aranega/validator.py

## validator.py
from pyecore.ecore import *
from pyecore.resources import ResourceSet
from pyecore.utils import dispatch
from enum import unique, Enum
from functools import wraps

import pyecore.ecore as ecore

from collections import namedtuple


# Definition of error levels and diagnostics

@unique
class Level(Enum):
    OK = 0
    INFO = 1
    WARNING = 2
    ERROR = 3
    CRITIC = 4


diagnostic = namedtuple('diagnostic', ['rule_id', 'level', 'elements', 'message'])

OK_diagnostic = diagnostic(None, Level.OK, set(), None)


# definition of some rules for ecore files

def no_name(named_element):
    """
    Check if the name feature of an object is set
    """
    if named_element.name:
        return OK_diagnostic
    eclass_name = named_element.eClass.name
    return diagnostic('no_name', Level.ERROR, {named_element},
                      '{} instances *must* have a name'.format(eclass_name))


def same_name_in_namespace(obj, container):
    """
    Check if two objects own the same name in a same namespace
    """
    problematic_elements = set()
    for element in (e for e in container if e is not obj):
        if element.name == obj.name:
            problematic_elements.add(element)
    if not problematic_elements:
        return OK_diagnostic
    problematic_elements.add(obj)
    message = 'These objects have the exact same name in the namespace: {}'.format(problematic_elements)
    return diagnostic('same_name', Level.ERROR, problematic_elements, message)


def no_type(typed_element):
    """
    Check if the type of an element is well set
    """
    if typed_element.eType:
        return OK_diagnostic
    eclass_name = typed_element.eClass.name
    message = '{} instances *must* have a type.'.format(eclass_name)
    return diagnostic('no_type', Level.ERROR, {typed_element}, message)


# Ecore validator, it binds rules with specific EObjects
class EcoreValidator(object):
    @dispatch
    def do_switch(self, obj):
        return set()

    def apply_rules(self, obj, rules):
        diagnostics = []
        for rule in rules:
            diagnostic = rule(obj)
            if diagnostic.level is not Level.OK:
                diagnostics.append(diagnostic)
        return diagnostics

    @do_switch.register(EClass)
    def validate_EClass(self, eclass):
        eclassifiers = eclass.ePackage.eClassifiers
        same_name = lambda obj: same_name_in_namespace(obj, eclassifiers)
        return self.apply_rules(eclass, [no_name, same_name])

    @do_switch.register(EStructuralFeature)
    def validate_EStructuralFeature(self, feature):
        all_features = feature.eContainingClass.eAllStructuralFeatures()
        same_name = lambda obj: same_name_in_namespace(obj, all_features)
        return self.apply_rules(feature, [no_name, same_name, no_type])

    @do_switch.register(ETypedElement)
    def validate_ETypedElement(self, typed):
        return self.apply_rules(typed, [no_type])

    @do_switch.register(EPackage)
    def validate_EPackage(self, epackage):
        rules = [no_name]
        if epackage.eSuperPackage:
            parent_package = epackage.eSuperPackage.eSubpackages
            same_name = lambda obj: same_name_in_namespace(obj, parent_package)
            rules.append(same_name)
        return self.apply_rules(epackage, rules)


# The generic validate function that applies a validator to a model root
def validate(root, validator):
    diagnostics = [*validator.do_switch(root)]
    for element in root.eAllContents():
        for diagnostic in validator.do_switch(element):
            if diagnostic not in diagnostics:
                diagnostics.extend(diagnostic)
    return diagnostics


# A dedicated validator for ecore
def validate_ecore(root):
    return validate(root, EcoreValidator())


# A small example model
pack = EPackage(name='test')
A = EClass('A')
A.eStructuralFeatures.append(EAttribute('name'))
A.eStructuralFeatures.append(EAttribute('name', EString))
B = EClass('A')
pack.eClassifiers.extend([A, B])

# We launch the validation
from pprint import pprint
pprint(validate_ecore(pack))
	from pyecore.ecore import *
	from pyecore.resources import ResourceSet
	from pyecore.utils import dispatch
	from enum import unique, Enum
	from functools import wraps

	import pyecore.ecore as ecore

	from collections import namedtuple


	# Definition of error levels and diagnostics

	@unique
	class Level(Enum):
	OK = 0
	INFO = 1
	WARNING = 2
	ERROR = 3
	CRITIC = 4


	diagnostic = namedtuple('diagnostic', ['rule_id', 'level', 'elements', 'message'])

	OK_diagnostic = diagnostic(None, Level.OK, set(), None)


	# definition of some rules for ecore files

	def no_name(named_element):
	"""
	Check if the name feature of an object is set
	"""
	if named_element.name:
	return OK_diagnostic
	eclass_name = named_element.eClass.name
	return diagnostic('no_name', Level.ERROR, {named_element},
	'{} instances must have a name'.format(eclass_name))


	def same_name_in_namespace(obj, container):
	"""
	Check if two objects own the same name in a same namespace
	"""
	problematic_elements = set()
	for element in (e for e in container if e is not obj):
	if element.name == obj.name:
	problematic_elements.add(element)
	if not problematic_elements:
	return OK_diagnostic
	problematic_elements.add(obj)
	message = 'These objects have the exact same name in the namespace: {}'.format(problematic_elements)
	return diagnostic('same_name', Level.ERROR, problematic_elements, message)


	def no_type(typed_element):
	"""
	Check if the type of an element is well set
	"""
	if typed_element.eType:
	return OK_diagnostic
	eclass_name = typed_element.eClass.name
	message = '{} instances must have a type.'.format(eclass_name)
	return diagnostic('no_type', Level.ERROR, {typed_element}, message)


	# Ecore validator, it binds rules with specific EObjects
	class EcoreValidator(object):
	@dispatch
	def do_switch(self, obj):
	return set()

	def apply_rules(self, obj, rules):
	diagnostics = []
	for rule in rules:
	diagnostic = rule(obj)
	if diagnostic.level is not Level.OK:
	diagnostics.append(diagnostic)
	return diagnostics

	@do_switch.register(EClass)
	def validate_EClass(self, eclass):
	eclassifiers = eclass.ePackage.eClassifiers
	same_name = lambda obj: same_name_in_namespace(obj, eclassifiers)
	return self.apply_rules(eclass, [no_name, same_name])

	@do_switch.register(EStructuralFeature)
	def validate_EStructuralFeature(self, feature):
	all_features = feature.eContainingClass.eAllStructuralFeatures()
	same_name = lambda obj: same_name_in_namespace(obj, all_features)
	return self.apply_rules(feature, [no_name, same_name, no_type])

	@do_switch.register(ETypedElement)
	def validate_ETypedElement(self, typed):
	return self.apply_rules(typed, [no_type])

	@do_switch.register(EPackage)
	def validate_EPackage(self, epackage):
	rules = [no_name]
	if epackage.eSuperPackage:
	parent_package = epackage.eSuperPackage.eSubpackages
	same_name = lambda obj: same_name_in_namespace(obj, parent_package)
	rules.append(same_name)
	return self.apply_rules(epackage, rules)


	# The generic validate function that applies a validator to a model root
	def validate(root, validator):
	diagnostics = [*validator.do_switch(root)]
	for element in root.eAllContents():
	for diagnostic in validator.do_switch(element):
	if diagnostic not in diagnostics:
	diagnostics.extend(diagnostic)
	return diagnostics


	# A dedicated validator for ecore
	def validate_ecore(root):
	return validate(root, EcoreValidator())


	# A small example model
	pack = EPackage(name='test')
	A = EClass('A')
	A.eStructuralFeatures.append(EAttribute('name'))
	A.eStructuralFeatures.append(EAttribute('name', EString))
	B = EClass('A')
	pack.eClassifiers.extend([A, B])

	# We launch the validation
	from pprint import pprint
	pprint(validate_ecore(pack))