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[goodguy/cinelerra.git] / cinelerra-5.1 / plugins / freeverb / Components / revmodel.cpp

// Reverb model implementation\r
//\r
// Written by Jezar at Dreampoint, June 2000\r
// http://www.dreampoint.co.uk\r
// This code is public domain\r
\r
#include "revmodel.hpp"\r
\r
revmodel::revmodel()\r
{\r
        // Tie the components to their buffers\r
        combL[0].setbuffer(bufcombL1,combtuningL1);\r
        combR[0].setbuffer(bufcombR1,combtuningR1);\r
        combL[1].setbuffer(bufcombL2,combtuningL2);\r
        combR[1].setbuffer(bufcombR2,combtuningR2);\r
        combL[2].setbuffer(bufcombL3,combtuningL3);\r
        combR[2].setbuffer(bufcombR3,combtuningR3);\r
        combL[3].setbuffer(bufcombL4,combtuningL4);\r
        combR[3].setbuffer(bufcombR4,combtuningR4);\r
        combL[4].setbuffer(bufcombL5,combtuningL5);\r
        combR[4].setbuffer(bufcombR5,combtuningR5);\r
        combL[5].setbuffer(bufcombL6,combtuningL6);\r
        combR[5].setbuffer(bufcombR6,combtuningR6);\r
        combL[6].setbuffer(bufcombL7,combtuningL7);\r
        combR[6].setbuffer(bufcombR7,combtuningR7);\r
        combL[7].setbuffer(bufcombL8,combtuningL8);\r
        combR[7].setbuffer(bufcombR8,combtuningR8);\r
        allpassL[0].setbuffer(bufallpassL1,allpasstuningL1);\r
        allpassR[0].setbuffer(bufallpassR1,allpasstuningR1);\r
        allpassL[1].setbuffer(bufallpassL2,allpasstuningL2);\r
        allpassR[1].setbuffer(bufallpassR2,allpasstuningR2);\r
        allpassL[2].setbuffer(bufallpassL3,allpasstuningL3);\r
        allpassR[2].setbuffer(bufallpassR3,allpasstuningR3);\r
        allpassL[3].setbuffer(bufallpassL4,allpasstuningL4);\r
        allpassR[3].setbuffer(bufallpassR4,allpasstuningR4);\r
\r
        // Set default values\r
        allpassL[0].setfeedback(0.5f);\r
        allpassR[0].setfeedback(0.5f);\r
        allpassL[1].setfeedback(0.5f);\r
        allpassR[1].setfeedback(0.5f);\r
        allpassL[2].setfeedback(0.5f);\r
        allpassR[2].setfeedback(0.5f);\r
        allpassL[3].setfeedback(0.5f);\r
        allpassR[3].setfeedback(0.5f);\r
        setwet(initialwet);\r
        setroomsize(initialroom);\r
        setdry(initialdry);\r
        setdamp(initialdamp);\r
        setwidth(initialwidth);\r
        setmode(initialmode);\r
\r
        // Buffer will be full of rubbish - so we MUST mute them\r
        mute();\r
}\r
\r
void revmodel::mute()\r
{\r
        if (getmode() >= freezemode)\r
                return;\r
\r
        for (int i=0;i<numcombs;i++)\r
        {\r
                combL[i].mute();\r
                combR[i].mute();\r
        }\r
        for (int i=0;i<numallpasses;i++)\r
        {\r
                allpassL[i].mute();\r
                allpassR[i].mute();\r
        }\r
}\r
\r
void revmodel::processreplace(float *inputL, float *inputR, float *outputL, float *outputR, long numsamples, int skip)\r
{\r
        float outL,outR,input;\r
\r
        while(numsamples-- > 0)\r
        {\r
                outL = outR = 0;\r
                input = (*inputL + *inputR) * gain;\r
\r
                // Accumulate comb filters in parallel\r
                for(int i=0; i<numcombs; i++)\r
                {\r
                        outL += combL[i].process(input);\r
                        outR += combR[i].process(input);\r
                }\r
\r
                // Feed through allpasses in series\r
                for(int i=0; i<numallpasses; i++)\r
                {\r
                        outL = allpassL[i].process(outL);\r
                        outR = allpassR[i].process(outR);\r
                }\r
\r
                // Calculate output REPLACING anything already there\r
                *outputL = outL*wet1 + outR*wet2 + *inputL*dry;\r
                *outputR = outR*wet1 + outL*wet2 + *inputR*dry;\r
\r
                // Increment sample pointers, allowing for interleave (if any)\r
                inputL += skip;\r
                inputR += skip;\r
                outputL += skip;\r
                outputR += skip;\r
        }\r
}\r
\r
void revmodel::processmix(float *inputL, float *inputR, float *outputL, float *outputR, long numsamples, int skip)\r
{\r
        float outL,outR,input;\r
\r
        while(numsamples-- > 0)\r
        {\r
                outL = outR = 0;\r
                input = (*inputL + *inputR) * gain;\r
\r
                // Accumulate comb filters in parallel\r
                for(int i=0; i<numcombs; i++)\r
                {\r
                        outL += combL[i].process(input);\r
                        outR += combR[i].process(input);\r
                }\r
\r
                // Feed through allpasses in series\r
                for(int i=0; i<numallpasses; i++)\r
                {\r
                        outL = allpassL[i].process(outL);\r
                        outR = allpassR[i].process(outR);\r
                }\r
\r
                // Calculate output MIXING with anything already there\r
                *outputL += outL*wet1 + outR*wet2 + *inputL*dry;\r
                *outputR += outR*wet1 + outL*wet2 + *inputR*dry;\r
\r
                // Increment sample pointers, allowing for interleave (if any)\r
                inputL += skip;\r
                inputR += skip;\r
                outputL += skip;\r
                outputR += skip;\r
        }\r
}\r
\r
void revmodel::update()\r
{\r
// Recalculate internal values after parameter change\r
\r
        int i;\r
\r
        wet1 = wet*(width/2 + 0.5f);\r
        wet2 = wet*((1-width)/2);\r
\r
        if (mode >= freezemode)\r
        {\r
                roomsize1 = 1;\r
                damp1 = 0;\r
                gain = muted;\r
        }\r
        else\r
        {\r
                roomsize1 = roomsize;\r
                damp1 = damp;\r
                gain = fixedgain;\r
        }\r
\r
        for(i=0; i<numcombs; i++)\r
        {\r
                combL[i].setfeedback(roomsize1);\r
                combR[i].setfeedback(roomsize1);\r
        }\r
\r
        for(i=0; i<numcombs; i++)\r
        {\r
                combL[i].setdamp(damp1);\r
                combR[i].setdamp(damp1);\r
        }\r
}\r
\r
// The following get/set functions are not inlined, because\r
// speed is never an issue when calling them, and also\r
// because as you develop the reverb model, you may\r
// wish to take dynamic action when they are called.\r
\r
void revmodel::setroomsize(float value)\r
{\r
        roomsize = (value*scaleroom) + offsetroom;\r
        update();\r
}\r
\r
float revmodel::getroomsize()\r
{\r
        return (roomsize-offsetroom)/scaleroom;\r
}\r
\r
void revmodel::setdamp(float value)\r
{\r
        damp = value*scaledamp;\r
        update();\r
}\r
\r
float revmodel::getdamp()\r
{\r
        return damp/scaledamp;\r
}\r
\r
void revmodel::setwet(float value)\r
{\r
        wet = value*scalewet;\r
        update();\r
}\r
\r
float revmodel::getwet()\r
{\r
        return wet/scalewet;\r
}\r
\r
void revmodel::setdry(float value)\r
{\r
        dry = value*scaledry;\r
}\r
\r
float revmodel::getdry()\r
{\r
        return dry/scaledry;\r
}\r
\r
void revmodel::setwidth(float value)\r
{\r
        width = value;\r
        update();\r
}\r
\r
float revmodel::getwidth()\r
{\r
        return width;\r
}\r
\r
void revmodel::setmode(float value)\r
{\r
        mode = value;\r
        update();\r
}\r
\r
float revmodel::getmode()\r
{\r
        if (mode >= freezemode)\r
                return 1;\r
        else\r
                return 0;\r
}\r
\r
//ends\r
\r
\r
\r
\r
\r