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decmat.hoc
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decmat.hoc
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// $Id: decmat.hoc,v 1.78 2011/07/11 05:58:31 samn Exp $
print "Loading decmat.hoc..."
//** mtriavg(mat,[mask]) - get average of elements in upper triangular part of matrix $o1
// mask is of same size as mat, has 0 for entries to skip
func mtriavg () { local i,j,s,c localobj mm,msk
mm=$o1 s=c=0
if(numarg()>1) { msk=$o2
for i=0,mm.nrow-1 for j=i+1,mm.ncol-1 if(msk.x(i,j)) {
s+=mm.x[i][j]
c+=1
}
} else {
for i=0,mm.nrow-1 for j=i+1,mm.ncol-1 {
s+=mm.x[i][j]
c+=1
}
}
if(c>0) return s/c else return 0
}
//** mltristd(mat,[mask]) - get stdev of elements in upper triangular part of matrix $o1
// mask is of same size as mat, has 0 for entries to skip
func mtristd () { local i,j,s,c,s2,tm localobj mm,msk
mm=$o1 s=s2=c=0
if(numarg()>1) { msk=$o2
for i=0,mm.nrow-1 for j=i+1,mm.ncol-1 if(msk.x(i,j)) {
s+=mm.x[i][j]
s2+=mm.x[i][j]^2
c+=1
}
} else {
for i=0,mm.nrow-1 for j=i+1,mm.ncol-1 {
s+=mm.x[i][j]
s2+=mm.x[i][j]^2
c+=1
}
}
if(c>0) return sqrt(s2/c - (s/c)^2) else return 0
}
//** mltristd(mat,[mask]) - get std-error of elements in upper triangular part of matrix $o1
// mask is of same size as mat, has 0 for entries to skip
func mtristderr () { local i,j,s,c,s2,tm localobj mm,msk
mm=$o1 s=s2=c=0
if(numarg()>0) {
msk=$o2
for i=0,mm.nrow-1 for j=i+1,mm.ncol-1 if(msk.x(i,j)) {
s+=mm.x[i][j]
s2+=mm.x[i][j]^2
c+=1
}
} else {
for i=0,mm.nrow-1 for j=i+1,mm.ncol-1 {
s+=mm.x[i][j]
s2+=mm.x[i][j]^2
c+=1
}
}
if(c>0) return sqrt(s2/c - (s/c)^2)/sqrt(c) else return 0
}
//** vi2mi(ind[,COLS]) take index from vector and print out matrix indices using COLS
obfunc vi2mi () { local x,co,r,c
x=$1
if (argtype(2)==0) co=$2 else co=COLS
r=int(x/COLS) c=x%COLS
if (verbose) print r,c
return new Union(r,c)
}
//** symmclean(vec[,COLS]) remove redundant entries from vector representing a symm matrix
proc vimiclean() {print "Use symmclean() statt vimiclean()"}
func symmclean () { local ix,dg,cols,ii,n,flag localobj v1
v1=$o1
if (argtype(2)==0) cols=$2 else cols=COLS
if (argtype(3)==0) flag=$3 else flag=0 // flag gets rid of the diagonal as well
for ii=0,v1.size-1 { ix=v1.x[ii]
dg=(n=int(ix/(cols+1)))*(cols+1)
if (ix<dg || ix>=dg+(cols-n)) v1.x[ii]=-1
if (flag && ix==dg) v1.x[ii]=-1
}
v1.where(">",-1)
return v1.size
}
//** msqdif(m1,m2) - get matrix with elements squared difference of m1-m2
obfunc msqdif () { local i,j localobj m1,m2,md
m1=$o1 m2=$o2
md=new Matrix(m1.nrow,m1.ncol)
for i=0,m1.nrow-1 for j=0,m1.ncol-1 md.x[i][j]=(m1.x[i][j]-m2.x[i][j])^2
return md
}
//** mthresh(mat,th) - get matrix with mat elements thresholded : values < t set to 0, >= t to 1
obfunc mthresh () { local i,j,t localobj mi,mo
mi=$o1 t=$2
mo=new Matrix(mi.nrow,mi.ncol)
for i=0,mo.nrow-1 for j=0,mo.ncol-1 if(mi.x[i][j]>=t) mo.x[i][j]=1 else mo.x[i][j]=0
return mo
}
//** mdif(m1,m2) - get matrix with elements difference of m1-m2
obfunc mdif () { local i,j localobj m1,m2,md
m1=$o1 m2=$o2
md=new Matrix(m1.nrow,m1.ncol)
for i=0,m1.nrow-1 for j=0,m1.ncol-1 md.x[i][j]=(m1.x[i][j]-m2.x[i][j])
return md
}
//** getttmat(nqs,[column-name]) - uses NQS $o1 to make time-time correlation matrix
//optional $s2 , otherwise default column-name = 'vc'.
//column $s2 must be .odec with Vector objects
obfunc getttmat () { local i,j,inc,szm localobj mc,nq,v1,v2,str,lc
{nq=$o1 str=new String()}
if(numarg()>1)str.s=$s2 else str.s="vc"
{szm=nq.v.size() mc=new Matrix(szm,szm) lc=new List()}
for i=0,szm-1 lc.append(nq.get(str.s,i).o)
for i=0,szm-1 {
mc.x(i,i)=1
v1=lc.o(i)
for j=i+1,szm-1 {
v2=lc.o(j)
mc.x(i,j)=mc.x(j,i)=v1.pcorrel(v2)
}
}
return mc
}
//** svmat(matrix,path,[writesz,binary]) - save a matrix to file as ascii, each row on new line
//$o1==matrix, $s2==file path -- will overwrite!! , $3 = optional == 1 to include nrows,ncols
// writesz = write rows,cols . binary - use binary output format, this will write using vwrite
// and first two elements of written vector will have rows,cols (so writesz arg is ignored)
func svmat () { local pr,bin,a localobj m,f,myv1,myv2,mt
{m=$o1 a=allocvecs(myv1,myv2) f=new File() f.wopen($s2)}
if(!f.isopen()) {
printf("svmat ERRA: couldnt open output file %s\n",$s2)
return 0
}
if(numarg()>2)pr=$3 else pr=0
if(numarg()>3)bin=$4 else bin=0
if(bin) {
mt=$o1.transpose()
mt.to_vector(myv1)
myv2.append($o1.ncol,$o1.nrow)
myv2.append(myv1)
myv2.vwrite(f)
} else {
if(pr) m.fprint(f) else m.fprint(0,f)
}
{f.close() dealloc(a)}
return 1
}
//obfunc rdmat () { local pr localobj m,f
// m=$o1
// f=new File()
// f.wopen($s2)
// if(!f.isopen()) {
// printf("svmat ERRA: couldnt open output file %s\n",$s2)
// return 0
// }
// if(numarg()>2)pr=$3 else pr=0
// if(pr) m.fprint(f) else m.fprint(0,f)
// f.close()
// return 1
//}
//** matimagesc - display a matrix ($o1) in matlab using matimgsc program
// or a text file $s1 , $2 = min scale value , $3 = max scale value, $4 optional
// binary input flag
func matimagesc () { local x,binflag localobj str
if(numarg()>3) binflag=$4 else binflag=1
str=new String2()
if(argtype(1)==2) {
str.s=$s1
} else {
str.s="__tmp__mat__ml__.txt"
if(!svmat($o1,str.s,1,binflag)) return 0
}
sprint(str.t,"/usr/site/nrniv/local/matlab/matimgsc %s %g %g %d",str.s,$2,$3,binflag)
x = system(str.t)
return x
}
//** pyimagesc - display a matrix ($o1) in python's matplotlib or a text file $s1
//opt:[$2=min scaling for colors, $3=max scaling for colors, [$s4=title,$s5=xlabel,$s6=ylabel]
func pyimagesc () { local i,minc,maxc localobj str,cmd,strout,strt,strl,fp
str=new String2()
strout=new String()//collect stdout from script
if(argtype(1)==2) {
str.s=$s1
} else {
str.s="__tmp__mat__py__.txt"
if(!svmat($o1,str.s)) return 0
}
if(numarg()>1)minc=$2 else minc=-1
if(numarg()>2)maxc=$3 else maxc=1
if(numarg()>3) { //write title,xlabel,ylabel for pyimgsc.py
{strl=new String() strl.s="__tmp__str__py__.txt" fp=new File()}
fp.wopen(strl.s)
if(!fp.isopen()){
printf("pyimagesc ERRB: couldnt save tmp file %s\n",strl.s)
return 0
}
for i=4,numarg() fp.printf("%s\n",$si)
fp.close()
sprint(str.t,"/u/samn/python/pyimgsc.py %s %g %g %s",str.s,minc,maxc,strl.s)
} else {
sprint(str.t,"/u/samn/python/pyimgsc.py %s %g %g",str.s,minc,maxc)
}
return system(str.t,strout.s)
}
//** matgcspks(vec1,vec2,samplingrate,pathin1,pathin2,pathout,pid])
// this function calls /usr/site/nrniv/local/matlab/callmatgcspks to send a signal to
// /usr/site/nrniv/local/matlab/matgcspks and run MZD's granger causality on spike trains
// this function returns an NQS with 1 row containing output
// vec1,vec2 are binned spike trains (spikes per time)
// returns a vector containing vec1->vec2, vec2->vec1 granger causality
obfunc matgcspks () { local sampr,pid localobj vspks1,vspks2,fpin1,fpin2,fpout,str,vop,strin,strout
if(numarg()==0) {printf("matgcspks(vec1,vec2,samplingrate)\nvec1,2 are binned spike trains\n") return nil}
vspks1=$o1 vspks2=$o2 sampr=$3 vop=new Vector(2)
fpin1=new File() fpin2=new File() fpout=new File() str=new String() strin=new String2() strout=new String()
{strin.s=$s4 strin.t=$s5 strout.s=$s6 pid=$7}
{fpin1.wopen(strin.s) fpin2.wopen(strin.t)}
if(!fpin1.isopen()) {printf("matgcspks ERRA: couldn't open %s for writing\n",strin.s) return nil}
if(!fpin2.isopen()) {printf("matgcspks ERRA: couldn't open %s for writing\n",strin.t) return nil}
{vspks1.vwrite(fpin1) fpin1.close() vspks2.vwrite(fpin2) fpin2.close()}
sprint(str.s,"/usr/site/nrniv/local/matlab/callmatgcspks %d",pid)
{printf("%s\n",str.s) system(str.s)}
fpout.ropen(strout.s)
while(!fpout.isopen()){
printf("matgcspks ERRB: couldn't open %s for reading\n",strout.s)
fpout.ropen(strout.s)
}
vop.vread(fpout)
return vop
}
//** matspecgram(vec,samplingrate,maxfrequency,fftwinsz,[,dodraw,mincolor,maxcolor])
// if fftwinsz <= 0, matspecgram will pick a WINDOW size for STFT
obfunc matspecgram () { local a,sampr,maxfreq,dodraw,rows,cols,x,y,minc,maxc,fftwinsz\
localobj vin,fpin,fpout,str,vop,vof,nqo,strin,strout,vtmp,strd
vin=$o1 sampr=$2 maxfreq=$3 fftwinsz=$4 fpin=new File() fpout=new File()
str=new String() strin=new String() strout=new String() strd=new String()
a=allocvecs(vtmp,vop,vof) if(numarg()>4)dodraw=$5 else dodraw=1
if(!fpin.mktemp || !fpout.mktemp) {
print "matspecgram ERR0: couldn't make temp files!"
{dealloc(a) return nil}
}
{strin.s=fpin.getname strout.s=fpout.getname strd.s="/usr/site/nrniv/local/matlab" fpin.wopen(strin.s)}
if(!fpin.isopen()){printf("matspecgram ERRA: couldn't open %s for writing\n",strin.s) dealloc(a) return nil}
{vin.vwrite(fpin) fpin.close()}
if(dodraw && numarg()>=7) {
sprint(str.s,"%s/matspecgram %s %g %g %d %d %s %g %g",strd.s,strin.s,sampr,maxfreq,fftwinsz,dodraw,strout.s,$6,$7)
} else {
sprint(str.s,"%s/matspecgram %s %g %g %d %d %s",strd.s,strin.s,sampr,maxfreq,fftwinsz,dodraw,strout.s)
}
print str.s
system(str.s)
fpout.ropen(strout.s)
if(!fpout.isopen()){printf("matspecgram ERRB: couldn't open %s for reading\n",strout.s) dealloc(a) return nil}
{vop.vread(fpout) vof.vread(fpout)}
{nqo=new NQS("f","pow") nqo.odec("pow")}
{rows=vof.size() cols=vop.size()/rows x=0}
for y=0,rows-1 { vtmp.resize(0)
vtmp.copy(vop,x,x+cols-1)
nqo.append(vof.x(y),vtmp)
x+=cols
}
{fpin.unlink() fpout.unlink()}
{dealloc(a) return nqo}
}
//** matmodind(vec,samplingrate,lohz1,lohz2,hihz1,hihz2)
// this function calls /usr/site/nrniv/local/matlab/matmodindex to run Canolty's modulation index with Matlab
// returns an NQS with 1 row containing output
obfunc matmodind () { local a,sampr,lohz1,lohz2,hihz1,hihz2\
localobj vin,fpin,fpout,str,vop,nqo,strin,strout
if(numarg()==0) {printf("matmodind(vec,samplingrate,lohz1,lohz2,hihz1,hihz2)\n") return nil}
vin=$o1 sampr=$2 lohz1=$3 lohz2=$4 hihz1=$5 hihz2=$6
fpin=new File() fpout=new File() str=new String() strin=new String() strout=new String()
a=allocvecs(vop)
if(!fpin.mktemp || !fpout.mktemp) {
print "matmodind ERR0: couldn't make temp files!"
{dealloc(a) return nil}
}
{strin.s=fpin.getname strout.s=fpout.getname}
{fpin.wopen(strin.s)}
if(!fpin.isopen()) {printf("matmodind ERRA: couldn't open %s for writing\n",strin.s) dealloc(a) return nil}
{vin.vwrite(fpin) fpin.close()}
sprint(str.s,"/usr/site/nrniv/local/matlab/matmodindex %s %g %g %g %g %g %s",strin.s,sampr,lohz1,lohz2,hihz1,hihz2,strout.s)
print str.s
system(str.s)
fpout.ropen(strout.s)
if(!fpout.isopen()){printf("matmodind ERRB: couldn't open %s for reading\n",strout.s) dealloc(a) return nil}
{vop.vread(fpout) nqo=new NQS("modind","phase","lohz1","lohz2","hihz1","hihz2")}
nqo.append(vop.x(0),vop.x(1),lohz1,lohz2,hihz1,hihz2)
{dealloc(a) fpin.unlink() fpout.unlink()}
return nqo
}
//** matpmtm(vec,samplingrate)
// this function calls /usr/site/nrniv/local/matlab/matpmtm to run multitaper power spectra using matlab, returns an nqs
obfunc matpmtm () { local a,sampr,rows,cols,x,y\
localobj vin,fpin,fpout,str,vop,vof,nqo,strin,strout
if(numarg()==0) {printf("%s\n","matpmtm(vec,samplingrate)") return nil}
vin=$o1 sampr=$2 fpin=new File() fpout=new File() str=new String() strin=new String() strout=new String()
a=allocvecs(vop,vof)
if(!fpin.mktemp || !fpout.mktemp) {
print "matpmtm ERR0: couldn't make temp files!"
{dealloc(a) return nil}
}
{strin.s=fpin.getname strout.s=fpout.getname}
{fpin.wopen(strin.s)}
if(!fpin.isopen()) {printf("matpmtm ERRA: couldn't open %s for writing\n",strin.s) dealloc(a) return nil}
{vin.vwrite(fpin) fpin.close()}
sprint(str.s,"/usr/site/nrniv/local/matlab/matpmtm %s %g %s",strin.s,sampr,strout.s)
print str.s
system(str.s)
fpout.ropen(strout.s)
if(!fpout.isopen()){printf("matpmtm ERRB: couldn't open %s for reading\n",strout.s) dealloc(a) return nil}
{vop.vread(fpout) vof.vread(fpout) nqo=new NQS("f","pow")}
{nqo.v[0].copy(vof) nqo.v[1].copy(vop) dealloc(a) fpin.unlink() fpout.unlink()}
return nqo
}
//** matfftpow(vec,samplingrate,maxfrequency,[dodraw,dosmooth,smoothwindowsz])
// this function calls /usr/site/nrniv/local/matlab/matfftpow to run power spectra using matlab, returns an nqs
// dosmooth controls whether to smooth output, is OFF by default
// smoothwindowsz controls size of running average smoothing of power spectra output
obfunc matfftpow () { local a,sampr,maxfreq,dodraw,rows,cols,x,y,dosmooth\
localobj vin,fpin,fpout,str,vop,vof,nqo,strin,strout
if(numarg()==0) {printf("%s\n","matfftpow(vec,samplingrate,maxfrequency,[dodraw,dosmooth,smoothwindowsz])") return nil}
vin=$o1 sampr=$2 maxfreq=$3 fpin=new File() fpout=new File() str=new String() strin=new String() strout=new String()
a=allocvecs(vop,vof) if(numarg()>3)dodraw=$4 else dodraw=1
if(numarg()>4)dosmooth=$5 else dosmooth=0
if(!fpin.mktemp || !fpout.mktemp) {
print "matfftpow ERR0: couldn't make temp files!"
{dealloc(a) return nil}
}
{strin.s=fpin.getname strout.s=fpout.getname}
{fpin.wopen(strin.s)}
if(!fpin.isopen()) {printf("matfftpow ERRA: couldn't open %s for writing\n",strin.s) dealloc(a) return nil}
{vin.vwrite(fpin) fpin.close()}
if(numarg()>5) {
sprint(str.s,"/usr/site/nrniv/local/matlab/matfftpow %s %g %d %d %s %d %d",strin.s,sampr,maxfreq,dodraw,strout.s,dosmooth,$6)
} else sprint(str.s,"/usr/site/nrniv/local/matlab/matfftpow %s %g %d %d %s %d",strin.s,sampr,maxfreq,dodraw,strout.s,dosmooth)
print str.s
system(str.s)
fpout.ropen(strout.s)
if(!fpout.isopen()){printf("matfftpow ERRB: couldn't open %s for reading\n",strout.s) dealloc(a) return nil}
{vop.vread(fpout) vof.vread(fpout) nqo=new NQS("f","pow")}
{nqo.v[0].copy(vof) nqo.v[1].copy(vop) dealloc(a) fpin.unlink() fpout.unlink()}
return nqo
}
//** mathilbert(vec,samplingrate,minfrequency,maxfrequency)
obfunc mathilbert () { local a,sampr,minfreq,maxfreq\
localobj vin,fp,str,vfilt,vph,vamp,nqo,strin,strout
vin=$o1 sampr=$2 minfreq=$3 maxfreq=$4 fp=new File() str=new String() strin=new String() strout=new String()
a=allocvecs(vfilt,vph,vamp)
{sprint(strin.s,"__tmp__mat__hilbert__input__vec__.vec") sprint(strout.s,"__tmp__mat__hilbert_output__vec__.vec")}
{fp.wopen(strin.s)}
if(!fp.isopen()) {
printf("mathilbert ERRA: couldn't open %s for writing\n",strin.s)
dealloc(a)
return nil
}
{vin.vwrite(fp) fp.close()}
sprint(str.s,"/usr/site/nrniv/local/matlab/mathilbert %s %g %g %g %s",strin.s,sampr,minfreq,maxfreq,strout.s)
print str.s
system(str.s)
fp.ropen(strout.s)
if(!fp.isopen()) {
printf("mathilbert ERRB: couldn't open %s for reading\n",strout.s)
dealloc(a)
return nil
}
{vfilt.vread(fp) vph.vread(fp) vamp.vread(fp) nqo=new NQS("filt","phase","amp","t")}
{nqo.v[0].copy(vfilt) nqo.v[1].copy(vph) nqo.v[2].copy(vamp)}
{nqo.v[3].indgen(0,1e3*nqo.v[2].size/sampr,1e3/sampr) nqo.v[3].resize(nqo.v[2].size)}
dealloc(a)
return nqo
}
//** matprincomp(input Matrix object)
// returns list with : eigenvectors as Vector, scores as Vector, eigenvalues as Vector, scores as Matrix
// scores has same size as $o1, eigenvectors is $o1.ncols^2, eigenvalues is $o1.ncols
// input matrix has rows as observations and columns as dimensions
obfunc matprincomp () { local i,j,k localobj mcin,fp,str,strin,strout,lsout,vcoeff,vscore,vlat,mscore
mcin=$o1 fp=new File() str=new String() strin=new String() strout=new String() lsout=new List()
{vcoeff=new Vector() vscore=new Vector() vlat=new Vector()}
{sprint(strin.s,"__tmp__mat__princomp__input__mat__.txt") sprint(strout.s,"__tmp__mat__princomp_output__vec__.vec")}
if(!svmat(mcin,strin.s,1)) {
printf("matprincomp ERRA: couldn't open %s for writing\n",strin.s)
return nil
}
sprint(str.s,"/usr/site/nrniv/local/matlab/matprincomp %s %s",strin.s,strout.s)
print str.s
system(str.s)
fp.ropen(strout.s)
if(!fp.isopen()) {
printf("matprincomp ERRB: couldn't open %s for reading\n",strout.s)
return nil
}
{vcoeff.vread(fp) vscore.vread(fp) vlat.vread(fp) fp.close()}
mscore=new Matrix(mcin.nrow,mcin.ncol)
mscore.from_vector(vscore) //reads it in in column major order
{lsout.append(vcoeff) lsout.append(vscore) lsout.append(vlat) lsout.append(mscore)}
return lsout
}
//** matmin(mat) - return min element of mat
func matmin () { local i,j,me,tmp localobj m
m=$o1
me=m.getrow(0).min()
for i=1,m.nrow-1 if((tmp=m.getrow(i).min)<me) me=tmp
return me
}
//** matmax(mat) - return max element of mat
func matmax () { local i,j,me,tmp localobj m
m=$o1
me=m.getrow(0).max()
for i=1,m.nrow-1 if((tmp=m.getrow(i).max)>me) me=tmp
return me
}
//** mlk(mat) - use vlk to print rows of matrix
// a matrix will have it's lower/smaller rows printed first:
// 1 2 3
// 4 5 6
// 7 8 9
proc mlk () { local i localobj m
m=$o1
for i=0,m.nrow-1 vlk(m.getrow(i))
}
//** mateq(mat1,mat2) - return 1 iff matrix row Vectors are eq, 0 otherwise
func mateq () { local i localobj m1,m2
m1=$o1 m2=$o2
if(m1.nrow!=m2.nrow || m1.ncol!=m2.ncol) return 0
for i=0,m1.nrow-1 if(m1.getrow(i).eq(m2.getrow(i))==0) return 0
return 1
}
//** matavg - return average value in Matrix $o1
func matavg () { local i,s localobj m
m=$o1
if(m.nrow<1 || m.ncol<1) {
printf("matavg ERRA: empty matrix!\n")
return 0
}
s=0
for i=0,m.nrow-1 s += m.getrow(i).sum()
return s/(m.nrow*m.ncol)
}
//** avgmat(list of Matrix) - return Matrix that has its elements avg of elements in $o1 List
obfunc avgmat () { local sz,i localobj ma
sz=$o1.count
if(sz<1) return nil
ma=new Matrix($o1.o(0).nrow,$o1.o(0).ncol)
for i=0,sz-1 ma.add($o1.o(i))
ma.muls(1.0/sz)
return ma
}
//** stdmat(list of Matrix) - return Matrix that has its elements stdev of elements in $o1 List
obfunc stdmat () { local sz,i,j,k localobj ms,ma
sz=$o1.count
if(sz<1) return nil
ma=new Matrix($o1.o(0).nrow,$o1.o(0).ncol)
ms=new Matrix($o1.o(0).nrow,$o1.o(0).ncol)
for i=0,sz-1 for j=0,ma.nrow-1 for k=0,ma.ncol-1 {
ms.x(j,k) += $o1.o(i).x(j,k)^2
ma.x(j,k) += $o1.o(i).x(j,k)
}
ma.muls(1.0/sz)
ms.muls(1.0/sz)
for j=0,ma.nrow-1 for k=0,ma.ncol-1 {
ms.x(j,k) -= ma.x(j,k)^2
if(ms.x(j,k) > 1e-9) ms.x(j,k) = sqrt(ms.x(j,k)) else ms.x(j,k) = 0
}
return ms
}
//** chgmat(list of before Matrices, list of after Matrices) - returns change in each entry in units of std-dev
obfunc chgmat () { local szbef,szaft,i,j,k localobj lbef,laft,mavg,mstd,lchg,mchg,mt
lbef=$o1 laft=$o2
szbef=lbef.count szaft=laft.count
lchg=new List()
mavg=avgmat(lbef)
mstd=stdmat(lbef)
mchg=new Matrix(mavg.nrow,mavg.ncol)
for i=0,szaft-1 {
mt=laft.o(i)
for j=0,mt.nrow-1 for k=0,mt.ncol-1 {
if(mstd.x(j,k)>1e-9) {
mchg.x(j,k) += ( mt.x(j,k) - mavg.x(j,k) ) / mstd.x(j,k)
} else if(szbef==1) {
mchg.x(j,k) += ( mt.x(j,k) - mavg.x(j,k) )
}
}
}
return mchg
}
//** getlv(rows,cols) - make a List of Vectors as 2D array
//$1 == # of rows (vectors), $2 == # of cols (size of vectors)
obfunc getlv () { local idx,rows,cols localobj ls
ls=new List()
rows=$1 cols=$2
for idx=0,rows-1 ls.append(new Vector(cols))
return ls
}
//** vec2mat(vec,rows) - get a matrix from a vec -- row major order
obfunc vec2mat () { local i,j,k,rows,cols localobj vin,mout
vin=$o1 rows=$2 cols=vin.size/rows mout=new Matrix(rows,cols) k=0
for i=0,rows-1 for j=0,cols-1 {
mout.x(i,j)=vin.x(k)
k+=1
}
return mout
}
//** mat2vec(mat) - get a vec from a matrix -- row major order
obfunc mat2vec () { local i,j,k,rows,cols localobj mat,vout
mat=$o1 rows=mat.nrow cols=mat.ncol i=j=k=0 vout=new Vector(rows*cols)
for i=0,rows-1 for j=0,cols-1 {
vout.x(k)=mat.x(i,j)
k+=1
}
return vout
}
//** mltmed(mat) - get median values from lower-triangular portion - lower triang. means smaller rows
// this matrix printed as (with printf or mlk):
// 1 2 3
// 4 5 6
// 7 8 9
// will have mltmed of 3, since uses 2,3,6 from bottom of matrix to get median
func mltmed () { local i,j,a localobj m,vo
a=allocvecs(vo) m=$o1
for i=0,m.nrow-1 for j=i+1,m.ncol-1 vo.append(m.x(i,j))
return vo.median()
}
//** mzerout(mat) - zero out everything >= diagonal
// a matrix printed as (with printf or mlk):
// 1 2 3
// 4 5 6
// 7 8 9
// will end up as:
// 0 2 3
// 0 0 6
// 0 0 0
proc mzerout () { local i,j,a localobj m,vo
a=allocvecs(vo) m=$o1
for i=0,m.nrow-1 for j=0,i m.x(i,j)=0
}
//** matsqsymm(matrix) - return 1 iff matrix is square and symmetric
func matsqsymm () { local i,j localobj mc
mc=$o1 if(mc.nrow!=mc.ncol) return 0
for i=0,mc.nrow-1 for j=i+1,mc.ncol-1 if(mc.x(i,j)!=mc.x(j,i)) return 0
return 1
}
//** getsubmat(matrix,startx,endx,starty,endy) - copy subsection of matrix
// and return in new output matrix
obfunc getsubmat () { local x,y,startx,endx,starty,endy localobj m1,msub
m1=$o1
startx=$2 endx=$3 starty=$4 endy=$5
msub=new Matrix(endy-starty+1,endx-startx+1)
for y=starty,endy for x=startx,endx msub.x(y-starty,x-startx)=m1.x(y,x)
return msub
}