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Fix the majority of the compiler warnings unearthed by the addition of 

the new warning flags.
This commit is contained in:
Glenn Rice 2013-01-29 23:24:51 -06:00
parent 18e69acc15
commit 0ffdd2607f
11 changed files with 76 additions and 77 deletions
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70
Source/Core/AudioCommon/Src/DPL2Decoder.cpp
View File

@ -232,70 +232,70 @@ float passive_lock(float x)
void matrix_decode(const float *in, const int k, const int il,
const int ir, bool decode_rear,
const int dlbuflen,
float l_fwr, float r_fwr,
float lpr_fwr, float lmr_fwr,
float *adapt_l_gain, float *adapt_r_gain,
float *adapt_lpr_gain, float *adapt_lmr_gain,
float *lf, float *rf, float *lr,
float *rr, float *cf)
const int _dlbuflen,
float _l_fwr, float _r_fwr,
float _lpr_fwr, float _lmr_fwr,
float *_adapt_l_gain, float *_adapt_r_gain,
float *_adapt_lpr_gain, float *_adapt_lmr_gain,
float *_lf, float *_rf, float *_lr,
float *_rr, float *_cf)
{
static const float M9_03DB = 0.3535533906f;
static const float MATAGCTRIG = 8.0f; /* (Fuzzy) AGC trigger */
static const float MATAGCDECAY = 1.0f; /* AGC baseline decay rate (1/samp.) */
static const float MATCOMPGAIN = 0.37f; /* Cross talk compensation gain, 0.50 - 0.55 is full cancellation. */
const int kr = (k + olddelay) % dlbuflen;
float l_gain = (l_fwr + r_fwr) / (1 + l_fwr + l_fwr);
float r_gain = (l_fwr + r_fwr) / (1 + r_fwr + r_fwr);
const int kr = (k + olddelay) % _dlbuflen;
float l_gain = (_l_fwr + _r_fwr) / (1 + _l_fwr + _l_fwr);
float r_gain = (_l_fwr + _r_fwr) / (1 + _r_fwr + _r_fwr);
/* The 2nd axis has strong gain fluctuations, and therefore require
limits. The factor corresponds to the 1 / amplification of (Lt
- Rt) when (Lt, Rt) is strongly correlated. (e.g. during
dialogues). It should be bigger than -12 dB to prevent
distortion. */
float lmr_lim_fwr = lmr_fwr > M9_03DB * lpr_fwr ? lmr_fwr : M9_03DB * lpr_fwr;
float lpr_gain = (lpr_fwr + lmr_lim_fwr) / (1 + lpr_fwr + lpr_fwr);
float lmr_gain = (lpr_fwr + lmr_lim_fwr) / (1 + lmr_lim_fwr + lmr_lim_fwr);
float lmr_unlim_gain = (lpr_fwr + lmr_fwr) / (1 + lmr_fwr + lmr_fwr);
float lmr_lim_fwr = _lmr_fwr > M9_03DB * _lpr_fwr ? _lmr_fwr : M9_03DB * _lpr_fwr;
float lpr_gain = (_lpr_fwr + lmr_lim_fwr) / (1 + _lpr_fwr + _lpr_fwr);
float lmr_gain = (_lpr_fwr + lmr_lim_fwr) / (1 + lmr_lim_fwr + lmr_lim_fwr);
float lmr_unlim_gain = (_lpr_fwr + _lmr_fwr) / (1 + _lmr_fwr + _lmr_fwr);
float lpr, lmr;
float l_agc, r_agc, lpr_agc, lmr_agc;
float f, d_gain, c_gain, c_agc_cfk;
/*** AXIS NO. 1: (Lt, Rt) -> (C, Ls, Rs) ***/
/* AGC adaption */
d_gain = (fabs(l_gain - *adapt_l_gain) + fabs(r_gain - *adapt_r_gain)) * 0.5f;
d_gain = (fabs(l_gain - *_adapt_l_gain) + fabs(r_gain - *_adapt_r_gain)) * 0.5f;
f = d_gain * (1.0f / MATAGCTRIG);
f = MATAGCDECAY - MATAGCDECAY / (1 + f * f);
*adapt_l_gain = (1 - f) * *adapt_l_gain + f * l_gain;
*adapt_r_gain = (1 - f) * *adapt_r_gain + f * r_gain;
*_adapt_l_gain = (1 - f) * *_adapt_l_gain + f * l_gain;
*_adapt_r_gain = (1 - f) * *_adapt_r_gain + f * r_gain;
/* Matrix */
l_agc = in[il] * passive_lock(*adapt_l_gain);
r_agc = in[ir] * passive_lock(*adapt_r_gain);
cf[k] = (l_agc + r_agc) * (float)M_SQRT1_2;
l_agc = in[il] * passive_lock(*_adapt_l_gain);
r_agc = in[ir] * passive_lock(*_adapt_r_gain);
_cf[k] = (l_agc + r_agc) * (float)M_SQRT1_2;
if (decode_rear)
{
lr[kr] = rr[kr] = (l_agc - r_agc) * (float)M_SQRT1_2;
_lr[kr] = _rr[kr] = (l_agc - r_agc) * (float)M_SQRT1_2;
/* Stereo rear channel is steered with the same AGC steering as
the decoding matrix. Note this requires a fast updating AGC
at the order of 20 ms (which is the case here). */
lr[kr] *= (l_fwr + l_fwr) / (1 + l_fwr + r_fwr);
rr[kr] *= (r_fwr + r_fwr) / (1 + l_fwr + r_fwr);
_lr[kr] *= (_l_fwr + _l_fwr) / (1 + _l_fwr + _r_fwr);
_rr[kr] *= (_r_fwr + _r_fwr) / (1 + _l_fwr + _r_fwr);
}
/*** AXIS NO. 2: (Lt + Rt, Lt - Rt) -> (L, R) ***/
lpr = (in[il] + in[ir]) * (float)M_SQRT1_2;
lmr = (in[il] - in[ir]) * (float)M_SQRT1_2;
/* AGC adaption */
d_gain = fabs(lmr_unlim_gain - *adapt_lmr_gain);
d_gain = fabs(lmr_unlim_gain - *_adapt_lmr_gain);
f = d_gain * (1.0f / MATAGCTRIG);
f = MATAGCDECAY - MATAGCDECAY / (1 + f * f);
*adapt_lpr_gain = (1 - f) * *adapt_lpr_gain + f * lpr_gain;
*adapt_lmr_gain = (1 - f) * *adapt_lmr_gain + f * lmr_gain;
*_adapt_lpr_gain = (1 - f) * *_adapt_lpr_gain + f * lpr_gain;
*_adapt_lmr_gain = (1 - f) * *_adapt_lmr_gain + f * lmr_gain;
/* Matrix */
lpr_agc = lpr * passive_lock(*adapt_lpr_gain);
lmr_agc = lmr * passive_lock(*adapt_lmr_gain);
lf[k] = (lpr_agc + lmr_agc) * (float)M_SQRT1_2;
rf[k] = (lpr_agc - lmr_agc) * (float)M_SQRT1_2;
lpr_agc = lpr * passive_lock(*_adapt_lpr_gain);
lmr_agc = lmr * passive_lock(*_adapt_lmr_gain);
_lf[k] = (lpr_agc + lmr_agc) * (float)M_SQRT1_2;
_rf[k] = (lpr_agc - lmr_agc) * (float)M_SQRT1_2;
/*** CENTER FRONT CANCELLATION ***/
/* A heuristic approach exploits that Lt + Rt gain contains the
@ -303,16 +303,16 @@ void matrix_decode(const float *in, const int k, const int il,
the front and rear "cones" to concentrate Lt + Rt to C and
introduce Lt - Rt in L, R. */
/* 0.67677 is the empirical lower bound for lpr_gain. */
c_gain = 8 * (*adapt_lpr_gain - 0.67677f);
c_gain = 8 * (*_adapt_lpr_gain - 0.67677f);
c_gain = c_gain > 0 ? c_gain : 0;
/* c_gain should not be too high, not even reaching full
cancellation (~ 0.50 - 0.55 at current AGC implementation), or
the center will sound too narrow. */
c_gain = MATCOMPGAIN / (1 + c_gain * c_gain);
c_agc_cfk = c_gain * cf[k];
lf[k] -= c_agc_cfk;
rf[k] -= c_agc_cfk;
cf[k] += c_agc_cfk + c_agc_cfk;
c_agc_cfk = c_gain * _cf[k];
_lf[k] -= c_agc_cfk;
_rf[k] -= c_agc_cfk;
_cf[k] += c_agc_cfk + c_agc_cfk;
}
void dpl2decode(float *samples, int numsamples, float *out)

2
Source/Core/AudioCommon/Src/Mixer.h
View File

@ -92,7 +92,7 @@ public:
std::mutex& MixerCritical() { return m_csMixing; }
volatile float GetCurrentSpeed() const { return m_speed; }
float GetCurrentSpeed() const { return m_speed; }
void UpdateSpeed(volatile float val) { m_speed = val; }
protected:

4
Source/Core/AudioCommon/Src/OpenALStream.cpp
View File

@ -316,7 +316,7 @@ void OpenALStream::SoundLoop()
if (iBuffersFilled == numBuffers)
{
alSourcePlay(uiSource);
ALenum err = alGetError();
err = alGetError();
if (err != 0)
{
ERROR_LOG(AUDIO, "Error occurred during playback: %08x", err);
@ -328,7 +328,7 @@ void OpenALStream::SoundLoop()
{
// Buffer underrun occurred, resume playback
alSourcePlay(uiSource);
ALenum err = alGetError();
err = alGetError();
if (err != 0)
{
ERROR_LOG(AUDIO, "Error occurred resuming playback: %08x", err);

4
Source/Core/Core/Src/GeckoCode.cpp
View File

@ -171,9 +171,9 @@ bool InstallCodeHandler()
Memory::Write_U8(1, 0x80001807);
// Invalidate the icache
for (unsigned int i = 0; i < data.length(); i += 32)
for (unsigned int j = 0; j < data.length(); j += 32)
{
PowerPC::ppcState.iCache.Invalidate(0x80001800 + i);
PowerPC::ppcState.iCache.Invalidate(0x80001800 + j);
}
return true;
}

2
Source/Core/Core/Src/HW/EXI_DeviceIPL.h
View File

@ -78,7 +78,7 @@ private:
virtual void TransferByte(u8 &_uByte);
bool IsWriteCommand() const { return !!(m_uAddress & (1 << 31)); }
const u32 CommandRegion() const { return (m_uAddress & ~(1 << 31)) >> 8; }
u32 CommandRegion() const { return (m_uAddress & ~(1 << 31)) >> 8; }
void LoadFileToIPL(std::string filename, u32 offset);
};

10
Source/Core/Core/Src/IPC_HLE/WII_IPC_HLE.cpp
View File

@ -382,18 +382,18 @@ void ExecuteCommand(u32 _Address)
}
else
{
IWII_IPC_HLE_Device* pDevice = CreateFileIO(DeviceID, DeviceName);
CmdSuccess = pDevice->Open(_Address, Mode);
IWII_IPC_HLE_Device* _pDevice = CreateFileIO(DeviceID, DeviceName);
CmdSuccess = _pDevice->Open(_Address, Mode);
INFO_LOG(WII_IPC_FILEIO, "IOP: Open File (Device=%s, ID=%08x, Mode=%i)",
pDevice->GetDeviceName().c_str(), DeviceID, Mode);
_pDevice->GetDeviceName().c_str(), DeviceID, Mode);
if (Memory::Read_U32(_Address + 4) == (u32)DeviceID)
{
g_FdMap[DeviceID] = pDevice;
g_FdMap[DeviceID] = _pDevice;
}
else
{
delete pDevice;
delete _pDevice;
}
}

4
Source/Core/Core/Src/PowerPC/Jit64IL/JitILAsm.cpp
View File

@ -71,7 +71,7 @@ void JitILAsmRoutineManager::Generate()
#endif
// INT3();
const u8 *outerLoop = GetCodePtr();
const u8 *outer_loop = GetCodePtr();
ABI_CallFunction(reinterpret_cast<void *>(&CoreTiming::Advance));
FixupBranch skipToRealDispatch = J(); //skip the sync and compare first time
@ -220,7 +220,7 @@ void JitILAsmRoutineManager::Generate()
MOV(32, M(&PC), R(EAX));
TEST(32, M((void*)PowerPC::GetStatePtr()), Imm32(0xFFFFFFFF));
J_CC(CC_Z, outerLoop, true);
J_CC(CC_Z, outer_loop, true);
//Landing pad for drec space
ABI_PopAllCalleeSavedRegsAndAdjustStack();
RET();

6
Source/Core/DiscIO/Src/VolumeWad.cpp
View File

@ -129,10 +129,10 @@ bool CVolumeWAD::GetWName(std::vector<std::wstring>& _rwNames) const
_rwNames.push_back(L"");
continue;
}
for (int i = 0; i < 42; ++i)
for (int j = 0; j < 42; ++j)
{
u16 t = Common::swap16(temp[i]);
if (t == 0 && i > 0)
u16 t = Common::swap16(temp[j]);
if (t == 0 && j > 0)
{
if (out_temp.at(out_temp.size()-1) != ' ')
out_temp.push_back(' ');

13
Source/Core/DolphinWX/Src/FifoPlayerDlg.cpp
View File

@ -483,8 +483,7 @@ void FifoPlayerDlg::OnBeginSearch(wxCommandEvent& event)
SearchResult result;
result.frame_idx = frame_idx;
int obj_idx = m_objectsList->GetSelection();
result.obj_idx = obj_idx;
result.obj_idx = m_objectsList->GetSelection();
result.cmd_idx = 0;
for (unsigned int cmd_idx = 1; cmd_idx < m_objectCmdOffsets.size(); ++cmd_idx)
{
@ -642,8 +641,8 @@ void FifoPlayerDlg::OnObjectListSelectionChanged(wxCommandEvent& event)
{
m_objectCmdOffsets.push_back(objectdata - objectdata_start);
int new_offset = objectdata - &fifo_frame.fifoData[frame.objectStarts[0]];
int cmd = *objectdata++;
switch (cmd)
int command = *objectdata++;
switch (command)
{
case GX_NOP:
newLabel = _("NOP");
@ -691,9 +690,9 @@ void FifoPlayerDlg::OnObjectListSelectionChanged(wxCommandEvent& event)
case GX_LOAD_INDX_C:
case GX_LOAD_INDX_D:
objectdata += 4;
newLabel = wxString::Format(wxT("LOAD INDX %s"), (cmd == GX_LOAD_INDX_A) ? _("A") :
(cmd == GX_LOAD_INDX_B) ? _("B") :
(cmd == GX_LOAD_INDX_C) ? _("C") : _("D"));
newLabel = wxString::Format(wxT("LOAD INDX %s"), (command == GX_LOAD_INDX_A) ? _("A") :
(command == GX_LOAD_INDX_B) ? _("B") :
(command == GX_LOAD_INDX_C) ? _("C") : _("D"));
break;
case GX_CMD_CALL_DL:

6
Source/Core/DolphinWX/Src/TASInputDlg.cpp
View File

@ -1099,8 +1099,8 @@ wxBitmap TASInputDlg::CreateStickBitmap(int x, int y)
y = y/2;
wxMemoryDC memDC;
wxBitmap bitmap(127, 127);
memDC.SelectObject(bitmap);
wxBitmap stick_bitmap(127, 127);
memDC.SelectObject(stick_bitmap);
memDC.SetBackground(*wxLIGHT_GREY_BRUSH);
memDC.Clear();
memDC.SetBrush(*wxWHITE_BRUSH);
@ -1116,5 +1116,5 @@ wxBitmap TASInputDlg::CreateStickBitmap(int x, int y)
memDC.SetBrush(*wxBLUE_BRUSH);
memDC.DrawCircle(x,y,5);
memDC.SelectObject(wxNullBitmap);
return bitmap;
return stick_bitmap;
}

10
Source/Plugins/Plugin_VideoSoftware/Src/HwRasterizer.cpp
View File

@ -339,17 +339,17 @@ namespace HwRasterizer
texImage3.hex = texUnit.texImage3[0].hex;
texTlut.hex = texUnit.texTlut[0].hex;
int width = texImage0.width;
int height = texImage0.height;
int image_width = texImage0.width;
int image_height = texImage0.height;
DebugUtil::GetTextureBGRA(temp, 0, 0, width, height);
DebugUtil::GetTextureBGRA(temp, 0, 0, image_width, image_height);
glGenTextures(1, (GLuint *)&texture);
glBindTexture(TEX2D, texture);
#ifdef USE_GLES
glTexImage2D(TEX2D, 0, GL_RGBA, (GLsizei)width, (GLsizei)height, 0, GL_RGBA, GL_UNSIGNED_BYTE, temp);
glTexImage2D(TEX2D, 0, GL_RGBA, (GLsizei)image_width, (GLsizei)image_height, 0, GL_RGBA, GL_UNSIGNED_BYTE, temp);
#else
glTexImage2D(TEX2D, 0, GL_RGBA8, (GLsizei)width, (GLsizei)height, 0, GL_BGRA, GL_UNSIGNED_BYTE, temp);
glTexImage2D(TEX2D, 0, GL_RGBA8, (GLsizei)image_width, (GLsizei)image_height, 0, GL_BGRA, GL_UNSIGNED_BYTE, temp);
#endif
GL_REPORT_ERRORD();
}