X-Git-Url: http://matita.cs.unibo.it/gitweb/?a=blobdiff_plain;f=matita%2Fhelp%2FC%2Fsec_tactics.xml;h=4bba23eb6e22c887d99171a63f6776f76dfdf4b5;hb=4cdf45f08cd95641a094312ddc558320b874fa16;hp=03842a70904647081e5335656fc3b39534c5316f;hpb=81c7d187b90a14e36b656265328b79a122078e8a;p=helm.git
diff --git a/matita/help/C/sec_tactics.xml b/matita/help/C/sec_tactics.xml
index 03842a709..4bba23eb6 100644
--- a/matita/help/C/sec_tactics.xml
+++ b/matita/help/C/sec_tactics.xml
@@ -5,6 +5,7 @@
absurd <term>
+ absurd
absurd P
@@ -17,14 +18,14 @@
Action:
- it closes the current sequent by eliminating an
+ It closes the current sequent by eliminating an
absurd term.
New sequents to prove:
- it opens two new sequents of conclusion P
+ It opens two new sequents of conclusion P
and ¬P.
@@ -33,6 +34,7 @@
apply <term>
+ apply
apply t
@@ -49,13 +51,13 @@
Action:
- it closes the current sequent by applying t to n implicit arguments (that become new sequents).
+ It closes the current sequent by applying t to n implicit arguments (that become new sequents).
New sequents to prove:
- it opens a new sequent for each premise
+ It opens a new sequent for each premise
Ti that is not
instantiated by unification. Ti is
the conclusion of the i-th new sequent to
@@ -67,26 +69,27 @@
assumption
+ assumption
assumption
Pre-conditions:
- there must exist an hypothesis whose type can be unified with
+ There must exist an hypothesis whose type can be unified with
the conclusion of the current sequent.
Action:
- it closes the current sequent exploiting an hypothesis.
+ It closes the current sequent exploiting an hypothesis.
New sequents to prove:
- none
+ None
@@ -94,13 +97,14 @@
auto [depth=<int>] [width=<int>] [paramodulation] [full]
+ auto
auto depth=d width=w paramodulation full
Pre-conditions:
- none, but the tactic may fail finding a proof if every
+ None, but the tactic may fail finding a proof if every
proof is in the search space that is pruned away. Pruning is
controlled by d and w.
Moreover, only lemmas whose type signature is a subset of the
@@ -111,7 +115,7 @@
Action:
- it closes the current sequent by repeated application of
+ It closes the current sequent by repeated application of
rewriting steps (unless paramodulation is
omitted), hypothesis and lemmas in the library.
@@ -119,7 +123,7 @@
New sequents to prove:
- none
+ None
@@ -127,6 +131,7 @@
clear <id>
+ clear
clear H
@@ -140,14 +145,14 @@
Action:
- it hides the hypothesis H from the
+ It hides the hypothesis H from the
current sequent.
New sequents to prove:
- none
+ None
@@ -155,6 +160,7 @@
clearbody <id>
+ clearbody
clearbody H
@@ -168,14 +174,14 @@
Action:
- it hides the definiens of a definition in the current
+ It hides the definiens of a definition in the current
sequent context. Thus the definition becomes an hypothesis.
New sequents to prove:
- none.
+ None.
@@ -183,13 +189,14 @@
change <pattern> with <term>
+ change
change patt with t
Pre-conditions:
- each subterm matched by the pattern must be convertible
+ Each subterm matched by the pattern must be convertible
with the term t disambiguated in the context
of the matched subterm.
@@ -197,7 +204,7 @@
Action:
- it replaces the subterms of the current sequent matched by
+ It replaces the subterms of the current sequent matched by
patt with the new term t.
For each subterm matched by the pattern, t is
disambiguated in the context of the subterm.
@@ -206,7 +213,7 @@
New sequents to prove:
- none.
+ None.
@@ -214,27 +221,29 @@
constructor <int>
+ constructor
constructor n
Pre-conditions:
- the conclusion of the current sequent must be
- an inductive type or the application of an inductive type.
+ The conclusion of the current sequent must be
+ an inductive type or the application of an inductive type with
+ at least n constructors.
Action:
- it applies the n-th constructor of the
+ It applies the n-th constructor of the
inductive type of the conclusion of the current sequent.
New sequents to prove:
- it opens a new sequent for each premise of the constructor
+ It opens a new sequent for each premise of the constructor
that can not be inferred by unification. For more details,
see the apply tactic.
@@ -244,27 +253,28 @@
contradiction
+ contradiction
contradiction
Pre-conditions:
- there must be in the current context an hypothesis of type
+ There must be in the current context an hypothesis of type
False.
Action:
- it closes the current sequent by applying an hypothesis of
+ It closes the current sequent by applying an hypothesis of
type False.
New sequents to prove:
- none
+ None
@@ -272,6 +282,7 @@
cut <term> [as <id>]
+ cut
cut P as H
@@ -284,13 +295,13 @@
Action:
- it closes the current sequent.
+ It closes the current sequent.
New sequents to prove:
- it opens two new sequents. The first one has an extra
+ It opens two new sequents. The first one has an extra
hypothesis H:P. If H is
omitted, the name of the hypothesis is automatically generated.
The second sequent has conclusion P and
@@ -302,6 +313,7 @@
decompose [<ident list>] <ident> [<intros_spec>]
+ decompose
decompose ???
@@ -328,27 +340,28 @@
discriminate <term>
+ discriminate
discriminate p
Pre-conditions:
- p must have type K1 t1 ... tn = K'1 t'1 ... t'm where K and K' must be different constructors of the same inductive type and each argument list can be empty if
+ p must have type K t1 ... tn = K' t'1 ... t'm where K and K' must be different constructors of the same inductive type and each argument list can be empty if
its constructor takes no arguments.
Action:
- it closes the current sequent by proving the absurdity of
+ It closes the current sequent by proving the absurdity of
p.
New sequents to prove:
- none.
+ None.
@@ -356,6 +369,7 @@ its constructor takes no arguments.
elim <term> [using <term>] [<intros_spec>]
+ elim
elim t using th hyps
@@ -371,7 +385,7 @@ its constructor takes no arguments.
Action:
- it proceeds by cases on the values of t,
+ It proceeds by cases on the values of t,
according to the elimination principle th.
@@ -379,17 +393,21 @@ its constructor takes no arguments.
New sequents to prove:
- it opens one new sequent for each case. The names of
+ It opens one new sequent for each case. The names of
the new hypotheses are picked by hyps, if
- provided.
+ provided. If hyps specifies also a number of hypotheses that
+ is less than the number of new hypotheses for a new sequent,
+ then the exceeding hypothesis will be kept as implications in
+ the conclusion of the sequent.
- elimType <term> [using <term>]
- elimType T using th
+ elimType <term> [using <term>] [<intros_spec>]
+ elimType
+ elimType T using th hyps
@@ -415,26 +433,27 @@ its constructor takes no arguments.
exact <term>
+ exact
exact p
Pre-conditions:
- the type of p must be convertible
+ The type of p must be convertible
with the conclusion of the current sequent.
Action:
- it closes the current sequent using p.
+ It closes the current sequent using p.
New sequents to prove:
- none.
+ None.
@@ -442,26 +461,28 @@ its constructor takes no arguments.
exists
+ exists
exists
Pre-conditions:
- the conclusion of the current sequent must be
- an inductive type or the application of an inductive type.
+ The conclusion of the current sequent must be
+ an inductive type or the application of an inductive type
+ with at least one constructor.
Action:
- equivalent to constructor 1.
+ Equivalent to constructor 1.
New sequents to prove:
- it opens a new sequent for each premise of the first
+ It opens a new sequent for each premise of the first
constructor of the inductive type that is the conclusion of the
current sequent. For more details, see the constructor tactic.
@@ -471,19 +492,20 @@ its constructor takes no arguments.
fail
+ failt
fail
Pre-conditions:
- none.
+ None.
Action:
- this tactic always fail.
+ This tactic always fail.
@@ -497,19 +519,20 @@ its constructor takes no arguments.
fold <reduction_kind> <term> <pattern>
+ fold
fold red t patt
Pre-conditions:
- the pattern must not specify the wanted term.
+ The pattern must not specify the wanted term.
Action:
- first of all it locates all the subterms matched by
+ First of all it locates all the subterms matched by
patt. In the context of each matched subterm
it disambiguates the term t and reduces it
to its red normal form; then it replaces with
@@ -520,7 +543,7 @@ its constructor takes no arguments.
New sequents to prove:
- none.
+ None.
@@ -528,13 +551,14 @@ its constructor takes no arguments.
fourier
+ fourier
fourier
Pre-conditions:
- the conclusion of the current sequent must be a linear
+ The conclusion of the current sequent must be a linear
inequation over real numbers taken from standard library of
Coq. Moreover the inequations in the hypotheses must imply the
inequation in the conclusion of the current sequent.
@@ -543,13 +567,13 @@ its constructor takes no arguments.
Action:
- it closes the current sequent by applying the Fourier method.
+ It closes the current sequent by applying the Fourier method.
New sequents to prove:
- none.
+ None.
@@ -557,6 +581,7 @@ its constructor takes no arguments.
fwd <ident> [<ident list>]
+ fwd
fwd ...TODO
@@ -583,95 +608,706 @@ its constructor takes no arguments.
generalize <pattern> [as <id>]
- The tactic generalize
+ generalize
+ generalize patt as H
+
+
+
+ Pre-conditions:
+
+ All the terms matched by patt must be
+ convertible and close in the context of the current sequent.
+
+
+
+ Action:
+
+ It closes the current sequent by applying a stronger
+ lemma that is proved using the new generated sequent.
+
+
+
+ New sequents to prove:
+
+ It opens a new sequent where the current sequent conclusion
+ G is generalized to
+ âx.G{x/t} where {x/t}
+ is a notation for the replacement with x of all
+ the occurrences of the term t matched by
+ patt. If patt matches no
+ subterm then t is defined as the
+ wanted part of the pattern.
+
+
+
+
id
- The tactic id
+ id
+ id
+
+
+
+ Pre-conditions:
+
+ None.
+
+
+
+ Action:
+
+ This identity tactic does nothing without failing.
+
+
+
+ New sequents to prove:
+
+ None.
+
+
+
+
injection <term>
- The tactic injection
+ injection
+ injection p
+
+
+
+ Pre-conditions:
+
+ p must have type K t1 ... tn = K t'1 ... t'n where both argument lists are empty if
+K takes no arguments.
+
+
+
+ Action:
+
+ It derives new hypotheses by injectivity of
+ K.
+
+
+
+ New sequents to prove:
+
+ The new sequent to prove is equal to the current sequent
+ with the additional hypotheses
+ t1=t'1 ... tn=t'n.
+
+
+
+
intro [<ident>]
- The tactic intro
+ intro
+ intro H
+
+
+
+ Pre-conditions:
+
+ The conclusion of the sequent to prove must be an implication
+ or a universal quantification.
+
+
+
+ Action:
+
+ It applies the right introduction rule for implication,
+ closing the current sequent.
+
+
+
+ New sequents to prove:
+
+ It opens a new sequent to prove adding to the hypothesis
+ the antecedent of the implication and setting the conclusion
+ to the consequent of the implicaiton. The name of the new
+ hypothesis is H if provided; otherwise it
+ is automatically generated.
+
+
+
+
intros <intros_spec>
- The tactic intros
+ intros
+ intros hyps
+
+
+
+ Pre-conditions:
+
+ If hyps specifies a number of hypotheses
+ to introduce, then the conclusion of the current sequent must
+ be formed by at least that number of imbricated implications
+ or universal quantifications.
+
+
+
+ Action:
+
+ It applies several times the right introduction rule for
+ implication, closing the current sequent.
+
+
+
+ New sequents to prove:
+
+ It opens a new sequent to prove adding a number of new
+ hypotheses equal to the number of new hypotheses requested.
+ If the user does not request a precise number of new hypotheses,
+ it adds as many hypotheses as possible.
+ The name of each new hypothesis is either popped from the
+ user provided list of names, or it is automatically generated when
+ the list is (or becomes) empty.
+
+
+
+
- intros <term>
- The tactic intros
+ inversion <term>
+ inversion
+ inversion t
+
+
+
+ Pre-conditions:
+
+ The type of the term t must be an inductive
+ type or the application of an inductive type.
+
+
+
+ Action:
+
+ It proceeds by cases on t paying attention
+ to the constraints imposed by the actual "right arguments"
+ of the inductive type.
+
+
+
+ New sequents to prove:
+
+ It opens one new sequent to prove for each case in the
+ definition of the type of t. With respect to
+ a simple elimination, each new sequent has additional hypotheses
+ that states the equalities of the "right parameters"
+ of the inductive type with terms originally present in the
+ sequent to prove.
+
+
+
+
lapply [depth=<int>] <term> [to <term list] [using <ident>]
- The tactic lapply
+ lapply
+ lapply ???
+
+
+
+ Pre-conditions:
+
+ TODO.
+
+
+
+ Action:
+
+ TODO.
+
+
+
+ New sequents to prove:
+
+ TODO.
+
+
+
+
left
- The tactic left
+ left
+ left
+
+
+
+ Pre-conditions:
+
+ The conclusion of the current sequent must be
+ an inductive type or the application of an inductive type
+ with at least one constructor.
+
+
+
+ Action:
+
+ Equivalent to constructor 1.
+
+
+
+ New sequents to prove:
+
+ It opens a new sequent for each premise of the first
+ constructor of the inductive type that is the conclusion of the
+ current sequent. For more details, see the constructor tactic.
+
+
+
+
letin <ident> â <term>
- The tactic letin
+ letin
+ letin x â t
+
+
+
+ Pre-conditions:
+
+ None.
+
+
+
+ Action:
+
+ It adds to the context of the current sequent to prove a new
+ definition x â t.
+
+
+
+ New sequents to prove:
+
+ None.
+
+
+
+
normalize <pattern>
- The tactic normalize
+ normalize
+ normalize patt
+
+
+
+ Pre-conditions:
+
+ None.
+
+
+
+ Action:
+
+ It replaces all the terms matched by patt
+ with their βδιζ-normal form.
+
+
+
+ New sequents to prove:
+
+ None.
+
+
+
+
paramodulation <pattern>
- The tactic paramodulation
+ paramodulation
+ paramodulation patt
+
+
+
+ Pre-conditions:
+
+ TODO.
+
+
+
+ Action:
+
+ TODO.
+
+
+
+ New sequents to prove:
+
+ TODO.
+
+
+
+
reduce <pattern>
- The tactic reduce
+ reduce
+ reduce patt
+
+
+
+ Pre-conditions:
+
+ None.
+
+
+
+ Action:
+
+ It replaces all the terms matched by patt
+ with their βδιζ-normal form.
+
+
+
+ New sequents to prove:
+
+ None.
+
+
+
+
reflexivity
- The tactic reflexivity
+ reflexivity
+ reflexivity
+
+
+
+ Pre-conditions:
+
+ The conclusion of the current sequent must be
+ t=t for some term t
+
+
+
+ Action:
+
+ It closes the current sequent by reflexivity
+ of equality.
+
+
+
+ New sequents to prove:
+
+ None.
+
+
+
+
replace <pattern> with <term>
- The tactic replace
+ change
+ change patt with t
+
+
+
+ Pre-conditions:
+
+ None.
+
+
+
+ Action:
+
+ It replaces the subterms of the current sequent matched by
+ patt with the new term t.
+ For each subterm matched by the pattern, t is
+ disambiguated in the context of the subterm.
+
+
+
+ New sequents to prove:
+
+ For each matched term t' it opens
+ a new sequent to prove whose conclusion is
+ t'=t.
+
+
+
+
rewrite {<|>} <term> <pattern>
- The tactic rewrite
+ rewrite
+ rewrite dir p patt
+
+
+
+ Pre-conditions:
+
+ p must be the proof of an equality,
+ possibly under some hypotheses.
+
+
+
+ Action:
+
+ It looks in every term matched by patt
+ for all the occurrences of the
+ left hand side of the equality that p proves
+ (resp. the right hand side if dir is
+ <). Every occurence found is replaced with
+ the opposite side of the equality.
+
+
+
+ New sequents to prove:
+
+ It opens one new sequent for each hypothesis of the
+ equality proved by p that is not closed
+ by unification.
+
+
+
+
right
- The tactic right
+ right
+ right
+
+
+
+ Pre-conditions:
+
+ The conclusion of the current sequent must be
+ an inductive type or the application of an inductive type with
+ at least two constructors.
+
+
+
+ Action:
+
+ Equivalent to constructor 2.
+
+
+
+ New sequents to prove:
+
+ It opens a new sequent for each premise of the second
+ constructor of the inductive type that is the conclusion of the
+ current sequent. For more details, see the constructor tactic.
+
+
+
+
ring
- The tactic ring
+ ring
+ ring
+
+
+
+ Pre-conditions:
+
+ The conclusion of the current sequent must be an
+ equality over Coq's real numbers that can be proved using
+ the ring properties of the real numbers only.
+
+
+
+ Action:
+
+ It closes the current sequent veryfying the equality by
+ means of computation (i.e. this is a reflexive tactic, implemented
+ exploiting the "two level reasoning" technique).
+
+
+
+ New sequents to prove:
+
+ None.
+
+
+
+
simplify <pattern>
- The tactic simplify
+ simplify
+ simplify patt
+
+
+
+ Pre-conditions:
+
+ None.
+
+
+
+ Action:
+
+ It replaces all the terms matched by patt
+ with other convertible terms that are supposed to be simpler.
+
+
+
+ New sequents to prove:
+
+ None.
+
+
+
+
split
- The tactic split
+ split
+ split
+
+
+
+ Pre-conditions:
+
+ The conclusion of the current sequent must be
+ an inductive type or the application of an inductive type with
+ at least one constructor.
+
+
+
+ Action:
+
+ Equivalent to constructor 1.
+
+
+
+ New sequents to prove:
+
+ It opens a new sequent for each premise of the first
+ constructor of the inductive type that is the conclusion of the
+ current sequent. For more details, see the constructor tactic.
+
+
+
+
symmetry
+ symmetry
The tactic symmetry
+ symmetry
+
+
+
+ Pre-conditions:
+
+ The conclusion of the current proof must be an equality.
+
+
+
+ Action:
+
+ It swaps the two sides of the equalityusing the symmetric
+ property.
+
+
+
+ New sequents to prove:
+
+ None.
+
+
+
+
transitivity <term>
- The tactic transitivity
+ transitivity
+ transitivity t
+
+
+
+ Pre-conditions:
+
+ The conclusion of the current proof must be an equality.
+
+
+
+ Action:
+
+ It closes the current sequent by transitivity of the equality.
+
+
+
+ New sequents to prove:
+
+ It opens two new sequents l=t and
+ t=r where l and r are the left and right hand side of the equality in the conclusion of
+the current sequent to prove.
+
+
+
+
unfold [<term>] <pattern>
- The tactic unfold
+ unfold
+ unfold t patt
+
+
+
+ Pre-conditions:
+
+ None.
+
+
+
+ Action:
+
+ It finds all the occurrences of t
+ (possibly applied to arguments) in the subterms matched by
+ patt. Then it δ-expands each occurrence,
+ also performing β-reduction of the obtained term. If
+ t is omitted it defaults to each
+ subterm matched by patt.
+
+
+
+ New sequents to prove:
+
+ None.
+
+
+
+
whd <pattern>
- The tactic whd
+ whd
+ whd patt
+
+
+
+ Pre-conditions:
+
+ None.
+
+
+
+ Action:
+
+ It replaces all the terms matched by patt
+ with their βδιζ-weak-head normal form.
+
+
+
+ New sequents to prove:
+
+ None.
+
+
+
+