// // 6522Storage.hpp // Clock Signal // // Created by Thomas Harte on 04/09/2017. // Copyright 2017 Thomas Harte. All rights reserved. // #pragma once #include namespace MOS::MOS6522 { class MOS6522Storage { protected: // Phase toggle bool is_phase2_ = false; // The registers struct Registers { // "A low reset (RES) input clears all R6522 internal registers to logic 0" uint8_t output[2] = {0, 0}; uint8_t input[2] = {0, 0}; uint8_t data_direction[2] = {0, 0}; uint16_t timer[2] = {0, 0}; uint16_t timer_latch[2] = {0, 0}; uint16_t last_timer[2] = {0, 0}; int next_timer[2] = {-1, -1}; uint8_t shift = 0; uint8_t auxiliary_control = 0; uint8_t peripheral_control = 0; uint8_t interrupt_flags = 0; uint8_t interrupt_enable = 0; bool timer_needs_reload = false; uint8_t timer_port_b_output = 0xff; } registers_; // Control state. struct { bool lines[2] = {false, false}; } control_inputs_[2]; enum class LineState { On, Off, Input }; struct { LineState lines[2] = {LineState::Input, LineState::Input}; } control_outputs_[2]; enum class HandshakeMode { None, Handshake, Pulse } handshake_modes_[2] = { HandshakeMode::None, HandshakeMode::None }; bool timer_is_running_[2] = {false, false}; bool last_posted_interrupt_status_ = false; int shift_bits_remaining_ = 8; enum InterruptFlag: uint8_t { CA2ActiveEdge = 1 << 0, CA1ActiveEdge = 1 << 1, ShiftRegister = 1 << 2, CB2ActiveEdge = 1 << 3, CB1ActiveEdge = 1 << 4, Timer2 = 1 << 5, Timer1 = 1 << 6, }; enum class ShiftMode { Disabled = 0, InUnderT2 = 1, InUnderPhase2 = 2, InUnderCB1 = 3, OutUnderT2FreeRunning = 4, OutUnderT2 = 5, OutUnderPhase2 = 6, OutUnderCB1 = 7 }; bool timer1_is_controlling_pb7() const { return registers_.auxiliary_control & 0x80; } bool timer1_is_continuous() const { return registers_.auxiliary_control & 0x40; } bool is_shifting_out() const { return registers_.auxiliary_control & 0x10; } int timer2_clock_decrement() const { return 1 ^ ((registers_.auxiliary_control >> 5)&1); } int timer2_pb6_decrement() const { return (registers_.auxiliary_control >> 5)&1; } ShiftMode shift_mode() const { return ShiftMode((registers_.auxiliary_control >> 2) & 7); } bool portb_is_latched() const { return registers_.auxiliary_control & 0x02; } bool port1_is_latched() const { return registers_.auxiliary_control & 0x01; } }; }