Class: RMath3D::RMtx4

Inherits:

Object

• Object
• RMath3D::RMtx4

Defined in:

lib/rmath3d/rmath3d_plain.rb,
ext/rmath3d/rmath3d.c

Overview

provies 4x4 matrix arithmetic.

Notice

• elements are stored in column-major order.

Instance Method Summary

• #*(arg) ⇒ Object

  call-seq: *.

• #+(arg) ⇒ Object

  call-seq: +.

• #+@ ⇒ Object

  call-seq: +.

• #-(arg) ⇒ Object

  call-seq: -.

• #-@ ⇒ Object

  call-seq: -.

• #==(other) ⇒ Object

  call-seq: ==.

• #[](row, col) ⇒ Object (also: #getElement)

  call-seq: [row,col] -> value.

• #[]=(row, col, value) ⇒ Object (also: #setElement)

  call-seq: [row,col]= value.

• #add!(other) ⇒ Object

  call-seq: mtx1.add!( mtx2 ).

• #coerce ⇒ Object

  call-seq: coerse(other).

• #e00 ⇒ Object

  Returns the element at row 0 and column 0.

• #e00=(value) ⇒ Object

  Replaces the element at row 0 and column 0 by value.

• #e01 ⇒ Object

  Returns the element at row 0 and column 1.

• #e01=(value) ⇒ Object

  Replaces the element at row 0 and column 1 by value.

• #e02 ⇒ Object

  Returns the element at row 0 and column 2.

• #e02=(value) ⇒ Object

  Replaces the element at row 0 and column 2 by value.

• #e03 ⇒ Object

  Returns the element at row 0 and column 3.

• #e03=(value) ⇒ Object

  Replaces the element at row 0 and column 3 by value.

• #e10 ⇒ Object

  Returns the element at row 1 and column 0.

• #e10=(value) ⇒ Object

  Replaces the element at row 1 and column 0 by value.

• #e11 ⇒ Object

  Returns the element at row 1 and column 1.

• #e11=(value) ⇒ Object

  Replaces the element at row 1 and column 1 by value.

• #e12 ⇒ Object

  Returns the element at row 1 and column 2.

• #e12=(value) ⇒ Object

  Replaces the element at row 1 and column 2 by value.

• #e13 ⇒ Object

  Returns the element at row 1 and column 3.

• #e13=(value) ⇒ Object

  Replaces the element at row 1 and column 3 by value.

• #e20 ⇒ Object

  Returns the element at row 2 and column 0.

• #e20=(value) ⇒ Object

  Replaces the element at row 2 and column 0 by value.

• #e21 ⇒ Object

  Returns the element at row 2 and column 1.

• #e21=(value) ⇒ Object

  Replaces the element at row 2 and column 1 by value.

• #e22 ⇒ Object

  Returns the element at row 2 and column 2.

• #e22=(value) ⇒ Object

  Replaces the element at row 2 and column 2 by value.

• #e23 ⇒ Object

  Returns the element at row 2 and column 3.

• #e23=(value) ⇒ Object

  Replaces the element at row 2 and column 3 by value.

• #e30 ⇒ Object

  Returns the element at row 3 and column 0.

• #e30=(value) ⇒ Object

  Replaces the element at row 3 and column 0 by value.

• #e31 ⇒ Object

  Returns the element at row 3 and column 1.

• #e31=(value) ⇒ Object

  Replaces the element at row 3 and column 1 by value.

• #e32 ⇒ Object

  Returns the element at row 3 and column 2.

• #e32=(value) ⇒ Object

  Replaces the element at row 3 and column 2 by value.

• #e33 ⇒ Object

  Returns the element at row 3 and column 3.

• #e33=(value) ⇒ Object

  Replaces the element at row 3 and column 3 by value.

• #getColumn(column) ⇒ Object

  call-seq: mtx4.getColumn© -> RVec4.

• #getDeterminant ⇒ Object

  call-seq: getDeterminant -> determinant.

• #getInverse ⇒ Object

  call-seq: getInverse -> inverse.

• #getRow(row) ⇒ Object

  call-seq: mtx4.getRow® -> RVec4.

• #getTransposed ⇒ Object

  call-seq: getTransposed.

• #getUpper3x3 ⇒ Object
• #initialize(*a) ⇒ RMtx4 constructor

  call-seq: RMtx4.new -> ((1,0,0,0),(0,1,0,0),(0,0,1,0),(0,0,0,1)) RMtx4.new(e) -> ((e,e,e,e),(e,e,e,e),(e,e,e,e),(e,e,e,e)) RMtx4.new( other ) : Copy Constructor RMtx4.new( e0, e1, …, e15 ) -> ((e0,e1,e2,e3),(e4,e5,e6,e7),(e8,e9,e10,e11),(e12,e13,e14,e15)).

• #invert! ⇒ Object

  call-seq: invert! -> self.

• #lookAtRH(eye, at, up) ⇒ Object

  call-seq: lookAtRH(eye,at,up) -> self.

• #mul!(other) ⇒ Object

  call-seq: mtx1.mul!( mtx2 ).

• #orthoOffCenterRH(left, right, bottom, top, znear, zfar) ⇒ Object

  call-seq: orthoOffCenterRH(left,right,bottom,top,znear,zfar) -> self.

• #orthoRH(width, height, znear, zfar) ⇒ Object

  call-seq: orthoRH(width,height,znear,zfar) -> self.

• #perspectiveFovRH(fovy_radian, aspect, znear, zfar) ⇒ Object

  call-seq: perspectiveFovRH(fovy,aspect,znear,zfar) -> self.

• #perspectiveOffCenterRH(left, right, bottom, top, znear, zfar) ⇒ Object

  call-seq: perspectiveOffCenterRH(left,right,bottom,top,znear,zfar) -> self.

• #perspectiveRH(width, height, znear, zfar) ⇒ Object

  call-seq: perspectiveRH(width,height,znear,zfar) -> self.

• #rotationAxis(axis, radian) ⇒ Object

  call-seq: rotationAxis(axis,radian) -> self.

• #rotationQuaternion(q) ⇒ Object

  call-seq: rotationQuaternion(q) -> self.

• #rotationX(radian) ⇒ Object

  call-seq: rotationX(radian) -> self.

• #rotationY(radian) ⇒ Object

  call-seq: rotationY(radian) -> self.

• #rotationZ(radian) ⇒ Object

  call-seq: rotationZ(radian) -> self.

• #scaling(sx, sy, sz) ⇒ Object

  call-seq: scaling(sx,sy,sz) -> self.

• #setColumn(v, column) ⇒ Object

  call-seq: mtx4.setColumn(v,c).

• #setElements(*a) ⇒ Object

  call-seq: setElements( e0, e1, …, e15 ).

• #setIdentity ⇒ Object

  call-seq: setIdentity.

• #setRow(v, row) ⇒ Object

  call-seq: mtx4.setRow(v,r).

• #setUpper3x3(mtx3x3) ⇒ Object
• #setZero ⇒ Object

  call-seq: setZero.

• #sub!(other) ⇒ Object

  call-seq: mtx1.sub!( mtx2 ).

• #to_a ⇒ Object

  call-seq: to_a.

• #to_s ⇒ Object

  call-seq: to_s.

• #translation(tx, ty, tz) ⇒ Object

  call-seq: translation(tx,ty,tz) -> self.

• #transpose! ⇒ Object

  call-seq: transpose!.

Constructor Details

#initialize(*a) ⇒ RMtx4

call-seq:

RMtx4.new -> ((1,0,0,0),(0,1,0,0),(0,0,1,0),(0,0,0,1))
RMtx4.new(e) -> ((e,e,e,e),(e,e,e,e),(e,e,e,e),(e,e,e,e))
RMtx4.new( other ) : Copy Constructor
RMtx4.new( e0, e1, ..., e15 ) -> ((e0,e1,e2,e3),(e4,e5,e6,e7),(e8,e9,e10,e11),(e12,e13,e14,e15))

Creates a new 4x4 matrix.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1251

def initialize( *a )
  # [NOTE] elemetns are stored in column-major order.
  @e = []
  case a.length
  when 0
    @e = [ 0.0, 0.0, 0.0, 0.0,
           0.0, 0.0, 0.0, 0.0,
           0.0, 0.0, 0.0, 0.0,
           0.0, 0.0, 0.0, 0.0 ]
  when 1
    case a[0]
    when Fixnum, Float
      @e = [ a[0], a[0], a[0], a[0],
             a[0], a[0], a[0], a[0],
             a[0], a[0], a[0], a[0],
             a[0], a[0], a[0], a[0] ]
    when RMtx4
      # Copy Constructor
      @e = [ a[0].e00, a[0].e10, a[0].e20, a[0].e30,
             a[0].e01, a[0].e11, a[0].e21, a[0].e31,
             a[0].e02, a[0].e12, a[0].e22, a[0].e32,
             a[0].e03, a[0].e13, a[0].e23, a[0].e33 ]
    else
      raise TypeError, "RMtx4#initialize : Unknown type #{a[0].class}."
      return nil
    end
  when 16
    # Element-wise setter
    for row in 0...4 do
      for col in 0...4 do
        index = 4*row + col
        case a[index]
        when Fixnum, Float
          setElement( row, col, a[index] )
        else
          raise TypeError, "RMtx4#initialize : Unknown type #{a[0].class}."
          return nil
        end
      end
    end
  else
    raise RuntimeError, "RMtx4#initialize : wrong # of arguments (#{a.length})"
    return nil
  end

  return self
end

Instance Method Details

#*(arg) ⇒ Object

call-seq: *

mtx1 * mtx2 : Binary multiply operator.

# File 'lib/rmath3d/rmath3d_plain.rb', line 2049

def *( arg )
  case arg
  when Fixnum, Float, Bignum
    return RMtx4.new( arg*self.e00, arg*self.e01, arg*self.e02, arg*self.e03,
                      arg*self.e10, arg*self.e11, arg*self.e12, arg*self.e13,
                      arg*self.e20, arg*self.e21, arg*self.e22, arg*self.e23,
                      arg*self.e30, arg*self.e31, arg*self.e32, arg*self.e33 )

  when RMtx4
    result = RMtx4.new
    for row in 0...4 do
      for col in 0...4 do
        sum = 0.0
        for i in 0...4 do
          sum += getElement( row, i ) * arg.getElement( i, col )
        end
        result.setElement( row, col, sum )
      end
    end
    return result

  else
    raise TypeError, "RMtx4#*(arg) : Unknown type #{arg.class} given."
    return nil
  end
end

#+(arg) ⇒ Object

call-seq: +

mtx1 + mtx2 : Binary plus operator.

# File 'lib/rmath3d/rmath3d_plain.rb', line 2007

def +( arg )
  if ( arg.class != RMtx4 )
    raise TypeError, "RMtx4#+(arg) : Unknown type #{arg.class} given as RMtx4."
    return nil
  end

  result = RMtx4.new
  for row in 0...4 do
    for col in 0...4 do
      result.setElement( row, col, getElement(row,col) + arg.getElement(row,col) )
    end
  end

  return result
end

#+@ ⇒ Object

call-seq: +

+mtx : Unary plus operator.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1989

def +@
  return self
end

#-(arg) ⇒ Object

call-seq: -

mtx1 - mtx2 : Binary minus operator.

# File 'lib/rmath3d/rmath3d_plain.rb', line 2028

def -( arg )
  if ( arg.class != RMtx4 )
    raise TypeError, "RMtx4#-(arg) : Unknown type #{arg.class} given as RMtx4."
    return nil
  end

  result = RMtx4.new
  for row in 0...4 do
    for col in 0...4 do
      result.setElement( row, col, getElement(row,col) - arg.getElement(row,col) )
    end
  end

  return result
end

#-@ ⇒ Object

call-seq: -

-mtx : Unary minus operator.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1998

def -@
  return RMtx4.new( self * -1.0 )
end

#==(other) ⇒ Object

call-seq: ==

mtx1 == mtx2 : evaluates equality.

# File 'lib/rmath3d/rmath3d_plain.rb', line 2081

def ==( other )
  if other.class == RMtx4
    for row in 0...4 do
      for col in 0...4 do
        if ( (getElement(row,col) - other.getElement(row,col)).abs > TOLERANCE )
          return false
        end
      end
    end
    return true
  else
    return false
  end
end

#[](row, col) ⇒ Object Also known as: getElement

call-seq: [row,col] -> value

Returns the element at (row,col).

# File 'lib/rmath3d/rmath3d_plain.rb', line 1370

def [](row,col)
  # [NOTE] elemetns are stored in column-major order.
  return @e[col*4+row]
end

#[]=(row, col, value) ⇒ Object Also known as: setElement

call-seq: [row,col]= value

Stores value at (row,col).

# File 'lib/rmath3d/rmath3d_plain.rb', line 1359

def []=(row,col,value)
  # [NOTE] elemetns are stored in column-major order.
  @e[col*4+row] = value
end

#add!(other) ⇒ Object

call-seq: mtx1.add!( mtx2 )

mtx1 += mtx2 : appends the elements of mtx2 into corresponding mtx1 elements.

# File 'lib/rmath3d/rmath3d_plain.rb', line 2101

def add!( other )
  if ( other.class != RMtx4 )
    raise TypeError, "RMtx4#add! : Unknown type #{other.class} given as RMtx4."
    return nil
  end

  result = RMtx4.new
  for row in 0...4 do
    for col in 0...4 do
      self.setElement( row, col, getElement(row,col) + other.getElement(row,col) )
    end
  end

  return self
end

#coerce ⇒ Object

call-seq: coerse(other)

Resolves type mismatch.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1325

def coerce
  case arg
  when Fixnum, Float, Bignum
    return [ self, arg ]
  else
    raise TypeError, "RMtx4#coerce : #{arg.self} can't be coerced into  #{self.class}."
    return nil
  end
end

#e00 ⇒ Object

Returns the element at row 0 and column 0.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1377

def e00() getElement(0,0) end

#e00=(value) ⇒ Object

Replaces the element at row 0 and column 0 by value.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1410

def e00=(value) setElement(0,0,value) end

#e01 ⇒ Object

Returns the element at row 0 and column 1.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1379

def e01() getElement(0,1) end

#e01=(value) ⇒ Object

Replaces the element at row 0 and column 1 by value.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1412

def e01=(value) setElement(0,1,value) end

#e02 ⇒ Object

Returns the element at row 0 and column 2.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1381

def e02() getElement(0,2) end

#e02=(value) ⇒ Object

Replaces the element at row 0 and column 2 by value.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1414

def e02=(value) setElement(0,2,value) end

#e03 ⇒ Object

Returns the element at row 0 and column 3.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1383

def e03() getElement(0,3) end

#e03=(value) ⇒ Object

Replaces the element at row 0 and column 3 by value.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1416

def e03=(value) setElement(0,3,value) end

#e10 ⇒ Object

Returns the element at row 1 and column 0.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1385

def e10() getElement(1,0) end

#e10=(value) ⇒ Object

Replaces the element at row 1 and column 0 by value.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1418

def e10=(value) setElement(1,0,value) end

#e11 ⇒ Object

Returns the element at row 1 and column 1.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1387

def e11() getElement(1,1) end

#e11=(value) ⇒ Object

Replaces the element at row 1 and column 1 by value.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1420

def e11=(value) setElement(1,1,value) end

#e12 ⇒ Object

Returns the element at row 1 and column 2.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1389

def e12() getElement(1,2) end

#e12=(value) ⇒ Object

Replaces the element at row 1 and column 2 by value.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1422

def e12=(value) setElement(1,2,value) end

#e13 ⇒ Object

Returns the element at row 1 and column 3.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1391

def e13() getElement(1,3) end

#e13=(value) ⇒ Object

Replaces the element at row 1 and column 3 by value.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1424

def e13=(value) setElement(1,3,value) end

#e20 ⇒ Object

Returns the element at row 2 and column 0.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1393

def e20() getElement(2,0) end

#e20=(value) ⇒ Object

Replaces the element at row 2 and column 0 by value.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1426

def e20=(value) setElement(2,0,value) end

#e21 ⇒ Object

Returns the element at row 2 and column 1.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1395

def e21() getElement(2,1) end

#e21=(value) ⇒ Object

Replaces the element at row 2 and column 1 by value.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1428

def e21=(value) setElement(2,1,value) end

#e22 ⇒ Object

Returns the element at row 2 and column 2.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1397

def e22() getElement(2,2) end

#e22=(value) ⇒ Object

Replaces the element at row 2 and column 2 by value.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1430

def e22=(value) setElement(2,2,value) end

#e23 ⇒ Object

Returns the element at row 2 and column 3.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1399

def e23() getElement(2,3) end

#e23=(value) ⇒ Object

Replaces the element at row 2 and column 3 by value.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1432

def e23=(value) setElement(2,3,value) end

#e30 ⇒ Object

Returns the element at row 3 and column 0.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1401

def e30() getElement(3,0) end

#e30=(value) ⇒ Object

Replaces the element at row 3 and column 0 by value.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1434

def e30=(value) setElement(3,0,value) end

#e31 ⇒ Object

Returns the element at row 3 and column 1.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1403

def e31() getElement(3,1) end

#e31=(value) ⇒ Object

Replaces the element at row 3 and column 1 by value.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1436

def e31=(value) setElement(3,1,value) end

#e32 ⇒ Object

Returns the element at row 3 and column 2.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1405

def e32() getElement(3,2) end

#e32=(value) ⇒ Object

Replaces the element at row 3 and column 2 by value.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1438

def e32=(value) setElement(3,2,value) end

#e33 ⇒ Object

Returns the element at row 3 and column 3.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1407

def e33() getElement(3,3) end

#e33=(value) ⇒ Object

Replaces the element at row 3 and column 3 by value.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1440

def e33=(value) setElement(3,3,value) end

#getColumn(column) ⇒ Object

call-seq: mtx4.getColumn© -> RVec4

Returns c-th column vector.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1456

def getColumn( column )
  return RVec4.new( self[0,column], self[1,column], self[2,column], self[3,column] )
end

#getDeterminant ⇒ Object

call-seq: getDeterminant -> determinant

Calculates determinant.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1546

def getDeterminant
  e00 * det3( e11,e12,e13, e21,e22,e23, e31,e32,e33 ) -
  e01 * det3( e10,e12,e13, e20,e22,e23, e30,e32,e33 ) +
  e02 * det3( e10,e11,e13, e20,e21,e23, e30,e31,e33 ) -
  e03 * det3( e10,e11,e12, e20,e21,e22, e30,e31,e32 )
end

#getInverse ⇒ Object

call-seq: getInverse -> inverse

Returns the inverse.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1584

def getInverse
  result = RMtx4.new

  result.e00 =  det3( e11,e12,e13, e21,e22,e23, e31,e32,e33 )
  result.e01 = -det3( e01,e02,e03, e21,e22,e23, e31,e32,e33 )
  result.e02 =  det3( e01,e02,e03, e11,e12,e13, e31,e32,e33 )
  result.e03 = -det3( e01,e02,e03, e11,e12,e13, e21,e22,e23 )

  result.e10 = -det3( e10,e12,e13, e20,e22,e23, e30,e32,e33 )
  result.e11 =  det3( e00,e02,e03, e20,e22,e23, e30,e32,e33 )
  result.e12 = -det3( e00,e02,e03, e10,e12,e13, e30,e32,e33 )
  result.e13 =  det3( e00,e02,e03, e10,e12,e13, e20,e22,e23 )

  result.e20 =  det3( e10,e11,e13, e20,e21,e23, e30,e31,e33 )
  result.e21 = -det3( e00,e01,e03, e20,e21,e23, e30,e31,e33 )
  result.e22 =  det3( e00,e01,e03, e10,e11,e13, e30,e31,e33 )
  result.e23 = -det3( e00,e01,e03, e10,e11,e13, e20,e21,e23 )

  result.e30 = -det3( e10,e11,e12, e20,e21,e22, e30,e31,e32 )
  result.e31 =  det3( e00,e01,e02, e20,e21,e22, e30,e31,e32 )
  result.e32 = -det3( e00,e01,e02, e10,e11,e12, e30,e31,e32 )
  result.e33 =  det3( e00,e01,e02, e10,e11,e12, e20,e21,e22 )

  det = e00 * result.e00 + e01 * result.e10 + e02 * result.e20 + e03 * result.e30

  if ( det.abs < TOLERANCE )
    raise RuntimeError, "RMtx4#getInverse : det.abs < TOLERANCE"
    return nil
  end

  d = 1.0 / det

  result.mul!( d )

  return result
end

#getRow(row) ⇒ Object

call-seq: mtx4.getRow® -> RVec4

Returns r-th row vector.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1447

def getRow( row )
  return RVec4.new( self[row,0], self[row,1], self[row,2], self[row,3] )
end

#getTransposed ⇒ Object

call-seq: getTransposed

Returns transposed matrix.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1558

def getTransposed
  return RMtx4.new( @e[ 0], @e[ 1], @e[ 2], @e[ 3],
                    @e[ 4], @e[ 5], @e[ 6], @e[ 7],
                    @e[ 8], @e[ 9], @e[10], @e[11],
                    @e[12], @e[13], @e[14], @e[15] )
end

#getUpper3x3 ⇒ Object

# File 'lib/rmath3d/rmath3d_plain.rb', line 1484

def getUpper3x3
  return RMtx3.new( self.e00, self.e01, self.e02,
                    self.e10, self.e11, self.e12,
                    self.e20, self.e21, self.e22 )
end

#invert! ⇒ Object

call-seq: invert! -> self

Makes itself as the inverse of the original matrix.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1626

def invert!
  elements = Array.new( 16 )

  elements[4*0+0] =  det3( self.e11,self.e12,self.e13, self.e21,self.e22,self.e23, self.e31,self.e32,self.e33 )
  elements[4*0+1] = -det3( self.e01,self.e02,self.e03, self.e21,self.e22,self.e23, self.e31,self.e32,self.e33 )
  elements[4*0+2] =  det3( self.e01,self.e02,self.e03, self.e11,self.e12,self.e13, self.e31,self.e32,self.e33 )
  elements[4*0+3] = -det3( self.e01,self.e02,self.e03, self.e11,self.e12,self.e13, self.e21,self.e22,self.e23 )

  elements[4*1+0] = -det3( self.e10,self.e12,self.e13, self.e20,self.e22,self.e23, self.e30,self.e32,self.e33 )
  elements[4*1+1] =  det3( self.e00,self.e02,self.e03, self.e20,self.e22,self.e23, self.e30,self.e32,self.e33 )
  elements[4*1+2] = -det3( self.e00,self.e02,self.e03, self.e10,self.e12,self.e13, self.e30,self.e32,self.e33 )
  elements[4*1+3] =  det3( self.e00,self.e02,self.e03, self.e10,self.e12,self.e13, self.e20,self.e22,self.e23 )

  elements[4*2+0] =  det3( self.e10,self.e11,self.e13, self.e20,self.e21,self.e23, self.e30,self.e31,self.e33 )
  elements[4*2+1] = -det3( self.e00,self.e01,self.e03, self.e20,self.e21,self.e23, self.e30,self.e31,self.e33 )
  elements[4*2+2] =  det3( self.e00,self.e01,self.e03, self.e10,self.e11,self.e13, self.e30,self.e31,self.e33 )
  elements[4*2+3] = -det3( self.e00,self.e01,self.e03, self.e10,self.e11,self.e13, self.e20,self.e21,self.e23 )

  elements[4*3+0] = -det3( self.e10,self.e11,self.e12, self.e20,self.e21,self.e22, self.e30,self.e31,self.e32 )
  elements[4*3+1] =  det3( self.e00,self.e01,self.e02, self.e20,self.e21,self.e22, self.e30,self.e31,self.e32 )
  elements[4*3+2] = -det3( self.e00,self.e01,self.e02, self.e10,self.e11,self.e12, self.e30,self.e31,self.e32 )
  elements[4*3+3] =  det3( self.e00,self.e01,self.e02, self.e10,self.e11,self.e12, self.e20,self.e21,self.e22 )

  det = e00 * elements[4*0+0] + e01 * elements[4*1+0] + e02 * elements[4*2+0] + e03 * elements[4*3+0]

  if ( det.abs< TOLERANCE )
    raise RuntimeError, "RMtx4invert! : det.abs < TOLERANCE"
    return nil
  end

  d = 1.0 / det

  setElement( 0, 0, d * elements[4*0+0] )
  setElement( 0, 1, d * elements[4*0+1] )
  setElement( 0, 2, d * elements[4*0+2] )
  setElement( 0, 3, d * elements[4*0+3] )

  setElement( 1, 0, d * elements[4*1+0] )
  setElement( 1, 1, d * elements[4*1+1] )
  setElement( 1, 2, d * elements[4*1+2] )
  setElement( 1, 3, d * elements[4*1+3] )

  setElement( 2, 0, d * elements[4*2+0] )
  setElement( 2, 1, d * elements[4*2+1] )
  setElement( 2, 2, d * elements[4*2+2] )
  setElement( 2, 3, d * elements[4*2+3] )

  setElement( 3, 0, d * elements[4*3+0] )
  setElement( 3, 1, d * elements[4*3+1] )
  setElement( 3, 2, d * elements[4*3+2] )
  setElement( 3, 3, d * elements[4*3+3] )

  return self
end

#lookAtRH(eye, at, up) ⇒ Object

call-seq: lookAtRH(eye,at,up) -> self

Builds a viewing matrix for a right-handed coordinate system from:

• eye position (eye: RVec3)

• a point looking at (at: RVec3)

• up vector (up: RVec3)

# File 'lib/rmath3d/rmath3d_plain.rb', line 1848

def lookAtRH( eye, at, up )
  setIdentity()

  axis_z = (eye - at).normalize!
  axis_x = RVec3.cross( up, axis_z ).normalize!
  axis_y = RVec3.cross( axis_z, axis_x )

  self.e00 = axis_x[0]
  self.e01 = axis_x[1]
  self.e02 = axis_x[2]
  self.e03 = -RVec3.dot( axis_x, eye )

  self.e10 = axis_y[0]
  self.e11 = axis_y[1]
  self.e12 = axis_y[2]
  self.e13 = -RVec3.dot( axis_y, eye )

  self.e20 = axis_z[0]
  self.e21 = axis_z[1]
  self.e22 = axis_z[2]
  self.e23 = -RVec3.dot( axis_z, eye )

  return self
end

#mul!(other) ⇒ Object

call-seq: mtx1.mul!( mtx2 )

mtx1 *= mtx2

# File 'lib/rmath3d/rmath3d_plain.rb', line 2143

def mul!( other )
  case other
  when Fixnum, Float, Bignum
    self.e00 = other*self.e00
    self.e01 = other*self.e01
    self.e02 = other*self.e02
    self.e03 = other*self.e03

    self.e10 = other*self.e10
    self.e11 = other*self.e11
    self.e12 = other*self.e12
    self.e13 = other*self.e13

    self.e20 = other*self.e20
    self.e21 = other*self.e21
    self.e22 = other*self.e22
    self.e23 = other*self.e23

    self.e30 = other*self.e30
    self.e31 = other*self.e31
    self.e32 = other*self.e32
    self.e33 = other*self.e33

    return self

  when RMtx4
    result = RMtx4.new
    for row in 0...4 do
      for col in 0...4 do
        sum = 0.0
        for i in 0...4 do
          sum += getElement( row, i ) * other.getElement( i, col )
        end
        result.setElement( row, col, sum )
      end
    end

    self.e00 = result.e00
    self.e01 = result.e01
    self.e02 = result.e02
    self.e03 = result.e03

    self.e10 = result.e10
    self.e11 = result.e11
    self.e12 = result.e12
    self.e13 = result.e13

    self.e20 = result.e20
    self.e21 = result.e21
    self.e22 = result.e22
    self.e23 = result.e23

    self.e30 = result.e30
    self.e31 = result.e31
    self.e32 = result.e32
    self.e33 = result.e33

    return self
  end
end

#orthoOffCenterRH(left, right, bottom, top, znear, zfar) ⇒ Object

call-seq: orthoOffCenterRH(left,right,bottom,top,znear,zfar) -> self

Builds a orthogonal projection matrix for a right-handed coordinate system from:

• Minimum value of the view volume width (left)

• Maximum value of the view volume width (right)

• Minimum value of the view volume height (bottom)

• Maximum value of the view volume height (top)

• Near clip plane distance (znear)

• Far clip plane distance (zfar)

# File 'lib/rmath3d/rmath3d_plain.rb', line 1967

def orthoOffCenterRH( left, right, bottom, top, znear, zfar )
  tx = (right+left) / (right-left)
  ty = (top+bottom) / (top-bottom)
  tz = (zfar+znear) / (zfar-znear)

  setIdentity()

  setElement( 0, 0, 2.0/(right-left) )
  setElement( 0, 3, tx )
  setElement( 1, 1, 2.0/(top-bottom) )
  setElement( 1, 3, ty )
  setElement( 2, 2, -2.0/(zfar-znear) )
  setElement( 2, 3, tz )

  return self
end

#orthoRH(width, height, znear, zfar) ⇒ Object

call-seq: orthoRH(width,height,znear,zfar) -> self

Builds a orthogonal projection matrix for a right-handed coordinate system from:

• View volume width (width)

• View volume height (height)

• Near clip plane distance (znear)

• Far clip plane distance (zfar)

# File 'lib/rmath3d/rmath3d_plain.rb', line 1951

def orthoRH( width, height, znear, zfar )
  orthoOffCenterRH( -width/2.0, width/2.0, -height/2.0, height/2.0, znear, zfar )
  return self
end

#perspectiveFovRH(fovy_radian, aspect, znear, zfar) ⇒ Object

call-seq: perspectiveFovRH(fovy,aspect,znear,zfar) -> self

Builds a perspective projection matrix for a right-handed coordinate system from:

• Field of view in y direction (fovy radian)

• Aspect ratio (aspect)

• Near clip plane distance (znear)

• Far clip plane distance (zfar)

# File 'lib/rmath3d/rmath3d_plain.rb', line 1896

def perspectiveFovRH( fovy_radian, aspect, znear, zfar )
  f = Math::tan( fovy_radian / 2.0 )
  f = 1.0 / f

  setIdentity()
  setElement( 0, 0, f / aspect )
  setElement( 1, 1, f )
  setElement( 2, 2, (zfar+znear)/(znear-zfar) )
  setElement( 2, 3, 2*zfar*znear/(znear-zfar) )
  setElement( 3, 2, -1.0 )
  setElement( 3, 3, 0.0 )

  return self
end

#perspectiveOffCenterRH(left, right, bottom, top, znear, zfar) ⇒ Object

call-seq: perspectiveOffCenterRH(left,right,bottom,top,znear,zfar) -> self

Builds a perspective projection matrix for a right-handed coordinate system from:

• Minimum value of the view volume width (left)

• Maximum value of the view volume width (right)

• Minimum value of the view volume height (bottom)

• Maximum value of the view volume height (top)

• Near clip plane distance (znear)

• Far clip plane distance (zfar)

# File 'lib/rmath3d/rmath3d_plain.rb', line 1922

def perspectiveOffCenterRH( left, right, bottom, top, znear, zfar )
  a = (right+left) / (right-left)
  b = (top+bottom) / (top-bottom)
  c = -(zfar+znear) / (zfar-znear)
  d = -(2*znear*zfar) / (zfar-znear)

  setIdentity()

  setElement( 0, 0, 2*znear/(right-left) )
  setElement( 0, 2, a )
  setElement( 1, 1, 2*znear/(top-bottom) )
  setElement( 1, 2, b )
  setElement( 2, 2, c )
  setElement( 2, 3, d )
  setElement( 3, 2, -1.0 )
  setElement( 3, 3,  0.0 )

  return self
end

#perspectiveRH(width, height, znear, zfar) ⇒ Object

call-seq: perspectiveRH(width,height,znear,zfar) -> self

Builds a perspective projection matrix for a right-handed coordinate system from:

• View volume width (width)

• View volume height (height)

• Near clip plane distance (znear)

• Far clip plane distance (zfar)

# File 'lib/rmath3d/rmath3d_plain.rb', line 1882

def perspectiveRH( width, height, znear, zfar )
  perspectiveOffCenterRH(-width/2.0, width/2.0, -height/2.0, height/2.0, znear, zfar )
  return self
end

#rotationAxis(axis, radian) ⇒ Object

call-seq: rotationAxis(axis,radian) -> self

Makes a matrix that rotates around the axis.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1754

def rotationAxis( axis, radian )
  if ( axis.class != RVec3 )
    raise TypeError, "RMtx4#rotationAxis : Unknown type #{axis.class} given as axis."
    return nil
  end
  s   = Math.sin( radian )
  c   = Math.cos( radian )
  omc = 1.0 - c
  x   = axis.x.to_f
  y   = axis.y.to_f
  z   = axis.z.to_f

  setIdentity()

  self.e00 = x*x*omc + c
  self.e01 = x*y*omc - z*s
  self.e02 = z*x*omc + y*s
  self.e10 = x*y*omc + z*s
  self.e11 = y*y*omc + c
  self.e12 = y*z*omc - x*s
  self.e20 = z*x*omc - y*s
  self.e21 = y*z*omc + x*s
  self.e22 = z*z*omc + c

  return self
end

#rotationQuaternion(q) ⇒ Object

call-seq: rotationQuaternion(q) -> self

Makes a rotation matrix from a normalized quaternion q.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1786

def rotationQuaternion( q )
  if ( q.class != RQuat )
    raise TypeError, "RMtx4#rotationQuaternion : Unknown type #{q.class} given as RQuat."
    return nil
  end
  x  = q.x
  y  = q.y
  z  = q.z
  w  = q.w

  x2 = 2.0 * x
  y2 = 2.0 * y
  z2 = 2.0 * z

  xx2 = x * x2
  yy2 = y * y2
  zz2 = z * z2

  yz2 = y * z2
  wx2 = w * x2
  xy2 = x * y2
  wz2 = w * z2
  xz2 = x * z2
  wy2 = w * y2

  setIdentity()

  self.e00 = 1.0 - yy2 - zz2
  self.e10 = xy2 + wz2
  self.e20 = xz2 - wy2
  self.e01 = xy2 - wz2
  self.e11 = 1.0 - xx2 - zz2
  self.e21 = yz2 + wx2
  self.e02 = xz2 + wy2
  self.e12 = yz2 - wx2
  self.e22 = 1.0 - xx2 - yy2

  return self
end

#rotationX(radian) ⇒ Object

call-seq: rotationX(radian) -> self

Makes a matrix that rotates around the x-axis.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1700

def rotationX( radian )
  s = Math.sin( radian )
  c = Math.cos( radian )

  setIdentity()
  self.e11 =  c
  self.e12 = -s
  self.e21 =  s
  self.e22 =  c

  return self
end

#rotationY(radian) ⇒ Object

call-seq: rotationY(radian) -> self

Makes a matrix that rotates around the y-axis.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1718

def rotationY( radian )
  s = Math.sin( radian )
  c = Math.cos( radian )

  setIdentity()
  self.e00 =  c
  self.e02 =  s
  self.e20 = -s
  self.e22 =  c

  return self
end

#rotationZ(radian) ⇒ Object

call-seq: rotationZ(radian) -> self

Makes a matrix that rotates around the z-axis.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1736

def rotationZ( radian )
  s = Math.sin( radian )
  c = Math.cos( radian )

  setIdentity()
  self.e00 =  c
  self.e01 = -s
  self.e10 =  s
  self.e11 =  c

  return self
end

#scaling(sx, sy, sz) ⇒ Object

call-seq: scaling(sx,sy,sz) -> self

Makes itself as a scaling matrix.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1831

def scaling( sx, sy, sz )
  setIdentity()
  setElement( 0, 0, sx )
  setElement( 1, 1, sy )
  setElement( 2, 2, sz )

  return self
end

#setColumn(v, column) ⇒ Object

call-seq: mtx4.setColumn(v,c)

Returns sets c-th column by vector v.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1477

def setColumn( v, column )
  self[0,column] = v.x
  self[1,column] = v.y
  self[2,column] = v.z
  self[3,column] = v.w
end

#setElements(*a) ⇒ Object

call-seq: setElements( e0, e1, …, e15 )

Stores given 16 new values.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1340

def setElements( *a )
  if a.length != 16
    raise RuntimeError, "RMtx4#setElements : wrong # of arguments (#{a.length})"
    return nil
  end

  for row in 0...4 do
    for col in 0...4 do
      index = 4*row + col
      setElement( row, col, a[index] )
    end
  end
end

#setIdentity ⇒ Object

call-seq: setIdentity

Sets as identity matrix.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1520

def setIdentity
  for row in 0...4 do
    for col in 0...4 do
      index = 4*row + col
      if ( row == col )
        setElement( row, col, 1.0 )
      else
        setElement( row, col, 0.0 )
      end
    end
  end
  return self
end

#setRow(v, row) ⇒ Object

call-seq: mtx4.setRow(v,r)

Returns sets r-th row by vector v.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1465

def setRow( v, row )
  self[row,0] = v.x
  self[row,1] = v.y
  self[row,2] = v.z
  self[row,3] = v.w
end

#setUpper3x3(mtx3x3) ⇒ Object

# File 'lib/rmath3d/rmath3d_plain.rb', line 1490

def setUpper3x3( mtx3x3 )
  self.e00 = mtx3x3.e00
  self.e01 = mtx3x3.e01
  self.e02 = mtx3x3.e02
  self.e10 = mtx3x3.e10
  self.e11 = mtx3x3.e11
  self.e12 = mtx3x3.e12
  self.e20 = mtx3x3.e20
  self.e21 = mtx3x3.e21
  self.e22 = mtx3x3.e22

  return self
end

#setZero ⇒ Object

call-seq: setZero

Clears all elements by 0.0

# File 'lib/rmath3d/rmath3d_plain.rb', line 1508

def setZero
  16.times do |i|
    @e[i] = 0.0
  end
  return self
end

#sub!(other) ⇒ Object

call-seq: mtx1.sub!( mtx2 )

mtx1 -= mtx2 : subtracts the elements of mtx2 from corresponding mtx1 elements.

# File 'lib/rmath3d/rmath3d_plain.rb', line 2122

def sub!( other )
  if ( other.class != RMtx4 )
    raise TypeError, "RMtx4#sub! : Unknown type #{other.class} given as RMtx4."
    return nil
  end

  result = RMtx4.new
  for row in 0...4 do
    for col in 0...4 do
      self.setElement( row, col, getElement(row,col) - other.getElement(row,col) )
    end
  end

  return self
end

#to_a ⇒ Object

call-seq: to_a

Returns its elements as a new Array.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1316

def to_a
  return @e
end

#to_s ⇒ Object

call-seq: to_s

Returns human-readable string.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1304

def to_s
  "( #{@e[0]}, #{@e[4]}, #{@e[8]}, #{@e[12]} )\n"  +
  "( #{@e[1]}, #{@e[5]}, #{@e[9]}, #{@e[13]} )\n"  +
  "( #{@e[2]}, #{@e[6]}, #{@e[10]}, #{@e[14]} )\n" +
  "( #{@e[3]}, #{@e[7]}, #{@e[11]}, #{@e[15]} )\n"
end

#translation(tx, ty, tz) ⇒ Object

call-seq: translation(tx,ty,tz) -> self

Makes itself as a translation matrix.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1686

def translation( tx, ty, tz )
  setIdentity()
  self.e03 =  tx
  self.e13 =  ty
  self.e23 =  tz

  return self
end

#transpose! ⇒ Object

call-seq: transpose!

Transposeas its elements.

# File 'lib/rmath3d/rmath3d_plain.rb', line 1570

def transpose!
  @e[ 1], @e[ 4] = @e[ 4], @e[ 1]
  @e[ 2], @e[ 8] = @e[ 8], @e[ 2]
  @e[ 3], @e[12] = @e[12], @e[ 3]
  @e[ 6], @e[ 9] = @e[ 9], @e[ 6]
  @e[ 7], @e[13] = @e[13], @e[ 7]
  @e[11], @e[14] = @e[14], @e[11]
end