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libkernaux/examples/ntoa.c

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2022-05-30 16:43:58 -04:00
#include <kernaux/ntoa.h>
#include <assert.h>
#include <stddef.h>
#include <string.h>
static const char *str_end(const char *str)
{
for (;; ++str) if (*str == '\0') return str;
}
void example_main()
2022-05-30 16:43:58 -04:00
{
// kernaux_utoa
{
char buffer[KERNAUX_UTOA_MIN_BUFFER_SIZE + 3]; // more space for prefix
const char *end;
// decimal: 10
// no prefix (NULL)
end = kernaux_utoa(123, buffer, 10, NULL);
assert(strcmp(buffer, "123") == 0);
assert(end == str_end(buffer));
// decimal: 10
// with prefix ("foo")
end = kernaux_utoa(123, buffer, 10, "foo");
assert(strcmp(buffer, "foo123") == 0);
assert(end == str_end(buffer));
// decimal, character alias: 'd'
// no prefix (NULL)
end = kernaux_utoa(123, buffer, 'd', NULL);
assert(strcmp(buffer, "123") == 0);
assert(end == str_end(buffer));
// binary: 2
// no prefix (NULL)
end = kernaux_utoa(123, buffer, 2, NULL);
assert(strcmp(buffer, "1111011") == 0);
assert(end == str_end(buffer));
// binary: 2
// with prefix ("0b")
end = kernaux_utoa(123, buffer, 2, "0b");
assert(strcmp(buffer, "0b1111011") == 0);
assert(end == str_end(buffer));
// binary, character alias: 'b'
// no prefix (NULL)
end = kernaux_utoa(123, buffer, 'b', NULL);
assert(strcmp(buffer, "1111011") == 0);
assert(end == str_end(buffer));
// binary, character alias: 'b'
// with prefix ("0b")
end = kernaux_utoa(123, buffer, 'b', "0b");
assert(strcmp(buffer, "0b1111011") == 0);
assert(end == str_end(buffer));
// octal: 8
// no prefix (NULL)
end = kernaux_utoa(0123, buffer, 8, NULL);
assert(strcmp(buffer, "123") == 0);
assert(end == str_end(buffer));
// octal: 8
// with prefix ("0o")
end = kernaux_utoa(0123, buffer, 8, "0o");
assert(strcmp(buffer, "0o123") == 0);
assert(end == str_end(buffer));
// octal, character alias: 'o'
// no prefix (NULL)
end = kernaux_utoa(0123, buffer, 'o', NULL);
assert(strcmp(buffer, "123") == 0);
assert(end == str_end(buffer));
// octal, character alias: 'o'
// with prefix ("0o")
end = kernaux_utoa(0123, buffer, 'o', "0o");
assert(strcmp(buffer, "0o123") == 0);
assert(end == str_end(buffer));
// hex: 16
// no prefix (NULL)
end = kernaux_utoa(0x123cafe, buffer, 16, NULL);
assert(strcmp(buffer, "123cafe") == 0);
assert(end == str_end(buffer));
// hex: 16
// with prefix ("0x")
end = kernaux_utoa(0x123cafe, buffer, 16, "0x");
assert(strcmp(buffer, "0x123cafe") == 0);
assert(end == str_end(buffer));
// hex, character alias: 'x'
// no prefix (NULL)
end = kernaux_utoa(0x123cafe, buffer, 'x', NULL);
assert(strcmp(buffer, "123cafe") == 0);
assert(end == str_end(buffer));
// hex, character alias: 'x'
// with prefix ("0x")
end = kernaux_utoa(0x123cafe, buffer, 'x', "0x");
assert(strcmp(buffer, "0x123cafe") == 0);
assert(end == str_end(buffer));
// hex, character alias: 'h'
// no prefix (NULL)
end = kernaux_utoa(0x123cafe, buffer, 'h', NULL);
assert(strcmp(buffer, "123cafe") == 0);
assert(end == str_end(buffer));
// hex, uppercase: -16
// no prefix (NULL)
end = kernaux_utoa(0x123cafe, buffer, -16, NULL);
assert(strcmp(buffer, "123CAFE") == 0);
assert(end == str_end(buffer));
// hex, uppercase, character alias: 'X'
// no prefix (NULL)
end = kernaux_utoa(0x123cafe, buffer, 'X', NULL);
assert(strcmp(buffer, "123CAFE") == 0);
assert(end == str_end(buffer));
// hex, uppercase, character alias: 'H'
// no prefix (NULL)
end = kernaux_utoa(0x123cafe, buffer, 'H', NULL);
assert(strcmp(buffer, "123CAFE") == 0);
assert(end == str_end(buffer));
// random base: 14
// no prefix (NULL)
end = kernaux_utoa(123456, buffer, 14, NULL);
assert(strcmp(buffer, "32dc4") == 0);
assert(end == str_end(buffer));
// random base: 14
// with prefix ("foo")
end = kernaux_utoa(123456, buffer, 14, "foo");
assert(strcmp(buffer, "foo32dc4") == 0);
assert(end == str_end(buffer));
// random base, uppercase: -14
// no prefix (NULL)
end = kernaux_utoa(123456, buffer, -14, NULL);
assert(strcmp(buffer, "32DC4") == 0);
assert(end == str_end(buffer));
}
// kernaux_itoa - similar to kernaux_utoa
{
char buffer[KERNAUX_ITOA_MIN_BUFFER_SIZE + 3]; // more space for prefix
const char *end;
// sign: +
// decimal: 10
// no prefix (NULL)
end = kernaux_itoa(123, buffer, 10, NULL);
assert(strcmp(buffer, "123") == 0);
assert(end == str_end(buffer));
// sign: -
// decimal: 10
// no prefix (NULL)
end = kernaux_itoa(-123, buffer, 10, NULL);
assert(strcmp(buffer, "-123") == 0);
assert(end == str_end(buffer));
// sign: +
// decimal: 10
// with prefix ("foo")
end = kernaux_itoa(123, buffer, 10, "foo");
assert(strcmp(buffer, "foo123") == 0);
assert(end == str_end(buffer));
// sign: -
// decimal: 10
// with prefix ("foo")
end = kernaux_itoa(-123, buffer, 10, "foo");
assert(strcmp(buffer, "-foo123") == 0);
assert(end == str_end(buffer));
}
// kernaux_utoa2
{
char buffer[KERNAUX_UTOA2_BUFFER_SIZE];
const char *end;
end = kernaux_utoa2(123, buffer);
assert(strcmp(buffer, "0b1111011") == 0);
assert(end == str_end(buffer));
}
// kernaux_itoa2
{
char buffer[KERNAUX_ITOA2_BUFFER_SIZE];
const char *end;
end = kernaux_itoa2(123, buffer);
assert(strcmp(buffer, "0b1111011") == 0);
assert(end == str_end(buffer));
end = kernaux_itoa2(-123, buffer);
assert(strcmp(buffer, "-0b1111011") == 0);
assert(end == str_end(buffer));
}
// kernaux_utoa8
{
char buffer[KERNAUX_UTOA8_BUFFER_SIZE];
const char *end;
end = kernaux_utoa8(0123, buffer);
assert(strcmp(buffer, "0o123") == 0);
assert(end == str_end(buffer));
}
// kernaux_itoa8
{
char buffer[KERNAUX_ITOA8_BUFFER_SIZE];
const char *end;
end = kernaux_itoa8(0123, buffer);
assert(strcmp(buffer, "0o123") == 0);
assert(end == str_end(buffer));
end = kernaux_itoa8(-0123, buffer);
assert(strcmp(buffer, "-0o123") == 0);
assert(end == str_end(buffer));
}
// kernaux_utoa10
{
char buffer[KERNAUX_UTOA10_BUFFER_SIZE];
const char *end;
end = kernaux_utoa10(123, buffer);
assert(strcmp(buffer, "123") == 0);
assert(end == str_end(buffer));
}
// kernaux_itoa10
{
char buffer[KERNAUX_ITOA10_BUFFER_SIZE];
const char *end;
end = kernaux_itoa10(123, buffer);
assert(strcmp(buffer, "123") == 0);
assert(end == str_end(buffer));
end = kernaux_itoa10(-123, buffer);
assert(strcmp(buffer, "-123") == 0);
assert(end == str_end(buffer));
}
// kernaux_utoa16
{
char buffer[KERNAUX_UTOA16_BUFFER_SIZE];
const char *end;
end = kernaux_utoa16(0x123, buffer);
assert(strcmp(buffer, "0x123") == 0);
assert(end == str_end(buffer));
}
// kernaux_itoa16
{
char buffer[KERNAUX_ITOA16_BUFFER_SIZE];
const char *end;
end = kernaux_itoa16(0x123, buffer);
assert(strcmp(buffer, "0x123") == 0);
assert(end == str_end(buffer));
end = kernaux_itoa16(-0x123, buffer);
assert(strcmp(buffer, "-0x123") == 0);
assert(end == str_end(buffer));
}
}