gecko/ipc/ipdl/test/cxx/TestDataStructures.cpp

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#include "TestDataStructures.h"
#include "mozilla/unused.h"
#include "IPDLUnitTests.h" // fail etc.
typedef InfallibleTArray<nsIntRegion> RegionArray;
namespace mozilla {
namespace _ipdltest {
static const uint32_t nactors = 10;
#define test_assert(_cond, _msg) \
if (!(_cond)) fail(_msg)
template<typename T>
static void
assert_arrays_equal(const InfallibleTArray<T>& a, const InfallibleTArray<T>& b)
{
test_assert(a == b, "arrays equal");
}
inline static TestDataStructuresSub&
Cast(PTestDataStructuresSubParent* a)
{
return *static_cast<TestDataStructuresSub*>(a);
}
inline static TestDataStructuresSub&
Cast(PTestDataStructuresSubChild* a)
{
return *static_cast<TestDataStructuresSub*>(a);
}
//-----------------------------------------------------------------------------
// parent
TestDataStructuresParent::TestDataStructuresParent()
{
MOZ_COUNT_CTOR(TestDataStructuresParent);
}
TestDataStructuresParent::~TestDataStructuresParent()
{
MOZ_COUNT_DTOR(TestDataStructuresParent);
}
void
TestDataStructuresParent::Main()
{
for (uint32_t i = 0; i < nactors; ++i)
if (!SendPTestDataStructuresSubConstructor(i))
fail("can't alloc actor");
if (!SendStart())
fail("can't send Start()");
}
bool
TestDataStructuresParent::DeallocPTestDataStructuresSub(PTestDataStructuresSubParent* actor)
{
test_assert(Cast(actor).mI == Cast(mKids[0]).mI,
"dtor sent to wrong actor");
mKids.RemoveElementAt(0);
delete actor;
if (mKids.Length() > 0)
return true;
return true;
}
bool TestDataStructuresParent::RecvTest1(
const InfallibleTArray<int>& ia,
InfallibleTArray<int>* oa)
{
test_assert(5 == ia.Length(), "wrong length");
for (int i = 0; i < 5; ++i)
test_assert(i == ia[i], "wrong value");
*oa = ia;
return true;
}
bool TestDataStructuresParent::RecvTest2(
const InfallibleTArray<PTestDataStructuresSubParent*>& i1,
InfallibleTArray<PTestDataStructuresSubParent*>* o1)
{
test_assert(nactors == i1.Length(), "wrong #actors");
for (uint32_t i = 0; i < i1.Length(); ++i)
test_assert(i == Cast(i1[i]).mI, "wrong mI value");
*o1 = i1;
return true;
}
bool TestDataStructuresParent::RecvTest3(
const IntDouble& i1,
const IntDouble& i2,
IntDouble* o1,
IntDouble* o2)
{
test_assert(42 == i1.get_int(), "wrong value");
test_assert(4.0 == i2.get_double(), "wrong value");
*o1 = i1;
*o2 = i2;
return true;
}
bool TestDataStructuresParent::RecvTest4(
const InfallibleTArray<IntDouble>& i1,
InfallibleTArray<IntDouble>* o1)
{
test_assert(4 == i1.Length(), "wrong length");
test_assert(1 == i1[0].get_int(), "wrong value");
test_assert(2.0 == i1[1].get_double(), "wrong value");
test_assert(3 == i1[2].get_int(), "wrong value");
test_assert(4.0 == i1[3].get_double(), "wrong value");
*o1 = i1;
return true;
}
bool TestDataStructuresParent::RecvTest5(
const IntDoubleArrays& i1,
const IntDoubleArrays& i2,
const IntDoubleArrays& i3,
IntDoubleArrays* o1,
IntDoubleArrays* o2,
IntDoubleArrays* o3)
{
test_assert(42 == i1.get_int(), "wrong value");
const InfallibleTArray<int>& i2a = i2.get_ArrayOfint();
test_assert(3 == i2a.Length(), "wrong length");
test_assert(1 == i2a[0], "wrong value");
test_assert(2 == i2a[1], "wrong value");
test_assert(3 == i2a[2], "wrong value");
const InfallibleTArray<double>& i3a = i3.get_ArrayOfdouble();
test_assert(3 == i3a.Length(), "wrong length");
test_assert(1.0 == i3a[0], "wrong value");
test_assert(2.0 == i3a[1], "wrong value");
test_assert(3.0 == i3a[2], "wrong value");
*o1 = i1;
*o2 = i2a;
*o3 = i3a;
return true;
}
bool
TestDataStructuresParent::RecvTest7_0(const ActorWrapper& i1,
ActorWrapper* o1)
{
if (i1.actorChild() != nullptr)
fail("child side actor should always be null");
if (i1.actorParent() != mKids[0])
fail("should have got back same actor on parent side");
o1->actorParent() = mKids[0];
// malicious behavior
o1->actorChild() =
reinterpret_cast<PTestDataStructuresSubChild*>(0xdeadbeef);
return true;
}
bool TestDataStructuresParent::RecvTest6(
const InfallibleTArray<IntDoubleArrays>& i1,
InfallibleTArray<IntDoubleArrays>* o1)
{
test_assert(3 == i1.Length(), "wrong length");
IntDoubleArrays id1(i1[0]);
test_assert(42 == id1.get_int(), "wrong value");
InfallibleTArray<int> i2a(i1[1].get_ArrayOfint());
test_assert(3 == i2a.Length(), "wrong length");
test_assert(1 == i2a[0], "wrong value");
test_assert(2 == i2a[1], "wrong value");
test_assert(3 == i2a[2], "wrong value");
InfallibleTArray<double> i3a(i1[2].get_ArrayOfdouble());
test_assert(3 == i3a.Length(), "wrong length");
test_assert(1.0 == i3a[0], "wrong value");
test_assert(2.0 == i3a[1], "wrong value");
test_assert(3.0 == i3a[2], "wrong value");
o1->AppendElement(id1);
o1->AppendElement(IntDoubleArrays(i2a));
o1->AppendElement(IntDoubleArrays(i3a));
return true;
}
bool TestDataStructuresParent::RecvTest7(
const Actors& i1,
const Actors& i2,
const Actors& i3,
Actors* o1,
Actors* o2,
Actors* o3)
{
test_assert(42 == i1.get_int(), "wrong value");
InfallibleTArray<int> i2a(i2.get_ArrayOfint());
test_assert(3 == i2a.Length(), "wrong length");
test_assert(1 == i2a[0], "wrong value");
test_assert(2 == i2a[1], "wrong value");
test_assert(3 == i2a[2], "wrong value");
assert_arrays_equal(mKids, i3.get_ArrayOfPTestDataStructuresSubParent());
*o1 = 42;
*o2 = i2a;
*o3 = mKids;
return true;
}
bool TestDataStructuresParent::RecvTest8(
const InfallibleTArray<Actors>& i1,
InfallibleTArray<Actors>* o1)
{
test_assert(3 == i1.Length(), "wrong length");
test_assert(42 == i1[0].get_int(), "wrong value");
const InfallibleTArray<int>& i2a = i1[1].get_ArrayOfint();
test_assert(3 == i2a.Length(), "wrong length");
test_assert(1 == i2a[0], "wrong value");
test_assert(2 == i2a[1], "wrong value");
test_assert(3 == i2a[2], "wrong value");
assert_arrays_equal(mKids, i1[2].get_ArrayOfPTestDataStructuresSubParent());
*o1 = i1;
return true;
}
bool TestDataStructuresParent::RecvTest9(
const Unions& i1,
const Unions& i2,
const Unions& i3,
const Unions& i4,
Unions* o1,
Unions* o2,
Unions* o3,
Unions* o4)
{
test_assert(42 == i1.get_int(), "wrong value");
const InfallibleTArray<int>& i2a = i2.get_ArrayOfint();
test_assert(3 == i2a.Length(), "wrong length");
test_assert(1 == i2a[0], "wrong value");
test_assert(2 == i2a[1], "wrong value");
test_assert(3 == i2a[2], "wrong value");
assert_arrays_equal(mKids, i3.get_ArrayOfPTestDataStructuresSubParent());
const InfallibleTArray<PTestDataStructuresSubParent*>& i4a =
i4.get_ArrayOfActors()[0].get_ArrayOfPTestDataStructuresSubParent();
assert_arrays_equal(mKids, i4a);
*o1 = i1;
*o2 = i2;
*o3 = i3;
*o4 = i4;
return true;
}
bool TestDataStructuresParent::RecvTest10(
const InfallibleTArray<Unions>& i1,
InfallibleTArray<Unions>* o1)
{
test_assert(42 == i1[0].get_int(), "wrong value");
const InfallibleTArray<int>& i2a = i1[1].get_ArrayOfint();
test_assert(3 == i2a.Length(), "wrong length");
test_assert(1 == i2a[0], "wrong value");
test_assert(2 == i2a[1], "wrong value");
test_assert(3 == i2a[2], "wrong value");
assert_arrays_equal(mKids, i1[2].get_ArrayOfPTestDataStructuresSubParent());
const InfallibleTArray<PTestDataStructuresSubParent*>& i4a =
i1[3].get_ArrayOfActors()[0].get_ArrayOfPTestDataStructuresSubParent();
assert_arrays_equal(mKids, i4a);
*o1 = i1;
return true;
}
bool TestDataStructuresParent::RecvTest11(
const SIntDouble& i,
SIntDouble* o)
{
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test_assert(1 == i.i(), "wrong value");
test_assert(2.0 == i.d(), "wrong value");
*o = i;
return true;
}
bool TestDataStructuresParent::RecvTest12(
const SIntDoubleArrays& i,
SIntDoubleArrays* o)
{
InfallibleTArray<int> ai;
ai.AppendElement(1);
ai.AppendElement(2);
ai.AppendElement(3);
InfallibleTArray<double> ad;
ad.AppendElement(.5);
ad.AppendElement(1.0);
ad.AppendElement(2.0);
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test_assert(42 == i.i(), "wrong value");
assert_arrays_equal(ai, i.ai());
assert_arrays_equal(ad, i.ad());
*o = i;
return true;
}
bool TestDataStructuresParent::RecvTest13(
const SActors& i,
SActors* o)
{
InfallibleTArray<int> ai;
ai.AppendElement(1); ai.AppendElement(2); ai.AppendElement(3);
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test_assert(42 == i.i(), "wrong value");
assert_arrays_equal(ai, i.ai());
assert_arrays_equal(mKids, i.apParent());
*o = i;
return true;
}
bool TestDataStructuresParent::RecvTest14(
const Structs& i,
Structs* o)
{
InfallibleTArray<int> ai;
ai.AppendElement(1); ai.AppendElement(2); ai.AppendElement(3);
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test_assert(42 == i.i(), "wrong value");
assert_arrays_equal(ai, i.ai());
assert_arrays_equal(mKids, i.apParent());
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const SActors& ia = i.aa()[0];
test_assert(42 == ia.i(), "wrong value");
assert_arrays_equal(ai, ia.ai());
assert_arrays_equal(mKids, ia.apParent());
*o = i;
return true;
}
bool TestDataStructuresParent::RecvTest15(
const WithStructs& i1,
const WithStructs& i2,
const WithStructs& i3,
const WithStructs& i4,
const WithStructs& i5,
WithStructs* o1,
WithStructs* o2,
WithStructs* o3,
WithStructs* o4,
WithStructs* o5)
{
InfallibleTArray<int> ai;
ai.AppendElement(1); ai.AppendElement(2); ai.AppendElement(3);
test_assert(i1 == int(42), "wrong value");
assert_arrays_equal(i2.get_ArrayOfint(), ai);
assert_arrays_equal(i3.get_ArrayOfPTestDataStructuresSubParent(), mKids);
const SActors& ia = i4.get_ArrayOfSActors()[0];
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test_assert(42 == ia.i(), "wrong value");
assert_arrays_equal(ai, ia.ai());
assert_arrays_equal(mKids, ia.apParent());
const Structs& is = i5.get_ArrayOfStructs()[0];
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test_assert(42 == is.i(), "wrong value");
assert_arrays_equal(ai, is.ai());
assert_arrays_equal(mKids, is.apParent());
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const SActors& isa = is.aa()[0];
test_assert(42 == isa.i(), "wrong value");
assert_arrays_equal(ai, isa.ai());
assert_arrays_equal(mKids, isa.apParent());
*o1 = i1;
*o2 = i2;
*o3 = i3;
*o4 = i4;
*o5 = i5;
return true;
}
bool TestDataStructuresParent::RecvTest16(
const WithUnions& i,
WithUnions* o)
{
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test_assert(i.i() == 42, "wrong value");
InfallibleTArray<int> ai;
ai.AppendElement(1); ai.AppendElement(2); ai.AppendElement(3);
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assert_arrays_equal(ai, i.ai());
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assert_arrays_equal(i.apParent(), mKids);
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assert_arrays_equal(mKids, i.aa()[0].get_ArrayOfPTestDataStructuresSubParent());
const InfallibleTArray<Unions>& iau = i.au();
test_assert(iau[0] == 42, "wrong value");
assert_arrays_equal(ai, iau[1].get_ArrayOfint());
assert_arrays_equal(mKids, iau[2].get_ArrayOfPTestDataStructuresSubParent());
assert_arrays_equal(mKids,
iau[3].get_ArrayOfActors()[0]
.get_ArrayOfPTestDataStructuresSubParent());
*o = i;
return true;
}
bool TestDataStructuresParent::RecvTest17(const InfallibleTArray<Op>& sa)
{
test_assert(sa.Length() == 1 && Op::TSetAttrs == sa[0].type(),
"wrong value");
return true;
}
bool TestDataStructuresParent::RecvTest18(const RegionArray& ra)
{
for (RegionArray::index_type i = 0; i < ra.Length(); ++i) {
nsIntRegionRectIterator it(ra[i]);
// if |ra| has been realloc()d and given a different allocator
// chunk, this next line will nondeterministically crash or
// iloop
while (const nsIntRect* sr = it.Next()) unused << sr;
}
return true;
}
//-----------------------------------------------------------------------------
// child
TestDataStructuresChild::TestDataStructuresChild()
{
MOZ_COUNT_CTOR(TestDataStructuresChild);
}
TestDataStructuresChild::~TestDataStructuresChild()
{
MOZ_COUNT_DTOR(TestDataStructuresChild);
}
bool
TestDataStructuresChild::RecvStart()
{
puts("[TestDataStructuresChild] starting");
Test1();
Test2();
Test3();
Test4();
Test5();
Test6();
Test7_0();
Test7();
Test8();
Test9();
Test10();
Test11();
Test12();
Test13();
Test14();
Test15();
Test16();
Test17();
if (OtherProcess() != 0) {
//FIXME/bug 703317 allocation of nsIntRegion uses a global
//region pool which breaks threads
Test18();
}
for (uint32_t i = 0; i < nactors; ++i)
if (!PTestDataStructuresSubChild::Send__delete__(mKids[i]))
fail("can't send dtor");
Close();
return true;
}
void
TestDataStructuresChild::Test1()
{
InfallibleTArray<int> ia;
for (int i = 0; i < 5; ++i)
ia.AppendElement(i);
InfallibleTArray<int> oa;
if (!SendTest1(ia, &oa))
fail("can't send Test1");
assert_arrays_equal(ia, oa);
printf(" passed %s\n", __FUNCTION__);
}
void
TestDataStructuresChild::Test2()
{
InfallibleTArray<PTestDataStructuresSubChild*> oa;
if (!SendTest2(mKids, &oa))
fail("can't send Test2");
assert_arrays_equal(mKids, oa);
printf(" passed %s\n", __FUNCTION__);
}
void
TestDataStructuresChild::Test3()
{
int i1i = 42;
double i2d = 4.0;
IntDouble i1(i1i);
IntDouble i2(i2d);
IntDouble o1, o2;
SendTest3(i1, i2, &o1, &o2);
test_assert(i1i == o1.get_int(), "wrong value");
test_assert(i2d == o2.get_double(), "wrong value");
printf(" passed %s\n", __FUNCTION__);
}
void
TestDataStructuresChild::Test4()
{
InfallibleTArray<IntDouble> i1;
i1.AppendElement(IntDouble(int(1)));
i1.AppendElement(IntDouble(2.0));
i1.AppendElement(IntDouble(int(3)));
i1.AppendElement(IntDouble(4.0));
InfallibleTArray<IntDouble> o1;
if (!SendTest4(i1, &o1))
fail("can't send Test4");
// TODO Union::operator==()
test_assert(i1.Length() == o1.Length(), "wrong length");
test_assert(1 == o1[0].get_int(), "wrong value");
test_assert(2.0 == o1[1].get_double(), "wrong value");
test_assert(3 == o1[2].get_int(), "wrong value");
test_assert(4.0 == o1[3].get_double(), "wrong value");
printf(" passed %s\n", __FUNCTION__);
}
void
TestDataStructuresChild::Test5()
{
IntDoubleArrays i1(int(42));
InfallibleTArray<int> i2;
i2.AppendElement(1); i2.AppendElement(2); i2.AppendElement(3);
InfallibleTArray<double> i3;
i3.AppendElement(1.0); i3.AppendElement(2.0); i3.AppendElement(3.0);
IntDoubleArrays o1, o2, o3;
if (!SendTest5(i1, IntDoubleArrays(i2), IntDoubleArrays(i3),
&o1, &o2, &o3))
fail("can't send Test5");
test_assert(42 == o1.get_int(), "wrong value");
assert_arrays_equal(i2, o2.get_ArrayOfint());
assert_arrays_equal(i3, o3.get_ArrayOfdouble());
printf(" passed %s\n", __FUNCTION__);
}
void
TestDataStructuresChild::Test6()
{
IntDoubleArrays id1(int(42));
InfallibleTArray<int> id2;
id2.AppendElement(1); id2.AppendElement(2); id2.AppendElement(3);
InfallibleTArray<double> id3;
id3.AppendElement(1.0); id3.AppendElement(2.0); id3.AppendElement(3.0);
InfallibleTArray<IntDoubleArrays> i1;
i1.AppendElement(id1);
i1.AppendElement(IntDoubleArrays(id2));
i1.AppendElement(IntDoubleArrays(id3));
InfallibleTArray<IntDoubleArrays> o1;
if (!SendTest6(i1, &o1))
fail("can't send Test6");
test_assert(3 == o1.Length(), "wrong length");
IntDoubleArrays od1(o1[0]);
InfallibleTArray<int> od2(o1[1].get_ArrayOfint());
InfallibleTArray<double> od3(o1[2].get_ArrayOfdouble());
test_assert(42 == od1.get_int(), "wrong value");
assert_arrays_equal(id2, od2);
assert_arrays_equal(id3, od3);
printf(" passed %s\n", __FUNCTION__);
}
void
TestDataStructuresChild::Test7_0()
{
ActorWrapper iaw;
if (iaw.actorChild() != nullptr || iaw.actorParent() != nullptr)
fail("actor members should be null initially");
iaw.actorChild() = mKids[0];
if (iaw.actorParent() != nullptr)
fail("parent should be null on child side after set");
ActorWrapper oaw;
if (!SendTest7_0(iaw, &oaw))
fail("sending Test7_0");
if (oaw.actorParent() != nullptr)
fail("parent accessor on actor-struct members should always be null in child");
if (oaw.actorChild() != mKids[0])
fail("should have got back same child-side actor");
}
void
TestDataStructuresChild::Test7()
{
Actors i1(42);
InfallibleTArray<int> i2a;
i2a.AppendElement(1); i2a.AppendElement(2); i2a.AppendElement(3);
Actors o1, o2, o3;
if (!SendTest7(i1, Actors(i2a), Actors(mKids), &o1, &o2, &o3))
fail("can't send Test7");
test_assert(42 == o1.get_int(), "wrong value");
assert_arrays_equal(i2a, o2.get_ArrayOfint());
assert_arrays_equal(mKids, o3.get_ArrayOfPTestDataStructuresSubChild());
printf(" passed %s\n", __FUNCTION__);
}
void
TestDataStructuresChild::Test8()
{
Actors i1e(42);
InfallibleTArray<int> i2a;
i2a.AppendElement(1); i2a.AppendElement(2); i2a.AppendElement(3);
InfallibleTArray<Actors> i1;
i1.AppendElement(i1e);
i1.AppendElement(i2a);
i1.AppendElement(mKids);
InfallibleTArray<Actors> o1;
if (!SendTest8(i1, &o1))
fail("can't send Test8");
test_assert(3 == o1.Length(), "wrong length");
test_assert(42 == o1[0].get_int(), "wrong value");
assert_arrays_equal(i2a, o1[1].get_ArrayOfint());
assert_arrays_equal(mKids, o1[2].get_ArrayOfPTestDataStructuresSubChild());
printf(" passed %s\n", __FUNCTION__);
}
void
TestDataStructuresChild::Test9()
{
Unions i1(int(42));
InfallibleTArray<int> i2a;
i2a.AppendElement(1);
i2a.AppendElement(2);
i2a.AppendElement(3);
InfallibleTArray<Actors> i4a;
i4a.AppendElement(mKids);
Unions o1, o2, o3, o4;
if (!SendTest9(i1, Unions(i2a), Unions(mKids), Unions(i4a),
&o1, &o2, &o3, &o4))
fail("can't send Test9");
test_assert(42 == o1.get_int(), "wrong value");
assert_arrays_equal(i2a, o2.get_ArrayOfint());
assert_arrays_equal(mKids, o3.get_ArrayOfPTestDataStructuresSubChild());
assert_arrays_equal(
mKids,
o4.get_ArrayOfActors()[0].get_ArrayOfPTestDataStructuresSubChild());
printf(" passed %s\n", __FUNCTION__);
}
void
TestDataStructuresChild::Test10()
{
Unions i1a(int(42));
InfallibleTArray<int> i2a;
i2a.AppendElement(1);
i2a.AppendElement(2);
i2a.AppendElement(3);
InfallibleTArray<Actors> i4a;
i4a.AppendElement(mKids);
InfallibleTArray<Unions> i1;
i1.AppendElement(i1a);
i1.AppendElement(Unions(i2a));
i1.AppendElement(Unions(mKids));
i1.AppendElement(Unions(i4a));
InfallibleTArray<Unions> o1;
if (!SendTest10(i1, &o1))
fail("can't send Test10");
test_assert(4 == o1.Length(), "wrong length");
test_assert(42 == o1[0].get_int(), "wrong value");
assert_arrays_equal(i2a, o1[1].get_ArrayOfint());
assert_arrays_equal(mKids, o1[2].get_ArrayOfPTestDataStructuresSubChild());
assert_arrays_equal(
mKids,
o1[3].get_ArrayOfActors()[0].get_ArrayOfPTestDataStructuresSubChild());
printf(" passed %s\n", __FUNCTION__);
}
void
TestDataStructuresChild::Test11()
{
SIntDouble i(1, 2.0);
SIntDouble o;
if (!SendTest11(i, &o))
fail("sending Test11");
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test_assert(1 == o.i() && 2.0 == o.d(), "wrong values");
printf(" passed %s\n", __FUNCTION__);
}
void
TestDataStructuresChild::Test12()
{
InfallibleTArray<int> ai;
ai.AppendElement(1); ai.AppendElement(2); ai.AppendElement(3);
InfallibleTArray<double> ad;
ad.AppendElement(.5); ad.AppendElement(1.0); ad.AppendElement(2.0);
SIntDoubleArrays i(42, ai, ad);
SIntDoubleArrays o;
if (!SendTest12(i, &o))
fail("sending Test12");
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test_assert(42 == o.i(), "wrong value");
assert_arrays_equal(ai, o.ai());
assert_arrays_equal(ad, o.ad());
printf(" passed %s\n", __FUNCTION__);
}
void
TestDataStructuresChild::Test13()
{
InfallibleTArray<int> ai;
ai.AppendElement(1); ai.AppendElement(2); ai.AppendElement(3);
SActors i;
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i.i() = 42;
i.ai() = ai;
i.apChild() = mKids;
SActors o;
if (!SendTest13(i, &o))
fail("can't send Test13");
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test_assert(42 == o.i(), "wrong value");
assert_arrays_equal(ai, o.ai());
assert_arrays_equal(mKids, o.apChild());
printf(" passed %s\n", __FUNCTION__);
}
void
TestDataStructuresChild::Test14()
{
InfallibleTArray<int> ai;
ai.AppendElement(1); ai.AppendElement(2); ai.AppendElement(3);
SActors ia;
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ia.i() = 42;
ia.ai() = ai;
ia.apChild() = mKids;
InfallibleTArray<SActors> aa; aa.AppendElement(ia);
Structs i;
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i.i() = 42;
i.ai() = ai;
i.apChild() = mKids;
i.aa() = aa;
Structs o;
if (!SendTest14(i, &o))
fail("can't send Test14");
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test_assert(42 == o.i(), "wrong value");
assert_arrays_equal(ai, o.ai());
assert_arrays_equal(mKids, o.apChild());
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const SActors& os = o.aa()[0];
test_assert(42 == os.i(), "wrong value");
assert_arrays_equal(ai, os.ai());
assert_arrays_equal(mKids, os.apChild());
printf(" passed %s\n", __FUNCTION__);
}
void
TestDataStructuresChild::Test15()
{
InfallibleTArray<int> ai;
ai.AppendElement(1); ai.AppendElement(2); ai.AppendElement(3);
SActors ia;
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ia.i() = 42;
ia.ai() = ai;
ia.apChild() = mKids;
InfallibleTArray<SActors> iaa; iaa.AppendElement(ia);
Structs is;
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is.i() = 42;
is.ai() = ai;
is.apChild() = mKids;
is.aa() = iaa;
InfallibleTArray<Structs> isa; isa.AppendElement(is);
WithStructs o1, o2, o3, o4, o5;
if (!SendTest15(WithStructs(42),
WithStructs(ai),
WithStructs(mKids),
WithStructs(iaa),
WithStructs(isa),
&o1, &o2, &o3, &o4, &o5))
fail("sending Test15");
test_assert(o1 == int(42), "wrong value");
assert_arrays_equal(o2.get_ArrayOfint(), ai);
assert_arrays_equal(o3.get_ArrayOfPTestDataStructuresSubChild(), mKids);
const SActors& oa = o4.get_ArrayOfSActors()[0];
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test_assert(42 == oa.i(), "wrong value");
assert_arrays_equal(ai, oa.ai());
assert_arrays_equal(mKids, oa.apChild());
const Structs& os = o5.get_ArrayOfStructs()[0];
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test_assert(42 == os.i(), "wrong value");
assert_arrays_equal(ai, os.ai());
assert_arrays_equal(mKids, os.apChild());
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const SActors& osa = os.aa()[0];
test_assert(42 == osa.i(), "wrong value");
assert_arrays_equal(ai, osa.ai());
assert_arrays_equal(mKids, osa.apChild());
printf(" passed %s\n", __FUNCTION__);
}
void
TestDataStructuresChild::Test16()
{
WithUnions i;
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i.i() = 42;
InfallibleTArray<int> ai;
ai.AppendElement(1); ai.AppendElement(2); ai.AppendElement(3);
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i.ai() = ai;
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i.apChild() = mKids;
InfallibleTArray<Actors> iaa;
iaa.AppendElement(mKids);
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i.aa() = iaa;
InfallibleTArray<Unions> iau;
iau.AppendElement(int(42));
iau.AppendElement(ai);
iau.AppendElement(mKids);
iau.AppendElement(iaa);
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i.au() = iau;
WithUnions o;
if (!SendTest16(i, &o))
fail("sending Test16");
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test_assert(42 == o.i(), "wrong value");
assert_arrays_equal(o.ai(), ai);
assert_arrays_equal(o.apChild(), mKids);
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const Actors& oaa = o.aa()[0];
assert_arrays_equal(oaa.get_ArrayOfPTestDataStructuresSubChild(), mKids);
const InfallibleTArray<Unions>& oau = o.au();
test_assert(oau[0] == 42, "wrong value");
assert_arrays_equal(oau[1].get_ArrayOfint(), ai);
assert_arrays_equal(oau[2].get_ArrayOfPTestDataStructuresSubChild(),
mKids);
assert_arrays_equal(oau[3].get_ArrayOfActors()[0]
.get_ArrayOfPTestDataStructuresSubChild(),
mKids);
printf(" passed %s\n", __FUNCTION__);
}
void
TestDataStructuresChild::Test17()
{
Attrs attrs;
attrs.common() = CommonAttrs(true);
attrs.specific() = BarAttrs(1.0f);
InfallibleTArray<Op> ops;
ops.AppendElement(SetAttrs(NULL, mKids[0], attrs));
if (!SendTest17(ops))
fail("sending Test17");
printf(" passed %s\n", __FUNCTION__);
}
void
TestDataStructuresChild::Test18()
{
const int nelements = 1000;
RegionArray ra;
// big enough to hopefully force a realloc to a different chunk of
// memory on the receiving side, if the workaround isn't working
// correctly. But SetCapacity() here because we don't want to
// crash on the sending side.
ra.SetCapacity(nelements);
for (int i = 0; i < nelements; ++i) {
nsIntRegion r;
r = r.Or(nsIntRect(0, 0, 10, 10), nsIntRect(10, 10, 10, 10));
ra.AppendElement(r);
}
if (!SendTest18(ra))
fail("sending Test18");
printf(" passed %s\n", __FUNCTION__);
}
} // namespace _ipdltest
} // namespace mozilla