Pantograph/Main.lean

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import Lean.Data.Json
import Lean.Environment
import Pantograph.Commands
import Pantograph.Serial
import Pantograph.Meta
import Pantograph.Symbols
namespace Pantograph
structure Context where
/-- Stores state of the REPL -/
structure State where
--environments: Array Lean.Environment := #[]
proofTrees: Array ProofTree := #[]
-- State monad
abbrev Subroutine := ReaderT Context (StateT State Lean.Elab.TermElabM)
open Commands
/-- Parse a command either in `{ "cmd": ..., "payload": ... }` form or `cmd { ... }` form. -/
def parse_command (s: String): Except String Command := do
let s := s.trim
match s.get? 0 with
| .some '{' => -- Parse in Json mode
Lean.fromJson? (← Lean.Json.parse s)
| .some _ => -- Parse in line mode
let offset := s.posOf ' ' |> s.offsetOfPos
if offset = s.length then
return { cmd := s.take offset, payload := Lean.Json.null }
else
let payload ← s.drop offset |> Lean.Json.parse
return { cmd := s.take offset, payload := payload }
| .none => throw "Command is empty"
def execute (command: Command): Subroutine Lean.Json := do
match command.cmd with
| "catalog" =>
match Lean.fromJson? command.payload with
| .ok args => catalog args
| .error x => return errorJson x
| "inspect" =>
match Lean.fromJson? command.payload with
| .ok args => inspect args
| .error x => return errorJson x
| "clear" => clear
| "expr.type" =>
match Lean.fromJson? command.payload with
| .ok args => expr_type args
| .error x => return errorJson x
| "proof.start" =>
match Lean.fromJson? command.payload with
| .ok args => proof_start args
| .error x => return errorJson x
| "proof.tactic" =>
match Lean.fromJson? command.payload with
| .ok args => proof_tactic args
| .error x => return errorJson x
| "proof.printTree" =>
match Lean.fromJson? command.payload with
| .ok args => proof_print_tree args
| .error x => return errorJson x
| cmd =>
let error: InteractionError := { error := "unknown", desc := s!"Unknown command {cmd}" }
return Lean.toJson error
where
errorI (type desc: String) := Lean.toJson ({ error := type, desc := desc }: InteractionError)
errorJson := errorI "json"
errorIndex := errorI "index"
catalog (_: Catalog): Subroutine Lean.Json := do
let env ← Lean.MonadEnv.getEnv
let names := env.constants.fold (init := #[]) (λ acc name info =>
match to_filtered_symbol name info with
| .some x => acc.push x
| .none => acc)
return Lean.toJson <| ({ symbols := names }: CatalogResult)
inspect (args: Inspect): Subroutine Lean.Json := do
let env ← Lean.MonadEnv.getEnv
let name := str_to_name args.name
let info? := env.find? name
match info? with
| none => return errorIndex s!"Symbol not found {args.name}"
| some info =>
let format ← Lean.Meta.ppExpr info.toConstantVal.type
let module? := env.getModuleIdxFor? name >>=
(λ idx => env.allImportedModuleNames.get? idx.toNat) |>.map toString
let boundExpr? ← (match info.toConstantVal.type with
| .forallE _ _ _ _ => return .some (← type_expr_to_bound info.toConstantVal.type)
| _ => return Option.none)
return Lean.toJson ({
type := toString format,
boundExpr? := boundExpr?,
module? := module?
}: InspectResult)
clear : Subroutine Lean.Json := do
let state ← get
let nTrees := state.proofTrees.size
set { state with proofTrees := #[] }
return Lean.toJson ({ nTrees := nTrees }: ClearResult)
expr_type (args: ExprType): Subroutine Lean.Json := do
let env ← Lean.MonadEnv.getEnv
match syntax_from_str env args.expr with
| .error str => return errorI "parsing" str
| .ok syn => do
match (← syntax_to_expr syn) with
| .error str => return errorI "elab" str
| .ok expr => do
try
let format ← Lean.Meta.ppExpr (← Lean.Meta.inferType expr)
return Lean.toJson <| ({ type := toString format }: ExprTypeResult)
catch exception =>
return errorI "typing" (← exception.toMessageData.toString)
proof_start (args: ProofStart): Subroutine Lean.Json := do
let state ← get
let env ← Lean.MonadEnv.getEnv
let expr?: Except Lean.Json Lean.Expr ← (match args.expr, args.copyFrom with
| .some expr, .none =>
(match syntax_from_str env expr with
| .error str => return .error <| errorI "parsing" str
| .ok syn => do
(match (← syntax_to_expr syn) with
| .error str => return .error <| errorI "elab" str
| .ok expr => return .ok expr))
| .none, .some copyFrom =>
(match env.find? <| str_to_name copyFrom with
| .none => return .error <| errorIndex s!"Symbol not found: {copyFrom}"
| .some cInfo => return .ok cInfo.type)
| .none, .none =>
return .error <| errorI "arguments" "At least one of {expr, copyFrom} must be supplied"
| _, _ => return .error <| errorI "arguments" "Cannot populate both of {expr, copyFrom}")
match expr? with
| .error error => return error
| .ok expr =>
let tree ← ProofTree.create (str_to_name <| args.name.getD "Untitled") expr
-- Put the new tree in the environment
let nextTreeId := state.proofTrees.size
set { state with proofTrees := state.proofTrees.push tree }
return Lean.toJson ({ treeId := nextTreeId }: ProofStartResult)
proof_tactic (args: ProofTactic): Subroutine Lean.Json := do
let state ← get
match state.proofTrees.get? args.treeId with
| .none => return errorIndex "Invalid tree index {args.treeId}"
| .some tree =>
let (result, nextTree) ← ProofTree.execute
(stateId := args.stateId)
(goalId := args.goalId.getD 0)
(tactic := args.tactic) |>.run tree
match result with
| .invalid message => return Lean.toJson <| errorIndex message
| .success nextId? goals =>
set { state with proofTrees := state.proofTrees.set! args.treeId nextTree }
return Lean.toJson ({ nextId? := nextId?, goals := goals }: ProofTacticResultSuccess)
| .failure messages =>
return Lean.toJson ({ tacticErrors := messages }: ProofTacticResultFailure)
proof_print_tree (args: ProofPrintTree): Subroutine Lean.Json := do
let state ← get
match state.proofTrees.get? args.treeId with
| .none => return errorIndex "Invalid tree index {args.treeId}"
| .some tree =>
return Lean.toJson ({parents := tree.structure_array}: ProofPrintTreeResult)
end Pantograph
-- Main IO functions
open Pantograph
unsafe def loop : Subroutine Unit := do
let command ← (← IO.getStdin).getLine
if command.trim.length = 0 then return ()
match parse_command command with
| .error error =>
let error := Lean.toJson ({ error := "json", desc := error }: Commands.InteractionError)
IO.println (toString error)
| .ok command =>
let ret ← execute command
IO.println <| toString <| ret
loop
namespace Lean
-- This is better than the default version since it handles `.`
def setOptionFromString' (opts : Options) (entry : String) : IO Options := do
let ps := (entry.splitOn "=").map String.trim
let [key, val] ← pure ps | throw $ IO.userError "invalid configuration option entry, it must be of the form '<key> = <value>'"
let key := str_to_name key
let defValue ← getOptionDefaultValue key
match defValue with
| DataValue.ofString _ => pure $ opts.setString key val
| DataValue.ofBool _ =>
match val with
| "true" => pure $ opts.setBool key true
| "false" => pure $ opts.setBool key false
| _ => throw $ IO.userError s!"invalid Bool option value '{val}'"
| DataValue.ofName _ => pure $ opts.setName key val.toName
| DataValue.ofNat _ =>
match val.toNat? with
| none => throw (IO.userError s!"invalid Nat option value '{val}'")
| some v => pure $ opts.setNat key v
| DataValue.ofInt _ =>
match val.toInt? with
| none => throw (IO.userError s!"invalid Int option value '{val}'")
| some v => pure $ opts.setInt key v
| DataValue.ofSyntax _ => throw (IO.userError s!"invalid Syntax option value")
end Lean
unsafe def main (args: List String): IO Unit := do
Lean.enableInitializersExecution
Lean.initSearchPath (← Lean.findSysroot)
-- Separate imports and options
let options := args.filterMap (λ s => if s.startsWith "--" then .some <| s.drop 2 else .none)
let imports:= args.filter (λ s => ¬ (s.startsWith "--"))
let env ← Lean.importModules
(imports := imports.map (λ str => { module := str_to_name str, runtimeOnly := false }))
(opts := {})
(trustLevel := 1)
let context: Context := {
}
let coreContext: Lean.Core.Context := {
currNamespace := str_to_name "Aniva",
openDecls := [], -- No 'open' directives needed
fileName := "<Pantograph>",
fileMap := { source := "", positions := #[0], lines := #[1] },
options := ← options.foldlM Lean.setOptionFromString' Lean.Options.empty
}
try
let termElabM := loop.run context |>.run' {}
let metaM := termElabM.run' (ctx := {
declName? := some "_pantograph",
errToSorry := false
})
let coreM := metaM.run'
discard <| coreM.toIO coreContext { env := env }
catch ex =>
IO.println "Uncaught IO exception"
IO.println ex.toString