windows-nt/Source/XPSP1/NT/base/crts/fpw32/tran/i386/ieee.c

/***
*ieee.c - ieee control and status routines
*
*   Copyright (c) 1985-2001, Microsoft Corporation. All rights reserved.
*
*Purpose:
*   IEEE control and status routines.
*
*Revision History:
*
*   04-01-02  GDP   Rewritten to use abstract control and status words
*
*/

#include <trans.h>
#include <float.h>

static unsigned int _abstract_sw(unsigned short sw);
static unsigned int _abstract_cw(unsigned short cw);
static unsigned short _hw_cw(unsigned int abstr);


/***
* _statusfp() -
*
*Purpose:
*	return abstract fp status word
*
*Entry:
*
*Exit:
*
*Exceptions:
*
*******************************************************************************/

unsigned int _statusfp()
{
    short	status;

    _asm {
	fstsw	status
    }
    return _abstract_sw(status);
}


/***
*_clearfp() -
*
*Purpose:
*	return abstract	status word and clear status
*
*Entry:
*
*Exit:
*
*Exceptions:
*
*******************************************************************************/

unsigned int _clearfp()
{
    short	status;
    
    _asm {
	fnstsw	status
	fnclex
    }

    return _abstract_sw(status);
}


/***	_controlfp
*() -
*
*Purpose:
*	return and set abstract user fp control word
*
*Entry:
*
*Exit:
*
*Exceptions:
*
*******************************************************************************/

unsigned int _controlfp(unsigned int newctrl, unsigned int mask)
{
    short	oldCw;
    short	newCw;
    unsigned int oldabs;
    unsigned int newabs;

    _asm {
	fstcw	oldCw
    }

    oldabs = _abstract_cw(oldCw);

    newabs = (newctrl & mask) | (oldabs & ~mask);

    newCw = _hw_cw(newabs);
    
    _asm {
	fldcw	newCw
    }
    return newabs;
}					/* _controlfp() */


/***
* _abstract_cw() - abstract control word
*
*Purpose:
*   produce a fp control word in abstracted (machine independent) form
*
*Entry:
*   cw:     machine control word
*
*Exit:
*
*Exceptions:
*
*******************************************************************************/

unsigned int _abstract_cw(unsigned short cw)
{
    unsigned int abstr = 0;


    //
    // Set exception mask bits
    //

    if (cw & IEM_INVALID)
	abstr |= _EM_INVALID;
    if (cw & IEM_ZERODIVIDE)
	abstr |= _EM_ZERODIVIDE;
    if (cw & IEM_OVERFLOW)
	abstr |= _EM_OVERFLOW;
    if (cw & IEM_UNDERFLOW)
	abstr |= _EM_UNDERFLOW;
    if (cw & IEM_INEXACT)
	abstr |= _EM_INEXACT;

    //
    // Set rounding mode
    //

    switch (cw & IMCW_RC) {
    case IRC_NEAR:
	abstr |= _RC_NEAR;
	break;
    case IRC_UP:
	abstr |= _RC_UP;
	break;
    case IRC_DOWN:
	abstr |= _RC_DOWN;
	break;
    case IRC_CHOP:
	abstr |= _RC_CHOP;
	break;
    }

    //
    // Set Precision mode
    //

    switch (cw & IMCW_PC) {
    case IPC_64:
	abstr |= _PC_64;
	break;
    case IPC_53:
	abstr |= _PC_53;
	break;
    case IPC_24:
	abstr |= _PC_24;
	break;
    }

    return abstr;
}


/***
* _hw_cw() -  h/w control word
*
*Purpose:
*   produce a machine dependent fp control word
*
*
*Entry:
*   abstr:	abstract control word
*
*Exit:
*
*Exceptions:
*
*******************************************************************************/

unsigned short _hw_cw(unsigned int abstr)
{
    //
    // Set standard infinity and denormal control bits
    //

    unsigned short cw = 0x1002;

    //
    // Set exception mask bits
    //

    if (abstr & _EM_INVALID)
	cw |= IEM_INVALID;
    if (abstr & _EM_ZERODIVIDE)
	cw |= IEM_ZERODIVIDE;
    if (abstr & _EM_OVERFLOW)
	cw |= IEM_OVERFLOW;
    if (abstr & _EM_UNDERFLOW)
	cw |= IEM_UNDERFLOW;
    if (abstr & _EM_INEXACT)
	cw |= IEM_INEXACT;

    //
    // Set rounding mode
    //

    switch (abstr & _MCW_RC) {
    case _RC_NEAR:
	cw |= IRC_NEAR;
	break;
    case _RC_UP:
	cw |= IRC_UP;
	break;
    case _RC_DOWN:
	cw |= IRC_DOWN;
	break;
    case _RC_CHOP:
	cw |= IRC_CHOP;
	break;
    }

    //
    // Set Precision mode
    //

    switch (abstr & _MCW_PC) {
    case _PC_64:
	cw |= IPC_64;
	break;
    case _PC_53:
	cw |= IPC_53;
	break;
    case _PC_24:
	cw |= IPC_24;
	break;
    }


    return cw;
}


/***
* _abstract_sw() - abstract fp status word
*
*Purpose:
*   produce an abstract (machine independent) fp status word
*
*
*Entry:
*   sw:     machine status word
*
*Exit:
*
*Exceptions:
*
*******************************************************************************/

unsigned int _abstract_sw(unsigned short sw)
{
    unsigned int abstr = 0;


    if (sw & ISW_INVALID)
	abstr |= _EM_INVALID;
    if (sw & ISW_ZERODIVIDE)
	abstr |= _EM_ZERODIVIDE;
    if (sw & ISW_OVERFLOW)
	abstr |= _EM_OVERFLOW;
    if (sw & ISW_UNDERFLOW)
	abstr |= _EM_UNDERFLOW;
    if (sw & ISW_INEXACT)
	abstr |= _EM_INEXACT;

    return abstr;
}
Add source files 2020-09-26 03:20:57 -05:00			`/***`
			`*ieee.c - ieee control and status routines`
			`*`
			`* Copyright (c) 1985-2001, Microsoft Corporation. All rights reserved.`
			`*`
			`*Purpose:`
			`* IEEE control and status routines.`
			`*`
			`*Revision History:`
			`*`
			`* 04-01-02 GDP Rewritten to use abstract control and status words`
			`*`
			`*/`

			`#include <trans.h>`
			`#include <float.h>`

			`static unsigned int _abstract_sw(unsigned short sw);`
			`static unsigned int _abstract_cw(unsigned short cw);`
			`static unsigned short _hw_cw(unsigned int abstr);`



			`/***`
			`* _statusfp() -`
			`*`
			`*Purpose:`
			`* return abstract fp status word`
			`*`
			`*Entry:`
			`*`
			`*Exit:`
			`*`
			`*Exceptions:`
			`*`
			`*******************************************************************************/`

			`unsigned int _statusfp()`
			`{`
			`short status;`

			`_asm {`
			`fstsw status`
			`}`
			`return _abstract_sw(status);`
			`}`


			`/***`
			`*_clearfp() -`
			`*`
			`*Purpose:`
			`* return abstract status word and clear status`
			`*`
			`*Entry:`
			`*`
			`*Exit:`
			`*`
			`*Exceptions:`
			`*`
			`*******************************************************************************/`

			`unsigned int _clearfp()`
			`{`
			`short status;`

			`_asm {`
			`fnstsw status`
			`fnclex`
			`}`

			`return _abstract_sw(status);`
			`}`



			`/*** _controlfp`
			`*() -`
			`*`
			`*Purpose:`
			`* return and set abstract user fp control word`
			`*`
			`*Entry:`
			`*`
			`*Exit:`
			`*`
			`*Exceptions:`
			`*`
			`*******************************************************************************/`

			`unsigned int _controlfp(unsigned int newctrl, unsigned int mask)`
			`{`
			`short oldCw;`
			`short newCw;`
			`unsigned int oldabs;`
			`unsigned int newabs;`

			`_asm {`
			`fstcw oldCw`
			`}`

			`oldabs = _abstract_cw(oldCw);`

			`newabs = (newctrl & mask) \| (oldabs & ~mask);`

			`newCw = _hw_cw(newabs);`

			`_asm {`
			`fldcw newCw`
			`}`
			`return newabs;`
			`} /* _controlfp() */`


			`/***`
			`* _abstract_cw() - abstract control word`
			`*`
			`*Purpose:`
			`* produce a fp control word in abstracted (machine independent) form`
			`*`
			`*Entry:`
			`* cw: machine control word`
			`*`
			`*Exit:`
			`*`
			`*Exceptions:`
			`*`
			`*******************************************************************************/`

			`unsigned int _abstract_cw(unsigned short cw)`
			`{`
			`unsigned int abstr = 0;`


			`//`
			`// Set exception mask bits`
			`//`

			`if (cw & IEM_INVALID)`
			`abstr \|= _EM_INVALID;`
			`if (cw & IEM_ZERODIVIDE)`
			`abstr \|= _EM_ZERODIVIDE;`
			`if (cw & IEM_OVERFLOW)`
			`abstr \|= _EM_OVERFLOW;`
			`if (cw & IEM_UNDERFLOW)`
			`abstr \|= _EM_UNDERFLOW;`
			`if (cw & IEM_INEXACT)`
			`abstr \|= _EM_INEXACT;`

			`//`
			`// Set rounding mode`
			`//`

			`switch (cw & IMCW_RC) {`
			`case IRC_NEAR:`
			`abstr \|= _RC_NEAR;`
			`break;`
			`case IRC_UP:`
			`abstr \|= _RC_UP;`
			`break;`
			`case IRC_DOWN:`
			`abstr \|= _RC_DOWN;`
			`break;`
			`case IRC_CHOP:`
			`abstr \|= _RC_CHOP;`
			`break;`
			`}`

			`//`
			`// Set Precision mode`
			`//`

			`switch (cw & IMCW_PC) {`
			`case IPC_64:`
			`abstr \|= _PC_64;`
			`break;`
			`case IPC_53:`
			`abstr \|= _PC_53;`
			`break;`
			`case IPC_24:`
			`abstr \|= _PC_24;`
			`break;`
			`}`

			`return abstr;`
			`}`


			`/***`
			`* _hw_cw() - h/w control word`
			`*`
			`*Purpose:`
			`* produce a machine dependent fp control word`
			`*`
			`*`
			`*Entry:`
			`* abstr: abstract control word`
			`*`
			`*Exit:`
			`*`
			`*Exceptions:`
			`*`
			`*******************************************************************************/`

			`unsigned short _hw_cw(unsigned int abstr)`
			`{`
			`//`
			`// Set standard infinity and denormal control bits`
			`//`

			`unsigned short cw = 0x1002;`

			`//`
			`// Set exception mask bits`
			`//`

			`if (abstr & _EM_INVALID)`
			`cw \|= IEM_INVALID;`
			`if (abstr & _EM_ZERODIVIDE)`
			`cw \|= IEM_ZERODIVIDE;`
			`if (abstr & _EM_OVERFLOW)`
			`cw \|= IEM_OVERFLOW;`
			`if (abstr & _EM_UNDERFLOW)`
			`cw \|= IEM_UNDERFLOW;`
			`if (abstr & _EM_INEXACT)`
			`cw \|= IEM_INEXACT;`

			`//`
			`// Set rounding mode`
			`//`

			`switch (abstr & _MCW_RC) {`
			`case _RC_NEAR:`
			`cw \|= IRC_NEAR;`
			`break;`
			`case _RC_UP:`
			`cw \|= IRC_UP;`
			`break;`
			`case _RC_DOWN:`
			`cw \|= IRC_DOWN;`
			`break;`
			`case _RC_CHOP:`
			`cw \|= IRC_CHOP;`
			`break;`
			`}`

			`//`
			`// Set Precision mode`
			`//`

			`switch (abstr & _MCW_PC) {`
			`case _PC_64:`
			`cw \|= IPC_64;`
			`break;`
			`case _PC_53:`
			`cw \|= IPC_53;`
			`break;`
			`case _PC_24:`
			`cw \|= IPC_24;`
			`break;`
			`}`


			`return cw;`
			`}`



			`/***`
			`* _abstract_sw() - abstract fp status word`
			`*`
			`*Purpose:`
			`* produce an abstract (machine independent) fp status word`
			`*`
			`*`
			`*Entry:`
			`* sw: machine status word`
			`*`
			`*Exit:`
			`*`
			`*Exceptions:`
			`*`
			`*******************************************************************************/`

			`unsigned int _abstract_sw(unsigned short sw)`
			`{`
			`unsigned int abstr = 0;`


			`if (sw & ISW_INVALID)`
			`abstr \|= _EM_INVALID;`
			`if (sw & ISW_ZERODIVIDE)`
			`abstr \|= _EM_ZERODIVIDE;`
			`if (sw & ISW_OVERFLOW)`
			`abstr \|= _EM_OVERFLOW;`
			`if (sw & ISW_UNDERFLOW)`
			`abstr \|= _EM_UNDERFLOW;`
			`if (sw & ISW_INEXACT)`
			`abstr \|= _EM_INEXACT;`

			`return abstr;`
			`}`