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pypy / rpython / jit / metainterp / test / support.py

import py, sys
from rpython.rtyper.lltypesystem import lltype, llmemory
from rpython.rtyper.ootypesystem import ootype
from rpython.jit.backend.llgraph import runner
from rpython.jit.metainterp.warmspot import ll_meta_interp, get_stats
from rpython.jit.metainterp.warmstate import unspecialize_value
from rpython.jit.metainterp.optimizeopt import ALL_OPTS_DICT
from rpython.jit.metainterp import pyjitpl, history
from rpython.jit.codewriter.policy import JitPolicy
from rpython.jit.codewriter import codewriter, longlong
from rpython.rlib.rfloat import isnan
from rpython.translator.backendopt.all import backend_optimizations

def _get_jitcodes(testself, CPUClass, func, values, type_system,
                  supports_longlong=False, translationoptions={}, **kwds):
    from rpython.jit.codewriter import support

    class FakeJitCell(object):
        __product_token = None
        def get_procedure_token(self):
            return self.__product_token
        def set_procedure_token(self, token):
            self.__product_token = token

    class FakeWarmRunnerState(object):
        def attach_procedure_to_interp(self, greenkey, procedure_token):
            cell = self.jit_cell_at_key(greenkey)

        def helper_func(self, FUNCPTR, func):
            from rpython.rtyper.annlowlevel import llhelper
            return llhelper(FUNCPTR, func)

        def get_location_str(self, args):
            return 'location'

        def jit_cell_at_key(self, greenkey):
            assert greenkey == []
            return self._cell
        _cell = FakeJitCell()

        trace_limit = sys.maxint
        enable_opts = ALL_OPTS_DICT

    if kwds.pop('disable_optimizations', False):
        FakeWarmRunnerState.enable_opts = {}

    func._jit_unroll_safe_ = True
    rtyper = support.annotate(func, values, type_system=type_system,
    graphs = rtyper.annotator.translator.graphs
    testself.all_graphs = graphs
    result_kind = history.getkind(graphs[0].getreturnvar().concretetype)[0]

    class FakeJitDriverSD:
        num_green_args = 0
        portal_graph = graphs[0]
        virtualizable_info = None
        greenfield_info = None
        result_type = result_kind
        portal_runner_ptr = "???"

    stats = history.Stats()
    cpu = CPUClass(rtyper, stats, None, False)
    cw = codewriter.CodeWriter(cpu, [FakeJitDriverSD()])
    cw.debug = True
    testself.cw = cw
    policy = JitPolicy()
    graphs = cw.find_all_graphs(policy)
    if kwds.get("backendopt"):
        backend_optimizations(rtyper.annotator.translator, graphs=graphs)
    testself.warmrunnerstate = FakeWarmRunnerState()
    testself.warmrunnerstate.cpu = cpu
    FakeJitDriverSD.warmstate = testself.warmrunnerstate
    if hasattr(testself, 'finish_setup_for_interp_operations'):

def _run_with_blackhole(testself, args):
    from rpython.jit.metainterp.blackhole import BlackholeInterpBuilder
    cw = testself.cw
    blackholeinterpbuilder = BlackholeInterpBuilder(cw)
    blackholeinterp = blackholeinterpbuilder.acquire_interp()
    count_i = count_r = count_f = 0
    for value in args:
        T = lltype.typeOf(value)
        if T == lltype.Signed:
            blackholeinterp.setarg_i(count_i, value)
            count_i += 1
        elif T == llmemory.GCREF:
            blackholeinterp.setarg_r(count_r, value)
            count_r += 1
        elif T == lltype.Float:
            value = longlong.getfloatstorage(value)
            blackholeinterp.setarg_f(count_f, value)
            count_f += 1
            raise TypeError(T)
    [jitdriver_sd] = cw.callcontrol.jitdrivers_sd
    blackholeinterp.setposition(jitdriver_sd.mainjitcode, 0)
    return blackholeinterp._final_result_anytype()

def _run_with_pyjitpl(testself, args):

    class DoneWithThisFrame(Exception):

    class DoneWithThisFrameRef(DoneWithThisFrame):
        def __init__(self, cpu, *args):
            DoneWithThisFrame.__init__(self, *args)

    cw = testself.cw
    opt = history.Options(listops=True)
    metainterp_sd = pyjitpl.MetaInterpStaticData(cw.cpu, opt)
    [jitdriver_sd] = metainterp_sd.jitdrivers_sd
    metainterp = pyjitpl.MetaInterp(metainterp_sd, jitdriver_sd)
    metainterp_sd.DoneWithThisFrameInt = DoneWithThisFrame
    metainterp_sd.DoneWithThisFrameRef = DoneWithThisFrameRef
    metainterp_sd.DoneWithThisFrameFloat = DoneWithThisFrame
    testself.metainterp = metainterp
        metainterp.compile_and_run_once(jitdriver_sd, *args)
    except DoneWithThisFrame, e:
        #if option.view:
        #    metainterp.stats.view()
        return e.args[0]
        raise Exception("FAILED")

def _run_with_machine_code(testself, args):
    metainterp = testself.metainterp
    num_green_args = metainterp.jitdriver_sd.num_green_args
    procedure_token = metainterp.get_procedure_token(args[:num_green_args])
    # a loop was successfully created by _run_with_pyjitpl(); call it
    cpu = metainterp.cpu
    args1 = []
    for i in range(len(args) - num_green_args):
        x = args[num_green_args + i]
    deadframe = cpu.execute_token(procedure_token, *args1)
    faildescr = cpu.get_latest_descr(deadframe)
    assert faildescr.__class__.__name__.startswith('DoneWithThisFrameDescr')
    if metainterp.jitdriver_sd.result_type == history.INT:
        return cpu.get_latest_value_int(deadframe, 0)
    elif metainterp.jitdriver_sd.result_type == history.REF:
        return cpu.get_latest_value_ref(deadframe, 0)
    elif metainterp.jitdriver_sd.result_type == history.FLOAT:
        return cpu.get_latest_value_float(deadframe, 0)
        return None

class JitMixin:
    basic = True

    def check_resops(self, expected=None, **check):
        get_stats().check_resops(expected=expected, **check)

    def check_simple_loop(self, expected=None, **check):
        get_stats().check_simple_loop(expected=expected, **check)

    def check_trace_count(self, count): # was check_loop_count
        # The number of traces compiled
        assert get_stats().compiled_count == count

    def check_trace_count_at_most(self, count):
        assert get_stats().compiled_count <= count

    def check_jitcell_token_count(self, count): # was check_tree_loop_count
        assert len(get_stats().jitcell_token_wrefs) == count

    def check_target_token_count(self, count):
        tokens = get_stats().get_all_jitcell_tokens()
        n = sum([len(t.target_tokens) for t in tokens])
        assert n == count

    def check_enter_count(self, count):
        assert get_stats().enter_count == count

    def check_enter_count_at_most(self, count):
        assert get_stats().enter_count <= count

    def check_jumps(self, maxcount):
        return # FIXME
        assert get_stats().exec_jumps <= maxcount

    def check_aborted_count(self, count):
        assert get_stats().aborted_count == count

    def check_aborted_count_at_least(self, count):
        assert get_stats().aborted_count >= count

    def meta_interp(self, *args, **kwds):
        kwds['CPUClass'] = self.CPUClass
        kwds['type_system'] = self.type_system
        if "backendopt" not in kwds:
            kwds["backendopt"] = False
        old = codewriter.CodeWriter.debug
            codewriter.CodeWriter.debug = True
            return ll_meta_interp(*args, **kwds)
            codewriter.CodeWriter.debug = old

    def interp_operations(self, f, args, **kwds):
        # get the JitCodes for the function f
        _get_jitcodes(self, self.CPUClass, f, args, self.type_system, **kwds)
        # try to run it with blackhole.py
        result1 = _run_with_blackhole(self, args)
        # try to run it with pyjitpl.py
        result2 = _run_with_pyjitpl(self, args)
        assert result1 == result2 or isnan(result1) and isnan(result2)
        # try to run it by running the code compiled just before
        result3 = _run_with_machine_code(self, args)
        assert result1 == result3 or result3 == NotImplemented or isnan(result1) and isnan(result3)
        if (longlong.supports_longlong and
            isinstance(result1, longlong.r_float_storage)):
            result1 = longlong.getrealfloat(result1)
        return result1

    def check_history(self, expected=None, **isns):
        # this can be used after calling meta_interp
        get_stats().check_history(expected, **isns)

    def check_operations_history(self, expected=None, **isns):
        # this can be used after interp_operations
        if expected is not None:
            expected = dict(expected)
            expected['finish'] = 1
        self.metainterp.staticdata.stats.check_history(expected, **isns)

class LLJitMixin(JitMixin):
    type_system = 'lltype'
    CPUClass = runner.LLGraphCPU

    def Ptr(T):
        return lltype.Ptr(T)

    def GcStruct(name, *fields, **kwds):
        S = lltype.GcStruct(name, *fields, **kwds)
        return S

    malloc = staticmethod(lltype.malloc)
    nullptr = staticmethod(lltype.nullptr)

    def malloc_immortal(T):
        return lltype.malloc(T, immortal=True)

    def _get_NODE(self):
        NODE = lltype.GcForwardReference()
        NODE.become(lltype.GcStruct('NODE', ('value', lltype.Signed),
                                            ('next', lltype.Ptr(NODE))))
        return NODE
class OOJitMixin(JitMixin):
    type_system = 'ootype'
    #CPUClass = runner.OOtypeCPU

    def setup_class(cls):
        py.test.skip("ootype tests skipped for now")

    def Ptr(T):
        return T

    def GcStruct(name, *fields, **kwds):
        if 'hints' in kwds:
            kwds['_hints'] = kwds['hints']
            del kwds['hints']
        I = ootype.Instance(name, ootype.ROOT, dict(fields), **kwds)
        return I

    malloc = staticmethod(ootype.new)
    nullptr = staticmethod(ootype.null)

    def malloc_immortal(T):
        return ootype.new(T)

    def _get_NODE(self):
        NODE = ootype.Instance('NODE', ootype.ROOT, {})
        NODE._add_fields({'value': ootype.Signed,
                          'next': NODE})
        return NODE

# ____________________________________________________________

class _Foo:

def noConst(x):
    """Helper function for tests, returning 'x' as a BoxInt/BoxPtr
    even if it is a ConstInt/ConstPtr."""
    f1 = _Foo(); f2 = _Foo()
    f1.x = x; f2.x = 0
    return f1.x