1XYFLAT(3) MBK PHYSICAL FUNCTIONS XYFLAT(3)
2
6 xyflat - compute hierarchical coordinates
7
9 #include "mph.h"
10 void xyflat(xout, yout, x, y, xins, yins, x1, y1, x2, y2, trsf)
11 long ∗xout, ∗yout;
12 long x, y;
13 long xins, yins;
14 long x1, y1, x2, y2;
15 char trsf;
16
18 xout, yout Values filled by the function call, return values,
19 that represent coordinates of the point in the fig‐
20 ure
21 x, y Coordinates of a point in the instance
23 xins, yins Coordinates of the lower left corner of the
25 instance
26 x1, y1, x2, y2 Coordinates of the abutment box of the model of the
28 instance
29 trsf Geometrical operation applied to the instance
31
33 xyflat computes coordinates relative to a model of instance in order to
34 give them in figure coordinates, taking care of the transformation per‐
35 formed on the instance.
36 This function is very useful when flattening, or getting coordinates of
37 an object belonging to an istance at figure level.
38 Care must be taken that the x1, y1, x2, y2 parameters are not the cur‐
39 rent figure abutment box coordinates, but the instance model abutment
40 box coordinates.
41
43 #include "mph.h"
44 long GET_CON_X(insname, conname, index)
45 char ∗insname, ∗conname;
46 long index;
47 {
48 phfig_list ∗ptfig; /∗ pointer on model of instance called insname ∗/
49 phins_list ∗ptins; /∗ pointer on instance called insname ∗/
50 phcon_list ∗ptcon; /∗ pointer on the conname called con inside ptins ∗/
51 long x_con, y_con; /∗ return values, y_con here for beauty ∗/
52 ptins = getphins(WORK_PHFIG, insname);
53 ptfig = getphfig(ptins->FIGNAME, 'P');
54 ptcon = getphcon(ptfig, conname, index);
55 xyflat(&x_con, &y_con, ptcon->XCON, ptcon->YCON,
56 ptins->XINS, ptins->YIINS,
57 ptfig->XAB1, ptfig->YAB1, ptfig->XAB2, ptfig->YAB2,
58 ptins->TRANSF);
59 return x_con;
60 }
61
63 mbk(1), phfig(3), phins(3).
64ASIM/LIP6 October 1, 1997 XYFLAT(3)