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GIMMER - The smart way to trade GitHub version

Gimmer is a tool for trade and algorithmic automation for Bitcoin and other cryptocurrencies.

Open Sources for Code Editor

https://github.com/GimmerBot/CodeEditor-Samples

EXCHANGES

  • Binance
  • Poloniex
  • Bitfinex
  • Huobi
  • HitBTC
  • Kraken
  • Others...

FEATURES

  • Spot Trading
  • Margin Trading
  • Binance Futures 125x
  • Scalper
  • Code Editor
  • Mirror Arbitrage
  • Triangular Arbitrage
  • Lending
  • Portfolio
  • Websockets to trade in realtime
  • Backtest and simulation mode
  • Descentralized Marketplace
  • Publish completely decentralized strategies
  • Create different types of plans for rent
  • Do backtests before renting a strategy
  • Rent different strategies from different categories
  • Marketplace search using several different types of filters
  • Access rental strategies from anywhere at any time
  • Vote for the best strategies
  • Access list with all platform traders
  • See trader-specific strategies sorted by popularity
  • You can now execute backtest directly from the strategy screen.
  • Start or stop robot execution directly from strategy list
  • Top frame removal leaving the app with wider view
  • Processor and memory usage displayed in backtest and activity log
  • Improved backtest to get closer to the real market
  • Improved design and background addition on all screens
  • System memory usage optimization

Decentralized dApp

Webserver_UI

Strategy List

Webserver UI

Infinite Backtests

Webserver UI

Strategy Builder

Webserver UI

Api Keys Valt

Webserver UI

Code Editor

Webserver UI

Trader List

Webserver UI

Marketplace

Webserver UI

Marketplace Backtest

Webserver UI

Lending

Webserver UI

Portfolio

Webserver UI

Triangular Arbitrage

Webserver UI

Docs

Webserver UI

INDICATORS

  • ichimoku(historicalData: any[], conversionPeriod: number, basePeriod: number, laggingSpanPeriod: number, displacement?: number): Promise<any[]>;
  • macd(close: number[], fastPeriod: number, slowPeriod: number, signalPeriod: number): Promise<any[]>;
  • rsi(close: number[], length: number): Promise<any[]>;
  • bbands(close: number[], period: number, stdDev: number): Promise<any[]>;
  • ema(close: number[], period: number): Promise<any[]>;
  • hma(close: number[], period: number): Promise<any[]>;
  • wma(close: number[], period: number): Promise<any[]>;
  • stoch(high: number[], low: number[], close: number[], kPeriod: number, kSlowing: number, dPeriod: number): Promise<any[]>;
  • abs(close: number[]): Promise<any[]>;
  • ad(high: number[], low: number[], close: number[], volume: number[]): Promise<any[]>;
  • fisher(high: number[], low: number[], period: number): Promise<any[]>;
  • add(input1: number[], input2: number[]): Promise<any[]>;
  • adosc(high: number[], low: number[], close: number[], volume: number[], short: number, long: number): Promise<any[]>;
  • adx(high: number[], low: number[], close: number[], period: number): Promise<any[]>;
  • adxr(high: number[], low: number[], close: number[], period: number): Promise<any[]>;
  • ao(high: number[], low: number[]): Promise<any[]>;
  • apo(close: number[], short: number, long: number): Promise<any[]>;
  • aroon(high: number[], low: number[], period: number): Promise<any[]>;
  • aroonosc(high: number[], low: number[], period: number): Promise<any[]>;
  • asin(close: number[]): Promise<any[]>;
  • atan(close: number[]): Promise<any[]>;
  • atr(high: number[], low: number[], close: number[], period: number): Promise<any[]>;
  • avgprice(open: number[], high: number[], low: number[], close: number[]): Promise<any[]>;
  • bop(open: number[], high: number[], low: number[], close: number[]): Promise<any[]>;
  • cci(high: number[], low: number[], close: number[], period: number): Promise<any[]>;
  • ceil(close: number[]): Promise<any[]>;
  • cmo(close: number[]): Promise<any[]>;
  • cos(close: number[]): Promise<any[]>;
  • cosh(close: number[]): Promise<any[]>;
  • crossany(input1: number[], input2: number[]): Promise<any[]>;
  • crossover(input1: number[], input2: number[]): Promise<any[]>;
  • cvi(high: number[], low: number[], period: number): Promise<any[]>;
  • decay(close: number[], period: number): Promise<any[]>;
  • dema(close: number[], period: number): Promise<any[]>;
  • di(high: number[], low: number[], close: number[], period: number): Promise<any[]>;
  • div(input1: number[], input2: number[]): Promise<any[]>;
  • dm(high: number[], low: number[], period: number): Promise<any[]>;
  • dpo(close: number[], period: number): Promise<any[]>;
  • dx(high: number[], low: number[], close: number[], period: number): Promise<any[]>;
  • edecay(close: number[], period: number): Promise<any[]>;
  • emv(high: number[], low: number[], volume: number[]): Promise<any[]>;
  • exp(close: number[]): Promise<any[]>;
  • floor(close: number[]): Promise<any[]>;
  • fosc(close: number[], period: number): Promise<any[]>;
  • kama(close: number[], period: number): Promise<any[]>;
  • kvo(high: number[], low: number[], close: number[], volume: number[], short: number, long: number): Promise<any[]>;
  • lag(close: number[], period: number): Promise<any[]>;
  • linreg(close: number[], period: number): Promise<any[]>;
  • linregintercept(close: number[], period: number): Promise<any[]>;
  • linregslope(close: number[], period: number): Promise<any[]>;
  • ln(close: number[]): Promise<any[]>;
  • log10(close: number[]): Promise<any[]>;
  • marketfi(high: number[], low: number[], volume: number[]): Promise<any[]>;
  • mass(high: number[], low: number[], period: number): Promise<any[]>;
  • max(close: number[], period: number): Promise<any[]>;
  • md(close: number[], period: number): Promise<any[]>;
  • medprice(high: number[], low: number[]): Promise<any[]>;
  • mfi(high: number[], low: number[], close: number[], volume: number[], period: number): Promise<any[]>;
  • min(close: number[], period: number): Promise<any[]>;
  • mom(close: number[], period: number): Promise<any[]>;
  • msw(close: number[], period: number): Promise<any[]>;
  • mul(input1: number[], input2: number[]): Promise<any[]>;
  • natr(high: number[], low: number[], close: number[], period: number): Promise<any[]>;
  • nvi(close: number[], volume: number[]): Promise<any[]>;
  • obv(close: number[], volume: number[]): Promise<any[]>;
  • ppo(close: number[], short: number, long: number): Promise<any[]>;
  • psar(high: number[], low: number[], accelerationFactorStep: number, accelerationFactorMaximum: number): Promise<any[]>;
  • pvi(close: number[], volume: number[]): Promise<any[]>;
  • qstick(open: number[], close: number[], period: number): Promise<any[]>;
  • roc(close: number[], period: number): Promise<any[]>;
  • rocr(close: number[], period: number): Promise<any[]>;
  • round(close: number[]): Promise<any[]>;
  • sin(close: number[]): Promise<any[]>;
  • sinh(close: number[]): Promise<any[]>;
  • sma(close: number[], period: number): Promise<any[]>;
  • sqrt(close: number[]): Promise<any[]>;
  • stddev(close: number[], period: number): Promise<any[]>;
  • stderr(close: number[], period: number): Promise<any[]>;
  • stochrsi(close: number[], period: number): Promise<any[]>;
  • sub(input1: number[], input2: number[]): Promise<any[]>;
  • sum(close: number[], period: number): Promise<any[]>;
  • tan(close: number[]): Promise<any[]>;
  • tanh(close: number[]): Promise<any[]>;
  • tema(close: number[], period: number): Promise<any[]>;
  • todeg(close: number[]): Promise<any[]>;
  • torad(close: number[]): Promise<any[]>;
  • tr(high: number[], low: number[], close: number[]): Promise<any[]>;
  • trima(close: number[], period: number): Promise<any[]>;
  • trix(close: number[], period: number): Promise<any[]>;
  • trunc(close: number[]): Promise<any[]>;
  • tsf(close: number[], period: number): Promise<any[]>;
  • typprice(high: number[], low: number[], close: number[]): Promise<any[]>;
  • ultosc(high: number[], low: number[], close: number[], short: number, medium: number, long: number): Promise<any[]>;
  • var(close: number[], period: number): Promise<any[]>;
  • vhf(close: number[], period: number): Promise<any[]>;
  • vidya(close: number[], short: number, long: number, alpha: number): Promise<any[]>;
  • volatility(close: number[], period: number): Promise<any[]>;
  • vosc(volume: number[], short: number, long: number): Promise<any[]>;
  • vwma(close: number[], volume: number[], period: number): Promise<any[]>;
  • wad(high: number[], low: number[], close: number[]): Promise<any[]>;
  • wcprice(high: number[], low: number[], close: number[]): Promise<any[]>;
  • wilders(close: number[], period: number): Promise<any[]>;
  • willr(high: number[], low: number[], close: number[], period: number): Promise<any[]>;
  • zlema(close: number[], period: number): Promise<any[]>;

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Gimmer is a tool for trade and automation in digital currencies.

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