source common.sh skipTest "Nix Super" testDir="$PWD" cd "$TEST_ROOT" replCmds=" simple = 1 simple = import $testDir/simple.nix :bl simple :log simple " replFailingCmds=" failing = import $testDir/simple-failing.nix :b failing :log failing " replUndefinedVariable=" import $testDir/undefined-variable.nix " testRepl () { local nixArgs=("$@") rm -rf repl-result-out || true # cleanup from other runs backed by a foreign nix store local replOutput="$(nix repl "${nixArgs[@]}" <<< "$replCmds")" echo "$replOutput" local outPath=$(echo "$replOutput" |& grep -o -E "$NIX_STORE_DIR/\w*-simple") nix path-info "${nixArgs[@]}" "$outPath" [ "$(realpath ./repl-result-out)" == "$outPath" ] || fail "nix repl :bl doesn't make a symlink" # run it again without checking the output to ensure the previously created symlink gets overwritten nix repl "${nixArgs[@]}" <<< "$replCmds" || fail "nix repl does not work twice with the same inputs" # simple.nix prints a PATH during build echo "$replOutput" | grepQuiet -s 'PATH=' || fail "nix repl :log doesn't output logs" local replOutput="$(nix repl "${nixArgs[@]}" <<< "$replFailingCmds" 2>&1)" echo "$replOutput" echo "$replOutput" | grepQuiet -s 'This should fail' \ || fail "nix repl :log doesn't output logs for a failed derivation" local replOutput="$(nix repl --show-trace "${nixArgs[@]}" <<< "$replUndefinedVariable" 2>&1)" echo "$replOutput" echo "$replOutput" | grepQuiet -s "while evaluating the file" \ || fail "nix repl --show-trace doesn't show the trace" nix repl "${nixArgs[@]}" --option pure-eval true 2>&1 <<< "builtins.currentSystem" \ | grep "attribute 'currentSystem' missing" nix repl "${nixArgs[@]}" 2>&1 <<< "builtins.currentSystem" \ | grep "$(nix-instantiate --eval -E 'builtins.currentSystem')" expectStderr 1 nix repl ${testDir}/simple.nix \ | grepQuiet -s "error: path '$testDir/simple.nix' is not a flake" } # Simple test, try building a drv testRepl # Same thing (kind-of), but with a remote store. testRepl --store "$TEST_ROOT/store?real=$NIX_STORE_DIR" # Remove ANSI escape sequences. They can prevent grep from finding a match. stripColors () { sed -E 's/\x1B\[([0-9]{1,2}(;[0-9]{1,2})?)?[m|K]//g' } testReplResponseGeneral () { local grepMode="$1"; shift local commands="$1"; shift local expectedResponse="$1"; shift local response="$(nix repl "$@" <<< "$commands" | stripColors)" echo "$response" | grepQuiet "$grepMode" -s "$expectedResponse" \ || fail "repl command set: $commands does not respond with: $expectedResponse but with: $response " } testReplResponse () { testReplResponseGeneral --basic-regexp "$@" } testReplResponseNoRegex () { testReplResponseGeneral --fixed-strings "$@" } # :a uses the newest version of a symbol testReplResponse ' :a { a = "1"; } :a { a = "2"; } "result: ${a}" ' "result: 2" # check dollar escaping https://github.com/NixOS/nix/issues/4909 # note the escaped \, # \\ # because the second argument is a regex testReplResponseNoRegex ' "$" + "{hi}" ' '"\${hi}"' testReplResponse ' drvPath ' '".*-simple.drv"' \ --file $testDir/simple.nix testReplResponse ' drvPath ' '".*-simple.drv"' \ --file $testDir/simple.nix --experimental-features 'ca-derivations' mkdir -p flake && cat < flake/flake.nix { outputs = { self }: { foo = 1; bar.baz = 2; changingThing = "beforeChange"; }; } EOF testReplResponse ' foo + baz ' "3" \ ./flake ./flake\#bar --experimental-features 'flakes' # Test the `:reload` mechansim with flakes: # - Eval `./flake#changingThing` # - Modify the flake # - Re-eval it # - Check that the result has changed replResult=$( ( echo "changingThing" sleep 1 # Leave the repl the time to eval 'foo' sed -i 's/beforeChange/afterChange/' flake/flake.nix echo ":reload" echo "changingThing" ) | nix repl ./flake --experimental-features 'flakes') echo "$replResult" | grepQuiet -s beforeChange echo "$replResult" | grepQuiet -s afterChange # Test recursive printing and formatting # Normal output should print attributes in lexicographical order non-recursively testReplResponseNoRegex ' { a = { b = 2; }; l = [ 1 2 3 ]; s = "string"; n = 1234; x = rec { y = { z = { inherit y; }; }; }; } ' \ '{ a = { ... }; l = [ ... ]; n = 1234; s = "string"; x = { ... }; } ' # Same for lists, but order is preserved testReplResponseNoRegex ' [ 42 1 "thingy" ({ a = 1; }) ([ 1 2 3 ]) ] ' \ '[ 42 1 "thingy" { ... } [ ... ] ] ' # Same for let expressions testReplResponseNoRegex ' let x = { y = { a = 1; }; inherit x; }; in x ' \ '{ x = { ... }; y = { ... }; } ' # The :p command should recursively print sets, but prevent infinite recursion testReplResponseNoRegex ' :p { a = { b = 2; }; s = "string"; n = 1234; x = rec { y = { z = { inherit y; }; }; }; } ' \ '{ a = { b = 2; }; n = 1234; s = "string"; x = { y = { z = { y = «repeated»; }; }; }; } ' # Same for lists testReplResponseNoRegex ' :p [ 42 1 "thingy" (rec { a = 1; b = { inherit a; inherit b; }; }) ([ 1 2 3 ]) ] ' \ '[ 42 1 "thingy" { a = 1; b = { a = 1; b = «repeated»; }; } [ 1 2 3 ] ] ' # Same for let expressions testReplResponseNoRegex ' :p let x = { y = { a = 1; }; inherit x; }; in x ' \ '{ x = «repeated»; y = { a = 1 }; } '