// Copyright (c) 1996 Barry Silverman, Brian Silverman, Vadim Gerasimov. // Portions Copyright (c) 2009 The Go Authors. // // Permission is hereby granted, free of charge, to any person obtaining a copy // of this software and associated documentation files (the "Software"), to deal // in the Software without restriction, including without limitation the rights // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell // copies of the Software, and to permit persons to whom the Software is // furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in // all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN // THE SOFTWARE. // See ../../nacl/README. package main import ( "bytes"; "exp/draw"; "exp/nacl/av"; "exp/nacl/srpc"; "image"; "log"; "os"; "runtime"; "strings"; "time"; "./pdp1"; ) func main() { runtime.LockOSThread(); if srpc.Enabled() { go srpc.ServeRuntime() } w, err := av.Init(av.SubsystemVideo, 512, 512); if err != nil { log.Exitf("av.Init: %s", err) } go quitter(w.QuitChan()); var m SpacewarPDP1; m.Init(w); m.PC = 4; f := bytes.NewBuffer(strings.Bytes(spacewarCode)); if err = m.Load(f); err != nil { log.Exitf("loading %s: %s", "spacewar.lst", err) } for err == nil { //fmt.Printf("step PC=%06o ", m.PC); //fmt.Printf("inst=%06o AC=%06o IO=%06o OV=%o\n", // m.Mem[m.PC], m.AC, m.IO, m.OV); err = m.Step() } log.Exitf("step: %s", err); } func quitter(c <-chan bool) { <-c; os.Exit(0); } // A SpacewarPDP1 is a PDP-1 machine configured to run Spacewar! // It responds to traps by drawing on the display, and it flushes the // display and pauses every second time the program counter reaches // instruction 02051. type SpacewarPDP1 struct { pdp1.M; nframe int; frameTime int64; ctxt draw.Context; dx, dy int; screen draw.Image; ctl pdp1.Word; kc <-chan int; colorModel image.ColorModel; cmap []image.Color; pix [][]uint8; } func min(a, b int) int { if a < b { return a } return b; } func (m *SpacewarPDP1) Init(ctxt draw.Context) { m.ctxt = ctxt; m.kc = ctxt.KeyboardChan(); m.screen = ctxt.Screen(); m.dx = m.screen.Width(); m.dy = m.screen.Height(); m.colorModel = m.screen.ColorModel(); m.pix = make([][]uint8, m.dy); for i := range m.pix { m.pix[i] = make([]uint8, m.dx) } m.cmap = make([]image.Color, 256); for i := range m.cmap { var r, g, b uint8; r = uint8(min(0, 255)); g = uint8(min(i*2, 255)); b = uint8(min(0, 255)); m.cmap[i] = m.colorModel.Convert(image.RGBAColor{r, g, b, 0xff}); } } const ( frameDelay = 56 * 1e6; // 56 ms ) var ctlBits = [...]pdp1.Word{ 'f': 0000001, 'd': 0000002, 'a': 0000004, 's': 0000010, '\'': 0040000, ';': 0100000, 'k': 0200000, 'l': 0400000, } func (m *SpacewarPDP1) Step() os.Error { if m.PC == 02051 { m.pollInput(); m.nframe++; if m.nframe&1 == 0 { m.flush(); t := time.Nanoseconds(); if t >= m.frameTime+3*frameDelay { m.frameTime = t } else { m.frameTime += frameDelay; for t < m.frameTime { time.Sleep(m.frameTime - t); t = time.Nanoseconds(); } } } } return m.M.Step(m); } func (m *SpacewarPDP1) Trap(y pdp1.Word) { switch y & 077 { case 7: x := int(m.AC+0400000) & 0777777; y := int(m.IO+0400000) & 0777777; x = x * m.dx / 0777777; y = y * m.dy / 0777777; if 0 <= x && x < m.dx && 0 <= y && y < m.dy { n := uint8(min(int(m.pix[y][x])+128, 255)); m.pix[y][x] = n; } case 011: m.IO = m.ctl } } func (m *SpacewarPDP1) flush() { // Update screen image; simulate phosphor decay. for y := 0; y < m.dy; y++ { for x := 0; x < m.dx; x++ { m.screen.Set(x, y, m.cmap[m.pix[y][x]]); m.pix[y][x] >>= 1; } } m.ctxt.FlushImage(); } func (m *SpacewarPDP1) pollInput() { for { select { case ch := <-m.kc: if 0 <= ch && ch < len(ctlBits) { m.ctl |= ctlBits[ch] } if 0 <= -ch && -ch < len(ctlBits) { m.ctl &^= ctlBits[-ch] } default: return } } }