| | 1 | = Querying syntactic and semantic information = |
| | 2 | |
| | 3 | A semantic query language was designed to query syntactic and semantic information about Erlang programs. The language concepts are defined according to the semantic units and relationships of the Erlang language, e.g. functions and function calls, records and their usage, etc. |
| | 4 | |
| | 5 | The main elements of the language are the '''entities''': module, function, variable, etc. Each entity has a set of selectors and properties. A '''selector''' selects a set of entities that meet the given requirements. A '''property''' describes some properties of an entity type. It is also possible to filter entities based on the properties. A '''filter''' is a boolean expression to select a subset of entities. We can build filters by using properties with boolean values, valid Erlang comparisons, logical operators or embedded queries. |
| | 6 | |
| | 7 | == Formal syntax of the language == |
| | 8 | |
| | 9 | {{{ |
| | 10 | semantic_query ::= initial_selection ['.' query_sequence] |
| | 11 | query_sequence ::= query ['.' query_sequence] |
| | 12 | query ::= selection | iteration | closure | property_query |
| | 13 | initial_selection ::= initial_selector ['[' filter ']'] |
| | 14 | selection ::= selector ['[' filter ']'] |
| | 15 | iteration ::= '{' query_sequence '}' int ['[' filter ']'] |
| | 16 | closure ::= '(' query_sequence ')' int ['[' filter ']'] | |
| | 17 | '(' query_sequence ')+' ['[' filter ']'] |
| | 18 | property_query ::= property ['[' filter ']'] |
| | 19 | }}} |
| | 20 | |
| | 21 | A semantic query is a sequence of queries starting with an initial selector and an optional filter. Queries are |
| | 22 | separated with dots. |
| | 23 | A query is a |
| | 24 | * selection (calculates the relationship with other entities based on selectors) |
| | 25 | * iteration (iterates a query n times) |
| | 26 | * closure (calculates the transitive closure of a query sequence) |
| | 27 | * property query (selects a property of an entity) |
| | 28 | |
| | 29 | == Language elements == |
| | 30 | |
| | 31 | === Entities === |
| | 32 | Entities correspond to the semantic units of Erlang. The result of a query written in the language is a set of entities. Each element of a set belongs to the same type. We have the following entity types: file, function, variable, macro, record, record |
| | 33 | field expression. Each entity type has a set of selectors and properties defined for them. For details, see: [wiki:SQEntityDetail] |
| | 34 | |
| | 35 | === Selectors === |
| | 36 | Selectors are binary relations between entities. The entities belong to one of the seven entity types. A selector selects a set of entities that meet given requirements for each entity. |
| | 37 | |
| | 38 | ''Example:'' You can select the functions defined in a given module. In that case the selection is a relation between modules and functions. |
| | 39 | {{{ |
| | 40 | @mod.functions |
| | 41 | }}} |
| | 42 | |
| | 43 | ==== Initial selectors ==== |
| | 44 | Initial selectors get the current file and position as their parameters and return a set of entities as result. The entities of |
| | 45 | the result belong to the same type, but the type can not always be determined in advance, it depends on the parameters. Almost all of them begin with the character {{{@}}} to indicate that they depend on a position. |
| | 46 | |
| | 47 | For example, the initial selector {{{@variable}}} will look for a variable at the given position. If no variable can be found the result will be empty. Besides the position based initial selectors there is another initial selector: {{{mods}}}. This selector returns all of the modules that are loaded into the semantic program graph. |
| | 48 | |
| | 49 | === Properties === |
| | 50 | Properties are functions that give the value of the property for an entity. The main purpose of properties is to filter sets of entities using them, but their values can be queried too. To query the value of a property you have to use the name of the property at the end of a semantic query. |
| | 51 | |
| | 52 | ''Example:'' To query the value of the property {{{exported}}} for the functions of the given module: |
| | 53 | {{{ |
| | 54 | @module.functions.exported |
| | 55 | }}} |
| | 56 | |
| | 57 | ==== Statistics ==== |
| | 58 | |
| | 59 | For properties with numeric values statistics are also available. Using these for the results of metric queries can give more |
| | 60 | information than a simple list of values. |
| | 61 | |
| | 62 | ''Example:'' To query the average length of the functions of the given module: |
| | 63 | {{{ |
| | 64 | @file.functions.line_of_code:average |
| | 65 | }}} |
| | 66 | |
| | 67 | === Filters === |
| | 68 | A filter is a boolean expression to select subsets of entities. After applying a filter, the result contains the elements of the original set where this boolean expression is true. Building filters is possible using atoms, strings, integers, properties and embedded queries. The use of strings and integers is unambiguous, but the names of properties are atoms, so it is checked for each atom if they are properties or not. |
| | 69 | |
| | 70 | Atoms, strings, integers and properties can be used in comparisons. The language uses {{{/=, ==, >=, =<, <}}} and {{{>}}}. The |
| | 71 | results of comparisons are the same as in Erlang. The resulting expressions can be combined by {{{and}}}, {{{or}}}, and {{{not}}} operators, and parentheses can be used, too. The operator precedence for the filters is as follows: |
| | 72 | |
| | 73 | |||| '''Operator precedence (decreasing)''' || |
| | 74 | ||{{{not}}} ||unary || |
| | 75 | ||{{{/=, ==, >=, =<, <, >, =:=, =/=}}} ||left associative || |
| | 76 | ||{{{and}}} ||left associative || |
| | 77 | ||{{{or}}} ||left associative || |
| | 78 | |
| | 79 | ''Example:'' you may be interested in all the exported functions of a given module, or the functions with {{{0}}} arity, or maybe a combination of these: the exported functions with {{{0}}} arity. In the example exported and arity are both properties of functions and by using them it is possible to build a filter to select the required subset of functions. |
| | 80 | {{{ |
| | 81 | @module.functions[arity==0 and exported] |
| | 82 | }}} |
| | 83 | |
| | 84 | ==== Embedded queries ==== |
| | 85 | Embedded queries can be used to query information about entities that is otherwise unavailable, that is it can not be expressed by the help of properties. |
| | 86 | |
| | 87 | For example, we may need the functions with variables named {{{File}}}. This information can not be expressed with the help of properties. Without embedded queries it is only possible to query the variables named {{{File}}} and query the functions containing these variables after that, with the following query: |
| | 88 | {{{ |
| | 89 | "mods.functions.variables[name=="File"].function_definition |
| | 90 | }}} |
| | 91 | Embedded queries make it possible to use these kind of queries effectively, without the need to continue with the query directly. The continuation of the query is in the filter, used like a property with a boolean value. The value is considered true if the result of the query is not empty. For the previous example using the following query will give the desired results. |
| | 92 | {{{ |
| | 93 | @mods.functions[.variables[name=="File"]]"}}} |
| | 94 | }}} |
| | 95 | |
| | 96 | === Iteration === |
| | 97 | |
| | 98 | Iteration in the language means the repeated application of a query sequence. The queries are relations and a sequence of queries is a composition of these queries. Using iteration is possible if the domain and codomain of the query sequence is the same. The application is repeated exactly {{{int}}} times. |
| | 99 | |
| | 100 | The result shown in this case is not only the result of the iteration but the partial results also, in the form of chains. |
| | 101 | |
| | 102 | ''Example:'' |
| | 103 | {{{ |
| | 104 | @function.{calls}3 |
| | 105 | }}} |
| | 106 | The result is the same set of entities as of {{{@function.calls.calls.calls}}}. The result shown in the first case will give more information: it gives the call chains with the maximum length of 3 starting from a given function. |
| | 107 | |
| | 108 | === Transitive closure === |
| | 109 | |
| | 110 | Transitive closure in the language means the closure of a query sequence. The query sequence here is the same as in iteration, a |
| | 111 | binary relation with the same domain and codomain. |
| | 112 | |
| | 113 | ''Example:'' |
| | 114 | {{{ |
| | 115 | @function.(calls)+ |
| | 116 | }}} |
| | 117 | The result shown after this semantic query is the list of all possible call chains starting from a given function. |
| | 118 | |
