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{{Program execution}}
An '''execution model''' specifies how work takes place. Every programming language has an execution model, which is specified as part of the language specification, and is implemented as part of the language implementation. Execution models can also exist independently from programming languages, examples of which would be the [[POSIX Threads]] library, and Hadoop's Map-Reduce [[programming model]]. The implementation of an execution model can be via [[compiler]], or [[interpreter]], and often includes a [[runtime system]].
The details in the specification of an execution model cover things such as what is an indivisible unit of work and what are the constraints on the order in which those units of work take place. For example, the addition operation is an indivisible unit of work in many languages, and in sequential languages such units of work are constrained to take place one after the other.
In particular, the [[C (programming language)|C programming language]], has a concept called a statement. The spec says that a statement is a chunk of syntax that is terminated by a ";". The language spec then says that execution of the program proceeds statement by statement, which tells us something about the execution model of the language. It tells us that statements are indivisible units of work and that they proceed in the same order as their syntactic appearance in the code (except when a control statement such as IF or WHILE modifies the order). By stating the order in which statements are executed, the language spec has stated constraints on the order of performing units of work. The C language actually has an additional level to its execution model, which is the order of precedence. It states the rules for the order of operations within a single statement. The order of precedence can be viewed as stating the constraints on performing the units of work that are within a single statement. So, ";" and "IF" and "WHILE" cover constraints on the order of statements, while order of precedence covers constraints on work within a statement. Hence, these parts of the C language specification are stating the execution model of the C language.
An implementation of an execution model controls the order in which work takes place during execution. This order may be chosen ahead of time, in some situations, or it can be dynamically determined as the execution proceeds. Most execution models allow varying degrees of both. For example, the C language fixes the order of work within a statement and it fixes the order of all statements, except ones that involve an IF statement or a form of loop statement. Hence, most of the order of execution may be chosen statically, before execution begins, but a small portion must be chosen dynamically, as execution proceeds.
The static choices are most often implemented inside a [[compiler]], in which case the order of work is represented by the order in which instructions are placed into the executable binary. The dynamic choices would then be implemented inside the language's [[runtime system]]. The runtime system may be a library, which is called by instructions inserted by the [[compiler]], or the runtime system may be embedded into the [[executable]] directly, such as by inserting branch instructions, which make dynamic choices about which work to perform next.
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| url = https://books.google.com/books?id=4xwWNCiF9CgC&pg=PA61&lpg=PA61&dq=C+language+execution+model&source=bl&ots=pjBT99RWMQ&sig=bEKw6hgDsG9l4yqxiGyEEdFlWQI&hl=en&sa=X&ei=pElcVa-NNsbZsAWrs4DwDw&ved=0CFcQ6AEwCA#v=onepage&q=C%20language%20execution%20model&f=false
| title = Programming Languages and Execution Models
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| isbn=9780387096711
| year=2011
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