I have as an input:
the number of testcases
an amount of money
As output I need:
The number different coins we have and the value of each coin.
The program should determine whether there is a solution or not, so the output should be either a "yes" or a "no".
I wrote the program using dynamic programming, but it only works when I enter one testcase at a time If i write let's say 200 testcases at once, the output isn't always right.
I'm assuming that I have an issue with incorrectly saved state between test cases.
My question is, how could I solve this problem? I'm only asking for some advice.
Here's my code:
#include<iostream>
#include<stdio.h>
#include<string>
#define max_muenzwert 1000
using namespace std;
int coin[10];//max. 10 coins
int d[max_muenzwert][10];//max value of a coin und max. number of coins
int tabelle(int s,int k)//computes table
{
if(d[s][k]!=-1) return d[s][k];
d[s][k]=0;
for(int i=k;i<=9&&s>=coin[i];i++)
d[s][k]+=tabelle(s-coin[i],i);
return d[s][k];
}
int main()
{
int t;
for(cin>>t;t>0;t--)//number of testcases
{
int n; //value we are searching
scanf("%d",&n)==1;
int n1;
cin>>n1;//how many coins
for (int n2=0; n2<n1; n2++)
{
cin>>coin[n2];//value of coins
}
memset(d,-1,sizeof(d));//set table to -1
for(int i=0;i<=9;i++)
{
d[0][i]=1;//set only first row to 1
}
if(tabelle(n,0)>0) //if there's a solution
{
cout<<"yes"<<endl;
}
else //no solution
{
cout<<"no"<<endl;
}
}
//system("pause");
return 0;
}
As you can see you have variable number of coins, which you are taking input using this line: cin>>n1;//how many coins. But in the tabelle method you are always looping through 0 - 9, which is wrong. You should only loop through 0 - n1. Try this test case:
2
10
2
2 5
10
1
9
For the second test set your answer should be no but your program will say yes as it will find 5 in the second element of your coin array.
for(int i=k;i<=9&&s>=coin[i];i++)
d[s][k]+=tabelle(s-coin[i],i);
Here, if coin[i] < s, then the entire loop will break, while you only need to skip this coin.
P.S. Please bother yourself with proper code formatting.
Related
I am trying to find the third highest number in the array with O(n) space and time complexity.
MY program is obviously wrong but that is not the problem.
My for loop in the thirdhighestnum function seem to running only 2 times. I can't seem to find the reason for it. Can anyone help me. Sorry for such basic question I am a beginner here.
#include<iostream>
using namespace std;
int thirdhighestnum(int a[],int size)
{
cout<<" "<<size<<endl;
int first=a[0],second=0,third=0;
for(int i=1;i<size;i++)
{
cout<<a[i]<<";"<<endl;
if(a[i]>first)
{
first=a[i];
if(a[i+1]>first)
{
second=first;
first=a[i+1];
if(a[i+2]>first)
{ third=second;
second=first;
first=a[i+2];
}
}
cout<<i<<endl
return third;
}
}
}
int main()
{ int num,a[10];
cout<<"Enter the elements in the array"<<endl;
for(int i=0;i<10;i++)
cin>>a[i];
cout<<"Third highest number is "<<thirdhighestnum(a,10)<<endl;
return 0;
}
It's the location of your return third statement. The moment any number is larger than the first number, it exits the thirdhighestnum function and returns a value. Put it outside your for loop and it should be fine.
Actually it is executing only one time i.e. the first iteration only. When i=1 then it prints a[1] i.e. 2; after that it prints i i.e. 1 so it appears as 2;1 here you think it is printing 2 numbers.
The main problem is your return third statement which terminates your for loop in first iteration only.
This is known as nth_element and library function can do this for you.
As for why your code fails, there is a flaw in your logic
for(int i=1;i<size;i++)
{
// some code
if(a[i]>first)
{
// some more code
cout<<i<<endl
return third;
}
}
So your code exits the first time a[i] is greater than first.
[edit - After reading comments]
The generic name for this type of algorithm is a QuickSelect. It is unlikely you will find a faster algorithm, as this has been the subject of years of academic study.
I'm new too c++ and I had to design a program that determines the first four triangular square numbers and the output is exactly how I want it to be, but it wont quit after its printed the first four. I can't figure out what it could be. I can't CTRL C because I will get points taken off. What is the issue here?
#include <iostream>
#include <cmath>
using namespace std;
int main()
{
//Prints name line
cout<<"*********** BY: ********"<<endl;
//Initializing
const int HOW_MANY=4;
int num=1;
int tsn=0;
int z=1;
int x=0;
//How many TSN it will find and be printed
while (x<=HOW_MANY)
{
//
int sum=0;
for (int y=0;y<512;y++)
{
sum+=y;
tsn=pow(num,2);
//Tests if the numbers are TSN
if ((sum==tsn) || (num+1)/sqrt(num)==sqrt(num))
{
//Prints 1-HOW_MANY TSN and what they are
cout<<"Square Triangular Number "<< z <<" is: "<< tsn <<endl;
z++;
x++;
}
}
num++;
}
return 0;
}
If x = 0 then instead of while (x<=HOW_MANY) you need write while (x<HOW_MANY).
x begins at 0. Every time you find and print a number it gets incremented. You'll continue this, so long as x<=HOW_MANY.
You say your program finds 4 numbers but keeps running. After 4 hits, x will be 4. Is 4 <= 4? The answer is yes, so your program keeps running.
Either change the condition to x < HOW_MANY, or initialize x to 1.
EDIT
Did a little leg work, it turns out the sum of all the numbers in the range [1,512] is 131328. The 5th square triangle number is 1413721.
This means after you find the fourth triangle number, you will never sum high enough to find the next one. This will result in the infinite loop you're seeing.
The answer above is still the correct fix, but this is the reason you end up with an infinite loop.
for should be used for iteration and while should be used for condition testing.
The problem, as has been noted, is that your x condition variable is never being incremented to get you out of the outer loop. That's a logic error that can be avoided by using the appropriate control structure for the job.
I made this algorithm, i was debugging it to see why it wasnt working, but then i started getting weird stuff while printing arrays at the end of each cycle to see where the problem first occurred.
At a first glance, it seemed my while cycles didn't take into consideration the last array value, but i dunno...
all info about algorithm and everything is in the source.
What i'd like to understand is, primarily, the answer to this question:
Why does the output change sometimes?? If i run the program, 60-70% of the time i get answer 14 (which should be wrong), but some other times i get weird stuff as the result...why??
how can i debug the code if i keep getting different results....plus, if i compile for release and not debug (running codeblocks under latest gcc available in debian sid here), i get most of the times 9 as result.
CODE:
#include <iostream>
#include <vector>
/*void print_array
{
std::cout<<" ( ";
for (int i = 0; i < n; i++) { std::cout<<array[i]<<" "; }
std::cout<<")"<<std::endl;
}*/
///this algorithm must take an array of elements and return the maximum achievable sum
///within any of the sub-arrays (or sub-segments) of the array (the sum must be composed of adjacent numbers within the array)
///it will squeeze the array ...(...positive numbers...)(...negative numbers...)(...positive numbers...)...
///into ...(positive number)(negative number)(positive number)...
///then it will 'remove' any negative numbers in case it would be convienent so that the sum between 2 positive numbers
///separated by 1 negative number would result in the highest achievable number, like this:
// -- (3,-4,4) if u do 'remove' the negative number in order to unite the positive ones, i will get 3-4+4=3. So it would
// be better not to remove the negative number, and let 4 be the highest number achievable, without any sums
// -- (3,-1,4) in this case removing -1 will result in 3-1+4=6, 6 is bigger than both 3 and 4, so it would be convienent to remove the
// negative number and sum all of the three up into one number
///so what this step does is shrink the array furthermore if it is possible to 'remove' any negatives in a smart way
///i also make it reiterate for as long as there is no more shrinking available, because if you think about it not always
///can the pc know if, after a shrinking has occured, there are more shrinkings to be done
///then, lastly, it will calculate which of the positive numbers left is highest, and it will choose that as remaining maximum sum :)
///expected result for the array of input, s[], would be (i think), 7
int main() {
const int n=4;
int s[n+1]={3,-2,4,-4,6};
int k[n+1]={0};
///PRINT ARRAY, FOR DEBUG
std::cout<<" ( ";
for (int i = 0; i <= n; i++) { std::cout<<k[i]<<" "; }
std::cout<<")"<<std::endl;
int i=0, j=0;
// step 1: compress negative and postive subsegments of array s[] into single numbers within array k[]
/*while (i<=n)
{
while (s[i]>=0)
{
k[j]+=s[i]; ++i;
}
++j;
while (s[i]<0)
{
k[j]+=s[i]; ++i;
}
++j;
}*/
while (i<=n)
{
while (s[i]>=0)
{
if (i>n) break;
k[j]+=s[i]; ++i;
}
++j;
while (s[i]<0)
{
if (i>n) break;
k[j]+=s[i]; ++i;
}
++j;
}
std::cout<<"STEP 1 : ";
///PRINT ARRAY, FOR DEBUG
std::cout<<" ( ";
for (int i = 0; i <= n; i++) { std::cout<<k[i]<<" "; }
std::cout<<")"<<std::endl;
j=0;
// step 2: remove negative numbers when handy
std::cout<<"checked WRONG! "<<unsigned(k[3])<<std::endl;
int p=1;
while (p!=0)
{
p=0;
while (j<=n)
{
std::cout<<"checked right! "<<unsigned(k[j+1])<<std::endl;
if (k[j]<=0) { ++j; continue;}
if ( k[j]>unsigned(k[j+1]) && k[j+2]>unsigned(k[j+1]) )
{
std::cout<<"checked right!"<<std::endl;
k[j+2]=k[j]+k[j+1]+k[j+2];
k[j]=0; k[j+1]=0;
++p;
}
j+=2;
}
}
std::cout<<"STEP 2 : ";
///PRINT ARRAY, FOR DEBUG
std::cout<<" ( ";
for (int i = 0; i <= n; i++) { std::cout<<k[i]<<" "; }
std::cout<<")"<<std::endl;
j=0; i=0; //i will now use "i" and "p" variables for completely different purposes, as not to waste memory
// i will be final value that algorithm needed to find
// p will be a value to put within i if it is the biggest number found yet, it will keep changing as i go through the array....
// step 3: check which positive number is bigger: IT IS THE MAX ACHIEVABLE SUM!!
while (j<=n)
{
if(k[j]<=0) { ++j; continue; }
p=k[j]; if (p>i) { std::swap(p,i); }
j+=2;
}
std::cout<<std::endl<<"MAX ACHIEVABLE SUM WITHIN SUBSEGMENTS OF ARRAY : "<<i<<std::endl;
return 0;
}
might there be problems because im not using vectors??
Thanks for your help!
EDIT: i found both my algorithm bugs!
one is the one mentioned by user m24p, found in step 1 of the algorithm, which i fixed with a kinda-ugly get-around which ill get to cleaning up later...
the other is found in step2. it seems that in the while expression check, where i check something against unsigned values of the array, what is really checked is that something agains unsigned values of some weird numbers.
i tested it, with simple cout output:
IF i do unsigned(k[anyindexofk]) and the value contained in that spot is a positive number, i get the positive number of course which is unsigned
IF that number is negative though, the value won't be simply unsigned, but look very different, like i stepped over the array or something...i get this number "4294967292" when im instead expecting -2 to return as 2 or -4 to be 4.
(that number is for -4, -2 gives 4294967294)
I edited the sources with my new stuff, thanks for the help!
EDIT 2: nvm i resolved with std::abs() using cmath libs of c++
would there have been any other ways without using abs?
In your code, you have:
while (s[i]>=0)
{
k[j]+=s[i]; ++i;
}
Where s is initialized like so
int s[n+1]={3,-2,4,-4,6};
This is one obvious bug. Your while loop will overstep the array and hit garbage data that may or may not be zeroed out. Nothing stops i from being bigger than n+1. Clean up your code so that you don't overstep arrays, and then try debugging it. Also, your question is needs to be much more specific for me to feel comfortable answering your question, but fixing bugs like the one I pointed out should make it easier to stop running into inconsistent, undefined behavior and start focusing on your algorithm. I would love to answer the question but I just can't parse what you're specifically asking or what's going wrong.
I'm trying to answer this problem as an exercise:
here are set of coins of {50,25,10,5,1} cents in a box.Write a program to find the number of ways a 1 dollar can be created by grouping the coins.
My solution involves making a tree with each edge having one of the values above. Each node would then hold a sum of the coins. I could then populate this tree and look for leaves that add up to 100. So here is my code
class TrieNode
{
public:
TrieNode(TrieNode* Parent=NULL,int sum=0,TrieNode* FirstChild=NULL,int children=0, bool key =false )
:pParent(Parent),pChild(FirstChild),isKey(key),Sum(sum),NoChildren(children)
{
if(Sum==100)
isKey=true;
}
void SetChildren(int children)
{
pChild = new TrieNode[children]();
NoChildren=children;
}
~TrieNode(void);
//pointers
TrieNode* pParent;
TrieNode* pChild;
int NoChildren;
bool isKey;
int Sum;
};
void Populate(TrieNode* Root, int coins[],int size)
{
//Set children
Root->SetChildren(size);
//add children
for(int i=0;i<size;i++)
{
TrieNode* child = &Root->pChild[0];
int c = Root->Sum+coins[i];
if(c<=100)
{
child = new TrieNode(Root,c);
if(!child->isKey) //recursively populate if not a key
Populate(child,coins,size);
}
else
child = NULL;
}
}
int getNumKeys(TrieNode* Root)
{
int keys=0;
if(Root == NULL)
return 0;
//increment keys if this is a key
if(Root->isKey)
keys++;
for(int i=0; i<Root->NoChildren;i++)
{
keys+= getNumKeys(&Root->pChild[i]);
}
return keys;
}
int _tmain(int argc, _TCHAR* argv[])
{
TrieNode* RootNode = new TrieNode(NULL,0);
int coins[] = {50,25,10,5,1};
int size = 5;
Populate(RootNode,coins,size);
int combos = getNumKeys(RootNode);
printf("%i",combos);
return 0;
}
The problem is that the tree is so huge that after a few seconds the program crashes. I'm running this on a windows 7, quad core, with 8gb ram. A rough calculation tells me I should have enough memory.
Are my calculations incorrect?
Does the OS limit how much memory I have access to?
Can I fix it while still using this solution?
All feedback is appreciated. Thanks.
Edit1:
I have verified that the above approach is wrong. By trying to build a tree with a set of only 1 coin.
coins[] = {1};
I found that the algorithm still failed.
After reading the post from Lenik and from João Menighin
I came up with this solution that ties both Ideas together to make a recursive solution
which takes any sized array
//N is the total the coins have to amount to
int getComobs(int coins[], int size,int N)
{
//write base cases
//if array empty | coin value is zero or N is zero
if(size==0 || coins[0]==0 ||N==0)
return 0;
int thisCoin = coins[0];
int atMost = N / thisCoin ;
//if only 1 coin denomination
if(size==1)
{
//if all coins fit in N
if(N%thisCoin==0)
return 1;
else
return 0;
}
int combos =0;
//write recursion
for(int denomination =0; denomination<atMost;denomination++)
{
coins++;//reduce array ptr
combos+= getComobs(coins, size-1,N-denomination*thisCoin);
coins--;//increment array ptr
}
return combos;
}
Thanks for all the feedback
Tree solution is totally wrong for this problem. It's like catching 10e6 tigers and then let go all of them but one, just because you need a single tiger. Very time and memory consuming -- 99.999% of your nodes are useless and should be ignored in the first place.
Here's another approach:
notice your cannot make a dollar to contain more than two 50 cents
notice again your cannot make a dollar to contain more than four 25 cent coins
notice... (you get the idea?)
Then your solution is simple:
for( int fifty=0; fifty<3; fifty++) {
for( int quarters=0; quarters<5; quarters++) {
for( int dimes=0; dimes<11; dimes++) {
for( int nickels=0; nickels<21; nickels++) {
int sum = fifty * 50 + quarters * 25 + dimes * 10 + nickels * 5;
if( sum <= 100 ) counter++; // here's a combination!!
}
}
}
}
You may ask, why did not I do anything about single cent coins? The answer is simple, as soon as the sum is less than 100, the rest is filled with 1 cents.
ps. hope this solution is not too simple =)
Ok, this is not a full answer but might help you.
You can try perform (what i call) a sanity check.
Put a static counter in TrieNode for every node created, and see how large it grows. If you did some calculations you should be able to tell if it goes to some insane values.
The system can limit the memory available, however it would be really bizarre. Usually the user/admin can set such limits for some purposes. This happens often in dedicated multi-user systems. Other thing could be having a 32bit app in 64bit windows environment. Then mem limit would be 4GB, however this would also be really strange. Any I don't think being limited by the OS is an issue here.
On a side note. I hope you do realize that you kinda defeated all object oriented programming concept with this code :).
I need more time to analyze your code, but for now I can tell that this is a classic Dynamic Programming problem. You may find some interesting texts here:
http://www.algorithmist.com/index.php/Coin_Change
and here
http://www.ccs.neu.edu/home/jaa/CSG713.04F/Information/Handouts/dyn_prog.pdf
There is a much easier way to find a solution:
#include <iostream>
#include <cstring>
using namespace std;
int main() {
int w[101];
memset(w, 0, sizeof(w));
w[0] = 1;
int d[] = {1, 5, 10, 25, 50};
for (int i = 0 ; i != 5 ; i++) {
for (int k = d[i] ; k <= 100 ; k++) {
w[k] += w[k-d[i]];
}
}
cout << w[100] << endl;
return 0;
}
(link to ideone)
The idea is to incrementally build the number of ways to make change by adding coins in progressively larger denomination. Each iteration of the outer loop goes through the results that we already have, and for each amount that can be constructed using the newly added coin adds the number of ways the combination that is smaller by the value of the current coin can be constructed. For example, if the current coin is 5 and the current amount is 7, the algorithm looks up the number of ways that 2 can be constructed, and adds it to the number of ways that 7 can be constructed. If the current coin is 25 and the current amount is 73, the algorithm looks up the number of ways to construct 48 (73-25) to the previously found number of ways to construct 73. In the end, the number in w[100] represents the number of ways to make one dollar (292 ways).
I really do believe someone has to put the most efficient and simple possible implementation, it is an improvement on lenik's answer:
Memory: Constant
Running time: Considering 100 as n, then running time is about O(n (lg(n))) <-I am unsure
for(int fifty=0; fifty <= 100; fifty+=50)
for(int quarters=0; quarters <= (100 - fifty); quarters+=25)
for(int dimes=0; dimes <= (100 - fifty - quarters); dimes+=10)
counter += 1 + (100 - fifty - quarters - dimes)/5;
I think this can be solved in constant time, because any sequence sum can be represented with a linear formula.
Problem might be infinite recursion. You are not incrementing c any where and loop runs with c<=100
Edit 1: I am not sure if
int c = Root->Sum+coins[i];
is actually taking it beyond 100. Please verify that
Edit 2: I missed the Sum being initialized correctly and it was corrected in the comments below.
Edit 3: Method to debug -
One more thing that you can do to help is, Write a print function for this tree or rather print on each level as it progresses deeper in the existing code. Add a counter which terminates loop after say total 10 iterations. The prints would tell you if you are getting garbage values or your c is gradually increasing in a right direction.
as the title explains this is a program to find lcm of numbers between 1 to 20. i found an algorithm to do this, here's the link
http://www.cut-the-knot.org/Curriculum/Arithmetic/LCM.shtml
there is a java applet on the webpage that might explain the algorithm better
Problem: i wrote the code compiler shows no error but when i run the code the program goes berserk, i guess may be some infinite loopig but i can't figure it out for the life of me. i use turbo c++ 4.5 so basically if anyone can look at the code and help me out it would be great . thanks in advance
Algorithm:
say we need to find lcm of 2,6,8
first we find the least of the series and add to it the number above it, i.e the series become
4,6,8
now we find the least value again and add to it the intitial value in the column i.e 2
6,6,8
so the next iteration becomes
8,6,8
8,12,8
10,12,8
10,12,16
12,12,16
14,12,16
14,18,16
16,18,16
18,18,16
18,18,24
20,18,24
20,24,24
22,24,24
24,24,24
as you can see at one point all numbers become equal which is our lcm
#include<iostream.h>
/*function to check if all the elements of an array are equal*/
int equl(int a[20], int n)
{
int i=0;
while(n==1&&i<20)
{
if (a[i]==a[i+1])
n=1;
else
n=0;
i++;
}
return n;
}
/*function to calculate lcm and return that value to main function*/
int lcm()
{
int i,k,j,check=1,a[20],b[20];
/*loading both arrays with numbers from 1 to 20*/
for(i=0;i<20;i++)
{
a[i]=i+1;
b[i]=i+1;
}
check= equl(a,1);
/*actual implementation of the algorith*/
while(check==0)
{
k=a[0]; /*looks for the least value in the array*/
for(i=0;i<20;i++)
{
if(a[i+1]<k)
{
k=a[i+1]; /*find the least value*/
j=i+1; /*mark the position in array */
}
else
continue;
}
a[j]=k+b[j]; /*adding the least value with its corresponding number*/
check= equl(a,1);
}
return (a[0]);
/*at this point all numbers in the array must be same thus any value gives us the lcm*/
}
void main()
{
int l;
l=lcm();
cout<<l;
}
In this line:
a[j]=k+b[j];
You use j but it is unitialized so it's some huge value and you are outside of the array bounds and thus you get a segmentation fault.
You also have some weird things going on in your code. void main() and you use cout without either saying std::cout or using namespace std; or something similar. An odd practice.
Also don't you think you should pass the arrays as arguments if you're going to make lcm() a function? That is int lcm(int a[], int b[]);.
You might look into using a debugger also and improving your coding practices. I found this error within 30 seconds of pasting your code into the compiler with the help of the debugger.
Your loop condition is:
while(n==1&&i<20)
So your equl function will never return 1 because if n happens to be 1 then the loop will just keep going and never return a 1.
However, your program still does not appear to return the correct result. You can split the piece of your code that finds the minimum element and replace it with this for cleanliness:
int least(int a[], int size){
int minPos = 0;
for(int i=0; i<size ;i++){
if (a[i] < a[minPos] ){
minPos = i;
}
}
return minPos;
}
Then you can call it by saying j = least(a, 20);. I will leave further work on your program to you. Consider calling your variables something meaningful instead of i,j,k,a,b.
Your equl function is using array indices from 0-20, but the arrays only have 1-19
j in lcm() is uninitialized if the first element is the smallest. It should be set to 0 at the top of the while loop
In the following code, when i=19, you are accessing a[20], which is out of the bounds of the array. Should be for(i=0;i<19;i++)
for(i=0;i<20;i++) {
if(a[i+1]<k)
You are not actually using the std namespace for the cout. this should be std::cout<<l
Your are including iostream.h. The standard is iostream without the .h, this may not work on such an old compiler tho
instead of hard-coding 20 everywhere, you should use a #define. This is not an error, just a style thing.
The following code does nothing. This is the default behavior
else
continue;