65816.js/cpu.js

4546 lines
117 KiB
JavaScript
Executable File

/*
* Copyright (c) 2011, Preston Skupinski <skupinsk@cse.msu.edu>
*
* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
(function(window) {
// A collection of helper functions.
var cpu_lib = {
r: {
p: {
check_z: function(cpu, val) {
if(val===0) {
cpu.p.z = 1;
} else {
cpu.p.z = 0;
}
}
}
},
addressing: {
Direct_page: function(instruction) {
this.bytes_required = function() {
return 2;
};
this.execute = function(cpu, bytes) {
cpu.cycle_count++;
if((cpu.r.d&0xff)!==0)
cpu.cycle_count++;
var memory_location = bytes[0] + cpu.r.d;
if(cpu.p.e||cpu.p.m) {
instruction.execute(cpu, [cpu.mmu.read_byte(memory_location)]);
} else {
instruction.execute(cpu, [cpu.mmu.read_byte(memory_location),
cpu.mmu.read_byte(memory_location+1)]);
}
};
},
Direct_page_indexed_x_indirect: function(instruction) {
this.bytes_required = function() {
return 2;
};
this.execute = function(cpu, bytes) {
cpu.cycle_count+=4;
if((cpu.r.d&0xff)!==0)
cpu.cycle_count++;
if(cpu.p.e) {
var memory_location = (bytes[0] + cpu.r.x) & 0xff,
low_byte_loc = cpu.mmu.read_byte_long(memory_location+cpu.r.d,0),
high_byte_read_loc = ((memory_location+1)&0xff)+cpu.r.d,
high_byte_loc = cpu.mmu.read_byte_long(high_byte_read_loc, 0);
instruction.execute(cpu, [cpu.mmu.read_byte((high_byte_loc<<8) |
low_byte_loc)]);
} else if(cpu.p.m) {
var memory_location = bytes[0] + cpu.r.d + cpu.r.x,
low_byte_loc = cpu.mmu.read_byte(memory_location),
high_byte_loc = cpu.mmu.read_byte(memory_location+1);
instruction.execute(cpu, [cpu.mmu.read_byte((high_byte_loc<<8) |
low_byte_loc)]);
} else {
var memory_location = bytes[0] + cpu.r.d + cpu.r.x,
absolute_location = cpu.mmu.read_word(memory_location),
low_byte = cpu.mmu.read_byte(absolute_location),
high_byte;
absolute_location++;
if(absolute_location&0x10000) {
high_byte = cpu.mmu.read_byte_long(absolute_location, cpu.r.dbr+1);
} else {
high_byte = cpu.mmu.read_byte(absolute_location);
}
instruction.execute(cpu, [low_byte, high_byte]);
}
};
},
Direct_page_indirect: function(instruction) {
this.bytes_required = function() {
return 2;
};
this.execute = function(cpu, bytes) {
cpu.cycle_count+=3;
if((cpu.r.d&0xff)!==0)
cpu.cycle_count++;
var memory_location = bytes[0] + cpu.r.d,
absolute_location = cpu.mmu.read_word(memory_location);
if(cpu.p.e||cpu.p.m) {
instruction.execute(cpu, [cpu.mmu.read_byte(absolute_location)]);
} else {
instruction.execute(cpu, [cpu.mmu.read_byte(absolute_location),
cpu.mmu.read_byte(absolute_location+1)]);
}
};
},
Direct_page_indirect_indexed_y: function(instruction) {
this.bytes_required = function() {
return 2;
};
this.execute = function(cpu, bytes) {
cpu.cycle_count+=3;
if((cpu.r.d&0xff)!==0)
cpu.cycle_count++;
var memory_location = bytes[0] + cpu.r.d,
original_location = cpu.mmu.read_word(memory_location),
absolute_location = original_location + cpu.r.y;
if((original_location&0xff00)!==(absolute_location&0xff00))
cpu.cycle_count++;
if(cpu.p.e||cpu.p.m) {
instruction.execute(cpu, [cpu.mmu.read_byte(absolute_location)]);
} else {
instruction.execute(cpu, [cpu.mmu.read_byte(absolute_location),
cpu.mmu.read_byte(absolute_location+1)]);
}
};
},
Direct_page_indirect_long: function(instruction) {
this.bytes_required = function() {
return 2;
};
this.execute = function(cpu, bytes) {
cpu.cycle_count+=4;
if((cpu.r.d&0xff)!==0)
cpu.cycle_count++;
var memory_location = bytes[0] + cpu.r.d,
bank_byte = cpu.mmu.read_byte(memory_location+2),
absolute_location = cpu.mmu.read_word(memory_location);
if(cpu.p.e||cpu.p.m) {
instruction.execute(cpu, [cpu.mmu.read_byte_long(absolute_location,
bank_byte)]);
} else {
instruction.execute(cpu, [cpu.mmu.read_byte_long(absolute_location,
bank_byte),
cpu.mmu.read_byte_long(absolute_location+1,
bank_byte)]);
}
};
},
Direct_page_indirect_long_indexed_y: function(instruction) {
this.bytes_required = function() {
return 2;
};
this.execute = function(cpu, bytes) {
cpu.cycle_count+=4;
if((cpu.r.d&0xff)!==0)
cpu.cycle_count++;
var memory_location = bytes[0] + cpu.r.d,
bank_byte = cpu.mmu.read_byte(memory_location+2),
absolute_location = cpu.mmu.read_word(memory_location) + cpu.r.y;
if(absolute_location >> 16) {
absolute_location &= 0xffff;
bank_byte++;
}
if(cpu.p.e||cpu.p.m) {
instruction.execute(cpu, [cpu.mmu.read_byte_long(absolute_location,
bank_byte)]);
} else {
var low_byte = cpu.mmu.read_byte_long(absolute_location, bank_byte);
absolute_location++;
if(absolute_location >> 16) {
absolute_location &= 0xffff;
bank_byte++;
}
var high_byte = cpu.mmu.read_byte_long(absolute_location, bank_byte);
instruction.execute(cpu, [low_byte, high_byte]);
}
};
},
Absolute: function(instruction) {
this.bytes_required = function() {
return 3;
};
this.execute = function(cpu, bytes) {
cpu.cycle_count+=2;
var memory_location = (bytes[1]<<8)|bytes[0];
if(cpu.p.e||cpu.p.m) {
instruction.execute(cpu, [cpu.mmu.read_byte(memory_location)]);
} else {
instruction.execute(cpu, [cpu.mmu.read_byte(memory_location),
cpu.mmu.read_byte(memory_location+1)]);
}
};
},
Absolute_long: function(instruction) {
this.bytes_required = function() {
return 4;
};
this.execute = function(cpu, bytes) {
cpu.cycle_count+=3;
var memory_location = (bytes[1]<<8)|bytes[0];
if(cpu.p.e||cpu.p.m) {
instruction.execute(cpu, [cpu.mmu.read_byte_long(memory_location,
bytes[2])]);
} else {
instruction.execute(cpu, [cpu.mmu.read_byte_long(memory_location,
bytes[2]),
cpu.mmu.read_byte_long(memory_location+1,
bytes[2])]);
}
};
},
Absolute_long_indexed_x: function(instruction) {
this.bytes_required = function() {
return 4;
};
this.execute = function(cpu, bytes) {
cpu.cycle_count+=3;
var memory_location = ((bytes[1]<<8)|bytes[0]) + cpu.r.x;
if(memory_location & 0x10000) {
bytes[2]++;
memory_location &= 0xffff;
}
if(cpu.p.e||cpu.p.m) {
instruction.execute(cpu, [cpu.mmu.read_byte_long(memory_location,
bytes[2])]);
} else {
var low_byte = cpu.mmu.read_byte_long(memory_location, bytes[2]);
memory_location++;
if(memory_location & 0x10000) {
bytes[2]++;
memory_location &= 0xffff;
}
var high_byte = cpu.mmu.read_byte_long(memory_location, bytes[2]);
instruction.execute(cpu, [low_byte, high_byte]);
}
};
},
Absolute_indexed_x: function(absolute_instruction, other) {
this.bytes_required = function() {
return 3;
};
this.execute = function(cpu, bytes) {
var memory_location;
if(other) {
cpu.cycle_count++;
memory_location = ((bytes[1]<<8)|bytes[0])+cpu.r.x;
} else {
var initial_location = (bytes[1]<<8)|bytes[0];
memory_location = initial_location+cpu.r.x;
if((memory_location&0xff00)!==(initial_location&0xff00))
cpu.cycle_count++;
}
absolute_instruction.execute(cpu, [memory_location&0xff,
memory_location>>8]);
};
},
Absolute_indexed_y: function(absolute_instruction) {
this.bytes_required = function() {
return 3;
};
this.execute = function(cpu, bytes) {
var initial_location = (bytes[1]<<8)|bytes[0],
memory_location = initial_location+cpu.r.y;
if((memory_location&0xff00)!==(initial_location&0xff00))
cpu.cycle_count++;
absolute_instruction.execute(cpu, [memory_location&0xff,
memory_location>>8]);
};
},
Direct_page_indexed_x: function(direct_page_instruction) {
this.bytes_required = function() {
return 2;
};
this.execute = function(cpu, bytes) {
cpu.cycle_count++;
direct_page_instruction.execute(cpu, [bytes[0]+cpu.r.x]);
};
},
Stack_relative: function(instruction) {
this.bytes_required = function() {
return 2;
};
this.execute = function(cpu, bytes) {
cpu.cycle_count+=2;
var memory_location = cpu.r.s + bytes[0];
if(cpu.p.e) {
memory_location = 0x100 | (memory_location & 0xff);
} else if(cpu.p.m) {
instruction.execute(cpu, [cpu.mmu.read_byte(memory_location)]);
} else {
instruction.execute(cpu, [cpu.mmu.read_byte(memory_location),
cpu.mmu.read_byte(memory_location+1)]);
}
};
},
Stack_relative_indirect_indexed_y: function(instruction) {
this.bytes_required = function() {
return 2;
};
this.execute = function(cpu, bytes) {
cpu.cycle_count+=5;
if(cpu.p.e) {
var location_loc = 0x100 | ((cpu.r.s + bytes[0]) & 0xff),
low_byte = cpu.mmu.read_byte(location_loc),
high_byte;
if(location_loc===0x1ff) {
high_byte = cpu.mmu.read_byte(0x100);
} else {
high_byte = cpu.mmu.read_byte(location_loc+1);
}
var absolute_location = ((high_byte<<8)|low_byte)+cpu.r.y,
b;
if(absolute_location>=0x10000) {
b = cpu.mmu.read_byte_long(absolute_location, cpu.r.dbr+1);
} else {
b = cpu.mmu.read_byte(absolute_location);
}
instruction.execute(cpu, [b]);
} else {
var location_loc = (cpu.r.s + bytes[0]) & 0xffff,
absolute_location = cpu.mmu.read_word(location_loc) + cpu.r.y;
if(cpu.p.m) {
var b;
if(absolute_location>=0x10000) {
b = cpu.mmu.read_byte_long(absolute_location, cpu.r.dbr+1);
} else {
b = cpu.mmu.read_byte(absolute_location);
}
instruction.execute(cpu, [b]);
} else {
var low_byte, high_byte;
if(absolute_location>=0x10000) {
absolute_location &= 0xffff;
low_byte = cpu.mmu.read_byte_long(absolute_location, cpu.r.dbr+1);
high_byte = cpu.mmu.read_byte_long(absolute_location+1,
cpu.r.dbr+1);
} else {
low_byte = cpu.mmu.read_byte(absolute_location);
if(absolute_location===0xffff) {
high_byte = cpu.mmu.read_byte_long(0, cpu.r.dbr+1);
} else {
high_byte = cpu.mmu.read_byte(absolute_location);
}
}
instruction.execute(cpu, [low_byte, high_byte]);
}
}
}
}
}
};
var STP = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=3;
cpu.stopped = true;
}
};
var WAI = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=3;
cpu.waiting = true;
}
};
var WDM = {
bytes_required:function() {
return 2;
},
execute:function() {}
};
var TXS = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=2;
cpu.r.s = cpu.r.x;
if(cpu.p.e||cpu.p.x) {
cpu.p.n = cpu.r.s >> 7;
} else {
cpu.p.n = cpu.r.s >> 15;
}
cpu_lib.r.p.check_z(cpu, cpu.r.s);
}
};
var TSX = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=2;
if(cpu.p.e||cpu.p.x) {
cpu.r.x = cpu.r.s & 0xff;
cpu.p.n = cpu.r.x >> 7;
} else {
cpu.r.x = cpu.r.s;
cpu.p.n = cpu.r.x >> 15;
}
cpu_lib.r.p.check_z(cpu, cpu.r.x);
}
};
var TRB_absolute = {
bytes_required:function() {
return 3;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=6;
var memory_location = (bytes[1]<<8)|bytes[0],
data;
if(cpu.p.e||cpu.p.m) {
data = cpu.mmu.read_byte(memory_location);
cpu_lib.r.p.check_z(cpu, data & cpu.r.a);
cpu.mmu.store_byte(memory_location, (~cpu.r.a & data));
} else {
cpu.cycle_count+=2;
data = cpu.mmu.read_word(memory_location);
cpu_lib.r.p.check_z(cpu, data & cpu.r.a);
data &= ~cpu.r.a;
cpu.mmu.store_word(memory_location, data);
}
}
};
var TRB_direct_page = {
bytes_required:function() {
return 2;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=5;
if((cpu.r.d&0xff)!==0)
cpu.cycle_count++;
var memory_location = bytes[0] + cpu.r.d,
data;
if(cpu.p.e||cpu.p.m) {
data = cpu.mmu.read_byte(memory_location);
cpu_lib.r.p.check_z(cpu, data & cpu.r.a);
cpu.mmu.store_byte(memory_location, (~cpu.r.a & data));
} else {
cpu.cycle_count+=2;
data = cpu.mmu.read_word(memory_location);
cpu_lib.r.p.check_z(cpu, data & cpu.r.a);
data &= ~cpu.r.a;
cpu.mmu.store_word(memory_location, data);
}
}
};
var TSB_absolute = {
bytes_required:function() {
return 3;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=6;
var memory_location = (bytes[1]<<8)|bytes[0],
data;
if(cpu.p.e||cpu.p.m) {
data = cpu.mmu.read_byte(memory_location);
cpu_lib.r.p.check_z(cpu, data & cpu.r.a);
cpu.mmu.store_byte(memory_location, (cpu.r.a | data));
} else {
cpu.cycle_count+=2;
data = cpu.mmu.read_word(memory_location);
cpu_lib.r.p.check_z(cpu, data & cpu.r.a);
data |= cpu.r.a;
cpu.mmu.store_word(memory_location, data);
}
}
};
var TSB_direct_page = {
bytes_required:function() {
return 2;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=5;
if((cpu.r.d&0xff)!==0)
cpu.cycle_count++;
var memory_location = bytes[0] + cpu.r.d,
data;
if(cpu.p.e||cpu.p.m) {
data = cpu.mmu.read_byte(memory_location);
cpu_lib.r.p.check_z(cpu, data & cpu.r.a);
cpu.mmu.store_byte(memory_location, (cpu.r.a | data));
} else {
cpu.cycle_count+=2;
data = cpu.mmu.read_word(memory_location);
cpu_lib.r.p.check_z(cpu, data & cpu.r.a);
data |= cpu.r.a;
cpu.mmu.store_word(memory_location, data);
}
}
};
var BIT_const = {
bytes_required:function(cpu) {
if(cpu.p.e||cpu.p.m)
return 2;
else
return 3;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=2;
var and_result;
if(cpu.p.e||cpu.p.m) {
cpu.p.n = bytes[0] >> 7;
cpu.p.v = (bytes[0] >> 6) & 0x1;
and_result = cpu.r.a & bytes[0];
} else {
cpu.cycle_count++;
cpu.p.n = bytes[1] >> 7;
cpu.p.v = (bytes[1] >> 6) & 0x1;
and_result = cpu.r.a & ((bytes[1]<<8)|bytes[0]);
}
cpu_lib.r.p.check_z(cpu, and_result);
}
};
var BIT_absolute = new cpu_lib.addressing.Absolute(BIT_const);
var BIT_direct_page = new cpu_lib.addressing.Direct_page(BIT_const);
var BIT_direct_page_indexed_x =
new cpu_lib.addressing.Direct_page_indexed_x(BIT_direct_page);
var BIT_absolute_indexed_x =
new cpu_lib.addressing.Absolute_indexed_x(BIT_absolute);
var COP = {
bytes_required:function() {
return 2;
},
execute:function(cpu) {
cpu.cycle_count+=7;
if(cpu.p.e===0)
cpu.cycle_count++;
cpu.interrupt = cpu.INTERRUPT.COP;
}
};
var BRK = {
bytes_required:function() {
return 2;
},
execute:function(cpu) {
cpu.cycle_count+=7;
if(cpu.p.e===0)
cpu.cycle_count++;
cpu.interrupt = cpu.INTERRUPT.BRK;
if(cpu.p.e)
cpu.p.m = 1;
}
};
var RTI = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=6;
if(cpu.p.e===0)
cpu.cycle_count++;
var p_byte = cpu.mmu.pull_byte(),
pc_low = cpu.mmu.pull_byte(),
pc_high = cpu.mmu.pull_byte();
cpu.r.pc = (pc_high<<8)|pc_low;
cpu.p.c = p_byte & 0x01;
cpu.p.z = (p_byte & 0x02) >> 1;
cpu.p.i = (p_byte & 0x04) >> 2;
cpu.p.d = (p_byte & 0x08) >> 3;
cpu.p.x = (p_byte & 0x10) >> 4;
cpu.p.m = (p_byte & 0x20) >> 5;
cpu.p.v = (p_byte & 0x40) >> 6;
cpu.p.n = p_byte >> 7;
if(!cpu.p.e) {
cpu.r.k = cpu.mmu.pull_byte();
}
}
};
// MVN is a really weird instruction, until the accumulator underflows MVN
// will keep decrementing the program counter to have it continue to execute.
var MVN = {
bytes_required:function() {
return 3;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=7;
// TODO: One piece of reference material I've read claims that this
// operation should always work with a 16-bit accumulator even if in
// emulation mode or the m bit is set to 1, in those cases it claims that
// you should concatenate the B "hidden" register with A. I'm going to
// need to test this claim out somehow.
var b = cpu.mmu.read_byte_long(cpu.r.x,bytes[1]);
cpu.r.dbr = bytes[0];
cpu.mmu.store_byte(cpu.r.y, b);
cpu.r.x++;
cpu.r.y++;
if(cpu.p.e||cpu.p.x) {
cpu.r.x &= 0x00ff;
cpu.r.y &= 0x00ff;
} else {
cpu.r.x &= 0xffff;
cpu.r.y &= 0xffff;
}
if(cpu.r.a!==0) {
cpu.r.a--;
cpu.r.pc-=3;
} else {
if(cpu.p.e||cpu.p.m)
cpu.r.a = 0xff;
else
cpu.r.a = 0xffff;
}
}
};
// MVP is a really weird instruction, until the accumulator reaches $FFFF MVP
// will keep decrementing the program counter to have it continue to execute.
var MVP = {
bytes_required:function() {
return 3;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=7;
// TODO: One piece of reference material I've read claims that this
// operation should always work with a 16-bit accumulator even if in
// emulation mode or the m bit is set to 1, in those cases it claims that
// you should concatenate the B "hidden" register with A. I'm going to
// need to test this claim out somehow.
var b = cpu.mmu.read_byte_long(cpu.r.x,bytes[1]);
cpu.r.dbr = bytes[0];
cpu.mmu.store_byte(cpu.r.y,b);
var index_register_wrap;
if(cpu.p.e||cpu.p.x) {
index_register_wrap = 0xff;
} else {
index_register_wrap = 0xffff;
}
if(cpu.r.y===index_register_wrap) {
cpu.r.y = 0;
} else {
cpu.r.y--;
}
if(cpu.r.x===index_register_wrap) {
cpu.r.x = 0;
} else {
cpu.r.x--;
}
if(cpu.r.a!==0) {
cpu.r.pc-=3;
cpu.r.a--;
} else {
if(cpu.p.e||cpu.p.m)
cpu.r.a = 0xff;
else
cpu.r.a = 0xffff;
}
}
};
var JSL = {
bytes_required:function() {
return 4;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=8;
var memory_location = cpu.r.pc - 1;
cpu.mmu.push_byte(cpu.r.k);
cpu.mmu.push_byte(memory_location>>8);
cpu.mmu.push_byte(memory_location&0x00ff);
cpu.r.k = bytes[2];
cpu.r.pc = (bytes[1]<<8)|bytes[0];
}
};
var RTL = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=6;
var low_byte = cpu.mmu.pull_byte(),
high_byte = cpu.mmu.pull_byte();
cpu.r.k = cpu.mmu.pull_byte();
cpu.r.pc = ((high_byte<<8)|low_byte) + 1;
}
};
var JSR = {
bytes_required:function() {
return 3;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=6;
var memory_location = cpu.r.pc - 1;
cpu.mmu.push_byte(memory_location>>8);
cpu.mmu.push_byte(memory_location&0xff);
cpu.r.pc = (bytes[1]<<8)|bytes[0];
}
};
var JSR_absolute_indexed_x_indirect = {
bytes_required:function() {
return 3;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=8;
var memory_location = ((bytes[1]<<8)|bytes[0])+cpu.r.x,
bank = cpu.r.k;
if(memory_location&0x10000) {
bank++;
}
memory_location &= 0xffff;
var indirect_location = cpu.mmu.read_word_long(memory_location, bank),
low_byte = cpu.mmu.read_byte(indirect_location);
bank = cpu.r.k;
if(indirect_location===0xffff) {
indirect_location = 0;
bank++;
} else {
indirect_location++;
}
var high_byte = cpu.mmu.read_byte_long(indirect_location, bank);
JSR.execute(cpu, [low_byte, high_byte]);
}
};
var RTS = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=6;
var low_byte = cpu.mmu.pull_byte(),
high_byte = cpu.mmu.pull_byte();
cpu.r.pc = ((high_byte<<8)|low_byte) + 1;
}
};
var PER = {
bytes_required:function() {
return 3;
},
execute:function(cpu,bytes) {
cpu.cycle_count+=6;
var address = ((bytes[1]<<8)|bytes[0]) + cpu.r.pc;
cpu.mmu.push_byte(address>>8);
cpu.mmu.push_byte(address&0xff);
}
};
var PHK = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=3;
cpu.mmu.push_byte(cpu.r.k);
}
};
var PHD = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=4;
cpu.mmu.push_byte(cpu.r.d>>8);
cpu.mmu.push_byte(cpu.r.d&0xff);
}
};
var PLD = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=5;
var low_byte = cpu.mmu.pull_byte(),
high_byte = cpu.mmu.pull_byte();
cpu.r.d = (high_byte<<8)|low_byte;
cpu.p.n = cpu.r.d >> 15;
cpu_lib.r.p.check_z(cpu, cpu.r.d);
}
};
var PHB = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=3;
cpu.mmu.push_byte(cpu.r.dbr);
}
};
var PLB = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=4;
cpu.r.dbr = cpu.mmu.pull_byte();
cpu.p.n = cpu.r.dbr >> 7;
cpu_lib.r.p.check_z(cpu.r.dbr);
}
};
var PEA = {
bytes_required:function() {
return 3;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=5;
cpu.mmu.push_byte(bytes[1]);
cpu.mmu.push_byte(bytes[0]);
}
};
var PEI = {
bytes_required:function() {
return 2;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=6;
if((cpu.r.d&0xff)!==0)
cpu.cycle_count++;
var memory_location = bytes[0]+cpu.r.d;
cpu.mmu.push_byte(cpu.mmu.read_byte(memory_location+1));
cpu.mmu.push_byte(cpu.mmu.read_byte(memory_location));
}
};
var PHP = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=3;
var p_byte = (cpu.p.n<<7)|(cpu.p.v<<6)|(cpu.p.m<<5)|(cpu.p.x<<4)|
(cpu.p.d<<3)|(cpu.p.i<<2)|(cpu.p.z<<1)|cpu.p.c;
cpu.mmu.push_byte(p_byte);
}
};
var PLP = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=4;
var p_byte = cpu.mmu.pull_byte();
cpu.p.c = p_byte & 0x01;
cpu.p.z = (p_byte & 0x02) >> 1;
cpu.p.i = (p_byte & 0x04) >> 2;
cpu.p.d = (p_byte & 0x08) >> 3;
cpu.p.x = (p_byte & 0x10) >> 4;
cpu.p.m = (p_byte & 0x20) >> 5;
cpu.p.v = (p_byte & 0x40) >> 6;
cpu.p.n = p_byte >> 7;
}
};
var PHX = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=3;
if(cpu.p.e||cpu.p.x) {
cpu.mmu.push_byte(cpu.r.x);
} else {
cpu.cycle_count++;
cpu.mmu.push_byte(cpu.r.x>>8);
cpu.mmu.push_byte(cpu.r.x&0xff);
}
}
};
var PLX = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=4;
if(cpu.p.e||cpu.p.x) {
cpu.r.x = cpu.mmu.pull_byte();
cpu.p.n = cpu.r.x >> 7;
} else {
cpu.cycle_count++;
var low_byte = cpu.mmu.pull_byte(),
high_byte = cpu.mmu.pull_byte();
cpu.r.x = (high_byte<<8)|low_byte;
cpu.p.n = cpu.r.x >> 15;
}
cpu_lib.r.p.check_z(cpu, cpu.r.x);
}
};
var PHY = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=3;
if(cpu.p.e||cpu.p.x) {
cpu.mmu.push_byte(cpu.r.y);
} else {
cpu.cycle_count++;
cpu.mmu.push_byte(cpu.r.y>>8);
cpu.mmu.push_byte(cpu.r.y&0xff);
}
}
};
var PLY = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=4;
if(cpu.p.e||cpu.p.x) {
cpu.r.y = cpu.mmu.pull_byte();
cpu.p.n = cpu.r.y >> 7;
} else {
cpu.cycle_count++;
var low_byte = cpu.mmu.pull_byte(),
high_byte = cpu.mmu.pull_byte();
cpu.r.y = (high_byte<<8)|low_byte;
cpu.p.n = cpu.r.y >> 15;
}
cpu_lib.r.p.check_z(cpu, cpu.r.y);
}
};
var PHA = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=3;
if(cpu.p.e||cpu.p.m) {
cpu.mmu.push_byte(cpu.r.a);
} else {
cpu.cycle_count++;
cpu.mmu.push_byte(cpu.r.a>>8);
cpu.mmu.push_byte(cpu.r.a&0xff);
}
}
};
var PLA = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=4;
if(cpu.p.e||cpu.p.m) {
cpu.r.a = cpu.mmu.pull_byte();
cpu.p.n = cpu.r.a >> 7;
} else {
cpu.cycle_count++;
var low_byte = cpu.mmu.pull_byte(),
high_byte = cpu.mmu.pull_byte();
cpu.r.a = (high_byte<<8)|low_byte;
cpu.p.n = cpu.r.a >> 15;
}
cpu_lib.r.p.check_z(cpu, cpu.r.a);
}
};
var ROR_accumulator = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=2;
var old_c = cpu.p.c;
if(cpu.p.e||cpu.p.m) {
cpu.p.c = cpu.r.a & 0x01;
cpu.r.a = cpu.r.a >> 1;
cpu.r.a &= 0x7f;
cpu.r.a |= (old_c<<7);
cpu.p.n = cpu.r.a >> 7;
} else {
cpu.p.c = cpu.r.a & 0x0001;
cpu.r.a = cpu.r.a >> 1;
cpu.r.a &= 0x7fff;
cpu.r.a |= (old_c<<15);
cpu.p.n = cpu.r.a >> 15;
}
cpu_lib.r.p.check_z(cpu, cpu.r.a);
}
};
var ROR_absolute = {
bytes_required:function() {
return 3;
},
execute:function(cpu,bytes) {
cpu.cycle_count+=6;
var memory_location = (bytes[1]<<8)|bytes[0],
old_c = cpu.p.c,
shiftee;
if(cpu.p.e||cpu.p.m) {
shiftee = cpu.mmu.read_byte(memory_location);
cpu.p.c = shiftee & 0x01;
shiftee = shiftee >> 1;
shiftee &= 0x7f;
shiftee |= (old_c<<7);
cpu.p.n = shiftee >> 7;
cpu.mmu.store_byte(memory_location, shiftee);
} else {
cpu.cycle_count+=2;
shiftee = cpu.mmu.read_word(memory_location);
cpu.p.c = shiftee & 0x0001;
shiftee = shiftee >> 1;
shiftee &= 0x7fff;
shiftee |= (old_c<<15);
cpu.p.n = shiftee >> 15;
cpu.mmu.store_word(memory_location, shiftee);
}
cpu_lib.r.p.check_z(cpu, shiftee);
}
};
var ROR_direct_page = {
bytes_required:function() {
return 2;
},
execute:function(cpu,bytes) {
cpu.cycle_count+=5;
if((cpu.r.d&0xff)!==0)
cpu.cycle_count++;
var memory_location = bytes[0]+cpu.r.d,
old_c = cpu.p.c,
shiftee;
if(cpu.p.e||cpu.p.m) {
shiftee = cpu.mmu.read_byte(memory_location);
cpu.p.c = shiftee & 0x01;
shiftee = shiftee >> 1;
shiftee &= 0x7f;
shiftee |= (old_c<<7);
cpu.p.n = shiftee >> 7;
cpu.mmu.store_byte(memory_location, shiftee);
} else {
cpu.cycle_count+=2;
shiftee = cpu.mmu.read_word(memory_location);
cpu.p.c = shiftee & 0x0001;
shiftee = shiftee >> 1;
shiftee &= 0x7fff;
shiftee |= (old_c<<15);
cpu.p.n = shiftee >> 15;
cpu.mmu.store_word(memory_location, shiftee);
}
cpu_lib.r.p.check_z(cpu, shiftee);
}
};
var ROR_absolute_indexed_x =
new cpu_lib.addressing.Absolute_indexed_x(ROR_absolute, true);
var ROR_direct_page_indexed_x =
new cpu_lib.addressing.Direct_page_indexed_x(ROR_direct_page);
var ROL_accumulator = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=2;
var old_c = cpu.p.c;
if(cpu.p.e||cpu.p.m) {
cpu.p.c = cpu.r.a >> 7;
cpu.r.a = cpu.r.a << 1;
cpu.r.a &= 0xfe;
cpu.r.a |= old_c;
cpu.p.n = cpu.r.a >> 7;
} else {
cpu.p.c = cpu.r.a >> 15;
cpu.r.a = cpu.r.a << 1;
cpu.r.a &= 0xfffe;
cpu.r.a |= old_c;
cpu.p.n = cpu.r.a >> 15;
}
cpu_lib.r.p.check_z(cpu, cpu.r.a);
}
};
var ROL_absolute = {
bytes_required:function() {
return 3;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=6;
var memory_location = (bytes[1]<<8)|bytes[0],
old_c = cpu.p.c,
shiftee;
if(cpu.p.e||cpu.p.m) {
shiftee = cpu.mmu.read_byte(memory_location);
cpu.p.c = shiftee >> 7;
shiftee = shiftee << 1;
shiftee &= 0xfe;
shiftee |= old_c;
cpu.p.n = shiftee >> 7;
cpu.mmu.store_byte(memory_location, shiftee);
} else {
cpu.cycle_count+=2;
shiftee = cpu.mmu.read_word(memory_location);
cpu.p.c = shiftee >> 15;
shiftee = shiftee << 1;
shiftee &= 0xfffe;
shiftee |= old_c;
cpu.p.n = shiftee >> 15;
cpu.mmu.store_word(memory_location, shiftee);
}
cpu_lib.r.p.check_z(cpu, shiftee);
}
};
var ROL_direct_page = {
bytes_required:function() {
return 2;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=5;
if((cpu.r.d&0xff)!==0)
cpu.cycle_count++;
var memory_location = bytes[0]+cpu.r.d,
old_c = cpu.p.c,
shiftee;
if(cpu.p.e||cpu.p.m) {
shiftee = cpu.mmu.read_byte(memory_location);
cpu.p.c = shiftee >> 7;
shiftee = shiftee << 1;
shiftee &= 0xfe;
shiftee |= old_c;
cpu.p.n = shiftee >> 7;
cpu.mmu.store_byte(memory_location, shiftee);
} else {
cpu.cycle_count+=2;
shiftee = cpu.mmu.read_word(memory_location);
cpu.p.c = shiftee >> 15;
shiftee = shiftee << 1;
shiftee &= 0xfffe;
shiftee |= old_c;
cpu.p.n = shiftee >> 15;
cpu.mmu.store_word(memory_location, shiftee);
}
cpu_lib.r.p.check_z(cpu, shiftee);
}
};
var ROL_absolute_indexed_x =
new cpu_lib.addressing.Absolute_indexed_x(ROL_absolute, true);
var ROL_direct_page_indexed_x =
new cpu_lib.addressing.Direct_page_indexed_x(ROL_direct_page);
var ASL_accumulator = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=2;
if(cpu.p.e||cpu.p.m) {
cpu.p.c = cpu.r.a >> 7;
cpu.r.a = cpu.r.a << 1;
cpu.r.a &= 0xff;
cpu.p.n = cpu.r.a >> 7;
} else {
cpu.p.c = cpu.r.a >> 15;
cpu.r.a = cpu.r.a << 1;
cpu.r.a &= 0xffff;
cpu.p.n = cpu.r.a >> 15;
}
cpu_lib.r.p.check_z(cpu, cpu.r.a);
}
};
var ASL_absolute = {
bytes_required:function() {
return 3;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=6;
var memory_location = (bytes[1]<<8)|bytes[0],
shiftee;
if(cpu.p.e||cpu.p.m) {
shiftee = cpu.mmu.read_byte(memory_location);
cpu.p.c = shiftee >> 7;
shiftee = shiftee << 1;
shiftee &= 0xff;
cpu.p.n = shiftee >> 7;
cpu.mmu.store_byte(memory_location, shiftee);
} else {
cpu.cycle_count+=2;
shiftee = cpu.mmu.read_word(memory_location);
cpu.p.c = shiftee >> 15;
shiftee = shiftee << 1;
shiftee &= 0xffff;
cpu.p.n = shiftee >> 15;
cpu.mmu.store_word(memory_location, shiftee);
}
cpu_lib.r.p.check_z(cpu, shiftee);
}
};
var ASL_direct_page = {
bytes_required:function() {
return 2;
},
execute:function(cpu,bytes) {
cpu.cycle_count+=5;
if((cpu.r.d&0xff)!==0)
cpu.cycle_count++;
var memory_location = bytes[0]+cpu.r.d,
shiftee;
if(cpu.p.e||cpu.p.m) {
shiftee = cpu.mmu.read_byte(memory_location);
cpu.p.c = shiftee >> 7;
shiftee = shiftee << 1;
shiftee &= 0xff;
cpu.p.n = shiftee >> 7;
cpu.mmu.store_byte(memory_location, shiftee);
} else {
cpu.cycle_count+=2;
shiftee = cpu.mmu.read_word(memory_location);
cpu.p.c = shiftee >> 15;
shiftee = shiftee << 1;
shiftee &= 0xffff;
cpu.p.n = shiftee >> 15;
cpu.mmu.store_word(memory_location, shiftee);
}
cpu_lib.r.p.check_z(cpu, shiftee);
}
};
var ASL_absolute_indexed_x =
new cpu_lib.addressing.Absolute_indexed_x(ASL_absolute);
var ASL_direct_page_indexed_x =
new cpu_lib.addressing.Direct_page_indexed_x(ASL_direct_page);
var LSR_accumulator = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=2;
cpu.p.c = cpu.r.a & 1;
cpu.r.a = cpu.r.a >> 1;
cpu.p.n = 0;
cpu_lib.r.p.check_z(cpu, cpu.r.a);
}
};
var LSR_absolute = {
bytes_required:function() {
return 3;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=6;
var memory_location = (bytes[1]<<8)|bytes[0],
shiftee;
if(cpu.p.e||cpu.p.m) {
shiftee = cpu.mmu.read_byte(memory_location);
cpu.p.c = shiftee & 0x0001;
shiftee = shiftee >> 1;
cpu.mmu.store_byte(memory_location, shiftee);
} else {
cpu.cycle_count+=2;
shiftee = cpu.mmu.read_word(memory_location);
cpu.p.c = cpu.r.a & 0x01;
shiftee = shiftee >> 1;
cpu.mmu.store_word(memory_location, shiftee);
}
cpu.p.n = 0;
cpu_lib.r.p.check_z(cpu, shiftee);
}
};
var LSR_direct_page = {
bytes_required:function() {
return 2;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=5;
if((cpu.r.d&0xff)!==0)
cpu.cycle_count++;
var memory_location = bytes[0] + cpu.r.d,
shiftee;
if(cpu.p.e||cpu.p.m) {
shiftee = cpu.mmu.read_byte(memory_location);
cpu.p.c = shiftee & 0x0001;
shiftee = shiftee >> 1;
cpu.mmu.store_byte(memory_location, shiftee);
} else {
cpu.cycle_count+=2;
shiftee = cpu.mmu.read_word(memory_location);
cpu.p.c = cpu.r.a & 0x01;
shiftee = shiftee >> 1;
cpu.mmu.store_word(memory_location, shiftee);
}
cpu.p.n = 0;
cpu_lib.r.p.check_z(cpu, shiftee);
}
};
var LSR_absolute_indexed_x =
new cpu_lib.addressing.Absolute_indexed_x(LSR_absolute);
var LSR_direct_page_indexed_x =
new cpu_lib.addressing.Direct_page_indexed_x(LSR_direct_page);
var EOR_const = {
bytes_required:function(cpu) {
if(cpu.p.e||cpu.p.m) {
return 2;
} else {
return 3;
}
},
execute:function(cpu, bytes) {
cpu.cycle_count+=2;
if(cpu.p.e||cpu.p.m) {
cpu.r.a ^= bytes[0];
cpu.p.n = cpu.r.a >> 7;
} else {
cpu.cycle_count++;
cpu.r.a ^= (bytes[1]<<8)|bytes[0];
cpu.p.n = cpu.r.a >> 15;
}
cpu_lib.r.p.check_z(cpu, cpu.r.a);
}
};
var EOR_absolute = new cpu_lib.addressing.Absolute(EOR_const);
var EOR_absolute_long = new cpu_lib.addressing.Absolute_long(EOR_const);
var EOR_absolute_long_indexed_x =
new cpu_lib.addressing.Absolute_long_indexed_x(EOR_const);
var EOR_direct_page = new cpu_lib.addressing.Direct_page(EOR_const);
var EOR_direct_page_indirect =
new cpu_lib.addressing.Direct_page_indirect(EOR_const);
var EOR_direct_page_indexed_x_indirect =
new cpu_lib.addressing.Direct_page_indexed_x_indirect(EOR_const);
var EOR_direct_page_indirect_long_indexed_y =
new cpu_lib.addressing.Direct_page_indirect_long_indexed_y(EOR_const);
var EOR_direct_page_indirect_long =
new cpu_lib.addressing.Direct_page_indirect_long(EOR_const);
var EOR_direct_page_indirect_indexed_y =
new cpu_lib.addressing.Direct_page_indirect_indexed_y(EOR_const);
var EOR_absolute_indexed_x =
new cpu_lib.addressing.Absolute_indexed_x(EOR_absolute);
var EOR_absolute_indexed_y =
new cpu_lib.addressing.Absolute_indexed_y(EOR_absolute);
var EOR_direct_page_indexed_x =
new cpu_lib.addressing.Direct_page_indexed_x(EOR_direct_page);
var EOR_stack_relative = new cpu_lib.addressing.Stack_relative(EOR_const);
var EOR_stack_relative_indirect_indexed_y =
new cpu_lib.addressing.Stack_relative_indirect_indexed_y(EOR_const);
var ORA_const = {
bytes_required:function(cpu) {
if(cpu.p.e||cpu.p.m) {
return 2;
} else {
return 3;
}
},
execute:function(cpu, bytes) {
cpu.cycle_count+=2;
if(cpu.p.e||cpu.p.m) {
cpu.r.a |= bytes[0];
cpu.p.n = cpu.r.a >> 7;
} else {
cpu.cycle_count++;
cpu.r.a |= (bytes[1]<<8)|bytes[0];
cpu.p.n = cpu.r.a >> 15;
}
cpu_lib.r.p.check_z(cpu, cpu.r.a);
}
};
var ORA_absolute = new cpu_lib.addressing.Absolute(ORA_const);
var ORA_absolute_long = new cpu_lib.addressing.Absolute_long(ORA_const);
var ORA_absolute_long_indexed_x =
new cpu_lib.addressing.Absolute_long_indexed_x(ORA_const);
var ORA_direct_page = new cpu_lib.addressing.Direct_page(ORA_const);
var ORA_direct_page_indirect =
new cpu_lib.addressing.Direct_page_indirect(ORA_const);
var ORA_direct_page_indexed_x_indirect =
new cpu_lib.addressing.Direct_page_indexed_x_indirect(ORA_const);
var ORA_direct_page_indirect_long =
new cpu_lib.addressing.Direct_page_indirect_long(ORA_const);
var ORA_direct_page_indirect_long_indexed_y =
new cpu_lib.addressing.Direct_page_indirect_long_indexed_y(ORA_const);
var ORA_direct_page_indirect_indexed_y =
new cpu_lib.addressing.Direct_page_indirect_indexed_y(ORA_const);
var ORA_absolute_indexed_x =
new cpu_lib.addressing.Absolute_indexed_x(ORA_absolute);
var ORA_absolute_indexed_y =
new cpu_lib.addressing.Absolute_indexed_y(ORA_absolute);
var ORA_direct_page_indexed_x =
new cpu_lib.addressing.Direct_page_indexed_x(ORA_direct_page);
var ORA_stack_relative = new cpu_lib.addressing.Stack_relative(ORA_const);
var ORA_stack_relative_indirect_indexed_y =
new cpu_lib.addressing.Stack_relative_indirect_indexed_y(ORA_const);
var AND_const = {
bytes_required:function(cpu) {
if(cpu.p.e||cpu.p.m) {
return 2;
} else {
return 3;
}
},
execute:function(cpu, bytes) {
cpu.cycle_count+=2;
if(cpu.p.e||cpu.p.m) {
cpu.r.a &= bytes[0];
cpu.p.n = cpu.r.a >> 7;
} else {
cpu.cycle_count++;
cpu.r.a &= (bytes[1]<<8)|bytes[0];
cpu.p.n = cpu.r.a >> 15;
}
cpu_lib.r.p.check_z(cpu, cpu.r.a);
}
};
var AND_absolute = new cpu_lib.addressing.Absolute(AND_const);
var AND_absolute_long = new cpu_lib.addressing.Absolute_long(AND_const);
var AND_absolute_long_indexed_x =
new cpu_lib.addressing.Absolute_long_indexed_x(AND_const);
var AND_direct_page = new cpu_lib.addressing.Direct_page(AND_const);
var AND_direct_page_indirect =
new cpu_lib.addressing.Direct_page_indirect(AND_const);
var AND_direct_page_indexed_x_indirect =
new cpu_lib.addressing.Direct_page_indexed_x_indirect(AND_const);
var AND_direct_page_indirect_long =
new cpu_lib.addressing.Direct_page_indirect_long(AND_const);
var AND_direct_page_indirect_long_indexed_y =
new cpu_lib.addressing.Direct_page_indirect_long_indexed_y(AND_const);
var AND_direct_page_indirect_indexed_y =
new cpu_lib.addressing.Direct_page_indirect_indexed_y(AND_const);
var AND_absolute_indexed_x =
new cpu_lib.addressing.Absolute_indexed_x(AND_absolute);
var AND_absolute_indexed_y =
new cpu_lib.addressing.Absolute_indexed_y(AND_absolute);
var AND_direct_page_indexed_x =
new cpu_lib.addressing.Direct_page_indexed_x(AND_direct_page);
var AND_stack_relative = new cpu_lib.addressing.Stack_relative(AND_const);
var AND_stack_relative_indirect_indexed_y =
new cpu_lib.addressing.Stack_relative_indirect_indexed_y(AND_const);
var CPX_const = {
bytes_required:function(cpu) {
if(cpu.p.e||cpu.p.x) {
return 2;
} else {
return 3;
}
},
execute:function(cpu, bytes) {
cpu.cycle_count+=2;
var result;
if(cpu.p.e||cpu.p.x) {
result = cpu.r.x - bytes[0];
if(result<0) {
cpu.p.c = 0;
result = 0x100 + result;
} else {
cpu.p.c = 1;
}
cpu.p.n = result >> 7;
} else {
cpu.cycle_count++;
result = cpu.r.x - ((bytes[1]<<8)|bytes[0]);
if(result<0) {
cpu.p.c = 0;
result = 0x10000 + result;
} else {
cpu.p.c = 1;
}
cpu.p.n = result >> 15;
}
cpu_lib.r.p.check_z(cpu, result);
}
};
var CPX_direct_page = new cpu_lib.addressing.Direct_page(CPX_const);
var CPX_absolute = new cpu_lib.addressing.Absolute(CPX_const);
var CPY_const = {
bytes_required:function(cpu) {
if(cpu.p.e||cpu.p.x) {
return 2;
} else {
return 3;
}
},
execute:function(cpu, bytes) {
cpu.cycle_count+=2;
var result;
if(cpu.p.e||cpu.p.x) {
result = cpu.r.y - bytes[0];
if(result<0) {
cpu.p.c = 0;
result = 0x100 + result;
} else {
cpu.p.c = 1;
}
cpu.p.n = result >> 7;
} else {
cpu.cycle_count++;
result = cpu.r.y - ((bytes[1]<<8)|bytes[0]);
if(result<0) {
cpu.p.c = 0;
result = 0x10000 + result;
} else {
cpu.p.c = 1;
}
cpu.p.n = result >> 15;
}
cpu_lib.r.p.check_z(cpu, result);
}
};
var CPY_direct_page = new cpu_lib.addressing.Direct_page(CPY_const);
var CPY_absolute = new cpu_lib.addressing.Absolute(CPY_const);
var CMP_const = {
bytes_required:function(cpu) {
if(cpu.p.e||cpu.p.m) {
return 2;
} else {
return 3;
}
},
execute:function(cpu, bytes) {
cpu.cycle_count+=2;
var result;
if(cpu.p.e||cpu.p.m) {
result = cpu.r.a - bytes[0];
if(result<0) {
cpu.p.c = 0;
result = 0x100 + result;
} else {
cpu.p.c = 1;
}
cpu.p.n = result >> 7;
} else {
cpu.cycle_count++;
result = cpu.r.a - ((bytes[1]<<8)|bytes[0]);
if(result<0) {
cpu.p.c = 0;
result = 0x10000 + result;
} else {
cpu.p.c = 1;
}
cpu.p.n = result >> 15;
}
cpu_lib.r.p.check_z(cpu, result);
}
};
var CMP_direct_page = new cpu_lib.addressing.Direct_page(CMP_const);
var CMP_direct_page_indexed_x =
new cpu_lib.addressing.Direct_page_indexed_x(CMP_direct_page);
var CMP_direct_page_indirect =
new cpu_lib.addressing.Direct_page_indirect(CMP_const);
var CMP_direct_page_indexed_x_indirect =
new cpu_lib.addressing.Direct_page_indexed_x_indirect(CMP_const);
var CMP_direct_page_indirect_long =
new cpu_lib.addressing.Direct_page_indirect_long(CMP_const);
var CMP_direct_page_indirect_long_indexed_y =
new cpu_lib.addressing.Direct_page_indirect_long_indexed_y(CMP_const);
var CMP_direct_page_indirect_indexed_y =
new cpu_lib.addressing.Direct_page_indirect_indexed_y(CMP_const);
var CMP_absolute = new cpu_lib.addressing.Absolute(CMP_const);
var CMP_absolute_long = new cpu_lib.addressing.Absolute_long(CMP_const);
var CMP_absolute_long_indexed_x =
new cpu_lib.addressing.Absolute_long_indexed_x(CMP_const);
var CMP_absolute_indexed_x =
new cpu_lib.addressing.Absolute_indexed_x(CMP_absolute);
var CMP_absolute_indexed_y =
new cpu_lib.addressing.Absolute_indexed_y(CMP_absolute);
var CMP_stack_relative = new cpu_lib.addressing.Stack_relative(CMP_const);
var CMP_stack_relative_indirect_indexed_y =
new cpu_lib.addressing.Stack_relative_indirect_indexed_y(CMP_const);
var SBC_const = {
bytes_required:function(cpu) {
if(cpu.p.e||cpu.p.m) {
return 2;
} else {
return 3;
}
},
execute:function(cpu, bytes) {
cpu.cycle_count+=2;
var old_a = cpu.r.a,
temp = 0;
if(cpu.p.c===0)
temp = 1;
if(cpu.p.e||cpu.p.m) {
if(cpu.p.d) {
// Form a decimal number out of a.
var ones = cpu.r.a & 0x0f,
tens = cpu.r.a >> 4,
dec_a = (tens*10)+ones;
// Form a decimal number out of the argument.
ones = bytes[0] & 0x0f;
tens = bytes[0] >> 4;
var result = dec_a - ((tens*10)+ones) - temp;
// Check for decimal overflow.
if(result<0) {
result += 100;
cpu.p.c = 0;
} else {
cpu.p.c = 1;
}
var digits = result.toString(10).split(""),
i;
cpu.r.a = 0;
for(i=0;i<digits.length;i++) {
cpu.r.a += (digits[i]-0)*Math.pow(16,digits.length-i-1);
}
} else {
cpu.r.a -= bytes[0] - temp;
if(cpu.r.a < 0) {
cpu.p.c = 0;
cpu.r.a = 0x100 + cpu.r.a;
} else {
cpu.p.c = 1;
}
cpu.p.n = cpu.r.a >> 7;
// Check for signed overflow.
// If they started with the same sign and then the resulting sign is
// different then we have a signed overflow.
if((!((old_a ^ bytes[0]) & 0x80)) && ((cpu.r.a ^ old_a) & 0x80)) {
cpu.p.v = 1;
} else {
cpu.p.v = 0;
}
}
} else {
cpu.cycle_count++;
var argument = (bytes[1]<<8)|bytes[0];
temp = 0;
if(cpu.p.c===0)
temp = 1;
if(cpu.p.d) {
// Form a decimal number out of a.
var ones = cpu.r.a & 0xf,
tens = (cpu.r.a >>4) & 0xf,
hundreds = (cpu.r.a >> 8) & 0xf,
thousands = (cpu.r.a >> 12) & 0xf,
dec_a = (thousands*1000)+(hundreds*100)+(tens*10)+ones;
// Form a decimal number out of the argument.
ones = argument & 0xf;
tens = (argument >> 4) & 0xf;
hundreds = (argument >> 8) & 0xf;
thousands = (argument >> 12) & 0xf;
var dec_arg = (thousands*1000)+(hundreds*100)+(tens*10)+ones,
result = dec_a - dec_arg - temp;
// Check for decimal overflow.
if(result<0) {
result += 10000;
cpu.p.c = 0;
} else {
cpu.p.c = 1;
}
var digits = result.toString(10).split(""),
i;
cpu.r.a = 0;
for(i=0;i<digits.length;i++) {
cpu.r.a += (digits[i]-0)*Math.pow(16,digits.length-i-1);
}
} else {
cpu.r.a -= argument - temp;
if(cpu.r.a < 0) {
cpu.p.c = 0;
cpu.r.a = 0x10000 + cpu.r.a;
} else {
cpu.p.c = 1;
}
cpu.p.n = cpu.r.a >> 15;
// Check for signed overflow.
// If they started with the same sign and then the resulting sign is
// different then we have a signed overflow.
if((!((old_a ^ argument) & 0x8000)) && ((cpu.r.a ^ old_a) & 0x8000)) {
cpu.p.v = 1;
} else {
cpu.p.v = 0;
}
}
}
cpu_lib.r.p.check_z(cpu, cpu.r.a);
}
};
var SBC_direct_page = new cpu_lib.addressing.Direct_page(SBC_const);
var SBC_absolute = new cpu_lib.addressing.Absolute(SBC_const);
var SBC_absolute_long = new cpu_lib.addressing.Absolute_long(SBC_const);
var SBC_absolute_long_indexed_x =
new cpu_lib.addressing.Absolute_long_indexed_x(SBC_const);
var SBC_direct_page_indexed_x_indirect =
new cpu_lib.addressing.Direct_page_indexed_x_indirect(SBC_const);
var SBC_direct_page_indirect_long =
new cpu_lib.addressing.Direct_page_indirect_long(SBC_const);
var SBC_direct_page_indirect_long_indexed_y =
new cpu_lib.addressing.Direct_page_indirect_long_indexed_y(SBC_const);
var SBC_direct_page_indirect_indexed_y =
new cpu_lib.addressing.Direct_page_indirect_indexed_y(SBC_const);
var SBC_absolute_indexed_x =
new cpu_lib.addressing.Absolute_indexed_x(SBC_absolute);
var SBC_absolute_indexed_y =
new cpu_lib.addressing.Absolute_indexed_y(SBC_absolute);
var SBC_direct_page_indexed_x =
new cpu_lib.addressing.Direct_page_indexed_x(SBC_direct_page);
var SBC_direct_page_indirect =
new cpu_lib.addressing.Direct_page_indirect(SBC_const);
var SBC_stack_relative = new cpu_lib.addressing.Stack_relative(SBC_const);
var SBC_stack_relative_indirect_indexed_y =
new cpu_lib.addressing.Stack_relative_indirect_indexed_y(SBC_const);
var ADC_const = {
bytes_required:function(cpu) {
if(cpu.p.e||cpu.p.m) {
return 2;
} else {
return 3;
}
},
execute:function(cpu, bytes) {
var old_a = cpu.r.a;
if(cpu.p.e||cpu.p.m) {
cpu.cycle_count+=2;
if(cpu.p.d) {
// Form a decimal number out of a.
var ones = cpu.r.a & 0x0f,
tens = cpu.r.a >>4,
dec_a = (tens*10)+ones;
// Form a decimal number out of the argument.
ones = bytes[0] & 0x0f;
tens = bytes[0] >>4;
var result = dec_a + ((tens*10)+ones) + cpu.p.c;
// Check for decimal overflow.
if(result>99) {
result -= 99;
cpu.p.c = 1;
} else {
cpu.p.c = 0;
}
var digits = result.toString(10).split(""),
i;
cpu.r.a = 0;
for(i=0;i<digits.length;i++) {
cpu.r.a += (digits[i]-0)*Math.pow(16,digits.length-i-1);
}
} else {
cpu.r.a += bytes[0] + cpu.p.c;
if(cpu.r.a & 0x100) {
cpu.p.c = 1;
} else {
cpu.p.c = 0;
}
cpu.r.a &= 0xff;
cpu.p.n = cpu.r.a >> 7;
// Check for signed overflow.
// If they started with the same sign and then the resulting sign is
// different then we have a signed overflow.
if((!((old_a ^ bytes[0]) & 0x80)) && ((cpu.r.a ^ old_a) & 0x80)) {
cpu.p.v = 1;
} else {
cpu.p.v = 0;
}
}
} else {
cpu.cycle_count+=3;
var argument = (bytes[1]<<8)|bytes[0];
if(cpu.p.d) {
// Form a decimal number out of a.
var ones = cpu.r.a & 0xf,
tens = (cpu.r.a >>4) & 0xf,
hundreds = (cpu.r.a >> 8) & 0xf,
thousands = (cpu.r.a >> 12) & 0xf,
dec_a = (thousands*1000)+(hundreds*100)+(tens*10)+ones;
// Form a decimal number out of the argument.
ones = argument & 0xf;
tens = (argument >> 4) & 0xf;
hundreds = (argument >> 8) & 0xf;
thousands = (argument >> 12) & 0xf;
var dec_arg = (thousands*1000)+(hundreds*100)+(tens*10)+ones,
result = dec_a + dec_arg + cpu.p.c;
// Check for decimal overflow.
if(result>9999) {
result -= 9999;
cpu.p.c = 1;
} else {
cpu.p.c = 0;
}
var digits = result.toString(10).split(""),
i;
cpu.r.a = 0;
for(i=0;i<digits.length;i++) {
cpu.r.a += (digits[i]-0)*Math.pow(16,digits.length-i-1);
}
} else {
cpu.r.a += argument + cpu.p.c;
if(cpu.r.a & 0x10000) {
cpu.p.c = 1;
} else {
cpu.p.c = 0;
}
cpu.r.a &= 0xffff;
cpu.p.n = cpu.r.a >> 15;
// Check for signed overflow.
// If they started with the same sign and then the resulting sign is
// different then we have a signed overflow.
if((!((old_a ^ argument) & 0x8000)) && ((cpu.r.a ^ old_a) & 0x8000)) {
cpu.p.v = 1;
} else {
cpu.p.v = 0;
}
}
}
cpu_lib.r.p.check_z(cpu, cpu.r.a);
}
};
var ADC_absolute = new cpu_lib.addressing.Absolute(ADC_const);
var ADC_absolute_long = new cpu_lib.addressing.Absolute_long(ADC_const);
var ADC_absolute_long_indexed_x =
new cpu_lib.addressing.Absolute_long_indexed_x(ADC_const);
var ADC_direct_page = new cpu_lib.addressing.Direct_page(ADC_const);
var ADC_direct_page_indirect =
new cpu_lib.addressing.Direct_page_indirect(ADC_const);
var ADC_direct_page_indexed_x_indirect =
new cpu_lib.addressing.Direct_page_indexed_x_indirect(ADC_const);
var ADC_direct_page_indirect_long_indexed_y =
new cpu_lib.addressing.Direct_page_indirect_long_indexed_y(ADC_const);
var ADC_direct_page_indirect_long =
new cpu_lib.addressing.Direct_page_indirect_long(ADC_const);
var ADC_direct_page_indirect_indexed_y =
new cpu_lib.addressing.Direct_page_indirect_indexed_y(ADC_const);
var ADC_absolute_indexed_x =
new cpu_lib.addressing.Absolute_indexed_x(ADC_absolute);
var ADC_absolute_indexed_y =
new cpu_lib.addressing.Absolute_indexed_y(ADC_absolute);
var ADC_direct_page_indexed_x =
new cpu_lib.addressing.Direct_page_indexed_x(ADC_direct_page);
var ADC_stack_relative = new cpu_lib.addressing.Stack_relative(ADC_const);
var ADC_stack_relative_indirect_indexed_y =
new cpu_lib.addressing.Stack_relative_indirect_indexed_y(ADC_const);
var BMI = {
bytes_required:function() {
return 2;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=2;
if(cpu.p.e)
cpu.cycle_count++;
if(cpu.p.n) {
cpu.cycle_count++;
// Handle single byte two's complement numbers as the branch argument.
if(bytes[0]<=127) {
cpu.r.pc+=bytes[0];
cpu.r.pc&=0xffff;
} else {
cpu.r.pc-=256-bytes[0];
if(cpu.r.pc<0)
cpu.r.pc+=0xffff;
}
}
}
};
var BPL = {
bytes_required:function() {
return 2;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=2;
if(cpu.p.e)
cpu.cycle_count++;
if(!cpu.p.n) {
cpu.cycle_count++;
// Handle single byte two's complement numbers as the branch argument.
if(bytes[0]<=127) {
cpu.r.pc+=bytes[0];
cpu.r.pc&=0xffff;
} else {
cpu.r.pc-=256-bytes[0];
if(cpu.r.pc<0)
cpu.r.pc+=0xffff;
}
}
}
};
var BVC = {
bytes_required:function() {
return 2;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=2;
if(cpu.p.e)
cpu.cycle_count++;
if(!cpu.p.v) {
cpu.cycle_count++;
// Handle single byte two's complement numbers as the branch argument.
if(bytes[0]<=127) {
cpu.r.pc+=bytes[0];
cpu.r.pc&=0xffff;
} else {
cpu.r.pc-=256-bytes[0];
if(cpu.r.pc<0)
cpu.r.pc+=0xffff;
}
}
}
};
var BVS = {
bytes_required:function() {
return 2;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=2;
if(cpu.p.e)
cpu.cycle_count++;
if(cpu.p.v) {
cpu.cycle_count++;
// Handle single byte two's complement numbers as the branch argument.
if(bytes[0]<=127) {
cpu.r.pc+=bytes[0];
cpu.r.pc&=0xffff;
} else {
cpu.r.pc-=256-bytes[0];
if(cpu.r.pc<0)
cpu.r.pc+=0xffff;
}
}
}
};
var BCC = {
bytes_required:function() {
return 2;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=2;
if(cpu.p.e)
cpu.cycle_count++;
if(!cpu.p.c) {
cpu.cycle_count++;
// Handle single byte two's complement numbers as the branch argument.
if(bytes[0]<=127) {
cpu.r.pc+=bytes[0];
cpu.r.pc&=0xffff;
} else {
cpu.r.pc-=256-bytes[0];
if(cpu.r.pc<0)
cpu.r.pc+=0xffff;
}
}
}
};
var BCS = {
bytes_required:function() {
return 2;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=2;
if(cpu.p.e)
cpu.cycle_count++;
if(cpu.p.c) {
cpu.cycle_count++;
// Handle single byte two's complement numbers as the branch argument.
if(bytes[0]<=127) {
cpu.r.pc+=bytes[0];
cpu.r.pc&=0xffff;
} else {
cpu.r.pc-=256-bytes[0];
if(cpu.r.pc<0)
cpu.r.pc+=0xffff;
}
}
}
};
var BEQ = {
bytes_required:function() {
return 2;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=2;
if(cpu.p.e)
cpu.cycle_count++;
if(cpu.p.z) {
cpu.cycle_count++;
// Handle single byte two's complement numbers as the branch argument.
if(bytes[0]<=127) {
cpu.r.pc+=bytes[0];
cpu.r.pc&=0xffff;
} else {
cpu.r.pc-=256-bytes[0];
if(cpu.r.pc<0)
cpu.r.pc+=0xffff;
}
}
}
};
var BNE = {
bytes_required:function() {
return 2;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=2;
if(cpu.p.e)
cpu.cycle_count++;
if(!cpu.p.z) {
cpu.cycle_count++;
// Handle single byte two's complement numbers as the branch argument.
if(bytes[0]<=127) {
cpu.r.pc+=bytes[0];
cpu.r.pc&=0xffff;
} else {
cpu.r.pc-=256-bytes[0];
if(cpu.r.pc<0)
cpu.r.pc+=0xffff;
}
}
}
};
var BRA = {
bytes_required:function() {
return 2;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=3;
if(cpu.p.e)
cpu.cycle_count++;
// Handle single byte two's complement numbers as the branch argument.
if(bytes[0]<=127) {
cpu.r.pc+=bytes[0];
cpu.r.pc&=0xffff;
} else {
cpu.r.pc-=256-bytes[0];
if(cpu.r.pc<0)
cpu.r.pc+=0xffff;
}
}
};
var BRL = {
bytes_required:function() {
return 3;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=4;
// Handle double byte two's complement numbers as the branch argument.
var num = (bytes[1]<<8)|bytes[0];
if(num<=32767) {
cpu.r.pc+=num;
cpu.r.pc&=0xffff;
} else {
cpu.r.pc-=65536-num;
if(cpu.r.pc<0)
cpu.r.pc+=0xffff;
}
}
};
var JMP_absolute_indirect = {
bytes_required:function() {
return 3;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=5;
cpu.r.pc = cpu.mmu.read_word((bytes[1]<<8)|bytes[0]);
}
};
var JMP_absolute_long = {
bytes_required:function() {
return 4;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=4;
cpu.r.k = bytes[2];
cpu.r.pc = (bytes[1]<<8)|bytes[0];
}
};
var JMP_absolute_indirect_long = {
bytes_required:function() {
return 3;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=6;
var memory_location = (bytes[1]<<8)|bytes[0];
cpu.r.pc = cpu.mmu.read_word(memory_location);
cpu.r.k = cpu.mmu.read_byte(memory_location+2);
}
};
var JMP_absolute_indexed_x_indirect = {
bytes_required:function() {
return 3;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=6;
var memory_location = ((bytes[1]<<8)|bytes[0])+cpu.r.x,
bank = cpu.r.k;
if(memory_location&0x10000) {
bank++;
}
memory_location &= 0xffff;
var indirect_location = cpu.mmu.read_word_long(memory_location, bank),
low_byte = cpu.mmu.read_byte(indirect_location);
bank = cpu.r.k;
if(indirect_location===0xffff) {
indirect_location = 0;
bank++;
} else {
indirect_location++;
}
var high_byte = cpu.mmu.read_byte_long(indirect_location, bank);
cpu.r.pc = (high_byte<<8)|low_byte;
}
};
var JMP_absolute = {
bytes_required:function() {
return 3;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=3;
cpu.r.pc = (bytes[1]<<8)|bytes[0];
}
};
var TYA = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=2;
if(cpu.p.e||cpu.p.m) {
if(cpu.p.e||cpu.p.x) {
// 8-bit index register to 8-bit accumulator.
cpu.r.a = cpu.r.y;
} else {
// 16-bit index register to 8-bit accumulator.
cpu.r.a = cpu.r.y & 0x00ff;
}
cpu.p.n = cpu.r.a >> 7;
} else {
// 8-bit index register to 16-bit accumulator.
// 16-bit index register to 16-bit accumulator.
cpu.r.a = cpu.r.y;
cpu.p.n = cpu.r.a >> 15;
}
cpu_lib.r.p.check_z(cpu, cpu.r.a);
}
};
var TAY = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=2;
if(cpu.p.e||cpu.p.m) {
if(cpu.p.e||cpu.p.x) {
// 8-bit accumulator to 8-bit x index register.
cpu.r.y = cpu.r.a;
cpu.p.n = cpu.r.y >> 7;
} else {
// 8-bit accumulator to 16-bit x index register.
cpu.r.y = cpu.r.b; // Transfer b as high-byte of x.
cpu.r.y |= cpu.r.a; // Use the bitwise or to add a as the low-byte.
cpu.p.n = cpu.r.y >> 15;
}
} else {
if(cpu.p.x) {
// 16-bit accumulator to 8-bit x index register.
cpu.r.y = cpu.r.a & 0x00ff; // Transfer only the low-byte to x.
cpu.p.n = cpu.r.y >> 7;
} else {
// 16-bit accumulator to 16-bit x index register.
cpu.r.y = cpu.r.a;
cpu.p.n = cpu.r.y >> 15;
}
}
cpu_lib.r.p.check_z(cpu, cpu.r.y);
}
};
var TXA = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=2;
if(cpu.p.e||cpu.p.m) {
if(cpu.p.e||cpu.p.x) {
// 8-bit index register to 8-bit accumulator.
cpu.r.a = cpu.r.x;
} else {
// 16-bit index register to 8-bit accumulator.
cpu.r.a = cpu.r.x & 0x00ff;
}
cpu.p.n = cpu.r.a >> 7;
} else {
// 8-bit index register to 16-bit accumulator.
// 16-bit index register to 16-bit accumulator.
cpu.r.a = cpu.r.x;
cpu.p.n = cpu.r.a >> 15;
}
cpu_lib.r.p.check_z(cpu, cpu.r.a);
}
};
var TAX = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=2;
if(cpu.p.e||cpu.p.m) {
if(cpu.p.e||cpu.p.x) {
// 8-bit accumulator to 8-bit x index register.
cpu.r.x = cpu.r.a;
cpu.p.n = cpu.r.x >> 7;
} else {
// 8-bit accumulator to 16-bit x index register.
cpu.r.x = cpu.r.b; // Transfer b as high-byte of x.
cpu.r.x |= cpu.r.a; // Use the bitwise or to add a as the low-byte.
cpu.p.n = cpu.r.x >> 15;
}
} else {
if(cpu.p.x) {
// 16-bit accumulator to 8-bit x index register.
cpu.r.x = cpu.r.a & 0x00ff; // Transfer only the low-byte to x.
cpu.p.n = cpu.r.x >> 7;
} else {
// 16-bit accumulator to 16-bit x index register.
cpu.r.x = cpu.r.a;
cpu.p.n = cpu.r.x >> 15;
}
}
cpu_lib.r.p.check_z(cpu, cpu.r.x);
}
};
var TXY = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=2;
cpu.r.y = cpu.r.x;
cpu_lib.r.p.check_z(cpu, cpu.r.y);
if(cpu.p.e||cpu.p.x) {
cpu.p.n = cpu.r.y >> 7;
} else {
cpu.p.n = cpu.r.y >> 15;
}
}
};
var TYX = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=2;
cpu.r.x = cpu.r.y;
cpu_lib.r.p.check_z(cpu, cpu.r.x);
if(cpu.p.e||cpu.p.x) {
cpu.p.n = cpu.r.y >> 7;
} else {
cpu.p.n = cpu.r.y >> 15;
}
}
};
var TCD = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=2;
// Transfers 16-bits regardless of setting.
if(cpu.p.e||cpu.p.m) {
cpu.r.d = (cpu.r.b<<8)|cpu.r.a;
} else {
cpu.r.d = cpu.r.a;
}
cpu.p.n = cpu.r.d >> 15;
cpu_lib.r.p.check_z(cpu, cpu.r.d);
}
};
var TDC = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=2;
// Transfers 16-bits regardless of setting.
if(cpu.p.e||cpu.p.m) {
cpu.r.a = cpu.r.d & 0xff;
cpu.r.b = cpu.r.d >> 8;
cpu.p.n = cpu.r.b >> 7;
} else {
cpu.r.a = cpu.r.d;
cpu.p.n = cpu.r.a >> 7;
}
cpu_lib.r.p.check_z(cpu, cpu.r.a);
}
};
var TCS = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=2;
if(cpu.p.e||!cpu.p.m) {
cpu.r.s = cpu.r.a;
} else {
cpu.r.s = (cpu.r.b<<8)|cpu.r.a;
}
}
};
var TSC = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=2;
if(cpu.p.e) {
cpu.r.b = 1;
cpu.r.a = cpu.r.s;
// TODO: Figure out if in emulation mode the z and n bits should always
// be set to zero here as a 1 is transferred to b.
cpu.p.n = 0;
cpu.p.z = 0;
} else {
if(cpu.p.m) {
cpu.r.a = cpu.r.s & 0xff;
cpu.r.b = cpu.r.s >> 8;
cpu.p.n = cpu.r.b >> 7;
} else {
cpu.r.a = cpu.r.s;
cpu.p.n = cpu.r.a >> 15;
}
cpu_lib.r.p.check_z(cpu, cpu.r.s);
}
}
};
var STZ_absolute = {
bytes_required: function() {
return 3;
},
execute: function(cpu, bytes) {
cpu.cycle_count+=4;
var memory_location = (bytes[1]<<8)|bytes[0];
if(cpu.p.e||cpu.p.m) {
cpu.mmu.store_byte(memory_location, 0);
} else {
cpu.cycle_count++;
cpu.mmu.store_word(memory_location, 0);
}
}
};
var STZ_direct_page = {
bytes_required: function() {
return 2;
},
execute: function(cpu, bytes) {
cpu.cycle_count+=3;
if((cpu.r.d&0xff)!==0)
cpu.cycle_count++;
var memory_location = bytes[0]+cpu.r.d;
if(cpu.p.e||cpu.p.m) {
cpu.mmu.store_byte(memory_location, 0);
} else {
cpu.cycle_count++;
cpu.mmu.store_word(memory_location, 0);
}
}
};
var STZ_absolute_indexed_x = {
bytes_required: function() {
return 3;
},
execute: function(cpu, bytes) {
cpu.cycle_count+=5;
var memory_location = ((bytes[1]<<8)|bytes[0])+cpu.r.x;
if(cpu.p.e||cpu.p.m) {
cpu.mmu.store_byte(memory_location, 0);
} else {
cpu.cycle_count++;
cpu.mmu.store_word(memory_location, 0);
}
}
};
var STZ_direct_page_indexed_x = {
bytes_required: function() {
return 2;
},
execute: function(cpu, bytes) {
cpu.cycle_count+=4;
if((cpu.r.d&0xff)!==0)
cpu.cycle_count++;
var memory_location = bytes[0]+cpu.r.d+cpu.r.x;
if(cpu.p.e||cpu.p.m) {
cpu.mmu.store_byte(memory_location, 0);
} else {
cpu.cycle_count++;
// Check for overflow.
var overflow_check = memory_location - 0xffff;
if(overflow_check > 0) {
memory_location = overflow_check-1;
}
cpu.mmu.store_byte(memory_location, 0);
// Check for potential overflow again.
if(memory_location===0xffff) {
memory_location = 0;
} else {
memory_location++;
}
cpu.mmu.store_byte(memory_location, 0);
}
}
};
var STA_direct_page_indirect = {
bytes_required:function() {
return 2;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=5;
if((cpu.r.d&0xff)!==0)
cpu.cycle_count++;
var memory_location = bytes[0] + cpu.r.d,
absolute_location = cpu.mmu.read_word(memory_location);
if(cpu.p.e||cpu.p.m) {
cpu.mmu.store_byte(absolute_location, cpu.r.a);
} else {
cpu.cycle_count++;
cpu.mmu.store_word(absolute_location, cpu.r.a);
}
}
};
var STA_direct_page_indirect_long = {
bytes_required:function() {
return 2;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=6;
if((cpu.r.d&0xff)!==0)
cpu.cycle_count++;
var memory_location = bytes[0] + cpu.r.d,
absolute_location = cpu.mmu.read_word(memory_location),
bank_byte = cpu.mmu.read_byte(memory_location+2);
if(cpu.p.e||cpu.p.m) {
cpu.mmu.store_byte_long(absolute_location, bank_byte,
cpu.r.a);
} else {
cpu.cycle_count++;
cpu.mmu.store_word_long(absolute_location, bank_byte, cpu.r.a);
}
}
};
var STA_direct_page_indirect_long_indexed_y = {
bytes_required:function() {
return 2;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=6;
if((cpu.r.d&0xff)!==0)
cpu.cycle_count++;
var memory_location = bytes[0] + cpu.r.d,
bank_byte = cpu.mmu.read_byte(memory_location+2),
absolute_location = cpu.mmu.read_word(memory_location) + cpu.r.y;
if(absolute_location >> 16) {
bank_byte++;
absolute_location &= 0xffff;
}
if(cpu.p.e||cpu.p.m) {
cpu.mmu.store_byte_long(absolute_location, bank_byte, cpu.r.a);
} else {
cpu.cycle_count++;
cpu.mmu.store_byte_long(absolute_location, bank_byte, cpu.r.a&0xff);
absolute_location++;
if(absolute_location >> 16) {
bank_byte++;
}
cpu.mmu.store_byte_long(absolute_location, bank_byte, cpu.r.a>>8);
}
}
};
var STA_direct_page_indirect_indexed_y = {
bytes_required:function() {
return 2;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=6;
if((cpu.r.d&0xff)!==0)
cpu.cycle_count++;
var memory_location = bytes[0] + cpu.r.d,
absolute_location = cpu.mmu.read_word(memory_location) + cpu.r.y;
if(cpu.p.e||cpu.p.m) {
cpu.mmu.store_byte(absolute_location, cpu.r.a);
} else {
cpu.cycle_count++;
cpu.mmu.store_word(absolute_location, cpu.r.a);
}
}
};
var STA_stack_relative = {
bytes_required:function() {
return 2;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=4;
if(cpu.p.e) {
cpu.mmu.store_byte(0x100 | ((cpu.r.s + bytes[0]) & 0xff), cpu.r.a);
} else {
if(cpu.p.m) {
cpu.mmu.store_byte(cpu.r.s + bytes[0], cpu.r.a);
} else {
cpu.cycle_count++;
cpu.mmu.store_word(cpu.r.s + bytes[0], cpu.r.a);
}
}
}
};
var STA_stack_relative_indirect_indexed_y = {
bytes_required:function() {
return 2;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=7;
if(cpu.p.e) {
var location_loc = 0x100 | ((cpu.r.s + bytes[0]) & 0xff),
low_byte = cpu.mmu.read_byte(location_loc),
high_byte;
if(location_loc===0x1ff) {
high_byte = cpu.mmu.read_byte(0x100);
} else {
high_byte = cpu.mmu.read_byte(location_loc+1);
}
var absolute_location = ((high_byte<<8)|low_byte)+cpu.r.y,
b;
if(absolute_location>=0x10000) {
b = cpu.mmu.read_byte_long(absolute_location, cpu.r.dbr+1);
} else {
b = cpu.mmu.read_byte(absolute_location);
}
cpu.mmu.store_byte(b, cpu.r.a);
} else {
var location_loc = cpu.r.s + bytes[0],
absolute_location = cpu.mmu.read_word(location_loc)+cpu.r.y;
if(cpu.p.m) {
var b;
if(absolute_location>=0x10000) {
b = cpu.mmu.read_byte_long(absolute_location, cpu.r.dbr+1);
} else {
b = cpu.mmu.read_byte(absolute_location);
}
cpu.mmu.store_byte(b, cpu.r.a);
} else {
cpu.cycle_count++;
var low_byte, high_byte;
if(absolute_location>=0x10000) {
low_byte = cpu.mmu.read_byte_long(absolute_location, cpu.r.dbr+1);
high_byte = cpu.mmu.read_byte_long(absolute_location+1, cpu.r.dbr+1);
} else {
low_byte = cpu.mmu.read_byte(absolute_location);
if(absolute_location===0xffff) {
high_byte = cpu.mmu.read_byte_long(0, cpu.r.dbr+1);
} else {
high_byte = cpu.mmu.read_byte(absolute_location);
}
}
cpu.mmu.store_word((high_byte<<8)|low_byte, cpu.r.a);
}
}
}
};
var NOP = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=2;
}
};
var LDY_const = {
bytes_required:function(cpu) {
if(cpu.p.e||cpu.p.x)
return 2;
else
return 3;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=2;
if(cpu.p.e||cpu.p.x) {
cpu.r.y = bytes[0];
cpu.p.n = cpu.r.y >> 7;
} else {
cpu.cycle_count++;
cpu.r.y = (bytes[1]<<8)|bytes[0];
cpu.p.n = cpu.r.y >> 15;
}
cpu_lib.r.p.check_z(cpu, cpu.r.y);
}
};
var LDY_absolute = new cpu_lib.addressing.Absolute(LDY_const);
var LDY_absolute_indexed_x =
new cpu_lib.addressing.Absolute_indexed_x(LDY_absolute);
var LDY_direct_page = new cpu_lib.addressing.Direct_page(LDY_const);
var LDY_direct_page_indexed_x =
new cpu_lib.addressing.Direct_page_indexed_x(LDY_direct_page);
var DEX = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=2;
if(cpu.r.x===0) {
if(cpu.p.e||cpu.p.x) {
cpu.r.x = 0xff;
} else {
cpu.r.x = 0xffff;
}
cpu.p.n = 1;
cpu.p.z = 0;
} else {
cpu.r.x--;
if(cpu.p.e||cpu.p.x) {
cpu.p.n = cpu.r.x >> 7;
} else {
cpu.p.n = cpu.r.x >> 15;
}
cpu_lib.r.p.check_z(cpu, cpu.r.x);
}
}
};
var DEY = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=2;
if(cpu.r.y===0) {
if(cpu.p.e||cpu.p.x) {
cpu.r.y = 0xff;
} else {
cpu.r.y = 0xffff;
}
cpu.p.n = 1;
cpu.p.z = 0;
} else {
cpu.r.y--;
if(cpu.p.e||cpu.p.x) {
cpu.p.n = cpu.r.y >> 7;
} else {
cpu.p.n = cpu.r.y >> 15;
}
cpu_lib.r.p.check_z(cpu, cpu.r.y);
}
}
};
var DEC_accumulator = {
bytes_required: function() {
return 1;
},
execute: function(cpu) {
cpu.cycle_count+=2;
if(cpu.r.a===0) {
if(cpu.p.e||cpu.p.m) {
cpu.r.a = 0xff;
} else {
cpu.r.a = 0xffff;
}
cpu.p.n = 1;
cpu.p.z = 0;
} else {
cpu.r.a--;
if(cpu.p.e||cpu.p.m) {
cpu.r.a &= 0xff;
cpu.p.n = cpu.r.a >> 7;
} else {
cpu.r.a &= 0xffff;
cpu.p.n = cpu.r.a >> 15;
}
cpu_lib.r.p.check_z(cpu, cpu.r.a);
}
}
};
var DEC_absolute = {
bytes_required: function() {
return 3;
},
execute: function(cpu, bytes) {
cpu.cycle_count+=6;
var memory_location = (bytes[1]<<8)|bytes[0],
temp;
if(cpu.p.e||cpu.p.m) {
temp = cpu.mmu.read_byte(memory_location);
if(temp===0) {
cpu.mmu.store_byte(memory_location, 0xff);
cpu.p.n = 1;
cpu.p.z = 0;
} else {
temp--;
cpu.mmu.store_byte(memory_location, temp);
cpu.p.n = temp >> 7;
cpu_lib.r.p.check_z(cpu, temp);
}
} else {
cpu.cycle_count+=2;
temp = cpu.mmu.read_word(memory_location);
if(temp===0) {
temp = 0xffff;
cpu.p.n = 1;
cpu.p.z = 0;
} else {
temp--;
cpu.p.n = temp >> 15;
cpu_lib.r.p.check_z(cpu, temp);
}
cpu.mmu.store_word(memory_location, temp);
}
}
};
var DEC_absolute_indexed_x = {
bytes_required: function() {
return 3;
},
execute: function(cpu, bytes) {
cpu.cycle_count+=7;
var memory_location = ((bytes[1]<<8)|bytes[0]) + cpu.r.x,
temp;
if(cpu.p.e||cpu.p.m) {
temp = cpu.mmu.read_byte(memory_location);
if(temp===0) {
cpu.mmu.store_byte(memory_location, 0xff);
cpu.p.n = 1;
cpu.p.z = 0;
} else {
temp--;
cpu.mmu.store_byte(memory_location, temp);
cpu.p.n = temp >> 7;
cpu_lib.r.p.check_z(cpu, temp);
}
} else {
cpu.cycle_count+=2;
temp = cpu.mmu.read_word(memory_location);
if(temp===0) {
temp = 0xffff;
cpu.p.n = 1;
cpu.p.z = 0;
} else {
temp--;
cpu.p.n = temp >> 15;
cpu_lib.r.p.check_z(cpu, temp);
}
cpu.mmu.store_word(memory_location, temp);
}
}
};
var DEC_direct_page = {
bytes_required: function() {
return 2;
},
execute: function(cpu, bytes) {
cpu.cycle_count+=5;
if((cpu.r.d&0xff)!==0)
cpu.cycle_count++;
var memory_location = bytes[0] + cpu.r.d,
temp;
if(cpu.p.e||cpu.p.m) {
temp = cpu.mmu.read_byte(memory_location);
if(temp===0) {
cpu.mmu.store_byte(memory_location, 0xff);
cpu.p.n = 1;
cpu.p.z = 0;
} else {
temp--;
cpu.mmu.store_byte(memory_location, temp);
cpu.p.n = temp >> 7;
cpu_lib.r.p.check_z(cpu, temp);
}
} else {
cpu.cycle_count+=2;
temp = cpu.mmu.read_word(memory_location);
if(temp===0) {
temp = 0xffff;
cpu.p.n = 1;
cpu.p.z = 0;
} else {
temp--;
cpu.p.n = temp >> 15;
cpu_lib.r.p.check_z(cpu, temp);
}
cpu.mmu.store_word(memory_location, temp);
}
}
};
var DEC_direct_page_indexed_x = {
bytes_required: function() {
return 2;
},
execute: function(cpu, bytes) {
cpu.cycle_count+=6;
if((cpu.r.d&0xff)!==0)
cpu.cycle_count++;
var memory_location = bytes[0] + cpu.r.d + cpu.r.x,
temp;
if(cpu.p.e||cpu.p.m) {
temp = cpu.mmu.read_byte(memory_location);
if(temp===0) {
cpu.mmu.store_byte(memory_location, 0xff);
cpu.p.n = 1;
cpu.p.z = 0;
} else {
temp--;
cpu.mmu.store_byte(memory_location, temp);
cpu.p.n = temp >> 7;
cpu_lib.r.p.check_z(cpu, temp);
}
} else {
cpu.cycle_count+=2;
temp = cpu.mmu.read_word(memory_location);
if(temp===0) {
temp = 0xffff;
cpu.p.n = 1;
cpu.p.z = 0;
} else {
temp--;
cpu.p.n = temp >> 15;
cpu_lib.r.p.check_z(cpu, temp);
}
cpu.mmu.store_word(memory_location, temp);
}
}
};
var INX = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=2;
cpu.r.x++;
if(cpu.p.e||cpu.p.x) {
cpu.r.x &= 0xff;
cpu.p.n = cpu.r.x >> 7;
} else {
cpu.r.x &= 0xffff;
cpu.p.n = cpu.r.x >> 15;
}
cpu_lib.r.p.check_z(cpu, cpu.r.x);
}
};
var INY = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=2;
cpu.r.y++;
if(cpu.p.e||cpu.p.x) {
cpu.r.y &= 0xff;
cpu.p.n = cpu.r.y >> 7;
} else {
cpu.r.y &= 0xffff;
cpu.p.n = cpu.r.y >> 15;
}
cpu_lib.r.p.check_z(cpu, cpu.r.y);
}
};
var INC_accumulator = {
bytes_required: function() {
return 1;
},
execute: function(cpu) {
cpu.cycle_count+=2;
cpu.r.a++;
if(cpu.p.e||cpu.p.m) {
cpu.r.a &= 0xff;
cpu.p.n = cpu.r.a >> 7;
} else {
cpu.r.a &= 0xffff;
cpu.p.n = cpu.r.a >> 15;
}
cpu_lib.r.p.check_z(cpu, cpu.r.a);
}
};
var INC_absolute = {
bytes_required: function() {
return 3;
},
execute: function(cpu, bytes) {
cpu.cycle_count+=6;
var memory_location = (bytes[1]<<8)|bytes[0],
temp;
if(cpu.p.e||cpu.p.m) {
temp = (cpu.mmu.read_byte(memory_location) + 1) & 0xff;
cpu.p.n = temp >> 7;
cpu.mmu.store_byte(memory_location, temp);
} else {
cpu.cycle_count+=2;
temp = cpu.mmu.read_word(memory_location) + 1;
cpu.p.n = temp >> 15;
cpu.mmu.store_word(memory_location, temp);
}
cpu_lib.r.p.check_z(cpu, temp);
}
};
var INC_absolute_indexed_x = {
bytes_required: function() {
return 3;
},
execute: function(cpu, bytes) {
cpu.cycle_count+=7;
var memory_location = ((bytes[1]<<8)|bytes[0]) + cpu.r.x,
temp;
if(cpu.p.e||cpu.p.m) {
temp = (cpu.mmu.read_byte(memory_location) + 1) & 0xff;
cpu.p.n = temp >> 7;
cpu.mmu.store_byte(memory_location, temp);
} else {
cpu.cycle_count+=2;
temp = cpu.mmu.read_word(memory_location) + 1;
cpu.p.n = temp >> 15;
cpu.mmu.store_word(memory_location, temp);
}
cpu_lib.r.p.check_z(cpu, temp);
}
};
var INC_direct_page = {
bytes_required: function() {
return 2;
},
execute: function(cpu, bytes) {
cpu.cycle_count+=5;
if((cpu.r.d&0xff)!==0)
cpu.cycle_count++;
var memory_location = bytes[0] + cpu.r.d,
temp;
if(cpu.p.e||cpu.p.m) {
temp = (cpu.mmu.read_byte(memory_location) + 1) & 0xff;
cpu.mmu.store_byte(memory_location, temp);
cpu.p.n = temp >> 7;
} else {
cpu.cycle_count+=2;
temp = cpu.mmu.read_word(memory_location) + 1;
cpu.p.n = temp >> 15;
cpu.mmu.store_word(memory_location, temp);
}
cpu_lib.r.p.check_z(cpu, temp);
}
};
var INC_direct_page_indexed_x = {
bytes_required: function() {
return 2;
},
execute: function(cpu, bytes) {
cpu.cycle_count+=6;
if((cpu.r.d&0xff)!==0)
cpu.cycle_count++;
var memory_location = bytes[0] + cpu.r.d + cpu.r.x,
temp;
if(cpu.p.e||cpu.p.m) {
temp = (cpu.mmu.read_byte(memory_location) + 1) & 0xff;
cpu.mmu.store_byte(memory_location, temp);
cpu.p.n = temp >> 7;
} else {
cpu.cycle_count+=2;
temp = cpu.mmu.read_word(memory_location) + 1;
cpu.p.n = temp >> 15;
cpu.mmu.store_word(memory_location, temp);
}
cpu_lib.r.p.check_z(cpu, temp);
}
};
var STA_direct_page_indexed_x = {
bytes_required: function() {
return 2;
},
execute: function(cpu, bytes) {
cpu.cycle_count+=4;
if((cpu.r.d&0xff)!==0)
cpu.cycle_count++;
var memory_location = bytes[0]+cpu.p.d+cpu.r.x;
if(cpu.p.e||cpu.p.m) {
cpu.mmu.store_byte(memory_location, cpu.r.a);
} else {
cpu.cycle_count++;
cpu.mmu.store_word(memory_location, cpu.r.a);
}
}
};
var STA_direct_page_indexed_x_indirect = {
bytes_required:function() {
return 2;
},
execute:function(cpu, bytes) {
cpu.cycle_count+=6;
if((cpu.r.d&0xff)!==0)
cpu.cycle_count++;
if(cpu.p.e) {
var memory_location = (bytes[0] + cpu.r.x) & 0xff,
low_byte_loc = cpu.mmu.read_byte_long(memory_location+cpu.r.d, 0),
high_byte_read_loc = ((memory_location+1)&0xff)+cpu.r.d,
high_byte_loc = cpu.mmu.read_byte_long(high_byte_read_loc, 0);
cpu.mmu.store_byte((high_byte_loc<<8) | low_byte_loc, cpu.r.a);
} else if(cpu.p.m) {
var memory_location = bytes[0] + cpu.r.d + cpu.r.x;
cpu.mmu.store_byte(cpu.mmu.read_word(memory_location), cpu.r.a);
} else {
cpu.cycle_count++;
var memory_location = bytes[0] + cpu.r.d + cpu.r.x,
absolute_location = cpu.mmu.read_word(memory_location),
low_byte = cpu.mmu.read_byte(absolute_location),
high_byte;
absolute_location++;
if(absolute_location&0x10000) {
high_byte = cpu.mmu.read_byte_long(absolute_location, cpu.r.dbr+1);
} else {
high_byte = cpu.mmu.read_byte(absolute_location);
}
var storage_location = (high_byte<<8) | low_byte;
cpu.mmu.store_byte(storage_location, cpu.r.a & 0xff);
storage_location++;
if(storage_location&0x10000) {
cpu.mmu.store_byte_long(storage_location, cpu.r.dbr+1, cpu.r.a >> 8);
} else {
cpu.mmu.store_byte(storage_location, cpu.r.a >> 8);
}
}
}
};
var STA_direct_page = {
bytes_required: function() {
return 2;
},
execute: function(cpu, bytes) {
cpu.cycle_count+=3;
if((cpu.r.d&0xff)!==0)
cpu.cycle_count++;
var memory_location = bytes[0]+cpu.p.d;
if(cpu.p.e||cpu.p.m) {
cpu.mmu.store_byte(memory_location, cpu.r.a);
} else {
cpu.cycle_count++;
cpu.mmu.store_word(memory_location, cpu.r.a);
}
}
};
var STA_absolute_indexed_x = {
bytes_required: function() {
return 3;
},
execute: function(cpu, bytes) {
cpu.cycle_count+=5;
var memory_location = ((bytes[1]<<8)|bytes[0])+cpu.r.x;
if(cpu.p.e||cpu.p.m) {
cpu.mmu.store_byte(memory_location, cpu.r.a);
} else {
cpu.cycle_count++;
cpu.mmu.store_word(memory_location, cpu.r.a);
}
}
};
var STA_absolute_indexed_y = {
bytes_required: function() {
return 3;
},
execute: function(cpu, bytes) {
cpu.cycle_count+=5;
var memory_location = ((bytes[1]<<8)|bytes[0])+cpu.r.y;
if(cpu.p.e||cpu.p.m) {
cpu.mmu.store_byte(memory_location, cpu.r.a);
} else {
cpu.cycle_count++;
cpu.mmu.store_word(memory_location, cpu.r.a);
}
}
};
var STY_direct_page_indexed_x = {
bytes_required: function() {
return 2;
},
execute: function(cpu, bytes) {
cpu.cycle_count+=4;
if((cpu.r.d&0xff)!==0)
cpu.cycle_count++;
var memory_location = bytes[0]+cpu.p.d+cpu.r.x;
if(cpu.p.e||cpu.p.x) {
cpu.mmu.store_byte(memory_location, cpu.r.y);
} else {
cpu.cycle_count++;
cpu.mmu.store_word(memory_location, cpu.r.y);
}
}
};
var STY_direct_page = {
bytes_required: function() {
return 2;
},
execute: function(cpu, bytes) {
cpu.cycle_count+=3;
if((cpu.r.d&0xff)!==0)
cpu.cycle_count++;
var memory_location = bytes[0]+cpu.p.d;
if(cpu.p.e||cpu.p.x) {
cpu.mmu.store_byte(memory_location, cpu.r.y);
} else {
cpu.cycle_count++;
cpu.mmu.store_word(memory_location, cpu.r.y);
}
}
};
var STY_absolute = {
bytes_required: function() {
return 3;
},
execute: function(cpu, bytes) {
cpu.cycle_count+=4;
var memory_location = (bytes[1]<<8)|bytes[0];
if(cpu.p.e||cpu.p.x) {
cpu.mmu.store_byte(memory_location, cpu.r.y);
} else {
cpu.cycle_count++;
cpu.mmu.store_word(memory_location, cpu.r.y);
}
}
};
var STX_direct_page_indexed_y = {
bytes_required: function() {
return 2;
},
execute: function(cpu, bytes) {
cpu.cycle_count+=4;
if((cpu.r.d&0xff)!==0)
cpu.cycle_count++;
var memory_location = bytes[0]+cpu.p.d+cpu.r.y;
if(cpu.p.e||cpu.p.x) {
cpu.mmu.store_byte(memory_location, cpu.r.x);
} else {
cpu.cycle_count++;
cpu.mmu.store_word(memory_location, cpu.r.x);
}
}
};
var STX_direct_page = {
bytes_required: function() {
return 2;
},
execute: function(cpu, bytes) {
cpu.cycle_count+=3;
if((cpu.r.d&0xff)!==0)
cpu.cycle_count++;
var memory_location = bytes[0]+cpu.p.d;
if(cpu.p.e||cpu.p.x) {
cpu.mmu.store_byte(memory_location, cpu.r.x);
} else {
cpu.cycle_count++;
cpu.mmu.store_word(memory_location, cpu.r.x);
}
}
};
var STX_absolute = {
bytes_required: function() {
return 3;
},
execute: function(cpu, bytes) {
cpu.cycle_count+=4;
var memory_location = (bytes[1]<<8)|bytes[0];
if(cpu.p.e||cpu.p.x) {
cpu.mmu.store_byte(memory_location, cpu.r.x);
} else {
cpu.cycle_count++;
cpu.mmu.store_word(memory_location, cpu.r.x);
}
}
};
var STA_absolute_long = {
bytes_required: function() {
return 4;
},
execute: function(cpu, bytes) {
cpu.cycle_count+=5;
var memory_location = (bytes[1]<<8)|bytes[0];
if(cpu.p.e||cpu.p.m) {
cpu.mmu.store_byte_long(memory_location, bytes[2], cpu.r.a);
} else {
cpu.cycle_count++;
cpu.mmu.store_word_long(memory_location, bytes[2], cpu.r.a);
}
}
};
var STA_absolute_long_indexed_x = {
bytes_required: function() {
return 4;
},
execute: function(cpu, bytes) {
cpu.cycle_count+=5;
var memory_location = ((bytes[1]<<8)|bytes[0]) + cpu.r.x;
if(memory_location & 0x10000) {
memory_location &= 0xffff;
bytes[2]++;
}
if(cpu.p.e||cpu.p.m) {
cpu.mmu.store_byte_long(memory_location, bytes[2], cpu.r.a);
} else {
cpu.cycle_count++;
cpu.mmu.store_byte_long(memory_location, bytes[2], cpu.r.a&0x00ff);
memory_location++;
if(memory_location & 0x10000) {
bytes[2]++;
}
cpu.mmu.store_byte_long(memory_location, bytes[2], cpu.r.a>>8);
}
}
};
var STA_absolute = {
bytes_required: function() {
return 3;
},
execute: function(cpu, bytes) {
cpu.cycle_count+=4;
var memory_location = (bytes[1]<<8)|bytes[0];
if(cpu.p.e||cpu.p.m) {
cpu.mmu.store_byte(memory_location, cpu.r.a);
} else {
cpu.cycle_count++;
cpu.mmu.store_word(memory_location, cpu.r.a);
}
}
};
var LDX_direct_page_indexed_y = {
bytes_required: function() {
return 2;
},
execute: function(cpu, bytes) {
cpu.cycle_count+=4;
if((cpu.r.d&0xff)!==0)
cpu.cycle_count++;
var memory_location = cpu.r.d + bytes[0] + cpu.r.y;
if(cpu.p.e||cpu.p.x) {
cpu.r.x = cpu.mmu.read_byte(memory_location);
cpu.p.n = cpu.r.x >> 7;
} else {
cpu.cycle_count++;
cpu.r.x = cpu.mmu.read_word(memory_location);
cpu.p.n = cpu.r.x >> 15;
}
cpu_lib.r.p.check_z(cpu, cpu.r.x);
}
};
var LDA_const = {
bytes_required: function(cpu) {
if(cpu.p.e||cpu.p.m) {
return 2;
} else {
return 3;
}
},
execute: function(cpu, bytes) {
cpu.cycle_count+=2;
if(cpu.p.e||cpu.p.m) {
cpu.r.a = bytes[0];
cpu.p.n = cpu.r.a >> 7;
} else {
cpu.cycle_count++;
cpu.r.a = (bytes[1]<<8)|bytes[0];
cpu.p.n = cpu.r.a >> 15;
}
cpu_lib.r.p.check_z(cpu, cpu.r.a);
}
};
var LDA_direct_page = new cpu_lib.addressing.Direct_page(LDA_const);
var LDA_direct_page_indexed_x =
new cpu_lib.addressing.Direct_page_indexed_x(LDA_direct_page);
var LDA_direct_page_indirect =
new cpu_lib.addressing.Direct_page_indirect(LDA_const);
var LDA_direct_page_indirect_indexed_y =
new cpu_lib.addressing.Direct_page_indirect_indexed_y(LDA_const);
var LDA_absolute = new cpu_lib.addressing.Absolute(LDA_const);
var LDA_absolute_indexed_x =
new cpu_lib.addressing.Absolute_indexed_x(LDA_absolute);
var LDA_absolute_indexed_y =
new cpu_lib.addressing.Absolute_indexed_y(LDA_absolute);
var LDA_stack_relative = new cpu_lib.addressing.Stack_relative(LDA_const);
var LDA_stack_relative_indirect_indexed_y =
new cpu_lib.addressing.Stack_relative_indirect_indexed_y(LDA_const);
var LDX_absolute_indexed_y =
new cpu_lib.addressing.Absolute_indexed_y(LDX_absolute);
var LDA_absolute_long = new cpu_lib.addressing.Absolute_long(LDA_const);
var LDA_absolute_long_indexed_x =
new cpu_lib.addressing.Absolute_long_indexed_x(LDA_const);
var LDA_direct_page_indexed_x_indirect =
new cpu_lib.addressing.Direct_page_indexed_x_indirect(LDA_const);
var LDA_direct_page_indirect_long =
new cpu_lib.addressing.Direct_page_indirect_long(LDA_const);
var LDA_direct_page_indirect_long_indexed_y =
new cpu_lib.addressing.Direct_page_indirect_long_indexed_y(LDA_const);
var LDX_const = {
bytes_required: function(cpu) {
if(cpu.p.e||cpu.p.x) {
return 2;
} else {
return 3;
}
},
execute: function(cpu, bytes) {
cpu.cycle_count+=2;
if(cpu.p.e||cpu.p.x) {
cpu.r.x = bytes[0];
cpu.p.n = cpu.r.x >> 7;
} else {
cpu.cycle_count++;
cpu.r.x = (bytes[1]<<8)|bytes[0];
cpu.p.n = cpu.r.x >> 15;
}
cpu_lib.r.p.check_z(cpu, cpu.r.x);
}
};
var LDX_direct_page = new cpu_lib.addressing.Direct_page(LDX_const);
var LDX_absolute = new cpu_lib.addressing.Absolute(LDX_const);
// Set bits in the p status register as specified by 1's in the position
// that represents each register.
var SEP = {
bytes_required: function() { return 2; },
execute: function(cpu, bytes) {
// TODO: Figure out exactly how behavior differs in emulation mode.
cpu.cycle_count+=3;
var flags = bytes[0].toString(2),
ops = { 0: function() { cpu.p.n = 1; }, 1: function() { cpu.p.v = 1; },
2: function() { cpu.p.m = 1; }, 3: function() { cpu.p.x = 1; },
4: function() { cpu.p.d = 1; }, 5: function() { cpu.p.i = 1; },
6: function() { cpu.p.z = 1; },
7: function() { cpu.p.c = 1; }};
// Sometimes it cuts off zeros before hand, so add those zeros back.
while(flags.length<8) {
flags = '0' + flags;
}
for(var i = 0; i < 8; i++) {
if(flags.charAt(i)==='1') {
ops[i]();
}
}
}
};
// Clear bits in the p status register as specified by 1's in the position
// that represents each register.
var REP = {
bytes_required: function() { return 2; },
execute: function(cpu, bytes) {
// TODO: Figure out exactly how behavior differs in emulation mode.
cpu.cycle_count+=3;
var flags = bytes[0].toString(2),
ops = { 0: function() { cpu.p.n = 0; }, 1: function() { cpu.p.v = 0; },
2: function() { cpu.p.m = 0; }, 3: function() { cpu.p.x = 0; },
4: function() { cpu.p.d = 0; }, 5: function() { cpu.p.i = 0; },
6: function() { cpu.p.z = 0; },
7: function() { cpu.p.c = 0; }};
// Sometimes it cuts off zeros before hand, so add those zeros back.
while(flags.length<8) {
flags = '0' + flags;
}
for(var i = 0; i < 8; i++) {
if(flags.charAt(i)==='1') {
ops[i]();
}
}
}
};
var XCE = {
bytes_required: function() { return 1; },
execute: function(cpu) {
cpu.cycle_count+=2;
var temp = cpu.p.c;
cpu.p.c = cpu.p.e;
cpu.p.e = temp;
if(cpu.p.e) {
// Switching to emulation mode.
cpu.r.b = cpu.r.a >> 8;
cpu.r.a &= 0x00ff;
cpu.r.s &= 0xff;
} else {
// Switching to native mode.
cpu.r.a = (cpu.r.b<<8) | cpu.r.a;
cpu.p.m = 1;
cpu.p.x = 1;
cpu.r.s |= 0x100;
}
}
};
var CLC = {
bytes_required: function() { return 1; },
execute: function(cpu) {
cpu.cycle_count+=2;
cpu.p.c = 0;
}
};
var SEI = {
bytes_required: function() { return 1; },
execute: function(cpu) {
cpu.cycle_count+=2;
cpu.p.i = 1;
}
};
var CLI = {
bytes_required: function() { return 1; },
execute: function(cpu) {
cpu.cycle_count+=2;
cpu.p.i = 0;
}
};
var SEC = {
bytes_required: function() { return 1; },
execute: function(cpu) {
cpu.cycle_count+=2;
cpu.p.c = 1;
}
};
var CLD = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=2;
cpu.p.d = 0;
}
};
var SED = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=2;
cpu.p.d = 1;
}
};
var CLV = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=2;
cpu.p.v = 0;
}
};
var XBA = {
bytes_required:function() {
return 1;
},
execute:function(cpu) {
cpu.cycle_count+=3;
if(cpu.p.e||cpu.p.m) {
cpu.cycle_count+=2;
var old_a = cpu.r.a;
cpu.r.a = cpu.r.b;
cpu.r.b = old_a;
cpu.p.n = cpu.r.a >> 7;
cpu_lib.r.p.check_z(cpu, cpu.r.a);
} else {
var low_byte = cpu.r.a & 0xff;
var high_byte = cpu.r.a >> 8;
cpu.r.a = (low_byte<<8)|high_byte;
cpu.p.n = high_byte >> 7;
cpu_lib.r.p.check_z(cpu, high_byte);
}
}
};
var MMU = function() {
this.cpu = {};
this.memory = { 0: {} };
this.memory_mapped_io_devices = {};
this.reset = function() {
this.memory ={ 0: {} };
};
this.add_memory_mapped_io_device = function(write_callback, read_callback,
bank, location) {
if(typeof this.memory_mapped_io_devices[bank] === 'undefined') {
this.memory_mapped_io_devices[bank] = {};
}
this.memory_mapped_io_devices[bank][location] = { write: write_callback,
read: read_callback };
};
this.pull_byte = function() {
if(this.cpu.p.e) {
if(this.cpu.r.s===0xff) {
this.cpu.r.s = 0;
return this.read_byte(0x100);
} else {
return this.read_byte(0x100|(++this.cpu.r.s));
}
} else {
return this.read_byte(++this.cpu.r.s);
}
};
this.push_byte = function(b) {
if(this.cpu.p.e) {
if(this.cpu.r.s===0) {
this.store_byte(0x100, b);
this.cpu.r.s = 0xff;
} else {
this.store_byte((0x100|(this.cpu.r.s--)), b);
}
} else {
this.store_byte(this.cpu.r.s--, b);
}
};
this.read_byte = function(memory_location) {
memory_location &= 0xffff; // Make sure the address is 16 bits.
var device_map_at_bank = this.memory_mapped_io_devices[this.cpu.r.dbr];
if(typeof device_map_at_bank !== "undefined") {
var device = device_map_at_bank[memory_location];
if(typeof device !== "undefined")
return device.read(this.cpu);
}
return this.memory[this.cpu.r.dbr][memory_location];
};
this.read_byte_long = function(memory_location, bank) {
// Make sure addresses given are the proper size.
memory_location &= 0xffff;
bank &= 0xff;
if(typeof this.memory[bank] === 'undefined') {
this.memory[bank] = {};
}
var device_map_at_bank = this.memory_mapped_io_devices[bank];
if(typeof device_map_at_bank !== "undefined") {
var device = device_map_at_bank[memory_location];
if(typeof device !== "undefined")
return device.read(this.cpu);
}
return this.memory[bank][memory_location];
};
this.store_byte = function(memory_location, b) {
memory_location &= 0xffff; // Make sure the address is 16 bits
b &= 0xff; // Make sure the byte is actually a byte long
var device_map_at_bank = this.memory_mapped_io_devices[this.cpu.r.dbr];
if(typeof device_map_at_bank !== "undefined") {
var device = device_map_at_bank[memory_location];
if(typeof device !== "undefined")
device.write(this.cpu, b);
}
this.memory[this.cpu.r.dbr][memory_location] = b;
};
this.store_byte_long = function(memory_location, bank, b) {
// Make sure addresses and byte given are the proper size.
memory_location &= 0xffff;
bank &= 0xff;
b &= 0xff;
if(typeof this.memory[bank] === 'undefined') {
this.memory[bank] = {};
}
var device_map_at_bank = this.memory_mapped_io_devices[bank];
if(typeof device_map_at_bank !== "undefined") {
var device = device_map_at_bank[memory_location];
if(typeof device !== "undefined")
device.write(this.cpu, b);
}
this.memory[bank][memory_location] = b;
};
this.read_word = function(memory_location) {
return (this.read_byte(memory_location+1)<<8) |
this.read_byte(memory_location);
};
this.read_word_long = function(memory_location, bank) {
return (this.read_byte_long(memory_location+1, bank)<<8) |
this.read_byte_long(memory_location, bank);
};
this.store_word = function(memory_location, word_or_low_byte, high_byte) {
// If no high_byte is given then assume word_or_low_byte is a word.
if(typeof high_byte === 'undefined') {
this.store_byte(memory_location, word_or_low_byte&0xff);
this.store_byte(memory_location+1, word_or_low_byte>>8);
} else {
this.store_byte(memory_location, low_byte);
this.store_byte(memory_location+1, high_byte);
}
};
this.store_word_long = function(memory_location, bank, word_or_low_byte,
high_byte) {
// If no high_byte is given then assume word_or_low_byte is a word.
if(typeof high_byte === 'undefined') {
this.store_byte_long(memory_location, bank, word_or_low_byte&0xff);
this.store_byte_long(memory_location+1, bank, word_or_low_byte>>8);
} else {
this.store_byte_long(memory_location, bank, low_byte);
this.store_byte_long(memory_location+1, bank, high_byte);
}
};
};
window.CPU_65816 = function() {
// Registers
this.r = {
a:0, // Accumulator
b:0, // "Hidden" Accumulator Register(high byte in 8-bit mode)
x:0, // X Index Register
y:0, // Y Index Register
d:0, // Direct Page Register
s:0xff, // Stack Pointer
pc:0, // Program Counter
dbr:0, // Data Bank Register
k:0 // Program Bank Register
};
// P register flags.
this.p = {
e:1, // Emulator (0 = native mode)
c:0, // Carry (1 = carry)
z:0, // Zero (1 = zero)
i:0, // IRQ Disable (1 = disabled)
d:0, // Decimal Mode (1 = decimal, 0 = binary)
x:0, // Index Register Select (1 = 8-bit, 0 = 16-bit)
m:0, // Memory/Accumulator Select (1 = 8-bit, 0 = 16-bit)
v:0, // Overflow (1 = overflow)
n:0 // Negative (1 = negative)
};
this.INTERRUPT = { NO_INTERRUPT: 0, NMI: 1, RESET: 2, ABORT: 3, COP: 4,
IRQ: 5, BRK: 6 };
this.interrupt = this.INTERRUPT.NO_INTERRUPT;
// This is used to keep the cpu going if started with start().
this.executing = false;
// This is set by the WAI operation to stop execution until an interrupt
// is received.
this.waiting = false;
// This is set by the STP operation to stop execution until a RESET
// interrupt is received.
this.stopped = false;
this.raise_interrupt = function(i) {
if(this.waiting) {
this.waiting = false;
if(this.p.i) {
if(i===this.INTERRUPT.IRQ) {
i = this.INTERRUPT.NO_INTERRUPT;
}
}
this.interrupt = i;
this.start();
} else if(this.stopped&&(i===this.INTERRUPT.RESET)) {
this.stopped = false;
this.start();
} else {
this.interrupt = i;
}
};
this.cycle_count = 0;
this.mmu = new MMU();
this.mmu.cpu = this;
this.opcode_map = { 0xfb : XCE, 0x18 : CLC, 0x78 : SEI, 0x38 : SEC,
0x58 : CLI, 0xc2 : REP, 0xe2 : SEP, 0xd8 : CLD,
0xf8 : SED, 0xb8 : CLV, 0xeb : XBA, 0xa9 : LDA_const,
0xad : LDA_absolute, 0xaf : LDA_absolute_long,
0xbf : LDA_absolute_long_indexed_x,
0xa5 : LDA_direct_page, 0xbd : LDA_absolute_indexed_x,
0xb5 : LDA_direct_page_indexed_x,
0xb9 : LDA_absolute_indexed_y,
0xa1 : LDA_direct_page_indexed_x_indirect,
0xb2 : LDA_direct_page_indirect,
0xa7 : LDA_direct_page_indirect_long,
0xb7 : LDA_direct_page_indirect_long_indexed_y,
0xb1 : LDA_direct_page_indirect_indexed_y,
0xa3 : LDA_stack_relative,
0xb3 : LDA_stack_relative_indirect_indexed_y,
0xa2 : LDX_const,
0xae : LDX_absolute, 0xa6 : LDX_direct_page,
0xa0 : LDY_const, 0xbc : LDY_absolute_indexed_x,
0xb4 : LDY_direct_page_indexed_x,
0xbe : LDX_absolute_indexed_y,
0xb6 : LDX_direct_page_indexed_y,
0xac : LDY_absolute, 0xa4 : LDY_direct_page, 0xea : NOP,
0x8d : STA_absolute, 0x85 : STA_direct_page,
0x8f : STA_absolute_long,
0x9f : STA_absolute_long_indexed_x,
0x81 : STA_direct_page_indexed_x_indirect,
0x92 : STA_direct_page_indirect,
0x87 : STA_direct_page_indirect_long,
0x97 : STA_direct_page_indirect_long_indexed_y,
0x91 : STA_direct_page_indirect_indexed_y,
0x9d : STA_absolute_indexed_x,
0x99 : STA_absolute_indexed_y,
0x95 : STA_direct_page_indexed_x,
0x83 : STA_stack_relative,
0x93 : STA_stack_relative_indirect_indexed_y,
0x8e : STX_absolute, 0x86 : STX_direct_page,
0x96 : STX_direct_page_indexed_y,
0x8c : STY_absolute, 0x84 : STY_direct_page,
0x94 : STY_direct_page_indexed_x,
0x1a : INC_accumulator, 0xe6 : INC_direct_page,
0xee : INC_absolute, 0xf6 : INC_direct_page_indexed_x,
0xfe : INC_absolute_indexed_x,
0xe8 : INX, 0xc8 : INY,
0x3a : DEC_accumulator, 0xce : DEC_absolute,
0xde : DEC_absolute_indexed_x,
0xc6 : DEC_direct_page, 0xca : DEX, 0x88 : DEY,
0xd6 : DEC_direct_page_indexed_x,
0x9c : STZ_absolute, 0x64 : STZ_direct_page,
0x9e : STZ_absolute_indexed_x,
0x74 : STZ_direct_page_indexed_x, 0x9b : TXY,
0xbb : TYX, 0xaa : TAX, 0xa8 : TAY, 0x8a : TXA,
0x98 : TYA, 0x5b : TCD, 0x7b : TDC, 0x1b : TCS,
0x3b : TSC, 0x4c : JMP_absolute,
0x5c : JMP_absolute_long,
0xdc : JMP_absolute_indirect_long,
0x7c : JMP_absolute_indexed_x_indirect,
0x6c : JMP_absolute_indirect, 0x80 : BRA, 0x82 : BRL,
0xf0 : BEQ, 0xd0 : BNE, 0x90 : BCC, 0xb0 : BCS,
0x50 : BVC, 0x70 : BVS, 0x10 : BPL, 0x30 : BMI,
0x69 : ADC_const, 0x6d : ADC_absolute,
0x61 : ADC_direct_page_indexed_x_indirect,
0x6f : ADC_absolute_long,
0x7f : ADC_absolute_long_indexed_x,
0x65 : ADC_direct_page, 0x72 : ADC_direct_page_indirect,
0x67 : ADC_direct_page_indirect_long,
0x77 : ADC_direct_page_indirect_long_indexed_y,
0x71 : ADC_direct_page_indirect_indexed_y,
0x7d : ADC_absolute_indexed_x,
0x79 : ADC_absolute_indexed_y,
0x75 : ADC_direct_page_indexed_x,
0x63 : ADC_stack_relative,
0x73 : ADC_stack_relative_indirect_indexed_y,
0xe9 : SBC_const,
0xed : SBC_absolute, 0xe5 : SBC_direct_page,
0xef : SBC_absolute_long,
0xff : SBC_absolute_long_indexed_x,
0xf2 : SBC_direct_page_indirect,
0xe1 : SBC_direct_page_indexed_x_indirect,
0xe7 : SBC_direct_page_indirect_long,
0xf7 : SBC_direct_page_indirect_long_indexed_y,
0xf1 : SBC_direct_page_indirect_indexed_y,
0xfd : SBC_absolute_indexed_x,
0xf9 : SBC_absolute_indexed_y,
0xf5 : SBC_direct_page_indexed_x,
0xe3 : SBC_stack_relative,
0xf3 : SBC_stack_relative_indirect_indexed_y,
0xc9 : CMP_const, 0xc5 : CMP_direct_page,
0xcd : CMP_absolute, 0xd2 : CMP_direct_page_indirect,
0xcf : CMP_absolute_long,
0xdf : CMP_absolute_long_indexed_x,
0xc7 : CMP_direct_page_indirect_long,
0xd7 : CMP_direct_page_indirect_long_indexed_y,
0xd5 : CMP_direct_page_indexed_x,
0xc1 : CMP_direct_page_indexed_x_indirect,
0xdd : CMP_absolute_indexed_x,
0xd9 : CMP_absolute_indexed_y,
0xd1 : CMP_direct_page_indirect_indexed_y,
0xc3 : CMP_stack_relative,
0xd3 : CMP_stack_relative_indirect_indexed_y,
0xe0 : CPX_const,
0xec : CPX_absolute, 0xe4 : CPX_direct_page,
0xc0 : CPY_const, 0xcc : CPY_absolute,
0xc4 : CPY_direct_page, 0x29 : AND_const,
0x2d : AND_absolute, 0x25 : AND_direct_page,
0x2f : AND_absolute_long,
0x3f : AND_absolute_long_indexed_x,
0x21 : AND_direct_page_indexed_x_indirect,
0x32 : AND_direct_page_indirect,
0x27 : AND_direct_page_indirect_long,
0x37 : AND_direct_page_indirect_long_indexed_y,
0x31 : AND_direct_page_indirect_indexed_y,
0x3d : AND_absolute_indexed_x,
0x39 : AND_absolute_indexed_y,
0x35 : AND_direct_page_indexed_x,
0x23 : AND_stack_relative,
0x33 : AND_stack_relative_indirect_indexed_y,
0x09 : ORA_const, 0x0f : ORA_absolute_long,
0x0d : ORA_absolute, 0x05 : ORA_direct_page,
0x1f : ORA_absolute_long_indexed_x,
0x12 : ORA_direct_page_indirect,
0x01 : ORA_direct_page_indexed_x_indirect,
0x07 : ORA_direct_page_indirect_long,
0x17 : ORA_direct_page_indirect_long_indexed_y,
0x11 : ORA_direct_page_indirect_indexed_y,
0x1d : ORA_absolute_indexed_x,
0x19 : ORA_absolute_indexed_y,
0x15 : ORA_direct_page_indexed_x,
0x03 : ORA_stack_relative,
0x13 : ORA_stack_relative_indirect_indexed_y,
0x49 : EOR_const, 0x4d : EOR_absolute,
0x4f : EOR_absolute_long,
0x5f : EOR_absolute_long_indexed_x,
0x45 : EOR_direct_page,
0x52 : EOR_direct_page_indirect,
0x41 : EOR_direct_page_indexed_x_indirect,
0x47 : EOR_direct_page_indirect_long,
0x57 : EOR_direct_page_indirect_long_indexed_y,
0x51 : EOR_direct_page_indirect_indexed_y,
0x5d : EOR_absolute_indexed_x,
0x59 : EOR_absolute_indexed_y,
0x55 : EOR_direct_page_indexed_x,
0x43 : EOR_stack_relative,
0x53 : EOR_stack_relative_indirect_indexed_y,
0x4a : LSR_accumulator, 0x4e : LSR_absolute,
0x46 : LSR_direct_page, 0x5e : LSR_absolute_indexed_x,
0x56 : LSR_direct_page_indexed_x, 0x0a : ASL_accumulator,
0x0e : ASL_absolute, 0x06 : ASL_direct_page,
0x1e : ASL_absolute_indexed_x,
0x16 : ASL_direct_page_indexed_x, 0x2a : ROL_accumulator,
0x2e : ROL_absolute, 0x26 : ROL_direct_page,
0x3e : ROL_absolute_indexed_x,
0x36 : ROL_direct_page_indexed_x, 0x6a : ROR_accumulator,
0x6e : ROR_absolute, 0x66 : ROR_direct_page,
0x7e : ROR_absolute_indexed_x,
0x76 : ROR_direct_page_indexed_x,
0x48 : PHA, 0x68 : PLA, 0x5a : PHY, 0x7a : PLY,
0xda : PHX, 0xfa : PLX, 0x08 : PHP, 0x28 : PLP,
0xf4 : PEA, 0xd4 : PEI, 0x8b : PHB, 0xab : PLB,
0x4b : PHK, 0x0b : PHD, 0x2b : PLD, 0x62 : PER,
0x20 : JSR, 0xfc : JSR_absolute_indexed_x_indirect,
0x60 : RTS, 0x22 : JSL, 0x6b : RTL,
0x54 : MVN, 0x44 : MVP, 0x00 : BRK, 0x40 : RTI,
0x02 : COP, 0x89 : BIT_const, 0x2c : BIT_absolute,
0x24 : BIT_direct_page,
0x3c : BIT_absolute_indexed_x,
0x34 : BIT_direct_page_indexed_x,
0x0c : TSB_absolute, 0x04 : TSB_direct_page,
0x1c : TRB_absolute, 0x14 : TRB_direct_page,
0x9a : TXS, 0xba : TSX, 0x42: WDM, 0xcb : WAI,
0xdb : STP };
/**
* Load given program into memory and prepare for execution.
* raw_hex could either be a string of hex numbers or an array
* of bytes.
*/
this.load_binary = function(raw_hex, memory_location_start, bank) {
var byte_buffer = [],
i = 0;
if(typeof bank === "undefined") {
bank = 0;
}
if(typeof raw_hex === 'string') {
for(;i < raw_hex.length; i++) {
byte_buffer.push(raw_hex.charAt(i));
if(byte_buffer.length===2) {
this.mmu.store_byte_long(memory_location_start, bank,
parseInt(byte_buffer[0]+byte_buffer[1],
16));
memory_location_start++;
byte_buffer = [];
}
}
} else {
for(;i < raw_hex.length; i++) {
this.mmu.store_byte_long(memory_location_start, bank, raw_hex[i]);
memory_location_start++;
}
}
};
/**
* Step through the processing of a single instruction from the current
* location of the program counter.
*/
this.step = function() {
if(this.interrupt&&(!this.p.i||(this.interrupt===this.INTERRUPT.NMI))) {
// Load the related interrupt vector in page 0xff of bank zero.
if(!this.p.e) {
this.mmu.push_byte(this.r.k);
}
this.mmu.push_byte(this.r.pc>>8);
this.mmu.push_byte(this.r.pc&0xff);
var p_byte = (this.p.n<<7)|(this.p.v<<6)|(this.p.m<<5)|(this.p.x<<4)|
(this.p.d<<3)|(this.p.i<<2)|(this.p.z<<1)|this.p.c;
this.mmu.push_byte(p_byte);
if(!this.p.e)
this.p.d = 0;
this.p.i = 1;
this.r.k = 0;
var low_byte, high_byte;
// Look for where to jump to for the interrupt.
if(this.p.e) {
// NMI
if(this.interrupt===this.INTERRUPT.NMI) {
low_byte = this.mmu.read_byte_long(0xfffa, 0);
high_byte = this.mmu.read_byte_long(0xfffb, 0);
this.r.pc = (high_byte<<8)|low_byte;
// RESET
} else if(this.interrupt===this.INTERRUPT.RESET) {
low_byte = this.mmu.read_byte_long(0xfffc, 0);
high_byte = this.mmu.read_byte_long(0xfffd, 0);
this.r.pc = (high_byte<<8)|low_byte;
// ABORT
} else if(this.interrupt===this.INTERRUPT.ABORT) {
low_byte = this.mmu.read_byte_long(0xfff8, 0);
high_byte = this.mmu.read_byte_long(0xfff9, 0);
this.r.pc = (high_byte<<8)|low_byte;
// COP
} else if(this.interrupt===this.INTERRUPT.COP) {
low_byte = this.mmu.read_byte_long(0xfff4, 0);
high_byte = this.mmu.read_byte_long(0xfff5, 0);
this.r.pc = (high_byte<<8)|low_byte;
// IRQ or BRK
} else if(this.interrupt===this.INTERRUPT.IRQ ||
this.interrupt===this.INTERRUPT.BRK) {
low_byte = this.mmu.read_byte_long(0xfffe, 0);
high_byte = this.mmu.read_byte_long(0xffff, 0);
this.r.pc = (high_byte<<8)|low_byte;
}
} else {
// NMI
if(this.interrupt===this.INTERRUPT.NMI) {
low_byte = this.mmu.read_byte_long(0xffea, 0);
high_byte = this.mmu.read_byte_long(0xffeb, 0);
this.r.pc = (high_byte<<8)|low_byte;
// ABORT
} else if(this.interrupt===this.INTERRUPT.ABORT) {
low_byte = this.mmu.read_byte_long(0xffe8, 0);
high_byte = this.mmu.read_byte_long(0xffe9, 0);
this.r.pc = (high_byte<<8)|low_byte;
// COP
} else if(this.interrupt===this.INTERRUPT.COP) {
low_byte = this.mmu.read_byte_long(0xffe4, 0);
high_byte = this.mmu.read_byte_long(0xffe5, 0);
this.r.pc = (high_byte<<8)|low_byte;
// IRQ
} else if(this.interrupt===this.INTERRUPT.IRQ) {
low_byte = this.mmu.read_byte_long(0xffee, 0);
high_byte = this.mmu.read_byte_long(0xffef, 0);
this.r.pc = (high_byte<<8)|low_byte;
// BRK
} else if(this.interrupt===this.INTERRUPT.BRK) {
low_byte = this.mmu.read_byte_long(0xffe6, 0);
high_byte = this.mmu.read_byte_long(0xffe7, 0);
this.r.pc = (high_byte<<8)|low_byte;
}
}
this.interrupt = this.INTERRUPT.NO_INTERRUPT;
}
var b = this.mmu.read_byte_long(this.r.pc, this.r.k);
this.r.pc++;
// If we reach the end of the code then stop everything.
if(typeof b === "undefined") {
this.executing = false;
return;
}
var operation = this.opcode_map[b];
var bytes_required = operation.bytes_required(this);
if(bytes_required===1) {
operation.execute(this);
} else {
var bytes = [];
for(var i = 1; i < bytes_required; i++) {
bytes.push(this.mmu.read_byte_long(this.r.pc, this.r.k));
this.r.pc++;
}
operation.execute(this,bytes);
}
if(this.waiting||this.stopped)
this.executing = false;
};
this.execute = function(start_address, max_cycles_per_second) {
// Default to 1MHz if no number given.
if(typeof max_cycles_per_second === "undefined") {
max_cycles_per_second = 1000000;
}
this.r.pc = start_address;
this.timer_run(max_cycles_per_second, 1000);
};
this.timer_run = function(max_cycles_per_period, period) {
var start = new Date().getTime();
this.executing = true;
while(this.executing) {
this.step();
// If execution stopped other than because of the cycle count
if(!this.executing) {
return;
}
if(this.cycle_count>=max_cycles_per_period) {
this.executing = false;
var now = new Date().getTime();
var wait = period - (now - start);
this.cycle_count = 0;
if(wait>0) {
setTimeout(this.timer_run.bind(this, max_cycles_per_period, period), wait);
} else {
this.timer_run(max_cycles_per_period, period);
}
}
}
};
this.reset = function() {
this.executing = false;
this.waiting = false;
this.stopped = false;
this.interrupt = this.INTERRUPT.NO_INTERRUPT;
this.r = { a:0, b:0, x:0, y:0, d:0, s:0xff, pc:0, dbr:0, k:0 };
this.p = { e:1, c:0, z:0, i:0, d:0, x:0, m:0, v:0, n:0 };
this.mmu.reset();
this.cycle_count = 0;
};
};
})(window);