def test_set_description(self): from libcellml import Issue # void setDescription(const std::string &description) e = Issue() e.setDescription('hello') e.setDescription('')
def test_item_bad_input(self): from libcellml import Issue, Variable, CellmlElementType i = Issue() self.assertRaises(TypeError, i.setItem, CellmlElementType.COMPONENT_REF, Variable("v1")) cItem = i.item() self.assertEqual(CellmlElementType.UNDEFINED, cItem[0]) self.assertIsNone(cItem[1])
def test_cause(self): from libcellml import Issue # Cause cause() e = Issue() self.assertEqual(e.cause(), Issue.Cause.UNDEFINED) e.setCause(Issue.Cause.MATHML) self.assertEqual(e.cause(), Issue.Cause.MATHML)
def test_create_destroy(self): from libcellml import Component from libcellml import Issue from libcellml import ImportSource from libcellml import Model from libcellml import Reset from libcellml import Units from libcellml import Variable e1 = Issue() del (e1) c = Component() e2 = Issue(c) del (e2) i = ImportSource() e3 = Issue(i) del (e3) m = Model() e4 = Issue(m) del (e4) r = Reset() e5 = Issue(r) del (e5) u = Units() e6 = Issue(u) del (e6) v = Variable() e7 = Issue(v) del (e7)
def test_component_ref(self): from libcellml import Issue, Component e = Issue() self.assertIsNone(e.math()) c = Component("comp") e.setComponentRef(c) self.assertIsInstance(e.componentRef(), Component) self.assertEqual(e.componentRef().name(), "comp")
def test_level(self): from libcellml import Issue, Reset # ResetPtr reset() const; e = Issue() self.assertEqual(Issue.Level.ERROR, e.level()) e.setLevel(Issue.Level.HINT) self.assertEqual(Issue.Level.HINT, e.level())
def test_issue_types(self): from libcellml import Parser, Issue p = Parser() i1 = Issue() i1.setLevel(Issue.Level.ERROR) i1.setDescription("error error") p.addIssue(i1) i4 = Issue() i4.setLevel(Issue.Level.WARNING) i4.setDescription("warning warning") p.addIssue(i4) i2 = Issue() i2.setLevel(Issue.Level.HINT) i2.setDescription("hint hint") p.addIssue(i2) i3 = Issue() i3.setLevel(Issue.Level.MESSAGE) i3.setDescription("message message") p.addIssue(i3) self.assertEqual(1, p.errorCount()) error = p.error(0) self.assertEqual("error error", error.description()) self.assertEqual(1, p.warningCount()) warning = p.warning(0) self.assertEqual("warning warning", warning.description()) self.assertEqual(1, p.hintCount()) hint = p.hint(0) self.assertEqual("hint hint", hint.description()) self.assertEqual(1, p.messageCount()) message = p.message(0) self.assertEqual("message message", message.description()) self.assertEqual(4, p.issueCount()) p.removeAllIssues() self.assertEqual(0, p.issueCount())
def test_description(self): from libcellml import Issue # std::string description() d = 'hi' e = Issue() self.assertEqual(e.description(), '') e.setDescription(d) self.assertEqual(e.description(), d) del [d, e]
def test_create_destroy(self): from libcellml import Component from libcellml import Issue from libcellml import ImportSource from libcellml import Model from libcellml import Reset from libcellml import Unit from libcellml import Units from libcellml import Variable from libcellml import VariablePair e1 = Issue() del e1 c = Component() e2 = Issue(c) del e2 i = ImportSource() e3 = Issue(i) del e3 m = Model() e4 = Issue(m) del e4 r = Reset() e5 = Issue(r) del e5 u = Units() e6 = Issue(u) del e6 v = Variable() e7 = Issue(v) del e7 v1 = Variable("v1") v2 = Variable("v2") vp = VariablePair(v1, v2) e8 = Issue(vp) del e8 ui = Unit(u, 0) e9 = Issue(ui) del e9
def test_encapsulation(self): from libcellml import Issue, Model e = Issue() self.assertIsNone(e.model()) name = 'moodle' m = Model() m.setName(name) e.setEncapsulation(m) self.assertIsInstance(e.encapsulation(), Model) self.assertEqual(e.encapsulation().name(), name)
def test_variable(self): from libcellml import Issue, Variable e = Issue() self.assertIsNone(e.variable()) name = 'var' v = Variable() v.setName(name) e.setVariable(v) self.assertIsInstance(e.variable(), Variable) self.assertEqual(e.variable().name(), name)
def test_units(self): from libcellml import Issue, Units # UnitsPtr units() e = Issue() self.assertIsNone(e.units()) name = 'furlong' u = Units() u.setName(name) e.setUnits(u) self.assertIsInstance(e.units(), Units) self.assertEqual(e.units().name(), name)
def test_model(self): from libcellml import Issue, Model # ModelPtr model() e = Issue() self.assertIsNone(e.model()) name = 'moodle' m = Model() m.setName(name) e.setModel(m) self.assertIsInstance(e.model(), Model) self.assertEqual(e.model().name(), name)
def test_import_source(self): from libcellml import Issue, ImportSource # ImportSourcePtr importSource() e = Issue() self.assertIsNone(e.component()) name = 'uri' i = ImportSource() i.setId(name) e.setImportSource(i) self.assertIsInstance(e.importSource(), ImportSource) self.assertEqual(e.importSource().id(), name)
def test_test_value(self): from libcellml import Issue, Reset # ResetPtr reset() const; e = Issue() self.assertIsNone(e.reset()) name = 'res' r = Reset() r.setId(name) e.setTestValue(r) self.assertIsInstance(e.testValue(), Reset) self.assertEqual(e.testValue().id(), name)
def test_connection(self): from libcellml import Issue, Variable, VariablePair e = Issue() self.assertIsNone(e.connection()) v1 = Variable("v1") v2 = Variable("v2") e.setConnection(VariablePair(v1, v2)) p = e.connection() self.assertIsInstance(p.variable1(), Variable) self.assertEqual(p.variable1().name(), "v1") self.assertEqual(p.variable2().name(), "v2")
def test_component(self): from libcellml import Issue, Component # ComponentPtr component() e = Issue() self.assertIsNone(e.component()) name = 'cellml' c = Component() c.setName(name) e.setComponent(c) self.assertIsInstance(e.component(), Component) self.assertEqual(e.component().name(), name)
def test_map_variables(self): from libcellml import Issue, Variable, VariablePair e = Issue() self.assertIsNone(e.mapVariables()) v1 = Variable("v1") v2 = Variable("v2") e.setMapVariables(VariablePair(v1, v2)) p = e.mapVariables() self.assertIsInstance(p.variable1(), Variable) self.assertEqual(p.variable1().name(), "v1") self.assertEqual(p.variable2().name(), "v2")
def test_clear(self): from libcellml import Issue, Variable, CellmlElementType i = Issue() i.clear() self.assertEqual(CellmlElementType.UNDEFINED, i.cellmlElementType()) v1 = Variable("v1") i.setVariable(v1) self.assertEqual(CellmlElementType.VARIABLE, i.cellmlElementType()) i.clear() self.assertEqual(CellmlElementType.UNDEFINED, i.cellmlElementType())
def test_unit_item(self): from libcellml import Issue, Units, Unit e = Issue() self.assertIsNone(e.unit()) u = Units("my_units") u.addUnit("volt") u.addUnit("second") u.addUnit("kelvin") u.addUnit("metre") e.setUnit(Unit(u, 3)) ui = e.unit() self.assertIsInstance(ui.units(), Units) self.assertEqual(ui.units().name(), "my_units") self.assertEqual(ui.index(), 3)
def test_cause_enum(self): from libcellml import Issue self.assertIsInstance(Issue.Cause.COMPONENT, int) self.assertIsInstance(Issue.Cause.CONNECTION, int) self.assertIsInstance(Issue.Cause.ENCAPSULATION, int) self.assertIsInstance(Issue.Cause.IMPORT, int) self.assertIsInstance(Issue.Cause.MATHML, int) self.assertIsInstance(Issue.Cause.MODEL, int) self.assertIsInstance(Issue.Cause.UNDEFINED, int) self.assertIsInstance(Issue.Cause.UNITS, int) self.assertIsInstance(Issue.Cause.VARIABLE, int) self.assertIsInstance(Issue.Cause.XML, int) # Test conversion to enum e = Issue() e.setCause(Issue.Cause.COMPONENT) self.assertRaises(RuntimeError, e.setCause, Issue.Cause.COMPONENT - 1) self.assertRaises(RuntimeError, e.setCause, Issue.Cause.XML + 1)
def test_set_component(self): from libcellml import Issue, Component # void setComponent(const ComponentPtr &component) e = Issue() e.setComponent(Component())
def test_set_import_source(self): from libcellml import Issue, ImportSource # void setImportSource(const ImportSourcePtr &import) e = Issue() e.setImportSource(ImportSource())
def test_reference_rule_enum(self): from libcellml import Issue self.assertIsInstance(Issue.ReferenceRule.UNDEFINED, int) self.assertIsInstance(Issue.ReferenceRule.XML, int) self.assertIsInstance( Issue.ReferenceRule.DATA_REPR_IDENTIFIER_UNICODE, int) self.assertIsInstance( Issue.ReferenceRule.DATA_REPR_IDENTIFIER_LATIN_ALPHANUM, int) self.assertIsInstance( Issue.ReferenceRule.DATA_REPR_IDENTIFIER_AT_LEAST_ONE_ALPHANUM, int) self.assertIsInstance( Issue.ReferenceRule.DATA_REPR_IDENTIFIER_BEGIN_EURO_NUM, int) self.assertIsInstance( Issue.ReferenceRule.DATA_REPR_IDENTIFIER_IDENTICAL, int) self.assertIsInstance(Issue.ReferenceRule.DATA_REPR_INT_BASE10, int) self.assertIsInstance(Issue.ReferenceRule.DATA_REPR_INT_SIGN, int) self.assertIsInstance(Issue.ReferenceRule.DATA_REPR_INT_DIGIT, int) self.assertIsInstance( Issue.ReferenceRule.DATA_REPR_BASIC_REAL_BASE10, int) self.assertIsInstance( Issue.ReferenceRule.DATA_REPR_BASIC_REAL_SIGN, int) self.assertIsInstance( Issue.ReferenceRule.DATA_REPR_BASIC_REAL_DECIMAL, int) self.assertIsInstance( Issue.ReferenceRule.DATA_REPR_BASIC_REAL_DIGIT, int) self.assertIsInstance(Issue.ReferenceRule.DATA_REPR_REAL_BASE10, int) self.assertIsInstance( Issue.ReferenceRule.DATA_REPR_REAL_SIGNIFICAND, int) self.assertIsInstance(Issue.ReferenceRule.DATA_REPR_REAL_EXPONENT, int) self.assertIsInstance(Issue.ReferenceRule.MODEL_ELEMENT, int) self.assertIsInstance(Issue.ReferenceRule.MODEL_NAME, int) self.assertIsInstance(Issue.ReferenceRule.MODEL_CHILD, int) self.assertIsInstance( Issue.ReferenceRule.MODEL_MORE_THAN_ONE_ENCAPSULATION, int) self.assertIsInstance(Issue.ReferenceRule.IMPORT_ATTRIBUTE, int) self.assertIsInstance(Issue.ReferenceRule.IMPORT_HREF, int) self.assertIsInstance(Issue.ReferenceRule.IMPORT_CHILD, int) self.assertIsInstance(Issue.ReferenceRule.IMPORT_EQUIVALENT, int) self.assertIsInstance(Issue.ReferenceRule.IMPORT_UNITS_NAME, int) self.assertIsInstance( Issue.ReferenceRule.IMPORT_UNITS_NAME_UNIQUE, int) self.assertIsInstance(Issue.ReferenceRule.IMPORT_UNITS_REF, int) self.assertIsInstance(Issue.ReferenceRule.IMPORT_COMPONENT_NAME, int) self.assertIsInstance( Issue.ReferenceRule.IMPORT_COMPONENT_NAME_UNIQUE, int) self.assertIsInstance( Issue.ReferenceRule.IMPORT_COMPONENT_COMPONENT_REF, int) self.assertIsInstance(Issue.ReferenceRule.UNITS_ATTRIBUTE, int) self.assertIsInstance(Issue.ReferenceRule.UNITS_NAME, int) self.assertIsInstance(Issue.ReferenceRule.UNITS_NAME_UNIQUE, int) self.assertIsInstance(Issue.ReferenceRule.UNITS_STANDARD, int) self.assertIsInstance(Issue.ReferenceRule.UNITS_CHILD, int) self.assertIsInstance(Issue.ReferenceRule.UNIT_ATTRIBUTE, int) self.assertIsInstance(Issue.ReferenceRule.UNIT_UNITS_REF, int) self.assertIsInstance(Issue.ReferenceRule.UNIT_CIRCULAR_REF, int) self.assertIsInstance(Issue.ReferenceRule.UNIT_OPTIONAL_ATTRIBUTE, int) self.assertIsInstance(Issue.ReferenceRule.UNIT_PREFIX, int) self.assertIsInstance(Issue.ReferenceRule.UNIT_MULTIPLIER, int) self.assertIsInstance(Issue.ReferenceRule.UNIT_EXPONENT, int) self.assertIsInstance(Issue.ReferenceRule.COMPONENT_ATTRIBUTE, int) self.assertIsInstance(Issue.ReferenceRule.COMPONENT_NAME, int) self.assertIsInstance(Issue.ReferenceRule.COMPONENT_NAME_UNIQUE, int) self.assertIsInstance(Issue.ReferenceRule.COMPONENT_CHILD, int) self.assertIsInstance(Issue.ReferenceRule.VARIABLE_ATTRIBUTE, int) self.assertIsInstance(Issue.ReferenceRule.VARIABLE_CHILD, int) self.assertIsInstance(Issue.ReferenceRule.VARIABLE_NAME, int) self.assertIsInstance(Issue.ReferenceRule.VARIABLE_NAME_UNIQUE, int) self.assertIsInstance(Issue.ReferenceRule.VARIABLE_UNITS, int) self.assertIsInstance(Issue.ReferenceRule.VARIABLE_INTERFACE, int) self.assertIsInstance(Issue.ReferenceRule.VARIABLE_INITIAL_VALUE, int) self.assertIsInstance(Issue.ReferenceRule.RESET_ATTRIBUTE, int) self.assertIsInstance(Issue.ReferenceRule.RESET_VARIABLE_REF, int) self.assertIsInstance(Issue.ReferenceRule.RESET_TEST_VARIABLE_REF, int) self.assertIsInstance(Issue.ReferenceRule.RESET_ORDER, int) self.assertIsInstance(Issue.ReferenceRule.RESET_CHILD, int) self.assertIsInstance(Issue.ReferenceRule.RESET_TEST_VALUE, int) self.assertIsInstance(Issue.ReferenceRule.RESET_RESET_VALUE, int) self.assertIsInstance(Issue.ReferenceRule.MATH_MATHML, int) self.assertIsInstance(Issue.ReferenceRule.MATH_CHILD, int) self.assertIsInstance(Issue.ReferenceRule.MATH_CI_VARIABLE_REF, int) self.assertIsInstance(Issue.ReferenceRule.MATH_CN_UNITS, int) self.assertIsInstance(Issue.ReferenceRule.MATH_CN_BASE10, int) self.assertIsInstance(Issue.ReferenceRule.MATH_CN_FORMAT, int) self.assertIsInstance(Issue.ReferenceRule.ENCAPSULATION_ATTRIBUTE, int) self.assertIsInstance(Issue.ReferenceRule.ENCAPSULATION_CHILD, int) self.assertIsInstance(Issue.ReferenceRule.COMPONENT_REF_COMPONENT, int) self.assertIsInstance(Issue.ReferenceRule.COMPONENT_REF_CHILD, int) self.assertIsInstance(Issue.ReferenceRule.CONNECTION_ATTRIBUTE, int) self.assertIsInstance(Issue.ReferenceRule.CONNECTION_COMPONENT1, int) self.assertIsInstance(Issue.ReferenceRule.CONNECTION_COMPONENT2, int) self.assertIsInstance(Issue.ReferenceRule.CONNECTION_EXCLUDE_SELF, int) self.assertIsInstance(Issue.ReferenceRule.CONNECTION_UNIQUE, int) self.assertIsInstance(Issue.ReferenceRule.CONNECTION_CHILD, int) self.assertIsInstance(Issue.ReferenceRule.MAP_VARIABLES_ATTRIBUTE, int) self.assertIsInstance(Issue.ReferenceRule.MAP_VARIABLES_VARIABLE1, int) self.assertIsInstance(Issue.ReferenceRule.MAP_VARIABLES_VARIABLE2, int) self.assertIsInstance(Issue.ReferenceRule.MAP_VARIABLES_UNIQUE, int) self.assertIsInstance( Issue.ReferenceRule.MAP_VARIABLES_IDENTICAL_UNIT_REDUCTION, int) self.assertIsInstance( Issue.ReferenceRule.UNSPECIFIED, int) # Test conversion to enum e = Issue() e.setReferenceRule(Issue.ReferenceRule.UNDEFINED) self.assertRaises(RuntimeError, e.setReferenceRule, Issue.ReferenceRule.UNDEFINED - 1) self.assertRaises(RuntimeError, e.setReferenceRule, Issue.ReferenceRule.MAP_VARIABLES_IDENTICAL_UNIT_REDUCTION + 1) del e
def test_set_model(self): from libcellml import Issue, Model # void setModel(const ModelPtr &model) e = Issue() e.setModel(Model())
def test_url(self): from libcellml import Issue i = Issue() self.assertEqual('', i.url())
def test_set_units(self): from libcellml import Issue, Units # void setUnits(const UnitsPtr &units) e = Issue() e.setUnits(Units())
def test_item(self): from libcellml import Component, Issue, ImportSource, Model, Unit from libcellml import Reset, Units, Variable, CellmlElementType, VariablePair i = Issue() item = i.item() self.assertEqual(CellmlElementType.UNDEFINED, item[0]) self.assertIsNone(item[1]) i.setItem(CellmlElementType.VARIABLE, Variable("v")) vItem = i.item() self.assertEqual(CellmlElementType.VARIABLE, vItem[0]) self.assertEqual("v", vItem[1].name()) i.setItem(CellmlElementType.UNITS, Units("u")) uItem = i.item() self.assertEqual(CellmlElementType.UNITS, uItem[0]) self.assertEqual("u", uItem[1].name()) u = Units("ui") u.addUnit("volt") u.addUnit("second") u.addUnit("metre") i.setItem(CellmlElementType.UNIT, Unit(u, 2)) uiItem = i.item() self.assertEqual(CellmlElementType.UNIT, uiItem[0]) self.assertEqual("ui", uiItem[1].units().name()) self.assertEqual(2, uiItem[1].index()) v1 = Variable("v1") v2 = Variable("v2") i.setItem(CellmlElementType.CONNECTION, VariablePair(v1, v2)) vpItem = i.item() self.assertEqual(CellmlElementType.CONNECTION, vpItem[0]) self.assertEqual("v1", vpItem[1].variable1().name()) self.assertEqual("v2", vpItem[1].variable2().name()) v3 = Variable("v3") v4 = Variable("v4") i.setItem(CellmlElementType.MAP_VARIABLES, VariablePair(v3, v4)) vpItem = i.item() self.assertEqual(CellmlElementType.MAP_VARIABLES, vpItem[0]) self.assertEqual("v3", vpItem[1].variable1().name()) self.assertEqual("v4", vpItem[1].variable2().name()) r = Reset() r.setId("r") i.setItem(CellmlElementType.RESET, r) rItem = i.item() self.assertEqual(CellmlElementType.RESET, rItem[0]) self.assertEqual("r", rItem[1].id()) r.setId("r1") i.setItem(CellmlElementType.RESET_VALUE, r) rItem = i.item() self.assertEqual(CellmlElementType.RESET_VALUE, rItem[0]) self.assertEqual("r1", rItem[1].id()) r.setId("r2") i.setItem(CellmlElementType.TEST_VALUE, r) rItem = i.item() self.assertEqual(CellmlElementType.TEST_VALUE, rItem[0]) self.assertEqual("r2", rItem[1].id()) i.setItem(CellmlElementType.MODEL, Model("m")) mItem = i.item() self.assertEqual(CellmlElementType.MODEL, mItem[0]) self.assertEqual("m", mItem[1].name()) i.setItem(CellmlElementType.ENCAPSULATION, Model("e")) mItem = i.item() self.assertEqual(CellmlElementType.ENCAPSULATION, mItem[0]) self.assertEqual("e", mItem[1].name()) iS = ImportSource() iS.setId("is") i.setItem(CellmlElementType.IMPORT, iS) isItem = i.item() self.assertEqual(CellmlElementType.IMPORT, isItem[0]) self.assertEqual("is", isItem[1].id()) i.setItem(CellmlElementType.COMPONENT, Component("c")) cItem = i.item() self.assertEqual(CellmlElementType.COMPONENT, cItem[0]) self.assertEqual("c", cItem[1].name()) i.setItem(CellmlElementType.COMPONENT_REF, Component("c1")) cItem = i.item() self.assertEqual(CellmlElementType.COMPONENT_REF, cItem[0]) self.assertEqual("c1", cItem[1].name())
def test_set_variable(self): from libcellml import Issue, Variable # void setVariable(const VariablePtr &variable) e = Issue() e.setVariable(Variable())
def test_set_reset(self): from libcellml import Issue, Reset # void setReset(const ResetPtr &reset); e = Issue() e.setReset(Reset())