function minimum_rate_from_given_and_base(given_price, buy_price) { return (given_price - 0.5) / buy_price; } function maximum_rate_from_given_and_base(given_price, buy_price) { return (given_price + 0.5) / buy_price; } function* generate_pattern_0_with_lengths(given_prices, high_phase_1_len, dec_phase_1_len, high_phase_2_len, dec_phase_2_len, high_phase_3_len) { /* // PATTERN 0: high, decreasing, high, decreasing, high work = 2; // high phase 1 for (int i = 0; i < hiPhaseLen1; i++) { sellPrices[work++] = intceil(randfloat(0.9, 1.4) * basePrice); } // decreasing phase 1 rate = randfloat(0.8, 0.6); for (int i = 0; i < decPhaseLen1; i++) { sellPrices[work++] = intceil(rate * basePrice); rate -= 0.04; rate -= randfloat(0, 0.06); } // high phase 2 for (int i = 0; i < (hiPhaseLen2and3 - hiPhaseLen3); i++) { sellPrices[work++] = intceil(randfloat(0.9, 1.4) * basePrice); } // decreasing phase 2 rate = randfloat(0.8, 0.6); for (int i = 0; i < decPhaseLen2; i++) { sellPrices[work++] = intceil(rate * basePrice); rate -= 0.04; rate -= randfloat(0, 0.06); } // high phase 3 for (int i = 0; i < hiPhaseLen3; i++) { sellPrices[work++] = intceil(randfloat(0.9, 1.4) * basePrice); } */ buy_price = given_prices[0]; var predicted_prices = [ { min: buy_price, max: buy_price, }, { min: buy_price, max: buy_price, }, ]; // High Phase 1 for (var i = 2; i < 2 + high_phase_1_len; i++) { min_pred = Math.ceil(0.9 * buy_price); max_pred = Math.ceil(1.4 * buy_price); if (!isNaN(given_prices[i])) { if (given_prices[i] < min_pred || given_prices[i] > max_pred ) { // Given price is out of predicted range, so this is the wrong pattern return; } min_pred = given_prices[i]; max_pred = given_prices[i]; } predicted_prices.push({ min: min_pred, max: max_pred, }); } // Dec Phase 1 var min_rate = 0.6; var max_rate = 0.8; for (var i = 2 + high_phase_1_len; i < 2 + high_phase_1_len + dec_phase_1_len; i++) { min_pred = Math.ceil(min_rate * buy_price); max_pred = Math.ceil(max_rate * buy_price); if (!isNaN(given_prices[i])) { if (given_prices[i] < min_pred || given_prices[i] > max_pred ) { // Given price is out of predicted range, so this is the wrong pattern return; } min_pred = given_prices[i]; max_pred = given_prices[i]; min_rate = minimum_rate_from_given_and_base(given_prices[i], buy_price); max_rate = maximum_rate_from_given_and_base(given_prices[i], buy_price); } predicted_prices.push({ min: min_pred, max: max_pred, }); min_rate -= 0.1; max_rate -= 0.04; } // High Phase 2 for (var i = 2 + high_phase_1_len + dec_phase_1_len; i < 2 + high_phase_1_len + dec_phase_1_len + high_phase_2_len; i++) { min_pred = Math.ceil(0.9 * buy_price); max_pred = Math.ceil(1.4 * buy_price); if (!isNaN(given_prices[i])) { if (given_prices[i] < min_pred || given_prices[i] > max_pred ) { // Given price is out of predicted range, so this is the wrong pattern return; } min_pred = given_prices[i]; max_pred = given_prices[i]; } predicted_prices.push({ min: min_pred, max: max_pred, }); } // Dec Phase 2 var min_rate = 0.6; var max_rate = 0.8; for (var i = 2 + high_phase_1_len + dec_phase_1_len + high_phase_2_len; i < 2 + high_phase_1_len + dec_phase_1_len + high_phase_2_len + dec_phase_2_len; i++) { min_pred = Math.ceil(min_rate * buy_price); max_pred = Math.ceil(max_rate * buy_price); if (!isNaN(given_prices[i])) { if (given_prices[i] < min_pred || given_prices[i] > max_pred ) { // Given price is out of predicted range, so this is the wrong pattern return; } min_pred = given_prices[i]; max_pred = given_prices[i]; min_rate = minimum_rate_from_given_and_base(given_prices[i], buy_price); max_rate = maximum_rate_from_given_and_base(given_prices[i], buy_price); } predicted_prices.push({ min: min_pred, max: max_pred, }); min_rate -= 0.1; max_rate -= 0.04; } // High Phase 3 if (2 + high_phase_1_len + dec_phase_1_len + high_phase_2_len + dec_phase_2_len + high_phase_3_len != 14) { throw new Error("Phase lengths don't add up"); } for (var i = 2 + high_phase_1_len + dec_phase_1_len + high_phase_2_len + dec_phase_2_len; i < 14; i++) { min_pred = Math.ceil(0.9 * buy_price); max_pred = Math.ceil(1.4 * buy_price); if (!isNaN(given_prices[i])) { if (given_prices[i] < min_pred || given_prices[i] > max_pred ) { // Given price is out of predicted range, so this is the wrong pattern return; } min_pred = given_prices[i]; max_pred = given_prices[i]; } predicted_prices.push({ min: min_pred, max: max_pred, }); } yield { pattern_description: "high, decreasing, high, decreasing, high", pattern_number: 0, prices: predicted_prices }; } function* generate_pattern_0(given_prices) { /* decPhaseLen1 = randbool() ? 3 : 2; decPhaseLen2 = 5 - decPhaseLen1; hiPhaseLen1 = randint(0, 6); hiPhaseLen2and3 = 7 - hiPhaseLen1; hiPhaseLen3 = randint(0, hiPhaseLen2and3 - 1); */ for (var dec_phase_1_len = 2; dec_phase_1_len < 4; dec_phase_1_len++) { for (var high_phase_1_len = 0; high_phase_1_len < 7; high_phase_1_len++) { for (var high_phase_3_len = 0; high_phase_3_len < (7 - high_phase_1_len - 1 + 1); high_phase_3_len++) { yield* generate_pattern_0_with_lengths(given_prices, high_phase_1_len, dec_phase_1_len, 7 - high_phase_1_len - high_phase_3_len, 5 - dec_phase_1_len, high_phase_3_len); } } } } function* generate_pattern_1_with_peak(given_prices, peak_start) { /* // PATTERN 1: decreasing middle, high spike, random low peakStart = randint(3, 9); rate = randfloat(0.9, 0.85); for (work = 2; work < peakStart; work++) { sellPrices[work] = intceil(rate * basePrice); rate -= 0.03; rate -= randfloat(0, 0.02); } sellPrices[work++] = intceil(randfloat(0.9, 1.4) * basePrice); sellPrices[work++] = intceil(randfloat(1.4, 2.0) * basePrice); sellPrices[work++] = intceil(randfloat(2.0, 6.0) * basePrice); sellPrices[work++] = intceil(randfloat(1.4, 2.0) * basePrice); sellPrices[work++] = intceil(randfloat(0.9, 1.4) * basePrice); for (; work < 14; work++) { sellPrices[work] = intceil(randfloat(0.4, 0.9) * basePrice); } */ buy_price = given_prices[0]; var predicted_prices = [ { min: buy_price, max: buy_price, }, { min: buy_price, max: buy_price, }, ]; var min_rate = 0.85; var max_rate = 0.9; for (var i = 2; i < peak_start; i++) { min_pred = Math.ceil(min_rate * buy_price); max_pred = Math.ceil(max_rate * buy_price); if (!isNaN(given_prices[i])) { if (given_prices[i] < min_pred || given_prices[i] > max_pred ) { // Given price is out of predicted range, so this is the wrong pattern return; } min_pred = given_prices[i]; max_pred = given_prices[i]; min_rate = minimum_rate_from_given_and_base(given_prices[i], buy_price); max_rate = maximum_rate_from_given_and_base(given_prices[i], buy_price); } predicted_prices.push({ min: min_pred, max: max_pred, }); min_rate -= 0.05; max_rate -= 0.03; } // Now each day is independent of next min_randoms = [0.9, 1.4, 2.0, 1.4, 0.9, 0.4, 0.4, 0.4, 0.4, 0.4, 0.4] max_randoms = [1.4, 2.0, 6.0, 2.0, 1.4, 0.9, 0.9, 0.9, 0.9, 0.9, 0.9] for (var i = peak_start; i < 14; i++) { min_pred = Math.ceil(min_randoms[i - peak_start] * buy_price); max_pred = Math.ceil(max_randoms[i - peak_start] * buy_price); if (!isNaN(given_prices[i])) { if (given_prices[i] < min_pred || given_prices[i] > max_pred ) { // Given price is out of predicted range, so this is the wrong pattern return; } min_pred = given_prices[i]; max_pred = given_prices[i]; } predicted_prices.push({ min: min_pred, max: max_pred, }); } yield { pattern_description: "decreasing, high spike, random lows", pattern_number: 1, prices: predicted_prices }; } function* generate_pattern_1(given_prices) { for (var peak_start = 3; peak_start < 10; peak_start++) { yield* generate_pattern_1_with_peak(given_prices, peak_start); } } function* generate_pattern_2(given_prices) { /* // PATTERN 2: consistently decreasing rate = 0.9; rate -= randfloat(0, 0.05); for (work = 2; work < 14; work++) { sellPrices[work] = intceil(rate * basePrice); rate -= 0.03; rate -= randfloat(0, 0.02); } break; */ buy_price = given_prices[0]; var predicted_prices = [ { min: buy_price, max: buy_price, }, { min: buy_price, max: buy_price, }, ]; var min_rate = 0.85; var max_rate = 0.9; for (var i = 2; i < 14; i++) { min_pred = Math.ceil(min_rate * buy_price); max_pred = Math.ceil(max_rate * buy_price); if (!isNaN(given_prices[i])) { if (given_prices[i] < min_pred || given_prices[i] > max_pred ) { // Given price is out of predicted range, so this is the wrong pattern return; } min_pred = given_prices[i]; max_pred = given_prices[i]; min_rate = minimum_rate_from_given_and_base(given_prices[i], buy_price); max_rate = maximum_rate_from_given_and_base(given_prices[i], buy_price); } predicted_prices.push({ min: min_pred, max: max_pred, }); min_rate -= 0.05; max_rate -= 0.03; } yield { pattern_description: "always decreasing", pattern_number: 2, prices: predicted_prices }; } function* generate_pattern_3_with_peak(given_prices, peak_start) { /* // PATTERN 3: decreasing, spike, decreasing peakStart = randint(2, 9); // decreasing phase before the peak rate = randfloat(0.9, 0.4); for (work = 2; work < peakStart; work++) { sellPrices[work] = intceil(rate * basePrice); rate -= 0.03; rate -= randfloat(0, 0.02); } sellPrices[work++] = intceil(randfloat(0.9, 1.4) * (float)basePrice); sellPrices[work++] = intceil(randfloat(0.9, 1.4) * basePrice); rate = randfloat(1.4, 2.0); sellPrices[work++] = intceil(randfloat(1.4, rate) * basePrice) - 1; sellPrices[work++] = intceil(rate * basePrice); sellPrices[work++] = intceil(randfloat(1.4, rate) * basePrice) - 1; // decreasing phase after the peak if (work < 14) { rate = randfloat(0.9, 0.4); for (; work < 14; work++) { sellPrices[work] = intceil(rate * basePrice); rate -= 0.03; rate -= randfloat(0, 0.02); } } */ buy_price = given_prices[0]; var predicted_prices = [ { min: buy_price, max: buy_price, }, { min: buy_price, max: buy_price, }, ]; var min_rate = 0.4; var max_rate = 0.9; for (var i = 2; i < peak_start; i++) { min_pred = Math.ceil(min_rate * buy_price); max_pred = Math.ceil(max_rate * buy_price); if (!isNaN(given_prices[i])) { if (given_prices[i] < min_pred || given_prices[i] > max_pred ) { // Given price is out of predicted range, so this is the wrong pattern return; } min_pred = given_prices[i]; max_pred = given_prices[i]; min_rate = minimum_rate_from_given_and_base(given_prices[i], buy_price); max_rate = maximum_rate_from_given_and_base(given_prices[i], buy_price); } predicted_prices.push({ min: min_pred, max: max_pred, }); min_rate -= 0.05; max_rate -= 0.03; } // The peak for (var i = peak_start; i < peak_start+2; i++) { min_pred = Math.ceil(0.9 * buy_price); max_pred = Math.ceil(1.4 * buy_price); if (!isNaN(given_prices[i])) { if (given_prices[i] < min_pred || given_prices[i] > max_pred ) { // Given price is out of predicted range, so this is the wrong pattern return; } min_pred = given_prices[i]; max_pred = given_prices[i]; } predicted_prices.push({ min: min_pred, max: max_pred, }); } // TODO this could be made more accurate, I've not bothered with the -1s, or forward/backward calculating of the rate each side of the peak value for (var i = peak_start+2; i < peak_start+5; i++) { min_pred = Math.ceil(1.4 * buy_price); max_pred = Math.ceil(2.0 * buy_price); if (!isNaN(given_prices[i])) { if (given_prices[i] < min_pred || given_prices[i] > max_pred ) { // Given price is out of predicted range, so this is the wrong pattern return; } min_pred = given_prices[i]; max_pred = given_prices[i]; } predicted_prices.push({ min: min_pred, max: max_pred, }); } if (peak_start+5 < 14) { var min_rate = 0.4; var max_rate = 0.9; for (var i = peak_start+5; i < 14; i++) { min_pred = Math.ceil(min_rate * buy_price); max_pred = Math.ceil(max_rate * buy_price); if (!isNaN(given_prices[i])) { if (given_prices[i] < min_pred || given_prices[i] > max_pred ) { // Given price is out of predicted range, so this is the wrong pattern return; } min_pred = given_prices[i]; max_pred = given_prices[i]; min_rate = minimum_rate_from_given_and_base(given_prices[i], buy_price); max_rate = maximum_rate_from_given_and_base(given_prices[i], buy_price); } predicted_prices.push({ min: min_pred, max: max_pred, }); min_rate -= 0.05; max_rate -= 0.03; } } yield { pattern_description: "decreasing, spike, decreasing", pattern_number: 3, prices: predicted_prices }; } function* generate_pattern_3(given_prices) { for (var peak_start = 2; peak_start < 10; peak_start++) { yield* generate_pattern_3_with_peak(given_prices, peak_start); } } function* generate_possibilities(sell_prices) { yield* generate_pattern_0(sell_prices); yield* generate_pattern_1(sell_prices); yield* generate_pattern_2(sell_prices); yield* generate_pattern_3(sell_prices); } $(document).on("input", function() { // Update output on any input change var buy_price = parseInt($("#buy").val()); var sell_prices = [buy_price, buy_price]; for (var i = 2; i < 14; i++) { sell_prices.push(parseInt($("#sell_" + i).val())); } var output_possibilities = ""; for (let poss of generate_possibilities(sell_prices)) { var out_line = "