;------------------------------------------------------------- ;+ ; NAME: ; HOR ; PURPOSE: ; Plot a horizontal line on a graph at specified y value. ; CATEGORY: ; CALLING SEQUENCE: ; hor, y ; INPUTS: ; y = Y value of horizontal line. Scalar or array. in ; KEYWORD PARAMETERS: ; Keywords: ; /DEVICE means work in device coordinates. ; /NORMALIZED means work in normalized coordinates. ; Default is data coordinates. ; LINESTYLE=s. Linestyle (def=!p.linestyle). ; COLOR=c. Line color (def=!p.color). ; THICKNESS=t Line thickness (def=!p.thick). ; FILL=clr Optional color to fill between line pairs. ; Fills between lines 0 and 1, 2 and 3, and so on. ; POINTER=pt Draw arrowhead pointers at left and right ; instead of lines. Arrowhead dimensions may be given as ; fraction of screen or plot window size, the value of ; pt is height, or [height, width]. For /pointer the ; default used is [.03,.03]. ; /LEFT used with POINTER to plot left pointers only. ; /RIGHT used with POINTER to plot right pointers only. ; OUTPUTS: ; COMMON BLOCKS: ; NOTES: ; Notes: see ver. ; MODIFICATION HISTORY: ; R. Sterner, 2 Aug, 1989. ; R. Sterner, 21 May, 1992 --- fixed for log X axes. ; R. Sterner, 3 Nov, 1992 --- Added /device. ; R. Sterner, 20 Jun, 1993 --- Added /normalized. ; R. Sterner, 1994 Feb 2 --- Added THICK. ; R. Sterner, 1994 Jun 3 --- Added FILL. ; R. Sterner, 1994 Jun 16 --- Added POINTER, /TOP, /BOTTOM. ; ; Copyright (C) 1989, Johns Hopkins University/Applied Physics Laboratory ; This software may be used, copied, or redistributed as long as it is not ; sold and this copyright notice is reproduced on each copy made. This ; routine is provided as is without any express or implied warranties ; whatsoever. Other limitations apply as described in the file disclaimer.txt. ;- ;------------------------------------------------------------- pro hor, y, help=hlp, device=device, linestyle=ls, color=clr, $ thickness=thk, normalized=norm, fill=fill, pointer=pt, $ left=left, right=right if (n_params(0) lt 1) or keyword_set(hlp) then begin print,' Plot a horizontal line on a graph at specified y value.' print,' hor, y' print,' y = Y value of horizontal line. Scalar or array. in' print,' Keywords:' print,' /DEVICE means work in device coordinates.' print,' /NORMALIZED means work in normalized coordinates.' print,' Default is data coordinates.' print,' LINESTYLE=s. Linestyle (def=!p.linestyle).' print,' COLOR=c. Line color (def=!p.color).' print,' THICKNESS=t Line thickness (def=!p.thick).' print,' FILL=clr Optional color to fill between line pairs.' print,' Fills between lines 0 and 1, 2 and 3, and so on.' print,' POINTER=pt Draw arrowhead pointers at left and right' print,' instead of lines. Arrowhead dimensions may be given as' print,' fraction of screen or plot window size, the value of' print,' pt is height, or [height, width]. For /pointer the' print,' default used is [.03,.03].' print,' /LEFT used with POINTER to plot left pointers only.' print,' /RIGHT used with POINTER to plot right pointers only.' print,' Notes: see ver.' return end yy = y n = n_elements(yy) if n_elements(ls) eq 0 then ls = !p.linestyle if n_elements(clr) eq 0 then clr = !p.color if n_elements(thk) eq 0 then thk = !p.thick ;------ Handle pointers ----------- if n_elements(pt) eq 0 then pt = 0 pflag = 0 if pt(0) gt 0 then begin if pt(0) eq 1 then pt=.03 ht = pt(0) wd = pt(n_elements(pt)-1) if n_elements(pt) eq 1 then wd = ht/2. pflag = 1 endif lflag=0 rflag=0 if keyword_set(left) then lflag=1 if keyword_set(right) then rflag=1 if (lflag+rflag) eq 0 then begin lflag=1 rflag=1 endif ;-------- Device ------------ if keyword_set(device) then begin xx = [0,!d.x_size-1] for i = 0, n-1 do begin ;-------- Filled line pairs ----------- if n_elements(fill) ne 0 then begin if (i mod 2) eq 0 then begin x1 = xx(0) & x2 = xx(1) y1 = yy(i) & y2 = yy((i+1)<(n-1)) polyfill, /dev, [x1,x2,x2,x1],[y1,y1,y2,y2],color=fill endif ;--------- Single lines --------------- endif else if pflag eq 0 then begin plots, /device,xx,[0,0]+yy(i),linestyle=ls,color=clr,thick=thk ;--------- Pointers ------------------- endif else begin dx = round((!d.x_size-1)*ht) x1 = [0,dx,0] x2 = !d.x_size-1 - [0,dx,0] dy = round((!d.y_size-1)*wd/2.) dy = [-dy,0,dy]+yy(i) if lflag then polyfill,/dev,x1,dy,col=clr if rflag then polyfill,/dev,x2,dy,col=clr endelse endfor ;--------- Normalized ---------- endif else if keyword_set(norm) then begin xx = [0,1] for i = 0, n-1 do begin ;-------- Filled line pairs ----------- if n_elements(fill) ne 0 then begin if (i mod 2) eq 0 then begin x1 = xx(0) & x2 = xx(1) y1 = yy(i) & y2 = yy((i+1)<(n-1)) polyfill, /norm, [x1,x2,x2,x1],[y1,y1,y2,y2],color=fill endif ;--------- Single lines --------------- endif else if pflag eq 0 then begin plots, /norm,xx,[0,0]+yy(i),linestyle=ls,color=clr,thick=thk ;--------- Pointers ------------------- endif else begin dx = ht x1 = [0,dx,0] x2 = [1,1-dx,1] dy = wd/2. dy = [-dy,0,dy]+yy(i) if lflag then polyfill,/norm,x1,dy,col=clr if rflag then polyfill,/norm,x2,dy,col=clr endelse endfor ;---------- Data ------------- endif else begin xx = [!x.range, !x.crange] for i = 0, n-1 do begin ;------ Linear X axis ------------ if !x.type eq 0 then begin ;-------- Filled line pairs ----------- if n_elements(fill) ne 0 then begin if (i mod 2) eq 0 then begin x1 = min(xx) & x2 = max(xx) y1 = yy(i) & y2 = yy((i+1)<(n-1)) polyfill, [x1,x2,x2,x1],[y1,y1,y2,y2],color=fill,noclip=0 endif ;--------- Single lines --------------- endif else if pflag eq 0 then begin oplot,[min(xx),max(xx)],[1.,1.]*yy(i),linestyle=ls,$ color=clr, thick=thk ;--------- Pointers ------------------- endif else begin dx = (!x.crange(1)-!x.crange(0))*ht x1 = [0,dx,0]+!x.crange(0) x2 = [0,-dx,0]+!x.crange(1) dy = (!y.crange(1)-!y.crange(0))*wd/2. if !y.type eq 0 then dy=[-dy,0,dy]+yy(i) else $ dy=10^([-dy,0,dy]+alog10(yy(i))) if lflag then polyfill,x1,dy,col=clr if rflag then polyfill,x2,dy,col=clr endelse ;------ Log X axis ------------ endif else begin ;-------- Filled line pairs ----------- if n_elements(fill) ne 0 then begin if (i mod 2) eq 0 then begin y1 = yy(i) & y2 = yy((i+1)<(n-1)) x1 = min(xx) & x2 = max(xx) polyfill, 10^[x1,x2,x2,x1],[y1,y1,y2,y2],color=fill,noclip=0 endif ;--------- Single lines --------------- endif else if pflag eq 0 then begin oplot,10^[min(xx),max(xx)],[1.,1.]*yy(i),linestyle=ls,$ color=clr, thick=thk ;--------- Pointers ------------------- endif else begin dy = (!y.crange(1)-!y.crange(0))*wd/2. if !y.type eq 0 then dy=[-dy,0,dy]+yy(i) else $ dy=10^([-dy,0,dy]+alog10(yy(i))) dx = (!x.crange(1)-!x.crange(0))*ht x1 = 10^([0,dx,0]+!x.crange(0)) x2 = 10^([0,-dx,0]+!x.crange(1)) if lflag then polyfill,x1,dy,col=clr if rflag then polyfill,x2,dy,col=clr endelse endelse ; !x.type. endfor endelse return end