2015-08-12 18:19:50 +08:00
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//===--------- SCEVAffinator.cpp - Create Scops from LLVM IR -------------===//
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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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// Create a polyhedral description for a SCEV value.
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//
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//===----------------------------------------------------------------------===//
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#include "polly/Support/SCEVAffinator.h"
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#include "polly/ScopInfo.h"
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#include "polly/Support/GICHelper.h"
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#include "polly/Support/SCEVValidator.h"
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2015-09-25 17:49:19 +08:00
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#include "polly/Support/ScopHelper.h"
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2015-08-12 18:19:50 +08:00
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#include "isl/aff.h"
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2015-09-25 17:49:19 +08:00
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#include "isl/local_space.h"
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2015-08-12 18:19:50 +08:00
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#include "isl/set.h"
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#include "isl/val.h"
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using namespace llvm;
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using namespace polly;
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SCEVAffinator::SCEVAffinator(Scop *S)
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2015-09-16 06:52:53 +08:00
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: S(S), Ctx(S->getIslCtx()), R(S->getRegion()), SE(*S->getSE()),
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TD(R.getEntry()->getParent()->getParent()->getDataLayout()) {}
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2015-08-12 18:19:50 +08:00
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2015-08-12 18:46:33 +08:00
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SCEVAffinator::~SCEVAffinator() {
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2015-09-16 06:49:04 +08:00
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for (const auto &CachedPair : CachedExpressions)
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2015-08-12 18:46:33 +08:00
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isl_pw_aff_free(CachedPair.second);
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}
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2015-08-12 18:19:50 +08:00
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__isl_give isl_pw_aff *SCEVAffinator::getPwAff(const SCEV *Expr,
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2015-09-16 06:49:04 +08:00
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BasicBlock *BB) {
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this->BB = BB;
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if (BB) {
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auto *DC = S->getDomainConditions(BB);
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NumIterators = isl_set_n_dim(DC);
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isl_set_free(DC);
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} else
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2015-08-12 23:27:16 +08:00
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NumIterators = 0;
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2015-08-12 18:19:50 +08:00
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S->addParams(getParamsInAffineExpr(&R, Expr, SE));
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return visit(Expr);
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}
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2015-09-16 06:52:53 +08:00
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__isl_give isl_set *
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SCEVAffinator::getWrappingContext(SCEV::NoWrapFlags Flags, Type *ExprType,
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__isl_keep isl_pw_aff *PWA,
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__isl_take isl_set *ExprDomain) const {
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// If the SCEV flags do contain NSW (no signed wrap) then PWA already
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// represents Expr in modulo semantic (it is not allowed to overflow), thus we
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// are done. Otherwise, we will compute:
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// PWA = ((PWA + 2^(n-1)) mod (2 ^ n)) - 2^(n-1)
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// whereas n is the number of bits of the Expr, hence:
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// n = bitwidth(ExprType)
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if (Flags & SCEV::FlagNSW)
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return nullptr;
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isl_pw_aff *PWAMod = addModuloSemantic(isl_pw_aff_copy(PWA), ExprType);
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if (isl_pw_aff_is_equal(PWA, PWAMod)) {
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isl_pw_aff_free(PWAMod);
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return nullptr;
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}
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PWA = isl_pw_aff_copy(PWA);
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auto *NotEqualSet = isl_pw_aff_ne_set(PWA, PWAMod);
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NotEqualSet = isl_set_intersect(NotEqualSet, isl_set_copy(ExprDomain));
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NotEqualSet = isl_set_gist_params(NotEqualSet, S->getContext());
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NotEqualSet = isl_set_params(NotEqualSet);
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return NotEqualSet;
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}
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__isl_give isl_set *SCEVAffinator::getWrappingContext() const {
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isl_set *WrappingCtx = isl_set_empty(S->getParamSpace());
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for (const auto &CachedPair : CachedExpressions) {
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const SCEV *Expr = CachedPair.first.first;
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SCEV::NoWrapFlags Flags;
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switch (Expr->getSCEVType()) {
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case scAddExpr:
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Flags = cast<SCEVAddExpr>(Expr)->getNoWrapFlags();
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break;
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case scMulExpr:
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Flags = cast<SCEVMulExpr>(Expr)->getNoWrapFlags();
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break;
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case scAddRecExpr:
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Flags = cast<SCEVAddRecExpr>(Expr)->getNoWrapFlags();
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break;
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default:
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continue;
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}
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isl_pw_aff *PWA = CachedPair.second;
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BasicBlock *BB = CachedPair.first.second;
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isl_set *ExprDomain = BB ? S->getDomainConditions(BB) : nullptr;
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isl_set *WPWACtx =
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getWrappingContext(Flags, Expr->getType(), PWA, ExprDomain);
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isl_set_free(ExprDomain);
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WrappingCtx = WPWACtx ? isl_set_union(WrappingCtx, WPWACtx) : WrappingCtx;
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}
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return WrappingCtx;
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}
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__isl_give isl_pw_aff *
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SCEVAffinator::addModuloSemantic(__isl_take isl_pw_aff *PWA,
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Type *ExprType) const {
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unsigned Width = TD.getTypeStoreSizeInBits(ExprType);
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isl_ctx *Ctx = isl_pw_aff_get_ctx(PWA);
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isl_val *ModVal = isl_val_int_from_ui(Ctx, Width);
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ModVal = isl_val_2exp(ModVal);
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isl_val *AddVal = isl_val_int_from_ui(Ctx, Width - 1);
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AddVal = isl_val_2exp(AddVal);
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isl_set *Domain = isl_pw_aff_domain(isl_pw_aff_copy(PWA));
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isl_pw_aff *AddPW = isl_pw_aff_val_on_domain(Domain, AddVal);
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PWA = isl_pw_aff_add(PWA, isl_pw_aff_copy(AddPW));
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PWA = isl_pw_aff_mod_val(PWA, ModVal);
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PWA = isl_pw_aff_sub(PWA, AddPW);
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return PWA;
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}
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2015-09-21 00:59:23 +08:00
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bool SCEVAffinator::hasNSWAddRecForLoop(Loop *L) const {
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for (const auto &CachedPair : CachedExpressions) {
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auto *AddRec = dyn_cast<SCEVAddRecExpr>(CachedPair.first.first);
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if (!AddRec)
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continue;
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if (AddRec->getLoop() != L)
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continue;
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if (AddRec->getNoWrapFlags() & SCEV::FlagNSW)
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return true;
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}
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return false;
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}
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2015-08-12 18:19:50 +08:00
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__isl_give isl_pw_aff *SCEVAffinator::visit(const SCEV *Expr) {
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2015-08-12 18:46:33 +08:00
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2015-09-16 06:49:04 +08:00
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auto Key = std::make_pair(Expr, BB);
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2015-08-12 18:46:33 +08:00
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isl_pw_aff *PWA = CachedExpressions[Key];
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2015-09-16 06:49:04 +08:00
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if (PWA)
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2015-08-12 18:46:33 +08:00
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return isl_pw_aff_copy(PWA);
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2016-02-15 06:30:56 +08:00
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auto ConstantAndLeftOverPair = extractConstantFactor(Expr, *S->getSE());
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auto *Factor = ConstantAndLeftOverPair.first;
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Expr = ConstantAndLeftOverPair.second;
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2015-08-12 18:19:50 +08:00
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// In case the scev is a valid parameter, we do not further analyze this
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// expression, but create a new parameter in the isl_pw_aff. This allows us
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// to treat subexpressions that we cannot translate into an piecewise affine
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// expression, as constant parameters of the piecewise affine expression.
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if (isl_id *Id = S->getIdForParam(Expr)) {
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isl_space *Space = isl_space_set_alloc(Ctx, 1, NumIterators);
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Space = isl_space_set_dim_id(Space, isl_dim_param, 0, Id);
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isl_set *Domain = isl_set_universe(isl_space_copy(Space));
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isl_aff *Affine = isl_aff_zero_on_domain(isl_local_space_from_space(Space));
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Affine = isl_aff_add_coefficient_si(Affine, isl_dim_param, 0, 1);
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2015-08-12 18:46:33 +08:00
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PWA = isl_pw_aff_alloc(Domain, Affine);
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2016-02-15 06:30:56 +08:00
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} else {
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PWA = SCEVVisitor<SCEVAffinator, isl_pw_aff *>::visit(Expr);
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2015-08-12 18:19:50 +08:00
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}
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2016-02-15 06:30:56 +08:00
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PWA = isl_pw_aff_mul(visitConstant(Factor), PWA);
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2015-09-16 06:52:53 +08:00
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// For compile time reasons we need to simplify the PWA before we cache and
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// return it.
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PWA = isl_pw_aff_coalesce(PWA);
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2016-02-15 06:30:56 +08:00
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CachedExpressions[Key] = isl_pw_aff_copy(PWA);
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return PWA;
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2015-08-12 18:19:50 +08:00
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}
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__isl_give isl_pw_aff *SCEVAffinator::visitConstant(const SCEVConstant *Expr) {
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ConstantInt *Value = Expr->getValue();
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isl_val *v;
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// LLVM does not define if an integer value is interpreted as a signed or
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// unsigned value. Hence, without further information, it is unknown how
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// this value needs to be converted to GMP. At the moment, we only support
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// signed operations. So we just interpret it as signed. Later, there are
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// two options:
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//
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// 1. We always interpret any value as signed and convert the values on
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// demand.
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// 2. We pass down the signedness of the calculation and use it to interpret
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// this constant correctly.
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v = isl_valFromAPInt(Ctx, Value->getValue(), /* isSigned */ true);
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isl_space *Space = isl_space_set_alloc(Ctx, 0, NumIterators);
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isl_local_space *ls = isl_local_space_from_space(Space);
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return isl_pw_aff_from_aff(isl_aff_val_on_domain(ls, v));
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}
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__isl_give isl_pw_aff *
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SCEVAffinator::visitTruncateExpr(const SCEVTruncateExpr *Expr) {
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llvm_unreachable("SCEVTruncateExpr not yet supported");
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}
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__isl_give isl_pw_aff *
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SCEVAffinator::visitZeroExtendExpr(const SCEVZeroExtendExpr *Expr) {
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llvm_unreachable("SCEVZeroExtendExpr not yet supported");
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}
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__isl_give isl_pw_aff *
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SCEVAffinator::visitSignExtendExpr(const SCEVSignExtendExpr *Expr) {
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// Assuming the value is signed, a sign extension is basically a noop.
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// TODO: Reconsider this as soon as we support unsigned values.
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return visit(Expr->getOperand());
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}
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__isl_give isl_pw_aff *SCEVAffinator::visitAddExpr(const SCEVAddExpr *Expr) {
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isl_pw_aff *Sum = visit(Expr->getOperand(0));
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for (int i = 1, e = Expr->getNumOperands(); i < e; ++i) {
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isl_pw_aff *NextSummand = visit(Expr->getOperand(i));
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Sum = isl_pw_aff_add(Sum, NextSummand);
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}
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return Sum;
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}
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__isl_give isl_pw_aff *SCEVAffinator::visitMulExpr(const SCEVMulExpr *Expr) {
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llvm_unreachable("SCEVMulExpr should not be reached");
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2015-08-12 18:19:50 +08:00
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}
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__isl_give isl_pw_aff *SCEVAffinator::visitUDivExpr(const SCEVUDivExpr *Expr) {
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llvm_unreachable("SCEVUDivExpr not yet supported");
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}
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__isl_give isl_pw_aff *
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SCEVAffinator::visitAddRecExpr(const SCEVAddRecExpr *Expr) {
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assert(Expr->isAffine() && "Only affine AddRecurrences allowed");
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auto Flags = Expr->getNoWrapFlags();
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// Directly generate isl_pw_aff for Expr if 'start' is zero.
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if (Expr->getStart()->isZero()) {
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assert(S->getRegion().contains(Expr->getLoop()) &&
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"Scop does not contain the loop referenced in this AddRec");
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isl_pw_aff *Step = visit(Expr->getOperand(1));
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isl_space *Space = isl_space_set_alloc(Ctx, 0, NumIterators);
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isl_local_space *LocalSpace = isl_local_space_from_space(Space);
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2015-08-27 14:53:52 +08:00
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unsigned loopDimension = S->getRelativeLoopDepth(Expr->getLoop());
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2015-08-12 18:19:50 +08:00
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isl_aff *LAff = isl_aff_set_coefficient_si(
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isl_aff_zero_on_domain(LocalSpace), isl_dim_in, loopDimension, 1);
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isl_pw_aff *LPwAff = isl_pw_aff_from_aff(LAff);
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2015-08-12 18:58:01 +08:00
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return isl_pw_aff_mul(Step, LPwAff);
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2015-08-12 18:19:50 +08:00
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}
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// Translate AddRecExpr from '{start, +, inc}' into 'start + {0, +, inc}'
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// if 'start' is not zero.
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// TODO: Using the original SCEV no-wrap flags is not always safe, however
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// as our code generation is reordering the expression anyway it doesn't
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// really matter.
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ScalarEvolution &SE = *S->getSE();
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const SCEV *ZeroStartExpr =
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SE.getAddRecExpr(SE.getConstant(Expr->getStart()->getType(), 0),
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Expr->getStepRecurrence(SE), Expr->getLoop(), Flags);
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isl_pw_aff *ZeroStartResult = visit(ZeroStartExpr);
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isl_pw_aff *Start = visit(Expr->getStart());
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return isl_pw_aff_add(ZeroStartResult, Start);
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}
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__isl_give isl_pw_aff *SCEVAffinator::visitSMaxExpr(const SCEVSMaxExpr *Expr) {
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isl_pw_aff *Max = visit(Expr->getOperand(0));
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for (int i = 1, e = Expr->getNumOperands(); i < e; ++i) {
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isl_pw_aff *NextOperand = visit(Expr->getOperand(i));
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Max = isl_pw_aff_max(Max, NextOperand);
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}
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return Max;
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}
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__isl_give isl_pw_aff *SCEVAffinator::visitUMaxExpr(const SCEVUMaxExpr *Expr) {
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llvm_unreachable("SCEVUMaxExpr not yet supported");
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}
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__isl_give isl_pw_aff *SCEVAffinator::visitSDivInstruction(Instruction *SDiv) {
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assert(SDiv->getOpcode() == Instruction::SDiv && "Assumed SDiv instruction!");
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auto *SE = S->getSE();
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auto *Divisor = SDiv->getOperand(1);
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auto *DivisorSCEV = SE->getSCEV(Divisor);
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auto *DivisorPWA = visit(DivisorSCEV);
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assert(isa<ConstantInt>(Divisor) &&
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"SDiv is no parameter but has a non-constant RHS.");
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auto *Dividend = SDiv->getOperand(0);
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auto *DividendSCEV = SE->getSCEV(Dividend);
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auto *DividendPWA = visit(DividendSCEV);
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return isl_pw_aff_tdiv_q(DividendPWA, DivisorPWA);
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}
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__isl_give isl_pw_aff *SCEVAffinator::visitSRemInstruction(Instruction *SRem) {
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assert(SRem->getOpcode() == Instruction::SRem && "Assumed SRem instruction!");
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auto *SE = S->getSE();
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|
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auto *Divisor = dyn_cast<ConstantInt>(SRem->getOperand(1));
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assert(Divisor && "SRem is no parameter but has a non-constant RHS.");
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auto *DivisorVal = isl_valFromAPInt(Ctx, Divisor->getValue(),
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/* isSigned */ true);
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auto *Dividend = SRem->getOperand(0);
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|
auto *DividendSCEV = SE->getSCEV(Dividend);
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auto *DividendPWA = visit(DividendSCEV);
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|
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return isl_pw_aff_mod_val(DividendPWA, isl_val_abs(DivisorVal));
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|
|
|
}
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__isl_give isl_pw_aff *SCEVAffinator::visitUnknown(const SCEVUnknown *Expr) {
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|
|
|
if (Instruction *I = dyn_cast<Instruction>(Expr->getValue())) {
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|
|
|
switch (I->getOpcode()) {
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|
|
|
case Instruction::SDiv:
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|
return visitSDivInstruction(I);
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|
|
case Instruction::SRem:
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|
|
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return visitSRemInstruction(I);
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default:
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|
|
break; // Fall through.
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|
|
|
}
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|
|
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}
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|
|
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|
|
|
|
llvm_unreachable(
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|
|
|
"Unknowns SCEV was neither parameter nor a valid instruction.");
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|
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|
}
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