Steve2/A2Mac/Apple2_mmio.h
Tamas Rudnai 80d6190fa1 - Address mode adjustments
- Some fine tunings
- Stack PUSH/POP address fix
- DispatchWorkItem to be able to kill emulator thread
2019-09-11 18:36:30 -07:00

352 lines
7.3 KiB
C

//
// main.c
// 6502
//
// Created by Tamas Rudnai on 7/14/19.
// Copyright © 2019 GameAlloy. All rights reserved.
//
#ifndef __APPLE2_MMIO_H__
#define __APPLE2_MMIO_H__
#include "common.h"
#include "6502.h"
enum mmio {
io_KBD = 0xC000,
io_KBDSTRB = 0xC010,
};
uint8_t RAM[ 64 * KB ] = {0};
#define PAGESIZE 256
#define PAGES 16
//uint8_t ram_0[PAGESIZE];
//uint8_t ram_1[PAGESIZE];
//uint8_t ram_2[PAGESIZE];
//uint8_t ram_3[PAGESIZE];
//uint8_t ram_4[PAGESIZE];
//uint8_t ram_5[PAGESIZE];
//uint8_t ram_6[PAGESIZE];
//uint8_t ram_7[PAGESIZE];
//uint8_t ram_8[PAGESIZE];
//uint8_t ram_9[PAGESIZE];
//uint8_t ram_A[PAGESIZE];
//uint8_t ram_B[PAGESIZE];
//uint8_t aui_C[PAGESIZE];
//uint8_t rom_D[PAGESIZE];
//uint8_t rom_E[PAGESIZE];
//uint8_t rom_F[PAGESIZE];
//
//uint8_t * ram[PAGES] = {
// ram_0,
// ram_1,
// ram_2,
// ram_3,
// ram_4,
// ram_5,
// ram_6,
// ram_7,
// ram_8,
// ram_9,
// ram_A,
// ram_B,
// aui_C,
// rom_D,
// rom_E,
// rom_F,
//};
//uint8_t ( * mmio_read [ 64 * KB ] )( uint16_t addr );
typedef union address16_u {
uint16_t addr;
struct {
uint8_t offs;
uint8_t page;
};
} address16_t;
static inline uint8_t ioRead( uint16_t addr ) {
// printf("mmio:%04X\n", addr);
switch (addr) {
case io_KBD:
return RAM[io_KBD];
case io_KBDSTRB:
// TODO: This is very slow!
dbgPrintf("io_KBDSTRB\n");
return RAM[io_KBD] &= 0x7F;
default:
break;
}
return 0;
}
static inline void ioWrite( uint16_t addr ) {
// printf("mmio:%04X\n", addr);
switch (addr) {
case io_KBD:
return;
default:
break;
}
return;
}
/**
Naive implementation of RAM read from address
**/
static inline uint8_t memread_zp( uint8_t addr ) {
return RAM[ addr ];
}
static inline uint8_t memread( uint16_t addr ) {
// switch ( ((address16_t)addr).page ) {
// case 0xC0:
// case 0xC1:
// case 0xC2:
// case 0xC3:
// case 0xC4:
// case 0xC5:
// case 0xC6:
// case 0xC7:
// case 0xC8:
// case 0xC9:
// case 0xCA:
// case 0xCB:
// case 0xCC:
// case 0xCD:
// case 0xCE:
// case 0xCF:
// return ioRead(addr);
//
// defaut:
// break;
// }
if ( (addr >= 0xC000) && (addr < 0xD000) ) {
ioRead(addr);
}
return RAM[ addr ];
}
/**
Naive implementation of RAM read from address
**/
static inline uint16_t memread16( uint16_t addr ) {
// if ( ( addr >= 0xC000 ) && ( addr < 0xD000 ) ) {
// return mmioRead(addr);
// }
// dbgPrintf("%04X ", * (uint16_t*) (& RAM[ addr ]));
return * (uint16_t*) (& RAM[ addr ]);
}
/**
Naive implementation of RAM read from address
**/
//static inline uint16_t memioread16( uint16_t addr ) {
// return (uint16_t)mmio_read[ addr ](addr);
//}
/**
Naive implementation of RAM write to address
**/
static void memwrite_zp( uint8_t addr, uint8_t byte ) {
RAM[ addr ] = byte;
}
/**
Naive implementation of RAM write to address
**/
static void memwrite( uint16_t addr, uint8_t byte ) {
// if ( addr >= 0xD000 ) {
// // ROM
// return;
// }
// if ( addr >= 0xC000 ) {
// return mmioWrite(addr);
// }
//
RAM[ addr ] = byte;
}
/**
Fetching 1 byte from memory address pc (program counter)
increase pc by one
**/
static inline uint8_t fetch() {
dbgPrintf("%02X ", RAM[m6502.pc]);
return memread( m6502.pc++ );
}
/**
Fetching 2 bytes as a 16 bit number from memory address pc (program counter)
increase pc by one
**/
static inline uint16_t fetch16() {
dbgPrintf("%04X ", memread16(m6502.pc));
uint16_t word = memread16( m6502.pc );
m6502.pc += 2;
return word;
}
/**
abs .... absolute OPC $LLHH,X
operand is address; effective address is address incremented by X with carry **
**/
static inline uint16_t addr_abs() {
return fetch16();
}
static inline uint8_t src_abs() {
return memread( addr_abs() );
}
static inline uint8_t * dest_abs() {
return & RAM[ addr_abs() ];
}
static inline int8_t rel_addr() {
return fetch();
}
static inline uint16_t abs_addr() {
return fetch16();
}
static inline uint16_t ind_addr() {
return memread16( fetch16() );
}
/**
abs,X .... absolute, X-indexed OPC $LLHH,X
operand is address; effective address is address incremented by X with carry **
**/
static inline uint16_t addr_abs_X() {
return fetch16() + m6502.X;
}
static inline uint8_t src_abs_X() {
return memread( addr_abs_X() );
}
static inline uint8_t * dest_abs_X() {
return & RAM[ addr_abs_X() ];
}
/**
abs,Y .... absolute, Y-indexed OPC $LLHH,Y
operand is address; effective address is address incremented by Y with carry **
**/
static inline uint16_t addr_abs_Y() {
return abs_addr() + m6502.Y;
}
static inline uint8_t src_abs_Y() {
return memread(addr_abs_Y());
}
static inline uint8_t * dest_abs_Y() {
return & RAM[ addr_abs_Y() ];
}
static inline uint16_t imm() {
return fetch();
}
/**
zpg .... zeropage OPC $LL
operand is zeropage address (hi-byte is zero, address = $00LL)
**/
static inline uint8_t addr_zp() {
return fetch();
}
static inline uint8_t src_zp() {
return memread_zp(addr_zp());
}
static inline uint8_t * dest_zp() {
return & RAM[ addr_zp() ];
}
/**
get a 16 bit address from the zp:zp+1
**/
static inline uint16_t addr_zp_ind( uint8_t addr ) {
return memread16(addr);
}
/**
X,ind .... X-indexed, indirect OPC ($LL,X)
operand is zeropage address;
effective address is word in (LL + X, LL + X + 1), inc. without carry: C.w($00LL + X)
**/
static inline uint16_t addr_X_ind() {
return addr_zp_ind( addr_zp() + m6502.X );
}
static inline uint8_t src_X_ind() {
return memread( addr_X_ind() );
}
static inline uint8_t * dest_X_ind() {
return & RAM[ addr_X_ind() ];
}
/**
ind,Y .... indirect, Y-indexed OPC ($LL),Y
operand is zeropage address;
effective address is word in (LL, LL + 1) incremented by Y with carry: C.w($00LL) + Y
**/
static inline uint16_t addr_ind_Y() {
// uint8_t a = fetch();
// dbgPrintf("addr_ind_Y: %04X + %02X = %04X ", addr_zpg_ind( a ), m6502.Y, addr_zpg_ind( a ) + m6502.Y);
return addr_zp_ind( addr_zp() ) + m6502.Y;
}
static inline uint8_t src_ind_Y() {
return memread( addr_ind_Y() );
}
static inline uint8_t * dest_ind_Y() {
return & RAM[ addr_ind_Y() ];
}
/**
zpg,X .... zeropage, X-indexed OPC $LL,X
operand is zeropage address;
effective address is address incremented by X without carry **
**/
static inline uint8_t addr_zp_X() {
return addr_zp() + m6502.X;
}
static inline uint8_t src_zp_X() {
return memread_zp(addr_zp_X());
}
static inline uint8_t * dest_zp_X() {
return & RAM[ addr_zp_X() ];
}
/**
zpg,Y .... zeropage, Y-indexed OPC $LL,Y
operand is zeropage address;
effective address is address incremented by Y without carry **
**/
static inline uint8_t addr_zp_Y() {
return addr_zp() + m6502.Y;
}
static inline uint8_t src_zp_Y() {
return memread_zp(addr_zp_Y());
}
static inline uint8_t * dest_zp_Y() {
return & RAM[ addr_zp_Y() ];
}
#endif // __APPLE2_MMIO_H__