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1034 lines
28 KiB
Plaintext
1034 lines
28 KiB
Plaintext
//
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// DingusdevPowerPCTests.mm
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// Clock Signal
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//
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// Created by Thomas Harte on 18/03/2022.
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// Copyright 2022 Thomas Harte. All rights reserved.
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//
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#import <XCTest/XCTest.h>
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#include <cstdlib>
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#include "../../../InstructionSets/PowerPC/Decoder.hpp"
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using namespace InstructionSet::PowerPC;
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@interface NSString (HexConversion)
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- (long int)hexInt;
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@end
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@implementation NSString (HexConversion)
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- (long int)hexInt {
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return strtol([self UTF8String], NULL, 16);
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}
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@end
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@interface DingusdevPowerPCTests : XCTestCase
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@end
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namespace {
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enum class NamingConvention {
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None = 0,
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ApplyO = 1,
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ApplyE = 2,
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ApplyOE = 3
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};
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/// Converts any underscores in @c rhs to dots.
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///
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/// If convention != NamingConvention::None, trims the trailing 'x' from the @c rhs and
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/// appends one or more of @c o and @c . depending on the @c oe() and @c rc() flags of @c instruction.
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///
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/// Then compares with the @c lhs.
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void AssertEqualOperationName(NSString *lhs, NSString *rhs, Instruction instruction = Instruction(), NamingConvention convention = NamingConvention::None) {
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rhs = [rhs stringByReplacingOccurrencesOfString:@"_" withString:@"."];
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if(convention != NamingConvention::None) {
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XCTAssert([rhs characterAtIndex:rhs.length - 1] == 'x');
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rhs = [rhs substringToIndex:rhs.length - 1];
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}
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if(int(convention) & int(NamingConvention::ApplyO) && instruction.oe()) rhs = [rhs stringByAppendingString:@"o"];
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if(int(convention) & int(NamingConvention::ApplyE) && instruction.rc()) rhs = [rhs stringByAppendingString:@"."];
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XCTAssertEqualObjects(lhs, rhs);
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}
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void AssertEqualOperationNameE(NSString *lhs, NSString *rhs, Instruction instruction) {
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AssertEqualOperationName(lhs, rhs, instruction, NamingConvention::ApplyE);
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}
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void AssertEqualOperationNameOE(NSString *lhs, NSString *rhs, Instruction instruction) {
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AssertEqualOperationName(lhs, rhs, instruction, NamingConvention::ApplyOE);
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}
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/// Forms the string @c r[reg] and compares it to @c name
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void AssertEqualR(NSString *name, uint32_t reg, bool permitR0 = true) {
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NSString *const regName = (reg || permitR0) ? [NSString stringWithFormat:@"r%d", reg] : @"0";
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XCTAssertEqualObjects(name, regName);
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}
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/// Forms the string @c f[reg] and compares it to @c name
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void AssertEqualFR(NSString *name, uint32_t reg, bool permitR0 = true) {
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NSString *const regName = (reg || permitR0) ? [NSString stringWithFormat:@"f%d", reg] : @"0";
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XCTAssertEqualObjects(name, regName);
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}
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/// @returns the text name of the condition code @c code
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NSString *condition(uint32_t code) {
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NSString *suffix;
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switch(Condition(code & 3)) {
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default: break;
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case Condition::Negative: suffix = @"lt"; break;
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case Condition::Positive: suffix = @"gt"; break;
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case Condition::Zero: suffix = @"eq"; break;
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case Condition::SummaryOverflow: suffix = @"so"; break;
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}
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if(code & ~3) {
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return [NSString stringWithFormat:@"4*cr%d+%@", code >> 2, suffix];
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} else {
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return suffix;
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}
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}
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NSString *conditionreg(uint32_t code) {
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return [NSString stringWithFormat:@"cr%d", code];
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}
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NSString *offset(Instruction instruction) {
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NSString *const hexPart = [NSString stringWithFormat:@"%s%X", (instruction.d() < 0) ? "-0x" : "0x", abs(instruction.d())];
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if(instruction.rA()) {
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return [hexPart stringByAppendingFormat:@"(r%d)", instruction.rA()];
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} else {
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return hexPart;
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}
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}
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}
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@implementation DingusdevPowerPCTests
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- (void)testDecoding {
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NSData *const testData =
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[NSData dataWithContentsOfURL:
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[[NSBundle bundleForClass:[self class]]
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URLForResource:@"ppcdisasmtest"
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withExtension:@"csv"
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subdirectory:@"dingusdev PowerPC tests"]];
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NSString *const wholeFile = [[NSString alloc] initWithData:testData encoding:NSUTF8StringEncoding];
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NSArray<NSString *> *const lines = [wholeFile componentsSeparatedByString:@"\n"];
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InstructionSet::PowerPC::Decoder<InstructionSet::PowerPC::Model::MPC601, true> decoder;
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for(NSString *const line in lines) {
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// Ignore empty lines and comments.
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if([line length] == 0) {
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continue;
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}
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if([line characterAtIndex:0] == '#') {
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continue;
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}
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NSArray<NSString *> *const columns = [line componentsSeparatedByString:@","];
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// Columns are 1: address; 2: opcode; 3–: specific to the instruction.
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const auto address = uint32_t([columns[0] hexInt]);
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const auto opcode = uint32_t([columns[1] hexInt]);
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NSString *const operation = columns[2];
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const auto instruction = decoder.decode(opcode);
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// Deal with some of the simplified mnemonics as special cases;
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// underlying observation: distinguishing special cases isn't that
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// important to a mere decoder.
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if([operation isEqualToString:@"nop"]) {
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// These tests use ORI for NOP.
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XCTAssertEqual(instruction.operation, Operation::ori);
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XCTAssertEqual(instruction.rD(), instruction.rA());
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XCTAssertEqual(instruction.simm(), 0);
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continue;
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}
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if([operation isEqualToString:@"mr"] || [operation isEqualToString:@"mr."]) {
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// OR is used to achieve MR (i.e. move register).
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XCTAssertEqual(instruction.operation, Operation::orx);
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XCTAssertEqual((instruction.rc() != 0), ([operation characterAtIndex:operation.length - 1] == '.'));
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AssertEqualR(columns[3], instruction.rA());
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AssertEqualR(columns[4], instruction.rS());
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AssertEqualR(columns[4], instruction.rB());
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continue;
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}
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if([operation isEqualToString:@"li"]) {
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// ADDI is used to achieve LI (i.e. load immediate).
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XCTAssertEqual(instruction.operation, Operation::addi);
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AssertEqualR(columns[3], instruction.rD());
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XCTAssertEqual(0, instruction.rA());
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XCTAssertEqual([columns[4] hexInt], instruction.simm());
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continue;
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}
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switch(instruction.operation) {
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default:
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NSAssert(FALSE, @"Didn't handle %@", line);
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break;
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case Operation::Undefined:
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XCTAssertEqualObjects(operation, @"dc.l");
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break;
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case Operation::rlwimix: {
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// This maps the opposite way from most of the other tests
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// owing to the simplified names being a shade harder to
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// detect motivationally.
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XCTAssertEqual((instruction.rc() != 0), ([operation characterAtIndex:operation.length - 1] == '.'));
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AssertEqualR(columns[3], instruction.rA());
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AssertEqualR(columns[4], instruction.rS());
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const auto n = [columns[5] intValue];
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const auto b = [columns[6] intValue];
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if([operation isEqualToString:@"inslwi"] || [operation isEqualToString:@"inslwi."]) {
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XCTAssertEqual(instruction.sh<uint32_t>(), 32 - b);
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XCTAssertEqual(instruction.mb<uint32_t>(), b);
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XCTAssertEqual(instruction.me<uint32_t>(), b + n - 1);
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break;
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}
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if([operation isEqualToString:@"insrwi"] || [operation isEqualToString:@"insrwi."]) {
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XCTAssertEqual(instruction.sh<uint32_t>(), 32 - (b + n));
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XCTAssertEqual(instruction.mb<uint32_t>(), b);
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XCTAssertEqual(instruction.me<uint32_t>(), b + n - 1);
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break;
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}
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NSAssert(FALSE, @"Didn't handle rlwimix %@", line);
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} break;
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case Operation::rlwnmx: {
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XCTAssertEqual((instruction.rc() != 0), ([operation characterAtIndex:operation.length - 1] == '.'));
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AssertEqualR(columns[3], instruction.rA());
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AssertEqualR(columns[4], instruction.rS());
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AssertEqualR(columns[5], instruction.rB());
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if([operation isEqualToString:@"rotlw"] || [operation isEqualToString:@"rotlw."]) {
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XCTAssertEqual(instruction.mb<uint32_t>(), 0);
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XCTAssertEqual(instruction.me<uint32_t>(), 31);
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break;
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}
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NSAssert(FALSE, @"Didn't handle rlwnmx %@", line);
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} break;
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case Operation::rlwinmx: {
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// This maps the opposite way from most of the other tests
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// owing to the simplified names being a shade harder to
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// detect motivationally.
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XCTAssertEqual((instruction.rc() != 0), ([operation characterAtIndex:operation.length - 1] == '.'));
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AssertEqualR(columns[3], instruction.rA());
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AssertEqualR(columns[4], instruction.rS());
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const auto n = [columns[5] intValue];
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const auto b = columns.count > 6 ? [columns[6] intValue] : 0;
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if([operation isEqualToString:@"extlwi"] || [operation isEqualToString:@"extlwi."]) {
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XCTAssertEqual(instruction.sh<uint32_t>(), b);
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XCTAssertEqual(instruction.mb<uint32_t>(), 0);
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XCTAssertEqual(instruction.me<uint32_t>(), n - 1);
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break;
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}
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if([operation isEqualToString:@"extrwi"] || [operation isEqualToString:@"extrwi."]) {
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XCTAssertEqual(instruction.sh<uint32_t>(), b + n);
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XCTAssertEqual(instruction.mb<uint32_t>(), 32 - n);
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XCTAssertEqual(instruction.me<uint32_t>(), 31);
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break;
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}
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if([operation isEqualToString:@"rotlwi"] || [operation isEqualToString:@"rotlwi."]) {
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XCTAssertEqual(instruction.sh<uint32_t>(), n);
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XCTAssertEqual(instruction.mb<uint32_t>(), 0);
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XCTAssertEqual(instruction.me<uint32_t>(), 31);
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break;
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}
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if([operation isEqualToString:@"rotrwi"] || [operation isEqualToString:@"rotrwi."]) {
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XCTAssertEqual(instruction.sh<uint32_t>(), 32 - n);
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XCTAssertEqual(instruction.mb<uint32_t>(), 0);
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XCTAssertEqual(instruction.me<uint32_t>(), 31);
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break;
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}
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if([operation isEqualToString:@"slwi"] || [operation isEqualToString:@"slwi."]) {
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XCTAssertEqual(instruction.sh<uint32_t>(), n);
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XCTAssertEqual(instruction.mb<uint32_t>(), 0);
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XCTAssertEqual(instruction.me<uint32_t>(), 31 - n);
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break;
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}
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if([operation isEqualToString:@"srwi"] || [operation isEqualToString:@"srwi."]) {
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XCTAssertEqual(instruction.sh<uint32_t>(), 32 - n);
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XCTAssertEqual(instruction.mb<uint32_t>(), n);
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XCTAssertEqual(instruction.me<uint32_t>(), 31);
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break;
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}
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if([operation isEqualToString:@"clrlwi"] || [operation isEqualToString:@"clrlwi."]) {
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XCTAssertEqual(instruction.sh<uint32_t>(), 0);
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XCTAssertEqual(instruction.mb<uint32_t>(), n);
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XCTAssertEqual(instruction.me<uint32_t>(), 31);
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break;
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}
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if([operation isEqualToString:@"clrrwi"] || [operation isEqualToString:@"clrrwi."]) {
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XCTAssertEqual(instruction.sh<uint32_t>(), 0);
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XCTAssertEqual(instruction.mb<uint32_t>(), 0);
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XCTAssertEqual(instruction.me<uint32_t>(), 31 - n);
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break;
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}
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if([operation isEqualToString:@"clrlslwi"] || [operation isEqualToString:@"clrlslwi."]) {
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// FreeScale switched the order of b and n in the short-form instruction here;
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// they are therefore transposed in the tests below.
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XCTAssertEqual(instruction.sh<uint32_t>(), b);
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XCTAssertEqual(instruction.mb<uint32_t>(), n - b);
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XCTAssertEqual(instruction.me<uint32_t>(), 31 - b);
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break;
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}
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NSAssert(FALSE, @"Didn't handle rlwinmx %@", line);
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} break;
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case Operation::tw:
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AssertEqualOperationName(operation, @"tw");
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XCTAssertEqual([columns[3] intValue], instruction.to());
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AssertEqualR(columns[4], instruction.rA());
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AssertEqualR(columns[5], instruction.rB());
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break;
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case Operation::twi:
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AssertEqualOperationName(operation, @"twi");
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XCTAssertEqual([columns[3] intValue], instruction.to());
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AssertEqualR(columns[4], instruction.rA());
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XCTAssertEqual([columns[5] hexInt], instruction.simm());
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break;
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case Operation::mtfsfx:
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AssertEqualOperationNameE(operation, @"mtfsfx", instruction);
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XCTAssertEqual([columns[3] intValue], instruction.fm());
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AssertEqualFR(columns[4], instruction.frB());
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break;
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case Operation::mtfsfix:
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AssertEqualOperationNameE(operation, @"mtfsfix", instruction);
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XCTAssertEqualObjects(columns[3], conditionreg(instruction.crfD()));
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XCTAssertEqual([columns[4] intValue], instruction.imm());
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break;
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case Operation::mcrxr:
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AssertEqualOperationName(operation, @"mcrxr");
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XCTAssertEqualObjects(columns[3], conditionreg(instruction.crfD()));
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break;
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case Operation::mffsx:
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AssertEqualOperationNameE(operation, @"mffsx", instruction);
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AssertEqualFR(columns[3], instruction.frD());
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break;
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case Operation::mtmsr:
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AssertEqualOperationName(operation, @"mtmsr");
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AssertEqualR(columns[3], instruction.rS());
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break;
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case Operation::mtsrin:
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AssertEqualOperationName(operation, @"mtsrin");
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AssertEqualR(columns[3], instruction.rD());
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AssertEqualR(columns[4], instruction.rB());
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break;
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case Operation::clcs:
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AssertEqualOperationName(operation, @"clcs");
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AssertEqualR(columns[3], instruction.rD());
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AssertEqualR(columns[4], instruction.rA());
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break;
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case Operation::mtsr:
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AssertEqualOperationName(operation, @"mtsr");
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XCTAssertEqual([columns[3] intValue], instruction.sr());
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AssertEqualR(columns[4], instruction.rS());
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break;
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case Operation::tlbie:
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AssertEqualOperationName(operation, @"tlbie");
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AssertEqualR(columns[3], instruction.rB());
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break;
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case Operation::icbi:
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AssertEqualOperationName(operation, @"icbi");
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AssertEqualR(columns[3], instruction.rA(), false);
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AssertEqualR(columns[4], instruction.rB());
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break;
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case Operation::lswi:
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AssertEqualOperationName(operation, @"lswi");
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AssertEqualR(columns[3], instruction.rD());
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AssertEqualR(columns[4], instruction.rA());
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XCTAssertEqual([columns[5] hexInt], instruction.nb());
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break;
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case Operation::stswi:
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AssertEqualOperationName(operation, @"stswi");
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AssertEqualR(columns[3], instruction.rS());
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AssertEqualR(columns[4], instruction.rA());
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XCTAssertEqual([columns[5] hexInt], instruction.nb());
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break;
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case Operation::rlmix:
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AssertEqualOperationNameE(operation, @"rlmix", instruction);
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AssertEqualR(columns[3], instruction.rA());
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AssertEqualR(columns[4], instruction.rS());
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AssertEqualR(columns[5], instruction.rB());
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XCTAssertEqual([columns[6] intValue], instruction.mb<uint32_t>());
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XCTAssertEqual([columns[7] intValue], instruction.me<uint32_t>());
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break;
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case Operation::cmp:
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if([operation isEqualToString:@"cmpw"]) {
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XCTAssertFalse(instruction.l());
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XCTAssertFalse(instruction.crfD());
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AssertEqualR(columns[3], instruction.rA());
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AssertEqualR(columns[4], instruction.rB());
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break;
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}
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if([operation isEqualToString:@"cmp"]) {
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XCTAssertEqualObjects(columns[3], conditionreg(instruction.crfD()));
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AssertEqualR(columns[4], instruction.rA());
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AssertEqualR(columns[5], instruction.rB());
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break;
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}
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NSAssert(FALSE, @"Didn't handle cmp %@", line);
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break;
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case Operation::cmpl:
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if([operation isEqualToString:@"cmplw"]) {
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XCTAssertFalse(instruction.l());
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if(instruction.crfD()) {
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XCTAssertEqualObjects(columns[3], conditionreg(instruction.crfD()));
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AssertEqualR(columns[4], instruction.rA());
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AssertEqualR(columns[5], instruction.rB());
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} else {
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AssertEqualR(columns[3], instruction.rA());
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AssertEqualR(columns[4], instruction.rB());
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}
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break;
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}
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NSAssert(FALSE, @"Didn't handle cmpl %@", line);
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break;
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case Operation::cmpli:
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case Operation::cmpi:
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if([operation isEqualToString:@"cmpwi"] || [operation isEqualToString:@"cmplwi"]) {
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XCTAssertFalse(instruction.l());
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} else {
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XCTAssertTrue(instruction.l());
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}
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XCTAssertEqualObjects(columns[3], conditionreg(instruction.crfD()));
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AssertEqualR(columns[4], instruction.rA());
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XCTAssertEqual([columns[5] hexInt], instruction.simm());
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break;
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case Operation::mtfsb0x:
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case Operation::mtfsb1x:
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AssertEqualOperationNameE(
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operation,
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instruction.operation == Operation::mtfsb0x ? @"mtfsb0x" : @"mtfsb1x",
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instruction);
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XCTAssertEqual([columns[3] intValue], instruction.crbD());
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break;
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#define NoArg(x) \
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case Operation::x: \
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AssertEqualOperationName(operation, @#x); \
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break;
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NoArg(isync);
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NoArg(sync);
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NoArg(eieio);
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NoArg(tlbia);
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#undef NoArg
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#define D(x) \
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case Operation::x: \
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AssertEqualOperationName(operation, @#x); \
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AssertEqualR(columns[3], instruction.rD()); \
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break;
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D(mfcr);
|
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D(mfmsr);
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#undef D
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#define Shift(x) \
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case Operation::x: \
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AssertEqualOperationNameE(operation, @#x, instruction); \
|
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AssertEqualR(columns[3], instruction.rA()); \
|
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AssertEqualR(columns[4], instruction.rS()); \
|
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AssertEqualR(columns[5], instruction.rB()); \
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break;
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Shift(slwx);
|
||
Shift(srwx);
|
||
Shift(srawx);
|
||
|
||
#undef Shift
|
||
|
||
|
||
#define ASsh(x) \
|
||
case Operation::x: \
|
||
AssertEqualOperationNameE(operation, @#x, instruction); \
|
||
AssertEqualR(columns[3], instruction.rA()); \
|
||
AssertEqualR(columns[4], instruction.rS()); \
|
||
XCTAssertEqual([columns[5] hexInt], instruction.sh<uint32_t>()); \
|
||
break;
|
||
|
||
ASsh(sliqx);
|
||
ASsh(slliqx);
|
||
ASsh(sraiqx);
|
||
ASsh(sriqx);
|
||
ASsh(srliqx);
|
||
ASsh(srawix);
|
||
|
||
#undef ASsh
|
||
|
||
#define CRMod(x) \
|
||
case Operation::x: \
|
||
AssertEqualOperationName(operation, @#x); \
|
||
XCTAssertEqualObjects(columns[3], condition(instruction.crbD())); \
|
||
XCTAssertEqualObjects(columns[4], condition(instruction.crbA())); \
|
||
XCTAssertEqualObjects(columns[5], condition(instruction.crbB())); \
|
||
break;
|
||
|
||
CRMod(crand);
|
||
CRMod(crandc);
|
||
CRMod(creqv);
|
||
CRMod(crnand);
|
||
CRMod(crnor);
|
||
CRMod(cror);
|
||
CRMod(crorc);
|
||
CRMod(crxor);
|
||
|
||
#undef CRMod
|
||
|
||
case Operation::mtcrf: {
|
||
AssertEqualOperationName(operation,
|
||
instruction.crm() != 0xff ? @"mtcrf" : @"mtcr");
|
||
|
||
AssertEqualR([columns lastObject], instruction.rS());
|
||
|
||
if(columns.count > 4) {
|
||
XCTAssertEqual([columns[3] hexInt], instruction.crm());
|
||
}
|
||
} break;
|
||
|
||
|
||
#define ArithImm(x) \
|
||
case Operation::x: { \
|
||
AssertEqualOperationName(operation, @#x); \
|
||
AssertEqualR(columns[3], instruction.rD()); \
|
||
AssertEqualR(columns[4], instruction.rA()); \
|
||
XCTAssertEqual([columns[5] hexInt], instruction.simm()); \
|
||
} break;
|
||
|
||
ArithImm(dozi);
|
||
ArithImm(addi);
|
||
ArithImm(addic);
|
||
ArithImm(addic_);
|
||
ArithImm(addis);
|
||
ArithImm(mulli);
|
||
ArithImm(subfic);
|
||
|
||
#undef ArithImm
|
||
|
||
#define LogicImm(x) \
|
||
case Operation::x: { \
|
||
AssertEqualOperationName(operation, @#x); \
|
||
AssertEqualR(columns[3], instruction.rA()); \
|
||
AssertEqualR(columns[4], instruction.rS()); \
|
||
XCTAssertEqual([columns[5] hexInt], instruction.uimm()); \
|
||
} break;
|
||
|
||
LogicImm(andi_);
|
||
LogicImm(andis_);
|
||
LogicImm(ori);
|
||
LogicImm(oris);
|
||
LogicImm(xori);
|
||
LogicImm(xoris);
|
||
|
||
#undef ArithImm
|
||
|
||
#define DAB(x) \
|
||
case Operation::x: \
|
||
AssertEqualOperationName(operation, @#x); \
|
||
AssertEqualR(columns[3], instruction.rD()); \
|
||
AssertEqualR(columns[4], instruction.rA(), false); \
|
||
AssertEqualR(columns[5], instruction.rB()); \
|
||
break;
|
||
|
||
DAB(lwzx);
|
||
DAB(lwzux);
|
||
DAB(lbzx);
|
||
DAB(lbzux);
|
||
DAB(lhzx);
|
||
DAB(lhzux);
|
||
DAB(lhax);
|
||
DAB(lhaux);
|
||
DAB(lhbrx);
|
||
DAB(lwbrx);
|
||
DAB(lwarx);
|
||
DAB(eciwx);
|
||
DAB(lswx);
|
||
DAB(lwa);
|
||
DAB(lwaux);
|
||
DAB(lwax);
|
||
|
||
#undef DAB
|
||
|
||
#define DAe(x) \
|
||
case Operation::x: \
|
||
AssertEqualOperationNameOE(operation, @#x, instruction); \
|
||
AssertEqualR(columns[3], instruction.rD()); \
|
||
AssertEqualR(columns[4], instruction.rA()); \
|
||
break;
|
||
|
||
DAe(negx);
|
||
DAe(subfzex);
|
||
DAe(subfmex);
|
||
DAe(absx);
|
||
DAe(nabsx);
|
||
DAe(addzex);
|
||
DAe(addmex);
|
||
|
||
#undef DAe
|
||
|
||
#define DABe(x) \
|
||
case Operation::x: \
|
||
AssertEqualOperationNameOE(operation, @#x, instruction); \
|
||
AssertEqualR(columns[3], instruction.rD()); \
|
||
AssertEqualR(columns[4], instruction.rA()); \
|
||
AssertEqualR(columns[5], instruction.rB()); \
|
||
break;
|
||
|
||
DABe(subfcx);
|
||
DABe(subfx);
|
||
DABe(subfex);
|
||
DABe(dozx);
|
||
DABe(addx);
|
||
DABe(addcx);
|
||
DABe(addex);
|
||
DABe(mulhwx);
|
||
DABe(mulhwux);
|
||
DABe(mulx);
|
||
DABe(mullwx);
|
||
DABe(divx);
|
||
DABe(divsx);
|
||
DABe(divwux);
|
||
DABe(divwx);
|
||
DABe(lscbxx);
|
||
|
||
#undef DABe
|
||
|
||
#define ASB(x) \
|
||
case Operation::x: \
|
||
AssertEqualOperationNameE(operation, @#x, instruction); \
|
||
AssertEqualR(columns[3], instruction.rA()); \
|
||
AssertEqualR(columns[4], instruction.rS()); \
|
||
AssertEqualR(columns[5], instruction.rB()); \
|
||
break;
|
||
|
||
ASB(maskgx);
|
||
ASB(maskirx);
|
||
ASB(rribx);
|
||
ASB(slex);
|
||
ASB(sleqx);
|
||
ASB(sllqx);
|
||
ASB(slqx);
|
||
ASB(sraqx);
|
||
ASB(srex);
|
||
ASB(sreax);
|
||
ASB(sreqx);
|
||
ASB(srlqx);
|
||
ASB(srqx);
|
||
|
||
ASB(andx);
|
||
ASB(andcx);
|
||
ASB(norx);
|
||
ASB(eqvx);
|
||
ASB(xorx);
|
||
ASB(orcx);
|
||
ASB(orx);
|
||
ASB(nandx);
|
||
|
||
#undef ASB
|
||
|
||
#define SAB(x) \
|
||
case Operation::x: \
|
||
AssertEqualOperationName(operation, @#x); \
|
||
AssertEqualR(columns[3], instruction.rS()); \
|
||
AssertEqualR(columns[4], instruction.rA(), false); \
|
||
AssertEqualR(columns[5], instruction.rB()); \
|
||
break;
|
||
|
||
SAB(ecowx);
|
||
SAB(stbux);
|
||
SAB(stbx);
|
||
SAB(sthbrx);
|
||
SAB(sthux);
|
||
SAB(sthx);
|
||
SAB(stswx);
|
||
SAB(stwbrx);
|
||
SAB(stwcx_);
|
||
SAB(stwux);
|
||
SAB(stwx);
|
||
SAB(stdcx_);
|
||
SAB(stdux);
|
||
SAB(stdx);
|
||
|
||
#undef SAB
|
||
|
||
#define AS(x) \
|
||
case Operation::x: \
|
||
AssertEqualOperationNameE(operation, @#x, instruction); \
|
||
AssertEqualR(columns[3], instruction.rA()); \
|
||
AssertEqualR(columns[4], instruction.rS()); \
|
||
break;
|
||
|
||
AS(cntlzwx);
|
||
AS(extsbx);
|
||
AS(extshx);
|
||
AS(extswx);
|
||
|
||
#undef AS
|
||
|
||
#define fSAB(x) \
|
||
case Operation::x: \
|
||
AssertEqualOperationName(operation, @#x, instruction); \
|
||
AssertEqualFR(columns[3], instruction.frS()); \
|
||
AssertEqualR(columns[4], instruction.rA(), false); \
|
||
AssertEqualR(columns[5], instruction.rB()); \
|
||
break;
|
||
|
||
fSAB(stfdx);
|
||
fSAB(stfdux);
|
||
fSAB(stfsx);
|
||
fSAB(stfsux);
|
||
fSAB(stfiwx);
|
||
|
||
#undef fSAB
|
||
|
||
#define fDAB(x) \
|
||
case Operation::x: \
|
||
AssertEqualOperationName(operation, @#x, instruction); \
|
||
AssertEqualFR(columns[3], instruction.frD()); \
|
||
AssertEqualR(columns[4], instruction.rA(), false); \
|
||
AssertEqualR(columns[5], instruction.rB()); \
|
||
break;
|
||
|
||
fDAB(lfdux);
|
||
fDAB(lfdx);
|
||
fDAB(lfsux);
|
||
fDAB(lfsx);
|
||
|
||
#undef fDAB
|
||
|
||
#define fDfAfB(x) \
|
||
case Operation::x: \
|
||
AssertEqualOperationNameE(operation, @#x, instruction); \
|
||
AssertEqualFR(columns[3], instruction.frD()); \
|
||
AssertEqualFR(columns[4], instruction.frA(), false); \
|
||
AssertEqualFR(columns[5], instruction.frB()); \
|
||
break;
|
||
|
||
fDfAfB(faddx);
|
||
fDfAfB(faddsx);
|
||
fDfAfB(fsubx);
|
||
fDfAfB(fsubsx);
|
||
fDfAfB(fdivx);
|
||
fDfAfB(fdivsx);
|
||
|
||
#undef fDfAfB
|
||
|
||
#define fDfB(x) \
|
||
case Operation::x: \
|
||
AssertEqualOperationNameE(operation, @#x, instruction); \
|
||
AssertEqualFR(columns[3], instruction.frD()); \
|
||
AssertEqualFR(columns[4], instruction.frB()); \
|
||
break;
|
||
|
||
fDfB(fabsx);
|
||
fDfB(fnabsx);
|
||
fDfB(fnegx);
|
||
fDfB(frsqrtex);
|
||
fDfB(frspx);
|
||
fDfB(fctiwx);
|
||
fDfB(fctiwzx);
|
||
fDfB(fctidx);
|
||
fDfB(fctidzx);
|
||
fDfB(fcfidx);
|
||
fDfB(fresx);
|
||
fDfB(fmrx);
|
||
|
||
#undef fDfB
|
||
|
||
#define fDfAfC(x) \
|
||
case Operation::x: \
|
||
AssertEqualOperationNameE(operation, @#x, instruction); \
|
||
AssertEqualFR(columns[3], instruction.frD()); \
|
||
AssertEqualFR(columns[4], instruction.frA(), false); \
|
||
AssertEqualFR(columns[5], instruction.frC()); \
|
||
break;
|
||
|
||
fDfAfC(fmulx);
|
||
fDfAfC(fmulsx);
|
||
|
||
#undef fDfAfC
|
||
|
||
#define fDfAfCfB(x) \
|
||
case Operation::x: \
|
||
AssertEqualOperationNameE(operation, @#x, instruction); \
|
||
AssertEqualFR(columns[3], instruction.frD()); \
|
||
AssertEqualFR(columns[4], instruction.frA()); \
|
||
AssertEqualFR(columns[5], instruction.frC()); \
|
||
AssertEqualFR(columns[6], instruction.frB()); \
|
||
break;
|
||
|
||
fDfAfCfB(fnmaddx);
|
||
fDfAfCfB(fnmaddsx);
|
||
fDfAfCfB(fnmsubx);
|
||
fDfAfCfB(fnmsubsx);
|
||
fDfAfCfB(fmaddx);
|
||
fDfAfCfB(fmaddsx);
|
||
fDfAfCfB(fmsubx);
|
||
fDfAfCfB(fmsubsx);
|
||
fDfAfCfB(fselx);
|
||
|
||
#undef fDfAfBfC
|
||
|
||
#define DDA(x) \
|
||
case Operation::x: { \
|
||
AssertEqualOperationName(operation, @#x, instruction); \
|
||
AssertEqualR(columns[3], instruction.rD()); \
|
||
XCTAssertEqualObjects(columns[4], offset(instruction)); \
|
||
} break;
|
||
|
||
DDA(lbz);
|
||
DDA(lbzu);
|
||
DDA(lmw);
|
||
DDA(lwz);
|
||
DDA(lwzu);
|
||
DDA(lhz);
|
||
DDA(lhzu);
|
||
DDA(lha);
|
||
DDA(lhau);
|
||
|
||
#undef DDA
|
||
|
||
#define fDDA(x) \
|
||
case Operation::x: { \
|
||
AssertEqualOperationName(operation, @#x, instruction); \
|
||
AssertEqualFR(columns[3], instruction.rD()); \
|
||
XCTAssertEqualObjects(columns[4], offset(instruction)); \
|
||
} break;
|
||
|
||
fDDA(lfd);
|
||
fDDA(lfdu);
|
||
fDDA(lfs);
|
||
fDDA(lfsu);
|
||
|
||
#undef fDDA
|
||
|
||
#define SDA(x) \
|
||
case Operation::x: { \
|
||
AssertEqualOperationName(operation, @#x, instruction); \
|
||
AssertEqualR(columns[3], instruction.rS()); \
|
||
XCTAssertEqualObjects(columns[4], offset(instruction)); \
|
||
} break;
|
||
|
||
SDA(stb);
|
||
SDA(stbu);
|
||
SDA(sth);
|
||
SDA(sthu);
|
||
SDA(stmw);
|
||
SDA(stw);
|
||
SDA(stwu);
|
||
|
||
#undef SDA
|
||
|
||
#define fSDA(x) \
|
||
case Operation::x: { \
|
||
AssertEqualOperationName(operation, @#x, instruction); \
|
||
AssertEqualFR(columns[3], instruction.rS()); \
|
||
XCTAssertEqualObjects(columns[4], offset(instruction)); \
|
||
} break;
|
||
|
||
fSDA(stfd);
|
||
fSDA(stfdu);
|
||
fSDA(stfs);
|
||
fSDA(stfsu);
|
||
|
||
#undef fSDA
|
||
|
||
#define crfDS(x) \
|
||
case Operation::x: \
|
||
AssertEqualOperationName(operation, @#x, instruction); \
|
||
XCTAssertEqualObjects(columns[3], conditionreg(instruction.crfD())); \
|
||
XCTAssertEqualObjects(columns[4], conditionreg(instruction.crfS())); \
|
||
break;
|
||
|
||
crfDS(mcrf);
|
||
crfDS(mcrfs);
|
||
|
||
#undef crfDS
|
||
|
||
#define crfDfAfB(x) \
|
||
case Operation::x: \
|
||
AssertEqualOperationName(operation, @#x, instruction); \
|
||
XCTAssertEqualObjects(columns[3], conditionreg(instruction.crfD())); \
|
||
AssertEqualFR(columns[4], instruction.frA()); \
|
||
AssertEqualFR(columns[5], instruction.frB()); \
|
||
break;
|
||
|
||
crfDfAfB(fcmpo);
|
||
crfDfAfB(fcmpu);
|
||
|
||
#undef crfDfAfB
|
||
|
||
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;
|
||
}
|
||
|
||
XCTAssertEqual(decoded_destination, [[columns lastObject] hexInt]);
|
||
} 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) {
|
||
expectedCR = condition(instruction.bi());
|
||
} 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 decoded_destination =
|
||
instruction.li() + (instruction.aa() ? 0 : address);
|
||
XCTAssertEqual(decoded_destination, [columns[3] hexInt]);
|
||
} break;
|
||
}
|
||
}
|
||
}
|
||
|
||
@end
|