Example #1
0
def test_forwardcheck_empty_domain():
    constrainer = SomeNotInSetConstraint(set("abc"))
    v1, v2 = variables = [Variable("v1"), Variable("v2")]

    domains = {v1: Domain(["a"]), v2: Domain(["b"])}
    assert constrainer(variables, domains, {v1: "a"})
    assert not constrainer(variables, domains, {v1: "a"}, True)
Example #2
0
def test_forwardcheck_empty_domain():
    constrainer = SomeNotInSetConstraint(set('abc'))
    v1, v2 = variables = [Variable('v1'), Variable('v2')]

    domains = {v1: Domain(['a']), v2: Domain(['b'])}
    assert constrainer(variables, domains, {v1: 'a'})
    assert not constrainer(variables, domains, {v1: 'a'}, True)
Example #3
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    def __init__(self, title, professor):
        """.

        PARAMETERS      TYPE        Potential Arguments
        -----------------------------------------------
        title         string      'csc', 'phy'
        professor     string      'DrShade'

        """
        Variable.__init__(self, title)
        self.title = title
        self.professor = professor
Example #4
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def test_forwardcheck():
    constrainer = SomeNotInSetConstraint(set('abc'), n=2)
    v1, v2, v3 = variables = [Variable('v1'), Variable('v2'), Variable('v3')]

    domains = {v1: Domain(['a']), v2: Domain(['b', 'y']),
               v3: Domain(['c', 'z'])}
    assert constrainer(variables, domains, {v1: 'a'})
    assert ['a'] == list(domains[v1])
    assert ['b', 'y'] == list(domains[v2])
    assert ['c', 'z'] == list(domains[v3])

    assert constrainer(variables, domains, {v1: 'a'}, True)
    assert ['a'] == list(domains[v1])
    assert ['y'] == list(domains[v2])
    assert ['z'] == list(domains[v3])
Example #5
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def test_forwardcheck_exact():
    constrainer = SomeNotInSetConstraint(set('abc'), n=2, exact=True)
    v1, v2, v3 = variables = [Variable('v1'), Variable('v2'), Variable('v3')]
    assignments = {v1: 'a'}

    domains = {v1: Domain(['a', 'x']), v2: Domain(['b', 'y']),
               v3: Domain(['c', 'z'])}
    assert constrainer(variables, domains, assignments)
    assert constrainer(variables, domains, assignments, True)
    assert 'b' not in domains[v2]
    assert 'y' in domains[v2]
    assert 'c' not in domains[v3]
    assert 'z' in domains[v3]

    domains = {v1: Domain(['a', 'x']), v2: Domain(['b', 'y']),
               v3: Domain(['c'])}
    assert constrainer(variables, domains, assignments)
    assert not constrainer(variables, domains, assignments, True)
Example #6
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def test_forwardcheck():
    constrainer = SomeNotInSetConstraint(set("abc"), n=2)
    v1, v2, v3 = variables = [Variable("v1"), Variable("v2"), Variable("v3")]

    domains = {
        v1: Domain(["a"]),
        v2: Domain(["b", "y"]),
        v3: Domain(["c", "z"])
    }
    assert constrainer(variables, domains, {v1: "a"})
    assert ["a"] == list(domains[v1])
    assert ["b", "y"] == list(domains[v2])
    assert ["c", "z"] == list(domains[v3])

    assert constrainer(variables, domains, {v1: "a"}, True)
    assert ["a"] == list(domains[v1])
    assert ["y"] == list(domains[v2])
    assert ["z"] == list(domains[v3])
Example #7
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def test_exact():
    constrainer = SomeNotInSetConstraint(set('abc'), n=2, exact=True)
    v1, v2, v3 = variables = [Variable('v1'), Variable('v2'), Variable('v3')]

    assignments = {v1: 'a', v2: 'y', v3: 'z'}
    assert constrainer(variables, {}, assignments)

    assignments = {v1: 'a', v2: 'y'}
    assert constrainer(variables, {}, assignments)

    assignments = {v1: 'a', v2: 'b', v3: 'z'}
    assert not constrainer(variables, {}, assignments)

    assignments = {v1: 'a', v2: 'b'}
    assert not constrainer(variables, {}, assignments)

    assignments = {v1: 'a', v2: 'b', v3: 'c'}
    assert not constrainer(variables, {}, assignments)

    assignments = {v1: 'x', v2: 'y', v3: 'z'}
    assert not constrainer(variables, {}, assignments)
Example #8
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def test_exact():
    constrainer = SomeNotInSetConstraint(set("abc"), n=2, exact=True)
    v1, v2, v3 = variables = [Variable("v1"), Variable("v2"), Variable("v3")]

    assignments = {v1: "a", v2: "y", v3: "z"}
    assert constrainer(variables, {}, assignments)

    assignments = {v1: "a", v2: "y"}
    assert constrainer(variables, {}, assignments)

    assignments = {v1: "a", v2: "b", v3: "z"}
    assert not constrainer(variables, {}, assignments)

    assignments = {v1: "a", v2: "b"}
    assert not constrainer(variables, {}, assignments)

    assignments = {v1: "a", v2: "b", v3: "c"}
    assert not constrainer(variables, {}, assignments)

    assignments = {v1: "x", v2: "y", v3: "z"}
    assert not constrainer(variables, {}, assignments)
Example #9
0
def test_forwardcheck_exact():
    constrainer = SomeNotInSetConstraint(set("abc"), n=2, exact=True)
    v1, v2, v3 = variables = [Variable("v1"), Variable("v2"), Variable("v3")]
    assignments = {v1: "a"}

    domains = {
        v1: Domain(["a", "x"]),
        v2: Domain(["b", "y"]),
        v3: Domain(["c", "z"])
    }
    assert constrainer(variables, domains, assignments)
    assert constrainer(variables, domains, assignments, True)
    assert "b" not in domains[v2]
    assert "y" in domains[v2]
    assert "c" not in domains[v3]
    assert "z" in domains[v3]

    domains = {
        v1: Domain(["a", "x"]),
        v2: Domain(["b", "y"]),
        v3: Domain(["c"])
    }
    assert constrainer(variables, domains, assignments)
    assert not constrainer(variables, domains, assignments, True)
Example #10
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def test_empty_constraint():
    constrainer = SomeNotInSetConstraint(set())
    v1, v2 = variables = [Variable('v1'), Variable('v2')]
    assignments = {v1: 'a', v2: 'b'}

    assert constrainer(variables, {}, assignments)
Example #11
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def test_too_much_overlap():
    constrainer = SomeNotInSetConstraint(set('ab'))
    v1, v2 = variables = [Variable('v1'), Variable('v2')]
    assignments = {v1: 'a', v2: 'b'}

    assert not constrainer(variables, {}, assignments)
Example #12
0
def near_miss_encode(cs, thread_log, obj_id_log, obj_id_threadlist):

    klen = 5
    near_miss_dict = {}

    #if LogEntry.objid_to_int['null'] in obj_id_log:
        #print("delete null key when filtering nearmiss")
        #del obj_id_log[LogEntry.objid_to_int['null']]

    progress = 0
    for objid in obj_id_log:

        progress = progress + 1
        log = obj_id_log[objid]

        if len(log) < 2 or LogEntry.int_to_objid[objid] == 'null':
            continue
        #print('processing ', progress,'/', len(obj_id_log),' objid ', LogEntry.int_to_objid[objid])

        ex_entry = log[0]
        if len(obj_id_threadlist[ex_entry.object_id_]) < 2:
            continue

        objidstr = LogEntry.int_to_objid[objid]
        if len(objidstr) < 42 and '0000-0000-' in objidstr:
            continue

        #print('processing ', progress,'/', len(obj_id_log), " thread size ", len(obj_id_threadlist[ex_entry.object_id_]))

        for idx, end_log_entry in enumerate(log):

            for j in range(idx - 1, max(idx - klen-1,-1), -1):
            #for j in range(idx - 1, -1, -1):
                start_log_entry = log[j]

                start_tsc, end_tsc = start_log_entry.finish_tsc_, end_log_entry.start_tsc_

                if not close_enough(start_tsc, end_tsc):
                    break

                if not start_log_entry.is_conflict(end_log_entry):
                    continue

                # very important here. dramatically reduce the overhead.

                #sig = find_signature(start_log_entry.location_, end_log_entry.location_)
                sig = find_signature(start_log_entry, end_log_entry)

                if sig in near_miss_dict and near_miss_dict[sig] > 10:
                    continue

                if sig not in near_miss_dict:
                    near_miss_dict[sig] = 0

                near_miss_dict[sig] += 1

                if sig not in cs.sig_cons:
                    cs.sig_cons[sig] = []
                if sig in cs.concurrent_sigs:
                    print("Ignore concurrent op " + sig)
                    continue
                #
                # We just encode constraints for call operations now
                #
                rel_log_original_list = [
                #rel_log_list = [
                    log_entry
                    for log_entry in thread_log[start_log_entry.thread_id_].
                    range_by(start_tsc, end_tsc, ltsc = False)
                    if log_entry.is_candidate()
                ]

                # if already exists a confirmed rel
                inferred_rel = find_confirmed_rel(rel_log_original_list)
                #inferred_rel = False
                if inferred_rel:
                    print("keep the windows by not inferring more because of containting the confirmed " + inferred_rel.description_)

                acq_log_original_list = [
                    log_entry
                    for log_entry in thread_log[end_log_entry.thread_id_].
                    range_by(start_tsc, end_tsc, ltsc = False)
                    if log_entry.is_candidate()
                ]
                #acq_sleep_log_list = [log_entry for log_entry in acq_log_list if log_entry.is_sleep_]

                rel_log_list = rel_log_original_list
                acq_log_list = acq_log_original_list
                #sleep refine algorithm here


                domi_sleep_entry = None
                index = -1
                confirmed = False
                #'''
                if  not inferred_rel :
                    for i in range(len(rel_log_original_list)-1):
                        log_entry = rel_log_original_list[i]
                        if log_entry.is_sleep_ and log_entry.finish_tsc_ < end_tsc:
                            index = i
                            domi_sleep_entry = log_entry

                    if index > -1:
                        #print("Refine a original constraint")

                        #if len(rel_nonsleep_log_list) == 1:
                        #    print("Confirm releasing", rel_nonsleep_log_list[0].description_)
                        start_tsc = domi_sleep_entry.finish_tsc_
                        acq_shrinked_log_list = [
                            log_entry
                            for log_entry in thread_log[end_log_entry.thread_id_].
                            range_by(start_tsc, end_tsc, ltsc = False)
                            if log_entry.is_candidate()
                        ]

                        #acq_shrinked_sleep_list = [log_entry for log_entry in acq_log_list if log_entry.is_sleep_]
                        #acq_shrinked_sleep_list = [log_entry for log_entry in acq_shrinked_log_list if log_entry.is_sleep_]
                        #if len(acq_shrinked_sleep_list) == 0:
                        '''
                        acq_mid_op_list = [
                            log_entry
                            for log_entry in thread_log[end_log_entry.thread_id_].
                            range_by(domi_sleep_entry.finish_tsc_ - (domi_sleep_entry.finish_tsc_ - domi_sleep_entry.start_tsc_)/2, domi_sleep_entry.finish_tsc_, ltsc = False)
                            #if log_entry.is_candidate()
                        ]
                        '''

                        acq_mid_op_list = find_mid_operations(thread_log[end_log_entry.thread_id_], domi_sleep_entry.start_tsc_, domi_sleep_entry.finish_tsc_)
                        if len(acq_mid_op_list) == 0:
                            rel_log_list = rel_log_original_list[index+1:]
                            acq_log_list = acq_shrinked_log_list
                            print("Refine a constraint by sleep before " + rel_log_list[0].description_)
                            rel_nonsleep_log_list = [i for i in rel_log_list if not i.is_sleep_]

                            if len(rel_nonsleep_log_list) == 1:
                                confirmed = True
                                Variable.release_var(rel_nonsleep_log_list[0]).set_confirmation()
                                print("Confirm releasing", rel_nonsleep_log_list[0].description_)
                                if len(acq_log_list) > 0:
                                    Variable.acquire_var(acq_log_list[0]).set_confirmation()

                    # end of sleep refine algorithm
                    #'''
                cs.sig_cons[sig].append([rel_log_list, acq_log_list, objid, start_log_entry, end_log_entry])
                #cs.add_constraint(rel_log_list, acq_log_list, objid)
                #'''
        #print("near-miss count ", nm_cnt)
    if len(near_miss_dict) >0:
        print("MAX occurence ", max(near_miss_dict.values()))
    return cs
Example #13
0
def find_confirmed_rel(rel_list):
    var_set = [Variable.release_var(log_entry) for log_entry in rel_list]
    var_confirmed_list  = [v for v in var_set if v.is_confirmed_ and (v.infer_type == "rel")]
    if len(var_confirmed_list) > 0:
        return var_confirmed_list[0]
    return None
Example #14
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def test_empty_constraint():
    constrainer = SomeNotInSetConstraint(set())
    v1, v2 = variables = [Variable("v1"), Variable("v2")]
    assignments = {v1: "a", v2: "b"}

    assert constrainer(variables, {}, assignments)
Example #15
0
def test_too_much_overlap():
    constrainer = SomeNotInSetConstraint(set("ab"))
    v1, v2 = variables = [Variable("v1"), Variable("v2")]
    assignments = {v1: "a", v2: "b"}

    assert not constrainer(variables, {}, assignments)