import astvalidation
import semantize
intrude import semantize::scope
+intrude import semantize::typing
redef class ToolContext
var transform_phase: Phase = new TransformPhase(self, [typing_phase, auto_super_init_phase])
# --no-shortcut-range
- var opt_no_shortcut_range: OptionBool = new OptionBool("Always insantiate a range and its iterator on 'for' loops", "--no-shortcut-range")
+ var opt_no_shortcut_range: OptionBool = new OptionBool("Always instantiate a range and its iterator on 'for' loops", "--no-shortcut-range")
redef init
do
do
var val
- var v = new TransformVisitor(self, npropdef)
+ var m = npropdef.mpropdef
+ if m == null then return
+ var v = new TransformVisitor(self, m)
v.enter_visit(npropdef)
val = new ASTValidationVisitor
super Visitor
var phase: TransformPhase
- var mmodule: MModule
- var mclassdef: MClassDef
+ var mmodule: MModule is noinit
+ var mclassdef: MClassDef is noinit
var mpropdef: MPropDef
- var builder: ASTBuilder
+ var builder: ASTBuilder is noinit
- init(phase: TransformPhase, npropdef: APropdef)
+ init
do
- self.phase = phase
- self.mpropdef = npropdef.mpropdef.as(not null)
self.mclassdef = mpropdef.mclassdef
self.mmodule = mclassdef.mmodule
self.builder = new ASTBuilder(mmodule, mpropdef.mclassdef.bound_mtype)
redef fun visit(node)
do
if node isa AAnnotations then return
- node.visit_all(self)
- node.accept_transform_visitor(self)
- end
-
- # Get a primitive class or display a fatal error on `location`.
- fun get_class(location: AExpr, name: String): MClass
- do
- return mmodule.get_primitive_class(name)
+ node.full_transform_visitor(self)
end
# Get a primitive method or display a fatal error on `location`.
end
redef class ANode
+ private fun full_transform_visitor(v: TransformVisitor)
+ do
+ visit_all(v)
+ accept_transform_visitor(v)
+ end
private fun accept_transform_visitor(v: TransformVisitor)
do
end
end
+redef class AExpr
+ redef fun full_transform_visitor(v: TransformVisitor)
+ do
+ var na = comprehension
+ if na != null then
+ # We are building a comprehension array `array`
+ # Replace `self` with `array.push(self)`
+ var place = detach_with_placeholder
+ var recv = na.nnew.make_var_read
+ var nadd = v.builder.make_call(recv, na.push_callsite.as(not null), [self])
+ place.replace_with(nadd)
+ end
+
+ visit_all(v)
+
+ if is_broken then return # Skip broken
+
+ accept_transform_visitor(v)
+ end
+
+ redef fun replace_with(other)
+ do
+ super
+ if other isa AExpr then
+ if other.implicit_cast_to == null then other.implicit_cast_to = implicit_cast_to
+ end
+ end
+end
+
redef class AVardeclExpr
# `var x = y` is replaced with `x = y`
#
var escapemark = self.break_mark
assert escapemark != null
+ # Main block that will contain the whole for and will replace `self`
var nblock = v.builder.make_block
+ # Part before the loop
+ var before = v.builder.make_block
+ nblock.add before
+
+ # The loop
+ var nloop = v.builder.make_loop
+ nloop.break_mark = escapemark
+ nblock.add nloop
+
+ # Part before the body inside the loop
+ var begin = v.builder.make_block
+ nloop.add begin
+
+ # The `do` block with then user code
+ var ndo = v.builder.make_do
+ ndo.break_mark = escapemark.continue_mark
+ nloop.add ndo
+
+ ndo.add self.n_block.as(not null)
+
+ # Fill up each part
+ for g in n_groups do
+ g.transform_in(v, before, begin, nloop, nblock, escapemark)
+ end
+
+ replace_with(nblock)
+ end
+end
+
+redef class AForGroup
+ private fun transform_in(v: TransformVisitor, before, begin, next, finish: AExpr, escapemark: EscapeMark)
+ do
var nexpr = n_expr
# Shortcut on explicit range
# Avoid the instantiation of the range and the iterator
if self.variables.length == 1 and nexpr isa ARangeExpr and not v.phase.toolcontext.opt_no_shortcut_range.value then
+ # Before: evaluate bounds
var variable = variables.first
- nblock.add v.builder.make_var_assign(variable, nexpr.n_expr)
+ before.add v.builder.make_var_assign(variable, nexpr.n_expr)
var to = nexpr.n_expr2
- nblock.add to
-
- var nloop = v.builder.make_loop
- nloop.break_mark = escapemark
- nblock.add nloop
+ before.add to
+ # Begin: check variable
var is_ok = v.builder.make_call(v.builder.make_var_read(variable, variable.declared_type.as(not null)), method_lt.as(not null), [to.make_var_read])
-
var nif = v.builder.make_if(is_ok, null)
- nloop.add nif
-
- var nthen = nif.n_then
- var ndo = v.builder.make_do
- ndo.break_mark = escapemark.continue_mark
- nthen.add ndo
-
- ndo.add self.n_block.as(not null)
+ begin.add nif
+ nif.n_else.add v.builder.make_break(escapemark)
+ # Next: increment one
var one = v.builder.make_int(1)
var succ = v.builder.make_call(v.builder.make_var_read(variable, variable.declared_type.as(not null)), method_successor.as(not null), [one])
- nthen.add v.builder.make_var_assign(variable, succ)
-
- var nbreak = v.builder.make_break(escapemark)
- nif.n_else.add nbreak
-
- replace_with(nblock)
+ next.add v.builder.make_var_assign(variable, succ)
return
end
- nblock.add nexpr
-
+ # Before: evaluate expr, make the iterator
+ before.add nexpr
var iter = v.builder.make_call(nexpr.make_var_read, method_iterator.as(not null), null)
- nblock.add iter
-
- var nloop = v.builder.make_loop
- nloop.break_mark = escapemark
- nblock.add nloop
+ before.add iter
+ # Begin: check iterator `is_ok`
var is_ok = v.builder.make_call(iter.make_var_read, method_is_ok.as(not null), null)
-
var nif = v.builder.make_if(is_ok, null)
- nloop.add nif
-
- var nthen = nif.n_then
- var ndo = v.builder.make_do
- ndo.break_mark = escapemark.continue_mark
- nthen.add ndo
+ begin.add nif
+ nif.n_else.add v.builder.make_break(escapemark)
- if self.variables.length == 1 then
+ # Begin: assign automatic variables
+ if variables.length == 1 then
var item = v.builder.make_call(iter.make_var_read, method_item.as(not null), null)
- ndo.add v.builder.make_var_assign(variables.first, item)
- else if self.variables.length == 2 then
+ begin.add v.builder.make_var_assign(variables.first, item)
+ else if variables.length == 2 then
var key = v.builder.make_call(iter.make_var_read, method_key.as(not null), null)
- ndo.add v.builder.make_var_assign(variables[0], key)
+ begin.add v.builder.make_var_assign(variables[0], key)
var item = v.builder.make_call(iter.make_var_read, method_item.as(not null), null)
- ndo.add v.builder.make_var_assign(variables[1], item)
+ begin.add v.builder.make_var_assign(variables[1], item)
else
abort
end
- ndo.add self.n_block.as(not null)
-
- nthen.add v.builder.make_call(iter.make_var_read, method_next.as(not null), null)
+ # Next: call next
+ next.add v.builder.make_call(iter.make_var_read, method_next.as(not null), null)
- var nbreak = v.builder.make_break(escapemark)
- nif.n_else.add nbreak
-
- var method_finish = self.method_finish
+ # Finish: call finish
+ var method_finish = method_finish
if method_finish != null then
- nblock.add v.builder.make_call(iter.make_var_read, method_finish, null)
+ finish.add v.builder.make_call(iter.make_var_read, method_finish, null)
end
+ end
+end
+
+redef class AWithExpr
+ # is replaced with a do/end and injected calls to `start` and `finish`
+ #
+ # Basically, the following
+ #
+ # ~~~nitish
+ # with expr do
+ # block
+ # end label l
+ # ~~~
+ #
+ # is transformed into
+ #
+ # ~~~nitish
+ # var x = expr
+ # do
+ # x.start
+ # block
+ # end label l
+ # x.finish
+ # ~~~
+ #
+ # The point is that `finish` is called even if the block is escaped.
+ redef fun accept_transform_visitor(v)
+ do
+ var escapemark = self.break_mark
+ assert escapemark != null
+
+ var nblock = v.builder.make_block
+
+ var nexpr = n_expr
+
+ nblock.add nexpr
+
+ var ndo = v.builder.make_do
+ ndo.break_mark = escapemark
+
+ var start = v.builder.make_call(nexpr.make_var_read, method_start.as(not null), null)
+
+ ndo.add start
+
+ ndo.add self.n_block.as(not null)
+
+ nblock.add ndo
+
+ nblock.add v.builder.make_call(nexpr.make_var_read, method_finish.as(not null), null)
replace_with(nblock)
end
redef class AArrayExpr
# `[x,y]` is replaced with
#
- # var t = new Array[X].with_capacity(2)
- # t.add(x)
- # t.add(y)
- # t
- redef fun accept_transform_visitor(v)
+ # ~~~nitish
+ # var t = new Array[X].with_capacity(2)
+ # t.add(x)
+ # t.add(y)
+ # t
+ # ~~~
+ redef fun full_transform_visitor(v)
do
+ if is_broken then return # Skip broken
+
var nblock = v.builder.make_block
- var nnew = v.builder.make_new(with_capacity_callsite.as(not null), [v.builder.make_int(n_exprs.n_exprs.length)])
+ var nnew = v.builder.make_new(with_capacity_callsite.as(not null), [v.builder.make_int(n_exprs.length)])
+ self.nnew = nnew
+
nblock.add nnew
- for nexpr in self.n_exprs.n_exprs do
- var nadd = v.builder.make_call(nnew.make_var_read, push_callsite.as(not null), [nexpr])
- nblock.add nadd
+ super
+
+ for nexpr in self.n_exprs do
+ nblock.add nexpr
end
var nres = nnew.make_var_read
nblock.add nres
replace_with(nblock)
end
+
+ private var nnew: ANewExpr is noinit
end
redef class ACrangeExpr
# `[x..y]` is replaced with `new Range[X](x,y)`
redef fun accept_transform_visitor(v)
do
- if parent isa AForExpr then return # to permit shortcut ranges
+ if parent isa AForGroup then return # to permit shortcut ranges
replace_with(v.builder.make_new(init_callsite.as(not null), [n_expr, n_expr2]))
end
end
# `[x..y[` is replaced with `new Range[X].without_last(x,y)`
redef fun accept_transform_visitor(v)
do
- if parent isa AForExpr then return # to permit shortcut ranges
+ if parent isa AForGroup then return # to permit shortcut ranges
replace_with(v.builder.make_new(init_callsite.as(not null), [n_expr, n_expr2]))
end
end
redef class ASendReassignFormExpr
# `x.foo(y)+=z` is replaced with
#
- # x.foo(y) = x.foo(y) + z
+ # ~~~nitish
+ # x.foo(y) = x.foo(y) + z
+ # ~~~
#
# witch is, in reality:
#
- # x."foo="(y, x.foo(y)."+"(z))
+ # ~~~nitish
+ # x."foo="(y, x.foo(y)."+"(z))
+ # ~~~
redef fun accept_transform_visitor(v)
do
var nblock = v.builder.make_block