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This is what I am aiming to do...

vector < pair<vector<int>,int> > var_name (x, pair <vector<int>(y),int>);

Where x is the size of the vector var_name and y is the size of the vector inside the pair.

The above statement doesn't work because the pair template only allows constants. How can I go about getting both my vectors to size to x and y respectively?

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4 Answers 4

up vote 5 down vote accepted
vector<pair<vector<int>,int> > var_name(x, make_pair(vector<int>(y), 0));
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Nice! make_pair... why didn't I think of that? –  Jimmy Huch Jun 13 '11 at 18:06

Simplify it as:

pair<vector<int>,int> value(vector<int>(y), 0);
vector<pair<vector<int>,int> > var_name(x, value);

If you like your own syntax, then you should be doing this:

vector<pair<vector<int>,int> > var_name(x, std::make_pair(vector<int>(y), 0));
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Awesome! It worked. –  Jimmy Huch Jun 13 '11 at 18:04

You can use make_pair from <utility> to construct the pair you wish to initialize your vector with. For example:

vector< pair<vector<int>,int> > var_name(x, make_pair(vector<int>(y), 42))

or call the pair<vector<int>,int> constructor directly (as it looks like you're trying to):

vector< pair<vector<int>,int> > var_name(x, pair<vector<int>,int>(vector<int>(y), 0))

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pair<vector<int>,int> is the name of a type. For the initialization, you need a value.

You get a value by calling the constructor of the type (the same way that, at the top level of the statement, you're doing for var_name). Since this is creating a value in-line in an expression, rather than initializing a variable, there is no variable name, and we just write something like pair<vector<int>,int>(...). The ... are the arguments for the constructor (putting (y) anywhere inside the angle brackets is illogical). In our case, we want the first value to be a vector of length y, and the second value to be... 0, I assume.

So we get pair<vector<int>,int>(vector<int>(y), 0). That's rather unwieldy, which is why the standard library provides the template function std::make_pair. It gets around the fact that template arguments can't be inferred for constructors, by using a free function (which can do inference with template arguments) to call the constructor.

Thus the above shortens to make_pair(vector<int>(y), 0), which, when substituted into the rest of the line, gives Benjamin Lindley's answer.

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