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Trailing-Edge - PDP-10 Archives - BB-D480F-BB_1985_short - fltgen.mac
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	TITLE	FLTGEN - FLOATING POINT CONSTANT GENERATOR
	SUBTTL	GENERATE FLOATING POINT CONSTANTS

;COPYRIGHT (C) DIGITAL EQUIPMENT CORPORATION 1976, 1985
;ALL RIGHTS RESERVED.
;
;THIS SOFTWARE IS FURNISHED UNDER A LICENSE AND MAY BE USED AND COPIED
;ONLY  IN  ACCORDANCE  WITH  THE  TERMS  OF  SUCH LICENSE AND WITH THE
;INCLUSION OF THE ABOVE COPYRIGHT NOTICE.  THIS SOFTWARE OR ANY  OTHER
;COPIES THEREOF MAY NOT BE PROVIDED OR OTHERWISE MADE AVAILABLE TO ANY
;OTHER PERSON.  NO TITLE TO AND OWNERSHIP OF THE  SOFTWARE  IS  HEREBY
;TRANSFERRED.
;
;THE INFORMATION IN THIS SOFTWARE IS SUBJECT TO CHANGE WITHOUT  NOTICE
;AND  SHOULD  NOT  BE  CONSTRUED  AS A COMMITMENT BY DIGITAL EQUIPMENT
;CORPORATION.
;
;DIGITAL ASSUMES NO RESPONSIBILITY FOR THE USE OR RELIABILITY  OF  ITS
;SOFTWARE ON EQUIPMENT WHICH IS NOT SUPPLIED BY DIGITAL.

; Author: TFV

	INTERN	FLTGEV
	FLTGEV=	BYTE (3)0(9)6(6)0(18)^D101	; Version Date: 22-Jul-81

	SUBTTL	REVISION HISTORY

Comment \

***** Begin Revision History *****

***** Begin Version 6 *****

2	761	TFV	1-Mar-80	-----
	Routine has been totally rewritten.  The algorithm is
	the same as in FLIRT in FOROTS

100	1006	TFV	1-Jul-80	------
	Give warning on overflow.

101	1116	JLC	26-Jul-81
	Rework the tables and some code to be more accurate
	and conform to FLIRT.

***** End Revision History *****

\


;FLOATING POINT CONSTANT GENERATOR
;CONVERTS AN INTEGER CONSTANT TO A DOUBLE PRECISION
;FLOATING POINT CONSTANT FOR THE KL

	EXTERNAL LOAC,HIAC,DECEXP,F2

	ENTRY FLTGEN
	TWOSEG
	RELOC 400000



;This routine expects three inputs:
;	HIAC	- the high order fraction
;	LOAC	- the low order fraction
;	DECEXP	- the decimal exponent
;
;The result is built as either a GFLOATING DP or a KL DP number
;depending upon the GFLOATING bit in F2
;
; THE DECIMAL EXPONENT IS USED AS AN INDEX INTO A POWER
;OF TEN TABLE (KEPT IN DOUBLE PRECISION INTEGER PLUS EXPONENT FORM
;SO INTERMEDIATE RESULTS WILL HAVE 8 MORE BITS OF PRECISION THAN
;FINAL RESULTS) TO MULTIPLY THE DOUBLE PRECISION FRACTION. THIS
;RESULT IS THEN ROUNDED TO GIVE A SINGLE PRECISION,
;KL or KS DOUBLE PRECISION RESULT.
;OVERFLOWS RETURN THE LARGEST POSSIBLE
;NUMBER (WITH CORRECT SIGN), WHILE UNDERFLOWS RETURN 0. NO ERROR
;MESSAGE IS GIVEN FOR  EITHER OVER OR UNDERFLOW.
;OLD ACCUMULATOR DEFINITIONS

;	ACCUMULATOR DEFINITIONS
	X==01
	F==02
	T0==04
	T1==05
	T2==06
	T3==07
	T4==10
	T5==11
	P1==12
	P2==13
	P3==14
	P==17			;STACK REGISTER

	AC0==T0
	AC1==T1
	AC2==T2
	AC3==T3
	AC4==T4
	AC5==T5

	A==T0
	B==T1
	C==T2
	D==T3
	E==T4
	XP==T5
	BXP==P1

	GFLOAT==1B0		;MASK FOR GFLOAT FLAG

FLTGEN:
	PUSH	P,01		;SAVE 01
	PUSH	P,02		;SAVE 02
	MOVE	F,F2
	MOVE	X,DECEXP
	SETZM	FL.RBX
	SETZM	FL.RFR
	SETZM	FL.RFR+1
	MOVE	A,HIAC		;GET HIGH ORDER MANTISSA
	MOVE	B,LOAC		;GET LOW ORDER MANTISSA
NORM:	MOVEI	BXP,106		;INIT BINARY EXPON FOR D.P. INTEGER
	JUMPN	A,NORM1		;XFER IF AT LEAST ONE 1 IN HIGH HALF
	EXCH	A,B		;HIGH HALF ZERO, MOVE LOW HALF TO HIGH,
				;AND CLEAR LOW HALF
	SUBI	BXP,^D35	;AND ADJUST EXPONENT FOR 35 SHIFTS
NORM1:	JUMPE	A,RETURN	;LEAVE IF BOTH WORDS ZERO
	MOVE	D,A		;COPY 1ST WORD
	JFFO	D,NORM2		;JUST IN CASE
	JRST	ZERO		;EE CLEARS OUT EVERYTHING
NORM2:	ASHC	A,-1(E)		;NORMALIZE D.P. INTEGER WITH BIN POINT
				;BETWEEN BITS 0 AND 1 IN HIGH WORD
	SUBI	BXP,-1(E)	;AND ADJUST EXPON TO ALLOW FOR SHIFTING
	JUMPE	X,ENDF6		;IF DECIMAL EXP=0, NO MUL BY 10 NEEDED
ENDF3:	MOVM	D,X		;GET MAG OF DEC EXP
	CAILE	D,%HIMAX	;LESS THAN MAX TABLE ENTRY?
	JRST	BADXP2		;NO. MUCH TOO BIG!
	PUSHJ	P,EETST		;GO TEST FOR BIG SCALING
	MOVM	D,X		;GET MAGNITUDE OF DECIMAL EXPONENT
	CAILE	D,%PTLEN	;BETWEEN 0 AND MAX. TABLE ENTRY?
	MOVEI	D,%PTLEN	;NO, MAKE IT SO
	SKIPGE	X		;AND RESTORE CORRECT SIGN
	MOVNS	D
	SUB	X,D		;LEAVE ANY EXCESS EXPONENT IN X
DPMUL:	MUL	B,%HITEN(D)	;LO FRAC TIMES HI POWER OF TEN(RESULT IN B,C)
	MOVE	E,B		;GET HI PART OF PREVIOUS PRODUCT OUT OF WAY
	MOVE	B,A		;COPY HI PART OF FRACTION
	MOVE	C,%LOTEN(D)	;GET LOW POWER OF TEN
	ADDI	C,1		;BIAS IT - IT IS TRUNCATED
	MUL	B,C		;HI FRAC TIMES LO POWER OF TEN
	TLO	E,(1B0)
	ADD	E,B		;SUM OF HI PARTS OF CROSS PRODUCTS TO AC T
	MUL	A,%HITEN(D)	;HI FRACTION TIMES HI POWER OF TEN
	TLON	E,(1B0)		;DID CARRY OCCUR?  ALLOW FOR NEXT CARRY
	ADDI	A,1		;CARRY FROM ADDING CROSS PRODUCTS
	ADD	B,E		;ADD CROSS PRODUCTS TO LO PART
				;  OF (HI FRAC TIMES HI POW TEN)
	TLZN	B,(1B0)
	AOJA	A,ENDF5		;AND PROPOGATE A CARRY, IF ANY
ENDF5:	TLNE	A,(1B1)		;NORMALIZED? 1.0 > RESULT >= 0.25
	JRST	ENDF5A		;YES, RESULT >= 0.5
	ASHC	A,1		;NO, SHIFT LEFT ONE PLACE
	SUBI	BXP,1		;AND ADJUST EXPONENT
ENDF5A:	MOVE	D,%EXP10(D)	;GET BINARY EXPONENT
	ADD	BXP,D		;ADJUST BINARY EXPONENT
	JUMPN	X,ENDF3		;CONTINUE IF ANY MORE DEC EXP LEFT
ENDF6:	DMOVEM	A,FL.RFR	;SAVE THE RAW LEFT-JUSTIFIED FRACTION
	MOVEM	BXP,FL.RBX	;AND THE RAW BINARY EXPONENT
	TLO	A,(1B0)		;START ROUNDING (ALLOW FOR OVERFLOW)
	JRST	DPRND		;TO DPRND
ENDF7:	TLZE	A,(1B0)		;CARRY PROPOGATE TO BIT 0?
	JRST	ENDF7A		;NO
	ASHC	A,-1		;YES, RENORMALIZE TO RIGHT
	ADDI	BXP,1		;AND ADJUST BINARY EXPONENT
	TLO	A,(1B1)		;AND TURN ON HI FRACTION BIT
ENDF7A:	TXNE	F,GFLOAT	;EXTENDED EXPONENT?
	JRST	EERET		;YES. RETURN DIFFERENT FORMAT
	CAIGE	BXP,200		;OUT OF RANGE
	CAMGE	BXP,[-200]
	JRST	BADEXP		;YES. RETURN ZERO OR INFINITY
	ADDI	BXP,200		;ADD IN EXCESS 200
	ASHC	A,-8		;NO, LEAVE ROOM FOR EXPONENT
	DPB	BXP,[POINT 9,A,8] ;INSERT EXPONENT INTO HI WORD
RETURN:	MOVEM	A,HIAC		; move into result
	MOVEM	B,LOAC
	POP	P,02		; restore the saved registers
	POP	P,01
	POPJ	P,		; return

EERET:	CAIGE	BXP,2000	;OUT OF RANGE?
	CAMGE	BXP,[-2000]
	JRST	BADEXP		;YES. RETURN ZERO OR INFINITY
	ADDI	BXP,2000	;ADD IN EXCESS 2000
	ASHC	A,-^D11		;SHIFT TO MAKE ROOM FOR EXP
	DPB	BXP,[POINT 12,A,11];DEPOSIT THE EXPONENT
	JRST	RETURN

BADEXP:	HRLOI	A,377777	;SET NUMBER TO LARGEST POSSIBLE
	HRLOI	B,377777 	;FOR KL or KS
	JUMPG	BXP,WARN	;DONE IF EXPONENT .GT. ZERO
ZERO:	SETZB	A,B		;IF NEGATIVE, SET TO ZERO
	JRST	WARN

WARN:	MOVEM	A,HIAC		; return zero or infinity
	MOVEM	B,LOAC
	POP	P,02		; restore the saved registers
	POP	P,01
	PUSH	P,[E64##]	; constant overflow or underflow warning
	PUSHJ	P,WARNLEX##
	SUB	P,[1,,1]	; pop E64## off stack
	POPJ	P,		; return

BADXP2:	JUMPL	X,ZERO		;RETURN ZERO IF DEC EXP NEGATIVE
	HRLOI	A,377777	;[1006] GET LARGEST number
	HRLOI	B,377777
	JRST	WARN		;[1006] give warning

;IF RUNNING ON A KL, WE CAN USE THE SPARSE POWER
;OF TEN TABLE TO SCALE THE NUMBER. IT IS ABSOLUTELY NECESSARY
;FOR EXTENDED EXPONENT NUMBERS
EETST:	MOVM	P2,X	;GET MAGNITUDE OF DECIMAL EXPONENT
	CAIG	P2,%PTLEN	;WITHIN NORMAL RANGE?
	POPJ	P,		;YES. JUST DO IT NORMALLY
	ASHC	A,-1		;PREVENT DIVIDE CHECK
	ADDI	BXP,1		;AND MODIFY BINARY EXPONENT
	ASH	P2,1		;CALCULATE FACTOR OF TEN TO USE
	IDIVI	P2,^D21		;IN SPARSE TABLE
	SUBI	P2,2		;STARTS WITH 10**21
	IMULI	P2,3		;AND EACH ENTRY IS 3 LOCS
	JUMPL	X,EENEG	;GO DO DIVIDE IF EXP NEGATIVE
	PUSHJ	P,%EEMUL	;OR MULTIPLY IF POSITIVE
	SUBI	X,(XP)	;REDUCE THE DECIMAL EXP
	ADDI	BXP,(P3)	;AND ADD THE BINARY EXP FOUND
	POPJ	P,

EENEG:	PUSHJ	P,%EEDIV	;DO D.P. DIVIDE
	ADDI	X,(XP)	;REDUCE MAGNITUDE OF X
	SUBI	BXP,(P3)	;MODIFY BINARY EXPONENT
	POPJ	P,		

;HERE FOR DOUBLE PRECISION ROUNDING 

DPRND:	TLO	B,(1B0)		;START ROUNDING (ALLOW FOR CARRYS)
	TXNE	F,GFLOAT		;EXTENDED EXPONENT?
	ADDI	B,2000		;YES. DO SPECIAL ROUNDING
	TXNN	F,GFLOAT		;CHECK AGAIN
	ADDI	B,200	 	;LOW WORD ROUNDING FOR PDP-6 OR KI10
	TLZN	B,(1B0)		;DID CARRY PROPOGATE TO SIGN?
	AOJA	A,ENDF7		;YES, ADD CARRY INTO HIGH WORD
	JRST	ENDF7		;AND GO RENORMALIZE IF NECESSARY

%EEDIV:	SETZB	AC2,AC3		;CLEAR LOWER AC'S
	SETZB	AC4,AC5		;AND EVEN LOWER AC'S
	DDIV	AC0,%BEXP(P2)	;GET 2-WORD RESULT
	DDIV	AC2,%BEXP(P2)	;GET 4-WORD RESULT
	JRST	EECOM		;JOIN COMMON CODE

%EEMUL:	DMOVE	AC2,%BEXP(P2)	;GET POWER OF TEN
	ADDI	AC3,1		;BIAS IT - IT IS TRUNCATED
	DMUL	AC0,AC2		;GET 4-WORD RESULT
EECOM:	PUSHJ	P,%EENRM	;NORMALIZE IT
	TLO	AC0,(1B0)	;PREPARE FOR OVERFLOW
	TLNE	AC2,(1B1)	;ROUNDING BIT ON?
	DADD	AC0,[EXP 0,1]	;YES. ROUND UP
	TLZ	AC1,(1B0)	;TURN OFF LOW SIGN
	TLZE	AC0,(1B0)	;DID WE OVERFLOW?
	JRST	EEOK		;NO
	TLO	AC0,(1B1)	;YES. TURN HIGH BIT ON
	ADDI	P1,1		;AND INCR THE BINARY EXP
EEOK:	HLRZ	P3,%DEXP(P2)	;GET THE BINARY EXPONENT
	HRRZ	XP,%DEXP(P2)	;GET DECIMAL EXPONENT
	POPJ	P,

%EENRM:	MOVE	T4,AC0		;GET THE HIGH WORD
	JFFO	T4,EENZ		;LOOK FOR 1ST 1
	DMOVE	AC0,AC1		;SHOVE THE NUMBER OVER
	SUBI	P1,^D35		;AND MODIFY THE EXPONENT
	MOVE	T4,AC0		;TRY NEXT WORD
	JFFO	T4,EENZ
	JRST	EENEND		;STILL NONE
EENZ:	SUBI	T5,1		;LEAVE STARTING AT BIT 1
	JUMPE	T5,EENEND	;DONE IF NO SHIFT
	SUB	P1,T5		;MODIFY THE BINARY EXPONENT
	MOVN	T4,T5		;AND GET NEG SHIFT ALSO
	JUMPL	T5,RGTSFT	;DIFFERENT FOR RIGHT SHIFT
	ASHC	AC0,(T5)	;MOVE 1ST AND 2ND WORDS
	ASH	AC1,(T4)	;MOVE BACK 2ND WORD
	ASHC	AC1,(T5)	;MOVE 2ND AND 3RD WORD
EENEND:	POPJ	P,

RGTSFT:	ASHC	AC1,(T5)	;MOVE 2ND AND 3RD
	ASH	AC1,(T4)	;MOVE 2ND BACK
	ASHC	AC0,(T5)	;MOVE 1ST AND 2ND
	POPJ	P,

	;POWER OF TEN TABLE IN DOUBLE PRECISION
	;INTEGER FORMAT. EACH ENTRY CONSISTS OF TWO WORDS,
	;EACH WITH 35 BITS OF FRACTION (SIGNS ARE EXCLUDED).
	;THE BINARY POINT IS BETWEEN BITS 0 AND 1 OF THE
	;HI ORDER WORD. THE EXPONENT FOR THE 70 BIT
	;FRACTION IS STORED IN THE SHORT TABLE CALLED "EXPTEN".
	;FOLLOWING THE STANDARD TABLE IS ATHE EXTENDED EXPONENT
	;TABLE, WHICH IS A SPARSE POWER OF TEN TABLE RANGING FROM
	;10**21 TO 10**326, FOR USE IN ENCODING AND DECODING G-FLOATING
	;NUMBERS.

	;THE NUMBERS IN BOTH TABLES ARE TRUNCATED, THAT IS, NO
	;ROUNDING HAS BEEN DONE FROM THE (VIRTUAL) THIRD WORD OF
	;PRECISION. THUS, ON AVERAGE, THE TABLES ARE BIASED 1/2 BIT
	;DOWNWARDS.
DEFINE .TAB. (A)<
	NUMBER -246,357347511265,056017357445
	NUMBER -242,225520615661,074611525567
	NUMBER -237,273044761235,213754053125
	NUMBER -234,351656155504,356747065752
	NUMBER -230,222114704413,025260341562
	NUMBER -225,266540065515,332534432117
	NUMBER -222,344270103041,121263540543
	NUMBER -216,216563051724,322660234335
	NUMBER -213,262317664312,007434303425
	NUMBER -210,337003641374,211343364332
	NUMBER -204,213302304735,325716130610
	NUMBER -201,256162766125,113301556752
	NUMBER -176,331617563552,236162112545
	NUMBER -172,210071650242,242707256537
	NUMBER -167,252110222313,113471132267
	NUMBER -164,324532266776,036407360745
	NUMBER -160,204730362276,323044526457
	NUMBER -155,246116456756,207655654173
	NUMBER -152,317542172552,051631227231
	NUMBER -146,201635314542,132077636440
	NUMBER -143,242204577672,360517606150
	NUMBER -140,312645737651,254643547602
	NUMBER -135,375417327624,030014501542
	NUMBER -131,236351506674,217007711035
	NUMBER -126,306044030453,262611673245
	NUMBER -123,367455036566,237354252116
	NUMBER -117,232574123152,043523552261
	NUMBER -114,301333150004,254450504735
	NUMBER -111,361622002005,327562626124
	NUMBER -105,227073201203,246647575664
	NUMBER -102,274712041444,220421535242
	NUMBER -077,354074451755,264526064512
	NUMBER -073,223445672164,220725640716
	NUMBER -070,270357250621,265113211102
	NUMBER -065,346453122766,042336053323
	NUMBER -061,220072763671,325412633103
	NUMBER -056,264111560650,112715401724
	NUMBER -053,341134115022,135500702312
	NUMBER -047,214571460113,172410431376
	NUMBER -044,257727774136,131112537675
	NUMBER -041,333715773165,357335267655
	NUMBER -035,211340575011,265512262714
	NUMBER -032,253630734214,043034737477
	NUMBER -027,326577123257,053644127417
	NUMBER -023,206157364055,173306466551
	NUMBER -020,247613261070,332170204303
	NUMBER -015,321556135307,020626245364
	NUMBER -011,203044672274,152375747331
	NUMBER -006,243656050753,205075341217
	NUMBER -003,314631463146,146314631463
A:	NUMBER 001,200000000000,000000000000
	NUMBER 004,240000000000,000000000000
	NUMBER 007,310000000000,000000000000
	NUMBER 012,372000000000,000000000000
	NUMBER 016,234200000000,000000000000
	NUMBER 021,303240000000,000000000000
	NUMBER 024,364110000000,000000000000
	NUMBER 030,230455000000,000000000000
	NUMBER 033,276570200000,000000000000
	NUMBER 036,356326240000,000000000000
	NUMBER 042,225005744000,000000000000
	NUMBER 045,272207335000,000000000000
	NUMBER 050,350651224200,000000000000
	NUMBER 054,221411634520,000000000000
	NUMBER 057,265714203644,000000000000
	NUMBER 062,343277244615,000000000000
	NUMBER 066,216067446770,040000000000
	NUMBER 071,261505360566,050000000000
	NUMBER 074,336026654723,262000000000
	NUMBER 100,212616214044,117200000000
	NUMBER 103,255361657055,143040000000
	NUMBER 106,330656232670,273650000000
	NUMBER 112,207414740623,165311000000
	NUMBER 115,251320130770,122573200000
	NUMBER 120,323604157166,147332040000
	NUMBER 124,204262505412,000510224000
	NUMBER 127,245337226714,200632271000
	NUMBER 132,316627074477,241000747200
	NUMBER 136,201176345707,304500460420
	NUMBER 141,241436037271,265620574524
	NUMBER 144,311745447150,043164733651
	NUMBER 147,374336761002,054022122623
	NUMBER 153,235613266501,133413263574
	NUMBER 156,305156144221,262316140533
	NUMBER 161,366411575266,037001570661
	NUMBER 165,232046056261,323301053417
	NUMBER 170,300457471736,110161266322
	NUMBER 173,360573410325,332215544007
	NUMBER 177,226355145205,250330436404
	NUMBER 202,274050376447,022416546105
	NUMBER 205,353062476160,327122277527
	NUMBER 211,222737506706,206363367626
	NUMBER 214,267527430470,050060265574
	NUMBER 217,345455336606,062074343133
	NUMBER 223,217374313163,337245615771
	NUMBER 226,263273376020,327117161367
	NUMBER 231,340152275425,014743015665
	NUMBER 235,214102366355,050055710521
	NUMBER 240,257123064050,162071272645
	NUMBER 243,332747701062,216507551417
	NUMBER 247,210660730537,231114641751
	NUMBER 252,253035116667,177340012343
>
DEFINE NUMBER (A,B,C) <B>

TENTAB:	.TAB. %HITEN

DEFINE NUMBER (A,B,C) <C>

	.TAB. %LOTEN
%PTLEN==%HITEN-TENTAB	;CALCULATE NUMBER OF TABLE ENTRIES BEFORE "TENS"

DEFINE	NUMBER	(A,B,C) <A>

	.TAB. %EXP10

	DEFINE	HITABL <
%%EXP==0
 HIEXP  21, 0106, 330656232670, 273650000000
 HIEXP  31, 0147, 374336761002, 054022122623
 HIEXP  42, 0214, 267527430470, 050060265574
 HIEXP  52, 0255, 325644342445, 137230015034
 HIEXP  63, 0322, 233446460731, 230310256730
 HIEXP  73, 0363, 265072116565, 045110433532
 HIEXP  84, 0430, 203616042160, 325266273336
 HIEXP  94, 0471, 231321375525, 337205744037
 HIEXP 105, 0535, 337172572336, 007545174113
 HIEXP 115, 0577, 201742476560, 254305755623
 HIEXP 126, 0643, 275056630405, 050037577755
 HIEXP 136, 0704, 334103204270, 352046213535
 HIEXP 147, 0751, 240125245530, 066753037574
 HIEXP 158, 1015, 351045347212, 074316542736
 HIEXP 168, 1057, 207525153773, 310102120644
 HIEXP 179, 1123, 305327273020, 343641442602
 HIEXP 189, 1164, 345647674501, 121102720143
 HIEXP 200, 1231, 247161432765, 330455055455
 HIEXP 210, 1272, 302527746114, 232735577632
 HIEXP 221, 1337, 215510706516, 363467704427
 HIEXP 231, 1400, 244711331533, 105545654076
 HIEXP 242, 1444, 357747123347, 374251221667
 HIEXP 252, 1506, 213527073575, 262011603206
 HIEXP 263, 1552, 313176275662, 023427342311
 HIEXP 273, 1613, 354470426352, 214122564267
 HIEXP 284, 1660, 254120203313, 021677205125
 HIEXP 295, 1724, 372412614644, 074374052054
 HIEXP 305, 1766, 221645055640, 266335117623
 HIEXP 316, 2032, 324146136354, 344313410127
 HIEXP 326, 2073, 367020634251, 325055547056
>

%HIMAX==^D326

DEFINE	HIEXP	(DEXP,BEXP,HIWRD,LOWRD) <
	XWD	BEXP,^D<DEXP>
	EXP	HIWRD
	EXP	LOWRD
	%%EXP==%%EXP+1
>


%DEXP:	HITABL
%BEXP==%DEXP+1

DEFINE DEFTX (Y,Z) <
 IRP Y,<IRP Z,<
  DEFINE TX'Y'Z (AC,E) <
   IFE <<E>&777777000000>,<TR'Y'Z AC,<E> ;> 
   IFE <<E>&000000777777>,<TL'Y'Z AC,(E) ;> 
			   TD'Y'Z AC,[E]
  >
 >>
>

DEFTX (<N,Z,O,C>,<N,E,A,>)

	LIT		;1006 Deposit literals in high seg 

	RELOC 0
FL.RBX:	BLOCK	1	;RAW BINARY EXPONENT
FL.RFR:	BLOCK	2	;RAW FRACTION
	END	FLTGEN