Merge branch 'You69Man-feature/PR_display_graph_0_8_46' into developm…

…ent03
lumapu · Jan 7, 2024 · 42926c4 · 42926c4
2 parents 7e08e6c + ac70ada
commit 42926c4
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Showing 11 changed files with 441 additions and 138 deletions.
diff --git a/src/config/settings.h b/src/config/settings.h
@@ -165,6 +165,8 @@ typedef struct {
     uint8_t type;
     bool pwrSaveAtIvOffline;
     uint8_t screenSaver;
+    uint8_t graph_ratio;
+    uint8_t graph_size;
     uint8_t rot;
     //uint16_t wakeUp;
     //uint16_t sleepAt;
@@ -461,6 +463,8 @@ class settings {
             mCfg.plugin.display.pwrSaveAtIvOffline = false;
             mCfg.plugin.display.contrast = 60;
             mCfg.plugin.display.screenSaver = 1;  // default: 1 .. pixelshift for OLED for downward compatibility
+            mCfg.plugin.display.graph_ratio = 50;
+            mCfg.plugin.display.graph_size  = 2;
             mCfg.plugin.display.rot = 0;
             mCfg.plugin.display.disp_data  = DEF_PIN_OFF; // SDA
             mCfg.plugin.display.disp_clk   = DEF_PIN_OFF; // SCL
@@ -697,6 +701,8 @@ class settings {
                 disp[F("type")]     = mCfg.plugin.display.type;
                 disp[F("pwrSafe")]  = (bool)mCfg.plugin.display.pwrSaveAtIvOffline;
                 disp[F("screenSaver")] = mCfg.plugin.display.screenSaver;
+                disp[F("graph_ratio")] = mCfg.plugin.display.graph_ratio;
+                disp[F("graph_size")] = mCfg.plugin.display.graph_size;
                 disp[F("rotation")] = mCfg.plugin.display.rot;
                 //disp[F("wake")] = mCfg.plugin.display.wakeUp;
                 //disp[F("sleep")] = mCfg.plugin.display.sleepAt;
@@ -713,6 +719,8 @@ class settings {
                 getVal<uint8_t>(disp, F("type"), &mCfg.plugin.display.type);
                 getVal<bool>(disp, F("pwrSafe"), &mCfg.plugin.display.pwrSaveAtIvOffline);
                 getVal<uint8_t>(disp, F("screenSaver"), &mCfg.plugin.display.screenSaver);
+                getVal<uint8_t>(disp, F("graph_ratio"), &mCfg.plugin.display.graph_ratio);
+                getVal<uint8_t>(disp, F("graph_size"), &mCfg.plugin.display.graph_size);
                 getVal<uint8_t>(disp, F("rotation"), &mCfg.plugin.display.rot);
                 //mCfg.plugin.display.wakeUp = disp[F("wake")];
                 //mCfg.plugin.display.sleepAt = disp[F("sleep")];

diff --git a/src/plugins/Display/Display.h b/src/plugins/Display/Display.h
@@ -54,7 +54,7 @@ class Display {
             default: mMono = NULL; break;
         }
         if(mMono) {
-            mMono->config(mCfg->pwrSaveAtIvOffline, mCfg->screenSaver, mCfg->contrast);
+            mMono->config(mCfg->pwrSaveAtIvOffline, mCfg->screenSaver, mCfg->contrast, mCfg->graph_ratio, mCfg->graph_size);
             mMono->init(mCfg->type, mCfg->rot, mCfg->disp_cs, mCfg->disp_dc, 0xff, mCfg->disp_clk, mCfg->disp_data, &mDisplayData);
         }
 
@@ -75,10 +75,12 @@ class Display {
     }
 
     void tickerSecond() {
+        bool request_refresh = false;
+
         if (mMono != NULL)
-            mMono->loop(mCfg->contrast, motionSensorActive());
+            request_refresh = mMono->loop(mCfg->contrast, motionSensorActive());
 
-        if (mNewPayload || (((++mLoopCnt) % 5) == 0)) {
+        if (mNewPayload || (((++mLoopCnt) % 5) == 0) || request_refresh) {
             DataScreen();
             mNewPayload = false;
             mLoopCnt = 0;
@@ -165,6 +167,9 @@ class Display {
         else
             mDisplayData.utcTs = 0;
 
+        mDisplayData.pGraphStartTime = mApp->getSunrise();
+        mDisplayData.pGraphEndTime = mApp->getSunset();
+
         if (mMono ) {
             mMono->disp();
         }

diff --git a/src/plugins/Display/Display_Mono.h b/src/plugins/Display/Display_Mono.h
@@ -26,12 +26,12 @@ class DisplayMono {
       DisplayMono() {};
 
       virtual void init(uint8_t type, uint8_t rot, uint8_t cs, uint8_t dc, uint8_t reset, uint8_t clock, uint8_t data, DisplayData *displayData) = 0;
-      virtual void config(bool enPowerSave, uint8_t screenSaver, uint8_t lum) = 0;
+      virtual void config(bool enPowerSave, uint8_t screenSaver, uint8_t lum, uint8_t graph_ratio, uint8_t graph_size) = 0;
       virtual void disp(void) = 0;
 
       // Common loop function, manages display on/off functions for powersave and screensaver with motionsensor
       // can be overridden by subclasses
-      virtual void loop(uint8_t lum, bool motion) {
+      virtual bool loop(uint8_t lum, bool motion) {
 
          bool dispConditions = (!mEnPowerSave || (mDisplayData->nrProducing > 0)) &&
                                ((mScreenSaver != 2) || motion); // screensaver 2 .. motionsensor
@@ -60,19 +60,32 @@ class DisplayMono {
             mLuminance = lum;
             mDisplay->setContrast(mLuminance);
          }
+
+         return(monoMaintainDispSwitchState());
       }
 
    protected:
       U8G2* mDisplay;
       DisplayData *mDisplayData;
 
+      float  *mPgData=nullptr;
+      uint8_t mPgWidth=0;
+      uint8_t mPgHeight=0;
+      float   mPgMaxPwr=0.0;
+//      float   mPgMaxAvailPower = 0.0;
+      uint32_t mPgPeriod=0; // seconds
+      uint32_t mPgTimeOfDay=0;
+      uint8_t  mPgLastPos=0;
+
       uint8_t mType;
       uint16_t mDispWidth;
       uint16_t mDispHeight;
 
       bool mEnPowerSave;
       uint8_t mScreenSaver = 1;  // 0 .. off; 1 .. pixelShift; 2 .. motionsensor
       uint8_t mLuminance;
+      uint8_t mGraphRatio;
+      uint8_t mGraphSize;
 
       uint8_t mLoopCnt;
       uint8_t mLineXOffsets[5] = {};
@@ -81,9 +94,16 @@ class DisplayMono {
       uint8_t mExtra;
       int8_t  mPixelshift=0;
       TimeMonitor mDisplayTime = TimeMonitor(1000 * DISP_DEFAULT_TIMEOUT, true);
+      TimeMonitor mDispSwitchTime = TimeMonitor();
+      uint8_t mDispSwitchState;
       bool mDisplayActive = true;  // always start with display on
       char mFmtText[DISP_FMT_TEXT_LEN];
 
+      enum _dispSwitchState {
+         d_POWER_TEXT = 0,
+         d_POWER_GRAPH = 1,
+      };
+
       // Common initialization function to be called by subclasses
       void monoInit(U8G2* display, uint8_t type, DisplayData *displayData) {
          mDisplay = display;
@@ -95,8 +115,145 @@ class DisplayMono {
          mDisplay->clearBuffer();
          mDispWidth = mDisplay->getDisplayWidth();
          mDispHeight = mDisplay->getDisplayHeight();
+         mDispSwitchTime.stopTimeMonitor();
+         mDispSwitchState = d_POWER_TEXT;
+         if (mGraphRatio == 100)           // if graph ratio is 100% start in graph mode
+            mDispSwitchState = d_POWER_GRAPH;
+         else if (mGraphRatio != 0)
+            mDispSwitchTime.startTimeMonitor(150 * (100 - mGraphRatio));  // start display mode change only if ratio is neither 0 nor 100
+      }
+
+      bool monoMaintainDispSwitchState(void) {
+        bool change = false;
+         switch(mDispSwitchState) {
+            case d_POWER_TEXT:
+               if (mDispSwitchTime.isTimeout()) {
+                  mDispSwitchState = d_POWER_GRAPH;
+                  mDispSwitchTime.startTimeMonitor(150 * mGraphRatio);  // mGraphRatio: 0-100 Gesamtperiode 15000 ms
+                  change = true;
+               }
+               break;
+            case d_POWER_GRAPH:
+               if (mDispSwitchTime.isTimeout()) {
+                  mDispSwitchState = d_POWER_TEXT;
+                  mDispSwitchTime.startTimeMonitor(150 * (100 - mGraphRatio));
+                  change = true;
+               }
+               break;
+         }
+         return change;
+      }
+
+      void initPowerGraph(uint8_t width, uint8_t height) {
+         mPgWidth = width;
+         mPgHeight = height;
+         mPgData = new float[mPgWidth];
+         //memset(mPgData, 0, mPgWidth);
+         resetPowerGraph();
+/*
+         Inverter<> *iv;
+         mPgMaxAvailPower = 0;
+         uint8_t nInv = mSys->getNumInverters();
+         for (uint8_t i = 0; i < nInv; i++) {
+            iv = mSys->getInverterByPos(i);
+            if (iv == NULL)
+               continue;
+            for (uint8_t ch = 0; ch < 6; ch++) {
+               mPgMaxAvailPower += iv->config->chMaxPwr[ch];
+            }
+         }
+         DBGPRINTLN("max. Power = " + String(mPgMaxAvailPower));*/
+      }
+
+      void resetPowerGraph() {
+        if (mPgData != nullptr) {
+           mPgMaxPwr = 0.0;
+           mPgLastPos = 0;
+           for (uint8_t i = 0; i < mPgWidth; i++)
+              mPgData[i] = 0.0;
+        }
+      }
+
+      uint8_t sss2pgpos(uint seconds_since_start) {
+        return(seconds_since_start * (mPgWidth - 1) / (mDisplayData->pGraphEndTime - mDisplayData->pGraphStartTime));
+      }
+
+      void calcPowerGraphValues() {
+         mPgPeriod = mDisplayData->pGraphEndTime - mDisplayData->pGraphStartTime;  // length of power graph for scaling of x-axis
+         uint32_t oldTimeOfDay = mPgTimeOfDay;
+         mPgTimeOfDay = (mDisplayData->utcTs > mDisplayData->pGraphStartTime) ? mDisplayData->utcTs - mDisplayData->pGraphStartTime : 0; // current time of day with respect to current sunrise time
+         if (oldTimeOfDay > mPgTimeOfDay) // new day -> reset old data
+            resetPowerGraph();
+         mPgLastPos = std::min((uint8_t) (mPgTimeOfDay * (mPgWidth - 1) / mPgPeriod), (uint8_t) (mPgWidth - 1));  // current datapoint based on currenct time of day
+      }
+
+      void addPowerGraphEntry(float val) {
+         if (mDisplayData->utcTs > 0) {  // precondition: utc time available
+            calcPowerGraphValues();
+            //mPgData[mPgLastPos] = std::max(mPgData[mPgLastPos], (uint8_t) (val * 255.0 / mPgMaxAvailPower));  // normalizing of data to 0-255
+            mPgData[mPgLastPos] = std::max(mPgData[mPgLastPos], val);
+            mPgMaxPwr = std::max(mPgMaxPwr, val);  // max value of stored data for scaling of y-axis
+         }
+      }
+
+      uint8_t getPowerGraphXpos(uint8_t p) {  //
+        if ((p <= mPgLastPos) && (mPgLastPos > 0))
+            return((p * (mPgWidth - 1)) / mPgLastPos);  // scaling of x-axis
+        else
+            return(0);
+      }
+
+      uint8_t getPowerGraphYpos(uint8_t p) {
+        if (p < mPgWidth)
+            //return(((uint32_t) mPgData[p] * (uint32_t) mPgMaxAvailPower) * (uint32_t) mPgHeight / mPgMaxPwr / 255); // scaling of normalized data (0-255) to graph height
+            return((mPgData[p] * (uint32_t) mPgHeight / mPgMaxPwr)); // scaling of data to graph height
+        else
+            return(0);
+      }
+
+      void plotPowerGraph(uint8_t xoff, uint8_t yoff) {
+        // draw axes
+        mDisplay->drawLine(xoff, yoff, xoff,            yoff - mPgHeight);  // vertical axis
+        mDisplay->drawLine(xoff, yoff, xoff + mPgWidth, yoff);              // horizontal axis
+
+        // draw X scale
+        tmElements_t tm;
+        breakTime(mDisplayData->pGraphEndTime, tm);
+        uint8_t endHourPg = tm.Hour;
+        breakTime(mDisplayData->utcTs, tm);
+        uint8_t endHour = std::min(endHourPg, tm.Hour);
+        breakTime(mDisplayData->pGraphStartTime, tm);
+        tm.Hour += 1;
+        tm.Minute = 0;
+        tm.Second = 0;
+        for (; tm.Hour <= endHour; tm.Hour++) {
+            uint8_t x_pos_screen = getPowerGraphXpos(sss2pgpos((uint32_t) makeTime(tm) - mDisplayData->pGraphStartTime)); // scale horizontal axis
+            mDisplay->drawPixel(xoff + x_pos_screen, yoff - 1);
+        }
+
+        // draw Y scale
+        uint16_t scale_y = 10;
+        uint32_t maxpwr_int = static_cast<uint8_t>(std::round(mPgMaxPwr));
+        if (maxpwr_int > 100)
+            scale_y = 100;
+        for (uint32_t i = scale_y; i <= maxpwr_int; i += scale_y) {
+            uint8_t ypos = yoff - static_cast<uint8_t>(std::round(i * (float) mPgHeight / mPgMaxPwr)); // scale vertical axis
+            mDisplay->drawPixel(xoff + 1, ypos);
+        }
+
+        // draw curve
+        for (uint8_t i = 1; i <= mPgLastPos; i++) {
+            mDisplay->drawLine(xoff + getPowerGraphXpos(i - 1), yoff - getPowerGraphYpos(i - 1),
+                               xoff + getPowerGraphXpos(i),     yoff - getPowerGraphYpos(i));
+        }
+
+        // print max power value
+        mDisplay->setFont(u8g2_font_4x6_tr);
+        snprintf(mFmtText, DISP_FMT_TEXT_LEN, "%dW", static_cast<uint16_t>(std::round(mPgMaxPwr)));
+        mDisplay->drawStr(xoff + 3, yoff - mPgHeight + 5, mFmtText);
       }
 
+      // pixelshift screensaver with wipe effect
       void calcPixelShift(int range) {
          int8_t mod = (millis() / 10000) % ((range >> 1) << 2);
          mPixelshift = mScreenSaver == 1 ? ((mod < range) ? mod - (range >> 1) : -(mod - range - (range >> 1) + 1)) : 0;

diff --git a/src/plugins/Display/Display_Mono_128X32.h b/src/plugins/Display/Display_Mono_128X32.h
@@ -12,10 +12,12 @@ class DisplayMono128X32 : public DisplayMono {
             mExtra = 0;
         }
 
-        void config(bool enPowerSave, uint8_t screenSaver, uint8_t lum) {
+        void config(bool enPowerSave, uint8_t screenSaver, uint8_t lum, uint8_t graph_ratio, uint8_t graph_size) {
             mEnPowerSave = enPowerSave;
             mScreenSaver = screenSaver;
             mLuminance = lum;
+            mGraphRatio = graph_ratio;
+            mGraphSize  = graph_size;
         }
 
         void init(uint8_t type, uint8_t rotation, uint8_t cs, uint8_t dc, uint8_t reset, uint8_t clock, uint8_t data, DisplayData *displayData) {