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CLK/OSBindings/Mac/Clock SignalTests/ZexallTests.swift

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//
// ZexallTests.swift
// Clock Signal
//
// Created by Thomas Harte on 16/05/2017.
// Copyright 2017 Thomas Harte. All rights reserved.
//
import XCTest
import Foundation
class ZexallTests: XCTestCase, CSTestMachineTrapHandler {
private var done = false
private var output = ""
private func runTest(_ name: String) {
if let filename = Bundle(for: type(of: self)).path(forResource: name, ofType: "com") {
if let testData = try? Data(contentsOf: URL(fileURLWithPath: filename)) {
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// Install test program, at the usual CP/M place.
let machine = CSTestMachineZ80()
machine.setData(testData, atAddress: 0x0100)
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// Add a RET at the CP/M entry location, set a high memtop, and
// and establish the entry location as a trap location.
machine.setValue(0xc9, atAddress: 0x0005)
machine.setValue(0xff, atAddress: 0x0006)
machine.setValue(0xff, atAddress: 0x0007)
machine.addTrapAddress(0x0005);
machine.trapHandler = self
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// Establish 0 as another trap location, as RST 0h is one of the ways that
// CP/M programs can exit.
machine.addTrapAddress(0);
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// Ensure that if the CPU hits zero, it stays there until the end of the
// sampling window.
machine.setValue(0xc3, atAddress: 0x0000)
machine.setValue(0x00, atAddress: 0x0001)
machine.setValue(0x00, atAddress: 0x0002)
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// Seed execution at 0x0100.
machine.setValue(0x0100, for: .programCounter)
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// Run!
let cyclesPerIteration: Int32 = 400_000_000
var cyclesToDate: TimeInterval = 0
let startDate = Date()
var printDate = Date()
let printMhz = false
while !done {
machine.runForNumber(ofCycles: cyclesPerIteration)
cyclesToDate += TimeInterval(cyclesPerIteration)
if printMhz && printDate.timeIntervalSinceNow < -5.0 {
print("\(cyclesToDate / -startDate.timeIntervalSinceNow) Mhz")
printDate = Date()
}
}
let targetOutput =
"<adc,sbc> hl,<bc,de,hl,sp>.... OK\n\r" +
"add hl,<bc,de,hl,sp>.......... OK\n\r" +
"add ix,<bc,de,ix,sp>.......... OK\n\r" +
"add iy,<bc,de,iy,sp>.......... OK\n\r" +
"aluop a,nn.................... OK\n\r" +
"aluop a,<b,c,d,e,h,l,(hl),a>.. OK\n\r" +
"aluop a,<ixh,ixl,iyh,iyl>..... OK\n\r" +
"aluop a,(<ix,iy>+1)........... OK\n\r" +
"bit n,(<ix,iy>+1)............. OK\n\r" +
"bit n,<b,c,d,e,h,l,(hl),a>.... OK\n\r" +
"cpd<r>........................ OK\n\r" +
"cpi<r>........................ OK\n\r" +
"<daa,cpl,scf,ccf>............. OK\n\r" +
"<inc,dec> a................... OK\n\r" +
"<inc,dec> b................... OK\n\r" +
"<inc,dec> bc.................. OK\n\r" +
"<inc,dec> c................... OK\n\r" +
"<inc,dec> d................... OK\n\r" +
"<inc,dec> de.................. OK\n\r" +
"<inc,dec> e................... OK\n\r" +
"<inc,dec> h................... OK\n\r" +
"<inc,dec> hl.................. OK\n\r" +
"<inc,dec> ix.................. OK\n\r" +
"<inc,dec> iy.................. OK\n\r" +
"<inc,dec> l................... OK\n\r" +
"<inc,dec> (hl)................ OK\n\r" +
"<inc,dec> sp.................. OK\n\r" +
"<inc,dec> (<ix,iy>+1)......... OK\n\r" +
"<inc,dec> ixh................. OK\n\r" +
"<inc,dec> ixl................. OK\n\r" +
"<inc,dec> iyh................. OK\n\r" +
"<inc,dec> iyl................. OK\n\r" +
"ld <bc,de>,(nnnn)............. OK\n\r" +
"ld hl,(nnnn).................. OK\n\r" +
"ld sp,(nnnn).................. OK\n\r" +
"ld <ix,iy>,(nnnn)............. OK\n\r" +
"ld (nnnn),<bc,de>............. OK\n\r" +
"ld (nnnn),hl.................. OK\n\r" +
"ld (nnnn),sp.................. OK\n\r" +
"ld (nnnn),<ix,iy>............. OK\n\r" +
"ld <bc,de,hl,sp>,nnnn......... OK\n\r" +
"ld <ix,iy>,nnnn............... OK\n\r" +
"ld a,<(bc),(de)>.............. OK\n\r" +
"ld <b,c,d,e,h,l,(hl),a>,nn.... OK\n\r" +
"ld (<ix,iy>+1),nn............. OK\n\r" +
"ld <b,c,d,e>,(<ix,iy>+1)...... OK\n\r" +
"ld <h,l>,(<ix,iy>+1).......... OK\n\r" +
"ld a,(<ix,iy>+1).............. OK\n\r" +
"ld <ixh,ixl,iyh,iyl>,nn....... OK\n\r" +
"ld <bcdehla>,<bcdehla>........ OK\n\r" +
"ld <bcdexya>,<bcdexya>........ OK\n\r" +
"ld a,(nnnn) / ld (nnnn),a..... OK\n\r" +
"ldd<r> (1).................... OK\n\r" +
"ldd<r> (2).................... OK\n\r" +
"ldi<r> (1).................... OK\n\r" +
"ldi<r> (2).................... OK\n\r" +
"neg........................... OK\n\r" +
"<rrd,rld>..................... OK\n\r" +
"<rlca,rrca,rla,rra>........... OK\n\r" +
"shf/rot (<ix,iy>+1)........... OK\n\r" +
"shf/rot <b,c,d,e,h,l,(hl),a>.. OK\n\r" +
"<set,res> n,<bcdehl(hl)a>..... OK\n\r" +
"<set,res> n,(<ix,iy>+1)....... OK\n\r" +
"ld (<ix,iy>+1),<b,c,d,e>...... OK\n\r" +
"ld (<ix,iy>+1),<h,l>.......... OK\n\r" +
"ld (<ix,iy>+1),a.............. OK\n\r" +
"ld (<bc,de>),a................ OK\n\r" +
"Tests complete\n\r"
let successRange = output.range(of: targetOutput)
XCTAssertNotEqual(successRange, nil, output);
}
}
}
func testZexAll() {
runTest("zexall")
}
func testZexDoc() {
runTest("zexdoc")
}
func testMachine(_ testMachine: CSTestMachine, didTrapAtAddress address: UInt16) {
let testMachineZ80 = testMachine as! CSTestMachineZ80
switch address {
case 0x0005:
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// Only the output text CP/M calls are implemented.
let cRegister = testMachineZ80.value(for: .C)
var textToAppend = ""
switch cRegister {
case 9:
var address = testMachineZ80.value(for: .DE)
var character: Character = " "
while true {
character = Character(UnicodeScalar(testMachineZ80.value(atAddress: address)))
if character == "$" {
break
}
textToAppend += String(character)
address = address + 1
}
case 5:
textToAppend = String(describing: UnicodeScalar(testMachineZ80.value(for: .E)))
case 0:
done = true
default:
break
}
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output += textToAppend
print(textToAppend)
case 0x0000:
done = true
default:
break
}
}
}