X-Git-Url: https://svn.cri.ensmp.fr/git/linpy.git/blobdiff_plain/2b13a146860ac116ce0388d8f7551044c09c55f7..445188d203994af9bd78ad64491837483cbec05d:/linpy/polyhedra.py?ds=sidebyside diff --git a/linpy/polyhedra.py b/linpy/polyhedra.py index c05432a..1ccbe9c 100644 --- a/linpy/polyhedra.py +++ b/linpy/polyhedra.py @@ -318,10 +318,10 @@ class Polyhedron(Domain): return 'And({})'.format(', '.join(strings)) @classmethod - def fromsympy(cls, expr): - domain = Domain.fromsympy(expr) + def fromsympy(cls, expression): + domain = Domain.fromsympy(expression) if not isinstance(domain, Polyhedron): - raise ValueError('non-polyhedral expression: {!r}'.format(expr)) + raise ValueError('non-polyhedral expression: {!r}'.format(expression)) return domain def tosympy(self): @@ -380,75 +380,75 @@ Universe = UniverseType() def _pseudoconstructor(func): @functools.wraps(func) - def wrapper(expr1, expr2, *exprs): - exprs = (expr1, expr2) + exprs - for expr in exprs: - if not isinstance(expr, LinExpr): - if isinstance(expr, numbers.Rational): - expr = Rational(expr) + def wrapper(expression1, expression2, *expressions): + expressions = (expression1, expression2) + expressions + for expression in expressions: + if not isinstance(expression, LinExpr): + if isinstance(expression, numbers.Rational): + expression = Rational(expression) else: raise TypeError('arguments must be rational numbers ' 'or linear expressions') - return func(*exprs) + return func(*expressions) return wrapper @_pseudoconstructor -def Lt(*exprs): +def Lt(*expressions): """ Create the polyhedron with constraints expr1 < expr2 < expr3 ... """ inequalities = [] - for left, right in zip(exprs, exprs[1:]): + for left, right in zip(expressions, expressions[1:]): inequalities.append(right - left - 1) return Polyhedron([], inequalities) @_pseudoconstructor -def Le(*exprs): +def Le(*expressions): """ Create the polyhedron with constraints expr1 <= expr2 <= expr3 ... """ inequalities = [] - for left, right in zip(exprs, exprs[1:]): + for left, right in zip(expressions, expressions[1:]): inequalities.append(right - left) return Polyhedron([], inequalities) @_pseudoconstructor -def Eq(*exprs): +def Eq(*expressions): """ Create the polyhedron with constraints expr1 == expr2 == expr3 ... """ equalities = [] - for left, right in zip(exprs, exprs[1:]): + for left, right in zip(expressions, expressions[1:]): equalities.append(left - right) return Polyhedron(equalities, []) @_pseudoconstructor -def Ne(*exprs): +def Ne(*expressions): """ Create the domain such that expr1 != expr2 != expr3 ... The result is a Domain object, not a Polyhedron. """ domain = Universe - for left, right in zip(exprs, exprs[1:]): + for left, right in zip(expressions, expressions[1:]): domain &= ~Eq(left, right) return domain @_pseudoconstructor -def Ge(*exprs): +def Ge(*expressions): """ Create the polyhedron with constraints expr1 >= expr2 >= expr3 ... """ inequalities = [] - for left, right in zip(exprs, exprs[1:]): + for left, right in zip(expressions, expressions[1:]): inequalities.append(left - right) return Polyhedron([], inequalities) @_pseudoconstructor -def Gt(*exprs): +def Gt(*expressions): """ Create the polyhedron with constraints expr1 > expr2 > expr3 ... """ inequalities = [] - for left, right in zip(exprs, exprs[1:]): + for left, right in zip(expressions, expressions[1:]): inequalities.append(left - right - 1) return Polyhedron([], inequalities)