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question is easy. Lets say you have function

double interpolate (double x);

and you have a table that has map of known x-> y
for example
5 15
7 18
10 22
note: real tables are bigger ofc, this is just example.

so for 8 you would return 18+((8-7)/(10-7))*(22-18)=19.3333333

One cool way I found is http://www.bnikolic.co.uk/blog/cpp-map-interp.html (long story short it uses std::map, key= x, value = y for x->y data pairs).

If somebody asks what is the if else if else way in title it is basically:

if ((x>=5) && (x<=7))
     if((x>=7) && x<=10)

So is there a more clever way to do it or map way is the state of the art? :)

Btw I prefer soutions in C++ but obviously any language solution that has 1:1 mapping to C++ is nice.

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Does not seem to apply in this case, but anyway: if the 'x' values of interpolation points are equally spaced, you can use a modulo operation to find the index of the first value that is >= query_value, in constant time. Some linear transformations are necessary. –  Ambroz Bizjak Jul 10 '12 at 9:53
yeah I intentionally made not equidistant to make clear that I want linear interpolation, but that intervals arent necessarily the same. –  NoSenseEtAl Jul 10 '12 at 11:49
Though, the modulo method can still work if you can make the intervals equidistant after application of some function. –  Ambroz Bizjak Jul 10 '12 at 11:52
@NoSenseEtAl So what's the problem with the map method you refer to?? Especially if you mention you have a big number of x/y pairs std::map should be the way to go (if/else if is far to tedious). Your question seems more to be after, how you could fill your table data in an efficient way, as your responses to the first 2 answers suggest. –  πάντα ῥεῖ Jul 26 '12 at 18:08
@g-makulik like i said: "So is there a more clever way to do it or map way is the state of the art? :)" I just wanna know what is the best way. –  NoSenseEtAl Jul 26 '12 at 20:09

5 Answers 5

Well, the easiest way I can think of would be using a binary search to find the point where your point lies. Try to avoid maps if you can, as they are very slow in practice.

This is a simple way:

const double INF = 1.e100;
vector<pair<double, double> > table;
double interpolate(double x) {
    // Assumes that "table" is sorted by .first
    // Check if x is out of bound
    if (x > table.back().first) return INF;
    if (x < table[0].first) return -INF;
    vector<pair<double, double> >::iterator it, it2;
    // INFINITY is defined in math.h in the glibc implementation
    it = lower_bound(table.begin(), table.end(), make_pair(x, -INF));
    // Corner case
    if (it == table.begin()) return it->second;
    it2 = it;
    return it2->second + (it->second - it2->second)*(x - it2->first)/(it->first - it2->first);
int main() {
    table.push_back(make_pair(5., 15.));
    table.push_back(make_pair(7., 18.));
    table.push_back(make_pair(10., 22.));
    // If you are not sure if table is sorted:
    sort(table.begin(), table.end());
    printf("%f\n", interpolate(8.));
    printf("%f\n", interpolate(10.));
    printf("%f\n", interpolate(10.1));
share|improve this answer
This looks very much like what the op wants. Do you know how exactly lower_bounds performs its binary search? According to the docs, it will achieve O(logN) on any random access iterator. Nice! –  onitake Jul 27 '12 at 10:45
I don't know implementation details, but lower_bound uses the operator< to do a binary search (indeed in O(logN)). –  Daniel Fleischman Jul 27 '12 at 15:20
To achieve more continuous result, the output when x is out of range should better be the boundary value, for example if(x > table.back().first) return table.back().second; –  Whyllee Aug 2 '12 at 5:08
I don't agree with that. The function should indicate that the value is out of bound, and the programmer should treat this case. Maybe he wants to do what you suggested, maybe he wants to extrapolate, and maybe he wants to tell the user that the value is out of bound. –  Daniel Fleischman Aug 2 '12 at 16:16
Yes, it is because of cache locality. Maps are usually implemented with a red-black tree, which gives you not only the cache locality problem, but also a memory overhead to store all the pointers. Benchmark it yourself and be surprised :) –  Daniel Fleischman Jan 17 '13 at 13:28

Yes, I guess that you should think in a map between those intervals and the natural nummbers. I mean, just label the intervals and use a switch:

switch(I) {

    case Int1: //whatever




I don't know, it's the first thing that I thought of.

EDIT Switch is more efficient than if-else if your numbers are within a relative small interval (that's something to take into account when doing the mapping)

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but isnt mapping from x to I(int used in switch) pretty much the problem Im trying to solve? –  NoSenseEtAl Jul 9 '12 at 14:37

You can use a binary search tree to store the interpolation data. This is beneficial when you have a large set of N interpolation points, as interpolation can then be performed in O(log N) time. However, in your example, this does not seem to be the case, and the linear search suggested by RedX is more appropriate.

#include <stdio.h>
#include <assert.h>

#include <map>

static double interpolate (double x, const std::map<double, double> &table)
    assert(table.size() > 0);

    std::map<double, double>::const_iterator it = table.lower_bound(x);

    if (it == table.end()) {
        return table.rbegin()->second;
    } else {
        if (it == table.begin()) {
            return it->second;
        } else {
            double x2 = it->first;
            double y2 = it->second;
            double x1 = it->first;
            double y1 = it->second;
            double p = (x - x1) / (x2 - x1);
            return (1 - p) * y1 + p * y2;

int main ()
    std::map<double, double> table;
    table.insert(std::pair<double, double>(5, 6));
    table.insert(std::pair<double, double>(8, 4));
    table.insert(std::pair<double, double>(9, 5));

    double y = interpolate(5.1, table);

    printf("%f\n", y);
share|improve this answer
note that my example is unreasonably small for demonstration purposes, real data has >5 points. –  NoSenseEtAl Jul 10 '12 at 11:16
btw you re doing the thing I linked to in my Q. :) Just without boost:assign –  NoSenseEtAl Jul 10 '12 at 11:27

Store your points sorted:

index X    Y
1     1 -> 3
2     3 -> 7
3     10-> 8

Then loop from max to min and as soon as you get below a number you know it the one you want.

You want let's say 6 so:

// pseudo
for i = 3 to 1
  if x[i] <= 6
    // you found your range!
    // interpolate between x[i] and x[i - 1]
    break; // Do not look any further
share|improve this answer
A search tree (AVL/RB) might be more efficient when the size of the table is not very small. –  Ambroz Bizjak Jul 10 '12 at 9:48
@AmbrozBizjak with optimizations enabled, this loop benefits from branch prediction, so one can expect reasonable speed –  stefan Jul 10 '12 at 9:52
@stefan the efficiency is almost certainly still going to be linear. –  Ambroz Bizjak Jul 10 '12 at 9:55
as a side note: wouldn't it be a bit slightly more efficient to go through the array from the start? –  stefan Jul 10 '12 at 9:56
@AmbrozBizjak I'm dying to read your answer –  stefan Jul 10 '12 at 9:57

How you've already got it is fairly readable and understandable, and there's a lot to be said for that over a "clever" solution. You can however do away with the lower bounds check and clumsy && because the sequence is ordered:

if (x < 5)
  return 0;
else if (x <= 7)
  // interpolate
else if (x <= 10)
  // interpolate
share|improve this answer
He says the tables are way bigger... –  ErikE Aug 2 '12 at 4:37

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