That says that there's abc key that has different values per scope - ThisBuild and Global. With the change build.sbt looks as follows: lazy val abc: sbt.SettingKey = settingKey("My new setting key") Users/jacek/sandbox/sbt-theory/build.sbt:5 You assign an Initialize or just T to a SettingKey via :=, += and ++= (more often used and recommended) or inspect abc You can't see the key in the build until you assign it a value (via a computation). Instances are constructed using the companion object.Īs you can see in the scaladoc, any SettingKey has the required def scope: Scope that describes the scope of the setting. The name and the type are represented by a value of type AttributeKey. The scope is represented by a value of type Scope. Another key feature in this update is NDI support, which now allows Colourlab Ai users to take advantage of ScopeBox and Nobe OmniScope on a single Mac. It consists of three parts: the scope, the name, and the type of a value associated with this key. You can define your own key with the macro settingKey: lazy val abc: sbt.SettingKey = settingKey("My own setting key")Īccording to the scaladoc of sbt.SettingKey: The data rate is a sub-multiple of the carrier frequency. For a binary message sequence there are two levels, one of which is typically zero. My only option seems to be in the OAuth2 parameters section, with one simple check box asking for scope to read and write all files and folders. These are related to the number of levels adopted by the digital message. It's available by default in sbt and to query for a value you execute show: > show scalaVersionĮxecute inspect to learn about the details of a key (it's not exactly about a key but a setting as you soon learn): > inspect scalaVersion Amplitude shift keying - ASK - is a modulation process, which imparts to a sinusoid two or more discrete amplitude levels. USB Sync Data Transfer to external devices such as laptop, tablet, etc.Keys have one of three types: SettingKey, TaskKey and InputKey.Īn example of a key can be: val scalaVersion = settingKey("The version of Scala used for building.") Multiple automotive tests that include circuits, sensors, actuators, ignition tests and more. A Databricks-backed secret scope is stored in (backed by) an encrypted database owned and managed by Azure Databricks. Magnifies waveform math operations, such as addition, subtraction, multiplication and FFT function for high level waveform analysis. The self-calibration function allows optimization of the oscilloscope signal path for maximum measurement accuracy. Use the zoom in/out feature to review precise detailsĬustomizable personal system settings that can be saved as configuration files for viewing One key enable functionĪllows the user to capture a particular waveform which makes the process 70% more dfficient as compared to other scopes.Īccess to 23 variants of automatic measurements that are displayed on one screen for an easy switch.Ībility to input names and characters directly by clicking on the virtual keyboard, this operation streamlines the process and By integrating with the X-431 series scan tools via O2-1 application, the O2-1 delivers accurate and conclusive diagnostic faults that enable the shop and technician to enlarge its scan tool's functionality.įeatures the ability to record and playback high-resolution waveform data for future analysis. If you were to select an element in a view Revit will then rotate around the elements centroid as opposed the centroid of the view. Featuring a new design and upgraded hardware, the LAUNCH O2-1 ScopeBox is a versatile easy to use module that detects high level faults on various electrical components, such as sensors, actuators and circuits.
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