gists/tennis.c

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// arbitrary terminology i made up on the spot:
// "entry" = code as exposed to user, in ASCII.
// "code" = code as indices into lut, used internally.
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
typedef uint32_t u32;
typedef uint64_t u64;
#define lament(...) fprintf(stderr, __VA_ARGS__)
#define sizeofel(a) (sizeof(*(a)))
#define LEN(a) (sizeof(a) / sizeofel(a))
const char *lut[] = {
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// characters within the same string are considered the same.
// that means the number of choices for a single character
// goes down from 36 to 28.
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"N", "P", "Q", "R",
"T", "W", "X", "Y",
"17I", "2Z", "5S", "8B",
"0OD", "UV", "3", "4",
"6", "9", "A", "C",
"E", "F", "G", "H",
"J", "K", "L", "M",
};
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enum {lutlen = LEN(lut)}; // should be 28.
const u32 bases[] = {
64,
11,
21,
2,
21,
8,
6, // dummy value.
};
enum {
MT_CHOICE = -1,
};
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typedef enum {
MT_YOSHI,
MT_PEACH,
MT_MARIO,
MT_BOWSER,
MT_BOO,
MT_DK,
MT_BABY_MARIO,
MT_TOAD,
MT_WALUIGI,
MT_WARIO,
MT_LUIGI,
MT_DAISY,
MT_BIRDO,
MT_SHYGUY,
MT_DK_JR,
MT_PARATROOPA,
} character_t;
typedef enum {
MT_SINGLES_GAME,
MT_SINGLES_TIME_3,
MT_SINGLES_TIME_5,
MT_SINGLES_BALL_1,
MT_SINGLES_BALL_3,
MT_SINGLES_POINT_3,
MT_SINGLES_POINT_5,
MT_DOUBLES_GAME_1,
MT_DOUBLES_TIME_3,
MT_DOUBLES_BALL_1,
MT_DOUBLES_POINT_3,
} gamemode_t;
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typedef struct {
char code[9];
// data[0]: cup name
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// data[1]: gamemode
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// data[2]: player character (-1 for player's choice)
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// data[3]: unknown (boolean)
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// data[4]: opponent character (-1 for player's choice)
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// data[5]: unknown
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// data[6]: court (-1 for player's choice)
u32 data[7];
} code_t;
code_t translate(const char *entry) {
code_t code = {0};
for (int i = 0; i < 9; i++) {
char e = entry[i];
if (e == '\0') return code;
for (int j = 0; j < lutlen; j++) {
const char *c = lut[j];
while (*c != '\0') {
if (e == *c) {
code.code[i] = j;
goto nextchar;
}
c++;
}
}
nextchar:
;
}
return code;
}
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int check_ranges(const code_t *code) {
const u32 neg1 = (u32)-1;
const u32 *data = code->data;
return
(data[0] < bases[0]) &&
(data[1] < bases[1]) &&
(data[2] + 1 < bases[2] - 4) &&
(data[3] < bases[3]) &&
(data[4] + 1 < bases[4] - 4) &&
(data[5] < bases[5]) &&
(data[6] + 1 < bases[6]) &&
(data[2] == neg1 || data[2] != data[4]) &&
(data[1] < 7 || (data[2] != neg1 && data[4] != neg1));
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}
int decode_data(code_t *code) {
u32 part0 = 0, part1 = 0;
for (int i = 5; i >= 0; i--) part0 = part0 * lutlen + code->code[i];
for (int i = 8; i >= 6; i--) part1 = part1 * lutlen + code->code[i];
u32 checksum = (part0 + 0x2AE0) % (lutlen * lutlen * lutlen);
#if !NDEBUG
lament("merged data: %08X\n", part0);
lament("expected checksum: %08X\n", part1);
lament("actual checksum: %08X\n", checksum);
#endif
u32 leftover = part0 ^ 0x02AAAAAA;
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code->data[0] = leftover % bases[0]; leftover /= bases[0];
code->data[1] = leftover % bases[1]; leftover /= bases[1];
code->data[2] = leftover % bases[2]; leftover /= bases[2];
code->data[3] = leftover % bases[3]; leftover /= bases[3];
code->data[4] = leftover % bases[4]; leftover /= bases[4];
code->data[5] = leftover % bases[5]; leftover /= bases[5];
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code->data[6] = leftover;
code->data[2]--;
code->data[4]--;
code->data[6]--;
#if !NDEBUG
lament("stored data:");
for (int i = 0; i < 7; i++) lament(" %i", code->data[i]);
lament("\n");
#endif
if (checksum != part1) return 0;
if (!check_ranges(code)) return 0;
return 1;
}
int encode_data(code_t *code) {
if (!check_ranges(code)) return 0;
u32 combined = 0;
combined = code->data[6] + 1;
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combined = combined * bases[5] + code->data[5];
combined = combined * bases[4] + code->data[4] + 1;
combined = combined * bases[3] + code->data[3];
combined = combined * bases[2] + code->data[2] + 1;
combined = combined * bases[1] + code->data[1];
combined = combined * bases[0] + code->data[0];
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combined = combined ^ 0x02AAAAAA;
u32 checksum = (combined + 0x2AE0) % (lutlen * lutlen * lutlen);
#if !NDEBUG
lament("merged data: %08X\n", combined);
lament("checksum: %08X\n", checksum);
#endif
u32 part0 = combined, part1 = checksum;
for (int i = 0; i <= 5; i++) {
code->code[i] = part0 % lutlen; part0 /= lutlen;
}
for (int i = 6; i <= 8; i++) {
code->code[i] = part1 % lutlen; part1 /= lutlen;
}
return 1;
}
int validate_entry(const char *entry) {
code_t code = translate(entry);
#if !NDEBUG
lament("character mapping:");
for (int i = 0; i < 9; i++) {
lament(" %c->%i,", entry[i], code.code[i]);
}
lament("\n");
#endif
return decode_data(&code);
}
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static void print_code(const code_t *code) {
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for (int j = 0; j < 9; j++) {
int index = code->code[j];
printf("%c", lut[index][0]);
}
printf("\n");
}
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static u64 prng_state = 1;
static u32 prng() {
prng_state = 3935559000370003845 * prng_state + 1;
return prng_state ^ (prng_state >> 32);
}
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int bruteforce(int count) {
/* with a fixed seed, this is useful for testing.
the first 10 results should be:
8RPEHR8R4
MNXKWQMNE
CE922RCER
MQ1KMQMQG
2N9GGR2NR
25L53R250
15R09R159
9R9LMQ9RR
L312MQL3G
P93M6QP9N
*/
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int found = 0;
code_t code = {0};
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while (found < count) {
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for (int j = 0; j < 9; j++) {
code.code[j] = prng() % lutlen;
}
if (decode_data(&code)) {
found++;
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print_code(&code);
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}
}
return 1;
}
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#ifndef TENNIS_NO_MAIN
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int main(int argc, char **argv) {
if (argc == 1) {
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// self-test with codes known before this program was written.
#define TEST(entry) if (!validate_entry(entry)) return -1
TEST("48HWOR482");
TEST("5G3LTQ5GN");
TEST("A3W5KQA3C");
TEST("ARM6JQARU");
TEST("E880MPE8K");
TEST("E8ULJRE8M");
TEST("EPJEGREP5");
TEST("GH4KNQGHP");
TEST("H6L3MPH60");
TEST("HH4KNQHHP");
TEST("J6M9PQJ6U");
TEST("JEP8YQJE4");
TEST("LA98JRLAR");
TEST("LQM1MPLQU");
TEST("LTHWYQLT2");
TEST("M1C2YQM1W");
TEST("MM55MQMMJ");
TEST("N24K8QN2P");
TEST("OF9XFQOFR");
TEST("P4K6GRP48");
TEST("TE6WARTEQ");
TEST("TQJEGRTQ5");
TEST("UOUFMPUOM");
TEST("V2UFMPUZM");
TEST("W2HEGRW22");
TEST("WQJEGRWQ5");
TEST("WRWQARWRC");
TEST("YQJEGRYQ5");
#undef TEST
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return 0;
}
code_t code = {0};
int code_i = 0;
int invalid_count = 0;
for (int i = 1; i < argc; i++) {
const char *arg = argv[i];
if (strlen(arg) == 9) {
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//if (validate_entry(arg)) printf("%s\n", arg);
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invalid_count += !validate_entry(arg);
} else if (!strcmp(arg, "bruteforce")) {
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invalid_count += !bruteforce(10);
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} else {
u32 datum = strtoul(arg, NULL, 0);
code.data[code_i] = datum;
code_i++;
if (code_i >= 7) {
code_i = 0;
if (encode_data(&code)) {
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print_code(&code);
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} else {
invalid_count++;
}
}
}
}
return invalid_count;
}
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#endif