static void __tprintf_flush(void) { int i; static ssize_t line_count = 0; size_t term_len = term_curr_size; for (i = 0; i < buffer_use; ++i) { if (buffer[i] == '\n') { term_len = term_curr_size; line_count = -1; } if (line_count == term_len) { __tprintf_flush_newline(); line_count = term_starting_size; while (i < buffer_use && __tprintf_flush_skip(buffer, i, buffer_use)) i++; } fputc(buffer[i], stdout); line_count++; } fflush(stdout); buffer_use = 0; }
static void __tprintf_flush(void) { size_t i; static ssize_t line_count = 0; ssize_t term_len = term_curr_size; size_t color_open = 0; for (i = 0; i < buffer_use; ++i) { if (buffer[i] == '\n') { term_len = term_curr_size; line_count = -1; } /* Start of an color escape sequence? */ if (buffer[i] == 033) { if ((i + 1) < buffer_use && buffer[i + 1] == '[') color_open++; } if (color_open == 0 && line_count >= term_len) { __tprintf_flush_newline(); line_count = term_starting_size; while (i < buffer_use && __tprintf_flush_skip(buffer, i)) i++; } /* End of the color escape sequence? */ if (color_open > 0 && buffer[i] == 'm') color_open--; fputc(buffer[i], stdout); line_count++; } fflush(stdout); buffer_use = 0; }