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#!/usr/bin/python
#
# Copyright (C) 2009 Google Inc.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""Converts Python data into data for Google Visualization API clients.
This library can be used to create a google.visualization.DataTable usable by
visualizations built on the Google Visualization API. Output formats are raw
JSON, JSON response, and JavaScript.
See http://code.google.com/apis/visualization/ for documentation on the
Google Visualization API.
"""
__author__ = "Amit Weinstein, Misha Seltzer"
import cgi
import datetime
import types
class DataTableException(Exception):
"""The general exception object thrown by DataTable."""
pass
class DataTable(object):
"""Wraps the data to convert to a Google Visualization API DataTable.
Create this object, populate it with data, then call one of the ToJS...
methods to return a string representation of the data in the format described.
You can clear all data from the object to reuse it, but you cannot clear
individual cells, rows, or columns. You also cannot modify the table schema
specified in the class constructor.
You can add new data one or more rows at a time. All data added to an
instantiated DataTable must conform to the schema passed in to __init__().
You can reorder the columns in the output table, and also specify row sorting
order by column. The default column order is according to the original
table_description parameter. Default row sort order is ascending, by column
1 values. For a dictionary, we sort the keys for order.
The data and the table_description are closely tied, as described here:
The table schema is defined in the class constructor's table_description
parameter. The user defines each column using a tuple of
(id[, type[, label[, custom_properties]]]). The default value for type is
string, label is the same as ID if not specified, and custom properties is
an empty dictionary if not specified.
table_description is a dictionary or list, containing one or more column
descriptor tuples, nested dictionaries, and lists. Each dictionary key, list
element, or dictionary element must eventually be defined as
a column description tuple. Here's an example of a dictionary where the key
is a tuple, and the value is a list of two tuples:
{('a', 'number'): [('b', 'number'), ('c', 'string')]}
This flexibility in data entry enables you to build and manipulate your data
in a Python structure that makes sense for your program.
Add data to the table using the same nested design as the table's
table_description, replacing column descriptor tuples with cell data, and
each row is an element in the top level collection. This will be a bit
clearer after you look at the following examples showing the
table_description, matching data, and the resulting table:
Columns as list of tuples [col1, col2, col3]
table_description: [('a', 'number'), ('b', 'string')]
AppendData( [[1, 'z'], [2, 'w'], [4, 'o'], [5, 'k']] )
Table:
a b <--- these are column ids/labels
1 z
2 w
4 o
5 k
Dictionary of columns, where key is a column, and value is a list of
columns {col1: [col2, col3]}
table_description: {('a', 'number'): [('b', 'number'), ('c', 'string')]}
AppendData( data: {1: [2, 'z'], 3: [4, 'w']}
Table:
a b c
1 2 z
3 4 w
Dictionary where key is a column, and the value is itself a dictionary of
columns {col1: {col2, col3}}
table_description: {('a', 'number'): {'b': 'number', 'c': 'string'}}
AppendData( data: {1: {'b': 2, 'c': 'z'}, 3: {'b': 4, 'c': 'w'}}
Table:
a b c
1 2 z
3 4 w
"""
def __init__(self, table_description, data=None, custom_properties=None):
"""Initialize the data table from a table schema and (optionally) data.
See the class documentation for more information on table schema and data
values.
Args:
table_description: A table schema, following one of the formats described
in TableDescriptionParser(). Schemas describe the
column names, data types, and labels. See
TableDescriptionParser() for acceptable formats.
data: Optional. If given, fills the table with the given data. The data
structure must be consistent with schema in table_description. See
the class documentation for more information on acceptable data. You
can add data later by calling AppendData().
custom_properties: Optional. A dictionary from string to string that
goes into the table's custom properties. This can be
later changed by changing self.custom_properties.
Raises:
DataTableException: Raised if the data and the description did not match,
or did not use the supported formats.
"""
self.__columns = self.TableDescriptionParser(table_description)
self.__data = []
self.custom_properties = {}
if custom_properties is not None:
self.custom_properties = custom_properties
if data:
self.LoadData(data)
@staticmethod
def _EscapeValueForCsv(v):
"""Escapes the value for use in a CSV file.
Puts the string in double-quotes, and escapes any inner double-quotes by
doubling them.
Args:
v: The value to escape.
Returns:
The escaped values.
"""
return '"%s"' % v.replace('"', '""')
@staticmethod
def _EscapeValue(v):
"""Puts the string in quotes, and escapes any inner quotes and slashes."""
if isinstance(v, unicode):
# Here we use repr as in the usual case, but on unicode strings, it
# also escapes the unicode characters (which we want to leave as is).
# So, after repr() we decode using raw-unicode-escape, which decodes
# only the unicode characters, and leaves all the rest (", ', \n and
# more) escaped.
# We don't take the first character, because repr adds a u in the
# beginning of the string (usual repr output for unicode is u'...').
return repr(v).decode("raw-unicode-escape")[1:]
# Here we use python built-in escaping mechanism for string using repr.
return repr(str(v))
@staticmethod
def _EscapeCustomProperties(custom_properties):
"""Escapes the custom properties dictionary."""
l = []
for key, value in custom_properties.iteritems():
l.append("%s:%s" % (DataTable._EscapeValue(key),
DataTable._EscapeValue(value)))
return "{%s}" % ",".join(l)
@staticmethod
def SingleValueToJS(value, value_type, escape_func=None):
"""Translates a single value and type into a JS value.
Internal helper method.
Args:
value: The value which should be converted
value_type: One of "string", "number", "boolean", "date", "datetime" or
"timeofday".
escape_func: The function to use for escaping strings.
Returns:
The proper JS format (as string) of the given value according to the
given value_type. For None, we simply return "null".
If a tuple is given, it should be in one of the following forms:
- (value, formatted value)
- (value, formatted value, custom properties)
where the formatted value is a string, and custom properties is a
dictionary of the custom properties for this cell.
To specify custom properties without specifying formatted value, one can
pass None as the formatted value.
One can also have a null-valued cell with formatted value and/or custom
properties by specifying None for the value.
This method ignores the custom properties except for checking that it is a
dictionary. The custom properties are handled in the ToJSon and ToJSCode
methods.
The real type of the given value is not strictly checked. For example,
any type can be used for string - as we simply take its str( ) and for
boolean value we just check "if value".
Examples:
SingleValueToJS(None, "boolean") returns "null"
SingleValueToJS(False, "boolean") returns "false"
SingleValueToJS((5, "5$"), "number") returns ("5", "'5$'")
SingleValueToJS((None, "5$"), "number") returns ("null", "'5$'")
Raises:
DataTableException: The value and type did not match in a not-recoverable
way, for example given value 'abc' for type 'number'.
"""
if escape_func is None:
escape_func = DataTable._EscapeValue
if isinstance(value, tuple):
# In case of a tuple, we run the same function on the value itself and
# add the formatted value.
if (len(value) not in [2, 3] or
(len(value) == 3 and not isinstance(value[2], dict))):
raise DataTableException("Wrong format for value and formatting - %s." %
str(value))
if not isinstance(value[1], types.StringTypes + (types.NoneType,)):
raise DataTableException("Formatted value is not string, given %s." %
type(value[1]))
js_value = DataTable.SingleValueToJS(value[0], value_type)
if value[1] is None:
return (js_value, None)
return (js_value, escape_func(value[1]))
# The standard case - no formatting.
t_value = type(value)
if value is None:
return "null"
if value_type == "boolean":
if value:
return "true"
return "false"
elif value_type == "number":
if isinstance(value, (int, long, float)):
return str(value)
raise DataTableException("Wrong type %s when expected number" % t_value)
elif value_type == "string":
if isinstance(value, tuple):
raise DataTableException("Tuple is not allowed as string value.")
return escape_func(value)
elif value_type == "date":
if not isinstance(value, (datetime.date, datetime.datetime)):
raise DataTableException("Wrong type %s when expected date" % t_value)
# We need to shift the month by 1 to match JS Date format
return "new Date(%d,%d,%d)" % (value.year, value.month - 1, value.day)
elif value_type == "timeofday":
if not isinstance(value, (datetime.time, datetime.datetime)):
raise DataTableException("Wrong type %s when expected time" % t_value)
return "[%d,%d,%d]" % (value.hour, value.minute, value.second)
elif value_type == "datetime":
if not isinstance(value, datetime.datetime):
raise DataTableException("Wrong type %s when expected datetime" %
t_value)
return "new Date(%d,%d,%d,%d,%d,%d)" % (value.year,
value.month - 1, # To match JS
value.day,
value.hour,
value.minute,
value.second)
# If we got here, it means the given value_type was not one of the
# supported types.
raise DataTableException("Unsupported type %s" % value_type)
@staticmethod
def ColumnTypeParser(description):
"""Parses a single column description. Internal helper method.
Args:
description: a column description in the possible formats:
'id'
('id',)
('id', 'type')
('id', 'type', 'label')
('id', 'type', 'label', {'custom_prop1': 'custom_val1'})
Returns:
Dictionary with the following keys: id, label, type, and
custom_properties where:
- If label not given, it equals the id.
- If type not given, string is used by default.
- If custom properties are not given, an empty dictionary is used by
default.
Raises:
DataTableException: The column description did not match the RE, or
unsupported type was passed.
"""
if not description:
raise DataTableException("Description error: empty description given")
if not isinstance(description, (types.StringTypes, tuple)):
raise DataTableException("Description error: expected either string or "
"tuple, got %s." % type(description))
if isinstance(description, types.StringTypes):
description = (description,)
# According to the tuple's length, we fill the keys
# We verify everything is of type string
for elem in description[:3]:
if not isinstance(elem, types.StringTypes):
raise DataTableException("Description error: expected tuple of "
"strings, current element of type %s." %
type(elem))
desc_dict = {"id": description[0],
"label": description[0],
"type": "string",
"custom_properties": {}}
if len(description) > 1:
desc_dict["type"] = description[1].lower()
if len(description) > 2:
desc_dict["label"] = description[2]
if len(description) > 3:
if not isinstance(description[3], dict):
raise DataTableException("Description error: expected custom "
"properties of type dict, current element "
"of type %s." % type(description[3]))
desc_dict["custom_properties"] = description[3]
if len(description) > 4:
raise DataTableException("Description error: tuple of length > 4")
if desc_dict["type"] not in ["string", "number", "boolean",
"date", "datetime", "timeofday"]:
raise DataTableException(
"Description error: unsupported type '%s'" % desc_dict["type"])
return desc_dict
@staticmethod
def TableDescriptionParser(table_description, depth=0):
"""Parses the table_description object for internal use.
Parses the user-submitted table description into an internal format used
by the Python DataTable class. Returns the flat list of parsed columns.
Args:
table_description: A description of the table which should comply
with one of the formats described below.
depth: Optional. The depth of the first level in the current description.
Used by recursive calls to this function.
Returns:
List of columns, where each column represented by a dictionary with the
keys: id, label, type, depth, container which means the following:
- id: the id of the column
- name: The name of the column
- type: The datatype of the elements in this column. Allowed types are
described in ColumnTypeParser().
- depth: The depth of this column in the table description
- container: 'dict', 'iter' or 'scalar' for parsing the format easily.
- custom_properties: The custom properties for this column.
The returned description is flattened regardless of how it was given.
Raises:
DataTableException: Error in a column description or in the description
structure.
Examples:
A column description can be of the following forms:
'id'
('id',)
('id', 'type')
('id', 'type', 'label')
('id', 'type', 'label', {'custom_prop1': 'custom_val1'})
or as a dictionary:
'id': 'type'
'id': ('type',)
'id': ('type', 'label')
'id': ('type', 'label', {'custom_prop1': 'custom_val1'})
If the type is not specified, we treat it as string.
If no specific label is given, the label is simply the id.
If no custom properties are given, we use an empty dictionary.
input: [('a', 'date'), ('b', 'timeofday', 'b', {'foo': 'bar'})]
output: [{'id': 'a', 'label': 'a', 'type': 'date',
'depth': 0, 'container': 'iter', 'custom_properties': {}},
{'id': 'b', 'label': 'b', 'type': 'timeofday',
'depth': 0, 'container': 'iter',
'custom_properties': {'foo': 'bar'}}]
input: {'a': [('b', 'number'), ('c', 'string', 'column c')]}
output: [{'id': 'a', 'label': 'a', 'type': 'string',
'depth': 0, 'container': 'dict', 'custom_properties': {}},
{'id': 'b', 'label': 'b', 'type': 'number',
'depth': 1, 'container': 'iter', 'custom_properties': {}},
{'id': 'c', 'label': 'column c', 'type': 'string',
'depth': 1, 'container': 'iter', 'custom_properties': {}}]
input: {('a', 'number', 'column a'): { 'b': 'number', 'c': 'string'}}
output: [{'id': 'a', 'label': 'column a', 'type': 'number',
'depth': 0, 'container': 'dict', 'custom_properties': {}},
{'id': 'b', 'label': 'b', 'type': 'number',
'depth': 1, 'container': 'dict', 'custom_properties': {}},
{'id': 'c', 'label': 'c', 'type': 'string',
'depth': 1, 'container': 'dict', 'custom_properties': {}}]
input: { ('w', 'string', 'word'): ('c', 'number', 'count') }
output: [{'id': 'w', 'label': 'word', 'type': 'string',
'depth': 0, 'container': 'dict', 'custom_properties': {}},
{'id': 'c', 'label': 'count', 'type': 'number',
'depth': 1, 'container': 'scalar', 'custom_properties': {}}]
input: {'a': ('number', 'column a'), 'b': ('string', 'column b')}
output: [{'id': 'a', 'label': 'column a', 'type': 'number', 'depth': 0,
'container': 'dict', 'custom_properties': {}},
{'id': 'b', 'label': 'column b', 'type': 'string', 'depth': 0,
'container': 'dict', 'custom_properties': {}}
NOTE: there might be ambiguity in the case of a dictionary representation
of a single column. For example, the following description can be parsed
in 2 different ways: {'a': ('b', 'c')} can be thought of a single column
with the id 'a', of type 'b' and the label 'c', or as 2 columns: one named
'a', and the other named 'b' of type 'c'. We choose the first option by
default, and in case the second option is the right one, it is possible to
make the key into a tuple (i.e. {('a',): ('b', 'c')}) or add more info
into the tuple, thus making it look like this: {'a': ('b', 'c', 'b', {})}
-- second 'b' is the label, and {} is the custom properties field.
"""
# For the recursion step, we check for a scalar object (string or tuple)
if isinstance(table_description, (types.StringTypes, tuple)):
parsed_col = DataTable.ColumnTypeParser(table_description)
parsed_col["depth"] = depth
parsed_col["container"] = "scalar"
return [parsed_col]
# Since it is not scalar, table_description must be iterable.
if not hasattr(table_description, "__iter__"):
raise DataTableException("Expected an iterable object, got %s" %
type(table_description))
if not isinstance(table_description, dict):
# We expects a non-dictionary iterable item.
columns = []
for desc in table_description:
parsed_col = DataTable.ColumnTypeParser(desc)
parsed_col["depth"] = depth
parsed_col["container"] = "iter"
columns.append(parsed_col)
if not columns:
raise DataTableException("Description iterable objects should not"
" be empty.")
return columns
# The other case is a dictionary
if not table_description:
raise DataTableException("Empty dictionaries are not allowed inside"
" description")
# To differentiate between the two cases of more levels below or this is
# the most inner dictionary, we consider the number of keys (more then one
# key is indication for most inner dictionary) and the type of the key and
# value in case of only 1 key (if the type of key is string and the type of
# the value is a tuple of 0-3 items, we assume this is the most inner
# dictionary).
# NOTE: this way of differentiating might create ambiguity. See docs.
if (len(table_description) != 1 or
(isinstance(table_description.keys()[0], types.StringTypes) and
isinstance(table_description.values()[0], tuple) and
len(table_description.values()[0]) < 4)):
# This is the most inner dictionary. Parsing types.
columns = []
# We sort the items, equivalent to sort the keys since they are unique
for key, value in sorted(table_description.items()):
# We parse the column type as (key, type) or (key, type, label) using
# ColumnTypeParser.
if isinstance(value, tuple):
parsed_col = DataTable.ColumnTypeParser((key,) + value)
else:
parsed_col = DataTable.ColumnTypeParser((key, value))
parsed_col["depth"] = depth
parsed_col["container"] = "dict"
columns.append(parsed_col)
return columns
# This is an outer dictionary, must have at most one key.
parsed_col = DataTable.ColumnTypeParser(table_description.keys()[0])
parsed_col["depth"] = depth
parsed_col["container"] = "dict"
return ([parsed_col] +
DataTable.TableDescriptionParser(table_description.values()[0],
depth=depth + 1))
@property
def columns(self):
"""Returns the parsed table description."""
return self.__columns
def NumberOfRows(self):
"""Returns the number of rows in the current data stored in the table."""
return len(self.__data)
def SetRowsCustomProperties(self, rows, custom_properties):
"""Sets the custom properties for given row(s).
Can accept a single row or an iterable of rows.
Sets the given custom properties for all specified rows.
Args:
rows: The row, or rows, to set the custom properties for.
custom_properties: A string to string dictionary of custom properties to
set for all rows.
"""
if not hasattr(rows, "__iter__"):
rows = [rows]
for row in rows:
self.__data[row] = (self.__data[row][0], custom_properties)
def LoadData(self, data, custom_properties=None):
"""Loads new rows to the data table, clearing existing rows.
May also set the custom_properties for the added rows. The given custom
properties dictionary specifies the dictionary that will be used for *all*
given rows.
Args:
data: The rows that the table will contain.
custom_properties: A dictionary of string to string to set as the custom
properties for all rows.
"""
self.__data = []
self.AppendData(data, custom_properties)
def AppendData(self, data, custom_properties=None):
"""Appends new data to the table.
Data is appended in rows. Data must comply with
the table schema passed in to __init__(). See SingleValueToJS() for a list
of acceptable data types. See the class documentation for more information
and examples of schema and data values.
Args:
data: The row to add to the table. The data must conform to the table
description format.
custom_properties: A dictionary of string to string, representing the
custom properties to add to all the rows.
Raises:
DataTableException: The data structure does not match the description.
"""
# If the maximal depth is 0, we simply iterate over the data table
# lines and insert them using _InnerAppendData. Otherwise, we simply
# let the _InnerAppendData handle all the levels.
if not self.__columns[-1]["depth"]:
for row in data:
self._InnerAppendData(({}, custom_properties), row, 0)
else:
self._InnerAppendData(({}, custom_properties), data, 0)
def _InnerAppendData(self, prev_col_values, data, col_index):
"""Inner function to assist LoadData."""
# We first check that col_index has not exceeded the columns size
if col_index >= len(self.__columns):
raise DataTableException("The data does not match description, too deep")
# Dealing with the scalar case, the data is the last value.
if self.__columns[col_index]["container"] == "scalar":
prev_col_values[0][self.__columns[col_index]["id"]] = data
self.__data.append(prev_col_values)
return
if self.__columns[col_index]["container"] == "iter":
if not hasattr(data, "__iter__") or isinstance(data, dict):
raise DataTableException("Expected iterable object, got %s" %
type(data))
# We only need to insert the rest of the columns
# If there are less items than expected, we only add what there is.
for value in data:
if col_index >= len(self.__columns):
raise DataTableException("Too many elements given in data")
prev_col_values[0][self.__columns[col_index]["id"]] = value
col_index += 1
self.__data.append(prev_col_values)
return
# We know the current level is a dictionary, we verify the type.
if not isinstance(data, dict):
raise DataTableException("Expected dictionary at current level, got %s" %
type(data))
# We check if this is the last level
if self.__columns[col_index]["depth"] == self.__columns[-1]["depth"]:
# We need to add the keys in the dictionary as they are
for col in self.__columns[col_index:]:
if col["id"] in data:
prev_col_values[0][col["id"]] = data[col["id"]]
self.__data.append(prev_col_values)
return
# We have a dictionary in an inner depth level.
if not data.keys():
# In case this is an empty dictionary, we add a record with the columns
# filled only until this point.
self.__data.append(prev_col_values)
else:
for key in sorted(data):
col_values = dict(prev_col_values[0])
col_values[self.__columns[col_index]["id"]] = key
self._InnerAppendData((col_values, prev_col_values[1]),
data[key], col_index + 1)
def _PreparedData(self, order_by=()):
"""Prepares the data for enumeration - sorting it by order_by.
Args:
order_by: Optional. Specifies the name of the column(s) to sort by, and
(optionally) which direction to sort in. Default sort direction
is asc. Following formats are accepted:
"string_col_name" -- For a single key in default (asc) order.
("string_col_name", "asc|desc") -- For a single key.
[("col_1","asc|desc"), ("col_2","asc|desc")] -- For more than
one column, an array of tuples of (col_name, "asc|desc").
Returns:
The data sorted by the keys given.
Raises:
DataTableException: Sort direction not in 'asc' or 'desc'
"""
if not order_by:
return self.__data
proper_sort_keys = []
if isinstance(order_by, types.StringTypes) or (
isinstance(order_by, tuple) and len(order_by) == 2 and
order_by[1].lower() in ["asc", "desc"]):
order_by = (order_by,)
for key in order_by:
if isinstance(key, types.StringTypes):
proper_sort_keys.append((key, 1))
elif (isinstance(key, (list, tuple)) and len(key) == 2 and
key[1].lower() in ("asc", "desc")):
proper_sort_keys.append((key[0], key[1].lower() == "asc" and 1 or -1))
else:
raise DataTableException("Expected tuple with second value: "
"'asc' or 'desc'")
def SortCmpFunc(row1, row2):
"""cmp function for sorted. Compares by keys and 'asc'/'desc' keywords."""
for key, asc_mult in proper_sort_keys:
cmp_result = asc_mult * cmp(row1[0].get(key), row2[0].get(key))
if cmp_result:
return cmp_result
return 0
return sorted(self.__data, cmp=SortCmpFunc)
def ToJSCode(self, name, columns_order=None, order_by=()):
"""Writes the data table as a JS code string.
This method writes a string of JS code that can be run to
generate a DataTable with the specified data. Typically used for debugging
only.
Args:
name: The name of the table. The name would be used as the DataTable's
variable name in the created JS code.
columns_order: Optional. Specifies the order of columns in the
output table. Specify a list of all column IDs in the order
in which you want the table created.
Note that you must list all column IDs in this parameter,
if you use it.
order_by: Optional. Specifies the name of the column(s) to sort by.
Passed as is to _PreparedData.
Returns:
A string of JS code that, when run, generates a DataTable with the given
name and the data stored in the DataTable object.
Example result:
"var tab1 = new google.visualization.DataTable();
tab1.addColumn('string', 'a', 'a');
tab1.addColumn('number', 'b', 'b');
tab1.addColumn('boolean', 'c', 'c');
tab1.addRows(10);
tab1.setCell(0, 0, 'a');
tab1.setCell(0, 1, 1, null, {'foo': 'bar'});
tab1.setCell(0, 2, true);
...
tab1.setCell(9, 0, 'c');
tab1.setCell(9, 1, 3, '3$');
tab1.setCell(9, 2, false);"
Raises:
DataTableException: The data does not match the type.
"""
if columns_order is None:
columns_order = [col["id"] for col in self.__columns]
col_dict = dict([(col["id"], col) for col in self.__columns])
# We first create the table with the given name
jscode = "var %s = new google.visualization.DataTable();\n" % name
if self.custom_properties:
jscode += "%s.setTableProperties(%s);\n" % (
name, DataTable._EscapeCustomProperties(self.custom_properties))
# We add the columns to the table
for i, col in enumerate(columns_order):
jscode += "%s.addColumn('%s', %s, %s);\n" % (
name,
col_dict[col]["type"],
DataTable._EscapeValue(col_dict[col]["label"]),
DataTable._EscapeValue(col_dict[col]["id"]))
if col_dict[col]["custom_properties"]:
jscode += "%s.setColumnProperties(%d, %s);\n" % (
name, i, DataTable._EscapeCustomProperties(
col_dict[col]["custom_properties"]))
jscode += "%s.addRows(%d);\n" % (name, len(self.__data))
# We now go over the data and add each row
for (i, (row, cp)) in enumerate(self._PreparedData(order_by)):
# We add all the elements of this row by their order
for (j, col) in enumerate(columns_order):
if col not in row or row[col] is None:
continue
cell_cp = ""
if isinstance(row[col], tuple) and len(row[col]) == 3:
cell_cp = ", %s" % DataTable._EscapeCustomProperties(row[col][2])
value = self.SingleValueToJS(row[col], col_dict[col]["type"])
if isinstance(value, tuple):
# We have a formatted value or custom property as well
if value[1] is None:
value = (value[0], "null")
jscode += ("%s.setCell(%d, %d, %s, %s%s);\n" %
(name, i, j, value[0], value[1], cell_cp))
else:
jscode += "%s.setCell(%d, %d, %s);\n" % (name, i, j, value)
if cp:
jscode += "%s.setRowProperties(%d, %s);\n" % (
name, i, DataTable._EscapeCustomProperties(cp))
return jscode
def ToHtml(self, columns_order=None, order_by=()):
"""Writes the data table as an HTML table code string.
Args:
columns_order: Optional. Specifies the order of columns in the
output table. Specify a list of all column IDs in the order
in which you want the table created.
Note that you must list all column IDs in this parameter,
if you use it.
order_by: Optional. Specifies the name of the column(s) to sort by.
Passed as is to _PreparedData.
Returns:
An HTML table code string.
Example result (the result is without the newlines):
<html><body><table border='1'>
<thead><tr><th>a</th><th>b</th><th>c</th></tr></thead>
<tbody>
<tr><td>1</td><td>"z"</td><td>2</td></tr>
<tr><td>"3$"</td><td>"w"</td><td></td></tr>
</tbody>
</table></body></html>
Raises:
DataTableException: The data does not match the type.
"""
table_template = "<html><body><table border='1'>%s</table></body></html>"
columns_template = "<thead><tr>%s</tr></thead>"
rows_template = "<tbody>%s</tbody>"
row_template = "<tr>%s</tr>"
header_cell_template = "<th>%s</th>"
cell_template = "<td>%s</td>"
if columns_order is None:
columns_order = [col["id"] for col in self.__columns]
col_dict = dict([(col["id"], col) for col in self.__columns])
columns_list = []
for col in columns_order:
columns_list.append(header_cell_template %
cgi.escape(col_dict[col]["label"]))
columns_html = columns_template % "".join(columns_list)
rows_list = []
# We now go over the data and add each row
for row, unused_cp in self._PreparedData(order_by):
cells_list = []
# We add all the elements of this row by their order
for col in columns_order:
# For empty string we want empty quotes ("").
value = ""
if col in row and row[col] is not None:
value = self.SingleValueToJS(row[col], col_dict[col]["type"])
if isinstance(value, tuple):
# We have a formatted value and we're going to use it
cells_list.append(cell_template % cgi.escape(value[1]))
else:
cells_list.append(cell_template % cgi.escape(value))
rows_list.append(row_template % "".join(cells_list))
rows_html = rows_template % "".join(rows_list)
return table_template % (columns_html + rows_html)
def ToCsv(self, columns_order=None, order_by=(), separator=", "):
"""Writes the data table as a CSV string.
Args:
columns_order: Optional. Specifies the order of columns in the
output table. Specify a list of all column IDs in the order
in which you want the table created.
Note that you must list all column IDs in this parameter,
if you use it.
order_by: Optional. Specifies the name of the column(s) to sort by.
Passed as is to _PreparedData.
separator: Optional. The separator to use between the values.
Returns:
A CSV string representing the table.
Example result:
'a', 'b', 'c'
1, 'z', 2
3, 'w', ''
Raises:
DataTableException: The data does not match the type.
"""
if columns_order is None:
columns_order = [col["id"] for col in self.__columns]
col_dict = dict([(col["id"], col) for col in self.__columns])
columns_list = []
for col in columns_order:
columns_list.append(DataTable._EscapeValueForCsv(col_dict[col]["label"]))
columns_line = separator.join(columns_list)
rows_list = []
# We now go over the data and add each row
for row, unused_cp in self._PreparedData(order_by):
cells_list = []
# We add all the elements of this row by their order
for col in columns_order:
value = '""'
if col in row and row[col] is not None:
value = self.SingleValueToJS(row[col], col_dict[col]["type"],
DataTable._EscapeValueForCsv)
if isinstance(value, tuple):
# We have a formatted value. Using it only for date/time types.
if col_dict[col]["type"] in ["date", "datetime", "timeofday"]:
cells_list.append(value[1])
else:
cells_list.append(value[0])
else:
# We need to quote date types, because they contain commas.
if (col_dict[col]["type"] in ["date", "datetime", "timeofday"] and
value != '""'):
value = '"%s"' % value
cells_list.append(value)
rows_list.append(separator.join(cells_list))
rows = "\n".join(rows_list)
return "%s\n%s" % (columns_line, rows)
def ToTsvExcel(self, columns_order=None, order_by=()):
"""Returns a file in tab-separated-format readable by MS Excel.
Returns a file in UTF-16 little endian encoding, with tabs separating the
values.
Args:
columns_order: Delegated to ToCsv.
order_by: Delegated to ToCsv.
Returns:
A tab-separated little endian UTF16 file representing the table.
"""
return self.ToCsv(
columns_order, order_by, separator="\t").encode("UTF-16LE")
def ToJSon(self, columns_order=None, order_by=()):
"""Writes a JSON string that can be used in a JS DataTable constructor.
This method writes a JSON string that can be passed directly into a Google
Visualization API DataTable constructor. Use this output if you are
hosting the visualization HTML on your site, and want to code the data
table in Python. Pass this string into the
google.visualization.DataTable constructor, e.g,:
... on my page that hosts my visualization ...
google.setOnLoadCallback(drawTable);
function drawTable() {
var data = new google.visualization.DataTable(_my_JSon_string, 0.6);
myTable.draw(data);
}
Args:
columns_order: Optional. Specifies the order of columns in the
output table. Specify a list of all column IDs in the order
in which you want the table created.
Note that you must list all column IDs in this parameter,
if you use it.
order_by: Optional. Specifies the name of the column(s) to sort by.
Passed as is to _PreparedData().
Returns:
A JSon constructor string to generate a JS DataTable with the data
stored in the DataTable object.
Example result (the result is without the newlines):
{cols: [{id:'a',label:'a',type:'number'},
{id:'b',label:'b',type:'string'},
{id:'c',label:'c',type:'number'}],
rows: [{c:[{v:1},{v:'z'},{v:2}]}, c:{[{v:3,f:'3$'},{v:'w'},{v:null}]}],
p: {'foo': 'bar'}}
Raises:
DataTableException: The data does not match the type.
"""
if columns_order is None:
columns_order = [col["id"] for col in self.__columns]
col_dict = dict([(col["id"], col) for col in self.__columns])
# Creating the columns jsons
cols_jsons = []
for col_id in columns_order:
d = dict(col_dict[col_id])
d["id"] = DataTable._EscapeValue(d["id"])
d["label"] = DataTable._EscapeValue(d["label"])
d["cp"] = ""
if col_dict[col_id]["custom_properties"]:
d["cp"] = ",p:%s" % DataTable._EscapeCustomProperties(
col_dict[col_id]["custom_properties"])
cols_jsons.append(
"{id:%(id)s,label:%(label)s,type:'%(type)s'%(cp)s}" % d)
# Creating the rows jsons
rows_jsons = []
for row, cp in self._PreparedData(order_by):
cells_jsons = []
for col in columns_order:
# We omit the {v:null} for a None value of the not last column
value = row.get(col, None)
if value is None and col != columns_order[-1]:
cells_jsons.append("")
else:
value = self.SingleValueToJS(value, col_dict[col]["type"])
if isinstance(value, tuple):
# We have a formatted value or custom property as well
if len(row.get(col)) == 3:
if value[1] is None:
cells_jsons.append("{v:%s,p:%s}" % (
value[0],
DataTable._EscapeCustomProperties(row.get(col)[2])))
else:
cells_jsons.append("{v:%s,f:%s,p:%s}" % (value + (
DataTable._EscapeCustomProperties(row.get(col)[2]),)))
else:
cells_jsons.append("{v:%s,f:%s}" % value)
else:
cells_jsons.append("{v:%s}" % value)
if cp:
rows_jsons.append("{c:[%s],p:%s}" % (
",".join(cells_jsons), DataTable._EscapeCustomProperties(cp)))
else:
rows_jsons.append("{c:[%s]}" % ",".join(cells_jsons))
general_custom_properties = ""
if self.custom_properties:
general_custom_properties = (
",p:%s" % DataTable._EscapeCustomProperties(self.custom_properties))
# We now join the columns jsons and the rows jsons
json = "{cols:[%s],rows:[%s]%s}" % (",".join(cols_jsons),
",".join(rows_jsons),
general_custom_properties)
return json
def ToJSonResponse(self, columns_order=None, order_by=(), req_id=0,
response_handler="google.visualization.Query.setResponse"):
"""Writes a table as a JSON response that can be returned as-is to a client.
This method writes a JSON response to return to a client in response to a
Google Visualization API query. This string can be processed by the calling
page, and is used to deliver a data table to a visualization hosted on
a different page.
Args:
columns_order: Optional. Passed straight to self.ToJSon().
order_by: Optional. Passed straight to self.ToJSon().
req_id: Optional. The response id, as retrieved by the request.
response_handler: Optional. The response handler, as retrieved by the
request.
Returns:
A JSON response string to be received by JS the visualization Query
object. This response would be translated into a DataTable on the
client side.
Example result (newlines added for readability):
google.visualization.Query.setResponse({
'version':'0.6', 'reqId':'0', 'status':'OK',
'table': {cols: [...], rows: [...]}});
Note: The URL returning this string can be used as a data source by Google
Visualization Gadgets or from JS code.
"""
table = self.ToJSon(columns_order, order_by)
return ("%s({'version':'0.6', 'reqId':'%s', 'status':'OK', "
"'table': %s});") % (response_handler, req_id, table)
def ToResponse(self, columns_order=None, order_by=(), tqx=""):
"""Writes the right response according to the request string passed in tqx.
This method parses the tqx request string (format of which is defined in
the documentation for implementing a data source of Google Visualization),
and returns the right response according to the request.
It parses out the "out" parameter of tqx, calls the relevant response
(ToJSonResponse() for "json", ToCsv() for "csv", ToHtml() for "html",
ToTsvExcel() for "tsv-excel") and passes the response function the rest of
the relevant request keys.
Args:
columns_order: Optional. Passed as is to the relevant response function.
order_by: Optional. Passed as is to the relevant response function.
tqx: Optional. The request string as received by HTTP GET. Should be in
the format "key1:value1;key2:value2...". All keys have a default
value, so an empty string will just do the default (which is calling
ToJSonResponse() with no extra parameters).
Returns:
A response string, as returned by the relevant response function.
Raises:
DataTableException: One of the parameters passed in tqx is not supported.
"""
tqx_dict = {}
if tqx:
tqx_dict = dict(opt.split(":") for opt in tqx.split(";"))
if tqx_dict.get("version", "0.6") != "0.6":
raise DataTableException(
"Version (%s) passed by request is not supported."
% tqx_dict["version"])
if tqx_dict.get("out", "json") == "json":
response_handler = tqx_dict.get("responseHandler",
"google.visualization.Query.setResponse")
return self.ToJSonResponse(columns_order, order_by,
req_id=tqx_dict.get("reqId", 0),
response_handler=response_handler)
elif tqx_dict["out"] == "html":
return self.ToHtml(columns_order, order_by)
elif tqx_dict["out"] == "csv":
return self.ToCsv(columns_order, order_by)
elif tqx_dict["out"] == "tsv-excel":
return self.ToTsvExcel(columns_order, order_by)
else:
raise DataTableException(
"'out' parameter: '%s' is not supported" % tqx_dict["out"])