// Adafruit_NeoMatrix example for tiled NeoPixel matrices. Scrolls // 'Howdy' across three 10x8 NeoPixel grids that were created using // NeoPixel 60 LEDs per meter flex strip. #include #include #include #include #ifndef PSTR #define PSTR // Make Arduino Due happy #endif #include #include #include #include #include "omobi_html.h" #define PIN D8 #include "index.html" Adafruit_NeoMatrix matrix = Adafruit_NeoMatrix(8, 8, 6, 1, PIN, NEO_TILE_TOP + NEO_TILE_LEFT + NEO_TILE_ROWS + NEO_TILE_PROGRESSIVE + NEO_MATRIX_TOP + NEO_MATRIX_LEFT + NEO_MATRIX_ROWS + NEO_TILE_PROGRESSIVE, NEO_GRB + NEO_KHZ800); const uint16_t colors[] = { matrix.Color(255, 0, 0), matrix.Color(0, 255, 0), matrix.Color(0, 0, 255), matrix.Color(255, 255, 255) }; enum text_align_t {TEXTLEFT, TEXTCENTER, TEXTRIGHT}; enum color_t {RED, GREEN, BLUE, WHITE}; const uint16_t text_nr_sets = 5; const uint16_t MAX_TXT_LENGTH = 256; typedef struct text_set_t { const char text[MAX_TXT_LENGTH]; uint16_t time_ms; color_t color; text_align_t align; bool text_scroll; uint16_t text_scroll_pass; bool active; } text_set_t; typedef struct sets_t { text_set_t sets[text_nr_sets]; char valid[3]; } sets_t; const int nr_param_names = 7; const String set_param_name[nr_param_names] = {"text_", "time_", "color_", "align_", "scroll_", "scroll_runs_", "active_"}; enum set_param_index_t {PTEXT, PTIME, PCOLOR, PALIGN, PSCROLL, PSCROLL_RUNS, PACTIVE}; const uint16_t DISP_STRUCT_SIZE = sizeof(sets_t); sets_t text_sets = { { // TEXT , SHOWTIME, COLOR, ALIGNMENT, SCROLL, SCROLLNR, ACTIVE {"itsblue",5000, BLUE, TEXTCENTER, false, 0, true}, {"",0, RED, TEXTCENTER, false, 4, false}, {"",0, RED, TEXTCENTER, false, 8, false}, {"",0, RED, TEXTCENTER, false, 1, false}, {"",0, RED, TEXTCENTER, false, 0, false}, }, "OK" }; uint16_t text_curr_nr = 0; uint32_t text_set_starttime = 0; int text_pos = matrix.width(); unsigned int text_pass = 0; unsigned int textpixel = 0; bool disp_show = false; AsyncWebServer server(80); const char* ssid = "OmobiLeds"; const char* password = "OmobiLeds"; void notFound(AsyncWebServerRequest *request) { request->send(404, "text/plain", "URL not found"); } void disp_scroll_text(); void disp_switch_text(); void disp_start_set(); void disp_init(); void show_matrix(const char* text, int pos, uint16_t color); String get_paramstring_from_struct(String name); void set_param_to_struct(String name, String value); String getset_param_at_struct(String name, String value, bool set); void storeDisplaySet(); bool loadDisplaySet(); void setup() { //ESP.eraseConfig(); //ESP.reset(); Serial.begin(9600); matrix.begin(); matrix.setTextWrap(false); matrix.setBrightness(40); loadDisplaySet(); Serial.printf("Los\n"); WiFi.softAP(ssid, password); IPAddress IP = WiFi.softAPIP(); Serial.print("AP IP address: "); Serial.println(IP); server.on("/", HTTP_GET, [](AsyncWebServerRequest *request){ request->send(200, "text/html",index_html); Serial.println("webpage sent"); }); server.on("/loadcurrent", HTTP_GET, [] (AsyncWebServerRequest *request) { String message = "nrsets=" + String(text_nr_sets); for(uint16_t set = 0; set < text_nr_sets; set++) { for(uint16_t parm = 0; parm < nr_param_names; parm++ ) { message += "&" + get_paramstring_from_struct(set_param_name[parm]+String(set)); } } Serial.printf("Got load currentvalues request.\n"); request->send(200, "text/plain", message); }); server.on("/setcurrent", HTTP_GET, [] (AsyncWebServerRequest *request) { int paramsNr = request->params(); Serial.printf("Got set currentvalues request.\n"); for(int i=0;igetParam(i); set_param_to_struct(String(p->name()), String(p->value())); } request->send(200, "text/plain", "OK"); storeDisplaySet(); disp_init(); }); server.onNotFound(notFound); server.begin(); disp_init(); } void loop() { if(true == disp_show) { disp_start_set(); if(true == text_sets.sets[text_curr_nr].active) { if(text_sets.sets[text_curr_nr].text !='\0') { if(text_sets.sets[text_curr_nr].text_scroll) { disp_scroll_text(); } } } } } void disp_init() { text_curr_nr = 0; text_set_starttime = 0; text_pass = 0; disp_show = true; } void disp_scroll_text() { matrix.fillScreen(0); show_matrix(text_sets.sets[text_curr_nr].text, text_pos, text_sets.sets[text_curr_nr].color); (int)text_pos--; if(int(text_pos + textpixel) < 0) { text_pos = matrix.width(); text_pass++; Serial.printf("Pass[%d] - set nr %d, Text: '%s' \n", text_pass, text_curr_nr, text_sets.sets[text_curr_nr].text); } delay(100); } void disp_start_set() { if( (0 == text_set_starttime) || (text_sets.sets[text_curr_nr].text =='\0') || text_sets.sets[text_curr_nr].active == false || ((text_sets.sets[text_curr_nr].text_scroll == false) && (text_sets.sets[text_curr_nr].time_ms > 0) && ((millis() - text_set_starttime ) >= text_sets.sets[text_curr_nr].time_ms)) || ((text_sets.sets[text_curr_nr].text_scroll == true) && (text_sets.sets[text_curr_nr].text_scroll_pass > 0) && ( text_pass >= text_sets.sets[text_curr_nr].text_scroll_pass)) || (((text_sets.sets[text_curr_nr].text_scroll_pass == 0) || text_sets.sets[text_curr_nr].text_scroll == false) && (text_sets.sets[text_curr_nr].time_ms == 0) && ((millis() - text_set_starttime ) >= 10000)) ) { //Serial.printf("[%lu] Meet start set condition. Curr set is %d. \n", millis(), text_curr_nr); if(0 < text_set_starttime || text_sets.sets[text_curr_nr].text =='\0' || text_sets.sets[text_curr_nr].active == false ) text_curr_nr++; if(text_curr_nr == text_nr_sets) text_curr_nr = 0; text_pass = 0; if(text_sets.sets[text_curr_nr].text !='\0' && text_sets.sets[text_curr_nr].active == true) { Serial.printf("[%lu] Set %d. Runtime %d. Text:'%s'\n", millis(), text_curr_nr, text_sets.sets[text_curr_nr].time_ms, text_sets.sets[text_curr_nr].text); matrix.fillScreen(0); textpixel = 6*strlen(text_sets.sets[text_curr_nr].text); switch(text_sets.sets[text_curr_nr].align) { case TEXTLEFT: text_pos = 0; break; case TEXTRIGHT: text_pos = matrix.width(); break; case TEXTCENTER: text_pos = matrix.width() - textpixel; text_pos = text_pos / 2; break; } show_matrix(text_sets.sets[text_curr_nr].text, text_pos, text_sets.sets[text_curr_nr].color); text_set_starttime = millis(); } } } void show_matrix(const char* text, int pos, uint16_t color) { Serial.printf("TEXT: %s (pos=%d, color=%d)\n", text, pos, color); matrix.setTextColor(colors[color]); matrix.setCursor(pos, 0); matrix.print(text); matrix.show(); } void storeDisplaySet() { // write conf to EEPROM EEPROM.begin(DISP_STRUCT_SIZE); //for (size_t i = 0 ; i < DISP_STRUCT_SIZE ; i++) //{ // EEPROM.write(i, 0); //} strncpy( text_sets.valid , "OK", sizeof(text_sets.valid) ); EEPROM.put(0, text_sets); EEPROM.commit(); EEPROM.end(); } bool loadDisplaySet() { bool rc = false; sets_t buf = {}; // read conf from EEPROM EEPROM.begin(DISP_STRUCT_SIZE); EEPROM.get(0, buf); EEPROM.end(); if (strcmp(buf.valid, "OK") == 0) { rc = true; memcpy(&text_sets,&buf,sizeof(text_sets)); } else { memset(&text_sets,0,sizeof(text_sets)); } return rc; } String get_paramstring_from_struct(String name) { return(getset_param_at_struct(name, "", false)); } void set_param_to_struct(String name, String value) { getset_param_at_struct(name, value, true); } String getset_param_at_struct(String name, String value, bool set) { String name_value = ""; int name_setnr_index = name.lastIndexOf("_"); int name_setnr = -1; int name_index = -1; String name_name = "unknown"; if(name_setnr_index > 0) { name_setnr = name.substring(name_setnr_index+1).toInt(); name_name = name.substring(0, name_setnr_index+1); for(int pnr = 0; pnr < nr_param_names; pnr++) { if(name_name == set_param_name[pnr]) { name_index = pnr; break; } } //Serial.printf("Param: (name=%s,set=%d, index=%d) %s = %s \n", name_name.c_str(), name_setnr, name_index, name.c_str(), value.c_str()); if(name_index != -1 && name_setnr != -1 && name_name != "unknown") { name_value += name_name + String(name_setnr) + "="; switch(name_index) { case PCOLOR: if(true == set) text_sets.sets[name_setnr].color = (color_t)value.toInt(); name_value += String(text_sets.sets[name_setnr].color); break; case PTEXT: if(true == set) snprintf((char*)text_sets.sets[name_setnr].text, MAX_TXT_LENGTH, value.c_str()); name_value += String(text_sets.sets[name_setnr].text); break; case PTIME: if(true == set) text_sets.sets[name_setnr].time_ms = value.toInt()*1000; name_value += String(text_sets.sets[name_setnr].time_ms /1000); break; case PSCROLL: if(true == set) text_sets.sets[name_setnr].text_scroll = (value=="true")?true:false; name_value += String(text_sets.sets[name_setnr].text_scroll); break; case PACTIVE: if(true == set) text_sets.sets[name_setnr].active = (value=="true")?true:false; name_value += String(text_sets.sets[name_setnr].active); break; case PALIGN: if(true == set) text_sets.sets[name_setnr].align = (text_align_t)value.toInt(); name_value += String(text_sets.sets[name_setnr].align); break; case PSCROLL_RUNS: if(true == set) text_sets.sets[name_setnr].text_scroll_pass = value.toInt(); name_value += String(text_sets.sets[name_setnr].text_scroll_pass); break; } //Serial.printf("get/set %s\n", name_value.c_str()); } } return(name_value); }