_NS_ = findItem(Namespace("clojure.core"), Symbol("*ns*")) def mapTest(ns, var): class Test(unittest.TestCase): def testVar(self): with threadBindings({_NS_: var.ns}): var() name = ns + str(var) tst = Test tst.__name__ = name globals()[name] = tst for x in os.listdir(os.path.dirname(__file__)): if x.endswith(".clj") and x.find("test") >= 0: print "Reading tests from", x requireClj(os.path.join(os.path.dirname(__file__),x)) folder, file = os.path.split(x) ns, ext = os.path.splitext(x) module = sys.modules["tests."+ns] for idx in dir(module): var = getattr(module, idx) if isinstance(var, Var) and str(var).endswith("tests"): meta = var.meta() if meta and meta[Keyword("test")]: mapTest(ns, var)
_NS_ = findItem(Namespace("clojure.core"), Symbol("*ns*")) def mapTest(ns, var): class Test(unittest.TestCase): def testVar(self): with threadBindings({_NS_: var.ns}): var() name = ns + str(var) tst = Test tst.__name__ = name globals()[name] = tst for x in os.listdir(os.path.dirname(__file__)): if x.endswith(".clj") and x.find("test") >= 0: print "Reading tests from", x requireClj(os.path.join(os.path.dirname(__file__), x)) folder, file = os.path.split(x) ns, ext = os.path.splitext(x) module = sys.modules["tests." + ns] for idx in dir(module): var = getattr(module, idx) if isinstance(var, Var) and str(var).endswith("tests"): meta = var.meta() if meta and meta[Keyword("test")]: mapTest(ns, var)
import pprint from textwrap import dedent import unittest from clojure.main import requireClj from clojure.lang.compiler import Compiler from clojure.lang.fileseq import StringReader from clojure.lang.globals import currentCompiler from clojure.lang.lispreader import read import clojure.lang.rt as RT from clojure.lang.symbol import symbol from clojure.util.byteplay import Code, Label, SetLineno from clojure.lang.persistentlist import PersistentList from clojure.lang.persistentvector import PersistentVector requireClj(os.path.join(os.path.dirname(__file__), '../clojure/core.clj')) class ClojureCoreTests(unittest.TestCase): def eval(self, code): r = StringReader(code) s = read(r, True, None, True) res = self.comp.compile(s) return self.comp.executeCode(res) def setUp(self): RT.init() self.comp = Compiler() currentCompiler.set(self.comp) self.comp.setNS(symbol('clojure.core'))
import pprint from textwrap import dedent import unittest from clojure.main import requireClj from clojure.lang.compiler import Compiler from clojure.lang.fileseq import StringReader from clojure.lang.globals import currentCompiler from clojure.lang.lispreader import read import clojure.lang.rt as RT from clojure.lang.symbol import symbol from clojure.util.byteplay import Code, Label, SetLineno from clojure.lang.persistentlist import PersistentList from clojure.lang.persistentvector import PersistentVector requireClj('./clojure/core.clj') class ClojureCoreTests(unittest.TestCase): def eval(self, code): r = StringReader(code) s = read(r, True, None, True) res = self.comp.compile(s) return self.comp.executeCode(res) def setUp(self): RT.init() self.comp = Compiler() currentCompiler.set(self.comp) self.comp.setNS(symbol('clojure.core'))
from itertools import chain, repeat import pprint from textwrap import dedent import unittest from clojure.main import requireClj from clojure.lang.compiler import Compiler from clojure.lang.fileseq import StringReader from clojure.lang.globals import currentCompiler from clojure.lang.lispreader import read import clojure.lang.rt as RT from clojure.lang.symbol import symbol from clojure.util.byteplay import Code, Label, SetLineno requireClj('./clojure/core.clj') # for Python 2.6 try: skip = unittest.skip except AttributeError: def skip(f): def ret(): pass return ret class NonOverloadedFunctions(unittest.TestCase): def setUp(self): RT.init()