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CLK/OSBindings/Mac/Clock SignalTests/DingusdevPowerPCTests.mm

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//
// DingusdevPowerPCTests.mm
// Clock Signal
//
// Created by Thomas Harte on 18/03/2022.
// Copyright 2022 Thomas Harte. All rights reserved.
//
#import <XCTest/XCTest.h>
#include <cstdlib>
#include "../../../InstructionSets/PowerPC/Decoder.hpp"
using namespace InstructionSet::PowerPC;
@interface DingusdevPowerPCTests : XCTestCase
@end
namespace {
void AssertEqualOperationName(NSString *lhs, NSString *rhs) {
NSString *const lhsMapped = [lhs stringByReplacingOccurrencesOfString:@"_" withString:@"."];
NSString *const rhsMapped = [rhs stringByReplacingOccurrencesOfString:@"_" withString:@"."];
XCTAssertEqualObjects(lhsMapped, rhsMapped);
}
void AssertEqualOperationNameOE(NSString *lhs, Instruction instruction, NSString *rhs) {
XCTAssert([lhs characterAtIndex:lhs.length - 1] == 'x');
lhs = [lhs substringToIndex:lhs.length - 1];
if(instruction.oe()) lhs = [lhs stringByAppendingString:@"o"];
if(instruction.rc()) lhs = [lhs stringByAppendingString:@"."];
XCTAssertEqualObjects(lhs, rhs);
}
}
@implementation DingusdevPowerPCTests
- (void)testABDInstruction:(Instruction)instruction columns:(NSArray<NSString *> *)columns testZero:(BOOL)testZero {
NSString *const rA = (instruction.rA() || !testZero) ? [NSString stringWithFormat:@"r%d", instruction.rA()] : @"0";
NSString *const rD = [NSString stringWithFormat:@"r%d", instruction.rD()];
XCTAssertEqualObjects(rD, columns[3]);
XCTAssertEqualObjects(rA, columns[4]);
if([columns count] > 5) {
NSString *const rB = [NSString stringWithFormat:@"r%d", instruction.rB()];
XCTAssertEqualObjects(rB, columns[5]);
}
}
- (void)testDecoding {
NSData *const testData =
[NSData dataWithContentsOfURL:
[[NSBundle bundleForClass:[self class]]
URLForResource:@"ppcdisasmtest"
withExtension:@"csv"
subdirectory:@"dingusdev PowerPC tests"]];
NSString *const wholeFile = [[NSString alloc] initWithData:testData encoding:NSUTF8StringEncoding];
NSArray<NSString *> *const lines = [wholeFile componentsSeparatedByString:@"\n"];
InstructionSet::PowerPC::Decoder decoder(InstructionSet::PowerPC::Model::MPC601);
for(NSString *const line in lines) {
// Ignore empty lines and comments.
if([line length] == 0) {
continue;
}
if([line characterAtIndex:0] == '#') {
continue;
}
NSArray<NSString *> *const columns = [line componentsSeparatedByString:@","];
// Columns are 1: address; 2: opcode; 3: specific to the instruction.
const uint32_t address = uint32_t(std::strtol([columns[0] UTF8String], 0, 16));
const uint32_t opcode = uint32_t(std::strtol([columns[1] UTF8String], 0, 16));
NSString *const operation = columns[2];
const auto instruction = decoder.decode(opcode);
NSLog(@"%@", line);
switch(instruction.operation) {
default:
NSAssert(FALSE, @"Didn't handle %@", line);
break;
#define ArithImm(x) \
case Operation::x: { \
NSString *const rD = [NSString stringWithFormat:@"r%d", instruction.rD()]; \
NSString *const rA = [NSString stringWithFormat:@"r%d", instruction.rA()]; \
const auto simm = strtol([columns[5] UTF8String], NULL, 16); \
AssertEqualOperationName(operation, @#x); \
XCTAssertEqualObjects(columns[3], rD); \
XCTAssertEqualObjects(columns[4], rA); \
XCTAssertEqual(simm, instruction.simm()); \
} break;
ArithImm(mulli);
ArithImm(subfic);
ArithImm(addi);
ArithImm(addic);
ArithImm(addic_);
ArithImm(addis);
#undef ArithImm
#define ABCz(x) \
case Operation::x: \
AssertEqualOperationName(operation, @#x); \
[self testABDInstruction:instruction columns:columns testZero:YES]; \
break;
ABCz(lwzx);
ABCz(lwzux);
ABCz(lbzx);
ABCz(lbzux);
ABCz(stwx);
ABCz(stwux);
ABCz(stbx);
ABCz(stbux);
ABCz(lhzx);
ABCz(lhzux);
ABCz(lhax);
ABCz(lhaux);
ABCz(sthx);
ABCz(sthux);
#undef ABCz
#define ABD(x) \
case Operation::x: \
AssertEqualOperationNameOE(@#x, instruction, operation); \
[self testABDInstruction:instruction columns:columns testZero:NO]; \
break;
ABD(subfcx);
ABD(subfx);
ABD(negx);
ABD(subfex);
ABD(subfzex);
ABD(subfmex);
ABD(dozx);
ABD(absx);
ABD(nabsx);
#undef ABD
case Operation::bcx:
case Operation::bclrx:
case Operation::bcctrx: {
NSString *baseOperation = nil;
BOOL addConditionToOperand = NO;
switch(instruction.branch_options()) {
case BranchOption::Always: baseOperation = @"b"; break;
case BranchOption::Dec_Zero: baseOperation = @"bdz"; break;
case BranchOption::Dec_NotZero: baseOperation = @"bdnz"; break;
case BranchOption::Clear:
switch(Condition(instruction.bi() & 3)) {
default: break;
case Condition::Negative: baseOperation = @"bge"; break;
case Condition::Positive: baseOperation = @"ble"; break;
case Condition::Zero: baseOperation = @"bne"; break;
case Condition::SummaryOverflow:
baseOperation = @"bns";
break;
}
break;
case BranchOption::Dec_ZeroAndClear:
baseOperation = @"bdzf";
addConditionToOperand = YES;
break;
case BranchOption::Dec_NotZeroAndClear:
baseOperation = @"bdnzf";
addConditionToOperand = YES;
break;
case BranchOption::Set:
switch(Condition(instruction.bi() & 3)) {
default: break;
case Condition::Negative: baseOperation = @"blt"; break;
case Condition::Positive: baseOperation = @"bgt"; break;
case Condition::Zero: baseOperation = @"beq"; break;
case Condition::SummaryOverflow:
baseOperation = @"bso";
break;
}
break;
case BranchOption::Dec_ZeroAndSet:
baseOperation = @"bdzt";
addConditionToOperand = YES;
break;
case BranchOption::Dec_NotZeroAndSet:
baseOperation = @"bdnzt";
addConditionToOperand = YES;
break;
default: break;
}
switch(instruction.operation) {
case Operation::bcctrx:
baseOperation = [baseOperation stringByAppendingString:@"ctr"];
break;
case Operation::bclrx:
baseOperation = [baseOperation stringByAppendingString:@"lr"];
break;
case Operation::bcx: {
uint32_t decoded_destination;
if(instruction.aa()) {
decoded_destination = instruction.bd();
} else {
decoded_destination = instruction.bd() + address;
}
const uint32_t destination = uint32_t(std::strtol([[columns lastObject] UTF8String], 0, 16));
XCTAssertEqual(decoded_destination, destination);
} break;
default: break;
}
if(!baseOperation) {
NSAssert(FALSE, @"Didn't handle bi %d for bo %d, %@", instruction.bi() & 3, instruction.bo(), line);
} else {
if(instruction.lk()) {
baseOperation = [baseOperation stringByAppendingString:@"l"];
}
if(instruction.aa()) {
baseOperation = [baseOperation stringByAppendingString:@"a"];
}
if(instruction.branch_prediction_hint()) {
baseOperation = [baseOperation stringByAppendingString:@"+"];
}
AssertEqualOperationName(operation, baseOperation);
}
if(instruction.bi() & ~3) {
NSString *expectedCR;
if(addConditionToOperand) {
NSString *suffix;
switch(Condition(instruction.bi() & 3)) {
default: break;
case Condition::Negative: suffix = @"lt"; break;
case Condition::Positive: suffix = @"gt"; break;
case Condition::Zero: suffix = @"eq"; break;
case Condition::SummaryOverflow: suffix = @"so"; break;
}
expectedCR = [NSString stringWithFormat:@"4*cr%d+%@", instruction.bi() >> 2, suffix];
} else {
expectedCR = [NSString stringWithFormat:@"cr%d", instruction.bi() >> 2];
}
XCTAssertEqualObjects(columns[3], expectedCR);
}
} break;
case Operation::bx: {
switch((instruction.aa() ? 2 : 0) | (instruction.lk() ? 1 : 0)) {
case 0: AssertEqualOperationName(operation, @"b"); break;
case 1: AssertEqualOperationName(operation, @"bl"); break;
case 2: AssertEqualOperationName(operation, @"ba"); break;
case 3: AssertEqualOperationName(operation, @"bla"); break;
}
const uint32_t destination = uint32_t(std::strtol([columns[3] UTF8String], 0, 16));
const uint32_t decoded_destination =
instruction.li() + (instruction.aa() ? 0 : address);
XCTAssertEqual(decoded_destination, destination);
} break;
}
}
}
@end