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A single header string library for microcontrollers - printf, json, etc

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Single header string library for microcontrollers

License: AGPLv3/Commercial Build Status Code Coverage

Single header string library for microcontrollers implements the following routines:

  • *printf() - implements printf() family of functions that can print standard specifiers (including floating point %f and %g) as well as non-standard %m and %M specifiers that allow custom formatting like JSON, hex, base64
  • json_get() - find element in a JSON string
  • json_get_num() - fetch numeric value from a JSON string
  • json_get_bool() - fetch boolean value from a JSON string
  • json_get_str() - fetch string value from a JSON string
  • xhexdump() - print hex dump of the given memory buffer

Features

  • Ideal for implementing serial protocols, debug logging, JSON data exchange
  • Source code is both ISO C and ISO C++ compliant
  • Tiny size: see the Footprint section below for exact numbers
  • *printf() supports all major format specifiers, width, precition and alignment
  • *printf() supports floating point %f and %g specifiers by default
  • *printf() Supports non-standard %M,%m specifiers which allows for custom formats
  • Can print to anything: to a memory buffer, file, socket, UART, etc
  • Extensively tested using VC98, VC22, ARM GCC, AVR GCC, x86 GCC, Clang

Usage example

Printing to a buffer:

str/test/main.c

Lines 174 to 177 in 873b39d

xprintf(out, NULL, "%s: %g\n", "dbl", 1.234); // dbl: 1.234
xprintf(out, NULL, "%.*s\n", 3, "foobar"); // foo
xprintf(out, NULL, "%#04x\n", 11); // 0x0b
xprintf(out, NULL, "%d %5s\n", 7, "pad"); // 7 pad

Print to the UART. Output JSON, and base64-encoded data:

str/test/main.ino

Lines 1 to 14 in 42f0571

#include "str.h"
void xputchar(char ch, void *arg) { Serial.write(ch); }
#define printf(fmt, ...) xprintf(xputchar, NULL, fmt, __VA_ARGS__)
void setup() {
Serial.begin(115200);
}
void loop() {
printf("JSON: {%m:%g,[%d]}\n", ESC("value"), 1.234, 42);
printf("Base64: %M\n", fmt_b64, 5, "hello");
delay(1000);
}

Parse JSON:

str/test/main.c

Lines 183 to 190 in 813e08a

char buf[100];
const char *json = "{ \"a\": -42, \"b\": \"hi\", \"c\": true }";
int b = 0;
assert(json_get_long(json, (int) strlen(json), "$.a", 0) == -42);
assert(json_get_str(json, (int) strlen(json), "$.b", buf, sizeof(buf)) == 2);
assert(strcmp(buf, "hi") == 0);
assert(json_get_bool(json, (int) strlen(json), "$.c", &b) == 1);
assert(b == 1);

Parse and print floating point:

str/test/main.c

Lines 155 to 158 in 23ebc5c

char buf[20];
double d;
json_get_num("1.23", 4, "$", &d); // Parse floating point number
xsnprintf(buf, sizeof(buf), "%g", d); // 1.23 (print parsed number)

Code duplication

str.h is divided in two parts: API declaration, and implementation. The implementation part is wrapped into the preprocessor conditional:

// API declarations
size_t xprintf(void (*)(char, void *), void *, const char *, ...);
...

#ifndef STR_API_ONLY
// Implementation
......
#endif

If more than one file includes str.h, then the build will result in duplicate symbols, because the implementation will end up duplicated in several object files. To avoid this, only one file should include the full str.h, and the rest of the files should only include API declarations:

file1.c:

#include "str.h"
...

file2.c, file3.c, ...:

#define STR_API_ONLY
#include "str.h"
...

API reference

xprintf(), vxprintf()

size_t vxprintf(void (*fn)(char, void *), void *arg, const char *fmt, va_list *);
size_t xprintf(void (*fn)(char, void *), void *arg, const char *fmt, ...);

Print formatted string using an output function fn(). The output function outputs a single byte: void fn(char ch, void *param) { ... }. By using different output functions, it is possible to print data to anywhere. Parameters:

  • fn - an output function
  • arg - an parameter for the fn() output function
  • fmt - printf-like format string which supports the following specifiers:
    • %hhd, %hd, %d, %ld, %lld - for char, short, int, long, int64_t
    • %hhu, %hu, %u, %lu, %llu - same but for unsigned variants
    • %hhx, %hx, %x, %lx, %llx - same, for unsigned hex output
    • %g, %f - for double
    • %c - for char
    • %s - for char *
    • %% - prints % character itself
    • %p - for any pointer, prints 0x..... hex value
    • %M - (NON-STANDARD EXTENSION): prints using a custom format function
    • %m - (NON-STANDARD EXTENSION): same as %M but double-quotes the result
    • %X.Y - optional width and precision modifiers
    • %.* - optional precision modifier specified as int argument

Return value: Number of bytes printed

The %M specifier expects a cusom format function that can grab any number of positional arguments. That format function should return the number of bytes it has printed. Here its signature:

size_t (*ff)(void (*fn)(char, void *), void *arg, va_list *ap);

Parameters:

  • fn - an output function
  • arg - an parameter for the fn() output function
  • ap - a pointer for fetching positional arguments

This library ships with several pre-defined format functions described below. For example, a fmt_b64() format function grabs two positional arguments: int and void *, and base64-encodes that memory location:

char buf[100];                                        // Base64-encode "abc"
xsnprintf(buf, sizeof(buf), "%M", fmt_b64, 3, "abc"); // buf contains: YWJj

xsnprintf(), xvsnprintf()

size_t xvsnprintf(char *buf, size_t len, const char *fmt, va_list *ap);
size_t xsnprintf(char *buf, size_t len, const char *fmt, ...);

Print formatted string into a fixed-size buffer. Parameters:

  • buf - a buffer to print to. Can be NULL, in this case len must be 0
  • len - a size of the buf
  • fmt - a format string. Supports all specifiers mentioned above

Return value: number of bytes printed. The result is guaranteed to be NUL terminated.

json_get()

int json_get(const char *buf, int len, const char *path, int *size);

Parse JSON string buf, len and return the offset of the element specified by the JSON path. The length of the element is stored in size.

Parameters:

  • buf - a pointer to a JSON string
  • len - a length of a JSON string
  • path - a JSON path. Must start with $, e.g. $.user, $[12], $, etc
  • size - a pointer that receives element's length. Can be NULL

Return value: offset of the element, or negative value on error.

Usage example:

// JSON string buf, len contains { "a": 1, "b": [2, 3] }
int size, ofs;

// Lookup "$", which is the whole JSON. Can be used for validation
ofs = json_get(buf, len, "$", &size);  // ofs == 0, size == 23

// Lookup attribute "a". Point to value "1"
ofs = json_get(buf, len, "$.a", &zize);  // ofs = 7, size = 1

// Lookup attribute "b". Point to array [2, 3]
ofs = json_get(buf, len, "$.b", &size);  // ofs = 15, size = 6

// Lookup attribute "b[1]". Point to value "3"
ofs = json_get(buf, len, "$.b[1]", &size); // ofs = 19, size = 1

json_get_num()

int mg_json_get_num(const char *buf, int len, const char *path, double *val);

Fetch numeric (double) value from the json string buf, len at JSON path path into a placeholder val. Return true if successful.

Parameters:

  • buf - a pointer to a JSON string
  • len - a length of a JSON string
  • path - a JSON path. Must start with $
  • val - a placeholder for value

Return value: 1 on success, 0 on error

Usage example:

double d = 0.0;
json_get_num("[1,2,3]", 7, "$[1]", &d));        // d == 2
json_get_num("{\"a\":1.23}", 10, "$.a", &d));   // d == 1.23

json_get_bool()

int json_get_bool(const char *buf, int len, const char *path, int *val);

Fetch boolean (bool) value from the json string buf at JSON path path into a placeholder v. Return true if successful.

Parameters:

  • buf - a pointer to a JSON string
  • len - a length of a JSON string
  • path - a JSON path. Must start with $
  • val - a placeholder for value

Return value: 1 on success, 0 on error

Usage example:

int b = 0;
json_get_bool("[123]", 5, "$[0]", &b));   // Error. b == 0
json_get_bool("[true]", 6, "$[0]", &b));  // b == 1

json_get_long()

long json_get_long(const char *buf, int len, const char *path, long default_val);

Fetch integer numeric (long) value from the json string buf, len at JSON path path. Return it if found, or default_val if not found.

Parameters:

  • buf - a pointer to a JSON string
  • len - a length of a JSON string
  • path - a JSON path. Must start with $
  • default_val - a default value for the failure case

Return value: found value, or default_val value

Usage example:

long a = json_get_long("[123]", 5, "$a", -1));   // a == -1
long b = json_get_long("[123]", 5, "$[0]", -1)); // b == 123

json_get_str()

int json_get_str(const char *buf, int len, const char *path, char *dst, size_t dstlen);

Fetch string value from the json string json at JSON path path. If found, a string is allocated using calloc(), un-escaped, and returned to the caller. It is the caller's responsibility to free() the returned string.

Parameters:

  • buf - a pointer to a JSON string
  • len - a length of a JSON string
  • path - a JSON path. Must start with $
  • dst - a pointer to a buffer that holds the result
  • dstlen - a length of a result buffer

Return value: length of a decoded string. >= 0 on success, < 0 on error

Usage example:

char dst[100];
json_get_str("[1,2,\"hi\"]", "$[2]", dst, sizeof(dst));  // dst contains "hi"

xhexdump()

void xhexdump(void (*fn)(char, void *), void *arg, const void *buf, size_t len);

Print hex dump of the given memory buffer.

Parameters:

  • fn - an output function
  • arg - an parameter for the fn() output function
  • buf - a pointer to a buffer to print
  • len - a length of a buffer

Usage example:

xhexdump(xputchar, NULL, "hi", 2);

Pre-defined %M, %m format functions

size_t fmt_*(void (*fn)(char, void *), void *arg, va_list *ap);

Pre-defined helper functions for %M specifier:

  • fmt_ip4 - print IPv4 address. Expect a pointer to 4-byte IPv4 address
  • fmt_ip6 - print IPv6 address. Expect a pointer to 16-byte IPv6 address
  • fmt_mac - print MAC address. Expect a pointer to 6-byte MAC address
  • fmt_b64 - print base64 encoded data. Expect int, void *
  • fmt_esc - print a string, escaping \n, \t, \r, ". Espects int, char *

Examples:

uint32_t ip4 = 0x0100007f;                           // Print IPv4 address:
xsnprintf(buf, sizeof(buf), "%M", fmt_ip4, &ip4);    // 127.0.0.1

uint8_t ip6[16] = {1, 100, 33};                      // Print IPv6 address:
xsnprintf(buf, sizeof(buf), "%M", fmt_ip4, &ip6);    // [164:2100:0:0:0:0:0:0]

uint8_t mac[6] = {1, 2, 3, 4, 5, 6};                 // Print MAC address:
xsnprintf(buf, sizeof(buf), "%M", fmt_mac, &mac);    // 01:02:03:04:05:06

const char str[] = {'a', \n, '"', 0};                // Print escaped string:
xsnprintf(buf, sizeof(buf), "%M", fmt_esc, 0, str);  // a\n\"

const char *data = "xyz";                            // Print base64 data:
xsnprintf(buf, sizeof(buf), "%M", fmt_b64, 3, data); // eHl6

Custom %M, %m format functions

It is easy to create your own format functions to format data that is specific to your application. For example, if you want to print your data structure as JSON string, just create your custom formatting function:

struct foo { int a; double b; const char *c; };

size_t fmt_foo(void (*fn)(char, void *), void *arg, va_list *ap) {
  struct foo *foo = va_arg(*ap, struct foo *);
  return xxprintf(fn, arg, "{\"a\":%d, \"b\":%g, \"c\":%m}",
                  foo->a, foo->b, ESC(c));
}

And now, you can use that function:

struct foo foo = {1, 2.34, "hi"};
xsnprintf(buf, sizeof(buf), "%M", fmt_foo, &foo);

Printing to a dynamic memory

The x*printf() functions always return the total number of bytes that the result string takes. Therefore it is possible to print to a malloc()-ed buffer in two passes: in the first pass we calculate the length, and in the second pass we print:

size_t len = xsnprintf(NULL, 0, "Hello, %s", "world");
char *buf = malloc(len + 1);  // +1 is for the NUL terminator
xsnprintf(buf, len + 1, "Hello, %s", "world");
...
free(buf);

Footprint

The following table contains footprint measurements for the ARM Cortex-M0 and ARM Cortex-M7 builds of xsnprintf() compared to the standard snprintf(). The compilation is done with -Os flag using ARM GCC 10.3.1. See test/footprint.c and the corresponding Makefile snippet used for measurements.

Cortex-M0 Cortex-M7
xsnprintf (no float) 1844 2128
xsnprintf 10996 5592
Standard snprintf (no float) 68368 68248
Standard snprintf 87476 81420

Notes:

  • by default, standard snrpintf does not support float, and x*printf does
  • to enable float for ARM GCC (newlib), use -u _printf_float
  • to disable float for x*printf, use -DNO_FLOAT

Licensing

This library is licensed under the dual license:

  • Open source projects are covered by the GNU Affero 3.0 license

  • Commercial projects/products are covered by the commercial, permanent, royalty free license:

  • For licensing questions, contact us

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