摘要:
The subject disclosure relates to a syntax for a scripting language that allows data intensive applications to be written in a compact, human friendly, textual format. The scripting language can be a declarative programming language, such as the “D” programming language, which is well suited to the authoring of data intensive programs. A compact query syntax is provided for D that simplifies the expression of complex and data intensive programs. In another non-limiting aspect, conventional operator precedence is modified to accommodate the compact syntax and other unique features of a general purpose declarative programming language.
摘要:
A common intermediate representation for a data scripting language is provided for efficient representation and direct specification of programming constructs in memory. The common intermediate representation of data scripts allows data intensive applications to be created and analyzed in a machine accessible format, and the elements of the common intermediate representation can be stored independent of underlying storage specifics. Stored elements of the common intermediate representation of code are thus available for fast loading in memory when desired by other applications and programs by mapping the stored elements to the in memory intermediate representation.
摘要:
A common intermediate representation for a data scripting language is provided for efficient representation and direct specification of programming constructs in memory. The common intermediate representation of data scripts allows data intensive applications to be created and analyzed in a machine accessible format, and the elements of the common intermediate representation can be stored independent of underlying storage specifics. Stored elements of the common intermediate representation of code are thus available for fast loading in memory when desired by other applications and programs by mapping the stored elements to the in memory intermediate representation.
摘要:
The subject disclosure relates to a syntax for a scripting language that allows data intensive applications to be written in a compact, human friendly, textual format. The scripting language can be a declarative programming language, such as the “D” programming language, which is well suited to the authoring of data intensive programs. A compact query syntax is provided for D that simplifies the expression of complex and data intensive programs. In another non-limiting aspect, conventional operator precedence is modified to accommodate the compact syntax and other unique features of a general purpose declarative programming language.
摘要:
Embodiments of tree-based directed graph programming structures for a declarative programming language are provided. In various embodiments, complex graph structured data, referred to as “DGraphs” herein in one non-limiting implementation, is authored using a compact, human friendly syntax without the use of explicit identifiers. In one non-limiting aspect, the syntax includes support for conformance relationships, also referred to as factored relationships. In another non-limiting aspect, the semistructured graph data is a tree-based representation and the syntax includes lexical resolution of references or lexical scoping, and/or non local initialization.
摘要:
Embodiments of tree-based directed graph programming structures for a declarative programming language are provided. In various embodiments, complex graph structured data, referred to as “DGraphs” herein in one non-limiting implementation, is authored using a compact, human friendly syntax without the use of explicit identifiers. In one non-limiting aspect, the syntax includes support for conformance relationships, also referred to as factored relationships. In another non-limiting aspect, the semistructured graph data is a tree-based representation and the syntax includes lexical resolution of references or lexical scoping, and/or non local initialization.
摘要:
Systems and methods that integrate data type conversion(s) into a programming language, and describe external formats within a syntax thereof. A mapping component defines a declarative mapping from an external data format to one or more of its internal data types (e.g., expressing external data types in terms of source languages.) Moreover, a rule establishing component can define value-based rules, such as invariants to the external data format, wherein the schema declaration further defines data fields that make up the schema. Accordingly, by expressing rules in form of predicate logic (instead of imperative program logic) the subject innovation increase a likelihood that compilers can reason about the data.
摘要:
The present invention adds support for concurrency to a mainstream object-oriented language. Language extensions are provided that can enable programs to be developed that can either be run in one address space, distributed across several process on a single computer, or distributed across a local-area or wide-area network, without recoding the program. Central to this aspect is the notion of a service, which can execute its own algorithmic (logical) thread. Services do not share memory or synchronize using explicit synchronization primitives. Rather, both data sharing and synchronization is accomplished via message-passing, e.g., a set of explicitly declared messages are sent between services. Messages can contain data that is shared, and the pattern of message exchange provide the necessary synchronization.
摘要:
Systems and methods that integrate data type conversion(s) into a programming language, and describe external formats within a syntax thereof. A mapping component defines a declarative mapping from an external data format to one or more of its internal data types (e.g., expressing external data types in terms of source languages.) Moreover, a rule establishing component can define value-based rules, such as invariants to the external data format, wherein the schema declaration further defines data fields that make up the schema. Accordingly, by expressing rules in form of predicate logic (instead of imperative program logic) the subject innovation increase a likelihood that compilers can reason about the data.