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This works for me. You have to set it on both classes/methods if you want to suppress the warning both places. @SuppressWarnings("Duplicates") private void myDuplicatedMethod() { ... }


Generally speaking, it is not safe to #include C header files into C++ sources if those headers were not built in anticipation of such usage. Under some circumstances it can be made to work, but you need to be prepared to either modify the headers or write your own declarations for the functions and global variables you want to access. At minimum, if the C ...


You can write a duplicate of the c header with the only difference being lack of declaration of extern int new. Then use the newly created c++ friendly header instead of the old, incompatible one. If you need to refer that variable from c++, then you need to do something more complex. You will need to write a new wrapper library in c, that exposes read and ...


Use the correct type (option 2) - the function/interface defines that type for you, use it. std::size_t size = v.size(); // given vector<>::size_type is size_t // or a more verbose decltype(v)::size_type size = v.size(); It goes to the intent... you are getting the size of v and that size has a type. If the correct type had been used from the ...


if you do OR operation for int and long variable, then system cast int to long. Exist two way for it : namespace ConsoleApplication1 { class Program { static void Main(string[] args) { Console.WriteLine($"int.MinValue = {Convert.ToString(int.MinValue, 2)}"); Console.WriteLine($"long.MinValue = {Convert.ToString(long.MinValue, ...


Finally we have chosen to patch at build time. It's a bit hacky but it allows to leave our project intact. Patching was added to cmake build: execute_process(COMMAND "patch" "-N" "header_to_patch.h" "header_to_patch.h.patch") Patch file was prepared with: diff -u "original/header_to_patch.h" "fixed/header_to_patch.h" > header_to_patch.h.patch

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