ref: db0eab9ca04b896e5760081efd854c57f65f36c3
dir: /appl/demo/lego/clockface.b/
# Model 1 implement Clockface; include "sys.m"; include "draw.m"; Clockface : module { init : fn (ctxt : ref Draw->Context, argv : list of string); }; sys : Sys; hmpath : con "motor/0"; # hour-hand motor mmpath : con "motor/2"; # minute-hand motor allmpath : con "motor/012"; # all motors (for stopall msg) hbpath : con "sensor/0"; # hour-hand sensor mbpath : con "sensor/2"; # minute-hand sensor lspath: con "sensor/1"; # light sensor; ONTHRESH : con 780; # light sensor thresholds OFFTHRESH : con 740; NCLICKS : con 120; MINCLICKS : con 2; # min number of clicks required to stop a motor Hand : adt { motor : ref Sys->FD; sensor : ref Sys->FD; fwd : array of byte; rev : array of byte; stop : array of byte; pos : int; }; lightsensor : ref Sys->FD; allmotors : ref Sys->FD; hourhand : ref Hand; minutehand : ref Hand; reqch: chan of (string, chan of int); init(nil : ref Draw->Context, argv : list of string) { sys = load Sys Sys->PATH; sys->pctl(Sys->NEWPGRP, nil); argv = tl argv; if (len argv != 1) { sys->print("usage: lego_dir\n"); raise("fail:usage"); } # set up our control file if (sys->bind("#s", ".", Sys->MBEFORE) == -1) { sys->print("failed to bind srv device: %r\n"); return; } f2c := sys->file2chan(".", "clockface"); if (f2c == nil) { sys->print("cannot create legolink channel: %r\n"); return; } legodir := hd argv; if (legodir[len legodir -1] != '/') legodir[len legodir] = '/'; # get the motor files sys->print("opening motor files\n"); hm := sys->open(legodir + hmpath, Sys->OWRITE); mm := sys->open(legodir +mmpath, Sys->OWRITE); allmotors = sys->open(legodir + allmpath, Sys->OWRITE); if (hm == nil || mm == nil || allmotors == nil) { sys->print("cannot open motor files\n"); raise("fail:error"); } # get the sensor files sys->print("opening sensor files\n"); hb := sys->open(legodir + hbpath, Sys->ORDWR); mb := sys->open(legodir + mbpath, Sys->ORDWR); lightsensor = sys->open(legodir + lspath, Sys->ORDWR); if (hb == nil || mb == nil) { sys->print("cannot open sensor files\n"); raise("fail:error"); } hourhand = ref Hand(hm, hb, array of byte "f7", array of byte "r7", array of byte "s7", 0); minutehand = ref Hand(mm, mb, array of byte "f7", array of byte "r7", array of byte "s7", 0); sys->print("setting sensor types\n"); setsensortypes(hourhand, minutehand, lightsensor); reqch = chan of (string, chan of int); spawn sethands(); # reqch <-= ("reset", nil); spawn srvlink(f2c); } srvlink(f2c : ref Sys->FileIO) { for (;;) alt { (offset, count, fid, rc) := <- f2c.read => if (rc == nil) continue; if (offset != 0) { rc <-= (nil, nil); continue; } rc <- = (array of byte gettime(), nil); (offset, data, fid, wc) := <- f2c.write => if (wc == nil) continue; if (offset != 0) { wc <-= (0, "bad offset"); continue; } spawn settime(wc, string data, len data); } } gettime(): string { hpos := hourhand.pos; mpos := minutehand.pos; h := 12 * hpos / NCLICKS; m := 60 * mpos / NCLICKS; time := "??:??"; for (hadj := -1; hadj <= 1; hadj++) { hpos2 := (((h+hadj) * NCLICKS) / 12) + ((m * NCLICKS) / (12 * 60)); dhpos := hpos - hpos2; if (dhpos >= -2 && dhpos <= 2) { # allow 2 clicks of imprecision either way time = sys->sprint("%.2d:%.2d", h+hadj, m); break; } } return sys->sprint("%s %d %d", time, hpos*360/NCLICKS, mpos*360/NCLICKS); } settime(wc: Sys->Rwrite, time: string, wn: int) { done := chan of int; reqch <-= (time, done); <- done; wc <-= (wn, nil); } str2clicks(s : string) : (int, int) { h, m : int = 0; (n, toks) := sys->tokenize(s, ":"); if (n > 1) { h = int hd toks; toks = tl toks; n--; } if (n > 0) { m = int hd toks; } h = ((h * NCLICKS) / 12) + ((m * NCLICKS) / (12 * 60)); m = (m * NCLICKS)/60; return (h, m); } sethands() { for (;;) { (time, rc) := <- reqch; if (time == "reset" || time == "reset\n") { reset(); time = "12:00"; } (hclk, mclk) := str2clicks(time); for (i := 0; i < 6; i++) { hdelta := clickdistance(hourhand.pos, hclk, NCLICKS); mdelta := clickdistance(minutehand.pos, mclk, NCLICKS); if (hdelta == 0 && mdelta == 0) break; if (hdelta != 0) sethand(hourhand, hdelta); if (mdelta != 0) sethand(minutehand, mdelta); } releaseall(); if (rc != nil) rc <- = 1; } } clickdistance(start, stop, mod : int) : int { if (start > stop) stop += mod; d := (stop - start) % mod; if (d > mod/2) d -= mod; return d; } setsensortypes(h1, h2 : ref Hand, ls : ref Sys->FD) { button := array of byte "b0"; light := array of byte "l0"; sys->seek(h1.sensor, big 0, Sys->SEEKSTART); sys->write(h1.sensor, button, len button); sys->seek(h2.sensor, big 0, Sys->SEEKSTART); sys->write(h2.sensor, button, len button); sys->seek(ls, big 0, Sys->SEEKSTART); sys->write(ls, light, len light); } HOUR_ADJUST : con 1; MINUTE_ADJUST : con 3; reset() { # run the motors until hands are well away from 12 o'clock (below threshold) setsensortypes(hourhand, minutehand, lightsensor); val := readsensor(lightsensor); if (val > OFFTHRESH) { triggered := chan of int; sys->print("wait for hands clear of light sensor\n"); spawn lightwait(triggered, lightsensor, 0); forward(minutehand); reverse(hourhand); val = <- triggered; stopall(); sys->print("sensor %d\n", val); } resethand(hourhand); hourhand.pos += HOUR_ADJUST; resethand(minutehand); minutehand.pos += MINUTE_ADJUST; } sethand(hand : ref Hand, delta : int) { triggered := chan of int; dir := 1; if (delta < 0) { dir = -1; delta = -delta; } if (delta > MINCLICKS) { spawn handwait(triggered, hand, delta - MINCLICKS); if (dir > 0) forward(hand); else reverse(hand); <- triggered; stop(hand); hand.pos += dir * readsensor(hand.sensor); } else { startval := readsensor(hand.sensor); if (dir > 0) forward(hand); else reverse(hand); stop(hand); hand.pos += dir * (readsensor(hand.sensor) - startval); } if (hand.pos < 0) hand.pos += NCLICKS; hand.pos %= NCLICKS; } resethand(hand : ref Hand) { triggered := chan of int; val : int; # run the hand until the light sensor is above threshold sys->print("running hand until light sensor activated\n"); spawn lightwait(triggered, lightsensor, 1); forward(hand); val = <- triggered; stop(hand); sys->print("sensor %d\n", val); startclick := readsensor(hand.sensor); # advance until light sensor drops below threshold sys->print("running hand until light sensor clear\n"); spawn lightwait(triggered, lightsensor, 0); forward(hand); val = <- triggered; stop(hand); sys->print("sensor %d\n", val); stopclick := readsensor(hand.sensor); nclicks := stopclick - startclick; sys->print("startpos %d, endpos %d (nclicks %d)\n", startclick, stopclick, nclicks); hand.pos = nclicks/2; } stop(hand : ref Hand) { sys->seek(hand.motor, big 0, Sys->SEEKSTART); sys->write(hand.motor, hand.stop, len hand.stop); } stopall() { msg := array of byte "s0s0s0"; sys->seek(allmotors, big 0, Sys->SEEKSTART); sys->write(allmotors, msg, len msg); } releaseall() { msg := array of byte "F0F0F0"; sys->seek(allmotors, big 0, Sys->SEEKSTART); sys->write(allmotors, msg, len msg); } forward(hand : ref Hand) { sys->seek(hand.motor, big 0, Sys->SEEKSTART); sys->write(hand.motor, hand.fwd, len hand.fwd); } reverse(hand : ref Hand) { sys->seek(hand.motor, big 0, Sys->SEEKSTART); sys->write(hand.motor, hand.rev, len hand.rev); } readsensor(fd : ref Sys->FD) : int { buf := array [4] of byte; sys->seek(fd, big 0, Sys->SEEKSTART); n := sys->read(fd, buf, len buf); if (n <= 0) return -1; return int string buf[0:n]; } handwait(reply : chan of int, hand : ref Hand, clicks : int) { blk := array of byte ("b" + string clicks); sys->seek(hand.sensor, big 0, Sys->SEEKSTART); sys->print("handwait(%s)\n", string blk); if (sys->write(hand.sensor, blk, len blk) != len blk) sys->print("handwait write error: %r\n"); reply <- = readsensor(hand.sensor); } lightwait(reply : chan of int, fd : ref Sys->FD, on : int) { thresh := ""; if (on) thresh = "l>" + string ONTHRESH; else thresh = "l<" + string OFFTHRESH; blk := array of byte (thresh); sys->print("lightwait(%s)\n", string blk); sys->seek(fd, big 0, Sys->SEEKSTART); sys->write(fd, blk, len blk); reply <- = readsensor(fd); }