// $Id: boxes.hoc,v 1.58 2010/08/12 14:20:15 billl Exp $
print "Loading boxes.hoc..."
{load_file("grvec.hoc")}
// load_file("boxes.hoc")
proc boxes () {}
objref boxer, boxerl
boxerl = new List()
// factor(num) finds the factors that are closest together
// NB: must be at top since declared external in template BX
func factor () { local num, srt, ii
num = $1
srt = int(sqrt(num))
for (ii=srt;ii<num && num/ii!=int(num/ii);ii+=1) {}
if (ii>num/ii) ii=num/ii // return smaller factor
return ii
}
// template for putting up trays and decks
begintemplate BX
public mktray,mkdeck,name,boxes,map,unmap,closebox
public min,max,attrnum,rows,cols,size,trnum,gl,stub,label,getg
external factor,boxerl
objref boxes[3], ob, gitem,gl,XO, nil, this
double min[1],max[1],trnum[1]
strdef temp_string_,name
proc init () {
min = -1 max = -1
trnum=$1
gl = new List()
}
//mktray(panattr) graph out from llist of a panattr
proc mktray () { local ci, ri, gi, m1, m2, bi
ob = $o1
cols=$3 rows=$2 size=rows*cols
if (numarg()==5) {xs=$4 ys=$5} else {xs=100 ys=50}
ri = 0 // count the rows
gi = 0 // count the graphs
boxes[0] = new VBox()
boxes[0].dismiss_action("closebox()")
boxes[0].intercept(1)
xpanel("",1)
xvarlabel(name)
xpanel()
for ri=0,rows-1 {
boxes[2] = new HBox()
boxes[2].intercept(1)
for ci=0,cols-1 {
gitem = new Graph(0)
gitem.view(0,-100,1000,50,0,0,xs,ys)
gl.append(gitem)
if (ob!=nil) ob.glist.append(gitem)
gi = gi+1
}
boxes[2].intercept(0)
boxes[2].map("")
}
boxes[0].intercept(0)
if (strcmp(name,"")==0 && ob!=nil) name=ob.filename
sprint(name,"%d:%s",trnum,name)
boxes[0].map(name)
}
proc map() { boxes[0].map() }
proc unmap() { boxes[0].unmap() }
proc closebox () { local ii,ix
ix=boxerl.index(this)
for (ii=gl.count-1;ii>=0;ii-=1) {
XO=gl.object(ii)
XO.unmap
}
if (ob!=nil) ob.glist.remove_all
gl.remove_all
boxes[0].unmap
boxes[0]=nil
boxes[2]=nil
boxerl.remove(ix)
}
obfunc getg () {
return gl.o($1*cols+$2)
}
proc mkdeck () { local rows, cols, ci, ri, gi, m1, m2
ob = $o1
if (min==-1 || max==-1) {
m1 = 0 m2 = ob.llist.count()-1
} else { m1=min m2=max }
cnt = m2-m1+1
cols=factor(cnt) rows=cnt/factor(cnt)
ri = 0 // count the rows
gi = 0 // count the graphs
boxes[0] = new VBox()
boxes[0].intercept(1)
xpanel("",1)
xbutton("Next","boxes[1].flip_to(decknum=decknum+1)")
xbutton("Previous","boxes[1].flip_to(decknum=decknum-1)")
xpanel()
boxes[1] = new Deck()
boxes[1].intercept(1)
for ri=0,rows-1 {
boxes[2] = new HBox()
boxes[2].intercept(1)
for ci=0,cols-1 {
ob.rv(gi+m1)
gi = gi+1
}
boxes[2].intercept(0)
boxes[2].map("")
}
boxes[1].intercept(0)
boxes[1].map("")
boxes[0].intercept(0)
boxes[0].map("Deck")
decknum = 0
boxes[1].flip_to(decknum)
if (! ob.attr0) {
for ii = 0,gi-1 {
ob.glist.object(ii).label(0.3,0.5,ob.llist.object(ii).name)
}
}
}
endtemplate BX
obfunc mktray () { local i,na,rows,cols,xsz,ysz localobj o
if (numarg()==0) { print "mktray(attrnum,rows,cols[,xsize,ysize,label])"
print "Create a tray for attr panel ATTRNUM to superimpose upon."
return nil }
boxer = new BX(boxerl.count)
boxerl.append(boxer)
trnum=boxer.trnum
if (argtype(numarg())==2) { na=numarg()-1 i=numarg() boxer.name=$si
} else { na=numarg() }
if (na==2) o=panobj else if (argtype(1)==0) o=GRV[$1] else if (argtype(1)==1) o=$o1
if (o!=nil) o.super = 1
if (argtype(1)==2) {
boxer.name=$s1
xsz=100 ysz=50
if (na/2==int(na/2)) {rows=factor($2) cols=$2/rows i=3} else {rows=$2 cols=$3 i=4}
if (argtype(i)==0) {xsz=$i i+=1 ysz=$i} // size of graphs
boxer.mktray(nil,rows,cols,xsz,ysz)
} else if (na==5) { boxer.mktray(o,$2,$3,$4,$5)
} else if (na==3) { boxer.mktray(o,$2,$3)
} else if (na==2) { boxer.mktray(o,$1,$2)
printf("Mapping trays to %s\n",o)
}
return boxer
}
proc rmtray () { local ix
ix=$1
if (boxerl.count<=1) boxerl.remove_all else {
for (ii=boxerl.count-1;ii>=0;ii-=1) {
if (boxerl.object(ii).attrnum==attrnum) boxerl.remove(ii)
}}
remgrs(attrnum)
GRV[ix].super=0
}
proc trsz () {
if (boxerl.count>0) for ltr (XO,boxerl) printf("%d:%d x %d\n",XO.attrnum,XO.rows,XO.cols)
}
proc mktrpanl () {
xgetargs("Make Tray","mktray","Which","rows","cols","xsize","ysize","0,2,3,100,50")
}
//* disptray() redisp() redispv()
proc disptray () { local ix,ii,jj,kk
if (numarg()==0) {print "disptray(ix[,cols])" return}
ix=$1
ii=GRV[ix].llist.count
if (numarg()==2) jj=$2 else jj=factor(ii)
kk=GRV[ix].glist.count
mktray(GRV[ix],round(ii/jj),jj,100,50)
GRV[ix].grall(0,ii-1)
for ltr(XO,GRV[ix].glist) if(i1>=kk) {
XO.size(&x[0])
XO.size(x[0],x[1],x[2],x[3]) }
}
proc redisp () { local supsav
panobj=$o1
if (numarg()>=2) trnum=$2
supsav=panobj.super panobj.super=1
for ltr(graphItem,boxerl.object(trnum).gl) {
graphItem.erase_all()
panobj.rv(i1)
}
panobj.super=supsav
}
// for bxit () {} go through all the graphs in tray trnum
// for bxit (g1,g2,g3,g4) {} go through selected graphs
// for bxit (-1,g1,g2) {} go through g1-g2
bxn=-1
proc bxop () { g=boxerl.object(trnum).gl.object($1) graphItem=g}
proc bxinc () {
if (bxn>=boxerl.object(trnum).gl.count) bxn=0 else bxn+=1
g=boxerl.object(trnum).gl.object(bxn)
graphItem=g
}
iterator bxit () { local i,ii
i1=0
if (numarg()>0) {
if (numarg()==3 && $1==-1) {
for ii = $2, $3 {
g=boxerl.object(trnum).gl.object(ii)
graphItem=g
iterator_statement
i1+=1
}
} else {
for i = 1, numarg() {
if (numarg()==1) XO=$o1.object(ii)
g=boxerl.object(trnum).gl.object($i)
graphItem=g
iterator_statement
i1+=1
}
}
} else {
for ii=0,boxerl.object(trnum).gl.count-1 {
g=boxerl.object(trnum).gl.object(ii)
graphItem=g
iterator_statement
i1+=1
}
}
}
// redispv(VEC,ATTRNUM,TRNUM) -- all args optional
proc redispv () { local supsav
panobj=$o1
if (numarg()>=2) trnum=$2
supsav=panobj.super panobj.super=1
for bxit() {
g.erase_all()
if (numarg()>0) panobj.rv($o1.x[i1]) else panobj.rv(vec.x[i1])
}
panobj.super=supsav
}
proc bxcomm () {
if (numarg()==1) boxerl.object(boxerl.count-1).name=$s1 else {
boxerl.object(boxerl.count-1).name=comment }
}
//* gin() search through param strings to graph particular members of llist
// eg regexp="SPCX SPTC SPSM " then 'gin(1)' to create regexp: 'SPCX.+%sSPTC.+%sSPSM.+%s'
// gin("5","","") will find examples with SPCX=5 and graph SPTC against SPSM
// ginpr() will search through llist and just print out the file names
// meant to be used after running dir2pr() to get a summary file
strdef regexp
proc gin () { local i,a
a=allocvecs(1)
revec(mso[a]) tstr=regexp
for i=1,numarg() repl_str(tstr,"%s",$si,temp_string2_) // replace sprint
for ltr(XO,panobj.llist,&y) if (strm(XO.name,tstr)) mso[a].append(y)
if (mso[a].size!=boxer.rows*boxer.cols) {
printf("gin() ERR: %d!=%dx%d\n",mso[a].size,boxer.rows,boxer.cols)
dealloc(a) return
}
geall(1)
for bxit() panobj.rv(mso[a].x[i1])
tstr=regexp
repl_mstr(tstr,".\\+%s","=%s,",temp_string2_)
chop(tstr)
for i=1,numarg() repl_str(tstr,"%s",$si,temp_string2_)
sprint(tstr,"%s: %s",panobj.filename,tstr)
bxcomm(tstr) print tstr
dealloc(a)
}
proc ginpr () { local base,i
if (numarg()==0) {
print "Set regexp to begin: eg\n\tregexp=\"SMTC SPSM NSTC \" (space at end)"
print "Then call ginpr(regexp) to reset regexp"
print "Then call eg ginpr(\"0.015\",\"\",\"\") to list or gin(...) to graph"
return }
if (numarg()==1) {
regexp=$s1 repl_mstr(regexp," ",".+%s,",tstr)
chop(regexp,",")
print regexp return }
base=1 tstr=regexp // where they start numbering
for i=1,numarg() repl_str(tstr,"%s",$si,temp_string2_) // replace sprint
for ltr(XO,panobj.llist,&y) if (strm(XO.name,tstr)) printf("%03d %s\n",base+y,XO.name)
}