; ------------------------------------------------------------------ ; -- _____ ______ _____ - ; -- |_ _| | ____|/ ____| - ; -- | | _ __ | |__ | (___ Institute of Embedded Systems - ; -- | | | '_ \| __| \___ \ Zurich University of - ; -- _| |_| | | | |____ ____) | Applied Sciences - ; -- |_____|_| |_|______|_____/ 8401 Winterthur, Switzerland - ; ------------------------------------------------------------------ ; -- ; -- main.s ; -- ; -- CT1 P06 "ALU und Sprungbefehle" mit MUL ; -- ; -- $Id: main.s 4857 2019-09-10 17:30:17Z akdi $ ; ------------------------------------------------------------------ ;Directives PRESERVE8 THUMB ; ------------------------------------------------------------------ ; -- Address Defines ; ------------------------------------------------------------------ ADDR_LED_15_0 EQU 0x60000100 ADDR_LED_31_16 EQU 0x60000102 ADDR_DIP_SWITCH_7_0 EQU 0x60000200 ADDR_DIP_SWITCH_15_8 EQU 0x60000201 ADDR_7_SEG_BIN_DS3_0 EQU 0x60000114 ADDR_BUTTONS EQU 0x60000210 ADDR_LCD_RED EQU 0x60000340 ADDR_LCD_GREEN EQU 0x60000342 ADDR_LCD_BLUE EQU 0x60000344 LCD_BACKLIGHT_FULL EQU 0xffff LCD_BACKLIGHT_OFF EQU 0x0000 MASK_LOW_NIBBLE EQU 0xf FACTOR_10 EQU 0xa BITMASK_KEY_T0 EQU 0x01 ; ------------------------------------------------------------------ ; -- myCode ; ------------------------------------------------------------------ AREA myCode, CODE, READONLY ENTRY main PROC export main ; STUDENTS: To be programmed LDR R2, =MASK_LOW_NIBBLE ; Load BCD Tens in R0 LDR R0, =ADDR_DIP_SWITCH_15_8 LDRB R0, [R0] ANDS R0, R0, R2 ; Load BCD Ones in R1 LDR R1, =ADDR_DIP_SWITCH_7_0 LDRB R1, [R1] ANDS R1, R1, R2 ; Check if T0 is pressed. If pressed goto CalcByMult LDR R3, =ADDR_BUTTONS ; load base address of keys LDR R4, =BITMASK_KEY_T0 ; load key mask T0 LDRB R2, [R3] ; load key values TST R2, R4 ; check, if key T0 is pressed BEQ CalcByMult ; goto CalcByMult CalcByBitShift ; set the LCD background to red LDR R2, =ADDR_LCD_RED LDR R3, =0xffff STRH R3, [R2] LDR R2, =ADDR_LCD_BLUE LDR R3, =0x0 STRH R3, [R2] ; Calculate Bin Value to R2 by Bit Shifting ; R2 = R0 * 10 LSLS R2, R0, #3 LSLS R3, R0, #1 ADDS R2, R2, R3 ADDS R2, R2, R1 EndCalcByBitShift ; goto EndCalcByMult B EndCalcByMult CalcByMult ; set the LCD background to blue LDR R2, =ADDR_LCD_RED LDR R3, =0x0 STRH R3, [R2] LDR R2, =ADDR_LCD_BLUE LDR R3, =0xffff STRH R3, [R2] ; Calculate Bin Value to R2 by Multiplication ; R2 = R0 * 10 LDR R2, =FACTOR_10 MULS R2, R0, R2 ADDS R2, R2, R1 EndCalcByMult ; Shift BCD Tens in high Nibble in R0 ; Add BCD Ones in low Nibble in R0 LSLS R0, R0, #4 ORRS R0, R0, R1 ; Add Bin Value in higher Byte in R0 LSLS R2, R2, #8 ORRS R0, R0, R2 ; Show R0 on LEDs LDR R2, =ADDR_LED_15_0 STRH R0, [R2] ; Show R0 on 7-Segment LDR R2, =ADDR_7_SEG_BIN_DS3_0 STRH R0, [R2] ; END: To be programmed B main ENDP ;---------------------------------------------------- ; Subroutines ;---------------------------------------------------- ;---------------------------------------------------- ; pause for disco_lights pause PROC PUSH {R0, R1} LDR R1, =1 LDR R0, =0x000FFFFF loop SUBS R0, R0, R1 BCS loop POP {R0, R1} BX LR ALIGN ENDP ; ------------------------------------------------------------------ ; End of code ; ------------------------------------------------------------------ END