Mercurial > getan
view classic/getan.py @ 115:32dad62909c3
Convert classic getan into a module to be able to install it
author | Björn Ricks <bjoern.ricks@intevation.de> |
---|---|
date | Mon, 12 Dec 2011 09:36:21 +0100 |
parents | classic/getan@9c4e8ba3c4fa |
children |
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#!/usr/bin/env python # -*- coding: utf-8 -*- # # getan # ----- # (c) 2008 by Sascha L. Teichmann <sascha.teichmann@intevation.de> # # A python worklog-alike to log what you have 'getan' (done). # # This is Free Software licensed under the terms of GPLv3 or later. # For details see LICENSE coming with the source of 'getan'. # import sys import re import curses import curses.ascii import traceback import signal from datetime import datetime, timedelta, tzinfo from pysqlite2 import dbapi2 as db PAUSED = 0 RUNNING = 1 PRE_EXIT = 2 PAUSED_ESC = 3 RUNNING_ESC = 4 SPACE = re.compile("[\\t ]+") DEFAULT_DATABASE = "time.db" LOAD_ACTIVE_PROJECTS = ''' SELECT id, key, description, total FROM projects LEFT JOIN (SELECT project_id, sum(strftime('%s', stop_time) - strftime('%s', start_time)) AS total FROM entries GROUP BY project_id) ON project_id = id WHERE active ''' WRITE_LOG = ''' INSERT INTO entries (project_id, start_time, stop_time, description) VALUES(:project_id, :start_time, :stop_time, :description) ''' CREATE_PROJECT = ''' INSERT INTO projects (key, description) VALUES (:key, :description) ''' LAST_PROJECT_ID = ''' SELECT last_insert_rowid() ''' RENAME_PROJECT = ''' UPDATE projects set key = :key, description = :description WHERE id = :id ''' ASSIGN_LOGS = ''' UPDATE entries SET project_id = :new_id WHERE project_id = :old_id ''' DELETE_PROJECT = ''' DELETE FROM projects WHERE id = :id ''' # XXX: This is not very efficent! LAST_ENTRY = ''' SELECT id, strftime('%s', start_time), strftime('%s', stop_time) FROM entries WHERE project_id = :project_id ORDER by strftime('%s', stop_time) DESC LIMIT 1 ''' DELETE_ENTRY = ''' DELETE FROM entries WHERE id = :id ''' UPDATE_STOP_TIME = ''' UPDATE entries SET stop_time = :stop_time WHERE id = :id ''' worklog = None stdscr = None orig_vis = None def cursor_visible(flag): global orig_vis try: old = curses.curs_set(flag) if orig_vis is None: orig_vis = old return old except: pass return 1 def restore_cursor(): global orig_vis if not orig_vis is None: curses.curs_set(orig_vis) def render_header(ofs=0): global stdscr stdscr.attron(curses.A_BOLD) stdscr.addstr(ofs, 5, "getan v0.1") stdscr.addstr(ofs+1, 3, "--------------") stdscr.attroff(curses.A_BOLD) return ofs + 2 def render_quit(ofs=0): global stdscr stdscr.addstr(ofs + 2, 3, "Press DEL once more to quit") return ofs + 3 def tolerantClose(cur): if cur: try: cur.close() except: pass def ifNull(v, d): if v is None: return d return v def human_time(delta): seconds = delta.seconds s = seconds % 60 if delta.microseconds >= 500000: s += 1 seconds /= 60 m = seconds % 60 seconds /= 60 out = "%02d:%02d:%02d" % (seconds, m, s) if delta.days: out = "%dd %s" % (delta.days, out) return out FACTORS = { 's': 1, 'm': 60, 'h' : 60*60, 'd': 24*60*60} def human_seconds(timespec): """Translate human input to seconds, default factor is minutes""" total = 0 for v in timespec.split(':'): factor = FACTORS.get(v[-1]) if factor: v = v[:-1] else: factor = 60 total += int(v) * factor return total ESC_MAP = { curses.KEY_F1 : ord('1'), curses.KEY_F2 : ord('2'), curses.KEY_F3 : ord('3'), curses.KEY_F4 : ord('4'), curses.KEY_F5 : ord('5'), curses.KEY_F6 : ord('6'), curses.KEY_F7 : ord('7'), curses.KEY_F8 : ord('8'), curses.KEY_F9 : ord('9'), curses.KEY_F10: ord('0'), } ZERO = timedelta(0) class UTC(tzinfo): """UTC""" def utcoffset(self, dt): return ZERO def tzname(self, dt): return "UTC" def dst(self, dt): return ZERO class Project: def __init__(self, id = None, key = None, desc = None, total = 0): self.id = id self.key = key self.desc = desc self.total = timedelta(seconds = ifNull(total, 0)) self.start_time = None def checkExistence(self, cur): if self.id is None: cur.execute(CREATE_PROJECT, { 'key' : self.key, 'description': self.desc}) cur.execute(LAST_PROJECT_ID) row = cur.fetchone() cur.connection.commit() self.id = row[0] def writeLog(self, cur, description = None): if self.start_time is None: return self.checkExistence(cur) now = datetime.now() cur.execute(WRITE_LOG, { 'project_id' : self.id, 'start_time' : self.start_time, 'stop_time' : now, 'description': description}) self.total += now-self.start_time return now def getId(self, cur): self.checkExistence(cur) return self.id def rename(self, cur, key, desc): self.key = key self.desc = desc self.checkExistence(cur) cur.execute(RENAME_PROJECT, { 'key' : key, 'description': desc, 'id' : self.id }) cur.connection.commit() def assignLogs(self, cur, anon): self.total += anon.total anon.total = timedelta(seconds=0) old_id = anon.getId(cur) new_id = self.getId(cur) cur.execute(ASSIGN_LOGS, { 'new_id': new_id, 'old_id': old_id}) cur.connection.commit() def delete(self, cur): pid = self.getId(cur) cur.execute(DELETE_PROJECT, { 'id': pid }) cur.connection.commit() def subtractTime(self, cur, seconds): subtractTimeed, zero = timedelta(), timedelta() pid = {'project_id': self.getId(cur)} utc = UTC() while seconds > zero: cur.execute(LAST_ENTRY, pid) row = cur.fetchone() if row is None: break # TODO: evaluate egenix-mx start_time = datetime.fromtimestamp(float(row[1]), utc) stop_time = datetime.fromtimestamp(float(row[2]), utc) runtime = stop_time - start_time if runtime <= seconds: cur.execute(DELETE_ENTRY, { 'id': row[0] }) cur.connection.commit() seconds -= runtime subtractTimeed += runtime else: stop_time -= seconds cur.execute(UPDATE_STOP_TIME, { 'id': row[0], 'stop_time': stop_time}) cur.connection.commit() subtractTimeed += seconds break self.total -= subtractTimeed return subtractTimeed def addTime(self, cur, seconds, description): now = datetime.now() cur.execute(WRITE_LOG, { 'project_id' : self.getId(cur), 'start_time' : now - seconds, 'stop_time' : now, 'description': description }) cur.connection.commit() self.total += seconds def build_tree(project, depth): if len(project.key) == depth+1: return ProjectNode(project, project.key[depth]) node = ProjectNode(None, project.key[depth]) node.children.append(build_tree(project, depth+1)) return node class ProjectNode: def __init__(self, project = None, key = None): self.children = [] self.project = project self.key = key def insertProject(self, project, depth = 0): if not project.key: # anonym -> end node = ProjectNode(project) self.children.append(node) return for i, child in enumerate(self.children): if not child.key: # before anonym projects self.children.insert(i, build_tree(project, depth)) return if child.key == project.key[depth]: child.insertProject(project, depth+1) return self.children.append(build_tree(project, depth)) def removeProject(self, project): if self.isLeaf(): return stack = [self] while stack: parent = stack.pop() for child in parent.children: if not child.isLeaf(): stack.append(child) continue if child.project == project: parent.children.remove(child) return def isLeaf(self): return not self.project is None def findProject(self, key): l, lower = key.lower(), None for child in self.children: if child.key == key: return child if child.key and child.key.lower() == l: lower = child return lower def dump(self, depth = 0): out = [] indent = " " * depth out.append("%skey: %s" % (indent, self.key)) if self.project: out.append("%sdescription: %s" % (indent, self.project.desc)) for child in self.children: out.append(child.dump(depth+1)) return "\n".join(out) class Worklog: def __init__(self, database): self.initDB(database) self.projects = [] self.tree = ProjectNode() self.state = PAUSED self.current_project = None self.selection = self.tree self.stack = [] self.loadProjects() def initDB(self, database): self.con = db.connect(database) def loadProjects(self): cur = None try: cur = self.con.cursor() cur.execute(LOAD_ACTIVE_PROJECTS) while True: row = cur.fetchone() if not row: break project = Project(*row) self.projects.append(project) self.tree.insertProject(project) finally: tolerantClose(cur) def shutdown(self): self.con.close() def fetchStack(self): cut = ''.join([chr(i) for i in self.stack]) self.stack = [] return cut def findProject(self, key): key_lower = key.lower() lower = None for p in self.projects: if p.key == key: return p if p.key and p.key.lower() == key_lower: lower = p return lower def findAnonymProject(self, num): count = 0 for p in self.projects: if p.key is None: if count == num: return p count += 1 return None def renameAnonymProject(self, num, key, description): project = self.findAnonymProject(num) if project: cur = None try: cur = self.con.cursor() project.rename(cur, key, description) finally: tolerantClose(cur) self.tree.removeProject(project) self.tree.insertProject(project) def assignLogs(self, num, key): anon = self.findAnonymProject(num) if anon is None: return project = self.findProject(key) if project is None: return cur = None try: cur = self.con.cursor() project.assignLogs(cur, anon) self.projects.remove(anon) anon.delete(cur) finally: tolerantClose(cur) def addTime(self, key, seconds, description = None): project = self.findProject(key) if project is None: return cur = None try: cur = self.con.cursor() project.addTime(cur, seconds, description) finally: tolerantClose(cur) def subtractTime(self, key, seconds): project = self.findProject(key) if project is None: return cur = None try: cur = self.con.cursor() project.subtractTime(cur, seconds) finally: tolerantClose(cur) def isRunning(self): return self.state in (RUNNING, RUNNING_ESC) def totalTime(self): sum = timedelta() for p in self.projects: sum += p.total return sum def render(self, ofs=0): ofs = render_header(ofs) ml = max([len(p.desc and p.desc or "unknown") for p in self.projects]) unknown = 0 if self.current_project and self.current_project.start_time: current_delta = datetime.now() - self.current_project.start_time current_time_str = "%s " % human_time(current_delta) current_time_space = " " * len(current_time_str) else: current_delta = timedelta() current_time_str = "" current_time_space = "" for project in self.projects: is_current = project == self.current_project pref = is_current and " -> " or " " if project.key is None: key = "^%d" % unknown unknown += 1 else: key = " %s" % project.key desc = project.desc is None and "unknown" or project.desc stdscr.attron(curses.A_BOLD) stdscr.addstr(ofs, 0, "%s%s" % (pref, key)) stdscr.attroff(curses.A_BOLD) stdscr.addstr(" %s" % desc) diff = ml - len(desc) + 1 stdscr.addstr(" " * diff) if is_current: stdscr.attron(curses.A_UNDERLINE) if is_current: stdscr.addstr("%s(%s)" % ( current_time_str, human_time(project.total + current_delta))) else: stdscr.addstr("%s(%s)" % ( current_time_space, human_time(project.total))) if is_current: stdscr.attroff(curses.A_UNDERLINE) ofs += 1 total_str = "(%s)" % human_time(self.totalTime() + current_delta) total_x_pos = ml + 8 + len(current_time_space) stdscr.addstr(ofs, total_x_pos, "=" * len(total_str)) ofs += 1 stdscr.addstr(ofs, total_x_pos, total_str) ofs += 1 return ofs def writeLog(self, description = None): if self.current_project is None: return datetime.now() cur = None try: cur = self.con.cursor() now = self.current_project.writeLog(cur, description) self.con.commit() return now finally: tolerantClose(cur) def pausedState(self, c): c2 = ESC_MAP.get(c) if c2: self.pausedEscapeState(c2) return global stdscr if c in (curses.KEY_DC, curses.KEY_BACKSPACE): stdscr.erase() ofs = render_quit(self.render()) stdscr.refresh() self.state = PRE_EXIT elif c == curses.ascii.ESC: self.state = PAUSED_ESC elif curses.ascii.isascii(c): if c == ord('-'): self.selection = self.tree stdscr.erase() ofs = self.render() old_cur = cursor_visible(1) curses.echo() stdscr.addstr(ofs + 1, 3, "<key> <minutes>: ") key = stdscr.getstr() curses.noecho() cursor_visible(old_cur) key = key.strip() if key: parts = SPACE.split(key, 1) if len(parts) > 1: key, timespec = parts[0], parts[1] try: seconds = human_seconds(timespec) if seconds > 0: seconds = timedelta(seconds=seconds) self.subtractTime(key, seconds) except ValueError: pass stdscr.erase() self.render() stdscr.refresh() elif c == ord('+'): self.selection = self.tree stdscr.erase() ofs = self.render() old_cur = cursor_visible(1) curses.echo() stdscr.addstr(ofs + 1, 3, "<key> <minutes> [<description>]: ") key = stdscr.getstr() curses.noecho() cursor_visible(old_cur) key = key.strip() if key: parts = SPACE.split(key, 2) if len(parts) > 1: key, timespec = parts[0], parts[1] if len(parts) > 2: desc = parts[2] else: desc = None try: seconds = human_seconds(timespec) if seconds > 0: seconds = timedelta(seconds=seconds) self.addTime(key, seconds, desc) except ValueError: pass stdscr.erase() self.render() stdscr.refresh() else: node = self.selection.findProject(chr(c)) if not node: self.selection = self.tree return if node.isLeaf(): self.selection = self.tree nproject = node.project self.current_project = nproject nproject.start_time = datetime.now() stdscr.erase() ofs = self.render() stdscr.refresh() self.state = RUNNING signal.signal(signal.SIGALRM, alarm_handler) signal.alarm(1) else: self.selection = node def runningState(self, c): global stdscr c2 = ESC_MAP.get(c) if c2: self.runningEscapeState(c2) return if c == curses.ascii.ESC: self.state = RUNNING_ESC elif c == curses.ascii.NL: signal.signal(signal.SIGALRM, signal.SIG_IGN) self.state = PAUSED stdscr.erase() ofs = self.render() old_cur = cursor_visible(1) curses.echo() stdscr.addstr(ofs + 1, 3, "Description: ") description = stdscr.getstr() curses.noecho() cursor_visible(old_cur) self.writeLog(description) self.current_project = None stdscr.erase() ofs = self.render() stdscr.refresh() signal.signal(signal.SIGALRM, alarm_handler) signal.alarm(1) elif c == ord('+'): signal.signal(signal.SIGALRM, signal.SIG_IGN) stdscr.erase() ofs = self.render() if self.stack: timespec = self.fetchStack() else: old_cur = cursor_visible(1) curses.echo() stdscr.addstr(ofs + 1, 3, "Enter time to add: ") timespec = stdscr.getstr() curses.noecho() cursor_visible(old_cur) stdscr.erase() ofs = self.render() try: seconds = human_seconds(timespec) if seconds > 0: seconds = timedelta(seconds=seconds) self.current_project.start_time -= seconds stdscr.addstr(ofs + 1, 3, "added %s" % human_time(seconds)) except (ValueError, IndexError): pass stdscr.refresh() signal.signal(signal.SIGALRM, alarm_handler) signal.alarm(1) elif c == ord('-'): signal.signal(signal.SIGALRM, signal.SIG_IGN) stdscr.erase() ofs = self.render() if self.stack: timespec = self.fetchStack() else: old_cur = cursor_visible(1) curses.echo() stdscr.addstr(ofs + 1, 3, "Enter time to subtract: ") timespec = stdscr.getstr() curses.noecho() cursor_visible(old_cur) stdscr.erase() ofs = self.render() try: seconds = human_seconds(timespec) if seconds > 0: now = datetime.now() seconds = timedelta(seconds=seconds) self.current_project.start_time += seconds stdscr.addstr(ofs + 1, 3, "subtracted %s" % human_time(seconds)) if self.current_project.start_time > now: seconds = self.current_project.start_time - now self.current_project.start_time = now cur = None try: cur = self.con.cursor() self.current_project.subtractTime(cur, seconds) finally: tolerantClose(cur) except (ValueError, IndexError): pass stdscr.refresh() signal.signal(signal.SIGALRM, alarm_handler) signal.alarm(1) elif self.stack or curses.ascii.isdigit(c): self.stack.append(c) elif curses.ascii.isascii(c): project_node = self.selection.findProject(chr(c)) if project_node is None: self.selection = self.tree return if project_node.isLeaf(): self.selection = self.tree nproject = project_node.project if nproject == self.current_project: return nproject.start_time = self.writeLog() self.current_project = nproject stdscr.erase() ofs = self.render() stdscr.refresh() else: self.selection = project_node def pausedEscapeState(self, c): global stdscr if curses.ascii.isdigit(c): pnum = c - ord('0') nproject = self.findAnonymProject(pnum) if nproject is None: nproject = Project() self.projects.append(nproject) nproject.start_time = self.writeLog() self.current_project = nproject self.state = RUNNING stdscr.erase() ofs = self.render() stdscr.refresh() signal.signal(signal.SIGALRM, alarm_handler) signal.alarm(1) elif curses.ascii.isalpha(c): if c == ord('n'): stdscr.erase() ofs = self.render() old_cur = cursor_visible(1) curses.echo() stdscr.addstr(ofs + 1, 3, "<num> <key> <description>: ") stdscr.refresh() description = stdscr.getstr() curses.noecho() cursor_visible(old_cur) description = description.strip() if description: num, key, description = SPACE.split(description, 2) try: num = int(num) self.renameAnonymProject(num, key, description) except ValueError: pass stdscr.erase() ofs = self.render() stdscr.refresh() self.state = PAUSED elif c == ord('a'): stdscr.erase() ofs = self.render() old_cur = cursor_visible(1) curses.echo() stdscr.addstr(ofs + 1, 3, "<num> <key>: ") stdscr.refresh() key = stdscr.getstr() curses.noecho() cursor_visible(old_cur) key = key.strip() if key: num, key = SPACE.split(key, 1) try: num = int(num) self.assignLogs(num, key) except ValueError: pass stdscr.erase() ofs = self.render() stdscr.refresh() self.state = PAUSED else: self.state = PAUSED else: self.state = PAUSED def runningEscapeState(self, c): global stdscr if curses.ascii.isdigit(c): signal.signal(signal.SIGALRM, signal.SIG_IGN) pnum = c - ord('0') nproject = self.findAnonymProject(pnum) if nproject is None: nproject = Project() self.projects.append(nproject) nproject.start_time = self.writeLog() self.current_project = nproject self.state = RUNNING stdscr.erase() self.render() stdscr.refresh() signal.signal(signal.SIGALRM, alarm_handler) signal.alarm(1) else: self.state = RUNNING def run(self): global stdscr stdscr.erase() self.render() stdscr.refresh() while True: c = stdscr.getch() if c == -1: continue if self.state == PAUSED: self.pausedState(c) elif self.state == RUNNING: self.runningState(c) elif self.state == PAUSED_ESC: self.pausedEscapeState(c) elif self.state == RUNNING_ESC: self.runningEscapeState(c) elif self.state == PRE_EXIT: if c in (curses.KEY_DC, curses.KEY_BACKSPACE): break else: stdscr.erase() self.render() stdscr.refresh() self.state = PAUSED def alarm_handler(flag, frame): global worklog global stdscr stdscr.erase() worklog.render() stdscr.refresh() if worklog.isRunning(): signal.alarm(1) def exit_handler(flag, frame): exit_code = 0 global worklog try: worklog.shutdown() except: traceback.print_exc(file=sys.stderr) exit_code = 1 restore_cursor() curses.nocbreak() stdscr.keypad(0) curses.echo() curses.endwin() sys.exit(exit_code) def main(): database = len(sys.argv) < 2 and DEFAULT_DATABASE or sys.argv[1] # TODO: create database file if it does not exist. global worklog try: worklog = Worklog(database) except: traceback.print_exc(file=sys.stderr) sys.exit(1) global stdscr stdscr = curses.initscr() curses.noecho() curses.cbreak() stdscr.keypad(1) cursor_visible(0) signal.signal(signal.SIGHUP, exit_handler) signal.signal(signal.SIGINT, exit_handler) signal.signal(signal.SIGQUIT, exit_handler) signal.signal(signal.SIGTERM, exit_handler) try: try: worklog.run() except: traceback.print_exc(file=sys.stderr) finally: exit_handler(0, None) if __name__ == '__main__': main() # vim:set ts=4 sw=4 si et sta sts=4 fenc=utf8: