.scope raster_irq ;;https://codebase64.org/doku.php?id=base:introduction_to_raster_irqs sei ;disable maskable IRQs lda #$7f sta $dc0d ;disable timer interrupts which can be generated by the two CIA chips sta $dd0d ;the kernal uses such an interrupt to flash the cursor and scan the keyboard, so we better ;stop it. lda $dc0d ;by reading this two registers we negate any pending CIA irqs. lda $dd0d ;if we don't do this, a pending CIA irq might occur after we finish setting up our irq. ;we don't want that to happen. lda #$01 ;this is how to tell the VICII to generate a raster interrupt sta $d01a lda #$0FF ;this is how to tell at which rasterline we want the irq to be triggered sta $d012 lda #$1b ;as there are more than 256 rasterlines, the topmost bit of $d011 serves as sta $d011 ;the 9th bit for the rasterline we want our irq to be triggered. ;here we simply set up a character screen, leaving the topmost bit 0. lda #$35 ;we turn off the BASIC and KERNAL rom here sta $01 ;the cpu now sees RAM everywhere except at $d000-$e000, where still the registers of ;SID/VICII/etc are visible lda #irq sta $ffff cli ;enable maskable interrupts again jmp irq_end irq: ;Being all kernal irq handlers switched off we have to do more work by ourselves. ;When an interrupt happens the CPU will stop what its doing, store the status and return address ;into the stack, and then jump to the interrupt routine. It will not store other registers, and if ;we destroy the value of A/X/Y in the interrupt routine, then when returning from the interrupt to ;what the CPU was doing will lead to unpredictable results (most probably a crash). So we better ;store those registers, and restore their original value before reentering the code the CPU was ;interrupted running. ;If you won't change the value of a register you are safe to not to store / restore its value. ;However, it's easy to screw up code like that with later modifying it to use another register too ;and forgetting about storing its state. ;The method shown here to store the registers is the most orthodox and most failsafe. sei pha ;store register A in stack txa pha ;store register X in stack tya pha ;store register Y in stack lda #$ff ;this is the orthodox and safe way of clearing the interrupt condition of the VICII. sta $d019 ;if you don't do this the interrupt condition will be present all the time and you end ;up having the CPU running the interrupt code all the time, as when it exists the ;interrupt, the interrupt request from the VICII will be there again regardless of the ;rasterline counter. ;it's pretty safe to use inc $d019 (or any other rmw instruction) for brevity, they ;will only fail on hardware like c65 or supercpu. c64dtv is ok with this though. pla tay ;restore register Y from stack (remember stack is FIFO: First In First Out) pla tax ;restore register X from stack pla ;restore register A from stack clc rti ;Return From Interrupt, this will load into the Program Counter register the address ;where the CPU was when the interrupt condition arised which will make the CPU continue ;the code it was interrupted at also restores the status register of the CPU irq_end: .endscope