Image reading apparatus and image forming apparatus

What is claimed is: 1. An image reading apparatus comprising: a light source; an image sensor configured to output an image signal of an object illuminated by the light source; a first calculating unit configured to calculate a third light amount based on a difference between a first image signal output from the image sensor when the light source illuminates a reference member as the object at a first light quantity and a second image signal output from the image sensor when the light source illuminates the reference member at a second light quantity and a difference between the first light quantity and the second light quantity; and a light quantity setting unit configured to set a light quantity at which the light source illuminates a document as the object to the third light quantity, wherein the first calculating unit calculates the third light quantity based on a difference between a peak value of the first image signal and a peak value of the second image signal and the difference between the first light quantity and the second light quantity, and wherein the first calculating unit divides the difference between the peak value of the first image signal and the peak value of the second image signal by the difference between the first light quantity and the second light quantity to obtain a variation in an image signal per unit of light quantity variation, divides a difference between the peak value of the first image signal or the peak value of the second image signal and a predetermined target value by the variation in the image signal per unit of light quantity variation to obtain a necessary light quantity variation such that the peak value of the first image signal or the peak value of the second image signal becomes the target value, and adds the light quantity variation thus obtained to the first light quantity or the second light quantity to calculate the third light quantity. 2. The image reading apparatus according to claim 1 , wherein the image sensor outputs the first image signal and the second image signal for each color component of RGB, and the first calculating unit calculates the third light quantity corresponding to one of the color components of RGB that has the smallest difference between the peak value of the first image signal or the peak value of the second image signal and the target value. 3. The image reading apparatus according to claim 1 , further comprising a second calculating unit configured to calculate a fourth light quantity based on a difference between the second image signal and a third image signal output from the image sensor when the light source illuminates the reference member at a third light quantity and a difference between the second light quantity and the third light quantity if the third image signal exceeds a target value, wherein the light quantity setting unit changes setting of the light quantity at which the light source illuminates the document as the object into the fourth light quantity. 4. The image reading apparatus according to claim 1 , wherein the image sensor includes a plurality of sensor chips, and the image signal is generated by synthesizing outputs of the sensor chips. 5. The image reading apparatus according to claim 1 , wherein the image sensor is a line sensor that includes a plurality of pixels arranged in a main scanning direction and outputs image signals indicating pixel values of the pixels every line cycle, and each of the peak value of the first image signal and the peak value of the second image signal is the greatest one of average values of pixel values output from the image sensor in a plurality of line cycles. 6. The image reading apparatus according to claim 5 , wherein the image sensor outputs the first image signal and the second image signal for each color component of RGB, and the first calculating unit calculates the third light quantity corresponding to one of the color components of RGB that has the smallest difference between the peak value of the first image signal or the peak value of the second image signal and the target value. 7. An image forming apparatus comprising: the image reading apparatus according to claim 1 ; and an image forming unit configured to form an image based on the image signal of the document output from the image sensor of the image reading apparatus. 8. The image forming apparatus according to claim 7 , wherein the first calculating unit calculates the third light quantity every time a power supply of the image reading apparatus is switched from off to on. 9. The image forming apparatus according to claim 7 , wherein the image forming apparatus has an energy saving mode for stopping power supply to the image reading apparatus, and the first calculating unit calculates the third light quantity when the operation mode of the image forming apparatus is transferred to the energy saving mode, and does not calculate the third light quantity when the operation mode of the image forming apparatus is returned from the energy saving mode.