name() const override;
/**
- * @copydoc ScalarPolynomialsBase<dim>::clone()
+ * @copydoc ScalarPolynomialsBase::clone()
*/
virtual std::unique_ptr<ScalarPolynomialsBase<dim>>
clone() const override;
n_polynomials(const unsigned int degree);
/**
- * @copydoc TensorPolynomialsBase<dim>::clone()
+ * @copydoc TensorPolynomialsBase::clone()
*/
virtual std::unique_ptr<TensorPolynomialsBase<dim>>
clone() const override;
name() const override;
/**
- * @copydoc ScalarPolynomialsBase<dim>::clone()
+ * @copydoc ScalarPolynomialsBase::clone()
*/
virtual std::unique_ptr<ScalarPolynomialsBase<dim>>
clone() const override;
n_polynomials(const unsigned int degree);
/**
- * @copydoc TensorPolynomialsBase<dim>::clone()
+ * @copydoc TensorPolynomialsBase::clone()
*/
virtual std::unique_ptr<TensorPolynomialsBase<dim>>
clone() const override;
n_polynomials(const unsigned int k);
/**
- * @copydoc TensorPolynomialsBase<dim>::clone()
+ * @copydoc TensorPolynomialsBase::clone()
*/
virtual std::unique_ptr<TensorPolynomialsBase<dim>>
clone() const override;
n_polynomials(const unsigned int degree);
/**
- * @copydoc TensorPolynomialsBase<dim>::clone()
+ * @copydoc TensorPolynomialsBase::clone()
*/
virtual std::unique_ptr<TensorPolynomialsBase<dim>>
clone() const override;
name() const override;
/**
- * @copydoc ScalarPolynomialsBase<dim>::clone()
+ * @copydoc ScalarPolynomialsBase::clone()
*/
virtual std::unique_ptr<ScalarPolynomialsBase<dim>>
clone() const override;
n_polynomials(const unsigned int degree);
/**
- * @copydoc TensorPolynomialsBase<dim>::clone()
+ * @copydoc TensorPolynomialsBase::clone()
*/
virtual std::unique_ptr<TensorPolynomialsBase<dim>>
clone() const override;
n_polynomials(const unsigned int degree);
/**
- * @copydoc TensorPolynomialsBase<dim>::clone()
+ * @copydoc TensorPolynomialsBase::clone()
*/
virtual std::unique_ptr<TensorPolynomialsBase<dim>>
clone() const override;
* Compute the value of the <tt>i</tt>th polynomial at unit point
* <tt>p</tt>.
*
- * Consider using compute() instead.
+ * Consider using evaluate() instead.
*/
virtual double
compute_value(const unsigned int /*i*/, const Point<dim> & /*p*/) const = 0;
* Compute the <tt>order</tt>th derivative of the <tt>i</tt>th polynomial
* at unit point <tt>p</tt>.
*
- * Consider using compute() instead.
+ * Consider using evaluate() instead.
*
* @tparam order The order of the derivative.
*/
* Compute the gradient of the <tt>i</tt>th polynomial at unit point
* <tt>p</tt>.
*
- * Consider using compute() instead.
+ * Consider using evaluate() instead.
*/
virtual Tensor<1, dim>
compute_grad(const unsigned int /*i*/, const Point<dim> & /*p*/) const = 0;
* Compute the second derivative (grad_grad) of the <tt>i</tt>th polynomial
* at unit point <tt>p</tt>.
*
- * Consider using compute() instead.
+ * Consider using evaluate() instead.
*/
virtual Tensor<2, dim>
compute_grad_grad(const unsigned int /*i*/,
name() const override;
/**
- * @copydoc ScalarPolynomialsBase<dim>::clone()
+ * @copydoc ScalarPolynomialsBase::clone()
*/
virtual std::unique_ptr<ScalarPolynomialsBase<dim>>
clone() const override;
name() const override;
/**
- * @copydoc ScalarPolynomialsBase<dim>::clone()
+ * @copydoc ScalarPolynomialsBase::clone()
*/
virtual std::unique_ptr<ScalarPolynomialsBase<dim>>
clone() const override;
name() const override;
/**
- * @copydoc ScalarPolynomialsBase<dim>::clone()
+ * @copydoc ScalarPolynomialsBase::clone()
*/
virtual std::unique_ptr<ScalarPolynomialsBase<dim>>
clone() const override;
name() const override;
/**
- * @copydoc ScalarPolynomialsBase<dim>::clone()
+ * @copydoc ScalarPolynomialsBase::clone()
*/
virtual std::unique_ptr<ScalarPolynomialsBase<dim>>
clone() const override;