[Mlir-commits] [mlir] [MLIR][Presburger] Implement function to evaluate the number of terms in a generating function. (PR #78078)
llvmlistbot at llvm.org
llvmlistbot at llvm.org
Wed Jan 17 01:10:26 PST 2024
================
@@ -245,3 +245,254 @@ QuasiPolynomial mlir::presburger::detail::getCoefficientInRationalFunction(
}
return coefficients[power].simplify();
}
+
+static std::vector<Fraction> convolution(std::vector<Fraction> a,
+ std::vector<Fraction> b) {
+ // The length of the convolution is the maximum of the lengths
+ // of the two sequences. We pad the shorter one with zeroes.
+ unsigned len = a.size() + b.size();
+ a.resize(len);
+ b.resize(len);
+
+ std::vector<Fraction> convolution;
+ convolution.reserve(len);
+ for (unsigned k = 0; k < len; ++k) {
+ Fraction sum(0, 1);
+ for (unsigned l = 0; l <= k; ++l)
+ sum += a[l] * b[k - l];
+ convolution.push_back(sum);
+ }
+ return convolution;
+}
+
+/// Substitute x_i = (s+1)^μ_i in one term of a generating function,
+/// returning
+/// a quasipolynomial which represents the exponent of the numerator
+/// of the result, and
+/// a vector which represents the exponents of the denominator of the
+/// result.
+/// v represents the affine functions whose floors are multiplied by
+/// by the generators, and
+/// ds represents the list of generators.
+std::pair<QuasiPolynomial, std::vector<Fraction>>
+substituteMuInTerm(unsigned numParams, ParamPoint v, std::vector<Point> ds,
+ Point mu) {
+ unsigned numDims = mu.size();
+ // First, the exponent in the numerator becomes
+ // - (μ • u_1) * (floor(first col of v))
+ // - (μ • u_2) * (floor(second col of v)) - ...
+ // - (μ • u_d) * (floor(d'th col of v))
+ // So we store the negation of the dot products.
+
+ // We have d terms, each of whose coefficient is the negative dot product,
+ SmallVector<Fraction> coefficients;
+ coefficients.reserve(numDims);
+ for (const Point &d : ds)
+ coefficients.push_back(-dotProduct(mu, d));
+
+ // Then, the affine function is a single floor expression, given by the
+ // corresponding column of v.
+ ParamPoint vTranspose = v.transpose();
+ std::vector<std::vector<SmallVector<Fraction>>> affine;
+ affine.reserve(numDims);
+ for (unsigned j = 0; j < numDims; ++j)
+ affine.push_back({SmallVector<Fraction>(vTranspose.getRow(j))});
+
+ QuasiPolynomial num(numParams, coefficients, affine);
+ num = num.simplify();
+
+ std::vector<Fraction> dens;
+ dens.reserve(ds.size());
+ // Similarly, each term in the denominator has exponent
+ // given by the dot product of μ with u_i.
+ for (const Point &d : ds) {
+ // This term in the denominator is
+ // (1 - (s+1)^dens.back())
+ dens.push_back(dotProduct(d, mu));
+ }
+
+ return {num, dens};
+}
+
+/// Normalize all denominator exponents `dens` to their absolute values
+/// by multiplying and dividing by the inverses.
+/// Also, take the factors (-s) out of each term of the product.
+void normalizeDenominatorExponents(int &sign, QuasiPolynomial &num,
+ std::vector<Fraction> &dens) {
----------------
Abhinav271828 wrote:
There's no conversion between std::vector and MutableArrayRef
https://github.com/llvm/llvm-project/pull/78078
More information about the Mlir-commits
mailing list