Localization is like build systems, something that most developers prefer not to think about. Unfortunately, the developer must take explicit steps to manually externalize all user-visible strings for the software to be localizable. The localizable strings go into a separate file and the code references them by a key. The developer must come up with a key and then must manage the list of externalized strings so that it stays in sync with the code. Some tools have been developed to make this a little easier, but two types of problems remain very common:
Since Sapphire is a UI framework, localization is very important. Since Sapphire is focused on ease of use and developer productivity, relying on current methods of localization is not satisfactory.
Localizable strings largely occur in two places in Sapphire. You see them in the model annotations (such as the @Label annotation) and you see them throughout the UI definition files. Sapphire’s approach is to allow the developer to leave the strings in their original language at point of use. The string resource files that will be translated are created at build time. The build system takes the original string and applies a function to it to generate a key for the string resources file. At runtime, the system loads the original string resources file along with the localized version and matches original strings to translations by using the resource keys. Once matching is completed, the resource keys are discarded from memory.
The critical concept is that the developer does not take any explicit steps to enable localization. It just happens under the covers.
The nature of the function that is used to derive the string resources file key is not particularly important as long as the resulting key is not overly long, is free from collisions and doesn't change if the string itself hasn't changed (important for re-using prior work of translators). The current implementation uses SHA-256 algorithm. It is important to note that the key is only computed at build-time, thus the performance of the key creation algorith is not particularly important.
On top of the automatic externalization, Sapphire is architected to minimize the number of strings that must be externalized in the first place. In particular, when the developer specifies a property label, the string is expected to be all in lower case (except where acronyms or proper nouns are used). Sapphire is able to transform the capitalization of the label to make it suitable for different contexts. Three modes of capitalization are supported:
The current capitalization algorithm works well for English and reasonably well for other languages, but it will need to be made pluggable in the future.