Examples/test-suite/javascript/li_std_auto_ptr_runme.js - platform/external/swig - Git at Google

 var li_std_auto_ptr = require("li_std_auto_ptr");

 var checkCount = function(expected_count) {
   actual_count = li_std_auto_ptr.Klass.getTotal_count();
   if (actual_count != expected_count)
     throw new Error("Counts incorrect, expected:" + expected_count + " actual:" + actual_count);
 }

 // Test raw pointer handling involving virtual inheritance
 {
   kini = new li_std_auto_ptr.KlassInheritance("KlassInheritanceInput");
   checkCount(1);
   s = li_std_auto_ptr.useKlassRawPtr(kini);
   if (s !== "KlassInheritanceInput")
     throw new Error("Incorrect string: " + s);
   // delete kini;
   // Above not deleting the C++ object(node v12) - can't reliably control GC
   li_std_auto_ptr.takeKlassAutoPtr(kini);
   checkCount(0);
 }


 // auto_ptr as input
 {
   kin = new li_std_auto_ptr.Klass("KlassInput");
   checkCount(1);
   s = li_std_auto_ptr.takeKlassAutoPtr(kin);
   checkCount(0);
   if (s !== "KlassInput")
     throw new Error("Incorrect string: " + s);
   if (!li_std_auto_ptr.is_nullptr(kin))
     throw new Error("is_nullptr failed");
   delete kin; // Should not fail, even though already deleted
   checkCount(0);
 }

 {
   kin = new li_std_auto_ptr.Klass("KlassInput");
   checkCount(1);
   s = li_std_auto_ptr.takeKlassAutoPtr(kin);
   checkCount(0);
   if (s !== "KlassInput")
     throw new Error("Incorrect string: " + s);
   if (!li_std_auto_ptr.is_nullptr(kin))
     throw new Error("is_nullptr failed");
   exception_thrown = false;
   try {
     li_std_auto_ptr.takeKlassAutoPtr(kin);
   } catch (e) {
     if (!e.message.includes("cannot release ownership as memory is not owned"))
       throw new Error("incorrect exception message " + e.message);
     exception_thrown = true;
   }
   if (!exception_thrown)
       throw new Error("double usage of takeKlassAutoPtr should have been an error");
   delete kin; // Should not fail, even though already deleted
   checkCount(0);
 }

 {
   kin = new li_std_auto_ptr.Klass("KlassInput");
   exception_thrown = false;
   notowned = li_std_auto_ptr.get_not_owned_ptr(kin);
   try {
     li_std_auto_ptr.takeKlassAutoPtr(notowned);
   } catch (e) {
     if (!e.message.includes("cannot release ownership as memory is not owned"))
       throw new Error("incorrect exception message " + e.message);
     exception_thrown = true;
   }
   if (!exception_thrown)
     throw new Error("Should have thrown 'Cannot release ownership as memory is not owned' error");
   checkCount(1);
   // delete kin;
   // Above not deleting the C++ object(node v12) - can't reliably control GC
   li_std_auto_ptr.takeKlassAutoPtr(kin);
   checkCount(0);
 }

 {
   kini = new li_std_auto_ptr.KlassInheritance("KlassInheritanceInput");
   checkCount(1);
   s = li_std_auto_ptr.takeKlassAutoPtr(kini);
   checkCount(0);
   if (s !== "KlassInheritanceInput")
     throw new Error("Incorrect string: " + s);
   if (!li_std_auto_ptr.is_nullptr(kini))
     throw new Error("is_nullptr failed");
   delete kini; // Should not fail, even though already deleted
   checkCount(0);
 }

 li_std_auto_ptr.takeKlassAutoPtr(null);
 li_std_auto_ptr.takeKlassAutoPtr(li_std_auto_ptr.make_null());
 checkCount(0);

 // overloaded parameters
 if (li_std_auto_ptr.overloadTest() != 0)
   throw new Error("overloadTest failed");
 if (li_std_auto_ptr.overloadTest(null) != 1)
   throw new Error("overloadTest failed");
 if (li_std_auto_ptr.overloadTest(new li_std_auto_ptr.Klass("over")) != 1)
   throw new Error("overloadTest failed");
 checkCount(0);


 // auto_ptr as output
 k1 = li_std_auto_ptr.makeKlassAutoPtr("first");
 if (k1.getLabel() !== "first")
   throw new Error("wrong object label");

 k2 = li_std_auto_ptr.makeKlassAutoPtr("second");
 checkCount(2);

 // delete k1;
 // Above not deleting the C++ object(node v12) - can't reliably control GC
 li_std_auto_ptr.takeKlassAutoPtr(k1);
 checkCount(1);

 if (k2.getLabel() !== "second")
   throw new Error("wrong object label");

 // delete k2;
 // Above not deleting the C++ object(node v12) - can't reliably control GC
 li_std_auto_ptr.takeKlassAutoPtr(k2);

 if (li_std_auto_ptr.makeNullAutoPtr() != null)
   throw new Error("null failure");

 checkCount(0);
	var li_std_auto_ptr = require("li_std_auto_ptr");

	var checkCount = function(expected_count) {
	actual_count = li_std_auto_ptr.Klass.getTotal_count();
	if (actual_count != expected_count)
	throw new Error("Counts incorrect, expected:" + expected_count + " actual:" + actual_count);
	}

	// Test raw pointer handling involving virtual inheritance
	{
	kini = new li_std_auto_ptr.KlassInheritance("KlassInheritanceInput");
	checkCount(1);
	s = li_std_auto_ptr.useKlassRawPtr(kini);
	if (s !== "KlassInheritanceInput")
	throw new Error("Incorrect string: " + s);
	// delete kini;
	// Above not deleting the C++ object(node v12) - can't reliably control GC
	li_std_auto_ptr.takeKlassAutoPtr(kini);
	checkCount(0);
	}


	// auto_ptr as input
	{
	kin = new li_std_auto_ptr.Klass("KlassInput");
	checkCount(1);
	s = li_std_auto_ptr.takeKlassAutoPtr(kin);
	checkCount(0);
	if (s !== "KlassInput")
	throw new Error("Incorrect string: " + s);
	if (!li_std_auto_ptr.is_nullptr(kin))
	throw new Error("is_nullptr failed");
	delete kin; // Should not fail, even though already deleted
	checkCount(0);
	}

	{
	kin = new li_std_auto_ptr.Klass("KlassInput");
	checkCount(1);
	s = li_std_auto_ptr.takeKlassAutoPtr(kin);
	checkCount(0);
	if (s !== "KlassInput")
	throw new Error("Incorrect string: " + s);
	if (!li_std_auto_ptr.is_nullptr(kin))
	throw new Error("is_nullptr failed");
	exception_thrown = false;
	try {
	li_std_auto_ptr.takeKlassAutoPtr(kin);
	} catch (e) {
	if (!e.message.includes("cannot release ownership as memory is not owned"))
	throw new Error("incorrect exception message " + e.message);
	exception_thrown = true;
	}
	if (!exception_thrown)
	throw new Error("double usage of takeKlassAutoPtr should have been an error");
	delete kin; // Should not fail, even though already deleted
	checkCount(0);
	}

	{
	kin = new li_std_auto_ptr.Klass("KlassInput");
	exception_thrown = false;
	notowned = li_std_auto_ptr.get_not_owned_ptr(kin);
	try {
	li_std_auto_ptr.takeKlassAutoPtr(notowned);
	} catch (e) {
	if (!e.message.includes("cannot release ownership as memory is not owned"))
	throw new Error("incorrect exception message " + e.message);
	exception_thrown = true;
	}
	if (!exception_thrown)
	throw new Error("Should have thrown 'Cannot release ownership as memory is not owned' error");
	checkCount(1);
	// delete kin;
	// Above not deleting the C++ object(node v12) - can't reliably control GC
	li_std_auto_ptr.takeKlassAutoPtr(kin);
	checkCount(0);
	}

	{
	kini = new li_std_auto_ptr.KlassInheritance("KlassInheritanceInput");
	checkCount(1);
	s = li_std_auto_ptr.takeKlassAutoPtr(kini);
	checkCount(0);
	if (s !== "KlassInheritanceInput")
	throw new Error("Incorrect string: " + s);
	if (!li_std_auto_ptr.is_nullptr(kini))
	throw new Error("is_nullptr failed");
	delete kini; // Should not fail, even though already deleted
	checkCount(0);
	}

	li_std_auto_ptr.takeKlassAutoPtr(null);
	li_std_auto_ptr.takeKlassAutoPtr(li_std_auto_ptr.make_null());
	checkCount(0);

	// overloaded parameters
	if (li_std_auto_ptr.overloadTest() != 0)
	throw new Error("overloadTest failed");
	if (li_std_auto_ptr.overloadTest(null) != 1)
	throw new Error("overloadTest failed");
	if (li_std_auto_ptr.overloadTest(new li_std_auto_ptr.Klass("over")) != 1)
	throw new Error("overloadTest failed");
	checkCount(0);


	// auto_ptr as output
	k1 = li_std_auto_ptr.makeKlassAutoPtr("first");
	if (k1.getLabel() !== "first")
	throw new Error("wrong object label");

	k2 = li_std_auto_ptr.makeKlassAutoPtr("second");
	checkCount(2);

	// delete k1;
	// Above not deleting the C++ object(node v12) - can't reliably control GC
	li_std_auto_ptr.takeKlassAutoPtr(k1);
	checkCount(1);

	if (k2.getLabel() !== "second")
	throw new Error("wrong object label");

	// delete k2;
	// Above not deleting the C++ object(node v12) - can't reliably control GC
	li_std_auto_ptr.takeKlassAutoPtr(k2);

	if (li_std_auto_ptr.makeNullAutoPtr() != null)
	throw new Error("null failure");

	checkCount(0);