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go.tools/go/types: various cleanups

- use unpack also for assignments
- run benchmarks only requested (-b flag)

R=adonovan
CC=golang-dev
https://golang.org/cl/31190044
This commit is contained in:
Robert Griesemer 2013-11-22 20:34:07 -08:00
parent 60954257d5
commit 8c9bb9c1e3
6 changed files with 77 additions and 161 deletions

View File

@ -13,7 +13,7 @@ import (
"code.google.com/p/go.tools/go/exact"
)
// assignment reports whether x can be assigned to a variable of type 'T',
// assignment reports whether x can be assigned to a variable of type T,
// if necessary by attempting to convert untyped values to the appropriate
// type. If x.mode == invalid upon return, then assignment has already
// issued an error message and the caller doesn't have to report another.
@ -148,8 +148,6 @@ func (check *checker) assignVar(lhs ast.Expr, x *operand) Type {
if ident != nil && ident.Name == "_" {
check.recordObject(ident, nil)
// If the lhs is untyped, determine the default type.
// The spec is unclear about this, but gc appears to
// do this.
// TODO(gri) This is still not correct (_ = 1<<1e3)
typ := x.typ
if isUntyped(typ) {
@ -188,8 +186,8 @@ func (check *checker) assignVar(lhs ast.Expr, x *operand) Type {
return nil
}
// spec: Each left-hand side operand must be addressable, a map index
// expression, or the blank identifier. Operands may be parenthesized.
// spec: "Each left-hand side operand must be addressable, a map index
// expression, or the blank identifier. Operands may be parenthesized."
switch z.mode {
case invalid:
return nil
@ -214,137 +212,57 @@ func (check *checker) assignVar(lhs ast.Expr, x *operand) Type {
// return expressions, and returnPos is the position of the return statement.
func (check *checker) initVars(lhs []*Var, rhs []ast.Expr, returnPos token.Pos) {
l := len(lhs)
r := len(rhs)
assert(l > 0)
// If the lhs and rhs have corresponding expressions,
// treat each matching pair as an individual pair.
if l == r {
var x operand
for i, e := range rhs {
check.expr(&x, e)
check.initVar(lhs[i], &x)
get, r, commaOk := unpack(func(x *operand, i int) { check.expr(x, rhs[i]) }, len(rhs), l == 2 && !returnPos.IsValid())
if l != r {
invalidateVars(lhs)
if returnPos.IsValid() {
check.errorf(returnPos, "wrong number of return values (want %d, got %d)", l, r)
return
}
check.errorf(rhs[0].Pos(), "assignment count mismatch (%d vs %d)", l, r)
return
}
// Otherwise, the rhs must be a single expression (possibly
// a function call returning multiple values, or a comma-ok
// expression).
if r == 1 {
// l > 1
// Start with rhs so we have expression types
// for declarations with implicit types.
var x operand
rhs := rhs[0]
check.expr(&x, rhs)
if x.mode == invalid {
invalidateVars(lhs)
return
var x operand
if commaOk {
var a [2]Type
for i := range a {
get(&x, i)
a[i] = check.initVar(lhs[i], &x)
}
if t, ok := x.typ.(*Tuple); ok {
// function result
r = t.Len()
if l == r {
for i, lhs := range lhs {
x.mode = value
x.expr = rhs
x.typ = t.At(i).typ
check.initVar(lhs, &x)
}
return
}
}
if !returnPos.IsValid() && (x.mode == mapindex || x.mode == commaok) && l == 2 {
// comma-ok expression (not permitted with return statements)
x.mode = value
t1 := check.initVar(lhs[0], &x)
x.mode = value
x.expr = rhs
x.typ = Typ[UntypedBool]
t2 := check.initVar(lhs[1], &x)
if t1 != nil && t2 != nil {
check.recordCommaOkTypes(rhs, t1, t2)
}
return
}
}
invalidateVars(lhs)
// lhs variables may be function result parameters (return statement);
// use rhs position for properly located error messages
if returnPos.IsValid() {
check.errorf(returnPos, "wrong number of return values (want %d, got %d)", l, r)
check.recordCommaOkTypes(rhs[0], a)
return
}
check.errorf(rhs[0].Pos(), "assignment count mismatch (%d vs %d)", l, r)
for i, lhs := range lhs {
get(&x, i)
check.initVar(lhs, &x)
}
}
func (check *checker) assignVars(lhs, rhs []ast.Expr) {
l := len(lhs)
r := len(rhs)
assert(l > 0)
// If the lhs and rhs have corresponding expressions,
// treat each matching pair as an individual pair.
if l == r {
var x operand
for i, e := range rhs {
check.expr(&x, e)
check.assignVar(lhs[i], &x)
}
get, r, commaOk := unpack(func(x *operand, i int) { check.expr(x, rhs[i]) }, len(rhs), l == 2)
if l != r {
check.errorf(rhs[0].Pos(), "assignment count mismatch (%d vs %d)", l, r)
return
}
// Otherwise, the rhs must be a single expression (possibly
// a function call returning multiple values, or a comma-ok
// expression).
if r == 1 {
// l > 1
var x operand
rhs := rhs[0]
check.expr(&x, rhs)
if x.mode == invalid {
return
}
if t, ok := x.typ.(*Tuple); ok {
// function result
r = t.Len()
if l == r {
for i, lhs := range lhs {
x.mode = value
x.expr = rhs
x.typ = t.At(i).typ
check.assignVar(lhs, &x)
}
return
}
}
if (x.mode == mapindex || x.mode == commaok) && l == 2 {
// comma-ok expression
x.mode = value
t1 := check.assignVar(lhs[0], &x)
x.mode = value
x.expr = rhs
x.typ = Typ[UntypedBool]
t2 := check.assignVar(lhs[1], &x)
if t1 != nil && t2 != nil {
check.recordCommaOkTypes(rhs, t1, t2)
}
return
var x operand
if commaOk {
var a [2]Type
for i := range a {
get(&x, i)
a[i] = check.assignVar(lhs[i], &x)
}
check.recordCommaOkTypes(rhs[0], a)
return
}
check.errorf(rhs[0].Pos(), "assignment count mismatch (%d vs %d)", l, r)
for i, lhs := range lhs {
get(&x, i)
check.assignVar(lhs, &x)
}
}
func (check *checker) shortVarDecl(pos token.Pos, lhs, rhs []ast.Expr) {

View File

@ -33,7 +33,7 @@ func (check *checker) builtin(x *operand, call *ast.CallExpr, id builtinId) (_ b
switch id {
default:
// make argument getter
arg, nargs = unpack(func(x *operand, i int) { check.expr(x, call.Args[i]) }, nargs, false)
arg, nargs, _ = unpack(func(x *operand, i int) { check.expr(x, call.Args[i]) }, nargs, false)
// evaluate first argument, if present
if nargs > 0 {
arg(x, 0)

View File

@ -60,7 +60,7 @@ func (check *checker) call(x *operand, e *ast.CallExpr) exprKind {
return statement
}
arg, n := unpack(func(x *operand, i int) { check.expr(x, e.Args[i]) }, len(e.Args), false)
arg, n, _ := unpack(func(x *operand, i int) { check.expr(x, e.Args[i]) }, len(e.Args), false)
check.arguments(x, e, sig, arg, n)
// determine result
@ -90,8 +90,6 @@ func (check *checker) use(list []ast.Expr) {
}
}
// TODO(gri) use unpack for assignment checking as well.
// A getter sets x as the i'th operand, where 0 <= i < n and n is the total
// number of operands (context-specific, and maintained elsewhere). A getter
// type-checks the i'th operand; the details of the actual check are getter-
@ -101,17 +99,20 @@ type getter func(x *operand, i int)
// unpack takes a getter get and a number of operands n. If n == 1 and the
// first operand is a function call, or a comma,ok expression and allowCommaOk
// is set, the result is a new getter and operand count providing access to the
// function results, or comma,ok values, respectively. In all other cases, the
// incoming getter and operand count are returned unchanged. In other words,
// if there's exactly one operand that - after type-checking by calling get -
// stands for multiple operands, the resulting getter provides access to those
// operands instead.
// function results, or comma,ok values, respectively. The third result value
// reports if it is indeed the comma,ok case. In all other cases, the incoming
// getter and operand count are returned unchanged, and the third result value
// is false.
//
// In other words, if there's exactly one operand that - after type-checking by
// calling get - stands for multiple operands, the resulting getter provides access
// to those operands instead.
//
// Note that unpack may call get(..., 0); but if the result getter is called
// at most once for a given operand index i (including i == 0), that operand
// is guaranteed to cause only one call of the incoming getter with that i.
//
func unpack(get getter, n int, allowCommaOk bool) (getter, int) {
func unpack(get getter, n int, allowCommaOk bool) (getter, int, bool) {
if n == 1 {
// possibly result of an n-valued function call or comma,ok value
var x0 operand
@ -121,9 +122,8 @@ func unpack(get getter, n int, allowCommaOk bool) (getter, int) {
if i != 0 {
unreachable()
}
// i == 0
x.mode = invalid
}, 1
}, 1, false
}
if t, ok := x0.typ.(*Tuple); ok {
@ -132,26 +132,18 @@ func unpack(get getter, n int, allowCommaOk bool) (getter, int) {
x.mode = value
x.expr = x0.expr
x.typ = t.At(i).typ
}, t.Len()
}, t.Len(), false
}
if x0.mode == mapindex || x0.mode == commaok {
// comma-ok value
if allowCommaOk {
a := [2]Type{x0.typ, Typ[UntypedBool]}
return func(x *operand, i int) {
switch i {
case 0:
x.mode = value
x.expr = x0.expr
x.typ = x0.typ
case 1:
x.mode = value
x.expr = x0.expr
x.typ = Typ[UntypedBool]
default:
unreachable()
}
}, 2
x.mode = value
x.expr = x0.expr
x.typ = a[i]
}, 2, true
}
x0.mode = value
}
@ -162,16 +154,16 @@ func unpack(get getter, n int, allowCommaOk bool) (getter, int) {
unreachable()
}
*x = x0
}, 1
}, 1, false
}
// zero or multiple values
return get, n
return get, n, false
}
// arguments checks argument passing for the call with the given signature.
// The arg function provides the operand for the i'th argument.
func (check *checker) arguments(x *operand, call *ast.CallExpr, sig *Signature, arg func(*operand, int), n int) {
func (check *checker) arguments(x *operand, call *ast.CallExpr, sig *Signature, arg getter, n int) {
passSlice := false
if call.Ellipsis.IsValid() {
// last argument is of the form x...

View File

@ -121,15 +121,19 @@ func (check *checker) recordBuiltinType(f ast.Expr, sig *Signature) {
}
}
func (check *checker) recordCommaOkTypes(x ast.Expr, t1, t2 Type) {
assert(x != nil && isTyped(t1) && isTyped(t2) && isBoolean(t2))
func (check *checker) recordCommaOkTypes(x ast.Expr, a [2]Type) {
assert(x != nil)
if a[0] == nil || a[1] == nil {
return
}
assert(isTyped(a[0]) && isTyped(a[1]) && isBoolean(a[1]))
if m := check.Types; m != nil {
for {
assert(m[x] != nil) // should have been recorded already
pos := x.Pos()
m[x] = NewTuple(
NewVar(pos, check.pkg, "", t1),
NewVar(pos, check.pkg, "", t2),
NewVar(pos, check.pkg, "", a[0]),
NewVar(pos, check.pkg, "", a[1]),
)
// if x is a parenthesized expression (p.X), update p.X
p, _ := x.(*ast.ParenExpr)

View File

@ -5,6 +5,7 @@
package types_test
import (
"flag"
"fmt"
"go/ast"
"go/parser"
@ -17,6 +18,8 @@ import (
. "code.google.com/p/go.tools/go/types"
)
var benchmark = flag.Bool("b", false, "run benchmarks")
func TestSelf(t *testing.T) {
fset := token.NewFileSet()
files, err := pkgFiles(fset, ".")
@ -27,9 +30,8 @@ func TestSelf(t *testing.T) {
_, err = Check("go/types", fset, files)
if err != nil {
// Importing go.tools/go/exact doensn't work in the
// build dashboard environment at the moment. Don't
// report an error for now so that the build remains
// green.
// build dashboard environment. Don't report an error
// for now so that the build remains green.
// TODO(gri) fix this
t.Log(err) // replace w/ t.Fatal eventually
return
@ -37,8 +39,8 @@ func TestSelf(t *testing.T) {
}
func TestBenchmark(t *testing.T) {
if testing.Short() {
return // skip benchmark in short mode
if !*benchmark {
return
}
// We're not using testing's benchmarking mechanism directly
@ -46,13 +48,13 @@ func TestBenchmark(t *testing.T) {
for _, p := range []string{"types", "exact", "gcimporter"} {
path := filepath.Join("..", p)
benchmark(t, path, false)
benchmark(t, path, true)
runbench(t, path, false)
runbench(t, path, true)
fmt.Println()
}
}
func benchmark(t *testing.T, path string, ignoreFuncBodies bool) {
func runbench(t *testing.T, path string, ignoreFuncBodies bool) {
fset := token.NewFileSet()
files, err := pkgFiles(fset, path)
if err != nil {

View File

@ -21,7 +21,7 @@ func assignments0() (int, int) {
a = f0 /* ERROR "used as value" */ ()
a = f1()
a = f2 /* ERROR "used as single value" */ ()
a = f2 /* ERROR "assignment count mismatch" */ ()
a, b = f2()
a, b, c = f2 /* ERROR "assignment count mismatch" */ ()
a, b, c = f3()