luau/Analysis/include/Luau/Frontend.h

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// This file is part of the Luau programming language and is licensed under MIT License; see LICENSE.txt for details
#pragma once
#include "Luau/Config.h"
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#include "Luau/GlobalTypes.h"
#include "Luau/Module.h"
#include "Luau/ModuleResolver.h"
#include "Luau/RequireTracer.h"
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#include "Luau/Scope.h"
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#include "Luau/TypeCheckLimits.h"
#include "Luau/Variant.h"
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#include <mutex>
#include <string>
#include <vector>
#include <optional>
namespace Luau
{
class AstStat;
class ParseError;
struct Frontend;
struct TypeError;
struct LintWarning;
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struct GlobalTypes;
struct TypeChecker;
struct FileResolver;
struct ModuleResolver;
struct ParseResult;
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struct HotComment;
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struct BuildQueueItem;
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struct FrontendCancellationToken;
struct LoadDefinitionFileResult
{
bool success;
ParseResult parseResult;
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SourceModule sourceModule;
ModulePtr module;
};
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std::optional<Mode> parseMode(const std::vector<HotComment>& hotcomments);
std::vector<std::string_view> parsePathExpr(const AstExpr& pathExpr);
// Exported only for convenient testing.
std::optional<ModuleName> pathExprToModuleName(const ModuleName& currentModuleName, const std::vector<std::string_view>& expr);
/** Try to convert an AST fragment into a ModuleName.
* Returns std::nullopt if the expression cannot be resolved. This will most likely happen in cases where
* the import path involves some dynamic computation that we cannot see into at typechecking time.
*
* Unintuitively, weirdly-formulated modules (like game.Parent.Parent.Parent.Foo) will successfully produce a ModuleName
* as long as it falls within the permitted syntax. This is ok because we will fail to find the module and produce an
* error when we try during typechecking.
*/
std::optional<ModuleName> pathExprToModuleName(const ModuleName& currentModuleName, const AstExpr& expr);
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struct SourceNode
{
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bool hasDirtySourceModule() const
{
return dirtySourceModule;
}
bool hasDirtyModule(bool forAutocomplete) const
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{
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return forAutocomplete ? dirtyModuleForAutocomplete : dirtyModule;
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}
ModuleName name;
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std::string humanReadableName;
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std::unordered_set<ModuleName> requireSet;
std::vector<std::pair<ModuleName, Location>> requireLocations;
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bool dirtySourceModule = true;
bool dirtyModule = true;
bool dirtyModuleForAutocomplete = true;
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double autocompleteLimitsMult = 1.0;
};
struct FrontendOptions
{
// When true, we retain full type information about every term in the AST.
// Setting this to false cuts back on RAM and is a good idea for batch
// jobs where the type graph is not deeply inspected after typechecking
// is complete.
bool retainFullTypeGraphs = false;
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// Run typechecking only in mode required for autocomplete (strict mode in
// order to get more precise type information)
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bool forAutocomplete = false;
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bool runLintChecks = false;
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// If not empty, randomly shuffle the constraint set before attempting to
// solve. Use this value to seed the random number generator.
std::optional<unsigned> randomizeConstraintResolutionSeed;
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std::optional<LintOptions> enabledLintWarnings;
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std::shared_ptr<FrontendCancellationToken> cancellationToken;
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// Time limit for typechecking a single module
std::optional<double> moduleTimeLimitSec;
// When true, some internal complexity limits will be scaled down for modules that miss the limit set by moduleTimeLimitSec
bool applyInternalLimitScaling = false;
};
struct CheckResult
{
std::vector<TypeError> errors;
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LintResult lintResult;
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std::vector<ModuleName> timeoutHits;
};
struct FrontendModuleResolver : ModuleResolver
{
FrontendModuleResolver(Frontend* frontend);
const ModulePtr getModule(const ModuleName& moduleName) const override;
bool moduleExists(const ModuleName& moduleName) const override;
std::optional<ModuleInfo> resolveModuleInfo(const ModuleName& currentModuleName, const AstExpr& pathExpr) override;
std::string getHumanReadableModuleName(const ModuleName& moduleName) const override;
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void setModule(const ModuleName& moduleName, ModulePtr module);
void clearModules();
private:
Frontend* frontend;
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mutable std::mutex moduleMutex;
std::unordered_map<ModuleName, ModulePtr> modules;
};
struct Frontend
{
struct Stats
{
size_t files = 0;
size_t lines = 0;
size_t filesStrict = 0;
size_t filesNonstrict = 0;
double timeRead = 0;
double timeParse = 0;
double timeCheck = 0;
double timeLint = 0;
};
Frontend(FileResolver* fileResolver, ConfigResolver* configResolver, const FrontendOptions& options = {});
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// Parse module graph and prepare SourceNode/SourceModule data, including required dependencies without running typechecking
void parse(const ModuleName& name);
// Parse and typecheck module graph
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CheckResult check(const ModuleName& name, std::optional<FrontendOptions> optionOverride = {}); // new shininess
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bool isDirty(const ModuleName& name, bool forAutocomplete = false) const;
void markDirty(const ModuleName& name, std::vector<ModuleName>* markedDirty = nullptr);
/** Borrow a pointer into the SourceModule cache.
*
* Returns nullptr if we don't have it. This could mean that the script
* doesn't exist, or simply that its contents have changed since the previous
* check, in which case we do not have its AST.
*
* IMPORTANT: this pointer is only valid until the next call to markDirty. Do not retain it.
*/
SourceModule* getSourceModule(const ModuleName& name);
const SourceModule* getSourceModule(const ModuleName& name) const;
void clearStats();
void clear();
ScopePtr addEnvironment(const std::string& environmentName);
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ScopePtr getEnvironmentScope(const std::string& environmentName) const;
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void registerBuiltinDefinition(const std::string& name, std::function<void(Frontend&, GlobalTypes&, ScopePtr)>);
void applyBuiltinDefinitionToEnvironment(const std::string& environmentName, const std::string& definitionName);
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LoadDefinitionFileResult loadDefinitionFile(GlobalTypes& globals, ScopePtr targetScope, std::string_view source, const std::string& packageName,
bool captureComments, bool typeCheckForAutocomplete = false);
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// Batch module checking. Queue modules and check them together, retrieve results with 'getCheckResult'
// If provided, 'executeTask' function is allowed to call the 'task' function on any thread and return without waiting for 'task' to complete
void queueModuleCheck(const std::vector<ModuleName>& names);
void queueModuleCheck(const ModuleName& name);
std::vector<ModuleName> checkQueuedModules(std::optional<FrontendOptions> optionOverride = {},
std::function<void(std::function<void()> task)> executeTask = {}, std::function<void(size_t done, size_t total)> progress = {});
std::optional<CheckResult> getCheckResult(const ModuleName& name, bool accumulateNested, bool forAutocomplete = false);
private:
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ModulePtr check(const SourceModule& sourceModule, Mode mode, std::vector<RequireCycle> requireCycles, std::optional<ScopePtr> environmentScope,
bool forAutocomplete, bool recordJsonLog, TypeCheckLimits typeCheckLimits);
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std::pair<SourceNode*, SourceModule*> getSourceNode(const ModuleName& name);
SourceModule parse(const ModuleName& name, std::string_view src, const ParseOptions& parseOptions);
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bool parseGraph(
std::vector<ModuleName>& buildQueue, const ModuleName& root, bool forAutocomplete, std::function<bool(const ModuleName&)> canSkip = {});
void addBuildQueueItems(std::vector<BuildQueueItem>& items, std::vector<ModuleName>& buildQueue, bool cycleDetected,
std::unordered_set<Luau::ModuleName>& seen, const FrontendOptions& frontendOptions);
void checkBuildQueueItem(BuildQueueItem& item);
void checkBuildQueueItems(std::vector<BuildQueueItem>& items);
void recordItemResult(const BuildQueueItem& item);
static LintResult classifyLints(const std::vector<LintWarning>& warnings, const Config& config);
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ScopePtr getModuleEnvironment(const SourceModule& module, const Config& config, bool forAutocomplete) const;
std::unordered_map<std::string, ScopePtr> environments;
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std::unordered_map<std::string, std::function<void(Frontend&, GlobalTypes&, ScopePtr)>> builtinDefinitions;
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BuiltinTypes builtinTypes_;
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public:
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const NotNull<BuiltinTypes> builtinTypes;
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FileResolver* fileResolver;
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FrontendModuleResolver moduleResolver;
FrontendModuleResolver moduleResolverForAutocomplete;
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GlobalTypes globals;
GlobalTypes globalsForAutocomplete;
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ConfigResolver* configResolver;
FrontendOptions options;
InternalErrorReporter iceHandler;
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std::function<void(const ModuleName& name, const ScopePtr& scope, bool forAutocomplete)> prepareModuleScope;
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std::unordered_map<ModuleName, std::shared_ptr<SourceNode>> sourceNodes;
std::unordered_map<ModuleName, std::shared_ptr<SourceModule>> sourceModules;
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std::unordered_map<ModuleName, RequireTraceResult> requireTrace;
Stats stats = {};
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std::vector<ModuleName> moduleQueue;
};
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ModulePtr check(const SourceModule& sourceModule, Mode mode, const std::vector<RequireCycle>& requireCycles, NotNull<BuiltinTypes> builtinTypes,
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NotNull<InternalErrorReporter> iceHandler, NotNull<ModuleResolver> moduleResolver, NotNull<FileResolver> fileResolver,
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const ScopePtr& globalScope, std::function<void(const ModuleName&, const ScopePtr&)> prepareModuleScope, FrontendOptions options,
TypeCheckLimits limits);
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ModulePtr check(const SourceModule& sourceModule, Mode mode, const std::vector<RequireCycle>& requireCycles, NotNull<BuiltinTypes> builtinTypes,
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NotNull<InternalErrorReporter> iceHandler, NotNull<ModuleResolver> moduleResolver, NotNull<FileResolver> fileResolver,
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const ScopePtr& globalScope, std::function<void(const ModuleName&, const ScopePtr&)> prepareModuleScope, FrontendOptions options,
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TypeCheckLimits limits, bool recordJsonLog);
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} // namespace Luau