Upsilon/apps/title_bar_view.cpp

#include "title_bar_view.h"
#include "exam_icon.h"
#include "global_preferences.h"
extern "C" {
#include <assert.h>
}

using namespace Poincare;

TitleBarView::TitleBarView() :
  View(),
  m_titleView(KDFont::SmallFont, I18n::Message::Default, 0.5f, 0.5f, Palette::ToolbarText, Palette::Toolbar),
  m_preferenceView(KDFont::SmallFont, 1.0f, 0.5, Palette::ToolbarText, Palette::Toolbar),
  m_clockView(KDFont::SmallFont, 0.5f, 0.5f, Palette::ToolbarText, Palette::Toolbar),
  m_hours(-1),
  m_mins(-1),
  m_clockEnabled(Ion::RTC::mode() != Ion::RTC::Mode::Disabled)
{
  setClock(Ion::RTC::dateTime().tm_hour, Ion::RTC::dateTime().tm_min, m_clockEnabled);
  m_examModeIconView.setImage(ImageStore::ExamIcon);
}

void TitleBarView::drawRect(KDContext * ctx, KDRect rect) const {
  /* As we cheated to layout the title view, we have to fill a very thin
   * rectangle at the top with the background color. */
  ctx->fillRect(KDRect(0, 0, bounds().width(), 2), Palette::Toolbar);
}

void TitleBarView::setTitle(I18n::Message title) {
  m_titleView.setMessage(title);
}

bool TitleBarView::setClock(int hours, int mins, bool enabled) {
  bool changed = m_clockEnabled != enabled;

  if (!enabled) {
    m_clockView.setText("");
    hours = -1;
    mins = -1;
  }
  else if (m_hours != hours || m_mins != mins) {
    char buf[6], *ptr = buf;
    *ptr++ = (hours / 10) + '0';
    *ptr++ = (hours % 10) + '0';
    *ptr++ = ':';
    *ptr++ = (mins / 10) + '0';
    *ptr++ = (mins % 10) + '0';
    *ptr   = '\0';
    m_clockView.setText(buf);

    changed = true;
  }
  if (m_clockEnabled != enabled) {
    layoutSubviews();
    m_clockEnabled = enabled; 
  }

  m_hours = hours;
  m_mins = mins;
  return changed;
}

bool TitleBarView::setChargeState(Ion::Battery::Charge chargeState) {
  return m_batteryView.setChargeState(chargeState);
}

bool TitleBarView::setIsCharging(bool isCharging) {
  return m_batteryView.setIsCharging(isCharging);
}

bool TitleBarView::setIsPlugged(bool isPlugged) {
  return m_batteryView.setIsPlugged(isPlugged);
}

bool TitleBarView::setShiftAlphaLockStatus(Ion::Events::ShiftAlphaStatus status) {
  return m_shiftAlphaLockView.setStatus(status);
}

int TitleBarView::numberOfSubviews() const {
  return 6;
}

View * TitleBarView::subviewAtIndex(int index) {
  if (index == 0) {
    return &m_titleView;
  }
  if (index == 1) {
    return &m_preferenceView;
  }
  if (index == 2) {
    return &m_examModeIconView;
  }
  if (index == 3) {
    return &m_shiftAlphaLockView;
  }
  if (index == 4) {
    return &m_clockView;
  }
  return &m_batteryView;
}

void TitleBarView::layoutSubviews(bool force) {
  /* We here cheat to layout the main title. The application title is written
   * with upper cases. But, as upper letters are on the same baseline as lower
   * letters, they seem to be slightly above when they are perferctly centered
   * (because their glyph never cross the baseline). To avoid this effect, we
   * translate the frame of the title downwards.*/
  m_titleView.setFrame(KDRect(0, 2, bounds().width(), bounds().height()-2), force);
  m_preferenceView.setFrame(KDRect(Metric::TitleBarExternHorizontalMargin, 0, m_preferenceView.minimalSizeForOptimalDisplay().width(), bounds().height()), force);
  KDSize clockSize = m_clockView.minimalSizeForOptimalDisplay();
  m_clockView.setFrame(KDRect(bounds().width() - clockSize.width() - Metric::TitleBarExternHorizontalMargin, (bounds().height()- clockSize.height())/2, clockSize), force);
  if (clockSize.width() != 0) {
    clockSize = KDSize(clockSize.width() + k_alphaRightMargin, clockSize.height());
  }
  KDSize batterySize = m_batteryView.minimalSizeForOptimalDisplay();
  m_batteryView.setFrame(KDRect(bounds().width() - clockSize.width() - batterySize.width() - Metric::TitleBarExternHorizontalMargin, (bounds().height()- batterySize.height())/2, batterySize), force);
  if (GlobalPreferences::sharedGlobalPreferences()->isInExamMode()) {
    m_examModeIconView.setFrame(KDRect(bounds().width() - clockSize.width() - batterySize.width() - k_examIconWidth - k_alphaRightMargin - Metric::TitleBarExternHorizontalMargin, (bounds().height() - k_examIconHeight)/2, k_examIconWidth, k_examIconHeight), force);
  } else {
    m_examModeIconView.setFrame(KDRectZero, force);
  }
  KDSize shiftAlphaLockSize = m_shiftAlphaLockView.minimalSizeForOptimalDisplay();
  if (GlobalPreferences::sharedGlobalPreferences()->isInExamMode()) {
   // The Shift/Alpha frame is shifted when examination mode is active
    m_shiftAlphaLockView.setFrame(KDRect(bounds().width()-clockSize.width()-batterySize.width()-k_examIconWidth-Metric::TitleBarExternHorizontalMargin-2*k_alphaRightMargin-shiftAlphaLockSize.width(), (bounds().height()- shiftAlphaLockSize.height())/2, shiftAlphaLockSize), force);
  } else {
    m_shiftAlphaLockView.setFrame(KDRect(bounds().width()-clockSize.width()-batterySize.width()-Metric::TitleBarExternHorizontalMargin-k_alphaRightMargin-shiftAlphaLockSize.width(), (bounds().height()- shiftAlphaLockSize.height())/2, shiftAlphaLockSize), force);
  }
}

void TitleBarView::refreshPreferences() {
  constexpr size_t bufferSize = 13;
  char buffer[bufferSize];
  int numberOfChar = 0;
  Preferences * preferences = Preferences::sharedPreferences();
  if (GlobalPreferences::sharedGlobalPreferences()->isInExamModeSymbolic()) {
    // Display "cas" if in exam mode with symbolic computation enabled
      numberOfChar += strlcpy(buffer+numberOfChar, I18n::translate(I18n::Message::Sym), bufferSize - numberOfChar);
      assert(numberOfChar < bufferSize-1);
      assert(UTF8Decoder::CharSizeOfCodePoint('/') == 1);
      buffer[numberOfChar++] = '/';
  }
  assert(numberOfChar <= bufferSize);
  {
    // Display Sci/ or Eng/ if the print float mode is not decimal
    const Preferences::PrintFloatMode printFloatMode = preferences->displayMode();
    if (printFloatMode != Preferences::PrintFloatMode::Decimal) {
      // Check that there is no new print float mode, otherwise add its message
      assert(printFloatMode == Preferences::PrintFloatMode::Scientific
          || printFloatMode == Preferences::PrintFloatMode::Engineering);
      I18n::Message printMessage = printFloatMode == Preferences::PrintFloatMode::Scientific ? I18n::Message::Sci : I18n::Message::Eng;
      numberOfChar += strlcpy(buffer+numberOfChar, I18n::translate(printMessage), bufferSize - numberOfChar);
      assert(numberOfChar < bufferSize-1);
      assert(UTF8Decoder::CharSizeOfCodePoint('/') == 1);
      buffer[numberOfChar++] = '/';
    }
  }
  assert(numberOfChar <= bufferSize);
  {
    // Display the angle unit
    const Preferences::AngleUnit angleUnit = preferences->angleUnit();
    I18n::Message angleMessage = angleUnit == Preferences::AngleUnit::Degree ?
        I18n::Message::Deg :
        (angleUnit == Preferences::AngleUnit::Radian ? I18n::Message::Rad : I18n::Message::Gon);
    numberOfChar += strlcpy(buffer+numberOfChar, I18n::translate(angleMessage), bufferSize - numberOfChar);
  }
  
  m_preferenceView.setText(buffer);
  // Layout the exam mode icon if needed
  layoutSubviews();
}

void TitleBarView::reload() {
  refreshPreferences();
  markRectAsDirty(bounds());
}