问题:我收到以下代码的以下错误,有人知道为什么吗?
问题: 我正在研究一个类 (ClassB),它控制来自外部库 ( libMesh ) 的多个类的行为。代码的“...做某事...”部分旨在在这些具有模板函数的外部库类中设置一些变量。
我希望能够从继承类(ClassC)的构造函数中设置其中一些值。但是,如果我这样做,如下面的代码所示,我会得到显示的错误。如果我在构造函数中删除此命令,它就可以正常工作。
我还包括一个更详细的示例,它使用产生相同的错误,但使用libmesh类本身,它说明了我想要做得更好的事情。我不确定我正在尝试做的事情是否有用,我主要想知道为什么这不起作用,因为它似乎应该这样做。
我发现了另一篇类似的帖子,但我似乎无法将它们应用于我的问题。
感谢您的帮助,安德鲁
错误:
XXXXXXX@XXXXX:~/Documents/programs/build$ make test
[100%] Building CXX object CMakeFiles/test.dir/source/test.cpp.o
test.cpp: In constructor ‘ClassC<T>::ClassC()’:
test.cpp:16:29: error: expected primary-expression before ‘int’
test.cpp:16:29: error: expected ‘;’ before ‘int’
make[3]: *** [CMakeFiles/test.dir/source/test.cpp.o] Error 1
make[2]: *** [CMakeFiles/test.dir/all] Error 2
make[1]: *** [CMakeFiles/test.dir/rule] Error 2
make: *** [test] Error 2
简单代码:
// A class that sets that sets the value of something
template <typename Type> class ClassB{
public:
ClassB(){}
template<typename TypeValue> void set_value(TypeValue value){
// ... do something ...
}
};
// A class that inherits ClassB
template<typename T> class ClassC : public ClassB<T>{
public:
ClassC(){
// I want to do this (if I remove this it compiles)
ClassB<T>::set_value<int>(1);;
}
};
// The main function
int main (){
ClassC<double> c;
c.set_value<int>(1); // This works
}
问题特定代码:
//! \example test_libmesh.cpp
#include <string>
using std::string;
// libMesh includes
#include <libmesh.h>
#include <libmesh_common.h>
#include <equation_systems.h>
#include <transient_system.h>
#include <explicit_system.h>
#include <parameters.h>
#include <mesh.h>
using namespace libMesh;
// Fundamental behavior that will be used among many classes
template <typename Type> class EqCore{
public:
// Class constructor
EqCore(EquationSystems& sys, string name) : eq_sys(sys){
// Creates a system that will store the constant(s)
name_.assign(name);
eq_sys.add_system<Type>(name_);
// I can set stuff from here
set_constant<double>("test4", 4);
}
// A function for storing a constant value
template<typename ParamType> void set_constant(std::string name, ParamType var){
eq_sys.parameters.set<ParamType>(name) = var;
}
// A function for retrieving a constant value
template<typename ParamType> ParamType get_constant(std::string name){
ParamType output = eq_sys.parameters.get<ParamType>(name);
return output;
}
// Reference to the controlling equation system
EquationSystems& eq_sys;
// The name of the system holding the constant(s)
string name_;
};
// A test class derived
template <typename Type> class EqBase : public EqCore<Type>{
public:
// Constructor
EqBase(EquationSystems& sys, string name) : EqCore<Type>(sys, name){
// I want to do this!
// (remove this and the associated print statement in the main and it works)
EqCore<Type>::set_constant<double>("test5", 5);
}
};
// Begin main function
int main (int argc, char** argv){
// Initialize libMesh and create an empty mesh
LibMeshInit init (argc, argv);
Mesh mesh;
// Test w/o any of the above classes
EquationSystems eq_sys(mesh);
eq_sys.parameters.set<double>("test1") = 1;
printf("Test 1: %f\n", eq_sys.parameters.get<double>("test1"));
// Test EqBase/EqCore functions set/get functions
EqBase<TransientExplicitSystem> eq(eq_sys, "TestSystem");
eq.set_constant<double>("test2", 2);
printf("Test 2: %f\n", eq.get_constant<double>("test2"));
// Test generic creation but accessed through EqBase
eq.eq_sys.parameters.set<double>("test3") = 3;
printf("Test 3: %f\n", eq.eq_sys.parameters.get<double>("test3"));
// Test the constant created in EqCore constructor from EqBase
printf("Test 4: %f\n", eq.eq_sys.parameters.get<double>("test4"));
// Test the constant created in EqBase constructor from EqBase
printf("Test 5: %f\n", eq.eq_sys.parameters.get<double>("test5"));
}