SDBMExpr.cpp
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//===- SDBMExpr.cpp - MLIR SDBM Expression implementation -----------------===//
//
// Part of the MLIR Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// A striped difference-bound matrix (SDBM) expression is a constant expression,
// an identifier, a binary expression with constant RHS and +, stripe operators
// or a difference expression between two identifiers.
//
//===----------------------------------------------------------------------===//
#include "mlir/Dialect/SDBM/SDBMExpr.h"
#include "SDBMExprDetail.h"
#include "mlir/Dialect/SDBM/SDBMDialect.h"
#include "mlir/IR/AffineExpr.h"
#include "mlir/IR/AffineExprVisitor.h"
#include "llvm/Support/raw_ostream.h"
using namespace mlir;
namespace {
/// A simple compositional matcher for AffineExpr
///
/// Example usage:
///
/// ```c++
/// AffineExprMatcher x, C, m;
/// AffineExprMatcher pattern1 = ((x % C) * m) + x;
/// AffineExprMatcher pattern2 = x + ((x % C) * m);
/// if (pattern1.match(expr) || pattern2.match(expr)) {
/// ...
/// }
/// ```
class AffineExprMatcherStorage;
class AffineExprMatcher {
public:
AffineExprMatcher();
AffineExprMatcher(const AffineExprMatcher &other);
AffineExprMatcher operator+(AffineExprMatcher other) {
return AffineExprMatcher(AffineExprKind::Add, *this, other);
}
AffineExprMatcher operator*(AffineExprMatcher other) {
return AffineExprMatcher(AffineExprKind::Mul, *this, other);
}
AffineExprMatcher floorDiv(AffineExprMatcher other) {
return AffineExprMatcher(AffineExprKind::FloorDiv, *this, other);
}
AffineExprMatcher ceilDiv(AffineExprMatcher other) {
return AffineExprMatcher(AffineExprKind::CeilDiv, *this, other);
}
AffineExprMatcher operator%(AffineExprMatcher other) {
return AffineExprMatcher(AffineExprKind::Mod, *this, other);
}
AffineExpr match(AffineExpr expr);
AffineExpr matched();
Optional<int> getMatchedConstantValue();
private:
AffineExprMatcher(AffineExprKind k, AffineExprMatcher a, AffineExprMatcher b);
AffineExprKind kind; // only used to match in binary op cases.
// A shared_ptr allows multiple references to same matcher storage without
// worrying about ownership or dealing with an arena. To be cleaned up if we
// go with this.
std::shared_ptr<AffineExprMatcherStorage> storage;
};
class AffineExprMatcherStorage {
public:
AffineExprMatcherStorage() {}
AffineExprMatcherStorage(const AffineExprMatcherStorage &other)
: subExprs(other.subExprs.begin(), other.subExprs.end()),
matched(other.matched) {}
AffineExprMatcherStorage(ArrayRef<AffineExprMatcher> exprs)
: subExprs(exprs.begin(), exprs.end()) {}
AffineExprMatcherStorage(AffineExprMatcher &a, AffineExprMatcher &b)
: subExprs({a, b}) {}
SmallVector<AffineExprMatcher, 0> subExprs;
AffineExpr matched;
};
} // namespace
AffineExprMatcher::AffineExprMatcher()
: kind(AffineExprKind::Constant), storage(new AffineExprMatcherStorage()) {}
AffineExprMatcher::AffineExprMatcher(const AffineExprMatcher &other)
: kind(other.kind), storage(other.storage) {}
Optional<int> AffineExprMatcher::getMatchedConstantValue() {
if (auto cst = storage->matched.dyn_cast<AffineConstantExpr>())
return cst.getValue();
return None;
}
AffineExpr AffineExprMatcher::match(AffineExpr expr) {
if (kind > AffineExprKind::LAST_AFFINE_BINARY_OP) {
if (storage->matched)
if (storage->matched != expr)
return AffineExpr();
storage->matched = expr;
return storage->matched;
}
if (kind != expr.getKind()) {
return AffineExpr();
}
if (auto bin = expr.dyn_cast<AffineBinaryOpExpr>()) {
if (!storage->subExprs.empty() &&
!storage->subExprs[0].match(bin.getLHS())) {
return AffineExpr();
}
if (!storage->subExprs.empty() &&
!storage->subExprs[1].match(bin.getRHS())) {
return AffineExpr();
}
if (storage->matched)
if (storage->matched != expr)
return AffineExpr();
storage->matched = expr;
return storage->matched;
}
llvm_unreachable("binary expected");
}
AffineExpr AffineExprMatcher::matched() { return storage->matched; }
AffineExprMatcher::AffineExprMatcher(AffineExprKind k, AffineExprMatcher a,
AffineExprMatcher b)
: kind(k), storage(new AffineExprMatcherStorage(a, b)) {
storage->subExprs.push_back(a);
storage->subExprs.push_back(b);
}
//===----------------------------------------------------------------------===//
// SDBMExpr
//===----------------------------------------------------------------------===//
SDBMExprKind SDBMExpr::getKind() const { return impl->getKind(); }
MLIRContext *SDBMExpr::getContext() const {
return impl->dialect->getContext();
}
SDBMDialect *SDBMExpr::getDialect() const { return impl->dialect; }
void SDBMExpr::print(raw_ostream &os) const {
struct Printer : public SDBMVisitor<Printer> {
Printer(raw_ostream &ostream) : prn(ostream) {}
void visitSum(SDBMSumExpr expr) {
visit(expr.getLHS());
prn << " + ";
visit(expr.getRHS());
}
void visitDiff(SDBMDiffExpr expr) {
visit(expr.getLHS());
prn << " - ";
visit(expr.getRHS());
}
void visitDim(SDBMDimExpr expr) { prn << 'd' << expr.getPosition(); }
void visitSymbol(SDBMSymbolExpr expr) { prn << 's' << expr.getPosition(); }
void visitStripe(SDBMStripeExpr expr) {
SDBMDirectExpr lhs = expr.getLHS();
bool isTerm = lhs.isa<SDBMTermExpr>();
if (!isTerm)
prn << '(';
visit(lhs);
if (!isTerm)
prn << ')';
prn << " # ";
visitConstant(expr.getStripeFactor());
}
void visitNeg(SDBMNegExpr expr) {
bool isSum = expr.getVar().isa<SDBMSumExpr>();
prn << '-';
if (isSum)
prn << '(';
visit(expr.getVar());
if (isSum)
prn << ')';
}
void visitConstant(SDBMConstantExpr expr) { prn << expr.getValue(); }
raw_ostream &prn;
};
Printer printer(os);
printer.visit(*this);
}
void SDBMExpr::dump() const {
print(llvm::errs());
llvm::errs() << '\n';
}
namespace {
// Helper class to perform negation of an SDBM expression.
struct SDBMNegator : public SDBMVisitor<SDBMNegator, SDBMExpr> {
// Any term expression is wrapped into a negation expression.
// -(x) = -x
SDBMExpr visitDirect(SDBMDirectExpr expr) { return SDBMNegExpr::get(expr); }
// A negation expression is unwrapped.
// -(-x) = x
SDBMExpr visitNeg(SDBMNegExpr expr) { return expr.getVar(); }
// The value of the constant is negated.
SDBMExpr visitConstant(SDBMConstantExpr expr) {
return SDBMConstantExpr::get(expr.getDialect(), -expr.getValue());
}
// Terms of a difference are interchanged. Since only the LHS of a diff
// expression is allowed to be a sum with a constant, we need to recreate the
// sum with the negated value:
// -((x + C) - y) = (y - C) - x.
SDBMExpr visitDiff(SDBMDiffExpr expr) {
// If the LHS is just a term, we can do straightforward interchange.
if (auto term = expr.getLHS().dyn_cast<SDBMTermExpr>())
return SDBMDiffExpr::get(expr.getRHS(), term);
auto sum = expr.getLHS().cast<SDBMSumExpr>();
auto cst = visitConstant(sum.getRHS()).cast<SDBMConstantExpr>();
return SDBMDiffExpr::get(SDBMSumExpr::get(expr.getRHS(), cst),
sum.getLHS());
}
};
} // namespace
SDBMExpr SDBMExpr::operator-() { return SDBMNegator().visit(*this); }
//===----------------------------------------------------------------------===//
// SDBMSumExpr
//===----------------------------------------------------------------------===//
SDBMSumExpr SDBMSumExpr::get(SDBMTermExpr lhs, SDBMConstantExpr rhs) {
assert(lhs && "expected SDBM variable expression");
assert(rhs && "expected SDBM constant");
// If LHS of a sum is another sum, fold the constant RHS parts.
if (auto lhsSum = lhs.dyn_cast<SDBMSumExpr>()) {
lhs = lhsSum.getLHS();
rhs = SDBMConstantExpr::get(rhs.getDialect(),
rhs.getValue() + lhsSum.getRHS().getValue());
}
StorageUniquer &uniquer = lhs.getDialect()->getUniquer();
return uniquer.get<detail::SDBMBinaryExprStorage>(
/*initFn=*/{}, static_cast<unsigned>(SDBMExprKind::Add), lhs, rhs);
}
SDBMTermExpr SDBMSumExpr::getLHS() const {
return static_cast<ImplType *>(impl)->lhs.cast<SDBMTermExpr>();
}
SDBMConstantExpr SDBMSumExpr::getRHS() const {
return static_cast<ImplType *>(impl)->rhs;
}
AffineExpr SDBMExpr::getAsAffineExpr() const {
struct Converter : public SDBMVisitor<Converter, AffineExpr> {
AffineExpr visitSum(SDBMSumExpr expr) {
AffineExpr lhs = visit(expr.getLHS()), rhs = visit(expr.getRHS());
return lhs + rhs;
}
AffineExpr visitStripe(SDBMStripeExpr expr) {
AffineExpr lhs = visit(expr.getLHS()),
rhs = visit(expr.getStripeFactor());
return lhs - (lhs % rhs);
}
AffineExpr visitDiff(SDBMDiffExpr expr) {
AffineExpr lhs = visit(expr.getLHS()), rhs = visit(expr.getRHS());
return lhs - rhs;
}
AffineExpr visitDim(SDBMDimExpr expr) {
return getAffineDimExpr(expr.getPosition(), expr.getContext());
}
AffineExpr visitSymbol(SDBMSymbolExpr expr) {
return getAffineSymbolExpr(expr.getPosition(), expr.getContext());
}
AffineExpr visitNeg(SDBMNegExpr expr) {
return getAffineBinaryOpExpr(AffineExprKind::Mul,
getAffineConstantExpr(-1, expr.getContext()),
visit(expr.getVar()));
}
AffineExpr visitConstant(SDBMConstantExpr expr) {
return getAffineConstantExpr(expr.getValue(), expr.getContext());
}
} converter;
return converter.visit(*this);
}
// Given a direct expression `expr`, add the given constant to it and pass the
// resulting expression to `builder` before returning its result. If the
// expression is already a sum expression, update its constant and extract the
// LHS if the constant becomes zero. Otherwise, construct a sum expression.
template <typename Result>
static Result addConstantAndSink(SDBMDirectExpr expr, int64_t constant,
bool negated,
function_ref<Result(SDBMDirectExpr)> builder) {
SDBMDialect *dialect = expr.getDialect();
if (auto sumExpr = expr.dyn_cast<SDBMSumExpr>()) {
if (negated)
constant = sumExpr.getRHS().getValue() - constant;
else
constant += sumExpr.getRHS().getValue();
if (constant != 0) {
auto sum = SDBMSumExpr::get(sumExpr.getLHS(),
SDBMConstantExpr::get(dialect, constant));
return builder(sum);
} else {
return builder(sumExpr.getLHS());
}
}
if (constant != 0)
return builder(SDBMSumExpr::get(
expr.cast<SDBMTermExpr>(),
SDBMConstantExpr::get(dialect, negated ? -constant : constant)));
return expr;
}
// Construct an expression lhs + constant while maintaining the canonical form
// of the SDBM expressions, in particular sink the constant expression to the
// nearest sum expression in the left subtree of the expression tree.
static SDBMExpr addConstant(SDBMVaryingExpr lhs, int64_t constant) {
if (auto lhsDiff = lhs.dyn_cast<SDBMDiffExpr>())
return addConstantAndSink<SDBMExpr>(
lhsDiff.getLHS(), constant, /*negated=*/false,
[lhsDiff](SDBMDirectExpr e) {
return SDBMDiffExpr::get(e, lhsDiff.getRHS());
});
if (auto lhsNeg = lhs.dyn_cast<SDBMNegExpr>())
return addConstantAndSink<SDBMExpr>(
lhsNeg.getVar(), constant, /*negated=*/true,
[](SDBMDirectExpr e) { return SDBMNegExpr::get(e); });
if (auto lhsSum = lhs.dyn_cast<SDBMSumExpr>())
return addConstantAndSink<SDBMExpr>(lhsSum, constant, /*negated=*/false,
[](SDBMDirectExpr e) { return e; });
if (constant != 0)
return SDBMSumExpr::get(lhs.cast<SDBMTermExpr>(),
SDBMConstantExpr::get(lhs.getDialect(), constant));
return lhs;
}
// Build a difference expression given a direct expression and a negation
// expression.
static SDBMExpr buildDiffExpr(SDBMDirectExpr lhs, SDBMNegExpr rhs) {
// Fold (x + C) - (x + D) = C - D.
if (lhs.getTerm() == rhs.getVar().getTerm())
return SDBMConstantExpr::get(
lhs.getDialect(), lhs.getConstant() - rhs.getVar().getConstant());
return SDBMDiffExpr::get(
addConstantAndSink<SDBMDirectExpr>(lhs, -rhs.getVar().getConstant(),
/*negated=*/false,
[](SDBMDirectExpr e) { return e; }),
rhs.getVar().getTerm());
}
// Try folding an expression (lhs + rhs) where at least one of the operands
// contains a negated variable, i.e. is a negation or a difference expression.
static SDBMExpr foldSumDiff(SDBMExpr lhs, SDBMExpr rhs) {
// If exactly one of LHS, RHS is a negation expression, we can construct
// a difference expression, which is a special kind in SDBM.
auto lhsDirect = lhs.dyn_cast<SDBMDirectExpr>();
auto rhsDirect = rhs.dyn_cast<SDBMDirectExpr>();
auto lhsNeg = lhs.dyn_cast<SDBMNegExpr>();
auto rhsNeg = rhs.dyn_cast<SDBMNegExpr>();
if (lhsDirect && rhsNeg)
return buildDiffExpr(lhsDirect, rhsNeg);
if (lhsNeg && rhsDirect)
return buildDiffExpr(rhsDirect, lhsNeg);
// If a subexpression appears in a diff expression on the LHS(RHS) of a
// sum expression where it also appears on the RHS(LHS) with the opposite
// sign, we can simplify it away and obtain the SDBM form.
auto lhsDiff = lhs.dyn_cast<SDBMDiffExpr>();
auto rhsDiff = rhs.dyn_cast<SDBMDiffExpr>();
// -(x + A) + ((x + B) - y) = -(y + (A - B))
if (lhsNeg && rhsDiff &&
lhsNeg.getVar().getTerm() == rhsDiff.getLHS().getTerm()) {
int64_t constant =
lhsNeg.getVar().getConstant() - rhsDiff.getLHS().getConstant();
// RHS of the diff is a term expression, its sum with a constant is a direct
// expression.
return SDBMNegExpr::get(
addConstant(rhsDiff.getRHS(), constant).cast<SDBMDirectExpr>());
}
// (x + A) + ((y + B) - x) = (y + B) + A.
if (lhsDirect && rhsDiff && lhsDirect.getTerm() == rhsDiff.getRHS())
return addConstant(rhsDiff.getLHS(), lhsDirect.getConstant());
// ((x + A) - y) + (-(x + B)) = -(y + (B - A)).
if (lhsDiff && rhsNeg &&
lhsDiff.getLHS().getTerm() == rhsNeg.getVar().getTerm()) {
int64_t constant =
rhsNeg.getVar().getConstant() - lhsDiff.getLHS().getConstant();
// RHS of the diff is a term expression, its sum with a constant is a direct
// expression.
return SDBMNegExpr::get(
addConstant(lhsDiff.getRHS(), constant).cast<SDBMDirectExpr>());
}
// ((x + A) - y) + (y + B) = (x + A) + B.
if (rhsDirect && lhsDiff && rhsDirect.getTerm() == lhsDiff.getRHS())
return addConstant(lhsDiff.getLHS(), rhsDirect.getConstant());
return {};
}
Optional<SDBMExpr> SDBMExpr::tryConvertAffineExpr(AffineExpr affine) {
struct Converter : public AffineExprVisitor<Converter, SDBMExpr> {
SDBMExpr visitAddExpr(AffineBinaryOpExpr expr) {
auto lhs = visit(expr.getLHS()), rhs = visit(expr.getRHS());
if (!lhs || !rhs)
return {};
// In a "add" AffineExpr, the constant always appears on the right. If
// there were two constants, they would have been folded away.
assert(!lhs.isa<SDBMConstantExpr>() && "non-canonical affine expression");
// If RHS is a constant, we can always extend the SDBM expression to
// include it by sinking the constant into the nearest sum expression.
if (auto rhsConstant = rhs.dyn_cast<SDBMConstantExpr>()) {
int64_t constant = rhsConstant.getValue();
auto varying = lhs.dyn_cast<SDBMVaryingExpr>();
assert(varying && "unexpected uncanonicalized sum of constants");
return addConstant(varying, constant);
}
// Try building a difference expression if one of the values is negated,
// or check if a difference on either hand side cancels out the outer term
// so as to remain correct within SDBM. Return null otherwise.
return foldSumDiff(lhs, rhs);
}
SDBMExpr visitMulExpr(AffineBinaryOpExpr expr) {
// Attempt to recover a stripe expression "x # C = (x floordiv C) * C".
AffineExprMatcher x, C;
AffineExprMatcher pattern = (x.floorDiv(C)) * C;
if (pattern.match(expr)) {
if (SDBMExpr converted = visit(x.matched())) {
if (auto varConverted = converted.dyn_cast<SDBMTermExpr>())
// TODO(ntv): return varConverted.stripe(C.getConstantValue());
return SDBMStripeExpr::get(
varConverted,
SDBMConstantExpr::get(dialect,
C.getMatchedConstantValue().getValue()));
}
}
auto lhs = visit(expr.getLHS()), rhs = visit(expr.getRHS());
if (!lhs || !rhs)
return {};
// In a "mul" AffineExpr, the constant always appears on the right. If
// there were two constants, they would have been folded away.
assert(!lhs.isa<SDBMConstantExpr>() && "non-canonical affine expression");
auto rhsConstant = rhs.dyn_cast<SDBMConstantExpr>();
if (!rhsConstant)
return {};
// The only supported "multiplication" expression is an SDBM is dimension
// negation, that is a product of dimension and constant -1.
if (rhsConstant.getValue() != -1)
return {};
if (auto lhsVar = lhs.dyn_cast<SDBMTermExpr>())
return SDBMNegExpr::get(lhsVar);
if (auto lhsDiff = lhs.dyn_cast<SDBMDiffExpr>())
return SDBMNegator().visitDiff(lhsDiff);
// Other multiplications are not allowed in SDBM.
return {};
}
SDBMExpr visitModExpr(AffineBinaryOpExpr expr) {
auto lhs = visit(expr.getLHS()), rhs = visit(expr.getRHS());
if (!lhs || !rhs)
return {};
// 'mod' can only be converted to SDBM if its LHS is a direct expression
// and its RHS is a constant. Then it `x mod c = x - x stripe c`.
auto rhsConstant = rhs.dyn_cast<SDBMConstantExpr>();
auto lhsVar = lhs.dyn_cast<SDBMDirectExpr>();
if (!lhsVar || !rhsConstant)
return {};
return SDBMDiffExpr::get(lhsVar,
SDBMStripeExpr::get(lhsVar, rhsConstant));
}
// `a floordiv b = (a stripe b) / b`, but we have no division in SDBM
SDBMExpr visitFloorDivExpr(AffineBinaryOpExpr expr) { return {}; }
SDBMExpr visitCeilDivExpr(AffineBinaryOpExpr expr) { return {}; }
// Dimensions, symbols and constants are converted trivially.
SDBMExpr visitConstantExpr(AffineConstantExpr expr) {
return SDBMConstantExpr::get(dialect, expr.getValue());
}
SDBMExpr visitDimExpr(AffineDimExpr expr) {
return SDBMDimExpr::get(dialect, expr.getPosition());
}
SDBMExpr visitSymbolExpr(AffineSymbolExpr expr) {
return SDBMSymbolExpr::get(dialect, expr.getPosition());
}
SDBMDialect *dialect;
} converter;
converter.dialect = affine.getContext()->getRegisteredDialect<SDBMDialect>();
if (auto result = converter.visit(affine))
return result;
return None;
}
//===----------------------------------------------------------------------===//
// SDBMDiffExpr
//===----------------------------------------------------------------------===//
SDBMDiffExpr SDBMDiffExpr::get(SDBMDirectExpr lhs, SDBMTermExpr rhs) {
assert(lhs && "expected SDBM dimension");
assert(rhs && "expected SDBM dimension");
StorageUniquer &uniquer = lhs.getDialect()->getUniquer();
return uniquer.get<detail::SDBMDiffExprStorage>(
/*initFn=*/{}, static_cast<unsigned>(SDBMExprKind::Diff), lhs, rhs);
}
SDBMDirectExpr SDBMDiffExpr::getLHS() const {
return static_cast<ImplType *>(impl)->lhs;
}
SDBMTermExpr SDBMDiffExpr::getRHS() const {
return static_cast<ImplType *>(impl)->rhs;
}
//===----------------------------------------------------------------------===//
// SDBMDirectExpr
//===----------------------------------------------------------------------===//
SDBMTermExpr SDBMDirectExpr::getTerm() {
if (auto sum = dyn_cast<SDBMSumExpr>())
return sum.getLHS();
return cast<SDBMTermExpr>();
}
int64_t SDBMDirectExpr::getConstant() {
if (auto sum = dyn_cast<SDBMSumExpr>())
return sum.getRHS().getValue();
return 0;
}
//===----------------------------------------------------------------------===//
// SDBMStripeExpr
//===----------------------------------------------------------------------===//
SDBMStripeExpr SDBMStripeExpr::get(SDBMDirectExpr var,
SDBMConstantExpr stripeFactor) {
assert(var && "expected SDBM variable expression");
assert(stripeFactor && "expected non-null stripe factor");
if (stripeFactor.getValue() <= 0)
llvm::report_fatal_error("non-positive stripe factor");
StorageUniquer &uniquer = var.getDialect()->getUniquer();
return uniquer.get<detail::SDBMBinaryExprStorage>(
/*initFn=*/{}, static_cast<unsigned>(SDBMExprKind::Stripe), var,
stripeFactor);
}
SDBMDirectExpr SDBMStripeExpr::getLHS() const {
if (SDBMVaryingExpr lhs = static_cast<ImplType *>(impl)->lhs)
return lhs.cast<SDBMDirectExpr>();
return {};
}
SDBMConstantExpr SDBMStripeExpr::getStripeFactor() const {
return static_cast<ImplType *>(impl)->rhs;
}
//===----------------------------------------------------------------------===//
// SDBMInputExpr
//===----------------------------------------------------------------------===//
unsigned SDBMInputExpr::getPosition() const {
return static_cast<ImplType *>(impl)->position;
}
//===----------------------------------------------------------------------===//
// SDBMDimExpr
//===----------------------------------------------------------------------===//
SDBMDimExpr SDBMDimExpr::get(SDBMDialect *dialect, unsigned position) {
assert(dialect && "expected non-null dialect");
auto assignDialect = [dialect](detail::SDBMTermExprStorage *storage) {
storage->dialect = dialect;
};
StorageUniquer &uniquer = dialect->getUniquer();
return uniquer.get<detail::SDBMTermExprStorage>(
assignDialect, static_cast<unsigned>(SDBMExprKind::DimId), position);
}
//===----------------------------------------------------------------------===//
// SDBMSymbolExpr
//===----------------------------------------------------------------------===//
SDBMSymbolExpr SDBMSymbolExpr::get(SDBMDialect *dialect, unsigned position) {
assert(dialect && "expected non-null dialect");
auto assignDialect = [dialect](detail::SDBMTermExprStorage *storage) {
storage->dialect = dialect;
};
StorageUniquer &uniquer = dialect->getUniquer();
return uniquer.get<detail::SDBMTermExprStorage>(
assignDialect, static_cast<unsigned>(SDBMExprKind::SymbolId), position);
}
//===----------------------------------------------------------------------===//
// SDBMConstantExpr
//===----------------------------------------------------------------------===//
SDBMConstantExpr SDBMConstantExpr::get(SDBMDialect *dialect, int64_t value) {
assert(dialect && "expected non-null dialect");
auto assignCtx = [dialect](detail::SDBMConstantExprStorage *storage) {
storage->dialect = dialect;
};
StorageUniquer &uniquer = dialect->getUniquer();
return uniquer.get<detail::SDBMConstantExprStorage>(
assignCtx, static_cast<unsigned>(SDBMExprKind::Constant), value);
}
int64_t SDBMConstantExpr::getValue() const {
return static_cast<ImplType *>(impl)->constant;
}
//===----------------------------------------------------------------------===//
// SDBMNegExpr
//===----------------------------------------------------------------------===//
SDBMNegExpr SDBMNegExpr::get(SDBMDirectExpr var) {
assert(var && "expected non-null SDBM direct expression");
StorageUniquer &uniquer = var.getDialect()->getUniquer();
return uniquer.get<detail::SDBMNegExprStorage>(
/*initFn=*/{}, static_cast<unsigned>(SDBMExprKind::Neg), var);
}
SDBMDirectExpr SDBMNegExpr::getVar() const {
return static_cast<ImplType *>(impl)->expr;
}
SDBMExpr mlir::ops_assertions::operator+(SDBMExpr lhs, SDBMExpr rhs) {
if (auto folded = foldSumDiff(lhs, rhs))
return folded;
assert(!(lhs.isa<SDBMNegExpr>() && rhs.isa<SDBMNegExpr>()) &&
"a sum of negated expressions is a negation of a sum of variables and "
"not a correct SDBM");
// Fold (x - y) + (y - x) = 0.
auto lhsDiff = lhs.dyn_cast<SDBMDiffExpr>();
auto rhsDiff = rhs.dyn_cast<SDBMDiffExpr>();
if (lhsDiff && rhsDiff) {
if (lhsDiff.getLHS() == rhsDiff.getRHS() &&
lhsDiff.getRHS() == rhsDiff.getLHS())
return SDBMConstantExpr::get(lhs.getDialect(), 0);
}
// If LHS is a constant and RHS is not, swap the order to get into a supported
// sum case. From now on, RHS must be a constant.
auto lhsConstant = lhs.dyn_cast<SDBMConstantExpr>();
auto rhsConstant = rhs.dyn_cast<SDBMConstantExpr>();
if (!rhsConstant && lhsConstant) {
std::swap(lhs, rhs);
std::swap(lhsConstant, rhsConstant);
}
assert(rhsConstant && "at least one operand must be a constant");
// Constant-fold if LHS is also a constant.
if (lhsConstant)
return SDBMConstantExpr::get(lhs.getDialect(), lhsConstant.getValue() +
rhsConstant.getValue());
return addConstant(lhs.cast<SDBMVaryingExpr>(), rhsConstant.getValue());
}
SDBMExpr mlir::ops_assertions::operator-(SDBMExpr lhs, SDBMExpr rhs) {
// Fold x - x == 0.
if (lhs == rhs)
return SDBMConstantExpr::get(lhs.getDialect(), 0);
// LHS and RHS may be constants.
auto lhsConstant = lhs.dyn_cast<SDBMConstantExpr>();
auto rhsConstant = rhs.dyn_cast<SDBMConstantExpr>();
// Constant fold if both LHS and RHS are constants.
if (lhsConstant && rhsConstant)
return SDBMConstantExpr::get(lhs.getDialect(), lhsConstant.getValue() -
rhsConstant.getValue());
// Replace a difference with a sum with a negated value if one of LHS and RHS
// is a constant:
// x - C == x + (-C);
// C - x == -x + C.
// This calls into operator+ for further simplification.
if (rhsConstant)
return lhs + (-rhsConstant);
if (lhsConstant)
return -rhs + lhsConstant;
return buildDiffExpr(lhs.cast<SDBMDirectExpr>(), (-rhs).cast<SDBMNegExpr>());
}
SDBMExpr mlir::ops_assertions::stripe(SDBMExpr expr, SDBMExpr factor) {
auto constantFactor = factor.cast<SDBMConstantExpr>();
assert(constantFactor.getValue() > 0 && "non-positive stripe");
// Fold x # 1 = x.
if (constantFactor.getValue() == 1)
return expr;
return SDBMStripeExpr::get(expr.cast<SDBMDirectExpr>(), constantFactor);
}