//===-- FormatManager.h -----------------------------------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #ifndef lldb_FormatManager_h_ #define lldb_FormatManager_h_ // C Includes // C++ Includes #include #include #include #include #include // Other libraries and framework includes // Project includes #include "lldb/lldb-enumerations.h" #include "lldb/lldb-public.h" #include "lldb/DataFormatters/FormatCache.h" #include "lldb/DataFormatters/FormatClasses.h" #include "lldb/DataFormatters/FormattersContainer.h" #include "lldb/DataFormatters/LanguageCategory.h" #include "lldb/DataFormatters/TypeCategory.h" #include "lldb/DataFormatters/TypeCategoryMap.h" namespace lldb_private { // this file (and its. cpp) contain the low-level implementation of LLDB Data // Visualization class DataVisualization is the high-level front-end of this // feature clients should refer to that class as the entry-point into the data // formatters unless they have a good reason to bypass it and prefer to use // this file's objects directly class FormatManager : public IFormatChangeListener { typedef FormatMap NamedSummariesMap; typedef TypeCategoryMap::MapType::iterator CategoryMapIterator; public: typedef std::map LanguageCategories; FormatManager(); ~FormatManager() override = default; NamedSummariesMap &GetNamedSummaryContainer() { return m_named_summaries_map; } void EnableCategory(const ConstString &category_name, TypeCategoryMap::Position pos = TypeCategoryMap::Default) { EnableCategory(category_name, pos, std::initializer_list()); } void EnableCategory(const ConstString &category_name, TypeCategoryMap::Position pos, lldb::LanguageType lang) { std::initializer_list langs = {lang}; EnableCategory(category_name, pos, langs); } void EnableCategory(const ConstString &category_name, TypeCategoryMap::Position pos = TypeCategoryMap::Default, std::initializer_list langs = {}) { TypeCategoryMap::ValueSP category_sp; if (m_categories_map.Get(category_name, category_sp) && category_sp) { m_categories_map.Enable(category_sp, pos); for (const lldb::LanguageType lang : langs) category_sp->AddLanguage(lang); } } void DisableCategory(const ConstString &category_name) { m_categories_map.Disable(category_name); } void EnableCategory(const lldb::TypeCategoryImplSP &category, TypeCategoryMap::Position pos = TypeCategoryMap::Default) { m_categories_map.Enable(category, pos); } void DisableCategory(const lldb::TypeCategoryImplSP &category) { m_categories_map.Disable(category); } void EnableAllCategories(); void DisableAllCategories(); bool DeleteCategory(const ConstString &category_name) { return m_categories_map.Delete(category_name); } void ClearCategories() { return m_categories_map.Clear(); } uint32_t GetCategoriesCount() { return m_categories_map.GetCount(); } lldb::TypeCategoryImplSP GetCategoryAtIndex(size_t index) { return m_categories_map.GetAtIndex(index); } void ForEachCategory(TypeCategoryMap::ForEachCallback callback); lldb::TypeCategoryImplSP GetCategory(const char *category_name = nullptr, bool can_create = true) { if (!category_name) return GetCategory(m_default_category_name); return GetCategory(ConstString(category_name)); } lldb::TypeCategoryImplSP GetCategory(const ConstString &category_name, bool can_create = true); lldb::TypeFormatImplSP GetFormatForType(lldb::TypeNameSpecifierImplSP type_sp); lldb::TypeSummaryImplSP GetSummaryForType(lldb::TypeNameSpecifierImplSP type_sp); lldb::TypeFilterImplSP GetFilterForType(lldb::TypeNameSpecifierImplSP type_sp); #ifndef LLDB_DISABLE_PYTHON lldb::ScriptedSyntheticChildrenSP GetSyntheticForType(lldb::TypeNameSpecifierImplSP type_sp); #endif #ifndef LLDB_DISABLE_PYTHON lldb::SyntheticChildrenSP GetSyntheticChildrenForType(lldb::TypeNameSpecifierImplSP type_sp); #endif lldb::TypeValidatorImplSP GetValidatorForType(lldb::TypeNameSpecifierImplSP type_sp); lldb::TypeFormatImplSP GetFormat(ValueObject &valobj, lldb::DynamicValueType use_dynamic); lldb::TypeSummaryImplSP GetSummaryFormat(ValueObject &valobj, lldb::DynamicValueType use_dynamic); #ifndef LLDB_DISABLE_PYTHON lldb::SyntheticChildrenSP GetSyntheticChildren(ValueObject &valobj, lldb::DynamicValueType use_dynamic); #endif lldb::TypeValidatorImplSP GetValidator(ValueObject &valobj, lldb::DynamicValueType use_dynamic); bool AnyMatches(ConstString type_name, TypeCategoryImpl::FormatCategoryItems items = TypeCategoryImpl::ALL_ITEM_TYPES, bool only_enabled = true, const char **matching_category = nullptr, TypeCategoryImpl::FormatCategoryItems *matching_type = nullptr) { return m_categories_map.AnyMatches(type_name, items, only_enabled, matching_category, matching_type); } static bool GetFormatFromCString(const char *format_cstr, bool partial_match_ok, lldb::Format &format); static char GetFormatAsFormatChar(lldb::Format format); static const char *GetFormatAsCString(lldb::Format format); // if the user tries to add formatters for, say, "struct Foo" those will not // match any type because of the way we strip qualifiers from typenames this // method looks for the case where the user is adding a // "class","struct","enum" or "union" Foo and strips the unnecessary // qualifier static ConstString GetValidTypeName(const ConstString &type); // when DataExtractor dumps a vectorOfT, it uses a predefined format for each // item this method returns it, or eFormatInvalid if vector_format is not a // vectorOf static lldb::Format GetSingleItemFormat(lldb::Format vector_format); // this returns true if the ValueObjectPrinter is *highly encouraged* to // actually represent this ValueObject in one-liner format If this object has // a summary formatter, however, we should not try and do one-lining, just // let the summary do the right thing bool ShouldPrintAsOneLiner(ValueObject &valobj); void Changed() override; uint32_t GetCurrentRevision() override { return m_last_revision; } static FormattersMatchVector GetPossibleMatches(ValueObject &valobj, lldb::DynamicValueType use_dynamic) { FormattersMatchVector matches; GetPossibleMatches(valobj, valobj.GetCompilerType(), lldb_private::eFormatterChoiceCriterionDirectChoice, use_dynamic, matches, false, false, false, true); return matches; } static ConstString GetTypeForCache(ValueObject &, lldb::DynamicValueType); LanguageCategory *GetCategoryForLanguage(lldb::LanguageType lang_type); static std::vector GetCandidateLanguages(lldb::LanguageType lang_type); private: static std::vector GetCandidateLanguages(ValueObject &valobj); static void GetPossibleMatches(ValueObject &valobj, CompilerType compiler_type, uint32_t reason, lldb::DynamicValueType use_dynamic, FormattersMatchVector &entries, bool did_strip_ptr, bool did_strip_ref, bool did_strip_typedef, bool root_level = false); std::atomic m_last_revision; FormatCache m_format_cache; std::recursive_mutex m_language_categories_mutex; LanguageCategories m_language_categories_map; NamedSummariesMap m_named_summaries_map; TypeCategoryMap m_categories_map; ConstString m_default_category_name; ConstString m_system_category_name; ConstString m_vectortypes_category_name; lldb::TypeFormatImplSP GetHardcodedFormat(FormattersMatchData &); lldb::TypeSummaryImplSP GetHardcodedSummaryFormat(FormattersMatchData &); lldb::SyntheticChildrenSP GetHardcodedSyntheticChildren(FormattersMatchData &); lldb::TypeValidatorImplSP GetHardcodedValidator(FormattersMatchData &); TypeCategoryMap &GetCategories() { return m_categories_map; } // These functions are meant to initialize formatters that are very low- // level/global in nature and do not naturally belong in any language. The // intent is that most formatters go in language-specific categories. // Eventually, the runtimes should also be allowed to vend their own // formatters, and then one could put formatters that depend on specific // library load events in the language runtimes, on an as-needed basis void LoadSystemFormatters(); void LoadVectorFormatters(); friend class FormattersMatchData; }; } // namespace lldb_private #endif // lldb_FormatManager_h_