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#ifndef FLATBUFFERS_NAMER
#define FLATBUFFERS_NAMER
#include "flatbuffers/util.h"
namespace flatbuffers {
// Options for Namer::File.
enum class SkipFile {
None = 0,
Suffix = 1,
Extension = 2,
SuffixAndExtension = 3,
};
inline SkipFile operator&(SkipFile a, SkipFile b) {
return static_cast<SkipFile>(static_cast<int>(a) & static_cast<int>(b));
}
// Options for Namer::Directories
enum class SkipDir {
None = 0,
// Skip prefixing the -o $output_path.
OutputPath = 1,
// Skip trailing path seperator.
TrailingPathSeperator = 2,
OutputPathAndTrailingPathSeparator = 3,
};
inline SkipDir operator&(SkipDir a, SkipDir b) {
return static_cast<SkipDir>(static_cast<int>(a) & static_cast<int>(b));
}
// `Namer` applies style configuration to symbols in generated code. It manages
// casing, escapes keywords, and object API naming.
// TODO: Refactor all code generators to use this.
class Namer {
public:
struct Config {
// Symbols in code.
// Case style for flatbuffers-defined types.
// e.g. `class TableA {}`
Case types;
// Case style for flatbuffers-defined constants.
// e.g. `uint64_t ENUM_A_MAX`;
Case constants;
// Case style for flatbuffers-defined methods.
// e.g. `class TableA { int field_a(); }`
Case methods;
// Case style for flatbuffers-defined functions.
// e.g. `TableA* get_table_a_root()`;
Case functions;
// Case style for flatbuffers-defined fields.
// e.g. `struct Struct { int my_field; }`
Case fields;
// Case style for flatbuffers-defined variables.
// e.g. `int my_variable = 2`
Case variables;
// Case style for flatbuffers-defined variants.
// e.g. `enum class Enum { MyVariant, }`
Case variants;
// Seperator for qualified enum names.
// e.g. `Enum::MyVariant` uses `::`.
std::string enum_variant_seperator;
// Configures, when formatting code, whether symbols are checked against
// keywords and escaped before or after case conversion. It does not make
// sense to do so before, but its legacy behavior. :shrug:
// TODO(caspern): Deprecate.
enum class Escape {
BeforeConvertingCase,
AfterConvertingCase,
};
Escape escape_keywords;
// Namespaces
// e.g. `namespace my_namespace {}`
Case namespaces;
// The seperator between namespaces in a namespace path.
std::string namespace_seperator;
// Object API.
// Native versions flatbuffers types have this prefix.
// e.g. "" (it's usually empty string)
std::string object_prefix;
// Native versions flatbuffers types have this suffix.
// e.g. "T"
std::string object_suffix;
// Keywords.
// Prefix used to escape keywords. It is usually empty string.
std::string keyword_prefix;
// Suffix used to escape keywords. It is usually "_".
std::string keyword_suffix;
// Files.
// Case style for filenames. e.g. `foo_bar_generated.rs`
Case filenames;
// Case style for directories, e.g. `output_files/foo_bar/baz/`
Case directories;
// The directory within which we will generate files.
std::string output_path;
// Suffix for generated file names, e.g. "_generated".
std::string filename_suffix;
// Extension for generated files, e.g. ".cpp" or ".rs".
std::string filename_extension;
};
Namer(Config config, std::set<std::string> keywords)
: config_(config), keywords_(std::move(keywords)) {}
virtual ~Namer() {}
template<typename T> std::string Method(const T &s) const {
return Method(s.name);
}
virtual std::string Method(const std::string &pre,
const std::string &mid,
const std::string &suf) const {
return Format(pre + "_" + mid + "_" + suf, config_.methods);
}
virtual std::string Method(const std::string &pre,
const std::string &suf) const {
return Format(pre + "_" + suf, config_.methods);
}
virtual std::string Method(const std::string &s) const {
return Format(s, config_.methods);
}
virtual std::string Constant(const std::string &s) const {
return Format(s, config_.constants);
}
virtual std::string Function(const std::string &s) const {
return Format(s, config_.functions);
}
virtual std::string Variable(const std::string &s) const {
return Format(s, config_.variables);
}
template<typename T>
std::string Variable(const std::string &p, const T &s) const {
return Format(p + "_" + s.name, config_.variables);
}
virtual std::string Variable(const std::string &p,
const std::string &s) const {
return Format(p + "_" + s, config_.variables);
}
virtual std::string Namespace(const std::string &s) const {
return Format(s, config_.namespaces);
}
virtual std::string Namespace(const std::vector<std::string> &ns) const {
std::string result;
for (auto it = ns.begin(); it != ns.end(); it++) {
if (it != ns.begin()) result += config_.namespace_seperator;
result += Namespace(*it);
}
return result;
}
virtual std::string NamespacedType(const std::vector<std::string> &ns,
const std::string &s) const {
return (ns.empty() ? "" : (Namespace(ns) + config_.namespace_seperator)) +
Type(s);
}
// Returns `filename` with the right casing, suffix, and extension.
virtual std::string File(const std::string &filename,
SkipFile skips = SkipFile::None) const {
const bool skip_suffix = (skips & SkipFile::Suffix) != SkipFile::None;
const bool skip_ext = (skips & SkipFile::Extension) != SkipFile::None;
return ConvertCase(filename, config_.filenames, Case::kUpperCamel) +
(skip_suffix ? "" : config_.filename_suffix) +
(skip_ext ? "" : config_.filename_extension);
}
template<typename T>
std::string File(const T &f, SkipFile skips = SkipFile::None) const {
return File(f.name, skips);
}
// Formats `directories` prefixed with the output_path and joined with the
// right seperator. Output path prefixing and the trailing separator may be
// skiped using `skips`.
// Callers may want to use `EnsureDirExists` with the result.
virtual std::string Directories(const std::vector<std::string> &directories,
SkipDir skips = SkipDir::None) const {
const bool skip_output_path =
(skips & SkipDir::OutputPath) != SkipDir::None;
const bool skip_trailing_seperator =
(skips & SkipDir::TrailingPathSeperator) != SkipDir::None;
std::string result = skip_output_path ? "" : config_.output_path;
for (auto d = directories.begin(); d != directories.end(); d++) {
result += ConvertCase(*d, config_.directories, Case::kUpperCamel);
result.push_back(kPathSeparator);
}
if (skip_trailing_seperator && !result.empty()) result.pop_back();
return result;
}
virtual std::string EscapeKeyword(const std::string &name) const {
if (keywords_.find(name) == keywords_.end()) {
return name;
} else {
return config_.keyword_prefix + name + config_.keyword_suffix;
}
}
virtual std::string Type(const std::string &s) const {
return Format(s, config_.types);
}
virtual std::string Type(const std::string &t, const std::string &s) const {
return Format(t + "_" + s, config_.types);
}
virtual std::string ObjectType(const std::string &s) const {
return config_.object_prefix + Type(s) + config_.object_suffix;
}
virtual std::string Field(const std::string &s) const {
return Format(s, config_.fields);
}
virtual std::string Variant(const std::string &s) const {
return Format(s, config_.variants);
}
virtual std::string Format(const std::string &s, Case casing) const {
if (config_.escape_keywords == Config::Escape::BeforeConvertingCase) {
return ConvertCase(EscapeKeyword(s), casing, Case::kLowerCamel);
} else {
return EscapeKeyword(ConvertCase(s, casing, Case::kLowerCamel));
}
}
// Denamespaces a string (e.g. The.Quick.Brown.Fox) by returning the last part
// after the `delimiter` (Fox) and placing the rest in `namespace_prefix`
// (The.Quick.Brown).
virtual std::string Denamespace(const std::string &s,
std::string &namespace_prefix,
const char delimiter = '.') const {
const size_t pos = s.find_last_of(delimiter);
if (pos == std::string::npos) {
namespace_prefix = "";
return s;
}
namespace_prefix = s.substr(0, pos);
return s.substr(pos + 1);
}
// Same as above, but disregards the prefix.
virtual std::string Denamespace(const std::string &s,
const char delimiter = '.') const {
std::string prefix;
return Denamespace(s, prefix, delimiter);
}
const Config config_;
const std::set<std::string> keywords_;
};
} // namespace flatbuffers
#endif // FLATBUFFERS_NAMER
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