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|
/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*
* This file is part of the LibreOffice project.
*
* 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/.
*
* This file incorporates work covered by the following license notice:
*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed
* with this work for additional information regarding copyright
* ownership. The ASF licenses this file to you 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 .
*/
#include <iostream>
#include <stdio.h>
#include <string.h>
#include "registry/registry.hxx"
#include "registry/reflread.hxx"
#include "registry/reflwrit.hxx"
#include "regdiagnose.h"
#include <rtl/alloc.h>
#include <rtl/ustring.hxx>
using namespace std;
void test_coreReflection()
{
Registry *myRegistry = new Registry();
RegistryKey rootKey, key1, key2, key3, key4 ,key5, key6, key7, key8;
REG_ENSURE(!myRegistry->create(OUString("ucrtest.rdb")), "testCoreReflection error 1");
REG_ENSURE(!myRegistry->openRootKey(rootKey), "testCoreReflection error 2");
REG_ENSURE(!rootKey.createKey(OUString("UCR"), key1), "testCoreReflection error 3");
REG_ENSURE(!key1.createKey(OUString("ModuleA"), key2), "testCoreReflection error 4");
REG_ENSURE(!key2.createKey(OUString("StructA"), key3), "testCoreReflection error 5");
REG_ENSURE(!key2.createKey(OUString("EnumA"), key4), "testCoreReflection error 6");
REG_ENSURE(!key2.createKey(OUString("XInterfaceA"), key5), "testCoreReflection error 7");
REG_ENSURE(!key2.createKey(OUString("ExceptionA"), key6), "testCoreReflection error 8");
REG_ENSURE(!key2.createKey(OUString("ServiceA"), key7), "testCoreReflection error 8a");
REG_ENSURE(!key2.createKey(OUString("ConstantsA"), key8), "testCoreReflection error 8b");
{
RegistryTypeWriter writer(RT_TYPE_MODULE,
OUString("ModuleA"),
OUString(), 11, 0, 0);
RTConstValue aConst;
writer.setDoku(OUString("Hello I am a module"));
writer.setFileName(OUString("DummyFile"));
aConst.m_type = RT_TYPE_BOOL;
aConst.m_value.aBool = sal_True;
writer.setFieldData(0, OUString("aConstBool"),
OUString("boolean"),
OUString("I am a boolean"),
OUString("DummyFile"), RTFieldAccess::CONST, aConst);
aConst.m_type = RT_TYPE_BYTE;
aConst.m_value.aByte = 127;
writer.setFieldData(1, OUString("aConstByte"),
OUString("byte"),
OUString("I am a byte"),
OUString("DummyFile"), RTFieldAccess::CONST, aConst);
aConst.m_type = RT_TYPE_INT16;
aConst.m_value.aShort = -10;
writer.setFieldData(2, OUString("aConstShort"),
OUString("short"),
OUString("I am a short"),
OUString("DummyFile"), RTFieldAccess::CONST, aConst);
aConst.m_type = RT_TYPE_UINT16;
aConst.m_value.aUShort = 10;
writer.setFieldData(3, OUString("aConstUShort"),
OUString("unsigned short"),
OUString("I am an unsigned short"),
OUString("DummyFile"), RTFieldAccess::CONST, aConst);
aConst.m_type = RT_TYPE_INT32;
aConst.m_value.aLong = -100000;
writer.setFieldData(4, OUString("aConstLong"),
OUString("long"),
OUString("I am a long"),
OUString("DummyFile"), RTFieldAccess::CONST, aConst);
aConst.m_type = RT_TYPE_UINT32;
aConst.m_value.aULong = 100000;
writer.setFieldData(5, OUString("aConstULong"),
OUString("unsigned long"),
OUString("I am an unsigned long"),
OUString("DummyFile"), RTFieldAccess::CONST, aConst);
aConst.m_type = RT_TYPE_INT64;
aConst.m_value.aHyper = -100000000;
writer.setFieldData(6, OUString("aConstHyper"),
OUString("hyper"),
OUString("I am an hyper"),
OUString("DummyFile"), RTFieldAccess::CONST, aConst);
aConst.m_type = RT_TYPE_UINT64;
aConst.m_value.aUHyper = 100000000;
writer.setFieldData(7, OUString("aConstULong"),
OUString("unsigned long"),
OUString("I am an unsigned long"),
OUString("DummyFile"), RTFieldAccess::CONST, aConst);
aConst.m_type = RT_TYPE_FLOAT;
aConst.m_value.aFloat = -2e-10f;
writer.setFieldData(8, OUString("aConstFloat"),
OUString("float"),
OUString("I am a float"),
OUString("DummyFile"), RTFieldAccess::CONST, aConst);
aConst.m_type = RT_TYPE_DOUBLE;
aConst.m_value.aDouble = -2e-100; writer.setFieldData(9, OUString("aConstDouble"),
OUString("double"),
OUString("I am a double"),
OUString("DummyFile"), RTFieldAccess::CONST, aConst);
aConst.m_type = RT_TYPE_STRING;
OUString tmpStr("this is a unicode string");
aConst.m_value.aString = tmpStr.getStr();
writer.setFieldData(10, OUString("aConstString"),
OUString("string"),
OUString("I am a string"),
OUString("DummyFile"), RTFieldAccess::CONST, aConst);
const sal_uInt8* pBlop = writer.getBlop();
sal_uInt32 aBlopSize = writer.getBlopSize();
REG_ENSURE(!key2.setValue(OUString(), RegValueType::BINARY, (void*)pBlop, aBlopSize), "testCoreReflection error 9");
sal_uInt8* readBlop = (sal_uInt8*)std::malloc(aBlopSize);
REG_ENSURE(!key2.getValue(OUString(), (void*)readBlop) , "testCoreReflection error 9a");
RegistryTypeReader reader(readBlop, aBlopSize, sal_True);
if (reader.isValid())
{
REG_ENSURE(reader.getTypeName() == "ModuleA", "testCoreReflection error 9a2");
RTConstValue aReadConst = reader.getFieldConstValue(4);
REG_ENSURE( aReadConst.m_type == RT_TYPE_INT32, "testCoreReflection error 9a3");
REG_ENSURE( aReadConst.m_value.aLong == -100000, "testCoreReflection error 9a4");
aReadConst = reader.getFieldConstValue(6);
REG_ENSURE( aReadConst.m_type == RT_TYPE_INT64, "testCoreReflection error 9a5");
REG_ENSURE( aReadConst.m_value.aHyper == -100000000, "testCoreReflection error 9a6");
aReadConst = reader.getFieldConstValue(10);
OString aConstStr = OUStringToOString(aConst.m_value.aString, RTL_TEXTENCODING_ASCII_US);
REG_ENSURE(aConstStr.equals("this is a unicode string"), "testCoreReflection error 9b");
}
}
{
RegistryTypeWriter writer(RT_TYPE_STRUCT,
OUString("ModuleA/StructA"),
OUString(), 3, 0, 0);
writer.setDoku(OUString("Hello I am a structure"));
writer.setFileName(OUString("DummyFile"));
writer.setFieldData(0, OUString("asal_uInt32"),
OUString("unsigned long"),
OUString(), OUString(), RTFieldAccess::READWRITE);
writer.setFieldData(1, OUString("aXInterface"),
OUString("stardiv/uno/XInterface"),
OUString(), OUString(), RTFieldAccess::READWRITE);
writer.setFieldData(2, OUString("aSequence"),
OUString("[]ModuleA/EnumA"),
OUString(), OUString(), RTFieldAccess::READWRITE);
const sal_uInt8* pBlop = writer.getBlop();
sal_uInt32 aBlopSize = writer.getBlopSize();
REG_ENSURE(!key3.setValue(OUString(), RegValueType::BINARY, (void*)pBlop, aBlopSize), "testCoreReflection error 9a");
}
{
RegistryTypeWriter writer(RT_TYPE_ENUM,
OUString("ModuleA/EnumA"),
OUString(), 2, 0, 0);
RTConstValue aConst;
aConst.m_type = RT_TYPE_UINT32;
aConst.m_value.aULong = 10;
writer.setDoku(OUString("Hello I am an enum"));
writer.setFileName(OUString("DummyFile"));
writer.setFieldData(0, OUString("ENUM_VAL_1"),
OUString(), OUString("I am an enum value"),
OUString(), RTFieldAccess::CONST, aConst);
aConst.m_value.aULong = 10;
writer.setFieldData(1, OUString("ENUM_VAL_2"),
OUString(), OUString(), OUString(), RTFieldAccess::CONST, aConst);
const sal_uInt8* pBlop = writer.getBlop();
sal_uInt32 aBlopSize = writer.getBlopSize();
REG_ENSURE(!key4.setValue(OUString(), RegValueType::BINARY, (void*)pBlop, aBlopSize), "testCoreReflection error 9b");
}
{
RegistryTypeWriter writer(RT_TYPE_INTERFACE,
OUString("ModuleA/XInterfaceA"),
OUString("stardiv/uno/XInterface"),
4, 1, 0);
RTConstValue aConst;
RTUik aUik = {1,2,3,4,5};
writer.setUik(aUik);
writer.setDoku(OUString("Hello I am an interface"));
writer.setFileName(OUString("DummyFile"));
writer.setFieldData(0, OUString("aString"),
OUString("string"), OUString(), OUString(), RTFieldAccess::READWRITE);
writer.setFieldData(1, OUString("aStruct"),
OUString("ModuleA/StructA"),
OUString(), OUString(), RTFieldAccess::READONLY);
writer.setFieldData(2, OUString("aEnum"),
OUString("ModuleA/EnumA"), OUString(), OUString(), RTFieldAccess::BOUND);
aConst.m_type = RT_TYPE_UINT16;
aConst.m_value.aUShort = 12;
writer.setFieldData(3, OUString("aConstUShort"),
OUString("unsigned short"), OUString(),
OUString("DummyFile"), RTFieldAccess::CONST, aConst);
writer.setMethodData(0, OUString("methodA"),
OUString("double"), RTMethodMode::TWOWAY, 2, 1,
OUString("Hello I am the methodA"));
writer.setParamData(0, 0, OUString("ModuleA/StructA"),
OUString("aStruct"), RT_PARAM_IN);
writer.setParamData(0, 1, OUString("unsigned short"),
OUString("aShort"), RT_PARAM_INOUT);
writer.setExcData(0, 0, OUString("ModuleA/ExceptionA"));
const sal_uInt8* pBlop = writer.getBlop();
sal_uInt32 aBlopSize = writer.getBlopSize();
REG_ENSURE(!key5.setValue(OUString(), RegValueType::BINARY, (void*)pBlop, aBlopSize), "testCoreReflection error 9c");
sal_uInt8* readBlop = (sal_uInt8*)std::malloc(aBlopSize);
REG_ENSURE(!key5.getValue(OUString(), (void*)readBlop) , "testCoreReflection error 9c1");
RegistryTypeReader reader(readBlop, aBlopSize, sal_True);
if (reader.isValid())
{
REG_ENSURE(reader.getTypeName() == "ModuleA/XInterfaceA", "testCoreReflection error 9c2");
RTUik retUik;
reader.getUik(retUik);
REG_ENSURE(retUik.m_Data1 = 1, "testCoreReflection error 9c3");
REG_ENSURE(retUik.m_Data2 = 2, "testCoreReflection error 9c4");
REG_ENSURE(retUik.m_Data3 = 3, "testCoreReflection error 9c5");
REG_ENSURE(retUik.m_Data4 = 4, "testCoreReflection error 9c6");
REG_ENSURE(retUik.m_Data5 = 5, "testCoreReflection error 9c7");
}
}
{
RegistryTypeWriter writer(RT_TYPE_EXCEPTION,
OUString("ModuleA/ExceptionA"),
OUString(), 1, 0, 0);
writer.setDoku(OUString("Hello I am an exception"));
writer.setFieldData(0, OUString("aSource"),
OUString("stardiv/uno/XInterface"),
OUString("I am an interface member"),
OUString(), RTFieldAccess::READWRITE);
const sal_uInt8* pBlop = writer.getBlop();
sal_uInt32 aBlopSize = writer.getBlopSize();
REG_ENSURE(!key6.setValue(OUString(), RegValueType::BINARY, (void*)pBlop, aBlopSize), "testCoreReflection error 9d");
}
{
RegistryTypeWriter writer(RT_TYPE_SERVICE,
OUString("ModuleA/ServiceA"),
OUString(), 1, 0, 4);
writer.setDoku(OUString("Hello I am a service"));
writer.setFileName(OUString("DummyFile"));
writer.setFieldData(0, OUString("aProperty"),
OUString("stardiv/uno/XInterface"),
OUString("I am a property"),
OUString(), RTFieldAccess::READWRITE);
writer.setReferenceData(0, OUString("ModuleA/XInterfaceA"), RTReferenceType::SUPPORTS,
OUString("Hello I am a reference to a supported interface"),
RTFieldAccess::OPTIONAL);
writer.setReferenceData(1, OUString("ModuleA/XInterfaceA"), RTReferenceType::OBSERVES,
OUString("Hello I am a reference to an observed interface"));
writer.setReferenceData(2, OUString("ModuleA/ServiceB"), RTReferenceType::EXPORTS,
OUString("Hello I am a reference to an exported service"));
writer.setReferenceData(3, OUString("ModuleA/ServiceB"), RTReferenceType::NEEDS,
OUString("Hello I am a reference to a needed service"));
const sal_uInt8* pBlop = writer.getBlop();
sal_uInt32 aBlopSize = writer.getBlopSize();
REG_ENSURE(!key7.setValue(OUString(), RegValueType::BINARY, (void*)pBlop, aBlopSize), "testCoreReflection error 9e");
sal_uInt8* readBlop = (sal_uInt8*)std::malloc(aBlopSize);
REG_ENSURE(!key7.getValue(OUString(), (void*)readBlop) , "testCoreReflection error 9e2");
RegistryTypeReader reader(readBlop, aBlopSize, sal_True);
if (reader.isValid())
{
REG_ENSURE(reader.getTypeName() == "ModuleA/ServiceA", "testCoreReflection error 9e3");
sal_uInt32 referenceCount = reader.getReferenceCount();
REG_ENSURE( referenceCount == 4, "testCoreReflection error 9e4");
OUString refName = reader.getReferenceName(0);
REG_ENSURE(refName == "ModuleA/XInterfaceA", "testCoreReflection error 9e5");
}
}
{
RegistryTypeWriter writer(RT_TYPE_CONSTANTS,
OUString("ModuleA/ConstansA"),
OUString(), 3, 0, 0);
RTConstValue aConst;
writer.setDoku(OUString("Hello I am a constants group"));
writer.setFileName(OUString("DummyFile"));
aConst.m_type = RT_TYPE_BOOL;
aConst.m_value.aBool = sal_True;
writer.setFieldData(0, OUString("ConstantsA_aConstBool"),
OUString("boolean"),
OUString("I am a boolean"),
OUString("DummyFile"), RTFieldAccess::CONST, aConst);
aConst.m_type = RT_TYPE_BYTE;
aConst.m_value.aByte = 127;
writer.setFieldData(1, OUString("ConstantsA_aConstByte"),
OUString("byte"),
OUString("I am a byte"),
OUString("DummyFile"), RTFieldAccess::CONST, aConst);
aConst.m_type = RT_TYPE_INT16;
aConst.m_value.aShort = -10;
writer.setFieldData(2, OUString("ConstantsA_aConstShort"),
OUString("short"),
OUString("I am a short"),
OUString("DummyFile"), RTFieldAccess::CONST, aConst);
const sal_uInt8* pBlop = writer.getBlop();
sal_uInt32 aBlopSize = writer.getBlopSize();
REG_ENSURE(!key8.setValue(OUString(), RegValueType::BINARY, (void*)pBlop, aBlopSize), "testCoreReflection error 9f");
}
// REG_ENSURE(!myRegistry->destroy(NULL), "testCoreReflection error 10");
delete myRegistry;
cout << "test_coreReflection() Ok!\n";
}
void test_registry_CppApi()
{
Registry *myRegistry = new Registry();
RegistryKey rootKey, key1, key2, key3, key4 ,key5, key6, key7, key8, key9;
REG_ENSURE(!myRegistry->create(OUString("test.rdb")), "test_registry_CppApi error 1");
REG_ENSURE(!myRegistry->openRootKey(rootKey), "test_registry_CppApi error 2");
REG_ENSURE(!rootKey.createKey(OUString("myFirstKey"), key1), "test_registry_CppApi error 3");
REG_ENSURE(!rootKey.createKey(OUString("mySecondKey"), key2), "test_registry_CppApi error 4");
REG_ENSURE(!key1.createKey(OUString("X"), key3), "test_registry_CppApi error 5");
REG_ENSURE(!key1.createKey(OUString("mySecondSubKey"), key4), "test_registry_CppApi error 6");
REG_ENSURE(!rootKey.createKey(OUString("myThirdKey"), key5), "test_registry_CppApi error 6a");
REG_ENSURE(!key5.createKey(OUString("1"), key4), "test_registry_CppApi error 6b");
REG_ENSURE(!key4.createKey(OUString("2"), key3), "test_registry_CppApi error 6c");
REG_ENSURE(!key5.openKey("1", key4), "test_registry_CppApi error 6d");
REG_ENSURE(!rootKey.openKey("/myThirdKey/1", key4), "test_registry_CppApi error 6e");
REG_ENSURE(key4.getName() == "/myThirdKey/1", "test_registry_CppApi error 6f");
REG_ENSURE(!rootKey.createKey(OUString("myFourthKey"), key6), "test_registry_CppApi error 7");
REG_ENSURE(!rootKey.createKey(OUString("myFifthKey"), key6), "test_registry_CppApi error 7a");
REG_ENSURE(!rootKey.createKey(OUString("mySixthKey"), key6), "test_registry_CppApi error 7b");
// Link Test
REG_ENSURE(!rootKey.createKey(OUString("/myFourthKey/X"), key7), "test_registry_CppApi error 7c)");
REG_ENSURE(!key6.createLink(OUString("myFirstLink"), OUString("/myFourthKey/X")), "test_registry_CppApi error 7d");
REG_ENSURE(!key6.createKey(OUString("mySixthSubKey"), key7), "test_registry_CppApi error 7e");
OUString linkTarget;
REG_ENSURE(!key6.getLinkTarget(OUString("myFirstLink"), linkTarget), "test_registry_CppApi error 7f");
REG_ENSURE(linkTarget == "/myFourthKey/X", "test_registry_CppApi error 7g");
RegistryKeyNames* pSubKeyNames = new RegistryKeyNames();
sal_uInt32 nSubKeys=0;
REG_ENSURE(!rootKey.getKeyNames(OUString("mySixthKey"), *pSubKeyNames), "test_registry_CppApi error 7h)");
REG_ENSURE(pSubKeyNames->getLength() == 2, "test_registry_CppApi error 7i)");
for (sal_uInt32 i=0; i < pSubKeyNames->getLength(); i++)
{
if ( pSubKeyNames->getElement(i) == "/mySixthKey/myFirstLink" )
{
RegKeyType keyType;
REG_ENSURE(!rootKey.getKeyType(pSubKeyNames->getElement(i), &keyType), "test_registry_CppApi error 7j");
REG_ENSURE(keyType == RG_LINKTYPE, "test_registry_CppApi error 7k");
}
}
REG_ENSURE(!key7.closeKey(), "test_registry_CppApi error 7k1");
delete pSubKeyNames;
REG_ENSURE(!rootKey.openKey("/mySixthKey/myFirstLink", key6), "test_registry_CppApi error 7l");
// REG_ENSURE(key6.getName() == "/myFourthKey/X", "test_registry_CppApi error 7m");
REG_ENSURE(!rootKey.openKey("myFifthKey", key6), "test_registry_CppApi error 7m1");
REG_ENSURE(!key6.createLink(OUString("mySecondLink"),
OUString("/mySixthKey/myFirstLink")), "test_registry_CppApi error 7m2");
REG_ENSURE(!rootKey.openKey("/myFifthKey/mySecondLink", key6), "test_registry_CppApi error 7m3");
// REG_ENSURE(key6.getName() == "/myFourthKey/X", "test_registry_CppApi error 7m4");
REG_ENSURE(!rootKey.createKey(OUString("/myFifthKey/mySecondLink/myFirstLinkSubKey"), key7), "test_registry_CppApi error 7m5");
REG_ENSURE(key7.getName() == "/myFourthKey/X/myFirstLinkSubKey", "test_registry_CppApi error 7m6");
REG_ENSURE(!key7.createLink(OUString("myThirdLink"), OUString("/myFifthKey/mySecondLink")), "test_registry_CppApi error 7m7");
REG_ENSURE(!rootKey.openKey("/myFourthKey/X/myFirstLinkSubKey/myThirdLink", key7), "test_registry_CppApi error 7m8");
// REG_ENSURE(!key7.openKey("/myFirstLinkSubKey/myThirdLink/myFirstLinkSubKey/myThirdLink", key6), "test_registry_CppApi error 7m9");
// REG_ENSURE(key7.getName() == "/myFourthKey/X", "test_registry_CppApi error 7m10");
REG_ENSURE(!key7.closeKey(), "test_registry_CppApi error 7m11");
REG_ENSURE(!rootKey.deleteLink(OUString("/myFifthKey/mySecondLink")), "test_registry_CppApi error 7m12");
REG_ENSURE(!rootKey.createLink(OUString("/myFifthKey/mySecondLink"),
OUString("/myFourthKey/X/myFirstLinkSubKey/myThirdLink")),
"test_registry_CppApi error 7m13");
// REG_ENSURE(rootKey.openKey("/myFourthKey/X/myFirstLinkSubKey/myThirdLink", key7) == REG_DETECT_RECURSION,
// "test_registry_CppApi error 7m14");
// REG_ENSURE(key7.closeKey() == REG_INVALID_KEY, "test_registry_CppApi error 7m11");
RegistryKeyNames subKeyNames;
nSubKeys=0;
REG_ENSURE(!rootKey.getKeyNames(OUString("mySixthKey"), subKeyNames), "test_registry_CppApi error 7n");
nSubKeys = subKeyNames.getLength();
REG_ENSURE(nSubKeys == 2, "test_registry_CppApi error 7n1");
REG_ENSURE(subKeyNames.getElement(0) == "/mySixthKey/myFirstLink", "test_registry_CppApi error 7p1)");
REG_ENSURE(subKeyNames.getElement(1) =="/mySixthKey/mySixthSubKey", "test_registry_CppApi error 7p2");
RegistryKeyArray subKeys;
nSubKeys=0;
REG_ENSURE(!rootKey.openSubKeys(OUString("myFirstKey"), subKeys), "test_registry_CppApi error 7o");
nSubKeys = subKeys.getLength();
REG_ENSURE(nSubKeys == 2, "test_registry_CppApi error 7o1");
REG_ENSURE(subKeys.getElement(0).getName() == "/myFirstKey/mySecondSubKey", "test_registry_CppApi error 7p1)");
REG_ENSURE(subKeys.getElement(1).getName() == "/myFirstKey/X", "test_registry_CppApi error 7p2");
REG_ENSURE(!rootKey.closeSubKeys(subKeys), "test_registry_CppApi error 7q)");
REG_ENSURE(!rootKey.createKey(OUString("/TEST"), key8), "test_registry_CppApi error 8");
REG_ENSURE(!rootKey.createKey(OUString("/TEST/Child1"), key8), "test_registry_CppApi error 8a");
REG_ENSURE(!rootKey.createKey(OUString("/TEST/Child2"), key8), "test_registry_CppApi error 8a1");
REG_ENSURE(!rootKey.openKey("/TEST", key9), "test_registry_CppApi error 8b");
REG_ENSURE(!key8.closeKey() && !key9.closeKey(), "test_registry_CppApi error 8b1");
REG_ENSURE(!rootKey.openKey("/TEST", key8), "test_registry_CppApi error 8b");
REG_ENSURE(!key8.closeKey(), "test_registry_CppApi error 8c");
REG_ENSURE(!rootKey.openKey("TEST", key8), "test_registry_CppApi error 8c");
REG_ENSURE(!key8.closeKey(), "test_registry_CppApi error 8d");
sal_Char* Value=(sal_Char*)"My first value";
REG_ENSURE(!rootKey.setValue(OUString("mySecondKey"), RegValueType::STRING, Value, 18), "test_registry_CppApi error 9");
RegValueType valueType;
sal_uInt32 valueSize;
sal_Char* readValue;
REG_ENSURE(!rootKey.getValueInfo(OUString("mySecondKey"), &valueType, &valueSize), "test_registry_CppApi error 9a");
readValue = (sal_Char*)std::malloc(valueSize);
REG_ENSURE(!key2.getValue(OUString(), readValue), "test_registry_CppApi error 10");
REG_ENSURE(valueType == RegValueType::STRING, "test_registry_CppApi error 11");
REG_ENSURE(valueSize == 18, "test_registry_CppApi error 12");
REG_ENSURE(strcmp(readValue, Value) == 0, "test_registry_CppApi error 13");
std::free(readValue);
const sal_Char* pList[3];
const sal_Char* n1= "Hello";
const sal_Char* n2= "now I";
const sal_Char* n3= "come";
pList[0]=n1;
pList[1]=n2;
pList[2]=n3;
REG_ENSURE(!rootKey.setStringListValue(OUString("myFourthKey"), (sal_Char**)pList, 3), "test_registry_CppApi error 13a");
RegistryValueList<sal_Char*> valueList;
REG_ENSURE(!rootKey.getStringListValue(OUString("myFourthKey"), valueList), "test_registry_CppApi error 13b");
REG_ENSURE(strcmp(n1, valueList.getElement(0)) == 0, "test_registry_CppApi error 13c");
REG_ENSURE(strcmp(n2, valueList.getElement(1)) == 0, "test_registry_CppApi error 13d");
REG_ENSURE(strcmp(n3, valueList.getElement(2)) == 0, "test_registry_CppApi error 13e");
REG_ENSURE(!rootKey.getValueInfo(OUString("myFourthKey"), &valueType, &valueSize), "test_registry_CppApi error 13e1");
REG_ENSURE(valueType == RegValueType::STRINGLIST, "test_registry_CppApi error 13e2");
REG_ENSURE(valueSize == 3, "test_registry_CppApi error 13e3");
sal_Int32 pLong[3];
pLong[0] = 123;
pLong[1] = 456;
pLong[2] = 789;
REG_ENSURE(!rootKey.setLongListValue(OUString("myFifthKey"), pLong, 3), "test_registry_CppApi error 13f");
RegistryValueList<sal_Int32> longList;
REG_ENSURE(!rootKey.getLongListValue(OUString("myFifthKey"), longList), "test_registry_CppApi error 13g");
REG_ENSURE(pLong[0] == longList.getElement(0), "test_registry_CppApi error 13h");
REG_ENSURE(pLong[1] == longList.getElement(1), "test_registry_CppApi error 13i");
REG_ENSURE(pLong[2] == longList.getElement(2), "test_registry_CppApi error 13j");
OUString sWTestValue("My first unicode value");
const sal_Unicode* wTestValue= sWTestValue.getStr();
REG_ENSURE(!rootKey.setValue(OUString("mySixthKey"), RegValueType::UNICODE, (void*)wTestValue,
(rtl_ustr_getLength(wTestValue)+1)*sizeof(sal_Unicode)), "test_registry_CppApi error 13j1");
REG_ENSURE(!rootKey.getValueInfo(OUString("mySixthKey"), &valueType, &valueSize), "test_registry_CppApi error 13j2");
sal_Unicode* pTmpValue = (sal_Unicode*)std::malloc(valueSize);
REG_ENSURE(!rootKey.getValue(OUString("mySixthKey"), pTmpValue), "test_registry_CppApi error 13j3");
REG_ENSURE(rtl_ustr_getLength(wTestValue) == rtl_ustr_getLength(pTmpValue), "test_registry_CppApi error 13j4");
REG_ENSURE(rtl_ustr_compare(wTestValue, pTmpValue) == 0, "test_registry_CppApi error 13j4");
const sal_Unicode* pUnicode[3];
OUString w1("Hello");
OUString w2("now I");
OUString w3("come as unicode");
pUnicode[0]=w1.getStr();
pUnicode[1]=w2.getStr();
pUnicode[2]=w3.getStr();
REG_ENSURE(!rootKey.setUnicodeListValue(OUString("mySixthKey"), (sal_Unicode**)pUnicode, 3), "test_registry_CppApi error 13k");
RegistryValueList<sal_Unicode*> unicodeList;
REG_ENSURE(!rootKey.getUnicodeListValue(OUString("mySixthKey"), unicodeList), "test_registry_CppApi error 13l");
REG_ENSURE(rtl_ustr_compare(w1, unicodeList.getElement(0)) == 0, "test_registry_CppApi error 13m");
REG_ENSURE(rtl_ustr_compare(w2, unicodeList.getElement(1)) == 0, "test_registry_CppApi error 13n");
REG_ENSURE(rtl_ustr_compare(w3, unicodeList.getElement(2)) == 0, "test_registry_CppApi error 13o");
REG_ENSURE(!key6.closeKey(), "test_registry_CppApi error 14");
REG_ENSURE(!key1.closeKey() &&
!key3.closeKey() &&
!key4.closeKey(), "test_registry_CppApi error 14");
REG_ENSURE(!rootKey.deleteKey(OUString("myFirstKey")), "test_registry_CppApi error 15");
REG_ENSURE(!key2.closeKey(), "test_registry_CppApi error 16");
REG_ENSURE(!rootKey.openKey("mySecondKey", key2), "test_registry_CppApi error 17");
REG_ENSURE(!key5.closeKey(), "test_registry_CppApi error 18");
REG_ENSURE(!rootKey.deleteKey(OUString("myThirdKey")), "test_registry_CppApi error 19");
REG_ENSURE(rootKey.openKey("myThirdKey", key5), "test_registry_CppApi error 20");
REG_ENSURE(!key2.closeKey() &&
!rootKey.closeKey(), "test_registry_CppApi error 21");
REG_ENSURE(!myRegistry->close(), "test_registry_CppApi error 22");
// Test loadkey
RegistryKey rootKey2, key21, key22, key23, key24 , key25;
REG_ENSURE(!myRegistry->create(OUString("test2.rdb")), "test_registry_CppApi error 23");
REG_ENSURE(!myRegistry->openRootKey(rootKey2), "test_registry_CppApi error 24");
REG_ENSURE(!rootKey2.createKey(OUString("reg2FirstKey"), key21), "test_registry_CppApi error 25");
REG_ENSURE(!rootKey2.createKey(OUString("reg2SecondKey"), key22), "test_registry_CppApi error 26");
REG_ENSURE(!key21.createKey(OUString("reg2FirstSubKey"), key23), "test_registry_CppApi error 27");
REG_ENSURE(!key21.createKey(OUString("reg2SecondSubKey"), key24), "test_registry_CppApi error 28");
REG_ENSURE(!rootKey2.createKey(OUString("reg2ThirdKey"), key25), "test_registry_CppApi error 29");
sal_uInt32 nValue= 123456789;
REG_ENSURE(!key23.setValue(OUString(), RegValueType::LONG, &nValue, sizeof(sal_uInt32)), "test_registry_CppApi error 30");
REG_ENSURE(!key21.closeKey() &&
!key22.closeKey() &&
!key23.closeKey() &&
!key24.closeKey() &&
!key25.closeKey() &&
!rootKey2.closeKey(), "test_registry_CppApi error 31");
REG_ENSURE(!myRegistry->close(), "test_registry_CppApi error 32");
REG_ENSURE(!myRegistry->open(OUString("test.rdb"), RegAccessMode::READWRITE), "test_registry_CppApi error 33");
REG_ENSURE(!myRegistry->openRootKey(rootKey), "test_registry_CppApi error 34");
REG_ENSURE(!myRegistry->loadKey(rootKey, OUString("allFromTest2"),
OUString("test2.rdb")), "test_registry_CppApi error 35");
REG_ENSURE(!myRegistry->saveKey(rootKey, OUString("allFromTest2"),
OUString("test3.rdb")), "test_registry_CppApi error 36");
REG_ENSURE(!rootKey.createKey(OUString("allFromTest3"), key1), "test_registry_CppApi error 37");
REG_ENSURE(!key1.createKey(OUString("myFirstKey2"), key2), "test_registry_CppApi error 38");
REG_ENSURE(!key1.createKey(OUString("mySecondKey2"), key3), "test_registry_CppApi error 39");
REG_ENSURE(!myRegistry->mergeKey(rootKey, OUString("allFromTest3"),
OUString("test3.rdb")), "test_registry_CppApi error 40");
REG_ENSURE(!myRegistry->mergeKey(rootKey, OUString("allFromTest3"),
OUString("ucrtest.rdb"), sal_True), "test_registry_CppApi error 40.a)");
// REG_ENSURE(myRegistry->mergeKey(rootKey, OUString("allFromTest3"), OUString("ucrtest.rdb"), sal_True)
// == REG_NO_ERROR/*REG_MERGE_CONFLICT*/, "test_registry_CppApi error 40.b)");
REG_ENSURE(!key1.closeKey() &&
!key2.closeKey(), "test_registry_CppApi error 41");
const sal_Unicode* wValue= OUString("My first unicode value").getStr();
REG_ENSURE(!key3.setValue(OUString(), RegValueType::UNICODE, (void*)wValue,
(rtl_ustr_getLength(wValue)+1)*sizeof(sal_Unicode)), "test_registry_CppApi error 42");
REG_ENSURE(!key3.closeKey(), "test_registry_CppApi error 43");
REG_ENSURE(!rootKey.openKey("/allFromTest3/reg2FirstKey/reg2FirstSubKey", key1),
"test_registry_CppApi error 43.a)");
REG_ENSURE(!rootKey.deleteKey(OUString("/allFromTest3/reg2FirstKey/reg2FirstSubKey")), "test_registry_CppApi error 44");
REG_ENSURE(key1.getValueInfo(OUString(), &valueType, &valueSize) == REG_INVALID_KEY,
"test_registry_CppApi error 44.a)");
REG_ENSURE(!key1.closeKey(), "test_registry_CppApi error 44.b)");
REG_ENSURE(!rootKey.closeKey(), "test_registry_CppApi error 45");
REG_ENSURE(!myRegistry->close(), "test_registry_CppApi error 46");
REG_ENSURE(!myRegistry->open(OUString("test.rdb"), RegAccessMode::READWRITE), "test_registry_CppApi error 47");
REG_ENSURE(!myRegistry->destroy(OUString("test2.rdb")), "test_registry_CppApi error 48");
// REG_ENSURE(!myRegistry->destroy("test3.rdb"), "test_registry_CppApi error 49");
Registry *myRegistry2 = new Registry(*myRegistry);
REG_ENSURE(myRegistry->destroy(OUString()), "test_registry_CppApi error 50");
delete(myRegistry2);
REG_ENSURE(!myRegistry->create(OUString("destroytest.rdb")), "test_registry_CppApi error 51");
REG_ENSURE(!myRegistry->close(), "test_registry_CppApi error 52");
REG_ENSURE(!myRegistry->open(OUString("destroytest.rdb"), RegAccessMode::READONLY), "test_registry_CppApi error 53");
REG_ENSURE(!myRegistry->openRootKey(rootKey), "test_registry_CppApi error 54");
REG_ENSURE(myRegistry->mergeKey(rootKey, OUString("allFromTest3"),
OUString("test3.rdb")), "test_registry_CppApi error 55");
REG_ENSURE(!myRegistry->destroy(OUString("test3.rdb")), "test_registry_CppApi error 56");
REG_ENSURE(!rootKey.closeKey(), "test_registry_CppApi error 57");
REG_ENSURE(!myRegistry->close(), "test_registry_CppApi error 58");
REG_ENSURE(!myRegistry->open(OUString("destroytest.rdb"), RegAccessMode::READWRITE), "test_registry_CppApi error 59");
REG_ENSURE(!myRegistry->destroy(OUString()), "test_registry_CppApi error 60");
REG_ENSURE(!myRegistry->open(OUString("test.rdb"), RegAccessMode::READWRITE), "test_registry_CppApi error 61");
REG_ENSURE(!myRegistry->destroy(OUString("ucrtest.rdb")), "test_registry_CppApi error 62");
REG_ENSURE(!myRegistry->destroy(OUString()), "test_registry_CppApi error 63");
delete(myRegistry);
cout << "test_registry_CppApi() Ok!\n";
return;
}
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