blob: 1d8142b984290c514873bf9ee58092f62b79e6ca [file] [log] [blame]
//===- Matrix.cpp - MLIR Matrix Class -------------------------------------===//
//
// 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/Presburger/Matrix.h"
#include "llvm/Support/MathExtras.h"
namespace mlir {
Matrix::Matrix(unsigned rows, unsigned columns, unsigned reservedRows,
unsigned reservedColumns)
: nRows(rows), nColumns(columns),
nReservedColumns(std::max(nColumns, reservedColumns)),
data(nRows * nReservedColumns) {
data.reserve(std::max(nRows, reservedRows) * nReservedColumns);
}
Matrix Matrix::identity(unsigned dimension) {
Matrix matrix(dimension, dimension);
for (unsigned i = 0; i < dimension; ++i)
matrix(i, i) = 1;
return matrix;
}
int64_t &Matrix::at(unsigned row, unsigned column) {
assert(row < nRows && "Row outside of range");
assert(column < nColumns && "Column outside of range");
return data[row * nReservedColumns + column];
}
int64_t Matrix::at(unsigned row, unsigned column) const {
assert(row < nRows && "Row outside of range");
assert(column < nColumns && "Column outside of range");
return data[row * nReservedColumns + column];
}
int64_t &Matrix::operator()(unsigned row, unsigned column) {
return at(row, column);
}
int64_t Matrix::operator()(unsigned row, unsigned column) const {
return at(row, column);
}
unsigned Matrix::getNumRows() const { return nRows; }
unsigned Matrix::getNumColumns() const { return nColumns; }
unsigned Matrix::getNumReservedColumns() const { return nReservedColumns; }
unsigned Matrix::getNumReservedRows() const {
return data.capacity() / nReservedColumns;
}
void Matrix::reserveRows(unsigned rows) {
data.reserve(rows * nReservedColumns);
}
unsigned Matrix::appendExtraRow() {
resizeVertically(nRows + 1);
return nRows - 1;
}
void Matrix::resizeHorizontally(unsigned newNColumns) {
if (newNColumns < nColumns)
removeColumns(newNColumns, nColumns - newNColumns);
if (newNColumns > nColumns)
insertColumns(nColumns, newNColumns - nColumns);
}
void Matrix::resize(unsigned newNRows, unsigned newNColumns) {
resizeHorizontally(newNColumns);
resizeVertically(newNRows);
}
void Matrix::resizeVertically(unsigned newNRows) {
nRows = newNRows;
data.resize(nRows * nReservedColumns);
}
void Matrix::swapRows(unsigned row, unsigned otherRow) {
assert((row < getNumRows() && otherRow < getNumRows()) &&
"Given row out of bounds");
if (row == otherRow)
return;
for (unsigned col = 0; col < nColumns; col++)
std::swap(at(row, col), at(otherRow, col));
}
void Matrix::swapColumns(unsigned column, unsigned otherColumn) {
assert((column < getNumColumns() && otherColumn < getNumColumns()) &&
"Given column out of bounds");
if (column == otherColumn)
return;
for (unsigned row = 0; row < nRows; row++)
std::swap(at(row, column), at(row, otherColumn));
}
ArrayRef<int64_t> Matrix::getRow(unsigned row) const {
return {&data[row * nReservedColumns], nColumns};
}
void Matrix::insertColumn(unsigned pos) { insertColumns(pos, 1); }
void Matrix::insertColumns(unsigned pos, unsigned count) {
if (count == 0)
return;
assert(pos <= nColumns);
unsigned oldNReservedColumns = nReservedColumns;
if (nColumns + count > nReservedColumns) {
nReservedColumns = llvm::NextPowerOf2(nColumns + count);
data.resize(nRows * nReservedColumns);
}
nColumns += count;
for (int ri = nRows - 1; ri >= 0; --ri) {
for (int ci = nReservedColumns - 1; ci >= 0; --ci) {
unsigned r = ri;
unsigned c = ci;
int64_t &dest = data[r * nReservedColumns + c];
if (c >= nColumns)
dest = 0;
else if (c >= pos + count)
dest = data[r * oldNReservedColumns + c - count];
else if (c >= pos)
dest = 0;
else
dest = data[r * oldNReservedColumns + c];
}
}
}
void Matrix::removeColumn(unsigned pos) { removeColumns(pos, 1); }
void Matrix::removeColumns(unsigned pos, unsigned count) {
if (count == 0)
return;
assert(pos + count - 1 < nColumns);
for (unsigned r = 0; r < nRows; ++r) {
for (unsigned c = pos; c < nColumns - count; ++c)
at(r, c) = at(r, c + count);
for (unsigned c = nColumns - count; c < nColumns; ++c)
at(r, c) = 0;
}
nColumns -= count;
}
void Matrix::insertRow(unsigned pos) { insertRows(pos, 1); }
void Matrix::insertRows(unsigned pos, unsigned count) {
if (count == 0)
return;
assert(pos <= nRows);
resizeVertically(nRows + count);
for (int r = nRows - 1; r >= int(pos + count); --r)
copyRow(r - count, r);
for (int r = pos + count - 1; r >= int(pos); --r)
for (unsigned c = 0; c < nColumns; ++c)
at(r, c) = 0;
}
void Matrix::removeRow(unsigned pos) { removeRows(pos, 1); }
void Matrix::removeRows(unsigned pos, unsigned count) {
if (count == 0)
return;
assert(pos + count - 1 <= nRows);
for (unsigned r = pos; r + count < nRows; ++r)
copyRow(r + count, r);
resizeVertically(nRows - count);
}
void Matrix::copyRow(unsigned sourceRow, unsigned targetRow) {
if (sourceRow == targetRow)
return;
for (unsigned c = 0; c < nColumns; ++c)
at(targetRow, c) = at(sourceRow, c);
}
void Matrix::addToRow(unsigned sourceRow, unsigned targetRow, int64_t scale) {
if (scale == 0)
return;
for (unsigned col = 0; col < nColumns; ++col)
at(targetRow, col) += scale * at(sourceRow, col);
}
void Matrix::addToColumn(unsigned sourceColumn, unsigned targetColumn,
int64_t scale) {
if (scale == 0)
return;
for (unsigned row = 0, e = getNumRows(); row < e; ++row)
at(row, targetColumn) += scale * at(row, sourceColumn);
}
void Matrix::negateColumn(unsigned column) {
for (unsigned row = 0, e = getNumRows(); row < e; ++row)
at(row, column) = -at(row, column);
}
void Matrix::print(raw_ostream &os) const {
for (unsigned row = 0; row < nRows; ++row) {
for (unsigned column = 0; column < nColumns; ++column)
os << at(row, column) << ' ';
os << '\n';
}
}
void Matrix::dump() const { print(llvm::errs()); }
bool Matrix::hasConsistentState() const {
if (data.size() != nRows * nReservedColumns)
return false;
if (nColumns > nReservedColumns)
return false;
for (unsigned r = 0; r < nRows; ++r)
for (unsigned c = nColumns; c < nReservedColumns; ++c)
if (data[r * nReservedColumns + c] != 0)
return false;
return true;
}
} // namespace mlir