org.kiama.rewriting.Rewriter

Type Members

class PlusStrategy extends Strategy

Helper class to contain commonality of choice in non-deterministic choice operator and then-else part of a conditional choice.
abstract class Strategy extends (Term) ⇒ Option[Term]

Term-rewriting strategies.
type Term = Any

The type of terms that can be rewritten.
The type of terms that can be rewritten. Any type of value is acceptable but generic traversals will only work on some specific types. See the documentation of the specific generic traversals (e.g., all or some) for a detailed description.

Definition Classes
Rewriter

Value Members

final def !=(arg0: AnyRef): Boolean

Definition Classes
AnyRef
final def !=(arg0: Any): Boolean

Definition Classes
Any
final def ##(): Int

Definition Classes
AnyRef → Any
final def ==(arg0: AnyRef): Boolean

Definition Classes
AnyRef
final def ==(arg0: Any): Boolean

Definition Classes
Any
object Term extends AnyRef

Generic term deconstruction.
def all(s: ⇒ Strategy): Strategy

Traversal to all children.
Traversal to all children. Construct a strategy that applies s to all term children of the subject term. If s succeeds on all of the children, then succeed, forming a new term from the constructor of the original term and the result of s for each child. If s fails on any child, fail. If there are no children, succeed. If s succeeds on all children producing the same terms (by eq for references and by == for other values), then the overall strategy returns the subject term. This operation works on finite Rewritable, Product, Map and Traversable values, checked for in that order. Children of a Rewritable (resp. Product, collection) value are processed in the order returned by the value's deconstruct (resp. productElement, foreach) method.

Definition Classes
Rewriter
def allbu(s: ⇒ Strategy): Strategy

Construct a strategy that applies s in a bottom-up fashion to all subterms at each level, stopping at a frontier where s succeeds.
Construct a strategy that applies s in a bottom-up fashion to all subterms at each level, stopping at a frontier where s succeeds.

Definition Classes
Rewriter
def alldownup2(s1: ⇒ Strategy, s2: ⇒ Strategy): Strategy

Construct a strategy that applies s1 in a top-down, prefix fashion stopping at a frontier where s1 succeeds.
Construct a strategy that applies s1 in a top-down, prefix fashion stopping at a frontier where s1 succeeds. s2 is applied in a bottom-up, postfix fashion to the result.

Definition Classes
Rewriter
def alltd(s: ⇒ Strategy): Strategy

Construct a strategy that applies s in a top-down fashion, stopping at a frontier where s succeeds.
Construct a strategy that applies s in a top-down fashion, stopping at a frontier where s succeeds.

Definition Classes
Rewriter
def alltdfold(s1: ⇒ Strategy, s2: ⇒ Strategy): Strategy

Construct a strategy that applies s1 in a top-down, prefix fashion stopping at a frontier where s1 succeeds.
Construct a strategy that applies s1 in a top-down, prefix fashion stopping at a frontier where s1 succeeds. s2 is applied in a bottom-up, postfix fashion to the results of the recursive calls.

Definition Classes
Rewriter
def and(s1: ⇒ Strategy, s2: ⇒ Strategy): Strategy

and(s1, s2) applies s1 and s2 to the current term and succeeds if both succeed.
and(s1, s2) applies s1 and s2 to the current term and succeeds if both succeed. s2 will always be applied, i.e., and is not a short-circuit operator

Definition Classes
Rewriter
final def asInstanceOf[T0]: T0

Definition Classes
Any
def attempt(s: ⇒ Strategy): Strategy

Construct a strategy that applies s, yielding the result of s if it succeeds, otherwise leave the original subject term unchanged.
Construct a strategy that applies s, yielding the result of s if it succeeds, otherwise leave the original subject term unchanged. In Stratego library this strategy is called try.

Definition Classes
Rewriter
def bottomup(s: ⇒ Strategy): Strategy

Construct a strategy that applies s in a bottom-up, postfix fashion to the subject term.
Construct a strategy that applies s in a bottom-up, postfix fashion to the subject term.

Definition Classes
Rewriter
def bottomupS(s: ⇒ Strategy, stop: (⇒ Strategy) ⇒ Strategy): Strategy

Construct a strategy that applies s in a bottom-up, postfix fashion to the subject term but stops when the strategy produced by stop succeeds.
Construct a strategy that applies s in a bottom-up, postfix fashion to the subject term but stops when the strategy produced by stop succeeds. stop is given the whole strategy itself as its argument.

Definition Classes
Rewriter
def breadthfirst(s: ⇒ Strategy): Strategy

Construct a strategy that applies s in breadth first order.
Construct a strategy that applies s in breadth first order.

Definition Classes
Rewriter
def build(t: ⇒ Term): Strategy

Construct a strategy that always succeeds, changing the subject term to the given term t.
Construct a strategy that always succeeds, changing the subject term to the given term t.

Definition Classes
Rewriter
def child(i: Int, s: Strategy): Strategy

Traversal to a single child.
Traversal to a single child. Construct a strategy that applies s to the ith child of the subject term (counting from one). If s succeeds on the ith child producing t, then succeed, forming a new term that is the same as the original term except that the ith child is now t. If s fails on the ith child or the subject term does not have an ith child, then fail. child(i, s) is equivalent to Stratego's i(s) operator. If s succeeds on the ith child producing the same term (by eq for references and by == for other values), then the overall strategy returns the subject term. This operation works for instances of Product or finite Seq values.

Definition Classes
Rewriter
def clone(): AnyRef

Attributes
protected[lang]
Definition Classes
AnyRef
Annotations
@throws()
def collect[CC[U] <: Traversable[U], T](f: ==>[Term, T])(implicit cbf: CanBuildFrom[CC[T], T, CC[T]]): (Term) ⇒ CC[T]

Collect query results in a traversable collection.
Collect query results in a traversable collection. Run the function f as a top-down left-to-right query on the subject term. Accumulate the values produced by the function in the collection and return the final value of the list.

Definition Classes
Rewriter
def collectl[T](f: ==>[Term, T]): (Term) ⇒ List[T]

Collect query results in a list.
Collect query results in a list. Run the function f as a top-down left-to-right query on the subject term. Accumulate the values produced by the function in a list and return the final value of the list.

Definition Classes
Rewriter
def collects[T](f: ==>[Term, T]): (Term) ⇒ Set[T]

Collect query results in a set.
Collect query results in a set. Run the function f as a top-down left-to-right query on the subject term. Accumulate the values produced by the function in a set and return the final value of the set.

Definition Classes
Rewriter
def congruence(ss: Strategy*): Strategy

Make a strategy that applies the elements of ss pairwise to the children of the subject term, returning a new term if all of the strategies succeed, otherwise failing.
Make a strategy that applies the elements of ss pairwise to the children of the subject term, returning a new term if all of the strategies succeed, otherwise failing. The constructor of the new term is the same as that of the original term and the children are the results of the strategies. If the length of ss is not the same as the number of children, then congruence(ss) fails. If the argument strategies succeed on children producing the same terms (by eq for references and by == for other values), then the overall strategy returns the subject term. This operation works on instances of Product values.

Definition Classes
Rewriter
val constrcache: WeakHashMap[java.lang.Class[_], java.lang.reflect.Constructor[_]]

Cache of constructors for product duplication.
Cache of constructors for product duplication.

Attributes
protected
Definition Classes
Rewriter
def count(f: ==>[Term, Int]): (Term) ⇒ Int

Count function results.
Count function results. Run the function f as a top-down query on the subject term. Sum the integer values returned by f from all applications.

Definition Classes
Rewriter
def debug(msg: String, emitter: Emitter = new Emitter): Strategy

A strategy that always succeeds with the subject term unchanged (i.
A strategy that always succeeds with the subject term unchanged (i.e., this is the identity strategy) with the side-effect that the subject term is printed to the given emitter, prefixed by the string s. The emitter defaults to one that writes to standard output.

Definition Classes
Rewriter
def doloop(s: ⇒ Strategy, c: ⇒ Strategy): Strategy

Construct a strategy that applies s at least once and then repeats s while c succeeds.
Construct a strategy that applies s at least once and then repeats s while c succeeds. This operator is called do-while in the Stratego library.

Definition Classes
Rewriter
def dontstop(s: ⇒ Strategy): Strategy

A unit for topdownS, bottomupS and downupS.
A unit for topdownS, bottomupS and downupS. For example, topdown(s) is equivalent to topdownS(s, dontstop).

Definition Classes
Rewriter
def downup(s1: ⇒ Strategy, s2: ⇒ Strategy): Strategy

Construct a strategy that applies s1 in a top-down, prefix fashion and s2 in a bottom-up, postfix fashion to the subject term.
Construct a strategy that applies s1 in a top-down, prefix fashion and s2 in a bottom-up, postfix fashion to the subject term.

Definition Classes
Rewriter
def downup(s: ⇒ Strategy): Strategy

Construct a strategy that applies s in a combined top-down and bottom-up fashion (i.
Construct a strategy that applies s in a combined top-down and bottom-up fashion (i.e., both prefix and postfix) to the subject term.

Definition Classes
Rewriter
def downupS(s1: ⇒ Strategy, s2: ⇒ Strategy, stop: (⇒ Strategy) ⇒ Strategy): Strategy

Construct a strategy that applies s1 in a top-down, prefix fashion and s2 in a bottom-up, postfix fashion to the subject term but stops when the strategy produced by stop succeeds.
Construct a strategy that applies s1 in a top-down, prefix fashion and s2 in a bottom-up, postfix fashion to the subject term but stops when the strategy produced by stop succeeds. stop is given the whole strategy itself as its argument.

Definition Classes
Rewriter
def downupS(s: ⇒ Strategy, stop: (⇒ Strategy) ⇒ Strategy): Strategy

Construct a strategy that applies s in a combined top-down and bottom-up fashion (i.
Construct a strategy that applies s in a combined top-down and bottom-up fashion (i.e., both prefix and postfix) to the subject but stops when the strategy produced by stop succeeds. stop is given the whole strategy itself as its argument.

Definition Classes
Rewriter
def dup[T <: Product](t: T, children: Array[AnyRef]): T

General product duplication function.
General product duplication function. Returns a product that applies the same constructor as the product t, but with the given children instead of t's children. Fails if a constructor cannot be found, there are the wrong number of new children, or if one of the new children is not of the appropriate type.

Attributes
protected
Definition Classes
Rewriter
final def eq(arg0: AnyRef): Boolean

Definition Classes
AnyRef
val eq: Strategy

Construct a strategy that tests whether the two sub-terms of a pair of terms are equal.
Construct a strategy that tests whether the two sub-terms of a pair of terms are equal.

Definition Classes
Rewriter
val equal: Strategy

Construct a strategy that tests whether the two sub-terms of a pair of terms are equal.
Construct a strategy that tests whether the two sub-terms of a pair of terms are equal. Synonym for eq.

Definition Classes
Rewriter
def equals(arg0: Any): Boolean

Definition Classes
AnyRef → Any
def everything[T](v: T)(f: (T, T) ⇒ T)(g: ==>[Term, T])(t: Term): T

Apply the function at every term in t in a top-down, left-to-right order.
Apply the function at every term in t in a top-down, left-to-right order. Collect the resulting T values by accumulating them using f with initial left value v. Return the final value of the accumulation.

Definition Classes
Rewriter
def everywhere(s: ⇒ Strategy): Strategy

Same as everywheretd.
Same as everywheretd.

Definition Classes
Rewriter
def everywherebu(s: ⇒ Strategy): Strategy

Construct a strategy that applies s at all terms in a bottom-up fashion regardless of failure.
Construct a strategy that applies s at all terms in a bottom-up fashion regardless of failure. Terms for which the strategy fails are left unchanged.

Definition Classes
Rewriter
def everywheretd(s: ⇒ Strategy): Strategy

Construct a strategy that applies s at all terms in a top-down fashion regardless of failure.
Construct a strategy that applies s at all terms in a top-down fashion regardless of failure. Terms for which the strategy fails are left unchanged.

Definition Classes
Rewriter
val fail: Strategy

A strategy that always fails.
A strategy that always fails.

Definition Classes
Rewriter
def finalize(): Unit

Attributes
protected[lang]
Definition Classes
AnyRef
Annotations
@throws()
final def getClass(): java.lang.Class[_]

Definition Classes
AnyRef → Any
def hashCode(): Int

Definition Classes
AnyRef → Any
val id: Strategy

A strategy that always succeeds with the subject term unchanged (i.
A strategy that always succeeds with the subject term unchanged (i.e., this is the identity strategy).

Definition Classes
Rewriter
def innermost(s: ⇒ Strategy): Strategy

Construct a strategy that applies s repeatedly to the innermost (i.
Construct a strategy that applies s repeatedly to the innermost (i.e., lowest and left-most) (sub-)term to which it applies. Stop with the current term if s doesn't apply anywhere.

Definition Classes
Rewriter
def innermost2(s: ⇒ Strategy): Strategy

An alternative version of innermost.
An alternative version of innermost.

Definition Classes
Rewriter
def ior(s1: ⇒ Strategy, s2: ⇒ Strategy): Strategy

ior(s1, s2) implements inclusive OR, that is, the inclusive choice of s1 and s2.
ior(s1, s2) implements inclusive OR, that is, the inclusive choice of s1 and s2. It first tries s1. If that fails it applies s2 (just like s1 <+ s2). However, when s1 succeeds it also tries to apply s2.

Definition Classes
Rewriter
final def isInstanceOf[T0]: Boolean

Definition Classes
Any
val isinnernode: Strategy

Construct a strategy that succeeds if the current term has at least one direct subterm.
Construct a strategy that succeeds if the current term has at least one direct subterm.

Definition Classes
Rewriter
val isleaf: Strategy

Construct a strategy that succeeds if the current term has no direct subterms.
Construct a strategy that succeeds if the current term has no direct subterms.

Definition Classes
Rewriter
val ispropersubterm: Strategy

Construct a strategy that succeeds when applied to a pair (x,y) if x is a sub-term of y but is not equal to y.
Construct a strategy that succeeds when applied to a pair (x,y) if x is a sub-term of y but is not equal to y.

Definition Classes
Rewriter
val ispropersuperterm: Strategy

Construct a strategy that succeeds when applied to a pair (x,y) if x is a super-term of y but is not equal to y.
Construct a strategy that succeeds when applied to a pair (x,y) if x is a super-term of y but is not equal to y.

Definition Classes
Rewriter
val issubterm: Strategy

Construct a strategy that succeeds when applied to a pair (x,y) if x is a sub-term of y.
Construct a strategy that succeeds when applied to a pair (x,y) if x is a sub-term of y.

Definition Classes
Rewriter
val issuperterm: Strategy

Construct a strategy that succeeds when applied to a pair (x,y) if x is a superterm of y.
Construct a strategy that succeeds when applied to a pair (x,y) if x is a superterm of y.

Definition Classes
Rewriter
def lastly(s: ⇒ Strategy, f: ⇒ Strategy): Strategy

Applies s followed by f whether s failed or not.
Applies s followed by f whether s failed or not. This operator is called finally in the Stratego library.

Definition Classes
Rewriter
def leaves(s: ⇒ Strategy, isleaf: ⇒ Strategy, skip: (Strategy) ⇒ Strategy): Strategy

Construct a strategy that applies to all of the leaves of the current term, using isleaf as the leaf predicate, skipping subterms for which skip when applied to the result succeeds.
Construct a strategy that applies to all of the leaves of the current term, using isleaf as the leaf predicate, skipping subterms for which skip when applied to the result succeeds.

Definition Classes
Rewriter
def leaves(s: ⇒ Strategy, isleaf: ⇒ Strategy): Strategy

Construct a strategy that applies to all of the leaves of the current term, using isleaf as the leaf predicate.
Construct a strategy that applies to all of the leaves of the current term, using isleaf as the leaf predicate.

Definition Classes
Rewriter
def log[T](s: ⇒ Strategy, msg: String, emitter: Emitter = new Emitter): Strategy

Create a logging strategy based on a strategy s.
Create a logging strategy based on a strategy s. The returned strategy succeeds or fails exactly as s does, but also prints the provided message, the subject term, the success or failure status, and on success, the result term, to the provided emitter (default: standard output).

Definition Classes
Rewriter
def logfail[T](s: ⇒ Strategy, msg: String, emitter: Emitter = new Emitter): Strategy

Create a logging strategy based on a strategy s.
Create a logging strategy based on a strategy s. The returned strategy succeeds or fails exactly as s does, but if s fails, also prints the provided message and the subject term to the provided emitter (default: standard output).

Definition Classes
Rewriter
def loop(c: ⇒ Strategy, s: ⇒ Strategy): Strategy

Construct a strategy that while c succeeds applies s.
Construct a strategy that while c succeeds applies s. This operator is called while in the Stratego library.

Definition Classes
Rewriter
def loopiter(s: (Int) ⇒ Strategy, low: Int, high: Int): Strategy

Construct a strategy that applies s(i) for each integer i from low to high (inclusive).
Construct a strategy that applies s(i) for each integer i from low to high (inclusive). This operator is called for in the Stratego library.

Definition Classes
Rewriter
def loopiter(i: ⇒ Strategy, c: ⇒ Strategy, s: ⇒ Strategy): Strategy

Construct a strategy that repeats application of s while c fails, after initialization with i.
Construct a strategy that repeats application of s while c fails, after initialization with i. This operator is called for in the Stratego library.

Definition Classes
Rewriter
def loopnot(c: ⇒ Strategy, s: ⇒ Strategy): Strategy

Construct a strategy that while c does not succeed applies s.
Construct a strategy that while c does not succeed applies s. This operator is called while-not in the Stratego library.

Definition Classes
Rewriter
def makechild(c: Any): AnyRef

Make an arbitrary value c into a term child, checking that it worked properly.
Make an arbitrary value c into a term child, checking that it worked properly. Object references will be returned unchanged; other values will be boxed.

Attributes
protected
Definition Classes
Rewriter
def manybu(s: Strategy): Strategy

Construct a strategy that applies s as many times as possible, but at least once, in bottom up order.
Construct a strategy that applies s as many times as possible, but at least once, in bottom up order.

Definition Classes
Rewriter
def manytd(s: Strategy): Strategy

Construct a strategy that applies s as many times as possible, but at least once, in top down order.
Construct a strategy that applies s as many times as possible, but at least once, in top down order.

Definition Classes
Rewriter
def map(s: ⇒ Strategy): Strategy

Construct a strategy that applies s to each element of a list, returning a new list of the results if all of the applications succeed, otherwise fail.
Construct a strategy that applies s to each element of a list, returning a new list of the results if all of the applications succeed, otherwise fail. If all of the applications succeed without change, return the input list.

Definition Classes
Rewriter
def memo(s: ⇒ Strategy): Strategy

Return a strategy that behaves as s does, but memoises its arguments and results.
Return a strategy that behaves as s does, but memoises its arguments and results. In other words, if memo(s) is called on a term t twice, the second time will return the same result as the first, without having to invoke s. For best results, it is important that s should have no side effects.

Definition Classes
Rewriter
final def ne(arg0: AnyRef): Boolean

Definition Classes
AnyRef
def not(s: ⇒ Strategy): Strategy

Construct a strategy that applies s, then fails if s succeeded or, if s failed, succeeds with the subject term unchanged, I.
Construct a strategy that applies s, then fails if s succeeded or, if s failed, succeeds with the subject term unchanged, I.e., it tests if s applies, but has no effect on the subject term.

Definition Classes
Rewriter
final def notify(): Unit

Definition Classes
AnyRef
final def notifyAll(): Unit

Definition Classes
AnyRef
def oncebu(s: ⇒ Strategy): Strategy

Construct a strategy that applies s in a bottom-up fashion to one subterm at each level, stopping as soon as it succeeds once (at any level).
Construct a strategy that applies s in a bottom-up fashion to one subterm at each level, stopping as soon as it succeeds once (at any level).

Definition Classes
Rewriter
def oncetd(s: ⇒ Strategy): Strategy

Construct a strategy that applies s in a top-down fashion to one subterm at each level, stopping as soon as it succeeds once (at any level).
Construct a strategy that applies s in a top-down fashion to one subterm at each level, stopping as soon as it succeeds once (at any level).

Definition Classes
Rewriter
def one(s: ⇒ Strategy): Strategy

Traversal to one child.
Traversal to one child. Construct a strategy that applies s to the term children of the subject term. Assume that c is the first child on which s succeeds. Then stop applying s to the children and succeed, forming a new term from the constructor of the original term and the original children, except that c is replaced by the result of applying s to c. In the event that the strategy fails on all children, then fail. If there are no children, fail. If s succeeds on the one child producing the same term (by eq for references and by == for other values), then the overall strategy returns the subject term. This operation works on instances of finite Rewritable, Product, Map and Traversable values, checked for in that order. Children of a Rewritable (resp. Product, collection) value are processed in the order returned by the value's deconstruct (resp. productElement, foreach) method.

Definition Classes
Rewriter
def option(o: ⇒ Option[Term]): Strategy

Construct a strategy from an option value o.
Construct a strategy from an option value o. The strategy succeeds or fails depending on whether o is a Some or None, respectively. If o is a Some, then the subject term is changed to the term that is wrapped by the Some.

Definition Classes
Rewriter
def or(s1: ⇒ Strategy, s2: ⇒ Strategy): Strategy

or(s1, s2) is similar to ior(s1, s2), but the application of the strategies is only tested.
or(s1, s2) is similar to ior(s1, s2), but the application of the strategies is only tested.

Definition Classes
Rewriter
def outermost(s: ⇒ Strategy): Strategy

Construct a strategy that applies s repeatedly in a top-down fashion stopping each time as soon as it succeeds once (at any level).
Construct a strategy that applies s repeatedly in a top-down fashion stopping each time as soon as it succeeds once (at any level). The outermost fails when s fails to apply to any (sub-)term.

Definition Classes
Rewriter
def para[T](f: (Any, Seq[T]) ⇒ T): (Any) ⇒ T

Perform a paramorphism over a value.
Perform a paramorphism over a value. This is a fold in which the recursive step may refer to the recursive component of the value and the results of folding over the children. When the function f is called, the first parameter is the value and the second is a sequence of the values that f has returned for the children. his will work on any value, but will only decompose values that are supported by the Term generic term deconstruction. This operation is similar to that used in the Uniplate library.

Definition Classes
Rewriter
def query[T](f: ==>[Term, T]): Strategy

Define a term query by a partial function f.
Define a term query by a partial function f. The query always succeeds with no effect on the subject term but applies the given partial function f to the subject term. In other words, the strategy runs f for its side-effects.

Definition Classes
Rewriter
def queryf[T](f: (Term) ⇒ T): Strategy

Define a term query by a function f.
Define a term query by a function f. The query always succeeds with no effect on the subject term but applies the given (possibly partial) function f to the subject term. In other words, the strategy runs f for its side-effects.

Definition Classes
Rewriter
def reduce(s: ⇒ Strategy): Strategy

Construct a strategy that applies s repeatedly to subterms until it fails on all of them.
Construct a strategy that applies s repeatedly to subterms until it fails on all of them.

Definition Classes
Rewriter
def repeat(s: ⇒ Strategy, n: Int): Strategy

Construct a strategy that applies s repeatedly exactly n times.
Construct a strategy that applies s repeatedly exactly n times. If s fails at some point during the n applications, the entire strategy fails. The result of the strategy is that of the nth application of s.

Definition Classes
Rewriter
def repeat(s: ⇒ Strategy, c: ⇒ Strategy): Strategy

Construct a strategy that repeatedly applies s until it fails and then terminates with application of c.
Construct a strategy that repeatedly applies s until it fails and then terminates with application of c.

Definition Classes
Rewriter
def repeat(s: ⇒ Strategy): Strategy

Construct a strategy that applies s repeatedly until it fails.
Construct a strategy that applies s repeatedly until it fails.

Definition Classes
Rewriter
def repeat1(s: ⇒ Strategy): Strategy

Construct a strategy that repeatedly applies s (at least once).
Construct a strategy that repeatedly applies s (at least once).

Definition Classes
Rewriter
def repeat1(s: ⇒ Strategy, c: ⇒ Strategy): Strategy

Construct a strategy that repeatedly applies s (at least once) and terminates with application of c.
Construct a strategy that repeatedly applies s (at least once) and terminates with application of c.

Definition Classes
Rewriter
def repeatuntil(s: ⇒ Strategy, c: ⇒ Strategy): Strategy

Construct a strategy that repeatedly applies s until c succeeds.
Construct a strategy that repeatedly applies s until c succeeds.

Definition Classes
Rewriter
def restore(s: ⇒ Strategy, rest: ⇒ Strategy): Strategy

Construct a strategy that applies s, then applies the restoring action rest if s fails (and then fail).
Construct a strategy that applies s, then applies the restoring action rest if s fails (and then fail). Otherwise, let the result of s stand. Typically useful if s performs side effects that should be restored or undone when s fails.

Definition Classes
Rewriter
def restorealways(s: ⇒ Strategy, rest: ⇒ Strategy): Strategy

Construct a strategy that applies s, then applies the restoring action rest regardless of the success or failure of s.
Construct a strategy that applies s, then applies the restoring action rest regardless of the success or failure of s. The whole strategy preserves the success or failure of s. Typically useful if s performs side effects that should be restored always, e.g., when maintaining scope information.

Definition Classes
Rewriter
def rewrite[T](s: ⇒ Strategy)(t: T): T

Rewrite a term.
Rewrite a term. Apply the strategy s to a term returning the result term if s succeeds, otherwise return the original term.

Definition Classes
Rewriter
def rule(f: ==>[Term, Term]): Strategy

Define a rewrite rule using a partial function f.
Define a rewrite rule using a partial function f. If the function is defined at the current term, then the strategy succeeds with the return value of the function applied to the current term. Otherwise the strategy fails.

Definition Classes
Rewriter
def rulef(f: (Term) ⇒ Term): Strategy

Define a rewrite rule using a function f that returns a term.
Define a rewrite rule using a function f that returns a term. The rule always succeeds with the return value of the function.

Definition Classes
Rewriter
def rulefs(f: ==>[Term, Strategy]): Strategy

Define a rewrite rule using a function f that returns a strategy.
Define a rewrite rule using a function f that returns a strategy. The rule applies the function to the subject term to get a strategy which is then applied again to the subject term. In other words, the function is only used for side-effects such as pattern matching. The whole thing also fails if f is not defined at the term in the first place.

Definition Classes
Rewriter
def same(v1: Any, v2: Any): Boolean

Compare two arbitrary values.
Compare two arbitrary values. If they are both references, use reference equality, otherwise throw an error since we should be able to cast anything to reference.

Attributes
protected
Definition Classes
Rewriter
def some(s: ⇒ Strategy): Strategy

Traversal to as many children as possible, but at least one.
Traversal to as many children as possible, but at least one. Construct a strategy that applies s to the term children of the subject term. If s succeeds on any of the children, then succeed, forming a new term from the constructor of the original term and the result of s for each succeeding child, with other children unchanged. In the event that the strategy fails on all children, then fail. If there are no children, fail. If s succeeds on children producing the same terms (by eq for references and by == for other values), then the overall strategy returns the subject term. This operation works on instances of finite Rewritable, Product, Map and Traversable values, checked for in that order. Children of a Rewritable (resp. Product, collection) value are processed in the order returned by the value's deconstruct (resp. productElement, foreach) method.

Definition Classes
Rewriter
def somebu(s: ⇒ Strategy): Strategy

Construct a strategy that applies s in a bottom-up fashion to some subterms at each level, stopping as soon as it succeeds once (at any level).
Construct a strategy that applies s in a bottom-up fashion to some subterms at each level, stopping as soon as it succeeds once (at any level).

Definition Classes
Rewriter
def somedownup(s: ⇒ Strategy): Strategy

Construct a strategy that applies s in a top-down, prefix fashion stopping at a frontier where s succeeds on some children.
Construct a strategy that applies s in a top-down, prefix fashion stopping at a frontier where s succeeds on some children. s is then applied in a bottom-up, postfix fashion to the result.

Definition Classes
Rewriter
def sometd(s: ⇒ Strategy): Strategy

Construct a strategy that applies s in a top-down fashion to some subterms at each level, stopping as soon as it succeeds once (at any level).
Construct a strategy that applies s in a top-down fashion to some subterms at each level, stopping as soon as it succeeds once (at any level).

Definition Classes
Rewriter
def strategy(f: ==>[Term, Option[Term]]): Strategy

Make a strategy from a partial function f.
Make a strategy from a partial function f. If the function is defined at the current term, then the function return value when applied to the current term determines whether the strategy succeeds or fails. If the function is not defined at the current term, the strategy fails.

Definition Classes
Rewriter
def strategyf(f: (Term) ⇒ Option[Term]): Strategy

Make a strategy from a function f.
Make a strategy from a function f. The function return value determines whether the strategy succeeds or fails.

Definition Classes
Rewriter
final def synchronized[T0](arg0: ⇒ T0): T0

Definition Classes
AnyRef
def term(t: Term): Strategy

Construct a strategy that succeeds only if the subject term matches the given term t.
Construct a strategy that succeeds only if the subject term matches the given term t.

Definition Classes
Rewriter
def test(s: ⇒ Strategy): Strategy

Construct a strategy that tests whether strategy s succeeds, restoring the original term on success.
Construct a strategy that tests whether strategy s succeeds, restoring the original term on success. A synonym for where.

Definition Classes
Rewriter
def toString(): String

Definition Classes
AnyRef → Any
def topdown(s: ⇒ Strategy): Strategy

Construct a strategy that applies s in a top-down, prefix fashion to the subject term.
Construct a strategy that applies s in a top-down, prefix fashion to the subject term.

Definition Classes
Rewriter
def topdownS(s: ⇒ Strategy, stop: (⇒ Strategy) ⇒ Strategy): Strategy

Construct a strategy that applies s in a top-down, prefix fashion to the subject term but stops when the strategy produced by stop succeeds.
Construct a strategy that applies s in a top-down, prefix fashion to the subject term but stops when the strategy produced by stop succeeds. stop is given the whole strategy itself as its argument.

Definition Classes
Rewriter
final def wait(): Unit

Definition Classes
AnyRef
Annotations
@throws()
final def wait(arg0: Long, arg1: Int): Unit

Definition Classes
AnyRef
Annotations
@throws()
final def wait(arg0: Long): Unit

Definition Classes
AnyRef
Annotations
@throws()
def where(s: ⇒ Strategy): Strategy

Construct a strategy that tests whether strategy s succeeds, restoring the original term on success.
Construct a strategy that tests whether strategy s succeeds, restoring the original term on success. This is similar to Stratego's where, except that in this version any effects on bindings are not visible outside s.

Definition Classes
Rewriter

Rewriter

object Rewriter extends Rewriter

Type Members

class PlusStrategy extends Strategy

abstract class Strategy extends (Term) ⇒ Option[Term]

type Term = Any

Value Members

final def !=(arg0: AnyRef): Boolean

final def !=(arg0: Any): Boolean

final def ##(): Int

final def ==(arg0: AnyRef): Boolean

final def ==(arg0: Any): Boolean

object Term extends AnyRef

def all(s: ⇒ Strategy): Strategy

def allbu(s: ⇒ Strategy): Strategy

def alldownup2(s1: ⇒ Strategy, s2: ⇒ Strategy): Strategy

def alltd(s: ⇒ Strategy): Strategy

def alltdfold(s1: ⇒ Strategy, s2: ⇒ Strategy): Strategy

def and(s1: ⇒ Strategy, s2: ⇒ Strategy): Strategy

final def asInstanceOf[T0]: T0

def attempt(s: ⇒ Strategy): Strategy

def bottomup(s: ⇒ Strategy): Strategy

def bottomupS(s: ⇒ Strategy, stop: (⇒ Strategy) ⇒ Strategy): Strategy

def breadthfirst(s: ⇒ Strategy): Strategy

def build(t: ⇒ Term): Strategy

def child(i: Int, s: Strategy): Strategy

def clone(): AnyRef

def collect[CC[U] <: Traversable[U], T](f: ==>[Term, T])(implicit cbf: CanBuildFrom[CC[T], T, CC[T]]): (Term) ⇒ CC[T]

def collectl[T](f: ==>[Term, T]): (Term) ⇒ List[T]

def collects[T](f: ==>[Term, T]): (Term) ⇒ Set[T]

def congruence(ss: Strategy*): Strategy

val constrcache: WeakHashMap[java.lang.Class[_], java.lang.reflect.Constructor[_]]

def count(f: ==>[Term, Int]): (Term) ⇒ Int

def debug(msg: String, emitter: Emitter = new Emitter): Strategy

def doloop(s: ⇒ Strategy, c: ⇒ Strategy): Strategy

def dontstop(s: ⇒ Strategy): Strategy

def downup(s1: ⇒ Strategy, s2: ⇒ Strategy): Strategy

def downup(s: ⇒ Strategy): Strategy

def downupS(s1: ⇒ Strategy, s2: ⇒ Strategy, stop: (⇒ Strategy) ⇒ Strategy): Strategy

def downupS(s: ⇒ Strategy, stop: (⇒ Strategy) ⇒ Strategy): Strategy

def dup[T <: Product](t: T, children: Array[AnyRef]): T

final def eq(arg0: AnyRef): Boolean

val eq: Strategy

val equal: Strategy

def equals(arg0: Any): Boolean

def everything[T](v: T)(f: (T, T) ⇒ T)(g: ==>[Term, T])(t: Term): T

def everywhere(s: ⇒ Strategy): Strategy

def everywherebu(s: ⇒ Strategy): Strategy

def everywheretd(s: ⇒ Strategy): Strategy

val fail: Strategy

def finalize(): Unit

final def getClass(): java.lang.Class[_]

def hashCode(): Int

val id: Strategy

def innermost(s: ⇒ Strategy): Strategy

def innermost2(s: ⇒ Strategy): Strategy

def ior(s1: ⇒ Strategy, s2: ⇒ Strategy): Strategy

final def isInstanceOf[T0]: Boolean

val isinnernode: Strategy

val isleaf: Strategy

val ispropersubterm: Strategy

val ispropersuperterm: Strategy

val issubterm: Strategy

val issuperterm: Strategy

def lastly(s: ⇒ Strategy, f: ⇒ Strategy): Strategy

def leaves(s: ⇒ Strategy, isleaf: ⇒ Strategy, skip: (Strategy) ⇒ Strategy): Strategy

def leaves(s: ⇒ Strategy, isleaf: ⇒ Strategy): Strategy

def log[T](s: ⇒ Strategy, msg: String, emitter: Emitter = new Emitter): Strategy

def logfail[T](s: ⇒ Strategy, msg: String, emitter: Emitter = new Emitter): Strategy

def loop(c: ⇒ Strategy, s: ⇒ Strategy): Strategy

def loopiter(s: (Int) ⇒ Strategy, low: Int, high: Int): Strategy

def loopiter(i: ⇒ Strategy, c: ⇒ Strategy, s: ⇒ Strategy): Strategy

def loopnot(c: ⇒ Strategy, s: ⇒ Strategy): Strategy

def makechild(c: Any): AnyRef

def manybu(s: Strategy): Strategy

def manytd(s: Strategy): Strategy

def map(s: ⇒ Strategy): Strategy

def memo(s: ⇒ Strategy): Strategy

final def ne(arg0: AnyRef): Boolean

def not(s: ⇒ Strategy): Strategy