зеркало из https://github.com/CryptoPro/go.git
all: fix spelling mistakes
Signed-off-by: Eric Engestrom <eric@engestrom.ch> Change-Id: I91873aaebf79bdf1c00d38aacc1a1fb8d79656a7 Reviewed-on: https://go-review.googlesource.com/21433 Reviewed-by: Ian Lance Taylor <iant@golang.org> Run-TryBot: Ian Lance Taylor <iant@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org>
This commit is contained in:
Родитель
1f7e55e418
Коммит
7a8caf7d43
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@ -18,7 +18,7 @@ goos=$(go env GOOS)
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goarch=$(go env GOARCH)
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goroot=$(go env GOROOT)
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if [ ! -d "$goroot" ]; then
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echo 'misc/cgo/testcshared/test.bash cannnot find GOROOT' 1>&2
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echo 'misc/cgo/testcshared/test.bash cannot find GOROOT' 1>&2
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echo '$GOROOT:' "$GOROOT" 1>&2
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echo 'go env GOROOT:' "$goroot" 1>&2
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exit 1
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@ -732,7 +732,7 @@ func TestABIChecking(t *testing.T) {
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// If we make an ABI-breaking change to dep and rebuild libp.so but not exe,
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// exe will abort with a complaint on startup.
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// This assumes adding an exported function breaks ABI, which is not true in
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// some senses but suffices for the narrow definition of ABI compatiblity the
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// some senses but suffices for the narrow definition of ABI compatibility the
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// toolchain uses today.
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resetFileStamps()
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appendFile("src/dep/dep.go", "func ABIBreak() {}\n")
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@ -116,7 +116,7 @@ func cgen_wb(n, res *Node, wb bool) {
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return
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}
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f := true // gen thru register
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f := true // gen through register
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switch n.Op {
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case OLITERAL:
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if Smallintconst(n) {
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@ -10,7 +10,7 @@ import (
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"strings"
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)
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// IntLiteral returns the Node's literal value as an interger.
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// IntLiteral returns the Node's literal value as an integer.
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func (n *Node) IntLiteral() (x int64, ok bool) {
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switch {
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case n == nil:
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@ -4128,7 +4128,7 @@ func fieldIdx(n *Node) int {
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}
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panic(fmt.Sprintf("can't find field in expr %s\n", n))
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// TODO: keep the result of this fucntion somewhere in the ODOT Node
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// TODO: keep the result of this function somewhere in the ODOT Node
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// so we don't have to recompute it each time we need it.
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}
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@ -389,7 +389,7 @@ func casebody(sw *Node, typeswvar *Node) {
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}
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stat = append(stat, n.Nbody.Slice()...)
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// botch - shouldn't fall thru declaration
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// botch - shouldn't fall through declaration
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last := stat[len(stat)-1]
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if last.Xoffset == n.Xoffset && last.Op == OXFALL {
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if typeswvar != nil {
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@ -1825,7 +1825,7 @@ func ascompatte(op Op, call *Node, isddd bool, nl *Type, lr []*Node, fp int, ini
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// special case --
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// only if we are assigning a single ddd
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// argument to a ddd parameter then it is
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// passed thru unencapsulated
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// passed through unencapsulated
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if r != nil && len(lr) <= 1 && isddd && Eqtype(l.Type, r.Type) {
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a := Nod(OAS, nodarg(l, fp), r)
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a = convas(a, init)
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@ -268,7 +268,7 @@ func (f *Func) dominatorsLT(entries []*Block, predFn linkedBlocks, succFn linked
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idom[v] = fromID[bucket[0]]
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}
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// Step 4. Explictly define the immediate dominator of each vertex,
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// Step 4. Explicitly define the immediate dominator of each vertex,
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// carrying out the computation vertex by vertex in increasing order by
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// number.
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for i := 1; i < maxBlockID-1; i++ {
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@ -67,7 +67,7 @@ func genFwdBack(size int) []bloc {
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return blocs
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}
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// genManyPred creates an array of blocks where 1/3rd have a sucessor of the
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// genManyPred creates an array of blocks where 1/3rd have a successor of the
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// first block, 1/3rd the last block, and the remaining third are plain.
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func genManyPred(size int) []bloc {
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var blocs []bloc
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@ -80,7 +80,7 @@ func genManyPred(size int) []bloc {
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)
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// We want predecessor lists to be long, so 2/3rds of the blocks have a
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// sucessor of the first or last block.
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// successor of the first or last block.
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for i := 0; i < size; i++ {
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switch i % 3 {
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case 0:
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@ -122,7 +122,7 @@ nextb:
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max = w
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}
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// We can only guarantee that the loops runs withing limits of induction variable
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// We can only guarantee that the loops runs within limits of induction variable
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// if the increment is 1 or when the limits are constants.
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if inc.AuxInt != 1 {
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ok := false
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@ -97,7 +97,7 @@ func TestNilcheckSimple(t *testing.T) {
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}
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}
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// TestNilcheckDomOrder ensures that the nil check elimination isn't dependant
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// TestNilcheckDomOrder ensures that the nil check elimination isn't dependent
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// on the order of the dominees.
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func TestNilcheckDomOrder(t *testing.T) {
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ptrType := &TypeImpl{Size_: 8, Ptr: true, Name: "testptr"} // dummy for testing
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@ -44,7 +44,7 @@ const (
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// domain represents the domain of a variable pair in which a set
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// of relations is known. For example, relations learned for unsigned
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// pairs cannot be transfered to signed pairs because the same bit
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// pairs cannot be transferred to signed pairs because the same bit
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// representation can mean something else.
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type domain uint
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@ -217,7 +217,7 @@ type FuncData struct {
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type Package struct {
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ImportPath string // import path denoting this package
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Imports []string // packages imported by this package
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SymRefs []SymID // list of symbol names and versions refered to by this pack
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SymRefs []SymID // list of symbol names and versions referred to by this pack
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Syms []*Sym // symbols defined by this package
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MaxVersion int // maximum Version in any SymID in Syms
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}
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@ -510,7 +510,7 @@ loop:
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r = ctxt.NewProg()
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*r = *p
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if !(r.Mark&FOLL != 0) {
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fmt.Printf("cant happen 1\n")
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fmt.Printf("can't happen 1\n")
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}
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r.Mark |= FOLL
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if p != q {
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@ -536,7 +536,7 @@ loop:
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xfol(ctxt, r.Link, last)
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}
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if !(r.Pcond.Mark&FOLL != 0) {
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fmt.Printf("cant happen 2\n")
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fmt.Printf("can't happen 2\n")
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}
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return
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}
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@ -1229,7 +1229,7 @@ func markregused(ctxt *obj.Link, s *Sch) {
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s.used.ireg |= 1 << uint(c-REG_R0)
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}
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}
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s.set.ireg &^= (1 << (REGZERO - REG_R0)) /* R0 cant be set */
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s.set.ireg &^= (1 << (REGZERO - REG_R0)) /* R0 can't be set */
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}
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/*
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@ -1400,7 +1400,7 @@ loop:
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r = ctxt.NewProg()
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*r = *p
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if r.Mark&FOLL == 0 {
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fmt.Printf("cant happen 1\n")
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fmt.Printf("can't happen 1\n")
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}
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r.Mark |= FOLL
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if p != q {
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@ -1425,7 +1425,7 @@ loop:
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xfol(ctxt, r.Link, last)
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}
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if r.Pcond.Mark&FOLL == 0 {
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fmt.Printf("cant happen 2\n")
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fmt.Printf("can't happen 2\n")
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}
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return
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}
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@ -1906,7 +1906,7 @@ func asmout(ctxt *obj.Link, p *obj.Prog, o *Optab, out []uint32) {
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case 22: /* add $lcon,r1,r2 ==> cau+or+add */ /* could do add/sub more efficiently */
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if p.To.Reg == REGTMP || p.Reg == REGTMP {
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ctxt.Diag("cant synthesize large constant\n%v", p)
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ctxt.Diag("can't synthesize large constant\n%v", p)
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}
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d := vregoff(ctxt, &p.From)
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o1 = loadu32(REGTMP, d)
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@ -1924,7 +1924,7 @@ func asmout(ctxt *obj.Link, p *obj.Prog, o *Optab, out []uint32) {
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case 23: /* and $lcon,r1,r2 ==> cau+or+and */ /* masks could be done using rlnm etc. */
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if p.To.Reg == REGTMP || p.Reg == REGTMP {
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ctxt.Diag("cant synthesize large constant\n%v", p)
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ctxt.Diag("can't synthesize large constant\n%v", p)
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}
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d := vregoff(ctxt, &p.From)
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o1 = loadu32(REGTMP, d)
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@ -1115,7 +1115,7 @@ loop:
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r = ctxt.NewProg()
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*r = *p
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if r.Mark&FOLL == 0 {
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fmt.Printf("cant happen 1\n")
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fmt.Printf("can't happen 1\n")
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}
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r.Mark |= FOLL
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if p != q {
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@ -1137,7 +1137,7 @@ loop:
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xfol(ctxt, r.Link, last)
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}
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if r.Pcond.Mark&FOLL == 0 {
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fmt.Printf("cant happen 2\n")
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fmt.Printf("can't happen 2\n")
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}
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return
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}
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@ -916,7 +916,7 @@ func xfol(ctxt *obj.Link, p *obj.Prog, last **obj.Prog) {
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r = ctxt.NewProg()
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*r = *p
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if r.Mark&FOLL == 0 {
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fmt.Printf("cant happen 1\n")
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fmt.Printf("can't happen 1\n")
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}
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r.Mark |= FOLL
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if p != q {
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@ -942,7 +942,7 @@ func xfol(ctxt *obj.Link, p *obj.Prog, last **obj.Prog) {
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xfol(ctxt, r.Link, last)
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}
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if r.Pcond.Mark&FOLL == 0 {
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fmt.Printf("cant happen 2\n")
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fmt.Printf("can't happen 2\n")
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}
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return
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}
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@ -14,7 +14,7 @@ import (
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// deadcode marks all reachable symbols.
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//
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// The basis of the dead code elimination is a flood fill of symbols,
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// following their relocations, begining at INITENTRY.
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// following their relocations, beginning at INITENTRY.
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//
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// This flood fill is wrapped in logic for pruning unused methods.
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// All methods are mentioned by relocations on their receiver's *rtype.
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@ -66,7 +66,7 @@ func p256NegCond(val []uint64, cond int)
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// if cond == 0 res <- b; else res <- a
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func p256MovCond(res, a, b []uint64, cond int)
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// Endianess swap
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// Endianness swap
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func p256BigToLittle(res []uint64, in []byte)
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func p256LittleToBig(res []byte, in []uint64)
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@ -1285,7 +1285,7 @@ const (
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R_MIPS_LITERAL R_MIPS = 8 /* Reference to literal section */
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R_MIPS_GOT16 R_MIPS = 9 /* Reference to global offset table */
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R_MIPS_PC16 R_MIPS = 10 /* 16 bit PC relative reference */
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R_MIPS_CALL16 R_MIPS = 11 /* 16 bit call thru glbl offset tbl */
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R_MIPS_CALL16 R_MIPS = 11 /* 16 bit call through glbl offset tbl */
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R_MIPS_GPREL32 R_MIPS = 12
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R_MIPS_SHIFT5 R_MIPS = 16
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R_MIPS_SHIFT6 R_MIPS = 17
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@ -32,7 +32,7 @@ var sigtable = [...]sigTabT{
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/* 19 */ {_SigNotify, "SIGPWR: power-fail restart"},
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/* 20 */ {_SigNotify, "SIGWINCH: window size change"},
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/* 21 */ {_SigNotify, "SIGURG: urgent socket condition"},
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/* 22 */ {_SigNotify, "SIGPOLL: pollable event occured"},
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/* 22 */ {_SigNotify, "SIGPOLL: pollable event occurred"},
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/* 23 */ {_SigNotify + _SigDefault, "SIGSTOP: stop (cannot be caught or ignored)"},
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/* 24 */ {_SigNotify + _SigDefault, "SIGTSTP: user stop requested from tty"},
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/* 25 */ {_SigNotify + _SigDefault, "SIGCONT: stopped process has been continued"},
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@ -43,7 +43,7 @@ type HeaderField struct {
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// IsPseudo reports whether the header field is an http2 pseudo header.
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// That is, it reports whether it starts with a colon.
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// It is not otherwise guaranteed to be a valid psuedo header field,
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// It is not otherwise guaranteed to be a valid pseudo header field,
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// though.
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func (hf HeaderField) IsPseudo() bool {
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return len(hf.Name) != 0 && hf.Name[0] == ':'
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@ -253,7 +253,7 @@ func main() {
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panic("fail")
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}
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// run it thru an interface
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// run it through an interface
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i = s
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s = i.(*S)
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