#include "../includes/compiler.h" #include "../includes/array.h" #include #include int find_string(string src, string query, size_t sz_src, size_t sz_query) { int j = 0; while ((j < (sz_src - sz_query)) && (strncmp(query, src + j, sz_query))) ++j; return j; } bool is_token(char c) { bool token_check = false; for (int i = 0; i < N_TOKENS; ++i) if (c == TOKENS[i]) { token_check = true; break; } return token_check; } void compile_inner_text(string dest, string src, size_t sz_src, string line_or_source) { /* cursor is the current index on the dest pointer * lower represents the last tag character before content * upper represents the first tag character after content * * size_of_content is self explanatory (size of content delimited by tags) * tag_size is the compiled size of a tag * md_tag_size is the precompiled size of a tag * * tag is the string for the open HTML tag * close_tag is the string for the close HTML tag * * i and j are iterator variables */ int cursor, lower, upper; size_t size_of_content, tag_size, md_tag_size; string md_tag, tag, close_tag; int i, j; lower = 0; upper = 0; cursor = 0; for (i = 0; i < sz_src; ++i) { if (is_token(src[i])) { // Information for each tag // NOTE: Here's where you add new text tags switch (src[i]) { case '*': { // Twin asterisks if (src[i + 1] == '*') { md_tag = "**"; tag = ""; close_tag = ""; tag_size = 8; md_tag_size = 2; } // one asterisk else { md_tag = "*"; tag = ""; close_tag = ""; tag_size = 3; md_tag_size = 1; } break; } case '_': { tag = ""; close_tag = ""; md_tag = "_"; tag_size = 3; md_tag_size = 1; break; } case '~': { tag = ""; close_tag = ""; md_tag = "~"; tag_size = 3; md_tag_size = 1; break; } default: break; } if (src[i + md_tag_size] == '\0') { strncpy(dest, src + i, md_tag_size); break; } // find the corresponding markdown tag, and report errors j = find_string(src + i + md_tag_size, md_tag, sz_src - i - md_tag_size, md_tag_size); j += i + md_tag_size; // error checking the token if (src[j] == md_tag[0]) { lower = i + md_tag_size - 1; upper = j; } else { // error, no matching asterisk fprintf(stderr, "No corresponding %s for %s:%d\n", md_tag, line_or_source, i + md_tag_size); exit(0); } size_of_content = upper - lower - 1; strncpy(dest + cursor, tag, tag_size); strncpy(dest + cursor + tag_size, src + lower + 1, size_of_content); strncpy(dest + cursor + tag_size + size_of_content, close_tag, tag_size + 1); cursor += tag_size + size_of_content + tag_size + 1; // shift after operation i += size_of_content + (2 * md_tag_size) - 1; } else { strncpy(dest + cursor, &src[i], 1); cursor += 1; } } } string compile_line(string line, size_t size_of_line, string line_or_source) { string compiled_line; size_t size_of_content; if (line[0] == '#' || line[0] == '-') // Compile a header or list item { const int tag_size = 4; int start_of_content; string tag, close_tag; if (line[0] == '#') { // Get the level of header (h1, h2, etc) int depth; for (depth = 1; line[depth] == '#'; ++depth) continue; start_of_content = depth; size_of_content = size_of_line - depth; // remove hashes // Generate the header tags based on depth tag = malloc(sizeof(*tag) * 5); close_tag = malloc(sizeof(*close_tag) * 6); sprintf(tag, "", depth); sprintf(close_tag, "", depth); } else { tag = "
  • "; close_tag = "
  • "; size_of_content = size_of_line - 1; start_of_content = 1; } // allocate buffer with space for content and opposing tags compiled_line = malloc(sizeof(*compiled_line) * (size_of_content + (2 * tag_size) + 2)); // write start tag to compiled_line strncpy(compiled_line, tag, tag_size); // write the rest of the line to the compiled_line strncpy(compiled_line + tag_size, line + start_of_content, size_of_line); // write the end tags strncpy(compiled_line + size_of_content + tag_size, close_tag, tag_size + 1); // write the terminator compiled_line[size_of_content + (2 * tag_size) + 1] = '\0'; } else // Compile a standard piece of text { compiled_line = malloc(sizeof(*compiled_line) * size_of_line * 2); compile_inner_text(compiled_line, line, size_of_line, line_or_source); } return compiled_line; } char **get_lines(char *filename) { FILE *fp; char **lines, *line; array_t *arr; int i; array_init(arr); fp = fopen(filename, "r"); while(!feof(fp)) { // Get line line = malloc(sizeof(*line) * 1024); fgets(line, 1024, fp); // Terminate line for (i = 0; line[i] != '\n'; ++i); line[i] = '\0'; array_append(arr, line); } lines = (char**)arr->data; free(arr); return lines; }