A Worksheet.

A worksheet is embedded in a web page that is served by the Sage server. It is a linearly-ordered collections of numbered cells, where a cell is a single input/output block.

The worksheet module is responsible for running calculations in a worksheet, spawning Sage processes that do all of the actual work and are controlled via pexpect, and reporting on results of calculations. The state of the cells in a worksheet is stored on the file system (not in the notebook pickle sobj).

AUTHORS:

• William Stein

class sagenb.notebook.worksheet.Worksheet(name=None, id_number=None, notebook_worksheet_directory=None, system=None, owner=None, docbrowser=False, pretty_print=False, auto_publish=False, create_directories=True)

Bases: object

add_collaborator(user)

Add the given user as a collaborator on this worksheet.

INPUT:

• user - a string

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: nb.add_user('diophantus','sage','sage@sagemath.org',force=True)
sage: W = nb.create_new_worksheet('Collaborator test', 'admin')
sage: W.collaborators()
[]
sage: W.add_collaborator('diophantus')
sage: W.collaborators()
['diophantus']

add_viewer(user)

Add the given user as an allowed viewer of this worksheet.

INPUT:

• user - string (username)

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: nb.add_user('diophantus','sage','sage@sagemath.org',force=True)
sage: W = nb.create_new_worksheet('Viewer test', 'admin')
sage: W.add_viewer('diophantus')
sage: W.viewers()
['diophantus']

append(L)

append_new_cell()

Creates and appends a new compute cell to this worksheet’s list of cells.

OUTPUT:

• a new sagenb.notebook.cell.Cell instance

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('Test Edit Save', 'admin')
sage: W
admin/0: [Cell 1; in=, out=]
sage: W.append_new_cell()
Cell 2; in=, out=
sage: W
admin/0: [Cell 1; in=, out=, Cell 2; in=, out=]

attach(filename)

attached_data_files()

Return a list of the file names of files in the worksheet data directory.

OUTPUT: list of strings

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('A Test Worksheet', 'admin')
sage: W.attached_data_files()
[]
sage: open('%s/foo.data'%W.data_directory(),'w').close()
sage: W.attached_data_files()
['foo.data']

attached_files()

attached_html()

autosave(username)

basic()

Output a dictionary of basic Python objects that defines the configuration of this worksheet, except the actual cells and the data files in the DATA directory and images and other data in the individual cell directories.

EXAMPLES:

sage: import sagenb.notebook.worksheet
sage: W = sagenb.notebook.worksheet.Worksheet('test', 0, tmp_dir(), owner='sage')
sage: sorted((W.basic().items()))
[('auto_publish', False), ('collaborators', []), ('id_number', 0), ('last_change', ('sage', ...)), ('name', u'test'), ('owner', 'sage'), ('pretty_print', False), ('published_id_number', None), ('ratings', []), ('system', None), ('tags', {'sage': [1]}), ('viewers', []), ('worksheet_that_was_published', ('sage', 0))]

best_completion(s, word)

body()

OUTPUT:

– string – Plain text representation of the body of

the worksheet.

body_is_loaded()

Return True if the body if this worksheet has been loaded from disk.

cell_directory(C)

cell_id_list()

Returns a list of ID’s of all cells in this worksheet.

OUTPUT:

• a new list of integers and/or strings

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('Test Edit Save', 'admin')

Now we set the worksheet to have two cells with the default id of 0 and another with id 10.

sage: W.edit_save('{{{\n2+3\n///\n5\n}}}\n{{{id=10|\n2+8\n///\n10\n}}}')
sage: W.cell_id_list()
[0, 10]

cell_list()

Returns a reference to the list of this worksheet’s cells.

OUTPUT:

• a list of sagenb.notebook.cell.Cell_generic instances

Note

This function loads the cell list from disk (the file worksheet.html) if it isn’t available in memory.

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('Test Edit Save', 'admin')
sage: W.edit_save('{{{\n2+3\n///\n5\n}}}\n{{{\n2+8\n///\n10\n}}}')
sage: v = W.cell_list(); v
[Cell 0; in=2+3, out=
5, Cell 1; in=2+8, out=
10]
sage: v[0]
Cell 0; in=2+3, out=
5

cells_directory()

Return the directory in which the cells of this worksheet are evaluated.

OUTPUT: string

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('A Test Worksheet', 'admin')
sage: W.cells_directory()
'.../home/admin/0/cells'

check_cell(id)

Checks the status of a given compute cell.

INPUT:

• id - an integer or a string; the cell’s ID.

OUTPUT:

• a (string, sagenb.notebook.cell.Cell)-tuple; the cell’s status (‘d’ for “done” or ‘w’ for “working”) and the cell itself.

check_comp(wait=0.20000000000000001)

Check on currently computing cells in the queue.

INPUT:

• wait - float (default: 0.2); how long to wait for output.

EXAMPLES:

sage: nb = sagenb.notebook.notebook.load_notebook(tmp_dir()+'.sagenb')
sage: nb.add_user('sage','sage','sage@sagemath.org',force=True)
sage: W = nb.create_new_worksheet('Test', 'sage')
sage: W.edit_save('{{{\n3^20\n}}}')
sage: W.cell_list()[0].evaluate()
sage: W.check_comp()     # random output -- depends on computer speed
('d', Cell 0; in=3^20, out=
3486784401
)
sage: W.quit()
sage: nb.delete()

check_for_system_switching(input, cell)

Check for input cells that start with %foo, where foo is an object with an eval method.

INPUT:

• s - a string of the code from the cell to be executed
• C - the cell object

EXAMPLES: First, we set up a new notebook and worksheet.

sage: nb = sagenb.notebook.notebook.load_notebook(tmp_dir()+'.sagenb')
sage: nb.add_user('sage','sage','sage@sagemath.org',force=True)
sage: W = nb.create_new_worksheet('Test', 'sage')

We first test running a native command in ‘sage’ mode and then a GAP cell within Sage mode.

sage: W.edit_save('{{{\n2+3\n}}}\n\n{{{\n%gap\nSymmetricGroup(5)\n}}}')
sage: c0, c1 = W.cell_list()
sage: W.check_for_system_switching(c0.cleaned_input_text(), c0)
(False, u'2+3')
sage: W.check_for_system_switching(c1.cleaned_input_text(), c1)
(True, u"print _support_.syseval(gap, u'SymmetricGroup(5)', __SAGE_TMP_DIR__)")

sage: c0.evaluate()
sage: W.check_comp()  #random output -- depends on the computer's speed
('d', Cell 0; in=2+3, out=
5
)
sage: c1.evaluate()
sage: W.check_comp()  #random output -- depends on the computer's speed
('d', Cell 1; in=%gap
SymmetricGroup(5), out=
Sym( [ 1 .. 5 ] )
)

Next, we run the same commands but from ‘gap’ mode.

sage: W.edit_save('{{{\n%sage\n2+3\n}}}\n\n{{{\nSymmetricGroup(5)\n}}}')
sage: W.set_system('gap')
sage: c0, c1 = W.cell_list()
sage: W.check_for_system_switching(c0.cleaned_input_text(), c0)
(False, u'2+3')
sage: W.check_for_system_switching(c1.cleaned_input_text(), c1)
(True, u"print _support_.syseval(gap, u'SymmetricGroup(5)', __SAGE_TMP_DIR__)")
sage: c0.evaluate()
sage: W.check_comp()  #random output -- depends on the computer's speed
('d', Cell 0; in=%sage
2+3, out=
5
)
sage: c1.evaluate()
sage: W.check_comp()  #random output -- depends on the computer's speed
('d', Cell 1; in=SymmetricGroup(5), out=
Sym( [ 1 .. 5 ] )
)
sage: W.quit()
sage: nb.delete()

clear()

clear_queue()

collaborator_names(max=None)

Returns a string of the non-owner collaborators on this worksheet.

INPUT:

• max - an integer. If this is specified, then only max number of collaborators are shown.

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('test1', 'admin')
sage: C = W.collaborators(); C
[]
sage: C.append('sage')
sage: C.append('wstein')
sage: W.collaborator_names()
'sage, wstein'
sage: W.collaborator_names(max=1)
'sage, ...'

collaborators()

Return a (reference to the) list of the collaborators who can also view and modify this worksheet.

OUTPUT: list

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('test1', 'admin')
sage: C = W.collaborators(); C
[]
sage: C.append('sage')
sage: W.collaborators()
['sage']

completions_html(id, s, cols=3)

compute_cell_id_list()

Returns a list of ID’s of all compute cells in this worksheet.

OUTPUT:

• a new list of IDs integers and/or strings

compute_process_has_been_started()

Return True precisely if the compute process has been started, irregardless of whether or not it is currently churning away on a computation.

computing()

Return whether or not a cell is currently being run in the worksheet Sage process.

create_directories()

cython_import(cmd, cell)

data_directory()

Return path to directory where worksheet data is stored.

OUTPUT: string

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('A Test Worksheet', 'admin')
sage: W.data_directory()
'.../home/admin/0/data'

date_edited()

Returns the date the worksheet was last edited.

delete_all_output(username)

Delete all the output in all the worksheet cells.

INPUT:

• username - name of the user requesting the deletion.

EXAMPLES: We create a new notebook, user, and a worksheet with one cell.

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: nb.add_user('sage','sage','sage@sagemath.org',force=True)
sage: W = nb.create_new_worksheet('Test', 'sage')
sage: W.edit_save('{{{\n2+3\n///\n5\n}}}')

Notice that there is 1 cell with 5 in its output.

sage: W.cell_list()
[Cell 0; in=2+3, out=
5]

We now delete the output, observe that it is gone.

sage: W.delete_all_output('sage')
sage: W.cell_list()
[Cell 0; in=2+3, out=]

If an invalid user tries to delete all, a ValueError is raised.

sage: W.delete_all_output('hacker')
...
ValueError: user 'hacker' not allowed to edit this worksheet

Clean up.

sage: nb.delete()

delete_cell_with_id(id)

Deletes a cell with the given ID, returning the cell before it.

INPUT:

• id - an integer or string; the cell’s ID

OUTPUT:

• an instance of sagenb.notebook.cell.Cell_generic

delete_cells_directory()

Delete the directory in which all the cell computations occur.

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: nb.add_user('sage','sage','sage@sagemath.org',force=True)
sage: W = nb.create_new_worksheet('Test', 'sage')
sage: W.edit_save('{{{\n3^20\n}}}')
sage: W.cell_list()[0].evaluate()
sage: W.check_comp()    # random output -- depends on computer speed
sage: sorted(os.listdir(W.directory()))
['cells', 'data']
sage: W.save_snapshot('admin')
sage: sorted(os.listdir(W.directory()))
['cells', 'data', 'snapshots', 'worksheet.html']
sage: W.delete_cells_directory()
sage: sorted(os.listdir(W.directory()))
['data', 'snapshots', 'worksheet.html']
sage: W.quit()
sage: nb.delete()

delete_notebook_specific_data()

Delete data from this worksheet this is specific to a certain notebook. This means deleting the attached files, collaborators, and viewers.

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: nb.add_user('hilbert','sage','sage@sagemath.org',force=True)
sage: W = nb.create_new_worksheet('test1', 'admin')
sage: W.add_viewer('hilbert')
sage: W.delete_notebook_specific_data()
sage: W.viewers()
[]
sage: W.add_collaborator('hilbert')
sage: W.collaborators()
['admin', 'hilbert']
sage: W.delete_notebook_specific_data()
sage: W.collaborators()
['admin']

delete_user(user)

Delete a user from having any view or ownership of this worksheet.

INPUT:

• user - string; the name of a user

EXAMPLES: We create a notebook with 2 users and 1 worksheet that both view.

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: nb.add_user('wstein','sage','wstein@sagemath.org',force=True)
sage: nb.add_user('sage','sage','sage@sagemath.org',force=True)
sage: W = nb.new_worksheet_with_title_from_text('Sage', owner='sage')
sage: W.add_viewer('wstein')
sage: W.owner()
'sage'
sage: W.viewers()
['wstein']

We delete the sage user from the worksheet W. This makes wstein the new owner.

sage: W.delete_user('sage')
sage: W.viewers()
['wstein']
sage: W.owner()
'wstein'

Then we delete wstein from W, which makes the owner None.

sage: W.delete_user('wstein')
sage: W.owner() is None
True
sage: W.viewers()
[]

Finally, we clean up.

sage: nb.delete()

detach(filename)

directory()

Return the full path to the directory where this worksheet is stored.

OUTPUT: string

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('A Test Worksheet', 'admin')
sage: W.directory()
'.../home/admin/0'

docbrowser()

Return True if this is a docbrowser worksheet.

OUTPUT: bool

EXAMPLES: We first create a standard worksheet for which docbrowser is of course False:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('test1', 'admin')
sage: W.docbrowser()
False

We create a worksheet for which docbrowser is True:

sage: W = nb.create_new_worksheet('docs', 'admin', docbrowser=True)
sage: W.docbrowser()
True

download_name()

Return the download name of this worksheet.

edit_save(text, ignore_ids=False)

Set the contents of this worksheet to the worksheet defined by the plain text string text, which should be a sequence of html and ‘s code blocks.

INPUT:

• text - a string
• ignore_ids - bool (default: False); if True ignore all the IDs in the {{{}}} code block.

EXAMPLES:

We create a new test notebook and a worksheet.

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: nb.add_user('sage','sage','sage@sagemath.org',force=True)
sage: W = nb.create_new_worksheet('Test Edit Save', 'sage')

We set the contents of the worksheet using the edit_save command.

sage: W.edit_save('{{{\n2+3\n///\n5\n}}}\n{{{\n2+8\n///\n10\n}}}')
sage: W
sage/0: [Cell 0; in=2+3, out=
5, Cell 1; in=2+8, out=
10]
sage: W.name()
u'Test Edit Save'

We check that loading a worksheet whose last cell is a TextCell properly increments the worksheet’s cell count (see Sage trac ticket #8443).

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir() + '.sagenb')
sage: nb.add_user('sage', 'sage', 'sage@sagemath.org', force=True)
sage: W = nb.create_new_worksheet('Test trac #8443', 'sage')
sage: W.edit_save('{{{\n1+1\n///\n}}}')
sage: W.cell_id_list()
[0]
sage: W.next_id()
1
sage: W.edit_save("{{{\n1+1\n///\n}}}\n\n<p>a text cell</p>")
sage: len(set(W.cell_id_list())) == 3
True
sage: W.cell_id_list()
[0, 1, 2]
sage: W.next_id()
3

edit_save_old_format(text)

edit_text()

Returns a plain-text version of the worksheet with {{{}}} wiki-formatting, suitable for hand editing.

enqueue(C, username=None, next=False)

Queue a cell for evaluation in this worksheet.

INPUT:

• C - a sagenb.notebook.cell.Cell instance

• username - a string (default: None); the name of the

  user evaluating this cell (mainly used for login)

• next - a boolean (default: False); ignored

Note

If C.is_asap() is True, then we put C as close to the beginning of the queue as possible, but after all “asap” cells. Otherwise, C goes at the end of the queue.

eval_asap_no_output(cmd, username=None)

everyone_has_deleted_this_worksheet()

Return True if all users have deleted this worksheet, so we know we can safely purge it from disk.

OUTPUT: bool

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('Publish Test', 'admin')
sage: W.everyone_has_deleted_this_worksheet()
False
sage: W.move_to_trash('admin')
sage: W.everyone_has_deleted_this_worksheet()
True

filename()

Return the filename (really directory) where the files associated to this worksheet are stored.

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('A Test Worksheet', 'admin')
sage: W.filename()
'admin/0'
sage: os.path.isdir(os.path.join(nb._dir, 'home', W.filename()))
True

filename_without_owner()

Return the part of the worksheet filename after the last /, i.e., without any information about the owner of this worksheet.

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('A Test Worksheet', 'admin')
sage: W.filename_without_owner()
'0'
sage: W.filename()
'admin/0'

get_cell_system(cell)

Returns the system that will run the input in cell. This defaults to worksheet’s system if there is not one specifically given in the cell.

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: nb.add_user('sage','sage','sage@sagemath.org',force=True)
sage: W = nb.create_new_worksheet('Test', 'sage')
sage: W.edit_save('{{{\n2+3\n}}}\n\n{{{\n%gap\nSymmetricGroup(5)\n}}}')
sage: c0, c1 = W.cell_list()
sage: W.get_cell_system(c0)
'sage'
sage: W.get_cell_system(c1)
u'gap'
sage: W.edit_save('{{{\n%sage\n2+3\n}}}\n\n{{{\nSymmetricGroup(5)\n}}}')
sage: W.set_system('gap')
sage: c0, c1 = W.cell_list()
sage: W.get_cell_system(c0)
u'sage'
sage: W.get_cell_system(c1)
'gap'

get_cell_with_id(id)

get_snapshot_text_filename(name)

has_published_version()

Return True if there is a published version of this worksheet.

OUTPUT: bool

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('Publish Test', 'admin')
sage: P = nb.publish_worksheet(W, 'admin')
sage: P.has_published_version()
False
sage: W.has_published_version()
True

hide_all()

html(do_print=False, publish=False)

INPUT:

• publish - a boolean stating whether the worksheet is published
• do_print - a boolean

OUTPUT:

• string – the HTML for the worksheet

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('Test', 'admin')
sage: W.html()
u'...cell_input_active...worksheet_cell_list...cell_1...cell_output_html_1...'

html_cell_list(do_print=False)

INPUT:

• do_print - a boolean

OUTPUT:

• string – the HTML for the list of cells

html_ratings_info()

Return html that renders to give a summary of how this worksheet has been rated.

OUTPUT:

• string – a string of HTML as a bunch of table rows.

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('Publish Test', 'admin')
sage: W.rate(0, 'this lacks content', 'riemann')
sage: W.rate(3, 'this is great', 'hilbert')
sage: W.html_ratings_info()
u'...hilbert...3...this is great...this lacks content...'

html_time_last_edited()

html_time_since_last_edited()

hunt_file(filename)

id_number()

Return the id number of this worksheet, which is an integer.

EXAMPLES:

sage: from sagenb.notebook.worksheet import Worksheet
sage: W = Worksheet('test', 2, tmp_dir(), owner='sageuser')
sage: W.id_number()
2
sage: type(W.id_number())
<type 'int'>

increase_state_number()

initialize_sage()

input_text()

Return text version of the input to the worksheet.

interrupt(callback=None, timeout=1)

Interrupt all currently queued up calculations.

INPUT:

• timeout – time to wait for interruption to succeed
• callback – callback to be called. Called with True if interrupt succeeds, else called with False.

OUTPUT:

• deferred - a Deferred object with the given callbacks and errbacks

EXAMPLES: We create a worksheet and start a large factorization going:

sage: nb = sagenb.notebook.notebook.load_notebook(tmp_dir()+'.sagenb')
sage: nb.add_user('sage','sage','sage@sagemath.org',force=True)
sage: W = nb.create_new_worksheet('Test', 'sage')
sage: W.edit_save('{{{\nfactor(2^997-1)\n}}}')
sage: W.cell_list()[0].evaluate()

It’s running still:

sage: W.check_comp()
('w', Cell 0; in=factor(2^997-1), out=...)

We interrupt it successfully.

sage: W.interrupt()         # not tested -- needs running reactor
True

Now we check and nothing is computing.

sage: W.check_comp()        # random -- could fail on heavily loaded machine
('e', None)

Clean up.

sage: W.quit()
sage: nb.delete()

is_active(user)

Return True if this worksheet is active for the given user.

INPUT:

• user - string

OUTPUT: bool

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('Active Test', 'admin')
sage: W.is_active('admin')
True
sage: W.move_to_archive('admin')
sage: W.is_active('admin')
False

is_archived(user)

Return True if this worksheet is archived for the given user.

INPUT:

• user - string

OUTPUT: bool

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('Archived Test', 'admin')
sage: W.is_archived('admin')
False
sage: W.move_to_archive('admin')
sage: W.is_archived('admin')
True

is_auto_publish()

Returns True if this worksheet should be automatically published.

is_collaborator(user)

is_doc_worksheet()

is_last_id_and_previous_is_nonempty(id)

is_only_viewer(user)

is_owner(username)

is_published()

Return True if this worksheet is a published worksheet.

OUTPUT:

• bool - whether or not owner is ‘pub’

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('Publish Test', 'admin')
sage: W.is_published()
False
sage: W.set_owner('pub')
sage: W.is_published()
True

is_publisher(username)

Return True if username is the username of the publisher of this worksheet, assuming this worksheet was published.

INPUT:

• username - string

EXAMPLES:

sage: nb = sagenb.notebook.notebook.load_notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('Publish Test', 'admin')
sage: P = nb.publish_worksheet(W, 'admin')
sage: P.is_publisher('hearst')
False
sage: P.is_publisher('admin')
True

is_rater(username)

Return True is the user with given username has rated this worksheet.

INPUT:

• username - string

OUTPUT: bool

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('Publish Test', 'admin')
sage: W.rate(0, 'this lacks content', 'riemann')
sage: W.is_rater('admin')
False
sage: W.is_rater('riemann')
True

is_trashed(user)

Return True if this worksheet is in the trash for the given user.

INPUT:

• user - string

OUTPUT: bool

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('Trash Test', 'admin')
sage: W.is_trashed('admin')
False
sage: W.move_to_trash('admin')
sage: W.is_trashed('admin')
True

is_viewer(user)

last_change()

Return information about when this worksheet was last changed and by whom.

OUTPUT:

• username – string of username who last edited this worksheet
• float – seconds since epoch of the time when this worksheet was last edited

last_compute_walltime()

last_edited()

last_to_edit()

limit_snapshots()

This routine will limit the number of snapshots of a worksheet, as specified by a hard-coded value below.

Prior behavior was to allow unlimited numbers of snapshots and so this routine will not delete files created prior to this change.

This assumes snapshot names correspond to the time.time() method used to create base filenames in seconds in UTC time, and that there are no other extraneous files in the directory.

load_any_changed_attached_files(s)

Modify s by prepending any necessary load commands corresponding to attached files that have changed.

load_path()

move_out_of_trash(user)

Exactly the same as set_active(user).

INPUT:

• user - string

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('Active Test', 'admin')
sage: W.move_to_trash('admin')
sage: W.is_active('admin')
False
sage: W.move_out_of_trash('admin')
sage: W.is_active('admin')
True

move_to_archive(user)

Move this worksheet to be archived for the given user.

INPUT:

• user - string

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('Archive Test', 'admin')
sage: W.move_to_archive('admin')
sage: W.is_archived('admin')
True

move_to_trash(user)

Move this worksheet to the trash for the given user.

INPUT:

• user - string

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('Trash Test', 'admin')
sage: W.move_to_trash('admin')
sage: W.is_trashed('admin')
True

name()

Return the name of this worksheet.

OUTPUT: string

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('A Test Worksheet', 'admin')
sage: W.name()
u'A Test Worksheet'
sage: W = nb.create_new_worksheet('ěščřžýáíéďĎ', 'admin')
sage: W.name()
u'ěščřž\xfd\xe1\xed\xe9ďĎ'

new_cell_after(id, input='')

Inserts a new compute cell into this worksheet’s cell list after the cell with the given ID. If the ID does not match any cell, it inserts the new cell at the end of the list.

INPUT:

• id - an integer or a string; the ID of the cell to find
• input - a string (default: ‘’); the new cell’s input text

OUTPUT:

• a new sagenb.notebook.cell.Cell instance

new_cell_before(id, input='')

Inserts a new compute cell before a cell with the given ID. If the ID does not match any cell in this worksheet’s list, it inserts a new cell at the end.

INPUT:

• id - an integer or a string; the ID of the cell to find
• input - a string (default: ‘’); the new cell’s input text

OUTPUT:

• a new sagenb.notebook.cell.Cell instance

new_text_cell_after(id, input='')

Inserts a new text cell into this worksheet’s cell list after the cell with the given ID. If the ID does not match any cell, it inserts the new cell at the end of the list.

INPUT:

• id - an integer or a string; the ID of the cell to find
• input - a string (default: ‘’); the new cell’s input text

OUTPUT:

• a new sagenb.notebook.cell.TextCell instance

new_text_cell_before(id, input='')

Inserts a new text cell before the cell with the given ID. If the ID does not match any cell in this worksheet’s list, it inserts a new cell at the end.

INPUT:

• id - an integer or a string; the ID of the cell to find
• input - a string (default: ‘’); the new cell’s input text

OUTPUT:

• a new sagenb.notebook.cell.TextCell instance

next_block_id()

next_hidden_id()

next_id()

notebook()

Return the notebook that contains this worksheet.

OUTPUT: a Notebook object.

EXAMPLES: This really returns the Notebook object that is set as a global variable of the twist module.

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('A Test Worksheet', 'admin')
sage: W.notebook()
<...sagenb.notebook.notebook.Notebook...>
sage: W.notebook() is sagenb.notebook.twist.notebook
True

owner()

ping(username)

plain_text(prompts=False, banner=True)

Return a plain-text version of the worksheet.

INPUT:

• prompts - if True format for inclusion in docstrings.

postprocess_output(out, C)

preparse(s)

Return preparsed version of input code s, ready to be sent to the Sage process for evaluation. The output is a “safe string” (no funny characters).

INPUT:

• s – a string

OUTPUT:

• a string

preparse_input(input, C)

preparse_introspection_input(input, C, introspect)

preparse_nonswitched_input(input)

Preparse the input to a Sage Notebook cell.

INPUT:

• input – a string

OUTPUT:

• a string

pretty_print()

Return True if output should be pretty printed by default.

OUTPUT:

• bool - True of False

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('A Test Worksheet', 'admin')
sage: W.pretty_print()
False
sage: W.set_pretty_print('true')
sage: W.pretty_print()
True
sage: W.quit()
sage: nb.delete()

published_version()

If this worksheet was published, return the published version of this worksheet. Otherwise, raise a ValueError.

OUTPUT: a worksheet (or raise a ValueError)

EXAMPLES:

sage: nb = sagenb.notebook.notebook.load_notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('Publish Test', 'admin')
sage: P = nb.publish_worksheet(W, 'admin')
sage: W.published_version() is P
True

publisher()

Return username of user that published this worksheet.

OUTPUT: string

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('Publish Test', 'admin')
sage: S = nb.publish_worksheet(W, 'admin')
sage: S.publisher()
'admin'

queue()

queue_id_list()

quit()

quit_if_idle(timeout)

Quit the worksheet process if it has been “idle” for more than timeout seconds, where idle is by definition that the worksheet has not reported back that it is actually computing. I.e., an ignored worksheet process (since the user closed their browser) is also considered idle, even if code is running.

rate(x, comment, username)

Set the rating on this worksheet by the given user to x and also set the given comment.

INPUT:

• x - integer
• comment - string
• username - string

EXAMPLES: We create a worksheet and rate it, then look at the ratings.

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('Publish Test', 'admin')
sage: W.rate(3, 'this is great', 'hilbert')
sage: W.ratings()
[('hilbert', 3, 'this is great')]

Note that only the last rating by a user counts:

sage: W.rate(1, 'this lacks content', 'riemann')
sage: W.rate(0, 'this lacks content', 'riemann')
sage: W.ratings()
[('hilbert', 3, 'this is great'), ('riemann', 0, 'this lacks content')]

rating()

Return overall average rating of self.

OUTPUT: float or the int -1 to mean “not rated”

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('Publish Test', 'admin')
sage: W.rating()
-1
sage: W.rate(0, 'this lacks content', 'riemann')
sage: W.rate(3, 'this is great', 'hilbert')
sage: W.rating()
1.5

ratings()

Return all the ratings of this worksheet.

OUTPUT:

• list - a reference to the list of ratings.

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('Publish Test', 'admin')
sage: W.ratings()
[]
sage: W.rate(0, 'this lacks content', 'riemann')
sage: W.rate(3, 'this is great', 'hilbert')
sage: W.ratings()
[('riemann', 0, 'this lacks content'), ('hilbert', 3, 'this is great')]

reconstruct_from_basic(obj, notebook_worksheet_directory=None)

Reconstruct as much of the worksheet’s configuration as possible from the properties that happen to be set in the basic dictionary obj.

INPUT:

• obj – a dictionary of basic Python objects
• notebook_worksheet_directory – must be given if id_number is a key of obj; otherwise not.

EXAMPLES:

sage: import sagenb.notebook.worksheet
sage: W = sagenb.notebook.worksheet.Worksheet('test', 0, tmp_dir(), system='gap', owner='sageuser', pretty_print=True, auto_publish=True)
sage: W.new_cell_after(0)
Cell 1; in=, out=
sage: b = W.basic()
sage: W0 = sagenb.notebook.worksheet.Worksheet()
sage: W0.reconstruct_from_basic(b, tmp_dir())
sage: W0.basic() == W.basic()
True

record_edit(user)

reset_interact_state()

Reset the interact state of this worksheet.

restart_sage()

Restart Sage kernel.

revert_to_last_saved_state()

revert_to_snapshot(name)

sage()

Return a started up copy of Sage initialized for computations.

If this is a published worksheet, just return None, since published worksheets must not have any compute functionality.

OUTPUT: a Sage interface

satisfies_search(search)

Return True if all words in search are in the saved text of the worksheet.

INPUT:

• search - a string that describes a search query, i.e., a space-separated collections of words.

OUTPUT:

• a boolean

save(conf_only=False)

save_snapshot(user, E=None)

set_active(user)

Set his worksheet to be active for the given user.

INPUT:

• user - string

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('Active Test', 'admin')
sage: W.move_to_archive('admin')
sage: W.is_active('admin')
False
sage: W.set_active('admin')
sage: W.is_active('admin')
True

set_auto_publish(x)

set_body(body)

set_cell_counter()

set_collaborators(v)

Set the list of collaborators to those listed in the list v of strings.

INPUT:

• v - a list of strings

EXAMPLES:

sage: nb = sagenb.notebook.notebook.load_notebook(tmp_dir()+'.sagenb')
sage: nb.add_user('sage','sage','sage@sagemath.org',force=True)
sage: nb.add_user('hilbert','sage','sage@sagemath.org',force=True)
sage: W = nb.create_new_worksheet('test1', 'admin')
sage: W.set_collaborators(['sage', 'admin', 'hilbert', 'sage'])

Note that repeats are not added multiple times and admin - the owner - isn’t added:

sage: W.collaborators()
['hilbert', 'sage']

set_docbrowser(x)

set_filename(filename)

Set the worksheet filename (actually directory).

INPUT:

• filename - string

EXAMPLES:

sage: nb = sagenb.notebook.notebook.load_notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('A Test Worksheet', 'admin')
sage: W.filename()
'admin/0'
sage: W.set_filename('admin/10')
sage: W.filename()
'admin/10'

set_filename_without_owner(nm)

Set this worksheet filename (actually directory) by getting the owner from the pre-stored owner via self.owner().

INPUT:

• nm - string

EXAMPLES:

sage: nb = sagenb.notebook.notebook.load_notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('A Test Worksheet', 'admin')
sage: W.filename()
'admin/0'
sage: W.set_filename_without_owner('5')
sage: W.filename()
'admin/5'

set_is_doc_worksheet(value)

set_last_change(username, tm)

Set the time and who last changed this worksheet.

INPUT:

• username – (string) name of a user
• tm – (float) seconds since epoch

EXAMPLES:

sage: W = sagenb.notebook.worksheet.Worksheet('test', 0, tmp_dir(), owner='sage')
sage: W.last_change()
('sage', ...)
sage: W.set_last_change('john', 1255029800)
sage: W.last_change()
('john', 1255029800.0)

We make sure these other functions have been correctly updated:

sage: W.last_edited()
1255029800.0
sage: W.last_to_edit()
'john'
sage: W.date_edited() # Output depends on timezone
time.struct_time(tm_year=2009, tm_mon=10, ...)
sage: t = W.time_since_last_edited() # just test that call works

set_name(name)

Set the name of this worksheet.

INPUT:

• name - string

EXAMPLES: We create a worksheet and change the name:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('A Test Worksheet', 'admin')
sage: W.set_name('A renamed worksheet')
sage: W.name()
u'A renamed worksheet'

set_not_computing()

set_owner(owner)

set_pretty_print(check='false')

Set whether or not output should be pretty printed by default.

INPUT:

• check - string (default: ‘false’); either ‘true’ or ‘false’.

Note

The reason the input is a string and lower case instead of a Python bool is because this gets called indirectly from JavaScript. (And, Jason Grout wrote this and didn’t realize how unpythonic this design is - it should be redone to use True/False.)

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('A Test Worksheet', 'admin')
sage: W.set_pretty_print('false')
sage: W.pretty_print()
False
sage: W.set_pretty_print('true')
sage: W.pretty_print()
True
sage: W.quit()
sage: nb.delete()

set_published_version(filename)

Set the published version of this worksheet to be the worksheet with given filename.

INPUT:

• filename - string

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('Publish Test', 'admin')
sage: P = nb.publish_worksheet(W, 'admin')  # indirect test
sage: W._Worksheet__published_version
'pub/1'
sage: W.set_published_version('pub/0')
sage: W._Worksheet__published_version
'pub/0'

set_system(system='sage')

Set the math software system in which input is evaluated by default.

INPUT:

• system - string (default: ‘sage’)

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('A Test Worksheet', 'admin')
sage: W.set_system('magma')
sage: W.system()
'magma'

set_tags(tags)

Set the tags – for now we ignore everything except ACTIVE, ARCHIVED, TRASH.

INPUT:

• tags – dictionary with keys usernames and values a list of tags, where a tag is a string or ARCHIVED, ACTIVE, TRASH.

set_user_view(user, x)

Set the view on this worksheet for the given user.

INPUT:

• user - a string
• x - int, one of the variables ACTIVE, ARCHIVED, TRASH in worksheet.py

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('Publish Test', 'admin')
sage: W.set_user_view('admin', sagenb.notebook.worksheet.ARCHIVED)
sage: W.user_view('admin') == sagenb.notebook.worksheet.ARCHIVED
True

set_worksheet_that_was_published(W)

Set the owner and id_number of the worksheet that was published to get self.

INPUT:

• W – worksheet or 2-tuple (‘owner’, id_number)

EXAMPLES:

sage: nb = sagenb.notebook.notebook.load_notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('Publish Test', 'admin')
sage: P = nb.publish_worksheet(W, 'admin')
sage: P.worksheet_that_was_published() is W
True

We fake things and make it look like P published itself:

sage: P.set_worksheet_that_was_published(P)
sage: P.worksheet_that_was_published() is P
True

show_all()

snapshot_data()

snapshot_directory()

start_next_comp()

state_number()

synchro()

synchronize(s)

system()

Return the math software system in which by default all input to the notebook is evaluated.

OUTPUT: string

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('A Test Worksheet', 'admin')
sage: W.system()
'sage'
sage: W.set_system('mathematica')
sage: W.system()
'mathematica'

system_index()

Return the index of the current system into the Notebook’s list of systems. If the current system isn’t in the list, then change to the default system. This can happen if, e.g., the list changes, e.g., when changing from a notebook with Sage installed to running a server from the same directory without Sage installed. We might as well support this.

OUTPUT: integer

tags()

A temporary trivial tags implementation.

time_idle()

time_since_last_edited()

truncated_name(max=30)

uncache_snapshot_data()

user_autosave_interval(username)

user_can_edit(user)

Return True if the user with given name is allowed to edit this worksheet.

INPUT:

• user - string

OUTPUT: bool

EXAMPLES: We create a notebook with one worksheet and two users.

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: nb.add_user('sage','sage','sage@sagemath.org',force=True)
sage: nb.add_user('william', 'william', 'wstein@sagemath.org', force=True)
sage: W = nb.create_new_worksheet('Test', 'sage')
sage: W.user_can_edit('sage')
True

At first the user ‘william’ can’t edit this worksheet:

sage: W.user_can_edit('william')
False

After adding ‘william’ as a collaborator he can edit the worksheet.

sage: W.add_collaborator('william')
sage: W.user_can_edit('william')
True

Clean up:

sage: nb.delete()

user_view(user)

Return the view that the given user has of this worksheet. If the user currently doesn’t have a view set it to ACTIVE and return ACTIVE.

INPUT:

• user - a string

OUTPUT:

• Python int - one of ACTIVE, ARCHIVED, TRASH, which are defined in worksheet.py

EXAMPLES: We create a new worksheet and get the view, which is ACTIVE:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('Publish Test', 'admin')
sage: W.user_view('admin')
1
sage: sagenb.notebook.worksheet.ACTIVE
1

Now for the admin user we move W to the archive:

sage: W.move_to_archive('admin')

The view is now archive.

sage: W.user_view('admin')
0
sage: sagenb.notebook.worksheet.ARCHIVED
0

For any other random viewer the view is set by default to ACTIVE.

sage: W.user_view('foo')
1

user_view_is(user, x)

Return True if the user view of user is x.

INPUT:

• user - a string
• x - int, one of the variables ACTIVE, ARCHIVED, TRASH in worksheet.py

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('Publish Test', 'admin')
sage: W.user_view_is('admin', sagenb.notebook.worksheet.ARCHIVED)
False
sage: W.user_view_is('admin', sagenb.notebook.worksheet.ACTIVE)
True

viewer_names(max=None)

Returns a string of the non-owner viewers on this worksheet.

INPUT:

• max - an integer. If this is specified, then only max number of viewers are shown.

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('test1', 'admin')
sage: C = W.viewers(); C
[]
sage: C.append('sage')
sage: C.append('wstein')
sage: W.viewer_names()
'sage, wstein'
sage: W.viewer_names(max=1)
'sage, ...'

viewers()

Return list of viewers of this worksheet.

OUTPUT:

• list - of string

EXAMPLES:

sage: nb = sagenb.notebook.notebook.Notebook(tmp_dir()+'.sagenb')
sage: nb.add_user('sage','sage','sage@sagemath.org',force=True)
sage: nb.add_user('hilbert','sage','sage@sagemath.org',force=True)
sage: W = nb.create_new_worksheet('test1', 'admin')
sage: W.add_viewer('hilbert')
sage: W.viewers()
['hilbert']
sage: W.add_viewer('sage')
sage: W.viewers()
['hilbert', 'sage']

warn_about_other_person_editing(username, threshold=100)

Check to see if another user besides username was the last to edit this worksheet during the last threshold seconds. If so, return True and that user name. If not, return False.

INPUT:

• username - user who would like to edit this file.
• threshold - number of seconds, so if there was no activity on this worksheet for this many seconds, then editing is considered safe.

worksheet_command(cmd)

worksheet_html_filename()

Return path to the underlying plane text file that defines the worksheet.

worksheet_that_was_published()

Return owner and id_number of the worksheet that was published to get this worksheet, if this worksheet was published. Otherwise just return this worksheet.

OUTPUT: Worksheet

EXAMPLES:

sage: nb = sagenb.notebook.notebook.load_notebook(tmp_dir()+'.sagenb')
sage: W = nb.create_new_worksheet('Publish Test', 'admin')
sage: W.worksheet_that_was_published() is W
True
sage: S = nb.publish_worksheet(W, 'admin')
sage: S.worksheet_that_was_published() is S
False
sage: S.worksheet_that_was_published() is W
True

sagenb.notebook.worksheet.Worksheet_from_basic(obj, notebook_worksheet_directory)

INPUT:

• obj – a dictionary (a basic Python objet) from which a

  worksheet can be reconstructed.

• notebook_worksheet_directory - string; the directory in

  which the notebook object that contains this worksheet stores worksheets, i.e., nb.worksheet_directory().

OUTPUT:

• a worksheet

EXAMPLES:

sage: import sagenb.notebook.worksheet
sage: W = sagenb.notebook.worksheet.Worksheet('test', 0, tmp_dir(), system='gap', owner='sageuser', pretty_print=True, auto_publish=True)
sage: _=W.new_cell_after(0); B = W.basic()
sage: W0 = sagenb.notebook.worksheet.Worksheet_from_basic(B, tmp_dir())
sage: W0.basic() == B
True

sagenb.notebook.worksheet.after_first_word(s)

Return everything after the first whitespace in the string s. Returns the empty string if there is nothing after the first whitespace.

INPUT:

• s - string

OUTPUT: a string

EXAMPLES:

sage: from sagenb.notebook.worksheet import after_first_word
sage: after_first_word("\%gap\n2+2\n")
'2+2\n'
sage: after_first_word("2+2")
''

sagenb.notebook.worksheet.convert_time_to_string(t)

sagenb.notebook.worksheet.dictify(s)

INPUT:

• s - a string like ‘in=5, out=7’

OUTPUT:

• dict - such as ‘in’:5, ‘out’:7

sagenb.notebook.worksheet.extract_first_compute_cell(text)

INPUT: a block of wiki-like marked up text OUTPUT:

• meta - meta information about the cell (as a dictionary)
• input - string, the input text
• output - string, the output text
• end - integer, first position after }}} in text.

sagenb.notebook.worksheet.extract_name(text)

sagenb.notebook.worksheet.extract_system(text)

sagenb.notebook.worksheet.extract_text_before_first_compute_cell(text)

OUTPUT: Everything in text up to the first {{{.

sagenb.notebook.worksheet.first_word(s)

Returns everything before the first whitespace in the string s. If there is no whitespace, then the entire string s is returned.

EXAMPLES:

sage: from sagenb.notebook.worksheet import first_word
sage: first_word("\%gap\n2+2\n")
'\\%gap'
sage: first_word("2+2")
'2+2'

sagenb.notebook.worksheet.format_completions_as_html(cell_id, completions)

Returns tabular HTML code for a list of introspection completions.

INPUT:

• cell_id - an integer or a string; the ID of the ambient cell
• completions - a nested list of completions in row-major order

OUTPUT:

• a string

sagenb.notebook.worksheet.ignore_prompts_and_output(aString)

Given a string s that defines an input block of code, if the first line begins in sage: (or >>>), strip out all lines that don’t begin in either sage: (or >>>) or ..., and remove all sage: (or >>>) and ... from the beginning of the remaining lines.

TESTS:

sage: test1 = sagenb.notebook.worksheet.__internal_test1
sage: test1 == sagenb.notebook.worksheet.ignore_prompts_and_output(test1)
True
sage: test2 = sagenb.notebook.worksheet.__internal_test2
sage: sagenb.notebook.worksheet.ignore_prompts_and_output(test2)
'2 + 2\n'

sagenb.notebook.worksheet.next_available_id(v)

Return smallest nonnegative integer not in v.

sagenb.notebook.worksheet.split_search_string_into_keywords(s)

The point of this function is to allow for searches like this:

"ws 7" foo bar  Modular  '"the" end'

i.e., where search terms can be in quotes and the different quote types can be mixed.

INPUT:

• s - a string

OUTPUT:

• list - a list of strings

sagenb.notebook.worksheet.update_worksheets()

Iterate through and “update” all the worksheets. This is needed for things like wall timeouts.

sagenb.notebook.worksheet.worksheet_filename(name, owner)

Return the relative directory name of this worksheet with given name and owner.

INPUT:

• name - string, which may have spaces and funny characters, which are replaced by underscores.
• owner - string, with no spaces or funny characters

OUTPUT: string

EXAMPLES:

sage: sagenb.notebook.worksheet.worksheet_filename('Example worksheet 3', 'sage10')
'sage10/Example_worksheet_3'
sage: sagenb.notebook.worksheet.worksheet_filename('Example#%&! work\sheet 3', 'sage10')
'sage10/Example_____work_sheet_3'