#!/usr/bin/python
+from mvpa.misc.plot.base import plot_bars
from glob import glob
-import json
-import sys
+try:
+ from json import load as jload
+ def jsonload(f):
+ return jload(f)
+except ImportError:
+ from json import read as jread
+ def jsonload(f):
+ return jread(f.read())
+import sys, os
import pylab as pl
import numpy as np
-from mvpa.misc.plot.base import plot_bars
+import time
# uniform colors for OS results
os_colors = ['#B63537', '#4E4DA0', '#008200', 'gray']
os_order = ['linux', 'mac', 'win', 'otheros']
+time_order = ['notime', 'little', 'most', 'always']
+time_colors = ['#AA2029', '#D1942B', '#7FB142', '#69A7CE']
+time_categories = {
+ 'notime': "don't use it",
+ 'little': "less than 50%",
+ 'most': "more than 50%",
+ 'always': "always"
+ }
# resources
resource_categories = {
'vendor': 'Vendor/Project website',
'bci': 'Brain-computer interface',
'acq': 'Hardware interface/Data acquisition',
'rt': 'Real-time solutions',
- 'psychphys': 'Psychophysics/Experiment control'
+ 'psychophys': 'Psychophysics/Experiment control'
}
# some meaningful groups of OSes
# end the reverse mapping
os_family_rev = {}
for ost in os_family:
- for os in os_family[ost]:
- os_family_rev[os] = ost
+ for os_ in os_family[ost]:
+ os_family_rev[os_] = ost
def load_list2dict(name):
os_dict = load_list2dict('oslist.txt')
datamod_dict = load_list2dict('datamodlist.txt')
sw_dict = load_list2dict('swlist.txt')
+ position_dict = load_list2dict('position-dd-list.txt')
+ employer_dict = load_list2dict('employer-dd-list.txt')
def __init__(self, srcdir):
# eats the whole directory
return
datafilenames = glob('%s/*.json' % srcdir)
for dfn in datafilenames:
- rawdata = json.load(open(dfn))
+ rawdata = jsonload(open(dfn))
self[rawdata['timestamp']] = rawdata
def get_unique(self, key):
def get_nice_name(self, id):
srcs = [DB.os_dict, os_cat_names, DB.sw_dict, sw_categories,
- resource_categories]
+ resource_categories, time_categories,
+ DB.datamod_dict, DB.position_dict, DB.employer_dict]
for src in srcs:
if id in src:
return src[id]
envs = ['pers_os', 'man_os', 'virt_host_os', 'virt_guest_os']
env_names = ['Personal', 'Managed', 'Virt. Host', 'Virt. Guest']
env_stats = {}
- offset = 0
for env in envs:
counts = db.get_counts(env)
stats = dict(zip(os_family.keys(), [0] * len(os_family)))
stats[os_family_rev[os]] += counts[os]
total_count = np.sum(stats.values())
for osf in stats:
- stats[osf] = float(stats[osf]) / total_count
+ if not total_count:
+ stats[osf] = 0
+ else:
+ stats[osf] = float(stats[osf]) / total_count
env_stats[env] = stats
# make stacked barplot
- pl.figure(figsize=(6.4, 4.8), facecolor='w', edgecolor='k')
+ pl.figure(figsize=(6.4, 4.8))
x = np.arange(len(envs))
bottoms = np.zeros(len(envs))
for i, os in enumerate(os_order):
pl.xlim(-0.25, len(envs))
pl.title("Operating system preference by environment")
pl.ylabel("Fraction of submissions")
- pl.savefig('%s/ospref_by_env.png' % destdir, format='png')
-
-def mkpic_submissions_per_datamod(db, destdir):
- # simple demo
- spd = db.get_counts('bg_datamod')
- spd = sorted(spd.items(), cmp=lambda x, y: cmp(x[1], y[1]))[::-1]
- x = np.arange(len(spd))
- pl.figure(figsize=(6.4, 4.8), facecolor='w', edgecolor='k')
- pl.title('Submissions per data modality')
- pl.bar(x, [s[1] for s in spd])
- pl.xticks(x + 0.5, [db.datamod_dict[k[0]] for k in spd], rotation=-10)
- pl.ylabel('Survey submissions per data modality\n(multiple choices per submission possible)')
- pl.savefig('%s/submissions_per_datamod.png' % destdir, format='png')
+ pl.savefig('%s/ospref_by_env.png' % destdir, format='png', dpi=80)
+
+
+def mkpic_time_per_env(db, destdir):
+ envs = ['pers_time', 'man_time', 'virt_time']
+ env_names = ['Personal', 'Managed', 'Virtual']
+ env_stats = {}
+ for env in envs:
+ counts = dict(zip(time_order, [0] * len(time_order)))
+ counts.update(db.get_counts(env))
+ total_count = np.sum(counts.values())
+ for c in counts:
+ counts[c] = float(counts[c]) / total_count
+ env_stats[env] = counts
+ # make stacked barplot
+ pl.figure(figsize=(7.5, 4))
+ x = np.arange(len(envs))
+ bottoms = np.zeros(len(envs))
+ for i, t in enumerate(time_order):
+ stat = [env_stats[e][t] for e in envs]
+ pl.barh(x, stat, left=bottoms, color=time_colors[i],
+ label=db.get_nice_name(t), height=.6)
+ bottoms += stat
+ pl.legend(loc='center left')
+ pl.yticks(x + 0.2, env_names)
+ pl.ylim(-0.4, len(envs))
+ pl.title("Research activity time by environment")
+ pl.xlabel("Fraction of submissions")
+ pl.savefig('%s/time_by_env.png' % destdir, format='png', dpi=80)
+
+
+def mkpic_submissions_per_key(db, destdir, key, title, sortby='name',
+ multiple=False):
+ counts = db.get_counts(key)
+ pl.figure(figsize=(6.4, 4.8))
+ pl.title(title)
+ if not len(counts):
+ pl.text(.5, .5, "[Insufficient data for this figure]",
+ horizontalalignment='center')
+ pl.axis('off')
+ else:
+ # sort by name
+ if sortby == 'name':
+ stats = sorted(counts.items(), cmp=lambda x, y: cmp(x[0], y[0]))
+ elif sortby == 'count':
+ stats = sorted(counts.items(), cmp=lambda x, y: cmp(x[1], y[1]))[::-1]
+ else:
+ raise ValueError("Specify either name or count for sortby")
+ x = np.arange(len(stats))
+ pl.bar(x + (1./8), [s[1] for s in stats], width=0.75, color = '#008200')
+ pl.xticks(x + 0.5, ['' for s in stats])
+ for i, s in enumerate(stats):
+ pl.text(i+.5, 0.1, db.get_nice_name(s[0]), rotation=90,
+ horizontalalignment='center',
+ verticalalignment='bottom',
+ bbox=dict(facecolor='white', alpha=0.8, edgecolor='white'))
+ pl.xlim(0, len(stats))
+ yl = "Number of submissions"
+ if multiple:
+ yl += "\n(multiple choices per submission possible)"
+ pl.ylabel(yl)
+ pl.savefig('%s/submissions_per_%s.png' % (destdir, key), format='png', dpi=80)
+
def mkpic_resources(db, destdir):
res = db.get_counts('software_resource')
res = res.items()
x = np.arange(len(res))
- pl.figure(figsize=(6.4, 4.8), facecolor='w', edgecolor='k')
+ pl.figure(figsize=(6.4, 4.8))
pl.title('Software resources')
pl.bar(x + (1./8), [s[1] for s in res], width=0.75, color = '#008200')
pl.xticks(x + 0.5, ['' for s in res])
pl.text(i+.5, 0.1, db.get_nice_name(s[0]), rotation=90,
horizontalalignment='center',
verticalalignment='bottom',
- bbox=dict(facecolor='white', alpha=0.8, edgecolor='white',
- color='white'))
+ bbox=dict(facecolor='white', alpha=0.8, edgecolor='white'))
pl.ylabel('Number of submissions')
- pl.savefig('%s/software_resources' % destdir, format='png')
+ pl.savefig('%s/software_resources.png' % destdir, format='png', dpi=80)
def mkpic_software(db, destdir):
for typ in sw_categories.keys():
- counts = db.get_counts('sw_%s' % typ)
- pl.figure(figsize=(6.4, 4.8), facecolor='w', edgecolor='k')
- if not len(counts):
- pl.text(.5, .5, "Insufficient data for this figure.",
- horizontalalignment='center')
- pl.axis('off')
- else:
- # sort by name
- stats = sorted(counts.items(), cmp=lambda x, y: cmp(x[0], y[0]))
- x = np.arange(len(stats))
- pl.bar(x + (1./8), [s[1] for s in stats], width=0.75, color = '#008200')
- pl.title("Software popularity: %s" % db.get_nice_name(typ))
- pl.xticks(x + 0.5, ['' for s in stats])
- for i, s in enumerate(stats):
- pl.text(i+.5, 0.1, db.get_nice_name(s[0]), rotation=90,
- horizontalalignment='center',
- verticalalignment='bottom',
- bbox=dict(facecolor='white', alpha=0.8, edgecolor='white',
- color='white'))
- pl.xlim(0, len(stats))
- pl.ylabel("Number of submissions")
- pl.savefig('%s/sw_%s.png' % (destdir, typ), format='png')
+ mkpic_submissions_per_key(
+ db, destdir, 'sw_%s' % typ,
+ title="Software popularity: %s" % db.get_nice_name(typ),
+ sortby='name')
def mkpic_rating_by_os(db, env, items, destdir, title):
- pl.figure(figsize=(6.4, 4.8), facecolor='w', edgecolor='k')
+ pl.figure(figsize=(6.4, 4.8))
for i, os in enumerate(os_order):
ratings = [db.select_match(env,
os_family[os]).get_not_none('%s' % (it,))[0]
for it in items]
plot_bars(ratings, offset=((i+1)*0.2)-0.1, color=os_colors[i],
- title=title, ylabel="Mean rating", label=os)
+ title=title, ylabel="Mean rating", label=db.get_nice_name(os))
pl.ylim((0,3))
pl.xlim((0,len(items)))
pl.yticks((0, 3), ['Disagree', 'Agree'], rotation=90)
pl.xticks(np.arange(len(items))+0.5, [i[-2:] for i in items],
horizontalalignment='center')
pl.legend(loc='lower right')
- pl.savefig('%s/ratings_%s.png' % (destdir, env), format='png')
+ pl.savefig('%s/ratings_%s.png' % (destdir, env), format='png', dpi=80)
def main(srcdir, destdir):
db = DB(srcdir)
- for pic in [mkpic_submissions_per_datamod, mkpic_os_per_env, mkpic_software,
- mkpic_resources]:
+ if not os.path.exists(destdir):
+ os.makedirs(destdir)
+
+ mkpic_submissions_per_key(
+ db, destdir, 'bg_datamod', sortby='count',
+ title='Submissions per data modality\n(multiple choices per submission possible)')
+
+ mkpic_submissions_per_key(
+ db, destdir, 'bg_position', title='Submissions per position', sortby='count')
+
+ mkpic_submissions_per_key(
+ db, destdir, 'bg_country', title='Submissions per country', sortby='count')
+
+ mkpic_submissions_per_key(
+ db, destdir, 'bg_employer', title='Submissions per venue', sortby='count')
+
+ for pic in [mkpic_os_per_env, mkpic_software,
+ mkpic_resources, mkpic_time_per_env]:
pic(db, destdir)
mkpic_rating_by_os(db, 'pers_os', ['pers_r%i' % i for i in range(1, 9)], destdir,
"Ratings: Personal environment")
"Ratings: Managed environment")
mkpic_rating_by_os(db, 'virt_host_os', ['virt_r%i' % i for i in range(1, 4)], destdir,
"Ratings: Virtual environment (by host OS)")
+ # submission stats: this is RST
+ statsfile = open('%s/stats.txt' % destdir, 'w')
+ statsfile.write('::\n\n Number of submissions: %i\n' % len(db))
+ statsfile.write(' Statistics last updated: %s\n\n' \
+ % time.strftime('%A, %B %d %Y, %H:%M:%S UTC', time.gmtime()))
+ statsfile.close()
if __name__ == '__main__':
main(sys.argv[1], sys.argv[2])
projects / neurodebian.git / blobdiff