Image processing apparatus that reduces memory capacity for aggregating plurality of document images in one sheet

What is claimed is: 1. An image processing apparatus, comprising: an image reading unit that includes a plurality of imaging elements disposed in a main-scanning direction, and that by moving in a sub-scanning direction perpendicular to the main-scanning direction captures in sheet units image data from document pages, the image reading unit having an aggregating function whereby the image reading unit puts together a plurality of document pages into a single sheet; an image compressing unit that divides the image data of a single sheet unit of a document read by the image reading unit into each of band regions having a predetermined width in the sub-scanning direction, and establishes rectangular regions by further dividing the band regions by each of predetermined widths in the main-scanning direction, to generate rectangular compression data by compressing each rectangular region according to a predetermined method defining a given document-image number of image-data quality and sampling-rate schemes; a rectangular compression data storage unit for storing the rectangular compression data; a storing control unit that causes the rectangular compression data to be stored in corresponding regions of the rectangular compression data storage unit; a print-data generating unit that expands the rectangular compression data stored in the rectangular compression data storage unit to generate print data in single-page units; a white image data storage unit; and a white image data generating unit that generates white-image complementing data in units of the rectangular regions into which the image compressing unit divides the band regions, according to a white-image complementing number of image-data quality and sampling-rate schemes predetermined according to high usage frequency, the white-image complementing number therein being less than the given document-image number of image-data quality and the sampling-rate schemes, and compresses the white-image complementing data according to a predetermined compression format, and stores the compressed white-image complementing data in the white image data storage unit; wherein in the rectangular compression data storage unit, when a rectangular region in which the image data is not present occurs in single-sheet image data having the plurality of the document pages aggregated by the aggregating function of the image reading unit, the storing control unit complements the rectangular region with the compressed white-image complementing data stored in the white image data storage unit. 2. The image processing apparatus according to claim 1 , further comprising: a white image data change accepting unit that accepts changes to the image-data quality and the sampling-rate schemes for the white image data generated by the white image data generating unit; wherein when the white image data change accepting unit accepts a change to the image-data quality and the sampling-rate scheme, the white image data generating unit generates the white image data according to the image-data quality and the sampling-rate scheme accepted by the white image data change accepting unit. 3. An image processing method, comprising: moving, in a sub-scanning direction, a plurality of image-reading-unit imaging elements disposed in a main-scanning direction to capture, in sheet units, image data from document pages, the image reading unit having an aggregating function whereby the image reading unit puts together a plurality of document pages into a single sheet; dividing the image data of the single sheet unit of a document read by the image reading unit into each of band regions having a predetermined width in the sub-scanning direction, and establishing rectangular regions by further dividing the band regions by each of the predetermined widths in the main-scanning direction, to generate rectangular compression data by compressing each rectangular region according to a predetermined method defining a given document-image number of image-data quality and sampling-rate schemes; causing the rectangular compression data to be stored in corresponding regions of a rectangular compression data storage unit; expanding the rectangular compression data stored in the rectangular compression data storage unit to generate print data in single-page units; generating white-image complementing data in units of the rectangular regions into which an image compressing unit divides the band regions, according to a white-image complementing number of the image-data quality and the sampling-rate schemes predetermined according to high usage frequency, the white-image complementing number therein being less than the given document-image number of the image-data quality and the sampling-rate schemes, and compressing the white-image complementing data according to a predetermined compression format; and storing the compressed white-image complementing data; wherein in the rectangular compression data storage unit, when a rectangular region in which the image data is not present occurs in single-sheet image data having the plurality of document pages aggregated by the aggregating function of the image reading unit, the causing the rectangular compressed data to be stored complements the rectangular region with the stored compressed white-image complementing data. 4. A non-transitory computer-readable recording medium storing an image processing program for controlling an image processing apparatus, the image processing program causing the image processing apparatus to function as: an image reading unit that includes a plurality of imaging elements disposed in a main-scanning direction, and that by moving in a sub-scanning direction perpendicular to the main-scanning direction captures in sheet units image data from document pages, the image reading unit having an aggregating function whereby the image reading unit puts together a plurality of document pages into a single sheet; an image compressing unit that divides the image data of a single sheet unit of a document read by the image reading unit into each of band regions having a predetermined width in the sub-scanning direction, and establishes rectangular regions by further dividing the band regions by each of the predetermined widths in the main-scanning direction, to generate rectangular compression data by compressing the each rectangular region according to a predetermined method defining a given document-image number of image-data quality and sampling-rate schemes; a rectangular compression data storage unit for storing the rectangular compression data; a storing control unit that causes the rectangular compression data to be stored in corresponding regions of the rectangular compression data storage unit; a print-data generating unit that expands the rectangular compression data stored in the rectangular compression data storage unit to generate print data in single-page units; a white image data storage unit; and a white image data generating unit that generates white-image complementing data in units of the rectangular regions into which the image compressing unit divides the band regions, according to a white-image complementing number of image-data the quality and the sampling-rate schemes predetermined according to high usage frequency, the white-image complementing number therein being less than the given document-image number of the image-data quality and the sampling-rate schemes, and compresses the white-image complementing data according to a predetermined compression format, and stores the compressed white-image complementing data in the white image data storage unit; wherein in the rectangular compression data storage unit, when a rectangular region in which the image data is not present occurs in single-sheet image data having the plurality of document pages aggregated