Instruction stringlengths 45 106 | input_code stringlengths 1 13.7k | output_code stringlengths 1 13.7k |
|---|---|---|
Port the following code from C to C++ with equivalent syntax and logic. | #include <stdio.h>
#include <stdlib.h>
#include <string.h>
int cmp(const int* a, const int* b)
{
return *b - *a;
}
void compareAndReportStringsLength(const char* strings[], const int n)
{
if (n > 0)
{
char* has_length = "has length";
char* predicate_max = "and is the longest string";
char* predicate_min = "and is the shortest string";
char* predicate_ave = "and is neither the longest nor the shortest string";
int* si = malloc(2 * n * sizeof(int));
if (si != NULL)
{
for (int i = 0; i < n; i++)
{
si[2 * i] = strlen(strings[i]);
si[2 * i + 1] = i;
}
qsort(si, n, 2 * sizeof(int), cmp);
int max = si[0];
int min = si[2 * (n - 1)];
for (int i = 0; i < n; i++)
{
int length = si[2 * i];
char* string = strings[si[2 * i + 1]];
char* predicate;
if (length == max)
predicate = predicate_max;
else if (length == min)
predicate = predicate_min;
else
predicate = predicate_ave;
printf("\"%s\" %s %d %s\n",
string, has_length, length, predicate);
}
free(si);
}
else
{
fputs("unable allocate memory buffer", stderr);
}
}
}
int main(int argc, char* argv[])
{
char* list[] = { "abcd", "123456789", "abcdef", "1234567" };
compareAndReportStringsLength(list, 4);
return EXIT_SUCCESS;
}
| #include <iostream>
#include <algorithm>
#include <string>
#include <list>
using namespace std;
bool cmp(const string& a, const string& b)
{
return b.length() < a.length();
}
void compareAndReportStringsLength(list<string> listOfStrings)
{
if (!listOfStrings.empty())
{
char Q = '"';
string has_length(" has length ");
string predicate_max(" and is the longest string");
string predicate_min(" and is the shortest string");
string predicate_ave(" and is neither the longest nor the shortest string");
list<string> ls(listOfStrings);
ls.sort(cmp);
int max = ls.front().length();
int min = ls.back().length();
for (list<string>::iterator s = ls.begin(); s != ls.end(); s++)
{
int length = s->length();
string* predicate;
if (length == max)
predicate = &predicate_max;
else if (length == min)
predicate = &predicate_min;
else
predicate = &predicate_ave;
cout << Q << *s << Q << has_length << length << *predicate << endl;
}
}
}
int main(int argc, char* argv[])
{
list<string> listOfStrings{ "abcd", "123456789", "abcdef", "1234567" };
compareAndReportStringsLength(listOfStrings);
return EXIT_SUCCESS;
}
|
Write a version of this C function in C++ with identical behavior. | #include <stdio.h>
void shell_sort (int *a, int n) {
int h, i, j, t;
for (h = n; h /= 2;) {
for (i = h; i < n; i++) {
t = a[i];
for (j = i; j >= h && t < a[j - h]; j -= h) {
a[j] = a[j - h];
}
a[j] = t;
}
}
}
int main (int ac, char **av) {
int a[] = {4, 65, 2, -31, 0, 99, 2, 83, 782, 1};
int n = sizeof a / sizeof a[0];
int i;
for (i = 0; i < n; i++)
printf("%d%s", a[i], i == n - 1 ? "\n" : " ");
shell_sort(a, n);
for (i = 0; i < n; i++)
printf("%d%s", a[i], i == n - 1 ? "\n" : " ");
return 0;
}
| #include <time.h>
#include <iostream>
using namespace std;
const int MAX = 126;
class shell
{
public:
shell()
{ _gap[0] = 1750; _gap[1] = 701; _gap[2] = 301; _gap[3] = 132; _gap[4] = 57; _gap[5] = 23; _gap[6] = 10; _gap[7] = 4; _gap[8] = 1; }
void sort( int* a, int count )
{
_cnt = count;
for( int x = 0; x < 9; x++ )
if( count > _gap[x] )
{ _idx = x; break; }
sortIt( a );
}
private:
void sortIt( int* arr )
{
bool sorted = false;
while( true )
{
sorted = true;
int st = 0;
for( int x = _gap[_idx]; x < _cnt; x += _gap[_idx] )
{
if( arr[st] > arr[x] )
{ swap( arr[st], arr[x] ); sorted = false; }
st = x;
}
if( ++_idx >= 8 ) _idx = 8;
if( sorted && _idx == 8 ) break;
}
}
void swap( int& a, int& b ) { int t = a; a = b; b = t; }
int _gap[9], _idx, _cnt;
};
int main( int argc, char* argv[] )
{
srand( static_cast<unsigned int>( time( NULL ) ) ); int arr[MAX];
for( int x = 0; x < MAX; x++ )
arr[x] = rand() % MAX - rand() % MAX;
cout << " Before: \n=========\n";
for( int x = 0; x < 7; x++ )
{
for( int a = 0; a < 18; a++ )
{ cout << arr[x * 18 + a] << " "; }
cout << endl;
}
cout << endl; shell s; s.sort( arr, MAX );
cout << " After: \n========\n";
for( int x = 0; x < 7; x++ )
{
for( int a = 0; a < 18; a++ )
{ cout << arr[x * 18 + a] << " "; }
cout << endl;
}
cout << endl << endl; return system( "pause" );
}
|
Translate this program into C++ but keep the logic exactly as in C. |
#include <stdio.h>
#include <stdlib.h>
struct List {
struct MNode *head;
struct MNode *tail;
struct MNode *tail_pred;
};
struct MNode {
struct MNode *succ;
struct MNode *pred;
};
typedef struct MNode *NODE;
typedef struct List *LIST;
LIST newList(void);
int isEmpty(LIST);
NODE getTail(LIST);
NODE getHead(LIST);
NODE addTail(LIST, NODE);
NODE addHead(LIST, NODE);
NODE remHead(LIST);
NODE remTail(LIST);
NODE insertAfter(LIST, NODE, NODE);
NODE removeNode(LIST, NODE);
LIST newList(void)
{
LIST tl = malloc(sizeof(struct List));
if ( tl != NULL )
{
tl->tail_pred = (NODE)&tl->head;
tl->tail = NULL;
tl->head = (NODE)&tl->tail;
return tl;
}
return NULL;
}
int isEmpty(LIST l)
{
return (l->head->succ == 0);
}
NODE getHead(LIST l)
{
return l->head;
}
NODE getTail(LIST l)
{
return l->tail_pred;
}
NODE addTail(LIST l, NODE n)
{
n->succ = (NODE)&l->tail;
n->pred = l->tail_pred;
l->tail_pred->succ = n;
l->tail_pred = n;
return n;
}
NODE addHead(LIST l, NODE n)
{
n->succ = l->head;
n->pred = (NODE)&l->head;
l->head->pred = n;
l->head = n;
return n;
}
NODE remHead(LIST l)
{
NODE h;
h = l->head;
l->head = l->head->succ;
l->head->pred = (NODE)&l->head;
return h;
}
NODE remTail(LIST l)
{
NODE t;
t = l->tail_pred;
l->tail_pred = l->tail_pred->pred;
l->tail_pred->succ = (NODE)&l->tail;
return t;
}
NODE insertAfter(LIST l, NODE r, NODE n)
{
n->pred = r; n->succ = r->succ;
n->succ->pred = n; r->succ = n;
return n;
}
NODE removeNode(LIST l, NODE n)
{
n->pred->succ = n->succ;
n->succ->pred = n->pred;
return n;
}
| #include <iostream>
#include <list>
int main ()
{
std::list<int> numbers {1, 5, 7, 0, 3, 2};
numbers.insert(numbers.begin(), 9);
numbers.insert(numbers.end(), 4);
auto it = std::next(numbers.begin(), numbers.size() / 2);
numbers.insert(it, 6);
for(const auto& i: numbers)
std::cout << i << ' ';
std::cout << '\n';
}
|
Preserve the algorithm and functionality while converting the code from C to C++. |
int frequency[26];
int ch;
FILE* txt_file = fopen ("a_text_file.txt", "rt");
for (ch = 0; ch < 26; ch++)
frequency[ch] = 0;
while (1) {
ch = fgetc(txt_file);
if (ch == EOF) break;
if ('a' <= ch && ch <= 'z')
frequency[ch-'a']++;
else if ('A' <= ch && ch <= 'Z')
frequency[ch-'A']++;
}
| #include <fstream>
#include <iostream>
int main()
{
std::ifstream input("filename.txt", std::ios_base::binary);
if (!input)
{
std::cerr << "error: can't open file\n";
return -1;
}
size_t count[256];
std::fill_n(count, 256, 0);
for (char c; input.get(c); ++count[uint8_t(c)])
;
for (size_t i = 0; i < 256; ++i)
{
if (count[i] && isgraph(i))
{
std::cout << char(i) << " = " << count[i] << '\n';
}
}
}
|
Write the same algorithm in C++ as shown in this C implementation. | #include <stdio.h>
int data[] = { 85, 88, 75, 66, 25, 29, 83, 39, 97,
68, 41, 10, 49, 16, 65, 32, 92, 28, 98 };
int pick(int at, int remain, int accu, int treat)
{
if (!remain) return (accu > treat) ? 1 : 0;
return pick(at - 1, remain - 1, accu + data[at - 1], treat) +
( at > remain ? pick(at - 1, remain, accu, treat) : 0 );
}
int main()
{
int treat = 0, i;
int le, gt;
double total = 1;
for (i = 0; i < 9; i++) treat += data[i];
for (i = 19; i > 10; i--) total *= i;
for (i = 9; i > 0; i--) total /= i;
gt = pick(19, 9, 0, treat);
le = total - gt;
printf("<= : %f%% %d\n > : %f%% %d\n",
100 * le / total, le, 100 * gt / total, gt);
return 0;
}
| #include<iostream>
#include<vector>
#include<numeric>
#include<functional>
class
{
public:
int64_t operator()(int n, int k){ return partial_factorial(n, k) / factorial(n - k);}
private:
int64_t partial_factorial(int from, int to) { return from == to ? 1 : from * partial_factorial(from - 1, to); }
int64_t factorial(int n) { return n == 0 ? 1 : n * factorial(n - 1);}
}combinations;
int main()
{
static constexpr int treatment = 9;
const std::vector<int> data{ 85, 88, 75, 66, 25, 29, 83, 39, 97,
68, 41, 10, 49, 16, 65, 32, 92, 28, 98 };
int treated = std::accumulate(data.begin(), data.begin() + treatment, 0);
std::function<int (int, int, int)> pick;
pick = [&](int n, int from, int accumulated)
{
if(n == 0)
return accumulated > treated ? 1 : 0;
else
return pick(n - 1, from - 1, accumulated + data[from - 1]) +
(from > n ? pick(n, from - 1, accumulated) : 0);
};
int total = combinations(data.size(), treatment);
int greater = pick(treatment, data.size(), 0);
int lesser = total - greater;
std::cout << "<= : " << 100.0 * lesser / total << "% " << lesser << std::endl
<< " > : " << 100.0 * greater / total << "% " << greater << std::endl;
}
|
Port the following code from C to C++ with equivalent syntax and logic. | #include <math.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
int main() {
const int MU_MAX = 1000000;
int i, j;
int *mu;
int sqroot;
sqroot = (int)sqrt(MU_MAX);
mu = malloc((MU_MAX + 1) * sizeof(int));
for (i = 0; i < MU_MAX;i++) {
mu[i] = 1;
}
for (i = 2; i <= sqroot; i++) {
if (mu[i] == 1) {
for (j = i; j <= MU_MAX; j += i) {
mu[j] *= -i;
}
for (j = i * i; j <= MU_MAX; j += i * i) {
mu[j] = 0;
}
}
}
for (i = 2; i <= MU_MAX; i++) {
if (mu[i] == i) {
mu[i] = 1;
} else if (mu[i] == -i) {
mu[i] = -1;
} else if (mu[i] < 0) {
mu[i] = 1;
} else if (mu[i] > 0) {
mu[i] = -1;
}
}
printf("First 199 terms of the möbius function are as follows:\n ");
for (i = 1; i < 200; i++) {
printf("%2d ", mu[i]);
if ((i + 1) % 20 == 0) {
printf("\n");
}
}
free(mu);
return 0;
}
| #include <iomanip>
#include <iostream>
#include <vector>
constexpr int MU_MAX = 1'000'000;
std::vector<int> MU;
int mobiusFunction(int n) {
if (!MU.empty()) {
return MU[n];
}
MU.resize(MU_MAX + 1, 1);
int root = sqrt(MU_MAX);
for (int i = 2; i <= root; i++) {
if (MU[i] == 1) {
for (int j = i; j <= MU_MAX; j += i) {
MU[j] *= -i;
}
for (int j = i * i; j <= MU_MAX; j += i * i) {
MU[j] = 0;
}
}
}
for (int i = 2; i <= MU_MAX; i++) {
if (MU[i] == i) {
MU[i] = 1;
} else if (MU[i] == -i) {
MU[i] = -1;
} else if (MU[i] < 0) {
MU[i] = 1;
} else if (MU[i] > 0) {
MU[i] = -1;
}
}
return MU[n];
}
int main() {
std::cout << "First 199 terms of the möbius function are as follows:\n ";
for (int n = 1; n < 200; n++) {
std::cout << std::setw(2) << mobiusFunction(n) << " ";
if ((n + 1) % 20 == 0) {
std::cout << '\n';
}
}
return 0;
}
|
Translate the given C code snippet into C++ without altering its behavior. | #include <stdio.h>
#include <string.h>
#include <stdlib.h>
char * incr(char *s)
{
int i, begin, tail, len;
int neg = (*s == '-');
char tgt = neg ? '0' : '9';
if (!strcmp(s, "-1")) {
s[0] = '0', s[1] = '\0';
return s;
}
len = strlen(s);
begin = (*s == '-' || *s == '+') ? 1 : 0;
for (tail = len - 1; tail >= begin && s[tail] == tgt; tail--);
if (tail < begin && !neg) {
if (!begin) s = realloc(s, len + 2);
s[0] = '1';
for (i = 1; i <= len - begin; i++) s[i] = '0';
s[len + 1] = '\0';
} else if (tail == begin && neg && s[1] == '1') {
for (i = 1; i < len - begin; i++) s[i] = '9';
s[len - 1] = '\0';
} else {
for (i = len - 1; i > tail; i--)
s[i] = neg ? '9' : '0';
s[tail] += neg ? -1 : 1;
}
return s;
}
void string_test(const char *s)
{
char *ret = malloc(strlen(s));
strcpy(ret, s);
printf("text: %s\n", ret);
printf(" ->: %s\n", ret = incr(ret));
free(ret);
}
int main()
{
string_test("+0");
string_test("-1");
string_test("-41");
string_test("+41");
string_test("999");
string_test("+999");
string_test("109999999999999999999999999999999999999999");
string_test("-100000000000000000000000000000000000000000000");
return 0;
}
|
#include <cstdlib>
#include <string>
#include <sstream>
std::string s = "12345";
int i;
std::istringstream(s) >> i;
i++;
std::ostringstream oss;
if (oss << i) s = oss.str();
|
Rewrite this program in C++ while keeping its functionality equivalent to the C version. | #include <string.h>
#include <stdio.h>
#include <stdlib.h>
char *strip_chars(const char *string, const char *chars)
{
char * newstr = malloc(strlen(string) + 1);
int counter = 0;
for ( ; *string; string++) {
if (!strchr(chars, *string)) {
newstr[ counter ] = *string;
++ counter;
}
}
newstr[counter] = 0;
return newstr;
}
int main(void)
{
char *new = strip_chars("She was a soul stripper. She took my heart!", "aei");
printf("%s\n", new);
free(new);
return 0;
}
| #include <algorithm>
#include <iostream>
#include <string>
std::string stripchars(std::string str, const std::string &chars)
{
str.erase(
std::remove_if(str.begin(), str.end(), [&](char c){
return chars.find(c) != std::string::npos;
}),
str.end()
);
return str;
}
int main()
{
std::cout << stripchars("She was a soul stripper. She took my heart!", "aei") << '\n';
return 0;
}
|
Write the same algorithm in C++ as shown in this C implementation. | #include <stdio.h>
#include <stdlib.h>
#include <string.h>
typedef int(*cmp_func)(const void*, const void*);
void perm_sort(void *a, int n, size_t msize, cmp_func _cmp)
{
char *p, *q, *tmp = malloc(msize);
# define A(i) ((char *)a + msize * (i))
# define swap(a, b) {\
memcpy(tmp, a, msize);\
memcpy(a, b, msize);\
memcpy(b, tmp, msize); }
while (1) {
for (p = A(n - 1); (void*)p > a; p = q)
if (_cmp(q = p - msize, p) > 0)
break;
if ((void*)p <= a) break;
for (p = A(n - 1); p > q; p-= msize)
if (_cmp(q, p) > 0) break;
swap(p, q);
for (q += msize, p = A(n - 1); q < p; q += msize, p -= msize)
swap(p, q);
}
free(tmp);
}
int scmp(const void *a, const void *b) { return strcmp(*(const char *const *)a, *(const char *const *)b); }
int main()
{
int i;
const char *strs[] = { "spqr", "abc", "giant squid", "stuff", "def" };
perm_sort(strs, 5, sizeof(*strs), scmp);
for (i = 0; i < 5; i++)
printf("%s\n", strs[i]);
return 0;
}
| #include <algorithm>
template<typename ForwardIterator>
void permutation_sort(ForwardIterator begin, ForwardIterator end)
{
while (std::next_permutation(begin, end))
{
}
}
|
Write the same algorithm in C++ as shown in this C implementation. | #include <stdio.h>
double mean(double *v, int len)
{
double sum = 0;
int i;
for (i = 0; i < len; i++)
sum += v[i];
return sum / len;
}
int main(void)
{
double v[] = {1, 2, 2.718, 3, 3.142};
int i, len;
for (len = 5; len >= 0; len--) {
printf("mean[");
for (i = 0; i < len; i++)
printf(i ? ", %g" : "%g", v[i]);
printf("] = %g\n", mean(v, len));
}
return 0;
}
| #include <vector>
double mean(const std::vector<double>& numbers)
{
if (numbers.size() == 0)
return 0;
double sum = 0;
for (std::vector<double>::iterator i = numbers.begin(); i != numbers.end(); i++)
sum += *i;
return sum / numbers.size();
}
|
Convert this C snippet to C++ and keep its semantics consistent. | #include <ctype.h>
#include <stdbool.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
const char* command_table =
"add 1 alter 3 backup 2 bottom 1 Cappend 2 change 1 Schange Cinsert 2 Clast 3 "
"compress 4 copy 2 count 3 Coverlay 3 cursor 3 delete 3 Cdelete 2 down 1 duplicate "
"3 xEdit 1 expand 3 extract 3 find 1 Nfind 2 Nfindup 6 NfUP 3 Cfind 2 findUP 3 fUP 2 "
"forward 2 get help 1 hexType 4 input 1 powerInput 3 join 1 split 2 spltJOIN load "
"locate 1 Clocate 2 lowerCase 3 upperCase 3 Lprefix 2 macro merge 2 modify 3 move 2 "
"msg next 1 overlay 1 parse preserve 4 purge 3 put putD query 1 quit read recover 3 "
"refresh renum 3 repeat 3 replace 1 Creplace 2 reset 3 restore 4 rgtLEFT right 2 left "
"2 save set shift 2 si sort sos stack 3 status 4 top transfer 3 type 1 up 1";
typedef struct command_tag {
char* cmd;
size_t length;
size_t min_len;
struct command_tag* next;
} command_t;
bool command_match(const command_t* command, const char* str) {
size_t olen = strlen(str);
return olen >= command->min_len && olen <= command->length
&& strncmp(str, command->cmd, olen) == 0;
}
char* uppercase(char* str, size_t n) {
for (size_t i = 0; i < n; ++i)
str[i] = toupper((unsigned char)str[i]);
return str;
}
void fatal(const char* message) {
fprintf(stderr, "%s\n", message);
exit(1);
}
void* xmalloc(size_t n) {
void* ptr = malloc(n);
if (ptr == NULL)
fatal("Out of memory");
return ptr;
}
void* xrealloc(void* p, size_t n) {
void* ptr = realloc(p, n);
if (ptr == NULL)
fatal("Out of memory");
return ptr;
}
char** split_into_words(const char* str, size_t* count) {
size_t size = 0;
size_t capacity = 16;
char** words = xmalloc(capacity * sizeof(char*));
size_t len = strlen(str);
for (size_t begin = 0; begin < len; ) {
size_t i = begin;
for (; i < len && isspace((unsigned char)str[i]); ++i) {}
begin = i;
for (; i < len && !isspace((unsigned char)str[i]); ++i) {}
size_t word_len = i - begin;
if (word_len == 0)
break;
char* word = xmalloc(word_len + 1);
memcpy(word, str + begin, word_len);
word[word_len] = 0;
begin += word_len;
if (capacity == size) {
capacity *= 2;
words = xrealloc(words, capacity * sizeof(char*));
}
words[size++] = word;
}
*count = size;
return words;
}
command_t* make_command_list(const char* table) {
command_t* cmd = NULL;
size_t count = 0;
char** words = split_into_words(table, &count);
for (size_t i = 0; i < count; ++i) {
char* word = words[i];
command_t* new_cmd = xmalloc(sizeof(command_t));
size_t word_len = strlen(word);
new_cmd->length = word_len;
new_cmd->min_len = word_len;
new_cmd->cmd = uppercase(word, word_len);
if (i + 1 < count) {
char* eptr = 0;
unsigned long min_len = strtoul(words[i + 1], &eptr, 10);
if (min_len > 0 && *eptr == 0) {
free(words[i + 1]);
new_cmd->min_len = min_len;
++i;
}
}
new_cmd->next = cmd;
cmd = new_cmd;
}
free(words);
return cmd;
}
void free_command_list(command_t* cmd) {
while (cmd != NULL) {
command_t* next = cmd->next;
free(cmd->cmd);
free(cmd);
cmd = next;
}
}
const command_t* find_command(const command_t* commands, const char* word) {
for (const command_t* cmd = commands; cmd != NULL; cmd = cmd->next) {
if (command_match(cmd, word))
return cmd;
}
return NULL;
}
void test(const command_t* commands, const char* input) {
printf(" input: %s\n", input);
printf("output:");
size_t count = 0;
char** words = split_into_words(input, &count);
for (size_t i = 0; i < count; ++i) {
char* word = words[i];
uppercase(word, strlen(word));
const command_t* cmd_ptr = find_command(commands, word);
printf(" %s", cmd_ptr ? cmd_ptr->cmd : "*error*");
free(word);
}
free(words);
printf("\n");
}
int main() {
command_t* commands = make_command_list(command_table);
const char* input = "riG rePEAT copies put mo rest types fup. 6 poweRin";
test(commands, input);
free_command_list(commands);
return 0;
}
| #include <algorithm>
#include <cctype>
#include <iostream>
#include <sstream>
#include <string>
#include <vector>
const char* command_table =
"add 1 alter 3 backup 2 bottom 1 Cappend 2 change 1 Schange Cinsert 2 Clast 3 "
"compress 4 copy 2 count 3 Coverlay 3 cursor 3 delete 3 Cdelete 2 down 1 duplicate "
"3 xEdit 1 expand 3 extract 3 find 1 Nfind 2 Nfindup 6 NfUP 3 Cfind 2 findUP 3 fUP 2 "
"forward 2 get help 1 hexType 4 input 1 powerInput 3 join 1 split 2 spltJOIN load "
"locate 1 Clocate 2 lowerCase 3 upperCase 3 Lprefix 2 macro merge 2 modify 3 move 2 "
"msg next 1 overlay 1 parse preserve 4 purge 3 put putD query 1 quit read recover 3 "
"refresh renum 3 repeat 3 replace 1 Creplace 2 reset 3 restore 4 rgtLEFT right 2 left "
"2 save set shift 2 si sort sos stack 3 status 4 top transfer 3 type 1 up 1";
class command {
public:
command(const std::string&, size_t);
const std::string& cmd() const { return cmd_; }
size_t min_length() const { return min_len_; }
bool match(const std::string&) const;
private:
std::string cmd_;
size_t min_len_;
};
command::command(const std::string& cmd, size_t min_len)
: cmd_(cmd), min_len_(min_len) {}
bool command::match(const std::string& str) const {
size_t olen = str.length();
return olen >= min_len_ && olen <= cmd_.length()
&& cmd_.compare(0, olen, str) == 0;
}
bool parse_integer(const std::string& word, int& value) {
try {
size_t pos;
int i = std::stoi(word, &pos, 10);
if (pos < word.length())
return false;
value = i;
return true;
} catch (const std::exception& ex) {
return false;
}
}
void uppercase(std::string& str) {
std::transform(str.begin(), str.end(), str.begin(),
[](unsigned char c) -> unsigned char { return std::toupper(c); });
}
class command_list {
public:
explicit command_list(const char*);
const command* find_command(const std::string&) const;
private:
std::vector<command> commands_;
};
command_list::command_list(const char* table) {
std::istringstream is(table);
std::string word;
std::vector<std::string> words;
while (is >> word) {
uppercase(word);
words.push_back(word);
}
for (size_t i = 0, n = words.size(); i < n; ++i) {
word = words[i];
int len = word.length();
if (i + 1 < n && parse_integer(words[i + 1], len))
++i;
commands_.push_back(command(word, len));
}
}
const command* command_list::find_command(const std::string& word) const {
auto iter = std::find_if(commands_.begin(), commands_.end(),
[&word](const command& cmd) { return cmd.match(word); });
return (iter != commands_.end()) ? &*iter : nullptr;
}
std::string test(const command_list& commands, const std::string& input) {
std::string output;
std::istringstream is(input);
std::string word;
while (is >> word) {
if (!output.empty())
output += ' ';
uppercase(word);
const command* cmd_ptr = commands.find_command(word);
if (cmd_ptr)
output += cmd_ptr->cmd();
else
output += "*error*";
}
return output;
}
int main() {
command_list commands(command_table);
std::string input("riG rePEAT copies put mo rest types fup. 6 poweRin");
std::string output(test(commands, input));
std::cout << " input: " << input << '\n';
std::cout << "output: " << output << '\n';
return 0;
}
|
Produce a language-to-language conversion: from C to C++, same semantics. | #include <ctype.h>
#include <stdbool.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
const char* command_table =
"add 1 alter 3 backup 2 bottom 1 Cappend 2 change 1 Schange Cinsert 2 Clast 3 "
"compress 4 copy 2 count 3 Coverlay 3 cursor 3 delete 3 Cdelete 2 down 1 duplicate "
"3 xEdit 1 expand 3 extract 3 find 1 Nfind 2 Nfindup 6 NfUP 3 Cfind 2 findUP 3 fUP 2 "
"forward 2 get help 1 hexType 4 input 1 powerInput 3 join 1 split 2 spltJOIN load "
"locate 1 Clocate 2 lowerCase 3 upperCase 3 Lprefix 2 macro merge 2 modify 3 move 2 "
"msg next 1 overlay 1 parse preserve 4 purge 3 put putD query 1 quit read recover 3 "
"refresh renum 3 repeat 3 replace 1 Creplace 2 reset 3 restore 4 rgtLEFT right 2 left "
"2 save set shift 2 si sort sos stack 3 status 4 top transfer 3 type 1 up 1";
typedef struct command_tag {
char* cmd;
size_t length;
size_t min_len;
struct command_tag* next;
} command_t;
bool command_match(const command_t* command, const char* str) {
size_t olen = strlen(str);
return olen >= command->min_len && olen <= command->length
&& strncmp(str, command->cmd, olen) == 0;
}
char* uppercase(char* str, size_t n) {
for (size_t i = 0; i < n; ++i)
str[i] = toupper((unsigned char)str[i]);
return str;
}
void fatal(const char* message) {
fprintf(stderr, "%s\n", message);
exit(1);
}
void* xmalloc(size_t n) {
void* ptr = malloc(n);
if (ptr == NULL)
fatal("Out of memory");
return ptr;
}
void* xrealloc(void* p, size_t n) {
void* ptr = realloc(p, n);
if (ptr == NULL)
fatal("Out of memory");
return ptr;
}
char** split_into_words(const char* str, size_t* count) {
size_t size = 0;
size_t capacity = 16;
char** words = xmalloc(capacity * sizeof(char*));
size_t len = strlen(str);
for (size_t begin = 0; begin < len; ) {
size_t i = begin;
for (; i < len && isspace((unsigned char)str[i]); ++i) {}
begin = i;
for (; i < len && !isspace((unsigned char)str[i]); ++i) {}
size_t word_len = i - begin;
if (word_len == 0)
break;
char* word = xmalloc(word_len + 1);
memcpy(word, str + begin, word_len);
word[word_len] = 0;
begin += word_len;
if (capacity == size) {
capacity *= 2;
words = xrealloc(words, capacity * sizeof(char*));
}
words[size++] = word;
}
*count = size;
return words;
}
command_t* make_command_list(const char* table) {
command_t* cmd = NULL;
size_t count = 0;
char** words = split_into_words(table, &count);
for (size_t i = 0; i < count; ++i) {
char* word = words[i];
command_t* new_cmd = xmalloc(sizeof(command_t));
size_t word_len = strlen(word);
new_cmd->length = word_len;
new_cmd->min_len = word_len;
new_cmd->cmd = uppercase(word, word_len);
if (i + 1 < count) {
char* eptr = 0;
unsigned long min_len = strtoul(words[i + 1], &eptr, 10);
if (min_len > 0 && *eptr == 0) {
free(words[i + 1]);
new_cmd->min_len = min_len;
++i;
}
}
new_cmd->next = cmd;
cmd = new_cmd;
}
free(words);
return cmd;
}
void free_command_list(command_t* cmd) {
while (cmd != NULL) {
command_t* next = cmd->next;
free(cmd->cmd);
free(cmd);
cmd = next;
}
}
const command_t* find_command(const command_t* commands, const char* word) {
for (const command_t* cmd = commands; cmd != NULL; cmd = cmd->next) {
if (command_match(cmd, word))
return cmd;
}
return NULL;
}
void test(const command_t* commands, const char* input) {
printf(" input: %s\n", input);
printf("output:");
size_t count = 0;
char** words = split_into_words(input, &count);
for (size_t i = 0; i < count; ++i) {
char* word = words[i];
uppercase(word, strlen(word));
const command_t* cmd_ptr = find_command(commands, word);
printf(" %s", cmd_ptr ? cmd_ptr->cmd : "*error*");
free(word);
}
free(words);
printf("\n");
}
int main() {
command_t* commands = make_command_list(command_table);
const char* input = "riG rePEAT copies put mo rest types fup. 6 poweRin";
test(commands, input);
free_command_list(commands);
return 0;
}
| #include <algorithm>
#include <cctype>
#include <iostream>
#include <sstream>
#include <string>
#include <vector>
const char* command_table =
"add 1 alter 3 backup 2 bottom 1 Cappend 2 change 1 Schange Cinsert 2 Clast 3 "
"compress 4 copy 2 count 3 Coverlay 3 cursor 3 delete 3 Cdelete 2 down 1 duplicate "
"3 xEdit 1 expand 3 extract 3 find 1 Nfind 2 Nfindup 6 NfUP 3 Cfind 2 findUP 3 fUP 2 "
"forward 2 get help 1 hexType 4 input 1 powerInput 3 join 1 split 2 spltJOIN load "
"locate 1 Clocate 2 lowerCase 3 upperCase 3 Lprefix 2 macro merge 2 modify 3 move 2 "
"msg next 1 overlay 1 parse preserve 4 purge 3 put putD query 1 quit read recover 3 "
"refresh renum 3 repeat 3 replace 1 Creplace 2 reset 3 restore 4 rgtLEFT right 2 left "
"2 save set shift 2 si sort sos stack 3 status 4 top transfer 3 type 1 up 1";
class command {
public:
command(const std::string&, size_t);
const std::string& cmd() const { return cmd_; }
size_t min_length() const { return min_len_; }
bool match(const std::string&) const;
private:
std::string cmd_;
size_t min_len_;
};
command::command(const std::string& cmd, size_t min_len)
: cmd_(cmd), min_len_(min_len) {}
bool command::match(const std::string& str) const {
size_t olen = str.length();
return olen >= min_len_ && olen <= cmd_.length()
&& cmd_.compare(0, olen, str) == 0;
}
bool parse_integer(const std::string& word, int& value) {
try {
size_t pos;
int i = std::stoi(word, &pos, 10);
if (pos < word.length())
return false;
value = i;
return true;
} catch (const std::exception& ex) {
return false;
}
}
void uppercase(std::string& str) {
std::transform(str.begin(), str.end(), str.begin(),
[](unsigned char c) -> unsigned char { return std::toupper(c); });
}
class command_list {
public:
explicit command_list(const char*);
const command* find_command(const std::string&) const;
private:
std::vector<command> commands_;
};
command_list::command_list(const char* table) {
std::istringstream is(table);
std::string word;
std::vector<std::string> words;
while (is >> word) {
uppercase(word);
words.push_back(word);
}
for (size_t i = 0, n = words.size(); i < n; ++i) {
word = words[i];
int len = word.length();
if (i + 1 < n && parse_integer(words[i + 1], len))
++i;
commands_.push_back(command(word, len));
}
}
const command* command_list::find_command(const std::string& word) const {
auto iter = std::find_if(commands_.begin(), commands_.end(),
[&word](const command& cmd) { return cmd.match(word); });
return (iter != commands_.end()) ? &*iter : nullptr;
}
std::string test(const command_list& commands, const std::string& input) {
std::string output;
std::istringstream is(input);
std::string word;
while (is >> word) {
if (!output.empty())
output += ' ';
uppercase(word);
const command* cmd_ptr = commands.find_command(word);
if (cmd_ptr)
output += cmd_ptr->cmd();
else
output += "*error*";
}
return output;
}
int main() {
command_list commands(command_table);
std::string input("riG rePEAT copies put mo rest types fup. 6 poweRin");
std::string output(test(commands, input));
std::cout << " input: " << input << '\n';
std::cout << "output: " << output << '\n';
return 0;
}
|
Rewrite this program in C++ while keeping its functionality equivalent to the C version. | #include <stdio.h>
#include <stdlib.h>
#include <stdbool.h>
#include <string.h>
#include <math.h>
#define MAXLEN 100
int makehist(unsigned char *S,int *hist,int len){
int wherechar[256];
int i,histlen;
histlen=0;
for(i=0;i<256;i++)wherechar[i]=-1;
for(i=0;i<len;i++){
if(wherechar[(int)S[i]]==-1){
wherechar[(int)S[i]]=histlen;
histlen++;
}
hist[wherechar[(int)S[i]]]++;
}
return histlen;
}
double entropy(int *hist,int histlen,int len){
int i;
double H;
H=0;
for(i=0;i<histlen;i++){
H-=(double)hist[i]/len*log2((double)hist[i]/len);
}
return H;
}
int main(void){
unsigned char S[MAXLEN];
int len,*hist,histlen;
double H;
scanf("%[^\n]",S);
len=strlen(S);
hist=(int*)calloc(len,sizeof(int));
histlen=makehist(S,hist,len);
H=entropy(hist,histlen,len);
printf("%lf\n",H);
return 0;
}
| #include <string>
#include <map>
#include <iostream>
#include <algorithm>
#include <cmath>
double log2( double number ) {
return log( number ) / log( 2 ) ;
}
int main( int argc , char *argv[ ] ) {
std::string teststring( argv[ 1 ] ) ;
std::map<char , int> frequencies ;
for ( char c : teststring )
frequencies[ c ] ++ ;
int numlen = teststring.length( ) ;
double infocontent = 0 ;
for ( std::pair<char , int> p : frequencies ) {
double freq = static_cast<double>( p.second ) / numlen ;
infocontent -= freq * log2( freq ) ;
}
std::cout << "The information content of " << teststring
<< " is " << infocontent << std::endl ;
return 0 ;
}
|
Translate this program into C++ but keep the logic exactly as in C. | #include <stdlib.h>
#include <stdio.h>
#define STR_DEMO "one^|uno||three^^^^|four^^^|^cuatro|"
#define SEP '|'
#define ESC '^'
typedef char* Str;
unsigned int ElQ( const char *s, char sep, char esc );
Str *Tokenize( char *s, char sep, char esc, unsigned int *q );
int main() {
char s[] = STR_DEMO;
unsigned int i, q;
Str *list = Tokenize( s, SEP, ESC, &q );
if( list != NULL ) {
printf( "\n Original string: %s\n\n", STR_DEMO );
printf( " %d tokens:\n\n", q );
for( i=0; i<q; ++i )
printf( " %4d. %s\n", i+1, list[i] );
free( list );
}
return 0;
}
unsigned int ElQ( const char *s, char sep, char esc ) {
unsigned int q, e;
const char *p;
for( e=0, q=1, p=s; *p; ++p ) {
if( *p == esc )
e = !e;
else if( *p == sep )
q += !e;
else e = 0;
}
return q;
}
Str *Tokenize( char *s, char sep, char esc, unsigned int *q ) {
Str *list = NULL;
*q = ElQ( s, sep, esc );
list = malloc( *q * sizeof(Str) );
if( list != NULL ) {
unsigned int e, i;
char *p;
i = 0;
list[i++] = s;
for( e=0, p=s; *p; ++p ) {
if( *p == esc ) {
e = !e;
}
else if( *p == sep && !e ) {
list[i++] = p+1;
*p = '\0';
}
else {
e = 0;
}
}
}
return list;
}
| #include <iostream>
#include <stdexcept>
#include <string>
#include <vector>
using namespace std;
vector<string> tokenize(const string& input, char seperator, char escape) {
vector<string> output;
string token;
bool inEsc = false;
for (char ch : input) {
if (inEsc) {
inEsc = false;
} else if (ch == escape) {
inEsc = true;
continue;
} else if (ch == seperator) {
output.push_back(token);
token = "";
continue;
}
token += ch;
}
if (inEsc)
throw new invalid_argument("Invalid terminal escape");
output.push_back(token);
return output;
}
int main() {
string sample = "one^|uno||three^^^^|four^^^|^cuatro|";
cout << sample << endl;
cout << '[';
for (auto t : tokenize(sample, '|', '^')) {
cout << '"' << t << "\", ";
}
cout << ']' << endl;
return 0;
}
|
Produce a functionally identical C++ code for the snippet given in C. | const hello = "Hello world!\n"
print(hello)
| #include <iostream>
int main () {
std::cout << "Hello world!" << std::endl;
}
|
Produce a language-to-language conversion: from PHP to C, same semantics. | function bitwise($a, $b)
{
function zerofill($a,$b) {
if($a>=0) return $a>>$b;
if($b==0) return (($a>>1)&0x7fffffff)*2+(($a>>$b)&1); // this line shifts a 0 into the sign bit for compatibility, replace with "if($b==0) return $a;" if you need $b=0 to mean that nothing happens
return ((~$a)>>$b)^(0x7fffffff>>($b-1));
echo '$a AND $b: ' . $a & $b . '\n';
echo '$a OR $b: ' . $a | $b . '\n';
echo '$a XOR $b: ' . $a ^ $b . '\n';
echo 'NOT $a: ' . ~$a . '\n';
echo '$a << $b: ' . $a << $b . '\n'; // left shift
echo '$a >> $b: ' . $a >> $b . '\n'; // arithmetic right shift
echo 'zerofill($a, $b): ' . zerofill($a, $b) . '\n'; // logical right shift
}
| void bitwise(int a, int b)
{
printf("a and b: %d\n", a & b);
printf("a or b: %d\n", a | b);
printf("a xor b: %d\n", a ^ b);
printf("not a: %d\n", ~a);
printf("a << n: %d\n", a << b);
printf("a >> n: %d\n", a >> b);
unsigned int c = a;
printf("c >> b: %d\n", c >> b);
return 0;
}
|
Change the programming language of this snippet from PHP to C without modifying what it does. | <?php
$file = fopen(__FILE__, 'r'); // read current file
while ($line = fgets($file)) {
$line = rtrim($line); // removes linebreaks and spaces at end
echo strrev($line) . "\n"; // reverse line and upload it
}
|
#include <conio.h>
#include <stdio.h>
int main()
{
int n1, n2, n3;
printf( "\n Introduzca el primer n%cmero (entero): ", 163 );
scanf( "%d", &n1 );
printf( "\n Introduzca el segundo n%cmero (entero): ", 163 );
scanf( "%d", &n2 );
printf( "\n Introduzca el tercer n%cmero (entero): ", 163 );
scanf( "%d", &n3 );
if ( n1 >= n2 && n1 >= n3 )
printf( "\n %d es el mayor.", n1 );
else
if ( n2 > n3 )
printf( "\n %d es el mayor.", n2 );
else
printf( "\n %d es el mayor.", n3 );
getch();
return 0;
}
|
Translate the given PHP code snippet into C without altering its behavior. | base_convert("26", 10, 16); // returns "1a"
| #include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include <stdint.h>
char *to_base(int64_t num, int base)
{
char *tbl = "0123456789abcdefghijklmnopqrstuvwxyz";
char buf[66] = {'\0'};
char *out;
uint64_t n;
int i, len = 0, neg = 0;
if (base > 36) {
fprintf(stderr, "base %d too large\n", base);
return 0;
}
n = ((neg = num < 0)) ? (~num) + 1 : num;
do { buf[len++] = tbl[n % base]; } while(n /= base);
out = malloc(len + neg + 1);
for (i = neg; len > 0; i++) out[i] = buf[--len];
if (neg) out[0] = '-';
return out;
}
long from_base(const char *num_str, int base)
{
char *endptr;
int result = strtol(num_str, &endptr, base);
return result;
}
int main()
{
int64_t x;
x = ~(1LL << 63) + 1;
printf("%lld in base 2: %s\n", x, to_base(x, 2));
x = 383;
printf("%lld in base 16: %s\n", x, to_base(x, 16));
return 0;
}
|
Generate an equivalent C version of this PHP code. | function findFiles($dir = '.', $pattern = '/./'){
$prefix = $dir . '/';
$dir = dir($dir);
while (false !== ($file = $dir->read())){
if ($file === '.' || $file === '..') continue;
$file = $prefix . $file;
if (is_dir($file)) findFiles($file, $pattern);
if (preg_match($pattern, $file)){
echo $file . "\n";
}
}
}
findFiles('./foo', '/\.bar$/');
| #include <sys/types.h>
#include <sys/stat.h>
#include <unistd.h>
#include <dirent.h>
#include <regex.h>
#include <stdio.h>
#include <string.h>
#include <errno.h>
#include <err.h>
enum {
WALK_OK = 0,
WALK_BADPATTERN,
WALK_NAMETOOLONG,
WALK_BADIO,
};
#define WS_NONE 0
#define WS_RECURSIVE (1 << 0)
#define WS_DEFAULT WS_RECURSIVE
#define WS_FOLLOWLINK (1 << 1)
#define WS_DOTFILES (1 << 2)
#define WS_MATCHDIRS (1 << 3)
int walk_recur(char *dname, regex_t *reg, int spec)
{
struct dirent *dent;
DIR *dir;
struct stat st;
char fn[FILENAME_MAX];
int res = WALK_OK;
int len = strlen(dname);
if (len >= FILENAME_MAX - 1)
return WALK_NAMETOOLONG;
strcpy(fn, dname);
fn[len++] = '/';
if (!(dir = opendir(dname))) {
warn("can't open %s", dname);
return WALK_BADIO;
}
errno = 0;
while ((dent = readdir(dir))) {
if (!(spec & WS_DOTFILES) && dent->d_name[0] == '.')
continue;
if (!strcmp(dent->d_name, ".") || !strcmp(dent->d_name, ".."))
continue;
strncpy(fn + len, dent->d_name, FILENAME_MAX - len);
if (lstat(fn, &st) == -1) {
warn("Can't stat %s", fn);
res = WALK_BADIO;
continue;
}
if (S_ISLNK(st.st_mode) && !(spec & WS_FOLLOWLINK))
continue;
if (S_ISDIR(st.st_mode)) {
if ((spec & WS_RECURSIVE))
walk_recur(fn, reg, spec);
if (!(spec & WS_MATCHDIRS)) continue;
}
if (!regexec(reg, fn, 0, 0, 0)) puts(fn);
}
if (dir) closedir(dir);
return res ? res : errno ? WALK_BADIO : WALK_OK;
}
int walk_dir(char *dname, char *pattern, int spec)
{
regex_t r;
int res;
if (regcomp(&r, pattern, REG_EXTENDED | REG_NOSUB))
return WALK_BADPATTERN;
res = walk_recur(dname, &r, spec);
regfree(&r);
return res;
}
int main()
{
int r = walk_dir(".", ".\\.c$", WS_DEFAULT|WS_MATCHDIRS);
switch(r) {
case WALK_OK: break;
case WALK_BADIO: err(1, "IO error");
case WALK_BADPATTERN: err(1, "Bad pattern");
case WALK_NAMETOOLONG: err(1, "Filename too long");
default:
err(1, "Unknown error?");
}
return 0;
}
|
Port the following code from PHP to C with equivalent syntax and logic. | printf("%x\n", crc32("The quick brown fox jumps over the lazy dog"));
| #include <stdio.h>
#include <string.h>
#include <zlib.h>
int main()
{
const char *s = "The quick brown fox jumps over the lazy dog";
printf("%lX\n", crc32(0, (const void*)s, strlen(s)));
return 0;
}
|
Can you help me rewrite this code in C instead of PHP, keeping it the same logically? | class MyClass {
public static $classVar;
public $instanceVar; // can also initialize it here
function __construct() {
$this->instanceVar = 0;
}
function someMethod() {
$this->instanceVar = 1;
self::$classVar = 3;
}
}
$myObj = new MyClass();
| #include <stdlib.h>
typedef struct sMyClass
{
int variable;
} *MyClass;
MyClass MyClass_new()
{
MyClass pthis = malloc(sizeof *pthis);
pthis->variable = 0;
return pthis;
}
void MyClass_delete(MyClass* pthis)
{
if (pthis)
{
free(*pthis);
*pthis = NULL;
}
}
void MyClass_someMethod(MyClass pthis)
{
pthis->variable = 1;
}
MyClass obj = MyClass_new();
MyClass_someMethod(obj);
MyClass_delete(&obj);
|
Ensure the translated C code behaves exactly like the original PHP snippet. | set_time_limit(300);
print_r(array_filter(range(1, 10000), 'isKaprekar'));
echo count(array_filter(range(1, 1000000), 'isKaprekar'));
function isKaprekar($n) {
$a = $n * $n;
$b = bcmod("$a", "10");
for ($d = 1, $t = 0; $a > 0; $d *= 10) {
$b += $t * $d;
if ($b > $n) break;
$a = floor($a / 10);
if ($b && $a + $b == $n)
return true;
$t = bcmod("$a", "10");
}
return false;
}
| #include <stdio.h>
#include <stdint.h>
typedef uint64_t ulong;
int kaprekar(ulong n, int base)
{
ulong nn = n * n, r, tens = 1;
if ((nn - n) % (base - 1)) return 0;
while (tens < n) tens *= base;
if (n == tens) return 1 == n;
while ((r = nn % tens) < n) {
if (nn / tens + r == n) return tens;
tens *= base;
}
return 0;
}
void print_num(ulong n, int base)
{
ulong q, div = base;
while (div < n) div *= base;
while (n && (div /= base)) {
q = n / div;
if (q < 10) putchar(q + '0');
else putchar(q + 'a' - 10);
n -= q * div;
}
}
int main()
{
ulong i, tens;
int cnt = 0;
int base = 10;
printf("base 10:\n");
for (i = 1; i < 1000000; i++)
if (kaprekar(i, base))
printf("%3d: %llu\n", ++cnt, i);
base = 17;
printf("\nbase %d:\n 1: 1\n", base);
for (i = 2, cnt = 1; i < 1000000; i++)
if ((tens = kaprekar(i, base))) {
printf("%3d: %llu", ++cnt, i);
printf(" \t"); print_num(i, base);
printf("\t"); print_num(i * i, base);
printf("\t"); print_num(i * i / tens, base);
printf(" + "); print_num(i * i % tens, base);
printf("\n");
}
return 0;
}
|
Generate an equivalent C version of this PHP code. | set_time_limit(300);
print_r(array_filter(range(1, 10000), 'isKaprekar'));
echo count(array_filter(range(1, 1000000), 'isKaprekar'));
function isKaprekar($n) {
$a = $n * $n;
$b = bcmod("$a", "10");
for ($d = 1, $t = 0; $a > 0; $d *= 10) {
$b += $t * $d;
if ($b > $n) break;
$a = floor($a / 10);
if ($b && $a + $b == $n)
return true;
$t = bcmod("$a", "10");
}
return false;
}
| #include <stdio.h>
#include <stdint.h>
typedef uint64_t ulong;
int kaprekar(ulong n, int base)
{
ulong nn = n * n, r, tens = 1;
if ((nn - n) % (base - 1)) return 0;
while (tens < n) tens *= base;
if (n == tens) return 1 == n;
while ((r = nn % tens) < n) {
if (nn / tens + r == n) return tens;
tens *= base;
}
return 0;
}
void print_num(ulong n, int base)
{
ulong q, div = base;
while (div < n) div *= base;
while (n && (div /= base)) {
q = n / div;
if (q < 10) putchar(q + '0');
else putchar(q + 'a' - 10);
n -= q * div;
}
}
int main()
{
ulong i, tens;
int cnt = 0;
int base = 10;
printf("base 10:\n");
for (i = 1; i < 1000000; i++)
if (kaprekar(i, base))
printf("%3d: %llu\n", ++cnt, i);
base = 17;
printf("\nbase %d:\n 1: 1\n", base);
for (i = 2, cnt = 1; i < 1000000; i++)
if ((tens = kaprekar(i, base))) {
printf("%3d: %llu", ++cnt, i);
printf(" \t"); print_num(i, base);
printf("\t"); print_num(i * i, base);
printf("\t"); print_num(i * i / tens, base);
printf(" + "); print_num(i * i % tens, base);
printf("\n");
}
return 0;
}
|
Produce a functionally identical C code for the snippet given in PHP. | class LZW
{
function compress($unc) {
$i;$c;$wc;
$w = "";
$dictionary = array();
$result = array();
$dictSize = 256;
for ($i = 0; $i < 256; $i += 1) {
$dictionary[chr($i)] = $i;
}
for ($i = 0; $i < strlen($unc); $i++) {
$c = $unc[$i];
$wc = $w.$c;
if (array_key_exists($w.$c, $dictionary)) {
$w = $w.$c;
} else {
array_push($result,$dictionary[$w]);
$dictionary[$wc] = $dictSize++;
$w = (string)$c;
}
}
if ($w !== "") {
array_push($result,$dictionary[$w]);
}
return implode(",",$result);
}
function decompress($com) {
$com = explode(",",$com);
$i;$w;$k;$result;
$dictionary = array();
$entry = "";
$dictSize = 256;
for ($i = 0; $i < 256; $i++) {
$dictionary[$i] = chr($i);
}
$w = chr($com[0]);
$result = $w;
for ($i = 1; $i < count($com);$i++) {
$k = $com[$i];
if (isset($dictionary[$k])) {
$entry = $dictionary[$k];
} else {
if ($k === $dictSize) {
$entry = $w.$w[0];
} else {
return null;
}
}
$result .= $entry;
$dictionary[$dictSize++] = $w . $entry[0];
$w = $entry;
}
return $result;
}
}
$str = 'TOBEORNOTTOBEORTOBEORNOT';
$lzw = new LZW();
$com = $lzw->compress($str);
$dec = $lzw->decompress($com);
echo $com . "<br>" . $dec;
| #include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <stdint.h>
#include <unistd.h>
#include <fcntl.h>
#include <sys/types.h>
#include <sys/stat.h>
void* mem_alloc(size_t item_size, size_t n_item)
{
size_t *x = calloc(1, sizeof(size_t)*2 + n_item * item_size);
x[0] = item_size;
x[1] = n_item;
return x + 2;
}
void* mem_extend(void *m, size_t new_n)
{
size_t *x = (size_t*)m - 2;
x = realloc(x, sizeof(size_t) * 2 + *x * new_n);
if (new_n > x[1])
memset((char*)(x + 2) + x[0] * x[1], 0, x[0] * (new_n - x[1]));
x[1] = new_n;
return x + 2;
}
inline void _clear(void *m)
{
size_t *x = (size_t*)m - 2;
memset(m, 0, x[0] * x[1]);
}
#define _new(type, n) mem_alloc(sizeof(type), n)
#define _del(m) { free((size_t*)(m) - 2); m = 0; }
#define _len(m) *((size_t*)m - 1)
#define _setsize(m, n) m = mem_extend(m, n)
#define _extend(m) m = mem_extend(m, _len(m) * 2)
typedef uint8_t byte;
typedef uint16_t ushort;
#define M_CLR 256
#define M_EOD 257
#define M_NEW 258
typedef struct {
ushort next[256];
} lzw_enc_t;
typedef struct {
ushort prev, back;
byte c;
} lzw_dec_t;
byte* lzw_encode(byte *in, int max_bits)
{
int len = _len(in), bits = 9, next_shift = 512;
ushort code, c, nc, next_code = M_NEW;
lzw_enc_t *d = _new(lzw_enc_t, 512);
if (max_bits > 15) max_bits = 15;
if (max_bits < 9 ) max_bits = 12;
byte *out = _new(ushort, 4);
int out_len = 0, o_bits = 0;
uint32_t tmp = 0;
inline void write_bits(ushort x) {
tmp = (tmp << bits) | x;
o_bits += bits;
if (_len(out) <= out_len) _extend(out);
while (o_bits >= 8) {
o_bits -= 8;
out[out_len++] = tmp >> o_bits;
tmp &= (1 << o_bits) - 1;
}
}
for (code = *(in++); --len; ) {
c = *(in++);
if ((nc = d[code].next[c]))
code = nc;
else {
write_bits(code);
nc = d[code].next[c] = next_code++;
code = c;
}
if (next_code == next_shift) {
if (++bits > max_bits) {
write_bits(M_CLR);
bits = 9;
next_shift = 512;
next_code = M_NEW;
_clear(d);
} else
_setsize(d, next_shift *= 2);
}
}
write_bits(code);
write_bits(M_EOD);
if (tmp) write_bits(tmp);
_del(d);
_setsize(out, out_len);
return out;
}
byte* lzw_decode(byte *in)
{
byte *out = _new(byte, 4);
int out_len = 0;
inline void write_out(byte c)
{
while (out_len >= _len(out)) _extend(out);
out[out_len++] = c;
}
lzw_dec_t *d = _new(lzw_dec_t, 512);
int len, j, next_shift = 512, bits = 9, n_bits = 0;
ushort code, c, t, next_code = M_NEW;
uint32_t tmp = 0;
inline void get_code() {
while(n_bits < bits) {
if (len > 0) {
len --;
tmp = (tmp << 8) | *(in++);
n_bits += 8;
} else {
tmp = tmp << (bits - n_bits);
n_bits = bits;
}
}
n_bits -= bits;
code = tmp >> n_bits;
tmp &= (1 << n_bits) - 1;
}
inline void clear_table() {
_clear(d);
for (j = 0; j < 256; j++) d[j].c = j;
next_code = M_NEW;
next_shift = 512;
bits = 9;
};
clear_table();
for (len = _len(in); len;) {
get_code();
if (code == M_EOD) break;
if (code == M_CLR) {
clear_table();
continue;
}
if (code >= next_code) {
fprintf(stderr, "Bad sequence\n");
_del(out);
goto bail;
}
d[next_code].prev = c = code;
while (c > 255) {
t = d[c].prev; d[t].back = c; c = t;
}
d[next_code - 1].c = c;
while (d[c].back) {
write_out(d[c].c);
t = d[c].back; d[c].back = 0; c = t;
}
write_out(d[c].c);
if (++next_code >= next_shift) {
if (++bits > 16) {
fprintf(stderr, "Too many bits\n");
_del(out);
goto bail;
}
_setsize(d, next_shift *= 2);
}
}
if (code != M_EOD) fputs("Bits did not end in EOD\n", stderr);
_setsize(out, out_len);
bail: _del(d);
return out;
}
int main()
{
int i, fd = open("unixdict.txt", O_RDONLY);
if (fd == -1) {
fprintf(stderr, "Can't read file\n");
return 1;
};
struct stat st;
fstat(fd, &st);
byte *in = _new(char, st.st_size);
read(fd, in, st.st_size);
_setsize(in, st.st_size);
close(fd);
printf("input size: %d\n", _len(in));
byte *enc = lzw_encode(in, 9);
printf("encoded size: %d\n", _len(enc));
byte *dec = lzw_decode(enc);
printf("decoded size: %d\n", _len(dec));
for (i = 0; i < _len(dec); i++)
if (dec[i] != in[i]) {
printf("bad decode at %d\n", i);
break;
}
if (i == _len(dec)) printf("Decoded ok\n");
_del(in);
_del(enc);
_del(dec);
return 0;
}
|
Transform the following PHP implementation into C, maintaining the same output and logic. | <?php
function fib($n) {
if ($n < 0)
throw new Exception('Negative numbers not allowed');
$f = function($n) { // This function must be called using call_user_func() only
if ($n < 2)
return 1;
else {
$g = debug_backtrace()[1]['args'][0];
return call_user_func($g, $n-1) + call_user_func($g, $n-2);
}
};
return call_user_func($f, $n);
}
echo fib(8), "\n";
?>
| #include <stdio.h>
long fib(long x)
{
long fib_i(long n) { return n < 2 ? n : fib_i(n - 2) + fib_i(n - 1); };
if (x < 0) {
printf("Bad argument: fib(%ld)\n", x);
return -1;
}
return fib_i(x);
}
long fib_i(long n)
{
printf("This is not the fib you are looking for\n");
return -1;
}
int main()
{
long x;
for (x = -1; x < 4; x ++)
printf("fib %ld = %ld\n", x, fib(x));
printf("calling fib_i from outside fib:\n");
fib_i(3);
return 0;
}
|
Write the same algorithm in C as shown in this PHP implementation. | <?php
echo substr("knight", 1), "\n"; // strip first character
echo substr("socks", 0, -1), "\n"; // strip last character
echo substr("brooms", 1, -1), "\n"; // strip both first and last characters
?>
| #include <string.h>
#include <stdlib.h>
#include <stdio.h>
int main( int argc, char ** argv ){
const char * str_a = "knight";
const char * str_b = "socks";
const char * str_c = "brooms";
char * new_a = malloc( strlen( str_a ) - 1 );
char * new_b = malloc( strlen( str_b ) - 1 );
char * new_c = malloc( strlen( str_c ) - 2 );
strcpy( new_a, str_a + 1 );
strncpy( new_b, str_b, strlen( str_b ) - 1 );
strncpy( new_c, str_c + 1, strlen( str_c ) - 2 );
printf( "%s\n%s\n%s\n", new_a, new_b, new_c );
free( new_a );
free( new_b );
free( new_c );
return 0;
}
|
Produce a language-to-language conversion: from PHP to C, same semantics. | <?php
echo substr("knight", 1), "\n"; // strip first character
echo substr("socks", 0, -1), "\n"; // strip last character
echo substr("brooms", 1, -1), "\n"; // strip both first and last characters
?>
| #include <string.h>
#include <stdlib.h>
#include <stdio.h>
int main( int argc, char ** argv ){
const char * str_a = "knight";
const char * str_b = "socks";
const char * str_c = "brooms";
char * new_a = malloc( strlen( str_a ) - 1 );
char * new_b = malloc( strlen( str_b ) - 1 );
char * new_c = malloc( strlen( str_c ) - 2 );
strcpy( new_a, str_a + 1 );
strncpy( new_b, str_b, strlen( str_b ) - 1 );
strncpy( new_c, str_c + 1, strlen( str_c ) - 2 );
printf( "%s\n%s\n%s\n", new_a, new_b, new_c );
free( new_a );
free( new_b );
free( new_c );
return 0;
}
|
Preserve the algorithm and functionality while converting the code from PHP to C. | <?php
echo 'Enter strings (empty string to finish) :', PHP_EOL;
$output = $previous = readline();
while ($current = readline()) {
$p = $previous;
$c = $current;
while ($p and $c) {
$p = substr($p, 1);
$c = substr($c, 1);
}
if (!$p and !$c) {
$output .= PHP_EOL . $current;
}
if ($c) {
$output = $previous = $current;
}
}
echo 'Longest string(s) = ', PHP_EOL, $output, PHP_EOL;
| #include <stdio.h>
#include <string.h>
int cmp(const char *p, const char *q)
{
while (*p && *q) p = &p[1], q = &q[1];
return *p;
}
int main()
{
char line[65536];
char buf[1000000] = {0};
char *last = buf;
char *next = buf;
while (gets(line)) {
strcat(line, "\n");
if (cmp(last, line)) continue;
if (cmp(line, last)) next = buf;
last = next;
strcpy(next, line);
while (*next) next = &next[1];
}
printf("%s", buf);
return 0;
}
|
Change the programming language of this snippet from PHP to C without modifying what it does. | <?php
touch('output.txt');
mkdir('docs');
touch('/output.txt');
mkdir('/docs');
?>
| #include <stdio.h>
int main() {
FILE *fh = fopen("output.txt", "w");
fclose(fh);
return 0;
}
|
Convert this PHP snippet to C and keep its semantics consistent. | $lst = new SplDoublyLinkedList();
foreach (array(1,20,64,72,48,75,96,55,42,74) as $v)
$lst->push($v);
foreach (strandSort($lst) as $v)
echo "$v ";
function strandSort(SplDoublyLinkedList $lst) {
$result = new SplDoublyLinkedList();
while (!$lst->isEmpty()) {
$sorted = new SplDoublyLinkedList();
$remain = new SplDoublyLinkedList();
$sorted->push($lst->shift());
foreach ($lst as $item) {
if ($sorted->top() <= $item) {
$sorted->push($item);
} else {
$remain->push($item);
}
}
$result = _merge($sorted, $result);
$lst = $remain;
}
return $result;
}
function _merge(SplDoublyLinkedList $left, SplDoublyLinkedList $right) {
$res = new SplDoublyLinkedList();
while (!$left->isEmpty() && !$right->isEmpty()) {
if ($left->bottom() <= $right->bottom()) {
$res->push($left->shift());
} else {
$res->push($right->shift());
}
}
foreach ($left as $v) $res->push($v);
foreach ($right as $v) $res->push($v);
return $res;
}
| #include <stdio.h>
typedef struct node_t *node, node_t;
struct node_t { int v; node next; };
typedef struct { node head, tail; } slist;
void push(slist *l, node e) {
if (!l->head) l->head = e;
if (l->tail) l->tail->next = e;
l->tail = e;
}
node removehead(slist *l) {
node e = l->head;
if (e) {
l->head = e->next;
e->next = 0;
}
return e;
}
void join(slist *a, slist *b) {
push(a, b->head);
a->tail = b->tail;
}
void merge(slist *a, slist *b) {
slist r = {0};
while (a->head && b->head)
push(&r, removehead(a->head->v <= b->head->v ? a : b));
join(&r, a->head ? a : b);
*a = r;
b->head = b->tail = 0;
}
void sort(int *ar, int len)
{
node_t all[len];
for (int i = 0; i < len; i++)
all[i].v = ar[i], all[i].next = i < len - 1 ? all + i + 1 : 0;
slist list = {all, all + len - 1}, rem, strand = {0}, res = {0};
for (node e = 0; list.head; list = rem) {
rem.head = rem.tail = 0;
while ((e = removehead(&list)))
push((!strand.head || e->v >= strand.tail->v) ? &strand : &rem, e);
merge(&res, &strand);
}
for (int i = 0; res.head; i++, res.head = res.head->next)
ar[i] = res.head->v;
}
void show(const char *title, int *x, int len)
{
printf("%s ", title);
for (int i = 0; i < len; i++)
printf("%3d ", x[i]);
putchar('\n');
}
int main(void)
{
int x[] = {-2,0,-2,5,5,3,-1,-3,5,5,0,2,-4,4,2};
# define SIZE sizeof(x)/sizeof(int)
show("before sort:", x, SIZE);
sort(x, sizeof(x)/sizeof(int));
show("after sort: ", x, SIZE);
return 0;
}
|
Change the following PHP code into C without altering its purpose. | class Delegator {
function __construct() {
$this->delegate = NULL ;
}
function operation() {
if(method_exists($this->delegate, "thing"))
return $this->delegate->thing() ;
return 'default implementation' ;
}
}
class Delegate {
function thing() {
return 'Delegate Implementation' ;
}
}
$a = new Delegator() ;
print "{$a->operation()}\n" ;
$a->delegate = 'A delegate may be any object' ;
print "{$a->operation()}\n" ;
$a->delegate = new Delegate() ;
print "{$a->operation()}\n" ;
| #include <stdio.h>
#include <stdlib.h>
#include <string.h>
typedef const char * (*Responder)( int p1);
typedef struct sDelegate {
Responder operation;
} *Delegate;
Delegate NewDelegate( Responder rspndr )
{
Delegate dl = malloc(sizeof(struct sDelegate));
dl->operation = rspndr;
return dl;
}
const char *DelegateThing(Delegate dl, int p1)
{
return (dl->operation)? (*dl->operation)(p1) : NULL;
}
typedef struct sDelegator {
int param;
char *phrase;
Delegate delegate;
} *Delegator;
const char * defaultResponse( int p1)
{
return "default implementation";
}
static struct sDelegate defaultDel = { &defaultResponse };
Delegator NewDelegator( int p, char *phrase)
{
Delegator d = malloc(sizeof(struct sDelegator));
d->param = p;
d->phrase = phrase;
d->delegate = &defaultDel;
return d;
}
const char *Delegator_Operation( Delegator theDelegator, int p1, Delegate delroy)
{
const char *rtn;
if (delroy) {
rtn = DelegateThing(delroy, p1);
if (!rtn) {
rtn = DelegateThing(theDelegator->delegate, p1);
}
}
else
rtn = DelegateThing(theDelegator->delegate, p1);
printf("%s\n", theDelegator->phrase );
return rtn;
}
const char *thing1( int p1)
{
printf("We're in thing1 with value %d\n" , p1);
return "delegate implementation";
}
int main()
{
Delegate del1 = NewDelegate(&thing1);
Delegate del2 = NewDelegate(NULL);
Delegator theDelegator = NewDelegator( 14, "A stellar vista, Baby.");
printf("Delegator returns %s\n\n",
Delegator_Operation( theDelegator, 3, NULL));
printf("Delegator returns %s\n\n",
Delegator_Operation( theDelegator, 3, del1));
printf("Delegator returns %s\n\n",
Delegator_Operation( theDelegator, 3, del2));
return 0;
}
|
Convert this PHP block to C, preserving its control flow and logic. |
$commands = 'Add ALTer BAckup Bottom CAppend Change SCHANGE CInsert CLAst COMPress COpy
COUnt COVerlay CURsor DELete CDelete Down DUPlicate Xedit EXPand EXTract Find
NFind NFINDUp NFUp CFind FINdup FUp FOrward GET Help HEXType Input POWerinput
Join SPlit SPLTJOIN LOAD Locate CLocate LOWercase UPPercase LPrefix MACRO
MErge MODify MOve MSG Next Overlay PARSE PREServe PURge PUT PUTD Query QUIT
READ RECover REFRESH RENum REPeat Replace CReplace RESet RESTore RGTLEFT
RIght LEft SAVE SET SHift SI SORT SOS STAck STATus TOP TRAnsfer Type Up';
$input = 'riG rePEAT copies put mo rest types fup. 6 poweRin';
$expect = 'RIGHT REPEAT *error* PUT MOVE RESTORE *error* *error* *error* POWERINPUT';
$table = makeCommandTable($commands);
$table_keys = array_keys($table);
$inputTable = processInput($input);
foreach ($inputTable as $word) {
$rs = searchCommandTable($word, $table);
if ($rs) {
$output[] = $rs;
} else {
$output[] = '*error*';
}
}
echo 'Input: '. $input. PHP_EOL;
echo 'Output: '. implode(' ', $output). PHP_EOL;
function searchCommandTable($search, $table) {
foreach ($table as $key => $value) {
if ((strtoupper(substr($value['word'], 0, strlen($search))) === strtoupper($search)) && (strlen($search) >= $value['min_length'])) {
return $key;
}
}
return false;
}
function processInput($input) {
$input = preg_replace('!\s+!', ' ', $input);
$pieces = explode(' ', trim($input));
return $pieces;
}
function makeCommandTable($commands) {
$commands = preg_replace('!\s+!', ' ', $commands);
$pieces = explode(' ', trim($commands));
foreach ($pieces as $word) {
$rs[strtoupper($word)] = ['word'=>$word, 'min_length' => preg_match_all("/[A-Z]/", $word)];
}
return $rs;
}
| #include <ctype.h>
#include <stdbool.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
const char* command_table =
"Add ALTer BAckup Bottom CAppend Change SCHANGE CInsert CLAst COMPress COpy "
"COUnt COVerlay CURsor DELete CDelete Down DUPlicate Xedit EXPand EXTract Find "
"NFind NFINDUp NFUp CFind FINdup FUp FOrward GET Help HEXType Input POWerinput "
"Join SPlit SPLTJOIN LOAD Locate CLocate LOWercase UPPercase LPrefix MACRO "
"MErge MODify MOve MSG Next Overlay PARSE PREServe PURge PUT PUTD Query QUIT "
"READ RECover REFRESH RENum REPeat Replace CReplace RESet RESTore RGTLEFT "
"RIght LEft SAVE SET SHift SI SORT SOS STAck STATus TOP TRAnsfer Type Up";
typedef struct command_tag {
char* cmd;
size_t length;
size_t min_len;
struct command_tag* next;
} command_t;
bool command_match(const command_t* command, const char* str) {
size_t olen = strlen(str);
return olen >= command->min_len && olen <= command->length
&& strncmp(str, command->cmd, olen) == 0;
}
char* uppercase(char* str, size_t n) {
for (size_t i = 0; i < n; ++i)
str[i] = toupper((unsigned char)str[i]);
return str;
}
size_t get_min_length(const char* str, size_t n) {
size_t len = 0;
while (len < n && isupper((unsigned char)str[len]))
++len;
return len;
}
void fatal(const char* message) {
fprintf(stderr, "%s\n", message);
exit(1);
}
void* xmalloc(size_t n) {
void* ptr = malloc(n);
if (ptr == NULL)
fatal("Out of memory");
return ptr;
}
void* xrealloc(void* p, size_t n) {
void* ptr = realloc(p, n);
if (ptr == NULL)
fatal("Out of memory");
return ptr;
}
char** split_into_words(const char* str, size_t* count) {
size_t size = 0;
size_t capacity = 16;
char** words = xmalloc(capacity * sizeof(char*));
size_t len = strlen(str);
for (size_t begin = 0; begin < len; ) {
size_t i = begin;
for (; i < len && isspace((unsigned char)str[i]); ++i) {}
begin = i;
for (; i < len && !isspace((unsigned char)str[i]); ++i) {}
size_t word_len = i - begin;
if (word_len == 0)
break;
char* word = xmalloc(word_len + 1);
memcpy(word, str + begin, word_len);
word[word_len] = 0;
begin += word_len;
if (capacity == size) {
capacity *= 2;
words = xrealloc(words, capacity * sizeof(char*));
}
words[size++] = word;
}
*count = size;
return words;
}
command_t* make_command_list(const char* table) {
command_t* cmd = NULL;
size_t count = 0;
char** words = split_into_words(table, &count);
for (size_t i = 0; i < count; ++i) {
char* word = words[i];
command_t* new_cmd = xmalloc(sizeof(command_t));
size_t word_len = strlen(word);
new_cmd->length = word_len;
new_cmd->min_len = get_min_length(word, word_len);
new_cmd->cmd = uppercase(word, word_len);
new_cmd->next = cmd;
cmd = new_cmd;
}
free(words);
return cmd;
}
void free_command_list(command_t* cmd) {
while (cmd != NULL) {
command_t* next = cmd->next;
free(cmd->cmd);
free(cmd);
cmd = next;
}
}
const command_t* find_command(const command_t* commands, const char* word) {
for (const command_t* cmd = commands; cmd != NULL; cmd = cmd->next) {
if (command_match(cmd, word))
return cmd;
}
return NULL;
}
void test(const command_t* commands, const char* input) {
printf(" input: %s\n", input);
printf("output:");
size_t count = 0;
char** words = split_into_words(input, &count);
for (size_t i = 0; i < count; ++i) {
char* word = words[i];
uppercase(word, strlen(word));
const command_t* cmd_ptr = find_command(commands, word);
printf(" %s", cmd_ptr ? cmd_ptr->cmd : "*error*");
free(word);
}
free(words);
printf("\n");
}
int main() {
command_t* commands = make_command_list(command_table);
const char* input = "riG rePEAT copies put mo rest types fup. 6 poweRin";
test(commands, input);
free_command_list(commands);
return 0;
}
|
Generate an equivalent C version of this PHP code. |
$commands = 'Add ALTer BAckup Bottom CAppend Change SCHANGE CInsert CLAst COMPress COpy
COUnt COVerlay CURsor DELete CDelete Down DUPlicate Xedit EXPand EXTract Find
NFind NFINDUp NFUp CFind FINdup FUp FOrward GET Help HEXType Input POWerinput
Join SPlit SPLTJOIN LOAD Locate CLocate LOWercase UPPercase LPrefix MACRO
MErge MODify MOve MSG Next Overlay PARSE PREServe PURge PUT PUTD Query QUIT
READ RECover REFRESH RENum REPeat Replace CReplace RESet RESTore RGTLEFT
RIght LEft SAVE SET SHift SI SORT SOS STAck STATus TOP TRAnsfer Type Up';
$input = 'riG rePEAT copies put mo rest types fup. 6 poweRin';
$expect = 'RIGHT REPEAT *error* PUT MOVE RESTORE *error* *error* *error* POWERINPUT';
$table = makeCommandTable($commands);
$table_keys = array_keys($table);
$inputTable = processInput($input);
foreach ($inputTable as $word) {
$rs = searchCommandTable($word, $table);
if ($rs) {
$output[] = $rs;
} else {
$output[] = '*error*';
}
}
echo 'Input: '. $input. PHP_EOL;
echo 'Output: '. implode(' ', $output). PHP_EOL;
function searchCommandTable($search, $table) {
foreach ($table as $key => $value) {
if ((strtoupper(substr($value['word'], 0, strlen($search))) === strtoupper($search)) && (strlen($search) >= $value['min_length'])) {
return $key;
}
}
return false;
}
function processInput($input) {
$input = preg_replace('!\s+!', ' ', $input);
$pieces = explode(' ', trim($input));
return $pieces;
}
function makeCommandTable($commands) {
$commands = preg_replace('!\s+!', ' ', $commands);
$pieces = explode(' ', trim($commands));
foreach ($pieces as $word) {
$rs[strtoupper($word)] = ['word'=>$word, 'min_length' => preg_match_all("/[A-Z]/", $word)];
}
return $rs;
}
| #include <ctype.h>
#include <stdbool.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
const char* command_table =
"Add ALTer BAckup Bottom CAppend Change SCHANGE CInsert CLAst COMPress COpy "
"COUnt COVerlay CURsor DELete CDelete Down DUPlicate Xedit EXPand EXTract Find "
"NFind NFINDUp NFUp CFind FINdup FUp FOrward GET Help HEXType Input POWerinput "
"Join SPlit SPLTJOIN LOAD Locate CLocate LOWercase UPPercase LPrefix MACRO "
"MErge MODify MOve MSG Next Overlay PARSE PREServe PURge PUT PUTD Query QUIT "
"READ RECover REFRESH RENum REPeat Replace CReplace RESet RESTore RGTLEFT "
"RIght LEft SAVE SET SHift SI SORT SOS STAck STATus TOP TRAnsfer Type Up";
typedef struct command_tag {
char* cmd;
size_t length;
size_t min_len;
struct command_tag* next;
} command_t;
bool command_match(const command_t* command, const char* str) {
size_t olen = strlen(str);
return olen >= command->min_len && olen <= command->length
&& strncmp(str, command->cmd, olen) == 0;
}
char* uppercase(char* str, size_t n) {
for (size_t i = 0; i < n; ++i)
str[i] = toupper((unsigned char)str[i]);
return str;
}
size_t get_min_length(const char* str, size_t n) {
size_t len = 0;
while (len < n && isupper((unsigned char)str[len]))
++len;
return len;
}
void fatal(const char* message) {
fprintf(stderr, "%s\n", message);
exit(1);
}
void* xmalloc(size_t n) {
void* ptr = malloc(n);
if (ptr == NULL)
fatal("Out of memory");
return ptr;
}
void* xrealloc(void* p, size_t n) {
void* ptr = realloc(p, n);
if (ptr == NULL)
fatal("Out of memory");
return ptr;
}
char** split_into_words(const char* str, size_t* count) {
size_t size = 0;
size_t capacity = 16;
char** words = xmalloc(capacity * sizeof(char*));
size_t len = strlen(str);
for (size_t begin = 0; begin < len; ) {
size_t i = begin;
for (; i < len && isspace((unsigned char)str[i]); ++i) {}
begin = i;
for (; i < len && !isspace((unsigned char)str[i]); ++i) {}
size_t word_len = i - begin;
if (word_len == 0)
break;
char* word = xmalloc(word_len + 1);
memcpy(word, str + begin, word_len);
word[word_len] = 0;
begin += word_len;
if (capacity == size) {
capacity *= 2;
words = xrealloc(words, capacity * sizeof(char*));
}
words[size++] = word;
}
*count = size;
return words;
}
command_t* make_command_list(const char* table) {
command_t* cmd = NULL;
size_t count = 0;
char** words = split_into_words(table, &count);
for (size_t i = 0; i < count; ++i) {
char* word = words[i];
command_t* new_cmd = xmalloc(sizeof(command_t));
size_t word_len = strlen(word);
new_cmd->length = word_len;
new_cmd->min_len = get_min_length(word, word_len);
new_cmd->cmd = uppercase(word, word_len);
new_cmd->next = cmd;
cmd = new_cmd;
}
free(words);
return cmd;
}
void free_command_list(command_t* cmd) {
while (cmd != NULL) {
command_t* next = cmd->next;
free(cmd->cmd);
free(cmd);
cmd = next;
}
}
const command_t* find_command(const command_t* commands, const char* word) {
for (const command_t* cmd = commands; cmd != NULL; cmd = cmd->next) {
if (command_match(cmd, word))
return cmd;
}
return NULL;
}
void test(const command_t* commands, const char* input) {
printf(" input: %s\n", input);
printf("output:");
size_t count = 0;
char** words = split_into_words(input, &count);
for (size_t i = 0; i < count; ++i) {
char* word = words[i];
uppercase(word, strlen(word));
const command_t* cmd_ptr = find_command(commands, word);
printf(" %s", cmd_ptr ? cmd_ptr->cmd : "*error*");
free(word);
}
free(words);
printf("\n");
}
int main() {
command_t* commands = make_command_list(command_table);
const char* input = "riG rePEAT copies put mo rest types fup. 6 poweRin";
test(commands, input);
free_command_list(commands);
return 0;
}
|
Generate an equivalent C version of this PHP code. | define("PI", 3.14159265358);
define("MSG", "Hello World");
| #define PI 3.14159265358979323
#define MINSIZE 10
#define MAXSIZE 100
|
Write the same code in C as shown below in PHP. | <?php
function clip ($subjectPolygon, $clipPolygon) {
function inside ($p, $cp1, $cp2) {
return ($cp2[0]-$cp1[0])*($p[1]-$cp1[1]) > ($cp2[1]-$cp1[1])*($p[0]-$cp1[0]);
}
function intersection ($cp1, $cp2, $e, $s) {
$dc = [ $cp1[0] - $cp2[0], $cp1[1] - $cp2[1] ];
$dp = [ $s[0] - $e[0], $s[1] - $e[1] ];
$n1 = $cp1[0] * $cp2[1] - $cp1[1] * $cp2[0];
$n2 = $s[0] * $e[1] - $s[1] * $e[0];
$n3 = 1.0 / ($dc[0] * $dp[1] - $dc[1] * $dp[0]);
return [($n1*$dp[0] - $n2*$dc[0]) * $n3, ($n1*$dp[1] - $n2*$dc[1]) * $n3];
}
$outputList = $subjectPolygon;
$cp1 = end($clipPolygon);
foreach ($clipPolygon as $cp2) {
$inputList = $outputList;
$outputList = [];
$s = end($inputList);
foreach ($inputList as $e) {
if (inside($e, $cp1, $cp2)) {
if (!inside($s, $cp1, $cp2)) {
$outputList[] = intersection($cp1, $cp2, $e, $s);
}
$outputList[] = $e;
}
else if (inside($s, $cp1, $cp2)) {
$outputList[] = intersection($cp1, $cp2, $e, $s);
}
$s = $e;
}
$cp1 = $cp2;
}
return $outputList;
}
$subjectPolygon = [[50, 150], [200, 50], [350, 150], [350, 300], [250, 300], [200, 250], [150, 350], [100, 250], [100, 200]];
$clipPolygon = [[100, 100], [300, 100], [300, 300], [100, 300]];
$clippedPolygon = clip($subjectPolygon, $clipPolygon);
echo json_encode($clippedPolygon);
echo "\n";
?>
| #include <stdio.h>
#include <stdlib.h>
#include <math.h>
typedef struct { double x, y; } vec_t, *vec;
inline double dot(vec a, vec b)
{
return a->x * b->x + a->y * b->y;
}
inline double cross(vec a, vec b)
{
return a->x * b->y - a->y * b->x;
}
inline vec vsub(vec a, vec b, vec res)
{
res->x = a->x - b->x;
res->y = a->y - b->y;
return res;
}
int left_of(vec a, vec b, vec c)
{
vec_t tmp1, tmp2;
double x;
vsub(b, a, &tmp1);
vsub(c, b, &tmp2);
x = cross(&tmp1, &tmp2);
return x < 0 ? -1 : x > 0;
}
int line_sect(vec x0, vec x1, vec y0, vec y1, vec res)
{
vec_t dx, dy, d;
vsub(x1, x0, &dx);
vsub(y1, y0, &dy);
vsub(x0, y0, &d);
double dyx = cross(&dy, &dx);
if (!dyx) return 0;
dyx = cross(&d, &dx) / dyx;
if (dyx <= 0 || dyx >= 1) return 0;
res->x = y0->x + dyx * dy.x;
res->y = y0->y + dyx * dy.y;
return 1;
}
typedef struct { int len, alloc; vec v; } poly_t, *poly;
poly poly_new()
{
return (poly)calloc(1, sizeof(poly_t));
}
void poly_free(poly p)
{
free(p->v);
free(p);
}
void poly_append(poly p, vec v)
{
if (p->len >= p->alloc) {
p->alloc *= 2;
if (!p->alloc) p->alloc = 4;
p->v = (vec)realloc(p->v, sizeof(vec_t) * p->alloc);
}
p->v[p->len++] = *v;
}
int poly_winding(poly p)
{
return left_of(p->v, p->v + 1, p->v + 2);
}
void poly_edge_clip(poly sub, vec x0, vec x1, int left, poly res)
{
int i, side0, side1;
vec_t tmp;
vec v0 = sub->v + sub->len - 1, v1;
res->len = 0;
side0 = left_of(x0, x1, v0);
if (side0 != -left) poly_append(res, v0);
for (i = 0; i < sub->len; i++) {
v1 = sub->v + i;
side1 = left_of(x0, x1, v1);
if (side0 + side1 == 0 && side0)
if (line_sect(x0, x1, v0, v1, &tmp))
poly_append(res, &tmp);
if (i == sub->len - 1) break;
if (side1 != -left) poly_append(res, v1);
v0 = v1;
side0 = side1;
}
}
poly poly_clip(poly sub, poly clip)
{
int i;
poly p1 = poly_new(), p2 = poly_new(), tmp;
int dir = poly_winding(clip);
poly_edge_clip(sub, clip->v + clip->len - 1, clip->v, dir, p2);
for (i = 0; i < clip->len - 1; i++) {
tmp = p2; p2 = p1; p1 = tmp;
if(p1->len == 0) {
p2->len = 0;
break;
}
poly_edge_clip(p1, clip->v + i, clip->v + i + 1, dir, p2);
}
poly_free(p1);
return p2;
}
int main()
{
int i;
vec_t c[] = {{100,100}, {300,100}, {300,300}, {100,300}};
vec_t s[] = { {50,150}, {200,50}, {350,150},
{350,300},{250,300},{200,250},
{150,350},{100,250},{100,200}};
#define clen (sizeof(c)/sizeof(vec_t))
#define slen (sizeof(s)/sizeof(vec_t))
poly_t clipper = {clen, 0, c};
poly_t subject = {slen, 0, s};
poly res = poly_clip(&subject, &clipper);
for (i = 0; i < res->len; i++)
printf("%g %g\n", res->v[i].x, res->v[i].y);
FILE * eps = fopen("test.eps", "w");
fprintf(eps, "%%!PS-Adobe-3.0\n%%%%BoundingBox: 40 40 360 360\n"
"/l {lineto} def /m{moveto} def /s{setrgbcolor} def"
"/c {closepath} def /gs {fill grestore stroke} def\n");
fprintf(eps, "0 setlinewidth %g %g m ", c[0].x, c[0].y);
for (i = 1; i < clen; i++)
fprintf(eps, "%g %g l ", c[i].x, c[i].y);
fprintf(eps, "c .5 0 0 s gsave 1 .7 .7 s gs\n");
fprintf(eps, "%g %g m ", s[0].x, s[0].y);
for (i = 1; i < slen; i++)
fprintf(eps, "%g %g l ", s[i].x, s[i].y);
fprintf(eps, "c 0 .2 .5 s gsave .4 .7 1 s gs\n");
fprintf(eps, "2 setlinewidth [10 8] 0 setdash %g %g m ",
res->v[0].x, res->v[0].y);
for (i = 1; i < res->len; i++)
fprintf(eps, "%g %g l ", res->v[i].x, res->v[i].y);
fprintf(eps, "c .5 0 .5 s gsave .7 .3 .8 s gs\n");
fprintf(eps, "%%%%EOF");
fclose(eps);
printf("test.eps written\n");
return 0;
}
|
Can you help me rewrite this code in C instead of PHP, keeping it the same logically? | $ffi = FFI::cdef("char *_strdup(const char *strSource);", "msvcrt.dll");
$cstr = $ffi->_strdup("success");
$str = FFI::string($cstr);
echo $str;
FFI::free($cstr);
|
#include <stdio.h>
void sayHello(char* name){
printf("Hello %s!\n", name);
}
int doubleNum(int num){
return num * 2;
}
|
Port the following code from PHP to C with equivalent syntax and logic. | <?php
function s_of_n_creator($n) {
$sample = array();
$i = 0;
return function($item) use (&$sample, &$i, $n) {
$i++;
if ($i <= $n) {
$sample[] = $item;
} else if (rand(0, $i-1) < $n) {
$sample[rand(0, $n-1)] = $item;
}
return $sample;
};
}
$items = range(0, 9);
for ($trial = 0; $trial < 100000; $trial++) {
$s_of_n = s_of_n_creator(3);
foreach ($items as $item)
$sample = $s_of_n($item);
foreach ($sample as $s)
$bin[$s]++;
}
print_r($bin);
?>
| #include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <time.h>
struct s_env {
unsigned int n, i;
size_t size;
void *sample;
};
void s_of_n_init(struct s_env *s_env, size_t size, unsigned int n)
{
s_env->i = 0;
s_env->n = n;
s_env->size = size;
s_env->sample = malloc(n * size);
}
void sample_set_i(struct s_env *s_env, unsigned int i, void *item)
{
memcpy(s_env->sample + i * s_env->size, item, s_env->size);
}
void *s_of_n(struct s_env *s_env, void *item)
{
s_env->i++;
if (s_env->i <= s_env->n)
sample_set_i(s_env, s_env->i - 1, item);
else if ((rand() % s_env->i) < s_env->n)
sample_set_i(s_env, rand() % s_env->n, item);
return s_env->sample;
}
int *test(unsigned int n, int *items_set, unsigned int num_items)
{
int i;
struct s_env s_env;
s_of_n_init(&s_env, sizeof(items_set[0]), n);
for (i = 0; i < num_items; i++) {
s_of_n(&s_env, (void *) &items_set[i]);
}
return (int *)s_env.sample;
}
int main()
{
unsigned int i, j;
unsigned int n = 3;
unsigned int num_items = 10;
unsigned int *frequencies;
int *items_set;
srand(time(NULL));
items_set = malloc(num_items * sizeof(int));
frequencies = malloc(num_items * sizeof(int));
for (i = 0; i < num_items; i++) {
items_set[i] = i;
frequencies[i] = 0;
}
for (i = 0; i < 100000; i++) {
int *res = test(n, items_set, num_items);
for (j = 0; j < n; j++) {
frequencies[res[j]]++;
}
free(res);
}
for (i = 0; i < num_items; i++) {
printf(" %d", frequencies[i]);
}
puts("");
return 0;
}
|
Rewrite the snippet below in C so it works the same as the original PHP code. | <?php
function s_of_n_creator($n) {
$sample = array();
$i = 0;
return function($item) use (&$sample, &$i, $n) {
$i++;
if ($i <= $n) {
$sample[] = $item;
} else if (rand(0, $i-1) < $n) {
$sample[rand(0, $n-1)] = $item;
}
return $sample;
};
}
$items = range(0, 9);
for ($trial = 0; $trial < 100000; $trial++) {
$s_of_n = s_of_n_creator(3);
foreach ($items as $item)
$sample = $s_of_n($item);
foreach ($sample as $s)
$bin[$s]++;
}
print_r($bin);
?>
| #include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <time.h>
struct s_env {
unsigned int n, i;
size_t size;
void *sample;
};
void s_of_n_init(struct s_env *s_env, size_t size, unsigned int n)
{
s_env->i = 0;
s_env->n = n;
s_env->size = size;
s_env->sample = malloc(n * size);
}
void sample_set_i(struct s_env *s_env, unsigned int i, void *item)
{
memcpy(s_env->sample + i * s_env->size, item, s_env->size);
}
void *s_of_n(struct s_env *s_env, void *item)
{
s_env->i++;
if (s_env->i <= s_env->n)
sample_set_i(s_env, s_env->i - 1, item);
else if ((rand() % s_env->i) < s_env->n)
sample_set_i(s_env, rand() % s_env->n, item);
return s_env->sample;
}
int *test(unsigned int n, int *items_set, unsigned int num_items)
{
int i;
struct s_env s_env;
s_of_n_init(&s_env, sizeof(items_set[0]), n);
for (i = 0; i < num_items; i++) {
s_of_n(&s_env, (void *) &items_set[i]);
}
return (int *)s_env.sample;
}
int main()
{
unsigned int i, j;
unsigned int n = 3;
unsigned int num_items = 10;
unsigned int *frequencies;
int *items_set;
srand(time(NULL));
items_set = malloc(num_items * sizeof(int));
frequencies = malloc(num_items * sizeof(int));
for (i = 0; i < num_items; i++) {
items_set[i] = i;
frequencies[i] = 0;
}
for (i = 0; i < 100000; i++) {
int *res = test(n, items_set, num_items);
for (j = 0; j < n; j++) {
frequencies[res[j]]++;
}
free(res);
}
for (i = 0; i < num_items; i++) {
printf(" %d", frequencies[i]);
}
puts("");
return 0;
}
|
Maintain the same structure and functionality when rewriting this code in C. | <?php
$program_name = $argv[0];
$second_arg = $argv[2];
$all_args_without_program_name = array_shift($argv);
| #include <stdlib.h>
#include <stdio.h>
int main(int argc, char* argv[])
{
int i;
(void) printf("This program is named %s.\n", argv[0]);
for (i = 1; i < argc; ++i)
(void) printf("the argument #%d is %s\n", i, argv[i]);
return EXIT_SUCCESS;
}
|
Translate this program into C but keep the logic exactly as in PHP. | <?php
$program_name = $argv[0];
$second_arg = $argv[2];
$all_args_without_program_name = array_shift($argv);
| #include <stdlib.h>
#include <stdio.h>
int main(int argc, char* argv[])
{
int i;
(void) printf("This program is named %s.\n", argv[0]);
for (i = 1; i < argc; ++i)
(void) printf("the argument #%d is %s\n", i, argv[i]);
return EXIT_SUCCESS;
}
|
Can you help me rewrite this code in C instead of PHP, keeping it the same logically? | $arr1 = array(1, 2, 3);
$arr2 = array(4, 5, 6);
$arr3 = array_merge($arr1, $arr2);
| #include <stdlib.h>
#include <stdio.h>
#include <string.h>
#define ARRAY_CONCAT(TYPE, A, An, B, Bn) \
(TYPE *)array_concat((const void *)(A), (An), (const void *)(B), (Bn), sizeof(TYPE));
void *array_concat(const void *a, size_t an,
const void *b, size_t bn, size_t s)
{
char *p = malloc(s * (an + bn));
memcpy(p, a, an*s);
memcpy(p + an*s, b, bn*s);
return p;
}
const int a[] = { 1, 2, 3, 4, 5 };
const int b[] = { 6, 7, 8, 9, 0 };
int main(void)
{
unsigned int i;
int *c = ARRAY_CONCAT(int, a, 5, b, 5);
for(i = 0; i < 10; i++)
printf("%d\n", c[i]);
free(c);
return EXIT_SUCCCESS;
}
|
Can you help me rewrite this code in C instead of PHP, keeping it the same logically? | #!/usr/bin/php
<?php
$string = fgets(STDIN);
$integer = (int) fgets(STDIN);
| #include <stdio.h>
#include <stdlib.h>
int main(void)
{
char str[BUFSIZ];
puts("Enter a string: ");
fgets(str, sizeof(str), stdin);
long num;
char buf[BUFSIZ];
do
{
puts("Enter 75000: ");
fgets(buf, sizeof(buf), stdin);
num = strtol(buf, NULL, 10);
} while (num != 75000);
return EXIT_SUCCESS;
}
|
Write the same algorithm in C as shown in this PHP implementation. | #########################################################
# 0-1 Knapsack Problem Solve with memoization optimize and index returns
# $w = weight of item
# $v = value of item
# $i = index
# $aW = Available Weight
# $m = Memo items array
# PHP Translation from Python, Memoization,
# and index return functionality added by Brian Berneker
#
#########################################################
function knapSolveFast2($w, $v, $i, $aW, &$m) {
global $numcalls;
$numcalls ++;
if (isset($m[$i][$aW])) {
return array( $m[$i][$aW], $m['picked'][$i][$aW] );
} else {
if ($i == 0) {
if ($w[$i] <= $aW) { // Will this item fit?
$m[$i][$aW] = $v[$i]; // Memo this item
$m['picked'][$i][$aW] = array($i); // and the picked item
return array($v[$i],array($i)); // Return the value of this item and add it to the picked list
} else {
$m[$i][$aW] = 0; // Memo zero
$m['picked'][$i][$aW] = array(); // and a blank array entry...
return array(0,array()); // Return nothing
}
}
list ($without_i, $without_PI) = knapSolveFast2($w, $v, $i-1, $aW, $m);
if ($w[$i] > $aW) { // Does it return too many?
$m[$i][$aW] = $without_i; // Memo without including this one
$m['picked'][$i][$aW] = $without_PI; // and a blank array entry...
return array($without_i, $without_PI); // and return it
} else {
list ($with_i,$with_PI) = knapSolveFast2($w, $v, ($i-1), ($aW - $w[$i]), $m);
$with_i += $v[$i]; // ..and add the value of this one..
if ($with_i > $without_i) {
$res = $with_i;
$picked = $with_PI;
array_push($picked,$i);
} else {
$res = $without_i;
$picked = $without_PI;
}
$m[$i][$aW] = $res; // Store it in the memo
$m['picked'][$i][$aW] = $picked; // and store the picked item
return array ($res,$picked); // and then return it
}
}
}
$items4 = array("map","compass","water","sandwich","glucose","tin","banana","apple","cheese","beer","suntan cream","camera","t-shirt","trousers","umbrella","waterproof trousers","waterproof overclothes","note-case","sunglasses","towel","socks","book");
$w4 = array(9,13,153,50,15,68,27,39,23,52,11,32,24,48,73,42,43,22,7,18,4,30);
$v4 = array(150,35,200,160,60,45,60,40,30,10,70,30,15,10,40,70,75,80,20,12,50,10);
## Initialize
$numcalls = 0; $m = array(); $pickedItems = array();
## Solve
list ($m4,$pickedItems) = knapSolveFast2($w4, $v4, sizeof($v4) -1, 400, $m);
# Display Result
echo "<b>Items:</b><br>".join(", ",$items4)."<br>";
echo "<b>Max Value Found:</b><br>$m4 (in $numcalls calls)<br>";
echo "<b>Array Indices:</b><br>".join(",",$pickedItems)."<br>";
echo "<b>Chosen Items:</b><br>";
echo "<table border cellspacing=0>";
echo "<tr><td>Item</td><td>Value</td><td>Weight</td></tr>";
$totalVal = $totalWt = 0;
foreach($pickedItems as $key) {
$totalVal += $v4[$key];
$totalWt += $w4[$key];
echo "<tr><td>".$items4[$key]."</td><td>".$v4[$key]."</td><td>".$w4[$key]."</td></tr>";
}
echo "<tr><td align=right><b>Totals</b></td><td>$totalVal</td><td>$totalWt</td></tr>";
echo "</table><hr>";
| #include <stdio.h>
#include <stdlib.h>
typedef struct {
char *name;
int weight;
int value;
} item_t;
item_t items[] = {
{"map", 9, 150},
{"compass", 13, 35},
{"water", 153, 200},
{"sandwich", 50, 160},
{"glucose", 15, 60},
{"tin", 68, 45},
{"banana", 27, 60},
{"apple", 39, 40},
{"cheese", 23, 30},
{"beer", 52, 10},
{"suntan cream", 11, 70},
{"camera", 32, 30},
{"T-shirt", 24, 15},
{"trousers", 48, 10},
{"umbrella", 73, 40},
{"waterproof trousers", 42, 70},
{"waterproof overclothes", 43, 75},
{"note-case", 22, 80},
{"sunglasses", 7, 20},
{"towel", 18, 12},
{"socks", 4, 50},
{"book", 30, 10},
};
int *knapsack (item_t *items, int n, int w) {
int i, j, a, b, *mm, **m, *s;
mm = calloc((n + 1) * (w + 1), sizeof (int));
m = malloc((n + 1) * sizeof (int *));
m[0] = mm;
for (i = 1; i <= n; i++) {
m[i] = &mm[i * (w + 1)];
for (j = 0; j <= w; j++) {
if (items[i - 1].weight > j) {
m[i][j] = m[i - 1][j];
}
else {
a = m[i - 1][j];
b = m[i - 1][j - items[i - 1].weight] + items[i - 1].value;
m[i][j] = a > b ? a : b;
}
}
}
s = calloc(n, sizeof (int));
for (i = n, j = w; i > 0; i--) {
if (m[i][j] > m[i - 1][j]) {
s[i - 1] = 1;
j -= items[i - 1].weight;
}
}
free(mm);
free(m);
return s;
}
int main () {
int i, n, tw = 0, tv = 0, *s;
n = sizeof (items) / sizeof (item_t);
s = knapsack(items, n, 400);
for (i = 0; i < n; i++) {
if (s[i]) {
printf("%-22s %5d %5d\n", items[i].name, items[i].weight, items[i].value);
tw += items[i].weight;
tv += items[i].value;
}
}
printf("%-22s %5d %5d\n", "totals:", tw, tv);
return 0;
}
|
Port the following code from PHP to C with equivalent syntax and logic. | $compose = function ($f, $g) {
return function ($x) use ($f, $g) {
return $f($g($x));
};
};
$fn = array('sin', 'cos', function ($x) { return pow($x, 3); });
$inv = array('asin', 'acos', function ($x) { return pow($x, 1/3); });
for ($i = 0; $i < 3; $i++) {
$f = $compose($inv[$i], $fn[$i]);
echo $f(0.5), PHP_EOL;
}
| #include <stdlib.h>
#include <stdio.h>
#include <math.h>
typedef double (*Class2Func)(double);
double functionA( double v)
{
return v*v*v;
}
double functionB(double v)
{
return exp(log(v)/3);
}
double Function1( Class2Func f2, double val )
{
return f2(val);
}
Class2Func WhichFunc( int idx)
{
return (idx < 4) ? &functionA : &functionB;
}
Class2Func funcListA[] = {&functionA, &sin, &cos, &tan };
Class2Func funcListB[] = {&functionB, &asin, &acos, &atan };
double InvokeComposed( Class2Func f1, Class2Func f2, double val )
{
return f1(f2(val));
}
typedef struct sComposition {
Class2Func f1;
Class2Func f2;
} *Composition;
Composition Compose( Class2Func f1, Class2Func f2)
{
Composition comp = malloc(sizeof(struct sComposition));
comp->f1 = f1;
comp->f2 = f2;
return comp;
}
double CallComposed( Composition comp, double val )
{
return comp->f1( comp->f2(val) );
}
int main(int argc, char *argv[])
{
int ix;
Composition c;
printf("Function1(functionA, 3.0) = %f\n", Function1(WhichFunc(0), 3.0));
for (ix=0; ix<4; ix++) {
c = Compose(funcListA[ix], funcListB[ix]);
printf("Compostion %d(0.9) = %f\n", ix, CallComposed(c, 0.9));
}
return 0;
}
|
Translate the given PHP code snippet into C without altering its behavior. | <?php
function ProperDivisors($n) {
yield 1;
$large_divisors = [];
for ($i = 2; $i <= sqrt($n); $i++) {
if ($n % $i == 0) {
yield $i;
if ($i*$i != $n) {
$large_divisors[] = $n / $i;
}
}
}
foreach (array_reverse($large_divisors) as $i) {
yield $i;
}
}
assert([1, 2, 4, 5, 10, 20, 25, 50] ==
iterator_to_array(ProperDivisors(100)));
foreach (range(1, 10) as $n) {
echo "$n =>";
foreach (ProperDivisors($n) as $divisor) {
echo " $divisor";
}
echo "\n";
}
$divisorsCount = [];
for ($i = 1; $i < 20000; $i++) {
$divisorsCount[sizeof(iterator_to_array(ProperDivisors($i)))][] = $i;
}
ksort($divisorsCount);
echo "Numbers with most divisors: ", implode(", ", end($divisorsCount)), ".\n";
echo "They have ", key($divisorsCount), " divisors.\n";
| #include <stdio.h>
#include <stdbool.h>
int proper_divisors(const int n, bool print_flag)
{
int count = 0;
for (int i = 1; i < n; ++i) {
if (n % i == 0) {
count++;
if (print_flag)
printf("%d ", i);
}
}
if (print_flag)
printf("\n");
return count;
}
int main(void)
{
for (int i = 1; i <= 10; ++i) {
printf("%d: ", i);
proper_divisors(i, true);
}
int max = 0;
int max_i = 1;
for (int i = 1; i <= 20000; ++i) {
int v = proper_divisors(i, false);
if (v >= max) {
max = v;
max_i = i;
}
}
printf("%d with %d divisors\n", max_i, max);
return 0;
}
|
Write a version of this PHP function in C with identical behavior. | $string = 'I am a string';
# Test
if (preg_match('/string$/', $string))
{
echo "Ends with 'string'\n";
}
# Replace
$string = preg_replace('/\ba\b/', 'another', $string);
echo "Found 'a' and replace it with 'another', resulting in this string: $string\n";
| #include <stdio.h>
#include <stdlib.h>
#include <sys/types.h>
#include <regex.h>
#include <string.h>
int main()
{
regex_t preg;
regmatch_t substmatch[1];
const char *tp = "string$";
const char *t1 = "this is a matching string";
const char *t2 = "this is not a matching string!";
const char *ss = "istyfied";
regcomp(&preg, "string$", REG_EXTENDED);
printf("'%s' %smatched with '%s'\n", t1,
(regexec(&preg, t1, 0, NULL, 0)==0) ? "" : "did not ", tp);
printf("'%s' %smatched with '%s'\n", t2,
(regexec(&preg, t2, 0, NULL, 0)==0) ? "" : "did not ", tp);
regfree(&preg);
regcomp(&preg, "a[a-z]+", REG_EXTENDED);
if ( regexec(&preg, t1, 1, substmatch, 0) == 0 )
{
char *ns = malloc(substmatch[0].rm_so + 1 + strlen(ss) +
(strlen(t1) - substmatch[0].rm_eo) + 2);
memcpy(ns, t1, substmatch[0].rm_so+1);
memcpy(&ns[substmatch[0].rm_so], ss, strlen(ss));
memcpy(&ns[substmatch[0].rm_so+strlen(ss)], &t1[substmatch[0].rm_eo],
strlen(&t1[substmatch[0].rm_eo]));
ns[ substmatch[0].rm_so + strlen(ss) +
strlen(&t1[substmatch[0].rm_eo]) ] = 0;
printf("mod string: '%s'\n", ns);
free(ns);
} else {
printf("the string '%s' is the same: no matching!\n", t1);
}
regfree(&preg);
return 0;
}
|
Convert the following code from PHP to C, ensuring the logic remains intact. | $keys = array('a', 'b', 'c');
$values = array(1, 2, 3);
$hash = array_combine($keys, $values);
| #include <stdio.h>
#include <stdlib.h>
#include <string.h>
#define KeyType const char *
#define ValType int
#define HASH_SIZE 4096
unsigned strhashkey( const char * key, int max)
{
unsigned h=0;
unsigned hl, hr;
while(*key) {
h += *key;
hl= 0x5C5 ^ (h&0xfff00000 )>>18;
hr =(h&0x000fffff );
h = hl ^ hr ^ *key++;
}
return h % max;
}
typedef struct sHme {
KeyType key;
ValType value;
struct sHme *link;
} *MapEntry;
typedef struct he {
MapEntry first, last;
} HashElement;
HashElement hash[HASH_SIZE];
typedef void (*KeyCopyF)(KeyType *kdest, KeyType ksrc);
typedef void (*ValCopyF)(ValType *vdest, ValType vsrc);
typedef unsigned (*KeyHashF)( KeyType key, int upperBound );
typedef int (*KeyCmprF)(KeyType key1, KeyType key2);
void HashAddH( KeyType key, ValType value,
KeyCopyF copyKey, ValCopyF copyVal, KeyHashF hashKey, KeyCmprF keySame )
{
unsigned hix = (*hashKey)(key, HASH_SIZE);
MapEntry m_ent;
for (m_ent= hash[hix].first;
m_ent && !(*keySame)(m_ent->key,key); m_ent=m_ent->link);
if (m_ent) {
(*copyVal)(&m_ent->value, value);
}
else {
MapEntry last;
MapEntry hme = malloc(sizeof(struct sHme));
(*copyKey)(&hme->key, key);
(*copyVal)(&hme->value, value);
hme->link = NULL;
last = hash[hix].last;
if (last) {
last->link = hme;
}
else
hash[hix].first = hme;
hash[hix].last = hme;
}
}
int HashGetH(ValType *val, KeyType key, KeyHashF hashKey, KeyCmprF keySame )
{
unsigned hix = (*hashKey)(key, HASH_SIZE);
MapEntry m_ent;
for (m_ent= hash[hix].first;
m_ent && !(*keySame)(m_ent->key,key); m_ent=m_ent->link);
if (m_ent) {
*val = m_ent->value;
}
return (m_ent != NULL);
}
void copyStr(const char**dest, const char *src)
{
*dest = strdup(src);
}
void copyInt( int *dest, int src)
{
*dest = src;
}
int strCompare( const char *key1, const char *key2)
{
return strcmp(key1, key2) == 0;
}
void HashAdd( KeyType key, ValType value )
{
HashAddH( key, value, ©Str, ©Int, &strhashkey, &strCompare);
}
int HashGet(ValType *val, KeyType key)
{
return HashGetH( val, key, &strhashkey, &strCompare);
}
int main()
{
static const char * keyList[] = {"red","orange","yellow","green", "blue", "violet" };
static int valuList[] = {1,43,640, 747, 42, 42};
int ix;
for (ix=0; ix<6; ix++) {
HashAdd(keyList[ix], valuList[ix]);
}
return 0;
}
|
Preserve the algorithm and functionality while converting the code from PHP to C. | <?php
header("Content-type: image/png");
$width = 512;
$height = 512;
$img = imagecreatetruecolor($width,$height);
$bg = imagecolorallocate($img,255,255,255);
imagefilledrectangle($img, 0, 0, $width, $width, $bg);
$depth = 8;
function drawTree($x1, $y1, $angle, $depth){
global $img;
if ($depth != 0){
$x2 = $x1 + (int)(cos(deg2rad($angle)) * $depth * 10.0);
$y2 = $y1 + (int)(sin(deg2rad($angle)) * $depth * 10.0);
imageline($img, $x1, $y1, $x2, $y2, imagecolorallocate($img,0,0,0));
drawTree($x2, $y2, $angle - 20, $depth - 1);
drawTree($x2, $y2, $angle + 20, $depth - 1);
}
}
drawTree($width/2, $height, -90, $depth);
imagepng($img);
imagedestroy($img);
?>
| #include <SDL/SDL.h>
#ifdef WITH_CAIRO
#include <cairo.h>
#else
#include <SDL/sge.h>
#endif
#include <cairo.h>
#include <stdlib.h>
#include <time.h>
#include <math.h>
#ifdef WITH_CAIRO
#define PI 3.1415926535
#endif
#define SIZE 800
#define SCALE 5
#define BRANCHES 14
#define ROTATION_SCALE 0.75
#define INITIAL_LENGTH 50
double rand_fl(){
return (double)rand() / (double)RAND_MAX;
}
void draw_tree(SDL_Surface * surface, double offsetx, double offsety,
double directionx, double directiony, double size,
double rotation, int depth) {
#ifdef WITH_CAIRO
cairo_surface_t *surf = cairo_image_surface_create_for_data( surface->pixels,
CAIRO_FORMAT_RGB24,
surface->w, surface->h,
surface->pitch );
cairo_t *ct = cairo_create(surf);
cairo_set_line_width(ct, 1);
cairo_set_source_rgba(ct, 0,0,0,1);
cairo_move_to(ct, (int)offsetx, (int)offsety);
cairo_line_to(ct, (int)(offsetx + directionx * size), (int)(offsety + directiony * size));
cairo_stroke(ct);
#else
sge_AALine(surface,
(int)offsetx, (int)offsety,
(int)(offsetx + directionx * size), (int)(offsety + directiony * size),
SDL_MapRGB(surface->format, 0, 0, 0));
#endif
if (depth > 0){
draw_tree(surface,
offsetx + directionx * size,
offsety + directiony * size,
directionx * cos(rotation) + directiony * sin(rotation),
directionx * -sin(rotation) + directiony * cos(rotation),
size * rand_fl() / SCALE + size * (SCALE - 1) / SCALE,
rotation * ROTATION_SCALE,
depth - 1);
draw_tree(surface,
offsetx + directionx * size,
offsety + directiony * size,
directionx * cos(-rotation) + directiony * sin(-rotation),
directionx * -sin(-rotation) + directiony * cos(-rotation),
size * rand_fl() / SCALE + size * (SCALE - 1) / SCALE,
rotation * ROTATION_SCALE,
depth - 1);
}
}
void render(SDL_Surface * surface){
SDL_FillRect(surface, NULL, SDL_MapRGB(surface->format, 255, 255, 255));
draw_tree(surface,
surface->w / 2.0,
surface->h - 10.0,
0.0, -1.0,
INITIAL_LENGTH,
PI / 8,
BRANCHES);
SDL_UpdateRect(surface, 0, 0, 0, 0);
}
int main(){
SDL_Surface * screen;
SDL_Event evt;
SDL_Init(SDL_INIT_VIDEO);
srand((unsigned)time(NULL));
screen = SDL_SetVideoMode(SIZE, SIZE, 32, SDL_HWSURFACE);
render(screen);
while(1){
if (SDL_PollEvent(&evt)){
if(evt.type == SDL_QUIT) break;
}
SDL_Delay(1);
}
SDL_Quit();
return 0;
}
|
Please provide an equivalent version of this PHP code in C. | <?php
function gray_encode($binary){
return $binary ^ ($binary >> 1);
}
function gray_decode($gray){
$binary = $gray;
while($gray >>= 1) $binary ^= $gray;
return $binary;
}
for($i=0;$i<32;$i++){
$gray_encoded = gray_encode($i);
printf("%2d : %05b => %05b => %05b : %2d \n",$i, $i, $gray_encoded, $gray_encoded, gray_decode($gray_encoded));
}
| int gray_encode(int n) {
return n ^ (n >> 1);
}
int gray_decode(int n) {
int p = n;
while (n >>= 1) p ^= n;
return p;
}
|
Convert the following code from PHP to C, ensuring the logic remains intact. | <?php
function gray_encode($binary){
return $binary ^ ($binary >> 1);
}
function gray_decode($gray){
$binary = $gray;
while($gray >>= 1) $binary ^= $gray;
return $binary;
}
for($i=0;$i<32;$i++){
$gray_encoded = gray_encode($i);
printf("%2d : %05b => %05b => %05b : %2d \n",$i, $i, $gray_encoded, $gray_encoded, gray_decode($gray_encoded));
}
| int gray_encode(int n) {
return n ^ (n >> 1);
}
int gray_decode(int n) {
int p = n;
while (n >>= 1) p ^= n;
return p;
}
|
Translate this program into C but keep the logic exactly as in PHP. | class Card
{
protected static $suits = array( '♠', '♥', '♦', '♣' );
protected static $pips = array( '2', '3', '4', '5', '6', '7', '8', '9', 'T', 'J', 'Q', 'K', 'A' );
protected $suit;
protected $suitOrder;
protected $pip;
protected $pipOrder;
protected $order;
public function __construct( $suit, $pip )
{
if( !in_array( $suit, self::$suits ) )
{
throw new InvalidArgumentException( 'Invalid suit' );
}
if( !in_array( $pip, self::$pips ) )
{
throw new InvalidArgumentException( 'Invalid pip' );
}
$this->suit = $suit;
$this->pip = $pip;
}
public function getSuit()
{
return $this->suit;
}
public function getPip()
{
return $this->pip;
}
public function getSuitOrder()
{
if( !isset( $this->suitOrder ) )
{
$this->suitOrder = array_search( $this->suit, self::$suits );
}
return $this->suitOrder;
}
public function getPipOrder()
{
if( !isset( $this->pipOrder ) )
{
$this->pipOrder = array_search( $this->pip, self::$pips );
}
return $this->pipOrder;
}
public function getOrder()
{
if( !isset( $this->order ) )
{
$suitOrder = $this->getSuitOrder();
$pipOrder = $this->getPipOrder();
$this->order = $pipOrder * count( self::$suits ) + $suitOrder;
}
return $this->order;
}
public function compareSuit( Card $other )
{
return $this->getSuitOrder() - $other->getSuitOrder();
}
public function comparePip( Card $other )
{
return $this->getPipOrder() - $other->getPipOrder();
}
public function compare( Card $other )
{
return $this->getOrder() - $other->getOrder();
}
public function __toString()
{
return $this->suit . $this->pip;
}
public static function getSuits()
{
return self::$suits;
}
public static function getPips()
{
return self::$pips;
}
}
class CardCollection
implements Countable, Iterator
{
protected $cards = array();
protected function __construct( array $cards = array() )
{
foreach( $cards as $card )
{
$this->addCard( $card );
}
}
public function count()
{
return count( $this->cards );
}
public function key()
{
return key( $this->cards );
}
public function valid()
{
return null !== $this->key();
}
public function next()
{
next( $this->cards );
}
public function current()
{
return current( $this->cards );
}
public function rewind()
{
reset( $this->cards );
}
public function sort( $comparer = null )
{
$comparer = $comparer ?: function( $a, $b ) {
return $a->compare( $b );
};
if( !is_callable( $comparer ) )
{
throw new InvalidArgumentException( 'Invalid comparer; comparer should be callable' );
}
usort( $this->cards, $comparer );
return $this;
}
public function toString()
{
return implode( ' ', $this->cards );
}
public function __toString()
{
return $this->toString();
}
protected function addCard( Card $card )
{
if( in_array( $card, $this->cards ) )
{
throw new DomainException( 'Card is already present in this collection' );
}
$this->cards[] = $card;
}
}
class Deck
extends CardCollection
{
public function __construct( $shuffled = false )
{
foreach( Card::getSuits() as $suit )
{
foreach( Card::getPips() as $pip )
{
$this->addCard( new Card( $suit, $pip ) );
}
}
if( $shuffled )
{
$this->shuffle();
}
}
public function deal( $amount = 1, CardCollection $cardCollection = null )
{
if( !is_int( $amount ) || $amount < 1 )
{
throw new InvalidArgumentException( 'Invalid amount; amount should be an integer, larger than 0' );
}
if( $amount > count( $this->cards ) )
{
throw new RangeException( 'Invalid amount; requested amount is larger than the amount of available cards' );
}
$cards = array_splice( $this->cards, 0, $amount );
$cardCollection = $cardCollection ?: new CardCollection;
foreach( $cards as $card )
{
$cardCollection->addCard( $card );
}
return $cardCollection;
}
public function shuffle()
{
shuffle( $this->cards );
}
}
class Hand
extends CardCollection
{
public function __construct() {}
public function play( $position )
{
if( !isset( $this->cards[ $position ] ) )
{
throw new OutOfBoundsException( 'Invalid position; position is not present in this hand' );
}
$result = array_splice( $this->cards, $position, 1 );
return $result[ 0 ];
}
}
| #include <stdio.h>
#include <stdlib.h>
#include <locale.h>
int locale_ok = 0;
wchar_t s_suits[] = L"♠♥♦♣";
const char *s_suits_ascii[] = { "S", "H", "D", "C" };
const char *s_nums[] = { "WHAT",
"A", "2", "3", "4", "5", "6", "7", "8", "9", "10", "J", "Q", "K",
"OVERFLOW"
};
typedef struct { int suit, number, _s; } card_t, *card;
typedef struct { int n; card_t cards[52]; } deck_t, *deck;
void show_card(card c)
{
if (locale_ok)
printf(" %lc%s", s_suits[c->suit], s_nums[c->number]);
else
printf(" %s%s", s_suits_ascii[c->suit], s_nums[c->number]);
}
deck new_deck()
{
int i, j, k;
deck d = malloc(sizeof(deck_t));
d->n = 52;
for (i = k = 0; i < 4; i++)
for (j = 1; j <= 13; j++, k++) {
d->cards[k].suit = i;
d->cards[k].number = j;
}
return d;
}
void show_deck(deck d)
{
int i;
printf("%d cards:", d->n);
for (i = 0; i < d->n; i++)
show_card(d->cards + i);
printf("\n");
}
int cmp_card(const void *a, const void *b)
{
int x = ((card)a)->_s, y = ((card)b)->_s;
return x < y ? -1 : x > y;
}
card deal_card(deck d)
{
if (!d->n) return 0;
return d->cards + --d->n;
}
void shuffle_deck(deck d)
{
int i;
for (i = 0; i < d->n; i++)
d->cards[i]._s = rand();
qsort(d->cards, d->n, sizeof(card_t), cmp_card);
}
int main()
{
int i, j;
deck d = new_deck();
locale_ok = (0 != setlocale(LC_CTYPE, ""));
printf("New deck, "); show_deck(d);
printf("\nShuffle and deal to three players:\n");
shuffle_deck(d);
for (i = 0; i < 3; i++) {
for (j = 0; j < 5; j++)
show_card(deal_card(d));
printf("\n");
}
printf("Left in deck "); show_deck(d);
return 0;
}
|
Change the following PHP code into C without altering its purpose. | $NumberArray = array(0, 1, 2, 3, 4, 5, 6);
$LetterArray = array("a", "b", "c", "d", "e", "f");
$simpleForm = ['apple', 'orange'];
| char foo()
{
char array[5] = {3,6,9,12,15};
return array[2];
}
|
Port the following code from PHP to C with equivalent syntax and logic. | <?php
function isSierpinskiCarpetPixelFilled($x, $y) {
while (($x > 0) or ($y > 0)) {
if (($x % 3 == 1) and ($y % 3 == 1)) {
return false;
}
$x /= 3;
$y /= 3;
}
return true;
}
function sierpinskiCarpet($order) {
$size = pow(3, $order);
for ($y = 0 ; $y < $size ; $y++) {
for ($x = 0 ; $x < $size ; $x++) {
echo isSierpinskiCarpetPixelFilled($x, $y) ? '#' : ' ';
}
echo PHP_EOL;
}
}
for ($order = 0 ; $order <= 3 ; $order++) {
echo 'N=', $order, PHP_EOL;
sierpinskiCarpet($order);
echo PHP_EOL;
}
| #include <stdio.h>
int main()
{
int i, j, dim, d;
int depth = 3;
for (i = 0, dim = 1; i < depth; i++, dim *= 3);
for (i = 0; i < dim; i++) {
for (j = 0; j < dim; j++) {
for (d = dim / 3; d; d /= 3)
if ((i % (d * 3)) / d == 1 && (j % (d * 3)) / d == 1)
break;
printf(d ? " " : "##");
}
printf("\n");
}
return 0;
}
|
Write the same algorithm in C as shown in this PHP implementation. | function bogosort($l) {
while (!in_order($l))
shuffle($l);
return $l;
}
function in_order($l) {
for ($i = 1; $i < count($l); $i++)
if ($l[$i] < $l[$i-1])
return FALSE;
return TRUE;
}
| #include <stdio.h>
#include <stdlib.h>
#include <stdbool.h>
bool is_sorted(int *a, int n)
{
while ( --n >= 1 ) {
if ( a[n] < a[n-1] ) return false;
}
return true;
}
void shuffle(int *a, int n)
{
int i, t, r;
for(i=0; i < n; i++) {
t = a[i];
r = rand() % n;
a[i] = a[r];
a[r] = t;
}
}
void bogosort(int *a, int n)
{
while ( !is_sorted(a, n) ) shuffle(a, n);
}
int main()
{
int numbers[] = { 1, 10, 9, 7, 3, 0 };
int i;
bogosort(numbers, 6);
for (i=0; i < 6; i++) printf("%d ", numbers[i]);
printf("\n");
}
|
Translate the given PHP code snippet into C without altering its behavior. | <?php
for($i=1;$i<=22;$i++){
echo($i + floor(1/2 + sqrt($i)) . "\n");
}
$found_square=False;
for($i=1;$i<=1000000;$i++){
$non_square=$i + floor(1/2 + sqrt($i));
if(sqrt($non_square)==intval(sqrt($non_square))){
$found_square=True;
}
}
echo("\n");
if($found_square){
echo("Found a square number, so the formula does not always work.");
} else {
echo("Up to 1000000, found no square number in the sequence!");
}
?>
| #include <math.h>
#include <stdio.h>
#include <assert.h>
int nonsqr(int n) {
return n + (int)(0.5 + sqrt(n));
}
int main() {
int i;
for (i = 1; i < 23; i++)
printf("%d ", nonsqr(i));
printf("\n");
for (i = 1; i < 1000000; i++) {
double j = sqrt(nonsqr(i));
assert(j != floor(j));
}
return 0;
}
|
Convert this PHP block to C, preserving its control flow and logic. | <?php
$str = 'abcdefgh';
$n = 2;
$m = 3;
echo substr($str, $n, $m), "\n"; //cde
echo substr($str, $n), "\n"; //cdefgh
echo substr($str, 0, -1), "\n"; //abcdefg
echo substr($str, strpos($str, 'd'), $m), "\n"; //def
echo substr($str, strpos($str, 'de'), $m), "\n"; //def
?>
|
#define _CRT_SECURE_NO_WARNINGS
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
void putm(char* string, size_t m)
{
while(*string && m--)
putchar(*string++);
}
int main(void)
{
char string[] =
"Programs for other encodings (such as 8-bit ASCII, or EUC-JP)."
int n = 3;
int m = 4;
char knownCharacter = '(';
char knownSubstring[] = "encodings";
putm(string+n-1, m ); putchar('\n');
puts(string+n+1); putchar('\n');
putm(string, strlen(string)-1); putchar('\n');
putm(strchr(string, knownCharacter), m ); putchar('\n');
putm(strstr(string, knownSubstring), m ); putchar('\n');
return EXIT_SUCCESS;
}
|
Ensure the translated C code behaves exactly like the original PHP snippet. | <?php
function isLeapYear($year) {
if ($year % 100 == 0) {
return ($year % 400 == 0);
}
return ($year % 4 == 0);
}
| #include <stdio.h>
int is_leap_year(unsigned year)
{
return !(year & (year % 100 ? 3 : 15));
}
int main(void)
{
const unsigned test_case[] = {
1900, 1994, 1996, 1997, 2000, 2024, 2025, 2026, 2100
};
const unsigned n = sizeof test_case / sizeof test_case[0];
for (unsigned i = 0; i != n; ++i) {
unsigned year = test_case[i];
printf("%u is %sa leap year.\n", year, is_leap_year(year) ? "" : "not ");
}
return 0;
}
|
Convert this PHP block to C, preserving its control flow and logic. | $orderOfMag = array('Hundred', 'Thousand,', 'Million,', 'Billion,', 'Trillion,');
$smallNumbers = array('Zero', 'One', 'Two', 'Three', 'Four', 'Five', 'Six', 'Seven', 'Eight', 'Nine',
'Ten', 'Eleven', 'Twelve', 'Thirteen', 'Fourteen', 'Fifteen', 'Sixteen', 'Seventeen', 'Eighteen', 'Nineteen');
$decades = array('', '', 'Twenty', 'Thirty', 'Forty', 'Fifty', 'Sixty', 'Seventy', 'Eighty', 'Ninety');
function NumberToEnglish($num, $count = 0){
global $orderOfMag, $smallNumbers, $decades;
$isLast = true;
$str = '';
if ($num < 0){
$str = 'Negative ';
$num = abs($num);
}
(int) $thisPart = substr((string) $num, -3);
if (strlen((string) $num) > 3){
$str .= NumberToEnglish((int) substr((string) $num, 0, strlen((string) $num) - 3), $count + 1);
$isLast = false;
}
if (($count == 0 || $isLast) && ($str == '' || $str == 'Negative '))
$and = '';
else
$and = ' and ';
if ($thisPart > 99){
$str .= ($isLast ? '' : ' ') . "{$smallNumbers[$thisPart/100]} {$orderOfMag[0]}";
if(($thisPart %= 100) == 0){
$str .= " {$orderOfMag[$count]}";
return $str;
}
$and = ' and '; // Set up our and string to the word "and" since there is something in the hundreds place of this chunk
}
if ($thisPart >= 20){
$str .= "{$and}{$decades[$thisPart /10]}";
$and = ' '; // Make sure we don't have any extranious "and"s
if(($thisPart %= 10) == 0)
return $str . ($count != 0 ? " {$orderOfMag[$count]}" : '');
}
if ($thisPart < 20 && $thisPart > 0)
return $str . "{$and}{$smallNumbers[(int) $thisPart]} " . ($count != 0 ? $orderOfMag[$count] : '');
elseif ($thisPart == 0 && strlen($thisPart) == 1)
return $str . "{$smallNumbers[(int)$thisPart]}";
}
| #include <stdio.h>
#include <string.h>
const char *ones[] = { 0, "one", "two", "three", "four",
"five", "six", "seven", "eight", "nine",
"ten", "eleven", "twelve", "thirteen", "fourteen",
"fifteen", "sixteen", "seventeen", "eighteen", "nineteen" };
const char *tens[] = { 0, "ten", "twenty", "thirty", "forty",
"fifty", "sixty", "seventy", "eighty", "ninety" };
const char *llions[] = { 0, "thousand", "million", "billion", "trillion",
};
const int maxillion = sizeof(llions) / sizeof(llions[0]) * 3 - 3;
int say_hundred(const char *s, int len, int depth, int has_lead)
{
int c[3], i;
for (i = -3; i < 0; i++) {
if (len + i >= 0) c[i + 3] = s[len + i] - '0';
else c[i + 3] = 0;
}
if (!(c[0] + c[1] + c[2])) return 0;
if (c[0]) {
printf("%s hundred", ones[c[0]]);
has_lead = 1;
}
if (has_lead && (c[1] || c[2]))
printf((!depth || c[0]) && (!c[0] || !c[1]) ? "and " :
c[0] ? " " : "");
if (c[1] < 2) {
if (c[1] || c[2]) printf("%s", ones[c[1] * 10 + c[2]]);
} else {
if (c[1]) {
printf("%s", tens[c[1]]);
if (c[2]) putchar('-');
}
if (c[2]) printf("%s", ones[c[2]]);
}
return 1;
}
int say_maxillion(const char *s, int len, int depth, int has_lead)
{
int n = len / 3, r = len % 3;
if (!r) {
n--;
r = 3;
}
const char *e = s + r;
do {
if (say_hundred(s, r, n, has_lead) && n) {
has_lead = 1;
printf(" %s", llions[n]);
if (!depth) printf(", ");
else printf(" ");
}
s = e; e += 3;
} while (r = 3, n--);
return 1;
}
void say_number(const char *s)
{
int len, i, got_sign = 0;
while (*s == ' ') s++;
if (*s < '0' || *s > '9') {
if (*s == '-') got_sign = -1;
else if (*s == '+') got_sign = 1;
else goto nan;
s++;
} else
got_sign = 1;
while (*s == '0') {
s++;
if (*s == '\0') {
printf("zero\n");
return;
}
}
len = strlen(s);
if (!len) goto nan;
for (i = 0; i < len; i++) {
if (s[i] < '0' || s[i] > '9') {
printf("(not a number)");
return;
}
}
if (got_sign == -1) printf("minus ");
int n = len / maxillion;
int r = len % maxillion;
if (!r) {
r = maxillion;
n--;
}
const char *end = s + len - n * maxillion;
int has_lead = 0;
do {
if ((has_lead = say_maxillion(s, r, n, has_lead))) {
for (i = 0; i < n; i++)
printf(" %s", llions[maxillion / 3]);
if (n) printf(", ");
}
n--;
r = maxillion;
s = end;
end += r;
} while (n >= 0);
printf("\n");
return;
nan: printf("not a number\n");
return;
}
int main()
{
say_number("-42");
say_number("1984");
say_number("10000");
say_number("1024");
say_number("1001001001001");
say_number("123456789012345678901234567890123456789012345678900000001");
return 0;
}
|
Write the same algorithm in C as shown in this PHP implementation. | <?php
function retrieveStrings()
{
if (isset($_POST['input'])) {
$strings = explode("\n", $_POST['input']);
} else {
$strings = ['abcd', '123456789', 'abcdef', '1234567'];
}
return $strings;
}
function setInput()
{
echo join("\n", retrieveStrings());
}
function setOutput()
{
$strings = retrieveStrings();
$strings = array_map('trim', $strings);
$strings = array_filter($strings);
if (!empty($strings)) {
usort($strings, function ($a, $b) {
return strlen($b) - strlen($a);
});
$max_len = strlen($strings[0]);
$min_len = strlen($strings[count($strings) - 1]);
foreach ($strings as $s) {
$length = strlen($s);
if ($length == $max_len) {
$predicate = "is the longest string";
} elseif ($length == $min_len) {
$predicate = "is the shortest string";
} else {
$predicate = "is neither the longest nor the shortest string";
}
echo "$s has length $length and $predicate\n";
}
}
}
?>
<!DOCTYPE html>
<html lang="en">
<head>
<style>
div {
margin-top: 4ch;
margin-bottom: 4ch;
}
label {
display: block;
margin-bottom: 1ch;
}
textarea {
display: block;
}
input {
display: block;
margin-top: 4ch;
margin-bottom: 4ch;
}
</style>
</head>
<body>
<main>
<form action=<?php echo $_SERVER['SCRIPT_NAME'] ?> method="post" accept-charset="utf-8">
<div>
<label for="input">Input:
</label>
<textarea rows='20' cols='80' name='input'><?php setInput(); ?></textarea>
</label>
</div>
<input type="submit" value="press to compare strings">
</input>
<div>
<label for="Output">Output:
</label>
<textarea rows='20' cols='80' name='output'><?php setOutput(); ?></textarea>
</div>
</form>
</main>
</body>
</html>
| #include <stdio.h>
#include <stdlib.h>
#include <string.h>
int cmp(const int* a, const int* b)
{
return *b - *a;
}
void compareAndReportStringsLength(const char* strings[], const int n)
{
if (n > 0)
{
char* has_length = "has length";
char* predicate_max = "and is the longest string";
char* predicate_min = "and is the shortest string";
char* predicate_ave = "and is neither the longest nor the shortest string";
int* si = malloc(2 * n * sizeof(int));
if (si != NULL)
{
for (int i = 0; i < n; i++)
{
si[2 * i] = strlen(strings[i]);
si[2 * i + 1] = i;
}
qsort(si, n, 2 * sizeof(int), cmp);
int max = si[0];
int min = si[2 * (n - 1)];
for (int i = 0; i < n; i++)
{
int length = si[2 * i];
char* string = strings[si[2 * i + 1]];
char* predicate;
if (length == max)
predicate = predicate_max;
else if (length == min)
predicate = predicate_min;
else
predicate = predicate_ave;
printf("\"%s\" %s %d %s\n",
string, has_length, length, predicate);
}
free(si);
}
else
{
fputs("unable allocate memory buffer", stderr);
}
}
}
int main(int argc, char* argv[])
{
char* list[] = { "abcd", "123456789", "abcdef", "1234567" };
compareAndReportStringsLength(list, 4);
return EXIT_SUCCESS;
}
|
Port the provided PHP code into C while preserving the original functionality. | function shellSort($arr)
{
$inc = round(count($arr)/2);
while($inc > 0)
{
for($i = $inc; $i < count($arr);$i++){
$temp = $arr[$i];
$j = $i;
while($j >= $inc && $arr[$j-$inc] > $temp)
{
$arr[$j] = $arr[$j - $inc];
$j -= $inc;
}
$arr[$j] = $temp;
}
$inc = round($inc/2.2);
}
return $arr;
}
| #include <stdio.h>
void shell_sort (int *a, int n) {
int h, i, j, t;
for (h = n; h /= 2;) {
for (i = h; i < n; i++) {
t = a[i];
for (j = i; j >= h && t < a[j - h]; j -= h) {
a[j] = a[j - h];
}
a[j] = t;
}
}
}
int main (int ac, char **av) {
int a[] = {4, 65, 2, -31, 0, 99, 2, 83, 782, 1};
int n = sizeof a / sizeof a[0];
int i;
for (i = 0; i < n; i++)
printf("%d%s", a[i], i == n - 1 ? "\n" : " ");
shell_sort(a, n);
for (i = 0; i < n; i++)
printf("%d%s", a[i], i == n - 1 ? "\n" : " ");
return 0;
}
|
Keep all operations the same but rewrite the snippet in C. | <?php
print_r(array_count_values(str_split(file_get_contents($argv[1]))));
?>
|
int frequency[26];
int ch;
FILE* txt_file = fopen ("a_text_file.txt", "rt");
for (ch = 0; ch < 26; ch++)
frequency[ch] = 0;
while (1) {
ch = fgetc(txt_file);
if (ch == EOF) break;
if ('a' <= ch && ch <= 'z')
frequency[ch-'a']++;
else if ('A' <= ch && ch <= 'Z')
frequency[ch-'A']++;
}
|
Maintain the same structure and functionality when rewriting this code in C. | $s = "12345";
$s++;
| #include <stdio.h>
#include <string.h>
#include <stdlib.h>
char * incr(char *s)
{
int i, begin, tail, len;
int neg = (*s == '-');
char tgt = neg ? '0' : '9';
if (!strcmp(s, "-1")) {
s[0] = '0', s[1] = '\0';
return s;
}
len = strlen(s);
begin = (*s == '-' || *s == '+') ? 1 : 0;
for (tail = len - 1; tail >= begin && s[tail] == tgt; tail--);
if (tail < begin && !neg) {
if (!begin) s = realloc(s, len + 2);
s[0] = '1';
for (i = 1; i <= len - begin; i++) s[i] = '0';
s[len + 1] = '\0';
} else if (tail == begin && neg && s[1] == '1') {
for (i = 1; i < len - begin; i++) s[i] = '9';
s[len - 1] = '\0';
} else {
for (i = len - 1; i > tail; i--)
s[i] = neg ? '9' : '0';
s[tail] += neg ? -1 : 1;
}
return s;
}
void string_test(const char *s)
{
char *ret = malloc(strlen(s));
strcpy(ret, s);
printf("text: %s\n", ret);
printf(" ->: %s\n", ret = incr(ret));
free(ret);
}
int main()
{
string_test("+0");
string_test("-1");
string_test("-41");
string_test("+41");
string_test("999");
string_test("+999");
string_test("109999999999999999999999999999999999999999");
string_test("-100000000000000000000000000000000000000000000");
return 0;
}
|
Change the programming language of this snippet from PHP to C without modifying what it does. | <?php
function stripchars($s, $chars) {
return str_replace(str_split($chars), "", $s);
}
echo stripchars("She was a soul stripper. She took my heart!", "aei"), "\n";
?>
| #include <string.h>
#include <stdio.h>
#include <stdlib.h>
char *strip_chars(const char *string, const char *chars)
{
char * newstr = malloc(strlen(string) + 1);
int counter = 0;
for ( ; *string; string++) {
if (!strchr(chars, *string)) {
newstr[ counter ] = *string;
++ counter;
}
}
newstr[counter] = 0;
return newstr;
}
int main(void)
{
char *new = strip_chars("She was a soul stripper. She took my heart!", "aei");
printf("%s\n", new);
free(new);
return 0;
}
|
Transform the following PHP implementation into C, maintaining the same output and logic. | function inOrder($arr){
for($i=0;$i<count($arr);$i++){
if(isset($arr[$i+1])){
if($arr[$i] > $arr[$i+1]){
return false;
}
}
}
return true;
}
function permute($items, $perms = array( )) {
if (empty($items)) {
if(inOrder($perms)){
return $perms;
}
} else {
for ($i = count($items) - 1; $i >= 0; --$i) {
$newitems = $items;
$newperms = $perms;
list($foo) = array_splice($newitems, $i, 1);
array_unshift($newperms, $foo);
$res = permute($newitems, $newperms);
if($res){
return $res;
}
}
}
}
$arr = array( 8, 3, 10, 6, 1, 9, 7, 2, 5, 4);
$arr = permute($arr);
echo implode(',',$arr);
| #include <stdio.h>
#include <stdlib.h>
#include <string.h>
typedef int(*cmp_func)(const void*, const void*);
void perm_sort(void *a, int n, size_t msize, cmp_func _cmp)
{
char *p, *q, *tmp = malloc(msize);
# define A(i) ((char *)a + msize * (i))
# define swap(a, b) {\
memcpy(tmp, a, msize);\
memcpy(a, b, msize);\
memcpy(b, tmp, msize); }
while (1) {
for (p = A(n - 1); (void*)p > a; p = q)
if (_cmp(q = p - msize, p) > 0)
break;
if ((void*)p <= a) break;
for (p = A(n - 1); p > q; p-= msize)
if (_cmp(q, p) > 0) break;
swap(p, q);
for (q += msize, p = A(n - 1); q < p; q += msize, p -= msize)
swap(p, q);
}
free(tmp);
}
int scmp(const void *a, const void *b) { return strcmp(*(const char *const *)a, *(const char *const *)b); }
int main()
{
int i;
const char *strs[] = { "spqr", "abc", "giant squid", "stuff", "def" };
perm_sort(strs, 5, sizeof(*strs), scmp);
for (i = 0; i < 5; i++)
printf("%s\n", strs[i]);
return 0;
}
|
Write the same algorithm in C as shown in this PHP implementation. | $nums = array(3, 1, 4, 1, 5, 9);
if ($nums)
echo array_sum($nums) / count($nums), "\n";
else
echo "0\n";
| #include <stdio.h>
double mean(double *v, int len)
{
double sum = 0;
int i;
for (i = 0; i < len; i++)
sum += v[i];
return sum / len;
}
int main(void)
{
double v[] = {1, 2, 2.718, 3, 3.142};
int i, len;
for (len = 5; len >= 0; len--) {
printf("mean[");
for (i = 0; i < len; i++)
printf(i ? ", %g" : "%g", v[i]);
printf("] = %g\n", mean(v, len));
}
return 0;
}
|
Convert this PHP block to C, preserving its control flow and logic. | <?php
function shannonEntropy($string) {
$h = 0.0;
$len = strlen($string);
foreach (count_chars($string, 1) as $count) {
$h -= (double) ($count / $len) * log((double) ($count / $len), 2);
}
return $h;
}
$strings = array(
'1223334444',
'1225554444',
'aaBBcccDDDD',
'122333444455555',
'Rosetta Code',
'1234567890abcdefghijklmnopqrstuvwxyz',
);
foreach ($strings AS $string) {
printf(
'%36s : %s' . PHP_EOL,
$string,
number_format(shannonEntropy($string), 6)
);
}
| #include <stdio.h>
#include <stdlib.h>
#include <stdbool.h>
#include <string.h>
#include <math.h>
#define MAXLEN 100
int makehist(unsigned char *S,int *hist,int len){
int wherechar[256];
int i,histlen;
histlen=0;
for(i=0;i<256;i++)wherechar[i]=-1;
for(i=0;i<len;i++){
if(wherechar[(int)S[i]]==-1){
wherechar[(int)S[i]]=histlen;
histlen++;
}
hist[wherechar[(int)S[i]]]++;
}
return histlen;
}
double entropy(int *hist,int histlen,int len){
int i;
double H;
H=0;
for(i=0;i<histlen;i++){
H-=(double)hist[i]/len*log2((double)hist[i]/len);
}
return H;
}
int main(void){
unsigned char S[MAXLEN];
int len,*hist,histlen;
double H;
scanf("%[^\n]",S);
len=strlen(S);
hist=(int*)calloc(len,sizeof(int));
histlen=makehist(S,hist,len);
H=entropy(hist,histlen,len);
printf("%lf\n",H);
return 0;
}
|
Transform the following PHP implementation into C++, maintaining the same output and logic. | function bitwise($a, $b)
{
function zerofill($a,$b) {
if($a>=0) return $a>>$b;
if($b==0) return (($a>>1)&0x7fffffff)*2+(($a>>$b)&1); // this line shifts a 0 into the sign bit for compatibility, replace with "if($b==0) return $a;" if you need $b=0 to mean that nothing happens
return ((~$a)>>$b)^(0x7fffffff>>($b-1));
echo '$a AND $b: ' . $a & $b . '\n';
echo '$a OR $b: ' . $a | $b . '\n';
echo '$a XOR $b: ' . $a ^ $b . '\n';
echo 'NOT $a: ' . ~$a . '\n';
echo '$a << $b: ' . $a << $b . '\n'; // left shift
echo '$a >> $b: ' . $a >> $b . '\n'; // arithmetic right shift
echo 'zerofill($a, $b): ' . zerofill($a, $b) . '\n'; // logical right shift
}
| #include <iostream>
void bitwise(int a, int b)
{
std::cout << "a and b: " << (a & b) << '\n';
std::cout << "a or b: " << (a | b) << '\n';
std::cout << "a xor b: " << (a ^ b) << '\n';
std::cout << "not a: " << ~a << '\n';
std::cout << "a shl b: " << (a << b) << '\n';
std::cout << "a shr b: " << (a >> b) << '\n';
unsigned int ua = a;
std::cout << "a lsr b: " << (ua >> b) << '\n';
std::cout << "a rol b: " << std::rotl(ua, b) << '\n';
std::cout << "a ror b: " << std::rotr(ua, b) << '\n';
}
|
Change the programming language of this snippet from PHP to C++ without modifying what it does. | <?php
$file = fopen(__FILE__, 'r'); // read current file
while ($line = fgets($file)) {
$line = rtrim($line); // removes linebreaks and spaces at end
echo strrev($line) . "\n"; // reverse line and upload it
}
| #include <fstream>
#include <string>
#include <iostream>
int main( int argc , char** argv ) {
int linecount = 0 ;
std::string line ;
std::ifstream infile( argv[ 1 ] ) ;
if ( infile ) {
while ( getline( infile , line ) ) {
std::cout << linecount << ": "
<< line << '\n' ;
linecount++ ;
}
}
infile.close( ) ;
return 0 ;
}
|
Convert this PHP block to C++, preserving its control flow and logic. | base_convert("26", 10, 16); // returns "1a"
| #include <string>
#include <cstdlib>
#include <algorithm>
#include <cassert>
std::string const digits = "0123456789abcdefghijklmnopqrstuvwxyz";
std::string to_base(unsigned long num, int base)
{
if (num == 0)
return "0";
std::string result;
while (num > 0) {
std::ldiv_t temp = std::div(num, (long)base);
result += digits[temp.rem];
num = temp.quot;
}
std::reverse(result.begin(), result.end());
return result;
}
unsigned long from_base(std::string const& num_str, int base)
{
unsigned long result = 0;
for (std::string::size_type pos = 0; pos < num_str.length(); ++pos)
result = result * base + digits.find(num_str[pos]);
return result;
}
|
Write a version of this PHP function in C++ with identical behavior. | function findFiles($dir = '.', $pattern = '/./'){
$prefix = $dir . '/';
$dir = dir($dir);
while (false !== ($file = $dir->read())){
if ($file === '.' || $file === '..') continue;
$file = $prefix . $file;
if (is_dir($file)) findFiles($file, $pattern);
if (preg_match($pattern, $file)){
echo $file . "\n";
}
}
}
findFiles('./foo', '/\.bar$/');
| #include "boost/filesystem.hpp"
#include "boost/regex.hpp"
#include <iostream>
using namespace boost::filesystem;
int main()
{
path current_dir(".");
boost::regex pattern("a.*");
for (recursive_directory_iterator iter(current_dir), end;
iter != end;
++iter)
{
std::string name = iter->path().filename().string();
if (regex_match(name, pattern))
std::cout << iter->path() << "\n";
}
}
|
Convert this PHP snippet to C++ and keep its semantics consistent. | printf("%x\n", crc32("The quick brown fox jumps over the lazy dog"));
| #include <algorithm>
#include <array>
#include <cstdint>
#include <numeric>
#include <iomanip>
#include <iostream>
#include <string>
std::array<std::uint_fast32_t, 256> generate_crc_lookup_table() noexcept
{
auto const reversed_polynomial = std::uint_fast32_t{0xEDB88320uL};
struct byte_checksum
{
std::uint_fast32_t operator()() noexcept
{
auto checksum = static_cast<std::uint_fast32_t>(n++);
for (auto i = 0; i < 8; ++i)
checksum = (checksum >> 1) ^ ((checksum & 0x1u) ? reversed_polynomial : 0);
return checksum;
}
unsigned n = 0;
};
auto table = std::array<std::uint_fast32_t, 256>{};
std::generate(table.begin(), table.end(), byte_checksum{});
return table;
}
template <typename InputIterator>
std::uint_fast32_t crc(InputIterator first, InputIterator last)
{
static auto const table = generate_crc_lookup_table();
return std::uint_fast32_t{0xFFFFFFFFuL} &
~std::accumulate(first, last,
~std::uint_fast32_t{0} & std::uint_fast32_t{0xFFFFFFFFuL},
[](std::uint_fast32_t checksum, std::uint_fast8_t value)
{ return table[(checksum ^ value) & 0xFFu] ^ (checksum >> 8); });
}
int main()
{
auto const s = std::string{"The quick brown fox jumps over the lazy dog"};
std::cout << std::hex << std::setw(8) << std::setfill('0') << crc(s.begin(), s.end()) << '\n';
}
|
Port the following code from PHP to C++ with equivalent syntax and logic. | class MyClass {
public static $classVar;
public $instanceVar; // can also initialize it here
function __construct() {
$this->instanceVar = 0;
}
function someMethod() {
$this->instanceVar = 1;
self::$classVar = 3;
}
}
$myObj = new MyClass();
| PRAGMA COMPILER g++
PRAGMA OPTIONS -Wno-write-strings -Wno-pointer-arith -fpermissive
OPTION PARSE FALSE
'---The class does the declaring for you
CLASS Books
public:
const char* title;
const char* author;
const char* subject;
int book_id;
END CLASS
'---pointer to an object declaration (we use a class called Books)
DECLARE Book1 TYPE Books
'--- the correct syntax for class
Book1 = Books()
'--- initialize the strings const char* in c++
Book1.title = "C++ Programming to bacon "
Book1.author = "anyone"
Book1.subject ="RECORD Tutorial"
Book1.book_id = 1234567
PRINT "Book title : " ,Book1.title FORMAT "%s%s\n"
PRINT "Book author : ", Book1.author FORMAT "%s%s\n"
PRINT "Book subject : ", Book1.subject FORMAT "%s%s\n"
PRINT "Book book_id : ", Book1.book_id FORMAT "%s%d\n"
|
Convert this PHP block to C++, preserving its control flow and logic. | set_time_limit(300);
print_r(array_filter(range(1, 10000), 'isKaprekar'));
echo count(array_filter(range(1, 1000000), 'isKaprekar'));
function isKaprekar($n) {
$a = $n * $n;
$b = bcmod("$a", "10");
for ($d = 1, $t = 0; $a > 0; $d *= 10) {
$b += $t * $d;
if ($b > $n) break;
$a = floor($a / 10);
if ($b && $a + $b == $n)
return true;
$t = bcmod("$a", "10");
}
return false;
}
| #include <vector>
#include <string>
#include <iostream>
#include <sstream>
#include <algorithm>
#include <iterator>
#include <utility>
long string2long( const std::string & s ) {
long result ;
std::istringstream( s ) >> result ;
return result ;
}
bool isKaprekar( long number ) {
long long squarenumber = ((long long)number) * number ;
std::ostringstream numberbuf ;
numberbuf << squarenumber ;
std::string numberstring = numberbuf.str( ) ;
for ( int i = 0 ; i < numberstring.length( ) ; i++ ) {
std::string firstpart = numberstring.substr( 0 , i ) ,
secondpart = numberstring.substr( i ) ;
if ( secondpart.find_first_not_of( "0" ) == std::string::npos ) {
return false ;
}
if ( string2long( firstpart ) + string2long( secondpart ) == number ) {
return true ;
}
}
return false ;
}
int main( ) {
std::vector<long> kaprekarnumbers ;
kaprekarnumbers.push_back( 1 ) ;
for ( int i = 2 ; i < 1000001 ; i++ ) {
if ( isKaprekar( i ) )
kaprekarnumbers.push_back( i ) ;
}
std::vector<long>::const_iterator svi = kaprekarnumbers.begin( ) ;
std::cout << "Kaprekar numbers up to 10000: \n" ;
while ( *svi < 10000 ) {
std::cout << *svi << " " ;
svi++ ;
}
std::cout << '\n' ;
std::cout << "All the Kaprekar numbers up to 1000000 :\n" ;
std::copy( kaprekarnumbers.begin( ) , kaprekarnumbers.end( ) ,
std::ostream_iterator<long>( std::cout , "\n" ) ) ;
std::cout << "There are " << kaprekarnumbers.size( )
<< " Kaprekar numbers less than one million!\n" ;
return 0 ;
}
|
Write the same algorithm in C++ as shown in this PHP implementation. | set_time_limit(300);
print_r(array_filter(range(1, 10000), 'isKaprekar'));
echo count(array_filter(range(1, 1000000), 'isKaprekar'));
function isKaprekar($n) {
$a = $n * $n;
$b = bcmod("$a", "10");
for ($d = 1, $t = 0; $a > 0; $d *= 10) {
$b += $t * $d;
if ($b > $n) break;
$a = floor($a / 10);
if ($b && $a + $b == $n)
return true;
$t = bcmod("$a", "10");
}
return false;
}
| #include <vector>
#include <string>
#include <iostream>
#include <sstream>
#include <algorithm>
#include <iterator>
#include <utility>
long string2long( const std::string & s ) {
long result ;
std::istringstream( s ) >> result ;
return result ;
}
bool isKaprekar( long number ) {
long long squarenumber = ((long long)number) * number ;
std::ostringstream numberbuf ;
numberbuf << squarenumber ;
std::string numberstring = numberbuf.str( ) ;
for ( int i = 0 ; i < numberstring.length( ) ; i++ ) {
std::string firstpart = numberstring.substr( 0 , i ) ,
secondpart = numberstring.substr( i ) ;
if ( secondpart.find_first_not_of( "0" ) == std::string::npos ) {
return false ;
}
if ( string2long( firstpart ) + string2long( secondpart ) == number ) {
return true ;
}
}
return false ;
}
int main( ) {
std::vector<long> kaprekarnumbers ;
kaprekarnumbers.push_back( 1 ) ;
for ( int i = 2 ; i < 1000001 ; i++ ) {
if ( isKaprekar( i ) )
kaprekarnumbers.push_back( i ) ;
}
std::vector<long>::const_iterator svi = kaprekarnumbers.begin( ) ;
std::cout << "Kaprekar numbers up to 10000: \n" ;
while ( *svi < 10000 ) {
std::cout << *svi << " " ;
svi++ ;
}
std::cout << '\n' ;
std::cout << "All the Kaprekar numbers up to 1000000 :\n" ;
std::copy( kaprekarnumbers.begin( ) , kaprekarnumbers.end( ) ,
std::ostream_iterator<long>( std::cout , "\n" ) ) ;
std::cout << "There are " << kaprekarnumbers.size( )
<< " Kaprekar numbers less than one million!\n" ;
return 0 ;
}
|
Convert this PHP snippet to C++ and keep its semantics consistent. | class LZW
{
function compress($unc) {
$i;$c;$wc;
$w = "";
$dictionary = array();
$result = array();
$dictSize = 256;
for ($i = 0; $i < 256; $i += 1) {
$dictionary[chr($i)] = $i;
}
for ($i = 0; $i < strlen($unc); $i++) {
$c = $unc[$i];
$wc = $w.$c;
if (array_key_exists($w.$c, $dictionary)) {
$w = $w.$c;
} else {
array_push($result,$dictionary[$w]);
$dictionary[$wc] = $dictSize++;
$w = (string)$c;
}
}
if ($w !== "") {
array_push($result,$dictionary[$w]);
}
return implode(",",$result);
}
function decompress($com) {
$com = explode(",",$com);
$i;$w;$k;$result;
$dictionary = array();
$entry = "";
$dictSize = 256;
for ($i = 0; $i < 256; $i++) {
$dictionary[$i] = chr($i);
}
$w = chr($com[0]);
$result = $w;
for ($i = 1; $i < count($com);$i++) {
$k = $com[$i];
if (isset($dictionary[$k])) {
$entry = $dictionary[$k];
} else {
if ($k === $dictSize) {
$entry = $w.$w[0];
} else {
return null;
}
}
$result .= $entry;
$dictionary[$dictSize++] = $w . $entry[0];
$w = $entry;
}
return $result;
}
}
$str = 'TOBEORNOTTOBEORTOBEORNOT';
$lzw = new LZW();
$com = $lzw->compress($str);
$dec = $lzw->decompress($com);
echo $com . "<br>" . $dec;
| #include <string>
#include <map>
template <typename Iterator>
Iterator compress(const std::string &uncompressed, Iterator result) {
int dictSize = 256;
std::map<std::string,int> dictionary;
for (int i = 0; i < 256; i++)
dictionary[std::string(1, i)] = i;
std::string w;
for (std::string::const_iterator it = uncompressed.begin();
it != uncompressed.end(); ++it) {
char c = *it;
std::string wc = w + c;
if (dictionary.count(wc))
w = wc;
else {
*result++ = dictionary[w];
dictionary[wc] = dictSize++;
w = std::string(1, c);
}
}
if (!w.empty())
*result++ = dictionary[w];
return result;
}
template <typename Iterator>
std::string decompress(Iterator begin, Iterator end) {
int dictSize = 256;
std::map<int,std::string> dictionary;
for (int i = 0; i < 256; i++)
dictionary[i] = std::string(1, i);
std::string w(1, *begin++);
std::string result = w;
std::string entry;
for ( ; begin != end; begin++) {
int k = *begin;
if (dictionary.count(k))
entry = dictionary[k];
else if (k == dictSize)
entry = w + w[0];
else
throw "Bad compressed k";
result += entry;
dictionary[dictSize++] = w + entry[0];
w = entry;
}
return result;
}
#include <iostream>
#include <iterator>
#include <vector>
int main() {
std::vector<int> compressed;
compress("TOBEORNOTTOBEORTOBEORNOT", std::back_inserter(compressed));
copy(compressed.begin(), compressed.end(), std::ostream_iterator<int>(std::cout, ", "));
std::cout << std::endl;
std::string decompressed = decompress(compressed.begin(), compressed.end());
std::cout << decompressed << std::endl;
return 0;
}
|
Generate an equivalent C++ version of this PHP code. | <?php
function fib($n) {
if ($n < 0)
throw new Exception('Negative numbers not allowed');
$f = function($n) { // This function must be called using call_user_func() only
if ($n < 2)
return 1;
else {
$g = debug_backtrace()[1]['args'][0];
return call_user_func($g, $n-1) + call_user_func($g, $n-2);
}
};
return call_user_func($f, $n);
}
echo fib(8), "\n";
?>
| double fib(double n)
{
if(n < 0)
{
throw "Invalid argument passed to fib";
}
else
{
struct actual_fib
{
static double calc(double n)
{
if(n < 2)
{
return n;
}
else
{
return calc(n-1) + calc(n-2);
}
}
};
return actual_fib::calc(n);
}
}
|
Produce a language-to-language conversion: from PHP to C++, same semantics. | <?php
echo substr("knight", 1), "\n"; // strip first character
echo substr("socks", 0, -1), "\n"; // strip last character
echo substr("brooms", 1, -1), "\n"; // strip both first and last characters
?>
| #include <string>
#include <iostream>
int main( ) {
std::string word( "Premier League" ) ;
std::cout << "Without first letter: " << word.substr( 1 ) << " !\n" ;
std::cout << "Without last letter: " << word.substr( 0 , word.length( ) - 1 ) << " !\n" ;
std::cout << "Without first and last letter: " << word.substr( 1 , word.length( ) - 2 ) << " !\n" ;
return 0 ;
}
|
Convert this PHP block to C++, preserving its control flow and logic. | <?php
echo substr("knight", 1), "\n"; // strip first character
echo substr("socks", 0, -1), "\n"; // strip last character
echo substr("brooms", 1, -1), "\n"; // strip both first and last characters
?>
| #include <string>
#include <iostream>
int main( ) {
std::string word( "Premier League" ) ;
std::cout << "Without first letter: " << word.substr( 1 ) << " !\n" ;
std::cout << "Without last letter: " << word.substr( 0 , word.length( ) - 1 ) << " !\n" ;
std::cout << "Without first and last letter: " << word.substr( 1 , word.length( ) - 2 ) << " !\n" ;
return 0 ;
}
|
Transform the following PHP implementation into C++, maintaining the same output and logic. | <?php
echo 'Enter strings (empty string to finish) :', PHP_EOL;
$output = $previous = readline();
while ($current = readline()) {
$p = $previous;
$c = $current;
while ($p and $c) {
$p = substr($p, 1);
$c = substr($c, 1);
}
if (!$p and !$c) {
$output .= PHP_EOL . $current;
}
if ($c) {
$output = $previous = $current;
}
}
echo 'Longest string(s) = ', PHP_EOL, $output, PHP_EOL;
| #include <iostream>
#include <string.h>
int main()
{
std::string longLine, longestLines, newLine;
while (std::cin >> newLine)
{
auto isNewLineShorter = longLine.c_str();
auto isLongLineShorter = newLine.c_str();
while (*isNewLineShorter && *isLongLineShorter)
{
isNewLineShorter = &isNewLineShorter[1];
isLongLineShorter = &isLongLineShorter[1];
}
if(*isNewLineShorter) continue;
if(*isLongLineShorter)
{
longLine = newLine;
longestLines = newLine;
}
else
{
longestLines+=newLine;
}
longestLines+="\n";
}
std::cout << "\nLongest string:\n" << longestLines;
}
|
Convert this PHP block to C++, preserving its control flow and logic. | <?php
touch('output.txt');
mkdir('docs');
touch('/output.txt');
mkdir('/docs');
?>
| #include <direct.h>
#include <fstream>
int main() {
std::fstream f("output.txt", std::ios::out);
f.close();
f.open("/output.txt", std::ios::out);
f.close();
_mkdir("docs");
_mkdir("/docs");
return 0;
}
|
Port the following code from PHP to C++ with equivalent syntax and logic. | $lst = new SplDoublyLinkedList();
foreach (array(1,20,64,72,48,75,96,55,42,74) as $v)
$lst->push($v);
foreach (strandSort($lst) as $v)
echo "$v ";
function strandSort(SplDoublyLinkedList $lst) {
$result = new SplDoublyLinkedList();
while (!$lst->isEmpty()) {
$sorted = new SplDoublyLinkedList();
$remain = new SplDoublyLinkedList();
$sorted->push($lst->shift());
foreach ($lst as $item) {
if ($sorted->top() <= $item) {
$sorted->push($item);
} else {
$remain->push($item);
}
}
$result = _merge($sorted, $result);
$lst = $remain;
}
return $result;
}
function _merge(SplDoublyLinkedList $left, SplDoublyLinkedList $right) {
$res = new SplDoublyLinkedList();
while (!$left->isEmpty() && !$right->isEmpty()) {
if ($left->bottom() <= $right->bottom()) {
$res->push($left->shift());
} else {
$res->push($right->shift());
}
}
foreach ($left as $v) $res->push($v);
foreach ($right as $v) $res->push($v);
return $res;
}
| #include <list>
template <typename T>
std::list<T> strandSort(std::list<T> lst) {
if (lst.size() <= 1)
return lst;
std::list<T> result;
std::list<T> sorted;
while (!lst.empty()) {
sorted.push_back(lst.front());
lst.pop_front();
for (typename std::list<T>::iterator it = lst.begin(); it != lst.end(); ) {
if (sorted.back() <= *it) {
sorted.push_back(*it);
it = lst.erase(it);
} else
it++;
}
result.merge(sorted);
}
return result;
}
|
Rewrite the snippet below in C++ so it works the same as the original PHP code. | class Delegator {
function __construct() {
$this->delegate = NULL ;
}
function operation() {
if(method_exists($this->delegate, "thing"))
return $this->delegate->thing() ;
return 'default implementation' ;
}
}
class Delegate {
function thing() {
return 'Delegate Implementation' ;
}
}
$a = new Delegator() ;
print "{$a->operation()}\n" ;
$a->delegate = 'A delegate may be any object' ;
print "{$a->operation()}\n" ;
$a->delegate = new Delegate() ;
print "{$a->operation()}\n" ;
| #include <tr1/memory>
#include <string>
#include <iostream>
#include <tr1/functional>
using namespace std;
using namespace std::tr1;
using std::tr1::function;
class IDelegate
{
public:
virtual ~IDelegate() {}
};
class IThing
{
public:
virtual ~IThing() {}
virtual std::string Thing() = 0;
};
class DelegateA : virtual public IDelegate
{
};
class DelegateB : public IThing, public IDelegate
{
std::string Thing()
{
return "delegate implementation";
}
};
class Delegator
{
public:
std::string Operation()
{
if(Delegate)
if (IThing * pThing = dynamic_cast<IThing*>(Delegate.get()))
return pThing->Thing();
return "default implementation";
}
shared_ptr<IDelegate> Delegate;
};
int main()
{
shared_ptr<DelegateA> delegateA(new DelegateA());
shared_ptr<DelegateB> delegateB(new DelegateB());
Delegator delegator;
std::cout << delegator.Operation() << std::endl;
delegator.Delegate = delegateA;
std::cout << delegator.Operation() << std::endl;
delegator.Delegate = delegateB;
std::cout << delegator.Operation() << std::endl;
}
|
Convert this PHP block to C++, preserving its control flow and logic. |
$commands = 'Add ALTer BAckup Bottom CAppend Change SCHANGE CInsert CLAst COMPress COpy
COUnt COVerlay CURsor DELete CDelete Down DUPlicate Xedit EXPand EXTract Find
NFind NFINDUp NFUp CFind FINdup FUp FOrward GET Help HEXType Input POWerinput
Join SPlit SPLTJOIN LOAD Locate CLocate LOWercase UPPercase LPrefix MACRO
MErge MODify MOve MSG Next Overlay PARSE PREServe PURge PUT PUTD Query QUIT
READ RECover REFRESH RENum REPeat Replace CReplace RESet RESTore RGTLEFT
RIght LEft SAVE SET SHift SI SORT SOS STAck STATus TOP TRAnsfer Type Up';
$input = 'riG rePEAT copies put mo rest types fup. 6 poweRin';
$expect = 'RIGHT REPEAT *error* PUT MOVE RESTORE *error* *error* *error* POWERINPUT';
$table = makeCommandTable($commands);
$table_keys = array_keys($table);
$inputTable = processInput($input);
foreach ($inputTable as $word) {
$rs = searchCommandTable($word, $table);
if ($rs) {
$output[] = $rs;
} else {
$output[] = '*error*';
}
}
echo 'Input: '. $input. PHP_EOL;
echo 'Output: '. implode(' ', $output). PHP_EOL;
function searchCommandTable($search, $table) {
foreach ($table as $key => $value) {
if ((strtoupper(substr($value['word'], 0, strlen($search))) === strtoupper($search)) && (strlen($search) >= $value['min_length'])) {
return $key;
}
}
return false;
}
function processInput($input) {
$input = preg_replace('!\s+!', ' ', $input);
$pieces = explode(' ', trim($input));
return $pieces;
}
function makeCommandTable($commands) {
$commands = preg_replace('!\s+!', ' ', $commands);
$pieces = explode(' ', trim($commands));
foreach ($pieces as $word) {
$rs[strtoupper($word)] = ['word'=>$word, 'min_length' => preg_match_all("/[A-Z]/", $word)];
}
return $rs;
}
| #include <algorithm>
#include <cctype>
#include <iostream>
#include <sstream>
#include <string>
#include <vector>
const char* command_table =
"Add ALTer BAckup Bottom CAppend Change SCHANGE CInsert CLAst COMPress COpy "
"COUnt COVerlay CURsor DELete CDelete Down DUPlicate Xedit EXPand EXTract Find "
"NFind NFINDUp NFUp CFind FINdup FUp FOrward GET Help HEXType Input POWerinput "
"Join SPlit SPLTJOIN LOAD Locate CLocate LOWercase UPPercase LPrefix MACRO "
"MErge MODify MOve MSG Next Overlay PARSE PREServe PURge PUT PUTD Query QUIT "
"READ RECover REFRESH RENum REPeat Replace CReplace RESet RESTore RGTLEFT "
"RIght LEft SAVE SET SHift SI SORT SOS STAck STATus TOP TRAnsfer Type Up";
class command {
public:
command(const std::string&, size_t);
const std::string& cmd() const { return cmd_; }
size_t min_length() const { return min_len_; }
bool match(const std::string&) const;
private:
std::string cmd_;
size_t min_len_;
};
command::command(const std::string& cmd, size_t min_len)
: cmd_(cmd), min_len_(min_len) {}
bool command::match(const std::string& str) const {
size_t olen = str.length();
return olen >= min_len_ && olen <= cmd_.length()
&& cmd_.compare(0, olen, str) == 0;
}
void uppercase(std::string& str) {
std::transform(str.begin(), str.end(), str.begin(),
[](unsigned char c) -> unsigned char { return std::toupper(c); });
}
size_t get_min_length(const std::string& str) {
size_t len = 0, n = str.length();
while (len < n && std::isupper(static_cast<unsigned char>(str[len])))
++len;
return len;
}
class command_list {
public:
explicit command_list(const char*);
const command* find_command(const std::string&) const;
private:
std::vector<command> commands_;
};
command_list::command_list(const char* table) {
std::vector<command> commands;
std::istringstream is(table);
std::string word;
while (is >> word) {
size_t len = get_min_length(word);
uppercase(word);
commands_.push_back(command(word, len));
}
}
const command* command_list::find_command(const std::string& word) const {
auto iter = std::find_if(commands_.begin(), commands_.end(),
[&word](const command& cmd) { return cmd.match(word); });
return (iter != commands_.end()) ? &*iter : nullptr;
}
std::string test(const command_list& commands, const std::string& input) {
std::string output;
std::istringstream is(input);
std::string word;
while (is >> word) {
if (!output.empty())
output += ' ';
uppercase(word);
const command* cmd_ptr = commands.find_command(word);
if (cmd_ptr)
output += cmd_ptr->cmd();
else
output += "*error*";
}
return output;
}
int main() {
command_list commands(command_table);
std::string input("riG rePEAT copies put mo rest types fup. 6 poweRin");
std::string output(test(commands, input));
std::cout << " input: " << input << '\n';
std::cout << "output: " << output << '\n';
return 0;
}
|
Produce a functionally identical C++ code for the snippet given in PHP. |
$commands = 'Add ALTer BAckup Bottom CAppend Change SCHANGE CInsert CLAst COMPress COpy
COUnt COVerlay CURsor DELete CDelete Down DUPlicate Xedit EXPand EXTract Find
NFind NFINDUp NFUp CFind FINdup FUp FOrward GET Help HEXType Input POWerinput
Join SPlit SPLTJOIN LOAD Locate CLocate LOWercase UPPercase LPrefix MACRO
MErge MODify MOve MSG Next Overlay PARSE PREServe PURge PUT PUTD Query QUIT
READ RECover REFRESH RENum REPeat Replace CReplace RESet RESTore RGTLEFT
RIght LEft SAVE SET SHift SI SORT SOS STAck STATus TOP TRAnsfer Type Up';
$input = 'riG rePEAT copies put mo rest types fup. 6 poweRin';
$expect = 'RIGHT REPEAT *error* PUT MOVE RESTORE *error* *error* *error* POWERINPUT';
$table = makeCommandTable($commands);
$table_keys = array_keys($table);
$inputTable = processInput($input);
foreach ($inputTable as $word) {
$rs = searchCommandTable($word, $table);
if ($rs) {
$output[] = $rs;
} else {
$output[] = '*error*';
}
}
echo 'Input: '. $input. PHP_EOL;
echo 'Output: '. implode(' ', $output). PHP_EOL;
function searchCommandTable($search, $table) {
foreach ($table as $key => $value) {
if ((strtoupper(substr($value['word'], 0, strlen($search))) === strtoupper($search)) && (strlen($search) >= $value['min_length'])) {
return $key;
}
}
return false;
}
function processInput($input) {
$input = preg_replace('!\s+!', ' ', $input);
$pieces = explode(' ', trim($input));
return $pieces;
}
function makeCommandTable($commands) {
$commands = preg_replace('!\s+!', ' ', $commands);
$pieces = explode(' ', trim($commands));
foreach ($pieces as $word) {
$rs[strtoupper($word)] = ['word'=>$word, 'min_length' => preg_match_all("/[A-Z]/", $word)];
}
return $rs;
}
| #include <algorithm>
#include <cctype>
#include <iostream>
#include <sstream>
#include <string>
#include <vector>
const char* command_table =
"Add ALTer BAckup Bottom CAppend Change SCHANGE CInsert CLAst COMPress COpy "
"COUnt COVerlay CURsor DELete CDelete Down DUPlicate Xedit EXPand EXTract Find "
"NFind NFINDUp NFUp CFind FINdup FUp FOrward GET Help HEXType Input POWerinput "
"Join SPlit SPLTJOIN LOAD Locate CLocate LOWercase UPPercase LPrefix MACRO "
"MErge MODify MOve MSG Next Overlay PARSE PREServe PURge PUT PUTD Query QUIT "
"READ RECover REFRESH RENum REPeat Replace CReplace RESet RESTore RGTLEFT "
"RIght LEft SAVE SET SHift SI SORT SOS STAck STATus TOP TRAnsfer Type Up";
class command {
public:
command(const std::string&, size_t);
const std::string& cmd() const { return cmd_; }
size_t min_length() const { return min_len_; }
bool match(const std::string&) const;
private:
std::string cmd_;
size_t min_len_;
};
command::command(const std::string& cmd, size_t min_len)
: cmd_(cmd), min_len_(min_len) {}
bool command::match(const std::string& str) const {
size_t olen = str.length();
return olen >= min_len_ && olen <= cmd_.length()
&& cmd_.compare(0, olen, str) == 0;
}
void uppercase(std::string& str) {
std::transform(str.begin(), str.end(), str.begin(),
[](unsigned char c) -> unsigned char { return std::toupper(c); });
}
size_t get_min_length(const std::string& str) {
size_t len = 0, n = str.length();
while (len < n && std::isupper(static_cast<unsigned char>(str[len])))
++len;
return len;
}
class command_list {
public:
explicit command_list(const char*);
const command* find_command(const std::string&) const;
private:
std::vector<command> commands_;
};
command_list::command_list(const char* table) {
std::vector<command> commands;
std::istringstream is(table);
std::string word;
while (is >> word) {
size_t len = get_min_length(word);
uppercase(word);
commands_.push_back(command(word, len));
}
}
const command* command_list::find_command(const std::string& word) const {
auto iter = std::find_if(commands_.begin(), commands_.end(),
[&word](const command& cmd) { return cmd.match(word); });
return (iter != commands_.end()) ? &*iter : nullptr;
}
std::string test(const command_list& commands, const std::string& input) {
std::string output;
std::istringstream is(input);
std::string word;
while (is >> word) {
if (!output.empty())
output += ' ';
uppercase(word);
const command* cmd_ptr = commands.find_command(word);
if (cmd_ptr)
output += cmd_ptr->cmd();
else
output += "*error*";
}
return output;
}
int main() {
command_list commands(command_table);
std::string input("riG rePEAT copies put mo rest types fup. 6 poweRin");
std::string output(test(commands, input));
std::cout << " input: " << input << '\n';
std::cout << "output: " << output << '\n';
return 0;
}
|
Rewrite the snippet below in C++ so it works the same as the original PHP code. | define("PI", 3.14159265358);
define("MSG", "Hello World");
| #include <iostream>
class MyOtherClass
{
public:
const int m_x;
MyOtherClass(const int initX = 0) : m_x(initX) { }
};
int main()
{
MyOtherClass mocA, mocB(7);
std::cout << mocA.m_x << std::endl;
std::cout << mocB.m_x << std::endl;
return 0;
}
|
Preserve the algorithm and functionality while converting the code from PHP to C++. | <?php
function clip ($subjectPolygon, $clipPolygon) {
function inside ($p, $cp1, $cp2) {
return ($cp2[0]-$cp1[0])*($p[1]-$cp1[1]) > ($cp2[1]-$cp1[1])*($p[0]-$cp1[0]);
}
function intersection ($cp1, $cp2, $e, $s) {
$dc = [ $cp1[0] - $cp2[0], $cp1[1] - $cp2[1] ];
$dp = [ $s[0] - $e[0], $s[1] - $e[1] ];
$n1 = $cp1[0] * $cp2[1] - $cp1[1] * $cp2[0];
$n2 = $s[0] * $e[1] - $s[1] * $e[0];
$n3 = 1.0 / ($dc[0] * $dp[1] - $dc[1] * $dp[0]);
return [($n1*$dp[0] - $n2*$dc[0]) * $n3, ($n1*$dp[1] - $n2*$dc[1]) * $n3];
}
$outputList = $subjectPolygon;
$cp1 = end($clipPolygon);
foreach ($clipPolygon as $cp2) {
$inputList = $outputList;
$outputList = [];
$s = end($inputList);
foreach ($inputList as $e) {
if (inside($e, $cp1, $cp2)) {
if (!inside($s, $cp1, $cp2)) {
$outputList[] = intersection($cp1, $cp2, $e, $s);
}
$outputList[] = $e;
}
else if (inside($s, $cp1, $cp2)) {
$outputList[] = intersection($cp1, $cp2, $e, $s);
}
$s = $e;
}
$cp1 = $cp2;
}
return $outputList;
}
$subjectPolygon = [[50, 150], [200, 50], [350, 150], [350, 300], [250, 300], [200, 250], [150, 350], [100, 250], [100, 200]];
$clipPolygon = [[100, 100], [300, 100], [300, 300], [100, 300]];
$clippedPolygon = clip($subjectPolygon, $clipPolygon);
echo json_encode($clippedPolygon);
echo "\n";
?>
| #include <iostream>
#include <span>
#include <vector>
struct vec2 {
float x = 0.0f, y = 0.0f;
constexpr vec2 operator+(vec2 other) const {
return vec2{x + other.x, y + other.y};
}
constexpr vec2 operator-(vec2 other) const {
return vec2{x - other.x, y - other.y};
}
};
constexpr vec2 operator*(vec2 a, float b) { return vec2{a.x * b, a.y * b}; }
constexpr float dot(vec2 a, vec2 b) { return a.x * b.x + a.y * b.y; }
constexpr float cross(vec2 a, vec2 b) { return a.x * b.y - b.x * a.y; }
constexpr bool is_inside(vec2 point, vec2 a, vec2 b) {
return (cross(a - b, point) + cross(b, a)) < 0.0f;
}
constexpr vec2 intersection(vec2 a1, vec2 a2, vec2 b1, vec2 b2) {
return ((b1 - b2) * cross(a1, a2) - (a1 - a2) * cross(b1, b2)) *
(1.0f / cross(a1 - a2, b1 - b2));
}
std::vector<vec2> suther_land_hodgman(
std::span<vec2 const> subject_polygon, std::span<vec2 const> clip_polygon) {
if (clip_polygon.empty() || subject_polygon.empty()) {
return {};
}
std::vector<vec2> ring{subject_polygon.begin(), subject_polygon.end()};
vec2 p1 = clip_polygon[clip_polygon.size() - 1];
std::vector<vec2> input;
for (vec2 p2 : clip_polygon) {
input.clear();
input.insert(input.end(), ring.begin(), ring.end());
vec2 s = input[input.size() - 1];
ring.clear();
for (vec2 e : input) {
if (is_inside(e, p1, p2)) {
if (!is_inside(s, p1, p2)) {
ring.push_back(intersection(p1, p2, s, e));
}
ring.push_back(e);
} else if (is_inside(s, p1, p2)) {
ring.push_back(intersection(p1, p2, s, e));
}
s = e;
}
p1 = p2;
}
return ring;
}
int main(int argc, char **argv) {
vec2 subject_polygon[] = {{50, 150}, {200, 50}, {350, 150},
{350, 300}, {250, 300}, {200, 250},
{150, 350}, {100, 250}, {100, 200}};
vec2 clip_polygon[] = {{100, 100}, {300, 100}, {300, 300}, {100, 300}};
std::vector<vec2> clipped_polygon =
suther_land_hodgman(subject_polygon, clip_polygon);
std::cout << "Clipped polygon points:" << std::endl;
for (vec2 p : clipped_polygon) {
std::cout << "(" << p.x << ", " << p.y << ")" << std::endl;
}
return EXIT_SUCCESS;
}
|
Can you help me rewrite this code in C++ instead of PHP, keeping it the same logically? | $ffi = FFI::cdef("char *_strdup(const char *strSource);", "msvcrt.dll");
$cstr = $ffi->_strdup("success");
$str = FFI::string($cstr);
echo $str;
FFI::free($cstr);
| FUNCTION MULTIPLY(X, Y)
DOUBLE PRECISION MULTIPLY, X, Y
|
Can you help me rewrite this code in C++ instead of PHP, keeping it the same logically? | <?php
function s_of_n_creator($n) {
$sample = array();
$i = 0;
return function($item) use (&$sample, &$i, $n) {
$i++;
if ($i <= $n) {
$sample[] = $item;
} else if (rand(0, $i-1) < $n) {
$sample[rand(0, $n-1)] = $item;
}
return $sample;
};
}
$items = range(0, 9);
for ($trial = 0; $trial < 100000; $trial++) {
$s_of_n = s_of_n_creator(3);
foreach ($items as $item)
$sample = $s_of_n($item);
foreach ($sample as $s)
$bin[$s]++;
}
print_r($bin);
?>
| #include <iostream>
#include <functional>
#include <vector>
#include <cstdlib>
#include <ctime>
template <typename T>
std::function<std::vector<T>(T)> s_of_n_creator(int n) {
std::vector<T> sample;
int i = 0;
return [=](T item) mutable {
i++;
if (i <= n) {
sample.push_back(item);
} else if (std::rand() % i < n) {
sample[std::rand() % n] = item;
}
return sample;
};
}
int main() {
std::srand(std::time(NULL));
int bin[10] = {0};
for (int trial = 0; trial < 100000; trial++) {
auto s_of_n = s_of_n_creator<int>(3);
std::vector<int> sample;
for (int i = 0; i < 10; i++)
sample = s_of_n(i);
for (int s : sample)
bin[s]++;
}
for (int x : bin)
std::cout << x << std::endl;
return 0;
}
|
Transform the following PHP implementation into C++, maintaining the same output and logic. | <?php
function s_of_n_creator($n) {
$sample = array();
$i = 0;
return function($item) use (&$sample, &$i, $n) {
$i++;
if ($i <= $n) {
$sample[] = $item;
} else if (rand(0, $i-1) < $n) {
$sample[rand(0, $n-1)] = $item;
}
return $sample;
};
}
$items = range(0, 9);
for ($trial = 0; $trial < 100000; $trial++) {
$s_of_n = s_of_n_creator(3);
foreach ($items as $item)
$sample = $s_of_n($item);
foreach ($sample as $s)
$bin[$s]++;
}
print_r($bin);
?>
| #include <iostream>
#include <functional>
#include <vector>
#include <cstdlib>
#include <ctime>
template <typename T>
std::function<std::vector<T>(T)> s_of_n_creator(int n) {
std::vector<T> sample;
int i = 0;
return [=](T item) mutable {
i++;
if (i <= n) {
sample.push_back(item);
} else if (std::rand() % i < n) {
sample[std::rand() % n] = item;
}
return sample;
};
}
int main() {
std::srand(std::time(NULL));
int bin[10] = {0};
for (int trial = 0; trial < 100000; trial++) {
auto s_of_n = s_of_n_creator<int>(3);
std::vector<int> sample;
for (int i = 0; i < 10; i++)
sample = s_of_n(i);
for (int s : sample)
bin[s]++;
}
for (int x : bin)
std::cout << x << std::endl;
return 0;
}
|
Write a version of this PHP function in C++ with identical behavior. | <?php
$program_name = $argv[0];
$second_arg = $argv[2];
$all_args_without_program_name = array_shift($argv);
| #include <iostream>
int main(int argc, char* argv[])
{
std::cout << "This program is named " << argv[0] << std::endl;
std::cout << "There are " << argc-1 << " arguments given." << std::endl;
for (int i = 1; i < argc; ++i)
std::cout << "the argument #" << i << " is " << argv[i] << std::endl;
return 0;
}
|
Translate this program into C++ but keep the logic exactly as in PHP. | <?php
$program_name = $argv[0];
$second_arg = $argv[2];
$all_args_without_program_name = array_shift($argv);
| #include <iostream>
int main(int argc, char* argv[])
{
std::cout << "This program is named " << argv[0] << std::endl;
std::cout << "There are " << argc-1 << " arguments given." << std::endl;
for (int i = 1; i < argc; ++i)
std::cout << "the argument #" << i << " is " << argv[i] << std::endl;
return 0;
}
|
Write the same code in C++ as shown below in PHP. | $arr1 = array(1, 2, 3);
$arr2 = array(4, 5, 6);
$arr3 = array_merge($arr1, $arr2);
| #include <vector>
#include <iostream>
int main()
{
std::vector<int> a(3), b(4);
a[0] = 11; a[1] = 12; a[2] = 13;
b[0] = 21; b[1] = 22; b[2] = 23; b[3] = 24;
a.insert(a.end(), b.begin(), b.end());
for (int i = 0; i < a.size(); ++i)
std::cout << "a[" << i << "] = " << a[i] << "\n";
}
|
Translate this program into C++ but keep the logic exactly as in PHP. | #!/usr/bin/php
<?php
$string = fgets(STDIN);
$integer = (int) fgets(STDIN);
| #include <iostream>
#include <string>
using namespace std;
int main()
{
long int integer_input;
string string_input;
cout << "Enter an integer: ";
cin >> integer_input;
cout << "Enter a string: ";
cin >> string_input;
return 0;
}
|
Change the following PHP code into C++ without altering its purpose. | #########################################################
# 0-1 Knapsack Problem Solve with memoization optimize and index returns
# $w = weight of item
# $v = value of item
# $i = index
# $aW = Available Weight
# $m = Memo items array
# PHP Translation from Python, Memoization,
# and index return functionality added by Brian Berneker
#
#########################################################
function knapSolveFast2($w, $v, $i, $aW, &$m) {
global $numcalls;
$numcalls ++;
if (isset($m[$i][$aW])) {
return array( $m[$i][$aW], $m['picked'][$i][$aW] );
} else {
if ($i == 0) {
if ($w[$i] <= $aW) { // Will this item fit?
$m[$i][$aW] = $v[$i]; // Memo this item
$m['picked'][$i][$aW] = array($i); // and the picked item
return array($v[$i],array($i)); // Return the value of this item and add it to the picked list
} else {
$m[$i][$aW] = 0; // Memo zero
$m['picked'][$i][$aW] = array(); // and a blank array entry...
return array(0,array()); // Return nothing
}
}
list ($without_i, $without_PI) = knapSolveFast2($w, $v, $i-1, $aW, $m);
if ($w[$i] > $aW) { // Does it return too many?
$m[$i][$aW] = $without_i; // Memo without including this one
$m['picked'][$i][$aW] = $without_PI; // and a blank array entry...
return array($without_i, $without_PI); // and return it
} else {
list ($with_i,$with_PI) = knapSolveFast2($w, $v, ($i-1), ($aW - $w[$i]), $m);
$with_i += $v[$i]; // ..and add the value of this one..
if ($with_i > $without_i) {
$res = $with_i;
$picked = $with_PI;
array_push($picked,$i);
} else {
$res = $without_i;
$picked = $without_PI;
}
$m[$i][$aW] = $res; // Store it in the memo
$m['picked'][$i][$aW] = $picked; // and store the picked item
return array ($res,$picked); // and then return it
}
}
}
$items4 = array("map","compass","water","sandwich","glucose","tin","banana","apple","cheese","beer","suntan cream","camera","t-shirt","trousers","umbrella","waterproof trousers","waterproof overclothes","note-case","sunglasses","towel","socks","book");
$w4 = array(9,13,153,50,15,68,27,39,23,52,11,32,24,48,73,42,43,22,7,18,4,30);
$v4 = array(150,35,200,160,60,45,60,40,30,10,70,30,15,10,40,70,75,80,20,12,50,10);
## Initialize
$numcalls = 0; $m = array(); $pickedItems = array();
## Solve
list ($m4,$pickedItems) = knapSolveFast2($w4, $v4, sizeof($v4) -1, 400, $m);
# Display Result
echo "<b>Items:</b><br>".join(", ",$items4)."<br>";
echo "<b>Max Value Found:</b><br>$m4 (in $numcalls calls)<br>";
echo "<b>Array Indices:</b><br>".join(",",$pickedItems)."<br>";
echo "<b>Chosen Items:</b><br>";
echo "<table border cellspacing=0>";
echo "<tr><td>Item</td><td>Value</td><td>Weight</td></tr>";
$totalVal = $totalWt = 0;
foreach($pickedItems as $key) {
$totalVal += $v4[$key];
$totalWt += $w4[$key];
echo "<tr><td>".$items4[$key]."</td><td>".$v4[$key]."</td><td>".$w4[$key]."</td></tr>";
}
echo "<tr><td align=right><b>Totals</b></td><td>$totalVal</td><td>$totalWt</td></tr>";
echo "</table><hr>";
| #include <vector>
#include <string>
#include <iostream>
#include <boost/tuple/tuple.hpp>
#include <set>
int findBestPack( const std::vector<boost::tuple<std::string , int , int> > & ,
std::set<int> & , const int ) ;
int main( ) {
std::vector<boost::tuple<std::string , int , int> > items ;
items.push_back( boost::make_tuple( "" , 0 , 0 ) ) ;
items.push_back( boost::make_tuple( "map" , 9 , 150 ) ) ;
items.push_back( boost::make_tuple( "compass" , 13 , 35 ) ) ;
items.push_back( boost::make_tuple( "water" , 153 , 200 ) ) ;
items.push_back( boost::make_tuple( "sandwich", 50 , 160 ) ) ;
items.push_back( boost::make_tuple( "glucose" , 15 , 60 ) ) ;
items.push_back( boost::make_tuple( "tin", 68 , 45 ) ) ;
items.push_back( boost::make_tuple( "banana", 27 , 60 ) ) ;
items.push_back( boost::make_tuple( "apple" , 39 , 40 ) ) ;
items.push_back( boost::make_tuple( "cheese" , 23 , 30 ) ) ;
items.push_back( boost::make_tuple( "beer" , 52 , 10 ) ) ;
items.push_back( boost::make_tuple( "suntan creme" , 11 , 70 ) ) ;
items.push_back( boost::make_tuple( "camera" , 32 , 30 ) ) ;
items.push_back( boost::make_tuple( "T-shirt" , 24 , 15 ) ) ;
items.push_back( boost::make_tuple( "trousers" , 48 , 10 ) ) ;
items.push_back( boost::make_tuple( "umbrella" , 73 , 40 ) ) ;
items.push_back( boost::make_tuple( "waterproof trousers" , 42 , 70 ) ) ;
items.push_back( boost::make_tuple( "waterproof overclothes" , 43 , 75 ) ) ;
items.push_back( boost::make_tuple( "note-case" , 22 , 80 ) ) ;
items.push_back( boost::make_tuple( "sunglasses" , 7 , 20 ) ) ;
items.push_back( boost::make_tuple( "towel" , 18 , 12 ) ) ;
items.push_back( boost::make_tuple( "socks" , 4 , 50 ) ) ;
items.push_back( boost::make_tuple( "book" , 30 , 10 ) ) ;
const int maximumWeight = 400 ;
std::set<int> bestItems ;
int bestValue = findBestPack( items , bestItems , maximumWeight ) ;
std::cout << "The best value that can be packed in the given knapsack is " <<
bestValue << " !\n" ;
int totalweight = 0 ;
std::cout << "The following items should be packed in the knapsack:\n" ;
for ( std::set<int>::const_iterator si = bestItems.begin( ) ;
si != bestItems.end( ) ; si++ ) {
std::cout << (items.begin( ) + *si)->get<0>( ) << "\n" ;
totalweight += (items.begin( ) + *si)->get<1>( ) ;
}
std::cout << "The total weight of all items is " << totalweight << " !\n" ;
return 0 ;
}
int findBestPack( const std::vector<boost::tuple<std::string , int , int> > & items ,std::set<int> & bestItems , const int weightlimit ) {
const int n = items.size( ) ;
int bestValues [ n ][ weightlimit ] ;
std::set<int> solutionSets[ n ][ weightlimit ] ;
std::set<int> emptyset ;
for ( int i = 0 ; i < n ; i++ ) {
for ( int j = 0 ; j < weightlimit ; j++ ) {
bestValues[ i ][ j ] = 0 ;
solutionSets[ i ][ j ] = emptyset ;
}
}
for ( int i = 0 ; i < n ; i++ ) {
for ( int weight = 0 ; weight < weightlimit ; weight++ ) {
if ( i == 0 )
bestValues[ i ][ weight ] = 0 ;
else {
int itemweight = (items.begin( ) + i)->get<1>( ) ;
if ( weight < itemweight ) {
bestValues[ i ][ weight ] = bestValues[ i - 1 ][ weight ] ;
solutionSets[ i ][ weight ] = solutionSets[ i - 1 ][ weight ] ;
} else {
if ( bestValues[ i - 1 ][ weight - itemweight ] +
(items.begin( ) + i)->get<2>( ) >
bestValues[ i - 1 ][ weight ] ) {
bestValues[ i ][ weight ] =
bestValues[ i - 1 ][ weight - itemweight ] +
(items.begin( ) + i)->get<2>( ) ;
solutionSets[ i ][ weight ] =
solutionSets[ i - 1 ][ weight - itemweight ] ;
solutionSets[ i ][ weight ].insert( i ) ;
}
else {
bestValues[ i ][ weight ] = bestValues[ i - 1 ][ weight ] ;
solutionSets[ i ][ weight ] = solutionSets[ i - 1 ][ weight ] ;
}
}
}
}
}
bestItems.swap( solutionSets[ n - 1][ weightlimit - 1 ] ) ;
return bestValues[ n - 1 ][ weightlimit - 1 ] ;
}
|
Preserve the algorithm and functionality while converting the code from PHP to C++. | $compose = function ($f, $g) {
return function ($x) use ($f, $g) {
return $f($g($x));
};
};
$fn = array('sin', 'cos', function ($x) { return pow($x, 3); });
$inv = array('asin', 'acos', function ($x) { return pow($x, 1/3); });
for ($i = 0; $i < 3; $i++) {
$f = $compose($inv[$i], $fn[$i]);
echo $f(0.5), PHP_EOL;
}
| #include <functional>
#include <algorithm>
#include <iostream>
#include <vector>
#include <cmath>
using std::cout;
using std::endl;
using std::vector;
using std::function;
using std::transform;
using std::back_inserter;
typedef function<double(double)> FunType;
vector<FunType> A = {sin, cos, tan, [](double x) { return x*x*x; } };
vector<FunType> B = {asin, acos, atan, [](double x) { return exp(log(x)/3); } };
template <typename A, typename B, typename C>
function<C(A)> compose(function<C(B)> f, function<B(A)> g) {
return [f,g](A x) { return f(g(x)); };
}
int main() {
vector<FunType> composedFuns;
auto exNums = {0.0, 0.2, 0.4, 0.6, 0.8, 1.0};
transform(B.begin(), B.end(),
A.begin(),
back_inserter(composedFuns),
compose<double, double, double>);
for (auto num: exNums)
for (auto fun: composedFuns)
cout << u8"f\u207B\u00B9.f(" << num << ") = " << fun(num) << endl;
return 0;
}
|
Convert this PHP snippet to C++ and keep its semantics consistent. | <?php
function ProperDivisors($n) {
yield 1;
$large_divisors = [];
for ($i = 2; $i <= sqrt($n); $i++) {
if ($n % $i == 0) {
yield $i;
if ($i*$i != $n) {
$large_divisors[] = $n / $i;
}
}
}
foreach (array_reverse($large_divisors) as $i) {
yield $i;
}
}
assert([1, 2, 4, 5, 10, 20, 25, 50] ==
iterator_to_array(ProperDivisors(100)));
foreach (range(1, 10) as $n) {
echo "$n =>";
foreach (ProperDivisors($n) as $divisor) {
echo " $divisor";
}
echo "\n";
}
$divisorsCount = [];
for ($i = 1; $i < 20000; $i++) {
$divisorsCount[sizeof(iterator_to_array(ProperDivisors($i)))][] = $i;
}
ksort($divisorsCount);
echo "Numbers with most divisors: ", implode(", ", end($divisorsCount)), ".\n";
echo "They have ", key($divisorsCount), " divisors.\n";
| #include <vector>
#include <iostream>
#include <algorithm>
std::vector<int> properDivisors ( int number ) {
std::vector<int> divisors ;
for ( int i = 1 ; i < number / 2 + 1 ; i++ )
if ( number % i == 0 )
divisors.push_back( i ) ;
return divisors ;
}
int main( ) {
std::vector<int> divisors ;
unsigned int maxdivisors = 0 ;
int corresponding_number = 0 ;
for ( int i = 1 ; i < 11 ; i++ ) {
divisors = properDivisors ( i ) ;
std::cout << "Proper divisors of " << i << ":\n" ;
for ( int number : divisors ) {
std::cout << number << " " ;
}
std::cout << std::endl ;
divisors.clear( ) ;
}
for ( int i = 11 ; i < 20001 ; i++ ) {
divisors = properDivisors ( i ) ;
if ( divisors.size( ) > maxdivisors ) {
maxdivisors = divisors.size( ) ;
corresponding_number = i ;
}
divisors.clear( ) ;
}
std::cout << "Most divisors has " << corresponding_number <<
" , it has " << maxdivisors << " divisors!\n" ;
return 0 ;
}
|
Change the following PHP code into C++ without altering its purpose. | $string = 'I am a string';
# Test
if (preg_match('/string$/', $string))
{
echo "Ends with 'string'\n";
}
# Replace
$string = preg_replace('/\ba\b/', 'another', $string);
echo "Found 'a' and replace it with 'another', resulting in this string: $string\n";
| #include <iostream>
#include <string>
#include <iterator>
#include <regex>
int main()
{
std::regex re(".* string$");
std::string s = "Hi, I am a string";
if (std::regex_match(s, re))
std::cout << "The string matches.\n";
else
std::cout << "Oops - not found?\n";
std::regex re2(" a.*a");
std::smatch match;
if (std::regex_search(s, match, re2))
{
std::cout << "Matched " << match.length()
<< " characters starting at " << match.position() << ".\n";
std::cout << "Matched character sequence: \""
<< match.str() << "\"\n";
}
else
{
std::cout << "Oops - not found?\n";
}
std::string dest_string;
std::regex_replace(std::back_inserter(dest_string),
s.begin(), s.end(),
re2,
"'m now a changed");
std::cout << dest_string << std::endl;
}
|
Generate an equivalent C++ version of this PHP code. | $keys = array('a', 'b', 'c');
$values = array(1, 2, 3);
$hash = array_combine($keys, $values);
| #include <unordered_map>
#include <string>
int main()
{
std::string keys[] = { "1", "2", "3" };
std::string vals[] = { "a", "b", "c" };
std::unordered_map<std::string, std::string> hash;
for( int i = 0 ; i < 3 ; i++ )
hash[ keys[i] ] = vals[i] ;
}
|
Produce a functionally identical C++ code for the snippet given in PHP. | <?php
header("Content-type: image/png");
$width = 512;
$height = 512;
$img = imagecreatetruecolor($width,$height);
$bg = imagecolorallocate($img,255,255,255);
imagefilledrectangle($img, 0, 0, $width, $width, $bg);
$depth = 8;
function drawTree($x1, $y1, $angle, $depth){
global $img;
if ($depth != 0){
$x2 = $x1 + (int)(cos(deg2rad($angle)) * $depth * 10.0);
$y2 = $y1 + (int)(sin(deg2rad($angle)) * $depth * 10.0);
imageline($img, $x1, $y1, $x2, $y2, imagecolorallocate($img,0,0,0));
drawTree($x2, $y2, $angle - 20, $depth - 1);
drawTree($x2, $y2, $angle + 20, $depth - 1);
}
}
drawTree($width/2, $height, -90, $depth);
imagepng($img);
imagedestroy($img);
?>
| #include <windows.h>
#include <string>
#include <math.h>
using namespace std;
const float PI = 3.1415926536f;
class myBitmap
{
public:
myBitmap() : pen( NULL ) {}
~myBitmap()
{
DeleteObject( pen );
DeleteDC( hdc );
DeleteObject( bmp );
}
bool create( int w, int h )
{
BITMAPINFO bi;
void *pBits;
ZeroMemory( &bi, sizeof( bi ) );
bi.bmiHeader.biSize = sizeof( bi.bmiHeader );
bi.bmiHeader.biBitCount = sizeof( DWORD ) * 8;
bi.bmiHeader.biCompression = BI_RGB;
bi.bmiHeader.biPlanes = 1;
bi.bmiHeader.biWidth = w;
bi.bmiHeader.biHeight = -h;
HDC dc = GetDC( GetConsoleWindow() );
bmp = CreateDIBSection( dc, &bi, DIB_RGB_COLORS, &pBits, NULL, 0 );
if( !bmp ) return false;
hdc = CreateCompatibleDC( dc );
SelectObject( hdc, bmp );
ReleaseDC( GetConsoleWindow(), dc );
width = w; height = h;
return true;
}
void setPenColor( DWORD clr )
{
if( pen ) DeleteObject( pen );
pen = CreatePen( PS_SOLID, 1, clr );
SelectObject( hdc, pen );
}
void saveBitmap( string path )
{
BITMAPFILEHEADER fileheader;
BITMAPINFO infoheader;
BITMAP bitmap;
DWORD* dwpBits;
DWORD wb;
HANDLE file;
GetObject( bmp, sizeof( bitmap ), &bitmap );
dwpBits = new DWORD[bitmap.bmWidth * bitmap.bmHeight];
ZeroMemory( dwpBits, bitmap.bmWidth * bitmap.bmHeight * sizeof( DWORD ) );
ZeroMemory( &infoheader, sizeof( BITMAPINFO ) );
ZeroMemory( &fileheader, sizeof( BITMAPFILEHEADER ) );
infoheader.bmiHeader.biBitCount = sizeof( DWORD ) * 8;
infoheader.bmiHeader.biCompression = BI_RGB;
infoheader.bmiHeader.biPlanes = 1;
infoheader.bmiHeader.biSize = sizeof( infoheader.bmiHeader );
infoheader.bmiHeader.biHeight = bitmap.bmHeight;
infoheader.bmiHeader.biWidth = bitmap.bmWidth;
infoheader.bmiHeader.biSizeImage = bitmap.bmWidth * bitmap.bmHeight * sizeof( DWORD );
fileheader.bfType = 0x4D42;
fileheader.bfOffBits = sizeof( infoheader.bmiHeader ) + sizeof( BITMAPFILEHEADER );
fileheader.bfSize = fileheader.bfOffBits + infoheader.bmiHeader.biSizeImage;
GetDIBits( hdc, bmp, 0, height, ( LPVOID )dwpBits, &infoheader, DIB_RGB_COLORS );
file = CreateFile( path.c_str(), GENERIC_WRITE, 0, NULL, CREATE_ALWAYS, FILE_ATTRIBUTE_NORMAL, NULL );
WriteFile( file, &fileheader, sizeof( BITMAPFILEHEADER ), &wb, NULL );
WriteFile( file, &infoheader.bmiHeader, sizeof( infoheader.bmiHeader ), &wb, NULL );
WriteFile( file, dwpBits, bitmap.bmWidth * bitmap.bmHeight * 4, &wb, NULL );
CloseHandle( file );
delete [] dwpBits;
}
HDC getDC() { return hdc; }
int getWidth() { return width; }
int getHeight() { return height; }
private:
HBITMAP bmp;
HDC hdc;
HPEN pen;
int width, height;
};
class vector2
{
public:
vector2() { x = y = 0; }
vector2( int a, int b ) { x = a; y = b; }
void set( int a, int b ) { x = a; y = b; }
void rotate( float angle_r )
{
float _x = static_cast<float>( x ),
_y = static_cast<float>( y ),
s = sinf( angle_r ),
c = cosf( angle_r ),
a = _x * c - _y * s,
b = _x * s + _y * c;
x = static_cast<int>( a );
y = static_cast<int>( b );
}
int x, y;
};
class fractalTree
{
public:
fractalTree() { _ang = DegToRadian( 24.0f ); }
float DegToRadian( float degree ) { return degree * ( PI / 180.0f ); }
void create( myBitmap* bmp )
{
_bmp = bmp;
float line_len = 130.0f;
vector2 sp( _bmp->getWidth() / 2, _bmp->getHeight() - 1 );
MoveToEx( _bmp->getDC(), sp.x, sp.y, NULL );
sp.y -= static_cast<int>( line_len );
LineTo( _bmp->getDC(), sp.x, sp.y);
drawRL( &sp, line_len, 0, true );
drawRL( &sp, line_len, 0, false );
}
private:
void drawRL( vector2* sp, float line_len, float a, bool rg )
{
line_len *= .75f;
if( line_len < 2.0f ) return;
MoveToEx( _bmp->getDC(), sp->x, sp->y, NULL );
vector2 r( 0, static_cast<int>( line_len ) );
if( rg ) a -= _ang;
else a += _ang;
r.rotate( a );
r.x += sp->x; r.y = sp->y - r.y;
LineTo( _bmp->getDC(), r.x, r.y );
drawRL( &r, line_len, a, true );
drawRL( &r, line_len, a, false );
}
myBitmap* _bmp;
float _ang;
};
int main( int argc, char* argv[] )
{
ShowWindow( GetConsoleWindow(), SW_MAXIMIZE );
myBitmap bmp;
bmp.create( 640, 512 );
bmp.setPenColor( RGB( 255, 255, 0 ) );
fractalTree tree;
tree.create( &bmp );
BitBlt( GetDC( GetConsoleWindow() ), 0, 20, 648, 512, bmp.getDC(), 0, 0, SRCCOPY );
bmp.saveBitmap( "f:
system( "pause" );
return 0;
}
|
Produce a functionally identical C++ code for the snippet given in PHP. | <?php
function gray_encode($binary){
return $binary ^ ($binary >> 1);
}
function gray_decode($gray){
$binary = $gray;
while($gray >>= 1) $binary ^= $gray;
return $binary;
}
for($i=0;$i<32;$i++){
$gray_encoded = gray_encode($i);
printf("%2d : %05b => %05b => %05b : %2d \n",$i, $i, $gray_encoded, $gray_encoded, gray_decode($gray_encoded));
}
| #include <bitset>
#include <iostream>
#include <string>
#include <assert.h>
uint32_t gray_encode(uint32_t b)
{
return b ^ (b >> 1);
}
uint32_t gray_decode(uint32_t g)
{
for (uint32_t bit = 1U << 31; bit > 1; bit >>= 1)
{
if (g & bit) g ^= bit >> 1;
}
return g;
}
std::string to_binary(int value)
{
const std::bitset<32> bs(value);
const std::string str(bs.to_string());
const size_t pos(str.find('1'));
return pos == std::string::npos ? "0" : str.substr(pos);
}
int main()
{
std::cout << "Number\tBinary\tGray\tDecoded\n";
for (uint32_t n = 0; n < 32; ++n)
{
uint32_t g = gray_encode(n);
assert(gray_decode(g) == n);
std::cout << n << "\t" << to_binary(n) << "\t" << to_binary(g) << "\t" << g << "\n";
}
}
|
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