p_id
stringlengths 6
6
| language
stringclasses 10
values | status
stringclasses 2
values | code
stringlengths 1
563k
| prompt
stringlengths 113
563k
| answer
stringclasses 2
values |
|---|---|---|---|---|---|
p00000 | C | Compile Error | #include <stdio.h>
int main(int argc, const char * argv[]) {
for(int i=1; i<=9; i++){
for(int j=1; j<=9; j++){
printf("%dx%d=%d", i, j, i*j);
printf("\n");
}
}
return 0;
} | Here is a piece of code written in C:
#include <stdio.h>
int main(int argc, const char * argv[]) {
for(int i=1; i<=9; i++){
for(int j=1; j<=9; j++){
printf("%dx%d=%d", i, j, i*j);
printf("\n");
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include <stdio.h>
int main() {
for(int i=1; i<=9; i++){
for(int j=1; j<=9; j++){
printf("%dx%d=%d", i, j, i*j);
printf("\n");
}
}
return 0;
} | Here is a piece of code written in C:
#include <stdio.h>
int main() {
for(int i=1; i<=9; i++){
for(int j=1; j<=9; j++){
printf("%dx%d=%d", i, j, i*j);
printf("\n");
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include <stdio.h>
int main() {
for(int i=1; i<=9; i++){
for(int j=1; j<=9; j++){
printf("%d x %d = %d", i, j, i*j);
printf("\n");
}
}
return 0;
} | Here is a piece of code written in C:
#include <stdio.h>
int main() {
for(int i=1; i<=9; i++){
for(int j=1; j<=9; j++){
printf("%d x %d = %d", i, j, i*j);
printf("\n");
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | include<stdio.h>
define MAX 9
int main(){
int x,y;
int i;
for(i=1;i<=MAX;i<1){
for(j=1;j<=MAX;j<1){
printf(%dx%d=%d,i,j,i*j);
}
}
return 0;
} | Here is a piece of code written in C:
include<stdio.h>
define MAX 9
int main(){
int x,y;
int i;
for(i=1;i<=MAX;i<1){
for(j=1;j<=MAX;j<1){
printf(%dx%d=%d,i,j,i*j);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
define MAX 9
int main(){
int x,y;
int i;
for(i=1;i<=MAX;i<1){
for(j=1;j<=MAX;j<1){
printf("%dx%d=%d",i,j,i*j);
}
}
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
define MAX 9
int main(){
int x,y;
int i;
for(i=1;i<=MAX;i<1){
for(j=1;j<=MAX;j<1){
printf("%dx%d=%d",i,j,i*j);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
define MAX 9;
int main(){
int x,y;
int i;
for(i=1;i<=MAX;i<1){
for(j=1;j<=MAX;j<1){
printf("%dx%d=%d\n",i,j,i*j);
}
}
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
define MAX 9;
int main(){
int x,y;
int i;
for(i=1;i<=MAX;i<1){
for(j=1;j<=MAX;j<1){
printf("%dx%d=%d\n",i,j,i*j);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main(){
for (int a=1; a <= 9; a++){
for (int b=1; b <= 9; b++){
printf("%dx%d=%d\n", a, b, a*b);
}
}
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int main(){
for (int a=1; a <= 9; a++){
for (int b=1; b <= 9; b++){
printf("%dx%d=%d\n", a, b, a*b);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main(void){
for(int i=1;i<10;i++){
for(int j=1;j<10;j++){
printf("%dx%d=%d\n",i,j,i*j);
}
}
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int main(void){
for(int i=1;i<10;i++){
for(int j=1;j<10;j++){
printf("%dx%d=%d\n",i,j,i*j);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main(void){
for(int i=1;i<10;i++){
for(int j=1;j<10;j++){
printf("%dx%d=%d\n",i,j,i*j);
}
}
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int main(void){
for(int i=1;i<10;i++){
for(int j=1;j<10;j++){
printf("%dx%d=%d\n",i,j,i*j);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main(){
for (int a=1; a <= 9; a++){
for (int b=1; b <= 9; b++){
printf("%dx%d=%d\n", a, b, a*b);
}
}
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int main(){
for (int a=1; a <= 9; a++){
for (int b=1; b <= 9; b++){
printf("%dx%d=%d\n", a, b, a*b);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main(){
int i, j; // loop counter
for(i=1;i<=9;i++){
for(j=1;j<=9;j++){
printf("%dx%d=%d\n", i, j, i*j);
}
}
return 0; | Here is a piece of code written in C:
#include<stdio.h>
int main(){
int i, j; // loop counter
for(i=1;i<=9;i++){
for(j=1;j<=9;j++){
printf("%dx%d=%d\n", i, j, i*j);
}
}
return 0;
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main () {
int a,b,c ;
for (a=1;a<10;a++){
for (b=1;b<10;b++){
c=a*b;
printf("%dx%d=%d\n"a,b,c);
}
}
return 0 ;
} | Here is a piece of code written in C:
#include<stdio.h>
int main () {
int a,b,c ;
for (a=1;a<10;a++){
for (b=1;b<10;b++){
c=a*b;
printf("%dx%d=%d\n"a,b,c);
}
}
return 0 ;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<iostream>
using namespace std;
int main(){
for(int i=1;i<10;i++){
for(int j=1;j<=i;j++)
cout<<j<<"*"<<i<<"="<<i*j<<"\n";
}
return 0;
} | Here is a piece of code written in C:
#include<iostream>
using namespace std;
int main(){
for(int i=1;i<10;i++){
for(int j=1;j<=i;j++)
cout<<j<<"*"<<i<<"="<<i*j<<"\n";
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include <stdio.h>
int main(void){
for(int i=1;i==9;i++){
for(int j=1;j==10;j++){
printf("%dx%d=%d",i,j,i*j);
}
}
return 0;
} | Here is a piece of code written in C:
#include <stdio.h>
int main(void){
for(int i=1;i==9;i++){
for(int j=1;j==10;j++){
printf("%dx%d=%d",i,j,i*j);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
main()
{
int a,b,c;
a=1;
b=1;
for(;a<10;a++){
for(;b<10;b++){
C=a*b;
printf("%dx%d=%d",a,b,c);
}
}
} | Here is a piece of code written in C:
#include<stdio.h>
main()
{
int a,b,c;
a=1;
b=1;
for(;a<10;a++){
for(;b<10;b++){
C=a*b;
printf("%dx%d=%d",a,b,c);
}
}
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
main()
{
int a,b,c;
a=1;
b=1;
for(;a<10;a++){
for(;b<10;b++){
C=a*b;
printf("%dx%d=%d",a,b,c);
}
}
} | Here is a piece of code written in C:
#include<stdio.h>
main()
{
int a,b,c;
a=1;
b=1;
for(;a<10;a++){
for(;b<10;b++){
C=a*b;
printf("%dx%d=%d",a,b,c);
}
}
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | include<stdio.h>
int main(){
int i,j,k;
for(i=1;i<=9;i++){
for(j=1;j<=9;j++){
k=i*j;
printf("%dx%d=%d\n",i,j,k);
}
}
return 0;
}
| Here is a piece of code written in C:
include<stdio.h>
int main(){
int i,j,k;
for(i=1;i<=9;i++){
for(j=1;j<=9;j++){
k=i*j;
printf("%dx%d=%d\n",i,j,k);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main(){
int i=0;
for(i=1;i<10;i++){
for(j=1;j<10;j++){
printf("%dx%d=%d\n",i,,i*j);
}
}
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int main(){
int i=0;
for(i=1;i<10;i++){
for(j=1;j<10;j++){
printf("%dx%d=%d\n",i,,i*j);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
void Kakezan(int x) {
int a;
for (int i = 1; i <= 9; i++) {
a = x * i;
printf("%dx%d=%d\n", x, i, a);
}
}
int main() {
for (int k = 1; k <= 9; k++) {
Kakezan(k);
}
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
void Kakezan(int x) {
int a;
for (int i = 1; i <= 9; i++) {
a = x * i;
printf("%dx%d=%d\n", x, i, a);
}
}
int main() {
for (int k = 1; k <= 9; k++) {
Kakezan(k);
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main(){
int i,n;
for(i=1;1=<9;i++){
for(n=1;n=<9;n++){
printf("%dx%d\n",i,n,1*n);
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int main(){
int i,n;
for(i=1;1=<9;i++){
for(n=1;n=<9;n++){
printf("%dx%d\n",i,n,1*n);
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main(){
int i,n;
for(i=1;1<=9;i++){
for(n=1;n<=9;n++){
printf("%dx%d\n",i,n,1*n);
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int main(){
int i,n;
for(i=1;1<=9;i++){
for(n=1;n<=9;n++){
printf("%dx%d\n",i,n,1*n);
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main(){
int i,n;
for(i=1;1<=9;i++){
for(n=1;n<=9;n++){
printf("%dx%d=\n",i,n,1*n);
}
]
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int main(){
int i,n;
for(i=1;1<=9;i++){
for(n=1;n<=9;n++){
printf("%dx%d=\n",i,n,1*n);
}
]
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main(){
int i,n;
for(i=1;1<=9;i++){
for(n=1;n<=9;n++){
printf("%dx%d=%d\n",i,n,1*n);
}
]
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int main(){
int i,n;
for(i=1;1<=9;i++){
for(n=1;n<=9;n++){
printf("%dx%d=%d\n",i,n,1*n);
}
]
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include <stdio.h>
int main(){
for(int i = 1; i < 10; ++i){
for(int j = 1; j < 10; ++j){
printf("%dx%d=%d\n", i, j, i*j);
}
}
return 0;
} | Here is a piece of code written in C:
#include <stdio.h>
int main(){
for(int i = 1; i < 10; ++i){
for(int j = 1; j < 10; ++j){
printf("%dx%d=%d\n", i, j, i*j);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | include<stdio.h>
int main(){
int i=1, j=1;
for ( i=1; i<10;i++){
for ( j=1; j<10;j++){
printf("%dx%d=%d\n",i,j,i*j);
}
}
return 0;
} | Here is a piece of code written in C:
include<stdio.h>
int main(){
int i=1, j=1;
for ( i=1; i<10;i++){
for ( j=1; j<10;j++){
printf("%dx%d=%d\n",i,j,i*j);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | include<stdio.h>
int main(){
int i=1, j=1;
for ( i=1; i<10;i++){
for ( j=1; j<10;j++){
printf("%dx%d=%d\n",i,j,i*j);
}
}
return 0;
} | Here is a piece of code written in C:
include<stdio.h>
int main(){
int i=1, j=1;
for ( i=1; i<10;i++){
for ( j=1; j<10;j++){
printf("%dx%d=%d\n",i,j,i*j);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | include<stdio.h>
int main(){
int i=1, j=1;
for ( i=1; i<10;i++){
for ( j=1; j<10;j++){
printf("%d x %d = %d\n",i,j,i*j);
}
}
return 0;
} | Here is a piece of code written in C:
include<stdio.h>
int main(){
int i=1, j=1;
for ( i=1; i<10;i++){
for ( j=1; j<10;j++){
printf("%d x %d = %d\n",i,j,i*j);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | include<stdio.h>
int main(){
int i=1;
int j=1;
for ( i=1; i<10;i++)
for ( j=1; j<10;j++)
printf("%d x %d = %d\n",i,j,i*j);
return 0;
} | Here is a piece of code written in C:
include<stdio.h>
int main(){
int i=1;
int j=1;
for ( i=1; i<10;i++)
for ( j=1; j<10;j++)
printf("%d x %d = %d\n",i,j,i*j);
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main(){
for(int i=1;i<10;i++){
for(int j=1;j<10;j++){
printf("%dx%d=%d\n",i,j,i*j);
}
}
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int main(){
for(int i=1;i<10;i++){
for(int j=1;j<10;j++){
printf("%dx%d=%d\n",i,j,i*j);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main(){
int i,height[10]={0};
int top[3]={0};
for(i=0;i<10;i++){
scanf("%d",&height[i]);
if(top[0]<height[i])top[0]=height[i];
else if(top[1]<hegith[i])top[1]=height[i];
else if(top[2]<hegith[i])top[2]=height[i];
}
for(i=0;i<3;i++)printf("%d",top[i]);
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int main(){
int i,height[10]={0};
int top[3]={0};
for(i=0;i<10;i++){
scanf("%d",&height[i]);
if(top[0]<height[i])top[0]=height[i];
else if(top[1]<hegith[i])top[1]=height[i];
else if(top[2]<hegith[i])top[2]=height[i];
}
for(i=0;i<3;i++)printf("%d",top[i]);
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int MAX_X = 9;
int MAX_Y = 9;
int main ( int argc, char **argv )
{
for ( int x = 1; x <= MAX_X; x++ ) {
for ( int y = 1; y <= MAX_Y; y++ ) {
printf("%dx%d=%d\n", x, y, ( x * y ));
}
}
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int MAX_X = 9;
int MAX_Y = 9;
int main ( int argc, char **argv )
{
for ( int x = 1; x <= MAX_X; x++ ) {
for ( int y = 1; y <= MAX_Y; y++ ) {
printf("%dx%d=%d\n", x, y, ( x * y ));
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main(){
for(int i=0;i<9;i++){
for(int j=0;j<9;j++){
printf("%dx%d=%d\n",i,j,i*j);
}
}
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int main(){
for(int i=0;i<9;i++){
for(int j=0;j<9;j++){
printf("%dx%d=%d\n",i,j,i*j);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include <stdio.h>
int main(){
for(int i = 1; i < 10; i++){
for(int j = 1; j < 10; j++){
printf("%dx%d=%d\n",i,j,i * j);
}
}
return 0;
} | Here is a piece of code written in C:
#include <stdio.h>
int main(){
for(int i = 1; i < 10; i++){
for(int j = 1; j < 10; j++){
printf("%dx%d=%d\n",i,j,i * j);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include <stdio.h>
int main(void){
int i,j;
for(I=1;i<=9;i++){
for(j=1;j<=9;j++){
printf("%d*%d=%d",i,j,i*j);
}
}
return 0;
} | Here is a piece of code written in C:
#include <stdio.h>
int main(void){
int i,j;
for(I=1;i<=9;i++){
for(j=1;j<=9;j++){
printf("%d*%d=%d",i,j,i*j);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include <stdio.h>
int main(void){
// Here your code !
for(int i=1;i<10;i++){
for(int j=1;j<10;j++){
printf("%dx%d=%d\n",i,j,i*j);
}
}
return 0;
} | Here is a piece of code written in C:
#include <stdio.h>
int main(void){
// Here your code !
for(int i=1;i<10;i++){
for(int j=1;j<10;j++){
printf("%dx%d=%d\n",i,j,i*j);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include <stdio.h>
int main(void){
// Here your code !
for(int i=1;i<10;i++){
for(int j=1;j<10;j++){
printf("%dx%d=%d\n",i,j,i*j);
}
}
return 0;
}
#include <stdio.h>
int main(void){
// Here your code !
int i,j;
for(i=1;i<10;i++){
for(j=1;j<10;j++){
printf("%dx%d=%d\n",i,j,i*j);
}
}
return 0;
} | Here is a piece of code written in C:
#include <stdio.h>
int main(void){
// Here your code !
for(int i=1;i<10;i++){
for(int j=1;j<10;j++){
printf("%dx%d=%d\n",i,j,i*j);
}
}
return 0;
}
#include <stdio.h>
int main(void){
// Here your code !
int i,j;
for(i=1;i<10;i++){
for(j=1;j<10;j++){
printf("%dx%d=%d\n",i,j,i*j);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main(){
int a, b;
for(a = 1; a < 10; a++){
for(b = 1; b < 10; b++){
printf("%d"&"x"&"%d"&"="&"%d", a, b,a*b);
}
}
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int main(){
int a, b;
for(a = 1; a < 10; a++){
for(b = 1; b < 10; b++){
printf("%d"&"x"&"%d"&"="&"%d", a, b,a*b);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main(){
int a, b;
for(a = 1; a < 10; a++){
for(b = 1; b < 10; b++){
printf("%d"+"x"+"%d"+"="+"%d\n", a, b,a*b);
}
}
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int main(){
int a, b;
for(a = 1; a < 10; a++){
for(b = 1; b < 10; b++){
printf("%d"+"x"+"%d"+"="+"%d\n", a, b,a*b);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include <stdio.h>
int main(void)
{
int i,j;
for (i = 1;i < 10;i++){
for (j = 0;j < 10:j++){
printf("%dx%d=%d\n",i,j,i*j);
}
}
return(0);
} | Here is a piece of code written in C:
#include <stdio.h>
int main(void)
{
int i,j;
for (i = 1;i < 10;i++){
for (j = 0;j < 10:j++){
printf("%dx%d=%d\n",i,j,i*j);
}
}
return(0);
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include <stdio.h>
int main(void) {
int i,n;
fot(i=1;i<10;i++){
for(n=1;n<10;n++){
printf("%dx%d=%d",i,n,i*n );
}
}
return 0;
} | Here is a piece of code written in C:
#include <stdio.h>
int main(void) {
int i,n;
fot(i=1;i<10;i++){
for(n=1;n<10;n++){
printf("%dx%d=%d",i,n,i*n );
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main(){
int i,j;
for(i=0; i < 9; i++){
for(j=0; j < 9, j++){
printf("%dx%d=%d", i, j, i*j)
}
}
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int main(){
int i,j;
for(i=0; i < 9; i++){
for(j=0; j < 9, j++){
printf("%dx%d=%d", i, j, i*j)
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main(){
int i,j;
for(i=0; i < 9; i++){
for(j=0; j < 9, j++){
printf("%dx%d=%d", i, j, i*j);
}
}
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int main(){
int i,j;
for(i=0; i < 9; i++){
for(j=0; j < 9, j++){
printf("%dx%d=%d", i, j, i*j);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main(void)
{
int a,b;
for(a = 1 ; a < 10 ; a++){
for(b = 1 ; b < 10 ; b++{
printf("%d x %d = %d\n",a,b,a*b);
}
}
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int main(void)
{
int a,b;
for(a = 1 ; a < 10 ; a++){
for(b = 1 ; b < 10 ; b++{
printf("%d x %d = %d\n",a,b,a*b);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include <stdio.h>
int main(void){
for(int i = 1; i <= 9; i++){
for(int j = 1; j <= 9; j++){
printf("%dx%d=%d\n", i, j, i*j);
}
}
return 0;
} | Here is a piece of code written in C:
#include <stdio.h>
int main(void){
for(int i = 1; i <= 9; i++){
for(int j = 1; j <= 9; j++){
printf("%dx%d=%d\n", i, j, i*j);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main(){
int ii = 0;
int ij = 0;
int iAns = 0;
for(ii=1; ii<10; ii++){
for(ij=1; ij<10 ij++){
iAns = ii * ij;
printf("%dx%d=%d" ,ii ,ij ,iAns);
ij++;
}
ii++;
}
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int main(){
int ii = 0;
int ij = 0;
int iAns = 0;
for(ii=1; ii<10; ii++){
for(ij=1; ij<10 ij++){
iAns = ii * ij;
printf("%dx%d=%d" ,ii ,ij ,iAns);
ij++;
}
ii++;
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include <stdio.h>
int main(void)
{
for(int i = 1; i < 9; ++i)
{
for(int j = 1; j < 9; ++j)
{
printf("%d*%d=%d\n",i,j,i*j);
}
}
return 0;
} | Here is a piece of code written in C:
#include <stdio.h>
int main(void)
{
for(int i = 1; i < 9; ++i)
{
for(int j = 1; j < 9; ++j)
{
printf("%d*%d=%d\n",i,j,i*j);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include <stdio.h>
int main(void)
{
for(int i = 1; i < 10; ++i)
{
for(int j = 1; j < 10; ++j)
{
printf("%dx%d=%d\n",i,j,i*j);
}
}
return 0;
} | Here is a piece of code written in C:
#include <stdio.h>
int main(void)
{
for(int i = 1; i < 10; ++i)
{
for(int j = 1; j < 10; ++j)
{
printf("%dx%d=%d\n",i,j,i*j);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
#include<stidlib.j>
int main(){
int total = 0;
for(int i = 1; i <=9; i++){
for(int j = 1; j <= 9; j++){
total = i * j;
printf("%dx%d=%d", i, j, total);
}
}
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
#include<stidlib.j>
int main(){
int total = 0;
for(int i = 1; i <=9; i++){
for(int j = 1; j <= 9; j++){
total = i * j;
printf("%dx%d=%d", i, j, total);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
#include<stidlib.h>
int main(){
int total = 0;
for(int i = 1; i <=9; i++){
for(int j = 1; j <= 9; j++){
total = i * j;
printf("%dx%d=%d", i, j, total);
}
}
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
#include<stidlib.h>
int main(){
int total = 0;
for(int i = 1; i <=9; i++){
for(int j = 1; j <= 9; j++){
total = i * j;
printf("%dx%d=%d", i, j, total);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
#include<stdlib.h>
int main(){
int total = 0;
for(int i = 1; i <=9; i++){
for(int j = 1; j <= 9; j++){
total = i * j;
printf("%dx%d=%d\n", i, j, total);
}
}
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
#include<stdlib.h>
int main(){
int total = 0;
for(int i = 1; i <=9; i++){
for(int j = 1; j <= 9; j++){
total = i * j;
printf("%dx%d=%d\n", i, j, total);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main() {
for (int i = 1; i <= 9; i++)
for (int j = 1; j <= 9; j++)
printf("%dx%d=%d\n", i, j, i*j);
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int main() {
for (int i = 1; i <= 9; i++)
for (int j = 1; j <= 9; j++)
printf("%dx%d=%d\n", i, j, i*j);
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main()
{
int i,j;
for(i=0;i<=9;i++)
for(j=0;j<=9;j++)
printf("%dx%d=%d\n",i,n,i*n);
return 0;
}
| Here is a piece of code written in C:
#include<stdio.h>
int main()
{
int i,j;
for(i=0;i<=9;i++)
for(j=0;j<=9;j++)
printf("%dx%d=%d\n",i,n,i*n);
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main()
{
int i,j;
for(i=0;i<=9;i++)
for(j=0;j<=9;j++)
printf("%dx%d=%d\n",i,n,i*n);
return 0;
}
| Here is a piece of code written in C:
#include<stdio.h>
int main()
{
int i,j;
for(i=0;i<=9;i++)
for(j=0;j<=9;j++)
printf("%dx%d=%d\n",i,n,i*n);
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main()
{
int i,j;
for(i=0;i<=9;i++)
for(j=0;j<=9;j++)
printf("%dx%d=%d\n",i,n,i*n);
return 0;
}
| Here is a piece of code written in C:
#include<stdio.h>
int main()
{
int i,j;
for(i=0;i<=9;i++)
for(j=0;j<=9;j++)
printf("%dx%d=%d\n",i,n,i*n);
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main()
{
int i.j;
for(i=1;i<=9;i++)
for(j=1;j<=9;j++)
printf("%dX%d=%d",i,j,i*j);
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int main()
{
int i.j;
for(i=1;i<=9;i++)
for(j=1;j<=9;j++)
printf("%dX%d=%d",i,j,i*j);
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | //QQ
#include<stdio.h>
int main(){
int a,b;
for (a=1,a<10,a++){
for(b=1,b<10,b++){
printf("%dx%d=%d\n",a,b,a*b);}}
return 0;
} | Here is a piece of code written in C:
//QQ
#include<stdio.h>
int main(){
int a,b;
for (a=1,a<10,a++){
for(b=1,b<10,b++){
printf("%dx%d=%d\n",a,b,a*b);}}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main(){
int x,y,ans,i;
x=0;
z=0;
while (1) {
y=0;
if (ans==81) {
break;
}
x=x+1;
for (i = 0; i <9; i++) {
y=y+1;
ans=x*y;
printf("%d*%d=%d\n",x,y,ans);
}
}
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int main(){
int x,y,ans,i;
x=0;
z=0;
while (1) {
y=0;
if (ans==81) {
break;
}
x=x+1;
for (i = 0; i <9; i++) {
y=y+1;
ans=x*y;
printf("%d*%d=%d\n",x,y,ans);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main(){
int x,y,ans,i;
x=0;
z=0;
while (1) {
y=0;
if (ans==81) {
break;
}
x=x+1;
for (i = 0; i <9; i++) {
y=y+1;
ans=x*y;
printf("%dx%d=%d\n",x,y,ans);
}
}
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int main(){
int x,y,ans,i;
x=0;
z=0;
while (1) {
y=0;
if (ans==81) {
break;
}
x=x+1;
for (i = 0; i <9; i++) {
y=y+1;
ans=x*y;
printf("%dx%d=%d\n",x,y,ans);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include <stdio.h>
int main(){
int i,j;
for(i=1;i<<10;i++){
for(j=1;j<<10;j++){
a = i * j;
printf("%d*%d=%d",i,j,a);
}
}
return 0;
} | Here is a piece of code written in C:
#include <stdio.h>
int main(){
int i,j;
for(i=1;i<<10;i++){
for(j=1;j<<10;j++){
a = i * j;
printf("%d*%d=%d",i,j,a);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include <stdio.h>
int main(){
int i,j;
for(i=1;i<<10;i++){
for(j=1;j<<10;j++){
printf("%d*%d=",i,j);
a = i * j;
printf("%d\n",a);
}
}
return 0;
} | Here is a piece of code written in C:
#include <stdio.h>
int main(){
int i,j;
for(i=1;i<<10;i++){
for(j=1;j<<10;j++){
printf("%d*%d=",i,j);
a = i * j;
printf("%d\n",a);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main(){
int ans,i,j;
for(i=1; i<10; i++){
for(j=1; j<10; j++){
ans = i*j;
printf("%d x %d = %d\n",i,j,ans);
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int main(){
int ans,i,j;
for(i=1; i<10; i++){
for(j=1; j<10; j++){
ans = i*j;
printf("%d x %d = %d\n",i,j,ans);
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main()
{
int i,j;
for(i=1;i<10;i++)
for(j=1;j<10;j++)
{
printf("%d*%d=%d\n",i,j,i*j);
}
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int main()
{
int i,j;
for(i=1;i<10;i++)
for(j=1;j<10;j++)
{
printf("%d*%d=%d\n",i,j,i*j);
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main(){
int j,k;
for(j=1;j<10;j++){
for(k=1;k<10;k++){
printf("%dx%d=%d\n",j,k,j*k)
}
}
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int main(){
int j,k;
for(j=1;j<10;j++){
for(k=1;k<10;k++){
printf("%dx%d=%d\n",j,k,j*k)
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main(){
int i=0;
printf("%nx%n=%n\n", i,i,i*i)
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int main(){
int i=0;
printf("%nx%n=%n\n", i,i,i*i)
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main(){
int i=0;
printf("%n \bx%n=%n\n", i,i,i*i)
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int main(){
int i=0;
printf("%n \bx%n=%n\n", i,i,i*i)
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | object Main {
def main(args: Array[String]): Unit = {
for (i <- 1 to 9; j <- 1 to 9)
println(i + "x" + j + "=" + i * j)
}
} | Here is a piece of code written in C:
object Main {
def main(args: Array[String]): Unit = {
for (i <- 1 to 9; j <- 1 to 9)
println(i + "x" + j + "=" + i * j)
}
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main(void){
int i;
for(i=1;i<10;i++){
printf("%dx%d=%d\n",i,i,i*i)
}
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int main(void){
int i;
for(i=1;i<10;i++){
printf("%dx%d=%d\n",i,i,i*i)
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main(){
int i;
for(i=1;i<10;i++){
printf("%dx%d=%d",i,i,i*i);
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int main(){
int i;
for(i=1;i<10;i++){
printf("%dx%d=%d",i,i,i*i);
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | object Main {
def main(args: Array[String]): Unit = {
for (i <- 1 to 9; j <- 1 to 9)
println(i + "x" + j + "=" + i * j)
}
} | Here is a piece of code written in C:
object Main {
def main(args: Array[String]): Unit = {
for (i <- 1 to 9; j <- 1 to 9)
println(i + "x" + j + "=" + i * j)
}
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | object Main {
def main(args: Array[String]): Unit = {
for (i <- 1 to 9; j <- 1 to 9)
println(i + "x" + j + "=" + i * j)
}
} | Here is a piece of code written in C:
object Main {
def main(args: Array[String]): Unit = {
for (i <- 1 to 9; j <- 1 to 9)
println(i + "x" + j + "=" + i * j)
}
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | object Main {
def main(args: Array[String]): Unit = {
for (i <- 1 to 9; j <- 1 to 9)
println(i + "x" + j + "=" + i * j)
}
} | Here is a piece of code written in C:
object Main {
def main(args: Array[String]): Unit = {
for (i <- 1 to 9; j <- 1 to 9)
println(i + "x" + j + "=" + i * j)
}
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | object Main {
def main(args: Array[String]): Unit = {
for (i <- 1 to 9; j <- 1 to 9)
println(i + "x" + j + "=" + i * j)
}
} | Here is a piece of code written in C:
object Main {
def main(args: Array[String]): Unit = {
for (i <- 1 to 9; j <- 1 to 9)
println(i + "x" + j + "=" + i * j)
}
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main(){
int i,j;
for(i=0;i<10;i++){
for(j=0;j<10;j++)
printf("%dx%d=%d\n",i,j,i*j)
}
}
retun 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int main(){
int i,j;
for(i=0;i<10;i++){
for(j=0;j<10;j++)
printf("%dx%d=%d\n",i,j,i*j)
}
}
retun 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | int n = 10;
for (int i = 1; i < n; i++) {
for (int j = 1; j < n; j++ ) {
printf("%d*%d=%d\n", i, j, i*j);
}
} | Here is a piece of code written in C:
int n = 10;
for (int i = 1; i < n; i++) {
for (int j = 1; j < n; j++ ) {
printf("%d*%d=%d\n", i, j, i*j);
}
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | int main(void)
{
int i, j;
while(i = 1; i < 10; i++){
while(j = 1; j < 10; j++){
printf("%dx%d=%d", i, j, i*j);
if ((i != 9)&&(j != 9)){printf("\n");}
}
}
return 0;
} | Here is a piece of code written in C:
int main(void)
{
int i, j;
while(i = 1; i < 10; i++){
while(j = 1; j < 10; j++){
printf("%dx%d=%d", i, j, i*j);
if ((i != 9)&&(j != 9)){printf("\n");}
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | int main(void)
{
int i, j;
while (i = 1; i < 10; i++) {
while (j = 1; j < 10; j++) {
printf("%dx%d=%d", i, j, i*j);
if ((i != 9)&&(j != 9)){printf("\n");}
}
}
return 0;
} | Here is a piece of code written in C:
int main(void)
{
int i, j;
while (i = 1; i < 10; i++) {
while (j = 1; j < 10; j++) {
printf("%dx%d=%d", i, j, i*j);
if ((i != 9)&&(j != 9)){printf("\n");}
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main(void){
int i;j;
for(i=1;i<=9;i++){
for(j=1;j<=9;j++){
printf("%dx%d=%d\n",i,j,i*j);
}
}
return(0);
} | Here is a piece of code written in C:
#include<stdio.h>
int main(void){
int i;j;
for(i=1;i<=9;i++){
for(j=1;j<=9;j++){
printf("%dx%d=%d\n",i,j,i*j);
}
}
return(0);
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
main(){
int a, b, c;
for(a = 1; a < 10; a++){
for(b = 1; b < 10; b++){
printf("%dx%d=%d\n", a, b, a * b)
}
}
} | Here is a piece of code written in C:
#include<stdio.h>
main(){
int a, b, c;
for(a = 1; a < 10; a++){
for(b = 1; b < 10; b++){
printf("%dx%d=%d\n", a, b, a * b)
}
}
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
typedef S4 int
#define START_NUM (1)
#define END_NUM (9)
int main(){
S4 s4_t_i;
S4 s4_t_j;
S4 s4_t_result;
for(s4_t_i = (S4)START_NUM; s4_t_i < (S4)END_NUM; s4_t_i++)
{
for(s4_t_j = (S4)START_NUM; s4_t_j < (S4)END_NUM; s4_t_j++)
{
s4_t_result = s4_t_i * s4_t_j;
printf("%dx%d=%d\n", s4_t_i, s4_t_j, s4_t_result);
}
}
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
typedef S4 int
#define START_NUM (1)
#define END_NUM (9)
int main(){
S4 s4_t_i;
S4 s4_t_j;
S4 s4_t_result;
for(s4_t_i = (S4)START_NUM; s4_t_i < (S4)END_NUM; s4_t_i++)
{
for(s4_t_j = (S4)START_NUM; s4_t_j < (S4)END_NUM; s4_t_j++)
{
s4_t_result = s4_t_i * s4_t_j;
printf("%dx%d=%d\n", s4_t_i, s4_t_j, s4_t_result);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
typedef int S4
#define START_NUM (1)
#define END_NUM (9)
S4 main(){
S4 s4_t_i;
S4 s4_t_j;
S4 s4_t_result;
for(s4_t_i = (S4)START_NUM; s4_t_i < (S4)END_NUM; s4_t_i++)
{
for(s4_t_j = (S4)START_NUM; s4_t_j < (S4)END_NUM; s4_t_j++)
{
s4_t_result = s4_t_i * s4_t_j;
printf("%dx%d=%d\n", s4_t_i, s4_t_j, s4_t_result);
}
}
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
typedef int S4
#define START_NUM (1)
#define END_NUM (9)
S4 main(){
S4 s4_t_i;
S4 s4_t_j;
S4 s4_t_result;
for(s4_t_i = (S4)START_NUM; s4_t_i < (S4)END_NUM; s4_t_i++)
{
for(s4_t_j = (S4)START_NUM; s4_t_j < (S4)END_NUM; s4_t_j++)
{
s4_t_result = s4_t_i * s4_t_j;
printf("%dx%d=%d\n", s4_t_i, s4_t_j, s4_t_result);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
typedef int S4
#define START_NUM (1)
#define END_NUM (9)
S4 main(){
S4 s4_t_i;
S4 s4_t_j;
S4 s4_t_result;
for(s4_t_i = (S4)START_NUM; s4_t_i < (S4)END_NUM; s4_t_i++)
{
for(s4_t_j = (S4)START_NUM; s4_t_j < (S4)END_NUM; s4_t_j++)
{
s4_t_result = s4_t_i * s4_t_j;
printf("%dx%d=%d\n", s4_t_i, s4_t_j, s4_t_result);
}
}
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
typedef int S4
#define START_NUM (1)
#define END_NUM (9)
S4 main(){
S4 s4_t_i;
S4 s4_t_j;
S4 s4_t_result;
for(s4_t_i = (S4)START_NUM; s4_t_i < (S4)END_NUM; s4_t_i++)
{
for(s4_t_j = (S4)START_NUM; s4_t_j < (S4)END_NUM; s4_t_j++)
{
s4_t_result = s4_t_i * s4_t_j;
printf("%dx%d=%d\n", s4_t_i, s4_t_j, s4_t_result);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | Select Code
#include<stdio.h>
int main()
{
int a,b;
for(a=1;a<=9;a++)
{
for(b=1;b<=9;b++)
printf("%dX%d =%d\n",a,b,a*b);
}
return 0;
} | Here is a piece of code written in C:
Select Code
#include<stdio.h>
int main()
{
int a,b;
for(a=1;a<=9;a++)
{
for(b=1;b<=9;b++)
printf("%dX%d =%d\n",a,b,a*b);
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main()
{
int a,b;
for(a=1;a<=9;a++)
{
for(b=1;b<=9;b++)
{
printf("%d*%d=%d\n",a,b,a*b);
}
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int main()
{
int a,b;
for(a=1;a<=9;a++)
{
for(b=1;b<=9;b++)
{
printf("%d*%d=%d\n",a,b,a*b);
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main(){
int i,j;
for(i=1;i<=9;i++){
for(j=1:j<=9;j++){
printf("%dx%d=%d\n",i,j,i*j);
}
}
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int main(){
int i,j;
for(i=1;i<=9;i++){
for(j=1:j<=9;j++){
printf("%dx%d=%d\n",i,j,i*j);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
void multi(int* p, int n);
int num[9] = {1,2,3,4,5,6,7,8,9}
int main()
{
multi(num, 9);
return 0;
}
void multi(int* p, int n)
{
int i = 0, j = 0;
for(;i<n;i++)
{
for(;j<n;j++)
printf("%dx%d=%d", p[i], p[j], p[i]*p[j]);
}
} | Here is a piece of code written in C:
#include<stdio.h>
void multi(int* p, int n);
int num[9] = {1,2,3,4,5,6,7,8,9}
int main()
{
multi(num, 9);
return 0;
}
void multi(int* p, int n)
{
int i = 0, j = 0;
for(;i<n;i++)
{
for(;j<n;j++)
printf("%dx%d=%d", p[i], p[j], p[i]*p[j]);
}
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main(){
int i, j;
for(i=1; i<=9i++)
{
for(j=1; j<=9;j++)
{
printf("%dx%d=%d\n", i, j, i*j);
}
}
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int main(){
int i, j;
for(i=1; i<=9i++)
{
for(j=1; j<=9;j++)
{
printf("%dx%d=%d\n", i, j, i*j);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main()
{
int a,b;
for(a=1; a<=9; a++)
{
for(b=1; b<=9; b++)
}
printf("%dX%d=%d\n",a,b,a*b);
}
}
return 0;
} | Here is a piece of code written in C:
#include<stdio.h>
int main()
{
int a,b;
for(a=1; a<=9; a++)
{
for(b=1; b<=9; b++)
}
printf("%dX%d=%d\n",a,b,a*b);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | for (int i=1; i<=9; i++)
for (int j=1; j<=9; j++)
print("%dx%d=%d\n",i, j, i*j);
| Here is a piece of code written in C:
for (int i=1; i<=9; i++)
for (int j=1; j<=9; j++)
print("%dx%d=%d\n",i, j, i*j);
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include <stdio.h>
for (int i=1; i<=9; i++)
for (int j=1; j<=9; j++)
print("%dx%d=%d\n",i, j, i*j);
| Here is a piece of code written in C:
#include <stdio.h>
for (int i=1; i<=9; i++)
for (int j=1; j<=9; j++)
print("%dx%d=%d\n",i, j, i*j);
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | for (int i=1; i<=9; i++)
for (int j=1; j<=9; j++)
printf("%dx%d=%d\n",i, j, i*j);
| Here is a piece of code written in C:
for (int i=1; i<=9; i++)
for (int j=1; j<=9; j++)
printf("%dx%d=%d\n",i, j, i*j);
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include <stdio.h>
for (int i=1; i<=9; i++)
for (int j=1; j<=9; j++)
printf("%dx%d=%d\n",i, j, i*j);
| Here is a piece of code written in C:
#include <stdio.h>
for (int i=1; i<=9; i++)
for (int j=1; j<=9; j++)
printf("%dx%d=%d\n",i, j, i*j);
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include <stdio.h>
int i, j;
for (i=1; i<=9; i++)
for (j=1; j<=9; j++)
printf("%dx%d=%d\n",i, j, i*j);
| Here is a piece of code written in C:
#include <stdio.h>
int i, j;
for (i=1; i<=9; i++)
for (j=1; j<=9; j++)
printf("%dx%d=%d\n",i, j, i*j);
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | Here is a piece of code written in C:
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
|
p00000 | C | Compile Error | GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
RGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
RGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
RBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
RBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
RBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
RBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
RBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
RBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
RBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
RBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
RBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
RBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
RBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
RBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
RBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
RBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
RBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
RBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
RBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
RBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
RBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
RBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
RBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
RBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
RBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
RBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
RBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
RBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
RBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
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RBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
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RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRYBRGBRYBRGBY
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRGBRYBRGBY
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRGBRYBRGBY
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRYBRGBY
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRYBRGBY
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRGBY
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBY
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBY
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GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGB
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGB
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGB
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGB
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGB
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGB
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGB
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGB
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
GGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
GGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
GGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
GGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
GGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
GGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
GGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
GGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
GGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
RGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
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RRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGB
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RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRB
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYGGGG
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBYGGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRYBRGBYRBBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRGBYRBBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBYRBBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBYRRRB
| Here is a piece of code written in C:
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
GGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
RGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBY
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RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRGBY
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GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGG
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GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGB
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGB
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
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GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
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GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
GGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
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RRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRGBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRYBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRGBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRYBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRGB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRB
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYGGGG
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBYGGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYYGGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGGYYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
GGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGYY
RBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRYBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRBBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRGBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRBBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRYBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRBBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRGBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRBBRYBRGBYRGBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRYBRGBYRBBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBRGBYRBBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRBBYRBBB
RRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBRRBYRRRB
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | 100
50 7
35 32
20 38
46 49
24 30
6 22
37 17
39 48
44 17
1 45
16 36
18 19
5 46
49 29
34 17
24 12
44 41
29 10
10 14
45 25
48 34
2 2
1 35
3 41
36 46
32 4
23 2
49 0
30 28
45 49
11 14
6 20
31 5
20 35
11 41
26 15
18 10
45 28
19 19
15 49
3 5
8 47
47 27
6 8
7 27
42 2
23 19
24 48
34 4
46 45
11 45
50 23
29 5
1 1
20 48
13 0
4 26
35 10
8 32
39 44
1 35
27 41
14 20
45 25
10 19
15 40
2 5
11 38
39 31
29 13
14 10
37 43
3 18
1 22
16 11
47 40
31 18
39 24
0 46
16 35
26 10
16 32
20 28
9 28
41 10
21 39
32 5
24 8
31 36
48 25
16 48
17 45
20 48
45 6
42 21
32 11
43 18
47 49
27 14
25 7
47 18
24 47
50 30
49 5
37 16
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4 39
0 32
23 33
38 10
6 8
48 42
42 31
0 28
12 7
4 38
20 21
48 26
23 48
17 18
39 45
34 32
15 44
28 35
45 39
47 16
8 2
34 45
23 1
8 35
24 36
8 12
39 44
43 6
25 13
8 10
50 15
43 43
8 9
37 29
25 47
45 4
12 28
12 40
14 13
22 47
21 1
9 34
24 16
9 16
42 37
46 20
13 6
16 40
19 22
19 3
7 45
23 14
5 20
34 36
33 20
21 6
41 5
22 31
48 16
3 32
2 40
47 49
40 15
38 13
17 9
5 7
22 24
45 28
15 28
49 30
37 48
4 20
2 29
45 26
9 1
41 48
48 11
27 39
2 38
48 15
23 19
50 4
46 44
40 32
47 25
24 20
8 46
0 45
48 37
32 27
37 49
41 30
29 49
27 30
32 17
15 43
17 2
47 19
2 13
39 38
9 49
46 13
9 17
4 47
25 7
6 37
17 12
11 47
27 47
14 38
31 10
13 30
49 48
12 11
49 2
2 2
15 8
25 48
46 25
32 30
17 21
34 39
36 35
32 45
34 14
25 47
27 16
14 39
0 27
30 27
29 49
8 32
50 46
34 31
27 20
3 14
32 48
32 42
29 17
0 28
13 44
19 48
26 29
44 8
9 4
34 21
1 8
17 16
47 46
17 1
16 24
23 20
13 48
16 6
35 42
36 17
15 48
27 6
15 41
45 21
43 24
33 29
46 44
40 0
1 44
19 8
28 17
15 42
49 42
34 32
49 34
33 21
28 14
6 10
32 43
18 1
31 25
19 1
1 28
22 10
18 2
20 41
34 47
50 37
34 39
24 18
18 19
2 46
24 32
39 13
45 18
36 40
22 20
40 37
38 0
23 0
19 41
12 15
0 16
6 49
18 34
3 30
27 36
19 6
19 1
20 8
49 14
35 6
44 21
22 25
25 32
24 46
11 45
11 37
36 11
46 18
49 4
40 49
6 26
27 10
18 25
39 48
4 18
40 24
0 48
31 12
9 26
21 6
43 20
32 33
1 30
35 28
28 0
26 25
50 36
4 36
4 10
0 2
7 22
12 25
25 5
37 25
34 1
22 43
37 5
38 5
7 18
3 17
46 7
34 28
14 31
41 39
41 19
42 41
17 49
4 5
30 42
43 42
35 15
21 16
22 23
41 9
27 30
38 44
23 23
4 22
12 38
8 46
38 3
2 0
5 5
48 7
49 36
1 42
8 35
8 23
32 31
11 0
44 10
33 49
22 17
6 38
34 34
38 14
14 23
50 42
20 28
26 49
49 6
8 18
27 34
43 31
14 9
20 43
37 24
7 20
43 5
11 46
30 28
16 25
40 3
32 8
7 10
16 9
28 6
41 24
6 5
14 34
27 20
44 35
6 15
21 2
49 49
27 32
8 29
33 44
2 48
9 16
25 9
16 25
0 3
9 7
42 6
27 23
9 20
35 21
24 15
15 6
39 23
3 42
37 48
47 37
3 39
49 6
31 29
33 16
50 33
42 23
16 38
15 16
26 36
21 37
12 41
7 28
18 36
40 0
37 16
13 27
31 26
26 19
1 11
44 42
16 33
22 36
3 32
18 38
26 29
21 40
19 38
25 28
28 37
3 15
43 15
42 17
37 25
36 19
11 39
22 30
17 28
11 45
33 21
0 29
20 9
48 21
0 39
26 24
39 28
44 30
47 33
8 36
6 35
24 45
26 17
46 47
42 44
15 7
36 26
50 17
7 36
34 38
38 46
22 8
48 17
11 2
0 31
40 48
4 36
10 35
11 22
18 7
0 5
21 25
12 26
12 37
25 19
15 47
5 14
31 38
41 4
36 42
41 42
28 26
12 45
17 38
46 24
30 36
11 46
22 1
39 24
44 35
32 14
29 10
48 38
42 10
3 39
31 28
4 44
39 10
49 17
41 7
43 45
42 21
23 5
30 15
0 12
27 24
34 32
20 6
50 34
13 16
19 22
4 41
46 13
3 15
14 13
4 11
5 9
1 26
49 10
41 17
17 11
38 15
0 0
20 44
11 33
6 34
25 30
44 11
26 21
35 48
9 40
0 40
16 14
25 2
19 16
28 16
32 36
36 16
11 33
16 7
41 23
4 22
34 17
38 49
47 10
1 24
14 7
22 1
3 30
47 47
14 23
9 25
42 47
30 46
4 4
27 47
20 45
13 31
30 4
50 2
28 15
16 26
40 35
7 17
21 21
18 5
20 44
4 43
36 17
48 1
5 40
17 45
15 1
14 49
29 20
35 16
42 7
43 1
19 33
4 0
5 41
35 23
17 26
43 40
41 3
43 42
37 47
48 10
9 3
24 13
29 39
46 10
11 22
5 40
40 31
22 9
33 46
22 8
48 0
3 16
8 40
37 46
7 46
0 36
49 16
5 25
35 29
1 2
42 46
28 6
50 34
0 16
49 29
2 9
8 49
3 18
27 48
36 49
6 24
24 23
22 23
29 49
34 1
3 31
24 31
9 9
26 8
38 10
19 26
25 40
9 28
27 28
28 36
10 13
37 34
8 35
35 9
11 37
19 19
1 14
24 44
2 11
21 0
26 40
31 41
19 2
31 40
27 47
11 10
45 38
24 48
8 3
40 9
28 19
34 9
3 30
41 8
9 5
46 13
4 36
38 27
50 25
20 18
46 21
33 30
25 34
8 31
39 29
19 17
46 9
43 29
32 26
18 1
10 38
34 31
36 47
35 12
31 10
32 6
37 27
11 15
47 13
42 20
38 36
45 11
40 34
11 38
40 23
11 29
10 1
48 46
9 47
7 34
40 40
17 40
6 28
41 29
49 3
40 33
45 37
22 36
25 36
9 33
13 16
17 21
18 24
21 16
1 27
18 29
19 42
20 35
14 26
50 12
14 30
20 45
40 1
24 7
32 26
35 7
21 49
16 7
25 45
16 33
34 2
20 45
15 26
47 6
21 42
22 8
3 36
38 43
0 44
20 12
20 33
32 6
13 41
36 49
33 38
41 3
49 17
44 12
19 15
7 41
0 40
26 29
22 4
48 15
27 23
6 18
24 47
38 39
39 38
26 25
28 22
40 18
31 28
43 34
26 0
41 0
29 27
31 18
33 2
25 29
50 11
32 48
23 7
46 21
11 11
38 21
0 33
23 6
37 28
21 8
35 38
29 22
2 12
43 47
31 5
30 22
21 41
49 13
35 44
5 45
17 46
29 43
0 17
46 3
11 38
26 18
40 47
9 6
4 43
48 2
25 35
26 28
42 46
40 26
21 27
23 46
39 38
6 3
7 40
28 2
20 19
16 5
12 11
4 25
28 16
1 2
31 3
0 28
4 23
1 41
37 26
50 26
27 14
21 28
35 17
45 23
44 5
21 1
13 5
10 46
25 30
31 12
43 29
29 10
14 17
18 21
8 41
5 43
22 35
2 27
0 8
13 48
0 45
0 35
31 14
44 10
23 7
36 26
36 17
35 16
37 1
42 3
47 46
32 48
25 20
28 35
33 26
21 42
27 34
48 22
33 9
16 42
18 6
24 3
19 5
6 9
13 7
3 49
47 10
30 36
21 22
48 9
50 6
20 1
28 39
38 42
25 38
4 30
49 32
6 7
27 5
11 15
28 34
38 10
8 39
19 24
45 30
29 29
30 0
40 0
42 9
47 28
9 18
0 2
9 9
14 7
22 37
22 26
37 1
40 10
35 45
26 10
40 31
32 6
6 20
30 22
1 48
16 27
30 10
20 17
24 40
27 34
11 47
48 49
10 48
44 39
0 46
27 20
27 40
11 9
32 33
32 42
20 34
50 50
0 44
15 16
41 40
17 49
11 38
37 17
27 9
4 27
28 24
1 25
2 19
30 11
44 35
17 22
42 28
23 16
33 43
33 38
38 24
12 1
18 49
9 0
27 46
20 13
38 5
24 22
33 41
26 5
28 27
6 44
11 21
14 29
17 44
19 48
49 5
5 32
32 17
14 15
28 10
16 34
6 17
9 41
46 40
18 35
30 25
46 24
3 41
36 11
9 20
26 5
50 9
32 38
20 26
40 47
26 31
47 25
32 44
3 38
35 22
40 39
19 10
7 14
17 11
47 18
27 38
15 3
41 36
13 47
44 12
43 3
29 20
15 40
29 11
33 18
7 14
24 23
38 26
37 31
0 5
44 35
38 28
14 9
6 29
41 28
31 1
22 35
26 11
22 37
5 5
19 6
30 13
39 44
26 18
24 27
12 26
4 18
28 1
30 19
48 34
36 22
8 30
50 10
34 41
13 46
2 39
9 19
49 15
5 3
30 18
42 32
45 6
11 10
38 46
27 31
29 23
10 0
8 9
0 19
15 42
32 14
34 18
33 41
45 34
2 38
21 25
32 44
5 16
12 44
25 44
17 39
40 5
14 28
47 48
41 15
30 13
31 23
15 14
49 14
3 10
36 1
46 24
40 18
12 1
45 3
43 38
43 13
42 33
32 8
24 39
3 23
46 4
19 34
50 12
18 49
2 22
8 19
16 27
18 27
40 17
13 21
15 29
22 27
19 48
30 31
5 9
12 3
0 10
29 47
46 12
34 47
17 49
27 43
20 33
1 45
17 11
40 15
42 32
31 13
45 12
22 11
15 0
10 34
32 16
28 40
38 29
29 12
5 5
39 6
1 26
38 40
5 18
1 29
42 48
11 32
44 37
38 33
17 10
26 49
40 0
29 4
17 28
33 8
14 23
50 23
16 0
38 13
19 35
36 17
10 17
28 19
13 48
36 11
29 23
0 36
26 29
9 5
22 4
38 17
32 45
45 11
24 48
34 34
1 43
11 20
40 11
9 40
2 3
27 46
33 32
11 27
32 10
14 21
38 5
1 3
14 20
19 46
31 39
33 3
24 32
44 44
35 15
18 3
0 37
19 46
23 33
43 31
2 6
12 8
12 41
12 13
10 26
16 31
35 41
23 49
50 11
17 44
29 25
44 21
22 16
36 40
14 6
0 17
19 21
33 9
21 10
22 46
6 48
14 4
40 47
21 13
7 1
26 39
11 37
3 21
11 33
40 39
7 26
47 40
49 26
37 30
26 21
19 10
15 33
30 33
46 6
7 2
41 4
41 34
5 2
35 45
35 17
44 25
16 42
19 41
22 16
37 6
17 49
32 6
39 33
39 13
15 36
41 47
31 6
9 32
27 37
50 45
13 5
49 20
37 5
24 40
13 3
40 31
49 12
44 46
36 32
22 8
23 22
13 19
0 30
39 46
24 38
43 34
5 37
42 42
33 42
45 17
48 46
8 35
32 47
30 3
12 18
41 2
21 36
16 4
1 22
10 6
41 25
12 3
45 47
39 5
22 29
25 35
21 20
18 34
38 3
22 49
1 0
36 13
17 23
46 3
9 18
44 6
10 1
48 6
12 6
35 38
50 35
11 23
44 5
24 45
33 48
20 23
24 33
19 33
1 48
44 22
32 20
14 1
11 34
32 21
33 18
3 21
44 18
23 14
10 39
37 47
21 43
27 7
41 45
44 47
20 42
13 38
39 3
37 28
49 1
19 20
41 33
1 23
38 36
25 25
23 49
42 13
21 44
40 20
17 12
5 34
23 38
41 19
47 13
14 29
49 46
30 34
8 41
27 31
6 46
46 3
16 30
50 40
38 24
14 9
27 0
6 48
21 15
6 25
23 35
49 35
35 20
0 34
42 27
5 31
38 39
35 8
25 18
43 24
34 13
14 7
6 11
27 21
47 28
13 34
20 20
40 13
47 5
33 41
22 40
30 38
46 11
30 16
41 22
36 23
31 25
37 1
22 37
15 15
49 20
41 28
41 19
25 31
23 39
29 8
46 46
7 10
26 43
15 38
12 17
43 2
3 43
31 31
50 27
46 46
45 46
37 25
17 15
40 19
42 6
36 49
45 38
46 46
23 39
5 35
47 40
34 7
10 41
22 15
11 36
33 18
44 6
21 20
40 12
18 12
11 32
21 5
2 7
46 18
3 25
16 1
9 0
41 0
16 19
6 13
32 27
34 39
10 27
39 6
18 0
33 8
13 30
37 5
23 16
41 34
36 26
26 8
9 45
15 18
31 25
3 21
11 14
41 37
44 22
50 31
13 22
6 38
2 43
31 11
34 18
10 16
2 10
37 18
27 48
13 5
37 3
6 35
47 1
43 44
38 19
42 23
12 2
45 48
10 14
33 27
43 45
6 43
12 45
43 43
49 39
43 7
42 37
38 49
44 40
9 32
5 33
35 1
0 18
33 31
8 10
5 16
10 1
46 11
5 22
12 40
48 5
42 5
5 40
30 31
13 0
33 40
41 19
37 18
49 42
2 21
50 8
8 38
48 9
6 20
26 21
33 46
44 31
23 39
45 35
16 5
18 45
28 6
48 37
24 47
47 40
43 45
33 5
14 2
23 32
3 20
17 49
31 37
27 12
48 5
10 22
18 14
21 28
16 47
45 20
11 41
36 42
48 5
8 20
3 12
33 31
31 7
45 1
13 13
18 22
45 12
26 29
8 14
11 48
18 24
15 6
49 30
35 2
23 47
10 43
24 27
34 43
50 7
30 45
9 19
38 3
49 21
48 17
26 13
24 46
15 1
17 31
30 45
30 20
43 27
37 23
48 21
6 31
26 4
24 36
39 35
6 12
30 38
2 5
1 6
7 26
7 16
11 25
45 38
15 42
15 39
10 3
34 14
18 16
3 11
46 42
5 43
32 3
8 35
42 34
11 10
26 0
25 19
7 38
30 20
9 22
26 46
10 20
37 10
21 29
22 40
34 18
22 27
50 17
31 13
5 1
12 42
19 6
31 31
38 7
38 2
12 11
37 34
44 32
19 48
20 24
46 10
44 39
12 24
37 11
12 43
36 43
49 24
5 5
12 30
33 44
5 0
35 45
27 43
41 30
4 47
7 11
0 1
25 2
13 12
6 13
6 26
0 42
48 5
36 6
0 10
11 19
14 6
49 47
27 42
39 41
2 32
33 46
49 3
16 9
22 13
39 23
15 28
34 40
50 14
21 47
47 24
36 41
5 4
4 33
11 47
37 45
47 43
27 34
33 1
17 36
8 46
36 40
6 37
22 26
23 20
45 43
34 21
26 31
15 40
38 30
25 27
21 26
10 23
24 48
35 43
40 42
33 44
31 26
3 40
11 4
48 27
48 6
38 33
23 24
4 4
31 12
38 30
3 2
1 48
42 28
21 36
30 33
10 5
45 12
16 13
40 6
13 14
47 39
14 2
50 22
19 6
37 34
22 49
3 40
41 21
14 32
3 27
8 47
7 8
4 20
36 21
11 11
24 0
48 0
14 27
33 19
3 33
33 21
12 26
48 36
19 3
31 13
10 22
31 39
9 18
39 36
47 45
46 1
2 22
49 45
14 17
1 33
4 18
45 34
21 17
20 44
7 40
13 2
41 18
37 45
32 1
47 26
28 29
2 44
39 30
48 2
36 4
23 49
34 41
8 18
50 7
29 13
20 47
11 31
23 39
26 6
38 24
22 3
31 18
21 16
5 12
11 24
10 9
32 11
45 2
10 1
14 2
49 39
20 35
25 11
18 44
19 1
4 6
25 41
7 36
49 47
21 13
23 10
21 32
34 6
7 17
20 45
34 22
8 20
31 5
49 33
35 49
6 18
10 40
26 32
29 17
31 26
36 1
34 4
10 8
26 19
14 18
41 46
16 48
4 0
34 47
50 5
19 46
2 23
33 10
36 34
14 1
32 13
49 15
49 37
48 8
34 19
33 16
8 30
46 32
36 9
43 43
40 41
14 13
23 43
28 47
49 10
23 42
8 31
18 23
31 8
27 16
33 16
46 10
42 42
1 43
36 29
20 44
8 27
20 34
32 31
42 48
40 31
12 15
38 48
6 31
48 20
36 33
44 32
24 33
26 36
15 25
20 13
40 36
20 29
11 10
8 2
50 4
49 33
46 18
7 48
4 28
26 27
14 38
33 9
33 47
23 19
35 9
30 37
27 21
42 9
20 37
46 45
28 24
42 45
43 25
3 0
27 48
37 30
39 42
40 20
39 23
33 14
1 25
47 14
24 28
15 39
34 45
19 12
7 13
39 11
11 1
49 42
23 39
32 36
6 13
37 22
36 46
22 20
34 37
15 20
9 8
3 31
43 44
8 23
34 0
2 47
40 46
50 2
14 36
18 38
45 27
14 40
27 42
14 35
20 14
30 34
44 28
32 11
4 39
47 5
40 5
7 45
36 37
24 9
47 0
27 43
33 43
35 42
27 11
25 49
34 47
26 5
17 29
18 9
15 22
27 16
12 6
44 35
45 48
48 18
11 42
35 25
18 45
6 20
20 46
44 32
38 5
34 21
30 5
27 2
19 46
3 5
41 31
29 47
16 36
29 27
3 28
24 14
50 23
31 35
6 18
12 13
2 11
46 33
14 8
35 49
18 11
14 41
32 49
28 12
29 18
47 6
10 7
32 12
48 32
0 13
27 5
17 12
46 29
37 13
12 10
21 23
14 30
30 36
48 47
15 9
15 27
35 13
26 26
8 17
31 24
30 9
21 8
37 47
10 18
29 25
48 22
3 0
37 13
10 33
42 35
13 26
40 8
34 49
16 16
41 42
2 47
6 21
18 24
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main()
{
for(n=1; n<=9;n++)
for(i=1; i<=9; i++)
printf("%d X %d = %d\n",n,i,n*i);
return 0;
}
| Here is a piece of code written in C:
#include<stdio.h>
int main()
{
for(n=1; n<=9;n++)
for(i=1; i<=9; i++)
printf("%d X %d = %d\n",n,i,n*i);
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main(){
for(a=1;a<=9;a++){
for(b=1;b<=9;b++)
printf("%dx%d=%d",a,b,a*b)
}
return 0;
}
| Here is a piece of code written in C:
#include<stdio.h>
int main(){
for(a=1;a<=9;a++){
for(b=1;b<=9;b++)
printf("%dx%d=%d",a,b,a*b)
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main(){
int n,i;
for (n=1; n<10; n=n+1){
for (i=1; i<10; i=i+1){
printf("%d x %d= %d\n",n,i,n*i);
}
}
if(i>=10){
break;
}
return 0;
}
| Here is a piece of code written in C:
#include<stdio.h>
int main(){
int n,i;
for (n=1; n<10; n=n+1){
for (i=1; i<10; i=i+1){
printf("%d x %d= %d\n",n,i,n*i);
}
}
if(i>=10){
break;
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include<stdio.h>
int main(){
int n,i;
for (n=1; n<10; n=n+1){
for (i=1; i<10; i=i+1){
printf("%d x %d= %d\n",n,i n*i);
}
}
return 0;
}
| Here is a piece of code written in C:
#include<stdio.h>
int main(){
int n,i;
for (n=1; n<10; n=n+1){
for (i=1; i<10; i=i+1){
printf("%d x %d= %d\n",n,i n*i);
}
}
return 0;
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
p00000 | C | Compile Error | #include <stdio.h>
int main(){
for(int i=0; i<9; i++){
for(int j=0; j<9; j++){
printf("%d×%d=%d\n",i,j,i*j);
}
}
| Here is a piece of code written in C:
#include <stdio.h>
int main(){
for(int i=0; i<9; i++){
for(int j=0; j<9; j++){
printf("%d×%d=%d\n",i,j,i*j);
}
}
Do you think this code will compile successfully? Answer 'Yes' or 'No'. | No |
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