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/*---------------------------------------------------------------------------+
 |  fpu_aux.c                                                                |
 |                                                                           |
 | Code to implement some of the FPU auxiliary instructions.                 |
 |                                                                           |
 | Copyright (C) 1992,1993,1994,1997                                         |
 |                  W. Metzenthen, 22 Parker St, Ormond, Vic 3163, Australia |
 |                  E-mail   billm@suburbia.net                              |
 |                                                                           |
 |                                                                           |
 +---------------------------------------------------------------------------*/

#include "fpu_system.h"
#include "exception.h"
#include "fpu_emu.h"
#include "status_w.h"
#include "control_w.h"

static void fnop(void)
{
}

static void fclex(void)
{
	partial_status &=
	    ~(SW_Backward | SW_Summary | SW_Stack_Fault | SW_Precision |
	      SW_Underflow | SW_Overflow | SW_Zero_Div | SW_Denorm_Op |
	      SW_Invalid);
	no_ip_update = 1;
}

/* Needs to be externally visible */
void fpstate_init_soft(struct swregs_state *soft)
{
	struct address *oaddr, *iaddr;
	memset(soft, 0, sizeof(*soft));
	soft->cwd = 0x037f;
	soft->swd = 0;
	soft->ftop = 0;	/* We don't keep top in the status word internally. */
	soft->twd = 0xffff;
	/* The behaviour is different from that detailed in
	   Section 15.1.6 of the Intel manual */
	oaddr = (struct address *)&soft->foo;
	oaddr->offset = 0;
	oaddr->selector = 0;
	iaddr = (struct address *)&soft->fip;
	iaddr->offset = 0;
	iaddr->selector = 0;
	iaddr->opcode = 0;
	soft->no_update = 1;
}

void finit(void)
{
	fpstate_init_soft(&current->thread.fpu.state.soft);
}

/*
 * These are nops on the i387..
 */
#define feni fnop
#define fdisi fnop
#define fsetpm fnop

static FUNC const finit_table[] = {
	feni, fdisi, fclex, finit,
	fsetpm, FPU_illegal, FPU_illegal, FPU_illegal
};

void finit_(void)
{
	(finit_table[FPU_rm]) ();
}

static void fstsw_ax(void)
{
	*(short *)&FPU_EAX = status_word();
	no_ip_update = 1;
}

static FUNC const fstsw_table[] = {
	fstsw_ax, FPU_illegal, FPU_illegal, FPU_illegal,
	FPU_illegal, FPU_illegal, FPU_illegal, FPU_illegal
};

void fstsw_(void)
{
	(fstsw_table[FPU_rm]) ();
}

static FUNC const fp_nop_table[] = {
	fnop, FPU_illegal, FPU_illegal, FPU_illegal,
	FPU_illegal, FPU_illegal, FPU_illegal, FPU_illegal
};

void fp_nop(void)
{
	(fp_nop_table[FPU_rm]) ();
}

void fld_i_(void)
{
	FPU_REG *st_new_ptr;
	int i;
	u_char tag;

	if (STACK_OVERFLOW) {
		FPU_stack_overflow();
		return;
	}

	/* fld st(i) */
	i = FPU_rm;
	if (NOT_EMPTY(i)) {
		reg_copy(&st(i), st_new_ptr);
		tag = FPU_gettagi(i);
		push();
		FPU_settag0(tag);
	} else {
		if (control_word & CW_Invalid) {
			/* The masked response */
			FPU_stack_underflow();
		} else
			EXCEPTION(EX_StackUnder);
	}

}

void fxch_i(void)
{
	/* fxch st(i) */
	FPU_REG t;
	int i = FPU_rm;
	FPU_REG *st0_ptr = &st(0), *sti_ptr = &st(i);
	long tag_word = fpu_tag_word;
	int regnr = top & 7, regnri = ((regnr + i) & 7);
	u_char st0_tag = (tag_word >> (regnr * 2)) & 3;
	u_char sti_tag = (tag_word >> (regnri * 2)) & 3;

	if (st0_tag == TAG_Empty) {
		if (sti_tag == TAG_Empty) {
			FPU_stack_underflow();
			FPU_stack_underflow_i(i);
			return;
		}
		if (control_word & CW_Invalid) {
			/* Masked response */
			FPU_copy_to_reg0(sti_ptr, sti_tag);
		}
		FPU_stack_underflow_i(i);
		return;
	}
	if (sti_tag == TAG_Empty) {
		if (control_word & CW_Invalid) {
			/* Masked response */
			FPU_copy_to_regi(st0_ptr, st0_tag, i);
		}
		FPU_stack_underflow();
		return;
	}
	clear_C1();

	reg_copy(st0_ptr, &t);
	reg_copy(sti_ptr, st0_ptr);
	reg_copy(&t, sti_ptr);

	tag_word &= ~(3 << (regnr * 2)) & ~(3 << (regnri * 2));
	tag_word |= (sti_tag << (regnr * 2)) | (st0_tag << (regnri * 2));
	fpu_tag_word = tag_word;
}

static void fcmovCC(void)
{
	/* fcmovCC st(i) */
	int i = FPU_rm;
	FPU_REG *st0_ptr = &st(0);
	FPU_REG *sti_ptr = &st(i);
	long tag_word = fpu_tag_word;
	int regnr = top & 7;
	int regnri = (top + i) & 7;
	u_char sti_tag = (tag_word >> (regnri * 2)) & 3;

	if (sti_tag == TAG_Empty) {
		FPU_stack_underflow();
		clear_C1();
		return;
	}
	reg_copy(sti_ptr, st0_ptr);
	tag_word &= ~(3 << (regnr * 2));
	tag_word |= (sti_tag << (regnr * 2));
	fpu_tag_word = tag_word;
}

void fcmovb(void)
{
	if (FPU_EFLAGS & X86_EFLAGS_CF)
		fcmovCC();
}

void fcmove(void)
{
	if (FPU_EFLAGS & X86_EFLAGS_ZF)
		fcmovCC();
}

void fcmovbe(void)
{
	if (FPU_EFLAGS & (X86_EFLAGS_CF|X86_EFLAGS_ZF))
		fcmovCC();
}

void fcmovu(void)
{
	if (FPU_EFLAGS & X86_EFLAGS_PF)
		fcmovCC();
}

void fcmovnb(void)
{
	if (!(FPU_EFLAGS & X86_EFLAGS_CF))
		fcmovCC();
}

void fcmovne(void)
{
	if (!(FPU_EFLAGS & X86_EFLAGS_ZF))
		fcmovCC();
}

void fcmovnbe(void)
{
	if (!(FPU_EFLAGS & (X86_EFLAGS_CF|X86_EFLAGS_ZF)))
		fcmovCC();
}

void fcmovnu(void)
{
	if (!(FPU_EFLAGS & X86_EFLAGS_PF))
		fcmovCC();
}

void ffree_(void)
{
	/* ffree st(i) */
	FPU_settagi(FPU_rm, TAG_Empty);
}

void ffreep(void)
{
	/* ffree st(i) + pop - unofficial code */
	FPU_settagi(FPU_rm, TAG_Empty);
	FPU_pop();
}

void fst_i_(void)
{
	/* fst st(i) */
	FPU_copy_to_regi(&st(0), FPU_gettag0(), FPU_rm);
}

void fstp_i(void)
{
	/* fstp st(i) */
	FPU_copy_to_regi(&st(0), FPU_gettag0(), FPU_rm);
	FPU_pop();
}