Ultrasound apparatus and method of measuring ultrasound image

What is claimed is: 1. A method of measuring an ultrasound image in an ultrasound apparatus, comprising: displaying an ultrasound image on a screen; receiving, by a user input interface, a first user input of selecting at least two first coordinates on the ultrasound image; determining, based on a match of the first user input to a first one of stored user inputs in a memory of the ultrasound apparatus determined by a processor of the ultrasound apparatus, a first measurement tool; activating, by the processor, the first measurement tool corresponding to the first matched user input; acquiring first measurement information on the ultrasound image by using the first measurement tool; receiving, by the user input interface, a second user input of selecting at least one second coordinate on the ultrasound image; determining, based on a match of the second user input to a second one of the stored user inputs determined by the processor, a second measurement tool; switching from the first measurement tool corresponding to the first matched user input to the second measurement tool corresponding to the second matched user input, the second measurement tool being displayed on the ultrasound image; and acquiring second measurement information on the ultrasound image by using the second measurement tool, wherein the first measurement information and the second measurement information are different kinds of information. 2. The method of claim 1 , wherein the first user input includes at least one of a click, a double click, and a click and drag. 3. The method of claim 1 , wherein the determining of the first measurement tool comprises determining the first measurement tool in consideration of a type of the ultrasound image. 4. The method of claim 3 , wherein the type of the ultrasound image includes at least one of a brightness (B) mode image, a motion (M) mode image, a spectral Doppler image, a color Doppler image, a tissue Doppler image, and an elastic Doppler image. 5. The method of claim 1 , wherein the determining of the first measurement tool comprises: comparing a type of the first user input with preset input pattern information; and determining the first measurement tool based on a result of the comparing. 6. The method of claim 5 , wherein the preset input pattern information includes at least one of input sequence information, input position information, click duration information, and drag direction information. 7. The method of claim 1 , wherein the determining of the first measurement tool comprises: displaying a plurality of lines by using the at least two first coordinates as a reference according to the first user input; and determining the first measurement tool based on a number of intersection points between the plurality of lines, positions of an intersection points, and an intersection angle. 8. The method of claim 7 , wherein the acquiring of the first measurement information on the ultrasound image comprises measuring at least one of lengths and slopes of the displayed plurality of lines. 9. The method of claim 7 , wherein the plurality of lines includes a plurality of straight lines, and the acquiring of the first measurement information on the ultrasound image comprises measuring an intersection angle between the plurality of straight lines. 10. The method of claim 1 , wherein the acquiring of the first measurement information on the ultrasound image comprises: determining a region of interest based on the at least two first coordinates; and measuring at least one of an area and circumference of the region of interest. 11. The method of claim 1 , wherein the acquiring of the first measurement information on the ultrasound image comprises, when the ultrasound image is a spectral Doppler image, acquiring velocity information on the spectral Doppler image by using the first measurement tool. 12. The method of claim 1 , wherein the acquiring of the first measurement information on the ultrasound image comprises: when the ultrasound image is a spectral Doppler image, selecting a partial time interval on the spectral Doppler image based on the at least two first coordinates; and measuring at least one of a distance which blood moves or a distance which tissue moves over the partial time interval and an envelope of a spectral waveform on the spectral Doppler image. 13. The method of claim 1 , wherein the determining of the first measurement tool comprises determining a shape of a first region of interest corresponding to the first user input and determining first information of interest, and the acquiring of the first measurement information by using the first measurement tool comprises: determining a region of interest based on the determined shape of the first region of interest; and measuring the determined first information of interest on the determined region of interest. 14. The method of claim 1 , further comprising: receiving a third user input of cancelling a previous user input of selecting a coordinate on the ultrasound image; and switching from the second measurement tool to the first measurement tool according to the third user input, the first measurement tool being displayed on the ultrasound image. 15. The method of claim 1 , further comprising: receiving a fourth user input of cancelling all previous user inputs of selecting coordinates on the ultrasound image; and cancelling the determination of the first measurement tool and determination of the second measurement tool, according to the fourth user input. 16. An ultrasound apparatus comprising: a display unit configured to display an ultrasound image on a screen; a user input interface configured to receive a first user input of selecting at least two first coordinates on the ultrasound image; and a processor configured to: determine, based on a match of the first user input to a first one of stored user inputs in a memory of the ultrasound apparatus, a first measurement tool, activate the first measurement tool corresponding to the first matched user input, acquire first measurement information on the ultrasound image by using the first measurement tool, receive a second user input of selecting at least one second coordinate on the ultrasound image via the user input interface, determine, based on a match of the second user input to a second one of the stored user inputs, a second measurement tool, switch from the first measurement tool corresponding to the first matched user input to the second measurement tool corresponding to the second matched user input, the second measurement tool being displayed on the ultrasound image, and acquire second measurement information on the ultrasound image by using the second measurement tool, wherein the first measurement information and the second measurement information are different kinds of information. 17. The ultrasound apparatus of claim 16 , wherein the first user input includes at least one of a click, a double click, and a click and drag. 18. The ultrasound apparatus of claim 16 , wherein the processor is further configured to determine the first measurement tool in consideration of a type of the ultrasound image. 19. The ultrasound apparatus of claim 18 , wherein the type of the ultrasound image includes at least one of a brightness (B) mode image, a motion (M) mode image, a spectral Doppler image, a color Doppler image, a tissue Doppler image, and an elastic Doppler image. 20. The ultrasound apparatus of claim 16 , wherein the proc