diff options
author | Valery Cherepanov <qumidium@gmail.com> | 2016-08-02 16:32:38 +0300 |
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committer | GitHub <noreply@github.com> | 2016-08-02 16:32:38 +0300 |
commit | 47679dfcbe82811b7042a5994baab448adc15dd4 (patch) | |
tree | 662c1b77f68c350c547526ddcd8fddb9653540de /c++.html.markdown | |
parent | 50c8f7b4dd78df0e4db95ab2cad42373d25f3021 (diff) |
Some minor (mostly stylistic) fixes in C++
Diffstat (limited to 'c++.html.markdown')
-rw-r--r-- | c++.html.markdown | 98 |
1 files changed, 49 insertions, 49 deletions
diff --git a/c++.html.markdown b/c++.html.markdown index 290633f3..5dc1af59 100644 --- a/c++.html.markdown +++ b/c++.html.markdown @@ -808,8 +808,8 @@ void doSomethingWithAFile(const std::string& filename) // have default comparators, but you can override it. class Foo { public: - int j; - Foo(int a) : j(a) {} + int j; + Foo(int a) : j(a) {} }; struct compareFunction { bool operator()(const Foo& a, const Foo& b) const { @@ -948,7 +948,7 @@ f1 = f2; #include<tuple> -// Conceptually, Tuples are similar to old data structures (C-like structs) but instead of having named data members , +// Conceptually, Tuples are similar to old data structures (C-like structs) but instead of having named data members, // its elements are accessed by their order in the tuple. // We start with constructing a tuple. @@ -958,10 +958,10 @@ const int maxN = 1e9; const int maxL = 15; auto second = make_tuple(maxN, maxL); -// printing elements of 'first' tuple +// Printing elements of 'first' tuple cout << get<0>(first) << " " << get<1>(first) << "\n"; //prints : 10 A -// printing elements of 'second' tuple +// Printing elements of 'second' tuple cout << get<0>(second) << " " << get<1>(second) << "\n"; // prints: 1000000000 15 // Unpacking tuple into variables @@ -989,43 +989,43 @@ cout << get<5>(concatenated_tuple) << "\n"; // prints: 'A' ///////////////////// -// CONTAINERS +// Containers ///////////////////// -// Containers or the Standard Template Library are some predefined templates -// They manages the storage space for its elements and provide -// member functions to access and manipulate them +// Containers or the Standard Template Library are some predefined templates. +// They manage the storage space for its elements and provide +// member functions to access and manipulate them. -// Few containers are as follows:- +// Few containers are as follows: -// Vectors (Dynamic arrays) +// Vector (Dynamic array) // Allow us to Define the Array or list of objects at run time -#include<vector> // will include the header file for vector -vector< Data_Type > Vector_name; // used to initialize the vector -cin>>val; +#include<vector> +vector<Data_Type> Vector_name; // used to initialize the vector +cin >> val; Vector_name.push_back(val); // will push the value of variable into array -// To iterate through vector, we have 2 choices -// using normal looping +// To iterate through vector, we have 2 choices: +// Normal looping for(int i=0; i<Vector_name.size(); i++) // It will iterate through the vector from index '0' till last index -// Using Iterator +// Iterator vector<Data_Type>::iterator it; // initialize the iteartor for vector for(it=vector_name.begin(); it!=vector_name.end();++it) // For accessing the element of the vector // Operator [] -var= vector_name[index]; //will assign value at that index to var +var = vector_name[index]; // Will assign value at that index to var // Set -// Sets are containers that store unique elements following a specific order -// Very useful container to store unique values in sorted order -// without any other functions or code +// Sets are containers that store unique elements following a specific order. +// Set is a very useful container to store unique values in sorted order +// without any other functions or code. -#include<set> // Will include the header file for sets -set< int > ST; // Will initialize the set of int data type +#include<set> +set<int> ST; // Will initialize the set of int data type ST.insert(30); // Will insert the value 30 in set ST ST.insert(10); // Will insert the value 10 in set ST ST.insert(20); // Will insert the value 20 in set ST @@ -1037,47 +1037,47 @@ ST.insert(30); // Will insert the value 30 in set ST ST.erase(20); // Will erase element with value 20 // Set ST: 10 30 // To iterate through Set we use iterators -set< int >::iterator it; -for(it=ST.begin();it<ST.end();it++) -{ - cout<<*it<<endl; +set<int>::iterator it; +for(it=ST.begin();it<ST.end();it++) { + cout << *it << endl; } -// OUTPUT: +// Output: // 10 // 30 // To clear the complete container we use Container_name.clear() ST.clear(); -cout<<ST.size(); // will print the size of set ST -// OUTPUT: 0 +cout << ST.size(); // will print the size of set ST +// Output: 0 // NOTE: for duplicate elements we can use multiset -// MAP +// Map // Maps store elements formed by a combination of a key value -// and a mapped value, following a specific order +// and a mapped value, following a specific order. -#include<map> // Will include the header file for map -map< char, int >mymap; // Will initalize the map with key as char and value as int +#include<map> +map<char, int> mymap; // Will initalize the map with key as char and value as int -mymap.insert ( pair<char,int>('A',1) ); +mymap.insert(pair<char,int>('A',1)); // Will insert value 1 for key A -mymap.insert ( pair<char,int>('Z',26) ); +mymap.insert(pair<char,int>('Z',26)); // Will insert value 26 for key Z // To iterate map<char,int>::iterator it; for (it=mymap.begin(); it!=mymap.end(); ++it) - std::cout << it->first << "->" << it->second <<'\n'; + std::cout << it->first << "->" << it->second << '\n'; // Output: // A->1 // Z->26 // To find the value correponsing to a key it = mymap.find('Z'); -cout<<it->second; +cout << it->second; + +// Output: 26 -// OUTPUT: 26 /////////////////////////////////// // Logical and Bitwise operators @@ -1087,17 +1087,17 @@ cout<<it->second; // Logical operators -// C++ uses Short - circuit evaluation for boolean expressions, i.e, the second argument is executed or +// C++ uses Short-circuit evaluation for boolean expressions, i.e, the second argument is executed or // evaluated only if the first argument does not suffice to determine the value of the expression true && false // Performs **logical and** to yield false true || false // Performs **logical or** to yield true -! true // Performs **logcical not** to yield +! true // Performs **logical not** to yield false // Instead of using symbols equivalent keywords can be used true and false // Performs **logical and** to yield false -true or false // Performs **logical or** to yield true -not true // Performs **logcical not** to yield +true or false // Performs **logical or** to yield true +not true // Performs **logical not** to yield false // Bitwise operators @@ -1108,20 +1108,20 @@ not true // Performs **logcical not** to yield // **>>** Right Shift Operator -// << shifts bits to the right +// >> shifts bits to the right 4 >> 1 // Shifts bits of 4 to right by 1 to give 2 -// x << n can be thought as x / 2^n +// x >> n can be thought as x / 2^n -~4 // Performs a bitwise not +~4 // Performs a bitwise not 4 | 3 // Performs bitwise or 4 & 3 // Performs bitwise and 4 ^ 3 // Performs bitwise xor // Equivalent keywords are -compl 4 // Performs a bitwise not -4 bitor 3 // Performs bitwise or +compl 4 // Performs a bitwise not +4 bitor 3 // Performs bitwise or 4 bitand 3 // Performs bitwise and -4 xor 3 // Performs bitwise xor +4 xor 3 // Performs bitwise xor ``` |