/*---------------------------------------------------------------------------- * * File: * eas_pan.c * * Contents and purpose: * Calculates left and right gain multipliers based on a pan value from -63 to +63 * * NOTES: * The _CMX_PARSER and _MFI_PARSER preprocessor symbols determine * whether the parser works for those particular file formats. * * Copyright Sonic Network Inc. 2005 * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * *---------------------------------------------------------------------------- * Revision Control: * $Revision: 82 $ * $Date: 2006-07-10 11:45:19 -0700 (Mon, 10 Jul 2006) $ *---------------------------------------------------------------------------- */ #include "eas_pan.h" #include "eas_math.h" /*---------------------------------------------------------------------------- * EAS_CalcPanControl() *---------------------------------------------------------------------------- * Purpose: * Assign the left and right gain values corresponding to the given pan value. * * This routine uses sin/cos approximations for an equal power curve: * * sin(x) = (2-4*c)*x^2 + c + x * cos(x) = (2-4*c)*x^2 + c - x * * where c = 1/sqrt(2) * using the a0 + x*(a1 + x*a2) approach * * Inputs: * pan - pan value (-63 to + 63) * * Outputs: * pGainLeft linear gain multiplier for left channel (15-bit fraction) * pGainRight linear gain multiplier for left channel (15-bit fraction) * * Side Effects: *---------------------------------------------------------------------------- */ void EAS_CalcPanControl (EAS_INT pan, EAS_I16 *pGainLeft, EAS_I16 *pGainRight) { EAS_INT temp; EAS_INT netAngle; /* impose hard limit */ if (pan < -63) netAngle = -63; else if (pan > 63) netAngle = 63; else netAngle = pan; /*lint -e{701} <avoid multiply for performance reasons>*/ netAngle = netAngle << 8; /* calculate sin */ temp = EG1_ONE + FMUL_15x15(COEFF_PAN_G2, netAngle); temp = COEFF_PAN_G0 + FMUL_15x15(temp, netAngle); if (temp > SYNTH_FULL_SCALE_EG1_GAIN) temp = SYNTH_FULL_SCALE_EG1_GAIN; else if (temp < 0) temp = 0; *pGainRight = (EAS_I16) temp; /* calculate cos */ temp = -EG1_ONE + FMUL_15x15(COEFF_PAN_G2, netAngle); temp = COEFF_PAN_G0 + FMUL_15x15(temp, netAngle); if (temp > SYNTH_FULL_SCALE_EG1_GAIN) temp = SYNTH_FULL_SCALE_EG1_GAIN; else if (temp < 0) temp = 0; *pGainLeft = (EAS_I16) temp; }