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https://github.com/golang/go
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[dev.typeparams] cmd/compile/internal/types2: use type terms to represent unions
This is just an internal representation change for now. Change-Id: I7e0126e9b17850ec020c2a60db13582761557bea Reviewed-on: https://go-review.googlesource.com/c/go/+/338092 Trust: Robert Griesemer <gri@golang.org> Reviewed-by: Robert Findley <rfindley@google.com>
This commit is contained in:
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@ -308,7 +308,7 @@ func (w *tpWalker) isParameterized(typ Type) (res bool) {
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}
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case *Union:
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return w.isParameterizedList(t.types)
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return w.isParameterizedTermList(t.terms)
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case *Signature:
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// t.tparams may not be nil if we are looking at a signature
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@ -336,7 +336,7 @@ func (w *tpWalker) isParameterized(typ Type) (res bool) {
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return w.isParameterized(t.elem)
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case *Named:
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return w.isParameterizedList(t.targs)
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return w.isParameterizedTypeList(t.targs)
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case *TypeParam:
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// t must be one of w.tparams
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@ -349,7 +349,7 @@ func (w *tpWalker) isParameterized(typ Type) (res bool) {
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return false
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}
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func (w *tpWalker) isParameterizedList(list []Type) bool {
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func (w *tpWalker) isParameterizedTypeList(list []Type) bool {
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for _, t := range list {
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if w.isParameterized(t) {
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return true
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@ -358,6 +358,15 @@ func (w *tpWalker) isParameterizedList(list []Type) bool {
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return false
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}
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func (w *tpWalker) isParameterizedTermList(list []*term) bool {
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for _, t := range list {
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if w.isParameterized(t.typ) {
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return true
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}
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}
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return false
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}
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// inferB returns the list of actual type arguments inferred from the type parameters'
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// bounds and an initial set of type arguments. If type inference is impossible because
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// unification fails, an error is reported if report is set to true, the resulting types
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@ -466,7 +475,8 @@ func (check *Checker) structuralType(constraint Type) Type {
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if u, _ := types.(*Union); u != nil {
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if u.NumTerms() == 1 {
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// TODO(gri) do we need to respect tilde?
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return u.types[0]
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t, _ := u.Term(0)
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return t
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}
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return nil
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}
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@ -30,7 +30,7 @@ func (t *Interface) is(f func(Type, bool) bool) bool {
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// TODO(gri) should settle on top or nil to represent this case
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return false // we must have at least one type! (was bug)
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case *Union:
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return t.is(func(typ Type, tilde bool) bool { return f(typ, tilde) })
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return t.is(func(t *term) bool { return f(t.typ, t.tilde) })
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default:
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return f(t, false)
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}
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@ -260,8 +260,8 @@ func (check *Checker) interfaceType(ityp *Interface, iface *syntax.InterfaceType
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sortMethods(ityp.methods)
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// Compute type set with a non-nil *Checker as soon as possible
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// to report any errors. Subsequent uses of type sets should be
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// using this computed type set and won't need to pass in a *Checker.
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// to report any errors. Subsequent uses of type sets will use
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// this computed type set and won't need to pass in a *Checker.
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check.later(func() { computeTypeSet(check, iface.Pos(), ityp) })
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}
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@ -270,13 +270,13 @@ func (x *operand) assignableTo(check *Checker, T Type, reason *string) (bool, er
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// x is an untyped value representable by a value of type T.
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if isUntyped(Vu) {
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if t, ok := Tu.(*Union); ok {
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return t.is(func(t Type, tilde bool) bool {
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return t.is(func(t *term) bool {
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// TODO(gri) this could probably be more efficient
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if tilde {
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if t.tilde {
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// TODO(gri) We need to check assignability
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// for the underlying type of x.
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}
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ok, _ := x.assignableTo(check, t, reason)
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ok, _ := x.assignableTo(check, t.typ, reason)
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return ok
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}), _IncompatibleAssign
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}
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@ -238,20 +238,8 @@ func identical(x, y Type, cmpTags bool, p *ifacePair) bool {
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// types - each type appears exactly once. Thus, two union types
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// must contain the same number of types to have chance of
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// being equal.
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if y, ok := y.(*Union); ok && x.NumTerms() == y.NumTerms() {
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// Every type in x.types must be in y.types.
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// Quadratic algorithm, but probably good enough for now.
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// TODO(gri) we need a fast quick type ID/hash for all types.
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L:
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for i, xt := range x.types {
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for j, yt := range y.types {
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if Identical(xt, yt) && x.tilde[i] == y.tilde[j] {
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continue L // x is in y.types
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}
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}
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return false // x is not in y.types
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}
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return true
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if y, ok := y.(*Union); ok {
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return identicalTerms(x.terms, y.terms)
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}
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case *Interface:
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@ -27,12 +27,13 @@ func TestSizeof(t *testing.T) {
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{Pointer{}, 8, 16},
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{Tuple{}, 12, 24},
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{Signature{}, 44, 88},
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{Union{}, 24, 48},
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{Union{}, 12, 24},
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{Interface{}, 40, 80},
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{Map{}, 16, 32},
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{Chan{}, 12, 24},
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{Named{}, 88, 168},
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{TypeParam{}, 28, 48},
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{term{}, 12, 24},
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{top{}, 0, 0},
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// Objects
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@ -145,12 +145,12 @@ func (subst *subster) typ(typ Type) Type {
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}
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case *Union:
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types, copied := subst.typeList(t.types)
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terms, copied := subst.termList(t.terms)
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if copied {
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// TODO(gri) Remove duplicates that may have crept in after substitution
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// (unlikely but possible). This matters for the Identical
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// predicate on unions.
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return newUnion(types, t.tilde)
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return &Union{terms}
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}
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case *Interface:
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@ -386,3 +386,21 @@ func (subst *subster) typeList(in []Type) (out []Type, copied bool) {
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}
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return
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}
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func (subst *subster) termList(in []*term) (out []*term, copied bool) {
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out = in
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for i, t := range in {
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if u := subst.typ(t.typ); u != t.typ {
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if !copied {
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// first function that got substituted => allocate new out slice
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// and copy all functions
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new := make([]*term, len(in))
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copy(new, out)
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out = new
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copied = true
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}
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out[i] = &term{t.tilde, u}
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}
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}
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return
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}
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@ -31,9 +31,9 @@ type (
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_ interface{int|~ /* ERROR duplicate term int */ int }
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_ interface{~int|~ /* ERROR duplicate term int */ int }
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// For now we do not permit interfaces with ~ or in unions.
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_ interface{~ /* ERROR cannot use interface */ interface{}}
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_ interface{int|interface /* ERROR cannot use interface */ {}}
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// For now we do not permit interfaces with methods in unions.
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_ interface{~ /* ERROR invalid use of ~ */ interface{}}
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_ interface{int|interface /* ERROR cannot use .* in union */ { m() }}
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)
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type (
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@ -60,7 +60,7 @@ func optype(typ Type) Type {
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// If we have a union with a single entry, ignore
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// any tilde because under(~t) == under(t).
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if u, _ := a.(*Union); u != nil && u.NumTerms() == 1 {
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a = u.types[0]
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a, _ = u.Term(0)
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}
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if a != typ {
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// a != typ and a is a type parameter => under(a) != typ, so this is ok
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@ -42,6 +42,13 @@ func (s *TypeSet) IsComparable() bool {
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return s.comparable && tcomparable
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}
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// TODO(gri) IsTypeSet is not a great name. Find a better one.
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// IsTypeSet reports whether the type set s is represented by a finite set of underlying types.
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func (s *TypeSet) IsTypeSet() bool {
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return !s.comparable && len(s.methods) == 0
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}
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// NumMethods returns the number of methods available.
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func (s *TypeSet) NumMethods() int { return len(s.methods) }
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@ -162,14 +162,14 @@ func writeType(buf *bytes.Buffer, typ Type, qf Qualifier, visited []Type) {
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buf.WriteString("⊥")
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break
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}
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for i, e := range t.types {
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for i, t := range t.terms {
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if i > 0 {
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buf.WriteByte('|')
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}
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if t.tilde[i] {
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if t.tilde {
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buf.WriteByte('~')
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}
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writeType(buf, e, qf, visited)
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writeType(buf, t.typ, qf, visited)
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}
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case *Interface:
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@ -10,10 +10,8 @@ import "cmd/compile/internal/syntax"
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// API
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// A Union represents a union of terms.
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// A term is a type with a ~ (tilde) flag.
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type Union struct {
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types []Type // types are unique
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tilde []bool // if tilde[i] is set, terms[i] is of the form ~T
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terms []*term
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}
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// NewUnion returns a new Union type with the given terms (types[i], tilde[i]).
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@ -21,9 +19,9 @@ type Union struct {
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// of no types.
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func NewUnion(types []Type, tilde []bool) *Union { return newUnion(types, tilde) }
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func (u *Union) IsEmpty() bool { return len(u.types) == 0 }
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func (u *Union) NumTerms() int { return len(u.types) }
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func (u *Union) Term(i int) (Type, bool) { return u.types[i], u.tilde[i] }
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func (u *Union) IsEmpty() bool { return len(u.terms) == 0 }
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func (u *Union) NumTerms() int { return len(u.terms) }
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func (u *Union) Term(i int) (Type, bool) { t := u.terms[i]; return t.typ, t.tilde }
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func (u *Union) Underlying() Type { return u }
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func (u *Union) String() string { return TypeString(u, nil) }
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@ -39,18 +37,20 @@ func newUnion(types []Type, tilde []bool) *Union {
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return emptyUnion
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}
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t := new(Union)
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t.types = types
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t.tilde = tilde
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t.terms = make([]*term, len(types))
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for i, typ := range types {
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t.terms[i] = &term{tilde[i], typ}
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}
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return t
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}
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// is reports whether f returned true for all terms (type, tilde) of u.
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func (u *Union) is(f func(Type, bool) bool) bool {
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// is reports whether f returns true for all terms of u.
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func (u *Union) is(f func(*term) bool) bool {
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if u.IsEmpty() {
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return false
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}
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for i, t := range u.types {
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if !f(t, u.tilde[i]) {
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for _, t := range u.terms {
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if !f(t) {
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return false
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}
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}
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@ -62,8 +62,8 @@ func (u *Union) underIs(f func(Type) bool) bool {
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if u.IsEmpty() {
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return false
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}
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for _, t := range u.types {
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if !f(under(t)) {
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for _, t := range u.terms {
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if !f(under(t.typ)) {
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return false
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}
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}
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@ -83,7 +83,7 @@ func parseUnion(check *Checker, tlist []syntax.Expr) Type {
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}
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// Ensure that each type is only present once in the type list.
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// It's ok to do this check at the end because it's not a requirement
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// It's ok to do this check later because it's not a requirement
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// for correctness of the code.
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// Note: This is a quadratic algorithm, but unions tend to be short.
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check.later(func() {
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@ -96,7 +96,7 @@ func parseUnion(check *Checker, tlist []syntax.Expr) Type {
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x := tlist[i]
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pos := syntax.StartPos(x)
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// We may not know the position of x if it was a typechecker-
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// introduced ~T type of a type list entry T. Use the position
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// introduced ~T term for a type list entry T. Use the position
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// of T instead.
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// TODO(gri) remove this test once we don't support type lists anymore
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if !pos.IsKnown() {
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@ -106,13 +106,24 @@ func parseUnion(check *Checker, tlist []syntax.Expr) Type {
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}
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u := under(t)
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if tilde[i] && !Identical(u, t) {
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check.errorf(x, "invalid use of ~ (underlying type of %s is %s)", t, u)
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continue // don't report another error for t
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f, _ := u.(*Interface)
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if tilde[i] {
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if f != nil {
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check.errorf(x, "invalid use of ~ (%s is an interface)", t)
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continue // don't report another error for t
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}
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if !Identical(u, t) {
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check.errorf(x, "invalid use of ~ (underlying type of %s is %s)", t, u)
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continue // don't report another error for t
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}
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}
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if _, ok := u.(*Interface); ok {
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// A single type with a ~ is a single-term union.
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check.errorf(pos, "cannot use interface %s with ~ or inside a union (implementation restriction)", t)
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// Stand-alone embedded interfaces are ok and are handled by the single-type case
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// in the beginning. Embedded interfaces with tilde are excluded above. If we reach
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// here, we must have at least two terms in the union.
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if f != nil && !f.typeSet().IsTypeSet() {
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check.errorf(pos, "cannot use %s in union (interface contains methods)", t)
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continue // don't report another error for t
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}
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@ -164,25 +175,7 @@ func intersect(x, y Type) (r Type) {
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yu, _ := y.(*Union)
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switch {
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case xu != nil && yu != nil:
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// Quadratic algorithm, but good enough for now.
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// TODO(gri) fix asymptotic performance
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var types []Type
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var tilde []bool
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for j, y := range yu.types {
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yt := yu.tilde[j]
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if r, rt := xu.intersect(y, yt); r != nil {
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// Terms x[i] and y[j] match: Select the one that
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// is not a ~t because that is the intersection
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// type. If both are ~t, they are identical:
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// T ∩ T = T
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// T ∩ ~t = T
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// ~t ∩ T = T
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// ~t ∩ ~t = ~t
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types = append(types, r)
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tilde = append(tilde, rt)
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}
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}
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return newUnion(types, tilde)
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return &Union{intersectTerms(xu.terms, yu.terms)}
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case xu != nil:
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if r, _ := xu.intersect(y, false); r != nil {
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@ -216,14 +209,16 @@ func includes(list []Type, typ Type) bool {
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// intersect computes the intersection of the union u and term (y, yt)
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// and returns the intersection term, if any. Otherwise the result is
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// (nil, false).
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// TODO(gri) this needs to cleaned up/removed once we switch to lazy
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// union type set computation.
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func (u *Union) intersect(y Type, yt bool) (Type, bool) {
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under_y := under(y)
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for i, x := range u.types {
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xt := u.tilde[i]
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for _, x := range u.terms {
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xt := x.tilde
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// determine which types xx, yy to compare
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xx := x
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xx := x.typ
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if yt {
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xx = under(x)
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xx = under(xx)
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}
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yy := y
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if xt {
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@ -239,3 +234,35 @@ func (u *Union) intersect(y Type, yt bool) (Type, bool) {
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}
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return nil, false
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}
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func identicalTerms(list1, list2 []*term) bool {
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if len(list1) != len(list2) {
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return false
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}
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// Every term in list1 must be in list2.
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// Quadratic algorithm, but probably good enough for now.
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// TODO(gri) we need a fast quick type ID/hash for all types.
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L:
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for _, x := range list1 {
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for _, y := range list2 {
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if x.equal(y) {
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continue L // x is in list2
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}
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}
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return false
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}
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return true
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}
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func intersectTerms(list1, list2 []*term) (list []*term) {
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// Quadratic algorithm, but good enough for now.
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// TODO(gri) fix asymptotic performance
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for _, x := range list1 {
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for _, y := range list2 {
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if r := x.intersect(y); r != nil {
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list = append(list, r)
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}
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}
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}
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return
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}
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