#include "hecl/MultiProgressPrinter.hpp"

#include <algorithm>
#include <cstdio>

#include "hecl/hecl.hpp"

#define BOLD "\033[1m"
#define NORMAL "\033[0m"
#define PREV_LINE "\r\033[{:d}A"
#define HIDE_CURSOR "\033[?25l"
#define SHOW_CURSOR "\033[?25h"

#if _WIN32
#define FOREGROUND_WHITE FOREGROUND_RED | FOREGROUND_GREEN | FOREGROUND_BLUE
#endif

namespace hecl {

void MultiProgressPrinter::ThreadStat::print(const TermInfo& tinfo) const {
  bool blocks = m_factor >= 0.f;
  float factor = std::max(0.f, std::min(1.f, m_factor));
  int iFactor = factor * 100.f;

  int messageLen = m_message.size();
  int submessageLen = m_submessage.size();

  int half;
  if (blocks)
    half = (tinfo.width + 1) / 2 - 2;
  else if (tinfo.truncate)
    half = tinfo.width - 4;
  else
    half = messageLen;

  if (half - messageLen < submessageLen - 2)
    submessageLen = 0;

  if (submessageLen) {
    if (messageLen > half - submessageLen - 1)
      fmt::print(fmt(_SYS_STR("  {:.{}}... {} ")), m_message, half - submessageLen - 4, m_submessage);
    else {
      fmt::print(fmt(_SYS_STR("  {}")), m_message);
      for (int i = half - messageLen - submessageLen - 1; i >= 0; --i)
        fmt::print(fmt(_SYS_STR(" ")));
      fmt::print(fmt(_SYS_STR("{} ")), m_submessage);
    }
  } else {
    if (messageLen > half)
      fmt::print(fmt(_SYS_STR("  {:.{}}... ")), m_message, half - 3);
    else {
      fmt::print(fmt(_SYS_STR("  {}")), m_message);
      for (int i = half - messageLen; i >= 0; --i)
        fmt::print(fmt(_SYS_STR(" ")));
    }
  }

  if (blocks) {
    int rightHalf = tinfo.width - half - 4;
    int nblocks = rightHalf - 7;
    int filled = nblocks * factor;
    int rem = nblocks - filled;

    if (tinfo.xtermColor) {
      fmt::print(fmt(_SYS_STR("" BOLD "{:3d}% [")), iFactor);
      for (int b = 0; b < filled; ++b)
        fmt::print(fmt(_SYS_STR("#")));
      for (int b = 0; b < rem; ++b)
        fmt::print(fmt(_SYS_STR("-")));
      fmt::print(fmt(_SYS_STR("]" NORMAL "")));
    } else {
#if _WIN32
      SetConsoleTextAttribute(tinfo.console, FOREGROUND_INTENSITY | FOREGROUND_WHITE);
#endif
      fmt::print(fmt(_SYS_STR("{:3d}% [")), iFactor);
      for (int b = 0; b < filled; ++b)
        fmt::print(fmt(_SYS_STR("#")));
      for (int b = 0; b < rem; ++b)
        fmt::print(fmt(_SYS_STR("-")));
      fmt::print(fmt(_SYS_STR("]")));
#if _WIN32
      SetConsoleTextAttribute(tinfo.console, FOREGROUND_WHITE);
#endif
    }
  }
}

void MultiProgressPrinter::DrawIndeterminateBar() {
  int half = m_termInfo.width - 2;
  int blocks = half - 2;

  ++m_indeterminateCounter;
  if (m_indeterminateCounter <= -blocks)
    m_indeterminateCounter = -blocks + 1;
  else if (m_indeterminateCounter >= blocks)
    m_indeterminateCounter = -blocks + 2;
  int absCounter = std::abs(m_indeterminateCounter);

  int pre = absCounter;
  int rem = blocks - pre - 1;

  if (m_termInfo.xtermColor) {
    fmt::print(fmt(_SYS_STR("" BOLD " [")));
    for (int b = 0; b < pre; ++b)
      fmt::print(fmt(_SYS_STR("-")));
    fmt::print(fmt(_SYS_STR("#")));
    for (int b = 0; b < rem; ++b)
      fmt::print(fmt(_SYS_STR("-")));
    fmt::print(fmt(_SYS_STR("]" NORMAL "")));
  } else {
#if _WIN32
    SetConsoleTextAttribute(m_termInfo.console, FOREGROUND_INTENSITY | FOREGROUND_WHITE);
#endif
    fmt::print(fmt(_SYS_STR(" [")));
    for (int b = 0; b < pre; ++b)
      fmt::print(fmt(_SYS_STR("-")));
    fmt::print(fmt(_SYS_STR("#")));
    for (int b = 0; b < rem; ++b)
      fmt::print(fmt(_SYS_STR("-")));
    fmt::print(fmt(_SYS_STR("]")));
#if _WIN32
    SetConsoleTextAttribute(m_termInfo.console, FOREGROUND_WHITE);
#endif
  }
}

void MultiProgressPrinter::MoveCursorUp(int n) {
  if (n) {
    if (m_termInfo.xtermColor) {
      fmt::print(fmt(_SYS_STR("" PREV_LINE "")), n);
    }
#if _WIN32
    else {
      CONSOLE_SCREEN_BUFFER_INFO consoleInfo;
      GetConsoleScreenBufferInfo(m_termInfo.console, &consoleInfo);
      consoleInfo.dwCursorPosition.X = 0;
      consoleInfo.dwCursorPosition.Y -= n;
      SetConsoleCursorPosition(m_termInfo.console, consoleInfo.dwCursorPosition);
    }
#endif
  } else {
    fmt::print(fmt(_SYS_STR("\r")));
  }
}

void MultiProgressPrinter::DoPrint() {
  auto logLk = logvisor::LockLog();
  uint64_t logCounter = logvisor::GetLogCounter();
  if (logCounter != m_lastLogCounter) {
    m_curThreadLines = 0;
    m_lastLogCounter = logCounter;
  }
#if _WIN32
  CONSOLE_CURSOR_INFO cursorInfo;
  GetConsoleCursorInfo(m_termInfo.console, &cursorInfo);
  cursorInfo.bVisible = FALSE;
  SetConsoleCursorInfo(m_termInfo.console, &cursorInfo);
#endif
  if (m_termInfo.xtermColor)
    fmt::print(fmt(_SYS_STR("" HIDE_CURSOR "")));

  if (m_dirty) {
    m_termInfo.width = (hecl::GuiMode ? 120 : std::max(80, hecl::ConsoleWidth(&m_termInfo.truncate)));
    MoveCursorUp(m_curThreadLines + m_curProgLines);
    m_curThreadLines = m_curProgLines = 0;

    if (m_newLineAfter) {
      for (const ThreadStat& stat : m_threadStats) {
        if (stat.m_active) {
          stat.print(m_termInfo);
          fmt::print(fmt(_SYS_STR("\n")));
          ++m_curThreadLines;
        }
      }

      if (m_mainIndeterminate
#ifndef _WIN32
          && m_termInfo.xtermColor
#endif
      ) {
        DrawIndeterminateBar();
        fmt::print(fmt(_SYS_STR("\n")));
        ++m_curProgLines;
      } else if (m_mainFactor >= 0.f) {
        float factor = std::max(0.0f, std::min(1.0f, m_mainFactor));
        int iFactor = factor * 100.0;
        int half = m_termInfo.width - 2;

        int blocks = half - 8;
        int filled = blocks * factor;
        int rem = blocks - filled;

        if (m_termInfo.xtermColor) {
          fmt::print(fmt(_SYS_STR("" BOLD "  {:3d}% [")), iFactor);
          for (int b = 0; b < filled; ++b)
            fmt::print(fmt(_SYS_STR("#")));
          for (int b = 0; b < rem; ++b)
            fmt::print(fmt(_SYS_STR("-")));
          fmt::print(fmt(_SYS_STR("]" NORMAL "")));
        } else {
#if _WIN32
          SetConsoleTextAttribute(m_termInfo.console, FOREGROUND_INTENSITY | FOREGROUND_WHITE);
#endif
          fmt::print(fmt(_SYS_STR("  {:3d}% [")), iFactor);
          for (int b = 0; b < filled; ++b)
            fmt::print(fmt(_SYS_STR("#")));
          for (int b = 0; b < rem; ++b)
            fmt::print(fmt(_SYS_STR("-")));
          fmt::print(fmt(_SYS_STR("]")));
#if _WIN32
          SetConsoleTextAttribute(m_termInfo.console, FOREGROUND_WHITE);
#endif
        }

        fmt::print(fmt(_SYS_STR("\n")));
        ++m_curProgLines;
      }
    } else if (m_latestThread != -1) {
      const ThreadStat& stat = m_threadStats[m_latestThread];
      stat.print(m_termInfo);
      fmt::print(fmt(_SYS_STR("\r")));
    }
    m_dirty = false;
  } else if (m_mainIndeterminate
#ifndef _WIN32
             && m_termInfo.xtermColor
#endif
  ) {
    m_termInfo.width = (hecl::GuiMode ? 120 : std::max(80, hecl::ConsoleWidth()));
    MoveCursorUp(m_curProgLines);
    m_curProgLines = 0;
    DrawIndeterminateBar();
    fmt::print(fmt(_SYS_STR("\n")));
    ++m_curProgLines;
  }

  if (m_termInfo.xtermColor)
    fmt::print(fmt(_SYS_STR("" SHOW_CURSOR "")));
  fflush(stdout);

#if _WIN32
  cursorInfo.bVisible = TRUE;
  SetConsoleCursorInfo(m_termInfo.console, &cursorInfo);
#endif
}

void MultiProgressPrinter::LogProc() {
  while (m_running) {
    std::this_thread::sleep_for(std::chrono::milliseconds(100));

    if (!m_dirty && !m_mainIndeterminate) {
      continue;
    }

    std::lock_guard lk{m_logLock};
    DoPrint();
  }
}

MultiProgressPrinter::MultiProgressPrinter(bool activate) {
  if (activate) {
    /* Xterm check */
#if _WIN32
    m_newLineAfter = true;
    m_termInfo.console = GetStdHandle(STD_OUTPUT_HANDLE);
    const char* conemuANSI = getenv("ConEmuANSI");
    if (conemuANSI && !strcmp(conemuANSI, "ON"))
      m_termInfo.xtermColor = true;
#else
    m_newLineAfter = false;
    const char* term = getenv("TERM");
    if (term && !strncmp(term, "xterm", 5)) {
      m_termInfo.xtermColor = true;
      m_newLineAfter = true;
    }
#endif

    m_running = true;
    m_logThread = std::thread(std::bind(&MultiProgressPrinter::LogProc, this));
  }
}

MultiProgressPrinter::~MultiProgressPrinter() {
  m_running = false;
  if (m_logThread.joinable())
    m_logThread.join();
}

void MultiProgressPrinter::print(const hecl::SystemChar* message, const hecl::SystemChar* submessage, float factor,
                                 int threadIdx) const {
  if (!m_running) {
    return;
  }

  std::lock_guard lk{m_logLock};
  if (threadIdx < 0) {
    threadIdx = 0;
  }
  if (threadIdx >= m_threadStats.size()) {
    m_threadStats.resize(threadIdx + 1);
  }

  ThreadStat& stat = m_threadStats[threadIdx];
  if (message) {
    stat.m_message = message;
  } else {
    stat.m_message.clear();
  }
  if (submessage) {
    stat.m_submessage = submessage;
  } else {
    stat.m_submessage.clear();
  }

  stat.m_factor = factor;
  stat.m_active = true;
  m_latestThread = threadIdx;
  m_dirty = true;
}

void MultiProgressPrinter::setMainFactor(float factor) const {
  if (!m_running) {
    return;
  }

  std::lock_guard lk{m_logLock};
  if (!m_mainIndeterminate) {
    m_dirty = true;
  }
  m_mainFactor = factor;
}

void MultiProgressPrinter::setMainIndeterminate(bool indeterminate) const {
  if (!m_running) {
    return;
  }

  std::lock_guard lk{m_logLock};
  if (m_mainIndeterminate != indeterminate) {
    m_mainIndeterminate = indeterminate;
    m_dirty = true;
  }
}

void MultiProgressPrinter::startNewLine() const {
  if (!m_running) {
    return;
  }

  std::lock_guard lk{m_logLock};
  const_cast<MultiProgressPrinter&>(*this).DoPrint();
  m_threadStats.clear();
  m_latestThread = -1;
  m_curThreadLines = 0;
  m_mainFactor = -1.f;
  auto logLk = logvisor::LockLog();
  fmt::print(fmt(_SYS_STR("\n")));
}

void MultiProgressPrinter::flush() const {
  std::lock_guard lk{m_logLock};
  const_cast<MultiProgressPrinter&>(*this).DoPrint();
}

} // namespace hecl