System for detecting inoperative inkjets in three-dimensional object printing using a profilometer and predetermined test pattern printing

What is claimed: 1. A printer comprising: a printhead configured with inkjets to eject drops of material; a planar member positioned opposite the printhead to receive drops ejected from the printhead; a profilometer configured to generate measurements of drops ejected onto the planar member; and a controller operatively connected to the profilometer and the printhead, the controller being configured to move the printhead and operate the printhead to form a line of drops on the planar member, to move and operate the profilometer to enable generation of measurement data of the drops on the planar member, and to identify inoperative inkjets in the printhead with reference to the measurement data generated by the profilometer. 2. The printer of claim 1 , the printhead being further configured to eject a first material from a first number of inkjets in the printhead and to eject a second material from a second number of inkjets in the printhead, no inkjet in the printhead being configured to eject the first material and the second material. 3. The printer of claim 2 , the controller being further configured to move the printhead in a first direction to position inkjets that eject the first material for line formation and to move the printhead in a second direction while the inkjets that eject the first material are being operated, the first and second directions being orthogonal in a plane that is parallel with the planar member. 4. The printer of claim 3 , the controller being further configured to move the printhead in the first direction with reference to a distance between inkjets and a number of pixels that can be printed in the distance between inkjets. 5. The printer of claim 2 , the controller being further configured to move the printhead to a first portion of the planar member to operate the inkjets that eject the first material and to move the printhead to a second portion of the planar member to operate the inkjets that eject the second material. 6. The printer of claim 1 , the profilometer being further configured to generate measurements of a distance between the profilometer and an end of each line of drops formed on the planar member to enable identification of inoperative inkjets. 7. The printer of claim 6 , the profilometer being further configured to generate measurements of a volume of an end of each line of drops formed on the planar member to enable identification of inkjets that operate errantly. 8. The printer of claim 1 , the profilometer being further configured to generate measurements of a volume of an end of each line of drops formed on the planar member to enable identification of inkjets that operate errantly. 9. An apparatus comprising: a profilometer positioned adjacent a planar member located to receive drops of material ejected from inkjets in a printhead, the profilometer being configured to generate measurements of drops ejected onto the planar member; and a controller operatively connected to the profilometer, the controller being configured to detect the printhead and generate a signal for the printhead to be operated to form a line of drops on the planar member, to move and operate the profilometer to enable generation of measurement data of the drops of material on the planar member, and to identify inoperable inkjets in the printhead with reference to the measurement data generated by the profilometer. 10. The apparatus of claim 9 , the controller being further configured to generate a signal to operate the printhead to eject a first material from a first number of inkjets in the printhead and to operate the printhead to eject a second material from a second number of inkjets in the printhead without operating any inkjet in the printhead to eject both the first material and the second material. 11. The apparatus of claim 10 , the controller being further configured to generate a first signal to move the printhead in a first direction to position inkjets that eject the first material for line formation and to generate a second signal to move the printhead in a second direction while the inkjets that eject the first material are being operated, the first and second directions being orthogonal in a plane that is parallel with the planar member. 12. The apparatus of claim 11 , the controller being further configured to move the printhead in the first direction with reference to a distance between inkjets and a number of pixels that can be printed in the distance between inkjets. 13. The apparatus of claim 10 , the controller being further configured to move the printhead to a first portion of the planar member to operate the inkjets that eject the first material and to move the printhead to a second portion of the planar member to operate the inkjets that eject the second material. 14. The apparatus of claim 9 , the profilometer being further configured to generate measurements of a distance between the profilometer and an end of each line of drops formed on the planar member to enable identification of inoperative inkjets. 15. The apparatus of claim 14 , the profilometer being further configured to generate measurements of a volume of an end of each line of drops formed on the planar member to enable identification of inkjets that operate errantly. 16. The apparatus of claim 9 , the profilometer being further configured to generate measurements of a volume of an end of each line of drops formed on the planar member to enable identification of inkjets that operate errantly.