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143 lines
5.9 KiB
Nix
143 lines
5.9 KiB
Nix
# This file defines a single function for booting a package set from a list of
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# stages. The exact mechanics of that function are defined below; here I
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# (@Ericson2314) wish to describe the purpose of the abstraction.
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#
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# The first goal is consistency across stdenvs. Regardless of what this function
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# does, by making every stdenv use it for bootstrapping we ensure that they all
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# work in a similar way. [Before this abstraction, each stdenv was its own
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# special snowflake due to different authors writing in different times.]
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#
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# The second goal is consistency across each stdenv's stage functions. By
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# writing each stage in terms of the previous stage, commonalities between them
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# are more easily observable. [Before, there usually was a big attribute set
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# with each stage, and stages would access the previous stage by name.]
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#
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# The third goal is composition. Because each stage is written in terms of the
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# previous, the list can be reordered or, more practically, extended with new
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# stages. The latter is used for cross compiling and custom
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# stdenvs. Additionally, certain options should by default apply only to the
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# last stage, whatever it may be. By delaying the creation of stage package sets
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# until the final fold, we prevent these options from inhibiting composition.
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#
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# The fourth and final goal is debugging. Normal packages should only source
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# their dependencies from the current stage. But for the sake of debugging, it
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# is nice that all packages still remain accessible. We make sure previous
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# stages are kept around with a `stdenv.__bootPackges` attribute referring the
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# previous stage. It is idiomatic that attributes prefixed with `__` come with
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# special restrictions and should not be used under normal circumstances.
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{ lib, allPackages }:
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# Type:
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# [ pkgset -> (args to stage/default.nix) or ({ __raw = true; } // pkgs) ]
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# -> pkgset
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#
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# In english: This takes a list of function from the previous stage pkgset and
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# returns the final pkgset. Each of those functions returns, if `__raw` is
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# undefined or false, args for this stage's pkgset (the most complex and
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# important arg is the stdenv), or, if `__raw = true`, simply this stage's
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# pkgset itself.
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#
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# The list takes stages in order, so the final stage is last in the list. In
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# other words, this does a foldr not foldl.
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stageFuns: let
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/* "dfold" a ternary function `op' between successive elements of `list' as if
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it was a doubly-linked list with `lnul' and `rnul` base cases at either
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end. In precise terms, `dfold op lnul rnul [x_0 x_1 x_2 ... x_n-1]` is the
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same as
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let
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f_-1 = lnul f_0;
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f_0 = op f_-1 x_0 f_1;
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f_1 = op f_0 x_1 f_2;
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f_2 = op f_1 x_2 f_3;
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...
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f_n = op f_n-1 x_n f_n+1;
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f_n+1 = rnul f_n;
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in
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f_0
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*/
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dfold = op: lnul: rnul: list:
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let
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len = builtins.length list;
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go = pred: n:
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if n == len
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then rnul pred
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else let
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# Note the cycle -- call-by-need ensures finite fold.
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cur = op pred (builtins.elemAt list n) succ;
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succ = go cur (n + 1);
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in cur;
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lapp = lnul cur;
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cur = go lapp 0;
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in cur;
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# Take the list and disallow custom overrides in all but the final stage,
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# and allow it in the final flag. Only defaults this boolean field if it
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# isn't already set.
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withAllowCustomOverrides = lib.lists.imap1
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(index: stageFun: prevStage:
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# So true by default for only the first element because one
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# 1-indexing. Since we reverse the list, this means this is true
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# for the final stage.
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{ allowCustomOverrides = index == 1; }
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// (stageFun prevStage))
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(lib.lists.reverseList stageFuns);
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# Adds the stdenv to the arguments, and sticks in it the previous stage for
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# debugging purposes.
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folder = nextStage: stageFun: prevStage: let
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args = stageFun prevStage;
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args' = args // {
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stdenv = args.stdenv // {
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# For debugging
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__bootPackages = prevStage;
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__hatPackages = nextStage;
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};
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};
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thisStage =
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if args.__raw or false
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then args'
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else allPackages ((builtins.removeAttrs args' ["selfBuild"]) // {
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adjacentPackages = if args.selfBuild or true then null else rec {
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pkgsBuildBuild = prevStage.buildPackages;
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pkgsBuildHost = prevStage;
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pkgsBuildTarget =
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if args.stdenv.targetPlatform == args.stdenv.hostPlatform
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then pkgsBuildHost
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else assert args.stdenv.hostPlatform == args.stdenv.buildPlatform; thisStage;
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pkgsHostHost =
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if args.stdenv.hostPlatform == args.stdenv.targetPlatform
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then thisStage
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else assert args.stdenv.buildPlatform == args.stdenv.hostPlatform; pkgsBuildHost;
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pkgsTargetTarget = nextStage;
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};
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});
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in thisStage;
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# This is a hack for resolving cross-compiled compilers' run-time
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# deps. (That is, compilers that are themselves cross-compiled, as
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# opposed to used to cross-compile packages.)
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postStage = buildPackages: {
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__raw = true;
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stdenv.cc =
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if buildPackages.stdenv.hasCC
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then
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if buildPackages.stdenv.cc.isClang or false
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# buildPackages.clang checks targetPackages.stdenv.cc (i. e. this
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# attribute) to get a sense of the its set's default compiler and
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# chooses between libc++ and libstdc++ based on that. If we hit this
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# code here, we'll cause an infinite recursion. Since a set with
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# clang as its default compiler always means libc++, we can infer this
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# decision statically.
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then buildPackages.pkgsBuildTarget.llvmPackages.libcxxClang
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else buildPackages.gcc
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else
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# This will blow up if anything uses it, but that's OK. The `if
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# buildPackages.stdenv.cc.isClang then ... else ...` would blow up
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# everything, so we make sure to avoid that.
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buildPackages.stdenv.cc;
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};
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in dfold folder postStage (_: {}) withAllowCustomOverrides
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