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Completed the spiralllll

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Co-authored-by: sigonasr2 <sigonasr2@gmail.com>
This commit is contained in:
sigonasr2, Sig, Sigo 2022-07-22 16:58:34 +00:00
parent 0238e107c6
commit a851568724
6 changed files with 309 additions and 50 deletions
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#include <stdio.h>
#include "utils.h"
/*
Starting with the number 1 and moving to the right in a clockwise direction a 5 by 5 spiral is formed as follows:
21 22 23 24 25
20 7 8 9 10
19 6 1 2 11
18 5 4 3 12
17 16 15 14 13
It can be verified that the sum of the numbers on the diagonals is 101.
What is the sum of the numbers on the diagonals in a 1001 by 1001 spiral formed in the same way?
https://projecteuler.net/problem=28
*/
enum dir{RIGHT,DOWN,LEFT,UP};
#define SPIRAL_SIZE 1001
int main(int argc,char**argv) {
//Move the number repeatedly in a spiral. Anytime the number in both the X and Y coordinates match, you sum.
int x=0;
int y=0;
int number=1;
long sum=0;
boolean adjust=false;
int maxCounter=1;
int counter=maxCounter;
enum dir dir=0;
while (x<=SPIRAL_SIZE/2&&y<=SPIRAL_SIZE/2&&x>=-SPIRAL_SIZE/2&&y>=-SPIRAL_SIZE/2) {
if (x==y||-x==y||x==-y||-x==-y) {
sum+=number;
printf("Added %d at (%d,%d). Sum:%ld\n",number,x,y,sum);
}
switch (dir) {
case RIGHT:{
x++;
}break;
case DOWN:{
y++;
}break;
case LEFT:{
x--;
}break;
case UP:{
y--;
}break;
}
if (--counter==0) {
if (!adjust) {
adjust=true;
} else {
adjust=false;
maxCounter++;
}
dir=(dir+1)%4;
counter=maxCounter;
}
number++;
//printf("(%d,%d)\n",x,y);
}
printf("\n\nFinal Sum:%ld",sum);
return 0;
}

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#include "utils.h"
#include <stdio.h>
#include <stdlib.h>
struct String mult(struct String numb1, struct String numb2) {
struct String n1 = numb1;
struct String n2 = numb2;
byte carryover = 0;
if (numb2.length>numb1.length) {
n1=numb2;
n2=numb1;
}
int addends[n2.length][n1.length+1];
for (int i=0;i<n2.length;i++) {
for (int j=0;j<n1.length+1;j++) {
addends[i][j]=0;
}
}
for (int i=n2.length-1;i>=0;i--) {
carryover=0;
for (int j=n1.length-1;j>=0;j--) {
int mult = (n1.str[j]-'0')*(n2.str[i]-'0')+((carryover!=0)?carryover:0);
//printf(" %d/%d\n",mult,carryover);
carryover=0;
if (mult>=10) {
carryover=mult/10;
mult=mult%10;
}
addends[(n2.length-1)-i][j+1]=mult;
}
if (carryover>0) {
addends[(n2.length-1)-i][0]=carryover;
}
}
//printIntDoubleArr(n2.length,n1.length+1,addends);
struct String sum = {1,"0"};
for (int i=0;i<n2.length;i++) {
char val[n1.length+1+i];
for (int j=0;j<n1.length+1+i;j++) {
val[j]='0';
}
for (int j=0;j<n1.length+1;j++) {
val[j]=addends[i][j]+'0';
}
sum=add((struct String){n1.length+1+i,val},sum);
//printf("%s\n",sum.str);
}
if (sum.str[0]=='0') {
char*newStr=malloc(sum.length-1);
for (int i=1;i<sum.length;i++) {
newStr[i-1]=sum.str[i];
}
free(sum.str);
sum=(struct String){sum.length-1,newStr};
}
//printf("%s",sum.str);
return sum;
}
struct String add(struct String numb1, struct String numb2){
//printf("%s %s\n",numb1.str,numb2.str);
byte carryover=0;
int digitCount=0;
char*str = malloc(1);
//str[0]='\0';
if (numb1.length>=numb2.length) {
for (int offset=0;offset<numb1.length;offset++) {
str = realloc(str,++digitCount);
//printf("Digit count is now %d\n",digitCount);
if (numb2.length>offset) {
//printf("%c %c\n",numb1.str[numb1.length-offset-1],numb2.str[numb2.length-offset-1]);
int sum=((numb1.str[numb1.length-offset-1]-'0')+(numb2.str[numb2.length-offset-1]-'0'))+((carryover>0)?carryover--:0);
if (sum>=10) {
carryover=1;
sum-=10;
}
str[offset]=sum+'0';
} else {
str[offset]=numb1.str[numb1.length-offset-1]+((carryover>0)?carryover--:0);
}
//str[offset+1]='\0';
}
} else {
for (int offset=0;offset<numb2.length;offset++) {
str = realloc(str,++digitCount);
//printf("Digit count is now %d\n",digitCount);
if (numb1.length>offset) {
//printf("%c %c\n",numb1.str[numb1.length-offset-1],numb2.str[numb2.length-offset-1]);
int sum=((numb1.str[numb1.length-offset-1]-'0')+(numb2.str[numb2.length-offset-1]-'0'))+((carryover>0)?carryover--:0);
if (sum>=10) {
carryover=1;
sum-=10;
}
str[offset]=sum+'0';
} else {
str[offset]=numb2.str[numb2.length-offset-1]+((carryover>0)?carryover--:0);
}
//str[offset+1]='\0';
}
}
if (carryover>0) {
str = realloc(str,++digitCount);
str[digitCount-1]='1';
//str[digitCount]='\0';
}
for (int i=0;i<digitCount/2;i++) {
char c = str[i];
char c2 = str[digitCount-i-1];
str[digitCount-i-1]=c;
str[i]=c2;
}
str = realloc(str,digitCount+1);
str[digitCount]='\0';
struct String newStr = {digitCount,str};
return newStr;
}
void printLongDoubleArr(int a,int b,long doubleArr[a][b]) {
for (int i=0;i<a;i++) {
for (int j=0;j<b;j++) {
printf("%ld\t",doubleArr[i][j]);
}
printf("\n");
}
}
void printIntDoubleArr(int a,int b,int doubleArr[a][b]) {
for (int i=0;i<a;i++) {
for (int j=0;j<b;j++) {
printf("%d\t",doubleArr[i][j]);
}
printf("\n");
}
}
struct String createBigNumber(char*numb) {
int marker=0;
while (numb[marker++]!='\0');
return (struct String){marker-1,numb};
}
int*getFactors(int numb) {
int*factorList=malloc(sizeof(int)*1);
int factorListSize=2;
factorList[0]=1;
factorList[1]=numb;
int max=numb;
for (int i=2;i<max;i++) {
if (numb%i==0) {
factorList=realloc(factorList,sizeof(int)*++factorListSize);
factorList[factorListSize-1]=i;
if (numb/i!=i) {
factorList=realloc(factorList,sizeof(int)*++factorListSize);
factorList[factorListSize-1]=numb/i;
max=numb/i;
}
}
}
factorList=realloc(factorList,sizeof(int)*++factorListSize);
factorList[factorListSize-1]=0;
return factorList;
}
boolean isFactor(int*factorList,int numb) {
int counter=0;
while (factorList[counter]!=0) {
if (numb==factorList[counter]) {
return true;
}
counter++;
}
return false;
}

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#define true 1
#define false 0
#define boolean char
#define byte char
struct String{
int length;
char*str;
};
struct String add(struct String numb1, struct String numb2);
struct String mult(struct String numb1, struct String numb2);
void printLongDoubleArr(int a,int b,long doubleArr[a][b]);
void printIntDoubleArr(int a,int b,int doubleArr[a][b]);
struct String createBigNumber(char*numb);
#define BigNumber(X) createBigNumber(#X)
boolean isFactor(int*factorList,int numb);
int*getFactors(int numb);

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#include "utils.h" #include "utils.h"
/* /*
Euler discovered the remarkable quadratic formula: Starting with the number 1 and moving to the right in a clockwise direction a 5 by 5 spiral is formed as follows:
21 22 23 24 25
20 7 8 9 10
19 6 1 2 11
18 5 4 3 12
17 16 15 14 13
It turns out that the formula will produce 40 primes for the consecutive integer values . However, when is divisible by 41, and certainly when is clearly divisible by 41. It can be verified that the sum of the numbers on the diagonals is 101.
The incredible formula was discovered, which produces 80 primes for the consecutive values . The product of the coefficients, 79 and 1601, is 126479. What is the sum of the numbers on the diagonals in a 1001 by 1001 spiral formed in the same way?
Considering quadratics of the form: https://projecteuler.net/problem=28
, where and
where is the modulus/absolute value of
e.g. and
Find the product of the coefficients, and , for the quadratic expression that produces the maximum number of primes for consecutive values of , starting with .
https://projecteuler.net/problem=27
*/ */
enum dir{RIGHT,DOWN,LEFT,UP};
#define SPIRAL_SIZE 1001
int main(int argc,char**argv) { int main(int argc,char**argv) {
FILE*f = fopen("archives/primegenerator/primes","r"); //Move the number repeatedly in a spiral. Anytime the number in both the X and Y coordinates match, you sum.
int startMarker=0; int x=0;
while (fgetc(f)!='{') { int y=0;
startMarker++; int number=1;
long sum=0;
boolean adjust=false;
int maxCounter=1;
int counter=maxCounter;
enum dir dir=0;
while (x<=SPIRAL_SIZE/2&&y<=SPIRAL_SIZE/2&&x>=-SPIRAL_SIZE/2&&y>=-SPIRAL_SIZE/2) {
if (x==y||-x==y||x==-y||-x==-y) {
sum+=number;
printf("Added %d at (%d,%d). Sum:%ld\n",number,x,y,sum);
} }
int primes[2500]; switch (dir) {
char c; case RIGHT:{
int counter=0; x++;
while (counter<2500) { }break;
int digit=0; case DOWN:{
while ((c=fgetc(f))!=',') { y++;
digit*=10; }break;
digit+=c-'0'; case LEFT:{
x--;
}break;
case UP:{
y--;
}break;
} }
primes[counter++]=digit; if (--counter==0) {
if (!adjust) {
adjust=true;
} else {
adjust=false;
maxCounter++;
} }
int n=0; dir=(dir+1)%4;
counter=maxCounter;
int maxLength=0;
int maxA=0;
int maxB=0;
for (int a=-999;a<1000;a++) {
for (int b=-999;b<=1000;b++) {
for (int p=0;p<2500;p++) {
if (n*n+a*n+b==primes[p]) {
n++;
p=0;
} }
number++;
//printf("(%d,%d)\n",x,y);
} }
if (n>maxLength) { printf("\n\nFinal Sum:%ld",sum);
maxLength=n;
maxA=a;
maxB=b;
printf("New max of %d found with n^2+%dn+%d\n",maxLength,maxA,maxB);
}
n=0;
}
}
printf("\n\nProduct of maxes (%d*%d)=%ld\n",maxA,maxB,(long)maxA*maxB);
return 0; return 0;
} }