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# Layers
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Layers are an integral part of Kaleidoscope, but a part that is perhaps harder
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to master than many other things in the firmware. On these pages, we'll make an
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attempt at explaining layers, what you can do with them, how, and a few common
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use-cases.
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We'll start with a quick use-case guide, before diving deeper into explanations!
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## How do I...?
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### How do I switch to a layer, so I can type multiple keys from there?
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You can use `LockLayer(n)` or `MoveToLayer(n)`, depending on whether you want
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other layers to be active at the same time or not. `LockLayer(n)` allows you to
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build up a stack of layers, while with `MoveToLayer(n)` only the selected layer
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will be active, without any stacking.
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### How do I do make layer switching act similar to modifiers?
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If you want the layer switch to be active only while the key is held, like in
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the case of modifiers, the `ShiftToLayer(n)` method does just that.
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Switch to activation-order for Layers
Previously, we used index-ordering for layers, meaning, we looked keys up based
on the index of active layers. This turned out to be confusing, and in many
cases, limiting, since we couldn't easily shift to a lower layer from a higher
one. As such, index-ordering required careful planning of one's layers, and a
deeper understanding of the system.
This patch switches us to activation-ordering: the layer subsystem now keeps
track of the order in which layers are activated, and uses that order to look
keys up, instead of the index of layers. This makes it easier to understand how
the system works, and allows us to shift to lower layers too.
It does require a bit more resources, since we can't just store a bitmap of
active layers, but need 32 bytes to store the order. We still keep the bitmap,
to make `Layer.isActive()` fast: looking up a bit in the bitmap is more
efficient than walking the active layer array, and this function is often used
in cases where speed matters.
As a side effect of the switch, a number of methods were deprecated, and similar
ones with more appropriate names were introduced. See the updated `UPGRADING.md`
document for more details.
Plugins that used the deprecated methods were updated to use the new ones.
Fixes #857.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
5 years ago
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While switching layers this way is similar to how modifiers work, there are
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subtle differences. For a longer explanation, see
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[later](#layers-transparency-and-how-lookup-works).
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## Layer theory
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First of all, the most important thing to remember is that layers are like a
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piece of foil, you can place many of them on top of each other, and see through
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uncovered parts. In other words, you can have multiple layers all active at the
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same time! As we'll see a few paragraphs later, this can be a very powerful
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thing.
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To better explain how this works in practice, lets look at what layer-related
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keys we can place on the keymap first. Armed with that knowledge, we'll then
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explore a few use-cases.
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## Layer keys
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- `LockLayer(n)`: Locking a layer will activate it when the key toggles on, and
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the layer will remain active until unlocked (with `UnlockLayer(n)`), even if
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we release the layer key meanwhile. Think of it like a `Caps lock` or `Num
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lock` key.
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- `ShiftToLayer(n)`: Unlike `LockLayer`, this only activates the layer until the
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key is held. Once the key is released, the layer deactivates. This behaviour
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is very similar to that of modifiers.
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- `MoveToLayer(n)`: Moving to a layer is very similar to locking it, the only
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exception is that moving disables all other layers, so only the moved to layer
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will be active. This allows us to have a less powerful, but simpler way of
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dealing with layers, as we'll see below.
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- `Key_KeymapNext_Momentary` / `Key_KeymapPrevious_Momentary`: These activate
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the next or the previous layer, momentarily, like `ShiftToLayer(n)`. What it
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considers `next`, is one layer higher than the currently highest active layer.
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Similarly, `previous` is one below the currently highest active layer.
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## Use cases
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### Locked layers
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Locked layers are most useful when you'll want to spend more time on the target
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layer. One such case is the numpad: when using it, we usually want to enter
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longer numbers, or use the mathematical operator keys as well. Just imagine
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hitting a layer lock key, and the right half of your keyboard turning into a
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numpad! It's closer than the numpad on traditional full-size keyboards, thus
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less hand movement is required!
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### Shifted layers
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There are many great examples for shifted layers, such as a symbols layer. Lets
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say we have a number of often used symbols which we want easy access to,
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preferably near the home row. For example, the various parentheses, brackets and
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the like are often used in programming. Having them on the home row is
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incredibly convenient. In most cases, we only need this layer for a very short
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time, for a symbol or two. As such, locking the layer would be
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counter-productive. Instead, we use a layer shift key, like if it was a
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modifier.
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As a concrete example, lets imagine a small, ortholinear keyboard, like the
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Planck. On the bottom row, on the right side of the space bar, we'd have a layer
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shift key (lets call that `Fn` for now), that takes us to the symbol layer. On
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the symbol layer, we'd have `{`, `}`, `[`, `]`, `(`, and `)` on the home row. To
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input `{`, we'd press `Fn + d`, for example. This is still two presses, very
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much like `Shift + [`, but the keys are more convenient, because we use stronger
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fingers to press them.
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Another - and perhaps an even better - example would be a navigation layer, with
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cursor keys laid over `WASD`. The reason why this would be a better example, is
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because in this case, we often want to use modifiers along with the cursor keys,
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such as `Shift` or `Control`. With a shifted layer, if we have transparent keys
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at positions where the modifiers are on the base layer, we don't have to repeat
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the modifier layout on the shifted layer! This makes it easier to experiment
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with one's layout, because if we move modifiers, we only have to do that on one
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layer.
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### Moving to layers
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Moving to a layer is very similar to locking one. The only difference is that
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moving disables all other layers. This in turn, has a few consequences: to go
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back to wherever we came from, we can't use `UnlockLayer(n)`, because no other
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layers are active. We explicitly have to use _another_ `MoveToLayer(n)` key if
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we want to move elsewhere.
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The major advantage of moving to a layer - as opposed to locking one - is the
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cognitive load. With moving, there is no transparency. There is only one layer
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active at any given time. It's a simpler concept to grasp.
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## Layers, transparency, and how lookup works
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The thing that confuses many people about layers is that they can have
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transparency. What even is a transparent key? Remember the first paragraphs:
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layers are like a foil. They're see-through, unless parts of it are obstructed.
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They're like overrides. Any layer you place on top of the existing stack, will
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override keys in the layers below.
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When you have multiple layers active, to figure out what a key does, the
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Switch to activation-order for Layers
Previously, we used index-ordering for layers, meaning, we looked keys up based
on the index of active layers. This turned out to be confusing, and in many
cases, limiting, since we couldn't easily shift to a lower layer from a higher
one. As such, index-ordering required careful planning of one's layers, and a
deeper understanding of the system.
This patch switches us to activation-ordering: the layer subsystem now keeps
track of the order in which layers are activated, and uses that order to look
keys up, instead of the index of layers. This makes it easier to understand how
the system works, and allows us to shift to lower layers too.
It does require a bit more resources, since we can't just store a bitmap of
active layers, but need 32 bytes to store the order. We still keep the bitmap,
to make `Layer.isActive()` fast: looking up a bit in the bitmap is more
efficient than walking the active layer array, and this function is often used
in cases where speed matters.
As a side effect of the switch, a number of methods were deprecated, and similar
ones with more appropriate names were introduced. See the updated `UPGRADING.md`
document for more details.
Plugins that used the deprecated methods were updated to use the new ones.
Fixes #857.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
5 years ago
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firmware will first look at the key position on the most recently activated
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layer, and see if there's a non-transparent key there. If there is, it will use
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that. If there isn't, it will start walking backwards on the stack of _active_
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layers to find the highest one with a non-transparent key. The first one it
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finds is whose key it will use. If it finds none, then a transparent key will
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act like a blank one, and do nothing.
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It is important to note that transparent keys are looked up from active layers
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Switch to activation-order for Layers
Previously, we used index-ordering for layers, meaning, we looked keys up based
on the index of active layers. This turned out to be confusing, and in many
cases, limiting, since we couldn't easily shift to a lower layer from a higher
one. As such, index-ordering required careful planning of one's layers, and a
deeper understanding of the system.
This patch switches us to activation-ordering: the layer subsystem now keeps
track of the order in which layers are activated, and uses that order to look
keys up, instead of the index of layers. This makes it easier to understand how
the system works, and allows us to shift to lower layers too.
It does require a bit more resources, since we can't just store a bitmap of
active layers, but need 32 bytes to store the order. We still keep the bitmap,
to make `Layer.isActive()` fast: looking up a bit in the bitmap is more
efficient than walking the active layer array, and this function is often used
in cases where speed matters.
As a side effect of the switch, a number of methods were deprecated, and similar
ones with more appropriate names were introduced. See the updated `UPGRADING.md`
document for more details.
Plugins that used the deprecated methods were updated to use the new ones.
Fixes #857.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
5 years ago
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only, from most recently activated to least. Lets consider that we have three
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layers, 0, 1, and 2. On a given position, we have a non-transparent key on
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layers 0 and 1, but the same position is transparent on layer 2. If we have
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layer 0 and 2 active, the key will be looked up from layer 0, because layer 2 is
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transparent. If we activate layer 1 too, it will be looked up from there, since
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layer 1 is higher in the stack than layer 0. In this case, since we activated
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layer 1 most recently, layer 2 wouldn't even be looked at.
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As we just saw, another important factor is that layers are ordered by their
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Switch to activation-order for Layers
Previously, we used index-ordering for layers, meaning, we looked keys up based
on the index of active layers. This turned out to be confusing, and in many
cases, limiting, since we couldn't easily shift to a lower layer from a higher
one. As such, index-ordering required careful planning of one's layers, and a
deeper understanding of the system.
This patch switches us to activation-ordering: the layer subsystem now keeps
track of the order in which layers are activated, and uses that order to look
keys up, instead of the index of layers. This makes it easier to understand how
the system works, and allows us to shift to lower layers too.
It does require a bit more resources, since we can't just store a bitmap of
active layers, but need 32 bytes to store the order. We still keep the bitmap,
to make `Layer.isActive()` fast: looking up a bit in the bitmap is more
efficient than walking the active layer array, and this function is often used
in cases where speed matters.
As a side effect of the switch, a number of methods were deprecated, and similar
ones with more appropriate names were introduced. See the updated `UPGRADING.md`
document for more details.
Plugins that used the deprecated methods were updated to use the new ones.
Fixes #857.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
5 years ago
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order of activation. Whether you activate layer 1 or 2 first, matters. Lets look
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at another example: we have three layers, 0, 1, and 2. On a given position, we
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have a non-transparent key on every layer. If we have just layer 0 active, it
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will be looked up from there. If we activate layer 2, then the firmware will
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look there first. If we activate layer 1 as well, then - since now layer 1 is
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the most recently activated layer - the firmware will look the code up from
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layer 1, without looking at layer 2. It would only look at layer 2 if the key
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was transparent on layer 1.
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