Merge branch 'feature/workperstrokeslider' into develop
This commit is contained in:
Sander Roosendaal
@@ -102,6 +102,11 @@ def clean_df_stats(datadf,workstrokesonly=True,ignorehr=True,
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except KeyError:
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pass
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try:
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datadf['hr'] = datadf['hr']+10
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except KeyError:
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pass
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datadf=datadf.clip(lower=0)
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datadf.replace(to_replace=0,value=np.nan,inplace=True)
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@@ -116,6 +121,11 @@ def clean_df_stats(datadf,workstrokesonly=True,ignorehr=True,
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except KeyError:
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pass
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try:
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datadf['hr'] = datadf['hr']-10
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except KeyError:
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pass
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# clean data for useful ranges per column
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if not ignorehr:
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try:
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@@ -222,11 +232,11 @@ def clean_df_stats(datadf,workstrokesonly=True,ignorehr=True,
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pass
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try:
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mask = datadf['catch'] > -30.
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datadf.loc[mask,'catch'] = np.nan
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except KeyError:
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pass
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try:
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mask = datadf['catch'] > -30.
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datadf.loc[mask,'catch'] = np.nan
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except KeyError:
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pass
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workoutstateswork = [1,4,5,8,9,6,7]
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@@ -433,7 +443,7 @@ def save_workout_database(f2,r,dosmooth=True,workouttype='rower',
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privacy = 'visible'
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# check for duplicate start times
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ws = Workout.objects.filter(starttime=workoutstarttime,
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ws = Workout.objects.filter(startdatetime=workoutstartdatetime,
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user=r)
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if (len(ws) != 0):
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message = "Warning: This workout probably already exists in the database"
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@@ -139,9 +139,10 @@ def interactive_forcecurve(theworkouts,workstrokesonly=False):
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columns = ['catch','slip','wash','finish','averageforce',
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'peakforceangle','peakforce','spm','distance',
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'workoutstate']
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'workoutstate','driveenergy']
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rowdata = dataprep.getsmallrowdata_db(columns,ids=ids)
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rowdata.dropna(axis=1,how='all',inplace=True)
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rowdata.dropna(axis=0,how='any',inplace=True)
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workoutstateswork = [1,4,5,8,9,6,7]
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@@ -278,6 +279,7 @@ def interactive_forcecurve(theworkouts,workstrokesonly=False):
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var y = data['y']
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var spm1 = data2['spm']
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var distance1 = data2['distance']
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var driveenergy1 = data2['driveenergy']
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var thresholdforce = y[1]
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@@ -293,6 +295,8 @@ def interactive_forcecurve(theworkouts,workstrokesonly=False):
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var maxspm = maxspm.value
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var mindist = mindist.value
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var maxdist = maxdist.value
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var minwork = minwork.value
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var maxwork = maxwork.value
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var catchav = 0
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var finishav = 0
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@@ -307,14 +311,16 @@ def interactive_forcecurve(theworkouts,workstrokesonly=False):
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for (i=0; i<c.length; i++) {
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if (spm1[i]>=minspm && spm1[i]<=maxspm) {
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if (distance1[i]>=mindist && distance1[i]<=maxdist) {
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catchav += c[i]
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finishav += finish[i]
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slipav += slip[i]
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washav += wash[i]
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peakforceangleav += peakforceangle[i]
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averageforceav += averageforce[i]
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peakforceav += peakforce[i]
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count += 1
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if (driveenergy1[i]>=minwork && driveenergy1[i]<=maxwork) {
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catchav += c[i]
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finishav += finish[i]
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slipav += slip[i]
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washav += wash[i]
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peakforceangleav += peakforceangle[i]
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averageforceav += averageforce[i]
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peakforceav += peakforce[i]
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count += 1
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}
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}
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}
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}
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@@ -351,6 +357,15 @@ def interactive_forcecurve(theworkouts,workstrokesonly=False):
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title="Max SPM",callback=callback)
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callback.args["maxspm"] = slider_spm_max
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slider_work_min = Slider(start=0, end=1500,value=0, step=10,
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title="Min Work per Stroke",callback=callback)
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callback.args["minwork"] = slider_work_min
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slider_work_max = Slider(start=0, end=1500,value=1500, step=10,
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title="Max Work per Stroke",callback=callback)
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callback.args["maxwork"] = slider_work_max
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distmax = 100+100*int(rowdata['distance'].max()/100.)
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slider_dist_min = Slider(start=0,end=distmax,value=0,step=1,
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@@ -363,9 +378,11 @@ def interactive_forcecurve(theworkouts,workstrokesonly=False):
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callback.args["maxdist"] = slider_dist_max
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layout = layoutrow([layoutcolumn([slider_spm_min,
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slider_spm_max,
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slider_dist_min,
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slider_dist_max,
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slider_spm_max,
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slider_dist_min,
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slider_dist_max,
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slider_work_min,
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slider_work_max,
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],
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),
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plot])
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@@ -897,20 +914,21 @@ def interactive_cum_flex_chart2(theworkouts,promember=0,
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# datadf = dataprep.smalldataprep(theworkouts,xparam,yparam1,yparam2)
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ids = [int(w.id) for w in theworkouts]
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datadf = dataprep.getsmallrowdata_db([xparam,yparam1,yparam2],ids=ids,doclean=False)
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columns = [xparam,yparam1,yparam2,'spm','driveenergy','distance']
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datadf = dataprep.getsmallrowdata_db(columns,ids=ids,doclean=False)
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yparamname1 = axlabels[yparam1]
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if yparam2 != 'None':
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yparamname2 = axlabels[yparam2]
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datadf = datadf[datadf[yparam1] > 0]
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#datadf = datadf[datadf[yparam1] > 0]
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datadf = datadf[datadf[xparam] > 0]
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#datadf = datadf[datadf[xparam] > 0]
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if yparam2 != 'None':
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datadf = datadf[datadf[yparam2] > 0]
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#if yparam2 != 'None':
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# datadf = datadf[datadf[yparam2] > 0]
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# check if dataframe not empty
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if datadf.empty:
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@@ -1053,6 +1071,7 @@ def interactive_cum_flex_chart2(theworkouts,promember=0,
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var y2 = data['y2']
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var spm1 = data['spm']
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var distance1 = data['distance']
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var driveenergy1 = data['driveenergy']
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var xname = data['xname'][0]
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var yname1 = data['yname1'][0]
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var yname2 = data['yname2'][0]
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@@ -1061,6 +1080,8 @@ def interactive_cum_flex_chart2(theworkouts,promember=0,
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var maxspm = maxspm.value
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var mindist = mindist.value
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var maxdist = maxdist.value
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var minwork = minwork.value
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var maxwork = maxwork.value
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var xm = 0
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var ym1 = 0
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var ym2 = 0
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@@ -1080,16 +1101,17 @@ def interactive_cum_flex_chart2(theworkouts,promember=0,
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for (i=0; i<x1.length; i++) {
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if (spm1[i]>=minspm && spm1[i]<=maxspm) {
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if (distance1[i]>=mindist && distance1[i]<=maxdist) {
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data2['x1'].push(x1[i])
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data2['y1'].push(y1[i])
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data2['y2'].push(y2[i])
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data2['spm'].push(spm1[i])
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data2['distance'].push(distance1[i])
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xm += x1[i]
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ym1 += y1[i]
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ym2 += y2[i]
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if (driveenergy1[i]>=minwork && driveenergy1[i]<=maxwork) {
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data2['x1'].push(x1[i])
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data2['y1'].push(y1[i])
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data2['y2'].push(y2[i])
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data2['spm'].push(spm1[i])
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data2['distance'].push(distance1[i])
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xm += x1[i]
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ym1 += y1[i]
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ym2 += y2[i]
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}
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}
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}
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}
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@@ -1104,9 +1126,9 @@ def interactive_cum_flex_chart2(theworkouts,promember=0,
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x1means.location = xm
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y1means.location = ym1
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y2means.location = ym2
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y1label.text = yname1+': '+ym1.toFixed(2)
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y2label.text = yname2+': '+ym2.toFixed(2)
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xlabel.text = xname+': '+xm.toFixed(2)
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y1label.text = yname1+': '+(ym1).toFixed(2)
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y2label.text = yname2+': '+(ym2).toFixed(2)
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xlabel.text = xname+': '+(xm).toFixed(2)
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source2.trigger('change');
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""")
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@@ -1120,6 +1142,15 @@ def interactive_cum_flex_chart2(theworkouts,promember=0,
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title="Max SPM",callback=callback)
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callback.args["maxspm"] = slider_spm_max
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slider_work_min = Slider(start=0.0, end=1500,value=0.0, step=10,
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title="Min Work per Stroke",callback=callback)
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callback.args["minwork"] = slider_work_min
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slider_work_max = Slider(start=0.0, end=1500,value=1500.0, step=10,
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title="Max Work per Stroke",callback=callback)
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callback.args["maxwork"] = slider_work_max
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distmax = 100+100*int(datadf['distance'].max()/100.)
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slider_dist_min = Slider(start=0,end=distmax,value=0,step=1,
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@@ -1132,9 +1163,11 @@ def interactive_cum_flex_chart2(theworkouts,promember=0,
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callback.args["maxdist"] = slider_dist_max
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layout = layoutrow([layoutcolumn([slider_spm_min,
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slider_spm_max,
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slider_dist_min,
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slider_dist_max,
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slider_spm_max,
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slider_dist_min,
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slider_dist_max,
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slider_work_min,
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slider_work_max,
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],
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),
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plot])
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@@ -1162,11 +1195,13 @@ def interactive_flex_chart2(id=0,promember=0,
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#rowdata,row = dataprep.getrowdata_db(id=id)
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columns = [xparam,yparam1,yparam2,
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'ftime','distance','fpace',
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'power','hr','spm',
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'power','hr','spm','driveenergy',
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'time','pace','workoutstate']
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rowdata = dataprep.getsmallrowdata_db(columns,ids=[id],doclean=True)
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rowdata.dropna(axis=1,how='all',inplace=True)
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rowdata.dropna(axis=0,how='any',inplace=True)
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row = Workout.objects.get(id=id)
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if rowdata.empty:
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@@ -1405,6 +1440,7 @@ def interactive_flex_chart2(id=0,promember=0,
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var y1 = data['y1']
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var y2 = data['y2']
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var spm1 = data['spm']
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var driveenergy1 = data['driveenergy']
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var time1 = data['time']
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var pace1 = data['pace']
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var hr1 = data['hr']
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@@ -1419,6 +1455,8 @@ def interactive_flex_chart2(id=0,promember=0,
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var maxspm = maxspm.value
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var mindist = mindist.value
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var maxdist = maxdist.value
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var minwork = minwork.value
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var maxwork = maxwork.value
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var xm = 0
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var ym1 = 0
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var ym2 = 0
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@@ -1443,21 +1481,22 @@ def interactive_flex_chart2(id=0,promember=0,
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for (i=0; i<x1.length; i++) {
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if (spm1[i]>=minspm && spm1[i]<=maxspm) {
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if (distance1[i]>=mindist && distance1[i]<=maxdist) {
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data2['x1'].push(x1[i])
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data2['y1'].push(y1[i])
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data2['y2'].push(y2[i])
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data2['spm'].push(spm1[i])
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data2['time'].push(time1[i])
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data2['fpace'].push(fpace1[i])
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data2['pace'].push(pace1[i])
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data2['hr'].push(hr1[i])
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data2['distance'].push(distance1[i])
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data2['power'].push(power1[i])
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xm += x1[i]
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ym1 += y1[i]
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ym2 += y2[i]
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if (driveenergy1[i]>=minwork && driveenergy1[i]<=maxwork) {
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data2['x1'].push(x1[i])
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data2['y1'].push(y1[i])
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data2['y2'].push(y2[i])
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data2['spm'].push(spm1[i])
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data2['time'].push(time1[i])
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data2['fpace'].push(fpace1[i])
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data2['pace'].push(pace1[i])
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data2['hr'].push(hr1[i])
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data2['distance'].push(distance1[i])
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data2['power'].push(power1[i])
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xm += x1[i]
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ym1 += y1[i]
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ym2 += y2[i]
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}
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}
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}
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}
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@@ -1488,6 +1527,15 @@ def interactive_flex_chart2(id=0,promember=0,
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title="Max SPM",callback=callback)
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callback.args["maxspm"] = slider_spm_max
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slider_work_min = Slider(start=0.0, end=1500,value=0.0, step=10,
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title="Min Work per Stroke",callback=callback)
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callback.args["minwork"] = slider_work_min
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slider_work_max = Slider(start=0.0, end=1500,value=1500.0, step=10,
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title="Max Work per Stroke",callback=callback)
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callback.args["maxwork"] = slider_work_max
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distmax = 100+100*int(rowdata['distance'].max()/100.)
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slider_dist_min = Slider(start=0,end=distmax,value=0,step=1,
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@@ -1500,9 +1548,11 @@ def interactive_flex_chart2(id=0,promember=0,
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callback.args["maxdist"] = slider_dist_max
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layout = layoutrow([layoutcolumn([slider_spm_min,
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slider_spm_max,
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slider_dist_min,
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slider_dist_max,
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slider_spm_max,
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slider_dist_min,
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slider_dist_max,
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slider_work_min,
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slider_work_max,
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],
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),
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plot])
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@@ -1517,7 +1567,9 @@ def interactive_flex_chart2(id=0,promember=0,
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def interactive_bar_chart(id=0,promember=0):
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# check if valid ID exists (workout exists)
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rowdata,row = dataprep.getrowdata_db(id=id)
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rowdata.dropna(axis=1,how='all',inplace=True)
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rowdata.dropna(axis=0,how='any',inplace=True)
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if rowdata.empty:
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return "","No Valid Data Available"
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@@ -1615,7 +1667,9 @@ def interactive_multiple_compare_chart(ids,xparam,yparam,plottype='line',
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'workoutid']
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datadf = dataprep.getsmallrowdata_db(columns,ids=ids)
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datadf.dropna(axis=1,how='all',inplace=True)
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datadf.dropna(axis=0,how='any',inplace=True)
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tseconds = datadf.ix[:,'time']
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yparamname = axlabels[yparam]
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@@ -1777,8 +1831,11 @@ def interactive_comparison_chart(id1=0,id2=0,xparam='distance',yparam='spm',
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rowdata1[n].fillna(value=0,inplace=True)
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rowdata2[n].fillna(value=0,inplace=True)
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rowdata1.dropna(axis=1,how='all',inplace=True)
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rowdata1.dropna(axis=0,how='any',inplace=True)
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rowdata2.dropna(axis=1,how='all',inplace=True)
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rowdata2.dropna(axis=0,how='any',inplace=True)
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row1 = Workout.objects.get(id=id1)
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row2 = Workout.objects.get(id=id2)
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@@ -1948,7 +2005,9 @@ def interactive_comparison_chart(id1=0,id2=0,xparam='distance',yparam='spm',
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def interactive_otw_advanced_pace_chart(id=0,promember=0):
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# check if valid ID exists (workout exists)
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rowdata,row = dataprep.getrowdata_db(id=id)
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rowdata.dropna(axis=1,how='all',inplace=True)
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rowdata.dropna(axis=0,how='any',inplace=True)
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if rowdata.empty:
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return "","No Valid Data Available"
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