// $Id: decnqs.hoc,v 1.38 2011/03/01 19:06:15 billl Exp $
load_file("nqs.hoc")
objref nq[10],pq[10]
//** prl2nqs(NQS[,min,max,nointerp]) -- transfer printlist to NQS
proc rename () {}
// eg proc rename () { sprint($s1,"P%d",objnum($s1)) }
obfunc prl2nqs () { local tstep localobj st,oq
st=new String2()
oq=new NQS()
if (numarg()>=1) min=$1 else min=0
if (numarg()>=2) max=$2 else max=printlist.count-1
if (numarg()>=3) interp=$3 else interp=0 // no interp when looking at spk times
if (interp) oq.resize(max-min+2)
if (interp) {
tstep=0.1 // 0.1 ms step size for interpolation
oq.s[0].s="time"
oq.v[0].indgen(0,printlist.object(0).tvec.max,tstep)
for ii=min,max {
XO=printlist.object(ii)
oq.s[ii+1-min].s = XO.var
rename(oq.s[ii+1-min].s)
oq.v[ii+1-min].resize(oq.v.size)
oq.v[ii+1-min].interpolate(oq.v[0],XO.tvec,XO.vec)
}
} else {
for ii=min,max {
XO=printlist.object(ii)
st.s=XO.name
sprint(st.t,"%s-time",XO.name)
rename(st.s) rename(st.t)
oq.resize(st.s,st.t)
oq.setcols(XO.vec,XO.tvec)
}
}
return oq
}
//** pvp2nqs(NQS) -- transfer grvec data file to NQS
obfunc pvp2nqs () { local min,max,interp,gvnum,ii,jj,n localobj oq,po,st,xo
interp=min=max=gvnum=0
if (argtype(1)==2) { po=gvnew($s1) gvnum=panobjl.count()-1 }
if (argtype(1)==0) gvnum=$1
if (numarg()>=2) min=$2
if (numarg()>=3) max=$3
if (numarg()>=4) interp=$4 // no interp when looking at spk times
if (po==nil) po=panobjl.o(gvnum)
oq=new NQS() st=new String2()
if (gvnum>0) {
if (max==0) max=po.llist.count()-1
for ii=min,max {
xo=po.llist.object(ii)
po.tmpfile.seek(xo.loc)
if (xo.num==-2) {
sprint(st.s,"%s-time",xo.name)
jj=oq.resize(st.s)-1
oq.v[jj].vread(po.tmpfile)
}
jj=oq.resize(xo.name)-1
oq.v[jj].vread(po.tmpfile)
}
} else { // from printlist
if (max==0) max=printlist.count()-1
for ii=min,max {
xo=printlist.o(ii)
jj=oq.resize(xo.name)-1
oq.v[jj].copy(xo.vec)
if (xo.pstep==0) {
sprint(st.s,"%s-time",xo.name)
jj=oq.resize(st.s)-1
oq.v[jj].copy(xo.tvec)
}
}
}
return oq
}
//** veclist2nqs(nqs[,STR1,STR2,...])
proc veclist2nqs () { local flag,i
if (numarg()==0) {printf("veclist2nqs(nqs[,STR1,STR2,...])\n") return}
$o1.resize(veclist.count)
if (numarg()==1+$o1.m) flag=1 else flag=0
for ltr(XO,veclist) {
$o1.v[i1].copy(XO)
if (flag) {i=i1+2 $o1.s[i1].s=$si} else {sprint(tstr,"v%d",i1) $o1.s[i1].s=tstr}
}
$o1.cpout()
}
// fudup(vec[,nq,#CUTS,LOGCUT,MIN]) -- use updown() to find spikes
// LOC(0) PEAK(1) WIDTH(2) BASE(3) HEIGHT(4) START(5) SLICES(6) SHARP(7) INDEX(8) FILE(9) NESTED(10)
// other options
pos_fudup=1 // set to 1 to move whole curve up above 0
maxp_fudup=0.95 // draw top sample at 95% of max
minp_fudup=0.05 // draw bottom sample at 5% of max
over_fudup=1 // turn over and try again if nothing found
allover_fudup=0 // turn over and add these locs (not debugged)
verbose_fudup=0 // give messages, can also turn on DEBUG_VECST for messages from updown()
obfunc fudup () { local a,i,ii,npts,logflag,min,x,sz localobj bq,cq,v1,v2,v3,bb,tl,v5,eq
if (verbose_fudup) printf("MAXTIME appears to be %g (dt=%g)\n",$o1.size*dt,dt)
logflag=0 npts=10 // n sample locations by default
bq=new NQS("LOC","PEAK","WIDTH","BASE","HEIGHT","START","SLICES","SHARP","INDEX","FILE","NESTED")
i=2
if (argtype(i)==1) {i+=1 if ($o2==nil) {cq=new NQS() $o2=cq} else cq=$o2} else cq=new NQS()
if (cq.m!=11) { cq.resize(0)
cq.resize("LOC","PEAK","WIDTH","BASE","HEIGHT","START","SLICES","SHARP","INDEX","FILE","NESTED")}
if (argtype(i)==0){ npts=$i i+=1
if (argtype(i)==0){ logflag=$i i+=1
if (argtype(i)==1) { v5=$oi i+=1
if (npts!=v5.size) printf("Correcting npts from %d to %d\n",npts,npts=v5.size)
if (v5.ismono(1)) v5.reverse
if (! v5.ismono(-1)) {printf("fudup: final arg (%s) must be monotonic\n",v5) return}
}
}
}
bq.listvecs(bb)
bq.pad(5000)
eq=new NQS(-2,npts) a=allocvecs(v1,v2,v3)
tl=eq.vl
eq.clear(2e4) vrsz(2e4,v1,v2,v3)
v1.copy($o1)
if (pos_fudup) {
min=v1.min
v1.sub(min) // make it uniformly positive
} else min=0
if (numarg()>4) v2.copy(v5) else {
v2.indgen(2,2+npts-1,1) // sampling at npts points, start at 2 to avoid log(1)=0
if (logflag) v2.log() // log sampling
v2.scale(-maxp_fudup*v1.max,-minp_fudup*v1.max) v2.mul(-1)
}
v1.updown(v2,tl,bb)
if (pos_fudup) { bq.v[1].add(min) bq.v[3].add(min) }
cq.append(bq)
sz=bq.size(1)
if (allover_fudup) { // do it upside down as well
v1.mul(-1) // v2 will be upside-down
if (pos_fudup) {min=v1.min v1.sub(min)}
if (0) { // can't see a rationale to recalc sampling points
v2.indgen(2,2+npts-1,1) // sampling at npts points
if (logflag) v2.log() // log sampling
v2.scale(-0.95*v1.max,-0.05*v1.max) v2.mul(-1)
}
v1.updown(v2,tl,bb)
bq.v[8].add(sz) bq.v[4].mul(-1) // turn HEIGHT upside down
cq.append(bq)
} else if (over_fudup && sz==0) { // turn it over an try again
print "fudup() checking upside-down"
v1.mul(-1) // v2 will be upside-down
v1.updown(v2,tl,bb)
}
for case(&x,0,2,5) cq.v[x].mul(dt)
nqsdel(bq,eq)
dealloc(a)
return cq
}
//** listsort(LIST[,START,REV]) sorts list of strings numerically
// optional start gives a regexp to start at
proc listsort () { local x,rev localobj nq,st,xo
if (numarg()==0) {
print "listsort(LIST[,RXP,REV]) numerically, optional RXP starts after there" return}
if (numarg()==3) if ($3) rev=-1 else rev=0
nq=new NQS("STR","NUM") nq.strdec("STR")
st=new String()
for ltr(xo,$o1) {
if (numarg()>=2) sfunc.tail(xo.s,$s2,st.s) else st.s=xo.s
if (sscanf(st.s,"%g",&x)!=1) print "listsort ERR: num not found in ",st.s
nq.append(xo.s,x)
}
nq.sort("NUM",rev)
$o1.remove_all
for nq.qt(st.s,"STR") $o1.append(new String(st.s))
}
// stat(VEC) print stats for the vector
// stat(VEC1,VEC2) append stats of VEC1 on VEC2
// stat(VEC1,NQS) append stats of VEC1 on NQS (create if necessary)
proc stat () { local sz
sz=$o1.size
if (sz<=1) {printf("decnqs::stat() WARN: %s size %d\n",$o1,$o1.size) return}
if (numarg()==1 && sz>1) {
printf("Sz:%d\tmax=%g; min=%g; mean=%g; stdev=%g\n",$o1.size,$o1.max,$o1.min,$o1.mean,$o1.stdev)
} else {
if (!isassigned($o2)) { $o2=new NQS("SIZE","MAX","MIN","MEAN","STDEV")
} else if (isobj($o2,"NQS")) {
if ($o2.m!=5) {$o2.resize(0) $o2.resize("SIZE","MAX","MIN","MEAN","STDEV")}
} else if (isobj($o2,"Vector")) revec($o2)
if (sz>2) {$o2.append($o1.size,$o1.max,$o1.min,$o1.mean,$o1.stdev) // .append for Vector or NQS
} else $o2.append($o1.size,$o1.max,$o1.min,$o1.min,0) // no sdev
}
}
//* fil2nqs(FILE,NQS) reads lines of file and places all numbers in NQS
func fil2nqs () { local a,n localobj v1
$o2.clear
a=allocvecs(v1)
tmpfile.ropen($s1)
for (n=1;tmpfile.gets(tstr)!=-1;n+=1) {
if (n%1e3==0) printf("%d ",n)
parsenums(tstr,v1)
if (v1.size!=$o2.m) {
printf("Wrong size at line %d (%d) ",n,v1.size) vlk(v1)
return
}
$o2.append(v1)
}
dealloc(a)
return $o2.size(1)
}
//** plnqs(file,NQS) reads output of txt2num.pl
// format ascii 'rows cols' then binary contents
proc plnqs () { local a,rows,cols localobj v1,v2
a=allocvecs(v1,v2)
tmpfile.ropen($s1)
tmpfile.gets(tstr)
sscanf(tstr,"%d %d",&rows,&cols)
printf("%s: %d rows x %d cols\n",$s1,rows,cols)
v1.fread(tmpfile,rows*cols) // could now use .transpose
v2.indgen(0,rows*cols,cols)
$o2.resize(cols,rows)
for ii=0,cols-1 {
v2.add(ii)
$o2.v[ii].index(v1,v2)
}
dealloc(a)
}
// DEST=maxem(SRC,MIN,WIDTH) -- keep looking for maxima till get down to min
obfunc maxem () { local a,min,wid,ii,ix,beg,end localobj v1,aq
a=allocvecs(v1)
aq=new NQS("max","loc") aq.clear(v1.size/2)
v1.copy($o1)
min=$2 wid=$3
while(v1.max>min) {
aq.append(v1.max,ix=v1.max_ind)
beg=ix-wid if (beg<0) beg=0
end=ix+wid if (end>=v1.size) end=v1.size-1
for ii=beg,end v1.x[ii]=-1e9
}
dealloc(a)
return aq
}
// nqo=percl(nq,"COLA", ..) generates NQS of percentile values (10..90) for these cols
// nqo=percl(nq,min,max,step,"COLA", ..) -- eg percl(nq,50,70,5,"COLA","COLB")
obfunc percl () { local i,ii,a,p localobj v1,v2,v3,aq,xo
a=allocvecs(v1,v2,v3)
aq=new NQS(numarg())
if (argtype(2)==0) {
v3.indgen($2,$3,$4)
aq.resize(aq.size(1)-3)
i=5 j=4 // start at arg i and aq col #j
} else {
v3.indgen(10,90,10)
i=2 j=1
}
aq.setcol(0,"PERCL",v3)
for (;i<=numarg();i+=1) {
$o1.getcol($si,v1)
v1.sort()
v2.resize(0)
for vtr(&ii,v3) {ii/=100 v2.append(v1.x[round(ii*v1.size)])}
aq.setcol(i-j,$si,v2)
}
dealloc(a)
return aq
}
// pqunq(NQS) returns columns of sorted nique values corresponding to the arg
// NB: does not produce a rectangular array
obfunc pqunq () { local a localobj v1,v2,aq
aq=new NQS()
a=allocvecs(v1,v2,1e5)
aq.sethdrs($o1)
aq.resize(-2)
for ii=0,aq.m-1 {
$o1.getcol(ii,v1)
v1.sort
v2.redundout(v1)
aq.v[ii].copy(v2)
}
dealloc(a)
return aq
}
//** aa=seqind(ind) -- find beginning and end of sequential indices with
obfunc seqind () { local a,n,skip,ii,x,last localobj vi,oq
vi=$o1
if (numarg()>=2) skip=$2+1 else skip=1
if (numarg()>=3) oq=$o3
if (!isassigned(oq)) {oq=new NQS() if (numarg()>=3) $o3=oq}
if (oq.m!=3) { oq.resize(0) oq.resize("beg","end","diff") }
oq.clear()
n=last=0
for ii=1,vi.size(1)-1 {
if (vi.x[ii]-vi.x[ii-1]>skip) {
if (n>0) oq.append(vi.x[last],vi.x[ii-1],0)
last=ii
n=0
} else n+=1
}
if (n>0) oq.append(vi.x[last],vi.x[ii-1],0)
oq.pad()
oq.calc("<diff>.copy(<end>.c.sub(<beg>))")
return oq
}
//** list_transpose
proc list_transpose () { localobj aq,mat,xo,inlist,outlist
aq=new NQS() inlist=$o1 outlist=$o2
if (!isojt(outlist,inlist)) {outlist=new List() $o2=outlist}
for ltr(xo,inlist) aq.resize("",xo)
mat=aq.tomat(1) // transpose
aq.frmat(mat)
outlist.remove_all
aq.listvecs(outlist)
delnqs(aq)
}
//* Sam's additions -- moved from nqs_utils.hoc
//get row of Vectors
//$o1 = nqs
//$2 = row number
//$s3 - $snumarg() - name of cols to get values for
//returns list with associated Vectors
obfunc getobjrow(){ local i,rowid localobj nq,vt,ls
nq=$o1 rowid=$2
ls=new List()
vt=new Vector()
for(i=3;i<=numarg();i+=1){
nq.get($si,rowid,vt)
ls.append(vt)
}
return ls
}
//get column of objects as Vector using oform
//$o1 = nqs
//$s2 = col name
//$3=iff==1 return list of Vectors in column, else return vector of oform of each row in column
obfunc getobjcol(){ local idx,getl localobj nq,vt,vt2,ls
nq=$o1
if(numarg()>2) getl=$3 else getl=0
if(getl){
ls=new List()
vt=new Vector()
for idx=0,nq.size-1{
nq.get($s2,idx,vt)
ls.append(vt)
}
return ls
} else {
vt=new Vector(nq.size)
vt.resize(0)
vt2=new Vector()
for idx=0,nq.size-1{
nq.get($s2,idx,vt2)
vt.append(oform(vt2))
}
return vt
}
}
//get correlation between 2 columns of an NQS
//$o1=nqs
//$s2=column name
//$s3=column name
//$4=pearson correlation iff == 1 (default), otherwise spearman
func nqcor(){ local pc localobj nq1,v1,v2
if(numarg()>3) pc=$4 else pc=1
nq1=$o1
v1=nq1.getcol($s2) v2=nq1.getcol($s3)
if (pc) return v1.pcorrel(v2) else return v1.scorrel(v2)
}
//func nqgrslice(){ local startidx,endidx localobj nq,vtmp
// nq=$o1 startidx=$2 endidx=$3
// vtmp=new Vector($3-$2+1)
// gg(
//}
func MIN(){ if($1<$2)return $1 else return $2 }
//get correlation matrix/nqs of all columns to all columns
//$o1 = NQS
//$2 = num columns 0 - NQS.m
//$3 = start row/index
//$4 = end row/index
//$5 = index increment
//$6 = window size , iff <= 0, do full columns against each other
obfunc nqcolcor(){ local startidx,endidx,inct,wint,c1,c2,ncol localobj vhr,vhl,nqc,nqf
if(numarg()<1){
printf("nqcolcor usage: \n\t$o1 = NQS\
\n\t$2 = num columns 0 - NQS.m\
\n\t$3 = start row/index\
\n\t$4 = end row/index\
\n\t$5 = index increment\
\n\t$6 = window size , iff <= 0, do full columns against each other\n")
return nil
}
nqf=$o1
if(numarg()>1) ncol=$2 else ncol=nqf.m
if(numarg()>2) startidx=$3 else startidx=0
if(numarg()>3) endidx=$4 else endidx=nqf.size
if(numarg()>4) inct=$5 else inct=50*2//50ms
if(numarg()>5) wint=$6 else wint=100*2//50ms
vhr=new Vector(wint) vhl=new Vector(wint)
if(wint<=0){ //full column cross-correlation
nqc=new NQS("ID0","ID1","cor")
for c1=0,ncol-1{
for c2=c1+1,ncol-1{
nqc.append(c1,c2,nqf.v[c1].pcorrel(nqf.v[c2]))
}
}
} else { //cross correlation using slices of column
nqc=new NQS("ID0","ID1","start","end","cor")
for c1=0,ncol-1{
for c2=c1+1,ncol-1{
for(startidx=0;startidx<endidx;startidx+=inct){
vhl.copy(nqf.v[c1],startidx,MIN(startidx+wint,endidx-1))
vhr.copy(nqf.v[c2],startidx,MIN(startidx+wint,endidx-1))
nqc.append(c1,c2,startidx,startidx+wint,vhl.pcorrel(vhr))
}
}
}
}
return nqc
}
//read wmf ascii file (just skips header and calls rdcol)
//$s1 = wmf file path
//$2 = # of columns
// obfunc rdwmf(){ local idx,jdx,hdrlines localobj nq,myf,myftmp,strf,str,strtmp,lcols
// myf=new File() myftmp=new File() strf=new StringFunctions() str=new String() lcols=new List()
// strtmp=new String() hdrlines=6
// myf.ropen($s1)
// if(!myf.is_open()){
// printf("rdwmf ERRA: couldn't open wmf file %s for read\n",$s1)
// return nil
// }
// for idx=0,hdrlines-1{
// if(myf.gets(str.s)==-1){
// printf("rdwmf ERRB: corrupt header\n")
// return nil
// } else if(idx==2){
// jdx=strf.tail(str.s,"",strtmp.s)
// }
// }
// myf.close()
// return nq
// }
//draw regression line
//$o1 = nqs, $s2 = column 1, $s3 = column 2
// or
//$o1 = Vector 1 , $o2 = Vector 2
//returns vo
obfunc drawregline(){ local x0,y0,x1,y1,gvtmp,r localobj vo,nq,v1,v2,vx,vy,str
vo=new Vector(5)
if(numarg()==3){
nq = $o1
v1=new Vector() v2=new Vector()
nq.getcol($s2,v1)
nq.getcol($s3,v2)
} else {
v1=$o1 v2=$o2
}
v1.vstats(v2,vo)
x0 = v2.min
y0 = x0*vo.x(0)+vo.x(1)
x1 = v2.max
y1 = x1*vo.x(0)+vo.x(1)
vx=new Vector(2)
vx.x(0)=x0
vx.x(1)=x1
vy=new Vector(2)
vy.x(0)=y0
vy.x(1)=y1
gvtmp=gvmarkflag
gvmarkflag=0
gg(vy,vx)
gvmarkflag=gvtmp
str=new String()
r=v1.pcorrel(v2)
if(name_declared("rpval_stats")){
sprint(str.s,"r = %.2f, p = %g, N = %d",r,rpval_stats(v1.size,r),v1.size)
g.label(0,0,str.s)
}
return vo
}
// select from a vector handled as a matrix -- see matrix.mod
halfmat=0
obfunc mindsel () { local a,x,r,c localobj vm,vi,oq
vm=$o1
a=allocvecs(vi)
if (numarg()==4) vi.indvwhere(vm,$s2,$3,$4) else vi.indvwhere(vm,$s2,$3)
oq=new NQS("row","col","val")
oq.clear(vi.size)
for vtr(&x,vi) {
r=int(x/COLS) c=x-r*COLS
if (!halfmat || c>r) oq.append(r,c,vm.x[x])
}
dealloc(a)
print oq.size(1)
return oq
}
//* return row $2 of nqs $o1
obfunc nqrow () { local row,col localobj vout,nq
nq=$o1
row=$2
vout=new Vector(nq.m)
for col=0,nq.m-1 vout.x(col)=nq.v[col].x(row)
return vout
}
//* find row $o2 (vector) in $o1 (nqs) and return index
// if not there return -1
func nqfindrow () { local idx,jdx,sz localobj nq,vf,vrow
nq=$o1 vf=$o2
sz=nq.size(-1)
for idx=0,sz-1 {
vrow = nqrow(nq,idx)
if(vrow.eq(vf)) return idx
}
return -1
}
//* nquniq(NQS) -- return a new NQS with unique rows in $o1
obfunc nquniq () { local sz,idx,outrow,jdx localobj nqin,nqout,vrow
nqin=$o1
nqout=new NQS()
for idx=0,nqin.m-1{
nqout.resize(nqin.s[idx].s)
nqout.v[nqout.m-1].resize(nqin.v[idx].size)
}
sz=nqin.size(-1)
jdx=0
outrow=0
for idx=0,sz-1{
vrow=nqrow(nqin,idx)
if(nqfindrow(nqout,vrow)==-1){
for jdx=0,nqin.m-1 nqout.v[jdx].x(outrow) = vrow.x(jdx)
outrow += 1
}
}
for idx=0,nqout.m-1 nqout.v[idx].resize(outrow)
return nqout
}