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Digit DP | Introduction

Prerequisite : How to solve a Dynamic Programming Problem ?
There are many types of problems that ask to count the number of integers ‘x‘ between two integers say ‘a‘ and ‘b‘ such that x satisfies a specific property that can be related to its digits.
So, if we say G(x) tells the number of such integers between 1 to x (inclusively), then the number of such integers between a and b can be given by G(b) – G(a-1). This is when Digit DP (Dynamic Programming) comes into action. All such integer counting problems that satisfy the above property can be solved by digit DP approach.
 

Key Concept:

  • Let given number x has n digits. The main idea of digit DP is to first represent the digits as an array of digits t[]. Let’s say a we have tntn-1tn-2 … t2t1 as the decimal representation where ti (0 < i <= n) tells the i-th digit from the right. The leftmost digit tn is the most significant digit. 
     
  • Now, after representing the given number this way we generate the numbers less than the given number and simultaneously calculate using DP, if the number satisfy the given property. We start generating integers having number of digits = 1 and then till number of digits = n. Integers having less number of digits than n can be analyzed by setting the leftmost digits to be zero. 
     

Example Problem : 
Given two integers a and b. Your task is to print the sum of 
all the digits appearing in the integers between a and b.
For example if a = 5 and b = 11, then answer is 38 (5 + 6 + 7 + 8 + 9 + 1 + 0 + 1 + 1)
Constraints : 1 <= a < b <= 10^18
Now we see that if we have calculated the answer for state having n-1 digits, i.e., tn-1 tn-2 … t2 t1 and we need to calculate answer for state having n digits tn tn-1 tn-2 … t2 t1. So, clearly, we can use the result of the previous state instead of re-calculating it. Hence, it follows the overlapping property.
Let’s think for a state for this DP
Our DP state will be dp(idx, tight, sum)
1) idx  

  • It tells about the index value from right in the given integer

2) tight  

  • This will tell if the current digits range is restricted or not. If the current digit’s 
    range is not restricted then it will span from 0 to 9 (inclusively) else it will span 
    from 0 to digit[idx] (inclusively).
    Example: consider our limiting integer to be 3245 and we need to calculate G(3245) 
    index : 4 3 2 1 
    digits : 3 2 4 5 
     

Unrestricted range: 
Now suppose the integer generated till now is : 3 1 * * ( * is empty place, where digits are to be inserted to form the integer). 

  index  : 4 3 2 1  
  digits : 3 2 4 5
 generated integer: 3 1 _ _ 

here, we see that index 2 has unrestricted range. Now index 2 can have digits from range 0 to 9(inclusively). 
For unrestricted range tight = 0
Restricted range: 
Now suppose the integer generated till now is : 3 2 * * ( ‘*’ is an empty place, where digits are to be inserted to form the integer). 

  index  : 4 3 2 1  
  digits : 3 2 4 5
 generated integer: 3 2 _ _ 

here, we see that index 2 has a restricted range. Now index 2 can only have digits from range 0 to 4 (inclusively) 
For restricted range tight = 1
3) sum 

  • This parameter will store the sum of digits in the generated integer from msd to idx. 
     
  • Max value for this parameter sum can be 9*18 = 162, considering 18 digits in the integer

State Relation:
The basic idea for state relation is very simple. We formulate the dp in top-down fashion. 
Let’s say we are at the msd having index idx. So initially the sum will be 0.
Therefore, we will fill the digit at index by the digits in its range. Let’s say its range is from 0 to k (k<=9, depending on the tight value) and fetch the answer from the next state having index = idx-1 and sum = previous sum + digit chosen. 

int ans = 0;
for (int i=0; i<=k; i++) {
   ans += state(idx-1, newTight, sum+i)
}

state(idx,tight,sum) = ans;

How to calculate the newTight value? 
The new tight value from a state depends on its previous state. If tight value form the previous state is 1 and the digit at idx chosen is digit[idx](i.e the digit at idx in limiting integer) , then only our new tight will be 1 as it only then tells that the number formed till now is prefix of the limiting integer. 

// digitTaken is the digit chosen
// digit[idx] is the digit in the limiting 
//            integer at index idx from right
// previouTight is the tight value form previous 
//              state

newTight = previousTight & (digitTake == digit[idx])

Below is the implementation of the above approach

CPP




// Given two integers a and b. The task is to print
// sum of all the digits appearing in the
// integers between a and b
#include "bits/stdc++.h"
using namespace std;
 
// Memoization for the state results
long long dp[20][180][2];
 
// Stores the digits in x in a vector digit
void getDigits(long long x, vector <int> &digit)
{
    while (x)
    {
        digit.push_back(x%10);
        x /= 10;
    }
}
 
// Return sum of digits from 1 to integer in
// digit vector
long long digitSum(int idx, int sum, int tight,
                          vector <int> &digit)
{
    // base case
    if (idx == -1)
       return sum;
 
    // checking if already calculated this state
    if (dp[idx][sum][tight] != -1 and tight != 1)
        return dp[idx][sum][tight];
 
    long long ret = 0;
 
    // calculating range value
    int k = (tight)? digit[idx] : 9;
 
    for (int i = 0; i <= k ; i++)
    {
        // calculating newTight value for next state
        int newTight = (digit[idx] == i)? tight : 0;
 
        // fetching answer from next state
        ret += digitSum(idx-1, sum+i, newTight, digit);
    }
 
    if (!tight)
      dp[idx][sum][tight] = ret;
 
    return ret;
}
 
// Returns sum of digits in numbers from a to b.
int rangeDigitSum(int a, int b)
{
    // initializing dp with -1
    memset(dp, -1, sizeof(dp));
 
    // storing digits of a-1 in digit vector
    vector<int> digitA;
    getDigits(a-1, digitA);
 
    // Finding sum of digits from 1 to "a-1" which is passed
    // as digitA.
    long long ans1 = digitSum(digitA.size()-1, 0, 1, digitA);
 
    // Storing digits of b in digit vector
    vector<int> digitB;
    getDigits(b, digitB);
 
    // Finding sum of digits from 1 to "b" which is passed
    // as digitB.
    long long ans2 = digitSum(digitB.size()-1, 0, 1, digitB);
 
    return (ans2 - ans1);
}
 
// driver function to call above function
int main()
{
    long long a = 123, b = 1024;
    cout << "digit sum for given range : "
         << rangeDigitSum(a, b) << endl;
    return 0;
}


Java




// Java program for above approach
 
import java.util.ArrayList;
import java.util.Arrays;
 
// Given two integers a and b. The task is to print
// sum of all the digits appearing in the
// integers between a and b
public class GFG {
 
    // Memoization for the state results
    static long dp[][][] = new long[20][180][2];
 
    // Stores the digits in x in a vector digit
    static void getDigits(long x, ArrayList<Integer> digit)
    {
        while (x != 0) {
            digit.add((int)(x % 10));
            x /= 10;
        }
    }
 
    // Return sum of digits from 1 to integer in
    // digit vector
    static long digitSum(int idx, int sum, int tight,
                         ArrayList<Integer> digit)
    {
        // base case
        if (idx == -1)
            return sum;
 
        // checking if already calculated this state
        if (dp[idx][sum][tight] != -1 && tight != 1)
            return dp[idx][sum][tight];
 
        long ret = 0;
 
        // calculating range value
        int k = (tight != 0) ? digit.get(idx) : 9;
 
        for (int i = 0; i <= k; i++) {
            // calculating newTight value for next state
            int newTight
                = (digit.get(idx) == i) ? tight : 0;
 
            // fetching answer from next state
            ret += digitSum(idx - 1, sum + i, newTight,
                            digit);
        }
 
        if (tight != 0)
            dp[idx][sum][tight] = ret;
 
        return ret;
    }
 
    // Returns sum of digits in numbers from a to b.
    static int rangeDigitSum(int a, int b)
    {
        // initializing dp with -1
        for (int i = 0; i < 20; i++)
            for (int j = 0; j < 180; j++)
                for (int k = 0; k < 2; k++)
                    dp[i][j][k] = -1;
 
        // storing digits of a-1 in digit vector
        ArrayList<Integer> digitA
            = new ArrayList<Integer>();
        getDigits(a - 1, digitA);
 
        // Finding sum of digits from 1 to "a-1" which is
        // passed as digitA.
        long ans1
            = digitSum(digitA.size() - 1, 0, 1, digitA);
 
        // Storing digits of b in digit vector
        ArrayList<Integer> digitB
            = new ArrayList<Integer>();
        getDigits(b, digitB);
 
        // Finding sum of digits from 1 to "b" which is
        // passed as digitB.
        long ans2
            = digitSum(digitB.size() - 1, 0, 1, digitB);
 
        return (int)(ans2 - ans1);
    }
 
    // driver function to call above function
    public static void main(String[] args)
    {
        int a = 123, b = 1024;
        System.out.println("digit sum for given range : "
                           + rangeDigitSum(a, b));
    }
}
 
// This code is contributed by Lovely Jain


Python3




# Given two integers a and b. The task is to
# print sum of all the digits appearing in the
# integers between a and b
 
# Memoization for the state results
dp = [[[-1 for i in range(2)] for j in range(180)]for k in range(20)]
 
# Stores the digits in x in a list digit
def getDigits(x, digit):
    while x:
        digit.append(x % 10)
        x //= 10
         
# Return sum of digits from 1 to integer in digit list
def digitSum(index, sumof, tight, digit):
   
    # Base case
    if index == -1:
        return sumof
       
        # Checking if already calculated this state
    if dp[index][sumof][tight] != -1 and tight != 1:
        return dp[index][sumof][tight]
    ret = 0
     
    # Calculating range value
    k = digit[index] if tight else 9
    for i in range(0, k+1):
       
        # Calculating newTight value for nextstate
        newTight = tight if digit[index] == i else 0
         
        # Fetching answer from next state
        ret += digitSum(index-1, sumof+i, newTight, digit)
    if not tight:
        dp[index][sumof][tight] = ret
    return ret
   
# Returns sum of digits in numbers from a to b
def rangeDigitSum(a, b):
    digitA = []
     
    # Storing digits of a-1 in digitA
    getDigits(a-1, digitA)
     
    # Finding sum of digits from 1 to "a-1" which is passed as digitA
    ans1 = digitSum(len(digitA)-1, 0, 1, digitA)
    digitB = []
     
    # Storing digits of b in digitB
    getDigits(b, digitB)
     
    # Finding sum of digits from 1 to "b" which is passed as digitB
    ans2 = digitSum(len(digitB)-1, 0, 1, digitB)
    return ans2-ans1
 
 
a, b = 123, 1024
print("digit sum for given range: ", rangeDigitSum(a, b))
 
# This code is contributed by rupasriachanta421


C#




// C# Code
using System;
using System.Collections.Generic;
 
namespace GFG {
  class Program {
    // Memoization for the state results
    static long[, , ] dp = new long[20, 180, 2];
 
    // Stores the digits in x in a vector digit
    static void getDigits(long x, List<int> digit)
    {
      while (x != 0) {
        digit.Add((int)(x % 10));
        x /= 10;
      }
    }
 
    // Return sum of digits from 1 to integer in
    // digit vector
    static long digitSum(int idx, int sum, int tight,
                         List<int> digit)
    {
      // base case
      if (idx == -1)
        return sum;
 
      // checking if already calculated this state
      if (dp[idx, sum, tight] != -1 && tight != 1)
        return dp[idx, sum, tight];
 
      long ret = 0;
 
      // calculating range value
      int k = (tight != 0) ? digit[idx] : 9;
 
      for (int i = 0; i <= k; i++) {
        // calculating newTight value for next state
        int newTight = (digit[idx] == i) ? tight : 0;
 
        // fetching answer from next state
        ret += digitSum(idx - 1, sum + i, newTight,
                        digit);
      }
 
      if (tight != 0)
        dp[idx, sum, tight] = ret;
 
      return ret;
    }
 
    // Returns sum of digits in numbers from a to b.
    static int rangeDigitSum(int a, int b)
    {
      // initializing dp with -1
      for (int i = 0; i < 20; i++)
        for (int j = 0; j < 180; j++)
          for (int k = 0; k < 2; k++)
            dp[i, j, k] = -1;
 
      // storing digits of a-1 in digit vector
      List<int> digitA = new List<int>();
      getDigits(a - 1, digitA);
 
      // Finding sum of digits from 1 to "a-1" which is
      // passed as digitA.
      long ans1
        = digitSum(digitA.Count - 1, 0, 1, digitA);
 
      // Storing digits of b in digit vector
      List<int> digitB = new List<int>();
      getDigits(b, digitB);
 
      // Finding sum of digits from 1 to "b" which is
      // passed as digitB.
      long ans2
        = digitSum(digitB.Count - 1, 0, 1, digitB);
 
      return (int)(ans2 - ans1);
    }
 
    // driver function to call above function
    public static void Main(String[] args)
    {
      int a = 123, b = 1024;
      Console.WriteLine("digit sum for given range : "
                        + rangeDigitSum(a, b));
    }
  }
}
 
// This code is contributed by ishankhandelwals.


Javascript




// Given two integers a and b. The task is to print
// sum of all the digits appearing in the
// integers between a and b
 
// Memoization for the state results
let dp = [];
 
// Stores the digits in x in a array digit
function getDigits(x, digit) {
  while (x) {
    digit.push(x % 10);
    x = Math.floor(x / 10);
  }
}
 
// Return sum of digits from 1 to integer in
// digit array
function digitSum(idx, sum, tight, digit) {
  // base case
  if (idx === -1) return sum;
 
  // checking if already calculated this state
  if (dp[idx] && dp[idx][sum] && dp[idx][sum][tight] != null && tight !== 1) {
    return dp[idx][sum][tight];
  }
 
  let ret = 0;
 
  // calculating range value
  let k = tight ? digit[idx] : 9;
 
  for (let i = 0; i <= k; i++) {
    // calculating newTight value for next state
    let newTight = digit[idx] === i ? tight : 0;
 
    // fetching answer from next state
    ret += digitSum(idx - 1, sum + i, newTight, digit);
  }
 
  if (tight !== 1) {
    dp[idx] = dp[idx] || [];
    dp[idx][sum] = dp[idx][sum] || [];
    dp[idx][sum][tight] = ret;
  }
 
  return ret;
}
 
// Returns sum of digits in numbers from a to b.
function rangeDigitSum(a, b) {
  // initializing dp with null
  dp = [];
 
  // storing digits of a-1 in digit array
  let digitA = [];
  getDigits(a - 1, digitA);
 
  // Finding sum of digits from 1 to "a-1" which is passed
  // as digitA.
  let ans1 = digitSum(digitA.length - 1, 0, 1, digitA);
 
  // Storing digits of b in digit array
  let digitB = [];
  getDigits(b, digitB);
 
  // Finding sum of digits from 1 to "b" which is passed
  // as digitB.
  let ans2 = digitSum(digitB.length - 1, 0, 1, digitB);
 
  return ans2 - ans1;
}
 
// driver function to call above function
function main() {
  let a = 123,
    b = 1024;
  console.log("digit sum for given range : " + rangeDigitSum(a, b));
}
 
main();
// This code is contributed by divyansh2212


Output:

digit sum for given range : 12613

Time Complexity:
There are total idx*sum*tight states and we are performing 0 to 9 iterations to visit every state. Therefore, The Time Complexity will be O(10*idx*sum*tight). Here, we observe that tight = 2 and idx can be max 18 for 64 bit unsigned integer and moreover, the sum will be max 9*18 ~ 200. So, overall we have 10*18*200*2 ~ 10^5 iterations which can be easily executed in 0.01 seconds.

Space Complexity:

The space complexity of this algorithm is O(d*sum*tight) as it uses a dp array of size d*sum*tight. where d is the number of digits in the number, sum is the sum of the digits and tight is a boolean value indicating whether or not the current digit is restricted to the digit in the number or not. 

The above problem can also be solved using simple recursion without any memoization. The recursive solution for the above problem can be found here. We will be soon adding more problems on digit dp in our future posts.
This article is contributed by Nitish Kumar. If you like neveropen and would like to contribute, you can also write an article using write.geeksforgeeks.org or mail your article to review-team@geeksforgeeks.org. See your article appearing on the neveropen main page and help other Geeks.
Please write comments if you find anything incorrect, or you want to share more information about the topic discussed above.

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