Exemplo n.º 1
0
def test_gc_pointers_inside():
    from pypy.rpython import rclass
    PT = lltype.Ptr(lltype.GcStruct('T'))
    S1 = lltype.GcStruct('S', ('x', PT), ('y', PT))
    S2 = lltype.GcStruct('S', ('x', PT), ('y', PT), hints={'immutable': True})
    accessor = rclass.FieldListAccessor()
    S3 = lltype.GcStruct('S', ('x', PT), ('y', PT),
                         hints={'immutable_fields': accessor})
    accessor.initialize(S3, ['x'])
    #
    s1 = lltype.malloc(S1)
    adr = llmemory.cast_ptr_to_adr(s1)
    lst = list(gc_pointers_inside(s1._obj, adr, mutable_only=True))
    expected = [
        adr + llmemory.offsetof(S1, 'x'), adr + llmemory.offsetof(S1, 'y')
    ]
    assert lst == expected or lst == expected[::-1]
    #
    s2 = lltype.malloc(S2)
    adr = llmemory.cast_ptr_to_adr(s2)
    lst = list(gc_pointers_inside(s2._obj, adr, mutable_only=True))
    assert lst == []
    #
    s3 = lltype.malloc(S3)
    adr = llmemory.cast_ptr_to_adr(s3)
    lst = list(gc_pointers_inside(s3._obj, adr, mutable_only=True))
    assert lst == [adr + llmemory.offsetof(S3, 'y')]
Exemplo n.º 2
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def gc_pointers_inside(v, adr, mutable_only=False):
    t = lltype.typeOf(v)
    if isinstance(t, lltype.Struct):
        if mutable_only and t._hints.get('immutable'):
            return
        for n, t2 in t._flds.iteritems():
            if isinstance(t2, lltype.Ptr) and t2.TO._gckind == 'gc':
                yield adr + llmemory.offsetof(t, n)
            elif isinstance(t2, (lltype.Array, lltype.Struct)):
                for a in gc_pointers_inside(getattr(v, n),
                                            adr + llmemory.offsetof(t, n),
                                            mutable_only):
                    yield a
    elif isinstance(t, lltype.Array):
        if mutable_only and t._hints.get('immutable'):
            return
        if isinstance(t.OF, lltype.Ptr) and t.OF.TO._gckind == 'gc':
            for i in range(len(v.items)):
                yield adr + llmemory.itemoffsetof(t, i)
        elif isinstance(t.OF, lltype.Struct):
            for i in range(len(v.items)):
                for a in gc_pointers_inside(v.items[i],
                                            adr + llmemory.itemoffsetof(t, i),
                                            mutable_only):
                    yield a
Exemplo n.º 3
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def test_gc_pointers_inside():
    from pypy.rpython import rclass
    PT = lltype.Ptr(lltype.GcStruct('T'))
    S1 = lltype.GcStruct('S', ('x', PT), ('y', PT))
    S2 = lltype.GcStruct('S', ('x', PT), ('y', PT),
                         hints={'immutable': True})
    accessor = rclass.FieldListAccessor()
    S3 = lltype.GcStruct('S', ('x', PT), ('y', PT),
                         hints={'immutable_fields': accessor})
    accessor.initialize(S3, {'x': IR_IMMUTABLE})
    #
    s1 = lltype.malloc(S1)
    adr = llmemory.cast_ptr_to_adr(s1)
    lst = list(gc_pointers_inside(s1._obj, adr, mutable_only=True))
    expected = [adr + llmemory.offsetof(S1, 'x'),
                adr + llmemory.offsetof(S1, 'y')]
    assert lst == expected or lst == expected[::-1]
    #
    s2 = lltype.malloc(S2)
    adr = llmemory.cast_ptr_to_adr(s2)
    lst = list(gc_pointers_inside(s2._obj, adr, mutable_only=True))
    assert lst == []
    #
    s3 = lltype.malloc(S3)
    adr = llmemory.cast_ptr_to_adr(s3)
    lst = list(gc_pointers_inside(s3._obj, adr, mutable_only=True))
    assert lst == [adr + llmemory.offsetof(S3, 'y')]
Exemplo n.º 4
0
def gc_pointers_inside(v, adr, mutable_only=False):
    t = lltype.typeOf(v)
    if isinstance(t, lltype.Struct):
        if mutable_only and t._hints.get('immutable'):
            return
        for n, t2 in t._flds.iteritems():
            if isinstance(t2, lltype.Ptr) and t2.TO._gckind == 'gc':
                yield adr + llmemory.offsetof(t, n)
            elif isinstance(t2, (lltype.Array, lltype.Struct)):
                for a in gc_pointers_inside(getattr(v, n),
                                            adr + llmemory.offsetof(t, n),
                                            mutable_only):
                    yield a
    elif isinstance(t, lltype.Array):
        if mutable_only and t._hints.get('immutable'):
            return
        if isinstance(t.OF, lltype.Ptr) and t.OF.TO._gckind == 'gc':
            for i in range(len(v.items)):
                yield adr + llmemory.itemoffsetof(t, i)
        elif isinstance(t.OF, lltype.Struct):
            for i in range(len(v.items)):
                for a in gc_pointers_inside(v.items[i],
                                            adr + llmemory.itemoffsetof(t, i),
                                            mutable_only):
                    yield a
Exemplo n.º 5
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def gc_pointers_inside(v, adr, mutable_only=False):
    t = lltype.typeOf(v)
    if isinstance(t, lltype.Struct):
        skip = ()
        if mutable_only:
            if t._hints.get("immutable"):
                return
            if "immutable_fields" in t._hints:
                skip = t._hints["immutable_fields"].all_immutable_fields()
        for n, t2 in t._flds.iteritems():
            if isinstance(t2, lltype.Ptr) and t2.TO._gckind == "gc":
                if n not in skip:
                    yield adr + llmemory.offsetof(t, n)
            elif isinstance(t2, (lltype.Array, lltype.Struct)):
                for a in gc_pointers_inside(getattr(v, n), adr + llmemory.offsetof(t, n), mutable_only):
                    yield a
    elif isinstance(t, lltype.Array):
        if mutable_only and t._hints.get("immutable"):
            return
        if isinstance(t.OF, lltype.Ptr) and t.OF.TO._gckind == "gc":
            for i in range(len(v.items)):
                yield adr + llmemory.itemoffsetof(t, i)
        elif isinstance(t.OF, lltype.Struct):
            for i in range(len(v.items)):
                for a in gc_pointers_inside(v.items[i], adr + llmemory.itemoffsetof(t, i), mutable_only):
                    yield a
Exemplo n.º 6
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 def test_add_offsetofs(self):
     from pypy.rpython.lltypesystem.llmemory import offsetof
     S = lltype.GcStruct("struct", ('a', lltype.Signed), ('b', lltype.Signed))
     addr = raw_malloc(100)
     (addr + offsetof(S, 'b')).signed[0] = 42
     assert (addr + offsetof(S, 'b')).signed[0] == 42
     addr.signed[5] = offsetof(S, 'b')
     offset = addr.signed[5]
     assert (addr + offset).signed[0] == 42
Exemplo n.º 7
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def offsets_to_gc_pointers(TYPE):
    if isinstance(TYPE, lltype.Struct):
        offsets = []
        for name in TYPE._names:
            FIELD = getattr(TYPE, name)
            if isinstance(FIELD, lltype.Ptr) and FIELD.TO._gckind == 'gc':
                offsets.append(llmemory.offsetof(TYPE, name))
            elif isinstance(FIELD, lltype.Struct):
                suboffsets = offsets_to_gc_pointers(FIELD)
                offsets += [s + llmemory.offsetof(TYPE, name) for s in suboffsets]
        return offsets
    return []
Exemplo n.º 8
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def test_offsetof():
    STRUCT = lltype.GcStruct("s", ("x", lltype.Signed), ("y", lltype.Signed))
    offsetx = llmemory.offsetof(STRUCT, 'x')
    offsety = llmemory.offsetof(STRUCT, 'y')
    def f():
        s = lltype.malloc(STRUCT)
        s.x = 1
        adr = llmemory.cast_ptr_to_adr(s)
        result = (adr + offsetx).signed[0]
        (adr + offsety).signed[0] = 2
        return result * 10 + s.y
    fn = compile_function(f, [])
    res = fn()
    assert res == 12
Exemplo n.º 9
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def test_offsetof():
    STRUCT = lltype.GcStruct("s", ("x", lltype.Signed), ("y", lltype.Signed))
    offsetx = llmemory.offsetof(STRUCT, 'x')
    offsety = llmemory.offsetof(STRUCT, 'y')
    def f():
        s = lltype.malloc(STRUCT)
        s.x = 1
        adr = llmemory.cast_ptr_to_adr(s)
        result = (adr + offsetx).signed[0]
        (adr + offsety).signed[0] = 2
        return result * 10 + s.y
    fn, t = getcompiled(f, [])
    res = fn()
    assert res == 12
Exemplo n.º 10
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def test_look_inside_object():
    # this code is also used in translation tests below
    myarenasize = 50
    a = arena_malloc(myarenasize, False)
    b = a + round_up_for_allocation(llmemory.sizeof(lltype.Char))
    arena_reserve(b, precomputed_size)
    (b + llmemory.offsetof(SX, 'x')).signed[0] = 123
    assert llmemory.cast_adr_to_ptr(b, SPTR).x == 123
    llmemory.cast_adr_to_ptr(b, SPTR).x += 1
    assert (b + llmemory.offsetof(SX, 'x')).signed[0] == 124
    arena_reset(a, myarenasize, True)
    arena_reserve(b, round_up_for_allocation(llmemory.sizeof(SX)))
    assert llmemory.cast_adr_to_ptr(b, SPTR).x == 0
    arena_free(a)
    return 42
Exemplo n.º 11
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def test_look_inside_object():
    # this code is also used in translation tests below
    myarenasize = 50
    a = arena_malloc(myarenasize, False)
    b = a + round_up_for_allocation(llmemory.sizeof(lltype.Char))
    arena_reserve(b, precomputed_size)
    (b + llmemory.offsetof(SX, 'x')).signed[0] = 123
    assert llmemory.cast_adr_to_ptr(b, SPTR).x == 123
    llmemory.cast_adr_to_ptr(b, SPTR).x += 1
    assert (b + llmemory.offsetof(SX, 'x')).signed[0] == 124
    arena_reset(a, myarenasize, True)
    arena_reserve(b, round_up_for_allocation(llmemory.sizeof(SX)))
    assert llmemory.cast_adr_to_ptr(b, SPTR).x == 0
    arena_free(a)
    return 42
Exemplo n.º 12
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def encode_type_shape(builder, info, TYPE):
    """Encode the shape of the TYPE into the TYPE_INFO structure 'info'."""
    offsets = offsets_to_gc_pointers(TYPE)
    info.ofstoptrs = builder.offsets2table(offsets, TYPE)
    info.finalizer = builder.make_finalizer_funcptr_for_type(TYPE)
    info.weakptrofs = weakpointer_offset(TYPE)
    if not TYPE._is_varsize():
        #info.isvarsize = False
        #info.gcptrinvarsize = False
        info.fixedsize = llarena.round_up_for_allocation(
            llmemory.sizeof(TYPE))
        info.ofstolength = -1
        # note about round_up_for_allocation(): in the 'info' table
        # we put a rounded-up size only for fixed-size objects.  For
        # varsize ones, the GC must anyway compute the size at run-time
        # and round up that result.
    else:
        #info.isvarsize = True
        info.fixedsize = llmemory.sizeof(TYPE, 0)
        if isinstance(TYPE, lltype.Struct):
            ARRAY = TYPE._flds[TYPE._arrayfld]
            ofs1 = llmemory.offsetof(TYPE, TYPE._arrayfld)
            info.ofstolength = ofs1 + llmemory.ArrayLengthOffset(ARRAY)
            info.ofstovar = ofs1 + llmemory.itemoffsetof(ARRAY, 0)
        else:
            ARRAY = TYPE
            info.ofstolength = llmemory.ArrayLengthOffset(ARRAY)
            info.ofstovar = llmemory.itemoffsetof(TYPE, 0)
        assert isinstance(ARRAY, lltype.Array)
        if ARRAY.OF != lltype.Void:
            offsets = offsets_to_gc_pointers(ARRAY.OF)
        else:
            offsets = ()
        info.varofstoptrs = builder.offsets2table(offsets, ARRAY.OF)
        info.varitemsize = llmemory.sizeof(ARRAY.OF)
Exemplo n.º 13
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def test_gc_offsets():
    STRUCT = lltype.GcStruct('S1', ('x', lltype.Signed), ('y', lltype.Char))
    ARRAY = lltype.GcArray(lltype.Signed)
    s1 = llarena.round_up_for_allocation(llmemory.sizeof(STRUCT))
    s2 = llmemory.offsetof(STRUCT, 'x')
    s3 = llmemory.ArrayLengthOffset(ARRAY)
    s4 = llmemory.sizeof(ARRAY, 0)
    s5 = llmemory.ArrayItemsOffset(ARRAY)

    def fn():
        return (s1 * 100000000 + s2 * 1000000 + s3 * 10000 + s4 * 100 + s5)

    mod, f = compile_test(fn, [], gcpolicy="semispace")
    res = f()
    i1 = (res // 100000000) % 100
    i2 = (res // 1000000) % 100
    i3 = (res // 10000) % 100
    i4 = (res // 100) % 100
    i5 = (res // 1) % 100
    assert i1 % 4 == 0
    assert 12 <= i1 <= 24
    assert 4 <= i2 <= i1 - 8
    assert 4 <= i3 <= 12
    assert i4 == i5
    assert i3 + 4 <= i5
Exemplo n.º 14
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    def str_from_buffer(raw_buf, gc_buf, allocated_size, needed_size):
        """
        Converts from a pair returned by alloc_buffer to a high-level string.
        The returned string will be truncated to needed_size.
        """
        assert allocated_size >= needed_size

        if gc_buf and (allocated_size == needed_size):
            return hlstrtype(gc_buf)

        new_buf = lltype.malloc(STRTYPE, needed_size)
        try:
            str_chars_offset = (offsetof(STRTYPE, 'chars') + \
                                itemoffsetof(STRTYPE.chars, 0))
            if gc_buf:
                src = cast_ptr_to_adr(gc_buf) + str_chars_offset
            else:
                src = cast_ptr_to_adr(raw_buf) + itemoffsetof(TYPEP.TO, 0)
            dest = cast_ptr_to_adr(new_buf) + str_chars_offset
            ## FIXME: This is bad, because dest could potentially move
            ## if there are threads involved.
            raw_memcopy(src, dest, llmemory.sizeof(ll_char_type) * needed_size)
            return hlstrtype(new_buf)
        finally:
            keepalive_until_here(new_buf)
Exemplo n.º 15
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    def define_custom_trace(cls):
        from pypy.rpython.annlowlevel import llhelper
        from pypy.rpython.lltypesystem import llmemory
        #
        S = lltype.GcStruct('S', ('x', llmemory.Address), rtti=True)
        T = lltype.GcStruct('T', ('z', lltype.Signed))
        offset_of_x = llmemory.offsetof(S, 'x')

        def customtrace(obj, prev):
            if not prev:
                return obj + offset_of_x
            else:
                return llmemory.NULL

        CUSTOMTRACEFUNC = lltype.FuncType([llmemory.Address, llmemory.Address],
                                          llmemory.Address)
        customtraceptr = llhelper(lltype.Ptr(CUSTOMTRACEFUNC), customtrace)
        lltype.attachRuntimeTypeInfo(S, customtraceptr=customtraceptr)

        #
        def setup():
            s1 = lltype.malloc(S)
            tx = lltype.malloc(T)
            tx.z = 4243
            s1.x = llmemory.cast_ptr_to_adr(tx)
            return s1

        def f():
            s1 = setup()
            llop.gc__collect(lltype.Void)
            return llmemory.cast_adr_to_ptr(s1.x, lltype.Ptr(T)).z

        return f
Exemplo n.º 16
0
Arquivo: rgc.py Projeto: ieure/pypy
def ll_shrink_array(p, smallerlength):
    from pypy.rpython.lltypesystem.lloperation import llop
    from pypy.rlib.objectmodel import keepalive_until_here

    if llop.shrink_array(lltype.Bool, p, smallerlength):
        return p    # done by the GC
    # XXX we assume for now that the type of p is GcStruct containing a
    # variable array, with no further pointers anywhere, and exactly one
    # field in the fixed part -- like STR and UNICODE.

    TP = lltype.typeOf(p).TO
    newp = lltype.malloc(TP, smallerlength)

    assert len(TP._names) == 2
    field = getattr(p, TP._names[0])
    setattr(newp, TP._names[0], field)

    ARRAY = getattr(TP, TP._arrayfld)
    offset = (llmemory.offsetof(TP, TP._arrayfld) +
              llmemory.itemoffsetof(ARRAY, 0))
    source_addr = llmemory.cast_ptr_to_adr(p)    + offset
    dest_addr   = llmemory.cast_ptr_to_adr(newp) + offset
    llmemory.raw_memcopy(source_addr, dest_addr, 
                         llmemory.sizeof(ARRAY.OF) * smallerlength)

    keepalive_until_here(p)
    keepalive_until_here(newp)
    return newp
Exemplo n.º 17
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def test_gc_offsets():
    STRUCT = lltype.GcStruct("S1", ("x", lltype.Signed), ("y", lltype.Char))
    ARRAY = lltype.GcArray(lltype.Signed)
    s1 = llarena.round_up_for_allocation(llmemory.sizeof(STRUCT))
    s2 = llmemory.offsetof(STRUCT, "x")
    s3 = llmemory.ArrayLengthOffset(ARRAY)
    s4 = llmemory.sizeof(ARRAY, 0)
    s5 = llmemory.ArrayItemsOffset(ARRAY)

    def fn():
        return s1 * 100000000 + s2 * 1000000 + s3 * 10000 + s4 * 100 + s5

    mod, f = compile_test(fn, [], gcpolicy="semispace")
    res = f()
    i1 = (res // 100000000) % 100
    i2 = (res // 1000000) % 100
    i3 = (res // 10000) % 100
    i4 = (res // 100) % 100
    i5 = (res // 1) % 100
    assert i1 % 4 == 0
    assert 12 <= i1 <= 24
    assert 4 <= i2 <= i1 - 8
    assert 4 <= i3 <= 12
    assert i4 == i5
    assert i3 + 4 <= i5
Exemplo n.º 18
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 def _gct_resize_buffer_no_realloc(self, hop, v_lgt):
     op = hop.spaceop
     meth = self.gct_fv_gc_malloc_varsize
     flags = {'flavor':'gc', 'varsize': True, 'keep_current_args': True}
     self.varsize_malloc_helper(hop, flags, meth, [])
     # fish resvar
     v_newbuf = hop.llops[-1].result
     v_src = op.args[0]
     TYPE = v_src.concretetype.TO
     c_fldname = rmodel.inputconst(lltype.Void, TYPE._arrayfld)
     v_adrsrc = hop.genop('cast_ptr_to_adr', [v_src],
                          resulttype=llmemory.Address)
     v_adrnewbuf = hop.genop('cast_ptr_to_adr', [v_newbuf],
                             resulttype=llmemory.Address)
     ofs = (llmemory.offsetof(TYPE, TYPE._arrayfld) +
            llmemory.itemoffsetof(getattr(TYPE, TYPE._arrayfld), 0))
     v_ofs = rmodel.inputconst(lltype.Signed, ofs)
     v_adrsrc = hop.genop('adr_add', [v_adrsrc, v_ofs],
                          resulttype=llmemory.Address)
     v_adrnewbuf = hop.genop('adr_add', [v_adrnewbuf, v_ofs],
                             resulttype=llmemory.Address)
     size = llmemory.sizeof(getattr(TYPE, TYPE._arrayfld).OF)
     c_size = rmodel.inputconst(lltype.Signed, size)
     v_lgtsym = hop.genop('int_mul', [c_size, v_lgt],
                          resulttype=lltype.Signed) 
     vlist = [v_adrsrc, v_adrnewbuf, v_lgtsym]
     hop.genop('raw_memcopy', vlist)
Exemplo n.º 19
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def encode_type_shape(builder, info, TYPE):
    """Encode the shape of the TYPE into the TYPE_INFO structure 'info'."""
    offsets = offsets_to_gc_pointers(TYPE)
    info.ofstoptrs = builder.offsets2table(offsets, TYPE)
    info.finalizer = builder.make_finalizer_funcptr_for_type(TYPE)
    info.weakptrofs = weakpointer_offset(TYPE)
    if not TYPE._is_varsize():
        #info.isvarsize = False
        #info.gcptrinvarsize = False
        info.fixedsize = llarena.round_up_for_allocation(llmemory.sizeof(TYPE))
        info.ofstolength = -1
        # note about round_up_for_allocation(): in the 'info' table
        # we put a rounded-up size only for fixed-size objects.  For
        # varsize ones, the GC must anyway compute the size at run-time
        # and round up that result.
    else:
        #info.isvarsize = True
        info.fixedsize = llmemory.sizeof(TYPE, 0)
        if isinstance(TYPE, lltype.Struct):
            ARRAY = TYPE._flds[TYPE._arrayfld]
            ofs1 = llmemory.offsetof(TYPE, TYPE._arrayfld)
            info.ofstolength = ofs1 + llmemory.ArrayLengthOffset(ARRAY)
            info.ofstovar = ofs1 + llmemory.itemoffsetof(ARRAY, 0)
        else:
            ARRAY = TYPE
            info.ofstolength = llmemory.ArrayLengthOffset(ARRAY)
            info.ofstovar = llmemory.itemoffsetof(TYPE, 0)
        assert isinstance(ARRAY, lltype.Array)
        if ARRAY.OF != lltype.Void:
            offsets = offsets_to_gc_pointers(ARRAY.OF)
        else:
            offsets = ()
        info.varofstoptrs = builder.offsets2table(offsets, ARRAY.OF)
        info.varitemsize = llmemory.sizeof(ARRAY.OF)
Exemplo n.º 20
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def offsets_to_gc_pointers(TYPE):
    offsets = []
    if isinstance(TYPE, lltype.Struct):
        for name in TYPE._names:
            FIELD = getattr(TYPE, name)
            if isinstance(FIELD, lltype.Array):
                continue    # skip inlined array
            baseofs = llmemory.offsetof(TYPE, name)
            suboffsets = offsets_to_gc_pointers(FIELD)
            for s in suboffsets:
                try:
                    knownzero = s == 0
                except TypeError:
                    knownzero = False
                if knownzero:
                    offsets.append(baseofs)
                else:
                    offsets.append(baseofs + s)
        # sanity check
        #ex = lltype.Ptr(TYPE)._example()
        #adr = llmemory.cast_ptr_to_adr(ex)
        #for off in offsets:
        #    (adr + off)
    elif isinstance(TYPE, lltype.Ptr) and TYPE.TO._gckind == 'gc':
        offsets.append(0)
    return offsets
Exemplo n.º 21
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def get_array_token(T, translate_support_code):
    # T can be an array or a var-sized structure
    if translate_support_code:
        basesize = llmemory.sizeof(T, 0)
        if isinstance(T, lltype.Struct):
            SUBARRAY = getattr(T, T._arrayfld)
            itemsize = llmemory.sizeof(SUBARRAY.OF)
            ofs_length = (llmemory.offsetof(T, T._arrayfld) +
                          llmemory.ArrayLengthOffset(SUBARRAY))
        else:
            if T._hints.get('nolength', None):
                ofs_length = -1
            else:
                ofs_length = llmemory.ArrayLengthOffset(T)
            itemsize = llmemory.sizeof(T.OF)
    else:
        if isinstance(T, lltype.Struct):
            assert T._arrayfld is not None, "%r is not variable-sized" % (T, )
            cstruct = ll2ctypes.get_ctypes_type(T)
            cfield = getattr(cstruct, T._arrayfld)
            before_array_part = cfield.offset
            T = getattr(T, T._arrayfld)
        else:
            before_array_part = 0
        carray = ll2ctypes.get_ctypes_type(T)
        if T._hints.get('nolength', None):
            ofs_length = -1
        else:
            assert carray.length.size == WORD
            ofs_length = before_array_part + carray.length.offset
        basesize = before_array_part + carray.items.offset
        carrayitem = ll2ctypes.get_ctypes_type(T.OF)
        itemsize = ctypes.sizeof(carrayitem)
    return basesize, itemsize, ofs_length
Exemplo n.º 22
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def test_address_order():
    a = arena_malloc(20, False)
    assert eq(a, a)
    assert lt(a, a+1)
    assert lt(a+5, a+20)

    b = arena_malloc(20, False)
    if a > b:
        a, b = b, a
    assert lt(a, b)
    assert lt(a+19, b)
    assert lt(a, b+19)

    c = b + round_up_for_allocation(llmemory.sizeof(lltype.Char))
    arena_reserve(c, precomputed_size)
    assert lt(b, c)
    assert lt(a, c)
    assert lt(llmemory.NULL, c)
    d = c + llmemory.offsetof(SX, 'x')
    assert lt(c, d)
    assert lt(b, d)
    assert lt(a, d)
    assert lt(llmemory.NULL, d)
    e = c + precomputed_size
    assert lt(d, e)
    assert lt(c, e)
    assert lt(b, e)
    assert lt(a, e)
    assert lt(llmemory.NULL, e)
Exemplo n.º 23
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    def str_from_buffer(raw_buf, gc_buf, allocated_size, needed_size):
        """
        Converts from a pair returned by alloc_buffer to a high-level string.
        The returned string will be truncated to needed_size.
        """
        assert allocated_size >= needed_size

        if gc_buf and (allocated_size == needed_size):
            return hlstrtype(gc_buf)

        new_buf = lltype.malloc(STRTYPE, needed_size)
        try:
            str_chars_offset = (offsetof(STRTYPE, 'chars') + \
                                itemoffsetof(STRTYPE.chars, 0))
            if gc_buf:
                src = cast_ptr_to_adr(gc_buf) + str_chars_offset
            else:
                src = cast_ptr_to_adr(raw_buf) + itemoffsetof(TYPEP.TO, 0)
            dest = cast_ptr_to_adr(new_buf) + str_chars_offset
            ## FIXME: This is bad, because dest could potentially move
            ## if there are threads involved.
            raw_memcopy(src, dest,
                        llmemory.sizeof(ll_char_type) * needed_size)
            return hlstrtype(new_buf)
        finally:
            keepalive_until_here(new_buf)
Exemplo n.º 24
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def ll_shrink_array(p, smallerlength):
    from pypy.rpython.lltypesystem.lloperation import llop
    from pypy.rlib.objectmodel import keepalive_until_here

    if llop.shrink_array(lltype.Bool, p, smallerlength):
        return p  # done by the GC
    # XXX we assume for now that the type of p is GcStruct containing a
    # variable array, with no further pointers anywhere, and exactly one
    # field in the fixed part -- like STR and UNICODE.

    TP = lltype.typeOf(p).TO
    newp = lltype.malloc(TP, smallerlength)

    assert len(TP._names) == 2
    field = getattr(p, TP._names[0])
    setattr(newp, TP._names[0], field)

    ARRAY = getattr(TP, TP._arrayfld)
    offset = (llmemory.offsetof(TP, TP._arrayfld) +
              llmemory.itemoffsetof(ARRAY, 0))
    source_addr = llmemory.cast_ptr_to_adr(p) + offset
    dest_addr = llmemory.cast_ptr_to_adr(newp) + offset
    llmemory.raw_memcopy(source_addr, dest_addr,
                         llmemory.sizeof(ARRAY.OF) * smallerlength)

    keepalive_until_here(p)
    keepalive_until_here(newp)
    return newp
Exemplo n.º 25
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 def define_custom_trace(cls):
     from pypy.rpython.annlowlevel import llhelper
     from pypy.rpython.lltypesystem import llmemory
     #
     S = lltype.GcStruct('S', ('x', llmemory.Address), rtti=True)
     T = lltype.GcStruct('T', ('z', lltype.Signed))
     offset_of_x = llmemory.offsetof(S, 'x')
     def customtrace(obj, prev):
         if not prev:
             return obj + offset_of_x
         else:
             return llmemory.NULL
     CUSTOMTRACEFUNC = lltype.FuncType([llmemory.Address, llmemory.Address],
                                       llmemory.Address)
     customtraceptr = llhelper(lltype.Ptr(CUSTOMTRACEFUNC), customtrace)
     lltype.attachRuntimeTypeInfo(S, customtraceptr=customtraceptr)
     #
     def setup():
         s1 = lltype.malloc(S)
         tx = lltype.malloc(T)
         tx.z = 4243
         s1.x = llmemory.cast_ptr_to_adr(tx)
         return s1
     def f():
         s1 = setup()
         llop.gc__collect(lltype.Void)
         return llmemory.cast_adr_to_ptr(s1.x, lltype.Ptr(T)).z
     return f
Exemplo n.º 26
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def get_array_token(T, translate_support_code):
    # T can be an array or a var-sized structure
    if translate_support_code:
        basesize = llmemory.sizeof(T, 0)
        if isinstance(T, lltype.Struct):
            SUBARRAY = getattr(T, T._arrayfld)
            itemsize = llmemory.sizeof(SUBARRAY.OF)
            ofs_length = (llmemory.offsetof(T, T._arrayfld) +
                          llmemory.ArrayLengthOffset(SUBARRAY))
        else:
            itemsize = llmemory.sizeof(T.OF)
            ofs_length = llmemory.ArrayLengthOffset(T)
    else:
        if isinstance(T, lltype.Struct):
            assert T._arrayfld is not None, "%r is not variable-sized" % (T,)
            cstruct = ll2ctypes.get_ctypes_type(T)
            cfield = getattr(cstruct, T._arrayfld)
            before_array_part = cfield.offset
            T = getattr(T, T._arrayfld)
        else:
            before_array_part = 0
        carray = ll2ctypes.get_ctypes_type(T)
        assert carray.length.size == WORD
        ofs_length = before_array_part + carray.length.offset
        basesize = before_array_part + carray.items.offset
        carrayitem = ll2ctypes.get_ctypes_type(T.OF)
        itemsize = ctypes.sizeof(carrayitem)
    return basesize, itemsize, ofs_length
Exemplo n.º 27
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 def fieldToken(T, name):
     FIELD = getattr(T, name)
     if isinstance(FIELD, lltype.ContainerType):
         fieldsize = 0      # not useful for getsubstruct
     else:
         fieldsize = llmemory.sizeof(FIELD)
     return (llmemory.offsetof(T, name), fieldsize)
Exemplo n.º 28
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def get_field_token(STRUCT, fieldname, translate_support_code):
    if translate_support_code:
        return (llmemory.offsetof(STRUCT, fieldname),
                get_size(getattr(STRUCT, fieldname), True))
    cstruct = ll2ctypes.get_ctypes_type(STRUCT)
    cfield = getattr(cstruct, fieldname)
    return (cfield.offset, cfield.size)
Exemplo n.º 29
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def offsets_to_gc_pointers(TYPE):
    offsets = []
    if isinstance(TYPE, lltype.Struct):
        for name in TYPE._names:
            FIELD = getattr(TYPE, name)
            if isinstance(FIELD, lltype.Array):
                continue  # skip inlined array
            baseofs = llmemory.offsetof(TYPE, name)
            suboffsets = offsets_to_gc_pointers(FIELD)
            for s in suboffsets:
                try:
                    knownzero = s == 0
                except TypeError:
                    knownzero = False
                if knownzero:
                    offsets.append(baseofs)
                else:
                    offsets.append(baseofs + s)
        # sanity check
        #ex = lltype.Ptr(TYPE)._example()
        #adr = llmemory.cast_ptr_to_adr(ex)
        #for off in offsets:
        #    (adr + off)
    elif isinstance(TYPE, lltype.Ptr) and TYPE.TO._gckind == 'gc':
        offsets.append(0)
    return offsets
Exemplo n.º 30
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 def define_custom_trace(cls):
     from pypy.rpython.annlowlevel import llhelper
     from pypy.rpython.lltypesystem import llmemory
     #
     S = lltype.GcStruct('S', ('x', llmemory.Address), rtti=True)
     offset_of_x = llmemory.offsetof(S, 'x')
     def customtrace(obj, prev):
         if not prev:
             return obj + offset_of_x
         else:
             return llmemory.NULL
     CUSTOMTRACEFUNC = lltype.FuncType([llmemory.Address, llmemory.Address],
                                       llmemory.Address)
     customtraceptr = llhelper(lltype.Ptr(CUSTOMTRACEFUNC), customtrace)
     lltype.attachRuntimeTypeInfo(S, customtraceptr=customtraceptr)
     #
     def setup():
         s = lltype.nullptr(S)
         for i in range(10000):
             t = lltype.malloc(S)
             t.x = llmemory.cast_ptr_to_adr(s)
             s = t
         return s
     def measure_length(s):
         res = 0
         while s:
             res += 1
             s = llmemory.cast_adr_to_ptr(s.x, lltype.Ptr(S))
         return res
     def f(n):
         s1 = setup()
         llop.gc__collect(lltype.Void)
         return measure_length(s1)
     return f
Exemplo n.º 31
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 def _gct_resize_buffer_no_realloc(self, hop, v_lgt):
     op = hop.spaceop
     meth = self.gct_fv_gc_malloc_varsize
     flags = {'flavor': 'gc', 'varsize': True, 'keep_current_args': True}
     self.varsize_malloc_helper(hop, flags, meth, [])
     # fish resvar
     v_newbuf = hop.llops[-1].result
     v_src = op.args[0]
     TYPE = v_src.concretetype.TO
     c_fldname = rmodel.inputconst(lltype.Void, TYPE._arrayfld)
     v_adrsrc = hop.genop('cast_ptr_to_adr', [v_src],
                          resulttype=llmemory.Address)
     v_adrnewbuf = hop.genop('cast_ptr_to_adr', [v_newbuf],
                             resulttype=llmemory.Address)
     ofs = (llmemory.offsetof(TYPE, TYPE._arrayfld) +
            llmemory.itemoffsetof(getattr(TYPE, TYPE._arrayfld), 0))
     v_ofs = rmodel.inputconst(lltype.Signed, ofs)
     v_adrsrc = hop.genop('adr_add', [v_adrsrc, v_ofs],
                          resulttype=llmemory.Address)
     v_adrnewbuf = hop.genop('adr_add', [v_adrnewbuf, v_ofs],
                             resulttype=llmemory.Address)
     size = llmemory.sizeof(getattr(TYPE, TYPE._arrayfld).OF)
     c_size = rmodel.inputconst(lltype.Signed, size)
     v_lgtsym = hop.genop('int_mul', [c_size, v_lgt],
                          resulttype=lltype.Signed)
     vlist = [v_adrsrc, v_adrnewbuf, v_lgtsym]
     hop.genop('raw_memcopy', vlist)
Exemplo n.º 32
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def get_field_token(STRUCT, fieldname, translate_support_code):
    if translate_support_code:
        return (llmemory.offsetof(STRUCT, fieldname),
                get_size(getattr(STRUCT, fieldname), True))
    cstruct = ll2ctypes.get_ctypes_type(STRUCT)
    cfield = getattr(cstruct, fieldname)
    return (cfield.offset, cfield.size)
Exemplo n.º 33
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def test_address_order():
    a = arena_malloc(24, False)
    assert eq(a, a)
    assert lt(a, a + 1)
    assert lt(a + 5, a + 20)

    b = arena_malloc(24, False)
    if a > b:
        a, b = b, a
    assert lt(a, b)
    assert lt(a + 19, b)
    assert lt(a, b + 19)

    c = b + round_up_for_allocation(llmemory.sizeof(lltype.Char))
    arena_reserve(c, precomputed_size)
    assert lt(b, c)
    assert lt(a, c)
    assert lt(llmemory.NULL, c)
    d = c + llmemory.offsetof(SX, 'x')
    assert lt(c, d)
    assert lt(b, d)
    assert lt(a, d)
    assert lt(llmemory.NULL, d)
    e = c + precomputed_size
    assert lt(d, e)
    assert lt(c, e)
    assert lt(b, e)
    assert lt(a, e)
    assert lt(llmemory.NULL, e)
Exemplo n.º 34
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 def fieldToken(T, name):
     FIELD = getattr(T, name)
     if isinstance(FIELD, lltype.ContainerType):
         fieldtype = pi8 # not useful for getsubstruct
     else:
         fieldtype = RLLVMGenOp.kindToken(FIELD)
     return (llmemory.offsetof(T, name), fieldtype)
Exemplo n.º 35
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 def f():
     a = llstr("xyz")
     b = (llmemory.cast_ptr_to_adr(a) +
          llmemory.offsetof(STR, 'chars') +
          llmemory.itemoffsetof(STR.chars, 0))
     buf = rffi.cast(rffi.VOIDP, b)
     return buf[2]
Exemplo n.º 36
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def gc_pointers_inside(v, adr):
    t = lltype.typeOf(v)
    if isinstance(t, lltype.Struct):
        for n, t2 in t._flds.iteritems():
            if isinstance(t2, lltype.Ptr) and t2.TO._gckind == 'gc':
                yield adr + llmemory.offsetof(t, n)
            elif isinstance(t2, (lltype.Array, lltype.Struct)):
                for a in gc_pointers_inside(getattr(v, n), adr + llmemory.offsetof(t, n)):
                    yield a
    elif isinstance(t, lltype.Array):
        if isinstance(t.OF, lltype.Ptr) and t2._needsgc():
            for i in range(len(v.items)):
                yield adr + llmemory.itemoffsetof(t, i)
        elif isinstance(t.OF, lltype.Struct):
            for i in range(len(v.items)):
                for a in gc_pointers_inside(v.items[i], adr + llmemory.itemoffsetof(t, i)):
                    yield a
Exemplo n.º 37
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def encode_type_shape(builder, info, TYPE, index):
    """Encode the shape of the TYPE into the TYPE_INFO structure 'info'."""
    offsets = offsets_to_gc_pointers(TYPE)
    infobits = index
    info.ofstoptrs = builder.offsets2table(offsets, TYPE)
    #
    kind_and_fptr = builder.special_funcptr_for_type(TYPE)
    if kind_and_fptr is not None:
        kind, fptr = kind_and_fptr
        info.finalizer_or_customtrace = fptr
        if kind == "finalizer":
            infobits |= T_HAS_FINALIZER
        elif kind == 'light_finalizer':
            infobits |= T_HAS_FINALIZER | T_HAS_LIGHTWEIGHT_FINALIZER
        elif kind == "custom_trace":
            infobits |= T_HAS_CUSTOM_TRACE
        else:
            assert 0, kind
    #
    if not TYPE._is_varsize():
        info.fixedsize = llarena.round_up_for_allocation(
            llmemory.sizeof(TYPE), builder.GCClass.object_minimal_size)
        # note about round_up_for_allocation(): in the 'info' table
        # we put a rounded-up size only for fixed-size objects.  For
        # varsize ones, the GC must anyway compute the size at run-time
        # and round up that result.
    else:
        infobits |= T_IS_VARSIZE
        varinfo = lltype.cast_pointer(GCData.VARSIZE_TYPE_INFO_PTR, info)
        info.fixedsize = llmemory.sizeof(TYPE, 0)
        if isinstance(TYPE, lltype.Struct):
            ARRAY = TYPE._flds[TYPE._arrayfld]
            ofs1 = llmemory.offsetof(TYPE, TYPE._arrayfld)
            varinfo.ofstolength = ofs1 + llmemory.ArrayLengthOffset(ARRAY)
            varinfo.ofstovar = ofs1 + llmemory.itemoffsetof(ARRAY, 0)
        else:
            assert isinstance(TYPE, lltype.GcArray)
            ARRAY = TYPE
            if (isinstance(ARRAY.OF, lltype.Ptr)
                    and ARRAY.OF.TO._gckind == 'gc'):
                infobits |= T_IS_GCARRAY_OF_GCPTR
            varinfo.ofstolength = llmemory.ArrayLengthOffset(ARRAY)
            varinfo.ofstovar = llmemory.itemoffsetof(TYPE, 0)
        assert isinstance(ARRAY, lltype.Array)
        if ARRAY.OF != lltype.Void:
            offsets = offsets_to_gc_pointers(ARRAY.OF)
        else:
            offsets = ()
        if len(offsets) > 0:
            infobits |= T_HAS_GCPTR_IN_VARSIZE
        varinfo.varofstoptrs = builder.offsets2table(offsets, ARRAY.OF)
        varinfo.varitemsize = llmemory.sizeof(ARRAY.OF)
    if builder.is_weakref_type(TYPE):
        infobits |= T_IS_WEAKREF
    if is_subclass_of_object(TYPE):
        infobits |= T_IS_RPYTHON_INSTANCE
    info.infobits = infobits | T_KEY_VALUE
Exemplo n.º 38
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    def test_offset_addition(self):
        from pypy.rpython.lltypesystem import lltype
        from pypy.rpython.lltypesystem.llmemory import offsetof
        S = lltype.Struct('S', ('x', lltype.Bool), ('y', lltype.Signed))
        T = lltype.GcStruct('T', ('r', lltype.Float), ('s1', S), ('s2', S))
        def f():
            return offsetof(T, 's1') + offsetof(S, 'x')
        f()
        a = RPythonAnnotator()
        s = a.build_types(f, [])
        assert isinstance(s, annmodel.SomeInteger)

        coff = offsetof(T, 's2') + offsetof(S, 'y')
        def f():
            return coff
        f()
        a = RPythonAnnotator()
        s = a.build_types(f, [])
        assert isinstance(s, annmodel.SomeInteger)
Exemplo n.º 39
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def encode_type_shape(builder, info, TYPE, index):
    """Encode the shape of the TYPE into the TYPE_INFO structure 'info'."""
    offsets = offsets_to_gc_pointers(TYPE)
    infobits = index
    info.ofstoptrs = builder.offsets2table(offsets, TYPE)
    #
    kind_and_fptr = builder.special_funcptr_for_type(TYPE)
    if kind_and_fptr is not None:
        kind, fptr = kind_and_fptr
        info.finalizer_or_customtrace = fptr
        if kind == "finalizer":
            infobits |= T_HAS_FINALIZER
        elif kind == "light_finalizer":
            infobits |= T_HAS_FINALIZER | T_HAS_LIGHTWEIGHT_FINALIZER
        elif kind == "custom_trace":
            infobits |= T_HAS_CUSTOM_TRACE
        else:
            assert 0, kind
    #
    if not TYPE._is_varsize():
        info.fixedsize = llarena.round_up_for_allocation(llmemory.sizeof(TYPE), builder.GCClass.object_minimal_size)
        # note about round_up_for_allocation(): in the 'info' table
        # we put a rounded-up size only for fixed-size objects.  For
        # varsize ones, the GC must anyway compute the size at run-time
        # and round up that result.
    else:
        infobits |= T_IS_VARSIZE
        varinfo = lltype.cast_pointer(GCData.VARSIZE_TYPE_INFO_PTR, info)
        info.fixedsize = llmemory.sizeof(TYPE, 0)
        if isinstance(TYPE, lltype.Struct):
            ARRAY = TYPE._flds[TYPE._arrayfld]
            ofs1 = llmemory.offsetof(TYPE, TYPE._arrayfld)
            varinfo.ofstolength = ofs1 + llmemory.ArrayLengthOffset(ARRAY)
            varinfo.ofstovar = ofs1 + llmemory.itemoffsetof(ARRAY, 0)
        else:
            assert isinstance(TYPE, lltype.GcArray)
            ARRAY = TYPE
            if isinstance(ARRAY.OF, lltype.Ptr) and ARRAY.OF.TO._gckind == "gc":
                infobits |= T_IS_GCARRAY_OF_GCPTR
            varinfo.ofstolength = llmemory.ArrayLengthOffset(ARRAY)
            varinfo.ofstovar = llmemory.itemoffsetof(TYPE, 0)
        assert isinstance(ARRAY, lltype.Array)
        if ARRAY.OF != lltype.Void:
            offsets = offsets_to_gc_pointers(ARRAY.OF)
        else:
            offsets = ()
        if len(offsets) > 0:
            infobits |= T_HAS_GCPTR_IN_VARSIZE
        varinfo.varofstoptrs = builder.offsets2table(offsets, ARRAY.OF)
        varinfo.varitemsize = llmemory.sizeof(ARRAY.OF)
    if builder.is_weakref_type(TYPE):
        infobits |= T_IS_WEAKREF
    if is_subclass_of_object(TYPE):
        infobits |= T_IS_RPYTHON_INSTANCE
    info.infobits = infobits | T_KEY_VALUE
Exemplo n.º 40
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 def getinneraddr(self, obj, *offsets):
     TYPE = lltype.typeOf(obj).TO
     addr = llmemory.cast_ptr_to_adr(obj)
     for o in offsets:
         if isinstance(o, str):
             addr += llmemory.offsetof(TYPE, o)
             TYPE = getattr(TYPE, o)
         else:
             addr += llmemory.itemoffsetof(TYPE, o)
             TYPE = TYPE.OF
     return addr, TYPE
Exemplo n.º 41
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 def getinneraddr(self, obj, *offsets):
     TYPE = lltype.typeOf(obj).TO
     addr = llmemory.cast_ptr_to_adr(obj)
     for o in offsets:
         if isinstance(o, str):
             addr += llmemory.offsetof(TYPE, o)
             TYPE = getattr(TYPE, o)
         else:
             addr += llmemory.itemoffsetof(TYPE, o)
             TYPE = TYPE.OF
     return addr, TYPE
Exemplo n.º 42
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def test_vararray():
    S1 = lltype.Struct('s1', ('s', lltype.Signed))
    A = lltype.Array(S1)
    S2 = lltype.GcStruct('s2', ('b', lltype.Signed), ('a', A))
    S1PTR = lltype.Ptr(S1)

    offset1 = (llmemory.offsetof(S2, 'a') + llmemory.ArrayItemsOffset(A) +
               llmemory.ItemOffset(S1, 21) + llmemory.offsetof(S1, 's'))

    offset2 = (llmemory.offsetof(S2, 'a') + llmemory.ArrayItemsOffset(A) +
               llmemory.ItemOffset(S1, 21))

    def vararray(n):
        s = lltype.malloc(S2, n)
        adr = llmemory.cast_ptr_to_adr(s)
        s.a[n].s = n
        s1 = llmemory.cast_adr_to_ptr(adr + offset2, S1PTR)
        return (adr + offset1).signed[0] + s1.s

    fn = compile_function(vararray, [int])
    assert fn(21) == 42
Exemplo n.º 43
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 def varsizeAllocToken(T):
     if isinstance(T, lltype.Array):
         return RPPCGenOp.arrayToken(T)
     else:
         # var-sized structs
         arrayfield = T._arrayfld
         ARRAYFIELD = getattr(T, arrayfield)
         arraytoken = RPPCGenOp.arrayToken(ARRAYFIELD)
         length_offset, items_offset, item_size = arraytoken
         arrayfield_offset = llmemory.offsetof(T, arrayfield)
         return (arrayfield_offset + length_offset,
                 arrayfield_offset + items_offset, item_size)
Exemplo n.º 44
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    def test_offset_addition(self):
        from pypy.rpython.lltypesystem import lltype
        from pypy.rpython.lltypesystem.llmemory import offsetof
        S = lltype.Struct('S', ('x', lltype.Bool), ('y', lltype.Signed))
        T = lltype.GcStruct('T', ('r', lltype.Float), ('s1', S), ('s2', S))
        def f():
            return offsetof(T, 's1') + offsetof(S, 'x')
        f()
        a = RPythonAnnotator()
        s = a.build_types(f, [])
        rtyper = RPythonTyper(a)
        rtyper.specialize() #does not raise

        coff = offsetof(T, 's2') + offsetof(S, 'y')
        def f():
            return coff
        f()
        a = RPythonAnnotator()
        s = a.build_types(f, [])
        rtyper = RPythonTyper(a)
        rtyper.specialize() #does not raise
Exemplo n.º 45
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def offsetof(STRUCT, fieldname):
    """Similar to llmemory.offsetof() but tries hard to return a integer
    instead of a symbolic value.
    """
    # the hint is present in structures probed by rffi_platform.
    fieldoffsets = STRUCT._hints.get('fieldoffsets')
    if fieldoffsets is not None:
        # a numeric result when known
        for index, name in enumerate(STRUCT._names):
            if name == fieldname:
                return fieldoffsets[index]
    # a symbolic result as a fallback
    return llmemory.offsetof(STRUCT, fieldname)
Exemplo n.º 46
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 def varsizeAllocToken(T):
     if isinstance(T, lltype.Array):
         return RI386GenOp.arrayToken(T)
     else:
         # var-sized structs
         arrayfield = T._arrayfld
         ARRAYFIELD = getattr(T, arrayfield)
         arraytoken = RI386GenOp.arrayToken(ARRAYFIELD)
         (lengthoffset, lengthsize), itemsoffset, itemsize = arraytoken
         arrayfield_offset = llmemory.offsetof(T, arrayfield)
         return ((arrayfield_offset+lengthoffset, lengthsize),
                 arrayfield_offset+itemsoffset,
                 itemsize)
Exemplo n.º 47
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 def varsizeAllocToken(T):
     #XXX TODO
     if isinstance(T, lltype.Array):
         return RLLVMGenOp.arrayToken(T)
     else:
         # var-sized structs
         arrayfield = T._arrayfld
         ARRAYFIELD = getattr(T, arrayfield)
         arraytoken = RLLVMGenOp.arrayToken(ARRAYFIELD)
         length_offset, items_offset, item_size, item_type = arraytoken
         arrayfield_offset = llmemory.offsetof(T, arrayfield)
         return (arrayfield_offset+length_offset,
                 arrayfield_offset+items_offset,
                 item_size,
                 item_type)
Exemplo n.º 48
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def test_vararray():
    S1 = lltype.Struct('s1', ('s', lltype.Signed))
    A = lltype.Array(S1)
    S2 = lltype.GcStruct('s2', ('b', lltype.Signed), ('a', A))
    S1PTR = lltype.Ptr(S1)

    offset1 = (llmemory.offsetof(S2, 'a') +
               llmemory.ArrayItemsOffset(A) +
               llmemory.ItemOffset(S1, 21) +
               llmemory.offsetof(S1, 's'))
    
    offset2 = (llmemory.offsetof(S2, 'a') +
               llmemory.ArrayItemsOffset(A) +
               llmemory.ItemOffset(S1, 21))
    
    def vararray(n):
        s = lltype.malloc(S2, n)
        adr = llmemory.cast_ptr_to_adr(s)
        s.a[n].s = n
        s1 = llmemory.cast_adr_to_ptr(adr + offset2, S1PTR)
        return (adr + offset1).signed[0] + s1.s
    
    fn = compile_function(vararray, [int])
    assert fn(21) == 42
Exemplo n.º 49
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 def get_type_id(self, TYPE):
     try:
         return self.id_of_type[TYPE]
     except KeyError:
         assert not self.finished_tables
         assert isinstance(TYPE, (lltype.GcStruct, lltype.GcArray))
         # Record the new type_id description as a small dict for now.
         # It will be turned into a Struct("type_info") in finish()
         type_id = len(self.type_info_list)
         info = {}
         self.type_info_list.append(info)
         self.id_of_type[TYPE] = type_id
         offsets = offsets_to_gc_pointers(TYPE)
         info["ofstoptrs"] = self.offsets2table(offsets, TYPE)
         info["finalyzer"] = self.finalizer_funcptr_for_type(TYPE)
         if not TYPE._is_varsize():
             info["isvarsize"] = False
             info["fixedsize"] = llmemory.sizeof(TYPE)
             info["ofstolength"] = -1
         else:
             info["isvarsize"] = True
             info["fixedsize"] = llmemory.sizeof(TYPE, 0)
             if isinstance(TYPE, lltype.Struct):
                 ARRAY = TYPE._flds[TYPE._arrayfld]
                 ofs1 = llmemory.offsetof(TYPE, TYPE._arrayfld)
                 info["ofstolength"] = ofs1 + llmemory.ArrayLengthOffset(ARRAY)
                 if ARRAY.OF != lltype.Void:
                     info["ofstovar"] = ofs1 + llmemory.itemoffsetof(ARRAY, 0)
                 else:
                     info["fixedsize"] = ofs1 + llmemory.sizeof(lltype.Signed)
                 if ARRAY._hints.get('isrpystring'):
                     info["fixedsize"] = llmemory.sizeof(TYPE, 1)
             else:
                 ARRAY = TYPE
                 info["ofstolength"] = llmemory.ArrayLengthOffset(ARRAY)
                 if ARRAY.OF != lltype.Void:
                     info["ofstovar"] = llmemory.itemoffsetof(TYPE, 0)
                 else:
                     info["fixedsize"] = llmemory.ArrayLengthOffset(ARRAY) + llmemory.sizeof(lltype.Signed)
             assert isinstance(ARRAY, lltype.Array)
             if ARRAY.OF != lltype.Void:
                 offsets = offsets_to_gc_pointers(ARRAY.OF)
                 info["varofstoptrs"] = self.offsets2table(offsets, ARRAY.OF)
                 info["varitemsize"] = llmemory.sizeof(ARRAY.OF)
             else:
                 info["varofstoptrs"] = self.offsets2table((), lltype.Void)
                 info["varitemsize"] = llmemory.sizeof(ARRAY.OF)
         return type_id
Exemplo n.º 50
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def test_sizeof_constsize_struct():
    # _not_ a GcStruct, since we want to raw_malloc it
    STRUCT = lltype.Struct("s", ("x", lltype.Signed), ("y", lltype.Signed))
    STRUCTPTR = lltype.Ptr(STRUCT)
    sizeofs = llmemory.sizeof(STRUCT)
    offsety = llmemory.offsetof(STRUCT, 'y')
    def f():
        adr = llmemory.raw_malloc(sizeofs)
        s = llmemory.cast_adr_to_ptr(adr, STRUCTPTR)
        s.y = 5 # does not crash
        result = (adr + offsety).signed[0] * 10 + int(offsety < sizeofs)
        llmemory.raw_free(adr)
        return result
    fn, t = getcompiled(f, [])
    res = fn()
    assert res == 51
Exemplo n.º 51
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 def get_nonmovingbuffer(data):
     """
     Either returns a non-moving copy or performs neccessary pointer
     arithmetic to return a pointer to the characters of a string if the
     string is already nonmovable.  Must be followed by a
     free_nonmovingbuffer call.
     """
     if rgc.can_move(data):
         count = len(data)
         buf = lltype.malloc(TYPEP.TO, count, flavor='raw')
         for i in range(count):
             buf[i] = data[i]
         return buf
     else:
         data_start = cast_ptr_to_adr(llstrtype(data)) + \
             offsetof(STRTYPE, 'chars') + itemoffsetof(STRTYPE.chars, 0)
         return cast(TYPEP, data_start)
Exemplo n.º 52
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 def alloc_buffer(count):
     """
     Returns a (raw_buffer, gc_buffer) pair, allocated with count bytes.
     The raw_buffer can be safely passed to a native function which expects
     it to not move. Call str_from_buffer with the returned values to get a
     safe high-level string. When the garbage collector cooperates, this
     allows for the process to be performed without an extra copy.
     Make sure to call keep_buffer_alive_until_here on the returned values.
     """
     str_chars_offset = (offsetof(STRTYPE, 'chars') + \
                         itemoffsetof(STRTYPE.chars, 0))
     gc_buf = rgc.malloc_nonmovable(STRTYPE, count)
     if gc_buf:
         realbuf = cast_ptr_to_adr(gc_buf) + str_chars_offset
         raw_buf = cast(TYPEP, realbuf)
         return raw_buf, gc_buf
     else:
         raw_buf = lltype.malloc(TYPEP.TO, count, flavor='raw')
         return raw_buf, lltype.nullptr(STRTYPE)
Exemplo n.º 53
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def test_partial_arena_reset():
    a = arena_malloc(72, False)

    def reserve(i):
        b = a + i * llmemory.raw_malloc_usage(precomputed_size)
        arena_reserve(b, precomputed_size)
        return b

    blist = []
    plist = []
    for i in range(4):
        b = reserve(i)
        (b + llmemory.offsetof(SX, 'x')).signed[0] = 100 + i
        blist.append(b)
        plist.append(llmemory.cast_adr_to_ptr(b, SPTR))
    # clear blist[1] and blist[2] but not blist[0] nor blist[3]
    arena_reset(blist[1],
                llmemory.raw_malloc_usage(precomputed_size) * 2, False)
    py.test.raises(RuntimeError, "plist[1].x")  # marked as freed
    py.test.raises(RuntimeError, "plist[2].x")  # marked as freed
    # re-reserve object at index 1 and 2
    blist[1] = reserve(1)
    blist[2] = reserve(2)
    # check via object pointers
    assert plist[0].x == 100
    assert plist[3].x == 103
    py.test.raises(RuntimeError, "plist[1].x")  # marked as freed
    py.test.raises(RuntimeError, "plist[2].x")  # marked as freed
    # but we can still cast the old ptrs to addresses, which compare equal
    # to the new ones we gotq
    assert llmemory.cast_ptr_to_adr(plist[1]) == blist[1]
    assert llmemory.cast_ptr_to_adr(plist[2]) == blist[2]
    # check via addresses
    assert (blist[0] + llmemory.offsetof(SX, 'x')).signed[0] == 100
    assert (blist[3] + llmemory.offsetof(SX, 'x')).signed[0] == 103
    py.test.raises(lltype.UninitializedMemoryAccess,
                   "(blist[1] + llmemory.offsetof(SX, 'x')).signed[0]")
    py.test.raises(lltype.UninitializedMemoryAccess,
                   "(blist[2] + llmemory.offsetof(SX, 'x')).signed[0]")
    # clear and zero-fill the area over blist[0] and blist[1]
    arena_reset(blist[0],
                llmemory.raw_malloc_usage(precomputed_size) * 2, True)
    # re-reserve and check it's zero
    blist[0] = reserve(0)
    blist[1] = reserve(1)
    assert (blist[0] + llmemory.offsetof(SX, 'x')).signed[0] == 0
    assert (blist[1] + llmemory.offsetof(SX, 'x')).signed[0] == 0
    assert (blist[3] + llmemory.offsetof(SX, 'x')).signed[0] == 103
    py.test.raises(lltype.UninitializedMemoryAccess,
                   "(blist[2] + llmemory.offsetof(SX, 'x')).signed[0]")
Exemplo n.º 54
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def encode_type_shape(builder, info, TYPE):
    """Encode the shape of the TYPE into the TYPE_INFO structure 'info'."""
    offsets = offsets_to_gc_pointers(TYPE)
    infobits = 0
    info.ofstoptrs = builder.offsets2table(offsets, TYPE)
    info.finalizer = builder.make_finalizer_funcptr_for_type(TYPE)
    if not TYPE._is_varsize():
        info.fixedsize = llarena.round_up_for_allocation(
            llmemory.sizeof(TYPE), builder.GCClass.object_minimal_size)
        # note about round_up_for_allocation(): in the 'info' table
        # we put a rounded-up size only for fixed-size objects.  For
        # varsize ones, the GC must anyway compute the size at run-time
        # and round up that result.
    else:
        infobits |= T_IS_VARSIZE
        varinfo = lltype.cast_pointer(GCData.VARSIZE_TYPE_INFO_PTR, info)
        info.fixedsize = llmemory.sizeof(TYPE, 0)
        if isinstance(TYPE, lltype.Struct):
            ARRAY = TYPE._flds[TYPE._arrayfld]
            ofs1 = llmemory.offsetof(TYPE, TYPE._arrayfld)
            varinfo.ofstolength = ofs1 + llmemory.ArrayLengthOffset(ARRAY)
            varinfo.ofstovar = ofs1 + llmemory.itemoffsetof(ARRAY, 0)
        else:
            assert isinstance(TYPE, lltype.GcArray)
            ARRAY = TYPE
            if (isinstance(ARRAY.OF, lltype.Ptr)
                    and ARRAY.OF.TO._gckind == 'gc'):
                infobits |= T_IS_GCARRAY_OF_GCPTR
            varinfo.ofstolength = llmemory.ArrayLengthOffset(ARRAY)
            varinfo.ofstovar = llmemory.itemoffsetof(TYPE, 0)
        assert isinstance(ARRAY, lltype.Array)
        if ARRAY.OF != lltype.Void:
            offsets = offsets_to_gc_pointers(ARRAY.OF)
        else:
            offsets = ()
        if len(offsets) > 0:
            infobits |= T_HAS_GCPTR_IN_VARSIZE
        varinfo.varofstoptrs = builder.offsets2table(offsets, ARRAY.OF)
        varinfo.varitemsize = llmemory.sizeof(ARRAY.OF)
    if TYPE == WEAKREF:
        infobits |= T_IS_WEAKREF
    info.infobits = infobits
Exemplo n.º 55
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 def test_custom_trace(self):
     from pypy.rpython.annlowlevel import llhelper
     from pypy.rpython.lltypesystem import llmemory
     from pypy.rpython.lltypesystem.llarena import ArenaError
     #
     S = lltype.GcStruct('S', ('x', llmemory.Address),
                              ('y', llmemory.Address), rtti=True)
     T = lltype.GcStruct('T', ('z', lltype.Signed))
     offset_of_x = llmemory.offsetof(S, 'x')
     def customtrace(obj, prev):
         if not prev:
             return obj + offset_of_x
         else:
             return llmemory.NULL
     CUSTOMTRACEFUNC = lltype.FuncType([llmemory.Address, llmemory.Address],
                                       llmemory.Address)
     customtraceptr = llhelper(lltype.Ptr(CUSTOMTRACEFUNC), customtrace)
     lltype.attachRuntimeTypeInfo(S, customtraceptr=customtraceptr)
     #
     for attrname in ['x', 'y']:
         def setup():
             s1 = lltype.malloc(S)
             tx = lltype.malloc(T)
             tx.z = 42
             ty = lltype.malloc(T)
             s1.x = llmemory.cast_ptr_to_adr(tx)
             s1.y = llmemory.cast_ptr_to_adr(ty)
             return s1
         def f():
             s1 = setup()
             llop.gc__collect(lltype.Void)
             return llmemory.cast_adr_to_ptr(getattr(s1, attrname),
                                             lltype.Ptr(T))
         if attrname == 'x':
             res = self.interpret(f, [])
             assert res.z == 42
         else:
             py.test.raises((RuntimeError, ArenaError),
                            self.interpret, f, [])
Exemplo n.º 56
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def weakpointer_offset(TYPE):
    if TYPE == WEAKREF:
        return llmemory.offsetof(WEAKREF, "weakptr")
    return -1