Method and system of measuring toric lens axis angle

What is claimed is: 1. An apparatus for automatically measuring an axis angle of a toric contact lens including a posterior toric central zone having a cylindrical axis, and an anterior lens surface forming a ballast that has an axis of orientation offset from the cylindrical axis at a selected rotational angle, the apparatus comprising: (a) an anterior mold section including: a first end comprising an anterior mold surface for molding an anterior optical surface of the toric contact lens; a second end; a first radially outward facing surface extending between the first end and the second end; and, a first detectable feature in the form of a first flange extending radially outward from the first radially outward facing surface, the first flange arranged between and spaced apart from the first end and the second end, and positioned at a predetermined location on the anterior mold section relative to one of a toric axis and a ballast axis thereof; wherein the anterior mold surface is operable to receive a deposit of a measured quantity of a polymerizable lens-forming monomer mixture; and (b) a posterior mold section having a posterior mold surface for molding a posterior optical surface of the toric contact lens, the posterior mold section having a second detectable feature on an outer wall thereof and positioned at a predetermined location on the posterior mold relative to the one of the ballast axis and the toric axis thereof, wherein the anterior mold section and the posterior mold section are moveable between a spaced apart configuration and an assembled configuration, the assembled configuration defining a mold cavity, wherein each of the anterior and posterior mold sections with the detectable features are adapted to rotate to a plurality of predetermined angular locations with respect to each other after the anterior mold surface is charged with the measured quantity of polymerizable lens-forming monomer mixture, wherein the anterior and posterior mold sections in the assembled configuration are operable for maintaining their rotated predetermined angular locations, and wherein the detectable features of the posterior and anterior mold sections define an axis angle at each one of the plurality of predetermined angular locations of the assembled anterior and posterior mold sections adapted to be measured prior to curing of the polymerizable lens-forming monomer mixture. 2. The apparatus of claim 1 , wherein at least one of the detectable features on each of the mold sections is identifiably distinct from any other detectable feature on each of the mold sections. 3. The apparatus of claim 1 , wherein the second detectable feature is a flange. 4. The apparatus of claim 1 , wherein the anterior and posterior mold sections are maintained at the corresponding rotational position throughout curing of the polymerizable lens-forming monomer mixture. 5. The apparatus of claim 1 , wherein the anterior and posterior mold sections are alignable at any rotational position. 6. The apparatus of claim 1 , wherein the polymerizable lens-forming monomer mixture is operable to be cured into a toric lens. 7. An apparatus for automatically measuring an axis angle of a toric contact lens including a posterior toric central zone having a cylindrical axis, and an anterior lens surface forming a ballast that has an axis of orientation offset from the cylindrical axis at a selected rotational angle, the apparatus comprising: (a) an anterior mold section including: a first end comprising an anterior mold surface for molding an anterior optical surface of the toric contact lens; a second end; a first radially outward facing surface extending between the first end and the second end; and, a detectable feature in the form of a first flange extending radially outward from the first radially outward facing surface, the first flange arranged between and spaced apart from the first end and the second end, and positioned at a predetermined location on the anterior mold section relative to one of a toric axis and a ballast axis thereof; and, (b) a posterior mold section including: a third end comprising a posterior mold surface for molding a posterior optical surface of the toric contact lens; a fourth end; a second radially outward facing surface extending between the third end and the fourth end; and, a second detectable feature in the form of a second flange extending radially outward from the second radially outward facing surface, the second flange arranged between and spaced apart from the third end and the fourth end, and positioned at a predetermined location on the posterior mold section relative to the one of the ballast axis and the toric axis thereof; wherein: the anterior mold section and the posterior mold section are moveable between a spaced apart configuration and an assembled configuration, the assembled configuration defining a mold cavity; each of the anterior and posterior mold sections with the detectable features are adapted to rotate to a plurality of predetermined angular locations with respect to each other after the anterior mold surface is charged with the measured quantity of polymerizable lens-forming monomer mixture; the anterior and posterior mold sections in the assembled configuration are operable for maintaining their rotated predetermined angular locations; and, the detectable features of the posterior and anterior mold sections define an axis angle at each one of the plurality of predetermined angular locations of the assembled anterior and posterior mold sections adapted to be measured prior to curing of the polymerizable lens-forming monomer mixture. 8. An apparatus for automatically measuring an axis angle of a toric contact lens including a posterior toric central zone having a cylindrical axis, and an anterior lens surface forming a ballast that has an axis of orientation offset from the cylindrical axis at a selected rotational angle, the apparatus comprising: (a) an anterior mold section including: a first end comprising an anterior mold surface for molding an anterior optical surface of the toric contact lens; a second end; a first radially outward facing surface extending between the first end and the second end; and, a first detectable feature in the form of a notch and positioned at a predetermined location on the anterior mold section relative to one of a toric axis and a ballast axis thereof; wherein the anterior mold surface is operable to receive a deposit of a measured quantity of a polymerizable lens-forming monomer mixture; and (b) a posterior mold section including: a third end comprising a posterior mold surface for molding a posterior optical surface of the toric contact lens; a fourth end; a second radially outward facing surface extending between the third end and the fourth end; and, a second detectable feature in the form of a channel extending radially inward from the second radially outward facing surface, extending from the third end to the fourth end, and positioned at a predetermined location on the posterior mold relative to the one of the ballast axis and the toric axis thereof, wherein the anterior mold section and the posterior mold section are moveable between a spaced apart configuration and an assembled configuration, the assembled configuration defining a mold cavity, wherein each of the anterior and posterior mold sections with the detectable features are adapted to rotate to a plurality of predetermined angular locations with respect to each other after the anterior mold surface is charged with the measured quantity of polymerizable lens-forming monomer mixture, wherein the anterior and posterior mold sections in the assembled configuration are operable for maintaining their rot