I'm trying to use the std::find_if() algorithm with a comparison function that takes multiple input arguments, but I'm not sure how to implement it in my code. I have searched for usages of std::find_if() on various sites, but all of them used a comparison function with a single input argument.

using namespace std;

// comparison function
bool range_search(double x, double X1, double X2)
    return (x >= X1 && x <= X2) ? true : false;

// main   
vector<double> x;

for(int i = 0; i < size; i++){

vector<double>::iterator it = find_if(x.begin(), x.end(), range_search);
int pos_1 = distance(x.begin(), it);
  • are X1 and X2 constants? – P.W Sep 27 '18 at 5:51
  • 1
    Use lambdas or functor objects? – Some programmer dude Sep 27 '18 at 5:51
  • @P.W yes, X1 & X2 are constants. But I want to call this function a couple of times. e.g X[2][2] = {{1,2},{3,4}}; for 1st case: X1 = X[0][0], X2 = X[0][1] & for 2nd case X1 = X[1][0], X2 = X[1][1]. – Ken Sep 27 '18 at 5:59
  • If you look on cppreference you can see the concept for the predicate function is UnaryPredicate. So the standard library function will only accept a function that accepts one argument and returns true/false. Your function takes 3 arguments. So you need to wrap it with a function that takes just one. – Paul Rooney Sep 27 '18 at 6:02
  • Are you allowed to use at least the C++11 standard? – Bob__ Sep 27 '18 at 6:05

There is no version of std::find_if() that accepts a predicate with multiple input arguments. std::find_if() iterates through the specified iterator range, passing each element one at a time to the predicate. As such, the predicate must take only 1 input argument, no more, no less. That is why all of the examples you have seen use 1 argument.

The range_search() function you have shown is simply not compatible to use as the predicate itself.

In C++11 and later, you can use a lambda to capture the extra values you want to pass to range_search(), eg:

double X1 = ...;
doubke X2 = ...;
auto it = find_if(x.begin(), x.end(),
    [X1, X2](double x){ return range_search(x, X1, X2); }

Prior to C++11, you can use a functor object instead:

struct range_search_s
    double X1, X2;
    range_search_s(double x1, double x2) : X1(x1), X2(x2) {}
    bool operator()(double x) { return range_search(x, X1, X2); }

double X1 = ...;
doubke X2 = ...;
vector<double>::iterator it = find_if(x.begin(), x.end(), range_search_s(X1, X2));
|improve this answer|||||

find_if requires only one argument to its test function because it has to test each element in the collection in turn. If you want to bind extra variables at call time, use a lambda:

double X1 = 2, X2 = 4;
auto it = find_if(x.begin(), x.end(),
                  [&](double v) { return (v >= X1 && v <= X2); });
|improve this answer|||||

Given that std::find_if accepts only an unary predicate, you can construct one using an higher order function with multiple input arguments returning an unary lambda:

#include <iostream>
#include <vector>
#include <iterator>
#include <algorithm>
#include <cassert>

namespace pred {

template <class T>
constexpr auto is_in_range(const T min_value, const T max_value)
    return [min_value, max_value] (T x) { return x >= min_value && x <= max_value; };


int main()
    std::vector<double> x {0.1, -3.0, 1.67, 4.0, 3.14, 1.5, 0.0, 2.0};

    auto it = find_if(x.begin(), x.end(), pred::is_in_range(1.0, 3.0));
    assert(distance(x.begin(), it) == 2  &&  *it == 1.67);  

    auto ranged = pred::is_in_range(0.0, 3.5);

    auto it2 = find_if(x.begin(), x.end(), ranged);   
    assert(distance(x.begin(), it2) == 0  &&  *it2 == 0.1);  

    std::vector<double> y;
    std::copy_if(x.begin(), x.end(), std::back_inserter(y), ranged);
    assert(y.size() == 6);

    std::cout << "So far, so good...\n";
|improve this answer|||||

Use a lambda:

vector<double>:: iterator it = find_if(x.begin(),x.end(),[param1, param2, param3](const double& a, const double& b) { /* use param1-3 here*/ });
|improve this answer|||||
  • 2
    You can't use 2 parameter values between the () of the lambda, find_if() will only accept 1 parameter there. – Remy Lebeau Sep 27 '18 at 6:05

You can use std::bind to turn a function with n parameters into one with n-x parameters by supplying some of the arguments as constants:

auto fn = std::bind(&range_search, _1, 0.1, 0.9);

The _1 is a placeholder for the first argument, which we want to keep variable. The arguments 0.1 and 0.9 are passed for parameters X1 and X2 respectively.

As the generated function now has only one parameter, we can use it with std::find_if():

auto it = std::find_if(x.begin(), x.end(), fn);

You can also combine the two into a single call:

auto it = std::find_if(x.begin(), x.end(), std::bind(&range_search, _1, 0.1, 0.9));

Live Demo at Coliru

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