DIRECTORY
IO,
Commander USING [ CommandProc, Register ],
Convert USING [ RopeFromInt ],
Lark USING [ bStar, bThorp, ConnectionSpec, CommandEvent, CommandEvents, CommandEventSequence, Device, disabled, EchoParameters, EchoParameterRecord, enabled, endNum, Event, KeyTable, Milliseconds, o3i1, o2i2, o1i1, Passel, reset, SHHH, StatusEvent, Tone, ToneSpec, ToneSpecRec ],
LarkPlay USING [ ToneList, ToneSpec, ToneSpecRec ],
LarkRpcControl,
LarkSmarts,
List USING [ Nconc1 ],
Nice,
Process USING [ Detach, EnableAborts, MsecToTicks, SetTimeout ],
Rope USING [ Cat, Concat, Fetch, Length, ROPE, Translate, TranslatorType ],
RPC USING [ CallFailed ],
Synthesizer USING [ BreakText ],
ThNet USING [ pd ],
ThPartyPrivate USING [ SmartsData ],
Thrush USING[ H, pERROR, ProseSpec, ProseSpecs, ROPE, SHHH, SmartsHandle, ThHandle ],
ThSmartsPrivate
USING [
ConvDesc, flushMarker, GetConvDesc, HookState, proseFailure, LarkInfo, LarkProseQueue, LarkState, LarkStateSpec, LSwitches, LState, maxClientMarker, maxControlMarker, ProgressTones, ProseCmd, SmartsInfo, TerminalType ],
TU USING [ RefAddr ],
VoiceUtils USING [ ProblemFR, Report ]
;
Declarations
ConvDesc: TYPE = ThSmartsPrivate.ConvDesc;
H: PROC[r: REF] RETURNS[Thrush.ThHandle] = INLINE {RETURN[Thrush.H[r]]; };
LarkInfo: TYPE = ThSmartsPrivate.LarkInfo;
LarkState: TYPE = ThSmartsPrivate.LarkState;
SmartsData: TYPE = ThPartyPrivate.SmartsData;
SmartsInfo: TYPE = ThSmartsPrivate.SmartsInfo;
SmartsHandle: TYPE = Thrush.SmartsHandle;
TerminalType: TYPE = ThSmartsPrivate.TerminalType;
ProseCmd: TYPE = ThSmartsPrivate.ProseCmd;
ROPE: TYPE = Thrush.ROPE;
firstTone: LarkState = FIRST[ThSmartsPrivate.ProgressTones];
bStar: Lark.Event = Lark.bStar;
bThorp: Lark.Event = Lark.bThorp;
enabled: Lark.Event = Lark.enabled;
endNum: Lark.Event = Lark.endNum;
disabled: Lark.Event = Lark.disabled;
reset: Lark.Event = Lark.reset;
larkRegistry: ROPE ← ".Lark";
PD:
TYPE =
RECORD [
waitForTelco: CARDINAL ← 500,
telcoMinOn: CARDINAL ← 60,
telcoMinOff: CARDINAL ← 60,
flashWaitTime: CARDINAL ← 800,
idleWaitTime: CARDINAL ← 20000, -- time for supervisor to wait for more events.
backDoorOH: BOOL←FALSE,
callTimeoutOK: BOOL←FALSE, -- set to keep Thrush alive when debugging a Lark.
tonesInvalid: BOOL←TRUE,
tonesLast:
BOOL←
TRUE
-- sets up alternate lark setup situation in supervisor loop
<<Presently not used.>>
];
pd: REF PD ← NEW[PD←[]];
dialTone: LarkPlay.ToneSpec ← NIL;
busyTone: LarkPlay.ToneSpec ← NIL;
errorTone: LarkPlay.ToneSpec ← NIL;
ringbackTone: LarkPlay.ToneSpec ← NIL;
quenchSpec: Lark.ToneSpec ← NEW[Lark.ToneSpecRec ←[volume: 0, totalTime: 0, tones: LIST[[0,0,0,0]]]];
definitions to interface to DECTalk text-to-speech synthesizer; more in ThSmartsPrivate
pReset:
PUBLIC ProseCmd ← "cP;z:cp0\\P;z:pp0\\P;z:ra180\\P;z:np\\[5n";
is ESC. Also explicitly resets voice, rate, etc, because machine reset doesn't.
stopAndFlush:
PUBLIC ProseCmd ← "P;10z\\[5n"
;
DSR brief ([5n) not strictly needed for reset or flush, but makes the DECTalk (which is normally quiet in this case) respond more like the Prose.
commenceSpeech: ProseCmd = "P;z,\\"; -- phonemic comma
indexMarkerStart: ProseCmd = "P;21;"; -- for constructing index commands
indexMarkerLen: INT = 12;
indexMarkerEnd: ProseCmd = "z\\P;z,\\";
The comma pause is to separate this index-reply command from any immediately following one, because of a DECtalk bug which will respond only to the second one when there are two in a row. In particular, there will always be two in a row at the end of a connection.
maxTextPktLen:
INT ← 150;
Byte (char) count; RPCLupine.maxDataLength is word count
No bigger than RPCLupine.maxDataLength - 2*indexMarkerLen
maxPkts: INT = 250 / maxTextPktLen; -- Prose can hold `several hundred' chars
numPkts: INT ← 2;
minClientMarker:
INT = 1;
maxClientMarker: INT = 199; -- in ThSmartsPrivate
minControlMarker:
INT = 200;
-- reserved for packet control
maxControlMarker: INT = 250; -- in ThSmartsPrivate
speechDoneMarker: INT = 255;
speechDone: ProseCmd = "P;21;255z\\P;z,\\";
Commence speech & report back when done. 38 chars counting the preceding index-reply and pause(!), but it is safe, even if the client has explicitly turned mode square on. The index-reply tells us that we are all done. The final comma pause flushes the preceding index-reply, which would otherwise sit in the machine indefinitely.
plainSpeechDone: ProseCmd = "P;21;255z\\";
Contains Ctrl Ks as flush chars, which turn phoneme mode off. Only safe if client is neither in explicit phoneme mode (which I detect) nor in mode square on mode & inside square brackets (which I don't).
Internal Procedures
FailE: ENTRY PROC[info: LarkInfo] = {Fail[info];};
Fail:
INTERNAL
PROC[info: LarkInfo] = {
IF info.larkState#recovering THEN info.larkStateiled; };
LarkSupervisor:
PROCEDURE[ info: LarkInfo, sInfo: SmartsInfo ] = {
In a loop, keep the state of the Lark up to date. Awakens itself whenever any pending
tone is otherwise likely to time out. Awakened by EnterLarkState whenever the state
of tones, switches, and the like might have to change.
sInfo is the SmartsInfo in use when the process was initiated. It's used to report errors, but bear in mind that it may or may not be the one in effect when a particular complaint occurs.
ENABLE UNWIND => NULL;
req: REF;
WaitForAction:
ENTRY
PROC[info: LarkInfo]
RETURNS [ref:
REF←
NIL] =
TRUSTED {
ENABLE UNWIND=>NULL;
DO
elt: LIST OF REF ← info.newActions;
IF info.larkState=failed OR info.larkState=recovering THEN RETURN[NIL];
IF elt #
NIL
THEN {
ref𡤎lt.first;
info.newActions ← elt.rest;
RETURN[ref];
};
Process.SetTimeout[@info.stateChange, Process.MsecToTicks[pd.idleWaitTime]];
WAIT info.stateChange;
IF info.newActions =
NIL
THEN {
IF info.nextToneList#NIL THEN Fail[info]; -- Notification is late.
RETURN[NIL];
};
ENDLOOP;
};
info.larkToneSpec ← NEW[Lark.ToneSpecRec ← [volume: 0, totalTime: 0, tones: NIL]];
TRUSTED { Process.EnableAborts[@info.stateChange]; };
WHILE (req←WaitForAction[info])#
NIL
DO
-- Deal with communications failure.
ENABLE {
RPC.CallFailed =>
IF pd.callTimeoutOK
THEN
RESUME
ELSE {
LarkProblem["%g: Call Failed", sInfo]; GOTO Failed; };
ABORTED => {
LarkProblem["%g: LarkSupervisor aborted", sInfo]; GOTO Failed; };
};
DoTones:
PROC[newTones:
BOOL] = {
-- Does one tone from current list of tones
IF info.nextToneList=NIL THEN RETURN;
info.larkToneSpec.volume ← info.toneSpec.volume;
info.expectedNotification ←
IF info.expectedNotification='z THEN 'a ELSE info.expectedNotification+1;
info.larkToneSpec.notification ← [tones, info.expectedNotification];
info.larkToneSpec.tones ← info.nextToneList.first;
[]←info.interface.SpecifyTones[shh: info.shh, queueIt: ~newTones, tones: info.larkToneSpec];
};
SpeakText:
PROC = {
textPkt: Rope.ROPE;
IF ~info.textToSpeech OR info.flushInProgress THEN RETURN;
WHILE info.pktsOutstanding < numPkts
AND info.textToSpeak.Length[] > 0
DO
proseText: Rope.ROPE ← info.textToSpeak;
IF proseText.Length[] <= maxTextPktLen
THEN {
textPkt ← Rope.Concat[proseText, speechDone];
speechDone (or some control marker) is needed to keep the Prose going if new text comes in after the last bit of the previous request was sent, but before the Prose finishes speaking it. Triggers a call from LarkInImpl.HandleProseOutput.
info.textToSpeak ← "";
info.ctrlMarkerQueue ← List.Nconc1[info.ctrlMarkerQueue, NEW[INT ← speechDoneMarker]];
}
ELSE {
[packet: textPkt, remainder: proseText] ← Synthesizer.BreakText[proseText, maxTextPktLen];
Now add the control marker on the end of the text packet.
info.controlMarker ← IF info.controlMarker>=ThSmartsPrivate.maxControlMarker THEN minControlMarker ELSE info.controlMarker+1;
textPkt ← Rope.Cat[indexMarkerStart, Convert.RopeFromInt[info.controlMarker], indexMarkerEnd, textPkt];
info.ctrlMarkerQueue ← List.Nconc1[info.ctrlMarkerQueue, NEW[INT ← info.controlMarker]];
info.textToSpeak ← proseText; -- info is monitored record
};
Deb[info, 'p, rope[textPkt]];
info.interface.CommandString[shh: info.shh, device: keyboard, commands: textPkt];
info.pktsOutstanding ← info.pktsOutstanding+1;
ENDLOOP;
};
WITH req
SELECT
FROM
d:
REF ADisconnectType => {
info.interface.Disconnect[ shh: info.shh, buffer: out1];
info.interface.Disconnect[ shh: info.shh, buffer: in1];
};
ts: LarkPlay.ToneSpec => {
info.toneSpec←ts;
info.nextToneList ← info.toneSpec.tones;
DoTones[TRUE];
};
ps: Thrush.ProseSpecs => {
IF ~info.textToSpeech THEN LOOP;
FOR proseS: Thrush.ProseSpecs ← ps, proseS.rest
WHILE proseS#
NIL
DO
pSpec: Thrush.ProseSpec = proseS.first;
newText: Rope.ROPE;
IF ~pSpec.queueIt THEN ProseFlush[info, stopAndFlush];
newText ←
IF pSpec.direction=record
-- really want BOOLEAN pSpec.filter
THEN pSpec.prose -- allows client to send Prose reset
ELSE Rope.Translate[base: pSpec.prose, translator: FilterText];
info.textToSpeak ← Rope.Concat[info.textToSpeak, newText];
info.clientMarker ←
IF info.clientMarker = ThSmartsPrivate.maxClientMarker
THEN minClientMarker
ELSE info.clientMarker + 1;
EnterProseQueue[info, pSpec, info.clientMarker];
info.textToSpeak ← Rope.Cat[info.textToSpeak, indexMarkerStart,
Convert.RopeFromInt[info.clientMarker],
indexMarkerEnd];
ENDLOOP;
Maybe just as satisfactory to treat each elt of list as separate request & terminate with CommenceSpeech to keep Prose going.
SpeakText[];
};
pd:
REF ASpeechDoneType => {
marker: REF INT ← NIL;
IF pd.indexMarker = ThSmartsPrivate.flushMarker
THEN {
info.flushInProgress ← FALSE;
info.ctrlMarkerQueue ← NIL;
info.pktsOutstanding ← 0;
SpeakText[];
}
ELSE {
IF info.ctrlMarkerQueue =
NIL
THEN {
LarkProblem["Text-to-speech service: empty control marker list", sInfo];
GOTO Failed;
};
marker ← NARROW[info.ctrlMarkerQueue.first];
IF pd.indexMarker = marker^
THEN {
info.ctrlMarkerQueue ← info.ctrlMarkerQueue.rest;
info.pktsOutstanding ← info.pktsOutstanding-1;
SpeakText[];
}
ELSE {
LarkProblem["Text-to-speech service: wrong marker received", sInfo];
GOTO Failed;
};
};
};
td:
REF ATonesDoneType =>
IF info.toneSpec#
NIL
THEN {
IF td.event#info.expectedNotification THEN GOTO Failed;
IF info.nextToneList#
NIL
AND info.nextToneList.rest#
NIL
THEN
info.nextToneList ← info.nextToneList.rest
ELSE IF NOT info.toneSpec.repeatIndefinitely THEN { info.toneSpec←NIL; info.nextToneList←NIL }
ELSE info.nextToneList ← info.toneSpec.tones;
IF info.nextToneList#NIL THEN DoTones[FALSE];
};
a:
REF ANoTonesType => {
info.toneSpec←NIL;
info.nextToneList←NIL;
quenchSpec.tones.first.on ← 0;
[]←info.interface.SpecifyTones[shh: info.shh, tones: quenchSpec, queueIt: FALSE];
};
resetAction:
REF ResetActionType => {
[]←info.interface.Reset[shh: info.shh, rName: "Don't revert"];
<<NIL => revert. Remember to change 2d parameter next time Lark.mesa changes.>>
ProseFlush[info, pReset];
};
echoParameters: Lark.EchoParameters =>
[]←info.interface.EchoSupression[shh: info.shh, echo: echoParameters];
commands: Lark.CommandEvents =>
IF commands#
NIL
THEN
IF commands[0].device=touchPad
THEN {
quenchSpec.tones.first.on ← pd.waitForTelco;
[]←info.interface.SpecifyTones[shh: info.shh, tones: quenchSpec, queueIt: FALSE];
[]←info.interface.Feep[shh: info.shh, on: pd.telcoMinOn, off: pd.telcoMinOff, notify: [tones, 'F],
waveTable: ThNet.pd.feepVolume, queueIt: TRUE, events: commands];
}
ELSE info.interface.Commands[ info.shh, commands ];
keyTable: Lark.KeyTable => info.interface.SetKeyTable[shh: info.shh, table: keyTable];
spec: Lark.ConnectionSpec => {
spec.buffer ← out1;
info.interface.Connect[shh: info.shh, specs: spec ];
Connect output buffer
spec.buffer ← in1;
info.interface.Connect[shh: info.shh, specs: spec ];
};
ENDCASE;
REPEAT Failed => { FailE[info]; };
ENDLOOP;
info.larkProcess ← NIL;
};
FilterText: Rope.TranslatorType = {
-- PROC [old: CHAR] RETURNS [new: CHAR]
Remove chars that the Prose considers illegal.
SELECT old
FROM
IO.
TAB,
IO.
LF,
IO.
CR,
IO.
ESC => new ← old;
Don't allow user to send reset (ctrl R) for Prose.
Don't allow ctrl K or ctrl Z for DECtalk (terminate clause & phoneme mode)
< IO.SP => new ← IO.SP;
ENDCASE => new ← old;
};
ProseFlush:
PROC[info: LarkInfo, proseCmd: ProseCmd] = {
Called only from LarkSupervisor, whose sequentiality implies that no locks are needed.
info.textToSpeak ← "";
IF
~info.flushInProgress
THEN {
info.interface.CommandString[shh: info.shh, device: keyboard, commands: proseCmd];
info.flushInProgress ← TRUE;
};
};
EnterProseQueue:
ENTRY PROC[info: LarkInfo, pS: Thrush.ProseSpec, internalClientMarker:
INT] = {
This list is a queue - you expect the notifications to return in the order you sent them. LarkSupervisor "fails" if you don't get back the first thing in the queue.
elt: ThSmartsPrivate.LarkProseQueue ← LIST[[pS, internalClientMarker]];
IF info.proseQueue=NIL THEN info.proseQueue ← elt ELSE IF info.pTail=NIL THEN Thrush.pERROR ELSE info.pTail.rest ← elt;
info.pTail ← elt;
};
Queue is a FIFO list of REFs, with a lastAction pointer to aid in rapid enqueuing.
QueueLarkAction:
INTERNAL
PROC[info: LarkInfo, ref:
REF, sInfo: SmartsInfo] = {
elt: LIST OF REF = LIST[ref];
lst: LIST OF REF = info.lastAction;
IF info.newActions=NIL THEN info.newActions ← elt ELSE IF lst=NIL THEN Thrush.pERROR ELSE lst.rest ← elt;
info.lastAction ← elt;
IF info.larkProcess=
NIL
THEN
TRUSTED {
Process.Detach[info.larkProcess ← FORK LarkSupervisor[ info, sInfo ]]; };
NOTIFY info.stateChange;
};
LarkProblem:
PROC[remark:
ROPE, sInfo: SmartsInfo] = {
VoiceUtils.ProblemFR[remark, $Lark, sInfo.larkInfo, TU.RefAddr[sInfo]];
};
QueueCommandSequence:
INTERNAL
PROC[
info: LarkInfo, commands: ROPE,
lState: LONG POINTER TO LState, scratchEv: Lark.CommandEvents, sInfo: SmartsInfo]
RETURNS[otherAction: REF←NIL]= TRUSTED {
eventIndex: INTEGER←-1;
c: CHAR;
i: NAT;
index: INTEGER;
event: Lark.Event;
events: Lark.CommandEvents ← scratchEv;
nextState: LState ← [];
len: NAT;
IF commands=NIL THEN RETURN; -- status quo
len ← commands.Length[];
FOR i
IN [0..len)
DO
SELECT (c𡤌ommands.Fetch[i]) FROM 'J, 'j => IF ~pd.backDoorOH THEN LOOP; ENDCASE;
SELECT c
FROM
'Z => { lState^← []; otherAction ← resetAction; };
'X, 'x => {
row: NAT← Digit[commands.Fetch[i+1]];
outputs: PACKED ARRAY [0..8) OF BOOLEAN ← LOOPHOLE[nextState.xbar[row]];
outputs[Digit[commands.Fetch[i+2]]] ← (c='X);
nextState.xbar[row] ← LOOPHOLE[outputs];
i←i+2;
LOOP;
};
'E, 'e => {
nextState.echoStyle ← commands.Fetch[i←i+1]-'0;
otherAction ← echosOn[nextState.echoStyle];
};
'M, 'm => {
nextState.voiceMode ←
SELECT commands.Fetch[i←i+1]
FROM
'0 => Lark.o3i1,
'1 => Lark.o2i2,
'2 => Lark.o1i1,
ENDCASE => ERROR;
};
ENDCASE=> {
IF c
IN ['a..'z]
THEN { event ← Lark.disabled; c𡤌-('a-'A); }
ELSE event ← Lark.enabled;
IF lStateForLetter[c]#none THEN nextState.lSw[lStateForLetter[c]] ← event;
};
ENDLOOP;
IF nextState=lState^ THEN RETURN;
IF nextState.echoStyle#lState.echoStyle
AND otherAction=
NIL
THEN
otherAction ← echosOff[lState.echoStyle];
FOR iteration:
NAT
IN [0..1]
DO
-- 0: compute size; 1: fill in result sequence.
index←-1;
IF nextState.voiceMode#lState.voiceMode
THEN
events[index←index+1] ← [voiceMode, nextState.voiceMode];
FOR i: LSwitches
DECREASING IN LSwitches
DO
IF nextState.lSw[i]#lState.lSw[i]
THEN
events[index←index+1] ← [lDevs[i], nextState.lSw[i]]; ENDLOOP;
FOR i:
NAT
IN [0..8)
DO
IF nextState.xbar[i]#lState.xbar[i]
THEN {
outputs: PACKED ARRAY[0..8) OF BOOLEAN = LOOPHOLE[lState.xbar[i]];
nxtOutputs: PACKED ARRAY[0..8) OF BOOLEAN = LOOPHOLE[nextState.xbar[i]];
FOR j:
NAT
IN [0..8)
DO
IF outputs[j]#nxtOutputs[j]
THEN
events[index←index+1] ← [
Lark.Device[LOOPHOLE[IF nxtOutputs[j] THEN 23 ELSE 22]],
LOOPHOLE[i*16+j] ];
ENDLOOP;
}; ENDLOOP;
IF index=-1 THEN { events←NIL; EXIT; };
IF iteration=0 THEN events ← NEW[Lark.CommandEventSequence[index+1]]; ENDLOOP;
QueueLarkAction[info, events, sInfo];
lState^ ← nextState;
lState.lSw[xBarAll] ← Lark.disabled;
};
Digit: PROC[c: CHAR] RETURNS [digit: NAT] = INLINE { RETURN[c-'0]; };
RopeToDTMF:
PROC [r: Thrush.
ROPE]
RETURNS [ce: Lark.CommandEvents] = {
len: INT ← MIN[Lark.Passel.LAST, r.Length[]];
ce ← NEW[Lark.CommandEventSequence[len]];
FOR j:
INT
IN [0..ce.length)
DO
c: CHAR = r.Fetch[j];
ce.e[j] ← [touchPad,
SELECT c
FROM
IN ['0..'9] => LOOPHOLE[128 + c - '0],
IN ['a..'d] => LOOPHOLE[138 + c - 'a],
IN ['\001..'\037] => LOOPHOLE[LOOPHOLE[c,INTEGER]*10], -- 100 ms. pauses, 12-14 illegal!
'* => Lark.bStar,
'# => Lark.bThorp,
ENDCASE => Lark.bStar];
ENDLOOP;
};
SetTones:
INTERNAL PROC[] = {
IF ~pd.tonesInvalid THEN RETURN;
pd.tonesInvalid ← FALSE;
dialTone ←
NEW[LarkPlay.ToneSpecRec ← [repeatIndefinitely:
TRUE,
volume: ThNet.pd.tonesVolume, tones:
LIST[LIST[
[f1: 350, f2: 440, on: 5000, off: 0],
[f1: 350, f2: 440, on: 5000, off: 0]]]]];
busyTone ←
NEW[LarkPlay.ToneSpecRec ← [repeatIndefinitely:
TRUE,
volume: ThNet.pd.tonesVolume, tones:
LIST[LIST[
[f1: 480, f2: 620, on: 500, off: 500, repetitions: 5],
[f1: 480, f2: 620, on: 500, off: 500, repetitions: 5]]]]];
errorTone ←
NEW[LarkPlay.ToneSpecRec ← [repeatIndefinitely:
TRUE,
volume: ThNet.pd.tonesVolume, tones:
LIST[LIST[
[f1: 480, f2: 620, on: 250, off: 250, repetitions: 10],
[f1: 480, f2: 620, on: 250, off: 250, repetitions: 10]]]]];
ringbackTone ←
NEW[LarkPlay.ToneSpecRec ← [repeatIndefinitely:
TRUE,
volume: ThNet.pd.tonesVolume,
tones:
LIST[LIST[
[f1: 440, f2: 480, on: 2000, off: 4000],
[f1: 440, f2: 480, on: 2000, off: 4000]]]]];
};
Deb:
PROC[info: LarkInfo, c:
CHAR, p1, p2, p3, p4:
IO.Value←[null[]]] = {
s: IO.STREAM;
IF ~ThNet.pd.debug THEN RETURN;
s←IO.ROS[];
s.PutF["<%g", char[c]];
SELECT c
FROM
'M, 'p => s.PutF["-- %g", p1];
'P => s.PutF["-- %g>, <%g>, <%g", p1, p2, p3];
'C => {
s.PutF[" -- [%b, %b]", p3, p4];
s.PutF[" %b(%d), %b(%d)", p1, p1, p2, p2];
};
ENDCASE;
s.PutRope[">\r"];
VoiceUtils.Report[s.RopeFromROS[], $LarkDetailed, info];
};
QuickState:
ARRAY LarkState
OF
IO.Value = [
rope["none"], rope["idle"], rope["talking"], rope["trunkSignalling"],
rope["trunkTalking"], rope["trunkForwarding"], rope["trunkFlashing"], rope["failed"], rope["recovering"], rope["ringing"], rope["silence"],
rope["dialTone"], rope["ringBack"], rope["busyTone"], rope["errorTone"]];
Hardware Switching Tables
toneStdCommand: ROPE = "SX01X14X06";
toneSpkrCommand: ROPE = "LSX03X14X06";
toneMonitorCommand: ROPE = "SX01X03X14X06";
silentSignalling: ROPE ← "HIX02X14";
noisySignalling: ROPE ← "HISTX02X10X21X26X14"; -- same as trunk talking (feedback problems?)
noisierSignalling: ROPE ← "HITLX02X30X23X26X24"; -- same as spkr trunk talking (feedback problems?)
trunkSignalling: ROPE ← silentSignalling;
Interpretation of the command string characters:
En-- echo mode; n IN [0..3); selects echoStyleStd (default), ...FD, ...BD, or ...Fwd
F -- T/R lead reversion
G -- A/A1 hookswitch control reversion
H -- Assert Telewall hookswitch
I -- Assert A/A1 to Telewall
J -- Assert Telewall hookswitch, maybe (depends on boolean variable)
L -- Lights led
R -- overrides volume control for ringing through speaker
S -- enables telset sidetone
T -- spMode; configures codecs for electronic trunk action
Xij -- connects crossbar input i to output j
Mn -- voiceMode; n IN [0..2); selects program O3I1 (default), O2I2, or O1I1
Z -- Resets hardware and crossbar
Crossbar Connections:
Port Input Output
0 dec1 co1
1 Xmtr Rcvr
2 from Telewall to Telewall
3 mike speaker
4 silence DTMF receiver
5 dec2 co2
6 line 1 out line 1 in
7 line 2 out line 2 in
larkCommands: ARRAY TerminalType OF ARRAY LarkState OF ROPE ← [
Telset
[
NIL,
-- none
"Z", -- idle
"SX01X06X10X14", -- talking
trunkSignalling, -- trunkSignalling
"HISTX02X10X21X26X14", -- trunkTalking, codec-assisted electronic mode
"E3HIX02X20X24", -- trunkForwarding, trunk to remote Lark connection. (need gain setting for echo?)
"Z", -- trunkFlashing, on-hook for a second.
"STX02X10X21X26X14", -- trunkFlashing, on-hook but otherwise unchanged.
"Z", -- failed
"Z", -- recovering
"RX03X06", -- ringing
"SX14", -- silence
toneStdCommand, toneStdCommand, toneStdCommand, toneStdCommand -- tones
],
Speakerphone
[
NIL,
-- none
"Z", -- idle
"E1LX03X06X30X14", -- talking
"HIX02X14X06", -- trunkSignalling
"E2M1THILX30X02X25X26X24X53", -- trunkTalking, gain-controlled digital mode
"E3HIX02X20X24", -- trunkForwarding; device stuff for this mode doesn't have much meaning.
"Z", -- trunkFlashing, on-hook for a second.
"TLX02X30X23X26X24", -- trunkFlashing
"Z", -- failed
"Z", -- recovering
"RX03X06", -- ringing
"LX14", -- silence
toneSpkrCommand, toneSpkrCommand, toneSpkrCommand, toneSpkrCommand -- tones
],
Monitoring Telset
[
NIL,
-- none
"Z", -- idle
"SX01X03X06X10X14", -- talking
"HIX02X14X06", -- trunkSignalling
"HISTLX02X10X21X23X14X26", -- trunkTalking, codec-assisted electronic mode
"E3HIX02X20X24", -- trunkForwarding, trunk to remote Lark connection. (meaning?)
"Z", -- trunkFlashing, on-hook for a second.
"STLX10X21X23X14X26", -- trunkFlashing
"Z", -- failed
"Z", -- recovering
"RX03X06", -- ringing
"SX14", -- silence
toneMonitorCommand, toneMonitorCommand, toneMonitorCommand, toneMonitorCommand -- tones
],
Radio Input, Telset/radio monitoring
[
NIL,
-- none
"Z", -- idle
"SX01X06X60X14", -- talking
"HIX02X14X06", -- trunkSignalling
"HITX02X60X21X26X64", -- trunkTalking
"E3HIX02X20X24", -- trunkForwarding, trunk to remote Lark connection. (meaning?)
"Z", -- trunkFlashing
"STLX10X21X23X14X26", -- trunkFlashing
"Z", -- failed
"Z", -- recovering
"RX03X06", -- ringing
"SX14", -- silence
toneStdCommand, toneStdCommand, toneStdCommand, toneStdCommand -- tones
]
];
echoStyleFD:
REF ←
NEW[Lark.EchoParameterRecord ←[
Front Door call using Speakerphone
buffer: out1,
buffer2Controlled: FALSE,
buffer1Controlled: TRUE,
decayTime: 5,
gain: [ 1024, 2048, 2048, 2048, 32767 ]
]];
echoStyleFwd: REF ← echoStyleFD;
echoStyleBD:
REF ←
NEW[Lark.EchoParameterRecord ←[
Back Door call using Speakerphone
buffer: in2,
buffer2Controlled: FALSE,
buffer1Controlled: TRUE,
decayTime: 10,
gain: [ 2048, 4096, 8192, 16384, 32767 ]
]];
echoStyleNoFD:
REF ←
NEW[Lark.EchoParameterRecord ←[
Standard FD or BD handset mode, no forwarding
buffer: out1, -- not interesting
buffer2Controlled: FALSE,
buffer1Controlled: FALSE,
decayTime: 5,
gain: [ 32767, 32767, 32767, 32767, 32767 ]
]];
echoStyleNoFwd: REF ← echoStyleNoFD;
echoStyleNoBD:
REF ←
NEW[Lark.EchoParameterRecord ←[
Standard FD or BD handset mode, no forwarding
buffer: in2, -- not interesting
buffer2Controlled: FALSE,
buffer1Controlled: FALSE,
decayTime: 5,
gain: [ 32767, 32767, 32767, 32767, 32767 ]
]];
echosOn: ARRAY [0..3] OF REF←[ NIL, echoStyleFD, echoStyleBD, echoStyleFwd ];
echosOff: ARRAY [0..3] OF REF←[ NIL, echoStyleNoFD, echoStyleNoBD, echoStyleNoFwd ];
State tables
LSwitches: TYPE = ThSmartsPrivate.LSwitches;
LState: TYPE = ThSmartsPrivate.LState;
lDevs:
ARRAY LSwitches
OF Lark.Device = [
crossBar, offHookRelay, aRelay, sideTone, ringEnable, revertRelay, revertHookswitch, led, spMode, crossBar--random...not used-- ];
lStateForLetter:
ARRAY
CHAR['A..'Z]
OF LSwitches = [
none, none, none, none, none, -- A to E
revert, revertHook, hook, aSwitch, hook, none, led, -- F to L
none, none, none, none, none, -- M to Q
ringO, sideTone, spMode, none, none, none, none, none, -- R to Y
none -- Z --
];
LSTrans:
TYPE = {
nop, -- nothing to do
set, -- enter specified state (usu. step to recovery) without taking any other actions.
zap, zpu, zpn, -- reset Lark hardware (u means unconnect first, n means silence tones first)
trk, tkn, -- Set for electronic phone connection (n means silence tones first)
frd, frn, -- Trunk-to-network forwarding versions of trk, tkn (frn probably doesn't exist; wrong end <<Sep. FD/BD>>)
tlk, -- like supervision, but must also adjust switching.
sup, spn, -- supervision, OK to change connection, key table. (n means silence tones first)
ksp, -- key supervision, OK to change key table.
sgl, sgn, -- Do trunk signalling (n means silence tones first)
fls, -- Flash the phone line
rng, rgu, -- Set for ringing (u means unconnect first, r means repeating tone)
dia, diu, -- Set for dial tone (tones should be more generic and user-programmable than this!)
rbk, rbu, -- Set for ring back
bzy, bzu, -- Set for busy tone
err, eru, -- Set for error tone
sil, -- silence tones, ksp obtains
fai, -- enter failed state, by Smarts-level request. Don't complain, just do it. Make sure process goes away.
rec, -- move from failed state to recovering state, but complain to caller that Lark has failed, via signal.
X -- invalid transition; complain, then remain in present state (go idle?)
};
lsTrans:
ARRAY LarkState
OF
ARRAY LarkState
OF LSTrans = [[
non idl tlk sig trk fwd fls fai rec rng shh dia rbk bzy err ←new old \/
nop, zap, X, X, X, X, X, X, X, X, X, X, X, X, err ],[-- non (none)
X, nop, spn, sgl, trk, frd, X, fai, X, rng, nop, dia, rbk, bzy, err ],[-- idl (idle)
X, zpu, sup, X, X, X, X, fai, X, rgu, nop, diu, rbu, bzu, eru ],[-- tlk (talking)
X, zpn, X, ksp, trk, frd, X, fai, X, X, nop, X, X, X, X ],[-- sig (trkSignalling)
X, zap, X, sgl, ksp, X, fls, fai, X, X, nop, X, X, X, X ],[-- trk (trkTalking)
X, zpu, X, sgl, X, sup, X, fai, X, X, nop, diu, rbu, bzu, eru ],[-- fwd (trkForwarding)
X, zap, X, X, trk, X, sup, fai, X, X, nop, X, X, X, X ],[-- fls (trkFlash)
set, rec, rec, rec, rec, rec, rec, set, set, rec, rec, rec, rec, rec, rec ],[-- fai (failed)
set, nop, nop, nop, nop, nop, nop, nop, nop, nop, nop, nop, nop, nop, nop ],[-- rec (recovering)
X, zpn, spn, sgn, tkn, frn, X, fai, X, ksp, sil, dia, rbk, bzy, err ],[-- rng (ringing)
X, zap, tlk, sgl, trk, frd, X, fai, X, rng, ksp, dia, rbk, bzy, err ],[-- shh (silence)
X, zpn, spn, sgn, tkn, frn, X, fai, X, rng, sil, ksp, rbk, bzy, err ],[-- dia (dialTone)
X, zpn, spn, sgn, tkn, frn, X, fai, X, rng, sil, dia, ksp, bzy, err ],[-- rbk (ringBack)
X, zpn, spn, sgn, tkn, frn, X, fai, X, rng, sil, dia, rbk, ksp, err ],[-- bzy (busyTone)
X, zpn, spn, sgn, tkn, frn, X, fai, X, rng, sil, dia, rbk, bzy, ksp ] -- err (errorTone)
];
Subtransition codes and tables
TDisconn: TYPE = { X, disconnect };
tDisconn: ARRAY LSTrans OF TDisconn = [ -- zpu, rgu, diu, rbu, bzu, eru
X, X, X, disconnect, X, X, X, X, X, X, X, X, X, X, X, X, X, disconnect, X, disconnect, X, disconnect, X, disconnect, X, disconnect, X, X, X, X ];
TDoTones: TYPE = { X, doTones, stopTones };
tDoTones: ARRAY LSTrans OF TDoTones = [ -- rng, rgu, dia, diu, rbk, rbu, bzy, bzu, err, eru; zpn, tkn, spn, sgn, sil
X, X, X, X, stopTones, X, stopTones, X, X, X, X, stopTones, X, X, stopTones, X, doTones, doTones, doTones, doTones, doTones, doTones, doTones, doTones, doTones, doTones, stopTones, X, X, X ];
THookState: TYPE = { X, reset, spkrTrans };
tHookState: ARRAY LSTrans OF THookState = [ -- zap, zpu, zpn; trk, tkn, tlk, spn, fls, dia, diu, rbk, rbu, bzy, bzu, err, eru, sil
X, X, reset, reset, reset, spkrTrans, spkrTrans, X, X, spkrTrans, X, spkrTrans, X, X, X, spkrTrans, X, X, spkrTrans, spkrTrans, spkrTrans, spkrTrans, spkrTrans, spkrTrans, spkrTrans, spkrTrans, spkrTrans, X, X, X ];
TSwitch: TYPE = { X, switch, switchIfDiff };
tSwitch: ARRAY LSTrans OF TSwitch = [
-- zap, zpu, zpn, trk, tkn, frd, frn, tlk, spn, sgl, sgn, fls; rng, rgu, dia, diu, rbk, rbu, bzy, bzu, err, eru
X, X, switch, switch, switch, switch, switch, switch, switch, switch, X, switch, X, switch, switch, switch, switchIfDiff, switchIfDiff, switchIfDiff, switchIfDiff, switchIfDiff, switchIfDiff, switchIfDiff, switchIfDiff, switchIfDiff, switchIfDiff, switch, X, X, X ];
TSetKey: TYPE = { X, setKey };
tSetKey: ARRAY LSTrans OF TSetKey = [
-- trk, tkn, frd, frn, tlk, sup, spn, ksp, sgl, sgn, fls, rng, rgu, dia, diu, rbk, rbu, bzy, bzu, err, eru, sil
X, X, X, X, X, setKey, setKey, setKey, setKey, setKey, setKey, setKey, setKey, setKey, setKey, setKey, setKey, setKey, setKey, setKey, setKey, setKey, setKey, setKey, setKey, setKey, setKey, X, X, X ];
TSetFwd: TYPE = { X, setFwd };
tSetFwd: ARRAY LSTrans OF TSetFwd = [
-- trk, tkn
X, X, X, X, X, setFwd, setFwd, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X, X ];