Energy efficient shading systems for windows

What is claimed is: 1. A shading assembly that provides independent control of solar visible light and solar near-infrared heat transmitted through the shading assembly to achieve at least 4 selectable states, the shading assembly comprising a first retractably shade and a second retractable shade; wherein a first selectable state allows transmission of visible light through the shading assembly and rejects transmission of solar heat through the shading assembly through reflection, wherein a second selectable state absorbs or reflects visible solar light through the shading assembly and transmits solar heat through the shading assembly; wherein a third selectable state transmits both visible solar light and solar heat through the shading assembly; wherein a fourth selectable state absorbs or reflects both visible solar light and solar heat through the shading assembly; wherein the first selectable state is transmissive to more than 40% of visible solar light and reflects more than 35% of solar heat; wherein the second selectable state absorbs or reflects more than 75% of visible solar light and transmits more than 50% of solar heat; wherein the third selectable state transmits more than 50% of visible solar light and more than 50% of solar heat; wherein the fourth selectable state absorbs or reflects more than 75% of visible solar light and reflects more than 35% of solar heat; wherein the first shade and the second shade are configured to be deployable concurrently or individually to achieve said 4 selectable states. 2. The shading assembly of claim 1 , wherein the shading assembly in at least one of the first selectable state and the second selectable state is operative to overlap a viewable portion of a window. 3. The shading assembly of claim 1 , wherein the shading assembly in at least one of the first selectable state and the second selectable state is operative to overlap a viewable portion of a skylight. 4. The shading assembly of claim 1 , wherein a haze of at least one of the first and second selectable states is less than 5%. 5. The shading assembly of claim 2 , wherein a haze of at least one the first and second selectable states is less than 2%. 6. The shading assembly of claim 1 , wherein the first shade comprises a first roller shade. 7. The shading assembly of claim 6 , wherein the first roller shade includes at least one of a near-infrared reflective property and a visible light non-transmitting property. 8. The shading assembly of claim 6 , wherein: the second shade comprises a second roller shade; and, the first roller shade includes a near-infrared reflective property and the second roller shade includes a visible light non-transmitting property. 9. The shading assembly of claim 6 , wherein: the second shade comprises a blind; and, the first roller shade includes a near-infrared reflective property and the blind rejects that transmission of visible light when the blind is in a non-transmitting state. 10. The shading assembly of claim 1 , further comprising a control system including a component comprising at least one of an interior climate sensor monitoring an interior climate, an exterior climate sensor monitoring an exterior climate, a timing circuit, and a microprocessor programmed with climate control algorithms, where the component supplies a controlling signal for selecting at least one of the first, second, and third selectable states. 11. The shading assembly of claim 10 , wherein the control system selects at least one of the first, second, and third selectable states responsive to a position of the sun. 12. The shading assembly of claim 10 , wherein the control system selects at least one of the first, second, and third selectable states responsive to a time of a day. 13. The shading assembly of claim 10 , wherein the control system selects at least one of the first, second, and third selectable states responsive to a season. 14. The shading assembly of claim 10 , wherein the control system selects at least one of the first, second, and third selectable states responsive to a temperature on an interior of a building. 15. The shading assembly of claim 10 , wherein the control system selects at least one of the first, second, and third selectable states responsive to a visible light intensity on an interior of a building. 16. The shading assembly of claim 10 wherein the control system is adapted to reduce the energy consumption of a building in at least one area of lighting, cooling or heating. 17. A method of manipulating solar energy transmission through a surface, using the shading assembly of claim 1 , the method comprising deploying at least one of the first shade or the second shade to cover at least a portion of a translucent surface of a building; wherein a timing of the deploying step accounts for at least one of a time of day, a time of year, and a temperature on an interior of the building; wherein the deploying step includes choosing from the first shade or the second shade that are adjacent to the translucent surface of the building, where the first shade is operative to transmit near-infrared light and absorb visible light, and where the second shade is operative to reflect near-infrared light and transmit visible light; and wherein the first shade and the second shade may be concurrently deployed to overlap one another so that a majority of directly-incident near-infrared light is reflected and a majority of directly-incident visible light is absorbed prior to reaching the translucent surface of the building. 18. The method of claim 17 , wherein the deploying step includes deploying at least one of the first shade or the second shade to overlap a majority of the translucent surface of the building. 19. The method of claim 17 wherein energy consumption of the building is reduced by at least three percent during a period of deployment in which at least one of the first shade or the second shade is deployed.