#include <cctype>
#include <cstdio>
#include <cstring>
#include <algorithm>
#include <deque>
#include <vector>
#include "RtMidi.h"
#include "qmpmidioutrtmidi.hpp"
void split(std::string s,char c,std::deque<std::string>& v)
{
v.clear();
for(size_t anch=0;;)
{
std::string sec;
if(s.find(c,anch)==std::string::npos)
sec=s.substr(anch);
else sec=s.substr(anch,s.find(c,anch)-anch);
if(!sec.empty())v.push_back(sec);
if(s.find(c,anch)==std::string::npos)break;
anch=s.find(c,anch)+1;
}
}
qmpDeviceInitializer* qmpDeviceInitializer::parse(const char* path)
{
qmpDeviceInitializer *ret=new qmpDeviceInitializer();
ret->initseq.eventList.clear();
memset(ret->sinitv,0xFF,sizeof(ret->sinitv));
bool st_inmapping=false;
char buf[1024];
int ln=0;
int cmsb=-1,clsb=-1;
#define err(e) {delete ret;return fprintf(stderr,"line %d: %s",ln,e),nullptr;}
FILE* f=fopen(path,"r");
if(!f)err("file not found")
//writing such a bad parser makes me want my money for
//the credits from "compiler principles" back...
auto h2d=[](char c)->char{return 'F'>=c&&c>='A'?c-'A'+10:'9'>=c&&c>='0'?c-'0':-1;};
auto hh2d=[](const char *c)->int
{
if(!c||!*c||strlen(c)>2)return -1;
int x=-1,r;
r=sscanf(c,"%x",&x);
(x<0||x>0xff)&&(x=-1);
return r==1?x:-1;
};
while(fgets(buf,1024,f))
{
++ln;
if(buf[0]=='#')continue;
std::string b(buf);
while(b.length()&&b.back()=='\n')b.pop_back();
std::deque<std::string> tok;
split(b,' ',tok);
if(!tok.size())continue;
if(tok.front()=="MAP")
{
if(st_inmapping)
err("invalid command")
st_inmapping=true;
}
else if(tok.front()=="ENDMAP")
{
if(!st_inmapping)
err("invalid command")
st_inmapping=false;
}
else if(tok.front()=="X")
{
if(st_inmapping)
err("invalid command")
tok.pop_front();
std::string sysx;
for(auto&i:tok)sysx+=i;
SEvent ev;
ev.type=0xF0;
ev.str="";
for(auto i=sysx.begin();i!=sysx.end();++i)
{
char hn=h2d((char)toupper(*i));
if(hn<0)err("invalid sysex")
if(++i==sysx.end())err("invalid sysex")
char ln=h2d((char)toupper(*i));
ev.str.push_back((char)(hn<<4|ln));
}
ret->initseq.appendEvent(ev);
}
else if(tok.front()=="C")
{
if(st_inmapping)
err("invalid command")
if(tok.size()!=4)err("invalid control")
int ch=hh2d(tok[1].c_str());
int cc=hh2d(tok[2].c_str());
int cv=hh2d(tok[3].c_str());
if(!~cc||!~cv)err("invalid control parameters")
if(ch==0xff)
{
for(int i=0;i<16;++i)
{
SEvent e;
e.type=(uint8_t)(0xB0|i);
e.p1=(uint8_t)cc;
e.p2=(uint8_t)cv;
ret->initseq.appendEvent(e);
}
}
else if(ch>=0&&ch<0x10)
{
SEvent e;
e.type=(uint8_t)(0xB0|ch);
e.p1=(uint8_t)cc;
e.p2=(uint8_t)cv;
ret->initseq.appendEvent(e);
}
else err("invalid channel")
}
else if(tok.front()=="IV")
{
if(st_inmapping)
err("invalid command")
int ci=0;
tok.pop_front();
for(auto&tk:tok)
{
int v=0,rep=1;
if(tk.find(',')!=std::string::npos)
sscanf(tk.c_str(),"%x,%d",&v,&rep);
else sscanf(tk.c_str(),"%x",&v);
if(v>0xff||v<0)err("invalid init vector value")
for(int i=0;i<rep;++i)
{
if(ci>=130)err("invalid init vector")
ret->initv[ci++]=(uint8_t)v;
}
}
}
else if(tok.front()=="SIV")
{
if(st_inmapping)
err("invalid command")
int ch=hh2d(tok[1].c_str());
int cc=hh2d(tok[2].c_str());
int cv=hh2d(tok[3].c_str());
ret->sinitv[ch][cc]=uint8_t(cv);
}
else if(st_inmapping)
{
if(b.front()=='['&&b.back()==']')
{
b=b.substr(1,b.length()-2);
split(b,':',tok);
if(tok.size()<3)err("invalid bank")
cmsb=strtol(tok[0].c_str(),nullptr,10);
clsb=strtol(tok[1].c_str(),nullptr,10);
ret->banks[cmsb<<7|clsb]=BankStore{{},tok[2]};
}
else if(b.find('=')!=std::string::npos)
{
if(!~cmsb||!~clsb)err("inst outside a bank")
split(b,'=',tok);
if(tok.size()<2)err("invalid inst")
int p=strtol(tok[0].c_str(),nullptr,10);
ret->banks[cmsb<<7|clsb].presets[p]=tok[1];
}
else err("invalid mapping line")
}
}
#undef err
fclose(f);
return ret;
}
qmpMidiOutRtMidi::qmpMidiOutRtMidi(unsigned _portid)
{
portid=_portid;
outport=nullptr;
devinit=nullptr;
}
qmpMidiOutRtMidi::~qmpMidiOutRtMidi()
{
if(!outport)return;
if(devinit){delete devinit;devinit=nullptr;}
if(outport->isPortOpen())outport->closePort();
delete outport;outport=nullptr;
}
void qmpMidiOutRtMidi::deviceInit()
{
try
{
outport=new RtMidiOut();
}
catch(RtMidiError &e)
{
fprintf(stderr,"Cannot create RtMidi Output instance: %s\n",e.what());
outport=nullptr;
}
}
void qmpMidiOutRtMidi::deviceDeinit()
{
if(!outport||!outport->isPortOpen())return;
outport->closePort();
}
void qmpMidiOutRtMidi::basicMessage(uint8_t type,uint8_t p1,uint8_t p2)
{
if(!outport||!outport->isPortOpen())return;
std::vector<unsigned char>msg;
msg.push_back(type);
msg.push_back(p1);
if(((type&0xF0)!=0xC0)&&((type&0xF0)!=0xD0))
msg.push_back(p2);
try
{
outport->sendMessage(&msg);
}
catch(RtMidiError &e)
{
fprintf(stderr,"Failed to send midi message: %s\n",e.what());
}
}
void qmpMidiOutRtMidi::extendedMessage(uint32_t length,const char *data)
{
if(!outport||!outport->isPortOpen())return;
std::vector<unsigned char>msg(data,data+length);
try
{
outport->sendMessage(&msg);
}
catch(RtMidiError &e)
{
fprintf(stderr,"Failed to send midi message: %s\n",e.what());
}
}
void qmpMidiOutRtMidi::rpnMessage(uint8_t ch,uint16_t type,uint16_t val)
{
basicMessage(0xB0|ch,0x64,type&0x7F);
basicMessage(0xB0|ch,0x65,type>>7);
basicMessage(0xB0|ch,0x06,val>>7);
basicMessage(0xB0|ch,0x26,val&0x7F);
}
void qmpMidiOutRtMidi::nrpnMessage(uint8_t ch,uint16_t type,uint16_t val)
{
basicMessage(0xB0|ch,0x62,type&0x7F);
basicMessage(0xB0|ch,0x63,type>>7);
basicMessage(0xB0|ch,0x06,val>>7);
basicMessage(0xB0|ch,0x26,val&0x7F);
}
void qmpMidiOutRtMidi::panic(uint8_t ch)
{
//maybe all notes off is more close to panic?
basicMessage(0xE0|ch,0x0,0x40);
basicMessage(0xB0|ch,123,0);
}
void qmpMidiOutRtMidi::reset(uint8_t ch)
{
if(ch==0xFF)
{
if(devinit)
for(auto&msg:devinit->initseq.eventList)
{
if((msg.type&0xF0)==0xF0)
extendedMessage(msg.str.length(),msg.str.data());
else
basicMessage(msg.type,msg.p1,msg.p2);
}
}
else
{
basicMessage(0xB0|ch,121,0);
basicMessage(0xB0|ch,123,0);
}
}
void qmpMidiOutRtMidi::onMapped(uint8_t,int)
{
if(!outport)deviceInit();
if(outport->isPortOpen())return;
try
{
outport->openPort(portid);
}
catch(RtMidiError &e)
{
fprintf(stderr,"Device initialization failure: %s\n",e.what());
}
}
void qmpMidiOutRtMidi::onUnmapped(uint8_t ch,int refcnt)
{
panic(ch);
if(!refcnt&&outport)outport->closePort();
}
std::vector<std::pair<uint16_t,std::string>> qmpMidiOutRtMidi::getBankList()
{
if(!devinit)return{};
std::vector<std::pair<uint16_t,std::string>> ret;
for(auto&i:devinit->banks)
ret.push_back({i.first,i.second.bankname});
std::sort(ret.begin(),ret.end(),[](std::pair<uint16_t,std::string>&a,std::pair<uint16_t,std::string>&b){return a.first<b.first;});
return ret;
}
std::vector<std::pair<uint8_t,std::string>> qmpMidiOutRtMidi::getPresets(uint16_t bank)
{
if(!devinit)return{};
if(devinit->banks.find(bank)==devinit->banks.end())return{};
std::vector<std::pair<uint8_t,std::string>> ret;
for(auto&i:devinit->banks[bank].presets)
ret.push_back({i.first,i.second});
std::sort(ret.begin(),ret.end(),[](std::pair<uint8_t,std::string>&a,std::pair<uint8_t,std::string>&b){return a.first<b.first;});
return ret;
}
std::string qmpMidiOutRtMidi::getPresetName(uint16_t bank,uint8_t preset)
{
if(!devinit)return"";
if(devinit->banks.find(bank)!=devinit->banks.end())
if(devinit->banks[bank].presets.find(preset)!=devinit->banks[bank].presets.end())
return devinit->banks[bank].presets[preset];
return"";
}
bool qmpMidiOutRtMidi::getChannelPreset(int ch,uint16_t *bank,uint8_t *preset,std::string &presetname)
{
//This ain't a state-tracking device
return false;
}
uint8_t qmpMidiOutRtMidi::getInitialCCValue(uint8_t cc,uint8_t ch)
{
if(!devinit||cc>=130)return 0;//Nope!
if(ch<16&&devinit->sinitv[ch][cc]!=0xFF)
return devinit->sinitv[ch][cc];
return devinit->initv[cc];
}
void qmpMidiOutRtMidi::setInitializerFile(const char* path)
{
if(devinit)delete devinit;
devinit=qmpDeviceInitializer::parse(path);
}
std::vector<std::pair<qmpMidiOutRtMidi*,std::string>> qmpRtMidiManager::devices;
std::vector<std::pair<qmpMidiOutRtMidi*,std::string>> qmpRtMidiManager::getDevices()
{
if(devices.size())return devices;
RtMidiOut *dummy;
try{dummy=new RtMidiOut();}
catch(RtMidiError &e)
{
fprintf(stderr,"Failed to initialize the dummy device: %s\n",e.what());
return{};
}
for(unsigned i=0;i<dummy->getPortCount();++i)
devices.push_back(std::make_pair(new qmpMidiOutRtMidi(i),dummy->getPortName(i)));
delete dummy;
return devices;
}