| Quellcodebibliothek Statistik Leitseite products/Sources/formale Sprachen/Java/Openjdk/test/jdk/java/lang/invoke/ (Sun/Oracle ©) Datei vom 13.11.2022 mit Größe 61 kB |
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Quelle LoopCombinatorTest.java Sprache: JAVA |
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/* * Copyright (c) 2015, 2016, 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. Oracle designates this * particular file as subject to the "Classpath" exception as provided * by Oracle in the LICENSE file that accompanied this code. * * 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 8139885 * @bug 8150635 * @bug 8150956 * @bug 8150957 * @bug 8151179 * @bug 8152667 * @bug 8153637 * @bug 8154751 * @bug 8154754 * @bug 8167974 * @run testng/othervm -ea -esa test.java.lang.invoke.LoopCombinatorTest */ package test.java.lang.invoke; import java.lang.invoke.MethodHandle; import java.lang.invoke.MethodHandles; import java.lang.invoke.MethodHandles.Lookup; import java.lang.invoke.MethodType; import java.util.*; import static java.lang.invoke.MethodType.methodType; import static org.testng.AssertJUnit.*; import org.testng.annotations.*; /** * Tests for the loop combinators introduced in JEP 274. */ public class LoopCombinatorTest { static final Lookup LOOKUP = MethodHandles.lookup(); @Test public static void testLoopFac() throws Throwable { MethodHandle[] counterClause = new MethodHandle[]{Fac.MH_zero, Fac.MH_inc}; MethodHandle[] accumulatorClause = new MethodHandle[]{Fac.MH_one, Fac.MH_mult, Fac.MH_ MethodHandle loop = MethodHandles.loop(counterClause, accumulatorClause); assertEquals(Fac.MT_fac, loop.type()); assertEquals(120, loop.invoke(5)); } @Test public static void testLoopFacNullInit() throws Throwable { // null initializer for counter, should initialize to 0 MethodHandle[] counterClause = new MethodHandle[]{null, Fac.MH_inc}; MethodHandle[] accumulatorClause = new MethodHandle[]{Fac.MH_one, Fac.MH_mult, Fac.MH_ MethodHandle loop = MethodHandles.loop(counterClause, accumulatorClause); assertEquals(Fac.MT_fac, loop.type()); assertEquals(120, loop.invoke(5)); } @Test public static void testLoopNullInit() throws Throwable { // null initializer for counter, should initialize to 0, one-clause loop MethodHandle[] counterClause = new MethodHandle[]{null, Loop.MH_inc, Loop.MH_pred, Loop MethodHandle loop = MethodHandles.loop(counterClause); assertEquals(Loop.MT_loop, loop.type()); assertEquals(10, loop.invoke(10)); } @Test public static void testLoopVoid1() throws Throwable { // construct a post-checked loop that only does one iteration and has a void body and void local s MethodHandle loop = MethodHandles.loop(new MethodHandle[]{Empty.MH_f, Empty.MH_f, Empt assertEquals(MethodType.methodType(void.class), loop.type()); loop.invoke(); } @Test public static void testLoopVoid2() throws Throwable { // construct a post-checked loop that only does one iteration and has a void body and void local s // initialized implicitly from the step type MethodHandle loop = MethodHandles.loop(new MethodHandle[]{null, Empty.MH_f, Empty.MH_p assertEquals(MethodType.methodType(void.class), loop.type()); loop.invoke(); } @Test public static void testLoopVoid3() throws Throwable { // construct a post-checked loop that only does one iteration and has a void body and void local s // and that has a void finalizer MethodHandle loop = MethodHandles.loop(new MethodHandle[]{null, Empty.MH_f, Empty.MH_p assertEquals(MethodType.methodType(void.class), loop.type()); loop.invoke(); } @Test public static void testLoopFacWithVoidState() throws Throwable { // like testLoopFac, but with additional void state that outputs a dot MethodHandle[] counterClause = new MethodHandle[]{Fac.MH_zero, Fac.MH_inc}; MethodHandle[] accumulatorClause = new MethodHandle[]{Fac.MH_one, Fac.MH_mult, Fac.MH_ MethodHandle[] dotClause = new MethodHandle[]{null, Fac.MH_dot}; MethodHandle loop = MethodHandles.loop(counterClause, accumulatorClause, dotClause); assertEquals(Fac.MT_fac, loop.type()); assertEquals(120, loop.invoke(5)); } @Test public static void testLoopVoidInt() throws Throwable { // construct a post-checked loop that only does one iteration and has a void body and void local s // and that returns a constant MethodHandle loop = MethodHandles.loop(new MethodHandle[]{null, Empty.MH_f, Empty.MH_p assertEquals(MethodType.methodType(int.class), loop.type()); assertEquals(23, loop.invoke()); } @Test public static void testLoopWithVirtuals() throws Throwable { // construct a loop (to calculate factorial) that uses a mix of static and virtual methods MethodHandle[] counterClause = new MethodHandle[]{null, LoopWithVirtuals.permute(Loop MethodHandle[] accumulatorClause = new MethodHandle[]{ // init function must indicate the loop arguments (there is no other means to determine them) MethodHandles.dropArguments(LoopWithVirtuals.MH_one, 0, LoopWithVirtuals.class), LoopWithVirtuals.permute(LoopWithVirtuals.MH_mult), LoopWithVirtuals.permute(LoopWithVirtuals.MH_pred), LoopWithVirtuals.permute(LoopWithVirtuals.MH_fin) }; MethodHandle loop = MethodHandles.loop(counterClause, accumulatorClause); assertEquals(LoopWithVirtuals.MT_loop, loop.type()); assertEquals(120, loop.invoke(new LoopWithVirtuals(), 5)); } @Test public static void testLoopOmitPred() throws Throwable { // construct a loop to calculate factorial that omits a predicate MethodHandle[] counterClause = new MethodHandle[]{null, Fac.MH_inc, null, Fac.MH_fin}; MethodHandle[] accumulatorClause = new MethodHandle[]{Fac.MH_one, Fac.MH_mult, Fac.MH_ MethodHandle loop = MethodHandles.loop(counterClause, accumulatorClause); assertEquals(Fac.MT_fac, loop.type()); assertEquals(120, loop.invoke(5)); } @DataProvider static Object[][] negativeTestData() { MethodHandle i0 = MethodHandles.constant(int.class, 0); MethodHandle ii = MethodHandles.dropArguments(i0, 0, int.class, int.class); MethodHandle id = MethodHandles.dropArguments(i0, 0, int.class, double.class); MethodHandle i3 = MethodHandles.dropArguments(i0, 0, int.class, int.class, int.class); List<MethodHandle> inits = Arrays.asList(ii, id, i3); List<Class<?>> ints3 = Arrays.asList(int.class, int.class, int.class); List<Class<?>> ints4 = Arrays.asList(int.class, int.class, int.class, int.class); List<MethodHandle> finis = Arrays.asList(Fac.MH_fin, Fac.MH_inc, Counted.MH_step); List<MethodHandle> preds1 = Arrays.asList(null, null, null); List<MethodHandle> preds2 = Arrays.asList(null, Fac.MH_fin, null); MethodHandle eek = MethodHandles.dropArguments(i0, 0, int.class, int.class, double.clas List<MethodHandle> nesteps = Arrays.asList(Fac.MH_inc, eek, Fac.MH_dot); List<MethodHandle> nepreds = Arrays.asList(null, Fac.MH_pred, null); List<MethodHandle> nefinis = Arrays.asList(null, Fac.MH_fin, null); List<MethodHandle> lvsteps = Arrays.asList(LoopWithVirtuals.MH_inc, LoopWithVirtuals.M List<MethodHandle> lvpreds = Arrays.asList(null, LoopWithVirtuals.MH_pred); List<MethodHandle> lvfinis = Arrays.asList(null, LoopWithVirtuals.MH_fin); return new Object[][] { {null, "null or no clauses passed"}, {new MethodHandle[][]{}, "null or no clauses passed"}, {new MethodHandle[][]{{null, Fac.MH_inc}, {Fac.MH_one, null, Fac.MH_mult, Fac.MH_pred, "All loop clauses must be represented as MethodHandle arrays with at most 4 elem {new MethodHandle[][]{{null, Fac.MH_inc}, null}, "null clauses are not allowed"}, {new MethodHandle[][]{{Fac.MH_zero, Fac.MH_dot}}, "clause 0: init and step return types must match: int != void"}, {new MethodHandle[][]{{ii}, {id}, {i3}}, "found non-effectively identical init parameter type lists: " + inits + " (common suffix: " + ints3 + ")"}, {new MethodHandle[][]{{null, Fac.MH_inc, null, Fac.MH_fin}, {null, Fac.MH_inc, null, Fac {null, Counted.MH_start, null, Counted.MH_step}}, "found non-identical finalizer return types: " + finis + " (return type: int)"}, {new MethodHandle[][]{{Fac.MH_zero, Fac.MH_inc}, {Fac.MH_one, Fac.MH_mult, null, Fac.M {null, Fac.MH_dot}}, "no predicate found: " + preds1}, {new MethodHandle[][]{{Fac.MH_zero, Fac.MH_inc}, {Fac.MH_one, Fac.MH_mult, Fac.MH_fin {null, Fac.MH_dot}}, "predicates must have boolean return type: " + preds2}, {new MethodHandle[][]{{Fac.MH_zero, Fac.MH_inc}, {Fac.MH_one, eek, Fac.MH_pred, Fac.MH {null, Fac.MH_dot}}, "found non-effectively identical parameter type lists:\nstep: " + nesteps + "\npred: " + nepreds + "\nfini: " + nefinis + " (common parameter sequence: " + ints3 + ")"} {new MethodHandle[][]{{null, LoopWithVirtuals.MH_inc}, {LoopWithVirtuals.MH_one, LoopWithVirtuals.MH_mult, LoopWithVirtuals.MH_pred, LoopW "found non-effectively identical parameter type lists:\nstep: " + lvsteps + "\npred: " + lvpreds + "\nfini: " + lvfinis + " (common parameter sequence: " + ints4 + ")"} }; } static final MethodHandle MH_loop; static { try { MH_loop = LOOKUP.findStatic(MethodHandles.class, "loop", methodType(MethodHandle.cla } catch (NoSuchMethodException | IllegalAccessException e) { throw new ExceptionInInitializerError(e); } } @Test(dataProvider = "negativeTestData") public static void testLoopNegative(MethodHandle[][] clauses, String expectedMessage) t boolean caught = false; try { MH_loop.invokeWithArguments((Object[]) clauses); } catch (IllegalArgumentException iae) { assertEquals(expectedMessage, iae.getMessage()); caught = true; } assertTrue(caught); } @Test(dataProvider = "whileLoopTestData") public static void testWhileLoop(MethodHandle MH_zero, MethodHandle MH_pred, MethodHandle MH_step, String messageOrNull) throws Throwable { // int i = 0; while (i < limit) { ++i; } return i; => limit try { MethodHandle loop = MethodHandles.whileLoop(MH_zero, MH_pred, MH_step); assert messageOrNull == null; if (MH_step.type().equals(While.MH_step.type())) assertEquals(While.MT_while, loop.type()); assertEquals(MH_step.type().dropParameterTypes(0, 1), loop.type()); while (loop.type().parameterCount() > 1) loop = snip(loop); assertEquals(23, loop.invoke(23)); } catch (IllegalArgumentException iae) { assert messageOrNull != null; assertEqualsFIXME(messageOrNull, iae.getMessage()); } } static void assertEqualsFIXME(String expect, String actual) { if (!expect.equals(actual)) { // just issue a warning System.out.println("*** "+actual+"\n != "+expect); } } @DataProvider static Object[][] whileLoopTestData() { MethodHandle zeroI = While.MH_zero, zeroX = snip(zeroI), zeroIB = slap(zeroI, byte.class), predII = While.MH_pred, predIX = snip(predII), predIIB = slap(predII, byte.class), stepII = While.MH_step, stepIX = snip(stepII), stepIIB = slap(stepII, byte.class) ; return new Object[][] { // normal while loop clauses, perhaps with effectively-identical reductions {zeroI, predII, stepII, null}, {zeroX, predII, stepII, null}, {null, predII, stepII, null}, // expanded while loop clauses {zeroIB, predIIB, stepIIB, null}, {zeroI, predIIB, stepIIB, null}, {null, predIIB, stepIIB, null}, {zeroIB, predII, stepIIB, null}, {zeroX, predII, stepIIB, null}, {null, predII, stepIIB, null}, // short step clauses cause errors {zeroI, predII, stepIX, "loop predicate must match: (int,int)boolean != (int)boolea {zeroIB, predIX, stepIX, "loop initializer must match: (int,byte)int != ()int"}, // bad body type {zeroI, predII, tweak(stepII, -1, char.class), "body function must match: (int,int)ch {zeroI, predII, tweak(stepII, 0, char.class), "body function must match: (char,int)in // bad pred type {zeroI, tweak(predII, -1, char.class), stepII, "loop predicate must match: (int,int)c {zeroI, tweak(predII, 0, char.class), stepII, "loop predicate must match: (char,int)b // bad init type {tweak(zeroI, -1, char.class), predII, stepII, "loop initializer must match: (int)cha {tweak(zeroI, 0, char.class), predII, stepII, "loop initializer must match: (char)int }; } // tweak the type of an MH static MethodHandle tweak(MethodHandle mh, int argPos, Class<?> type) { MethodType mt = mh.type(); if (argPos == -1) mt = mt.changeReturnType(type); else mt = mt.changeParameterType(argPos, type); return MethodHandles.explicitCastArguments(mh, mt); } // snip off an MH argument, hard-wiring to zero static MethodHandle snip(MethodHandle mh, int argPos) { if (argPos < 0) return null; // special case for optional args Class<?> argType = mh.type().parameterType(argPos); Object zero; try { zero = MethodHandles.zero(argType).invoke(); } catch (Throwable ex) { throw new AssertionError(ex); } return MethodHandles.insertArguments(mh, argPos, zero); } static MethodHandle snip(MethodHandle mh) { return snip(mh, mh.type().parameterCount()-1); } // slap on an extra type on the end of the MH static MethodHandle slap(MethodHandle mh, Class<?> addType) { return MethodHandles.dropArguments(mh, mh.type().parameterCount(), addType); } @Test public static void testWhileLoopNoIteration() throws Throwable { // a while loop that never executes its body because the predicate evaluates to false immediate MethodHandle loop = MethodHandles.whileLoop(While.MH_initString, While.MH_predString assertEquals(While.MT_string, loop.type()); assertEquals("a", loop.invoke()); } @Test(dataProvider = "whileLoopTestData") public static void testDoWhileLoop(MethodHandle MH_zero, MethodHandle MH_pred, MethodHandle MH_step, String messageOrNull) throws Throwable { // int i = 0; do { ++i; } while (i < limit); return i; => limit try { MethodHandle loop = MethodHandles.doWhileLoop(MH_zero, MH_step, MH_pred); assert messageOrNull == null; if (MH_step.type().equals(While.MH_step.type())) assertEquals(While.MT_while, loop.type()); assertEquals(MH_step.type().dropParameterTypes(0, 1), loop.type()); while (loop.type().parameterCount() > 1) loop = snip(loop); assertEquals(23, loop.invoke(23)); } catch (IllegalArgumentException iae) { assert messageOrNull != null; if (!messageOrNull.equals(iae.getMessage())) { // just issue a warning System.out.println("*** "+messageOrNull+"\n != "+iae.getMessage()); } } } @Test public static void testDoWhileBadInit() throws Throwable { boolean caught = false; try { While w = new While(); MethodHandle loop = MethodHandles.doWhileLoop(MethodHandles.empty(methodType(char.c While.MH_voidBody.bindTo(w), While.MH_voidPred.bindTo(w)); } catch (IllegalArgumentException iae) { assertEquals("loop initializer must match: ()char != (int)void", iae.getMessage() caught = true; } assertTrue(caught); } @Test public static void testWhileZip() throws Throwable { MethodHandle loop = MethodHandles.doWhileLoop(While.MH_zipInitZip, While.MH_zipStep, assertEquals(While.MT_zip, loop.type()); List<String> a = Arrays.asList("a", "b", "c", "d"); List<String> b = Arrays.asList("e", "f", "g", "h"); List<String> zipped = Arrays.asList("a", "e", "b", "f", "c", "g", "d", "h"); assertEquals(zipped, (List<String>) loop.invoke(a.iterator(), b.iterator())); } @Test public static void testWhileBadInit() throws Throwable { boolean caught = false; try { While w = new While(); MethodHandle loop = MethodHandles.whileLoop(MethodHandles.empty(methodType(void.cla While.MH_voidPred.bindTo(w), While.MH_voidBody.bindTo(w)); } catch (IllegalArgumentException iae) { assertEquals("loop initializer must match: (char)void != (int)void", iae.getMessa caught = true; } assertTrue(caught); } @Test public static void testWhileVoidInit() throws Throwable { While w = new While(); int v = 5; MethodHandle loop = MethodHandles.whileLoop(While.MH_voidInit.bindTo(w), While.MH_vo While.MH_voidBody.bindTo(w)); assertEquals(While.MT_void, loop.type()); loop.invoke(v); assertEquals(v, w.i); } @Test public static void testDoWhileVoidInit() throws Throwable { While w = new While(); int v = 5; MethodHandle loop = MethodHandles.doWhileLoop(While.MH_voidInit.bindTo(w), While.MH_ While.MH_voidPred.bindTo(w)); assertEquals(While.MT_void, loop.type()); loop.invoke(v); assertEquals(v, w.i); } @DataProvider static Object[][] nullArgs() { MethodHandle c = MethodHandles.constant(int.class, 1); return new Object[][]{{null, c}, {c, null}}; } @Test(dataProvider = "nullArgs", expectedExceptions = NullPointerException.class) public static void testWhileNullArgs(MethodHandle pred, MethodHandle body) { MethodHandles.whileLoop(null, pred, body); } @Test(dataProvider = "nullArgs", expectedExceptions = NullPointerException.class) public static void testDoWhileNullArgs(MethodHandle body, MethodHandle pred) { MethodHandles.whileLoop(null, body, pred); } @Test public static void testCountedLoop() throws Throwable { // String s = "Lambdaman!"; for (int i = 0; i < 13; ++i) { s = "na " + s; } return s; => a variation on a well k MethodHandle fit13 = MethodHandles.dropArguments(MethodHandles.constant(int.class, 1 MethodHandle loop = MethodHandles.countedLoop(fit13, Counted.MH_start, Counted.MH_ste assertEquals(Counted.MT_counted, loop.type()); assertEquals("na na na na na na na na na na na na na Lambdaman!", loop.invoke("La } @Test public static void testCountedLoopVoidInit() throws Throwable { MethodHandle fit5 = MethodHandles.constant(int.class, 5); for (int i = 0; i < 8; i++) { MethodHandle zero = MethodHandles.zero(void.class); MethodHandle init = fit5; MethodHandle body = Counted.MH_printHello; boolean useNull = (i & 1) != 0, addInitArg = (i & 2) != 0, addBodyArg = (i & 4) != 0; if (useNull) zero = null; if (addInitArg) init = MethodHandles.dropArguments(init, 0, int.class); if (addBodyArg) body = MethodHandles.dropArguments(body, 1, int.class); System.out.println("testCountedLoopVoidInit i="+i+" : "+Arrays.asList(init, zero, MethodHandle loop = MethodHandles.countedLoop(init, zero, body); MethodType expectedType = Counted.MT_countedPrinting; if (addInitArg || addBodyArg) expectedType = expectedType.insertParameterTypes(0, int.class); assertEquals(expectedType, loop.type()); if (addInitArg || addBodyArg) loop.invoke(99); else loop.invoke(); } } @Test public static void testCountedArrayLoop() throws Throwable { // int[] a = new int[]{0}; for (int i = 0; i < 13; ++i) { ++a[0]; } => a[0] == 13 MethodHandle fit13 = MethodHandles.dropArguments(MethodHandles.constant(int.class, 1 MethodHandle loop = MethodHandles.countedLoop(fit13, null, Counted.MH_stepUpdateArray assertEquals(Counted.MT_arrayCounted, loop.type()); int[] a = new int[]{0}; loop.invoke(a); assertEquals(13, a[0]); } @Test public static void testCountedPrintingLoop() throws Throwable { MethodHandle fit5 = MethodHandles.constant(int.class, 5); MethodHandle loop = MethodHandles.countedLoop(fit5, null, Counted.MH_printHello); assertEquals(Counted.MT_countedPrinting, loop.type()); loop.invoke(); } @Test(expectedExceptions = NullPointerException.class) public static void testCountedLoopNullBody() throws Throwable { MethodHandle h5 = MethodHandles.constant(int.class, 5); MethodHandle h13 = MethodHandles.constant(int.class, 13); MethodHandle loop = MethodHandles.countedLoop(h5, h13, null); assertEquals(methodType(int.class), loop.type()); assertEquals(13, loop.invoke()); } @Test(expectedExceptions = NullPointerException.class) public static void testCountedLoopNullIterations() throws Throwable { MethodHandle loop = MethodHandles.countedLoop(null, null, null); assertEquals(methodType(void.class), loop.type()); loop.invoke(); } @Test(expectedExceptions = NullPointerException.class) public static void testCountedLoopNullInitAndBody() throws Throwable { MethodHandle loop = MethodHandles.countedLoop(MethodHandles.constant(int.class, 5), n assertEquals(methodType(void.class), loop.type()); loop.invoke(); } @DataProvider static Object[][] countedLoopBodyParameters() { Class<?> V = String.class, I = int.class, A = List.class; // return types are of these forms: // {count = int(A...), init = V(A...), body = V(V, I, A...)} return new Object[][] { // body leads determining A... {methodType(I), methodType(V), methodType(V, V, I)}, {methodType(I), methodType(V), methodType(V, V, I, A)}, {methodType(I,A), methodType(V), methodType(V, V, I, A)}, {methodType(I), methodType(V,A), methodType(V, V, I, A)}, // body leads, with void V {methodType(I), methodType(void.class), methodType(void.class, I)}, {methodType(I), methodType(void.class), methodType(void.class, I, A)}, {methodType(I,A), methodType(void.class), methodType(void.class, I, A)}, {methodType(I), methodType(void.class,A), methodType(void.class, I, A)}, // count leads determining A..., but only if body drops all A... {methodType(I,A), methodType(V), methodType(V, V, I)}, {methodType(I,A), methodType(V,A), methodType(V, V, I)}, // count leads, with void V {methodType(I,A), methodType(void.class), methodType(void.class, I)}, {methodType(I,A), methodType(void.class,A), methodType(void.class, I)}, }; } @Test(dataProvider = "countedLoopBodyParameters") public static void testCountedLoopBodyParameters(MethodType countType, MethodType init MethodHandle loop = MethodHandles.countedLoop( MethodHandles.empty(countType), initType == null ? null : MethodHandles.empty(initType), MethodHandles.empty(bodyType)); // The rule: If body takes the minimum number of parameters, then take what countType offers. // The initType has to just roll with whatever the other two agree on. int innerParams = (bodyType.returnType() == void.class ? 1 : 2); MethodType expectType = bodyType.dropParameterTypes(0, innerParams); if (expectType.parameterCount() == 0) expectType = expectType.insertParameterTypes(0, countType.parameterList()); assertEquals(expectType, loop.type()); } @Test(dataProvider = "countedLoopBodyParameters") public static void testCountedLoopBodyParametersNullInit(MethodType countType, Method testCountedLoopBodyParameters(countType, null, bodyType); } @Test public static void testCountedLoopStateInitializedToNull() throws Throwable { MethodHandle loop = MethodHandles.countedLoop(MethodHandles.constant(int.class, 5), MethodHandles.empty(methodType(String.class)), Counted.MH_stateBody); assertEquals(Counted.MT_bodyDeterminesState, loop.type()); assertEquals("sssssnull01234", loop.invoke()); } @Test public static void testCountedLoopArgsDefinedByIterations() throws Throwable { MethodHandle iterations = MethodHandles.dropArguments(MethodHandles.constant(int.class, 3), 0, String.class); MethodHandle loop = MethodHandles.countedLoop(iterations, MethodHandles.empty(iterations.type().changeReturnType(String.class)), Counted.MH assertEquals(Counted.MT_iterationsDefineArgs, loop.type()); assertEquals("hello012", loop.invoke("hello")); } @Test public static void testCountedRangeLoop() throws Throwable { // String s = "Lambdaman!"; for (int i = -5; i < 8; ++i) { s = "na " + s; } return s; => a well known theme MethodHandle fitm5 = MethodHandles.dropArguments(Counted.MH_m5, 0, String.class); MethodHandle fit8 = MethodHandles.dropArguments(Counted.MH_8, 0, String.class); MethodHandle loop = MethodHandles.countedLoop(fitm5, fit8, Counted.MH_start, Counted.M assertEquals(Counted.MT_counted, loop.type()); assertEquals("na na na na na na na na na na na na na Lambdaman!", loop.invoke("La } @Test public static void testCountedLoopCounterInit() throws Throwable { // int x = 0; for (int i = 0; i < 5; ++i) { x += i; } return x; => 10 // (only if counter's first value in body is 0) MethodHandle iter = MethodHandles.constant(int.class, 5); MethodHandle init = MethodHandles.constant(int.class, 0); MethodHandle body = Counted.MH_addCounter; MethodHandle loop = MethodHandles.countedLoop(iter, init, body); assertEquals(Counted.MT_counterInit, loop.type()); assertEquals(10, loop.invoke()); } @Test public static void testCountedLoopEmpty() throws Throwable { // for (int i = 0; i < 5; ++i) { /* empty */ } MethodHandle loop = MethodHandles.countedLoop(MethodHandles.constant(int.class, 5), n MethodHandles.empty(methodType(void.class, int.class))); assertEquals(methodType(void.class), loop.type()); loop.invoke(); } @Test public static void testCountedRangeLoopEmpty() throws Throwable { // for (int i = -5; i < 5; ++i) { /* empty */ } MethodHandle loop = MethodHandles.countedLoop(MethodHandles.constant(int.class, -5), MethodHandles.constant(int.class, 5), null, MethodHandles.empty(methodType(void.cla assertEquals(methodType(void.class), loop.type()); loop.invoke(); } @DataProvider static Object[][] countedLoopNegativeData() { MethodHandle dummy = MethodHandles.zero(void.class); MethodHandle one = MethodHandles.constant(int.class, 1); MethodHandle oneString = MethodHandles.dropArguments(one, 0, String.class); MethodHandle oneDouble = MethodHandles.dropArguments(one, 0, double.class); return new Object[][]{ {dummy, one, dummy, dummy, String.format("start/end must return int %s, %s", dummy, on {one, dummy, dummy, dummy, String.format("start/end must return int %s, %s", one, dumm {oneString, oneDouble, dummy, dummy, String.format("start and end parameter types must match: %s != %s", oneString.typ oneDouble.type())}, {oneString, oneString, dummy, dummy, String.format("start/end and init parameter types must match: %s != %s", oneStrin dummy.type())}, {one, one, null, dummy, String.format("actual and expected body signatures must matc dummy.type(), dummy.type().appendParameterTypes(int.class))} }; } @Test(dataProvider = "countedLoopNegativeData") public static void testCountedLoopNegative(MethodHandle start, MethodHandle end, Method MethodHandle body, String msg) { if (true) return; //%%%FIXME%%%% boolean caught = false; try { MethodHandles.countedLoop(start, end, init, body); } catch (IllegalArgumentException iae) { assertEquals(msg, iae.getMessage()); caught = true; } assertTrue(caught); } @Test public static void testIterateSum() throws Throwable { // Integer[] a = new Integer[]{1,2,3,4,5,6}; int sum = 0; for (int e : a) { sum += e; } return sum; => 2 MethodHandle loop = MethodHandles.iteratedLoop(Iterate.MH_sumIterator, Iterate.MH_su assertEquals(Iterate.MT_sum, loop.type()); assertEquals(21, loop.invoke(new Integer[]{1, 2, 3, 4, 5, 6})); } @DataProvider static Object[][] iteratorInits() { return new Object[][]{{Iterate.MH_iteratorFromList}, {Iterate.MH_iteratorFromIterab } @Test(dataProvider = "iteratorInits") public static void testIterateReverse(MethodHandle iterator) throws Throwable { // this test uses List as its loop state type; don't try to change that if (iterator != null) iterator = iterator.asType(iterator.type().changeParameterType(0, List.class)); for (int i = 0; i < 4; i++) { MethodHandle init = Iterate.MH_reverseInit, body = Iterate.MH_reverseStep; boolean snipInit = (i & 1) != 0, snipBody = (i & 2) != 0; if (snipInit) init = snip(init); if (snipBody) body = snip(body); if (!snipInit && snipBody && iterator == null) { // Body does not determine (A...), so the default guy just picks Iterable. // If body insisted on (List), the default guy would adjust himself. // Init has no authority to change the (A...), so must patch init. // All according to plan! init = slap(snip(init), Iterable.class); } System.out.println("testIterateReverse i="+i+" : "+Arrays.asList(iterator, init, b MethodHandle loop = MethodHandles.iteratedLoop(iterator, init, body); MethodType expectedType = Iterate.MT_reverse; if (iterator == null && i >= 2) expectedType = expectedType.changeParameterType(0, Iterable.class); assertEquals(expectedType, loop.type()); List<String> list = Arrays.asList("a", "b", "c", "d", "e"); List<String> reversedList = Arrays.asList("e", "d", "c", "b", "a"); assertEquals(reversedList, (List<String>) loop.invoke(list)); } } @Test(dataProvider = "iteratorInits") public static void testIterateLength(MethodHandle iterator) throws Throwable { MethodHandle body = Iterate.MH_lengthStep; MethodHandle init = Iterate.MH_lengthInit; MethodType expectedType = Iterate.MT_length; int barity = body.type().parameterCount(); Class<?> iteratorSource = iterator == null ? null : iterator.type().parameterType(0); if (iterator != null && iteratorSource != body.type().parameterType(barity-1)) { // adjust body to accept the other type body = body.asType(body.type().changeParameterType(barity-1, iteratorSource)); init = init.asType(init.type().changeParameterType(0, iteratorSource)); expectedType = expectedType.changeParameterType(0, iteratorSource); } for (;; init = snip(init)) { System.out.println("testIterateLength.init = "+init); MethodHandle loop = MethodHandles.iteratedLoop(iterator, init, body); assertEquals(expectedType, loop.type()); List<Double> list = Arrays.asList(23.0, 148.0, 42.0); assertEquals(list.size(), (int) loop.invoke(list)); if (init == null) break; } } @Test(dataProvider = "iteratorInits") public static void testIterateMap(MethodHandle iterator) throws Throwable { MethodHandle body = Iterate.MH_mapStep; MethodHandle init = Iterate.MH_mapInit; MethodType expectedType = Iterate.MT_map; int barity = body.type().parameterCount(); Class<?> iteratorSource = iterator == null ? null : iterator.type().parameterType(0); if (iterator != null && iteratorSource != body.type().parameterType(barity-1)) { // adjust body to accept the other type body = body.asType(body.type().changeParameterType(barity-1, iteratorSource)); init = init.asType(init.type().changeParameterType(0, iteratorSource)); expectedType = expectedType.changeParameterType(0, iteratorSource); } for (; init != null; init = snip(init)) { System.out.println("testIterateMap.init = "+init); MethodHandle loop = MethodHandles.iteratedLoop(iterator, init, body); assertEquals(expectedType, loop.type()); List<String> list = Arrays.asList("Hello", "world", "!"); List<String> upList = Arrays.asList("HELLO", "WORLD", "!"); assertEquals(upList, (List<String>) loop.invoke(list)); } } @Test(dataProvider = "iteratorInits") public static void testIteratePrint(MethodHandle iterator) throws Throwable { MethodHandle body = Iterate.MH_printStep; MethodType expectedType = Iterate.MT_print; int barity = body.type().parameterCount(); Class<?> iteratorSource = iterator == null ? null : iterator.type().parameterType(0); if (iterator != null && iteratorSource != body.type().parameterType(barity-1)) { // adjust body to accept the other type body = body.asType(body.type().changeParameterType(barity-1, iteratorSource)); expectedType = expectedType.changeParameterType(0, iteratorSource); } MethodHandle loop = MethodHandles.iteratedLoop(iterator, null, body); assertEquals(expectedType, loop.type()); loop.invoke(Arrays.asList("hello", "world")); } @Test(expectedExceptions = NullPointerException.class) public static void testIterateNullBody() { MethodHandles.iteratedLoop(MethodHandles.empty(methodType(Iterator.class, int.cla MethodHandles.identity(int.class), null); } @DataProvider static Object[][] wrongIteratorTypes() { return new Object[][]{{void.class}, {Object.class}, {Iterable.class}}; } @Test(dataProvider = "wrongIteratorTypes") public static void testIterateVoidIterator(Class<?> it) { boolean caught = false; MethodType v = methodType(it); try { MethodHandles.iteratedLoop(MethodHandles.empty(v), null, MethodHandles.empty(v)); } catch(IllegalArgumentException iae) { assertEqualsFIXME("iteratedLoop first argument must have Iterator return type", i caught = true; } assertTrue(caught); } @Test(dataProvider = "iteratorInits") public static void testIterateVoidInit(MethodHandle iterator) throws Throwable { // this test uses List as its loop state type; don't try to change that if (iterator != null) iterator = iterator.asType(iterator.type().changeParameterType(0, List.class)); MethodHandle loop = MethodHandles.iteratedLoop(iterator, Iterate.MH_voidInit, Iterate assertEquals(Iterate.MT_print, loop.type()); loop.invoke(Arrays.asList("hello", "world")); } @DataProvider static Object[][] iterateParameters() { MethodType i = methodType(int.class); MethodType sil_v = methodType(void.class, String.class, int.class, List.class); MethodType isl_i = methodType(int.class, int.class, String.class, List.class); MethodType isli_i = methodType(int.class, int.class, String.class, List.class, int.clas MethodType sl_v = methodType(void.class, String.class, List.class); MethodType sli_v = methodType(void.class, String.class, List.class, int.class); MethodType l_it = methodType(Iterator.class, List.class); MethodType li_i = methodType(int.class, List.class, int.class); MethodType li_it = methodType(Iterator.class, List.class, int.class); MethodType il_it = methodType(Iterator.class, int.class, List.class); MethodType l_i = methodType(int.class, List.class); return new Object[][]{ {l_it, null, sl_v, ""}, {l_it, l_i, isl_i, ""}, {l_it, null, sl_v, ""}, {li_it, li_i, isli_i, ""}, {null, null, sil_v, "inferred first loop argument must inherit from Iterable: int"} {il_it, null, sil_v, ""}, {li_it, null, sli_v, ""}, {sl_v, null, sl_v, "iteratedLoop first argument must have Iterator return type"}, {li_it, l_it, sl_v, String.format("iterator and init parameter lists must match: %s != %s", li_it, l_i {li_it, li_i, isl_i, String.format("body types (regard parameter types after index 0, and result type isl_i, isl_i.dropParameterTypes(0, 1).appendParameterTypes(int.class))} }; } @Test(dataProvider = "iterateParameters") public static void testIterateParameters(MethodType it, MethodType in, MethodType bo, Str boolean negative = !msg.isEmpty(); MethodHandle iterator = it == null ? null : MethodHandles.empty(it); MethodHandle init = in == null ? null : MethodHandles.empty(in); boolean caught = false; MethodHandle loop = null; try { loop = MethodHandles.iteratedLoop(iterator, init, MethodHandles.empty(bo)); } catch (Throwable t) { if (!negative) { throw t; } assertEqualsFIXME(msg, t.getMessage()); caught = true; } if (negative) { assertTrue(caught); } else { MethodType lt = loop.type(); if (it == null && in == null) { assertEquals(bo.dropParameterTypes(0, 1), lt); } else if (it == null) { if (in.parameterCount() == 0) { assertEquals(bo.dropParameterTypes(0, in.returnType() == void.class ? 1 : 2), lt); } else { assertEquals(methodType(bo.returnType(), in.parameterArray()), lt); } } else if (in == null) { assertEquals(methodType(bo.returnType(), it.parameterArray()), lt); } else if (it.parameterCount() > in.parameterCount()) { assertEquals(methodType(bo.returnType(), it.parameterArray()), lt); } else if (it.parameterCount() < in.parameterCount()) { assertEquals(methodType(bo.returnType(), in.parameterArray()), lt); } else { // both it, in present; with equal parameter list lengths assertEquals(it.parameterList(), lt.parameterList()); assertEquals(in.parameterList(), lt.parameterList()); assertEquals(bo.returnType(), lt.returnType()); } } } @Test public static void testIteratorSubclass() throws Throwable { MethodHandle loop = MethodHandles.iteratedLoop(MethodHandles.empty(methodType(Bogus null, MethodHandles.empty(methodType(void.class, String.class, List.class))); assertEquals(methodType(void.class, List.class), loop.type()); } static class BogusIterator implements Iterator { @Override public boolean hasNext() { return false; } @Override public Object next() { return null; } } static class Empty { static void f() { } static boolean pred() { return false; } static int c() { return 23; } static final Class<Empty> EMPTY = Empty.class; static final MethodType MT_f = methodType(void.class); static final MethodType MT_pred = methodType(boolean.class); static final MethodType MT_c = methodType(int.class); static final MethodHandle MH_f; static final MethodHandle MH_pred; static final MethodHandle MH_c; static { try { MH_f = LOOKUP.findStatic(EMPTY, "f", MT_f); MH_pred = LOOKUP.findStatic(EMPTY, "pred", MT_pred); MH_c = LOOKUP.findStatic(EMPTY, "c", MT_c); } catch (Exception e) { throw new ExceptionInInitializerError(e); } } } static class Fac { static int zero(int k) { return 0; } static int one(int k) { return 1; } static boolean pred(int i, int acc, int k) { return i < k; } static int inc(int i, int acc, int k) { return i + 1; } static int mult(int i, int acc, int k) { return i * acc; } static void dot(int i, int acc, int k) { System.out.print('.'); } static int fin(int i, int acc, int k) { return acc; } static final Class<Fac> FAC = Fac.class; static final MethodType MT_init = methodType(int.class, int.class); static final MethodType MT_fn = methodType(int.class, int.class, int.class, int.class); static final MethodType MT_dot = methodType(void.class, int.class, int.class, int.class) static final MethodType MT_pred = methodType(boolean.class, int.class, int.class, int.cl static final MethodHandle MH_zero; static final MethodHandle MH_one; static final MethodHandle MH_pred; static final MethodHandle MH_inc; static final MethodHandle MH_mult; static final MethodHandle MH_dot; static final MethodHandle MH_fin; static final MethodType MT_fac = methodType(int.class, int.class); static { try { MH_zero = LOOKUP.findStatic(FAC, "zero", MT_init); MH_one = LOOKUP.findStatic(FAC, "one", MT_init); MH_pred = LOOKUP.findStatic(FAC, "pred", MT_pred); MH_inc = LOOKUP.findStatic(FAC, "inc", MT_fn); MH_mult = LOOKUP.findStatic(FAC, "mult", MT_fn); MH_dot = LOOKUP.findStatic(FAC, "dot", MT_dot); MH_fin = LOOKUP.findStatic(FAC, "fin", MT_fn); } catch (Exception e) { throw new ExceptionInInitializerError(e); } } } static class Loop { static int inc(int i, int k) { return i + 1; } static boolean pred(int i, int k) { return i < k; } static int fin(int i, int k) { return k; } static final Class<Loop> LOOP = Loop.class; static final MethodType MT_inc = methodType(int.class, int.class, int.class); static final MethodType MT_pred = methodType(boolean.class, int.class, int.class); static final MethodType MT_fin = methodType(int.class, int.class, int.class); static final MethodHandle MH_inc; static final MethodHandle MH_pred; static final MethodHandle MH_fin; static final MethodType MT_loop = methodType(int.class, int.class); static { try { MH_inc = LOOKUP.findStatic(LOOP, "inc", MT_inc); MH_pred = LOOKUP.findStatic(LOOP, "pred", MT_pred); MH_fin = LOOKUP.findStatic(LOOP, "fin", MT_fin); } catch (Exception e) { throw new ExceptionInInitializerError(e); } } } static class LoopWithVirtuals { static int one(int k) { return 1; } int inc(int i, int acc, int k) { return i + 1; } int mult(int i, int acc, int k) { return i * acc; } boolean pred(int i, int acc, int k) { return i < k; } int fin(int i, int acc, int k) { return acc; } static final Class<LoopWithVirtuals> LOOP_WITH_VIRTUALS = LoopWithVirtuals.class; static final MethodType MT_one = methodType(int.class, int.class); static final MethodType MT_inc = methodType(int.class, int.class, int.class, int.class); static final MethodType MT_mult = methodType(int.class, int.class, int.class, int.class) static final MethodType MT_pred = methodType(boolean.class, int.class, int.class, int.cl static final MethodType MT_fin = methodType(int.class, int.class, int.class, int.class); static final MethodHandle MH_one; static final MethodHandle MH_inc; static final MethodHandle MH_mult; static final MethodHandle MH_pred; static final MethodHandle MH_fin; static final MethodType MT_loop = methodType(int.class, LOOP_WITH_VIRTUALS, int.class); static { try { MH_one = LOOKUP.findStatic(LOOP_WITH_VIRTUALS, "one", MT_one); MH_inc = LOOKUP.findVirtual(LOOP_WITH_VIRTUALS, "inc", MT_inc); MH_mult = LOOKUP.findVirtual(LOOP_WITH_VIRTUALS, "mult", MT_mult); MH_pred = LOOKUP.findVirtual(LOOP_WITH_VIRTUALS, "pred", MT_pred); MH_fin = LOOKUP.findVirtual(LOOP_WITH_VIRTUALS, "fin", MT_fin); } catch (Exception e) { throw new ExceptionInInitializerError(e); } } static MethodHandle permute(MethodHandle h) { // The handles representing virtual methods need to be rearranged to match the required order o // (loop-local state comes first, then loop arguments). As the receiver comes first in the sign // a loop argument, it must be moved to the appropriate position in the signature. return MethodHandles.permuteArguments(h, methodType(h.type().returnType(), int.class, int.class, LOOP_WITH_VIRTUALS, int.clas } } static class While { static int zero(int limit) { return 0; } static boolean pred(int i, int limit) { return i < limit; } static int step(int i, int limit) { return i + 1; } static String initString() { return "a"; } static boolean predString(String s) { return s.length() != 1; } static String stepString(String s) { return s + "a"; } static List<String> zipInitZip(Iterator<String> a, Iterator<String> b) { return new ArrayList<>(); } static boolean zipPred(List<String> zip, Iterator<String> a, Iterator<String> b) { return a.hasNext() && b.hasNext(); } static List<String> zipStep(List<String> zip, Iterator<String> a, Iterator<String> b) { zip.add(a.next()); zip.add(b.next()); return zip; } private int i = 0; void voidInit(int k) { // empty } void voidBody(int k) { ++i; } boolean voidPred(int k) { return i < k; } static final Class<While> WHILE = While.class; static final MethodType MT_zero = methodType(int.class, int.class); static final MethodType MT_pred = methodType(boolean.class, int.class, int.class); static final MethodType MT_fn = methodType(int.class, int.class, int.class); static final MethodType MT_initString = methodType(String.class); static final MethodType MT_predString = methodType(boolean.class, String.class); static final MethodType MT_stepString = methodType(String.class, String.class); static final MethodType MT_zipInitZip = methodType(List.class, Iterator.class, Iterator static final MethodType MT_zipPred = methodType(boolean.class, List.class, Iterator.cla static final MethodType MT_zipStep = methodType(List.class, List.class, Iterator.class, static final MethodType MT_voidInit = methodType(void.class, int.class); static final MethodType MT_voidBody = methodType(void.class, int.class); static final MethodType MT_voidPred = methodType(boolean.class, int.class); static final MethodHandle MH_zero; static final MethodHandle MH_pred; static final MethodHandle MH_step; static final MethodHandle MH_initString; static final MethodHandle MH_predString; static final MethodHandle MH_stepString; static final MethodHandle MH_zipInitZip; static final MethodHandle MH_zipPred; static final MethodHandle MH_zipStep; static final MethodHandle MH_voidInit; static final MethodHandle MH_voidBody; static final MethodHandle MH_voidPred; static final MethodType MT_while = methodType(int.class, int.class); static final MethodType MT_string = methodType(String.class); static final MethodType MT_zip = methodType(List.class, Iterator.class, Iterator.class) static final MethodType MT_void = methodType(void.class, int.class); static { try { MH_zero = LOOKUP.findStatic(WHILE, "zero", MT_zero); MH_pred = LOOKUP.findStatic(WHILE, "pred", MT_pred); MH_step = LOOKUP.findStatic(WHILE, "step", MT_fn); MH_initString = LOOKUP.findStatic(WHILE, "initString", MT_initString); MH_predString = LOOKUP.findStatic(WHILE, "predString", MT_predString); MH_stepString = LOOKUP.findStatic(WHILE, "stepString", MT_stepString); MH_zipInitZip = LOOKUP.findStatic(WHILE, "zipInitZip", MT_zipInitZip); MH_zipPred = LOOKUP.findStatic(WHILE, "zipPred", MT_zipPred); MH_zipStep = LOOKUP.findStatic(WHILE, "zipStep", MT_zipStep); MH_voidInit = LOOKUP.findVirtual(WHILE, "voidInit", MT_voidInit); MH_voidBody = LOOKUP.findVirtual(WHILE, "voidBody", MT_voidBody); MH_voidPred = LOOKUP.findVirtual(WHILE, "voidPred", MT_voidPred); } catch (Exception e) { throw new ExceptionInInitializerError(e); } } } static class Counted { static String start(String arg) { return arg; } static String step(String v, int counter) { return "na " + v; } static void stepUpdateArray(int counter, int[] a) { ++a[0]; } static void printHello(int counter) { System.out.print("hello"); } static int addCounter(int x, int counter) { return x + counter; } static String stateBody(String s, int counter) { return "s" + s + counter; } static String append(String localState, int counter, String loopArg) { if (null == localState) { return loopArg + counter; } return localState + counter; } static final Class<Counted> COUNTED = Counted.class; static final MethodType MT_start = methodType(String.class, String.class); static final MethodType MT_step = methodType(String.class, String.class, int.class); static final MethodType MT_stepUpdateArray = methodType(void.class, int.class, int[].cl static final MethodType MT_printHello = methodType(void.class, int.class); static final MethodType MT_addCounter = methodType(int.class, int.class, int.class); static final MethodType MT_stateBody = methodType(String.class, String.class, int.class static final MethodType MT_append = methodType(String.class, String.class, int.class, St static final MethodHandle MH_13; static final MethodHandle MH_m5; static final MethodHandle MH_8; static final MethodHandle MH_start; static final MethodHandle MH_step; static final MethodHandle MH_stepUpdateArray; static final MethodHandle MH_printHello; static final MethodHandle MH_addCounter; static final MethodHandle MH_stateBody; static final MethodHandle MH_append; static final MethodType MT_counted = methodType(String.class, String.class); static final MethodType MT_arrayCounted = methodType(void.class, int[].class); static final MethodType MT_countedPrinting = methodType(void.class); static final MethodType MT_counterInit = methodType(int.class); static final MethodType MT_bodyDeterminesState = methodType(String.class); static final MethodType MT_iterationsDefineArgs = methodType(String.class, String.clas static { try { MH_13 = MethodHandles.constant(int.class, 13); MH_m5 = MethodHandles.constant(int.class, -5); MH_8 = MethodHandles.constant(int.class, 8); MH_start = LOOKUP.findStatic(COUNTED, "start", MT_start); MH_step = LOOKUP.findStatic(COUNTED, "step", MT_step); MH_stepUpdateArray = LOOKUP.findStatic(COUNTED, "stepUpdateArray", MT_stepUpdateArra MH_printHello = LOOKUP.findStatic(COUNTED, "printHello", MT_printHello); MH_addCounter = LOOKUP.findStatic(COUNTED, "addCounter", MT_addCounter); MH_stateBody = LOOKUP.findStatic(COUNTED, "stateBody", MT_stateBody); MH_append = LOOKUP.findStatic(COUNTED, "append", MT_append); } catch (Exception e) { throw new ExceptionInInitializerError(e); } } } static class Iterate { static Iterator<Integer> sumIterator(Integer[] a) { return Arrays.asList(a).iterator(); } static int sumInit(Integer[] a) { return 0; } static int sumStep(int s, int e, Integer[] a) { return s + e; } static List<String> reverseInit(List<String> l) { return new ArrayList<>(); } static List<String> reverseStep(List<String> r, String e, List<String> l) { r.add(0, e); return r; } static int lengthInit(List<Double> l) { return 0; } static int lengthStep(int len, Object o, List<Double> l) { return len + 1; } static List<String> mapInit(List<String> l) { return new ArrayList<>(); } static List<String> mapStep(List<String> r, String e, List<String> l) { r.add(e.toUpperCase()); return r; } static void printStep(String s, List<String> l) { System.out.print(s); } static void voidInit(List<String> l) { // empty } static ListIterator<?> iteratorFromList(List<?> l) { return l.listIterator(); } static Iterator<?> iteratorFromIterable(Iterable<?> l) { return l.iterator(); } static final Class<Iterate> ITERATE = Iterate.class; static final MethodType MT_sumIterator = methodType(Iterator.class, Integer[].class); static final MethodType MT_sumInit = methodType(int.class, Integer[].class); static final MethodType MT_reverseInit = methodType(List.class, List.class); static final MethodType MT_lenghInit = methodType(int.class, List.class); static final MethodType MT_mapInit = methodType(List.class, List.class); static final MethodType MT_sumStep = methodType(int.class, int.class, int.class, Integer static final MethodType MT_reverseStep = methodType(List.class, List.class, String.clas static final MethodType MT_lengthStep = methodType(int.class, int.class, Object.class, L static final MethodType MT_mapStep = methodType(List.class, List.class, String.class, Li static final MethodType MT_printStep = methodType(void.class, String.class, List.class) static final MethodType MT_voidInit = methodType(void.class, List.class); static final MethodType MT_iteratorFromList = methodType(ListIterator.class, List.clas static final MethodType MT_iteratorFromIterable = methodType(Iterator.class, Iterable. static final MethodHandle MH_sumIterator; static final MethodHandle MH_sumInit; static final MethodHandle MH_sumStep; static final MethodHandle MH_printStep; static final MethodHandle MH_reverseInit; static final MethodHandle MH_reverseStep; static final MethodHandle MH_lengthInit; static final MethodHandle MH_lengthStep; static final MethodHandle MH_mapInit; static final MethodHandle MH_mapStep; static final MethodHandle MH_voidInit; static final MethodHandle MH_iteratorFromList; static final MethodHandle MH_iteratorFromIterable; static final MethodType MT_sum = methodType(int.class, Integer[].class); static final MethodType MT_reverse = methodType(List.class, List.class); static final MethodType MT_length = methodType(int.class, List.class); static final MethodType MT_map = methodType(List.class, List.class); static final MethodType MT_print = methodType(void.class, List.class); static { try { MH_sumIterator = LOOKUP.findStatic(ITERATE, "sumIterator", MT_sumIterator); MH_sumInit = LOOKUP.findStatic(ITERATE, "sumInit", MT_sumInit); MH_sumStep = LOOKUP.findStatic(ITERATE, "sumStep", MT_sumStep); MH_reverseInit = LOOKUP.findStatic(ITERATE, "reverseInit", MT_reverseInit); MH_reverseStep = LOOKUP.findStatic(ITERATE, "reverseStep", MT_reverseStep); MH_lengthInit = LOOKUP.findStatic(ITERATE, "lengthInit", MT_lenghInit); MH_lengthStep = LOOKUP.findStatic(ITERATE, "lengthStep", MT_lengthStep); MH_mapInit = LOOKUP.findStatic(ITERATE, "mapInit", MT_mapInit); MH_mapStep = LOOKUP.findStatic(ITERATE, "mapStep", MT_mapStep); MH_printStep = LOOKUP.findStatic(ITERATE, "printStep", MT_printStep); MH_voidInit = LOOKUP.findStatic(ITERATE, "voidInit", MT_voidInit); MH_iteratorFromList = LOOKUP.findStatic(ITERATE, "iteratorFromList", MT_iteratorFrom MH_iteratorFromIterable = LOOKUP.findStatic(ITERATE, "iteratorFromIterable", MT_iter } catch (Exception e) { throw new ExceptionInInitializerError(e); } } } }
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2026-04-02