- (~=~) : (x : a) ->
(y : b) ->
Type
Explicit heterogeneous ("John Major") equality. Use this when Idris
incorrectly chooses homogeneous equality for (=)
.
- Fixity
- Non-associative, precedence 5
- b
the type of the right side
- a
the type of the left side
- x
the left side
- y
the right side
- world : World ->
prim__WorldType
- void : Void ->
a
The eliminator for the Void
type.
- unsafePerformPrimIO : PrimIO a ->
a
- unsafePerformIO : IO' ffi
a ->
a
- trans : (a =
b) ->
(b =
c) ->
a =
c
Transitivity of propositional equality
- sym : (left =
right) ->
right =
left
Symmetry of propositional equality
- run__provider : IO a ->
PrimIO a
- run__IO : IO' ffi
() ->
PrimIO ()
- rewrite__impl : (P : a ->
Type) ->
(x =
y) ->
P y ->
P x
Perform substitution in a term according to some equality.
Like replace
, but with an explicit predicate, and applying the rewrite
in the other direction, which puts it in a form usable by the rewrite
tactic and term.
- replace : (x =
y) ->
P x ->
P y
Perform substitution in a term according to some equality.
- really_believe_me : a ->
b
Subvert the type checker. This function will reduce in the type checker.
Use it with extreme care - it can result in segfaults or worse!
- prim_write : String ->
IO' l
Int
- prim_read : IO' l
String
- prim_pokeSingle : Ptr ->
Int ->
Double ->
IO Int
Single precision floats are marshalled to Doubles
- prim_pokePtr : Ptr ->
Int ->
Ptr ->
IO Int
- prim_pokeDouble : Ptr ->
Int ->
Double ->
IO Int
- prim_poke8 : Ptr ->
Int ->
Bits8 ->
IO Int
- prim_poke64 : Ptr ->
Int ->
Bits64 ->
IO Int
- prim_poke32 : Ptr ->
Int ->
Bits32 ->
IO Int
- prim_poke16 : Ptr ->
Int ->
Bits16 ->
IO Int
- prim_peekSingle : Ptr ->
Int ->
IO Double
Single precision floats are marshalled to Doubles
- prim_peekPtr : Ptr ->
Int ->
IO Ptr
- prim_peekDouble : Ptr ->
Int ->
IO Double
- prim_peek8 : Ptr ->
Int ->
IO Bits8
- prim_peek64 : Ptr ->
Int ->
IO Bits64
- prim_peek32 : Ptr ->
Int ->
IO Bits32
- prim_peek16 : Ptr ->
Int ->
IO Bits16
- prim_lenString : String ->
Int
- prim_io_pure : a ->
PrimIO a
- prim_io_bind : PrimIO a ->
(a ->
PrimIO b) ->
PrimIO b
- prim_fwrite : Ptr ->
String ->
IO' l
Int
- prim_freadChars : Int ->
Ptr ->
IO' l
String
- prim_fread : Ptr ->
IO' l
String
- prim_fork : PrimIO () ->
PrimIO Ptr
- prim__zextInt_BigInt : Int ->
Integer
- prim__zextInt_B64 : Int ->
Bits64
- prim__zextInt_B32 : Int ->
Bits32
- prim__zextInt_B16 : Int ->
Bits16
- prim__zextChar_BigInt : Char ->
Integer
- prim__zextB8_Int : Bits8 ->
Int
- prim__zextB8_BigInt : Bits8 ->
Integer
- prim__zextB8_B64 : Bits8 ->
Bits64
- prim__zextB8_B32 : Bits8 ->
Bits32
- prim__zextB8_B16 : Bits8 ->
Bits16
- prim__zextB64_BigInt : Bits64 ->
Integer
- prim__zextB32_Int : Bits32 ->
Int
- prim__zextB32_BigInt : Bits32 ->
Integer
- prim__zextB32_B64 : Bits32 ->
Bits64
- prim__zextB16_Int : Bits16 ->
Int
- prim__zextB16_BigInt : Bits16 ->
Integer
- prim__zextB16_B64 : Bits16 ->
Bits64
- prim__zextB16_B32 : Bits16 ->
Bits32
- prim__xorInt : Int ->
Int ->
Int
- prim__xorChar : Char ->
Char ->
Char
- prim__xorBigInt : Integer ->
Integer ->
Integer
- prim__xorB8 : Bits8 ->
Bits8 ->
Bits8
- prim__xorB64 : Bits64 ->
Bits64 ->
Bits64
- prim__xorB32 : Bits32 ->
Bits32 ->
Bits32
- prim__xorB16 : Bits16 ->
Bits16 ->
Bits16
- prim__writeString : prim__WorldType ->
String ->
Int
- prim__writeFile : prim__WorldType ->
Ptr ->
String ->
Int
- prim__vm : prim__WorldType ->
Ptr
- prim__uremInt : Int ->
Int ->
Int
- prim__uremChar : Char ->
Char ->
Char
- prim__uremBigInt : Integer ->
Integer ->
Integer
- prim__uremB8 : Bits8 ->
Bits8 ->
Bits8
- prim__uremB64 : Bits64 ->
Bits64 ->
Bits64
- prim__uremB32 : Bits32 ->
Bits32 ->
Bits32
- prim__uremB16 : Bits16 ->
Bits16 ->
Bits16
- prim__udivInt : Int ->
Int ->
Int
- prim__udivChar : Char ->
Char ->
Char
- prim__udivBigInt : Integer ->
Integer ->
Integer
- prim__udivB8 : Bits8 ->
Bits8 ->
Bits8
- prim__udivB64 : Bits64 ->
Bits64 ->
Bits64
- prim__udivB32 : Bits32 ->
Bits32 ->
Bits32
- prim__udivB16 : Bits16 ->
Bits16 ->
Bits16
- prim__truncInt_B8 : Int ->
Bits8
- prim__truncInt_B64 : Int ->
Bits64
- prim__truncInt_B32 : Int ->
Bits32
- prim__truncInt_B16 : Int ->
Bits16
- prim__truncBigInt_Int : Integer ->
Int
- prim__truncBigInt_Char : Integer ->
Char
- prim__truncBigInt_B8 : Integer ->
Bits8
- prim__truncBigInt_B64 : Integer ->
Bits64
- prim__truncBigInt_B32 : Integer ->
Bits32
- prim__truncBigInt_B16 : Integer ->
Bits16
- prim__truncB64_Int : Bits64 ->
Int
- prim__truncB64_B8 : Bits64 ->
Bits8
- prim__truncB64_B32 : Bits64 ->
Bits32
- prim__truncB64_B16 : Bits64 ->
Bits16
- prim__truncB32_Int : Bits32 ->
Int
- prim__truncB32_B8 : Bits32 ->
Bits8
- prim__truncB32_B16 : Bits32 ->
Bits16
- prim__truncB16_Int : Bits16 ->
Int
- prim__truncB16_B8 : Bits16 ->
Bits8
- prim__toStrInt : Int ->
String
- prim__toStrChar : Char ->
String
- prim__toStrBigInt : Integer ->
String
- prim__toStrB8 : Bits8 ->
String
- prim__toStrB64 : Bits64 ->
String
- prim__toStrB32 : Bits32 ->
String
- prim__toStrB16 : Bits16 ->
String
- prim__toFloatInt : Int ->
Double
- prim__toFloatChar : Char ->
Double
- prim__toFloatBigInt : Integer ->
Double
- prim__toFloatB8 : Bits8 ->
Double
- prim__toFloatB64 : Bits64 ->
Double
- prim__toFloatB32 : Bits32 ->
Double
- prim__toFloatB16 : Bits16 ->
Double
- prim__systemInfo : Int ->
String
- prim__syntactic_eq : (a : Type) ->
(b : Type) ->
(x : a) ->
(y : b) ->
Maybe (x =
y)
- prim__subInt : Int ->
Int ->
Int
- prim__subFloat : Double ->
Double ->
Double
- prim__subChar : Char ->
Char ->
Char
- prim__subBigInt : Integer ->
Integer ->
Integer
- prim__subB8 : Bits8 ->
Bits8 ->
Bits8
- prim__subB64 : Bits64 ->
Bits64 ->
Bits64
- prim__subB32 : Bits32 ->
Bits32 ->
Bits32
- prim__subB16 : Bits16 ->
Bits16 ->
Bits16
- prim__strToFloat : String ->
Double
- prim__strTail : String ->
String
- prim__strSubstr : Int ->
Int ->
String ->
String
- prim__strRev : String ->
String
- prim__strIndex : String ->
Int ->
Char
- prim__strHead : String ->
Char
- prim__strCons : Char ->
String ->
String
- prim__stdout : Ptr
- prim__stdin : Ptr
- prim__stderr : Ptr
- prim__sremInt : Int ->
Int ->
Int
- prim__sremChar : Char ->
Char ->
Char
- prim__sremBigInt : Integer ->
Integer ->
Integer
- prim__sremB8 : Bits8 ->
Bits8 ->
Bits8
- prim__sremB64 : Bits64 ->
Bits64 ->
Bits64
- prim__sremB32 : Bits32 ->
Bits32 ->
Bits32
- prim__sremB16 : Bits16 ->
Bits16 ->
Bits16
- prim__slteInt : Int ->
Int ->
Int
- prim__slteFloat : Double ->
Double ->
Int
- prim__slteChar : Char ->
Char ->
Int
- prim__slteBigInt : Integer ->
Integer ->
Int
- prim__slteB8 : Bits8 ->
Bits8 ->
Int
- prim__slteB64 : Bits64 ->
Bits64 ->
Int
- prim__slteB32 : Bits32 ->
Bits32 ->
Int
- prim__slteB16 : Bits16 ->
Bits16 ->
Int
- prim__sltInt : Int ->
Int ->
Int
- prim__sltFloat : Double ->
Double ->
Int
- prim__sltChar : Char ->
Char ->
Int
- prim__sltBigInt : Integer ->
Integer ->
Int
- prim__sltB8 : Bits8 ->
Bits8 ->
Int
- prim__sltB64 : Bits64 ->
Bits64 ->
Int
- prim__sltB32 : Bits32 ->
Bits32 ->
Int
- prim__sltB16 : Bits16 ->
Bits16 ->
Int
- prim__sizeofPtr : Int
- prim__shlInt : Int ->
Int ->
Int
- prim__shlChar : Char ->
Char ->
Char
- prim__shlBigInt : Integer ->
Integer ->
Integer
- prim__shlB8 : Bits8 ->
Bits8 ->
Bits8
- prim__shlB64 : Bits64 ->
Bits64 ->
Bits64
- prim__shlB32 : Bits32 ->
Bits32 ->
Bits32
- prim__shlB16 : Bits16 ->
Bits16 ->
Bits16
- prim__sgteInt : Int ->
Int ->
Int
- prim__sgteFloat : Double ->
Double ->
Int
- prim__sgteChar : Char ->
Char ->
Int
- prim__sgteBigInt : Integer ->
Integer ->
Int
- prim__sgteB8 : Bits8 ->
Bits8 ->
Int
- prim__sgteB64 : Bits64 ->
Bits64 ->
Int
- prim__sgteB32 : Bits32 ->
Bits32 ->
Int
- prim__sgteB16 : Bits16 ->
Bits16 ->
Int
- prim__sgtInt : Int ->
Int ->
Int
- prim__sgtFloat : Double ->
Double ->
Int
- prim__sgtChar : Char ->
Char ->
Int
- prim__sgtBigInt : Integer ->
Integer ->
Int
- prim__sgtB8 : Bits8 ->
Bits8 ->
Int
- prim__sgtB64 : Bits64 ->
Bits64 ->
Int
- prim__sgtB32 : Bits32 ->
Bits32 ->
Int
- prim__sgtB16 : Bits16 ->
Bits16 ->
Int
- prim__sextInt_BigInt : Int ->
Integer
- prim__sextInt_B64 : Int ->
Bits64
- prim__sextInt_B32 : Int ->
Bits32
- prim__sextInt_B16 : Int ->
Bits16
- prim__sextChar_BigInt : Char ->
Integer
- prim__sextB8_Int : Bits8 ->
Int
- prim__sextB8_BigInt : Bits8 ->
Integer
- prim__sextB8_B64 : Bits8 ->
Bits64
- prim__sextB8_B32 : Bits8 ->
Bits32
- prim__sextB8_B16 : Bits8 ->
Bits16
- prim__sextB64_BigInt : Bits64 ->
Integer
- prim__sextB32_Int : Bits32 ->
Int
- prim__sextB32_BigInt : Bits32 ->
Integer
- prim__sextB32_B64 : Bits32 ->
Bits64
- prim__sextB16_Int : Bits16 ->
Int
- prim__sextB16_BigInt : Bits16 ->
Integer
- prim__sextB16_B64 : Bits16 ->
Bits64
- prim__sextB16_B32 : Bits16 ->
Bits32
- prim__sdivInt : Int ->
Int ->
Int
- prim__sdivChar : Char ->
Char ->
Char
- prim__sdivBigInt : Integer ->
Integer ->
Integer
- prim__sdivB8 : Bits8 ->
Bits8 ->
Bits8
- prim__sdivB64 : Bits64 ->
Bits64 ->
Bits64
- prim__sdivB32 : Bits32 ->
Bits32 ->
Bits32
- prim__sdivB16 : Bits16 ->
Bits16 ->
Bits16
- prim__registerPtr : Ptr ->
Int ->
ManagedPtr
- prim__readString : prim__WorldType ->
String
- prim__readFile : prim__WorldType ->
Ptr ->
String
- prim__readChars : prim__WorldType ->
Int ->
Ptr ->
String
- prim__ptrOffset : Ptr ->
Int ->
Ptr
- prim__pokeSingle : prim__WorldType ->
Ptr ->
Int ->
Double ->
Int
- prim__pokePtr : prim__WorldType ->
Ptr ->
Int ->
Ptr ->
Int
- prim__pokeDouble : prim__WorldType ->
Ptr ->
Int ->
Double ->
Int
- prim__poke8 : prim__WorldType ->
Ptr ->
Int ->
Bits8 ->
Int
- prim__poke64 : prim__WorldType ->
Ptr ->
Int ->
Bits64 ->
Int
- prim__poke32 : prim__WorldType ->
Ptr ->
Int ->
Bits32 ->
Int
- prim__poke16 : prim__WorldType ->
Ptr ->
Int ->
Bits16 ->
Int
- prim__peekSingle : prim__WorldType ->
Ptr ->
Int ->
Double
- prim__peekPtr : prim__WorldType ->
Ptr ->
Int ->
Ptr
- prim__peekDouble : prim__WorldType ->
Ptr ->
Int ->
Double
- prim__peek8 : prim__WorldType ->
Ptr ->
Int ->
Bits8
- prim__peek64 : prim__WorldType ->
Ptr ->
Int ->
Bits64
- prim__peek32 : prim__WorldType ->
Ptr ->
Int ->
Bits32
- prim__peek16 : prim__WorldType ->
Ptr ->
Int ->
Bits16
- prim__orInt : Int ->
Int ->
Int
- prim__orChar : Char ->
Char ->
Char
- prim__orBigInt : Integer ->
Integer ->
Integer
- prim__orB8 : Bits8 ->
Bits8 ->
Bits8
- prim__orB64 : Bits64 ->
Bits64 ->
Bits64
- prim__orB32 : Bits32 ->
Bits32 ->
Bits32
- prim__orB16 : Bits16 ->
Bits16 ->
Bits16
- prim__null : Ptr
- prim__negFloat : Double ->
Double
- prim__mulInt : Int ->
Int ->
Int
- prim__mulFloat : Double ->
Double ->
Double
- prim__mulChar : Char ->
Char ->
Char
- prim__mulBigInt : Integer ->
Integer ->
Integer
- prim__mulB8 : Bits8 ->
Bits8 ->
Bits8
- prim__mulB64 : Bits64 ->
Bits64 ->
Bits64
- prim__mulB32 : Bits32 ->
Bits32 ->
Bits32
- prim__mulB16 : Bits16 ->
Bits16 ->
Bits16
- prim__lteChar : Char ->
Char ->
Int
- prim__lteBigInt : Integer ->
Integer ->
Int
- prim__lteB8 : Bits8 ->
Bits8 ->
Int
- prim__lteB64 : Bits64 ->
Bits64 ->
Int
- prim__lteB32 : Bits32 ->
Bits32 ->
Int
- prim__lteB16 : Bits16 ->
Bits16 ->
Int
- prim__ltString : String ->
String ->
Int
- prim__ltChar : Char ->
Char ->
Int
- prim__ltBigInt : Integer ->
Integer ->
Int
- prim__ltB8 : Bits8 ->
Bits8 ->
Int
- prim__ltB64 : Bits64 ->
Bits64 ->
Int
- prim__ltB32 : Bits32 ->
Bits32 ->
Int
- prim__ltB16 : Bits16 ->
Bits16 ->
Int
- prim__lshrInt : Int ->
Int ->
Int
- prim__lshrChar : Char ->
Char ->
Char
- prim__lshrBigInt : Integer ->
Integer ->
Integer
- prim__lshrB8 : Bits8 ->
Bits8 ->
Bits8
- prim__lshrB64 : Bits64 ->
Bits64 ->
Bits64
- prim__lshrB32 : Bits32 ->
Bits32 ->
Bits32
- prim__lshrB16 : Bits16 ->
Bits16 ->
Bits16
- prim__intToChar : Int ->
Char
- prim__gteChar : Char ->
Char ->
Int
- prim__gteBigInt : Integer ->
Integer ->
Int
- prim__gteB8 : Bits8 ->
Bits8 ->
Int
- prim__gteB64 : Bits64 ->
Bits64 ->
Int
- prim__gteB32 : Bits32 ->
Bits32 ->
Int
- prim__gteB16 : Bits16 ->
Bits16 ->
Int
- prim__gtChar : Char ->
Char ->
Int
- prim__gtBigInt : Integer ->
Integer ->
Int
- prim__gtB8 : Bits8 ->
Bits8 ->
Int
- prim__gtB64 : Bits64 ->
Bits64 ->
Int
- prim__gtB32 : Bits32 ->
Bits32 ->
Int
- prim__gtB16 : Bits16 ->
Bits16 ->
Int
- prim__fromStrInt : String ->
Int
- prim__fromStrChar : String ->
Char
- prim__fromStrBigInt : String ->
Integer
- prim__fromStrB8 : String ->
Bits8
- prim__fromStrB64 : String ->
Bits64
- prim__fromStrB32 : String ->
Bits32
- prim__fromStrB16 : String ->
Bits16
- prim__fromFloatInt : Double ->
Int
- prim__fromFloatChar : Double ->
Char
- prim__fromFloatBigInt : Double ->
Integer
- prim__fromFloatB8 : Double ->
Bits8
- prim__fromFloatB64 : Double ->
Bits64
- prim__fromFloatB32 : Double ->
Bits32
- prim__fromFloatB16 : Double ->
Bits16
- prim__floatToStr : Double ->
String
- prim__floatTan : Double ->
Double
- prim__floatSqrt : Double ->
Double
- prim__floatSin : Double ->
Double
- prim__floatLog : Double ->
Double
- prim__floatFloor : Double ->
Double
- prim__floatExp : Double ->
Double
- prim__floatCos : Double ->
Double
- prim__floatCeil : Double ->
Double
- prim__floatATan2 : Double ->
Double ->
Double
- prim__floatATan : Double ->
Double
- prim__floatASin : Double ->
Double
- prim__floatACos : Double ->
Double
- prim__eqString : String ->
String ->
Int
- prim__eqPtr : Ptr ->
Ptr ->
Int
- prim__eqManagedPtr : ManagedPtr ->
ManagedPtr ->
Int
- prim__eqInt : Int ->
Int ->
Int
- prim__eqFloat : Double ->
Double ->
Int
- prim__eqChar : Char ->
Char ->
Int
- prim__eqBigInt : Integer ->
Integer ->
Int
- prim__eqB8 : Bits8 ->
Bits8 ->
Int
- prim__eqB64 : Bits64 ->
Bits64 ->
Int
- prim__eqB32 : Bits32 ->
Bits32 ->
Int
- prim__eqB16 : Bits16 ->
Bits16 ->
Int
- prim__divFloat : Double ->
Double ->
Double
- prim__concat : String ->
String ->
String
- prim__complInt : Int ->
Int
- prim__complChar : Char ->
Char
- prim__complBigInt : Integer ->
Integer
- prim__complB8 : Bits8 ->
Bits8
- prim__complB64 : Bits64 ->
Bits64
- prim__complB32 : Bits32 ->
Bits32
- prim__complB16 : Bits16 ->
Bits16
- prim__charToInt : Char ->
Int
- prim__believe_me : (a : Type) ->
(b : Type) ->
(x : a) ->
b
- prim__ashrInt : Int ->
Int ->
Int
- prim__ashrChar : Char ->
Char ->
Char
- prim__ashrBigInt : Integer ->
Integer ->
Integer
- prim__ashrB8 : Bits8 ->
Bits8 ->
Bits8
- prim__ashrB64 : Bits64 ->
Bits64 ->
Bits64
- prim__ashrB32 : Bits32 ->
Bits32 ->
Bits32
- prim__ashrB16 : Bits16 ->
Bits16 ->
Bits16
- prim__asPtr : ManagedPtr ->
Ptr
- prim__andInt : Int ->
Int ->
Int
- prim__andChar : Char ->
Char ->
Char
- prim__andBigInt : Integer ->
Integer ->
Integer
- prim__andB8 : Bits8 ->
Bits8 ->
Bits8
- prim__andB64 : Bits64 ->
Bits64 ->
Bits64
- prim__andB32 : Bits32 ->
Bits32 ->
Bits32
- prim__andB16 : Bits16 ->
Bits16 ->
Bits16
- prim__addInt : Int ->
Int ->
Int
- prim__addFloat : Double ->
Double ->
Double
- prim__addChar : Char ->
Char ->
Char
- prim__addBigInt : Integer ->
Integer ->
Integer
- prim__addB8 : Bits8 ->
Bits8 ->
Bits8
- prim__addB64 : Bits64 ->
Bits64 ->
Bits64
- prim__addB32 : Bits32 ->
Bits32 ->
Bits32
- prim__addB16 : Bits16 ->
Bits16 ->
Bits16
- par : Lazy a ->
a
- mkForeignPrim : ForeignPrimType xs
env
t
- liftPrimIO : (World ->
PrimIO a) ->
IO' l
a
- io_pure : a ->
IO' l
a
- io_bind : IO' l
a ->
(a ->
IO' l
b) ->
IO' l
b
- idris_crash : (msg : String) ->
a
Abort immediately with an error message
- foreign : (f : FFI) ->
(fname : ffi_fn f) ->
(ty : Type) ->
{auto fty : FTy f
[]
ty} ->
ty
Call a foreign function.
The particular semantics of foreign function calls depend on the
Idris compiler backend in use. For the default C backend, see the
documentation for FFI_C
.
For more details, please consult the Idris documentation.
- f
an FFI descriptor, which is specific to the compiler backend.
- fname
the name of the foreign function
- ty
the Idris type for the foreign function
- fty
an automatically-found proof that the Idris type works with
the FFI in question
- call__IO : IO' ffi
a ->
PrimIO a
- believe_me : a ->
b
Subvert the type checker. This function is abstract, so it will not reduce in
the type checker. Use it with care - it can result in segfaults or worse!
- assert_unreachable : a
Assert to the totality checker that the case using this expression
is unreachable
- assert_total : a ->
a
Assert to the totality checker that the given expression will always
terminate.
- assert_smaller : (x : a) ->
(y : b) ->
b
Assert to the totality checker that y is always structurally smaller than
x (which is typically a pattern argument, and must be in normal form
for this to work)
- x
the larger value (typically a pattern argument)
- y
the smaller value (typically an argument to a recursive call)
- WorldRes : Type ->
Type
- data World : Type
A token representing the world, for use in IO
- TheWorld : prim__WorldType ->
World
- data Void : Type
The empty type, also known as the trivially false proposition.
Use void
or absurd
to prove anything if you have a variable of type Void
in scope.
- data Unit : Type
The canonical single-element type, also known as the trivially
true proposition.
- MkUnit : ()
The trivial constructor for ()
.
- data Symbol_ : String ->
Type
For 'symbol syntax. 'foo becomes Symbol_ "foo"
- Ptr : Type
- data PrimIO : Type ->
Type
Idris's primitive IO, for building abstractions on top of
- Prim__IO : a ->
PrimIO a
- PE_with block in with block in Decidable.Equality.Decidable.Equality.List a implementation of Decidable.Equality.DecEq, method decEq_a22721a1 : (x : String) ->
(xs : List String) ->
(ys : List String) ->
(warg : Dec (xs =
ys)) ->
Dec (x ::
xs =
x ::
ys)
- PE_with block in with block in Decidable.Equality.Decidable.Equality.List a implementation of Decidable.Equality.DecEq, method decEq_1793dbad : (x : String) ->
(xs : List String) ->
(y : String) ->
(p : (x =
y) ->
Void) ->
(ys : List String) ->
(warg : Dec (xs =
ys)) ->
Dec (x ::
xs =
y ::
ys)
- PE_with block in with block in Decidable.Equality.Decidable.Equality.(a, b) implementation of Decidable.Equality.DecEq, method decEq_fcee5068 : (a1 : Int) ->
(a' : Int) ->
(p : (a1 =
a') ->
Void) ->
(b1 : Int) ->
(b' : Int) ->
(warg : Dec (b1 =
b')) ->
Dec ((a1,
b1) =
(a',
b'))
- PE_with block in with block in Decidable.Equality.Decidable.Equality.(a, b) implementation of Decidable.Equality.DecEq, method decEq_3386ce6a : (a1 : Int) ->
(b1 : Int) ->
(b' : Int) ->
(warg : Dec (b1 =
b')) ->
Dec ((a1,
b1) =
(a1,
b'))
- PE_with block in Decidable.Equality.Decidable.Equality.List a implementation of Decidable.Equality.DecEq, method decEq_877d271a : (x : String) ->
(xs : List String) ->
(y : String) ->
(warg : Dec (x =
y)) ->
(ys : List String) ->
Dec (x ::
xs =
y ::
ys)
- PE_with block in Decidable.Equality.Decidable.Equality.(a, b) implementation of Decidable.Equality.DecEq, method decEq_e85079e4 : (a1 : Int) ->
(a' : Int) ->
(warg : Dec (a1 =
a')) ->
(b1 : Int) ->
(b' : Int) ->
Dec ((a1,
b1) =
(a',
b'))
- PE_uninhabited_d88e9ae7 : Void ->
Void
- PE_uninhabited_b38958cc : Fin 0 ->
Void
- PE_toNat_d6648df : Int ->
Nat
- PE_toNat_abb9c3f3 : Char ->
Nat
- PE_succ_dc75de74 : Nat ->
Nat
- PE_succ_d6648df : Int ->
Int
- PE_succ_abb9c3f3 : Char ->
Char
- PE_succ_85d79e7b : Integer ->
Integer
- PE_show_e3fee02 : (x : Bits64) ->
String
- PE_show_e3e405d : (x : Bits32) ->
String
- PE_show_e3d389f : (x : Bits16) ->
String
- PE_show_dc75de74 : (x : Nat) ->
String
- PE_show_d9a4e6b4 : (x : Bits8) ->
String
- PE_show_d6648df : (x : Int) ->
String
- PE_show_d6279dd5 : (x : ()) ->
String
- PE_show_d2fe2214 : (x : Bool) ->
String
- PE_show_bfb5fb44 : (x : FileError) ->
String
- PE_show_abb9c3f3 : (x : Char) ->
String
- PE_show_85d79e7b : (x : Integer) ->
String
- PE_show_81ff5c9 : (x : String) ->
String
- PE_showPrec_ba2f651f : (d : Prec) ->
(x : Int) ->
String
- PE_showPrec_7200248c : (d : Prec) ->
(x : Double) ->
String
- PE_showPrec_40cb6e4b : (d : Prec) ->
(x : Integer) ->
String
- PE_quotedTy_f97db2b0 : TT
- PE_quotedTy_ee737a41 : TT
- PE_quotedTy_e56e5b7e : TT
- PE_quotedTy_d7db5bba : Raw
- PE_quotedTy_bce1e464 : Raw
- PE_quotedTy_b31ae937 : TT
- PE_quotedTy_a4a53738 : TT
- PE_quotedTy_9338ed3f : Raw
- PE_quotedTy_7e0e4c3b : TT
- PE_quotedTy_6f584024 : Raw
- PE_quotedTy_5da3a65e : TT
- PE_quotedTy_5aa8d556 : Raw
- PE_quotedTy_57b6a547 : Raw
- PE_quotedTy_541df23c : TT
- PE_quotedTy_503bdd31 : TT
- PE_quotedTy_3fd6f596 : Raw
- PE_quotedTy_394b4043 : Raw
- PE_quotedTy_390ce668 : TT
- PE_quotedTy_2a297d09 : TT
- PE_quotedTy_29332ac5 : Raw
- PE_quotedTy_1677322b : Raw
- PE_quotedTy_12179418 : Raw
- PE_quote_fc019d51 : IntTy ->
TT
- PE_quote_fac8d188 : NativeTy ->
TT
- PE_quote_fa93cf7e : TTUExp ->
TT
- PE_quote_fa569582 : Raw ->
Raw
- PE_quote_f74ccb34 : NameType ->
Raw
- PE_quote_f609a407 : Nat ->
TT
- PE_quote_e55d77da : (TTName,
List CtorArg,
Raw) ->
Raw
- PE_quote_e46b23c7 : Universe ->
Raw
- PE_quote_e3ac48c : Bits8 ->
Raw
- PE_quote_d7dc3a17 : String ->
TT
- PE_quote_d346d368 : String ->
Raw
- PE_quote_d17d363 : SourceLocation ->
TT
- PE_quote_d131bdb8 : NameType ->
TT
- PE_quote_c751e1f : Bits32 ->
Raw
- PE_quote_c18a3d6a : Integer ->
Raw
- PE_quote_bce2c2c1 : FunArg ->
TT
- PE_quote_b7217b5f : Nat ->
Raw
- PE_quote_b684ea12 : Const ->
Raw
- PE_quote_b07962c : List String ->
TT
- PE_quote_aff59616 : SourceLocation ->
Raw
- PE_quote_afc38062 : TyConArg ->
Raw
- PE_quote_ac50ef72 : Bits64 ->
Raw
- PE_quote_a9d591dc : Universe ->
TT
- PE_quote_975e5ce5 : List ConstructorDefn ->
Raw
- PE_quote_93c65b63 : Bits32 ->
TT
- PE_quote_9339cb9c : Raw ->
TT
- PE_quote_8e03b301 : Erasure ->
TT
- PE_quote_8c122a20 : Bits8 ->
TT
- PE_quote_7f2a32a0 : Char ->
TT
- PE_quote_7c189dea : IntTy ->
Raw
- PE_quote_7a3b5c56 : Integer ->
TT
- PE_quote_79604ae6 : List ErrorReportPart ->
Raw
- PE_quote_76b910df : Tactic ->
TT
- PE_quote_6fbef909 : Double ->
Raw
- PE_quote_6f591e81 : ErrorReportPart ->
TT
- PE_quote_6bddb20e : List String ->
Raw
- PE_quote_683cf56a : Double ->
TT
- PE_quote_66c35b6e : TT ->
TT
- PE_quote_6453dcf2 : Char ->
Raw
- PE_quote_62b348e9 : CtorArg ->
Raw
- PE_quote_5bffe9f8 : ArithTy ->
Raw
- PE_quote_5aa9b3b3 : TyConArg ->
TT
- PE_quote_5a6044f5 : ErrorReportPart ->
Raw
- PE_quote_5959da96 : Int ->
Raw
- PE_quote_591e7145 : FunArg ->
Raw
- PE_quote_57b783a4 : TTName ->
TT
- PE_quote_550a1776 : (List CtorArg,
Raw) ->
Raw
- PE_quote_53c658fd : NativeTy ->
Raw
- PE_quote_52cd04a4 : Bits64 ->
TT
- PE_quote_4f9883b0 : List CtorArg ->
Raw
- PE_quote_4e8b4e80 : TTName ->
Raw
- PE_quote_4e5d6985 : Erasure ->
Raw
- PE_quote_4dbe8328 : Tactic ->
Raw
- PE_quote_4cf115a8 : TTUExp ->
Raw
- PE_quote_4b5a3ac7 : Const ->
TT
- PE_quote_4a689398 : List ConstructorDefn ->
TT
- PE_quote_49065bc8 : List FunArg ->
Raw
- PE_quote_478eee7a : List TyConArg ->
TT
- PE_quote_3fd7d3f3 : ConstructorDefn ->
TT
- PE_quote_3f4952b0 : Plicity ->
TT
- PE_quote_3f121f8e : TT ->
Raw
- PE_quote_3d5619d2 : Bits16 ->
Raw
- PE_quote_3ab5a8a2 : ConstructorDefn ->
Raw
- PE_quote_39501405 : List TyConArg ->
Raw
- PE_quote_394c1ea0 : CtorArg ->
TT
- PE_quote_2a782671 : List ErrorReportPart ->
TT
- PE_quote_29944289 : ArithTy ->
TT
- PE_quote_29340922 : List CtorArg ->
TT
- PE_quote_28a66304 : Bits16 ->
TT
- PE_quote_2856ff09 : Plicity ->
Raw
- PE_quote_19fbd576 : Int ->
TT
- PE_quote_16781088 : (TTName,
List CtorArg,
Raw) ->
TT
- PE_quote_12187275 : (List CtorArg,
Raw) ->
TT
- PE_quote_11bb3e3a : List FunArg ->
TT
- PE_pure_c4df80b5 : a ->
IO' ffi
a
- PE_pure_bd364ca1 : a ->
Elab a
- PE_pure_837faffc : a ->
IO' (MkFFI C_Types
String
String)
a
- PE_pack_3b7d037f : List Char ->
String
- PE_neutral_fc2e868 : String
- PE_neutral_3b7d03e2 : List b
- PE_neutral_3b7d03c1 : List a
- PE_negate_d6648df : Int ->
Int
- PE_negate_b5e0f956 : Double ->
Double
- PE_negate_85d79e7b : Integer ->
Integer
- PE_mod_40cb6e4b : Integer ->
Integer ->
Integer
- PE_map_e84935b3 : (func : a ->
b) ->
List a ->
List b
- PE_map_e3fc06f9 : (func : a ->
b) ->
Elab a ->
Elab b
- PE_map_b6e9086d : (func : a ->
b) ->
Maybe a ->
Maybe b
- PE_map_729111da : (func : a ->
b) ->
Stream a ->
Stream b
- PE_map_622baa6c : (func : a ->
b) ->
IO' (MkFFI C_Types
String
String)
a ->
IO' (MkFFI C_Types
String
String)
b
- PE_map_1a6e6d23 : (func : a ->
b) ->
Vect len
a ->
Vect len
b
- PE_isSuffixOf_22f242c8 : List Char ->
List Char ->
Bool
- PE_isSuffixOfBy_3a7ca737 : List Char ->
List Char ->
Bool
- PE_isPrefixOf_22f242c8 : List Char ->
List Char ->
Bool
- PE_isInfixOf_22f242c8 : List Char ->
List Char ->
Bool
- PE_fromNat_d6648df : Nat ->
Int
- PE_fromNat_abb9c3f3 : Nat ->
Char
- PE_fromInteger_e3fee02 : Integer ->
Bits64
- PE_fromInteger_e3e405d : Integer ->
Bits32
- PE_fromInteger_e3d389f : Integer ->
Bits16
- PE_fromInteger_dc75de74 : Integer ->
Nat
- PE_fromInteger_d9a4e6b4 : Integer ->
Bits8
- PE_fromInteger_d6648df : Integer ->
Int
- PE_fromInteger_b5e0f956 : Integer ->
Double
- PE_fromInteger_85d79e7b : Integer ->
Integer
- PE_foldr_f16fec77 : (func : elem ->
acc ->
acc) ->
(init : acc) ->
(input : List elem) ->
acc
- PE_foldr_e148009f : (func : elem ->
acc ->
acc) ->
(init : acc) ->
(input : Binder elem) ->
acc
- PE_foldr_940a166a : (func : elem ->
acc ->
acc) ->
(init : acc) ->
(input : Maybe elem) ->
acc
- PE_foldr_4a2f4eb1 : (func : elem ->
acc ->
acc) ->
(init : acc) ->
(input : Vect n
elem) ->
acc
- PE_foldl_f16fec77 : (func : acc ->
elem ->
acc) ->
(init : acc) ->
(input : List elem) ->
acc
- PE_enumFrom_dc75de74 : Nat ->
Stream Nat
- PE_enumFrom_d6648df : Int ->
Stream Int
- PE_enumFrom_abb9c3f3 : Char ->
Stream Char
- PE_enumFrom_85d79e7b : Integer ->
Stream Integer
- PE_elem_22f242c8 : Char ->
List Char ->
Bool
- PE_elemBy_3a7ca737 : Char ->
List Char ->
Bool
- PE_decEq_c1eaf49 : (x1 : String) ->
(x2 : String) ->
Dec (x1 =
x2)
- PE_decEq_ba2f651f : (x1 : Int) ->
(x2 : Int) ->
Dec (x1 =
x2)
- PE_decEq_88815844 : (x1 : SourceLocation) ->
(x2 : SourceLocation) ->
Dec (x1 =
x2)
- PE_decEq_81d0650b : (x1 : (Int,
Int)) ->
(x2 : (Int,
Int)) ->
Dec (x1 =
x2)
- PE_decEq_6b468553 : (x1 : List String) ->
(x2 : List String) ->
Dec (x1 =
x2)
- PE_decEq_6b31ad5c : (x1 : Nat) ->
(x2 : Nat) ->
Dec (x1 =
x2)
- PE_decEq_32c264fb : (x1 : Bool) ->
(x2 : Bool) ->
Dec (x1 =
x2)
- PE_countFrom_ba2f651f : Int ->
Int ->
Stream Int
- PE_countFrom_6b31ad5c : Nat ->
Nat ->
Stream Nat
- PE_countFrom_40cb6e4b : Integer ->
Integer ->
Stream Integer
- PE_constructor of Prelude.Algebra.Monoid#Semigroup ty_fc2e868 : Semigroup String
- PE_constructor of Prelude.Algebra.Monoid#Semigroup ty_3b7d03e2 : Semigroup (List b)
- PE_constructor of Prelude.Algebra.Monoid#Semigroup ty_3b7d03c1 : Semigroup (List a)
- PE_concat_2278c957 : List (List a) ->
List a
- PE_concatMap_8faac41f : (a ->
List b) ->
List a ->
List b
- PE_concatMap_296b1ec9 : (a ->
String) ->
List a ->
String
- PE_compare_c1eaf49 : String ->
String ->
Ordering
- PE_compare_ba2f651f : Int ->
Int ->
Ordering
- PE_compare_a2d818a2 : Fin n ->
Fin n ->
Ordering
- PE_compare_9b1b58ef : () ->
() ->
Ordering
- PE_compare_7200248c : Double ->
Double ->
Ordering
- PE_compare_6b31ad5c : Nat ->
Nat ->
Ordering
- PE_compare_40cb6e4b : Integer ->
Integer ->
Ordering
- PE_compare_32c264fb : Bool ->
Bool ->
Ordering
- PE_compare_22f242c8 : Char ->
Char ->
Ordering
- PE_compare_1676ea41 : Prec ->
Prec ->
Ordering
- PE_cast_dd2c0e30 : (orig : String) ->
Integer
- PE_cast_c71d3746 : (orig : Nat) ->
Int
- PE_cast_c090c40e : (orig : Integer) ->
String
- PE_cast_b8ccd99c : (orig : Char) ->
Int
- PE_cast_abf8387c : (orig : Integer) ->
Nat
- PE_cast_a18abc1e : (orig : String) ->
List Char
- PE_cast_8c354935 : (orig : Int) ->
Nat
- PE_cast_569d416 : (orig : Int) ->
Integer
- PE_cast_4a482be : (orig : Nat) ->
Integer
- PE_cast_1f219304 : (orig : Int) ->
Char
- PE_any_45711470 : (a ->
Bool) ->
List a ->
Bool
- PE_absurd_9b4b794a : (h : Fin 0) ->
a
- PE_absurd_654c8984 : (h : Void) ->
a
- PE_abs_d6648df : Int ->
Int
- PE_abs_85d79e7b : Integer ->
Integer
- PE_List a, TT implementation of Language.Reflection.Quotable_fc2e868 : Quotable (List String)
TT
- PE_List a, TT implementation of Language.Reflection.Quotable_df2fadf0 : Quotable (List ErrorReportPart)
TT
- PE_List a, TT implementation of Language.Reflection.Quotable_d09dc8b8 : Quotable (List TyConArg)
TT
- PE_List a, TT implementation of Language.Reflection.Quotable_7915b8f7 : Quotable (List (TTName,
List CtorArg,
Raw))
TT
- PE_List a, TT implementation of Language.Reflection.Quotable_33ab986c : Quotable (List ConstructorDefn)
TT
- PE_List a, TT implementation of Language.Reflection.Quotable_20086ef3 : Quotable (List FunArg)
TT
- PE_List a, TT implementation of Language.Reflection.Quotable_1507bcbc : Quotable (List CtorArg)
TT
- PE_List a, Raw implementation of Language.Reflection.Quotable_fc2e868 : Quotable (List String)
Raw
- PE_List a, Raw implementation of Language.Reflection.Quotable_df2fadf0 : Quotable (List ErrorReportPart)
Raw
- PE_List a, Raw implementation of Language.Reflection.Quotable_d09dc8b8 : Quotable (List TyConArg)
Raw
- PE_List a, Raw implementation of Language.Reflection.Quotable_7915b8f7 : Quotable (List (TTName,
List CtorArg,
Raw))
Raw
- PE_List a, Raw implementation of Language.Reflection.Quotable_33ab986c : Quotable (List ConstructorDefn)
Raw
- PE_List a, Raw implementation of Language.Reflection.Quotable_20086ef3 : Quotable (List FunArg)
Raw
- PE_List a, Raw implementation of Language.Reflection.Quotable_1507bcbc : Quotable (List CtorArg)
Raw
- PE_List a implementation of Decidable.Equality.DecEq_fc2e868 : DecEq (List String)
- PE_Language.Reflection.List a, TT implementation of Language.Reflection.Quotable, method quotedTy_fc2e868 : TT
- PE_Language.Reflection.List a, TT implementation of Language.Reflection.Quotable, method quotedTy_df2fadf0 : TT
- PE_Language.Reflection.List a, TT implementation of Language.Reflection.Quotable, method quotedTy_d09dc8b8 : TT
- PE_Language.Reflection.List a, TT implementation of Language.Reflection.Quotable, method quotedTy_7915b8f7 : TT
- PE_Language.Reflection.List a, TT implementation of Language.Reflection.Quotable, method quotedTy_33ab986c : TT
- PE_Language.Reflection.List a, TT implementation of Language.Reflection.Quotable, method quotedTy_20086ef3 : TT
- PE_Language.Reflection.List a, TT implementation of Language.Reflection.Quotable, method quotedTy_1507bcbc : TT
- PE_Language.Reflection.List a, TT implementation of Language.Reflection.Quotable, method quote_e456e031 : List TyConArg ->
TT
- PE_Language.Reflection.List a, TT implementation of Language.Reflection.Quotable, method quote_c5256c59 : List ErrorReportPart ->
TT
- PE_Language.Reflection.List a, TT implementation of Language.Reflection.Quotable, method quote_b5ff547f : List CtorArg ->
TT
- PE_Language.Reflection.List a, TT implementation of Language.Reflection.Quotable, method quote_a91ea646 : List ConstructorDefn ->
TT
- PE_Language.Reflection.List a, TT implementation of Language.Reflection.Quotable, method quote_9bccd82b : List (TTName,
List CtorArg,
Raw) ->
TT
- PE_Language.Reflection.List a, TT implementation of Language.Reflection.Quotable, method quote_81ff5c9 : List String ->
TT
- PE_Language.Reflection.List a, TT implementation of Language.Reflection.Quotable, method quote_21164daa : List FunArg ->
TT
- PE_Language.Reflection.List a, Raw implementation of Language.Reflection.Quotable, method quotedTy_fc2e868 : Raw
- PE_Language.Reflection.List a, Raw implementation of Language.Reflection.Quotable, method quotedTy_df2fadf0 : Raw
- PE_Language.Reflection.List a, Raw implementation of Language.Reflection.Quotable, method quotedTy_d09dc8b8 : Raw
- PE_Language.Reflection.List a, Raw implementation of Language.Reflection.Quotable, method quotedTy_7915b8f7 : Raw
- PE_Language.Reflection.List a, Raw implementation of Language.Reflection.Quotable, method quotedTy_33ab986c : Raw
- PE_Language.Reflection.List a, Raw implementation of Language.Reflection.Quotable, method quotedTy_20086ef3 : Raw
- PE_Language.Reflection.List a, Raw implementation of Language.Reflection.Quotable, method quotedTy_1507bcbc : Raw
- PE_Language.Reflection.List a, Raw implementation of Language.Reflection.Quotable, method quote_e456e031 : List TyConArg ->
Raw
- PE_Language.Reflection.List a, Raw implementation of Language.Reflection.Quotable, method quote_c5256c59 : List ErrorReportPart ->
Raw
- PE_Language.Reflection.List a, Raw implementation of Language.Reflection.Quotable, method quote_b5ff547f : List CtorArg ->
Raw
- PE_Language.Reflection.List a, Raw implementation of Language.Reflection.Quotable, method quote_a91ea646 : List ConstructorDefn ->
Raw
- PE_Language.Reflection.List a, Raw implementation of Language.Reflection.Quotable, method quote_9bccd82b : List (TTName,
List CtorArg,
Raw) ->
Raw
- PE_Language.Reflection.List a, Raw implementation of Language.Reflection.Quotable, method quote_81ff5c9 : List String ->
Raw
- PE_Language.Reflection.List a, Raw implementation of Language.Reflection.Quotable, method quote_21164daa : List FunArg ->
Raw
- PE_Language.Reflection.(a, b), TT implementation of Language.Reflection.Quotable, method quotedTy_4f9883b0 : TT
- PE_Language.Reflection.(a, b), TT implementation of Language.Reflection.Quotable, method quotedTy_1c1cafc1 : TT
- PE_Language.Reflection.(a, b), TT implementation of Language.Reflection.Quotable, method quote_9fb2a838 : (TTName,
List CtorArg,
Raw) ->
TT
- PE_Language.Reflection.(a, b), TT implementation of Language.Reflection.Quotable, method quote_42a8fa14 : (List CtorArg,
Raw) ->
TT
- PE_Language.Reflection.(a, b), Raw implementation of Language.Reflection.Quotable, method quotedTy_4f9883b0 : Raw
- PE_Language.Reflection.(a, b), Raw implementation of Language.Reflection.Quotable, method quotedTy_1c1cafc1 : Raw
- PE_Language.Reflection.(a, b), Raw implementation of Language.Reflection.Quotable, method quote_9fb2a838 : (TTName,
List CtorArg,
Raw) ->
Raw
- PE_Language.Reflection.(a, b), Raw implementation of Language.Reflection.Quotable, method quote_42a8fa14 : (List CtorArg,
Raw) ->
Raw
- PE_Decidable.Equality.List a implementation of Decidable.Equality.DecEq, method decEq_c1eaf49 : (x1 : List String) ->
(x2 : List String) ->
Dec (x1 =
x2)
- PE_Decidable.Equality.(a, b) implementation of Decidable.Equality.DecEq, method decEq_e07dba86 : (x1 : (Int,
Int)) ->
(x2 : (Int,
Int)) ->
Dec (x1 =
x2)
- PE_>_e41bdaf : Bits8 ->
Bits8 ->
Bool
- PE_>_d63daea2 : Bits64 ->
Bits64 ->
Bool
- PE_>_d6064c5d : Bits32 ->
Bits32 ->
Bool
- PE_>_d5e44cdf : Bits16 ->
Bits16 ->
Bool
- PE_>_c1eaf49 : String ->
String ->
Bool
- PE_>_ba2f651f : Int ->
Int ->
Bool
- PE_>_a2d818a2 : Fin n ->
Fin n ->
Bool
- PE_>_9b1b58ef : () ->
() ->
Bool
- PE_>_7200248c : Double ->
Double ->
Bool
- PE_>_6b31ad5c : Nat ->
Nat ->
Bool
- PE_>_40cb6e4b : Integer ->
Integer ->
Bool
- PE_>_32c264fb : Bool ->
Bool ->
Bool
- PE_>_22f242c8 : Char ->
Char ->
Bool
- PE_>_1676ea41 : Prec ->
Prec ->
Bool
- PE_>=_ba2f651f : Int ->
Int ->
Bool
- PE_>=_40cb6e4b : Integer ->
Integer ->
Bool
- PE_>=_22f242c8 : Char ->
Char ->
Bool
- PE_>=_1676ea41 : Prec ->
Prec ->
Bool
- PE_==_e41bdaf : Bits8 ->
Bits8 ->
Bool
- PE_==_d63daea2 : Bits64 ->
Bits64 ->
Bool
- PE_==_d6064c5d : Bits32 ->
Bits32 ->
Bool
- PE_==_d5e44cdf : Bits16 ->
Bits16 ->
Bool
- PE_==_caeefbca : Ptr ->
Ptr ->
Bool
- PE_==_c1eaf49 : String ->
String ->
Bool
- PE_==_ba2f651f : Int ->
Int ->
Bool
- PE_==_a2d818a2 : Fin n ->
Fin n ->
Bool
- PE_==_9b1b58ef : () ->
() ->
Bool
- PE_==_7200248c : Double ->
Double ->
Bool
- PE_==_6b31ad5c : Nat ->
Nat ->
Bool
- PE_==_5a6178be : ManagedPtr ->
ManagedPtr ->
Bool
- PE_==_40cb6e4b : Integer ->
Integer ->
Bool
- PE_==_346eb07c : Ordering ->
Ordering ->
Bool
- PE_==_32c264fb : Bool ->
Bool ->
Bool
- PE_==_22f242c8 : Char ->
Char ->
Bool
- PE_==_1676ea41 : Prec ->
Prec ->
Bool
- PE_<_e41bdaf : Bits8 ->
Bits8 ->
Bool
- PE_<_d63daea2 : Bits64 ->
Bits64 ->
Bool
- PE_<_d6064c5d : Bits32 ->
Bits32 ->
Bool
- PE_<_d5e44cdf : Bits16 ->
Bits16 ->
Bool
- PE_<_c1eaf49 : String ->
String ->
Bool
- PE_<_ba2f651f : Int ->
Int ->
Bool
- PE_<_a2d818a2 : Fin n ->
Fin n ->
Bool
- PE_<_9b1b58ef : () ->
() ->
Bool
- PE_<_7200248c : Double ->
Double ->
Bool
- PE_<_6b31ad5c : Nat ->
Nat ->
Bool
- PE_<_40cb6e4b : Integer ->
Integer ->
Bool
- PE_<_32c264fb : Bool ->
Bool ->
Bool
- PE_<_22f242c8 : Char ->
Char ->
Bool
- PE_<_1676ea41 : Prec ->
Prec ->
Bool
- PE_<=_ba2f651f : Int ->
Int ->
Bool
- PE_<=_6b31ad5c : Nat ->
Nat ->
Bool
- PE_<=_40cb6e4b : Integer ->
Integer ->
Bool
- PE_<=_22f242c8 : Char ->
Char ->
Bool
- PE_<$>_d4eefcf3 : (func : a ->
b) ->
Elab a ->
Elab b
- PE_/_7200248c : Double ->
Double ->
Double
- PE_/=_ba2f651f : Int ->
Int ->
Bool
- PE_/=_32c264fb : Bool ->
Bool ->
Bool
- PE_-_ba2f651f : Int ->
Int ->
Int
- PE_-_7200248c : Double ->
Double ->
Double
- PE_-_40cb6e4b : Integer ->
Integer ->
Integer
- PE_+_ba2f651f : Int ->
Int ->
Int
- PE_+_7200248c : Double ->
Double ->
Double
- PE_+_6b31ad5c : Nat ->
Nat ->
Nat
- PE_+_40cb6e4b : Integer ->
Integer ->
Integer
- PE_*_ba2f651f : Int ->
Int ->
Int
- PE_*_7200248c : Double ->
Double ->
Double
- PE_*_6b31ad5c : Nat ->
Nat ->
Nat
- PE_*_40cb6e4b : Integer ->
Integer ->
Integer
- PE_(a, b), TT implementation of Language.Reflection.Quotable_4e00078a : Quotable (TTName,
List CtorArg,
Raw)
TT
- PE_(a, b), TT implementation of Language.Reflection.Quotable_4799f661 : Quotable (List CtorArg,
Raw)
TT
- PE_(a, b), Raw implementation of Language.Reflection.Quotable_4e00078a : Quotable (TTName,
List CtorArg,
Raw)
Raw
- PE_(a, b), Raw implementation of Language.Reflection.Quotable_4799f661 : Quotable (List CtorArg,
Raw)
Raw
- PE_(a, b) implementation of Decidable.Equality.DecEq_75bec382 : DecEq (Int,
Int)
- MkFFI : (ffi_types : Type ->
Type) ->
(ffi_fn : Type) ->
(ffi_data : Type) ->
FFI
- ffi_types
A family describing which types are available in the FFI
- ffi_fn
The type used to specify the names of foreign functions in this FFI
- ffi_data
How this FFI describes exported datatypes
- ManagedPtr : Type
- Lazy : Type ->
Type
Lazily evaluated values.
At run time, the delayed value will only be computed when required by
a case split.
- data JsFn : Type ->
Type
- MkJsFn : (x : t) ->
JsFn t
- data JS_Types : Type ->
Type
- JS_Str : JS_Types String
- JS_Float : JS_Types Double
- JS_Ptr : JS_Types Ptr
- JS_Unit : JS_Types ()
- JS_FnT : JS_FnTypes a ->
JS_Types (JsFn a)
- JS_IntT : JS_IntTypes i ->
JS_Types i
- data JS_IntTypes : Type ->
Type
- JS_IntChar : JS_IntTypes Char
- JS_IntNative : JS_IntTypes Int
- JS_IO : Type ->
Type
- data JS_FnTypes : Type ->
Type
- JS_Fn : JS_Types s ->
JS_FnTypes t ->
JS_FnTypes (s ->
t)
- JS_FnIO : JS_Types t ->
JS_FnTypes (IO' l
t)
- JS_FnBase : JS_Types t ->
JS_FnTypes t
- Inf : Type ->
Type
Possibly infinite data.
A value which may be infinite is accepted by the totality checker if
it appears under a data constructor. At run time, the delayed value will
only be computed when required by a case split.
- data IO' : (lang : FFI) ->
Type ->
Type
The IO type, parameterised over the FFI that is available within
it.
- MkIO : (World ->
PrimIO (WorldRes a)) ->
IO' lang
a
- IO : (res : Type) ->
Type
Interactive programs, describing I/O actions and returning a value.
- res
The result type of the program
- ForeignPrimType : (xs : List Type) ->
FEnv ffi
xs ->
Type ->
Type
- Force : Delayed t
a ->
a
Compute a value from a delayed computation.
Inserted by the elaborator where necessary.
- data FTy : FFI ->
List Type ->
Type ->
Type
- FRet : ffi_types f
t ->
FTy f
xs
(IO' f
t)
- FFun : ffi_types f
s ->
FTy f
(s ::
xs)
t ->
FTy f
xs
(s ->
t)
- FFI_JS : FFI
The JavaScript FFI. The strings naming functions in this API are
JavaScript code snippets, into which the arguments are substituted
for the placeholders %0
, %1
, etc.
- record FFI
An FFI specifier, which describes how a particular compiler
backend handles foreign function calls.
- MkFFI : (ffi_types : Type ->
Type) ->
(ffi_fn : Type) ->
(ffi_data : Type) ->
FFI
- ffi_types
A family describing which types are available in the FFI
- ffi_fn
The type used to specify the names of foreign functions in this FFI
- ffi_data
How this FFI describes exported datatypes
- ffi_types : (rec : FFI) ->
Type ->
Type
A family describing which types are available in the FFI
- ffi_fn : (rec : FFI) ->
Type
The type used to specify the names of foreign functions in this FFI
- ffi_data : (rec : FFI) ->
Type
How this FFI describes exported datatypes
- data Delayed : DelayReason ->
Type ->
Type
The underlying implementation of Lazy and Inf.
- Delay : (val : a) ->
Delayed t
a
A delayed computation.
Delay is inserted automatically by the elaborator where necessary.
Note that compiled code gives Delay
special semantics.
- t
whether this is laziness from an infinite structure or lazy evaluation
- a
the type of the eventual value
- val
a computation that will produce a value
- data DelayReason : Type
Two types of delayed computation: that arising from lazy functions, and that
arising from infinite data. They differ in their totality condition.
- Infinite : DelayReason
- LazyValue : DelayReason
- CData : Type
- data (=) : (x : A) ->
(y : B) ->
Type
The propositional equality type. A proof that x
= y
.
To use such a proof, pattern-match on it, and the two equal things will then need to be the same pattern.
Note: Idris's equality type is potentially heterogeneous, which means that it is possible to state equalities between values of potentially different types. However, Idris will attempt the homogeneous case unless it fails to typecheck.
You may need to use (~=~)
to explicitly request heterogeneous equality.
- A
the type of the left side of the equality
- B
the type of the right side of the equality
- Refl : x =
x
A proof that x
in fact equals x
. To construct this, you must have already shown that both sides are in fact equal.
- A
the type at which the equality is proven
- x
the element shown to be equal to itself.