This is a test.
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Large category of modules over monads on top of UniMath. Signatures for higher order syntax.
Preliminaries are in the subfolder Modules/Prelims 1-Signature related proofs are in the subfolder Modules/Signatures 2-Signature related proofs are in the subfolder Modules/SoftEquations
Requirement: the UniMath library (installed with $ make install
)
To compile (Coq 8.9.0): $ make
The file SoftEquations/Summary
gives a summary of main formalized propositions and definitions
for 2-signatures and elementary equations.
For the rest:
-
Definition of signatures and their actions :
Signatures/Signature
-
Representability of presentable signatures :
Signatures/PresentableSignature
-
Representability of the codomain epimorphic morphism of signature :
Signatures/EpiSigRepresentability
-
Adjunction in the category of modules over a specific monad R on Set Hom(M x R', N) ~ Hom(M , N') :
Prelims/derivadj
-
A coproduct of presentable signatures is presentable :
Signatures/PresentableSignatureCoproducts
-
The binproduct of a presentable signature with the tautological signature is presentable :
Signatures/PresentableSignatureBinProdR
-
pointwise limits and colimits of modules :
Prelims/LModuleColims
-
pointwise limits and colimits of signatures :
Signatures/SignaturesColims
-
quotient monad :
Prelims/quotientmonad
-
Epimorphisms of signatures are pointwise epimorphisms :
Signatures/EpiArePointwise
-
Modularity in the context of a fibration :
Prelims/FibrationInitialPushout
-
Modularity in the specific context of signatures and their models :
Signatures/Modularity
The fact that algebraic signatures are effective is already proved in
a different setting in the Heterogeneous Substitution System package of UniMath.
The adaptation to our setting is carried out in the files : Signatures/SigWithStrengthToSignature
,
Signatures/HssInitialModel
and Signatures/BindingSig
.
By folder
-
quotientmonad
,quotientmonadslice
: the quotient monad construction -
FibrationInitialPushout
: modularity in the context of a fibration -
DerivationIsFunctorial
: Proof that derivation of modules is functorial -
derivadj
: Adjunction in the category of modules over a specific monad R on Set Hom(M x R', N) ~ Hom(M , N') -
LModulesFibration
: fibration of left modules over monads -
LModulesColims
: limits and colimits of modules -
LModulesBinProducts
,LModulesCoproducts
: direct definition of some particular colimits/limits of modules -
PushoutsFromCoeqBinCoproducts
: Pushouts from coequalizers and binary coproducts -
FaithfulFibrationEqualizer
: Faithful fibrations lift coequalizers -
Opfibration
: definition of opfibrations (adapted from the definition of fibrations in UniMath) -
BinCoproductComplements
,BinProductComplements
,CoproductsComplements
,EpiComplements
LModulesComplements
,SetCatComplements
,lib
: various complements
Everything here is about 1-signatures
-
Signature
: definition of signatures and the displayed category of models -
ModelCat
: direct definition of the category of models of a signature -
EpiSigRepresentability
: proof of the technical lemma : epimorphisms of signatures preserves representability -
PresentableSignatures
: presentable signatures are effective. -
Modularity
: Modularity in the specific context of signatures and their models -
quotientrep
: quotient model construction -
HssInitialModel
,BindingSig
: adaptation of the proof in UniMath of initiality for strengthened signatures (in particular, for binding or algebraic signatures) -
PreservesEpi
: Epi-signatures -
EpiArePointwise
: epimorphisms of signatures are pointwise epimorphisms -
PresentableSignatureCoproducts
: a coproduct of presentable signatures is presentable. -
PresentableSignatureBinProdR
: ifa
is presentable, then so is the product ofa
with the tautological signature -
SignaturesColims
: colimits of signatures -
SignatureBinproducts
: direct definition of bin products of signatures -
SignatureCoproduct
: direct definition of coproducts of signatures -
SignatureDerivation
: derivation of signatures -
SigWithStrengthToSignature
: Functor between signatures with strength and our signatures. -
HssSignatureCommutation
: Somme commutation rules between colimits/limits and the functor between signatures with strength and our signatures
This folder is about 2-signatures and elementary equations
-
Summary
: summary of main propositions and definitions -
SignatureOver
: category of Σ-modules -
CatOfTwoSignatures
: category of 2-signatures, fibration of 2-models over it -
Equation
: equations, and category of models satisfying those equations -
quotientequation
: quotient model satisfying the equations -
quotientrepslice
: more general quotient model construction -
AdjunctionEquationRep
: algebraic 2-signatures are effective and related proofs -
Modularity
: modularity in the specific context of 2-signatures and their models -
Examples/LCBetaEta
: example of the lambda calculus modulo beta eta -
SignatureOverAsFiber
: (unused) alternative definition of Σ-modules as a displayed category over the category of 1-signatures -
SignatureOverBinproducts
: binary products of Σ-modules -
SignatureOverDerivation
: derivative of a Σ-module -
BindingSig
: complements about algebraic 1-signatures