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Specifies floating-point behavior for a function.
Syntax
#pragma float_control
#pragma float_control( precise,{on|off} [, push])
#pragma float_control( except,{on|off} [, push])
#pragma float_control({push|pop})
Options
precise, on | off, push
Specifies whether to enable (on) or disable (off) precise floating-point semantics. For information on differences with the /fp:precise compiler option, see the Remarks section. The optional push token pushes the current setting for float_control on the internal compiler stack.
except, on | off, push
Specifies whether to enable (on) or disable (off) floating-point exception semantics. The optional push token pushes the current setting for float_control on the internal compiler stack.
except can only be set to on when precise is also set to on.
push
Pushes the current float_control setting on to the internal compiler stack.
pop
Removes the float_control setting from the top of the internal compiler stack, and makes that the new float_control setting.
Remarks
The float_control pragma doesn't have the same behavior as the /fp compiler option. The float_control pragma only governs part of the floating-point behavior. It must be combined with fp_contract and fenv_access pragma directives to recreate the /fp compiler options. The following table shows the equivalent pragma settings for each compiler option:
| Option | float_control(precise, *) |
float_control(except, *) |
fp_contract(*) |
fenv_access(*) |
|---|---|---|---|---|
/fp:strict |
on |
on |
off |
on |
/fp:precise |
on |
off |
off* |
off |
/fp:fast |
off |
off |
on |
off |
* In versions of Visual Studio before Visual Studio 2022, the /fp:precise behavior defaulted to fp_contract(on).
| Option | float_control(precise, *) |
float_control(except, *) |
fp_contract(*) |
fenv_access(*) |
|---|---|---|---|---|
/fp:strict |
on |
on |
off |
on |
/fp:precise |
on |
off |
off |
off |
/fp:fast |
off |
off |
on |
off |
In other words, you may need to use several pragma directives in combination to emulate the /fp:fast, /fp:precise, and /fp:strict command-line options.
There are restrictions on the ways you can use the float_control and fenv_access floating-point pragma directives in combination:
You can only use
float_controlto setexcepttoonif precise semantics are enabled. Precise semantics can be enabled either by thefloat_controlpragma, or by using the/fp:preciseor/fp:strictcompiler options.You can't use
float_controlto turn offprecisewhen exception semantics are enabled, whether by afloat_controlpragma or a/fp:exceptcompiler option.You can't enable
fenv_accessunless precise semantics are enabled, whether by afloat_controlpragma or a compiler option.You can't use
float_controlto turn offprecisewhenfenv_accessis enabled.
These restrictions mean the order of some floating-point pragma directives is significant. To go from a fast model to a strict model using pragma directives, use the following code:
#pragma float_control(precise, on) // enable precise semantics
#pragma fenv_access(on) // enable environment sensitivity
#pragma float_control(except, on) // enable exception semantics
#pragma float_control(precise, on) // enable precise semantics
#pragma fenv_access(on) // enable environment sensitivity
#pragma float_control(except, on) // enable exception semantics
#pragma fp_contract(off) // disable contractions
To go from a strict model to a fast model by using the float_control pragma, use the following code:
#pragma float_control(except, off) // disable exception semantics
#pragma fenv_access(off) // disable environment sensitivity
#pragma float_control(precise, off) // disable precise semantics
#pragma fp_contract(on) // enable contractions
If no options are specified, float_control has no effect.
The float_control directive disables contractions when it turns on precise or except. Use of float_control to turn off precise or except restores the previous setting for contractions. You can use the fp_contract pragma directive to change the compiler behavior on contractions. float_control(push) and float_control(pop) push and pop the setting for contractions as part of the float_control setting on to the internal compiler stack. This behavior is new in Visual Studio 2022. The float_control directive in previous compiler versions did not affect contraction settings.
Example
The following sample shows how to catch an overflow floating-point exception by using pragma float_control.
// pragma_directive_float_control.cpp
// compile with: /EHa
#include <stdio.h>
#include <float.h>
double func( ) {
return 1.1e75;
}
#pragma float_control (except, on)
int main( ) {
float u[1];
unsigned int currentControl;
errno_t err;
err = _controlfp_s(¤tControl, ~_EM_OVERFLOW, _MCW_EM);
if (err != 0)
printf_s("_controlfp_s failed!\n");
try {
u[0] = func();
printf_s ("Fail");
return(1);
}
catch (...) {
printf_s ("Pass");
return(0);
}
}
Pass
See also
Pragma directives and the __pragma and _Pragma keywords
fenv_access pragma
fp_contract pragma