Color conversion LUT generating device, color conversion LUT generation method, color conversion processing device, color conversion processing method, and storage medium

What is claimed is: 1. A generating device that generates a first color conversion look up table (LUT) for converting an input image signal value into an output value of an actual color material installed in an image forming device, the first color conversion LUT obtained by thinning out grid points in a second color conversion LUT in which a number of grid points is larger than a number of grid points of the first color conversion LUT, the generating device comprising: one or more processors; and a memory including instructions thereon which, when executed by the one or more processors, cause the generating device to function as: an acquiring unit configured to acquire grid point position information indicating positions of the grid points in the first color conversion LUT; and a generating unit configured to generate the first color conversion LUT on the basis of the grid point position information, wherein the generating unit determines, based on the grid point position information, whether or not an inflection point of the output value of the actual color material is at a position of the grid point, corrects, in response to the grid point position information, at least some output values for at least two actual color materials in the second color conversion LUT in accordance with a determination result, and generates the first color conversion LUT obtained by thinning out the grid points in the second color conversion LUT without correcting the position of the grid point when the grid point position information indicates that the inflection point of the output value of the actual color material is not in the position of the grid point. 2. The generating device according to claim 1 , wherein the generating unit causes inflection points of output values of at least two actual color materials in the second color conversion LUT to coincide with the positions of the grid points in the first color conversion LUT. 3. The generating device according to claim 2 , wherein the inflection point is the input image signal value corresponding to a point at which an increase or decrease of the output values of the at least two actual color materials changes. 4. The generating device according to claim 2 , wherein the generating unit causes the inflection points to coincide with the positions of the grid points in the first color conversion LUT adjacent in a direction in which a gradation indicated by the input image signal value gets bright. 5. The generating device according to claim 4 , wherein the instructions, when executed by the one or more processors, further cause the generating unit to function as: a searching unit configured to search for the inflection points, wherein, in a case that the inflection points which are searched for do not coincide with the positions of the grid points in the first color conversion LUT, the generating unit causes the inflection points to coincide with the positions of the grid points in the first color conversion LUT adjacent in a direction in which a gradation indicated by the input image signal value gets bright; and a calculating unit configured to subtract the output values of the at least two actual color materials decreased as the inflection points are caused to coincide with the positions of the grid points in the first color conversion LUT from limit values of the at least two actual color materials ejectable onto a printing medium, and to calculate the output values of the at least two actual color materials with reference to the subtracted limit values. 6. The generating device according to claim 2 , wherein the generating unit causes the inflection points to coincide with the positions of the grid points in the first color conversion LUT adjacent in a direction in which a gradation indicated by the input image signal value gets dark. 7. The generating device according to claim 6 , wherein the instructions, when executed by the one or more processors, further cause the generating unit to function as: a searching unit configured to search for the inflection points, wherein, in a case that the inflection points which are searched for do not coincide with the positions of the grid points in the first color conversion LUT, the generating unit causes the inflection points to coincide with the positions of the grid points in the first color conversion LUT adjacent in a direction in which a gradation indicated by the input image signal value gets dark; and a calculating unit configured to subtract the output values of the at least two actual color materials decreased as the inflection points are caused to coincide with the positions of the grid points in the first color conversion LUT from limit values of the at least two actual color materials ejectable onto a printing medium, and to calculate the output values of the at least two actual color materials with reference to the subtracted limit values. 8. The generating device according to claim 1 , wherein the acquiring unit acquires the grid point position information indicating that the grid points in the first color conversion LUT are arranged at equal intervals. 9. The generating device according to claim 1 , wherein the first color conversion LUT includes a three-dimensional LUT and a one-dimensional non-linear conversion LUT having a non-linear characteristic, and the acquiring unit acquires the grid point position information which indicates positions of grid points in the first color conversion LUT decided on the basis of the non-linear characteristic and indicates that the grid points in the first color conversion LUT are arranged at unequal intervals. 10. The generating device according to claim 1 , wherein the instructions, when executed by the one or more processors, further cause the generating device to function as: a storage unit configured to store an existing color conversion LUT generated in advance; and a correcting unit configured to correct output values of the at least two actual color materials held at the grid points in the existing color conversion LUT, and wherein the second color conversion LUT is the existing color conversion LUT in which the output values of the at least two actual color materials are corrected by the correcting unit. 11. The generating device according to claim 10 , wherein the correcting unit corrects the output values of the plurality of types of actual color materials held at target grid points on the basis of a gradation property evaluation value calculated from the output values of the at least two actual color materials at the target grid points and grid points adjacent to the target grid points. 12. The generating device according to claim 1 , wherein the instructions, when executed by the one or more processors, further cause the generating device to function as: a second generating unit configured to generate the second color conversion LUT, wherein the second color conversion LUT is an all-point LUT having grid points corresponding to all the input image signal values, wherein the second generating unit includes: a calculating unit configured to calculate output values of a plurality of virtual color materials corresponding to the input image signal value for each grid point in the second color conversion LUT; and a converting unit configured to convert the calculated output values of the plurality of virtual color materials into the output values of the plurality of types of color materials for each grid point in the second color conversion LUT on the basis of the output values of a plurality of types of actual color materials at respective peaks of the second color conversion LUT given in advance, the plurality of virtual