Multi-focal lens

The invention claimed is: 1. A spectacle lens comprising: a first zone of the spectacle lens; and a second zone of the spectacle lens; wherein the second zone comprises a plurality of discrete lens segments of the spectacle lens interlaced with the first zone; wherein the first zone is configured to apply a first refractive optical function to light passing therethrough and the plurality of discrete lens segments of the second zone are configured to apply a second refractive optical function to light passing therethrough, different to the first refractive optical function; wherein the first refractive optical function comprises a first focal length and the second optical function comprises a second focal length, different to the first focal length; wherein the first zone occupies a central portion of the lens that is devoid of the plurality of discrete lens segments of the second zone; and wherein the plurality of discrete lens segments are distributed within a plurality of annular segments of the second zone of the spectacle lens about the central portion of the lens, each annular segment comprising a plurality of the discrete lens segments distributed within it about the central portion of the lens. 2. The spectacle lens of claim 1 , wherein the spacing between the plurality of discrete lens segments is a-periodic. 3. The spectacle lens of claim 1 , wherein the lens is non-diffractive by one or more of: a) surface parts of the first zone and surface parts of the second zone are spaced-apart along the optical axis of the lens by more than a coherence length of visible light; b) a physical dimension along the lens surface of both the first zone and interlaced second zone is greater than a maximal wavelength of visible light; and c) the lens segments of the second zone are arranged in a disordered fashion. 4. The spectacle lens of claim 1 , wherein the lens is non-diffractive by two or more of: a) surface parts of the first zone and surface parts of the second zone are spaced-apart along the optical axis of the lens by more than a coherence length of visible light; b) a physical dimension along the lens surface of both the first zone and interlaced second zone is greater than a maximal wavelength of visible light; and c) the lens segments of the second zone are arranged in a disordered fashion. 5. The spectacle lens of claim 1 , wherein surface parts of the first zone and surface parts of the second zone are spaced-apart along the optical axis of the lens by more than a coherence length of visible light. 6. The spectacle lens of claim 1 , wherein the lens segments of the second zone are arranged in a disordered fashion. 7. The spectacle lens of claim 1 , wherein the first zone is a base lens of the spectacle lens. 8. The spectacle lens of claim 7 , wherein the second zone is embedded in the base lens. 9. The spectacle lens of claim 8 , wherein the second zone is a surface relief etched in the base lens. 10. The spectacle lens of claim 1 , wherein the second zone forms part of a diffractive lens. 11. The spectacle lens of claim 1 , wherein the first zone and the second zone apply different phase coding to light passing through the spectacle lens. 12. The spectacle lens of claim 1 wherein the lens segments have the same dimensions and shapes. 13. The spectacle lens of claim 1 , wherein more of the light energy collected by the spectacle lens is collected by the first zone in comparison to the second zone. 14. The spectacle lens of claim 1 , wherein a fill factor of first zone to the second zone is between 50:50 and 70:30. 15. The spectacle lens of claim 1 , wherein surface parts of the first zone are spaced-apart along the optical axis of the lens from surface parts of the second zone by more than 0.5 micrometers. 16. The spectacle lens of claim 1 , wherein a physical dimension along the lens surface of both the first zone and interlaced second zone is greater than a maximal wavelength of visible light.