Documentation ¶
Overview ¶
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; also, each block records the control statement (Block.Stmt) that gave rise to it and its relationship (Block.Kind) to that statement.
For example, this source code:
if x := f(); x != nil { T() } else { F() }
produces this CFG:
1: x := f() Body x != nil succs: 2, 3 2: T() IfThen succs: 4 3: F() IfElse succs: 4 4: IfDone
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 github.com/TBD54566975/golang-tools/go/ssa instead.
Index ¶
Constants ¶
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Variables ¶
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Functions ¶
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Types ¶
type 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 Kind BlockKind // block kind Stmt ast.Stmt // statement that gave rise to this block (see BlockKind for details) // contains filtered or unexported fields }
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.
func (*Block) Return ¶
func (b *Block) Return() (ret *ast.ReturnStmt)
Return returns the return statement at the end of this block if present, nil otherwise.
When control falls off the end of the function, the ReturnStmt is synthetic and its ast.Node.End position may be beyond the end of the file.
type BlockKind ¶
type BlockKind uint8
A BlockKind identifies the purpose of a block. It also determines the possible types of its Stmt field.
const ( KindInvalid BlockKind = iota // Stmt=nil KindUnreachable // unreachable block after {Branch,Return}Stmt / no-return call ExprStmt KindBody // function body BlockStmt KindForBody // body of ForStmt KindForDone // block after ForStmt KindForLoop // head of ForStmt KindForPost // post condition of ForStmt KindIfDone // block after IfStmt KindIfElse // else block of IfStmt KindIfThen // then block of IfStmt KindLabel // labeled block of BranchStmt (Stmt may be nil for dangling label) KindRangeBody // body of RangeStmt KindRangeDone // block after RangeStmt KindRangeLoop // head of RangeStmt KindSelectCaseBody // body of SelectStmt KindSelectDone // block after SelectStmt KindSelectAfterCase // block after a CommClause KindSwitchCaseBody // body of CaseClause KindSwitchDone // block after {Type.}SwitchStmt KindSwitchNextCase // secondary expression of a multi-expression CaseClause )
type CFG ¶
type CFG struct { Blocks []*Block // block[0] is entry; order otherwise undefined // contains filtered or unexported fields }
A CFG represents the control-flow graph of a single function.
The entry point is Blocks[0]; there may be multiple return blocks.
func New ¶
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 (*CFG) Dot ¶
Dot returns the control-flow graph in the [Dot graph description language]. Use a command such as 'dot -Tsvg' to render it in a form viewable in a browser. This method is provided as a debugging aid; the details of the output are unspecified and may change.
[Dot graph description language]: https://en.wikipedia.org/wiki/DOT_(graph_description_language)