Esempio n. 1
0
    def map_array_access(self, index, expn_state):
        accdesc = AccessDescriptor(identifier=None, storage_axis_exprs=index)

        if not self.array_base_map.is_access_descriptor_in_footprint(accdesc):
            return None

        abm = self.array_base_map

        index = expn_state.apply_arg_context(index)

        assert len(index) == len(abm.non1_storage_axis_flags)

        access_subscript = []
        for i in range(len(index)):
            if not abm.non1_storage_axis_flags[i]:
                continue

            ax_index = index[i]
            from loopy.isl_helpers import simplify_via_aff
            ax_index = simplify_via_aff(ax_index - abm.storage_base_indices[i])

            access_subscript.append(ax_index)

        result = self.buf_var
        if access_subscript:
            result = result.index(tuple(access_subscript))

        # Can't possibly be nested, but recurse anyway to
        # make sure substitution rules referenced below here
        # do not get thrown away.
        self.rec(result, expn_state.copy(arg_context={}))

        return result
Esempio n. 2
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    def map_substitution(self, name, tag, arguments, expn_state):
        if not (name == self.subst_name and self.within(
                expn_state.kernel, expn_state.instruction, expn_state.stack)
                and (self.subst_tag is None or self.subst_tag == tag)):
            return super(RuleInvocationReplacer,
                         self).map_substitution(name, tag, arguments,
                                                expn_state)

        # {{{ check if in footprint

        rule = self.rule_mapping_context.old_subst_rules[name]
        arg_context = self.make_new_arg_context(name, rule.arguments,
                                                arguments,
                                                expn_state.arg_context)
        args = [arg_context[arg_name] for arg_name in rule.arguments]

        accdesc = AccessDescriptor(storage_axis_exprs=storage_axis_exprs(
            self.storage_axis_sources, args))

        if not self.array_base_map.is_access_descriptor_in_footprint(accdesc):
            return super(RuleInvocationReplacer,
                         self).map_substitution(name, tag, arguments,
                                                expn_state)

        # }}}

        assert len(arguments) == len(rule.arguments)

        abm = self.array_base_map

        stor_subscript = []
        for sax_name, sax_source, sax_base_idx in zip(
                self.storage_axis_names, self.storage_axis_sources,
                abm.storage_base_indices):
            if sax_name not in self.non1_storage_axis_names:
                continue

            if isinstance(sax_source, int):
                # an argument
                ax_index = arguments[sax_source]
            else:
                # an iname
                ax_index = var(sax_source)

            from loopy.isl_helpers import simplify_via_aff
            ax_index = simplify_via_aff(ax_index - sax_base_idx)
            stor_subscript.append(ax_index)

        new_outer_expr = var(self.temporary_name)
        if stor_subscript:
            new_outer_expr = new_outer_expr.index(tuple(stor_subscript))

        # Can't possibly be nested, and no need to traverse
        # further as compute expression has already been seen
        # by rule_mapping_context.

        self.replaced_something = True

        return new_outer_expr
Esempio n. 3
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def buffer_array(kernel, var_name, buffer_inames, init_expression=None,
        store_expression=None, within=None, default_tag="l.auto",
        temporary_scope=None, temporary_is_local=None,
        fetch_bounding_box=False):
    """Replace accesses to *var_name* with ones to a temporary, which is
    created and acts as a buffer. To perform this transformation, the access
    footprint to *var_name* is determined and a temporary of a suitable
    :class:`loopy.AddressSpace` and shape is created.

    By default, the value of the buffered cells in *var_name* are read prior to
    any (read/write) use, and the modified values are written out after use has
    concluded, but for special use cases (e.g. additive accumulation), the
    behavior can be modified using *init_expression* and *store_expression*.

    :arg buffer_inames: The inames across which the buffer should be usable--i.e.
        all possible values of these inames will be covered by the buffer footprint.
        A tuple of inames or a comma-separated string.
    :arg init_expression: Either *None* (indicating the prior value of the buffered
        array should be read) or an expression optionally involving the
        variable 'base' (which references the associated location in the array
        being buffered).
    :arg store_expression: Either *None*, *False*, or an expression involving
        variables 'base' and 'buffer' (without array indices).
        (*None* indicates that a default storage instruction should be used,
        *False* indicates that no storing of the temporary should occur
        at all.)
    :arg within: If not None, limit the action of the transformation to
        matching contexts.  See :func:`loopy.match.parse_stack_match`
        for syntax.
    :arg temporary_scope: If given, override the choice of
        :class:`AddressSpace` for the created temporary.
    :arg default_tag: The default :ref:`iname-tags` to be assigned to the
        inames used for fetching and storing
    :arg fetch_bounding_box: If the access footprint is non-convex
        (resulting in an error), setting this argument to *True* will force a
        rectangular (and hence convex) superset of the footprint to be
        fetched.
    """

    # {{{ unify temporary_scope / temporary_is_local

    from loopy.kernel.data import AddressSpace
    if temporary_is_local is not None:
        from warnings import warn
        warn("temporary_is_local is deprecated. Use temporary_scope instead",
                DeprecationWarning, stacklevel=2)

        if temporary_scope is not None:
            raise LoopyError("may not specify both temporary_is_local and "
                    "temporary_scope")

        if temporary_is_local:
            temporary_scope = AddressSpace.LOCAL
        else:
            temporary_scope = AddressSpace.PRIVATE

    del temporary_is_local

    # }}}

    # {{{ process arguments

    if isinstance(init_expression, str):
        from loopy.symbolic import parse
        init_expression = parse(init_expression)

    if isinstance(store_expression, str):
        from loopy.symbolic import parse
        store_expression = parse(store_expression)

    if isinstance(buffer_inames, str):
        buffer_inames = [s.strip()
                for s in buffer_inames.split(",") if s.strip()]

    for iname in buffer_inames:
        if iname not in kernel.all_inames():
            raise RuntimeError("sweep iname '%s' is not a known iname"
                    % iname)

    buffer_inames = list(buffer_inames)
    buffer_inames_set = frozenset(buffer_inames)

    from loopy.match import parse_stack_match
    within = parse_stack_match(within)

    if var_name in kernel.arg_dict:
        var_descr = kernel.arg_dict[var_name]
    elif var_name in kernel.temporary_variables:
        var_descr = kernel.temporary_variables[var_name]
    else:
        raise ValueError("variable '%s' not found" % var_name)

    from loopy.kernel.data import ArrayBase
    if isinstance(var_descr, ArrayBase):
        var_shape = var_descr.shape
    else:
        var_shape = ()

    if temporary_scope is None:
        import loopy as lp
        temporary_scope = lp.auto

    # }}}

    # {{{ caching

    from loopy import CACHING_ENABLED

    from loopy.preprocess import prepare_for_caching
    key_kernel = prepare_for_caching(kernel)
    cache_key = (key_kernel, var_name, tuple(buffer_inames),
            PymbolicExpressionHashWrapper(init_expression),
            PymbolicExpressionHashWrapper(store_expression), within,
            default_tag, temporary_scope, fetch_bounding_box)

    if CACHING_ENABLED:
        try:
            result = buffer_array_cache[cache_key]
            logger.info("%s: buffer_array cache hit" % kernel.name)
            return result
        except KeyError:
            pass

    # }}}

    var_name_gen = kernel.get_var_name_generator()
    within_inames = set()

    access_descriptors = []
    for insn in kernel.instructions:
        if not within(kernel, insn.id, ()):
            continue

        from pymbolic.primitives import Variable, Subscript
        from loopy.symbolic import LinearSubscript

        for assignee in insn.assignees:
            if isinstance(assignee, Variable):
                assignee_name = assignee.name
                index = ()

            elif isinstance(assignee, Subscript):
                assignee_name = assignee.aggregate.name
                index = assignee.index_tuple

            elif isinstance(assignee, LinearSubscript):
                if assignee.aggregate.name == var_name:
                    raise LoopyError("buffer_array may not be applied in the "
                            "presence of linear write indexing into '%s'" % var_name)

            else:
                raise LoopyError("invalid lvalue '%s'" % assignee)

            if assignee_name == var_name:
                within_inames.update(
                        (get_dependencies(index) & kernel.all_inames())
                        - buffer_inames_set)
                access_descriptors.append(
                        AccessDescriptor(
                            identifier=insn.id,
                            storage_axis_exprs=index))

    # {{{ find fetch/store inames

    init_inames = []
    store_inames = []
    new_iname_to_tag = {}

    for i in range(len(var_shape)):
        dim_name = str(i)
        if isinstance(var_descr, ArrayBase) and var_descr.dim_names is not None:
            dim_name = var_descr.dim_names[i]

        init_iname = var_name_gen(f"{var_name}_init_{dim_name}")
        store_iname = var_name_gen(f"{var_name}_store_{dim_name}")

        new_iname_to_tag[init_iname] = default_tag
        new_iname_to_tag[store_iname] = default_tag

        init_inames.append(init_iname)
        store_inames.append(store_iname)

    # }}}

    # {{{ modify loop domain

    non1_init_inames = []
    non1_store_inames = []

    if var_shape:
        # {{{ find domain to be changed

        from loopy.kernel.tools import DomainChanger
        domch = DomainChanger(kernel, buffer_inames_set | within_inames)

        if domch.leaf_domain_index is not None:
            # If the sweep inames are at home in parent domains, then we'll add
            # fetches with loops over copies of these parent inames that will end
            # up being scheduled *within* loops over these parents.

            for iname in buffer_inames_set:
                if kernel.get_home_domain_index(iname) != domch.leaf_domain_index:
                    raise RuntimeError("buffer iname '%s' is not 'at home' in the "
                            "sweep's leaf domain" % iname)

        # }}}

        abm = ArrayToBufferMap(kernel, domch.domain, buffer_inames,
                access_descriptors, len(var_shape))

        for i in range(len(var_shape)):
            if abm.non1_storage_axis_flags[i]:
                non1_init_inames.append(init_inames[i])
                non1_store_inames.append(store_inames[i])
            else:
                del new_iname_to_tag[init_inames[i]]
                del new_iname_to_tag[store_inames[i]]

        new_domain = domch.domain
        new_domain = abm.augment_domain_with_sweep(
                    new_domain, non1_init_inames,
                    boxify_sweep=fetch_bounding_box)
        new_domain = abm.augment_domain_with_sweep(
                    new_domain, non1_store_inames,
                    boxify_sweep=fetch_bounding_box)
        new_kernel_domains = domch.get_domains_with(new_domain)
        del new_domain

    else:
        # leave kernel domains unchanged
        new_kernel_domains = kernel.domains

        abm = NoOpArrayToBufferMap()

    # }}}

    # {{{ set up temp variable

    import loopy as lp

    buf_var_name = var_name_gen(based_on=var_name+"_buf")

    new_temporary_variables = kernel.temporary_variables.copy()
    temp_var = lp.TemporaryVariable(
            name=buf_var_name,
            dtype=var_descr.dtype,
            base_indices=(0,)*len(abm.non1_storage_shape),
            shape=tuple(abm.non1_storage_shape),
            address_space=temporary_scope)

    new_temporary_variables[buf_var_name] = temp_var

    # }}}

    new_insns = []

    buf_var = var(buf_var_name)

    # {{{ generate init instruction

    buf_var_init = buf_var
    if non1_init_inames:
        buf_var_init = buf_var_init.index(
                tuple(var(iname) for iname in non1_init_inames))

    init_base = var(var_name)

    init_subscript = []
    init_iname_idx = 0
    if var_shape:
        for i in range(len(var_shape)):
            ax_subscript = abm.storage_base_indices[i]
            if abm.non1_storage_axis_flags[i]:
                ax_subscript += var(non1_init_inames[init_iname_idx])
                init_iname_idx += 1
            init_subscript.append(ax_subscript)

    if init_subscript:
        init_base = init_base.index(tuple(init_subscript))

    if init_expression is None:
        init_expression = init_base
    else:
        init_expression = init_expression
        init_expression = SubstitutionMapper(
                make_subst_func({
                    "base": init_base,
                    }))(init_expression)

    init_insn_id = kernel.make_unique_instruction_id(based_on="init_"+var_name)
    from loopy.kernel.data import Assignment
    init_instruction = Assignment(id=init_insn_id,
                assignee=buf_var_init,
                expression=init_expression,
                within_inames=(
                    frozenset(within_inames)
                    | frozenset(non1_init_inames)),
                depends_on=frozenset(),
                depends_on_is_final=True)

    # }}}

    rule_mapping_context = SubstitutionRuleMappingContext(
            kernel.substitutions, kernel.get_var_name_generator())
    aar = ArrayAccessReplacer(rule_mapping_context, var_name,
            within, abm, buf_var)
    kernel = rule_mapping_context.finish_kernel(aar.map_kernel(kernel))

    did_write = False
    for insn_id in aar.modified_insn_ids:
        insn = kernel.id_to_insn[insn_id]
        if buf_var_name in insn.assignee_var_names():
            did_write = True

    # {{{ add init_insn_id to depends_on

    new_insns = []

    def none_to_empty_set(s):
        if s is None:
            return frozenset()
        else:
            return s

    for insn in kernel.instructions:
        if insn.id in aar.modified_insn_ids:
            new_insns.append(
                    insn.copy(
                        depends_on=(
                            none_to_empty_set(insn.depends_on)
                            | frozenset([init_insn_id]))))
        else:
            new_insns.append(insn)

    # }}}

    # {{{ generate store instruction

    buf_var_store = buf_var
    if non1_store_inames:
        buf_var_store = buf_var_store.index(
                tuple(var(iname) for iname in non1_store_inames))

    store_subscript = []
    store_iname_idx = 0
    if var_shape:
        for i in range(len(var_shape)):
            ax_subscript = abm.storage_base_indices[i]
            if abm.non1_storage_axis_flags[i]:
                ax_subscript += var(non1_store_inames[store_iname_idx])
                store_iname_idx += 1
            store_subscript.append(ax_subscript)

    store_target = var(var_name)
    if store_subscript:
        store_target = store_target.index(tuple(store_subscript))

    if store_expression is None:
        store_expression = buf_var_store
    else:
        store_expression = SubstitutionMapper(
                make_subst_func({
                    "base": store_target,
                    "buffer": buf_var_store,
                    }))(store_expression)

    if store_expression is not False:
        from loopy.kernel.data import Assignment
        store_instruction = Assignment(
                    id=kernel.make_unique_instruction_id(based_on="store_"+var_name),
                    depends_on=frozenset(aar.modified_insn_ids),
                    no_sync_with=frozenset([(init_insn_id, "any")]),
                    assignee=store_target,
                    expression=store_expression,
                    within_inames=(
                        frozenset(within_inames)
                        | frozenset(non1_store_inames)))
    else:
        did_write = False

    # }}}

    new_insns.append(init_instruction)
    if did_write:
        new_insns.append(store_instruction)
    else:
        for iname in store_inames:
            del new_iname_to_tag[iname]

    kernel = kernel.copy(
            domains=new_kernel_domains,
            instructions=new_insns,
            temporary_variables=new_temporary_variables)

    from loopy import tag_inames
    kernel = tag_inames(kernel, new_iname_to_tag)

    from loopy.kernel.tools import assign_automatic_axes
    kernel = assign_automatic_axes(kernel)

    if CACHING_ENABLED:
        from loopy.preprocess import prepare_for_caching
        buffer_array_cache.store_if_not_present(
                cache_key, prepare_for_caching(kernel))

    return kernel