// Copyright 2016 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 cfg constructs a simple control-flow graph (CFG) of the // statements and expressions within a single function. // // Use cfg.New to construct the CFG for a function body. // // The blocks of the CFG contain all the function's non-control // statements. The CFG does not contain control statements such as If, // Switch, Select, and Branch, but does contain their subexpressions. // For example, this source code: // // if x := f(); x != nil { // T() // } else { // F() // } // // produces this CFG: // // 1: x := f() // x != nil // succs: 2, 3 // 2: T() // succs: 4 // 3: F() // succs: 4 // 4: // // The CFG does contain Return statements; even implicit returns are // materialized (at the position of the function's closing brace). // // The CFG does not record conditions associated with conditional branch // edges, nor the short-circuit semantics of the && and || operators, // nor abnormal control flow caused by panic. If you need this // information, use golang.org/x/tools/go/ssa instead. // package cfg import ( "bytes" "fmt" "go/ast" "go/format" "go/token" ) // A CFG represents the control-flow graph of a single function. // // The entry point is Blocks[0]; there may be multiple return blocks. type CFG struct { Blocks []*Block // block[0] is entry; order otherwise undefined } // A Block represents a basic block: a list of statements and // expressions that are always evaluated sequentially. // // A block may have 0-2 successors: zero for a return block or a block // that calls a function such as panic that never returns; one for a // normal (jump) block; and two for a conditional (if) block. type Block struct { Nodes []ast.Node // statements, expressions, and ValueSpecs Succs []*Block // successor nodes in the graph Index int32 // index within CFG.Blocks Live bool // block is reachable from entry comment string // for debugging succs2 [2]*Block // underlying array for Succs } // New returns a new control-flow graph for the specified function body, // which must be non-nil. // // The CFG builder calls mayReturn to determine whether a given function // call may return. For example, calls to panic, os.Exit, and log.Fatal // do not return, so the builder can remove infeasible graph edges // following such calls. The builder calls mayReturn only for a // CallExpr beneath an ExprStmt. func New(body *ast.BlockStmt, mayReturn func(*ast.CallExpr) bool) *CFG { b := builder{ mayReturn: mayReturn, cfg: new(CFG), } b.current = b.newBlock("entry") b.stmt(body) // Compute liveness (reachability from entry point), breadth-first. q := make([]*Block, 0, len(b.cfg.Blocks)) q = append(q, b.cfg.Blocks[0]) // entry point for len(q) > 0 { b := q[len(q)-1] q = q[:len(q)-1] if !b.Live { b.Live = true q = append(q, b.Succs...) } } // Does control fall off the end of the function's body? // Make implicit return explicit. if b.current != nil && b.current.Live { b.add(&ast.ReturnStmt{ Return: body.End() - 1, }) } return b.cfg } func (b *Block) String() string { return fmt.Sprintf("block %d (%s)", b.Index, b.comment) } // Return returns the return statement at the end of this block if present, nil otherwise. func (b *Block) Return() (ret *ast.ReturnStmt) { if len(b.Nodes) > 0 { ret, _ = b.Nodes[len(b.Nodes)-1].(*ast.ReturnStmt) } return } // Format formats the control-flow graph for ease of debugging. func (g *CFG) Format(fset *token.FileSet) string { var buf bytes.Buffer for _, b := range g.Blocks { fmt.Fprintf(&buf, ".%d: # %s\n", b.Index, b.comment) for _, n := range b.Nodes { fmt.Fprintf(&buf, "\t%s\n", formatNode(fset, n)) } if len(b.Succs) > 0 { fmt.Fprintf(&buf, "\tsuccs:") for _, succ := range b.Succs { fmt.Fprintf(&buf, " %d", succ.Index) } buf.WriteByte('\n') } buf.WriteByte('\n') } return buf.String() } func formatNode(fset *token.FileSet, n ast.Node) string { var buf bytes.Buffer format.Node(&buf, fset, n) // Indent secondary lines by a tab. return string(bytes.Replace(buf.Bytes(), []byte("\n"), []byte("\n\t"), -1)) }