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#ifndef ABSL_STRINGS_INTERNAL_STR_FORMAT_BIND_H_
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#define ABSL_STRINGS_INTERNAL_STR_FORMAT_BIND_H_
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#include <array>
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#include <cstdio>
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#include <sstream>
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#include <string>
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#include "absl/base/port.h"
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#include "absl/strings/internal/str_format/arg.h"
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#include "absl/strings/internal/str_format/checker.h"
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#include "absl/strings/internal/str_format/parser.h"
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#include "absl/types/span.h"
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namespace absl {
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class UntypedFormatSpec;
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namespace str_format_internal {
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class BoundConversion : public ConversionSpec {
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public:
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const FormatArgImpl* arg() const { return arg_; }
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void set_arg(const FormatArgImpl* a) { arg_ = a; }
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private:
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const FormatArgImpl* arg_;
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};
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// This is the type-erased class that the implementation uses.
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class UntypedFormatSpecImpl {
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public:
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UntypedFormatSpecImpl() = delete;
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explicit UntypedFormatSpecImpl(string_view s)
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: data_(s.data()), size_(s.size()) {}
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explicit UntypedFormatSpecImpl(
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const str_format_internal::ParsedFormatBase* pc)
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: data_(pc), size_(~size_t{}) {}
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bool has_parsed_conversion() const { return size_ == ~size_t{}; }
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string_view str() const {
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assert(!has_parsed_conversion());
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return string_view(static_cast<const char*>(data_), size_);
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}
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const str_format_internal::ParsedFormatBase* parsed_conversion() const {
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assert(has_parsed_conversion());
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return static_cast<const str_format_internal::ParsedFormatBase*>(data_);
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}
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template <typename T>
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static const UntypedFormatSpecImpl& Extract(const T& s) {
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return s.spec_;
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}
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private:
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const void* data_;
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size_t size_;
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};
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template <typename T, typename...>
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struct MakeDependent {
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using type = T;
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};
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// Implicitly convertible from `const char*`, `string_view`, and the
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// `ExtendedParsedFormat` type. This abstraction allows all format functions to
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// operate on any without providing too many overloads.
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template <typename... Args>
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class FormatSpecTemplate
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: public MakeDependent<UntypedFormatSpec, Args...>::type {
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using Base = typename MakeDependent<UntypedFormatSpec, Args...>::type;
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public:
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#if ABSL_INTERNAL_ENABLE_FORMAT_CHECKER
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// Honeypot overload for when the std::string is not constexpr.
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// We use the 'unavailable' attribute to give a better compiler error than
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// just 'method is deleted'.
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FormatSpecTemplate(...) // NOLINT
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__attribute__((unavailable("Format std::string is not constexpr.")));
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// Honeypot overload for when the format is constexpr and invalid.
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// We use the 'unavailable' attribute to give a better compiler error than
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// just 'method is deleted'.
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// To avoid checking the format twice, we just check that the format is
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// constexpr. If is it valid, then the overload below will kick in.
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// We add the template here to make this overload have lower priority.
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template <typename = void>
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FormatSpecTemplate(const char* s) // NOLINT
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__attribute__((
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enable_if(str_format_internal::EnsureConstexpr(s), "constexpr trap"),
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unavailable(
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"Format specified does not match the arguments passed.")));
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template <typename T = void>
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FormatSpecTemplate(string_view s) // NOLINT
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__attribute__((enable_if(str_format_internal::EnsureConstexpr(s),
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"constexpr trap"))) {
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static_assert(sizeof(T*) == 0,
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"Format specified does not match the arguments passed.");
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}
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// Good format overload.
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FormatSpecTemplate(const char* s) // NOLINT
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__attribute__((enable_if(ValidFormatImpl<ArgumentToConv<Args>()...>(s),
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"bad format trap")))
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: Base(s) {}
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FormatSpecTemplate(string_view s) // NOLINT
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__attribute__((enable_if(ValidFormatImpl<ArgumentToConv<Args>()...>(s),
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"bad format trap")))
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: Base(s) {}
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#else // ABSL_INTERNAL_ENABLE_FORMAT_CHECKER
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FormatSpecTemplate(const char* s) : Base(s) {} // NOLINT
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FormatSpecTemplate(string_view s) : Base(s) {} // NOLINT
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#endif // ABSL_INTERNAL_ENABLE_FORMAT_CHECKER
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template <Conv... C, typename = typename std::enable_if<
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sizeof...(C) == sizeof...(Args) &&
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AllOf(Contains(ArgumentToConv<Args>(),
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C)...)>::type>
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FormatSpecTemplate(const ExtendedParsedFormat<C...>& pc) // NOLINT
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: Base(&pc) {}
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};
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template <typename... Args>
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struct FormatSpecDeductionBarrier {
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using type = FormatSpecTemplate<Args...>;
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};
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class Streamable {
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public:
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Streamable(const UntypedFormatSpecImpl& format,
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absl::Span<const FormatArgImpl> args)
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: format_(format) {
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if (args.size() <= ABSL_ARRAYSIZE(few_args_)) {
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for (size_t i = 0; i < args.size(); ++i) {
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few_args_[i] = args[i];
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}
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args_ = absl::MakeSpan(few_args_, args.size());
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} else {
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many_args_.assign(args.begin(), args.end());
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args_ = many_args_;
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}
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}
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std::ostream& Print(std::ostream& os) const;
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friend std::ostream& operator<<(std::ostream& os, const Streamable& l) {
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return l.Print(os);
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}
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private:
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const UntypedFormatSpecImpl& format_;
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absl::Span<const FormatArgImpl> args_;
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// if args_.size() is 4 or less:
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FormatArgImpl few_args_[4] = {FormatArgImpl(0), FormatArgImpl(0),
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FormatArgImpl(0), FormatArgImpl(0)};
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// if args_.size() is more than 4:
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std::vector<FormatArgImpl> many_args_;
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};
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// for testing
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std::string Summarize(UntypedFormatSpecImpl format,
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absl::Span<const FormatArgImpl> args);
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bool BindWithPack(const UnboundConversion* props,
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absl::Span<const FormatArgImpl> pack, BoundConversion* bound);
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bool FormatUntyped(FormatRawSinkImpl raw_sink,
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UntypedFormatSpecImpl format,
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absl::Span<const FormatArgImpl> args);
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std::string& AppendPack(std::string* out, UntypedFormatSpecImpl format,
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absl::Span<const FormatArgImpl> args);
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inline std::string FormatPack(const UntypedFormatSpecImpl format,
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absl::Span<const FormatArgImpl> args) {
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std::string out;
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AppendPack(&out, format, args);
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return out;
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}
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int FprintF(std::FILE* output, UntypedFormatSpecImpl format,
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absl::Span<const FormatArgImpl> args);
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int SnprintF(char* output, size_t size, UntypedFormatSpecImpl format,
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absl::Span<const FormatArgImpl> args);
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// Returned by Streamed(v). Converts via '%s' to the std::string created
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// by std::ostream << v.
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template <typename T>
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class StreamedWrapper {
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public:
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explicit StreamedWrapper(const T& v) : v_(v) { }
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private:
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template <typename S>
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friend ConvertResult<Conv::s> FormatConvertImpl(const StreamedWrapper<S>& v,
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ConversionSpec conv,
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FormatSinkImpl* out);
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const T& v_;
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};
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} // namespace str_format_internal
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} // namespace absl
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#endif // ABSL_STRINGS_INTERNAL_STR_FORMAT_BIND_H_
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