basic debug support on 8266

usermods/audioreactive/audio_reactive.h

@@ -977,13 +977,15 @@ class AudioReactive : public Usermod {
       if (disableSoundProcessing && (!udpSyncConnected || ((audioSyncEnabled & 0x02) == 0))) return;   // no audio availeable
     #ifdef MIC_LOGGER
       // Debugging functions for audio input and sound processing. Comment out the values you want to see
+      PLOT_PRINT("volumeSmth:");  PLOT_PRINT(volumeSmth + 256.0f);  PLOT_PRINT("\t");  // +256 to move above other lines
+      //PLOT_PRINT("volumeRaw:");   PLOT_PRINT(volumeRaw + 256.0f); PLOT_PRINT("\t");  // +256 to move above other lines
+      //PLOT_PRINT("samplePeak:");  PLOT_PRINT((samplePeak!=0) ? 128:0);   PLOT_PRINT("\t");
+    #ifdef ARDUINO_ARCH_ESP32
       PLOT_PRINT("micMin:");     PLOT_PRINT(0.5f * micReal_min);    PLOT_PRINT("\t");  // scaled down to 50%, for better readability
       PLOT_PRINT("micMax:");     PLOT_PRINT(0.5f * micReal_max);    PLOT_PRINT("\t");  // scaled down to 50%
       //PLOT_PRINT("micAvg:");     PLOT_PRINT(0.5f * micReal_avg);  PLOT_PRINT("\t");  // scaled down to 50%
       //PLOT_PRINT("micDC:");      PLOT_PRINT(0.5f * (micReal_min + micReal_max)/2.0f);PLOT_PRINT("\t");  // scaled down to 50%
       PLOT_PRINT("micReal:");     PLOT_PRINT(micDataReal + 256.0f); PLOT_PRINT("\t");  // +256 to move above other lines
-      PLOT_PRINT("volumeSmth:");  PLOT_PRINT(volumeSmth + 256.0f);  PLOT_PRINT("\t");  // +256 to move above other lines
-      //PLOT_PRINT("volumeRaw:");   PLOT_PRINT(volumeRaw + 256.0f); PLOT_PRINT("\t");  // +256 to move above other lines
       PLOT_PRINT("DC_Level:");    PLOT_PRINT(micLev + 256.0f);      PLOT_PRINT("\t");  // +256 to move above other lines
       // //PLOT_PRINT("filtmicMin:");     PLOT_PRINT(0.5f * micReal_min2);  PLOT_PRINT("\t"); // scaled down to 50%
       // //PLOT_PRINT("filtmicMax:");     PLOT_PRINT(0.5f * micReal_max2);  PLOT_PRINT("\t"); // scaled down to 50%
@@ -993,8 +995,8 @@ class AudioReactive : public Usermod {
       //PLOT_PRINT("micIn:");       PLOT_PRINT(micIn);       PLOT_PRINT("\t");
       //PLOT_PRINT("sample:");      PLOT_PRINT(sample);      PLOT_PRINT("\t");
       //PLOT_PRINT("sampleMax:");   PLOT_PRINT(sampleMax);   PLOT_PRINT("\t");
-      //PLOT_PRINT("samplePeak:");  PLOT_PRINT((samplePeak!=0) ? 128:0);   PLOT_PRINT("\t");
       //PLOT_PRINT("multAgc:");     PLOT_PRINT(multAgc, 4);  PLOT_PRINT("\t");
+    #endif
       PLOT_PRINTLN();
       PLOT_FLUSH();
     #endif
@@ -1757,7 +1759,7 @@ class AudioReactive : public Usermod {
         #endif
         disableSoundProcessing = true;
       } else {
-        #ifdef WLED_DEBUG
+        #if defined(ARDUINO_ARCH_ESP32) && defined(WLED_DEBUG)
         if ((disableSoundProcessing == true) && (audioSyncEnabled == 0) && audioSource->isInitialized()) {    // we just switched to "enabled"
           DEBUG_PRINTLN("[AR userLoop]  realtime mode ended - audio processing resumed.");
           DEBUG_PRINTF( "               RealtimeMode = %d; RealtimeOverride = %d\n", int(realtimeMode), int(realtimeOverride));
@@ -2128,6 +2130,7 @@ class AudioReactive : public Usermod {
         }
 
         #if defined(WLED_DEBUG) || defined(SR_DEBUG) || defined(SR_STATS)
+        #ifdef ARDUINO_ARCH_ESP32
         infoArr = user.createNestedArray(F("I2S cycle time"));
         infoArr.add(roundf(fftTaskCycle)/100.0f);
         infoArr.add(" ms");
@@ -2149,6 +2152,7 @@ class AudioReactive : public Usermod {
         DEBUGSR_PRINTF("AR Sampling time : %5.2f ms\n", roundf(sampleTime)/100.0f);
         DEBUGSR_PRINTF("AR FFT time      : %5.2f ms\n", roundf(fftTime)/100.0f);
         #endif
+        #endif
       }
     }