8191842: JShell: Inferred type information is lost when assigning types to a \"var\"
Summary: For vars, upgrading all anonymous classes to member classes; stripping intersection types from fields before writing.
Reviewed-by: rfield
/*
* Copyright (c) 2015, 2018, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
/*
* @test
* @bug 8144903 8177466 8191842
* @summary Tests for EvaluationState.variables
* @library /tools/lib
* @build Compiler KullaTesting TestingInputStream ExpectedDiagnostic
* @run testng VariablesTest
*/
import java.nio.file.Path;
import java.nio.file.Paths;
import java.util.List;
import javax.tools.Diagnostic;
import jdk.jshell.Snippet;
import jdk.jshell.TypeDeclSnippet;
import jdk.jshell.VarSnippet;
import jdk.jshell.Snippet.SubKind;
import jdk.jshell.SnippetEvent;
import org.testng.annotations.BeforeMethod;
import org.testng.annotations.Test;
import static java.util.stream.Collectors.toList;
import static jdk.jshell.Snippet.Status.*;
import static jdk.jshell.Snippet.SubKind.VAR_DECLARATION_SUBKIND;
import static org.testng.Assert.assertEquals;
import static org.testng.Assert.fail;
@Test
public class VariablesTest extends KullaTesting {
public void noVariables() {
assertNumberOfActiveVariables(0);
}
private void badVarValue(VarSnippet key) {
try {
getState().varValue(key);
fail("Expected exception for: " + key.source());
} catch (IllegalArgumentException e) {
// ok
}
}
public void testVarValue1() {
VarSnippet v1 = varKey(assertEval("und1 a;", added(RECOVERABLE_NOT_DEFINED)));
badVarValue(v1);
VarSnippet v2 = varKey(assertEval("und2 a;",
ste(MAIN_SNIPPET, RECOVERABLE_NOT_DEFINED, RECOVERABLE_NOT_DEFINED, false, null),
ste(v1, RECOVERABLE_NOT_DEFINED, OVERWRITTEN, false, MAIN_SNIPPET)));
badVarValue(v2);
TypeDeclSnippet und = classKey(assertEval("class und2 {}",
added(VALID),
ste(v2, RECOVERABLE_NOT_DEFINED, VALID, true, MAIN_SNIPPET)));
assertVarValue(v2, "null");
assertDrop(und,
DiagCheck.DIAG_OK,
DiagCheck.DIAG_ERROR,
ste(und, VALID, DROPPED, true, null),
ste(v2, VALID, RECOVERABLE_NOT_DEFINED, true, und));
badVarValue(v1);
badVarValue(v2);
}
public void testVarValue2() {
VarSnippet v1 = (VarSnippet) assertDeclareFail("int a = 0.0;", "compiler.err.prob.found.req");
badVarValue(v1);
VarSnippet v2 = varKey(assertEval("int a = 0;", added(VALID)));
assertDrop(v2, ste(MAIN_SNIPPET, VALID, DROPPED, true, null));
badVarValue(v2);
}
public void testSignature1() {
VarSnippet v1 = varKey(assertEval("und1 a;", added(RECOVERABLE_NOT_DEFINED)));
assertVariableDeclSnippet(v1, "a", "und1", RECOVERABLE_NOT_DEFINED, VAR_DECLARATION_SUBKIND, 1, 0);
VarSnippet v2 = varKey(assertEval("und2 a;",
ste(MAIN_SNIPPET, RECOVERABLE_NOT_DEFINED, RECOVERABLE_NOT_DEFINED, false, null),
ste(v1, RECOVERABLE_NOT_DEFINED, OVERWRITTEN, false, MAIN_SNIPPET)));
assertVariableDeclSnippet(v2, "a", "und2", RECOVERABLE_NOT_DEFINED, VAR_DECLARATION_SUBKIND, 1, 0);
TypeDeclSnippet und = classKey(assertEval("class und2 {}",
added(VALID),
ste(v2, RECOVERABLE_NOT_DEFINED, VALID, true, MAIN_SNIPPET)));
assertVariableDeclSnippet(v2, "a", "und2", VALID, VAR_DECLARATION_SUBKIND, 0, 0);
assertDrop(und,
DiagCheck.DIAG_OK,
DiagCheck.DIAG_ERROR,
ste(und, VALID, DROPPED, true, null),
ste(v2, VALID, RECOVERABLE_NOT_DEFINED, true, und));
assertVariableDeclSnippet(v2, "a", "und2", RECOVERABLE_NOT_DEFINED, VAR_DECLARATION_SUBKIND, 1, 0);
}
public void testSignature2() {
VarSnippet v1 = (VarSnippet) assertDeclareFail("int a = 0.0;", "compiler.err.prob.found.req");
assertVariableDeclSnippet(v1, "a", "int", REJECTED, SubKind.VAR_DECLARATION_WITH_INITIALIZER_SUBKIND, 0, 1);
VarSnippet v2 = varKey(assertEval("int a = 0;",
added(VALID)));
assertVariableDeclSnippet(v2, "a", "int", VALID, SubKind.VAR_DECLARATION_WITH_INITIALIZER_SUBKIND, 0, 0);
assertDrop(v2, ste(MAIN_SNIPPET, VALID, DROPPED, true, null));
assertVariableDeclSnippet(v2, "a", "int", DROPPED, SubKind.VAR_DECLARATION_WITH_INITIALIZER_SUBKIND, 0, 0);
}
public void variables() {
VarSnippet snx = varKey(assertEval("int x = 10;"));
VarSnippet sny = varKey(assertEval("String y = \"hi\";"));
VarSnippet snz = varKey(assertEval("long z;"));
assertVariables(variable("int", "x"), variable("String", "y"), variable("long", "z"));
assertVarValue(snx, "10");
assertVarValue(sny, "\"hi\"");
assertVarValue(snz, "0");
assertActiveKeys();
}
public void variablesArray() {
VarSnippet sn = varKey(assertEval("int[] a = new int[12];"));
assertEquals(sn.typeName(), "int[]");
assertEval("int len = a.length;", "12");
assertVariables(variable("int[]", "a"), variable("int", "len"));
assertActiveKeys();
}
public void variablesArrayOld() {
VarSnippet sn = varKey(assertEval("int a[] = new int[12];"));
assertEquals(sn.typeName(), "int[]");
assertEval("int len = a.length;", "12");
assertVariables(variable("int[]", "a"), variable("int", "len"));
assertActiveKeys();
}
public void variablesRedefinition() {
Snippet x = varKey(assertEval("int x = 10;"));
Snippet y = varKey(assertEval("String y = \"\";", added(VALID)));
assertVariables(variable("int", "x"), variable("String", "y"));
assertActiveKeys();
assertEval("long x;",
ste(MAIN_SNIPPET, VALID, VALID, true, null),
ste(x, VALID, OVERWRITTEN, false, MAIN_SNIPPET));
assertVariables(variable("long", "x"), variable("String", "y"));
assertActiveKeys();
assertEval("String y;",
ste(MAIN_SNIPPET, VALID, VALID, false, null),
ste(y, VALID, OVERWRITTEN, false, MAIN_SNIPPET));
assertVariables(variable("long", "x"), variable("String", "y"));
assertActiveKeys();
}
public void variablesTemporary() {
assertEval("int $1 = 10;", added(VALID));
assertEval("2 * $1;", added(VALID));
assertVariables(variable("int", "$1"), variable("int", "$2"));
assertActiveKeys();
assertEval("String y;", added(VALID));
assertVariables(variable("int", "$1"), variable("int", "$2"), variable("String", "y"));
assertActiveKeys();
}
public void variablesTemporaryNull() {
assertEval("null;", added(VALID));
assertVariables(variable("Object", "$1"));
assertEval("(String) null;", added(VALID));
assertVariables(variable("Object", "$1"), variable("String", "$2"));
assertActiveKeys();
assertEval("\"\";", added(VALID));
assertVariables(
variable("Object", "$1"),
variable("String", "$2"),
variable("String", "$3"));
assertActiveKeys();
}
public void variablesTemporaryArrayOfCapturedType() {
assertEval("class Test<T> { T[][] get() { return null; } }", added(VALID));
assertEval("Test<? extends String> test() { return new Test<>(); }", added(VALID));
assertEval("test().get()", added(VALID));
assertVariables(variable("String[][]", "$1"));
assertEval("\"\".getClass().getEnumConstants()", added(VALID));
assertVariables(variable("String[][]", "$1"), variable("String[]", "$2"));
assertActiveKeys();
}
public void variablesClassReplace() {
assertEval("import java.util.*;", added(VALID));
Snippet var = varKey(assertEval("List<Integer> list = new ArrayList<>();", "[]",
added(VALID)));
assertVariables(variable("List<Integer>", "list"));
assertEval("class List {}",
DiagCheck.DIAG_OK,
DiagCheck.DIAG_ERROR,
added(VALID),
ste(var, VALID, RECOVERABLE_NOT_DEFINED, true, MAIN_SNIPPET));
assertVariables();
assertEval("List list = new List();",
DiagCheck.DIAG_OK, DiagCheck.DIAG_IGNORE,
ste(MAIN_SNIPPET, RECOVERABLE_NOT_DEFINED, VALID, true, null),
ste(var, RECOVERABLE_NOT_DEFINED, OVERWRITTEN, false, MAIN_SNIPPET));
assertVariables(variable("List", "list"));
assertActiveKeys();
}
public void variablesErrors() {
assertDeclareFail("String;", new ExpectedDiagnostic("compiler.err.cant.resolve.location", 0, 6, 0, -1, -1, Diagnostic.Kind.ERROR));
assertNumberOfActiveVariables(0);
assertActiveKeys();
}
public void variablesUnresolvedActiveFailed() {
VarSnippet key = varKey(assertEval("und x;", added(RECOVERABLE_NOT_DEFINED)));
assertVariableDeclSnippet(key, "x", "und", RECOVERABLE_NOT_DEFINED, VAR_DECLARATION_SUBKIND, 1, 0);
assertUnresolvedDependencies1(key, RECOVERABLE_NOT_DEFINED, "class und");
assertNumberOfActiveVariables(1);
assertActiveKeys();
}
public void variablesUnresolvedError() {
assertDeclareFail("und y = null;", new ExpectedDiagnostic("compiler.err.cant.resolve.location", 0, 3, 0, -1, -1, Diagnostic.Kind.ERROR));
assertNumberOfActiveVariables(0);
assertActiveKeys();
}
public void variablesMultiByteCharacterType() {
assertEval("class \u3042 {}");
assertEval("\u3042 \u3042 = null;", added(VALID));
assertVariables(variable("\u3042", "\u3042"));
assertEval("new \u3042()", added(VALID));
assertVariables(variable("\u3042", "\u3042"), variable("\u3042", "$1"));
assertEval("class \u3042\u3044\u3046\u3048\u304a {}");
assertEval("\u3042\u3044\u3046\u3048\u304a \u3042\u3044\u3046\u3048\u304a = null;", added(VALID));
assertVariables(variable("\u3042", "\u3042"), variable("\u3042", "$1"),
variable("\u3042\u3044\u3046\u3048\u304a", "\u3042\u3044\u3046\u3048\u304a"));
assertEval("new \u3042\u3044\u3046\u3048\u304a();");
assertVariables(variable("\u3042", "\u3042"), variable("\u3042", "$1"),
variable("\u3042\u3044\u3046\u3048\u304a", "\u3042\u3044\u3046\u3048\u304a"),
variable("\u3042\u3044\u3046\u3048\u304a", "$2"));
assertActiveKeys();
}
@Test(enabled = false) // TODO 8081689
public void methodVariablesAreNotVisible() {
Snippet foo = varKey(assertEval("int foo() {" +
"int x = 10;" +
"int y = 2 * x;" +
"return x * y;" +
"}", added(VALID)));
assertNumberOfActiveVariables(0);
assertActiveKeys();
assertEval("int x = 10;", "10");
assertEval("int foo() {" +
"int y = 2 * x;" +
"return x * y;" +
"}",
ste(foo, VALID, VALID, false, null));
assertVariables(variable("int", "x"));
assertActiveKeys();
assertEval("foo();", "200");
assertVariables(variable("int", "x"), variable("int", "$1"));
assertActiveKeys();
}
@Test(enabled = false) // TODO 8081689
public void classFieldsAreNotVisible() {
Snippet key = classKey(assertEval("class clazz {" +
"int x = 10;" +
"int y = 2 * x;" +
"}"));
assertNumberOfActiveVariables(0);
assertEval("int x = 10;", "10");
assertActiveKeys();
assertEval(
"class clazz {" +
"int y = 2 * x;" +
"}",
ste(key, VALID, VALID, true, null));
assertVariables(variable("int", "x"));
assertEval("new clazz().y;", "20");
assertVariables(variable("int", "x"), variable("int", "$1"));
assertActiveKeys();
}
public void multiVariables() {
List<SnippetEvent> abc = assertEval("int a, b, c = 10;",
DiagCheck.DIAG_OK, DiagCheck.DIAG_OK,
chain(added(VALID)),
chain(added(VALID)),
chain(added(VALID)));
Snippet a = abc.get(0).snippet();
Snippet b = abc.get(1).snippet();
Snippet c = abc.get(2).snippet();
assertVariables(variable("int", "a"), variable("int", "b"), variable("int", "c"));
assertEval("double a = 1.4, b = 8.8;", DiagCheck.DIAG_OK, DiagCheck.DIAG_OK,
chain(ste(MAIN_SNIPPET, VALID, VALID, true, null), ste(a, VALID, OVERWRITTEN, false, MAIN_SNIPPET)),
chain(ste(MAIN_SNIPPET, VALID, VALID, true, null), ste(b, VALID, OVERWRITTEN, false, MAIN_SNIPPET)));
assertVariables(variable("double", "a"), variable("double", "b"), variable("int", "c"));
assertEval("double c = a + b;",
ste(MAIN_SNIPPET, VALID, VALID, true, null),
ste(c, VALID, OVERWRITTEN, false, MAIN_SNIPPET));
assertVariables(variable("double", "a"), variable("double", "b"), variable("double", "c"));
assertActiveKeys();
}
public void syntheticVariables() {
assertEval("assert false;");
assertNumberOfActiveVariables(0);
assertActiveKeys();
}
public void undefinedReplaceVariable() {
Snippet key = varKey(assertEval("int d = 234;", "234"));
assertVariables(variable("int", "d"));
String src = "undefined d;";
Snippet undefKey = varKey(assertEval(src,
ste(MAIN_SNIPPET, VALID, RECOVERABLE_NOT_DEFINED, true, null),
ste(key, VALID, OVERWRITTEN, false, MAIN_SNIPPET)));
//assertEquals(getState().source(snippet), src);
//assertEquals(snippet, undefKey);
assertEquals(getState().status(undefKey), RECOVERABLE_NOT_DEFINED);
List<String> unr = getState().unresolvedDependencies((VarSnippet) undefKey).collect(toList());;
assertEquals(unr.size(), 1);
assertEquals(unr.get(0), "class undefined");
assertVariables(variable("undefined", "d"));
}
public void lvti() {
assertEval("var d = 234;", "234");
assertEval("class Test<T> { T[][] get() { return null; } }", added(VALID));
assertEval("Test<? extends String> test() { return new Test<>(); }", added(VALID));
assertEval("var t = test().get();", added(VALID));
assertEval("<Z extends Runnable & CharSequence> Z get1() { return null; }", added(VALID));
assertEval("var i1 = get1();", added(VALID));
assertEval("void t1() { i1.run(); i1.length(); }", added(VALID));
assertEval("i1 = 1;", DiagCheck.DIAG_ERROR, DiagCheck.DIAG_OK, ste(MAIN_SNIPPET, NONEXISTENT, REJECTED, false, null));
assertEval("<Z extends Number & CharSequence> Z get2() { return null; }", added(VALID));
assertEval("var i2 = get2();", added(VALID));
assertEval("void t2() { i2.length(); }", added(VALID));
assertEval("var r1 = new Runnable() { public void run() { } public String get() { return \"good\"; } };", added(VALID));
assertEval("Runnable r2 = r1;");
assertEval("r1.get()", "\"good\"");
assertEval("var v = r1.get();", "\"good\"");
assertEval("var r3 = new java.util.ArrayList<String>(42) { public String get() { return \"good\"; } };", added(VALID));
assertEval("r3.get()", "\"good\"");
assertEval("class O { public class Inner { public String test() { return \"good\"; } } }");
assertEval("var r4 = new O().new Inner() { public String get() { return \"good\"; } };");
assertEval("r4.get()", "\"good\"");
assertEval("class O2 { public class Inner { public Inner(int i) { } public String test() { return \"good\"; } } }");
assertEval("var r5 = new O2().new Inner(1) { public String get() { return \"good\"; } };");
assertEval("r5.get()", "\"good\"");
assertEval("<Z> Z identity(Z z) { return z; }");
assertEval("var r6 = identity(new Object() { String s = \"good\"; });");
assertEval("r6.s", "\"good\"");
assertEval("interface I<B, C> { C get(B b); }");
assertEval("<A, B, C> C cascade(A a, I<A, B> c1, I<B, C> c2) { return c2.get(c1.get(a)); }");
assertEval("var r7 = cascade(\"good\", a -> new Object() { String s = a; }, b -> new java.util.ArrayList<String>(5) { String s = b.s; });");
assertEval("r7.s", "\"good\"");
assertEval("var r8 = cascade(\"good\", a -> new Object() { String s = a; public String getS() { return s; } }, b -> new java.util.ArrayList<String>(5) { String s = b.getS(); public String getS() { return s; } });");
assertEval("r8.getS()", "\"good\"");
assertEval("var r9 = new Object() { class T { class Inner { public String g() { return outer(); } } public String outer() { return \"good\"; } public String test() { return new Inner() {}.g(); } } public String test() { return new T().test(); } };");
assertEval("r9.test()", "\"good\"");
assertEval("var nested1 = new Object() { class N { public String get() { return \"good\"; } } };");
assertEval("nested1.new N().get()", "\"good\"");
assertEval("var nested2 = cascade(\"good\", a -> new Object() { abstract class G { abstract String g(); } G g = new G() { String g() { return a; } }; }, b -> new java.util.ArrayList<String>(5) { String s = b.g.g(); });");
assertEval("nested2.s", "\"good\"");
assertEval("<A, B> B convert(A a, I<A, B> c) { return c.get(a); }");
assertEval("var r10 = convert(\"good\", a -> new api.C(12) { public String val = \"\" + i + s + l + a; } );");
assertEval("r10.val", "\"12empty[empty]good\"");
assertEval("var r11 = convert(\"good\", a -> new api.C(\"a\") { public String val = \"\" + i + s + l + a; } );");
assertEval("r11.val", "\"3a[empty]good\"");
assertEval("import api.C;");
assertEval("var r12 = convert(\"good\", a -> new C(java.util.List.of(\"a\")) { public String val = \"\" + i + s + l + a; } );");
assertEval("r12.val", "\"4empty[a]good\"");
assertEval("var r13 = convert(\"good\", a -> new api.G<String>(java.util.List.of(\"b\")) { public String val = \"\" + l + a; } );");
assertEval("r13.val", "\"[b]good\"");
assertEval("var r14 = convert(\"good\", a -> new api.J<String>() { public java.util.List<String> get() { return java.util.List.of(a, \"c\"); } } );");
assertEval("r14.get()", "[good, c]");
assertEval("var r15a = new java.util.ArrayList<String>();");
assertEval("r15a.add(\"a\");");
assertEval("var r15b = r15a.get(0);");
assertEval("r15b", "\"a\"");
}
public void test8191842() {
assertEval("import java.util.stream.*;");
assertEval("var list = Stream.of(1, 2, 3).map(j -> new Object() { int i = j; }).collect(Collectors.toList());");
assertEval("list.stream().map(a -> String.valueOf(a.i)).collect(Collectors.joining(\", \"));", "\"1, 2, 3\"");
}
public void lvtiRecompileDependentsWithIntersectionTypes() {
assertEval("<Z extends Runnable & CharSequence> Z get1() { return null; }", added(VALID));
VarSnippet var = varKey(assertEval("var i1 = get1();", added(VALID)));
assertEval("import java.util.stream.*;", added(VALID),
ste(var, VALID, VALID, true, MAIN_SNIPPET));
assertEval("void t1() { i1.run(); i1.length(); }", added(VALID));
}
public void arrayInit() {
assertEval("int[] d = {1, 2, 3};");
}
public void testAnonymousVar() {
assertEval("new Object() { public String get() { return \"a\"; } }");
assertEval("$1.get()", "\"a\"");
}
public void testIntersectionVar() {
assertEval("<Z extends Runnable & CharSequence> Z get() { return null; }", added(VALID));
assertEval("get();", added(VALID));
assertEval("void t1() { $1.run(); $1.length(); }", added(VALID));
}
public void multipleCaptures() {
assertEval("class D { D(int foo, String bar) { this.foo = foo; this.bar = bar; } int foo; String bar; } ");
assertEval("var d = new D(34, \"hi\") { String z = foo + bar; };");
assertEval("d.z", "\"34hi\"");
}
public void multipleAnonymous() {
VarSnippet v1 = varKey(assertEval("new Object() { public int i = 42; public int i1 = i; public int m1() { return i1; } };"));
VarSnippet v2 = varKey(assertEval("new Object() { public int i = 42; public int i2 = i; public int m2() { return i2; } };"));
assertEval(v1.name() + ".i", "42");
assertEval(v1.name() + ".i1", "42");
assertEval(v1.name() + ".m1()", "42");
assertDeclareFail(v1.name() + ".i2",
new ExpectedDiagnostic("compiler.err.cant.resolve.location", 0, 5, 2,
-1, -1, Diagnostic.Kind.ERROR));
assertEval(v2.name() + ".i", "42");
assertEval(v2.name() + ".i2", "42");
assertEval(v2.name() + ".m2()", "42");
assertDeclareFail(v2.name() + ".i1",
new ExpectedDiagnostic("compiler.err.cant.resolve.location", 0, 5, 2,
-1, -1, Diagnostic.Kind.ERROR));
}
public void displayName() {
assertVarDisplayName("var v1 = 234;", "int");
assertVarDisplayName("var v2 = new int[] {234};", "int[]");
assertEval("<Z extends Runnable & CharSequence> Z get() { return null; }", added(VALID));
assertVarDisplayName("var v3 = get();", "CharSequence&Runnable");
assertVarDisplayName("var v4a = new java.util.ArrayList<String>();", "java.util.ArrayList<String>");
assertEval("v4a.add(\"a\");");
assertVarDisplayName("var v4b = v4a.get(0);", "String");
assertVarDisplayName("var v5 = new Object() { };", "<anonymous class extending Object>");
assertVarDisplayName("var v6 = new Runnable() { public void run() { } };", "<anonymous class implementing Runnable>");
}
private void assertVarDisplayName(String var, String typeName) {
assertEquals(varKey(assertEval(var)).typeName(), typeName);
}
@BeforeMethod
@Override
public void setUp() {
Path path = Paths.get("cp");
Compiler compiler = new Compiler();
compiler.compile(path,
"package api;\n" +
"\n" +
"import java.util.List;\n" +
"\n" +
"public class C {\n" +
" public int i;\n" +
" public String s;\n" +
" public List<String> l;\n" +
" public C(int i) {\n" +
" this.i = i;\n" +
" this.s = \"empty\";\n" +
" this.l = List.of(\"empty\");\n" +
" }\n" +
" public C(String s) {\n" +
" this.i = 3;\n" +
" this.s = s;\n" +
" this.l = List.of(\"empty\");\n" +
" }\n" +
" public C(List<String> l) {\n" +
" this.i = 4;\n" +
" this.s = \"empty\";\n" +
" this.l = l;\n" +
" }\n" +
"}\n",
"package api;\n" +
"\n" +
"import java.util.List;\n" +
"\n" +
"public class G<T> {\n" +
" public List<T> l;\n" +
" public G(List<T> l) {\n" +
" this.l = l;\n" +
" }\n" +
"}\n",
"package api;\n" +
"\n" +
"import java.util.List;\n" +
"\n" +
"public interface J<T> {\n" +
" public List<T> get();\n" +
"}\n");
String tpath = compiler.getPath(path).toString();
setUp(b -> b
.remoteVMOptions("--class-path", tpath)
.compilerOptions("--class-path", tpath));
}
}