//NameToFunc compiles a parsed name expression into a function.
func NameToFunc(n *ast.NameExpr) funcs.Bool {
typ := n.GetValue()
switch v := typ.(type) {
case *ast.Name:
if v.DoubleValue != nil {
return funcs.DoubleEq(funcs.DoubleVar(), funcs.DoubleConst(v.GetDoubleValue()))
} else if v.IntValue != nil {
return funcs.IntEq(funcs.IntVar(), funcs.IntConst(v.GetIntValue()))
} else if v.UintValue != nil {
return funcs.UintEq(funcs.UintVar(), funcs.UintConst(v.GetUintValue()))
} else if v.BoolValue != nil {
return funcs.BoolEq(funcs.BoolVar(), funcs.BoolConst(v.GetBoolValue()))
} else if v.StringValue != nil {
return funcs.StringEq(funcs.StringVar(), funcs.StringConst(v.GetStringValue()))
} else if v.BytesValue != nil {
return funcs.BytesEq(funcs.BytesVar(), funcs.BytesConst(v.GetBytesValue()))
}
panic(fmt.Sprintf("unknown name expr name %#v", v))
case *ast.AnyName:
return funcs.BoolConst(true)
case *ast.AnyNameExcept:
return funcs.Not(NameToFunc(v.GetExcept()))
case *ast.NameChoice:
return funcs.Or(NameToFunc(v.GetLeft()), NameToFunc(v.GetRight()))
}
panic(fmt.Sprintf("unknown name expr typ %T", typ))
}
func TestSimplifyRecordLeaf2(t *testing.T) {
input := ast.NewAnd(
ast.NewContains(ast.NewTreeNode(ast.NewStringName("A"), ast.NewContains(ast.NewTreeNode(ast.NewStringName("B"), combinator.Value(funcs.Contains(funcs.StringVar(), funcs.StringConst("a"))))))),
ast.NewContains(ast.NewTreeNode(ast.NewStringName("A"), ast.NewContains(ast.NewTreeNode(ast.NewStringName("B"), combinator.Value(funcs.Contains(funcs.StringVar(), funcs.StringConst("b"))))))),
)
t.Logf("input: %v", input)
expected := ast.NewContains(ast.NewTreeNode(ast.NewStringName("A"), ast.NewContains(ast.NewTreeNode(ast.NewStringName("B"), combinator.Value(funcs.And(
funcs.Contains(funcs.StringVar(), funcs.StringConst("a")),
funcs.Contains(funcs.StringVar(), funcs.StringConst("b")),
))))))
output := NewSimplifier(input.Grammar()).OptimizeForRecord().Simplify(input)
expected.Format()
output.Format()
t.Logf("%v", output)
if !expected.Equal(output) {
t.Fatalf("expected %v, but got %v", expected, output)
}
}
func TestSimplifyFalseLeaf(t *testing.T) {
input := combinator.Value(funcs.And(funcs.StringEq(funcs.StringVar(), funcs.StringConst("a")), funcs.StringEq(funcs.StringVar(), funcs.StringConst("b"))))
expected := ast.NewNot(ast.NewZAny())
output := NewSimplifier(input.Grammar()).Simplify(input)
t.Logf("%v", output)
if !expected.Equal(output) {
t.Fatalf("expected %v, but got %v", expected, output)
}
}
func newList(nameOrPattern *NameOrPattern) *ast.Pattern {
regexStr, nullable, err := listToRegex(nameOrPattern)
if err != nil {
return ast.NewNot(ast.NewZAny())
}
val := combinator.Value(&list{nil, funcs.StringVar(), funcs.StringConst("^" + regexStr + "$")})
if !nullable {
return val
}
return ast.NewOr(val, ast.NewEmpty())
}
func composeString(expr *ast.Expr) (funcs.String, error) {
uniq, err := prep(expr, types.SINGLE_STRING)
if err != nil {
return nil, err
}
if expr.Terminal != nil {
if expr.GetTerminal().Variable != nil {
return funcs.StringVar(), nil
} else {
return funcs.StringConst(expr.GetTerminal().GetStringValue()), nil
}
}
values, err := newValues(expr.GetFunction().GetParams())
if err != nil {
return nil, err
}
return funcs.NewStringFunc(uniq, values...)
}
func newTokenValue(t string) *ast.Pattern {
return combinator.Value(&token{funcs.StringVar(), funcs.StringConst(t), ""})
}
func newTextValue(value string) *ast.Pattern {
return combinator.Value(&text{funcs.StringVar(), funcs.StringConst(value), ""})
}
func TestSimplify1(t *testing.T) {
c := ast.NewConcat(ast.NewNot(ast.NewZAny()), ast.NewZAny())
s := NewSimplifier(c.Grammar()).Simplify(c)
if !s.Equal(ast.NewNot(ast.NewZAny())) {
t.Fatalf("Expected EmptySet, but got %s", s)
}
}
var andNameTelephonePerson = combinator.G{
"main": combinator.InOrder(
combinator.AllOf(
combinator.InOrder(
combinator.Any(),
combinator.In("Name", combinator.Value(
funcs.StringEq(funcs.StringVar(), funcs.StringConst("David"))),
),
combinator.Any(),
),
combinator.InOrder(
combinator.Any(),
combinator.In("Telephone", combinator.Value(
funcs.StringEq(funcs.StringVar(), funcs.StringConst("0123456789"))),
),
combinator.Any(),
),
),
),
}
func TestSimplify2(t *testing.T) {