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go/godoc/analysis/peers.go
Alan Donovan 80c4f06c0f go.tools/godoc: server mode: add support for type and pointer analysis.
See analysis.go for overview of new features.
See README for known bugs and issues.

Much UI polish, testing and optimization work remains, but
this is a starting point.

Flag: we add a new flag -analysis=type,pointer, default "",
for adventurous users only at this stage.
Type analysis takes ~10s for stdlib + go.tools;
Pointer analysis (currently) takes several minutes.

Dependencies: we now include jquery.treeview.js and its GIF
images among the resources.  (bake.go now handles binary.)

LGTM=crawshaw, bgarcia
R=crawshaw, bgarcia
CC=bradfitz, golang-codereviews
https://golang.org/cl/60540044
2014-03-14 18:58:22 -04:00

155 lines
4.3 KiB
Go

// 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"
"code.google.com/p/go.tools/go/pointer"
"code.google.com/p/go.tools/go/ssa"
"code.google.com/p/go.tools/go/types"
)
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().Object),
})
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 oracle/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 oracle/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
}