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replace CI to not use docker, to try and fix memory issues #149

replace CI to not use docker, to try and fix memory issues

replace CI to not use docker, to try and fix memory issues #149

Triggered via push October 23, 2023 22:06
Status Success
Total duration 8m 43s
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ci.yml

on: push
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The following actions uses node12 which is deprecated and will be forced to run on node16: actions/checkout@v2, actions/setup-python@v1. For more info: https://github.blog/changelog/2023-06-13-github-actions-all-actions-will-run-on-node16-instead-of-node12-by-default/
Build project: src/hints/category_theory/exercise1/hint1.lean#L9
/home/runner/work/lftcm2020/lftcm2020/src/hints/category_theory/exercise1/hint1.lean:9:0: declaration 'iso_of_hom_iso_attempt_1' uses sorry
Build project: src/hints/category_theory/exercise2/hint1.lean#L13
/home/runner/work/lftcm2020/lftcm2020/src/hints/category_theory/exercise2/hint1.lean:13:0: declaration 'CommRing.polynomial' uses sorry
Build project: src/hints/category_theory/exercise2/hint3.lean#L35
/home/runner/work/lftcm2020/lftcm2020/src/hints/category_theory/exercise2/hint3.lean:35:0: declaration 'CommRing.polynomial' uses sorry
Build project: src/hints/category_theory/exercise2/hint2.lean#L21
/home/runner/work/lftcm2020/lftcm2020/src/hints/category_theory/exercise2/hint2.lean:21:0: declaration 'CommRing.polynomial' uses sorry
Build project: src/exercises_sources/thursday/category_theory/exercise2.lean#L15
/home/runner/work/lftcm2020/lftcm2020/src/exercises_sources/thursday/category_theory/exercise2.lean:15:0: declaration 'Ring.polynomial' uses sorry
Build project: src/hints/category_theory/exercise2/hint5.lean#L12
/home/runner/work/lftcm2020/lftcm2020/src/hints/category_theory/exercise2/hint5.lean:12:0: declaration 'CommRing.polynomial' uses sorry
Build project: src/exercises_sources/thursday/category_theory/exercise2.lean#L18
/home/runner/work/lftcm2020/lftcm2020/src/exercises_sources/thursday/category_theory/exercise2.lean:18:0: declaration 'CommRing.polynomial' uses sorry
Build project: src/exercises_sources/monday/metaprogramming.lean#L41
/home/runner/work/lftcm2020/lftcm2020/src/exercises_sources/monday/metaprogramming.lean:41:0: declaration '[anonymous]' uses sorry
Build project: src/exercises_sources/tuesday/numbers.lean#L23
/home/runner/work/lftcm2020/lftcm2020/src/exercises_sources/tuesday/numbers.lean:23:0: declaration '[anonymous]' uses sorry
Build project: src/hints/category_theory/exercise2/hint1.lean#L18
/home/runner/work/lftcm2020/lftcm2020/src/hints/category_theory/exercise2/hint1.lean:18:0: declaration 'commutes' uses sorry
Build project: src/demos/linalg.lean#L23
/home/runner/work/lftcm2020/lftcm2020/src/demos/linalg.lean:23:0: @[_ext_core id.{1} name module.ext, class, ext option.none.{0} name, protect_proj list.nil.{0} name] structure module : Π (R : Type u) (M : Type v) [_inst_1 : semiring R] [_inst_2 : add_comm_monoid M], Type (max u v) fields: module.to_distrib_mul_action : Π {R : Type u} {M : Type v} [_inst_1 : semiring R] [_inst_2 : add_comm_monoid M] [self : module R M], distrib_mul_action R M module.add_smul : ∀ {R : Type u} {M : Type v} [_inst_1 : semiring R] [_inst_2 : add_comm_monoid M] [self : module R M] (r s : R) (x : M), (r + s) • x = r • x + s • x module.zero_smul : ∀ {R : Type u} {M : Type v} [_inst_1 : semiring R] [_inst_2 : add_comm_monoid M] [self : module R M] (x : M), 0 • x = 0
Build project: src/demos/linalg.lean#L32
/home/runner/work/lftcm2020/lftcm2020/src/demos/linalg.lean:32:0: add_smul : ∀ (r s : ?M_1) (x : ?M_2), (r + s) • x = r • x + s • x
Build project: src/demos/linalg.lean#L33
/home/runner/work/lftcm2020/lftcm2020/src/demos/linalg.lean:33:0: smul_add : ∀ (a : ?M_1) (b₁ b₂ : ?M_2), a • (b₁ + b₂) = a • b₁ + a • b₂
Build project: src/demos/linalg.lean#L34
/home/runner/work/lftcm2020/lftcm2020/src/demos/linalg.lean:34:0: mul_smul : ∀ (x y : ?M_1) (b : ?M_2), (x * y) • b = x • y • b
Build project: src/demos/linalg.lean#L35
/home/runner/work/lftcm2020/lftcm2020/src/demos/linalg.lean:35:0: one_smul : ∀ (M : Type u_1) {α : Type u_2} [_inst_1 : monoid M] [_inst_2 : mul_action M α] (b : α), 1 • b = b
Build project: src/demos/linalg.lean#L36
/home/runner/work/lftcm2020/lftcm2020/src/demos/linalg.lean:36:0: zero_smul : ∀ (R : Type u_1) {M : Type u_2} [_inst_1 : has_zero R] [_inst_2 : has_zero M] [_inst_3 : smul_with_zero R M] (m : M), 0 • m = 0
Build project: src/solutions/friday/topology.lean#L97
/home/runner/work/lftcm2020/lftcm2020/src/solutions/friday/topology.lean:97:0: sets_of_superset : ∀ {α : Type u_1} (self : filter α) {x y : set α}, x ∈ self.sets → x ⊆ y → y ∈ self.sets
Build project: src/demos/linalg.lean#L37
/home/runner/work/lftcm2020/lftcm2020/src/demos/linalg.lean:37:0: smul_zero : ∀ (a : ?M_1), a • 0 = 0
Build project: src/exercises_sources/friday/topology.lean#L56
/home/runner/work/lftcm2020/lftcm2020/src/exercises_sources/friday/topology.lean:56:0: sets_of_superset : ∀ {α : Type u_1} (self : filter α) {x y : set α}, x ∈ self.sets → x ⊆ y → y ∈ self.sets
Build project: src/solutions/thursday/category_theory/exercise4.lean#L27
/home/runner/work/lftcm2020/lftcm2020/src/solutions/thursday/category_theory/exercise4.lean:27:3: Try this: exact algebra_map ℤ ↥R