Generating a three-dimensional object

1 . Apparatus for generating a three-dimensional object, comprising: a build material distributor to provide a first layer of build material on a build material support, and to provide subsequent layers of build material on a previously provided layer of build material; a first agent distributor to selectively deliver a coalescing agent onto portions of a layer of build material; a second agent distributor to selectively deliver a coalescence modifier agent onto portions of a layer of build material; an energy source to apply energy to build material; and a controller to: control the build material distributor to provide a layer of build material; control the agent distributors to selectively deliver each of the agents onto a layer of build material in respective patterns derived from data representing a slice of a three-dimensional object to be generated, the patterns to cause, upon application of energy to the layer of build material, an object to have properties dependent on the patterns by causing portions of the layer on which only coalescing agent is delivered or penetrates to heat up above the melting point of the build material and coalesce, and portions of the layer on which only coalescence modifier agent is delivered or penetrates not to heat up above the melting point of the build material and not to coalesce; and control the energy source to apply energy to the layer of build material. 2 . The apparatus of claim 1 , wherein the apparatus is to generate a three-dimensional object having at least one of mechanical, strength, accuracy properties, and surface roughness properties that are related to the patterns in which coalescing agent and coalescence modifier agent are delivered to build material or to generate a three-dimensional object having at least one of variable object porosity properties, variable object inter-layer strength properties, variable object elasticity properties, variable object density properties that are related to the patterns in which coalescing agent and coalescence modifier agent are delivered to build material. 3 . (canceled) 4 . The apparatus of claim 1 , wherein the first and second agent distributors have a length to enable them to span the support and wherein at least one of the support and the distributors are moveable relative to the other to enable coalescing agent and coalescence modifier agent to be selectively deliverable to the surface of any portion of the layer of build material. 5 . The apparatus of claim 1 , wherein the first agent distributor comprises a first printhead and the second agent distributor comprises a second, different, printhead, or wherein the first agent distributor comprises a first array of nozzles of a printhead and the second agent distributor comprises a second array of nozzles of the printhead. 6 . (canceled) 7 . The apparatus of claim 1 , wherein the controller is to control the agent distributors to selectively deliver the agents onto the surface of the layer of build material in accordance with control data derived from a combination of data representing a slice of a three-dimensional object to be generated and data representing at least one desired object property of at least one portion of the three-dimensional object to be generated. 8 . The apparatus of claim 1 , wherein the build material distributor is to provide a layer of build material having a layer thickness in the range of about 90 to 110 microns, and wherein the agent distributors are to provide drops of agent of about 10 Pico litres per drop. 9 . The apparatus of claim 1 , further comprising a third agent distributor to selectively deliver a second coalescing agent onto a layer of build material and/or a fourth agent distributor to selectively deliver a second coalescence modifier agent onto a layer of build material. 10 . The apparatus of claim 1 , wherein the controller is to generate control data from data representing a three-dimensional object and object property data. 11 . The apparatus of claim 1 , further comprising a carriage movable bi-directionally across the support on which are mounted, or on which are mountable, a pair of first agent distributors to selectively deliver a coalescing agent, a pair of second agent distributors to selectively deliver a coalescence modifier agent, and a build material distributor, the agent distributors and the build material distributor being arranged to allow delivery of build material, coalescing agent, and coalescence modifier agent whilst the carriage is moving in either direction. 12 . The apparatus of claim 1 , further comprising a carriage movable bi-directionally across the support on which are mounted, or on which are mountable, the first agent distributor to selectively deliver coalescing agent, the second agent distributor to selectively deliver coalescence modifier agent, and a pair of build material distributors, the agent distributors and the build material distributor being arranged to allow delivery of build material, the coalescing agent, and the coalescence modifier agent whilst the carriage is moving in either direction. 13 . The apparatus of claim 1 , further comprising an unfocused energy source to apply energy to build material to cause a portion of the build material to coalescence and to solidify to form a slice of the three-dimensional object in accordance with where coalescing agent and coalescence modifier agent was delivered. 14 . A method of controlling a system to generate a three-dimensional object, comprising: obtaining control data, the control data derived from data representing a portion of a three-dimensional object to be generated; depositing a layer of build material; selectively depositing on the layer of deposited build material, in accordance with the obtained control data, patterns of a coalescing agent and a coalescence modifier agent, the patterns to cause, upon application of energy to the layer of build material, an object to have properties dependent on the patterns by causing portions of the layer on which only coalescing agent is delivered or penetrates to heat up above the melting point of the build material and coalesce, and portions of the layer on which only coalescence modifier agent is delivered or penetrates not to heat up above the melting point of the build material and not to coalesce; and applying energy to deposited build material. 15 . (canceled) 16 . The method of claim 14 , wherein the patterns to cause, upon application of energy to the layer of build material, an object to have properties dependent on the patterns by causing portions of the layer on which coalescing agent and coalescence modifier agent are delivered or penetrate to undergo a modified degree of coalescence. 17 . The method of claim 14 , wherein the patterns to cause, upon application of energy to the layer of build material, an object to have properties dependent on the patterns by causing coalescence modifier agent to control coalescence bleed. 18 . The method of claim 14 , wherein coalescence modifier agent is delivered adjacent to where coalescing agent is delivered to help reduce effect of lateral coalescence bleed. 19 . The method of claim 14 , further comprising obtaining control data, generated based on object design data and object property data, that describes, for each layer of build material to be processed, locations or portions on the build material at which at least one of coalescing agent and coalescence modifier agent are to be delivered to generate a three-dimensional object having contr