Abstract: An electronic device can output a priming cue prior to outputting an alert on the electronic device. A priming cue can be a haptic priming cue, a visual priming cue, an audio priming cue, or various combinations of these priming cues. The priming cue can be perceived by a user either consciously or subconsciously and can increase a user's perceptual state for the alert.

Abstract: An electronic device, in response to detecting an event, makes determinations with respect to the type of event that was detected, and provides alerts with haptic components based on the determined event type. More specifically, in accordance with a determination that the event is a type of event in a first event class, the device provides a first alert that includes a first haptic component. In accordance with a determination that the event is a type of event in a second event class, the device provides a second alert that includes a second haptic component different from the first haptic component; and in accordance with a determination that the event is a type of event in a third event class, the device provides a third alert that includes a third haptic component, different from the first haptic component and the second haptic component.

Abstract: An electronic watch may include a tactile switch and/or one or more sensors for detecting rotational and translational inputs. The watch may include a display configured to produce graphical outputs that may change in response to rotational inputs, translational inputs, and/or touch inputs received at the display. The watch include a crown positioned along an exterior of the watch enclosure and a shaft coupled to the crown and extending into the enclosure. The tactile switch and/or the one or more sensors may be used to detect rotational and/or translational inputs provided at the crown.

Abstract: A method of providing a haptic output includes detecting a condition; determining if a head-mounted haptic accessory comprising an array of two or more haptic actuators is being worn by a user; determining an actuation pattern for the array of haptic actuators; and in response to detecting the condition and determining that the head-mounted haptic accessory is being worn by the user, initiating the actuation pattern to produce a directional haptic output that is configured to direct the user's attention along a direction.

Abstract: An electronic device includes a display and an input region separate from the display. The device detects a first portion of a first input on the input region. In response to detecting the first portion of the first input: if the first portion of the first input meets first criteria that do not require a characteristic intensity of the first input to increase above a first intensity threshold in order to be met, the device displays a precursor object of a user interface object that includes one or more selectable options. While displaying the precursor object, a second portion of the first input is detected on the input region, wherein an intensity of the first input increases above the first intensity threshold. In response to detecting the increase in intensity, the device reveals the user interface object by an amount that varies with a current intensity of the first input.

Abstract: The present disclosure generally relates to content-based tactile outputs. In some embodiments, user interfaces associated with content-based tactile outputs are described. In some embodiments, user interfaces associated with end-of-content tactile outputs are described. In some embodiments, user interfaces associated with moving a user interface in response to different types of input are described. In some embodiments, user interfaces associated with adjustable item-based tactile outputs are described. In some embodiments, user interfaces associated with input velocity-based tactile outputs are described.

Abstract: Embodiments of the present disclosure provide a system and method for providing an output for an electronic device. In certain embodiments, an alert is output in accordance with a current alert mode, which are selected based on one or more environmental conditions. The environmental conditions may be detected using one or more environmental sensors. The alert can optionally include one or more of: an audio component, a haptic component and a visual component. One or more of alert components correspond to an aspect of the environmental condition detected by the one or more environmental sensors.

Abstract: An electronic device receives a first set of one or more inputs corresponding to user interface elements displayed on the display and a first set of one or more tactile outputs, and also receives a second set of one or more inputs corresponding to one or more hardware elements and a second set of one or more tactile outputs. In response, in accordance with a determination that the first set of one or more tactile outputs and the second set of one or more tactile outputs overlap, the device outputs, with one or more tactile output generators, a modified tactile output sequence that is modified so as to emphasize the second set of one or more tactile outputs relative to the first set of one or more tactile outputs.

Abstract: An electronic device receives, at an application-independent module, user interface information from an application. The user interface information corresponds to one or more displayed user interface elements with one or more dimensions defined by an application-specific module of the application. The electronic device receives an input directed toward one or more of the displayed user interface elements, and, at the application-independent module, determines one or more tactile outputs to be generated based on a magnitude of the input and the one or more dimensions defined by the applications-specific module. Using the one or more tactile output generators, the electronic device generates the determined one or more tactile outputs.

Abstract: An application launching user interface that includes a plurality of application icons for launching corresponding applications is displayed. A first touch input is detected on a first application icon of the plurality of application icons. The first application icon is for launching a first application that is associated with one or more corresponding quick actions. If the first touch input meets one or more application-launch criteria which require that the first touch input has ended without having met a first input threshold, the first application is launched in response to the first touch input. If the first touch input meets one or more quick-action-display criteria which require that the first touch input meets the first input threshold, one or more quick action objects associated with the first application are concurrently displayed along with the first application icon without launching the first application, in response to the first touch input.

Abstract: Systems and methods are disclosed defining haptic patterns that include both haptic events and audio events, and optionally include video or animation. The haptic patterns can be called from an application or included as an attachment to a message and played on an electronic device that receives the message. A haptics application programming interface has a haptic experience mapping functionality that generates a same, or similar, haptic experience on different manufacturers or models of electronic devices having different haptic hardware. Haptic patterns can include synchronized haptic and audio events. Haptic event attributes include start time, sharpness, and intensity. Sharpness and/or intensity can be controlled via a parameter envelope for a single event, or for multiple events in a haptic pattern. Sharpness indicates a quality of the tactile sensation of a haptic event, from smooth or rounded, to sharp or precise.

Abstract: Systems and methods are disclosed defining haptic patterns that include both haptic events and audio events, and optionally include video or animation. The haptic patterns can be called from an application or included as an attachment to a message and played on an electronic device that receives the message. A haptics application programming interface has a haptic experience mapping functionality that generates a same, or similar, haptic experience on different manufacturers or models of electronic devices having different haptic hardware. Haptic patterns can include synchronized haptic and audio events. Haptic event attributes include start time, sharpness, and intensity. Sharpness and/or intensity can be controlled via a parameter envelope for a single event, or for multiple events in a haptic pattern. Sharpness indicates a quality of the tactile sensation of a haptic event, from smooth or rounded, to sharp or precise.

Abstract: The present disclosure generally relates to providing time feedback on an electronic device, and in particular to providing non-visual time feedback on the electronic device. Techniques for providing non-visual time feedback include detecting an input and, in response to detecting the input, initiating output of a first type of non-visual indication of a current time or a second type of non-visual indication of the current time based on the set of non-visual time output criteria met by the input. Techniques for providing non-visual time feedback also include, in response to detecting that a current time has reached a first predetermined time of a set of one or more predetermined times, outputting a first non-visual alert or a second non-visual alert based on a type of watch face that the electronic device is configured to display.

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.

Abstract: The present disclosure generally relates to content-based tactile outputs. In some embodiments, user interfaces associated with content-based tactile outputs are described. In some embodiments, user interfaces associated with end-of-content tactile outputs are described. In some embodiments, user interfaces associated with moving a user interface in response to different types of input are described. In some embodiments, user interfaces associated with adjustable item-based tactile outputs are described. In some embodiments, user interfaces associated with input velocity-based tactile outputs are described.

Abstract: An electronic watch may include a tactile switch and/or one or more sensors for detecting rotational and translational inputs. The watch may include a display configured to produce graphical outputs that may change in response to rotational inputs, translational inputs, and/or touch inputs received at the display. The watch include a crown positioned along an exterior of the watch enclosure and a shaft coupled to the crown and extending into the enclosure. The tactile switch and/or the one or more sensors may be used to detect rotational and/or translational inputs provided at the crown.

Abstract: An electronic device: detects an input on a respective button. Tactile outputs are generated to indicate that the respective button has been activated in place of a mechanical switch that detects activation of the respective button when the respective button is mechanically compressed. In response to detecting the input on the respective button: in accordance with a determination that the input meets activation criteria, the electronic device provides a first tactile output with a first tactile output pattern that includes: between 0.5 and 4 cycles of an oscillation of one or more tactile output generators relative to corresponding neutral positions of the one or more tactile output generators. The oscillation of the one or more tactile output generators occurs at a frequency between 80 Hz and 400 Hz. In accordance with a determination that the input does not meet the activation criteria, the electronic device forgoes providing the first 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, while displaying representations of a plurality of collections of media items, detects a swipe input that starts at a location corresponding to a first representation of a first collection of media items in the plurality of collections of media items. In response to detecting the swipe input: in accordance with a determination that the swipe input is in a first direction, the device scrolls the representations of the plurality of collections of media items in the first direction; and, in accordance with a determination that the swipe input is in a different, second direction, the device: ceases to display a representation of a first item in the first collection of media items, and displays a representation of a second item in the first collection of media items, without scrolling; and generates a tactile output corresponding to displaying the representation of the second item.

Abstract: An electronic watch may include a tactile switch and/or one or more sensors for detecting rotational and translational inputs. The watch may include a display configured to produce graphical outputs that may change in response to rotational inputs, translational inputs, and/or touch inputs received at the display. The watch include a crown positioned along an exterior of the watch enclosure and a shaft coupled to the crown and extending into the enclosure. The tactile switch and/or the one or more sensors may be used to detect rotational and/or translational inputs provided at the crown.