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// Write back *(PUSHORT)(Packet->Buffer + X_OFFSET) = (USHORT)calibratedX; *(PUSHORT)(Packet->Buffer + Y_OFFSET) = (USHORT)calibratedY;
NTSTATUS EvtHidDeviceReadReport(DEVICE_OBJECT *DeviceObject, PHID_XFER_PACKET Packet) Kmdf Hid Minidriver For Touch I2c Device Calibration
// Write screen resolution to controller's internal mapping I2C_Write(Device, GT911_X_RESOLUTION, SCREEN_WIDTH); I2C_Write(Device, GT911_Y_RESOLUTION, SCREEN_HEIGHT); // Now the controller itself produces transformed coordinates // Write back *(PUSHORT)(Packet->
[ User Mode ] Touch API (WM_POINTER) ↑ [ Kernel Mode ] HID Class Driver (hidclass.sys) ↑ HID Transport Minidriver (Your Driver) ↑ KMDF I2C Lower Filter / HIDI2C Shim ↑ I2C Controller Driver (SpbCx) Your minidriver must implement the HID_DEVICE_EXTENSION structure and callback functions defined in hidport.h . However, for I2C calibration, we typically implement a (using HID_TRANSPORT_MINIDRIVER_REGISTRATION ) that attaches to the existing HID-I2C transport. 3. The Calibration Model: Linear Transformation Touchscreen calibration is a projective transformation. For most industrial I2C devices, we assume a simple linear mapping: Buffer + X_OFFSET) = (USHORT)calibratedX
#define GT911_X_RESOLUTION 0x8140 // Register for max X #define GT911_Y_RESOLUTION 0x8142 // Register for max Y VOID ApplyHardwareCalibration(WDFDEVICE Device)