# -*- coding: utf-8 -*- # This file is part of lims module for Tryton. # The COPYRIGHT file at the top level of this repository contains # the full copyright notices and license terms. import sys from datetime import datetime, timedelta from dateutil.relativedelta import relativedelta import operator from email.mime.base import MIMEBase from email.mime.multipart import MIMEMultipart from email.mime.application import MIMEApplication import logging from sql import Literal, Join from sql.functions import CurrentTimestamp from trytond.model import Workflow, ModelView, ModelSQL, fields, Unique from trytond.pool import Pool from trytond.pyson import Eval, Equal, Bool, Not, Or, And, If, Len from trytond.transaction import Transaction from trytond.tools import get_smtp_server from trytond.config import config __all__ = ['LimsLaboratoryProfessional', 'LimsLaboratory', 'LimsLabMethod', 'LimsLabDeviceType', 'LimsLabDevice', 'LimsLabDeviceLaboratory', 'LimsProductType', 'LimsMatrix', 'LimsFormula', 'LimsFractionType', 'LimsLaboratoryCVCorrection', 'LimsFormulaVariable', 'LimsAnalysis', 'LimsTypification', 'LimsTypificationAditional', 'LimsTypificationReadOnly', 'LimsCalculatedTypification', 'LimsCalculatedTypificationReadOnly', 'LimsPackagingType', 'LimsAnalysisIncluded', 'LimsAnalysisDevice', 'LimsCertificationType', 'LimsTechnicalScope', 'LimsTechnicalScopeVersion', 'LimsTechnicalScopeVersionLine', 'LimsPackagingIntegrity', 'LimsEntrySuspensionReason', 'LimsEntry', 'LimsZone', 'LimsVariety', 'LimsSampleProducer', 'LimsSample', 'LimsFraction', 'LimsService', 'LimsConcentrationLevel', 'LimsEntryDetailAnalysis', 'LimsNotebook', 'LimsResultsReport', 'LimsPlanification', 'LimsNotebookLine', 'LimsNotebookLineAllFields', 'LimsNotebookLineProfessional', 'LimsRangeType', 'LimsResultsReportVersion', 'LimsResultsReportVersionDetail', 'LimsResultsReportVersionDetailLine', 'LimsAnalysisFamily', 'LimsAnalysisFamilyCertificant', 'LimsMatrixVariety', 'LimsLabDeviceTypeLabMethod', 'LimsAnalysisLaboratory', 'LimsAnalysisLabMethod', 'LimsNotebookLineLaboratoryProfessional', 'LimsEntryInvoiceContact', 'LimsEntryReportContact', 'LimsEntryAcknowledgmentContact', 'LimsVolumeConversion', 'LimsUomConversion', 'LimsRange', 'LimsControlTendency', 'LimsControlTendencyDetail', 'LimsControlTendencyDetailRule'] class LimsLaboratory(ModelSQL, ModelView): 'Laboratory' __name__ = 'lims.laboratory' _rec_name = 'description' code = fields.Char('Code', required=True) description = fields.Char('Description', required=True) default_laboratory_professional = fields.Many2One( 'lims.laboratory.professional', 'Default professional') default_signer = fields.Many2One('lims.laboratory.professional', 'Default signer', required=True) related_location = fields.Many2One('stock.location', 'Related location', required=True, domain=[('type', '=', 'storage')]) cv_corrections = fields.One2Many('lims.laboratory.cv_correction', 'laboratory', 'CV Corrections', help="Corrections for Coefficients of Variation (Control Charts)") section = fields.Selection([ ('amb', 'Ambient'), ('for', 'Formulated'), ('mi', 'Microbiology'), ('rp', 'Agrochemical Residues'), ('sq', 'Chemistry'), ], 'Section', sort=False) @classmethod def __setup__(cls): super(LimsLaboratory, cls).__setup__() t = cls.__table__() cls._sql_constraints += [ ('code_uniq', Unique(t, t.code), 'Laboratory code must be unique'), ] def get_rec_name(self, name): if self.code: return self.code + ' - ' + self.description else: return self.description @classmethod def search_rec_name(cls, name, clause): field = None for field in ('code', 'description'): records = cls.search([(field,) + tuple(clause[1:])], limit=1) if records: break if records: return [(field,) + tuple(clause[1:])] return [(cls._rec_name,) + tuple(clause[1:])] class LimsLaboratoryCVCorrection(ModelSQL, ModelView): 'CV Correction' __name__ = 'lims.laboratory.cv_correction' laboratory = fields.Many2One('lims.laboratory', 'Laboratory', required=True, ondelete='CASCADE', select=True) fraction_type = fields.Many2One('lims.fraction.type', 'Fraction type', required=True) min_cv = fields.Float('Minimum CV (%)') max_cv = fields.Float('Maximum CV (%)') min_cv_corr_fact = fields.Float('Correction factor for Minimum CV', help="Correction factor for CV between Min and Max") max_cv_corr_fact = fields.Float('Correction factor for Maximum CV', help="Correction factor for CV greater than Max") class LimsLaboratoryProfessional(ModelSQL, ModelView): 'Laboratory Professional' __name__ = 'lims.laboratory.professional' _rec_name = 'party' party = fields.Many2One('party.party', 'Party', required=True, domain=[('is_lab_professional', '=', True)]) code = fields.Char('Code') role = fields.Char('Signature role', translate=True) signature = fields.Binary('Signature') @classmethod def __setup__(cls): super(LimsLaboratoryProfessional, cls).__setup__() t = cls.__table__() cls._sql_constraints += [ ('code_uniq', Unique(t, t.code), 'Professional code must be unique'), ('party_uniq', Unique(t, t.party), 'The party is already associated to a professional'), ] def get_rec_name(self, name): if self.party: return self.party.name @classmethod def search_rec_name(cls, name, clause): return [('party',) + tuple(clause[1:])] @classmethod def get_lab_professional(cls): cursor = Transaction().connection.cursor() login_user_id = Transaction().user cursor.execute('SELECT id ' 'FROM party_party ' 'WHERE is_lab_professional = true ' 'AND lims_user = %s ' 'LIMIT 1', (login_user_id,)) party_id = cursor.fetchone() if not party_id: return None cursor.execute('SELECT id ' 'FROM "' + cls._table + '" ' 'WHERE party = %s ' 'LIMIT 1', (party_id[0],)) lab_professional_id = cursor.fetchone() if (lab_professional_id): return lab_professional_id[0] return None class LimsLabMethod(ModelSQL, ModelView): 'Laboratory Method' __name__ = 'lims.lab.method' code = fields.Char('Code', required=True) name = fields.Char('Name', required=True, translate=True) reference = fields.Char('Reference') determination = fields.Char('Determination', required=True) requalification_months = fields.Integer('Requalification months', required=True) supervised_requalification = fields.Boolean('Supervised requalification') deprecated_since = fields.Date('Deprecated since') pnt = fields.Char('PNT') results_estimated_waiting = fields.Integer( 'Estimated number of days for results') @classmethod def __setup__(cls): super(LimsLabMethod, cls).__setup__() t = cls.__table__() cls._sql_constraints += [ ('code_uniq', Unique(t, t.code), 'Method code must be unique'), ] def get_rec_name(self, name): if self.code: return self.code + ' - ' + self.name else: return self.name @classmethod def search_rec_name(cls, name, clause): field = None for field in ('code', 'name'): records = cls.search([(field,) + tuple(clause[1:])], limit=1) if records: break if records: return [(field,) + tuple(clause[1:])] return [(cls._rec_name,) + tuple(clause[1:])] @classmethod def write(cls, *args): super(LimsLabMethod, cls).write(*args) actions = iter(args) for methods, vals in zip(actions, actions): if 'results_estimated_waiting' in vals: cls.update_laboratory_notebook(methods) @classmethod def update_laboratory_notebook(cls, methods): LimsNotebookLine = Pool().get('lims.notebook.line') for method in methods: notebook_lines = LimsNotebookLine.search([ ('method', '=', method.id), ('accepted', '=', False), ]) if notebook_lines: LimsNotebookLine.write(notebook_lines, { 'results_estimated_waiting': ( method.results_estimated_waiting), }) class LimsLabDevice(ModelSQL, ModelView): 'Laboratory Device' __name__ = 'lims.lab.device' _rec_name = 'description' code = fields.Char('Code', required=True) description = fields.Char('Description', required=True) device_type = fields.Many2One('lims.lab.device.type', 'Device type', required=True) laboratories = fields.One2Many('lims.lab.device.laboratory', 'device', 'Laboratories', required=True) serial_number = fields.Char('Serial number') @classmethod def __setup__(cls): super(LimsLabDevice, cls).__setup__() t = cls.__table__() cls._sql_constraints += [ ('code_uniq', Unique(t, t.code), 'Device code must be unique'), ] def get_rec_name(self, name): if self.code: return self.code + ' - ' + self.description else: return self.description @classmethod def search_rec_name(cls, name, clause): field = None for field in ('code', 'description'): records = cls.search([(field,) + tuple(clause[1:])], limit=1) if records: break if records: return [(field,) + tuple(clause[1:])] return [(cls._rec_name,) + tuple(clause[1:])] class LimsLabDeviceType(ModelSQL, ModelView): 'Laboratory Device Type' __name__ = 'lims.lab.device.type' _rec_name = 'description' code = fields.Char('Code', required=True) description = fields.Char('Description', required=True) methods = fields.Many2Many('lims.lab.device.type-lab.method', 'device_type', 'method', 'Methods') @classmethod def __setup__(cls): super(LimsLabDeviceType, cls).__setup__() t = cls.__table__() cls._sql_constraints += [ ('code_uniq', Unique(t, t.code), 'Device type code must be unique'), ] def get_rec_name(self, name): if self.code: return self.code + ' - ' + self.description else: return self.description @classmethod def search_rec_name(cls, name, clause): field = None for field in ('code', 'description'): records = cls.search([(field,) + tuple(clause[1:])], limit=1) if records: break if records: return [(field,) + tuple(clause[1:])] return [(cls._rec_name,) + tuple(clause[1:])] class LimsLabDeviceTypeLabMethod(ModelSQL): 'Laboratory Device Type - Laboratory Method' __name__ = 'lims.lab.device.type-lab.method' device_type = fields.Many2One('lims.lab.device.type', 'Device type', ondelete='CASCADE', select=True, required=True) method = fields.Many2One('lims.lab.method', 'Method', ondelete='CASCADE', select=True, required=True) class LimsLabDeviceLaboratory(ModelSQL, ModelView): 'Laboratory Device Laboratory' __name__ = 'lims.lab.device.laboratory' device = fields.Many2One('lims.lab.device', 'Device', required=True, ondelete='CASCADE', select=True) laboratory = fields.Many2One('lims.laboratory', 'Laboratory', required=True) physically_here = fields.Boolean('Physically here') @classmethod def __setup__(cls): super(LimsLabDeviceLaboratory, cls).__setup__() cls._error_messages.update({ 'physically_elsewhere': ('This Device is physically in another' ' Laboratory'), }) @staticmethod def default_physically_here(): return True @classmethod def validate(cls, laboratories): super(LimsLabDeviceLaboratory, cls).validate(laboratories) for l in laboratories: l.check_location() def check_location(self): if self.physically_here: laboratories = self.search([ ('device', '=', self.device.id), ('physically_here', '=', True), ('id', '!=', self.id), ]) if laboratories: self.raise_user_error('physically_elsewhere') class LimsTypification(ModelSQL, ModelView): 'Typification' __name__ = 'lims.typification' _rec_name = 'analysis' product_type = fields.Many2One('lims.product.type', 'Product type', required=True, select=True, states={'readonly': Bool(Eval('id', 0) > 0)}) matrix = fields.Many2One('lims.matrix', 'Matrix', required=True, select=True, states={'readonly': Bool(Eval('id', 0) > 0)}) analysis = fields.Many2One('lims.analysis', 'Analysis', required=True, domain=[ ('state', '=', 'active'), ('type', '=', 'analysis'), ('behavior', '!=', 'additional'), ], select=True, states={'readonly': Bool(Eval('id', 0) > 0)}) method = fields.Many2One('lims.lab.method', 'Method', required=True, domain=[('id', 'in', Eval('method_domain'))], depends=['method_domain'], select=True) method_view = fields.Function(fields.Many2One('lims.lab.method', 'Method'), 'get_views_field', searcher='search_views_field') method_domain = fields.Function(fields.Many2Many('lims.lab.method', None, None, 'Method domain'), 'on_change_with_method_domain') detection_limit = fields.Float('Detection limit', digits=(16, Eval('limit_digits', 2)), depends=['limit_digits']) quantification_limit = fields.Float('Quantification limit', digits=(16, Eval('limit_digits', 2)), depends=['limit_digits']) limit_digits = fields.Integer('Limit digits') check_result_limits = fields.Boolean( 'Validate limits directly on the result') initial_concentration = fields.Char('Initial concentration') start_uom = fields.Many2One('product.uom', 'Start UoM', domain=[('category.lims_only_available', '=', True)]) final_concentration = fields.Char('Final concentration') end_uom = fields.Many2One('product.uom', 'End UoM', domain=[('category.lims_only_available', '=', True)]) default_repetitions = fields.Integer('Default repetitions', required=True) technical_scope_versions = fields.Function(fields.One2Many( 'lims.technical.scope.version', None, 'Technical scope versions'), 'get_technical_scope_versions') comments = fields.Text('Comments') additional = fields.Many2One('lims.analysis', 'Additional analysis', domain=[('state', '=', 'active'), ('behavior', '=', 'additional')]) additionals = fields.Many2Many('lims.typification-analysis', 'typification', 'analysis', 'Additional analysis', domain=[('id', 'in', Eval('additionals_domain'))], depends=['additionals_domain']) additionals_domain = fields.Function(fields.Many2Many('lims.analysis', None, None, 'Additional analysis domain'), 'on_change_with_additionals_domain') by_default = fields.Boolean('By default') calc_decimals = fields.Integer('Calculation decimals', required=True) report = fields.Boolean('Report') report_type = fields.Selection([ ('normal', 'Normal'), ('polisample', 'Polisample'), ], 'Report type', sort=False) report_result_type = fields.Selection([ ('result', 'Result'), ('both', 'Both'), ], 'Result type', sort=False) valid = fields.Boolean('Active', depends=['valid_readonly'], states={'readonly': Bool(Eval('valid_readonly'))}) valid_view = fields.Function(fields.Boolean('Active'), 'get_views_field', searcher='search_views_field') valid_readonly = fields.Function(fields.Boolean( 'Field active readonly'), 'on_change_with_valid_readonly') @classmethod def __setup__(cls): super(LimsTypification, cls).__setup__() cls._order.insert(0, ('product_type', 'ASC')) cls._order.insert(1, ('matrix', 'ASC')) cls._order.insert(2, ('analysis', 'ASC')) cls._order.insert(3, ('method', 'ASC')) t = cls.__table__() cls._sql_constraints += [ ('product_matrix_analysis_method_uniq', Unique(t, t.product_type, t.matrix, t.analysis, t.method), 'This typification already exists'), ] cls._error_messages.update({ 'limits': ('Quantification limit must be greater than' ' Detection limit'), 'default_typification': ('There is already a default typification' ' for this combination of product type, matrix and analysis'), 'not_default_typification': ('This typification should be the' ' default'), }) @staticmethod def default_limit_digits(): return 2 @staticmethod def default_default_repetitions(): return 0 @staticmethod def default_by_default(): return True @staticmethod def default_calc_decimals(): return 2 @staticmethod def default_report(): return True @staticmethod def default_report_type(): return 'normal' @staticmethod def default_report_result_type(): return 'result' @staticmethod def default_valid(): return True @staticmethod def default_check_result_limits(): return False @classmethod def get_views_field(cls, typifications, names): result = {} for name in names: field_name = name[:-5] result[name] = {} if field_name == 'valid': for t in typifications: result[name][t.id] = getattr(t, field_name, None) else: for t in typifications: field = getattr(t, field_name, None) result[name][t.id] = field.id if field else None return result @classmethod def search_views_field(cls, name, clause): return [(name[:-5],) + tuple(clause[1:])] @fields.depends('analysis') def on_change_with_valid_readonly(self, name=None): if self.analysis and self.analysis.state == 'disabled': return True return False @fields.depends('analysis') def on_change_analysis(self): method = None if self.analysis: methods = self.on_change_with_method_domain() if len(methods) == 1: method = methods[0] self.method = method @fields.depends('analysis') def on_change_with_method_domain(self, name=None): methods = [] if self.analysis and self.analysis.methods: methods = [m.id for m in self.analysis.methods] return methods def get_technical_scope_versions(self, name=None): pool = Pool() LimsTechnicalScopeVersionLine = pool.get( 'lims.technical.scope.version.line') version_lines = LimsTechnicalScopeVersionLine.search([ ('typification', '=', self.id), ('version.valid', '=', True), ]) if version_lines: return [line.version.id for line in version_lines] return [] @fields.depends('analysis', 'product_type', 'matrix') def on_change_with_additionals_domain(self, name=None): cursor = Transaction().connection.cursor() pool = Pool() Analysis = pool.get('lims.analysis') Typification = pool.get('lims.typification') if not self.analysis: return [] if not self.product_type or not self.matrix: return [] cursor.execute('SELECT a.id ' 'FROM "' + Analysis._table + '" a ' 'INNER JOIN "' + Typification._table + '" t ' 'ON a.id = t.analysis ' 'WHERE a.id != %s ' 'AND a.type = \'analysis\' ' 'AND a.behavior != \'additional\' ' 'AND a.state = \'active\' ' 'AND t.product_type = %s ' 'AND t.matrix = %s ' 'AND t.valid IS TRUE', (self.analysis.id, self.product_type.id, self.matrix.id)) res = cursor.fetchall() if not res: return [] return [x[0] for x in res] def get_rec_name(self, name): return self.product_type.rec_name + '-' + self.matrix.rec_name @classmethod def search_rec_name(cls, name, clause): typifications = cls.search(['OR', ('product_type',) + tuple(clause[1:]), ('matrix',) + tuple(clause[1:]), ('analysis',) + tuple(clause[1:]), ('method',) + tuple(clause[1:]), ], order=[]) if typifications: return [('id', 'in', [t.id for t in typifications])] return [(cls._rec_name,) + tuple(clause[1:])] @classmethod def validate(cls, typifications): super(LimsTypification, cls).validate(typifications) for t in typifications: t.check_limits() t.check_default() def check_limits(self): if (self.detection_limit and self.quantification_limit <= self.detection_limit): self.raise_user_error('limits') def check_default(self): if self.by_default: typifications = self.search([ ('product_type', '=', self.product_type.id), ('matrix', '=', self.matrix.id), ('analysis', '=', self.analysis.id), ('valid', '=', True), ('by_default', '=', True), ('id', '!=', self.id), ]) if typifications: self.raise_user_error('default_typification') else: if self.valid: typifications = self.search([ ('product_type', '=', self.product_type.id), ('matrix', '=', self.matrix.id), ('analysis', '=', self.analysis.id), ('valid', '=', True), ('id', '!=', self.id), ]) if not typifications: self.raise_user_error('not_default_typification') @classmethod def create(cls, vlist): typifications = super(LimsTypification, cls).create(vlist) active_typifications = [t for t in typifications if t.valid] cls.create_typification_calculated(active_typifications) return typifications @classmethod def create_typification_calculated(cls, typifications): cursor = Transaction().connection.cursor() pool = Pool() LimsAnalysis = pool.get('lims.analysis') LimsCalculatedTypification = pool.get('lims.typification.calculated') for typification in typifications: cursor.execute('SELECT DISTINCT(analysis) ' 'FROM "' + cls._table + '" ' 'WHERE product_type = %s ' 'AND matrix = %s ' 'AND valid', (typification.product_type.id, typification.matrix.id)) typified_analysis = [a[0] for a in cursor.fetchall()] typified_analysis_ids = ', '.join(str(a) for a in typified_analysis) sets_groups_ids = LimsAnalysis.get_parents_analysis( typification.analysis.id) for set_group_id in sets_groups_ids: t_set_group = LimsCalculatedTypification.search([ ('product_type', '=', typification.product_type.id), ('matrix', '=', typification.matrix.id), ('analysis', '=', set_group_id), ]) if not t_set_group: ia = LimsAnalysis.get_included_analysis_analysis( set_group_id) if not ia: continue included_ids = ', '.join(str(a) for a in ia) cursor.execute('SELECT id ' 'FROM "' + LimsAnalysis._table + '" ' 'WHERE id IN (' + included_ids + ') ' 'AND id NOT IN (' + typified_analysis_ids + ')') if cursor.fetchone(): typified = False else: typified = True if typified: typification_create = [{ 'product_type': typification.product_type.id, 'matrix': typification.matrix.id, 'analysis': set_group_id, }] LimsCalculatedTypification.create( typification_create) return typifications @classmethod def delete(cls, typifications): cls.delete_typification_calculated(typifications) super(LimsTypification, cls).delete(typifications) @classmethod def delete_typification_calculated(cls, typifications): pool = Pool() LimsAnalysis = pool.get('lims.analysis') LimsCalculatedTypification = pool.get('lims.typification.calculated') for typification in typifications: others = cls.search([ ('product_type', '=', typification.product_type.id), ('matrix', '=', typification.matrix.id), ('analysis', '=', typification.analysis.id), ('valid', '=', True), ('id', '!=', typification.id), ]) if others: continue sets_groups_ids = LimsAnalysis.get_parents_analysis( typification.analysis.id) for set_group_id in sets_groups_ids: typified_set_group = LimsCalculatedTypification.search([ ('product_type', '=', typification.product_type.id), ('matrix', '=', typification.matrix.id), ('analysis', '=', set_group_id), ]) if typified_set_group: LimsCalculatedTypification.delete(typified_set_group) @classmethod def write(cls, *args): super(LimsTypification, cls).write(*args) actions = iter(args) for typifications, vals in zip(actions, actions): if 'valid' in vals: if vals['valid']: cls.create_typification_calculated(typifications) else: cls.delete_typification_calculated(typifications) fields_check = ('detection_limit', 'quantification_limit', 'initial_concentration', 'final_concentration', 'start_uom', 'end_uom', 'calc_decimals', 'report') for field in fields_check: if field in vals: cls.update_laboratory_notebook(typifications) break @classmethod def update_laboratory_notebook(cls, typifications): LimsNotebookLine = Pool().get('lims.notebook.line') for typification in typifications: if not typification.valid: continue # Update not RM notebook_lines = LimsNotebookLine.search([ ('notebook.fraction.special_type', '!=', 'rm'), ('notebook.product_type', '=', typification.product_type.id), ('notebook.matrix', '=', typification.matrix.id), ('analysis', '=', typification.analysis.id), ('method', '=', typification.method.id), ('end_date', '=', None), ]) if notebook_lines: LimsNotebookLine.write(notebook_lines, { 'detection_limit': str( typification.detection_limit), 'quantification_limit': str( typification.quantification_limit), 'initial_concentration': unicode( typification.initial_concentration or ''), 'final_concentration': unicode( typification.final_concentration or ''), 'initial_unit': typification.start_uom, 'final_unit': typification.end_uom, 'decimals': typification.calc_decimals, 'report': typification.report, }) # Update RM notebook_lines = LimsNotebookLine.search([ ('notebook.fraction.special_type', '=', 'rm'), ('notebook.product_type', '=', typification.product_type.id), ('notebook.matrix', '=', typification.matrix.id), ('analysis', '=', typification.analysis.id), ('method', '=', typification.method.id), ('end_date', '=', None), ]) if notebook_lines: LimsNotebookLine.write(notebook_lines, { 'initial_concentration': unicode( typification.initial_concentration or ''), }) class LimsTypificationAditional(ModelSQL): 'Typification - Additional analysis' __name__ = 'lims.typification-analysis' typification = fields.Many2One('lims.typification', 'Typification', ondelete='CASCADE', select=True, required=True) analysis = fields.Many2One('lims.analysis', 'Analysis', ondelete='CASCADE', select=True, required=True) class LimsTypificationReadOnly(ModelSQL, ModelView): 'Typification' __name__ = 'lims.typification.readonly' product_type = fields.Many2One('lims.product.type', 'Product type', readonly=True) matrix = fields.Many2One('lims.matrix', 'Matrix', readonly=True) analysis = fields.Many2One('lims.analysis', 'Analysis', readonly=True) method = fields.Many2One('lims.lab.method', 'Method', readonly=True) @classmethod def __setup__(cls): super(LimsTypificationReadOnly, cls).__setup__() cls._order.insert(0, ('product_type', 'ASC')) cls._order.insert(1, ('matrix', 'ASC')) cls._order.insert(2, ('analysis', 'ASC')) cls._order.insert(3, ('method', 'ASC')) @staticmethod def table_query(): pool = Pool() typification = pool.get('lims.typification').__table__() columns = [ typification.id, typification.create_uid, typification.create_date, typification.write_uid, typification.write_date, typification.product_type, typification.matrix, typification.analysis, typification.method, ] where = Literal(True) return typification.select(*columns, where=where) class LimsCalculatedTypification(ModelSQL): 'Calculated Typification' __name__ = 'lims.typification.calculated' _rec_name = 'analysis' product_type = fields.Many2One('lims.product.type', 'Product type', required=True, select=True) matrix = fields.Many2One('lims.matrix', 'Matrix', required=True, select=True) analysis = fields.Many2One('lims.analysis', 'Analysis', required=True, ondelete='CASCADE', select=True) @classmethod def __register__(cls, module_name): super(LimsCalculatedTypification, cls).__register__(module_name) if cls.search_count([]) == 0: cls.populate_typification_calculated() @classmethod def populate_typification_calculated(cls): cursor = Transaction().connection.cursor() pool = Pool() LimsAnalysis = pool.get('lims.analysis') LimsTypification = pool.get('lims.typification') cursor.execute('SELECT DISTINCT(product_type, matrix) ' 'FROM "' + LimsTypification._table + '" ' 'WHERE valid') typifications = cursor.fetchall() if typifications: typifications_count = 0 typifications_total = len(typifications) for typification in typifications: typifications_count += 1 logging.getLogger('lims').info( 'Calculating typification %s of %s' % (typifications_count, typifications_total)) product_type = int(typification[0].split(',')[0][1:]) matrix = int(typification[0].split(',')[1][:-1]) cursor.execute('SELECT DISTINCT(analysis) ' 'FROM "' + LimsTypification._table + '" ' 'WHERE product_type = %s ' 'AND matrix = %s ' 'AND valid', (product_type, matrix)) typified_analysis = [a[0] for a in cursor.fetchall()] typified_analysis_ids = ', '.join(str(a) for a in typified_analysis) cursor.execute('SELECT id ' 'FROM "' + LimsAnalysis._table + '" ' 'WHERE type IN (\'set\', \'group\') ' 'AND state = \'active\'') sets_groups_ids = [x[0] for x in cursor.fetchall()] if sets_groups_ids: for set_group_id in sets_groups_ids: typified = True ia = LimsAnalysis.get_included_analysis_analysis( set_group_id) if not ia: continue included_ids = ', '.join(str(a) for a in ia) cursor.execute('SELECT id ' 'FROM "' + LimsAnalysis._table + '" ' 'WHERE id IN (' + included_ids + ') ' 'AND id NOT IN (' + typified_analysis_ids + ')') if cursor.fetchone(): typified = False if typified: typification_create = [{ 'product_type': product_type, 'matrix': matrix, 'analysis': set_group_id, }] cls.create(typification_create) class LimsCalculatedTypificationReadOnly(ModelSQL, ModelView): 'Calculated Typification' __name__ = 'lims.typification.calculated.readonly' product_type = fields.Many2One('lims.product.type', 'Product type', readonly=True) matrix = fields.Many2One('lims.matrix', 'Matrix', readonly=True) analysis = fields.Many2One('lims.analysis', 'Analysis', readonly=True) @classmethod def __setup__(cls): super(LimsCalculatedTypificationReadOnly, cls).__setup__() cls._order.insert(0, ('product_type', 'ASC')) cls._order.insert(1, ('matrix', 'ASC')) cls._order.insert(2, ('analysis', 'ASC')) @staticmethod def table_query(): pool = Pool() typification = pool.get('lims.typification.calculated').__table__() columns = [ typification.id, typification.create_uid, typification.create_date, typification.write_uid, typification.write_date, typification.product_type, typification.matrix, typification.analysis, ] where = Literal(True) return typification.select(*columns, where=where) class LimsProductType(ModelSQL, ModelView): 'Product Type' __name__ = 'lims.product.type' _rec_name = 'description' code = fields.Char('Code', required=True) description = fields.Char('Description', required=True) restricted_entry = fields.Boolean('Restricted entry') @classmethod def __setup__(cls): super(LimsProductType, cls).__setup__() t = cls.__table__() cls._sql_constraints += [ ('code_uniq', Unique(t, t.code), 'Product type code must be unique'), ] @staticmethod def default_restricted_entry(): return False def get_rec_name(self, name): if self.code: return self.code + ' - ' + self.description else: return self.description @classmethod def search_rec_name(cls, name, clause): field = None for field in ('code', 'description'): records = cls.search([(field,) + tuple(clause[1:])], limit=1) if records: break if records: return [(field,) + tuple(clause[1:])] return [(cls._rec_name,) + tuple(clause[1:])] class LimsMatrix(ModelSQL, ModelView): 'Matrix' __name__ = 'lims.matrix' _rec_name = 'description' code = fields.Char('Code', required=True) description = fields.Char('Description', required=True) restricted_entry = fields.Boolean('Restricted entry') @classmethod def __setup__(cls): super(LimsMatrix, cls).__setup__() t = cls.__table__() cls._sql_constraints += [ ('code_uniq', Unique(t, t.code), 'Matrix code must be unique'), ] @staticmethod def default_restricted_entry(): return False def get_rec_name(self, name): if self.code: return self.code + ' - ' + self.description else: return self.description @classmethod def search_rec_name(cls, name, clause): field = None for field in ('code', 'description'): records = cls.search([(field,) + tuple(clause[1:])], limit=1) if records: break if records: return [(field,) + tuple(clause[1:])] return [(cls._rec_name,) + tuple(clause[1:])] class LimsPackagingType(ModelSQL, ModelView): 'Packaging Type' __name__ = 'lims.packaging.type' _rec_name = 'description' code = fields.Char('Code', required=True) description = fields.Char('Description', required=True, translate=True) @classmethod def __setup__(cls): super(LimsPackagingType, cls).__setup__() t = cls.__table__() cls._sql_constraints += [ ('code_uniq', Unique(t, t.code), 'Packaging type code must be unique'), ] def get_rec_name(self, name): if self.code: return self.code + ' - ' + self.description else: return self.description @classmethod def search_rec_name(cls, name, clause): field = None for field in ('code', 'description'): records = cls.search([(field,) + tuple(clause[1:])], limit=1) if records: break if records: return [(field,) + tuple(clause[1:])] return [(cls._rec_name,) + tuple(clause[1:])] class LimsFormula(ModelSQL, ModelView): 'Formula' __name__ = 'lims.formula' name = fields.Char('Name', required=True) formula = fields.Char('Formula', required=True) variables = fields.One2Many('lims.formula.variable', 'formula', 'Variables', required=True) class LimsFormulaVariable(ModelSQL, ModelView): 'Formula Variable' __name__ = 'lims.formula.variable' formula = fields.Many2One('lims.formula', 'Formula', required=True, ondelete='CASCADE', select=True) number = fields.Char('Number', required=True) description = fields.Char('Description', required=True) fraction_type = fields.Many2One('lims.fraction.type', 'Fraction type') constant = fields.Char('Constant') class LimsAnalysis(Workflow, ModelSQL, ModelView): 'Analysis/Set/Group' __name__ = 'lims.analysis' _rec_name = 'description' code = fields.Char('Code', required=True, states={'readonly': Eval('state') != 'draft'}, depends=['state']) description = fields.Char('Description', required=True, translate=True, states={'readonly': Bool(Equal(Eval('state'), 'disabled'))}, depends=['state']) type = fields.Selection([ ('analysis', 'Analysis'), ('set', 'Set'), ('group', 'Group'), ], 'Type', sort=False, required=True, states={'readonly': Eval('state') != 'draft'}, depends=['state']) laboratories = fields.One2Many('lims.analysis-laboratory', 'analysis', 'Laboratories', context={'type': Eval('type')}, states={ 'invisible': Or( Eval('type').in_(['group']), Bool(Equal(Eval('behavior'), 'additional'))), 'required': Not(Or( Eval('type').in_(['set', 'group']), Bool(Equal(Eval('behavior'), 'additional')))), 'readonly': Bool(Equal(Eval('state'), 'disabled')), }, depends=['type', 'behavior', 'state']) laboratory_domain = fields.Function(fields.Many2Many('lims.laboratory', None, None, 'Laboratories'), 'on_change_with_laboratory_domain') methods = fields.Many2Many('lims.analysis-lab.method', 'analysis', 'method', 'Methods', states={ 'invisible': Or( Eval('type').in_(['set', 'group']), Bool(Equal(Eval('behavior'), 'additional'))), 'required': Not(Or( Eval('type').in_(['set', 'group']), Bool(Equal(Eval('behavior'), 'additional')))), 'readonly': Bool(Equal(Eval('state'), 'disabled')), }, depends=['type', 'behavior', 'state']) devices = fields.One2Many('lims.analysis.device', 'analysis', 'Devices', context={'laboratory_domain': Eval('laboratory_domain')}, states={ 'invisible': Or( Eval('type').in_(['set', 'group']), Bool(Equal(Eval('behavior'), 'additional'))), 'readonly': Bool(Equal(Eval('state'), 'disabled')), }, depends=['type', 'behavior', 'laboratory_domain', 'state']) start_date = fields.Date('Entry date', readonly=True) end_date = fields.Date('Leaving date', readonly=True) included_analysis = fields.One2Many('lims.analysis.included', 'analysis', 'Included analysis', context={ 'analysis': Eval('id'), 'type': Eval('type'), 'laboratory_domain': Eval('laboratory_domain')}, states={ 'invisible': Bool(Equal(Eval('type'), 'analysis')), 'readonly': Bool(Equal(Eval('state'), 'disabled')), }, depends=['type', 'laboratory_domain', 'state']) all_included_analysis = fields.Function(fields.One2Many('lims.analysis', None, 'All included analysis'), 'on_change_with_all_included_analysis') behavior = fields.Selection([ ('normal', 'Normal'), ('internal_relation', 'Internal Relation'), ('additional', 'Additional'), ], 'Behavior', required=True, sort=False, states={ 'readonly': Or( Eval('type').in_(['set', 'group']), Eval('state') != 'draft', ), }, depends=['type', 'state']) result_formula = fields.Char('Result formula', states={ 'invisible': Not( Bool(Equal(Eval('behavior'), 'internal_relation'))), 'required': Bool(Equal(Eval('behavior'), 'internal_relation')), 'readonly': Bool(Equal(Eval('state'), 'disabled')), }, depends=['behavior', 'state']) converted_result_formula = fields.Char('Converted result formula', states={ 'invisible': Not( Bool(Equal(Eval('behavior'), 'internal_relation'))), 'required': Bool(Equal(Eval('behavior'), 'internal_relation')), 'readonly': Bool(Equal(Eval('state'), 'disabled')), }, depends=['behavior', 'state']) gender_species = fields.Text('Gender Species', translate=True, states={ 'invisible': Not(And( Bool(Equal(Eval('type'), 'analysis')), Bool(Equal(Eval('behavior'), 'normal')))), 'readonly': Bool(Equal(Eval('state'), 'disabled')), }, depends=['type', 'behavior', 'state']) microbiology = fields.Function(fields.Boolean('Microbiology'), 'on_change_with_microbiology') formula = fields.Many2One('lims.formula', 'Formula', states={ 'invisible': Not(And( Bool(Equal(Eval('type'), 'analysis')), Bool(Equal(Eval('behavior'), 'normal')))), 'readonly': Bool(Equal(Eval('state'), 'disabled')), }, depends=['type', 'behavior', 'state']) product = fields.Many2One('product.product', 'Product') automatic_acquisition = fields.Boolean('Automatic acquisition', states={'readonly': Bool(Equal(Eval('state'), 'disabled'))}, depends=['state']) order = fields.Integer('Order', states={ 'invisible': Not(And( Bool(Equal(Eval('type'), 'analysis')), Eval('behavior').in_(['normal', 'internal_relation']))), 'readonly': Bool(Equal(Eval('state'), 'disabled')), }, depends=['type', 'behavior', 'state']) disable_as_individual = fields.Boolean( 'Not allowed as individual service', states={ 'invisible': Not(And( Bool(Equal(Eval('type'), 'analysis')), Eval('behavior').in_(['normal', 'internal_relation']))), 'readonly': Bool(Equal(Eval('state'), 'disabled')), }, depends=['type', 'behavior', 'state']) state = fields.Selection([ ('draft', 'Draft'), ('active', 'Active'), ('disabled', 'Disabled'), ], 'State', required=True, readonly=True) planning_legend = fields.Char('Planning legend', states={ 'invisible': Not(And( Bool(Equal(Eval('type'), 'analysis')), Bool(Equal(Eval('behavior'), 'normal')))), 'readonly': Bool(Equal(Eval('state'), 'disabled')), }, depends=['type', 'behavior', 'state']) comments = fields.Text('Warnings/Comments') @classmethod def __setup__(cls): super(LimsAnalysis, cls).__setup__() t = cls.__table__() cls._sql_constraints += [ ('code_uniq', Unique(t, t.code), 'Analysis code must be unique'), ] cls._error_messages.update({ 'description_uniq': 'Analysis description must be unique', 'not_laboratory': 'Must define a Laboratory', 'set_laboratories': ('A Set can be assigned to a single' ' laboratory'), 'analysis_laboratory': ('The "%(analysis)s" analysis is not' ' defined in laboratory "%(laboratory)s"'), 'not_laboratory_change': ('You can not change the laboratory' ' because the analysis is included in a set/group with this' ' laboratory'), 'end_date': 'The leaving date cannot be lower than entry date', 'end_date_wrong': ('End date should not be greater than the ' 'current date'), }) cls._transitions |= set(( ('draft', 'active'), ('active', 'disabled'), )) cls._buttons.update({ 'relate_analysis': { 'invisible': (Eval('type') != 'set'), 'readonly': Bool(Equal(Eval('state'), 'disabled')), }, 'activate': { 'invisible': (Eval('state') != 'draft'), }, 'disable': { 'invisible': (Eval('state') != 'active'), }, }) @staticmethod def default_behavior(): return 'normal' @staticmethod def default_automatic_acquisition(): return False @staticmethod def default_disable_as_individual(): return False @staticmethod def default_state(): return 'draft' @fields.depends('type', 'behavior') def on_change_with_behavior(self, name=None): if self.type in ('set', 'group'): return 'normal' return self.behavior @fields.depends('laboratories') def on_change_with_laboratory_domain(self, name=None): if self.laboratories: return [l.laboratory.id for l in self.laboratories if l.laboratory] return [] @fields.depends('included_analysis') def on_change_with_all_included_analysis(self, name=None): LimsAnalysis = Pool().get('lims.analysis') return LimsAnalysis.get_included_analysis(self.id) @classmethod def view_attributes(cls): return [ ('//page[@id="microbiology"]', 'states', { 'invisible': Not(Bool(Eval('microbiology'))), }), ('//group[@id="button_holder"]', 'states', { 'invisible': Eval('type') != 'set', }), ('//page[@id="included_analysis"]', 'states', { 'invisible': Bool(Equal(Eval('type'), 'analysis')), }), ('//page[@id="devices"]|//page[@id="methods"]', 'states', { 'invisible': Or( Eval('type').in_(['set', 'group']), Bool(Equal(Eval('behavior'), 'additional'))), }), ('//page[@id="laboratories"]', 'states', { 'invisible': Or( Eval('type').in_(['group']), Bool(Equal(Eval('behavior'), 'additional'))), }), ] @classmethod def get_included_analysis(cls, analysis_id): cursor = Transaction().connection.cursor() LimsAnalysisIncluded = Pool().get('lims.analysis.included') childs = [] cursor.execute('SELECT included_analysis ' 'FROM "' + LimsAnalysisIncluded._table + '" ' 'WHERE analysis = %s', (analysis_id,)) included_analysis_ids = [x[0] for x in cursor.fetchall()] if included_analysis_ids: for analysis_id in included_analysis_ids: if analysis_id not in childs: childs.append(analysis_id) childs.extend(cls.get_included_analysis(analysis_id)) return childs @classmethod def get_included_analysis_analysis(cls, analysis_id): cursor = Transaction().connection.cursor() pool = Pool() LimsAnalysisIncluded = pool.get('lims.analysis.included') LimsAnalysis = pool.get('lims.analysis') childs = [] cursor.execute('SELECT ia.included_analysis, a.type ' 'FROM "' + LimsAnalysisIncluded._table + '" ia ' 'INNER JOIN "' + LimsAnalysis._table + '" a ' 'ON a.id = ia.included_analysis ' 'WHERE analysis = %s', (analysis_id,)) included_analysis = cursor.fetchall() if included_analysis: for analysis in included_analysis: if analysis[1] == 'analysis' and analysis[0] not in childs: childs.append(analysis[0]) childs.extend(cls.get_included_analysis_analysis(analysis[0])) return childs @classmethod def get_parents_analysis(cls, analysis_id): cursor = Transaction().connection.cursor() pool = Pool() LimsAnalysisIncluded = pool.get('lims.analysis.included') LimsAnalysis = pool.get('lims.analysis') parents = [] cursor.execute('SELECT ia.analysis ' 'FROM "' + LimsAnalysisIncluded._table + '" ia ' 'INNER JOIN "' + LimsAnalysis._table + '" a ' 'ON a.id = ia.analysis ' 'WHERE ia.included_analysis = %s ' 'AND a.state = \'active\'', (analysis_id,)) parents_analysis_ids = [x[0] for x in cursor.fetchall()] if parents_analysis_ids: for analysis_id in parents_analysis_ids: if analysis_id not in parents: parents.append(analysis_id) parents.extend(cls.get_parents_analysis(analysis_id)) return parents def get_rec_name(self, name): if self.code: return self.code + ' - ' + self.description else: return self.description @classmethod def search_rec_name(cls, name, clause): field = None for field in ('code', 'description'): records = cls.search([(field,) + tuple(clause[1:])], limit=1) if records: break if records: return [(field,) + tuple(clause[1:])] return [(cls._rec_name,) + tuple(clause[1:])] @classmethod def validate(cls, analysis): super(LimsAnalysis, cls).validate(analysis) for a in analysis: a.check_description() a.check_set() a.check_end_date() def check_description(self): if not self.end_date: analysis = self.search([ ('description', '=', self.description), ('type', '=', self.type), ('end_date', '=', None), ('id', '!=', self.id), ]) if analysis: self.raise_user_error('description_uniq') def check_set(self): if self.type == 'set': if self.laboratories and len(self.laboratories) > 1: self.raise_user_error('set_laboratories') if self.included_analysis and not self.laboratories: self.raise_user_error('not_laboratory') if self.included_analysis: set_laboratory = self.laboratories[0].laboratory for ia in self.included_analysis: included_analysis_laboratories = [lab.laboratory for lab in ia.included_analysis.laboratories] if (set_laboratory not in included_analysis_laboratories): self.raise_user_error('analysis_laboratory', { 'analysis': ia.included_analysis.rec_name, 'laboratory': set_laboratory.rec_name, }) def check_end_date(self): if self.end_date: if not self.start_date or self.end_date < self.start_date: self.raise_user_error('end_date') if not self.start_date or self.end_date > datetime.now().date(): self.raise_user_error('end_date_wrong') @classmethod def write(cls, *args): actions = iter(args) for analysis, vals in zip(actions, actions): if vals.get('laboratories'): cls.check_laboratory_change(analysis, vals['laboratories']) super(LimsAnalysis, cls).write(*args) @classmethod def check_laboratory_change(cls, analysis, laboratories): LimsAnalysisIncluded = Pool().get('lims.analysis.included') for a in analysis: if a.type == 'analysis': for operation in laboratories: if operation[0] == 'unlink': for laboratory in operation[1]: parent = LimsAnalysisIncluded.search([ ('included_analysis', '=', a.id), ('laboratory', '=', laboratory), ]) if parent: cls.raise_user_error('not_laboratory_change') @classmethod @ModelView.button_action('lims.wiz_lims_relate_analysis') def relate_analysis(cls, analysis): pass @classmethod @ModelView.button @Workflow.transition('active') def activate(cls, analysis): Date = Pool().get('ir.date') cls.write(analysis, {'start_date': Date.today()}) cls.create_typification_calculated(analysis) cls.create_product(analysis) @classmethod @ModelView.button @Workflow.transition('disabled') def disable(cls, analysis): Date = Pool().get('ir.date') cls.write(analysis, {'end_date': Date.today()}) cls.disable_typifications(analysis) cls.delete_included_analysis(analysis) @classmethod def create_typification_calculated(cls, analysis): cursor = Transaction().connection.cursor() pool = Pool() LimsAnalysis = pool.get('lims.analysis') LimsTypification = pool.get('lims.typification') LimsCalculatedTypification = pool.get('lims.typification.calculated') for included in analysis: if included.type == 'analysis': continue sets_groups_ids = [included.id] sets_groups_ids.extend(LimsAnalysis.get_parents_analysis( included.id)) for set_group_id in sets_groups_ids: ia = LimsAnalysis.get_included_analysis_analysis( set_group_id) if not ia: continue included_ids = ', '.join(str(a) for a in ia) cursor.execute('SELECT DISTINCT(product_type, matrix) ' 'FROM "' + LimsTypification._table + '" ' 'WHERE valid ' 'AND analysis IN (' + included_ids + ')') typifications = cursor.fetchall() if not typifications: continue for typification in typifications: product_type = int(typification[0].split(',')[0][1:]) matrix = int(typification[0].split(',')[1][:-1]) cursor.execute('SELECT DISTINCT(analysis) ' 'FROM "' + LimsTypification._table + '" ' 'WHERE product_type = %s ' 'AND matrix = %s ' 'AND valid', (product_type, matrix)) typified_analysis = [a[0] for a in cursor.fetchall()] typified_analysis_ids = ', '.join(str(a) for a in typified_analysis) cursor.execute('SELECT id ' 'FROM "' + LimsAnalysis._table + '" ' 'WHERE id IN (' + included_ids + ') ' 'AND id NOT IN (' + typified_analysis_ids + ')') if cursor.fetchone(): typified = False else: typified = True if typified: t_set_group = LimsCalculatedTypification.search([ ('product_type', '=', product_type), ('matrix', '=', matrix), ('analysis', '=', set_group_id), ]) if not t_set_group: typification_create = [{ 'product_type': product_type, 'matrix': matrix, 'analysis': set_group_id, }] LimsCalculatedTypification.create( typification_create) else: t_set_group = LimsCalculatedTypification.search([ ('product_type', '=', product_type), ('matrix', '=', matrix), ('analysis', '=', set_group_id), ]) if t_set_group: LimsCalculatedTypification.delete(t_set_group) return analysis @classmethod def create_product(cls, analysis): CreateProduct = Pool().get('lims.create_analysis_product', type='wizard') s_analysis, = analysis session_id, _, _ = CreateProduct.create() create_product = CreateProduct(session_id) with Transaction().set_context(active_id=s_analysis.id): create_product.transition_start() @classmethod def disable_typifications(cls, analysis): pool = Pool() LimsTypification = pool.get('lims.typification') LimsCalculatedTypification = pool.get('lims.typification.calculated') analysis_ids = [] sets_groups_ids = [] for a in analysis: if a.type == 'analysis': analysis_ids.append(a.id) else: sets_groups_ids.append(a.id) if analysis_ids: typifications = LimsTypification.search([ ('analysis', 'in', analysis_ids), ]) if typifications: LimsTypification.write(typifications, {'valid': False}) if sets_groups_ids: typifications = LimsCalculatedTypification.search([ ('analysis', 'in', sets_groups_ids), ]) if typifications: LimsCalculatedTypification.delete(typifications) @classmethod def delete_included_analysis(cls, analysis): LimsAnalysisIncluded = Pool().get('lims.analysis.included') analysis_ids = [a.id for a in analysis] if analysis_ids: included_delete = LimsAnalysisIncluded.search([ ('included_analysis', 'in', analysis_ids), ]) if included_delete: LimsAnalysisIncluded.delete(included_delete) @fields.depends('laboratories') def on_change_with_microbiology(self, name=None): Config = Pool().get('lims.configuration') config_ = Config(1) if not config_.microbiology_laboratories: return False if self.laboratories: for lab in self.laboratories: if lab.laboratory in config_.microbiology_laboratories: return True return False @staticmethod def is_typified(analysis, product_type, matrix): pool = Pool() LimsTypification = pool.get('lims.typification') LimsCalculatedTypification = pool.get('lims.typification.calculated') if analysis.type == 'analysis': typified_service = LimsTypification.search([ ('analysis', '=', analysis.id), ('product_type', '=', product_type.id), ('matrix', '=', matrix.id), ('valid', '=', True), ]) if typified_service: return True else: typified_service = LimsCalculatedTypification.search([ ('analysis', '=', analysis.id), ('product_type', '=', product_type.id), ('matrix', '=', matrix.id), ]) if typified_service: return True return False @classmethod def copy(cls, analysis, default=None): if default is None: default = {} current_default = default.copy() current_default['state'] = 'draft' current_default['start_date'] = None current_default['end_date'] = None return super(LimsAnalysis, cls).copy(analysis, default=current_default) class LimsAnalysisIncluded(ModelSQL, ModelView): 'Included Analysis' __name__ = 'lims.analysis.included' analysis = fields.Many2One('lims.analysis', 'Analysis', required=True, ondelete='CASCADE', select=True) included_analysis = fields.Many2One('lims.analysis', 'Included analysis', required=True, depends=['analysis_domain'], domain=[ ('id', 'in', Eval('analysis_domain')), ]) analysis_domain = fields.Function(fields.Many2Many('lims.analysis', None, None, 'Analysis domain'), 'on_change_with_analysis_domain') analysis_type = fields.Function(fields.Selection([ ('analysis', 'Analysis'), ('set', 'Set'), ('group', 'Group'), ], 'Type', sort=False), 'on_change_with_analysis_type') laboratory = fields.Many2One('lims.laboratory', 'Laboratory', domain=[('id', 'in', Eval('laboratory_domain'))], states={ 'required': Or( Bool(Equal(Eval('_parent_analysis', {}).get('type'), 'set')), And(Bool(Equal(Eval('_parent_analysis', {}).get('type'), 'group')), Bool(Equal(Eval('analysis_type'), 'analysis'))), Bool(Eval('laboratory_domain'))), 'readonly': Bool( Equal(Eval('_parent_analysis', {}).get('type'), 'set')), 'invisible': Eval('analysis_type').in_(['set', 'group']), }, depends=['laboratory_domain', 'analysis_type']) laboratory_domain = fields.Function(fields.Many2Many('lims.laboratory', None, None, 'Laboratory domain'), 'on_change_with_laboratory_domain') @classmethod def __setup__(cls): super(LimsAnalysisIncluded, cls).__setup__() cls._error_messages.update({ 'duplicated_analysis': 'The analysis "%s" is already included', 'not_set_laboratory': 'No Laboratory loaded for the Set', }) @classmethod def validate(cls, included_analysis): super(LimsAnalysisIncluded, cls).validate(included_analysis) for analysis in included_analysis: analysis.check_duplicated_analysis() def check_duplicated_analysis(self): LimsAnalysis = Pool().get('lims.analysis') analysis_id = self.analysis.id included = self.search([ ('analysis', '=', analysis_id), ('id', '!=', self.id) ]) if included: analysis_ids = [] for ai in included: if ai.included_analysis: analysis_ids.append(ai.included_analysis.id) analysis_ids.extend(LimsAnalysis.get_included_analysis( ai.included_analysis.id)) if self.included_analysis.id in analysis_ids: self.raise_user_error('duplicated_analysis', (self.included_analysis.rec_name,)) @fields.depends('included_analysis', 'analysis', 'laboratory', '_parent_analysis.type', '_parent_analysis.laboratories') def on_change_included_analysis(self): laboratory = None if self.included_analysis: laboratories = self.on_change_with_laboratory_domain() if len(laboratories) == 1: laboratory = laboratories[0] self.laboratory = laboratory @fields.depends('included_analysis') def on_change_with_analysis_type(self, name=None): res = '' if self.included_analysis: res = self.included_analysis.type return res @staticmethod def default_analysis_domain(): LimsAnalysisIncluded = Pool().get('lims.analysis.included') context = Transaction().context analysis_id = context.get('analysis', None) analysis_type = context.get('type', None) laboratories = context.get('laboratory_domain', []) return LimsAnalysisIncluded.get_analysis_domain(analysis_id, analysis_type, laboratories) @fields.depends('analysis', '_parent_analysis.type', '_parent_analysis.laboratories') def on_change_with_analysis_domain(self, name=None): analysis_id = self.analysis.id if self.analysis else None analysis_type = self.analysis.type if self.analysis else None laboratories = [] if self.analysis and self.analysis.laboratories: laboratories = [l.laboratory.id for l in self.analysis.laboratories] return self.get_analysis_domain(analysis_id, analysis_type, laboratories) @staticmethod def get_analysis_domain(analysis_id=None, analysis_type=None, laboratories=[]): cursor = Transaction().connection.cursor() pool = Pool() LimsAnalysisIncluded = pool.get('lims.analysis.included') LimsAnalysis = pool.get('lims.analysis') LimsAnalysisLaboratory = pool.get('lims.analysis-laboratory') if not analysis_type: return [] if analysis_type == 'set': if len(laboratories) != 1: LimsAnalysisIncluded.raise_user_error('not_set_laboratory') #return [] set_laboratory_id = laboratories[0] not_parent_clause = '' if analysis_id: not_parent_clause = 'AND al.analysis != ' + str(analysis_id) cursor.execute('SELECT DISTINCT(al.analysis) ' 'FROM "' + LimsAnalysisLaboratory._table + '" al ' 'INNER JOIN "' + LimsAnalysis._table + '" a ' 'ON a.id = al.analysis ' 'WHERE al.laboratory = %s ' 'AND a.state = \'active\' ' 'AND a.type = \'analysis\' ' 'AND a.end_date IS NULL ' + not_parent_clause, (set_laboratory_id,)) res = cursor.fetchall() if not res: return [] return [x[0] for x in res] else: not_parent_clause = '' if analysis_id: not_parent_clause = 'AND id != ' + str(analysis_id) cursor.execute('SELECT id ' 'FROM "' + LimsAnalysis._table + '" ' 'WHERE state = \'active\' ' 'AND type != \'group\' ' 'AND end_date IS NULL ' + not_parent_clause) res = cursor.fetchall() if not res: return [] return [x[0] for x in res] @staticmethod def default_laboratory_domain(): return Transaction().context.get('laboratory_domain', []) @fields.depends('included_analysis', 'analysis', '_parent_analysis.type', '_parent_analysis.laboratories', 'laboratory') def on_change_with_laboratory_domain(self, name=None): laboratories = [] analysis_laboratories = [] if self.included_analysis and self.included_analysis.laboratories: analysis_laboratories = [l.laboratory.id for l in self.included_analysis.laboratories] if self.analysis and self.analysis.type == 'set': if self.analysis.laboratories: set_laboratory = self.analysis.laboratories[0].laboratory.id if set_laboratory in analysis_laboratories: laboratories = [set_laboratory] else: laboratories = analysis_laboratories if not laboratories and self.laboratory: laboratories = [self.laboratory.id] return laboratories @classmethod def create(cls, vlist): included_analysis = super(LimsAnalysisIncluded, cls).create(vlist) cls.create_typification_calculated(included_analysis) return included_analysis @classmethod def create_typification_calculated(cls, included_analysis): cursor = Transaction().connection.cursor() pool = Pool() LimsAnalysis = pool.get('lims.analysis') LimsTypification = pool.get('lims.typification') LimsCalculatedTypification = pool.get('lims.typification.calculated') for included in included_analysis: if included.analysis.state != 'active': continue sets_groups_ids = [included.analysis.id] sets_groups_ids.extend(LimsAnalysis.get_parents_analysis( included.analysis.id)) for set_group_id in sets_groups_ids: ia = LimsAnalysis.get_included_analysis_analysis( set_group_id) if not ia: continue included_ids = ', '.join(str(a) for a in ia) cursor.execute('SELECT DISTINCT(product_type, matrix) ' 'FROM "' + LimsTypification._table + '" ' 'WHERE valid ' 'AND analysis IN (' + included_ids + ')') typifications = cursor.fetchall() if not typifications: continue for typification in typifications: product_type = int(typification[0].split(',')[0][1:]) matrix = int(typification[0].split(',')[1][:-1]) cursor.execute('SELECT DISTINCT(analysis) ' 'FROM "' + LimsTypification._table + '" ' 'WHERE product_type = %s ' 'AND matrix = %s ' 'AND valid', (product_type, matrix)) typified_analysis = [a[0] for a in cursor.fetchall()] typified_analysis_ids = ', '.join(str(a) for a in typified_analysis) cursor.execute('SELECT id ' 'FROM "' + LimsAnalysis._table + '" ' 'WHERE id IN (' + included_ids + ') ' 'AND id NOT IN (' + typified_analysis_ids + ')') if cursor.fetchone(): typified = False else: typified = True if typified: t_set_group = LimsCalculatedTypification.search([ ('product_type', '=', product_type), ('matrix', '=', matrix), ('analysis', '=', set_group_id), ]) if not t_set_group: typification_create = [{ 'product_type': product_type, 'matrix': matrix, 'analysis': set_group_id, }] LimsCalculatedTypification.create( typification_create) else: t_set_group = LimsCalculatedTypification.search([ ('product_type', '=', product_type), ('matrix', '=', matrix), ('analysis', '=', set_group_id), ]) if t_set_group: LimsCalculatedTypification.delete(t_set_group) return included_analysis @classmethod def delete(cls, included_analysis): cls.delete_typification_calculated(included_analysis) super(LimsAnalysisIncluded, cls).delete(included_analysis) @classmethod def delete_typification_calculated(cls, included_analysis): cursor = Transaction().connection.cursor() pool = Pool() LimsAnalysis = pool.get('lims.analysis') LimsTypification = pool.get('lims.typification') LimsCalculatedTypification = pool.get('lims.typification.calculated') for included in included_analysis: if included.analysis.state != 'active': continue if included.included_analysis.type == 'analysis': deleted_analysis = [included.included_analysis.id] else: deleted_analysis = ( LimsAnalysis.get_included_analysis_analysis( included.included_analysis.id)) sets_groups_ids = [included.analysis.id] sets_groups_ids.extend(LimsAnalysis.get_parents_analysis( included.analysis.id)) for set_group_id in sets_groups_ids: typified = True ia = LimsAnalysis.get_included_analysis_analysis( set_group_id) if deleted_analysis: for da in deleted_analysis: if da in ia: ia.remove(da) if not ia: continue included_ids = ', '.join(str(a) for a in ia) cursor.execute('SELECT DISTINCT(product_type, matrix) ' 'FROM "' + LimsTypification._table + '" ' 'WHERE valid ' 'AND analysis IN (' + included_ids + ')') typifications = cursor.fetchall() if not typifications: continue for typification in typifications: product_type = int(typification[0].split(',')[0][1:]) matrix = int(typification[0].split(',')[1][:-1]) cursor.execute('SELECT DISTINCT(analysis) ' 'FROM "' + LimsTypification._table + '" ' 'WHERE product_type = %s ' 'AND matrix = %s ' 'AND valid', (product_type, matrix)) typified_analysis = [a[0] for a in cursor.fetchall()] typified_analysis_ids = ', '.join(str(a) for a in typified_analysis) cursor.execute('SELECT id ' 'FROM "' + LimsAnalysis._table + '" ' 'WHERE id IN (' + included_ids + ') ' 'AND id NOT IN (' + typified_analysis_ids + ')') if cursor.fetchone(): typified = False else: typified = True if typified: t_set_group = LimsCalculatedTypification.search([ ('product_type', '=', product_type), ('matrix', '=', matrix), ('analysis', '=', set_group_id), ]) if not t_set_group: typification_create = [{ 'product_type': product_type, 'matrix': matrix, 'analysis': set_group_id, }] LimsCalculatedTypification.create( typification_create) else: t_set_group = LimsCalculatedTypification.search([ ('product_type', '=', product_type), ('matrix', '=', matrix), ('analysis', '=', set_group_id), ]) if t_set_group: LimsCalculatedTypification.delete(t_set_group) @classmethod def search_rec_name(cls, name, clause): return ['OR', ('included_analysis.code',) + tuple(clause[1:]), ('included_analysis.description',) + tuple(clause[1:]), ] class LimsAnalysisLaboratory(ModelSQL, ModelView): 'Analysis - Laboratory' __name__ = 'lims.analysis-laboratory' analysis = fields.Many2One('lims.analysis', 'Analysis', ondelete='CASCADE', select=True, required=True) laboratory = fields.Many2One('lims.laboratory', 'Laboratory', ondelete='CASCADE', select=True, required=True) department = fields.Many2One('company.department', 'Department', states={'readonly': ~Equal(Eval('context', {}).get('type', ''), 'analysis')}) class LimsAnalysisLabMethod(ModelSQL): 'Analysis - Laboratory Method' __name__ = 'lims.analysis-lab.method' analysis = fields.Many2One('lims.analysis', 'Analysis', ondelete='CASCADE', select=True, required=True) method = fields.Many2One('lims.lab.method', 'Method', ondelete='CASCADE', select=True, required=True) @classmethod def __setup__(cls): super(LimsAnalysisLabMethod, cls).__setup__() cls._error_messages.update({ 'typificated_method': ('You can not delete method "%s" because ' 'is typificated'), }) @classmethod def delete(cls, methods): cls.check_delete(methods) super(LimsAnalysisLabMethod, cls).delete(methods) @classmethod def check_delete(cls, methods): LimsTypification = Pool().get('lims.typification') for method in methods: typifications = LimsTypification.search_count([ ('analysis', '=', method.analysis.id), ('method', '=', method.method.id), ('valid', '=', True), ]) if typifications != 0: cls.raise_user_error('typificated_method', (method.method.code,)) class LimsAnalysisDevice(ModelSQL, ModelView): 'Analysis Device' __name__ = 'lims.analysis.device' analysis = fields.Many2One('lims.analysis', 'Analysis', required=True, ondelete='CASCADE', select=True) laboratory = fields.Many2One('lims.laboratory', 'Laboratory', required=True, domain=[('id', 'in', Eval('laboratory_domain'))], depends=['laboratory_domain']) laboratory_domain = fields.Function(fields.Many2Many('lims.laboratory', None, None, 'Laboratory domain'), 'on_change_with_laboratory_domain') device = fields.Many2One('lims.lab.device', 'Device', required=True, domain=[('laboratories.laboratory', '=', Eval('laboratory'))], depends=['laboratory']) by_default = fields.Boolean('By default') @classmethod def __setup__(cls): super(LimsAnalysisDevice, cls).__setup__() cls._error_messages.update({ 'default_device': ('There is already a default device for this' ' analysis on this laboratory'), }) @staticmethod def default_by_default(): return True @classmethod def validate(cls, devices): super(LimsAnalysisDevice, cls).validate(devices) for d in devices: d.check_default() def check_default(self): if self.by_default: devices = self.search([ ('analysis', '=', self.analysis.id), ('laboratory', '=', self.laboratory.id), ('by_default', '=', True), ('id', '!=', self.id), ]) if devices: self.raise_user_error('default_device') @staticmethod def default_laboratory_domain(): return Transaction().context.get('laboratory_domain', []) @fields.depends('analysis', '_parent_analysis.laboratories', 'laboratory') def on_change_with_laboratory_domain(self, name=None): laboratories = [] if self.analysis and self.analysis.laboratories: laboratories = [l.laboratory.id for l in self.analysis.laboratories] if not laboratories and self.laboratory: laboratories = [self.laboratory.id] return laboratories @classmethod def search_rec_name(cls, name, clause): return ['OR', ('laboratory.code',) + tuple(clause[1:]), ('laboratory.description',) + tuple(clause[1:]), ] class LimsFractionType(ModelSQL, ModelView): 'Fraction Type' __name__ = 'lims.fraction.type' _rec_name = 'description' code = fields.Char('Code', required=True) description = fields.Char('Description', required=True) max_storage_time = fields.Integer('Maximum storage time (in months)') requalify = fields.Boolean('Requalify') control_charts = fields.Boolean('Available for Control Charts') report = fields.Boolean('Available for Results Report') @classmethod def __setup__(cls): super(LimsFractionType, cls).__setup__() t = cls.__table__() cls._order.insert(0, ('code', 'ASC')) cls._sql_constraints += [ ('code_uniq', Unique(t, t.code), 'Fraction type code must be unique'), ] @staticmethod def default_requalify(): return False @staticmethod def default_control_charts(): return False @staticmethod def default_report(): return True def get_rec_name(self, name): if self.code: return self.code + ' - ' + self.description else: return self.description @classmethod def search_rec_name(cls, name, clause): field = None for field in ('code', 'description'): records = cls.search([(field,) + tuple(clause[1:])], limit=1) if records: break if records: return [(field,) + tuple(clause[1:])] return [(cls._rec_name,) + tuple(clause[1:])] class LimsCertificationType(ModelSQL, ModelView): 'Certification Type' __name__ = 'lims.certification.type' _rec_name = 'description' code = fields.Char('Code', required=True) description = fields.Char('Description', required=True) report = fields.Boolean('Report') def get_rec_name(self, name): if self.code: return self.code + ' - ' + self.description else: return self.description @classmethod def search_rec_name(cls, name, clause): field = None for field in ('code', 'description'): records = cls.search([(field,) + tuple(clause[1:])], limit=1) if records: break if records: return [(field,) + tuple(clause[1:])] return [(cls._rec_name,) + tuple(clause[1:])] class LimsTechnicalScope(ModelSQL, ModelView): 'Technical Scope' __name__ = 'lims.technical.scope' _rec_name = 'party' party = fields.Many2One('party.party', 'Party', required=True) certification_type = fields.Many2One('lims.certification.type', 'Certification type') versions = fields.One2Many('lims.technical.scope.version', 'technical_scope', 'Versions') def get_rec_name(self, name): if self.party: return self.party.rec_name @classmethod def search_rec_name(cls, name, clause): return [('party',) + tuple(clause[1:])] class LimsTechnicalScopeVersion(ModelSQL, ModelView): 'Technical Scope Version' __name__ = 'lims.technical.scope.version' _rec_name = 'number' technical_scope = fields.Many2One('lims.technical.scope', 'Technical scope', required=True) number = fields.Char('Number', required=True) date = fields.Date('Date', required=True) expiration_date = fields.Date('Expiration date') version_lines = fields.Many2Many('lims.technical.scope.version.line', 'version', 'typification', 'Typifications') valid = fields.Boolean('Active') @classmethod def __setup__(cls): super(LimsTechnicalScopeVersion, cls).__setup__() cls._error_messages.update({ 'active_version': ('Only one version can be active for each ' 'technical scope'), }) cls._buttons.update({ 'open_typifications': {}, 'add_typifications': { 'invisible': ~Eval('valid'), }, 'remove_typifications': { 'invisible': ~Eval('valid'), }, }) @staticmethod def default_valid(): return True @classmethod def validate(cls, versions): super(LimsTechnicalScopeVersion, cls).validate(versions) for version in versions: version.check_active() def check_active(self): if self.valid: versions = self.search([ ('technical_scope', '=', self.technical_scope.id), ('valid', '=', True), ('id', '!=', self.id), ]) if versions: self.raise_user_error('active_version') @classmethod @ModelView.button_action('lims.act_open_typifications') def open_typifications(cls, versions): pass @classmethod @ModelView.button_action('lims.act_add_typifications') def add_typifications(cls, versions): pass @classmethod @ModelView.button_action('lims.act_remove_typifications') def remove_typifications(cls, versions): pass class LimsTechnicalScopeVersionLine(ModelSQL): 'Technical Scope Version Line' __name__ = 'lims.technical.scope.version.line' version = fields.Many2One('lims.technical.scope.version', 'Technical scope version', ondelete='CASCADE', select=True, required=True) typification = fields.Many2One('lims.typification', 'Typification', ondelete='CASCADE', select=True, required=True) class LimsService(ModelSQL, ModelView): 'Service' __name__ = 'lims.service' _rec_name = 'number' number = fields.Char('Number', select=True, readonly=True) create_date2 = fields.Function(fields.DateTime('Create Date'), 'get_create_date2', searcher='search_create_date2') fraction = fields.Many2One('lims.fraction', 'Fraction', required=True, ondelete='CASCADE', select=True, depends=['number'], states={'readonly': Or(Bool(Eval('number')), Bool(Eval('context', {}).get('readonly', True))), }) fraction_view = fields.Function(fields.Many2One('lims.fraction', 'Fraction', states={'invisible': Not(Bool(Eval('_parent_fraction')))}), 'on_change_with_fraction_view') sample = fields.Function(fields.Many2One('lims.sample', 'Sample'), 'get_fraction_field', searcher='search_fraction_field') entry = fields.Function(fields.Many2One('lims.entry', 'Entry'), 'get_fraction_field', searcher='search_fraction_field') party = fields.Function(fields.Many2One('party.party', 'Party'), 'get_fraction_field', searcher='search_fraction_field') analysis = fields.Many2One('lims.analysis', 'Analysis/Set/Group', required=True, depends=['analysis_domain'], domain=[('id', 'in', Eval('analysis_domain'))], states={'readonly': Bool(Eval('context', {}).get('readonly', True))}) analysis_view = fields.Function(fields.Many2One('lims.analysis', 'Analysis/Set/Group'), 'get_views_field', searcher='search_views_field') analysis_domain = fields.Function(fields.Many2Many('lims.analysis', None, None, 'Analysis domain'), 'on_change_with_analysis_domain') typification_domain = fields.Function(fields.Many2Many( 'lims.typification', None, None, 'Typification domain'), 'on_change_with_typification_domain') analysis_type = fields.Function(fields.Selection([ ('analysis', 'Analysis'), ('set', 'Set'), ('group', 'Group'), ], 'Type', sort=False), 'on_change_with_analysis_type', searcher='search_analysis_field') urgent = fields.Boolean('Urgent', states={'readonly': Bool(Eval('context', {}).get('readonly', True))}) priority = fields.Integer('Priority', states={'readonly': Bool(Eval('context', {}).get('readonly', True))}) report_date = fields.Date('Date agreed for result') laboratory = fields.Many2One('lims.laboratory', 'Laboratory', domain=[('id', 'in', Eval('laboratory_domain'))], states={ 'required': Bool(Eval('laboratory_domain')), 'readonly': Bool(Eval('context', {}).get('readonly', True)), }, depends=['laboratory_domain']) laboratory_view = fields.Function(fields.Many2One('lims.laboratory', 'Laboratory'), 'get_views_field') laboratory_domain = fields.Function(fields.Many2Many('lims.laboratory', None, None, 'Laboratory domain'), 'on_change_with_laboratory_domain') method = fields.Many2One('lims.lab.method', 'Method', domain=[('id', 'in', Eval('method_domain'))], states={ 'required': Bool(Eval('method_domain')), 'readonly': Bool(Eval('context', {}).get('readonly', True)), }, depends=['method_domain']) method_view = fields.Function(fields.Many2One('lims.lab.method', 'Method'), 'get_views_field') method_domain = fields.Function(fields.Many2Many('lims.lab.method', None, None, 'Method domain'), 'on_change_with_method_domain') device = fields.Many2One('lims.lab.device', 'Device', domain=[('id', 'in', Eval('device_domain'))], states={ 'required': Bool(Eval('device_domain')), 'readonly': Bool(Eval('context', {}).get('readonly', True)), }, depends=['device_domain']) device_view = fields.Function(fields.Many2One('lims.lab.device', 'Device'), 'get_views_field') device_domain = fields.Function(fields.Many2Many('lims.lab.device', None, None, 'Device domain'), 'on_change_with_device_domain') comments = fields.Text('Comments', states={'readonly': Bool(Eval('context', {}).get('readonly', True))}) analysis_detail = fields.One2Many('lims.entry.detail.analysis', 'service', 'Analysis detail') confirmed = fields.Function(fields.Boolean('Confirmed'), 'get_confirmed', searcher='search_confirmed') confirmation_date = fields.Date('Confirmation date', readonly=True) divide = fields.Boolean('Divide') has_results_report = fields.Function(fields.Boolean('Results Report'), 'get_has_results_report') manage_service_available = fields.Function(fields.Boolean( 'Available for Manage services'), 'get_manage_service_available') @classmethod def __setup__(cls): super(LimsService, cls).__setup__() cls._order.insert(0, ('number', 'DESC')) cls._error_messages.update({ 'no_service_sequence': ('There is no service sequence for ' 'the work year "%s".'), 'delete_service': ('You can not delete service "%s" because ' 'its fraction is confirmed'), 'duplicated_analysis': ('The analysis "%(analysis)s" is assigned ' 'more than once to the fraction "%(fraction)s"'), }) @staticmethod def default_urgent(): return False @staticmethod def default_priority(): return 0 @staticmethod def default_divide(): return False @classmethod def validate(cls, services): super(LimsService, cls).validate(services) for service in services: service.check_duplicated_analysis() def check_duplicated_analysis(self): LimsAnalysis = Pool().get('lims.analysis') fraction_id = self.fraction.id services = self.search([ ('fraction', '=', fraction_id), ('id', '!=', self.id) ]) if services: analysis_ids = [] for service in services: if service.analysis: analysis_ids.append(service.analysis.id) analysis_ids.extend(LimsAnalysis.get_included_analysis( service.analysis.id)) new_analysis_ids = [self.analysis.id] new_analysis_ids.extend(LimsAnalysis.get_included_analysis( self.analysis.id)) for a_id in new_analysis_ids: if a_id in analysis_ids: analysis = LimsAnalysis(a_id) self.raise_user_error('duplicated_analysis', { 'analysis': analysis.rec_name, 'fraction': self.fraction.rec_name, }) @classmethod def create(cls, vlist): pool = Pool() LimsLabWorkYear = pool.get('lims.lab.workyear') Sequence = pool.get('ir.sequence') EntryDetailAnalysis = pool.get('lims.entry.detail.analysis') workyear_id = LimsLabWorkYear.find() workyear = LimsLabWorkYear(workyear_id) sequence = workyear.get_sequence('service') if not sequence: cls.raise_user_error('no_service_sequence', (workyear.rec_name,)) vlist = [x.copy() for x in vlist] for values in vlist: values['number'] = Sequence.get_id(sequence.id) services = super(LimsService, cls).create(vlist) if not Transaction().context.get('copying', False): cls.update_analysis_detail(services) aditional_services = cls.create_aditional_services(services) # Aditional processing for Manage Services if aditional_services and Transaction().context.get( 'manage_service', False): cls.copy_analysis_comments(aditional_services) cls.set_confirmation_date(aditional_services) analysis_detail = EntryDetailAnalysis.search([ ('service', 'in', [s.id for s in aditional_services])]) if analysis_detail: fraction = analysis_detail[0].fraction EntryDetailAnalysis.create_notebook_lines(analysis_detail, fraction) # from lims_planification if 'trytond.modules.lims_planification' in sys.modules: EntryDetailAnalysis.write(analysis_detail, { 'state': 'unplanned', }) # from lims_account_invoice if 'trytond.modules.lims_account_invoice' in sys.modules: for aditional_service in aditional_services: aditional_service.create_invoice_line('out') return services @classmethod def write(cls, *args): super(LimsService, cls).write(*args) actions = iter(args) for services, vals in zip(actions, actions): change_detail = False for field in ('analysis', 'laboratory', 'method', 'device'): if vals.get(field): change_detail = True break if change_detail: cls.update_analysis_detail(services) @classmethod def delete(cls, services): if Transaction().user != 0: cls.check_delete(services) super(LimsService, cls).delete(services) @classmethod def check_delete(cls, services): for service in services: if service.fraction and service.fraction.confirmed: cls.raise_user_error('delete_service', (service.rec_name,)) @staticmethod def update_analysis_detail(services): pool = Pool() LimsService = pool.get('lims.service') LimsEntryDetailAnalysis = pool.get('lims.entry.detail.analysis') for service in services: to_delete = LimsEntryDetailAnalysis.search([ ('service', '=', service.id), ]) if to_delete: with Transaction().set_user(0, set_context=True): LimsEntryDetailAnalysis.delete(to_delete) if service.analysis.behavior == 'additional': continue to_create = [] service_context = { 'product_type': service.fraction.product_type.id, 'matrix': service.fraction.matrix.id, } analysis_data = [] if service.analysis.type == 'analysis': laboratory_id = service.laboratory.id method_id = service.method.id if service.method else None device_id = service.device.id if service.device else None analysis_data.append({ 'id': service.analysis.id, 'origin': service.analysis.code, 'laboratory': laboratory_id, 'method': method_id, 'device': device_id, }) else: analysis_data.extend(LimsService._get_included_analysis( service.analysis, service.analysis.code, service_context)) if analysis_data: for analysis in analysis_data: values = {} values['service'] = service.id values['analysis'] = analysis['id'] values['analysis_origin'] = analysis['origin'] values['laboratory'] = analysis['laboratory'] values['method'] = analysis['method'] values['device'] = analysis['device'] to_create.append(values) if to_create: with Transaction().set_user(0, set_context=True): LimsEntryDetailAnalysis.create(to_create) @staticmethod def _get_included_analysis(analysis, analysis_origin='', service_context=None): LimsTypification = Pool().get('lims.typification') childs = [] if analysis.included_analysis: for included in analysis.included_analysis: if (analysis.type == 'set' and included.included_analysis.type == 'analysis'): origin = analysis_origin else: origin = (analysis_origin + ' > ' + included.included_analysis.code) if included.included_analysis.type == 'analysis': laboratory_id = included.laboratory.id typifications = LimsTypification.search([ ('product_type', '=', service_context['product_type']), ('matrix', '=', service_context['matrix']), ('analysis', '=', included.included_analysis), ('by_default', '=', True), ('valid', '=', True), ]) method_id = (typifications[0].method.id if typifications else None) device_id = None if included.included_analysis.devices: for d in included.included_analysis.devices: if (d.laboratory.id == laboratory_id and d.by_default is True): device_id = d.device.id childs.append({ 'id': included.included_analysis.id, 'origin': origin, 'laboratory': laboratory_id, 'method': method_id, 'device': device_id, }) childs.extend(LimsService._get_included_analysis( included.included_analysis, origin, service_context)) return childs @staticmethod def create_aditional_services(services): cursor = Transaction().connection.cursor() pool = Pool() LimsEntryDetailAnalysis = pool.get('lims.entry.detail.analysis') LimsTypification = pool.get('lims.typification') LimsAnalysisLaboratory = pool.get('lims.analysis-laboratory') LimsAnalysisDevice = pool.get('lims.analysis.device') LimsService = pool.get('lims.service') aditional_services = {} for service in services: entry_details = LimsEntryDetailAnalysis.search([ ('service', '=', service.id), ]) for detail in entry_details: typifications = LimsTypification.search([ ('product_type', '=', service.fraction.product_type.id), ('matrix', '=', service.fraction.matrix.id), ('analysis', '=', detail.analysis.id), ('method', '=', detail.method), ('valid', '=', True), ]) if not typifications: continue typification = typifications[0] if typification.additional: if service.fraction.id not in aditional_services: aditional_services[service.fraction.id] = {} if (typification.additional.id not in aditional_services[service.fraction.id]): aditional_services[service.fraction.id][ typification.additional.id] = { 'laboratory': None, 'method': None, 'device': None, } if typification.additionals: if service.fraction.id not in aditional_services: aditional_services[service.fraction.id] = {} for additional in typification.additionals: if (additional.id not in aditional_services[service.fraction.id]): cursor.execute('SELECT laboratory ' 'FROM "' + LimsAnalysisLaboratory._table + '" ' 'WHERE analysis = %s', (additional.id,)) res = cursor.fetchone() laboratory_id = res and res[0] or None cursor.execute('SELECT method ' 'FROM "' + LimsTypification._table + '" ' 'WHERE product_type = %s ' 'AND matrix = %s ' 'AND analysis = %s ' 'AND valid IS TRUE ' 'AND by_default IS TRUE', (service.fraction.product_type.id, service.fraction.matrix.id, additional.id)) res = cursor.fetchone() method_id = res and res[0] or None cursor.execute('SELECT device ' 'FROM "' + LimsAnalysisDevice._table + '" ' 'WHERE analysis = %s ' 'AND laboratory = %s ' 'AND by_default IS TRUE', (additional.id, laboratory_id)) res = cursor.fetchone() device_id = res and res[0] or None aditional_services[service.fraction.id][ additional.id] = { 'laboratory': laboratory_id, 'method': method_id, 'device': device_id, } if aditional_services: services_default = [] for fraction_id, analysis in aditional_services.iteritems(): for analysis_id, service_data in analysis.iteritems(): if not LimsService.search([ ('fraction', '=', fraction_id), ('analysis', '=', analysis_id), ]): services_default.append({ 'fraction': fraction_id, 'analysis': analysis_id, 'laboratory': service_data['laboratory'], 'method': service_data['method'], 'device': service_data['device'], }) return LimsService.create(services_default) @classmethod def view_attributes(cls): return [ ('//group[@id="invisible_fields"]', 'states', { 'invisible': True, }), ('/tree', 'colors', If(Bool(Eval('has_results_report')), 'blue', If(Bool(Eval('confirmed')), 'black', 'red'))), ] @classmethod def copy(cls, services, default=None): if default is None: default = {} new_services = [] for service in sorted(services, key=lambda x: x.number): current_default = default.copy() current_default['confirmation_date'] = None with Transaction().set_context(copying=True): new_service, = super(LimsService, cls).copy([service], default=current_default) new_services.append(new_service) return new_services @staticmethod def copy_analysis_comments(services): pool = Pool() Fraction = pool.get('lims.fraction') comments = {} for service in services: if service.analysis.comments: fraction_id = service.fraction.id if fraction_id not in comments: comments[fraction_id] = '' if comments[fraction_id]: comments[fraction_id] += '\n' comments[fraction_id] += service.analysis.comments if comments: fractions_to_save = [] for fraction_id, comment in comments.iteritems(): fraction = Fraction(fraction_id) if fraction.comments: fraction.comments += '\n' + comment else: fraction.comments = comment fractions_to_save.append(fraction) if fractions_to_save: Fraction.save(fractions_to_save) @staticmethod def set_confirmation_date(services, confirmation_date=None): pool = Pool() Date = pool.get('ir.date') LimsService = pool.get('lims.service') LimsEntryDetailAnalysis = pool.get('lims.entry.detail.analysis') if not confirmation_date: confirmation_date = Date.today() LimsService.write(services, { 'confirmation_date': confirmation_date, }) analysis_details = LimsEntryDetailAnalysis.search([ ('service', 'in', [s.id for s in services]), ]) if analysis_details: LimsEntryDetailAnalysis.write(analysis_details, { 'confirmation_date': confirmation_date, }) @fields.depends('analysis', 'fraction', 'typification_domain', 'laboratory') def on_change_analysis(self): LimsLaboratory = Pool().get('lims.laboratory') laboratory = None method = None device = None if self.analysis: laboratories = self.on_change_with_laboratory_domain() if len(laboratories) == 1: laboratory = laboratories[0] methods = self.on_change_with_method_domain() if len(methods) == 1: method = methods[0] devices = self._on_change_with_device_domain(self.analysis, LimsLaboratory(laboratory), True) if len(devices) == 1: device = devices[0] self.laboratory = laboratory self.method = method self.device = device @staticmethod def default_analysis_domain(): return Transaction().context.get('analysis_domain', []) @fields.depends('fraction') def on_change_with_analysis_domain(self, name=None): if Transaction().context.get('analysis_domain'): return Transaction().context.get('analysis_domain') if self.fraction: return self.fraction.on_change_with_analysis_domain() return [] @staticmethod def default_typification_domain(): return Transaction().context.get('typification_domain', []) @fields.depends('fraction') def on_change_with_typification_domain(self, name=None): if Transaction().context.get('typification_domain'): return Transaction().context.get('typification_domain') if self.fraction: return self.fraction.on_change_with_typification_domain() return [] @fields.depends('analysis') def on_change_with_analysis_type(self, name=None): if self.analysis: return self.analysis.type return '' @staticmethod def default_fraction_view(): if (Transaction().context.get('fraction') > 0): return Transaction().context.get('fraction') return None @fields.depends('fraction') def on_change_with_fraction_view(self, name=None): if self.fraction: return self.fraction.id return None @staticmethod def default_sample(): if (Transaction().context.get('sample') > 0): return Transaction().context.get('sample') return None @fields.depends('fraction') def on_change_with_sample(self, name=None): if self.fraction: result = self.get_fraction_field((self,), ('sample',)) return result['sample'][self.id] return None @staticmethod def default_entry(): if (Transaction().context.get('entry') > 0): return Transaction().context.get('entry') return None @fields.depends('fraction') def on_change_with_entry(self, name=None): if self.fraction: result = self.get_fraction_field((self,), ('entry',)) return result['entry'][self.id] return None @staticmethod def default_party(): if (Transaction().context.get('party') > 0): return Transaction().context.get('party') return None @fields.depends('fraction') def on_change_with_party(self, name=None): if self.fraction: result = self.get_fraction_field((self,), ('party',)) return result['party'][self.id] return None @fields.depends('analysis', 'laboratory') def on_change_laboratory(self): device = None if self.analysis and self.laboratory: devices = self._on_change_with_device_domain(self.analysis, self.laboratory, True) if len(devices) == 1: device = devices[0] self.device = device @fields.depends('analysis') def on_change_with_laboratory_domain(self, name=None): cursor = Transaction().connection.cursor() LimsAnalysisLaboratory = Pool().get('lims.analysis-laboratory') if not self.analysis: return [] cursor.execute('SELECT DISTINCT(laboratory) ' 'FROM "' + LimsAnalysisLaboratory._table + '" ' 'WHERE analysis = %s', (self.analysis.id,)) res = cursor.fetchall() if not res: return [] return [x[0] for x in res] @fields.depends('analysis', 'typification_domain') def on_change_with_method_domain(self, name=None): cursor = Transaction().connection.cursor() LimsTypification = Pool().get('lims.typification') if not self.analysis: return [] typification_ids = ', '.join(str(t) for t in self.on_change_with_typification_domain()) if not typification_ids: return [] cursor.execute('SELECT DISTINCT(method) ' 'FROM "' + LimsTypification._table + '" ' 'WHERE id IN (' + typification_ids + ') ' 'AND analysis = %s', (self.analysis.id,)) res = cursor.fetchall() if not res: return [] return [x[0] for x in res] @fields.depends('analysis', 'laboratory') def on_change_with_device_domain(self, name=None): return self._on_change_with_device_domain(self.analysis, self.laboratory) @staticmethod def _on_change_with_device_domain(analysis=None, laboratory=None, by_default=False): cursor = Transaction().connection.cursor() LimsAnalysisDevice = Pool().get('lims.analysis.device') if not analysis or not laboratory: return [] if by_default: by_default_clause = 'AND by_default = TRUE' else: by_default_clause = '' cursor.execute('SELECT DISTINCT(device) ' 'FROM "' + LimsAnalysisDevice._table + '" ' 'WHERE analysis = %s ' 'AND laboratory = %s ' + by_default_clause, (analysis.id, laboratory.id)) res = cursor.fetchall() if not res: return [] return [x[0] for x in res] @classmethod def get_views_field(cls, services, names): result = {} for name in names: field_name = name[:-5] result[name] = {} for s in services: field = getattr(s, field_name, None) result[name][s.id] = field.id if field else None return result @classmethod def search_views_field(cls, name, clause): return [(name[:-5],) + tuple(clause[1:])] @classmethod def search_analysis_field(cls, name, clause): if name == 'analysis_type': name = 'type' return [('analysis.' + name,) + tuple(clause[1:])] @classmethod def search_create_date2(cls, name, clause): cursor = Transaction().connection.cursor() operator_ = clause[1:2][0] cursor.execute('SELECT id ' 'FROM "' + cls._table + '" ' 'WHERE create_date' + operator_ + ' %s', clause[2:3]) return [('id', 'in', [x[0] for x in cursor.fetchall()])] @classmethod def get_fraction_field(cls, services, names): result = {} for name in names: result[name] = {} if name == 'label': for s in services: result[name][s.id] = getattr(s.fraction, name, None) else: for s in services: field = getattr(s.fraction, name, None) result[name][s.id] = field.id if field else None return result def get_create_date2(self, name): return self.create_date.replace(microsecond=0) @classmethod def search_fraction_field(cls, name, clause): return [('fraction.' + name,) + tuple(clause[1:])] @classmethod def order_create_date2(cls, tables): return cls.create_date.convert_order('create_date', tables, cls) def _order_analysis_field(name): def order_field(tables): Analysis = Pool().get('lims.analysis') field = Analysis._fields[name] table, _ = tables[None] analysis_tables = tables.get('analysis') if analysis_tables is None: analysis = Analysis.__table__() analysis_tables = { None: (analysis, analysis.id == table.analysis), } tables['analysis'] = analysis_tables return field.convert_order(name, analysis_tables, Analysis) return staticmethod(order_field) # Redefine convert_order function with 'order_%s' % field order_analysis_view = _order_analysis_field('id') order_analysis_type = _order_analysis_field('type') def _order_fraction_field(name): def order_field(tables): Fraction = Pool().get('lims.fraction') field = Fraction._fields[name] table, _ = tables[None] fraction_tables = tables.get('fraction') if fraction_tables is None: fraction = Fraction.__table__() fraction_tables = { None: (fraction, fraction.id == table.fraction), } tables['fraction'] = fraction_tables return field.convert_order(name, fraction_tables, Fraction) return staticmethod(order_field) # Redefine convert_order function with 'order_%s' % field order_sample = _order_fraction_field('sample') order_entry = _order_fraction_field('entry') order_party = _order_fraction_field('party') def get_confirmed(self, name=None): if self.fraction: return self.fraction.confirmed return False @classmethod def search_confirmed(cls, name, clause): return [('fraction.confirmed',) + tuple(clause[1:])] @classmethod def get_has_results_report(cls, services, names): cursor = Transaction().connection.cursor() LimsNotebookLine = Pool().get('lims.notebook.line') result = {} for name in names: result[name] = {} for s in services: cursor.execute('SELECT service ' 'FROM "' + LimsNotebookLine._table + '" ' 'WHERE service = %s ' 'AND results_report IS NOT NULL', (s.id,)) value = False if cursor.fetchone(): value = True result[name][s.id] = value return result def get_manage_service_available(self, name=None): LimsNotebookLine = Pool().get('lims.notebook.line') planned_notebook_lines = LimsNotebookLine.search([ ('service', '=', self.id), ('planification', '!=', None), ]) if planned_notebook_lines: return False return True class LimsFraction(ModelSQL, ModelView): 'Fraction' __name__ = 'lims.fraction' _rec_name = 'number' number = fields.Char('Number', select=True, readonly=True) create_date2 = fields.Function(fields.DateTime('Create Date'), 'get_create_date2', searcher='search_create_date2') sample = fields.Many2One('lims.sample', 'Sample', required=True, ondelete='CASCADE', select=True, depends=['number'], states={'readonly': Bool(Eval('number'))}) sample_view = fields.Function(fields.Many2One('lims.sample', 'Sample', states={'invisible': Not(Bool(Eval('_parent_sample')))}), 'on_change_with_sample_view') entry = fields.Function(fields.Many2One('lims.entry', 'Entry'), 'get_sample_field', searcher='search_sample_field') party = fields.Function(fields.Many2One('party.party', 'Party'), 'get_sample_field', searcher='search_sample_field') label = fields.Function(fields.Char('Label'), 'get_sample_field', searcher='search_sample_field') type = fields.Many2One('lims.fraction.type', 'Fraction type', required=True) storage_location = fields.Many2One('stock.location', 'Storage location', required=True, domain=[('type', '=', 'storage')]) storage_time = fields.Integer('Storage time (in months)', required=True) weight = fields.Float('Weight') weight_uom = fields.Many2One('product.uom', 'Weight UoM', domain=[('category.lims_only_available', '=', True)]) packages_quantity = fields.Integer('Packages quantity', required=True) package_type = fields.Many2One('lims.packaging.type', 'Package type', required=True) size = fields.Float('Size') size_uom = fields.Many2One('product.uom', 'Size UoM', domain=[('category.lims_only_available', '=', True)]) expiry_date = fields.Date('Expiry date', states={'readonly': True}) discharge_date = fields.Date('Discharge date') countersample_location = fields.Many2One('stock.location', 'Countersample location', readonly=True) countersample_date = fields.Date('Countersample date', readonly=True) fraction_state = fields.Many2One('lims.packaging.integrity', 'Fraction state', required=True) services = fields.One2Many('lims.service', 'fraction', 'Services', states={'readonly': Bool(Eval('button_manage_services_available'))}, context={ 'analysis_domain': Eval('analysis_domain'), 'typification_domain': Eval('typification_domain'), 'product_type': Eval('product_type'), 'matrix': Eval('matrix'), 'fraction': Eval('id'), 'sample': Eval('sample'), 'entry': Eval('entry'), 'party': Eval('party'), 'readonly': False, }, depends=['button_manage_services_available', 'analysis_domain', 'typification_domain', 'product_type', 'matrix', 'sample', 'entry', 'party', ]) shared = fields.Boolean('Shared') comments = fields.Text('Comments') analysis_domain = fields.Function(fields.Many2Many('lims.analysis', None, None, 'Analysis domain'), 'on_change_with_analysis_domain') typification_domain = fields.Function(fields.Many2Many( 'lims.typification', None, None, 'Typification domain'), 'on_change_with_typification_domain') product_type = fields.Function(fields.Many2One('lims.product.type', 'Product type'), 'on_change_with_product_type') matrix = fields.Function(fields.Many2One('lims.matrix', 'Matrix'), 'on_change_with_matrix') button_manage_services_available = fields.Function(fields.Boolean( 'Button manage services available'), 'on_change_with_button_manage_services_available') confirmed = fields.Boolean('Confirmed') button_confirm_available = fields.Function(fields.Boolean( 'Button confirm available'), 'on_change_with_button_confirm_available') current_location = fields.Function(fields.Many2One('stock.location', 'Current Location'), 'get_current_location', searcher='search_current_location') duplicated_analysis_message = fields.Text('Message', readonly=True, states={'invisible': Not(Bool(Eval('duplicated_analysis_message')))}) has_results_report = fields.Function(fields.Boolean('Results Report'), 'get_has_results_report', searcher='search_has_results_report') has_all_results_reported = fields.Function(fields.Boolean( 'All results reported'), 'get_has_all_results_reported') waiting_confirmation = fields.Boolean('Waiting confirmation') entry_state = fields.Function(fields.Selection([ ('draft', 'Draft'), ('ongoing', 'Ongoing'), ('pending', 'Administration pending'), ('closed', 'Closed'), ], 'Entry State'), 'get_entry_state', searcher='search_entry_state') @classmethod def __setup__(cls): super(LimsFraction, cls).__setup__() cls._order.insert(0, ('number', 'DESC')) cls._buttons.update({ 'manage_services': { 'invisible': ~Eval('button_manage_services_available'), }, 'complete_services': { 'invisible': ~Eval('button_manage_services_available'), }, 'confirm': { 'invisible': ~Eval('button_confirm_available'), }, }) cls._error_messages.update({ 'missing_fraction_product': ('Missing "Fraction product" ' 'on Lims configuration'), 'delete_fraction': ('You can not delete fraction "%s" because ' 'it is confirmed'), 'duplicated_analysis': ('The analysis "%s" is assigned more' ' than once'), 'not_services': ('You can not confirm fraction "%s" because ' 'has not services'), 'not_divided': ('You can not confirm fraction because ' 'is not yet divided'), }) @staticmethod def default_packages_quantity(): return 1 @staticmethod def default_storage_time(): return 3 @staticmethod def default_confirmed(): return False @staticmethod def default_waiting_confirmation(): return False @classmethod def get_next_number(cls, sample_id, f_count): LimsSample = Pool().get('lims.sample') samples = LimsSample.search([('id', '=', sample_id)]) sample_number = samples[0].number fraction_number = cls.search_count([('sample', '=', sample_id)]) fraction_number += f_count return '%s-%s' % (sample_number, fraction_number) @classmethod def create(cls, vlist): vlist = [x.copy() for x in vlist] f_count = {} for values in vlist: if not values['sample'] in f_count: f_count[values['sample']] = 0 f_count[values['sample']] += 1 values['number'] = cls.get_next_number(values['sample'], f_count[values['sample']]) return super(LimsFraction, cls).create(vlist) @classmethod def view_attributes(cls): return [ ('//group[@id="button_confirm"]', 'states', { 'invisible': ~Eval('button_confirm_available'), }), ('/tree', 'colors', If(Bool(Eval('has_results_report')), 'blue', If(Bool(Eval('confirmed')), 'black', 'red'))), ] @classmethod def copy(cls, fractions, default=None): if default is None: default = {} new_fractions = [] for fraction in sorted(fractions, key=lambda x: x.number): current_default = default.copy() current_default['confirmed'] = False current_default['waiting_confirmation'] = False current_default['expiry_date'] = None current_default['countersample_date'] = None current_default['countersample_location'] = None new_fraction, = super(LimsFraction, cls).copy([fraction], default=current_default) new_fractions.append(new_fraction) return new_fractions @classmethod def check_delete(cls, fractions): for fraction in fractions: if fraction.confirmed: cls.raise_user_error('delete_fraction', (fraction.rec_name,)) @classmethod def delete(cls, fractions): cls.check_delete(fractions) super(LimsFraction, cls).delete(fractions) @fields.depends('type', 'storage_location') def on_change_with_storage_time(self, name=None): if (self.type and self.type.max_storage_time): return self.type.max_storage_time if (self.storage_location and self.storage_location.storage_time): return self.storage_location.storage_time return 3 @staticmethod def default_analysis_domain(): return Transaction().context.get('analysis_domain', []) @fields.depends('sample') def on_change_with_analysis_domain(self, name=None): if Transaction().context.get('analysis_domain'): return Transaction().context.get('analysis_domain') if self.sample: return self.sample.on_change_with_analysis_domain() return [] @staticmethod def default_typification_domain(): return Transaction().context.get('typification_domain', []) @fields.depends('sample') def on_change_with_typification_domain(self, name=None): if Transaction().context.get('typification_domain'): return Transaction().context.get('typification_domain') if self.sample: return self.sample.on_change_with_typification_domain() return [] @staticmethod def default_product_type(): return Transaction().context.get('product_type', None) @fields.depends('sample') def on_change_with_product_type(self, name=None): if Transaction().context.get('product_type'): return Transaction().context.get('product_type') if self.sample and self.sample.product_type: return self.sample.product_type.id return None @staticmethod def default_matrix(): return Transaction().context.get('matrix', None) @fields.depends('sample') def on_change_with_matrix(self, name=None): if Transaction().context.get('matrix'): return Transaction().context.get('matrix') if self.sample and self.sample.matrix: return self.sample.matrix.id return None @staticmethod def default_sample_view(): if (Transaction().context.get('sample') > 0): return Transaction().context.get('sample') return None @fields.depends('sample') def on_change_with_sample_view(self, name=None): if self.sample: return self.sample.id return None @staticmethod def default_entry(): if (Transaction().context.get('entry') > 0): return Transaction().context.get('entry') return None @fields.depends('sample') def on_change_with_entry(self, name=None): if self.sample: result = self.get_sample_field((self,), ('entry',)) return result['entry'][self.id] return None @staticmethod def default_party(): if (Transaction().context.get('party') > 0): return Transaction().context.get('party') return None @fields.depends('sample') def on_change_with_party(self, name=None): if self.sample: result = self.get_sample_field((self,), ('party',)) return result['party'][self.id] return None @staticmethod def default_label(): return Transaction().context.get('label', '') @fields.depends('sample') def on_change_with_label(self, name=None): if self.sample: result = self.get_sample_field((self,), ('label',)) return result['label'][self.id] return '' @staticmethod def default_package_type(): if (Transaction().context.get('package_type') > 0): return Transaction().context.get('package_type') return None @fields.depends('sample') def on_change_with_package_type(self, name=None): if self.sample: result = self.get_sample_field((self,), ('package_type',)) return result['package_type'][self.id] return None @staticmethod def default_size(): return Transaction().context.get('size', None) @fields.depends('sample') def on_change_with_size(self, name=None): if self.sample: result = self.get_sample_field((self,), ('size',)) return result['size'][self.id] return None @staticmethod def default_size_uom(): if (Transaction().context.get('size_uom') > 0): return Transaction().context.get('size_uom') return None @fields.depends('sample') def on_change_with_size_uom(self, name=None): if self.sample: result = self.get_sample_field((self,), ('size_uom',)) return result['size_uom'][self.id] return None @staticmethod def default_fraction_state(): if (Transaction().context.get('fraction_state') > 0): return Transaction().context.get('fraction_state') return None @fields.depends('sample') def on_change_with_fraction_state(self, name=None): if self.sample: result = self.get_sample_field((self,), ('fraction_state',)) return result['fraction_state'][self.id] return None @classmethod def get_sample_field(cls, fractions, names): result = {} for name in names: result[name] = {} if name in ('label', 'size'): for f in fractions: result[name][f.id] = getattr(f.sample, name, None) elif name == 'fraction_state': for f in fractions: field = getattr(f.sample, 'package_state', None) result[name][f.id] = field.id if field else None else: for f in fractions: field = getattr(f.sample, name, None) result[name][f.id] = field.id if field else None return result @classmethod def search_sample_field(cls, name, clause): return [('sample.' + name,) + tuple(clause[1:])] @classmethod def get_entry_state(cls, fractions, name): result = {} for f in fractions: result[f.id] = getattr(f.entry, 'state', None) return result @classmethod def search_entry_state(cls, name, clause): return [('sample.entry.state',) + tuple(clause[1:])] @fields.depends('confirmed') def on_change_with_button_manage_services_available(self, name=None): if self.confirmed: return True return False @classmethod @ModelView.button_action('lims.wiz_lims_manage_services') def manage_services(cls, fractions): pass @classmethod @ModelView.button_action('lims.wiz_lims_complete_services') def complete_services(cls, fractions): pass @fields.depends('confirmed', 'sample') def on_change_with_button_confirm_available(self, name=None): if (not self.confirmed and self.sample and self.sample.entry and (self.sample.entry.state == 'ongoing')): return True return False @classmethod def check_divided_report(cls, fractions): pool = Pool() LimsService = pool.get('lims.service') LimsEntryDetailAnalysis = pool.get('lims.entry.detail.analysis') services = LimsService.search([ ('fraction', 'in', [f.id for f in fractions]), ('divide', '=', True), ]) if services: if (LimsEntryDetailAnalysis.search_count([ ('service', 'in', [s.id for s in services]), ('report_grouper', '!=', 0), ]) == 0): cls.raise_user_error('not_divided') @classmethod @ModelView.button def confirm(cls, fractions): pool = Pool() Config = pool.get('lims.configuration') Service = pool.get('lims.service') EntryDetailAnalysis = pool.get('lims.entry.detail.analysis') confirm_background = Config(1).entry_confirm_background cls.check_divided_report(fractions) fractions_to_save = [] for fraction in fractions: services = Service.search([('fraction', '=', fraction.id)]) Service.copy_analysis_comments(services) Service.set_confirmation_date(services) fraction.create_laboratory_notebook() analysis_detail = EntryDetailAnalysis.search([ ('fraction', '=', fraction.id)]) if analysis_detail: EntryDetailAnalysis.create_notebook_lines(analysis_detail, fraction) fraction.confirmed = True if confirm_background: fraction.waiting_confirmation = True else: fraction.create_stock_move() fractions_to_save.append(fraction) cls.save(fractions_to_save) def create_laboratory_notebook(self): pool = Pool() LimsNotebook = pool.get('lims.notebook') with Transaction().set_user(0): notebook = LimsNotebook( fraction=self.id, ) notebook.save() def create_stock_move(self): Move = Pool().get('stock.move') move = self._get_stock_move() if not move: return with Transaction().set_context(check_current_location=False): move.save() Move.assign([move]) Move.do([move]) def _get_stock_move(self): pool = Pool() Config = pool.get('lims.configuration') Date = pool.get('ir.date') User = pool.get('res.user') Location = pool.get('stock.location') Move = pool.get('stock.move') config_ = Config(1) if config_.fraction_product: product = config_.fraction_product else: self.raise_user_error('missing_fraction_product') today = Date.today() company = User(Transaction().user).company if self.sample.entry.party.customer_location: from_location = self.sample.entry.party.customer_location else: locations = Location.search([('type', '=', 'customer')]) from_location = locations[0] if len(locations) == 1 else None with Transaction().set_user(0, set_context=True): move = Move() move.product = product.id move.fraction = self.id move.quantity = self.packages_quantity move.uom = product.default_uom move.from_location = from_location move.to_location = self.storage_location move.company = company move.planned_date = today move.origin = self move.state = 'draft' return move @classmethod def confirm_waiting_fractions(cls): ''' Cron - Confirm Waiting Fractions ''' logger = logging.getLogger('lims') fractions = cls.search([ ('waiting_confirmation', '=', True), ], order=[('id', 'ASC')]) if fractions: logger.info('Cron - Confirming fractions:INIT') fractions_to_save = [] for fraction in fractions: fraction.create_stock_move() fraction.waiting_confirmation = False fractions_to_save.append(fraction) cls.save(fractions_to_save) logger.info('Cron - Confirming fractions:END') @fields.depends('services') def on_change_services(self, name=None): LimsAnalysis = Pool().get('lims.analysis') self.duplicated_analysis_message = '' if self.services: analysis_ids = [] for service in self.services: if service.analysis: new_analysis_ids = [service.analysis.id] new_analysis_ids.extend(LimsAnalysis.get_included_analysis( service.analysis.id)) for a_id in new_analysis_ids: if a_id in analysis_ids: analysis = LimsAnalysis(a_id) self.duplicated_analysis_message = ( self.raise_user_error('duplicated_analysis', (analysis.rec_name,), raise_exception=False)) return analysis_ids.extend(new_analysis_ids) def get_create_date2(self, name): return self.create_date.replace(microsecond=0) @classmethod def search_create_date2(cls, name, clause): cursor = Transaction().connection.cursor() operator_ = clause[1:2][0] cursor.execute('SELECT id ' 'FROM "' + cls._table + '" ' 'WHERE create_date' + operator_ + ' %s', clause[2:3]) return [('id', 'in', [x[0] for x in cursor.fetchall()])] @fields.depends('countersample_date', 'storage_time') def on_change_with_expiry_date(self, name=None): if self.countersample_date: return self.countersample_date + relativedelta( months=self.storage_time) return None @classmethod def get_current_location(cls, fractions, name=None): cursor = Transaction().connection.cursor() Move = Pool().get('stock.move') result = {} for f in fractions: cursor.execute('SELECT to_location ' 'FROM "' + Move._table + '" ' 'WHERE fraction = %s ' 'AND state IN (\'assigned\', \'done\') ' 'ORDER BY effective_date DESC, id DESC ' 'LIMIT 1', (f.id,)) location = cursor.fetchone() result[f.id] = location[0] if location else None return result @classmethod def search_current_location(cls, name, domain=None): if not Transaction().context.get('check_current_location', True): return [] def _search_current_location_eval_domain(line, domain): operator_funcs = { '=': operator.eq, '>=': operator.ge, '>': operator.gt, '<=': operator.le, '<': operator.lt, '!=': operator.ne, 'in': lambda v, l: v in l, 'not in': lambda v, l: v not in l, 'ilike': lambda v, l: False, } field, op, operand = domain value = line.get(field) return operator_funcs[op](value, operand) if domain and domain[1] == 'ilike': Location = Pool().get('stock.location') locations = Location.search([ ('code', '=', domain[2]), ], order=[]) if not locations: locations = Location.search([ ('name',) + tuple(domain[1:]), ], order=[]) if not locations: return [] domain = ('current_location', 'in', [l.id for l in locations]) all_fractions = cls.search([]) current_locations = cls.get_current_location(all_fractions).iteritems() processed_lines = [{ 'fraction': fraction, 'current_location': location, } for fraction, location in current_locations] record_ids = [line['fraction'] for line in processed_lines if _search_current_location_eval_domain(line, domain)] return [('id', 'in', record_ids)] @classmethod def order_create_date2(cls, tables): return cls.create_date.convert_order('create_date', tables, cls) def _order_sample_field(name): def order_field(tables): Sample = Pool().get('lims.sample') field = Sample._fields[name] table, _ = tables[None] sample_tables = tables.get('sample') if sample_tables is None: sample = Sample.__table__() sample_tables = { None: (sample, sample.id == table.sample), } tables['sample'] = sample_tables return field.convert_order(name, sample_tables, Sample) return staticmethod(order_field) # Redefine convert_order function with 'order_%s' % field order_entry = _order_sample_field('entry') order_party = _order_sample_field('party') order_label = _order_sample_field('label') order_product_type = _order_sample_field('product_type') order_matrix = _order_sample_field('matrix') @classmethod def get_has_results_report(cls, fractions, names): cursor = Transaction().connection.cursor() pool = Pool() LimsService = pool.get('lims.service') LimsNotebookLine = pool.get('lims.notebook.line') result = {} for name in names: result[name] = {} for f in fractions: cursor.execute('SELECT s.fraction ' 'FROM "' + LimsService._table + '" s ' 'INNER JOIN "' + LimsNotebookLine._table + '" nl ' 'ON s.id = nl.service ' 'WHERE s.fraction = %s ' 'AND nl.results_report IS NOT NULL', (f.id,)) value = False if cursor.fetchone(): value = True result[name][f.id] = value return result @classmethod def search_has_results_report(cls, name, clause): cursor = Transaction().connection.cursor() pool = Pool() LimsService = pool.get('lims.service') LimsNotebookLine = pool.get('lims.notebook.line') cursor.execute('SELECT DISTINCT(s.fraction) ' 'FROM "' + LimsService._table + '" s ' 'INNER JOIN "' + LimsNotebookLine._table + '" nl ' 'ON s.id = nl.service ' 'WHERE nl.results_report IS NOT NULL') has_results_report = [x[0] for x in cursor.fetchall()] field, op, operand = clause if (op, operand) in (('=', True), ('!=', False)): return [('id', 'in', has_results_report)] elif (op, operand) in (('=', False), ('!=', True)): return [('id', 'not in', has_results_report)] else: return [] def get_has_all_results_reported(self, name=None): LimsNotebookLine = Pool().get('lims.notebook.line') notebook_lines = LimsNotebookLine.search([ ('analysis_detail.service.fraction', '=', self.id), ('report', '=', True), ('annulled', '=', False), ]) if not notebook_lines: return False for nl in notebook_lines: if not nl.accepted: return False if not nl.results_report: return False return True def get_formated_number(self, format): formated_number = self.number number_parts = self.number.split('/') number_parts2 = number_parts[1].split('-') if len(number_parts2) < 2: # 2014: "0000097-1/2014" number_parts2 = number_parts[0].split('-') sample_number = number_parts2[0] sample_year = number_parts[1] fraction_number = number_parts2[1] else: # 2015: "2015/0000017-1" sample_number = number_parts2[0] sample_year = number_parts[0] fraction_number = number_parts2[1] if format == 'sn-sy-fn': formated_number = (sample_number + '-' + sample_year + '-' + fraction_number) elif format == 'sy-sn-fn': formated_number = (sample_year + '-' + sample_number + '-' + fraction_number) elif format == 'pt-m-sn-sy-fn': formated_number = (self.product_type.code + '-' + self.matrix.code + '-' + sample_number + '-' + sample_year + '-' + fraction_number) elif format == 'pt-m-sy-sn-fn': formated_number = (self.product_type.code + '-' + self.matrix.code + '-' + sample_year + '-' + sample_number + '-' + fraction_number) return formated_number class LimsSample(ModelSQL, ModelView): 'Sample' __name__ = 'lims.sample' _rec_name = 'number' number = fields.Char('Number', select=True, readonly=True) create_date2 = fields.Function(fields.DateTime('Create Date'), 'get_create_date2', searcher='search_create_date2') date = fields.DateTime('Date', required=True) date2 = fields.Function(fields.Date('Date'), 'get_date', searcher='search_date') entry = fields.Many2One('lims.entry', 'Entry', required=True, ondelete='CASCADE', select=True, depends=['number'], states={'readonly': Bool(Eval('number'))}) entry_view = fields.Function(fields.Many2One('lims.entry', 'Entry', states={'invisible': Not(Bool(Eval('_parent_entry')))}), 'on_change_with_entry_view') party = fields.Function(fields.Many2One('party.party', 'Party'), 'get_entry_field', searcher='search_entry_field') producer = fields.Many2One('lims.sample.producer', 'Producer company', domain=[('party', '=', Eval('party'))], depends=['party']) label = fields.Char('Label', translate=True) sample_client_description = fields.Char('Product described by the client', translate=True) product_type = fields.Many2One('lims.product.type', 'Product type', states={'readonly': Bool(Eval('product_type_matrix_readonly'))}, required=True, domain=[ ('id', 'in', Eval('product_type_domain')), ], depends=['product_type_domain', 'product_type_matrix_readonly']) product_type_view = fields.Function(fields.Many2One('lims.product.type', 'Product type'), 'get_views_field', searcher='search_views_field') product_type_domain = fields.Function(fields.Many2Many( 'lims.product.type', None, None, 'Product type domain'), 'on_change_with_product_type_domain') matrix = fields.Many2One('lims.matrix', 'Matrix', required=True, states={'readonly': Bool(Eval('product_type_matrix_readonly'))}, domain=[ ('id', 'in', Eval('matrix_domain')), ], depends=['matrix_domain', 'product_type_matrix_readonly']) matrix_view = fields.Function(fields.Many2One('lims.matrix', 'Matrix'), 'get_views_field', searcher='search_views_field') matrix_domain = fields.Function(fields.Many2Many('lims.matrix', None, None, 'Matrix domain'), 'on_change_with_matrix_domain') product_type_matrix_readonly = fields.Function(fields.Boolean( 'Product type and Matrix readonly'), 'get_product_type_matrix_readonly') package_state = fields.Many2One('lims.packaging.integrity', 'Package state') package_type = fields.Many2One('lims.packaging.type', 'Package type') packages_quantity = fields.Integer('Packages quantity', required=True) size = fields.Float('Size') size_uom = fields.Many2One('product.uom', 'Size UoM', domain=[('category.lims_only_available', '=', True)]) restricted_entry = fields.Boolean('Restricted entry', states={'readonly': True}) zone = fields.Many2One('lims.zone', 'Zone', required=True) trace_report = fields.Boolean('Trace report') fractions = fields.One2Many('lims.fraction', 'sample', 'Fractions', context={ 'analysis_domain': Eval('analysis_domain'), 'typification_domain': Eval('typification_domain'), 'product_type': Eval('product_type'), 'matrix': Eval('matrix'), 'sample': Eval('id'), 'entry': Eval('entry'), 'party': Eval('party'), 'label': Eval('label'), 'package_type': Eval('package_type'), 'size': Eval('size'), 'size_uom': Eval('size_uom'), 'fraction_state': Eval('package_state'), }, depends=['analysis_domain', 'typification_domain', 'entry', 'party', 'label']) report_comments = fields.Text('Report comments', translate=True) comments = fields.Text('Comments') variety = fields.Many2One('lims.variety', 'Variety', domain=[('varieties.matrix', '=', Eval('matrix'))], depends=['matrix']) analysis_domain = fields.Function(fields.Many2Many('lims.analysis', None, None, 'Analysis domain'), 'on_change_with_analysis_domain') typification_domain = fields.Function(fields.Many2Many( 'lims.typification', None, None, 'Typification domain'), 'on_change_with_typification_domain') confirmed = fields.Function(fields.Boolean('Confirmed'), 'get_confirmed') has_results_report = fields.Function(fields.Boolean('Results Report'), 'get_has_results_report') @classmethod def __setup__(cls): super(LimsSample, cls).__setup__() cls._order.insert(0, ('number', 'DESC')) cls._error_messages.update({ 'no_sample_sequence': ('There is no sample sequence for ' 'the work year "%s".'), 'duplicated_label': ('The label "%s" is already present in ' 'another sample'), 'delete_sample': ('You can not delete sample "%s" because ' 'its entry is not in draft state'), }) @staticmethod def default_date(): return datetime.now() @staticmethod def default_restricted_entry(): return False @staticmethod def default_trace_report(): return False @classmethod def copy(cls, samples, default=None): if default is None: default = {} new_samples = [] for sample in sorted(samples, key=lambda x: x.number): new_sample, = super(LimsSample, cls).copy([sample], default=default) new_samples.append(new_sample) return new_samples def get_date(self, name): pool = Pool() Company = pool.get('company.company') date = self.date company_id = Transaction().context.get('company') if company_id: date = Company(company_id).convert_timezone_datetime(date) return date.date() def get_create_date2(self, name): return self.create_date.replace(microsecond=0) @classmethod def search_date(cls, name, clause): pool = Pool() Company = pool.get('company.company') cursor = Transaction().connection.cursor() timezone = None company_id = Transaction().context.get('company') if company_id: timezone = Company(company_id).timezone timezone_datetime = 'date::timestamp AT TIME ZONE \'UTC\'' if timezone: timezone_datetime += ' AT TIME ZONE \'' + timezone + '\'' operator_ = clause[1:2][0] cursor.execute('SELECT id ' 'FROM "' + cls._table + '" ' 'WHERE (' + timezone_datetime + ')::date ' + operator_ + ' %s::date', clause[2:3]) return [('id', 'in', [x[0] for x in cursor.fetchall()])] @classmethod def search_create_date2(cls, name, clause): cursor = Transaction().connection.cursor() operator_ = clause[1:2][0] cursor.execute('SELECT id ' 'FROM "' + cls._table + '" ' 'WHERE create_date' + operator_ + ' %s', clause[2:3]) return [('id', 'in', [x[0] for x in cursor.fetchall()])] @classmethod def create(cls, vlist): pool = Pool() LimsLabWorkYear = pool.get('lims.lab.workyear') Sequence = pool.get('ir.sequence') workyear_id = LimsLabWorkYear.find() workyear = LimsLabWorkYear(workyear_id) sequence = workyear.get_sequence('sample') if not sequence: cls.raise_user_error('no_sample_sequence', (workyear.rec_name,)) vlist = [x.copy() for x in vlist] for values in vlist: values['number'] = Sequence.get_id(sequence.id) samples = super(LimsSample, cls).create(vlist) for sample in samples: sample.warn_duplicated_label() return samples def warn_duplicated_label(self): return # deactivated if self.label: duplicated = self.search([ ('entry', '=', self.entry.id), ('label', '=', self.label), ('id', '!=', self.id), ]) if duplicated: self.raise_user_warning('lims_sample_label@%s' % self.number, 'duplicated_label', self.label) @classmethod def write(cls, *args): super(LimsSample, cls).write(*args) actions = iter(args) for samples, vals in zip(actions, actions): if vals.get('label'): for sample in samples: sample.warn_duplicated_label() @fields.depends('product_type', 'matrix', 'zone') def on_change_with_restricted_entry(self, name=None): return (self.product_type and self.product_type.restricted_entry and self.matrix and self.matrix.restricted_entry and self.zone and self.zone.restricted_entry) @fields.depends('product_type', 'matrix') def on_change_with_analysis_domain(self, name=None): cursor = Transaction().connection.cursor() pool = Pool() LimsTypification = pool.get('lims.typification') LimsCalculatedTypification = pool.get('lims.typification.calculated') LimsAnalysis = pool.get('lims.analysis') if not self.product_type or not self.matrix: return [] cursor.execute('SELECT DISTINCT(analysis) ' 'FROM "' + LimsTypification._table + '" ' 'WHERE product_type = %s ' 'AND matrix = %s ' 'AND valid', (self.product_type.id, self.matrix.id)) typified_analysis = [a[0] for a in cursor.fetchall()] if not typified_analysis: return [] cursor.execute('SELECT id ' 'FROM "' + LimsAnalysis._table + '" ' 'WHERE type = \'analysis\' ' 'AND behavior IN (\'normal\', \'internal_relation\') ' 'AND disable_as_individual IS TRUE ' 'AND state = \'active\'') disabled_analysis = [a[0] for a in cursor.fetchall()] if disabled_analysis: typified_analysis = list(set(typified_analysis) - set(disabled_analysis)) cursor.execute('SELECT DISTINCT(analysis) ' 'FROM "' + LimsCalculatedTypification._table + '" ' 'WHERE product_type = %s ' 'AND matrix = %s', (self.product_type.id, self.matrix.id)) typified_sets_groups = [a[0] for a in cursor.fetchall()] cursor.execute('SELECT id ' 'FROM "' + LimsAnalysis._table + '" ' 'WHERE behavior = \'additional\' ' 'AND state = \'active\'') additional_analysis = [a[0] for a in cursor.fetchall()] return typified_analysis + typified_sets_groups + additional_analysis @fields.depends('product_type', 'matrix') def on_change_with_typification_domain(self, name=None): cursor = Transaction().connection.cursor() LimsTypification = Pool().get('lims.typification') if not self.product_type or not self.matrix: return [] cursor.execute('SELECT id ' 'FROM "' + LimsTypification._table + '" ' 'WHERE product_type = %s ' 'AND matrix = %s ' 'AND valid', (self.product_type.id, self.matrix.id)) res = cursor.fetchall() if not res: return [] return [x[0] for x in res] @staticmethod def default_product_type_domain(): cursor = Transaction().connection.cursor() LimsTypification = Pool().get('lims.typification') cursor.execute('SELECT DISTINCT(product_type) ' 'FROM "' + LimsTypification._table + '" ' 'WHERE valid') res = cursor.fetchall() if not res: return [] return [x[0] for x in res] def on_change_with_product_type_domain(self, name=None): return self.default_product_type_domain() @fields.depends('product_type') def on_change_product_type(self): matrix = None if self.product_type: matrixs = self.on_change_with_matrix_domain() if len(matrixs) == 1: matrix = matrixs[0] self.matrix = matrix @fields.depends('product_type') def on_change_with_matrix_domain(self, name=None): cursor = Transaction().connection.cursor() LimsTypification = Pool().get('lims.typification') if not self.product_type: return [] cursor.execute('SELECT DISTINCT(matrix) ' 'FROM "' + LimsTypification._table + '" ' 'WHERE product_type = %s ' 'AND valid', (self.product_type.id,)) res = cursor.fetchall() if not res: return [] return [x[0] for x in res] def get_product_type_matrix_readonly(self, name=None): pool = Pool() LimsService = pool.get('lims.service') if LimsService.search_count([('sample', '=', self.id)]) != 0: return True return False @classmethod def check_delete(cls, samples): for sample in samples: if sample.entry and sample.entry.state != 'draft': cls.raise_user_error('delete_sample', (sample.rec_name,)) @classmethod def delete(cls, samples): cls.check_delete(samples) super(LimsSample, cls).delete(samples) @staticmethod def default_entry_view(): if (Transaction().context.get('entry') > 0): return Transaction().context.get('entry') return None @fields.depends('entry') def on_change_with_entry_view(self, name=None): if self.entry: return self.entry.id return None @staticmethod def default_party(): if (Transaction().context.get('party') > 0): return Transaction().context.get('party') return None @staticmethod def default_zone(): Party = Pool().get('party.party') if (Transaction().context.get('party') > 0): party = Party(Transaction().context.get('party')) if party.entry_zone: return party.entry_zone.id @fields.depends('entry') def on_change_with_party(self, name=None): if self.entry: result = self.get_entry_field((self,), ('party',)) return result['party'][self.id] return None @classmethod def get_views_field(cls, samples, names): result = {} for name in names: field_name = name[:-5] result[name] = {} for s in samples: field = getattr(s, field_name, None) result[name][s.id] = field.id if field else None return result @classmethod def search_views_field(cls, name, clause): return [(name[:-5],) + tuple(clause[1:])] @classmethod def get_entry_field(cls, samples, names): result = {} for name in names: result[name] = {} for s in samples: field = getattr(s.entry, name, None) result[name][s.id] = field.id if field else None return result @classmethod def search_entry_field(cls, name, clause): return [('entry.' + name,) + tuple(clause[1:])] @staticmethod def order_product_type_view(tables): ProductType = Pool().get('lims.product.type') field = ProductType._fields['id'] table, _ = tables[None] product_type_tables = tables.get('product_type') if product_type_tables is None: product_type = ProductType.__table__() product_type_tables = { None: (product_type, product_type.id == table.product_type), } tables['product_type'] = product_type_tables return field.convert_order('id', product_type_tables, ProductType) @staticmethod def order_matrix_view(tables): Matrix = Pool().get('lims.matrix') field = Matrix._fields['id'] table, _ = tables[None] matrix_tables = tables.get('matrix') if matrix_tables is None: matrix = Matrix.__table__() matrix_tables = { None: (matrix, matrix.id == table.matrix), } tables['matrix'] = matrix_tables return field.convert_order('id', matrix_tables, Matrix) def get_confirmed(self, name=None): if not self.fractions: return False for fraction in self.fractions: if not fraction.confirmed: return False return True @classmethod def view_attributes(cls): return [('/tree', 'colors', If(Bool(Eval('has_results_report')), 'blue', If(Bool(Eval('confirmed')), 'black', 'red')))] @classmethod def order_create_date2(cls, tables): return cls.create_date.convert_order('create_date', tables, cls) @staticmethod def order_party(tables): Entry = Pool().get('lims.entry') field = Entry._fields['party'] table, _ = tables[None] entry_tables = tables.get('entry') if entry_tables is None: entry = Entry.__table__() entry_tables = { None: (entry, entry.id == table.entry), } tables['entry'] = entry_tables return field.convert_order('party', entry_tables, Entry) @classmethod def get_has_results_report(cls, samples, names): cursor = Transaction().connection.cursor() pool = Pool() LimsFraction = pool.get('lims.fraction') LimsService = pool.get('lims.service') LimsNotebookLine = pool.get('lims.notebook.line') result = {} for name in names: result[name] = {} for s in samples: cursor.execute('SELECT f.sample ' 'FROM "' + LimsFraction._table + '" f ' 'INNER JOIN "' + LimsService._table + '" s ' 'ON f.id = s.fraction ' 'INNER JOIN "' + LimsNotebookLine._table + '" nl ' 'ON s.id = nl.service ' 'WHERE f.sample = %s ' 'AND nl.results_report IS NOT NULL', (s.id,)) value = False if cursor.fetchone(): value = True result[name][s.id] = value return result class LimsNotebook(ModelSQL, ModelView): 'Laboratory Notebook' __name__ = 'lims.notebook' _rec_name = 'fraction' fraction = fields.Many2One('lims.fraction', 'Fraction', required=True, readonly=True, ondelete='CASCADE', select=True) lines = fields.One2Many('lims.notebook.line', 'notebook', 'Lines') product_type = fields.Function(fields.Many2One('lims.product.type', 'Product type'), 'get_sample_field', searcher='search_sample_field') matrix = fields.Function(fields.Many2One('lims.matrix', 'Matrix'), 'get_sample_field', searcher='search_sample_field') party = fields.Function(fields.Many2One('party.party', 'Party'), 'get_sample_field', searcher='search_sample_field') party_code = fields.Function(fields.Char('Party'), 'get_party_code', searcher='search_party_code') label = fields.Function(fields.Char('Label'), 'get_sample_field', searcher='search_sample_field') date = fields.Function(fields.DateTime('Date'), 'get_sample_field', searcher='search_sample_field') date2 = fields.Function(fields.Date('Date'), 'get_sample_field', searcher='search_sample_field') fraction_type = fields.Function(fields.Many2One('lims.fraction.type', 'Fraction type'), 'get_fraction_field', searcher='search_fraction_field') fraction_comments = fields.Function(fields.Text('Fraction Comments'), 'get_fraction_field') shared = fields.Function(fields.Boolean('Shared'), 'get_fraction_field', searcher='search_fraction_field') current_location = fields.Function(fields.Many2One('stock.location', 'Current Location'), 'get_current_location', searcher='search_current_location') divided_report = fields.Function(fields.Boolean('Divided report'), 'get_divided_report') @classmethod def __setup__(cls): super(LimsNotebook, cls).__setup__() cls._order.insert(0, ('fraction', 'DESC')) def get_rec_name(self, name): if self.fraction: return self.fraction.rec_name @classmethod def search_rec_name(cls, name, clause): return [('fraction',) + tuple(clause[1:])] @classmethod def get_sample_field(cls, notebooks, names): result = {} for name in names: result[name] = {} if name in ('label', 'date', 'date2'): for n in notebooks: result[name][n.id] = getattr(n.fraction.sample, name, None) else: for n in notebooks: field = getattr(n.fraction.sample, name, None) result[name][n.id] = field.id if field else None return result @classmethod def search_sample_field(cls, name, clause): return [('fraction.sample.' + name,) + tuple(clause[1:])] @classmethod def get_party_code(cls, notebooks, name): result = {} for n in notebooks: result[n.id] = n.party.code return result @classmethod def search_party_code(cls, name, clause): return [('fraction.sample.entry.party.code',) + tuple(clause[1:])] @classmethod def get_fraction_field(cls, notebooks, names): result = {} for name in names: result[name] = {} if name == 'fraction_type': for n in notebooks: field = getattr(n.fraction, 'type', None) result[name][n.id] = field.id if field else None elif name == 'fraction_comments': for n in notebooks: result[name][n.id] = getattr(n.fraction, 'comments', None) else: for n in notebooks: result[name][n.id] = getattr(n.fraction, name, None) return result @classmethod def search_fraction_field(cls, name, clause): if name == 'fraction_type': name = 'type' return [('fraction.' + name,) + tuple(clause[1:])] def get_divided_report(self, name): if not self.fraction or not self.fraction.services: return False for s in self.fraction.services: if s.divide: return True return False @classmethod def get_current_location(cls, notebooks, name=None): cursor = Transaction().connection.cursor() Move = Pool().get('stock.move') result = {} for n in notebooks: cursor.execute('SELECT to_location ' 'FROM "' + Move._table + '" ' 'WHERE fraction = %s ' 'AND state IN (\'assigned\', \'done\') ' 'ORDER BY effective_date DESC, id DESC ' 'LIMIT 1', (n.fraction.id,)) location = cursor.fetchone() result[n.id] = location[0] if location else None return result @classmethod def search_current_location(cls, name, domain=None): def _search_current_location_eval_domain(line, domain): operator_funcs = { '=': operator.eq, '>=': operator.ge, '>': operator.gt, '<=': operator.le, '<': operator.lt, '!=': operator.ne, 'in': lambda v, l: v in l, 'not in': lambda v, l: v not in l, 'ilike': lambda v, l: False, } field, op, operand = domain value = line.get(field) return operator_funcs[op](value, operand) if domain and domain[1] == 'ilike': Location = Pool().get('stock.location') locations = Location.search([ ('code', '=', domain[2]), ], order=[]) if not locations: locations = Location.search([ ('name',) + tuple(domain[1:]), ], order=[]) if not locations: return [] domain = ('current_location', 'in', [l.id for l in locations]) all_notebooks = cls.search([]) current_locations = cls.get_current_location(all_notebooks).iteritems() processed_lines = [{ 'fraction': fraction, 'current_location': location, } for fraction, location in current_locations] record_ids = [line['notebook'] for line in processed_lines if _search_current_location_eval_domain(line, domain)] return [('id', 'in', record_ids)] @classmethod def view_attributes(cls): return [ ('/tree', 'colors', If(Len(Eval('fraction_comments')) > 0, 'blue', 'black')), ] class LimsNotebookLine(ModelSQL, ModelView): 'Laboratory Notebook Line' __name__ = 'lims.notebook.line' _rec_name = 'analysis' notebook = fields.Many2One('lims.notebook', 'Laboratory notebook', ondelete='CASCADE', select=True, required=True) analysis_detail = fields.Many2One('lims.entry.detail.analysis', 'Analysis detail', select=True) service = fields.Many2One('lims.service', 'Service', readonly=True, ondelete='CASCADE', select=True) analysis = fields.Many2One('lims.analysis', 'Analysis', required=True, readonly=True) repetition = fields.Integer('Repetition', readonly=True) start_date = fields.Date('Start date', readonly=True) end_date = fields.Date('End date', states={ 'readonly': Or(~Bool(Eval('start_date')), Bool(Eval('accepted'))), }, depends=['start_date', 'accepted']) laboratory = fields.Many2One('lims.laboratory', 'Laboratory', readonly=True) method = fields.Many2One('lims.lab.method', 'Method', required=True, domain=['OR', ('id', '=', Eval('method')), ('id', 'in', Eval('method_domain'))], depends=['method_domain']) method_view = fields.Function(fields.Many2One('lims.lab.method', 'Method'), 'get_views_field') method_domain = fields.Function(fields.Many2Many('lims.lab.method', None, None, 'Method domain'), 'on_change_with_method_domain') device = fields.Many2One('lims.lab.device', 'Device', domain=['OR', ('id', '=', Eval('device')), ('id', 'in', Eval('device_domain'))], depends=['device_domain']) device_view = fields.Function(fields.Many2One('lims.lab.device', 'Device'), 'get_views_field') device_domain = fields.Function(fields.Many2Many('lims.lab.device', None, None, 'Device domain'), 'on_change_with_device_domain') analysis_origin = fields.Char('Analysis origin', readonly=True) initial_concentration = fields.Char('Initial concentration') final_concentration = fields.Char('Final concentration') laboratory_professionals = fields.Many2Many( 'lims.notebook.line-laboratory.professional', 'notebook_line', 'professional', 'Preparation professionals') initial_unit = fields.Many2One('product.uom', 'Initial unit', domain=[('category.lims_only_available', '=', True)], states={'readonly': Bool(Eval('accepted'))}, depends=['accepted']) final_unit = fields.Many2One('product.uom', 'Final unit', domain=[('category.lims_only_available', '=', True)], states={'readonly': Bool(Eval('accepted'))}, depends=['accepted']) result_modifier = fields.Selection([ ('eq', '='), ('low', '<'), ('nd', 'nd'), ('na', 'na'), ('pos', 'Positive'), ('neg', 'Negative'), ('ni', 'ni'), ('abs', 'Absence'), ('pre', 'Presence'), ], 'Result modifier', sort=False, states={'readonly': Bool(Eval('accepted'))}, depends=['accepted']) result_modifier_string = result_modifier.translated('result_modifier') converted_result_modifier = fields.Selection([ ('eq', '='), ('low', '<'), ('nd', 'nd'), ('pos', 'Positive'), ('neg', 'Negative'), ('ni', 'ni'), ], 'Converted result modifier', sort=False, states={'readonly': Bool(Eval('accepted'))}, depends=['accepted']) converted_result_modifier_string = converted_result_modifier.translated( 'converted_result_modifier') result = fields.Char('Result', states={'readonly': Bool(Eval('accepted'))}, depends=['accepted']) converted_result = fields.Char('Converted result', states={'readonly': Bool(Eval('accepted'))}, depends=['accepted']) detection_limit = fields.Char('Detection limit', states={'readonly': Bool(Eval('accepted'))}, depends=['accepted']) quantification_limit = fields.Char('Quantification limit', states={'readonly': Bool(Eval('accepted'))}, depends=['accepted']) check_result_limits = fields.Function(fields.Boolean( 'Validate limits directly on the result'), 'get_typification_field') chromatogram = fields.Char('Chromatogram') professionals = fields.One2Many('lims.notebook.line.professional', 'notebook_line', 'Analytic professionals') comments = fields.Text('Entry comments') theoretical_concentration = fields.Char('Theoretical concentration') concentration_level = fields.Many2One('lims.concentration.level', 'Concentration level') decimals = fields.Integer('Decimals') backup = fields.Char('Backup') reference = fields.Char('Reference') literal_result = fields.Char('Literal result', translate=True, states={'readonly': Bool(Eval('accepted'))}, depends=['accepted']) rm_correction_formula = fields.Char('RM Correction Formula') report = fields.Boolean('Report') uncertainty = fields.Char('Uncertainty') verification = fields.Char('Verification') analysis_order = fields.Function(fields.Integer('Order'), 'get_analysis_order') dilution_factor = fields.Float('Dilution factor') accepted = fields.Boolean('Accepted') acceptance_date = fields.DateTime('Acceptance date', states={'readonly': True}) not_accepted_message = fields.Text('Message', readonly=True, states={'invisible': Not(Bool(Eval('not_accepted_message')))}) annulled = fields.Boolean('Annulled', states={'readonly': True}) annulment_date = fields.DateTime('Annulment date', states={'readonly': True}) results_report = fields.Many2One('lims.results_report', 'Results Report', readonly=True) planification = fields.Many2One('lims.planification', 'Planification', readonly=True) urgent = fields.Function(fields.Boolean('Urgent'), 'get_service_field', searcher='search_service_field') priority = fields.Function(fields.Integer('Priority'), 'get_service_field', searcher='search_service_field') report_date = fields.Function(fields.Date('Date agreed for result'), 'get_service_field', searcher='search_service_field') fraction = fields.Function(fields.Many2One('lims.fraction', 'Fraction'), 'get_service_field', searcher='search_service_field') fraction_type = fields.Function(fields.Many2One('lims.fraction.type', 'Fraction type'), 'get_fraction_field', searcher='search_fraction_field') party = fields.Function(fields.Many2One('party.party', 'Party'), 'get_fraction_field', searcher='search_fraction_field') product_type = fields.Function(fields.Many2One('lims.product.type', 'Product type'), 'get_sample_field', searcher='search_sample_field') matrix = fields.Function(fields.Many2One('lims.matrix', 'Matrix'), 'get_sample_field', searcher='search_sample_field') label = fields.Function(fields.Char('Label'), 'get_sample_field', searcher='search_sample_field') date = fields.Function(fields.DateTime('Date'), 'get_sample_field', searcher='search_sample_field') date2 = fields.Function(fields.Date('Date'), 'get_sample_field', searcher='search_sample_field') report_type = fields.Function(fields.Char('Report type'), 'get_typification_field', searcher='search_typification_field') report_result_type = fields.Function(fields.Char('Result type'), 'get_typification_field', searcher='search_typification_field') results_estimated_waiting = fields.Integer( 'Estimated number of days for results', states={'readonly': True}) results_estimated_date = fields.Function(fields.Date( 'Estimated date of result'), 'get_results_estimated_date') department = fields.Many2One('company.department', 'Department', readonly=True) @classmethod def __setup__(cls): super(LimsNotebookLine, cls).__setup__() cls._order.insert(0, ('analysis_order', 'ASC')) cls._order.insert(1, ('repetition', 'ASC')) cls._error_messages.update({ 'end_date': 'The end date cannot be lower than start date', 'end_date_wrong': ('End date should not be greater than the ' 'current date'), 'accepted': 'The analysis "%s" is already accepted', 'not_accepted_1': 'The analysis is not reported', 'not_accepted_2': 'The analysis is annulled', 'not_accepted_3': 'The analysis has not End date', 'not_accepted_4': 'The analysis has not Result / Converted result', 'not_accepted_5': 'The Converted result modifier is invalid', 'not_accepted_6': 'The Result modifier is invalid', 'not_accepted_7': ('The Converted result / Converted result ' 'modifier is invalid'), 'accepted_1': 'The analysis is already reported (%s)', }) @staticmethod def default_repetition(): return 0 @staticmethod def default_result_modifier(): return 'eq' @staticmethod def default_converted_result_modifier(): return 'eq' @staticmethod def default_decimals(): return 2 @staticmethod def default_report(): return True @staticmethod def default_dilution_factor(): return 1.0 @staticmethod def default_accepted(): return False @staticmethod def default_annulled(): return False @classmethod def write(cls, *args): super(LimsNotebookLine, cls).write(*args) actions = iter(args) for lines, vals in zip(actions, actions): if vals.get('not_accepted_message'): cls.write(lines, { 'not_accepted_message': None, }) if 'accepted' in vals: cls.update_detail_analysis(lines, vals['accepted']) @staticmethod def update_detail_analysis(lines, accepted): LimsEntryDetailAnalysis = Pool().get('lims.entry.detail.analysis') details = [nl.analysis_detail.id for nl in lines] if accepted: analysis_details = LimsEntryDetailAnalysis.search([ ('id', 'in', details), ]) if analysis_details: LimsEntryDetailAnalysis.write(analysis_details, { 'state': 'done', }) else: analysis_details = LimsEntryDetailAnalysis.search([ ('id', 'in', details), ('analysis.behavior', '!=', 'internal_relation'), ]) if analysis_details: LimsEntryDetailAnalysis.write(analysis_details, { 'state': 'planned', }) analysis_details = LimsEntryDetailAnalysis.search([ ('id', 'in', details), ('analysis.behavior', '=', 'internal_relation'), ]) if analysis_details: LimsEntryDetailAnalysis.write(analysis_details, { 'state': 'unplanned', }) @classmethod def validate(cls, notebook_lines): super(LimsNotebookLine, cls).validate(notebook_lines) for line in notebook_lines: line.check_end_date() line.check_accepted() def check_end_date(self): if self.end_date: if not self.start_date or self.end_date < self.start_date: self.raise_user_error('end_date') if not self.start_date or self.end_date > datetime.now().date(): self.raise_user_error('end_date_wrong') def check_accepted(self): if self.accepted: accepted_lines = self.search([ ('notebook', '=', self.notebook.id), ('analysis', '=', self.analysis.id), ('accepted', '=', True), ('id', '!=', self.id), ]) if accepted_lines: self.raise_user_error('accepted', (self.analysis.rec_name,)) @classmethod def get_analysis_order(cls, notebook_lines, name): result = {} for nl in notebook_lines: analysis = getattr(nl, 'analysis', None) result[nl.id] = analysis.order if analysis else None return result @staticmethod def order_analysis_order(tables): LimsAnalysis = Pool().get('lims.analysis') field = LimsAnalysis._fields['order'] table, _ = tables[None] analysis_tables = tables.get('analysis') if analysis_tables is None: analysis = LimsAnalysis.__table__() analysis_tables = { None: (analysis, analysis.id == table.analysis), } tables['analysis'] = analysis_tables return field.convert_order('order', analysis_tables, LimsAnalysis) @classmethod def get_views_field(cls, notebook_lines, names): result = {} for name in names: field_name = name[:-5] result[name] = {} for nl in notebook_lines: field = getattr(nl, field_name, None) result[name][nl.id] = field.id if field else None return result @classmethod def get_service_field(cls, notebook_lines, names): result = {} for name in names: result[name] = {} if name == 'fraction': for nl in notebook_lines: field = getattr(nl.service, name, None) result[name][nl.id] = field.id if field else None else: for nl in notebook_lines: result[name][nl.id] = getattr(nl.service, name, None) return result @classmethod def search_service_field(cls, name, clause): return [('service.' + name,) + tuple(clause[1:])] @classmethod def get_fraction_field(cls, notebook_lines, names): result = {} for name in names: result[name] = {} if name == 'fraction_type': for nl in notebook_lines: fraction = getattr(nl.service, 'fraction', None) if fraction: field = getattr(fraction, 'type', None) result[name][nl.id] = field.id if field else None else: result[name][nl.id] = None else: for nl in notebook_lines: fraction = getattr(nl.service, 'fraction', None) if fraction: field = getattr(fraction, name, None) result[name][nl.id] = field.id if field else None else: result[name][nl.id] = None return result @classmethod def search_fraction_field(cls, name, clause): if name == 'fraction_type': name = 'type' return [('service.fraction.' + name,) + tuple(clause[1:])] @classmethod def get_sample_field(cls, notebook_lines, names): result = {} for name in names: result[name] = {} for nl in notebook_lines: result[name][nl.id] = None fraction = getattr(nl.service, 'fraction', None) if fraction: sample = getattr(fraction, 'sample', None) if sample: field = getattr(fraction, name, None) if name in ('label', 'date', 'date2'): result[name][nl.id] = field else: result[name][nl.id] = field.id if field else None return result @classmethod def search_sample_field(cls, name, clause): return [('service.fraction.sample.' + name,) + tuple(clause[1:])] def get_rec_name(self, name): if self.analysis: return self.analysis.rec_name @classmethod def search_rec_name(cls, name, clause): return [('analysis',) + tuple(clause[1:])] @classmethod def view_attributes(cls): return [('/tree', 'colors', If(Bool(Eval('report_date')), 'red', 'black'))] @classmethod def fields_view_get(cls, view_id=None, view_type='form'): pool = Pool() User = pool.get('res.user') Config = pool.get('lims.configuration') UiView = pool.get('ir.ui.view') result = super(LimsNotebookLine, cls).fields_view_get(view_id=view_id, view_type=view_type) # All Notebook Lines view if view_id and UiView(view_id).name == 'notebook_line_all_list': return result notebook_view = User(Transaction().user).notebook_view if not notebook_view: notebook_view = Config(1).default_notebook_view if not notebook_view: return result if view_type == 'tree': xml = '\n' \ '\n' fields = set() for column in notebook_view.columns: fields.add(column.field.name) attrs = [] if column.field.name in ('acceptance_date', 'annulment_date'): attrs.append('widget="date"') xml += ('\n' % (column.field.name, ' '.join(attrs))) for depend in getattr(cls, column.field.name).depends: fields.add(depend) for field in ('report_date', 'result', 'converted_result', 'result_modifier', 'converted_result_modifier', 'literal_result', 'backup', 'verification', 'uncertainty', 'accepted', 'acceptance_date', 'end_date', 'report', 'annulled', 'annulment_date'): fields.add(field) xml += '' result['arch'] = xml result['fields'] = cls.fields_get(fields_names=list(fields)) return result @fields.depends('result', 'converted_result', 'converted_result_modifier', 'backup', 'verification', 'uncertainty', 'end_date') def on_change_result(self): self.converted_result = None self.converted_result_modifier = 'eq' self.backup = None self.verification = None self.uncertainty = None self.end_date = None @fields.depends('accepted', 'report', 'annulled', 'result', 'converted_result', 'literal_result', 'result_modifier', 'converted_result_modifier', 'end_date', 'acceptance_date') def on_change_accepted(self): self.not_accepted_message = '' if self.accepted: if not self.report: self.accepted = False self.not_accepted_message = self.raise_user_error( 'not_accepted_1', raise_exception=False) elif self.annulled: self.accepted = False self.not_accepted_message = self.raise_user_error( 'not_accepted_2', raise_exception=False) elif not self.end_date: self.accepted = False self.not_accepted_message = self.raise_user_error( 'not_accepted_3', raise_exception=False) elif not (self.result or self.converted_result or self.literal_result or self.result_modifier in ('nd', 'pos', 'neg', 'ni', 'abs', 'pre') or self.converted_result_modifier in ('nd', 'pos', 'neg', 'ni', 'abs', 'pre')): self.accepted = False self.not_accepted_message = self.raise_user_error( 'not_accepted_4', raise_exception=False) else: if (self.converted_result and self.converted_result_modifier not in ('ni', 'eq', 'low')): self.accepted = False self.not_accepted_message = self.raise_user_error( 'not_accepted_5', raise_exception=False) elif (self.result and self.result_modifier not in ('ni', 'eq', 'low')): self.accepted = False self.not_accepted_message = self.raise_user_error( 'not_accepted_6', raise_exception=False) elif (self.result_modifier == 'ni' and not self.literal_result and (not self.converted_result_modifier or not self.converted_result) and self.converted_result_modifier != 'nd'): self.accepted = False self.not_accepted_message = self.raise_user_error( 'not_accepted_7', raise_exception=False) else: self.acceptance_date = datetime.now() else: LimsResultsReportVersionDetailLine = Pool().get( 'lims.results_report.version.detail.line') report_lines = LimsResultsReportVersionDetailLine.search([ ('notebook_line', '=', self.id), ('report_version_detail.state', '!=', 'annulled'), ]) if report_lines: self.accepted = True report_detail = report_lines[0].report_version_detail self.not_accepted_message = self.raise_user_error('accepted_1', (report_detail.report_version.results_report.number,), raise_exception=False) else: self.acceptance_date = None @fields.depends('result_modifier', 'annulled', 'annulment_date', 'report') def on_change_result_modifier(self): if self.result_modifier == 'na' and not self.annulled: self.annulled = True self.annulment_date = datetime.now() self.report = False elif self.result_modifier != 'na' and self.annulled: self.annulled = False self.annulment_date = None self.report = True @classmethod def get_typification_field(cls, notebook_lines, names): LimsTypification = Pool().get('lims.typification') result = dict((name, {}) for name in names) for nl in notebook_lines: typifications = LimsTypification.search([ ('product_type', '=', nl.notebook.product_type.id), ('matrix', '=', nl.notebook.matrix.id), ('analysis', '=', nl.analysis.id), ('method', '=', nl.method.id), ('valid', '=', True), ]) typification = (typifications[0] if len(typifications) == 1 else None) for name in names: if typification: result[name][nl.id] = getattr(typification, name, None) else: if name == 'report_type': result[name][nl.id] = 'normal' elif name == 'report_result_type': result[name][nl.id] = 'result' elif name == 'check_result_limits': result[name][nl.id] = False else: result[name][nl.id] = None return result @classmethod def search_typification_field(cls, name, clause): cursor = Transaction().connection.cursor() pool = Pool() Notebook = pool.get('lims.notebook') Fraction = pool.get('lims.fraction') LimsSample = pool.get('lims.sample') LimsTypification = pool.get('lims.typification') operator_ = clause[1:2][0] cursor.execute('SELECT nl.id ' 'FROM "' + cls._table + '" nl ' 'INNER JOIN "' + Notebook._table + '" n ' 'ON nl.notebook = n.id ' 'INNER JOIN "' + Fraction._table + '" f ' 'ON n.fraction = f.id ' 'INNER JOIN "' + LimsSample._table + '" s ' 'ON f.sample = s.id ' 'INNER JOIN "' + LimsTypification._table + '" t ' 'ON (nl.analysis = t.analysis AND nl.method = t.method ' 'AND s.product_type = t.product_type AND t.matrix = t.matrix) ' 'WHERE t.valid = TRUE ' 'AND t.' + name + ' ' + operator_ + ' %s', clause[2:3]) return [('id', 'in', [x[0] for x in cursor.fetchall()])] @fields.depends('method') def on_change_with_results_estimated_waiting(self, name=None): if self.method: return self.method.results_estimated_waiting return None @classmethod def get_results_estimated_date(cls, notebook_lines, name): result = {} for nl in notebook_lines: result[nl.id] = None detail = getattr(nl, 'analysis_detail', None) if not detail: continue confirmation_date = getattr(detail, 'confirmation_date', None) if not confirmation_date: continue estimated_waiting = getattr(nl, 'results_estimated_waiting', None) if not estimated_waiting: continue result[nl.id] = cls._get_results_estimated_date(confirmation_date, estimated_waiting) return result @staticmethod def _get_results_estimated_date(confirmation_date, estimated_waiting): date = confirmation_date number = 0 while number < estimated_waiting: date += timedelta(1) if date.weekday() < 5: number += 1 return date @fields.depends('analysis') def on_change_with_method_domain(self, name=None): methods = [] if self.analysis and self.analysis.methods: methods = [m.id for m in self.analysis.methods] return methods @fields.depends('analysis', 'laboratory') def on_change_with_device_domain(self, name=None): cursor = Transaction().connection.cursor() LimsAnalysisDevice = Pool().get('lims.analysis.device') if not self.analysis or not self.laboratory: return [] cursor.execute('SELECT DISTINCT(device) ' 'FROM "' + LimsAnalysisDevice._table + '" ' 'WHERE analysis = %s ' 'AND laboratory = %s', (self.analysis.id, self.laboratory.id)) res = cursor.fetchall() if not res: return [] return [x[0] for x in res] class LimsNotebookLineAllFields(ModelSQL, ModelView): 'Laboratory Notebook Line' __name__ = 'lims.notebook.line.all_fields' line = fields.Many2One('lims.notebook.line', 'Notebook Line') fraction = fields.Many2One('lims.fraction', 'Fraction', readonly=True) fraction_type = fields.Many2One('lims.fraction.type', 'Fraction type', readonly=True) party = fields.Many2One('party.party', 'Party', readonly=True) party_code = fields.Char('Party', readonly=True) product_type = fields.Many2One('lims.product.type', 'Product type', readonly=True) matrix = fields.Many2One('lims.matrix', 'Matrix', readonly=True) label = fields.Char('Label', readonly=True) date = fields.DateTime('Date', readonly=True) analysis = fields.Many2One('lims.analysis', 'Analysis', readonly=True) repetition = fields.Integer('Repetition', readonly=True) start_date = fields.Date('Start date', readonly=True) end_date = fields.Date('End date', readonly=True) laboratory = fields.Many2One('lims.laboratory', 'Laboratory', readonly=True) method = fields.Many2One('lims.lab.method', 'Method', readonly=True) device = fields.Many2One('lims.lab.device', 'Device', readonly=True) service = fields.Many2One('lims.service', 'Service', readonly=True) analysis_origin = fields.Char('Analysis origin', readonly=True) urgent = fields.Boolean('Urgent', readonly=True) priority = fields.Integer('Priority', readonly=True) report_date = fields.Date('Date agreed for result', readonly=True) initial_concentration = fields.Char('Initial concentration', readonly=True) final_concentration = fields.Char('Final concentration', readonly=True) laboratory_professionals = fields.Function(fields.Many2Many( 'lims.laboratory.professional', None, None, 'Preparation professionals'), 'get_line_field', searcher='search_line_field') initial_unit = fields.Many2One('product.uom', 'Initial unit', readonly=True) final_unit = fields.Many2One('product.uom', 'Final unit', readonly=True) result_modifier = fields.Selection([ ('eq', '='), ('low', '<'), ('nd', 'nd'), ('na', 'na'), ('pos', 'Positive'), ('neg', 'Negative'), ('ni', 'ni'), ('abs', 'Absence'), ('pre', 'Presence'), ], 'Result modifier', readonly=True) converted_result_modifier = fields.Selection([ ('eq', '='), ('low', '<'), ('nd', 'nd'), ('pos', 'Positive'), ('neg', 'Negative'), ('ni', 'ni'), ], 'Converted result modifier', readonly=True) result_modifier_string = result_modifier.translated('result_modifier') converted_result_modifier_string = converted_result_modifier.translated( 'converted_result_modifier') result = fields.Char('Result', readonly=True) converted_result = fields.Char('Converted result', readonly=True) detection_limit = fields.Char('Detection limit', readonly=True) quantification_limit = fields.Char('Quantification limit', readonly=True) chromatogram = fields.Char('Chromatogram', readonly=True) professionals = fields.Function(fields.One2Many( 'lims.notebook.line.professional', None, 'Analytic professionals'), 'get_line_field', searcher='search_line_field') comments = fields.Text('Entry comments', readonly=True) theoretical_concentration = fields.Char('Theoretical concentration', readonly=True) concentration_level = fields.Many2One('lims.concentration.level', 'Concentration level', readonly=True) decimals = fields.Integer('Decimals', readonly=True) backup = fields.Char('Backup', readonly=True) reference = fields.Char('Reference', readonly=True) literal_result = fields.Char('Literal result', readonly=True) rm_correction_formula = fields.Char('RM Correction Formula', readonly=True) report = fields.Boolean('Report', readonly=True) uncertainty = fields.Char('Uncertainty', readonly=True) verification = fields.Char('Verification', readonly=True) dilution_factor = fields.Float('Dilution factor', readonly=True) accepted = fields.Boolean('Accepted', readonly=True) acceptance_date = fields.DateTime('Acceptance date', readonly=True) annulled = fields.Boolean('Annulled', readonly=True) annulment_date = fields.DateTime('Annulment date', readonly=True) results_report = fields.Many2One('lims.results_report', 'Results Report', readonly=True) planification = fields.Many2One('lims.planification', 'Planification', readonly=True) confirmation_date = fields.Date('Confirmation date', readonly=True) results_estimated_waiting = fields.Integer( 'Estimated number of days for results') results_estimated_date = fields.Function(fields.Date( 'Estimated date of result'), 'get_line_field') department = fields.Many2One('company.department', 'Department', readonly=True) @classmethod def __setup__(cls): super(LimsNotebookLineAllFields, cls).__setup__() cls._order.insert(0, ('fraction', 'DESC')) cls._order.insert(1, ('analysis', 'ASC')) cls._order.insert(2, ('repetition', 'ASC')) @staticmethod def table_query(): pool = Pool() line = pool.get('lims.notebook.line').__table__() detail = pool.get('lims.entry.detail.analysis').__table__() service = pool.get('lims.service').__table__() fraction = pool.get('lims.fraction').__table__() sample = pool.get('lims.sample').__table__() entry = pool.get('lims.entry').__table__() party = pool.get('party.party').__table__() join1 = Join(line, service) join1.condition = join1.right.id == line.service join2 = Join(join1, fraction) join2.condition = join2.right.id == join1.right.fraction join3 = Join(join2, sample) join3.condition = join3.right.id == join2.right.sample join4 = Join(join3, entry) join4.condition = join4.right.id == join3.right.entry join5 = Join(join4, party) join5.condition = join5.right.id == join4.right.party join6 = Join(join5, detail) join6.condition = join6.right.id == join1.left.analysis_detail columns = [ line.id, line.create_uid, line.create_date, line.write_uid, line.write_date, line.id.as_('line'), service.fraction, entry.party, party.code.as_('party_code'), sample.product_type, sample.matrix, sample.label, fraction.type.as_('fraction_type'), sample.date, line.analysis, line.repetition, line.start_date, line.end_date, line.laboratory, line.method, line.device, line.service, line.analysis_origin, service.urgent, service.priority, service.report_date, line.initial_concentration, line.final_concentration, line.initial_unit, line.final_unit, line.result_modifier, line.converted_result_modifier, line.result, line.converted_result, line.detection_limit, line.quantification_limit, line.dilution_factor, line.chromatogram, line.comments, line.theoretical_concentration, line.concentration_level, line.decimals, line.backup, line.reference, line.literal_result, line.rm_correction_formula, line.report, line.uncertainty, line.verification, line.accepted, line.acceptance_date, line.annulled, line.annulment_date, line.results_report, line.planification, detail.confirmation_date, line.results_estimated_waiting, line.department, ] where = Literal(True) return join6.select(*columns, where=where) @classmethod def get_line_field(cls, notebook_lines, names): result = dict((name, {}) for name in names) for nl in notebook_lines: for name in names: field = getattr(nl.line, name, None) if isinstance(field, ModelSQL): result[name][nl.id] = field.id if field else None elif isinstance(field, tuple): result[name][nl.id] = [f.id for f in field] else: result[name][nl.id] = field return result @classmethod def search_line_field(cls, name, clause): return [('line.' + name,) + tuple(clause[1:])] class LimsNotebookLineLaboratoryProfessional(ModelSQL): 'Laboratory Notebook Line - Laboratory Professional' __name__ = 'lims.notebook.line-laboratory.professional' notebook_line = fields.Many2One('lims.notebook.line', 'Notebook Line', ondelete='CASCADE', select=True, required=True) professional = fields.Many2One('lims.laboratory.professional', 'Laboratory professional', ondelete='CASCADE', select=True, required=True) class LimsNotebookLineProfessional(ModelSQL, ModelView): 'Laboratory Notebook Line Professional' __name__ = 'lims.notebook.line.professional' notebook_line = fields.Many2One('lims.notebook.line', 'Notebook Line', ondelete='CASCADE', select=True, required=True) professional = fields.Many2One('lims.laboratory.professional', 'Laboratory professional', required=True) class LimsEntry(Workflow, ModelSQL, ModelView): 'Entry' __name__ = 'lims.entry' _rec_name = 'number' number = fields.Char('Number', select=True, readonly=True) create_date2 = fields.Function(fields.DateTime('Create Date'), 'get_create_date2', searcher='search_create_date2') date = fields.DateTime('Date') date2 = fields.Function(fields.Date('Date'), 'get_date', searcher='search_date') party = fields.Many2One('party.party', 'Party', required=True, states={'readonly': Eval('state') != 'draft'}, depends=['state']) invoice_party = fields.Many2One('party.party', 'Invoice party', domain=[('id', 'in', Eval('invoice_party_domain'))], depends=['invoice_party_domain', 'state'], required=True, states={'readonly': Eval('state') != 'draft'}) invoice_party_view = fields.Function(fields.Many2One('party.party', 'Invoice party'), 'get_views_field', searcher='search_views_field') invoice_party_domain = fields.Function(fields.Many2Many('party.party', None, None, 'Invoice party domain'), 'on_change_with_invoice_party_domain') invoice_contacts = fields.One2Many('lims.entry.invoice_contacts', 'entry', 'Invoice contacts') report_contacts = fields.One2Many('lims.entry.report_contacts', 'entry', 'Report contacts') acknowledgment_contacts = fields.One2Many( 'lims.entry.acknowledgment_contacts', 'entry', 'Acknowledgment contacts') carrier = fields.Many2One('carrier', 'Carrier') package_type = fields.Many2One('lims.packaging.type', 'Package type') package_state = fields.Many2One('lims.packaging.integrity', 'Package state') packages_quantity = fields.Integer('Packages quantity') email_report = fields.Boolean('Email report') single_sending_report = fields.Boolean('Single sending of report') english_report = fields.Boolean('English report') no_acknowledgment_of_receipt = fields.Boolean( 'No acknowledgment of receipt') samples = fields.One2Many('lims.sample', 'entry', 'Samples', context={ 'entry': Eval('id'), 'party': Eval('party'), }, depends=['party']) invoice_comments = fields.Text('Invoice comments') report_comments = fields.Text('Report comments', translate=True) transfer_comments = fields.Text('Transfer comments') comments = fields.Text('Comments') pending_reason = fields.Many2One('lims.entry.suspension.reason', 'Pending reason', states={ 'invisible': Not(Bool(Equal(Eval('state'), 'pending'))), 'required': Bool(Equal(Eval('state'), 'pending')), }, depends=['state']) state = fields.Selection([ ('draft', 'Draft'), ('ongoing', 'Ongoing'), ('pending', 'Administration pending'), ('closed', 'Closed'), ], 'State', required=True, readonly=True) ack_report_cache = fields.Binary('Acknowledgment report cache', readonly=True) ack_report_format = fields.Char('Acknowledgment report format', readonly=True) confirmed = fields.Function(fields.Boolean('Confirmed'), 'get_confirmed') sent_date = fields.DateTime('Sent date', readonly=True) result_cron = fields.Selection([ ('', ''), ('failed_print', 'Failed to print'), ('failed_send', 'Failed to send'), ('sent', 'Sent'), ], 'Result cron', sort=False, readonly=True) @classmethod def __setup__(cls): super(LimsEntry, cls).__setup__() cls._order.insert(0, ('number', 'DESC')) cls._transitions |= set(( ('draft', 'ongoing'), ('draft', 'pending'), ('pending', 'ongoing'), ('ongoing', 'closed'), )) cls._buttons.update({ 'create_sample': { 'invisible': ~Eval('state').in_(['draft']), }, 'confirm': { 'invisible': ~Eval('state').in_(['draft', 'pending']), }, 'on_hold': { 'invisible': ~Eval('state').in_(['draft']), }, }) cls._error_messages.update({ 'no_entry_sequence': ('There is no entry sequence for ' 'the work year "%s".'), 'delete_entry': ('You can not delete entry "%s" because ' 'it is not in draft state'), 'not_fraction': ('You can not confirm entry "%s" because ' 'has not fractions'), 'missing_entry_contacts': ('Missing contacts in entry "%s"'), 'enac_acredited': ('The analysis marked with * are not ' 'covered by the Accreditation.'), 'english_report': ('Do not forget to load the translations ' 'into English'), }) @staticmethod def default_date(): return datetime.now() @staticmethod def default_email_report(): return False @staticmethod def default_single_sending_report(): return False @staticmethod def default_english_report(): return False @staticmethod def default_no_acknowledgment_of_receipt(): return False @staticmethod def default_result_cron(): return '' @staticmethod def default_state(): return 'draft' def get_date(self, name): pool = Pool() Company = pool.get('company.company') date = self.date company_id = Transaction().context.get('company') if company_id: date = Company(company_id).convert_timezone_datetime(date) return date.date() def get_create_date2(self, name): return self.create_date.replace(microsecond=0) @classmethod def search_date(cls, name, clause): pool = Pool() Company = pool.get('company.company') cursor = Transaction().connection.cursor() timezone = None company_id = Transaction().context.get('company') if company_id: timezone = Company(company_id).timezone timezone_datetime = 'date::timestamp AT TIME ZONE \'UTC\'' if timezone: timezone_datetime += ' AT TIME ZONE \'' + timezone + '\'' operator_ = clause[1:2][0] cursor.execute('SELECT id ' 'FROM "' + cls._table + '" ' 'WHERE (' + timezone_datetime + ')::date ' + operator_ + ' %s::date', clause[2:3]) return [('id', 'in', [x[0] for x in cursor.fetchall()])] @classmethod def search_create_date2(cls, name, clause): cursor = Transaction().connection.cursor() operator_ = clause[1:2][0] cursor.execute('SELECT id ' 'FROM "' + cls._table + '" ' 'WHERE create_date' + operator_ + ' %s', clause[2:3]) return [('id', 'in', [x[0] for x in cursor.fetchall()])] @fields.depends('party', 'invoice_party', 'invoice_contacts', 'report_contacts', 'acknowledgment_contacts') def on_change_party(self): pool = Pool() ReportContacts = pool.get('lims.entry.report_contacts') AcknowledgmentContacts = pool.get('lims.entry.acknowledgment_contacts') email = False single_sending = False english = False no_ack = False invoice_contacts = [] a_report_contacts = [] report_contacts = [] a_acknowledgment_contacts = [] acknowledgment_contacts = [] parties = [] if self.party: parties.append(self.party.id) if self.invoice_party: parties.append(self.invoice_party.id) if self.invoice_contacts: for c in self.invoice_contacts: if c.contact.party.id in parties: invoice_contacts.append(c) if self.report_contacts: for c in self.report_contacts: if c.contact.party.id in parties: report_contacts.append(c) a_report_contacts.append(c.contact) if self.acknowledgment_contacts: for c in self.acknowledgment_contacts: if c.contact.party.id in parties: acknowledgment_contacts.append(c) a_acknowledgment_contacts.append(c.contact) if self.party: email = self.party.email_report single_sending = self.party.single_sending_report english = self.party.english_report no_ack = self.party.no_acknowledgment_of_receipt if self.party.addresses: for c in self.party.addresses: if (c.report_contact_default and c not in a_report_contacts): value = ReportContacts(**ReportContacts.default_get( ReportContacts._fields.keys())) value.contact = c report_contacts.append(value) if (c.acknowledgment_contact_default and c not in a_acknowledgment_contacts): value = AcknowledgmentContacts( **AcknowledgmentContacts.default_get( AcknowledgmentContacts._fields.keys())) value.contact = c acknowledgment_contacts.append(value) self.email_report = email self.single_sending_report = single_sending self.english_report = english self.no_acknowledgment_of_receipt = no_ack self.invoice_contacts = invoice_contacts self.report_contacts = report_contacts self.acknowledgment_contacts = acknowledgment_contacts if self.party and not self.invoice_party: invoice_party_domain = self.on_change_with_invoice_party_domain() if len(invoice_party_domain) == 1: self.invoice_party = invoice_party_domain[0] self.on_change_invoice_party() @fields.depends('party', 'invoice_party', 'invoice_contacts', 'report_contacts', 'acknowledgment_contacts') def on_change_invoice_party(self): pool = Pool() InvoiceContacts = pool.get('lims.entry.invoice_contacts') a_invoice_contacts = [] invoice_contacts = [] report_contacts = [] acknowledgment_contacts = [] parties = [] if self.party: parties.append(self.party.id) if self.invoice_party: parties.append(self.invoice_party.id) if self.invoice_contacts: for c in self.invoice_contacts: if c.contact.party.id in parties: invoice_contacts.append(c) a_invoice_contacts.append(c.contact) if self.report_contacts: for c in self.report_contacts: if c.contact.party.id in parties: report_contacts.append(c) if self.acknowledgment_contacts: for c in self.acknowledgment_contacts: if c.contact.party.id in parties: acknowledgment_contacts.append(c) if self.invoice_party: if self.invoice_party.addresses: for c in self.invoice_party.addresses: if (c.invoice_contact_default and c not in a_invoice_contacts): value = InvoiceContacts(**InvoiceContacts.default_get( InvoiceContacts._fields.keys())) value.contact = c invoice_contacts.append(value) self.invoice_contacts = invoice_contacts self.report_contacts = report_contacts self.acknowledgment_contacts = acknowledgment_contacts @classmethod def get_views_field(cls, parties, names): result = {} for name in names: field_name = name[:-5] result[name] = {} for p in parties: field = getattr(p, field_name, None) result[name][p.id] = field.id if field else None return result @classmethod def search_views_field(cls, name, clause): return [(name[:-5],) + tuple(clause[1:])] @fields.depends('party') def on_change_with_invoice_party_domain(self, name=None): Config = Pool().get('lims.configuration') config_ = Config(1) parties = [] if self.party: parties.append(self.party.id) if config_.invoice_party_relation_type: parties.extend([r.to.id for r in self.party.relations if r.type == config_.invoice_party_relation_type]) return parties @classmethod def create(cls, vlist): pool = Pool() LimsLabWorkYear = pool.get('lims.lab.workyear') Sequence = pool.get('ir.sequence.strict') workyear_id = LimsLabWorkYear.find() workyear = LimsLabWorkYear(workyear_id) sequence = workyear.get_sequence('entry') if not sequence: cls.raise_user_error('no_entry_sequence', (workyear.rec_name,)) vlist = [x.copy() for x in vlist] for values in vlist: values['number'] = Sequence.get_id(sequence.id) return super(LimsEntry, cls).create(vlist) @classmethod def view_attributes(cls): return [('/tree', 'colors', If(Bool(Eval('confirmed')), 'black', 'red'))] @classmethod def copy(cls, entries, default=None): if default is None: default = {} new_entries = [] for entry in entries: invoice_contacts = [{ 'contact': c.contact.id, } for c in entry.invoice_contacts] report_contacts = [{ 'contact': c.contact.id, } for c in entry.report_contacts] acknowledgment_contacts = [{ 'contact': c.contact.id, } for c in entry.acknowledgment_contacts] current_default = default.copy() current_default['state'] = 'draft' current_default['ack_report_cache'] = None current_default['ack_report_format'] = None current_default['sent_date'] = None current_default['result_cron'] = '' current_default['invoice_contacts'] = [('create', invoice_contacts)] current_default['report_contacts'] = [('create', report_contacts)] current_default['acknowledgment_contacts'] = [('create', acknowledgment_contacts)] new_entry, = super(LimsEntry, cls).copy([entry], default=current_default) new_entries.append(new_entry) return new_entries @classmethod @ModelView.button_action('lims.wiz_lims_create_sample') def create_sample(cls, entries): pass @classmethod @ModelView.button @Workflow.transition('ongoing') def confirm(cls, entries): for entry in entries: entry.check_contacts() entry.warn_english_report() entry._confirm() @classmethod def cron_acknowledgment_of_receipt(cls): ''' Cron - Acknowledgment Of Receipt (Samples) ''' logging.getLogger('lims').info( 'Cron - Acknowledgment Of Receipt (Samples):INIT') pool = Pool() LimsForwardAcknowledgmentOfReceipt = pool.get( 'lims.entry.acknowledgment.forward', type='wizard') LimsEntry = pool.get('lims.entry') entries = LimsEntry.search([ ('result_cron', '!=', 'sent'), ('no_acknowledgment_of_receipt', '=', False), ('state', '=', 'ongoing'), ]) session_id, _, _ = LimsForwardAcknowledgmentOfReceipt.create() acknowledgment_forward = LimsForwardAcknowledgmentOfReceipt(session_id) with Transaction().set_context(active_ids=[entry.id for entry in entries]): data = acknowledgment_forward.transition_start() if data: logging.getLogger('lims').info('data:%s' % data) # debug logging.getLogger('lims').info( 'Cron - Acknowledgment Of Receipt (Samples):END') @classmethod @ModelView.button def on_hold(cls, entries): pool = Pool() LimsEntrySuspensionReason = pool.get('lims.entry.suspension.reason') for entry in entries: entry.check_contacts() default_pending_reason = None reasons = LimsEntrySuspensionReason.search([ ('by_default', '=', True), ]) if reasons: default_pending_reason = reasons[0].id cls.pending_reason.states['required'] = False cls.write(entries, { 'state': 'pending', 'pending_reason': default_pending_reason, }) cls.pending_reason.states['required'] = ( Bool(Equal(Eval('state'), 'pending'))) @classmethod @Workflow.transition('closed') def close(cls, entries): pass def check_contacts(self): if (not self.invoice_contacts or not self.report_contacts or not self.acknowledgment_contacts): self.raise_user_error('missing_entry_contacts', (self.rec_name,)) def warn_english_report(self): if self.english_report: self.raise_user_warning('lims_english_report@%s' % self.number, 'english_report') def print_report(self): if self.ack_report_cache: return LimsAcknowledgmentOfReceipt = Pool().get( 'lims.entry.acknowledgment.report', type='report') success = False try: LimsAcknowledgmentOfReceipt.execute([self.id], {}) success = True except Exception: logging.getLogger('lims').error( 'Unable to print report Acknowledgment of receipt for ' 'Entry:%s' % (self.number)) return success def mail_acknowledgment_of_receipt(self): if not self.ack_report_cache: return from_addr = config.get('email', 'from') to_addrs = [c.contact.email for c in self.acknowledgment_contacts] if not (from_addr and to_addrs): return subject, body = self.subject_body() attachment_data = self.attachment() msg = self.create_msg(from_addr, to_addrs, subject, body, attachment_data) return self.send_msg(from_addr, to_addrs, msg) def subject_body(self): pool = Pool() Config = pool.get('lims.configuration') User = pool.get('res.user') Lang = pool.get('ir.lang') config = Config(1) lang = User(Transaction().user).language if not lang: lang, = Lang.search([ ('code', '=', 'en'), ], limit=1) with Transaction().set_context(language=lang.code): subject = unicode('%s %s' % (config.mail_ack_subject, self.number)).strip() body = unicode(config.mail_ack_body) return subject, body def attachment(self): data = { 'content': self.ack_report_cache, 'format': self.ack_report_format, 'mimetype': self.ack_report_format == 'pdf' and 'pdf' or 'vnd.oasis.opendocument.text', 'filename': (unicode(self.number) + '.' + str(self.ack_report_format)), 'name': unicode(self.number), } return data def create_msg(self, from_addr, to_addrs, subject, body, attachment_data): if not to_addrs: return None msg = MIMEMultipart() msg['From'] = from_addr hidden = True # TODO: HARDCODE! if not hidden: msg['To'] = ', '.join(to_addrs) msg['Subject'] = subject msg_body = MIMEBase('text', 'plain') msg_body.set_payload(body.encode('UTF-8'), 'UTF-8') msg.attach(msg_body) attachment = MIMEApplication( attachment_data['content'], Name=attachment_data['filename'], _subtype="pdf") attachment.add_header('content-disposition', 'attachment', filename=('utf-8', '', attachment_data['filename'])) msg.attach(attachment) return msg def send_msg(self, from_addr, to_addrs, msg): to_addrs = list(set(to_addrs)) success = False try: server = get_smtp_server() server.sendmail(from_addr, to_addrs, msg.as_string()) server.quit() success = True except Exception: logging.getLogger('lims').error( 'Unable to deliver mail for entry %s' % (self.number)) return success def _confirm(self): LimsFraction = Pool().get('lims.fraction') fractions = LimsFraction.search([ ('entry', '=', self.id), ('confirmed', '=', False), ], order=[ ('sample', 'ASC'), ('id', 'ASC'), ]) if not fractions: Company = Pool().get('company.company') companies = Company.search([]) if self.party.id not in [c.party.id for c in companies]: self.raise_user_error('not_fraction', (self.rec_name,)) LimsFraction.confirm(fractions) @classmethod def check_delete(cls, entries): for entry in entries: if entry.state != 'draft': cls.raise_user_error('delete_entry', (entry.rec_name,)) @classmethod def delete(cls, entries): cls.check_delete(entries) super(LimsEntry, cls).delete(entries) def get_confirmed(self, name=None): if not self.samples: return False for sample in self.samples: if not sample.fractions: return False for fraction in sample.fractions: if not fraction.confirmed: return False return True @classmethod def order_create_date2(cls, tables): return cls.create_date.convert_order('create_date', tables, cls) class LimsEntryInvoiceContact(ModelSQL, ModelView): 'Entry Invoice Contact' __name__ = 'lims.entry.invoice_contacts' entry = fields.Many2One('lims.entry', 'Entry', ondelete='CASCADE', select=True, required=True) contact = fields.Many2One('party.address', 'Contact', required=True, domain=[ ('party', 'in', [Eval('_parent_entry', {}).get('party'), Eval('_parent_entry', {}).get('invoice_party')]), ('invoice_contact', '=', True), ]) class LimsEntryReportContact(ModelSQL, ModelView): 'Entry Report Contact' __name__ = 'lims.entry.report_contacts' entry = fields.Many2One('lims.entry', 'Entry', ondelete='CASCADE', select=True, required=True) contact = fields.Many2One('party.address', 'Contact', required=True, domain=[ ('party', 'in', [Eval('_parent_entry', {}).get('party'), Eval('_parent_entry', {}).get('invoice_party')]), ('report_contact', '=', True), ]) class LimsEntryAcknowledgmentContact(ModelSQL, ModelView): 'Entry Acknowledgment Contact' __name__ = 'lims.entry.acknowledgment_contacts' entry = fields.Many2One('lims.entry', 'Entry', ondelete='CASCADE', select=True, required=True) contact = fields.Many2One('party.address', 'Contact', required=True, domain=[ ('party', 'in', [Eval('_parent_entry', {}).get('party'), Eval('_parent_entry', {}).get('invoice_party')]), ('acknowledgment_contact', '=', True), ]) class LimsAnalysisFamily(ModelSQL, ModelView): 'Analysis Family' __name__ = 'lims.analysis.family' _rec_name = 'description' code = fields.Char('Code', required=True) description = fields.Char('Description', required=True) party = fields.Many2One('party.party', 'Certificant party') certificants = fields.One2Many('lims.analysis.family.certificant', 'family', 'Product Type - Matrix') @classmethod def __setup__(cls): super(LimsAnalysisFamily, cls).__setup__() t = cls.__table__() cls._sql_constraints += [ ('code_uniq', Unique(t, t.code), 'Analysis family code must be unique'), ] def get_rec_name(self, name): if self.code: return self.code + ' - ' + self.description else: return self.description @classmethod def search_rec_name(cls, name, clause): field = None for field in ('code', 'description'): records = cls.search([(field,) + tuple(clause[1:])], limit=1) if records: break if records: return [(field,) + tuple(clause[1:])] return [(cls._rec_name,) + tuple(clause[1:])] class LimsAnalysisFamilyCertificant(ModelSQL, ModelView): 'Product Type - Matrix' __name__ = 'lims.analysis.family.certificant' family = fields.Many2One('lims.analysis.family', 'Family', required=True) product_type = fields.Many2One('lims.product.type', 'Product type', required=True) matrix = fields.Many2One('lims.matrix', 'Matrix', required=True) @classmethod def __setup__(cls): super(LimsAnalysisFamilyCertificant, cls).__setup__() t = cls.__table__() cls._sql_constraints += [ ('product_matrix_uniq', Unique(t, t.family, t.product_type, t.matrix), 'This record already exists'), ] class LimsZone(ModelSQL, ModelView): 'Zone/Region' __name__ = 'lims.zone' _rec_name = 'description' code = fields.Char('Code', required=True) description = fields.Char('Description', required=True) restricted_entry = fields.Boolean('Restricted entry') @classmethod def __setup__(cls): super(LimsZone, cls).__setup__() t = cls.__table__() cls._sql_constraints += [ ('code_uniq', Unique(t, t.code), 'Zone code must be unique'), ] def get_rec_name(self, name): if self.code: return self.code + ' - ' + self.description else: return self.description @classmethod def search_rec_name(cls, name, clause): field = None for field in ('code', 'description'): records = cls.search([(field,) + tuple(clause[1:])], limit=1) if records: break if records: return [(field,) + tuple(clause[1:])] return [(cls._rec_name,) + tuple(clause[1:])] class LimsVariety(ModelSQL, ModelView): 'Variety' __name__ = 'lims.variety' _rec_name = 'description' code = fields.Char('Code', required=True) description = fields.Char('Description', required=True) varieties = fields.One2Many('lims.matrix.variety', 'variety', 'Product Type - Matrix') @classmethod def __setup__(cls): super(LimsVariety, cls).__setup__() t = cls.__table__() cls._sql_constraints += [ ('code_uniq', Unique(t, t.code), 'Variety code must be unique'), ] def get_rec_name(self, name): if self.code: return self.code + ' - ' + self.description else: return self.description @classmethod def search_rec_name(cls, name, clause): field = None for field in ('code', 'description'): records = cls.search([(field,) + tuple(clause[1:])], limit=1) if records: break if records: return [(field,) + tuple(clause[1:])] return [(cls._rec_name,) + tuple(clause[1:])] class LimsMatrixVariety(ModelSQL, ModelView): 'Product Type - Matrix - Variety' __name__ = 'lims.matrix.variety' product_type = fields.Many2One('lims.product.type', 'Product type', required=True) matrix = fields.Many2One('lims.matrix', 'Matrix', required=True) variety = fields.Many2One('lims.variety', 'Variety', required=True) class LimsPackagingIntegrity(ModelSQL, ModelView): 'Packaging Integrity' __name__ = 'lims.packaging.integrity' _rec_name = 'description' code = fields.Char('Code', required=True) description = fields.Char('Description', required=True, translate=True) @classmethod def __setup__(cls): super(LimsPackagingIntegrity, cls).__setup__() t = cls.__table__() cls._sql_constraints += [ ('code_uniq', Unique(t, t.code), 'Packaging integrity code must be unique'), ] def get_rec_name(self, name): if self.code: return self.code + ' - ' + self.description else: return self.description @classmethod def search_rec_name(cls, name, clause): field = None for field in ('code', 'description'): records = cls.search([(field,) + tuple(clause[1:])], limit=1) if records: break if records: return [(field,) + tuple(clause[1:])] return [(cls._rec_name,) + tuple(clause[1:])] class LimsEntrySuspensionReason(ModelSQL, ModelView): 'Entry Suspension Reason' __name__ = 'lims.entry.suspension.reason' _rec_name = 'description' code = fields.Char('Code', required=True) description = fields.Char('Description', required=True) by_default = fields.Boolean('By default') @classmethod def __setup__(cls): super(LimsEntrySuspensionReason, cls).__setup__() t = cls.__table__() cls._sql_constraints += [ ('code_uniq', Unique(t, t.code), 'Suspension reason code must be unique'), ] cls._error_messages.update({ 'default_suspension_reason': 'There is already a default ' 'suspension reason', }) @staticmethod def default_by_default(): return False def get_rec_name(self, name): if self.code: return self.code + ' - ' + self.description else: return self.description @classmethod def search_rec_name(cls, name, clause): field = None for field in ('code', 'description'): records = cls.search([(field,) + tuple(clause[1:])], limit=1) if records: break if records: return [(field,) + tuple(clause[1:])] return [(cls._rec_name,) + tuple(clause[1:])] @classmethod def validate(cls, reasons): super(LimsEntrySuspensionReason, cls).validate(reasons) for sr in reasons: sr.check_default() def check_default(self): if self.by_default: reasons = self.search([ ('by_default', '=', True), ('id', '!=', self.id), ]) if reasons: self.raise_user_error('default_suspension_reason') class LimsEntryDetailAnalysis(ModelSQL, ModelView): 'Entry Detail Analysis' __name__ = 'lims.entry.detail.analysis' service = fields.Many2One('lims.service', 'Service', required=True, ondelete='CASCADE', select=True, readonly=True) service_view = fields.Function(fields.Many2One('lims.service', 'Service', states={'invisible': Not(Bool(Eval('_parent_service')))}), 'on_change_with_service_view') create_date2 = fields.Function(fields.DateTime('Create Date'), 'get_create_date2', searcher='search_create_date2') fraction = fields.Function(fields.Many2One('lims.fraction', 'Fraction'), 'get_service_field', searcher='search_service_field') sample = fields.Function(fields.Many2One('lims.sample', 'Sample'), 'get_service_field', searcher='search_service_field') entry = fields.Function(fields.Many2One('lims.entry', 'Entry'), 'get_service_field', searcher='search_service_field') party = fields.Function(fields.Many2One('party.party', 'Party'), 'get_service_field', searcher='search_service_field') analysis = fields.Many2One('lims.analysis', 'Analysis', required=True, states={'readonly': True}) analysis_type = fields.Function(fields.Selection([ ('analysis', 'Analysis'), ('set', 'Set'), ('group', 'Group'), ], 'Type', sort=False), 'on_change_with_analysis_type') laboratory = fields.Many2One('lims.laboratory', 'Laboratory', states={'readonly': True}) method = fields.Many2One('lims.lab.method', 'Method', states={'readonly': True}) device = fields.Many2One('lims.lab.device', 'Device', states={'readonly': True}) analysis_origin = fields.Char('Analysis origin', states={'readonly': True}) confirmation_date = fields.Date('Confirmation date', readonly=True) report_grouper = fields.Integer('Report Grouper') results_report = fields.Function(fields.Many2One('lims.results_report', 'Results Report'), 'get_results_report') report = fields.Function(fields.Boolean('Report'), 'get_report', searcher='search_report') @classmethod def __setup__(cls): super(LimsEntryDetailAnalysis, cls).__setup__() cls._order.insert(0, ('service', 'DESC')) cls._error_messages.update({ 'delete_detail': ('You can not delete the analysis detail because ' 'its fraction is confirmed'), }) @classmethod def copy(cls, details, default=None): if default is None: default = {} current_default = default.copy() current_default['confirmation_date'] = None return super(LimsEntryDetailAnalysis, cls).copy(details, default=current_default) @classmethod def check_delete(cls, details): for detail in details: if detail.fraction and detail.fraction.confirmed: cls.raise_user_error('delete_detail') @classmethod def delete(cls, details): if Transaction().user != 0: cls.check_delete(details) super(LimsEntryDetailAnalysis, cls).delete(details) @classmethod def create_notebook_lines(cls, details, fraction): cursor = Transaction().connection.cursor() pool = Pool() Typification = pool.get('lims.typification') Method = pool.get('lims.lab.method') AnalysisLaboratory = pool.get('lims.analysis-laboratory') Fraction = pool.get('lims.fraction') Notebook = pool.get('lims.notebook') Company = pool.get('company.company') lines_create = [] for detail in details: cursor.execute('SELECT default_repetitions, ' 'initial_concentration, final_concentration, start_uom, ' 'end_uom, detection_limit, quantification_limit, ' 'calc_decimals, report ' 'FROM "' + Typification._table + '" ' 'WHERE product_type = %s ' 'AND matrix = %s ' 'AND analysis = %s ' 'AND method = %s ' 'AND valid', (fraction.product_type.id, fraction.matrix.id, detail.analysis.id, detail.method.id)) typifications = cursor.fetchall() typification = (typifications[0] if len(typifications) == 1 else None) if typification: repetitions = typification[0] initial_concentration = unicode(typification[1] or '') final_concentration = unicode(typification[2] or '') initial_unit = typification[3] final_unit = typification[4] detection_limit = str(typification[5]) quantification_limit = str(typification[6]) decimals = typification[7] report = typification[8] else: repetitions = 0 initial_concentration = None final_concentration = None initial_unit = None final_unit = None detection_limit = None quantification_limit = None decimals = 2 report = False cursor.execute('SELECT results_estimated_waiting ' 'FROM "' + Method._table + '" ' 'WHERE id = %s', (detail.method.id,)) res = cursor.fetchone() results_estimated_waiting = res and res[0] or None cursor.execute('SELECT department ' 'FROM "' + AnalysisLaboratory._table + '" ' 'WHERE analysis = %s ' 'AND laboratory = %s', (detail.analysis.id, detail.laboratory.id)) res = cursor.fetchone() department = res and res[0] or None for i in range(0, repetitions + 1): notebook_line = { 'analysis_detail': detail.id, 'service': detail.service.id, 'analysis': detail.analysis.id, 'analysis_origin': detail.analysis_origin, 'repetition': i, 'laboratory': detail.laboratory.id, 'method': detail.method.id, 'device': detail.device.id if detail.device else None, 'initial_concentration': initial_concentration, 'final_concentration': final_concentration, 'initial_unit': initial_unit, 'final_unit': final_unit, 'detection_limit': detection_limit, 'quantification_limit': quantification_limit, 'decimals': decimals, 'report': report, 'results_estimated_waiting': results_estimated_waiting, 'department': department, } lines_create.append(notebook_line) if not lines_create: companies = Company.search([]) if fraction.party.id not in [c.party.id for c in companies]: Fraction.raise_user_error('not_services', (fraction.rec_name,)) with Transaction().set_user(0): notebook = Notebook.search([ ('fraction', '=', fraction.id), ]) Notebook.write(notebook, { 'lines': [('create', lines_create)], }) @staticmethod def default_service_view(): if (Transaction().context.get('service') > 0): return Transaction().context.get('service') return None @fields.depends('service') def on_change_with_service_view(self, name=None): if self.service: return self.service.id return None @staticmethod def default_fraction(): if (Transaction().context.get('fraction') > 0): return Transaction().context.get('fraction') return None @staticmethod def default_sample(): if (Transaction().context.get('sample') > 0): return Transaction().context.get('sample') return None @staticmethod def default_entry(): if (Transaction().context.get('entry') > 0): return Transaction().context.get('entry') return None @staticmethod def default_party(): if (Transaction().context.get('party') > 0): return Transaction().context.get('party') return None @staticmethod def default_report_grouper(): return 0 @fields.depends('analysis') def on_change_with_analysis_type(self, name=None): if self.analysis: return self.analysis.type return '' @classmethod def get_service_field(cls, details, names): result = {} for name in names: result[name] = {} for d in details: field = getattr(d.service, name, None) result[name][d.id] = field.id if field else None return result @classmethod def get_create_date2(cls, details, name): result = {} for d in details: result[d.id] = d.create_date.replace(microsecond=0) return result @classmethod def search_create_date2(cls, name, clause): cursor = Transaction().connection.cursor() operator_ = clause[1:2][0] cursor.execute('SELECT id ' 'FROM "' + cls._table + '" ' 'WHERE create_date' + operator_ + ' %s', clause[2:3]) return [('id', 'in', [x[0] for x in cursor.fetchall()])] @classmethod def search_service_field(cls, name, clause): return [('service.' + name,) + tuple(clause[1:])] @classmethod def order_create_date2(cls, tables): return cls.create_date.convert_order('create_date', tables, cls) def _order_service_field(name): def order_field(tables): Service = Pool().get('lims.service') field = Service._fields[name] table, _ = tables[None] service_tables = tables.get('service') if service_tables is None: service = Service.__table__() service_tables = { None: (service, service.id == table.service), } tables['service'] = service_tables return field.convert_order(name, service_tables, Service) return staticmethod(order_field) # Redefine convert_order function with 'order_%s' % field order_fraction = _order_service_field('fraction') order_sample = _order_service_field('sample') order_entry = _order_service_field('entry') order_party = _order_service_field('party') @classmethod def get_results_report(cls, details, name): cursor = Transaction().connection.cursor() LimsNotebookLine = Pool().get('lims.notebook.line') result = {} for d in details: cursor.execute('SELECT results_report ' 'FROM "' + LimsNotebookLine._table + '" ' 'WHERE analysis_detail = %s ' 'AND results_report IS NOT NULL ' 'ORDER BY id ASC LIMIT 1', (d.id,)) value = cursor.fetchone() result[d.id] = value[0] if value else None return result @classmethod def get_report(cls, details, name): cursor = Transaction().connection.cursor() LimsNotebookLine = Pool().get('lims.notebook.line') result = {} for d in details: cursor.execute('SELECT report ' 'FROM "' + LimsNotebookLine._table + '" ' 'WHERE analysis_detail = %s ' 'ORDER BY id DESC LIMIT 1', (d.id,)) value = cursor.fetchone() result[d.id] = value[0] if value else False return result @classmethod def search_report(cls, name, clause): cursor = Transaction().connection.cursor() LimsNotebookLine = Pool().get('lims.notebook.line') cursor.execute('SELECT detail.id ' 'FROM "' + cls._table + '" detail ' 'INNER JOIN ( ' 'SELECT DISTINCT ON (analysis_detail) ' 'analysis_detail, report ' 'FROM "' + LimsNotebookLine._table + '" ' 'ORDER BY analysis_detail, id DESC ' ') last_nbl ' 'ON detail.id = last_nbl.analysis_detail ' 'WHERE last_nbl.report = TRUE') to_report = cursor.fetchall() field, op, operand = clause if (op, operand) in (('=', True), ('!=', False)): return [('id', 'in', to_report)] elif (op, operand) in (('=', False), ('!=', True)): return [('id', 'not in', to_report)] else: return [] class LimsVolumeConversion(ModelSQL, ModelView): 'Volume Conversion' __name__ = 'lims.volume.conversion' brix = fields.Float('Brix', required=True, digits=(16, Eval('brix_digits', 2)), depends=['brix_digits']) density = fields.Float('Density', required=True, digits=(16, Eval('density_digits', 2)), depends=['density_digits']) soluble_solids = fields.Float('Soluble solids', required=True, digits=(16, Eval('soluble_solids_digits', 2)), depends=['soluble_solids_digits']) brix_digits = fields.Function(fields.Integer('Brix digits'), 'get_configuration_field') density_digits = fields.Function(fields.Integer('Density digits'), 'get_configuration_field') soluble_solids_digits = fields.Function(fields.Integer( 'Soluble solids digits'), 'get_configuration_field') @classmethod def __setup__(cls): super(LimsVolumeConversion, cls).__setup__() cls._order.insert(0, ('brix', 'ASC')) @staticmethod def default_brix_digits(): Config = Pool().get('lims.configuration') config = Config(1) return getattr(config, 'brix_digits', 2) @staticmethod def default_density_digits(): Config = Pool().get('lims.configuration') config = Config(1) return getattr(config, 'density_digits', 2) @staticmethod def default_soluble_solids_digits(): Config = Pool().get('lims.configuration') config = Config(1) return getattr(config, 'soluble_solids_digits', 2) @classmethod def get_configuration_field(cls, volume_conversions, names): Config = Pool().get('lims.configuration') config = Config(1) result = {} for name in names: value = getattr(config, name, 2) result[name] = dict((vc.id, value) for vc in volume_conversions) return result @classmethod def brixToDensity(cls, brix): if not brix: return None brix = float(brix) values = cls.search([ ('brix', '=', brix), ], limit=1) if values: return values[0].density intrpltn = { 'x_a': 0, 'y_a': 0, 'x_b': 0, 'y_b': 0, } lower_values = cls.search([ ('brix', '<', brix), ], order=[('brix', 'DESC')], limit=1) if not lower_values: return None intrpltn['x_a'] = lower_values[0].brix intrpltn['y_a'] = lower_values[0].density upper_values = cls.search([ ('brix', '>', brix), ], order=[('brix', 'ASC')], limit=1) if not upper_values: return None intrpltn['x_b'] = upper_values[0].brix intrpltn['y_b'] = upper_values[0].density value = (intrpltn['y_a'] + (brix - intrpltn['x_a']) * ( (intrpltn['y_b'] - intrpltn['y_a']) / (intrpltn['x_b'] - intrpltn['x_a']))) return value @classmethod def brixToSolubleSolids(cls, brix): if not brix: return None brix = float(brix) values = cls.search([ ('brix', '=', brix), ], limit=1) if values: return values[0].soluble_solids intrpltn = { 'x_a': 0, 'y_a': 0, 'x_b': 0, 'y_b': 0, } lower_values = cls.search([ ('brix', '<', brix), ], order=[('brix', 'DESC')], limit=1) if not lower_values: return None intrpltn['x_a'] = lower_values[0].brix intrpltn['y_a'] = lower_values[0].soluble_solids upper_values = cls.search([ ('brix', '>', brix), ], order=[('brix', 'ASC')], limit=1) if not upper_values: return None intrpltn['x_b'] = upper_values[0].brix intrpltn['y_b'] = upper_values[0].soluble_solids value = (intrpltn['y_a'] + (brix - intrpltn['x_a']) * ( (intrpltn['y_b'] - intrpltn['y_a']) / (intrpltn['x_b'] - intrpltn['x_a']))) return value class LimsUomConversion(ModelSQL, ModelView): 'Uom Conversion' __name__ = 'lims.uom.conversion' initial_uom = fields.Many2One('product.uom', 'Initial UoM', required=True, domain=[('category.lims_only_available', '=', True)]) final_uom = fields.Many2One('product.uom', 'Final UoM', required=True, domain=[('category.lims_only_available', '=', True)]) initial_uom_volume = fields.Boolean('Volume involved in Initial UoM') final_uom_volume = fields.Boolean('Volume involved in Final UoM') conversion_formula = fields.Char('Conversion formula') @classmethod def get_conversion_formula(cls, initial_uom, final_uom): if not initial_uom or not final_uom: return None values = cls.search([ ('initial_uom', '=', initial_uom), ('final_uom', '=', final_uom), ]) if values: return values[0].conversion_formula return None class LimsRangeType(ModelSQL, ModelView): 'Origins' __name__ = 'lims.range.type' code = fields.Char('Code', required=True) name = fields.Char('Name', required=True) use = fields.Selection([ ('results_verification', 'Results verification'), ('uncertainty_calc', 'Uncertainty calculation'), ('repeatability_calc', 'Repeatability calculation'), ('result_range', 'Result and Ranges'), ], 'Use', sort=False, required=True) use_string = use.translated('use') by_default = fields.Boolean('By default') resultrange_title = fields.Char('Column Title in Results report', translate=True, states={'invisible': Eval('use') != 'result_range'}, depends=['use']) resultrange_comments = fields.Char('Comments in Results report', translate=True, states={'invisible': Eval('use') != 'result_range'}, depends=['use']) @classmethod def __setup__(cls): super(LimsRangeType, cls).__setup__() cls._error_messages.update({ 'default_range_type': 'There is already a default origin' ' for this use', }) @staticmethod def default_by_default(): return False @classmethod def validate(cls, range_types): super(LimsRangeType, cls).validate(range_types) for rt in range_types: rt.check_default() def check_default(self): if self.by_default: range_types = self.search([ ('use', '=', self.use), ('by_default', '=', True), ('id', '!=', self.id), ]) if range_types: self.raise_user_error('default_range_type') class LimsRange(ModelSQL, ModelView): 'Range' __name__ = 'lims.range' range_type = fields.Many2One('lims.range.type', 'Origin', required=True) analysis = fields.Many2One('lims.analysis', 'Analysis', required=True) product_type = fields.Many2One('lims.product.type', 'Product type', required=True) matrix = fields.Many2One('lims.matrix', 'Matrix', required=True) uom = fields.Many2One('product.uom', 'UoM', required=True, domain=[('category.lims_only_available', '=', True)]) concentration = fields.Char('Concentration', required=True) min = fields.Float('Minimum', digits=(16, 3)) max = fields.Float('Maximum', digits=(16, 3)) reference = fields.Char('Reference', translate=True) min95 = fields.Float('Minimum 95', digits=(16, 3)) max95 = fields.Float('Maximum 95', digits=(16, 3)) low_level = fields.Float('Low level', digits=(16, 3), states={'required': Bool(Eval('low_level_value'))}, depends=['low_level_value']) middle_level = fields.Float('Middle level', digits=(16, 3), states={'required': Bool(Eval('middle_level_value'))}, depends=['middle_level_value']) high_level = fields.Float('High level', digits=(16, 3), states={'required': Bool(Eval('high_level_value'))}, depends=['high_level_value']) low_level_value = fields.Float('Low level value', digits=(16, 3)) middle_level_value = fields.Float('Middle level value', digits=(16, 3)) high_level_value = fields.Float('High level value', digits=(16, 3)) factor = fields.Float('Factor', digits=(16, 3)) low_level_coefficient_variation = fields.Float( 'Low level coefficient of variation', digits=(16, 3)) middle_level_coefficient_variation = fields.Float( 'Middle level coefficient of variation', digits=(16, 3)) high_level_coefficient_variation = fields.Float( 'High level coefficient of variation', digits=(16, 3)) class LimsControlTendency(ModelSQL, ModelView): 'Control Chart Tendency' __name__ = 'lims.control.tendency' product_type = fields.Many2One('lims.product.type', 'Product type', required=True, states={ 'readonly': Bool(Eval('context', {}).get('readonly', False))}) matrix = fields.Many2One('lims.matrix', 'Matrix', required=True, states={'readonly': Bool(Eval('context', {}).get('readonly', False))}) fraction_type = fields.Many2One('lims.fraction.type', 'Fraction type', required=True, states={ 'readonly': Bool(Eval('context', {}).get('readonly', False))}) analysis = fields.Many2One('lims.analysis', 'Analysis', required=True, states={'readonly': Bool(Eval('context', {}).get('readonly', False))}) concentration_level = fields.Many2One('lims.concentration.level', 'Concentration level', states={ 'readonly': Bool(Eval('context', {}).get('readonly', False))}) mean = fields.Float('Mean', required=True, states={'readonly': Bool(Eval('context', {}).get('readonly', False))}, digits=(16, Eval('digits', 2)), depends=['digits']) deviation = fields.Float('Standard Deviation', required=True, digits=(16, Eval('digits', 2)), depends=['digits']) one_sd = fields.Function(fields.Float('1 SD', digits=(16, Eval('digits', 2)), depends=['deviation', 'digits']), 'get_one_sd') two_sd = fields.Function(fields.Float('2 SD', digits=(16, Eval('digits', 2)), depends=['deviation', 'digits']), 'get_two_sd') three_sd = fields.Function(fields.Float('3 SD', digits=(16, Eval('digits', 2)), depends=['deviation', 'digits']), 'get_three_sd') cv = fields.Function(fields.Float('CV (%)', digits=(16, Eval('digits', 2)), depends=['deviation', 'mean', 'digits']), 'get_cv') min_cv = fields.Float('Minimum CV (%)', digits=(16, Eval('digits', 2)), depends=['digits']) max_cv = fields.Float('Maximum CV (%)', digits=(16, Eval('digits', 2)), depends=['digits']) min_cv_corr_fact = fields.Float('Correction factor for Minimum CV', digits=(16, Eval('digits', 2)), depends=['digits']) max_cv_corr_fact = fields.Float('Correction factor for Maximum CV', digits=(16, Eval('digits', 2)), depends=['digits']) one_sd_adj = fields.Function(fields.Float('1 SD Adjusted', digits=(16, Eval('digits', 2)), depends=['cv', 'one_sd', 'min_cv', 'max_cv', 'min_cv_corr_fact', 'max_cv_corr_fact', 'digits']), 'get_one_sd_adj') two_sd_adj = fields.Function(fields.Float('2 SD Adjusted', digits=(16, Eval('digits', 2)), depends=['cv', 'two_sd', 'min_cv', 'max_cv', 'min_cv_corr_fact', 'max_cv_corr_fact', 'digits']), 'get_two_sd_adj') three_sd_adj = fields.Function(fields.Float('3 SD Adjusted', digits=(16, Eval('digits', 2)), depends=['cv', 'three_sd', 'min_cv', 'max_cv', 'min_cv_corr_fact', 'max_cv_corr_fact', 'digits']), 'get_three_sd_adj') ucl = fields.Function(fields.Float('UCL', digits=(16, Eval('digits', 2)), depends=['mean', 'three_sd_adj', 'digits']), 'get_ucl') uwl = fields.Function(fields.Float('UWL', digits=(16, Eval('digits', 2)), depends=['mean', 'two_sd_adj', 'digits']), 'get_uwl') upl = fields.Function(fields.Float('UPL', digits=(16, Eval('digits', 2)), depends=['mean', 'one_sd_adj', 'digits']), 'get_upl') lcl = fields.Function(fields.Float('LCL', digits=(16, Eval('digits', 2)), depends=['mean', 'three_sd_adj', 'digits']), 'get_lcl') lwl = fields.Function(fields.Float('LWL', digits=(16, Eval('digits', 2)), depends=['mean', 'two_sd_adj', 'digits']), 'get_lwl') lpl = fields.Function(fields.Float('LPL', digits=(16, Eval('digits', 2)), depends=['mean', 'one_sd_adj', 'digits']), 'get_lpl') cl = fields.Function(fields.Float('CL', digits=(16, Eval('digits', 2)), depends=['mean', 'digits']), 'get_cl') details = fields.One2Many('lims.control.tendency.detail', 'tendency', 'Details', readonly=True) rule_1_count = fields.Integer('Rule 1', readonly=True) rule_2_count = fields.Integer('Rule 2', readonly=True) rule_3_count = fields.Integer('Rule 3', readonly=True) rule_4_count = fields.Integer('Rule 4', readonly=True) digits = fields.Integer('Digits') @classmethod def __setup__(cls): super(LimsControlTendency, cls).__setup__() cls._order.insert(0, ('rule_4_count', 'DESC')) cls._order.insert(1, ('rule_3_count', 'DESC')) cls._order.insert(2, ('rule_2_count', 'DESC')) cls._order.insert(3, ('rule_1_count', 'DESC')) cls._order.insert(4, ('product_type', 'ASC')) cls._order.insert(5, ('matrix', 'ASC')) cls._order.insert(6, ('analysis', 'ASC')) cls._order.insert(7, ('concentration_level', 'ASC')) @staticmethod def default_rule_1_count(): return 0 @staticmethod def default_rule_2_count(): return 0 @staticmethod def default_rule_3_count(): return 0 @staticmethod def default_rule_4_count(): return 0 @staticmethod def default_digits(): return 2 @staticmethod def default_min_cv(): return 1 @staticmethod def default_max_cv(): return 1 @staticmethod def default_min_cv_corr_fact(): return 1 @staticmethod def default_max_cv_corr_fact(): return 1 def get_one_sd(self, name=None): return round(self.deviation, self.digits) def get_two_sd(self, name=None): return round(self.deviation * 2, self.digits) def get_three_sd(self, name=None): return round(self.deviation * 3, self.digits) def get_cv(self, name=None): if self.mean: return round((self.deviation / self.mean) * 100, self.digits) def get_one_sd_adj(self, name=None): if self.cv < self.min_cv: return round(self.one_sd, self.digits) elif self.cv < self.max_cv: if self.min_cv_corr_fact: return round(self.one_sd / self.min_cv_corr_fact, self.digits) else: if self.max_cv_corr_fact: return round(self.one_sd / self.max_cv_corr_fact, self.digits) def get_two_sd_adj(self, name=None): if self.cv < self.min_cv: return round(self.two_sd, self.digits) elif self.cv < self.max_cv: if self.min_cv_corr_fact: return round(self.two_sd / self.min_cv_corr_fact, self.digits) else: if self.max_cv_corr_fact: return round(self.two_sd / self.max_cv_corr_fact, self.digits) def get_three_sd_adj(self, name=None): if self.cv < self.min_cv: return round(self.three_sd, self.digits) elif self.cv < self.max_cv: if self.min_cv_corr_fact: return round(self.three_sd / self.min_cv_corr_fact, self.digits) else: if self.max_cv_corr_fact: return round(self.three_sd / self.max_cv_corr_fact, self.digits) def get_ucl(self, name=None): return round(self.mean + self.three_sd_adj, self.digits) def get_uwl(self, name=None): return round(self.mean + self.two_sd_adj, self.digits) def get_upl(self, name=None): return round(self.mean + self.one_sd_adj, self.digits) def get_lcl(self, name=None): return round(self.mean - self.three_sd_adj, self.digits) def get_lwl(self, name=None): return round(self.mean - self.two_sd_adj, self.digits) def get_lpl(self, name=None): return round(self.mean - self.one_sd_adj, self.digits) def get_cl(self, name=None): return round(self.mean, self.digits) class LimsControlTendencyDetail(ModelSQL, ModelView): 'Control Chart Tendency Detail' __name__ = 'lims.control.tendency.detail' tendency = fields.Many2One('lims.control.tendency', 'Tendency', ondelete='CASCADE', select=True, required=True) notebook_line = fields.Many2One('lims.notebook.line', 'Notebook Line') date = fields.Date('Date') fraction = fields.Many2One('lims.fraction', 'Fraction') device = fields.Many2One('lims.lab.device', 'Device') result = fields.Float('Result') rule = fields.Char('Rule') rules = fields.One2Many('lims.control.tendency.detail.rule', 'detail', 'Rules') rules2 = fields.Function(fields.Char('Rules', depends=['rules']), 'get_rules2') @classmethod def __setup__(cls): super(LimsControlTendencyDetail, cls).__setup__() cls._order.insert(0, ('date', 'ASC')) cls._order.insert(1, ('fraction', 'ASC')) cls._order.insert(2, ('device', 'ASC')) def get_rules2(self, name=None): rules = '' if self.rules: rules = ', '.join(str(r.rule) for r in self.rules) return rules @classmethod def view_attributes(cls): return [('/tree', 'colors', If(Equal(Eval('rule', ''), '1'), 'green', If(Equal(Eval('rule', ''), '2'), 'blue', If(Equal(Eval('rule', ''), '3'), 'brown', If(Equal(Eval('rule', ''), '4'), 'red', 'black')))))] class LimsControlTendencyDetailRule(ModelSQL): 'Control Chart Tendency Detail Rule' __name__ = 'lims.control.tendency.detail.rule' detail = fields.Many2One('lims.control.tendency.detail', 'Detail', ondelete='CASCADE', select=True, required=True) rule = fields.Char('Rule') class LimsConcentrationLevel(ModelSQL, ModelView): 'Concentration Level' __name__ = 'lims.concentration.level' _rec_name = 'description' code = fields.Char('Code', required=True) description = fields.Char('Description', required=True) @classmethod def __setup__(cls): super(LimsConcentrationLevel, cls).__setup__() t = cls.__table__() cls._sql_constraints += [ ('code_uniq', Unique(t, t.code), 'Concentration level code must be unique'), ] def get_rec_name(self, name): if self.code: return self.code + ' - ' + self.description else: return self.description @classmethod def search_rec_name(cls, name, clause): field = None for field in ('code', 'description'): records = cls.search([(field,) + tuple(clause[1:])], limit=1) if records: break if records: return [(field,) + tuple(clause[1:])] return [(cls._rec_name,) + tuple(clause[1:])] class LimsResultsReport(ModelSQL, ModelView): 'Results Report' __name__ = 'lims.results_report' _rec_name = 'number' number = fields.Char('Number', select=True, readonly=True) versions = fields.One2Many('lims.results_report.version', 'results_report', 'Laboratories') report_grouper = fields.Integer('Report Grouper') generation_type = fields.Char('Generation type') cie_fraction_type = fields.Boolean('QA', readonly=True) party = fields.Many2One('party.party', 'Party', readonly=True) notebook = fields.Many2One('lims.notebook', 'Laboratory notebook') report_cache = fields.Binary('Report cache', readonly=True) report_format = fields.Char('Report format', readonly=True) report_cache_eng = fields.Binary('Report cache', readonly=True) report_format_eng = fields.Char('Report format', readonly=True) single_sending_report = fields.Function(fields.Boolean( 'Single sending'), 'get_single_sending_report', searcher='search_single_sending_report') single_sending_report_ready = fields.Function(fields.Boolean( 'Single sending Ready'), 'get_single_sending_report_ready') english_report = fields.Boolean('English report') create_date2 = fields.Function(fields.DateTime('Create Date'), 'get_create_date2', searcher='search_create_date2') write_date2 = fields.DateTime('Write Date', readonly=True) attachments = fields.One2Many('ir.attachment', 'resource', 'Attachments') @classmethod def __setup__(cls): super(LimsResultsReport, cls).__setup__() cls._order.insert(0, ('number', 'DESC')) cls._error_messages.update({ 'no_sequence': ('There is no results report sequence for ' 'the work year "%s".'), 'missing_module': 'Missing PyPDF2 module', 'empty_report': 'The report has not details to print', }) @staticmethod def default_report_grouper(): return 0 @classmethod def create(cls, vlist): pool = Pool() LimsLabWorkYear = pool.get('lims.lab.workyear') Sequence = pool.get('ir.sequence.strict') workyear_id = LimsLabWorkYear.find() workyear = LimsLabWorkYear(workyear_id) sequence = workyear.get_sequence('results_report') if not sequence: cls.raise_user_error('no_sequence', (workyear.rec_name,)) vlist = [x.copy() for x in vlist] for values in vlist: values['number'] = Sequence.get_id(sequence.id) return super(LimsResultsReport, cls).create(vlist) @classmethod def write(cls, *args): actions = iter(args) for reports, vals in zip(actions, actions): fields_check = cls._get_modified_fields() for field in fields_check: if field in vals: vals['write_date2'] = CurrentTimestamp() break super(LimsResultsReport, cls).write(*args) @staticmethod def _get_modified_fields(): return [ 'number', 'versions', 'report_grouper', 'generation_type', 'cie_fraction_type', 'party', 'notebook', 'english_report', 'attachments', ] def get_single_sending_report(self, name): pool = Pool() LimsNotebook = pool.get('lims.notebook') if self.notebook: with Transaction().set_user(0): notebook = LimsNotebook(self.notebook.id) return notebook.fraction.sample.entry.single_sending_report return False @classmethod def search_single_sending_report(cls, name, clause): return [('notebook.fraction.sample.entry.' + name,) + tuple(clause[1:])] def get_single_sending_report_ready(self, name): pool = Pool() LimsNotebook = pool.get('lims.notebook') LimsEntryDetailAnalysis = pool.get('lims.entry.detail.analysis') if not self.single_sending_report: return False with Transaction().set_user(0): notebook = LimsNotebook(self.notebook.id) if LimsEntryDetailAnalysis.search([ ('fraction', '=', notebook.fraction.id), ('report', '=', True), ('report_grouper', '=', self.report_grouper), ('state', '!=', 'reported'), ]): return False return True def get_create_date2(self, name): return self.create_date.replace(microsecond=0) @classmethod def search_create_date2(cls, name, clause): cursor = Transaction().connection.cursor() operator_ = clause[1:2][0] cursor.execute('SELECT id ' 'FROM "' + cls._table + '" ' 'WHERE create_date' + operator_ + ' %s', clause[2:3]) return [('id', 'in', [x[0] for x in cursor.fetchall()])] @classmethod def order_create_date2(cls, tables): return cls.create_date.convert_order('create_date', tables, cls) class LimsResultsReportVersion(ModelSQL, ModelView): 'Results Report Version' __name__ = 'lims.results_report.version' _rec_name = 'number' results_report = fields.Many2One('lims.results_report', 'Results Report', required=True, ondelete='CASCADE', select=True) number = fields.Char('Number', select=True, readonly=True) laboratory = fields.Many2One('lims.laboratory', 'Laboratory', required=True, readonly=True) details = fields.One2Many('lims.results_report.version.detail', 'report_version', 'Detail lines') report_type = fields.Function(fields.Char('Report type'), 'get_report_type') @classmethod def __setup__(cls): super(LimsResultsReportVersion, cls).__setup__() cls._order.insert(0, ('number', 'DESC')) def get_report_type(self, name): LimsResultsReportVersionDetail = Pool().get( 'lims.results_report.version.detail') valid_detail = LimsResultsReportVersionDetail.search([ ('report_version.id', '=', self.id), ], order=[('id', 'DESC')], limit=1) if valid_detail: return valid_detail[0].report_type return None @classmethod def get_number(cls, results_report_id, laboratory_id): pool = Pool() LimsResultsReport = pool.get('lims.results_report') LimsLaboratory = pool.get('lims.laboratory') results_reports = LimsResultsReport.search([ ('id', '=', results_report_id), ]) report_number = results_reports[0].number laboratories = LimsLaboratory.search([ ('id', '=', laboratory_id), ]) laboratory_code = laboratories[0].code return '%s-%s' % (report_number, laboratory_code) @classmethod def create(cls, vlist): vlist = [x.copy() for x in vlist] for values in vlist: values['number'] = cls.get_number(values['results_report'], values['laboratory']) return super(LimsResultsReportVersion, cls).create(vlist) class LimsResultsReportVersionDetail(ModelSQL, ModelView): 'Results Report Version Detail' __name__ = 'lims.results_report.version.detail' _rec_name = 'report_version' report_version = fields.Many2One('lims.results_report.version', 'Report', required=True, readonly=True, ondelete='CASCADE', select=True) laboratory = fields.Function(fields.Many2One('lims.laboratory', 'Laboratory'), 'get_version_field', searcher='search_version_field') number = fields.Char('Version', select=True, readonly=True) valid = fields.Boolean('Active', readonly=True) state = fields.Selection([ ('draft', 'Draft'), ('revised', 'Revised'), ('annulled', 'Annulled'), ], 'State', readonly=True) notebook_lines = fields.One2Many('lims.results_report.version.detail.line', 'report_version_detail', 'Lines', depends=['state'], states={'readonly': Eval('state') != 'draft'}) report_section = fields.Function(fields.Char('Section'), 'get_report_section') report_type_forced = fields.Selection([ ('none', 'None'), ('normal', 'Normal'), ('polisample', 'Polisample'), ], 'Forced Report type', sort=False, depends=['state'], states={'readonly': Eval('state') != 'draft'}) report_type = fields.Function(fields.Selection([ ('normal', 'Normal'), ('polisample', 'Polisample'), ], 'Report type', sort=False), 'on_change_with_report_type') report_result_type_forced = fields.Selection([ ('none', 'None'), ('result', 'Result'), ('both', 'Both'), ('result_range', 'Result and Ranges'), ], 'Forced Result type', sort=False, depends=['state'], states={'readonly': Eval('state') != 'draft'}) report_result_type = fields.Function(fields.Selection([ ('result', 'Result'), ('both', 'Both'), ('result_range', 'Result and Ranges'), ], 'Result type', sort=False), 'on_change_with_report_result_type') english_report = fields.Function(fields.Boolean('English report'), 'get_report_field', searcher='search_report_field') signer = fields.Many2One('lims.laboratory.professional', 'Signer', states={'readonly': Eval('state') != 'draft'}, domain=[('id', 'in', Eval('signer_domain'))], depends=['state', 'signer_domain']) signer_domain = fields.Function(fields.Many2Many( 'lims.laboratory.professional', None, None, 'Signer domain'), 'on_change_with_signer_domain') comments = fields.Text('Comments', translate=True, depends=['state'], states={'readonly': ~Eval('state').in_(['draft', 'revised'])}) report_cache = fields.Binary('Report cache', readonly=True) report_format = fields.Char('Report format', readonly=True) report_cache_eng = fields.Binary('Report cache', readonly=True) report_format_eng = fields.Char('Report format', readonly=True) report_cache_odt = fields.Binary('Transcription Report cache', readonly=True) report_format_odt = fields.Char('Transcription Report format', readonly=True) report_cache_odt_eng = fields.Binary('Transcription Report cache', readonly=True) report_format_odt_eng = fields.Char('Transcription Report format', readonly=True) annulment_reason = fields.Text('Annulment reason', readonly=True) annulment_date = fields.DateTime('Annulment date', readonly=True) date = fields.Function(fields.Date('Date'), 'get_date', searcher='search_date') party = fields.Function(fields.Many2One('party.party', 'Party'), 'get_report_field', searcher='search_report_field') cie_fraction_type = fields.Function(fields.Boolean('QA'), 'get_report_field', searcher='search_report_field') create_date2 = fields.Function(fields.DateTime('Create Date'), 'get_create_date2', searcher='search_create_date2') write_date2 = fields.Function(fields.DateTime('Write Date'), 'get_write_date2', searcher='search_write_date2') resultrange_origin = fields.Many2One('lims.range.type', 'Origin', domain=[('use', '=', 'result_range')], depends=['report_result_type', 'state'], states={ 'invisible': Eval('report_result_type') != 'result_range', 'required': Eval('report_result_type') == 'result_range', 'readonly': Eval('state') != 'draft', }) fraction_comments = fields.Function(fields.Text('Fraction comments'), 'get_fraction_comments') @classmethod def __setup__(cls): super(LimsResultsReportVersionDetail, cls).__setup__() cls._order.insert(0, ('report_version', 'DESC')) cls._order.insert(1, ('number', 'DESC')) cls._buttons.update({ 'revise': { 'invisible': (Eval('state') != 'draft'), }, 'annul': { 'invisible': Or(Eval('state') != 'revised', ~Eval('valid')), }, 'revise_all_lang': { 'invisible': Not(If(Bool(Eval('english_report')), Bool(And( ~Bool(Eval('report_cache_eng')), Bool(Eval('report_cache')), )), Bool(And( ~Bool(Eval('report_cache')), Bool(Eval('report_cache_eng')), )), )), }, }) cls._error_messages.update({ 'delete_detail': ('You can not delete a detail that is not in ' 'draft state'), 'multiple_reports': 'Please, select only one report to print', 'annulled_report': 'This report is annulled', 'empty_report': 'The report has not lines to print', 'replace_number': u'Supplants the Results Report N° %s', 'quantification_limit': '< LoQ = %s', 'detection_limit': '(LoD = %s %s)', 'uncertainty': u'(U± %s %s)', 'obs_uncert': 'U = Uncertainty.', 'neg': 'Negative', 'pos': 'Positive', 'nd': 'Not detected', 'pre': 'Presence', 'abs': 'Absence', 'enac_all_acredited': ('Uncertainty for the analysis covered ' 'by the Accreditation is available.'), 'enac_acredited': ('The analysis marked with * are not ' 'covered by the Accreditation. Uncertainty for the ' 'analysis covered by the Accreditation is available.'), 'concentration_label_1': ('(Expressed at the concentration of ' 'the received sample)'), 'concentration_label_2': u'(Expressed at %s° Brix)', 'concentration_label_3': '(Expressed at %s)', 'final_unit_label_1': 'Expressed at %s %% Alcohol', 'final_unit_label_2': 'Expressed at %s', 'final_unit_label_3': 'Expressed at %s Bx', 'final_unit_label_4': 'Expressed at dry matter', 'obs_ql': 'LoQ= Limit of Quantitation.', 'obs_dl': 'LoD= Limit of Detection.', 'caa_min': 'min: %s', 'caa_max': 'max: %s', 'obs_rm_c_f': ('Elements results are reported without recovery ' 'correction.'), 'data_not_specified': 'NOT SPECIFIED BY THE CLIENT', }) @staticmethod def default_report_type_forced(): return 'none' @staticmethod def default_report_result_type_forced(): return 'none' @classmethod def get_next_number(cls, report_version_id, d_count): detail_number = cls.search_count([ ('report_version', '=', report_version_id), ]) detail_number += d_count return '%s' % detail_number @classmethod def create(cls, vlist): vlist = [x.copy() for x in vlist] d_count = {} for values in vlist: key = values['report_version'] if not key in d_count: d_count[key] = 0 d_count[key] += 1 values['number'] = cls.get_next_number(key, d_count[key]) return super(LimsResultsReportVersionDetail, cls).create(vlist) @staticmethod def default_valid(): return False @staticmethod def default_state(): return 'draft' def get_report_section(self, name): if self.laboratory: return self.laboratory.section return None @fields.depends('report_type_forced') def on_change_with_report_type(self, name=None): if self.report_type_forced != 'none': return self.report_type_forced report_type = { 'normal': 0, 'polisample': 0, } cursor = Transaction().connection.cursor() cursor.execute('SELECT COUNT(*), t.report_type ' 'FROM lims_results_report_version_detail_l d, ' 'lims_notebook_line l, lims_typification t, ' 'lims_notebook n, lims_fraction f, lims_sample s ' 'WHERE d.report_version_detail = %s ' 'AND d.notebook_line = l.id ' 'AND s.product_type = t.product_type ' 'AND s.matrix = t.matrix ' 'AND l.analysis = t.analysis ' 'AND l.method = t.method ' 'AND t.valid = true ' 'AND l.notebook = n.id ' 'AND n.fraction = f.id ' 'AND f.sample = s.id ' 'GROUP BY t.report_type', (self.id, )) res = cursor.fetchall() for type_ in res: if type_[0]: report_type[type_[1]] = type_[0] if report_type['polisample'] > report_type['normal']: return 'polisample' return 'normal' @fields.depends('report_result_type_forced') def on_change_with_report_result_type(self, name=None): if self.report_result_type_forced != 'none': return self.report_result_type_forced report_res_type = { 'result': 0, 'both': 0, } cursor = Transaction().connection.cursor() cursor.execute('SELECT COUNT(*), t.report_result_type ' 'FROM lims_results_report_version_detail_l d, ' 'lims_notebook_line l, lims_typification t, ' 'lims_notebook n, lims_fraction f, lims_sample s ' 'WHERE d.report_version_detail = %s ' 'AND d.notebook_line = l.id ' 'AND s.product_type = t.product_type ' 'AND s.matrix = t.matrix ' 'AND l.analysis = t.analysis ' 'AND l.method = t.method ' 'AND t.valid = true ' 'AND l.notebook = n.id ' 'AND n.fraction = f.id ' 'AND f.sample = s.id ' 'GROUP BY t.report_result_type', (self.id, )) res = cursor.fetchall() for type_ in res: if type_[0]: report_res_type[type_[1]] = type_[0] if report_res_type['both'] > report_res_type['result']: return 'both' return 'result' @fields.depends('report_result_type_forced', 'resultrange_origin') def on_change_report_result_type_forced(self): pool = Pool() LimsRangeType = pool.get('lims.range.type') if (self.report_result_type_forced == 'result_range' and not self.resultrange_origin): ranges = LimsRangeType.search([ ('use', '=', 'result_range'), ('by_default', '=', True), ]) if ranges: self.resultrange_origin = ranges[0].id @fields.depends('laboratory') def on_change_with_signer_domain(self, name=None): pool = Pool() LimsUserLaboratory = pool.get('lims.user-laboratory') LimsLaboratoryProfessional = pool.get('lims.laboratory.professional') if not self.laboratory: return [] users = LimsUserLaboratory.search([ ('laboratory', '=', self.laboratory.id), ]) if not users: return [] professionals = LimsLaboratoryProfessional.search([ ('party.lims_user', 'in', [u.user.id for u in users]), ('role', '!=', ''), ]) if not professionals: return [] return [p.id for p in professionals] @classmethod @ModelView.button def revise(cls, details): LimsResultsReportVersionDetailLine = Pool().get( 'lims.results_report.version.detail.line') cls.revise_notebook_lines(details) for detail in details: defaults = { 'state': 'revised', 'valid': True, } valid_details = cls.search([ ('report_version', '=', detail.report_version.id), ('valid', '=', True), ]) if valid_details: vd_ids = [] notebook_lines = [] for vd in valid_details: vd_ids.append(vd.id) for nline in vd.notebook_lines: notebook_lines.append({ 'notebook_line': nline.notebook_line.id, }) if notebook_lines: defaults['notebook_lines'] = [('create', notebook_lines)] cls.write(valid_details, { 'valid': False, }) old_lines = LimsResultsReportVersionDetailLine.search([ ('report_version_detail.id', 'in', vd_ids), ]) LimsResultsReportVersionDetailLine.delete(old_lines) cls.write([detail], defaults) detail.generate_report() @classmethod def revise_notebook_lines(cls, details): pool = Pool() LimsNotebookLine = pool.get('lims.notebook.line') LimsEntryDetailAnalysis = pool.get('lims.entry.detail.analysis') for detail in details: revised_lines = [] revised_entry_details = [] for nline in detail.notebook_lines: revised_lines.append(nline.notebook_line.id) revised_entry_details.append( nline.notebook_line.analysis_detail.id) notebook_lines = LimsNotebookLine.search([ ('id', 'in', revised_lines), ]) if notebook_lines: LimsNotebookLine.write(notebook_lines, { 'results_report': detail.report_version.results_report.id, }) entry_details = LimsEntryDetailAnalysis.search([ ('id', 'in', revised_entry_details), ]) if entry_details: LimsEntryDetailAnalysis.write(entry_details, { 'state': 'reported', }) @classmethod @ModelView.button_action('lims.wiz_lims_results_report_annulation') def annul(cls, details): pass @classmethod def annul_notebook_lines(cls, details): pool = Pool() LimsNotebookLine = pool.get('lims.notebook.line') LimsEntryDetailAnalysis = pool.get('lims.entry.detail.analysis') for detail in details: annulled_lines = [] annulled_entry_details = [] for nline in detail.notebook_lines: annulled_lines.append(nline.notebook_line.id) annulled_entry_details.append( nline.notebook_line.analysis_detail.id) notebook_lines = LimsNotebookLine.search([ ('id', 'in', annulled_lines), ('results_report', '=', detail.report_version.results_report.id), ]) if notebook_lines: LimsNotebookLine.write(notebook_lines, { 'results_report': None, }) entry_details = LimsEntryDetailAnalysis.search([ ('id', 'in', annulled_entry_details), ]) if entry_details: LimsEntryDetailAnalysis.write(entry_details, { 'state': 'done', }) @classmethod @ModelView.button def revise_all_lang(cls, details): for detail in details: detail.generate_report() def generate_report(self): pool = Pool() LimsResultReport = pool.get('lims.result_report', type='report') LimsResultReportTranscription = pool.get( 'lims.result_report.transcription', type='report') LimsResultReport.execute([self.id], { 'english_report': self.english_report, }) LimsResultReportTranscription.execute([self.id], { 'english_report': self.english_report, }) def get_date(self, name): pool = Pool() Company = pool.get('company.company') date = self.write_date if self.write_date else self.create_date company_id = Transaction().context.get('company') if company_id: date = Company(company_id).convert_timezone_datetime(date) return date.date() @classmethod def search_date(cls, name, clause): pool = Pool() Company = pool.get('company.company') cursor = Transaction().connection.cursor() timezone = None company_id = Transaction().context.get('company') if company_id: timezone = Company(company_id).timezone timezone_datetime = ('COALESCE(write_date, create_date)::timestamp' ' AT TIME ZONE \'UTC\'') if timezone: timezone_datetime += ' AT TIME ZONE \'' + timezone + '\'' operator_ = clause[1:2][0] cursor.execute('SELECT id ' 'FROM "' + cls._table + '" ' 'WHERE (' + timezone_datetime + ')::date ' + operator_ + ' %s::date', clause[2:3]) return [('id', 'in', [x[0] for x in cursor.fetchall()])] @classmethod def get_version_field(cls, details, names): result = {} for name in names: result[name] = {} for d in details: field = getattr(d.report_version, name, None) result[name][d.id] = field.id if field else None return result @classmethod def search_version_field(cls, name, clause): return [('report_version.' + name,) + tuple(clause[1:])] @classmethod def get_report_field(cls, details, names): result = {} for name in names: result[name] = {} if name in ('cie_fraction_type', 'english_report'): for d in details: field = getattr(d.report_version.results_report, name, False) result[name][d.id] = field else: for d in details: field = getattr(d.report_version.results_report, name, None) result[name][d.id] = field.id if field else None return result @classmethod def search_report_field(cls, name, clause): return [('report_version.results_report.' + name,) + tuple(clause[1:])] @classmethod def get_create_date2(cls, details, name): result = {} for d in details: create_date = getattr(d, 'create_date', None) result[d.id] = (create_date.replace(microsecond=0) if create_date else None) return result @classmethod def search_create_date2(cls, name, clause): cursor = Transaction().connection.cursor() operator_ = clause[1:2][0] cursor.execute('SELECT id ' 'FROM "' + cls._table + '" ' 'WHERE create_date' + operator_ + ' %s', clause[2:3]) return [('id', 'in', [x[0] for x in cursor.fetchall()])] @classmethod def order_create_date2(cls, tables): return cls.create_date.convert_order('create_date', tables, cls) @classmethod def get_write_date2(cls, details, name): result = {} for d in details: write_date = getattr(d, 'write_date', None) result[d.id] = (write_date.replace(microsecond=0) if write_date else None) return result @classmethod def search_write_date2(cls, name, clause): cursor = Transaction().connection.cursor() operator_ = clause[1:2][0] cursor.execute('SELECT id ' 'FROM "' + cls._table + '" ' 'WHERE write_date' + operator_ + ' %s', clause[2:3]) return [('id', 'in', [x[0] for x in cursor.fetchall()])] @classmethod def order_write_date2(cls, tables): return cls.write_date.convert_order('write_date', tables, cls) @classmethod def delete(cls, details): cls.check_delete(details) super(LimsResultsReportVersionDetail, cls).delete(details) @classmethod def check_delete(cls, details): for detail in details: if detail.state != 'draft': cls.raise_user_error('delete_detail') @classmethod def get_fraction_comments(cls, details, name): result = {} for d in details: result[d.id] = None notebook = getattr(d.report_version.results_report, 'notebook', None) if notebook: result[d.id] = getattr(notebook, 'fraction_comments') return result @classmethod def view_attributes(cls): return [ ('/tree', 'colors', If(Len(Eval('fraction_comments')) > 0, 'blue', 'black')), ] class LimsResultsReportVersionDetailLine(ModelSQL, ModelView): 'Results Report Version Detail Line' __name__ = 'lims.results_report.version.detail.line' _table = 'lims_results_report_version_detail_l' report_version_detail = fields.Many2One( 'lims.results_report.version.detail', 'Report Detail', required=True, ondelete='CASCADE', select=True) notebook_line = fields.Many2One('lims.notebook.line', 'Notebook Line', required=True) notebook = fields.Function(fields.Many2One('lims.notebook', 'Laboratory notebook'), 'get_nline_field') party = fields.Function(fields.Many2One('party.party', 'Party'), 'get_nline_field') analysis = fields.Function(fields.Many2One('lims.analysis', 'Analysis'), 'get_nline_field') repetition = fields.Function(fields.Integer('Repetition'), 'get_nline_field') start_date = fields.Function(fields.Date('Start date'), 'get_nline_field') end_date = fields.Function(fields.Date('End date'), 'get_nline_field') laboratory = fields.Function(fields.Many2One('lims.laboratory', 'Laboratory'), 'get_nline_field') method = fields.Function(fields.Many2One('lims.lab.method', 'Method'), 'get_nline_field') device = fields.Function(fields.Many2One('lims.lab.device', 'Device'), 'get_nline_field') analysis_origin = fields.Function(fields.Char('Analysis origin'), 'get_nline_field') urgent = fields.Function(fields.Boolean('Urgent'), 'get_nline_field') priority = fields.Function(fields.Integer('Priority'), 'get_nline_field') report_date = fields.Function(fields.Date('Date agreed for result'), 'get_nline_field') result_modifier = fields.Function(fields.Selection([ ('eq', '='), ('low', '<'), ('nd', 'nd'), ('na', 'na'), ('pos', 'Positive'), ('neg', 'Negative'), ('ni', 'ni'), ('abs', 'Absence'), ('pre', 'Presence'), ], 'Result modifier'), 'get_nline_field') converted_result_modifier = fields.Function(fields.Selection([ ('eq', '='), ('low', '<'), ('nd', 'nd'), ('na', 'na'), ('pos', 'Positive'), ('neg', 'Negative'), ('ni', 'ni'), ], 'Converted result modifier'), 'get_nline_field') result = fields.Function(fields.Char('Result'), 'get_nline_field') converted_result = fields.Function(fields.Char('Converted result'), 'get_nline_field') initial_unit = fields.Function(fields.Many2One('product.uom', 'Initial unit'), 'get_nline_field') final_unit = fields.Function(fields.Many2One('product.uom', 'Final unit'), 'get_nline_field') comments = fields.Function(fields.Text('Entry comments'), 'get_nline_field') literal_result = fields.Function(fields.Char('Literal result'), 'get_nline_field') @classmethod def get_nline_field(cls, details, names): result = {} for name in names: result[name] = {} if name in ('notebook', 'party', 'analysis', 'laboratory', 'method', 'device', 'initial_unit', 'final_unit'): for d in details: field = getattr(d.notebook_line, name, None) result[name][d.id] = field.id if field else None else: for d in details: result[name][d.id] = getattr(d.notebook_line, name, None) return result class LimsSampleProducer(ModelSQL, ModelView): 'Sample Producer' __name__ = 'lims.sample.producer' party = fields.Many2One('party.party', 'Party', required=True) name = fields.Char('Name', required=True) class LimsPlanification(ModelSQL): 'Planification' __name__ = 'lims.planification'