WIP : a first approach of space data strucures.

2021-12-09 14:55:59 +01:00 · 2021-12-09 14:55:59 +01:00 · 0fd3966433
parent f068ca6731
commit 0fd3966433
3 changed files with 25 additions and 11 deletions
--- a/models/dimers
+++ b/models/dimers
@ -34,7 +34,7 @@
            <!-- Each site points towards a neighbouring space unit. -->
            <!-- Several arrows can be stacked in the same site. -->

-            <site_multiplicity>3</site_multiplicity>
+            <site_multiplicity>6</site_multiplicity>

        </space-param>

@ -55,15 +55,18 @@

    <states id="texte" date="1630000000" author="Here, states are spaces.">
        <space id="initial" date="1630000000" author="Une souris verte,">
+            <arrow site="0" weight="8" x="0"/>
            <arrow site="1" weight="1" x="0"/>
-            <arrow site="2" weight="1" x="1"/>
-            <arrow site="1" weight="1" x="10"/>
-            <arrow site="2" weight="1" x="11"/>
-            <arrow site="1" weight="1" x="20"/>
-            <arrow site="2" weight="1" x="21"/>
+            <arrow site="2" weight="7" x="1"/>
+            <arrow site="1" weight="1" x="6"/>
+            <arrow site="2" weight="1" x="7"/>
+            <arrow site="1" weight="8" x="15"/>
+            <arrow site="2" weight="1" x="16"/>
+            <arrow site="1" weight="9" x="28"/>
+            <arrow site="5" weight="9" x="29"/>

          <!-- Three dimers 1-1 are drawn in the global space
-               at locations (0,1) (10,11) and (20,21) -->
+               at locations (0,1) (6,7) and (15,16) -->

        </space>

--- a/src/pycache/model.cpython-39.pyc
+++ b/src/pycache/model.cpython-39.pyc
--- a/src/glimpse.py
+++ b/src/glimpse.py
@ -5,30 +5,41 @@ sp = model.testmodel.get_states().get_space(0)
 size = model.testmodel.get_parameters().spaceparam.get_dimension().get_x()
 nb_sites = int (model.testmodel.get_parameters().spaceparam.get_site_multiplicity())
 nb_arrows = int (model.testmodel.get_states().get_space(0).get_nb_arrows())
+weight = int (model.testmodel.get_states().get_space(0).get_arrow(0).get_weight())

 space = []
 cells = []
 sites = []
+weights = []
 arrows = []
+extremite = 1

 for x in range (0, nb_arrows):
    arrows.append(sp.get_arrow(x).get_coord("x"))
    sites.append(sp.get_arrow(x).get_site())
+    weights.append(sp.get_arrow(x).get_weight())
+
+for i in range (0, (size + 1) * (nb_sites + 1) + extremite): space.append(0)

 print()
-# print (sites)
+print("space size = ", size, "   nb de sites par cellule = ", nb_sites,
+        "   nb total de flèches dans l'espace = ", nb_arrows)
+print()
+print (sites)
+print (weights)
 print (arrows)
 print()

 for i in range (0, size + 1): cells.append('')
-for i in range (0,121): space.append(0)

 for i in range (0, size + nb_sites - 1):
-    space[i * (nb_sites + 1)] = ''
+    if i <= size + extremite:       # ad hoc ! (j'en conviens...)
+        space[i * (nb_sites + 1)] = ''
    for k  in range (0, nb_arrows):
        if arrows[k] == i:
            cells[i] = i # cette cellule contient au moins une flèche
-            space[i * (nb_sites + 1) + sites[k] + 1] = 1 # nombre de flèches dans ce site
+            space[i * (nb_sites + 1) + sites[k] + 1] = weights[k]
+                # nombre de flèches dans ce site

 print (cells)
 print()