import org.scalacheck._, Prop._, Gen._, Arbitrary._ import scala.reflect.runtime.universe._, Flag._ object TermConstructionProps extends QuasiquoteProperties("term construction") { property("unquote single tree return tree itself") = forAll { (t: Tree) => q"$t" ≈ t } property("unquote trees into if expression") = forAll { (t1: Tree, t2: Tree, t3: Tree) => q"if($t1) $t2 else $t3" ≈ If(t1, t2, t3) } property("unquote trees into ascriptiopn") = forAll { (t1: Tree, t2: Tree) => q"$t1 : $t2" ≈ Typed(t1, t2) } property("unquote trees into apply") = forAll { (t1: Tree, t2: Tree, t3: Tree) => q"$t1($t2, $t3)" ≈ Apply(t1, List(t2, t3)) } property("unquote trees with .. rank into apply") = forAll { (ts: List[Tree]) => q"f(..$ts)" ≈ Apply(q"f", ts) } property("unquote iterable into apply") = forAll { (trees: List[Tree]) => val itrees: Iterable[Tree] = trees q"f(..$itrees)" ≈ Apply(q"f", trees) } property("unquote trees with ... rank into apply") = forAll { (ts1: List[Tree], ts2: List[Tree]) => val argss = List(ts1, ts2) q"f(...$argss)" ≈ Apply(Apply(q"f", ts1), ts2) } property("unquote term name into assign") = forAll { (name: TermName, t: Tree) => q"$name = $t" ≈ Assign(Ident(name), t) } property("unquote trees into block") = forAll { (t1: Tree, t2: Tree, t3: Tree) => blockInvariant(q"""{ $t1 $t2 $t3 }""", List(t1, t2, t3)) } property("unquote tree into new") = forAll { (tree: Tree) => q"new $tree" ≈ Apply(Select(New(tree), termNames.CONSTRUCTOR), List()) } property("unquote tree into return") = forAll { (tree: Tree) => q"return $tree" ≈ Return(tree) } property("unquote a list of arguments") = forAll { (fun: Tree, args: List[Tree]) => q"$fun(..$args)" ≈ Apply(fun, args) } property("unquote list and non-list fun arguments") = forAll { (fun: Tree, arg1: Tree, arg2: Tree, args: List[Tree]) => q"$fun(..$args, $arg1, $arg2)" ≈ Apply(fun, args ++ List(arg1) ++ List(arg2)) && q"$fun($arg1, ..$args, $arg2)" ≈ Apply(fun, List(arg1) ++ args ++ List(arg2)) && q"$fun($arg1, $arg2, ..$args)" ≈ Apply(fun, List(arg1) ++ List(arg2) ++ args) } property("unquote into new") = forAll { (name: TypeName, body: List[Tree]) => q"new $name { ..$body }" ≈ q"""{ final class $$anon extends $name { ..$body } new $$anon }""" } property("unquote type name into this") = forAll { (T: TypeName) => q"$T.this" ≈ This(T) } property("unquote tree into throw") = forAll { (t: Tree) => q"throw $t" ≈ Throw(t) } property("unquote trees into type apply") = forAll { (fun: TreeIsTerm, types: List[Tree]) => q"$fun[..$types]" ≈ (if (types.nonEmpty) TypeApply(fun, types) else fun) } property("unquote trees into while loop") = forAll { (cond: Tree, body: Tree) => val LabelDef(_, List(), If(cond1, Block(List(body1), Apply(_, List())), Literal(Constant(())))) = q"while($cond) $body" body1 ≈ body && cond1 ≈ cond } property("unquote trees into do while loop") = forAll { (cond: Tree, body: Tree) => val LabelDef(_, List(), Block(List(body1), If(cond1, Apply(_, List()), Literal(Constant(()))))) = q"do $body while($cond)" body1 ≈ body && cond1 ≈ cond } def blockInvariant(quote: Tree, trees: List[Tree]) = quote ≈ (trees match { case Nil => q"{}" case _ :+ last if !last.isTerm => Block(trees, q"()") case head :: Nil => head case init :+ last => Block(init, last) }) property("unquote list of trees into block (1)") = forAll { (trees: List[Tree]) => blockInvariant(q"{ ..$trees }", trees) } property("unquote list of trees into block (2)") = forAll { (trees1: List[Tree], trees2: List[Tree]) => blockInvariant(q"{ ..$trees1 ; ..$trees2 }", trees1 ++ trees2) } property("unquote list of trees into block (3)") = forAll { (trees: List[Tree], tree: Tree) => blockInvariant(q"{ ..$trees; $tree }", trees :+ tree) } property("unquote term into brackets") = test { val a = q"a" assert(q"($a)" ≈ a) } property("unquote terms into tuple") = test { val a1 = q"a1" val a2 = q"a2" val as = List(a1, a2) assert(q"(..$as)" ≈ q"scala.Tuple2($a1, $a2)") assert(q"(a0, ..$as)" ≈ q"scala.Tuple3(a0, $a1, $a2)") } property("unquote empty list into tuple") = test { val empty = List[Tree]() assert(q"(..$empty)" ≈ q"()") } property("unquote single element list into tuple") = test { val xs = q"x" :: Nil assert(q"(..$xs)" ≈ xs.head) } property("function param flags are the same") = test { val xy = q"val x: A" :: q"val y: B" :: Nil assertEqAst(q"(..$xy) => x + y", "(x: A, y: B) => x + y") } property("anonymous functions don't support default values") = test { val x = q"val x: Int = 1" assertThrows[IllegalArgumentException] { q"($x) => x" } } property("assign variable") = test { val v = q"v" val value = q"foo" assertEqAst(q"$v = $value", "v = foo") } property("assign update 1") = test { val v = q"v" val args = q"1" :: q"2" :: Nil val value = q"foo" assertEqAst(q"$v(..$args) = $value", "v(1, 2) = foo") } property("assign update 2") = test { val a = q"v(0)" val value = q"foo" assertEqAst(q"$a = $value", "v(0) = foo") } property("assign or named arg") = test { val assignx = q"x = 1" assertEqAst(q"f($assignx)", "f(x = 1)") } property("fresh names are regenerated at each evaluation") = test { def plusOne = q"{ _ + 1 }" assert(!plusOne.equalsStructure(plusOne)) def whileTrue = q"while(true) false" assert(!whileTrue.equalsStructure(whileTrue)) def withEvidence = q"def foo[T: X]" assert(!withEvidence.equalsStructure(withEvidence)) } property("make sure inference doesn't infer any") = test { val l1 = List(q"foo") val l2 = List(q"bar") val baz = q"baz" assert(q"f(..${l1 ++ l2})" ≈ q"f(foo, bar)") assert(q"f(..${l1 ++ l2}, $baz)" ≈ q"f(foo, bar, baz)") assert(q"f(${if (true) q"a" else q"b"})" ≈ q"f(a)") } property("unquote iterable of non-parametric type") = test { object O extends Iterable[Tree] { def iterator = List(q"foo").iterator } q"f(..$O)" } property("SI-8016") = test { val xs = q"1" :: q"2" :: Nil assertEqAst(q"..$xs", "{1; 2}") assertEqAst(q"{..$xs}", "{1; 2}") } property("SI-6842") = test { val cases: List[Tree] = cq"a => b" :: cq"_ => c" :: Nil assertEqAst(q"1 match { case ..$cases }", "1 match { case a => b case _ => c }") assertEqAst(q"try 1 catch { case ..$cases }", "try 1 catch { case a => b case _ => c }") } property("SI-8009") = test { q"`foo`".asInstanceOf[reflect.internal.SymbolTable#Ident].isBackquoted } property("SI-8148") = test { val q"($a, $b) => $_" = q"_ + _" assert(a.name != b.name) } property("SI-7275 a") = test { val t = q"stat1; stat2" assertEqAst(q"..$t", "{stat1; stat2}") } property("SI-7275 b") = test { def f(t: Tree) = q"..$t" assertEqAst(f(q"stat1; stat2"), "{stat1; stat2}") } property("SI-7275 c1") = test { object O implicit val liftO = Liftable[O.type] { _ => q"foo; bar" } assertEqAst(q"f(..$O)", "f(foo, bar)") } property("SI-7275 c2") = test { object O implicit val liftO = Liftable[O.type] { _ => q"{ foo; bar }; { baz; bax }" } assertEqAst(q"f(...$O)", "f(foo, bar)(baz, bax)") } property("SI-7275 d") = test { val l = q"a; b" :: q"c; d" :: Nil assertEqAst(q"f(...$l)", "f(a, b)(c, d)") val l2: Iterable[Tree] = l assertEqAst(q"f(...$l2)", "f(a, b)(c, d)") } property("SI-7275 e") = test { val t = q"{ a; b }; { c; d }" assertEqAst(q"f(...$t)", "f(a, b)(c, d)") } property("SI-7275 e2") = test { val t = q"{ a; b }; c; d" assertEqAst(q"f(...$t)", "f(a, b)(c)(d)") } property("remove synthetic unit") = test { val q"{ ..$stats1 }" = q"{ def x = 2 }" assert(stats1 ≈ List(q"def x = 2")) val q"{ ..$stats2 }" = q"{ class X }" assert(stats2 ≈ List(q"class X")) val q"{ ..$stats3 }" = q"{ type X = Int }" assert(stats3 ≈ List(q"type X = Int")) val q"{ ..$stats4 }" = q"{ val x = 2 }" assert(stats4 ≈ List(q"val x = 2")) } property("don't remove user-defined unit") = test { val q"{ ..$stats }" = q"{ def x = 2; () }" assert(stats ≈ List(q"def x = 2", q"()")) } property("empty-tree is not a block") = test { assertThrows[MatchError] { val q"{ ..$stats1 }" = q" " } } property("empty block is synthetic unit") = test { val q"()" = q"{}" val q"{..$stats}" = q"{}" assert(stats.isEmpty) assertEqAst(q"{..$stats}", "{}") assertEqAst(q"{..$stats}", "()") } property("consistent variable order") = test { val q"$a = $b = $c = $d = $e = $f = $g = $h = $k = $l" = q"a = b = c = d = e = f = g = h = k = l" assert(a ≈ q"a" && b ≈ q"b" && c ≈ q"c" && d ≈ q"d" && e ≈ q"e" && g ≈ q"g" && h ≈ q"h" && k ≈ q"k" && l ≈ q"l") } property("SI-8385 a") = test { assertEqAst(q"(foo.x = 1)(2)", "(foo.x = 1)(2)") } property("SI-8385 b") = test { assertEqAst(q"(() => ())()", "(() => ())()") } property("match scrutinee may not be empty") = test { assertThrows[IllegalArgumentException] { val scrutinee = q"" val cases = List(cq"_ =>") q"$scrutinee match { case ..$cases }" } } property("construct partial function") = test { val cases = List(cq"a => b", cq"c => d") assertEqAst(q"{ case ..$cases }", "{ case a => b case c => d }") } property("SI-8609 a") = test { val q1 = q"val x = 1" val q2 = q"..$q1; val y = 2" assert(q2 ≈ q"{ val x = 1; val y = 2 }") } property("SI-8609 b") = test { val q1 = q"import foo.bar" val q2 = q"..$q1; val y = 2" assert(q2 ≈ q"{ import foo.bar; val y = 2 }") } }