Language interoperability between source code programs not compatible with an interprocedural static code analyzer is achieved through language-independent representations of the programs. The source code programs are transformed into respective intermediate language instructions from which a language-independent control flow graph and a language-independent type environment is created. A program compatible with the interprocedural static code analyzer is generated from the language-independent control flow graph and the language-independent type environment in order to utilize the interprocedural static code analyzer to detect memory safety faults.

Language interoperability between source code programs not compatible with an interprocedural static code analyzer is achieved through language-independent representations of the programs. The source code programs are transformed into respective intermediate language instructions from which a language-independent control flow graph and a language-independent type environment is created. A program compatible with the interprocedural static code analyzer is generated from the language-independent control flow graph and the language-independent type environment in order to utilize the interprocedural static code analyzer to detect memory safety faults.

Resource processing during run time can be performed asynchronously from emulation of an application by a central processing unit. For example, an emulator can include a main processing thread that performs emulation processes. In response to encountering a shader, or other resource, to be processed, the emulator can invoke a separate asynchronous thread to perform such processing. Processed resources, such as translated shaders and generated textures, can be stored in a cache. In response to a command that uses a resource, such as a draw command that invokes a shader or other resource, the emulator can use the processed resource in the cache. If the processed resource is not in the cache, the emulator can skip processing the command that uses the resource. If processed resources can be obtained from other sources and loaded in the cache, processing of resources by the emulator can be eliminated.

Disclosed are various approaches for injecting resources into wrapped applications. A computing device first obtains a compiled version of a target application package. The computing device then decompiles the compiled version of the target application package to generate a source code version of the target application package. Then, the computing device combines the source code version of the target application package with management component source code. Next, the computing device generates an application resource index. Subsequently, the computing device, modifies the management component source code based at least in part on the application resource index. Finally, the computing device compiles the combined source code version of the target application package and the management component source code to generate a managed application package.

Provided is a method, apparatus, system, and non-transitory computer readable medium for extending at least one function of a package file. A function addition method executed at a computer may include storing a package file for an application; extracting, from the package file, a file in which information about a class most initially called in response to execution of the application is set as configuration information of the application; and setting a class name of a new class to an item to which information about the most initially called class is set in the extracted file.

Embodiments include methods, and computer system, and computer program products for generating ease of use interfaces for legacy system management facilities (SMF). Aspects include: retrieving an SMF record from an SMF data source through an SMF data interface from a file, over a network or via a real-time API, SMF record having a data control section (DSECT) with code comments for storing a mapping of SMF record defining data structure of SMF record with one or more fields, converting mapping of SMF record into an intermediate format representing mapping of SMF record and corresponding information extracted from the code comments among the one or more fields of SMF record, generating at least one application programming interface (API) in a different computer language using intermediate format, and accessing SMF record using API generated. Different computer language may include Java and intermediate format may include Extensible Markup Language (XML).

An apparatus includes a memory and a hardware processor. The memory stores a plurality of conversion rules. The processor receives a first log from a server. The first log indicates that the server attempted to install a software patch. The processor converts, based on the plurality of conversion rules, the first log into a different format to produce a second log and extracts a plurality of words from the second log. The processor also determines, based on the extracted words, that the software patch install failed and determines, based on the extracted words, a cause for the software patch install failure. The processor further determines a series of steps to remedy the cause and perform the series of steps to remedy the cause.

An apparatus includes a memory and a hardware processor. The memory stores a plurality of conversion rules. The processor receives a first log from a server. The first log indicates that the server attempted to install a software patch. The processor converts, based on the plurality of conversion rules, the first log into a different format to produce a second log and extracts a plurality of words from the second log. The processor also determines, based on the extracted words, that the software patch install failed and determines, based on the extracted words, a cause for the software patch install failure. The processor further determines a series of steps to remedy the cause and perform the series of steps to remedy the cause.

Embodiments of the present invention provide a method, computer program product, and system for debugging optimized code. The system includes a FAT binary, wherein the FAT binary comprises a non-optimized native code and an internal representation of a program's source code. An optimus program is configured to transform the internal representation of the program's source code into a fully optimized native code. The system also includes an enhanced loader, wherein the enhanced loader is configured to communicate with a debugger to determine a type of code to load.

Tools and techniques are described to create a controller wiring board. A user, using a user interface associated with a controller, can determine which devices will be attached to a controller. The features of the devices may be already known by the controller. The controller can change wiring terminal types depending on the requirements of the devices wired to the controllers. In some embodiments, a device is wired to a module associated with the controller. The controller can signal to the module to modify its wiring terminal to match the needs of the device to be wired to that location.