[c++] Added Lambda Expressions and Range for

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bk2dcradle 2015-10-29 22:13:24 +05:30
parent 927ac9c3e8
commit 54c67dfb38

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@ -801,6 +801,106 @@ void doSomethingWithAFile(const std::string& filename)
// all automatically destroy their contents when they fall out of scope. // all automatically destroy their contents when they fall out of scope.
// - Mutexes using lock_guard and unique_lock // - Mutexes using lock_guard and unique_lock
///////////////////////////////////////
// Lambda Expressions (C++11 and above)
///////////////////////////////////////
// lambdas are a convenient way of defining an anonymous function
// object right at the location where it is invoked or passed as
// an argument to a function.
// Example consider sorting a vector of pairs using the second
// value of the pair
vector<pair<int, int> > tester;
tester.push_back(make_pair(3, 6));
tester.push_back(make_pair(1, 9));
tester.push_back(make_pair(5, 0));
// Pass a lambda expression as third argument to the sort function
// sort is from the <algorithm> header
sort(tester.begin(), tester.end(), [](const pair<int, int> &lhs, const pair<int, int> &rhs) {
return lhs.second < rhs.second;
});
// Notice the syntax of the lambda expression,
// [] in the lambda is used to "capture" variables.
// For Example:
vector<int> dog_ids;
// number_of_dogs = 3;
for(int i = 0; i < 3; i++){
dog_ids.push_back(i);
}
int weight[3];
weight[0] = 30, weight[1] = 50, weight[2] = 10;
// Say you want to sort dog_ids according to the dogs' weights
// So dog_ids should in the end become: [2, 0, 1]
// Here's where lambda expressions come in handy
sort(dog_ids.begin(), dog_ids.end(), [weight](const int &lhs, const int &rhs) {
return weight[lhs] < weight[rhs];
});
// Note we captured "weight" in the above example.
// lambda are really useful for the case of structs
// You can use lambda expressions instead of overloading
// the "<" operator
struct dog{
int weight, age;
}dogs[3];
dogs[0].weight = 30, dogs[0].age = 4;
dogs[1].weight = 40, dogs[1].age = 10;
dogs[2].weight = 20, dogs[2].age = 9;
// Say I want to sort the dogs array by the dogs' weights
sort(dogs, dogs+3, [](const dog &lhs, const dog &rhs) {
return lhs.weight < rhs.weight;
});
// dogs is now sorted according to their weight
// Do something with the dogs
// Now I want to sort the dogs by in descending order of their age
sort(dogs, dogs+3, [](const dog &lhs, const dog &rhs) {
return lhs.age > rhs.age;
});
// dogs is now sorted in descending order of their age
///////////////////////////////
// Range For (C++11 and above)
///////////////////////////////
// You can use a range for loop to iterate over a container
int arr[] = {1, 10, 3};
for(int elem: arr){
cout<<elem<<'\n';
}
// You can use "auto" and not worry about the type of the elements of the container
// Caveat: Don't assign inside the range for loop
// For example:
for(auto elem: arr) {
elem = -1;
}
// "arr" remains unchanged
// Why doesn't it change?
// What actually is happening is that the value of "arr[i]" is stored in
// the variable "elem" in every iteration. So assigning "elem" doesn't assign "arr[i]".
// For more, checkout: http://en.cppreference.com/w/cpp/language/range-for
///////////////////// /////////////////////
// Fun stuff // Fun stuff