Commit 0b1c387f authored by capresti@gmail.com's avatar capresti@gmail.com
Browse files

- Added xUnit based test project to repository

git-svn-id: http://luainterface.googlecode.com/svn/trunk@19 63eb109e-e254-0410-a61e-ed0b8f8614f5
parent f648d6f6
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using System;
using System.Text;
using System.Collections.Generic;
using System.Linq;
using Xunit;
using LuaInterface.Test.Mock;
namespace LuaInterface.Test
{
public class LuaTests
{
[Fact]
public void TestMultipleOutParameters()
{
using (Lua lua = new Lua())
{
TestClass t1 = new TestClass();
lua["netobj"] = t1;
lua.DoString("a,b,c=netobj:outValMutiple(2)");
int a = (int)lua.GetNumber("a");
string b = (string)lua.GetString("b");
string c = (string)lua.GetString("c");
Assert.Equal(2, a);
Assert.NotNull(b);
Assert.NotNull(c);
}
}
[Fact]
public void TestLoadStringLeak()
{
//Test to prevent stack overflow
//See: http://code.google.com/p/luainterface/issues/detail?id=5
//number of iterations to test
int count = 10000;
using (Lua lua = new Lua())
{
for (int i = 0; i < count; i++)
{
lua.LoadString("abc = 'def'", string.Empty);
}
}
//any thrown exceptions cause the test run to fail
}
[Fact]
public void TestLoadFileLeak()
{
//Test to prevent stack overflow
//See: http://code.google.com/p/luainterface/issues/detail?id=5
//number of iterations to test
int count = 10000;
using (Lua lua = new Lua())
{
for (int i = 0; i < count; i++)
{
lua.LoadFile(Environment.CurrentDirectory + System.IO.Path.DirectorySeparatorChar + "test.lua");
}
}
//any thrown exceptions cause the test run to fail
}
[Fact]
public void TestRegisterFunction()
{
using (Lua lua = new Lua())
{
lua.RegisterFunction("func1", null, typeof(TestClass2).GetMethod("func"));
object[] vals1 = lua.GetFunction("func1").Call(2, 3);
Assert.Equal(5.0f, Convert.ToSingle(vals1[0]));
TestClass2 obj = new TestClass2();
lua.RegisterFunction("func2", obj, typeof(TestClass2).GetMethod("funcInstance"));
vals1 = lua.GetFunction("func2").Call(2, 3);
Assert.Equal(5.0f, Convert.ToSingle(vals1[0]));
}
}
/*
* Tests if DoString is correctly returning values
*/
[Fact]
public void DoString()
{
using (Lua lua = new Lua())
{
object[] res = lua.DoString("a=2\nreturn a,3");
//Console.WriteLine("a="+res[0]+", b="+res[1]);
Assert.Equal(res[0], 2d);
Assert.Equal(res[1], 3d);
}
}
/*
* Tests getting of global numeric variables
*/
[Fact]
public void GetGlobalNumber()
{
using (Lua lua = new Lua())
{
lua.DoString("a=2");
double num = lua.GetNumber("a");
//Console.WriteLine("a="+num);
Assert.Equal(num, 2d);
}
}
/*
* Tests setting of global numeric variables
*/
[Fact]
public void SetGlobalNumber()
{
using (Lua lua = new Lua())
{
lua.DoString("a=2");
lua["a"] = 3;
double num = lua.GetNumber("a");
//Console.WriteLine("a="+num);
Assert.Equal(num, 3d);
}
}
/*
* Tests getting of numeric variables from tables
* by specifying variable path
*/
[Fact]
public void GetNumberInTable()
{
using (Lua lua = new Lua())
{
lua.DoString("a={b={c=2}}");
double num = lua.GetNumber("a.b.c");
//Console.WriteLine("a.b.c="+num);
Assert.Equal(num, 2d);
}
}
/*
* Tests setting of numeric variables from tables
* by specifying variable path
*/
[Fact]
public void SetNumberInTable()
{
using (Lua lua = new Lua())
{
lua.DoString("a={b={c=2}}");
lua["a.b.c"] = 3;
double num = lua.GetNumber("a.b.c");
//Console.WriteLine("a.b.c="+num);
Assert.Equal(num, 3d);
}
}
/*
* Tests getting of global string variables
*/
[Fact]
public void GetGlobalString()
{
using (Lua lua = new Lua())
{
lua.DoString("a=\"test\"");
string str = lua.GetString("a");
//Console.WriteLine("a="+str);
Assert.Equal(str, "test");
}
}
/*
* Tests setting of global string variables
*/
[Fact]
public void SetGlobalString()
{
using (Lua lua = new Lua())
{
lua.DoString("a=\"test\"");
lua["a"] = "new test";
string str = lua.GetString("a");
//Console.WriteLine("a="+str);
Assert.Equal(str, "new test");
}
}
/*
* Tests getting of string variables from tables
* by specifying variable path
*/
[Fact]
public void GetStringInTable()
{
using (Lua lua = new Lua())
{
lua.DoString("a={b={c=\"test\"}}");
string str = lua.GetString("a.b.c");
//Console.WriteLine("a.b.c="+str);
Assert.Equal(str, "test");
}
}
/*
* Tests setting of string variables from tables
* by specifying variable path
*/
[Fact]
public void SetStringInTable()
{
using (Lua lua = new Lua())
{
lua.DoString("a={b={c=\"test\"}}");
lua["a.b.c"] = "new test";
string str = lua.GetString("a.b.c");
//Console.WriteLine("a.b.c="+str);
Assert.Equal(str, "new test");
}
}
/*
* Tests getting and setting of global table variables
*/
[Fact]
public void GetAndSetTable()
{
using (Lua lua = new Lua())
{
lua.DoString("a={b={c=2}}\nb={c=3}");
LuaTable tab = lua.GetTable("b");
lua["a.b"] = tab;
double num = lua.GetNumber("a.b.c");
//Console.WriteLine("a.b.c="+num);
Assert.Equal(num, 3d);
}
}
/*
* Tests getting of numeric field of a table
*/
[Fact]
public void GetTableNumericField1()
{
using (Lua lua = new Lua())
{
lua.DoString("a={b={c=2}}");
LuaTable tab = lua.GetTable("a.b");
double num = (double)tab["c"];
//Console.WriteLine("a.b.c="+num);
Assert.Equal(num, 2d);
}
}
/*
* Tests getting of numeric field of a table
* (the field is inside a subtable)
*/
[Fact]
public void GetTableNumericField2()
{
using (Lua lua = new Lua())
{
lua.DoString("a={b={c=2}}");
LuaTable tab = lua.GetTable("a");
double num = (double)tab["b.c"];
//Console.WriteLine("a.b.c="+num);
Assert.Equal(num, 2d);
}
}
/*
* Tests setting of numeric field of a table
*/
[Fact]
public void SetTableNumericField1()
{
using (Lua lua = new Lua())
{
lua.DoString("a={b={c=2}}");
LuaTable tab = lua.GetTable("a.b");
tab["c"] = 3;
double num = lua.GetNumber("a.b.c");
//Console.WriteLine("a.b.c="+num);
Assert.Equal(num, 3d);
}
}
/*
* Tests setting of numeric field of a table
* (the field is inside a subtable)
*/
[Fact]
public void SetTableNumericField2()
{
using (Lua lua = new Lua())
{
lua.DoString("a={b={c=2}}");
LuaTable tab = lua.GetTable("a");
tab["b.c"] = 3;
double num = lua.GetNumber("a.b.c");
//Console.WriteLine("a.b.c="+num);
Assert.Equal(num, 3d);
}
}
/*
* Tests getting of string field of a table
*/
[Fact]
public void GetTableStringField1()
{
using (Lua lua = new Lua())
{
lua.DoString("a={b={c=\"test\"}}");
LuaTable tab = lua.GetTable("a.b");
string str = (string)tab["c"];
//Console.WriteLine("a.b.c="+str);
Assert.Equal(str, "test");
}
}
/*
* Tests getting of string field of a table
* (the field is inside a subtable)
*/
[Fact]
public void GetTableStringField2()
{
using (Lua lua = new Lua())
{
lua.DoString("a={b={c=\"test\"}}");
LuaTable tab = lua.GetTable("a");
string str = (string)tab["b.c"];
//Console.WriteLine("a.b.c="+str);
Assert.Equal(str, "test");
}
}
/*
* Tests setting of string field of a table
*/
[Fact]
public void SetTableStringField1()
{
using (Lua lua = new Lua())
{
lua.DoString("a={b={c=\"test\"}}");
LuaTable tab = lua.GetTable("a.b");
tab["c"] = "new test";
string str = lua.GetString("a.b.c");
//Console.WriteLine("a.b.c="+str);
Assert.Equal(str, "new test");
}
}
/*
* Tests setting of string field of a table
* (the field is inside a subtable)
*/
[Fact]
public void SetTableStringField2()
{
using (Lua lua = new Lua())
{
lua.DoString("a={b={c=\"test\"}}");
LuaTable tab = lua.GetTable("a");
tab["b.c"] = "new test";
string str = lua.GetString("a.b.c");
//Console.WriteLine("a.b.c="+str);
Assert.Equal(str, "new test");
}
}
/*
* Tests calling of a global function with zero arguments
*/
[Fact]
public void CallGlobalFunctionNoArgs()
{
using (Lua lua = new Lua())
{
lua.DoString("a=2\nfunction f()\na=3\nend");
lua.GetFunction("f").Call();
double num = lua.GetNumber("a");
//Console.WriteLine("a="+num);
Assert.Equal(num, 3d);
}
}
/*
* Tests calling of a global function with one argument
*/
[Fact]
public void CallGlobalFunctionOneArg()
{
using (Lua lua = new Lua())
{
lua.DoString("a=2\nfunction f(x)\na=a+x\nend");
lua.GetFunction("f").Call(1);
double num = lua.GetNumber("a");
//Console.WriteLine("a="+num);
Assert.Equal(num, 3d);
}
}
/*
* Tests calling of a global function with two arguments
*/
[Fact]
public void CallGlobalFunctionTwoArgs()
{
using (Lua lua = new Lua())
{
lua.DoString("a=2\nfunction f(x,y)\na=x+y\nend");
lua.GetFunction("f").Call(1, 3);
double num = lua.GetNumber("a");
//Console.WriteLine("a="+num);
Assert.Equal(num, 4d);
}
}
/*
* Tests calling of a global function that returns one value
*/
[Fact]
public void CallGlobalFunctionOneReturn()
{
using (Lua lua = new Lua())
{
lua.DoString("function f(x)\nreturn x+2\nend");
object[] ret = lua.GetFunction("f").Call(3);
//Console.WriteLine("ret="+ret[0]);
Assert.Equal(1, ret.Length);
Assert.Equal(5, (double)ret[0]);
}
}
/*
* Tests calling of a global function that returns two values
*/
[Fact]
public void CallGlobalFunctionTwoReturns()
{
using (Lua lua = new Lua())
{
lua.DoString("function f(x,y)\nreturn x,x+y\nend");
object[] ret = lua.GetFunction("f").Call(3, 2);
//Console.WriteLine("ret="+ret[0]+","+ret[1]);
Assert.Equal(2, ret.Length);
Assert.Equal(3, (double)ret[0]);
Assert.Equal(5, (double)ret[1]);
}
}
/*
* Tests calling of a function inside a table
*/
[Fact]
public void CallTableFunctionTwoReturns()
{
using (Lua lua = new Lua())
{
lua.DoString("a={}\nfunction a.f(x,y)\nreturn x,x+y\nend");
object[] ret = lua.GetFunction("a.f").Call(3, 2);
//Console.WriteLine("ret="+ret[0]+","+ret[1]);
Assert.Equal(2, ret.Length);
Assert.Equal(3, (double)ret[0]);
Assert.Equal(5, (double)ret[1]);
}
}
/*
* Tests setting of a global variable to a CLR object value
*/
[Fact]
public void SetGlobalObject()
{
using (Lua lua = new Lua())
{
TestClass t1 = new TestClass();
t1.testval = 4;
lua["netobj"] = t1;
object o = lua["netobj"];
TestClass t2 = (TestClass)lua["netobj"];
Assert.Equal(t2.testval, 4);
Assert.True(t1 == t2);
}
}
///*
// * Tests if CLR object is being correctly collected by Lua
// */
//[Fact]
//public void GarbageCollection()
//{
// using (Lua lua = new Lua())
// {
// TestClass t1 = new TestClass();
// t1.testval = 4;
// lua["netobj"] = t1;
// TestClass t2 = (TestClass)lua["netobj"];
// Assert.True(lua[0] != null);
// lua.DoString("netobj=nil;collectgarbage();");
// Assert.True(lua.translator.objects[0] == null);
// }
//}
/*
* Tests setting of a table field to a CLR object value
*/
[Fact]
public void SetTableObjectField1()
{
using (Lua lua = new Lua())
{
lua.DoString("a={b={c=\"test\"}}");
LuaTable tab = lua.GetTable("a.b");
TestClass t1 = new TestClass();
t1.testval = 4;
tab["c"] = t1;
TestClass t2 = (TestClass)lua["a.b.c"];
//Console.WriteLine("a.b.c="+t2.testval);
Assert.Equal(t2.testval, 4);
Assert.True(t1 == t2);
}
}
/*
* Tests reading and writing of an object's field
*/
[Fact]
public void AccessObjectField()
{
using (Lua lua = new Lua())
{
TestClass t1 = new TestClass();
t1.val = 4;
lua["netobj"] = t1;
lua.DoString("var=netobj.val");
double var = (double)lua["var"];
//Console.WriteLine("value from Lua="+var);
Assert.Equal(4, var);
lua.DoString("netobj.val=3");
Assert.Equal(3, t1.val);
//Console.WriteLine("new val (from Lua)="+t1.val);
}
}
/*
* Tests reading and writing of an object's non-indexed
* property
*/
[Fact]
public void AccessObjectProperty()
{
using (Lua lua = new Lua())
{
TestClass t1 = new TestClass();
t1.testval = 4;
lua["netobj"] = t1;
lua.DoString("var=netobj.testval");
double var = (double)lua["var"];
//Console.WriteLine("value from Lua="+var);
Assert.Equal(4, var);
lua.DoString("netobj.testval=3");
Assert.Equal(3, t1.testval);
//Console.WriteLine("new val (from Lua)="+t1.testval);
}
}
/*
* Tests calling of an object's method with no overloads
*/
[Fact]
public void CallObjectMethod()
{
using (Lua lua = new Lua())
{
TestClass t1 = new TestClass();
t1.testval = 4;
lua["netobj"] = t1;
lua.DoString("netobj:setVal(3)");
Assert.Equal(3, t1.testval);
//Console.WriteLine("new val(from C#)="+t1.testval);
lua.DoString("val=netobj:getVal()");
int val = (int)lua.GetNumber("val");
Assert.Equal(3, val);
//Console.WriteLine("new val(from Lua)="+val);
}
}
/*
* Tests calling of an object's method with overloading
*/
[Fact]
public void CallObjectMethodByType()
{
using (Lua lua = new Lua())
{
TestClass t1 = new TestClass();
lua["netobj"] = t1;
lua.DoString("netobj:setVal('str')");
Assert.Equal("str", t1.getStrVal());
//Console.WriteLine("new val(from C#)="+t1.getStrVal());
}
}
/*
* Tests calling of an object's method with no overloading
* and out parameters
*/
[Fact]
public void CallObjectMethodOutParam()
{
using (Lua lua = new Lua())
{
TestClass t1 = new TestClass();
lua["netobj"] = t1;
lua.DoString("a,b=netobj:outVal()");
int a = (int)lua.GetNumber("a");
int b = (int)lua.GetNumber("b");
Assert.Equal(3, a);
Assert.Equal(5, b);
//Console.WriteLine("function returned (from lua)="+a+","+b);
}
}
/*
* Tests calling of an object's method with overloading and
* out params
*/
[Fact]
public void CallObjectMethodOverloadedOutParam()
{
using (Lua lua = new Lua())
{
TestClass t1 = new TestClass();
lua["netobj"] = t1;
lua.DoString("a,b=netobj:outVal(2)");
int a = (int)lua.GetNumber("a");
int b = (int)lua.GetNumber("b");
Assert.Equal(2, a);
Assert.Equal(5, b);
//Console.WriteLine("function returned (from lua)="+a+","+b);
}
}
/*
* Tests calling of an object's method with ref params
*/
[Fact]
public void CallObjectMethodByRefParam()
{
using (Lua lua = new Lua())
{
TestClass t1 = new TestClass();
lua["netobj"] = t1;
lua.DoString("a,b=netobj:outVal(2,3)");
int a = (int)lua.GetNumber("a");
int b = (int)lua.GetNumber("b");
Assert.Equal(2, a);
Assert.Equal(5, b);
//Console.WriteLine("function returned (from lua)="+a+","+b);
}
}
/*
* Tests calling of two versions of an object's method that have
* the same name and signature but implement different interfaces
*/
[Fact]
public void CallObjectMethodDistinctInterfaces()
{
using (Lua lua = new Lua())
{
TestClass t1 = new TestClass();
lua["netobj"] = t1;
lua.DoString("a=netobj:foo()");
lua.DoString("b=netobj['LuaInterface.Test.Mock.IFoo1.foo'](netobj)");
int a = (int)lua.GetNumber("a");
int b = (int)lua.GetNumber("b");
Assert.Equal(5, a);
Assert.Equal(3, b);
//Console.WriteLine("function returned (from lua)="+a+","+b);
}
}
/*
* Tests instantiating an object with no-argument constructor
*/
[Fact]
public void CreateNetObjectNoArgsCons()
{
using (Lua lua = new Lua())
{
lua.DoString("luanet.load_assembly(\"LuaInterface.Test\")");
lua.DoString("TestClass=luanet.import_type(\"LuaInterface.Test.Mock.TestClass\")");
lua.DoString("test=TestClass()");
lua.DoString("test:setVal(3)");
object[] res = lua.DoString("return test");
TestClass test = (TestClass)res[0];
//Console.WriteLine("returned: "+test.testval);
Assert.Equal(3, test.testval);
}
}
/*
* Tests instantiating an object with one-argument constructor
*/
[Fact]
public void CreateNetObjectOneArgCons()
{
using (Lua lua = new Lua())
{
lua.DoString("luanet.load_assembly(\"LuaInterface.Test\")");
lua.DoString("TestClass=luanet.import_type(\"LuaInterface.Test.Mock.TestClass\")");
lua.DoString("test=TestClass(3)");
object[] res = lua.DoString("return test");
TestClass test = (TestClass)res[0];
//Console.WriteLine("returned: "+test.testval);
Assert.Equal(3, test.testval);
}
}
/*
* Tests instantiating an object with overloaded constructor
*/
[Fact]
public void CreateNetObjectOverloadedCons()
{
using (Lua lua = new Lua())
{
lua.DoString("luanet.load_assembly(\"LuaInterface.Test\")");
lua.DoString("TestClass=luanet.import_type(\"LuaInterface.Test.Mock.TestClass\")");
lua.DoString("test=TestClass('str')");
object[] res = lua.DoString("return test");
TestClass test = (TestClass)res[0];
//Console.WriteLine("returned: "+test.getStrVal());
Assert.Equal("str", test.getStrVal());
}
}
/*
* Tests getting item of a CLR array
*/
[Fact]
public void ReadArrayField()
{
using (Lua lua = new Lua())
{
string[] arr = new string[] { "str1", "str2", "str3" };
lua["netobj"] = arr;
lua.DoString("val=netobj[1]");
string val = lua.GetString("val");
Assert.Equal("str2", val);
//Console.WriteLine("new val(from array to Lua)="+val);
}
}
/*
* Tests setting item of a CLR array
*/
[Fact]
public void WriteArrayField()
{
using (Lua lua = new Lua())
{
string[] arr = new string[] { "str1", "str2", "str3" };
lua["netobj"] = arr;
lua.DoString("netobj[1]='test'");
Assert.Equal("test", arr[1]);
//Console.WriteLine("new val(from Lua to array)="+arr[1]);
}
}
/*
* Tests creating a new CLR array
*/
[Fact]
public void CreateArray()
{
using (Lua lua = new Lua())
{
lua.DoString("luanet.load_assembly(\"LuaInterface.Test\")");
lua.DoString("TestClass=luanet.import_type(\"LuaInterface.Test.Mock.TestClass\")");
lua.DoString("arr=TestClass[3]");
lua.DoString("for i=0,2 do arr[i]=TestClass(i+1) end");
TestClass[] arr = (TestClass[])lua["arr"];
Assert.Equal(arr[1].testval, 2);
}
}
/*
* Tests passing a Lua function to a delegate
* with value-type arguments
*/
[Fact]
public void LuaDelegateValueTypes()
{
using (Lua lua = new Lua())
{
lua.DoString("luanet.load_assembly('LuaInterface.Test')");
lua.DoString("TestClass=luanet.import_type('LuaInterface.Test.Mock.TestClass')");
lua.DoString("test=TestClass()");
lua.DoString("function func(x,y) return x+y; end");
lua.DoString("test=TestClass()");
lua.DoString("a=test:callDelegate1(func)");
int a = (int)lua.GetNumber("a");
Assert.Equal(5, a);
//Console.WriteLine("delegate returned: "+a);
}
}
/*
* Tests passing a Lua function to a delegate
* with value-type arguments and out params
*/
[Fact]
public void LuaDelegateValueTypesOutParam()
{
using (Lua lua = new Lua())
{
lua.DoString("luanet.load_assembly('LuaInterface.Test')");
lua.DoString("TestClass=luanet.import_type('LuaInterface.Test.Mock.TestClass')");
lua.DoString("test=TestClass()");
lua.DoString("function func(x) return x,x*2; end");
lua.DoString("test=TestClass()");
lua.DoString("a=test:callDelegate2(func)");
int a = (int)lua.GetNumber("a");
Assert.Equal(6, a);
//Console.WriteLine("delegate returned: "+a);
}
}
/*
* Tests passing a Lua function to a delegate
* with value-type arguments and ref params
*/
[Fact]
public void LuaDelegateValueTypesByRefParam()
{
using (Lua lua = new Lua())
{
lua.DoString("luanet.load_assembly('LuaInterface.Test')");
lua.DoString("TestClass=luanet.import_type('LuaInterface.Test.Mock.TestClass')");
lua.DoString("test=TestClass()");
lua.DoString("function func(x,y) return x+y; end");
lua.DoString("test=TestClass()");
lua.DoString("a=test:callDelegate3(func)");
int a = (int)lua.GetNumber("a");
Assert.Equal(5, a);
//Console.WriteLine("delegate returned: "+a);
}
}
/*
* Tests passing a Lua function to a delegate
* with value-type arguments that returns a reference type
*/
[Fact]
public void LuaDelegateValueTypesReturnReferenceType()
{
using (Lua lua = new Lua())
{
lua.DoString("luanet.load_assembly('LuaInterface.Test')");
lua.DoString("TestClass=luanet.import_type('LuaInterface.Test.Mock.TestClass')");
lua.DoString("test=TestClass()");
lua.DoString("function func(x,y) return TestClass(x+y); end");
lua.DoString("test=TestClass()");
lua.DoString("a=test:callDelegate4(func)");
int a = (int)lua.GetNumber("a");
Assert.Equal(5, a);
//Console.WriteLine("delegate returned: "+a);
}
}
/*
* Tests passing a Lua function to a delegate
* with reference type arguments
*/
[Fact]
public void LuaDelegateReferenceTypes()
{
using (Lua lua = new Lua())
{
lua.DoString("luanet.load_assembly('LuaInterface.Test')");
lua.DoString("TestClass=luanet.import_type('LuaInterface.Test.Mock.TestClass')");
lua.DoString("test=TestClass()");
lua.DoString("function func(x,y) return x.testval+y.testval; end");
lua.DoString("test=TestClass()");
lua.DoString("a=test:callDelegate5(func)");
int a = (int)lua.GetNumber("a");
Assert.Equal(5, a);
//Console.WriteLine("delegate returned: "+a);
}
}
/*
* Tests passing a Lua function to a delegate
* with reference type arguments and an out param
*/
[Fact]
public void LuaDelegateReferenceTypesOutParam()
{
using (Lua lua = new Lua())
{
lua.DoString("luanet.load_assembly('LuaInterface.Test')");
lua.DoString("TestClass=luanet.import_type('LuaInterface.Test.Mock.TestClass')");
lua.DoString("test=TestClass()");
lua.DoString("function func(x) return x,TestClass(x*2); end");
lua.DoString("test=TestClass()");
lua.DoString("a=test:callDelegate6(func)");
int a = (int)lua.GetNumber("a");
Assert.Equal(6, a);
//Console.WriteLine("delegate returned: "+a);
}
}
/*
* Tests passing a Lua function to a delegate
* with reference type arguments and a ref param
*/
[Fact]
public void LuaDelegateReferenceTypesByRefParam()
{
using (Lua lua = new Lua())
{
lua.DoString("luanet.load_assembly('LuaInterface.Test')");
lua.DoString("TestClass=luanet.import_type('LuaInterface.Test.Mock.TestClass')");
lua.DoString("test=TestClass()");
lua.DoString("function func(x,y) return TestClass(x+y.testval); end");
lua.DoString("a=test:callDelegate7(func)");
int a = (int)lua.GetNumber("a");
Assert.Equal(5, a);
//Console.WriteLine("delegate returned: "+a);
}
}
/*
* Tests passing a Lua table as an interface and
* calling one of its methods with value-type params
*/
[Fact]
public void LuaInterfaceValueTypes()
{
using (Lua lua = new Lua())
{
lua.DoString("luanet.load_assembly('LuaInterface.Test')");
lua.DoString("TestClass=luanet.import_type('LuaInterface.Test.Mock.TestClass')");
lua.DoString("test=TestClass()");
lua.DoString("itest={}");
lua.DoString("function itest:test1(x,y) return x+y; end");
lua.DoString("test=TestClass()");
lua.DoString("a=test:callInterface1(itest)");
int a = (int)lua.GetNumber("a");
Assert.Equal(5, a);
//Console.WriteLine("interface returned: "+a);
}
}
/*
* Tests passing a Lua table as an interface and
* calling one of its methods with value-type params
* and an out param
*/
[Fact]
public void LuaInterfaceValueTypesOutParam()
{
using (Lua lua = new Lua())
{
lua.DoString("luanet.load_assembly('LuaInterface.Test')");
lua.DoString("TestClass=luanet.import_type('LuaInterface.Test.Mock.TestClass')");
lua.DoString("test=TestClass()");
lua.DoString("itest={}");
lua.DoString("function itest:test2(x) return x,x*2; end");
lua.DoString("test=TestClass()");
lua.DoString("a=test:callInterface2(itest)");
int a = (int)lua.GetNumber("a");
Assert.Equal(6, a);
//Console.WriteLine("interface returned: "+a);
}
}
/*
* Tests passing a Lua table as an interface and
* calling one of its methods with value-type params
* and a ref param
*/
[Fact]
public void LuaInterfaceValueTypesByRefParam()
{
using (Lua lua = new Lua())
{
lua.DoString("luanet.load_assembly('LuaInterface.Test')");
lua.DoString("TestClass=luanet.import_type('LuaInterface.Test.Mock.TestClass')");
lua.DoString("test=TestClass()");
lua.DoString("itest={}");
lua.DoString("function itest:test3(x,y) return x+y; end");
lua.DoString("test=TestClass()");
lua.DoString("a=test:callInterface3(itest)");
int a = (int)lua.GetNumber("a");
Assert.Equal(5, a);
//Console.WriteLine("interface returned: "+a);
}
}
/*
* Tests passing a Lua table as an interface and
* calling one of its methods with value-type params
* returning a reference type param
*/
[Fact]
public void LuaInterfaceValueTypesReturnReferenceType()
{
using (Lua lua = new Lua())
{
lua.DoString("luanet.load_assembly('LuaInterface.Test')");
lua.DoString("TestClass=luanet.import_type('LuaInterface.Test.Mock.TestClass')");
lua.DoString("test=TestClass()");
lua.DoString("itest={}");
lua.DoString("function itest:test4(x,y) return TestClass(x+y); end");
lua.DoString("test=TestClass()");
lua.DoString("a=test:callInterface4(itest)");
int a = (int)lua.GetNumber("a");
Assert.Equal(5, a);
//Console.WriteLine("interface returned: "+a);
}
}
/*
* Tests passing a Lua table as an interface and
* calling one of its methods with reference type params
*/
[Fact]
public void LuaInterfaceReferenceTypes()
{
using (Lua lua = new Lua())
{
lua.DoString("luanet.load_assembly('LuaInterface.Test')");
lua.DoString("TestClass=luanet.import_type('LuaInterface.Test.Mock.TestClass')");
lua.DoString("test=TestClass()");
lua.DoString("itest={}");
lua.DoString("function itest:test5(x,y) return x.testval+y.testval; end");
lua.DoString("test=TestClass()");
lua.DoString("a=test:callInterface5(itest)");
int a = (int)lua.GetNumber("a");
Assert.Equal(5, a);
//Console.WriteLine("interface returned: "+a);
}
}
/*
* Tests passing a Lua table as an interface and
* calling one of its methods with reference type params
* and an out param
*/
[Fact]
public void LuaInterfaceReferenceTypesOutParam()
{
using (Lua lua = new Lua())
{
lua.DoString("luanet.load_assembly('LuaInterface.Test')");
lua.DoString("TestClass=luanet.import_type('LuaInterface.Test.Mock.TestClass')");
lua.DoString("test=TestClass()");
lua.DoString("itest={}");
lua.DoString("function itest:test6(x) return x,TestClass(x*2); end");
lua.DoString("test=TestClass()");
lua.DoString("a=test:callInterface6(itest)");
int a = (int)lua.GetNumber("a");
Assert.Equal(6, a);
//Console.WriteLine("interface returned: "+a);
}
}
/*
* Tests passing a Lua table as an interface and
* calling one of its methods with reference type params
* and a ref param
*/
[Fact]
public void LuaInterfaceReferenceTypesByRefParam()
{
using (Lua lua = new Lua())
{
lua.DoString("luanet.load_assembly('LuaInterface.Test')");
lua.DoString("TestClass=luanet.import_type('LuaInterface.Test.Mock.TestClass')");
lua.DoString("test=TestClass()");
lua.DoString("itest={}");
lua.DoString("function itest:test7(x,y) return TestClass(x+y.testval); end");
lua.DoString("a=test:callInterface7(itest)");
int a = (int)lua.GetNumber("a");
Assert.Equal(5, a);
//Console.WriteLine("interface returned: "+a);
}
}
/*
* Tests passing a Lua table as an interface and
* accessing one of its value-type properties
*/
[Fact]
public void LuaInterfaceValueProperty()
{
using (Lua lua = new Lua())
{
lua.DoString("luanet.load_assembly('LuaInterface.Test')");
lua.DoString("TestClass=luanet.import_type('LuaInterface.Test.Mock.TestClass')");
lua.DoString("test=TestClass()");
lua.DoString("itest={}");
lua.DoString("function itest:get_intProp() return itest.int_prop; end");
lua.DoString("function itest:set_intProp(val) itest.int_prop=val; end");
lua.DoString("a=test:callInterface8(itest)");
int a = (int)lua.GetNumber("a");
Assert.Equal(3, a);
//Console.WriteLine("interface returned: "+a);
}
}
/*
* Tests passing a Lua table as an interface and
* accessing one of its reference type properties
*/
[Fact]
public void LuaInterfaceReferenceProperty()
{
using (Lua lua = new Lua())
{
lua.DoString("luanet.load_assembly('LuaInterface.Test')");
lua.DoString("TestClass=luanet.import_type('LuaInterface.Test.Mock.TestClass')");
lua.DoString("test=TestClass()");
lua.DoString("itest={}");
lua.DoString("function itest:get_refProp() return TestClass(itest.int_prop); end");
lua.DoString("function itest:set_refProp(val) itest.int_prop=val.testval; end");
lua.DoString("a=test:callInterface9(itest)");
int a = (int)lua.GetNumber("a");
Assert.Equal(3, a);
//Console.WriteLine("interface returned: "+a);
}
}
/*
* Tests making an object from a Lua table and calling the base
* class version of one of the methods the table overrides.
*/
[Fact]
public void LuaTableBaseMethod()
{
using (Lua lua = new Lua())
{
lua.DoString("luanet.load_assembly('LuaInterface.Test')");
lua.DoString("TestClass=luanet.import_type('LuaInterface.Test.Mock.TestClass')");
lua.DoString("test={}");
lua.DoString("function test:overridableMethod(x,y) return 2*self.base:overridableMethod(x,y); end");
lua.DoString("luanet.make_object(test,'LuaInterface.Test.Mock.TestClass')");
lua.DoString("a=TestClass:callOverridable(test,2,3)");
int a = (int)lua.GetNumber("a");
lua.DoString("luanet.free_object(test)");
Assert.Equal(10, a);
//Console.WriteLine("interface returned: "+a);
}
}
/*
* Tests getting an object's method by its signature
* (from object)
*/
[Fact]
public void GetMethodBySignatureFromObj()
{
using (Lua lua = new Lua())
{
lua.DoString("luanet.load_assembly('mscorlib')");
lua.DoString("luanet.load_assembly('LuaInterface.Test')");
lua.DoString("TestClass=luanet.import_type('LuaInterface.Test.Mock.TestClass')");
lua.DoString("test=TestClass()");
lua.DoString("setMethod=luanet.get_method_bysig(test,'setVal','System.String')");
lua.DoString("setMethod('test')");
TestClass test = (TestClass)lua["test"];
Assert.Equal("test", test.getStrVal());
//Console.WriteLine("interface returned: "+test.getStrVal());
}
}
/*
* Tests getting an object's method by its signature
* (from type)
*/
[Fact]
public void GetMethodBySignatureFromType()
{
using (Lua lua = new Lua())
{
lua.DoString("luanet.load_assembly('mscorlib')");
lua.DoString("luanet.load_assembly('LuaInterface.Test')");
lua.DoString("TestClass=luanet.import_type('LuaInterface.Test.Mock.TestClass')");
lua.DoString("test=TestClass()");
lua.DoString("setMethod=luanet.get_method_bysig(TestClass,'setVal','System.String')");
lua.DoString("setMethod(test,'test')");
TestClass test = (TestClass)lua["test"];
Assert.Equal("test", test.getStrVal());
//Console.WriteLine("interface returned: "+test.getStrVal());
}
}
/*
* Tests getting a type's method by its signature
*/
[Fact]
public void GetStaticMethodBySignature()
{
using (Lua lua = new Lua())
{
lua.DoString("luanet.load_assembly('mscorlib')");
lua.DoString("luanet.load_assembly('LuaInterface.Test')");
lua.DoString("TestClass=luanet.import_type('LuaInterface.Test.Mock.TestClass')");
lua.DoString("make_method=luanet.get_method_bysig(TestClass,'makeFromString','System.String')");
lua.DoString("test=make_method('test')");
TestClass test = (TestClass)lua["test"];
Assert.Equal("test", test.getStrVal());
//Console.WriteLine("interface returned: "+test.getStrVal());
}
}
/*
* Tests getting an object's constructor by its signature
*/
[Fact]
public void GetConstructorBySignature()
{
using (Lua lua = new Lua())
{
lua.DoString("luanet.load_assembly('mscorlib')");
lua.DoString("luanet.load_assembly('LuaInterface.Test')");
lua.DoString("TestClass=luanet.import_type('LuaInterface.Test.Mock.TestClass')");
lua.DoString("test_cons=luanet.get_constructor_bysig(TestClass,'System.String')");
lua.DoString("test=test_cons('test')");
TestClass test = (TestClass)lua["test"];
Assert.Equal("test", test.getStrVal());
//Console.WriteLine("interface returned: "+test.getStrVal());
}
}
}
}
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
namespace LuaInterface.Test.Mock
{
public class Entity
{
public event EventHandler<EventArgs> Clicked;
protected virtual void OnEntityClicked(EventArgs e)
{
EventHandler<EventArgs> handler = Clicked;
if (handler != null)
{
// Use the () operator to raise the event.
handler(this, e);
}
}
public Entity()
{
}
public void Click()
{
OnEntityClicked(new EventArgs());
}
}
}
//note: this should be cleaned up and replaced with moq mocks where possible
namespace LuaInterface.Test.Mock
{
using System;
using LuaInterface;
using System.Threading;
using System.Diagnostics;
using System.Reflection;
/*
* Delegates used for testing Lua function -> delegate translation
*/
public delegate int TestDelegate1(int a, int b);
public delegate int TestDelegate2(int a, out int b);
public delegate void TestDelegate3(int a, ref int b);
public delegate TestClass TestDelegate4(int a, int b);
public delegate int TestDelegate5(TestClass a, TestClass b);
public delegate int TestDelegate6(int a, out TestClass b);
public delegate void TestDelegate7(int a, ref TestClass b);
/*
* Interface used for testing Lua table -> interface translation
*/
public interface ITest
{
int intProp
{
get;
set;
}
TestClass refProp
{
get;
set;
}
int test1(int a, int b);
int test2(int a, out int b);
void test3(int a, ref int b);
TestClass test4(int a, int b);
int test5(TestClass a, TestClass b);
int test6(int a, out TestClass b);
void test7(int a, ref TestClass b);
}
public interface IFoo1
{
int foo();
}
public interface IFoo2
{
int foo();
}
class MyClass
{
public int Func1() { return 1; }
}
/// <summary>
/// Use to test threading
/// </summary>
class DoWorkClass
{
private object _Lock = new object();
public void DoWork()
{
//lock (_Lock)
//{
//simulate work by sleeping
//Console.WriteLine("Started to do work on thread: " + Thread.CurrentThread.ManagedThreadId);
Thread.Sleep(new Random().Next(0, 1000));
//Console.WriteLine("Finished work on thread: " + Thread.CurrentThread.ManagedThreadId);
//}
}
}
/// <summary>
/// test structure passing
/// </summary>
public struct TestStruct
{
public TestStruct(float val)
{
v = val;
}
public float v;
public float val
{
get { return v; }
set { v = value; }
}
}
/// <summary>
/// Generic class with generic and non-generic methods
/// </summary>
/// <typeparam name="T"></typeparam>
public class TestClassGeneric<T>
{
private object _PassedValue;
private bool _RegularMethodSuccess;
public bool RegularMethodSuccess
{
get { return _RegularMethodSuccess; }
}
private bool _GenericMethodSuccess;
public bool GenericMethodSuccess
{
get { return _GenericMethodSuccess; }
}
public void GenericMethod(T value)
{
_PassedValue = value;
_GenericMethodSuccess = true;
}
public void RegularMethod()
{
_RegularMethodSuccess = true;
}
/// <summary>
/// Returns true if the generic method was successfully passed a matching value
/// </summary>
/// <param name="value"></param>
/// <returns></returns>
public bool Validate(T value)
{
return value.Equals(_PassedValue);
}
}
/// <summary>
/// Normal class containing a generic method
/// </summary>
public class TestClassWithGenericMethod
{
private object _PassedValue;
public object PassedValue
{
get { return _PassedValue; }
}
private bool _GenericMethodSuccess;
public bool GenericMethodSuccess
{
get { return _GenericMethodSuccess; }
}
public void GenericMethod<T>(T value)
{
_PassedValue = value;
_GenericMethodSuccess = true;
}
internal bool Validate<T>(T value)
{
return value.Equals(_PassedValue);
}
}
public class TestClass2
{
public static int func(int x, int y)
{
return x + y;
}
public int funcInstance(int x, int y)
{
return x + y;
}
}
/*
* Sample class used in several test cases to check if
* Lua scripts are accessing objects correctly
*/
public class TestClass : IFoo1, IFoo2
{
public int val;
private string strVal;
public TestClass()
{
val = 0;
}
public TestClass(int val)
{
this.val = val;
}
public TestClass(string val)
{
this.strVal = val;
}
public static TestClass makeFromString(String str)
{
return new TestClass(str);
}
bool? nb2 = null;
public bool? NullableBool
{
get { return nb2; }
set { nb2 = value; }
}
TestStruct s = new TestStruct();
public TestStruct Struct
{
get { return s; }
set { s = (TestStruct)value; }
}
public int testval
{
get
{
return this.val;
}
set
{
this.val = value;
}
}
public int this[int index]
{
get { return 1; }
set { }
}
public int this[string index]
{
get { return 1; }
set { }
}
public int sum(int x, int y)
{
return x + y;
}
public void setVal(int newVal)
{
val = newVal;
}
public void setVal(string newVal)
{
strVal = newVal;
}
public int getVal()
{
return val;
}
public string getStrVal()
{
return strVal;
}
public int outVal(out int val)
{
val = 5;
return 3;
}
public int outVal(out int val, int val2)
{
val = 5;
return val2;
}
public int outVal(int val, ref int val2)
{
val2 = val + val2;
return val;
}
public int outValMutiple(int arg, out string arg2, out string arg3)
{
arg2 = Guid.NewGuid().ToString();
arg3 = Guid.NewGuid().ToString();
return arg;
}
public int callDelegate1(TestDelegate1 del)
{
return del(2, 3);
}
public int callDelegate2(TestDelegate2 del)
{
int a = 3;
int b = del(2, out a);
return a + b;
}
public int callDelegate3(TestDelegate3 del)
{
int a = 3;
del(2, ref a);
//Console.WriteLine(a);
return a;
}
public int callDelegate4(TestDelegate4 del)
{
return del(2, 3).testval;
}
public int callDelegate5(TestDelegate5 del)
{
return del(new TestClass(2), new TestClass(3));
}
public int callDelegate6(TestDelegate6 del)
{
TestClass test = new TestClass();
int a = del(2, out test);
return a + test.testval;
}
public int callDelegate7(TestDelegate7 del)
{
TestClass test = new TestClass(3);
del(2, ref test);
return test.testval;
}
public int callInterface1(ITest itest)
{
return itest.test1(2, 3);
}
public int callInterface2(ITest itest)
{
int a = 3;
int b = itest.test2(2, out a);
return a + b;
}
public int callInterface3(ITest itest)
{
int a = 3;
itest.test3(2, ref a);
//Console.WriteLine(a);
return a;
}
public int callInterface4(ITest itest)
{
return itest.test4(2, 3).testval;
}
public int callInterface5(ITest itest)
{
return itest.test5(new TestClass(2), new TestClass(3));
}
public int callInterface6(ITest itest)
{
TestClass test = new TestClass();
int a = itest.test6(2, out test);
return a + test.testval;
}
public int callInterface7(ITest itest)
{
TestClass test = new TestClass(3);
itest.test7(2, ref test);
return test.testval;
}
public int callInterface8(ITest itest)
{
itest.intProp = 3;
return itest.intProp;
}
public int callInterface9(ITest itest)
{
itest.refProp = new TestClass(3);
return itest.refProp.testval;
}
public void exceptionMethod()
{
throw new Exception("exception test");
}
public virtual int overridableMethod(int x, int y)
{
return x + y;
}
public static int callOverridable(TestClass test, int x, int y)
{
return test.overridableMethod(x, y);
}
int IFoo1.foo()
{
return 3;
}
public int foo()
{
return 5;
}
private void _PrivateMethod()
{
Console.WriteLine("Private method called");
}
public void MethodOverload()
{
Console.WriteLine("Method with no params");
}
public void MethodOverload(TestClass testClass)
{
Console.WriteLine("Method with testclass param");
}
public void MethodOverload(int i, int j, int k)
{
Console.WriteLine("Overload without out param: " + i + ", " + j + ", " + k);
}
public void MethodOverload(int i, int j, out int k)
{
k = 5;
Console.WriteLine("Overload with out param" + i + ", " + j);
}
}
}
\ No newline at end of file
using System.Reflection;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
// General Information about an assembly is controlled through the following
// set of attributes. Change these attribute values to modify the information
// associated with an assembly.
[assembly: AssemblyTitle("LuaInterface.Test")]
[assembly: AssemblyDescription("")]
[assembly: AssemblyConfiguration("")]
[assembly: AssemblyCompany("Microsoft")]
[assembly: AssemblyProduct("LuaInterface.Test")]
[assembly: AssemblyCopyright("Copyright © Microsoft 2009")]
[assembly: AssemblyTrademark("")]
[assembly: AssemblyCulture("")]
// Setting ComVisible to false makes the types in this assembly not visible
// to COM componenets. If you need to access a type in this assembly from
// COM, set the ComVisible attribute to true on that type.
[assembly: ComVisible(false)]
// The following GUID is for the ID of the typelib if this project is exposed to COM
[assembly: Guid("9a3029b1-b0a5-40fc-8b04-a4f471f69afc")]
// Version information for an assembly consists of the following four values:
//
// Major Version
// Minor Version
// Build Number
// Revision
//
// You can specify all the values or you can default the Revision and Build Numbers
// by using the '*' as shown below:
[assembly: AssemblyVersion("1.0.0.0")]
[assembly: AssemblyFileVersion("1.0.0.0")]
<?xml version="1.0" encoding="utf-8"?>
<packages>
<package id="xunit" version="1.8.0.1545" />
<package id="Moq" version="4.0.10827" />
</packages>
\ No newline at end of file
width=100
height=200
message="Hello World!"
color={r=100,g=20,b=50}
tree={branch1={leaf1=10,leaf2="leaf2"},leaf3="leaf3"}
function func(x,y)
return x,x+y
end
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