Class: RubyHDL::High::TypeVector

Inherits:

Type

• Object
• Type
• RubyHDL::High::TypeVector

Defined in:

lib/HDLRuby/std/sequencer_sw.rb

Overview

Describes a vector type.

Direct Known Subclasses

TypeFloat, TypeSigned, TypeUnsigned

Instance Attribute Summary

• #base ⇒ Object readonly

  The base type of the vector.

• #range ⇒ Object readonly

  The range of the vector.

Instance Method Summary

• #base? ⇒ Boolean

  Tells if the type has a base.

• #dir ⇒ Object

  Gets the direction of the range.

• #direction ⇒ Object

  Get the direction of the type, little or big endian.

• #each_type_deep(&ruby_block) ⇒ Object (also: #each_deep)

  Iterates over the types deeply if any.

• #eql?(obj) ⇒ Boolean

  Comparison for hash: structural comparison.

• #equivalent?(type) ⇒ Boolean

  Tell if +type+ is equivalent to current type.

• #fixed? ⇒ Boolean

  Tells if the type is fixed point.

• #float? ⇒ Boolean

  Tells if the type is floating point.

• #hash ⇒ Object

  Hash function.

• #initialize(name, base, range) ⇒ TypeVector constructor

  Creates a new vector type named +name+ from +base+ type and with +range+.

• #max ⇒ Object

  Gets the type max value if any.

• #min ⇒ Object

  Gets the type min value if any.

• #signed? ⇒ Boolean

  Tells if the type signed.

• #size ⇒ Object

  Gets the size of the type in number of base elements.

• #to_c ⇒ Object

  Convert to C code.

• #to_c_init ⇒ Object

  Convert to C initialization code.

• #unsigned? ⇒ Boolean

  Tells if the type is unsigned.

• #vector? ⇒ Boolean

  Tells if the type of of vector kind.

• #width ⇒ Object

  Gets the bitwidth of the type, nil for undefined.

Methods inherited from Type

#[], #binary, #comp_operator, #constant, #define_operator, #define_operator_with_context, #each_overload, #hierarchical?, #htype?, #inner, #leaf?, #left, #name=, #range?, #register, #regular?, #right, #struct?, #to_type, #to_vector, #typedef, #types?, #unary

Methods included from HDLRuby::Tprocess

#&, #*, #+, #+@, #-@, #/, #<<, #==, #abs, #lr, #make, #resolve, #slice, #~

Constructor Details

#initialize(name, base, range) ⇒ TypeVector

Creates a new vector type named +name+ from +base+ type and with +range+. NOTE: if +range+ is a positive integer it is converted to (range-1)..0, if it is a negative integer it is converted to 0..(-range-1)

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 1078

def initialize(name,base,range)
  # Initialize the type.
  super(name)

  # Check and set the base
  unless base.is_a?(Type)
    raise AnyError,
      "Invalid class for VectorType base: #{base.class}."
  end
  @base = base

  # Check and set the range.
  if range.respond_to?(:to_i) then
    # Integer case: convert to 0..(range-1).
    range = range > 0 ? (range-1)..0 : 0..(-range-1)
  elsif
    # Other cases: assume there is a first and a last to create
    # the range.
    range = range.first..range.last
  end
  @range = range
end

Instance Attribute Details

#base ⇒ Object (readonly)

The base type of the vector

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 1058

def base
  @base
end

#range ⇒ Object (readonly)

The range of the vector.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 1071

def range
  @range
end

Instance Method Details

#base? ⇒ Boolean

Tells if the type has a base.

Returns:

• (Boolean)

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 1066

def base?
  return true
end

#dir ⇒ Object

Gets the direction of the range.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 1156

def dir
  return (@range.last - @range.first)
end

#direction ⇒ Object

Get the direction of the type, little or big endian.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 1151

def direction
  return @range.first < @range.last ? :big : :little
end

#each_type_deep(&ruby_block) ⇒ Object Also known as: each_deep

Iterates over the types deeply if any.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 1201

def each_type_deep(&ruby_block)
  # No ruby block? Return an enumerator.
  return to_enum(:each_type_deep) unless ruby_block
  # A ruby block? First apply it to current.
  ruby_block.call(self)
  # And recurse on the base.
  @base.each_type_deep(&ruby_block)
end

#eql?(obj) ⇒ Boolean

Comparison for hash: structural comparison.

Returns:

• (Boolean)

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 1102

def eql?(obj)
  # # General type comparison.
  # return false unless super(obj)
  # Specific comparison.
  return false unless obj.is_a?(TypeVector)
  return false unless @base.eql?(obj.base)
  return false unless @range.eql?(obj.range)
  return true
end

#equivalent?(type) ⇒ Boolean

Tell if +type+ is equivalent to current type.

NOTE: type can be compatible while not being equivalent, please refer to hruby_types.rb for type compatibility.

Returns:

• (Boolean)

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 1184

def equivalent?(type)
  return (type.is_a?(TypeVector) and
          @range == type.range
  @base.equivalent?(type.base) )
end

#fixed? ⇒ Boolean

Tells if the type is fixed point.

Returns:

• (Boolean)

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 1171

def fixed?
  return @base.signed?
end

#float? ⇒ Boolean

Tells if the type is floating point.

Returns:

• (Boolean)

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 1176

def float?
  return @base.float?
end

#hash ⇒ Object

Hash function.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 1113

def hash
  return [super,@base,@range].hash
end

#max ⇒ Object

Gets the type max value if any.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 1132

def max
  if (self.signed?) then
    return (2**(self.width-1))-1
  else
    return (2**(self.width))-1
  end
end

#min ⇒ Object

Gets the type min value if any. Default: not defined.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 1142

def min
  if (self.signed?) then
    return -(2**(self.width-1))
  else
    return 0
  end
end

#signed? ⇒ Boolean

Tells if the type signed.

Returns:

• (Boolean)

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 1161

def signed?
  return @base.signed?
end

#size ⇒ Object

Gets the size of the type in number of base elements.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 1118

def size
  return (@range.first.to_i - @range.last.to_i).abs + 1
end

#to_c ⇒ Object

Convert to C code.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 1213

def to_c
  if @base.is_a?(TypeVector) then
    # Array type case.
    return @base.to_c + "[#{self.size.to_i}]"
  else
    # Simple vector type case.
    if float? then
      return @base.to_c
    else
      return @base + " long long"
    end
  end
end

#to_c_init ⇒ Object

Convert to C initialization code.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 1228

def to_c_init
  if @base.is_a?(TypeVector) then
    # Array type case.
    base_init = @base.to_c_init
    return "[" + ([base_init] * self.size.to_i).join(",") + "]"
  else
    return "0"
  end
end

#unsigned? ⇒ Boolean

Tells if the type is unsigned.

Returns:

• (Boolean)

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 1166

def unsigned?
  return @base.unsigned?
end

#vector? ⇒ Boolean

Tells if the type of of vector kind.

Returns:

• (Boolean)

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 1061

def vector?
  return true
end

#width ⇒ Object

Gets the bitwidth of the type, nil for undefined.

NOTE: must be redefined for specific types.

# File 'lib/HDLRuby/std/sequencer_sw.rb', line 1125

def width
  first = @range.first.to_i
  last  = @range.last.to_i
  return @base.width * ((first-last).abs + 1)
end