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a.insert(a.end(), b.begin(), b.end());


Vector synchronizes on each individual operation. That's almost never what you want to do. Generally you want to synchronize a whole sequence of operations. Synchronizing individual operations is both less safe (if you iterate over a Vector, for instance, you still need to take out a lock to avoid anyone else changing the collection at the same time, which ...


Some variant of: std::find(vector.begin(), vector.end(), item)!=vector.end()


One method would be to use the array to initialize the vector static const int arr[] = {16,2,77,29}; vector<int> vec (arr, arr + sizeof(arr) / sizeof(arr[0]) );


I can reproduce your results on my machine with those options you write in your post. However, if I also enable link time optimization (I also pass the -flto flag to gcc 4.7.2), the results are identical: (I am compiling your original code, with container.push_back(Item());) $ g++ -std=c++11 -O3 -flto regr.cpp && perf stat -r 10 ./a.out ...


vector1.insert( vector1.end(), vector2.begin(), vector2.end() );


Using the following: g++ -O3 Time.cpp -I <MyBoost> ./a.out UseArray completed in 2.196 seconds UseVector completed in 4.412 seconds UseVectorPushBack completed in 8.017 seconds The whole thing completed in 14.626 seconds So array is twice as quick as vector. But after looking at the code in more detail this is expected; as you run ...


Actually there are quite a few methods. int sum_of_elems=0; 1) for(std::vector<int>::iterator j=vector.begin();j!=vector.end();++j) sum_of_elems += *j; 2) sum_of_elems =std::accumulate(vector.begin(),vector.end(),0);//#include <numeric> 3) C++ 0x only (using lambdas) std::for_each(vector.begin(),vector.end(),[&](int n){ ...


With GCC 4.1.2, to print the whole of a std::vector<int> called myVector, do the following: print *(myVector._M_impl._M_start)@myVector.size() To print only the first N elements, do: print *(myVector._M_impl._M_start)@N Explanation This is probably heavily dependent on your compiler version, but for GCC 4.1.2, the pointer to the internal array ...


I agree with R. Pate and Todd Gardner; a std::set might be a good idea here. Even if you're stuck using vectors, if you have enough duplicates, you might be better off creating a set to do the dirty work. Let's compare three approaches: Just using vector, sort + unique sort( vec.begin(), vec.end() ); vec.erase( unique( vec.begin(), vec.end() ), ...


You could do std::vector<int> vec; vec.push_back(6); vec.push_back(-17); vec.push_back(12); vec.erase(vec.begin() + 1); or vec.erase(vec.begin() + 1, vec.begin() + 3); to delete more then one element at once.


Try this: vector<Type>::iterator nth = v.begin() + index;


If your compiler supports C++11, you can simply do: std::vector<int> v = {1, 2, 3, 4}; This is available in GCC as of version 4.4. Unfortunately, VC++ 2010 seems to be lagging behind in this respect. Alternatively, the Boost.Assign library uses non-macro magic to allow the following: #include <boost/assign/list_of.hpp> ... ...


Both the match() (returns the first appearance) and %in% (returns a Boolean) functions are designed for this. v <- c('a','b','c','e') 'b' %in% v ## returns TRUE match('b',v) ## returns the first location of 'b', in this case: 2


Checking if v contains the element x: if(std::find(v.begin(), v.end(), x) != v.end()) { /* v contains x */ } else { /* v does not contain x */ } Checking if v contains elements (is non-empty): if(!v.empty()){ /* v is non-empty */ } else { /* v is empty */ }


if we define dx=x2-x1 and dy=y2-y1, then the normals are (-dy, dx) and (dy, -dx). Note that no division is required, and so you're not risking dividing by zero.


AB.reserve( A.size() + B.size() ); // preallocate memory AB.insert( AB.end(), A.begin(), A.end() ); AB.insert( AB.end(), B.begin(), B.end() );


Differences Vectors are synchronized, ArrayLists are not. Data Growth Methods Use ArrayLists if there is no specific requirement to use Vectors. Synchronization If multiple threads access an ArrayList concurrently then we must externally synchronize the block of code which modifies the list either structurally or simply modifies an element. Structural ...


The component type of containers like vectors must be Assignable. References are not assignable (you can only initialize them once when they are declared, and you cannot make them reference something else later). Other non-assignable types are also not allowed as components of containers, e.g. vector<const int> is not allowed.


Using C++ arrays with new (that is, using dynamical arrays) should be avoided. There is the problem you have to keep track of the size, and you need to delete them manually, and do all sort of housekeeping. Using arrays on the stack is also discouraged because you don't have range checking, and passing the array around will loose any information about its ...


It's called a vector because Alex Stepanov, the designer of the Standard Template Library, was looking for a name to distinguish it from built-in arrays. He admits now that he made a mistake, because mathematics already uses the term 'vector' for a fixed-length sequence of numbers. Now C++0X will compound this mistake by introducing a class 'array' that ...


It is possible. Here is some step by step: In $PROJECT_DIR/jni/Application.mk: APP_STL := stlport_static I tried using stlport_shared, but no luck. Same with libstdc++. In $PROJECT_DIR/jni/Android.mk: LOCAL_PATH := $(call my-dir) include $(CLEAR_VARS) LOCAL_MODULE := hello-jni LOCAL_SRC_FILES := hello-jni.cpp LOCAL_LDLIBS := ...


std::vector is a template class that encapsulate a dynamic array1, stored in the heap, that grows and shrinks automatically if elements are added or removed. It provides all the hooks (begin(), end(), iterators, etc) that make it work fine with the rest of the STL. It also has several useful methods that let you perform operations that on a normal array ...


The function you're looking for is repmat. v10 = repmat(v, 1, 5)


That your code compiles at all is probably because you have a using namespace std somewhere. (Otherwise vector would have to be std::vector.) That's something I would advise against and you have just provided a good case why: By accident, your call picks up std::distance(), which takes two iterators and calculates the distance between them. Remove the using ...


There's a function std::reverse in the algorithm header for this purpose. #include <vector> #include <algorithm> int main() { std::vector<int> a; std::reverse(a.begin(), a.end()); return 0; }


Don't forget that you can treat pointers as iterators: w_.assign(w, w + len);


Using a vector of shared_ptr removes the possibility of leaking memory because you forgot to walk the vector and call delete on each element. Let's walk through a slightly modified version of the example line-by-line. typedef boost::shared_ptr<gate> gate_ptr; Create an alias for the shared pointer type. This avoids the ugliness in the C++ language ...


Every lambda has a different type- even if they have the same signature. You must use a run-time encapsulating container such as std::function if you want to do something like that. e.g.: std::vector<std::function<int()>> functors; functors.push_back([&] { return 100; }); functors.push_back([&] { return 10; }); I don't want a ...


The erase method on std::vector is overloaded, so its probably clearer to call: vec.erase(vec.begin() + index); when you only want to erase a single element.

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