Thermal printer

What is claimed is: 1. A thermal printer, comprising: heating elements that generate heat according to amounts of energy applied thereto; an energy applier that applies energy to the heating elements; a memory that stores a gradation table where energy levels to be applied to the heating elements are set for gradation levels based on a relationship between dot area ratios of an image and the amounts of energy applied to the heating elements; and a controller that transfers control data multiple times to the energy applier based on the gradation table to control the amounts of energy to be applied by the energy applier to the heating elements, each of the control data corresponding to different amounts of energy. 2. The thermal printer as claimed in claim 1 , wherein the gradation table defines multiple energy levels for each of the gradation levels of a current print dot in a current print line in association with gradation levels of a previous print dot that is located in a previous print line in a same position as the current print dot in a main scanning direction. 3. The thermal printer as claimed in claim 1 , wherein the gradation table defines the energy levels such that a print density gradually changes in accordance with the gradation levels regardless of a printing speed. 4. The thermal printer as claimed in claim 1 , wherein when a first image with a first gradation scale and a second image with a second gradation scale different from the first gradation scale are to be printed, the controller is configured to convert energy levels of the first image in a first energy scale into energy levels in a second energy scale of the second image. 5. A thermal printer, comprising: heating elements that generate heat according to amounts of energy applied thereto; an energy applier that applies energy to the heating elements; a memory that stores a gradation table where energy values are set for gradation levels based on a relationship between dot area ratios of an image and the amounts of energy applied to the heating elements; and a controller that transfers control data corresponding to gradation levels of a print image to the energy applier based on the gradation table to control the amounts of energy to be applied by the energy applier to the heating elements, wherein when a first image with a first gradation scale and a second image with a second gradation scale different from the first gradation scale are to be printed in a same area, the controller is configured to convert gradation levels of the first image in the first gradation scale into gradation levels in the second gradation scale of the second image.