/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "mozilla/ArrayUtils.h" #include "nsIAtom.h" #include "nsString.h" #include "UTFStrings.h" #include "nsIServiceManager.h" #include "nsStaticAtom.h" #include "gtest/gtest.h" using namespace mozilla; namespace TestAtoms { TEST(Atoms, Basic) { for (unsigned int i = 0; i < ArrayLength(ValidStrings); ++i) { nsDependentString str16(ValidStrings[i].m16); nsDependentCString str8(ValidStrings[i].m8); nsCOMPtr atom = do_GetAtom(str16); EXPECT_TRUE(atom->Equals(str16)); EXPECT_TRUE(atom->EqualsUTF8(str8)); nsString tmp16; nsCString tmp8; atom->ToString(tmp16); atom->ToUTF8String(tmp8); EXPECT_TRUE(str16.Equals(tmp16)); EXPECT_TRUE(str8.Equals(tmp8)); EXPECT_TRUE(nsDependentString(atom->GetUTF16String()).Equals(str16)); EXPECT_TRUE(nsAtomString(atom).Equals(str16)); EXPECT_TRUE(nsDependentAtomString(atom).Equals(str16)); EXPECT_TRUE(nsAtomCString(atom).Equals(str8)); } } TEST(Atoms, 16vs8) { for (unsigned int i = 0; i < ArrayLength(ValidStrings); ++i) { nsCOMPtr atom16 = do_GetAtom(ValidStrings[i].m16); nsCOMPtr atom8 = do_GetAtom(ValidStrings[i].m8); EXPECT_EQ(atom16, atom8); } } TEST(Atoms, BufferSharing) { nsString unique; unique.AssignLiteral("this is a unique string !@#$"); nsCOMPtr atom = do_GetAtom(unique); EXPECT_EQ(unique.get(), atom->GetUTF16String()); } TEST(Atoms, NUll) { nsAutoString str(NS_LITERAL_STRING("string with a \0 char")); nsDependentString strCut(str.get()); EXPECT_FALSE(str.Equals(strCut)); nsCOMPtr atomCut = do_GetAtom(strCut); nsCOMPtr atom = do_GetAtom(str); EXPECT_EQ(atom->GetLength(), str.Length()); EXPECT_TRUE(atom->Equals(str)); EXPECT_TRUE(atom->EqualsUTF8(NS_ConvertUTF16toUTF8(str))); EXPECT_NE(atom, atomCut); EXPECT_TRUE(atomCut->Equals(strCut)); } TEST(Atoms, Invalid) { for (unsigned int i = 0; i < ArrayLength(Invalid16Strings); ++i) { nsrefcnt count = NS_GetNumberOfAtoms(); { nsCOMPtr atom16 = do_GetAtom(Invalid16Strings[i].m16); EXPECT_TRUE(atom16->Equals(nsDependentString(Invalid16Strings[i].m16))); } EXPECT_EQ(count, NS_GetNumberOfAtoms()); } for (unsigned int i = 0; i < ArrayLength(Invalid8Strings); ++i) { nsrefcnt count = NS_GetNumberOfAtoms(); { nsCOMPtr atom8 = do_GetAtom(Invalid8Strings[i].m8); nsCOMPtr atom16 = do_GetAtom(Invalid8Strings[i].m16); EXPECT_EQ(atom16, atom8); EXPECT_TRUE(atom16->Equals(nsDependentString(Invalid8Strings[i].m16))); } EXPECT_EQ(count, NS_GetNumberOfAtoms()); } // Don't run this test in debug builds as that intentionally asserts. #ifndef DEBUG nsCOMPtr emptyAtom = do_GetAtom(""); for (unsigned int i = 0; i < ArrayLength(Malformed8Strings); ++i) { nsrefcnt count = NS_GetNumberOfAtoms(); nsCOMPtr atom8 = do_GetAtom(Malformed8Strings[i]); EXPECT_EQ(atom8, emptyAtom); EXPECT_EQ(count, NS_GetNumberOfAtoms()); } #endif } #define FIRST_ATOM_STR "first static atom. Hello!" #define SECOND_ATOM_STR "second static atom. @World!" #define THIRD_ATOM_STR "third static atom?!" static nsIAtom* sAtom1 = 0; static nsIAtom* sAtom2 = 0; static nsIAtom* sAtom3 = 0; NS_STATIC_ATOM_BUFFER(sAtom1_buffer, FIRST_ATOM_STR) NS_STATIC_ATOM_BUFFER(sAtom2_buffer, SECOND_ATOM_STR) NS_STATIC_ATOM_BUFFER(sAtom3_buffer, THIRD_ATOM_STR) static const nsStaticAtom sAtoms_info[] = { NS_STATIC_ATOM(sAtom1_buffer, &sAtom1), NS_STATIC_ATOM(sAtom2_buffer, &sAtom2), NS_STATIC_ATOM(sAtom3_buffer, &sAtom3), }; bool isStaticAtom(nsIAtom* atom) { // Don't use logic && in order to ensure that all addrefs/releases are always // run, even if one of the tests fail. This allows us to run this code on a // non-static atom without affecting its refcount. bool rv = (atom->AddRef() == 2); rv &= (atom->AddRef() == 2); rv &= (atom->AddRef() == 2); rv &= (atom->Release() == 1); rv &= (atom->Release() == 1); rv &= (atom->Release() == 1); return rv; } TEST(Atoms, Table) { nsrefcnt count = NS_GetNumberOfAtoms(); nsCOMPtr thirdNonPerm = do_GetAtom(THIRD_ATOM_STR); EXPECT_FALSE(isStaticAtom(thirdNonPerm)); EXPECT_TRUE(thirdNonPerm); EXPECT_EQ(NS_GetNumberOfAtoms(), count + 1); NS_RegisterStaticAtoms(sAtoms_info); EXPECT_TRUE(sAtom1); EXPECT_TRUE(sAtom1->Equals(NS_LITERAL_STRING(FIRST_ATOM_STR))); EXPECT_TRUE(isStaticAtom(sAtom1)); EXPECT_TRUE(sAtom2); EXPECT_TRUE(sAtom2->Equals(NS_LITERAL_STRING(SECOND_ATOM_STR))); EXPECT_TRUE(isStaticAtom(sAtom2)); EXPECT_TRUE(sAtom3); EXPECT_TRUE(sAtom3->Equals(NS_LITERAL_STRING(THIRD_ATOM_STR))); EXPECT_TRUE(isStaticAtom(sAtom3)); EXPECT_EQ(NS_GetNumberOfAtoms(), count + 3); EXPECT_EQ(thirdNonPerm, sAtom3); } #define FIRST_PERM_ATOM_STR "first permanent atom. Hello!" #define SECOND_PERM_ATOM_STR "second permanent atom. @World!" TEST(Atoms, Permanent) { nsrefcnt count = NS_GetNumberOfAtoms(); { nsCOMPtr first = do_GetAtom(FIRST_PERM_ATOM_STR); EXPECT_TRUE(first->Equals(NS_LITERAL_STRING(FIRST_PERM_ATOM_STR))); EXPECT_FALSE(isStaticAtom(first)); nsCOMPtr first_p = NS_NewPermanentAtom(NS_LITERAL_STRING(FIRST_PERM_ATOM_STR)); EXPECT_TRUE(first_p->Equals(NS_LITERAL_STRING(FIRST_PERM_ATOM_STR))); EXPECT_TRUE(isStaticAtom(first_p)); EXPECT_EQ(first, first_p); nsCOMPtr second_p = NS_NewPermanentAtom(NS_LITERAL_STRING(SECOND_PERM_ATOM_STR)); EXPECT_TRUE(second_p->Equals(NS_LITERAL_STRING(SECOND_PERM_ATOM_STR))); EXPECT_TRUE(isStaticAtom(second_p)); nsCOMPtr second = do_GetAtom(SECOND_PERM_ATOM_STR); EXPECT_TRUE(second->Equals(NS_LITERAL_STRING(SECOND_PERM_ATOM_STR))); EXPECT_TRUE(isStaticAtom(second)); EXPECT_EQ(second, second_p); } EXPECT_EQ(NS_GetNumberOfAtoms(), count + 2); } }