Example #1
0
def processLetClause(c, table, prior_lcs):
    comp_expr = compile(c["expr"].lstrip(), "<string>", "eval")
    new_schema = None
    for t in table:

        if not new_schema:
            new_schema = dict(t.schema)
            for (i, v) in enumerate(c["vars"]):
                new_schema[v] = len(t.schema) + i

        lcs = prior_lcs
        lcs.update(t.getDict())
        v = eval(comp_expr, globals(), lcs)
        if len(c["vars"]) == 1:
            t.tuple.append(v)
            new_t = PQTuple(t.tuple, new_schema)
            yield new_t

        else:
            unpack_expr = "[ %s for %s in [ __v ]]" % (
                '(' + ",".join(c["vars"]) + ')', c["unpack"])
            unpacked_vals = eval(unpack_expr, globals(), {'__v': v})
            new_t_data = list(t.tuple)
            for tv in unpacked_vals[0]:
                new_t_data.append(tv)
            new_t = PQTuple(new_t_data, new_schema)
            yield new_t
Example #2
0
  def execute(self,query,tuple_vars,vars):
    res = self.engine.execute(query)
    schema = {}
    tuple_schemas = []
    for table_name,v in tuple_vars:
        schema[v] = len(schema)
        tuple_schema = {}
        schema_name = None
        if len(table_name.split('.'))>1:
            schema_name,table_name = table_name.split('.')

        table = Table(table_name, MetaData(), autoload=True, autoload_with=self.engine, schema=schema_name)
        for c in table.columns:
            tuple_schema[c.name] = len(tuple_schema)
        tuple_schemas.append( tuple_schema )

    for v in vars:
        schema[v] = len(schema)

    for r in res:
        i = 0
        out_t = []
        for j,(_,v) in enumerate(tuple_vars):
            t_data = []
            sc = tuple_schemas[j]
            for k in range(len(sc)):
                t_data.append(r[i])
                i += 1
            out_t.append( PQTuple( t_data, sc ) )

        for v in vars: 
            out_t.append(r[i])
            i += 1

        yield PQTuple( out_t, schema )
Example #3
0
def processForClause(c, table, prior_lcs, prior_globs):
  new_schema = None
  print(c.expr)
  comp_expr = compile(c.expr.lstrip(), "<string>", "eval")

  for t in table:
    if not new_schema:
      new_schema = dict(t.schema)
      for (i,v) in enumerate(c.vars):
        new_schema[v] = len(t.schema) + i

    lcs = dict(prior_lcs)
    lcs.update(t.getDict())
    vals = eval(comp_expr, prior_globs, lcs)
    if len(c.vars) == 1:
      for v in vals:
        new_t_data = list(t.tuple)
        new_t_data.append(v)
        new_t = PQTuple(new_t_data, new_schema)
        yield new_t
    
    else:
      for v in vals:
        unpack_expr = "[ %s for %s in [ __v ]]" % (
                      '(' + ",".join(c.vars) + ')', c.unpack)
        unpacked_vals = eval(unpack_expr, prior_globs, {'__v':v})
        new_t_data = list(t.tuple)
        for tv in unpacked_vals[0]:
          new_t_data.append(tv)
        new_t = PQTuple(new_t_data, new_schema)
        yield new_t
Example #4
0
  def execute(self,query,tuple_vars,vars):
    res = self.engine.execute(query)
    schema = {}
    tuple_schemas = []

    for t in tuple_vars:
        v = t['tuple_var']
        schema[v] = len(schema)
        tuple_schema = {}
        final_tuple_schema = {}
        rev_tuple_schema = []
        for (c_name,_) in t['output_schema']['values']:
            tuple_schema[c_name] = len(tuple_schema)
            if c_name != '#checkbit':
                final_tuple_schema[c_name] = len(final_tuple_schema)

            tuple_schema[c_name] = len(tuple_schema)
            rev_tuple_schema.append(c_name)

        tuple_schemas.append( (tuple_schema,final_tuple_schema,rev_tuple_schema) )

    for v in vars:
        schema[v] = len(schema)

    for r in res:
        i = 0
        out_t = []
        for j,_ in enumerate(tuple_vars):
            checkbit = True
            isTuple = True
            t_data = []
            (sc,final_sc,rev_sc) = tuple_schemas[j]
            for k in range(len(sc)):
                if rev_sc[k] == '#checkbit':
                    checkbit = r[i]
                else:
                    t_data.append(r[i])
                if rev_sc[k] == '#value':
                    isTuple = False
                i += 1
            
            if isTuple:
                out_t.append( PQTuple( t_data, final_sc ) if checkbit else None )
            else:
                out_t.append(t_data[0])

        for v in vars: 
            out_t.append(r[i])
            i += 1

        yield PQTuple( out_t, schema )
Example #5
0
def make_pql_tuple(vals, lcs, gbs):
    t = []
    als = []
    for v in vals:
        t.append(eval(v[0], lcs, gbs))
        alias = v[1] if v[1] else v[0]
        als.append(alias)

    schema = {n: i for (i, n) in enumerate(als)}
    return PQTuple(t, schema)
Example #6
0
def processCountClause(c, table, prior_lcs):
    new_schema = None
    for (i, t) in enumerate(table):

        if not new_schema:
            new_schema = dict(t.schema)
            new_schema[c["var"]] = len(t.schema)

        new_t = PQTuple(t.tuple + [i], new_schema)
        yield new_t
Example #7
0
def processGroupByClause(c, table, prior_lcs):
    gby_aliases = [
        g if isinstance(g, str) else g[1] for g in c["groupby_list"]
    ]
    gby_exprs = [g if isinstance(g, str) else g[0] for g in c["groupby_list"]]
    comp_exprs = [compile(e, '<string>', 'eval') for e in gby_exprs]
    grp_table = {}

    schema = None
    # Group tuples in a hashtable
    for t in table:

        if not schema:
            schema = t.schema

        lcs = prior_lcs
        lcs.update(t.getDict())
        # Compute the key
        k = tuple([eval(e, globals(), lcs) for e in comp_exprs])
        if not k in grp_table:
            grp_table[k] = []
        grp_table[k].append(t)

    if not grp_table:
        return
        yield

    # Construct the new table
    # Non-key variables
    non_key_vars = [v for v in schema if not v in gby_aliases]
    new_schema = {v: i for (i, v) in enumerate(gby_aliases + non_key_vars)}
    for k in grp_table:
        t = PQTuple([None] * len(new_schema), new_schema)
        #Copy over the key
        for (i, v) in enumerate(gby_aliases):
            t[v] = k[i]

        #Every other variable (not in group by list) is turned into a lists
        #First create empty lists
        for v in non_key_vars:
            t[v] = []

        # Now fill in the lists:
        for part_t in grp_table[k]:
            for v in non_key_vars:
                t[v].append(part_t[v])

        yield t
Example #8
0
def processMatchClause(c, table, prior_lcs):
    clause_expr = compile(c['expr'], "<string>", "eval")

    # Fetch and compile all expressions in the
    # pattern match clause
    e_patterns = []
    patterns = list(c['pattern'])
    while patterns:
        p = patterns.pop()
        if 'expr_cond' in p:
            e_patterns.append(p)
        if 'pattern' in p:
            patterns.append(p['pattern'])

    for ep in e_patterns:
        ep['expr_cond'] = compile(ep["expr_cond"], "<string>", "eval")

    new_schema = None
    for t in table:
        if not new_schema:
            new_schema = dict(t.schema)
            for (i, v) in enumerate(c["vars"]):
                new_schema[v] = len(t.schema) + i

        lcs = prior_lcs
        lcs.update(t.getDict())
        vals = eval(clause_expr, globals(), lcs)

        for v in vals:
            if not hasattr(v, '__contains__'):
                continue

            new_t_data = list(t.tuple) + [None] * len(c['vars'])
            new_t = PQTuple(new_t_data, new_schema)

            if match_pattern(c['pattern'], c['exact'], v, new_t, lcs):
                yield new_t
Example #9
0
def wrap_tuples(list,schema):
  _schema = {n:i for (i,n) in schema }
  for item in list:
    yield PQTuple(item,_schema)
Example #10
0
def processWindowClause(c, table, prior_lcs):
    schema = None
    new_schema = None

    # Create window variable name mapping
    var_mapping = {}
    for v in c["vars"]:
        var_mapping[v] = c["vars"][v]

    for t in table:
        if not schema:
            schema = t.schema
            # Create a new schema with window variables added
            new_schema = dict(t.schema)
            for v in c["vars"]:
                new_schema[c["vars"][v]] = len(new_schema)

        lcs = dict(prior_lcs)
        lcs.update(t.getDict())
        # Evaluate the binding sequence
        binding_seq = list(eval(c["in"], globals(), lcs))

        # Create initial window variables

        # Initialize the windows
        open_windows = []
        closed_windows = []

        # Iterate over the binding sequence
        for (i, v) in enumerate(binding_seq):
            # Try to open a new window
            # in case of tumbling windows, only open a
            # window if there are no open windows
            if not c["tumbling"] or (c["tumbling"] and not open_windows):
                vars = make_window_vars()
                fill_in_start_vars(vars, binding_seq, i)
                if check_start_condition(vars, c, dict(lcs), var_mapping):
                    open_windows.append({"window": [], "vars": vars})

            new_open_windows = []
            #update all open windows, close those that are finished
            for w in open_windows:
                # Add currnt value to the window
                w["window"].append(v)

                fill_in_end_vars(w["vars"], binding_seq, i)

                if check_end_condition(w["vars"], c, dict(lcs), var_mapping):
                    closed_windows.append(w)
                else:
                    new_open_windows.append(w)
            open_windows = new_open_windows

        #close or remove all remaining open windows
        #if only is specified, we ignore non-closed windows
        if not c["only"]:
            closed_windows.extend(open_windows)

        # create a new tuple by extending the tuple from previous clauses
        # with the window variables, for each closed window
        for w in closed_windows:
            new_t = PQTuple(t.tuple + [None] * (len(new_schema) - len(schema)),
                            new_schema)
            new_t[var_mapping["var"]] = w["window"]
            for v in [v for v in w["vars"].keys() if v in var_mapping]:
                new_t[var_mapping[v]] = w["vars"][v]
            yield new_t
Example #11
0
def processJoin(c, table, prior_lcs):
    new_schema = None
    left_arg = c['left']
    right_arg = c['right']
    left_conds = c['left_conds']
    right_conds = c['right_conds']

    join_type = 'nl'
    dir = 'right'
    if 'hint' in c:
        join_type = c['hint']['join_type']
        dir = c['hint']['dir']

    if dir == 'left':
        left_arg, right_arg = right_arg, left_arg

    r_init_data = []
    r_init_data.append(emptyTuple([]))

    # Build an index on the right relation, if we're doing
    # an index join.
    index = None
    if join_type == 'index':
        index = {}
        r_data = r_init_data
        if isinstance(c['right'], list):
            for c2 in c['right']:
                r_data = processClause(c2, r_data, prior_lcs)
        else:
            r_data = processJoin(c['right'], r_data, prior_lcs)

        for t in r_data:
            index_tuple = []
            for rcond in right_conds:
                lcs = prior_lcs
                lcs.update(t.getDict())
                rcond_val = eval(rcond, globals(), lcs)
                index_tuple.append(rcond_val)
            index_tuple = tuple(index_tuple)
            if not index_tuple in index:
                index[index_tuple] = []
            index[index_tuple].append(t)

    # Iterate over the tuples of the left relation and
    # compute the tuple of condition vars

    if isinstance(c['left'], list):
        for c2 in c['left']:
            table = processClause(c2, table, prior_lcs)
    else:
        table = processJoin(c['left'], table, prior_lcs)

    for t in table:
        cond_tuple = []
        for lcond in left_conds:
            lcs = prior_lcs
            lcs.update(t.getDict())
            lcond_val = eval(lcond, globals(), lcs)
            cond_tuple.append(lcond_val)
        cond_tuple = tuple(cond_tuple)

        if index:
            if cond_tuple in index:
                for t2 in index[cond_tuple]:
                    if not new_schema:
                        new_schema = dict(t.schema)
                        for i, _ in enumerate(t2):
                            v = [x for x in t2.schema.items()
                                 if x[1] == i][0][0]
                            new_schema[v] = len(new_schema) + i
                    new_t_data = list(t.tuple)
                    new_t_data += list(t2.tuple)
                    new_t = PQTuple(new_t_data, new_schema)
                    yield new_t
            else:
                continue
        else:
            r_data = r_init_data
            if isinstance(c['right'], list):
                for c2 in c['right']:
                    r_data = processClause(c2, r_data, prior_lcs)
            else:
                r_data = processJoin(c['right'], r_data, prior_lcs)

            for t2 in r_data:
                rcond_tuple = []
                for rcond in right_conds:
                    lcs = prior_lcs
                    lcs.update(t2.getDict())
                    rcond_val = eval(rcond, globals(), lcs)
                    rcond_tuple.append(rcond_val)

                rcond_tuple = tuple(rcond_tuple)
                if cond_tuple == rcond_tuple:
                    if not new_schema:
                        new_schema = dict(t.schema)
                        for i, _ in enumerate(t2):
                            v = [x for x in t2.schema.items()
                                 if x[1] == i][0][0]
                            new_schema[v] = len(new_schema) + i
                    new_t_data = list(t.tuple)
                    new_t_data += list(t2.tuple)
                    new_t = PQTuple(new_t_data, new_schema)
                    yield new_t
Example #12
0
def emptyTuple(schema):
    return PQTuple([None] * len(schema), schema)
Example #13
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def wrap_df(df):
  schema = { n:i for (i,n) in enumerate(df.columns) }
  for t in df.itertuples(False):
    yield PQTuple(t,schema)