Difference between revisions of "Silme:Tutorial:FormatParser"
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== FPManager == | == FPManager == | ||
− | FPManager is very | + | FPManager is very similar to IOManager and serves as a controller class for FormatParsers. |
<code lang="python"> | <code lang="python"> | ||
− | + | import silme.core | |
− | + | import silme.format | |
− | |||
− | fp = | + | fp = silme.format.Manager.get('dtd') |
string = '<!ENTITY test "value">\n\n<!ENTITY test2 "value2">\n\n\n' | string = '<!ENTITY test "value">\n\n<!ENTITY test2 "value2">\n\n\n' | ||
− | + | l10nobject = fp.get_l10nobject(string) | |
</code> | </code> | ||
− | In many cases you will not need to use it because it's automagically | + | In many cases you will not need to use it because it's automagically covered by IOClient without you having to bother. |
You control the list of formats the system supports by adding or removing imports. | You control the list of formats the system supports by adding or removing imports. | ||
When you import a format parser, it will be used while reading L10nPackages and L10nObjects without any more work. But you can also use FormatParsers on your own if you want. | When you import a format parser, it will be used while reading L10nPackages and L10nObjects without any more work. But you can also use FormatParsers on your own if you want. | ||
+ | |||
+ | In a similar way to IOManager, FPManager can also guess which format to return depending on the path. | ||
+ | |||
+ | <code lang="python"> | ||
+ | import silme.core | ||
+ | import silme.format | ||
+ | |||
+ | silme.format.Manager.register('dtd', 'gettext', 'properties', 'xliff') | ||
+ | |||
+ | fp = silme.format.Manager.get(path='./test/file.po') # will return GetTextFormatParser | ||
+ | |||
+ | </code> | ||
== FormatParser == | == FormatParser == | ||
Line 35: | Line 46: | ||
<code lang="python"> | <code lang="python"> | ||
− | + | import silme.core | |
− | + | import silme.format | |
− | |||
− | fp = | + | fp = silme.format.Manager.get('dtd') |
string = '<!ENTITY test "value">\n\n<!ENTITY test2 "value2">\n\n\n' | string = '<!ENTITY test "value">\n\n<!ENTITY test2 "value2">\n\n\n' | ||
− | + | l10nobject = fp.get_l10nobject(string) | |
− | + | entitylist = fp.get_entitylist(string) | |
</code> | </code> | ||
Line 58: | Line 68: | ||
<code lang="python"> | <code lang="python"> | ||
− | + | import silme.core | |
− | + | import silme.format | |
− | |||
− | |||
− | fp = | + | silme.format.Manager.register('dtd', 'po') |
− | fp2 = | + | |
+ | fp = silme.format.Manager.get('dtd') | ||
+ | fp2 = silme.format.Manager.get('po') | ||
string = '<!ENTITY test "value">\n\n<!ENTITY test2 "value2">\n\n\n' | string = '<!ENTITY test "value">\n\n<!ENTITY test2 "value2">\n\n\n' | ||
− | + | l10nobject = fp.get_l10nobject(string) | |
− | + | entitylist = fp.get_entitylist(string) | |
− | string2 = fp2. | + | string2 = fp2.write_l10nobject(l10nobject) # it will create a very simple PO object with the data from L10nObject |
− | string3 = fp. | + | string3 = fp.write_entitylist(entitylist) # it will create a simple DTD string without any data beside of generic entities from the list |
</code> | </code> | ||
+ | |||
+ | == Standalone parsers == | ||
+ | |||
+ | In some cases you may want to use a format without silme. Maybe you have your own applications or your custom needs and could use a good DTD parser or Gettext serializer but you don't want to use the whole system of Managers/Clients. | ||
+ | |||
+ | Each Format is a package made of: | ||
+ | |||
+ | * silme.format.%name%.Parser | ||
+ | * silme.format.%name%.Serializer | ||
+ | * silme.format.%name%.Structure | ||
− | + | You can separate this and use independently from the rest of Silme. | |
− | + | In [[Silme:Tutorial:Diff|the next chapter]] we'll talk about methods to find out what are the differences between two entity lists and how we can store those. |
Latest revision as of 18:35, 16 February 2009
In the previous chapter we were talking about loading/saving a file.
Fortunately we made it without actually thinking on how the library know how to parse files. In this chapter, we'll review this topic.
In most cases IOClient is able to read and write a stream of data to file system, zip package or RCS repository. But as we work on localization tools, we need to operate on the L10nObject structure that has entities, comments and potentially other data inside. To do this we have to parse this input string and then we have to serialize the object back into string.
For this we have a FormatParser package.
FPManager
FPManager is very similar to IOManager and serves as a controller class for FormatParsers.
import silme.core
import silme.format
fp = silme.format.Manager.get('dtd')
string = '<!ENTITY test "value">\n\n<!ENTITY test2 "value2">\n\n\n'
l10nobject = fp.get_l10nobject(string)
In many cases you will not need to use it because it's automagically covered by IOClient without you having to bother. You control the list of formats the system supports by adding or removing imports.
When you import a format parser, it will be used while reading L10nPackages and L10nObjects without any more work. But you can also use FormatParsers on your own if you want.
In a similar way to IOManager, FPManager can also guess which format to return depending on the path.
import silme.core
import silme.format
silme.format.Manager.register('dtd', 'gettext', 'properties', 'xliff')
fp = silme.format.Manager.get(path='./test/file.po') # will return GetTextFormatParser
FormatParser
reading
In the basic situation you can use FormatParser to parse a string into L10nObject or EntityList:
import silme.core
import silme.format
fp = silme.format.Manager.get('dtd')
string = '<!ENTITY test "value">\n\n<!ENTITY test2 "value2">\n\n\n'
l10nobject = fp.get_l10nobject(string)
entitylist = fp.get_entitylist(string)
Building EntityList is of course faster because it will ignore strings and comments and all other potentially meaningful content.
writing
But the major drawback from using EntityList instead of L10nObject is that you loose ability to write it back to the original file and have it 100% the same.
FormatParser is able to serialize any EntityList or L10nObject but it will use generic template if it's not writing an L10nObject and if the L10nObject has not been read from the same format.
import silme.core
import silme.format
silme.format.Manager.register('dtd', 'po')
fp = silme.format.Manager.get('dtd')
fp2 = silme.format.Manager.get('po')
string = '<!ENTITY test "value">\n\n<!ENTITY test2 "value2">\n\n\n'
l10nobject = fp.get_l10nobject(string)
entitylist = fp.get_entitylist(string)
string2 = fp2.write_l10nobject(l10nobject) # it will create a very simple PO object with the data from L10nObject
string3 = fp.write_entitylist(entitylist) # it will create a simple DTD string without any data beside of generic entities from the list
Standalone parsers
In some cases you may want to use a format without silme. Maybe you have your own applications or your custom needs and could use a good DTD parser or Gettext serializer but you don't want to use the whole system of Managers/Clients.
Each Format is a package made of:
- silme.format.%name%.Parser
- silme.format.%name%.Serializer
- silme.format.%name%.Structure
You can separate this and use independently from the rest of Silme.
In the next chapter we'll talk about methods to find out what are the differences between two entity lists and how we can store those.