Patent application number | Description | Published |
20130042257 | MODE-SWITCHED VARIABLE SIGNAL ATTRIBUTES IN BLOCK DIAGRAMS - A programming element is provided that defines model attributes in response to mode change events in a graphical modeling environment. Such definition may involve any signal attribute such as dimensions, data types, complexity and sample times. Events that trigger definition of model attributes may be explicit signaling events generated by other elements, elements within the block diagram programming environment, and elements external from the environment. Implicit events may also trigger definition of model attributes, such as a change of attribute in an input signal. | 02-14-2013 |
20130074054 | METHOD AND SYSTEM FOR SYNTAX ERROR REPAIR IN PROFRAMMING LANGUAGES - The described embodiments present techniques for recovering from syntax errors. These techniques correct potential errors while preserving the shape of the parse tree, and the specific implementation of the techniques can be automatically generated from the grammar. These techniques may operate by looking back at states associated with previously-received tokens to determine pair matching status, when a synchronizing symbol is received. The techniques can respond to the pair matching status determination by potentially adding a synthesized token or by deleting a token that has already been received. The techniques may use a structure referred to herein as a tuple to assist with the evaluation of the pair matching status. Some of the techniques utilize indentation information to evaluate the pair matching status, while other techniques ignore such information. The described embodiments also include a technique for automatically generating the tuples from a set of grammar rules associated with the parser. | 03-21-2013 |
20130145344 | APPLYING CODING STANDARDS IN GRAPHICAL PROGRAMMING ENVIRONMENTS - Graphical programming or modeling environments in which a coding standard can be applied to graphical programs or models are disclosed. The present invention provides mechanisms for applying the coding standard to graphical programs/models in the graphical programming/modeling environments. The mechanisms may detect violations of the coding standard in the graphical model and report such violations to the users. The mechanisms may automatically correct the graphical model to remove the violations from the graphical model. The mechanisms may also automatically avoid the violations in the simulation and/or code generation of the graphical model. | 06-06-2013 |
20130145345 | CONTINUOUS TIME MODE-DRIVEN SIMULATIONS IN A GRAPHICAL MODELING ENVIRONMENT - A system, computer-readable medium, and method includes providing a control flow graph including at least one condition. An update control flow graph is automatically generated based on the provided control flow graph, where execution of the update control flow graph includes an evaluation of the condition. The update control flow graph and a value corresponding to the evaluated condition is stored. An output control flow graph based on the provided control flow graph is automatically generated, where execution of the output control flow graph is based on the stored value corresponding to the evaluated condition. A mode transition control flow graph configured to identify mode transitions for the control flow graph at one or more time intervals is automatically generated and the update control flow graph is re-executed based on the generated mode transition control flow graph. | 06-06-2013 |
20130145347 | AUTOMATIC MODULARIZATION OF SOURCE CODE - A device creates a graph based on source code, and analyzes the source code to identify private variables and functions of the source code and public variables and functions of the source code. The device determines, based on the graph, a size threshold and semantics-related characteristics of functions and variables for each module, of multiple modules, and assigns, based on the graph, the private variables and functions to a corresponding module of the multiple modules. The device reduces, based on the graph, a number of the public variables and functions assigned to each module, and generates the multiple modules based on one or more of the graph, the size threshold, the assigned private variables and functions, and the number of the public variables and functions assigned to each module. | 06-06-2013 |
20130197677 | MULTI-MODEL, MULTI-OBJECTIVE TUNING OF CONTROL SYSTEMS - A device receives a control system model that includes a fixed portion that models elements of a control system to be controlled and a tunable portion that models elements of the control system used to control the elements modeled by the fixed portion. The device receives information that identifies a tunable parameter of the tunable portion of the control system model, a hard constraint associated with the control system model, and a soft constraint associated with the control system model. The hard constraint identifies a first constraint that is to be satisfied, and the soft constraint identifies a second constraint that is to be reduced. The device calculates a parameter value for the tunable parameter by applying an optimization algorithm to the control system model, based on the control system model, the tunable parameter, the hard constraint, and the soft constraint. The device provides the parameter value. | 08-01-2013 |
20130205192 | TEXT IMPORT TOOL FOR A TECHNICAL COMPUTING ENVIRONMENT - A device receives text that includes data values, and parses the text to identify data types associated with the data values. The device generates, based on the data values and the data types, a graphical representation of the text that includes data cells corresponding to the data values, and provides the graphical representation for display. The device receives one or more selections of one or more data cells in the graphical representation, stores the one or more selections as a selection history, and provides the selection history for display. | 08-08-2013 |
Patent application number | Description | Published |
20130212054 | GENERATING A STATE DIAGRAM - A computing device may include a memory to store data that describes a state machine model that includes destination states and source states. The source states may be associated with conditions upon which the state machine model is to transition from a corresponding source state to one of the destination states. The device may also include a processor configured to generate data to describe a state diagram from the data that describes the state machine model. The state diagram may include the graphical symbols and lines. Each of the graphical symbols may represent one of the source states or one of the destination states. The lines may represent transitions and include one or more vertical lines to represent transitions to one of the destination states from more than one of the source states. The graphical symbol may represent the one of the destination states is not adjacent to the graphical symbols to represent the more than one of the source states. The processor may arrange graphical symbols in a first row, arrange lines, and arrange vertical lines in a second row that does not overlap with the first row. | 08-15-2013 |
20130290925 | UNIFIED STATE TRANSITION TABLE DESCRIBING A STATE MACHINE MODEL - A computer-readable memory device may include instructions to store data describing a state machine model including source states and destination states. The device may also include instructions to store, for each of the source states, a condition field identifying a condition upon which, when satisfied, the state machine model transitions from the source state to one of the destination states. The device may also include instructions to store, for each of source states, a destination field identifying the one of the destination states. Each of at least two of the source states may identify an identical destination state in the corresponding destination field. Each of at least two of the source states may identify an identical condition in the corresponding condition field. | 10-31-2013 |
20140122026 | Self-testing Graphical Component Algorithm Specification - A system and method automatically ensures consistency among a design model and one or more test models that test the design model. The system may include a broker adapted to construct an interface specification. The interface specification identifies the interface of the design model, e.g., its external inputs, external outputs, and initialization states. It may also identify the outputs, inputs, and initialization setting objects of the test models. Proposed changes to the design model's interface may be captured by the broker, and applied to the design model and to the test models atomically. Proposed changes to a given test model that implicate the design model's interface also may be captured, and applied to the given test model, the other test models, and the design model atomically. Default behaviors may be defined for applying the proposed changes to the other test models and the design model. | 05-01-2014 |
20140122028 | SELF-TESTING GRAPHICAL COMPONENT ALGORITHM SPECIFICATION - A system and method automatically ensures consistency among a design model, an interface specification and one or more tests that test the design model. The system may include a broker adapted to construct the interface specification. The interface specification identifies the interface of the design model, e.g., its external inputs, external outputs, and initialization settings. It may also identify the outputs, inputs, and initialization setting objects of the tests. Proposed changes to any one of the design model's interface, the interface specification and the interfaces of the tests may be captured by the broker, and applied to the other two. | 05-01-2014 |