#include "boo/inputdev/DeviceSignature.hpp" #include "boo/inputdev/DeviceToken.hpp" #include "boo/inputdev/GenericPad.hpp" #include "IHIDDevice.hpp" namespace boo { extern const DeviceSignature BOO_DEVICE_SIGS[]; bool DeviceSignature::DeviceMatchToken(const DeviceToken& token, const TDeviceSignatureSet& sigSet) { if (token.getDeviceType() == DeviceToken::DEVTYPE_GENERICHID) return true; for (const DeviceSignature* sig : sigSet) { if (sig->m_vid == token.getVendorId() && sig->m_pid == token.getProductId()) return true; } return false; } IHIDDevice* IHIDDeviceNew(DeviceToken& token, DeviceBase& devImp); DeviceBase* DeviceSignature::DeviceNew(DeviceToken& token) { DeviceBase* retval = NULL; /* Early-return for generic HID devices */ if (token.getDeviceType() == DeviceToken::DEVTYPE_GENERICHID) { retval = new GenericPad(&token); if (!retval) return NULL; IHIDDevice* newDev = IHIDDeviceNew(token, *retval); if (!newDev) { delete retval; return NULL; } return retval; } /* Otherwise perform signature-matching to find the appropriate device-factory */ const DeviceSignature* foundSig = NULL; const DeviceSignature* sigIter = BOO_DEVICE_SIGS; unsigned targetVid = token.getVendorId(); unsigned targetPid = token.getProductId(); while (sigIter->m_name) { if (sigIter->m_vid == targetVid && sigIter->m_pid == targetPid) { foundSig = sigIter; break; } ++sigIter; } if (!foundSig) return NULL; retval = foundSig->m_factory(&token); if (!retval) return NULL; IHIDDevice* newDev = IHIDDeviceNew(token, *retval); if (!newDev) { delete retval; return NULL; } return retval; } }