import pandas as pd
import numpy as np
import glob
import re
import sys
# Import our local settings management.
import settings

if hasattr(sys, 'ps1'):
    import copy
    debug = True
else:
    debug = False

if settings.pomodoro_logfile():
    # This works for one file:
    timelog = pd.read_csv(settings.pomodoro_logfile())
else:
    # For multiple files:
    path = settings.pomodoro_logpath()
    all_files = glob.glob(path + "*.csv")

    li = []

    for filename in all_files:
        df = pd.read_csv(filename, index_col=None, header=0)
        li.append(df)

    timelog = pd.concat(li, axis=0, ignore_index=True)

if debug:
   imported = copy.deepcopy(timelog)

timelog.drop_duplicates(inplace=True)

if debug:
   nodupes = copy.deepcopy(timelog)

# Dump bad data.  The real solution here is to get rid of the damned 'Cancel'
# button on the Pomodoro Prompt dialog, but i don't know how to do that, so we
# need to drop the rows where the work task description is blank, which is
# coming in as not a number for reasons i'm not entirely clear on.  Maybe
# because it's the last row of the spreadsheet?  Anyway we cannot do anything
# with no data in the description, so drop them at the outset.
# We can allow no data in the 'intention' so define the three columns to check:
timelog = timelog.dropna(subset=['started', 'recorded', 'description'])
timelog = timelog.reset_index(drop=True)

if debug:
   dropna = copy.deepcopy(timelog)

   # For debugging, keep originals around.
   timelog["orig_desc"] = timelog["description"]
   timelog["orig_started"] = timelog["started"]
   timelog["orig_recorded"] = timelog["recorded"]

# Clean up description before we go to work on it.
timelog['description'] = timelog['description'].str.strip()

# Allow multiple entries to be put into one prompt by splitting with semicolon.
# TODO make this a flag since it's possible to use semicolons without meaning
# to make multiple task entries at once.
timelog["description"] = list(timelog["description"].str.split(";"))
timelog = timelog.explode("description").reset_index()

if debug:
    mess = copy.deepcopy(timelog)

timelog["started"] = pd.to_datetime(timelog["started"], errors='coerce').dt.tz_convert("US/Eastern")
timelog["recorded"] = pd.to_datetime(timelog["recorded"]).dt.tz_convert("US/Eastern")

latest_recorded = settings.pomodoro_latest_recorded()
if latest_recorded:
    timelog = timelog[timelog.recorded > pd.to_datetime(latest_recorded)]

timelog["time"] = 30
# A pomodoro started before 3am Eastern time is considered to be a continuation
# of the day before, so we are, effectively, on West Coast time for determining
# the day we want to associate a time entry with.  PomodoroPrompt saves as UTC.
timelog["date"] = timelog["started"].dt.tz_convert("US/Pacific").dt.date
timelog['date'] = pd.to_datetime(timelog['date'])
timelog["day_of_week"] = pd.to_datetime(timelog["date"]).dt.day_name()

# If a project has been specified (task prefixed with a colon), then put the
# project in its own column.
timelog['project'] = (np.where(timelog['description'].str.contains(': '), timelog['description'].str.split(': ', 1).str[0], None))
timelog['description'] = (np.where(timelog['description'].str.contains(': '), timelog['description'].str.split(': ', 1).str[1], timelog['description']))

# Mid-work clean up of description and new project.
timelog['description'] = timelog['description'].str.strip()
timelog['project'] = timelog['project'].str.strip()

timelog['tmp_timeshift'] = timelog['description'].str.extract(r'^(\(.+?)\)', expand=False)
timelog['tmp_timeshift'] = timelog['tmp_timeshift'].str.strip().str.replace("(","", regex=False)
# In an ideal world we would use https://github.com/bear/parsedatetime or similar and
# even better figure out the right date for strings like "Monday" but eh this'll do.
timeshift_days = {
    -1: ['one day ago', '1 day ago', 'yesterday'],
    -2: ['two days ago', '2 days ago', 'day before yesterday', 'the day before yesterday'],
    -3: ['three days ago', '3 days ago'],
    -4: ['four days ago', '4 days ago'],
    -5: ['five days ago', '5 days ago'],
}
for days, phrases in timeshift_days.items():
    phrases.append(str(days))
    timelog.loc[timelog.tmp_timeshift.str.lower().isin(phrases), "tmp_daysdelta"] = int(days)
timelog['tmp_daysdelta'] = timelog['tmp_daysdelta'].fillna(0)
timelog['date'] = timelog['date'] + pd.to_timedelta(timelog['tmp_daysdelta'], unit='D') 
timelog.tmp_timeshift = '(' + timelog.tmp_timeshift + ')'  
# timelog['description'] = (np.where(timelog['tmp_daysdelta'] > 0.0, timelog['description'].str.replace(timelog['tmp_timeshift'], ""), timelog['description']))
# timelog.description.replace(regex=r'(?i)' + timelog.tmp_timeshift, value="")
timelog['tmp_timeshift'] = timelog['tmp_timeshift'].fillna("")
timelog['description'] = timelog.apply(lambda x: x['description'].replace(x['tmp_timeshift'], ''), axis=1)

# If a multiplier has been provided (an asterisk and an integer at the end of a
# task), then multiply the time by it and remove it from the description.
# Ensure we're splitting on the same asterisk we found:  Use the end of string
# signifier in the regular expression ($), and split from the right.
p = re.compile(r'\*\s*\d$')
# On some systems, using np.where worked but others failed.  Why it worked is
# unknown but why it failed is because numpy where evaluates all parts, even
# the parts that will never get used because the where clause does not apply!
# This caused the chained strings to fail because— no string.
# timelog['tmp_multiplier'] = (np.where(timelog['description'].str.contains('\*\s*\d$'), timelog['description'].str.rsplit('*', 1).str[1].str.strip(), 1))
# timelog['description'] = (np.where(timelog['description'].str.contains('\*\s*\d$'), timelog['description'].str.rsplit('*', 1).str[0], timelog['description']))
timelog['tmp_multiplier'] = timelog['description'].apply(lambda x: x.rsplit('*', 1)[1].strip() if p.search(x) else 1)
timelog['description'] = timelog['description'].apply(lambda x: x.rsplit('*', 1)[0] if p.search(x) else x)
timelog["time"] = timelog["time"] * timelog['tmp_multiplier'].astype(int)
timelog.drop(columns=['tmp_multiplier'], inplace=True)

# Clean up description again, after it has been sliced and diced.
timelog['description'] = timelog['description'].str.strip()

# Specific tasks are expanded from items in list on right into project-task combo on left.
compound_project_tasks = {
    "Drutopia — Contributing back to the community": ["Drutopia contrib", "Drutopia contributing", "Drutopia contributions"],
    "Find It Cambridge — Contributing back to the community": ["Find It Contrib"],
    "Find It Cambridge — Planning": ["Find It project management"],
    "Internal — Contributing back to the community": ["Contrib", "Agaric: contrib", "Contributing", "Agaric contrib", "Agaric contributions"],
    "Internal — Conferences & Meetups": ["Conference", "Camps", "Camp", "Conferences", "meetup", "meetups"],
    "Internal — Content": ["content", "blog", "blogging", "writing"],
    "Internal — Documentation": ["documentation", "docs", "documenting"],
    "Internal — Other": ["other"],
    "Internal — Overhead": ["overhead"],
    "Internal — Personal Learning": ["Learning", "Personal learning"],
    "Internal — Presentations": ["presentations", "presentation"],
    "Internal — Network Engagement": ["Network Engagement", "network engagement", "Network engagment", "Social media", "Network building", "Agaric network engagement", "AgaricNetwork Engagement", "Networking"],
    "Internal — Content": ["Agaric site content", "Agaric content"],
    "VHFA — Contributing back to the community": ["VHFA contrib"],
}
for preferred, alternatives in compound_project_tasks.items():
    # We compare all alternatives to lower case versions, and add the
    # preferred output to this list for that purpose, but note that what we use
    # as preferred retains its capitalization.
    alternatives.append(preferred)
    alternatives = [item.lower() for item in alternatives]
    timelog.loc[timelog.project.str.lower().isin(alternatives), "project"] = preferred

# If a compound project was specified, break that out into a sub-project (in
# Harvest, we use Task, which is really task type, for this).
timelog['subproject'] = (np.where(timelog['project'].str.contains(' — '), timelog['project'].str.split(' — ', 1).str[1], None))
timelog['project'] = (np.where(timelog['project'].str.contains(' — '), timelog['project'].str.split(' — ', 1).str[0], timelog['project']))

# Replace irregular-but-known project names with ones timetracking tools use.
harvest_project_names = {
    "Boston Modern Orchestra Project": ["BMOP", "BMOP.org"],
    "CRLA.org upgrade": ["CRLA", "CRLA upgrade"],
    "Cockrill Precision Products": ["Cockrill Corp", "Cockrill"],
    "Cultura Continued Support": ["Cultura", "MIT Cultura"],
    "Drutopia": ["Drutopia improvements", "Drutopia overhead"],
    "EC Connect": ["eccconectcolorado.org", "Denver Econnect", "Denver Early Childhood", "ECconnect", "ECconnectColorado"],
    "Eliot School Site & CRM": ["Eliot", "Eliot School"],
    "encuentro 5 sites": ["Encuentro5", "e5", "Encuentro"],
    "Family & Home": ["Family and Home", "Family home"],
    "Find It Cambridge": ["Find It", "FIC", "Cambridge", "FindIt", "FindIt Cambridge"],
    "GEO Support": ["GEO", "GEO.coop", "Grassroots Economic Organizing"],
    "Green Calendar": ["Action Information, Inc.", "Action Information", "GreenCalendar"],
    "Immigrant Navigator": ["IFSI", "Immigrant Family Services"],
    "Internal": ["Agaric", "Agaric internal"],
    "Leads": ["Lead", "Agaric leads", "Lead followups"],
    "MASS Continuous Improvement": ["MASS Design Group", "MASS", "MASS Design"],
    "Metalwerx Maintenance": ["Metalwerx", "Metalwerx.com"],
    "NICHQ Data Upgrade": ["NICHQ Data"],
    "NICHQ Support": ["NICHQ", "NICHQ maintenance", "NICHQ Community"],
    "NICHQ FL CMS LAN": ["FL CMS LAN", "flcmslan", "NICHQ FLCMSLAN"],
    "OAG - Office of Opportunity and Achievement Gaps Task Force": ["Boston Public Schools", "BPS", "OAG"],
    "Patient HM Brain Science Website": ["Patient HM", "patientHM"],
    "Portside": ["Portside.org Improvements 2020", "portside.org", "Portside support"],
    "SCDTDP Collaboratory Data Site System Security": ["SCDTDP", "NICHQ SCDTDP", "NICHQ security"],
    "Project GUTS/TWIG/Making Sense of Models": ["Teachers with GUTS", "TWIG", "GUTS", "Project GUTS"],
    "SaharaReporters.com": ["Sahara Reporters", "Sahara", "SaharaReporters", "Sahara Network", "SR", "Sahara Reporter"],
    "The Propaganda Site": ["TPS", "Propaganda Site", "The Propganda Site", "Murat & Clay"],
    "Therapy Fidelity App - Development": ["Tulane", "Therapy Fidelity App"], 
    "Type Network": ["TypeNetwork", "TN", "Tyye Network", "Type Netork"],
    "VHFA": ["Vermont Housing Finance Agency", "Vermont", "Vermont Housing"],
    "Vulk redesign": ["Vulk", "Vulk.coop"],
    "Visions Unite": ["VU", "VisionsUnite"],
    "C-Team support": ["ZEIT", "ZEIT ONLINE", "ZEIT Upgrade", "Zeit D9"],
}
other_project_names = {
    "Near North camp": ["Near North Camp", "Near North defense", "Encampment support", "Camp support", "NN camp defense", "NN camp", "NN defense", "Near North camp defense", "Camp", "Near North"],
    "Personal": ["Personal/external", "Personal / external", "External"],
    "Tzedakah": ["Community support"],
    "PWGD": ["People Who Give a Damn", "PWGD Inc"],
    "Workers Defense Alliance": ["WDA", "Alliance", "Twin Cities Workers Defense Alliance"],
    "Solidarity Network": ["SolNet"],
}

replacement_project_names = harvest_project_names | other_project_names

for preferred, alternatives in replacement_project_names.items():
    # We compare all alternatives to lower case versions, and add the
    # preferred output to this list for that purpose, but note that what we use
    # as preferred retains its capitalization.
    alternatives.append(preferred)
    alternatives = [item.lower() for item in alternatives]
    timelog.loc[timelog.project.str.lower().isin(alternatives), "project"] = preferred

# Replace irregular-but-known subproject ("Task") names with ones timetracking tools use.
# Development is the default and never specified.
subproject_names = {
    "Contributing back to the community": ["contrib", "contributing", "contributions"],
    "Not billed": ["nb"],
    "Planning": ["plan", "meeting", "pm", "project management", "plannng"],
    "Quality Assurance": ["qa", "quality"],
}
for preferred, alternatives in subproject_names.items():
    alternatives.append(preferred)
    alternatives = [item.lower() for item in alternatives]
    timelog.loc[timelog.subproject.str.lower().isin(alternatives), "subproject"] = preferred
# TODO flag when task/subproject names are not known, because otherwise they
# get force-created on import.

# Condense duplicate entries by date, summing the minutes spent, and listing
# the first started and last recorded times for each task.
# The fillna is essential or we drop entries with blank ('None') projects.
tl = timelog.groupby(["date", timelog.project.fillna(""), timelog.subproject.fillna("Development"), "description"]).agg({"time": 'sum', "started": 'min', "recorded": 'max'}).reset_index()

# We're doing the final conversion to Harvest as a separate step because we
# want to factor out all of the above non-Harvest-specific logic.

latest = tl.recorded.max()
datest = tl.date.max().strftime('%Y-%m-%d')

# Separate Harvest from non-Harvest projects, and also filter out any blank
# projects, but save those too for a CSV of the excluded items.
hrvst = tl[tl.project.isin(harvest_project_names.keys())]
other = tl[tl.project.isin(other_project_names.keys())]
unknown = tl[~tl.project.isin(replacement_project_names.keys())]

harvest = hrvst.rename(columns = {'date': 'Date', 'project': 'Project', 'subproject': 'Task', 'description': 'Notes'})
harvest["Hours"] = harvest["time"]/60
harvest["First name"] = "Benjamin"
harvest["Last name"] = "Melançon"
project_client_mapping = settings.harvest_get_projects_clients_map()
harvest["Client"] = harvest["Project"].map(project_client_mapping)
harvest.drop(columns = ['started', 'recorded', 'time'], inplace=True)

if not debug:
    harvest.to_csv('harvest-timesheets-' + datest + '.csv', index=False)
    other.to_csv('personal-other-' + datest + '.csv', index=False)
    unknown.to_csv('unknown-' + datest + '.csv', index=False)
    settings.pomodoro_latest_recorded(latest)
else:
    hrvst_grouped = hrvst.groupby("project").agg({"time": "sum"})["time"]/60
    other_grouped = other.groupby("project").agg({"time": "sum"})["time"]/60
    unknown_grouped = unknown.groupby("project").agg({"time": "sum"})["time"]/60
    print("We do not write to CSV nor update the latest recorded setting when run interactively in the python shell.")