Commit 5393b61d authored by Thomas Bernard's avatar Thomas Bernard

new ScribusUtils release, with many code improvement and refactoring, support...

new ScribusUtils release, with many code improvement and refactoring, support for new Scribus Document format (1.3.*), support for more kind of field, etc.

git-svn-id: https://svn.erp5.org/repos/public/erp5/trunk@8343 20353a03-c40f-0410-a6d1-a30d3c3de9de
parent 51de569e
......@@ -23,11 +23,12 @@
# This code is under refactoring. This code will change in near future
# with a lot of cleanups. This is stored only for a temporary purpose.
# Do not rely on the real implementation. It is assumed that the code is
# improved and modified significantly by thomas.
# improved and modified significantly.
# UPDATE => the code is almost refactored and supports
from Products.PythonScripts.Utility import allow_class
from ZPublisher.HTTPRequest import FileUpload
from xml.dom.ext.reader import PyExpat
#from xml.dom.ext.reader import PyExpat
from xml.dom import Node, minidom
from AccessControl import ClassSecurityInfo
from Globals import InitializeClass, get_request
......@@ -39,11 +40,1046 @@ import random
import getopt, sys, os
from urllib import quote
from Products.ERP5.ERP5Site import ERP5Site
# defining global variables
# ANFLAG tag
# these values can be found in the Scribus document format
# (www.scribus.org.uk)
def_noScroll = '8388608'
def_noSpellCheck = '4194304'
def_editable = '262144'
def_password = '8192'
def_multiLine = '4096'
def_noExport = '4'
def_required = '2'
def_readOnly = '1'
# SCRIPT CONFIGURATION
# define if the script uses personal properties or create a
# PropertySheet and a Document model to save data.
# used in 'setPropertySheetAndDocument', 'setObjectPortalType'
# and 'setPDFForm'
def_usePropertySheet = 0
class ManageModule:
"""
Manage the module that will contain the form
"""
security = ClassSecurityInfo()
security.declarePublic('setObjectNames')
def setObjectNames(self, object_portal_type_id, object_title):
"""
initialize object names view_pdf, view_list, etc. to be able
to create correctly all objects in the module.
return a dict of names.
"""
temp_portal_type = object_portal_type_id.replace(' ','')
object_names = {}
# declaring object that generate pdf output
object_names['view_pdf'] = temp_portal_type + '_view' +\
temp_portal_type + 'AsPdf'
# declaring form to list the objects of a module
object_names['view_list'] = object_title.replace(' ','') +\
'Module_view' + temp_portal_type + 'List'
# declaring main object form
object_names['view_id'] = temp_portal_type + '_view'
# declaring object that holds the CSS data
object_names['css'] = temp_portal_type + '_css.css'
# declaring object name containing the background pictures
object_names['page'] = temp_portal_type + '_background_'
# return object declaration
return object_names
security.declarePublic('setSkinFolder')
def setSkinFolder(self,
portal,
portal_skins_folder):
"""
create and manage skin folder according to the skin folder
name specified by the user (as portal_skin_folder).
returns skin_folder, recovered from portal.portal_skins
"""
portal_skins_folder_name = portal_skins_folder
portal_skins = portal.portal_skins
if not portal_skins_folder_name in portal.portal_skins.objectIds():
# create new folder if does not exist yet
portal_skins.manage_addFolder(portal_skins_folder_name)
skin_folder = portal.portal_skins[portal_skins_folder_name]
for skin_name, selection in portal_skins.getSkinPaths():
selection = selection.split (',')
if portal_skins_folder_name not in selection:
new_selection = [portal_skins_folder_name,]
new_selection.extends(selection)
portal_skins.manage_skinLayers(skinpath = tuple(new_selection),
skin_name = skin_name,
add_skin = 1)
return skin_folder
security.declarePublic('setModuleForm')
def setModuleForm(self,
object_title,
skin_folder,
#portal,
#portal_skins_folder,
form_view_list,
module_title,
module_id,
def_lineNumberInList
):
"""
Manage ERP5 Form to handle and view the Module. then process
the list inside this form. This procedure does not need to
parse the scribus file as the ModuleForm is always present
and generated the same way
returns nothing
"""
# the form is already existing and has been created through
# setERP5Form. getting form object to update properties
form_view_list_object = skin_folder[form_view_list]
form_list_id = form_view_list_object.id
form_list = form_view_list_object.restrictedTraverse(form_list_id)
# defining groups for objects listing
form_view_list_object.rename_group('Default','left')
default_groups = ['right','center','bottom','hidden']
# adding groups
for group in default_groups:
form_view_list_object.add_group(group)
# defining module title
title_module = ''
for word in module_title.split():
title_module += str(word.capitalize() + ' ')
# add listbox field to list the created objects
id = 'listbox'
title = title_module
field_type = 'ListBox'
form_view_list_object.manage_addField(id,title,field_type)
# manage ListBox settings
values_settings = {}
values_settings['pt'] = "form_list"
values_settings['action'] = "Base_doSelect"
# set the form settings
for key, value in values_settings.items():
setattr(form_view_list_object, key, value)
# manage edit property of ListBox
field_attributes = getattr(form_view_list_object,id)
field_attributes.values['lines'] = def_lineNumberInList
# adding field columns
field_attributes.values['columns'] = [('id','ID'),
('title','Title'),
('description','Description')]
field_attributes.values['list_action'] = 'list'
field_attributes.values['search'] = 1
field_attributes.values['select'] = 1
field_attributes.values['list_method'] = 'searchFolder'
field_attributes.values['selection_name'] = '%s_selection' % module_id
security.declarePublic('setObjectForm')
def setObjectForm(self,
skin_folder,
object_names,
option_html,
global_properties,
object_portal_type,
):
"""
create and manage erp5 form to handle object, and update its
properties (groups, values, etc.)
return list of groups in form (used afterwards when creating
fields).
"""
# getting form object
form_view_id_object = skin_folder[object_names['view_id']]
form_id = form_view_id_object.id
form = form_view_id_object.restrictedTraverse(form_id)
# managing form groups
default_groups = []
if option_html !=1:
# using default ERP5 positioning convention
# based on 'left'/'right'/etc.
default_groups = ['left','right','center','bottom','hidden']
else:
# using special page positioning convention for
# pdf-like rendering
for page_iterator in range(global_properties['page']):
page_number = 'page_%s' % str(page_iterator)
default_groups.append(page_number)
# default_groups list completed, need to update the form_groups
# renaming form default group with list's first item
form_view_id_object.rename_group('Default',
default_groups[0]
)
# adding all other items
for group in default_groups[0:]:
form_view_id_object.add_group(group)
# updating form settings
# building dict containing (property, value)
values = {}
values['title'] = str(object_portal_type)
values['row_length'] = 4
values['name'] = object_names['view_id']
if option_html ==1:
# this is the name of the new form, compatible either with html_style
# and xhtml_style.
values['pt'] = "form_render_PDFeForm"
else:
values['pt'] = "form_view"
values['action'] = "Base_edit"
values['update_action'] = ""
values['method'] = 'POST'
values['enctype'] = 'multipart/form-data'
values['encoding'] = "UTF-8"
values['stored_encoding'] = 'UTF-8'
values['unicode_mode'] = 0
# using the dict declared just above to set the attributes
for key, value in values.items():
setattr(form,key,value)
return default_groups
security.declarePublic('setFieldsInObjectForm')
def setFieldsInObjectForm(self,
skin_folder,
object_names,
default_groups,
global_properties,
option_html
):
"""
create fields in form according to the page_objects
recovered from the scribus document file. fields are
then moved to their corresponding group, and are given
their properties
"""
form_view_id_object = skin_folder[object_names['view_id']]
# iterating field a first time to get creation order
# based on the 'nb' value
field_nb_dict = {}
# this dict will handle all the information about the field_names and
# their creation order (field_nb).
if option_html :
# render is PDF-like, need to take care of the page holding the field
for field_id in global_properties['object'].keys():
field_nb = int(global_properties['object'][field_id]['nb'])
#field_order = global_properties['object'][field_id]['order']
field_order = \
int(global_properties['object'][field_id]['order'].split('page_')[1])
# creating sub dict if does not exist yet
if field_order not in field_nb_dict:
field_nb_dict[field_order] = {}
field_nb_dict[field_order][field_nb] = field_id
# now field_nb_dict holds all the information about the
# fields and their creation order: just need to create
# them.
for field_order_id in field_nb_dict.keys():
# iterating pages
for field_nb in range(len(field_nb_dict[field_order_id].keys())):
field_id = field_nb_dict[field_order_id][field_nb + 1]
# recovering field information
field_values = global_properties['object'][field_id]
field_type = field_values['erp_type']
field_title = field_values['title']
field_order = field_values['order']
# creating new field in form
form_view_id_object.manage_addField(field_id,
field_title,
field_type)
# move fields to destination group
form_view_id_object.move_field_group(field_id,
default_groups[0],
field_order)
# recover field
access_field = getattr(form_view_id_object,field_id)
#if field_type == 'CheckBoxField':
# print " dir(%s) > %s" % (field_id,dir(access_field))
# print "---manage_tales > %s \n\n" % dir(access_field.manage_tales)
# print "---manage_talesForm > %s \n\n" % \
# dir(access_field.manage_talesForm)
# print "---manage_talesForm__roles__ > %s\n\n " % \
# dir(access_field.manage_talesForm__roles__)
# print "---manage_tales__roles__ > %s" % \
# dir(access_field.manage_tales__roles__)
# print "--- 5 > %s" % dir(access_field.manage_tales_xmlrpc)
# print "--- 6 > %s" % \
# dir(access_field.manage_tales_xmlrpc__roles__)
else:
# rendering as basic ERP5 form : processing all
# fields without taking care of their 'order'.
for field_id in global_properties['object'].keys():
field_nb = int(global_properties['object'][field_id]['nb'])
if field_nb in field_nb_dict.keys():
# field_nb is already used by another field. this can appen
# when there are several pages in the document. In such case
# the script find automatically the closest available value.
print " can not add %s to dict : %s already used by %s " % \
(field_id,field_nb,field_nb_dict[field_nb])
field_nb = field_nb +1
while field_nb in field_nb_dict.keys():
# trying next value
field_nb = field_nb + 1
print " add %s to %s" % (field_id,field_nb)
# value is available, no problem to link field_id to this field_nb
field_nb_dict[field_nb] = field_id
for field_nb in range(len(field_nb_dict.keys())):
field_nb = field_nb +1
field_id = field_nb_dict[field_nb]
# recovering field information
field_values = global_properties['object'][field_id]
field_type = field_values['erp_type']
field_title = field_values['title']
field_order = field_values['order']
# create field
form_view_id_object.manage_addField(field_id,
field_title,
field_type)
# move field to relative group
form_view_id_object.move_field_group(field_id,
default_groups[0],
field_order)
# field creation is complete
form_id = form_view_id_object.id
form = form_view_id_object.restrictedTraverse(form_id)
# updating field properties
# iterating fields
for field_id in global_properties['object'].keys():
field_attributes = getattr(form,field_id)
#print " %s => %s" % (field_id,field_attributes.values.keys())
for attr_id, attr_val in \
global_properties['object'][field_id]['attributes'].items():
field_attributes.values[attr_id] = attr_val
security.declarePublic('setModulePortalType')
def setModulePortalType(self,portal_types,
object_portal_type_id,
module_portal_type,
object_names):
"""
set portal_type for the module containing objects.
returns nothing
"""
portal_types.manage_addTypeInformation('ERP5 Type Information'
,typeinfo_name = 'ERP5Type: ERP5 Folder'
,id = module_portal_type)
# getting portal_type access to be able to modify attributes
module_portal_type_value = portal_types[module_portal_type]
# set alowed content type
module_portal_type_value.allowed_content_types = (object_portal_type_id,)
module_portal_type_value.filter_content_types = 1
# making a list of all the portal_type actions to be able to delete them
action_list = module_portal_type_value.listActions()
# cleaning all portal_types actions
module_portal_type_value.deleteActions(
selections = range(0, len(action_list)))
# adding usefull actions (in our case the view action)
module_portal_type_value.addAction( "view"
, "View"
, "string:${object_url}/%s"%object_names['view_list']
, ""
, "View"
, "object_view"
)
security.declarePublic('setObjectPortalType')
def setObjectPortalType(self,
portal_types,
object_portal_type_id,
object_portal_type,
object_names):
name = ''
if def_usePropertySheet:
# generating 'typeinfo_name' property for the new portal type.
# if class exists, then using it, otherwize using default ERP5
# Document type.
name = 'ERP5Type: ERP5 ' + object_portal_type # use with PropertySheet
else:
name = 'ERP5Type: ERP5 Document' # use with local properties
portal_types.manage_addTypeInformation('ERP5 Type Information',
typeinfo_name = name,
id = object_portal_type_id)
object_portal_type_value = portal_types[object_portal_type_id]
# cleaning all default actions
action_list = object_portal_type_value.listActions()
object_portal_type_value.deleteActions(
selections = range(0, len(action_list)))
# adding usefull actions (in our case the view action)
object_portal_type_value.addAction( "view",
"View",
"string:${object_url}/%s" % object_names['view_id'],
"",
"View",
"object_view"
)
object_portal_type_value.addAction( "print"
, "Print"
, "string:${object_url}/%s" % object_names['view_pdf']
, ""
, "View"
, "object_print"
)
object_portal_type_value.addAction( "history"
, "History"
, "string:${object_url}/Base_viewHistory"
, ""
, "View"
, "object_view"
)
object_portal_type_value.addAction( "metadata"
, "Metadata"
, "string:${object_url}/Base_viewMetadata"
, ""
, "Manage properties"
, "object_view"
)
security.declarePublic('registerModule')
def registerModule(self,
portal,
module_id,
module_portal_type,
object_portal_type):
"""
register Module inside ERP5 instance
"""
title_module = ''
for word in object_portal_type.split():
title_module += str(word.capitalize() + ' ')
portal.newContent( id = str(module_id),
portal_type = str(module_portal_type),
title = title_module)
class ManageFiles:
"""
Manages PDF file, by importing the PDF document and then getting
the TALES expressions
"""
security = ClassSecurityInfo()
security.declarePublic('setERP5Form')
def setERP5Form(self,
factory,
form_name,
form_title):
"""
create an ERP5 Form by using the factory
"""
factory.addERP5Form(form_name,
form_title)
security.declarePublic('setCSSFile')
def setCSSFile(self,
factory,
form_css_id,
form_css_content,
):
"""
create an ERP5 DTML Document in the folder related
to factory and save the content of the CSS string
"""
factory.addDTMLDocument(form_css_id,"css",form_css_content)
security.declarePublic('importFile')
def setPDFForm(self,
factory,
skin_folder,
object_names,
object_title,
pdf_file
):
"""
imports PDF file as a PDFForm in ERP5 and updates its TALES
expressions
"""
pdf_file.seek(0)
factory.addPDFForm(object_names['view_pdf'],object_title,pdf_file)
# iterating objects in skin_folder
for c in skin_folder.objectValues():
if c.getId() == object_names['view_pdf']:
# current object is PDF Form
cell_name_list = c.getCellNames()
for cell_name in cell_name_list:
if cell_name[0:3] == 'my_':
cell_process_name_list = []
for word in cell_name[3:].split('_'):
word = word.capitalize()
cell_process_name_list.append(word)
if def_usePropertySheet == 1:
# generating PropertySheet and Document, no need to use them to
# get field data
if cell_process_name_list[-1] == 'List':
TALES = "python: " + ", ".join(
"here.get" + "".join(cell_process_name_list) + "()" )
else:
TALES = "python: here.get" + "".join(
cell_process_name_list) + "()"
else:
# PropertySheet and Document
if cell_process_name_list[-1] == 'List':
TALES = "python: " + ", ".join(
"here.getProperty('" + cell_name[3:] + "')")
else:
TALES = "python: here.getProperty('" + cell_name[3:] +"')"
print " %s > %s " % (cell_name,TALES)
c.setCellTALES(cell_name,TALES)
security.declarePublic('setBackgroundPictures')
def setBackgroundPictures(self,
pdf_file,
object_names,
skin_folder
):
"""
extract background pictures from pdf file and convert them
in the right format (JPEG) and save them in the corresponding
folder (skin_folder).
to work, this procedure needs to have pdftoppm (from Xpdf)
and convert (from ImageMagick) installed on the server
otherwise nothing is created.
Temp files are created in the '/tmp/' folder, and are deleted
once the job is done.
At the end, get the properties (size_x, size_y) of the first
image (i.e page_0) and returns them.
"""
import commands
# opening new file on HDD to save PDF content
temp_pdf = open('/tmp/ScribusUtilsTempPDF','w')
# going to the begining of the input file
pdf_file.seek(0)
# saving content
temp_pdf.write(pdf_file.read())
temp_pdf.close()
# launching first soft to convert from PDF to PPM
result = commands.getstatusoutput( \
'pdftoppm -r 72 /tmp/ScribusUtilsTempPDF /tmp/ScribusUtilsTempPPM')
# launching second soft to convert from PPM to JPEG
result = commands.getstatusoutput( \
'convert /tmp/ScribusUtilsTempPPM* jpg:/tmp/ScribusUtilsTempJPG')
# getting list of JPG output files
result = commands.getstatusoutput( \
'ls /tmp/ | grep ScribusUtilsTempJPG')
image_number = 0
if result[1] != '':
# result[1] contains the output string from the command,
# in our case the result of the ls.
# splitting this string to get the list of objects
for image in result[1].split('\n'):
temp_jpg = open('/tmp/%s' % image, 'r')
form_page_id = object_names['page'] + str(image_number)
addImage = skin_folder.manage_addProduct['OFSP'].manage_addImage
addImage(form_page_id,temp_jpg,"background image")
image_number += 1
# deleting all temporary files
result = commands.getstatusoutput('rm -f /tmp/ScribusUtilsTemp*')
# open page_0's final background picture to recover size_x and size_y
final_image = getattr(skin_folder, object_names['page'] + '0')
size_x = final_image.getProperty('height')
size_y = final_image.getProperty('width')
# return size
#print size_x
#print size_y
return (size_x, size_y)
security.declarePublic('setPropertySheetAndDocument')
def setPropertySheetAndDocument(self,
global_properties,
object_portal_type,
generator,
skin_folder,
object_names
):
"""
recover personal properties from dict global_properties
and save them in a propertysheet
then create the Document related to the object.
PropertySheetRegistry and DocumentRegistry have to be
reinitialized after this procedure has been called.
"""
if def_usePropertySheet:
print " object_names = %s" % object_names['view_id']
#property_form = getattr(skin_folder,object_names['view_id'])
# defining file name for Property Sheet
name_file =''
for word in object_portal_type.split():
name_file += word.capitalize()
# building list containing properties
personal_properties_list = []
for field_id in global_properties['object'].keys():
if field_id.startswith('my_') and not (
field_id.startswith('my_source') or
field_id.startswith('my_destination') or
field_id in ('my_start_date','my_stop_date')):
field_type = global_properties['object'][field_id]['data_type']
field_default = global_properties['object'][field_id]['default']
personal_properties = { 'id' : field_id[3:],
'description' : '',
'type' : field_type,
'mode' : 'w'}
## FOLLOWING QUOTED LINES CAN BE DELETED IF NOT USES
## just left in case : can be usefull to create a smart
## script that would be able to automatically create the
## local properties and associate them the good type (int,
## string, float, date, etc.)
#print " (field_id,field_default_value,field_type) = \
# (%s,%s,%s) " % (field_id[3:], field_default, field_type)
#property_form.manage_addProperty(field_id[3:],
# field_default,
# field_type)
personal_properties_list.append(personal_properties)
# the following lines create the PropertySheet and the Document for the
# new object. Must be uncoted when such files are needed, in such case
# you must also specify Document type to comply with class declared in
# the Document. For that see 'setObjectPortalType' method
## generate PropertySheet
generator.generateLocalPropertySheet(name_file,personal_properties_list)
## generate Document
generator.generateLocalDocument(name_file,object_portal_type)
class ManageCSS:
"""
Manages all CSS information to generate the css file used in the
PDF-like rendering
"""
security = ClassSecurityInfo()
security.declarePublic('setInit')
def setInit(self):
"""
initialize various containers (dicts) used to store attributes
in a main dict.
returns global dict containing all the sub-dicts
"""
# declaring dicts used to generate CSS file
# css_dict_head contains all the 'global' class, reffering to PAGE
properties_css_dict_head = {}
# css_dict_standard contains all the fields classes, when no error occurs
properties_css_dict_standard = {}
# css_dict_error contains the same thing, but in case error occurs.
# there background is different so that users can see where the problem
# is on the graphic view
properties_css_dict_error = {}
# css_dict_err_d contains coordinates and color to display text-error
properties_css_dict_err_d = {}
# declaring main container for all sub_dicts
properties_css_dict = {}
properties_css_dict['head'] = properties_css_dict_head
properties_css_dict['standard'] = properties_css_dict_standard
properties_css_dict['error'] = properties_css_dict_error
properties_css_dict['err_d'] = properties_css_dict_err_d
# return dict
return properties_css_dict
security.declarePublic('setPageProperties')
def setPageProperties(self
,properties_css_dict
,page_iterator
,page_id
,page_height):
"""
recover all CSS data relative to the current page and save these
information in the output dict
"""
# Processing current page for CSS data
# getting properties
properties_css_page = {}
properties_css_page['position'] = 'relative'
# creating image class for background
properties_css_background = {}
# making background id
background_id = page_id + '_background'
#getting properties
properties_css_background['position'] = 'absolute'
#creating corresponding page group to form
if page_iterator == 0:
# margin-top = 0 (first page)
properties_css_page['margin-top'] = "0px"
else:
# margin-top = page height
properties_css_page['margin-top'] = "%spx" % (page_height + 20)
# adding properties dict to global dicts
properties_css_dict['head'][page_id] = properties_css_page
properties_css_dict['head'][background_id] = properties_css_background
# return updated dict
return properties_css_dict
security.declarePublic('setFieldProperties')
def setFieldProperties(self
,properties_css_dict
,field
,page_width
,page_height
,page_iterator
,page_gap
,keep_page):
"""
recover all CSS data relative to the current page_object (field)
and save these informations in the output dict
"""
(field_name, properties_field) = field
print " => %s : %s" % (field_name,properties_field['rendering'])
# updating field properties if necessary
if keep_page == 1:
# document format is 1.3.* and define object position from the top-left
# corner of the first page, whereas the field position is expected to
# be found from the current's page top left corner.
# that's why Y position must be updated
properties_field['position_y'] = \
str(float(properties_field['position_y']) - \
(page_height + page_gap)* page_iterator)
# Processing object for CSS data
# declaring dict containing all css data
# _stand for general display
field_dict = {}
properties_css_object_stand = {}
# _error when an error occurs
properties_css_object_error = {}
# _err_d to diplay the text error
properties_css_object_err_d = {}
#defining global properties
properties_css_object_stand['position'] = 'absolute'
properties_css_object_error['position'] = 'absolute'
properties_css_object_err_d['position'] = 'absolute'
properties_css_object_stand['padding'] = '0px'
properties_css_object_error['padding'] = '0px'
properties_css_object_err_d['padding'] = '0px'
# getting field height
properties_css_object_stand['height'] = \
str(properties_field['size_y']) + 'px'
properties_css_object_error['height'] = \
str(properties_field['size_y']) + 'px'
# defining font-size from height - 2 (this value seems to have a good
# rendering on Mozilla and Konqueror)
# do not match for TextArea (as it is a multiline object)
if properties_field['type'] != 'TextAreaField':
properties_css_object_stand['font-size'] = \
str(int(properties_field['size_y']) - 2) + 'px'
properties_css_object_error['font-size'] = \
str(int(properties_field['size_y']) - 2) + 'px'
# getting field position
properties_css_object_err_d['margin-left'] = str(page_width + 20 ) + 'px'
properties_css_object_stand['margin-top'] = \
str(properties_field['position_y']) + 'px'
properties_css_object_error['margin-top'] = \
str(properties_field['position_y']) + 'px'
properties_css_object_err_d['margin-top'] = \
str(properties_field['position_y']) + 'px'
# adding special text_color for text error
properties_css_object_err_d['color'] = 'rgb(255,0,0)'
# then getting additional properties
if properties_field['required'] ==1:
# field is required: using special color
# color is specified as light-blue when standard
# color = 'green' when error
properties_css_object_stand['background'] = 'rgb(192,192,255)'
properties_css_object_error['background'] = 'rgb(128,128,255)'
else:
properties_css_object_stand['background'] = '#F6FFFF'
properties_css_object_error['background'] = 'rgb(255,64,64)'
# add completed properties (in our case only the class rendering the text
# beside an error) to the return dict
properties_css_dict['err_d'][field_name] = properties_css_object_err_d
# the following variable take the number of field to render for this object
field_nb = 1
# now processing special rendering
if properties_field['rendering']=='single':
# single rendering (like StringField, TextArea, etc.).
# Do not need any special treatment
properties_css_object_stand['width'] = \
str(properties_field['size_x']) + 'px'
properties_css_object_error['width'] = \
str(properties_field['size_x']) + 'px'
properties_css_object_stand['margin-left'] = \
str(properties_field['position_x']) + 'px'
properties_css_object_error['margin-left'] = \
str(properties_field['position_x']) + 'px'
# in case of checkboxfield, '_class_2' is used because field is rendered
# as two fields, the first one hidden. (supports xhtml_style)
# UPDATE : modified because need to keep compatibility with html_style
#if properties_field['type'] == 'CheckBoxField':
# field_id = field_name + '_class_2'
#else:
field_id = field_name + '_class'
# adding all these properties to the global dicts
properties_css_dict['standard'][field_id] = properties_css_object_stand
properties_css_dict['error'][field_id] = properties_css_object_error
else:
sub_field_dict = {}
field_dict = {}
if properties_field['type'] == 'RelationStringField':
# rendering a relationStringField, based on two input areas
# processing rendering of the two input fields. for that
# each has to be evaluated and the values will be saved in
# a dict
# uptading number of fields to render
field_nb = 2
#field_1 = field_name + '_class_1'
# processing main StringField
field_dict[1] = {}
field_dict[1]['width'] = \
str(int(properties_field['size_x']) / 2) + 'px'
field_dict[1]['margin-left'] = \
str(properties_field['position_x']) + 'px'
# processing secondary input picture
field_dict[2] = {}
field_dict[2]['width'] = str(int(properties_field['size_x']) /2) + 'px'
field_dict[2]['margin-left'] = \
str(int(properties_field['size_x']) /2 +\
int(properties_field['position_x'])) + 'px'
elif properties_field['type'] == 'DateTimeField':
# rendering DateTimeField, composed at least of three input
# areas, and their order can be changed
print " Type DateTimeField"
# getting the number of fields to render and their size unit
if properties_field['date_only'] == '0':
print " Option : Not Date Only"
field_nb = 5
# defining counting unit for fields
# total = 6.1 units:
# 2 > year
# 1 > month
# 1 > day
# 0.1 > space between date and time
# 1 > hour
# 1 > minutes
width_part = int(float(properties_field['size_x']) / 6.1)
else:
print " Option : Date Only"
field_nb = 3
# same as before but without hours and minutes
width_part = int(float(properties_field['size_x']) / 4)
print " input_order=%s" % properties_field['input_order']
# defining global field rendering (for Date), ignoring for the moment
# the whole part about the time
if properties_field['input_order'] in \
['day/month/year','dmy','month/day/year','mdy']:
# specified input order. must be dd/mm/yyyy or mm/dd/yyyy (year is
# the last field).
# processing first field
field_dict[1] = {}
field_dict[1]['width'] = str(width_part) + 'px'
field_dict[1]['margin-left'] = \
str(properties_field['position_x']) + 'px'
# processing second field
field_dict[2] = {}
field_dict[2]['width'] = str(width_part) + 'px'
field_dict[2]['margin-left'] = \
str(int(properties_field['position_x']) + width_part) + 'px'
# processing last field
field_dict[3] = {}
field_dict[3]['width'] = str(width_part*2) + 'px'
field_dict[3]['margin-left'] = \
str(int(properties_field['position_x']) + width_part*2) + 'px'
else:
# all other cases, including default one (year/month/day)
width_part = int(int(properties_field['size_x']) / 4)
# processing year field
field_dict[1] = {}
field_dict[1]['width'] = str(width_part *2) + 'px'
field_dict[1]['margin-left'] = \
str(properties_field['position_x']) + 'px'
# processing second field (two digits only)
field_dict[2] = {}
field_dict[2]['width'] = str(width_part) + 'px'
field_dict[2]['margin-left'] = \
str(int(properties_field['position_x']) + width_part*2) + 'px'
# processing day field
field_dict[3] = {}
field_dict[3]['width'] = str(width_part) + 'px'
field_dict[3]['margin-left'] = \
str(int(properties_field['position_x']) + width_part*3) + 'px'
# rendering time if necessary
if properties_field['date_only'] == '0':
# date is specified
print " position_x=%s" % properties_field['position_x']
print " size_x=%s" % properties_field['size_x']
field_dict[4] = {}
field_dict[4]['width'] = str(width_part) + 'px'
field_dict[4]['margin-left'] = \
str(int(properties_field['position_x']) +\
int(properties_field['size_x']) - width_part*2) + 'px'
field_dict[5] = {}
field_dict[5]['width'] = str(width_part) + 'px'
field_dict[5]['margin-left'] = \
str(int(properties_field['position_x']) +\
int(properties_field['size_x']) - width_part) + 'px'
# number of fields to generate
print "\n field_number = %s" % field_nb
field_nb_range = field_nb + 1
field_range = range(field_nb_range)
field_range = field_range[1:]
for iterator in field_range:
# iterator take the field_id according to the field_nb
# ie (0..field_nb)
#iterator = it + 1
print " sub_field_id=%s" % iterator
class_name = field_name + '_class_' + str(iterator)
print " class_name=%s" % class_name
# managing standard class properties
properties_css_dict['standard'][class_name] = {}
for prop_id in properties_css_object_stand.keys():
# saving global class properties into final dict
properties_css_dict['standard'][class_name][prop_id] = properties_css_object_stand[prop_id]
for prop_id in field_dict[iterator].keys():
# then adding special field properties (usually width and position_x)
properties_css_dict['standard'][class_name][prop_id] = field_dict[iterator][prop_id]
# managing class error properties
properties_css_dict['error'][class_name] = {}
for prop_id in properties_css_object_error.keys():
properties_css_dict['error'][class_name][prop_id] = properties_css_object_error[prop_id]
for prop_id in field_dict[iterator].keys():
properties_css_dict['error'][class_name][prop_id] = field_dict[iterator][prop_id]
# final printing for testing
print "\n\n final printing"
for iterator in field_range:
class_name = field_name + '_class_' + str(iterator)
print " class=%s" % class_name
for prop_id in properties_css_dict['standard'][class_name].keys():
print " prop:%s=%s" % (prop_id,properties_css_dict['standard'][class_name][prop_id])
return properties_css_dict
security.declarePublic('setFinalProperties')
def setFinalProperties(self
,properties_css_dict
,page_height):
"""
adding 'page_end' class to add a div at the end of the last page
in order to display the full last page under Konqueror
Otherwize last page is cut and the user is not able to see the
bottom of the document
"""
properties_css_page = {}
properties_css_page['position'] = 'relative'
properties_css_page['margin-top'] = "%spx" % str( page_height)
properties_css_dict['head']['page_end'] = properties_css_page
return properties_css_dict
security.declarePublic('generateOutputContent')
def generateOutputContent(self
,properties_css_dict
):
"""
return a string containing the whole content of the CSS output
from properties_css_dict
"""
print " createmodule > printing output from css_class_generator"
form_css_content = "/*-- special css form generated through ScribusUtils module --*/\n"
form_css_content += "/*-- to have a graphic rendering with 'form_html' page template --*/\n\n"
form_css_content += "/* head : classes declared for general purpose */\n"
# iterating classes in document's head
for class_name in properties_css_dict['head'].keys():
# getting class properties_dict
class_properties = properties_css_dict['head'][class_name]
# joining exerything
output_string = "." + str(class_name) + " {" \
+ "; ".join(["%s:%s" % (id, val) for id, val in class_properties.items()]) \
+ "}"
# adding current line to css_content_object
form_css_content += output_string + "\n"
form_css_content += "\n/* standard field classes */ \n"
# adding standard classes
for class_name in properties_css_dict['standard'].keys():
class_properties = properties_css_dict['standard'][class_name]
output_string = "." + str(class_name) + " {" \
+ "; ".join(["%s:%s" % (id,val) for id,val in class_properties.items()]) \
+ "}"
form_css_content += output_string + "\n"
form_css_content += "\n/* error field classes */\n"
# adding error classes
for class_name in properties_css_dict['error'].keys():
class_properties = properties_css_dict['error'][class_name]
output_string = "." + str(class_name) + "_error {" \
+ "; ".join(["%s:%s" % (id,val) for id, val in class_properties.items()]) \
+ "}"
form_css_content += output_string + "\n"
form_css_content += "\n/* text_error field classes */ \n"
# adding field error classes
for class_name in properties_css_dict['err_d'].keys():
class_properties = properties_css_dict['err_d'][class_name]
output_string = "." + str(class_name) + "_error_display {" \
+ "; ".join(["%s:%s" % (id,val) for id,val in class_properties.items()]) \
+ "}"
form_css_content += output_string + "\n"
# return final String
return form_css_content
security.declarePublic('createOutputFile')
def createOutputFile(self
,form_css_content
,form_css_id
,factory):
"""
add a new file_object in zope, named form_css_id and containing
the form_css_content
"""
factory.addDTMLDocument(form_css_id,"css",form_css_content)
class ScribusParser:
"""
Parses a Scribus file with PDF-elements inside
Parses a Scribus file (pda) with PDF-elements inside
"""
#declare security
......@@ -55,6 +1091,9 @@ class ScribusParser:
"""
check if 'check_key' exists in 'object_dict' and has a value
if true, then returns this value, else returns 'default_value' and log 'object_name'
This function is used to get attributes'values in an object_dict and to be sure
a compatible value is returned (for that use default value)
"""
#return object_dict.get(check_key, None) or default_value
if object_dict.has_key(check_key):
......@@ -65,147 +1104,184 @@ class ScribusParser:
return object_dict[check_key]
else:
# check_key is null, logging and asigning default value
print " > " + str(object_name) + " has an invalid '" + str(check_key) \
+ "' : using default = " + str(default_value)
LOG("WARNING : " + str(object_name),0,"invalid " + str(check_key) \
+ ": using " + str(default_value))
return default_value
else:
# check_key is null, logging and asigning default value
print " > " + str(object_name) + " has no '" + str(check_key) \
+ "' : using default = " + str(default_value)
LOG("WARNING : " + str(object_name),0,"no " + str(check_key) \
+ ": using " + str(default_value))
return default_value
security.declarePublic('getStringInt')
def getStringInt(self,input_string):
"""
convert a string containing an integer or a long number
into an integer, as should do the int() function (if it
was not crashing when trying to do such a convertion).
This function is used to convert position and size values
to integers to prevent script from crashing.
"""
return int(input_string.split('.')[0])
security.declarePublic('getXmlObjectProperties')
def getXmlObjectsProperties(self, xml_string):
security.declarePublic('getXmlObjectPropertiesDict')
def getXmlObjectsPropertiesDict(self, xml_string):
"""
takes a string containing a whole document and returns
a full dict of 'PAGE', containing a dict of 'PAGEOBJECT',
containing a dict of all the relative attributes
"""
#ERP5 access_type
#Create the PyExpat reader
print "\n => ScibusParser.getXmlObjectProperties"
print " > create reader"
LOG("ScribusUtils",1,"create reader")
reader = PyExpat.Reader()
# Create DOM tree from the xml string
print " > create DOM tree"
dom_tree = reader.fromString(xml_string)
#dom_tree = minidom.parse(xml_string)
##External script acces_type
## testing procedure outside erp5. Put these lines in comment if this
## module is called inside erp5.
#print " => opening socket..."
#sock = open(xml_string)
#print " => reading the whole file..."
#dom_tree = minidom.parse(sock)
#print " => closing socket..."
#sock.close()
dom_tree = minidom.parseString(xml_string)
# creating the root from the input file
# does not depend on the kind of access (w or w/o erp5)
dom_root = dom_tree.documentElement
#making a listing of all the PAGE object
print " > making listing of all PAGE objects"
page_list = dom_root.getElementsByTagName("PAGE")
# Here two cases are possible :
# - if the Scribus Document format is 1.2.* or less, then
# the 'PAGE' contains all its 'PAGEOBJECT' elements so
# - if the Scribus Document format is 1.3.*, then the 'PAGE'
# does not contain any other object, and each 'PAGEOBJECT'
# refers to its relative page_number using its 'OwnPage'
# property
keep_page = 0
if "Version" not in dom_root.attributes.keys():
# no version propery is contained in the document
# the content does not comply with the Scribus document
# specification
print " Bad Scribus document format : no 'Version' property "
return (None,keep_page,0)
else:
version = dom_root.attributes["Version"].value
if version[:3] == "1.2" :
# Scribus document format is 1.2
print " found Scribus document format 1.2"
returned_page_dict = {}
#making a listing of all the PAGE objects
print " > making listing of all PAGE objects"
page_list = dom_root.getElementsByTagName("PAGE")
returned_page_dict = {}
#for each PAGE object, searching for PAGEOBJECT
for page in page_list:
#for each PAGE object, searching for PAGEOBJECT
for page in page_list:
# getting page number
# parsing method from the previous ScribusUtils
page_number = -1
for attribute in page.attributes:
node_name = str(attribute.nodeName)
node_value = str(attribute.nodeValue)
if node_name == 'NUM':
page_number = node_value
# getting page number
# parsing method from the previous ScribusUtils
page_number = -1
if 'NUM' in page.attributes.keys():
page_number = str(page.attributes['NUM'].value)
print " > PAGE NUM=" + str(page_number)
print " > PAGE NUM=" + str(page_number)
# making a listing of all PAGEOBJECT in a specified PAGE
page_object_list = page.getElementsByTagName("PAGEOBJECT")
# making a listing of all PAGEOBJECT in a specified PAGE
page_object_list = page.getElementsByTagName("PAGEOBJECT")
# initialising global output dictionary containing pages of elements
returned_page_object_dict = {}
# initialising global output dictionary containing pages of elements
returned_page_object_list = []
# for each PAGEOBJECT, building dict with atributes
for page_object in page_object_list:
# initialising
returned_page_object = {}
field_name = None
#iterating PAGEOBJECT attributes
#old parsing method emlployed also here
for attribute in page_object.attributes:
node_name = str(attribute.nodeName)
node_value = str(attribute.nodeValue)
# for each PAGEOBJECT, building dict with atributes
for page_object in page_object_list:
#iterating through PAGEOBJECT attributes
#for attribute in page_object.attributes.keys():
# node_name = str(attribute)
# node_value = str(page_object.attributes[attribute].value)
if node_name == 'ANNAME':
if node_value != '':
#if 'PAGEOBJECT' contains an attribute 'ANNAME' not null then
#this value is considered as the 'PAGEOBJECT' name
field_name = node_value.replace(' ','_')
else:
#for others attributes, just adding them to the dictionary as
#standard attributes
# initialising
returned_page_object = {}
field_name = ''
#iterating PAGEOBJECT attributes
#old parsing method employed also here
for node_id in page_object.attributes.keys():
node_name = str(node_id)
node_value = str(page_object.attributes[node_id].value)
returned_page_object[node_name] = node_value
if node_name == 'ANNAME':
if node_value != '':
field_name = node_value.replace(' ','_')
if field_name != None:
#if 'PAGEOBJECT' has a valid name, then adding it to the global
#dictionary containing all the 'PAGEOBJECT' of the 'PAGE'
returned_page_object_dict[field_name] = returned_page_object
print " > PAGEOBJECT = " + str(field_name)
if field_name != '' :
#if 'PAGEOBJECT' has a valid name, then adding it to the global
#dictionary containing all the 'PAGEOBJECT' of the 'PAGE'
returned_page_object_list.append(returned_page_object)
print " > PAGEOBJECT = " + str(field_name)
#after having scanned all 'PAGEOBJECT' from a 'PAGE', adding the
#relatives information to the list of 'PAGE' before going to the next one
#in case the page is not empty
if len(returned_page_object_dict) != 0:
returned_page_dict[page_number] = returned_page_object_dict
#after having scanned all 'PAGEOBJECT' from a 'PAGE', adding the
#relative informations to the list of 'PAGE' before going to the next one
#in case the page is not empty
if len(returned_page_object_list) != 0:
returned_page_dict[page_number] = returned_page_object_list
print "=> end ScribusParser.getXmlObjectPropertiesDict"
return (returned_page_dict,keep_page,0)
# end parsing document version 1.2.*
else:
print " found Scribus Doucment format 1.3"
# assuming version is compliant with 1.3.* specifications
keep_page = 1
print "=> end ScribusParser.getXmlObjectProperties"
return returned_page_dict
# first of all getting DOCUMENT element to recover Scratch coordinates
document_list = dom_root.getElementsByTagName("DOCUMENT")
scratch_left = int(float(document_list[0].attributes["ScratchLeft"].value))
scratch_top = int(float(document_list[0].attributes["ScratchTop"].value))
page_gap = int(float(document_list[0].attributes["BORDERTOP"].value))
print " DOCUMENT > scratch_left = %s scratch_top = %s" % (scratch_left,scratch_top)
#page_list = dom_root.getElementsByTagName("PAGE")
page_object_list = dom_root.getElementsByTagName("PAGEOBJECT")
# iterating 'PAGE' to build the first layer of the output structure
#for page in page_list:
# page_number = page
# iterating 'PAGEOBJECT' to check compatibility (need a 'ANNAME' property)
# and recover the related 'PAGE'
returned_page_dict = {}
for page_object in page_object_list:
returned_page_object = {}
field_name = ''
field_OwnPage = ''
# iterating field attributes
for node_id in page_object.attributes.keys():
node_name = str(node_id)
node_value = str(page_object.attributes[node_id].value)
if node_name == 'ANNAME':
if node_value != '':
field_name = node_value.replace(' ','_')
print "> found field : %s" % field_name
elif node_name == 'OwnPage':
field_OwnPage = node_value
elif node_name == 'XPOS':
print " > updating Xpos : %s - %s = %s" % (scratch_left+int(float(node_value)),scratch_left,node_value)
node_value = str(int(float(node_value)) - scratch_left)
elif node_name == 'YPOS':
print " > updating Ypos : %s - %s = %s" % (scratch_top+int(float(node_value)),scratch_top,node_value)
node_value = str(int(float(node_value)) - scratch_top)
returned_page_object[node_name] = node_value
if field_name != '':
print " > field has the name : %s" % field_name
# field seems to be ok, just need to check if the related page
# already exists in the 'returned_page_dict'
if not field_OwnPage in returned_page_dict.keys():
# page does not exists, need to create it before adding the field
print " > adding new page"
returned_page_dict[field_OwnPage] = []
returned_page_dict[field_OwnPage].append(returned_page_object)
return (returned_page_dict,keep_page,page_gap)
security.declarePublic('getPropertiesConversion')
def getPropertiesConversion(self, text_page_dict):
security.declarePublic('getPropertiesConversionDict')
def getPropertiesConversionDict(self, text_page_dict):
"""
takes a dict generated from 'getXmlObjectsProperties' method and returns a
dict of PAGE including a list with usefull 'PAGEOBJECT' attributes updated
with standard attributes and special informations contained in the
takes a dict generated from 'getXmlObjectsProperties' method
and returns a dict of PAGE including a list with usefull
'PAGEOBJECT' attributes updated with standard attributes
and special informations contained in the
'ANTOOLTIP' attribute.
usefull attributes are
......@@ -234,7 +1310,7 @@ class ScribusParser:
# content = page_content
page_content = text_page_dict[page_number]
print " => PAGE = " + str(page_number)
print " => PAGE = %s" % str(page_number)
# declaring special lists used to generate nb for all objects
# this 'nb' property is usefull to define the object creation order
......@@ -248,39 +1324,45 @@ class ScribusParser:
# if page_content.haskey('my_fax_field')
# print "my_fax_field"
for object_name in page_content.keys():
for object_data in page_content:
# iterating through 'PAGEOBJECT' of the page
# id = object_name
# content = object_content
object_content = page_content[object_name]
object_name = object_data['ANNAME']
del object_data['ANNAME']
object_content = object_data
print " => PAGEOBJECT = " + str(object_name)
# recovering other attributes from 'ANTOOLTIP'
text_tooltipfield_properties = object_content['ANTOOLTIP']
# recovering other attributes list (string format) from 'ANTOOLTIP'
text_tooltipfield_properties = \
sp.getObjectTooltipProperty('ANTOOLTIP','',object_name,object_content)
#declaring output file
tooltipfield_properties_dict = {}
#splitting the different attributes
tooltipfield_properties_list = text_tooltipfield_properties.split('#')
tooltipfield_properties_list = \
text_tooltipfield_properties.split('#')
print " " + str(tooltipfield_properties_list)
# test if first argument is nb according to previous naming-conventions
# i.e composed of three digits without id 'nb:' written
# test if first argument is nb according to previous
# naming-conventions i.e composed of three digits without
# id 'nb:' written
if str(tooltipfield_properties_list[0]).isdigit():
# first value of tooltilfield is digit : assuming this is an creation-order
# information compliant with the previous naming convention
# first value of tooltilfield is digit : assuming this is
# a creation-order information compliant with the previous
# naming convention
# modifying this field to make it compatible with new convention
print " => first element = " + str(tooltipfield_properties_list[0] + " is digit...")
LOG("WARNING : " + str(object_name),0,"out-of-date naming convention found" \
print " => first element = " + \
str(tooltipfield_properties_list[0] + " is digit...")
LOG("WARNING : " + str(object_name),0,"out-of-date " \
+ "for tooltipfield, please check naming_conventions")
temp_nb = tooltipfield_properties_list[0]
# deleting actual entry
tooltipfield_properties_list.remove(temp_nb)
# adding new entry to the list
temp_nb_text = "nb:" + str(temp_nb)
tooltipfield_properties_list.append(temp_nb_text)
tooltipfield_properties_list.append( "nb:" + str(temp_nb))
# end of translating work to get new standard compliant code
for tooltipfield_property in tooltipfield_properties_list:
#printing each property before spliting
......@@ -291,39 +1373,75 @@ class ScribusParser:
tooltipfield_id = tooltipfield_properties_split[0]
tooltipfield_value = tooltipfield_properties_split[1]
# making dictionary from 'ANTOOLTIP' attributes
tooltipfield_properties_dict[tooltipfield_id] = tooltipfield_value
tooltipfield_properties_dict[tooltipfield_id] = \
tooltipfield_value
# end of 'ANTOOLTIP' parsing
# getting usefull attributes from scribus 'PAGEOBJECT' and 'ANTOOLTIP'
# --------------------------------------------------------------------
object_properties = {}
# getting usefull attributes from scribus 'PAGEOBJECT
#and 'ANTOOLTIP'
#
object_properties = {}
# getting object position and size
object_properties['position_x'] = sp.getObjectTooltipProperty('XPOS','0',object_name,object_content)
object_properties['position_y'] = sp.getObjectTooltipProperty('YPOS','0',object_name,object_content)
object_properties['size_x'] = sp.getObjectTooltipProperty('WIDTH','100',object_name,object_content)
object_properties['size_y'] = sp.getObjectTooltipProperty('HEIGHT','17',object_name,object_content)
# converting values to integer-compliant to prevent errors when using them
object_properties['position_x'] = str(float(object_properties['position_x']))
object_properties['position_x'] = str(sp.getStringInt(object_properties['position_x']))
object_properties['position_y'] = str(sp.getStringInt(object_properties['position_y']))
object_properties['size_x'] = str(sp.getStringInt(object_properties['size_x']))
object_properties['size_y'] = str(sp.getStringInt(object_properties['size_y']))
object_properties['position_x'] = \
sp.getObjectTooltipProperty('XPOS',
'0',
object_name,
object_content)
object_properties['position_y'] = \
sp.getObjectTooltipProperty('YPOS',
'0',
object_name,
object_content)
object_properties['size_x'] = \
sp.getObjectTooltipProperty('WIDTH',
'100',
object_name,
object_content)
object_properties['size_y'] = \
sp.getObjectTooltipProperty('HEIGHT',
'17',
object_name,
object_content)
# converting values to integer-compliant to prevent errors
# when using them for that converting from 'str' -> 'float'
# -> 'int' -> 'str'
object_properties['position_x'] = \
str(int(float(object_properties['position_x'])))
object_properties['position_x'] = \
str(int(float(object_properties['position_x'])))
object_properties['position_y'] = \
str(int(float(object_properties['position_y'])))
object_properties['size_x'] = \
str(int(float(object_properties['size_x'])))
object_properties['size_y'] = \
str(int(float(object_properties['size_y'])))
# getting object title
# object title can only be user-specified in the 'tooltip' dict
object_properties['title'] = sp.getObjectTooltipProperty('title', object_name, object_name, tooltipfield_properties_dict)
object_properties['title'] = \
sp.getObjectTooltipProperty('title',
object_name,
object_name,
tooltipfield_properties_dict)
# getting object order position for erp5 form
temp_order = sp.getObjectTooltipProperty('order','none',object_name,tooltipfield_properties_dict)
temp_order = \
sp.getObjectTooltipProperty('order',
'none',
object_name,
tooltipfield_properties_dict)
if temp_order not in ['left','right']:
# temp_order invalid
# trying to get it from document
if sp.getStringInt(object_properties['position_x']) > 280.0 :
# trying to get it from its position in original Scribus file
if int(object_properties['position_x']) > 280.0 :
temp_order = 'right'
else :
temp_order = 'left'
......@@ -333,7 +1451,10 @@ class ScribusParser:
# getting special ANFLAG sub-properties
temp_ANFLAG = long(sp.getObjectTooltipProperty('ANFLAG','0',object_name,object_content))
temp_ANFLAG = long(sp.getObjectTooltipProperty('ANFLAG',
0,
object_name,
object_content))
# initialising results
anflag_properties = {}
anflag_properties['noScroll'] = 0
......@@ -345,54 +1466,75 @@ class ScribusParser:
anflag_properties['required'] = 0
anflag_properties['readOnly'] = 0
# analysing result
print " => ANFLAG = " + str(object_content['ANFLAG'])
if temp_ANFLAG - 8388608 >= 0:
print " => ANFLAG = " + str(temp_ANFLAG)
# These tests uses some special variables
# defined at the begining of the script
if temp_ANFLAG - long(def_noScroll) >= 0:
# substracting value
temp_ANFLAG = temp_ANFLAG - long(8388608)
temp_ANFLAG = temp_ANFLAG - long(def_noScroll)
# 'do not scroll' field
# adding property
anflag_properties['noscroll'] = 1
if temp_ANFLAG - 4194304 >= 0:
temp_ANFLAG = temp_ANFLAG - 4194304
if temp_ANFLAG - long(def_noSpellCheck) >= 0:
temp_ANFLAG = temp_ANFLAG - long(def_noSpellCheck)
# 'do not spell check' field
anflag_properties['noSpellCheck'] = 1
if temp_ANFLAG - 262144 >= 0:
temp_ANFLAG = temp_ANFLAG - 262144
if temp_ANFLAG - long(def_editable) >= 0:
temp_ANFLAG = temp_ANFLAG - long(def_editable)
# 'editable' field
anflag_properties['editable'] = 1
if temp_ANFLAG - 8192 >= 0:
temp_ANFLAG = temp_ANFLAG - 8192
if temp_ANFLAG - long(def_password) >= 0:
temp_ANFLAG = temp_ANFLAG - long(def_password)
# 'password' field
anflag_properties['password'] = 1
if temp_ANFLAG - 4096 >= 0:
temp_ANFLAG = temp_ANFLAG - 4096
if temp_ANFLAG - long(def_multiLine) >= 0:
temp_ANFLAG = temp_ANFLAG - long(def_multiLine)
# 'multiline' field
anflag_properties['multiline'] = 1
if temp_ANFLAG - 4 >= 0:
temp_ANFLAG = temp_ANFLAG - 4
if temp_ANFLAG - long(def_noExport) >= 0:
temp_ANFLAG = temp_ANFLAG - long(def_noExport)
# 'do not export data' field
anflag_properties['noExport'] = 1
if temp_ANFLAG - 2 >= 0:
temp_ANFLAG = temp_ANFLAG - 2
if temp_ANFLAG - long(def_required) >= 0:
temp_ANFLAG = temp_ANFLAG - long(def_required)
# 'required field
anflag_properties['required'] = 1
if temp_ANFLAG == 1:
if temp_ANFLAG == long(def_readOnly):
# 'read only" field
anflag_properties['readOnly'] = 1
# getting maximum number of caracters the field can hold
# note : only for textfields
object_properties['maximum_input'] = sp.getObjectTooltipProperty('ANMC','0',object_name,object_content)
# note : only used for textfields ('StringField', 'IntegerField',
# 'FloatField', etc.)
# first checking user specifications in tooltipfield
object_properties['maximum_input'] = \
sp.getObjectTooltipProperty('maximum_input',
0,
object_name,
tooltipfield_properties_dict)
# if returned value is empty, then trying 'ANMC' Scribus property
if object_properties['maximum_input'] == 0:
object_properties['maximum_input'] = \
sp.getObjectTooltipProperty('ANMC',
'0',
object_name,
object_content)
print " => MaxInput = %s" % object_properties['maximum_input']
# getting object type :
# first checking for user-specified type in 'tooltip' properties
if tooltipfield_properties_dict.has_key('type'):
# 'type' id in tooltip : using it and ignoring other 'type' information
# in scribus properties
# 'type' id in tooltip : using it and ignoring other 'type'
# information in scribus properties
object_properties['type'] = tooltipfield_properties_dict['type']
# if no user-specified type has been found, trying to find scribus-type
elif tooltipfield_properties_dict.has_key('title_item'):
# if page_object has a special attribute 'title_item' this means
# the field is a CheckBoxField
object_properties['type'] = 'CheckBoxField'
# if no user-specified type has been found, trying to
# find scribus-type
elif object_content.has_key('ANTYPE'):
# from scribus type (selected in the scribus PDF-form properties)
object_type = str(object_content['ANTYPE'])
......@@ -430,63 +1572,136 @@ class ScribusParser:
# type 6 = PDF-ListBox
object_properties['type'] = 'ListBox'
else:
# object type not found in user-properties neither in document-properties
# logging and initialising with default type
LOG("WARNING : " + str(object_name),0,"no 'type' found, please check your document properties or use 'tooltips' properties")
print " => no type specified : assuming default = StringField"
# object type not found in user-properties neither in
# document-properties. logging and initialising with
# default type
LOG("WARNING : " + str(object_name),
0,
"no 'type' found, please check your document properties")
print " => no type specified : default = StringField"
object_properties['type'] = 'StringField'
print " type = " + str(object_properties['type'])
# getting data_type relative to object type (used in
# object property_sheet to save field value.
object_properties['data_type'] = 'string'
object_properties['default_data'] = ''
if object_properties['type'] == 'IntegerField':
object_properties['data_type'] = 'int'
object_properties['default_data'] = 0
if object_properties['type'] == 'CheckBoxField':
object_properties['data_type'] = 'boolean'
object_properties['default_data'] = 0
if object_properties['type'] == 'DateTimeField':
object_properties['data_type'] = 'date'
object_properties['default_data'] = '1970/01/01'
# getting 'required' property
# first checking from user data in 'tooltip'
temp_required = sp.getObjectTooltipProperty('required','none',object_name,tooltipfield_properties_dict)
if temp_required == 'none':
# no 'required' property in 'tooltip'
# cheking global PAGEOBJECT properties for 'required' (found in anflag)
temp_required = anflag_properties['required']
object_properties['required'] = temp_required
# checking for user data in tooltipfield. if nothing found then
# taking hard-written value in anflag properties
object_properties['required'] = \
sp.getObjectTooltipProperty('required',
anflag_properties['required'],
object_name,
tooltipfield_properties_dict)
# getting type properties for special types
object_properties['rendering'] = 'single'
# Stringfields handle properties
# checkbox objects belongs to a group of checkbox
if str(object_properties['type']) == 'CheckBox' :
# checking if THIS checkbox is in a group
object_properties['group'] = sp.getObjectTooltipProperty('group', '0', object_name, tooltipfield_properties_dict)
print " group = " + str(object_properties['group'])
#object is listbox, and listbox have several possible values
object_properties['group'] = \
sp.getObjectTooltipProperty('group',
'0',
object_name,
tooltipfield_properties_dict)
print " group = " + str(object_properties['group'])
# object is listbox, and listbox have several possible values
# WARNING listbox have not been tested in graphic rendering for
# the moment. is there any use for listbox in PDF-like rendering ?
if str(object_properties['type']) == 'ListBox' :
#checking if this listbox has different possible values
object_properties['items'] = sp.getObjectTooltipProperty('items', '', object_name, tooltipfield_properties_dict)
#object is datetimefield and need several informations
# checking if this listbox has different possible values
object_properties['items'] = \
sp.getObjectTooltipProperty('items',
'',
object_name,
tooltipfield_properties_dict)
# object is datetimefield and need several informations
if str(object_properties['type']) == 'DateTimeField':
#checking if field has inpu_order property
object_properties['input_order'] = sp.getObjectTooltipProperty('input_order','day/month/year',object_name,tooltipfield_properties_dict)
#
#checking if field has date_only property
object_properties['date_only'] = sp.getObjectTooltipProperty('date_only','1',object_name,tooltipfield_properties_dict)
# has been tested successfully
object_properties['rendering'] = 'multiple'
# checking if field has input_order property
object_properties['input_order'] = \
sp.getObjectTooltipProperty('input_order',
'ymd',
object_name,
tooltipfield_properties_dict)
# checking if field has date_only property
object_properties['date_only'] = \
sp.getObjectTooltipProperty('date_only',
'1',
object_name,
tooltipfield_properties_dict)
# checking if special date separator is specified
# most of PDF forms already have '/' character to differenciate
# date fields, in this case no separator is needed and the script
# will automatically insert ' ' between element.
# > this value is not used in ScribusUtils.py , but in PDFForm.py
# when creating the fdf file to fill the PDF form.
object_properties['date_separator'] = \
sp.getObjectTooltipProperty('date_separator',
' ',
object_name,
tooltipfield_properties_dict)
object_properties['time_separator'] = \
sp.getObjectTooltipProperty('time_separator',
' ',
object_name,
tooltipfield_properties_dict)
# object is relationstringfield and ned some informations
# FIXME : quelle est la valeur par defaut pour des champs de ce type ?
# object is relationstringfield and needs some information
if str(object_properties['type']) == 'RelationStringField':
object_properties['base_category'] = sp.getObjectTooltipProperty('base_category','0',object_name,tooltipfield_properties_dict)
object_properties['catalog_index'] = sp.getObjectTooltipProperty('catalog_index','0',object_name,tooltipfield_properties_dict)
object_properties['default_module'] = sp.getObjectTooltipProperty('default_module','0',object_name,tooltipfield_properties_dict)
# has been tested successfully
object_properties['rendering'] = 'multiple'
object_properties['portal_type'] = \
sp.getObjectTooltipProperty('portal_type',
'0',
object_name,
tooltipfield_properties_dict)
object_properties['base_category'] = \
sp.getObjectTooltipProperty('base_category',
'0',
object_name,
tooltipfield_properties_dict)
object_properties['catalog_index'] = \
sp.getObjectTooltipProperty('catalog_index',
'0',
object_name,
tooltipfield_properties_dict)
object_properties['default_module'] = \
sp.getObjectTooltipProperty('default_module',
'0',
object_name,
tooltipfield_properties_dict)
# getting creation order from 'tooltip' properties
# used to create ERP5 objects in a special order
if tooltipfield_properties_dict.has_key('nb') and str(tooltipfield_properties_dict['nb']).isdigit():
if tooltipfield_properties_dict.has_key('nb') and \
str(tooltipfield_properties_dict['nb']).isdigit():
# object has a nb properties containing its creation position
# adding the object in the ordered list
nb_value = int(tooltipfield_properties_dict['nb'])
print " =>'nb' property specified : using it to order PAGEOBJECT elements"
print " =>'nb' property specified : using it"
print " > len(list)=%s" % len(nb_property_nbkey_list)
# iterating through existing list to find right position
# before inserting value
if len(nb_property_nbkey_list) == 0:
......@@ -533,7 +1748,8 @@ class ScribusParser:
# and addind it to the end of the final nb-list
# to give them a 'nb' property
nb_property_nbkey_list.append((object_position,object_name))
print " => final sorting before returning value, " + str(len(nb_property_nbkey_list)) + " elements"
print " => 'nb' found for %s : %s" % (object_name,object_position)
# now all page_object are referenced in the list, we just need to sort
# the elements in the good order. for that a new list of objects is needed
returned_object_list = []
......@@ -545,11 +1761,8 @@ class ScribusParser:
returned_object_dict[nb_value]['nb'] = nb_ind + 1
# add the object at the end of the new list
returned_object_list.append((nb_value,returned_object_dict[nb_value]))
LOG("INFO : " + str(nb_value),0,"creation order =" + str(nb_ind))
print " > " + str(nb_value) + " has nb:" + str(nb_ind)
# adding returned list of object to the page dict
# before going to the next page
returned_page_dict[page_number] = returned_object_list
......@@ -559,8 +1772,122 @@ class ScribusParser:
# returning final dict containing all the modified data
print " => end ScribusParser.getPropertiesConversion"
return returned_page_dict
security.declarePublic('initFieldDict')
def initFieldDict(self):
"""
initialize the global_properties dict. this dict will be filled
with Field attributes (from getFieldAttributes)
"""
# initializing sub dicts and attributes
global_object_dict = {}
global_page_number = 0
# defining main dict
global_properties = {}
global_properties['object'] = global_object_dict
global_properties['page'] = global_page_number
# return final main dict
return global_properties
security.declarePublic('getFieldAttributes')
def getFieldAttributes(self,
field,
option_html,
page_id,
global_properties
):
"""
get only useful field attributes from properties_field
and save them in global_properties
"""
(id,properties_field) = field
# declaring dict to store data
object_dict = {}
# getting usefull properties for field generation
object_dict['title'] = str(properties_field['title'])
object_dict['erp_type'] = str(properties_field['type'])
object_dict['data_type'] = str(properties_field['data_type'])
object_dict['default'] = properties_field['default_data']
object_dict['nb'] = str(properties_field['nb'])
object_dict['attributes'] = {}
if option_html ==1:
# pdf-like rendering
object_dict['order'] = page_id
else:
# erp rendering
object_dict['order'] = properties_field['order']
# recovering attributes
# required attribute specify if the user has to fill this field
object_dict['attributes']['required'] =\
properties_field['required']
# max number of caracters that can be entered in a field
# only used with String fieds (including Integer and Float fields)
if 'maximum_input' in properties_field.keys():
if 'display_maxwidth' in object_dict['attributes'].keys():
object_dict['attributes']['display_maxwidth'] = \
int(properties_field['maximum_input'])
# can only be effective without css class, i.e only effective
# in a ERP5-like rendering
if 'display_width' in object_dict['attributes'].keys():
object_dict['attributes']['display_width'] = \
int(properties_field['maximum_width'])
# getting special properties for DateTimeField objects
if object_dict['erp_type'] == 'DateTimeField':
# recovering ERP equivalent for user's input_order
if properties_field['input_order'] in ['day/month/year','dmy']:
object_dict['attributes']['input_order'] = 'dmy'
elif properties_field['input_order'] in ['month/day/year','mdy']:
object_dict['attributes']['input_order'] = 'mdy'
elif properties_field['input_order'] in ['year/month/day','ymd']:
object_dict['attributes']['input_order'] = 'ymd'
else:
print " found incompatible 'input_order', assuming default ymd"
object_dict['attributes']['input_order'] = 'ymd'
# checking if date only or date + time
object_dict['attributes']['date_only'] = int(properties_field['date_only'])
if option_html == 1:
# defining default separators to '' to prevent bug when rendering in
# graphic mode
object_dict['attributes']['date_separator'] = ''
object_dict['attributes']['time_separator'] = ''
else:
# rendering is ERP5 type, can keep the final date and time separators
object_dict['attributes']['date_separator'] = properties_field['date_separator']
object_dict['attributes']['time_separator'] = properties_field['time_separator']
# getting special attributes for RelationStringField
elif object_dict['erp_type'] == 'RelationStringField':
portal_type_item = properties_field['portal_type'].capitalize()
object_dict['attributes']['portal_type'] =\
[(portal_type_item,portal_type_item)]
object_dict['attributes']['base_category'] =\
properties_field['base_category']
object_dict['attributes']['catalog_index'] =\
properties_field['catalog_index']
object_dict['attributes']['default_module'] =\
properties_field['default_module']
# idem : special field concerning RadioField (not tested)
elif object_dict['erp_type'] == 'RadioField':
# radio fields have not been tested for the moment
items = []
for word_item in properties_field['item'].split('|'):
items.append((word_item,word_item.capitalize()))
object_dict['attributes'] = items
#elif object_dict['erp_type'] == 'CheckBoxField':
# checkboxfield needs to have their field data updated
# this is not done automatically so it is needed to do
# it manually
# save attributes to the global_properties dict
global_properties['object'][id] = object_dict
security.declareProtected('Import/Export objects', 'getContentFile')
def getContentFile(self, file_descriptor):
""" Get file content """
......@@ -568,3 +1895,12 @@ class ScribusParser:
InitializeClass(ScribusParser)
allow_class(ScribusParser)
InitializeClass(ManageCSS)
allow_class(ManageCSS)
InitializeClass(ManageFiles)
allow_class(ManageFiles)
InitializeClass(ManageModule)
allow_class(ManageModule)
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