path: root/doctest/parts/doctest.cpp

#if defined(DOCTEST_CONFIG_IMPLEMENT) || !defined(DOCTEST_SINGLE_HEADER)

#ifndef DOCTEST_SINGLE_HEADER
#include "doctest_fwd.h"
#endif // DOCTEST_SINGLE_HEADER

DOCTEST_CLANG_SUPPRESS_WARNING_WITH_PUSH("-Wunused-macros")

#ifndef DOCTEST_LIBRARY_IMPLEMENTATION
#define DOCTEST_LIBRARY_IMPLEMENTATION

DOCTEST_CLANG_SUPPRESS_WARNING_POP

DOCTEST_SUPPRESS_COMMON_WARNINGS_PUSH

DOCTEST_CLANG_SUPPRESS_WARNING_PUSH
DOCTEST_CLANG_SUPPRESS_WARNING("-Wglobal-constructors")
DOCTEST_CLANG_SUPPRESS_WARNING("-Wexit-time-destructors")
DOCTEST_CLANG_SUPPRESS_WARNING("-Wsign-conversion")
DOCTEST_CLANG_SUPPRESS_WARNING("-Wshorten-64-to-32")
DOCTEST_CLANG_SUPPRESS_WARNING("-Wmissing-variable-declarations")
DOCTEST_CLANG_SUPPRESS_WARNING("-Wswitch")
DOCTEST_CLANG_SUPPRESS_WARNING("-Wswitch-enum")
DOCTEST_CLANG_SUPPRESS_WARNING("-Wcovered-switch-default")
DOCTEST_CLANG_SUPPRESS_WARNING("-Wmissing-noreturn")
DOCTEST_CLANG_SUPPRESS_WARNING("-Wdisabled-macro-expansion")
DOCTEST_CLANG_SUPPRESS_WARNING("-Wmissing-braces")
DOCTEST_CLANG_SUPPRESS_WARNING("-Wmissing-field-initializers")
DOCTEST_CLANG_SUPPRESS_WARNING("-Wunused-member-function")
DOCTEST_CLANG_SUPPRESS_WARNING("-Wnonportable-system-include-path")

DOCTEST_GCC_SUPPRESS_WARNING_PUSH
DOCTEST_GCC_SUPPRESS_WARNING("-Wconversion")
DOCTEST_GCC_SUPPRESS_WARNING("-Wsign-conversion")
DOCTEST_GCC_SUPPRESS_WARNING("-Wmissing-field-initializers")
DOCTEST_GCC_SUPPRESS_WARNING("-Wmissing-braces")
DOCTEST_GCC_SUPPRESS_WARNING("-Wswitch")
DOCTEST_GCC_SUPPRESS_WARNING("-Wswitch-enum")
DOCTEST_GCC_SUPPRESS_WARNING("-Wswitch-default")
DOCTEST_GCC_SUPPRESS_WARNING("-Wunsafe-loop-optimizations")
DOCTEST_GCC_SUPPRESS_WARNING("-Wold-style-cast")
DOCTEST_GCC_SUPPRESS_WARNING("-Wunused-function")
DOCTEST_GCC_SUPPRESS_WARNING("-Wmultiple-inheritance")
DOCTEST_GCC_SUPPRESS_WARNING("-Wsuggest-attribute")

DOCTEST_MSVC_SUPPRESS_WARNING_PUSH
DOCTEST_MSVC_SUPPRESS_WARNING(4267) // 'var' : conversion from 'x' to 'y', possible loss of data
DOCTEST_MSVC_SUPPRESS_WARNING(4530) // C++ exception handler used, but unwind semantics not enabled
DOCTEST_MSVC_SUPPRESS_WARNING(4577) // 'noexcept' used with no exception handling mode specified
DOCTEST_MSVC_SUPPRESS_WARNING(4774) // format string expected in argument is not a string literal
DOCTEST_MSVC_SUPPRESS_WARNING(4365) // conversion from 'int' to 'unsigned', signed/unsigned mismatch
DOCTEST_MSVC_SUPPRESS_WARNING(5039) // pointer to potentially throwing function passed to extern C
DOCTEST_MSVC_SUPPRESS_WARNING(4800) // forcing value to bool 'true' or 'false' (performance warning)
DOCTEST_MSVC_SUPPRESS_WARNING(5245) // unreferenced function with internal linkage has been removed

DOCTEST_MAKE_STD_HEADERS_CLEAN_FROM_WARNINGS_ON_WALL_BEGIN

// required includes - will go only in one translation unit!
#include <ctime>
#include <cmath>
#include <climits>
// borland (Embarcadero) compiler requires math.h and not cmath - https://github.com/doctest/doctest/pull/37
#ifdef __BORLANDC__
#include <math.h>
#endif // __BORLANDC__
#include <new>
#include <cstdio>
#include <cstdlib>
#include <cstring>
#include <limits>
#include <utility>
#include <fstream>
#include <sstream>
#include <iostream>
#include <algorithm>
#include <iomanip>
#include <vector>
#ifndef DOCTEST_CONFIG_NO_MULTITHREADING
#include <atomic>
#include <mutex>
#define DOCTEST_DECLARE_MUTEX(name) std::mutex name;
#define DOCTEST_DECLARE_STATIC_MUTEX(name) static DOCTEST_DECLARE_MUTEX(name)
#define DOCTEST_LOCK_MUTEX(name) std::lock_guard<std::mutex> DOCTEST_ANONYMOUS(DOCTEST_ANON_LOCK_)(name);
#else // DOCTEST_CONFIG_NO_MULTITHREADING
#define DOCTEST_DECLARE_MUTEX(name)
#define DOCTEST_DECLARE_STATIC_MUTEX(name)
#define DOCTEST_LOCK_MUTEX(name)
#endif // DOCTEST_CONFIG_NO_MULTITHREADING
#include <set>
#include <map>
#include <unordered_set>
#include <exception>
#include <stdexcept>
#include <csignal>
#include <cfloat>
#include <cctype>
#include <cstdint>
#include <string>

#ifdef DOCTEST_PLATFORM_MAC
#include <sys/types.h>
#include <unistd.h>
#include <sys/sysctl.h>
#endif // DOCTEST_PLATFORM_MAC

#ifdef DOCTEST_PLATFORM_WINDOWS

// defines for a leaner windows.h
#ifndef WIN32_LEAN_AND_MEAN
#define WIN32_LEAN_AND_MEAN
#endif // WIN32_LEAN_AND_MEAN
#ifndef NOMINMAX
#define NOMINMAX
#endif // NOMINMAX

// not sure what AfxWin.h is for - here I do what Catch does
#ifdef __AFXDLL
#include <AfxWin.h>
#else
#include <windows.h>
#endif
#include <io.h>

#else // DOCTEST_PLATFORM_WINDOWS

#include <sys/time.h>
#include <unistd.h>

#endif // DOCTEST_PLATFORM_WINDOWS

// this is a fix for https://github.com/doctest/doctest/issues/348
// https://mail.gnome.org/archives/xml/2012-January/msg00000.html
#if !defined(HAVE_UNISTD_H) && !defined(STDOUT_FILENO)
#define STDOUT_FILENO fileno(stdout)
#endif // HAVE_UNISTD_H

DOCTEST_MAKE_STD_HEADERS_CLEAN_FROM_WARNINGS_ON_WALL_END

// counts the number of elements in a C array
#define DOCTEST_COUNTOF(x) (sizeof(x) / sizeof(x[0]))

#ifdef DOCTEST_CONFIG_DISABLE
#define DOCTEST_BRANCH_ON_DISABLED(if_disabled, if_not_disabled) if_disabled
#else // DOCTEST_CONFIG_DISABLE
#define DOCTEST_BRANCH_ON_DISABLED(if_disabled, if_not_disabled) if_not_disabled
#endif // DOCTEST_CONFIG_DISABLE

#ifndef DOCTEST_CONFIG_OPTIONS_PREFIX
#define DOCTEST_CONFIG_OPTIONS_PREFIX "dt-"
#endif

#ifndef DOCTEST_THREAD_LOCAL
#if defined(DOCTEST_CONFIG_NO_MULTITHREADING) || DOCTEST_MSVC && (DOCTEST_MSVC < DOCTEST_COMPILER(19, 0, 0))
#define DOCTEST_THREAD_LOCAL
#else // DOCTEST_MSVC
#define DOCTEST_THREAD_LOCAL thread_local
#endif // DOCTEST_MSVC
#endif // DOCTEST_THREAD_LOCAL

#ifndef DOCTEST_MULTI_LANE_ATOMICS_THREAD_LANES
#define DOCTEST_MULTI_LANE_ATOMICS_THREAD_LANES 32
#endif

#ifndef DOCTEST_MULTI_LANE_ATOMICS_CACHE_LINE_SIZE
#define DOCTEST_MULTI_LANE_ATOMICS_CACHE_LINE_SIZE 64
#endif

#ifdef DOCTEST_CONFIG_NO_UNPREFIXED_OPTIONS
#define DOCTEST_OPTIONS_PREFIX_DISPLAY DOCTEST_CONFIG_OPTIONS_PREFIX
#else
#define DOCTEST_OPTIONS_PREFIX_DISPLAY ""
#endif

#if defined(WINAPI_FAMILY) && (WINAPI_FAMILY == WINAPI_FAMILY_APP)
#define DOCTEST_CONFIG_NO_MULTI_LANE_ATOMICS
#endif

#ifndef DOCTEST_CDECL
#define DOCTEST_CDECL __cdecl
#endif

namespace doctest {

bool is_running_in_test = false;

namespace {
    using namespace detail;

    template <typename Ex>
    DOCTEST_NORETURN void throw_exception(Ex const& e) {
#ifndef DOCTEST_CONFIG_NO_EXCEPTIONS
        throw e;
#else  // DOCTEST_CONFIG_NO_EXCEPTIONS
        std::cerr << "doctest will terminate because it needed to throw an exception.\n"
                  << "The message was: " << e.what() << '\n';
        std::terminate();
#endif // DOCTEST_CONFIG_NO_EXCEPTIONS
    }

#ifndef DOCTEST_INTERNAL_ERROR
#define DOCTEST_INTERNAL_ERROR(msg)                                                                \
    throw_exception(std::logic_error(                                                              \
            __FILE__ ":" DOCTEST_TOSTR(__LINE__) ": Internal doctest error: " msg))
#endif // DOCTEST_INTERNAL_ERROR

    // case insensitive strcmp
    int stricmp(const char* a, const char* b) {
        for(;; a++, b++) {
            const int d = tolower(*a) - tolower(*b);
            if(d != 0 || !*a)
                return d;
        }
    }

    struct Endianness
    {
        enum Arch
        {
            Big,
            Little
        };

        static Arch which() {
            int x = 1;
            // casting any data pointer to char* is allowed
            auto ptr = reinterpret_cast<char*>(&x);
            if(*ptr)
                return Little;
            return Big;
        }
    };
} // namespace

namespace detail {
    DOCTEST_THREAD_LOCAL class
    {
        std::vector<std::streampos> stack;
        std::stringstream           ss;

    public:
        std::ostream* push() {
            stack.push_back(ss.tellp());
            return &ss;
        }

        String pop() {
            if (stack.empty())
                DOCTEST_INTERNAL_ERROR("TLSS was empty when trying to pop!");

            std::streampos pos = stack.back();
            stack.pop_back();
            unsigned sz = static_cast<unsigned>(ss.tellp() - pos);
            ss.rdbuf()->pubseekpos(pos, std::ios::in | std::ios::out);
            return String(ss, sz);
        }
    } g_oss;

    std::ostream* tlssPush() {
        return g_oss.push();
    }

    String tlssPop() {
        return g_oss.pop();
    }

#ifndef DOCTEST_CONFIG_DISABLE

namespace timer_large_integer
{
    
#if defined(DOCTEST_PLATFORM_WINDOWS)
    typedef ULONGLONG type;
#else // DOCTEST_PLATFORM_WINDOWS
    typedef std::uint64_t type;
#endif // DOCTEST_PLATFORM_WINDOWS
}

typedef timer_large_integer::type ticks_t;

#ifdef DOCTEST_CONFIG_GETCURRENTTICKS
    ticks_t getCurrentTicks() { return DOCTEST_CONFIG_GETCURRENTTICKS(); }
#elif defined(DOCTEST_PLATFORM_WINDOWS)
    ticks_t getCurrentTicks() {
        static LARGE_INTEGER hz = {0}, hzo = {0};
        if(!hz.QuadPart) {
            QueryPerformanceFrequency(&hz);
            QueryPerformanceCounter(&hzo);
        }
        LARGE_INTEGER t;
        QueryPerformanceCounter(&t);
        return ((t.QuadPart - hzo.QuadPart) * LONGLONG(1000000)) / hz.QuadPart;
    }
#else  // DOCTEST_PLATFORM_WINDOWS
    ticks_t getCurrentTicks() {
        timeval t;
        gettimeofday(&t, nullptr);
        return static_cast<ticks_t>(t.tv_sec) * 1000000 + static_cast<ticks_t>(t.tv_usec);
    }
#endif // DOCTEST_PLATFORM_WINDOWS

    struct Timer
    {
        void         start() { m_ticks = getCurrentTicks(); }
        unsigned int getElapsedMicroseconds() const {
            return static_cast<unsigned int>(getCurrentTicks() - m_ticks);
        }
        //unsigned int getElapsedMilliseconds() const {
        //    return static_cast<unsigned int>(getElapsedMicroseconds() / 1000);
        //}
        double getElapsedSeconds() const { return static_cast<double>(getCurrentTicks() - m_ticks) / 1000000.0; }

    private:
        ticks_t m_ticks = 0;
    };

#ifdef DOCTEST_CONFIG_NO_MULTITHREADING
    template <typename T>
    using Atomic = T;
#else // DOCTEST_CONFIG_NO_MULTITHREADING
    template <typename T>
    using Atomic = std::atomic<T>;
#endif // DOCTEST_CONFIG_NO_MULTITHREADING

#if defined(DOCTEST_CONFIG_NO_MULTI_LANE_ATOMICS) || defined(DOCTEST_CONFIG_NO_MULTITHREADING)
    template <typename T>
    using MultiLaneAtomic = Atomic<T>;
#else // DOCTEST_CONFIG_NO_MULTI_LANE_ATOMICS
    // Provides a multilane implementation of an atomic variable that supports add, sub, load,
    // store. Instead of using a single atomic variable, this splits up into multiple ones,
    // each sitting on a separate cache line. The goal is to provide a speedup when most
    // operations are modifying. It achieves this with two properties:
    //
    // * Multiple atomics are used, so chance of congestion from the same atomic is reduced.
    // * Each atomic sits on a separate cache line, so false sharing is reduced.
    //
    // The disadvantage is that there is a small overhead due to the use of TLS, and load/store
    // is slower because all atomics have to be accessed.
    template <typename T>
    class MultiLaneAtomic
    {
        struct CacheLineAlignedAtomic
        {
            Atomic<T> atomic{};
            char padding[DOCTEST_MULTI_LANE_ATOMICS_CACHE_LINE_SIZE - sizeof(Atomic<T>)];
        };
        CacheLineAlignedAtomic m_atomics[DOCTEST_MULTI_LANE_ATOMICS_THREAD_LANES];

        static_assert(sizeof(CacheLineAlignedAtomic) == DOCTEST_MULTI_LANE_ATOMICS_CACHE_LINE_SIZE,
                      "guarantee one atomic takes exactly one cache line");

    public:
        T operator++() DOCTEST_NOEXCEPT { return fetch_add(1) + 1; }

        T operator++(int) DOCTEST_NOEXCEPT { return fetch_add(1); }

        T fetch_add(T arg, std::memory_order order = std::memory_order_seq_cst) DOCTEST_NOEXCEPT {
            return myAtomic().fetch_add(arg, order);
        }

        T fetch_sub(T arg, std::memory_order order = std::memory_order_seq_cst) DOCTEST_NOEXCEPT {
            return myAtomic().fetch_sub(arg, order);
        }

        operator T() const DOCTEST_NOEXCEPT { return load(); }

        T load(std::memory_order order = std::memory_order_seq_cst) const DOCTEST_NOEXCEPT {
            auto result = T();
            for(auto const& c : m_atomics) {
                result += c.atomic.load(order);
            }
            return result;
        }

        T operator=(T desired) DOCTEST_NOEXCEPT { // lgtm [cpp/assignment-does-not-return-this]
            store(desired);
            return desired;
        }

        void store(T desired, std::memory_order order = std::memory_order_seq_cst) DOCTEST_NOEXCEPT {
            // first value becomes desired", all others become 0.
            for(auto& c : m_atomics) {
                c.atomic.store(desired, order);
                desired = {};
            }
        }

    private:
        // Each thread has a different atomic that it operates on. If more than NumLanes threads
        // use this, some will use the same atomic. So performance will degrade a bit, but still
        // everything will work.
        //
        // The logic here is a bit tricky. The call should be as fast as possible, so that there
        // is minimal to no overhead in determining the correct atomic for the current thread.
        //
        // 1. A global static counter laneCounter counts continuously up.
        // 2. Each successive thread will use modulo operation of that counter so it gets an atomic
        //    assigned in a round-robin fashion.
        // 3. This tlsLaneIdx is stored in the thread local data, so it is directly available with
        //    little overhead.
        Atomic<T>& myAtomic() DOCTEST_NOEXCEPT {
            static Atomic<size_t> laneCounter;
            DOCTEST_THREAD_LOCAL size_t tlsLaneIdx =
                    laneCounter++ % DOCTEST_MULTI_LANE_ATOMICS_THREAD_LANES;

            return m_atomics[tlsLaneIdx].atomic;
        }
    };
#endif // DOCTEST_CONFIG_NO_MULTI_LANE_ATOMICS

    // this holds both parameters from the command line and runtime data for tests
    struct ContextState : ContextOptions, TestRunStats, CurrentTestCaseStats
    {
        MultiLaneAtomic<int> numAssertsCurrentTest_atomic;
        MultiLaneAtomic<int> numAssertsFailedCurrentTest_atomic;

        std::vector<std::vector<String>> filters = decltype(filters)(9); // 9 different filters

        std::vector<IReporter*> reporters_currently_used;

        assert_handler ah = nullptr;

        Timer timer;

        std::vector<String> stringifiedContexts; // logging from INFO() due to an exception

        // stuff for subcases
        bool reachedLeaf;
        std::vector<SubcaseSignature> subcaseStack;
        std::vector<SubcaseSignature> nextSubcaseStack;
        std::unordered_set<unsigned long long> fullyTraversedSubcases;
        size_t currentSubcaseDepth;
        Atomic<bool> shouldLogCurrentException;

        void resetRunData() {
            numTestCases                = 0;
            numTestCasesPassingFilters  = 0;
            numTestSuitesPassingFilters = 0;
            numTestCasesFailed          = 0;
            numAsserts                  = 0;
            numAssertsFailed            = 0;
            numAssertsCurrentTest       = 0;
            numAssertsFailedCurrentTest = 0;
        }

        void finalizeTestCaseData() {
            seconds = timer.getElapsedSeconds();

            // update the non-atomic counters
            numAsserts += numAssertsCurrentTest_atomic;
            numAssertsFailed += numAssertsFailedCurrentTest_atomic;
            numAssertsCurrentTest       = numAssertsCurrentTest_atomic;
            numAssertsFailedCurrentTest = numAssertsFailedCurrentTest_atomic;

            if(numAssertsFailedCurrentTest)
                failure_flags |= TestCaseFailureReason::AssertFailure;

            if(Approx(currentTest->m_timeout).epsilon(DBL_EPSILON) != 0 &&
               Approx(seconds).epsilon(DBL_EPSILON) > currentTest->m_timeout)
                failure_flags |= TestCaseFailureReason::Timeout;

            if(currentTest->m_should_fail) {
                if(failure_flags) {
                    failure_flags |= TestCaseFailureReason::ShouldHaveFailedAndDid;
                } else {
                    failure_flags |= TestCaseFailureReason::ShouldHaveFailedButDidnt;
                }
            } else if(failure_flags && currentTest->m_may_fail) {
                failure_flags |= TestCaseFailureReason::CouldHaveFailedAndDid;
            } else if(currentTest->m_expected_failures > 0) {
                if(numAssertsFailedCurrentTest == currentTest->m_expected_failures) {
                    failure_flags |= TestCaseFailureReason::FailedExactlyNumTimes;
                } else {
                    failure_flags |= TestCaseFailureReason::DidntFailExactlyNumTimes;
                }
            }

            bool ok_to_fail = (TestCaseFailureReason::ShouldHaveFailedAndDid & failure_flags) ||
                              (TestCaseFailureReason::CouldHaveFailedAndDid & failure_flags) ||
                              (TestCaseFailureReason::FailedExactlyNumTimes & failure_flags);

            // if any subcase has failed - the whole test case has failed
            testCaseSuccess = !(failure_flags && !ok_to_fail);
            if(!testCaseSuccess)
                numTestCasesFailed++;
        }
    };

    ContextState* g_cs = nullptr;

    // used to avoid locks for the debug output
    // TODO: figure out if this is indeed necessary/correct - seems like either there still
    // could be a race or that there wouldn't be a race even if using the context directly
    DOCTEST_THREAD_LOCAL bool g_no_colors;

#endif // DOCTEST_CONFIG_DISABLE
} // namespace detail

char* String::allocate(size_type sz) {
    if (sz <= last) {
        buf[sz] = '\0';
        setLast(last - sz);
        return buf;
    } else {
        setOnHeap();
        data.size = sz;
        data.capacity = data.size + 1;
        data.ptr = new char[data.capacity];
        data.ptr[sz] = '\0';
        return data.ptr;
    }
}

void String::setOnHeap() { *reinterpret_cast<unsigned char*>(&buf[last]) = 128; }
void String::setLast(size_type in) { buf[last] = char(in); }
void String::setSize(size_type sz) {
    if (isOnStack()) { buf[sz] = '\0'; setLast(last - sz); }
    else { data.ptr[sz] = '\0'; data.size = sz; }
}

void String::copy(const String& other) {
    if(other.isOnStack()) {
        memcpy(buf, other.buf, len);
    } else {
        memcpy(allocate(other.data.size), other.data.ptr, other.data.size);
    }
}

String::String() {
    buf[0] = '\0';
    setLast();
}

String::~String() {
    if(!isOnStack())
        delete[] data.ptr;
    // NOLINTNEXTLINE(clang-analyzer-cplusplus.NewDeleteLeaks)
}

String::String(const char* in)
        : String(in, strlen(in)) {}

String::String(const char* in, size_type in_size) {
    memcpy(allocate(in_size), in, in_size);
}

String::String(std::istream& in, size_type in_size) {
    in.read(allocate(in_size), in_size);
}

String::String(const String& other) { copy(other); }

String& String::operator=(const String& other) {
    if(this != &other) {
        if(!isOnStack())
            delete[] data.ptr;

        copy(other);
    }

    return *this;
}

String& String::operator+=(const String& other) {
    const size_type my_old_size = size();
    const size_type other_size  = other.size();
    const size_type total_size  = my_old_size + other_size;
    if(isOnStack()) {
        if(total_size < len) {
            // append to the current stack space
            memcpy(buf + my_old_size, other.c_str(), other_size + 1);
            // NOLINTNEXTLINE(clang-analyzer-cplusplus.NewDeleteLeaks)
            setLast(last - total_size);
        } else {
            // alloc new chunk
            char* temp = new char[total_size + 1];
            // copy current data to new location before writing in the union
            memcpy(temp, buf, my_old_size); // skip the +1 ('\0') for speed
            // update data in union
            setOnHeap();
            data.size     = total_size;
            data.capacity = data.size + 1;
            data.ptr      = temp;
            // transfer the rest of the data
            memcpy(data.ptr + my_old_size, other.c_str(), other_size + 1);
        }
    } else {
        if(data.capacity > total_size) {
            // append to the current heap block
            data.size = total_size;
            memcpy(data.ptr + my_old_size, other.c_str(), other_size + 1);
        } else {
            // resize
            data.capacity *= 2;
            if(data.capacity <= total_size)
                data.capacity = total_size + 1;
            // alloc new chunk
            char* temp = new char[data.capacity];
            // copy current data to new location before releasing it
            memcpy(temp, data.ptr, my_old_size); // skip the +1 ('\0') for speed
            // release old chunk
            delete[] data.ptr;
            // update the rest of the union members
            data.size = total_size;
            data.ptr  = temp;
            // transfer the rest of the data
            memcpy(data.ptr + my_old_size, other.c_str(), other_size + 1);
        }
    }

    return *this;
}

String::String(String&& other) {
    memcpy(buf, other.buf, len);
    other.buf[0] = '\0';
    other.setLast();
}

String& String::operator=(String&& other) {
    if(this != &other) {
        if(!isOnStack())
            delete[] data.ptr;
        memcpy(buf, other.buf, len);
        other.buf[0] = '\0';
        other.setLast();
    }
    return *this;
}

char String::operator[](size_type i) const {
    return const_cast<String*>(this)->operator[](i); // NOLINT
}

char& String::operator[](size_type i) {
    if(isOnStack())
        return reinterpret_cast<char*>(buf)[i];
    return data.ptr[i];
}

DOCTEST_GCC_SUPPRESS_WARNING_WITH_PUSH("-Wmaybe-uninitialized")
String::size_type String::size() const {
    if(isOnStack())
        return last - (size_type(buf[last]) & 31); // using "last" would work only if "len" is 32
    return data.size;
}
DOCTEST_GCC_SUPPRESS_WARNING_POP

String::size_type String::capacity() const {
    if(isOnStack())
        return len;
    return data.capacity;
}

String String::substr(size_type pos, size_type cnt) && {
    cnt = std::min(cnt, size() - 1 - pos);
    char* cptr = c_str();
    memmove(cptr, cptr + pos, cnt);
    setSize(cnt);
    return std::move(*this);
}

String String::substr(size_type pos, size_type cnt) const & {
    cnt = std::min(cnt, size() - 1 - pos);
    return String{ c_str() + pos, cnt };
}

String::size_type String::find(char ch, size_type pos) const {
    const char* begin = c_str();
    const char* end = begin + size();
    const char* it = begin + pos;
    for (; it < end && *it != ch; it++);
    if (it < end) { return static_cast<size_type>(it - begin); }
    else { return npos; }
}

String::size_type String::rfind(char ch, size_type pos) const {
    const char* begin = c_str();
    const char* it = begin + std::min(pos, size() - 1);
    for (; it >= begin && *it != ch; it--);
    if (it >= begin) { return static_cast<size_type>(it - begin); }
    else { return npos; }
}

int String::compare(const char* other, bool no_case) const {
    if(no_case)
        return doctest::stricmp(c_str(), other);
    return std::strcmp(c_str(), other);
}

int String::compare(const String& other, bool no_case) const {
    return compare(other.c_str(), no_case);
}

// NOLINTNEXTLINE(clang-analyzer-cplusplus.NewDeleteLeaks)
String operator+(const String& lhs, const String& rhs) { return  String(lhs) += rhs; }

bool operator==(const String& lhs, const String& rhs) { return lhs.compare(rhs) == 0; }
bool operator!=(const String& lhs, const String& rhs) { return lhs.compare(rhs) != 0; }
bool operator< (const String& lhs, const String& rhs) { return lhs.compare(rhs) < 0; }
bool operator> (const String& lhs, const String& rhs) { return lhs.compare(rhs) > 0; }
bool operator<=(const String& lhs, const String& rhs) { return (lhs != rhs) ? lhs.compare(rhs) < 0 : true; }
bool operator>=(const String& lhs, const String& rhs) { return (lhs != rhs) ? lhs.compare(rhs) > 0 : true; }

std::ostream& operator<<(std::ostream& s, const String& in) { return s << in.c_str(); }

Contains::Contains(const String& str) : string(str) { }

bool Contains::checkWith(const String& full_string) const {
    return strstr(full_string.c_str(), string.c_str()) != nullptr;
}

String toString(const Contains& in) {
    return "Contains( " + in.string + " )";
}

bool operator==(const String& lhs, const Contains& rhs) { return rhs.checkWith(lhs); }
bool operator==(const Contains& lhs, const String& rhs) { return lhs.checkWith(rhs); }
bool operator!=(const String& lhs, const Contains& rhs) { return !rhs.checkWith(lhs); }
bool operator!=(const Contains& lhs, const String& rhs) { return !lhs.checkWith(rhs); }

namespace {
    void color_to_stream(std::ostream&, Color::Enum) DOCTEST_BRANCH_ON_DISABLED({}, ;)
} // namespace

namespace Color {
    std::ostream& operator<<(std::ostream& s, Color::Enum code) {
        color_to_stream(s, code);
        return s;
    }
} // namespace Color

// clang-format off
const char* assertString(assertType::Enum at) {
    DOCTEST_MSVC_SUPPRESS_WARNING_WITH_PUSH(4061) // enum 'x' in switch of enum 'y' is not explicitely handled
    #define DOCTEST_GENERATE_ASSERT_TYPE_CASE(assert_type) case assertType::DT_ ## assert_type: return #assert_type
    #define DOCTEST_GENERATE_ASSERT_TYPE_CASES(assert_type) \
        DOCTEST_GENERATE_ASSERT_TYPE_CASE(WARN_ ## assert_type); \
        DOCTEST_GENERATE_ASSERT_TYPE_CASE(CHECK_ ## assert_type); \
        DOCTEST_GENERATE_ASSERT_TYPE_CASE(REQUIRE_ ## assert_type)
    switch(at) {
        DOCTEST_GENERATE_ASSERT_TYPE_CASE(WARN);
        DOCTEST_GENERATE_ASSERT_TYPE_CASE(CHECK);
        DOCTEST_GENERATE_ASSERT_TYPE_CASE(REQUIRE);

        DOCTEST_GENERATE_ASSERT_TYPE_CASES(FALSE);

        DOCTEST_GENERATE_ASSERT_TYPE_CASES(THROWS);

        DOCTEST_GENERATE_ASSERT_TYPE_CASES(THROWS_AS);

        DOCTEST_GENERATE_ASSERT_TYPE_CASES(THROWS_WITH);

        DOCTEST_GENERATE_ASSERT_TYPE_CASES(THROWS_WITH_AS);

        DOCTEST_GENERATE_ASSERT_TYPE_CASES(NOTHROW);

        DOCTEST_GENERATE_ASSERT_TYPE_CASES(EQ);
        DOCTEST_GENERATE_ASSERT_TYPE_CASES(NE);
        DOCTEST_GENERATE_ASSERT_TYPE_CASES(GT);
        DOCTEST_GENERATE_ASSERT_TYPE_CASES(LT);
        DOCTEST_GENERATE_ASSERT_TYPE_CASES(GE);
        DOCTEST_GENERATE_ASSERT_TYPE_CASES(LE);

        DOCTEST_GENERATE_ASSERT_TYPE_CASES(UNARY);
        DOCTEST_GENERATE_ASSERT_TYPE_CASES(UNARY_FALSE);

        default: DOCTEST_INTERNAL_ERROR("Tried stringifying invalid assert type!");
    }
    DOCTEST_MSVC_SUPPRESS_WARNING_POP
}
// clang-format on

const char* failureString(assertType::Enum at) {
    if(at & assertType::is_warn) //!OCLINT bitwise operator in conditional
        return "WARNING";
    if(at & assertType::is_check) //!OCLINT bitwise operator in conditional
        return "ERROR";
    if(at & assertType::is_require) //!OCLINT bitwise operator in conditional
        return "FATAL ERROR";
    return "";
}

DOCTEST_CLANG_SUPPRESS_WARNING_WITH_PUSH("-Wnull-dereference")
DOCTEST_GCC_SUPPRESS_WARNING_WITH_PUSH("-Wnull-dereference")
// depending on the current options this will remove the path of filenames
const char* skipPathFromFilename(const char* file) {
#ifndef DOCTEST_CONFIG_DISABLE
    if(getContextOptions()->no_path_in_filenames) {
        auto back    = std::strrchr(file, '\\');
        auto forward = std::strrchr(file, '/');
        if(back || forward) {
            if(back > forward)
                forward = back;
            return forward + 1;
        }
    }
#endif // DOCTEST_CONFIG_DISABLE
    return file;
}
DOCTEST_CLANG_SUPPRESS_WARNING_POP
DOCTEST_GCC_SUPPRESS_WARNING_POP

bool SubcaseSignature::operator==(const SubcaseSignature& other) const {
    return m_line == other.m_line
        && std::strcmp(m_file, other.m_file) == 0
        && m_name == other.m_name;
}

bool SubcaseSignature::operator<(const SubcaseSignature& other) const {
    if(m_line != other.m_line)
        return m_line < other.m_line;
    if(std::strcmp(m_file, other.m_file) != 0)
        return std::strcmp(m_file, other.m_file) < 0;
    return m_name.compare(other.m_name) < 0;
}

IContextScope::IContextScope()  = default;
IContextScope::~IContextScope() = default;

namespace detail {
    void filldata<const void*>::fill(std::ostream* stream, const void* in) {
        if (in) { *stream << in; }
        else { *stream << "nullptr"; }
    }

    template <typename T>
    String toStreamLit(T t) {
        std::ostream* os = tlssPush();
        os->operator<<(t);
        return tlssPop();
    }
}

#ifdef DOCTEST_CONFIG_TREAT_CHAR_STAR_AS_STRING
// NOLINTNEXTLINE(clang-analyzer-cplusplus.NewDeleteLeaks)
String toString(const char* in) { return String("\"") + (in ? in : "{null string}") + "\""; }
#endif // DOCTEST_CONFIG_TREAT_CHAR_STAR_AS_STRING

#if DOCTEST_MSVC >= DOCTEST_COMPILER(19, 20, 0)
// see this issue on why this is needed: https://github.com/doctest/doctest/issues/183
String toString(const std::string& in) { return in.c_str(); }
#endif // VS 2019

String toString(std::nullptr_t) { return "nullptr"; }

String toString(bool in) { return in ? "true" : "false"; }

String toString(float in) { return toStreamLit(in); }
String toString(double in) { return toStreamLit(in); }
String toString(double long in) { return toStreamLit(in); }

String toString(char in) { return toStreamLit(static_cast<signed>(in)); }
String toString(char signed in) { return toStreamLit(static_cast<signed>(in)); }
String toString(char unsigned in) { return toStreamLit(static_cast<unsigned>(in)); }
String toString(short in) { return toStreamLit(in); }
String toString(short unsigned in) { return toStreamLit(in); }
String toString(signed in) { return toStreamLit(in); }
String toString(unsigned in) { return toStreamLit(in); }
String toString(long in) { return toStreamLit(in); }
String toString(long unsigned in) { return toStreamLit(in); }
String toString(long long in) { return toStreamLit(in); }
String toString(long long unsigned in) { return toStreamLit(in); }

Approx::Approx(double value)
        : m_epsilon(static_cast<double>(std::numeric_limits<float>::epsilon()) * 100)
        , m_scale(1.0)
        , m_value(value) {}

Approx Approx::operator()(double value) const {
    Approx approx(value);
    approx.epsilon(m_epsilon);
    approx.scale(m_scale);
    return approx;
}

Approx& Approx::epsilon(double newEpsilon) {
    m_epsilon = newEpsilon;
    return *this;
}
Approx& Approx::scale(double newScale) {
    m_scale = newScale;
    return *this;
}

bool operator==(double lhs, const Approx& rhs) {
    // Thanks to Richard Harris for his help refining this formula
    return std::fabs(lhs - rhs.m_value) <
           rhs.m_epsilon * (rhs.m_scale + std::max<double>(std::fabs(lhs), std::fabs(rhs.m_value)));
}
bool operator==(const Approx& lhs, double rhs) { return operator==(rhs, lhs); }
bool operator!=(double lhs, const Approx& rhs) { return !operator==(lhs, rhs); }
bool operator!=(const Approx& lhs, double rhs) { return !operator==(rhs, lhs); }
bool operator<=(double lhs, const Approx& rhs) { return lhs < rhs.m_value || lhs == rhs; }
bool operator<=(const Approx& lhs, double rhs) { return lhs.m_value < rhs || lhs == rhs; }
bool operator>=(double lhs, const Approx& rhs) { return lhs > rhs.m_value || lhs == rhs; }
bool operator>=(const Approx& lhs, double rhs) { return lhs.m_value > rhs || lhs == rhs; }
bool operator<(double lhs, const Approx& rhs) { return lhs < rhs.m_value && lhs != rhs; }
bool operator<(const Approx& lhs, double rhs) { return lhs.m_value < rhs && lhs != rhs; }
bool operator>(double lhs, const Approx& rhs) { return lhs > rhs.m_value && lhs != rhs; }
bool operator>(const Approx& lhs, double rhs) { return lhs.m_value > rhs && lhs != rhs; }

String toString(const Approx& in) {
    return "Approx( " + doctest::toString(in.m_value) + " )";
}
const ContextOptions* getContextOptions() { return DOCTEST_BRANCH_ON_DISABLED(nullptr, g_cs); }

DOCTEST_MSVC_SUPPRESS_WARNING_WITH_PUSH(4738)
template <typename F>
IsNaN<F>::operator bool() const {
    return std::isnan(value) ^ flipped;
}
DOCTEST_MSVC_SUPPRESS_WARNING_POP
template struct DOCTEST_INTERFACE_DEF IsNaN<float>;
template struct DOCTEST_INTERFACE_DEF IsNaN<double>;
template struct DOCTEST_INTERFACE_DEF IsNaN<long double>;
template <typename F>
String toString(IsNaN<F> nanCheck) { return String(nanCheck.flipped ? "! " : "") + "IsNaN( " + doctest::toString(nanCheck.value) + " )"; }
String toString(IsNaN<float> nanCheck) { return toString<float>(nanCheck); }
String toString(IsNaN<double> nanCheck) { return toString<double>(nanCheck); }
String toString(IsNaN<double long> nanCheck) { return toString<double long>(nanCheck); }

} // namespace doctest

#ifdef DOCTEST_CONFIG_DISABLE
namespace doctest {
Context::Context(int, const char* const*) {}
Context::~Context() = default;
void Context::applyCommandLine(int, const char* const*) {}
void Context::addFilter(const char*, const char*) {}
void Context::clearFilters() {}
void Context::setOption(const char*, bool) {}
void Context::setOption(const char*, int) {}
void Context::setOption(const char*, const char*) {}
bool Context::shouldExit() { return false; }
void Context::setAsDefaultForAssertsOutOfTestCases() {}
void Context::setAssertHandler(detail::assert_handler) {}
void Context::setCout(std::ostream*) {}
int  Context::run() { return 0; }

IReporter::~IReporter() = default;

int                         IReporter::get_num_active_contexts() { return 0; }
const IContextScope* const* IReporter::get_active_contexts() { return nullptr; }
int                         IReporter::get_num_stringified_contexts() { return 0; }
const String*               IReporter::get_stringified_contexts() { return nullptr; }

int registerReporter(const char*, int, IReporter*) { return 0; }

} // namespace doctest
#else // DOCTEST_CONFIG_DISABLE

#if !defined(DOCTEST_CONFIG_COLORS_NONE)
#if !defined(DOCTEST_CONFIG_COLORS_WINDOWS) && !defined(DOCTEST_CONFIG_COLORS_ANSI)
#ifdef DOCTEST_PLATFORM_WINDOWS
#define DOCTEST_CONFIG_COLORS_WINDOWS
#else // linux
#define DOCTEST_CONFIG_COLORS_ANSI
#endif // platform
#endif // DOCTEST_CONFIG_COLORS_WINDOWS && DOCTEST_CONFIG_COLORS_ANSI
#endif // DOCTEST_CONFIG_COLORS_NONE

namespace doctest_detail_test_suite_ns {
// holds the current test suite
doctest::detail::TestSuite& getCurrentTestSuite() {
    static doctest::detail::TestSuite data{};
    return data;
}
} // namespace doctest_detail_test_suite_ns

namespace doctest {
namespace {
    // the int (priority) is part of the key for automatic sorting - sadly one can register a
    // reporter with a duplicate name and a different priority but hopefully that won't happen often :|
    typedef std::map<std::pair<int, String>, reporterCreatorFunc> reporterMap;

    reporterMap& getReporters() {
        static reporterMap data;
        return data;
    }
    reporterMap& getListeners() {
        static reporterMap data;
        return data;
    }
} // namespace
namespace detail {
#define DOCTEST_ITERATE_THROUGH_REPORTERS(function, ...)                                           \
    for(auto& curr_rep : g_cs->reporters_currently_used)                                           \
    curr_rep->function(__VA_ARGS__)

    bool checkIfShouldThrow(assertType::Enum at) {
        if(at & assertType::is_require) //!OCLINT bitwise operator in conditional
            return true;

        if((at & assertType::is_check) //!OCLINT bitwise operator in conditional
           && getContextOptions()->abort_after > 0 &&
           (g_cs->numAssertsFailed + g_cs->numAssertsFailedCurrentTest_atomic) >=
                   getContextOptions()->abort_after)
            return true;

        return false;
    }

#ifndef DOCTEST_CONFIG_NO_EXCEPTIONS
    DOCTEST_NORETURN void throwException() {
        g_cs->shouldLogCurrentException = false;
        throw TestFailureException();
    } // NOLINT(cert-err60-cpp)
#else // DOCTEST_CONFIG_NO_EXCEPTIONS
    void throwException() {}
#endif // DOCTEST_CONFIG_NO_EXCEPTIONS
} // namespace detail

namespace {
    using namespace detail;
    // matching of a string against a wildcard mask (case sensitivity configurable) taken from
    // https://www.codeproject.com/Articles/1088/Wildcard-string-compare-globbing
    int wildcmp(const char* str, const char* wild, bool caseSensitive) {
        const char* cp = str;
        const char* mp = wild;

        while((*str) && (*wild != '*')) {
            if((caseSensitive ? (*wild != *str) : (tolower(*wild) != tolower(*str))) &&
               (*wild != '?')) {
                return 0;
            }
            wild++;
            str++;
        }

        while(*str) {
            if(*wild == '*') {
                if(!*++wild) {
                    return 1;
                }
                mp = wild;
                cp = str + 1;
            } else if((caseSensitive ? (*wild == *str) : (tolower(*wild) == tolower(*str))) ||
                      (*wild == '?')) {
                wild++;
                str++;
            } else {
                wild = mp;   //!OCLINT parameter reassignment
                str  = cp++; //!OCLINT parameter reassignment
            }
        }

        while(*wild == '*') {
            wild++;
        }
        return !*wild;
    }

    // checks if the name matches any of the filters (and can be configured what to do when empty)
    bool matchesAny(const char* name, const std::vector<String>& filters, bool matchEmpty,
        bool caseSensitive) {
        if (filters.empty() && matchEmpty)
            return true;
        for (auto& curr : filters)
            if (wildcmp(name, curr.c_str(), caseSensitive))
                return true;
        return false;
    }

    unsigned long long hash(unsigned long long a, unsigned long long b) {
        return (a << 5) + b;
    }

    // C string hash function (djb2) - taken from http://www.cse.yorku.ca/~oz/hash.html
    unsigned long long hash(const char* str) {
        unsigned long long hash = 5381;
        char c;
        while ((c = *str++))
            hash = ((hash << 5) + hash) + c; // hash * 33 + c
        return hash;
    }

    unsigned long long hash(const SubcaseSignature& sig) {
        return hash(hash(hash(sig.m_file), hash(sig.m_name.c_str())), sig.m_line);
    }

    unsigned long long hash(const std::vector<SubcaseSignature>& sigs, size_t count) {
        unsigned long long running = 0;
        auto end = sigs.begin() + count;
        for (auto it = sigs.begin(); it != end; it++) {
            running = hash(running, hash(*it));
        }
        return running;
    }

    unsigned long long hash(const std::vector<SubcaseSignature>& sigs) {
        unsigned long long running = 0;
        for (const SubcaseSignature& sig : sigs) {
            running = hash(running, hash(sig));
        }
        return running;
    }
} // namespace
namespace detail {
    bool Subcase::checkFilters() {
        if (g_cs->subcaseStack.size() < size_t(g_cs->subcase_filter_levels)) {
            if (!matchesAny(m_signature.m_name.c_str(), g_cs->filters[6], true, g_cs->case_sensitive))
                return true;
            if (matchesAny(m_signature.m_name.c_str(), g_cs->filters[7], false, g_cs->case_sensitive))
                return true;
        }
        return false;
    }

    Subcase::Subcase(const String& name, const char* file, int line)
            : m_signature({name, file, line}) {
        if (!g_cs->reachedLeaf) {
            if (g_cs->nextSubcaseStack.size() <= g_cs->subcaseStack.size()
                || g_cs->nextSubcaseStack[g_cs->subcaseStack.size()] == m_signature) {
                // Going down.
                if (checkFilters()) { return; }

                g_cs->subcaseStack.push_back(m_signature);
                g_cs->currentSubcaseDepth++;
                m_entered = true;
                DOCTEST_ITERATE_THROUGH_REPORTERS(subcase_start, m_signature);
            }
        } else {
            if (g_cs->subcaseStack[g_cs->currentSubcaseDepth] == m_signature) {
                // This subcase is reentered via control flow.
                g_cs->currentSubcaseDepth++;
                m_entered = true;
                DOCTEST_ITERATE_THROUGH_REPORTERS(subcase_start, m_signature);
            } else if (g_cs->nextSubcaseStack.size() <= g_cs->currentSubcaseDepth
                    && g_cs->fullyTraversedSubcases.find(hash(hash(g_cs->subcaseStack, g_cs->currentSubcaseDepth), hash(m_signature)))
                    == g_cs->fullyTraversedSubcases.end()) {
                if (checkFilters()) { return; }
                // This subcase is part of the one to be executed next.
                g_cs->nextSubcaseStack.clear();
                g_cs->nextSubcaseStack.insert(g_cs->nextSubcaseStack.end(),
                    g_cs->subcaseStack.begin(), g_cs->subcaseStack.begin() + g_cs->currentSubcaseDepth);
                g_cs->nextSubcaseStack.push_back(m_signature);
            }
        }
    }

    DOCTEST_MSVC_SUPPRESS_WARNING_WITH_PUSH(4996) // std::uncaught_exception is deprecated in C++17
    DOCTEST_GCC_SUPPRESS_WARNING_WITH_PUSH("-Wdeprecated-declarations")
    DOCTEST_CLANG_SUPPRESS_WARNING_WITH_PUSH("-Wdeprecated-declarations")

    Subcase::~Subcase() {
        if (m_entered) {
            g_cs->currentSubcaseDepth--;

            if (!g_cs->reachedLeaf) {
                // Leaf.
                g_cs->fullyTraversedSubcases.insert(hash(g_cs->subcaseStack));
                g_cs->nextSubcaseStack.clear();
                g_cs->reachedLeaf = true;
            } else if (g_cs->nextSubcaseStack.empty()) {
                // All children are finished.
                g_cs->fullyTraversedSubcases.insert(hash(g_cs->subcaseStack));
            }

#if defined(__cpp_lib_uncaught_exceptions) && __cpp_lib_uncaught_exceptions >= 201411L && (!defined(__MAC_OS_X_VERSION_MIN_REQUIRED) || __MAC_OS_X_VERSION_MIN_REQUIRED >= 101200)
            if(std::uncaught_exceptions() > 0
#else
            if(std::uncaught_exception()
#endif
                && g_cs->shouldLogCurrentException) {
                DOCTEST_ITERATE_THROUGH_REPORTERS(
                        test_case_exception, {"exception thrown in subcase - will translate later "
                                                "when the whole test case has been exited (cannot "
                                                "translate while there is an active exception)",
                                                false});
                g_cs->shouldLogCurrentException = false;
            }

            DOCTEST_ITERATE_THROUGH_REPORTERS(subcase_end, DOCTEST_EMPTY);
        }
    }

    DOCTEST_CLANG_SUPPRESS_WARNING_POP
    DOCTEST_GCC_SUPPRESS_WARNING_POP
    DOCTEST_MSVC_SUPPRESS_WARNING_POP

    Subcase::operator bool() const { return m_entered; }

    Result::Result(bool passed, const String& decomposition)
            : m_passed(passed)
            , m_decomp(decomposition) {}

    ExpressionDecomposer::ExpressionDecomposer(assertType::Enum at)
            : m_at(at) {}

    TestSuite& TestSuite::operator*(const char* in) {
        m_test_suite = in;
        return *this;
    }

    TestCase::TestCase(funcType test, const char* file, unsigned line, const TestSuite& test_suite,
                       const String& type, int template_id) {
        m_file              = file;
        m_line              = line;
        m_name              = nullptr; // will be later overridden in operator*
        m_test_suite        = test_suite.m_test_suite;
        m_description       = test_suite.m_description;
        m_skip              = test_suite.m_skip;
        m_no_breaks         = test_suite.m_no_breaks;
        m_no_output         = test_suite.m_no_output;
        m_may_fail          = test_suite.m_may_fail;
        m_should_fail       = test_suite.m_should_fail;
        m_expected_failures = test_suite.m_expected_failures;
        m_timeout           = test_suite.m_timeout;

        m_test        = test;
        m_type        = type;
        m_template_id = template_id;
    }

    TestCase::TestCase(const TestCase& other)
            : TestCaseData() {
        *this = other;
    }

    DOCTEST_MSVC_SUPPRESS_WARNING_WITH_PUSH(26434) // hides a non-virtual function
    TestCase& TestCase::operator=(const TestCase& other) {
        TestCaseData::operator=(other);
        m_test        = other.m_test;
        m_type        = other.m_type;
        m_template_id = other.m_template_id;
        m_full_name   = other.m_full_name;

        if(m_template_id != -1)
            m_name = m_full_name.c_str();
        return *this;
    }
    DOCTEST_MSVC_SUPPRESS_WARNING_POP

    TestCase& TestCase::operator*(const char* in) {
        m_name = in;
        // make a new name with an appended type for templated test case
        if(m_template_id != -1) {
            m_full_name = String(m_name) + "<" + m_type + ">";
            // redirect the name to point to the newly constructed full name
            m_name = m_full_name.c_str();
        }
        return *this;
    }

    bool TestCase::operator<(const TestCase& other) const {
        // this will be used only to differentiate between test cases - not relevant for sorting
        if(m_line != other.m_line)
            return m_line < other.m_line;
        const int name_cmp = strcmp(m_name, other.m_name);
        if(name_cmp != 0)
            return name_cmp < 0;
        const int file_cmp = m_file.compare(other.m_file);
        if(file_cmp != 0)
            return file_cmp < 0;
        return m_template_id < other.m_template_id;
    }

    // all the registered tests
    std::set<TestCase>& getRegisteredTests() {
        static std::set<TestCase> data;
        return data;
    }
} // namespace detail
namespace {
    using namespace detail;
    // for sorting tests by file/line
    bool fileOrderComparator(const TestCase* lhs, const TestCase* rhs) {
        // this is needed because MSVC gives different case for drive letters
        // for __FILE__ when evaluated in a header and a source file
        const int res = lhs->m_file.compare(rhs->m_file, bool(DOCTEST_MSVC));
        if(res != 0)
            return res < 0;
        if(lhs->m_line != rhs->m_line)
            return lhs->m_line < rhs->m_line;
        return lhs->m_template_id < rhs->m_template_id;
    }

    // for sorting tests by suite/file/line
    bool suiteOrderComparator(const TestCase* lhs, const TestCase* rhs) {
        const int res = std::strcmp(lhs->m_test_suite, rhs->m_test_suite);
        if(res != 0)
            return res < 0;
        return fileOrderComparator(lhs, rhs);
    }

    // for sorting tests by name/suite/file/line
    bool nameOrderComparator(const TestCase* lhs, const TestCase* rhs) {
        const int res = std::strcmp(lhs->m_name, rhs->m_name);
        if(res != 0)
            return res < 0;
        return suiteOrderComparator(lhs, rhs);
    }

    DOCTEST_CLANG_SUPPRESS_WARNING_WITH_PUSH("-Wdeprecated-declarations")
    void color_to_stream(std::ostream& s, Color::Enum code) {
        static_cast<void>(s);    // for DOCTEST_CONFIG_COLORS_NONE or DOCTEST_CONFIG_COLORS_WINDOWS
        static_cast<void>(code); // for DOCTEST_CONFIG_COLORS_NONE
#ifdef DOCTEST_CONFIG_COLORS_ANSI
        if(g_no_colors ||
           (isatty(STDOUT_FILENO) == false && getContextOptions()->force_colors == false))
            return;

        auto col = "";
        // clang-format off
            switch(code) { //!OCLINT missing break in switch statement / unnecessary default statement in covered switch statement
                case Color::Red:         col = "[0;31m"; break;
                case Color::Green:       col = "[0;32m"; break;
                case Color::Blue:        col = "[0;34m"; break;
                case Color::Cyan:        col = "[0;36m"; break;
                case Color::Yellow:      col = "[0;33m"; break;
                case Color::Grey:        col = "[1;30m"; break;
                case Color::LightGrey:   col = "[0;37m"; break;
                case Color::BrightRed:   col = "[1;31m"; break;
                case Color::BrightGreen: col = "[1;32m"; break;
                case Color::BrightWhite: col = "[1;37m"; break;
                case Color::Bright: // invalid
                case Color::None:
                case Color::White:
                default:                 col = "[0m";
            }
        // clang-format on
        s << "\033" << col;
#endif // DOCTEST_CONFIG_COLORS_ANSI

#ifdef DOCTEST_CONFIG_COLORS_WINDOWS
        if(g_no_colors ||
           (_isatty(_fileno(stdout)) == false && getContextOptions()->force_colors == false))
            return;

        static struct ConsoleHelper {
            HANDLE stdoutHandle;
            WORD   origFgAttrs;
            WORD   origBgAttrs;

            ConsoleHelper() {
                stdoutHandle = GetStdHandle(STD_OUTPUT_HANDLE);
                CONSOLE_SCREEN_BUFFER_INFO csbiInfo;
                GetConsoleScreenBufferInfo(stdoutHandle, &csbiInfo);
                origFgAttrs = csbiInfo.wAttributes & ~(BACKGROUND_GREEN | BACKGROUND_RED |
                    BACKGROUND_BLUE | BACKGROUND_INTENSITY);
                origBgAttrs = csbiInfo.wAttributes & ~(FOREGROUND_GREEN | FOREGROUND_RED |
                    FOREGROUND_BLUE | FOREGROUND_INTENSITY);
            }
        } ch;

#define DOCTEST_SET_ATTR(x) SetConsoleTextAttribute(ch.stdoutHandle, x | ch.origBgAttrs)

        // clang-format off
        switch (code) {
            case Color::White:       DOCTEST_SET_ATTR(FOREGROUND_GREEN | FOREGROUND_RED | FOREGROUND_BLUE); break;
            case Color::Red:         DOCTEST_SET_ATTR(FOREGROUND_RED);                                      break;
            case Color::Green:       DOCTEST_SET_ATTR(FOREGROUND_GREEN);                                    break;
            case Color::Blue:        DOCTEST_SET_ATTR(FOREGROUND_BLUE);                                     break;
            case Color::Cyan:        DOCTEST_SET_ATTR(FOREGROUND_BLUE | FOREGROUND_GREEN);                  break;
            case Color::Yellow:      DOCTEST_SET_ATTR(FOREGROUND_RED | FOREGROUND_GREEN);                   break;
            case Color::Grey:        DOCTEST_SET_ATTR(0);                                                   break;
            case Color::LightGrey:   DOCTEST_SET_ATTR(FOREGROUND_INTENSITY);                                break;
            case Color::BrightRed:   DOCTEST_SET_ATTR(FOREGROUND_INTENSITY | FOREGROUND_RED);               break;
            case Color::BrightGreen: DOCTEST_SET_ATTR(FOREGROUND_INTENSITY | FOREGROUND_GREEN);             break;
            case Color::BrightWhite: DOCTEST_SET_ATTR(FOREGROUND_INTENSITY | FOREGROUND_GREEN | FOREGROUND_RED | FOREGROUND_BLUE); break;
            case Color::None:
            case Color::Bright: // invalid
            default:                 DOCTEST_SET_ATTR(ch.origFgAttrs);
        }
            // clang-format on
#endif // DOCTEST_CONFIG_COLORS_WINDOWS
    }
    DOCTEST_CLANG_SUPPRESS_WARNING_POP

    std::vector<const IExceptionTranslator*>& getExceptionTranslators() {
        static std::vector<const IExceptionTranslator*> data;
        return data;
    }

    String translateActiveException() {
#ifndef DOCTEST_CONFIG_NO_EXCEPTIONS
        String res;
        auto&  translators = getExceptionTranslators();
        for(auto& curr : translators)
            if(curr->translate(res))
                return res;
        // clang-format off
        DOCTEST_GCC_SUPPRESS_WARNING_WITH_PUSH("-Wcatch-value")
        try {
            throw;
        } catch(std::exception& ex) {
            return ex.what();
        } catch(std::string& msg) {
            return msg.c_str();
        } catch(const char* msg) {
            return msg;
        } catch(...) {
            return "unknown exception";
        }
        DOCTEST_GCC_SUPPRESS_WARNING_POP
// clang-format on
#else  // DOCTEST_CONFIG_NO_EXCEPTIONS
        return "";
#endif // DOCTEST_CONFIG_NO_EXCEPTIONS
    }
} // namespace

namespace detail {
    // used by the macros for registering tests
    int regTest(const TestCase& tc) {
        getRegisteredTests().insert(tc);
        return 0;
    }

    // sets the current test suite
    int setTestSuite(const TestSuite& ts) {
        doctest_detail_test_suite_ns::getCurrentTestSuite() = ts;
        return 0;
    }

#ifdef DOCTEST_IS_DEBUGGER_ACTIVE
    bool isDebuggerActive() { return DOCTEST_IS_DEBUGGER_ACTIVE(); }
#else // DOCTEST_IS_DEBUGGER_ACTIVE
#ifdef DOCTEST_PLATFORM_LINUX
    class ErrnoGuard {
    public:
        ErrnoGuard() : m_oldErrno(errno) {}
        ~ErrnoGuard() { errno = m_oldErrno; }
    private:
        int m_oldErrno;
    };
    // See the comments in Catch2 for the reasoning behind this implementation:
    // https://github.com/catchorg/Catch2/blob/v2.13.1/include/internal/catch_debugger.cpp#L79-L102
    bool isDebuggerActive() {
        ErrnoGuard guard;
        std::ifstream in("/proc/self/status");
        for(std::string line; std::getline(in, line);) {
            static const int PREFIX_LEN = 11;
            if(line.compare(0, PREFIX_LEN, "TracerPid:\t") == 0) {
                return line.length() > PREFIX_LEN && line[PREFIX_LEN] != '0';
            }
        }
        return false;
    }
#elif defined(DOCTEST_PLATFORM_MAC)
    // The following function is taken directly from the following technical note:
    // https://developer.apple.com/library/archive/qa/qa1361/_index.html
    // Returns true if the current process is being debugged (either
    // running under the debugger or has a debugger attached post facto).
    bool isDebuggerActive() {
        int        mib[4];
        kinfo_proc info;
        size_t     size;
        // Initialize the flags so that, if sysctl fails for some bizarre
        // reason, we get a predictable result.
        info.kp_proc.p_flag = 0;
        // Initialize mib, which tells sysctl the info we want, in this case
        // we're looking for information about a specific process ID.
        mib[0] = CTL_KERN;
        mib[1] = KERN_PROC;
        mib[2] = KERN_PROC_PID;
        mib[3] = getpid();
        // Call sysctl.
        size = sizeof(info);
        if(sysctl(mib, DOCTEST_COUNTOF(mib), &info, &size, 0, 0) != 0) {
            std::cerr << "\nCall to sysctl failed - unable to determine if debugger is active **\n";
            return false;
        }
        // We're being debugged if the P_TRACED flag is set.
        return ((info.kp_proc.p_flag & P_TRACED) != 0);
    }
#elif DOCTEST_MSVC || defined(__MINGW32__) || defined(__MINGW64__)
    bool isDebuggerActive() { return ::IsDebuggerPresent() != 0; }
#else
    bool isDebuggerActive() { return false; }
#endif // Platform
#endif // DOCTEST_IS_DEBUGGER_ACTIVE

    void registerExceptionTranslatorImpl(const IExceptionTranslator* et) {
        if(std::find(getExceptionTranslators().begin(), getExceptionTranslators().end(), et) ==
           getExceptionTranslators().end())
            getExceptionTranslators().push_back(et);
    }

    DOCTEST_THREAD_LOCAL std::vector<IContextScope*> g_infoContexts; // for logging with INFO()

    ContextScopeBase::ContextScopeBase() {
        g_infoContexts.push_back(this);
    }

    ContextScopeBase::ContextScopeBase(ContextScopeBase&& other) {
        if (other.need_to_destroy) {
            other.destroy();
        }
        other.need_to_destroy = false;
        g_infoContexts.push_back(this);
    }

    DOCTEST_MSVC_SUPPRESS_WARNING_WITH_PUSH(4996) // std::uncaught_exception is deprecated in C++17
    DOCTEST_GCC_SUPPRESS_WARNING_WITH_PUSH("-Wdeprecated-declarations")
    DOCTEST_CLANG_SUPPRESS_WARNING_WITH_PUSH("-Wdeprecated-declarations")

    // destroy cannot be inlined into the destructor because that would mean calling stringify after
    // ContextScope has been destroyed (base class destructors run after derived class destructors).
    // Instead, ContextScope calls this method directly from its destructor.
    void ContextScopeBase::destroy() {
#if defined(__cpp_lib_uncaught_exceptions) && __cpp_lib_uncaught_exceptions >= 201411L && (!defined(__MAC_OS_X_VERSION_MIN_REQUIRED) || __MAC_OS_X_VERSION_MIN_REQUIRED >= 101200)
        if(std::uncaught_exceptions() > 0) {
#else
        if(std::uncaught_exception()) {
#endif
            std::ostringstream s;
            this->stringify(&s);
            g_cs->stringifiedContexts.push_back(s.str().c_str());
        }
        g_infoContexts.pop_back();
    }

    DOCTEST_CLANG_SUPPRESS_WARNING_POP
    DOCTEST_GCC_SUPPRESS_WARNING_POP
    DOCTEST_MSVC_SUPPRESS_WARNING_POP
} // namespace detail
namespace {
    using namespace detail;

#if !defined(DOCTEST_CONFIG_POSIX_SIGNALS) && !defined(DOCTEST_CONFIG_WINDOWS_SEH)
    struct FatalConditionHandler
    {
        static void reset() {}
        static void allocateAltStackMem() {}
        static void freeAltStackMem() {}
    };
#else // DOCTEST_CONFIG_POSIX_SIGNALS || DOCTEST_CONFIG_WINDOWS_SEH

    void reportFatal(const std::string&);

#ifdef DOCTEST_PLATFORM_WINDOWS

    struct SignalDefs
    {
        DWORD id;
        const char* name;
    };
    // There is no 1-1 mapping between signals and windows exceptions.
    // Windows can easily distinguish between SO and SigSegV,
    // but SigInt, SigTerm, etc are handled differently.
    SignalDefs signalDefs[] = {
            {static_cast<DWORD>(EXCEPTION_ILLEGAL_INSTRUCTION),
             "SIGILL - Illegal instruction signal"},
            {static_cast<DWORD>(EXCEPTION_STACK_OVERFLOW), "SIGSEGV - Stack overflow"},
            {static_cast<DWORD>(EXCEPTION_ACCESS_VIOLATION),
             "SIGSEGV - Segmentation violation signal"},
            {static_cast<DWORD>(EXCEPTION_INT_DIVIDE_BY_ZERO), "Divide by zero error"},
    };

    struct FatalConditionHandler
    {
        static LONG CALLBACK handleException(PEXCEPTION_POINTERS ExceptionInfo) {
            // Multiple threads may enter this filter/handler at once. We want the error message to be printed on the
            // console just once no matter how many threads have crashed.
            DOCTEST_DECLARE_STATIC_MUTEX(mutex)
            static bool execute = true;
            {
                DOCTEST_LOCK_MUTEX(mutex)
                if(execute) {
                    bool reported = false;
                    for(size_t i = 0; i < DOCTEST_COUNTOF(signalDefs); ++i) {
                        if(ExceptionInfo->ExceptionRecord->ExceptionCode == signalDefs[i].id) {
                            reportFatal(signalDefs[i].name);
                            reported = true;
                            break;
                        }
                    }
                    if(reported == false)
                        reportFatal("Unhandled SEH exception caught");
                    if(isDebuggerActive() && !g_cs->no_breaks)
                        DOCTEST_BREAK_INTO_DEBUGGER();
                }
                execute = false;
            }
            std::exit(EXIT_FAILURE);
        }

        static void allocateAltStackMem() {}
        static void freeAltStackMem() {}

        FatalConditionHandler() {
            isSet = true;
            // 32k seems enough for doctest to handle stack overflow,
            // but the value was found experimentally, so there is no strong guarantee
            guaranteeSize = 32 * 1024;
            // Register an unhandled exception filter
            previousTop = SetUnhandledExceptionFilter(handleException);
            // Pass in guarantee size to be filled
            SetThreadStackGuarantee(&guaranteeSize);

            // On Windows uncaught exceptions from another thread, exceptions from
            // destructors, or calls to std::terminate are not a SEH exception

            // The terminal handler gets called when:
            // - std::terminate is called FROM THE TEST RUNNER THREAD
            // - an exception is thrown from a destructor FROM THE TEST RUNNER THREAD
            original_terminate_handler = std::get_terminate();
            std::set_terminate([]() DOCTEST_NOEXCEPT {
                reportFatal("Terminate handler called");
                if(isDebuggerActive() && !g_cs->no_breaks)
                    DOCTEST_BREAK_INTO_DEBUGGER();
                std::exit(EXIT_FAILURE); // explicitly exit - otherwise the SIGABRT handler may be called as well
            });

            // SIGABRT is raised when:
            // - std::terminate is called FROM A DIFFERENT THREAD
            // - an exception is thrown from a destructor FROM A DIFFERENT THREAD
            // - an uncaught exception is thrown FROM A DIFFERENT THREAD
            prev_sigabrt_handler = std::signal(SIGABRT, [](int signal) DOCTEST_NOEXCEPT {
                if(signal == SIGABRT) {
                    reportFatal("SIGABRT - Abort (abnormal termination) signal");
                    if(isDebuggerActive() && !g_cs->no_breaks)
                        DOCTEST_BREAK_INTO_DEBUGGER();
                    std::exit(EXIT_FAILURE);
                }
            });

            // The following settings are taken from google test, and more
            // specifically from UnitTest::Run() inside of gtest.cc

            // the user does not want to see pop-up dialogs about crashes
            prev_error_mode_1 = SetErrorMode(SEM_FAILCRITICALERRORS | SEM_NOALIGNMENTFAULTEXCEPT |
                                             SEM_NOGPFAULTERRORBOX | SEM_NOOPENFILEERRORBOX);
            // This forces the abort message to go to stderr in all circumstances.
            prev_error_mode_2 = _set_error_mode(_OUT_TO_STDERR);
            // In the debug version, Visual Studio pops up a separate dialog
            // offering a choice to debug the aborted program - we want to disable that.
            prev_abort_behavior = _set_abort_behavior(0x0, _WRITE_ABORT_MSG | _CALL_REPORTFAULT);
            // In debug mode, the Windows CRT can crash with an assertion over invalid
            // input (e.g. passing an invalid file descriptor). The default handling
            // for these assertions is to pop up a dialog and wait for user input.
            // Instead ask the CRT to dump such assertions to stderr non-interactively.
            prev_report_mode = _CrtSetReportMode(_CRT_ASSERT, _CRTDBG_MODE_FILE | _CRTDBG_MODE_DEBUG);
            prev_report_file = _CrtSetReportFile(_CRT_ASSERT, _CRTDBG_FILE_STDERR);
        }

        static void reset() {
            if(isSet) {
                // Unregister handler and restore the old guarantee
                SetUnhandledExceptionFilter(previousTop);
                SetThreadStackGuarantee(&guaranteeSize);
                std::set_terminate(original_terminate_handler);
                std::signal(SIGABRT, prev_sigabrt_handler);
                SetErrorMode(prev_error_mode_1);
                _set_error_mode(prev_error_mode_2);
                _set_abort_behavior(prev_abort_behavior, _WRITE_ABORT_MSG | _CALL_REPORTFAULT);
                static_cast<void>(_CrtSetReportMode(_CRT_ASSERT, prev_report_mode));
                static_cast<void>(_CrtSetReportFile(_CRT_ASSERT, prev_report_file));
                isSet = false;
            }
        }

        ~FatalConditionHandler() { reset(); }

    private:
        static UINT         prev_error_mode_1;
        static int          prev_error_mode_2;
        static unsigned int prev_abort_behavior;
        static int          prev_report_mode;
        static _HFILE       prev_report_file;
        static void (DOCTEST_CDECL *prev_sigabrt_handler)(int);
        static std::terminate_handler original_terminate_handler;
        static bool isSet;
        static ULONG guaranteeSize;
        static LPTOP_LEVEL_EXCEPTION_FILTER previousTop;
    };

    UINT         FatalConditionHandler::prev_error_mode_1;
    int          FatalConditionHandler::prev_error_mode_2;
    unsigned int FatalConditionHandler::prev_abort_behavior;
    int          FatalConditionHandler::prev_report_mode;
    _HFILE       FatalConditionHandler::prev_report_file;
    void (DOCTEST_CDECL *FatalConditionHandler::prev_sigabrt_handler)(int);
    std::terminate_handler FatalConditionHandler::original_terminate_handler;
    bool FatalConditionHandler::isSet = false;
    ULONG FatalConditionHandler::guaranteeSize = 0;
    LPTOP_LEVEL_EXCEPTION_FILTER FatalConditionHandler::previousTop = nullptr;

#else // DOCTEST_PLATFORM_WINDOWS

    struct SignalDefs
    {
        int         id;
        const char* name;
    };
    SignalDefs signalDefs[] = {{SIGINT, "SIGINT - Terminal interrupt signal"},
                               {SIGILL, "SIGILL - Illegal instruction signal"},
                               {SIGFPE, "SIGFPE - Floating point error signal"},
                               {SIGSEGV, "SIGSEGV - Segmentation violation signal"},
                               {SIGTERM, "SIGTERM - Termination request signal"},
                               {SIGABRT, "SIGABRT - Abort (abnormal termination) signal"}};

    struct FatalConditionHandler
    {
        static bool             isSet;
        static struct sigaction oldSigActions[DOCTEST_COUNTOF(signalDefs)];
        static stack_t          oldSigStack;
        static size_t           altStackSize;
        static char*            altStackMem;

        static void handleSignal(int sig) {
            const char* name = "<unknown signal>";
            for(std::size_t i = 0; i < DOCTEST_COUNTOF(signalDefs); ++i) {
                SignalDefs& def = signalDefs[i];
                if(sig == def.id) {
                    name = def.name;
                    break;
                }
            }
            reset();
            reportFatal(name);
            raise(sig);
        }

        static void allocateAltStackMem() {
            altStackMem = new char[altStackSize];
        }

        static void freeAltStackMem() {
            delete[] altStackMem;
        }

        FatalConditionHandler() {
            isSet = true;
            stack_t sigStack;
            sigStack.ss_sp    = altStackMem;
            sigStack.ss_size  = altStackSize;
            sigStack.ss_flags = 0;
            sigaltstack(&sigStack, &oldSigStack);
            struct sigaction sa = {};
            sa.sa_handler       = handleSignal; // NOLINT
            sa.sa_flags         = SA_ONSTACK;
            for(std::size_t i = 0; i < DOCTEST_COUNTOF(signalDefs); ++i) {
                sigaction(signalDefs[i].id, &sa, &oldSigActions[i]);
            }
        }

        ~FatalConditionHandler() { reset(); }
        static void reset() {
            if(isSet) {
                // Set signals back to previous values -- hopefully nobody overwrote them in the meantime
                for(std::size_t i = 0; i < DOCTEST_COUNTOF(signalDefs); ++i) {
                    sigaction(signalDefs[i].id, &oldSigActions[i], nullptr);
                }
                // Return the old stack
                sigaltstack(&oldSigStack, nullptr);
                isSet = false;
            }
        }
    };

    bool             FatalConditionHandler::isSet = false;
    struct sigaction FatalConditionHandler::oldSigActions[DOCTEST_COUNTOF(signalDefs)] = {};
    stack_t          FatalConditionHandler::oldSigStack = {};
    size_t           FatalConditionHandler::altStackSize = 4 * SIGSTKSZ;
    char*            FatalConditionHandler::altStackMem = nullptr;

#endif // DOCTEST_PLATFORM_WINDOWS
#endif // DOCTEST_CONFIG_POSIX_SIGNALS || DOCTEST_CONFIG_WINDOWS_SEH

} // namespace

namespace {
    using namespace detail;

#ifdef DOCTEST_PLATFORM_WINDOWS
#define DOCTEST_OUTPUT_DEBUG_STRING(text) ::OutputDebugStringA(text)
#else
    // TODO: integration with XCode and other IDEs
#define DOCTEST_OUTPUT_DEBUG_STRING(text) // NOLINT(clang-diagnostic-unused-macros)
#endif // Platform

    void addAssert(assertType::Enum at) {
        if((at & assertType::is_warn) == 0) //!OCLINT bitwise operator in conditional
            g_cs->numAssertsCurrentTest_atomic++;
    }

    void addFailedAssert(assertType::Enum at) {
        if((at & assertType::is_warn) == 0) //!OCLINT bitwise operator in conditional
            g_cs->numAssertsFailedCurrentTest_atomic++;
    }

#if defined(DOCTEST_CONFIG_POSIX_SIGNALS) || defined(DOCTEST_CONFIG_WINDOWS_SEH)
    void reportFatal(const std::string& message) {
        g_cs->failure_flags |= TestCaseFailureReason::Crash;

        DOCTEST_ITERATE_THROUGH_REPORTERS(test_case_exception, {message.c_str(), true});

        while (g_cs->subcaseStack.size()) {
            g_cs->subcaseStack.pop_back();
            DOCTEST_ITERATE_THROUGH_REPORTERS(subcase_end, DOCTEST_EMPTY);
        }

        g_cs->finalizeTestCaseData();

        DOCTEST_ITERATE_THROUGH_REPORTERS(test_case_end, *g_cs);

        DOCTEST_ITERATE_THROUGH_REPORTERS(test_run_end, *g_cs);
    }
#endif // DOCTEST_CONFIG_POSIX_SIGNALS || DOCTEST_CONFIG_WINDOWS_SEH
} // namespace

AssertData::AssertData(assertType::Enum at, const char* file, int line, const char* expr,
    const char* exception_type, const StringContains& exception_string)
    : m_test_case(g_cs->currentTest), m_at(at), m_file(file), m_line(line), m_expr(expr),
    m_failed(true), m_threw(false), m_threw_as(false), m_exception_type(exception_type),
    m_exception_string(exception_string) {
#if DOCTEST_MSVC
    if (m_expr[0] == ' ') // this happens when variadic macros are disabled under MSVC
        ++m_expr;
#endif // MSVC
}

namespace detail {
    ResultBuilder::ResultBuilder(assertType::Enum at, const char* file, int line, const char* expr,
                                 const char* exception_type, const String& exception_string)
        : AssertData(at, file, line, expr, exception_type, exception_string) { }

    ResultBuilder::ResultBuilder(assertType::Enum at, const char* file, int line, const char* expr,
        const char* exception_type, const Contains& exception_string)
        : AssertData(at, file, line, expr, exception_type, exception_string) { }

    void ResultBuilder::setResult(const Result& res) {
        m_decomp = res.m_decomp;
        m_failed = !res.m_passed;
    }

    void ResultBuilder::translateException() {
        m_threw     = true;
        m_exception = translateActiveException();
    }

    bool ResultBuilder::log() {
        if(m_at & assertType::is_throws) { //!OCLINT bitwise operator in conditional
            m_failed = !m_threw;
        } else if((m_at & assertType::is_throws_as) && (m_at & assertType::is_throws_with)) { //!OCLINT
            m_failed = !m_threw_as || !m_exception_string.check(m_exception);
        } else if(m_at & assertType::is_throws_as) { //!OCLINT bitwise operator in conditional
            m_failed = !m_threw_as;
        } else if(m_at & assertType::is_throws_with) { //!OCLINT bitwise operator in conditional
            m_failed = !m_exception_string.check(m_exception);
        } else if(m_at & assertType::is_nothrow) { //!OCLINT bitwise operator in conditional
            m_failed = m_threw;
        }

        if(m_exception.size())
            m_exception = "\"" + m_exception + "\"";

        if(is_running_in_test) {
            addAssert(m_at);
            DOCTEST_ITERATE_THROUGH_REPORTERS(log_assert, *this);

            if(m_failed)
                addFailedAssert(m_at);
        } else if(m_failed) {
            failed_out_of_a_testing_context(*this);
        }

        return m_failed && isDebuggerActive() && !getContextOptions()->no_breaks &&
            (g_cs->currentTest == nullptr || !g_cs->currentTest->m_no_breaks); // break into debugger
    }

    void ResultBuilder::react() const {
        if(m_failed && checkIfShouldThrow(m_at))
            throwException();
    }

    void failed_out_of_a_testing_context(const AssertData& ad) {
        if(g_cs->ah)
            g_cs->ah(ad);
        else
            std::abort();
    }

    bool decomp_assert(assertType::Enum at, const char* file, int line, const char* expr,
                       Result result) {
        bool failed = !result.m_passed;

        // ###################################################################################
        // IF THE DEBUGGER BREAKS HERE - GO 1 LEVEL UP IN THE CALLSTACK FOR THE FAILING ASSERT
        // THIS IS THE EFFECT OF HAVING 'DOCTEST_CONFIG_SUPER_FAST_ASSERTS' DEFINED
        // ###################################################################################
        DOCTEST_ASSERT_OUT_OF_TESTS(result.m_decomp);
        DOCTEST_ASSERT_IN_TESTS(result.m_decomp);
        // NOLINTNEXTLINE(clang-analyzer-cplusplus.NewDeleteLeaks)
        return !failed;
    }

    MessageBuilder::MessageBuilder(const char* file, int line, assertType::Enum severity) {
        m_stream   = tlssPush();
        m_file     = file;
        m_line     = line;
        m_severity = severity;
    }

    MessageBuilder::~MessageBuilder() {
        if (!logged)
            tlssPop();
    }

    IExceptionTranslator::IExceptionTranslator()  = default;
    IExceptionTranslator::~IExceptionTranslator() = default;

    bool MessageBuilder::log() {
        if (!logged) {
            m_string = tlssPop();
            logged = true;
        }
        
        DOCTEST_ITERATE_THROUGH_REPORTERS(log_message, *this);

        const bool isWarn = m_severity & assertType::is_warn;

        // warn is just a message in this context so we don't treat it as an assert
        if(!isWarn) {
            addAssert(m_severity);
            addFailedAssert(m_severity);
        }

        return isDebuggerActive() && !getContextOptions()->no_breaks && !isWarn &&
            (g_cs->currentTest == nullptr || !g_cs->currentTest->m_no_breaks); // break into debugger
    }

    void MessageBuilder::react() {
        if(m_severity & assertType::is_require) //!OCLINT bitwise operator in conditional
            throwException();
    }
} // namespace detail
namespace {
    using namespace detail;

    // clang-format off

// =================================================================================================
// The following code has been taken verbatim from Catch2/include/internal/catch_xmlwriter.h/cpp
// This is done so cherry-picking bug fixes is trivial - even the style/formatting is untouched.
// =================================================================================================

    class XmlEncode {
    public:
        enum ForWhat { ForTextNodes, ForAttributes };

        XmlEncode( std::string const& str, ForWhat forWhat = ForTextNodes );

        void encodeTo( std::ostream& os ) const;

        friend std::ostream& operator << ( std::ostream& os, XmlEncode const& xmlEncode );

    private:
        std::string m_str;
        ForWhat m_forWhat;
    };

    class XmlWriter {
    public:

        class ScopedElement {
        public:
            ScopedElement( XmlWriter* writer );

            ScopedElement( ScopedElement&& other ) DOCTEST_NOEXCEPT;
            ScopedElement& operator=( ScopedElement&& other ) DOCTEST_NOEXCEPT;

            ~ScopedElement();

            ScopedElement& writeText( std::string const& text, bool indent = true );

            template<typename T>
            ScopedElement& writeAttribute( std::string const& name, T const& attribute ) {
                m_writer->writeAttribute( name, attribute );
                return *this;
            }

        private:
            mutable XmlWriter* m_writer = nullptr;
        };

        XmlWriter( std::ostream& os = std::cout );
        ~XmlWriter();

        XmlWriter( XmlWriter const& ) = delete;
        XmlWriter& operator=( XmlWriter const& ) = delete;

        XmlWriter& startElement( std::string const& name );

        ScopedElement scopedElement( std::string const& name );

        XmlWriter& endElement();

        XmlWriter& writeAttribute( std::string const& name, std::string const& attribute );

        XmlWriter& writeAttribute( std::string const& name, const char* attribute );

        XmlWriter& writeAttribute( std::string const& name, bool attribute );

        template<typename T>
        XmlWriter& writeAttribute( std::string const& name, T const& attribute ) {
        std::stringstream rss;
            rss << attribute;
            return writeAttribute( name, rss.str() );
        }

        XmlWriter& writeText( std::string const& text, bool indent = true );

        //XmlWriter& writeComment( std::string const& text );

        //void writeStylesheetRef( std::string const& url );

        //XmlWriter& writeBlankLine();

        void ensureTagClosed();

        void writeDeclaration();

    private:

        void newlineIfNecessary();

        bool m_tagIsOpen = false;
        bool m_needsNewline = false;
        std::vector<std::string> m_tags;
        std::string m_indent;
        std::ostream& m_os;
    };

// =================================================================================================
// The following code has been taken verbatim from Catch2/include/internal/catch_xmlwriter.h/cpp
// This is done so cherry-picking bug fixes is trivial - even the style/formatting is untouched.
// =================================================================================================

using uchar = unsigned char;

namespace {

    size_t trailingBytes(unsigned char c) {
        if ((c & 0xE0) == 0xC0) {
            return 2;
        }
        if ((c & 0xF0) == 0xE0) {
            return 3;
        }
        if ((c & 0xF8) == 0xF0) {
            return 4;
        }
        DOCTEST_INTERNAL_ERROR("Invalid multibyte utf-8 start byte encountered");
    }

    uint32_t headerValue(unsigned char c) {
        if ((c & 0xE0) == 0xC0) {
            return c & 0x1F;
        }
        if ((c & 0xF0) == 0xE0) {
            return c & 0x0F;
        }
        if ((c & 0xF8) == 0xF0) {
            return c & 0x07;
        }
        DOCTEST_INTERNAL_ERROR("Invalid multibyte utf-8 start byte encountered");
    }

    void hexEscapeChar(std::ostream& os, unsigned char c) {
        std::ios_base::fmtflags f(os.flags());
        os << "\\x"
            << std::uppercase << std::hex << std::setfill('0') << std::setw(2)
            << static_cast<int>(c);
        os.flags(f);
    }

} // anonymous namespace

    XmlEncode::XmlEncode( std::string const& str, ForWhat forWhat )
    :   m_str( str ),
        m_forWhat( forWhat )
    {}

    void XmlEncode::encodeTo( std::ostream& os ) const {
        // Apostrophe escaping not necessary if we always use " to write attributes
        // (see: https://www.w3.org/TR/xml/#syntax)

        for( std::size_t idx = 0; idx < m_str.size(); ++ idx ) {
            uchar c = m_str[idx];
            switch (c) {
            case '<':   os << "&lt;"; break;
            case '&':   os << "&amp;"; break;

            case '>':
                // See: https://www.w3.org/TR/xml/#syntax
                if (idx > 2 && m_str[idx - 1] == ']' && m_str[idx - 2] == ']')
                    os << "&gt;";
                else
                    os << c;
                break;

            case '\"':
                if (m_forWhat == ForAttributes)
                    os << "&quot;";
                else
                    os << c;
                break;

            default:
                // Check for control characters and invalid utf-8

                // Escape control characters in standard ascii
                // see https://stackoverflow.com/questions/404107/why-are-control-characters-illegal-in-xml-1-0
                if (c < 0x09 || (c > 0x0D && c < 0x20) || c == 0x7F) {
                    hexEscapeChar(os, c);
                    break;
                }

                // Plain ASCII: Write it to stream
                if (c < 0x7F) {
                    os << c;
                    break;
                }

                // UTF-8 territory
                // Check if the encoding is valid and if it is not, hex escape bytes.
                // Important: We do not check the exact decoded values for validity, only the encoding format
                // First check that this bytes is a valid lead byte:
                // This means that it is not encoded as 1111 1XXX
                // Or as 10XX XXXX
                if (c <  0xC0 ||
                    c >= 0xF8) {
                    hexEscapeChar(os, c);
                    break;
                }

                auto encBytes = trailingBytes(c);
                // Are there enough bytes left to avoid accessing out-of-bounds memory?
                if (idx + encBytes - 1 >= m_str.size()) {
                    hexEscapeChar(os, c);
                    break;
                }
                // The header is valid, check data
                // The next encBytes bytes must together be a valid utf-8
                // This means: bitpattern 10XX XXXX and the extracted value is sane (ish)
                bool valid = true;
                uint32_t value = headerValue(c);
                for (std::size_t n = 1; n < encBytes; ++n) {
                    uchar nc = m_str[idx + n];
                    valid &= ((nc & 0xC0) == 0x80);
                    value = (value << 6) | (nc & 0x3F);
                }

                if (
                    // Wrong bit pattern of following bytes
                    (!valid) ||
                    // Overlong encodings
                    (value < 0x80) ||
                    (                 value < 0x800   && encBytes > 2) || // removed "0x80 <= value &&" because redundant
                    (0x800 < value && value < 0x10000 && encBytes > 3) ||
                    // Encoded value out of range
                    (value >= 0x110000)
                    ) {
                    hexEscapeChar(os, c);
                    break;
                }

                // If we got here, this is in fact a valid(ish) utf-8 sequence
                for (std::size_t n = 0; n < encBytes; ++n) {
                    os << m_str[idx + n];
                }
                idx += encBytes - 1;
                break;
            }
        }
    }

    std::ostream& operator << ( std::ostream& os, XmlEncode const& xmlEncode ) {
        xmlEncode.encodeTo( os );
        return os;
    }

    XmlWriter::ScopedElement::ScopedElement( XmlWriter* writer )
    :   m_writer( writer )
    {}

    XmlWriter::ScopedElement::ScopedElement( ScopedElement&& other ) DOCTEST_NOEXCEPT
    :   m_writer( other.m_writer ){
        other.m_writer = nullptr;
    }
    XmlWriter::ScopedElement& XmlWriter::ScopedElement::operator=( ScopedElement&& other ) DOCTEST_NOEXCEPT {
        if ( m_writer ) {
            m_writer->endElement();
        }
        m_writer = other.m_writer;
        other.m_writer = nullptr;
        return *this;
    }


    XmlWriter::ScopedElement::~ScopedElement() {
        if( m_writer )
            m_writer->endElement();
    }

    XmlWriter::ScopedElement& XmlWriter::ScopedElement::writeText( std::string const& text, bool indent ) {
        m_writer->writeText( text, indent );
        return *this;
    }

    XmlWriter::XmlWriter( std::ostream& os ) : m_os( os )
    {
        // writeDeclaration(); // called explicitly by the reporters that use the writer class - see issue #627
    }

    XmlWriter::~XmlWriter() {
        while( !m_tags.empty() )
            endElement();
    }

    XmlWriter& XmlWriter::startElement( std::string const& name ) {
        ensureTagClosed();
        newlineIfNecessary();
        m_os << m_indent << '<' << name;
        m_tags.push_back( name );
        m_indent += "  ";
        m_tagIsOpen = true;
        return *this;
    }

    XmlWriter::ScopedElement XmlWriter::scopedElement( std::string const& name ) {
        ScopedElement scoped( this );
        startElement( name );
        return scoped;
    }

    XmlWriter& XmlWriter::endElement() {
        newlineIfNecessary();
        m_indent = m_indent.substr( 0, m_indent.size()-2 );
        if( m_tagIsOpen ) {
            m_os << "/>";
            m_tagIsOpen = false;
        }
        else {
            m_os << m_indent << "</" << m_tags.back() << ">";
        }
        m_os << std::endl;
        m_tags.pop_back();
        return *this;
    }

    XmlWriter& XmlWriter::writeAttribute( std::string const& name, std::string const& attribute ) {
        if( !name.empty() && !attribute.empty() )
            m_os << ' ' << name << "=\"" << XmlEncode( attribute, XmlEncode::ForAttributes ) << '"';
        return *this;
    }

    XmlWriter& XmlWriter::writeAttribute( std::string const& name, const char* attribute ) {
        if( !name.empty() && attribute && attribute[0] != '\0' )
            m_os << ' ' << name << "=\"" << XmlEncode( attribute, XmlEncode::ForAttributes ) << '"';
        return *this;
    }

    XmlWriter& XmlWriter::writeAttribute( std::string const& name, bool attribute ) {
        m_os << ' ' << name << "=\"" << ( attribute ? "true" : "false" ) << '"';
        return *this;
    }

    XmlWriter& XmlWriter::writeText( std::string const& text, bool indent ) {
        if( !text.empty() ){
            bool tagWasOpen = m_tagIsOpen;
            ensureTagClosed();
            if( tagWasOpen && indent )
                m_os << m_indent;
            m_os << XmlEncode( text );
            m_needsNewline = true;
        }
        return *this;
    }

    //XmlWriter& XmlWriter::writeComment( std::string const& text ) {
    //    ensureTagClosed();
    //    m_os << m_indent << "<!--" << text << "-->";
    //    m_needsNewline = true;
    //    return *this;
    //}

    //void XmlWriter::writeStylesheetRef( std::string const& url ) {
    //    m_os << "<?xml-stylesheet type=\"text/xsl\" href=\"" << url << "\"?>\n";
    //}

    //XmlWriter& XmlWriter::writeBlankLine() {
    //    ensureTagClosed();
    //    m_os << '\n';
    //    return *this;
    //}

    void XmlWriter::ensureTagClosed() {
        if( m_tagIsOpen ) {
            m_os << ">" << std::endl;
            m_tagIsOpen = false;
        }
    }

    void XmlWriter::writeDeclaration() {
        m_os << "<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n";
    }

    void XmlWriter::newlineIfNecessary() {
        if( m_needsNewline ) {
            m_os << std::endl;
            m_needsNewline = false;
        }
    }

// =================================================================================================
// End of copy-pasted code from Catch
// =================================================================================================

    // clang-format on

    struct XmlReporter : public IReporter
    {
        XmlWriter xml;
        DOCTEST_DECLARE_MUTEX(mutex)

        // caching pointers/references to objects of these types - safe to do
        const ContextOptions& opt;
        const TestCaseData*   tc = nullptr;

        XmlReporter(const ContextOptions& co)
                : xml(*co.cout)
                , opt(co) {}

        void log_contexts() {
            int num_contexts = get_num_active_contexts();
            if(num_contexts) {
                auto              contexts = get_active_contexts();
                std::stringstream ss;
                for(int i = 0; i < num_contexts; ++i) {
                    contexts[i]->stringify(&ss);
                    xml.scopedElement("Info").writeText(ss.str());
                    ss.str("");
                }
            }
        }

        unsigned line(unsigned l) const { return opt.no_line_numbers ? 0 : l; }

        void test_case_start_impl(const TestCaseData& in) {
            bool open_ts_tag = false;
            if(tc != nullptr) { // we have already opened a test suite
                if(std::strcmp(tc->m_test_suite, in.m_test_suite) != 0) {
                    xml.endElement();
                    open_ts_tag = true;
                }
            }
            else {
                open_ts_tag = true; // first test case ==> first test suite
            }

            if(open_ts_tag) {
                xml.startElement("TestSuite");
                xml.writeAttribute("name", in.m_test_suite);
            }

            tc = &in;
            xml.startElement("TestCase")
                    .writeAttribute("name", in.m_name)
                    .writeAttribute("filename", skipPathFromFilename(in.m_file.c_str()))
                    .writeAttribute("line", line(in.m_line))
                    .writeAttribute("description", in.m_description);

            if(Approx(in.m_timeout) != 0)
                xml.writeAttribute("timeout", in.m_timeout);
            if(in.m_may_fail)
                xml.writeAttribute("may_fail", true);
            if(in.m_should_fail)
                xml.writeAttribute("should_fail", true);
        }

        // =========================================================================================
        // WHAT FOLLOWS ARE OVERRIDES OF THE VIRTUAL METHODS OF THE REPORTER INTERFACE
        // =========================================================================================

        void report_query(const QueryData& in) override {
            test_run_start();
            if(opt.list_reporters) {
                for(auto& curr : getListeners())
                    xml.scopedElement("Listener")
                            .writeAttribute("priority", curr.first.first)
                            .writeAttribute("name", curr.first.second);
                for(auto& curr : getReporters())
                    xml.scopedElement("Reporter")
                            .writeAttribute("priority", curr.first.first)
                            .writeAttribute("name", curr.first.second);
            } else if(opt.count || opt.list_test_cases) {
                for(unsigned i = 0; i < in.num_data; ++i) {
                    xml.scopedElement("TestCase").writeAttribute("name", in.data[i]->m_name)
                        .writeAttribute("testsuite", in.data[i]->m_test_suite)
                        .writeAttribute("filename", skipPathFromFilename(in.data[i]->m_file.c_str()))
                        .writeAttribute("line", line(in.data[i]->m_line))
                        .writeAttribute("skipped", in.data[i]->m_skip);
                }
                xml.scopedElement("OverallResultsTestCases")
                        .writeAttribute("unskipped", in.run_stats->numTestCasesPassingFilters);
            } else if(opt.list_test_suites) {
                for(unsigned i = 0; i < in.num_data; ++i)
                    xml.scopedElement("TestSuite").writeAttribute("name", in.data[i]->m_test_suite);
                xml.scopedElement("OverallResultsTestCases")
                        .writeAttribute("unskipped", in.run_stats->numTestCasesPassingFilters);
                xml.scopedElement("OverallResultsTestSuites")
                        .writeAttribute("unskipped", in.run_stats->numTestSuitesPassingFilters);
            }
            xml.endElement();
        }

        void test_run_start() override {
            xml.writeDeclaration();

            // remove .exe extension - mainly to have the same output on UNIX and Windows
            std::string binary_name = skipPathFromFilename(opt.binary_name.c_str());
#ifdef DOCTEST_PLATFORM_WINDOWS
            if(binary_name.rfind(".exe") != std::string::npos)
                binary_name = binary_name.substr(0, binary_name.length() - 4);
#endif // DOCTEST_PLATFORM_WINDOWS

            xml.startElement("doctest").writeAttribute("binary", binary_name);
            if(opt.no_version == false)
                xml.writeAttribute("version", DOCTEST_VERSION_STR);

            // only the consequential ones (TODO: filters)
            xml.scopedElement("Options")
                    .writeAttribute("order_by", opt.order_by.c_str())
                    .writeAttribute("rand_seed", opt.rand_seed)
                    .writeAttribute("first", opt.first)
                    .writeAttribute("last", opt.last)
                    .writeAttribute("abort_after", opt.abort_after)
                    .writeAttribute("subcase_filter_levels", opt.subcase_filter_levels)
                    .writeAttribute("case_sensitive", opt.case_sensitive)
                    .writeAttribute("no_throw", opt.no_throw)
                    .writeAttribute("no_skip", opt.no_skip);
        }

        void test_run_end(const TestRunStats& p) override {
            if(tc) // the TestSuite tag - only if there has been at least 1 test case
                xml.endElement();

            xml.scopedElement("OverallResultsAsserts")
                    .writeAttribute("successes", p.numAsserts - p.numAssertsFailed)
                    .writeAttribute("failures", p.numAssertsFailed);

            xml.startElement("OverallResultsTestCases")
                    .writeAttribute("successes",
                                    p.numTestCasesPassingFilters - p.numTestCasesFailed)
                    .writeAttribute("failures", p.numTestCasesFailed);
            if(opt.no_skipped_summary == false)
                xml.writeAttribute("skipped", p.numTestCases - p.numTestCasesPassingFilters);
            xml.endElement();

            xml.endElement();
        }

        void test_case_start(const TestCaseData& in) override {
            test_case_start_impl(in);
            xml.ensureTagClosed();
        }
        
        void test_case_reenter(const TestCaseData&) override {}

        void test_case_end(const CurrentTestCaseStats& st) override {
            xml.startElement("OverallResultsAsserts")
                    .writeAttribute("successes",
                                    st.numAssertsCurrentTest - st.numAssertsFailedCurrentTest)
                    .writeAttribute("failures", st.numAssertsFailedCurrentTest)
                    .writeAttribute("test_case_success", st.testCaseSuccess);
            if(opt.duration)
                xml.writeAttribute("duration", st.seconds);
            if(tc->m_expected_failures)
                xml.writeAttribute("expected_failures", tc->m_expected_failures);
            xml.endElement();

            xml.endElement();
        }

        void test_case_exception(const TestCaseException& e) override {
            DOCTEST_LOCK_MUTEX(mutex)

            xml.scopedElement("Exception")
                    .writeAttribute("crash", e.is_crash)
                    .writeText(e.error_string.c_str());
        }

        void subcase_start(const SubcaseSignature& in) override {
            xml.startElement("SubCase")
                    .writeAttribute("name", in.m_name)
                    .writeAttribute("filename", skipPathFromFilename(in.m_file))
                    .writeAttribute("line", line(in.m_line));
            xml.ensureTagClosed();
        }

        void subcase_end() override { xml.endElement(); }

        void log_assert(const AssertData& rb) override {
            if(!rb.m_failed && !opt.success)
                return;

            DOCTEST_LOCK_MUTEX(mutex)

            xml.startElement("Expression")
                    .writeAttribute("success", !rb.m_failed)
                    .writeAttribute("type", assertString(rb.m_at))
                    .writeAttribute("filename", skipPathFromFilename(rb.m_file))
                    .writeAttribute("line", line(rb.m_line));

            xml.scopedElement("Original").writeText(rb.m_expr);

            if(rb.m_threw)
                xml.scopedElement("Exception").writeText(rb.m_exception.c_str());

            if(rb.m_at & assertType::is_throws_as)
                xml.scopedElement("ExpectedException").writeText(rb.m_exception_type);
            if(rb.m_at & assertType::is_throws_with)
                xml.scopedElement("ExpectedExceptionString").writeText(rb.m_exception_string.c_str());
            if((rb.m_at & assertType::is_normal) && !rb.m_threw)
                xml.scopedElement("Expanded").writeText(rb.m_decomp.c_str());

            log_contexts();

            xml.endElement();
        }

        void log_message(const MessageData& mb) override {
            DOCTEST_LOCK_MUTEX(mutex)

            xml.startElement("Message")
                    .writeAttribute("type", failureString(mb.m_severity))
                    .writeAttribute("filename", skipPathFromFilename(mb.m_file))
                    .writeAttribute("line", line(mb.m_line));

            xml.scopedElement("Text").writeText(mb.m_string.c_str());

            log_contexts();

            xml.endElement();
        }

        void test_case_skipped(const TestCaseData& in) override {
            if(opt.no_skipped_summary == false) {
                test_case_start_impl(in);
                xml.writeAttribute("skipped", "true");
                xml.endElement();
            }
        }
    };

    DOCTEST_REGISTER_REPORTER("xml", 0, XmlReporter);

    void fulltext_log_assert_to_stream(std::ostream& s, const AssertData& rb) {
        if((rb.m_at & (assertType::is_throws_as | assertType::is_throws_with)) ==
            0) //!OCLINT bitwise operator in conditional
            s << Color::Cyan << assertString(rb.m_at) << "( " << rb.m_expr << " ) "
                << Color::None;

        if(rb.m_at & assertType::is_throws) { //!OCLINT bitwise operator in conditional
            s << (rb.m_threw ? "threw as expected!" : "did NOT throw at all!") << "\n";
        } else if((rb.m_at & assertType::is_throws_as) &&
                    (rb.m_at & assertType::is_throws_with)) { //!OCLINT
            s << Color::Cyan << assertString(rb.m_at) << "( " << rb.m_expr << ", \""
                << rb.m_exception_string.c_str()
                << "\", " << rb.m_exception_type << " ) " << Color::None;
            if(rb.m_threw) {
                if(!rb.m_failed) {
                    s << "threw as expected!\n";
                } else {
                    s << "threw a DIFFERENT exception! (contents: " << rb.m_exception << ")\n";
                }
            } else {
                s << "did NOT throw at all!\n";
            }
        } else if(rb.m_at &
                    assertType::is_throws_as) { //!OCLINT bitwise operator in conditional
            s << Color::Cyan << assertString(rb.m_at) << "( " << rb.m_expr << ", "
                << rb.m_exception_type << " ) " << Color::None
                << (rb.m_threw ? (rb.m_threw_as ? "threw as expected!" :
                                                "threw a DIFFERENT exception: ") :
                                "did NOT throw at all!")
                << Color::Cyan << rb.m_exception << "\n";
        } else if(rb.m_at &
                    assertType::is_throws_with) { //!OCLINT bitwise operator in conditional
            s << Color::Cyan << assertString(rb.m_at) << "( " << rb.m_expr << ", \""
                << rb.m_exception_string.c_str()
                << "\" ) " << Color::None
                << (rb.m_threw ? (!rb.m_failed ? "threw as expected!" :
                                                "threw a DIFFERENT exception: ") :
                                "did NOT throw at all!")
                << Color::Cyan << rb.m_exception << "\n";
        } else if(rb.m_at & assertType::is_nothrow) { //!OCLINT bitwise operator in conditional
            s << (rb.m_threw ? "THREW exception: " : "didn't throw!") << Color::Cyan
                << rb.m_exception << "\n";
        } else {
            s << (rb.m_threw ? "THREW exception: " :
                                (!rb.m_failed ? "is correct!\n" : "is NOT correct!\n"));
            if(rb.m_threw)
                s << rb.m_exception << "\n";
            else
                s << "  values: " << assertString(rb.m_at) << "( " << rb.m_decomp << " )\n";
        }
    }

    // TODO:
    // - log_message()
    // - respond to queries
    // - honor remaining options
    // - more attributes in tags
    struct JUnitReporter : public IReporter
    {
        XmlWriter xml;
        DOCTEST_DECLARE_MUTEX(mutex)
        Timer timer;
        std::vector<String> deepestSubcaseStackNames;

        struct JUnitTestCaseData
        {
            static std::string getCurrentTimestamp() {
                // Beware, this is not reentrant because of backward compatibility issues
                // Also, UTC only, again because of backward compatibility (%z is C++11)
                time_t rawtime;
                std::time(&rawtime);
                auto const timeStampSize = sizeof("2017-01-16T17:06:45Z");

                std::tm timeInfo;
#ifdef DOCTEST_PLATFORM_WINDOWS
                gmtime_s(&timeInfo, &rawtime);
#else // DOCTEST_PLATFORM_WINDOWS
                gmtime_r(&rawtime, &timeInfo);
#endif // DOCTEST_PLATFORM_WINDOWS

                char timeStamp[timeStampSize];
                const char* const fmt = "%Y-%m-%dT%H:%M:%SZ";

                std::strftime(timeStamp, timeStampSize, fmt, &timeInfo);
                return std::string(timeStamp);
            }

            struct JUnitTestMessage
            {
                JUnitTestMessage(const std::string& _message, const std::string& _type, const std::string& _details)
                    : message(_message), type(_type), details(_details) {}

                JUnitTestMessage(const std::string& _message, const std::string& _details)
                    : message(_message), type(), details(_details) {}

                std::string message, type, details;
            };

            struct JUnitTestCase
            {
                JUnitTestCase(const std::string& _classname, const std::string& _name)
                    : classname(_classname), name(_name), time(0), failures() {}

                std::string classname, name;
                double time;
                std::vector<JUnitTestMessage> failures, errors;
            };

            void add(const std::string& classname, const std::string& name) {
                testcases.emplace_back(classname, name);
            }

            void appendSubcaseNamesToLastTestcase(std::vector<String> nameStack) {
                for(auto& curr: nameStack)
                    if(curr.size())
                        testcases.back().name += std::string("/") + curr.c_str();
            }

            void addTime(double time) {
                if(time < 1e-4)
                    time = 0;
                testcases.back().time = time;
                totalSeconds += time;
            }

            void addFailure(const std::string& message, const std::string& type, const std::string& details) {
                testcases.back().failures.emplace_back(message, type, details);
                ++totalFailures;
            }

            void addError(const std::string& message, const std::string& details) {
                testcases.back().errors.emplace_back(message, details);
                ++totalErrors;
            }

            std::vector<JUnitTestCase> testcases;
            double totalSeconds = 0;
            int totalErrors = 0, totalFailures = 0;
        };

        JUnitTestCaseData testCaseData;

        // caching pointers/references to objects of these types - safe to do
        const ContextOptions& opt;
        const TestCaseData*   tc = nullptr;

        JUnitReporter(const ContextOptions& co)
                : xml(*co.cout)
                , opt(co) {}

        unsigned line(unsigned l) const { return opt.no_line_numbers ? 0 : l; }

        // =========================================================================================
        // WHAT FOLLOWS ARE OVERRIDES OF THE VIRTUAL METHODS OF THE REPORTER INTERFACE
        // =========================================================================================

        void report_query(const QueryData&) override {
            xml.writeDeclaration();
        }

        void test_run_start() override {
            xml.writeDeclaration();
        }

        void test_run_end(const TestRunStats& p) override {
            // remove .exe extension - mainly to have the same output on UNIX and Windows
            std::string binary_name = skipPathFromFilename(opt.binary_name.c_str());
#ifdef DOCTEST_PLATFORM_WINDOWS
            if(binary_name.rfind(".exe") != std::string::npos)
                binary_name = binary_name.substr(0, binary_name.length() - 4);
#endif // DOCTEST_PLATFORM_WINDOWS
            xml.startElement("testsuites");
            xml.startElement("testsuite").writeAttribute("name", binary_name)
                    .writeAttribute("errors", testCaseData.totalErrors)
                    .writeAttribute("failures", testCaseData.totalFailures)
                    .writeAttribute("tests", p.numAsserts);
            if(opt.no_time_in_output == false) {
                xml.writeAttribute("time", testCaseData.totalSeconds);
                xml.writeAttribute("timestamp", JUnitTestCaseData::getCurrentTimestamp());
            }
            if(opt.no_version == false)
                xml.writeAttribute("doctest_version", DOCTEST_VERSION_STR);

            for(const auto& testCase : testCaseData.testcases) {
                xml.startElement("testcase")
                    .writeAttribute("classname", testCase.classname)
                    .writeAttribute("name", testCase.name);
                if(opt.no_time_in_output == false)
                    xml.writeAttribute("time", testCase.time);
                // This is not ideal, but it should be enough to mimic gtest's junit output.
                xml.writeAttribute("status", "run");

                for(const auto& failure : testCase.failures) {
                    xml.scopedElement("failure")
                        .writeAttribute("message", failure.message)
                        .writeAttribute("type", failure.type)
                        .writeText(failure.details, false);
                }

                for(const auto& error : testCase.errors) {
                    xml.scopedElement("error")
                        .writeAttribute("message", error.message)
                        .writeText(error.details);
                }

                xml.endElement();
            }
            xml.endElement();
            xml.endElement();
        }

        void test_case_start(const TestCaseData& in) override {
            testCaseData.add(skipPathFromFilename(in.m_file.c_str()), in.m_name);
            timer.start();
        }

        void test_case_reenter(const TestCaseData& in) override {
            testCaseData.addTime(timer.getElapsedSeconds());
            testCaseData.appendSubcaseNamesToLastTestcase(deepestSubcaseStackNames);
            deepestSubcaseStackNames.clear();

            timer.start();
            testCaseData.add(skipPathFromFilename(in.m_file.c_str()), in.m_name);
        }

        void test_case_end(const CurrentTestCaseStats&) override {
            testCaseData.addTime(timer.getElapsedSeconds());
            testCaseData.appendSubcaseNamesToLastTestcase(deepestSubcaseStackNames);
            deepestSubcaseStackNames.clear();
        }

        void test_case_exception(const TestCaseException& e) override {
            DOCTEST_LOCK_MUTEX(mutex)
            testCaseData.addError("exception", e.error_string.c_str());
        }

        void subcase_start(const SubcaseSignature& in) override {
            deepestSubcaseStackNames.push_back(in.m_name);
        }

        void subcase_end() override {}

        void log_assert(const AssertData& rb) override {
            if(!rb.m_failed) // report only failures & ignore the `success` option
                return;

            DOCTEST_LOCK_MUTEX(mutex)

            std::ostringstream os;
            os << skipPathFromFilename(rb.m_file) << (opt.gnu_file_line ? ":" : "(")
              << line(rb.m_line) << (opt.gnu_file_line ? ":" : "):") << std::endl;

            fulltext_log_assert_to_stream(os, rb);
            log_contexts(os);
            testCaseData.addFailure(rb.m_decomp.c_str(), assertString(rb.m_at), os.str());
        }

        void log_message(const MessageData&) override {}

        void test_case_skipped(const TestCaseData&) override {}

        void log_contexts(std::ostringstream& s) {
            int num_contexts = get_num_active_contexts();
            if(num_contexts) {
                auto contexts = get_active_contexts();

                s << "  logged: ";
                for(int i = 0; i < num_contexts; ++i) {
                    s << (i == 0 ? "" : "          ");
                    contexts[i]->stringify(&s);
                    s << std::endl;
                }
            }
        }
    };

    DOCTEST_REGISTER_REPORTER("junit", 0, JUnitReporter);

    struct Whitespace
    {
        int nrSpaces;
        explicit Whitespace(int nr)
                : nrSpaces(nr) {}
    };

    std::ostream& operator<<(std::ostream& out, const Whitespace& ws) {
        if(ws.nrSpaces != 0)
            out << std::setw(ws.nrSpaces) << ' ';
        return out;
    }

    struct ConsoleReporter : public IReporter
    {
        std::ostream&                 s;
        bool                          hasLoggedCurrentTestStart;
        std::vector<SubcaseSignature> subcasesStack;
        size_t                        currentSubcaseLevel;
        DOCTEST_DECLARE_MUTEX(mutex)

        // caching pointers/references to objects of these types - safe to do
        const ContextOptions& opt;
        const TestCaseData*   tc;

        ConsoleReporter(const ContextOptions& co)
                : s(*co.cout)
                , opt(co) {}

        ConsoleReporter(const ContextOptions& co, std::ostream& ostr)
                : s(ostr)
                , opt(co) {}

        // =========================================================================================
        // WHAT FOLLOWS ARE HELPERS USED BY THE OVERRIDES OF THE VIRTUAL METHODS OF THE INTERFACE
        // =========================================================================================

        void separator_to_stream() {
            s << Color::Yellow
              << "==============================================================================="
                 "\n";
        }

        const char* getSuccessOrFailString(bool success, assertType::Enum at,
                                           const char* success_str) {
            if(success)
                return success_str;
            return failureString(at);
        }

        Color::Enum getSuccessOrFailColor(bool success, assertType::Enum at) {
            return success ? Color::BrightGreen :
                             (at & assertType::is_warn) ? Color::Yellow : Color::Red;
        }

        void successOrFailColoredStringToStream(bool success, assertType::Enum at,
                                                const char* success_str = "SUCCESS") {
            s << getSuccessOrFailColor(success, at)
              << getSuccessOrFailString(success, at, success_str) << ": ";
        }

        void log_contexts() {
            int num_contexts = get_num_active_contexts();
            if(num_contexts) {
                auto contexts = get_active_contexts();

                s << Color::None << "  logged: ";
                for(int i = 0; i < num_contexts; ++i) {
                    s << (i == 0 ? "" : "          ");
                    contexts[i]->stringify(&s);
                    s << "\n";
                }
            }

            s << "\n";
        }

        // this was requested to be made virtual so users could override it
        virtual void file_line_to_stream(const char* file, int line,
                                        const char* tail = "") {
            s << Color::LightGrey << skipPathFromFilename(file) << (opt.gnu_file_line ? ":" : "(")
            << (opt.no_line_numbers ? 0 : line) // 0 or the real num depending on the option
            << (opt.gnu_file_line ? ":" : "):") << tail;
        }

        void logTestStart() {
            if(hasLoggedCurrentTestStart)
                return;

            separator_to_stream();
            file_line_to_stream(tc->m_file.c_str(), tc->m_line, "\n");
            if(tc->m_description)
                s << Color::Yellow << "DESCRIPTION: " << Color::None << tc->m_description << "\n";
            if(tc->m_test_suite && tc->m_test_suite[0] != '\0')
                s << Color::Yellow << "TEST SUITE: " << Color::None << tc->m_test_suite << "\n";
            if(strncmp(tc->m_name, "  Scenario:", 11) != 0)
                s << Color::Yellow << "TEST CASE:  ";
            s << Color::None << tc->m_name << "\n";

            for(size_t i = 0; i < currentSubcaseLevel; ++i) {
                if(subcasesStack[i].m_name[0] != '\0')
                    s << "  " << subcasesStack[i].m_name << "\n";
            }

            if(currentSubcaseLevel != subcasesStack.size()) {
                s << Color::Yellow << "\nDEEPEST SUBCASE STACK REACHED (DIFFERENT FROM THE CURRENT ONE):\n" << Color::None;
                for(size_t i = 0; i < subcasesStack.size(); ++i) {
                    if(subcasesStack[i].m_name[0] != '\0')
                        s << "  " << subcasesStack[i].m_name << "\n";
                }
            }

            s << "\n";

            hasLoggedCurrentTestStart = true;
        }

        void printVersion() {
            if(opt.no_version == false)
                s << Color::Cyan << "[doctest] " << Color::None << "doctest version is \""
                  << DOCTEST_VERSION_STR << "\"\n";
        }

        void printIntro() {
            if(opt.no_intro == false) {
                printVersion();
                s << Color::Cyan << "[doctest] " << Color::None
                  << "run with \"--" DOCTEST_OPTIONS_PREFIX_DISPLAY "help\" for options\n";
            }
        }

        void printHelp() {
            int sizePrefixDisplay = static_cast<int>(strlen(DOCTEST_OPTIONS_PREFIX_DISPLAY));
            printVersion();
            // clang-format off
            s << Color::Cyan << "[doctest]\n" << Color::None;
            s << Color::Cyan << "[doctest] " << Color::None;
            s << "boolean values: \"1/on/yes/true\" or \"0/off/no/false\"\n";
            s << Color::Cyan << "[doctest] " << Color::None;
            s << "filter  values: \"str1,str2,str3\" (comma separated strings)\n";
            s << Color::Cyan << "[doctest]\n" << Color::None;
            s << Color::Cyan << "[doctest] " << Color::None;
            s << "filters use wildcards for matching strings\n";
            s << Color::Cyan << "[doctest] " << Color::None;
            s << "something passes a filter if any of the strings in a filter matches\n";
#ifndef DOCTEST_CONFIG_NO_UNPREFIXED_OPTIONS
            s << Color::Cyan << "[doctest]\n" << Color::None;
            s << Color::Cyan << "[doctest] " << Color::None;
            s << "ALL FLAGS, OPTIONS AND FILTERS ALSO AVAILABLE WITH A \"" DOCTEST_CONFIG_OPTIONS_PREFIX "\" PREFIX!!!\n";
#endif
            s << Color::Cyan << "[doctest]\n" << Color::None;
            s << Color::Cyan << "[doctest] " << Color::None;
            s << "Query flags - the program quits after them. Available:\n\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "?,   --" DOCTEST_OPTIONS_PREFIX_DISPLAY "help, -" DOCTEST_OPTIONS_PREFIX_DISPLAY "h                      "
              << Whitespace(sizePrefixDisplay*0) <<  "prints this message\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "v,   --" DOCTEST_OPTIONS_PREFIX_DISPLAY "version                       "
              << Whitespace(sizePrefixDisplay*1) << "prints the version\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "c,   --" DOCTEST_OPTIONS_PREFIX_DISPLAY "count                         "
              << Whitespace(sizePrefixDisplay*1) << "prints the number of matching tests\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "ltc, --" DOCTEST_OPTIONS_PREFIX_DISPLAY "list-test-cases               "
              << Whitespace(sizePrefixDisplay*1) << "lists all matching tests by name\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "lts, --" DOCTEST_OPTIONS_PREFIX_DISPLAY "list-test-suites              "
              << Whitespace(sizePrefixDisplay*1) << "lists all matching test suites\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "lr,  --" DOCTEST_OPTIONS_PREFIX_DISPLAY "list-reporters                "
              << Whitespace(sizePrefixDisplay*1) << "lists all registered reporters\n\n";
            // ================================================================================== << 79
            s << Color::Cyan << "[doctest] " << Color::None;
            s << "The available <int>/<string> options/filters are:\n\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "tc,  --" DOCTEST_OPTIONS_PREFIX_DISPLAY "test-case=<filters>           "
              << Whitespace(sizePrefixDisplay*1) << "filters     tests by their name\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "tce, --" DOCTEST_OPTIONS_PREFIX_DISPLAY "test-case-exclude=<filters>   "
              << Whitespace(sizePrefixDisplay*1) << "filters OUT tests by their name\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "sf,  --" DOCTEST_OPTIONS_PREFIX_DISPLAY "source-file=<filters>         "
              << Whitespace(sizePrefixDisplay*1) << "filters     tests by their file\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "sfe, --" DOCTEST_OPTIONS_PREFIX_DISPLAY "source-file-exclude=<filters> "
              << Whitespace(sizePrefixDisplay*1) << "filters OUT tests by their file\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "ts,  --" DOCTEST_OPTIONS_PREFIX_DISPLAY "test-suite=<filters>          "
              << Whitespace(sizePrefixDisplay*1) << "filters     tests by their test suite\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "tse, --" DOCTEST_OPTIONS_PREFIX_DISPLAY "test-suite-exclude=<filters>  "
              << Whitespace(sizePrefixDisplay*1) << "filters OUT tests by their test suite\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "sc,  --" DOCTEST_OPTIONS_PREFIX_DISPLAY "subcase=<filters>             "
              << Whitespace(sizePrefixDisplay*1) << "filters     subcases by their name\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "sce, --" DOCTEST_OPTIONS_PREFIX_DISPLAY "subcase-exclude=<filters>     "
              << Whitespace(sizePrefixDisplay*1) << "filters OUT subcases by their name\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "r,   --" DOCTEST_OPTIONS_PREFIX_DISPLAY "reporters=<filters>           "
              << Whitespace(sizePrefixDisplay*1) << "reporters to use (console is default)\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "o,   --" DOCTEST_OPTIONS_PREFIX_DISPLAY "out=<string>                  "
              << Whitespace(sizePrefixDisplay*1) << "output filename\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "ob,  --" DOCTEST_OPTIONS_PREFIX_DISPLAY "order-by=<string>             "
              << Whitespace(sizePrefixDisplay*1) << "how the tests should be ordered\n";
            s << Whitespace(sizePrefixDisplay*3) << "                                       <string> - [file/suite/name/rand/none]\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "rs,  --" DOCTEST_OPTIONS_PREFIX_DISPLAY "rand-seed=<int>               "
              << Whitespace(sizePrefixDisplay*1) << "seed for random ordering\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "f,   --" DOCTEST_OPTIONS_PREFIX_DISPLAY "first=<int>                   "
              << Whitespace(sizePrefixDisplay*1) << "the first test passing the filters to\n";
            s << Whitespace(sizePrefixDisplay*3) << "                                       execute - for range-based execution\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "l,   --" DOCTEST_OPTIONS_PREFIX_DISPLAY "last=<int>                    "
              << Whitespace(sizePrefixDisplay*1) << "the last test passing the filters to\n";
            s << Whitespace(sizePrefixDisplay*3) << "                                       execute - for range-based execution\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "aa,  --" DOCTEST_OPTIONS_PREFIX_DISPLAY "abort-after=<int>             "
              << Whitespace(sizePrefixDisplay*1) << "stop after <int> failed assertions\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "scfl,--" DOCTEST_OPTIONS_PREFIX_DISPLAY "subcase-filter-levels=<int>   "
              << Whitespace(sizePrefixDisplay*1) << "apply filters for the first <int> levels\n";
            s << Color::Cyan << "\n[doctest] " << Color::None;
            s << "Bool options - can be used like flags and true is assumed. Available:\n\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "s,   --" DOCTEST_OPTIONS_PREFIX_DISPLAY "success=<bool>                "
              << Whitespace(sizePrefixDisplay*1) << "include successful assertions in output\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "cs,  --" DOCTEST_OPTIONS_PREFIX_DISPLAY "case-sensitive=<bool>         "
              << Whitespace(sizePrefixDisplay*1) << "filters being treated as case sensitive\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "e,   --" DOCTEST_OPTIONS_PREFIX_DISPLAY "exit=<bool>                   "
              << Whitespace(sizePrefixDisplay*1) << "exits after the tests finish\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "d,   --" DOCTEST_OPTIONS_PREFIX_DISPLAY "duration=<bool>               "
              << Whitespace(sizePrefixDisplay*1) << "prints the time duration of each test\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "m,   --" DOCTEST_OPTIONS_PREFIX_DISPLAY "minimal=<bool>                "
              << Whitespace(sizePrefixDisplay*1) << "minimal console output (only failures)\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "q,   --" DOCTEST_OPTIONS_PREFIX_DISPLAY "quiet=<bool>                  "
              << Whitespace(sizePrefixDisplay*1) << "no console output\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "nt,  --" DOCTEST_OPTIONS_PREFIX_DISPLAY "no-throw=<bool>               "
              << Whitespace(sizePrefixDisplay*1) << "skips exceptions-related assert checks\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "ne,  --" DOCTEST_OPTIONS_PREFIX_DISPLAY "no-exitcode=<bool>            "
              << Whitespace(sizePrefixDisplay*1) << "returns (or exits) always with success\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "nr,  --" DOCTEST_OPTIONS_PREFIX_DISPLAY "no-run=<bool>                 "
              << Whitespace(sizePrefixDisplay*1) << "skips all runtime doctest operations\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "ni,  --" DOCTEST_OPTIONS_PREFIX_DISPLAY "no-intro=<bool>               "
              << Whitespace(sizePrefixDisplay*1) << "omit the framework intro in the output\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "nv,  --" DOCTEST_OPTIONS_PREFIX_DISPLAY "no-version=<bool>             "
              << Whitespace(sizePrefixDisplay*1) << "omit the framework version in the output\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "nc,  --" DOCTEST_OPTIONS_PREFIX_DISPLAY "no-colors=<bool>              "
              << Whitespace(sizePrefixDisplay*1) << "disables colors in output\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "fc,  --" DOCTEST_OPTIONS_PREFIX_DISPLAY "force-colors=<bool>           "
              << Whitespace(sizePrefixDisplay*1) << "use colors even when not in a tty\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "nb,  --" DOCTEST_OPTIONS_PREFIX_DISPLAY "no-breaks=<bool>              "
              << Whitespace(sizePrefixDisplay*1) << "disables breakpoints in debuggers\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "ns,  --" DOCTEST_OPTIONS_PREFIX_DISPLAY "no-skip=<bool>                "
              << Whitespace(sizePrefixDisplay*1) << "don't skip test cases marked as skip\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "gfl, --" DOCTEST_OPTIONS_PREFIX_DISPLAY "gnu-file-line=<bool>          "
              << Whitespace(sizePrefixDisplay*1) << ":n: vs (n): for line numbers in output\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "npf, --" DOCTEST_OPTIONS_PREFIX_DISPLAY "no-path-filenames=<bool>      "
              << Whitespace(sizePrefixDisplay*1) << "only filenames and no paths in output\n";
            s << " -" DOCTEST_OPTIONS_PREFIX_DISPLAY "nln, --" DOCTEST_OPTIONS_PREFIX_DISPLAY "no-line-numbers=<bool>        "
              << Whitespace(sizePrefixDisplay*1) << "0 instead of real line numbers in output\n";
            // ================================================================================== << 79
            // clang-format on

            s << Color::Cyan << "\n[doctest] " << Color::None;
            s << "for more information visit the project documentation\n\n";
        }

        void printRegisteredReporters() {
            printVersion();
            auto printReporters = [this] (const reporterMap& reporters, const char* type) {
                if(reporters.size()) {
                    s << Color::Cyan << "[doctest] " << Color::None << "listing all registered " << type << "\n";
                    for(auto& curr : reporters)
                        s << "priority: " << std::setw(5) << curr.first.first
                          << " name: " << curr.first.second << "\n";
                }
            };
            printReporters(getListeners(), "listeners");
            printReporters(getReporters(), "reporters");
        }

        // =========================================================================================
        // WHAT FOLLOWS ARE OVERRIDES OF THE VIRTUAL METHODS OF THE REPORTER INTERFACE
        // =========================================================================================

        void report_query(const QueryData& in) override {
            if(opt.version) {
                printVersion();
            } else if(opt.help) {
                printHelp();
            } else if(opt.list_reporters) {
                printRegisteredReporters();
            } else if(opt.count || opt.list_test_cases) {
                if(opt.list_test_cases) {
                    s << Color::Cyan << "[doctest] " << Color::None
                      << "listing all test case names\n";
                    separator_to_stream();
                }

                for(unsigned i = 0; i < in.num_data; ++i)
                    s << Color::None << in.data[i]->m_name << "\n";

                separator_to_stream();

                s << Color::Cyan << "[doctest] " << Color::None
                  << "unskipped test cases passing the current filters: "
                  << g_cs->numTestCasesPassingFilters << "\n";

            } else if(opt.list_test_suites) {
                s << Color::Cyan << "[doctest] " << Color::None << "listing all test suites\n";
                separator_to_stream();

                for(unsigned i = 0; i < in.num_data; ++i)
                    s << Color::None << in.data[i]->m_test_suite << "\n";

                separator_to_stream();

                s << Color::Cyan << "[doctest] " << Color::None
                  << "unskipped test cases passing the current filters: "
                  << g_cs->numTestCasesPassingFilters << "\n";
                s << Color::Cyan << "[doctest] " << Color::None
                  << "test suites with unskipped test cases passing the current filters: "
                  << g_cs->numTestSuitesPassingFilters << "\n";
            }
        }

        void test_run_start() override {
            if(!opt.minimal)
                printIntro();
        }

        void test_run_end(const TestRunStats& p) override {
            if(opt.minimal && p.numTestCasesFailed == 0)
                return;

            separator_to_stream();
            s << std::dec;

            auto totwidth = int(std::ceil(log10((std::max(p.numTestCasesPassingFilters, static_cast<unsigned>(p.numAsserts))) + 1)));
            auto passwidth = int(std::ceil(log10((std::max(p.numTestCasesPassingFilters - p.numTestCasesFailed, static_cast<unsigned>(p.numAsserts - p.numAssertsFailed))) + 1)));
            auto failwidth = int(std::ceil(log10((std::max(p.numTestCasesFailed, static_cast<unsigned>(p.numAssertsFailed))) + 1)));
            const bool anythingFailed = p.numTestCasesFailed > 0 || p.numAssertsFailed > 0;
            s << Color::Cyan << "[doctest] " << Color::None << "test cases: " << std::setw(totwidth)
              << p.numTestCasesPassingFilters << " | "
              << ((p.numTestCasesPassingFilters == 0 || anythingFailed) ? Color::None :
                                                                          Color::Green)
              << std::setw(passwidth) << p.numTestCasesPassingFilters - p.numTestCasesFailed << " passed"
              << Color::None << " | " << (p.numTestCasesFailed > 0 ? Color::Red : Color::None)
              << std::setw(failwidth) << p.numTestCasesFailed << " failed" << Color::None << " |";
            if(opt.no_skipped_summary == false) {
                const int numSkipped = p.numTestCases - p.numTestCasesPassingFilters;
                s << " " << (numSkipped == 0 ? Color::None : Color::Yellow) << numSkipped
                  << " skipped" << Color::None;
            }
            s << "\n";
            s << Color::Cyan << "[doctest] " << Color::None << "assertions: " << std::setw(totwidth)
              << p.numAsserts << " | "
              << ((p.numAsserts == 0 || anythingFailed) ? Color::None : Color::Green)
              << std::setw(passwidth) << (p.numAsserts - p.numAssertsFailed) << " passed" << Color::None
              << " | " << (p.numAssertsFailed > 0 ? Color::Red : Color::None) << std::setw(failwidth)
              << p.numAssertsFailed << " failed" << Color::None << " |\n";
            s << Color::Cyan << "[doctest] " << Color::None
              << "Status: " << (p.numTestCasesFailed > 0 ? Color::Red : Color::Green)
              << ((p.numTestCasesFailed > 0) ? "FAILURE!" : "SUCCESS!") << Color::None << std::endl;
        }

        void test_case_start(const TestCaseData& in) override {
            hasLoggedCurrentTestStart = false;
            tc                        = &in;
            subcasesStack.clear();
            currentSubcaseLevel = 0;
        }
        
        void test_case_reenter(const TestCaseData&) override {
            subcasesStack.clear();
        }

        void test_case_end(const CurrentTestCaseStats& st) override {
            if(tc->m_no_output)
                return;

            // log the preamble of the test case only if there is something
            // else to print - something other than that an assert has failed
            if(opt.duration ||
               (st.failure_flags && st.failure_flags != TestCaseFailureReason::AssertFailure))
                logTestStart();

            if(opt.duration)
                s << Color::None << std::setprecision(6) << std::fixed << st.seconds
                  << " s: " << tc->m_name << "\n";

            if(st.failure_flags & TestCaseFailureReason::Timeout)
                s << Color::Red << "Test case exceeded time limit of " << std::setprecision(6)
                  << std::fixed << tc->m_timeout << "!\n";

            if(st.failure_flags & TestCaseFailureReason::ShouldHaveFailedButDidnt) {
                s << Color::Red << "Should have failed but didn't! Marking it as failed!\n";
            } else if(st.failure_flags & TestCaseFailureReason::ShouldHaveFailedAndDid) {
                s << Color::Yellow << "Failed as expected so marking it as not failed\n";
            } else if(st.failure_flags & TestCaseFailureReason::CouldHaveFailedAndDid) {
                s << Color::Yellow << "Allowed to fail so marking it as not failed\n";
            } else if(st.failure_flags & TestCaseFailureReason::DidntFailExactlyNumTimes) {
                s << Color::Red << "Didn't fail exactly " << tc->m_expected_failures
                  << " times so marking it as failed!\n";
            } else if(st.failure_flags & TestCaseFailureReason::FailedExactlyNumTimes) {
                s << Color::Yellow << "Failed exactly " << tc->m_expected_failures
                  << " times as expected so marking it as not failed!\n";
            }
            if(st.failure_flags & TestCaseFailureReason::TooManyFailedAsserts) {
                s << Color::Red << "Aborting - too many failed asserts!\n";
            }
            s << Color::None; // lgtm [cpp/useless-expression]
        }

        void test_case_exception(const TestCaseException& e) override {
            DOCTEST_LOCK_MUTEX(mutex)
            if(tc->m_no_output)
                return;

            logTestStart();

            file_line_to_stream(tc->m_file.c_str(), tc->m_line, " ");
            successOrFailColoredStringToStream(false, e.is_crash ? assertType::is_require :
                                                                   assertType::is_check);
            s << Color::Red << (e.is_crash ? "test case CRASHED: " : "test case THREW exception: ")
              << Color::Cyan << e.error_string << "\n";

            int num_stringified_contexts = get_num_stringified_contexts();
            if(num_stringified_contexts) {
                auto stringified_contexts = get_stringified_contexts();
                s << Color::None << "  logged: ";
                for(int i = num_stringified_contexts; i > 0; --i) {
                    s << (i == num_stringified_contexts ? "" : "          ")
                      << stringified_contexts[i - 1] << "\n";
                }
            }
            s << "\n" << Color::None;
        }

        void subcase_start(const SubcaseSignature& subc) override {
            subcasesStack.push_back(subc);
            ++currentSubcaseLevel;
            hasLoggedCurrentTestStart = false;
        }

        void subcase_end() override {
            --currentSubcaseLevel;
            hasLoggedCurrentTestStart = false;
        }

        void log_assert(const AssertData& rb) override {
            if((!rb.m_failed && !opt.success) || tc->m_no_output)
                return;

            DOCTEST_LOCK_MUTEX(mutex)

            logTestStart();

            file_line_to_stream(rb.m_file, rb.m_line, " ");
            successOrFailColoredStringToStream(!rb.m_failed, rb.m_at);

            fulltext_log_assert_to_stream(s, rb);

            log_contexts();
        }

        void log_message(const MessageData& mb) override {
            if(tc->m_no_output)
                return;

            DOCTEST_LOCK_MUTEX(mutex)

            logTestStart();

            file_line_to_stream(mb.m_file, mb.m_line, " ");
            s << getSuccessOrFailColor(false, mb.m_severity)
              << getSuccessOrFailString(mb.m_severity & assertType::is_warn, mb.m_severity,
                                        "MESSAGE") << ": ";
            s << Color::None << mb.m_string << "\n";
            log_contexts();
        }

        void test_case_skipped(const TestCaseData&) override {}
    };

    DOCTEST_REGISTER_REPORTER("console", 0, ConsoleReporter);

#ifdef DOCTEST_PLATFORM_WINDOWS
    struct DebugOutputWindowReporter : public ConsoleReporter
    {
        DOCTEST_THREAD_LOCAL static std::ostringstream oss;

        DebugOutputWindowReporter(const ContextOptions& co)
                : ConsoleReporter(co, oss) {}

#define DOCTEST_DEBUG_OUTPUT_REPORTER_OVERRIDE(func, type, arg)                                    \
    void func(type arg) override {                                                                 \
        bool with_col = g_no_colors;                                                               \
        g_no_colors   = false;                                                                     \
        ConsoleReporter::func(arg);                                                                \
        if(oss.tellp() != std::streampos{}) {                                                      \
            DOCTEST_OUTPUT_DEBUG_STRING(oss.str().c_str());                                        \
            oss.str("");                                                                           \
        }                                                                                          \
        g_no_colors = with_col;                                                                    \
    }

        DOCTEST_DEBUG_OUTPUT_REPORTER_OVERRIDE(test_run_start, DOCTEST_EMPTY, DOCTEST_EMPTY)
        DOCTEST_DEBUG_OUTPUT_REPORTER_OVERRIDE(test_run_end, const TestRunStats&, in)
        DOCTEST_DEBUG_OUTPUT_REPORTER_OVERRIDE(test_case_start, const TestCaseData&, in)
        DOCTEST_DEBUG_OUTPUT_REPORTER_OVERRIDE(test_case_reenter, const TestCaseData&, in)
        DOCTEST_DEBUG_OUTPUT_REPORTER_OVERRIDE(test_case_end, const CurrentTestCaseStats&, in)
        DOCTEST_DEBUG_OUTPUT_REPORTER_OVERRIDE(test_case_exception, const TestCaseException&, in)
        DOCTEST_DEBUG_OUTPUT_REPORTER_OVERRIDE(subcase_start, const SubcaseSignature&, in)
        DOCTEST_DEBUG_OUTPUT_REPORTER_OVERRIDE(subcase_end, DOCTEST_EMPTY, DOCTEST_EMPTY)
        DOCTEST_DEBUG_OUTPUT_REPORTER_OVERRIDE(log_assert, const AssertData&, in)
        DOCTEST_DEBUG_OUTPUT_REPORTER_OVERRIDE(log_message, const MessageData&, in)
        DOCTEST_DEBUG_OUTPUT_REPORTER_OVERRIDE(test_case_skipped, const TestCaseData&, in)
    };

    DOCTEST_THREAD_LOCAL std::ostringstream DebugOutputWindowReporter::oss;
#endif // DOCTEST_PLATFORM_WINDOWS

    // the implementation of parseOption()
    bool parseOptionImpl(int argc, const char* const* argv, const char* pattern, String* value) {
        // going from the end to the beginning and stopping on the first occurrence from the end
        for(int i = argc; i > 0; --i) {
            auto index = i - 1;
            auto temp = std::strstr(argv[index], pattern);
            if(temp && (value || strlen(temp) == strlen(pattern))) { //!OCLINT prefer early exits and continue
                // eliminate matches in which the chars before the option are not '-'
                bool noBadCharsFound = true;
                auto curr            = argv[index];
                while(curr != temp) {
                    if(*curr++ != '-') {
                        noBadCharsFound = false;
                        break;
                    }
                }
                if(noBadCharsFound && argv[index][0] == '-') {
                    if(value) {
                        // parsing the value of an option
                        temp += strlen(pattern);
                        const unsigned len = strlen(temp);
                        if(len) {
                            *value = temp;
                            return true;
                        }
                    } else {
                        // just a flag - no value
                        return true;
                    }
                }
            }
        }
        return false;
    }

    // parses an option and returns the string after the '=' character
    bool parseOption(int argc, const char* const* argv, const char* pattern, String* value = nullptr,
                     const String& defaultVal = String()) {
        if(value)
            *value = defaultVal;
#ifndef DOCTEST_CONFIG_NO_UNPREFIXED_OPTIONS
        // offset (normally 3 for "dt-") to skip prefix
        if(parseOptionImpl(argc, argv, pattern + strlen(DOCTEST_CONFIG_OPTIONS_PREFIX), value))
            return true;
#endif // DOCTEST_CONFIG_NO_UNPREFIXED_OPTIONS
        return parseOptionImpl(argc, argv, pattern, value);
    }

    // locates a flag on the command line
    bool parseFlag(int argc, const char* const* argv, const char* pattern) {
        return parseOption(argc, argv, pattern);
    }

    // parses a comma separated list of words after a pattern in one of the arguments in argv
    bool parseCommaSepArgs(int argc, const char* const* argv, const char* pattern,
                           std::vector<String>& res) {
        String filtersString;
        if(parseOption(argc, argv, pattern, &filtersString)) {
            // tokenize with "," as a separator, unless escaped with backslash
            std::ostringstream s;
            auto flush = [&s, &res]() {
                auto string = s.str();
                if(string.size() > 0) {
                    res.push_back(string.c_str());
                }
                s.str("");
            };

            bool seenBackslash = false;
            const char* current = filtersString.c_str();
            const char* end = current + strlen(current);
            while(current != end) {
                char character = *current++;
                if(seenBackslash) {
                    seenBackslash = false;
                    if(character == ',' || character == '\\') {
                        s.put(character);
                        continue;
                    }
                    s.put('\\');
                }
                if(character == '\\') {
                    seenBackslash = true;
                } else if(character == ',') {
                    flush();
                } else {
                    s.put(character);
                }
            }

            if(seenBackslash) {
                s.put('\\');
            }
            flush();
            return true;
        }
        return false;
    }

    enum optionType
    {
        option_bool,
        option_int
    };

    // parses an int/bool option from the command line
    bool parseIntOption(int argc, const char* const* argv, const char* pattern, optionType type,
                        int& res) {
        String parsedValue;
        if(!parseOption(argc, argv, pattern, &parsedValue))
            return false;

        if(type == 0) {
            // boolean
            const char positive[][5] = {"1", "true", "on", "yes"};  // 5 - strlen("true") + 1
            const char negative[][6] = {"0", "false", "off", "no"}; // 6 - strlen("false") + 1

            // if the value matches any of the positive/negative possibilities
            for(unsigned i = 0; i < 4; i++) {
                if(parsedValue.compare(positive[i], true) == 0) {
                    res = 1; //!OCLINT parameter reassignment
                    return true;
                }
                if(parsedValue.compare(negative[i], true) == 0) {
                    res = 0; //!OCLINT parameter reassignment
                    return true;
                }
            }
        } else {
            // integer
            // TODO: change this to use std::stoi or something else! currently it uses undefined behavior - assumes '0' on failed parse...
            int theInt = std::atoi(parsedValue.c_str()); // NOLINT
            if(theInt != 0) {
                res = theInt; //!OCLINT parameter reassignment
                return true;
            }
        }
        return false;
    }
} // namespace

Context::Context(int argc, const char* const* argv)
        : p(new detail::ContextState) {
    parseArgs(argc, argv, true);
    if(argc)
        p->binary_name = argv[0];
}

Context::~Context() {
    if(g_cs == p)
        g_cs = nullptr;
    delete p;
}

void Context::applyCommandLine(int argc, const char* const* argv) {
    parseArgs(argc, argv);
    if(argc)
        p->binary_name = argv[0];
}

// parses args
void Context::parseArgs(int argc, const char* const* argv, bool withDefaults) {
    using namespace detail;

    // clang-format off
    parseCommaSepArgs(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX "source-file=",        p->filters[0]);
    parseCommaSepArgs(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX "sf=",                 p->filters[0]);
    parseCommaSepArgs(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX "source-file-exclude=",p->filters[1]);
    parseCommaSepArgs(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX "sfe=",                p->filters[1]);
    parseCommaSepArgs(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX "test-suite=",         p->filters[2]);
    parseCommaSepArgs(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX "ts=",                 p->filters[2]);
    parseCommaSepArgs(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX "test-suite-exclude=", p->filters[3]);
    parseCommaSepArgs(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX "tse=",                p->filters[3]);
    parseCommaSepArgs(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX "test-case=",          p->filters[4]);
    parseCommaSepArgs(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX "tc=",                 p->filters[4]);
    parseCommaSepArgs(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX "test-case-exclude=",  p->filters[5]);
    parseCommaSepArgs(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX "tce=",                p->filters[5]);
    parseCommaSepArgs(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX "subcase=",            p->filters[6]);
    parseCommaSepArgs(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX "sc=",                 p->filters[6]);
    parseCommaSepArgs(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX "subcase-exclude=",    p->filters[7]);
    parseCommaSepArgs(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX "sce=",                p->filters[7]);
    parseCommaSepArgs(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX "reporters=",          p->filters[8]);
    parseCommaSepArgs(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX "r=",                  p->filters[8]);
    // clang-format on

    int    intRes = 0;
    String strRes;

#define DOCTEST_PARSE_AS_BOOL_OR_FLAG(name, sname, var, default)                                   \
    if(parseIntOption(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX name "=", option_bool, intRes) ||  \
       parseIntOption(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX sname "=", option_bool, intRes))   \
        p->var = static_cast<bool>(intRes);                                                        \
    else if(parseFlag(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX name) ||                           \
            parseFlag(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX sname))                            \
        p->var = true;                                                                             \
    else if(withDefaults)                                                                          \
    p->var = default

#define DOCTEST_PARSE_INT_OPTION(name, sname, var, default)                                        \
    if(parseIntOption(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX name "=", option_int, intRes) ||   \
       parseIntOption(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX sname "=", option_int, intRes))    \
        p->var = intRes;                                                                           \
    else if(withDefaults)                                                                          \
    p->var = default

#define DOCTEST_PARSE_STR_OPTION(name, sname, var, default)                                        \
    if(parseOption(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX name "=", &strRes, default) ||        \
       parseOption(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX sname "=", &strRes, default) ||       \
       withDefaults)                                                                               \
    p->var = strRes

    // clang-format off
    DOCTEST_PARSE_STR_OPTION("out", "o", out, "");
    DOCTEST_PARSE_STR_OPTION("order-by", "ob", order_by, "file");
    DOCTEST_PARSE_INT_OPTION("rand-seed", "rs", rand_seed, 0);

    DOCTEST_PARSE_INT_OPTION("first", "f", first, 0);
    DOCTEST_PARSE_INT_OPTION("last", "l", last, UINT_MAX);

    DOCTEST_PARSE_INT_OPTION("abort-after", "aa", abort_after, 0);
    DOCTEST_PARSE_INT_OPTION("subcase-filter-levels", "scfl", subcase_filter_levels, INT_MAX);

    DOCTEST_PARSE_AS_BOOL_OR_FLAG("success", "s", success, false);
    DOCTEST_PARSE_AS_BOOL_OR_FLAG("case-sensitive", "cs", case_sensitive, false);
    DOCTEST_PARSE_AS_BOOL_OR_FLAG("exit", "e", exit, false);
    DOCTEST_PARSE_AS_BOOL_OR_FLAG("duration", "d", duration, false);
    DOCTEST_PARSE_AS_BOOL_OR_FLAG("minimal", "m", minimal, false);
    DOCTEST_PARSE_AS_BOOL_OR_FLAG("quiet", "q", quiet, false);
    DOCTEST_PARSE_AS_BOOL_OR_FLAG("no-throw", "nt", no_throw, false);
    DOCTEST_PARSE_AS_BOOL_OR_FLAG("no-exitcode", "ne", no_exitcode, false);
    DOCTEST_PARSE_AS_BOOL_OR_FLAG("no-run", "nr", no_run, false);
    DOCTEST_PARSE_AS_BOOL_OR_FLAG("no-intro", "ni", no_intro, false);
    DOCTEST_PARSE_AS_BOOL_OR_FLAG("no-version", "nv", no_version, false);
    DOCTEST_PARSE_AS_BOOL_OR_FLAG("no-colors", "nc", no_colors, false);
    DOCTEST_PARSE_AS_BOOL_OR_FLAG("force-colors", "fc", force_colors, false);
    DOCTEST_PARSE_AS_BOOL_OR_FLAG("no-breaks", "nb", no_breaks, false);
    DOCTEST_PARSE_AS_BOOL_OR_FLAG("no-skip", "ns", no_skip, false);
    DOCTEST_PARSE_AS_BOOL_OR_FLAG("gnu-file-line", "gfl", gnu_file_line, !bool(DOCTEST_MSVC));
    DOCTEST_PARSE_AS_BOOL_OR_FLAG("no-path-filenames", "npf", no_path_in_filenames, false);
    DOCTEST_PARSE_AS_BOOL_OR_FLAG("no-line-numbers", "nln", no_line_numbers, false);
    DOCTEST_PARSE_AS_BOOL_OR_FLAG("no-debug-output", "ndo", no_debug_output, false);
    DOCTEST_PARSE_AS_BOOL_OR_FLAG("no-skipped-summary", "nss", no_skipped_summary, false);
    DOCTEST_PARSE_AS_BOOL_OR_FLAG("no-time-in-output", "ntio", no_time_in_output, false);
    // clang-format on

    if(withDefaults) {
        p->help             = false;
        p->version          = false;
        p->count            = false;
        p->list_test_cases  = false;
        p->list_test_suites = false;
        p->list_reporters   = false;
    }
    if(parseFlag(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX "help") ||
       parseFlag(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX "h") ||
       parseFlag(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX "?")) {
        p->help = true;
        p->exit = true;
    }
    if(parseFlag(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX "version") ||
       parseFlag(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX "v")) {
        p->version = true;
        p->exit    = true;
    }
    if(parseFlag(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX "count") ||
       parseFlag(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX "c")) {
        p->count = true;
        p->exit  = true;
    }
    if(parseFlag(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX "list-test-cases") ||
       parseFlag(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX "ltc")) {
        p->list_test_cases = true;
        p->exit            = true;
    }
    if(parseFlag(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX "list-test-suites") ||
       parseFlag(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX "lts")) {
        p->list_test_suites = true;
        p->exit             = true;
    }
    if(parseFlag(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX "list-reporters") ||
       parseFlag(argc, argv, DOCTEST_CONFIG_OPTIONS_PREFIX "lr")) {
        p->list_reporters = true;
        p->exit           = true;
    }
}

// allows the user to add procedurally to the filters from the command line
void Context::addFilter(const char* filter, const char* value) { setOption(filter, value); }

// allows the user to clear all filters from the command line
void Context::clearFilters() {
    for(auto& curr : p->filters)
        curr.clear();
}

// allows the user to override procedurally the bool options from the command line
void Context::setOption(const char* option, bool value) {
    setOption(option, value ? "true" : "false");
}

// allows the user to override procedurally the int options from the command line
void Context::setOption(const char* option, int value) {
    setOption(option, (DOCTEST_STRINGIFY(value)).c_str());
    // NOLINTNEXTLINE(clang-analyzer-cplusplus.NewDeleteLeaks)
}

// allows the user to override procedurally the string options from the command line
void Context::setOption(const char* option, const char* value) {
    auto argv   = String("-") + option + "=" + value;
    auto lvalue = argv.c_str();
    parseArgs(1, &lvalue);
}

// users should query this in their main() and exit the program if true
bool Context::shouldExit() { return p->exit; }

void Context::setAsDefaultForAssertsOutOfTestCases() { g_cs = p; }

void Context::setAssertHandler(detail::assert_handler ah) { p->ah = ah; }

void Context::setCout(std::ostream* out) { p->cout = out; }

static class DiscardOStream : public std::ostream
{
private:
    class : public std::streambuf
    {
    private:
        // allowing some buffering decreases the amount of calls to overflow
        char buf[1024];

    protected:
        std::streamsize xsputn(const char_type*, std::streamsize count) override { return count; }

        int_type overflow(int_type ch) override {
            setp(std::begin(buf), std::end(buf));
            return traits_type::not_eof(ch);
        }
    } discardBuf;

public:
    DiscardOStream()
            : std::ostream(&discardBuf) {}
} discardOut;

// the main function that does all the filtering and test running
int Context::run() {
    using namespace detail;

    // save the old context state in case such was setup - for using asserts out of a testing context
    auto old_cs = g_cs;
    // this is the current contest
    g_cs               = p;
    is_running_in_test = true;

    g_no_colors = p->no_colors;
    p->resetRunData();

    std::fstream fstr;
    if(p->cout == nullptr) {
        if(p->quiet) {
            p->cout = &discardOut;
        } else if(p->out.size()) {
            // to a file if specified
            fstr.open(p->out.c_str(), std::fstream::out);
            p->cout = &fstr;
        } else {
            // stdout by default
            p->cout = &std::cout;
        }
    }

    FatalConditionHandler::allocateAltStackMem();

    auto cleanup_and_return = [&]() {
        FatalConditionHandler::freeAltStackMem();

        if(fstr.is_open())
            fstr.close();

        // restore context
        g_cs               = old_cs;
        is_running_in_test = false;

        // we have to free the reporters which were allocated when the run started
        for(auto& curr : p->reporters_currently_used)
            delete curr;
        p->reporters_currently_used.clear();

        if(p->numTestCasesFailed && !p->no_exitcode)
            return EXIT_FAILURE;
        return EXIT_SUCCESS;
    };

    // setup default reporter if none is given through the command line
    if(p->filters[8].empty())
        p->filters[8].push_back("console");

    // check to see if any of the registered reporters has been selected
    for(auto& curr : getReporters()) {
        if(matchesAny(curr.first.second.c_str(), p->filters[8], false, p->case_sensitive))
            p->reporters_currently_used.push_back(curr.second(*g_cs));
    }

    // TODO: check if there is nothing in reporters_currently_used

    // prepend all listeners
    for(auto& curr : getListeners())
        p->reporters_currently_used.insert(p->reporters_currently_used.begin(), curr.second(*g_cs));

#ifdef DOCTEST_PLATFORM_WINDOWS
    if(isDebuggerActive() && p->no_debug_output == false)
        p->reporters_currently_used.push_back(new DebugOutputWindowReporter(*g_cs));
#endif // DOCTEST_PLATFORM_WINDOWS

    // handle version, help and no_run
    if(p->no_run || p->version || p->help || p->list_reporters) {
        DOCTEST_ITERATE_THROUGH_REPORTERS(report_query, QueryData());

        return cleanup_and_return();
    }

    std::vector<const TestCase*> testArray;
    for(auto& curr : getRegisteredTests())
        testArray.push_back(&curr);
    p->numTestCases = testArray.size();

    // sort the collected records
    if(!testArray.empty()) {
        if(p->order_by.compare("file", true) == 0) {
            std::sort(testArray.begin(), testArray.end(), fileOrderComparator);
        } else if(p->order_by.compare("suite", true) == 0) {
            std::sort(testArray.begin(), testArray.end(), suiteOrderComparator);
        } else if(p->order_by.compare("name", true) == 0) {
            std::sort(testArray.begin(), testArray.end(), nameOrderComparator);
        } else if(p->order_by.compare("rand", true) == 0) {
            std::srand(p->rand_seed);

            // random_shuffle implementation
            const auto first = &testArray[0];
            for(size_t i = testArray.size() - 1; i > 0; --i) {
                int idxToSwap = std::rand() % (i + 1); // NOLINT

                const auto temp = first[i];

                first[i]         = first[idxToSwap];
                first[idxToSwap] = temp;
            }
        } else if(p->order_by.compare("none", true) == 0) {
            // means no sorting - beneficial for death tests which call into the executable
            // with a specific test case in mind - we don't want to slow down the startup times
        }
    }

    std::set<String> testSuitesPassingFilt;

    bool                             query_mode = p->count || p->list_test_cases || p->list_test_suites;
    std::vector<const TestCaseData*> queryResults;

    if(!query_mode)
        DOCTEST_ITERATE_THROUGH_REPORTERS(test_run_start, DOCTEST_EMPTY);

    // invoke the registered functions if they match the filter criteria (or just count them)
    for(auto& curr : testArray) {
        const auto& tc = *curr;

        bool skip_me = false;
        if(tc.m_skip && !p->no_skip)
            skip_me = true;

        if(!matchesAny(tc.m_file.c_str(), p->filters[0], true, p->case_sensitive))
            skip_me = true;
        if(matchesAny(tc.m_file.c_str(), p->filters[1], false, p->case_sensitive))
            skip_me = true;
        if(!matchesAny(tc.m_test_suite, p->filters[2], true, p->case_sensitive))
            skip_me = true;
        if(matchesAny(tc.m_test_suite, p->filters[3], false, p->case_sensitive))
            skip_me = true;
        if(!matchesAny(tc.m_name, p->filters[4], true, p->case_sensitive))
            skip_me = true;
        if(matchesAny(tc.m_name, p->filters[5], false, p->case_sensitive))
            skip_me = true;

        if(!skip_me)
            p->numTestCasesPassingFilters++;

        // skip the test if it is not in the execution range
        if((p->last < p->numTestCasesPassingFilters && p->first <= p->last) ||
           (p->first > p->numTestCasesPassingFilters))
            skip_me = true;

        if(skip_me) {
            if(!query_mode)
                DOCTEST_ITERATE_THROUGH_REPORTERS(test_case_skipped, tc);
            continue;
        }

        // do not execute the test if we are to only count the number of filter passing tests
        if(p->count)
            continue;

        // print the name of the test and don't execute it
        if(p->list_test_cases) {
            queryResults.push_back(&tc);
            continue;
        }

        // print the name of the test suite if not done already and don't execute it
        if(p->list_test_suites) {
            if((testSuitesPassingFilt.count(tc.m_test_suite) == 0) && tc.m_test_suite[0] != '\0') {
                queryResults.push_back(&tc);
                testSuitesPassingFilt.insert(tc.m_test_suite);
                p->numTestSuitesPassingFilters++;
            }
            continue;
        }

        // execute the test if it passes all the filtering
        {
            p->currentTest = &tc;

            p->failure_flags = TestCaseFailureReason::None;
            p->seconds       = 0;

            // reset atomic counters
            p->numAssertsFailedCurrentTest_atomic = 0;
            p->numAssertsCurrentTest_atomic       = 0;

            p->fullyTraversedSubcases.clear();

            DOCTEST_ITERATE_THROUGH_REPORTERS(test_case_start, tc);

            p->timer.start();
            
            bool run_test = true;

            do {
                // reset some of the fields for subcases (except for the set of fully passed ones)
                p->reachedLeaf = false;
                // May not be empty if previous subcase exited via exception.
                p->subcaseStack.clear();
                p->currentSubcaseDepth = 0;

                p->shouldLogCurrentException = true;

                // reset stuff for logging with INFO()
                p->stringifiedContexts.clear();

#ifndef DOCTEST_CONFIG_NO_EXCEPTIONS
                try {
#endif // DOCTEST_CONFIG_NO_EXCEPTIONS
// MSVC 2015 diagnoses fatalConditionHandler as unused (because reset() is a static method)
DOCTEST_MSVC_SUPPRESS_WARNING_WITH_PUSH(4101) // unreferenced local variable
                    FatalConditionHandler fatalConditionHandler; // Handle signals
                    // execute the test
                    tc.m_test();
                    fatalConditionHandler.reset();
DOCTEST_MSVC_SUPPRESS_WARNING_POP
#ifndef DOCTEST_CONFIG_NO_EXCEPTIONS
                } catch(const TestFailureException&) {
                    p->failure_flags |= TestCaseFailureReason::AssertFailure;
                } catch(...) {
                    DOCTEST_ITERATE_THROUGH_REPORTERS(test_case_exception,
                                                      {translateActiveException(), false});
                    p->failure_flags |= TestCaseFailureReason::Exception;
                }
#endif // DOCTEST_CONFIG_NO_EXCEPTIONS

                // exit this loop if enough assertions have failed - even if there are more subcases
                if(p->abort_after > 0 &&
                   p->numAssertsFailed + p->numAssertsFailedCurrentTest_atomic >= p->abort_after) {
                    run_test = false;
                    p->failure_flags |= TestCaseFailureReason::TooManyFailedAsserts;
                }
                
                if(!p->nextSubcaseStack.empty() && run_test)
                    DOCTEST_ITERATE_THROUGH_REPORTERS(test_case_reenter, tc);
                if(p->nextSubcaseStack.empty())
                    run_test = false;
            } while(run_test);

            p->finalizeTestCaseData();

            DOCTEST_ITERATE_THROUGH_REPORTERS(test_case_end, *g_cs);

            p->currentTest = nullptr;

            // stop executing tests if enough assertions have failed
            if(p->abort_after > 0 && p->numAssertsFailed >= p->abort_after)
                break;
        }
    }

    if(!query_mode) {
        DOCTEST_ITERATE_THROUGH_REPORTERS(test_run_end, *g_cs);
    } else {
        QueryData qdata;
        qdata.run_stats = g_cs;
        qdata.data      = queryResults.data();
        qdata.num_data  = unsigned(queryResults.size());
        DOCTEST_ITERATE_THROUGH_REPORTERS(report_query, qdata);
    }

    return cleanup_and_return();
}

IReporter::~IReporter() = default;

int IReporter::get_num_active_contexts() { return detail::g_infoContexts.size(); }
const IContextScope* const* IReporter::get_active_contexts() {
    return get_num_active_contexts() ? &detail::g_infoContexts[0] : nullptr;
}

int IReporter::get_num_stringified_contexts() { return detail::g_cs->stringifiedContexts.size(); }
const String* IReporter::get_stringified_contexts() {
    return get_num_stringified_contexts() ? &detail::g_cs->stringifiedContexts[0] : nullptr;
}

namespace detail {
    void registerReporterImpl(const char* name, int priority, reporterCreatorFunc c, bool isReporter) {
        if(isReporter)
            getReporters().insert(reporterMap::value_type(reporterMap::key_type(priority, name), c));
        else
            getListeners().insert(reporterMap::value_type(reporterMap::key_type(priority, name), c));
    }
} // namespace detail

} // namespace doctest

#endif // DOCTEST_CONFIG_DISABLE

#ifdef DOCTEST_CONFIG_IMPLEMENT_WITH_MAIN
DOCTEST_MSVC_SUPPRESS_WARNING_WITH_PUSH(4007) // 'function' : must be 'attribute' - see issue #182
int main(int argc, char** argv) { return doctest::Context(argc, argv).run(); }
DOCTEST_MSVC_SUPPRESS_WARNING_POP
#endif // DOCTEST_CONFIG_IMPLEMENT_WITH_MAIN

DOCTEST_CLANG_SUPPRESS_WARNING_POP
DOCTEST_MSVC_SUPPRESS_WARNING_POP
DOCTEST_GCC_SUPPRESS_WARNING_POP

DOCTEST_SUPPRESS_COMMON_WARNINGS_POP

#endif // DOCTEST_LIBRARY_IMPLEMENTATION
#endif // DOCTEST_CONFIG_IMPLEMENT