# # # Nim's Runtime Library # (c) Copyright 2015 Andreas Rumpf # # See the file "copying.txt", included in this # distribution, for details about the copyright. # ## Floating-point environment. Handling of floating-point rounding and ## exceptions (overflow, division by zero, etc.). {.deadCodeElim:on.} when defined(Posix) and not defined(haiku): {.passl: "-lm".} var FE_DIVBYZERO* {.importc, header: "".}: cint ## division by zero FE_INEXACT* {.importc, header: "".}: cint ## inexact result FE_INVALID* {.importc, header: "".}: cint ## invalid operation FE_OVERFLOW* {.importc, header: "".}: cint ## result not representable due to overflow FE_UNDERFLOW* {.importc, header: "".}: cint ## result not representable due to underflow FE_ALL_EXCEPT* {.importc, header: "".}: cint ## bitwise OR of all supported exceptions FE_DOWNWARD* {.importc, header: "".}: cint ## round toward -Inf FE_TONEAREST* {.importc, header: "".}: cint ## round to nearest FE_TOWARDZERO* {.importc, header: "".}: cint ## round toward 0 FE_UPWARD* {.importc, header: "".}: cint ## round toward +Inf FE_DFL_ENV* {.importc, header: "".}: cint ## macro of type pointer to fenv_t to be used as the argument ## to functions taking an argument of type fenv_t; in this ## case the default environment will be used type Tfenv* {.importc: "fenv_t", header: "", final, pure.} = object ## Represents the entire floating-point environment. The ## floating-point environment refers collectively to any ## floating-point status flags and control modes supported ## by the implementation. Tfexcept* {.importc: "fexcept_t", header: "", final, pure.} = object ## Represents the floating-point status flags collectively, ## including any status the implementation associates with the ## flags. A floating-point status flag is a system variable ## whose value is set (but never cleared) when a floating-point ## exception is raised, which occurs as a side effect of ## exceptional floating-point arithmetic to provide auxiliary ## information. A floating-point control mode is a system variable ## whose value may be set by the user to affect the subsequent ## behavior of floating-point arithmetic. proc feclearexcept*(excepts: cint): cint {.importc, header: "".} ## Clear the supported exceptions represented by `excepts`. proc fegetexceptflag*(flagp: ptr Tfexcept, excepts: cint): cint {. importc, header: "".} ## Store implementation-defined representation of the exception flags ## indicated by `excepts` in the object pointed to by `flagp`. proc feraiseexcept*(excepts: cint): cint {.importc, header: "".} ## Raise the supported exceptions represented by `excepts`. proc fesetexceptflag*(flagp: ptr Tfexcept, excepts: cint): cint {. importc, header: "".} ## Set complete status for exceptions indicated by `excepts` according to ## the representation in the object pointed to by `flagp`. proc fetestexcept*(excepts: cint): cint {.importc, header: "".} ## Determine which of subset of the exceptions specified by `excepts` are ## currently set. proc fegetround*(): cint {.importc, header: "".} ## Get current rounding direction. proc fesetround*(roundingDirection: cint): cint {.importc, header: "".} ## Establish the rounding direction represented by `roundingDirection`. proc fegetenv*(envp: ptr Tfenv): cint {.importc, header: "".} ## Store the current floating-point environment in the object pointed ## to by `envp`. proc feholdexcept*(envp: ptr Tfenv): cint {.importc, header: "".} ## Save the current environment in the object pointed to by `envp`, clear ## exception flags and install a non-stop mode (if available) for all ## exceptions. proc fesetenv*(a1: ptr Tfenv): cint {.importc, header: "".} ## Establish the floating-point environment represented by the object ## pointed to by `envp`. proc feupdateenv*(envp: ptr Tfenv): cint {.importc, header: "".} ## Save current exceptions in temporary storage, install environment ## represented by object pointed to by `envp` and raise exceptions ## according to saved exceptions.