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WoofWare.Myriad/WoofWare.Myriad.Plugins/JsonSerializeGenerator.fs
Patrick Stevens 81b7e5361d Another grand refactor (#150)
2024-05-30 20:34:53 +01:00

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namespace WoofWare.Myriad.Plugins
open System
open System.Text
open Fantomas.FCS.Syntax
open Fantomas.FCS.SyntaxTrivia
open Fantomas.FCS.Xml
open Myriad.Core
type internal JsonSerializeOutputSpec =
{
ExtensionMethods : bool
}
[<RequireQualifiedAccess>]
module internal JsonSerializeGenerator =
open Fantomas.FCS.Text.Range
open Myriad.Core.Ast
/// Given `input.Ident`, for example, choose how to add it to the ambient `node`.
/// The result is a line like `(fun ident -> InnerType.toJsonNode ident)` or `(fun ident -> JsonValue.Create ident)`.
let rec serializeNode (fieldType : SynType) : SynExpr =
// TODO: serialization format for DateTime etc
match fieldType with
| DateOnly
| DateTime
| NumberType _
| PrimitiveType _
| Guid
| Uri ->
// JsonValue.Create<type>
SynExpr.TypeApp (
SynExpr.createLongIdent [ "System" ; "Text" ; "Json" ; "Nodes" ; "JsonValue" ; "Create" ],
range0,
[ fieldType ],
[],
Some range0,
range0,
range0
)
| OptionType ty ->
// fun field -> match field with | None -> JsonValue.Create null | Some v -> {serializeNode ty} field
[
SynMatchClause.Create (
SynPat.CreateLongIdent (SynLongIdent.CreateString "None", []),
None,
// The absolutely galaxy-brained implementation of JsonValue has `JsonValue.Parse "null"`
// identically equal to null. We have to work around this later, but we might as well just
// be efficient here and whip up the null directly.
SynExpr.CreateNull
|> SynExpr.upcast' (
SynType.CreateLongIdent (
SynLongIdent.Create [ "System" ; "Text" ; "Json" ; "Nodes" ; "JsonNode" ]
)
)
)
SynMatchClause.Create (
SynPat.CreateLongIdent (
SynLongIdent.CreateString "Some",
[ SynPat.CreateNamed (Ident.Create "field") ]
),
None,
SynExpr.CreateApp (serializeNode ty, SynExpr.CreateIdentString "field")
|> SynExpr.CreateParen
|> SynExpr.upcast' (
SynType.CreateLongIdent (
SynLongIdent.Create [ "System" ; "Text" ; "Json" ; "Nodes" ; "JsonNode" ]
)
)
)
]
|> SynExpr.createMatch (SynExpr.CreateIdentString "field")
|> SynExpr.createLambda "field"
| ArrayType ty
| ListType ty ->
// fun field ->
// let arr = JsonArray ()
// for mem in field do arr.Add ({serializeNode} mem)
// arr
[
SynExpr.ForEach (
DebugPointAtFor.Yes range0,
DebugPointAtInOrTo.Yes range0,
SeqExprOnly.SeqExprOnly false,
true,
SynPat.CreateNamed (Ident.Create "mem"),
SynExpr.CreateIdent (Ident.Create "field"),
SynExpr.CreateApp (
SynExpr.CreateLongIdent (SynLongIdent.Create [ "arr" ; "Add" ]),
SynExpr.CreateParen (SynExpr.CreateApp (serializeNode ty, SynExpr.CreateIdentString "mem"))
),
range0
)
SynExpr.CreateIdentString "arr"
]
|> SynExpr.CreateSequential
|> SynExpr.createLet
[
SynExpr.createLongIdent [ "System" ; "Text" ; "Json" ; "Nodes" ; "JsonArray" ]
|> SynExpr.applyTo (SynExpr.CreateConst SynConst.Unit)
|> SynBinding.basic (SynLongIdent.CreateString "arr") []
]
|> SynExpr.createLambda "field"
| IDictionaryType (_keyType, valueType)
| DictionaryType (_keyType, valueType)
| IReadOnlyDictionaryType (_keyType, valueType)
| MapType (_keyType, valueType) ->
// fun field ->
// let ret = JsonObject ()
// for (KeyValue(key, value)) in field do
// ret.Add (key.ToString (), {serializeNode} value)
// ret
[
SynExpr.ForEach (
DebugPointAtFor.Yes range0,
DebugPointAtInOrTo.Yes range0,
SeqExprOnly.SeqExprOnly false,
true,
SynPat.CreateParen (
SynPat.CreateLongIdent (
SynLongIdent.CreateString "KeyValue",
[
SynPat.CreateParen (
SynPat.Tuple (
false,
[
SynPat.CreateNamed (Ident.Create "key")
SynPat.CreateNamed (Ident.Create "value")
],
[ range0 ],
range0
)
)
]
)
),
SynExpr.CreateIdent (Ident.Create "field"),
SynExpr.CreateApp (
SynExpr.createLongIdent [ "ret" ; "Add" ],
SynExpr.CreateParenedTuple
[
SynExpr.CreateApp (
SynExpr.createLongIdent [ "key" ; "ToString" ],
SynExpr.CreateConst SynConst.Unit
)
SynExpr.CreateApp (serializeNode valueType, SynExpr.CreateIdentString "value")
]
),
range0
)
SynExpr.CreateIdentString "ret"
]
|> SynExpr.CreateSequential
|> SynExpr.createLet
[
SynExpr.createLongIdent [ "System" ; "Text" ; "Json" ; "Nodes" ; "JsonObject" ]
|> SynExpr.applyTo (SynExpr.CreateConst SynConst.Unit)
|> SynBinding.basic (SynLongIdent.CreateString "ret") []
]
|> SynExpr.createLambda "field"
| _ ->
// {type}.toJsonNode
let typeName =
match fieldType with
| SynType.LongIdent ident -> ident.LongIdent
| _ -> failwith $"Unrecognised type: %+A{fieldType}"
SynExpr.createLongIdent' (typeName @ [ Ident.Create "toJsonNode" ])
/// propertyName is probably a string literal, but it could be a [<Literal>] variable
/// `node.Add ({propertyName}, {toJsonNode})`
let createSerializeRhsRecord (propertyName : SynExpr) (fieldId : Ident) (fieldType : SynType) : SynExpr =
[
propertyName
SynExpr.CreateApp (serializeNode fieldType, SynExpr.createLongIdent' [ Ident.Create "input" ; fieldId ])
]
|> SynExpr.CreateParenedTuple
|> SynExpr.applyFunction (SynExpr.createLongIdent [ "node" ; "Add" ])
let getPropertyName (fieldId : Ident) (attrs : SynAttribute list) : SynExpr =
let propertyNameAttr =
attrs
|> List.tryFind (fun attr -> attr.TypeName.AsString.EndsWith ("JsonPropertyName", StringComparison.Ordinal))
match propertyNameAttr with
| None ->
let sb = StringBuilder fieldId.idText.Length
sb.Append (Char.ToLowerInvariant fieldId.idText.[0]) |> ignore
if fieldId.idText.Length > 1 then
sb.Append fieldId.idText.[1..] |> ignore
sb.ToString () |> SynConst.CreateString |> SynExpr.CreateConst
| Some name -> name.ArgExpr
/// `populateNode` will be inserted before we return the `node` variable.
///
/// That is, we give you access to a `JsonObject` called `node`,
/// and you have access to a variable `inputArgName` which is of type `typeName`.
/// Your job is to provide a `populateNode` expression which has the side effect
/// of mutating `node` to faithfully reflect the value of `inputArgName`.
let scaffolding
(spec : JsonSerializeOutputSpec)
(typeName : LongIdent)
(inputArgName : Ident)
(populateNode : SynExpr)
: SynModuleDecl
=
let xmlDoc = PreXmlDoc.Create " Serialize to a JSON node"
let returnInfo =
SynLongIdent.Create [ "System" ; "Text" ; "Json" ; "Nodes" ; "JsonNode" ]
|> SynType.LongIdent
let functionName = Ident.Create "toJsonNode"
let assignments =
[
populateNode
SynExpr.Upcast (SynExpr.CreateIdentString "node", SynType.Anon range0, range0)
]
|> SynExpr.CreateSequential
|> SynExpr.createLet
[
SynExpr.createLongIdent [ "System" ; "Text" ; "Json" ; "Nodes" ; "JsonObject" ]
|> SynExpr.applyTo (SynExpr.CreateConst SynConst.Unit)
|> SynBinding.basic (SynLongIdent.CreateString "node") []
]
let pattern =
SynPat.CreateNamed inputArgName
|> SynPat.annotateType (SynType.LongIdent (SynLongIdent.CreateFromLongIdent typeName))
if spec.ExtensionMethods then
let binding =
assignments
|> SynBinding.basic (SynLongIdent.CreateFromLongIdent [ functionName ]) [ pattern ]
|> SynBinding.withXmlDoc xmlDoc
|> SynBinding.withReturnAnnotation returnInfo
|> SynBinding.makeStaticMember
let mem = SynMemberDefn.Member (binding, range0)
let containingType =
SynTypeDefn.SynTypeDefn (
SynComponentInfo.Create (typeName, xmldoc = PreXmlDoc.Create " Extension methods for JSON parsing"),
SynTypeDefnRepr.ObjectModel (SynTypeDefnKind.Augmentation range0, [], range0),
[ mem ],
None,
range0,
{
LeadingKeyword = SynTypeDefnLeadingKeyword.Type range0
EqualsRange = None
WithKeyword = None
}
)
SynModuleDecl.Types ([ containingType ], range0)
else
let binding =
assignments
|> SynBinding.basic (SynLongIdent.CreateFromLongIdent [ functionName ]) [ pattern ]
|> SynBinding.withReturnAnnotation returnInfo
|> SynBinding.withXmlDoc xmlDoc
SynModuleDecl.CreateLet [ binding ]
let recordModule (spec : JsonSerializeOutputSpec) (typeName : LongIdent) (fields : SynField list) =
let inputArg = Ident.Create "input"
let fields = fields |> List.map SynField.extractWithIdent
fields
|> List.map (fun fieldData ->
let propertyName = getPropertyName fieldData.Ident fieldData.Attrs
createSerializeRhsRecord propertyName fieldData.Ident fieldData.Type
)
|> SynExpr.CreateSequential
|> fun expr -> SynExpr.Do (expr, range0)
|> scaffolding spec typeName inputArg
let unionModule (spec : JsonSerializeOutputSpec) (typeName : LongIdent) (cases : SynUnionCase list) =
let inputArg = Ident.Create "input"
let fields = cases |> List.map SynUnionCase.extract
fields
|> List.map (fun unionCase ->
let propertyName = getPropertyName unionCase.Ident unionCase.Attrs
let caseNames = unionCase.Fields |> List.mapi (fun i _ -> Ident.Create $"arg%i{i}")
let argPats = SynArgPats.create caseNames
let pattern =
SynPat.LongIdent (
SynLongIdent.CreateFromLongIdent (typeName @ [ unionCase.Ident ]),
None,
None,
argPats,
None,
range0
)
let typeLine =
[
SynExpr.CreateConstString "type"
SynExpr.CreateApp (
SynExpr.createLongIdent [ "System" ; "Text" ; "Json" ; "Nodes" ; "JsonValue" ; "Create" ],
propertyName
)
]
|> SynExpr.CreateParenedTuple
|> SynExpr.applyFunction (SynExpr.createLongIdent [ "node" ; "Add" ])
let dataNode =
SynBinding.Let (
pattern = SynPat.CreateNamed (Ident.Create "dataNode"),
expr =
SynExpr.CreateApp (
SynExpr.CreateLongIdent (
SynLongIdent.Create [ "System" ; "Text" ; "Json" ; "Nodes" ; "JsonObject" ]
),
SynExpr.CreateConst SynConst.Unit
)
)
let dataBindings =
(unionCase.Fields, caseNames)
||> List.zip
|> List.map (fun (fieldData, caseName) ->
let propertyName = getPropertyName (Option.get fieldData.Ident) fieldData.Attrs
let node =
SynExpr.CreateApp (serializeNode fieldData.Type, SynExpr.CreateIdent caseName)
[ propertyName ; node ]
|> SynExpr.CreateParenedTuple
|> SynExpr.applyFunction (SynExpr.createLongIdent [ "dataNode" ; "Add" ])
)
let assignToNode =
[ SynExpr.CreateConstString "data" ; SynExpr.CreateIdentString "dataNode" ]
|> SynExpr.CreateParenedTuple
|> SynExpr.applyFunction (SynExpr.createLongIdent [ "node" ; "Add" ])
let dataNode =
SynExpr.CreateSequential (dataBindings @ [ assignToNode ])
|> SynExpr.createLet [ dataNode ]
let action =
[
yield typeLine
if not dataBindings.IsEmpty then
yield dataNode
]
|> SynExpr.CreateSequential
SynMatchClause.Create (pattern, None, action)
)
|> fun clauses -> SynExpr.CreateMatch (SynExpr.CreateIdent inputArg, clauses)
|> scaffolding spec typeName inputArg
let createModule
(namespaceId : LongIdent)
(opens : SynOpenDeclTarget list)
(spec : JsonSerializeOutputSpec)
(typeDefn : SynTypeDefn)
=
let (SynTypeDefn (synComponentInfo, synTypeDefnRepr, _members, _implicitCtor, _, _)) =
typeDefn
let (SynComponentInfo (_attributes, _typeParams, _constraints, ident, _, _preferPostfix, _access, _)) =
synComponentInfo
let attributes =
if spec.ExtensionMethods then
[ SynAttributeList.Create SynAttribute.autoOpen ]
else
[
SynAttributeList.Create (SynAttribute.RequireQualifiedAccess ())
SynAttributeList.Create SynAttribute.compilationRepresentation
]
let xmlDoc =
let fullyQualified = ident |> Seq.map (fun i -> i.idText) |> String.concat "."
let description =
if spec.ExtensionMethods then
"extension members"
else
"methods"
$" Module containing JSON serializing %s{description} for the %s{fullyQualified} type"
|> PreXmlDoc.Create
let moduleName =
if spec.ExtensionMethods then
match ident with
| [] -> failwith "unexpectedly got an empty identifier for type name"
| ident ->
let expanded =
List.last ident
|> fun i -> i.idText
|> fun s -> s + "JsonSerializeExtension"
|> Ident.Create
List.take (List.length ident - 1) ident @ [ expanded ]
else
ident
let info =
SynComponentInfo.Create (moduleName, attributes = attributes, xmldoc = xmlDoc)
let decls =
match synTypeDefnRepr with
| SynTypeDefnRepr.Simple (SynTypeDefnSimpleRepr.Record (_accessibility, recordFields, _range), _) ->
[ recordModule spec ident recordFields ]
| SynTypeDefnRepr.Simple (SynTypeDefnSimpleRepr.Union (_accessibility, unionFields, _range), _) ->
[ unionModule spec ident unionFields ]
| _ -> failwithf "Only record types currently supported."
let mdl = SynModuleDecl.CreateNestedModule (info, decls)
SynModuleOrNamespace.CreateNamespace (
namespaceId,
decls = (opens |> List.map SynModuleDecl.CreateOpen) @ [ mdl ]
)
/// Myriad generator that provides a method (possibly an extension method) for a record type,
/// containing a JSON serialization function.
[<MyriadGenerator("json-serialize")>]
type JsonSerializeGenerator () =
interface IMyriadGenerator with
member _.ValidInputExtensions = [ ".fs" ]
member _.Generate (context : GeneratorContext) =
let ast, _ =
Ast.fromFilename context.InputFilename |> Async.RunSynchronously |> Array.head
let recordsAndUnions =
Ast.extractTypeDefn ast
|> List.map (fun (name, defns) ->
defns
|> List.choose (fun defn ->
if Ast.isRecord defn then Some defn
elif Ast.isDu defn then Some defn
else None
)
|> fun defns -> name, defns
)
let namespaceAndTypes =
recordsAndUnions
|> List.choose (fun (ns, types) ->
types
|> List.choose (fun typeDef ->
match Ast.getAttribute<JsonSerializeAttribute> typeDef with
| None -> None
| Some attr ->
let arg =
match SynExpr.stripOptionalParen attr.ArgExpr with
| SynExpr.Const (SynConst.Bool value, _) -> value
| SynExpr.Const (SynConst.Unit, _) -> JsonSerializeAttribute.DefaultIsExtensionMethod
| arg ->
failwith
$"Unrecognised argument %+A{arg} to [<%s{nameof JsonSerializeAttribute}>]. Literals are not supported. Use `true` or `false` (or unit) only."
let spec =
{
ExtensionMethods = arg
}
Some (typeDef, spec)
)
|> function
| [] -> None
| ty -> Some (ns, ty)
)
let opens = AstHelper.extractOpens ast
let modules =
namespaceAndTypes
|> List.collect (fun (ns, types) ->
types
|> List.map (fun (ty, spec) -> JsonSerializeGenerator.createModule ns opens spec ty)
)
Output.Ast modules
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