#ifndef FMT_H_INCLUDED #define FMT_H_INCLUDED /* VER 2.1: NEW API: void print(fmt, ...); void println(fmt, ...); void printd(dest, fmt, ...); void fmt_print(fmt, ...); void fmt_println(fmt, ...); void fmt_printd(dest, fmt, ...); void fmt_destroy(fmt_buffer* buf); dest - destination, one of: FILE* fp Write to a file char* strbuf Write to a pre-allocated string buffer fmt_buffer* buf Auto realloc the needed memory (safe). Set buf->stream=1 for stream-mode. Call fmt_destroy(buf) after usage. fmt - format string {} Auto-detected format. If :MOD is not specified, float will use ".8g" format, and double ".16g". {:MOD} Format modifiers: < left align (replaces -), default for char*, char. > right align, default for numbers. Other than that MOD can be normal printf format modifiers. {{, }} Print chars {, and }. (note: a single % prints %). * C11 or higher required. * MAX 255 chars fmt string by default. MAX 12 arguments after fmt string. * Static linking by default, shared symbols by defining FMT_HEADER / FMT_IMPLEMENT. * (c) operamint, 2022, MIT License. ----------------------------------------------------------------------------------- #include "c11/print.h" int main() { const double pi = 3.141592653589793; const size_t x = 1234567890; const char* string = "Hello world"; const wchar_t* wstr = L"The whole"; const char z = 'z'; _Bool flag = 1; unsigned char r = 123, g = 214, b = 90, w = 110; char buffer[64]; print("Color: ({} {} {}), {}\n", r, g, b, flag); println("Wide: {}, {}", wstr, L"wide world"); println("{:10} {:10} {:10.2f}", 42ull, 43, pi); println("{:>10} {:>10} {:>10}", z, z, w); printd(stdout, "{:10} {:10} {:10}\n", "Hello", "Mad", "World"); printd(stderr, "100%: {:<20} {:.*} {}\n", string, 4, pi, x); printd(buffer, "Precision: {} {:.10} {}", string, pi, x); println("{}", buffer); println("Vector: ({}, {}, {})", 3.2, 3.3, pi); fmt_buffer out[1] = {{.stream=1}}; printd(out, "{} {}", "Pi is:", pi); print("{}, len={}, cap={}\n", out->data, out->len, out->cap); printd(out, "{} {}", ", Pi squared is:", pi*pi); print("{}, len={}, cap={}\n", out->data, out->len, out->cap); fmt_destroy(out); } */ #include #include #include #define fmt_OVERLOAD(name, ...) \ fmt_JOIN(name, fmt_NUMARGS(__VA_ARGS__))(__VA_ARGS__) #define fmt_CONCAT(a, b) a ## b #define fmt_JOIN(a, b) fmt_CONCAT(a, b) #define fmt_EXPAND(...) __VA_ARGS__ #define fmt_NUMARGS(...) _fmt_APPLY_ARG_N((__VA_ARGS__, _fmt_RSEQ_N)) #define _fmt_APPLY_ARG_N(args) fmt_EXPAND(_fmt_ARG_N args) #define _fmt_RSEQ_N 16, 15, 14, 13, 12, 11, 10, 9, 8, 7, 6, 5, 4, 3, 2, 1, 0 #define _fmt_ARG_N(_1, _2, _3, _4, _5, _6, _7, _8, _9, _10, _11, _12, _13, \ _14, _15, _16, N, ...) N #if defined FMT_HEADER || defined FMT_IMPLEMENT # define FMT_API #else # define FMT_API static inline #endif #if defined FMT_NDEBUG || defined NDEBUG # define fmt_OK(exp) (void)(exp) #else # define fmt_OK(exp) assert(exp) #endif typedef struct { char* data; intptr_t cap, len; _Bool stream; } fmt_buffer; FMT_API void fmt_destroy(fmt_buffer* buf); FMT_API int _fmt_parse(char* p, int nargs, const char *fmt, ...); FMT_API void _fmt_bprint(fmt_buffer*, const char* fmt, ...); #ifndef FMT_MAX #define FMT_MAX 256 #endif #ifndef FMT_NOSHORTS #define print(...) fmt_printd(stdout, __VA_ARGS__) #define println(...) fmt_printd((fmt_buffer*)0, __VA_ARGS__) #define printd fmt_printd #endif #define fmt_print(...) fmt_printd(stdout, __VA_ARGS__) #define fmt_println(...) fmt_printd((fmt_buffer*)0, __VA_ARGS__) #define fmt_printd(...) fmt_OVERLOAD(fmt_printd, __VA_ARGS__) /* Primary function. */ #define fmt_printd2(to, fmt) \ do { char _fs[FMT_MAX]; int _n = _fmt_parse(_fs, 0, fmt); \ fmt_OK(_n == 0); _fmt_fn(to)(to, fmt); } while (0) #define fmt_printd3(to, fmt, c) \ do { char _fs[FMT_MAX]; int _n = _fmt_parse(_fs, 1, fmt, _fc(c)); \ fmt_OK(_n == 1); _fmt_fn(to)(to, _fs, c); } while (0) #define fmt_printd4(to, fmt, c, d) \ do { char _fs[FMT_MAX]; int _n = _fmt_parse(_fs, 2, fmt, _fc(c), _fc(d)); \ fmt_OK(_n == 2); _fmt_fn(to)(to, _fs, c, d); } while (0) #define fmt_printd5(to, fmt, c, d, e) \ do { char _fs[FMT_MAX]; int _n = _fmt_parse(_fs, 3, fmt, _fc(c), _fc(d), _fc(e)); \ fmt_OK(_n == 3); _fmt_fn(to)(to, _fs, c, d, e); } while (0) #define fmt_printd6(to, fmt, c, d, e, f) \ do { char _fs[FMT_MAX]; int _n = _fmt_parse(_fs, 4, fmt, _fc(c), _fc(d), _fc(e), _fc(f)); \ fmt_OK(_n == 4); _fmt_fn(to)(to, _fs, c, d, e, f); } while (0) #define fmt_printd7(to, fmt, c, d, e, f, g) \ do { char _fs[FMT_MAX]; int _n = _fmt_parse(_fs, 5, fmt, _fc(c), _fc(d), _fc(e), _fc(f), _fc(g)); \ fmt_OK(_n == 5); _fmt_fn(to)(to, _fs, c, d, e, f, g); } while (0) #define fmt_printd8(to, fmt, c, d, e, f, g, h) \ do { char _fs[FMT_MAX]; int _n = _fmt_parse(_fs, 6, fmt, _fc(c), _fc(d), _fc(e), _fc(f), _fc(g), _fc(h)); \ fmt_OK(_n == 6); _fmt_fn(to)(to, _fs, c, d, e, f, g, h); } while (0) #define fmt_printd9(to, fmt, c, d, e, f, g, h, i) \ do { char _fs[FMT_MAX]; int _n = _fmt_parse(_fs, 7, fmt, _fc(c), _fc(d), _fc(e), _fc(f), _fc(g), _fc(h), _fc(i)); \ fmt_OK(_n == 7); _fmt_fn(to)(to, _fs, c, d, e, f, g, h, i); } while (0) #define fmt_printd10(to, fmt, c, d, e, f, g, h, i, j) \ do { char _fs[FMT_MAX]; int _n = _fmt_parse(_fs, 8, fmt, _fc(c), _fc(d), _fc(e), _fc(f), _fc(g), _fc(h), \ _fc(i), _fc(j)); \ fmt_OK(_n == 8); _fmt_fn(to)(to, _fs, c, d, e, f, g, h, i, j); } while (0) #define fmt_printd11(to, fmt, c, d, e, f, g, h, i, j, k) \ do { char _fs[FMT_MAX]; int _n = _fmt_parse(_fs, 9, fmt, _fc(c), _fc(d), _fc(e), _fc(f), _fc(g), _fc(h), \ _fc(i), _fc(j), _fc(k)); \ fmt_OK(_n == 9); _fmt_fn(to)(to, _fs, c, d, e, f, g, h, i, j, k); } while (0) #define fmt_printd12(to, fmt, c, d, e, f, g, h, i, j, k, m) \ do { char _fs[FMT_MAX]; int _n = _fmt_parse(_fs, 10, fmt, _fc(c), _fc(d), _fc(e), _fc(f), _fc(g), _fc(h), \ _fc(i), _fc(j), _fc(k), _fc(m)); \ fmt_OK(_n == 10); _fmt_fn(to)(to, _fs, c, d, e, f, g, h, i, j, k, m); } while (0) #define fmt_printd13(to, fmt, c, d, e, f, g, h, i, j, k, m, n) \ do { char _fs[FMT_MAX]; int _n = _fmt_parse(_fs, 11, fmt, _fc(c), _fc(d), _fc(e), _fc(f), _fc(g), _fc(h), \ _fc(i), _fc(j), _fc(k), _fc(m), _fc(n)); \ fmt_OK(_n == 11); _fmt_fn(to)(to, _fs, c, d, e, f, g, h, i, j, k, m, n); } while (0) #define fmt_printd14(to, fmt, c, d, e, f, g, h, i, j, k, m, n, o) \ do { char _fs[FMT_MAX]; int _n = _fmt_parse(_fs, 12, fmt, _fc(c), _fc(d), _fc(e), _fc(f), _fc(g), _fc(h), \ _fc(i), _fc(j), _fc(k), _fc(m), _fc(n), _fc(o)); \ fmt_OK(_n == 12); _fmt_fn(to)(to, _fs, c, d, e, f, g, h, i, j, k, m, n, o); } while (0) #define _fmt_fn(x) _Generic ((x), \ FILE*: fprintf, \ char*: sprintf, \ fmt_buffer*: _fmt_bprint) #if defined(_MSC_VER) && !defined(__clang__) # define _signed_char_hhd #else # define _signed_char_hhd signed char: "hhd", #endif #define _fc(x) _Generic (x, \ _Bool: "d", \ unsigned char: "hhu", \ _signed_char_hhd \ char: "c", \ short: "hd", \ unsigned short: "hu", \ int: "d", \ unsigned: "u", \ long: "ld", \ unsigned long: "lu", \ long long: "lld", \ unsigned long long: "llu", \ float: "g", \ double: "@g", \ long double: "@Lg", \ char*: "s", \ wchar_t*: "ls", \ void*: "p", \ const char*: "s", \ const wchar_t*: "ls", \ const void*: "p") #if defined FMT_IMPLEMENT || !(defined FMT_HEADER || defined FMT_IMPLEMENT) #include #include #include FMT_API void fmt_destroy(fmt_buffer* buf) { free(buf->data); } FMT_API void _fmt_bprint(fmt_buffer* buf, const char* fmt, ...) { va_list args, args2; va_start(args, fmt); if (buf == NULL) { vprintf(fmt, args); putchar('\n'); goto done1; } va_copy(args2, args); const int n = vsnprintf(NULL, 0U, fmt, args); if (n < 0) goto done2; const intptr_t pos = buf->stream ? buf->len : 0; buf->len = pos + n; if (buf->len > buf->cap) { buf->cap = buf->len + buf->cap/2; buf->data = (char*)realloc(buf->data, (size_t)buf->cap + 1U); } vsprintf(buf->data + pos, fmt, args2); done2: va_end(args2); done1: va_end(args); } FMT_API int _fmt_parse(char* p, int nargs, const char *fmt, ...) { char *arg, *p0, ch; int n = 0, empty; va_list args; va_start(args, fmt); do { switch ((ch = *fmt)) { case '%': *p++ = '%'; break; case '}': if (*++fmt == '}') break; /* ok */ n = 99; continue; case '{': if (*++fmt == '{') break; /* ok */ if (++n > nargs) continue; if (*fmt != ':' && *fmt != '}') n = 99; fmt += (*fmt == ':'); empty = *fmt == '}'; arg = va_arg(args, char *); *p++ = '%', p0 = p; while (1) switch (*fmt) { case '\0': n = 99; /* nobreak */ case '}': goto done; case '<': *p++ = '-', ++fmt; break; case '>': p0 = NULL; /* nobreak */ case '-': ++fmt; break; case '*': if (++n <= nargs) arg = va_arg(args, char *); /* nobreak */ default: *p++ = *fmt++; } done: switch (*arg) { case 'g': if (empty) memcpy(p, ".8", 2), p += 2; break; case '@': ++arg; if (empty) memcpy(p, ".16", 3), p += 3; break; } if (!strchr("csdioxXufFeEaAgGnp", fmt[-1])) while (*arg) *p++ = *arg++; if (p0 && (p[-1] == 's' || p[-1] == 'c')) /* left-align str */ memmove(p0 + 1, p0, (size_t)(p++ - p0)), *p0 = '-'; fmt += *fmt == '}'; continue; } *p++ = *fmt++; } while (ch); va_end(args); return n; } #endif #endif