// local_macros.cpp
//
// Local RML Macros for rdvairplayd(8)
//
// (C) Copyright 2002-2004,2016-2018 Fred Gleason <fredg@paravelsystems.com>
//
// This program is free software; you can redistribute it and/or modify
// it under the terms of the GNU General Public License version 2 as
// published by the Free Software Foundation.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public
// License along with this program; if not, write to the Free Software
// Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
//
#include <stdio.h>
#include <rdapplication.h>
#include <rddb.h>
#include <rdescape_string.h>
#include <rdmacro.h>
#include "rdvairplayd.h"
void MainObject::rmlReceivedData(RDMacro *rml)
{
QString logname;
int fade;
RDLogLine *logline=NULL;
int index=-1;
bool all_logs=false;
int start;
int end;
int next_line;
if(rml->role()!=RDMacro::Cmd) {
return;
}
switch(rml->command()) {
case RDMacro::LL: // Load Log
if((rml->argQuantity()<1)||(rml->argQuantity()>3)) {
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
if((index=LogMachineIndex(rml->arg(0).toInt()))<0) {
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
if(rml->argQuantity()==1) { // Clear Log
air_logs[index]->clear();
rda->log(RDConfig::LogInfo,QString().sprintf("unloaded log machine %d",
rml->arg(0).toInt()));
}
else { // Load Log
logname=rml->arg(1);
if(!RDLog::exists(logname)) {
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
air_logs[index]->setLogName(logname);
air_logs[index]->load();
rda->log(RDConfig::LogInfo,"loaded log \""+logname+"\" into log machine"+
QString().sprintf(" %d",rml->arg(0).toInt()));
}
if(rml->argQuantity()==3) { // Start Log
if(rml->arg(2).toInt()<air_logs[index]->size()) {
if(rml->arg(2).toInt()>=0) { // Unconditional start
if(air_logs[index]->play(rml->arg(2).toInt(),RDLogLine::StartMacro)) {
rda->log(RDConfig::LogInfo,QString().
sprintf("started log machine %d at line %d",
rml->arg(0).toInt(),rml->arg(2).toInt()));
}
else {
rda->log(RDConfig::LogWarning,QString().
sprintf("1 log machine %d failed to start",
rml->arg(0).toInt()));
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
}
if(rml->arg(2).toInt()==-2) { // Start if trans type allows
// Find first non-running event
bool found=false;
for(int i=0;i<air_logs[index]->size();i++) {
if((logline=air_logs[index]->logLine(i))!=NULL) {
if(logline->status()==RDLogLine::Scheduled) {
found=true;
i=air_logs[index]->size();
}
}
}
if(found) {
switch(logline->transType()) {
case RDLogLine::Play:
case RDLogLine::Segue:
if(air_logs[index]->play(0,RDLogLine::StartMacro)) {
rda->log(RDConfig::LogInfo,QString().
sprintf("started log machine %d at line 0",
rml->arg(0).toInt()));
}
else {
rda->log(RDConfig::LogWarning,QString().
sprintf("2 log machine %d failed to start",
rml->arg(0).toInt()));
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
break;
case RDLogLine::Stop:
case RDLogLine::NoTrans:
break;
}
}
}
}
}
if(rml->echoRequested()) {
rml->acknowledge(true);
rda->ripc()->sendRml(rml);
}
break;
case RDMacro::AL: // Append Log
if(rml->argQuantity()!=2) {
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
if((index=LogMachineIndex(rml->arg(0).toInt()))<0) {
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
logname=rml->arg(1);
if(!RDLog::exists(logname)) {
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
air_logs[index]->append(logname);
rda->log(RDConfig::LogInfo,QString("appended log \"")+logname+
QString().sprintf("\" into log machine %d",rml->arg(0).toInt()));
break;
case RDMacro::MN: // Make Next
if(rml->argQuantity()!=2) {
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
if((index=LogMachineIndex(rml->arg(0).toInt()))<0) {
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
if((rml->arg(1).toInt()<0)||
(rml->arg(1).toInt()>=air_logs[index]->size())) {
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
air_logs[index]->makeNext(rml->arg(1).toInt());
rda->log(RDConfig::LogInfo,
QString().sprintf("made line %d next in log machine %d",
rml->arg(1).toInt(),rml->arg(0).toInt()));
if(rml->echoRequested()) {
rml->acknowledge(true);
rda->ripc()->sendRml(rml);
}
break;
case RDMacro::PL: // Start
if(rml->argQuantity()!=2) {
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
if((index=LogMachineIndex(rml->arg(0).toInt()))<0) {
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
if((rml->arg(1).toInt()<0)||
(rml->arg(1).toInt()>=air_logs[index]->size())) {
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
if(!air_logs[index]->running()) {
if(air_logs[index]->play(rml->arg(1).toInt(),RDLogLine::StartMacro)) {
rda->log(RDConfig::LogInfo,QString().
sprintf("started log machine %d at line %d",
rml->arg(0).toInt(),rml->arg(2).toInt()));
}
else {
rda->log(RDConfig::LogWarning,QString().
sprintf("3 log machine %d failed to start",
rml->arg(0).toInt()));
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
}
rda->log(RDConfig::LogInfo,QString().
sprintf("started log machine %d at line %d",
rml->arg(0).toInt(),rml->arg(1).toInt()));
if(rml->echoRequested()) {
rml->acknowledge(true);
rda->ripc()->sendRml(rml);
}
break;
case RDMacro::PM: // Set Mode
if((rml->argQuantity()!=1)&&(rml->argQuantity()!=2)) {
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
if(rml->argQuantity()==2) {
if((index=LogMachineIndex(rml->arg(1).toInt()))<0) {
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
}
start=0;
end=RD_RDVAIRPLAY_LOG_QUAN;
if(index>=0) {
start=index;
end=index+1;
}
switch((RDAirPlayConf::OpMode)rml->arg(0).toInt()) {
case RDAirPlayConf::LiveAssist:
for(int i=start;i<end;i++) {
SetLiveAssistMode(i);
}
break;
case RDAirPlayConf::Manual:
for(int i=start;i<end;i++) {
SetManualMode(i);
}
break;
case RDAirPlayConf::Auto:
for(int i=start;i<end;i++) {
SetAutoMode(i);
}
break;
default:
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
return;
}
}
if(rml->echoRequested()) {
rml->acknowledge(true);
rda->ripc()->sendRml(rml);
}
break;
case RDMacro::PN: // Start Next
if((rml->argQuantity()<1)||(rml->argQuantity()>3)) {
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
if((index=LogMachineIndex(rml->arg(0).toInt()))<0) {
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
if(rml->argQuantity()>=2) {
if((rml->arg(1).toInt()<1)||(rml->arg(1).toInt()>2)) {
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
if(rml->argQuantity()==3) {
if((rml->arg(2).toInt()<0)||(rml->arg(2).toInt()>1)) {
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
}
}
next_line=air_logs[index]->nextLine();
if(air_logs[index]->nextLine()>=0) {
if(rml->argQuantity()==1) {
if(!air_logs[index]->
play(air_logs[index]->nextLine(),RDLogLine::StartMacro)) {
rda->log(RDConfig::LogWarning,QString().
sprintf("4 log machine %d failed to start",
rml->arg(0).toInt()));
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
}
else {
if(rml->argQuantity()==2) {
if(!air_logs[index]->play(air_logs[index]->nextLine(),
RDLogLine::StartMacro,
rml->arg(1).toInt()-1)) {
rda->log(RDConfig::LogWarning,QString().
sprintf("5 log machine %d failed to start",
rml->arg(0).toInt()));
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
}
else {
if(!air_logs[index]->
play(air_logs[index]->nextLine(),RDLogLine::StartMacro,
rml->arg(1).toInt()-1,rml->arg(2).toInt())) {
rda->log(RDConfig::LogWarning,QString().
sprintf("6 log machine %d failed to start",
rml->arg(0).toInt()));
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
}
}
rda->log(RDConfig::LogInfo,QString().
sprintf("started log machine %d at line %d",
rml->arg(0).toInt(),next_line));
}
if(rml->echoRequested()) {
rml->acknowledge(true);
rda->ripc()->sendRml(rml);
}
break;
case RDMacro::PS: // Stop
if((rml->argQuantity()<1)||(rml->argQuantity()>3)) {
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
index=LogMachineIndex(rml->arg(0).toInt(),&all_logs);
if((index<0)&(!all_logs)) {
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
fade=0;
if(rml->argQuantity()>1) {
fade=rml->arg(1).toInt();
}
if(all_logs) {
for(int i=0;i<RD_RDVAIRPLAY_LOG_QUAN;i++) {
air_logs[i]->stop(true,0,fade);
}
rda->log(RDConfig::LogInfo,"stopped all logs");
}
else {
if(rml->argQuantity()==3) {
air_logs[index]->stop(false,rml->arg(2).toInt(),fade);
}
else {
air_logs[index]->stop(true,0,fade);
}
rda->log(RDConfig::LogInfo,QString().sprintf("stopped log machine %d",
rml->arg(0).toInt()));
break;
}
if(rml->echoRequested()) {
rml->acknowledge(true);
rda->ripc()->sendRml(rml);
}
break;
case RDMacro::MD: // Duck Machine
if(rml->argQuantity()<3 || rml->argQuantity()>4) {
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
index=LogMachineIndex(rml->arg(0).toInt(),&all_logs);
if((index<0)&&(!all_logs)) {
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
if(all_logs) {
for(int i=0;i<RD_RDVAIRPLAY_LOG_QUAN;i++) {
air_logs[i]->duckVolume(rml->arg(1).toInt()*100,rml->arg(2).toInt());
}
rda->log(RDConfig::LogInfo,QString().
sprintf("set volumne of all log machines to %d dBFS",
rml->arg(1).toInt()));
}
else {
if(rml->argQuantity()==3) {
air_logs[index]->
duckVolume(rml->arg(1).toInt()*100,rml->arg(2).toInt());
}
else {
air_logs[index]->duckVolume(rml->arg(1).toInt()*100,
rml->arg(2).toInt(),rml->arg(3).toInt());
}
rda->log(RDConfig::LogInfo,QString().
sprintf("set volumne of log machine %d to %d dBFS",
rml->arg(0).toInt(),
rml->arg(1).toInt()));
break;
}
if(rml->echoRequested()) {
rml->acknowledge(true);
rda->ripc()->sendRml(rml);
}
break;
case RDMacro::PX: // Add Next
if(rml->argQuantity()!=2) {
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
index=LogMachineIndex(rml->arg(0).toInt());
if((index<0)||(rml->arg(1).toUInt()>999999)) {
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
next_line=air_logs[index]->nextLine();
if(air_logs[index]->nextLine()>=0) {
air_logs[index]->insert(air_logs[index]->nextLine(),
rml->arg(1).toUInt(),RDLogLine::Play);
rda->log(RDConfig::LogInfo,QString().
sprintf("inserted cart %06u at line %d on log machine %d",
rml->arg(1).toUInt(),next_line,rml->arg(0).toInt()));
}
else {
air_logs[index]->insert(air_logs[index]->size(),
rml->arg(1).toUInt(),RDLogLine::Play);
air_logs[index]->makeNext(air_logs[index]->size()-1);
rda->log(RDConfig::LogInfo,QString().
sprintf("inserted cart %06u at line %d on log machine %d",
rml->arg(1).toUInt(),air_logs[index]->size()-1,
rml->arg(0).toInt()));
}
if(rml->echoRequested()) {
rml->acknowledge(true);
rda->ripc()->sendRml(rml);
}
break;
case RDMacro::RL: // Refresh Log
if(rml->argQuantity()!=1) {
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
if((index=LogMachineIndex(rml->arg(0).toInt()))<0) {
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
if(!air_logs[index]->refresh()) {
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
else {
rda->log(RDConfig::LogInfo,QString().sprintf("refreshed log machine %d",
rml->arg(0).toInt()));
}
if(rml->echoRequested()) {
rml->acknowledge(true);
rda->ripc()->sendRml(rml);
}
break;
case RDMacro::SN: // Set default Now & Next Cart
if(rml->argQuantity()!=3) {
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
if((rml->arg(0).lower()!="now")&&
(rml->arg(0).lower()!="next")) {
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
if((index=LogMachineIndex(rml->arg(1).toInt()))<0) {
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
if(rml->arg(2).toUInt()>999999) {
if(rml->echoRequested()) {
rml->acknowledge(false);
rda->ripc()->sendRml(rml);
}
return;
}
if(rml->arg(0).lower()=="now") {
air_logs[index]->setNowCart(rml->arg(2).toUInt());
rda->log(RDConfig::LogInfo,QString().
sprintf("set default \"now\" cart to %06u on log machine %d",
rml->arg(2).toUInt(),rml->arg(1).toInt()));
}
else {
air_logs[index]->setNextCart(rml->arg(2).toUInt());
rda->log(RDConfig::LogInfo,QString().
sprintf("set default \"next\" cart to %06u on log machine %d",
rml->arg(2).toUInt(),rml->arg(1).toInt()));
}
if(rml->echoRequested()) {
rml->acknowledge(true);
rda->ripc()->sendRml(rml);
}
break;
default:
break;
}
}
int MainObject::LogMachineIndex(int log_mach,bool *all) const
{
if((log_mach<=RD_RDVAIRPLAY_LOG_BASE)||
(log_mach>RD_RDVAIRPLAY_LOG_BASE+RD_RDVAIRPLAY_LOG_QUAN)) {
return -1;
}
if(all!=NULL) {
*all=log_mach-RD_RDVAIRPLAY_LOG_BASE==0;
}
return log_mach-RD_RDVAIRPLAY_LOG_BASE-1;
}