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272 lines
8.2 KiB
272 lines
8.2 KiB
#include <windows.h>
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#include "garglep.h"
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#include "clone.h"
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STD_CREATE(Gargle)
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#define DEFAULT_GARGLE_RATE 20
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CDirectSoundGargleDMO::CDirectSoundGargleDMO( IUnknown *pUnk, HRESULT *phr )
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:CComBase( pUnk, phr ),
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m_ulShape(0),
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m_ulGargleFreqHz(DEFAULT_GARGLE_RATE),
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m_fDirty(true),
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m_bInitialized(FALSE)
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{
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}
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HRESULT CDirectSoundGargleDMO::NDQueryInterface(REFIID riid, void **ppv) {
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IMP_DSDMO_QI(riid,ppv);
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if (riid == IID_IPersist)
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{
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return GetInterface((IPersist*)this, ppv);
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}
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else if (riid == IID_IMediaObject)
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{
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return GetInterface((IMediaObject*)this, ppv);
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}
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else if (riid == IID_IDirectSoundFXGargle)
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{
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return GetInterface((IDirectSoundFXGargle*)this, ppv);
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}
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else if (riid == IID_ISpecifyPropertyPages)
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{
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return GetInterface((ISpecifyPropertyPages*)this, ppv);
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}
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else if (riid == IID_IMediaParams)
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{
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return GetInterface((IMediaParams*)this, ppv);
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}
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else if (riid == IID_IMediaParamInfo)
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{
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return GetInterface((IMediaParamInfo*)this, ppv);
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}
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else
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return CComBase::NDQueryInterface(riid, ppv);
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}
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CDirectSoundGargleDMO::~CDirectSoundGargleDMO()
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{
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}
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const MP_CAPS g_capsAll = MP_CAPS_CURVE_JUMP | MP_CAPS_CURVE_LINEAR | MP_CAPS_CURVE_SQUARE | MP_CAPS_CURVE_INVSQUARE | MP_CAPS_CURVE_SINE;
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static ParamInfo g_params[] =
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{
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// index type caps min, max, neutral, unit text, label, pwchText??
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GFP_Rate, MPT_INT, g_capsAll, DSFXGARGLE_RATEHZ_MIN, DSFXGARGLE_RATEHZ_MAX, 20, L"Hz", L"Rate", L"",
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GFP_Shape, MPT_ENUM, g_capsAll, DSFXCHORUS_WAVE_TRIANGLE, DSFXGARGLE_WAVE_SQUARE, DSFXGARGLE_WAVE_TRIANGLE, L"", L"WaveShape", L"Triangle,Square",
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};
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HRESULT CDirectSoundGargleDMO::InitOnCreation()
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{
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HRESULT hr = InitParams(1, &GUID_TIME_REFERENCE, 0, 0, sizeof(g_params)/sizeof(*g_params), g_params);
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return hr;
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}
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HRESULT CDirectSoundGargleDMO::Init()
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{
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// compute the period
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m_ulPeriod = m_ulSamplingRate / m_ulGargleFreqHz;
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m_bInitialized = TRUE;
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return S_OK;
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}
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//////////////////////////////////////////////////////////////////////////////
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//
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// CDirectSoundGargleDMO::Clone
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//
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STDMETHODIMP CDirectSoundGargleDMO::Clone(IMediaObjectInPlace **pp)
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{
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return StandardDMOClone<CDirectSoundGargleDMO, DSFXGargle>(this, pp);
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}
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HRESULT CDirectSoundGargleDMO::Discontinuity() {
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m_ulPhase = 0;
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return NOERROR;
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}
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HRESULT CDirectSoundGargleDMO::FBRProcess(DWORD cSamples, BYTE *pIn, BYTE *pOut) {
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if (!m_bInitialized)
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return DMO_E_TYPE_NOT_SET;
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// test code
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//memcpy(pOut, pIn, cSamples * m_cChannels * (m_b8bit ? 1 : 2));
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//return NOERROR;
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DWORD cSample, cChannel;
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for (cSample = 0; cSample < cSamples; cSample++) {
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// If m_Shape is 0 (triangle) then we multiply by a triangular waveform
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// that runs 0..Period/2..0..Period/2..0... else by a square one that
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// is either 0 or Period/2 (same maximum as the triangle) or zero.
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//
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// m_Phase is the number of samples from the start of the period.
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// We keep this running from one call to the next,
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// but if the period changes so as to make this more
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// than Period then we reset to 0 with a bang. This may cause
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// an audible click or pop (but, hey! it's only a sample!)
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//
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++m_ulPhase;
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if (m_ulPhase > m_ulPeriod)
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m_ulPhase = 0;
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ULONG ulM = m_ulPhase; // m is what we modulate with
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if (m_ulShape == 0) { // Triangle
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if (ulM > m_ulPeriod / 2)
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ulM = m_ulPeriod - ulM; // handle downslope
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} else { // Square wave
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if (ulM <= m_ulPeriod / 2)
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ulM = m_ulPeriod / 2;
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else
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ulM = 0;
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}
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for (cChannel = 0; cChannel < m_cChannels; cChannel++) {
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if (m_b8bit) {
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// sound sample, zero based
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int i = pIn[cSample * m_cChannels + cChannel] - 128;
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// modulate
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i = (i * (signed)ulM * 2) / (signed)m_ulPeriod;
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// 8 bit sound uses 0..255 representing -128..127
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// Any overflow, even by 1, would sound very bad.
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// so we clip paranoically after modulating.
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// I think it should never clip by more than 1
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//
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if (i > 127)
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i = 127;
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if (i < -128)
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i = -128;
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// reset zero offset to 128
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pOut[cSample * m_cChannels + cChannel] = (unsigned char)(i + 128);
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} else {
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// 16 bit sound uses 16 bits properly (0 means 0)
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// We still clip paranoically
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//
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int i = ((short*)pIn)[cSample * m_cChannels + cChannel];
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// modulate
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i = (i * (signed)ulM * 2) / (signed)m_ulPeriod;
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// clip
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if (i > 32767)
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i = 32767;
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if (i < -32768)
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i = -32768;
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((short*)pOut)[cSample * m_cChannels + cChannel] = (short)i;
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}
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}
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}
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return NOERROR;
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}
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// GetClassID
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//
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// Part of the persistent file support. We must supply our class id
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// which can be saved in a graph file and used on loading a graph with
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// a gargle in it to instantiate this filter via CoCreateInstance.
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//
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HRESULT CDirectSoundGargleDMO::GetClassID(CLSID *pClsid)
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{
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if (pClsid==NULL) {
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return E_POINTER;
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}
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*pClsid = GUID_DSFX_STANDARD_GARGLE;
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return NOERROR;
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} // GetClassID
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//////////////////////////////////////////////////////////////////////////////
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//
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// CDirectSoundGargleDMO::SetAllParameters
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//
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STDMETHODIMP CDirectSoundGargleDMO::SetAllParameters(THIS_ LPCDSFXGargle pParm)
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{
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HRESULT hr = S_OK;
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// Check that the pointer is not NULL
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if (pParm == NULL)
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{
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Trace(1,"ERROR: pParm is NULL\n");
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hr = E_POINTER;
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}
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// Set the parameters
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if (SUCCEEDED(hr)) hr = SetParam(GFP_Rate, static_cast<MP_DATA>(pParm->dwRateHz));
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if (SUCCEEDED(hr)) hr = SetParam(GFP_Shape, static_cast<MP_DATA>(pParm->dwWaveShape));
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m_fDirty = true;
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return hr;
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}
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//////////////////////////////////////////////////////////////////////////////
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//
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// CDirectSoundGargleDMO::GetAllParameters
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//
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STDMETHODIMP CDirectSoundGargleDMO::GetAllParameters(THIS_ LPDSFXGargle pParm)
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{
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HRESULT hr = S_OK;
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MP_DATA var;
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if (pParm == NULL)
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{
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return E_POINTER;
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}
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#define GET_PARAM_DWORD(x,y) \
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if (SUCCEEDED(hr)) { \
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hr = GetParam(x, &var); \
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if (SUCCEEDED(hr)) pParm->y = (DWORD)var; \
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}
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GET_PARAM_DWORD(GFP_Rate, dwRateHz);
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GET_PARAM_DWORD(GFP_Shape, dwWaveShape);
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return hr;
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}
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//////////////////////////////////////////////////////////////////////////////
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//
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// CDirectSoundGargleDMO::SetParam
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//
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HRESULT CDirectSoundGargleDMO::SetParamInternal(DWORD dwParamIndex, MP_DATA value, bool fSkipPasssingToParamManager)
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{
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switch (dwParamIndex)
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{
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case GFP_Rate:
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CHECK_PARAM(DSFXGARGLE_RATEHZ_MIN,DSFXGARGLE_RATEHZ_MAX);
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m_ulGargleFreqHz = (unsigned)value;
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if (m_ulGargleFreqHz < 1) m_ulGargleFreqHz = 1;
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if (m_ulGargleFreqHz > 1000) m_ulGargleFreqHz = 1000;
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Init(); // FIXME - temp hack (sets m_bInitialized flag)
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break;
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case GFP_Shape:
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CHECK_PARAM(DSFXGARGLE_WAVE_TRIANGLE,DSFXGARGLE_WAVE_SQUARE);
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m_ulShape = (unsigned)value;
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break;
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}
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// Let base class set this so it can handle all the rest of the param calls.
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// Skip the base class if fSkipPasssingToParamManager. This indicates that we're calling the function
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// internally using valuds that came from the base class -- thus there's no need to tell it values it
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// already knows.
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return fSkipPasssingToParamManager ? S_OK : CParamsManager::SetParam(dwParamIndex, value);
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}
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//////////////////////////////////////////////////////////////////////////////
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//
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// CDirectSoundGargleDMO::ProcessInPlace
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//
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HRESULT CDirectSoundGargleDMO::ProcessInPlace(ULONG ulQuanta, LPBYTE pcbData, REFERENCE_TIME rtStart, DWORD dwFlags)
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{
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// Update parameter values from any curves that may be in effect.
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this->UpdateActiveParams(rtStart, *this);
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return FBRProcess(ulQuanta, pcbData, pcbData);
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}
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