path: root/lib/pure/asyncmacro.nim

#
#
#            Nim's Runtime Library
#        (c) Copyright 2015 Dominik Picheta
#
#    See the file "copying.txt", included in this
#    distribution, for details about the copyright.
#

## `asyncdispatch` module depends on the `asyncmacro` module to work properly.

import macros, strutils, asyncfutures

template createCb(retFutureSym, iteratorNameSym,
                  strName, identName, futureVarCompletions: untyped) =
  bind finished
  let retFutUnown = unown retFutureSym

  var nameIterVar = iteratorNameSym
  proc identName {.closure.} =
    try:
      if not nameIterVar.finished:
        var next = unown nameIterVar()
        # Continue while the yielded future is already finished.
        while (not next.isNil) and next.finished:
          next = unown nameIterVar()
          if nameIterVar.finished:
            break

        if next == nil:
          if not retFutUnown.finished:
            let msg = "Async procedure ($1) yielded `nil`, are you await'ing a " &
                    "`nil` Future?"
            raise newException(AssertionDefect, msg % strName)
        else:
          {.gcsafe.}:
            {.push hint[ConvFromXtoItselfNotNeeded]: off.}
            next.addCallback cast[proc() {.closure, gcsafe.}](identName)
            {.pop.}
    except:
      futureVarCompletions
      if retFutUnown.finished:
        # Take a look at tasyncexceptions for the bug which this fixes.
        # That test explains it better than I can here.
        raise
      else:
        retFutUnown.fail(getCurrentException())
  identName()

proc createFutureVarCompletions(futureVarIdents: seq[NimNode],
    fromNode: NimNode): NimNode {.compileTime.} =
  result = newNimNode(nnkStmtList, fromNode)
  # Add calls to complete each FutureVar parameter.
  for ident in futureVarIdents:
    # Only complete them if they have not been completed already by the user.
    # TODO: Once https://github.com/nim-lang/Nim/issues/5617 is fixed.
    # TODO: Add line info to the complete() call!
    # In the meantime, this was really useful for debugging :)
    #result.add(newCall(newIdentNode("echo"), newStrLitNode(fromNode.lineinfo)))
    result.add newIfStmt(
      (
        newCall(newIdentNode("not"),
                newDotExpr(ident, newIdentNode("finished"))),
        newCall(newIdentNode("complete"), ident)
      )
    )

proc processBody(node, retFutureSym: NimNode,
                 subTypeIsVoid: bool,
                 futureVarIdents: seq[NimNode]): NimNode {.compileTime.} =
  #echo(node.treeRepr)
  result = node
  case node.kind
  of nnkReturnStmt:
    result = newNimNode(nnkStmtList, node)

    # As I've painfully found out, the order here really DOES matter.
    result.add createFutureVarCompletions(futureVarIdents, node)

    if node[0].kind == nnkEmpty:
      if not subTypeIsVoid:
        result.add newCall(newIdentNode("complete"), retFutureSym,
            newIdentNode("result"))
      else:
        result.add newCall(newIdentNode("complete"), retFutureSym)
    else:
      let x = node[0].processBody(retFutureSym, subTypeIsVoid,
                                  futureVarIdents)
      if x.kind == nnkYieldStmt: result.add x
      else:
        result.add newCall(newIdentNode("complete"), retFutureSym, x)

    result.add newNimNode(nnkReturnStmt, node).add(newNilLit())
    return # Don't process the children of this return stmt
  of RoutineNodes-{nnkTemplateDef}:
    # skip all the nested procedure definitions
    return
  else: discard

  for i in 0 ..< result.len:
    result[i] = processBody(result[i], retFutureSym, subTypeIsVoid,
                            futureVarIdents)

  # echo result.repr

proc getName(node: NimNode): string {.compileTime.} =
  case node.kind
  of nnkPostfix:
    return node[1].strVal
  of nnkIdent, nnkSym:
    return node.strVal
  of nnkEmpty:
    return "anonymous"
  else:
    error("Unknown name.", node)

proc getFutureVarIdents(params: NimNode): seq[NimNode] {.compileTime.} =
  result = @[]
  for i in 1 ..< len(params):
    expectKind(params[i], nnkIdentDefs)
    if params[i][1].kind == nnkBracketExpr and
       params[i][1][0].eqIdent("futurevar"):
      result.add(params[i][0])

proc isInvalidReturnType(typeName: string): bool =
  return typeName notin ["Future"] #, "FutureStream"]

proc verifyReturnType(typeName: string, node: NimNode = nil) {.compileTime.} =
  if typeName.isInvalidReturnType:
    error("Expected return type of 'Future' got '$1'" %
          typeName, node)

proc asyncSingleProc(prc: NimNode): NimNode {.compileTime.} =
  ## This macro transforms a single procedure into a closure iterator.
  ## The ``async`` macro supports a stmtList holding multiple async procedures.
  if prc.kind == nnkProcTy:
    result = prc
    if prc[0][0].kind == nnkEmpty:
      result[0][0] = parseExpr("Future[void]")
    return result

  if prc.kind notin {nnkProcDef, nnkLambda, nnkMethodDef, nnkDo}:
    error("Cannot transform this node kind into an async proc." &
          " proc/method definition or lambda node expected.", prc)

  if prc[4].kind != nnkEmpty:
    for prag in prc[4]:
      if prag.eqIdent("discardable"):
        error("Cannot make async proc discardable. Futures have to be " &
          "checked with `asyncCheck` instead of discarded", prag)

  let prcName = prc.name.getName

  var returnType = prc.params[0]
  var baseType: NimNode
  if returnType.kind in nnkCallKinds and returnType[0].eqIdent("owned") and
      returnType.len == 2:
    returnType = returnType[1]
  # Verify that the return type is a Future[T]
  if returnType.kind == nnkBracketExpr:
    let fut = repr(returnType[0])
    verifyReturnType(fut, returnType[0])
    baseType = returnType[1]
  elif returnType.kind in nnkCallKinds and returnType[0].eqIdent("[]"):
    let fut = repr(returnType[1])
    verifyReturnType(fut, returnType[0])
    baseType = returnType[2]
  elif returnType.kind == nnkEmpty:
    baseType = returnType
  else:
    verifyReturnType(repr(returnType), returntype)

  let subtypeIsVoid = returnType.kind == nnkEmpty or
        (baseType.kind == nnkIdent and returnType[1].eqIdent("void"))

  let futureVarIdents = getFutureVarIdents(prc.params)

  var outerProcBody = newNimNode(nnkStmtList, prc.body)

  # Extract the documentation comment from the original procedure declaration.
  # Note that we're not removing it from the body in order not to make this
  # transformation even more complex.
  if prc.body.len > 1 and prc.body[0].kind == nnkCommentStmt:
    outerProcBody.add(prc.body[0])

  # -> var retFuture = newFuture[T]()
  var retFutureSym = genSym(nskVar, "retFuture")
  var subRetType =
    if returnType.kind == nnkEmpty: newIdentNode("void")
    else: baseType
  outerProcBody.add(
    newVarStmt(retFutureSym,
      newCall(
        newNimNode(nnkBracketExpr, prc.body).add(
          newIdentNode("newFuture"),
          subRetType),
      newLit(prcName)))) # Get type from return type of this proc

  # -> iterator nameIter(): FutureBase {.closure.} =
  # ->   {.push warning[resultshadowed]: off.}
  # ->   var result: T
  # ->   {.pop.}
  # ->   <proc_body>
  # ->   complete(retFuture, result)
  var iteratorNameSym = genSym(nskIterator, $prcName & "Iter")
  var procBody = prc.body.processBody(retFutureSym, subtypeIsVoid,
                                    futureVarIdents)
  # don't do anything with forward bodies (empty)
  if procBody.kind != nnkEmpty:
    procBody.add(createFutureVarCompletions(futureVarIdents, nil))

    if not subtypeIsVoid:
      procBody.insert(0, newNimNode(nnkPragma).add(newIdentNode("push"),
        newNimNode(nnkExprColonExpr).add(newNimNode(nnkBracketExpr).add(
          newIdentNode("warning"), newIdentNode("resultshadowed")),
        newIdentNode("off")))) # -> {.push warning[resultshadowed]: off.}

      procBody.insert(1, newNimNode(nnkVarSection, prc.body).add(
        newIdentDefs(newIdentNode("result"), baseType))) # -> var result: T

      procBody.insert(2, newNimNode(nnkPragma).add(
        newIdentNode("pop"))) # -> {.pop.})

      procBody.add(
        newCall(newIdentNode("complete"),
          retFutureSym, newIdentNode("result"))) # -> complete(retFuture, result)
    else:
      # -> complete(retFuture)
      procBody.add(newCall(newIdentNode("complete"), retFutureSym))

    var closureIterator = newProc(iteratorNameSym, [parseExpr("owned(FutureBase)")],
                                  procBody, nnkIteratorDef)
    closureIterator.pragma = newNimNode(nnkPragma, lineInfoFrom = prc.body)
    closureIterator.addPragma(newIdentNode("closure"))

    # If proc has an explicit gcsafe pragma, we add it to iterator as well.
    if prc.pragma.findChild(it.kind in {nnkSym, nnkIdent} and $it ==
        "gcsafe") != nil:
      closureIterator.addPragma(newIdentNode("gcsafe"))
    outerProcBody.add(closureIterator)

    # -> createCb(retFuture)
    # NOTE: The NimAsyncContinueSuffix is checked for in asyncfutures.nim to produce
    # friendlier stack traces:
    var cbName = genSym(nskProc, prcName & NimAsyncContinueSuffix)
    var procCb = getAst createCb(retFutureSym, iteratorNameSym,
                         newStrLitNode(prcName),
                         cbName,
                         createFutureVarCompletions(futureVarIdents, nil))
    outerProcBody.add procCb

    # -> return retFuture
    outerProcBody.add newNimNode(nnkReturnStmt, prc.body[^1]).add(retFutureSym)

  result = prc

  if subtypeIsVoid:
    # Add discardable pragma.
    if returnType.kind == nnkEmpty:
      # Add Future[void]
      result.params[0] = parseExpr("owned(Future[void])")

  # based on the yglukhov's patch to chronos: https://github.com/status-im/nim-chronos/pull/47
  # however here the overloads are placed inside each expanded async
  var awaitDefinition = quote:
    template await(f: typed): untyped =
      static:
        error "await expects Future[T], got " & $typeof(f)

    template await[T](f: Future[T]): auto {.used.} =
      var internalTmpFuture: FutureBase = f
      yield internalTmpFuture
      (cast[type(f)](internalTmpFuture)).read()

  if procBody.kind != nnkEmpty:
    result.body = quote:
      `awaitDefinition`
      `outerProcBody`

  #echo(treeRepr(result))
  #if prcName == "recvLineInto":
  #  echo(toStrLit(result))

macro async*(prc: untyped): untyped =
  ## Macro which processes async procedures into the appropriate
  ## iterators and yield statements.
  if prc.kind == nnkStmtList:
    result = newStmtList()
    for oneProc in prc:
      result.add asyncSingleProc(oneProc)
  else:
    result = asyncSingleProc(prc)
  when defined(nimDumpAsync):
    echo repr result

proc splitParamType(paramType: NimNode, async: bool): NimNode =
  result = paramType
  if paramType.kind == nnkInfix and paramType[0].strVal in ["|", "or"]:
    let firstAsync = "async" in paramType[1].strVal.normalize
    let secondAsync = "async" in paramType[2].strVal.normalize

    if firstAsync:
      result = paramType[if async: 1 else: 2]
    elif secondAsync:
      result = paramType[if async: 2 else: 1]

proc stripReturnType(returnType: NimNode): NimNode =
  # Strip out the 'Future' from 'Future[T]'.
  result = returnType
  if returnType.kind == nnkBracketExpr:
    let fut = repr(returnType[0])
    verifyReturnType(fut, returnType)
    result = returnType[1]

proc splitProc(prc: NimNode): (NimNode, NimNode) =
  ## Takes a procedure definition which takes a generic union of arguments,
  ## for example: proc (socket: Socket | AsyncSocket).
  ## It transforms them so that ``proc (socket: Socket)`` and
  ## ``proc (socket: AsyncSocket)`` are returned.

  result[0] = prc.copyNimTree()
  # Retrieve the `T` inside `Future[T]`.
  let returnType = stripReturnType(result[0][3][0])
  result[0][3][0] = splitParamType(returnType, async = false)
  for i in 1 ..< result[0][3].len:
    # Sync proc (0) -> FormalParams (3) -> IdentDefs, the parameter (i) ->
    # parameter type (1).
    result[0][3][i][1] = splitParamType(result[0][3][i][1], async=false)
  var multisyncAwait = quote:
    template await(value: typed): untyped =
      value

  result[0][^1] = nnkStmtList.newTree(multisyncAwait, result[0][^1])

  result[1] = prc.copyNimTree()
  if result[1][3][0].kind == nnkBracketExpr:
    result[1][3][0][1] = splitParamType(result[1][3][0][1], async = true)
  for i in 1 ..< result[1][3].len:
    # Async proc (1) -> FormalParams (3) -> IdentDefs, the parameter (i) ->
    # parameter type (1).
    result[1][3][i][1] = splitParamType(result[1][3][i][1], async = true)

macro multisync*(prc: untyped): untyped =
  ## Macro which processes async procedures into both asynchronous and
  ## synchronous procedures.
  ##
  ## The generated async procedures use the ``async`` macro, whereas the
  ## generated synchronous procedures simply strip off the ``await`` calls.
  let (sync, asyncPrc) = splitProc(prc)
  result = newStmtList()
  result.add(asyncSingleProc(asyncPrc))
  result.add(sync)
  # echo result.repr

# overload for await as a fallback handler, based on the yglukhov's patch to chronos: https://github.com/status-im/nim-chronos/pull/47
# template await*(f: typed): untyped =
  # static:
    # error "await only available within {.async.}"