mirror of
https://github.com/golang/go
synced 2024-11-18 11:04:42 -07:00
cmd/compile,runtime: pass only ptr and len to some runtime calls
Some runtime calls accept a slice, but only use ptr and len. This change modifies most such routines to accept only ptr and len. After this change, the only runtime calls that accept an unnecessary cap arg are concatstrings and slicerunetostring. Neither is particularly common, and both are complicated to modify. Negligible compiler performance impact. Shrinks binaries a little. There are only a few regressions; the one I investigated was due to register allocation fluctuation. Passes 'go test -race std cmd', modulo #38265 and #38266. Wow, does that take a long time to run. Updates #36890 file before after Δ % compile 19655024 19655152 +128 +0.001% cover 5244840 5236648 -8192 -0.156% dist 3662376 3658280 -4096 -0.112% link 6680056 6675960 -4096 -0.061% pprof 14789844 14777556 -12288 -0.083% test2json 2824744 2820648 -4096 -0.145% trace 11647876 11639684 -8192 -0.070% vet 8260472 8256376 -4096 -0.050% total 115163736 115118808 -44928 -0.039% Change-Id: Idb29fa6a81d6a82bfd3b65740b98cf3275ca0a78 Reviewed-on: https://go-review.googlesource.com/c/go/+/227163 Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Keith Randall <khr@golang.org>
This commit is contained in:
parent
ade0811dc8
commit
b6feb03b24
@ -57,9 +57,9 @@ var runtimeDecls = [...]struct {
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{"concatstrings", funcTag, 35},
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{"cmpstring", funcTag, 36},
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{"intstring", funcTag, 39},
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{"slicebytetostring", funcTag, 41},
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{"slicebytetostringtmp", funcTag, 42},
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{"slicerunetostring", funcTag, 45},
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{"slicebytetostring", funcTag, 40},
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{"slicebytetostringtmp", funcTag, 41},
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{"slicerunetostring", funcTag, 44},
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{"stringtoslicebyte", funcTag, 46},
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{"stringtoslicerune", funcTag, 49},
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{"slicecopy", funcTag, 51},
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@ -241,20 +241,20 @@ func runtimeTypes() []*types.Type {
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typs[37] = types.NewArray(typs[0], 4)
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typs[38] = types.NewPtr(typs[37])
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typs[39] = functype(nil, []*Node{anonfield(typs[38]), anonfield(typs[19])}, []*Node{anonfield(typs[25])})
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typs[40] = types.NewSlice(typs[0])
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typs[41] = functype(nil, []*Node{anonfield(typs[29]), anonfield(typs[40])}, []*Node{anonfield(typs[25])})
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typs[42] = functype(nil, []*Node{anonfield(typs[40])}, []*Node{anonfield(typs[25])})
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typs[43] = types.Runetype
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typs[44] = types.NewSlice(typs[43])
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typs[45] = functype(nil, []*Node{anonfield(typs[29]), anonfield(typs[44])}, []*Node{anonfield(typs[25])})
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typs[46] = functype(nil, []*Node{anonfield(typs[29]), anonfield(typs[25])}, []*Node{anonfield(typs[40])})
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typs[47] = types.NewArray(typs[43], 32)
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typs[40] = functype(nil, []*Node{anonfield(typs[29]), anonfield(typs[1]), anonfield(typs[11])}, []*Node{anonfield(typs[25])})
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typs[41] = functype(nil, []*Node{anonfield(typs[1]), anonfield(typs[11])}, []*Node{anonfield(typs[25])})
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typs[42] = types.Runetype
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typs[43] = types.NewSlice(typs[42])
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typs[44] = functype(nil, []*Node{anonfield(typs[29]), anonfield(typs[43])}, []*Node{anonfield(typs[25])})
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typs[45] = types.NewSlice(typs[0])
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typs[46] = functype(nil, []*Node{anonfield(typs[29]), anonfield(typs[25])}, []*Node{anonfield(typs[45])})
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typs[47] = types.NewArray(typs[42], 32)
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typs[48] = types.NewPtr(typs[47])
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typs[49] = functype(nil, []*Node{anonfield(typs[48]), anonfield(typs[25])}, []*Node{anonfield(typs[44])})
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typs[49] = functype(nil, []*Node{anonfield(typs[48]), anonfield(typs[25])}, []*Node{anonfield(typs[43])})
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typs[50] = types.Types[TUINTPTR]
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typs[51] = functype(nil, []*Node{anonfield(typs[2]), anonfield(typs[2]), anonfield(typs[50])}, []*Node{anonfield(typs[11])})
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typs[52] = functype(nil, []*Node{anonfield(typs[2]), anonfield(typs[2])}, []*Node{anonfield(typs[11])})
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typs[53] = functype(nil, []*Node{anonfield(typs[25]), anonfield(typs[11])}, []*Node{anonfield(typs[43]), anonfield(typs[11])})
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typs[51] = functype(nil, []*Node{anonfield(typs[3]), anonfield(typs[11]), anonfield(typs[3]), anonfield(typs[11]), anonfield(typs[50])}, []*Node{anonfield(typs[11])})
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typs[52] = functype(nil, []*Node{anonfield(typs[1]), anonfield(typs[11]), anonfield(typs[25])}, []*Node{anonfield(typs[11])})
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typs[53] = functype(nil, []*Node{anonfield(typs[25]), anonfield(typs[11])}, []*Node{anonfield(typs[42]), anonfield(typs[11])})
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typs[54] = functype(nil, []*Node{anonfield(typs[25])}, []*Node{anonfield(typs[11])})
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typs[55] = functype(nil, []*Node{anonfield(typs[1]), anonfield(typs[2])}, []*Node{anonfield(typs[2])})
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typs[56] = types.Types[TUNSAFEPTR]
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@ -293,7 +293,7 @@ func runtimeTypes() []*types.Type {
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typs[89] = tostruct([]*Node{namedfield("enabled", typs[15]), namedfield("pad", typs[88]), namedfield("needed", typs[15]), namedfield("cgo", typs[15]), namedfield("alignme", typs[21])})
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typs[90] = functype(nil, []*Node{anonfield(typs[1]), anonfield(typs[3]), anonfield(typs[3])}, nil)
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typs[91] = functype(nil, []*Node{anonfield(typs[1]), anonfield(typs[3])}, nil)
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typs[92] = functype(nil, []*Node{anonfield(typs[1]), anonfield(typs[2]), anonfield(typs[2])}, []*Node{anonfield(typs[11])})
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typs[92] = functype(nil, []*Node{anonfield(typs[1]), anonfield(typs[3]), anonfield(typs[11]), anonfield(typs[3]), anonfield(typs[11])}, []*Node{anonfield(typs[11])})
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typs[93] = functype(nil, []*Node{anonfield(typs[86]), anonfield(typs[3])}, []*Node{anonfield(typs[15])})
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typs[94] = functype(nil, []*Node{anonfield(typs[3]), anonfield(typs[83])}, []*Node{anonfield(typs[15])})
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typs[95] = types.NewPtr(typs[15])
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@ -69,13 +69,13 @@ func concatstrings(*[32]byte, []string) string
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func cmpstring(string, string) int
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func intstring(*[4]byte, int64) string
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func slicebytetostring(*[32]byte, []byte) string
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func slicebytetostringtmp([]byte) string
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func slicebytetostring(buf *[32]byte, ptr *byte, n int) string
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func slicebytetostringtmp(ptr *byte, n int) string
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func slicerunetostring(*[32]byte, []rune) string
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func stringtoslicebyte(*[32]byte, string) []byte
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func stringtoslicerune(*[32]rune, string) []rune
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func slicecopy(to any, fr any, wid uintptr) int
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func slicestringcopy(to any, fr any) int
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func slicecopy(toPtr *any, toLen int, frPtr *any, frLen int, wid uintptr) int
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func slicestringcopy(toPtr *byte, toLen int, fr string) int
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func decoderune(string, int) (retv rune, retk int)
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func countrunes(string) int
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@ -162,7 +162,7 @@ var writeBarrier struct {
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// *byte is really *runtime.Type
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func typedmemmove(typ *byte, dst *any, src *any)
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func typedmemclr(typ *byte, dst *any)
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func typedslicecopy(typ *byte, dst any, src any) int
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func typedslicecopy(typ *byte, dstPtr *any, dstLen int, srcPtr *any, srcLen int) int
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func selectnbsend(hchan chan<- any, elem *any) bool
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func selectnbrecv(elem *any, hchan <-chan any) bool
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@ -3277,10 +3277,7 @@ func init() {
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// Compiler frontend optimizations emit OBYTES2STRTMP nodes
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// for the backend instead of slicebytetostringtmp calls
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// when not instrumenting.
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slice := args[0]
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ptr := s.newValue1(ssa.OpSlicePtr, s.f.Config.Types.BytePtr, slice)
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len := s.newValue1(ssa.OpSliceLen, types.Types[TINT], slice)
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return s.newValue2(ssa.OpStringMake, n.Type, ptr, len)
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return s.newValue2(ssa.OpStringMake, n.Type, args[0], args[1])
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},
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all...)
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}
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@ -923,6 +923,21 @@ func (o Op) IsSlice3() bool {
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return false
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}
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// slicePtrLen extracts the pointer and length from a slice.
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// This constructs two nodes referring to n, so n must be a cheapexpr.
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func (n *Node) slicePtrLen() (ptr, len *Node) {
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var init Nodes
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c := cheapexpr(n, &init)
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if c != n || init.Len() != 0 {
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Fatalf("slicePtrLen not cheap: %v", n)
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}
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ptr = nod(OSPTR, n, nil)
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ptr.Type = n.Type.Elem().PtrTo()
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len = nod(OLEN, n, nil)
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len.Type = types.Types[TINT]
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return ptr, len
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}
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// labeledControl returns the control flow Node (for, switch, select)
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// associated with the label n, if any.
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func (n *Node) labeledControl() *Node {
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@ -1414,13 +1414,15 @@ opswitch:
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t := types.NewArray(types.Types[TUINT8], tmpstringbufsize)
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a = nod(OADDR, temp(t), nil)
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}
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fn := "slicebytetostring"
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if n.Op == ORUNES2STR {
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fn = "slicerunetostring"
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// slicerunetostring(*[32]byte, []rune) string
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n = mkcall("slicerunetostring", n.Type, init, a, n.Left)
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} else {
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// slicebytetostring(*[32]byte, ptr *byte, n int) string
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n.Left = cheapexpr(n.Left, init)
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ptr, len := n.Left.slicePtrLen()
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n = mkcall("slicebytetostring", n.Type, init, a, ptr, len)
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}
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// slicebytetostring(*[32]byte, []byte) string
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// slicerunetostring(*[32]byte, []rune) string
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n = mkcall(fn, n.Type, init, a, n.Left)
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case OBYTES2STRTMP:
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n.Left = walkexpr(n.Left, init)
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@ -1429,8 +1431,10 @@ opswitch:
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// to avoid a function call to slicebytetostringtmp.
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break
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}
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// slicebytetostringtmp([]byte) string
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n = mkcall("slicebytetostringtmp", n.Type, init, n.Left)
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// slicebytetostringtmp(ptr *byte, n int) string
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n.Left = cheapexpr(n.Left, init)
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ptr, len := n.Left.slicePtrLen()
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n = mkcall("slicebytetostringtmp", n.Type, init, ptr, len)
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case OSTR2BYTES:
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s := n.Left
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@ -2645,6 +2649,8 @@ func appendslice(n *Node, init *Nodes) *Node {
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l1 := n.List.First()
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l2 := n.List.Second()
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l2 = cheapexpr(l2, init)
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n.List.SetSecond(l2)
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var nodes Nodes
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@ -2682,35 +2688,45 @@ func appendslice(n *Node, init *Nodes) *Node {
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if elemtype.HasHeapPointer() {
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// copy(s[len(l1):], l2)
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nptr1 := nod(OSLICE, s, nil)
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nptr1.Type = s.Type
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nptr1.SetSliceBounds(nod(OLEN, l1, nil), nil, nil)
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nptr1 = cheapexpr(nptr1, &nodes)
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nptr2 := l2
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Curfn.Func.setWBPos(n.Pos)
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// instantiate typedslicecopy(typ *type, dst any, src any) int
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// instantiate typedslicecopy(typ *type, dstPtr *any, dstLen int, srcPtr *any, srcLen int) int
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fn := syslook("typedslicecopy")
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fn = substArgTypes(fn, l1.Type, l2.Type)
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ncopy = mkcall1(fn, types.Types[TINT], &nodes, typename(elemtype), nptr1, nptr2)
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fn = substArgTypes(fn, l1.Type.Elem(), l2.Type.Elem())
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ptr1, len1 := nptr1.slicePtrLen()
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ptr2, len2 := nptr2.slicePtrLen()
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ncopy = mkcall1(fn, types.Types[TINT], &nodes, typename(elemtype), ptr1, len1, ptr2, len2)
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} else if instrumenting && !compiling_runtime {
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// rely on runtime to instrument copy.
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// copy(s[len(l1):], l2)
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nptr1 := nod(OSLICE, s, nil)
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nptr1.Type = s.Type
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nptr1.SetSliceBounds(nod(OLEN, l1, nil), nil, nil)
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nptr1 = cheapexpr(nptr1, &nodes)
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nptr2 := l2
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if l2.Type.IsString() {
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// instantiate func slicestringcopy(to any, fr any) int
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// instantiate func slicestringcopy(toPtr *byte, toLen int, fr string) int
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fn := syslook("slicestringcopy")
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fn = substArgTypes(fn, l1.Type, l2.Type)
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ncopy = mkcall1(fn, types.Types[TINT], &nodes, nptr1, nptr2)
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ptr, len := nptr1.slicePtrLen()
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str := nod(OCONVNOP, nptr2, nil)
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str.Type = types.Types[TSTRING]
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ncopy = mkcall1(fn, types.Types[TINT], &nodes, ptr, len, str)
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} else {
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// instantiate func slicecopy(to any, fr any, wid uintptr) int
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fn := syslook("slicecopy")
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fn = substArgTypes(fn, l1.Type, l2.Type)
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ncopy = mkcall1(fn, types.Types[TINT], &nodes, nptr1, nptr2, nodintconst(elemtype.Width))
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fn = substArgTypes(fn, l1.Type.Elem(), l2.Type.Elem())
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ptr1, len1 := nptr1.slicePtrLen()
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ptr2, len2 := nptr2.slicePtrLen()
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ncopy = mkcall1(fn, types.Types[TINT], &nodes, ptr1, len1, ptr2, len2, nodintconst(elemtype.Width))
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}
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} else {
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@ -3009,20 +3025,31 @@ func walkappend(n *Node, init *Nodes, dst *Node) *Node {
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func copyany(n *Node, init *Nodes, runtimecall bool) *Node {
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if n.Left.Type.Elem().HasHeapPointer() {
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Curfn.Func.setWBPos(n.Pos)
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fn := writebarrierfn("typedslicecopy", n.Left.Type, n.Right.Type)
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return mkcall1(fn, n.Type, init, typename(n.Left.Type.Elem()), n.Left, n.Right)
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fn := writebarrierfn("typedslicecopy", n.Left.Type.Elem(), n.Right.Type.Elem())
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n.Left = cheapexpr(n.Left, init)
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ptrL, lenL := n.Left.slicePtrLen()
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n.Right = cheapexpr(n.Right, init)
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ptrR, lenR := n.Right.slicePtrLen()
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return mkcall1(fn, n.Type, init, typename(n.Left.Type.Elem()), ptrL, lenL, ptrR, lenR)
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}
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if runtimecall {
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if n.Right.Type.IsString() {
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fn := syslook("slicestringcopy")
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fn = substArgTypes(fn, n.Left.Type, n.Right.Type)
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return mkcall1(fn, n.Type, init, n.Left, n.Right)
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n.Left = cheapexpr(n.Left, init)
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ptr, len := n.Left.slicePtrLen()
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str := nod(OCONVNOP, n.Right, nil)
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str.Type = types.Types[TSTRING]
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return mkcall1(fn, n.Type, init, ptr, len, str)
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}
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fn := syslook("slicecopy")
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fn = substArgTypes(fn, n.Left.Type, n.Right.Type)
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return mkcall1(fn, n.Type, init, n.Left, n.Right, nodintconst(n.Left.Type.Elem().Width))
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fn = substArgTypes(fn, n.Left.Type.Elem(), n.Right.Type.Elem())
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n.Left = cheapexpr(n.Left, init)
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ptrL, lenL := n.Left.slicePtrLen()
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n.Right = cheapexpr(n.Right, init)
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ptrR, lenR := n.Right.slicePtrLen()
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return mkcall1(fn, n.Type, init, ptrL, lenL, ptrR, lenR, nodintconst(n.Left.Type.Elem().Width))
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}
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n.Left = walkexpr(n.Left, init)
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@ -76,23 +76,24 @@ func cgoCheckMemmove(typ *_type, dst, src unsafe.Pointer, off, size uintptr) {
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cgoCheckTypedBlock(typ, src, off, size)
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}
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// cgoCheckSliceCopy is called when copying n elements of a slice from
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// src to dst. typ is the element type of the slice.
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// cgoCheckSliceCopy is called when copying n elements of a slice.
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// src and dst are pointers to the first element of the slice.
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// typ is the element type of the slice.
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// It throws if the program is copying slice elements that contain Go pointers
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// into non-Go memory.
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//go:nosplit
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//go:nowritebarrier
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func cgoCheckSliceCopy(typ *_type, dst, src slice, n int) {
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func cgoCheckSliceCopy(typ *_type, dst, src unsafe.Pointer, n int) {
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if typ.ptrdata == 0 {
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return
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}
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if !cgoIsGoPointer(src.array) {
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if !cgoIsGoPointer(src) {
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return
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}
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if cgoIsGoPointer(dst.array) {
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if cgoIsGoPointer(dst) {
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return
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}
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p := src.array
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p := src
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for i := 0; i < n; i++ {
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cgoCheckTypedBlock(typ, p, 0, typ.size)
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p = add(p, typ.size)
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@ -231,16 +231,14 @@ func reflectcallmove(typ *_type, dst, src unsafe.Pointer, size uintptr) {
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}
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//go:nosplit
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func typedslicecopy(typ *_type, dst, src slice) int {
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n := dst.len
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if n > src.len {
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n = src.len
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func typedslicecopy(typ *_type, dstPtr unsafe.Pointer, dstLen int, srcPtr unsafe.Pointer, srcLen int) int {
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n := dstLen
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if n > srcLen {
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n = srcLen
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}
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if n == 0 {
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return 0
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}
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dstp := dst.array
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srcp := src.array
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// The compiler emits calls to typedslicecopy before
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// instrumentation runs, so unlike the other copying and
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@ -249,19 +247,19 @@ func typedslicecopy(typ *_type, dst, src slice) int {
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if raceenabled {
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callerpc := getcallerpc()
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pc := funcPC(slicecopy)
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racewriterangepc(dstp, uintptr(n)*typ.size, callerpc, pc)
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racereadrangepc(srcp, uintptr(n)*typ.size, callerpc, pc)
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racewriterangepc(dstPtr, uintptr(n)*typ.size, callerpc, pc)
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racereadrangepc(srcPtr, uintptr(n)*typ.size, callerpc, pc)
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}
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if msanenabled {
|
||||
msanwrite(dstp, uintptr(n)*typ.size)
|
||||
msanread(srcp, uintptr(n)*typ.size)
|
||||
msanwrite(dstPtr, uintptr(n)*typ.size)
|
||||
msanread(srcPtr, uintptr(n)*typ.size)
|
||||
}
|
||||
|
||||
if writeBarrier.cgo {
|
||||
cgoCheckSliceCopy(typ, dst, src, n)
|
||||
cgoCheckSliceCopy(typ, dstPtr, srcPtr, n)
|
||||
}
|
||||
|
||||
if dstp == srcp {
|
||||
if dstPtr == srcPtr {
|
||||
return n
|
||||
}
|
||||
|
||||
@ -272,11 +270,11 @@ func typedslicecopy(typ *_type, dst, src slice) int {
|
||||
size := uintptr(n) * typ.size
|
||||
if writeBarrier.needed {
|
||||
pwsize := size - typ.size + typ.ptrdata
|
||||
bulkBarrierPreWrite(uintptr(dstp), uintptr(srcp), pwsize)
|
||||
bulkBarrierPreWrite(uintptr(dstPtr), uintptr(srcPtr), pwsize)
|
||||
}
|
||||
// See typedmemmove for a discussion of the race between the
|
||||
// barrier and memmove.
|
||||
memmove(dstp, srcp, size)
|
||||
memmove(dstPtr, srcPtr, size)
|
||||
return n
|
||||
}
|
||||
|
||||
@ -306,7 +304,7 @@ func reflect_typedslicecopy(elemType *_type, dst, src slice) int {
|
||||
memmove(dst.array, src.array, size)
|
||||
return n
|
||||
}
|
||||
return typedslicecopy(elemType, dst, src)
|
||||
return typedslicecopy(elemType, dst.array, dst.len, src.array, src.len)
|
||||
}
|
||||
|
||||
// typedmemclr clears the typed memory at ptr with type typ. The
|
||||
|
@ -277,13 +277,14 @@ func getHugePageSize() uintptr {
|
||||
if fd < 0 {
|
||||
return 0
|
||||
}
|
||||
n := read(fd, noescape(unsafe.Pointer(&numbuf[0])), int32(len(numbuf)))
|
||||
ptr := noescape(unsafe.Pointer(&numbuf[0]))
|
||||
n := read(fd, ptr, int32(len(numbuf)))
|
||||
closefd(fd)
|
||||
if n <= 0 {
|
||||
return 0
|
||||
}
|
||||
l := n - 1 // remove trailing newline
|
||||
v, ok := atoi(slicebytetostringtmp(numbuf[:l]))
|
||||
n-- // remove trailing newline
|
||||
v, ok := atoi(slicebytetostringtmp((*byte)(ptr), int(n)))
|
||||
if !ok || v < 0 {
|
||||
v = 0
|
||||
}
|
||||
|
@ -194,14 +194,14 @@ func isPowerOfTwo(x uintptr) bool {
|
||||
return x&(x-1) == 0
|
||||
}
|
||||
|
||||
func slicecopy(to, fm slice, width uintptr) int {
|
||||
if fm.len == 0 || to.len == 0 {
|
||||
func slicecopy(toPtr unsafe.Pointer, toLen int, fmPtr unsafe.Pointer, fmLen int, width uintptr) int {
|
||||
if fmLen == 0 || toLen == 0 {
|
||||
return 0
|
||||
}
|
||||
|
||||
n := fm.len
|
||||
if to.len < n {
|
||||
n = to.len
|
||||
n := fmLen
|
||||
if toLen < n {
|
||||
n = toLen
|
||||
}
|
||||
|
||||
if width == 0 {
|
||||
@ -211,43 +211,43 @@ func slicecopy(to, fm slice, width uintptr) int {
|
||||
if raceenabled {
|
||||
callerpc := getcallerpc()
|
||||
pc := funcPC(slicecopy)
|
||||
racereadrangepc(fm.array, uintptr(n*int(width)), callerpc, pc)
|
||||
racewriterangepc(to.array, uintptr(n*int(width)), callerpc, pc)
|
||||
racereadrangepc(fmPtr, uintptr(n*int(width)), callerpc, pc)
|
||||
racewriterangepc(toPtr, uintptr(n*int(width)), callerpc, pc)
|
||||
}
|
||||
if msanenabled {
|
||||
msanread(fm.array, uintptr(n*int(width)))
|
||||
msanwrite(to.array, uintptr(n*int(width)))
|
||||
msanread(fmPtr, uintptr(n*int(width)))
|
||||
msanwrite(toPtr, uintptr(n*int(width)))
|
||||
}
|
||||
|
||||
size := uintptr(n) * width
|
||||
if size == 1 { // common case worth about 2x to do here
|
||||
// TODO: is this still worth it with new memmove impl?
|
||||
*(*byte)(to.array) = *(*byte)(fm.array) // known to be a byte pointer
|
||||
*(*byte)(toPtr) = *(*byte)(fmPtr) // known to be a byte pointer
|
||||
} else {
|
||||
memmove(to.array, fm.array, size)
|
||||
memmove(toPtr, fmPtr, size)
|
||||
}
|
||||
return n
|
||||
}
|
||||
|
||||
func slicestringcopy(to []byte, fm string) int {
|
||||
if len(fm) == 0 || len(to) == 0 {
|
||||
func slicestringcopy(toPtr *byte, toLen int, fm string) int {
|
||||
if len(fm) == 0 || toLen == 0 {
|
||||
return 0
|
||||
}
|
||||
|
||||
n := len(fm)
|
||||
if len(to) < n {
|
||||
n = len(to)
|
||||
if toLen < n {
|
||||
n = toLen
|
||||
}
|
||||
|
||||
if raceenabled {
|
||||
callerpc := getcallerpc()
|
||||
pc := funcPC(slicestringcopy)
|
||||
racewriterangepc(unsafe.Pointer(&to[0]), uintptr(n), callerpc, pc)
|
||||
racewriterangepc(unsafe.Pointer(toPtr), uintptr(n), callerpc, pc)
|
||||
}
|
||||
if msanenabled {
|
||||
msanwrite(unsafe.Pointer(&to[0]), uintptr(n))
|
||||
msanwrite(unsafe.Pointer(toPtr), uintptr(n))
|
||||
}
|
||||
|
||||
memmove(unsafe.Pointer(&to[0]), stringStructOf(&fm).str, uintptr(n))
|
||||
memmove(unsafe.Pointer(toPtr), stringStructOf(&fm).str, uintptr(n))
|
||||
return n
|
||||
}
|
||||
|
@ -71,27 +71,30 @@ func concatstring5(buf *tmpBuf, a [5]string) string {
|
||||
return concatstrings(buf, a[:])
|
||||
}
|
||||
|
||||
// slicebytetostring converts a byte slice to a string.
|
||||
// It is inserted by the compiler into generated code.
|
||||
// ptr is a pointer to the first element of the slice;
|
||||
// n is the length of the slice.
|
||||
// Buf is a fixed-size buffer for the result,
|
||||
// it is not nil if the result does not escape.
|
||||
func slicebytetostring(buf *tmpBuf, b []byte) (str string) {
|
||||
l := len(b)
|
||||
if l == 0 {
|
||||
func slicebytetostring(buf *tmpBuf, ptr *byte, n int) (str string) {
|
||||
if n == 0 {
|
||||
// Turns out to be a relatively common case.
|
||||
// Consider that you want to parse out data between parens in "foo()bar",
|
||||
// you find the indices and convert the subslice to string.
|
||||
return ""
|
||||
}
|
||||
if raceenabled {
|
||||
racereadrangepc(unsafe.Pointer(&b[0]),
|
||||
uintptr(l),
|
||||
racereadrangepc(unsafe.Pointer(ptr),
|
||||
uintptr(n),
|
||||
getcallerpc(),
|
||||
funcPC(slicebytetostring))
|
||||
}
|
||||
if msanenabled {
|
||||
msanread(unsafe.Pointer(&b[0]), uintptr(l))
|
||||
msanread(unsafe.Pointer(ptr), uintptr(n))
|
||||
}
|
||||
if l == 1 {
|
||||
p := unsafe.Pointer(&staticuint64s[b[0]])
|
||||
if n == 1 {
|
||||
p := unsafe.Pointer(&staticuint64s[*ptr])
|
||||
if sys.BigEndian {
|
||||
p = add(p, 7)
|
||||
}
|
||||
@ -101,14 +104,14 @@ func slicebytetostring(buf *tmpBuf, b []byte) (str string) {
|
||||
}
|
||||
|
||||
var p unsafe.Pointer
|
||||
if buf != nil && len(b) <= len(buf) {
|
||||
if buf != nil && n <= len(buf) {
|
||||
p = unsafe.Pointer(buf)
|
||||
} else {
|
||||
p = mallocgc(uintptr(len(b)), nil, false)
|
||||
p = mallocgc(uintptr(n), nil, false)
|
||||
}
|
||||
stringStructOf(&str).str = p
|
||||
stringStructOf(&str).len = len(b)
|
||||
memmove(p, (*(*slice)(unsafe.Pointer(&b))).array, uintptr(len(b)))
|
||||
stringStructOf(&str).len = n
|
||||
memmove(p, unsafe.Pointer(ptr), uintptr(n))
|
||||
return
|
||||
}
|
||||
|
||||
@ -123,7 +126,7 @@ func stringDataOnStack(s string) bool {
|
||||
func rawstringtmp(buf *tmpBuf, l int) (s string, b []byte) {
|
||||
if buf != nil && l <= len(buf) {
|
||||
b = buf[:l]
|
||||
s = slicebytetostringtmp(b)
|
||||
s = slicebytetostringtmp(&b[0], len(b))
|
||||
} else {
|
||||
s, b = rawstring(l)
|
||||
}
|
||||
@ -144,17 +147,19 @@ func rawstringtmp(buf *tmpBuf, l int) (s string, b []byte) {
|
||||
// where k is []byte, T1 to Tn is a nesting of struct and array literals.
|
||||
// - Used for "<"+string(b)+">" concatenation where b is []byte.
|
||||
// - Used for string(b)=="foo" comparison where b is []byte.
|
||||
func slicebytetostringtmp(b []byte) string {
|
||||
if raceenabled && len(b) > 0 {
|
||||
racereadrangepc(unsafe.Pointer(&b[0]),
|
||||
uintptr(len(b)),
|
||||
func slicebytetostringtmp(ptr *byte, n int) (str string) {
|
||||
if raceenabled && n > 0 {
|
||||
racereadrangepc(unsafe.Pointer(ptr),
|
||||
uintptr(n),
|
||||
getcallerpc(),
|
||||
funcPC(slicebytetostringtmp))
|
||||
}
|
||||
if msanenabled && len(b) > 0 {
|
||||
msanread(unsafe.Pointer(&b[0]), uintptr(len(b)))
|
||||
if msanenabled && n > 0 {
|
||||
msanread(unsafe.Pointer(ptr), uintptr(n))
|
||||
}
|
||||
return *(*string)(unsafe.Pointer(&b))
|
||||
stringStructOf(&str).str = unsafe.Pointer(ptr)
|
||||
stringStructOf(&str).len = n
|
||||
return
|
||||
}
|
||||
|
||||
func stringtoslicebyte(buf *tmpBuf, s string) []byte {
|
||||
@ -239,7 +244,7 @@ func intstring(buf *[4]byte, v int64) (s string) {
|
||||
var b []byte
|
||||
if buf != nil {
|
||||
b = buf[:]
|
||||
s = slicebytetostringtmp(b)
|
||||
s = slicebytetostringtmp(&b[0], len(b))
|
||||
} else {
|
||||
s, b = rawstring(4)
|
||||
}
|
||||
|
Loading…
Reference in New Issue
Block a user