// https://www.hackerrank.com/challenges/arithmetic-progressions #include #include #include #include #define INTS_START_SIZE 8 #define INTS_DELIM " \t\n" #define BUF_SIZE 1 << 20 #define LINE_SIZE 16 #define BIG_MOD 1000003 struct adp { long a; long d; long p; }; long pow_mod(long a, long b, long mod, long acc) { long powa = a % mod; while (b > 0) { if (b & 1) { acc = (acc * powa) % mod; } powa = (powa * powa) % mod; b >>= 1; } return acc; } long factorial_mod(long n, long mod, long acc) { int i; for (i = 2; i <= n; i++) { acc = (acc * i) % mod; } return acc; } long *fenwick_make(size_t n) { long *fenwick = calloc(n, sizeof *fenwick); return fenwick; } long *fenwick_prodmake(size_t n) { long *fenwick = malloc(n * sizeof *fenwick); if (fenwick == NULL) { return NULL; } size_t i; for (i = 0; i < n; i++) { fenwick[i] = 1; } return fenwick; } // Add val to element i in fenwick tree void fenwick_update(long *fenwick, size_t n, size_t i, long val) { i++; if (i < 1 || i > n) { return; } while (i <= n) { fenwick[i-1] += val; i += i & -i; // parent } } // Sum of elements in [0, i[ long fenwick_prefixsum(long *fenwick, size_t n, size_t i) { long sum = 0; while (i > 0) { sum += fenwick[i-1]; i -= i & -i; // predecessor } return sum; } // Sum of elements in [i, j[ long fenwick_intervalsum(long *fenwick, size_t n, size_t i, size_t j) { return fenwick_prefixsum(fenwick, n, j) - fenwick_prefixsum(fenwick, n, i); } // Multiply element i by val in fenwick tree of products void fenwick_produpdate(long *fenwick, size_t n, size_t i, long val, long mod) { i++; if (i < 1 || i > n) { return; } while (i <= n) { fenwick[i-1] = (fenwick[i-1] * val) % mod; i += i & -i; // parent } } // Product of elements in [0, i[ long fenwick_prefixprod(long *fenwick, size_t n, size_t i, long mod) { long prod = 1; while (i > 0) { prod = (prod * fenwick[i-1]) % mod; i -= i & -i; // predecessor } return prod; } // Product of elements in [i, j[ long fenwick_intervalprod(long *fenwick, size_t n, size_t i, size_t j, long mod) { long p_j = fenwick_prefixprod(fenwick, n, j, mod); long p_i = fenwick_prefixprod(fenwick, n, i, mod); // p_i ^ -1 = p_i ^ BIG_MOD - 2 in this field return pow_mod(p_i, BIG_MOD - 2, BIG_MOD, p_j); } size_t read_ints(char *line, int **ints) { if (line == NULL) { return 0; } size_t size = INTS_START_SIZE; *ints = malloc(INTS_START_SIZE * sizeof *ints); if (*ints == NULL) { return 0; } char *tok = line; char *numend; size_t i = 0; long tmp; while (*tok != '\n' && *tok != '\0') { if (isspace(*tok)) { tok++; } else if (isdigit(*tok)) { tmp = strtol(tok, &numend, 10); if (i == size) { // If we have filled array, double its size size *= 2; *ints = realloc(*ints, size * sizeof *ints); if (*ints == NULL) { return 0; } } // store in array (*ints)[i] = tmp; i++; tok = numend; } else { free(*ints); *ints = NULL; return 0; } } return i; } int read_adp(char *buf, int n, struct adp *adp, long *ptree, long *vtree) { int *ints; size_t ints_len; int i; char *line; for (i = 0; i < n; i++) { line = strtok(NULL, "\n"); ints_len = read_ints(line, &ints); if (ints_len != 3) { return 1; } adp[i].a = ints[0]; adp[i].d = ints[1]; adp[i].p = ints[2]; long v = pow_mod(adp[i].d, adp[i].p, BIG_MOD, 1); fenwick_produpdate(vtree, n, i, v, BIG_MOD); fenwick_update(ptree, n, i, ints[2]); free(ints); } return 0; } int min_const_diff( int n, struct adp *adp, long *ptree, long *vtree, int i, int j) { if (i < 1 || j > n) { return 1; } long v = fenwick_intervalprod(vtree, n, i-1, j, BIG_MOD); long k = fenwick_intervalsum(ptree, n, i-1, j); v = factorial_mod(k, BIG_MOD, v); printf("%ld %ld\n", k, v); return 0; } int add_powers(int n, struct adp *adp, long *ptree, long *vtree, int i, int j, int v) { if (i < 1 || j > n) { return 1; } int k; for (k = i-1; k < j; k++) { long factor = pow_mod(adp[k].d, v, BIG_MOD, 1); fenwick_produpdate(vtree, n, k, factor, BIG_MOD); fenwick_update(ptree, n, k, v); adp[k].p += v; } return 0; } int handle_query(char *str, int n, struct adp *adp, long *ptree, long *vtree) { int *ints; int ints_len = read_ints(str, &ints); if (ints_len < 1) { return 1; } int query_type = ints[0]; if (query_type == 0) { if (ints_len != 3) { return 1; } return min_const_diff(n, adp, ptree, vtree, ints[1], ints[2]); } if (query_type == 1) { if (ints_len != 4) { return 1; } return add_powers(n, adp, ptree, vtree, ints[1], ints[2], ints[3]); } return 1; } int main(int argc, char **argv) { char buf[BUF_SIZE]; fread(buf, BUF_SIZE, 1, stdin); char *line = strtok(buf, "\n"); char *end; int n = strtol(line, &end, 10); if ((!isspace(*end) && *end != '\0') || n < 1) { return 0; } struct adp *adp = malloc(n * sizeof *adp); long *ptree = fenwick_make(n); long *vtree = fenwick_prodmake(n); if (adp == NULL || ptree == NULL || vtree == NULL) { return 0; } int err = read_adp(buf, n, adp, ptree, vtree); if (err) { return 0; } line = strtok(NULL, "\n"); int q = strtol(line, &end, 10); if ((!isspace(*end) && *end != '\0') || q < 1) { return 0; } int i; for (i = 0; i < q; i++) { line = strtok(NULL, "\n"); err = handle_query(line, n, adp, ptree, vtree); if (err) { return 0; } } return 0; }