Abstract:
The present disclosure generally relates to methods and user interfaces for authentication, including providing and controlling authentication at a computer system using an external device in accordance with some embodiments.
Abstract:
An electronic device provides, to a display, data to present a user interface that includes a plurality of user interface objects, and a current focus on a first user interface object. While the display is presenting the user interface, the electronic device receives an input that corresponds to a movement of a contact across on a touch-sensitive surface. The electronic device, in response to receiving the input and in accordance with a determination that a first axis is a dominant axis, moves the current focus along the first axis by a first amount and along the second axis by a second amount. The amount of movement of the current focus along the second axis is reduced to a first non-zero amount by a scaling factor that is based on one or more inputs received prior to receiving the input.
Abstract:
An electronic device, while displaying a user interface of a first software application, detects a first input, including a contact that does not satisfy a first threshold and is detected at a location associated with region of the user interface associated with at least a first operation. In response to the first input, if a first tactile output setting is active for the first input, the device performs the first operation without generating a tactile output, and if a second tactile output setting is active for the first input, the device forgoes performing the first operation. In response to a second input that includes a contact that satisfies the first intensity threshold and is detected at a location associated with the region of the user interface, if the second tactile output setting is active for the second input, the device performs the first operation and generates a tactile output.
Abstract:
An electronic device includes a touch-sensitive surface. The device detects a touch input on the touch-sensitive surface. In response to detecting the touch input, the device, in accordance with a determination that the touch input is at a location on the touch-sensitive surface that is associated with a first intensity model of a plurality of different intensity models, processes the touch input in accordance with an intensity applied by the touch input on the touch-sensitive surface and the first intensity model without generating a tactile output; and, in accordance with a determination that the touch input is at a location on the touch-sensitive surface that is associated with a second intensity model different from the first intensity model, processes the touch input in accordance with an intensity applied by the touch input on the touch-sensitive surface and the second intensity model, including conditionally generating a tactile output.
Abstract:
An electronic device detects a change in intensity of an input on an input element that includes detecting an increase in intensity followed by a decrease in intensity, and determines whether the first decrease in intensity of the input meets up-click detection criteria, which require that the intensity of the input decrease below a first up-click intensity threshold in order for the up-click detection criteria to be met. The first up-click intensity threshold is time varying, in accordance with the detected intensity of the input during the first decrease in intensity of the input. If the first decrease in intensity of the input meets the up-click detection criteria, first feedback is provided, indicating that the first decrease in intensity of the input was recognized as an up-click, and if the first decrease in intensity of the input does not meet the up-click detection criteria, the first feedback is not provided.
Abstract:
An electronic device detects a change in intensity of an input on an input element that includes detecting an increase in intensity followed by a decrease in intensity, and recognizes at least a portion of the change in intensity of the input as a first input event that is associated with a first operation, for example a single click operation. After recognizing the first input event, the device delays performance of the first operation while monitoring subsequent changes in intensity of the input for a second input event, wherein the delay is limited by a default delay time period. If the second event is recognized before default delay time period has elapsed, a second operation is performed and the first operation is not performed. However, if early-confirmation criteria for the first input event are met before the default delay period elapses, the first operation is performed.
Abstract:
An electronic device includes a touch-sensitive surface. The electronic device includes one or more sensors to detect intensity of contacts with the touch-sensitive surface. The device detects a first touch input on the touch-sensitive surface, and, in response to detecting the first touch input on the touch-sensitive surface, determines a first intensity applied by the first touch input on the touch-sensitive surface. The device identifies a first intensity model identifier from a plurality of predefined intensity model identifiers, and, in accordance with the first intensity applied by the first touch input on the touch-sensitive surface and one or more thresholds associated with the first intensity model identifier, determines a first touch characterization parameter. Subsequent to determining the first touch characterization parameter, the device sends first touch information to the first software application. The first touch information includes the first intensity model identifier and the first touch characterization parameter.
Abstract:
An electronic device detects a first touch input on a first touch region of a touch-sensitive surface, and identifies a first intensity model identifier associated with the first touch region. In response to detecting the first touch input, the device determines a first intensity of the first touch input on the first touch region; determines a first touch characterization parameter; and, subsequently sends to a first software application the first touch characterization parameter. The device also detects a second touch input on a second touch region of the touch-sensitive surface, and identifies a second intensity model identifier associated with the second touch region. In response to detecting the second touch input, the device determines a second intensity of the second touch input on the second touch region; determines a second touch characterization parameter; and, subsequently sends to the first software application the second touch characterization parameter.
Abstract:
An electronic device provides, to a display, data to present a user interface that includes a plurality of user interface objects, and a current focus on a first user interface object. While the display is presenting the user interface, the electronic device receives an input that corresponds to a movement of a contact across on a touch-sensitive surface. The electronic device, in response to receiving the input and in accordance with a determination that a first axis is a dominant axis, moves the current focus along the first axis by a first amount and along the second axis by a second amount. The amount of movement of the current focus along the second axis is reduced to a first non-zero amount by a scaling factor that is based on one or more inputs received prior to receiving the input.
Abstract:
An electronic device detects an input sequence that includes an increase in intensity of an input that corresponds to a first input event. If the input sequence includes a second input event, including a decrease in intensity of the input after the first input event, a long press is not detected and a first operation is performed. If the second input event is not detected within a second time period that is longer than the first time period and the input had a characteristic intensity above a respective intensity threshold between when the first input event was detected and when the second time period elapsed, a long press is detected on an accelerated basis, and a second operation is performed. Finally, a long press is detected if the second input event is not detected within a longer, default time period, and the second operation is performed.