\t[$]1,", "\tSHRQ\t[$]1,"}, }, // math.Copysign using integer registers { fn: ` func $(x, y float64) float64 { return math.Copysign(x, y) } `, pos: []string{"\tSHLQ\t[$]1,", "\tSHRQ\t[$]1,", "\tSHRQ\t[$]63,", "\tSHLQ\t[$]63,", "\tORQ\t"}, }, // int <-> fp moves { fn: ` func $(x float64) uint64 { return math.Float64bits(x+1) + 1 } `, pos: []string{"\tMOVQ\tX.*, [^X].*"}, }, { fn: ` func $(x float32) uint32 { return math.Float32bits(x+1) + 1 } `, pos: []string{"\tMOVL\tX.*, [^X].*"}, }, { fn: ` func $(x uint64) float64 { return math.Float64frombits(x+1) + 1 } `, pos: []string{"\tMOVQ\t[^X].*, X.*"}, }, { fn: ` func $(x uint32) float32 { return math.Float32frombits(x+1) + 1 } `, pos: []string{"\tMOVL\t[^X].*, X.*"}, }, } var linux386Tests = []*asmTest{ { fn: ` func f0(b []byte) uint32 { return binary.LittleEndian.Uint32(b) } `, pos: []string{"\tMOVL\t\$.*\$,"}, }, { fn: ` func f1(b []byte, i int) uint32 { return binary.LittleEndian.Uint32(b[i:]) } `, pos: []string{"\tMOVL\t\$.*\$\$.*\\*1\$,"}, }, // multiplication merging tests { fn: ` func $(n int) int { return 9*n + 14*n }`, pos: []string{"\tIMULL\t[$]23"}, // 23*n }, { fn: ` func $(a, n int) int { return 19*a + a*n }`, pos: []string{"\tADDL\t[$]19", "\tIMULL"}, // (n+19)*a }, { // check that stack store is optimized away fn: ` func $() int { var x int return *(&x) } `, pos: []string{"TEXT\t.*, [$]0-4"}, }, } var linuxS390XTests = []*asmTest{ { fn: ` func f0(b []byte) uint32 { return binary.LittleEndian.Uint32(b) } `, pos: []string{"\tMOVWBR\t\$.*\$,"}, }, { fn: ` func f1(b []byte, i int) uint32 { return binary.LittleEndian.Uint32(b[i:]) } `, pos: []string{"\tMOVWBR\t\$.*\$\$.*\\*1\$,"}, }, { fn: ` func f2(b []byte) uint64 { return binary.LittleEndian.Uint64(b) } `, pos: []string{"\tMOVDBR\t\$.*\$,"}, }, { fn: ` func f3(b []byte, i int) uint64 { return binary.LittleEndian.Uint64(b[i:]) } `, pos: []string{"\tMOVDBR\t\$.*\$\$.*\\*1\$,"}, }, { fn: ` func f4(b []byte) uint32 { return binary.BigEndian.Uint32(b) } `, pos: []string{"\tMOVWZ\t\$.*\$,"}, }, { fn: ` func f5(b []byte, i int) uint32 { return binary.BigEndian.Uint32(b[i:]) } `, pos: []string{"\tMOVWZ\t\$.*\$\$.*\\*1\$,"}, }, { fn: ` func f6(b []byte) uint64 { return binary.BigEndian.Uint64(b) } `, pos: []string{"\tMOVD\t\$.*\$,"}, }, { fn: ` func f7(b []byte, i int) uint64 { return binary.BigEndian.Uint64(b[i:]) } `, pos: []string{"\tMOVD\t\$.*\$\$.*\\*1\$,"}, }, { fn: ` func f8(x uint64) uint64 { return x<<7 + x>>57 } `, pos: []string{"\tRLLG\t[$]7,"}, }, { fn: ` func f9(x uint64) uint64 { return x<<7 | x>>57 } `, pos: []string{"\tRLLG\t[$]7,"}, }, { fn: ` func f10(x uint64) uint64 { return x<<7 ^ x>>57 } `, pos: []string{"\tRLLG\t[$]7,"}, }, { fn: ` func f11(x uint32) uint32 { return x<<7 + x>>25 } `, pos: []string{"\tRLL\t[$]7,"}, }, { fn: ` func f12(x uint32) uint32 { return x<<7 | x>>25 } `, pos: []string{"\tRLL\t[$]7,"}, }, { fn: ` func f13(x uint32) uint32 { return x<<7 ^ x>>25 } `, pos: []string{"\tRLL\t[$]7,"}, }, // Fused multiply-add/sub instructions. { fn: ` func f14(x, y, z float64) float64 { return x * y + z } `, pos: []string{"\tFMADD\t"}, }, { fn: ` func f15(x, y, z float64) float64 { return x * y - z } `, pos: []string{"\tFMSUB\t"}, }, { fn: ` func f16(x, y, z float32) float32 { return x * y + z } `, pos: []string{"\tFMADDS\t"}, }, { fn: ` func f17(x, y, z float32) float32 { return x * y - z } `, pos: []string{"\tFMSUBS\t"}, }, // Intrinsic tests for math/bits { fn: ` func f18(a uint64) int { return bits.TrailingZeros64(a) } `, pos: []string{"\tFLOGR\t"}, }, { fn: ` func f19(a uint32) int { return bits.TrailingZeros32(a) } `, pos: []string{"\tFLOGR\t", "\tMOVWZ\t"}, }, { fn: ` func f20(a uint16) int { return bits.TrailingZeros16(a) } `, pos: []string{"\tFLOGR\t", "\tOR\t\\$65536,"}, }, { fn: ` func f21(a uint8) int { return bits.TrailingZeros8(a) } `, pos: []string{"\tFLOGR\t", "\tOR\t\\$256,"}, }, // Intrinsic tests for math/bits { fn: ` func f22(a uint64) uint64 { return bits.ReverseBytes64(a) } `, pos: []string{"\tMOVDBR\t"}, }, { fn: ` func f23(a uint32) uint32 { return bits.ReverseBytes32(a) } `, pos: []string{"\tMOVWBR\t"}, }, { fn: ` func f24(a uint64) int { return bits.Len64(a) } `, pos: []string{"\tFLOGR\t"}, }, { fn: ` func f25(a uint32) int { return bits.Len32(a) } `, pos: []string{"\tFLOGR\t"}, }, { fn: ` func f26(a uint16) int { return bits.Len16(a) } `, pos: []string{"\tFLOGR\t"}, }, { fn: ` func f27(a uint8) int { return bits.Len8(a) } `, pos: []string{"\tFLOGR\t"}, }, { fn: ` func f28(a uint) int { return bits.Len(a) } `, pos: []string{"\tFLOGR\t"}, }, { fn: ` func f29(a uint64) int { return bits.LeadingZeros64(a) } `, pos: []string{"\tFLOGR\t"}, }, { fn: ` func f30(a uint32) int { return bits.LeadingZeros32(a) } `, pos: []string{"\tFLOGR\t"}, }, { fn: ` func f31(a uint16) int { return bits.LeadingZeros16(a) } `, pos: []string{"\tFLOGR\t"}, }, { fn: ` func f32(a uint8) int { return bits.LeadingZeros8(a) } `, pos: []string{"\tFLOGR\t"}, }, { fn: ` func f33(a uint) int { return bits.LeadingZeros(a) } `, pos: []string{"\tFLOGR\t"}, }, { // check that stack store is optimized away fn: ` func $() int { var x int return *(&x) } `, pos: []string{"TEXT\t.*, [$]0-8"}, }, } var linuxARMTests = []*asmTest{ { fn: ` func f0(x uint32) uint32 { return x<<7 + x>>25 } `, pos: []string{"\tMOVW\tR[0-9]+@>25,"}, }, { fn: ` func f1(x uint32) uint32 { return x<<7 | x>>25 } `, pos: []string{"\tMOVW\tR[0-9]+@>25,"}, }, { fn: ` func f2(x uint32) uint32 { return x<<7 ^ x>>25 } `, pos: []string{"\tMOVW\tR[0-9]+@>25,"}, }, { fn: ` func f3(a uint64) int { return bits.Len64(a) } `, pos: []string{"\tCLZ\t"}, }, { fn: ` func f4(a uint32) int { return bits.Len32(a) } `, pos: []string{"\tCLZ\t"}, }, { fn: ` func f5(a uint16) int { return bits.Len16(a) } `, pos: []string{"\tCLZ\t"}, }, { fn: ` func f6(a uint8) int { return bits.Len8(a) } `, pos: []string{"\tCLZ\t"}, }, { fn: ` func f7(a uint) int { return bits.Len(a) } `, pos: []string{"\tCLZ\t"}, }, { fn: ` func f8(a uint64) int { return bits.LeadingZeros64(a) } `, pos: []string{"\tCLZ\t"}, }, { fn: ` func f9(a uint32) int { return bits.LeadingZeros32(a) } `, pos: []string{"\tCLZ\t"}, }, { fn: ` func f10(a uint16) int { return bits.LeadingZeros16(a) } `, pos: []string{"\tCLZ\t"}, }, { fn: ` func f11(a uint8) int { return bits.LeadingZeros8(a) } `, pos: []string{"\tCLZ\t"}, }, { fn: ` func f12(a uint) int { return bits.LeadingZeros(a) } `, pos: []string{"\tCLZ\t"}, }, { // make sure assembly output has matching offset and base register. fn: ` func f13(a, b int) int { //go:noinline func() {_, _ = a, b} () // use some frame return b } `, pos: []string{"b\\+4\$FP\$"}, }, { // check that stack store is optimized away fn: ` func $() int { var x int return *(&x) } `, pos: []string{"TEXT\t.*, [$]-4-4"}, }, } var linuxARM64Tests = []*asmTest{ { fn: ` func f0(x uint64) uint64 { return x<<7 + x>>57 } `, pos: []string{"\tROR\t[$]57,"}, }, { fn: ` func f1(x uint64) uint64 { return x<<7 | x>>57 } `, pos: []string{"\tROR\t[$]57,"}, }, { fn: ` func f2(x uint64) uint64 { return x<<7 ^ x>>57 } `, pos: []string{"\tROR\t[$]57,"}, }, { fn: ` func f3(x uint32) uint32 { return x<<7 + x>>25 } `, pos: []string{"\tRORW\t[$]25,"}, }, { fn: ` func f4(x uint32) uint32 { return x<<7 | x>>25 } `, pos: []string{"\tRORW\t[$]25,"}, }, { fn: ` func f5(x uint32) uint32 { return x<<7 ^ x>>25 } `, pos: []string{"\tRORW\t[$]25,"}, }, { fn: ` func f22(a uint64) uint64 { return bits.ReverseBytes64(a) } `, pos: []string{"\tREV\t"}, }, { fn: ` func f23(a uint32) uint32 { return bits.ReverseBytes32(a) } `, pos: []string{"\tREVW\t"}, }, { fn: ` func f24(a uint64) int { return bits.Len64(a) } `, pos: []string{"\tCLZ\t"}, }, { fn: ` func f25(a uint32) int { return bits.Len32(a) } `, pos: []string{"\tCLZ\t"}, }, { fn: ` func f26(a uint16) int { return bits.Len16(a) } `, pos: []string{"\tCLZ\t"}, }, { fn: ` func f27(a uint8) int { return bits.Len8(a) } `, pos: []string{"\tCLZ\t"}, }, { fn: ` func f28(a uint) int { return bits.Len(a) } `, pos: []string{"\tCLZ\t"}, }, { fn: ` func f29(a uint64) int { return bits.LeadingZeros64(a) } `, pos: []string{"\tCLZ\t"}, }, { fn: ` func f30(a uint32) int { return bits.LeadingZeros32(a) } `, pos: []string{"\tCLZ\t"}, }, { fn: ` func f31(a uint16) int { return bits.LeadingZeros16(a) } `, pos: []string{"\tCLZ\t"}, }, { fn: ` func f32(a uint8) int { return bits.LeadingZeros8(a) } `, pos: []string{"\tCLZ\t"}, }, { fn: ` func f33(a uint) int { return bits.LeadingZeros(a) } `, pos: []string{"\tCLZ\t"}, }, { fn: ` func f34(a uint64) uint64 { return a & ((1<<63)-1) } `, pos: []string{"\tAND\t"}, }, { fn: ` func f35(a uint64) uint64 { return a & (1<<63) } `, pos: []string{"\tAND\t"}, }, { // make sure offsets are folded into load and store. fn: ` func f36(_, a [20]byte) (b [20]byte) { b = a return } `, pos: []string{"\tMOVD\t\"\"\\.a\\+[0-9]+\$FP\$, R[0-9]+", "\tMOVD\tR[0-9]+, \"\"\\.b\\+[0-9]+\$FP\$"}, }, { // check that stack store is optimized away fn: ` func $() int { var x int return *(&x) } `, pos: []string{"TEXT\t.*, [$]-8-8"}, }, { // check that we don't emit comparisons for constant shift fn: ` //go:nosplit func $(x int) int { return x << 17 } `, pos: []string{"LSL\t\\$17"}, neg: []string{"CMP"}, }, } var linuxMIPSTests = []*asmTest{ { fn: ` func f0(a uint64) int { return bits.Len64(a) } `, pos: []string{"\tCLZ\t"}, }, { fn: ` func f1(a uint32) int { return bits.Len32(a) } `, pos: []string{"\tCLZ\t"}, }, { fn: ` func f2(a uint16) int { return bits.Len16(a) } `, pos: []string{"\tCLZ\t"}, }, { fn: ` func f3(a uint8) int { return bits.Len8(a) } `, pos: []string{"\tCLZ\t"}, }, { fn: ` func f4(a uint) int { return bits.Len(a) } `, pos: []string{"\tCLZ\t"}, }, { fn: ` func f5(a uint64) int { return bits.LeadingZeros64(a) } `, pos: []string{"\tCLZ\t"}, }, { fn: ` func f6(a uint32) int { return bits.LeadingZeros32(a) } `, pos: []string{"\tCLZ\t"}, }, { fn: ` func f7(a uint16) int { return bits.LeadingZeros16(a) } `, pos: []string{"\tCLZ\t"}, }, { fn: ` func f8(a uint8) int { return bits.LeadingZeros8(a) } `, pos: []string{"\tCLZ\t"}, }, { fn: ` func f9(a uint) int { return bits.LeadingZeros(a) } `, pos: []string{"\tCLZ\t"}, }, { // check that stack store is optimized away fn: ` func $() int { var x int return *(&x) } `, pos: []string{"TEXT\t.*, [$]-4-4"}, }, } var linuxMIPS64Tests = []*asmTest{ { // check that we don't emit comparisons for constant shift fn: ` func $(x int) int { return x << 17 } `, pos: []string{"SLLV\t\\$17"}, neg: []string{"SGT"}, }, } var linuxPPC64LETests = []*asmTest{ // Fused multiply-add/sub instructions. { fn: ` func f0(x, y, z float64) float64 { return x * y + z } `, pos: []string{"\tFMADD\t"}, }, { fn: ` func f1(x, y, z float64) float64 { return x * y - z } `, pos: []string{"\tFMSUB\t"}, }, { fn: ` func f2(x, y, z float32) float32 { return x * y + z } `, pos: []string{"\tFMADDS\t"}, }, { fn: ` func f3(x, y, z float32) float32 { return x * y - z } `, pos: []string{"\tFMSUBS\t"}, }, { fn: ` func f4(x uint32) uint32 { return x<<7 | x>>25 } `, pos: []string{"\tROTLW\t"}, }, { fn: ` func f5(x uint32) uint32 { return x<<7 + x>>25 } `, pos: []string{"\tROTLW\t"}, }, { fn: ` func f6(x uint32) uint32 { return x<<7 ^ x>>25 } `, pos: []string{"\tROTLW\t"}, }, { fn: ` func f7(x uint64) uint64 { return x<<7 | x>>57 } `, pos: []string{"\tROTL\t"}, }, { fn: ` func f8(x uint64) uint64 { return x<<7 + x>>57 } `, pos: []string{"\tROTL\t"}, }, { fn: ` func f9(x uint64) uint64 { return x<<7 ^ x>>57 } `, pos: []string{"\tROTL\t"}, }, { // check that stack store is optimized away fn: ` func $() int { var x int return *(&x) } `, pos: []string{"TEXT\t.*, [$]0-8"}, }, } var plan9AMD64Tests = []*asmTest{ // We should make sure that the compiler doesn't generate floating point // instructions for non-float operations on Plan 9, because floating point // operations are not allowed in the note handler. // Array zeroing. { fn: ` func $() [16]byte { var a [16]byte return a } `, pos: []string{"\tMOVQ\t\\$0, \"\""}, }, // Array copy. { fn: ` func $(a [16]byte) (b [16]byte) { b = a return } `, pos: []string{"\tMOVQ\t\"\"\\.a\\+[0-9]+\$SP\$, (AX|CX)", "\tMOVQ\t(AX|CX), \"\"\\.b\\+[0-9]+\$SP\$"}, }, } // TestLineNumber checks to make sure the generated assembly has line numbers // see issue #16214 func TestLineNumber(t *testing.T) { testenv.MustHaveGoBuild(t) dir, err := ioutil.TempDir("", "TestLineNumber") if err != nil { t.Fatalf("could not create directory: %v", err) } defer os.RemoveAll(dir) src := filepath.Join(dir, "x.go") err = ioutil.WriteFile(src, []byte(issue16214src), 0644) if err != nil { t.Fatalf("could not write file: %v", err) } cmd := exec.Command(testenv.GoToolPath(t), "tool", "compile", "-S", "-o", filepath.Join(dir, "out.o"), src) out, err := cmd.CombinedOutput() if err != nil { t.Fatalf("fail to run go tool compile: %v", err) } if strings.Contains(string(out), "unknown line number") { t.Errorf("line number missing in assembly:\n%s", out) } } var issue16214src = ` package main func Mod32(x uint32) uint32 { return x % 3 // frontend rewrites it as HMUL with 2863311531, the LITERAL node has unknown Pos } `