// This file is part of the Luau programming language and is licensed under MIT License; see LICENSE.txt for details
#include "Luau/ToDot.h"
#include "Luau/ToString.h"
#include "Luau/TypePack.h"
#include "Luau/Type.h"
#include "Luau/TypeFunction.h"
#include "Luau/StringUtils.h"
#include <unordered_map>
#include <unordered_set>
LUAU_FASTFLAG(DebugLuauDeferredConstraintResolution);
namespace Luau
{
namespace
{
struct StateDot
{
StateDot(ToDotOptions opts)
: opts(opts)
{
}
ToDotOptions opts;
std::unordered_set<TypeId> seenTy;
std::unordered_set<TypePackId> seenTp;
std::unordered_map<TypeId, int> tyToIndex;
std::unordered_map<TypePackId, int> tpToIndex;
int nextIndex = 1;
std::string result;
bool canDuplicatePrimitive(TypeId ty);
void visitChildren(TypeId ty, int index);
void visitChildren(TypePackId ty, int index);
void visitChild(TypeId ty, int parentIndex, const char* linkName = nullptr);
void visitChild(TypePackId tp, int parentIndex, const char* linkName = nullptr);
void startNode(int index);
void finishNode();
void startNodeLabel();
void finishNodeLabel(TypeId ty);
void finishNodeLabel(TypePackId tp);
};
bool StateDot::canDuplicatePrimitive(TypeId ty)
{
if (get<BoundType>(ty))
return false;
return get<PrimitiveType>(ty) || get<AnyType>(ty) || get<UnknownType>(ty) || get<NeverType>(ty);
}
void StateDot::visitChild(TypeId ty, int parentIndex, const char* linkName)
{
if (!tyToIndex.count(ty) || (opts.duplicatePrimitives && canDuplicatePrimitive(ty)))
tyToIndex[ty] = nextIndex++;
int index = tyToIndex[ty];
if (parentIndex != 0)
{
if (linkName)
formatAppend(result, "n%d -> n%d [label=\"%s\"];\n", parentIndex, index, linkName);
else
formatAppend(result, "n%d -> n%d;\n", parentIndex, index);
}
if (opts.duplicatePrimitives && canDuplicatePrimitive(ty))
{
if (get<PrimitiveType>(ty))
formatAppend(result, "n%d [label=\"%s\"];\n", index, toString(ty).c_str());
else if (get<AnyType>(ty))
formatAppend(result, "n%d [label=\"any\"];\n", index);
else if (get<UnknownType>(ty))
formatAppend(result, "n%d [label=\"unknown\"];\n", index);
else if (get<NeverType>(ty))
formatAppend(result, "n%d [label=\"never\"];\n", index);
}
else
{
visitChildren(ty, index);
}
}
void StateDot::visitChild(TypePackId tp, int parentIndex, const char* linkName)
{
if (!tpToIndex.count(tp))
tpToIndex[tp] = nextIndex++;
if (parentIndex != 0)
{
if (linkName)
formatAppend(result, "n%d -> n%d [label=\"%s\"];\n", parentIndex, tpToIndex[tp], linkName);
else
formatAppend(result, "n%d -> n%d;\n", parentIndex, tpToIndex[tp]);
}
visitChildren(tp, tpToIndex[tp]);
}
void StateDot::startNode(int index)
{
formatAppend(result, "n%d [", index);
}
void StateDot::finishNode()
{
formatAppend(result, "];\n");
}
void StateDot::startNodeLabel()
{
formatAppend(result, "label=\"");
}
void StateDot::finishNodeLabel(TypeId ty)
{
if (opts.showPointers)
formatAppend(result, "\n0x%p", ty);
// additional common attributes can be added here as well
result += "\"";
}
void StateDot::finishNodeLabel(TypePackId tp)
{
if (opts.showPointers)
formatAppend(result, "\n0x%p", tp);
// additional common attributes can be added here as well
result += "\"";
}
void StateDot::visitChildren(TypeId ty, int index)
{
if (seenTy.count(ty))
return;
seenTy.insert(ty);
startNode(index);
startNodeLabel();
auto go = [&](auto&& t) {
using T = std::decay_t<decltype(t)>;
if constexpr (std::is_same_v<T, BoundType>)
{
formatAppend(result, "BoundType %d", index);
finishNodeLabel(ty);
finishNode();
visitChild(t.boundTo, index);
}
else if constexpr (std::is_same_v<T, BlockedType>)
{
formatAppend(result, "BlockedType %d", index);
finishNodeLabel(ty);
finishNode();
}
else if constexpr (std::is_same_v<T, FunctionType>)
{
formatAppend(result, "FunctionType %d", index);
finishNodeLabel(ty);
finishNode();
visitChild(t.argTypes, index, "arg");
visitChild(t.retTypes, index, "ret");
}
else if constexpr (std::is_same_v<T, TableType>)
{
if (t.name)
formatAppend(result, "TableType %s", t.name->c_str());
else if (t.syntheticName)
formatAppend(result, "TableType %s", t.syntheticName->c_str());
else
formatAppend(result, "TableType %d", index);
finishNodeLabel(ty);
finishNode();
if (t.boundTo)
return visitChild(*t.boundTo, index, "boundTo");
for (const auto& [name, prop] : t.props)
visitChild(prop.type(), index, name.c_str());
if (t.indexer)
{
visitChild(t.indexer->indexType, index, "[index]");
visitChild(t.indexer->indexResultType, index, "[value]");
}
for (TypeId itp : t.instantiatedTypeParams)
visitChild(itp, index, "typeParam");
for (TypePackId itp : t.instantiatedTypePackParams)
visitChild(itp, index, "typePackParam");
}
else if constexpr (std::is_same_v<T, MetatableType>)
{
formatAppend(result, "MetatableType %d", index);
finishNodeLabel(ty);
finishNode();
visitChild(t.table, index, "table");
visitChild(t.metatable, index, "metatable");
}
else if constexpr (std::is_same_v<T, UnionType>)
{
formatAppend(result, "UnionType %d", index);
finishNodeLabel(ty);
finishNode();
for (TypeId opt : t.options)
visitChild(opt, index);
}
else if constexpr (std::is_same_v<T, IntersectionType>)
{
formatAppend(result, "IntersectionType %d", index);
finishNodeLabel(ty);
finishNode();
for (TypeId part : t.parts)
visitChild(part, index);
}
else if constexpr (std::is_same_v<T, LazyType>)
{
formatAppend(result, "LazyType %d", index);
finishNodeLabel(ty);
finishNode();
}
else if constexpr (std::is_same_v<T, PendingExpansionType>)
{
formatAppend(result, "PendingExpansionType %d", index);
finishNodeLabel(ty);
finishNode();
}
else if constexpr (std::is_same_v<T, GenericType>)
{
if (t.explicitName)
formatAppend(result, "GenericType %s", t.name.c_str());
else
formatAppend(result, "GenericType %d", index);
finishNodeLabel(ty);
finishNode();
}
else if constexpr (std::is_same_v<T, FreeType>)
{
formatAppend(result, "FreeType %d", index);
finishNodeLabel(ty);
finishNode();
if (FFlag::DebugLuauDeferredConstraintResolution)
{
if (!get<NeverType>(t.lowerBound))
visitChild(t.lowerBound, index, "[lowerBound]");
if (!get<UnknownType>(t.upperBound))
visitChild(t.upperBound, index, "[upperBound]");
}
}
else if constexpr (std::is_same_v<T, AnyType>)
{
formatAppend(result, "AnyType %d", index);
finishNodeLabel(ty);
finishNode();
}
else if constexpr (std::is_same_v<T, UnknownType>)
{
formatAppend(result, "UnknownType %d", index);
finishNodeLabel(ty);
finishNode();
}
else if constexpr (std::is_same_v<T, NeverType>)
{
formatAppend(result, "NeverType %d", index);
finishNodeLabel(ty);
finishNode();
}
else if constexpr (std::is_same_v<T, PrimitiveType>)
{
formatAppend(result, "PrimitiveType %s", toString(ty).c_str());
finishNodeLabel(ty);
finishNode();
}
else if constexpr (std::is_same_v<T, ErrorType>)
{
formatAppend(result, "ErrorType %d", index);
finishNodeLabel(ty);
finishNode();
}
else if constexpr (std::is_same_v<T, ClassType>)
{
formatAppend(result, "ClassType %s", t.name.c_str());
finishNodeLabel(ty);
finishNode();
for (const auto& [name, prop] : t.props)
visitChild(prop.type(), index, name.c_str());
if (t.parent)
visitChild(*t.parent, index, "[parent]");
if (t.metatable)
visitChild(*t.metatable, index, "[metatable]");
if (t.indexer)
{
visitChild(t.indexer->indexType, index, "[index]");
visitChild(t.indexer->indexResultType, index, "[value]");
}
}
else if constexpr (std::is_same_v<T, SingletonType>)
{
std::string res;
if (const StringSingleton* ss = get<StringSingleton>(&t))
{
// Don't put in quotes anywhere. If it's outside of the call to escape,
// then it's invalid syntax. If it's inside, then escaping is super noisy.
res = "string: " + escape(ss->value);
}
else if (const BooleanSingleton* bs = get<BooleanSingleton>(&t))
{
res = "boolean: ";
res += bs->value ? "true" : "false";
}
else
LUAU_ASSERT(!"unknown singleton type");
formatAppend(result, "SingletonType %s", res.c_str());
finishNodeLabel(ty);
finishNode();
}
else if constexpr (std::is_same_v<T, NegationType>)
{
formatAppend(result, "NegationType %d", index);
finishNodeLabel(ty);
finishNode();
visitChild(t.ty, index, "[negated]");
}
else if constexpr (std::is_same_v<T, TypeFunctionInstanceType>)
{
formatAppend(result, "TypeFunctionInstanceType %s %d", t.function->name.c_str(), index);
finishNodeLabel(ty);
finishNode();
for (TypeId tyParam : t.typeArguments)
visitChild(tyParam, index);
for (TypePackId tpParam : t.packArguments)
visitChild(tpParam, index);
}
else
static_assert(always_false_v<T>, "unknown type kind");
};
visit(go, ty->ty);
}
void StateDot::visitChildren(TypePackId tp, int index)
{
if (seenTp.count(tp))
return;
seenTp.insert(tp);
startNode(index);
startNodeLabel();
if (const BoundTypePack* btp = get<BoundTypePack>(tp))
{
formatAppend(result, "BoundTypePack %d", index);
finishNodeLabel(tp);
finishNode();
visitChild(btp->boundTo, index);
}
else if (const TypePack* tpp = get<TypePack>(tp))
{
formatAppend(result, "TypePack %d", index);
finishNodeLabel(tp);
finishNode();
for (TypeId tv : tpp->head)
visitChild(tv, index);
if (tpp->tail)
visitChild(*tpp->tail, index, "tail");
}
else if (const VariadicTypePack* vtp = get<VariadicTypePack>(tp))
{
formatAppend(result, "VariadicTypePack %s%d", vtp->hidden ? "hidden " : "", index);
finishNodeLabel(tp);
finishNode();
visitChild(vtp->ty, index);
}
else if (const FreeTypePack* ftp = get<FreeTypePack>(tp))
{
formatAppend(result, "FreeTypePack %d", index);
finishNodeLabel(tp);
finishNode();
}
else if (const GenericTypePack* gtp = get<GenericTypePack>(tp))
{
if (gtp->explicitName)
formatAppend(result, "GenericTypePack %s", gtp->name.c_str());
else
formatAppend(result, "GenericTypePack %d", index);
finishNodeLabel(tp);
finishNode();
}
else if (get<Unifiable::Error>(tp))
{
formatAppend(result, "ErrorTypePack %d", index);
finishNodeLabel(tp);
finishNode();
}
else
{
LUAU_ASSERT(!"unknown type pack kind");
finishNodeLabel(tp);
finishNode();
}
}
} // namespace
std::string toDot(TypeId ty, const ToDotOptions& opts)
{
StateDot state{opts};
state.result = "digraph graphname {\n";
state.visitChild(ty, 0);
state.result += "}";
return state.result;
}
std::string toDot(TypePackId tp, const ToDotOptions& opts)
{
StateDot state{opts};
state.result = "digraph graphname {\n";
state.visitChild(tp, 0);
state.result += "}";
return state.result;
}
std::string toDot(TypeId ty)
{
return toDot(ty, {});
}
std::string toDot(TypePackId tp)
{
return toDot(tp, {});
}
void dumpDot(TypeId ty)
{
printf("%s\n", toDot(ty).c_str());
}
void dumpDot(TypePackId tp)
{
printf("%s\n", toDot(tp).c_str());
}
} // namespace Luau