Utilisation d'une "classe" pour des données de solvants chimiques
On peut utiliser la structure de classe pour créer une “table” de données sur des solvants. Il est alors possible d'effectuer des traitements de tris, sélection, impression…
<sxh python; title : organic_solvents_data_class.py> #!/usr/bin/env python # -*- coding: utf-8 -*-
# a solvent database using a list of class instances # a modification of: http://www.daniweb.com/code/snippet390.html # EU tested with Python 2.4 10/30/2006 # # modification UMONS - cours programmation python - 2007-2012 #
import operator # for attrgetter()
class Solvent(object):
"""a structure class for solvents, self refers to the instance""" def __init__(self, name=9999, bp=9999, mp=9999, fp=9999, dy=9999, de=9999, nr=9999, mu=9999, so=9999, fo=9999): self.name = name # 9999 --> not applicable self.bp = bp # boiling point degC self.mp = mp # melting point degC self.fp = fp # flash point degC self.dy = dy # density g/ml self.de = de # dielectric constant self.nr = nr # refractive index self.mu = mu # dipole moment in Debye self.so = so # solubility in water (g/100g water) --> 9000 = miscible self.fo = fo # chemical formula
def table(solvent_list):
"""print a table of all solvent attributes""" title_str = "%-20s %8s %8s %8s %8s %8s %8s %8s %8s %20s" data_str = "%-20s %8.1f %8.1f %8.1f %8.3f %8.2f %8.2f %8.2f %8.2f %-20s" print "-"*122 print title_str % ("Name", "Bp", "Mp", "Fp", "Density", "Dielect", "Ref. Ind", "Dipole", "H2O Sol.", "Formula") for solvent in solvent_list: print data_str % (solvent.name, solvent.bp, solvent.mp, solvent.fp, solvent.dy, solvent.de, solvent.nr, solvent.mu, solvent.so, solvent.fo) print "-"*122 print "9999 --> not applicable; 9000 --> miscible" print
def table_bp(solvent_list, bp_limit):
"""print a table of all solvent attributes, with bp restrictions"""
title_str = "%-20s %8s %8s %8s %8s %8s"
data_str = "%-20s %8.1f %8.1f %8.1f %8.3f %8.2f"
print "-"*72
print title_str % ("Name", "Bp", "Mp", "Fp", "Density", "Dielectric")
for solvent in solvent_list:
if solvent.bp > bp_limit:
print data_str % (solvent.name, solvent.bp, solvent.mp, solvent.fp, solvent.dy, solvent.de)
print "-"*72
print "9999 --> not applicable; 9000 --> miscible"
print
# make a list of class Solvent instances # also adds all the data/information # data order = name, boiling point, melting point, flash point, density, dielectric constant, # refractive index, dipole moment in Debye, solubility in water (g/100g water), chemical formula # 9999 –> not applicable; 9000 –> miscible solvent_list = [] solvent_list.append(Solvent(“methanol”, 64.7, -97.7, 11, 0.791, 32.7, 1.3284, 1.7, 9900, “CH4O”)) solvent_list.append(Solvent(“ethanol”, 78.3, -114.1, 8, 0.789, 24.55, 1.3614, 1.69, 9900, “C2H6O”)) solvent_list.append(Solvent(“propanol iso”, 82.3, -88, 22, 0.785, 19.92, 1.3772, 1.66, 9900, “C3H8O”)) solvent_list.append(Solvent(“butanol normal”, 117.7, -88.6, 35, 0.81, 17.51, 9999, 9999, 7.7, “C4H10O”)) solvent_list.append(Solvent(“butanol secondary”, 88.8, -114.7, 26, 0.805, 16.56, 9999, 9999, 9999, “C4H10O”)) solvent_list.append(Solvent(“butanol tertiary”, 82.2, 25.5, 4, 0.786, 10.9, 1.3877, 1.66, 9900, “C4H10O”)) #solvent_list.append(Solvent(“benzyl alcohol”, 205.4, -15.3, 100, 1.045, 13.1, 9999, 9999, 9999, “unknown”)) solvent_list.append(Solvent(“acetone”, 56.3, -94.7, -17, 0.791, 20.7, 1.3587, 2.85, 9900, “C3H6O”)) solvent_list.append(Solvent(“toluene”, 110.6, -94.9, 4, 0.867, 2.38, 1.4969, 0.43, 0.05, “C7H8”)) solvent_list.append(Solvent(“water”, 100, 0, 9999, 1, 78.5, 1.333, 1.82, 9900, “H2O”)) solvent_list.append(Solvent(“dimethyl formamide”, 153, -61, 58, 0.944, 36.7, 1.4305, 3.86, 9900, “C3H7NO”)) solvent_list.append(Solvent(“acetic acid”, 118, 17, 39, 1.049, 6.15, 1.3716, 1.68, 9900, “C2H4O2”)) # got the drift, add more solvents here …
print “Sort the solvent_list by name …” solvent_list.sort(key=operator.attrgetter('name')) # … now show a table of the solvent_list table(solvent_list)
print “Sort the solvent_list by melting point …” solvent_list.sort(key=operator.attrgetter('mp')) # … now show a table of the solvent_list table(solvent_list)
print “Sort the solvent_list by boiling point …” solvent_list.sort(key=operator.attrgetter('bp')) # … now show a table of the solvent_list table(solvent_list)
# ajouter suivant d'autres tris (solubilité ,…)
bp_limit = 75 print “Show only solvents boiling higher than %0.1f degC:” % bp_limit # show a boiling point restricted table table_bp(solvent_list, bp_limit)
# on peut chercher un solvant de densité supérieure à l'eau, mais # peu soluble ou insoluble (solubilité < 0.05 par exemple)
</sxh>