mirror of
https://github.com/UpsilonNumworks/Upsilon.git
synced 2026-01-18 16:27:34 +01:00
182 lines
8.3 KiB
C++
182 lines
8.3 KiB
C++
#include <quiz.h>
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#include <apps/shared/global_context.h>
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#include <poincare/expression.h>
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#include <poincare/include/poincare_nodes.h>
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#include <assert.h>
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#include "helper.h"
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using namespace Poincare;
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// TODO add tests about expression that override simplificationOrderSameType or simplificationOrderGreaterType
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static inline void assert_equal(const Rational i, const Rational j) {
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quiz_assert(Rational::NaturalOrder(i, j) == 0);
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}
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static inline void assert_not_equal(const Rational i, const Rational j) {
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quiz_assert(Rational::NaturalOrder(i, j) != 0);
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}
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static inline void assert_lower(const Rational i, const Rational j) {
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quiz_assert(Rational::NaturalOrder(i, j) < 0);
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}
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static inline void assert_greater(const Rational i, const Rational j) {
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quiz_assert(Rational::NaturalOrder(i, j) > 0);
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}
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QUIZ_CASE(poincare_expression_order_rational) {
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assert_equal(Rational::Builder(123,324), Rational::Builder(41,108));
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assert_not_equal(Rational::Builder(123,234), Rational::Builder(42, 108));
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assert_lower(Rational::Builder(123,234), Rational::Builder(456,567));
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assert_lower(Rational::Builder(-123, 234),Rational::Builder(456, 567));
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assert_greater(Rational::Builder(123, 234),Rational::Builder(-456, 567));
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assert_greater(Rational::Builder(123, 234),Rational::Builder("123456789123456789", "12345678912345678910"));
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}
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void assert_multiplication_or_addition_is_ordered_as(Expression e1, Expression e2) {
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Shared::GlobalContext globalContext;
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if (e1.type() == ExpressionNode::Type::MultiplicationExplicite) {
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static_cast<MultiplicationExplicite&>(e1).sortChildrenInPlace(
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[](const ExpressionNode * e1, const ExpressionNode * e2, bool canBeInterrupted) { return ExpressionNode::SimplificationOrder(e1, e2, true, canBeInterrupted); },
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&globalContext,
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true);
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} else {
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assert(e1.type() == ExpressionNode::Type::Addition);
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static_cast<Addition&>(e1).sortChildrenInPlace(
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[](const ExpressionNode * e1, const ExpressionNode * e2, bool canBeInterrupted) { return ExpressionNode::SimplificationOrder(e1, e2, false, canBeInterrupted); },
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&globalContext,
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true);
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}
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quiz_assert(e1.isIdenticalTo(e2));
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}
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QUIZ_CASE(poincare_expression_order_addition_multiplication) {
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{
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// 2 * 5 -> 2 * 5
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Expression e1 = MultiplicationExplicite::Builder(Rational::Builder(2), Rational::Builder(5));
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assert_multiplication_or_addition_is_ordered_as(e1, e1);
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}
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{
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// 5 * 2 -> 2 * 5
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Expression e1 = MultiplicationExplicite::Builder(Rational::Builder(5), Rational::Builder(2));
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Expression e2 = MultiplicationExplicite::Builder(Rational::Builder(2), Rational::Builder(5));
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assert_multiplication_or_addition_is_ordered_as(e1, e2);
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}
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{
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// 1 + 2 + 0 -> 2 + 1 + 0
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constexpr int numberOfChildren = 3;
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Expression children[numberOfChildren] = {Rational::Builder(1), Rational::Builder(2), Rational::Builder(0)};
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Expression childrenSorted[numberOfChildren] = {Rational::Builder(2), Rational::Builder(1), Rational::Builder(0)};
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Expression e1 = Addition::Builder(children, numberOfChildren);
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Expression e2 = Addition::Builder(childrenSorted, numberOfChildren);
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assert_multiplication_or_addition_is_ordered_as(e1, e2);
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}
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{
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// pi + i + e -> e + pi + i
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Expression pi = Constant::Builder(UCodePointGreekSmallLetterPi);
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Expression i = Constant::Builder(UCodePointMathematicalBoldSmallI);
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Expression e = Constant::Builder(UCodePointScriptSmallE);
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constexpr int numberOfChildren = 3;
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Expression children[numberOfChildren] = {pi.clone(), i.clone(), e.clone()};
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Expression childrenSorted[numberOfChildren] = {e, pi, i};
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Expression e1 = Addition::Builder(children, numberOfChildren);
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Expression e2 = Addition::Builder(childrenSorted, numberOfChildren);
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assert_multiplication_or_addition_is_ordered_as(e1, e2);
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}
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{
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// root(3) $ 2 -> 2 * root(3)
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Expression e1 = MultiplicationExplicite::Builder(SquareRoot::Builder(Rational::Builder(3)), Rational::Builder(2));
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Expression e2 = MultiplicationExplicite::Builder(Rational::Builder(2), SquareRoot::Builder(Rational::Builder(3)));
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assert_multiplication_or_addition_is_ordered_as(e1, e2);
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}
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{
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constexpr int numberOfChildren = 4;
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Expression children[numberOfChildren] = {
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Symbol::Builder('c'),
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Power::Builder(Symbol::Builder('b'), Rational::Builder(2)),
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Power::Builder(Symbol::Builder('a'), Rational::Builder(2)),
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Symbol::Builder('a')
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};
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Expression childrenSorted[numberOfChildren] = {
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Power::Builder(Symbol::Builder('a'), Rational::Builder(2)),
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Symbol::Builder('a'),
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Power::Builder(Symbol::Builder('b'), Rational::Builder(2)),
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Symbol::Builder('c')
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};
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// c + b^2 + a^2 + a -> a^2 + a + b^2 + c
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Expression e1 = Addition::Builder(children, numberOfChildren);
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Expression e2 = Addition::Builder(childrenSorted, numberOfChildren);
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assert_multiplication_or_addition_is_ordered_as(e1, e2);
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}
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{
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// 3*x^2 + 2*x^3 -> 2*x^3 + 3*x^2
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Expression child1 = MultiplicationExplicite::Builder(Rational::Builder(2), Power::Builder(Symbol::Builder('x'), Rational::Builder(3)));
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Expression child2 = MultiplicationExplicite::Builder(Rational::Builder(3), Power::Builder(Symbol::Builder('x'), Rational::Builder(2)));
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Expression e1 = Addition::Builder(child2.clone(), child1.clone());
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Expression e2 = Addition::Builder(child1, child2);
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assert_multiplication_or_addition_is_ordered_as(e1, e2);
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}
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{
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// 2*x + 3*x -> 3*x + 2*x
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Expression child1 = MultiplicationExplicite::Builder(Rational::Builder(3), Symbol::Builder('x'));
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Expression child2 = MultiplicationExplicite::Builder(Rational::Builder(2), Symbol::Builder('x'));
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Expression e1 = Addition::Builder(child2.clone(), child1.clone());
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Expression e2 = Addition::Builder(child1, child2);
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assert_multiplication_or_addition_is_ordered_as(e1, e2);
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}
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{
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// pi^b * pi^a -> pi^a * pi^b
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Expression child1 = Power::Builder(Constant::Builder(UCodePointGreekSmallLetterPi), Symbol::Builder('a'));
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Expression child2 = Power::Builder(Constant::Builder(UCodePointGreekSmallLetterPi), Symbol::Builder('b'));
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Expression e1 = MultiplicationExplicite::Builder(child2.clone(), child1.clone());
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Expression e2 = MultiplicationExplicite::Builder(child1, child2);
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assert_multiplication_or_addition_is_ordered_as(e1, e2);
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}
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{
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// pi^3 * pi^2 -> pi^2 * pi^3
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Expression child1 = Power::Builder(Constant::Builder(UCodePointGreekSmallLetterPi), Rational::Builder(2));
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Expression child2 = Power::Builder(Constant::Builder(UCodePointGreekSmallLetterPi), Rational::Builder(3));
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Expression e1 = MultiplicationExplicite::Builder(child2.clone(), child1.clone());
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Expression e2 = MultiplicationExplicite::Builder(child1, child2);
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assert_multiplication_or_addition_is_ordered_as(e1, e2);
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}
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{
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// 1 + Matrix1 + 2 -> 1 + 2 + Matrix1
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Expression child1 = Rational::Builder(1);
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Expression child2 = Rational::Builder(2);
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Expression childMatrix = Matrix::Builder();
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static_cast<Matrix &>(childMatrix).addChildAtIndexInPlace(Rational::Builder(3), 0, 0);
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Expression e1 = MultiplicationExplicite::Builder(child2.clone(), childMatrix.clone(), child1.clone());
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Expression e2 = MultiplicationExplicite::Builder(child1.clone(), child2.clone(), childMatrix.clone());
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assert_multiplication_or_addition_is_ordered_as(e1, e2);
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}
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{
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// 1 + Matrix1 + Matrix2 + 2 -> 1 + 2 + Matrix1 + Matrix2
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Expression child1 = Rational::Builder(1);
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Expression child2 = Rational::Builder(2);
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Expression childMatrix1 = Matrix::Builder();
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static_cast<Matrix &>(childMatrix1).addChildAtIndexInPlace(Rational::Builder(3), 0, 0);
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Expression childMatrix2 = Matrix::Builder();
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static_cast<Matrix &>(childMatrix2).addChildAtIndexInPlace(Rational::Builder(0), 0, 0);
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constexpr int numberOfChildren = 4;
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Expression children[numberOfChildren] = {
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child2.clone(),
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childMatrix1.clone(),
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childMatrix2.clone(),
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child1.clone()
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};
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Expression childrenSorted[numberOfChildren] = {
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child1.clone(),
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child2.clone(),
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childMatrix1.clone(),
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childMatrix2.clone()
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};
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Expression e1 = MultiplicationExplicite::Builder(children, numberOfChildren);
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Expression e2 = MultiplicationExplicite::Builder(childrenSorted, numberOfChildren);
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assert_multiplication_or_addition_is_ordered_as(e1, e2);
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}
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}
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