Image reader unit and image forming apparatus including same

What is claimed is: 1. An image reader unit comprising: a platen on which a document is placed; a light source including a plurality of split light sources aligned in a main scanning direction along a surface of the platen, the plurality of split light sources configured to emit light beams toward a surface of the document on the platen; a movable exposure unit configured to move in a sub-scanning direction perpendicular to the main scanning direction while obtaining reflected light reflected from the surface of the document; an image sensor configured to scan the document by receiving the reflected light; and a reader processor configured to identify a length of the document in the main scanning direction based on a received light quantity from the image sensor obtained by activating fewer than all of the plurality of split light sources, and to, perform a lighting and light-receiving process to light simultaneously only split light sources used for identifying the length of the document in the main scanning direction among all of the plurality of split light sources while moving the movable exposure unit in the sub-scanning direction and obtain a received light quantity from the image sensor as to each of the split light sources lit; and identify the length of the document based on the received light quantity. 2. The image reader unit as claimed in claim 1 , wherein the reader processor is further configured to: perform the simultaneous lighting of the split light sources and obtaining of the reflected light only once. 3. The image reader unit as claimed in claim 2 , wherein each of the split light sources simultaneously lit corresponds to an end position of one of documents of different regular sizes. 4. The image reader unit as claimed in claim 1 , wherein the reader processor is further configured to: obtain the received light quantity as to each of the split light sources. 5. The image reader unit as claimed in claim 4 , further comprising: a document pressing unit to press the document toward a surface of the platen, movable about a rotary shaft and moving between a closed position in which the platen is covered and an open position in which the platen is exposed; and a sensor to detect opening and closing of the document pressing unit, wherein the reader processor is configured to start identifying of the length of the document upon receipt of a detection result of the sensor detecting a closing operation of the document pressing unit. 6. The image reader unit as claimed in claim 5 , wherein, in the lighting and light-receiving process, the reader processor is further configured to: light, from a split light source nearer to the rotary shaft, the split light sources necessary for identifying the length of the document in the main scanning direction. 7. An image forming apparatus comprising: an image reader unit as claimed in claim 1 to scan an image of a document; and an image forming unit to form an image on a recording member based on read-out results of the image obtained by the image reader unit. 8. An image reader unit comprising: a platen on which a document is placed and including a document reference line at an edge of the platen; a plurality of split light sources aligned in a main scanning direction along a surface of the platen, the plurality of split light sources configured to emit light beams toward the platen; a movable exposure unit configured to move in a sub-scanning direction perpendicular to the main scanning direction while obtaining a reflected light reflected from the surface of the document; an image sensor configured to receive the reflected light; and a reader processor configured to identify a length of the document in the main scanning direction based on a received light quantity from the image sensor obtained by activating fewer than all of the split light sources, the activated light sources being a plurality of blocks that are each a distance greater than zero millimeters from the document reference line, and perform a lighting and light-receiving process to simultaneously light only split light sources used for identifying the length of the document in the main scanning direction among all of the plurality of split light sources and obtain a received light quantity of the image sensor as to each of the split light sources lit; and identify the length of the document based on the received light quantity. 9. The image reader unit as claimed in claim 8 , wherein each of the split light sources simultaneously lit corresponds to an end position of one of documents of different regular sizes. 10. The image reader unit as claimed in claim 8 , wherein the reader processor is further configured to: obtain the received light quantity as to each of the split light sources. 11. The image reader unit as claimed in claim 10 , further comprising: a document pressing unit to press the document toward a surface of the platen, movable about a rotary shaft and moving between a closed position in which the platen is covered and an open position in which the platen is exposed; and a sensor to detect opening and closing of the document pressing unit, wherein the reader processor is configured to start identifying of the length of the document upon receipt of a detection result of the sensor detecting a closing operation of the document pressing unit. 12. The image reader unit as claimed in claim 11 , wherein, in the lighting and light-receiving process, the reader processor is further configured to light, from a split light source nearer to the rotary shaft, the split light sources necessary for identifying the length of the document in the main scanning direction. 13. An image forming apparatus comprising: an image reader unit as claimed in claim 8 to scan an image of a document; and an image forming unit to form an image on a recording member based on read-out results of the image obtained by the image reader unit. 14. An image forming apparatus as recited in claim 8 , wherein the split light sources used for identifying the length of the document are the activated light sources. 15. An image forming apparatus as recited in claim 14 , wherein the activated light sources are adjacent blocks of light sources. 16. An image forming apparatus as recited in claim 8 , wherein the plurality of split light sources aligned in a main scanning direction are arranged as an array of light sources, the array having a first end and a second end. 17. An image forming apparatus as recited in claim 16 , wherein the activated light sources are bound by blocks of light sources on the first end and the second end. 18. The image reader unit as claimed in claim 8 , wherein the reader processor is further configured to: perform the simultaneous lighting of the split light sources and obtaining of the reflected light only once.