/*! TheGood AHKHID - An AHK implementation of the HID functions. Last updated: June 14th, 2010 USING THE CONSTANTS: If you explicitly #include AHKHID in your script, you will have all the constants available to you. Otherwise, if AHKHID is in your library folder and you do not wish to explicitly #include it, you can call AHKHID_UseConstants() to have the constants available to you. FUNCTION LIST: _____________________ AHKHID_UseConstants() See the section above titled "USING THE CONSTANTS" ___________________________________ AHKHID_Initialize(bRefresh = False) You don't have to call this function manually. It is automatically called by other functions to get the pointer of the RAWINPUTDEVICELIST struct array. However, if a new device is plugged in, you will have to refresh the listing by calling it with bRefresh = True. Returns -1 on error (with error message in ErrorLevel). ____________________ AHKHID_GetDevCount() Returs the number of HID devices connected to this computer. Returns -1 on error (with error message in ErrorLevel). ______________________ AHKHID_GetDevHandle(i) Returns the handle of device i (starts at 1). Mostly used internally for API calls. __________________________ AHKHID_GetDevIndex(Handle) Returns the index (starts at 1) of the device in the enumeration with matching handle. Returns 0 if not found. ______________________________________ AHKHID_GetDevType(i, IsHandle = False) Returns the type of the device. See the RIM_ constants for possible values. If IsHandle is false, then i is considered the index (starts at 1) of the device in the enumeration. Otherwise it is the handle of the device. ______________________________________ AHKHID_GetDevName(i, IsHandle = False) Returns the name of the device (or empty string on error, with error message in ErrorLevel). If IsHandle is false, then i is considered the index (starts at 1) of the device in the enumeration. Otherwise it is the handle of the device. ____________________________________________ AHKHID_GetDevInfo(i, Flag, IsHandle = False) Retrieves info from the RID_DEVICE_INFO struct. To retrieve a member, simply use the corresponding flag. A list of flags can be found at the top of the script (the constants starting with DI_). Each flag corresponds to a member in the struct. If IsHandle is false, then i is considered the index (starts at 1) of the device in the enumeration. Otherwise it is the handle of the device. Returns -1 on error (with error message in ErrorLevel). See Example 1 for an example on how to use it. _______________________________________________________________________________ AHKHID_AddRegister(UsagePage = False, Usage = False, Handle = False, Flags = 0) Allows you to queue up RAWINPUTDEVICE structures before doing the registration. To use it, you first need to initialize the variable by calling AHKHID_AddRegister(iNumberOfElements). To then add to the stack, simply call it with the parameters you want (eg. AHKHID_AddRegister(1,6,MyGuiHandle) for keyboards). When you're finally done, you just have to call AHKHID_Register() with no parameters. The function returns -1 if the struct is full. Redimensioning the struct will erase all previous structs added. On success, it returns the address of the array of structs (if you'd rather manipulate it yourself). See Example 2 for an example on how to use it. You will need to do this if you want to use advance features of the RAWINPUTDEVICE flags. For example, if you want to register all devices using Usage Page 1 but would like to exclude devices of Usage Page 1 using Usage 2 (keyboards), then you need to place two elements in the array. The first one is AHKHID_AddRegister(1,0,MyGuiHandle,RIDEV_PAGEONLY) and the second one is AHKHID_AddRegister(1,2,MyGuiHandle,RIDEV_EXCLUDE). Tip: Have a look at all the flags you can use (see the constants starting with RIDEV_). The most useful is RIDEV_INPUTSINK. Tip: Set Handle to 0 if you want the WM_INPUT messages to go to the window with keyboard focus. Tip: To unregister, use the flag RIDEV_REMOVE. Note that you also need to use the RIDEV_PAGEONLY flag if the TLC was registered with it. ____________________________________________________________________________ AHKHID_Register(UsagePage = False, Usage = False, Handle = False, Flags = 0) This function can be used in two ways. If no parameters are specified, it will use the RAWINPUTDEVICE array created through AHKHID_AddRegister() and register. Otherwise, it will register only the specified parameters. For example, if you just want to register the mouse, you can simply do AHKHID_Register(1,2,MyGuiHandle). Returns 0 on success, returns -1 on error (with error message in ErrorLevel). See Example 2 for an example on how to use it with the RAWINPUTDEVICE. See Example 3 for an example on how to use it only with the specified parameters. ____________________________________ AHKHID_GetRegisteredDevs(ByRef uDev) This function allows you to get an array of the TLCs that have already been registered. It fills uDev with an array of RAWINPUTDEVICE and returns the number of elements in the array. Returns -1 on error (with error message in ErrorLevel). See Example 2 for an example on how to use it. ______________________________________ AHKHID_GetInputInfo(InputHandle, Flag) This function is used to retrieve the data upon receiving WM_INPUT messages. By passing the lParam of the WM_INPUT (0xFF00) messages, it can retrieve all the members of the RAWINPUT structure, except the raw data coming from HID devices (use AHKHID_GetInputData for that). To retrieve a member, simply specify the flag corresponding to the member you want, and call the function. A list of all the flags can be found at the top of this script (the constants starting with II_). Returns -1 on error (with error message in ErrorLevel). See Example 2 for an example on how to use it to retrieve each member of the structure. See Example 3 for an example on how to interpret members which represent flags. Tip: You have to use Critical in your message function or you might get invalid handle errors. Tip: You can check the value of wParam to know if the application was in the foreground upon reception (see RIM_INPUT). _____________________________________________ AHKHID_GetInputData(InputHandle, ByRef uData) This function is used to retrieve the data sent by HID devices of type RIM_TYPEHID (ie. neither keyboard nor mouse) upon receiving WM_INPUT messages. CAUTION: it does not check if the device is indeed of type HID. It is up to you to do so (you can use GetInputInfo for that). Specify the lParam of the WM_INPUT (0xFF00) message and the function will put in uData the raw data received from the device. It will then return the size (number of bytes) of uData. Returns -1 on error (with error message in ErrorLevel). See Example 2 for an example on how to use it (although you need an HID device of type RIM_TYPEHID to test it). */ AHKHID_Included := True AHKHID_SetConstants: ;______________________________________ ;Flags you can use in AHKHID_GetDevInfo DI_DEVTYPE := 4 ;Type of the device. See RIM_ constants. DI_MSE_ID := 8 ;ID for the mouse device. DI_MSE_NUMBEROFBUTTONS := 12 ;Number of buttons for the mouse. DI_MSE_SAMPLERATE := 16 ;Number of data points per second. This information may not be applicable for every ;mouse device. DI_MSE_HASHORIZONTALWHEEL := 20 ;Vista and later only: TRUE if the mouse has a wheel for horizontal scrolling; ;otherwise, FALSE. DI_KBD_TYPE := 8 ;Type of the keyboard. DI_KBD_SUBTYPE := 12 ;Subtype of the keyboard. DI_KBD_KEYBOARDMODE := 16 ;Scan code mode. DI_KBD_NUMBEROFFUNCTIONKEYS := 20 ;Number of function keys on the keyboard. DI_KBD_NUMBEROFINDICATORS := 24 ;Number of LED indicators on the keyboard. DI_KBD_NUMBEROFKEYSTOTAL := 28 ;Total number of keys on the keyboard. DI_HID_VENDORID := 8 ;Vendor ID for the HID. DI_HID_PRODUCTID := 12 ;Product ID for the HID. DI_HID_VERSIONNUMBER := 16 ;Version number for the HID. DI_HID_USAGEPAGE := 20 | 0x0100 ;Top-level collection Usage Page for the device. DI_HID_USAGE := 22 | 0x0100 ;Top-level collection Usage for the device. ;_____________________________________ ;Flags you can use in HID_GetInputInfo II_DEVTYPE := 0 ;Type of the device generating the raw input data. See RIM_ constants. II_DEVHANDLE := 8 ;Handle to the device generating the raw input data. II_MSE_FLAGS := 16 | 0x0100 ;Mouse state. This member can be any reasonable combination of the following values ; -> see MOUSE constants. II_MSE_BUTTONFLAGS := 20 | 0x0100 ;Transition state of the mouse buttons. This member can be one or more of the following ;values -> see RI_MOUSE constants. II_MSE_BUTTONDATA := 22 | 0x1100 ;If usButtonFlags is RI_MOUSE_WHEEL, this member is a signed value that specifies the ;wheel delta. II_MSE_RAWBUTTONS := 24 ;Raw state of the mouse buttons. II_MSE_LASTX := 28 | 0x1000 ;Motion in the X direction. This is signed relative motion or absolute motion, ;depending on the value of usFlags. II_MSE_LASTY := 32 | 0x1000 ;Motion in the Y direction. This is signed relative motion or absolute motion, ;depending on the value of usFlags. II_MSE_EXTRAINFO := 36 ;Device-specific additional information for the event. II_KBD_MAKECODE := 16 | 0x0100 ;Scan code from the key depression. The scan code for keyboard overrun is ;KEYBOARD_OVERRUN_MAKE_CODE. II_KBD_FLAGS := 18 | 0x0100 ;Flags for scan code information. It can be one or more of the following values ;-> see RI_KEY constants. II_KBD_VKEY := 22 | 0x0100 ;Microsoft Windows message compatible virtual-key code. II_KBD_MSG := 24 ;Corresponding window message, for example WM_KEYDOWN, WM_SYSKEYDOWN, and so forth. II_KBD_EXTRAINFO := 28 ;Device-specific additional information for the event. II_HID_SIZE := 16 ;Size, in bytes, of each HID input in bRawData. II_HID_COUNT := 20 ;Number of HID inputs in bRawData. ;DO NOT USE WITH AHKHID_GetInputInfo. Use AHKHID_GetInputData instead to retrieve the raw data. II_HID_DATA := 24 ;Raw input data as an array of bytes. ;__________________________________________________________________________________ ;Device type values returned by AHKHID_GetDevType as well as DI_DEVTYPE and II_DEVTYPE ;http://msdn.microsoft.com/en-us/library/ms645568 RIM_TYPEMOUSE := 0 ;The device is a mouse. RIM_TYPEKEYBOARD := 1 ;The device is a keyboard. RIM_TYPEHID := 2 ;The device is an Human Interface Device (HID) that is not a keyboard and not a mouse. ;_______________________________________________________________________________________________ ;Different flags for RAWINPUTDEVICE structure (to be used with AHKHID_AddRegister and AHKHID_Register) ;http://msdn.microsoft.com/en-us/library/ms645565 RIDEV_REMOVE := 0x00000001 ;If set, this removes the top level collection from the inclusion list. This tells the ;operating system to stop reading from a device which matches the top level collection. RIDEV_EXCLUDE := 0x00000010 ;If set, this specifies the top level collections to exclude when reading a complete ;usage page. This flag only affects a TLC whose usage page is already specified with ;RIDEV_PAGEONLY. RIDEV_PAGEONLY := 0x00000020 ;If set, this specifies all devices whose top level collection is from the specified ;usUsagePage. Note that usUsage must be zero. To exclude a particular top level ;collection, use RIDEV_EXCLUDE. RIDEV_NOLEGACY := 0x00000030 ;If set, this prevents any devices specified by usUsagePage or usUsage from generating ;legacy messages. This is only for the mouse and keyboard. See Remarks. RIDEV_INPUTSINK := 0x00000100 ;If set, this enables the caller to receive the input even when the caller is not in ;the foreground. Note that hwndTarget must be specified. RIDEV_CAPTUREMOUSE := 0x00000200 ;If set, the mouse button click does not activate the other window. RIDEV_NOHOTKEYS := 0x00000200 ;If set, the application-defined keyboard device hotkeys are not handled. However, the ;system hotkeys; for example, ALT+TAB and CTRL+ALT+DEL, are still handled. By default, ;all keyboard hotkeys are handled. RIDEV_NOHOTKEYS can be specified even if ;RIDEV_NOLEGACY is not specified and hwndTarget is NULL. RIDEV_APPKEYS := 0x00000400 ;Microsoft Windows XP Service Pack 1 (SP1): If set, the application command keys are ;handled. RIDEV_APPKEYS can be specified only if RIDEV_NOLEGACY is specified for a ;keyboard device. RIDEV_EXINPUTSINK := 0x00001000 ;Vista and later only: If set, this enables the caller to receive input in the ;background only if the foreground application does not process it. In other words, if ;the foreground application is not registered for raw input, then the background ;application that is registered will receive the input. RIDEV_DEVNOTIFY := 0x00002000 ;Vista and later only: If set, this enables the caller to receive WM_INPUT_DEVICE_CHANGE ;notifications for device arrival and device removal. ;__________________________________________________ ;Different values of wParam in the WM_INPUT message ;http://msdn.microsoft.com/en-us/library/ms645590 RIM_INPUT := 0 ;Input occurred while the application was in the foreground. The application must call ;DefWindowProc so the system can perform cleanup. RIM_INPUTSINK := 1 ;Input occurred while the application was not in the foreground. The application must call ;DefWindowProc so the system can perform the cleanup. ;__________________________________ ;Flags for GetRawInputData API call ;http://msdn.microsoft.com/en-us/library/ms645596 RID_INPUT := 0x10000003 ;Get the raw data from the RAWINPUT structure. RID_HEADER := 0x10000005 ;Get the header information from the RAWINPUT structure. ;_____________________________________ ;Flags for RAWMOUSE (part of RAWINPUT) ;http://msdn.microsoft.com/en-us/library/ms645578 ;Flags for the II_MSE_FLAGS member MOUSE_MOVE_RELATIVE := 0 ;Mouse movement data is relative to the last mouse position. MOUSE_MOVE_ABSOLUTE := 1 ;Mouse movement data is based on absolute position. MOUSE_VIRTUAL_DESKTOP := 0x02 ;Mouse coordinates are mapped to the virtual desktop (for a multiple monitor system) MOUSE_ATTRIBUTES_CHANGED := 0x04 ;Mouse attributes changed; application needs to query the mouse attributes. ;Flags for the II_MSE_BUTTONFLAGS member RI_MOUSE_LEFT_BUTTON_DOWN := 0x0001 ;Self-explanatory RI_MOUSE_LEFT_BUTTON_UP := 0x0002 ;Self-explanatory RI_MOUSE_RIGHT_BUTTON_DOWN := 0x0004 ;Self-explanatory RI_MOUSE_RIGHT_BUTTON_UP := 0x0008 ;Self-explanatory RI_MOUSE_MIDDLE_BUTTON_DOWN := 0x0010 ;Self-explanatory RI_MOUSE_MIDDLE_BUTTON_UP := 0x0020 ;Self-explanatory RI_MOUSE_BUTTON_4_DOWN := 0x0040 ;XBUTTON1 changed to down. RI_MOUSE_BUTTON_4_UP := 0x0080 ;XBUTTON1 changed to up. RI_MOUSE_BUTTON_5_DOWN := 0x0100 ;XBUTTON2 changed to down. RI_MOUSE_BUTTON_5_UP := 0x0200 ;XBUTTON2 changed to up. RI_MOUSE_WHEEL := 0x0400 ;Raw input comes from a mouse wheel. The wheel delta is stored in usButtonData. ;____________________________________________ ;Flags for the RAWKEYBOARD (part of RAWINPUT) ;http://msdn.microsoft.com/en-us/library/ms645575 ;Flag for the II_KBD_MAKECODE member in the event of a keyboard overrun KEYBOARD_OVERRUN_MAKE_CODE := 0xFF ;Flags for the II_KBD_FLAGS member RI_KEY_MAKE := 0 RI_KEY_BREAK := 1 RI_KEY_E0 := 2 RI_KEY_E1 := 4 RI_KEY_TERMSRV_SET_LED := 8 RI_KEY_TERMSRV_SHADOW := 0x10 ;____________________________________ ;AHKHID FUNCTIONS If Not AHKHID_Included Return AHKHID_UseConstants() { Global ;To make the constants global AHKHID_Included := False Gosub, AHKHID_SetConstants } AHKHID_Initialize(bRefresh = False) { Static uHIDList, bInitialized := False If bInitialized And Not bRefresh Return &uHIDList ;Get the device count r := DllCall("GetRawInputDeviceList", "UInt", 0, "UInt*", iCount, "UInt", 8) ;Check for error If (r = -1) Or ErrorLevel { ErrorLevel = GetRawInputDeviceList call failed.`nReturn value: %r%`nErrorLevel: %ErrorLevel%`nLine: %A_LineNumber%`nLast Error: %A_LastError% Return -1 } ;Prep var VarSetCapacity(uHIDList, iCount * 8) r := DllCall("GetRawInputDeviceList", "UInt", &uHIDList, "UInt*", iCount, "UInt", 8) If (r = -1) Or ErrorLevel { ErrorLevel = GetRawInputDeviceList call failed.`nReturn value: %r%`nErrorLevel: %ErrorLevel%`nLine: %A_LineNumber%`nLast Error: %A_LastError% Return -1 } bInitialized := True Return &uHIDList } AHKHID_GetDevCount() { ;Get the device count r := DllCall("GetRawInputDeviceList", "UInt", 0, "UInt*", iCount, "UInt", 8) ;Check for error If (r = -1) Or ErrorLevel { ErrorLevel = GetRawInputDeviceList call failed.`nReturn value: %r%`nErrorLevel: %ErrorLevel%`nLine: %A_LineNumber%`nLast Error: %A_LastError% Return -1 } Else Return iCount } AHKHID_GetDevHandle(i) { Return NumGet(AHKHID_Initialize(), (i - 1) * 8) } AHKHID_GetDevIndex(Handle) { Loop % AHKHID_GetDevCount() If (NumGet(AHKHID_Initialize(), (A_Index - 1) * 8) = Handle) Return A_Index Return 0 } AHKHID_GetDevType(i, IsHandle = False) { Return Not IsHandle ? NumGet(AHKHID_Initialize(), ((i - 1) * 8) + 4) : NumGet(AHKHID_Initialize(), ((AHKHID_GetDevIndex(i) - 1) * 8) + 4) } AHKHID_GetDevName(i, IsHandle = False) { ;Get index if i is handle h := IsHandle ? i : AHKHID_GetDevHandle(i) ;Get device name length. RIDI_DEVICENAME r := DllCall("GetRawInputDeviceInfo", "UInt", h, "UInt", 0x20000007, "UInt", 0, "UInt*", iLength) If (r = -1) Or ErrorLevel { ErrorLevel = GetRawInputDeviceInfo call failed.`nReturn value: %r%`nErrorLevel: %ErrorLevel%`nLine: %A_LineNumber%`nLast Error: %A_LastError% Return "" } ;Get device name. VarSetCapacity(s, iLength + 1) ;RIDI_DEVICENAME r := DllCall("GetRawInputDeviceInfo", "UInt", h, "UInt", 0x20000007, "Str", s, "UInt*", iLength) If (r = -1) Or ErrorLevel { ErrorLevel = GetRawInputDeviceInfo call failed.`nReturn value: %r%`nErrorLevel: %ErrorLevel%`nLine: %A_LineNumber%`nLast Error: %A_LastError% Return "" } Return s } AHKHID_GetDevInfo(i, Flag, IsHandle = False) { Static uInfo, iLastHandle := 0 ;Get index if i is handle h := IsHandle ? i : AHKHID_GetDevHandle(i) ;Check if the handle changed If (h = iLastHandle) ;It's the same device. No need to call again Return NumGet(uInfo, Flag, AHKHID_NumIsShort(Flag) ? "UShort" : "UInt") Else { ;Get device info buffer size. RIDI_DEVICEINFO r := DllCall("GetRawInputDeviceInfo", "UInt", h, "UInt", 0x2000000b, "UInt", 0, "UInt*", iLength) If (r = -1) Or ErrorLevel { ErrorLevel = GetRawInputDeviceInfo call failed.`nReturn value: %r%`nErrorLevel: %ErrorLevel%`nLine: %A_LineNumber%`nLast Error: %A_LastError% Return -1 } ;Get device info VarSetCapacity(uInfo, iLength) NumPut(iLength, uInfo) ;Put length in struct RIDI_DEVICEINFO r := DllCall("GetRawInputDeviceInfo", "UInt", h, "UInt", 0x2000000b, "UInt", &uInfo, "UInt*", iLength) If (r = -1) Or ErrorLevel { ErrorLevel = GetRawInputDeviceInfo call failed.`nReturn value: %r%`nErrorLevel: %ErrorLevel%`nLine: %A_LineNumber%`nLast Error: %A_LastError% Return -1 } ;Successful. Keep handle. iLastHandle := h ;Retrieve data Return NumGet(uInfo, Flag, AHKHID_NumIsShort(Flag) ? "UShort" : "UInt") } Return 0 } AHKHID_AddRegister(UsagePage = False, Usage = False, Handle = False, Flags = 0) { Static uDev, iIndex := 0, iCount := 0 ;Check if we just want the address If Not (UsagePage Or Usage Or Handle Or Flags) Return &uDev ;Check if we just want the count Else If (UsagePage = "Count") Return iCount ;Check if we're dimensioning the struct Else If UsagePage And Not (Usage Or Handle Or Flags) { iCount := UsagePage iIndex := 0 VarSetCapacity(uDev, iCount * 12) Return &uDev } ;Check if there's space before adding data to struct If (iIndex = iCount) Return -1 ;Full capacity ;Check if hwnd needs to be null. RIDEV_REMOVE, RIDEV_EXCLUDE Handle := ((Flags & 0x00000001) Or (Flags & 0x00000010)) ? 0 : Handle ;Put in struct NumPut(UsagePage, uDev, (iIndex * 12) + 0, "UShort") NumPut(Usage, uDev, (iIndex * 12) + 2, "UShort") NumPut(Flags, uDev, (iIndex * 12) + 4) NumPut(Handle, uDev, (iIndex * 12) + 8) ;Move to next slot iIndex += 1 Return &uDev } AHKHID_Register(UsagePage = False, Usage = False, Handle = False, Flags = 0) { ;Check if we're using the AddRegister array or only a single struct If Not (UsagePage Or Usage Or Handle Or Flags) { ;Call r := DllCall("RegisterRawInputDevices", "UInt", AHKHID_AddRegister(), "UInt", AHKHID_AddRegister("Count"), "UInt", 12) ;Check for error If Not r { ErrorLevel = RegisterRawInputDevices call failed.`nReturn value: %r%`nErrorLevel: %ErrorLevel%`nLine: %A_LineNumber%`nLast Error: %A_LastError% Return -1 } ;Build struct and call } Else { ;Prep var VarSetCapacity(uDev, 12) ;Check if hwnd needs to be null. RIDEV_REMOVE, RIDEV_EXCLUDE Handle := ((Flags & 0x00000001) Or (Flags & 0x00000010)) ? 0 : Handle NumPut(UsagePage, uDev, 0, "UShort") NumPut(Usage, uDev, 2, "UShort") NumPut(Flags, uDev, 4) NumPut(Handle, uDev, 8) ;Call r := DllCall("RegisterRawInputDevices", "UInt", &uDev, "UInt", 1, "UInt", 12) ;Check for error If Not r { ErrorLevel = RegisterRawInputDevices call failed.`nReturn value: %r%`nErrorLevel: %ErrorLevel%`nLine: %A_LineNumber%`nLast Error: %A_LastError% Return -1 } } Return 0 } AHKHID_GetRegisteredDevs(ByRef uDev) { ;Get length VarSetCapacity(iCount, 4, 0) r := DllCall("GetRegisteredRawInputDevices", "UInt", 0, "UInt*", iCount, "UInt", 12) If ErrorLevel { ErrorLevel = GetRegisteredRawInputDevices call failed.`nReturn value: %r%`nErrorLevel: %ErrorLevel%`nLine: %A_LineNumber%`nLast Error: %A_LastError% Return -1 } If (iCount > 0) { ;Prep var VarSetCapacity(uDev, iCount * 12) ;Call r := DllCall("GetRegisteredRawInputDevices", "UInt", &uDev, "UInt*", iCount, "UInt", 12) If (r = -1) Or ErrorLevel { ErrorLevel = GetRegisteredRawInputDevices call failed.`nReturn value: %r%`nErrorLevel: %ErrorLevel%`nLine: %A_LineNumber%`nLast Error: %A_LastError% Return -1 } } Return iCount } AHKHID_GetInputInfo(InputHandle, Flag) { Static uRawInput, iLastHandle := 0 ;Check if it's the same handle If (InputHandle = iLastHandle) ;We can retrieve the data without having to call again Return NumGet(uRawInput, Flag, AHKHID_NumIsShort(Flag) ? (AHKHID_NumIsSigned(Flag) ? "Short" : "UShort") : (AHKHID_NumIsSigned(Flag) ? "Int" : "UInt")) Else { ;We need to get a fresh copy ;Get raw data size RID_INPUT r := DllCall("GetRawInputData", "UInt", InputHandle, "UInt", 0x10000003, "UInt", 0, "UInt*", iSize, "UInt", 16) If (r = -1) Or ErrorLevel { ErrorLevel = GetRawInputData call failed.`nReturn value: %r%`nErrorLevel: %ErrorLevel%`nLine: %A_LineNumber%`nLast Error: %A_LastError% Return -1 } ;Prep var VarSetCapacity(uRawInput, iSize) ;Get raw data RID_INPUT r := DllCall("GetRawInputData", "UInt", InputHandle, "UInt", 0x10000003, "UInt", &uRawInput, "UInt*", iSize, "UInt", 16) If (r = -1) Or ErrorLevel { ErrorLevel = GetRawInputData call failed.`nReturn value: %r%`nErrorLevel: %ErrorLevel%`nLine: %A_LineNumber%`nLast Error: %A_LastError% Return -1 } Else If (r <> iSize) { ErrorLevel = GetRawInputData did not return the correct size.`nSize returned: %r%`nSize allocated: %iSize% Return -1 } ;Keep handle reference of current uRawInput iLastHandle := InputHandle ;Retrieve data Return NumGet(uRawInput, Flag, AHKHID_NumIsShort(Flag) ? (AHKHID_NumIsSigned(Flag) ? "Short" : "UShort") : (AHKHID_NumIsSigned(Flag) ? "Int" : "UInt")) } Return 0 } AHKHID_GetInputData(InputHandle, ByRef uData) { ;Get raw data size RID_INPUT r := DllCall("GetRawInputData", "UInt", InputHandle, "UInt", 0x10000003, "UInt", 0, "UInt*", iSize, "UInt", 16) If (r = -1) Or ErrorLevel { ErrorLevel = GetRawInputData call failed.`nReturn value: %r%`nErrorLevel: %ErrorLevel%`nLine: %A_LineNumber%`nLast Error: %A_LastError% Return -1 } ;Prep var VarSetCapacity(uRawInput, iSize) ;Get raw data RID_INPUT r := DllCall("GetRawInputData", "UInt", InputHandle, "UInt", 0x10000003, "UInt", &uRawInput, "UInt*", iSize, "UInt", 16) If (r = -1) Or ErrorLevel { ErrorLevel = GetRawInputData call failed.`nReturn value: %r%`nErrorLevel: %ErrorLevel%`nLine: %A_LineNumber%`nLast Error: %A_LastError% Return -1 } Else If (r <> iSize) { ErrorLevel = GetRawInputData did not return the correct size.`nSize returned: %r%`nSize allocated: %iSize% Return -1 } ;Get the size of each HID input and the number of them iSize := NumGet(uRawInput, 16) ;ID_HID_SIZE iCount := NumGet(uRawInput, 20) ;ID_HID_COUNT ;Allocate memory VarSetCapacity(uData, iSize * iCount) ;Copy bytes DllCall("RtlMoveMemory", UInt, &uData, UInt, &uRawInput + 24, UInt, iSize * iCount) Return (iSize * iCount) } ;Internal use only AHKHID_NumIsShort(ByRef Flag) { If (Flag & 0x0100) { Flag ^= 0x0100 ;Remove it Return True } Return False } ;Internal use only AHKHID_NumIsSigned(ByRef Flag) { If (Flag & 0x1000) { Flag ^= 0x1000 ;Remove it Return True } Return False }