Model » History » Version 19
Elmer de Looff, 2012-05-16 14:33
1 | 1 | Elmer de Looff | The µWeb framework provides a @model@ module with the intention of simplifying database access. The design goal is to provide a rich abstraction that |
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2 | 1 | Elmer de Looff | * takes away the tedious work of retrieving, creating and deleting records |
3 | 1 | Elmer de Looff | * can load its parent objects automatically if so required |
4 | 1 | Elmer de Looff | * _does *not* get in the way of the developer_ |
5 | 1 | Elmer de Looff | |
6 | 1 | Elmer de Looff | Making database interaction easier without restricting the abilities of the developer is our main goal. Some default mechanisms make assumptions on the way the database is organised, but these are well-documented, and it's entirely possible to change the behavior of these mechanisms. |
7 | 1 | Elmer de Looff | |
8 | 15 | Elmer de Looff | {{toc}} |
9 | 15 | Elmer de Looff | |
10 | 15 | Elmer de Looff | h1. Record |
11 | 1 | Elmer de Looff | |
12 | 2 | Elmer de Looff | The basic idea of the @Record@ class is that it is a container for your database records, with related records automatically loaded as needed, and custom methods that provide more info, child objects, etc. Outlined below are the default features available, with minimal configuration requirements. |
13 | 1 | Elmer de Looff | |
14 | 12 | Elmer de Looff | h2. Basic Record usage |
15 | 1 | Elmer de Looff | |
16 | 2 | Elmer de Looff | There are a few ways to use the @Record@ class. The direct way to create a @Record@ is to initiate it with a connection, and a dictionary of @field -> value@ information. The @Record@ is a dictionary subclass that largely copies all the functionality of a dictionary. Retrieving values for keys works exactly as you'd expect. |
17 | 1 | Elmer de Looff | |
18 | 12 | Elmer de Looff | h2. Creating your own @Record@ |
19 | 1 | Elmer de Looff | |
20 | 2 | Elmer de Looff | To create your own @Record@ subclass, nothing is required beyond the class name. The following example substitutes a complete working example: |
21 | 1 | Elmer de Looff | <pre><code class="python"> |
22 | 13 | Jan Klopper | from uweb import model |
23 | 2 | Elmer de Looff | class Message(model.Record): |
24 | 2 | Elmer de Looff | """Abstraction class for messages stored in the database.""" |
25 | 2 | Elmer de Looff | </code></pre> |
26 | 1 | Elmer de Looff | |
27 | 12 | Elmer de Looff | h2. Primary field definition |
28 | 1 | Elmer de Looff | |
29 | 2 | Elmer de Looff | The @Record@ requires that a table has a single-field unique column. It's advisable for this to be a PRIMARY index in the database, though this is not required. This field is used to automatically look up a record if it is referenced and requested elsewhere. |
30 | 1 | Elmer de Looff | |
31 | 2 | Elmer de Looff | By default, this primary key field is assumed to be @ID@. If this is not the case for your table, you can easily change this by defining the @_PRIMARY_KEY@ class constant: |
32 | 1 | Elmer de Looff | |
33 | 2 | Elmer de Looff | <pre><code class="python"> |
34 | 13 | Jan Klopper | from uweb import model |
35 | 2 | Elmer de Looff | class Country(model.Record): |
36 | 2 | Elmer de Looff | """Abstraction class for a country table. |
37 | 1 | Elmer de Looff | |
38 | 2 | Elmer de Looff | This class uses the ISO-3166-1 alpha2 country code as primary key. |
39 | 2 | Elmer de Looff | """ |
40 | 2 | Elmer de Looff | _PRIMARY_KEY = 'alpha2' |
41 | 2 | Elmer de Looff | </code></pre> |
42 | 1 | Elmer de Looff | |
43 | 12 | Elmer de Looff | h2. Class and table relation |
44 | 2 | Elmer de Looff | |
45 | 1 | Elmer de Looff | By default, the assumption is made that the table name is the same as the class name, with the first letter lowercase. *The table related to the class @Message@ would be @message@.* To change this behavior, assign the correct table name to the @_TABLE@ class constant. This new table name will then be used in all built-in Record methods: |
46 | 2 | Elmer de Looff | |
47 | 2 | Elmer de Looff | <pre><code class="python"> |
48 | 13 | Jan Klopper | from uweb import model |
49 | 2 | Elmer de Looff | class Message(model.Record): |
50 | 2 | Elmer de Looff | """Abstraction class for messages stored in the database.""" |
51 | 2 | Elmer de Looff | _TABLE = 'MyMessage' |
52 | 2 | Elmer de Looff | </code></pre> |
53 | 2 | Elmer de Looff | |
54 | 12 | Elmer de Looff | h2. Record initialization |
55 | 1 | Elmer de Looff | |
56 | 6 | Elmer de Looff | Initializing a Record object requires a database connection as first argument, and a dictionary with the record's data as second argument. This second argument can, alternatively, be an iterator of key+value tuples. |
57 | 1 | Elmer de Looff | |
58 | 6 | Elmer de Looff | <pre><code class="python"> |
59 | 13 | Jan Klopper | from uweb import model |
60 | 6 | Elmer de Looff | class Message(model.Record): |
61 | 6 | Elmer de Looff | """Abstraction class for messages stored in the database.""" |
62 | 1 | Elmer de Looff | |
63 | 6 | Elmer de Looff | # Caller side: |
64 | 6 | Elmer de Looff | >>> record = {'ID': 1, 'message': 'First message!', 'author': 'Elmer'} |
65 | 7 | Elmer de Looff | >>> message = Message(db_conn, record) |
66 | 6 | Elmer de Looff | >>> print message |
67 | 6 | Elmer de Looff | Message({'message': 'First message!', 'ID': 1, 'author': 'Elmer'}) |
68 | 6 | Elmer de Looff | </code></pre> |
69 | 1 | Elmer de Looff | |
70 | 6 | Elmer de Looff | This basic construction is rarely needed in code using the Record objects, but is important for alternative initializers, of which one is provided by default: |
71 | 6 | Elmer de Looff | |
72 | 12 | Elmer de Looff | h2. Alternative initializer: create Record from primary key |
73 | 6 | Elmer de Looff | |
74 | 1 | Elmer de Looff | On the caller side, it's impractical to first query the database, and then instantiate a Record subclass from that. Alternative initializers provide a solution without requiring module-level functions that have poor cohesion to the relevant class. Alternative initializers are @classmethods@, working not on instance, but aiming to create and return one. |
75 | 6 | Elmer de Looff | |
76 | 16 | Elmer de Looff | There is one such alternative initializer provided: @FromPrimary@, which loads a record from the database based on its primary key. Required for this to function are two arguments: A database connection, and the value for the primary key field: |
77 | 6 | Elmer de Looff | |
78 | 6 | Elmer de Looff | <pre><code class="python"> |
79 | 13 | Jan Klopper | from uweb import model |
80 | 6 | Elmer de Looff | class Message(model.Record): |
81 | 6 | Elmer de Looff | """Abstraction class for messages stored in the database.""" |
82 | 6 | Elmer de Looff | |
83 | 6 | Elmer de Looff | # Caller side: |
84 | 16 | Elmer de Looff | >>> message = Message.FromPrimary(db_conn, 1) |
85 | 6 | Elmer de Looff | >>> print message |
86 | 6 | Elmer de Looff | Message({'message': u'First message!', 'ID': 1L, 'author': 'Elmer'}) |
87 | 1 | Elmer de Looff | # Unicode and long integer are side effects from the database read, not the Record class |
88 | 1 | Elmer de Looff | </code></pre> |
89 | 7 | Elmer de Looff | |
90 | 12 | Elmer de Looff | h2. On-demand loading of referenced records. |
91 | 7 | Elmer de Looff | |
92 | 7 | Elmer de Looff | In databases that are more complex than a single table, information is often normalized. That is, the author information in our previously demonstrated *message* table will be stored in a separate *author* table. The author field on message records will be a _reference_ to a record in the author table. |
93 | 7 | Elmer de Looff | |
94 | 7 | Elmer de Looff | Consider the following tables in your database: |
95 | 7 | Elmer de Looff | <pre><code class="html"> |
96 | 7 | Elmer de Looff | -- TABLE `message` |
97 | 7 | Elmer de Looff | +----+--------+--------------------------------------------------+ |
98 | 7 | Elmer de Looff | | ID | author | message | |
99 | 7 | Elmer de Looff | +----+--------+--------------------------------------------------+ |
100 | 7 | Elmer de Looff | | 1 | 1 | First message! | |
101 | 7 | Elmer de Looff | | 2 | 2 | Robert'); DROP TABLE Students;-- | |
102 | 7 | Elmer de Looff | | 3 | 1 | You didn't think it would be this easy, did you? | |
103 | 7 | Elmer de Looff | +----+--------+--------------------------------------------------+ |
104 | 7 | Elmer de Looff | |
105 | 7 | Elmer de Looff | -- TABLE `author` |
106 | 7 | Elmer de Looff | +----+-------+--------------------+ |
107 | 7 | Elmer de Looff | | ID | name | emailAddress | |
108 | 7 | Elmer de Looff | +----+-------+--------------------+ |
109 | 7 | Elmer de Looff | | 1 | Elmer | elmer@underdark.nl | |
110 | 7 | Elmer de Looff | | 2 | Bobby | bobby@tables.com | |
111 | 1 | Elmer de Looff | +----+-------+--------------------+ |
112 | 7 | Elmer de Looff | </code></pre> |
113 | 7 | Elmer de Looff | |
114 | 7 | Elmer de Looff | And the following class definitions in Python: |
115 | 7 | Elmer de Looff | |
116 | 7 | Elmer de Looff | <pre><code class="python"> |
117 | 13 | Jan Klopper | from uweb import model |
118 | 7 | Elmer de Looff | class Author(model.Record): |
119 | 7 | Elmer de Looff | """Abstraction class for author records.""" |
120 | 7 | Elmer de Looff | |
121 | 7 | Elmer de Looff | class Message(model.Record): |
122 | 7 | Elmer de Looff | """Abstraction class for messages records.""" |
123 | 7 | Elmer de Looff | </code></pre> |
124 | 7 | Elmer de Looff | |
125 | 7 | Elmer de Looff | This makes it possible to retrieve a message, and from that Message object, retrieve the author information. This is done when the information is requested, and not pre-loaded beforehand. This means that retrieving a thousand Message objects will *not* trigger an additional 1000 queries to retrieve the author information, if that information might not be used at all. |
126 | 7 | Elmer de Looff | |
127 | 7 | Elmer de Looff | <pre><code class="python"> |
128 | 16 | Elmer de Looff | >>> message = Message.FromPrimary(db_connection, 1) |
129 | 7 | Elmer de Looff | >>> message |
130 | 7 | Elmer de Looff | Message({'message': u'First message!', 'ID': 1L, 'author': 1}) |
131 | 7 | Elmer de Looff | # This is the same message we saw before, without author information. |
132 | 7 | Elmer de Looff | # However, retrieving the author field specifically, provides its record: |
133 | 7 | Elmer de Looff | >>> message['author'] |
134 | 7 | Elmer de Looff | Author({'emailAddress': u'elmer@underdark.nl', 'ID': 1, 'name': u'Elmer'}) |
135 | 7 | Elmer de Looff | >>> message |
136 | 7 | Elmer de Looff | Message({'message': u'First message!', 'ID': 1L, |
137 | 7 | Elmer de Looff | 'author': Author({'emailAddress': u'elmer@underdark.nl', 'ID': 1, 'name': u'Elmer'})}) |
138 | 7 | Elmer de Looff | </code></pre> |
139 | 7 | Elmer de Looff | |
140 | 16 | Elmer de Looff | This works on the assumption that *any field name, that is also the table name of another Record class, is a reference to that record*. In the case of the example above: The message table contains a field _author_. There exists a Record subclass for that table (namely _Author_, table 'author'). The value of @message['author']@ (1), is now used to load an Author record using the FromPrimary alternative initializer, with _1_ as the primary key value. |
141 | 7 | Elmer de Looff | |
142 | 7 | Elmer de Looff | # @message['author']@ uses the _author_ field |
143 | 7 | Elmer de Looff | # _author_ table is abstracted by Author class |
144 | 16 | Elmer de Looff | # @message['author']@ is replaced by @Author.FromPrimary(db_connection, message['author']@ |
145 | 7 | Elmer de Looff | |
146 | 8 | Elmer de Looff | This behavior can be modified using the _FOREIGN_RELATIONS class constant. This provides a mapping that specifies (and overrides) which Record classes should be used to resolve references from fields. The key for the mapping is a field name (string), and the corresponding value is a class or None. None specifies that the field does *not* represent a reference, and should be used as-is. Classes may be given as string because at the time of evaluation, not all classes exist, and attempting using a class directly might result in a NameError. Without this provision, the order of classes would be dictated by the model, and cross-references would not be possible at all. |
147 | 1 | Elmer de Looff | |
148 | 8 | Elmer de Looff | An example case for a situation where the table names are plural, but the field names are singular: |
149 | 8 | Elmer de Looff | |
150 | 8 | Elmer de Looff | <pre><code class="python"> |
151 | 13 | Jan Klopper | from uweb import model |
152 | 8 | Elmer de Looff | class Author(model.Record): |
153 | 8 | Elmer de Looff | """Abstraction class for author records.""" |
154 | 8 | Elmer de Looff | _TABLE = 'authors' |
155 | 8 | Elmer de Looff | |
156 | 1 | Elmer de Looff | class Message(model.Record): |
157 | 1 | Elmer de Looff | """Abstraction class for messages records.""" |
158 | 1 | Elmer de Looff | _TABLE = 'messages' |
159 | 1 | Elmer de Looff | _FOREIGN_RELATIONS = {'author': Author} |
160 | 1 | Elmer de Looff | </code></pre> |
161 | 1 | Elmer de Looff | |
162 | 12 | Elmer de Looff | h2. Loading child objects (1-to-n relations) |
163 | 1 | Elmer de Looff | |
164 | 17 | Elmer de Looff | The model provides a generic method to retrieve child records (that is, _1 to n_ relations) of a Record. The desired relations _should_ have an associated Record class. The method to use is @_Children@, which is a private method of any Record class. As its argument, it needs the name of a child class. Returned is an iterator that yields instances of the given Record subclass. |
165 | 9 | Elmer de Looff | |
166 | 9 | Elmer de Looff | Given its name and usage, the suggested usage of this is to wrap a more descriptive method around this: |
167 | 9 | Elmer de Looff | |
168 | 9 | Elmer de Looff | <pre><code class="python"> |
169 | 13 | Jan Klopper | from uweb import model |
170 | 9 | Elmer de Looff | class Author(model.Record): |
171 | 9 | Elmer de Looff | """Abstraction class for author records.""" |
172 | 9 | Elmer de Looff | def Messages(self): |
173 | 9 | Elmer de Looff | """Returns an iterator for all messages written by this author.""" |
174 | 17 | Elmer de Looff | return self._Children(Message) |
175 | 9 | Elmer de Looff | |
176 | 9 | Elmer de Looff | class Message(model.Record): |
177 | 9 | Elmer de Looff | """Abstraction class for messages records.""" |
178 | 9 | Elmer de Looff | |
179 | 9 | Elmer de Looff | # Caller code |
180 | 16 | Elmer de Looff | >>> elmer = Author.FromPrimary(db_connection, 1) |
181 | 9 | Elmer de Looff | >>> for message in elmer.Messages(): |
182 | 9 | Elmer de Looff | ... print message |
183 | 9 | Elmer de Looff | Message({'message': u'First message!', 'ID': 1L, |
184 | 9 | Elmer de Looff | 'author': Author({'emailAddress': u'elmer@underdark.nl', 'ID': 1, 'name': u'Elmer'})}) |
185 | 9 | Elmer de Looff | Message({'message': u"You didn't think it would be this easy, did you?", 'ID': 3L, |
186 | 9 | Elmer de Looff | 'author': Author({'emailAddress': u'elmer@underdark.nl', 'ID': 1, 'name': u'Elmer'})}) |
187 | 9 | Elmer de Looff | # Reflowing to keep things legible |
188 | 9 | Elmer de Looff | </code></pre> |
189 | 9 | Elmer de Looff | |
190 | 17 | Elmer de Looff | What you can see here is that all messages written by the given author are retrieved from the database, and presented. This is done with a single database query, where the _child_ Record's table is searched for rows where the @relation_field@ is equal to the parent Record's primary key value. This @relation_field@ is an optional argument to the @_Children@ method, and defaults to the class' table name. |
191 | 11 | Elmer de Looff | |
192 | 9 | Elmer de Looff | *N.B. @print@ and the methods @(iter)items@, @(iter)values@ all cause the object's foreign relations to be retrieved.* |
193 | 9 | Elmer de Looff | |
194 | 9 | Elmer de Looff | An example with pluralized table names: |
195 | 9 | Elmer de Looff | |
196 | 9 | Elmer de Looff | <pre><code class="python"> |
197 | 9 | Elmer de Looff | class Author(model.Record): |
198 | 9 | Elmer de Looff | """Abstraction class for author records.""" |
199 | 9 | Elmer de Looff | _TABLE = 'authors' |
200 | 9 | Elmer de Looff | |
201 | 9 | Elmer de Looff | def Messages(self): |
202 | 9 | Elmer de Looff | """Returns an iterator for all messages written by this author.""" |
203 | 17 | Elmer de Looff | return self._Children(Message, relation_field='author') |
204 | 9 | Elmer de Looff | |
205 | 9 | Elmer de Looff | class Message(model.Record): |
206 | 9 | Elmer de Looff | """Abstraction class for messages records.""" |
207 | 9 | Elmer de Looff | _TABLE = 'messages' |
208 | 9 | Elmer de Looff | _FOREIGN_RELATIONS = {'author': Author} |
209 | 1 | Elmer de Looff | </code></pre> |
210 | 10 | Elmer de Looff | |
211 | 12 | Elmer de Looff | h2. Retrieving all records |
212 | 11 | Elmer de Looff | |
213 | 10 | Elmer de Looff | For situations where all records must be retrieved or processed, there is the @List@ classmethod, that takes a single connection argument. This returns an iterator for all Record objects of the type it's called for: |
214 | 10 | Elmer de Looff | |
215 | 10 | Elmer de Looff | <pre><code class="python"> |
216 | 10 | Elmer de Looff | class Message(model.Record): |
217 | 10 | Elmer de Looff | """Abstraction class for messages records.""" |
218 | 10 | Elmer de Looff | |
219 | 10 | Elmer de Looff | # List all messages: |
220 | 10 | Elmer de Looff | >>> for message in Message.List(db_connection): |
221 | 10 | Elmer de Looff | ... print message |
222 | 10 | Elmer de Looff | ... |
223 | 10 | Elmer de Looff | Message({'message': u'First message!', 'ID': 1L, 'author': 1}) |
224 | 10 | Elmer de Looff | Message({'message': u"Robert'); DROP TABLE Students;--", 'ID': 2L, 'author': 2}) |
225 | 10 | Elmer de Looff | Message({'message': u"You didn't think it would be this easy, did you?", 'ID': 3L, 'author': 1}) |
226 | 10 | Elmer de Looff | </code></pre> |
227 | 10 | Elmer de Looff | |
228 | 10 | Elmer de Looff | *N.B.*: If the Author class were defined here, it would be automatically loaded where the primary key for the author is now listed. This has been omitted in this example for reasons of brevity and readability. |
229 | 10 | Elmer de Looff | |
230 | 12 | Elmer de Looff | h2. Updating a record |
231 | 10 | Elmer de Looff | |
232 | 10 | Elmer de Looff | After loading a record, it can be altered, and saved. These changes (and optionally changes to nested records), will be committed to the database, and reflected in the current loaded record. |
233 | 10 | Elmer de Looff | |
234 | 10 | Elmer de Looff | <pre><code class="python"> |
235 | 10 | Elmer de Looff | class Author(model.Record): |
236 | 10 | Elmer de Looff | """Abstraction class for author records.""" |
237 | 10 | Elmer de Looff | |
238 | 10 | Elmer de Looff | class Message(model.Record): |
239 | 10 | Elmer de Looff | """Abstraction class for messages records.""" |
240 | 10 | Elmer de Looff | |
241 | 16 | Elmer de Looff | >>> retort = Message.FromPrimary(db_connection, 3) |
242 | 10 | Elmer de Looff | >>> retort['message'] = "Please go away Bobby." |
243 | 10 | Elmer de Looff | >>> # Our changes are not yet reflected in the database: |
244 | 16 | Elmer de Looff | >>> print Message.FromPrimary(db_connection, 3) |
245 | 10 | Elmer de Looff | Message({'message': u"You didn't think it would be this easy, did you?", 'ID': 3L, |
246 | 10 | Elmer de Looff | 'author': Author({'emailAddress': u'elmer@underdark.nl', 'ID': 1, 'name': u'Elmer'})}) |
247 | 10 | Elmer de Looff | >>> retort.Save() |
248 | 10 | Elmer de Looff | >>> # Now our changes are committed to the database: |
249 | 16 | Elmer de Looff | >>> print Message.FromPrimary(db_connection, 3) |
250 | 10 | Elmer de Looff | Message({'message': u'Please go away Bobby.', 'ID': 3L, |
251 | 10 | Elmer de Looff | 'author': Author({'emailAddress': u'elmer@underdark.nl', 'ID': 1, 'name': u'Elmer'})}) |
252 | 10 | Elmer de Looff | </code></pre> |
253 | 10 | Elmer de Looff | |
254 | 10 | Elmer de Looff | If we specify *save_foreign* as _True_, we can also alter the information stored in foreign relations, and have that saved in the same operation. This way we could alter both the author name, or email address, as well as the message itself. |
255 | 10 | Elmer de Looff | |
256 | 12 | Elmer de Looff | h2. Adding a record |
257 | 10 | Elmer de Looff | |
258 | 10 | Elmer de Looff | Using the same @Save@ method, we can also add records to the database. This can be done either with the Primary Key given, or left undefined. If the key is left undefined (or defined as None), the Record will assume that the primary key field is an auto-increment field, and insert data in that manner. |
259 | 10 | Elmer de Looff | |
260 | 10 | Elmer de Looff | *N.B.* Skipping fields that are optional in the database is allowed, but their default values assigned by the database will _not_ be reflected in the object. That is, the record will not be reloaded after storing. |
261 | 10 | Elmer de Looff | |
262 | 10 | Elmer de Looff | Creating a record using an auto-incrementing primary key: |
263 | 10 | Elmer de Looff | <pre><code class="python"> |
264 | 10 | Elmer de Looff | class Message(model.Record): |
265 | 10 | Elmer de Looff | """Abstraction class for messages records.""" |
266 | 10 | Elmer de Looff | |
267 | 10 | Elmer de Looff | >>> new_message = Message(db_connection, {'author': 1, 'message': 'A new message, should be #4'}) |
268 | 10 | Elmer de Looff | >>> new_message.Save() |
269 | 10 | Elmer de Looff | >>> new_message.key |
270 | 10 | Elmer de Looff | 4L |
271 | 16 | Elmer de Looff | >>> print Message.FromPrimary(db_connection, new_message.key) |
272 | 10 | Elmer de Looff | Message({'message': u'A new message, should be #4', 'ID': 4L, 'author': 1}) |
273 | 10 | Elmer de Looff | </code></pre> |
274 | 10 | Elmer de Looff | |
275 | 10 | Elmer de Looff | Creating a record where we specify the key: |
276 | 10 | Elmer de Looff | <pre><code class="python"> |
277 | 10 | Elmer de Looff | class Message(model.Record): |
278 | 10 | Elmer de Looff | """Abstraction class for messages records.""" |
279 | 10 | Elmer de Looff | |
280 | 10 | Elmer de Looff | >>> another_message = Message(db_connection, {}) |
281 | 10 | Elmer de Looff | >>> another_message.key = 6 # we could assign to the 'ID' key as well |
282 | 10 | Elmer de Looff | >>> another_message['author'] = 2 |
283 | 10 | Elmer de Looff | >>> another_message['message'] = 'Creating a message with a defined primary key value' |
284 | 10 | Elmer de Looff | >>> another_message.Save() |
285 | 10 | Elmer de Looff | 4L |
286 | 16 | Elmer de Looff | >>> print Message.FromPrimary(db_connection, another_message.key) |
287 | 10 | Elmer de Looff | Message({'message': u'Creating a message with a defined primary key value', 'ID': 6L, 'author': 2}) |
288 | 10 | Elmer de Looff | </code></pre> |
289 | 10 | Elmer de Looff | |
290 | 12 | Elmer de Looff | h2. Deleting a record |
291 | 10 | Elmer de Looff | |
292 | 10 | Elmer de Looff | Records can be deleted from the database either from a loaded object, or using the DeleteKey classmethod. This latter removes the record from the database using the primary key to select it. |
293 | 10 | Elmer de Looff | |
294 | 10 | Elmer de Looff | <pre><code class="python"> |
295 | 10 | Elmer de Looff | class Message(model.Record): |
296 | 10 | Elmer de Looff | """Abstraction class for messages records.""" |
297 | 10 | Elmer de Looff | |
298 | 10 | Elmer de Looff | # Loading and deleting an active record. |
299 | 16 | Elmer de Looff | >>> bad_record = Message.FromPrimary(db_connection, 3) |
300 | 10 | Elmer de Looff | >>> bad_record.Delete() |
301 | 10 | Elmer de Looff | |
302 | 10 | Elmer de Looff | # Deleting a record based on its primary key. |
303 | 10 | Elmer de Looff | >>> Message.DeleteKey(db_connection, 2) |
304 | 10 | Elmer de Looff | </code></pre> |
305 | 1 | Elmer de Looff | |
306 | 19 | Elmer de Looff | h2. Comparisons |
307 | 19 | Elmer de Looff | |
308 | 19 | Elmer de Looff | h3. Equality comparison |
309 | 1 | Elmer de Looff | |
310 | 1 | Elmer de Looff | Records must pass the following criteria to be considered equal to one another.: |
311 | 10 | Elmer de Looff | # *Type*: Two objects must be of the same type (class) |
312 | 12 | Elmer de Looff | # *Primary key*: The primary key values must compare equal |
313 | 10 | Elmer de Looff | # *Foreign relations*: Foreign relations must be the same. If these are not resolved in one object but are in the other, the primary key of the resolved object will be compared to the data of the other record. |
314 | 10 | Elmer de Looff | # *Data*: All remaining data fields must be equal and symmetric (i.e. both objects describe the same fields) |
315 | 10 | Elmer de Looff | |
316 | 10 | Elmer de Looff | h3. Greater / smaller comparisons |
317 | 10 | Elmer de Looff | |
318 | 18 | Elmer de Looff | Comparing two objects with one another to tell their relative order can _only_ be done if they are of the same type. If they are, the comparison is done based on the primary key values of the records. In most cases this will result in an ordering similar to the database-insert order. |
319 | 16 | Elmer de Looff | |
320 | 16 | Elmer de Looff | h1. VersionedRecord |
321 | 16 | Elmer de Looff | |
322 | 16 | Elmer de Looff | h1. MongoRecord |