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The JUCE cross-platform C++ framework, with DISTRHO/KXStudio specific changes
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JUCE/modules/juce_audio_basics/effects/juce_LagrangeInterpolator.cpp

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  1. /*

  2.   ==============================================================================

  3. 

  4.    This file is part of the JUCE library.

  5.    Copyright (c) 2015 - ROLI Ltd.

  6. 

  7.    Permission is granted to use this software under the terms of either:

  8.    a) the GPL v2 (or any later version)

  9.    b) the Affero GPL v3

  10. 

  11.    Details of these licenses can be found at: www.gnu.org/licenses

  12. 

  13.    JUCE is distributed in the hope that it will be useful, but WITHOUT ANY

  14.    WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR

  15.    A PARTICULAR PURPOSE.  See the GNU General Public License for more details.

  16. 

  17.    ------------------------------------------------------------------------------

  18. 

  19.    To release a closed-source product which uses JUCE, commercial licenses are

  20.    available: visit www.juce.com for more information.

  21. 

  22.   ==============================================================================

  23. */

  24. 

  25. namespace

  26. {

  27.     static forcedinline void pushInterpolationSample (float* lastInputSamples, const float newValue) noexcept

  28.     {

  29.         lastInputSamples[4] = lastInputSamples[3];

  30.         lastInputSamples[3] = lastInputSamples[2];

  31.         lastInputSamples[2] = lastInputSamples[1];

  32.         lastInputSamples[1] = lastInputSamples[0];

  33.         lastInputSamples[0] = newValue;

  34.     }

  35. 

  36.     static forcedinline void pushInterpolationSamples (float* lastInputSamples, const float* input, int numOut) noexcept

  37.     {

  38.         if (numOut >= 5)

  39.         {

  40.             for (int i = 0; i < 5; ++i)

  41.                 lastInputSamples[i] = input[--numOut];

  42.         }

  43.         else

  44.         {

  45.             for (int i = 0; i < numOut; ++i)

  46.                 pushInterpolationSample (lastInputSamples, input[i]);

  47.         }

  48.     }

  49. 

  50.     template <typename InterpolatorType>

  51.     static int interpolate (float* lastInputSamples, double& subSamplePos, const double actualRatio,

  52.                             const float* in, float* out, const int numOut) noexcept

  53.     {

  54.         if (actualRatio == 1.0)

  55.         {

  56.             memcpy (out, in, (size_t) numOut * sizeof (float));

  57.             pushInterpolationSamples (lastInputSamples, in, numOut);

  58.             return numOut;

  59.         }

  60. 

  61.         const float* const originalIn = in;

  62.         double pos = subSamplePos;

  63. 

  64.         if (actualRatio < 1.0)

  65.         {

  66.             for (int i = numOut; --i >= 0;)

  67.             {

  68.                 if (pos >= 1.0)

  69.                 {

  70.                     pushInterpolationSample (lastInputSamples, *in++);

  71.                     pos -= 1.0;

  72.                 }

  73. 

  74.                 *out++ = InterpolatorType::valueAtOffset (lastInputSamples, (float) pos);

  75.                 pos += actualRatio;

  76.             }

  77.         }

  78.         else

  79.         {

  80.             for (int i = numOut; --i >= 0;)

  81.             {

  82.                 while (pos < actualRatio)

  83.                 {

  84.                     pushInterpolationSample (lastInputSamples, *in++);

  85.                     pos += 1.0;

  86.                 }

  87. 

  88.                 pos -= actualRatio;

  89.                 *out++ = InterpolatorType::valueAtOffset (lastInputSamples, jmax (0.0f, 1.0f - (float) pos));

  90.             }

  91.         }

  92. 

  93.         subSamplePos = pos;

  94.         return (int) (in - originalIn);

  95.     }

  96. 

  97.     template <typename InterpolatorType>

  98.     static int interpolateAdding (float* lastInputSamples, double& subSamplePos, const double actualRatio,

  99.                                   const float* in, float* out, const int numOut, const float gain) noexcept

  100.     {

  101.         if (actualRatio == 1.0)

  102.         {

  103.             FloatVectorOperations::addWithMultiply (out, in, gain, numOut);

  104.             pushInterpolationSamples (lastInputSamples, in, numOut);

  105.             return numOut;

  106.         }

  107. 

  108.         const float* const originalIn = in;

  109.         double pos = subSamplePos;

  110. 

  111.         if (actualRatio < 1.0)

  112.         {

  113.             for (int i = numOut; --i >= 0;)

  114.             {

  115.                 if (pos >= 1.0)

  116.                 {

  117.                     pushInterpolationSample (lastInputSamples, *in++);

  118.                     pos -= 1.0;

  119.                 }

  120. 

  121.                 *out++ += gain * InterpolatorType::valueAtOffset (lastInputSamples, (float) pos);

  122.                 pos += actualRatio;

  123.             }

  124.         }

  125.         else

  126.         {

  127.             for (int i = numOut; --i >= 0;)

  128.             {

  129.                 while (pos < actualRatio)

  130.                 {

  131.                     pushInterpolationSample (lastInputSamples, *in++);

  132.                     pos += 1.0;

  133.                 }

  134. 

  135.                 pos -= actualRatio;

  136.                 *out++ += gain * InterpolatorType::valueAtOffset (lastInputSamples, jmax (0.0f, 1.0f - (float) pos));

  137.             }

  138.         }

  139. 

  140.         subSamplePos = pos;

  141.         return (int) (in - originalIn);

  142.     }

  143. }

  144. 

  145. //==============================================================================

  146. template <int k>

  147. struct LagrangeResampleHelper

  148. {

  149.     static forcedinline void calc (float& a, float b) noexcept   { a *= b * (1.0f / k); }

  150. };

  151. 

  152. template<>

  153. struct LagrangeResampleHelper<0>

  154. {

  155.     static forcedinline void calc (float&, float) noexcept {}

  156. };

  157. 

  158. struct LagrangeAlgorithm

  159. {

  160.     static forcedinline float valueAtOffset (const float* const inputs, const float offset) noexcept

  161.     {

  162.         return calcCoefficient<0> (inputs[4], offset)

  163.              + calcCoefficient<1> (inputs[3], offset)

  164.              + calcCoefficient<2> (inputs[2], offset)

  165.              + calcCoefficient<3> (inputs[1], offset)

  166.              + calcCoefficient<4> (inputs[0], offset);

  167.     }

  168. 

  169.     template <int k>

  170.     static forcedinline float calcCoefficient (float input, const float offset) noexcept

  171.     {

  172.         LagrangeResampleHelper<0 - k>::calc (input, -2.0f - offset);

  173.         LagrangeResampleHelper<1 - k>::calc (input, -1.0f - offset);

  174.         LagrangeResampleHelper<2 - k>::calc (input,  0.0f - offset);

  175.         LagrangeResampleHelper<3 - k>::calc (input,  1.0f - offset);

  176.         LagrangeResampleHelper<4 - k>::calc (input,  2.0f - offset);

  177.         return input;

  178.     }

  179. };

  180. 

  181. LagrangeInterpolator::LagrangeInterpolator() noexcept  { reset(); }

  182. LagrangeInterpolator::~LagrangeInterpolator() noexcept {}

  183. 

  184. void LagrangeInterpolator::reset() noexcept

  185. {

  186.     subSamplePos = 1.0;

  187. 

  188.     for (int i = 0; i < numElementsInArray (lastInputSamples); ++i)

  189.         lastInputSamples[i] = 0;

  190. }

  191. 

  192. int LagrangeInterpolator::process (double actualRatio, const float* in, float* out, int numOut) noexcept

  193. {

  194.     return interpolate<LagrangeAlgorithm> (lastInputSamples, subSamplePos, actualRatio, in, out, numOut);

  195. }

  196. 

  197. int LagrangeInterpolator::processAdding (double actualRatio, const float* in, float* out, int numOut, float gain) noexcept

  198. {

  199.     return interpolateAdding<LagrangeAlgorithm> (lastInputSamples, subSamplePos, actualRatio, in, out, numOut, gain);

  200. }