lean2/tests/lean/run/group2.lean

import logic
open num

section
  parameter {A  : Type}
  parameter f   : A → A → A
  parameter one : A
  parameter inv : A → A
  infixl `*`:75     := f
  postfix `^-1`:100 := inv
  definition is_assoc := ∀ a b c, (a*b)*c = a*b*c
  definition is_id    := ∀ a, a*one = a
  definition is_inv   := ∀ a, a*a^-1 = one
end

inductive group_struct (A : Type) : Type :=
mk_group_struct : Π (mul : A → A → A) (one : A) (inv : A → A), is_assoc mul → is_id mul one → is_inv mul one inv → group_struct A

inductive group : Type :=
mk_group : Π (A : Type), group_struct A → group

definition carrier (g : group) : Type
:= group_rec (λ c s, c) g

coercion carrier

definition group_to_struct [instance] (g : group) : group_struct (carrier g)
:= group_rec (λ (A : Type) (s : group_struct A), s) g

check group_struct

definition mul [inline] {A : Type} {s : group_struct A} (a b : A) : A
:= group_struct_rec (λ mul one inv h1 h2 h3, mul) s a b

infixl `*`:75 := mul

section
  variable  G1 : group
  variable  G2 : group
  variables a b c : G2
  variables d e   : G1
  check a * b * b
  check d * e
end

variable G : group.{1}
variables a b : G
definition val : G := a*b
check val

variable pos_real : Type.{1}
variable rmul  : pos_real → pos_real → pos_real
variable rone  : pos_real
variable rinv  : pos_real → pos_real
axiom    H1    : is_assoc rmul
axiom    H2    : is_id rmul rone
axiom    H3    : is_inv rmul rone rinv

definition real_group_struct [inline] [instance] : group_struct pos_real
:= mk_group_struct rmul rone rinv H1 H2 H3

variables x y : pos_real
check x * y
set_option pp.implicit true
print "---------------"
theorem T (a b : pos_real): (rmul a b) = a*b
:= refl (rmul a b)
chore(*): minimize dependencies on tests Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2014-08-25 02:58:48 +00:00			`import logic`
feat(frontends/lean): rename 'using' command to 'open' Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2014-09-03 23:00:38 +00:00			`open num`
fix(library/unifier): missing test in flex_rigid Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2014-07-07 04:36:23 +00:00
			`section`
			`parameter {A : Type}`
			`parameter f : A → A → A`
			`parameter one : A`
			`parameter inv : A → A`
			infixl `*`:75 := f
			postfix `^-1`:100 := inv
			`definition is_assoc := ∀ a b c, (ab)c = abc`
			`definition is_id := ∀ a, a*one = a`
			`definition is_inv := ∀ a, a*a^-1 = one`
			`end`

			`inductive group_struct (A : Type) : Type :=`
feat(*): change inductive datatype syntax Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2014-08-22 22:46:10 +00:00			`mk_group_struct : Π (mul : A → A → A) (one : A) (inv : A → A), is_assoc mul → is_id mul one → is_inv mul one inv → group_struct A`
fix(library/unifier): missing test in flex_rigid Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2014-07-07 04:36:23 +00:00
			`inductive group : Type :=`
feat(*): change inductive datatype syntax Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2014-08-22 22:46:10 +00:00			`mk_group : Π (A : Type), group_struct A → group`
fix(library/unifier): missing test in flex_rigid Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2014-07-07 04:36:23 +00:00
			`definition carrier (g : group) : Type`
			`:= group_rec (λ c s, c) g`

fet(frontends/lean): allow coercions to sort-class in the types of variable and definitions Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2014-07-07 04:54:16 +00:00			`coercion carrier`

fix(library/unifier): missing test in flex_rigid Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2014-07-07 04:36:23 +00:00			`definition group_to_struct [instance] (g : group) : group_struct (carrier g)`
			`:= group_rec (λ (A : Type) (s : group_struct A), s) g`

			`check group_struct`

			`definition mul [inline] {A : Type} {s : group_struct A} (a b : A) : A`
			`:= group_struct_rec (λ mul one inv h1 h2 h3, mul) s a b`

			infixl `*`:75 := mul

			`section`
			`variable G1 : group`
			`variable G2 : group`
fet(frontends/lean): allow coercions to sort-class in the types of variable and definitions Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2014-07-07 04:54:16 +00:00			`variables a b c : G2`
			`variables d e : G1`
fix(library/unifier): missing test in flex_rigid Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2014-07-07 04:36:23 +00:00			`check a * b * b`
			`check d * e`
			`end`

fet(frontends/lean): allow coercions to sort-class in the types of variable and definitions Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2014-07-07 04:54:16 +00:00			`variable G : group.{1}`
			`variables a b : G`
			`definition val : G := a*b`
			`check val`

fix(library/unifier): missing test in flex_rigid Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2014-07-07 04:36:23 +00:00			`variable pos_real : Type.{1}`
			`variable rmul : pos_real → pos_real → pos_real`
			`variable rone : pos_real`
			`variable rinv : pos_real → pos_real`
			`axiom H1 : is_assoc rmul`
			`axiom H2 : is_id rmul rone`
			`axiom H3 : is_inv rmul rone rinv`

			`definition real_group_struct [inline] [instance] : group_struct pos_real`
			`:= mk_group_struct rmul rone rinv H1 H2 H3`

			`variables x y : pos_real`
			`check x * y`
refactor(frontends/lean/elaborator): modify when tactic_hints are invoked, add the notion of strict placeholder Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2014-07-14 01:53:02 +00:00			`set_option pp.implicit true`
			`print "---------------"`
fix(library/unifier): missing test in flex_rigid Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2014-07-07 04:36:23 +00:00			`theorem T (a b : pos_real): (rmul a b) = a*b`
			`:= refl (rmul a b)`