feat(language-server): Support declares and exports in LSP [LNG-304, LNG-319] (#1070)

Co-authored-by: InversionSpaces <inversionspaces@vivaldi.net>
This commit is contained in:
Dima 2024-02-07 12:21:42 +03:00 committed by GitHub
parent d03211b492
commit f7194f0a54
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17 changed files with 357 additions and 168 deletions

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@ -1,19 +1,15 @@
package aqua.compiler
import aqua.compiler.AquaError.{ParserError as AquaParserError, *}
import aqua.linker.Linker.link
import aqua.linker.{AquaModule, Linker, Modules}
import aqua.compiler.AquaError.*
import aqua.linker.Linker
import aqua.parser.{Ast, ParserError}
import aqua.semantics.header.{HeaderHandler, Picker}
import aqua.semantics.{SemanticError, Semantics}
import cats.arrow.FunctionK
import cats.data.*
import cats.syntax.applicative.*
import cats.syntax.either.*
import cats.syntax.flatMap.*
import cats.syntax.functor.*
import cats.syntax.traverse.*
import cats.{Comonad, Monad, Monoid, Order, ~>}
import scribe.Logging

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@ -7,9 +7,9 @@ import aqua.parser.{Ast, ParserError}
import aqua.raw.RawContext
import aqua.semantics.RawSemantics
import aqua.semantics.header.{HeaderHandler, HeaderSem}
import aqua.semantics.rules.locations.{LocationsAlgebra, DummyLocationsInterpreter}
import cats.data.*
import cats.syntax.applicative.*
import cats.syntax.either.*
import cats.syntax.flatMap.*
import cats.syntax.functor.*
@ -56,6 +56,9 @@ object CompilerAPI extends Logging {
val semantics = new RawSemantics[S]()
given LocationsAlgebra[S, State[RawContext, *]] =
DummyLocationsInterpreter()
new AquaCompiler[F, E, I, S, RawContext](
new HeaderHandler(),
semantics

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@ -4,9 +4,10 @@ import aqua.compiler.{AquaCompiler, AquaCompilerConf, AquaError, AquaSources}
import aqua.parser.{Ast, ParserError}
import aqua.raw.RawContext
import aqua.semantics.header.{HeaderHandler, HeaderSem}
import aqua.semantics.rules.locations.LocationsAlgebra
import cats.data.Validated.validNec
import cats.data.{Chain, Validated, ValidatedNec}
import cats.data.{State, Chain, Validated, ValidatedNec}
import cats.syntax.either.*
import cats.syntax.functor.*
import cats.syntax.monoid.*
@ -47,6 +48,9 @@ object LSPCompiler {
val semantics = new LspSemantics[S]()
given LocationsAlgebra[S, State[LspContext[S], *]] =
LocationsInterpreter[S, LspContext[S]]()
new AquaCompiler[F, E, I, S, LspContext[S]](
new HeaderHandler(),
semantics

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@ -6,8 +6,11 @@ import aqua.semantics.header.Picker
import aqua.semantics.rules.locations.{TokenLocation, VariableInfo}
import aqua.semantics.{SemanticError, SemanticWarning}
import aqua.types.{AbilityType, ArrowType, Type}
import aqua.semantics.rules.locations.LocationsState
import cats.syntax.monoid.*
import cats.{Monoid, Semigroup}
import monocle.Lens
// Context with info that necessary for language server
case class LspContext[S[_]](
@ -15,6 +18,7 @@ case class LspContext[S[_]](
abDefinitions: Map[String, NamedTypeToken[S]] = Map.empty[String, NamedTypeToken[S]],
rootArrows: Map[String, ArrowType] = Map.empty[String, ArrowType],
constants: Map[String, Type] = Map.empty[String, Type],
// TODO: Can this field be refactored into LocationsState?
variables: List[VariableInfo[S]] = Nil,
importTokens: List[LiteralToken[S]] = Nil,
errors: List[SemanticError[S]] = Nil,
@ -150,4 +154,17 @@ object LspContext {
)(using Semigroup[LspContext[S]]): LspContext[S] =
ctx.copy(raw = ctx.raw.pickDeclared)
}
/*
NOTE: This instance is used to generate LocationsAlgebra[S, State[LspContext[S], *]]
to reuse the code from the body semantics in the header semantics
*/
given [S[_]]: Lens[LspContext[S], LocationsState[S]] = {
val get: LspContext[S] => LocationsState[S] =
ctx => LocationsState(ctx.variables)
val replace: LocationsState[S] => LspContext[S] => LspContext[S] =
locs => ctx => ctx.copy(variables = locs.variables)
Lens(get)(replace)
}
}

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@ -29,18 +29,29 @@ class AquaLSPSpec extends AnyFlatSpec with Matchers with Inside {
usePosition: Int,
defCode: String,
useCode: Option[String] = None,
fieldName: Option[String] = None
fieldOrSynonym: Option[String] = None
): Boolean = {
(for {
defPos <- getByPosition(defCode, name, defPosition)
usePos <- getByPosition(useCode.getOrElse(defCode), fieldName.getOrElse(name), usePosition)
usePos <- getByPosition(
useCode.getOrElse(defCode),
fieldOrSynonym.getOrElse(name),
usePosition
)
} yield {
val (defStart, defEnd) = defPos
val (useStart, useEnd) = usePos
c.allLocations.exists { case TokenLocation(useT, defT) =>
val defSpan = defT.unit._1
c.variables.exists { case VariableInfo(defI, occs) =>
val defSpan = defI.token.unit._1
if (defSpan.startIndex == defStart && defSpan.endIndex == defEnd) {
occs.exists { useT =>
val useSpan = useT.unit._1
defSpan.startIndex == defStart && defSpan.endIndex == defEnd && useSpan.startIndex == useStart && useSpan.endIndex == useEnd
useSpan.startIndex == useStart && useSpan.endIndex == useEnd
}
} else {
false
}
}
}).getOrElse(false)
}
@ -115,15 +126,23 @@ class AquaLSPSpec extends AnyFlatSpec with Matchers with Inside {
id => txt => Parser.parse(Parser.parserSchema)(txt),
AquaCompilerConf(ConstantRaw.defaultConstants(None))
)
.leftMap { ee =>
println(ee)
ee
}
it should "return right tokens" in {
val main =
"""aqua Import
"""aqua Import declares foo_wrapper, Ab, Str, useAbAndStruct, SOME_CONST
|
|import foo, strFunc, num from "export2.aqua"
|import foo, strFunc, num, absb as otherName from "export2.aqua"
|
|use thirdFunc as thirdRenamed from "third.aqua" as Third
|
|import "../gen/OneMore.aqua"
|
|export foo_wrapper, SOME_CONST, EXPORTED as NEW_NAME
|
|func foo_wrapper() -> string:
| fooResult <- foo()
| if 1 == 1:
@ -146,13 +165,16 @@ class AquaLSPSpec extends AnyFlatSpec with Matchers with Inside {
| strFunc(s.someField)
| num(Ab.someField)
|
|const SOME_CONST = 1
|const EXPORTED = 1
|
|""".stripMargin
val src = Map(
"index.aqua" -> main
)
val firstImport =
"""aqua Export declares strFunc, num, foo
"""aqua Export declares strFunc, num, foo, absb
|
|func absb() -> string:
| <- "ff"
@ -176,11 +198,21 @@ class AquaLSPSpec extends AnyFlatSpec with Matchers with Inside {
| consume(s: string)
|""".stripMargin
val thirdImport =
"""aqua Third declares thirdFunc
|
|func thirdFunc() -> string:
| <- "I am MyFooBar foo"
|
|""".stripMargin
val imports = Map(
"export2.aqua" ->
firstImport,
"../gen/OneMore.aqua" ->
secondImport
secondImport,
"third.aqua" ->
thirdImport
)
val res = compile(src, imports).toOption.get.values.head
@ -193,6 +225,50 @@ class AquaLSPSpec extends AnyFlatSpec with Matchers with Inside {
)
)
res.checkTokenLoc(
main,
"foo_wrapper",
2,
ArrowType(
NilType,
ProductType(ScalarType.string :: Nil)
)
) shouldBe true
res.checkTokenLoc(
main,
"SOME_CONST",
2,
LiteralType.unsigned
) shouldBe true
// exports
res.checkLocations("foo_wrapper", 2, 1, main) shouldBe true
res.checkLocations("SOME_CONST", 2, 1, main) shouldBe true
res.checkLocations("EXPORTED", 1, 0, main) shouldBe true
res.checkLocations("EXPORTED", 1, 0, main, None, Some("NEW_NAME")) shouldBe true
// declares
res.checkLocations("foo_wrapper", 2, 0, main) shouldBe true
res.checkLocations("SOME_CONST", 2, 0, main) shouldBe true
// imports
res.checkLocations("foo", 1, 1, firstImport, Some(main)) shouldBe true
res.checkLocations("strFunc", 1, 0, firstImport, Some(main)) shouldBe true
res.checkLocations("num", 1, 0, firstImport, Some(main)) shouldBe true
res.checkLocations("absb", 1, 0, firstImport, Some(main)) shouldBe true
res.checkLocations("absb", 1, 0, firstImport, Some(main), Some("otherName")) shouldBe true
// use
res.checkLocations("thirdFunc", 1, 0, thirdImport, Some(main)) shouldBe true
res.checkLocations(
"thirdFunc",
1,
0,
thirdImport,
Some(main),
Some("thirdRenamed")
) shouldBe true
// inside `foo_wrapper` func
res.checkTokenLoc(main, "fooResult", 0, ScalarType.string) shouldBe true
res.checkLocations("fooResult", 0, 1, main) shouldBe true

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@ -3,15 +3,12 @@ package aqua.linker
import aqua.errors.Errors.internalError
import cats.MonadError
import cats.data.{NonEmptyChain, Validated, ValidatedNec}
import cats.data.NonEmptyChain
import cats.instances.list.*
import cats.kernel.{Monoid, Semigroup}
import cats.syntax.applicative.*
import cats.syntax.flatMap.*
import cats.syntax.functor.*
import cats.syntax.semigroup.*
import cats.syntax.traverse.*
import cats.syntax.validated.*
import scala.annotation.tailrec
import scribe.Logging
@ -116,10 +113,10 @@ object Linker extends Logging {
} else
canHandle.traverse { mod =>
// Gather all imports for module
val imports = mod.imports.mapValues { imp =>
val imports = mod.imports.view.mapValues { imp =>
proc
.get(imp)
.getOrElse(
imp,
// Should not happen as we check it above
internalError(s"Module $imp not found in $proc")
)
@ -155,6 +152,6 @@ object Linker extends Logging {
else
iter(modules.loaded.values.toList, Map.empty, cycle).map(
// Remove all modules that are not exported from result
_.filterKeys(modules.exports.contains).toMap
_.view.filterKeys(modules.exports.contains).toMap
)
}

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@ -23,8 +23,6 @@ class LinkerSpec extends AnyFlatSpec with Matchers {
imports = Map("mod2" -> "mod2"),
dependsOn = Map("mod2" -> "unresolved mod2 in mod1"),
body = imports => {
println(s"mod1: $imports")
imports
.get("mod2")
.toRight("mod2 not found in mod1")

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@ -18,7 +18,7 @@ case class UseExpr[F[_]](
override def mapK[K[_]: Comonad](fk: F ~> K): UseExpr[K] =
copy(filename.mapK(fk), asModule.map(_.mapK(fk)))
override def toString(): String =
override def toString: String =
s"use ${filename.value}${asModule.map(_.value).fold("")(" as " + _)}"
}

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@ -15,7 +15,6 @@ class ArrowTypeSem[S[_]](val expr: ArrowTypeExpr[S]) extends AnyVal {
def program[Alg[_]: Monad](implicit
T: TypesAlgebra[S, Alg],
A: AbilitiesAlgebra[S, Alg],
D: DefinitionsAlgebra[S, Alg]
): Prog[Alg, Raw] =
T.resolveArrowDef(expr.`type`).flatMap {

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@ -24,7 +24,6 @@ class ServiceSem[S[_]](val expr: ServiceExpr[S]) extends AnyVal {
private def define[Alg[_]: Monad](using
A: AbilitiesAlgebra[S, Alg],
N: NamesAlgebra[S, Alg],
T: TypesAlgebra[S, Alg],
V: ValuesAlgebra[S, Alg],
D: DefinitionsAlgebra[S, Alg]

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@ -0,0 +1,99 @@
package aqua.semantics.header
import aqua.parser.head.*
import aqua.parser.lexer.Token
import aqua.semantics.SemanticError
import aqua.semantics.header.HeaderHandler.*
import aqua.semantics.header.Picker.*
import aqua.semantics.rules.locations.LocationsAlgebra
import cats.data.*
import cats.data.Validated.*
import cats.instances.option.*
import cats.kernel.Semigroup
import cats.syntax.apply.*
import cats.syntax.bifunctor.*
import cats.syntax.foldable.*
import cats.syntax.functor.*
import cats.syntax.option.*
import cats.syntax.semigroup.*
import cats.syntax.validated.*
import cats.{Comonad, Monoid}
class ExportSem[S[_]: Comonad, C](expr: ExportExpr[S])(using
acm: Monoid[C],
picker: Picker[C],
locations: LocationsAlgebra[S, State[C, *]]
) {
private def exportFuncChecks(
ctx: C,
token: Token[S],
name: String
): ValidatedNec[SemanticError[S], Unit] =
Validated.condNec(
!ctx.funcReturnAbilityOrArrow(name),
(),
error(
token,
s"The function '$name' cannot be exported, because it returns an arrow or an ability"
)
) combine Validated.condNec(
!ctx.funcAcceptAbility(name),
(),
error(
token,
s"The function '$name' cannot be exported, because it accepts an ability"
)
)
def headerSem: Res[S, C] = {
// Save exports, finally handle them
HeaderSem(
// Nothing there
picker.blank,
finSem
).validNec
}
private def finSem(ctx: C, initCtx: C): ValidatedNec[SemanticError[S], C] = {
val pubs = expr.pubs
.map(
_.bimap(
_.bimap(n => (n, n.value), n => (n, n.map(_.value))),
_.bimap(n => (n, n.value), n => (n, n.map(_.value)))
).merge
)
val tokens = pubs.toList.flatMap {
case ((token, name), (renameToken, _)) =>
renameToken.map(name -> _).toList :+ (name, token)
}
val ctxWithExportLocations = ctx.addOccurences(tokens)
val sumCtx = initCtx |+| ctxWithExportLocations
pubs.map { case ((token, name), (_, rename)) =>
sumCtx
.pick(name, rename, declared = false)
.as(Map(name -> rename))
.toValid(
error(
token,
s"Files has no $name declaration or import, " +
s"cannot export, available functions: ${sumCtx.funcNames.mkString(", ")}"
)
)
.ensure(
error(
token,
s"Can not export '$name' as it is an ability"
)
)(_ => !sumCtx.isAbility(name))
.toValidatedNec <* exportFuncChecks(sumCtx, token, name)
}
.prepend(validNec(sumCtx.exports))
.combineAll
.map(sumCtx.setExports)
}
}

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@ -2,68 +2,34 @@ package aqua.semantics.header
import aqua.parser.Ast
import aqua.parser.head.*
import aqua.parser.lexer.{Ability, Name, Token}
import aqua.parser.lexer.{Ability, Token}
import aqua.semantics.header.Picker.*
import aqua.semantics.{HeaderError, SemanticError}
import aqua.semantics.rules.locations.LocationsAlgebra
import cats.data.*
import cats.data.Validated.*
import cats.free.Cofree
import cats.instances.list.*
import cats.instances.option.*
import cats.kernel.Semigroup
import cats.syntax.apply.*
import cats.syntax.bifunctor.*
import cats.syntax.foldable.*
import cats.syntax.functor.*
import cats.syntax.option.*
import cats.syntax.semigroup.*
import cats.syntax.traverse.*
import cats.syntax.validated.*
import cats.{Comonad, Eval, Monoid}
import cats.{Comonad, Monoid}
class HeaderHandler[S[_]: Comonad, C](using
acm: Monoid[C],
headMonoid: Monoid[HeaderSem[S, C]],
picker: Picker[C]
picker: Picker[C],
// NOTE: This typeclass is here to reuse
// the code from the body semantics
locations: LocationsAlgebra[S, State[C, *]]
) {
type Res[S[_], C] = ValidatedNec[SemanticError[S], HeaderSem[S, C]]
type ResAC[S[_]] = ValidatedNec[SemanticError[S], C]
type ResT[S[_], T] = ValidatedNec[SemanticError[S], T]
// Helper: monoidal combine of all the childrens after parent res
private def combineAnd(children: Chain[Res[S, C]])(
parent: Res[S, C]
): Eval[Res[S, C]] =
Eval.later(parent |+| children.combineAll)
// Error generator with token pointer
private def error[T](
token: Token[S],
msg: String
): SemanticError[S] = HeaderError(token, msg)
private def exportFuncChecks(ctx: C, token: Token[S], name: String): ResT[S, Unit] =
Validated.condNec(
!ctx.funcReturnAbilityOrArrow(name),
(),
error(
token,
s"The function '$name' cannot be exported, because it returns an arrow or an ability"
)
) combine Validated.condNec(
!ctx.funcAcceptAbility(name),
(),
error(
token,
s"The function '$name' cannot be exported, because it accepts an ability"
)
)
import HeaderHandler.*
def sem(imports: Map[String, C], header: Ast.Head[S]): Res[S, C] = {
// Resolve a filename from given imports or fail
def resolve(f: FilenameExpr[S]): ResAC[S] =
def resolve(f: FilenameExpr[S]): ResAC[S, C] =
imports
.get(f.fileValue)
.map(_.pickDeclared)
@ -72,16 +38,21 @@ class HeaderHandler[S[_]: Comonad, C](using
)
// Get part of the declared context (for import/use ... from ... expressions)
def getFrom(f: FromExpr[S], ctx: C): ResAC[S] =
def getFrom(f: FromExpr[S], ctx: C): ResAC[S, C] =
ctx.pickHeader.validNec |+| f.imports
.map(
_.bimap(
_.bimap(n => (n, n.value), _.map(_.value)),
_.bimap(n => (n, n.value), _.map(_.value))
_.bimap(n => (n, n.value), n => (n, n.map(_.value))),
_.bimap(n => (n, n.value), n => (n, n.map(_.value)))
).merge match {
case ((token, name), rename) =>
case ((token, name), (renameToken, rename)) =>
ctx
.pick(name, rename, ctx.module.nonEmpty)
.map { ctx =>
val defName = rename.getOrElse(name)
val occs = renameToken.map(defName -> _).toList :+ (defName, token)
ctx.addOccurences(occs)
}
.toValidNec(
error(
token,
@ -93,7 +64,7 @@ class HeaderHandler[S[_]: Comonad, C](using
.combineAll
// Convert an imported context into a module (ability)
def toModule(ctx: C, tkn: Token[S], rename: Option[Ability[S]]): ResAC[S] =
def toModule(ctx: C, tkn: Token[S], rename: Option[Ability[S]]): ResAC[S, C] =
rename
.map(_.value)
.orElse(ctx.module)
@ -105,46 +76,8 @@ class HeaderHandler[S[_]: Comonad, C](using
)
)
val handleModule: ModuleExpr[S] => Res[S, C] = {
case ModuleExpr(word, name, declareAll, declareNames, declareCustom) =>
val shouldDeclare = declareNames.map(_.value).toSet ++ declareCustom.map(_.value)
lazy val sem = HeaderSem(
// Save module header info
acm.empty.setModule(
name.value,
shouldDeclare
),
(ctx, _) =>
// When file is handled, check that all the declarations exists
if (declareAll.nonEmpty)
ctx.setModule(name.value, declares = ctx.all).validNec
else
(
declareNames.fproductLeft(_.value) ::: declareCustom.fproductLeft(_.value)
).map { case (n, t) =>
ctx
.pick(n, None, ctx.module.nonEmpty)
.toValidNec(
error(
t,
s"`$n` is expected to be declared, but declaration is not found in the file"
)
)
.void
}.combineAll.as(
// TODO: why module name and declares is lost? where is it lost?
ctx.setModule(name.value, declares = shouldDeclare)
)
)
word.value.fold(
module = error(
word,
"Keyword `module` is deprecated, use `aqua` instead"
).invalidNec,
aqua = sem.validNec
)
val handleModule: ModuleExpr[S] => Res[S, C] = { me =>
ModuleSem(me).headerSem
}
// Handler for every header expression, will be combined later
@ -181,44 +114,8 @@ class HeaderHandler[S[_]: Comonad, C](using
HeaderSem(fc, (c, _) => validNec(c))
}
case ExportExpr(pubs) =>
// Save exports, finally handle them
HeaderSem(
// Nothing there
picker.blank,
(ctx, initCtx) =>
val sumCtx = initCtx |+| ctx
pubs
.map(
_.bimap(
_.bimap(n => (n, n.value), _.map(_.value)),
_.bimap(n => (n, n.value), _.map(_.value))
).merge
)
.map { case ((token, name), rename) =>
sumCtx
.pick(name, rename, declared = false)
.as(Map(name -> rename))
.toValid(
error(
token,
s"File has no $name declaration or import, " +
s"cannot export, available functions: ${sumCtx.funcNames.mkString(", ")}"
)
)
.ensure(
error(
token,
s"Can not export '$name' as it is an ability"
)
)(_ => !sumCtx.isAbility(name))
.toValidatedNec <* exportFuncChecks(sumCtx, token, name)
}
.prepend(validNec(ctx.exports))
.combineAll
.map(ctx.setExports)
).validNec
case ee: ExportExpr[S] =>
ExportSem(ee).headerSem
case f: FilenameExpr[S] =>
resolve(f).map(fc => HeaderSem(fc, (c, _) => validNec(c)))
@ -241,3 +138,15 @@ class HeaderHandler[S[_]: Comonad, C](using
module |+| other
}
}
object HeaderHandler {
type Res[S[_], C] = ValidatedNec[SemanticError[S], HeaderSem[S, C]]
type ResAC[S[_], C] = ValidatedNec[SemanticError[S], C]
// Error generator with token pointer
def error[S[_], T](
token: Token[S],
msg: String
): SemanticError[S] = HeaderError(token, msg)
}

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@ -0,0 +1,68 @@
package aqua.semantics.header
import aqua.parser.head.ModuleExpr
import aqua.semantics.header.HeaderHandler.{Res, error}
import aqua.semantics.header.Picker.*
import aqua.semantics.rules.locations.LocationsAlgebra
import cats.data.*
import cats.data.Validated.*
import cats.kernel.Semigroup
import cats.syntax.foldable.*
import cats.syntax.functor.*
import cats.syntax.option.*
import cats.syntax.validated.*
import cats.{Comonad, Monoid}
class ModuleSem[S[_]: Comonad, C: Picker](expr: ModuleExpr[S])(using
acm: Monoid[C],
locations: LocationsAlgebra[S, State[C, *]]
) {
import expr.*
def headerSem: Res[S, C] = {
val shouldDeclare = declareNames.map(_.value).toSet ++ declareCustom.map(_.value)
lazy val sem = HeaderSem(
// Save module header info
acm.empty.setModule(
name.value,
shouldDeclare
),
(ctx, _) =>
// When file is handled, check that all the declarations exists
if (declareAll.nonEmpty)
ctx.setModule(name.value, declares = ctx.all).validNec
else
(
declareNames.fproductLeft(_.value) ::: declareCustom.fproductLeft(_.value)
).map { case (n, t) =>
ctx
.pick(n, None, ctx.module.nonEmpty)
.toValidNec(
error(
t,
s"`$n` is expected to be declared, but declaration is not found in the file"
)
)
.void
}.combineAll.as {
val tokens = declareNames.map(n => n.value -> n) ++ declareCustom.map(a => a.value -> a)
val ctxWithDeclaresLoc = ctx.addOccurences(tokens)
// TODO: why module name and declares is lost? where is it lost?
ctxWithDeclaresLoc.setModule(name.value, declares = shouldDeclare)
}
)
word.value.fold(
module = error(
word,
"Keyword `module` is deprecated, use `aqua` instead"
).invalidNec,
aqua = sem.validNec
)
}
}

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@ -0,0 +1,20 @@
package aqua.semantics
import cats.data.State
import aqua.semantics.rules.locations.LocationsAlgebra
import aqua.parser.lexer.Token
package object header {
/*
NOTE: This extension glues locations algebra from the body semantics
with the context that is used in the header semantics
*/
extension [S[_], C](context: C)(using
locations: LocationsAlgebra[S, State[C, *]]
) {
def addOccurences(tokens: List[(String, Token[S])]): C =
locations.pointLocations(tokens).runS(context).value
}
}

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@ -4,12 +4,11 @@ import aqua.parser.lexer.{Name, NamedTypeToken, Token}
import aqua.raw.RawContext
import aqua.raw.value.ValueRaw
import aqua.semantics.Levenshtein
import aqua.semantics.rules.locations.LocationsAlgebra
import aqua.semantics.rules.locations.{DefinitionInfo, LocationsAlgebra}
import aqua.semantics.rules.mangler.ManglerAlgebra
import aqua.semantics.rules.report.ReportAlgebra
import aqua.semantics.rules.{StackInterpreter, abilities}
import aqua.semantics.rules.{abilities, StackInterpreter}
import aqua.types.ArrowType
import cats.data.{NonEmptyMap, State}
import cats.syntax.applicative.*
import cats.syntax.apply.*

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@ -10,6 +10,8 @@ case class LocationsState[S[_]](
variables: List[VariableInfo[S]] = Nil
) extends Logging {
lazy val allLocations: List[TokenLocation[S]] = variables.flatMap(_.allLocations)
def addDefinitions(newDefinitions: List[DefinitionInfo[S]]): LocationsState[S] =
copy(variables = newDefinitions.map(d => VariableInfo(d)) ++ variables)
@ -44,8 +46,7 @@ case class LocationsState[S[_]](
object LocationsState {
implicit def locationsStateMonoid[S[_]]: Monoid[LocationsState[S]] =
new Monoid[LocationsState[S]] {
given [S[_]]: Monoid[LocationsState[S]] with {
override def empty: LocationsState[S] = LocationsState()
override def combine(x: LocationsState[S], y: LocationsState[S]): LocationsState[S] =

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@ -10,8 +10,9 @@ import aqua.raw.ops.RawTag
import aqua.raw.value.VarRaw
import aqua.semantics.header.{HeaderHandler, HeaderSem}
import aqua.types.{AbilityType, ArrowType, NilType, ProductType, ScalarType}
import aqua.semantics.rules.locations.{LocationsAlgebra, DummyLocationsInterpreter}
import cats.data.{Chain, NonEmptyList, NonEmptyMap, Validated}
import cats.data.{State, Chain, NonEmptyList, NonEmptyMap, Validated}
import cats.free.Cofree
import cats.syntax.applicative.*
import cats.{Eval, Id, Monoid}
@ -23,6 +24,9 @@ class HeaderSpec extends AnyFlatSpec with Matchers with Inside {
given Monoid[RawContext] = RawContext.implicits(RawContext.blank).rawContextMonoid
given LocationsAlgebra[Id, State[RawContext, *]] =
DummyLocationsInterpreter[Id, RawContext]()
val handler = new HeaderHandler[Id, RawContext]()
def exportHeader(funcName: String): Ast.Head[Id] = {