Class: RubyHDL::High::Scall

Inherits:

Expression

• Object
• Expression
• RubyHDL::High::Scall

Defined in:

lib/HDLRuby/std/sequencer_sw.rb

Overview

Describes a SW implementation of an call statement.

Instance Attribute Summary

Attributes inherited from Expression

#type

Instance Method Summary

• #each_statement(&ruby_block) ⇒ Object

  Iterate on the statements.

• #each_statement_deep(&ruby_block) ⇒ Object

  Iterate deeply on the statements.

• #initialize(func, sequencer, *args) ⇒ Scall constructor

  Create a new call to function named +func+ statement in sequencer +sequencer+ with arguments +args+.

• #make_iterator(meth, *args, &ruby_block) ⇒ Object

  Create an iterator for a given method +meth+.

• #sall?(arg = nil, &ruby_block) ⇒ Boolean

  Tell if all the elements respect a given criterion given either as +arg+ or as block.

• #sany?(arg = nil, &ruby_block) ⇒ Boolean

  Tell if any of the elements respects a given criterion given either as +arg+ or as block.

• #schain(arg) ⇒ Object

  Returns an SEnumerator generated from current enumerable and +arg+.

• #schunk(*args, &ruby_block) ⇒ Object

  HW implementation of the Ruby chunk.

• #schunk_while(*args, &ruby_block) ⇒ Object

  HW implementation of the Ruby chunk_while.

• #scompact ⇒ Object

  HW implementation of the Ruby compact, but remove 0 values instead on nil (since nil that does not have any meaning in HW).

• #scount(obj = nil, &ruby_block) ⇒ Object

  WH implementation of the Ruby count.

• #scycle(n = nil, &ruby_block) ⇒ Object

  HW implementation of the Ruby cycle.

• #sdrop(n) ⇒ Object

  HW implementation of the Ruby drop.

• #sdrop_while(&ruby_block) ⇒ Object

  HW implementation of the Ruby drop_while.

• #seach_cons(n, &ruby_block) ⇒ Object

  HW implementation of the Ruby each_cons.

• #seach_entry(*args, &ruby_block) ⇒ Object

  HW implementation of the Ruby each_entry.

• #seach_nexts(num, &ruby_block) ⇒ Object

  Iterator on the +num+ next elements.

• #seach_range(rng, &ruby_block) ⇒ Object

  Iterator on each of the elements in range +rng+.

• #seach_slice(n, &ruby_block) ⇒ Object

  HW implementation of the Ruby each_slice.

• #seach_with_index(*args, &ruby_block) ⇒ Object

  HW implementation of the Ruby each_with_index.

• #seach_with_object(obj, &ruby_block) ⇒ Object

  HW implementation of the Ruby each_with_object.

• #sfind(if_none_proc, &ruby_block) ⇒ Object

  HW implementation of the Ruby find.

• #sfind_index(obj = nil, &ruby_block) ⇒ Object

  HW implementation of the Ruby find_index.

• #sfirst(n = 1) ⇒ Object

  HW implementation of the Ruby first.

• #sflat_map(&ruby_block) ⇒ Object

  HW implementation of the Ruby flat_map.

• #sgrep(*args, &ruby_block) ⇒ Object

  HW implementation of the Ruby grep.

• #sgrep_v(*args, &ruby_block) ⇒ Object

  HW implementation of the Ruby grep_v.

• #sgroup_by(*args, &ruby_block) ⇒ Object

  HW implementation of the Ruby group_by.

• #sinclude?(obj) ⇒ Boolean

  HW implementation of the Ruby include?.

• #sinject(*args, &ruby_block) ⇒ Object

  HW implementation of the Ruby inject.

• #slazy(*args, &ruby_block) ⇒ Object

  HW implementation of the Ruby lazy.

• #smap(&ruby_block) ⇒ Object

  Returns a vector containing the execution result of the given block on each element.

• #smax(n = nil, &ruby_block) ⇒ Object

  HW implementation of the Ruby max.

• #smax_by(n = nil, &ruby_block) ⇒ Object

  HW implementation of the Ruby max_by.

• #smin(n = nil, &ruby_block) ⇒ Object

  HW implementation of the Ruby min.

• #smin_by(n = nil, &ruby_block) ⇒ Object

  HW implementation of the Ruby min_by.

• #sminmax(&ruby_block) ⇒ Object

  HW implementation of the Ruby minmax.

• #sminmax_by(&ruby_block) ⇒ Object

  HW implementation of the Ruby minmax_by.

• #snone?(arg = nil, &ruby_block) ⇒ Boolean

  Tell if none of the elements respects a given criterion given either as +arg+ or as block.

• #sone?(arg = nil, &ruby_block) ⇒ Boolean

  Tell if one and only one of the elements respects a given criterion given either as +arg+ or as block.

• #spartition(*args, &ruby_block) ⇒ Object

  HW implementation of the Ruby partition.

• #sreduce ⇒ Object

  HW implementation of the Ruby reduce.

• #sreject(&ruby_block) ⇒ Object

  HW implementatiob of the Ruby reject.

• #sreverse_each(*args, &ruby_block) ⇒ Object

  HW implementatiob of the Ruby reverse_each.

• #sselect(&ruby_block) ⇒ Object

  HW implementation of the Ruby select.

• #sslice_after(pattern = nil, &ruby_block) ⇒ Object

  HW implementation of the Ruby slice_after.

• #sslice_before(*args, &ruby_block) ⇒ Object

  HW implementation of the Ruby slice_before.

• #sslice_when(*args, &ruby_block) ⇒ Object

  HW implementation of the Ruby slice_when.

• #ssort(&ruby_block) ⇒ Object

  HW implementation of the Ruby sort.

• #ssort_by(&ruby_block) ⇒ Object

  HW implementation of the Ruby sort.

• #ssort_merge(arI, arO, first, middle, last, &ruby_block) ⇒ Object

  Merge two arrays in order, for ssort only.

• #ssum(initial_value = nil, &ruby_block) ⇒ Object

  HW implementation of the Ruby sum.

• #stake(n) ⇒ Object

  The HW implementation of the Ruby take.

• #stake_while(&ruby_block) ⇒ Object

  The HW implementation of the Ruby take_while.

• #stally(h = nil) ⇒ Object

  HW implementation of the Ruby tally.

• #sto_a ⇒ Object

  HW implementation of the Ruby to_a.

• #sto_h(h = nil) ⇒ Object

  HW implementation of the Ruby to_h.

• #suniq(&ruby_block) ⇒ Object

  HW implementation of the Ruby uniq.

• #szip(obj, &ruby_block) ⇒ Object

  HW implementation of the Ruby zip.

• #to_c ⇒ Object

  Convert to C code.

• #to_python(l = "") ⇒ Object

  Convert to Python code.

• #to_ruby ⇒ Object

  Convert to Ruby code.

Methods inherited from Expression

#<=, #[], #mux, #sdownto, #seach, #stimes, #supto, #to_expr, #to_value

Constructor Details

#initialize(func, sequencer, *args) ⇒ Scall

Create a new call to function named +func+ statement in sequencer +sequencer+ with arguments +args+.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 2860

def initialize(func, sequencer, *args)
  super(func.type)
  @sequencer = sequencer
  @name = func.name
  @args = args
end

Instance Method Details

#each_statement(&ruby_block) ⇒ Object

Iterate on the statements.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 2868

def each_statement(&ruby_block)
  return to_enum(:each_statement) unless ruby_block
  # By default nothing to do.
end

#each_statement_deep(&ruby_block) ⇒ Object

Iterate deeply on the statements.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 2874

def each_statement_deep(&ruby_block)
  return to_enum(:each_statement_deep) unless ruby_block
  # Just apply ruby_block on self.
  ruby_block.call(self)
end

#make_iterator(meth, *args, &ruby_block) ⇒ Object

Create an iterator for a given method +meth+.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 2896

def make_iterator(meth,*args,&ruby_block)
  if ruby_block then
    blk = Sblock.new(@sequencer,&ruby_block)
    command = RubyHDL::High::Ruby.new do
      "#{meth}(#{args.map{|arg| arg.to_ruby}.join(",")}) { #{blk.to_ruby} }"
    end
  else
    command = RubyHDL::High::Ruby.new do
      "#{meth}(#{args.map{|arg| arg.to_ruby}.join(",")})"
    end
  end
  return Iter.new(@sequencer,*self.commands,command,&ruby_block)
end

#sall?(arg = nil, &ruby_block) ⇒ Boolean

Tell if all the elements respect a given criterion given either as +arg+ or as block.

Returns:

• (Boolean)

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 2924

def sall?(arg = nil,&ruby_block)
  return self.make_iterator("all?",arg,&ruby_block)
end

#sany?(arg = nil, &ruby_block) ⇒ Boolean

Tell if any of the elements respects a given criterion given either as +arg+ or as block.

Returns:

• (Boolean)

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 2930

def sany?(arg = nil,&ruby_block)
  return self.make_iterator("any?",arg,&ruby_block)
end

#schain(arg) ⇒ Object

Returns an SEnumerator generated from current enumerable and +arg+

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 2935

def schain(arg)
  return self.make_iterator("chain",arg)
end

#schunk(*args, &ruby_block) ⇒ Object

HW implementation of the Ruby chunk. NOTE: to do, or may be not.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 2941

def schunk(*args,&ruby_block)
  raise "schunk is not supported yet."
end

#schunk_while(*args, &ruby_block) ⇒ Object

HW implementation of the Ruby chunk_while. NOTE: to do, or may be not.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 2947

def schunk_while(*args,&ruby_block)
  raise "schunk_while is not supported yet."
end

#scompact ⇒ Object

HW implementation of the Ruby compact, but remove 0 values instead on nil (since nil that does not have any meaning in HW).

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 2968

def scompact
  return self.make_iterator("compact",&ruby_block)
end

#scount(obj = nil, &ruby_block) ⇒ Object

WH implementation of the Ruby count.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 2974

def scount(obj = nil, &ruby_block)
  return self.make_iterator("count",obj,&ruby_block)
end

#scycle(n = nil, &ruby_block) ⇒ Object

HW implementation of the Ruby cycle.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 2979

def scycle(n = nil,&ruby_block)
  return self.make_iterator("cycle",n,&ruby_block)
end

#sdrop(n) ⇒ Object

HW implementation of the Ruby drop.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 2991

def sdrop(n)
  return self.make_iterator("drop",n)
end

#sdrop_while(&ruby_block) ⇒ Object

HW implementation of the Ruby drop_while.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 2996

def sdrop_while(&ruby_block)
  return self.make_iterator("drop_while",&ruby_block)
end

#seach_cons(n, &ruby_block) ⇒ Object

HW implementation of the Ruby each_cons

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3001

def seach_cons(n,&ruby_block)
  return self.make_iterator("each_cons",n,&ruby_block)
end

#seach_entry(*args, &ruby_block) ⇒ Object

HW implementation of the Ruby each_entry. NOTE: to do, or may be not.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3007

def seach_entry(*args,&ruby_block)
  raise "seach_entry is not supported yet."
end

#seach_nexts(num, &ruby_block) ⇒ Object

Iterator on the +num+ next elements. NOTE:

• Stop iteration when the end of the range is reached or when there are no elements left
• This is not a method from Ruby but one specific for hardware where creating a array is very expensive.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3222

def seach_nexts(num,&ruby_block)
  return self.seach.snexts(num,&ruby_block)
end

#seach_range(rng, &ruby_block) ⇒ Object

Iterator on each of the elements in range +rng+. NOTE:

• Stop iteration when the end of the range is reached or when there are no elements left
• This is not a method from Ruby but one specific for hardware where creating a array is very expensive.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 2918

def seach_range(rng,&ruby_block)
  return self.make_iterator("each_range",rng,&ruby_block)
end

#seach_slice(n, &ruby_block) ⇒ Object

HW implementation of the Ruby each_slice

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3012

def seach_slice(n,&ruby_block)
  return self.make_iterator("each_slice",n,&ruby_block)
end

#seach_with_index(*args, &ruby_block) ⇒ Object

HW implementation of the Ruby each_with_index.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3017

def seach_with_index(*args,&ruby_block)
  return self.make_iterator("each_with_index",*args,&ruby_block)
end

#seach_with_object(obj, &ruby_block) ⇒ Object

HW implementation of the Ruby each_with_object.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3022

def seach_with_object(obj,&ruby_block)
  return self.make_iterator("each_with_object",obj,&ruby_block)
end

#sfind(if_none_proc, &ruby_block) ⇒ Object

HW implementation of the Ruby find. NOTE: contrary to Ruby, if_none_proc is mandatory since there is no nil in HW. Moreover, the argument can also be a value.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 2986

def sfind(if_none_proc, &ruby_block)
  return self.make_iterator("find",if_none_proc,&ruby_block)
end

#sfind_index(obj = nil, &ruby_block) ⇒ Object

HW implementation of the Ruby find_index.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3037

def sfind_index(obj = nil, &ruby_block)
  return self.make_iterator("find_index",obj,&ruby_block)
end

#sfirst(n = 1) ⇒ Object

HW implementation of the Ruby first.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3042

def sfirst(n=1)
  return self.make_iterator("first",n)
end

#sflat_map(&ruby_block) ⇒ Object

HW implementation of the Ruby flat_map. NOTE: actually due to the way HDLRuby handles vectors, should work like smap

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 2962

def sflat_map(&ruby_block)
  return self.make_iterator("flat_map",&ruby_block)
end

#sgrep(*args, &ruby_block) ⇒ Object

HW implementation of the Ruby grep. NOTE: to do, or may be not.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3048

def sgrep(*args,&ruby_block)
  raise "sgrep is not supported yet."
end

#sgrep_v(*args, &ruby_block) ⇒ Object

HW implementation of the Ruby grep_v. NOTE: to do, or may be not.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3054

def sgrep_v(*args,&ruby_block)
  raise "sgrep_v is not supported yet."
end

#sgroup_by(*args, &ruby_block) ⇒ Object

HW implementation of the Ruby group_by. NOTE: to do, or may be not.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3060

def sgroup_by(*args,&ruby_block)
  raise "sgroup_by is not supported yet."
end

#sinclude?(obj) ⇒ Boolean

HW implementation of the Ruby include?

Returns:

• (Boolean)

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3065

def sinclude?(obj)
  return self.make_iterator("include?",obj)
end

#sinject(*args, &ruby_block) ⇒ Object

HW implementation of the Ruby inject.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3070

def sinject(*args,&ruby_block)
  return self.make_iterator("inject",*args,&ruby_block)
end

#slazy(*args, &ruby_block) ⇒ Object

HW implementation of the Ruby lazy. NOTE: to do, or may be not.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3082

def slazy(*args,&ruby_block)
  raise "slazy is not supported yet."
end

#smap(&ruby_block) ⇒ Object

Returns a vector containing the execution result of the given block on each element. If no block is given, return an SEnumerator. NOTE: be carful that the resulting vector can become huge if there are many element.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 2955

def smap(&ruby_block)
  return self.make_iterator("map",&ruby_block)
end

#smax(n = nil, &ruby_block) ⇒ Object

HW implementation of the Ruby max.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3087

def smax(n = nil, &ruby_block)
  return self.make_iterator("max",n,&ruby_block)
end

#smax_by(n = nil, &ruby_block) ⇒ Object

HW implementation of the Ruby max_by.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3092

def smax_by(n = nil, &ruby_block)
  return self.make_iterator("max_by",n,&ruby_block)
end

#smin(n = nil, &ruby_block) ⇒ Object

HW implementation of the Ruby min.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3097

def smin(n = nil, &ruby_block)
  return self.make_iterator("min",n,&ruby_block)
end

#smin_by(n = nil, &ruby_block) ⇒ Object

HW implementation of the Ruby min_by.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3102

def smin_by(n = nil, &ruby_block)
  return self.make_iterator("min_by",n,&ruby_block)
end

#sminmax(&ruby_block) ⇒ Object

HW implementation of the Ruby minmax.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3107

def sminmax(&ruby_block)
  return self.make_iterator("minmax",&ruby_block)
end

#sminmax_by(&ruby_block) ⇒ Object

HW implementation of the Ruby minmax_by.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3112

def sminmax_by(&ruby_block)
  return self.make_iterator("minmax_by",&ruby_block)
end

#snone?(arg = nil, &ruby_block) ⇒ Boolean

Tell if none of the elements respects a given criterion given either as +arg+ or as block.

Returns:

• (Boolean)

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3118

def snone?(arg = nil,&ruby_block)
  return self.make_iterator("none?",arg,&ruby_block)
end

#sone?(arg = nil, &ruby_block) ⇒ Boolean

Tell if one and only one of the elements respects a given criterion given either as +arg+ or as block.

Returns:

• (Boolean)

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3124

def sone?(arg = nil,&ruby_block)
  return self.make_iterator("one?",arg,&ruby_block)
end

#spartition(*args, &ruby_block) ⇒ Object

HW implementation of the Ruby partition. NOTE: to do, or may be not.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3130

def spartition(*args,&ruby_block)
  raise "spartition is not supported yet."
end

#sreduce ⇒ Object

HW implementation of the Ruby reduce.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3075

def sreduce
  return self.make_iterator("reduce",*args,&ruby_block)
end

#sreject(&ruby_block) ⇒ Object

HW implementatiob of the Ruby reject.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3135

def sreject(&ruby_block)
  return self.make_iterator("reject",&ruby_block)
end

#sreverse_each(*args, &ruby_block) ⇒ Object

HW implementatiob of the Ruby reverse_each.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3140

def sreverse_each(*args,&ruby_block)
  return self.make_iterator("reverse_each",*args,&ruby_block)
end

#sselect(&ruby_block) ⇒ Object

HW implementation of the Ruby select.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3032

def sselect(&ruby_block)
  return self.make_iterator("select",&ruby_block)
end

#sslice_after(pattern = nil, &ruby_block) ⇒ Object

HW implementation of the Ruby slice_after. NOTE: to do, or may be not.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3146

def sslice_after(pattern = nil,&ruby_block)
  raise "sslice_after is not supported yet."
end

#sslice_before(*args, &ruby_block) ⇒ Object

HW implementation of the Ruby slice_before. NOTE: to do, or may be not.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3152

def sslice_before(*args,&ruby_block)
  raise "sslice_before is not supported yet."
end

#sslice_when(*args, &ruby_block) ⇒ Object

HW implementation of the Ruby slice_when. NOTE: to do, or may be not.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3158

def sslice_when(*args,&ruby_block)
  raise "sslice_before is not supported yet."
end

#ssort(&ruby_block) ⇒ Object

HW implementation of the Ruby sort.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3168

def ssort(&ruby_block)
  return self.make_iterator("sort",&ruby_block)
end

#ssort_by(&ruby_block) ⇒ Object

HW implementation of the Ruby sort.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3173

def ssort_by(&ruby_block)
  return self.make_iterator("sort_by",&ruby_block)
end

#ssort_merge(arI, arO, first, middle, last, &ruby_block) ⇒ Object

Merge two arrays in order, for ssort only.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3163

def ssort_merge(arI, arO, first, middle, last, &ruby_block)
  return self.make_iterator("sort_merge",arI,arO,first,middle,last,&ruby_block)
end

#ssum(initial_value = nil, &ruby_block) ⇒ Object

HW implementation of the Ruby sum.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3178

def ssum(initial_value = nil,&ruby_block)
  return self.make_iterator("sum",initial_value,&ruby_block)
end

#stake(n) ⇒ Object

The HW implementation of the Ruby take.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3183

def stake(n)
  return self.make_iterator("take",n)
end

#stake_while(&ruby_block) ⇒ Object

The HW implementation of the Ruby take_while.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3188

def stake_while(&ruby_block)
  return self.make_iterator("take_while",&ruby_block)
end

#stally(h = nil) ⇒ Object

HW implementation of the Ruby tally. NOTE: to do, or may be not.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3194

def stally(h = nil)
  raise "stally is not supported yet."
end

#sto_a ⇒ Object

HW implementation of the Ruby to_a.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3027

def sto_a
  return self.make_iterator("to_a")
end

#sto_h(h = nil) ⇒ Object

HW implementation of the Ruby to_h. NOTE: to do, or may be not.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3200

def sto_h(h = nil)
  raise "sto_h is not supported yet."
end

#suniq(&ruby_block) ⇒ Object

HW implementation of the Ruby uniq.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3205

def suniq(&ruby_block)
  return self.make_iterator("uniq",&ruby_block)
end

#szip(obj, &ruby_block) ⇒ Object

HW implementation of the Ruby zip. NOTE: for now szip is deactivated untile tuples are properly handled by HDLRuby.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 3212

def szip(obj,&ruby_block)
  return self.make_iterator("zip",obj,&ruby_block)
end

#to_c ⇒ Object

Convert to C code.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 2886

def to_c
  return "\n__#{@name}(" + @args.map {|arg| arg.to_c}.join(",") + ");"
end

#to_python(l = "") ⇒ Object

Convert to Python code.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 2891

def to_python(l = "")
  return "#{l}\n__#{@name}(" + @args.map {|arg| arg.to_python}.join(",") + ")"
end

#to_ruby ⇒ Object

Convert to Ruby code.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 2881

def to_ruby
  return "__#{@name}(" + @args.map {|arg| arg.to_ruby}.join(",") + ")"
end