isspam/isspam.c
2024-11-28 18:39:34 +01:00

333 lines
8.6 KiB
C

#include "rmalloc.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include "rstring_list.h"
#include "rstr.h"
#include <ctype.h>
#define sl rstring_list_t
#define slf rstring_list_free
#define sla rstring_list_add
#define sln rstring_list_new
#define rb rbuffer_t
#define rbf rbuffer_free
#define rbs rbuffer_to_string
#define rbw rbuffer_write
#define rbn rbuffer_new
char *forbidden_words[] = {
"recovery", "techie", "http", "https", "digital", "hack", "::", "//", "com",
"@", "crypto", "bitcoin", "wallet", "hacker", "welcome", "whatsapp", "email", "cryptocurrency",
"stolen", "freeze", "quick", "crucial", "tracing", "scammers", "expers", "hire", "century",
"transaction", "essential", "managing", "contact", "contacting", "understanding", "assets", "funds", NULL};
void sld(sl *lst) {
for (uint i = 0; i < lst->count; i++) {
printf("<%u:%s>\n", i, lst->strings[i]);
}
}
char *remove_preserved_chars(char *content) {
char *cc = (char *)malloc(strlen(content) + 1);
*cc = 0;
char *ccp = cc;
while (*content) {
if (*content == '<' || *content == '>' || *content == ':') {
content++;
continue;
}
*ccp = *content;
ccp++;
*ccp = 0;
content++;
}
return cc;
}
char *slds(sl *lst) {
str_t *buffer = strn(1337);
for (uint i = 0; i < lst->count; i++) {
char *temp = (char *)malloc(strlen(lst->strings[i]) + 20);
char *cc = remove_preserved_chars(lst->strings[i]);
sprintf(temp, "<%u:%s>\n", i, cc);
free(cc);
stra(buffer, temp);
free(temp);
}
return strc(buffer);
}
bool isws(char c) { return c == '\t' || c == '\n' || c == ' ' || c == ','; }
char *stripws(char *content) {
char *cc = (char *)malloc(strlen(content) + 1);
*cc = 0;
char *ccp = cc;
while (*content) {
if (!isws(*content)) {
*ccp = *content;
ccp++;
*ccp = 0;
}
content++;
}
return cc;
}
char *fread_till_eof(FILE *f) {
char c;
str_t *buffer = strn(1337);
while ((c = fgetc(f)) != EOF) {
strac(buffer, c);
}
char *content = strc(buffer);
return content;
}
rstring_list_t *get_sentences(char *content) {
rstring_list_t *sentences = rstring_list_new();
char *sentence_buffer = (char *)malloc(strlen(content) + 1);
char *sentence_buffer_p = sentence_buffer;
// rbuffer_t * buffer = rbuffer_new(NULL,0);
bool in_line = false;
while (*content) {
if ((*content == ' ' || *content == '\t' || *content == '\n') && !in_line) {
content++;
continue;
} else {
in_line = true;
}
if (*content == '.') {
*sentence_buffer_p = *content;
sentence_buffer_p++;
*sentence_buffer_p = 0;
rstring_list_add(sentences, sentence_buffer);
sentence_buffer_p = sentence_buffer;
*sentence_buffer = 0;
content++;
in_line = false;
continue;
}
*sentence_buffer_p = *content;
sentence_buffer_p++;
*sentence_buffer_p = 0;
content++;
}
free(sentence_buffer);
return sentences;
}
rstring_list_t *get_words(char *content) {
rstring_list_t *words = rstring_list_new();
char *word_buffer = (char *)malloc(strlen(content) + 1);
char *word_buffer_p = word_buffer;
*word_buffer_p = 0;
// rbuffer_t * buffer = rbuffer_new(NULL,0);
while (*content) {
if (*content == ' ' || *content == '\t' || *content == '\n') {
if (word_buffer_p != word_buffer) {
rstring_list_add(words, word_buffer);
word_buffer_p = word_buffer;
*word_buffer = 0;
}
content++;
continue;
}
*word_buffer_p = *content;
word_buffer_p++;
*word_buffer_p = 0;
content++;
}
free(word_buffer);
return words;
}
bool is_fully_capitalized_word(char *word) {
while (*word) {
if (isalnum(*word) && toupper(*word) != *word)
return false;
word++;
}
return true;
}
sl *get_capitalized_words(char *content) {
sl *capitalized_words = sln();
sl *sentences = get_sentences(content);
for (uint j = 0; j < sentences->count; j++) {
char *sentence = sentences->strings[j];
sl *all_words = get_words(sentence);
// Always skip the first word since sentences start with
for (uint i = 0; i < all_words->count; i++) {
if (is_fully_capitalized_word(all_words->strings[i])) {
rstring_list_add(capitalized_words, all_words->strings[i]);
}
}
slf(all_words);
}
slf(sentences);
return capitalized_words;
}
char *clean_content(char *content) {
char *allowed_ichars = "01234567891abcdefghijklmnopqrstuvwxyz \n.,!?";
char *clean_content = (char *)malloc(strlen(content) + 1);
char *clean_content_p = clean_content;
*clean_content_p = 0;
while (*content) {
if (strchr(allowed_ichars, tolower(*content))) {
*clean_content_p = *content;
clean_content_p++;
*clean_content_p = 0;
}
content++;
}
return clean_content;
}
sl *get_numbers(char *content) {
char *cc = clean_content(content);
char *ccc = stripws(cc);
char *cccp = ccc;
free(cc);
char *number_buffer = (char *)malloc(strlen(ccc) + 1);
*number_buffer = 0;
char *number_buffer_p = number_buffer;
sl *numbers = sln();
while (*cccp) {
if (isdigit((*cccp))) {
*number_buffer_p = *cccp;
number_buffer_p++;
*number_buffer_p = 0;
} else if (number_buffer != number_buffer_p) {
sla(numbers, number_buffer);
*number_buffer = 0;
number_buffer_p = number_buffer;
}
cccp++;
}
free(number_buffer);
free(ccc);
return numbers;
}
bool stricmp(char *word1, char *word2) {
while (*word1 && tolower(*word1) == tolower(*word2)) {
word1++;
word2++;
}
return *word1 == *word2;
}
bool containswordi(sl *words, char *word) {
for (uint i = 0; i < words->count; i++) {
if (stricmp(words->strings[i], word))
return true;
}
return false;
}
sl *get_forbidden_words(char *content) {
sl *words = get_words(content);
sl *found = sln();
for (int j = 0; forbidden_words[j] != NULL; j++) {
if (containswordi(words, forbidden_words[j])) {
rstring_list_add(found, forbidden_words[j]);
}
}
slf(words);
return found;
}
void analyze(FILE *f) {
char *data = fread_till_eof(f);
str_t *all = strn(1337);
char *sbuf = NULL;
char *clean_data = clean_content(data);
free(clean_data);
// All capitalized words
sl *capitalized_words = get_capitalized_words(data);
uint capitalized_words_count = capitalized_words->count;
printf("Capitalized words: %u\n", capitalized_words_count);
sbuf = slds(capitalized_words);
stra(all, sbuf);
free(sbuf);
sl *sentences = get_sentences(data);
// All sentences
printf("Sentences: %u\n", sentences->count);
// sld(sentences);
sbuf = slds(sentences);
stra(all, sbuf);
free(sbuf);
sl *words = get_words(data);
// All words
printf("Words: %u\n", words->count);
// sld(words);
sbuf = slds(words);
stra(all, sbuf);
free(sbuf);
// Numbers
sl *numbers = get_numbers(data);
printf("Numbers: %u\n", numbers->count);
// sld(numbers);
sbuf = slds(numbers);
stra(all, sbuf);
free(sbuf);
// Forbidden words
sl *fw = get_forbidden_words(data);
printf("Forbidden words: %u\n", fw->count);
// sld(fw);
sbuf = slds(fw);
stra(all, sbuf);
free(sbuf);
strd(all);
uint word_count_per_sentence = words->count / sentences->count;
printf("Word count per sentence: %u\n", word_count_per_sentence);
slf(capitalized_words);
slf(sentences);
slf(words);
slf(numbers);
slf(fw);
free(data);
}
void analyze_file(char *path) {
FILE *f = fopen(path, "r");
analyze(f);
fclose(f);
}
int main(int argc, char *argv[]) {
if (argc > 1) {
for (int i = 1; i < argc; i++) {
printf("File: %s\n", argv[i]);
analyze_file(argv[i]);
printf("\n");
}
printf("%s\n", rmalloc_stats());
return 0;
}
analyze(stdin);
printf("%s\n", rmalloc_stats());
return 0;
}