Printing apparatus and printing method

The invention claimed is: 1. A printing apparatus configured to perform printing on a medium by an inkjet scheme, comprising: an inkjet head, configured to eject an ink droplet by the inkjet scheme; a main scan driver, configured to cause the inkjet head to perform a main scanning operation of ejecting an ink droplet while moving relative to the medium in a preset main scanning direction; a sub scan driver, configured to cause the inkjet head to perform a sub scanning operation of moving relative to the medium in a sub scanning direction orthogonal to the main scanning direction; and a controller, configured to control operation of the main scan driver and the sub scan driver to perform the main scanning operation multiple times on each position on the medium, wherein in the main scanning operation, for at least part of ejection positions serving as ejection targets of ink droplets in the main scanning operation, the controller causes the inkjet head to eject an ink droplet, in accordance with a mask configured to select part of the at least part of ejection positions, to an ejection position specified by the mask, wherein a resolution of a row of dots of ink formable by the inkjet head on the medium in the main scanning operation once is a main-scanning resolution, in the main scanning operation at one time, the controller causes the inkjet head to eject an ink droplet in accordance with a preset first mask, and in the main scanning operation at another time different from the one time, the controller causes the inkjet head to eject an ink droplet in accordance with a second mask configured to select an ejection position in a pattern different from the first mask, the controller causes the inkjet head to perform printing by a multi-pass scheme to perform printing at a print resolution higher than the main-scanning resolution, wherein the first mask comprises a plurality of mask patterns having a complementary relation in which pixels filled with the ink droplets do not overlap with each other in different main scanning operations, the second mask comprises a plurality of mask patterns having a complementary relation in which pixels filled with the ink droplets do not overlap with each other in different main scanning operations. 2. The printing apparatus according to claim 1 , wherein when the main scanning operation is performed to eject an ink droplet to a first ejection position on the medium, the controller causes the inkjet head to eject an ink droplet in accordance with the first mask, and when the main scanning operation is performed to eject an ink droplet to a second ejection position on the medium spaced apart from the first ejection position by a distance smaller than an inter-dot distance at the main-scanning resolution, the controller causes the inkjet head to eject an ink droplet in accordance with the second mask. 3. The printing apparatus according to claim 2 , wherein the inkjet head comprises a nozzle row including a plurality of nozzles arranged in the sub scanning direction, the nozzles each ejecting an ink droplet, in the nozzle row, the plurality of nozzles is arranged in a row with a constant nozzle spacing in the sub scanning direction, when ink droplets are ejected in succession in minimum cycles from one of the nozzles in the main scanning operation, the one nozzle ejects ink droplets in preset ejection cycles, and the main-scanning resolution is a resolution in which spacing between pixels adjacent in the main scanning direction is equal to an ejection cycle-corresponding spacing that is a distance corresponding to one cycle of the ejection cycles, and spacing between pixels adjacent in the sub scanning direction is equal to the nozzle spacing. 4. The printing apparatus according to claim 3 , wherein when the main scanning operation is performed to eject an ink droplet to an ejection position at a distance in the main scanning direction from the first ejection position by an integer multiple of the ejection cycle-corresponding spacing and at a distance in the sub scanning direction from the first ejection position by an integer multiple of the nozzle spacing, the controller causes the inkjet head to eject an ink droplet in accordance with the first mask, and when the main scanning operation is performed to eject an ink droplet to an ejection position at a distance in the main scanning direction from the second ejection position by an integer multiple of the ejection cycle-corresponding spacing and at a distance in the sub scanning direction from the second ejection position by an integer multiple of the nozzle spacing, the controller causes the inkjet head to eject an ink droplet in accordance with the second mask. 5. The printing apparatus according to claim 4 , wherein the first ejection position and the second ejection position are spaced apart from each other by a distance smaller than the ejection cycle-corresponding spacing in the main scanning direction. 6. The printing apparatus according to claim 4 , wherein the first ejection position and the second ejection position are spaced apart from each other by a distance smaller than the nozzle spacing in the sub scanning direction. 7. The printing apparatus according to claim 4 , wherein for a plurality of pixels arranged in a row at the print resolution, when a spacing between pixels adjacent in the main scanning direction is a main-scanning-direction print pixel spacing, and a spacing between pixels adjacent in the sub scanning direction is a sub-scanning-direction print pixel spacing, the ejection cycle-corresponding spacing is N times the main-scanning-direction print pixel spacing, where N is an integer equal to or greater than one, and the nozzle spacing is M times the sub-scanning-direction print pixel spacing, where M is an integer equal to or greater than one, at least one of N and M is an integer equal to or greater than two, and the controller uses N×M kinds of masks having patterns different from each other and causes the inkjet head to eject an ink droplet, in accordance with any one of the N×M kinds of masks, to the ejection position specified by the mask, in the main scanning operation each time. 8. The printing apparatus according to claim 7 , wherein in the main scanning operation performed N×M times in succession, the controller uses the N×M kinds of masks in order. 9. The printing apparatus according to claim 8 , wherein the controller uses each of the N×M kinds of masks in order in the corresponding main scanning operation repeatedly in cycles of the main scanning operation performed N×M times. 10. The printing apparatus according to claim 3 , wherein the first ejection position and the second ejection position are spaced apart from each other by a distance smaller than the ejection cycle-corresponding spacing in the main scanning direction. 11. The printing apparatus according to claim 3 , wherein the first ejection position and the second ejection position are spaced apart from each other by a distance smaller than the nozzle spacing in the sub scanning direction. 12. The printing apparatus according to claim 3 , wherein for a plurality of pixels arranged in a row at the print resolution, when a spacing between pixels adjacent in the main scanning direction is a main-scanning-direction print pixel spacing, and a spacing between pixels adjacent in the sub scanning direction is a sub-scanning-direction print pixel spacing, the ejection cycle-corresponding spacing is N times the main-scanning-direction print pixel spacing, where N is an integer equal to or greater than one, and the nozzle spacing is M times the sub-scanning-direction prin