// $Id: drline.hoc,v 1.41 2011/02/15 14:05:02 billl Exp $
// load_file("drline.hoc")
// click and drag left button to draw lines on top of a figure interactively
// select graph to draw on with setdrl(Graph[])
// set color with clr, line width with lne
// select 'Draw curve' for continuous drawing
// select 'Arrow' to place an arrow pointing according to direction of drag
drlflush=1 //whether to flush line drawings each drline call
//* drline(x0,y0,x1,y1,OPT graph or color)
proc drline () { local color,line
if (numarg()==0) { print "drline(x0,y0,x1,y1[,g,col,line])"
return }
if (numarg()>4) {
if (argtype(5)==0) { color=$5
if (numarg()>5) line=$6
} else { graphItem = $o5
if (numarg()>5) color=$6
if (numarg()>6) line=$7 }}
graphItem.beginline(color,line)
graphItem.line($1,$2)
graphItem.line($3,$4)
if(drlflush) graphItem.flush()
}
//* set to drawlines on top of fig
proc setdrl () {
g=$o1 // select this graph for further drawing
xpanel("")
$o1.menu_tool("Draw line","drl")
$o1.menu_tool("Draw curve","drc")
$o1.menu_tool("Label","drw")
$o1.menu_tool("Arrow","dra")
$o1.menu_tool("Circle","drci")
$o1.menu_tool("Rectangle","drr")
xvalue("Color","clr",1,"",1)
xvalue("Line","lne",1,"",1)
xbutton("Erase","g.erase_all()")
xpanel()
$o1.exec_menu("Draw line")
}
//* draw line interactively on top of fig
// interesting that this should work at all since x0,y0 local but still preserving their
// values across multiple calls
proc drl () { local x0,y0,type,x,y,keystate
type=$1 x=$2 y=$3 keystate=$4
if (type==2) {x0=x y0=y}
if (type==3) drline(x0,y0,x,y,clr,lne)
}
//* draw circle interactively on top of fig
// drci(2,0,0,0) drci(3,1,0,0)
proc drci () { local a,x0,y0,type,x,y,keystate,ii,rad localobj xv,yv
type=$1 x=$2 y=$3 keystate=$4
if (type==2) {x0=x y0=y}
if (type==3) { rad=sqrt((x-x0)^2+(y-y0)^2)
a=allocvecs(xv,yv) vrsz(360,xv,yv)
print "Circle: ",x0,y0,rad
yv.circ(xv,x0,y0,rad)
yv.line(g,xv,clr,lne)
dealloc(a)
}
}
//* draw retangle interactively on top of fig
proc drr () { local x0,y0,type,x,y,keystate
type=$1 x=$2 y=$3 keystate=$4
if (type==2) {x0=x y0=y}
if (type==3) { drline(x0,y0,x0,y,clr,lne)
drline(x,y0,x,y,clr,lne) drline(x,y,x0,y,clr,lne) drline(x,y0,x0,y0,clr,lne) }
}
//* draw arrow interactively on top of fig
proc dra () { local xsz,ysz,type,x,y,keystate,rot
type=$1 x=$2 y=$3 keystate=$4
xsz=0.1*(g.size(2)-g.size(1)) // 10% of size
ysz=0.1*(g.size(4)-g.size(3))
if (type==2) {x0=x y0=y}
if (type==3) {
if (y==y0) {
if (x>x0) rot=-90 else rot=90
} else {
rot=-atan((x-x0)/(y-y0))/2/PI*360
if ((y-y0)<=0) rot+=180
}
g.glyph(arrow(),x,y,xsz,ysz,rot)
}
}
//* draw curve interactively on top of fig
proc drc () { local x0,y0,type,x,y,keystate
type=$1 x=$2 y=$3 keystate=$4
if (type==2) { x0=x y0=y
} else if (type==1) {
drline(x0,y0,x,y,clr,lne)
x0=x y0=y
} else if (type==3) drline(x0,y0,x,y,clr,lne)
}
//* write label
proc drw () { local x0,y0,type,x,y,keystate
type=$1 x=$2 y=$3 keystate=$4
if (type==2) {
string_dialog("Label: ",tstr)
g.label(x,y,tstr,1,1,0.5,0.5,clr)
}
}
obfunc arrow () { localobj o
o=new Glyph()
o.m(0,0) o.l(0,2) o.s(1,4) // draw vertical line
o.m(0,0) o.l(0,-2) o.s(1,4) // draw vertical line
o.m(0,-2) o.l(-2,0) o.s(1,4)
o.m(0,-2) o.l(2,0) o.s(1,4)
return o
}
//* hist(g,vec,min,max,bins)
{clr=1 hflg=1 ers=1 sym=1 pflg=0 lin=4 hbup=0}
declared("hfunc")
// clr:color, hflg=1 draw lines; 2 draw boxes; 3 fill in; ers=erase;
// pflg=1 normalize hist by size of $o2, so will be probability instead of count
// pflg=2 turn hist upside down
// pflg=3 operate on values with hfunc()
// style determined by hflg
// hflg==0 lines with dots
// hflg==0.x offset lines with dots
// hflg==1 outlines but not down to zero
// hflg==2 outlines with lines down to zero
// hflg==3 just dots
// hflg==3.x lines between dots
// hbup=1 // move baseline up by this amount
func hist () { local a,b,c,min,max,wid,bins,ii,jj,offset,x,y
if (numarg()==0) { printf("hist(g,vec,min,max,bins)\n") return 0}
if ($o2.size<2) { printf("hist: $o2 too small\n",$o2) return -1}
if ($o2.min==$o2.max) { printf("hist: %s all one value: %g\n",$o2,$o2.min) return -1}
if (numarg()==5) {min=$3 max=$4 bins=$5
} else if (numarg()==4) { min=0 max=$3 bins=$4
} else if (numarg()<=3) {
if ((min=0.95*$o2.min)<0) min=1.05*$o2.min
if ((max=1.05*$o2.max)<0) max=0.95*$o2.max
bins=100
if (min>0) min*=0.9 else min*=1.1
if (max>0) max*=1.1 else max*=0.9
if (numarg()==3) bins=$3
}
wid=(max-min)/bins
// print min,max,max-wid,wid
a=b=c=allocvecs(3) b+=1 c+=2
offset=0 x=-1
if (ers) $o1.erase_all()
mso[c].hist($o2,min,bins,wid) // c has values
if(pflg==1) mso[c].div(mso[c].sum) // normalize to sum to 1
if(pflg==2) mso[c].mul(-1)
if(pflg==3) hfunc(mso[c])
mso[a].resize(2*mso[c].size())
mso[a].indgen(0.5)
mso[a].apply("int")
mso[b].index(mso[c], mso[a])
mso[a].mul(wid) mso[a].add(min)
mso[b].rotate(1)
mso[b].x[0] = 0
mso[b].append(mso[b].x[mso[b].size-1],0)
mso[b].add(hbup)
mso[a].append(max,max)
if (hflg==1 || hflg==2) {
mso[b].line($o1, mso[a],clr,lin)
if (hflg==2) for vtr(&x,mso[a]) drline(x,0,x,mso[b].x[i1],$o1,clr,lin)
} else if (int(hflg)==0 || hflg>=3) {
if (hflg%1!=0) offset=hflg*wid // use eg -0.5+ii/8 to move back to integer
mso[a].indgen(min,max-wid,wid)
mso[a].add(wid/2+offset)
// print mso[a].min,mso[a].max
// mso[c].mark($o1,mso[a],"O",6,clr,2) // this will place points where 0 count
for jj=0,mso[a].size-1 if (mso[c].x[jj]!=0) {
if (hflg!=3 && hflg%1!=0) drline(mso[a].x[jj],0,mso[a].x[jj],mso[c].x[jj],$o1,clr,lin)
if (hflg==4) {
if (x!=-1) drline(x,y,mso[a].x[jj],mso[c].x[jj],$o1,clr,lin)
x=mso[a].x[jj] y=mso[c].x[jj]
}
$o1.mark(mso[a].x[jj],mso[c].x[jj],sg(sym).t,10,clr,2) // don't place points with 0 count
}
}
$o1.flush()
$o1.size(min,max,0,mso[b].max)
dealloc(a)
return 1
}
// barplot(g,yvec,xvec[,bar_width])
// barplot(g,yvec,xvec[,bar_width,color_vec]) -- for multicolored bars -- each point has a color
// barplot(g,yvec,xvec[,bar_width,color_vec,error_vec]) -- error_vec plots the error
scribble=0
func barplot () { local a,sz,wid,ii,jj,x,y,mulcol localobj go,vx,vy,v1,vcol
if (numarg()==0) {
printf("barplot(g,yvec,xvec[,bar_width]), scribble=1 to 'fill in'\n")
printf("set scribble=1 to fill in with single color (based on clr)\n")
printf("barplot(g,yvec,xvec[,bar_width,color_vec]):multicolored bars-each point has a color\n")
printf("barplot(g,yvec,xvec[,bar_width,color_vec,error_vec]):add +/- error to each bar\n")
return 0}
if ((sz=$o2.size)!=$o3.size) { printf("barplot: x,y vectors differ in size\n") return -1}
go=$o1 $o3.sort
if (argtype(4)==0) wid=$4 else wid=1
if (argtype(5)==1) {vcol=$o5 mulcol=-1
if (sz!=vcol.size) { printf("barplot: color vec wrong size: %d %d\n",sz,vcol.size) return -1}
} else if (argtype(5)==0) mulcol=$5 else mulcol=0
wid/=2
// print min,max,max-wid,wid
a=allocvecs(vx,vy,v1)
if (ers) go.erase_all()
for vtr2(&x,&y,$o3,$o2,&ii) {
vx.append(x-wid,x-wid,x+wid,x+wid)
vy.append(0,y,y,0)
}
if (mulcol) {
for vtr2(&x,&y,$o3,$o2,&jj) {
if (mulcol==-1) clr=vcol.x[jj] else clr=mulcol
vrsz(0,vx,vy)
vx.append(x-wid,x-wid)
vy.append(0,y)
for (ii=0;ii<2*wid;ii+=(wid/100)) {
vx.add(wid/100)
vy.line(go, vx, clr, 4)
}
}
vy.line(go, vx, clr, 4)
} else if (scribble) {
vrsz(0,vx,vy)
for vtr2(&x,&y,$o3,$o2,&ii) {
vx.append(x-wid,x-wid,x-wid)
vy.append(0,y,0)
}
for (ii=0;ii<2*wid;ii+=(wid/100)) {
vx.add(wid/100)
vy.line(go, vx, clr, 4)
}
vy.line(go, vx, clr, 4)
} else vy.line(go, vx, clr, lne)
if(numarg()>5) $o2.ploterr(go, $o3, $o6, 15, 1, 3)
go.flush()
go.size(vx.min-wid,vx.max+wid,0,vy.max)
dealloc(a)
return 1
}
proc smgs () { local a,b,c,min,max,wid,bins,ii,jj,offset,x,y localobj v1
if ($o2.size<2) { printf("smgs: $o2 too small\n",$o2) return -1}
if ($o2.min==$o2.max) { printf("smgs: %s all one value: %g\n",$o2,$o2.min) return -1}
if (numarg()==5) {min=$3 max=$4 bins=$5
} else if (numarg()==4) { min=0 max=$3 bins=$4
} else if (numarg()<=3) {
if ((min=0.95*$o2.min)<0) min=1.05*$o2.min
if ((max=1.05*$o2.max)<0) max=0.95*$o2.max
bins=100
if (min>0) min*=0.9 else min*=1.1
if (max>0) min*=1.1 else max*=0.9
if (numarg()==3) bins=$3
}
wid=(max-min)/bins
// print min,max,max-wid,wid
a=b=c=allocvecs(3,1e4) b+=1 c+=2
offset=0 x=-1
if (ers) $o1.erase_all()
mso[a].indgen(min,max,wid)
if (0) {
mso[c].smgs($o2,min,max,wid,wid*wid/4) // c has values
mso[c].line($o1, mso[a],clr,4)
} else {
v1=$o2.sumgauss(min,max,wid,wid/2) // c has values
v1.line($o1, mso[a],clr,4)
}
}
//* a few drawing utilities from sam (not too spectacular)
//** drawhticks(ticksz,minx,maxx,linewidth,$5-$numarg() == y position of horizontal ticks)
// draw horizontal ticks of a view box along left/right of box
proc drawhticks () { local ticksz,minx,maxx,lw,i
ticksz=$1 minx=$2 maxx=$3 lw=$4
for i=5,numarg() {
drline(minx,$i,minx+ticksz,$i,g,1,lw) drline(maxx,$i,maxx-ticksz,$i,g,1,lw)
}
}
//** drawvticks(ticksz,miny,maxy,linewidth,$5-$numarg() == x position of vertical ticks)
// draw vertical ticks of a view box along top/bottom of box
proc drawvticks () { local ticksz,miny,maxy,lw,i
ticksz=$1 miny=$2 maxy=$3 lw=$4
for i=5,numarg() {
drline($i,miny,$i,miny+ticksz,g,1,lw) drline($i,maxy,$i,maxy-ticksz,g,1,lw)
}
}
//** drawbox(minx,maxx,miny,maxy[,line,graph]) - draw box
proc drawbox () { local minx,maxx,miny,maxy,ln localobj myg
minx=$1 maxx=$2 miny=$3 maxy=$4
if(numarg()>4)ln=$5 else ln=3
if(numarg()>5)myg=$o6 else myg=g
drline(minx,miny,minx,maxy,myg,1,ln) //bottom
drline(minx,miny,maxx,miny,myg,1,ln) //left
drline(minx,maxy,maxx,maxy,myg,1,ln) //top
drline(maxx,miny,maxx,maxy,myg,1,ln) //right
}