//----------------------------------------------------------------------------- // File: usefuldi.cpp // // Desc: Contains various DInput-specific utility classes and functions // to help the UI carry its operations more easily. // // Copyright (C) 1999-2000 Microsoft Corporation. All Rights Reserved. //----------------------------------------------------------------------------- #include "common.hpp" // don't want useful.cpp to use precompiled header #include "useful.cpp" BOOL IsObjectOnExcludeList(DWORD dwOfs) { if (dwOfs == DIK_PREVTRACK || dwOfs == DIK_NEXTTRACK || dwOfs == DIK_MUTE || dwOfs == DIK_CALCULATOR || dwOfs == DIK_PLAYPAUSE || dwOfs == DIK_MEDIASTOP || dwOfs == DIK_VOLUMEDOWN || dwOfs == DIK_VOLUMEUP || dwOfs == DIK_WEBHOME || dwOfs == DIK_SLEEP || dwOfs == DIK_WEBSEARCH || dwOfs == DIK_WEBFAVORITES || dwOfs == DIK_WEBREFRESH || dwOfs == DIK_WEBSTOP || dwOfs == DIK_WEBFORWARD || dwOfs == DIK_WEBBACK || dwOfs == DIK_MYCOMPUTER || dwOfs == DIK_MAIL || dwOfs == DIK_MEDIASELECT || dwOfs == DIK_LWIN || dwOfs == DIK_RWIN || dwOfs == DIK_POWER || dwOfs == DIK_WAKE) return TRUE; return FALSE; } BOOL CALLBACK IncrementValPerObject(LPCDIDEVICEOBJECTINSTANCEW lpddoi, LPVOID pvRef) { if (pvRef != NULL) ++(*((int *)pvRef)); return DIENUM_CONTINUE; } BOOL CALLBACK KeyboardIncrementValPerObject(LPCDIDEVICEOBJECTINSTANCEW lpddoi, LPVOID pvRef) { if (pvRef != NULL && !IsObjectOnExcludeList(lpddoi->dwOfs)) ++(*((int *)pvRef)); return DIENUM_CONTINUE; } BOOL CALLBACK FillDIDeviceObject(LPCDIDEVICEOBJECTINSTANCEW lpddoi, LPVOID pvRef) { if (pvRef == NULL || lpddoi == NULL) return DIENUM_CONTINUE; DIDEVOBJSTRUCT &os = *((DIDEVOBJSTRUCT *)pvRef); assert(os.pdoi != NULL); assert(os.n < os.nObjects); if (os.pdoi != NULL && os.n < os.nObjects) os.pdoi[os.n++] = *lpddoi; return DIENUM_CONTINUE; } // This is a special EnumObjects() callback for keyboard type devices. When we enumerate, dwOfs // member of lpddoi is meaningless. We need to take the middle 16 bits of dwType as dwOfs // (also same as DIK_xxx). BOOL CALLBACK FillDIKeyboardDeviceObject(LPCDIDEVICEOBJECTINSTANCEW lpddoi, LPVOID pvRef) { if (pvRef == NULL || lpddoi == NULL || IsObjectOnExcludeList(lpddoi->dwOfs)) return DIENUM_CONTINUE; DIDEVOBJSTRUCT &os = *((DIDEVOBJSTRUCT *)pvRef); assert(os.pdoi != NULL); assert(os.n < os.nObjects); if (os.pdoi != NULL && os.n < os.nObjects) { os.pdoi[os.n] = *lpddoi; os.pdoi[os.n].dwOfs = os.pdoi[os.n].dwType >> 8; wcscpy(os.pdoi[os.n].tszName, lpddoi->tszName); ++os.n; } return DIENUM_CONTINUE; } HRESULT FillDIDeviceObjectStruct(DIDEVOBJSTRUCT &os, LPDIRECTINPUTDEVICE8W pDID) { if (pDID == NULL) return E_FAIL; DIDEVICEINSTANCEW didi; didi.dwSize = sizeof(didi); pDID->GetDeviceInfo(&didi); HRESULT hr; if (LOBYTE(didi.dwDevType) == DI8DEVTYPE_KEYBOARD) hr = pDID->EnumObjects(KeyboardIncrementValPerObject, &os.nObjects, DIDFT_AXIS | DIDFT_BUTTON | DIDFT_POV); else hr = pDID->EnumObjects(IncrementValPerObject, &os.nObjects, DIDFT_AXIS | DIDFT_BUTTON | DIDFT_POV); if (FAILED(hr)) { os.nObjects = 0; return hr; } if (os.nObjects == 0) return S_OK; if (os.pdoi != NULL) free(os.pdoi); os.pdoi = (DIDEVICEOBJECTINSTANCEW *)malloc(sizeof(DIDEVICEOBJECTINSTANCEW) * os.nObjects); if (os.pdoi == NULL) { os.nObjects = 0; return E_FAIL; } // Check if this device is a keyboard. If so, it needs special treatment. os.n = 0; if ((didi.dwDevType & 0xFF) == DI8DEVTYPE_KEYBOARD) { hr = pDID->EnumObjects(FillDIKeyboardDeviceObject, &os, DIDFT_AXIS | DIDFT_BUTTON | DIDFT_POV); } else { hr = pDID->EnumObjects(FillDIDeviceObject, &os, DIDFT_AXIS | DIDFT_BUTTON | DIDFT_POV); } if (FAILED(hr)) { os.nObjects = 0; return hr; } assert(os.nObjects == os.n); os.nObjects = os.n; return S_OK; } LPTSTR AllocConfigureFlagStr(DWORD dwFlags) { static const AFS_FLAG flag[] = { #define f(F) { F, _T(#F) } f(DICD_EDIT), f(DICD_DEFAULT) #undef f }; static const int flags = sizeof(flag) / sizeof(AFS_FLAG); return AllocFlagStr(dwFlags, flag, flags); } LPTSTR AllocActionFlagStr(DWORD dwFlags) { static const AFS_FLAG flag[] = { #define f(F) { F, _T(#F) } f(DIA_FORCEFEEDBACK), f(DIA_APPMAPPED), f(DIA_APPNOMAP), f(DIA_NORANGE), #undef f }; static const int flags = sizeof(flag) / sizeof(AFS_FLAG); return AllocFlagStr(dwFlags, flag, flags); } LPTSTR AllocActionHowFlagStr(DWORD dwFlags) { static const AFS_FLAG flag[] = { #define f(F) { F, _T(#F) } f(DIAH_UNMAPPED), f(DIAH_USERCONFIG), f(DIAH_APPREQUESTED), f(DIAH_HWAPP), f(DIAH_HWDEFAULT), f(DIAH_DEFAULT), f(DIAH_ERROR) #undef f }; static const int flags = sizeof(flag) / sizeof(AFS_FLAG); return AllocFlagStr(dwFlags, flag, flags); } void CleanupActionFormatCopy(DIACTIONFORMATW &c) { if (c.rgoAction != NULL) { for (DWORD i = 0; i < c.dwNumActions; i++) if (c.rgoAction[i].lptszActionName != NULL) free((LPTSTR)c.rgoAction[i].lptszActionName); free(c.rgoAction); } c.rgoAction = NULL; } HRESULT CopyActionFormat(DIACTIONFORMATW &to, const DIACTIONFORMATW &from) { DWORD i; // copy all simple members to = from; // null copied pointers since we're going to duplicate them (makes sure cleanup works) to.rgoAction = NULL; // handle pointers/arrays/strings to.rgoAction = new DIACTIONW [to.dwNumActions]; if (to.rgoAction == NULL) goto fail; // first null it all memset(to.rgoAction, 0, sizeof(DIACTIONW) * to.dwNumActions); // now copy... for (i = 0; i < to.dwNumActions; i++) { // copy simple members to.rgoAction[i] = from.rgoAction[i]; // handle pointers/arrays/strings to.rgoAction[i].lptszActionName = _wcsdup(from.rgoAction[i].lptszActionName); if (to.rgoAction[i].lptszActionName == NULL) goto fail; } return S_OK; fail: CleanupActionFormatCopy(to); return E_OUTOFMEMORY; } LPDIACTIONFORMATW DupActionFormat(LPCDIACTIONFORMATW lpAcFor) { if (!lpAcFor) return NULL; LPDIACTIONFORMATW pdup = new DIACTIONFORMATW; if (!pdup) return NULL; if (FAILED(CopyActionFormat(*pdup, *lpAcFor))) { delete pdup; return NULL; } return pdup; } void FreeActionFormatDup(LPDIACTIONFORMATW &lpAcFor) { if (!lpAcFor) return; CleanupActionFormatCopy(*lpAcFor); delete lpAcFor; lpAcFor = NULL; } void TraceActionFormat(LPTSTR header, const DIACTIONFORMATW &acf) { #ifdef CFGUI__TRACE_ACTION_FORMATS tracescope(a, header); trace(_T("\n")); traceDWORD(acf.dwSize); traceDWORD(acf.dwActionSize); traceDWORD(acf.dwDataSize); traceDWORD(acf.dwNumActions); {tracescope(b, _T("acf.rgoAction Array\n")); for (DWORD i = 0; i < acf.dwNumActions; i++) { const DIACTIONW &a = acf.rgoAction[i]; static TCHAR buf[MAX_PATH]; _stprintf(buf, _T("Action %d\n"), i); {tracescope(c, buf); traceHEX(a.uAppData); traceDWORD(a.dwSemantic); LPTSTR str = AllocActionFlagStr(a.dwFlags); trace1(_T("a.dwFlags = %s\n"), str); free(str); traceWSTR(a.lptszActionName); traceUINT(a.uResIdString); traceDWORD(a.dwObjID); traceGUID(a.guidInstance); str = AllocActionHowFlagStr(a.dwHow); trace1(_T("a.dwHow = %s\n"), str); free(str); } } } traceGUID(acf.guidActionMap); traceDWORD(acf.dwGenre); traceDWORD(acf.dwBufferSize); traceLONG(acf.lAxisMin); traceLONG(acf.lAxisMax); traceHEX(acf.hInstString); traceHEX(acf.dwCRC); traceWSTR(acf.tszActionMap); #endif } BOOL IsZeroOrInvalidColorSet(const DICOLORSET &cs) { if (cs.dwSize < sizeof(DICOLORSET)) return TRUE; const int colors = 8; D3DCOLOR color[colors] = { cs.cTextFore, cs.cTextHighlight, cs.cCalloutLine, cs.cCalloutHighlight, cs.cBorder, cs.cControlFill, cs.cHighlightFill, cs.cAreaFill }; for (int i = 0; i < colors; i++) if (color[i]) return FALSE; return TRUE; } // D3DCOLOR2COLORREF swaps the blue and red components since GDI and D3D store RGB in the opposite order. // It also removes the alpha component as the GDI doesn't use that, and including it causes incorrect color. COLORREF D3DCOLOR2COLORREF(D3DCOLOR c) { LPBYTE pC = (LPBYTE)&c; return (COLORREF)((DWORD(*pC) << 16) + (DWORD(*(pC+1)) << 8) + DWORD(*(pC+2))); }