; Divide 16 bit number in R7,R6 by 8 bit number in B. Put result in A. div16: CJNE R6,#0,calcdiv CJNE R7,#0,calcdiv MOV R2,#0 ; If R7:R6 is 0, then result is 0 LJMP dend calcdiv:CLR C MOV A,B RRC A MOV R5,A MOV A,#0 RRC A MOV R4,A ; R5,R4 is the initial divisor MOV R2,#0 ; Result MOV R3,#80h ; Bit value for result dloop: MOV A,R6 CLR C SUBB A,R4 ; LS Byte subtract MOV R1,A MOV A,R7 SUBB A,R5 ; MS Byte subtract JC set0 ; If carry set, subtract was not possible MOV R7,A MOV A,R1 MOV R6,A ; R7,R6 is the new value to subtract from MOV A,R2 ADD A,R3 MOV R2,A ; Set bit in result set0: CLR C MOV A,R3 RRC A MOV R3,A ; New bit value for result JZ dend ; all bits have been done CLR C MOV A,R5 RRC A MOV R5,A MOV A,R4 RRC A MOV R4,A ; R5,R4 is new divisor LJMP dloop ; do next bit dend: MOV A,R2 ; Result in A RET ; Divide 20 bit number in R7:R6:R5 by 10 bit number in R3:R2. ; Put result in A:B. div20: MOV A,R5 ORL A,R6 ORL A,R7 JNZ caldiv SETB RS0 ; Reg bank 1 MOV R7,#0 MOV R6,#0 ; If R7:R6:R5 is 0, then result is 0 CLR RS0 ; Reg bank 0 LJMP d20end caldiv: MOV R4,#0 MOV R1,#3 ; Divisor is already 6 left. Shift another 3. shftsub:CLR C MOV A,R2 RLC A MOV R2,A MOV A,R3 RLC A MOV R3,A MOV A,R4 RLC A MOV R4,A DJNZ R1,shftsub ; R4:R3:R2 is the initial sutractor SETB RS0 ; Reg bank 1 MOV R7,#0 MOV R6,#0 ; Result in R7:R6 bank 1 MOV R5,#80h MOV R4,#0 ; Bit value for result in R5:R4 bank 1 CLR RS0 ; Reg bank 0 d20loop:CLR C MOV A,R5 SUBB A,R2 ; LS Byte subtract MOV R0,A MOV A,R6 SUBB A,R3 ; Mid Byte subtract MOV R1,A MOV A,R7 SUBB A,R4 ; MS Byte subtract JC res0 ; If carry set, subtract was not possible MOV R7,A MOV A,R1 MOV R6,A MOV A,R0 MOV R5,A ; Update subtractee SETB RS0 ; Reg bank 1 MOV A,R6 ORL A,R4 MOV R6,A ; Set bit in result LS Byte MOV A,R7 ORL A,R5 MOV R7,A ; Set bit in result MS Byte res0: SETB RS0 ; Reg bank 1 CLR C MOV A,R5 RRC A MOV R5,A MOV A,R4 RRC A MOV R4,A ; New bit value for result ANL A,#20h CLR RS0 ; Reg bank 0 JNZ d20end ; all bits have been done CLR C MOV A,R4 RRC A MOV R4,A MOV A,R3 RRC A MOV R3,A MOV A,R2 RRC A MOV R2,A ; R4:R3:R2 is the new subtractor LJMP d20loop ; do next bit d20end: SETB RS0 ; Reg bank 1 MOV A,R7 MOV B,R6 ; Result in A:B CLR RS0 ; Reg bank 0 RET
See:
file: /Techref/8051/div32by16-ad.htm, 4KB, , updated: 2007/9/25 13:24, local time: 2024/12/2 01:08,
owner: JMN-EFP-786,
18.218.76.193:LOG IN
|
©2024 These pages are served without commercial sponsorship. (No popup ads, etc...).Bandwidth abuse increases hosting cost forcing sponsorship or shutdown. This server aggressively defends against automated copying for any reason including offline viewing, duplication, etc... Please respect this requirement and DO NOT RIP THIS SITE. Questions? <A HREF="http://sxlist.com/Techref/8051/div32by16-ad.htm"> Divide 32bits by 16bits</A> |
Did you find what you needed? |
Welcome to sxlist.com!sales, advertizing, & kind contributors just like you! Please don't rip/copy (here's why Copies of the site on CD are available at minimal cost. |
Welcome to sxlist.com! |
.