interrupts work now!

src/cpu.rs

@@ -27,8 +27,7 @@ pub struct CpuController(Sender<CpuControl>);
 pub enum CpuControl {
     Irq,
     Nmi,
-    Stop,
-    Resume,
+    Toggle,
     Data,
     Cycle,
 }
@@ -43,11 +42,8 @@ impl CpuController {
     pub fn nmi(&self) {
         self.0.send(CpuControl::Nmi);
     }
-    pub fn stop(&self) {
-        self.0.send(CpuControl::Stop);
-    }
-    pub fn resume(&self) {
-        self.0.send(CpuControl::Resume);
+    pub fn toggle(&self) {
+        self.0.send(CpuControl::Toggle);
     }
     pub fn cycle(&self) {
         self.0.send(CpuControl::Cycle);
@@ -215,8 +211,9 @@ impl Cpu {
                 match control {
                     CpuControl::Nmi => self.nmi = true,
                     CpuControl::Irq => self.irq = true,
-                    CpuControl::Stop => self.stopped = true,
-                    CpuControl::Resume => self.stopped = false,
+                    CpuControl::Toggle => {
+                        self.stopped = !self.stopped;
+                    }
                     CpuControl::Cycle => self.cycle = true,
                     CpuControl::Data => {} // self
                                            // .state_tx
@@ -239,9 +236,13 @@ impl Cpu {
 
     pub fn cycle(&mut self) {
         self.receive_control();
-        if self.stopped {
+
+        if self.stopped & !self.cycle {
+            // self.set_flag(StatusFlag::IrqDisable, true);
             return;
         }
+        self.cycle = false;
+
         while self.pending_cycles != 0 {
             // roughly cycle-accurate timing
             sleep(Duration::from_nanos(500));
@@ -253,38 +254,12 @@ impl Cpu {
         let opcode = self.read(self.pc);
         let instruction = get_instruction(opcode);
         instruction.call(self);
-        // match instruction {
-        //     Instruction::Valid(valid_instruction) => {
-        //         // println!("a: {a:#04x}, x: {x:#04x}, y: {y:#04x}, pc: {pc:#06x}, sp: {s:#04x}, sr: {p:#010b}, irq: {irq:?}, nmi: {nmi:?}", a = self.a, x = self.x, y = self.y, pc = self.pc, s = self.s, p = self.p, irq = self.irq, nmi = self.nmi);
-        //         // println!(
-        //         //     "Instruction: {:?}, {:#04x}",
-        //         //     valid_instruction.opcode, opcode
-        //         // );
-        //         // println!("");
-        //         self.pc += 1;
-        //         match valid_instruction.opcode.call(self) {
-        //             Ok(_) => {
-        //                 self.pending_cycles += valid_instruction.cycles as usize;
-        //             }
-        //             Err(_) => {
-        //                 println!("An IncompatibleAddrMode was used at address {:#06x} for instruction {:?}", self.pc, valid_instruction);
-        //             }
-        //         };
-        //     }
-        //     Instruction::Invalid(invalid_instruction) => match invalid_instruction.opcode {
-        //         0x02 => {
-        //             // println!("a: {a:#04x}, x: {x:#04x}, y: {y:#04x}, pc: {pc:#06x}, sp: {s:#04x}, sr: {p:#010b}, irq: {irq:?}, nmi: {nmi:?}", a = self.a, x = self.x, y = self.y, pc = self.pc, s = self.s, p = self.p, irq = self.irq.try_recv().unwrap_or_default(), nmi = self.nmi);
-        //             let _ = &self.memory.dump();
-        //         }
-        //         _ => {
-        //             println!(
-        //                 "An invalid instruction with opcode {:#04x} was called at address {:#06x}",
-        //                 invalid_instruction.opcode, self.pc
-        //             );
-        //         }
-        //     },
-        // }
-        // self.cycle_count += 1;
+        // println!("a: {a:#04x}, x: {x:#04x}, y: {y:#04x}, pc: {pc:#06x}, sp: {s:#04x}, sr: {p:#010b}, irq: {irq:?}, nmi: {nmi:?}", a = self.a, x = self.x, y = self.y, pc = self.pc, s = self.s, p = self.p, irq = self.irq, nmi = self.nmi);
+        // println!(
+        //     "Instruction: {:?}, {:#04x}",
+        //     valid_instruction.opcode, opcode
+        // );
+        // println!("");
     }
     pub fn stop(&mut self) {
         self.stopped = true;

src/instructions.rs

@@ -3,6 +3,7 @@
 use core::panic;
 
 use termion::cursor::Goto;
+use termion::{clear, color};
 
 use crate::cpu::{Cpu, StatusFlag};
 use crate::memory::{MemoryReader, MemoryWriter};
@@ -20,13 +21,39 @@ pub struct Instruction<'a> {
 
 impl Instruction<'_> {
     pub fn call(&self, cpu: &mut Cpu) {
+        print!("{}{}instruction: {:?}, a: {a:#04x}, x: {x:#04x}, y: {y:#04x}, pc: {pc:#06x}, sp: {s:#04x}, sr: {p:#010b}, irq: {irq:?}, nmi: {nmi:?}", Goto(0, 31),clear::UntilNewline, self.name, a = cpu.a, x = cpu.x, y = cpu.y, pc = cpu.pc, s = cpu.s, p = cpu.p, irq = cpu.irq, nmi = cpu.nmi);
+        // print!(
+        //     "{}instruction: {:?}, pc: {:#04x}",
+        //     Goto(0, 31),
+        //     self.name,
+        //     cpu.pc
+        // );
+        print!(
+            "{}{:02x} {:02x} {:02x} {:02x} {:02x} {:02x} {:02x} {:02x} {}{}{:02x}{}{} {:02x} {:02x} {:02x} {:02x} {:02x} {:02x} {:02x} {:02x}",
+            Goto(0, 32),
+            cpu.read(cpu.pc.wrapping_sub(8)),
+            cpu.read(cpu.pc.wrapping_sub(7)),
+            cpu.read(cpu.pc.wrapping_sub(6)),
+            cpu.read(cpu.pc.wrapping_sub(5)),
+            cpu.read(cpu.pc.wrapping_sub(4)),
+            cpu.read(cpu.pc.wrapping_sub(3)),
+            cpu.read(cpu.pc.wrapping_sub(2)),
+            cpu.read(cpu.pc.wrapping_sub(1)),
+                    color::Bg(color::Rgb(0xFF, 0xCC, 0x00)),
+                    color::Fg(color::Rgb(0x11, 0x05, 0x00)),
+            cpu.read(cpu.pc),
+                    color::Fg(color::Rgb(0xFF, 0xCC, 0x00)),
+                    color::Bg(color::Rgb(0x11, 0x05, 0x00)),
+            cpu.read(cpu.pc.wrapping_add(1)),
+            cpu.read(cpu.pc.wrapping_add(2)),
+            cpu.read(cpu.pc.wrapping_add(3)),
+            cpu.read(cpu.pc.wrapping_add(4)),
+            cpu.read(cpu.pc.wrapping_add(5)),
+            cpu.read(cpu.pc.wrapping_add(6)),
+            cpu.read(cpu.pc.wrapping_add(7)),
+            cpu.read(cpu.pc.wrapping_add(8)),
+        );
         cpu.pc = cpu.pc.wrapping_add(1); // read instruction byte
-                                         // println!(
-                                         //     "{}instruction: {:?}, pc: {:#04x}",
-                                         //     Goto(0, 31),
-                                         //     self.name,
-                                         //     cpu.pc
-                                         // );
         match self.instr_fn {
             // existence of instr_fn means this is a valid instruction
             Some(instr_fn) => {
@@ -732,7 +759,10 @@ fn rti(cpu: &mut Cpu, _address: Option<u16>) {
 
 fn rts(cpu: &mut Cpu, _address: Option<u16>) {
     let return_address = cpu.pop_stack_word();
-    cpu.pc = return_address + 3; // Go back to where we jsr'ed, skipping the operand
+    // cpu.pc = return_address + 3; // Go back to where we jsr'ed, skipping the operand
+    cpu.pc = return_address.wrapping_add(1); // we love an off by 2 error!
+                                             // TODO: figure out why
+                                             // this needs to be like this
 }
 
 fn sbc(cpu: &mut Cpu, address: Option<u16>) {

src/main.rs

@@ -60,8 +60,9 @@ fn main() {
                 Key::Char('q') => {
                     break 'main;
                 }
-                // Key::Char(' ') => cpu_controller.stop(),
-                // Key::Char('\n') => cpu_controller.resume(),
+                Key::Char(' ') => cpu_controller.toggle(),
+                Key::Char('\n') => cpu_controller.cycle(),
+                Key::Char('i') => cpu_controller.irq(),
                 _ => keyboard.read_keys(key),
             }
         }

src/roms/keyboard.asm

@@ -10,30 +10,39 @@ reset:
     sei
     ldx #0; initialize data stack pointer
 
-initdisplay:
-    lda #0
-    ldy #0
+; initdisplay:
+;     lda #0
+;     ldy #0
 
-cleardisplay:
-    sta $6000,y
-    sta $6100,y
-    sta $6200,y
-    sta $6300,y
-    sta $6400,y
-    sta $6500,y
-    sta $6600,y
-    sta $6700,y ; this goes slightly over but it's fine
-    iny
-    bne cleardisplay
+; cleardisplay:
+;     sta $6000,y
+;     sta $6100,y
+;     sta $6200,y
+;     sta $6300,y
+;     sta $6400,y
+;     sta $6500,y
+;     sta $6600,y
+;     sta $6700,y ; this goes slightly over but it's fine
+;     iny
+;     bne cleardisplay
     cli
 
 main:
-    ; jsr read_keys
+    jsr test
     ; lda key_buffer
-    lda $4400
-    sta $6000
+    ; lda $4400
+    ; sta $6000
+    nop
+    nop
+    nop
     jmp main
 
+test:
+    nop
+    nop
+    nop
+    rts
+
 ; first, let's do the simplest case of just the letter a being pressed
 ; 1. check row 2 ($4402, where the a key is) for pressed keys
 ; 2. if any keys are pressed, check if the key is a (bit 0)
@@ -104,6 +113,8 @@ fill: ; fills an area from (x1, y1) to (x2, y2) will character c, (n1: c n2: x1
     jsr get_char_address
 
 irq: 
+    lda $4400
+    sta $6000
     rts
 
 isr: ; interrupt service routine

src/video.rs

@@ -204,7 +204,7 @@ impl Screen {
         }
     }
     pub fn draw(&mut self) {
-        // self.controller.irq();
+        self.controller.irq();
         self.renderer.render();
     }