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Use float <-> int register moves without conversion instead of stores and loads to move float <-> int values like arm64 and mips64. goos: linux goarch: loong64 pkg: math cpu: Loongson-3A6000 @ 2500.00MHz │ bench.old │ bench.new │ │ sec/op │ sec/op vs base │ Acos 15.98n ± 0% 15.94n ± 0% -0.25% (p=0.000 n=20) Acosh 27.75n ± 0% 25.56n ± 0% -7.89% (p=0.000 n=20) Asin 15.85n ± 0% 15.76n ± 0% -0.57% (p=0.000 n=20) Asinh 39.79n ± 0% 37.69n ± 0% -5.28% (p=0.000 n=20) Atan 7.261n ± 0% 7.242n ± 0% -0.27% (p=0.000 n=20) Atanh 28.30n ± 0% 27.62n ± 0% -2.40% (p=0.000 n=20) Atan2 15.85n ± 0% 15.75n ± 0% -0.63% (p=0.000 n=20) Cbrt 27.02n ± 0% 21.08n ± 0% -21.98% (p=0.000 n=20) Ceil 2.830n ± 1% 2.896n ± 1% +2.31% (p=0.000 n=20) Copysign 0.8022n ± 0% 0.8004n ± 0% -0.22% (p=0.000 n=20) Cos 11.64n ± 0% 11.61n ± 0% -0.26% (p=0.000 n=20) Cosh 35.98n ± 0% 33.44n ± 0% -7.05% (p=0.000 n=20) Erf 10.09n ± 0% 10.08n ± 0% -0.10% (p=0.000 n=20) Erfc 11.40n ± 0% 11.35n ± 0% -0.44% (p=0.000 n=20) Erfinv 12.31n ± 0% 12.29n ± 0% -0.16% (p=0.000 n=20) Erfcinv 12.16n ± 0% 12.17n ± 0% +0.08% (p=0.000 n=20) Exp 28.41n ± 0% 26.44n ± 0% -6.95% (p=0.000 n=20) ExpGo 28.68n ± 0% 27.07n ± 0% -5.60% (p=0.000 n=20) Expm1 17.21n ± 0% 16.75n ± 0% -2.67% (p=0.000 n=20) Exp2 24.71n ± 0% 23.01n ± 0% -6.88% (p=0.000 n=20) Exp2Go 25.17n ± 0% 23.91n ± 0% -4.99% (p=0.000 n=20) Abs 0.8004n ± 0% 0.8004n ± 0% ~ (p=0.224 n=20) Dim 1.201n ± 0% 1.201n ± 0% ~ (p=1.000 n=20) ¹ Floor 2.848n ± 0% 2.859n ± 0% +0.39% (p=0.000 n=20) Max 3.074n ± 0% 3.071n ± 0% ~ (p=0.481 n=20) Min 3.179n ± 0% 3.176n ± 0% -0.09% (p=0.003 n=20) Mod 49.62n ± 0% 44.82n ± 0% -9.67% (p=0.000 n=20) Frexp 7.604n ± 0% 6.803n ± 0% -10.53% (p=0.000 n=20) Gamma 18.01n ± 0% 17.61n ± 0% -2.22% (p=0.000 n=20) Hypot 7.204n ± 0% 7.604n ± 0% +5.55% (p=0.000 n=20) HypotGo 7.204n ± 0% 7.604n ± 0% +5.56% (p=0.000 n=20) Ilogb 6.003n ± 0% 6.003n ± 0% ~ (p=0.407 n=20) J0 76.43n ± 0% 76.24n ± 0% -0.25% (p=0.000 n=20) J1 76.44n ± 0% 76.44n ± 0% ~ (p=1.000 n=20) Jn 168.2n ± 0% 168.5n ± 0% +0.18% (p=0.000 n=20) Ldexp 8.804n ± 0% 7.604n ± 0% -13.63% (p=0.000 n=20) Lgamma 19.01n ± 0% 19.01n ± 0% ~ (p=0.695 n=20) Log 19.38n ± 0% 19.12n ± 0% -1.34% (p=0.000 n=20) Logb 6.003n ± 0% 6.003n ± 0% ~ (p=1.000 n=20) Log1p 18.57n ± 0% 16.72n ± 0% -9.96% (p=0.000 n=20) Log10 20.67n ± 0% 20.45n ± 0% -1.06% (p=0.000 n=20) Log2 9.605n ± 0% 8.804n ± 0% -8.34% (p=0.000 n=20) Modf 4.402n ± 0% 4.402n ± 0% ~ (p=1.000 n=20) Nextafter32 7.204n ± 0% 5.603n ± 0% -22.22% (p=0.000 n=20) Nextafter64 6.803n ± 0% 6.003n ± 0% -11.76% (p=0.000 n=20) PowInt 39.62n ± 0% 37.22n ± 0% -6.06% (p=0.000 n=20) PowFrac 120.9n ± 0% 108.9n ± 0% -9.93% (p=0.000 n=20) Pow10Pos 1.601n ± 0% 1.601n ± 0% ~ (p=0.487 n=20) Pow10Neg 2.675n ± 0% 2.675n ± 0% ~ (p=1.000 n=20) Round 3.018n ± 0% 2.401n ± 0% -20.46% (p=0.000 n=20) RoundToEven 3.822n ± 0% 3.001n ± 0% -21.48% (p=0.000 n=20) Remainder 45.62n ± 0% 42.42n ± 0% -7.01% (p=0.000 n=20) Signbit 0.9075n ± 0% 0.8004n ± 0% -11.81% (p=0.000 n=20) Sin 12.65n ± 0% 12.65n ± 0% ~ (p=0.503 n=20) Sincos 14.81n ± 0% 14.60n ± 0% -1.42% (p=0.000 n=20) Sinh 36.75n ± 0% 35.11n ± 0% -4.46% (p=0.000 n=20) SqrtIndirect 1.201n ± 0% 1.201n ± 0% ~ (p=1.000 n=20) ¹ SqrtLatency 4.002n ± 0% 4.002n ± 0% ~ (p=1.000 n=20) SqrtIndirectLatency 4.002n ± 0% 4.002n ± 0% ~ (p=1.000 n=20) SqrtGoLatency 52.85n ± 0% 40.82n ± 0% -22.76% (p=0.000 n=20) SqrtPrime 887.4n ± 0% 887.4n ± 0% ~ (p=0.751 n=20) Tan 13.95n ± 0% 13.97n ± 0% +0.18% (p=0.000 n=20) Tanh 36.79n ± 0% 34.89n ± 0% -5.16% (p=0.000 n=20) Trunc 2.849n ± 0% 2.861n ± 0% +0.42% (p=0.000 n=20) Y0 77.44n ± 0% 77.64n ± 0% +0.26% (p=0.000 n=20) Y1 74.41n ± 0% 74.33n ± 0% -0.11% (p=0.000 n=20) Yn 158.7n ± 0% 159.0n ± 0% +0.19% (p=0.000 n=20) Float64bits 0.8774n ± 0% 0.4002n ± 0% -54.39% (p=0.000 n=20) Float64frombits 0.8042n ± 0% 0.4002n ± 0% -50.24% (p=0.000 n=20) Float32bits 1.1230n ± 0% 0.5336n ± 0% -52.48% (p=0.000 n=20) Float32frombits 1.0670n ± 0% 0.8004n ± 0% -24.99% (p=0.000 n=20) FMA 2.001n ± 0% 2.001n ± 0% ~ (p=0.605 n=20) geomean 10.87n 10.10n -7.15% ¹ all samples are equal goos: linux goarch: loong64 pkg: math cpu: Loongson-3A5000 @ 2500.00MHz │ bench.old │ bench.new │ │ sec/op │ sec/op vs base │ Acos 33.10n ± 0% 31.95n ± 2% -3.46% (p=0.000 n=20) Acosh 58.38n ± 0% 50.44n ± 0% -13.60% (p=0.000 n=20) Asin 32.70n ± 0% 31.94n ± 0% -2.32% (p=0.000 n=20) Asinh 57.65n ± 0% 50.83n ± 0% -11.82% (p=0.000 n=20) Atan 14.21n ± 0% 14.21n ± 0% ~ (p=0.501 n=20) Atanh 60.86n ± 0% 54.44n ± 0% -10.56% (p=0.000 n=20) Atan2 32.02n ± 0% 34.02n ± 0% +6.25% (p=0.000 n=20) Cbrt 55.58n ± 0% 40.64n ± 0% -26.88% (p=0.000 n=20) Ceil 9.566n ± 0% 9.566n ± 0% ~ (p=0.463 n=20) Copysign 0.8005n ± 0% 0.8005n ± 0% ~ (p=0.806 n=20) Cos 18.02n ± 0% 18.02n ± 0% ~ (p=0.191 n=20) Cosh 64.44n ± 0% 65.64n ± 0% +1.86% (p=0.000 n=20) Erf 16.15n ± 0% 16.16n ± 0% ~ (p=0.770 n=20) Erfc 18.71n ± 0% 18.83n ± 0% +0.61% (p=0.000 n=20) Erfinv 19.33n ± 0% 19.34n ± 0% ~ (p=0.513 n=20) Erfcinv 18.90n ± 0% 19.78n ± 0% +4.63% (p=0.000 n=20) Exp 50.04n ± 0% 49.66n ± 0% -0.75% (p=0.000 n=20) ExpGo 50.03n ± 0% 50.03n ± 0% ~ (p=0.723 n=20) Expm1 28.41n ± 0% 28.27n ± 0% -0.49% (p=0.000 n=20) Exp2 50.08n ± 0% 51.23n ± 0% +2.31% (p=0.000 n=20) Exp2Go 49.77n ± 0% 49.89n ± 0% +0.24% (p=0.000 n=20) Abs 0.8009n ± 0% 0.8006n ± 0% ~ (p=0.317 n=20) Dim 1.987n ± 0% 1.993n ± 0% +0.28% (p=0.001 n=20) Floor 8.543n ± 0% 8.548n ± 0% ~ (p=0.509 n=20) Max 6.670n ± 0% 6.672n ± 0% ~ (p=0.335 n=20) Min 6.694n ± 0% 6.694n ± 0% ~ (p=0.459 n=20) Mod 56.44n ± 0% 53.23n ± 0% -5.70% (p=0.000 n=20) Frexp 8.409n ± 0% 7.606n ± 0% -9.55% (p=0.000 n=20) Gamma 35.64n ± 0% 35.23n ± 0% -1.15% (p=0.000 n=20) Hypot 11.21n ± 0% 10.61n ± 0% -5.31% (p=0.000 n=20) HypotGo 11.50n ± 0% 11.01n ± 0% -4.30% (p=0.000 n=20) Ilogb 7.606n ± 0% 6.804n ± 0% -10.54% (p=0.000 n=20) J0 125.3n ± 0% 126.5n ± 0% +0.96% (p=0.000 n=20) J1 124.9n ± 0% 125.3n ± 0% +0.32% (p=0.000 n=20) Jn 264.3n ± 0% 265.9n ± 0% +0.61% (p=0.000 n=20) Ldexp 9.606n ± 0% 9.204n ± 0% -4.19% (p=0.000 n=20) Lgamma 38.82n ± 0% 38.85n ± 0% +0.06% (p=0.019 n=20) Log 38.44n ± 0% 28.04n ± 0% -27.06% (p=0.000 n=20) Logb 8.405n ± 0% 7.605n ± 0% -9.52% (p=0.000 n=20) Log1p 31.62n ± 0% 27.11n ± 0% -14.26% (p=0.000 n=20) Log10 38.83n ± 0% 28.42n ± 0% -26.81% (p=0.000 n=20) Log2 11.21n ± 0% 10.41n ± 0% -7.14% (p=0.000 n=20) Modf 5.204n ± 0% 5.205n ± 0% ~ (p=0.983 n=20) Nextafter32 8.809n ± 0% 7.208n ± 0% -18.18% (p=0.000 n=20) Nextafter64 8.405n ± 0% 8.406n ± 0% +0.01% (p=0.007 n=20) PowInt 48.83n ± 0% 44.78n ± 0% -8.28% (p=0.000 n=20) PowFrac 146.9n ± 0% 142.1n ± 0% -3.23% (p=0.000 n=20) Pow10Pos 2.334n ± 0% 2.333n ± 0% ~ (p=0.110 n=20) Pow10Neg 4.803n ± 0% 4.803n ± 0% ~ (p=0.130 n=20) Round 4.816n ± 0% 3.819n ± 0% -20.70% (p=0.000 n=20) RoundToEven 5.735n ± 0% 5.204n ± 0% -9.26% (p=0.000 n=20) Remainder 52.05n ± 0% 49.64n ± 0% -4.63% (p=0.000 n=20) Signbit 1.201n ± 0% 1.001n ± 0% -16.65% (p=0.000 n=20) Sin 20.63n ± 0% 20.64n ± 0% +0.05% (p=0.040 n=20) Sincos 23.82n ± 0% 24.62n ± 0% +3.36% (p=0.000 n=20) Sinh 71.25n ± 0% 68.44n ± 0% -3.94% (p=0.000 n=20) SqrtIndirect 2.001n ± 0% 2.001n ± 0% ~ (p=0.182 n=20) SqrtLatency 4.003n ± 0% 4.003n ± 0% ~ (p=0.754 n=20) SqrtIndirectLatency 4.003n ± 0% 4.003n ± 0% ~ (p=0.773 n=20) SqrtGoLatency 60.84n ± 0% 81.26n ± 0% +33.56% (p=0.000 n=20) SqrtPrime 1.791µ ± 0% 1.791µ ± 0% ~ (p=0.784 n=20) Tan 27.22n ± 0% 27.22n ± 0% ~ (p=0.819 n=20) Tanh 70.88n ± 0% 69.04n ± 0% -2.60% (p=0.000 n=20) Trunc 8.543n ± 0% 8.543n ± 0% ~ (p=0.784 n=20) Y0 122.9n ± 0% 122.9n ± 0% ~ (p=0.559 n=20) Y1 123.3n ± 0% 121.7n ± 0% -1.30% (p=0.000 n=20) Yn 263.0n ± 0% 262.6n ± 0% -0.15% (p=0.000 n=20) Float64bits 1.2010n ± 0% 0.6004n ± 0% -50.01% (p=0.000 n=20) Float64frombits 1.2010n ± 0% 0.6004n ± 0% -50.01% (p=0.000 n=20) Float32bits 1.7010n ± 0% 0.8005n ± 0% -52.94% (p=0.000 n=20) Float32frombits 1.5010n ± 0% 0.8005n ± 0% -46.67% (p=0.000 n=20) FMA 2.001n ± 0% 2.001n ± 0% ~ (p=0.238 n=20) geomean 17.41n 16.15n -7.19% Change-Id: I0a0c263af2f07203eab1782e69c706f20c689d8d Reviewed-on: https://go-review.googlesource.com/c/go/+/604737 Auto-Submit: Tim King <taking@google.com> LUCI-TryBot-Result: Go LUCI <golang-scoped@luci-project-accounts.iam.gserviceaccount.com> Reviewed-by: Dmitri Shuralyov <dmitshur@google.com> Reviewed-by: Meidan Li <limeidan@loongson.cn> Reviewed-by: Tim King <taking@google.com> Reviewed-by: abner chenc <chenguoqi@loongson.cn> |
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addrcalc.go | ||
alloc.go | ||
arithmetic.go | ||
atomics.go | ||
bitfield.go | ||
bits.go | ||
bmi.go | ||
bool.go | ||
clobberdead.go | ||
clobberdeadreg.go | ||
compare_and_branch.go | ||
comparisons.go | ||
condmove.go | ||
constants.go | ||
copy.go | ||
floats.go | ||
fuse.go | ||
ifaces.go | ||
issue22703.go | ||
issue25378.go | ||
issue31618.go | ||
issue33580.go | ||
issue38554.go | ||
issue42610.go | ||
issue48054.go | ||
issue52635.go | ||
issue54467.go | ||
issue56440.go | ||
issue58166.go | ||
issue59297.go | ||
issue60324.go | ||
issue60673.go | ||
issue61356.go | ||
issue63332.go | ||
issue66585.go | ||
issue68845.go | ||
logic.go | ||
mapaccess.go | ||
maps.go | ||
math.go | ||
mathbits.go | ||
memcombine.go | ||
memops_bigoffset.go | ||
memops.go | ||
noextend.go | ||
race.go | ||
README | ||
regabi_regalloc.go | ||
retpoline.go | ||
rotate.go | ||
select.go | ||
shift.go | ||
shortcircuit.go | ||
slices.go | ||
smallintiface.go | ||
spectre.go | ||
stack.go | ||
strings.go | ||
structs.go | ||
switch.go | ||
writebarrier.go | ||
zerosize.go |
// 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. The codegen directory contains code generation tests for the gc compiler. - Introduction The test harness compiles Go code inside files in this directory and matches the generated assembly (the output of `go tool compile -S`) against a set of regexps to be specified in comments that follow a special syntax (described below). The test driver is implemented as an action within the GOROOT/test test suite, called "asmcheck". The codegen harness is part of the all.bash test suite, but for performance reasons only the codegen tests for the host machine's GOARCH are enabled by default, and only on GOOS=linux. To perform comprehensive tests for all the supported architectures (even on a non-Linux system), one can run the following command: $ ../../bin/go test cmd/internal/testdir -run='Test/codegen' -all_codegen -v This is recommended after any change that affect the compiler's code. The test harness compiles the tests with the same go toolchain that is used to run the test. After writing tests for a newly added codegen transformation, it can be useful to first run the test harness with a toolchain from a released Go version (and verify that the new tests fail), and then re-running the tests using the devel toolchain. - Regexps comments syntax Instructions to match are specified inside plain comments that start with an architecture tag, followed by a colon and a quoted Go-style regexp to be matched. For example, the following test: func Sqrt(x float64) float64 { // amd64:"SQRTSD" // arm64:"FSQRTD" return math.Sqrt(x) } verifies that math.Sqrt calls are intrinsified to a SQRTSD instruction on amd64, and to a FSQRTD instruction on arm64. It is possible to put multiple architectures checks into the same line, as: // amd64:"SQRTSD" arm64:"FSQRTD" although this form should be avoided when doing so would make the regexps line excessively long and difficult to read. Comments that are on their own line will be matched against the first subsequent non-comment line. Inline comments are also supported; the regexp will be matched against the code found on the same line: func Sqrt(x float64) float64 { return math.Sqrt(x) // arm:"SQRTD" } It's possible to specify a comma-separated list of regexps to be matched. For example, the following test: func TZ8(n uint8) int { // amd64:"BSFQ","ORQ\t\\$256" return bits.TrailingZeros8(n) } verifies that the code generated for a bits.TrailingZeros8 call on amd64 contains both a "BSFQ" instruction and an "ORQ $256". Note how the ORQ regex includes a tab char (\t). In the Go assembly syntax, operands are separated from opcodes by a tabulation. Regexps can be quoted using either " or `. Special characters must be escaped accordingly. Both of these are accepted, and equivalent: // amd64:"ADDQ\t\\$3" // amd64:`ADDQ\t\$3` and they'll match this assembly line: ADDQ $3 Negative matches can be specified using a - before the quoted regexp. For example: func MoveSmall() { x := [...]byte{1, 2, 3, 4, 5, 6, 7} copy(x[1:], x[:]) // arm64:-".*memmove" } verifies that NO memmove call is present in the assembly generated for the copy() line. - Architecture specifiers There are three different ways to specify on which architecture a test should be run: * Specify only the architecture (eg: "amd64"). This indicates that the check should be run on all the supported architecture variants. For instance, arm checks will be run against all supported GOARM variations (5,6,7). * Specify both the architecture and a variant, separated by a slash (eg: "arm/7"). This means that the check will be run only on that specific variant. * Specify the operating system, the architecture and the variant, separated by slashes (eg: "plan9/386/sse2", "plan9/amd64/"). This is needed in the rare case that you need to do a codegen test affected by a specific operating system; by default, tests are compiled only targeting linux. - Remarks, and Caveats -- Write small test functions As a general guideline, test functions should be small, to avoid possible interactions between unrelated lines of code that may be introduced, for example, by the compiler's optimization passes. Any given line of Go code could get assigned more instructions than it may appear from reading the source. In particular, matching all MOV instructions should be avoided; the compiler may add them for unrelated reasons and this may render the test ineffective. -- Line matching logic Regexps are always matched from the start of the instructions line. This means, for example, that the "MULQ" regexp is equivalent to "^MULQ" (^ representing the start of the line), and it will NOT match the following assembly line: IMULQ $99, AX To force a match at any point of the line, ".*MULQ" should be used. For the same reason, a negative regexp like -"memmove" is not enough to make sure that no memmove call is included in the assembly. A memmove call looks like this: CALL runtime.memmove(SB) To make sure that the "memmove" symbol does not appear anywhere in the assembly, the negative regexp to be used is -".*memmove".