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[dev.typeparams] cmd/compile/internal/types2: implement type terms
Type terms will be used to represent a type set as a list of type terms. Eventually, a type term may also include a method set. Groundwork for the implementation of lazily computed type sets for union expressions. Change-Id: Ic88750af21f697ce0b52a2259eff40bee115964c Reviewed-on: https://go-review.googlesource.com/c/go/+/338049 Trust: Robert Griesemer <gri@golang.org> Reviewed-by: Robert Findley <rfindley@google.com>
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166
src/cmd/compile/internal/types2/typeterm.go
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166
src/cmd/compile/internal/types2/typeterm.go
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// Copyright 2021 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package types2
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// TODO(gri) use a different symbol instead of ⊤ for the set of all types
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// (⊤ is hard to distinguish from T in some fonts)
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// A term describes elementary type sets:
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//
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// ∅: (*term)(nil) == ∅ // set of no types (empty set)
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// ⊤: &term{} == ⊤ // set of all types
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// T: &term{false, T} == {T} // set of type T
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// ~t: &term{true, t} == {t' | under(t') == t} // set of types with underlying type t
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//
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type term struct {
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tilde bool // valid if typ != nil
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typ Type
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}
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func (x *term) String() string {
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switch {
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case x == nil:
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return "∅"
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case x.typ == nil:
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return "⊤"
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case x.tilde:
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return "~" + x.typ.String()
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default:
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return x.typ.String()
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}
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}
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// equal reports whether x and y represent the same type set.
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func (x *term) equal(y *term) bool {
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// easy cases
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switch {
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case x == nil || y == nil:
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return x == y
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case x.typ == nil || y.typ == nil:
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return x.typ == y.typ
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}
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// ∅ ⊂ x, y ⊂ ⊤
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return x.tilde == y.tilde && Identical(x.typ, y.typ)
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}
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// union returns the union x ∪ y: zero, one, or two non-nil terms.
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func (x *term) union(y *term) (_, _ *term) {
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// easy cases
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switch {
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case x == nil && y == nil:
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return nil, nil // ∅ ∪ ∅ == ∅
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case x == nil:
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return y, nil // ∅ ∪ y == y
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case y == nil:
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return x, nil // x ∪ ∅ == x
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case x.typ == nil:
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return x, nil // ⊤ ∪ y == ⊤
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case y.typ == nil:
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return y, nil // x ∪ ⊤ == ⊤
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}
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// ∅ ⊂ x, y ⊂ ⊤
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if x.disjoint(y) {
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return x, y // x ∪ y == (x, y) if x ∩ y == ∅
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}
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// x.typ == y.typ
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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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if x.tilde || !y.tilde {
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return x, nil
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}
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return y, nil
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}
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// intersect returns the intersection x ∩ y.
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func (x *term) intersect(y *term) *term {
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// easy cases
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switch {
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case x == nil || y == nil:
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return nil // ∅ ∩ y == ∅ and ∩ ∅ == ∅
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case x.typ == nil:
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return y // ⊤ ∩ y == y
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case y.typ == nil:
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return x // x ∩ ⊤ == x
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}
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// ∅ ⊂ x, y ⊂ ⊤
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if x.disjoint(y) {
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return nil // x ∩ y == ∅ if x ∩ y == ∅
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}
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// x.typ == y.typ
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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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if !x.tilde || y.tilde {
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return x
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}
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return y
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}
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// includes reports whether t ∈ x.
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func (x *term) includes(t Type) bool {
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// easy cases
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switch {
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case x == nil:
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return false // t ∈ ∅ == false
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case x.typ == nil:
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return true // t ∈ ⊤ == true
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}
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// ∅ ⊂ x ⊂ ⊤
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u := t
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if x.tilde {
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u = under(u)
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}
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return Identical(x.typ, u)
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}
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// subsetOf reports whether x ⊆ y.
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func (x *term) subsetOf(y *term) bool {
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// easy cases
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switch {
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case x == nil:
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return true // ∅ ⊆ y == true
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case y == nil:
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return false // x ⊆ ∅ == false since x != ∅
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case y.typ == nil:
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return true // x ⊆ ⊤ == true
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case x.typ == nil:
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return false // ⊤ ⊆ y == false since y != ⊤
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}
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// ∅ ⊂ x, y ⊂ ⊤
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if x.disjoint(y) {
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return false // x ⊆ y == false if x ∩ y == ∅
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}
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// x.typ == y.typ
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// ~t ⊆ ~t == true
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// ~t ⊆ T == false
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// T ⊆ ~t == true
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// T ⊆ T == true
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return !x.tilde || y.tilde
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}
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// disjoint reports whether x ∩ y == ∅.
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// x.typ and y.typ must not be nil.
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func (x *term) disjoint(y *term) bool {
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ux := x.typ
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if y.tilde {
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ux = under(ux)
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}
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uy := y.typ
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if x.tilde {
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uy = under(uy)
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}
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return !Identical(ux, uy)
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}
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205
src/cmd/compile/internal/types2/typeterm_test.go
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205
src/cmd/compile/internal/types2/typeterm_test.go
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@ -0,0 +1,205 @@
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// Copyright 2021 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package types2
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import (
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"strings"
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"testing"
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)
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var testTerms = map[string]*term{
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"∅": nil,
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"⊤": &term{},
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"int": &term{false, Typ[Int]},
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"~int": &term{true, Typ[Int]},
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"string": &term{false, Typ[String]},
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"~string": &term{true, Typ[String]},
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// TODO(gri) add a defined type
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}
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func TestTermString(t *testing.T) {
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for want, x := range testTerms {
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if got := x.String(); got != want {
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t.Errorf("%v.String() == %v; want %v", x, got, want)
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}
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}
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}
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func split(s string, n int) []string {
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r := strings.Split(s, " ")
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if len(r) != n {
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panic("invalid test case: " + s)
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}
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return r
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}
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func testTerm(name string) *term {
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r, ok := testTerms[name]
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if !ok {
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panic("invalid test argument: " + name)
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}
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return r
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}
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func TestTermEqual(t *testing.T) {
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for _, test := range []string{
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"∅ ∅ T",
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"⊤ ⊤ T",
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"int int T",
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"~int ~int T",
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"∅ ⊤ F",
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"∅ int F",
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"∅ ~int F",
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"⊤ int F",
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"⊤ ~int F",
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"int ~int F",
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} {
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args := split(test, 3)
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x := testTerm(args[0])
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y := testTerm(args[1])
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want := args[2] == "T"
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if got := x.equal(y); got != want {
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t.Errorf("%v.equal(%v) = %v; want %v", x, y, got, want)
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}
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// equal is symmetric
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x, y = y, x
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if got := x.equal(y); got != want {
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t.Errorf("%v.equal(%v) = %v; want %v", x, y, got, want)
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}
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}
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}
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func TestTermUnion(t *testing.T) {
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for _, test := range []string{
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"∅ ∅ ∅ ∅",
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"∅ ⊤ ⊤ ∅",
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"∅ int int ∅",
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"∅ ~int ~int ∅",
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"⊤ ⊤ ⊤ ∅",
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"⊤ int ⊤ ∅",
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"⊤ ~int ⊤ ∅",
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"int int int ∅",
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"int ~int ~int ∅",
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"int string int string",
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"int ~string int ~string",
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"~int ~string ~int ~string",
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// union is symmetric, but the result order isn't - repeat symmetric cases explictly
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"⊤ ∅ ⊤ ∅",
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"int ∅ int ∅",
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"~int ∅ ~int ∅",
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"int ⊤ ⊤ ∅",
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"~int ⊤ ⊤ ∅",
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"~int int ~int ∅",
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"string int string int",
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"~string int ~string int",
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"~string ~int ~string ~int",
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} {
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args := split(test, 4)
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x := testTerm(args[0])
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y := testTerm(args[1])
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want1 := testTerm(args[2])
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want2 := testTerm(args[3])
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if got1, got2 := x.union(y); !got1.equal(want1) || !got2.equal(want2) {
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t.Errorf("%v.union(%v) = %v, %v; want %v, %v", x, y, got1, got2, want1, want2)
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}
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}
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}
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func TestTermIntersection(t *testing.T) {
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for _, test := range []string{
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"∅ ∅ ∅",
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"∅ ⊤ ∅",
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"∅ int ∅",
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"∅ ~int ∅",
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"⊤ ⊤ ⊤",
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"⊤ int int",
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"⊤ ~int ~int",
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"int int int",
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"int ~int int",
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"int string ∅",
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"int ~string ∅",
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"~int ~string ∅",
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} {
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args := split(test, 3)
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x := testTerm(args[0])
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y := testTerm(args[1])
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want := testTerm(args[2])
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if got := x.intersect(y); !got.equal(want) {
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t.Errorf("%v.intersect(%v) = %v; want %v", x, y, got, want)
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}
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// intersect is symmetric
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x, y = y, x
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if got := x.intersect(y); !got.equal(want) {
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t.Errorf("%v.intersect(%v) = %v; want %v", x, y, got, want)
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}
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}
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}
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func TestTermIncludes(t *testing.T) {
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for _, test := range []string{
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"∅ int F",
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"⊤ int T",
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"int int T",
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"~int int T",
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"string int F",
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"~string int F",
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} {
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args := split(test, 3)
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x := testTerm(args[0])
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y := testTerm(args[1]).typ
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want := args[2] == "T"
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if got := x.includes(y); got != want {
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t.Errorf("%v.includes(%v) = %v; want %v", x, y, got, want)
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}
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}
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}
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func TestTermSubsetOf(t *testing.T) {
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for _, test := range []string{
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"∅ ∅ T",
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"⊤ ⊤ T",
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"int int T",
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"~int ~int T",
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"∅ ⊤ T",
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"∅ int T",
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"∅ ~int T",
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"⊤ int F",
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"⊤ ~int F",
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"int ~int T",
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} {
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args := split(test, 3)
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x := testTerm(args[0])
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y := testTerm(args[1])
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want := args[2] == "T"
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if got := x.subsetOf(y); got != want {
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t.Errorf("%v.subsetOf(%v) = %v; want %v", x, y, got, want)
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}
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}
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}
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func TestTermDisjoint(t *testing.T) {
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for _, test := range []string{
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"int int F",
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"~int ~int F",
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"int ~int F",
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"int string T",
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"int ~string T",
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"~int ~string T",
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} {
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args := split(test, 3)
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x := testTerm(args[0])
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y := testTerm(args[1])
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want := args[2] == "T"
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if got := x.disjoint(y); got != want {
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t.Errorf("%v.disjoint(%v) = %v; want %v", x, y, got, want)
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}
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// disjoint is symmetric
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x, y = y, x
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if got := x.disjoint(y); got != want {
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t.Errorf("%v.disjoint(%v) = %v; want %v", x, y, got, want)
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}
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}
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}
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