aoc-2022/day_7/parser.y

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/* Require bison minimal version */
%require "3.2"
/* write out a header file containing the token defines */
%header
// Code for the header file generated by bison
%code requires {
#include "filetree.h"
typedef void* yyscan_t;
struct dirstack {
struct dirstack *next;
struct dirnode *item;
};
struct parser_state {
struct dirnode *root;
struct dirnode *cur;
/// models the current directory stack we're in for simplicity
struct dirstack *stackptr;
};
struct dirstack* dirstack_push(struct dirstack *stack, struct dirnode *item);
struct dirstack* dirstack_pop(struct dirstack *stack);
}
// Code for the c file
%{
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "parser.h"
#include "lexer.h"
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const unsigned long upper_bound = 100000;
const unsigned long fs_size = 70000000;
const unsigned long needed_space = 30000000;
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struct dirstack* dirstack_push(struct dirstack *stack, struct dirnode *item) {
struct dirstack *head = calloc(1, sizeof(struct dirstack));
if (!head) {
fprintf(stderr, "\033[91m[error] Ran out of memory\033[0m\n");
return NULL;
}
head->item = item;
head->next = stack;
return head;
}
struct dirstack* dirstack_pop(struct dirstack *stack) {
if (!stack) {
fprintf(stderr, "\033[91m[error] Called `dirstack_pop on an empty stack\033[0m\n");
return NULL;
}
struct dirstack *next_item = stack->next;
free(stack);
return next_item;
}
void yyerror(struct parser_state* state, yyscan_t scanner, const char* msg) {
(void)state;
(void)scanner;
fprintf(stderr, "\033[93mSyntax Error: %s\033[0m\n", msg);
}
%}
// define a reentrant parser
%define api.pure
// enable parser tracing and detailed error messages (plus Lookahead Correction)
%define parse.trace
%define parse.error detailed
%define parse.lac full
%lex-param { yyscan_t scanner }
%parse-param { struct parser_state* state }
%parse-param { yyscan_t scanner }
%union {
char *path;
unsigned long num;
}
%start input
%token NEWLINE SPACE
%token PROMPT CHDIR LIST
%token ROOT PARENT DIRECTORY
%token <path> PATHSPEC
%token <num> SIZE
%term END_OF_FILE
%%
input
: command input
| END_OF_FILE { return 0; }
;
command
: PROMPT CHDIR SPACE ROOT NEWLINE {
while (state->stackptr->next) {
state->stackptr = dirstack_pop(state->stackptr);
}
state->cur = state->stackptr->item;
}
| PROMPT CHDIR SPACE PARENT NEWLINE {
state->stackptr = dirstack_pop(state->stackptr);
state->cur = state->stackptr->item;
}
| PROMPT CHDIR SPACE PATHSPEC NEWLINE {
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// printf("searching in %s now for path %s\n", state->cur->name, $4);
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// move into the new directory (creating it if it doesn't exist is not necessary, LIST does that)
struct dirnode *cur_node = state->cur;
// search for the directory name
size_t found = 0;
int c = -1;
size_t i;
for (i = 0; i < cur_node->num_dirs; i++) {
if (strcmp($4, cur_node->directories[i]->name) == 0) {
found = i;
c = 0;
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// printf("equal: [%s] and [%s]\n", $4, cur_node->directories[i]->name);
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} else {
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// printf("not equal: [%s] and [%s]\n", $4, cur_node->directories[i]->name);
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}
}
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if (c == -1) {
fprintf(stderr, "\033[91m[error] got no such directory lol\033[0m\n");
// TODO: error, directory not found
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} // else {
// printf("found it\n");
// }
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struct dirnode *next = cur_node->directories[found];
// actually move into the new directory
state->stackptr = dirstack_push(state->stackptr, next);
state->cur = next;
}
| PROMPT LIST NEWLINE output
| NEWLINE
;
output
: listing NEWLINE output
|
;
listing
: DIRECTORY SPACE PATHSPEC {
struct dirnode *item = calloc(1, sizeof(struct dirnode));
if (!item) {
// TODO: error handling
}
item->name = $3;
add_directory(state->cur, item);
}
| SIZE SPACE PATHSPEC {
struct filenode *item = calloc(1, sizeof(struct filenode));
if (!item) {
// TODO: error handling
}
item->name = $3;
item->size = $1;
add_file(state->cur, item);
}
;
%%
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unsigned long sum_and_count(struct dirnode *node) {
unsigned long total_sum = 0;
for (size_t i = 0; i < node->num_files; i++) {
node->size += node->files[i]->size;
}
for (size_t j = 0; j < node->num_dirs; j++) {
// recursively call function on subdirectory to compute its size
total_sum += sum_and_count(node->directories[j]);
node->size += node->directories[j]->size;
}
if (node->size <= upper_bound) {
total_sum += node->size;
}
return total_sum;
}
struct dirnode* find_deletion_candidate(struct dirnode *cur, unsigned long needed_space) {
if (cur->size < needed_space) {
// abort recursion if directory sizes get too small
return NULL;
}
struct dirnode *best_candidate = cur;
unsigned long best_diff = best_candidate->size - needed_space;
for (size_t i = 0; i < cur->num_dirs; i++) {
struct dirnode *candidate = find_deletion_candidate(cur->directories[i], needed_space);
// only proceed if there's an actual candidate
if (candidate) {
unsigned long delta = candidate->size - needed_space;
if (delta < best_diff) {
best_candidate = candidate;
best_diff = delta;
}
}
}
return best_candidate;
}
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int main(void) {
struct dirnode *root = calloc(1, sizeof(struct dirnode));
if (!root) {
fprintf(stderr, "\033[91m[error] Ran out of memory\033[0m\n");
return EXIT_FAILURE;
}
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root->name = "/\0";
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struct dirstack *stack_ptr = dirstack_push(NULL, root);
struct parser_state *state = calloc(1, sizeof(struct parser_state));
if (!state) {
fprintf(stderr, "\033[91m[error] Ran out of memory\033[0m\n");
return EXIT_FAILURE;
}
state->root = root;
state->cur = root;
state->stackptr = stack_ptr;
yyscan_t scanner;
if (yylex_init(&scanner)) {
fprintf(stderr, "\033[91m[error] Could not initialize lexer\033[0m\n");
return EXIT_FAILURE;
}
if (yyparse(state, scanner)) {
// TODO: Error handling https://www.gnu.org/software/bison/manual/html_node/Parser-Function.html
// error during parse occured
return EXIT_FAILURE;
}
yylex_destroy(scanner);
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// task 1
unsigned long sum_of_sizes = sum_and_count(root);
printf("The sum of all directory sizes < %zu is: %zu\n", upper_bound, sum_of_sizes);
// task 2
unsigned long free_space = fs_size - root->size;
unsigned long to_clear = needed_space - free_space;
printf("------------------------------------------------\n");
printf("Total Disk Space Available: %zu\n", fs_size);
printf("Total Disk Space Used: %zu\n", root->size);
printf("Free Disk Space: %zu\n", free_space);
printf("Required Disk Space: %zu\n", needed_space);
printf("------------------------------------------------\n\n");
printf("Looking to free %zu units\n", to_clear);
struct dirnode *closest_match = find_deletion_candidate(root, to_clear);
printf("Recommended deletion candidate: `%s` (size %zu)\n", closest_match->name, closest_match->size);
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return 0;
}