How to use the pyscipopt.exp function in PySCIPOpt
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SCIP-Interfaces / PySCIPOpt / tests / test_expr.py View on Github 
assert isinstance(expr, GenExpr)
expr = x + y
assert isinstance(expr, Expr)
expr *= sqrt(x)
assert isinstance(expr, GenExpr)
expr = x + y
assert isinstance(expr, Expr)
expr **= 1.5
assert isinstance(expr, GenExpr)
expr = x + y
assert isinstance(expr, Expr)
assert isinstance(expr + exp(x), GenExpr)
assert isinstance(expr - exp(x), GenExpr)
assert isinstance(expr/x, GenExpr)
assert isinstance(expr * x**1.2, GenExpr)
assert isinstance(sqrt(expr), GenExpr)
assert isinstance(abs(expr), GenExpr)
assert isinstance(log(expr), GenExpr)
assert isinstance(exp(expr), GenExpr)
with pytest.raises(ZeroDivisionError):
expr /= 0.0def test_equation(model):
m, x, y, z = model
equat = 2*x**1.2 - 3*sqrt(y) == 1
assert isinstance(equat, ExprCons)
assert equat._lhs == equat._rhs
assert equat._lhs == 1.0
equat = exp(x+2*y) == 1 + x**1.2
assert isinstance(equat, ExprCons)
assert isinstance(equat.expr, GenExpr)
assert equat._lhs == equat._rhs
assert equat._lhs == 0.0
equat = x == 1 + x**1.2
assert isinstance(equat, ExprCons)
assert isinstance(equat.expr, GenExpr)
assert equat._lhs == equat._rhs
assert equat._lhs == 0.0assert isinstance(expr, Expr)
cons = expr >= x**1.2
assert isinstance(cons, ExprCons)
assert isinstance(cons.expr, GenExpr)
assert cons._lhs == 0.0
assert cons._rhs is None
assert isinstance(expr, Expr)
cons = expr >= 1 + x**1.2
assert isinstance(cons, ExprCons)
assert isinstance(cons.expr, GenExpr)
assert cons._lhs == 0.0 # NOTE: the 1 is pass the the other side because of the way GenExprs work
assert cons._rhs is None
assert isinstance(expr, Expr)
cons = exp(expr) <= 1 + x**1.2
assert isinstance(cons, ExprCons)
assert isinstance(cons.expr, GenExpr)
assert cons._rhs == 0.0
assert cons._lhs is Nonedef test_genexpr_op_genexpr(model):
m, x, y, z = model
genexpr = x**1.5 + y
assert isinstance(genexpr, GenExpr)
genexpr **= 2.2
assert isinstance(genexpr, GenExpr)
genexpr += exp(x)
assert isinstance(genexpr, GenExpr)
genexpr -= exp(x)
assert isinstance(genexpr, GenExpr)
genexpr /= log(x + 1)
assert isinstance(genexpr, GenExpr)
genexpr *= (x + y)**1.2
assert isinstance(genexpr, GenExpr)
genexpr /= exp(2)
assert isinstance(genexpr, GenExpr)
genexpr /= x + y
assert isinstance(genexpr, GenExpr)
genexpr = x**1.5 + y
assert isinstance(genexpr, GenExpr)
assert isinstance(sqrt(x) + genexpr, GenExpr)
assert isinstance(exp(x) + genexpr, GenExpr)
assert isinstance(1/x + genexpr, GenExpr)
assert isinstance(1/x**1.5 - genexpr, GenExpr)
assert isinstance(y/x - exp(genexpr), GenExpr)
# sqrt(2) is not a constant expression and
# we can only power to constant expressions!
with pytest.raises(NotImplementedError):
genexpr **= sqrt(2)expr = x + y
assert isinstance(expr, Expr)
expr **= 1.5
assert isinstance(expr, GenExpr)
expr = x + y
assert isinstance(expr, Expr)
assert isinstance(expr + exp(x), GenExpr)
assert isinstance(expr - exp(x), GenExpr)
assert isinstance(expr/x, GenExpr)
assert isinstance(expr * x**1.2, GenExpr)
assert isinstance(sqrt(expr), GenExpr)
assert isinstance(abs(expr), GenExpr)
assert isinstance(log(expr), GenExpr)
assert isinstance(exp(expr), GenExpr)
with pytest.raises(ZeroDivisionError):
expr /= 0.0def test_upgrade(model):
m, x, y, z = model
expr = x + y
assert isinstance(expr, Expr)
expr += exp(z)
assert isinstance(expr, GenExpr)
expr = x + y
assert isinstance(expr, Expr)
expr -= exp(z)
assert isinstance(expr, GenExpr)
expr = x + y
assert isinstance(expr, Expr)
expr /= x
assert isinstance(expr, GenExpr)
expr = x + y
assert isinstance(expr, Expr)
expr *= sqrt(x)
assert isinstance(expr, GenExpr)
expr = x + y
assert isinstance(expr, Expr)
expr **= 1.5
assert isinstance(expr, GenExpr)assert isinstance(genexpr, GenExpr)
genexpr /= log(x + 1)
assert isinstance(genexpr, GenExpr)
genexpr *= (x + y)**1.2
assert isinstance(genexpr, GenExpr)
genexpr /= exp(2)
assert isinstance(genexpr, GenExpr)
genexpr /= x + y
assert isinstance(genexpr, GenExpr)
genexpr = x**1.5 + y
assert isinstance(genexpr, GenExpr)
assert isinstance(sqrt(x) + genexpr, GenExpr)
assert isinstance(exp(x) + genexpr, GenExpr)
assert isinstance(1/x + genexpr, GenExpr)
assert isinstance(1/x**1.5 - genexpr, GenExpr)
assert isinstance(y/x - exp(genexpr), GenExpr)
# sqrt(2) is not a constant expression and
# we can only power to constant expressions!
with pytest.raises(NotImplementedError):
genexpr **= sqrt(2)def test_genexpr_op_genexpr(model):
m, x, y, z = model
genexpr = x**1.5 + y
assert isinstance(genexpr, GenExpr)
genexpr **= 2.2
assert isinstance(genexpr, GenExpr)
genexpr += exp(x)
assert isinstance(genexpr, GenExpr)
genexpr -= exp(x)
assert isinstance(genexpr, GenExpr)
genexpr /= log(x + 1)
assert isinstance(genexpr, GenExpr)
genexpr *= (x + y)**1.2
assert isinstance(genexpr, GenExpr)
genexpr /= exp(2)
assert isinstance(genexpr, GenExpr)
genexpr /= x + y
assert isinstance(genexpr, GenExpr)
genexpr = x**1.5 + y
assert isinstance(genexpr, GenExpr)
assert isinstance(sqrt(x) + genexpr, GenExpr)
assert isinstance(exp(x) + genexpr, GenExpr)
assert isinstance(1/x + genexpr, GenExpr)
assert isinstance(1/x**1.5 - genexpr, GenExpr)
assert isinstance(y/x - exp(genexpr), GenExpr)PySCIPOpt
Python interface and modeling environment for SCIP
Package Health Score
84 / 100Popular PySCIPOpt functions
- pyscipopt.Conshdlr
- pyscipopt.exp
- pyscipopt.linexpr.LinExpr
- pyscipopt.Model
- pyscipopt.multidict
- pyscipopt.quicksum
- pyscipopt.scip.Expr
- pyscipopt.scip.Term
- pyscipopt.SCIP_EVENTTYPE
- pyscipopt.SCIP_PARAMSETTING
- pyscipopt.SCIP_PARAMSETTING.OFF
- pyscipopt.SCIP_RESULT
- pyscipopt.SCIP_RESULT.CONSADDED
- pyscipopt.SCIP_RESULT.CUTOFF
- pyscipopt.SCIP_RESULT.DIDNOTFIND
- pyscipopt.SCIP_RESULT.DIDNOTRUN
- pyscipopt.SCIP_RESULT.FEASIBLE
- pyscipopt.SCIP_RESULT.INFEASIBLE
- pyscipopt.sqrt
- pyscipopt.Term