//+------------------------------------------------------------------+ //| SignalAO.mqh | //| Copyright 2000-2025, MetaQuotes Ltd. | //| https://www.mql5.com | //+------------------------------------------------------------------+ #include // wizard description start //+------------------------------------------------------------------+ //| Description of the class | //| Title=Signals of indicator 'Awesome Oscillator' | //| Type=SignalAdvanced | //| Name=Awesome Oscillator | //| ShortName=AO | //| Class=CSignalAO | //| Page=signal_ao | //+------------------------------------------------------------------+ // wizard description end //+------------------------------------------------------------------+ //| Class CSignalAO. | //| Purpose: Class of generator of trade signals based on | //| the 'Awesome Oscillator' indicator. | //| Is derived from the CExpertSignal class. | //+------------------------------------------------------------------+ class CSignalAO : public CExpertSignal { protected: CiAO m_ao; // object-indicator //--- "weights" of market models (0-100) int m_pattern_0; // model 0 "first analyzed bar has required color" int m_pattern_1; // model 1 "the 'saucer' signal" int m_pattern_2; // model 2 "the 'crossing of the zero line' signal" int m_pattern_3; // model 2 "the 'divergence' signal" //--- variables double m_extr_osc[10]; // array of values of extremums of the oscillator double m_extr_pr[10]; // array of values of the corresponding extremums of price int m_extr_pos[10]; // array of shifts of extremums (in bars) uint m_extr_map; // resulting bit-map of ratio of extremums of the oscillator and the price public: CSignalAO(void); ~CSignalAO(void); //--- methods of adjusting "weights" of market models void Pattern_0(int value) { m_pattern_0=value; } void Pattern_1(int value) { m_pattern_1=value; } void Pattern_2(int value) { m_pattern_2=value; } void Pattern_3(int value) { m_pattern_3=value; } //--- method of creating the indicator and timeseries virtual bool InitIndicators(CIndicators *indicators); //--- methods of checking if the market models are formed virtual int LongCondition(void); virtual int ShortCondition(void); protected: //--- method of initialization of the indicator bool InitAO(CIndicators *indicators); //--- methods of getting data double AO(int ind) { return(m_ao.Main(ind)); } double DiffAO(int ind) { return(AO(ind)-AO(ind+1)); } int StateAO(int ind); bool ExtStateAO(int ind); }; //+------------------------------------------------------------------+ //| Constructor | //+------------------------------------------------------------------+ CSignalAO::CSignalAO(void) : m_pattern_0(30), m_pattern_1(20), m_pattern_2(70), m_pattern_3(90) { //--- initialization of protected data m_used_series=USE_SERIES_HIGH+USE_SERIES_LOW; } //+------------------------------------------------------------------+ //| Destructor | //+------------------------------------------------------------------+ CSignalAO::~CSignalAO(void) { } //+------------------------------------------------------------------+ //| Create indicators. | //+------------------------------------------------------------------+ bool CSignalAO::InitIndicators(CIndicators *indicators) { //--- check pointer if(indicators==NULL) return(false); //--- initialization of indicators and timeseries of additional filters if(!CExpertSignal::InitIndicators(indicators)) return(false); //--- create and initialize AO indicator if(!InitAO(indicators)) return(false); //--- ok return(true); } //+------------------------------------------------------------------+ //| Initialize AO indicators. | //+------------------------------------------------------------------+ bool CSignalAO::InitAO(CIndicators *indicators) { //--- check pointer if(indicators==NULL) return(false); //--- add object to collection if(!indicators.Add(GetPointer(m_ao))) { printf(__FUNCTION__+": error adding object"); return(false); } //--- initialize object if(!m_ao.Create(m_symbol.Name(),m_period)) { printf(__FUNCTION__+": error initializing object"); return(false); } //--- ok return(true); } //+------------------------------------------------------------------+ //| Check of the indicator state. | //+------------------------------------------------------------------+ int CSignalAO::StateAO(int ind) { int res=0; double var; //--- for(int i=ind;;i++) { if(AO(i+1)==EMPTY_VALUE) break; var=DiffAO(i); if(res>0) { if(var<0) break; res++; continue; } if(res<0) { if(var>0) break; res--; continue; } if(var>0) res++; if(var<0) res--; } //--- return(res); } //+------------------------------------------------------------------+ //| Extended check of the oscillator state consists | //| in forming a bit-map according to certain rules, | //| which shows ratios of extremums of the oscillator and price. | //+------------------------------------------------------------------+ bool CSignalAO::ExtStateAO(int ind) { //--- operation of this method results in a bit-map of extremums //--- practically, the bit-map of extremums is an "array" of 4-bit fields //--- each "element of the array" definitely describes the ratio //--- of current extremums of the oscillator and the price with previous ones //--- purpose of bits of an element of the analyzed bit-map //--- bit 3 - not used (always 0) //--- bit 2 - is equal to 1 if the current extremum of the oscillator is "more extreme" than the previous one //--- (a higher peak or a deeper valley), otherwise - 0 //--- bit 1 - not used (always 0) //--- bit 0 - is equal to 1 if the current extremum of price is "more extreme" than the previous one //--- (a higher peak or a deeper valley), otherwise - 0 //--- in addition to them, the following is formed: //--- array of values of extremums of the oscillator, //--- array of values of price extremums and //--- array of "distances" between extremums of the oscillator (in bars) //--- it should be noted that when using the results of the extended check of state, //--- you should consider, which extremum of the oscillator (peak or valley) //--- is the "reference point" (i.e. was detected first during the analysis) //--- if a peak is detected first then even elements of all arrays //--- will contain information about peaks, and odd elements will contain information about valleys //--- if a valley is detected first, then respectively in reverse int pos=ind,off,index; uint map; // intermediate bit-map for one extremum //--- m_extr_map=0; for(int i=0;i<10;i++) { off=StateAO(pos); if(off>0) { //--- minimum of the oscillator is detected pos+=off; m_extr_pos[i]=pos; m_extr_osc[i]=AO(pos); if(i>1) { m_extr_pr[i]=m_low.MinValue(pos-2,5,index); //--- form the intermediate bit-map map=0; if(m_extr_pr[i-2]1) { m_extr_pr[i]=m_high.MaxValue(pos-2,5,index); //--- form the intermediate bit-map map=0; if(m_extr_pr[i-2]>m_extr_pr[i]) map+=1; // set bit 0 if(m_extr_osc[i-2]>m_extr_osc[i]) map+=4; // set bit 2 //--- add the result m_extr_map+=map<<(4*(i-2)); } else m_extr_pr[i]=m_high.MaxValue(pos-1,4,index); } } //--- return(true); } //+------------------------------------------------------------------+ //| "Voting" that price will grow. | //+------------------------------------------------------------------+ int CSignalAO::LongCondition(void) { int result=0; int idx =StartIndex(); //--- if the first analyzed bar is "red", don't "vote" for buying if(DiffAO(idx)<0.0) return(result); //--- first analyzed bar is "green" (the indicator has no objections to buying) if(IS_PATTERN_USAGE(0)) result=m_pattern_0; if(AO(idx++)>0.0) { //--- first analyzed bar is greater than zero, search for the "saucer" and "crosing of the zero line" signals if(IS_PATTERN_USAGE(1) && DiffAO(idx)<0.0) { //--- the "saucer" signal //--- there is a condition for buying return(m_pattern_1); } if(IS_PATTERN_USAGE(2) && AO(idx)<0.0) { //--- the "crossing of the zero line" signal //--- there is a condition for buying return(m_pattern_2); } } else { //--- first analyzed bar is less than zero, search for the "divergence" signal //--- if the second analyzed bar is "red", the condition for buying may be fulfilled if(IS_PATTERN_USAGE(3) && DiffAO(idx)<0.0) { idx=StartIndex(); //--- search for the "divergence" signal ExtStateAO(idx); if((m_extr_map&0xF)==1) { if(m_extr_osc[0]<0.0 && m_extr_osc[1]<0.0 && m_extr_osc[2]<0.0) { //--- both valleys are below zero, the peak is between them and it hasn't raised above zero //--- we suppose that this is "divergence" return(m_pattern_3); } } } } //--- return the result return(result); } //+------------------------------------------------------------------+ //| "Voting" that price will fall. | //+------------------------------------------------------------------+ int CSignalAO::ShortCondition(void) { int result=0; int idx =StartIndex(); //--- if the first analyzed bar is "green", don't "vote" for selling if(DiffAO(idx)>0.0) return(result); //--- first analyzed bar is "red" (the indicator has no objections to selling) if(IS_PATTERN_USAGE(0)) result=m_pattern_0; if(AO(idx++)<0.0) { //--- first analyzed bar is below zero, search for the "saucer" and "crossing of the zero line" signals if(IS_PATTERN_USAGE(1) && DiffAO(idx)>0.0) { //--- the "saucer" signal //--- there is a condition for buying return(m_pattern_1); } if(IS_PATTERN_USAGE(2) && AO(idx)>0.0) { //--- the "crossing of the zero line" signal //--- there is a condition for buying return(m_pattern_2); } } else { //--- first analyzed bar is above zero, search for the "divergence" signal //--- if the second analyzed bar is "green", the condition for buying may be fulfilled if(IS_PATTERN_USAGE(3) && DiffAO(idx)>0.0) { idx=StartIndex(); //--- search for the "divergence" signal ExtStateAO(idx); if((m_extr_map&0xF)==1) { if(m_extr_osc[0]>0.0 && m_extr_osc[1]>0.0 && m_extr_osc[2]>0.0) { //--- both peaks are above zero and the valley between them hasn't fallen below zero //--- we suppose that this is "divergence" return(m_pattern_3); } } } } //--- return the result return(result); } //+------------------------------------------------------------------+