mirror of
https://github.com/clementine-player/Clementine
synced 2024-12-25 17:12:35 +01:00
577 lines
15 KiB
C++
577 lines
15 KiB
C++
#include "PresetFrameIO.hpp"
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#include "wipemalloc.h"
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#include <math.h>
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#include <cassert>
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#include <iostream>
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#include <cmath>
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#include "Renderer/BeatDetect.hpp"
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PresetInputs::PresetInputs() : PipelineContext()
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{
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}
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void PresetInputs::update(const BeatDetect & music, const PipelineContext & context) {
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// Reflect new values form the beat detection unit
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this->bass = music.bass;
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this->mid = music.mid;
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this->treb = music.treb;
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this->bass_att = music.bass_att;
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this->mid_att = music.mid_att;
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this->treb_att = music.treb_att;
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// Reflect new values from the pipeline context
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this->fps = context.fps;
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this->time = context.time;
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this->frame = context.frame;
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this->progress = context.progress;
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}
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void PresetInputs::Initialize ( int gx, int gy )
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{
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int x, y;
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this->gx =gx;
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this->gy= gy;
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/// @bug no clue if this block belongs here
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// ***
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progress = 0;
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frame = 1;
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x_per_pixel = 0;
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y_per_pixel = 0;
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rad_per_pixel = 0;
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ang_per_pixel = 0;
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// ***
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this->x_mesh= ( float ** ) wipemalloc ( gx * sizeof ( float * ) );
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for ( x = 0; x < gx; x++ )
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{
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this->x_mesh[x] = ( float * ) wipemalloc ( gy * sizeof ( float ) );
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}
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this->y_mesh= ( float ** ) wipemalloc ( gx * sizeof ( float * ) );
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for ( x = 0; x <gx; x++ )
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{
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this->y_mesh[x] = ( float * ) wipemalloc ( gy * sizeof ( float ) );
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}
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this->rad_mesh= ( float ** ) wipemalloc ( gx * sizeof ( float * ) );
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for ( x = 0; x < gx; x++ )
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{
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this->rad_mesh[x] = ( float * ) wipemalloc ( gy * sizeof ( float ) );
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}
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this->theta_mesh= ( float ** ) wipemalloc ( gx * sizeof ( float * ) );
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for ( x = 0; x <gx; x++ )
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{
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this->theta_mesh[x] = ( float * ) wipemalloc ( gy * sizeof ( float ) );
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}
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this->origtheta= ( float ** ) wipemalloc ( gx * sizeof ( float * ) );
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for ( x = 0; x < gx; x++ )
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{
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this->origtheta[x] = ( float * ) wipemalloc ( gy * sizeof ( float ) );
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}
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this->origrad= ( float ** ) wipemalloc ( gx * sizeof ( float * ) );
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for ( x = 0; x < gx; x++ )
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{
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this->origrad[x] = ( float * ) wipemalloc ( gy * sizeof ( float ) );
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}
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this->origx= ( float ** ) wipemalloc ( gx * sizeof ( float * ) );
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for ( x = 0; x < gx; x++ )
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{
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this->origx[x] = ( float * ) wipemalloc ( gy * sizeof ( float ) );
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}
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this->origy= ( float ** ) wipemalloc ( gx * sizeof ( float * ) );
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for ( x = 0; x < gx; x++ )
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{
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this->origy[x] = ( float * ) wipemalloc ( gy * sizeof ( float ) );
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}
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for ( x=0;x<gx;x++ )
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{
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for ( y=0;y<gy;y++ )
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{
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this->origx[x][y]=x/ ( float ) ( gx-1 );
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this->origy[x][y]=- ( ( y/ ( float ) ( gy-1 ) )-1 );
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this->origrad[x][y]=hypot ( ( this->origx[x][y]-.5 ) *2, ( this->origy[x][y]-.5 ) *2 ) * .7071067;
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this->origtheta[x][y]=atan2 ( ( ( this->origy[x][y]-.5 ) *2 ), ( ( this->origx[x][y]-.5 ) *2 ) );
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}
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}
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}
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PresetOutputs::PresetOutputs() : Pipeline()
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{}
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PresetOutputs::~PresetOutputs()
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{
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assert(this->gx > 0);
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for ( int x = 0; x < this->gx; x++ )
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{
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free(this->sx_mesh[x]);
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free(this->sy_mesh[x]);
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free(this->dy_mesh[x]);
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free(this->dx_mesh[x]);
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free(this->cy_mesh[x]);
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free(this->cx_mesh[x]);
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free(this->warp_mesh[x]);
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free(this->zoom_mesh[x]);
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free(this->zoomexp_mesh[x]);
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free(this->rot_mesh[x]);
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free(this->orig_x[x]);
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free(this->orig_y[x]);
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free(this->rad_mesh[x]);
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}
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free(this->rad_mesh);
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free(this->sx_mesh);
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free(this->sy_mesh);
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free(this->dy_mesh);
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free(this->dx_mesh);
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free(this->cy_mesh);
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free(this->cx_mesh);
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free(this->warp_mesh);
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free(this->zoom_mesh);
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free(this->zoomexp_mesh);
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free(this->rot_mesh);
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free(this->orig_x);
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free(this->orig_y);
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}
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void PresetOutputs::Render(const BeatDetect &music, const PipelineContext &context)
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{
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PerPixelMath(context);
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drawables.clear();
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drawables.push_back(&mv);
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for (PresetOutputs::cshape_container::iterator pos = customShapes.begin();
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pos != customShapes.end(); ++pos)
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{
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if( (*pos)->enabled==1) drawables.push_back((*pos));
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}
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for (PresetOutputs::cwave_container::iterator pos = customWaves.begin();
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pos != customWaves.end(); ++pos)
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{
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if( (*pos)->enabled==1) drawables.push_back((*pos));
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}
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drawables.push_back(&wave);
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if(bDarkenCenter==1) drawables.push_back(&darkenCenter);
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drawables.push_back(&border);
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compositeDrawables.clear();
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compositeDrawables.push_back(&videoEcho);
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if (bBrighten==1)
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compositeDrawables.push_back(&brighten);
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if (bDarken==1)
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compositeDrawables.push_back(&darken);
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if (bSolarize==1)
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compositeDrawables.push_back(&solarize);
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if (bInvert==1)
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compositeDrawables.push_back(&invert);
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}
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void PresetOutputs::PerPixelMath(const PipelineContext &context)
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{
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int x, y;
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float fZoom2, fZoom2Inv;
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for (x = 0; x < gx; x++)
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{
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for (y = 0; y < gy; y++)
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{
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fZoom2 = std::pow(this->zoom_mesh[x][y], std::pow(this->zoomexp_mesh[x][y],
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rad_mesh[x][y] * 2.0f - 1.0f));
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fZoom2Inv = 1.0f / fZoom2;
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this->x_mesh[x][y] = this->orig_x[x][y] * 0.5f * fZoom2Inv + 0.5f;
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this->y_mesh[x][y] = this->orig_y[x][y] * 0.5f * fZoom2Inv + 0.5f;
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}
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}
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for (x = 0; x < gx; x++)
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{
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for (y = 0; y < gy; y++)
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{
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this->x_mesh[x][y] = (this->x_mesh[x][y] - this->cx_mesh[x][y])
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/ this->sx_mesh[x][y] + this->cx_mesh[x][y];
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}
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}
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for (x = 0; x < gx; x++)
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{
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for (y = 0; y < gy; y++)
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{
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this->y_mesh[x][y] = (this->y_mesh[x][y] - this->cy_mesh[x][y])
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/ this->sy_mesh[x][y] + this->cy_mesh[x][y];
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}
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}
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float fWarpTime = context.time * this->fWarpAnimSpeed;
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float fWarpScaleInv = 1.0f / this->fWarpScale;
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float f[4];
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f[0] = 11.68f + 4.0f * cosf(fWarpTime * 1.413f + 10);
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f[1] = 8.77f + 3.0f * cosf(fWarpTime * 1.113f + 7);
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f[2] = 10.54f + 3.0f * cosf(fWarpTime * 1.233f + 3);
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f[3] = 11.49f + 4.0f * cosf(fWarpTime * 0.933f + 5);
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for (x = 0; x < gx; x++)
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{
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for (y = 0; y < gy; y++)
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{
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this->x_mesh[x][y] += this->warp_mesh[x][y] * 0.0035f * sinf(fWarpTime * 0.333f
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+ fWarpScaleInv * (this->orig_x[x][y] * f[0] - this->orig_y[x][y] * f[3]));
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this->y_mesh[x][y] += this->warp_mesh[x][y] * 0.0035f * cosf(fWarpTime * 0.375f
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- fWarpScaleInv * (this->orig_x[x][y] * f[2] + this->orig_y[x][y] * f[1]));
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this->x_mesh[x][y] += this->warp_mesh[x][y] * 0.0035f * cosf(fWarpTime * 0.753f
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- fWarpScaleInv * (this->orig_x[x][y] * f[1] - this->orig_y[x][y] * f[2]));
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this->y_mesh[x][y] += this->warp_mesh[x][y] * 0.0035f * sinf(fWarpTime * 0.825f
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+ fWarpScaleInv * (this->orig_x[x][y] * f[0] + this->orig_y[x][y] * f[3]));
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}
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}
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for (x = 0; x < gx; x++)
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{
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for (y = 0; y < gy; y++)
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{
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float u2 = this->x_mesh[x][y] - this->cx_mesh[x][y];
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float v2 = this->y_mesh[x][y] - this->cy_mesh[x][y];
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float cos_rot = cosf(this->rot_mesh[x][y]);
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float sin_rot = sinf(this->rot_mesh[x][y]);
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this->x_mesh[x][y] = u2 * cos_rot - v2 * sin_rot + this->cx_mesh[x][y];
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this->y_mesh[x][y] = u2 * sin_rot + v2 * cos_rot + this->cy_mesh[x][y];
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}
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}
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for (x = 0; x < gx; x++)
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for (y = 0; y < gy; y++)
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this->x_mesh[x][y] -= this->dx_mesh[x][y];
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for (x = 0; x < gx; x++)
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for (y = 0; y < gy; y++)
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this->y_mesh[x][y] -= this->dy_mesh[x][y];
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}
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void PresetOutputs::Initialize ( int gx, int gy )
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{
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assert(gx > 0);
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this->gx = gx;
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this->gy= gy;
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staticPerPixel = true;
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setStaticPerPixel(gx,gy);
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assert(this->gx > 0);
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int x;
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this->x_mesh= ( float ** ) wipemalloc ( gx * sizeof ( float * ) );
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for ( x = 0; x < gx; x++ )
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{
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this->x_mesh[x] = ( float * ) wipemalloc ( gy * sizeof ( float ) );
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}
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this->y_mesh= ( float ** ) wipemalloc ( gx * sizeof ( float * ) );
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for ( x = 0; x < gx; x++ )
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{
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this->y_mesh[x] = ( float * ) wipemalloc ( gy * sizeof ( float ) );
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}
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this->sx_mesh= ( float ** ) wipemalloc ( gx * sizeof ( float * ) );
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for ( x = 0; x < gx; x++ )
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{
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this->sx_mesh[x] = ( float * ) wipemalloc ( gy * sizeof ( float ) );
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}
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this->sy_mesh= ( float ** ) wipemalloc ( gx * sizeof ( float * ) );
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for ( x = 0; x < gx; x++ )
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{
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this->sy_mesh[x] = ( float * ) wipemalloc ( gy * sizeof ( float ) );
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}
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this->dx_mesh= ( float ** ) wipemalloc ( gx * sizeof ( float * ) );
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for ( x = 0; x < gx; x++ )
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{
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this->dx_mesh[x] = ( float * ) wipemalloc ( gy * sizeof ( float ) );
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}
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this->dy_mesh= ( float ** ) wipemalloc ( gx * sizeof ( float * ) );
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for ( x = 0; x < gx; x++ )
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{
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this->dy_mesh[x] = ( float * ) wipemalloc ( gy * sizeof ( float ) );
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}
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this->cx_mesh= ( float ** ) wipemalloc ( gx * sizeof ( float * ) );
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for ( x = 0; x < gx; x++ )
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{
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this->cx_mesh[x] = ( float * ) wipemalloc ( gy * sizeof ( float ) );
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}
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this->cy_mesh= ( float ** ) wipemalloc ( gx * sizeof ( float * ) );
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for ( x = 0; x < gx; x++ )
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{
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this->cy_mesh[x] = ( float * ) wipemalloc ( gy * sizeof ( float ) );
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}
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this->zoom_mesh= ( float ** ) wipemalloc ( gx * sizeof ( float * ) );
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for ( x = 0; x < gx; x++ )
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{
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this->zoom_mesh[x] = ( float * ) wipemalloc ( gy * sizeof ( float ) );
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}
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this->zoomexp_mesh= ( float ** ) wipemalloc ( gx * sizeof ( float * ) );
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for ( x = 0; x < gx; x++ )
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{
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this->zoomexp_mesh[x] = ( float * ) wipemalloc ( gy * sizeof ( float ) );
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}
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this->rot_mesh= ( float ** ) wipemalloc ( gx * sizeof ( float * ) );
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for ( x = 0; x < gx; x++ )
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{
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this->rot_mesh[x] = ( float * ) wipemalloc ( gy * sizeof ( float ) );
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}
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this->warp_mesh= ( float ** ) wipemalloc ( gx * sizeof ( float * ) );
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for ( x = 0; x < gx; x++ )
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{
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this->warp_mesh[x] = ( float * ) wipemalloc ( gy * sizeof ( float ) );
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}
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this->rad_mesh= ( float ** ) wipemalloc ( gx * sizeof ( float * ) );
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for ( x = 0; x < gx; x++ )
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{
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this->rad_mesh[x] = ( float * ) wipemalloc ( gy * sizeof ( float ) );
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}
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this->orig_x = (float **) wipemalloc(gx * sizeof(float *));
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for (x = 0; x < gx; x++)
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{
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this->orig_x[x] = (float *) wipemalloc(gy * sizeof(float));
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}
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this->orig_y = (float **) wipemalloc(gx * sizeof(float *));
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for (x = 0; x < gx; x++)
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{
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this->orig_y[x] = (float *) wipemalloc(gy * sizeof(float));
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}
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//initialize reference grid values
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for (x = 0; x < gx; x++)
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{
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for (int y = 0; y < gy; y++)
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{
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float origx = x / (float) (gx - 1);
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float origy = -((y / (float) (gy - 1)) - 1);
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rad_mesh[x][y]=hypot ( ( origx-.5 ) *2, ( origy-.5 ) *2 ) * .7071067;
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orig_x[x][y] = (origx - .5) * 2;
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orig_y[x][y] = (origy - .5) * 2;
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}
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}
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}
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PresetInputs::~PresetInputs()
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{
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for ( int x = 0; x < this->gx; x++ )
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{
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free ( this->origtheta[x] );
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free ( this->origrad[x] );
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free ( this->origx[x] );
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free ( this->origy[x] );
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free ( this->x_mesh[x] );
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free ( this->y_mesh[x] );
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free ( this->rad_mesh[x] );
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free ( this->theta_mesh[x] );
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}
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free ( this->origx );
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free ( this->origy );
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free ( this->origrad );
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free ( this->origtheta );
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free ( this->x_mesh );
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free ( this->y_mesh );
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free ( this->rad_mesh );
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free ( this->theta_mesh );
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this->origx = NULL;
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this->origy = NULL;
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this->origtheta = NULL;
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this->origrad = NULL;
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this->x_mesh = NULL;
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this->y_mesh = NULL;
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this->rad_mesh = NULL;
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this->theta_mesh = NULL;
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}
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void PresetInputs::resetMesh()
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{
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int x,y;
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assert ( x_mesh );
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assert ( y_mesh );
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assert ( rad_mesh );
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assert ( theta_mesh );
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for ( x=0;x<this->gx;x++ )
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{
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for ( y=0;y<this->gy;y++ )
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{
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x_mesh[x][y]=this->origx[x][y];
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y_mesh[x][y]=this->origy[x][y];
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rad_mesh[x][y]=this->origrad[x][y];
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theta_mesh[x][y]=this->origtheta[x][y];
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}
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}
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}
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#ifdef USE_MERGE_PRESET_CODE
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void PresetMerger::MergePresets(PresetOutputs & A, PresetOutputs & B, double ratio, int gx, int gy)
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{
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double invratio = 1.0 - ratio;
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//Merge Simple Waveforms
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//
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// All the mess is because of Waveform 7, which is two lines.
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//
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//Merge Custom Shapes and Custom Waves
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for (PresetOutputs::cshape_container::iterator pos = A.customShapes.begin();
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pos != A.customShapes.end(); ++pos)
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{
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(*pos)->a *= invratio;
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(*pos)->a2 *= invratio;
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(*pos)->border_a *= invratio;
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}
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for (PresetOutputs::cshape_container::iterator pos = B.customShapes.begin();
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pos != B.customShapes.end(); ++pos)
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{
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(*pos)->a *= ratio;
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(*pos)->a2 *= ratio;
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(*pos)->border_a *= ratio;
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A.customShapes.push_back(*pos);
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}
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for (PresetOutputs::cwave_container::iterator pos = A.customWaves.begin();
|
|
pos != A.customWaves.end(); ++pos)
|
|
{
|
|
(*pos)->a *= invratio;
|
|
for (int x=0; x < (*pos)->samples; x++)
|
|
{
|
|
(*pos)->a_mesh[x]= (*pos)->a_mesh[x]*invratio;
|
|
}
|
|
}
|
|
|
|
for (PresetOutputs::cwave_container::iterator pos = B.customWaves.begin();
|
|
pos != B.customWaves.end(); ++pos)
|
|
{
|
|
(*pos)->a *= ratio;
|
|
for (int x=0; x < (*pos)->samples; x++)
|
|
{
|
|
(*pos)->a_mesh[x]= (*pos)->a_mesh[x]*ratio;
|
|
}
|
|
A.customWaves.push_back(*pos);
|
|
}
|
|
|
|
|
|
//Interpolate Per-Pixel mesh
|
|
|
|
for (int x=0;x<gx;x++)
|
|
{
|
|
for(int y=0;y<gy;y++)
|
|
{
|
|
A.x_mesh[x][y] = A.x_mesh[x][y]* invratio + B.x_mesh[x][y]*ratio;
|
|
}
|
|
}
|
|
for (int x=0;x<gx;x++)
|
|
{
|
|
for(int y=0;y<gy;y++)
|
|
{
|
|
A.y_mesh[x][y] = A.y_mesh[x][y]* invratio + B.y_mesh[x][y]*ratio;
|
|
}
|
|
}
|
|
|
|
|
|
|
|
//Interpolate PerFrame floats
|
|
|
|
A.screenDecay = A.screenDecay * invratio + B.screenDecay * ratio;
|
|
|
|
A.wave.r = A.wave.r* invratio + B.wave.r*ratio;
|
|
A.wave.g = A.wave.g* invratio + B.wave.g*ratio;
|
|
A.wave.b = A.wave.b* invratio + B.wave.b*ratio;
|
|
A.wave.a = A.wave.a* invratio + B.wave.a*ratio;
|
|
A.wave.x = A.wave.x* invratio + B.wave.x*ratio;
|
|
A.wave.y = A.wave.y* invratio + B.wave.y*ratio;
|
|
A.wave.mystery = A.wave.mystery* invratio + B.wave.mystery*ratio;
|
|
|
|
A.border.outer_size = A.border.outer_size* invratio + B.border.outer_size*ratio;
|
|
A.border.outer_r = A.border.outer_r* invratio + B.border.outer_r*ratio;
|
|
A.border.outer_g = A.border.outer_g* invratio + B.border.outer_g*ratio;
|
|
A.border.outer_b = A.border.outer_b* invratio + B.border.outer_b*ratio;
|
|
A.border.outer_a = A.border.outer_a* invratio + B.border.outer_a*ratio;
|
|
|
|
A.border.inner_size = A.border.inner_size* invratio + B.border.inner_size*ratio;
|
|
A.border.inner_r = A.border.inner_r* invratio + B.border.inner_r*ratio;
|
|
A.border.inner_g = A.border.inner_g* invratio + B.border.inner_g*ratio;
|
|
A.border.inner_b = A.border.inner_b* invratio + B.border.inner_b*ratio;
|
|
A.border.inner_a = A.border.inner_a* invratio + B.border.inner_a*ratio;
|
|
|
|
A.mv.a = A.mv.a* invratio + B.mv.a*ratio;
|
|
A.mv.r = A.mv.r* invratio + B.mv.r*ratio;
|
|
A.mv.g = A.mv.g* invratio + B.mv.g*ratio;
|
|
A.mv.b = A.mv.b* invratio + B.mv.b*ratio;
|
|
A.mv.length = A.mv.length* invratio + B.mv.length*ratio;
|
|
A.mv.x_num = A.mv.x_num* invratio + B.mv.x_num*ratio;
|
|
A.mv.y_num = A.mv.y_num* invratio + B.mv.y_num*ratio;
|
|
A.mv.y_offset = A.mv.y_offset* invratio + B.mv.y_offset*ratio;
|
|
A.mv.x_offset = A.mv.x_offset* invratio + B.mv.x_offset*ratio;
|
|
|
|
|
|
A.fRating = A.fRating* invratio + B.fRating*ratio;
|
|
A.fGammaAdj = A.fGammaAdj* invratio + B.fGammaAdj*ratio;
|
|
A.videoEcho.zoom = A.videoEcho.zoom* invratio + B.videoEcho.zoom*ratio;
|
|
A.videoEcho.a = A.videoEcho.a* invratio + B.videoEcho.a*ratio;
|
|
|
|
|
|
A.fWarpAnimSpeed = A.fWarpAnimSpeed* invratio + B.fWarpAnimSpeed*ratio;
|
|
A.fWarpScale = A.fWarpScale* invratio + B.fWarpScale*ratio;
|
|
A.fShader = A.fShader* invratio + B.fShader*ratio;
|
|
|
|
//Switch bools and discrete values halfway. Maybe we should do some interesting stuff here.
|
|
|
|
if (ratio > 0.5)
|
|
{
|
|
A.videoEcho.orientation = B.videoEcho.orientation;
|
|
A.textureWrap = B.textureWrap;
|
|
A.bDarkenCenter = B.bDarkenCenter;
|
|
A.bRedBlueStereo = B.bRedBlueStereo;
|
|
A.bBrighten = B.bBrighten;
|
|
A.bDarken = B.bDarken;
|
|
A.bSolarize = B.bSolarize;
|
|
A.bInvert = B.bInvert;
|
|
A.bMotionVectorsOn = B.bMotionVectorsOn;
|
|
}
|
|
|
|
return;
|
|
}
|
|
#endif
|