Image processing apparatus and method for quantizing first and second multi-valued data

What is claimed is: 1. An image processing apparatus for processing data used for printing an image on a print medium with use of multiple inks, the image processing apparatus comprising: a processor and a memory storing code of a computer program that, when executed, causes the processor to perform the following steps: acquiring first multi-valued data corresponding to a first colored ink to be precedently applied to a same area of the print medium among the multiple inks, and second multi-valued data corresponding to a second colored ink to be applied to the print medium succeedingly to the first colored ink among the multiple inks; quantizing the first multi-valued data to generate first quantized data representing printing or non-printing of a dot of the first colored ink, and quantizing the second multi-valued data to generate second quantized data representing printing or non-printing of a dot of the second colored ink, wherein, in the quantizing step, (i) quantizing of the first multi-valued data is based on a threshold value matrix configured by arraying multiple threshold values and not based on the second multi-valued data, and (ii) quantizing of the second multi-valued data is based on both of a threshold value matrix configured by arraying multiple threshold values and the first multi-valued data, and wherein, in the quantizing step, quantizing of the first multi-valued data and the second multi-valued data is performed so as to, on the same area of the print medium, make dispersibility of dots to be printed based on the first quantized data higher than dispersibility of dots to be printed based on the second quantized data; and printing the image on the print medium based on the first quantized data and the second quantized data. 2. The image processing apparatus according to claim 1 , wherein the processor further executes changing an amount of a relative difference between the threshold value and the second multi-valued data based on the first multi-valued data; and wherein, in the quantizing step, the second quantized data is generated on a basis of the amount of the relative difference, that results from the changing in the changing step, between the threshold value and the second multi-valued data. 3. The image processing apparatus according to claim 2 , wherein in the changing step, changing the amount of the relative difference between the threshold value and the second multi-valued data is performed by offsetting the second multi-valued data using the first multi-valued data. 4. The image processing apparatus according to claim 1 , wherein the threshold value matrix is formed so as to keep power in a low frequency range lower than power in a high frequency range in a dot pattern to be printed in accordance with each of the first quantized data and the second quantized data, when each of values of the first multi-valued data and the second multi-valued data indicates middle gradation. 5. The image processing apparatus according to claim 1 , wherein the threshold value matrix has a blue noise characteristics. 6. The image processing apparatus according to claim 1 , wherein the first colored ink is first applied to the same area of the print medium among the multiple inks. 7. The image processing apparatus according to claim 1 , wherein, in the quantizing step, quantizing the first multi-valued data and the second multi-valued data is performed to the first quantized data and the second quantized data having 3-levels or higher levels, respectively. 8. The image processing apparatus according to claim 1 , wherein, by alternately performing a print scan that with respect to the print medium, a print head having an ejection port array adapted to eject the first colored ink and an ejection port array adapted to eject the second colored ink scans the print medium, and a conveyance action is performed that conveys the print medium in a direction intersecting with a direction of the print scan so that the image is printed on the print medium, and the ejection port array for the first colored ink is located anterior to the ejection port array for the second colored ink in the direction of the print scan. 9. The image processing apparatus according to claim 1 , wherein, by alternately performing a print scan that with respect to the print medium, a print head having an ejection port array adapted to eject the first colored ink and an ejection port array adapted to eject the second colored ink scans the print medium, and a conveyance action is performed that conveys the print medium in a direction intersecting with a direction of the print scan so that the image is printed on the print medium, and the ejection port array for the first colored ink is located upstream of the ejection port array for the second colored ink in the direction of the conveyance. 10. The image processing apparatus according to claim 1 , wherein, with respect to a print head having an ejection port array configured by arraying ejection ports adapted to eject the first colored ink by a distance corresponding to a width of the print medium, and an ejection port array configured by arraying ejection ports adapted to eject the second colored ink by the distance corresponding to the width of the print medium, conveying the print medium is performed in a direction intersecting with a direction of the arraying so as to print the image on the print medium, and the ejection port array for the first colored ink is located upstream of the ejection port array for the second colored ink in the direction of the conveyance. 11. The image processing apparatus according to claim 1 , wherein the multiple inks are arbitrarily multiple inks selected from among a black ink, a cyan ink, a magenta ink, a yellow ink, a gray ink, a red ink, a green ink, a blue ink, and inks of which contained color material concentrations are different from those inks. 12. The image processing apparatus according to claim 1 , wherein, in the quantizing step, quantizing the first multi-valued data and the second multi-valued data is performed so as to, on the same area of the print medium, make dispersibility of dots to be printed based on the first quantized data higher than dispersibility of dots to be printed based on the second quantized data in a case where the first multi-valued data for the same area represent a middle gradation and the second multi-valued data for the same area represent a middle gradation. 13. An image processing method for processing data used for printing an image on a print medium with use of multiple inks, the image processing method being executed by one or more processors and comprising the following steps of: acquiring first multi-valued data corresponding to a first colored ink to be precedently applied to a same area of the print medium among the multiple inks, and second multi-valued data corresponding to a second colored ink to be applied to the print medium succeedingly to the first colored ink among the multiple inks; quantizing the first multi-valued data to generate first quantized data representing printing or non-printing of a dot of the first colored ink, and quantizing the second multi-valued data to generate second quantized data representing printing or non-printing of dot of the second colored ink, wherein, in the quantizing step, (i) quantizing the first multi-valued data is based on a threshold value matrix configured by arraying multiple threshold values and not based on the second multi-valued data, and (ii) quantizing the second multi-valued data is based on both of a threshold value matrix configured by arraying multiple threshold values and the first multi-valued data,