Excavator that controls toe angle of bucket

What is claimed is: 1. An excavator comprising: a lower traveling body; an upper turning body mounted on the lower traveling body; an attachment attached to the upper turning body; an attitude sensor configured to detect an attitude of the attachment including a bucket; and a hardware processor configured to change a toe angle of the bucket with respect to a present shape of an excavation ground as a shape of the excavation ground changes during the bucket excavating the excavation ground, based on the attitude of the attachment detected by the attitude sensor and information relating to the present shape of the excavation ground, the toe angle being an angle of a toe of the bucket to the excavation ground, the present shape of the excavation ground being an actual shape of the excavation ground presently below the attachment. 2. The excavator according to claim 1 , wherein the hardware processor is configured to control the toe angle to be approximately 90 degrees with respect to the present shape of the excavation ground, when the toe of the bucket contacts the excavation ground. 3. The excavator according to claim 1 , wherein the hardware processor is configured to control the toe angle to be an angle within a predetermined angle range, when drawing the bucket, which is inserted in the excavation ground, toward a body of the excavator. 4. The excavator according to claim 1 , wherein the hardware processor is configured to increase the toe angle from a present toe angle upon determining that an excavation reaction force is greater than a predetermined value, when drawing the bucket, which is inserted in the excavation ground, toward a body of the excavator. 5. The excavator according to claim 1 , wherein the hardware processor is configured to decrease the toe angle from a present toe angle upon determining that an excavation reaction force is greater than a predetermined value, when raising the bucket that is inserted in the excavation ground. 6. The excavator according to claim 1 , wherein the hardware processor is configured to determine a present stage of excavation from among a plurality of stages of the excavation, based on an operation content of an operation device relating to the attachment during the excavation. 7. The excavator according to claim 6 , wherein the hardware processor is configured to calculate the toe angle based on the attitude of the attachment detected by the attitude sensor and the information relating to the present shape of the excavation ground, and control the calculated toe angle according to the determined present excavation stage. 8. The excavator according to claim 1 , wherein the present shape of the excavation ground is acquired based on a past transition of the attitude of the attachment detected by the attitude sensor or an image of surroundings of the excavator captured by an imaging device. 9. The excavator as claimed in claim 1 , wherein the hardware processor is configured to change the toe angle of the bucket to gradually close the bucket as the shape of the excavation ground changes during the bucket excavating the excavation ground. 10. An excavator comprising: a lower traveling body; an upper turning body mounted on the lower traveling body; an attachment attached to the upper turning body; an attitude sensor configured to detect an attitude of the attachment including a bucket; and a hardware processor configured to change a toe angle of the bucket with respect to a present shape of an excavation ground while a toe of the bucket is inserted into the excavation ground, based on the attitude of the attachment detected by the attitude sensor and information relating to the present shape of the excavation ground, the toe angle being an angle of the toe of the bucket to the excavation ground, the present shape of the excavation ground being an actual shape of the excavation ground presently below the attachment. 11. An excavator comprising: a lower traveling body; an upper turning body mounted on the lower traveling body; an attachment attached to the upper turning body; an attitude sensor configured to detect an attitude of the attachment including a bucket; and a hardware processor configured to change a toe angle of the bucket according to a shape of an excavation ground while the bucket is moved through the excavation ground, based on the attitude of the attachment detected by the attitude sensor and information relating to a present shape of the excavation ground, the toe angle being an angle of a toe of the bucket to the excavation ground, the present shape of the excavation ground being an actual shape of the excavation ground presently below the attachment.