chore: Version 0.3 #136
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@ -8,7 +8,7 @@ import Pantograph
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open Pantograph
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open Pantograph
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/-- Parse a command either in `{ "cmd": ..., "payload": ... }` form or `cmd { ... }` form. -/
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/-- Parse a command either in `{ "cmd": ..., "payload": ... }` form or `cmd { ... }` form. -/
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def parse_command (s: String): Except String Commands.Command := do
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def parseCommand (s: String): Except String Protocol.Command := do
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let s := s.trim
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let s := s.trim
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match s.get? 0 with
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match s.get? 0 with
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| .some '{' => -- Parse in Json mode
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| .some '{' => -- Parse in Json mode
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@ -26,9 +26,9 @@ unsafe def loop : MainM Unit := do
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let state ← get
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let state ← get
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let command ← (← IO.getStdin).getLine
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let command ← (← IO.getStdin).getLine
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if command.trim.length = 0 then return ()
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if command.trim.length = 0 then return ()
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match parse_command command with
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match parseCommand command with
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| .error error =>
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| .error error =>
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let error := Lean.toJson ({ error := "command", desc := error }: Commands.InteractionError)
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let error := Lean.toJson ({ error := "command", desc := error }: Protocol.InteractionError)
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-- Using `Lean.Json.compress` here to prevent newline
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-- Using `Lean.Json.compress` here to prevent newline
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IO.println error.compress
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IO.println error.compress
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| .ok command =>
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| .ok command =>
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7
Makefile
7
Makefile
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@ -6,7 +6,7 @@ TEST_EXE := build/bin/test
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TEST_SOURCE := $(wildcard Test/*.lean)
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TEST_SOURCE := $(wildcard Test/*.lean)
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$(LIB) $(EXE): $(SOURCE)
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$(LIB) $(EXE): $(SOURCE)
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lake build
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lake build pantograph
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$(TEST_EXE): $(LIB) $(TEST_SOURCE)
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$(TEST_EXE): $(LIB) $(TEST_SOURCE)
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lake build test
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lake build test
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@ -14,4 +14,7 @@ $(TEST_EXE): $(LIB) $(TEST_SOURCE)
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test: $(TEST_EXE)
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test: $(TEST_EXE)
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lake env $(TEST_EXE)
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lake env $(TEST_EXE)
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.PHONY: test
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clean:
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lake clean
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.PHONY: test clean
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108
Pantograph.lean
108
Pantograph.lean
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@ -1,8 +1,8 @@
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import Pantograph.Commands
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import Pantograph.Goal
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import Pantograph.Serial
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import Pantograph.Protocol
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import Pantograph.Symbols
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import Pantograph.Tactic
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import Pantograph.SemihashMap
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import Pantograph.SemihashMap
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import Pantograph.Serial
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import Pantograph.Symbol
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namespace Pantograph
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namespace Pantograph
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@ -11,16 +11,16 @@ structure Context where
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/-- Stores state of the REPL -/
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/-- Stores state of the REPL -/
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structure State where
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structure State where
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options: Commands.Options := {}
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options: Protocol.Options := {}
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goalStates: SemihashMap GoalState := SemihashMap.empty
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goalStates: SemihashMap GoalState := SemihashMap.empty
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-- State monad
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/-- Main state monad for executing commands -/
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abbrev MainM := ReaderT Context (StateT State Lean.Elab.TermElabM)
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abbrev MainM := ReaderT Context (StateT State Lean.Elab.TermElabM)
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-- For some reason writing `CommandM α := MainM (Except ... α)` disables certain
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-- HACK: For some reason writing `CommandM α := MainM (Except ... α)` disables
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-- monadic features in `MainM`
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-- certain monadic features in `MainM`
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abbrev CR α := Except Commands.InteractionError α
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abbrev CR α := Except Protocol.InteractionError α
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def execute (command: Commands.Command): MainM Lean.Json := do
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def execute (command: Protocol.Command): MainM Lean.Json := do
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let run { α β: Type } [Lean.FromJson α] [Lean.ToJson β] (comm: α → MainM (CR β)): MainM Lean.Json :=
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let run { α β: Type } [Lean.FromJson α] [Lean.ToJson β] (comm: α → MainM (CR β)): MainM Lean.Json :=
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match Lean.fromJson? command.payload with
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match Lean.fromJson? command.payload with
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| .ok args => do
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| .ok args => do
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@ -39,32 +39,33 @@ def execute (command: Commands.Command): MainM Lean.Json := do
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| "goal.start" => run goal_start
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| "goal.start" => run goal_start
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| "goal.tactic" => run goal_tactic
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| "goal.tactic" => run goal_tactic
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| "goal.delete" => run goal_delete
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| "goal.delete" => run goal_delete
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| "goal.print" => run goal_print
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| cmd =>
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| cmd =>
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let error: Commands.InteractionError :=
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let error: Protocol.InteractionError :=
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errorCommand s!"Unknown command {cmd}"
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errorCommand s!"Unknown command {cmd}"
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return Lean.toJson error
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return Lean.toJson error
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where
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where
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errorI (type desc: String): Commands.InteractionError := { error := type, desc := desc }
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errorI (type desc: String): Protocol.InteractionError := { error := type, desc := desc }
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errorCommand := errorI "command"
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errorCommand := errorI "command"
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errorIndex := errorI "index"
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errorIndex := errorI "index"
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-- Command Functions
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-- Command Functions
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reset (_: Commands.Reset): MainM (CR Commands.StatResult) := do
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reset (_: Protocol.Reset): MainM (CR Protocol.StatResult) := do
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let state ← get
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let state ← get
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let nGoals := state.goalStates.size
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let nGoals := state.goalStates.size
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set { state with goalStates := SemihashMap.empty }
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set { state with goalStates := SemihashMap.empty }
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return .ok { nGoals }
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return .ok { nGoals }
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stat (_: Commands.Stat): MainM (CR Commands.StatResult) := do
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stat (_: Protocol.Stat): MainM (CR Protocol.StatResult) := do
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let state ← get
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let state ← get
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let nGoals := state.goalStates.size
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let nGoals := state.goalStates.size
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return .ok { nGoals }
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return .ok { nGoals }
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lib_catalog (_: Commands.LibCatalog): MainM (CR Commands.LibCatalogResult) := do
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lib_catalog (_: Protocol.LibCatalog): MainM (CR Protocol.LibCatalogResult) := do
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let env ← Lean.MonadEnv.getEnv
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let env ← Lean.MonadEnv.getEnv
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let names := env.constants.fold (init := #[]) (λ acc name info =>
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let names := env.constants.fold (init := #[]) (λ acc name info =>
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match to_filtered_symbol name info with
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match to_filtered_symbol name info with
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| .some x => acc.push x
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| .some x => acc.push x
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| .none => acc)
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| .none => acc)
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return .ok { symbols := names }
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return .ok { symbols := names }
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lib_inspect (args: Commands.LibInspect): MainM (CR Commands.LibInspectResult) := do
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lib_inspect (args: Protocol.LibInspect): MainM (CR Protocol.LibInspectResult) := do
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let state ← get
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let state ← get
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let env ← Lean.MonadEnv.getEnv
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let env ← Lean.MonadEnv.getEnv
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let name := str_to_name args.name
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let name := str_to_name args.name
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@ -84,7 +85,7 @@ def execute (command: Commands.Command): MainM Lean.Json := do
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value? := ← value?.mapM (λ v => serialize_expression state.options v),
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value? := ← value?.mapM (λ v => serialize_expression state.options v),
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module? := module?
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module? := module?
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}
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}
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expr_echo (args: Commands.ExprEcho): MainM (CR Commands.ExprEchoResult) := do
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expr_echo (args: Protocol.ExprEcho): MainM (CR Protocol.ExprEchoResult) := do
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let state ← get
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let state ← get
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let env ← Lean.MonadEnv.getEnv
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let env ← Lean.MonadEnv.getEnv
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match syntax_from_str env args.expr with
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match syntax_from_str env args.expr with
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@ -101,7 +102,7 @@ def execute (command: Commands.Command): MainM Lean.Json := do
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}
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}
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catch exception =>
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catch exception =>
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return .error $ errorI "typing" (← exception.toMessageData.toString)
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return .error $ errorI "typing" (← exception.toMessageData.toString)
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options_set (args: Commands.OptionsSet): MainM (CR Commands.OptionsSetResult) := do
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options_set (args: Protocol.OptionsSet): MainM (CR Protocol.OptionsSetResult) := do
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let state ← get
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let state ← get
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let options := state.options
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let options := state.options
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set { state with
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set { state with
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@ -110,15 +111,15 @@ def execute (command: Commands.Command): MainM Lean.Json := do
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printJsonPretty := args.printJsonPretty?.getD options.printJsonPretty,
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printJsonPretty := args.printJsonPretty?.getD options.printJsonPretty,
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printExprPretty := args.printExprPretty?.getD options.printExprPretty,
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printExprPretty := args.printExprPretty?.getD options.printExprPretty,
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printExprAST := args.printExprAST?.getD options.printExprAST,
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printExprAST := args.printExprAST?.getD options.printExprAST,
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proofVariableDelta := args.proofVariableDelta?.getD options.proofVariableDelta,
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noRepeat := args.noRepeat?.getD options.noRepeat,
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printAuxDecls := args.printAuxDecls?.getD options.printAuxDecls,
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printAuxDecls := args.printAuxDecls?.getD options.printAuxDecls,
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printImplementationDetailHyps := args.printImplementationDetailHyps?.getD options.printImplementationDetailHyps
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printImplementationDetailHyps := args.printImplementationDetailHyps?.getD options.printImplementationDetailHyps
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}
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}
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}
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}
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return .ok { }
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return .ok { }
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options_print (_: Commands.OptionsPrint): MainM (CR Commands.OptionsPrintResult) := do
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options_print (_: Protocol.OptionsPrint): MainM (CR Protocol.OptionsPrintResult) := do
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return .ok (← get).options
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return .ok (← get).options
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goal_start (args: Commands.GoalStart): MainM (CR Commands.GoalStartResult) := do
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goal_start (args: Protocol.GoalStart): MainM (CR Protocol.GoalStartResult) := do
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let state ← get
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let state ← get
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let env ← Lean.MonadEnv.getEnv
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let env ← Lean.MonadEnv.getEnv
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let expr?: Except _ Lean.Expr ← (match args.expr, args.copyFrom with
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let expr?: Except _ Lean.Expr ← (match args.expr, args.copyFrom with
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@ -133,42 +134,55 @@ def execute (command: Commands.Command): MainM Lean.Json := do
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(match env.find? <| str_to_name copyFrom with
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(match env.find? <| str_to_name copyFrom with
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| .none => return .error <| errorIndex s!"Symbol not found: {copyFrom}"
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| .none => return .error <| errorIndex s!"Symbol not found: {copyFrom}"
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| .some cInfo => return .ok cInfo.type)
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| .some cInfo => return .ok cInfo.type)
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| .none, .none =>
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| _, _ =>
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return .error <| errorI "arguments" "At least one of {expr, copyFrom} must be supplied"
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return .error <| errorI "arguments" "Exactly one of {expr, copyFrom} must be supplied")
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| _, _ => return .error <| errorI "arguments" "Cannot populate both of {expr, copyFrom}")
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match expr? with
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match expr? with
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| .error error => return .error error
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| .error error => return .error error
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| .ok expr =>
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| .ok expr =>
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let goalState ← GoalState.create expr
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let goalState ← GoalState.create expr
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let (goalStates, goalId) := state.goalStates.insert goalState
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let (goalStates, stateId) := state.goalStates.insert goalState
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set { state with goalStates }
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set { state with goalStates }
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return .ok { goalId }
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return .ok { stateId }
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goal_tactic (args: Commands.GoalTactic): MainM (CR Commands.GoalTacticResult) := do
|
goal_tactic (args: Protocol.GoalTactic): MainM (CR Protocol.GoalTacticResult) := do
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let state ← get
|
let state ← get
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match state.goalStates.get? args.goalId with
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match state.goalStates.get? args.stateId with
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| .none => return .error $ errorIndex s!"Invalid goal index {args.goalId}"
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| .none => return .error $ errorIndex s!"Invalid state index {args.stateId}"
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| .some goalState =>
|
| .some goalState => do
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let result ← GoalState.execute goalState args.tactic |>.run state.options
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let nextGoalState?: Except _ GoalState ← match args.tactic?, args.expr? with
|
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match result with
|
| .some tactic, .none => do
|
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| .success goals =>
|
pure ( Except.ok (← GoalState.execute goalState args.goalId tactic))
|
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if goals.isEmpty then
|
| .none, .some expr => do
|
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return .ok {}
|
pure ( Except.ok (← GoalState.tryAssign goalState args.goalId expr))
|
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else
|
| _, _ => pure (Except.error <| errorI "arguments" "Exactly one of {tactic, expr} must be supplied")
|
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-- Append all goals
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match nextGoalState? with
|
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let (goalStates, goalIds, sGoals) := Array.foldl (λ acc itr =>
|
| .error error => return .error error
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let (map, indices, serializedGoals) := acc
|
| .ok (.success nextGoalState) =>
|
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let (goalState, sGoal) := itr
|
let (goalStates, nextStateId) := state.goalStates.insert nextGoalState
|
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let (map, index) := map.insert goalState
|
|
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(map, index :: indices, sGoal :: serializedGoals)
|
|
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) (state.goalStates, [], []) goals
|
|
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set { state with goalStates }
|
set { state with goalStates }
|
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return .ok { goals? := .some sGoals.reverse.toArray, goalIds? := .some goalIds.reverse.toArray }
|
let goals ← nextGoalState.serializeGoals (parent := .some goalState) (options := state.options)
|
||||||
| .failure messages =>
|
return .ok {
|
||||||
|
nextStateId? := .some nextStateId,
|
||||||
|
goals? := .some goals,
|
||||||
|
}
|
||||||
|
| .ok (.parseError message) =>
|
||||||
|
return .ok { parseError? := .some message }
|
||||||
|
| .ok (.indexError goalId) =>
|
||||||
|
return .error $ errorIndex s!"Invalid goal id index {goalId}"
|
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|
| .ok (.failure messages) =>
|
||||||
return .ok { tacticErrors? := .some messages }
|
return .ok { tacticErrors? := .some messages }
|
||||||
goal_delete (args: Commands.GoalDelete): MainM (CR Commands.GoalDeleteResult) := do
|
goal_delete (args: Protocol.GoalDelete): MainM (CR Protocol.GoalDeleteResult) := do
|
||||||
let state ← get
|
let state ← get
|
||||||
let goalStates := args.goalIds.foldl (λ map id => map.remove id) state.goalStates
|
let goalStates := args.stateIds.foldl (λ map id => map.remove id) state.goalStates
|
||||||
set { state with goalStates }
|
set { state with goalStates }
|
||||||
return .ok {}
|
return .ok {}
|
||||||
|
goal_print (args: Protocol.GoalPrint): MainM (CR Protocol.GoalPrintResult) := do
|
||||||
|
let state ← get
|
||||||
|
match state.goalStates.get? args.stateId with
|
||||||
|
| .none => return .error $ errorIndex s!"Invalid state index {args.stateId}"
|
||||||
|
| .some goalState => do
|
||||||
|
let root? ← goalState.rootExpr?.mapM (λ expr => serialize_expression state.options expr)
|
||||||
|
return .ok {
|
||||||
|
root?,
|
||||||
|
}
|
||||||
|
|
||||||
end Pantograph
|
end Pantograph
|
||||||
|
|
|
@ -0,0 +1,204 @@
|
||||||
|
import Lean
|
||||||
|
|
||||||
|
import Pantograph.Symbol
|
||||||
|
|
||||||
|
def Lean.MessageLog.getErrorMessages (log : MessageLog) : MessageLog :=
|
||||||
|
{
|
||||||
|
msgs := log.msgs.filter fun m => match m.severity with | MessageSeverity.error => true | _ => false
|
||||||
|
}
|
||||||
|
|
||||||
|
|
||||||
|
namespace Pantograph
|
||||||
|
open Lean
|
||||||
|
|
||||||
|
structure GoalState where
|
||||||
|
savedState : Elab.Tactic.SavedState
|
||||||
|
|
||||||
|
-- The root hole which is the search target
|
||||||
|
root: MVarId
|
||||||
|
-- New metavariables acquired in this state
|
||||||
|
newMVars: SSet MVarId
|
||||||
|
|
||||||
|
-- The id of the goal in the parent
|
||||||
|
parentGoalId: Nat := 0
|
||||||
|
|
||||||
|
abbrev M := Elab.TermElabM
|
||||||
|
|
||||||
|
protected def GoalState.create (expr: Expr): M GoalState := do
|
||||||
|
-- May be necessary to immediately synthesise all metavariables if we need to leave the elaboration context.
|
||||||
|
-- See https://leanprover.zulipchat.com/#narrow/stream/270676-lean4/topic/Unknown.20universe.20metavariable/near/360130070
|
||||||
|
|
||||||
|
--Elab.Term.synthesizeSyntheticMVarsNoPostponing
|
||||||
|
--let expr ← instantiateMVars expr
|
||||||
|
let goal := (← Meta.mkFreshExprMVar expr (kind := MetavarKind.synthetic) (userName := .anonymous))
|
||||||
|
let savedStateMonad: Elab.Tactic.TacticM Elab.Tactic.SavedState := MonadBacktrack.saveState
|
||||||
|
let root := goal.mvarId!
|
||||||
|
let savedState ← savedStateMonad { elaborator := .anonymous } |>.run' { goals := [root]}
|
||||||
|
return {
|
||||||
|
savedState,
|
||||||
|
root,
|
||||||
|
newMVars := SSet.insert .empty root,
|
||||||
|
}
|
||||||
|
protected def GoalState.goals (state: GoalState): List MVarId := state.savedState.tactic.goals
|
||||||
|
|
||||||
|
protected def GoalState.runM {α: Type} (state: GoalState) (m: Elab.TermElabM α) : M α := do
|
||||||
|
state.savedState.term.restore
|
||||||
|
m
|
||||||
|
|
||||||
|
protected def GoalState.mctx (state: GoalState): MetavarContext :=
|
||||||
|
state.savedState.term.meta.meta.mctx
|
||||||
|
protected def GoalState.env (state: GoalState): Environment :=
|
||||||
|
state.savedState.term.meta.core.env
|
||||||
|
private def GoalState.mvars (state: GoalState): SSet MVarId :=
|
||||||
|
state.mctx.decls.foldl (init := .empty) fun acc k _ => acc.insert k
|
||||||
|
|
||||||
|
/-- Inner function for executing tactic on goal state -/
|
||||||
|
def executeTactic (state: Elab.Tactic.SavedState) (goal: MVarId) (tactic: Syntax) :
|
||||||
|
M (Except (Array String) Elab.Tactic.SavedState):= do
|
||||||
|
let tacticM (stx: Syntax): Elab.Tactic.TacticM (Except (Array String) Elab.Tactic.SavedState) := do
|
||||||
|
state.restore
|
||||||
|
Elab.Tactic.setGoals [goal]
|
||||||
|
try
|
||||||
|
Elab.Tactic.evalTactic stx
|
||||||
|
if (← getThe Core.State).messages.hasErrors then
|
||||||
|
let messages := (← getThe Core.State).messages.getErrorMessages |>.toList.toArray
|
||||||
|
let errors ← (messages.map Message.data).mapM fun md => md.toString
|
||||||
|
return .error errors
|
||||||
|
else
|
||||||
|
return .ok (← MonadBacktrack.saveState)
|
||||||
|
catch exception =>
|
||||||
|
return .error #[← exception.toMessageData.toString]
|
||||||
|
tacticM tactic { elaborator := .anonymous } |>.run' state.tactic
|
||||||
|
|
||||||
|
/-- Response for executing a tactic -/
|
||||||
|
inductive TacticResult where
|
||||||
|
-- Goes to next state
|
||||||
|
| success (state: GoalState)
|
||||||
|
-- Tactic failed with messages
|
||||||
|
| failure (messages: Array String)
|
||||||
|
-- Could not parse tactic
|
||||||
|
| parseError (message: String)
|
||||||
|
-- The goal index is out of bounds
|
||||||
|
| indexError (goalId: Nat)
|
||||||
|
|
||||||
|
/-- Execute tactic on given state -/
|
||||||
|
protected def GoalState.execute (state: GoalState) (goalId: Nat) (tactic: String):
|
||||||
|
M TacticResult := do
|
||||||
|
let goal ← match state.savedState.tactic.goals.get? goalId with
|
||||||
|
| .some goal => pure $ goal
|
||||||
|
| .none => return .indexError goalId
|
||||||
|
let tactic ← match Parser.runParserCategory
|
||||||
|
(env := ← MonadEnv.getEnv)
|
||||||
|
(catName := `tactic)
|
||||||
|
(input := tactic)
|
||||||
|
(fileName := "<stdin>") with
|
||||||
|
| .ok stx => pure $ stx
|
||||||
|
| .error error => return .parseError error
|
||||||
|
match (← executeTactic (state := state.savedState) (goal := goal) (tactic := tactic)) with
|
||||||
|
| .error errors =>
|
||||||
|
return .failure errors
|
||||||
|
| .ok nextSavedState =>
|
||||||
|
-- Assert that the definition of metavariables are the same
|
||||||
|
let nextMCtx := nextSavedState.term.meta.meta.mctx
|
||||||
|
let prevMCtx := state.savedState.term.meta.meta.mctx
|
||||||
|
-- Generate a list of mvarIds that exist in the parent state; Also test the
|
||||||
|
-- assertion that the types have not changed on any mvars.
|
||||||
|
let newMVars ← nextMCtx.decls.foldlM (fun acc mvarId mvarDecl => do
|
||||||
|
if let .some prevMVarDecl := prevMCtx.decls.find? mvarId then
|
||||||
|
assert! prevMVarDecl.type == mvarDecl.type
|
||||||
|
return acc
|
||||||
|
else
|
||||||
|
return acc.insert mvarId
|
||||||
|
) SSet.empty
|
||||||
|
return .success {
|
||||||
|
state with
|
||||||
|
savedState := nextSavedState
|
||||||
|
newMVars,
|
||||||
|
parentGoalId := goalId,
|
||||||
|
}
|
||||||
|
|
||||||
|
protected def GoalState.tryAssign (state: GoalState) (goalId: Nat) (expr: String): M TacticResult := do
|
||||||
|
let goal ← match state.savedState.tactic.goals.get? goalId with
|
||||||
|
| .some goal => pure goal
|
||||||
|
| .none => return .indexError goalId
|
||||||
|
let expr ← match Parser.runParserCategory
|
||||||
|
(env := state.env)
|
||||||
|
(catName := `term)
|
||||||
|
(input := expr)
|
||||||
|
(fileName := "<stdin>") with
|
||||||
|
| .ok syn => pure syn
|
||||||
|
| .error error => return .parseError error
|
||||||
|
let tacticM: Elab.Tactic.TacticM TacticResult := do
|
||||||
|
state.savedState.restore
|
||||||
|
Elab.Tactic.setGoals [goal]
|
||||||
|
try
|
||||||
|
let expr ← Elab.Term.elabTerm (stx := expr) (expectedType? := .none)
|
||||||
|
-- Attempt to unify the expression
|
||||||
|
let goalType ← goal.getType
|
||||||
|
let exprType ← Meta.inferType expr
|
||||||
|
if !(← Meta.isDefEq goalType exprType) then
|
||||||
|
return .failure #["Type unification failed", toString (← Meta.ppExpr goalType), toString (← Meta.ppExpr exprType)]
|
||||||
|
goal.checkNotAssigned `GoalState.tryAssign
|
||||||
|
goal.assign expr
|
||||||
|
if (← getThe Core.State).messages.hasErrors then
|
||||||
|
let messages := (← getThe Core.State).messages.getErrorMessages |>.toList.toArray
|
||||||
|
let errors ← (messages.map Message.data).mapM fun md => md.toString
|
||||||
|
return .failure errors
|
||||||
|
else
|
||||||
|
let prevMCtx := state.savedState.term.meta.meta.mctx
|
||||||
|
let nextMCtx ← getMCtx
|
||||||
|
-- Generate a list of mvarIds that exist in the parent state; Also test the
|
||||||
|
-- assertion that the types have not changed on any mvars.
|
||||||
|
let newMVars ← nextMCtx.decls.foldlM (fun acc mvarId mvarDecl => do
|
||||||
|
if let .some prevMVarDecl := prevMCtx.decls.find? mvarId then
|
||||||
|
assert! prevMVarDecl.type == mvarDecl.type
|
||||||
|
return acc
|
||||||
|
else
|
||||||
|
return mvarId :: acc
|
||||||
|
) []
|
||||||
|
-- The new goals are the newMVars that lack an assignment
|
||||||
|
Elab.Tactic.setGoals (← newMVars.filterM (λ mvar => do pure !(← mvar.isAssigned)))
|
||||||
|
let nextSavedState ← MonadBacktrack.saveState
|
||||||
|
return .success {
|
||||||
|
state with
|
||||||
|
savedState := nextSavedState,
|
||||||
|
newMVars := newMVars.toSSet,
|
||||||
|
parentGoalId := goalId,
|
||||||
|
}
|
||||||
|
catch exception =>
|
||||||
|
return .failure #[← exception.toMessageData.toString]
|
||||||
|
tacticM { elaborator := .anonymous } |>.run' state.savedState.tactic
|
||||||
|
|
||||||
|
/-- After finishing one branch of a proof (`graftee`), pick up from the point where the proof was left off (`target`) -/
|
||||||
|
protected def GoalState.continue (target: GoalState) (graftee: GoalState): Except String GoalState :=
|
||||||
|
if target.root != graftee.root then
|
||||||
|
.error s!"Roots of two continued goal states do not match: {target.root.name} != {graftee.root.name}"
|
||||||
|
-- Ensure goals are not dangling
|
||||||
|
else if ¬ (target.goals.all (λ goal => graftee.mvars.contains goal)) then
|
||||||
|
.error s!"Some goals in target are not present in the graftee"
|
||||||
|
else
|
||||||
|
-- Set goals to the goals that have not been assigned yet, similar to the `focus` tactic.
|
||||||
|
let unassigned := target.goals.filter (λ goal =>
|
||||||
|
let mctx := graftee.mctx
|
||||||
|
¬(mctx.eAssignment.contains goal || mctx.dAssignment.contains goal))
|
||||||
|
.ok {
|
||||||
|
savedState := {
|
||||||
|
term := graftee.savedState.term,
|
||||||
|
tactic := { goals := unassigned },
|
||||||
|
},
|
||||||
|
root := target.root,
|
||||||
|
newMVars := graftee.newMVars,
|
||||||
|
}
|
||||||
|
|
||||||
|
protected def GoalState.rootExpr? (goalState: GoalState): Option Expr :=
|
||||||
|
let expr := goalState.mctx.eAssignment.find! goalState.root
|
||||||
|
let (expr, _) := instantiateMVarsCore (mctx := goalState.mctx) (e := expr)
|
||||||
|
if expr.hasMVar then
|
||||||
|
-- Must not assert that the goal state is empty here. We could be in a branch goal.
|
||||||
|
--assert! ¬goalState.goals.isEmpty
|
||||||
|
.none
|
||||||
|
else
|
||||||
|
assert! goalState.goals.isEmpty
|
||||||
|
.some expr
|
||||||
|
|
||||||
|
end Pantograph
|
|
@ -6,7 +6,7 @@ its field names to avoid confusion with error messages generated by the REPL.
|
||||||
-/
|
-/
|
||||||
import Lean.Data.Json
|
import Lean.Data.Json
|
||||||
|
|
||||||
namespace Pantograph.Commands
|
namespace Pantograph.Protocol
|
||||||
|
|
||||||
|
|
||||||
/-- Main Option structure, placed here to avoid name collision -/
|
/-- Main Option structure, placed here to avoid name collision -/
|
||||||
|
@ -18,9 +18,10 @@ structure Options where
|
||||||
printExprPretty: Bool := true
|
printExprPretty: Bool := true
|
||||||
-- When enabled, print the raw AST of expressions
|
-- When enabled, print the raw AST of expressions
|
||||||
printExprAST: Bool := false
|
printExprAST: Bool := false
|
||||||
-- When enabled, the types and values of persistent variables in a proof goal
|
-- When enabled, the types and values of persistent variables in a goal
|
||||||
-- are not shown unless they are new to the proof step. Reduces overhead
|
-- are not shown unless they are new to the proof step. Reduces overhead.
|
||||||
proofVariableDelta: Bool := false
|
-- NOTE: that this assumes the type and assignment of variables can never change.
|
||||||
|
noRepeat: Bool := false
|
||||||
-- See `pp.auxDecls`
|
-- See `pp.auxDecls`
|
||||||
printAuxDecls: Bool := false
|
printAuxDecls: Bool := false
|
||||||
-- See `pp.implementationDetailHyps`
|
-- See `pp.implementationDetailHyps`
|
||||||
|
@ -43,7 +44,10 @@ structure Expression where
|
||||||
deriving Lean.ToJson
|
deriving Lean.ToJson
|
||||||
|
|
||||||
structure Variable where
|
structure Variable where
|
||||||
name: String
|
/-- The internal name used in raw expressions -/
|
||||||
|
name: String := ""
|
||||||
|
/-- The name displayed to the user -/
|
||||||
|
userName: String
|
||||||
/-- Does the name contain a dagger -/
|
/-- Does the name contain a dagger -/
|
||||||
isInaccessible?: Option Bool := .none
|
isInaccessible?: Option Bool := .none
|
||||||
type?: Option Expression := .none
|
type?: Option Expression := .none
|
||||||
|
@ -120,7 +124,7 @@ structure OptionsSet where
|
||||||
printJsonPretty?: Option Bool
|
printJsonPretty?: Option Bool
|
||||||
printExprPretty?: Option Bool
|
printExprPretty?: Option Bool
|
||||||
printExprAST?: Option Bool
|
printExprAST?: Option Bool
|
||||||
proofVariableDelta?: Option Bool
|
noRepeat?: Option Bool
|
||||||
printAuxDecls?: Option Bool
|
printAuxDecls?: Option Bool
|
||||||
printImplementationDetailHyps?: Option Bool
|
printImplementationDetailHyps?: Option Bool
|
||||||
deriving Lean.FromJson
|
deriving Lean.FromJson
|
||||||
|
@ -132,32 +136,55 @@ abbrev OptionsPrintResult := Options
|
||||||
|
|
||||||
structure GoalStart where
|
structure GoalStart where
|
||||||
-- Only one of the fields below may be populated.
|
-- Only one of the fields below may be populated.
|
||||||
expr: Option String -- Proof expression
|
expr: Option String -- Directly parse in an expression
|
||||||
copyFrom: Option String -- Theorem name
|
copyFrom: Option String -- Copy the type from a theorem in the environment
|
||||||
deriving Lean.FromJson
|
deriving Lean.FromJson
|
||||||
structure GoalStartResult where
|
structure GoalStartResult where
|
||||||
goalId: Nat := 0 -- Proof tree id
|
stateId: Nat := 0
|
||||||
deriving Lean.ToJson
|
deriving Lean.ToJson
|
||||||
structure GoalTactic where
|
structure GoalTactic where
|
||||||
-- Identifiers for tree, state, and goal
|
-- Identifiers for tree, state, and goal
|
||||||
goalId: Nat
|
stateId: Nat
|
||||||
tactic: String
|
goalId: Nat := 0
|
||||||
|
-- One of the fields here must be filled
|
||||||
|
tactic?: Option String := .none
|
||||||
|
expr?: Option String := .none
|
||||||
deriving Lean.FromJson
|
deriving Lean.FromJson
|
||||||
structure GoalTacticResult where
|
structure GoalTacticResult where
|
||||||
-- Existence of this field shows success
|
-- The next goal state id. Existence of this field shows success
|
||||||
|
nextStateId?: Option Nat := .none
|
||||||
|
-- If the array is empty, it shows the goals have been fully resolved.
|
||||||
goals?: Option (Array Goal) := .none
|
goals?: Option (Array Goal) := .none
|
||||||
-- Next proof state id, if successful
|
|
||||||
goalIds?: Option (Array Nat) := .none
|
-- Existence of this field shows tactic execution failure
|
||||||
-- Existence of this field shows failure
|
|
||||||
tacticErrors?: Option (Array String) := .none
|
tacticErrors?: Option (Array String) := .none
|
||||||
|
|
||||||
|
-- Existence of this field shows the tactic parsing has failed
|
||||||
|
parseError?: Option String := .none
|
||||||
deriving Lean.ToJson
|
deriving Lean.ToJson
|
||||||
|
|
||||||
-- Remove a bunch of goals.
|
-- Remove goal states
|
||||||
structure GoalDelete where
|
structure GoalDelete where
|
||||||
goalIds: List Nat
|
stateIds: List Nat
|
||||||
deriving Lean.FromJson
|
deriving Lean.FromJson
|
||||||
structure GoalDeleteResult where
|
structure GoalDeleteResult where
|
||||||
deriving Lean.ToJson
|
deriving Lean.ToJson
|
||||||
|
|
||||||
|
structure GoalPrint where
|
||||||
|
stateId: Nat
|
||||||
|
deriving Lean.FromJson
|
||||||
|
structure GoalPrintResult where
|
||||||
|
-- The root expression
|
||||||
|
root?: Option Expression
|
||||||
|
deriving Lean.ToJson
|
||||||
|
|
||||||
end Pantograph.Commands
|
-- Diagnostic Options, not available in REPL
|
||||||
|
structure GoalDiag where
|
||||||
|
printContext: Bool := true
|
||||||
|
printValue: Bool := true
|
||||||
|
printNewMVars: Bool := false
|
||||||
|
-- Print all mvars
|
||||||
|
printAll: Bool := false
|
||||||
|
|
||||||
|
|
||||||
|
end Pantograph.Protocol
|
|
@ -3,7 +3,8 @@ All serialisation functions
|
||||||
-/
|
-/
|
||||||
import Lean
|
import Lean
|
||||||
|
|
||||||
import Pantograph.Commands
|
import Pantograph.Protocol
|
||||||
|
import Pantograph.Goal
|
||||||
|
|
||||||
namespace Pantograph
|
namespace Pantograph
|
||||||
open Lean
|
open Lean
|
||||||
|
@ -28,34 +29,28 @@ def syntax_from_str (env: Environment) (s: String): Except String Syntax :=
|
||||||
def syntax_to_expr_type (syn: Syntax): Elab.TermElabM (Except String Expr) := do
|
def syntax_to_expr_type (syn: Syntax): Elab.TermElabM (Except String Expr) := do
|
||||||
try
|
try
|
||||||
let expr ← Elab.Term.elabType syn
|
let expr ← Elab.Term.elabType syn
|
||||||
-- Immediately synthesise all metavariables if we need to leave the elaboration context.
|
|
||||||
-- See https://leanprover.zulipchat.com/#narrow/stream/270676-lean4/topic/Unknown.20universe.20metavariable/near/360130070
|
|
||||||
--Elab.Term.synthesizeSyntheticMVarsNoPostponing
|
|
||||||
let expr ← instantiateMVars expr
|
|
||||||
return .ok expr
|
return .ok expr
|
||||||
catch ex => return .error (← ex.toMessageData.toString)
|
catch ex => return .error (← ex.toMessageData.toString)
|
||||||
def syntax_to_expr (syn: Syntax): Elab.TermElabM (Except String Expr) := do
|
def syntax_to_expr (syn: Syntax): Elab.TermElabM (Except String Expr) := do
|
||||||
try
|
try
|
||||||
let expr ← Elab.Term.elabTerm (stx := syn) (expectedType? := .none)
|
let expr ← Elab.Term.elabTerm (stx := syn) (expectedType? := .none)
|
||||||
-- Immediately synthesise all metavariables if we need to leave the elaboration context.
|
|
||||||
-- See https://leanprover.zulipchat.com/#narrow/stream/270676-lean4/topic/Unknown.20universe.20metavariable/near/360130070
|
|
||||||
--Elab.Term.synthesizeSyntheticMVarsNoPostponing
|
|
||||||
let expr ← instantiateMVars expr
|
|
||||||
return .ok expr
|
return .ok expr
|
||||||
catch ex => return .error (← ex.toMessageData.toString)
|
catch ex => return .error (← ex.toMessageData.toString)
|
||||||
|
|
||||||
|
|
||||||
--- Output Functions ---
|
--- Output Functions ---
|
||||||
|
|
||||||
def type_expr_to_bound (expr: Expr): MetaM Commands.BoundExpression := do
|
def type_expr_to_bound (expr: Expr): MetaM Protocol.BoundExpression := do
|
||||||
Meta.forallTelescope expr fun arr body => do
|
Meta.forallTelescope expr fun arr body => do
|
||||||
let binders ← arr.mapM fun fvar => do
|
let binders ← arr.mapM fun fvar => do
|
||||||
return (toString (← fvar.fvarId!.getUserName), toString (← Meta.ppExpr (← fvar.fvarId!.getType)))
|
return (toString (← fvar.fvarId!.getUserName), toString (← Meta.ppExpr (← fvar.fvarId!.getType)))
|
||||||
return { binders, target := toString (← Meta.ppExpr body) }
|
return { binders, target := toString (← Meta.ppExpr body) }
|
||||||
|
|
||||||
private def name_to_ast: Lean.Name → String
|
private def name_to_ast (name: Lean.Name) (sanitize: Bool := true): String := match name with
|
||||||
| .anonymous
|
| .anonymous => ":anon"
|
||||||
| .num _ _ => ":anon"
|
| .num n i => match sanitize with
|
||||||
|
| false => s!"{toString n} {i}"
|
||||||
|
| true => ":anon"
|
||||||
| n@(.str _ _) => toString n
|
| n@(.str _ _) => toString n
|
||||||
|
|
||||||
private def level_depth: Level → Nat
|
private def level_depth: Level → Nat
|
||||||
|
@ -108,78 +103,80 @@ def serialize_sort_level_ast (level: Level): String :=
|
||||||
/--
|
/--
|
||||||
Completely serializes an expression tree. Json not used due to compactness
|
Completely serializes an expression tree. Json not used due to compactness
|
||||||
-/
|
-/
|
||||||
def serialize_expression_ast (expr: Expr): MetaM String := do
|
def serialize_expression_ast (expr: Expr) (sanitize: Bool := true): String :=
|
||||||
match expr with
|
self expr
|
||||||
|
where
|
||||||
|
self (e: Expr): String :=
|
||||||
|
match e with
|
||||||
| .bvar deBruijnIndex =>
|
| .bvar deBruijnIndex =>
|
||||||
-- This is very common so the index alone is shown. Literals are handled below.
|
-- This is very common so the index alone is shown. Literals are handled below.
|
||||||
-- The raw de Bruijn index should never appear in an unbound setting. In
|
-- The raw de Bruijn index should never appear in an unbound setting. In
|
||||||
-- Lean these are handled using a `#` prefix.
|
-- Lean these are handled using a `#` prefix.
|
||||||
return s!"{deBruijnIndex}"
|
s!"{deBruijnIndex}"
|
||||||
| .fvar fvarId =>
|
| .fvar fvarId =>
|
||||||
let name := (← fvarId.getDecl).userName
|
let name := of_name fvarId.name
|
||||||
return s!"(:fv {name})"
|
s!"(:fv {name})"
|
||||||
| .mvar mvarId =>
|
| .mvar mvarId =>
|
||||||
let name := name_to_ast mvarId.name
|
let name := of_name mvarId.name
|
||||||
return s!"(:mv {name})"
|
s!"(:mv {name})"
|
||||||
| .sort level =>
|
| .sort level =>
|
||||||
let level := serialize_sort_level_ast level
|
let level := serialize_sort_level_ast level
|
||||||
return s!"(:sort {level})"
|
s!"(:sort {level})"
|
||||||
| .const declName _ =>
|
| .const declName _ =>
|
||||||
-- The universe level of the const expression is elided since it should be
|
-- The universe level of the const expression is elided since it should be
|
||||||
-- inferrable from surrounding expression
|
-- inferrable from surrounding expression
|
||||||
return s!"(:c {declName})"
|
s!"(:c {declName})"
|
||||||
| .app fn arg =>
|
| .app fn arg =>
|
||||||
let fn' ← serialize_expression_ast fn
|
let fn' := self fn
|
||||||
let arg' ← serialize_expression_ast arg
|
let arg' := self arg
|
||||||
return s!"({fn'} {arg'})"
|
s!"({fn'} {arg'})"
|
||||||
| .lam binderName binderType body binderInfo =>
|
| .lam binderName binderType body binderInfo =>
|
||||||
let binderName' := name_to_ast binderName
|
let binderName' := of_name binderName
|
||||||
let binderType' ← serialize_expression_ast binderType
|
let binderType' := self binderType
|
||||||
let body' ← serialize_expression_ast body
|
let body' := self body
|
||||||
let binderInfo' := binder_info_to_ast binderInfo
|
let binderInfo' := binder_info_to_ast binderInfo
|
||||||
return s!"(:lambda {binderName'} {binderType'} {body'}{binderInfo'})"
|
s!"(:lambda {binderName'} {binderType'} {body'}{binderInfo'})"
|
||||||
| .forallE binderName binderType body binderInfo =>
|
| .forallE binderName binderType body binderInfo =>
|
||||||
let binderName' := name_to_ast binderName
|
let binderName' := of_name binderName
|
||||||
let binderType' ← serialize_expression_ast binderType
|
let binderType' := self binderType
|
||||||
let body' ← serialize_expression_ast body
|
let body' := self body
|
||||||
let binderInfo' := binder_info_to_ast binderInfo
|
let binderInfo' := binder_info_to_ast binderInfo
|
||||||
return s!"(:forall {binderName'} {binderType'} {body'}{binderInfo'})"
|
s!"(:forall {binderName'} {binderType'} {body'}{binderInfo'})"
|
||||||
| .letE name type value body _ =>
|
| .letE name type value body _ =>
|
||||||
-- Dependent boolean flag diacarded
|
-- Dependent boolean flag diacarded
|
||||||
let name' := name_to_ast name
|
let name' := name_to_ast name
|
||||||
let type' ← serialize_expression_ast type
|
let type' := self type
|
||||||
let value' ← serialize_expression_ast value
|
let value' := self value
|
||||||
let body' ← serialize_expression_ast body
|
let body' := self body
|
||||||
return s!"(:let {name'} {type'} {value'} {body'})"
|
s!"(:let {name'} {type'} {value'} {body'})"
|
||||||
| .lit v =>
|
| .lit v =>
|
||||||
-- To not burden the downstream parser who needs to handle this, the literal
|
-- To not burden the downstream parser who needs to handle this, the literal
|
||||||
-- is wrapped in a :lit sexp.
|
-- is wrapped in a :lit sexp.
|
||||||
let v' := match v with
|
let v' := match v with
|
||||||
| .natVal val => toString val
|
| .natVal val => toString val
|
||||||
| .strVal val => s!"\"{val}\""
|
| .strVal val => s!"\"{val}\""
|
||||||
return s!"(:lit {v'})"
|
s!"(:lit {v'})"
|
||||||
| .mdata _ expr =>
|
| .mdata _ inner =>
|
||||||
-- NOTE: Equivalent to expr itself, but mdata influences the prettyprinter
|
-- NOTE: Equivalent to expr itself, but mdata influences the prettyprinter
|
||||||
-- It may become necessary to incorporate the metadata.
|
-- It may become necessary to incorporate the metadata.
|
||||||
return (← serialize_expression_ast expr)
|
self inner
|
||||||
| .proj typeName idx struct =>
|
| .proj typeName idx struct =>
|
||||||
let struct' ← serialize_expression_ast struct
|
let struct' := self struct
|
||||||
return s!"(:proj {typeName} {idx} {struct'})"
|
s!"(:proj {typeName} {idx} {struct'})"
|
||||||
|
|
||||||
where
|
|
||||||
-- Elides all unhygenic names
|
-- Elides all unhygenic names
|
||||||
binder_info_to_ast : Lean.BinderInfo → String
|
binder_info_to_ast : Lean.BinderInfo → String
|
||||||
| .default => ""
|
| .default => ""
|
||||||
| .implicit => " :implicit"
|
| .implicit => " :implicit"
|
||||||
| .strictImplicit => " :strictImplicit"
|
| .strictImplicit => " :strictImplicit"
|
||||||
| .instImplicit => " :instImplicit"
|
| .instImplicit => " :instImplicit"
|
||||||
|
of_name (name: Name) := name_to_ast name sanitize
|
||||||
|
|
||||||
def serialize_expression (options: Commands.Options) (e: Expr): MetaM Commands.Expression := do
|
def serialize_expression (options: Protocol.Options) (e: Expr): MetaM Protocol.Expression := do
|
||||||
let pp := toString (← Meta.ppExpr e)
|
let pp := toString (← Meta.ppExpr e)
|
||||||
let pp?: Option String := match options.printExprPretty with
|
let pp?: Option String := match options.printExprPretty with
|
||||||
| true => .some pp
|
| true => .some pp
|
||||||
| false => .none
|
| false => .none
|
||||||
let sexp: String := (← serialize_expression_ast e)
|
let sexp: String := serialize_expression_ast e
|
||||||
let sexp?: Option String := match options.printExprAST with
|
let sexp?: Option String := match options.printExprAST with
|
||||||
| true => .some sexp
|
| true => .some sexp
|
||||||
| false => .none
|
| false => .none
|
||||||
|
@ -189,8 +186,8 @@ def serialize_expression (options: Commands.Options) (e: Expr): MetaM Commands.E
|
||||||
}
|
}
|
||||||
|
|
||||||
/-- Adapted from ppGoal -/
|
/-- Adapted from ppGoal -/
|
||||||
def serialize_goal (options: Commands.Options) (mvarDecl: MetavarDecl) (parentDecl?: Option MetavarDecl)
|
def serialize_goal (options: Protocol.Options) (mvarDecl: MetavarDecl) (parentDecl?: Option MetavarDecl)
|
||||||
: MetaM Commands.Goal := do
|
: MetaM Protocol.Goal := do
|
||||||
-- Options for printing; See Meta.ppGoal for details
|
-- Options for printing; See Meta.ppGoal for details
|
||||||
let showLetValues := true
|
let showLetValues := true
|
||||||
let ppAuxDecls := options.printAuxDecls
|
let ppAuxDecls := options.printAuxDecls
|
||||||
|
@ -198,29 +195,32 @@ def serialize_goal (options: Commands.Options) (mvarDecl: MetavarDecl) (parentDe
|
||||||
let lctx := mvarDecl.lctx
|
let lctx := mvarDecl.lctx
|
||||||
let lctx := lctx.sanitizeNames.run' { options := (← getOptions) }
|
let lctx := lctx.sanitizeNames.run' { options := (← getOptions) }
|
||||||
Meta.withLCtx lctx mvarDecl.localInstances do
|
Meta.withLCtx lctx mvarDecl.localInstances do
|
||||||
let ppVarNameOnly (localDecl: LocalDecl): MetaM Commands.Variable := do
|
let ppVarNameOnly (localDecl: LocalDecl): MetaM Protocol.Variable := do
|
||||||
match localDecl with
|
match localDecl with
|
||||||
| .cdecl _ _ varName _ _ _ =>
|
| .cdecl _ fvarId userName _ _ _ =>
|
||||||
let varName := varName.simpMacroScopes
|
let userName := userName.simpMacroScopes
|
||||||
return {
|
return {
|
||||||
name := toString varName,
|
name := of_name fvarId.name,
|
||||||
|
userName:= of_name userName.simpMacroScopes,
|
||||||
}
|
}
|
||||||
| .ldecl _ _ varName _ _ _ _ => do
|
| .ldecl _ fvarId userName _ _ _ _ => do
|
||||||
return {
|
return {
|
||||||
name := toString varName,
|
name := of_name fvarId.name,
|
||||||
|
userName := toString userName.simpMacroScopes,
|
||||||
}
|
}
|
||||||
let ppVar (localDecl : LocalDecl) : MetaM Commands.Variable := do
|
let ppVar (localDecl : LocalDecl) : MetaM Protocol.Variable := do
|
||||||
match localDecl with
|
match localDecl with
|
||||||
| .cdecl _ _ varName type _ _ =>
|
| .cdecl _ fvarId userName type _ _ =>
|
||||||
let varName := varName.simpMacroScopes
|
let userName := userName.simpMacroScopes
|
||||||
let type ← instantiateMVars type
|
let type ← instantiateMVars type
|
||||||
return {
|
return {
|
||||||
name := toString varName,
|
name := of_name fvarId.name,
|
||||||
isInaccessible? := .some varName.isInaccessibleUserName
|
userName:= of_name userName,
|
||||||
|
isInaccessible? := .some userName.isInaccessibleUserName
|
||||||
type? := .some (← serialize_expression options type)
|
type? := .some (← serialize_expression options type)
|
||||||
}
|
}
|
||||||
| .ldecl _ _ varName type val _ _ => do
|
| .ldecl _ fvarId userName type val _ _ => do
|
||||||
let varName := varName.simpMacroScopes
|
let userName := userName.simpMacroScopes
|
||||||
let type ← instantiateMVars type
|
let type ← instantiateMVars type
|
||||||
let value? ← if showLetValues then
|
let value? ← if showLetValues then
|
||||||
let val ← instantiateMVars val
|
let val ← instantiateMVars val
|
||||||
|
@ -228,8 +228,9 @@ def serialize_goal (options: Commands.Options) (mvarDecl: MetavarDecl) (parentDe
|
||||||
else
|
else
|
||||||
pure $ .none
|
pure $ .none
|
||||||
return {
|
return {
|
||||||
name := toString varName,
|
name := of_name fvarId.name,
|
||||||
isInaccessible? := .some varName.isInaccessibleUserName
|
userName:= of_name userName,
|
||||||
|
isInaccessible? := .some userName.isInaccessibleUserName
|
||||||
type? := .some (← serialize_expression options type)
|
type? := .some (← serialize_expression options type)
|
||||||
value? := value?
|
value? := value?
|
||||||
}
|
}
|
||||||
|
@ -239,21 +240,79 @@ def serialize_goal (options: Commands.Options) (mvarDecl: MetavarDecl) (parentDe
|
||||||
if skip then
|
if skip then
|
||||||
return acc
|
return acc
|
||||||
else
|
else
|
||||||
let nameOnly := options.proofVariableDelta && (parentDecl?.map
|
let nameOnly := options.noRepeat && (parentDecl?.map
|
||||||
(λ decl => decl.lctx.find? localDecl.fvarId |>.isSome) |>.getD false)
|
(λ decl => decl.lctx.find? localDecl.fvarId |>.isSome) |>.getD false)
|
||||||
let var ← match nameOnly with
|
let var ← match nameOnly with
|
||||||
| true => ppVarNameOnly localDecl
|
| true => ppVarNameOnly localDecl
|
||||||
| false => ppVar localDecl
|
| false => ppVar localDecl
|
||||||
return var::acc
|
return var::acc
|
||||||
return {
|
return {
|
||||||
caseName? := match mvarDecl.userName with
|
caseName? := if mvarDecl.userName == .anonymous then .none else .some (of_name mvarDecl.userName),
|
||||||
| Name.anonymous => .none
|
isConversion := isLHSGoal? mvarDecl.type |>.isSome,
|
||||||
| name => .some <| toString name,
|
|
||||||
isConversion := "| " == (Meta.getGoalPrefix mvarDecl)
|
|
||||||
target := (← serialize_expression options (← instantiateMVars mvarDecl.type)),
|
target := (← serialize_expression options (← instantiateMVars mvarDecl.type)),
|
||||||
vars := vars.reverse.toArray
|
vars := vars.reverse.toArray
|
||||||
}
|
}
|
||||||
|
where
|
||||||
|
of_name (n: Name) := name_to_ast n (sanitize := false)
|
||||||
|
|
||||||
|
protected def GoalState.serializeGoals (state: GoalState) (parent: Option GoalState := .none) (options: Protocol.Options := {}): MetaM (Array Protocol.Goal):= do
|
||||||
|
let goals := state.goals.toArray
|
||||||
|
state.savedState.term.meta.restore
|
||||||
|
let parentDecl? := parent.bind (λ parentState =>
|
||||||
|
let parentGoal := parentState.goals.get! state.parentGoalId
|
||||||
|
parentState.mctx.findDecl? parentGoal)
|
||||||
|
goals.mapM fun goal => do
|
||||||
|
match state.mctx.findDecl? goal with
|
||||||
|
| .some mvarDecl =>
|
||||||
|
let serializedGoal ← serialize_goal options mvarDecl (parentDecl? := parentDecl?)
|
||||||
|
pure serializedGoal
|
||||||
|
| .none => throwError s!"Metavariable does not exist in context {goal.name}"
|
||||||
|
|
||||||
|
/-- Print the metavariables in a readable format -/
|
||||||
|
protected def GoalState.print (goalState: GoalState) (options: Protocol.GoalDiag := {}): MetaM Unit := do
|
||||||
|
let savedState := goalState.savedState
|
||||||
|
savedState.term.meta.restore
|
||||||
|
let goals := savedState.tactic.goals
|
||||||
|
let mctx ← getMCtx
|
||||||
|
let root := goalState.root
|
||||||
|
-- Print the root
|
||||||
|
match mctx.decls.find? root with
|
||||||
|
| .some decl => printMVar ">" root decl
|
||||||
|
| .none => IO.println s!">{root.name}: ??"
|
||||||
|
goals.forM (fun mvarId => do
|
||||||
|
if mvarId != root then
|
||||||
|
match mctx.decls.find? mvarId with
|
||||||
|
| .some decl => printMVar "⊢" mvarId decl
|
||||||
|
| .none => IO.println s!"⊢{mvarId.name}: ??"
|
||||||
|
)
|
||||||
|
let goals := goals.toSSet
|
||||||
|
mctx.decls.forM (fun mvarId decl => do
|
||||||
|
if goals.contains mvarId || mvarId == root then
|
||||||
|
pure ()
|
||||||
|
-- Always print the root goal
|
||||||
|
else if mvarId == goalState.root then
|
||||||
|
printMVar (pref := ">") mvarId decl
|
||||||
|
-- Print the remainig ones that users don't see in Lean
|
||||||
|
else if options.printAll then
|
||||||
|
let pref := if goalState.newMVars.contains mvarId then "~" else " "
|
||||||
|
printMVar pref mvarId decl
|
||||||
|
else
|
||||||
|
pure ()
|
||||||
|
--IO.println s!" {mvarId.name}{userNameToString decl.userName}"
|
||||||
|
)
|
||||||
|
where
|
||||||
|
printMVar (pref: String) (mvarId: MVarId) (decl: MetavarDecl): MetaM Unit := do
|
||||||
|
if options.printContext then
|
||||||
|
decl.lctx.fvarIdToDecl.forM printFVar
|
||||||
|
let type_sexp := serialize_expression_ast (← instantiateMVars decl.type) (sanitize := false)
|
||||||
|
IO.println s!"{pref}{mvarId.name}{userNameToString decl.userName}: {← Meta.ppExpr decl.type} {type_sexp}"
|
||||||
|
if options.printValue then
|
||||||
|
if let Option.some value := (← getMCtx).eAssignment.find? mvarId then
|
||||||
|
IO.println s!" = {← Meta.ppExpr value}"
|
||||||
|
printFVar (fvarId: FVarId) (decl: LocalDecl): MetaM Unit := do
|
||||||
|
IO.println s!" | {fvarId.name}{userNameToString decl.userName}: {← Meta.ppExpr decl.type}"
|
||||||
|
userNameToString : Name → String
|
||||||
|
| .anonymous => ""
|
||||||
|
| other => s!"[{other}]"
|
||||||
|
|
||||||
end Pantograph
|
end Pantograph
|
||||||
|
|
|
@ -1,10 +1,8 @@
|
||||||
/-
|
|
||||||
- Manages the visibility status of symbols
|
|
||||||
-/
|
|
||||||
import Lean.Declaration
|
import Lean.Declaration
|
||||||
|
|
||||||
namespace Pantograph
|
namespace Pantograph
|
||||||
|
|
||||||
|
/-- Converts a symbol of the form `aa.bb.cc` to a name -/
|
||||||
def str_to_name (s: String): Lean.Name :=
|
def str_to_name (s: String): Lean.Name :=
|
||||||
(s.splitOn ".").foldl Lean.Name.str Lean.Name.anonymous
|
(s.splitOn ".").foldl Lean.Name.str Lean.Name.anonymous
|
||||||
|
|
|
@ -1,102 +0,0 @@
|
||||||
import Lean
|
|
||||||
|
|
||||||
import Pantograph.Symbols
|
|
||||||
import Pantograph.Serial
|
|
||||||
|
|
||||||
/-
|
|
||||||
The proof state manipulation system
|
|
||||||
|
|
||||||
A proof state is launched by providing
|
|
||||||
1. Environment: `Environment`
|
|
||||||
2. Expression: `Expr`
|
|
||||||
The expression becomes the first meta variable in the saved tactic state
|
|
||||||
`Elab.Tactic.SavedState`.
|
|
||||||
From this point on, any proof which extends
|
|
||||||
`Elab.Term.Context` and
|
|
||||||
-/
|
|
||||||
|
|
||||||
def Lean.MessageLog.getErrorMessages (log : MessageLog) : MessageLog :=
|
|
||||||
{
|
|
||||||
msgs := log.msgs.filter fun m => match m.severity with | MessageSeverity.error => true | _ => false
|
|
||||||
}
|
|
||||||
|
|
||||||
|
|
||||||
namespace Pantograph
|
|
||||||
open Lean
|
|
||||||
|
|
||||||
structure GoalState where
|
|
||||||
mvarId: MVarId
|
|
||||||
savedState : Elab.Tactic.SavedState
|
|
||||||
|
|
||||||
abbrev M := Elab.TermElabM
|
|
||||||
|
|
||||||
def GoalState.create (expr: Expr): M GoalState := do
|
|
||||||
let expr ← instantiateMVars expr
|
|
||||||
let goal := (← Meta.mkFreshExprMVar expr (kind := MetavarKind.synthetic))
|
|
||||||
let savedStateMonad: Elab.Tactic.TacticM Elab.Tactic.SavedState := MonadBacktrack.saveState
|
|
||||||
let savedState ← savedStateMonad { elaborator := .anonymous } |>.run' { goals := [goal.mvarId!]}
|
|
||||||
return {
|
|
||||||
savedState := savedState,
|
|
||||||
mvarId := goal.mvarId!
|
|
||||||
}
|
|
||||||
|
|
||||||
def execute_tactic (state: Elab.Tactic.SavedState) (goal: MVarId) (tactic: String) :
|
|
||||||
M (Except (Array String) (Elab.Tactic.SavedState × List MVarId)):= do
|
|
||||||
let tacticM (stx: Syntax): Elab.Tactic.TacticM (Except (Array String) (Elab.Tactic.SavedState × List MVarId)) := do
|
|
||||||
state.restore
|
|
||||||
Elab.Tactic.setGoals [goal]
|
|
||||||
try
|
|
||||||
Elab.Tactic.evalTactic stx
|
|
||||||
if (← getThe Core.State).messages.hasErrors then
|
|
||||||
let messages := (← getThe Core.State).messages.getErrorMessages |>.toList.toArray
|
|
||||||
let errors ← (messages.map Message.data).mapM fun md => md.toString
|
|
||||||
return .error errors
|
|
||||||
else
|
|
||||||
return .ok (← MonadBacktrack.saveState, ← Elab.Tactic.getUnsolvedGoals)
|
|
||||||
catch exception =>
|
|
||||||
return .error #[← exception.toMessageData.toString]
|
|
||||||
match Parser.runParserCategory
|
|
||||||
(env := ← MonadEnv.getEnv)
|
|
||||||
(catName := `tactic)
|
|
||||||
(input := tactic)
|
|
||||||
(fileName := "<stdin>") with
|
|
||||||
| Except.error err => return .error #[err]
|
|
||||||
| Except.ok stx => tacticM stx { elaborator := .anonymous } |>.run' state.tactic
|
|
||||||
|
|
||||||
/-- Response for executing a tactic -/
|
|
||||||
inductive TacticResult where
|
|
||||||
-- Goes to next state
|
|
||||||
| success (goals: Array (GoalState × Commands.Goal))
|
|
||||||
-- Fails with messages
|
|
||||||
| failure (messages: Array String)
|
|
||||||
|
|
||||||
namespace TacticResult
|
|
||||||
|
|
||||||
def is_success: TacticResult → Bool
|
|
||||||
| .success _ => true
|
|
||||||
| .failure _ => false
|
|
||||||
|
|
||||||
end TacticResult
|
|
||||||
|
|
||||||
/-- Execute tactic on given state -/
|
|
||||||
def GoalState.execute (goal: GoalState) (tactic: String):
|
|
||||||
Commands.OptionsT M TacticResult := do
|
|
||||||
let options ← read
|
|
||||||
match (← execute_tactic (state := goal.savedState) (goal := goal.mvarId) (tactic := tactic)) with
|
|
||||||
| .error errors =>
|
|
||||||
return .failure errors
|
|
||||||
| .ok (nextState, nextGoals) =>
|
|
||||||
if nextGoals.isEmpty then
|
|
||||||
return .success #[]
|
|
||||||
else
|
|
||||||
let nextGoals: List GoalState := nextGoals.map fun mvarId => { mvarId, savedState := nextState }
|
|
||||||
let parentDecl? := (← MonadMCtx.getMCtx).findDecl? goal.mvarId
|
|
||||||
let goals ← nextGoals.mapM fun nextGoal => do
|
|
||||||
match (← MonadMCtx.getMCtx).findDecl? nextGoal.mvarId with
|
|
||||||
| .some mvarDecl =>
|
|
||||||
let serializedGoal ← serialize_goal options mvarDecl (parentDecl? := parentDecl?)
|
|
||||||
return (nextGoal, serializedGoal)
|
|
||||||
| .none => throwError nextGoal.mvarId
|
|
||||||
return .success goals.toArray
|
|
||||||
|
|
||||||
end Pantograph
|
|
|
@ -1,5 +1,5 @@
|
||||||
namespace Pantograph
|
namespace Pantograph
|
||||||
|
|
||||||
def version := "0.2.5"
|
def version := "0.2.6"
|
||||||
|
|
||||||
end Pantograph
|
end Pantograph
|
||||||
|
|
|
@ -76,8 +76,9 @@ See `Pantograph/Commands.lean` for a description of the parameters and return va
|
||||||
have to be set via command line arguments.), for options, see `Pantograph/Commands.lean`
|
have to be set via command line arguments.), for options, see `Pantograph/Commands.lean`
|
||||||
- `options.print`: Display the current set of options
|
- `options.print`: Display the current set of options
|
||||||
- `goal.start {["name": <name>], ["expr": <expr>], ["copyFrom": <symbol>]}`: Start a new goal from a given expression or symbol
|
- `goal.start {["name": <name>], ["expr": <expr>], ["copyFrom": <symbol>]}`: Start a new goal from a given expression or symbol
|
||||||
- `goal.tactic {"goalId": <id>, "tactic": <tactic>}`: Execute a tactic string on a given goal
|
- `goal.tactic {"stateId": <id>, "goalId": <id>, ["tactic": <tactic>], ["expr": <expr>]}`: Execute a tactic string on a given goal
|
||||||
- `goal.remove {"goalIds": [<id>]}"`: Remove a bunch of stored goals.
|
- `goal.remove {"stateIds": [<id>]}"`: Remove a bunch of stored goals.
|
||||||
|
- `goal.print {"stateId": <id>}"`: Print a goal state
|
||||||
- `stat`: Display resource usage
|
- `stat`: Display resource usage
|
||||||
|
|
||||||
## Errors
|
## Errors
|
||||||
|
|
|
@ -0,0 +1,19 @@
|
||||||
|
import Pantograph.Protocol
|
||||||
|
|
||||||
|
namespace Pantograph
|
||||||
|
|
||||||
|
namespace Protocol
|
||||||
|
/-- Set internal names to "" -/
|
||||||
|
def Goal.devolatilize (goal: Goal): Goal :=
|
||||||
|
{
|
||||||
|
goal with
|
||||||
|
vars := goal.vars.map removeInternalAux,
|
||||||
|
}
|
||||||
|
where removeInternalAux (v: Variable): Variable :=
|
||||||
|
{
|
||||||
|
v with
|
||||||
|
name := ""
|
||||||
|
}
|
||||||
|
end Protocol
|
||||||
|
|
||||||
|
end Pantograph
|
|
@ -0,0 +1,101 @@
|
||||||
|
import LSpec
|
||||||
|
import Pantograph.Goal
|
||||||
|
import Pantograph.Serial
|
||||||
|
|
||||||
|
namespace Pantograph.Test.Holes
|
||||||
|
open Pantograph
|
||||||
|
open Lean
|
||||||
|
|
||||||
|
abbrev TestM := StateRefT LSpec.TestSeq (ReaderT Commands.Options M)
|
||||||
|
|
||||||
|
deriving instance DecidableEq, Repr for Commands.Expression
|
||||||
|
deriving instance DecidableEq, Repr for Commands.Variable
|
||||||
|
deriving instance DecidableEq, Repr for Commands.Goal
|
||||||
|
|
||||||
|
def add_test (test: LSpec.TestSeq): TestM Unit := do
|
||||||
|
set $ (← get) ++ test
|
||||||
|
|
||||||
|
def start_goal (hole: String): TestM (Option GoalState) := do
|
||||||
|
let env ← Lean.MonadEnv.getEnv
|
||||||
|
let syn? := syntax_from_str env hole
|
||||||
|
add_test $ LSpec.check s!"Parsing {hole}" (syn?.isOk)
|
||||||
|
match syn? with
|
||||||
|
| .error error =>
|
||||||
|
IO.println error
|
||||||
|
return Option.none
|
||||||
|
| .ok syn =>
|
||||||
|
let expr? ← syntax_to_expr syn
|
||||||
|
add_test $ LSpec.check s!"Elaborating" expr?.isOk
|
||||||
|
match expr? with
|
||||||
|
| .error error =>
|
||||||
|
IO.println error
|
||||||
|
return Option.none
|
||||||
|
| .ok expr =>
|
||||||
|
let goal ← GoalState.create (expr := expr)
|
||||||
|
return Option.some goal
|
||||||
|
|
||||||
|
def assert_unreachable (message: String): LSpec.TestSeq := LSpec.check message false
|
||||||
|
|
||||||
|
def build_goal (nameType: List (String × String)) (target: String): Commands.Goal :=
|
||||||
|
{
|
||||||
|
target := { pp? := .some target},
|
||||||
|
vars := (nameType.map fun x => ({
|
||||||
|
name := x.fst,
|
||||||
|
type? := .some { pp? := .some x.snd },
|
||||||
|
isInaccessible? := .some false
|
||||||
|
})).toArray
|
||||||
|
}
|
||||||
|
-- Like `build_goal` but allow certain variables to be elided.
|
||||||
|
def build_goal_selective (nameType: List (String × Option String)) (target: String): Commands.Goal :=
|
||||||
|
{
|
||||||
|
target := { pp? := .some target},
|
||||||
|
vars := (nameType.map fun x => ({
|
||||||
|
name := x.fst,
|
||||||
|
type? := x.snd.map (λ type => { pp? := type }),
|
||||||
|
isInaccessible? := x.snd.map (λ _ => false)
|
||||||
|
})).toArray
|
||||||
|
}
|
||||||
|
|
||||||
|
def construct_sigma: TestM Unit := do
|
||||||
|
let goal? ← start_goal "∀ (n m: Nat), n + m = m + n"
|
||||||
|
add_test $ LSpec.check "Start goal" goal?.isSome
|
||||||
|
if let .some goal := goal? then
|
||||||
|
return ()
|
||||||
|
|
||||||
|
|
||||||
|
def proof_runner (env: Lean.Environment) (tests: TestM Unit): IO LSpec.TestSeq := do
|
||||||
|
let termElabM := tests.run LSpec.TestSeq.done |>.run {} -- with default options
|
||||||
|
|
||||||
|
let coreContext: Lean.Core.Context := {
|
||||||
|
currNamespace := str_to_name "Aniva",
|
||||||
|
openDecls := [], -- No 'open' directives needed
|
||||||
|
fileName := "<Pantograph>",
|
||||||
|
fileMap := { source := "", positions := #[0], lines := #[1] }
|
||||||
|
}
|
||||||
|
let metaM := termElabM.run' (ctx := {
|
||||||
|
declName? := some "_pantograph",
|
||||||
|
errToSorry := false
|
||||||
|
})
|
||||||
|
let coreM := metaM.run'
|
||||||
|
match ← (coreM.run' coreContext { env := env }).toBaseIO with
|
||||||
|
| .error exception =>
|
||||||
|
return LSpec.test "Exception" (s!"internal exception #{← exception.toMessageData.toString}" = "")
|
||||||
|
| .ok (_, a) =>
|
||||||
|
return a
|
||||||
|
|
||||||
|
def suite: IO LSpec.TestSeq := do
|
||||||
|
let env: Lean.Environment ← Lean.importModules
|
||||||
|
(imports := #["Init"].map (λ str => { module := str_to_name str, runtimeOnly := false }))
|
||||||
|
(opts := {})
|
||||||
|
(trustLevel := 1)
|
||||||
|
let tests := [
|
||||||
|
("Σ'", construct_sigma)
|
||||||
|
]
|
||||||
|
let tests ← tests.foldlM (fun acc tests => do
|
||||||
|
let (name, tests) := tests
|
||||||
|
let tests ← proof_runner env tests
|
||||||
|
return acc ++ (LSpec.group name tests)) LSpec.TestSeq.done
|
||||||
|
|
||||||
|
return LSpec.group "Holes" tests
|
||||||
|
|
||||||
|
end Pantograph.Test.Holes
|
|
@ -2,7 +2,7 @@
|
||||||
-/
|
-/
|
||||||
import LSpec
|
import LSpec
|
||||||
import Pantograph
|
import Pantograph
|
||||||
namespace Pantograph.Test
|
namespace Pantograph.Test.Integration
|
||||||
open Pantograph
|
open Pantograph
|
||||||
|
|
||||||
def subroutine_named_step (name cmd: String) (payload: List (String × Lean.Json))
|
def subroutine_named_step (name cmd: String) (payload: List (String × Lean.Json))
|
||||||
|
@ -47,26 +47,26 @@ def test_option_modify : IO LSpec.TestSeq :=
|
||||||
let pp? := Option.some "∀ (n : Nat), n + 1 = Nat.succ n"
|
let pp? := Option.some "∀ (n : Nat), n + 1 = Nat.succ n"
|
||||||
let sexp? := Option.some "(:forall n (:c Nat) ((((:c Eq) (:c Nat)) (((((((:c HAdd.hAdd) (:c Nat)) (:c Nat)) (:c Nat)) (((:c instHAdd) (:c Nat)) (:c instAddNat))) 0) ((((:c OfNat.ofNat) (:c Nat)) (:lit 1)) ((:c instOfNatNat) (:lit 1))))) ((:c Nat.succ) 0)))"
|
let sexp? := Option.some "(:forall n (:c Nat) ((((:c Eq) (:c Nat)) (((((((:c HAdd.hAdd) (:c Nat)) (:c Nat)) (:c Nat)) (((:c instHAdd) (:c Nat)) (:c instAddNat))) 0) ((((:c OfNat.ofNat) (:c Nat)) (:lit 1)) ((:c instOfNatNat) (:lit 1))))) ((:c Nat.succ) 0)))"
|
||||||
let module? := Option.some "Init.Data.Nat.Basic"
|
let module? := Option.some "Init.Data.Nat.Basic"
|
||||||
let options: Commands.Options := {}
|
let options: Protocol.Options := {}
|
||||||
subroutine_runner [
|
subroutine_runner [
|
||||||
subroutine_step "lib.inspect"
|
subroutine_step "lib.inspect"
|
||||||
[("name", .str "Nat.add_one")]
|
[("name", .str "Nat.add_one")]
|
||||||
(Lean.toJson ({
|
(Lean.toJson ({
|
||||||
type := { pp? }, module? }:
|
type := { pp? }, module? }:
|
||||||
Commands.LibInspectResult)),
|
Protocol.LibInspectResult)),
|
||||||
subroutine_step "options.set"
|
subroutine_step "options.set"
|
||||||
[("printExprAST", .bool true)]
|
[("printExprAST", .bool true)]
|
||||||
(Lean.toJson ({ }:
|
(Lean.toJson ({ }:
|
||||||
Commands.OptionsSetResult)),
|
Protocol.OptionsSetResult)),
|
||||||
subroutine_step "lib.inspect"
|
subroutine_step "lib.inspect"
|
||||||
[("name", .str "Nat.add_one")]
|
[("name", .str "Nat.add_one")]
|
||||||
(Lean.toJson ({
|
(Lean.toJson ({
|
||||||
type := { pp?, sexp? }, module? }:
|
type := { pp?, sexp? }, module? }:
|
||||||
Commands.LibInspectResult)),
|
Protocol.LibInspectResult)),
|
||||||
subroutine_step "options.print"
|
subroutine_step "options.print"
|
||||||
[]
|
[]
|
||||||
(Lean.toJson ({ options with printExprAST := true }:
|
(Lean.toJson ({ options with printExprAST := true }:
|
||||||
Commands.OptionsPrintResult))
|
Protocol.OptionsPrintResult))
|
||||||
]
|
]
|
||||||
def test_malformed_command : IO LSpec.TestSeq :=
|
def test_malformed_command : IO LSpec.TestSeq :=
|
||||||
let invalid := "invalid"
|
let invalid := "invalid"
|
||||||
|
@ -75,19 +75,38 @@ def test_malformed_command : IO LSpec.TestSeq :=
|
||||||
[("name", .str "Nat.add_one")]
|
[("name", .str "Nat.add_one")]
|
||||||
(Lean.toJson ({
|
(Lean.toJson ({
|
||||||
error := "command", desc := s!"Unknown command {invalid}"}:
|
error := "command", desc := s!"Unknown command {invalid}"}:
|
||||||
Commands.InteractionError)),
|
Protocol.InteractionError)),
|
||||||
subroutine_named_step "JSON Deserialization" "expr.echo"
|
subroutine_named_step "JSON Deserialization" "expr.echo"
|
||||||
[(invalid, .str "Random garbage data")]
|
[(invalid, .str "Random garbage data")]
|
||||||
(Lean.toJson ({
|
(Lean.toJson ({
|
||||||
error := "command", desc := s!"Unable to parse json: Pantograph.Commands.ExprEcho.expr: String expected"}:
|
error := "command", desc := s!"Unable to parse json: Pantograph.Protocol.ExprEcho.expr: String expected"}:
|
||||||
Commands.InteractionError))
|
Protocol.InteractionError))
|
||||||
|
]
|
||||||
|
def test_tactic : IO LSpec.TestSeq :=
|
||||||
|
let goal: Protocol.Goal := {
|
||||||
|
target := { pp? := .some "∀ (q : Prop), x ∨ q → q ∨ x" },
|
||||||
|
vars := #[{ name := "_uniq 9", userName := "x", isInaccessible? := .some false, type? := .some { pp? := .some "Prop" }}],
|
||||||
|
}
|
||||||
|
subroutine_runner [
|
||||||
|
subroutine_step "goal.start"
|
||||||
|
[("expr", .str "∀ (p q: Prop), p ∨ q → q ∨ p")]
|
||||||
|
(Lean.toJson ({stateId := 0}:
|
||||||
|
Protocol.GoalStartResult)),
|
||||||
|
subroutine_step "goal.tactic"
|
||||||
|
[("stateId", .num 0), ("goalId", .num 0), ("tactic", .str "intro x")]
|
||||||
|
(Lean.toJson ({
|
||||||
|
nextStateId? := .some 1,
|
||||||
|
goals? := #[goal],
|
||||||
|
}:
|
||||||
|
Protocol.GoalTacticResult))
|
||||||
]
|
]
|
||||||
|
|
||||||
def test_integration: IO LSpec.TestSeq := do
|
def suite: IO LSpec.TestSeq := do
|
||||||
|
|
||||||
return LSpec.group "Integration" $
|
return LSpec.group "Integration" $
|
||||||
(LSpec.group "Option modify" (← test_option_modify)) ++
|
(LSpec.group "Option modify" (← test_option_modify)) ++
|
||||||
(LSpec.group "Malformed command" (← test_malformed_command))
|
(LSpec.group "Malformed command" (← test_malformed_command)) ++
|
||||||
|
(LSpec.group "Tactic" (← test_tactic))
|
||||||
|
|
||||||
|
|
||||||
end Pantograph.Test
|
end Pantograph.Test.Integration
|
||||||
|
|
|
@ -1,4 +1,5 @@
|
||||||
import LSpec
|
import LSpec
|
||||||
|
--import Test.Holes
|
||||||
import Test.Integration
|
import Test.Integration
|
||||||
import Test.Proofs
|
import Test.Proofs
|
||||||
import Test.Serial
|
import Test.Serial
|
||||||
|
@ -10,9 +11,10 @@ unsafe def main := do
|
||||||
Lean.initSearchPath (← Lean.findSysroot)
|
Lean.initSearchPath (← Lean.findSysroot)
|
||||||
|
|
||||||
let suites := [
|
let suites := [
|
||||||
test_integration,
|
--Holes.suite,
|
||||||
test_proofs,
|
Integration.suite,
|
||||||
test_serial
|
Proofs.suite,
|
||||||
|
Serial.suite
|
||||||
]
|
]
|
||||||
let all ← suites.foldlM (λ acc m => do pure $ acc ++ (← m)) LSpec.TestSeq.done
|
let all ← suites.foldlM (λ acc m => do pure $ acc ++ (← m)) LSpec.TestSeq.done
|
||||||
LSpec.lspecIO $ all
|
LSpec.lspecIO $ all
|
||||||
|
|
450
Test/Proofs.lean
450
Test/Proofs.lean
|
@ -1,8 +1,23 @@
|
||||||
|
/-
|
||||||
|
Tests pertaining to goals with no interdependencies
|
||||||
|
-/
|
||||||
import LSpec
|
import LSpec
|
||||||
import Pantograph.Tactic
|
import Pantograph.Goal
|
||||||
import Pantograph.Serial
|
import Pantograph.Serial
|
||||||
|
import Test.Common
|
||||||
|
|
||||||
namespace Pantograph.Test
|
namespace Pantograph
|
||||||
|
|
||||||
|
def TacticResult.toString : TacticResult → String
|
||||||
|
| .success state => s!".success ({state.goals.length} goals)"
|
||||||
|
| .failure messages =>
|
||||||
|
let messages := "\n".intercalate messages.toList
|
||||||
|
s!".failure {messages}"
|
||||||
|
| .parseError error => s!".parseError {error}"
|
||||||
|
| .indexError index => s!".indexError {index}"
|
||||||
|
end Pantograph
|
||||||
|
|
||||||
|
namespace Pantograph.Test.Proofs
|
||||||
open Pantograph
|
open Pantograph
|
||||||
open Lean
|
open Lean
|
||||||
|
|
||||||
|
@ -10,21 +25,21 @@ inductive Start where
|
||||||
| copy (name: String) -- Start from some name in the environment
|
| copy (name: String) -- Start from some name in the environment
|
||||||
| expr (expr: String) -- Start from some expression
|
| expr (expr: String) -- Start from some expression
|
||||||
|
|
||||||
abbrev TestM := StateRefT LSpec.TestSeq (ReaderT Commands.Options M)
|
abbrev TestM := StateRefT LSpec.TestSeq (ReaderT Protocol.Options M)
|
||||||
|
|
||||||
deriving instance DecidableEq, Repr for Commands.Expression
|
deriving instance DecidableEq, Repr for Protocol.Expression
|
||||||
deriving instance DecidableEq, Repr for Commands.Variable
|
deriving instance DecidableEq, Repr for Protocol.Variable
|
||||||
deriving instance DecidableEq, Repr for Commands.Goal
|
deriving instance DecidableEq, Repr for Protocol.Goal
|
||||||
|
|
||||||
def add_test (test: LSpec.TestSeq): TestM Unit := do
|
def addTest (test: LSpec.TestSeq): TestM Unit := do
|
||||||
set $ (← get) ++ test
|
set $ (← get) ++ test
|
||||||
|
|
||||||
def start_proof (start: Start): TestM (Option GoalState) := do
|
def startProof (start: Start): TestM (Option GoalState) := do
|
||||||
let env ← Lean.MonadEnv.getEnv
|
let env ← Lean.MonadEnv.getEnv
|
||||||
match start with
|
match start with
|
||||||
| .copy name =>
|
| .copy name =>
|
||||||
let cInfo? := str_to_name name |> env.find?
|
let cInfo? := str_to_name name |> env.find?
|
||||||
add_test $ LSpec.check s!"Symbol exists {name}" cInfo?.isSome
|
addTest $ LSpec.check s!"Symbol exists {name}" cInfo?.isSome
|
||||||
match cInfo? with
|
match cInfo? with
|
||||||
| .some cInfo =>
|
| .some cInfo =>
|
||||||
let goal ← GoalState.create (expr := cInfo.type)
|
let goal ← GoalState.create (expr := cInfo.type)
|
||||||
|
@ -33,14 +48,14 @@ def start_proof (start: Start): TestM (Option GoalState) := do
|
||||||
return Option.none
|
return Option.none
|
||||||
| .expr expr =>
|
| .expr expr =>
|
||||||
let syn? := syntax_from_str env expr
|
let syn? := syntax_from_str env expr
|
||||||
add_test $ LSpec.check s!"Parsing {expr}" (syn?.isOk)
|
addTest $ LSpec.check s!"Parsing {expr}" (syn?.isOk)
|
||||||
match syn? with
|
match syn? with
|
||||||
| .error error =>
|
| .error error =>
|
||||||
IO.println error
|
IO.println error
|
||||||
return Option.none
|
return Option.none
|
||||||
| .ok syn =>
|
| .ok syn =>
|
||||||
let expr? ← syntax_to_expr syn
|
let expr? ← syntax_to_expr_type syn
|
||||||
add_test $ LSpec.check s!"Elaborating" expr?.isOk
|
addTest $ LSpec.check s!"Elaborating" expr?.isOk
|
||||||
match expr? with
|
match expr? with
|
||||||
| .error error =>
|
| .error error =>
|
||||||
IO.println error
|
IO.println error
|
||||||
|
@ -49,72 +64,146 @@ def start_proof (start: Start): TestM (Option GoalState) := do
|
||||||
let goal ← GoalState.create (expr := expr)
|
let goal ← GoalState.create (expr := expr)
|
||||||
return Option.some goal
|
return Option.some goal
|
||||||
|
|
||||||
def assert_unreachable (message: String): LSpec.TestSeq := LSpec.check message false
|
def assertUnreachable (message: String): LSpec.TestSeq := LSpec.check message false
|
||||||
|
|
||||||
def build_goal (nameType: List (String × String)) (target: String): Commands.Goal :=
|
def buildGoal (nameType: List (String × String)) (target: String) (caseName?: Option String := .none): Protocol.Goal :=
|
||||||
{
|
{
|
||||||
|
caseName?,
|
||||||
target := { pp? := .some target},
|
target := { pp? := .some target},
|
||||||
vars := (nameType.map fun x => ({
|
vars := (nameType.map fun x => ({
|
||||||
name := x.fst,
|
userName := x.fst,
|
||||||
type? := .some { pp? := .some x.snd },
|
type? := .some { pp? := .some x.snd },
|
||||||
isInaccessible? := .some false
|
isInaccessible? := .some false
|
||||||
})).toArray
|
})).toArray
|
||||||
}
|
}
|
||||||
-- Like `build_goal` but allow certain variables to be elided.
|
def proofRunner (env: Lean.Environment) (tests: TestM Unit): IO LSpec.TestSeq := do
|
||||||
def build_goal_selective (nameType: List (String × Option String)) (target: String): Commands.Goal :=
|
let termElabM := tests.run LSpec.TestSeq.done |>.run {} -- with default options
|
||||||
{
|
|
||||||
target := { pp? := .some target},
|
|
||||||
vars := (nameType.map fun x => ({
|
|
||||||
name := x.fst,
|
|
||||||
type? := x.snd.map (λ type => { pp? := type }),
|
|
||||||
isInaccessible? := x.snd.map (λ _ => false)
|
|
||||||
})).toArray
|
|
||||||
}
|
|
||||||
|
|
||||||
|
let coreContext: Lean.Core.Context := {
|
||||||
|
currNamespace := Name.append .anonymous "Aniva",
|
||||||
|
openDecls := [], -- No 'open' directives needed
|
||||||
|
fileName := "<Pantograph>",
|
||||||
|
fileMap := { source := "", positions := #[0], lines := #[1] }
|
||||||
|
}
|
||||||
|
let metaM := termElabM.run' (ctx := {
|
||||||
|
declName? := some "_pantograph",
|
||||||
|
errToSorry := false
|
||||||
|
})
|
||||||
|
let coreM := metaM.run'
|
||||||
|
match ← (coreM.run' coreContext { env := env }).toBaseIO with
|
||||||
|
| .error exception =>
|
||||||
|
return LSpec.test "Exception" (s!"internal exception #{← exception.toMessageData.toString}" = "")
|
||||||
|
| .ok (_, a) =>
|
||||||
|
return a
|
||||||
|
|
||||||
-- Individual test cases
|
-- Individual test cases
|
||||||
example: ∀ (a b: Nat), a + b = b + a := by
|
example: ∀ (a b: Nat), a + b = b + a := by
|
||||||
intro n m
|
intro n m
|
||||||
rw [Nat.add_comm]
|
rw [Nat.add_comm]
|
||||||
def proof_nat_add_comm: TestM Unit := do
|
def proof_nat_add_comm (manual: Bool): TestM Unit := do
|
||||||
let goal? ← start_proof (.copy "Nat.add_comm")
|
let state? ← startProof <| match manual with
|
||||||
add_test $ LSpec.check "Start goal" goal?.isSome
|
| false => .copy "Nat.add_comm"
|
||||||
if let .some goal := goal? then
|
| true => .expr "∀ (a b: Nat), a + b = b + a"
|
||||||
if let .success #[(goal, sGoal)] ← goal.execute "intro n m" then
|
addTest $ LSpec.check "Start goal" state?.isSome
|
||||||
let sGoal1e: Commands.Goal := build_goal [("n", "Nat"), ("m", "Nat")] "n + m = m + n"
|
let state0 ← match state? with
|
||||||
add_test $ LSpec.check "intro n m" (sGoal = sGoal1e)
|
| .some state => pure state
|
||||||
|
| .none => do
|
||||||
if let .failure #[message] ← goal.execute "assumption" then
|
addTest $ assertUnreachable "Goal could not parse"
|
||||||
add_test $ LSpec.check "assumption" (message = "tactic 'assumption' failed\nn m : Nat\n⊢ n + m = m + n")
|
|
||||||
else
|
|
||||||
add_test $ assert_unreachable "assumption"
|
|
||||||
|
|
||||||
if let .success #[] ← goal.execute "rw [Nat.add_comm]" then
|
|
||||||
return ()
|
return ()
|
||||||
else
|
|
||||||
add_test $ assert_unreachable "rw [Nat.add_comm]"
|
|
||||||
else
|
|
||||||
add_test $ assert_unreachable "intro n m"
|
|
||||||
def proof_nat_add_comm_manual: TestM Unit := do
|
|
||||||
let goal? ← start_proof (.expr "∀ (a b: Nat), a + b = b + a")
|
|
||||||
add_test $ LSpec.check "Start goal" goal?.isSome
|
|
||||||
if let .some goal := goal? then
|
|
||||||
if let .success #[(goal, sGoal)] ← goal.execute "intro n m" then
|
|
||||||
let sGoal1e: Commands.Goal := build_goal [("n", "Nat"), ("m", "Nat")] "n + m = m + n"
|
|
||||||
add_test $ LSpec.check "intro n m" (sGoal = sGoal1e)
|
|
||||||
|
|
||||||
if let .failure #[message] ← goal.execute "assumption" then
|
let state1 ← match ← state0.execute (goalId := 0) (tactic := "intro n m") with
|
||||||
add_test $ LSpec.check "assumption" (message = "tactic 'assumption' failed\nn m : Nat\n⊢ n + m = m + n")
|
| .success state => pure state
|
||||||
else
|
| other => do
|
||||||
add_test $ assert_unreachable "assumption"
|
addTest $ assertUnreachable $ other.toString
|
||||||
|
|
||||||
if let .success #[] ← goal.execute "rw [Nat.add_comm]" then
|
|
||||||
return ()
|
return ()
|
||||||
else
|
addTest $ LSpec.check "intro n m" ((← state1.serializeGoals (options := ← read)).map (·.devolatilize) =
|
||||||
add_test $ assert_unreachable "rw [Nat.add_comm]"
|
#[buildGoal [("n", "Nat"), ("m", "Nat")] "n + m = m + n"])
|
||||||
else
|
|
||||||
add_test $ assert_unreachable "intro n m"
|
|
||||||
|
|
||||||
|
match ← state1.execute (goalId := 0) (tactic := "assumption") with
|
||||||
|
| .failure #[message] =>
|
||||||
|
addTest $ LSpec.check "assumption" (message = "tactic 'assumption' failed\nn m : Nat\n⊢ n + m = m + n")
|
||||||
|
| other => do
|
||||||
|
addTest $ assertUnreachable $ other.toString
|
||||||
|
|
||||||
|
let state2 ← match ← state1.execute (goalId := 0) (tactic := "rw [Nat.add_comm]") with
|
||||||
|
| .success state => pure state
|
||||||
|
| other => do
|
||||||
|
addTest $ assertUnreachable $ other.toString
|
||||||
|
return ()
|
||||||
|
addTest $ LSpec.test "rw [Nat.add_comm]" state2.goals.isEmpty
|
||||||
|
|
||||||
|
return ()
|
||||||
|
def proof_delta_variable: TestM Unit := do
|
||||||
|
let options: Protocol.Options := { noRepeat := true }
|
||||||
|
let state? ← startProof <| .expr "∀ (a b: Nat), a + b = b + a"
|
||||||
|
addTest $ LSpec.check "Start goal" state?.isSome
|
||||||
|
let state0 ← match state? with
|
||||||
|
| .some state => pure state
|
||||||
|
| .none => do
|
||||||
|
addTest $ assertUnreachable "Goal could not parse"
|
||||||
|
return ()
|
||||||
|
|
||||||
|
let state1 ← match ← state0.execute (goalId := 0) (tactic := "intro n") with
|
||||||
|
| .success state => pure state
|
||||||
|
| other => do
|
||||||
|
addTest $ assertUnreachable $ other.toString
|
||||||
|
return ()
|
||||||
|
addTest $ LSpec.check "intro n" ((← state1.serializeGoals (parent := state0) options).map (·.devolatilize) =
|
||||||
|
#[buildGoalSelective [("n", .some "Nat")] "∀ (b : Nat), n + b = b + n"])
|
||||||
|
let state2 ← match ← state1.execute (goalId := 0) (tactic := "intro m") with
|
||||||
|
| .success state => pure state
|
||||||
|
| other => do
|
||||||
|
addTest $ assertUnreachable $ other.toString
|
||||||
|
return ()
|
||||||
|
addTest $ LSpec.check "intro m" ((← state2.serializeGoals (parent := state1) options).map (·.devolatilize) =
|
||||||
|
#[buildGoalSelective [("n", .none), ("m", .some "Nat")] "n + m = m + n"])
|
||||||
|
return ()
|
||||||
|
where
|
||||||
|
-- Like `buildGoal` but allow certain variables to be elided.
|
||||||
|
buildGoalSelective (nameType: List (String × Option String)) (target: String): Protocol.Goal :=
|
||||||
|
{
|
||||||
|
target := { pp? := .some target},
|
||||||
|
vars := (nameType.map fun x => ({
|
||||||
|
userName := x.fst,
|
||||||
|
type? := x.snd.map (λ type => { pp? := type }),
|
||||||
|
isInaccessible? := x.snd.map (λ _ => false)
|
||||||
|
})).toArray
|
||||||
|
}
|
||||||
|
|
||||||
|
example (w x y z : Nat) (p : Nat → Prop)
|
||||||
|
(h : p (x * y + z * w * x)) : p (x * w * z + y * x) := by
|
||||||
|
simp [Nat.add_assoc, Nat.add_comm, Nat.add_left_comm, Nat.mul_comm, Nat.mul_assoc, Nat.mul_left_comm] at *
|
||||||
|
assumption
|
||||||
|
def proof_arith: TestM Unit := do
|
||||||
|
let state? ← startProof (.expr "∀ (w x y z : Nat) (p : Nat → Prop) (h : p (x * y + z * w * x)), p (x * w * z + y * x)")
|
||||||
|
let state0 ← match state? with
|
||||||
|
| .some state => pure state
|
||||||
|
| .none => do
|
||||||
|
addTest $ assertUnreachable "Goal could not parse"
|
||||||
|
return ()
|
||||||
|
|
||||||
|
let state1 ← match ← state0.execute (goalId := 0) (tactic := "intros") with
|
||||||
|
| .success state => pure state
|
||||||
|
| other => do
|
||||||
|
addTest $ assertUnreachable $ other.toString
|
||||||
|
return ()
|
||||||
|
addTest $ LSpec.check "intros" (state1.goals.length = 1)
|
||||||
|
addTest $ LSpec.test "(1 root)" state1.rootExpr?.isNone
|
||||||
|
let state2 ← match ← state1.execute (goalId := 0) (tactic := "simp [Nat.add_assoc, Nat.add_comm, Nat.add_left_comm, Nat.mul_comm, Nat.mul_assoc, Nat.mul_left_comm] at *") with
|
||||||
|
| .success state => pure state
|
||||||
|
| other => do
|
||||||
|
addTest $ assertUnreachable $ other.toString
|
||||||
|
return ()
|
||||||
|
addTest $ LSpec.check "simp ..." (state2.goals.length = 1)
|
||||||
|
addTest $ LSpec.check "(2 root)" state2.rootExpr?.isNone
|
||||||
|
let state3 ← match ← state2.execute (goalId := 0) (tactic := "assumption") with
|
||||||
|
| .success state => pure state
|
||||||
|
| other => do
|
||||||
|
addTest $ assertUnreachable $ other.toString
|
||||||
|
return ()
|
||||||
|
addTest $ LSpec.test "assumption" state3.goals.isEmpty
|
||||||
|
addTest $ LSpec.check "(3 root)" state3.rootExpr?.isSome
|
||||||
|
return ()
|
||||||
|
|
||||||
-- Two ways to write the same theorem
|
-- Two ways to write the same theorem
|
||||||
example: ∀ (p q: Prop), p ∨ q → q ∨ p := by
|
example: ∀ (p q: Prop), p ∨ q → q ∨ p := by
|
||||||
|
@ -132,121 +221,180 @@ example: ∀ (p q: Prop), p ∨ q → q ∨ p := by
|
||||||
. apply Or.inl
|
. apply Or.inl
|
||||||
assumption
|
assumption
|
||||||
def proof_or_comm: TestM Unit := do
|
def proof_or_comm: TestM Unit := do
|
||||||
let typeProp: Commands.Expression := { pp? := .some "Prop" }
|
let state? ← startProof (.expr "∀ (p q: Prop), p ∨ q → q ∨ p")
|
||||||
let branchGoal (caseName name: String): Commands.Goal := {
|
let state0 ← match state? with
|
||||||
|
| .some state => pure state
|
||||||
|
| .none => do
|
||||||
|
addTest $ assertUnreachable "Goal could not parse"
|
||||||
|
return ()
|
||||||
|
|
||||||
|
let state1 ← match ← state0.execute (goalId := 0) (tactic := "intro p q h") with
|
||||||
|
| .success state => pure state
|
||||||
|
| other => do
|
||||||
|
addTest $ assertUnreachable $ other.toString
|
||||||
|
return ()
|
||||||
|
addTest $ LSpec.check "intro n m" ((← state1.serializeGoals (options := ← read)).map (·.devolatilize) =
|
||||||
|
#[buildGoal [("p", "Prop"), ("q", "Prop"), ("h", "p ∨ q")] "q ∨ p"])
|
||||||
|
let state2 ← match ← state1.execute (goalId := 0) (tactic := "cases h") with
|
||||||
|
| .success state => pure state
|
||||||
|
| other => do
|
||||||
|
addTest $ assertUnreachable $ other.toString
|
||||||
|
return ()
|
||||||
|
addTest $ LSpec.check "cases h" ((← state2.serializeGoals (options := ← read)).map (·.devolatilize) =
|
||||||
|
#[branchGoal "inl" "p", branchGoal "inr" "q"])
|
||||||
|
|
||||||
|
let state3_1 ← match ← state2.execute (goalId := 0) (tactic := "apply Or.inr") with
|
||||||
|
| .success state => pure state
|
||||||
|
| other => do
|
||||||
|
addTest $ assertUnreachable $ other.toString
|
||||||
|
return ()
|
||||||
|
addTest $ LSpec.check "· apply Or.inr" (state3_1.goals.length = 1)
|
||||||
|
let state4_1 ← match ← state3_1.execute (goalId := 0) (tactic := "assumption") with
|
||||||
|
| .success state => pure state
|
||||||
|
| other => do
|
||||||
|
addTest $ assertUnreachable $ other.toString
|
||||||
|
return ()
|
||||||
|
addTest $ LSpec.check " assumption" state4_1.goals.isEmpty
|
||||||
|
addTest $ LSpec.check "(4_1 root)" state4_1.rootExpr?.isNone
|
||||||
|
let state3_2 ← match ← state2.execute (goalId := 1) (tactic := "apply Or.inl") with
|
||||||
|
| .success state => pure state
|
||||||
|
| other => do
|
||||||
|
addTest $ assertUnreachable $ other.toString
|
||||||
|
return ()
|
||||||
|
addTest $ LSpec.check "· apply Or.inl" (state3_2.goals.length = 1)
|
||||||
|
let state4_2 ← match ← state3_2.execute (goalId := 0) (tactic := "assumption") with
|
||||||
|
| .success state => pure state
|
||||||
|
| other => do
|
||||||
|
addTest $ assertUnreachable $ other.toString
|
||||||
|
return ()
|
||||||
|
addTest $ LSpec.check " assumption" state4_2.goals.isEmpty
|
||||||
|
addTest $ LSpec.check "(4_2 root)" state4_2.rootExpr?.isNone
|
||||||
|
-- Ensure the proof can continue from `state4_2`.
|
||||||
|
let state2b ← match state2.continue state4_2 with
|
||||||
|
| .error msg => do
|
||||||
|
addTest $ assertUnreachable $ msg
|
||||||
|
return ()
|
||||||
|
| .ok state => pure state
|
||||||
|
addTest $ LSpec.test "(resume)" (state2b.goals == [state2.goals.get! 0])
|
||||||
|
let state3_1 ← match ← state2b.execute (goalId := 0) (tactic := "apply Or.inr") with
|
||||||
|
| .success state => pure state
|
||||||
|
| other => do
|
||||||
|
addTest $ assertUnreachable $ other.toString
|
||||||
|
return ()
|
||||||
|
addTest $ LSpec.check "· apply Or.inr" (state3_1.goals.length = 1)
|
||||||
|
let state4_1 ← match ← state3_1.execute (goalId := 0) (tactic := "assumption") with
|
||||||
|
| .success state => pure state
|
||||||
|
| other => do
|
||||||
|
addTest $ assertUnreachable $ other.toString
|
||||||
|
return ()
|
||||||
|
addTest $ LSpec.check " assumption" state4_1.goals.isEmpty
|
||||||
|
addTest $ LSpec.check "(4_1 root)" state4_1.rootExpr?.isSome
|
||||||
|
|
||||||
|
return ()
|
||||||
|
where
|
||||||
|
typeProp: Protocol.Expression := { pp? := .some "Prop" }
|
||||||
|
branchGoal (caseName name: String): Protocol.Goal := {
|
||||||
caseName? := .some caseName,
|
caseName? := .some caseName,
|
||||||
target := { pp? := .some "q ∨ p" },
|
target := { pp? := .some "q ∨ p" },
|
||||||
vars := #[
|
vars := #[
|
||||||
{ name := "p", type? := .some typeProp, isInaccessible? := .some false },
|
{ userName := "p", type? := .some typeProp, isInaccessible? := .some false },
|
||||||
{ name := "q", type? := .some typeProp, isInaccessible? := .some false },
|
{ userName := "q", type? := .some typeProp, isInaccessible? := .some false },
|
||||||
{ name := "h✝", type? := .some { pp? := .some name }, isInaccessible? := .some true }
|
{ userName := "h✝", type? := .some { pp? := .some name }, isInaccessible? := .some true }
|
||||||
]
|
]
|
||||||
}
|
}
|
||||||
let goal? ← start_proof (.expr "∀ (p q: Prop), p ∨ q → q ∨ p")
|
|
||||||
add_test $ LSpec.check "Start goal" goal?.isSome
|
|
||||||
if let .some goal := goal? then
|
|
||||||
if let .success #[(goal, sGoal)] ← goal.execute "intro p q h" then
|
|
||||||
let sGoal1e := build_goal [("p", "Prop"), ("q", "Prop"), ("h", "p ∨ q")] "q ∨ p"
|
|
||||||
add_test $ LSpec.check "intro p q h" (sGoal = sGoal1e)
|
|
||||||
|
|
||||||
if let .success #[(goal1, sGoal1), (goal2, sGoal2)] ← goal.execute "cases h" then
|
/-- M-coupled goals -/
|
||||||
add_test $ LSpec.check "cases h/1" (sGoal1 = branchGoal "inl" "p")
|
def proof_m_couple: TestM Unit := do
|
||||||
if let .success #[(goal, _)] ← goal1.execute "apply Or.inr" then
|
let state? ← startProof (.expr "(2: Nat) ≤ 5")
|
||||||
if let .success #[] ← goal.execute "assumption" then
|
let state0 ← match state? with
|
||||||
|
| .some state => pure state
|
||||||
|
| .none => do
|
||||||
|
addTest $ assertUnreachable "Goal could not parse"
|
||||||
return ()
|
return ()
|
||||||
else
|
|
||||||
add_test $ assert_unreachable "assumption"
|
|
||||||
else
|
|
||||||
add_test $ assert_unreachable "apply Or.inr"
|
|
||||||
|
|
||||||
|
let state1 ← match ← state0.execute (goalId := 0) (tactic := "apply Nat.le_trans") with
|
||||||
add_test $ LSpec.check "cases h/2" (sGoal2 = branchGoal "inr" "q")
|
| .success state => pure state
|
||||||
if let .success #[(goal, _)] ← goal2.execute "apply Or.inl" then
|
| other => do
|
||||||
if let .success #[] ← goal.execute "assumption" then
|
addTest $ assertUnreachable $ other.toString
|
||||||
return ()
|
return ()
|
||||||
else
|
addTest $ LSpec.check "apply Nat.le_trans" ((← state1.serializeGoals (options := ← read)).map (·.target.pp?) =
|
||||||
add_test $ assert_unreachable "assumption"
|
#[.some "2 ≤ ?m", .some "?m ≤ 5", .some "Nat"])
|
||||||
else
|
addTest $ LSpec.test "(1 root)" state1.rootExpr?.isNone
|
||||||
add_test $ assert_unreachable "apply Or.inl"
|
-- Set m to 3
|
||||||
|
let state2 ← match ← state1.execute (goalId := 2) (tactic := "exact 3") with
|
||||||
else
|
| .success state => pure state
|
||||||
add_test $ assert_unreachable "cases h"
|
| other => do
|
||||||
else
|
addTest $ assertUnreachable $ other.toString
|
||||||
add_test $ assert_unreachable "intro p q h"
|
return ()
|
||||||
|
addTest $ LSpec.test "(1b root)" state2.rootExpr?.isNone
|
||||||
example (w x y z : Nat) (p : Nat → Prop)
|
let state1b ← match state1.continue state2 with
|
||||||
(h : p (x * y + z * w * x)) : p (x * w * z + y * x) := by
|
| .error msg => do
|
||||||
simp [Nat.add_assoc, Nat.add_comm, Nat.add_left_comm, Nat.mul_comm, Nat.mul_assoc, Nat.mul_left_comm] at *
|
addTest $ assertUnreachable $ msg
|
||||||
assumption
|
return ()
|
||||||
def proof_arith_1: TestM Unit := do
|
| .ok state => pure state
|
||||||
let goal? ← start_proof (.expr "∀ (w x y z : Nat) (p : Nat → Prop) (h : p (x * y + z * w * x)), p (x * w * z + y * x)")
|
addTest $ LSpec.check "exact 3" ((← state1b.serializeGoals (options := ← read)).map (·.target.pp?) =
|
||||||
add_test $ LSpec.check "Start goal" goal?.isSome
|
#[.some "2 ≤ 3", .some "3 ≤ 5"])
|
||||||
if let .some goal := goal? then
|
addTest $ LSpec.test "(2 root)" state1b.rootExpr?.isNone
|
||||||
if let .success #[(goal, _)] ← goal.execute "intros" then
|
|
||||||
if let .success #[(goal, _)] ← goal.execute "simp [Nat.add_assoc, Nat.add_comm, Nat.add_left_comm, Nat.mul_comm, Nat.mul_assoc, Nat.mul_left_comm] at *" then
|
|
||||||
if let .success #[] ← goal.execute "assumption" then
|
|
||||||
return ()
|
return ()
|
||||||
else
|
|
||||||
add_test $ assert_unreachable "assumption"
|
|
||||||
else
|
|
||||||
add_test $ assert_unreachable "simp ..."
|
|
||||||
else
|
|
||||||
add_test $ assert_unreachable "intros"
|
|
||||||
|
|
||||||
def proof_delta_variable: TestM Unit := withReader (fun _ => {proofVariableDelta := true}) do
|
def proof_proposition_generation: TestM Unit := do
|
||||||
let goal? ← start_proof (.expr "∀ (a b: Nat), a + b = b + a")
|
let state? ← startProof (.expr "Σ' p:Prop, p")
|
||||||
add_test $ LSpec.check "Start goal" goal?.isSome
|
let state0 ← match state? with
|
||||||
if let .some goal := goal? then
|
| .some state => pure state
|
||||||
if let .success #[(goal, sGoal)] ← goal.execute "intro n" then
|
| .none => do
|
||||||
let sGoal1e: Commands.Goal := build_goal_selective [("n", .some "Nat")] "∀ (b : Nat), n + b = b + n"
|
addTest $ assertUnreachable "Goal could not parse"
|
||||||
add_test $ LSpec.check "intro n" (sGoal = sGoal1e)
|
return ()
|
||||||
|
|
||||||
if let .success #[(_, sGoal)] ← goal.execute "intro m" then
|
let state1 ← match ← state0.execute (goalId := 0) (tactic := "apply PSigma.mk") with
|
||||||
let sGoal2e: Commands.Goal := build_goal_selective [("n", .none), ("m", .some "Nat")] "n + m = m + n"
|
| .success state => pure state
|
||||||
add_test $ LSpec.check "intro m" (sGoal = sGoal2e)
|
| other => do
|
||||||
else
|
addTest $ assertUnreachable $ other.toString
|
||||||
add_test $ assert_unreachable "intro m"
|
return ()
|
||||||
else
|
addTest $ LSpec.check "apply PSigma.mk" ((← state1.serializeGoals (options := ← read)).map (·.devolatilize) =
|
||||||
add_test $ assert_unreachable "intro n"
|
#[
|
||||||
|
buildGoal [] "?fst" (caseName? := .some "snd"),
|
||||||
|
buildGoal [] "Prop" (caseName? := .some "fst")
|
||||||
|
])
|
||||||
|
addTest $ LSpec.test "(1 root)" state1.rootExpr?.isNone
|
||||||
|
|
||||||
def proof_runner (env: Lean.Environment) (tests: TestM Unit): IO LSpec.TestSeq := do
|
let state2 ← match ← state1.tryAssign (goalId := 0) (expr := "λ (x: Nat) => _") with
|
||||||
let termElabM := tests.run LSpec.TestSeq.done |>.run {} -- with default options
|
| .success state => pure state
|
||||||
|
| other => do
|
||||||
|
addTest $ assertUnreachable $ other.toString
|
||||||
|
return ()
|
||||||
|
addTest $ LSpec.check ":= λ (x: Nat), _" ((← state2.serializeGoals (options := ← read)).map (·.target.pp?) =
|
||||||
|
#[.some "Nat → Prop", .some "∀ (x : Nat), ?m.29 x"])
|
||||||
|
addTest $ LSpec.test "(2 root)" state2.rootExpr?.isNone
|
||||||
|
|
||||||
let coreContext: Lean.Core.Context := {
|
let state3 ← match ← state2.tryAssign (goalId := 1) (expr := "fun x => Eq.refl x") with
|
||||||
currNamespace := str_to_name "Aniva",
|
| .success state => pure state
|
||||||
openDecls := [], -- No 'open' directives needed
|
| other => do
|
||||||
fileName := "<Pantograph>",
|
addTest $ assertUnreachable $ other.toString
|
||||||
fileMap := { source := "", positions := #[0], lines := #[1] }
|
return ()
|
||||||
}
|
addTest $ LSpec.check ":= Eq.refl" ((← state3.serializeGoals (options := ← read)).map (·.target.pp?) =
|
||||||
let metaM := termElabM.run' (ctx := {
|
#[])
|
||||||
declName? := some "_pantograph",
|
addTest $ LSpec.test "(3 root)" state3.rootExpr?.isSome
|
||||||
errToSorry := false
|
return ()
|
||||||
})
|
|
||||||
let coreM := metaM.run'
|
|
||||||
match ← (coreM.run' coreContext { env := env }).toBaseIO with
|
|
||||||
| .error exception =>
|
|
||||||
return LSpec.test "Exception" (s!"internal exception #{← exception.toMessageData.toString}" = "")
|
|
||||||
| .ok (_, a) =>
|
|
||||||
return a
|
|
||||||
|
|
||||||
def test_proofs : IO LSpec.TestSeq := do
|
def suite: IO LSpec.TestSeq := do
|
||||||
let env: Lean.Environment ← Lean.importModules
|
let env: Lean.Environment ← Lean.importModules
|
||||||
(imports := #["Init"].map (λ str => { module := str_to_name str, runtimeOnly := false }))
|
(imports := #[{ module := Name.append .anonymous "Init", runtimeOnly := false}])
|
||||||
(opts := {})
|
(opts := {})
|
||||||
(trustLevel := 1)
|
(trustLevel := 1)
|
||||||
let tests := [
|
let tests := [
|
||||||
("Nat.add_comm", proof_nat_add_comm),
|
("Nat.add_comm", proof_nat_add_comm false),
|
||||||
("nat.add_comm manual", proof_nat_add_comm_manual),
|
("Nat.add_comm manual", proof_nat_add_comm true),
|
||||||
|
("Nat.add_comm delta", proof_delta_variable),
|
||||||
|
("arithmetic", proof_arith),
|
||||||
("Or.comm", proof_or_comm),
|
("Or.comm", proof_or_comm),
|
||||||
("arithmetic 1", proof_arith_1),
|
("2 < 5", proof_m_couple),
|
||||||
("delta variable", proof_delta_variable)
|
("Proposition Generation", proof_proposition_generation)
|
||||||
]
|
]
|
||||||
let tests ← tests.foldlM (fun acc tests => do
|
let tests ← tests.foldlM (fun acc tests => do
|
||||||
let (name, tests) := tests
|
let (name, tests) := tests
|
||||||
let tests ← proof_runner env tests
|
let tests ← proofRunner env tests
|
||||||
return acc ++ (LSpec.group name tests)) LSpec.TestSeq.done
|
return acc ++ (LSpec.group name tests)) LSpec.TestSeq.done
|
||||||
|
|
||||||
return LSpec.group "Proofs" tests
|
return LSpec.group "Proofs" tests
|
||||||
|
|
||||||
end Pantograph.Test
|
end Pantograph.Test.Proofs
|
||||||
|
|
||||||
|
|
|
@ -1,19 +1,19 @@
|
||||||
import LSpec
|
import LSpec
|
||||||
import Pantograph.Serial
|
import Pantograph.Serial
|
||||||
import Pantograph.Symbols
|
import Pantograph.Symbol
|
||||||
|
|
||||||
namespace Pantograph.Test
|
namespace Pantograph.Test.Serial
|
||||||
|
|
||||||
open Pantograph
|
open Pantograph
|
||||||
open Lean
|
open Lean
|
||||||
|
|
||||||
deriving instance Repr, DecidableEq for Commands.BoundExpression
|
deriving instance Repr, DecidableEq for Protocol.BoundExpression
|
||||||
|
|
||||||
def test_str_to_name: LSpec.TestSeq :=
|
def test_str_to_name: LSpec.TestSeq :=
|
||||||
LSpec.test "Symbol parsing" (Name.str (.str (.str .anonymous "Lean") "Meta") "run" = Pantograph.str_to_name "Lean.Meta.run")
|
LSpec.test "Symbol parsing" (Name.str (.str (.str .anonymous "Lean") "Meta") "run" = Pantograph.str_to_name "Lean.Meta.run")
|
||||||
|
|
||||||
def test_expr_to_binder (env: Environment): IO LSpec.TestSeq := do
|
def test_expr_to_binder (env: Environment): IO LSpec.TestSeq := do
|
||||||
let entries: List (String × Commands.BoundExpression) := [
|
let entries: List (String × Protocol.BoundExpression) := [
|
||||||
("Nat.add_comm", { binders := #[("n", "Nat"), ("m", "Nat")], target := "n + m = m + n" }),
|
("Nat.add_comm", { binders := #[("n", "Nat"), ("m", "Nat")], target := "n + m = m + n" }),
|
||||||
("Nat.le_of_succ_le", { binders := #[("n", "Nat"), ("m", "Nat"), ("h", "Nat.succ n ≤ m")], target := "n ≤ m" })
|
("Nat.le_of_succ_le", { binders := #[("n", "Nat"), ("m", "Nat"), ("h", "Nat.succ n ≤ m")], target := "n ≤ m" })
|
||||||
]
|
]
|
||||||
|
@ -47,8 +47,8 @@ def test_sexp_of_symbol (env: Environment): IO LSpec.TestSeq := do
|
||||||
let metaM: MetaM LSpec.TestSeq := entries.foldlM (λ suites (symbol, target) => do
|
let metaM: MetaM LSpec.TestSeq := entries.foldlM (λ suites (symbol, target) => do
|
||||||
let env ← MonadEnv.getEnv
|
let env ← MonadEnv.getEnv
|
||||||
let expr := str_to_name symbol |> env.find? |>.get! |>.type
|
let expr := str_to_name symbol |> env.find? |>.get! |>.type
|
||||||
let test := LSpec.check symbol ((← serialize_expression_ast expr) = target)
|
let test := LSpec.check symbol ((serialize_expression_ast expr) = target)
|
||||||
return LSpec.TestSeq.append suites test) LSpec.TestSeq.done |>.run'
|
return LSpec.TestSeq.append suites test) LSpec.TestSeq.done
|
||||||
let coreM := metaM.run'
|
let coreM := metaM.run'
|
||||||
let coreContext: Core.Context := {
|
let coreContext: Core.Context := {
|
||||||
currNamespace := Lean.Name.str .anonymous "Aniva"
|
currNamespace := Lean.Name.str .anonymous "Aniva"
|
||||||
|
@ -62,15 +62,15 @@ def test_sexp_of_symbol (env: Environment): IO LSpec.TestSeq := do
|
||||||
| .ok a => return a
|
| .ok a => return a
|
||||||
|
|
||||||
|
|
||||||
def test_serial: IO LSpec.TestSeq := do
|
def suite: IO LSpec.TestSeq := do
|
||||||
let env: Environment ← importModules
|
let env: Environment ← importModules
|
||||||
(imports := #["Init"].map (λ str => { module := str_to_name str, runtimeOnly := false }))
|
(imports := #["Init"].map (λ str => { module := str_to_name str, runtimeOnly := false }))
|
||||||
(opts := {})
|
(opts := {})
|
||||||
(trustLevel := 1)
|
(trustLevel := 1)
|
||||||
|
|
||||||
return LSpec.group "Serialisation" $
|
return LSpec.group "Serialization" $
|
||||||
(LSpec.group "str_to_name" test_str_to_name) ++
|
(LSpec.group "str_to_name" test_str_to_name) ++
|
||||||
(LSpec.group "Expression binder" (← test_expr_to_binder env)) ++
|
(LSpec.group "Expression binder" (← test_expr_to_binder env)) ++
|
||||||
(LSpec.group "Sexp from symbol" (← test_sexp_of_symbol env))
|
(LSpec.group "Sexp from symbol" (← test_sexp_of_symbol env))
|
||||||
|
|
||||||
end Pantograph.Test
|
end Pantograph.Test.Serial
|
||||||
|
|
Loading…
Reference in New Issue