/*========================================================================= Program: ParaView Module: $RCSfile: testRegistry.cxx,v $ Copyright (c) Kitware, Inc. All rights reserved. See Copyright.txt or http://www.paraview.org/HTML/Copyright.html for details. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the above copyright notices for more information. =========================================================================*/ #include "kwsysPrivate.h" #include KWSYS_HEADER(Registry.hxx) #include KWSYS_HEADER(ios/iostream) #include // Work-around CMake dependency scanning limitation. This must // duplicate the above list of headers. #if 0 # include "Registry.hxx.in" # include "kwsys_ios_iostream.h.in" #endif #define IFT(x,res) if ( !x ) \ { \ res = 1; \ kwsys_ios::cout << "Error in: " << #x << kwsys_ios::endl; \ } #define IFNT(x,res) if ( x ) \ { \ res = 1; \ kwsys_ios::cout << "Error in: " << #x << kwsys_ios::endl; \ } #define CHE(x,y,res) if ( x && strcmp(x,y) ) \ { \ res = 1; \ kwsys_ios::cout << "Error, " << x << " != " << y << kwsys_ios::endl; \ } int testRegistry(int, char*[]) { int res = 0; kwsys::Registry reg; reg.SetTopLevel("TestRegistry"); IFT(reg.SetValue("TestSubkey", "TestKey1", "Test Value 1"), res); IFT(reg.SetValue("TestSubkey1", "TestKey2", "Test Value 2"), res); IFT(reg.SetValue("TestSubkey", "TestKey3", "Test Value 3"), res); IFT(reg.SetValue("TestSubkey2", "TestKey4", "Test Value 4"), res); const char *buffer; IFT(reg.ReadValue("TestSubkey", "TestKey1", &buffer), res); CHE(buffer, "Test Value 1", res); IFT(reg.ReadValue("TestSubkey1", "TestKey2", &buffer), res); CHE(buffer, "Test Value 2", res); IFT(reg.ReadValue("TestSubkey", "TestKey3", &buffer), res); CHE(buffer, "Test Value 3", res); IFT(reg.ReadValue("TestSubkey2", "TestKey4", &buffer), res); CHE(buffer, "Test Value 4", res); IFT(reg.SetValue("TestSubkey", "TestKey1", "New Test Value 1"), res); IFT(reg.SetValue("TestSubkey1", "TestKey2", "New Test Value 2"), res); IFT(reg.SetValue("TestSubkey", "TestKey3", "New Test Value 3"), res); IFT(reg.SetValue("TestSubkey2", "TestKey4", "New Test Value 4"), res); IFT(reg.ReadValue("TestSubkey", "TestKey1", &buffer), res); CHE(buffer, "New Test Value 1", res); IFT(reg.ReadValue("TestSubkey1", "TestKey2", &buffer), res); CHE(buffer, "New Test Value 2", res); IFT(reg.ReadValue("TestSubkey", "TestKey3", &buffer), res); CHE(buffer, "New Test Value 3", res); IFT(reg.ReadValue("TestSubkey2", "TestKey4", &buffer), res); CHE(buffer, "New Test Value 4", res); IFT( reg.DeleteValue("TestSubkey", "TestKey1"), res); IFNT(reg.ReadValue( "TestSubkey", "TestKey1", &buffer), res); IFT( reg.DeleteValue("TestSubkey1", "TestKey2"), res); IFNT(reg.ReadValue( "TestSubkey1", "TestKey2", &buffer), res); IFT( reg.DeleteValue("TestSubkey", "TestKey3"), res); IFNT(reg.ReadValue( "TestSubkey", "TestKey3", &buffer), res); IFT( reg.DeleteValue("TestSubkey2", "TestKey4"), res); IFNT(reg.ReadValue( "TestSubkey2", "TestKey5", &buffer), res); const char* longStringWithNewLines = "Value with embedded CR and LF characters CR='\015' LF='\012' CRLF='\015\012'"; IFT(reg.SetValue("TestSubkeyWithVeryLongInFactSoLongItsHardToImagineAnybodyWouldReallyDoItLongName", "TestKey1", longStringWithNewLines), res); IFT(reg.ReadValue("TestSubkeyWithVeryLongInFactSoLongItsHardToImagineAnybodyWouldReallyDoItLongName", "TestKey1", &buffer), res); CHE(buffer, longStringWithNewLines, res); IFT(reg.DeleteValue("TestSubkeyWithVeryLongInFactSoLongItsHardToImagineAnybodyWouldReallyDoItLongName", "TestKey1"), res); IFNT(reg.ReadValue("TestSubkeyWithVeryLongInFactSoLongItsHardToImagineAnybodyWouldReallyDoItLongName", "TestKey1", &buffer), res); IFT(reg.SetValue("TestSubkeyWith = EqualSignChar", "TestKey = 1", "Some value"), res); IFT(reg.ReadValue("TestSubkeyWith = EqualSignChar", "TestKey = 1", &buffer), res); CHE(buffer, "Some value", res); IFT(reg.DeleteValue("TestSubkeyWith = EqualSignChar", "TestKey = 1"), res); IFNT(reg.ReadValue("TestSubkeyWith = EqualSignChar", "TestKey = 1", &buffer), res); if ( res ) { kwsys_ios::cout << "Test failed" << kwsys_ios::endl; } else { kwsys_ios::cout << "Test passed" << kwsys_ios::endl; } return res; }