remove draft on derivations
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- [Store](architecture/store/store.md)
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- [Store Object](architecture/store/objects.md)
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- [Store Path](architecture/store/paths.md)
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- [Derivation](architecture/store/drvs/drvs.md)
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- [Package Management](package-management/package-management.md)
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- [Basic Package Management](package-management/basic-package-mgmt.md)
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- [Profiles](package-management/profiles.md)
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# Derivation
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Derivations are recipes to create store objects.
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Derivations are the heart of Nix.
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Other system (like Git or IPFS) also store and transfer immutable data, but they don't concern themselves with *how* that data was created.
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This is where Nix comes in.
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Derivations produce data by running arbitrary commands, like Make or Ninja rules.
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Unlike those systems, derivations do not produce arbitrary files, but only specific store objects.
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They cannot modify the store in any way, other than creating those store objects.
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This rigid specification of what they do is what allows Nix's caching to be so simple and yet robust.
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Based on the above, we can conceptually break derivations down into 3 parts:
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1. What command will be run?
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2. What existing store objects are needed as inputs?
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3. What store objects will be produced as outputs?
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## What command will be run?
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The original core of Nix was very simple about this, in the mold of traditional Unix.
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Commands consist of 3 parts:
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1. Path to executable
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2. Arguments (Except for `argv[0]`, which is taken from the path in the usual way)
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3. Environment variables.
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## What existing store objects are needed as inputs?
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The previous sub-section begs the question "how can we be sure the path to the executable points to what we think it does?"
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It's a good questions!
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## What store objects will be produced as outputs?
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## Extra extensions
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### `__structuredAttrs`
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Historically speaking, most users of Nix made GNU Bash with a script the command run, regardless of what they were doing.
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Bash variable are automatically created from env vars, but bash also supports array and string-keyed map variables in addition to string variables.
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People also usually create derivations using language which also support these richer data types.
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It was thus desired a way to get this data from the language "planning" the derivation to language to bash, the language evaluated at "run time".
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`__structuredAttrs` does this by smuggling inside the core derivation format a map of named richer data.
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At run time, this becomes two things:
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1. A JSON file containing that map.
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2. A bash script setting those variables.
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The bash command can be passed a script which will "source" that Nix-created bash script, setting those variables with the richer data.
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The outer script can then do whatever it likes with those richer variables as input.
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However, since derivations can already contain arbitary input sources, the vast majority of `__structuredAttrs` can be handled by upper layers.
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We might consider implementing `__structuredAttrs` in higher layers in the future, and simplifying the store layer.
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