# Copyright (c) 2010 The Mirah project authors. All Rights Reserved. # All contributing project authors may be found in the NOTICE file. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. class JVMCompilerTest < Test::Unit::TestCase def assert_raise_java(type, message="") ex = assert_raise(NativeException) do yield end assert_equal type, ex.cause.class assert_equal message, ex.cause.message.to_s end def test_local cls, = compile("def foo; a = 1; a; end") assert_equal(1, cls.foo) cls, = compile("def foo; a = 1.0; a; end") assert_equal(1.0, cls.foo) cls, = compile("def foo; a = 'bar'; a; end") assert_equal('bar', cls.foo) end def test_addition cls, = compile("def foo; a = 1; b = 2; a + b; end") assert_equal(3, cls.foo) cls, = compile("def foo; a = 1.0; b = 2.0; a + b; end") assert_equal(3.0, cls.foo) end def test_subtraction cls, = compile("def foo; a = 3; b = 2; a - b; end") assert_equal(1, cls.foo) cls, = compile("def foo; a = 3.0; b = 2.0; a - b; end") assert_equal(1.0, cls.foo) end def test_multiplication cls, = compile("def foo; a = 2; b = 3; a * b; end") assert_equal(6, cls.foo) cls, = compile("def foo; a = 2.0; b = 3.0; a * b; end") assert_equal(6.0, cls.foo) end def test_division cls, = compile("def foo; a = 6; b = 3; a / b; end") assert_equal(2, cls.foo) cls, = compile("def foo; a = 6.0; b = 3.0; a / b; end") assert_equal(2.0, cls.foo) end def test_rem cls, = compile("def foo; a = 7; b = 3; a % b; end") assert_equal(1, cls.foo) cls, = compile("def foo; a = 8.0; b = 3.0; a % b; end") assert_equal(2.0, cls.foo) end def test_shift_left cls, = compile("def foo; a = 1; b = 3; a << b; end") assert_equal(8, cls.foo) end def test_shift_right cls, = compile("def foo; a = 7; b = 2; a >> b; end") assert_equal(1, cls.foo) cls, = compile("def foo; a = -1; b = 1; a >> b; end") assert_equal(-1, cls.foo) end # TODO the parser doesn't like >>> # def test_unsigned_shift_right # cls, = compile("def foo; a = -1; b = 31; a >>> b; end") # assert_equal(1, cls.foo) # end def test_binary_and cls, = compile("def foo; a = 7; b = 3; a & b; end") assert_equal(3, cls.foo) end def test_binary_or cls, = compile("def foo; a = 4; b = 3; a | b; end") assert_equal(7, cls.foo) end def test_binary_xor cls, = compile("def foo; a = 5; b = 3; a ^ b; end") assert_equal(6, cls.foo) end def test_return cls, = compile("def foo; return 1; end") assert_equal(1, cls.foo) cls, = compile("def foo; return 1.0; end") assert_equal(1.0, cls.foo) cls, = compile("def foo; return 'bar'; end") assert_equal('bar', cls.foo) end def test_primitive_array cls, = compile("def foo; a = boolean[2]; a; end") assert_equal(Java::boolean[].java_class, cls.foo.class.java_class) assert_equal([false,false], cls.foo.to_a) cls, = compile("def foo; a = boolean[2]; a[0] = true; a[0]; end") assert_equal(TrueClass, cls.foo.class) assert_equal(true, cls.foo) cls, = compile("def foo; a = boolean[2]; a.length; end") assert_equal(Fixnum, cls.foo.class) assert_equal(2, cls.foo) cls, = compile("def foo; a = byte[2]; a; end") assert_equal(Java::byte[].java_class, cls.foo.class.java_class) assert_equal([0,0], cls.foo.to_a) cls, = compile("def foo; a = byte[2]; a[0] = 1; a[0]; end") assert_equal(Fixnum, cls.foo.class) assert_equal(1, cls.foo) cls, = compile("def foo; a = short[2]; a; end") assert_equal(Java::short[].java_class, cls.foo.class.java_class) assert_equal([0,0], cls.foo.to_a) cls, = compile("def foo; a = short[2]; a[0] = 1; a[0]; end") assert_equal(Fixnum, cls.foo.class) assert_equal(1, cls.foo) cls, = compile("def foo; a = char[2]; a; end") assert_equal(Java::char[].java_class, cls.foo.class.java_class) assert_equal([0,0], cls.foo.to_a) # Pending char constants or casts # cls, = compile("def foo; a = char[2]; a[0] = 1; a[0]; end") # assert_equal(Fixnum, cls.foo.class) # assert_equal(1, cls.foo) cls, = compile("def foo; a = int[2]; a; end") assert_equal(Java::int[].java_class, cls.foo.class.java_class) assert_equal([0,0], cls.foo.to_a) cls, = compile("def foo; a = int[2]; a[0] = 1; a[0]; end") assert_equal(Fixnum, cls.foo.class) assert_equal(1, cls.foo) cls, = compile("def foo; a = long[2]; a; end") assert_equal(Java::long[].java_class, cls.foo.class.java_class) assert_equal([0,0], cls.foo.to_a) cls, = compile(<<-EOF) def foo a = long[2] a[0] = 1 a[0] end EOF assert_equal(Fixnum, cls.foo.class) assert_equal(1, cls.foo) cls, = compile("def foo; a = float[2]; a; end") assert_equal(Java::float[].java_class, cls.foo.class.java_class) assert_equal([0.0,0.0], cls.foo.to_a) cls, = compile("def foo; a = float[2]; a[0] = float(1.0); a[0]; end") assert_equal(Float, cls.foo.class) assert_equal(1.0, cls.foo) cls, = compile("def foo; a = double[2]; a; end") assert_equal(Java::double[].java_class, cls.foo.class.java_class) assert_equal([0.0,0.0], cls.foo.to_a) cls, = compile(<<-EOF) def foo a = double[2] a[0] = 1.0 a[0] end EOF assert_equal(Float, cls.foo.class) assert_equal(1.0, cls.foo) end def test_array_with_dynamic_size cls, = compile("def foo(size:int); a = int[size + 1];end") array = cls.foo(3) assert_equal(Java::int[].java_class, array.class.java_class) assert_equal([0,0,0,0], array.to_a) end def test_object_array cls, = compile("import java.lang.Object;def foo; a = Object[2];end") assert_equal(Java::JavaLang::Object[].java_class, cls.foo.class.java_class) assert_equal([nil, nil], cls.foo.to_a) end def test_string_concat cls, = compile(" def str_str; a = 'a'; b = 'b'; a + b; end def str_boolean; a = 'a'; b = false; a + b; end def str_float; a = 'a'; b = float(1.0); a + b; end def str_double; a = 'a'; b = 1.0; a + b; end def str_byte; a = 'a'; b = byte(1); a + b; end def str_short; a = 'a'; b = short(1); a + b; end def str_char; a = 'a'; b = char(123); a + b; end def str_int; a = 'a'; b = 1; a + b; end def str_long; a = 'a'; b = long(1); a + b; end ") assert_equal("ab", cls.str_str) assert_equal("afalse", cls.str_boolean) assert_equal("a1.0", cls.str_float) assert_equal("a1.0", cls.str_double) assert_equal("a1", cls.str_byte) assert_equal("a1", cls.str_short) assert_equal("a{", cls.str_char) assert_equal("a1", cls.str_int) assert_equal("a1", cls.str_long) end def test_void_selfcall cls, = compile("import 'System', 'java.lang.System'; def foo; System.gc; end; foo") assert_nothing_raised {cls.foo} end def test_void_chain cls, = compile(<<-EOF) import java.io.* def foo throws IOException OutputStreamWriter.new( System.out).write("Hello ").write("there\n").flush end EOF assert_output("Hello there\n") { cls.foo } a, b = compile(<<-EOF) class VoidBase def foo returns void puts "foo" end end class VoidChain < VoidBase def bar returns void puts "bar" end def self.foobar VoidChain.new.foo.bar end end EOF assert_output("foo\nbar\n") { b.foobar } end def test_import cls, = compile("import 'AL', 'java.util.ArrayList'; def foo; AL.new; end; foo") assert_equal java.util.ArrayList.java_class, cls.foo.java_class cls, = compile("import 'java.util.ArrayList'; def foo; ArrayList.new; end; foo") assert_equal java.util.ArrayList.java_class, cls.foo.java_class end def test_no_quote_import cls, = compile("import java.util.ArrayList as AL; def foo; AL.new; end; foo") assert_equal java.util.ArrayList.java_class, cls.foo.java_class cls, = compile("import java.util.ArrayList; def foo; ArrayList.new; end; foo") assert_equal java.util.ArrayList.java_class, cls.foo.java_class end def test_imported_decl cls, = compile("import 'java.util.ArrayList'; def foo(a:ArrayList); a.size; end") assert_equal 0, cls.foo(java.util.ArrayList.new) end def test_import_package cls, = compile(<<-EOF) import java.util.* def foo ArrayList.new end EOF assert_equal java.util.ArrayList.java_class, cls.foo.java_class end def test_interface cls, = compile(<<-EOF) import 'java.util.concurrent.Callable' def foo(a:Callable) throws Exception a.call end EOF result = cls.foo {0} assert_equal 0, result m = cls.java_class.java_method 'foo', java.util.concurrent.Callable assert_equal([java.lang.Exception.java_class], m.exception_types) end def test_class_decl foo, = compile("class ClassDeclTest;end") assert_equal('ClassDeclTest', foo.java_class.name) end def test_class_name_from_file_with_underscore foo, = compile("puts 'blah'", 'class_name_test.mirah') assert_equal('ClassNameTest', foo.java_class.name) end def test_class_name_from_file_with_dash foo, = compile("puts 'blah'", 'class-dash-test.mirah') assert_equal('ClassDashTest', foo.java_class.name) end def test_puts cls, = compile("def foo;puts 'Hello World!';end") output = capture_output do cls.foo end assert_equal("Hello World!\n", output) end def test_print cls, = compile("def foo;print 'Hello World!';end") output = capture_output do cls.foo end assert_equal("Hello World!", output) end def test_method # TODO auto generate a constructor cls, = compile( "class MethodTest; def foo; 'foo';end;end") instance = cls.new assert_equal(cls, instance.class) assert_equal('foo', instance.foo) end def test_unless_fixnum cls, = compile(<<-EOF) def foo(a:fixnum) values = boolean[5] values[0] = true unless a < 0 values[1] = true unless a <= 0 values[2] = true unless a == 0 values[3] = true unless a >= 0 values[4] = true unless a > 0 values end EOF assert_equal [true, true, true, false, false], cls.foo(1).to_a assert_equal [true, false, false, false, true], cls.foo(0).to_a assert_equal [false, false, true, true, true], cls.foo(-1).to_a end def test_unless_float cls, = compile(<<-EOF) def foo(a:float) values = boolean[5] values[0] = true unless a < 0.0 values[1] = true unless a <= 0.0 values[2] = true unless a == 0.0 values[3] = true unless a >= 0.0 values[4] = true unless a > 0.0 values end EOF assert_equal [true, true, true, false, false], cls.foo(1.0).to_a assert_equal [true, false, false, false, true], cls.foo(0.0).to_a assert_equal [false, false, true, true, true], cls.foo(-1.0).to_a end def test_if_fixnum cls, = compile(<<-EOF) def foo(a:fixnum) if a < -5 -6 elsif a <= 0 0 elsif a == 1 1 elsif a > 4 5 elsif a >= 3 3 else 2 end end EOF assert_equal(-6, cls.foo(-6)) assert_equal(0, cls.foo(-5)) assert_equal(0, cls.foo(0)) assert_equal(1, cls.foo(1)) assert_equal(2, cls.foo(2)) assert_equal(3, cls.foo(3)) assert_equal(3, cls.foo(4)) assert_equal(5, cls.foo(5)) end def test_if_float cls, = compile(<<-EOF) def foo(a:float) if a < -5.0 -6 elsif a <= 0.0 0 elsif a == 1.0 1 elsif a > 4.0 5 elsif a >= 3.0 3 else 2 end end EOF assert_equal(-6, cls.foo(-5.1)) assert_equal(0, cls.foo(-5.0)) assert_equal(0, cls.foo(0.0)) assert_equal(1, cls.foo(1.0)) assert_equal(2, cls.foo(2.5)) assert_equal(3, cls.foo(3.0)) assert_equal(3, cls.foo(3.5)) assert_equal(5, cls.foo(4.1)) end def test_if_boolean cls, = compile(<<-EOF) def foo(a:boolean) if a 'true' else 'false' end end EOF assert_equal('true', cls.foo(true)) assert_equal('false', cls.foo(false)) end def test_if_int # conditions don't work with :int # cls, = compile("def foo(a:int); if a < 0; -a; else; a; end; end") # assert_equal 1, cls.foo(-1) # assert_equal 3, cls.foo(3) end def test_trailing_conditions cls, = compile(<<-EOF) def foo(a:fixnum) return '+' if a > 0 return '0' unless a < 0 '-' end EOF assert_equal '+', cls.foo(3) assert_equal '0', cls.foo(0) assert_equal '-', cls.foo(-1) end def test_local_decl cls, = compile(<<-EOF) import 'java.lang.String' a = :fixnum b = :int c = :long d = :float e = :string f = String puts a puts b puts c puts d puts e puts f EOF output = capture_output do cls.main([].to_java(:string)) end assert_equal("0\n0\n0\n0.0\nnull\nnull\n", output) end def test_multi_assign cls, = compile(<<-EOF) def foo array = int[2] a = b = 2 array[0] = a array[1] = b array end EOF assert_equal([2, 2], cls.foo.to_a) end def test_loop cls, = compile( 'def foo(a:fixnum);while a > 0; a -= 1; puts ".";end;end') assert_equal('', capture_output{cls.foo(0)}) assert_equal(".\n", capture_output{cls.foo(1)}) assert_equal(".\n.\n", capture_output{cls.foo(2)}) cls, = compile( 'def foo(a:fixnum);begin;a -= 1; puts ".";end while a > 0;end') assert_equal(".\n", capture_output{cls.foo(0)}) assert_equal(".\n", capture_output{cls.foo(1)}) assert_equal(".\n.\n", capture_output{cls.foo(2)}) cls, = compile( 'def foo(a:fixnum);until a <= 0; a -= 1; puts ".";end;end') assert_equal('', capture_output{cls.foo(0)}) assert_equal(".\n", capture_output{cls.foo(1)}) assert_equal(".\n.\n", capture_output{cls.foo(2)}) cls, = compile( 'def foo(a:fixnum);begin;a -= 1; puts ".";end until a <= 0;end') assert_equal(".\n", capture_output{cls.foo(0)}) assert_equal(".\n", capture_output{cls.foo(1)}) assert_equal(".\n.\n", capture_output{cls.foo(2)}) cls, = compile( 'def foo; a = 0; while a < 2; a+=1; end; end') assert_equal(nil, cls.foo) # TODO: loop doesn't work unless you're explicitly in a class # cls, = compile(<<-EOF) # def bar(a:fixnum) # loop do # a += 1 # break if a > 2 # end # a # end # EOF # assert_equal(3, cls.bar(0)) loopy, = compile(<<-EOF) class Loopy def bar(a:fixnum) loop do a += 1 break if a > 2 end a end end EOF assert_equal(3, loopy.new.bar(0)) end def test_break cls, = compile <<-EOF def foo count = 0 while count < 5 count += 1 break if count == 1 end count end EOF assert_equal(1, cls.foo) cls, = compile <<-EOF def foo a = 0 b = 0 while a < 2 a += 1 while b < 5 b += 1 break if b > 0 end break if a == 1 end a * 100 + b end EOF assert_equal(101, cls.foo) cls, = compile <<-EOF def foo count = 0 begin count += 1 break if count == 1 end while count < 5 count end EOF assert_equal(1, cls.foo) end def test_next cls, = compile <<-EOF def foo values = int[3] i = 0 while i < 3 i += 1 next if i == 2 values[i - 1] = i end values end EOF assert_equal([1, 0, 3], cls.foo.to_a) cls, = compile <<-EOF def foo i = 0 while i < 5 i += 1 next if i == 5 end i end EOF assert_equal(5, cls.foo) cls, = compile <<-EOF def foo values = int[3] a = 0 b = 0 while a < 3 b = 0 while b < 5 b += 1 next if b == a + 1 # values[a] += b # TODO values[a] = values[a] + b end a += 1 next if a == 2 values[a - 1] = values[a - 1] + a * 100 end values end EOF assert_equal([114, 13, 312], cls.foo.to_a) cls, = compile <<-EOF def foo count = 0 sum = 0 begin count += 1 next if count == 2 sum += count next if count == 5 end while count < 5 count * 100 + sum end EOF assert_equal(513, cls.foo) end def test_redo cls, = compile <<-EOF def foo i = 0 while i < 5 i += 1 redo if i == 5 end i end EOF assert_equal(6, cls.foo) cls, = compile <<-EOF def foo values = int[4] a = 0 b = 0 while a < 3 b = a while b < 5 b += 1 redo if b == 5 values[a] = values[a] + b end a += 1 values[a - 1] = values[a - 1] + a * 100 redo if a == 3 end values end EOF assert_equal([116, 215, 313, 410], cls.foo.to_a) cls, = compile <<-EOF def foo i = 0 begin i += 1 redo if i == 5 end while i < 5 i end EOF assert_equal(6, cls.foo) end def test_fields cls, = compile(<<-EOF) class FieldTest def initialize(a:fixnum) @a = a end def a @a end def self.set_b(b:fixnum) @@b = b end def b @@b end end EOF first = cls.new(1) assert_equal(1, first.a) second = cls.new(2) assert_equal(1, first.a) assert_equal(2, second.a) cls.set_b 0 assert_equal(0, first.b) assert_equal(0, second.b) assert_equal(1, cls.set_b(1)) assert_equal(1, first.b) assert_equal(1, second.b) end def test_object_intrinsics cls, = compile(<<-EOF) import 'java.lang.Object' def nil(a:Object) a.nil? end def equal(a:Object, b:Object) a == b end EOF assert(cls.nil(nil)) assert(!cls.nil("abc")) a = "foobar".to_java_string b = java.lang.Object.new assert(cls.equal(a, a)) assert(cls.equal(b, b)) assert(!cls.equal(a, b)) end def test_implements cls, = compile(<<-EOF) import java.lang.Iterable class Foo; implements Iterable def iterator nil end end EOF assert_include java.lang.Iterable.java_class, cls.java_class.interfaces end def test_argument_widening cls, = compile(<<-EOF) def _Byte(a:byte) _Short(a) end def _Short(a:short) _Int(a) end def _Int(a:int) _Long(a) end def _Long(a:long) _Float(a) end def _Float(a:float) _Double(a) end def _Double(a:double) a end EOF assert_equal(1.0, cls._Byte(1)) assert_equal(127.0, cls._Byte(127)) assert_equal(128.0, cls._Short(128)) assert_equal(32767.0, cls._Short(32767)) assert_equal(32768.0, cls._Int(32768)) assert_equal(2147483648.0, cls._Long(2147483648)) end def test_interface_declaration interface = compile('interface A do; end').first assert(interface.java_class.interface?) assert_equal('A', interface.java_class.name) a, b = compile('interface A do; end; interface B < A do; end') assert_include(a, b.ancestors) assert_equal('A', a.java_class.name) assert_equal('B', b.java_class.name) a, b, c = compile(<<-EOF) interface A do end interface B do end interface C < A, B do end EOF assert_include(a, c.ancestors) assert_include(b, c.ancestors) assert_equal('A', a.java_class.name) assert_equal('B', b.java_class.name) assert_equal('C', c.java_class.name) assert_raise Mirah::Typer::InferenceError do compile(<<-EOF) interface A do def a returns :int end end class Impl; implements A def a "foo" end end EOF end end def test_raise cls, = compile(<<-EOF) def foo raise end EOF assert_raise_java(java.lang.RuntimeException) do cls.foo end cls, = compile(<<-EOF) def foo raise "Oh no!" end EOF ex = assert_raise_java(java.lang.RuntimeException, 'Oh no!') do cls.foo end cls, = compile(<<-EOF) def foo raise IllegalArgumentException end EOF ex = assert_raise_java(java.lang.IllegalArgumentException) do cls.foo end cls, = compile(<<-EOF) def foo throws Exception raise Exception, "oops" end EOF ex = assert_raise_java(java.lang.Exception, "oops") do cls.foo end cls, = compile(<<-EOF) def foo throws Throwable raise Throwable.new("darn") end EOF ex = assert_raise_java(java.lang.Throwable, "darn") do cls.foo end end def test_ensure cls, = compile(<<-EOF) def foo 1 ensure puts "Hi" end EOF output = capture_output do assert_equal(1, cls.foo) end assert_equal "Hi\n", output cls, = compile(<<-EOF) def foo return 1 ensure puts "Hi" end EOF output = capture_output do assert_equal(1, cls.foo) end assert_equal "Hi\n", output cls, = compile(<<-EOF) def foo begin break ensure puts "Hi" end while false end EOF output = capture_output do cls.foo end assert_equal "Hi\n", output end def test_cast cls, = compile(<<-EOF) def f2b; byte(1.0); end def f2s; short(1.0); end def f2c; char(1.0); end def f2i; int(1.0); end def f2l; long(1.0); end def f2d; int(1.0); end def i2b; byte(1); end def i2s; short(1); end def i2c; char(1); end def i2l; long(1); end def i2f; float(1); end def i2d; int(1); end def b2s; short(byte(1)); end def b2c; char(byte(1)); end def b2i; int(byte(1)); end def b2l; long(byte(1)); end def b2f; float(byte(1)); end def b2d; double(byte(1)); end def s2b; byte(short(1)); end def s2c; char(short(1)); end def s2i; int(short(1)); end def s2l; long(short(1)); end def s2f; float(short(1)); end def s2d; double(short(1)); end def c2b; byte(char(1)); end def c2s; short(char(1)); end def c2i; int(char(1)); end def c2l; long(char(1)); end def c2f; float(char(1)); end def c2d; double(char(1)); end def l2b; byte(long(1)); end def l2c; char(long(1)); end def l2i; int(long(1)); end def l2l; long(long(1)); end def l2f; float(long(1)); end def l2d; double(long(1)); end def d2b; byte(1.0); end def d2s; short(1.0); end def d2c; char(1.0); end def d2i; int(1.0); end def d2l; long(1.0); end def d2f; float(1.0); end def hard_i2f(a:int) float(if a < 0 a *= -1 a * 2 else a * 2 end) end EOF assert_equal 1, cls.b2s assert_equal 1, cls.b2c assert_equal 1, cls.b2i assert_equal 1, cls.b2l assert_equal 1.0, cls.b2f assert_equal 1.0, cls.b2d assert_equal 1, cls.s2b assert_equal 1, cls.s2c assert_equal 1, cls.s2i assert_equal 1, cls.s2l assert_equal 1.0, cls.s2f assert_equal 1.0, cls.s2d assert_equal 1, cls.c2b assert_equal 1, cls.c2s assert_equal 1, cls.c2i assert_equal 1, cls.c2l assert_equal 1.0, cls.c2f assert_equal 1.0, cls.c2d assert_equal 1, cls.i2b assert_equal 1, cls.i2s assert_equal 1, cls.i2c assert_equal 1, cls.i2l assert_equal 1.0, cls.i2f assert_equal 1.0, cls.i2d assert_equal 1, cls.f2b assert_equal 1, cls.f2s assert_equal 1, cls.f2c assert_equal 1, cls.f2i assert_equal 1, cls.f2l assert_equal 1.0, cls.f2d assert_equal 1, cls.d2b assert_equal 1, cls.d2s assert_equal 1, cls.d2c assert_equal 1, cls.d2i assert_equal 1, cls.d2l assert_equal 1.0, cls.d2f assert_equal 2.0, cls.hard_i2f(1) assert_equal 4.0, cls.hard_i2f(-2) end def test_set cls, = compile(<<-EOF) def foo @foo end def foo=(foo:int) @foo = foo end EOF assert_equal(0, cls.foo) assert_equal(2, cls.foo_set(2)) assert_equal(2, cls.foo) end def test_null_is_false cls, = compile("def foo(a:String);if a;true;else;false;end;end") assert_equal(true, cls.foo("a")) assert_equal(false, cls.foo(nil)) end def test_if_expr cls, = compile(<<-EOF) def foo(a:int) return 1 if a == 1 end def bar(a:int) return 1 unless a == 1 end EOF assert_equal(0, cls.foo(0)) assert_equal(1, cls.foo(1)) assert_equal(1, cls.bar(0)) assert_equal(0, cls.bar(1)) end def test_and cls, = compile(<<-EOF) def bool(n:String, x:boolean) puts n x end def foo(a:boolean, b:boolean) return bool('a', a) && bool('b', b) end def str(n:String, x:String) puts n x end def bar(a:String, b:String) return str('a', a) && str('b', b) end EOF assert_output("a\n") { assert_equal(false, cls.foo(false, true)) } assert_output("a\nb\n") { assert_equal(false, cls.foo(true, false)) } assert_output("a\nb\n") { assert_equal(true, cls.foo(true, true)) } assert_output("a\n") { assert_equal(nil, cls.bar(nil, "B")) } assert_output("a\nb\n") { assert_equal(nil, cls.bar("A", nil)) } assert_output("a\nb\n") { assert_equal("B", cls.bar("A", "B")) } cls, = compile(<<-EOF) def s @s end def s=(s:String) @s = s end def b @b end def b=(b:boolean) @b = b end def foo(x:boolean) @b &&= x end def bar(x:String) @s &&= x end EOF cls.b_set(false) assert_equal(false, cls.foo(false)) assert_equal(false, cls.b) cls.b_set(true) assert_equal(false, cls.foo(false)) assert_equal(false, cls.b) cls.b_set(true) assert_equal(true, cls.foo(true)) assert_equal(true, cls.b) cls.s_set(nil) assert_equal(nil, cls.bar(nil)) assert_equal(nil, cls.s) cls.s_set("S") assert_equal(nil, cls.bar(nil)) assert_equal(nil, cls.s) cls.s_set("S") assert_equal("x", cls.bar("x")) assert_equal("x", cls.s) foo, = compile(<<-EOF) class Foo2 def initialize @count = 0 end def count @count end def a @a end def a=(a:String) @count += 1 @a = a end def foo(f:Foo2, x:String) f.a &&= x end end EOF f = foo.new assert_equal(nil, f.foo(f, 'x')) assert_equal(0, f.count) f = foo.new f.a_set("A") assert_equal(nil, f.foo(f, nil)) assert_equal(2, f.count) f = foo.new f.a_set("A") assert_equal('x', f.foo(f, 'x')) assert_equal(2, f.count) end def test_or cls, = compile(<<-EOF) def bool(n:String, x:boolean) puts n x end def foo(a:boolean, b:boolean) return bool('a', a) || bool('b', b) end def str(n:String, x:String) puts n x end def bar(a:String, b:String) return str('a', a) || str('b', b) end EOF assert_output("a\n") { assert_equal(true, cls.foo(true, false)) } assert_output("a\nb\n") { assert_equal(false, cls.foo(false, false)) } assert_output("a\nb\n") { assert_equal(true, cls.foo(false, true)) } assert_output("a\n") { assert_equal("A", cls.bar("A", nil)) } assert_output("a\nb\n") { assert_equal(nil, cls.bar(nil, nil)) } assert_output("a\nb\n") { assert_equal("B", cls.bar(nil, "B")) } cls, = compile(<<-EOF) def s @s end def s=(s:String) @s = s end def b @b end def b=(b:boolean) @b = b end def foo(x:boolean) @b ||= x end def bar(x:String) @s ||= x end EOF cls.b_set(false) assert_equal(false, cls.foo(false)) assert_equal(false, cls.b) cls.b_set(false) assert_equal(true, cls.foo(true)) assert_equal(true, cls.b) cls.b_set(true) assert_equal(true, cls.foo(false)) assert_equal(true, cls.b) cls.s_set(nil) assert_equal(nil, cls.bar(nil)) assert_equal(nil, cls.s) cls.s_set(nil) assert_equal("x", cls.bar("x")) assert_equal("x", cls.s) cls.s_set("S") assert_equal("S", cls.bar("x")) assert_equal("S", cls.s) foo, = compile(<<-EOF) class Foo3 def initialize @count = 0 end def count @count end def a @a end def a=(a:String) @count += 1 @a = a end def foo(f:Foo3, x:String) f.a ||= x end end EOF f = foo.new assert_equal('x', f.foo(f, 'x')) assert_equal(1, f.count) f = foo.new assert_equal(nil, f.foo(f, nil)) assert_equal(1, f.count) f = foo.new f.a_set("A") assert_equal("A", f.foo(f, nil)) assert_equal(1, f.count) f = foo.new f.a_set("A") assert_equal("A", f.foo(f, 'X')) assert_equal(1, f.count) end def test_op_elem_assign foo, = compile(<<-EOF) class Foo4 def initialize @i = -1 end def i @i += 1 end def a @a end def a=(a:String[]) @a = a end def foo(x:String) a[i] ||= x end def bar(x:String) a[i] &&= x end end EOF f = foo.new f.a_set([nil, nil, nil].to_java(:string)) assert_equal(nil, f.bar("x")) assert_equal([nil, nil, nil], f.a.to_a) assert_equal("x", f.foo("x")) assert_equal([nil, "x", nil], f.a.to_a) end def test_literal_array cls, = compile(<<-EOF) def foo; puts "hello"; nil; end def expr [foo] end def nonexpr [foo] nil end EOF assert_output("hello\nhello\n") do val = cls.expr assert val val = cls.nonexpr assert !val end end def test_literal_regexp cls, = compile(<<-EOF) def expr /foo/ end def matches expr.matcher('barfoobaz').find end EOF val = cls.expr assert_equal java.util.regex.Pattern, val.class assert_equal 'foo', val.to_s assert cls.matches end def test_array_return_type cls, = compile(<<-EOF) def split /foo/.split('barfoobaz') end def puts puts split end EOF assert_nothing_raised do result = capture_output {cls.puts} assert result =~ /\[Ljava\.lang\.String;@[a-f0-9]+/ end assert_equal java.lang.String.java_class.array_class, cls.split.class.java_class end def test_same_field_name cls, = compile(<<-EOF) class A1 def foo(bar:String) @bar = bar end end class B1 def foo(bar:String) @bar = bar end end puts A1.new.foo("Hi") puts B1.new.foo("There") EOF assert_output("Hi\nThere\n") do cls.main(nil) end end def test_super cls, = compile(<<-EOF) class Foo def equals(other:Object); super(other); end end EOF obj = cls.new assert obj.equals(obj) assert !obj.equals(cls.new) end def test_method_lookup_with_overrides cls, = compile(<<-EOF) class Bar; implements Runnable def foo(x:Bar) Thread.new(x) end def run end end EOF # Just make sure this compiles. # It shouldn't get confused by the Thread(String) constructor. end def test_optional_args cls, = compile(<<-EOF) def foo(a:int, b:int = 1, c:int = 2) puts a; puts b; puts c end foo(0) foo(0,0) foo(0,0,0) EOF assert_output("0\n1\n2\n0\n0\n2\n0\n0\n0\n") do cls.main([].to_java :string) end end def test_field_read cls, = compile(<<-EOF) puts System.out.getClass.getName EOF assert_output("java.io.PrintStream\n") do cls.main([].to_java :String) end end def test_array_arguments cls, = compile(<<-EOF) class ArrayArg def initialize(foo:byte[]); end def self.make_one(foo:byte[]) ArrayArg.new(foo) end end EOF cls.make_one(nil) end def test_block_with_duby_interface cls, interface = compile(<<-EOF) interface MyProc do def call; returns :void; end end def foo(b:MyProc) b.call end def bar foo {puts "Hi"} end EOF assert_output("Hi\n") do cls.bar end end def test_duby_iterable cls, = compile(<<-EOF) import java.util.Iterator class MyIterator; implements Iterable, Iterator def initialize(x:Object) @next = x end def hasNext @next != nil end def next result = @next @next = nil result end def iterator self end def remove raise UnsupportedOperationException end def self.test(x:String) MyIterator.new(x).each {|y| puts y} end end EOF assert_output("Hi\n") do cls.test("Hi") end end def test_java_lang_cast cls, = compile(<<-EOF) def foo(a:Object) Integer(a).intValue end EOF assert_equal(2, cls.foo(java.lang.Integer.new(2))) end def test_array_cast cls, = compile(<<-EOF) def foo(a:Object) bar(String[].cast(a)) end def bar(a:String[]) a[0] end EOF assert_equal("foo", cls.foo(["foo", "bar"].to_java(:string))) cls, = compile(<<-EOF) def foo(a:Object) bar(int[].cast(a)) end def bar(a:int[]) a[0] end EOF assert_equal(2, cls.foo([2, 3].to_java(:int))) end def test_string_interpolation cls, = compile(<<-EOF) def foo(name:String) print "Hello \#{name}." end EOF assert_output("Hello Fred.") do cls.foo "Fred" end cls, = compile(<<-EOF) def foo(x:int) print "\#{x += 1}" x end EOF assert_output("2") do assert_equal(2, cls.foo(1)) end cls, = compile(<<-EOF) def foo(a:int) "\#{a += 1}" a end EOF assert_equal(2, cls.foo(1)) end def test_string_interpolation_method_calls cls, = compile <<-CODE print "apples \#{'oranges'}".replace('apples', 'oranges') CODE assert_output "oranges oranges" do cls.main nil end end def test_self_dot_static_methods cls, = compile(<<-EOF) class ClassWithStatics def self.a b end def self.b print "b" end end EOF assert_output("b") do cls.a end end def test_evaluation_order cls, = compile(<<-EOF) def call(a:int, b:int, c:int) print "\#{a}, \#{b}, \#{c}" end def test_call(a:int) call(a, if a < 10;a+=1;a;else;a;end, a) end def test_string(a:int) "\#{a}, \#{if a < 10;a += 1;a;else;a;end}, \#{a}" end EOF assert_output("1, 2, 2") do cls.test_call(1) end assert_equal("2, 3, 3", cls.test_string(2)) end def test_inner_class cls, = compile(<<-EOF) def foo Character.UnicodeBlock.ARROWS end EOF subset = cls.foo assert_equal("java.lang.Character$UnicodeBlock", subset.java_class.name) end def test_class_literal cls, = compile(<<-EOF) def foo String.class.getName end EOF assert_equal("java.lang.String", cls.foo) end def test_instanceof cls, = compile(<<-EOF) def string(x:Object) x.kind_of?(String) end def dynamic(c:Class, o:Object) o.kind_of?(c) end EOF assert_equal(true, cls.string("foo")) assert_equal(false, cls.string(2)) assert_equal(true, cls.dynamic(java.lang.String, "foo")) assert_equal(true, cls.dynamic(java.lang.Object, "foo")) assert_equal(false, cls.dynamic(java.lang.Object, nil)) end def test_static_import cls, = compile(<<-EOF) import java.util.Arrays include Arrays def list(x:Object[]) asList(x) end EOF o = ["1", "2", "3"].to_java(:object) list = cls.list(o) assert_kind_of(Java::JavaUtil::List, list) assert_equal(["1", "2", "3"], list.to_a) cls, = compile(<<-EOF) import java.util.Arrays class StaticImports include Arrays def list(x:Object[]) asList(x) end end EOF list = cls.new.list(o) assert_kind_of(Java::JavaUtil::List, list) assert_equal(["1", "2", "3"], list.to_a) end # TODO: need a writable field somewhere... # def test_field_write # cls, = compile(<<-EOF) # old_pi = Math.PI # Math.PI = 3.0 # puts Math.PI # Math.PI = old_pi # puts Math.PI # EOF # raise # cls.main([].to_java :string) # assert_output("3.0\n") do # cls.main([].to_java :string) # end # end def test_class_append_self cls, = compile(<<-EOF) class Append class << self def hi print 'Static Hello' end end end EOF output = capture_output do cls.hi end assert_equal('Static Hello', output) end def test_hashes cls, = compile(<<-EOF) def foo1 {a:"A", b:"B"} end def foo2 return {a:"A", b:"B"} end EOF map = cls.foo1 assert_equal("A", map["a"]) assert_equal("B", map["b"]) map = cls.foo2 assert_equal("A", map["a"]) assert_equal("B", map["b"]) cls, = compile(<<-'EOF') def set(b:Object) map = { } map["key"] = b map["key"] end EOF assert_equal("foo", cls.set("foo")) end def test_hash_with_value_from_static_method cls, = compile(<<-EOF) def foo1 {a: a, b:"B"} end def a return "A" end EOF assert_equal("A", cls.foo1["a"]) end def test_hash_with_value_from_instance_method cls, = compile(<<-EOF) class HashTesty def foo1 {a: a, b:"B"} end def a return "A" end end EOF assert_equal("A", cls.new.foo1["a"]) end def test_loop_in_ensure cls, = compile(<<-EOF) begin puts "a" begin puts "b" break end while false puts "c" ensure puts "ensure" end EOF assert_output("a\nb\nc\nensure\n") { cls.main(nil) } end def test_return_type assert_raise Mirah::Typer::InferenceError do compile(<<-EOF) class ReturnsA def a:int :foo end end EOF end assert_raise Mirah::Typer::InferenceError do compile(<<-EOF) class ReturnsB def self.a:String 2 end end EOF end end def test_abstract abstract_class, concrete_class = compile(<<-EOF) abstract class Abstract abstract def foo:void; end def bar; puts "bar"; end end class Concrete < Abstract def foo; puts :foo; end end EOF assert_output("foo\nbar\n") do a = concrete_class.new a.foo a.bar end assert_raise_java java.lang.InstantiationException do abstract_class.new end end def test_return_void script, = compile(<<-EOF) def foo:void puts :hi return end EOF assert_output("hi\n") { script.foo } end def test_package script, cls = compile(<<-EOF) package foo # package foo.bar { # class PackagedBar # def self.dosomething # "bar" # end # end # } def dosomething "foo" end EOF package = script.java_class.name.split('.')[0] assert_equal('foo', package) assert_equal('foo', script.dosomething) # TODO move package to the parser so we can support blocks # assert_equal('bar', cls.dosomething) # assert_equal("foo.bar.PackagedBar", cls.java_class.name) end def test_not cls, = compile(<<-EOF) def foo(x:boolean) !x end def bar(x:Object) !x end EOF assert_equal(true, cls.foo(false)) assert_equal(false, cls.foo(true)) assert_equal(true, cls.bar(nil)) assert_equal(false, cls.bar("")) end def test_rescue_scope cls, = compile(<<-EOF) def foo a = 1 b = 2 begin raise "Foo" rescue => b puts a puts b.getMessage end puts b end EOF assert_output("1\nFoo\n2\n") { cls.foo } end def test_scoped_self_through_method_call cls, = compile(<<-EOF) class ScopedSelfThroughMethodCall def emptyMap {} end def foo emptyMap["a"] = "A" end end EOF # just make sure it can execute m = cls.new.foo end def test_self_call_preserves_scope cls, = compile(<<-EOF) class SelfCallPreservesScope def key "key" end def foo map = {} map[key] = "value" map end end EOF map = cls.new.foo assert_equal("value", map["key"]) end def test_wide_nonexpressions script, cls1, cls2 = compile(<<-EOF) class WideA def a 2.5 end end class WideB < WideA def a super 3.5 end end def self.b 1.5 end 1.5 WideA.new.a WideB.new.a b EOF script.main(nil) end def test_parameter_used_in_block cls, = compile(<<-EOF) def foo(x:String):void thread = Thread.new do puts "Hello \#{x}" end begin thread.run thread.join rescue puts "Uh Oh!" end end foo('there') EOF assert_output("Hello there\n") do cls.main(nil) end end def test_colon2 cls, = compile(<<-EOF) def foo java.util::HashSet.new end EOF assert_kind_of(java.util.HashSet, cls.foo) end def test_colon2_cast cls, = compile(<<-EOF) def foo(x:Object) java.util::Map.Entry(x) end EOF entry = java.util.HashMap.new(:a => 1).entrySet.iterator.next assert_equal(entry, cls.foo(entry)) end def test_covariant_arrays cls, = compile(<<-EOF) puts java::util::Arrays.toString(String[5]) EOF assert_output("[null, null, null, null, null]\n") do cls.main(nil) end end def test_getClass_on_object_array cls, = compile(<<-EOF) puts Object[0].getClass.getName EOF assert_output("[Ljava.lang.Object;\n") do cls.main(nil) end end def test_nil_assign cls, = compile(<<-EOF) def foo a = nil a = 'hello' a.length end EOF assert_equal(5, cls.foo) cls, = compile(<<-EOF) a = nil puts a EOF assert_output("null\n") do cls.main(nil) end end def test_long_generation cls, = compile(<<-EOF) c = 2_000_000_000_000 puts c EOF end <<<<<<< HEAD:test/jvm/jvm_compiler_test.rb def test_missing_class_with_block_raises_inference_error assert_raises Typer::InferenceError do compile("Interface Implements_Go do; end") end end def test_bool_equality cls, = compile("puts true == false") assert_output("false\n") do cls.main(nil) end end def test_bool_inequality cls, = compile("puts true != false") assert_output("true\n") do ======= def test_add_args_in_macro cls, = compile(<<-EOF) macro def foo(a) import duby.lang.compiler.Node quote { bar "1", `Node(a.child_nodes.get(0)).child_nodes`, "2"} end def bar(a:String, b:String, c:String, d:String) puts "\#{a} \#{b} \#{c} \#{d}" end foo(["a", "b"]) EOF assert_output("1 a b 2\n") do >>>>>>> parser_support:test/test_jvm_compiler.rb cls.main(nil) end end end