1
0
mirror of https://github.com/TomHarte/CLK.git synced 2024-11-01 10:05:55 +00:00
CLK/OSBindings/Mac/Clock SignalTests/68000Tests.mm

485 lines
23 KiB
Plaintext
Raw Normal View History

//
// 68000Tests.m
// Clock SignalTests
//
// Created by Thomas Harte on 13/03/2019.
// Copyright © 2019 Thomas Harte. All rights reserved.
//
#import <XCTest/XCTest.h>
#include <cassert>
#include "TestRunner68000.hpp"
class CPU::MC68000::ProcessorStorageTests {
public:
ProcessorStorageTests(const CPU::MC68000::ProcessorStorage &storage, const char *coverage_file_name) {
false_valids_ = [NSMutableSet set];
false_invalids_ = [NSMutableSet set];
FILE *source = fopen(coverage_file_name, "rb");
// The file format here is [2 bytes opcode][2 ASCII characters:VA for valid, IN for invalid]...
// The file terminates with four additional bytes that begin with two zero bytes.
//
// The version of the file I grabbed seems to cover all opcodes, making their enumeration
// arguably redundant; the code below nevertheless uses the codes from the file.
//
// Similarly, I'm testing for exactly the strings VA or IN to ensure no further
// types creep into any updated version of the table that I then deal with incorrectly.
uint16_t last_observed = 0;
while(true) {
// Fetch opcode number.
uint16_t next_opcode = fgetc(source) << 8;
next_opcode |= fgetc(source);
if(next_opcode < last_observed) break;
last_observed = next_opcode;
// Determine whether it's meant to be valid.
char type[3];
type[0] = fgetc(source);
type[1] = fgetc(source);
type[2] = '\0';
// TEMPORARY: factor out A- and F-line exceptions.
if((next_opcode&0xf000) == 0xa000) continue;
if((next_opcode&0xf000) == 0xf000) continue;
if(!strcmp(type, "VA")) {
// Test for validity.
2019-07-25 02:07:17 +00:00
if(storage.instructions[next_opcode].micro_operations == std::numeric_limits<uint32_t>::max()) {
[false_invalids_ addObject:@(next_opcode)];
}
continue;
}
if(!strcmp(type, "IN")) {
// Test for invalidity.
2019-07-25 02:07:17 +00:00
if(storage.instructions[next_opcode].micro_operations != std::numeric_limits<uint32_t>::max()) {
[false_valids_ addObject:@(next_opcode)];
}
continue;
}
assert(false);
}
fclose(source);
}
NSSet<NSNumber *> *false_valids() const {
return false_valids_;
}
NSSet<NSNumber *> *false_invalids() const {
return false_invalids_;
}
private:
NSMutableSet<NSNumber *> *false_invalids_;
NSMutableSet<NSNumber *> *false_valids_;
};
@interface NSSet (CSHexDump)
- (NSString *)hexDump;
@end
@implementation NSSet (CSHexDump)
- (NSString *)hexDump {
NSMutableArray<NSString *> *components = [NSMutableArray array];
for(NSNumber *number in [[self allObjects] sortedArrayUsingSelector:@selector(compare:)]) {
[components addObject:[NSString stringWithFormat:@"%04x", number.intValue]];
}
return [components componentsJoinedByString:@" "];
}
@end
@interface M68000Tests : XCTestCase
@end
@implementation M68000Tests {
std::unique_ptr<RAM68000> _machine;
}
- (void)setUp {
_machine = std::make_unique<RAM68000>();
}
- (void)tearDown {
_machine.reset();
}
- (void)testABCDLong {
for(int d = 0; d < 100; ++d) {
_machine = std::make_unique<RAM68000>();
_machine->set_program({
0xc100 // ABCD D0, D0
});
auto state = _machine->get_processor_state();
const uint8_t bcd_d = ((d / 10) * 16) + (d % 10);
state.data[0] = bcd_d;
_machine->set_processor_state(state);
_machine->run_for_instructions(1);
state = _machine->get_processor_state();
const uint8_t double_d = (d * 2) % 100;
const uint8_t bcd_double_d = ((double_d / 10) * 16) + (double_d % 10);
XCTAssert(state.data[0] == bcd_double_d, "%02x + %02x = %02x; should equal %02x", bcd_d, bcd_d, state.data[0], bcd_double_d);
}
}
- (void)testDivideByZero {
_machine->set_program({
0x7000, // MOVE #0, D0; location 0x400
0x3200, // MOVE D0, D1; location 0x402
0x82C0, // DIVU; location 0x404
/* Next instruction would be at 0x406 */
});
_machine->set_initial_stack_pointer(0x1000);
_machine->run_for_instructions(4);
const auto state = _machine->get_processor_state();
XCTAssert(state.supervisor_stack_pointer == 0x1000 - 6, @"Exception information should have been pushed to stack.");
const uint16_t *const stack_top = _machine->ram_at(state.supervisor_stack_pointer);
XCTAssert(stack_top[1] == 0x0000 && stack_top[2] == 0x1006, @"Return address should point to instruction after DIVU.");
}
- (void)testMOVE {
_machine->set_program({
2019-03-22 03:32:03 +00:00
0x303c, 0xfb2e, // MOVE #fb2e, D0
0x3200, // MOVE D0, D1
0x3040, // MOVEA D0, A0
0x3278, 0x1000, // MOVEA.w (0x1000), A1
0x387c, 0x1000, // MOVE #$1000, A4
0x2414, // MOVE.l (A4), D2
});
// run_for_instructions technically runs up to the next instruction
// fetch; therefore run for '1' to get past the implied RESET.
_machine->run_for_instructions(1);
2019-03-22 03:32:03 +00:00
// Perform MOVE #fb2e, D0
_machine->run_for_instructions(1);
auto state = _machine->get_processor_state();
XCTAssert(state.data[0] == 0xfb2e);
2019-03-22 03:32:03 +00:00
// Perform MOVE D0, D1
_machine->run_for_instructions(1);
2019-03-22 03:32:03 +00:00
state = _machine->get_processor_state();
XCTAssert(state.data[1] == 0xfb2e);
// Perform MOVEA D0, A0
_machine->run_for_instructions(1);
2019-03-22 03:32:03 +00:00
state = _machine->get_processor_state();
XCTAssert(state.address[0] == 0xfffffb2e, "A0 was %08x instead of 0xfffffb2e", state.address[0]);
// Perform MOVEA.w (0x1000), A1
_machine->run_for_instructions(1);
state = _machine->get_processor_state();
XCTAssert(state.address[1] == 0x0000303c, "A1 was %08x instead of 0x0000303c", state.address[1]);
// Perform MOVE #$400, A4; MOVE.l (A4), D2
_machine->run_for_instructions(2);
state = _machine->get_processor_state();
XCTAssert(state.address[4] == 0x1000, "A4 was %08x instead of 0x00001000", state.address[4]);
XCTAssert(state.data[2] == 0x303cfb2e, "D2 was %08x instead of 0x303cfb2e", state.data[2]);
}
- (void)testVectoredInterrupt {
_machine->set_program({
0x46fc, 0x2000, // MOVE.w #$2000, SR
0x4e71, // NOP
0x4e71, // NOP
0x4e71, // NOP
0x4e71, // NOP
0x4e71, // NOP
});
// Set the vector that will be supplied back to the start of the
// program; this will ensure no further exceptions following
// the interrupt.
const auto vector = _machine->ram_at(40);
vector[0] = 0x0000;
vector[1] = 0x1004;
_machine->run_for_instructions(3);
_machine->processor().set_interrupt_level(1);
_machine->run_for_instructions(1);
const auto state = _machine->processor().get_state();
XCTAssertEqual(state.program_counter, 0x1008); // i.e. the interrupt happened, the instruction performed was the one at 1004, and therefore
// by the wonders of prefetch the program counter is now at 1008.
}
- (void)testAddressErrorStack {
// Cause an address error.
_machine->set_program({
0x3c7c, 0x2001, // MOVEA.w #$2001, A6
0x4a9e, // TST (A6)+
});
_machine->run_for_instructions(2);
// Check what was left on the stack for appropriate fields.
const auto stack_frame = _machine->ram_at(0x1f8);
// Function code et al.
XCTAssertEqual(stack_frame[0],
(0x4a9e & 0xffe0) | // Top 11 bits: decoded instruction;
0x10 | // Bit 4: read or write;
0x0 | // Bit 3: 0 = in instruction, 1 = not;
0x5 // Bits 02: FC02, i.e. bit 2 = supervisor, bit 1 = is program, bit 0 = is data.
);
// Access address.
XCTAssertEqual(stack_frame[1], 0x0000);
XCTAssertEqual(stack_frame[2], 0x2001);
// Instruction.
XCTAssertEqual(stack_frame[3], 0x4a9e);
// Status.
XCTAssertEqual(stack_frame[4], 0x2700);
// PC.
XCTAssertEqual(stack_frame[5], 0x0000);
XCTAssertEqual(stack_frame[6], 0x1004);
}
- (void)testShiftDuration {
//
_machine->set_program({
0x7004, // MOVE.l #$4, D0
0x7207, // MOVE.l #$7, D1
0x7401, // MOVE.l #$1, D2
0xe16e, // lsl d0, d6
0xe36e, // lsl d1, d6
0xe56e, // lsl d2, d6
});
_machine->run_for_instructions(3);
_machine->reset_cycle_count();
_machine->run_for_instructions(1);
XCTAssertEqual(_machine->get_cycle_count(), 6 + 8);
_machine->reset_cycle_count();
_machine->run_for_instructions(1);
XCTAssertEqual(_machine->get_cycle_count(), 6 + 14);
_machine->reset_cycle_count();
_machine->run_for_instructions(1);
XCTAssertEqual(_machine->get_cycle_count(), 6 + 2);
}
- (void)testOpcodeCoverage {
// Perform an audit of implemented instructions.
CPU::MC68000::ProcessorStorageTests storage_tests(
_machine->processor(),
[[NSBundle bundleForClass:[self class]] pathForResource:@"OPCLOGR2" ofType:@"BIN"].UTF8String
);
// This is a list of instructions nominated as valid with OPCLOGR2.BIN but with no obvious decoding —
// the disassemblers I tried couldn't figure them out, and I didn't spot them anywhere in the PRM.
NSSet<NSNumber *> *const undecodables = [NSSet setWithArray:@[
// These look like malformed MOVEs.
@(0x2e7d), @(0x2e7e), @(0x2e7f), @(0x2efd), @(0x2efe), @(0x2eff), @(0x2f7d), @(0x2f7e),
@(0x2f7f), @(0x2fc0), @(0x2fc1), @(0x2fc2), @(0x2fc3), @(0x2fc4), @(0x2fc5), @(0x2fc6),
@(0x2fc7), @(0x2fc8), @(0x2fc9), @(0x2fca), @(0x2fcb), @(0x2fcc), @(0x2fcd), @(0x2fce),
@(0x2fcf), @(0x2fd0), @(0x2fd1), @(0x2fd2), @(0x2fd3), @(0x2fd4), @(0x2fd5), @(0x2fd6),
@(0x2fd7), @(0x2fd8), @(0x2fd9), @(0x2fda), @(0x2fdb), @(0x2fdc), @(0x2fdd), @(0x2fde),
@(0x2fdf), @(0x2fe0), @(0x2fe1), @(0x2fe2), @(0x2fe3), @(0x2fe4), @(0x2fe5), @(0x2fe6),
@(0x2fe7), @(0x2fe8), @(0x2fe9), @(0x2fea), @(0x2feb), @(0x2fec), @(0x2fed), @(0x2fee),
@(0x2fef), @(0x2ff0), @(0x2ff1), @(0x2ff2), @(0x2ff3), @(0x2ff4), @(0x2ff5), @(0x2ff6),
@(0x2ff7), @(0x2ff8), @(0x2ff9), @(0x2ffa), @(0x2ffb), @(0x2ffc), @(0x2ffd), @(0x2ffe),
@(0x2fff),
@(0x3e7d), @(0x3e7e), @(0x3e7f), @(0x3efd), @(0x3efe), @(0x3eff), @(0x3f7d), @(0x3f7e),
@(0x3f7f), @(0x3fc0), @(0x3fc1), @(0x3fc2), @(0x3fc3), @(0x3fc4), @(0x3fc5), @(0x3fc6),
@(0x3fc7), @(0x3fc8), @(0x3fc9), @(0x3fca), @(0x3fcb), @(0x3fcc), @(0x3fcd), @(0x3fce),
@(0x3fcf), @(0x3fd0), @(0x3fd1), @(0x3fd2), @(0x3fd3), @(0x3fd4), @(0x3fd5), @(0x3fd6),
@(0x3fd7), @(0x3fd8), @(0x3fd9), @(0x3fda), @(0x3fdb), @(0x3fdc), @(0x3fdd), @(0x3fde),
@(0x3fdf), @(0x3fe0), @(0x3fe1), @(0x3fe2), @(0x3fe3), @(0x3fe4), @(0x3fe5), @(0x3fe6),
@(0x3fe7), @(0x3fe8), @(0x3fe9), @(0x3fea), @(0x3feb), @(0x3fec), @(0x3fed), @(0x3fee),
@(0x3fef), @(0x3ff0), @(0x3ff1), @(0x3ff2), @(0x3ff3), @(0x3ff4), @(0x3ff5), @(0x3ff6),
@(0x3ff7), @(0x3ff8), @(0x3ff9), @(0x3ffa), @(0x3ffb), @(0x3ffc), @(0x3ffd), @(0x3ffe),
@(0x3fff),
@(0x46c8), @(0x46c9), @(0x46ca), @(0x46cb), @(0x46cc), @(0x46cd), @(0x46ce), @(0x46cf),
@(0x46fd), @(0x46fe), @(0x46ff), @(0x47c0), @(0x47c1), @(0x47c2), @(0x47c3), @(0x47c4),
@(0x47c5), @(0x47c6), @(0x47c7), @(0x47c8), @(0x47c9), @(0x47ca), @(0x47cb), @(0x47cc),
@(0x47cd), @(0x47ce), @(0x47cf), @(0x47d8), @(0x47d9), @(0x47da), @(0x47db), @(0x47dc),
@(0x47dd), @(0x47de), @(0x47df), @(0x47e0), @(0x47e1), @(0x47e2), @(0x47e3), @(0x47e4),
@(0x47e5), @(0x47e6), @(0x47e7), @(0x47fc), @(0x47fd), @(0x47fe), @(0x47ff), @(0x4e80),
@(0x4e81), @(0x4e82), @(0x4e83), @(0x4e84), @(0x4e85), @(0x4e86), @(0x4e87), @(0x4e88),
@(0x4e89), @(0x4e8a), @(0x4e8b), @(0x4e8c), @(0x4e8d), @(0x4e8e), @(0x4e8f), @(0x4e98),
@(0x4e99), @(0x4e9a), @(0x4e9b), @(0x4e9c), @(0x4e9d), @(0x4e9e), @(0x4e9f), @(0x4ea0),
@(0x4ea1), @(0x4ea2), @(0x4ea3), @(0x4ea4), @(0x4ea5), @(0x4ea6), @(0x4ea7), @(0x4ebc),
@(0x4ebd), @(0x4ebe), @(0x4ebf), @(0x4ec0), @(0x4ec1), @(0x4ec2), @(0x4ec3), @(0x4ec4),
@(0x4ec5), @(0x4ec6), @(0x4ec7), @(0x4ec8), @(0x4ec9), @(0x4eca), @(0x4ecb), @(0x4ecc),
@(0x4ecd), @(0x4ece), @(0x4ecf), @(0x4ed8), @(0x4ed9), @(0x4eda), @(0x4edb), @(0x4edc),
@(0x4edd), @(0x4ede), @(0x4edf), @(0x4ee0), @(0x4ee1), @(0x4ee2), @(0x4ee3), @(0x4ee4),
@(0x4ee5), @(0x4ee6), @(0x4ee7), @(0x4efc), @(0x4efd), @(0x4efe), @(0x4eff), @(0x4f88),
@(0x4f89), @(0x4f8a), @(0x4f8b), @(0x4f8c), @(0x4f8d), @(0x4f8e), @(0x4f8f), @(0x4fbd),
@(0x4fbe), @(0x4fbf), @(0x4fc0), @(0x4fc1), @(0x4fc2), @(0x4fc3), @(0x4fc4), @(0x4fc5),
@(0x4fc6), @(0x4fc7), @(0x4fc8), @(0x4fc9), @(0x4fca), @(0x4fcb), @(0x4fcc), @(0x4fcd),
@(0x4fce), @(0x4fcf), @(0x4fd8), @(0x4fd9), @(0x4fda), @(0x4fdb), @(0x4fdc), @(0x4fdd),
@(0x4fde), @(0x4fdf), @(0x4fe0), @(0x4fe1), @(0x4fe2), @(0x4fe3), @(0x4fe4), @(0x4fe5),
@(0x4fe6), @(0x4fe7), @(0x4ffc), @(0x4ffd), @(0x4ffe), @(0x4fff),
@(0x50fa), @(0x50fb), @(0x50fc), @(0x50fd), @(0x50fe), @(0x50ff), @(0x51fa), @(0x51fb),
@(0x51fc), @(0x51fd), @(0x51fe), @(0x51ff), @(0x52fa), @(0x52fb), @(0x52fc), @(0x52fd),
@(0x52fe), @(0x52ff), @(0x53fa), @(0x53fb), @(0x53fc), @(0x53fd), @(0x53fe), @(0x53ff),
@(0x54fa), @(0x54fb), @(0x54fc), @(0x54fd), @(0x54fe), @(0x54ff), @(0x55fa), @(0x55fb),
@(0x55fc), @(0x55fd), @(0x55fe), @(0x55ff), @(0x56fa), @(0x56fb), @(0x56fc), @(0x56fd),
@(0x56fe), @(0x56ff), @(0x57fa), @(0x57fb), @(0x57fc), @(0x57fd), @(0x57fe), @(0x57ff),
@(0x58fa), @(0x58fb), @(0x58fc), @(0x58fd), @(0x58fe), @(0x58ff), @(0x59fa), @(0x59fb),
@(0x59fc), @(0x59fd), @(0x59fe), @(0x59ff), @(0x5afa), @(0x5afb), @(0x5afc), @(0x5afd),
@(0x5afe), @(0x5aff), @(0x5bfa), @(0x5bfb), @(0x5bfc), @(0x5bfd), @(0x5bfe), @(0x5bff),
@(0x5cfa), @(0x5cfb), @(0x5cfc), @(0x5cfd), @(0x5cfe), @(0x5cff), @(0x5dfa), @(0x5dfb),
@(0x5dfc), @(0x5dfd), @(0x5dfe), @(0x5dff), @(0x5eba), @(0x5ebb), @(0x5ebc), @(0x5ebd),
@(0x5ebe), @(0x5ebf), @(0x5efa), @(0x5efb), @(0x5efc), @(0x5efd), @(0x5efe), @(0x5eff),
@(0x5fba), @(0x5fbb), @(0x5fbc), @(0x5fbd), @(0x5fbe), @(0x5fbf), @(0x5ffa), @(0x5ffb),
@(0x5ffc), @(0x5ffd), @(0x5ffe), @(0x5fff),
// These are almost MOVEQs if only bit 8 weren't set.
@(0x71c8), @(0x71c9), @(0x71ca), @(0x71cb), @(0x71cc), @(0x71cd), @(0x71ce), @(0x71cf),
@(0x71d8), @(0x71d9), @(0x71da), @(0x71db), @(0x71dc), @(0x71dd), @(0x71de), @(0x71df),
@(0x71e8), @(0x71e9), @(0x71ea), @(0x71eb), @(0x71ec), @(0x71ed), @(0x71ee), @(0x71ef),
@(0x71f8), @(0x71f9), @(0x71fa), @(0x71fb), @(0x71fc), @(0x71fd), @(0x71fe), @(0x71ff),
@(0x73c8), @(0x73c9), @(0x73ca), @(0x73cb), @(0x73cc), @(0x73cd), @(0x73ce), @(0x73cf),
@(0x73d8), @(0x73d9), @(0x73da), @(0x73db), @(0x73dc), @(0x73dd), @(0x73de), @(0x73df),
@(0x73e8), @(0x73e9), @(0x73ea), @(0x73eb), @(0x73ec), @(0x73ed), @(0x73ee), @(0x73ef),
@(0x73f8), @(0x73f9), @(0x73fa), @(0x73fb), @(0x73fc), @(0x73fd), @(0x73fe), @(0x73ff),
@(0x75c8), @(0x75c9), @(0x75ca), @(0x75cb), @(0x75cc), @(0x75cd), @(0x75ce), @(0x75cf),
@(0x75d8), @(0x75d9), @(0x75da), @(0x75db), @(0x75dc), @(0x75dd), @(0x75de), @(0x75df),
@(0x75e8), @(0x75e9), @(0x75ea), @(0x75eb), @(0x75ec), @(0x75ed), @(0x75ee), @(0x75ef),
@(0x75f8), @(0x75f9), @(0x75fa), @(0x75fb), @(0x75fc), @(0x75fd), @(0x75fe), @(0x75ff),
@(0x77c0), @(0x77c1), @(0x77c2), @(0x77c3), @(0x77c4), @(0x77c5), @(0x77c6), @(0x77c7),
@(0x77c8), @(0x77c9), @(0x77ca), @(0x77cb), @(0x77cc), @(0x77cd), @(0x77ce), @(0x77cf),
@(0x77d0), @(0x77d1), @(0x77d2), @(0x77d3), @(0x77d4), @(0x77d5), @(0x77d6), @(0x77d7),
@(0x77d8), @(0x77d9), @(0x77da), @(0x77db), @(0x77dc), @(0x77dd), @(0x77de), @(0x77df),
@(0x77e0), @(0x77e1), @(0x77e2), @(0x77e3), @(0x77e4), @(0x77e5), @(0x77e6), @(0x77e7),
@(0x77e8), @(0x77e9), @(0x77ea), @(0x77eb), @(0x77ec), @(0x77ed), @(0x77ee), @(0x77ef),
@(0x77f0), @(0x77f1), @(0x77f2), @(0x77f3), @(0x77f4), @(0x77f5), @(0x77f6), @(0x77f7),
@(0x77f8), @(0x77f9), @(0x77fa), @(0x77fb), @(0x77fc), @(0x77fd), @(0x77fe), @(0x77ff),
@(0x79c8), @(0x79c9), @(0x79ca), @(0x79cb), @(0x79cc), @(0x79cd), @(0x79ce), @(0x79cf),
@(0x79d8), @(0x79d9), @(0x79da), @(0x79db), @(0x79dc), @(0x79dd), @(0x79de), @(0x79df),
@(0x79e8), @(0x79e9), @(0x79ea), @(0x79eb), @(0x79ec), @(0x79ed), @(0x79ee), @(0x79ef),
@(0x79f8), @(0x79f9), @(0x79fa), @(0x79fb), @(0x79fc), @(0x79fd), @(0x79fe), @(0x79ff),
@(0x7bc8), @(0x7bc9), @(0x7bca), @(0x7bcb), @(0x7bcc), @(0x7bcd), @(0x7bce), @(0x7bcf),
@(0x7bd8), @(0x7bd9), @(0x7bda), @(0x7bdb), @(0x7bdc), @(0x7bdd), @(0x7bde), @(0x7bdf),
@(0x7be8), @(0x7be9), @(0x7bea), @(0x7beb), @(0x7bec), @(0x7bed), @(0x7bee), @(0x7bef),
@(0x7bf8), @(0x7bf9), @(0x7bfa), @(0x7bfb), @(0x7bfc), @(0x7bfd), @(0x7bfe), @(0x7bff),
@(0x7dc8), @(0x7dc9), @(0x7dca), @(0x7dcb), @(0x7dcc), @(0x7dcd), @(0x7dce), @(0x7dcf),
@(0x7dd8), @(0x7dd9), @(0x7dda), @(0x7ddb), @(0x7ddc), @(0x7ddd), @(0x7dde), @(0x7ddf),
@(0x7de8), @(0x7de9), @(0x7dea), @(0x7deb), @(0x7dec), @(0x7ded), @(0x7dee), @(0x7def),
@(0x7df8), @(0x7df9), @(0x7dfa), @(0x7dfb), @(0x7dfc), @(0x7dfd), @(0x7dfe), @(0x7dff),
@(0x7f40), @(0x7f41), @(0x7f42), @(0x7f43), @(0x7f44), @(0x7f45), @(0x7f46), @(0x7f47),
@(0x7f48), @(0x7f49), @(0x7f4a), @(0x7f4b), @(0x7f4c), @(0x7f4d), @(0x7f4e), @(0x7f4f),
@(0x7f50), @(0x7f51), @(0x7f52), @(0x7f53), @(0x7f54), @(0x7f55), @(0x7f56), @(0x7f57),
@(0x7f58), @(0x7f59), @(0x7f5a), @(0x7f5b), @(0x7f5c), @(0x7f5d), @(0x7f5e), @(0x7f5f),
@(0x7f60), @(0x7f61), @(0x7f62), @(0x7f63), @(0x7f64), @(0x7f65), @(0x7f66), @(0x7f67),
@(0x7f68), @(0x7f69), @(0x7f6a), @(0x7f6b), @(0x7f6c), @(0x7f6d), @(0x7f6e), @(0x7f6f),
@(0x7f70), @(0x7f71), @(0x7f72), @(0x7f73), @(0x7f74), @(0x7f75), @(0x7f76), @(0x7f77),
@(0x7f78), @(0x7f79), @(0x7f7a), @(0x7f7b), @(0x7f7c), @(0x7f7d), @(0x7f7e), @(0x7f7f),
@(0x7f80), @(0x7f81), @(0x7f82), @(0x7f83), @(0x7f84), @(0x7f85), @(0x7f86), @(0x7f87),
@(0x7f88), @(0x7f89), @(0x7f8a), @(0x7f8b), @(0x7f8c), @(0x7f8d), @(0x7f8e), @(0x7f8f),
@(0x7f90), @(0x7f91), @(0x7f92), @(0x7f93), @(0x7f94), @(0x7f95), @(0x7f96), @(0x7f97),
@(0x7f98), @(0x7f99), @(0x7f9a), @(0x7f9b), @(0x7f9c), @(0x7f9d), @(0x7f9e), @(0x7f9f),
@(0x7fa0), @(0x7fa1), @(0x7fa2), @(0x7fa3), @(0x7fa4), @(0x7fa5), @(0x7fa6), @(0x7fa7),
@(0x7fa8), @(0x7fa9), @(0x7faa), @(0x7fab), @(0x7fac), @(0x7fad), @(0x7fae), @(0x7faf),
@(0x7fb0), @(0x7fb1), @(0x7fb2), @(0x7fb3), @(0x7fb4), @(0x7fb5), @(0x7fb6), @(0x7fb7),
@(0x7fb8), @(0x7fb9), @(0x7fba), @(0x7fbb), @(0x7fbc), @(0x7fbd), @(0x7fbe), @(0x7fbf),
@(0x7fc0), @(0x7fc1), @(0x7fc2), @(0x7fc3), @(0x7fc4), @(0x7fc5), @(0x7fc6), @(0x7fc7),
@(0x7fc8), @(0x7fc9), @(0x7fca), @(0x7fcb), @(0x7fcc), @(0x7fcd), @(0x7fce), @(0x7fcf),
@(0x7fd0), @(0x7fd1), @(0x7fd2), @(0x7fd3), @(0x7fd4), @(0x7fd5), @(0x7fd6), @(0x7fd7),
@(0x7fd8), @(0x7fd9), @(0x7fda), @(0x7fdb), @(0x7fdc), @(0x7fdd), @(0x7fde), @(0x7fdf),
@(0x7fe0), @(0x7fe1), @(0x7fe2), @(0x7fe3), @(0x7fe4), @(0x7fe5), @(0x7fe6), @(0x7fe7),
@(0x7fe8), @(0x7fe9), @(0x7fea), @(0x7feb), @(0x7fec), @(0x7fed), @(0x7fee), @(0x7fef),
@(0x7ff0), @(0x7ff1), @(0x7ff2), @(0x7ff3), @(0x7ff4), @(0x7ff5), @(0x7ff6), @(0x7ff7),
@(0x7ff8), @(0x7ff9), @(0x7ffa), @(0x7ffb), @(0x7ffc), @(0x7ffd), @(0x7ffe), @(0x7fff),
@(0xbe7d), @(0xbe7e), @(0xbe7f), @(0xbefd), @(0xbefe), @(0xbeff), @(0xbf7a), @(0xbf7b),
@(0xbf7c), @(0xbf7d), @(0xbf7e), @(0xbf7f), @(0xbffd), @(0xbffe), @(0xbfff),
//
@(0xc6c8), @(0xc6c9), @(0xc6ca), @(0xc6cb), @(0xc6cc), @(0xc6cd), @(0xc6ce), @(0xc6cf),
@(0xc6fd), @(0xc6fe), @(0xc6ff), @(0xc7c8), @(0xc7c9), @(0xc7ca), @(0xc7cb), @(0xc7cc),
@(0xc7cd), @(0xc7ce), @(0xc7cf), @(0xc7fd), @(0xc7fe), @(0xc7ff), @(0xce88), @(0xce89),
@(0xce8a), @(0xce8b), @(0xce8c), @(0xce8d), @(0xce8e), @(0xce8f), @(0xcebd), @(0xcebe),
@(0xcebf), @(0xcec8), @(0xcec9), @(0xceca), @(0xcecb), @(0xcecc), @(0xcecd), @(0xcece),
@(0xcecf), @(0xcefd), @(0xcefe), @(0xceff), @(0xcf80), @(0xcf81), @(0xcf82), @(0xcf83),
@(0xcf84), @(0xcf85), @(0xcf86), @(0xcf87), @(0xcfba), @(0xcfbb), @(0xcfbc), @(0xcfbd),
@(0xcfbe), @(0xcfbf), @(0xcfc8), @(0xcfc9), @(0xcfca), @(0xcfcb), @(0xcfcc), @(0xcfcd),
@(0xcfce), @(0xcfcf), @(0xcffd), @(0xcffe), @(0xcfff),
// These are from the Bcc/BRA/BSR page.
@(0xd0fd), @(0xd0fe), @(0xd0ff), @(0xd1fd), @(0xd1fe), @(0xd1ff), @(0xd2fd), @(0xd2fe),
@(0xd2ff), @(0xd3fd), @(0xd3fe), @(0xd3ff), @(0xd4fd), @(0xd4fe), @(0xd4ff), @(0xd5fd),
@(0xd5fe), @(0xd5ff), @(0xd6fd), @(0xd6fe), @(0xd6ff), @(0xd7fd), @(0xd7fe), @(0xd7ff),
@(0xd8fd), @(0xd8fe), @(0xd8ff), @(0xd9fd), @(0xd9fe), @(0xd9ff), @(0xdafd), @(0xdafe),
@(0xdaff), @(0xdbfd), @(0xdbfe), @(0xdbff), @(0xdcfd), @(0xdcfe), @(0xdcff), @(0xddfd),
@(0xddfe), @(0xddff), @(0xdebd), @(0xdebe), @(0xdebf), @(0xdefd), @(0xdefe), @(0xdeff),
@(0xdfba), @(0xdfbb), @(0xdfbc), @(0xdfbd), @(0xdfbe), @(0xdfbf), @(0xdffd), @(0xdffe),
@(0xdfff),
// The E line is for shifts and rolls; none of the those listed below appear to nominate valid
// addressing modes.
@(0xe6c0), @(0xe6c1), @(0xe6c2), @(0xe6c3), @(0xe6c4), @(0xe6c5), @(0xe6c6), @(0xe6c7),
@(0xe6c8), @(0xe6c9), @(0xe6ca), @(0xe6cb), @(0xe6cc), @(0xe6cd), @(0xe6ce), @(0xe6cf),
@(0xe6fa), @(0xe6fb), @(0xe6fc), @(0xe6fd), @(0xe6fe), @(0xe6ff), @(0xe7c0), @(0xe7c1),
@(0xe7c2), @(0xe7c3), @(0xe7c4), @(0xe7c5), @(0xe7c6), @(0xe7c7), @(0xe7c8), @(0xe7c9),
@(0xe7ca), @(0xe7cb), @(0xe7cc), @(0xe7cd), @(0xe7ce), @(0xe7cf), @(0xe7fa), @(0xe7fb),
@(0xe7fc), @(0xe7fd), @(0xe7fe), @(0xe7ff), @(0xeec0), @(0xeec1), @(0xeec2), @(0xeec3),
@(0xeec4), @(0xeec5), @(0xeec6), @(0xeec7), @(0xeec8), @(0xeec9), @(0xeeca), @(0xeecb),
@(0xeecc), @(0xeecd), @(0xeece), @(0xeecf), @(0xeed0), @(0xeed1), @(0xeed2), @(0xeed3),
@(0xeed4), @(0xeed5), @(0xeed6), @(0xeed7), @(0xeed8), @(0xeed9), @(0xeeda), @(0xeedb),
@(0xeedc), @(0xeedd), @(0xeede), @(0xeedf), @(0xeee0), @(0xeee1), @(0xeee2), @(0xeee3),
@(0xeee4), @(0xeee5), @(0xeee6), @(0xeee7), @(0xeee8), @(0xeee9), @(0xeeea), @(0xeeeb),
@(0xeeec), @(0xeeed), @(0xeeee), @(0xeeef), @(0xeef0), @(0xeef1), @(0xeef2), @(0xeef3),
@(0xeef4), @(0xeef5), @(0xeef6), @(0xeef7), @(0xeef8), @(0xeef9), @(0xeefa), @(0xeefb),
@(0xeefc), @(0xeefd), @(0xeefe), @(0xeeff), @(0xefc0), @(0xefc1), @(0xefc2), @(0xefc3),
@(0xefc4), @(0xefc5), @(0xefc6), @(0xefc7), @(0xefc8), @(0xefc9), @(0xefca), @(0xefcb),
@(0xefcc), @(0xefcd), @(0xefce), @(0xefcf), @(0xefd0), @(0xefd1), @(0xefd2), @(0xefd3),
@(0xefd4), @(0xefd5), @(0xefd6), @(0xefd7), @(0xefd8), @(0xefd9), @(0xefda), @(0xefdb),
@(0xefdc), @(0xefdd), @(0xefde), @(0xefdf), @(0xefe0), @(0xefe1), @(0xefe2), @(0xefe3),
@(0xefe4), @(0xefe5), @(0xefe6), @(0xefe7), @(0xefe8), @(0xefe9), @(0xefea), @(0xefeb),
@(0xefec), @(0xefed), @(0xefee), @(0xefef), @(0xeff0), @(0xeff1), @(0xeff2), @(0xeff3),
@(0xeff4), @(0xeff5), @(0xeff6), @(0xeff7), @(0xeff8), @(0xeff9), @(0xeffa), @(0xeffb),
@(0xeffc), @(0xeffd), @(0xeffe), @(0xefff)
]];
NSSet<NSNumber *> *const falseValids = storage_tests.false_valids();
NSSet<NSNumber *> *const falseInvalids = storage_tests.false_invalids();
XCTAssert(!falseValids.count, "%@ opcodes should be invalid but aren't: %@", @(falseValids.count), falseValids.hexDump);
NSMutableSet<NSNumber *> *const decodedUndecodables = [undecodables mutableCopy];
[decodedUndecodables minusSet:falseInvalids];
XCTAssert(!decodedUndecodables.count, "This test considers these undecodable but they were decoded: %@", decodedUndecodables.hexDump);
NSMutableSet<NSNumber *> *const trimmedInvalids = [falseInvalids mutableCopy];
[trimmedInvalids minusSet:undecodables];
XCTAssert(!trimmedInvalids.count, "%@ opcodes should be valid but aren't: %@", @(trimmedInvalids.count), trimmedInvalids.hexDump);
// XCTAssert(!falseInvalids.count, "%@ opcodes should be valid but aren't: %@", @(falseInvalids.count), falseInvalids.hexDump);
}
@end