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7ad66cb3ef
We use the same nested map representation we used for goals, again in order to save space. We might someday want to combine with `inputDrvs`, by doing `V = bool` instead of `V = std::set<OutputName>`, but we are not doing that yet for sake of a smaller diff. The ATerm format for Derivations also needs to be extended, in addition to the in-memory format. To accomodate this, we added a new basic versioning scheme, so old versions of Nix will get nice errors. (And going forward, if the ATerm format changes again the errors will be even better.) `parsedStrings`, an internal function used as part of parsing derivations in A-Term format, used to consume the final `]` but expect the initial `[` to already be consumed. This made for what looked like unbalanced brackets at callsites, which was confusing. Now it consumes both which is hopefully less confusing. As part of testing, we also created a unit test for the A-Term format for regular non-experimental derivations too. Co-authored-by: Robert Hensing <roberth@users.noreply.github.com> Co-authored-by: Valentin Gagarin <valentin.gagarin@tweag.io> Apply suggestions from code review Co-authored-by: Robert Hensing <roberth@users.noreply.github.com>
77 lines
2.6 KiB
C++
77 lines
2.6 KiB
C++
#pragma once
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///@file
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#define DECLARE_ONE_CMP(PRE, QUAL, COMPARATOR, MY_TYPE) \
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PRE bool QUAL operator COMPARATOR(const MY_TYPE & other) const;
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#define DECLARE_EQUAL(prefix, qualification, my_type) \
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DECLARE_ONE_CMP(prefix, qualification, ==, my_type)
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#define DECLARE_LEQ(prefix, qualification, my_type) \
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DECLARE_ONE_CMP(prefix, qualification, <, my_type)
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#define DECLARE_NEQ(prefix, qualification, my_type) \
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DECLARE_ONE_CMP(prefix, qualification, !=, my_type)
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#define GENERATE_ONE_CMP(PRE, QUAL, COMPARATOR, MY_TYPE, ...) \
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PRE bool QUAL operator COMPARATOR(const MY_TYPE & other) const { \
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__VA_OPT__(const MY_TYPE * me = this;) \
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auto fields1 = std::make_tuple( __VA_ARGS__ ); \
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__VA_OPT__(me = &other;) \
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auto fields2 = std::make_tuple( __VA_ARGS__ ); \
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return fields1 COMPARATOR fields2; \
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}
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#define GENERATE_EQUAL(prefix, qualification, my_type, args...) \
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GENERATE_ONE_CMP(prefix, qualification, ==, my_type, args)
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#define GENERATE_LEQ(prefix, qualification, my_type, args...) \
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GENERATE_ONE_CMP(prefix, qualification, <, my_type, args)
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#define GENERATE_NEQ(prefix, qualification, my_type, args...) \
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GENERATE_ONE_CMP(prefix, qualification, !=, my_type, args)
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/**
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* Declare comparison methods without defining them.
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*/
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#define DECLARE_CMP(my_type) \
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DECLARE_EQUAL(,,my_type) \
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DECLARE_LEQ(,,my_type) \
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DECLARE_NEQ(,,my_type)
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/**
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* @param prefix This is for something before each declaration like
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* `template<classname Foo>`.
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*
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* @param my_type the type are defining operators for.
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*/
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#define DECLARE_CMP_EXT(prefix, qualification, my_type) \
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DECLARE_EQUAL(prefix, qualification, my_type) \
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DECLARE_LEQ(prefix, qualification, my_type) \
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DECLARE_NEQ(prefix, qualification, my_type)
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/**
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* Awful hacky generation of the comparison operators by doing a lexicographic
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* comparison between the choosen fields.
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*
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* ```
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* GENERATE_CMP(ClassName, me->field1, me->field2, ...)
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* ```
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*
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* will generate comparison operators semantically equivalent to:
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*
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* ```
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* bool operator<(const ClassName& other) {
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* return field1 < other.field1 && field2 < other.field2 && ...;
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* }
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* ```
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*/
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#define GENERATE_CMP(args...) \
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GENERATE_EQUAL(,,args) \
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GENERATE_LEQ(,,args) \
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GENERATE_NEQ(,,args)
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/**
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* @param prefix This is for something before each declaration like
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* `template<classname Foo>`.
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*
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* @param my_type the type are defining operators for.
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*/
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#define GENERATE_CMP_EXT(prefix, my_type, args...) \
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GENERATE_EQUAL(prefix, my_type ::, my_type, args) \
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GENERATE_LEQ(prefix, my_type ::, my_type, args) \
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GENERATE_NEQ(prefix, my_type ::, my_type, args)
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