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// Copyright 2014 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.
package analysis
// This file computes the channel "peers" relation over all pairs of
// channel operations in the program. The peers are displayed in the
// lower pane when a channel operation (make, <-, close) is clicked.
// TODO(adonovan): handle calls to reflect.{Select,Recv,Send,Close} too,
// then enable reflection in PTA.
import (
"fmt"
"go/token"
"go/types"
"golang.org/x/tools/go/pointer"
"golang.org/x/tools/go/ssa"
)
func (a *analysis) doChannelPeers(ptsets map[ssa.Value]pointer.Pointer) {
addSendRecv := func(j *commJSON, op chanOp) {
j.Ops = append(j.Ops, commOpJSON{
Op: anchorJSON{
Text: op.mode,
Href: a.posURL(op.pos, op.len),
},
Fn: prettyFunc(nil, op.fn),
})
}
// Build an undirected bipartite multigraph (binary relation)
// of MakeChan ops and send/recv/close ops.
//
// TODO(adonovan): opt: use channel element types to partition
// the O(n^2) problem into subproblems.
aliasedOps := make(map[*ssa.MakeChan][]chanOp)
opToMakes := make(map[chanOp][]*ssa.MakeChan)
for _, op := range a.ops {
// Combine the PT sets from all contexts.
var makes []*ssa.MakeChan // aliased ops
ptr, ok := ptsets[op.ch]
if !ok {
continue // e.g. channel op in dead code
}
for _, label := range ptr.PointsTo().Labels() {
makechan, ok := label.Value().(*ssa.MakeChan)
if !ok {
continue // skip intrinsically-created channels for now
}
if makechan.Pos() == token.NoPos {
continue // not possible?
}
makes = append(makes, makechan)
aliasedOps[makechan] = append(aliasedOps[makechan], op)
}
opToMakes[op] = makes
}
// Now that complete relation is built, build links for ops.
for _, op := range a.ops {
v := commJSON{
Ops: []commOpJSON{}, // (JS wants non-nil)
}
ops := make(map[chanOp]bool)
for _, makechan := range opToMakes[op] {
v.Ops = append(v.Ops, commOpJSON{
Op: anchorJSON{
Text: "made",
Href: a.posURL(makechan.Pos()-token.Pos(len("make")),
len("make")),
},
Fn: makechan.Parent().RelString(op.fn.Package().Pkg),
})
for _, op := range aliasedOps[makechan] {
ops[op] = true
}
}
for op := range ops {
addSendRecv(&v, op)
}
// Add links for each aliased op.
fi, offset := a.fileAndOffset(op.pos)
fi.addLink(aLink{
start: offset,
end: offset + op.len,
title: "show channel ops",
onclick: fmt.Sprintf("onClickComm(%d)", fi.addData(v)),
})
}
// Add links for makechan ops themselves.
for makechan, ops := range aliasedOps {
v := commJSON{
Ops: []commOpJSON{}, // (JS wants non-nil)
}
for _, op := range ops {
addSendRecv(&v, op)
}
fi, offset := a.fileAndOffset(makechan.Pos())
fi.addLink(aLink{
start: offset - len("make"),
end: offset,
title: "show channel ops",
onclick: fmt.Sprintf("onClickComm(%d)", fi.addData(v)),
})
}
}
// -- utilities --------------------------------------------------------
// chanOp abstracts an ssa.Send, ssa.Unop(ARROW), close(), or a SelectState.
// Derived from cmd/guru/peers.go.
type chanOp struct {
ch ssa.Value
mode string // sent|received|closed
pos token.Pos
len int
fn *ssa.Function
}
// chanOps returns a slice of all the channel operations in the instruction.
// Derived from cmd/guru/peers.go.
func chanOps(instr ssa.Instruction) []chanOp {
fn := instr.Parent()
var ops []chanOp
switch instr := instr.(type) {
case *ssa.UnOp:
if instr.Op == token.ARROW {
// TODO(adonovan): don't assume <-ch; could be 'range ch'.
ops = append(ops, chanOp{instr.X, "received", instr.Pos(), len("<-"), fn})
}
case *ssa.Send:
ops = append(ops, chanOp{instr.Chan, "sent", instr.Pos(), len("<-"), fn})
case *ssa.Select:
for _, st := range instr.States {
mode := "received"
if st.Dir == types.SendOnly {
mode = "sent"
}
ops = append(ops, chanOp{st.Chan, mode, st.Pos, len("<-"), fn})
}
case ssa.CallInstruction:
call := instr.Common()
if blt, ok := call.Value.(*ssa.Builtin); ok && blt.Name() == "close" {
pos := instr.Common().Pos()
ops = append(ops, chanOp{call.Args[0], "closed", pos - token.Pos(len("close")), len("close("), fn})
}
}
return ops
}