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Rev Author Line No. Line
20 reyssat 1 
!if  $wims_read_parm!=slib_header
2 
 !goto proc
3 
!endif
4162 bpr 4 
 
20 reyssat 5 
slib_author=Georges KHAZNADAR
4162 bpr 6 
 
20 reyssat 7 
slib_example= ,,,,,,,,,sin(x),[],0,0,1.2,1.5,2.4,3.2\
475 georgesk 8 
12,8,0,0,1 max t (ms),1 max U (V),blue,red,[255,128,128],sin(x),[0,0,1.3,1.4,2.5,3],0,0,1.2,1.5,2.4,3.2 \
9 
,,,,,,,,,[cos(6.28*t),sin(6.28*t)],[],0,0,1.2,1.5,2.4,3.2
20 reyssat 10 
 
11 
 
12 
!exit
13 
 
14 
:proc
15 
 
16 
!reset slib_xd, slib_yd, slib_bg, slib_lc, slib_dc, slib_point, slib_xo, slib_yo, slib_xs, slib_ys, slib_correct slib_f, slib_labx, slib_laby, slib_maxx, slib_maxy
17 
 
18 
slib_parm=!item 1 to 11 of $wims_read_parm
19 
!distribute item $slib_parm into slib_xd, slib_yd, slib_xo, slib_yo, slib_xs, slib_ys, slib_bg, slib_lc, slib_dc, slib_f, slib_correct
20 
 
21 
slib_point=!item 12 to -1 of $wims_read_parm
22 
 
23 
 
24 
!default slib_xd=8
25 
!default slib_yd=8
26 
!default slib_xo=1
27 
!default slib_yo=1
28 
!default slib_xs=1
29 
!default slib_ys=1
30 
!default slib_correct=[]
31 
 
475 georgesk 32 
slib_f = !declosing $slib_f
33 
 
20 reyssat 34 
slib_labx=!word 2 to -1 of $slib_xs
35 
slib_laby=!word 2 to -1 of $slib_ys
36 
slib_xs=!word 1 of $slib_xs
37 
slib_ys=!word 1 of $slib_ys
38 
 
39 
slib_maxx=!word 1 of $slib_labx
40 
!if $slib_maxx = max
41 
  slib_labx = !word 2 to -1 of $slib_labx
42 
  !! we need to compute the X step slib_xs, given the values
43 
  !! of the total width slib_xd, abscissa of origin slib_xo
44 
  !! and knowing that slib_xs currently means a maximum value.
45 
  !! slib_xd-slib_xo must be be sufficient to display ticks greater
46 
  !! than the current value of slib_xs, the tick step being a multiple
47 
  !! of 1, 2 or 5.
48 
  slib_log=$[log10($slib_xs/($slib_xd-$slib_xo))]
49 
  slib_logint=$[floor($slib_log)]
50 
  slib_logmant=$[$slib_log-$slib_logint]
51 
  !if $slib_logmant > $[log10(5)]
52 
     slib_xs=1e$[$slib_logint+1]
53 
  !else
54 
    !if $slib_logmant > $[log10(2)]
55 
      slib_xs=5e$slib_logint
56 
    !else
57 
      slib_xs=2e$slib_logint
58 
    !endif
59 
  !endif
60 
!else
61 
  slib_maxx=$empty
62 
!endif
63 
 
64 
slib_maxy=!word 1 of $slib_laby
65 
!if $slib_maxy = max
66 
  slib_laby = !word 2 to -1 of $slib_laby
67 
  !! we need to compute the Y step slib_ys, given the values
68 
  !! of the total height slib_yd, ordinate of origin slib_yo
69 
  !! and knowing that slib_ys currently means a maximum value.
70 
  !! slib_yd-slib_yo must be be sufficient to display ticks greater
71 
  !! than the current value of slib_ys, the tick step being a multiple
72 
  !! of 1, 2 or 5.
73 
  slib_log=$[log10($slib_ys/($slib_yd-$slib_yo))]
74 
  slib_logint=$[floor($slib_log)]
75 
  slib_logmant=$[$slib_log-$slib_logint]
76 
  !if $slib_logmant > $[log10(5)]
77 
     slib_ys=1e$[$slib_logint+1]
78 
  !else
79 
    !if $slib_logmant > $[log10(2)]
80 
      slib_ys=5e$slib_logint
81 
    !else
82 
      slib_ys=2e$slib_logint
83 
    !endif
84 
  !endif
85 
!else
86 
  slib_maxy=$empty
87 
!endif
88 
 
89 
slib_dc=!declosing $slib_dc
90 
 
91 
slib_correct=!declosing $slib_correct
92 
slib_point=!declosing $slib_point
93 
 
94 
slib_bg=!declosing $slib_bg
95 
!default slib_bg=240,233,255
96 
 
97 
slib_lc=!declosing $slib_lc
98 
!default slib_lc=255,220,180
99 
 
100 
slib_dc=!declosing $slib_dc
101 
!default slib_dc=10,10,10
102 
 
103 
!!!!!!!!!!!!!!!!! begin grid !!!!!!!!!!!!!!!!!!!!!!!!!
104 
 
105 
slib_grey=128,128,128
106 
 
107 
slib_dessin = new 60*$slib_xd,60*$slib_yd\
108 
xrange -0.5, 10*$slib_xd-0.5\
109 
yrange -0.5, 10*$slib_yd-0.5\
110 
fill 1,1,$slib_bg
111 
 
112 
!! traits fins tous les millimetres
113 
slib_dessin=$slib_dessin\
114 
linewidth 1\
115 
parallel 0, 0, 0, 10*$slib_yd, 1, 0, 10*$slib_xd+1, $slib_lc\
116 
parallel 0, 0, 10*$slib_xd, 0, 0, 1, 10*$slib_yd+1, $slib_lc
117 
 
118 
!! traits gros tous les centimetres
119 
slib_dessin=$slib_dessin\
120 
linewidth 3\
121 
parallel 0, 0, 0, 10*$slib_yd, 10, 0, $slib_xd+1, $slib_lc\
122 
parallel 0, 0, 10*$slib_xd, 0, 0, 10, $slib_yd+1, $slib_lc
123 
 
124 
!! axe_x
125 
slib_dessin=$slib_dessin\
126 
linewidth 3\
127 
hline 0, $[10*$slib_yo], $slib_grey\
128 
line $[10*$slib_xd-3],$[10*$slib_yo-1],$[10*$slib_xd-1],$[10*$slib_yo], $slib_grey\
129 
line $[10*$slib_xd-3],$[10*$slib_yo+1],$[10*$slib_xd-1],$[10*$slib_yo], $slib_grey\
130 
parallel 0,$[10*$slib_yo+1],0,$[10*$slib_yo-1], 10, 0, $slib_xd+1, $slib_grey
131 
 
132 
slib_val=$[-$slib_xo*$slib_xs]
133 
slib_dessin=$slib_dessin\
134 
linewidth 1
135 
!for slib_x from 0 to  10*$slib_xd step 10
136 
 slib_dessin=$slib_dessin\
137 
 text blue,$[$slib_x+1],$[10*$slib_yo-1],medium,$slib_val
138 
 slib_val=$[$slib_val+$slib_xs]
139 
!next slib_x
140 
!if $slib_labx != $empty
141 
  slib_dessin=$slib_dessin\
142 
  text blue,$[$slib_x-20],$[10*$slib_yo-6],medium,$slib_labx
143 
!endif
144 
 
145 
!! axe_y
146 
slib_dessin=$slib_dessin\
147 
linewidth 3\
148 
vline $[10*$slib_xo],0, $slib_grey\
149 
line $[10*$slib_xo-1],$[10*$slib_yd-3],$[10*$slib_xo],$[10*$slib_yd-1], $slib_grey\
150 
line $[10*$slib_xo+1],$[10*$slib_yd-3],$[10*$slib_xo],$[10*$slib_yd-1], $slib_grey\
151 
parallel $[10*$slib_xo+1],0,$[10*$slib_xo-1], 0, 0, 10, $slib_yd+1, $slib_grey
152 
 
153 
slib_val=$[-$slib_yo*$slib_ys]
154 
slib_dessin=$slib_dessin\
155 
linewidth 1
156 
!for slib_y from 0 to  10*$slib_yd step 10
157 
 slib_dessin=$slib_dessin\
158 
 text blue,$[10*$slib_xo+1],$[$slib_y-1],medium,$slib_val
159 
 slib_val=$[$slib_val+$slib_ys]
160 
!next slib_y
161 
!if $slib_laby != $empty
162 
  slib_dessin=$slib_dessin\
163 
  text blue,$[10*$slib_xo-9],$[$slib_y-10],medium,$slib_laby
164 
!endif
165 
 
166 
!!!!!!!!!!!!!!!!! end grid !!!!!!!!!!!!!!!!!!!!!!!!!
167 
 
168 
!! red dots : the correct list
169 
n1=!itemcnt $slib_correct
170 
!for i from 1 to $n1 step 2
171 
!if $i < $n1
172 
 slib_x=!item $i of $slib_correct
173 
 slib_x=$[10*$slib_x/$slib_xs]
174 
 slib_y=!item $[$i+1] of $slib_correct
175 
 slib_y=$[10*$slib_y/$slib_ys]
176 
 slib_x1=$[10*$slib_xo+$slib_x-0.6]
177 
 slib_x2=$[10*$slib_xo+$slib_x+0.6]
178 
 slib_y1=$[10*$slib_yo+$slib_y-0.6]
179 
 slib_y2=$[10*$slib_yo+$slib_y+0.6]
180 
 !! add one red dot
181 
 slib_dessin=$slib_dessin\
182 
 linewidth 2\
183 
 line $slib_x1,$slib_y1,$slib_x2,$slib_y2,red\
184 
 line $slib_x2,$slib_y1,$slib_x1,$slib_y2,red
185 
!endif $i < $n1
186 
!next i
187 
 
188 
!! the function : blue thin curve
475 georgesk 189 
slib_n = !itemcnt $slib_f
190 
!if $slib_n = 1
191 
  slib_f = !replace internal x by ($slib_xs/10*(x-10*$slib_xo)) in $slib_f
192 
  slib_f = 10*($slib_f)/$slib_ys+10*$slib_yo
193 
!else
194 
  slib_x = !item 1 of $slib_f
195 
  slib_y = !item 2 of $slib_f
196 
  slib_x = 10*($slib_x/$slib_xs+$slib_xo)
197 
  slib_y = 10*($slib_y/$slib_ys+$slib_yo)
198 
  slib_f = $slib_x, $slib_y
199 
!endif
200 
 
20 reyssat 201 
slib_dessin=$slib_dessin\
202 
plot blue, $slib_f
203 
 
204 
!! black dots
205 
n2=!itemcnt $slib_point
206 
!for i from 1 to $n2 step 2
207 
!if $i < $n2
208 
 slib_x=!item $i of $slib_point
209 
 slib_x=$[10*$slib_x/$slib_xs]
210 
 slib_y=!item $[$i+1] of $slib_point
211 
 slib_y=$[10*$slib_y/$slib_ys]
212 
 slib_x1=$[10*$slib_xo+$slib_x-0.6]
213 
 slib_x2=$[10*$slib_xo+$slib_x+0.6]
214 
 slib_y1=$[10*$slib_yo+$slib_y-0.6]
215 
 slib_y2=$[10*$slib_yo+$slib_y+0.6]
216 
 !! add one '$slib_dc' dot
217 
 slib_dessin=$slib_dessin\
218 
 linewidth 2\
219 
 line $slib_x1,$slib_y1,$slib_x2,$slib_y2,$slib_dc\
220 
 line $slib_x2,$slib_y1,$slib_x1,$slib_y2,$slib_dc
221 
!endif $i < $n2
222 
!next i
223 
 
224 
slib_out= $slib_dessin