이름 |
설명 |
RuntimeConstants |
This class defines the keys that are used in the velocity.properties file so that they can be referenced as a constant within Java code. |
RuntimeException |
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RuntimeInstance |
This is the Runtime system for Velocity. It is the single access point for all functionality in Velocity. It adheres to the mediator pattern and is the only structure that developers need to be familiar with in order to get Velocity to perform. * The Runtime will also cooperate with external systems like Turbine. Runtime properties can set and then the Runtime is initialized. * Turbine for example knows where the templates are to be loaded from, and where the velocity log file should be placed. * So in the case of Velocity cooperating with Turbine the code might look something like the following: * Runtime.setProperty(Runtime.FILE_RESOURCE_LOADER_PATH, templatePath); Runtime.setProperty(Runtime.RUNTIME_LOG, pathToVelocityLog); Runtime.init(); * ----------------------------------------------------------------------- N O T E S O N R U N T I M E I N I T I A L I Z A T I O N ----------------------------------------------------------------------- Runtime.init() If Runtime.init() is called by itself the Runtime will initialize with a set of default values. ----------------------------------------------------------------------- Runtime.init(String/Properties) * In this case the default velocity properties are layed down first to provide a solid base, then any properties provided in the given properties object will override the corresponding default property. ----------------------------------------------------------------------- * |
RuntimeSingleton |
This is the Runtime system for Velocity. It is the single access point for all functionality in Velocity. It adheres to the mediator pattern and is the only structure that developers need to be familiar with in order to get Velocity to perform. The Runtime will also cooperate with external systems like Turbine. Runtime properties can set and then the Runtime is initialized. Turbine for example knows where the templates are to be loaded from, and where the velocity log file should be placed. So in the case of Velocity cooperating with Turbine the code might look something like the following: RuntimeSingleton.setProperty(RuntimeConstants.FILE_RESOURCE_LOADER_PATH, templatePath); RuntimeSingleton.setProperty(RuntimeConstants.RUNTIME_LOG, pathToVelocityLog); RuntimeSingleton.init(); ----------------------------------------------------------------------- N O T E S O N R U N T I M E I N I T I A L I Z A T I O N ----------------------------------------------------------------------- RuntimeSingleton.init() If Runtime.init() is called by itself the Runtime will initialize with a set of default values. ----------------------------------------------------------------------- RuntimeSingleton.init(String/Properties) In this case the default velocity properties are layed down first to provide a solid base, then any properties provided in the given properties object will override the corresponding default property. ----------------------------------------------------------------------- |
VelocimacroFactory |
VelocimacroFactory.java * manages the set of VMs in a running Velocity engine. * |
VelocimacroFactory.Twonk |
sets permission to have VMs local in scope to their declaring template note that this is really taken care of in the VMManager class, but we need it here for gating purposes in addVM eventually, I will slide this all into the manager, maybe. |
VelocimacroManager |
Manages VMs in namespaces. Currently, two namespace modes are supported: * - flat - all allowable VMs are in the global namespace
- local - inline VMs are added to it's own template namespace
* Thanks to Jose Alberto Fernandez for some ideas incorporated here. * |
VelocimacroManager.MacroEntry |
wrapper class for holding VM information |