2018-06-28 02:03:08 +08:00
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//===- AffineMap.cpp - MLIR Affine Map Classes ----------------------------===//
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//
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// Copyright 2019 The MLIR Authors.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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// =============================================================================
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#include "mlir/IR/AffineMap.h"
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2018-07-10 00:00:25 +08:00
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#include "mlir/IR/AffineExpr.h"
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2018-06-28 02:03:08 +08:00
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#include "llvm/ADT/StringRef.h"
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#include "llvm/Support/MathExtras.h"
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2018-06-28 02:03:08 +08:00
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using namespace mlir;
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2018-07-04 11:16:08 +08:00
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AffineMap::AffineMap(unsigned numDims, unsigned numSymbols, unsigned numResults,
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AffineExpr *const *results, AffineExpr *const *rangeSizes)
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: numDims(numDims), numSymbols(numSymbols), numResults(numResults),
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results(results), rangeSizes(rangeSizes) {}
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2018-07-10 00:00:25 +08:00
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2018-07-12 12:19:31 +08:00
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/// Fold to a constant when possible. Canonicalize so that only the RHS is a
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/// constant. (4 + d0 becomes d0 + 4). If only one of them is a symbolic
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/// expressions, make it the RHS. Return nullptr if it can't be simplified.
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AffineExpr *AffineBinaryOpExpr::simplifyAdd(AffineExpr *lhs, AffineExpr *rhs,
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MLIRContext *context) {
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if (auto *l = dyn_cast<AffineConstantExpr>(lhs))
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if (auto *r = dyn_cast<AffineConstantExpr>(rhs))
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return AffineConstantExpr::get(l->getValue() + r->getValue(), context);
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2018-07-20 04:07:16 +08:00
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if (isa<AffineConstantExpr>(lhs) ||
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(lhs->isSymbolicOrConstant() && !rhs->isSymbolicOrConstant()))
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return AffineBinaryOpExpr::get(Kind::Add, rhs, lhs, context);
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return nullptr;
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// TODO(someone): implement more simplification like x + 0 -> x; (x + 2) + 4
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// -> (x + 6). Do this in a systematic way in conjunction with other
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// simplifications as opposed to incremental hacks.
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}
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/// Simplify a multiply expression. Fold it to a constant when possible, and
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/// make the symbolic/constant operand the RHS.
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AffineExpr *AffineBinaryOpExpr::simplifyMul(AffineExpr *lhs, AffineExpr *rhs,
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MLIRContext *context) {
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if (auto *l = dyn_cast<AffineConstantExpr>(lhs))
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if (auto *r = dyn_cast<AffineConstantExpr>(rhs))
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return AffineConstantExpr::get(l->getValue() * r->getValue(), context);
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assert(lhs->isSymbolicOrConstant() || rhs->isSymbolicOrConstant());
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// Canonicalize the mul expression so that the constant/symbolic term is the
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// RHS. If both the lhs and rhs are symbolic, swap them if the lhs is a
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// constant. (Note that a constant is trivially symbolic).
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if (!rhs->isSymbolicOrConstant() || isa<AffineConstantExpr>(lhs)) {
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// At least one of them has to be symbolic.
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return AffineBinaryOpExpr::get(Kind::Mul, rhs, lhs, context);
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}
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return nullptr;
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// TODO(someone): implement some more simplification/canonicalization such as
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// 1*x is same as x, and in general, move it in the form d_i*expr where d_i is
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// a dimensional identifier. So, 2*(d0 + 4) + s0*d0 becomes (2 + s0)*d0 + 8.
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}
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AffineExpr *AffineBinaryOpExpr::simplifyFloorDiv(AffineExpr *lhs,
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AffineExpr *rhs,
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MLIRContext *context) {
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if (auto *l = dyn_cast<AffineConstantExpr>(lhs))
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if (auto *r = dyn_cast<AffineConstantExpr>(rhs))
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return AffineConstantExpr::get(l->getValue() / r->getValue(), context);
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return nullptr;
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// TODO(someone): implement more simplification along the lines described in
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// simplifyMod TODO. For eg: 128*N floordiv 128 is N.
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}
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AffineExpr *AffineBinaryOpExpr::simplifyCeilDiv(AffineExpr *lhs,
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AffineExpr *rhs,
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MLIRContext *context) {
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if (auto *l = dyn_cast<AffineConstantExpr>(lhs))
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if (auto *r = dyn_cast<AffineConstantExpr>(rhs))
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return AffineConstantExpr::get(
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(int64_t)llvm::divideCeil((uint64_t)l->getValue(),
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(uint64_t)r->getValue()),
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context);
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return nullptr;
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// TODO(someone): implement more simplification along the lines described in
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// simplifyMod TODO. For eg: 128*N ceildiv 128 is N.
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}
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AffineExpr *AffineBinaryOpExpr::simplifyMod(AffineExpr *lhs, AffineExpr *rhs,
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MLIRContext *context) {
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if (auto *l = dyn_cast<AffineConstantExpr>(lhs))
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if (auto *r = dyn_cast<AffineConstantExpr>(rhs))
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return AffineConstantExpr::get(l->getValue() % r->getValue(), context);
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return nullptr;
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// TODO(someone): implement more simplification; for eg: 2*x mod 2 is 0; (2*x
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// + 1) mod 2 is 1. In general, this can be simplified by using the GCD test
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// iteratively if the RHS of the mod is a small number, or in general using
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// quantifier elimination (add two new variables q and r, and eliminate all
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// variables from the linear system other than r.
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}
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