luau/Analysis/src/RequireTracer.cpp
2022-06-16 18:05:14 -07:00

166 lines
5 KiB
C++

// This file is part of the Luau programming language and is licensed under MIT License; see LICENSE.txt for details
#include "Luau/RequireTracer.h"
#include "Luau/Ast.h"
#include "Luau/Module.h"
namespace Luau
{
struct RequireTracer : AstVisitor
{
RequireTracer(RequireTraceResult& result, FileResolver* fileResolver, const ModuleName& currentModuleName)
: result(result)
, fileResolver(fileResolver)
, currentModuleName(currentModuleName)
, locals(nullptr)
{
}
bool visit(AstExprTypeAssertion* expr) override
{
// suppress `require() :: any`
return false;
}
bool visit(AstExprCall* expr) override
{
AstExprGlobal* global = expr->func->as<AstExprGlobal>();
if (global && global->name == "require" && expr->args.size >= 1)
requireCalls.push_back(expr);
return true;
}
bool visit(AstStatLocal* stat) override
{
for (size_t i = 0; i < stat->vars.size && i < stat->values.size; ++i)
{
AstLocal* local = stat->vars.data[i];
AstExpr* expr = stat->values.data[i];
// track initializing expression to be able to trace modules through locals
locals[local] = expr;
}
return true;
}
bool visit(AstStatAssign* stat) override
{
for (size_t i = 0; i < stat->vars.size; ++i)
{
// locals that are assigned don't have a known expression
if (AstExprLocal* expr = stat->vars.data[i]->as<AstExprLocal>())
locals[expr->local] = nullptr;
}
return true;
}
bool visit(AstType* node) override
{
// allow resolving require inside `typeof` annotations
return true;
}
AstExpr* getDependent(AstExpr* node)
{
if (AstExprLocal* expr = node->as<AstExprLocal>())
return locals[expr->local];
else if (AstExprIndexName* expr = node->as<AstExprIndexName>())
return expr->expr;
else if (AstExprIndexExpr* expr = node->as<AstExprIndexExpr>())
return expr->expr;
else if (AstExprCall* expr = node->as<AstExprCall>(); expr && expr->self)
return expr->func->as<AstExprIndexName>()->expr;
else
return nullptr;
}
void process()
{
ModuleInfo moduleContext{currentModuleName};
// seed worklist with require arguments
work.reserve(requireCalls.size());
for (AstExprCall* require : requireCalls)
work.push_back(require->args.data[0]);
// push all dependent expressions to the work stack; note that the vector is modified during traversal
for (size_t i = 0; i < work.size(); ++i)
if (AstExpr* dep = getDependent(work[i]))
work.push_back(dep);
// resolve all expressions to a module info
for (size_t i = work.size(); i > 0; --i)
{
AstExpr* expr = work[i - 1];
// when multiple expressions depend on the same one we push it to work queue multiple times
if (result.exprs.contains(expr))
continue;
std::optional<ModuleInfo> info;
if (AstExpr* dep = getDependent(expr))
{
const ModuleInfo* context = result.exprs.find(dep);
// locals just inherit their dependent context, no resolution required
if (expr->is<AstExprLocal>())
info = context ? std::optional<ModuleInfo>(*context) : std::nullopt;
else
info = fileResolver->resolveModule(context, expr);
}
else
{
info = fileResolver->resolveModule(&moduleContext, expr);
}
if (info)
result.exprs[expr] = std::move(*info);
}
// resolve all requires according to their argument
result.requireList.reserve(requireCalls.size());
for (AstExprCall* require : requireCalls)
{
AstExpr* arg = require->args.data[0];
if (const ModuleInfo* info = result.exprs.find(arg))
{
result.requireList.push_back({info->name, require->location});
ModuleInfo infoCopy = *info; // copy *info out since next line invalidates info!
result.exprs[require] = std::move(infoCopy);
}
else
{
result.exprs[require] = {}; // mark require as unresolved
}
}
}
RequireTraceResult& result;
FileResolver* fileResolver;
ModuleName currentModuleName;
DenseHashMap<AstLocal*, AstExpr*> locals;
std::vector<AstExpr*> work;
std::vector<AstExprCall*> requireCalls;
};
RequireTraceResult traceRequires(FileResolver* fileResolver, AstStatBlock* root, const ModuleName& currentModuleName)
{
RequireTraceResult result;
RequireTracer tracer{result, fileResolver, currentModuleName};
root->visit(&tracer);
tracer.process();
return result;
}
} // namespace Luau