\chapter[Proof handling]{Proof handling\index{Proof editing} \label{Proof-handling}} In \Coq's proof editing mode all top-level commands documented in Chapter~\ref{Vernacular-commands} remain available and the user has access to specialized commands dealing with proof development pragmas documented in this section. He can also use some other specialized commands called {\em tactics}. They are the very tools allowing the user to deal with logical reasoning. They are documented in Chapter~\ref{Tactics}.\\ When switching in editing proof mode, the prompt \index{Prompt} {\tt Coq <} is changed into {\tt {\ident} <} where {\ident} is the declared name of the theorem currently edited. At each stage of a proof development, one has a list of goals to prove. Initially, the list consists only in the theorem itself. After having applied some tactics, the list of goals contains the subgoals generated by the tactics. To each subgoal is associated a number of hypotheses called the {\em \index*{local context}} of the goal. Initially, the local context contains the local variables and hypotheses of the current section (see Section~\ref{Variable}) and the local variables and hypotheses of the theorem statement. It is enriched by the use of certain tactics (see e.g. {\tt intro} in Section~\ref{intro}). When a proof is completed, the message {\tt Proof completed} is displayed. One can then register this proof as a defined constant in the environment. Because there exists a correspondence between proofs and terms of $\lambda$-calculus, known as the {\em Curry-Howard isomorphism} \cite{How80,Bar91,Gir89,Hue89}, \Coq~ stores proofs as terms of {\sc Cic}. Those terms are called {\em proof terms}\index{Proof term}. It is possible to edit several proofs in parallel: see Section \ref{Resume}. \ErrMsg When one attempts to use a proof editing command out of the proof editing mode, \Coq~ raises the error message : \errindex{No focused proof}. \section{Switching on/off the proof editing mode} The proof editing mode is entered by asserting a statement, which typically is the assertion of a theorem: \begin{quote} {\tt Theorem {\ident} \zeroone{\binders} : {\form}.\comindex{Theorem} \label{Theorem}} \end{quote} The list of assertion commands is given in Section~\ref{Assertions}. The command {\tt Goal} can also be used. \subsection[Goal {\form}.]{\tt Goal {\form}.\comindex{Goal}\label{Goal}} This is intended for quick assertion of statements, without knowing in advance which name to give to the assertion, typically for quick testing of the provability of a statement. If the proof of the statement is eventually completed and validated, the statement is then bound to the name {\tt Unnamed\_thm} (or a variant of this name not already used for another statement). \subsection[\tt Qed.]{\tt Qed.\comindex{Qed}\label{Qed}} This command is available in interactive editing proof mode when the proof is completed. Then {\tt Qed} extracts a proof term from the proof script, switches back to {\Coq} top-level and attaches the extracted proof term to the declared name of the original goal. This name is added to the environment as an {\tt Opaque} constant. \begin{ErrMsgs} \item \errindex{Attempt to save an incomplete proof} %\item \ident\ \errindex{already exists}\\ % The implicit name is already defined. You have then to provide % explicitly a new name (see variant 3 below). \item Sometimes an error occurs when building the proof term, because tactics do not enforce completely the term construction constraints. The user should also be aware of the fact that since the proof term is completely rechecked at this point, one may have to wait a while when the proof is large. In some exceptional cases one may even incur a memory overflow. \end{ErrMsgs} \begin{Variants} \item {\tt Defined.} \comindex{Defined} \label{Defined} Defines the proved term as a transparent constant. \item {\tt Save.} \comindex{Save} This is a deprecated equivalent to {\tt Qed}. \item {\tt Save {\ident}.} Forces the name of the original goal to be {\ident}. This command (and the following ones) can only be used if the original goal has been opened using the {\tt Goal} command. \item {\tt Save Theorem {\ident}.} \\ {\tt Save Lemma {\ident}.} \\ {\tt Save Remark {\ident}.}\\ {\tt Save Fact {\ident}.} {\tt Save Corollary {\ident}.} {\tt Save Proposition {\ident}.} Are equivalent to {\tt Save {\ident}.} \end{Variants} \subsection[\tt Admitted.]{\tt Admitted.\comindex{Admitted}\label{Admitted}} This command is available in interactive editing proof mode to give up the current proof and declare the initial goal as an axiom. \subsection[\tt Proof {\term}.]{\tt Proof {\term}.\comindex{Proof} \label{BeginProof}} This command applies in proof editing mode. It is equivalent to {\tt exact {\term}; Save.} That is, you have to give the full proof in one gulp, as a proof term (see Section~\ref{exact}). \variant {\tt Proof.} Is a noop which is useful to delimit the sequence of tactic commands which start a proof, after a {\tt Theorem} command. It is a good practice to use {\tt Proof.} as an opening parenthesis, closed in the script with a closing {\tt Qed.} \SeeAlso {\tt Proof with {\tac}.} in Section~\ref{ProofWith}. \subsection[\tt Abort.]{\tt Abort.\comindex{Abort}} This command cancels the current proof development, switching back to the previous proof development, or to the \Coq\ toplevel if no other proof was edited. \begin{ErrMsgs} \item \errindex{No focused proof (No proof-editing in progress)} \end{ErrMsgs} \begin{Variants} \item {\tt Abort {\ident}.} Aborts the editing of the proof named {\ident}. \item {\tt Abort All.} Aborts all current goals, switching back to the \Coq\ toplevel. \end{Variants} %%%% \subsection[\tt Suspend.]{\tt Suspend.\comindex{Suspend}} This command applies in proof editing mode. It switches back to the \Coq\ toplevel, but without canceling the current proofs. %%%% \subsection[\tt Resume.]{\tt Resume.\comindex{Resume}\label{Resume}} This commands switches back to the editing of the last edited proof. \begin{ErrMsgs} \item \errindex{No proof-editing in progress} \end{ErrMsgs} \begin{Variants} \item {\tt Resume {\ident}.} Restarts the editing of the proof named {\ident}. This can be used to navigate between currently edited proofs. \end{Variants} \begin{ErrMsgs} \item \errindex{No such proof} \end{ErrMsgs} %%%% \subsection[\tt Existential {\num} := {\term}.]{\tt Existential {\num} := {\term}.\comindex{Existential} \label{Existential}} This command allows to instantiate an existential variable. {\tt \num} is an index in the list of uninstantiated existential variables displayed by {\tt Show Existentials.} (described in Section~\ref{Show}) This command is intended to be used to instantiate existential variables when the proof is completed but some uninstantiated existential variables remain. To instantiate existential variables during proof edition, you should use the tactic {\tt instantiate}. \SeeAlso {\tt instantiate (\num:= \term).} in Section~\ref{instantiate}. %%%%%%%% \section{Navigation in the proof tree} %%%%%%%% \subsection[\tt Undo.]{\tt Undo.\comindex{Undo}} This command cancels the effect of the last tactic command. Thus, it backtracks one step. \begin{ErrMsgs} \item \errindex{No focused proof (No proof-editing in progress)} \item \errindex{Undo stack would be exhausted} \end{ErrMsgs} \begin{Variants} \item {\tt Undo {\num}.} Repeats {\tt Undo} {\num} times. \end{Variants} \subsection[\tt Set Undo {\num}.]{\tt Set Undo {\num}.\comindex{Set Undo}} This command changes the maximum number of {\tt Undo}'s that will be possible when doing a proof. It only affects proofs started after this command, such that if you want to change the current undo limit inside a proof, you should first restart this proof. \subsection[\tt Unset Undo.]{\tt Unset Undo.\comindex{Unset Undo}} This command resets the default number of possible {\tt Undo} commands (which is currently 12). \subsection[\tt Restart.]{\tt Restart.\comindex{Restart}} This command restores the proof editing process to the original goal. \begin{ErrMsgs} \item \errindex{No focused proof to restart} \end{ErrMsgs} \subsection[\tt Focus.]{\tt Focus.\comindex{Focus}} This focuses the attention on the first subgoal to prove and the printing of the other subgoals is suspended until the focused subgoal is solved or unfocused. This is useful when there are many current subgoals which clutter your screen. \begin{Variant} \item {\tt Focus {\num}.}\\ This focuses the attention on the $\num^{th}$ subgoal to prove. \end{Variant} \subsection[\tt Unfocus.]{\tt Unfocus.\comindex{Unfocus}} Turns off the focus mode. \section{Requesting information} \subsection[\tt Show.]{\tt Show.\comindex{Show}\label{Show}} This command displays the current goals. \begin{Variants} \item {\tt Show {\num}.}\\ Displays only the {\num}-th subgoal.\\ \begin{ErrMsgs} \item \errindex{No such goal} \item \errindex{No focused proof} \end{ErrMsgs} \item {\tt Show Implicits.}\comindex{Show Implicits}\\ Displays the current goals, printing the implicit arguments of constants. \item {\tt Show Implicits {\num}.}\\ Same as above, only displaying the {\num}-th subgoal. \item {\tt Show Script.}\comindex{Show Script}\\ Displays the whole list of tactics applied from the beginning of the current proof. This tactics script may contain some holes (subgoals not yet proved). They are printed under the form \verb!!. \item {\tt Show Tree.}\comindex{Show Tree}\\ This command can be seen as a more structured way of displaying the state of the proof than that provided by {\tt Show Script}. Instead of just giving the list of tactics that have been applied, it shows the derivation tree constructed by then. Each node of the tree contains the conclusion of the corresponding sub-derivation (i.e. a goal with its corresponding local context) and the tactic that has generated all the sub-derivations. The leaves of this tree are the goals which still remain to be proved. %\item {\tt Show Node}\comindex{Show Node}\\ % Not yet documented \item {\tt Show Proof.}\comindex{Show Proof}\\ It displays the proof term generated by the tactics that have been applied. If the proof is not completed, this term contain holes, which correspond to the sub-terms which are still to be constructed. These holes appear as a question mark indexed by an integer, and applied to the list of variables in the context, since it may depend on them. The types obtained by abstracting away the context from the type of each hole-placer are also printed. \item {\tt Show Conjectures.}\comindex{Show Conjectures}\\ It prints the list of the names of all the theorems that are currently being proved. As it is possible to start proving a previous lemma during the proof of a theorem, this list may contain several names. \item{\tt Show Intro.}\comindex{Show Intro}\\ If the current goal begins by at least one product, this command prints the name of the first product, as it would be generated by an anonymous {\tt Intro}. The aim of this command is to ease the writing of more robust scripts. For example, with an appropriate Proof General macro, it is possible to transform any anonymous {\tt Intro} into a qualified one such as {\tt Intro y13}. In the case of a non-product goal, it prints nothing. \item{\tt Show Intros.}\comindex{Show Intros}\\ This command is similar to the previous one, it simulates the naming process of an {\tt Intros}. \item{\tt Show Existentials}\comindex{Show Existentials}\\ It displays the set of all uninstantiated existential variables in the current proof tree, along with the type and the context of each variable. \end{Variants} \subsection[\tt Guarded.]{\tt Guarded.\comindex{Guarded}\label{Guarded}} Some tactics (e.g. refine \ref{refine}) allow to build proofs using fixpoint or co-fixpoint constructions. Due to the incremental nature of interactive proof construction, the check of the termination (or guardedness) of the recursive calls in the fixpoint or cofixpoint constructions is postponed to the time of the completion of the proof. The command \verb!Guarded! allows to verify if the guard condition for fixpoint and cofixpoint is violated at some time of the construction of the proof without having to wait the completion of the proof." \section{Controlling the effect of proof editing commands} \subsection[\tt Set Hyps Limit {\num}.]{\tt Set Hyps Limit {\num}.\comindex{Set Hyps Limit}} This command sets the maximum number of hypotheses displayed in goals after the application of a tactic. All the hypotheses remains usable in the proof development. \subsection[\tt Unset Hyps Limit.]{\tt Unset Hyps Limit.\comindex{Unset Hyps Limit}} This command goes back to the default mode which is to print all available hypotheses. \subsection[\tt Set Automatic Introduction.]{\tt Set Automatic Introduction.\comindex{Set Automatic Introduction}\comindex{Unset Automatic Introduction}\label{Set Automatic Introduction}} The option {\tt Automatic Introduction} controls the way binders are handled in assertion commands such as {\tt Theorem {\ident} \zeroone{\binders} : {\form}}. When the option is set, which is the default, {\binders} are automatically put in the local context of the goal to prove. The option can be unset by issuing {\tt Unset Automatic Introduction}. When the option is unset, {\binders} are discharged on the statement to be proved and a tactic such as {\tt intro} (see Section~\ref{intro}) has to be used to move the assumptions to the local context. %%% Local Variables: %%% mode: latex %%% TeX-master: "Reference-Manual" %%% End: