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https://github.com/golang/go
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abefcac10a
For most nodes (e.g., OPTRLIT, OMAKESLICE, OCONVIFACE), escape analysis prints "escapes to heap" or "does not escape" to indicate whether that node's allocation can be heap or stack allocated. These messages are also emitted for OADDR, even though OADDR does not actually allocate anything itself. Moreover, it's redundant because escape analysis already prints "moved to heap" diagnostics when an OADDR node like "&x" causes x to require heap allocation. Because OADDR nodes don't allocate memory, my escape analysis rewrite doesn't naturally emit the "escapes to heap" / "does not escape" diagnostics for them. It's also non-trivial to replicate the exact semantics esc.go uses for OADDR. Since there are so many of these messages, I'm disabling them in this CL by themselves. I modified esc.go to suppress the Warnl calls without any other behavior changes, and then used a shell script to automatically remove any ERROR messages mentioned by run.go in "missing error" or "no match for" lines. Fixes #16300. Updates #23109. Change-Id: I3993e2743c3ff83ccd0893f4e73b366ff8871a57 Reviewed-on: https://go-review.googlesource.com/c/go/+/170319 Run-TryBot: Matthew Dempsky <mdempsky@google.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Cherry Zhang <cherryyz@google.com> Reviewed-by: David Chase <drchase@google.com>
183 lines
4.3 KiB
Go
183 lines
4.3 KiB
Go
// errorcheck -0 -m
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// Copyright 2015 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// Test, using compiler diagnostic flags, that inlining is working.
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// Compiles but does not run.
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package foo
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import (
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"errors"
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"runtime"
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"unsafe"
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)
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func add2(p *byte, n uintptr) *byte { // ERROR "can inline add2" "leaking param: p to result"
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return (*byte)(add1(unsafe.Pointer(p), n)) // ERROR "inlining call to add1"
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}
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func add1(p unsafe.Pointer, x uintptr) unsafe.Pointer { // ERROR "can inline add1" "leaking param: p to result"
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return unsafe.Pointer(uintptr(p) + x)
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}
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func f(x *byte) *byte { // ERROR "can inline f" "leaking param: x to result"
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return add2(x, 1) // ERROR "inlining call to add2" "inlining call to add1"
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}
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//go:noinline
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func g(x int) int {
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return x + 1
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}
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func h(x int) int { // ERROR "can inline h"
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return x + 2
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}
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func i(x int) int { // ERROR "can inline i"
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const y = 2
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return x + y
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}
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func j(x int) int { // ERROR "can inline j"
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switch {
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case x > 0:
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return x + 2
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default:
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return x + 1
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}
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}
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var somethingWrong error = errors.New("something went wrong")
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// local closures can be inlined
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func l(x, y int) (int, int, error) {
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e := func(err error) (int, int, error) { // ERROR "can inline l.func1" "func literal does not escape" "leaking param: err to result"
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return 0, 0, err
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}
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if x == y {
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e(somethingWrong) // ERROR "inlining call to l.func1"
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}
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return y, x, nil
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}
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// any re-assignment prevents closure inlining
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func m() int {
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foo := func() int { return 1 } // ERROR "can inline m.func1" "func literal does not escape"
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x := foo()
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foo = func() int { return 2 } // ERROR "can inline m.func2" "func literal does not escape"
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return x + foo()
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}
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// address taking prevents closure inlining
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func n() int {
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foo := func() int { return 1 } // ERROR "can inline n.func1" "func literal does not escape"
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bar := &foo
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x := (*bar)() + foo()
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return x
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}
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// make sure assignment inside closure is detected
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func o() int {
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foo := func() int { return 1 } // ERROR "can inline o.func1" "func literal does not escape"
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func(x int) { // ERROR "func literal does not escape"
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if x > 10 {
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foo = func() int { return 2 } // ERROR "can inline o.func2" "func literal escapes"
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}
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}(11)
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return foo()
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}
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func p() int {
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return func() int { return 42 }() // ERROR "can inline p.func1" "inlining call to p.func1"
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}
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func q(x int) int {
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foo := func() int { return x * 2 } // ERROR "can inline q.func1" "q func literal does not escape"
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return foo() // ERROR "inlining call to q.func1"
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}
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func r(z int) int {
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foo := func(x int) int { // ERROR "can inline r.func1" "r func literal does not escape"
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return x + z
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}
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bar := func(x int) int { // ERROR "r func literal does not escape"
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return x + func(y int) int { // ERROR "can inline r.func2.1"
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return 2*y + x*z
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}(x) // ERROR "inlining call to r.func2.1"
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}
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return foo(42) + bar(42) // ERROR "inlining call to r.func1"
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}
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func s0(x int) int {
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foo := func() { // ERROR "can inline s0.func1" "s0 func literal does not escape"
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x = x + 1
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}
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foo() // ERROR "inlining call to s0.func1"
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return x
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}
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func s1(x int) int {
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foo := func() int { // ERROR "can inline s1.func1" "s1 func literal does not escape"
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return x
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}
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x = x + 1
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return foo() // ERROR "inlining call to s1.func1"
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}
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// can't currently inline functions with a break statement
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func switchBreak(x, y int) int {
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var n int
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switch x {
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case 0:
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n = 1
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Done:
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switch y {
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case 0:
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n += 10
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break Done
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}
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n = 2
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}
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return n
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}
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// can't currently inline functions with a type switch
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func switchType(x interface{}) int { // ERROR "switchType x does not escape"
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switch x.(type) {
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case int:
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return x.(int)
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default:
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return 0
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}
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}
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type T struct{}
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func (T) meth(int, int) {} // ERROR "can inline T.meth"
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func k() (T, int, int) { return T{}, 0, 0 } // ERROR "can inline k"
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func _() { // ERROR "can inline _"
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T.meth(k()) // ERROR "inlining call to k" "inlining call to T.meth"
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}
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func small1() { // ERROR "can inline small1"
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runtime.GC()
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}
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func small2() int { // ERROR "can inline small2"
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return runtime.GOMAXPROCS(0)
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}
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func small3(t T) { // ERROR "can inline small3"
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t.meth2(3, 5)
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}
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func small4(t T) { // not inlineable - has 2 calls.
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t.meth2(runtime.GOMAXPROCS(0), 5)
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}
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func (T) meth2(int, int) { // not inlineable - has 2 calls.
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runtime.GC()
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runtime.GC()
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}
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