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/*=========================================================================
Program: GDCM (Grassroots DICOM). A DICOM library
Copyright (c) 2006-2011 Mathieu Malaterre
All rights reserved.
See Copyright.txt or http://gdcm.sourceforge.net/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 notice for more information.
=========================================================================*/
#include "gdcmVM.h"
#include <cstring> // strcmp
int TestVM(int, char *[])
{
//gdcm::VM::VMType vm = gdcm::LengthToVM<1>::TVM;
const char str1[] = " 1\\2";
const size_t count1 = gdcm::VM::GetNumberOfElementsFromArray(str1, (unsigned int)strlen(str1) );
if( count1 != 2 ) return 1;
const char str2[] = " 1\\2\\3";
const size_t count2 = gdcm::VM::GetNumberOfElementsFromArray(str2, (unsigned int)strlen(str2) );
if( count2 != 3 ) return 1;
const char str3[] = " 1";
const size_t count3 = gdcm::VM::GetNumberOfElementsFromArray(str3, (unsigned int)strlen(str3) );
if( count3 != 1 ) return 1;
const char str4[] = "";
const size_t count4 = gdcm::VM::GetNumberOfElementsFromArray(str4, (unsigned int)strlen(str4) );
if( count4 != 0 ) return 1;
const char *str5 = nullptr;
const size_t count5 = gdcm::VM::GetNumberOfElementsFromArray(str5, 0);
if( count5 != 0 ) return 1;
const char str6[] = " 1";
const size_t count6 = gdcm::VM::GetNumberOfElementsFromArray(str6, (unsigned int)strlen(str6) );
if( count6 != 1 ) return 1;
const char str7[] = " 1 \\ 2 ";
const size_t count7 = gdcm::VM::GetNumberOfElementsFromArray(str7, (unsigned int)strlen(str7) );
if( count7 != 2 ) return 1;
const char str8[] = " ";
const size_t count8 = gdcm::VM::GetNumberOfElementsFromArray(str8, (unsigned int)strlen(str8) );
if( count8 != 0 )
{
std::cerr << "count8 failed" << std::endl;
return 1;
}
const char str9[] = " \\ ";
const size_t count9 = gdcm::VM::GetNumberOfElementsFromArray(str9, (unsigned int)strlen(str9) );
if( count9 != 0 ) return 1;
const char str10[] = " 3 \\ ";
const size_t count10 = gdcm::VM::GetNumberOfElementsFromArray(str10, (unsigned int)strlen(str10) );
if( count10 != 1 ) return 1;
// store invalid combinations inside an int array to trick the compiler
// and avoid unreachable return code warning
static const int error_combinations[] = {
gdcm::VM::VM1 & gdcm::VM::VM2,
gdcm::VM::VM1 & gdcm::VM::VM2,
gdcm::VM::VM1 & gdcm::VM::VM3,
gdcm::VM::VM1 & gdcm::VM::VM32,
!(gdcm::VM::VM1 & gdcm::VM::VM1_2),
!(gdcm::VM::VM2 & gdcm::VM::VM1_2),
!(gdcm::VM::VM1 & gdcm::VM::VM1_3),
!(gdcm::VM::VM2 & gdcm::VM::VM1_3),
!(gdcm::VM::VM3 & gdcm::VM::VM1_3),
!(gdcm::VM::VM1 & gdcm::VM::VM1_n),
gdcm::VM::VM1 & gdcm::VM::VM2_n,
!(gdcm::VM::VM2 & gdcm::VM::VM2_n),
gdcm::VM::VM1 & gdcm::VM::VM3_4,
!(gdcm::VM::VM3 & gdcm::VM::VM3_4),
!(gdcm::VM::VM4 & gdcm::VM::VM3_4),
gdcm::VM::VM1 & gdcm::VM::VM3_3n,
!(gdcm::VM::VM3 & gdcm::VM::VM3_3n),
!(gdcm::VM::VM9 & gdcm::VM::VM3_3n),
!(gdcm::VM::VM99 & gdcm::VM::VM3_3n),
gdcm::VM::VM1 & gdcm::VM::VM4_4n,
!(gdcm::VM::VM4 & gdcm::VM::VM4_4n),
};
static const int nerror_combinations = sizeof( error_combinations ) / sizeof( *error_combinations );
for( int i = 0; i < nerror_combinations; ++i )
{
if( error_combinations[i] ) return 1;
}
const char *vm1 = gdcm::VM::GetVMString( gdcm::VM::VM1 );
if( strcmp(vm1, "1" ) != 0 )
{
std::cerr << "Error:" << vm1 << std::endl;
return 1;
}
const char *vm8 = gdcm::VM::GetVMString( gdcm::VM::VM8 );
if( strcmp(vm8, "8" ) != 0 )
{
std::cerr << "Error:" << vm8 << std::endl;
return 1;
}
gdcm::VM vm = gdcm::VM::VM0;
std::cout << vm << std::endl;
vm = gdcm::VM::VM1;
std::cout << vm << std::endl;
vm = gdcm::VM::VM2;
std::cout << vm << std::endl;
vm = gdcm::VM::VM3;
std::cout << vm << std::endl;
vm = gdcm::VM::VM4;
std::cout << vm << std::endl;
vm = gdcm::VM::VM5;
std::cout << vm << std::endl;
vm = gdcm::VM::VM6;
std::cout << vm << std::endl;
vm = gdcm::VM::VM8;
std::cout << vm << std::endl;
vm = gdcm::VM::VM9;
std::cout << vm << std::endl;
vm = gdcm::VM::VM10;
std::cout << vm << std::endl;
vm = gdcm::VM::VM12;
std::cout << vm << std::endl;
vm = gdcm::VM::VM16;
std::cout << vm << std::endl;
vm = gdcm::VM::VM18;
std::cout << vm << std::endl;
vm = gdcm::VM::VM24;
std::cout << vm << std::endl;
vm = gdcm::VM::VM28;
std::cout << vm << std::endl;
vm = gdcm::VM::VM32;
std::cout << vm << std::endl;
vm = gdcm::VM::VM35;
std::cout << vm << std::endl;
vm = gdcm::VM::VM99;
std::cout << vm << std::endl;
vm = gdcm::VM::VM256;
std::cout << vm << std::endl;
vm = gdcm::VM::VM1_2;
std::cout << vm << std::endl;
vm = gdcm::VM::VM1_3;
std::cout << vm << std::endl;
vm = gdcm::VM::VM1_4;
std::cout << vm << std::endl;
vm = gdcm::VM::VM1_5;
std::cout << vm << std::endl;
vm = gdcm::VM::VM1_8;
std::cout << vm << std::endl;
vm = gdcm::VM::VM1_32;
std::cout << vm << std::endl;
vm = gdcm::VM::VM1_99;
std::cout << vm << std::endl;
vm = gdcm::VM::VM1_n;
std::cout << vm << std::endl;
vm = gdcm::VM::VM2_2n;
std::cout << vm << std::endl;
vm = gdcm::VM::VM2_n;
std::cout << vm << std::endl;
vm = gdcm::VM::VM3_4;
std::cout << vm << std::endl;
vm = gdcm::VM::VM3_3n;
std::cout << vm << std::endl;
vm = gdcm::VM::VM3_n;
std::cout << vm << std::endl;
vm = gdcm::VM::VM4_4n;
std::cout << vm << std::endl;
vm = gdcm::VM::VM7_7n;
std::cout << vm << std::endl;
//vm = gdcm::VM::VM_END;
//std::cout << vm << std::endl;
{
gdcm::VM vm1_ = gdcm::VM::VM8;
gdcm::VM vm2_ = gdcm::VM::VM1_n;
if ( !vm2_.Compatible( vm1_ ) )
{
return 1;
}
}
return 0;
}
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