# -*- coding: utf-8 -*- ############################################################################## # # OpenERP, Open Source Management Solution # Copyright (C) 2004-2010 Tiny SPRL (). # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU Affero General Public License as # published by the Free Software Foundation, either version 3 of the # License, or (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU Affero General Public License for more details. # # You should have received a copy of the GNU Affero General Public License # along with this program. If not, see . # ############################################################################## from openerp.osv import fields from openerp.osv import osv import time from datetime import datetime from openerp.tools.translate import _ #---------------------------------------------------------- # Work Centers #---------------------------------------------------------- # capacity_hour : capacity per hour. default: 1.0. # Eg: If 5 concurrent operations at one time: capacity = 5 (because 5 employees) # unit_per_cycle : how many units are produced for one cycle class stock_move(osv.osv): _inherit = 'stock.move' _columns = { 'move_dest_id_lines': fields.one2many('stock.move','move_dest_id', 'Children Moves') } def copy(self, cr, uid, id, default=None, context=None): if default is None: default = {} default.update({ 'move_dest_id_lines': [], }) return super(stock_move, self).copy(cr, uid, id, default, context) class mrp_production_workcenter_line(osv.osv): def _get_date_end(self, cr, uid, ids, field_name, arg, context=None): """ Finds ending date. @return: Dictionary of values. """ ops = self.browse(cr, uid, ids, context=context) date_and_hours_by_cal = [(op.date_planned, op.hour, op.workcenter_id.calendar_id.id) for op in ops if op.date_planned] intervals = self.pool.get('resource.calendar').interval_get_multi(cr, uid, date_and_hours_by_cal) res = {} for op in ops: res[op.id] = False if op.date_planned: i = intervals.get((op.date_planned, op.hour, op.workcenter_id.calendar_id.id)) if i: res[op.id] = i[-1][1].strftime('%Y-%m-%d %H:%M:%S') else: res[op.id] = op.date_planned return res def onchange_production_id(self, cr, uid, ids, production_id, context=None): if not production_id: return {} production = self.pool.get('mrp.production').browse(cr, uid, production_id, context=None) result = { 'product': production.product_id.id, 'qty': production.product_qty, 'uom': production.product_uom.id, } return {'value': result} _inherit = 'mrp.production.workcenter.line' _order = "sequence, date_planned" _columns = { 'state': fields.selection([('draft','Draft'),('cancel','Cancelled'),('pause','Pending'),('startworking', 'In Progress'),('done','Finished')],'Status', readonly=True, help="* When a work order is created it is set in 'Draft' status.\n" \ "* When user sets work order in start mode that time it will be set in 'In Progress' status.\n" \ "* When work order is in running mode, during that time if user wants to stop or to make changes in order then can set in 'Pending' status.\n" \ "* When the user cancels the work order it will be set in 'Canceled' status.\n" \ "* When order is completely processed that time it is set in 'Finished' status."), 'date_planned': fields.datetime('Scheduled Date', select=True), 'date_planned_end': fields.function(_get_date_end, string='End Date', type='datetime'), 'date_start': fields.datetime('Start Date'), 'date_finished': fields.datetime('End Date'), 'delay': fields.float('Working Hours',help="The elapsed time between operation start and stop in this Work Center",readonly=True), 'production_state':fields.related('production_id','state', type='selection', selection=[('draft','Draft'),('confirmed','Waiting Goods'),('ready','Ready to Produce'),('in_production','In Production'),('cancel','Canceled'),('done','Done')], string='Production Status', readonly=True), 'product':fields.related('production_id','product_id',type='many2one',relation='product.product',string='Product', readonly=True), 'qty':fields.related('production_id','product_qty',type='float',string='Qty',readonly=True, store=True), 'uom':fields.related('production_id','product_uom',type='many2one',relation='product.uom',string='Unit of Measure',readonly=True), } _defaults = { 'state': 'draft', 'delay': 0.0, 'production_state': 'draft' } def modify_production_order_state(self, cr, uid, ids, action): """ Modifies production order state if work order state is changed. @param action: Action to perform. @return: Nothing """ prod_obj_pool = self.pool.get('mrp.production') oper_obj = self.browse(cr, uid, ids)[0] prod_obj = oper_obj.production_id if action == 'start': if prod_obj.state =='confirmed': prod_obj_pool.force_production(cr, uid, [prod_obj.id]) prod_obj_pool.signal_button_produce(cr, uid, [prod_obj.id]) elif prod_obj.state =='ready': prod_obj_pool.signal_button_produce(cr, uid, [prod_obj.id]) elif prod_obj.state =='in_production': return else: raise osv.except_osv(_('Error!'),_('Manufacturing order cannot be started in state "%s"!') % (prod_obj.state,)) else: oper_ids = self.search(cr,uid,[('production_id','=',prod_obj.id)]) obj = self.browse(cr,uid,oper_ids) flag = True for line in obj: if line.state != 'done': flag = False if flag: for production in prod_obj_pool.browse(cr, uid, [prod_obj.id], context= None): if production.move_lines or production.move_created_ids: prod_obj_pool.action_produce(cr,uid, production.id, production.product_qty, 'consume_produce', context = None) prod_obj_pool.signal_button_produce_done(cr, uid, [oper_obj.production_id.id]) return def write(self, cr, uid, ids, vals, context=None, update=True): result = super(mrp_production_workcenter_line, self).write(cr, uid, ids, vals, context=context) prod_obj = self.pool.get('mrp.production') if vals.get('date_planned', False) and update: for prod in self.browse(cr, uid, ids, context=context): if prod.production_id.workcenter_lines: dstart = min(vals['date_planned'], prod.production_id.workcenter_lines[0]['date_planned']) prod_obj.write(cr, uid, [prod.production_id.id], {'date_start':dstart}, context=context, mini=False) return result def action_draft(self, cr, uid, ids, context=None): """ Sets state to draft. @return: True """ return self.write(cr, uid, ids, {'state': 'draft'}, context=context) def action_start_working(self, cr, uid, ids, context=None): """ Sets state to start working and writes starting date. @return: True """ self.modify_production_order_state(cr, uid, ids, 'start') self.write(cr, uid, ids, {'state':'startworking', 'date_start': time.strftime('%Y-%m-%d %H:%M:%S')}, context=context) return True def action_done(self, cr, uid, ids, context=None): """ Sets state to done, writes finish date and calculates delay. @return: True """ delay = 0.0 date_now = time.strftime('%Y-%m-%d %H:%M:%S') obj_line = self.browse(cr, uid, ids[0]) date_start = datetime.strptime(obj_line.date_start,'%Y-%m-%d %H:%M:%S') date_finished = datetime.strptime(date_now,'%Y-%m-%d %H:%M:%S') delay += (date_finished-date_start).days * 24 delay += (date_finished-date_start).seconds / float(60*60) self.write(cr, uid, ids, {'state':'done', 'date_finished': date_now,'delay':delay}, context=context) self.modify_production_order_state(cr,uid,ids,'done') return True def action_cancel(self, cr, uid, ids, context=None): """ Sets state to cancel. @return: True """ return self.write(cr, uid, ids, {'state':'cancel'}, context=context) def action_pause(self, cr, uid, ids, context=None): """ Sets state to pause. @return: True """ return self.write(cr, uid, ids, {'state':'pause'}, context=context) def action_resume(self, cr, uid, ids, context=None): """ Sets state to startworking. @return: True """ return self.write(cr, uid, ids, {'state':'startworking'}, context=context) class mrp_production(osv.osv): _inherit = 'mrp.production' _columns = { 'allow_reorder': fields.boolean('Free Serialisation', help="Check this to be able to move independently all production orders, without moving dependent ones."), } def _production_date_end(self, cr, uid, ids, prop, unknow_none, context=None): """ Calculates planned end date of production order. @return: Dictionary of values """ result = {} for prod in self.browse(cr, uid, ids, context=context): result[prod.id] = prod.date_planned for line in prod.workcenter_lines: result[prod.id] = max(line.date_planned_end, result[prod.id]) return result def action_production_end(self, cr, uid, ids): """ Finishes work order if production order is done. @return: Super method """ obj = self.browse(cr, uid, ids)[0] workcenter_pool = self.pool.get('mrp.production.workcenter.line') for workcenter_line in obj.workcenter_lines: if workcenter_line.state == 'draft': workcenter_pool.signal_button_start_working(cr, uid, [workcenter_line.id]) workcenter_pool.signal_button_done(cr, uid, [workcenter_line.id]) return super(mrp_production,self).action_production_end(cr, uid, ids) def action_in_production(self, cr, uid, ids): """ Changes state to In Production and writes starting date. @return: True """ workcenter_pool = self.pool.get('mrp.production.workcenter.line') for prod in self.browse(cr, uid, ids): if prod.workcenter_lines: workcenter_pool.signal_button_start_working(cr, uid, [prod.workcenter_lines[0].id]) return super(mrp_production,self).action_in_production(cr, uid, ids) def action_cancel(self, cr, uid, ids, context=None): """ Cancels work order if production order is canceled. @return: Super method """ workcenter_pool = self.pool.get('mrp.production.workcenter.line') obj = self.browse(cr, uid, ids,context=context)[0] for workcenter_line in obj.workcenter_lines: workcenter_pool.signal_button_cancel(cr, uid, [workcenter_line.id]) return super(mrp_production,self).action_cancel(cr,uid,ids,context=context) def _compute_planned_workcenter(self, cr, uid, ids, context=None, mini=False): """ Computes planned and finished dates for work order. @return: Calculated date """ dt_end = datetime.now() if context is None: context = {} for po in self.browse(cr, uid, ids, context=context): dt_end = datetime.strptime(po.date_planned, '%Y-%m-%d %H:%M:%S') if not po.date_start: self.write(cr, uid, [po.id], { 'date_start': po.date_planned }, context=context, update=False) old = None for wci in range(len(po.workcenter_lines)): wc = po.workcenter_lines[wci] if (old is None) or (wc.sequence>old): dt = dt_end if context.get('__last_update'): del context['__last_update'] if (wc.date_planned < dt.strftime('%Y-%m-%d %H:%M:%S')) or mini: self.pool.get('mrp.production.workcenter.line').write(cr, uid, [wc.id], { 'date_planned': dt.strftime('%Y-%m-%d %H:%M:%S') }, context=context, update=False) i = self.pool.get('resource.calendar').interval_get( cr, uid, #passing False makes resource_resource._schedule_hours run 1000 iterations doing nothing wc.workcenter_id.calendar_id and wc.workcenter_id.calendar_id.id or None, dt, wc.hour or 0.0 ) if i: dt_end = max(dt_end, i[-1][1]) else: dt_end = datetime.strptime(wc.date_planned_end, '%Y-%m-%d %H:%M:%S') old = wc.sequence or 0 super(mrp_production, self).write(cr, uid, [po.id], { 'date_finished': dt_end }) return dt_end def _move_pass(self, cr, uid, ids, context=None): """ Calculates start date for stock moves finding interval from resource calendar. @return: True """ for po in self.browse(cr, uid, ids, context=context): if po.allow_reorder: continue todo = po.move_lines dt = datetime.strptime(po.date_start,'%Y-%m-%d %H:%M:%S') while todo: l = todo.pop(0) if l.state in ('done','cancel','draft'): continue todo += l.move_dest_id_lines if l.production_id and (l.production_id.date_finished > dt): if l.production_id.state not in ('done','cancel'): for wc in l.production_id.workcenter_lines: i = self.pool.get('resource.calendar').interval_min_get( cr, uid, wc.workcenter_id.calendar_id.id or False, dt, wc.hour or 0.0 ) dt = i[0][0] if l.production_id.date_start > dt.strftime('%Y-%m-%d %H:%M:%S'): self.write(cr, uid, [l.production_id.id], {'date_start':dt.strftime('%Y-%m-%d %H:%M:%S')}, mini=True) return True def _move_futur(self, cr, uid, ids, context=None): """ Calculates start date for stock moves. @return: True """ for po in self.browse(cr, uid, ids, context=context): if po.allow_reorder: continue for line in po.move_created_ids: l = line while l.move_dest_id: l = l.move_dest_id if l.state in ('done','cancel','draft'): break if l.production_id.state in ('done','cancel'): break if l.production_id and (l.production_id.date_start < po.date_finished): self.write(cr, uid, [l.production_id.id], {'date_start': po.date_finished}) break return True def write(self, cr, uid, ids, vals, context=None, update=True, mini=True): direction = {} if vals.get('date_start', False): for po in self.browse(cr, uid, ids, context=context): direction[po.id] = cmp(po.date_start, vals.get('date_start', False)) result = super(mrp_production, self).write(cr, uid, ids, vals, context=context) if (vals.get('workcenter_lines', False) or vals.get('date_start', False)) and update: self._compute_planned_workcenter(cr, uid, ids, context=context, mini=mini) for d in direction: if direction[d] == 1: # the production order has been moved to the passed self._move_pass(cr, uid, [d], context=context) pass elif direction[d] == -1: self._move_futur(cr, uid, [d], context=context) # the production order has been moved to the future pass return result def action_compute(self, cr, uid, ids, properties=None, context=None): """ Computes bills of material of a product and planned date of work order. @param properties: List containing dictionaries of properties. @return: No. of products. """ result = super(mrp_production, self).action_compute(cr, uid, ids, properties=properties, context=context) self._compute_planned_workcenter(cr, uid, ids, context=context) return result class mrp_operations_operation_code(osv.osv): _name="mrp_operations.operation.code" _columns={ 'name': fields.char('Operation Name',size=64, required=True), 'code': fields.char('Code', size=16, required=True), 'start_stop': fields.selection([('start','Start'),('pause','Pause'),('resume','Resume'),('cancel','Cancelled'),('done','Done')], 'Status', required=True), } class mrp_operations_operation(osv.osv): _name="mrp_operations.operation" def _order_date_search_production(self, cr, uid, ids, context=None): """ Finds operations for a production order. @return: List of ids """ operation_ids = self.pool.get('mrp_operations.operation').search(cr, uid, [('production_id','=',ids[0])], context=context) return operation_ids def _get_order_date(self, cr, uid, ids, field_name, arg, context=None): """ Calculates planned date for an operation. @return: Dictionary of values """ res={} operation_obj = self.browse(cr, uid, ids, context=context) for operation in operation_obj: res[operation.id] = operation.production_id.date_planned return res def calc_delay(self, cr, uid, vals): """ Calculates delay of work order. @return: Delay """ code_lst = [] time_lst = [] code_ids = self.pool.get('mrp_operations.operation.code').search(cr, uid, [('id','=',vals['code_id'])]) code = self.pool.get('mrp_operations.operation.code').browse(cr, uid, code_ids)[0] oper_ids = self.search(cr,uid,[('production_id','=',vals['production_id']),('workcenter_id','=',vals['workcenter_id'])]) oper_objs = self.browse(cr,uid,oper_ids) for oper in oper_objs: code_lst.append(oper.code_id.start_stop) time_lst.append(oper.date_start) code_lst.append(code.start_stop) time_lst.append(vals['date_start']) diff = 0 for i in range(0,len(code_lst)): if code_lst[i] == 'pause' or code_lst[i] == 'done' or code_lst[i] == 'cancel': if not i: continue if code_lst[i-1] not in ('resume','start'): continue a = datetime.strptime(time_lst[i-1],'%Y-%m-%d %H:%M:%S') b = datetime.strptime(time_lst[i],'%Y-%m-%d %H:%M:%S') diff += (b-a).days * 24 diff += (b-a).seconds / float(60*60) return diff def check_operation(self, cr, uid, vals): """ Finds which operation is called ie. start, pause, done, cancel. @param vals: Dictionary of values. @return: True or False """ code_ids=self.pool.get('mrp_operations.operation.code').search(cr,uid,[('id','=',vals['code_id'])]) code=self.pool.get('mrp_operations.operation.code').browse(cr,uid,code_ids)[0] code_lst = [] oper_ids=self.search(cr,uid,[('production_id','=',vals['production_id']),('workcenter_id','=',vals['workcenter_id'])]) oper_objs=self.browse(cr,uid,oper_ids) if not oper_objs: if code.start_stop!='start': raise osv.except_osv(_('Sorry!'),_('Operation is not started yet!')) return False else: for oper in oper_objs: code_lst.append(oper.code_id.start_stop) if code.start_stop=='start': if 'start' in code_lst: raise osv.except_osv(_('Sorry!'),_('Operation has already started! You can either Pause/Finish/Cancel the operation.')) return False if code.start_stop=='pause': if code_lst[len(code_lst)-1]!='resume' and code_lst[len(code_lst)-1]!='start': raise osv.except_osv(_('Error!'),_('In order to Pause the operation, it must be in the Start or Resume state!')) return False if code.start_stop=='resume': if code_lst[len(code_lst)-1]!='pause': raise osv.except_osv(_('Error!'),_('In order to Resume the operation, it must be in the Pause state!')) return False if code.start_stop=='done': if code_lst[len(code_lst)-1]!='start' and code_lst[len(code_lst)-1]!='resume': raise osv.except_osv(_('Sorry!'),_('In order to Finish the operation, it must be in the Start or Resume state!')) return False if 'cancel' in code_lst: raise osv.except_osv(_('Sorry!'),_('Operation is Already Cancelled!')) return False if code.start_stop=='cancel': if not 'start' in code_lst : raise osv.except_osv(_('Error!'),_('No operation to cancel.')) return False if 'done' in code_lst: raise osv.except_osv(_('Error!'),_('Operation is already finished!')) return False return True def write(self, cr, uid, ids, vals, context=None): oper_objs = self.browse(cr, uid, ids, context=context)[0] vals['production_id']=oper_objs.production_id.id vals['workcenter_id']=oper_objs.workcenter_id.id if 'code_id' in vals: self.check_operation(cr, uid, vals) if 'date_start' in vals: vals['date_start']=vals['date_start'] vals['code_id']=oper_objs.code_id.id delay=self.calc_delay(cr, uid, vals) wc_op_id=self.pool.get('mrp.production.workcenter.line').search(cr,uid,[('workcenter_id','=',vals['workcenter_id']),('production_id','=',vals['production_id'])]) self.pool.get('mrp.production.workcenter.line').write(cr,uid,wc_op_id,{'delay':delay}) return super(mrp_operations_operation, self).write(cr, uid, ids, vals, context=context) def create(self, cr, uid, vals, context=None): workcenter_pool = self.pool.get('mrp.production.workcenter.line') code_ids=self.pool.get('mrp_operations.operation.code').search(cr,uid,[('id','=',vals['code_id'])]) code=self.pool.get('mrp_operations.operation.code').browse(cr, uid, code_ids, context=context)[0] wc_op_id=workcenter_pool.search(cr,uid,[('workcenter_id','=',vals['workcenter_id']),('production_id','=',vals['production_id'])]) if code.start_stop in ('start','done','pause','cancel','resume'): if not wc_op_id: production_obj=self.pool.get('mrp.production').browse(cr, uid, vals['production_id'], context=context) wc_op_id.append(workcenter_pool.create(cr,uid,{'production_id':vals['production_id'],'name':production_obj.product_id.name,'workcenter_id':vals['workcenter_id']})) if code.start_stop=='start': workcenter_pool.action_start_working(cr,uid,wc_op_id) workcenter_pool.signal_button_start_working(cr, uid, [wc_op_id[0]]) if code.start_stop=='done': workcenter_pool.action_done(cr,uid,wc_op_id) workcenter_pool.signal_button_done(cr, uid, [wc_op_id[0]]) self.pool.get('mrp.production').write(cr,uid,vals['production_id'],{'date_finished':datetime.now().strftime('%Y-%m-%d %H:%M:%S')}) if code.start_stop=='pause': workcenter_pool.action_pause(cr,uid,wc_op_id) workcenter_pool.signal_button_pause(cr, uid, [wc_op_id[0]]) if code.start_stop=='resume': workcenter_pool.action_resume(cr,uid,wc_op_id) workcenter_pool.signal_button_resume(cr, uid, [wc_op_id[0]]) if code.start_stop=='cancel': workcenter_pool.action_cancel(cr,uid,wc_op_id) workcenter_pool.signal_button_cancel(cr, uid, [wc_op_id[0]]) if not self.check_operation(cr, uid, vals): return delay=self.calc_delay(cr, uid, vals) line_vals = {} line_vals['delay'] = delay if vals.get('date_start',False): if code.start_stop == 'done': line_vals['date_finished'] = vals['date_start'] elif code.start_stop == 'start': line_vals['date_start'] = vals['date_start'] self.pool.get('mrp.production.workcenter.line').write(cr, uid, wc_op_id, line_vals, context=context) return super(mrp_operations_operation, self).create(cr, uid, vals, context=context) def initialize_workflow_instance(self, cr, uid, context=None): mrp_production_workcenter_line = self.pool.get('mrp.production.workcenter.line') line_ids = mrp_production_workcenter_line.search(cr, uid, [], context=context) mrp_production_workcenter_line.create_workflow(cr, uid, line_ids) return True _columns={ 'production_id':fields.many2one('mrp.production','Production',required=True), 'workcenter_id':fields.many2one('mrp.workcenter','Work Center',required=True), 'code_id':fields.many2one('mrp_operations.operation.code','Code',required=True), 'date_start': fields.datetime('Start Date'), 'date_finished': fields.datetime('End Date'), 'order_date': fields.function(_get_order_date,string='Order Date',type='date',store={'mrp.production':(_order_date_search_production,['date_planned'], 10)}), } _defaults={ 'date_start': lambda *a:datetime.now().strftime('%Y-%m-%d %H:%M:%S') } # vim:expandtab:smartindent:tabstop=4:softtabstop=4:shiftwidth=4: