2017-01-28 06:51:36 +08:00
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//===------ ISLTools.cpp ----------------------------------------*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// Tools, utilities, helpers and extensions useful in conjunction with the
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// Integer Set Library (isl).
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//
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//===----------------------------------------------------------------------===//
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#include "polly/Support/ISLTools.h"
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using namespace polly;
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namespace {
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/// Create a map that shifts one dimension by an offset.
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///
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/// Example:
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/// makeShiftDimAff({ [i0, i1] -> [o0, o1] }, 1, -2)
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/// = { [i0, i1] -> [i0, i1 - 1] }
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///
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/// @param Space The map space of the result. Must have equal number of in- and
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/// out-dimensions.
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/// @param Pos Position to shift.
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/// @param Amount Value added to the shifted dimension.
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///
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/// @return An isl_multi_aff for the map with this shifted dimension.
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IslPtr<isl_multi_aff> makeShiftDimAff(IslPtr<isl_space> Space, int Pos,
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int Amount) {
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auto Identity = give(isl_multi_aff_identity(Space.take()));
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if (Amount == 0)
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return Identity;
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auto ShiftAff = give(isl_multi_aff_get_aff(Identity.keep(), Pos));
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ShiftAff = give(isl_aff_set_constant_si(ShiftAff.take(), Amount));
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return give(isl_multi_aff_set_aff(Identity.take(), Pos, ShiftAff.take()));
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}
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/// Construct a map that swaps two nested tuples.
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///
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/// @param FromSpace1 { Space1[] }
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/// @param FromSpace2 { Space2[] }
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///
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/// @return { [Space1[] -> Space2[]] -> [Space2[] -> Space1[]] }
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IslPtr<isl_basic_map> makeTupleSwapBasicMap(IslPtr<isl_space> FromSpace1,
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IslPtr<isl_space> FromSpace2) {
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assert(isl_space_is_set(FromSpace1.keep()) != isl_bool_false);
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assert(isl_space_is_set(FromSpace2.keep()) != isl_bool_false);
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auto Dims1 = isl_space_dim(FromSpace1.keep(), isl_dim_set);
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auto Dims2 = isl_space_dim(FromSpace2.keep(), isl_dim_set);
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auto FromSpace = give(isl_space_wrap(isl_space_map_from_domain_and_range(
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FromSpace1.copy(), FromSpace2.copy())));
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auto ToSpace = give(isl_space_wrap(isl_space_map_from_domain_and_range(
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FromSpace2.take(), FromSpace1.take())));
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auto MapSpace = give(
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isl_space_map_from_domain_and_range(FromSpace.take(), ToSpace.take()));
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auto Result = give(isl_basic_map_universe(MapSpace.take()));
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for (auto i = Dims1 - Dims1; i < Dims1; i += 1) {
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Result = give(isl_basic_map_equate(Result.take(), isl_dim_in, i,
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isl_dim_out, Dims2 + i));
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}
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for (auto i = Dims2 - Dims2; i < Dims2; i += 1) {
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Result = give(isl_basic_map_equate(Result.take(), isl_dim_in, Dims1 + i,
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isl_dim_out, i));
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}
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return Result;
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}
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/// Like makeTupleSwapBasicMap(IslPtr<isl_space>,IslPtr<isl_space>), but returns
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/// an isl_map.
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IslPtr<isl_map> makeTupleSwapMap(IslPtr<isl_space> FromSpace1,
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IslPtr<isl_space> FromSpace2) {
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auto BMapResult =
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makeTupleSwapBasicMap(std::move(FromSpace1), std::move(FromSpace2));
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return give(isl_map_from_basic_map(BMapResult.take()));
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}
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} // anonymous namespace
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IslPtr<isl_map> polly::beforeScatter(IslPtr<isl_map> Map, bool Strict) {
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auto RangeSpace = give(isl_space_range(isl_map_get_space(Map.keep())));
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auto ScatterRel = give(Strict ? isl_map_lex_gt(RangeSpace.take())
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: isl_map_lex_ge(RangeSpace.take()));
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return give(isl_map_apply_range(Map.take(), ScatterRel.take()));
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}
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IslPtr<isl_union_map> polly::beforeScatter(IslPtr<isl_union_map> UMap,
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bool Strict) {
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auto Result = give(isl_union_map_empty(isl_union_map_get_space(UMap.keep())));
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foreachElt(UMap, [=, &Result](IslPtr<isl_map> Map) {
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auto After = beforeScatter(Map, Strict);
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Result = give(isl_union_map_add_map(Result.take(), After.take()));
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});
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return Result;
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}
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IslPtr<isl_map> polly::afterScatter(IslPtr<isl_map> Map, bool Strict) {
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auto RangeSpace = give(isl_space_range(isl_map_get_space(Map.keep())));
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auto ScatterRel = give(Strict ? isl_map_lex_lt(RangeSpace.take())
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: isl_map_lex_le(RangeSpace.take()));
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return give(isl_map_apply_range(Map.take(), ScatterRel.take()));
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}
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IslPtr<isl_union_map> polly::afterScatter(NonowningIslPtr<isl_union_map> UMap,
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bool Strict) {
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auto Result = give(isl_union_map_empty(isl_union_map_get_space(UMap.keep())));
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foreachElt(UMap, [=, &Result](IslPtr<isl_map> Map) {
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auto After = afterScatter(Map, Strict);
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Result = give(isl_union_map_add_map(Result.take(), After.take()));
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});
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return Result;
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}
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IslPtr<isl_map> polly::betweenScatter(IslPtr<isl_map> From, IslPtr<isl_map> To,
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bool InclFrom, bool InclTo) {
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auto AfterFrom = afterScatter(From, !InclFrom);
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auto BeforeTo = beforeScatter(To, !InclTo);
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return give(isl_map_intersect(AfterFrom.take(), BeforeTo.take()));
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}
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IslPtr<isl_union_map> polly::betweenScatter(IslPtr<isl_union_map> From,
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IslPtr<isl_union_map> To,
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bool InclFrom, bool InclTo) {
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auto AfterFrom = afterScatter(From, !InclFrom);
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auto BeforeTo = beforeScatter(To, !InclTo);
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return give(isl_union_map_intersect(AfterFrom.take(), BeforeTo.take()));
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}
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IslPtr<isl_map> polly::singleton(IslPtr<isl_union_map> UMap,
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IslPtr<isl_space> ExpectedSpace) {
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if (!UMap)
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return nullptr;
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if (isl_union_map_n_map(UMap.keep()) == 0)
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return give(isl_map_empty(ExpectedSpace.take()));
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auto Result = give(isl_map_from_union_map(UMap.take()));
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2017-02-01 18:12:09 +08:00
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assert(!Result || isl_space_has_equal_tuples(
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give(isl_map_get_space(Result.keep())).keep(),
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ExpectedSpace.keep()) == isl_bool_true);
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2017-01-28 06:51:36 +08:00
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return Result;
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}
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IslPtr<isl_set> polly::singleton(IslPtr<isl_union_set> USet,
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IslPtr<isl_space> ExpectedSpace) {
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if (!USet)
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return nullptr;
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if (isl_union_set_n_set(USet.keep()) == 0)
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return give(isl_set_empty(ExpectedSpace.copy()));
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auto Result = give(isl_set_from_union_set(USet.take()));
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2017-02-01 18:12:09 +08:00
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assert(!Result || isl_space_has_equal_tuples(
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give(isl_set_get_space(Result.keep())).keep(),
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ExpectedSpace.keep()) == isl_bool_true);
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2017-01-28 06:51:36 +08:00
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return Result;
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}
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unsigned polly::getNumScatterDims(NonowningIslPtr<isl_union_map> Schedule) {
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unsigned Dims = 0;
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foreachElt(Schedule, [&Dims](IslPtr<isl_map> Map) {
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Dims = std::max(Dims, isl_map_dim(Map.keep(), isl_dim_out));
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});
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return Dims;
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}
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IslPtr<isl_space>
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polly::getScatterSpace(NonowningIslPtr<isl_union_map> Schedule) {
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if (!Schedule)
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return nullptr;
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auto Dims = getNumScatterDims(Schedule);
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auto ScatterSpace =
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give(isl_space_set_from_params(isl_union_map_get_space(Schedule.keep())));
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return give(isl_space_add_dims(ScatterSpace.take(), isl_dim_set, Dims));
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}
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IslPtr<isl_union_map>
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polly::makeIdentityMap(NonowningIslPtr<isl_union_set> USet,
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bool RestrictDomain) {
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auto Result = give(isl_union_map_empty(isl_union_set_get_space(USet.keep())));
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foreachElt(USet, [=, &Result](IslPtr<isl_set> Set) {
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auto IdentityMap = give(isl_map_identity(
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isl_space_map_from_set(isl_set_get_space(Set.keep()))));
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if (RestrictDomain)
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IdentityMap =
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give(isl_map_intersect_domain(IdentityMap.take(), Set.take()));
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Result = give(isl_union_map_add_map(Result.take(), IdentityMap.take()));
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});
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return Result;
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}
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IslPtr<isl_map> polly::reverseDomain(IslPtr<isl_map> Map) {
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auto DomSpace =
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give(isl_space_unwrap(isl_space_domain(isl_map_get_space(Map.keep()))));
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auto Space1 = give(isl_space_domain(DomSpace.copy()));
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auto Space2 = give(isl_space_range(DomSpace.take()));
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auto Swap = makeTupleSwapMap(std::move(Space1), std::move(Space2));
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return give(isl_map_apply_domain(Map.take(), Swap.take()));
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}
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IslPtr<isl_union_map>
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polly::reverseDomain(NonowningIslPtr<isl_union_map> UMap) {
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auto Result = give(isl_union_map_empty(isl_union_map_get_space(UMap.keep())));
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foreachElt(UMap, [=, &Result](IslPtr<isl_map> Map) {
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auto Reversed = reverseDomain(std::move(Map));
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Result = give(isl_union_map_add_map(Result.take(), Reversed.take()));
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});
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return Result;
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}
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IslPtr<isl_set> polly::shiftDim(IslPtr<isl_set> Set, int Pos, int Amount) {
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int NumDims = isl_set_dim(Set.keep(), isl_dim_set);
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if (Pos < 0)
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Pos = NumDims + Pos;
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assert(Pos < NumDims && "Dimension index must be in range");
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auto Space = give(isl_set_get_space(Set.keep()));
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Space = give(isl_space_map_from_domain_and_range(Space.copy(), Space.copy()));
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auto Translator = makeShiftDimAff(std::move(Space), Pos, Amount);
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auto TranslatorMap = give(isl_map_from_multi_aff(Translator.take()));
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return give(isl_set_apply(Set.take(), TranslatorMap.take()));
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}
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IslPtr<isl_union_set> polly::shiftDim(IslPtr<isl_union_set> USet, int Pos,
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int Amount) {
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auto Result = give(isl_union_set_empty(isl_union_set_get_space(USet.keep())));
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foreachElt(USet, [=, &Result](IslPtr<isl_set> Set) {
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auto Shifted = shiftDim(Set, Pos, Amount);
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Result = give(isl_union_set_add_set(Result.take(), Shifted.take()));
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});
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return Result;
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}
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void polly::simplify(IslPtr<isl_set> &Set) {
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Set = give(isl_set_compute_divs(Set.take()));
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Set = give(isl_set_detect_equalities(Set.take()));
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Set = give(isl_set_coalesce(Set.take()));
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}
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void polly::simplify(IslPtr<isl_union_set> &USet) {
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USet = give(isl_union_set_compute_divs(USet.take()));
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USet = give(isl_union_set_detect_equalities(USet.take()));
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USet = give(isl_union_set_coalesce(USet.take()));
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}
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void polly::simplify(IslPtr<isl_map> &Map) {
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Map = give(isl_map_compute_divs(Map.take()));
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Map = give(isl_map_detect_equalities(Map.take()));
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Map = give(isl_map_coalesce(Map.take()));
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}
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void polly::simplify(IslPtr<isl_union_map> &UMap) {
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UMap = give(isl_union_map_compute_divs(UMap.take()));
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UMap = give(isl_union_map_detect_equalities(UMap.take()));
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UMap = give(isl_union_map_coalesce(UMap.take()));
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}
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2017-02-04 23:42:01 +08:00
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IslPtr<isl_union_map>
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polly::computeReachingWrite(IslPtr<isl_union_map> Schedule,
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IslPtr<isl_union_map> Writes, bool Reverse,
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bool InclPrevDef, bool InclNextDef) {
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// { Scatter[] }
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auto ScatterSpace = getScatterSpace(Schedule);
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// { ScatterRead[] -> ScatterWrite[] }
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IslPtr<isl_map> Relation;
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if (Reverse)
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Relation = give(InclPrevDef ? isl_map_lex_lt(ScatterSpace.take())
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: isl_map_lex_le(ScatterSpace.take()));
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else
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Relation = give(InclNextDef ? isl_map_lex_gt(ScatterSpace.take())
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: isl_map_lex_ge(ScatterSpace.take()));
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// { ScatterWrite[] -> [ScatterRead[] -> ScatterWrite[]] }
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auto RelationMap = give(isl_map_reverse(isl_map_range_map(Relation.take())));
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// { Element[] -> ScatterWrite[] }
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auto WriteAction =
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give(isl_union_map_apply_domain(Schedule.copy(), Writes.take()));
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// { ScatterWrite[] -> Element[] }
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auto WriteActionRev = give(isl_union_map_reverse(WriteAction.copy()));
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// { Element[] -> [ScatterUse[] -> ScatterWrite[]] }
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auto DefSchedRelation = give(isl_union_map_apply_domain(
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isl_union_map_from_map(RelationMap.take()), WriteActionRev.take()));
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// For each element, at every point in time, map to the times of previous
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// definitions. { [Element[] -> ScatterRead[]] -> ScatterWrite[] }
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auto ReachableWrites = give(isl_union_map_uncurry(DefSchedRelation.take()));
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if (Reverse)
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ReachableWrites = give(isl_union_map_lexmin(ReachableWrites.copy()));
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else
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ReachableWrites = give(isl_union_map_lexmax(ReachableWrites.copy()));
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// { [Element[] -> ScatterWrite[]] -> ScatterWrite[] }
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auto SelfUse = give(isl_union_map_range_map(WriteAction.take()));
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if (InclPrevDef && InclNextDef) {
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// Add the Def itself to the solution.
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ReachableWrites =
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give(isl_union_map_union(ReachableWrites.take(), SelfUse.take()));
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ReachableWrites = give(isl_union_map_coalesce(ReachableWrites.take()));
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} else if (!InclPrevDef && !InclNextDef) {
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// Remove Def itself from the solution.
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ReachableWrites =
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give(isl_union_map_subtract(ReachableWrites.take(), SelfUse.take()));
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}
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// { [Element[] -> ScatterRead[]] -> Domain[] }
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auto ReachableWriteDomain = give(isl_union_map_apply_range(
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ReachableWrites.take(), isl_union_map_reverse(Schedule.take())));
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return ReachableWriteDomain;
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}
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