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著名的密码库Crypto++的文档 C++语言的杰作。程序员必备。

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<h1>RingOfPolynomialsOver&lt; T &gt; Member List</h1>This is the complete list of members for <a class="el" href="class_ring_of_polynomials_over.html">RingOfPolynomialsOver&lt; T &gt;</a>, including all inherited members.<p><table>
  <tr class="memlist"><td><a class="el" href="class_abstract_ring.html#e55c525c1aa75bf898907bd6949e2b64">AbstractRing</a>()</td><td><a class="el" href="class_abstract_ring.html">AbstractRing&lt; PolynomialOver&lt; T &gt; &gt;</a></td><td><code> [inline]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_abstract_ring.html#cc8afd5ce95e32e45d3c30a710bf36dc">AbstractRing</a>(const AbstractRing &amp;source)</td><td><a class="el" href="class_abstract_ring.html">AbstractRing&lt; PolynomialOver&lt; T &gt; &gt;</a></td><td><code> [inline]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_ring_of_polynomials_over.html#f1148b4b76f0503e848651945208ebfb">Accumulate</a>(Element &amp;a, const Element &amp;b) const </td><td><a class="el" href="class_ring_of_polynomials_over.html">RingOfPolynomialsOver&lt; T &gt;</a></td><td><code> [inline, virtual]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_ring_of_polynomials_over.html#3ff8fa662fa5f4f6b850e9dc16958822">Add</a>(const Element &amp;a, const Element &amp;b) const</td><td><a class="el" href="class_ring_of_polynomials_over.html">RingOfPolynomialsOver&lt; T &gt;</a></td><td><code> [inline, virtual]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_ring_of_polynomials_over.html#b80f9ffd1ebb119d125718f31d1ef170">CalculateAlpha</a>(std::vector&lt; CoefficientType &gt; &amp;alpha, const CoefficientType x[], const CoefficientType y[], unsigned int n) const </td><td><a class="el" href="class_ring_of_polynomials_over.html">RingOfPolynomialsOver&lt; T &gt;</a></td><td><code> [inline, protected]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_abstract_ring.html#cbe859e24ea6ee1e22ed2a1261f7f9d0">CascadeExponentiate</a>(const Element &amp;x, const Integer &amp;e1, const Element &amp;y, const Integer &amp;e2) const </td><td><a class="el" href="class_abstract_ring.html">AbstractRing&lt; PolynomialOver&lt; T &gt; &gt;</a></td><td><code> [virtual]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_abstract_group.html#ca3e1ca578003aff2595cc8d73522894">CascadeScalarMultiply</a>(const Element &amp;x, const Integer &amp;e1, const Element &amp;y, const Integer &amp;e2) const </td><td><a class="el" href="class_abstract_group.html">AbstractGroup&lt; PolynomialOver&lt; T &gt; &gt;</a></td><td><code> [virtual]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_ring_of_polynomials_over.html#bba882003d9c053e597f38b09c21ea3d">CoefficientRing</a> typedef</td><td><a class="el" href="class_ring_of_polynomials_over.html">RingOfPolynomialsOver&lt; T &gt;</a></td><td></td></tr>
  <tr class="memlist"><td><a class="el" href="class_ring_of_polynomials_over.html#d481c398f3ffa1af06ffa30d71c68659">CoefficientType</a> typedef</td><td><a class="el" href="class_ring_of_polynomials_over.html">RingOfPolynomialsOver&lt; T &gt;</a></td><td></td></tr>
  <tr class="memlist"><td><a class="el" href="class_ring_of_polynomials_over.html#689e7df1b7183b782d8c78dba07760b7">Divide</a>(const Element &amp;a, const Element &amp;b) const</td><td><a class="el" href="class_ring_of_polynomials_over.html">RingOfPolynomialsOver&lt; T &gt;</a></td><td><code> [inline, virtual]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_ring_of_polynomials_over.html#333d8b90b9f7e5ca48056384136af1ca">DivisionAlgorithm</a>(Element &amp;r, Element &amp;q, const Element &amp;a, const Element &amp;d) const</td><td><a class="el" href="class_ring_of_polynomials_over.html">RingOfPolynomialsOver&lt; T &gt;</a></td><td><code> [inline]</code></td></tr>
  <tr bgcolor="#f0f0f0"><td><b>DivisionAlgorithm</b>(Element &amp;r, Element &amp;q, const Element &amp;a, const Element &amp;d) const=0 (defined in <a class="el" href="class_abstract_euclidean_domain.html">AbstractEuclideanDomain&lt; PolynomialOver&lt; T &gt; &gt;</a>)</td><td><a class="el" href="class_abstract_euclidean_domain.html">AbstractEuclideanDomain&lt; PolynomialOver&lt; T &gt; &gt;</a></td><td><code> [pure virtual]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_ring_of_polynomials_over.html#de86f9cd3a1dcb9dc7fd5d86fe923256">Double</a>(const Element &amp;a) const </td><td><a class="el" href="class_ring_of_polynomials_over.html">RingOfPolynomialsOver&lt; T &gt;</a></td><td><code> [inline, virtual]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_ring_of_polynomials_over.html#5a9d435f7f8d004e1da6d46f16717704">Element</a> typedef</td><td><a class="el" href="class_ring_of_polynomials_over.html">RingOfPolynomialsOver&lt; T &gt;</a></td><td></td></tr>
  <tr class="memlist"><td><a class="el" href="class_ring_of_polynomials_over.html#9874b8b2aaee21b9c4f75a9372151489">Equal</a>(const Element &amp;a, const Element &amp;b) const</td><td><a class="el" href="class_ring_of_polynomials_over.html">RingOfPolynomialsOver&lt; T &gt;</a></td><td><code> [inline, virtual]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_abstract_ring.html#0f011366054a4edb80be92f968083538">Exponentiate</a>(const Element &amp;a, const Integer &amp;e) const</td><td><a class="el" href="class_abstract_ring.html">AbstractRing&lt; PolynomialOver&lt; T &gt; &gt;</a></td><td><code> [virtual]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_abstract_euclidean_domain.html#2044146d4eb49414e1f4f880a9858161">Gcd</a>(const Element &amp;a, const Element &amp;b) const</td><td><a class="el" href="class_abstract_euclidean_domain.html">AbstractEuclideanDomain&lt; PolynomialOver&lt; T &gt; &gt;</a></td><td><code> [virtual]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_ring_of_polynomials_over.html#458ef6812fccb23fa063d9a15d27a67b">Identity</a>() const</td><td><a class="el" href="class_ring_of_polynomials_over.html">RingOfPolynomialsOver&lt; T &gt;</a></td><td><code> [inline, virtual]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_ring_of_polynomials_over.html#5f36bbd09c0b766a2dd794b63028adf6">Interpolate</a>(const CoefficientType x[], const CoefficientType y[], unsigned int n) const </td><td><a class="el" href="class_ring_of_polynomials_over.html">RingOfPolynomialsOver&lt; T &gt;</a></td><td><code> [inline]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_ring_of_polynomials_over.html#3f5e10426b55fffebbc5b1f9b6646b45">InterpolateAt</a>(const CoefficientType &amp;position, const CoefficientType x[], const CoefficientType y[], unsigned int n) const </td><td><a class="el" href="class_ring_of_polynomials_over.html">RingOfPolynomialsOver&lt; T &gt;</a></td><td><code> [inline]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_ring_of_polynomials_over.html#4b98576e97a5dbf0404957e0c083021e">Inverse</a>(const Element &amp;a) const </td><td><a class="el" href="class_ring_of_polynomials_over.html">RingOfPolynomialsOver&lt; T &gt;</a></td><td><code> [inline, virtual]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_abstract_group.html#257836994abefe25b80293f4c6b10f60">InversionIsFast</a>() const</td><td><a class="el" href="class_abstract_group.html">AbstractGroup&lt; PolynomialOver&lt; T &gt; &gt;</a></td><td><code> [inline, virtual]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_ring_of_polynomials_over.html#0bb85350da70c11bec5c0c4b2d51b960">IsUnit</a>(const Element &amp;a) const </td><td><a class="el" href="class_ring_of_polynomials_over.html">RingOfPolynomialsOver&lt; T &gt;</a></td><td><code> [inline, virtual]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_ring_of_polynomials_over.html#18dc9d8b05fbd86b93845c8710c59d74">m_ring</a></td><td><a class="el" href="class_ring_of_polynomials_over.html">RingOfPolynomialsOver&lt; T &gt;</a></td><td><code> [protected]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_ring_of_polynomials_over.html#8178e2835b054e1a2b57fa54568a552e">Mod</a>(const Element &amp;a, const Element &amp;b) const</td><td><a class="el" href="class_ring_of_polynomials_over.html">RingOfPolynomialsOver&lt; T &gt;</a></td><td><code> [inline]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_abstract_euclidean_domain.html#aeaae5226cf710c9a8c583f5fc1d17b6">AbstractEuclideanDomain&lt; PolynomialOver&lt; T &gt; &gt;::Mod</a>(const Element &amp;a, const Element &amp;b) const=0</td><td><a class="el" href="class_abstract_euclidean_domain.html">AbstractEuclideanDomain&lt; PolynomialOver&lt; T &gt; &gt;</a></td><td><code> [pure virtual]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_abstract_ring.html#e19ef788f5ce5192e5867666ef38717f">MultiplicativeGroup</a>() const</td><td><a class="el" href="class_abstract_ring.html">AbstractRing&lt; PolynomialOver&lt; T &gt; &gt;</a></td><td><code> [inline, virtual]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_ring_of_polynomials_over.html#b9713800e8ff192ab7f4c232b44cf31c">MultiplicativeIdentity</a>() const</td><td><a class="el" href="class_ring_of_polynomials_over.html">RingOfPolynomialsOver&lt; T &gt;</a></td><td><code> [inline, virtual]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_ring_of_polynomials_over.html#0e72c2b40df4572b2438a2622423806f">MultiplicativeInverse</a>(const Element &amp;a) const </td><td><a class="el" href="class_ring_of_polynomials_over.html">RingOfPolynomialsOver&lt; T &gt;</a></td><td><code> [inline, virtual]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_ring_of_polynomials_over.html#37731e8b8eecc4dac0b782443387dc95">Multiply</a>(const Element &amp;a, const Element &amp;b) const</td><td><a class="el" href="class_ring_of_polynomials_over.html">RingOfPolynomialsOver&lt; T &gt;</a></td><td><code> [inline, virtual]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_abstract_ring.html#26709c02c869d09d756653ae1129f8a9">operator=</a>(const AbstractRing &amp;source)</td><td><a class="el" href="class_abstract_ring.html">AbstractRing&lt; PolynomialOver&lt; T &gt; &gt;</a></td><td><code> [inline]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_ring_of_polynomials_over.html#e91186ec32cf80f2ae1b180e21563edf">RandomElement</a>(RandomNumberGenerator &amp;rng, const RandomizationParameter &amp;parameter)</td><td><a class="el" href="class_ring_of_polynomials_over.html">RingOfPolynomialsOver&lt; T &gt;</a></td><td><code> [inline]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_ring_of_polynomials_over.html#ec9d3bc0294c0289fa654eca1d44b157">RandomizationParameter</a> typedef</td><td><a class="el" href="class_ring_of_polynomials_over.html">RingOfPolynomialsOver&lt; T &gt;</a></td><td></td></tr>
  <tr class="memlist"><td><a class="el" href="class_ring_of_polynomials_over.html#44dfb84f8f5de3fcfb821cd1f919ddff">Reduce</a>(Element &amp;a, const Element &amp;b) const </td><td><a class="el" href="class_ring_of_polynomials_over.html">RingOfPolynomialsOver&lt; T &gt;</a></td><td><code> [inline, virtual]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_abstract_euclidean_domain.html#f1314f064e73c560b3d31982c4e26404">result</a></td><td><a class="el" href="class_abstract_euclidean_domain.html">AbstractEuclideanDomain&lt; PolynomialOver&lt; T &gt; &gt;</a></td><td><code> [mutable, protected]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_ring_of_polynomials_over.html#b8698eb9f89d728c0986eea4d4810728">RingOfPolynomialsOver</a>(const CoefficientRing &amp;ring)</td><td><a class="el" href="class_ring_of_polynomials_over.html">RingOfPolynomialsOver&lt; T &gt;</a></td><td><code> [inline]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_abstract_group.html#c01536b91c4fa3d0e0f929917143595b">ScalarMultiply</a>(const Element &amp;a, const Integer &amp;e) const</td><td><a class="el" href="class_abstract_group.html">AbstractGroup&lt; PolynomialOver&lt; T &gt; &gt;</a></td><td><code> [virtual]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_abstract_ring.html#56b1047d5e1c57d9b3c52e20af464cfe">SimultaneousExponentiate</a>(Element *results, const Element &amp;base, const Integer *exponents, unsigned int exponentsCount) const </td><td><a class="el" href="class_abstract_ring.html">AbstractRing&lt; PolynomialOver&lt; T &gt; &gt;</a></td><td><code> [virtual]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_abstract_group.html#00a5cd4b22aab947ec107ec93ad13122">SimultaneousMultiply</a>(Element *results, const Element &amp;base, const Integer *exponents, unsigned int exponentsCount) const </td><td><a class="el" href="class_abstract_group.html">AbstractGroup&lt; PolynomialOver&lt; T &gt; &gt;</a></td><td><code> [virtual]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_ring_of_polynomials_over.html#e7a8517cfb593d4b1bdffe3c1c2e2ab9">Square</a>(const Element &amp;a) const </td><td><a class="el" href="class_ring_of_polynomials_over.html">RingOfPolynomialsOver&lt; T &gt;</a></td><td><code> [inline, virtual]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_ring_of_polynomials_over.html#cf0bf71815e9b6d1a9caac9654a5c227">Subtract</a>(const Element &amp;a, const Element &amp;b) const</td><td><a class="el" href="class_ring_of_polynomials_over.html">RingOfPolynomialsOver&lt; T &gt;</a></td><td><code> [inline, virtual]</code></td></tr>
  <tr class="memlist"><td><a class="el" href="class_abstract_group.html#15ec43995b991cdb5bb6d82f8b498cfd">~AbstractGroup</a>()</td><td><a class="el" href="class_abstract_group.html">AbstractGroup&lt; PolynomialOver&lt; T &gt; &gt;</a></td><td><code> [inline, virtual]</code></td></tr>
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