mirror of
https://github.com/zellyn/goapple2.git
synced 2024-12-22 05:29:29 +00:00
397 lines
13 KiB
Plaintext
397 lines
13 KiB
Plaintext
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1010 *--------------------------------
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1020 CON.ONE .HS 8100000000
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1030 *--------------------------------
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1040 POLY.LOG .DA #3 # OF COEFFICIENTS - 1
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1050 .HS 7F5E56CB79 * X^7 +
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1060 .HS 80139B0B64 * X^5 +
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1070 .HS 8076389316 * X^3 +
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1080 .HS 8238AA3B20 * X
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1090 *--------------------------------
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1100 CON.SQR.HALF .HS 803504F334
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1110 CON.SQR.TWO .HS 813504F334
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1120 CON.NEG.HALF .HS 8080000000
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1130 CON.LOG.TWO .HS 80317217F8
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1140 *--------------------------------
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1150 * "LOG" FUNCTION
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1160 *--------------------------------
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1170 LOG JSR SIGN GET -1,0,+1 IN A-REG FOR FAC
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1180 BEQ GIQ LOG (0) IS ILLEGAL
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1190 BPL LOG.2 >0 IS OK
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1200 GIQ JMP IQERR <= 0 IS NO GOOD
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1210 LOG.2 LDA FAC FIRST GET LOG BASE 2
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1220 SBC #$7F SAVE UNBIASED EXPONENT
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1230 PHA
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1240 LDA #$80 NORMALIZE BETWEEN .5 AND 1
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1250 STA FAC
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1260 LDA #CON.SQR.HALF
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1270 LDY /CON.SQR.HALF
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1280 JSR FADD COMPUTE VIA SERIES OF ODD
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1290 LDA #CON.SQR.TWO POWERS OF
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1300 LDY /CON.SQR.TWO (SQR(2)X-1)/(SQR(2)X+1)
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1310 JSR FDIV
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1320 LDA #CON.ONE
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1330 LDY /CON.ONE
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1340 JSR FSUB
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1350 LDA #POLY.LOG
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1360 LDY /POLY.LOG
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1370 JSR POLYNOMIAL.ODD
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1380 LDA #CON.NEG.HALF
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1390 LDY /CON.NEG.HALF
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1400 JSR FADD
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1410 PLA
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1420 JSR ADDACC ADD ORIGINAL EXPONENT
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1430 LDA #CON.LOG.TWO MULTIPLY BY LOG(2) TO FORM
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1440 LDY /CON.LOG.TWO NATURAL LOG OF X
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1450 *--------------------------------
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1460 * FAC = (Y,A) * FAC
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1470 *--------------------------------
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1480 FMULT JSR LOAD.ARG.FROM.YA
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1490 *--------------------------------
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1500 * FAC = ARG * FAC
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1510 *--------------------------------
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1520 FMULTT BNE .1 FAC .NE. ZERO
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1530 JMP RTS.13 FAC = 0 * ARG = 0
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1540 * <<< WHY IS LINE ABOVE JUST "RTS"? >>>
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1550 *--------------------------------
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1560 *
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1570 *--------------------------------
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1580 .1 JSR ADD.EXPONENTS
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1590 LDA #0
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1600 STA RESULT INIT PRODUCT = 0
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1610 STA RESULT+1
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1620 STA RESULT+2
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1630 STA RESULT+3
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1640 LDA FAC.EXTENSION
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1650 JSR MULTIPLY.1
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1660 LDA FAC+4
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1670 JSR MULTIPLY.1
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1680 LDA FAC+3
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1690 JSR MULTIPLY.1
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1700 LDA FAC+2
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1710 JSR MULTIPLY.1
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1720 LDA FAC+1
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1730 JSR MULTIPLY.2
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1740 JMP COPY.RESULT.INTO.FAC
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1750 *--------------------------------
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1760 * MULTIPLY ARG BY (A) INTO RESULT
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1770 *--------------------------------
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1780 MULTIPLY.1
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1790 BNE MULTIPLY.2 THIS BYTE NON-ZERO
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1800 JMP SHIFT.RIGHT.1 (A)=0, JUST SHIFT ARG RIGHT 8
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1810 *--------------------------------
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1820 MULTIPLY.2
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1830 LSR SHIFT BIT INTO CARRY
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1840 ORA #$80 SUPPLY SENTINEL BIT
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1850 .1 TAY REMAINING MULTIPLIER TO Y
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1860 BCC .2 THIS MULTIPLIER BIT = 0
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1870 CLC = 1, SO ADD ARG TO RESULT
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1880 LDA RESULT+3
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1890 ADC ARG+4
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1900 STA RESULT+3
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1910 LDA RESULT+2
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1920 ADC ARG+3
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1930 STA RESULT+2
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1940 LDA RESULT+1
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1950 ADC ARG+2
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1960 STA RESULT+1
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1970 LDA RESULT
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1980 ADC ARG+1
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1990 STA RESULT
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2000 .2 ROR RESULT SHIFT RESULT RIGHT 1
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2010 ROR RESULT+1
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2020 ROR RESULT+2
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2030 ROR RESULT+3
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2040 ROR FAC.EXTENSION
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2050 TYA REMAINING MULTIPLIER
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2060 LSR LSB INTO CARRY
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2070 BNE .1 IF SENTINEL STILL HERE, MULTIPLY
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2080 RTS.13 RTS 8 X 32 COMPLETED
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2090 *--------------------------------
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2100 * UNPACK NUMBER AT (Y,A) INTO ARG
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2110 *--------------------------------
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2120 LOAD.ARG.FROM.YA
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2130 STA INDEX USE INDEX FOR PNTR
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2140 STY INDEX+1
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2150 LDY #4 FIVE BYTES TO MOVE
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2160 LDA (INDEX),Y
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2170 STA ARG+4
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2180 DEY
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2190 LDA (INDEX),Y
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2200 STA ARG+3
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2210 DEY
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2220 LDA (INDEX),Y
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2230 STA ARG+2
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2240 DEY
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2250 LDA (INDEX),Y
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2260 STA ARG.SIGN
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2270 EOR FAC.SIGN SET COMBINED SIGN FOR MULT/DIV
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2280 STA SGNCPR
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2290 LDA ARG.SIGN TURN ON NORMALIZED INVISIBLE BIT
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2300 ORA #$80 TO COMPLETE MANTISSA
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2310 STA ARG+1
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2320 DEY
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2330 LDA (INDEX),Y
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2340 STA ARG EXPONENT
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2350 LDA FAC SET STATUS BITS ON FAC EXPONENT
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2360 RTS
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2370 *--------------------------------
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2380 * ADD EXPONENTS OF ARG AND FAC
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2390 * (CALLED BY FMULT AND FDIV)
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2400 *
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2410 * ALSO CHECK FOR OVERFLOW, AND SET RESULT SIGN
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2420 *--------------------------------
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2430 ADD.EXPONENTS
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2440 LDA ARG
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2450 *--------------------------------
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2460 ADD.EXPONENTS.1
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2470 BEQ ZERO IF ARG=0, RESULT IS ZERO
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2480 CLC
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2490 ADC FAC
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2500 BCC .1 IN RANGE
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2510 BMI JOV OVERFLOW
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2520 CLC
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2530 .HS 2C TRICK TO SKIP
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2540 .1 BPL ZERO OVERFLOW
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2550 ADC #$80 RE-BIAS
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2560 STA FAC RESULT
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2570 BNE .2
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2580 JMP STA.IN.FAC.SIGN RESULT IS ZERO
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2590 * <<< CRAZY TO JUMP WAY BACK THERE! >>>
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2600 * <<< SAME IDENTICAL CODE IS BELOW! >>>
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2610 * <<< INSTEAD OF BNE .2, JMP STA.IN.FAC.SIGN >>>
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2620 * <<< ONLY NEEDED BEQ .3 >>>
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2630 .2 LDA SGNCPR SET SIGN OF RESULT
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2640 .3 STA FAC.SIGN
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2650 RTS
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2660 *--------------------------------
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2670 * IF (FAC) IS POSITIVE, GIVE "OVERFLOW" ERROR
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2680 * IF (FAC) IS NEGATIVE, SET FAC=0, POP ONE RETURN, AND RTS
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2690 * CALLED FROM "EXP" FUNCTION
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2700 *--------------------------------
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2710 OUTOFRNG
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2720 LDA FAC.SIGN
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2730 EOR #$FF
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2740 BMI JOV ERROR IF POSITIVE #
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2750 *--------------------------------
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2760 * POP RETURN ADDRESS AND SET FAC=0
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2770 *--------------------------------
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2780 ZERO PLA
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2790 PLA
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2800 JMP ZERO.FAC
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2810 *--------------------------------
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2820 JOV JMP OVERFLOW
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2830 *--------------------------------
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2840 * MULTIPLY FAC BY 10
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2850 *--------------------------------
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2860 MUL10 JSR COPY.FAC.TO.ARG.ROUNDED
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2870 TAX TEXT FAC EXPONENT
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2880 BEQ .1 FINISHED IF FAC=0
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2890 CLC
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2900 ADC #2 ADD 2 TO EXPONENT GIVES (FAC)*4
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2910 BCS JOV OVERFLOW
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2920 LDX #0
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2930 STX SGNCPR
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2940 JSR FADD.2 MAKES (FAC)*5
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2950 INC FAC *2, MAKES (FAC)*10
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2960 BEQ JOV OVERFLOW
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2970 .1 RTS
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2980 *--------------------------------
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2990 CON.TEN .HS 8420000000
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3000 *--------------------------------
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3010 * DIVIDE FAC BY 10
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3020 *--------------------------------
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3030 DIV10 JSR COPY.FAC.TO.ARG.ROUNDED
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3040 LDA #CON.TEN SET UP TO PUT
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3050 LDY /CON.TEN 10 IN FAC
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3060 LDX #0
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3070 *--------------------------------
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3080 * FAC = ARG / (Y,A)
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3090 *--------------------------------
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3100 DIV STX SGNCPR
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3110 JSR LOAD.FAC.FROM.YA
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3120 JMP FDIVT DIVIDE ARG BY FAC
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3130 *--------------------------------
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3140 * FAC = (Y,A) / FAC
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3150 *--------------------------------
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3160 FDIV JSR LOAD.ARG.FROM.YA
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3170 *--------------------------------
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3180 * FAC = ARG / FAC
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3190 *--------------------------------
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3200 FDIVT BEQ .8 FAC = 0, DIVIDE BY ZERO ERROR
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3210 JSR ROUND.FAC
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3220 LDA #0 NEGATE FAC EXPONENT, SO
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3230 SEC ADD.EXPONENTS FORMS DIFFERENCE
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3240 SBC FAC
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3250 STA FAC
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3260 JSR ADD.EXPONENTS
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3270 INC FAC
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3280 BEQ JOV OVERFLOW
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3290 LDX #-4 INDEX FOR RESULT
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3300 LDA #1 SENTINEL
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3310 .1 LDY ARG+1 SEE IF FAC CAN BE SUBTRACTED
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3320 CPY FAC+1
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3330 BNE .2
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3340 LDY ARG+2
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3350 CPY FAC+2
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3360 BNE .2
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3370 LDY ARG+3
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3380 CPY FAC+3
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3390 BNE .2
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3400 LDY ARG+4
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3410 CPY FAC+4
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3420 .2 PHP SAVE THE ANSWER, AND ALSO ROLL THE
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3430 ROL BIT INTO THE QUOTIENT, SENTINEL OUT
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3440 BCC .3 NO SENTINEL, STILL NOT 8 TRIPS
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3450 INX 8 TRIPS, STORE BYTE OF QUOTIENT
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3460 STA RESULT+3,X
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3470 BEQ .6 32-BITS COMPLETED
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3480 BPL .7 FINAL EXIT WHEN X=1
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3490 LDA #1 RE-START SENTINEL
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3500 .3 PLP GET ANSWER, CAN FAC BE SUBTRACTED?
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3510 BCS .5 YES, DO IT
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3520 .4 ASL ARG+4 NO, SHIFT ARG LEFT
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3530 ROL ARG+3
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3540 ROL ARG+2
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3550 ROL ARG+1
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3560 BCS .2 ANOTHER TRIP
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3570 BMI .1 HAVE TO COMPARE FIRST
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3580 BPL .2 ...ALWAYS
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3590 .5 TAY SAVE QUOTIENT/SENTINEL BYTE
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3600 LDA ARG+4 SUBTRACT FAC FROM ARG ONCE
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3610 SBC FAC+4
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3620 STA ARG+4
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3630 LDA ARG+3
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3640 SBC FAC+3
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3650 STA ARG+3
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3660 LDA ARG+2
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3670 SBC FAC+2
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3680 STA ARG+2
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3690 LDA ARG+1
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3700 SBC FAC+1
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3710 STA ARG+1
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3720 TYA RESTORE QUOTIENT/SENTINEL BYTE
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3730 JMP .4 GO TO SHIFT ARG AND CONTINUE
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3740 *--------------------------------
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3750 .6 LDA #$40 DO A FEW EXTENSION BITS
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3760 BNE .3 ...ALWAYS
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3770 *--------------------------------
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3780 .7 ASL LEFT JUSTIFY THE EXTENSION BITS WE DID
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3790 ASL
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3800 ASL
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3810 ASL
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3820 ASL
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3830 ASL
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3840 STA FAC.EXTENSION
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3850 PLP
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3860 JMP COPY.RESULT.INTO.FAC
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3870 *--------------------------------
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3880 .8 LDX #ERR.ZERODIV
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3890 JMP ERROR
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3900 *--------------------------------
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3910 * COPY RESULT INTO FAC MANTISSA, AND NORMALIZE
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3920 *--------------------------------
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3930 COPY.RESULT.INTO.FAC
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3940 LDA RESULT
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3950 STA FAC+1
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3960 LDA RESULT+1
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3970 STA FAC+2
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3980 LDA RESULT+2
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3990 STA FAC+3
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4000 LDA RESULT+3
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4010 STA FAC+4
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4020 JMP NORMALIZE.FAC.2
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4030 *--------------------------------
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4040 * UNPACK (Y,A) INTO FAC
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4050 *--------------------------------
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4060 LOAD.FAC.FROM.YA
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4070 STA INDEX USE INDEX FOR PNTR
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4080 STY INDEX+1
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|
4090 LDY #4 PICK UP 5 BYTES
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|
4100 LDA (INDEX),Y
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4110 STA FAC+4
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|
4120 DEY
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|
4130 LDA (INDEX),Y
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4140 STA FAC+3
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|
4150 DEY
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|
4160 LDA (INDEX),Y
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|
4170 STA FAC+2
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|
4180 DEY
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|
4190 LDA (INDEX),Y
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|
4200 STA FAC.SIGN FIRST BIT IS SIGN
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|
4210 ORA #$80 SET NORMALIZED INVISIBLE BIT
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|
4220 STA FAC+1
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|
4230 DEY
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|
4240 LDA (INDEX),Y
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|
4250 STA FAC EXPONENT
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|
4260 STY FAC.EXTENSION Y=0
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|
4270 RTS
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|
4280 *--------------------------------
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|
4290 * ROUND FAC, STORE IN TEMP2
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|
4300 *--------------------------------
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||
|
4310 STORE.FAC.IN.TEMP2.ROUNDED
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||
|
4320 LDX #TEMP2 PACK FAC INTO TEMP2
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||
|
4330 .HS 2C TRICK TO BRANCH
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||
|
4340 *--------------------------------
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||
|
4350 * ROUND FAC, STORE IN TEMP1
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||
|
4360 *--------------------------------
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||
|
4370 STORE.FAC.IN.TEMP1.ROUNDED
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||
|
4380 LDX #TEMP1 PACK FAC INTO TEMP1
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||
|
4390 LDY /TEMP1 HI-BYTE OF TEMP1 SAME AS TEMP2
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||
|
4400 BEQ STORE.FAC.AT.YX.ROUNDED ...ALWAYS
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||
|
4410 *--------------------------------
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||
|
4420 * ROUND FAC, AND STORE WHERE FORPNT POINTS
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||
|
4430 *--------------------------------
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||
|
4440 SETFOR LDX FORPNT
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||
|
4450 LDY FORPNT+1
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||
|
4460 *--------------------------------
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||
|
4470 * ROUND FAC, AND STORE AT (Y,X)
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||
|
4480 *--------------------------------
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||
|
4490 STORE.FAC.AT.YX.ROUNDED
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||
|
4500 JSR ROUND.FAC ROUND VALUE IN FAC USING EXTENSION
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||
|
4510 STX INDEX USE INDEX FOR PNTR
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||
|
4520 STY INDEX+1
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||
|
4530 LDY #4 STORING 5 PACKED BYTES
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||
|
4540 LDA FAC+4
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||
|
4550 STA (INDEX),Y
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||
|
4560 DEY
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||
|
4570 LDA FAC+3
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||
|
4580 STA (INDEX),Y
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||
|
4590 DEY
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||
|
4600 LDA FAC+2
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||
|
4610 STA (INDEX),Y
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||
|
4620 DEY
|
||
|
4630 LDA FAC.SIGN PACK SIGN IN TOP BIT OF MANTISSA
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||
|
4640 ORA #$7F
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||
|
4650 AND FAC+1
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||
|
4660 STA (INDEX),Y
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||
|
4670 DEY
|
||
|
4680 LDA FAC EXPONENT
|
||
|
4690 STA (INDEX),Y
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||
|
4700 STY FAC.EXTENSION ZERO THE EXTENSION
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||
|
4710 RTS
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||
|
4720 *--------------------------------
|
||
|
4730 * COPY ARG INTO FAC
|
||
|
4740 *--------------------------------
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||
|
4750 COPY.ARG.TO.FAC
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||
|
4760 LDA ARG.SIGN COPY SIGN
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||
|
4770 MFA STA FAC.SIGN
|
||
|
4780 LDX #5 MOVE 5 BYTES
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||
|
4790 .1 LDA ARG-1,X
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||
|
4800 STA FAC-1,X
|
||
|
4810 DEX
|
||
|
4820 BNE .1
|
||
|
4830 STX FAC.EXTENSION ZERO EXTENSION
|
||
|
4840 RTS
|
||
|
4850 *--------------------------------
|
||
|
4860 * ROUND FAC AND COPY TO ARG
|
||
|
4870 *--------------------------------
|
||
|
4880 COPY.FAC.TO.ARG.ROUNDED
|
||
|
4890 JSR ROUND.FAC ROUND FAC USING EXTENSION
|
||
|
4900 MAF LDX #6 COPY 6 BYTES, INCLUDES SIGN
|
||
|
4910 .1 LDA FAC-1,X
|
||
|
4920 STA ARG-1,X
|
||
|
4930 DEX
|
||
|
4940 BNE .1
|
||
|
4950 STX FAC.EXTENSION ZERO FAC EXTENSION
|
||
|
4960 RTS.14 RTS
|