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C02/include/stdlib.a02

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; C02 library stdlib.h02 assembly language subroutines
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; Requires
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; external zero page locations SRCLO and SRCHI
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; and external locations RANDOM, RDSEED, TEMP0, TEMP1, and TEMP2.
SUBROUTINE STDLIB
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;abs(n) - Get ABSolute Value
;Args: A = Number to get Absolute Value Of
;Affects: C, N, Z
;Returns: A = Absolute Value of Argument
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ABS: CMP #$80 ;If Negative (High Bit Set)
BCC .ABSX ; Carry will Already be Set
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EOR #$FF ; One's Complement
ADC #$00 ; and Increment (Carry set by CMP)
.ABSX RTS
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;max(m,n) - Get MAXimum of Two Numbers
;Args: A,Y = Numbers to Compare
;Sets: TEMP0 = Second Argument
;Affects: N,Z,C
;Returns: A = Larger of the Two Arguments
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MAX: STY TEMP0 ;Save Second Parameter
CMP TEMP0 ;If First Parameter
BCC .MAXX ; Greater than Second Parameter
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TYA ;Copy Second Parameter into Accumulator
.MAXX RTS
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;min(m,n) - Get MINimum Get MAXimum of Two Numbers
;Args: A,Y = Numbers to Compare
;Sets: TEMP0 = Second Argument
;Affects: N,Z,C
;Returns: A = Smaller of the Two Arguments
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MIN: STY TEMP0 ;Save Second Parameter
CMP TEMP0 ;If First Parameter
BCS .MINX ; Less than Second Parameter
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TYA ;Copy Second Parameter into Accumulator
.MINX RTS
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;mult(m,n) - MULTiply Two Numbers
;Args: A = Multiplicand
; Y = Nultiplier
;Sets: TEMP0 = Multiplicand
; TEMP1 = 0
; TEMP2 = Product MSB
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;Affects: N,Z,C
;Returns: A = Product LSB
; Y = Product MSB
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MULT: STA TEMP0 ;Store Multiplicand
STY TEMP1 ;Store Multiplier
;Multiply TEMP0 times TEMP1
MULTT: LDA #$00 ;Initialize Accumulator
BEQ .MULTE ;Enter Loop
.MULTA CLC
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ADC TEMP0 ;Add Multiplicand
.MULTL ASL TEMP0 ;Shift Multiplicand Left
.MULTE LSR TEMP1 ;Shift Multiplier Right
BCS .MULTA ;If Bit Shifted Out, Add Multiplicand
BNE .MULTL ;Loop if Any 1 Bits Left
LDY TEMP2 ;Load Y with MSB
TAX ;and Copy LSB to X
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RTS
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;div(m,n) - MULTiply Two Numbers
;Args: A = Dividend
; Y = Divisor
;Sets: TEMP0 = 0
; TEMP1 = Divisor
;Affects: N,Z,C
;Returns: A = Quotient
; Y = Remainder
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DIV: STA TEMP0 ;Store Dividend
STY TEMP1 ;Store Divisor
;Divide TEMP0 by TEMP1
DIVT: LDA #$00 ;Clear Accumulator
LDX #$07 ;Load Loop Counter
CLC
.DIVL ROL TEMP0 ;Shift Bit Out of Dividend
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ROL ; into Accumulator
CMP TEMP1 ;If Accumulator
BCC .DIVS ; >= Divisor
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SBC TEMP1 ;Subtract Divisor
.DIVS DEX ;Decrement Counter
BPL .DIVL ; and Loop
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ROL TEMP0 ;Shift Result into Dividend
TAY ;Copy Remainder to Y Register
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LDA TEMP0 ;Load Result into Accumulator
RTS
;Generate Pseudo-Random Number between 1 and 255
;Uses RANDOM (must be non-zero on entry)
;Affects A,N,Z,C
RAND: LDA RANDOM ;Load Last Result
ASL ;Shift the Seed
BCC .RANDX ;If a one was shifted out
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EOR #$1D ; Twiddle the bite
.RANDX STA RANDOM ;Save the Seed
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RTS
;Seed Pseudo-Random Number Generator
;Uses RDSEED (if A is zero)
;Affects A,N,Z,C
;Sets RANDOM
RANDS: ORA #$00 ;If Passed Value not 0
BNE .RANDX ; Store in Seed and Return
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LDA RDSEED ;Load System Generated Seed
BNE .RANDX ;If Not 0, Store and Return
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ADC #$01 ;Else Add 1 or 2
BNE .RANDX ; then Store and Return
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;atoc(&s) - ASCII string TO Character
;Args: Y,X = Address of String to Convert
;Uses: TEMP0, TEMP1
;Sets: SRCLO, SRCHI = Address of String
;Returns: A = Converted Number
; C,N,Z based on Accumulator
; Y = Number of Digits
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ATOC: JSR SETSRC ;Initialize Source String
STY TEMP0 ;Initialize Result
.ATOCL LDA (SRCLO),Y ;Get Next Character
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CMP #$30 ;If Less Than '0'
BCC .ATOCX ; Exit
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CMP #$3A ;If Greater Than '9'
BCS .ATOCX ; Exit
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AND #$0F ;Convert to Binary Nybble
STA TEMP1 ; and Save It
LDA TEMP0 ;Load Result
ASL ;Multiply by 5 by
ASL ; Multiplying by 4
ADC TEMP0 ; And Adding Itself
ASL ;Multiply that by 2
ADC TEMP1 ;Add Saved Nybble
STA TEMP0 ; and Store Result
INY ;Increment Index
BPL .ATOCL ; and Loop
.ATOCX LDA TEMP0 ;Load Result
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RTS ;And Return
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;ctoa(n) - Character TO ASCII string
;Args: Y,X = Address of String to Populate
;Sets: DSTLO, DSTHI = Address of String
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; TEMP0 = Ones Digit
; TEMP1 = Tens Digit
; TEMP2 = Hundreds Digit
;Affects: C,N.Z
;Returns: A,Y = Length of String
CTOA: JSR SETDST ;Initialize Destination String
LDY #0 ;Initialize Index into String
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JSR CUBCD ;Convert Accumulator to Unpacked BCD
LDA TEMP2 ;Get MSB
BEQ .CTOA1 ;If Not Zero
JSR .CTOAN ; Convert Low Nybble
.CTOA1 LDA TEMP1 ;Get Low Byte
BNE .CTOA2 ;If Not Zero
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CMP TEMP2 ; and Hundreds
BEQ .CTOA3 ; not Zero
.CTOA2 JSR .CTOAN ; Convert It
.CTOA3 LDA TEMP0 ;Get Low Byte
JSR .CTOAN ;and Convert Low Nybble
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LDA #$00
BEQ .CTOAX ;Terminate String
.CTOAN ORA #$30 ;Convert to ASCII digit
.CTOAX STA (DSTLO),Y ;Store in String
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INY ;and Increment Offset
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TYA ;Copy String Length to Accumulator
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RTS
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;cubcd(n) - Convert and Unpack BCD number
;Args: A - Number to Convert
;upbcd() - UnPack 3-digit BCD number
;Uses: TEMP1 = Low Byte
; TEMP2 = High Nybble
;Sets: TEMP0 = Ones Digit
; TEMP1 = Tens Digit
; TEMP2 = Hundreds Digit
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;Affects: A,N,Z
;Returns: X = 0
CUBCD: JSR CVBCD ;Convert Accumulator to BCD
UPBCD: LDA TEMP1 ;Get Low Byte
AND #$0F ;Strip High Nybbleet
STA TEMP0 ;Save in Ones
LDA TEMP1 ;Get Low Byte
LSR ;Shift High Nybble
LSR ; into Low Nybble
LSR
LSR
STA TEMP1 ;Save in Tens
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RTS
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;ConVert number to packed Binary Coded Decimal
;Args: A - Number to Convert
;Destroys: TEMP0
;Sets: TEMP1 = Tens and Ones Digit
; TEMP2 = Hundreds Digit
;Returns: A = Hundreds Digit
; X = 0
CVBCD: STA TEMP0 ;Save Binary Value
CVBCDT: LDA #0 ;Clear BCD Bytes
STA TEMP1
STA TEMP2
LDX #8 ;Process 8 bits of Binary
PHP ;Save Status Register
SEI ;Disable Interupts
SED ;Set Decimal Mode
.CVBCDL ASL TEMP0 ;Shift High Bit into Carry
LDA TEMP1 ;Add BCD Low Byte to Itself
ADC TEMP1 ; Plus Bit Shifted out of Binary
STA TEMP1 ; Effectively Multiplying It by 2
LDA TEMP2 ;Add BCD MSB to Itself
ADC TEMP2 ; Plus Bit Shifted out of Low Byte
STA TEMP2 ; Effectively Multiplying It by 2
DEX ;Decrement Counter and
BNE .CVBCDL ; Process Next Bit
PLP ;Restore Status Register
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RTS
ENDSUBROUTINE