Library "TA"
General technical analysis functions
div_bull(pS, iS, cp_length_after, cp_length_before, pivot_length, lookback, no_broken, pW, iW, hidW, regW)
Test for bullish divergence
Parameters:
pS: Price series (float)
iS: Indicator series (float)
cp_length_after: Bars after current (divergent) pivot low to be considered a valid pivot (optional int)
cp_length_before: Bars before current (divergent) pivot low to be considered a valid pivot (optional int)
pivot_length: Bars before and after prior pivot low to be considered valid pivot (optional int)
lookback: Bars back to search for prior pivot low (optional int)
no_broken: Flag to only consider divergence valid if the pivot-to-pivot trendline is unbroken (optional bool)
pW: Weight of change in price, used in degree of divergence calculation (optional float)
iW: Weight of change in indicator, used in degree of divergence calculation (optional float)
hidW: Weight of hidden divergence, used in degree of divergence calculation (optional float)
regW: Weight of regular divergence, used in degree of divergence calculation (optional float)
Returns:
flag = true if divergence exists (bool)
degree = degree (strength) of divergence (float)
type = 1 = regular, 2 = hidden (int)
lx1 = x coordinate 1 (int)
ly1 = y coordinate 1 (float)
lx2 = x coordinate 2 (int)
ly2 = y coordinate 2 (float)
div_bear(pS, iS, cp_length_after, cp_length_before, pivot_length, lookback, no_broken, pW, iW, hidW, regW)
Test for bearish divergence
Parameters:
pS: Price series (float)
iS: Indicator series (float)
cp_length_after: Bars after current (divergent) pivot high to be considered a valid pivot (optional int)
cp_length_before: Bars before current (divergent) pivot highto be considered a valid pivot (optional int)
pivot_length: Bars before and after prior pivot high to be considered valid pivot (optional int)
lookback: Bars back to search for prior pivot high (optional int)
no_broken: Flag to only consider divergence valid if the pivot-to-pivot trendline is unbroken (optional bool)
pW: Weight of change in price, used in degree of divergence calculation (optional float)
iW: Weight of change in indicator, used in degree of divergence calculation (optional float)
hidW: Weight of hidden divergence, used in degree of divergence calculation (optional float)
regW: Weight of regular divergence, used in degree of divergence calculation (optional float)
Returns:
flag = true if divergence exists (bool)
degree = degree (strength) of divergence (float)
type = 1 = regular, 2 = hidden (int)
lx1 = x coordinate 1 (int)
ly1 = y coordinate 1 (float)
lx2 = x coordinate 2 (int)
ly2 = y coordinate 2 (float)
General technical analysis functions
div_bull(pS, iS, cp_length_after, cp_length_before, pivot_length, lookback, no_broken, pW, iW, hidW, regW)
Test for bullish divergence
Parameters:
pS: Price series (float)
iS: Indicator series (float)
cp_length_after: Bars after current (divergent) pivot low to be considered a valid pivot (optional int)
cp_length_before: Bars before current (divergent) pivot low to be considered a valid pivot (optional int)
pivot_length: Bars before and after prior pivot low to be considered valid pivot (optional int)
lookback: Bars back to search for prior pivot low (optional int)
no_broken: Flag to only consider divergence valid if the pivot-to-pivot trendline is unbroken (optional bool)
pW: Weight of change in price, used in degree of divergence calculation (optional float)
iW: Weight of change in indicator, used in degree of divergence calculation (optional float)
hidW: Weight of hidden divergence, used in degree of divergence calculation (optional float)
regW: Weight of regular divergence, used in degree of divergence calculation (optional float)
Returns:
flag = true if divergence exists (bool)
degree = degree (strength) of divergence (float)
type = 1 = regular, 2 = hidden (int)
lx1 = x coordinate 1 (int)
ly1 = y coordinate 1 (float)
lx2 = x coordinate 2 (int)
ly2 = y coordinate 2 (float)
div_bear(pS, iS, cp_length_after, cp_length_before, pivot_length, lookback, no_broken, pW, iW, hidW, regW)
Test for bearish divergence
Parameters:
pS: Price series (float)
iS: Indicator series (float)
cp_length_after: Bars after current (divergent) pivot high to be considered a valid pivot (optional int)
cp_length_before: Bars before current (divergent) pivot highto be considered a valid pivot (optional int)
pivot_length: Bars before and after prior pivot high to be considered valid pivot (optional int)
lookback: Bars back to search for prior pivot high (optional int)
no_broken: Flag to only consider divergence valid if the pivot-to-pivot trendline is unbroken (optional bool)
pW: Weight of change in price, used in degree of divergence calculation (optional float)
iW: Weight of change in indicator, used in degree of divergence calculation (optional float)
hidW: Weight of hidden divergence, used in degree of divergence calculation (optional float)
regW: Weight of regular divergence, used in degree of divergence calculation (optional float)
Returns:
flag = true if divergence exists (bool)
degree = degree (strength) of divergence (float)
type = 1 = regular, 2 = hidden (int)
lx1 = x coordinate 1 (int)
ly1 = y coordinate 1 (float)
lx2 = x coordinate 2 (int)
ly2 = y coordinate 2 (float)
發布通知:
v2
Return absolute value of degree to handle series with negative values.
Return absolute value of degree to handle series with negative values.
發布通知:
v3
- Added support for lookback # of pivots for div_bull() and div_bear()
- Fixed divergence degree calculation when indicator series has negative values
- Changed default pivot lengths for div_bull() and div_bear()
Updated:
div_bull(pS, iS, cp_length_after, cp_length_before, pivot_length, lookback, lookback_pivs, no_broken, pW, iW, hidW, regW)
Test for bullish divergence
Parameters:
pS: Price series (float)
iS: Indicator series (float)
cp_length_after: Bars after current (divergent) pivot low to be considered a valid pivot (optional int)
cp_length_before: Bars before current (divergent) pivot low to be considered a valid pivot (optional int)
pivot_length: Bars before and after prior pivot low to be considered valid pivot (optional int)
lookback: Bars back to search for prior pivot low (optional int)
lookback_pivs: Pivots back to search for prior pivot low (optional int)
no_broken: Flag to only consider divergence valid if the pivot-to-pivot trendline is unbroken (optional bool)
pW: Weight of change in price, used in degree of divergence calculation (optional float)
iW: Weight of change in indicator, used in degree of divergence calculation (optional float)
hidW: Weight of hidden divergence, used in degree of divergence calculation (optional float)
regW: Weight of regular divergence, used in degree of divergence calculation (optional float)
Returns:
flag = true if divergence exists (bool)
degree = degree (strength) of divergence (float)
type = 1 = regular, 2 = hidden (int)
lx1 = x coordinate 1 (int)
ly1 = y coordinate 1 (float)
lx2 = x coordinate 2 (int)
ly2 = y coordinate 2 (float)
div_bear(pS, iS, cp_length_after, cp_length_before, pivot_length, lookback, lookback_pivs, no_broken, pW, iW, hidW, regW)
Test for bearish divergence
Parameters:
pS: Price series (float)
iS: Indicator series (float)
cp_length_after: Bars after current (divergent) pivot high to be considered a valid pivot (optional int)
cp_length_before: Bars before current (divergent) pivot highto be considered a valid pivot (optional int)
pivot_length: Bars before and after prior pivot high to be considered valid pivot (optional int)
lookback: Bars back to search for prior pivot high (optional int)
lookback_pivs: Pivots back to search for prior pivot high (optional int)
no_broken: Flag to only consider divergence valid if the pivot-to-pivot trendline is unbroken (optional bool)
pW: Weight of change in price, used in degree of divergence calculation (optional float)
iW: Weight of change in indicator, used in degree of divergence calculation (optional float)
hidW: Weight of hidden divergence, used in degree of divergence calculation (optional float)
regW: Weight of regular divergence, used in degree of divergence calculation (optional float)
Returns:
flag = true if divergence exists (bool)
degree = degree (strength) of divergence (float)
type = 1 = regular, 2 = hidden (int)
lx1 = x coordinate 1 (int)
ly1 = y coordinate 1 (float)
lx2 = x coordinate 2 (int)
ly2 = y coordinate 2 (float)
- Added support for lookback # of pivots for div_bull() and div_bear()
- Fixed divergence degree calculation when indicator series has negative values
- Changed default pivot lengths for div_bull() and div_bear()
Updated:
div_bull(pS, iS, cp_length_after, cp_length_before, pivot_length, lookback, lookback_pivs, no_broken, pW, iW, hidW, regW)
Test for bullish divergence
Parameters:
pS: Price series (float)
iS: Indicator series (float)
cp_length_after: Bars after current (divergent) pivot low to be considered a valid pivot (optional int)
cp_length_before: Bars before current (divergent) pivot low to be considered a valid pivot (optional int)
pivot_length: Bars before and after prior pivot low to be considered valid pivot (optional int)
lookback: Bars back to search for prior pivot low (optional int)
lookback_pivs: Pivots back to search for prior pivot low (optional int)
no_broken: Flag to only consider divergence valid if the pivot-to-pivot trendline is unbroken (optional bool)
pW: Weight of change in price, used in degree of divergence calculation (optional float)
iW: Weight of change in indicator, used in degree of divergence calculation (optional float)
hidW: Weight of hidden divergence, used in degree of divergence calculation (optional float)
regW: Weight of regular divergence, used in degree of divergence calculation (optional float)
Returns:
flag = true if divergence exists (bool)
degree = degree (strength) of divergence (float)
type = 1 = regular, 2 = hidden (int)
lx1 = x coordinate 1 (int)
ly1 = y coordinate 1 (float)
lx2 = x coordinate 2 (int)
ly2 = y coordinate 2 (float)
div_bear(pS, iS, cp_length_after, cp_length_before, pivot_length, lookback, lookback_pivs, no_broken, pW, iW, hidW, regW)
Test for bearish divergence
Parameters:
pS: Price series (float)
iS: Indicator series (float)
cp_length_after: Bars after current (divergent) pivot high to be considered a valid pivot (optional int)
cp_length_before: Bars before current (divergent) pivot highto be considered a valid pivot (optional int)
pivot_length: Bars before and after prior pivot high to be considered valid pivot (optional int)
lookback: Bars back to search for prior pivot high (optional int)
lookback_pivs: Pivots back to search for prior pivot high (optional int)
no_broken: Flag to only consider divergence valid if the pivot-to-pivot trendline is unbroken (optional bool)
pW: Weight of change in price, used in degree of divergence calculation (optional float)
iW: Weight of change in indicator, used in degree of divergence calculation (optional float)
hidW: Weight of hidden divergence, used in degree of divergence calculation (optional float)
regW: Weight of regular divergence, used in degree of divergence calculation (optional float)
Returns:
flag = true if divergence exists (bool)
degree = degree (strength) of divergence (float)
type = 1 = regular, 2 = hidden (int)
lx1 = x coordinate 1 (int)
ly1 = y coordinate 1 (float)
lx2 = x coordinate 2 (int)
ly2 = y coordinate 2 (float)
發布通知:
v4
Changed divergence strength/degree calculation to use the angle of the divergence line divided by 90 degrees (as opposed to the % change in the indicator value). This will keep the unweighted strength value between 0 and 1 for the indicator portion of the calculation, which is desirable because different indicator series can have wildly different ranges.
Changed divergence strength/degree calculation to use the angle of the divergence line divided by 90 degrees (as opposed to the % change in the indicator value). This will keep the unweighted strength value between 0 and 1 for the indicator portion of the calculation, which is desirable because different indicator series can have wildly different ranges.
發布通知:
v5
Added chk_prev_bar flag as an argument to the divergence checks, which will check for divergence using the indicator value from the prior bar. This is necessary in some cases where the indicator is using a different price source than the one passed into the divergence function.
Updated:
div_bull(pS, iS, chk_prev_bar, cp_length_after, cp_length_before, pivot_length, lookback, lookback_pivs, no_broken, pW, iW, hidW, regW)
Test for bullish divergence
Parameters:
pS: Price series (float)
iS: Indicator series (float)
chk_prev_bar: Flag to check for divergence using the indicator value from the prior bar. This is necessary in some cases where the indicator is using a different price source than the one passed in pS.
cp_length_after: Bars after current (divergent) pivot low to be considered a valid pivot (optional int)
cp_length_before: Bars before current (divergent) pivot low to be considered a valid pivot (optional int)
pivot_length: Bars before and after prior pivot low to be considered valid pivot (optional int)
lookback: Bars back to search for prior pivot low (optional int)
lookback_pivs: Pivots back to search for prior pivot low (optional int)
no_broken: Flag to only consider divergence valid if the pivot-to-pivot trendline is unbroken (optional bool)
pW: Weight of change in price, used in degree of divergence calculation (optional float)
iW: Weight of change in indicator, used in degree of divergence calculation (optional float)
hidW: Weight of hidden divergence, used in degree of divergence calculation (optional float)
regW: Weight of regular divergence, used in degree of divergence calculation (optional float)
Returns:
flag = true if divergence exists (bool)
degree = degree (strength) of divergence (float)
type = 1 = regular, 2 = hidden (int)
lx1 = x coordinate 1 (int)
ly1 = y coordinate 1 (float)
lx2 = x coordinate 2 (int)
ly2 = y coordinate 2 (float)
div_bear(pS, iS, chk_prev_bar, cp_length_after, cp_length_before, pivot_length, lookback, lookback_pivs, no_broken, pW, iW, hidW, regW)
Test for bearish divergence
Parameters:
pS: Price series (float)
iS: Indicator series (float)
chk_prev_bar: Flag to check for divergence using the indicator value from the prior bar. This is necessary in some cases where the indicator is using a different price source than the one passed in pS.
cp_length_after: Bars after current (divergent) pivot high to be considered a valid pivot (optional int)
cp_length_before: Bars before current (divergent) pivot highto be considered a valid pivot (optional int)
pivot_length: Bars before and after prior pivot high to be considered valid pivot (optional int)
lookback: Bars back to search for prior pivot high (optional int)
lookback_pivs: Pivots back to search for prior pivot high (optional int)
no_broken: Flag to only consider divergence valid if the pivot-to-pivot trendline is unbroken (optional bool)
pW: Weight of change in price, used in degree of divergence calculation (optional float)
iW: Weight of change in indicator, used in degree of divergence calculation (optional float)
hidW: Weight of hidden divergence, used in degree of divergence calculation (optional float)
regW: Weight of regular divergence, used in degree of divergence calculation (optional float)
Returns:
flag = true if divergence exists (bool)
degree = degree (strength) of divergence (float)
type = 1 = regular, 2 = hidden (int)
lx1 = x coordinate 1 (int)
ly1 = y coordinate 1 (float)
lx2 = x coordinate 2 (int)
ly2 = y coordinate 2 (float)
Added chk_prev_bar flag as an argument to the divergence checks, which will check for divergence using the indicator value from the prior bar. This is necessary in some cases where the indicator is using a different price source than the one passed into the divergence function.
Updated:
div_bull(pS, iS, chk_prev_bar, cp_length_after, cp_length_before, pivot_length, lookback, lookback_pivs, no_broken, pW, iW, hidW, regW)
Test for bullish divergence
Parameters:
pS: Price series (float)
iS: Indicator series (float)
chk_prev_bar: Flag to check for divergence using the indicator value from the prior bar. This is necessary in some cases where the indicator is using a different price source than the one passed in pS.
cp_length_after: Bars after current (divergent) pivot low to be considered a valid pivot (optional int)
cp_length_before: Bars before current (divergent) pivot low to be considered a valid pivot (optional int)
pivot_length: Bars before and after prior pivot low to be considered valid pivot (optional int)
lookback: Bars back to search for prior pivot low (optional int)
lookback_pivs: Pivots back to search for prior pivot low (optional int)
no_broken: Flag to only consider divergence valid if the pivot-to-pivot trendline is unbroken (optional bool)
pW: Weight of change in price, used in degree of divergence calculation (optional float)
iW: Weight of change in indicator, used in degree of divergence calculation (optional float)
hidW: Weight of hidden divergence, used in degree of divergence calculation (optional float)
regW: Weight of regular divergence, used in degree of divergence calculation (optional float)
Returns:
flag = true if divergence exists (bool)
degree = degree (strength) of divergence (float)
type = 1 = regular, 2 = hidden (int)
lx1 = x coordinate 1 (int)
ly1 = y coordinate 1 (float)
lx2 = x coordinate 2 (int)
ly2 = y coordinate 2 (float)
div_bear(pS, iS, chk_prev_bar, cp_length_after, cp_length_before, pivot_length, lookback, lookback_pivs, no_broken, pW, iW, hidW, regW)
Test for bearish divergence
Parameters:
pS: Price series (float)
iS: Indicator series (float)
chk_prev_bar: Flag to check for divergence using the indicator value from the prior bar. This is necessary in some cases where the indicator is using a different price source than the one passed in pS.
cp_length_after: Bars after current (divergent) pivot high to be considered a valid pivot (optional int)
cp_length_before: Bars before current (divergent) pivot highto be considered a valid pivot (optional int)
pivot_length: Bars before and after prior pivot high to be considered valid pivot (optional int)
lookback: Bars back to search for prior pivot high (optional int)
lookback_pivs: Pivots back to search for prior pivot high (optional int)
no_broken: Flag to only consider divergence valid if the pivot-to-pivot trendline is unbroken (optional bool)
pW: Weight of change in price, used in degree of divergence calculation (optional float)
iW: Weight of change in indicator, used in degree of divergence calculation (optional float)
hidW: Weight of hidden divergence, used in degree of divergence calculation (optional float)
regW: Weight of regular divergence, used in degree of divergence calculation (optional float)
Returns:
flag = true if divergence exists (bool)
degree = degree (strength) of divergence (float)
type = 1 = regular, 2 = hidden (int)
lx1 = x coordinate 1 (int)
ly1 = y coordinate 1 (float)
lx2 = x coordinate 2 (int)
ly2 = y coordinate 2 (float)
發布通知:
v6
When calculating the divergence strength on an indicator, Scale the X coordinates to a range similar to the Y scale (X and Y scales should be on the same order of magnitude for the angle value to be meaningful. e.g. if ΔY is 10,000,000 and ΔX is 12, the angle will always be very nearly 90 degrees, which makes for a meaningless value)
When calculating the divergence strength on an indicator, Scale the X coordinates to a range similar to the Y scale (X and Y scales should be on the same order of magnitude for the angle value to be meaningful. e.g. if ΔY is 10,000,000 and ΔX is 12, the angle will always be very nearly 90 degrees, which makes for a meaningless value)
發布通知:
v7
Adjusted multiplier in iDelta() to use the average Y value rather than the difference of the two Y values.
Adjusted multiplier in iDelta() to use the average Y value rather than the difference of the two Y values.
發布通知:
v8
Now calculating divergence strength in terms of the standard deviation.
= Δ price/StDev + Δ indicator/stDev (multiplied by specified weights)
Now calculating divergence strength in terms of the standard deviation.
= Δ price/StDev + Δ indicator/stDev (multiplied by specified weights)
發布通知:
v9
發布通知:
v10
Changes to check more thoroughly for pivots on indicator series.
Updated:
div_bull(pS, iS, cp_length_after, cp_length_before, pivot_length, lookback, lookback_pivs, no_broken, pW, iW, hidW, regW)
Test for bullish divergence
Parameters:
pS: Price series (float)
iS: Indicator series (float)
cp_length_after: Bars after current (divergent) pivot low to be considered a valid pivot (optional int)
cp_length_before: Bars before current (divergent) pivot low to be considered a valid pivot (optional int)
pivot_length: Bars before and after prior pivot low to be considered valid pivot (optional int)
lookback: Bars back to search for prior pivot low (optional int)
lookback_pivs: Pivots back to search for prior pivot low (optional int)
no_broken: Flag to only consider divergence valid if the pivot-to-pivot trendline is unbroken (optional bool)
pW: Weight of change in price, used in degree of divergence calculation (optional float)
iW: Weight of change in indicator, used in degree of divergence calculation (optional float)
hidW: Weight of hidden divergence, used in degree of divergence calculation (optional float)
regW: Weight of regular divergence, used in degree of divergence calculation (optional float)
Returns:
flag = true if divergence exists (bool)
degree = degree (strength) of divergence (float)
type = 1 = regular, 2 = hidden (int)
lx1 = x coordinate 1 (int)
ly1 = y coordinate 1 (float)
lx2 = x coordinate 2 (int)
ly2 = y coordinate 2 (float)
div_bear(pS, iS, cp_length_after, cp_length_before, pivot_length, lookback, lookback_pivs, no_broken, pW, iW, hidW, regW)
Test for bearish divergence
Parameters:
pS: Price series (float)
iS: Indicator series (float)
cp_length_after: Bars after current (divergent) pivot high to be considered a valid pivot (optional int)
cp_length_before: Bars before current (divergent) pivot highto be considered a valid pivot (optional int)
pivot_length: Bars before and after prior pivot high to be considered valid pivot (optional int)
lookback: Bars back to search for prior pivot high (optional int)
lookback_pivs: Pivots back to search for prior pivot high (optional int)
no_broken: Flag to only consider divergence valid if the pivot-to-pivot trendline is unbroken (optional bool)
pW: Weight of change in price, used in degree of divergence calculation (optional float)
iW: Weight of change in indicator, used in degree of divergence calculation (optional float)
hidW: Weight of hidden divergence, used in degree of divergence calculation (optional float)
regW: Weight of regular divergence, used in degree of divergence calculation (optional float)
Returns:
flag = true if divergence exists (bool)
degree = degree (strength) of divergence (float)
type = 1 = regular, 2 = hidden (int)
lx1 = x coordinate 1 (int)
ly1 = y coordinate 1 (float)
lx2 = x coordinate 2 (int)
ly2 = y coordinate 2 (float)
Changes to check more thoroughly for pivots on indicator series.
Updated:
div_bull(pS, iS, cp_length_after, cp_length_before, pivot_length, lookback, lookback_pivs, no_broken, pW, iW, hidW, regW)
Test for bullish divergence
Parameters:
pS: Price series (float)
iS: Indicator series (float)
cp_length_after: Bars after current (divergent) pivot low to be considered a valid pivot (optional int)
cp_length_before: Bars before current (divergent) pivot low to be considered a valid pivot (optional int)
pivot_length: Bars before and after prior pivot low to be considered valid pivot (optional int)
lookback: Bars back to search for prior pivot low (optional int)
lookback_pivs: Pivots back to search for prior pivot low (optional int)
no_broken: Flag to only consider divergence valid if the pivot-to-pivot trendline is unbroken (optional bool)
pW: Weight of change in price, used in degree of divergence calculation (optional float)
iW: Weight of change in indicator, used in degree of divergence calculation (optional float)
hidW: Weight of hidden divergence, used in degree of divergence calculation (optional float)
regW: Weight of regular divergence, used in degree of divergence calculation (optional float)
Returns:
flag = true if divergence exists (bool)
degree = degree (strength) of divergence (float)
type = 1 = regular, 2 = hidden (int)
lx1 = x coordinate 1 (int)
ly1 = y coordinate 1 (float)
lx2 = x coordinate 2 (int)
ly2 = y coordinate 2 (float)
div_bear(pS, iS, cp_length_after, cp_length_before, pivot_length, lookback, lookback_pivs, no_broken, pW, iW, hidW, regW)
Test for bearish divergence
Parameters:
pS: Price series (float)
iS: Indicator series (float)
cp_length_after: Bars after current (divergent) pivot high to be considered a valid pivot (optional int)
cp_length_before: Bars before current (divergent) pivot highto be considered a valid pivot (optional int)
pivot_length: Bars before and after prior pivot high to be considered valid pivot (optional int)
lookback: Bars back to search for prior pivot high (optional int)
lookback_pivs: Pivots back to search for prior pivot high (optional int)
no_broken: Flag to only consider divergence valid if the pivot-to-pivot trendline is unbroken (optional bool)
pW: Weight of change in price, used in degree of divergence calculation (optional float)
iW: Weight of change in indicator, used in degree of divergence calculation (optional float)
hidW: Weight of hidden divergence, used in degree of divergence calculation (optional float)
regW: Weight of regular divergence, used in degree of divergence calculation (optional float)
Returns:
flag = true if divergence exists (bool)
degree = degree (strength) of divergence (float)
type = 1 = regular, 2 = hidden (int)
lx1 = x coordinate 1 (int)
ly1 = y coordinate 1 (float)
lx2 = x coordinate 2 (int)
ly2 = y coordinate 2 (float)
發布通知:
v11
div_bull() and div_bear() - adjusted indicator pivot checking to be more inclusive.
div_bull() and div_bear() - adjusted indicator pivot checking to be more inclusive.
發布通知:
v12
Added function for validating harmonic XABCD patterns: harmonic_validate_xabcd()
Added:
harmonic_validate_xabcd(xX, xY, aX, aY, bX, bY, cX, cY, dX, dY, pErr, pAsym, pivot_length, gart, bat, bfly, crab)
Validate harmonic XABCD pattern
Parameters:
xX: X coordinate of point X (int)
xY: Y coordinate of point X (float)
aX: X coordinate of point A (int)
aY: Y coordinate of point A (float)
bX: X coordinate of point B (int)
bY: Y coordinate of point B (float)
cX: X coordinate of point C (int)
cY: Y coordinate of point C (float)
dX: X coordinate of point D (int)
dY: Y coordinate of point D (float)
pErr: Acceptable percent error of leg ratios (does not apply to legs defined within a range) (float)
pAsym: Acceptable percent asymmetry of leg ΔX (each leg tested against average ΔX of prior legs) (float)
pivot_length: Bars before and after prior pivot high to be considered valid pivot (optional int)
gart: Flag to validate Gartley pattern (bool)
bat: Flag to validate Bat pattern (bool)
bfly: Flag to validate Butterfly pattern (bool)
crab: Flag to validate Crab pattern (bool)
Returns:
flag = true if valid harmonic
t1 = true if valid gartley
t2 = true if valid bat
t3 = true if valid butterfly
t4 = true if valid crab
Added function for validating harmonic XABCD patterns: harmonic_validate_xabcd()
Added:
harmonic_validate_xabcd(xX, xY, aX, aY, bX, bY, cX, cY, dX, dY, pErr, pAsym, pivot_length, gart, bat, bfly, crab)
Validate harmonic XABCD pattern
Parameters:
xX: X coordinate of point X (int)
xY: Y coordinate of point X (float)
aX: X coordinate of point A (int)
aY: Y coordinate of point A (float)
bX: X coordinate of point B (int)
bY: Y coordinate of point B (float)
cX: X coordinate of point C (int)
cY: Y coordinate of point C (float)
dX: X coordinate of point D (int)
dY: Y coordinate of point D (float)
pErr: Acceptable percent error of leg ratios (does not apply to legs defined within a range) (float)
pAsym: Acceptable percent asymmetry of leg ΔX (each leg tested against average ΔX of prior legs) (float)
pivot_length: Bars before and after prior pivot high to be considered valid pivot (optional int)
gart: Flag to validate Gartley pattern (bool)
bat: Flag to validate Bat pattern (bool)
bfly: Flag to validate Butterfly pattern (bool)
crab: Flag to validate Crab pattern (bool)
Returns:
flag = true if valid harmonic
t1 = true if valid gartley
t2 = true if valid bat
t3 = true if valid butterfly
t4 = true if valid crab
發布通知:
v13
Added pattern_xabcd() - determine if an XABCD pattern has just completed.
Added:
pattern_xabcd(x_is_low, pivot_length, source)
Determine if an XABCD pattern has just completed (i.e. point D is on the previous bar)
Parameters:
x_is_low: Flag to determine if point X is a low pivot, i.e. bullish pattern (bool, dft = true)
pivot_length: Number of bars before and after a valid pivot (int, dft = 5)
source: Source series (float, dft = na, will use high and low series)
Returns:
flag = true if valid XABCD pattern completed on previous bar
xx = X coordinate of point X (int)
xy = Y coordinate of point X (float)
ax = X coordinate of point A (int)
ay = Y coordinate of point A (float)
bx = X coordinate of point B (int)
by = Y coordinate of point B (float)
cx = X coordinate of point C (int)
cy = Y coordinate of point C (float)
dx = X coordinate of point D (int)
dy = Y coordinate of point D (float)
Added pattern_xabcd() - determine if an XABCD pattern has just completed.
Added:
pattern_xabcd(x_is_low, pivot_length, source)
Determine if an XABCD pattern has just completed (i.e. point D is on the previous bar)
Parameters:
x_is_low: Flag to determine if point X is a low pivot, i.e. bullish pattern (bool, dft = true)
pivot_length: Number of bars before and after a valid pivot (int, dft = 5)
source: Source series (float, dft = na, will use high and low series)
Returns:
flag = true if valid XABCD pattern completed on previous bar
xx = X coordinate of point X (int)
xy = Y coordinate of point X (float)
ax = X coordinate of point A (int)
ay = Y coordinate of point A (float)
bx = X coordinate of point B (int)
by = Y coordinate of point B (float)
cx = X coordinate of point C (int)
cy = Y coordinate of point C (float)
dx = X coordinate of point D (int)
dy = Y coordinate of point D (float)
發布通知:
v14
Added:
pat_xabcd(x_is_low, pivot_length, source)
Determine if an XABCD pattern has just completed (i.e. point D is on the previous bar)
Parameters:
x_is_low: Flag to determine if point X is a low pivot, i.e. bullish pattern (bool, dft = true)
pivot_length: Number of bars before and after a valid pivot (int, dft = 5)
source: Source series (float, dft = na, will use high and low series)
Returns:
flag = true if valid XABCD pattern completed on previous bar
xx = X coordinate of point X (int)
xy = Y coordinate of point X (float)
ax = X coordinate of point A (int)
ay = Y coordinate of point A (float)
bx = X coordinate of point B (int)
by = Y coordinate of point B (float)
cx = X coordinate of point C (int)
cy = Y coordinate of point C (float)
dx = X coordinate of point D (int)
dy = Y coordinate of point D (float)
Removed:
pattern_xabcd(x_is_low, pivot_length, source)
Determine if an XABCD pattern has just completed (i.e. point D is on the previous bar)
Added:
pat_xabcd(x_is_low, pivot_length, source)
Determine if an XABCD pattern has just completed (i.e. point D is on the previous bar)
Parameters:
x_is_low: Flag to determine if point X is a low pivot, i.e. bullish pattern (bool, dft = true)
pivot_length: Number of bars before and after a valid pivot (int, dft = 5)
source: Source series (float, dft = na, will use high and low series)
Returns:
flag = true if valid XABCD pattern completed on previous bar
xx = X coordinate of point X (int)
xy = Y coordinate of point X (float)
ax = X coordinate of point A (int)
ay = Y coordinate of point A (float)
bx = X coordinate of point B (int)
by = Y coordinate of point B (float)
cx = X coordinate of point C (int)
cy = Y coordinate of point C (float)
dx = X coordinate of point D (int)
dy = Y coordinate of point D (float)
Removed:
pattern_xabcd(x_is_low, pivot_length, source)
Determine if an XABCD pattern has just completed (i.e. point D is on the previous bar)
發布通知:
v15
Fixed point D validation for harmonic XABCD pattern
Fixed point D validation for harmonic XABCD pattern
發布通知:
v16
Fixed harmonic XABCD ΔX symmetry validation
Fixed harmonic XABCD ΔX symmetry validation
發布通知:
v17
Added:
harmonic_xabcd_validate(xX, xY, aX, aY, bX, bY, cX, cY, dX, dY, pErr, pAsym, pivot_length, gart, bat, bfly, crab)
Validate harmonic XABCD pattern
Parameters:
xX: X coordinate of point X (int)
xY: Y coordinate of point X (float)
aX: X coordinate of point A (int)
aY: Y coordinate of point A (float)
bX: X coordinate of point B (int)
bY: Y coordinate of point B (float)
cX: X coordinate of point C (int)
cY: Y coordinate of point C (float)
dX: X coordinate of point D (int)
dY: Y coordinate of point D (float)
pErr: Acceptable percent error of leg ratios (does not apply to legs defined within a range) (float)
pAsym: Acceptable percent asymmetry of leg ΔX (each leg tested against average ΔX of prior legs) (float)
pivot_length: Bars before and after prior pivot high to be considered valid pivot (optional int)
gart: Flag to validate Gartley pattern (bool)
bat: Flag to validate Bat pattern (bool)
bfly: Flag to validate Butterfly pattern (bool)
crab: Flag to validate Crab pattern (bool)
Returns:
flag = true if valid harmonic
t1 = true if valid gartley
t2 = true if valid bat
t3 = true if valid butterfly
t4 = true if valid crab
harmonic_xabcd_prz(type, xY, aY, bY, cY)
Get the potential reversal zone (PRZ) levels of a harmonic XABCD pattern
Parameters:
type: Harmonic pattern type (int - 1 = Gartley, 2 = Bat, 3 = Butterfly, 4 = Crab)
xY: Y coordinate of point X (float)
aY: Y coordinate of point A (float)
bY: Y coordinate of point B (float)
cY: Y coordinate of point C (float)
Returns:
bc_u = nearest BC retracement/extension level (nearest to point C)
bc_l = farthest BC retracement/extension level (nearest to point C)
xa_u = nearest XA retracement/extension level (or the only XA level, if applicable)
xa_l = farthest XA retracement/extension level (or na if not applicable)
Removed:
harmonic_validate_xabcd(xX, xY, aX, aY, bX, bY, cX, cY, dX, dY, pErr, pAsym, pivot_length, gart, bat, bfly, crab)
Validate harmonic XABCD pattern
Added:
harmonic_xabcd_validate(xX, xY, aX, aY, bX, bY, cX, cY, dX, dY, pErr, pAsym, pivot_length, gart, bat, bfly, crab)
Validate harmonic XABCD pattern
Parameters:
xX: X coordinate of point X (int)
xY: Y coordinate of point X (float)
aX: X coordinate of point A (int)
aY: Y coordinate of point A (float)
bX: X coordinate of point B (int)
bY: Y coordinate of point B (float)
cX: X coordinate of point C (int)
cY: Y coordinate of point C (float)
dX: X coordinate of point D (int)
dY: Y coordinate of point D (float)
pErr: Acceptable percent error of leg ratios (does not apply to legs defined within a range) (float)
pAsym: Acceptable percent asymmetry of leg ΔX (each leg tested against average ΔX of prior legs) (float)
pivot_length: Bars before and after prior pivot high to be considered valid pivot (optional int)
gart: Flag to validate Gartley pattern (bool)
bat: Flag to validate Bat pattern (bool)
bfly: Flag to validate Butterfly pattern (bool)
crab: Flag to validate Crab pattern (bool)
Returns:
flag = true if valid harmonic
t1 = true if valid gartley
t2 = true if valid bat
t3 = true if valid butterfly
t4 = true if valid crab
harmonic_xabcd_prz(type, xY, aY, bY, cY)
Get the potential reversal zone (PRZ) levels of a harmonic XABCD pattern
Parameters:
type: Harmonic pattern type (int - 1 = Gartley, 2 = Bat, 3 = Butterfly, 4 = Crab)
xY: Y coordinate of point X (float)
aY: Y coordinate of point A (float)
bY: Y coordinate of point B (float)
cY: Y coordinate of point C (float)
Returns:
bc_u = nearest BC retracement/extension level (nearest to point C)
bc_l = farthest BC retracement/extension level (nearest to point C)
xa_u = nearest XA retracement/extension level (or the only XA level, if applicable)
xa_l = farthest XA retracement/extension level (or na if not applicable)
Removed:
harmonic_validate_xabcd(xX, xY, aX, aY, bX, bY, cX, cY, dX, dY, pErr, pAsym, pivot_length, gart, bat, bfly, crab)
Validate harmonic XABCD pattern
發布通知:
v18
Fixed harmonic retracement validation
Fixed harmonic retracement validation
發布通知:
v19
Added:
harmonic_xabcd_validateIncomplete(xX, xY, aX, aY, bX, bY, cX, cY, pErr, pAsym, pivot_length, gart, bat, bfly, crab)
Validate the first 3 legs of a harmonic XABCD pattern
Parameters:
xX: X coordinate of point X (int)
xY: Y coordinate of point X (float)
aX: X coordinate of point A (int)
aY: Y coordinate of point A (float)
bX: X coordinate of point B (int)
bY: Y coordinate of point B (float)
cX: X coordinate of point C (int)
cY: Y coordinate of point C (float)
pErr: Acceptable percent error of leg ratios (does not apply to legs defined within a range) (float)
pAsym: Acceptable percent asymmetry of leg ΔX (each leg tested against average ΔX of prior legs) (float)
pivot_length: Bars before and after prior pivot high to be considered valid pivot (optional int)
gart: Flag to validate Gartley pattern (bool)
bat: Flag to validate Bat pattern (bool)
bfly: Flag to validate Butterfly pattern (bool)
crab: Flag to validate Crab pattern (bool)
Returns:
flag = true if valid harmonic
t1 = true if valid gartley
t2 = true if valid bat
t3 = true if valid butterfly
t4 = true if valid crab
Added:
harmonic_xabcd_validateIncomplete(xX, xY, aX, aY, bX, bY, cX, cY, pErr, pAsym, pivot_length, gart, bat, bfly, crab)
Validate the first 3 legs of a harmonic XABCD pattern
Parameters:
xX: X coordinate of point X (int)
xY: Y coordinate of point X (float)
aX: X coordinate of point A (int)
aY: Y coordinate of point A (float)
bX: X coordinate of point B (int)
bY: Y coordinate of point B (float)
cX: X coordinate of point C (int)
cY: Y coordinate of point C (float)
pErr: Acceptable percent error of leg ratios (does not apply to legs defined within a range) (float)
pAsym: Acceptable percent asymmetry of leg ΔX (each leg tested against average ΔX of prior legs) (float)
pivot_length: Bars before and after prior pivot high to be considered valid pivot (optional int)
gart: Flag to validate Gartley pattern (bool)
bat: Flag to validate Bat pattern (bool)
bfly: Flag to validate Butterfly pattern (bool)
crab: Flag to validate Crab pattern (bool)
Returns:
flag = true if valid harmonic
t1 = true if valid gartley
t2 = true if valid bat
t3 = true if valid butterfly
t4 = true if valid crab
發布通知:
v20
Fixed bug with pat_axbcd() algorithm, checking wrong pivot looking for point C in bearish patterns.
Fixed bug with pat_axbcd() algorithm, checking wrong pivot looking for point C in bearish patterns.
發布通知:
v21
Fixed bug in pat_xabcd() where intermediate low wasn't being detected between points C and D
Fixed bug in pat_xabcd() where intermediate low wasn't being detected between points C and D
發布通知:
v22
Added:
harmonic_xabcd_przClosest(l1, l2, l3, l4)
Get the confluent PRZ levels (i.e. the two closest PRZ levels)
Order of arguments does not matter
Parameters:
l1: level 1 (float)
l2: level 2 (float)
l3: level 3 (float)
l4: level 4 (optional, float)
Returns:
lL = lower confluent PRZ level
lH = higher confluent PRZ level
Added:
harmonic_xabcd_przClosest(l1, l2, l3, l4)
Get the confluent PRZ levels (i.e. the two closest PRZ levels)
Order of arguments does not matter
Parameters:
l1: level 1 (float)
l2: level 2 (float)
l3: level 3 (float)
l4: level 4 (optional, float)
Returns:
lL = lower confluent PRZ level
lH = higher confluent PRZ level
發布通知:
v23
Added:
success(entry, stop, t1, t2)
Determine if trade is successful
Parameters:
entry: Entry bar index (int)
stop: Stop level (float)
t1: Target 1 level (float)
t2: Target 2 level (float)
Returns:
Added:
success(entry, stop, t1, t2)
Determine if trade is successful
Parameters:
entry: Entry bar index (int)
stop: Stop level (float)
t1: Target 1 level (float)
t2: Target 2 level (float)
Returns:
發布通知:
v24
Added:
harmonic_xabcd_rAndE(type, l, l1, l2)
Get the ratio of two pattern legs, and the percent error from the theoretical harmonic ratio
Order of arguments does not matter
Parameters:
type: Harmonic pattern type (int - 1 = Gartley, 2 = Bat, 3 = Butterfly, 4 = Crab)
l: Leg ID ("xab", "abc", "bcd", or "xad") (string)
l1: Line 1 height (float)
l2: Line 2 height (float)
Returns:
Added:
harmonic_xabcd_rAndE(type, l, l1, l2)
Get the ratio of two pattern legs, and the percent error from the theoretical harmonic ratio
Order of arguments does not matter
Parameters:
type: Harmonic pattern type (int - 1 = Gartley, 2 = Bat, 3 = Butterfly, 4 = Crab)
l: Leg ID ("xab", "abc", "bcd", or "xad") (string)
l1: Line 1 height (float)
l2: Line 2 height (float)
Returns:
發布通知:
v25
Added:
harmonic_xabcd_przRange()
Get upper and lower PRZ levels
harmonic_xabcd_eD()
Measure closeness of D to either of the two closest PRZ levels, relative to height of the XA leg
przScore()
Measure the closeness of the two closest PRZ levels, relative to the height of the XA leg
harmonic_xabcd_eAvg()
Get the avg retracement ratio % error
harmonic_xabcd_targets()
Get target level
pat_xabcd_asym()
Get the avg asymmetry %
Added:
harmonic_xabcd_przRange()
Get upper and lower PRZ levels
harmonic_xabcd_eD()
Measure closeness of D to either of the two closest PRZ levels, relative to height of the XA leg
przScore()
Measure the closeness of the two closest PRZ levels, relative to the height of the XA leg
harmonic_xabcd_eAvg()
Get the avg retracement ratio % error
harmonic_xabcd_targets()
Get target level
pat_xabcd_asym()
Get the avg asymmetry %
發布通知:
v26
Added:
harmonic_xabcd_przScore()
Measure the closeness of the two closest PRZ levels, relative to the height of the XA leg
Removed:
przScore()
Measure the closeness of the two closest PRZ levels, relative to the height of the XA leg
Added:
harmonic_xabcd_przScore()
Measure the closeness of the two closest PRZ levels, relative to the height of the XA leg
Removed:
przScore()
Measure the closeness of the two closest PRZ levels, relative to the height of the XA leg
發布通知:
v27
Updated:
pat_xabcd(x_is_low, pivot_length, source, conf_length)
Determine if an XABCD pattern has just completed (i.e. point D is on the previous bar)
Parameters:
x_is_low: Flag to determine if point X is a low pivot, i.e. bullish pattern (bool, dft = true)
pivot_length: Number of bars before and after a valid pivot (int, dft = 5)
source: Source series (float, dft = na, will use high and low series)
conf_length: Number of trailing bars after pivot point D to confirm a valid pattern (int, dft = 1)
Returns:
flag = true if valid XABCD pattern completed on previous bar
xx = X coordinate of point X (int)
xy = Y coordinate of point X (float)
ax = X coordinate of point A (int)
ay = Y coordinate of point A (float)
bx = X coordinate of point B (int)
by = Y coordinate of point B (float)
cx = X coordinate of point C (int)
cy = Y coordinate of point C (float)
dx = X coordinate of point D (int)
dy = Y coordinate of point D (float)
Updated:
pat_xabcd(x_is_low, pivot_length, source, conf_length)
Determine if an XABCD pattern has just completed (i.e. point D is on the previous bar)
Parameters:
x_is_low: Flag to determine if point X is a low pivot, i.e. bullish pattern (bool, dft = true)
pivot_length: Number of bars before and after a valid pivot (int, dft = 5)
source: Source series (float, dft = na, will use high and low series)
conf_length: Number of trailing bars after pivot point D to confirm a valid pattern (int, dft = 1)
Returns:
flag = true if valid XABCD pattern completed on previous bar
xx = X coordinate of point X (int)
xy = Y coordinate of point X (float)
ax = X coordinate of point A (int)
ay = Y coordinate of point A (float)
bx = X coordinate of point B (int)
by = Y coordinate of point B (float)
cx = X coordinate of point C (int)
cy = Y coordinate of point C (float)
dx = X coordinate of point D (int)
dy = Y coordinate of point D (float)
發布通知:
v28
發布通知:
v29
發布通知:
v30
Added:
harmonic_xabcd_score()
Get score values for a pattern
Added:
harmonic_xabcd_score()
Get score values for a pattern
發布通知:
v31
Added Shark and Cypher XABCD patterns
Updated:
harmonic_xabcd_validate(xX, xY, aX, aY, bX, bY, cX, cY, dX, dY, pErr, pAsym, pivot_length, gart, bat, bfly, crab, shark, cyph)
Validate harmonic XABCD pattern
Parameters:
xX: X coordinate of point X (int)
xY: Y coordinate of point X (float)
aX: X coordinate of point A (int)
aY: Y coordinate of point A (float)
bX: X coordinate of point B (int)
bY: Y coordinate of point B (float)
cX: X coordinate of point C (int)
cY: Y coordinate of point C (float)
dX: X coordinate of point D (int)
dY: Y coordinate of point D (float)
pErr: Acceptable percent error of leg ratios (does not apply to legs defined within a range) (float)
pAsym: Acceptable percent asymmetry of leg ΔX (each leg tested against average ΔX of prior legs) (float)
pivot_length: Bars before and after prior pivot high to be considered valid pivot (optional int)
gart: Flag to validate Gartley pattern (bool)
bat: Flag to validate Bat pattern (bool)
bfly: Flag to validate Butterfly pattern (bool)
crab: Flag to validate Crab pattern (bool)
shark: Flag to validate Shark pattern (bool)
cyph: Flag to validate Cypher pattern (bool)
Returns:
flag = true if valid harmonic
t1 = true if valid gartley
t2 = true if valid bat
t3 = true if valid butterfly
t4 = true if valid crab
t5 = true if valid shark
t6 = true if valid cypher
harmonic_xabcd_validateIncomplete(xX, xY, aX, aY, bX, bY, cX, cY, pErr, pAsym, pivot_length, gart, bat, bfly, crab, shark, cyph)
Validate the first 3 legs of a harmonic XABCD pattern
Parameters:
xX: X coordinate of point X (int)
xY: Y coordinate of point X (float)
aX: X coordinate of point A (int)
aY: Y coordinate of point A (float)
bX: X coordinate of point B (int)
bY: Y coordinate of point B (float)
cX: X coordinate of point C (int)
cY: Y coordinate of point C (float)
pErr: Acceptable percent error of leg ratios (does not apply to legs defined within a range) (float)
pAsym: Acceptable percent asymmetry of leg ΔX (each leg tested against average ΔX of prior legs) (float)
pivot_length: Bars before and after prior pivot high to be considered valid pivot (optional int)
gart: Flag to validate Gartley pattern (bool)
bat: Flag to validate Bat pattern (bool)
bfly: Flag to validate Butterfly pattern (bool)
crab: Flag to validate Crab pattern (bool)
shark: Flag to validate Shark pattern (bool)
cyph: Flag to validate Cypher pattern (bool)
Returns:
flag = true if valid harmonic
t1 = true if valid gartley
t2 = true if valid bat
t3 = true if valid butterfly
t4 = true if valid crab
t5 = true if valid shark
t6 = true if valid cypher
Added Shark and Cypher XABCD patterns
Updated:
harmonic_xabcd_validate(xX, xY, aX, aY, bX, bY, cX, cY, dX, dY, pErr, pAsym, pivot_length, gart, bat, bfly, crab, shark, cyph)
Validate harmonic XABCD pattern
Parameters:
xX: X coordinate of point X (int)
xY: Y coordinate of point X (float)
aX: X coordinate of point A (int)
aY: Y coordinate of point A (float)
bX: X coordinate of point B (int)
bY: Y coordinate of point B (float)
cX: X coordinate of point C (int)
cY: Y coordinate of point C (float)
dX: X coordinate of point D (int)
dY: Y coordinate of point D (float)
pErr: Acceptable percent error of leg ratios (does not apply to legs defined within a range) (float)
pAsym: Acceptable percent asymmetry of leg ΔX (each leg tested against average ΔX of prior legs) (float)
pivot_length: Bars before and after prior pivot high to be considered valid pivot (optional int)
gart: Flag to validate Gartley pattern (bool)
bat: Flag to validate Bat pattern (bool)
bfly: Flag to validate Butterfly pattern (bool)
crab: Flag to validate Crab pattern (bool)
shark: Flag to validate Shark pattern (bool)
cyph: Flag to validate Cypher pattern (bool)
Returns:
flag = true if valid harmonic
t1 = true if valid gartley
t2 = true if valid bat
t3 = true if valid butterfly
t4 = true if valid crab
t5 = true if valid shark
t6 = true if valid cypher
harmonic_xabcd_validateIncomplete(xX, xY, aX, aY, bX, bY, cX, cY, pErr, pAsym, pivot_length, gart, bat, bfly, crab, shark, cyph)
Validate the first 3 legs of a harmonic XABCD pattern
Parameters:
xX: X coordinate of point X (int)
xY: Y coordinate of point X (float)
aX: X coordinate of point A (int)
aY: Y coordinate of point A (float)
bX: X coordinate of point B (int)
bY: Y coordinate of point B (float)
cX: X coordinate of point C (int)
cY: Y coordinate of point C (float)
pErr: Acceptable percent error of leg ratios (does not apply to legs defined within a range) (float)
pAsym: Acceptable percent asymmetry of leg ΔX (each leg tested against average ΔX of prior legs) (float)
pivot_length: Bars before and after prior pivot high to be considered valid pivot (optional int)
gart: Flag to validate Gartley pattern (bool)
bat: Flag to validate Bat pattern (bool)
bfly: Flag to validate Butterfly pattern (bool)
crab: Flag to validate Crab pattern (bool)
shark: Flag to validate Shark pattern (bool)
cyph: Flag to validate Cypher pattern (bool)
Returns:
flag = true if valid harmonic
t1 = true if valid gartley
t2 = true if valid bat
t3 = true if valid butterfly
t4 = true if valid crab
t5 = true if valid shark
t6 = true if valid cypher
發布通知:
v32
Updated:
harmonic_xabcd_przScore()
Measure the closeness of the two closest PRZ levels, relative to the height of the XA leg
Updated:
harmonic_xabcd_przScore()
Measure the closeness of the two closest PRZ levels, relative to the height of the XA leg
發布通知:
v33
Added:
harmonic_xabcd_fibDispTxt()
Get fib ratio display text
Added:
harmonic_xabcd_fibDispTxt()
Get fib ratio display text
發布通知:
v34
Added:
harmonic_xabcd_symbol()
Get pattern symbol
Added:
harmonic_xabcd_symbol()
Get pattern symbol
發布通知:
v35
Added:
harmonic_xabcd_scoreTot()
Get total weighted score value for a pattern
Added:
harmonic_xabcd_scoreTot()
Get total weighted score value for a pattern
發布通知:
v36
Removed:
harmonic_xabcd_scoreTot()
Get total weighted score value for a pattern
harmonic_xabcd_fibDispTxt()
Get fib ratio display text
harmonic_xabcd_symbol()
Get pattern symbol
Removed:
harmonic_xabcd_scoreTot()
Get total weighted score value for a pattern
harmonic_xabcd_fibDispTxt()
Get fib ratio display text
harmonic_xabcd_symbol()
Get pattern symbol
發布通知:
v37
Added:
harmonic_xabcd_scoreTot()
Get pattern's total weighted score
Added:
harmonic_xabcd_scoreTot()
Get pattern's total weighted score
發布通知:
v38
Added:
harmonic_xabcd_fibDispTxt()
Get fib ratio display text
harmonic_xabcd_symbol()
Get pattern symbol
Added:
harmonic_xabcd_fibDispTxt()
Get fib ratio display text
harmonic_xabcd_symbol()
Get pattern symbol
發布通知:
v39
發布通知:
v40
發布通知:
v41
發布通知:
v42
Added:
harmonic_xabcd_stop()
Get stop level
Added:
harmonic_xabcd_stop()
Get stop level
發布通知:
v43
Fixed bug with cypher validation of point D (retracement of XC, not XA)
Fixed bug with cypher validation of point D (retracement of XC, not XA)
發布通知:
v44
發布通知:
v45
Removed redundant "==true" comparisons
Removed redundant "==true" comparisons
發布通知:
v46
Fixed bug with cypher PRZ level
Fixed bug with cypher PRZ level
發布通知:
v47
Added:
pat_xabcd_avgDev()
Get the average % deviation of an XABCD pattern
Added:
pat_xabcd_avgDev()
Get the average % deviation of an XABCD pattern
發布通知:
v48
發布通知:
v49
Testing
Testing
發布通知:
v50
Testing
Testing
發布通知:
v51
Added:
pat_xabcd_validate(xX, xY, aX, aY, bX, bY, cX, cY, dX, dY, pErr, pAsym)
Validate custom XABCD pattern
Parameters:
xX: X coordinate of point X (int)
xY: Y coordinate of point X (float)
aX: X coordinate of point A (int)
aY: Y coordinate of point A (float)
bX: X coordinate of point B (int)
bY: Y coordinate of point B (float)
cX: X coordinate of point C (int)
cY: Y coordinate of point C (float)
dX: X coordinate of point D (int)
dY: Y coordinate of point D (float)
pErr: Acceptable percent error of leg ratios (does not apply to legs defined within a range) (float)
pAsym: Acceptable percent asymmetry of leg ΔX (each leg tested against average ΔX of prior legs) (float)
Returns: TRUE if pattern is valid
pat_xabcd_validateIncomplete(xX, xY, aX, aY, bX, bY, cX, cY, pErr, pAsym)
Validate the first 3 legs of a custom XABCD pattern
Parameters:
xX: X coordinate of point X (int)
xY: Y coordinate of point X (float)
aX: X coordinate of point A (int)
aY: Y coordinate of point A (float)
bX: X coordinate of point B (int)
bY: Y coordinate of point B (float)
cX: X coordinate of point C (int)
cY: Y coordinate of point C (float)
pErr: Acceptable percent error of leg ratios (does not apply to legs defined within a range) (float)
pAsym: Acceptable percent asymmetry of leg ΔX (each leg tested against average ΔX of prior legs) (float)
Returns: TRUE if first 3 legs are valid
pat_xabcd_prz(xY, aY, bY, cY)
Get the potential reversal zone (PRZ) levels of a custom XABCD pattern
Parameters:
xY: Y coordinate of point X (float)
aY: Y coordinate of point A (float)
bY: Y coordinate of point B (float)
cY: Y coordinate of point C (float)
Returns:
Added:
pat_xabcd_validate(xX, xY, aX, aY, bX, bY, cX, cY, dX, dY, pErr, pAsym)
Validate custom XABCD pattern
Parameters:
xX: X coordinate of point X (int)
xY: Y coordinate of point X (float)
aX: X coordinate of point A (int)
aY: Y coordinate of point A (float)
bX: X coordinate of point B (int)
bY: Y coordinate of point B (float)
cX: X coordinate of point C (int)
cY: Y coordinate of point C (float)
dX: X coordinate of point D (int)
dY: Y coordinate of point D (float)
pErr: Acceptable percent error of leg ratios (does not apply to legs defined within a range) (float)
pAsym: Acceptable percent asymmetry of leg ΔX (each leg tested against average ΔX of prior legs) (float)
Returns: TRUE if pattern is valid
pat_xabcd_validateIncomplete(xX, xY, aX, aY, bX, bY, cX, cY, pErr, pAsym)
Validate the first 3 legs of a custom XABCD pattern
Parameters:
xX: X coordinate of point X (int)
xY: Y coordinate of point X (float)
aX: X coordinate of point A (int)
aY: Y coordinate of point A (float)
bX: X coordinate of point B (int)
bY: Y coordinate of point B (float)
cX: X coordinate of point C (int)
cY: Y coordinate of point C (float)
pErr: Acceptable percent error of leg ratios (does not apply to legs defined within a range) (float)
pAsym: Acceptable percent asymmetry of leg ΔX (each leg tested against average ΔX of prior legs) (float)
Returns: TRUE if first 3 legs are valid
pat_xabcd_prz(xY, aY, bY, cY)
Get the potential reversal zone (PRZ) levels of a custom XABCD pattern
Parameters:
xY: Y coordinate of point X (float)
aY: Y coordinate of point A (float)
bY: Y coordinate of point B (float)
cY: Y coordinate of point C (float)
Returns:
發布通知:
v52
Updated:
harmonic_xabcd_eAvg()
Get the avg retracement ratio % error
Updated:
harmonic_xabcd_eAvg()
Get the avg retracement ratio % error
發布通知:
v53
Fixed bug with success(), extra checks on entry bar
Fixed bug with success(), extra checks on entry bar
發布通知:
v54
Added:
tradeClosed()
Determine if Target or Stop was hit on the current bar
Added:
tradeClosed()
Determine if Target or Stop was hit on the current bar
發布通知:
v55
Bug fix for closed trade check
Bug fix for closed trade check
發布通知:
v56
Bug fix for closed trade check
Bug fix for closed trade check
發布通知:
v57
Updated:
pat_xabcd(x_is_low, pivot_length, source, conf_length, incomplete)
Determine if an XABCD pattern has just completed (i.e. point D is on the previous bar)
Parameters:
x_is_low: Flag to determine if point X is a low pivot, i.e. bullish pattern (bool, dft = true)
pivot_length: Number of bars before and after a valid pivot (int, dft = 5)
source: Source series (float, dft = na, will use high and low series)
conf_length: Number of trailing bars after pivot point D to confirm a valid pattern (int, dft = 1)
incomplete: Flag to return an incomplete XABC pattern (bool, dft = false)
Returns:
flag = true if valid XABCD pattern completed on previous bar
xx = X coordinate of point X (int)
xy = Y coordinate of point X (float)
ax = X coordinate of point A (int)
ay = Y coordinate of point A (float)
bx = X coordinate of point B (int)
by = Y coordinate of point B (float)
cx = X coordinate of point C (int)
cy = Y coordinate of point C (float)
dx = X coordinate of point D (int)
dy = Y coordinate of point D (float)
Updated:
pat_xabcd(x_is_low, pivot_length, source, conf_length, incomplete)
Determine if an XABCD pattern has just completed (i.e. point D is on the previous bar)
Parameters:
x_is_low: Flag to determine if point X is a low pivot, i.e. bullish pattern (bool, dft = true)
pivot_length: Number of bars before and after a valid pivot (int, dft = 5)
source: Source series (float, dft = na, will use high and low series)
conf_length: Number of trailing bars after pivot point D to confirm a valid pattern (int, dft = 1)
incomplete: Flag to return an incomplete XABC pattern (bool, dft = false)
Returns:
flag = true if valid XABCD pattern completed on previous bar
xx = X coordinate of point X (int)
xy = Y coordinate of point X (float)
ax = X coordinate of point A (int)
ay = Y coordinate of point A (float)
bx = X coordinate of point B (int)
by = Y coordinate of point B (float)
cx = X coordinate of point C (int)
cy = Y coordinate of point C (float)
dx = X coordinate of point D (int)
dy = Y coordinate of point D (float)
發布通知:
v58
Short circuit incomplete XABCD pattern search
Short circuit incomplete XABCD pattern search
發布通知:
v59
Updated:
harmonic_xabcd_przRange()
Get upper and lower PRZ levels
Updated:
harmonic_xabcd_przRange()
Get upper and lower PRZ levels
發布通知:
v60
Added:
harmonic_xabcd_entry()
Added:
harmonic_xabcd_entry()
發布通知:
v61
Added:
xabcd_entryHit()
Determine if entry level was reached. Assumes pattern is active/not timed out.
Added:
xabcd_entryHit()
Determine if entry level was reached. Assumes pattern is active/not timed out.
發布通知:
v62
Updated przClosest check to exclude values of 0 (only used when actual retracement value < 0)
Updated przClosest check to exclude values of 0 (only used when actual retracement value < 0)
發布通知:
v63
backed out last change
backed out last change
發布通知:
v64
test
test
發布通知:
v65
dont allow entry value < 0
dont allow entry value < 0
發布通知:
v66
Updated to use latest version of Fib script (improved efficiency for precise fibs)
Updated to use latest version of Fib script (improved efficiency for precise fibs)
發布通知:
v67
test
Updated:
pat_xabcd(x_is_low, pivot_length, source, conf_length, incomplete)
Determine if an XABCD pattern has just completed (i.e. point D is on the previous bar)
Parameters:
x_is_low: Flag to determine if point X is a low pivot, i.e. bullish pattern (bool, dft = true)
pivot_length: Number of bars before and after a valid pivot (int, dft = 5)
source: Source series (float, dft = na, will use high and low series)
conf_length: Number of trailing bars after pivot point D to confirm a valid pattern (int, dft = 1)
incomplete: Flag to return an incomplete XABC pattern (bool, dft = false)
Returns:
flag = true if valid XABCD pattern completed on previous bar
xx = X coordinate of point X (int)
xy = Y coordinate of point X (float)
ax = X coordinate of point A (int)
ay = Y coordinate of point A (float)
bx = X coordinate of point B (int)
by = Y coordinate of point B (float)
cx = X coordinate of point C (int)
cy = Y coordinate of point C (float)
dx = X coordinate of point D (int)
dy = Y coordinate of point D (float)
test
Updated:
pat_xabcd(x_is_low, pivot_length, source, conf_length, incomplete)
Determine if an XABCD pattern has just completed (i.e. point D is on the previous bar)
Parameters:
x_is_low: Flag to determine if point X is a low pivot, i.e. bullish pattern (bool, dft = true)
pivot_length: Number of bars before and after a valid pivot (int, dft = 5)
source: Source series (float, dft = na, will use high and low series)
conf_length: Number of trailing bars after pivot point D to confirm a valid pattern (int, dft = 1)
incomplete: Flag to return an incomplete XABC pattern (bool, dft = false)
Returns:
flag = true if valid XABCD pattern completed on previous bar
xx = X coordinate of point X (int)
xy = Y coordinate of point X (float)
ax = X coordinate of point A (int)
ay = Y coordinate of point A (float)
bx = X coordinate of point B (int)
by = Y coordinate of point B (float)
cx = X coordinate of point C (int)
cy = Y coordinate of point C (float)
dx = X coordinate of point D (int)
dy = Y coordinate of point D (float)
發布通知:
v68
Reverted test changes
Updated:
pat_xabcd(x_is_low, pivot_length, source, conf_length, incomplete)
Determine if an XABCD pattern has just completed (i.e. point D is on the previous bar)
Parameters:
x_is_low: Flag to determine if point X is a low pivot, i.e. bullish pattern (bool, dft = true)
pivot_length: Number of bars before and after a valid pivot (int, dft = 5)
source: Source series (float, dft = na, will use high and low series)
conf_length: Number of trailing bars after pivot point D to confirm a valid pattern (int, dft = 1)
incomplete: Flag to return an incomplete XABC pattern (bool, dft = false)
Returns:
flag = true if valid XABCD pattern completed on previous bar
xx = X coordinate of point X (int)
xy = Y coordinate of point X (float)
ax = X coordinate of point A (int)
ay = Y coordinate of point A (float)
bx = X coordinate of point B (int)
by = Y coordinate of point B (float)
cx = X coordinate of point C (int)
cy = Y coordinate of point C (float)
dx = X coordinate of point D (int)
dy = Y coordinate of point D (float)
Reverted test changes
Updated:
pat_xabcd(x_is_low, pivot_length, source, conf_length, incomplete)
Determine if an XABCD pattern has just completed (i.e. point D is on the previous bar)
Parameters:
x_is_low: Flag to determine if point X is a low pivot, i.e. bullish pattern (bool, dft = true)
pivot_length: Number of bars before and after a valid pivot (int, dft = 5)
source: Source series (float, dft = na, will use high and low series)
conf_length: Number of trailing bars after pivot point D to confirm a valid pattern (int, dft = 1)
incomplete: Flag to return an incomplete XABC pattern (bool, dft = false)
Returns:
flag = true if valid XABCD pattern completed on previous bar
xx = X coordinate of point X (int)
xy = Y coordinate of point X (float)
ax = X coordinate of point A (int)
ay = Y coordinate of point A (float)
bx = X coordinate of point B (int)
by = Y coordinate of point B (float)
cx = X coordinate of point C (int)
cy = Y coordinate of point C (float)
dx = X coordinate of point D (int)
dy = Y coordinate of point D (float)
發布通知:
v69
Test allowing divergence checks with pivot length of 0
Test allowing divergence checks with pivot length of 0
發布通知:
v70
Updated:
pat_xabcd(x_is_low, pivot_length, source, conf_length, incomplete, inc_skipC)
Determine if an XABCD pattern has just completed (i.e. point D is on the previous bar)
Parameters:
x_is_low: Flag to determine if point X is a low pivot, i.e. bullish pattern (bool, dft = true)
pivot_length: Number of bars before and after a valid pivot (int, dft = 5)
source: Source series (float, dft = na, will use high and low series)
conf_length: Number of trailing bars after pivot point D to confirm a valid pattern (int, dft = 1)
incomplete: Flag to return an incomplete XABC pattern (bool, dft = false)
inc_skipC: skip incomplete patterns whose point C is at or before this bar index (to avoid returning the same pattern on consecutive bars)
Returns:
flag = true if valid XABCD pattern completed on previous bar
xx = X coordinate of point X (int)
xy = Y coordinate of point X (float)
ax = X coordinate of point A (int)
ay = Y coordinate of point A (float)
bx = X coordinate of point B (int)
by = Y coordinate of point B (float)
cx = X coordinate of point C (int)
cy = Y coordinate of point C (float)
dx = X coordinate of point D (int)
dy = Y coordinate of point D (float)
Updated:
pat_xabcd(x_is_low, pivot_length, source, conf_length, incomplete, inc_skipC)
Determine if an XABCD pattern has just completed (i.e. point D is on the previous bar)
Parameters:
x_is_low: Flag to determine if point X is a low pivot, i.e. bullish pattern (bool, dft = true)
pivot_length: Number of bars before and after a valid pivot (int, dft = 5)
source: Source series (float, dft = na, will use high and low series)
conf_length: Number of trailing bars after pivot point D to confirm a valid pattern (int, dft = 1)
incomplete: Flag to return an incomplete XABC pattern (bool, dft = false)
inc_skipC: skip incomplete patterns whose point C is at or before this bar index (to avoid returning the same pattern on consecutive bars)
Returns:
flag = true if valid XABCD pattern completed on previous bar
xx = X coordinate of point X (int)
xy = Y coordinate of point X (float)
ax = X coordinate of point A (int)
ay = Y coordinate of point A (float)
bx = X coordinate of point B (int)
by = Y coordinate of point B (float)
cx = X coordinate of point C (int)
cy = Y coordinate of point C (float)
dx = X coordinate of point D (int)
dy = Y coordinate of point D (float)
發布通知:
v71
發布通知:
v72
Updated:
pat_xabcd(x_is_low, pivot_length, source, conf_length, incomplete, inc_skipC)
Determine if an XABCD pattern has just completed (i.e. point D is on the previous bar)
Parameters:
x_is_low: Flag to determine if point X is a low pivot, i.e. bullish pattern (bool, dft = true)
pivot_length: Number of bars before and after a valid pivot (int, dft = 5)
source: Source series (float, dft = na, will use high and low series)
conf_length: Number of trailing bars after pivot point D to confirm a valid pattern (int, dft = 1)
incomplete: Flag to return an incomplete XABC pattern (bool, dft = false)
inc_skipC: skip incomplete patterns whose point C is at this bar index (to avoid returning the same pattern on consecutive bars)
Returns:
flag = true if valid XABCD pattern completed on previous bar
xx = X coordinate of point X (int)
xy = Y coordinate of point X (float)
ax = X coordinate of point A (int)
ay = Y coordinate of point A (float)
bx = X coordinate of point B (int)
by = Y coordinate of point B (float)
cx = X coordinate of point C (int)
cy = Y coordinate of point C (float)
dx = X coordinate of point D (int)
dy = Y coordinate of point D (float)
Updated:
pat_xabcd(x_is_low, pivot_length, source, conf_length, incomplete, inc_skipC)
Determine if an XABCD pattern has just completed (i.e. point D is on the previous bar)
Parameters:
x_is_low: Flag to determine if point X is a low pivot, i.e. bullish pattern (bool, dft = true)
pivot_length: Number of bars before and after a valid pivot (int, dft = 5)
source: Source series (float, dft = na, will use high and low series)
conf_length: Number of trailing bars after pivot point D to confirm a valid pattern (int, dft = 1)
incomplete: Flag to return an incomplete XABC pattern (bool, dft = false)
inc_skipC: skip incomplete patterns whose point C is at this bar index (to avoid returning the same pattern on consecutive bars)
Returns:
flag = true if valid XABCD pattern completed on previous bar
xx = X coordinate of point X (int)
xy = Y coordinate of point X (float)
ax = X coordinate of point A (int)
ay = Y coordinate of point A (float)
bx = X coordinate of point B (int)
by = Y coordinate of point B (float)
cx = X coordinate of point C (int)
cy = Y coordinate of point C (float)
dx = X coordinate of point D (int)
dy = Y coordinate of point D (float)
發布通知:
v73
發布通知:
v74
發布通知:
v75
Updated:
pat_xabcd(x_is_low, pivot_length, source, conf_length, incomplete)
Determine if an XABCD pattern has just completed (i.e. point D is on the previous bar)
Parameters:
x_is_low: Flag to determine if point X is a low pivot, i.e. bullish pattern (bool, dft = true)
pivot_length: Number of bars before and after a valid pivot (int, dft = 5)
source: Source series (float, dft = na, will use high and low series)
conf_length: Number of trailing bars after pivot point D to confirm a valid pattern (int, dft = 1)
incomplete: Flag to return an incomplete XABC pattern (bool, dft = false)
Returns:
flag = true if valid XABCD pattern completed on previous bar
xx = X coordinate of point X (int)
xy = Y coordinate of point X (float)
ax = X coordinate of point A (int)
ay = Y coordinate of point A (float)
bx = X coordinate of point B (int)
by = Y coordinate of point B (float)
cx = X coordinate of point C (int)
cy = Y coordinate of point C (float)
dx = X coordinate of point D (int)
dy = Y coordinate of point D (float)
Updated:
pat_xabcd(x_is_low, pivot_length, source, conf_length, incomplete)
Determine if an XABCD pattern has just completed (i.e. point D is on the previous bar)
Parameters:
x_is_low: Flag to determine if point X is a low pivot, i.e. bullish pattern (bool, dft = true)
pivot_length: Number of bars before and after a valid pivot (int, dft = 5)
source: Source series (float, dft = na, will use high and low series)
conf_length: Number of trailing bars after pivot point D to confirm a valid pattern (int, dft = 1)
incomplete: Flag to return an incomplete XABC pattern (bool, dft = false)
Returns:
flag = true if valid XABCD pattern completed on previous bar
xx = X coordinate of point X (int)
xy = Y coordinate of point X (float)
ax = X coordinate of point A (int)
ay = Y coordinate of point A (float)
bx = X coordinate of point B (int)
by = Y coordinate of point B (float)
cx = X coordinate of point C (int)
cy = Y coordinate of point C (float)
dx = X coordinate of point D (int)
dy = Y coordinate of point D (float)
發布通知:
v76
Updated:
tradeClosed(eX, eY, stop, t1h, t2h, t1, t2)
Determine if Target or Stop was hit on the current bar
Parameters:
eX
eY
stop
t1h
t2h
t1
t2
Updated:
tradeClosed(eX, eY, stop, t1h, t2h, t1, t2)
Determine if Target or Stop was hit on the current bar
Parameters:
eX
eY
stop
t1h
t2h
t1
t2
發布通知:
v77
Updated:
pat_xabcd(x_is_low, pivot_length, source, conf_length, incomplete)
Determine if an XABCD pattern has just completed (i.e. point D is on the previous bar)
Parameters:
x_is_low: Flag to determine if point X is a low pivot, i.e. bullish pattern (bool, dft = true)
pivot_length: Number of bars before and after a valid pivot (int, dft = 5)
source: Source series (float, dft = na, will use high and low series)
conf_length: Number of trailing bars after pivot point D to confirm a valid pattern (int, dft = 1)
incomplete: Flag to return an incomplete XABC pattern (bool, dft = false)
Returns:
flag = true if valid XABCD pattern completed on previous bar
x = point X
a = point A
b = point B
c = point C
d = point D
Updated:
pat_xabcd(x_is_low, pivot_length, source, conf_length, incomplete)
Determine if an XABCD pattern has just completed (i.e. point D is on the previous bar)
Parameters:
x_is_low: Flag to determine if point X is a low pivot, i.e. bullish pattern (bool, dft = true)
pivot_length: Number of bars before and after a valid pivot (int, dft = 5)
source: Source series (float, dft = na, will use high and low series)
conf_length: Number of trailing bars after pivot point D to confirm a valid pattern (int, dft = 1)
incomplete: Flag to return an incomplete XABC pattern (bool, dft = false)
Returns:
flag = true if valid XABCD pattern completed on previous bar
x = point X
a = point A
b = point B
c = point C
d = point D
發布通知:
v78
test revert d.y to 0.0
test revert d.y to 0.0
發布通知:
v79
Reverted changes using point object for pat_xabcd()
Updated:
pat_xabcd(x_is_low, pivot_length, source, conf_length, incomplete)
Determine if an XABCD pattern has just completed (i.e. point D is on the previous bar)
Parameters:
x_is_low: Flag to determine if point X is a low pivot, i.e. bullish pattern (bool, dft = true)
pivot_length: Number of bars before and after a valid pivot (int, dft = 5)
source: Source series (float, dft = na, will use high and low series)
conf_length: Number of trailing bars after pivot point D to confirm a valid pattern (int, dft = 1)
incomplete: Flag to return an incomplete XABC pattern (bool, dft = false)
Returns:
flag = true if valid XABCD pattern completed on previous bar
xx = X coordinate of point X (int)
xy = Y coordinate of point X (float)
ax = X coordinate of point A (int)
ay = Y coordinate of point A (float)
bx = X coordinate of point B (int)
by = Y coordinate of point B (float)
cx = X coordinate of point C (int)
cy = Y coordinate of point C (float)
dx = X coordinate of point D (int)
dy = Y coordinate of point D (float)
Reverted changes using point object for pat_xabcd()
Updated:
pat_xabcd(x_is_low, pivot_length, source, conf_length, incomplete)
Determine if an XABCD pattern has just completed (i.e. point D is on the previous bar)
Parameters:
x_is_low: Flag to determine if point X is a low pivot, i.e. bullish pattern (bool, dft = true)
pivot_length: Number of bars before and after a valid pivot (int, dft = 5)
source: Source series (float, dft = na, will use high and low series)
conf_length: Number of trailing bars after pivot point D to confirm a valid pattern (int, dft = 1)
incomplete: Flag to return an incomplete XABC pattern (bool, dft = false)
Returns:
flag = true if valid XABCD pattern completed on previous bar
xx = X coordinate of point X (int)
xy = Y coordinate of point X (float)
ax = X coordinate of point A (int)
ay = Y coordinate of point A (float)
bx = X coordinate of point B (int)
by = Y coordinate of point B (float)
cx = X coordinate of point C (int)
cy = Y coordinate of point C (float)
dx = X coordinate of point D (int)
dy = Y coordinate of point D (float)
發布通知:
v80
Add stop flag to tradeClosed()
Add stop flag to tradeClosed()
發布通知:
v81
Added:
test_cd(cd, bc, xa, xc, ad, pErr, p_types)
Validate CD leg of XABCD
Parameters:
cd
bc
xa
xc
ad
pErr
p_types
Added:
test_cd(cd, bc, xa, xc, ad, pErr, p_types)
Validate CD leg of XABCD
Parameters:
cd
bc
xa
xc
ad
pErr
p_types
發布通知:
v82
Added:
pat_xabcdIncomplete(x_is_low, pivot_length, source, conf_length)
Determine if an XABCD pattern is in progress (point C was just confirmed)
Parameters:
x_is_low: Flag to determine if point X is a low pivot, i.e. bullish M pattern (bool, dft = true)
pivot_length: Number of bars before and after a valid pivot (int, dft = 5)
source: Source series (float, dft = na, will use high and low series)
conf_length: Number of trailing bars after pivot point D to confirm a valid pattern (int, dft = 1)
Returns:
flag = true if valid XABC pattern completed on bar_index
xx = X coordinate of point X (int)
xy = Y coordinate of point X (float)
ax = X coordinate of point A (int)
ay = Y coordinate of point A (float)
bx = X coordinate of point B (int)
by = Y coordinate of point B (float)
cx = X coordinate of point C (int)
cy = Y coordinate of point C (float)
dx = X coordinate of point D (int)
dy = Y coordinate of point D (float)
Added:
pat_xabcdIncomplete(x_is_low, pivot_length, source, conf_length)
Determine if an XABCD pattern is in progress (point C was just confirmed)
Parameters:
x_is_low: Flag to determine if point X is a low pivot, i.e. bullish M pattern (bool, dft = true)
pivot_length: Number of bars before and after a valid pivot (int, dft = 5)
source: Source series (float, dft = na, will use high and low series)
conf_length: Number of trailing bars after pivot point D to confirm a valid pattern (int, dft = 1)
Returns:
flag = true if valid XABC pattern completed on bar_index
xx = X coordinate of point X (int)
xy = Y coordinate of point X (float)
ax = X coordinate of point A (int)
ay = Y coordinate of point A (float)
bx = X coordinate of point B (int)
by = Y coordinate of point B (float)
cx = X coordinate of point C (int)
cy = Y coordinate of point C (float)
dx = X coordinate of point D (int)
dy = Y coordinate of point D (float)
發布通知:
v83
Added:
pat_xabcd_testSym(xax, abx, bcx, cdx, pAsym)
Validate ΔX symmetry of XABCD pattern
Parameters:
xax
abx
bcx
cdx
pAsym
Added:
pat_xabcd_testSym(xax, abx, bcx, cdx, pAsym)
Validate ΔX symmetry of XABCD pattern
Parameters:
xax
abx
bcx
cdx
pAsym
發布通知:
v84
updated pat_xabcdIncomplete()
updated pat_xabcdIncomplete()
發布通知:
v85
pat_xabcdIncomplete() bug fix
pat_xabcdIncomplete() bug fix