Lens casting system

What is claimed is: 1. An optical lens casting gasket comprising: a body having a cylindrical shape; a groove formed circumferentially around in an interior surface of the body and sized to receive a wafer; a fill port formed through a sidewall of the body; and a vent port formed through a sidewall of the body that intersects the groove; said fill port and said vent port being axially spaced apart from each other; wherein when the gasket is associated with a mold with a wafer in the groove, the wafer divides the mold into a front cavity and a back cavity, respectively; and, wherein during a fill procedure, due to said fill port being axially spaced apart from the vent port, material introduced through the fill port begins to fill the back cavity before flowing around the wafer to enter the front cavity. 2. The optical lens casting gasket according to claim 1 wherein the fill port is formed through a sidewall of the body between the groove and a back mold stop. 3. The optical lens casting gasket according to claim 1 wherein the groove is tapered. 4. The optical lens casting gasket according to claim 1 wherein the fill port comprises a tubular element extending from an exterior surface of the body. 5. The optical lens casting gasket according to claim 1 further comprising a chamber in fluid communication with the vent port formed on an exterior of the body. 6. A gasket and optically functional wafer combination useable to create an optical lens comprising: a wafer having: a periphery having a first portion and a second portion distinct from the first portion; and an optically functional property; the first portion forming a continuous curve with a first radius; the second portion forming at least one of a straight segment or a curve with a second radius distinct from the first radius, giving said second portion a shape that may be oriented to allow said wafer to pass through interruptions in a lip defining said groove; and, a gasket having: a body having a cylindrical shape; a groove formed circumferentially around in an interior surface of the body and sized to receive a wafer; a fill port formed through a sidewall of the body; and a vent port formed through a sidewall of the body that intersects the groove; said fill port and said vent port being axially spaced apart from each other; wherein when the gasket is associated with a mold with said wafer in the groove, the wafer divides the mold into a front cavity and a back cavity, respectively; and, wherein during a fill procedure, due to said fill port being axially spaced apart from the vent port, material introduced through the fill port begins to fill the back cavity before flowing around the wafer to enter the front cavity. 7. The optically functional wafer of claim 6 where in the optical functional property is selected from the groups consisting of: polarization, photochromism, tint, color, hardness, chemical resistance, and reflectance. 8. The optically functional wafer of claim 6 where the periphery is non-circular shaped. 9. The optically functional wafer of claim 6 further comprising a laminate structure. 10. The optically functional wafer of claim 6 wherein the second portion comprises five straight segments. 11. An optical lens casting system comprising: a cylindrical gasket comprising: a groove formed circumferentially in an interior surface of the cylindrical gasket and sized to receive a wafer; and a vent port formed through a sidewall of the cylindrical gasket that intersects the groove; a fill port formed through a sidewall of the gasket between the groove and a back mold stop; said fill port and said vent port being axially spaced apart from each other; and an optically functional wafer comprising: a first portion forming a continuous curve with a first radius; a second portion forming at least one of a straight segment or a curve with a second radius distinct from the first radius; the optically functional wafer positioned within the groove with the first portion of the wafer axially aligned with the vent port of the gasket; wherein when the gasket is associated with a mold with said wafer in the groove, said wafer divides the mold into a front cavity and a back cavity, respectively; and, wherein during a fill procedure, due to said fill port being axially spaced apart from the vent port, material introduced through the fill port begins to fill the back cavity before flowing around the wafer to enter the front cavity. 12. The optical lens casting system according to claim 11 wherein the vent port has an oval cross-section. 13. The optical lens casting system according to claim 11 wherein the groove is tapered. 14. The optical lens casting system according to claim 11 wherein the optically functional wafer comprises five straight segments. 15. A method of forming a cast optical lens comprising: inserting an optically functional wafer into a groove formed circumferentially around in an interior surface of a cylindrical gasket; orienting a periphery of the optically functional wafer to be positioned against a vent port formed through a sidewall of the gasket and into said groove; inserting a front and back mold surface into the gasket; filling an interior volume of the gasket with a curable composition through a fill port formed through a sidewall of the gasket located axially between the groove and a back mold stop, such that due to the location of the fill port, material introduced through the fill port begins to fill a first cavity formed between the wafer and the back mold stop before flowing around the wafer to enter a second cavity formed between the wafer and the front mold stop; and curing the curable composition. 16. The method of forming a cast optical lens according to claim 15 wherein inserting an optically functional wafer into a groove formed circumferentially around in an interior surface of a cylindrical gasket comprises inserting a non-circular wafer into the groove. 17. The method of forming a cast optical lens according to claim 15 wherein orienting a periphery of the optically functional wafer to cover a vent port formed through a sidewall of the gasket comprises orienting a curved portion of the wafer to cover the vent port. 18. The method of forming a cast optical lens according to claim 15 wherein curing the curable composition comprises curing a urethane based prepolymer composition.