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cmd/compile: pull ssa OAPPEND expression handing into its own function

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Change-Id: Ia07ee0b0041c931b08adf090f262a6f74a6fdb01
Reviewed-on: https://go-review.googlesource.com/21546
Run-TryBot: Josh Bleecher Snyder <josharian@gmail.com>
Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
This commit is contained in:
Josh Bleecher Snyder 2016-04-04 10:58:21 -07:00
parent 7735dfb67c
commit 5e1b7bdecf
1 changed files with 97 additions and 92 deletions
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189
src/cmd/compile/internal/gc/ssa.go
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@ -2066,98 +2066,7 @@ func (s *state) expr(n *Node) *ssa.Value {
return s.newValue1(ssa.OpGetG, n.Type, s.mem()) return s.newValue1(ssa.OpGetG, n.Type, s.mem())
case OAPPEND: case OAPPEND:
// append(s, e1, e2, e3). Compile like: return s.exprAppend(n)
// ptr,len,cap := s
// newlen := len + 3
// if newlen > s.cap {
// ptr,_,cap = growslice(s, newlen)
// }
// *(ptr+len) = e1
// *(ptr+len+1) = e2
// *(ptr+len+2) = e3
// makeslice(ptr,newlen,cap)
et := n.Type.Elem()
pt := Ptrto(et)
// Evaluate slice
slice := s.expr(n.List.First())
// Allocate new blocks
grow := s.f.NewBlock(ssa.BlockPlain)
assign := s.f.NewBlock(ssa.BlockPlain)
// Decide if we need to grow
nargs := int64(n.List.Len() - 1)
p := s.newValue1(ssa.OpSlicePtr, pt, slice)
l := s.newValue1(ssa.OpSliceLen, Types[TINT], slice)
c := s.newValue1(ssa.OpSliceCap, Types[TINT], slice)
nl := s.newValue2(s.ssaOp(OADD, Types[TINT]), Types[TINT], l, s.constInt(Types[TINT], nargs))
cmp := s.newValue2(s.ssaOp(OGT, Types[TINT]), Types[TBOOL], nl, c)
s.vars[&ptrVar] = p
s.vars[&capVar] = c
b := s.endBlock()
b.Kind = ssa.BlockIf
b.Likely = ssa.BranchUnlikely
b.SetControl(cmp)
b.AddEdgeTo(grow)
b.AddEdgeTo(assign)
// Call growslice
s.startBlock(grow)
taddr := s.newValue1A(ssa.OpAddr, Types[TUINTPTR], &ssa.ExternSymbol{Types[TUINTPTR], typenamesym(n.Type)}, s.sb)
r := s.rtcall(growslice, true, []*Type{pt, Types[TINT], Types[TINT]}, taddr, p, l, c, nl)
s.vars[&ptrVar] = r[0]
// Note: we don't need to read r[1], the result's length. It will be nl.
// (or maybe we should, we just have to spill/restore nl otherwise?)
s.vars[&capVar] = r[2]
b = s.endBlock()
b.AddEdgeTo(assign)
// assign new elements to slots
s.startBlock(assign)
// Evaluate args
args := make([]*ssa.Value, 0, nargs)
store := make([]bool, 0, nargs)
for _, n := range n.List.Slice()[1:] {
if canSSAType(n.Type) {
args = append(args, s.expr(n))
store = append(store, true)
} else {
args = append(args, s.addr(n, false))
store = append(store, false)
}
}
p = s.variable(&ptrVar, pt) // generates phi for ptr
c = s.variable(&capVar, Types[TINT]) // generates phi for cap
p2 := s.newValue2(ssa.OpPtrIndex, pt, p, l)
// TODO: just one write barrier call for all of these writes?
// TODO: maybe just one writeBarrier.enabled check?
for i, arg := range args {
addr := s.newValue2(ssa.OpPtrIndex, pt, p2, s.constInt(Types[TINT], int64(i)))
if store[i] {
if haspointers(et) {
s.insertWBstore(et, addr, arg, n.Lineno, 0)
} else {
s.vars[&memVar] = s.newValue3I(ssa.OpStore, ssa.TypeMem, et.Size(), addr, arg, s.mem())
}
} else {
if haspointers(et) {
s.insertWBmove(et, addr, arg, n.Lineno)
} else {
s.vars[&memVar] = s.newValue3I(ssa.OpMove, ssa.TypeMem, et.Size(), addr, arg, s.mem())
}
}
}
// make result
delete(s.vars, &ptrVar)
delete(s.vars, &capVar)
return s.newValue3(ssa.OpSliceMake, n.Type, p, nl, c)
default: default:
s.Unimplementedf("unhandled expr %s", opnames[n.Op]) s.Unimplementedf("unhandled expr %s", opnames[n.Op])
@ -2165,6 +2074,102 @@ func (s *state) expr(n *Node) *ssa.Value {
} }
} }
// exprAppend converts an OAPPEND node n to an ssa.Value, adds it to s, and returns the Value.
func (s *state) exprAppend(n *Node) *ssa.Value {
// append(s, e1, e2, e3). Compile like:
// ptr,len,cap := s
// newlen := len + 3
// if newlen > s.cap {
// ptr,_,cap = growslice(s, newlen)
// }
// *(ptr+len) = e1
// *(ptr+len+1) = e2
// *(ptr+len+2) = e3
// makeslice(ptr,newlen,cap)
et := n.Type.Elem()
pt := Ptrto(et)
// Evaluate slice
slice := s.expr(n.List.First())
// Allocate new blocks
grow := s.f.NewBlock(ssa.BlockPlain)
assign := s.f.NewBlock(ssa.BlockPlain)
// Decide if we need to grow
nargs := int64(n.List.Len() - 1)
p := s.newValue1(ssa.OpSlicePtr, pt, slice)
l := s.newValue1(ssa.OpSliceLen, Types[TINT], slice)
c := s.newValue1(ssa.OpSliceCap, Types[TINT], slice)
nl := s.newValue2(s.ssaOp(OADD, Types[TINT]), Types[TINT], l, s.constInt(Types[TINT], nargs))
cmp := s.newValue2(s.ssaOp(OGT, Types[TINT]), Types[TBOOL], nl, c)
s.vars[&ptrVar] = p
s.vars[&capVar] = c
b := s.endBlock()
b.Kind = ssa.BlockIf
b.Likely = ssa.BranchUnlikely
b.SetControl(cmp)
b.AddEdgeTo(grow)
b.AddEdgeTo(assign)
// Call growslice
s.startBlock(grow)
taddr := s.newValue1A(ssa.OpAddr, Types[TUINTPTR], &ssa.ExternSymbol{Types[TUINTPTR], typenamesym(n.Type)}, s.sb)
r := s.rtcall(growslice, true, []*Type{pt, Types[TINT], Types[TINT]}, taddr, p, l, c, nl)
s.vars[&ptrVar] = r[0]
// Note: we don't need to read r[1], the result's length. It will be nl.
// (or maybe we should, we just have to spill/restore nl otherwise?)
s.vars[&capVar] = r[2]
b = s.endBlock()
b.AddEdgeTo(assign)
// assign new elements to slots
s.startBlock(assign)
// Evaluate args
args := make([]*ssa.Value, 0, nargs)
store := make([]bool, 0, nargs)
for _, n := range n.List.Slice()[1:] {
if canSSAType(n.Type) {
args = append(args, s.expr(n))
store = append(store, true)
} else {
args = append(args, s.addr(n, false))
store = append(store, false)
}
}
p = s.variable(&ptrVar, pt) // generates phi for ptr
c = s.variable(&capVar, Types[TINT]) // generates phi for cap
p2 := s.newValue2(ssa.OpPtrIndex, pt, p, l)
// TODO: just one write barrier call for all of these writes?
// TODO: maybe just one writeBarrier.enabled check?
for i, arg := range args {
addr := s.newValue2(ssa.OpPtrIndex, pt, p2, s.constInt(Types[TINT], int64(i)))
if store[i] {
if haspointers(et) {
s.insertWBstore(et, addr, arg, n.Lineno, 0)
} else {
s.vars[&memVar] = s.newValue3I(ssa.OpStore, ssa.TypeMem, et.Size(), addr, arg, s.mem())
}
} else {
if haspointers(et) {
s.insertWBmove(et, addr, arg, n.Lineno)
} else {
s.vars[&memVar] = s.newValue3I(ssa.OpMove, ssa.TypeMem, et.Size(), addr, arg, s.mem())
}
}
}
// make result
delete(s.vars, &ptrVar)
delete(s.vars, &capVar)
return s.newValue3(ssa.OpSliceMake, n.Type, p, nl, c)
}
// condBranch evaluates the boolean expression cond and branches to yes // condBranch evaluates the boolean expression cond and branches to yes
// if cond is true and no if cond is false. // if cond is true and no if cond is false.
// This function is intended to handle && and || better than just calling // This function is intended to handle && and || better than just calling