/** @page tablet-support Tablet support This page provides details about the graphics tablet support in libinput. Note that the term "tablet" in libinput refers to graphics tablets only (e.g. Wacom Intuos), not to tablet devices like the Apple iPad. @image html tablet.svg "Illustration of a graphics tablet" @section tablet-tools Tablet buttons vs. tablet tools Most tablets provide two types of devices. The pysical tablet often provides a number of buttons and a touch ring or strip. Interaction on the drawing surface of the tablet requires a tool, usually in the shape of a stylus. The libinput interface exposed by devices with the @ref LIBINPUT_DEVICE_CAP_TABLET_TOOL applies only to events generated by tools. Touch events on the tablet integrated into a screen itself are exposed through the @ref LIBINPUT_DEVICE_CAP_TOUCH capability. Touch events on a standalone tablet are exposed through the @ref LIBINPUT_DEVICE_CAP_POINTER capability. In both cases, the kernel usually provides a separate event node for the touch device, resulting in a separate libinput device. See libinput_device_get_device_group() for information on how to associate the touch part with other devices exposed by the same physical hardware. @section tablet-tip Tool tip events vs. button events The primary use of a tablet tool is to draw on the surface of the tablet. When the tool tip comes into contact with the surface, libinput sends an event of type @ref LIBINPUT_EVENT_TABLET_TOOL_TIP, and again when the tip ceases contact with the surface. Tablet tools may send button events; these are exclusively for extra buttons unrelated to the tip. A button event is independent of the tip and can while the tip is down or up. Some tablet tools' pressure detection is too sensitive, causing phantom touches when the user only slightly brushes the surfaces. For example, some tools are capable of detecting 1 gram of pressure. libinput uses a device-specific pressure threshold to determine when the tip is considered logically down. As a result, libinput may send a nonzero pressure value while the tip is logically up. Most application can and should ignore pressure information until they receive the event of type @ref LIBINPUT_EVENT_TABLET_TOOL_TIP. Applications that require extremely fine-grained pressure sensitivity should use the pressure data instead of the tip events. Note that the pressure threshold to trigger a logical tip event may be zero on some devices. On tools without pressure sensitivity, determining when a tip is down is device-specific. @section tablet-axes Special axes on tablet tools A tablet tool usually provides additional information beyond x/y positional information and the tip state. A tool may provide the distance to the tablet surface and the pressure exerted on the tip when in contact. Some tablets additionally provide tilt information along the x and y axis. @image html tablet-axes.svg "Illustration of the distance, pressure and tilt axes" The granularity and precision of these axes varies between tablet devices and cannot usually be mapped into a physical unit. libinput normalizes distance and pressure into the [0, 1] range and the tilt axes into the [-1, 1] range with 0 as the neutral point. While the normalization range is identical for these axes, a caller should not interpret identical values as identical across axes, i.e. a value v1 on the distance axis has no relation to the same value v1 on the pressure axis. @section tablet-fake-proximity Handling of proximity events libinput's @ref LIBINPUT_EVENT_TABLET_TOOL_PROXIMITY events notify a caller when a tool comes into sensor range or leaves the sensor range. On some tools this range does not represent the physical range but a reduced tool-specific logical range. If the range is reduced, this is done transparent to the caller. For example, the Wacom mouse and lens cursor tools are usually used in relative mode, lying flat on the tablet. Movement typically follows the interaction normal mouse movements have, i.e. slightly lift the tool and place it in a separate location. The proximity detection on Wacom tablets however extends further than the user may lift the mouse, i.e. the tool may not be lifted out of physical proximity. For such tools, libinput provides software-emulated proximity. @section tablet-pressure-offset Pressure offset on worn-out tools When a tool is used for an extended period it can wear down physically. A worn-down tool may never return a zero pressure value. Even when hovering above the surface, the pressure value returned by the tool is nonzero, creating a fake surface touch and making interaction with the tablet less predictable. libinput automatically detects pressure offsets and rescales the remaining pressure range into the available range, making pressure-offsets transparent to the caller. A tool with a pressure offset will thus send a 0 pressure value for the detected offset and nonzero pressure values for values higher than that offset. Some limitations apply to avoid misdetection of pressure offsets, specifically: - pressure offset is only detected on proximity in, and if a device is capable of detection distances, - pressure offset is only detected if the distance between the tool and the tablet is high enough, - pressure offset is only used if it is 20% or less of the pressure range available to the tool. A pressure offset higher than 20% indicates either a misdetection or a tool that should be replaced, and - if a pressure value less than the current pressure offset is seen, the offset resets to that value. Pressure offsets are not detected on @ref LIBINPUT_TABLET_TOOL_TYPE_MOUSE and @ref LIBINPUT_TABLET_TOOL_TYPE_LENS tools. @section tablet-serial-numbers Tracking unique tools Some tools provide hardware information that enables libinput to uniquely identify the physical device. For example, tools compatible with the Wacom Intuos 4, Intuos 5, Intuos Pro and Cintiq series are uniquely identifiable through a serial number. libinput does not specify how a tool can be identified uniquely, a caller should use libinput_tablet_tool_is_unique() to check if the tool is unique. libinput creates a struct libinput_tablet_tool on the first proximity in of this tool. By default, this struct is destroyed on proximity out and re-initialized on the next proximity in. If a caller keeps a reference to the tool by using libinput_tablet_tool_ref() libinput re-uses this struct whenever that same physical tool comes into proximity on any tablet recognized by libinput. It is possible to attach tool-specific virtual state to the tool. For example, a graphics program such as the GIMP may assign a specific color to each tool, allowing the artist to use the tools like physical pens of different color. In multi-tablet setups it is also possible to track the tool across devices. If the tool does not have a unique identifier, libinput creates a single struct libinput_tablet_tool per tool type on each tablet the tool is used on. @section tablet-tool-types Vendor-specific tablet tool types libinput supports a number of high-level tool types that describe the general interaction expected with the tool. For example, a user would expect a tool of type @ref LIBINPUT_TABLET_TOOL_TYPE_PEN to interact with a graphics application taking pressure and tilt into account. The default virtual tool assigned should be a drawing tool, e.g. a virtual pen or brush. A tool of type @ref LIBINPUT_TABLET_TOOL_TYPE_ERASER would normally be mapped to an eraser-like virtual tool. See @ref libinput_tablet_tool_type for the list of all available tools. Vendors may provide more fine-grained information about the tool in use by adding a hardware-specific tool ID. libinput provides this ID to the caller with libinput_tablet_tool_get_tool_id() but makes no promises about the content or format of the ID. libinput currently supports Wacom-style tool IDs as provided on the Wacom Intuos 3, 4, 5, Wacon Cintiq and Wacom Intuos Pro series. The tool ID can be used to distinguish between e.g. a Wacom Classic Pen or a Wacom Pro Pen. It is the caller's responsibility to interpret the tool ID. */