1 files changed, 422 insertions, 0 deletions
diff --git a/arch/m68k/fpsp040/srem_mod.S b/arch/m68k/fpsp040/srem_mod.S
new file mode 100644
index 000000000000..8c8d7f50cc68
--- /dev/null
+++ b/arch/m68k/fpsp040/srem_mod.S
@@ -0,0 +1,422 @@
+|
+|       srem_mod.sa 3.1 12/10/90
+|
+|      The entry point sMOD computes the floating point MOD of the
+|      input values X and Y. The entry point sREM computes the floating
+|      point (IEEE) REM of the input values X and Y.
+|
+|      INPUT
+|      -----
+|      Double-extended value Y is pointed to by address in register
+|      A0. Double-extended value X is located in -12(A0). The values
+|      of X and Y are both nonzero and finite; although either or both
+|      of them can be denormalized. The special cases of zeros, NaNs,
+|      and infinities are handled elsewhere.
+|
+|      OUTPUT
+|      ------
+|      FREM(X,Y) or FMOD(X,Y), depending on entry point.
+|
+|       ALGORITHM
+|       ---------
+|
+|       Step 1.  Save and strip signs of X and Y: signX := sign(X),
+|                signY := sign(Y), X := |X|, Y := |Y|,
+|                signQ := signX EOR signY. Record whether MOD or REM
+|                is requested.
+|
+|       Step 2.  Set L := expo(X)-expo(Y), k := 0, Q := 0.
+|                If (L < 0) then
+|                   R := X, go to Step 4.
+|                else
+|                   R := 2^(-L)X, j := L.
+|                endif
+|
+|       Step 3.  Perform MOD(X,Y)
+|            3.1 If R = Y, go to Step 9.
+|            3.2 If R > Y, then { R := R - Y, Q := Q + 1}
+|            3.3 If j = 0, go to Step 4.
+|            3.4 k := k + 1, j := j - 1, Q := 2Q, R := 2R. Go to
+|                Step 3.1.
+|
+|       Step 4.  At this point, R = X - QY = MOD(X,Y). Set
+|                Last_Subtract := false (used in Step 7 below). If
+|                MOD is requested, go to Step 6.
+|
+|       Step 5.  R = MOD(X,Y), but REM(X,Y) is requested.
+|            5.1 If R < Y/2, then R = MOD(X,Y) = REM(X,Y). Go to
+|                Step 6.
+|            5.2 If R > Y/2, then { set Last_Subtract := true,
+|                Q := Q + 1, Y := signY*Y }. Go to Step 6.
+|            5.3 This is the tricky case of R = Y/2. If Q is odd,
+|                then { Q := Q + 1, signX := -signX }.
+|
+|       Step 6.  R := signX*R.
+|
+|       Step 7.  If Last_Subtract = true, R := R - Y.
+|
+|       Step 8.  Return signQ, last 7 bits of Q, and R as required.
+|
+|       Step 9.  At this point, R = 2^(-j)*X - Q Y = Y. Thus,
+|                X = 2^(j)*(Q+1)Y. set Q := 2^(j)*(Q+1),
+|                R := 0. Return signQ, last 7 bits of Q, and R.
+|
+|
+|               Copyright (C) Motorola, Inc. 1990
+|                       All Rights Reserved
+|
+|       THIS IS UNPUBLISHED PROPRIETARY SOURCE CODE OF MOTOROLA
+|       The copyright notice above does not evidence any
+|       actual or intended publication of such source code.
+SREM_MOD:    |idnt    2,1 | Motorola 040 Floating Point Software Package
+        |section    8
+#include "fpsp.h"
+        .set    Mod_Flag,L_SCR3
+        .set    SignY,FP_SCR3+4
+        .set    SignX,FP_SCR3+8
+        .set    SignQ,FP_SCR3+12
+        .set    Sc_Flag,FP_SCR4
+        .set    Y,FP_SCR1
+        .set    Y_Hi,Y+4
+        .set    Y_Lo,Y+8
+        .set    R,FP_SCR2
+        .set    R_Hi,R+4
+        .set    R_Lo,R+8
+Scale:     .long        0x00010000,0x80000000,0x00000000,0x00000000
+        |xref   t_avoid_unsupp
+        .global        smod
+smod:
+   movel               #0,Mod_Flag(%a6)
+   bras                Mod_Rem
+        .global        srem
+srem:
+   movel               #1,Mod_Flag(%a6)
+Mod_Rem:
+|..Save sign of X and Y
+   moveml              %d2-%d7,-(%a7)     | ...save data registers
+   movew               (%a0),%d3
+   movew               %d3,SignY(%a6)
+   andil               #0x00007FFF,%d3   | ...Y := |Y|
+|
+   movel               4(%a0),%d4
+   movel               8(%a0),%d5        | ...(D3,D4,D5) is |Y|
+   tstl                %d3
+   bnes                Y_Normal
+   movel               #0x00003FFE,%d3  | ...$3FFD + 1
+   tstl                %d4
+   bnes                HiY_not0
+HiY_0:
+   movel               %d5,%d4
+   clrl                %d5
+   subil               #32,%d3
+   clrl                %d6
+   bfffo                %d4{#0:#32},%d6
+   lsll                %d6,%d4
+   subl                %d6,%d3           | ...(D3,D4,D5) is normalized
+|                                       ...with bias $7FFD
+   bras                Chk_X
+HiY_not0:
+   clrl                %d6
+   bfffo                %d4{#0:#32},%d6
+   subl                %d6,%d3
+   lsll                %d6,%d4
+   movel               %d5,%d7           | ...a copy of D5
+   lsll                %d6,%d5
+   negl                %d6
+   addil               #32,%d6
+   lsrl                %d6,%d7
+   orl                 %d7,%d4           | ...(D3,D4,D5) normalized
+|                                       ...with bias $7FFD
+   bras                Chk_X
+Y_Normal:
+   addil               #0x00003FFE,%d3   | ...(D3,D4,D5) normalized
+|                                       ...with bias $7FFD
+Chk_X:
+   movew               -12(%a0),%d0
+   movew               %d0,SignX(%a6)
+   movew               SignY(%a6),%d1
+   eorl                %d0,%d1
+   andil               #0x00008000,%d1
+   movew               %d1,SignQ(%a6)   | ...sign(Q) obtained
+   andil               #0x00007FFF,%d0
+   movel               -8(%a0),%d1
+   movel               -4(%a0),%d2       | ...(D0,D1,D2) is |X|
+   tstl                %d0
+   bnes                X_Normal
+   movel               #0x00003FFE,%d0
+   tstl                %d1
+   bnes                HiX_not0
+HiX_0:
+   movel               %d2,%d1
+   clrl                %d2
+   subil               #32,%d0
+   clrl                %d6
+   bfffo                %d1{#0:#32},%d6
+   lsll                %d6,%d1
+   subl                %d6,%d0           | ...(D0,D1,D2) is normalized
+|                                       ...with bias $7FFD
+   bras                Init
+HiX_not0:
+   clrl                %d6
+   bfffo                %d1{#0:#32},%d6
+   subl                %d6,%d0
+   lsll                %d6,%d1
+   movel               %d2,%d7           | ...a copy of D2
+   lsll                %d6,%d2
+   negl                %d6
+   addil               #32,%d6
+   lsrl                %d6,%d7
+   orl                 %d7,%d1           | ...(D0,D1,D2) normalized
+|                                       ...with bias $7FFD
+   bras                Init
+X_Normal:
+   addil               #0x00003FFE,%d0   | ...(D0,D1,D2) normalized
+|                                       ...with bias $7FFD
+Init:
+|
+   movel               %d3,L_SCR1(%a6)   | ...save biased expo(Y)
+   movel                %d0,L_SCR2(%a6) |save d0
+   subl                %d3,%d0           | ...L := expo(X)-expo(Y)
+|   Move.L               D0,L            ...D0 is j
+   clrl                %d6              | ...D6 := carry <- 0
+   clrl                %d3              | ...D3 is Q
+   moveal              #0,%a1           | ...A1 is k; j+k=L, Q=0
+|..(Carry,D1,D2) is R
+   tstl                %d0
+   bges                Mod_Loop
+|..expo(X) < expo(Y). Thus X = mod(X,Y)
+|
+   movel                L_SCR2(%a6),%d0 |restore d0
+   bra                Get_Mod
+|..At this point  R = 2^(-L)X; Q = 0; k = 0; and  k+j = L
+Mod_Loop:
+   tstl                %d6              | ...test carry bit
+   bgts                R_GT_Y
+|..At this point carry = 0, R = (D1,D2), Y = (D4,D5)
+   cmpl                %d4,%d1           | ...compare hi(R) and hi(Y)
+   bnes                R_NE_Y
+   cmpl                %d5,%d2           | ...compare lo(R) and lo(Y)
+   bnes                R_NE_Y
+|..At this point, R = Y
+   bra                Rem_is_0
+R_NE_Y:
+|..use the borrow of the previous compare
+   bcss                R_LT_Y          | ...borrow is set iff R < Y
+R_GT_Y:
+|..If Carry is set, then Y < (Carry,D1,D2) < 2Y. Otherwise, Carry = 0
+|..and Y < (D1,D2) < 2Y. Either way, perform R - Y
+   subl                %d5,%d2           | ...lo(R) - lo(Y)
+   subxl               %d4,%d1           | ...hi(R) - hi(Y)
+   clrl                %d6              | ...clear carry
+   addql               #1,%d3           | ...Q := Q + 1
+R_LT_Y:
+|..At this point, Carry=0, R < Y. R = 2^(k-L)X - QY; k+j = L; j >= 0.
+   tstl                %d0              | ...see if j = 0.
+   beqs                PostLoop
+   addl                %d3,%d3           | ...Q := 2Q
+   addl                %d2,%d2           | ...lo(R) = 2lo(R)
+   roxll               #1,%d1           | ...hi(R) = 2hi(R) + carry
+   scs                  %d6              | ...set Carry if 2(R) overflows
+   addql               #1,%a1           | ...k := k+1
+   subql               #1,%d0           | ...j := j - 1
+|..At this point, R=(Carry,D1,D2) = 2^(k-L)X - QY, j+k=L, j >= 0, R < 2Y.
+   bras                Mod_Loop
+PostLoop:
+|..k = L, j = 0, Carry = 0, R = (D1,D2) = X - QY, R < Y.
+|..normalize R.
+   movel               L_SCR1(%a6),%d0           | ...new biased expo of R
+   tstl                %d1
+   bnes                HiR_not0
+HiR_0:
+   movel               %d2,%d1
+   clrl                %d2
+   subil               #32,%d0
+   clrl                %d6
+   bfffo                %d1{#0:#32},%d6
+   lsll                %d6,%d1
+   subl                %d6,%d0           | ...(D0,D1,D2) is normalized
+|                                       ...with bias $7FFD
+   bras                Get_Mod
+HiR_not0:
+   clrl                %d6
+   bfffo                %d1{#0:#32},%d6
+   bmis                Get_Mod         | ...already normalized
+   subl                %d6,%d0
+   lsll                %d6,%d1
+   movel               %d2,%d7           | ...a copy of D2
+   lsll                %d6,%d2
+   negl                %d6
+   addil               #32,%d6
+   lsrl                %d6,%d7
+   orl                 %d7,%d1           | ...(D0,D1,D2) normalized
+|
+Get_Mod:
+   cmpil                #0x000041FE,%d0
+   bges         No_Scale
+Do_Scale:
+   movew                %d0,R(%a6)
+   clrw         R+2(%a6)
+   movel                %d1,R_Hi(%a6)
+   movel                %d2,R_Lo(%a6)
+   movel                L_SCR1(%a6),%d6
+   movew                %d6,Y(%a6)
+   clrw         Y+2(%a6)
+   movel                %d4,Y_Hi(%a6)
+   movel                %d5,Y_Lo(%a6)
+   fmovex               R(%a6),%fp0             | ...no exception
+   movel                #1,Sc_Flag(%a6)
+   bras         ModOrRem
+No_Scale:
+   movel                %d1,R_Hi(%a6)
+   movel                %d2,R_Lo(%a6)
+   subil                #0x3FFE,%d0
+   movew                %d0,R(%a6)
+   clrw         R+2(%a6)
+   movel                L_SCR1(%a6),%d6
+   subil                #0x3FFE,%d6
+   movel                %d6,L_SCR1(%a6)
+   fmovex               R(%a6),%fp0
+   movew                %d6,Y(%a6)
+   movel                %d4,Y_Hi(%a6)
+   movel                %d5,Y_Lo(%a6)
+   movel                #0,Sc_Flag(%a6)
+|
+ModOrRem:
+   movel               Mod_Flag(%a6),%d6
+   beqs                Fix_Sign
+   movel               L_SCR1(%a6),%d6           | ...new biased expo(Y)
+   subql               #1,%d6           | ...biased expo(Y/2)
+   cmpl                %d6,%d0
+   blts                Fix_Sign
+   bgts                Last_Sub
+   cmpl                %d4,%d1
+   bnes                Not_EQ
+   cmpl                %d5,%d2
+   bnes                Not_EQ
+   bra                Tie_Case
+Not_EQ:
+   bcss                Fix_Sign
+Last_Sub:
+|
+   fsubx                Y(%a6),%fp0             | ...no exceptions
+   addql               #1,%d3           | ...Q := Q + 1
+|
+Fix_Sign:
+|..Get sign of X
+   movew               SignX(%a6),%d6
+   bges         Get_Q
+   fnegx                %fp0
+|..Get Q
+|
+Get_Q:
+   clrl         %d6
+   movew               SignQ(%a6),%d6        | ...D6 is sign(Q)
+   movel               #8,%d7
+   lsrl                %d7,%d6
+   andil               #0x0000007F,%d3   | ...7 bits of Q
+   orl                 %d6,%d3           | ...sign and bits of Q
+   swap                 %d3
+   fmovel              %fpsr,%d6
+   andil               #0xFF00FFFF,%d6
+   orl                 %d3,%d6
+   fmovel              %d6,%fpsr         | ...put Q in fpsr
+|
+Restore:
+   moveml              (%a7)+,%d2-%d7
+   fmovel              USER_FPCR(%a6),%fpcr
+   movel               Sc_Flag(%a6),%d0
+   beqs                Finish
+   fmulx                Scale(%pc),%fp0 | ...may cause underflow
+   bra                  t_avoid_unsupp  |check for denorm as a
+|                                       ;result of the scaling
+Finish:
+        fmovex          %fp0,%fp0               |capture exceptions & round
+        rts
+Rem_is_0:
+|..R = 2^(-j)X - Q Y = Y, thus R = 0 and quotient = 2^j (Q+1)
+   addql               #1,%d3
+   cmpil               #8,%d0           | ...D0 is j
+   bges                Q_Big
+   lsll                %d0,%d3
+   bras                Set_R_0
+Q_Big:
+   clrl                %d3
+Set_R_0:
+   fmoves               #0x00000000,%fp0
+   movel                #0,Sc_Flag(%a6)
+   bra                Fix_Sign
+Tie_Case:
+|..Check parity of Q
+   movel               %d3,%d6
+   andil               #0x00000001,%d6
+   tstl                %d6
+   beq                Fix_Sign  | ...Q is even
+|..Q is odd, Q := Q + 1, signX := -signX
+   addql               #1,%d3
+   movew               SignX(%a6),%d6
+   eoril               #0x00008000,%d6
+   movew               %d6,SignX(%a6)
+   bra                Fix_Sign
+   |end

diff --git a/arch/m68k/fpsp040/srem_mod.S b/arch/m68k/fpsp040/srem_mod.S new file mode 100644 index 000000000000..8c8d7f50cc68 --- /dev/null +++ b/arch/m68k/fpsp040/srem_mod.S
@@ -0,0 +1,422 @@
	1	\|
	2	\| srem_mod.sa 3.1 12/10/90
	3	\|
	4	\| The entry point sMOD computes the floating point MOD of the
	5	\| input values X and Y. The entry point sREM computes the floating
	6	\| point (IEEE) REM of the input values X and Y.
	7	\|
	8	\| INPUT
	9	\| -----
	10	\| Double-extended value Y is pointed to by address in register
	11	\| A0. Double-extended value X is located in -12(A0). The values
	12	\| of X and Y are both nonzero and finite; although either or both
	13	\| of them can be denormalized. The special cases of zeros, NaNs,
	14	\| and infinities are handled elsewhere.
	15	\|
	16	\| OUTPUT
	17	\| ------
	18	\| FREM(X,Y) or FMOD(X,Y), depending on entry point.
	19	\|
	20	\| ALGORITHM
	21	\| ---------
	22	\|
	23	\| Step 1. Save and strip signs of X and Y: signX := sign(X),
	24	\| signY := sign(Y), X := \|X\|, Y := \|Y\|,
	25	\| signQ := signX EOR signY. Record whether MOD or REM
	26	\| is requested.
	27	\|
	28	\| Step 2. Set L := expo(X)-expo(Y), k := 0, Q := 0.
	29	\| If (L < 0) then
	30	\| R := X, go to Step 4.
	31	\| else
	32	\| R := 2^(-L)X, j := L.
	33	\| endif
	34	\|
	35	\| Step 3. Perform MOD(X,Y)
	36	\| 3.1 If R = Y, go to Step 9.
	37	\| 3.2 If R > Y, then { R := R - Y, Q := Q + 1}
	38	\| 3.3 If j = 0, go to Step 4.
	39	\| 3.4 k := k + 1, j := j - 1, Q := 2Q, R := 2R. Go to
	40	\| Step 3.1.
	41	\|
	42	\| Step 4. At this point, R = X - QY = MOD(X,Y). Set
	43	\| Last_Subtract := false (used in Step 7 below). If
	44	\| MOD is requested, go to Step 6.
	45	\|
	46	\| Step 5. R = MOD(X,Y), but REM(X,Y) is requested.
	47	\| 5.1 If R < Y/2, then R = MOD(X,Y) = REM(X,Y). Go to
	48	\| Step 6.
	49	\| 5.2 If R > Y/2, then { set Last_Subtract := true,
	50	\| Q := Q + 1, Y := signY*Y }. Go to Step 6.
	51	\| 5.3 This is the tricky case of R = Y/2. If Q is odd,
	52	\| then { Q := Q + 1, signX := -signX }.
	53	\|
	54	\| Step 6. R := signX*R.
	55	\|
	56	\| Step 7. If Last_Subtract = true, R := R - Y.
	57	\|
	58	\| Step 8. Return signQ, last 7 bits of Q, and R as required.
	59	\|
	60	\| Step 9. At this point, R = 2^(-j)*X - Q Y = Y. Thus,
	61	\| X = 2^(j)(Q+1)Y. set Q := 2^(j)(Q+1),
	62	\| R := 0. Return signQ, last 7 bits of Q, and R.
	63	\|
	64	\|
	65
	66	\| Copyright (C) Motorola, Inc. 1990
	67	\| All Rights Reserved
	68	\|
	69	\| THIS IS UNPUBLISHED PROPRIETARY SOURCE CODE OF MOTOROLA
	70	\| The copyright notice above does not evidence any
	71	\| actual or intended publication of such source code.
	72
	73	SREM_MOD: \|idnt 2,1 \| Motorola 040 Floating Point Software Package
	74
	75	\|section 8
	76
	77	#include "fpsp.h"
	78
	79	.set Mod_Flag,L_SCR3
	80	.set SignY,FP_SCR3+4
	81	.set SignX,FP_SCR3+8
	82	.set SignQ,FP_SCR3+12
	83	.set Sc_Flag,FP_SCR4
	84
	85	.set Y,FP_SCR1
	86	.set Y_Hi,Y+4
	87	.set Y_Lo,Y+8
	88
	89	.set R,FP_SCR2
	90	.set R_Hi,R+4
	91	.set R_Lo,R+8
	92
	93
	94	Scale: .long 0x00010000,0x80000000,0x00000000,0x00000000
	95
	96	\|xref t_avoid_unsupp
	97
	98	.global smod
	99	smod:
	100
	101	movel #0,Mod_Flag(%a6)
	102	bras Mod_Rem
	103
	104	.global srem
	105	srem:
	106
	107	movel #1,Mod_Flag(%a6)
	108
	109	Mod_Rem:
	110	\|..Save sign of X and Y
	111	moveml %d2-%d7,-(%a7) \| ...save data registers
	112	movew (%a0),%d3
	113	movew %d3,SignY(%a6)
	114	andil #0x00007FFF,%d3 \| ...Y := \|Y\|
	115
	116	\|
	117	movel 4(%a0),%d4
	118	movel 8(%a0),%d5 \| ...(D3,D4,D5) is \|Y\|
	119
	120	tstl %d3
	121	bnes Y_Normal
	122
	123	movel #0x00003FFE,%d3 \| ...$3FFD + 1
	124	tstl %d4
	125	bnes HiY_not0
	126
	127	HiY_0:
	128	movel %d5,%d4
	129	clrl %d5
	130	subil #32,%d3
	131	clrl %d6
	132	bfffo %d4{#0:#32},%d6
	133	lsll %d6,%d4
	134	subl %d6,%d3 \| ...(D3,D4,D5) is normalized
	135	\| ...with bias $7FFD
	136	bras Chk_X
	137
	138	HiY_not0:
	139	clrl %d6
	140	bfffo %d4{#0:#32},%d6
	141	subl %d6,%d3
	142	lsll %d6,%d4
	143	movel %d5,%d7 \| ...a copy of D5
	144	lsll %d6,%d5
	145	negl %d6
	146	addil #32,%d6
	147	lsrl %d6,%d7
	148	orl %d7,%d4 \| ...(D3,D4,D5) normalized
	149	\| ...with bias $7FFD
	150	bras Chk_X
	151
	152	Y_Normal:
	153	addil #0x00003FFE,%d3 \| ...(D3,D4,D5) normalized
	154	\| ...with bias $7FFD
	155
	156	Chk_X:
	157	movew -12(%a0),%d0
	158	movew %d0,SignX(%a6)
	159	movew SignY(%a6),%d1
	160	eorl %d0,%d1
	161	andil #0x00008000,%d1
	162	movew %d1,SignQ(%a6) \| ...sign(Q) obtained
	163	andil #0x00007FFF,%d0
	164	movel -8(%a0),%d1
	165	movel -4(%a0),%d2 \| ...(D0,D1,D2) is \|X\|
	166	tstl %d0
	167	bnes X_Normal
	168	movel #0x00003FFE,%d0
	169	tstl %d1
	170	bnes HiX_not0
	171
	172	HiX_0:
	173	movel %d2,%d1
	174	clrl %d2
	175	subil #32,%d0
	176	clrl %d6
	177	bfffo %d1{#0:#32},%d6
	178	lsll %d6,%d1
	179	subl %d6,%d0 \| ...(D0,D1,D2) is normalized
	180	\| ...with bias $7FFD
	181	bras Init
	182
	183	HiX_not0:
	184	clrl %d6
	185	bfffo %d1{#0:#32},%d6
	186	subl %d6,%d0
	187	lsll %d6,%d1
	188	movel %d2,%d7 \| ...a copy of D2
	189	lsll %d6,%d2
	190	negl %d6
	191	addil #32,%d6
	192	lsrl %d6,%d7
	193	orl %d7,%d1 \| ...(D0,D1,D2) normalized
	194	\| ...with bias $7FFD
	195	bras Init
	196
	197	X_Normal:
	198	addil #0x00003FFE,%d0 \| ...(D0,D1,D2) normalized
	199	\| ...with bias $7FFD
	200
	201	Init:
	202	\|
	203	movel %d3,L_SCR1(%a6) \| ...save biased expo(Y)
	204	movel %d0,L_SCR2(%a6) \|save d0
	205	subl %d3,%d0 \| ...L := expo(X)-expo(Y)
	206	\| Move.L D0,L ...D0 is j
	207	clrl %d6 \| ...D6 := carry <- 0
	208	clrl %d3 \| ...D3 is Q
	209	moveal #0,%a1 \| ...A1 is k; j+k=L, Q=0
	210
	211	\|..(Carry,D1,D2) is R
	212	tstl %d0
	213	bges Mod_Loop
	214
	215	\|..expo(X) < expo(Y). Thus X = mod(X,Y)
	216	\|
	217	movel L_SCR2(%a6),%d0 \|restore d0
	218	bra Get_Mod
	219
	220	\|..At this point R = 2^(-L)X; Q = 0; k = 0; and k+j = L
	221
	222
	223	Mod_Loop:
	224	tstl %d6 \| ...test carry bit
	225	bgts R_GT_Y
	226
	227	\|..At this point carry = 0, R = (D1,D2), Y = (D4,D5)
	228	cmpl %d4,%d1 \| ...compare hi(R) and hi(Y)
	229	bnes R_NE_Y
	230	cmpl %d5,%d2 \| ...compare lo(R) and lo(Y)
	231	bnes R_NE_Y
	232
	233	\|..At this point, R = Y
	234	bra Rem_is_0
	235
	236	R_NE_Y:
	237	\|..use the borrow of the previous compare
	238	bcss R_LT_Y \| ...borrow is set iff R < Y
	239
	240	R_GT_Y:
	241	\|..If Carry is set, then Y < (Carry,D1,D2) < 2Y. Otherwise, Carry = 0
	242	\|..and Y < (D1,D2) < 2Y. Either way, perform R - Y
	243	subl %d5,%d2 \| ...lo(R) - lo(Y)
	244	subxl %d4,%d1 \| ...hi(R) - hi(Y)
	245	clrl %d6 \| ...clear carry
	246	addql #1,%d3 \| ...Q := Q + 1
	247
	248	R_LT_Y:
	249	\|..At this point, Carry=0, R < Y. R = 2^(k-L)X - QY; k+j = L; j >= 0.
	250	tstl %d0 \| ...see if j = 0.
	251	beqs PostLoop
	252
	253	addl %d3,%d3 \| ...Q := 2Q
	254	addl %d2,%d2 \| ...lo(R) = 2lo(R)
	255	roxll #1,%d1 \| ...hi(R) = 2hi(R) + carry
	256	scs %d6 \| ...set Carry if 2(R) overflows
	257	addql #1,%a1 \| ...k := k+1
	258	subql #1,%d0 \| ...j := j - 1
	259	\|..At this point, R=(Carry,D1,D2) = 2^(k-L)X - QY, j+k=L, j >= 0, R < 2Y.
	260
	261	bras Mod_Loop
	262
	263	PostLoop:
	264	\|..k = L, j = 0, Carry = 0, R = (D1,D2) = X - QY, R < Y.
	265
	266	\|..normalize R.
	267	movel L_SCR1(%a6),%d0 \| ...new biased expo of R
	268	tstl %d1
	269	bnes HiR_not0
	270
	271	HiR_0:
	272	movel %d2,%d1
	273	clrl %d2
	274	subil #32,%d0
	275	clrl %d6
	276	bfffo %d1{#0:#32},%d6
	277	lsll %d6,%d1
	278	subl %d6,%d0 \| ...(D0,D1,D2) is normalized
	279	\| ...with bias $7FFD
	280	bras Get_Mod
	281
	282	HiR_not0:
	283	clrl %d6
	284	bfffo %d1{#0:#32},%d6
	285	bmis Get_Mod \| ...already normalized
	286	subl %d6,%d0
	287	lsll %d6,%d1
	288	movel %d2,%d7 \| ...a copy of D2
	289	lsll %d6,%d2
	290	negl %d6
	291	addil #32,%d6
	292	lsrl %d6,%d7
	293	orl %d7,%d1 \| ...(D0,D1,D2) normalized
	294
	295	\|
	296	Get_Mod:
	297	cmpil #0x000041FE,%d0
	298	bges No_Scale
	299	Do_Scale:
	300	movew %d0,R(%a6)
	301	clrw R+2(%a6)
	302	movel %d1,R_Hi(%a6)
	303	movel %d2,R_Lo(%a6)
	304	movel L_SCR1(%a6),%d6
	305	movew %d6,Y(%a6)
	306	clrw Y+2(%a6)
	307	movel %d4,Y_Hi(%a6)
	308	movel %d5,Y_Lo(%a6)
	309	fmovex R(%a6),%fp0 \| ...no exception
	310	movel #1,Sc_Flag(%a6)
	311	bras ModOrRem
	312	No_Scale:
	313	movel %d1,R_Hi(%a6)
	314	movel %d2,R_Lo(%a6)
	315	subil #0x3FFE,%d0
	316	movew %d0,R(%a6)
	317	clrw R+2(%a6)
	318	movel L_SCR1(%a6),%d6
	319	subil #0x3FFE,%d6
	320	movel %d6,L_SCR1(%a6)
	321	fmovex R(%a6),%fp0
	322	movew %d6,Y(%a6)
	323	movel %d4,Y_Hi(%a6)
	324	movel %d5,Y_Lo(%a6)
	325	movel #0,Sc_Flag(%a6)
	326
	327	\|
	328
	329
	330	ModOrRem:
	331	movel Mod_Flag(%a6),%d6
	332	beqs Fix_Sign
	333
	334	movel L_SCR1(%a6),%d6 \| ...new biased expo(Y)
	335	subql #1,%d6 \| ...biased expo(Y/2)
	336	cmpl %d6,%d0
	337	blts Fix_Sign
	338	bgts Last_Sub
	339
	340	cmpl %d4,%d1
	341	bnes Not_EQ
	342	cmpl %d5,%d2
	343	bnes Not_EQ
	344	bra Tie_Case
	345
	346	Not_EQ:
	347	bcss Fix_Sign
	348
	349	Last_Sub:
	350	\|
	351	fsubx Y(%a6),%fp0 \| ...no exceptions
	352	addql #1,%d3 \| ...Q := Q + 1
	353
	354	\|
	355
	356	Fix_Sign:
	357	\|..Get sign of X
	358	movew SignX(%a6),%d6
	359	bges Get_Q
	360	fnegx %fp0
	361
	362	\|..Get Q
	363	\|
	364	Get_Q:
	365	clrl %d6
	366	movew SignQ(%a6),%d6 \| ...D6 is sign(Q)
	367	movel #8,%d7
	368	lsrl %d7,%d6
	369	andil #0x0000007F,%d3 \| ...7 bits of Q
	370	orl %d6,%d3 \| ...sign and bits of Q
	371	swap %d3
	372	fmovel %fpsr,%d6
	373	andil #0xFF00FFFF,%d6
	374	orl %d3,%d6
	375	fmovel %d6,%fpsr \| ...put Q in fpsr
	376
	377	\|
	378	Restore:
	379	moveml (%a7)+,%d2-%d7
	380	fmovel USER_FPCR(%a6),%fpcr
	381	movel Sc_Flag(%a6),%d0
	382	beqs Finish
	383	fmulx Scale(%pc),%fp0 \| ...may cause underflow
	384	bra t_avoid_unsupp \|check for denorm as a
	385	\| ;result of the scaling
	386
	387	Finish:
	388	fmovex %fp0,%fp0 \|capture exceptions & round
	389	rts
	390
	391	Rem_is_0:
	392	\|..R = 2^(-j)X - Q Y = Y, thus R = 0 and quotient = 2^j (Q+1)
	393	addql #1,%d3
	394	cmpil #8,%d0 \| ...D0 is j
	395	bges Q_Big
	396
	397	lsll %d0,%d3
	398	bras Set_R_0
	399
	400	Q_Big:
	401	clrl %d3
	402
	403	Set_R_0:
	404	fmoves #0x00000000,%fp0
	405	movel #0,Sc_Flag(%a6)
	406	bra Fix_Sign
	407
	408	Tie_Case:
	409	\|..Check parity of Q
	410	movel %d3,%d6
	411	andil #0x00000001,%d6
	412	tstl %d6
	413	beq Fix_Sign \| ...Q is even
	414
	415	\|..Q is odd, Q := Q + 1, signX := -signX
	416	addql #1,%d3
	417	movew SignX(%a6),%d6
	418	eoril #0x00008000,%d6
	419	movew %d6,SignX(%a6)
	420	bra Fix_Sign
	421
	422	\|end