Пример #1
0
// Switches examines the control-flow graph of fn and returns the
// set of inferred value and type switches.  A value switch tests an
// ssa.Value for equality against two or more compile-time constant
// values.  Switches involving link-time constants (addresses) are
// ignored.  A type switch type-asserts an ssa.Value against two or
// more types.
//
// The switches are returned in dominance order.
//
// The resulting switches do not necessarily correspond to uses of the
// 'switch' keyword in the source: for example, a single source-level
// switch statement with non-constant cases may result in zero, one or
// many Switches, one per plural sequence of constant cases.
// Switches may even be inferred from if/else- or goto-based control flow.
// (In general, the control flow constructs of the source program
// cannot be faithfully reproduced from the SSA representation.)
//
func Switches(fn *ssa.Function) []Switch {
	// Traverse the CFG in dominance order, so we don't
	// enter an if/else-chain in the middle.
	var switches []Switch
	seen := make(map[*ssa.BasicBlock]bool) // TODO(adonovan): opt: use ssa.blockSet
	for _, b := range fn.DomPreorder() {
		if x, k := isComparisonBlock(b); x != nil {
			// Block b starts a switch.
			sw := Switch{Start: b, X: x}
			valueSwitch(&sw, k, seen)
			if len(sw.ConstCases) > 1 {
				switches = append(switches, sw)
			}
		}

		if y, x, T := isTypeAssertBlock(b); y != nil {
			// Block b starts a type switch.
			sw := Switch{Start: b, X: x}
			typeSwitch(&sw, y, T, seen)
			if len(sw.TypeCases) > 1 {
				switches = append(switches, sw)
			}
		}
	}
	return switches
}
Пример #2
0
func funcToken(fn *ssa.Function) token.Pos {
	switch syntax := fn.Syntax().(type) {
	case *ast.FuncLit:
		return syntax.Type.Func
	case *ast.FuncDecl:
		return syntax.Type.Func
	}
	return token.NoPos
}
Пример #3
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// findIntrinsic returns the constraint generation function for an
// intrinsic function fn, or nil if the function should be handled normally.
//
func (a *analysis) findIntrinsic(fn *ssa.Function) intrinsic {
	// Consult the *Function-keyed cache.
	// A cached nil indicates a normal non-intrinsic function.
	impl, ok := a.intrinsics[fn]
	if !ok {
		impl = intrinsicsByName[fn.String()] // may be nil

		if a.isReflect(fn) {
			if !a.config.Reflection {
				impl = ext۰NoEffect // reflection disabled
			} else if impl == nil {
				// Ensure all "reflect" code is treated intrinsically.
				impl = ext۰NotYetImplemented
			}
		}

		a.intrinsics[fn] = impl
	}
	return impl
}
Пример #4
0
// prettyFunc pretty-prints fn for the user interface.
// TODO(adonovan): return HTML so we have more markup freedom.
func prettyFunc(this *types.Package, fn *ssa.Function) string {
	if fn.Parent() != nil {
		return fmt.Sprintf("%s in %s",
			types.TypeString(this, fn.Signature),
			prettyFunc(this, fn.Parent()))
	}
	if fn.Synthetic != "" && fn.Name() == "init" {
		// (This is the actual initializer, not a declared 'func init').
		if fn.Pkg.Object == this {
			return "package initializer"
		}
		return fmt.Sprintf("%q package initializer", fn.Pkg.Object.Path())
	}
	return fn.RelString(this)
}
Пример #5
0
// callSSA interprets a call to function fn with arguments args,
// and lexical environment env, returning its result.
// callpos is the position of the callsite.
//
func callSSA(i *interpreter, caller *frame, callpos token.Pos, fn *ssa.Function, args []value, env []value) value {
	if i.mode&EnableTracing != 0 {
		fset := fn.Prog.Fset
		// TODO(adonovan): fix: loc() lies for external functions.
		fmt.Fprintf(os.Stderr, "Entering %s%s.\n", fn, loc(fset, fn.Pos()))
		suffix := ""
		if caller != nil {
			suffix = ", resuming " + caller.fn.String() + loc(fset, callpos)
		}
		defer fmt.Fprintf(os.Stderr, "Leaving %s%s.\n", fn, suffix)
	}
	fr := &frame{
		i:      i,
		caller: caller, // for panic/recover
		fn:     fn,
	}
	if fn.Parent() == nil {
		name := fn.String()
		if ext := externals[name]; ext != nil {
			if i.mode&EnableTracing != 0 {
				fmt.Fprintln(os.Stderr, "\t(external)")
			}
			return ext(fr, args)
		}
		if fn.Blocks == nil {
			panic("no code for function: " + name)
		}
	}
	fr.env = make(map[ssa.Value]value)
	fr.block = fn.Blocks[0]
	fr.locals = make([]value, len(fn.Locals))
	for i, l := range fn.Locals {
		fr.locals[i] = zero(deref(l.Type()))
		fr.env[l] = &fr.locals[i]
	}
	for i, p := range fn.Params {
		fr.env[p] = args[i]
	}
	for i, fv := range fn.FreeVars {
		fr.env[fv] = env[i]
	}
	for fr.block != nil {
		runFrame(fr)
	}
	// Destroy the locals to avoid accidental use after return.
	for i := range fn.Locals {
		fr.locals[i] = bad{}
	}
	return fr.result
}