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474 lines
20 KiB
474 lines
20 KiB
import sys
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if sys.version_info[0] == 2:
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raise ImportError('Python 2.x is not supported for stormpy.')
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from . import core
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from .core import *
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from . import storage
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from .storage import *
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from ._config import *
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from .logic import *
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from .exceptions import *
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from pycarl import Variable # needed for building parametric models
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__version__ = "unknown"
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try:
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from ._version import __version__
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except ImportError:
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# We're running in a tree that doesn't have a _version.py, so we don't know what our version is.
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pass
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core._set_up("")
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def _convert_sparse_model(model, parametric=False):
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"""
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Convert (parametric) model in sparse representation into model corresponding to exact model type.
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:param model: Sparse model.
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:param parametric: Flag indicating if the model is parametric.
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:return: Model corresponding to exact model type.
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"""
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if parametric:
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assert model.supports_parameters
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if model.model_type == ModelType.DTMC:
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return model._as_sparse_pdtmc()
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elif model.model_type == ModelType.MDP:
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return model._as_sparse_pmdp()
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elif model.model_type == ModelType.CTMC:
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return model._as_sparse_pctmc()
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elif model.model_type == ModelType.MA:
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return model._as_sparse_pma()
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else:
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raise StormError("Not supported parametric model constructed")
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else:
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assert not model.supports_parameters
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if model.model_type == ModelType.DTMC:
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return model._as_sparse_dtmc()
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elif model.model_type == ModelType.MDP:
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return model._as_sparse_mdp()
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elif model.model_type == ModelType.POMDP:
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return model._as_sparse_pomdp()
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elif model.model_type == ModelType.CTMC:
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return model._as_sparse_ctmc()
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elif model.model_type == ModelType.MA:
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return model._as_sparse_ma()
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else:
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raise StormError("Not supported non-parametric model constructed")
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def _convert_symbolic_model(model, parametric=False):
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"""
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Convert (parametric) model in symbolic representation into model corresponding to exact model type.
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:param model: Symbolic model.
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:param parametric: Flag indicating if the model is parametric.
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:return: Model corresponding to exact model type.
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"""
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if parametric:
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assert model.supports_parameters
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if model.model_type == ModelType.DTMC:
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return model._as_symbolic_pdtmc()
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elif model.model_type == ModelType.MDP:
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return model._as_symbolic_pmdp()
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elif model.model_type == ModelType.CTMC:
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return model._as_symbolic_pctmc()
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elif model.model_type == ModelType.MA:
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return model._as_symbolic_pma()
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else:
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raise StormError("Not supported parametric model constructed")
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else:
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assert not model.supports_parameters
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if model.model_type == ModelType.DTMC:
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return model._as_symbolic_dtmc()
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elif model.model_type == ModelType.MDP:
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return model._as_symbolic_mdp()
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elif model.model_type == ModelType.CTMC:
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return model._as_symbolic_ctmc()
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elif model.model_type == ModelType.MA:
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return model._as_symbolic_ma()
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else:
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raise StormError("Not supported non-parametric model constructed")
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def build_model(symbolic_description, properties=None):
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"""
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Build a model in sparse representation from a symbolic description.
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:param symbolic_description: Symbolic model description to translate into a model.
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:param List[Property] properties: List of properties that should be preserved during the translation. If None, then all properties are preserved.
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:return: Model in sparse representation.
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"""
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return build_sparse_model(symbolic_description, properties=properties)
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def build_parametric_model(symbolic_description, properties=None):
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"""
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Build a parametric model in sparse representation from a symbolic description.
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:param symbolic_description: Symbolic model description to translate into a model.
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:param List[Property] properties: List of properties that should be preserved during the translation. If None, then all properties are preserved.
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:return: Parametric model in sparse representation.
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"""
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return build_sparse_parametric_model(symbolic_description, properties=properties)
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def build_sparse_model(symbolic_description, properties=None):
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"""
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Build a model in sparse representation from a symbolic description.
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:param symbolic_description: Symbolic model description to translate into a model.
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:param List[Property] properties: List of properties that should be preserved during the translation. If None, then all properties are preserved.
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:return: Model in sparse representation.
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"""
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if not symbolic_description.undefined_constants_are_graph_preserving:
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raise StormError("Program still contains undefined constants")
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if properties:
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formulae = [(prop.raw_formula if isinstance(prop, Property) else prop) for prop in properties]
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intermediate = core._build_sparse_model_from_symbolic_description(symbolic_description, formulae)
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else:
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intermediate = core._build_sparse_model_from_symbolic_description(symbolic_description)
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return _convert_sparse_model(intermediate, parametric=False)
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def build_sparse_parametric_model(symbolic_description, properties=None):
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"""
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Build a parametric model in sparse representation from a symbolic description.
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:param symbolic_description: Symbolic model description to translate into a model.
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:param List[Property] properties: List of properties that should be preserved during the translation. If None, then all properties are preserved.
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:return: Parametric model in sparse representation.
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"""
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if not symbolic_description.undefined_constants_are_graph_preserving:
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raise StormError("Program still contains undefined constants")
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if properties:
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formulae = [(prop.raw_formula if isinstance(prop, Property) else prop) for prop in properties]
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intermediate = core._build_sparse_parametric_model_from_symbolic_description(symbolic_description, formulae)
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else:
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intermediate = core._build_sparse_parametric_model_from_symbolic_description(symbolic_description)
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return _convert_sparse_model(intermediate, parametric=True)
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def build_symbolic_model(symbolic_description, properties=None):
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"""
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Build a model in symbolic representation from a symbolic description.
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:param symbolic_description: Symbolic model description to translate into a model.
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:param List[Property] properties: List of properties that should be preserved during the translation. If None, then all properties are preserved.
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:return: Model in symbolic representation.
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"""
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if not symbolic_description.undefined_constants_are_graph_preserving:
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raise StormError("Program still contains undefined constants")
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if properties:
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formulae = [(prop.raw_formula if isinstance(prop, Property) else prop) for prop in properties]
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intermediate = core._build_symbolic_model_from_symbolic_description(symbolic_description, formulae)
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else:
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intermediate = core._build_symbolic_model_from_symbolic_description(symbolic_description)
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return _convert_symbolic_model(intermediate, parametric=False)
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def build_symbolic_parametric_model(symbolic_description, properties=None):
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"""
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Build a parametric model in symbolic representation from a symbolic description.
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:param symbolic_description: Symbolic model description to translate into a model.
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:param List[Property] properties: List of properties that should be preserved during the translation. If None, then all properties are preserved.
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:return: Parametric model in symbolic representation.
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"""
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if not symbolic_description.undefined_constants_are_graph_preserving:
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raise StormError("Program still contains undefined constants")
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if properties:
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formulae = [(prop.raw_formula if isinstance(prop, Property) else prop) for prop in properties]
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intermediate = core._build_symbolic_parametric_model_from_symbolic_description(symbolic_description, formulae)
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else:
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intermediate = core._build_symbolic_parametric_model_from_symbolic_description(symbolic_description)
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return _convert_symbolic_model(intermediate, parametric=True)
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def build_model_from_drn(file):
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"""
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Build a model in sparse representation from the explicit DRN representation.
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:param String file: DRN file containing the model.
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:return: Model in sparse representation.
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"""
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intermediate = core._build_sparse_model_from_drn(file)
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return _convert_sparse_model(intermediate, parametric=False)
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def build_parametric_model_from_drn(file):
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"""
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Build a parametric model in sparse representation from the explicit DRN representation.
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:param String file: DRN file containing the model.
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:return: Parametric model in sparse representation.
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"""
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intermediate = core._build_sparse_parametric_model_from_drn(file)
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return _convert_sparse_model(intermediate, parametric=True)
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def perform_bisimulation(model, properties, bisimulation_type):
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"""
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Perform bisimulation on model.
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:param model: Model.
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:param properties: Properties to preserve during bisimulation.
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:param bisimulation_type: Type of bisimulation (weak or strong).
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:return: Model after bisimulation.
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"""
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return perform_sparse_bisimulation(model, properties, bisimulation_type)
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def perform_sparse_bisimulation(model, properties, bisimulation_type):
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"""
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Perform bisimulation on model in sparse representation.
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:param model: Model.
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:param properties: Properties to preserve during bisimulation.
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:param bisimulation_type: Type of bisimulation (weak or strong).
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:return: Model after bisimulation.
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"""
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formulae = [(prop.raw_formula if isinstance(prop, Property) else prop) for prop in properties]
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if model.supports_parameters:
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return core._perform_parametric_bisimulation(model, formulae, bisimulation_type)
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else:
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return core._perform_bisimulation(model, formulae, bisimulation_type)
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def perform_symbolic_bisimulation(model, properties):
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"""
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Perform bisimulation on model in symbolic representation.
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:param model: Model.
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:param properties: Properties to preserve during bisimulation.
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:return: Model after bisimulation.
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"""
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formulae = [(prop.raw_formula if isinstance(prop, Property) else prop) for prop in properties]
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bisimulation_type = BisimulationType.STRONG
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if model.supports_parameters:
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return core._perform_symbolic_parametric_bisimulation(model, formulae, bisimulation_type)
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else:
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return core._perform_symbolic_bisimulation(model, formulae, bisimulation_type)
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def model_checking(model, property, only_initial_states=False, extract_scheduler=False, environment=Environment()):
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"""
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Perform model checking on model for property.
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:param model: Model.
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:param property: Property to check for.
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:param only_initial_states: If True, only results for initial states are computed, otherwise for all states.
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:param extract_scheduler: If True, try to extract a scheduler
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:return: Model checking result.
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:rtype: CheckResult
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"""
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if model.is_sparse_model:
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return check_model_sparse(model, property, only_initial_states=only_initial_states,
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extract_scheduler=extract_scheduler, environment=environment)
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else:
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assert(model.is_symbolic_model)
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if extract_scheduler:
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raise StormError("Model checking based on dd engine does not support extracting schedulers right now.")
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return check_model_dd(model, property, only_initial_states=only_initial_states,
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environment=environment)
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def check_model_sparse(model, property, only_initial_states=False, extract_scheduler=False, environment=Environment()):
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"""
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Perform model checking on model for property.
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:param model: Model.
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:param property: Property to check for.
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:param only_initial_states: If True, only results for initial states are computed, otherwise for all states.
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:param extract_scheduler: If True, try to extract a scheduler
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:return: Model checking result.
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:rtype: CheckResult
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"""
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if isinstance(property, Property):
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formula = property.raw_formula
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else:
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formula = property
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if model.supports_parameters:
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task = core.ParametricCheckTask(formula, only_initial_states)
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task.set_produce_schedulers(extract_scheduler)
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return core._parametric_model_checking_sparse_engine(model, task, environment=environment)
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else:
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task = core.CheckTask(formula, only_initial_states)
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task.set_produce_schedulers(extract_scheduler)
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return core._model_checking_sparse_engine(model, task, environment=environment)
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def check_model_dd(model, property, only_initial_states=False, environment=Environment()):
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"""
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Perform model checking using dd engine.
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:param model: Model.
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:param property: Property to check for.
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:param only_initial_states: If True, only results for initial states are computed, otherwise for all states.
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:return: Model checking result.
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:rtype: CheckResult
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"""
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if isinstance(property, Property):
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formula = property.raw_formula
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else:
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formula = property
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if model.supports_parameters:
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task = core.ParametricCheckTask(formula, only_initial_states)
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return core._parametric_model_checking_dd_engine(model, task, environment=environment)
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else:
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task = core.CheckTask(formula, only_initial_states)
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return core._model_checking_dd_engine(model, task, environment=environment)
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def check_model_hybrid(model, property, only_initial_states=False, environment=Environment()):
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"""
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Perform model checking using hybrid engine.
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:param model: Model.
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:param property: Property to check for.
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:param only_initial_states: If True, only results for initial states are computed, otherwise for all states.
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:return: Model checking result.
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:rtype: CheckResult
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"""
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if isinstance(property, Property):
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formula = property.raw_formula
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else:
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formula = property
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if model.supports_parameters:
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task = core.ParametricCheckTask(formula, only_initial_states)
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return core._parametric_model_checking_hybrid_engine(model, task, environment=environment)
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else:
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task = core.CheckTask(formula, only_initial_states)
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return core._model_checking_hybrid_engine(model, task, environment=environment)
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def transform_to_sparse_model(model):
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"""
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Transform model in symbolic representation into model in sparse representation.
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:param model: Symbolic model.
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:return: Sparse model.
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"""
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if model.supports_parameters:
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return core._transform_to_sparse_parametric_model(model)
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else:
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return core._transform_to_sparse_model(model)
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def transform_to_discrete_time_model(model, properties):
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"""
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Transform continuous-time model to discrete time model.
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:param model: Continuous-time model.
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:param properties: List of properties to transform as well.
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:return: Tuple (Discrete-time model, converted properties).
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"""
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formulae = [(prop.raw_formula if isinstance(prop, Property) else prop) for prop in properties]
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if model.supports_parameters:
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return core._transform_to_discrete_time_parametric_model(model, formulae)
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else:
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return core._transform_to_discrete_time_model(model, formulae)
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def prob01min_states(model, eventually_formula):
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assert type(eventually_formula) == logic.EventuallyFormula
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labelform = eventually_formula.subformula
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labelprop = core.Property("label-prop", labelform)
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phiStates = BitVector(model.nr_states, True)
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psiStates = model_checking(model, labelprop).get_truth_values()
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return compute_prob01min_states(model, phiStates, psiStates)
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def prob01max_states(model, eventually_formula):
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assert type(eventually_formula) == logic.EventuallyFormula
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labelform = eventually_formula.subformula
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labelprop = core.Property("label-prop", labelform)
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phiStates = BitVector(model.nr_states, True)
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psiStates = model_checking(model, labelprop).get_truth_values()
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return compute_prob01min_states(model, phiStates, psiStates)
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def compute_prob01_states(model, phi_states, psi_states):
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"""
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Compute prob01 states for properties of the form phi_states until psi_states
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:param SparseDTMC model:
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:param BitVector phi_states:
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:param BitVector psi_states: Target states
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"""
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if model.model_type != ModelType.DTMC:
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raise StormError("Prob 01 is only defined for DTMCs -- model must be a DTMC")
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if model.supports_parameters:
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return core._compute_prob01states_rationalfunc(model, phi_states, psi_states)
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else:
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return core._compute_prob01states_double(model, phi_states, psi_states)
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def compute_prob01min_states(model, phi_states, psi_states):
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if model.model_type == ModelType.DTMC:
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return compute_prob01_states(model, phi_states, psi_states)
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if model.supports_parameters:
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return core._compute_prob01states_min_rationalfunc(model, phi_states, psi_states)
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else:
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return core._compute_prob01states_min_double(model, phi_states, psi_states)
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def compute_prob01max_states(model, phi_states, psi_states):
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if model.model_type == ModelType.DTMC:
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return compute_prob01_states(model, phi_states, psi_states)
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if model.supports_parameters:
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return core._compute_prob01states_max_rationalfunc(model, phi_states, psi_states)
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else:
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return core._compute_prob01states_max_double(model, phi_states, psi_states)
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def topological_sort(model, forward=True, initial=[]):
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"""
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:param model:
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:param forward:
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:return:
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"""
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matrix = model.transition_matrix if forward else model.backward_transition_matrix
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if isinstance(model, storage._SparseParametricModel):
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return storage._topological_sort_rf(matrix, initial)
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elif isinstance(model, storage._SparseModel):
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return storage._topological_sort_double(matrix, initial)
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else:
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raise StormError("Unknown kind of model.")
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def construct_submodel(model, states, actions, keep_unreachable_states=True, options=SubsystemBuilderOptions()):
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"""
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:param model: The model
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:param states: Which states should be preserved
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:param actions: Which actions should be preserved
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:param keep_unreachable_states: If False, run a reachability analysis.
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:return: A model with fewer states/actions
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"""
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if isinstance(model, storage._SparseModel):
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return core._construct_subsystem_double(model, states, actions, keep_unreachable_states, options)
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else:
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raise NotImplementedError()
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def parse_properties(properties, context = None, filters = None):
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"""
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:param properties: A string with the pctl properties
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:param context: A symbolic model that gives meaning to variables and constants.
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:param filters: filters, if applicable.
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:return: A list of properties
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"""
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if context is None:
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return core.parse_properties_without_context(properties, filters)
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elif type(context) == core.SymbolicModelDescription:
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if context.is_prism_program():
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return core.parse_properties_for_prism_program(properties, context.as_prism_program(), filters)
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else:
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core.parse_properties_for_prism_program(properties, context.as_jani_model(), filters)
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elif type(context) == storage.PrismProgram:
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return core.parse_properties_for_prism_program(properties, context, filters)
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elif type(context) == storage.JaniModel:
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core.parse_properties_for_jani_model(properties, context, filters)
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|
else:
|
|
raise StormError("Unclear context. Please pass a symbolic model description")
|