Not an absolute 100% solution, but will get you practically close.

Check if the characteristics of floating type `double`

match binary64:

```
#include <float.h>
#define BINARY64_LIKE ( \
(FLT_RADIX == 2) \
(DBL_MANT_DIG == 53) \
(DBL_DECIMAL_DIG == 17) \
(DBL_DIG == 15) \
(DBL_MIN_EXP == -1021) \
(DBL_HAS_SUBNORM == 1) \
(DBL_MIN_10_EXP == -307) \
(DBL_MAX_EXP == +1024) \
(DBL_MAX_10_EXP == +308))
```

`BINARY64_LIKE`

usable at compile time. Need additional work though for older compilers that do not define them all like: `DBL_HAS_SUBNORM`

since C11.

Likewise for `float`

.

Since C11, code could use `_Static_assert()`

to detect some attributes.

```
_Static_assert(sizeof(double)*CHAR_BIT == 64, "double unexpected size");
```

See also Are there any commonly used floating point formats besides IEEE754?.

Last non-IEEE754 FP format I used was CCSI 5 years ago.

Caution: Unclear *why* OP wants this test. If code is doing some bit manipulations of a floating point, even with `__STDC_IEC_559__`

defined there remains at least one hole: The endian of floating point and integer may differ - uncommon - but out there.

Other potential holes: support of -0.0, NaN sign, encoding of infinity, signalling NaN, quiet NaN, NaN payload: the usual suspects.

`__STDC_IEC_559__`

is its "shall implement floating point types (what OP wants - easy enough to comply) and arithmetic conforming to IEC 60559 (the hard part)". The "arithmetic conforming to IEC 60559" is a hard test to do, let alone pass. Some highly compliant compilers leave it undefined rather than risk a missed corner case. – chux - Reinstate Monica Jul 29 '20 at 17:13