Optical devices for providing corridor dual wallwash

What is claimed is: 1. An optical device for a light fixture, the optical device comprising: a quasi-semi-cylindrical outer perimeter comprising: a substantially planar bottom surface; a top surface located adjacent to the bottom surface, wherein the top surface has a width and a curvature along its length; and a pair of side surfaces located adjacent to the bottom surface and the top surface, wherein the pair of side surfaces are located opposite each other; a body bounded by the outer perimeter; and an inner optical feature disposed in the body at the bottom surface, wherein the inner optical feature forms a cavity bounded by a plurality of segments, wherein each two adjacent segments form a non-perpendicular angle relative to each other, wherein the plurality of segments of the inner optical feature are configured to refract light emitted by a light source into the cavity, wherein the cavity is configured to receive a light source of the light fixture, wherein the inner optical feature and the top surface are symmetrical about an axis that runs parallel to the width of the top surface and through a middle of the planar bottom surface and about a plane through the axis that is perpendicular to the substantially planar bottom surface, wherein each side surface of the pair of side surfaces comprises a refractive material, wherein the pair of side surfaces are configured to reflect, through total internal reflection, a portion of the light refracted by the plurality of segments of the inner optical feature, wherein the top surface is configured to further refract the portion of the light reflected off the pair of side surfaces and a remainder of the light emitted by the light source that is refracted by the plurality of segments without previously coming into contact with the pair of side surfaces, and wherein the light emitted through the top surface diverges from a virtual axis perpendicular to the substantially planar bottom surface. 2. The optical device of claim 1 , wherein the curvature of the top surface forms a semi-circle. 3. The optical device of claim 1 , wherein the bottom surface comprises at least one coupling feature that is configured to couple to the light fixture. 4. The optical device of claim 1 , wherein the portion of the light and the remainder of the light traveling through the body are substantially unaltered by the body. 5. The optical device of claim 1 , wherein the plurality of segments that form the cavity of the inner optical feature comprise a first segment, a second segment, a third segment, and a fourth segment, wherein the first segment is adjacent to the bottom surface, wherein the second segment is adjacent to the first segment, wherein the third segment is adjacent to the second segment, and wherein the fourth segment is adjacent to the third segment and the bottom surface. 6. The optical device of claim 5 , wherein the first segment and the second segment are separated by a first junction, wherein the second segment and the third segment are separated by a second junction, wherein the third segment and the fourth segment are separated by a third junction, wherein the first junction and the third junction have a first length, wherein the second junction has a second length, wherein the second length is greater than the first length. 7. The optical device of claim 5 , wherein the first segment and the bottom surface form a first angle, wherein the fourth segment and the bottom surface form the first angle, wherein the first segment and the second segment form a second angle, wherein the third segment and the fourth segment form the second angle, and wherein the second segment and the third segment form a third angle. 8. The optical device of claim 7 , wherein the first angle is acute, wherein the second angle is obtuse, and wherein the third angle is acute. 9. The optical device of claim 8 , wherein light traversing through the top surface, when the bottom surface is coupled to the light fixture in a ceiling of a corridor, is emitted toward both side walls in the corridor at a wallwash angle with no direct down light. 10. The optical device of claim 9 , wherein the wallwash angle is approximately 30° from vertical. 11. The optical device of claim 7 , wherein the first angle is acute, wherein the second angle is obtuse, and wherein the third angle is obtuse. 12. The optical device of claim 11 , wherein the first angle is acute, wherein the second angle is slightly greater than 90°, and wherein the third angle is slightly less than 180°. 13. The optical device of claim 12 , wherein light traversing through the top surface, when the bottom surface is coupled to the light fixture in a ceiling of a corridor, is emitted toward both side walls in the corridor with direct down light. 14. The optical device of claim 13 , wherein positioning the optical device below a plane formed by the ceiling eliminates harsh shadows along a top end of both side walls adjacent to the ceiling. 15. The optical device of claim 1 , wherein the plurality of segments of the inner optical feature are oriented along a length of the bottom surface, wherein the length of the bottom surface is defined by two opposing ends that adjoin the top surface. 16. The optical device of claim 1 , wherein each segment of the plurality of segments is a spline. 17. A light fixture comprising: a light source assembly comprising at least one light source; and an optical device disposed adjacent to the at least one light source, wherein the optical device comprises: a quasi-semi-cylindrical outer perimeter comprising: a bottom surface that is substantially planar; a top surface located adjacent to the bottom surface, wherein the top surface has a curvature; and a pair of side surfaces located adjacent to the bottom surface and the top surface, wherein the pair of side surfaces are located opposite each other; a body bounded by the outer perimeter; and an inner optical feature disposed in the body at the bottom surface, wherein the inner optical feature forms a cavity bounded by at least four segments, wherein each two adjacent segments form an angle relative to each other, wherein the at least one light source is disposed in the cavity, wherein light emitted by the at least one light source travels through the cavity of the inner optical feature and is refracted by at least one of the at least four segments, wherein at least a portion of the light is subsequently reflected, through total internal reflection, off of one of the pair of side surfaces within the body, wherein the at least a portion of the light subsequently exits the body through and is refracted by the top surface of the quasi-semi-cylindrical outer perimeter, and wherein the inner optical feature is symmetrical along a virtual plane oriented along the length of the inner optical feature. 18. The light fixture of claim 17 , wherein the optical device is a total internal reflection optic that only allows light emitted by the at least one light source of the light source assembly to exit through the top surface of the optical device. 19. An optical device for a light fixture, the optical device comprising: a quasi-semi-cylindrical outer perimeter comprising: a substantially planar bottom surface; a top surface located adjacent to the bottom surface, wherein the top surface has a curvature along its length and a width; and a pair of side surfaces located adjacent to the bottom surface and the top surface, wherein the pair of side surfaces are located opposite e