# -*- 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 import pooler from openerp import tools from openerp.osv import fields, osv class Env(dict): def __init__(self, obj, user): self.__obj = obj self.__usr = user def __getitem__(self, name): if name in ('__obj', '__user'): return super(Env, self).__getitem__(name) if name == 'user': return self.__user if name == 'object': return self.__obj return self.__obj[name] class process_process(osv.osv): _name = "process.process" _description = "Process" _columns = { 'name': fields.char('Name', size=30,required=True, translate=True), 'active': fields.boolean('Active', help="If the active field is set to False, it will allow you to hide the process without removing it."), 'model_id': fields.many2one('ir.model', 'Object', ondelete='set null'), 'note': fields.text('Notes', translate=True), 'node_ids': fields.one2many('process.node', 'process_id', 'Nodes') } _defaults = { 'active' : lambda *a: True, } def search_by_model(self, cr, uid, res_model, context=None): pool = pooler.get_pool(cr.dbname) model_ids = (res_model or None) and pool.get('ir.model').search(cr, uid, [('model', '=', res_model)]) domain = (model_ids or []) and [('model_id', 'in', model_ids)] result = [] # search all processes res = pool.get('process.process').search(cr, uid, domain) if res: res = pool.get('process.process').browse(cr, uid, res, context=context) for process in res: result.append((process.id, process.name)) return result # else search process nodes res = pool.get('process.node').search(cr, uid, domain) if res: res = pool.get('process.node').browse(cr, uid, res, context=context) for node in res: if (node.process_id.id, node.process_id.name) not in result: result.append((node.process_id.id, node.process_id.name)) return result def graph_get(self, cr, uid, id, res_model, res_id, scale, context=None): pool = pooler.get_pool(cr.dbname) process = pool.get('process.process').browse(cr, uid, id, context=context) name = process.name resource = False state = 'N/A' expr_context = {} states = {} perm = False if res_model: states = dict(pool.get(res_model).fields_get(cr, uid, context=context).get('state', {}).get('selection', {})) if res_id: current_object = pool.get(res_model).browse(cr, uid, res_id, context=context) current_user = pool.get('res.users').browse(cr, uid, uid, context=context) expr_context = Env(current_object, current_user) resource = current_object.name if 'state' in current_object: state = states.get(current_object.state, 'N/A') perm = pool.get(res_model).perm_read(cr, uid, [res_id], context=context)[0] notes = process.note or "N/A" nodes = {} start = [] transitions = {} for node in process.node_ids: data = {} data['name'] = node.name data['model'] = (node.model_id or None) and node.model_id.model data['kind'] = node.kind data['subflow'] = (node.subflow_id or False) and [node.subflow_id.id, node.subflow_id.name] data['notes'] = node.note data['active'] = False data['gray'] = False data['url'] = node.help_url data['model_states'] = node.model_states # get assosiated workflow if data['model']: wkf_ids = self.pool.get('workflow').search(cr, uid, [('osv', '=', data['model'])]) data['workflow'] = (wkf_ids or False) and wkf_ids[0] if 'directory_id' in node and node.directory_id: data['directory_id'] = node.directory_id.id data['directory'] = self.pool.get('document.directory').get_resource_path(cr, uid, data['directory_id'], data['model'], False) if node.menu_id: data['menu'] = {'name': node.menu_id.complete_name, 'id': node.menu_id.id} try: gray = True for cond in node.condition_ids: if cond.model_id and cond.model_id.model == res_model: gray = gray and eval(cond.model_states, expr_context) data['gray'] = not gray except: pass if not data['gray']: if node.model_id and node.model_id.model == res_model: try: data['active'] = eval(node.model_states, expr_context) except Exception: pass nodes[node.id] = data if node.flow_start: start.append(node.id) for tr in node.transition_out: data = {} data['name'] = tr.name data['source'] = tr.source_node_id.id data['target'] = tr.target_node_id.id data['notes'] = tr.note data['buttons'] = buttons = [] for b in tr.action_ids: button = {} button['name'] = b.name button['state'] = b.state button['action'] = b.action buttons.append(button) data['groups'] = groups = [] for r in tr.transition_ids: if r.group_id: groups.append({'name': r.group_id.name}) for r in tr.group_ids: groups.append({'name': r.name}) transitions[tr.id] = data # now populate resource information def update_relatives(nid, ref_id, ref_model): relatives = [] for dummy, tr in transitions.items(): if tr['source'] == nid: relatives.append(tr['target']) if tr['target'] == nid: relatives.append(tr['source']) if not ref_id: nodes[nid]['res'] = False return nodes[nid]['res'] = resource = {'id': ref_id, 'model': ref_model} refobj = pool.get(ref_model).browse(cr, uid, ref_id, context=context) fields = pool.get(ref_model).fields_get(cr, uid, context=context) # check for directory_id from inherited from document module if nodes[nid].get('directory_id', False): resource['directory'] = self.pool.get('document.directory').get_resource_path(cr, uid, nodes[nid]['directory_id'], ref_model, ref_id) resource['name'] = pool.get(ref_model).name_get(cr, uid, [ref_id], context=context)[0][1] resource['perm'] = pool.get(ref_model).perm_read(cr, uid, [ref_id], context=context)[0] ref_expr_context = Env(refobj, current_user) try: if not nodes[nid]['gray']: nodes[nid]['active'] = eval(nodes[nid]['model_states'], ref_expr_context) except: pass for r in relatives: node = nodes[r] if 'res' not in node: for n, f in fields.items(): if node['model'] == ref_model: update_relatives(r, ref_id, ref_model) elif f.get('relation') == node['model']: rel = refobj[n] if rel and isinstance(rel, list) : rel = rel[0] try: # XXX: rel has been reported as string (check it) _id = (rel or False) and rel.id _model = node['model'] update_relatives(r, _id, _model) except: pass if res_id: for nid, node in nodes.items(): if not node['gray'] and (node['active'] or node['model'] == res_model): update_relatives(nid, res_id, res_model) break # calculate graph layout g = tools.graph(nodes.keys(), map(lambda x: (x['source'], x['target']), transitions.values())) g.process(start) g.scale(*scale) #g.scale(100, 100, 180, 120) graph = g.result_get() # fix the height problem miny = -1 for k,v in nodes.items(): x = graph[k]['x'] y = graph[k]['y'] if miny == -1: miny = y miny = min(y, miny) v['x'] = x v['y'] = y for k, v in nodes.items(): y = v['y'] v['y'] = min(y - miny + 10, y) nodes = dict([str(n_key), n_val] for n_key, n_val in nodes.iteritems()) transitions = dict([str(t_key), t_val] for t_key, t_val in transitions.iteritems()) return dict(name=name, resource=resource, state=state, perm=perm, notes=notes, nodes=nodes, transitions=transitions) def copy(self, cr, uid, id, default=None, context=None): """ Deep copy the entire process. """ if not default: default = {} pool = pooler.get_pool(cr.dbname) process = pool.get('process.process').browse(cr, uid, id, context=context) nodes = {} transitions = {} # first copy all nodes and and map the new nodes with original for later use in transitions for node in process.node_ids: for t in node.transition_in: tr = transitions.setdefault(t.id, {}) tr['target'] = node.id for t in node.transition_out: tr = transitions.setdefault(t.id, {}) tr['source'] = node.id nodes[node.id] = pool.get('process.node').copy(cr, uid, node.id, context=context) # then copy transitions with new nodes for tid, tr in transitions.items(): vals = { 'source_node_id': nodes[tr['source']], 'target_node_id': nodes[tr['target']] } tr = pool.get('process.transition').copy(cr, uid, tid, default=vals, context=context) # and finally copy the process itself with new nodes default.update({ 'active': True, 'node_ids': [(6, 0, nodes.values())] }) return super(process_process, self).copy(cr, uid, id, default, context) process_process() class process_node(osv.osv): _name = 'process.node' _description ='Process Node' _columns = { 'name': fields.char('Name', size=30,required=True, translate=True), 'process_id': fields.many2one('process.process', 'Process', required=True, ondelete='cascade'), 'kind': fields.selection([('state','Status'), ('subflow','Subflow')], 'Kind of Node', required=True), 'menu_id': fields.many2one('ir.ui.menu', 'Related Menu'), 'note': fields.text('Notes', translate=True), 'model_id': fields.many2one('ir.model', 'Object', ondelete='set null'), 'model_states': fields.char('States Expression', size=128), 'subflow_id': fields.many2one('process.process', 'Subflow', ondelete='set null'), 'flow_start': fields.boolean('Starting Flow'), 'transition_in': fields.one2many('process.transition', 'target_node_id', 'Starting Transitions'), 'transition_out': fields.one2many('process.transition', 'source_node_id', 'Ending Transitions'), 'condition_ids': fields.one2many('process.condition', 'node_id', 'Conditions'), 'help_url': fields.char('Help URL', size=255) } _defaults = { 'kind': lambda *args: 'state', 'model_states': lambda *args: False, 'flow_start': lambda *args: False, } def copy_data(self, cr, uid, id, default=None, context=None): if not default: default = {} default.update({ 'transition_in': [], 'transition_out': [] }) return super(process_node, self).copy_data(cr, uid, id, default, context=context) process_node() class process_node_condition(osv.osv): _name = 'process.condition' _description = 'Condition' _columns = { 'name': fields.char('Name', size=30, required=True), 'node_id': fields.many2one('process.node', 'Node', required=True, ondelete='cascade'), 'model_id': fields.many2one('ir.model', 'Object', ondelete='set null'), 'model_states': fields.char('Expression', required=True, size=128) } process_node_condition() class process_transition(osv.osv): _name = 'process.transition' _description ='Process Transition' _columns = { 'name': fields.char('Name', size=32, required=True, translate=True), 'source_node_id': fields.many2one('process.node', 'Source Node', required=True, ondelete='cascade'), 'target_node_id': fields.many2one('process.node', 'Target Node', required=True, ondelete='cascade'), 'action_ids': fields.one2many('process.transition.action', 'transition_id', 'Buttons'), 'transition_ids': fields.many2many('workflow.transition', 'process_transition_ids', 'ptr_id', 'wtr_id', 'Workflow Transitions'), 'group_ids': fields.many2many('res.groups', 'process_transition_group_rel', 'tid', 'rid', string='Required Groups'), 'note': fields.text('Description', translate=True), } process_transition() class process_transition_action(osv.osv): _name = 'process.transition.action' _description ='Process Transitions Actions' _columns = { 'name': fields.char('Name', size=32, required=True, translate=True), 'state': fields.selection([('dummy','Dummy'), ('object','Object Method'), ('workflow','Workflow Trigger'), ('action','Action')], 'Type', required=True), 'action': fields.char('Action ID', size=64, states={ 'dummy':[('readonly',1)], 'object':[('required',1)], 'workflow':[('required',1)], 'action':[('required',1)], },), 'transition_id': fields.many2one('process.transition', 'Transition', required=True, ondelete='cascade') } _defaults = { 'state': lambda *args: 'dummy', } def copy_data(self, cr, uid, id, default=None, context=None): if not default: default = {} state = self.pool.get('process.transition.action').browse(cr, uid, id, context=context).state if state: default['state'] = state return super(process_transition_action, self).copy_data(cr, uid, id, default, context) process_transition_action() # vim:expandtab:smartindent:tabstop=4:softtabstop=4:shiftwidth=4: