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don't use neko.Lib.rethrow when not in neko

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This commit is contained in:
Simon Krajewski
2017-06-01 12:58:51 +02:00
parent 73e9da8435
commit c150b84f18
2 changed files with 67 additions and 67 deletions
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116
src/tink/macro/ClassBuilder.hx
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@@ -9,51 +9,51 @@ using tink.MacroApi;
using Lambda; using Lambda;
class ClassBuilder { class ClassBuilder {
var memberList:Array<Member>; var memberList:Array<Member>;
var macros:Map<String,Field>; var macros:Map<String,Field>;
var constructor:Null<Constructor>; var constructor:Null<Constructor>;
public var target(default, null):ClassType; public var target(default, null):ClassType;
var superFields:Map<String,Bool>; var superFields:Map<String,Bool>;
var initializeFrom:Array<Field>; var initializeFrom:Array<Field>;
public function new(?target, ?fields) { public function new(?target, ?fields) {
if (target == null) if (target == null)
target = Context.getLocalClass().get(); target = Context.getLocalClass().get();
if (fields == null) if (fields == null)
fields = Context.getBuildFields(); fields = Context.getBuildFields();
this.initializeFrom = fields; this.initializeFrom = fields;
this.target = target; this.target = target;
} }
function init() { function init() {
if (initializeFrom == null) return; if (initializeFrom == null) return;
var fields = initializeFrom; var fields = initializeFrom;
initializeFrom = null; initializeFrom = null;
this.memberList = []; this.memberList = [];
this.macros = new Map(); this.macros = new Map();
for (field in fields) for (field in fields)
if (field.access.has(AMacro)) if (field.access.has(AMacro))
macros.set(field.name, field) macros.set(field.name, field)
else if (field.name == 'new') { else if (field.name == 'new') {
var m:Member = field; var m:Member = field;
this.constructor = new Constructor(this, m.getFunction().sure(), m.isPublic, m.pos, field.meta); this.constructor = new Constructor(this, m.getFunction().sure(), m.isPublic, m.pos, field.meta);
} }
else else
doAddMember(field); doAddMember(field);
} }
public function getConstructor(?fallback:Function):Constructor { public function getConstructor(?fallback:Function):Constructor {
init(); init();
if (constructor == null) if (constructor == null)
if (fallback != null) if (fallback != null)
constructor = new Constructor(this, fallback); constructor = new Constructor(this, fallback);
else { else {
@@ -64,18 +64,18 @@ class ClassBuilder {
try { try {
var ctor = cl.constructor.get(); var ctor = cl.constructor.get();
var func = Context.getTypedExpr(ctor.expr()).getFunction().sure(); var func = Context.getTypedExpr(ctor.expr()).getFunction().sure();
for (arg in func.args) //this is to deal with type parameter substitutions for (arg in func.args) //this is to deal with type parameter substitutions
arg.type = null; arg.type = null;
func.expr = "super".resolve().call(func.getArgIdents()); func.expr = "super".resolve().call(func.getArgIdents());
constructor = new Constructor(this, func); constructor = new Constructor(this, func);
if (ctor.isPublic) if (ctor.isPublic)
constructor.publish(); constructor.publish();
} }
catch (e:Dynamic) {//fails for unknown reason catch (e:Dynamic) {//fails for unknown reason
if (e == 'assert') if (e == 'assert')
neko.Lib.rethrow(e); #if neko neko.Lib.rethrow(e) #else throw e #end;
constructor = new Constructor(this, null); constructor = new Constructor(this, null);
} }
break; break;
@@ -85,15 +85,15 @@ class ClassBuilder {
if (constructor == null) if (constructor == null)
constructor = new Constructor(this, null); constructor = new Constructor(this, null);
} }
return constructor; return constructor;
} }
public function hasConstructor():Bool { public function hasConstructor():Bool {
init(); init();
return this.constructor != null; return this.constructor != null;
} }
public function export(?verbose):Array<Field> { public function export(?verbose):Array<Field> {
if (initializeFrom != null) return null; if (initializeFrom != null) return null;
var ret = (constructor == null || target.isInterface) ? [] : [constructor.toHaxe()]; var ret = (constructor == null || target.isInterface) ? [] : [constructor.toHaxe()];
@@ -108,24 +108,24 @@ class ClassBuilder {
} }
for (m in macros) for (m in macros)
ret.push(m); ret.push(m);
if (verbose) if (verbose)
for (field in ret) for (field in ret)
Context.warning(new Printer().printField(field), field.pos); Context.warning(new Printer().printField(field), field.pos);
return ret; return ret;
} }
public function iterator():Iterator<Member> { public function iterator():Iterator<Member> {
init(); init();
return this.memberList.copy().iterator(); return this.memberList.copy().iterator();
} }
public function hasOwnMember(name:String):Bool { public function hasOwnMember(name:String):Bool {
init(); init();
return return
macros.exists(name) || memberByName(name).isSuccess(); macros.exists(name) || memberByName(name).isSuccess();
} }
public function hasSuperField(name:String):Bool { public function hasSuperField(name:String):Bool {
if (superFields == null) { if (superFields == null) {
superFields = new Map(); superFields = new Map();
@@ -139,51 +139,51 @@ class ClassBuilder {
} }
return superFields.get(name); return superFields.get(name);
} }
public function memberByName(name:String, ?pos:Position) { public function memberByName(name:String, ?pos:Position) {
init(); init();
for (m in memberList) for (m in memberList)
if (m.name == name) if (m.name == name)
return Success(m); return Success(m);
return pos.makeFailure('unknown member $name'); return pos.makeFailure('unknown member $name');
} }
public function removeMember(member:Member):Bool { public function removeMember(member:Member):Bool {
init(); init();
return return
memberList.remove(member); memberList.remove(member);
} }
public function hasMember(name:String):Bool public function hasMember(name:String):Bool
return hasOwnMember(name) || hasSuperField(name); return hasOwnMember(name) || hasSuperField(name);
function doAddMember(m:Member, ?front:Bool = false):Member { function doAddMember(m:Member, ?front:Bool = false):Member {
init(); init();
if (m.name == 'new') if (m.name == 'new')
throw 'Constructor must not be registered as ordinary member'; throw 'Constructor must not be registered as ordinary member';
//if (hasOwnMember(m.name)) //if (hasOwnMember(m.name))
//m.pos.error('duplicate member declaration ' + m.name); //m.pos.error('duplicate member declaration ' + m.name);
if (front) if (front)
memberList.unshift(m); memberList.unshift(m);
else else
memberList.push(m); memberList.push(m);
return m;
}
public function addMember(m:Member, ?front:Bool = false):Member {
doAddMember(m, front);
if (!m.isStatic && hasSuperField(m.name))
m.overrides = true;
return m; return m;
} }
public function addMember(m:Member, ?front:Bool = false):Member {
doAddMember(m, front);
if (!m.isStatic && hasSuperField(m.name))
m.overrides = true;
return m;
}
static public function run(plugins:Array<ClassBuilder->Void>, ?verbose) { static public function run(plugins:Array<ClassBuilder->Void>, ?verbose) {
var builder = new ClassBuilder(); var builder = new ClassBuilder();
for (p in plugins) for (p in plugins)

18
src/tink/macro/Types.hx
View File

@@ -19,10 +19,10 @@ class Types {
try { try {
Some(Context.getType(typeName)); Some(Context.getType(typeName));
} }
catch (e:Dynamic) catch (e:Dynamic)
if (Std.string(e) == 'Type not found \'$typeName\'') None; if (Std.string(e) == 'Type not found \'$typeName\'') None;
else neko.Lib.rethrow(e); else #if neko neko.Lib.rethrow(e) #else throw e #end;
static var types = new Map<Int,Void->Type>(); static var types = new Map<Int,Void->Type>();
static var idCounter = 0; static var idCounter = 0;
static public function getID(t:Type, ?reduced = true) static public function getID(t:Type, ?reduced = true)
@@ -49,7 +49,7 @@ class Types {
throw 'not implemented'; throw 'not implemented';
} }
static public function getMeta(type:Type) static public function getMeta(type:Type)
return switch type { return switch type {
case TInst(_.get().meta => m, _): [m]; case TInst(_.get().meta => m, _): [m];
case TEnum(_.get().meta => m, _): [m]; case TEnum(_.get().meta => m, _): [m];
@@ -183,14 +183,14 @@ class Types {
params : [TPExpr(register(f).toExpr())], params : [TPExpr(register(f).toExpr())],
sub : null, sub : null,
}); });
static function resolveDirectType() static function resolveDirectType()
return return
switch reduce(Context.getLocalType()) { switch reduce(Context.getLocalType()) {
case TInst(_, [TInst(_.get() => { kind: KExpr(e) }, _)]): case TInst(_, [TInst(_.get() => { kind: KExpr(e) }, _)]):
types[e.getInt().sure()]();//When using compiler server, this call throws on occasion, in which case modifying this file (to update mtime and invalidate the cache) will solve the problem types[e.getInt().sure()]();//When using compiler server, this call throws on occasion, in which case modifying this file (to update mtime and invalidate the cache) will solve the problem
default: default:
throw 'assert'; throw 'assert';
} }
} }