#!/usr/bin/env python # # __COPYRIGHT__ # # Permission is hereby granted, free of charge, to any person obtaining # a copy of this software and associated documentation files (the # "Software"), to deal in the Software without restriction, including # without limitation the rights to use, copy, modify, merge, publish, # distribute, sublicense, and/or sell copies of the Software, and to # permit persons to whom the Software is furnished to do so, subject to # the following conditions: # # The above copyright notice and this permission notice shall be included # in all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY # KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE # WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND # NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE # LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION # OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION # WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. # __revision__ = "__FILE__ __REVISION__ __DATE__ __DEVELOPER__" """ Test Java compilation with a live Java 1.4 "javac" compiler. """ import os import sys import TestSCons _python_ = TestSCons._python_ test = TestSCons.TestSCons() where_javac, java_version = test.java_where_javac('1.4') test.write('SConstruct', """ env = Environment(tools = ['javac'], JAVAVERSION = '1.4', JAVAC = r'%(where_javac)s') env.Java(target = 'class1', source = 'com/sub/foo') env.Java(target = 'class2', source = 'com/sub/bar') env.Java(target = 'class3', source = ['src1', 'src2']) env.Java(target = 'class4', source = ['src4']) env.Java(target = 'class5', source = ['src5']) env.Java(target = 'class6', source = ['src6']) """ % locals()) test.subdir('com', ['com', 'sub'], ['com', 'sub', 'foo'], ['com', 'sub', 'bar'], 'src1', 'src2', 'src4', 'src5', 'src6') test.write(['com', 'sub', 'foo', 'Example1.java'], """\ package com.sub.foo; public class Example1 { public static void main(String[] args) { } } """) test.write(['com', 'sub', 'foo', 'Example2.java'], """\ package com.other; public class Example2 { public static void main(String[] args) { } } """) test.write(['com', 'sub', 'foo', 'Example3.java'], """\ package com.sub.foo; public class Example3 { public static void main(String[] args) { } } """) test.write(['com', 'sub', 'bar', 'Example4.java'], """\ package com.sub.bar; public class Example4 { public static void main(String[] args) { } } """) test.write(['com', 'sub', 'bar', 'Example5.java'], """\ package com.other; public class Example5 { public static void main(String[] args) { } } """) test.write(['com', 'sub', 'bar', 'Example6.java'], """\ package com.sub.bar; public class Example6 { public static void main(String[] args) { } } """) test.write(['src1', 'Example7.java'], """\ public class Example7 { public static void main(String[] args) { } } """) # Acid-test file for parsing inner Java classes, courtesy Chad Austin. test.write(['src2', 'Test.java'], """\ class Empty { } interface Listener { public void execute(); } public class Test { class Inner { void go() { use(new Listener() { public void execute() { System.out.println("In Inner"); } }); } String s1 = "class A"; String s2 = "new Listener() { }"; /* class B */ /* new Listener() { } */ } public static void main(String[] args) { new Test().run(); } void run() { use(new Listener() { public void execute() { use(new Listener( ) { public void execute() { System.out.println("Inside execute()"); } }); } }); new Inner().go(); } void use(Listener l) { l.execute(); } } class Private { void run() { new Listener() { public void execute() { } }; } } """) # Testing nested anonymous inner classes, courtesy Brandon Mansfield. test.write(['src4', 'NestedExample.java'], """\ // import java.util.*; public class NestedExample { public NestedExample() { new Thread() { public void start() { new Thread() { public void start() { try {Thread.sleep(200);} catch (Exception e) {} } }; while (true) { try {Thread.sleep(200);} catch (Exception e) {} } } }; } public static void main(String argv[]) { new NestedExample(); } } """) # Test not finding an anonymous class when the second token after a # "new" is a closing brace. This duplicates a test from the unit tests, # but lets us make sure that we correctly determine that everything is # up-to-date after the build. test.write(['src5', 'TestSCons.java'], """\ class TestSCons { public static void main(String[] args) { new Foo(); } } class Foo { } """) # Test private inner class instantiation, courtesy Tilo Prutz: # http://scons.tigris.org/issues/show_bug.cgi?id=1594 test.write(['src6', 'TestSCons.java'], """\ class test { test() { super(); new inner(); } static class inner { private inner() {} } } """) test.run(arguments = '.') expect_1 = [ test.workpath('class1', 'com', 'other', 'Example2.class'), test.workpath('class1', 'com', 'sub', 'foo', 'Example1.class'), test.workpath('class1', 'com', 'sub', 'foo', 'Example3.class'), ] expect_2 = [ test.workpath('class2', 'com', 'other', 'Example5.class'), test.workpath('class2', 'com', 'sub', 'bar', 'Example4.class'), test.workpath('class2', 'com', 'sub', 'bar', 'Example6.class'), ] expect_3 = [ test.workpath('class3', 'Empty.class'), test.workpath('class3', 'Example7.class'), test.workpath('class3', 'Listener.class'), test.workpath('class3', 'Private$1.class'), test.workpath('class3', 'Private.class'), test.workpath('class3', 'Test$1.class'), test.workpath('class3', 'Test$2.class'), test.workpath('class3', 'Test$3.class'), test.workpath('class3', 'Test$Inner.class'), test.workpath('class3', 'Test.class'), ] expect_4 = [ test.workpath('class4', 'NestedExample$1.class'), test.workpath('class4', 'NestedExample$2.class'), test.workpath('class4', 'NestedExample.class'), ] expect_5 = [ test.workpath('class5', 'Foo.class'), test.workpath('class5', 'TestSCons.class'), ] expect_6 = [ test.workpath('class6', 'test$1.class'), test.workpath('class6', 'test$inner.class'), test.workpath('class6', 'test.class'), ] failed = None def get_class_files(dir): def find_class_files(arg, dirname, fnames): for fname in fnames: if fname[-6:] == '.class': arg.append(os.path.join(dirname, fname)) result = [] os.path.walk(dir, find_class_files, result) result.sort() return result def classes_must_match(dir, expect): global failed got = get_class_files(test.workpath(dir)) if expect != got: missing = set(expect) - set(got) if missing: sys.stderr.write("Missing the following class files from '%s':\n" % dir) for c in missing: sys.stderr.write(' %s\n' % c) unexpected = set(got) - set(expect) if unexpected: sys.stderr.write("Found the following unexpected class files in '%s':\n" % dir) for c in unexpected: sys.stderr.write(' %s\n' % c) failed = 1 def classes_must_not_exist(dir, expect): global failed present = filter(os.path.exists, expect) if present: sys.stderr.write("Found the following unexpected class files in '%s' after cleaning:\n" % dir) for c in present: sys.stderr.write(' %s\n' % c) failed = 1 classes_must_match('class1', expect_1) classes_must_match('class2', expect_2) classes_must_match('class3', expect_3) classes_must_match('class4', expect_4) classes_must_match('class5', expect_5) classes_must_match('class6', expect_6) test.fail_test(failed) test.up_to_date(options='--debug=explain', arguments = '.') test.run(arguments = '-c .') classes_must_not_exist('class1', expect_1) classes_must_not_exist('class2', expect_2) classes_must_not_exist('class3', expect_3) classes_must_not_exist('class4', expect_4) classes_must_not_exist('class5', expect_5) # This test case should pass, but doesn't. # The expect_6 list contains the class files that the Java compiler # actually creates, apparently because of the "private" instantiation # of the "inner" class. Our parser doesn't currently detect this, so # it doesn't know to remove that generated class file. #classes_must_not_exist('class6', expect_6) test.fail_test(failed) test.pass_test()