scala.tools.refactoring.transformation
Replace the first sequence of elements with another sequence.
Represent an import selector as a tree, including both names as trees.
Import selectors are not trees, but we can provide an extractor that converts the ImportSelectors into our own ImportSelectorTrees.
Represent a modifier as a tree, including its position.
Represent a Name as a tree, including its position.
The PlainText "tree" provides a hook into the source code generation.
Representation of self type annotations: self: A with B => ^^^^^^^^^^^^^^
The call to the super constructor in a class: class A(i: Int) extends B(i) ^^^^
A traverser that also traverses a TypeTree's original type.
A traverser that creates fake trees for various type trees so they can be treated as if they were regular trees.
Add some methods to Tree that make it easier to compare Trees by position and to extract the position of a tree's name, which is tricky for Selects.
A SourceLayoutTree can be used to insert arbitrary text into the code, for example, blank lines.
Unify the children of a Block tree and sort them in the same order they appear in the source code.
Extract the modifiers with their position from a Modifiers object.
Provides a finer-grained extractor for Template that distinguishes between class constructor parameters, early definitions, parents, self type annotation and the real body.
Applies a transformation to all subtrees of a tree T, returning a new tree,typically of the same kind as T.
Applies a transformation to all subtrees of a tree T, returning a new tree,typically of the same kind as T.
If the transformation fails on one child, abort and fail the whole application.
Returns the (symbol) ancestors of the tree excluding the ROOT in descending order. Also filters the symbols for package objects!
Converts a tree containing Idents and Selects to a .
separated string.
Converts a tree containing Idents and Selects to a .
separated string.
Returns all children that have a representation in the source code.
Returns all children that have a representation in the source code. This includes Name and Modifier trees and excludes everything that has no Position or is an EmptyTree.
Creates a transformation that always returns the value x.
Creates a transformation that always returns the value x.
Trees that reach the end of the file don't seem to have the correct end position, except if there's a newline at the end.
Trees that reach the end of the file don't seem to have the correct end position, except if there's a newline at the end.
Takes a name and wraps it in if the name corresponds to a Scala keyword.
Takes a name and wraps it in if the name corresponds to a Scala keyword.
Always fails, independent of the input.
Always fails, independent of the input.
Finds a tree by its position, can be used to find the original tree from a transformed tree.
Finds a tree by its position, can be used to find the original tree from a transformed tree.
If multiple trees are candidates, then take the last one, because it is likely more specific.
Searches for a Symbol of a name in the type members of a tree.
Searches for a Symbol of a name in the type members of a tree.
This is mainly used for ImportSelectors, which don't carry any symbol information with them.
The expr of an Import tree.
The name of an ImportSelector of the import.
Returns whether the tree is considered empty.
Returns whether the tree is considered empty.
Prior to Scala 2.10.1 it was sufficient to check Tree#isEmpty, but now we also need to check if the tree is equal to emptyValDef.
Locates the imports in a PackageDef.
Locates the imports in a PackageDef. If we have nested packages, it will only match in the innermost.
Applies a transformation to all subtrees of a tree T, returning a new tree,typically of the same kind as T.
Applies a transformation to all subtrees of a tree T, returning a new tree,typically of the same kind as T.
If the transformation fails on one child, apply the
identity transformation id
and don't fail, unlike
allChildren
.
Creates a function call fun
on the selector and passes a function with
a single parameter param
and the body body
.
Creates a function call fun
on the selector and passes a function with
a single parameter param
and the body body
.
Example:
someExpr becomes someExpr fun (param => body)
Creates a function call fun
on the selector and passes a function with
no parameter and the body body
.
Creates a function call fun
on the selector and passes a function with
no parameter and the body body
.
Example:
someExpr becomes someExpr fun (body)
Do a transformation until it succeeded once, then just fail.
Do a transformation until it succeeded once, then just fail.
Note that because of the statefulness of once, you need to make sure that it isn't accidentally passed as a by-name parameter to another transformation and instantiated multiple times.
We often want to use transformations as predicates, which execute the next transformations if the result is true.
We often want to use transformations as predicates, which execute the next transformations if the result is true. For example:
val tree_with_range_pos = filter[Tree] { case t: Tree => t.pos.isRange }
We can then use the predicate like this: tree_with_range_pos andThen do_something_with_the_tree orElse nothing
Always succeeds and returns the input unchanged.
Always succeeds and returns the input unchanged.
Returns the most specific package declaration in the compilation unit. For example, given the following declaration:
package a package b
class C
it returns b
. If there are further nested packages, they are ignored:
package a class C package b
returns a
.
Construct a transformation from a partial function; this is the most commonly used way to create new transformations, for example like:
Construct a transformation from a partial function; this is the most commonly used way to create new transformations, for example like:
val reverse_all_class_members = transformation[Tree, Tree] { case t: Template => t.copy(body = t.body.reverse) }
Applies a transformation bottom-up, that is, it applies the transformation to the children of the tree first and then to their parent.
Applies a transformation bottom-up, that is, it applies the transformation to the children of the tree first and then to their parent. The consequence is that the parent "sees" its transformed children.
Applies a transformation top-down, that is, it applies the transformation to the tree T and then passes the transformed T to all children.
Applies a transformation top-down, that is, it applies the transformation to the tree T and then passes the transformed T to all children. The consequence is that the children "see" their new parent.
(Since version 0.5.0) Use PlainText objects and its components