mlir/unittests/Analysis/LinearTransformTest.cpp - llvm-project - Git at Google

 //===- LinearTransformTest.cpp - Tests for LinearTransform ----------------===//
 //
 // Part of the LLVM 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
 //
 //===----------------------------------------------------------------------===//

 #include "mlir/Analysis/LinearTransform.h"
 #include <gmock/gmock.h>
 #include <gtest/gtest.h>

 namespace mlir {

 void testColumnEchelonForm(const Matrix &m, unsigned expectedRank) {
   unsigned lastAllowedNonZeroCol = 0;
   std::pair<unsigned, LinearTransform> result =
       LinearTransform::makeTransformToColumnEchelon(m);
   unsigned rank = result.first;
   EXPECT_EQ(rank, expectedRank);
   LinearTransform transform = result.second;
   // In column echelon form, each row's last non-zero value can be at most one
   // column to the right of the last non-zero column among the previous rows.
   for (unsigned row = 0, nRows = m.getNumRows(); row < nRows; ++row) {
     SmallVector<int64_t, 8> rowVec = transform.postMultiplyRow(m.getRow(row));
     for (unsigned col = lastAllowedNonZeroCol + 1, nCols = m.getNumColumns();
          col < nCols; ++col) {
       EXPECT_EQ(rowVec[col], 0);
       if (rowVec[col] != 0) {
         llvm::errs() << "Failed at input matrix:\n";
         m.dump();
       }
     }
     if (rowVec[lastAllowedNonZeroCol] != 0)
       lastAllowedNonZeroCol++;
   }
   // The final value of lastAllowedNonZeroCol is the index of the first
   // all-zeros column, so it must be equal to the rank.
   EXPECT_EQ(lastAllowedNonZeroCol, rank);
 }

 TEST(LinearTransformTest, transformToColumnEchelonTest) {
   // m1, m2, m3 are rank 1 matrices -- the first and second rows are identical.
   Matrix m1(2, 2);
   m1(0, 0) = 4;
   m1(0, 1) = -7;
   m1(1, 0) = 4;
   m1(1, 1) = -7;
   testColumnEchelonForm(m1, 1u);

   Matrix m2(2, 2);
   m2(0, 0) = -4;
   m2(0, 1) = 7;
   m2(1, 0) = 4;
   m2(1, 1) = -7;
   testColumnEchelonForm(m2, 1u);

   Matrix m3(2, 2);
   m3(0, 0) = -4;
   m3(0, 1) = -7;
   m3(1, 0) = -4;
   m3(1, 1) = -7;
   testColumnEchelonForm(m3, 1u);

   // m4, m5, m6 are rank 2 matrices -- the first and second rows are different.
   Matrix m4(2, 2);
   m4(0, 0) = 4;
   m4(0, 1) = -7;
   m4(1, 0) = -4;
   m4(1, 1) = -7;
   testColumnEchelonForm(m4, 2u);

   Matrix m5(2, 2);
   m5(0, 0) = -4;
   m5(0, 1) = 7;
   m5(1, 0) = 4;
   m5(1, 1) = 7;
   testColumnEchelonForm(m5, 2u);

   Matrix m6(2, 2);
   m6(0, 0) = -4;
   m6(0, 1) = -7;
   m6(1, 0) = 4;
   m6(1, 1) = -7;
   testColumnEchelonForm(m5, 2u);
 }
 } // namespace mlir
	//===- LinearTransformTest.cpp - Tests for LinearTransform ----------------===//
	//
	// Part of the LLVM 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
	//
	//===----------------------------------------------------------------------===//

	#include "mlir/Analysis/LinearTransform.h"
	#include <gmock/gmock.h>
	#include <gtest/gtest.h>

	namespace mlir {

	void testColumnEchelonForm(const Matrix &m, unsigned expectedRank) {
	unsigned lastAllowedNonZeroCol = 0;
	std::pair<unsigned, LinearTransform> result =
	LinearTransform::makeTransformToColumnEchelon(m);
	unsigned rank = result.first;
	EXPECT_EQ(rank, expectedRank);
	LinearTransform transform = result.second;
	// In column echelon form, each row's last non-zero value can be at most one
	// column to the right of the last non-zero column among the previous rows.
	for (unsigned row = 0, nRows = m.getNumRows(); row < nRows; ++row) {
	SmallVector<int64_t, 8> rowVec = transform.postMultiplyRow(m.getRow(row));
	for (unsigned col = lastAllowedNonZeroCol + 1, nCols = m.getNumColumns();
	col < nCols; ++col) {
	EXPECT_EQ(rowVec[col], 0);
	if (rowVec[col] != 0) {
	llvm::errs() << "Failed at input matrix:\n";
	m.dump();
	}
	}
	if (rowVec[lastAllowedNonZeroCol] != 0)
	lastAllowedNonZeroCol++;
	}
	// The final value of lastAllowedNonZeroCol is the index of the first
	// all-zeros column, so it must be equal to the rank.
	EXPECT_EQ(lastAllowedNonZeroCol, rank);
	}

	TEST(LinearTransformTest, transformToColumnEchelonTest) {
	// m1, m2, m3 are rank 1 matrices -- the first and second rows are identical.
	Matrix m1(2, 2);
	m1(0, 0) = 4;
	m1(0, 1) = -7;
	m1(1, 0) = 4;
	m1(1, 1) = -7;
	testColumnEchelonForm(m1, 1u);

	Matrix m2(2, 2);
	m2(0, 0) = -4;
	m2(0, 1) = 7;
	m2(1, 0) = 4;
	m2(1, 1) = -7;
	testColumnEchelonForm(m2, 1u);

	Matrix m3(2, 2);
	m3(0, 0) = -4;
	m3(0, 1) = -7;
	m3(1, 0) = -4;
	m3(1, 1) = -7;
	testColumnEchelonForm(m3, 1u);

	// m4, m5, m6 are rank 2 matrices -- the first and second rows are different.
	Matrix m4(2, 2);
	m4(0, 0) = 4;
	m4(0, 1) = -7;
	m4(1, 0) = -4;
	m4(1, 1) = -7;
	testColumnEchelonForm(m4, 2u);

	Matrix m5(2, 2);
	m5(0, 0) = -4;
	m5(0, 1) = 7;
	m5(1, 0) = 4;
	m5(1, 1) = 7;
	testColumnEchelonForm(m5, 2u);

	Matrix m6(2, 2);
	m6(0, 0) = -4;
	m6(0, 1) = -7;
	m6(1, 0) = 4;
	m6(1, 1) = -7;
	testColumnEchelonForm(m5, 2u);
	}
	} // namespace mlir