7ca1d99412
- transparent leds[] for getPixelColor() - sample 2D Black Hole for trnasparent leds[] - conditional audio compile (WLED_NO_AUDIO) Bugfix: - effect filtering
537 lines
16 KiB
C++
537 lines
16 KiB
C++
#include "wled.h"
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#include "fcn_declare.h"
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#include "const.h"
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//helper to get int value at a position in string
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int getNumVal(const String* req, uint16_t pos)
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{
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return req->substring(pos+3).toInt();
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}
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//helper to get int value with in/decrementing support via ~ syntax
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void parseNumber(const char* str, byte* val, byte minv, byte maxv)
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{
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if (str == nullptr || str[0] == '\0') return;
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if (str[0] == 'r') {*val = random8(minv,maxv?maxv:255); return;} // maxv for random cannot be 0
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bool wrap = false;
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if (str[0] == 'w' && strlen(str) > 1) {str++; wrap = true;}
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if (str[0] == '~') {
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int out = atoi(str +1);
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if (out == 0) {
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if (str[1] == '0') return;
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if (str[1] == '-') {
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*val = (int)(*val -1) < (int)minv ? maxv : min((int)maxv,(*val -1)); //-1, wrap around
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} else {
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*val = (int)(*val +1) > (int)maxv ? minv : max((int)minv,(*val +1)); //+1, wrap around
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}
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} else {
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if (wrap && *val == maxv && out > 0) out = minv;
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else if (wrap && *val == minv && out < 0) out = maxv;
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else {
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out += *val;
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if (out > maxv) out = maxv;
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if (out < minv) out = minv;
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}
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*val = out;
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}
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return;
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} else if (minv == maxv && minv == 0) { // limits "unset" i.e. both 0
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byte p1 = atoi(str);
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const char* str2 = strchr(str,'~'); // min/max range (for preset cycle, e.g. "1~5~")
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if (str2) {
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byte p2 = atoi(++str2); // skip ~
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if (p2 > 0) {
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while (isdigit(*(++str2))); // skip digits
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parseNumber(str2, val, p1, p2);
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return;
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}
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}
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}
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*val = atoi(str);
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}
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bool getVal(JsonVariant elem, byte* val, byte vmin, byte vmax) {
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if (elem.is<int>()) {
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if (elem < 0) return false; //ignore e.g. {"ps":-1}
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*val = elem;
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return true;
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} else if (elem.is<const char*>()) {
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const char* str = elem;
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size_t len = strnlen(str, 12);
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if (len == 0 || len > 10) return false;
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parseNumber(str, val, vmin, vmax);
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return true;
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}
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return false; //key does not exist
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}
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bool updateVal(const char* req, const char* key, byte* val, byte minv, byte maxv)
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{
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const char *v = strstr(req, key);
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if (v) v += strlen(key);
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else return false;
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parseNumber(v, val, minv, maxv);
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return true;
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}
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//append a numeric setting to string buffer
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void sappend(char stype, const char* key, int val)
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{
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char ds[] = "d.Sf.";
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switch(stype)
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{
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case 'c': //checkbox
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oappend(ds);
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oappend(key);
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oappend(".checked=");
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oappendi(val);
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oappend(";");
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break;
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case 'v': //numeric
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oappend(ds);
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oappend(key);
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oappend(".value=");
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oappendi(val);
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oappend(";");
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break;
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case 'i': //selectedIndex
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oappend(ds);
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oappend(key);
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oappend(SET_F(".selectedIndex="));
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oappendi(val);
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oappend(";");
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break;
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}
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}
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//append a string setting to buffer
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void sappends(char stype, const char* key, char* val)
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{
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switch(stype)
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{
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case 's': {//string (we can interpret val as char*)
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String buf = val;
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//convert "%" to "%%" to make EspAsyncWebServer happy
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//buf.replace("%","%%");
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oappend("d.Sf.");
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oappend(key);
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oappend(".value=\"");
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oappend(buf.c_str());
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oappend("\";");
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break;}
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case 'm': //message
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oappend(SET_F("d.getElementsByClassName"));
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oappend(key);
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oappend(SET_F(".innerHTML=\""));
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oappend(val);
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oappend("\";");
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break;
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}
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}
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bool oappendi(int i)
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{
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char s[11];
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sprintf(s, "%d", i);
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return oappend(s);
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}
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bool oappend(const char* txt)
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{
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uint16_t len = strlen(txt);
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if (olen + len >= SETTINGS_STACK_BUF_SIZE)
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return false; // buffer full
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strcpy(obuf + olen, txt);
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olen += len;
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return true;
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}
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void prepareHostname(char* hostname)
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{
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const char *pC = serverDescription;
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uint8_t pos = 5;
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while (*pC && pos < 24) { // while !null and not over length
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if (isalnum(*pC)) { // if the current char is alpha-numeric append it to the hostname
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hostname[pos] = *pC;
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pos++;
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} else if (*pC == ' ' || *pC == '_' || *pC == '-' || *pC == '+' || *pC == '!' || *pC == '?' || *pC == '*') {
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hostname[pos] = '-';
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pos++;
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}
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// else do nothing - no leading hyphens and do not include hyphens for all other characters.
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pC++;
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}
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// if the hostname is left blank, use the mac address/default mdns name
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if (pos < 6) {
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sprintf(hostname + 5, "%*s", 6, escapedMac.c_str() + 6);
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} else { //last character must not be hyphen
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while (pos > 0 && hostname[pos -1] == '-') {
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hostname[pos -1] = 0;
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pos--;
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}
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}
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}
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bool isAsterisksOnly(const char* str, byte maxLen)
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{
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for (byte i = 0; i < maxLen; i++) {
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if (str[i] == 0) break;
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if (str[i] != '*') return false;
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}
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//at this point the password contains asterisks only
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return (str[0] != 0); //false on empty string
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}
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//threading/network callback details: https://github.com/Aircoookie/WLED/pull/2336#discussion_r762276994
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bool requestJSONBufferLock(uint8_t module)
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{
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unsigned long now = millis();
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while (jsonBufferLock && millis()-now < 1000) delay(1); // wait for a second for buffer lock
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if (millis()-now >= 1000) {
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DEBUG_PRINT(F("ERROR: Locking JSON buffer failed! ("));
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DEBUG_PRINT(jsonBufferLock);
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DEBUG_PRINTLN(")");
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return false; // waiting time-outed
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}
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jsonBufferLock = module ? module : 255;
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DEBUG_PRINT(F("JSON buffer locked. ("));
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DEBUG_PRINT(jsonBufferLock);
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DEBUG_PRINTLN(")");
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fileDoc = &doc; // used for applying presets (presets.cpp)
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doc.clear();
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return true;
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}
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void releaseJSONBufferLock()
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{
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DEBUG_PRINT(F("JSON buffer released. ("));
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DEBUG_PRINT(jsonBufferLock);
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DEBUG_PRINTLN(")");
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fileDoc = nullptr;
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jsonBufferLock = 0;
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}
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// extracts effect mode (or palette) name from names serialized string
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// caller must provide large enough buffer for name (incluing SR extensions)!
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uint8_t extractModeName(uint8_t mode, const char *src, char *dest, uint8_t maxLen)
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{
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if (src == JSON_mode_names || src == nullptr) {
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if (mode < strip.getModeCount()) {
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char lineBuffer[256];
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//strcpy_P(lineBuffer, (const char*)pgm_read_dword(&(WS2812FX::_modeData[mode])));
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strcpy_P(lineBuffer, strip.getModeData(mode));
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size_t len = strlen(lineBuffer);
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size_t j = 0;
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for (; j < maxLen && j < len; j++) {
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if (lineBuffer[j] == '\0' || lineBuffer[j] == '@') break;
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dest[j] = lineBuffer[j];
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}
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dest[j] = 0; // terminate string
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return strlen(dest);
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} else return 0;
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}
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uint8_t qComma = 0;
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bool insideQuotes = false;
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uint8_t printedChars = 0;
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char singleJsonSymbol;
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size_t len = strlen_P(src);
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// Find the mode name in JSON
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for (size_t i = 0; i < len; i++) {
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singleJsonSymbol = pgm_read_byte_near(src + i);
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if (singleJsonSymbol == '\0') break;
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if (singleJsonSymbol == '@' && insideQuotes && qComma == mode) break; //stop when SR extension encountered
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switch (singleJsonSymbol) {
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case '"':
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insideQuotes = !insideQuotes;
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break;
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case '[':
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case ']':
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break;
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case ',':
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if (!insideQuotes) qComma++;
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default:
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if (!insideQuotes || (qComma != mode)) break;
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dest[printedChars++] = singleJsonSymbol;
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}
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if ((qComma > mode) || (printedChars >= maxLen)) break;
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}
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dest[printedChars] = '\0';
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return strlen(dest);
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}
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// extracts effect slider data (1st group after @)
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uint8_t extractModeSlider(uint8_t mode, uint8_t slider, char *dest, uint8_t maxLen, uint8_t *var)
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{
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dest[0] = '\0'; // start by clearing buffer
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if (mode < strip.getModeCount()) {
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String lineBuffer = strip.getModeData(mode);
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if (lineBuffer.length() > 0) {
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int16_t start = lineBuffer.indexOf('@');
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int16_t stop = lineBuffer.indexOf(';', start);
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if (start>0 && stop>0) {
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String names = lineBuffer.substring(start, stop); // include @
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int16_t nameBegin = 1, nameEnd, nameDefault;
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if (slider < 10) {
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for (size_t i=0; i<=slider; i++) {
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const char *tmpstr;
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dest[0] = '\0'; //clear dest buffer
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if (nameBegin == 0) break; // there are no more names
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nameEnd = names.indexOf(',', nameBegin);
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if (i == slider) {
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nameDefault = names.indexOf('=', nameBegin); // find default value
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if (nameDefault > 0 && var && ((nameEnd>0 && nameDefault<nameEnd) || nameEnd<0)) {
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*var = (uint8_t)atoi(names.substring(nameDefault+1).c_str());
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}
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if (names.charAt(nameBegin) == '!') {
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switch (slider) {
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case 0: tmpstr = PSTR("FX Speed"); break;
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case 1: tmpstr = PSTR("FX Intensity"); break;
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case 2: tmpstr = PSTR("FX Custom 1"); break;
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case 3: tmpstr = PSTR("FX Custom 2"); break;
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case 4: tmpstr = PSTR("FX Custom 3"); break;
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default: tmpstr = PSTR("FX Custom"); break;
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}
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} else {
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if (nameEnd<0) tmpstr = names.substring(nameBegin).c_str(); // did not find ",", last name?
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else tmpstr = names.substring(nameBegin, nameEnd).c_str();
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}
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strlcpy(dest, tmpstr, maxLen); // copy the name into buffer (replacing previous)
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}
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nameBegin = nameEnd+1; // next name (if "," is not found it will be 0)
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} // next slider
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} else if (slider == 255) {
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// palette
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strlcpy(dest, "pal", maxLen);
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names = lineBuffer.substring(stop+1); // stop has index of color slot names
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nameBegin = names.indexOf(';'); // look for palette
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if (nameBegin >= 0) {
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nameEnd = names.indexOf(';', nameBegin+1);
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if (!isdigit(names[nameBegin+1])) nameBegin = names.indexOf('=', nameBegin+1); // look for default value
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if (nameEnd >= 0 && nameBegin > nameEnd) nameBegin = -1;
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if (nameBegin >= 0 && var) {
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*var = (uint8_t)atoi(names.substring(nameBegin+1).c_str());
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}
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}
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}
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// we have slider name (including default value) in the dest buffer
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for (size_t i=0; i<strlen(dest); i++) if (dest[i]=='=') { dest[i]='\0'; break; } // truncate default value
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} else {
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// defaults to just speed and intensity since there is no slider data
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switch (slider) {
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case 0: strncpy_P(dest, PSTR("FX Speed"), maxLen); break;
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case 1: strncpy_P(dest, PSTR("FX Intensity"), maxLen); break;
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}
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dest[maxLen] = '\0'; // strncpy does not necessarily null terminate string
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}
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}
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return strlen(dest);
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}
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return 0;
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}
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int16_t extractModeDefaults(uint8_t mode, const char *segVar)
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{
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if (mode < strip.getModeCount()) {
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String lineBuffer = strip.getModeData(mode);
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if (lineBuffer.length() > 0) {
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int16_t start = lineBuffer.lastIndexOf(';');
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if (start<0) return -1;
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int16_t stop = lineBuffer.indexOf(segVar, start+1);
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if (stop<0) return -1;
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return atoi(lineBuffer.substring(stop+strlen(segVar)+1).c_str());
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}
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}
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return -1;
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}
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uint16_t crc16(const unsigned char* data_p, size_t length) {
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uint8_t x;
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uint16_t crc = 0xFFFF;
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if (!length) return 0x1D0F;
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while (length--) {
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x = crc >> 8 ^ *data_p++;
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x ^= x>>4;
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crc = (crc << 8) ^ ((uint16_t)(x << 12)) ^ ((uint16_t)(x <<5)) ^ ((uint16_t)x);
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}
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return crc;
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}
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#ifndef WLED_NO_AUDIO
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///////////////////////////////////////////////////////////////////////////////
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// Begin simulateSound (to enable audio enhanced effects to display something)
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///////////////////////////////////////////////////////////////////////////////
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// Currently 4 types defined, to be fine tuned and new types added
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typedef enum UM_SoundSimulations {
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UMS_BeatSin = 0,
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UMS_WeWillRockYou,
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UMS_10_3,
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UMS_14_3
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} um_soundSimulations_t;
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// this is still work in progress
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um_data_t* simulateSound(uint8_t simulationId)
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{
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static float sampleAvg;
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static uint8_t soundAgc;
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static float sampleAgc;
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static int16_t sampleRaw;
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static int16_t rawSampleAgc;
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static uint8_t samplePeak;
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static float FFT_MajorPeak;
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static float FFT_Magnitude;
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static uint8_t maxVol;
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static uint8_t binNum;
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static float multAgc;
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float sampleGain;
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uint8_t soundSquelch;
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uint8_t inputLevel;
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//arrays
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uint8_t *fftResult;
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uint8_t *myVals;
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float *fftBin;
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static um_data_t* um_data = nullptr;
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if (!um_data) {
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//claim storage for arrays
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fftResult = (uint8_t *)malloc(sizeof(uint8_t) * 16);
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myVals = (uint8_t *)malloc(sizeof(uint8_t) * 32);
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fftBin = (float *)malloc(sizeof(float) * 256); // not used (for debugging purposes)
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// initialize um_data pointer structure
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// NOTE!!!
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// This may change as AudioReactive usermod may change
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um_data = new um_data_t;
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um_data->u_size = 18;
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um_data->u_type = new um_types_t[um_data->u_size];
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um_data->u_data = new void*[um_data->u_size];
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um_data->u_data[ 0] = &sampleAvg;
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um_data->u_data[ 1] = &soundAgc;
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um_data->u_data[ 2] = &sampleAgc;
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um_data->u_data[ 3] = &sampleRaw;
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um_data->u_data[ 4] = &rawSampleAgc;
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um_data->u_data[ 5] = &samplePeak;
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um_data->u_data[ 6] = &FFT_MajorPeak;
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um_data->u_data[ 7] = &FFT_Magnitude;
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um_data->u_data[ 8] = fftResult;
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um_data->u_data[ 9] = &maxVol;
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um_data->u_data[10] = &binNum;
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um_data->u_data[11] = &multAgc;
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um_data->u_data[14] = myVals; //*used (only once, Pixels)
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um_data->u_data[13] = &sampleGain;
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um_data->u_data[15] = &soundSquelch;
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um_data->u_data[16] = fftBin; //only used in binmap
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um_data->u_data[17] = &inputLevel;
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} else {
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// get arrays from um_data
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fftResult = (uint8_t*)um_data->u_data[8];
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myVals = (uint8_t*)um_data->u_data[14];
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fftBin = (float*)um_data->u_data[16];
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}
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uint32_t ms = millis();
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switch (simulationId) {
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default:
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case UMS_BeatSin:
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for (int i = 0; i<16; i++)
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fftResult[i] = beatsin8(120 / (i+1), 0, 255);
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// fftResult[i] = (beatsin8(120, 0, 255) + (256/16 * i)) % 256;
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sampleAvg = fftResult[8];
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break;
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case UMS_WeWillRockYou:
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if (ms%2000 < 200) {
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sampleAvg = random8(255);
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for (int i = 0; i<5; i++)
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fftResult[i] = random8(255);
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}
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else if (ms%2000 < 400) {
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sampleAvg = 0;
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for (int i = 0; i<16; i++)
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fftResult[i] = 0;
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}
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else if (ms%2000 < 600) {
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sampleAvg = random8(255);
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for (int i = 5; i<11; i++)
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fftResult[i] = random8(255);
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}
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else if (ms%2000 < 800) {
|
|
sampleAvg = 0;
|
|
for (int i = 0; i<16; i++)
|
|
fftResult[i] = 0;
|
|
}
|
|
else if (ms%2000 < 1000) {
|
|
sampleAvg = random8(255);
|
|
for (int i = 11; i<16; i++)
|
|
fftResult[i] = random8(255);
|
|
}
|
|
else {
|
|
sampleAvg = 0;
|
|
for (int i = 0; i<16; i++)
|
|
fftResult[i] = 0;
|
|
}
|
|
break;
|
|
case UMS_10_3:
|
|
for (int i = 0; i<16; i++)
|
|
fftResult[i] = inoise8(beatsin8(90 / (i+1), 0, 200)*15 + (ms>>10), ms>>3);
|
|
sampleAvg = fftResult[8];
|
|
break;
|
|
case UMS_14_3:
|
|
for (int i = 0; i<16; i++)
|
|
fftResult[i] = inoise8(beatsin8(120 / (i+1), 10, 30)*10 + (ms>>14), ms>>3);
|
|
sampleAvg = fftResult[8];
|
|
break;
|
|
}
|
|
|
|
//derive other vars from sampleAvg
|
|
|
|
//sampleAvg = mapf(sampleAvg, 0, 255, 0, 255); // help me out here
|
|
soundAgc = 0; //only avg in simulations
|
|
sampleAgc = sampleAvg;
|
|
sampleRaw = sampleAvg;
|
|
sampleRaw = map(sampleRaw, 50, 190, 0, 224);
|
|
rawSampleAgc = sampleAvg;
|
|
samplePeak = random8() > 250;
|
|
FFT_MajorPeak = sampleAvg;
|
|
FFT_Magnitude = sampleAvg;
|
|
multAgc = sampleAvg;
|
|
myVals[millis()%32] = sampleAvg; // filling values semi randomly (why?)
|
|
sampleGain = 40;
|
|
soundSquelch = 10;
|
|
maxVol = 10; // this gets feedback fro UI
|
|
binNum = 8; // this gets feedback fro UI
|
|
inputLevel = 128; // this gets feedback fro UI
|
|
|
|
return um_data;
|
|
}
|
|
#endif
|