1/1/2024 0 Comments Midistroke clickThere’s a free tool called midiStroke but it’s very limited in what it can do. The main thing we need in addition to a MIDI controller is a program to receive the MIDI events and convert them to keyboard shortcuts and other application actions. Using a simple up/down mapping to control fields that respond to up/down arrows Making it Work Knobs can also be used to control any property in sketch that responds to up/down arrows, such as HSL values or opacity (there’s one catch to this, explained later). Examples are font size, nudging, scaling, and rotation. In a design tool like Sketch we can use knobs to control scalar and incremental properties that are accessible via shortcuts or the menu bar. If you’ve ever used knobs on a synthesizer or used MIDI knobs for audio editing, you know that it’s a completely different experience than punching in numbers or manipulating virtual dials on the screen. Although there’s probably an ergonomic benefit in giving the fingers alternatives to frequently used shortcuts or complex finger-stretching shortcuts (e.g., the ⌘⌃⇧-4 screenshot, aka The Claw).Ī simple controller with just pads and knobs Knobs Velocity aside, pads are pretty simple and may not offer a lot of benefit over standard keyboard shortcuts. I created a mapping that inserts a length of lorem ipsum text based on how hard the pad is tapped. A light tap on a pad could be assigned to Copy and a hard tap on the same pad assigned to Paste. They can also be used to trigger snippets and AppleScript.Ī cool feature of pads is that they record how hard the pad was struck (a property called velocity) and we can use this when mapping the signal to a shortcut. Pads can be used to trigger any keyboard shortcut in Sketch-Copy, Paste, Group, Ungroup, Export, etc-and they can be used to trigger menu items that don’t have keyboard shortcuts. In this post I’m going to talk about using pads and knobs. There’s the familiar piano keyboard but they can also have pads (pressure-sensitive buttons), knobs, wheels, faders (sliders), and other stuff. MIDI controllers have a variety of sensors. Standard MIDI controller with keyboard, pads, knobs, wheels, and other buttons This means any controller can be used as a general-purpose input device by mapping these events to keyboard shortcuts or other application actions. The device itself doesn’t generate sound, it just sends on/off events to the computer when the keys are pressed. NET framework 4.If you’re familiar with MIDI you can skip this section but for everyone else: a MIDI controller is a device, like a musical keyboard, that you plug into your computer to play music. Windows XP 32/64bit or higher, MIDI-device conneted to USB or MIDI-device connected via a MIDI-PC-interface. Small and lightweight, does not need many PC-resources.Writes a MIDI-In-logfile for later analysis.Built-in AKAI APCmini editor to control it´s LEDs.Native Train-simulator support: Can listen and light up LEDs of Your controller on events of Train Simulator or can handle Your throttle/brakes, etc by Midi-pots.Works also as simple MIDI-Monitor for analysing MIDI-events.STARTUP setting which is executed, when MidiKey2Key starts.Able to create automatically shortcuts for startup with a different setting. Able to handle multiple settings by starting with a setting-name as argument for MidiKey2Key.exe.Stores automatically your settings on exit.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |