閱讀紅石圖示
本頁面介紹了紅石圖示的含義。這些圖示的每個方格代表被表示電路的一個方塊的上表面或側面。複雜的電路可能需要多幅圖示分層表達,每張圖表示1-2層。
| 方塊圖示 | 含義 | ||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| 靜態固體方塊 你可以在此使用任何固體非透明方塊 | |||||||||||||
| 動態固體方塊,該方塊在電路運作時位置可能會變動 你可以在此使用任何固體非透明方塊 | |||||||||||||
| 倒置半磚(屬於透明方塊,這裏展示其頂視圖與側視圖) | |||||||||||||
| 裝飾結構性方塊 你可以在此使用任何固體方塊 | |||||||||||||
| 紅石粉與紅石中繼器 注意中繼器的延遲可以從圖上讀出 | |||||||||||||
| 從左到右,從上到下: 靜態方塊上鋪紅石粉;動態方塊上鋪紅石粉; 紅石方塊上鋪紅石粉;兩個堆疊的靜態方塊 | |||||||||||||
| 懸空於紅石粉之上的靜態、固態、紅石方塊與倒置半磚 | |||||||||||||
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Input A, and an output, with a duplex point between them. | ||||||||||||
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Redstone comparator |
在一個紅石電路中,大部分方塊都是"通用"的,因此用任意幾個固體方塊就可以了。所以,這些方塊被選中的原因是因為它們的明顯性,而不是你通常會選擇來建立一個電路所用的方塊。
黃金方塊和鑽石方塊代表了通用的不透明方塊。黃金方塊代表的是電路所需要的固定方塊。鑽石方塊代表的是會被活塞移動的,屬於電路工作方式一部分的"非固定"方塊。
有三種透明的方塊能夠保持紅石線的存在:在上層的半磚,倒放的半磚,和螢石。除非有很好的理由,否則這些方塊都會用上半磚來代表它們。
任何它自身有特殊意義存在的特別的方塊將會顯示它們自身的樣子。舉個例子:沙 (受重力影響能夠下落),黑曜石(在一個TNT大炮中),玻璃,紅石方塊, 等等等等。
因建造目的所需要的方塊(但是這些方塊可以用任何建造方塊來代替),將會顯示成石磚。 對於這些方塊而言,你可以使用泥土,玻璃,黑曜石,羊毛,甚至石磚。
Blocks of wool are used to show input and output locations: lime green for input, pink for output. These may be labelled if there is more than one input or output. Note that this has the signals going from green through yellow (gold) to "red" (pink). Light blue will indicates a "duplex" connection, which can serve as both input and output. In complex schematics, other colors of wool may be used to indicate connections among multiple circuits, or different parts of the circuit.
Redstone "wire" (dust) is shown as stylized lines, dark red if unpowered, brighter if powered. Note that wires may be extended to make the diagram look better, or put the I/O block somewhere convenient.
Most components and devices are shown as themselves, but with some tweaks to their sprites (to make them more identifiable, and the circuits more comprehensible). The direction that devices are pointing is shown in the icon, occasionally by arrows: So are repeater and comparator settings: The position of the repeater's slider (or bar, for a latched repeater), or the lit third torch for a comparator in subtraction mode.
Transparent sprites of blocks (solid, mobile, stone slab, or redstone) indicate that block is just above the current "main" level, over the components that show beneath it. A "lightened" block is used in multi-level diagrams to show the location of an input, output, or component, which is not on the current level and would not normally be shown. A "darkened" block may be used to indicate that the space has one solid block atop another, or that a component is in a hole beneath the current level. Darkening can also mark other special cases, which should be described in the accompanying text.
Examples
A nice selection of components.
Q̅
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S
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R
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Q
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Notice the redstone on blocks, and redstone with blocks over it.
Now the "over" blocks (level 2 of the circuit) are "under", and the blocks from level 1 of the circuit are invisible. However, the positions of the input and output blocks are still shown, but lighter.
A vertical circuit.
This vertical clock has no input or output blocks shown, because input (switching it off) or output (the clock signal), can be taken almost anywhere. Full discussion is at its home in the "Clocks" page.