renderbug/lib/Figments/Renderer.cpp

#include "./Renderer.h"
#include "./Display.h"
#include "./MainLoop.h"

#include <ArduinoLog.h>

#ifndef __NOINIT_ATTR // Pre-defined on esp32
#define __NOINIT_ATTR __attribute__ ((section (".noinit")))
#endif

__NOINIT_ATTR const char* s_lastFigmentName;

const char*
Renderer::lastFigmentName()
{
    return s_lastFigmentName;
}

void
Renderer::loop()
{
    uint16_t totalPower = 0;
    for(Display* dpy : m_displays) {
        totalPower += calculate_unscaled_power_mW(dpy->pixelBacking(), dpy->pixelCount());
        for(Figment* figment : m_figments) {
            if (figment->state == Task::Running) {
#if defined(BOARD_ESP32) or defined(BOARD_ESP8266)
                unsigned int frameStart = ESP.getCycleCount();
#endif
                Log.verbose("Render %s", figment->name);
                s_lastFigmentName = figment->name;
                figment->render(dpy);
#if defined(BOARD_ESP32) or defined(BOARD_ESP8266)
                unsigned int runtime = (ESP.getCycleCount() - frameStart) / 160000;
#else
                unsigned int runtime = 0;
#endif
                if (runtime >= 8) {
                  Log.warning("SLOW RENDER: %s took %dms!", figment->name, runtime);
                }
            }
        };
    }
    static uint8_t videoBrightness = 255;
    static uint8_t scaledBrightness = powerScale(videoBrightness, totalPower);
    EVERY_N_MILLISECONDS(30) {
      m_powerState.update();
      m_brightness.update();
      videoBrightness = brighten8_video(min((uint8_t)m_brightness, (uint8_t)m_powerState));
      scaledBrightness = powerScale(videoBrightness, totalPower);
    }

    FastLED.show(scaledBrightness);
    FastLED.countFPS();
}

void
Renderer::handleEvent(const InputEvent& evt)
{
    switch (evt.intent) {
        case InputEvent::PowerToggle:
          m_powerState = m_powerState.value() <= 128 ? 255 : 0;
          Log.notice("Power toggled to %t", m_powerState);
          break;
        case InputEvent::SetPower:
          m_powerState = evt.asInt() == 0 ? 0 : 255;
          Log.notice("Power state is now %t", m_powerState);
          break;
        case InputEvent::SetBrightness:
          m_brightness = evt.asInt();
          Log.notice("Brightness is now %d (%d requested)", (uint8_t)m_brightness, evt.asInt());
          break;
    }
}

uint8_t
Renderer::powerScale(uint8_t target, uint32_t totalPower) const
{
  if (m_powerManaged) {
    const uint32_t maxPower = m_voltage * m_milliamps;
    uint32_t requested = ((uint32_t)totalPower * target) / 256;
    if (requested > maxPower) {
      return (uint32_t)((uint8_t)(target) * (uint32_t)(maxPower)) / ((uint32_t)(requested));
    }
  }

  return target;
}

void
Renderer::onStart()
{
    for(Display* dpy : m_displays) {
        dpy->clear();
    }
    FastLED.show();
}

void
Renderer::doOn(Args& args, Print& print)
{
  MainLoop::instance()->dispatch(InputEvent{InputEvent::SetPower, 255});
}

void
Renderer::doOff(Args& args, Print& print)
{
  MainLoop::instance()->dispatch(InputEvent{InputEvent::SetPower, 0});
}

void
Renderer::doBrightness(Args& args, Print& print)
{
  MainLoop::instance()->dispatch(InputEvent{InputEvent::SetBrightness, atoi(args[1].c_str())});
}

const std::vector<Command>&
Renderer::commands() const
{
  static const std::vector<Command> _commands = {
    Command{"brightness", &Renderer::doBrightness},
    Command{"on", &Renderer::doOn},
    Command{"off", &Renderer::doOff}
  };

  return _commands;
}