Liquid jetting apparatus performing control based on evaporation amount of water content in liquid

What is claimed is: 1. A liquid jetting apparatus comprising: a liquid jetting head including a nozzle; a supply channel connected to the liquid jetting head to supply liquid to the nozzle; a cap configured to cover the nozzle; a discharging section configured to cause the liquid to be discharged from the nozzle; a switching mechanism configured to perform switching of a state of the cap between a capping state in which the cap is in contact with the liquid jetting head to cover the nozzle and an uncapping state in which the cap is apart from the liquid jetting head; and a controller configured to perform: a first discharge operation in which the controller controls the discharging section to cause the liquid to be discharged from the nozzle, based on both of a supply evaporation rate and a cap evaporation rate, the supply evaporation rate relating to an evaporation rate of a water content in the liquid inside the supply channel, and the cap evaporation rate being an evaporation rate of the water content in the liquid discharged into the cap and remaining in the cap; and a second discharge operation in which the controller controls the discharging section to cause the liquid to be discharged from the nozzle, based on either one of the supply evaporation rate and the cap evaporation rate, wherein the controller is configured to select one of the first discharge operation and the second discharge operation in response to whether a certain condition is satisfied or not. 2. The liquid jetting apparatus according to claim 1 , further comprising a liquid cartridge connected to the supply channel, the liquid cartridge configured to store the liquid therein, wherein the supply evaporation rate relates to both an evaporation rate of the water content in the liquid inside the supply channel and an evaporation rate of the water content in the liquid inside the liquid cartridge. 3. A liquid jetting apparatus comprising: a liquid jetting head including a nozzle; a supply channel connected to the liquid jetting head to supply liquid to the nozzle; a cap configured to cover the nozzle; a discharging section configured to cause the liquid to be discharged from the nozzle; a switching mechanism configured to perform switching of a state of the cap between a capping state in which the cap is in contact with the liquid jetting head to cover the nozzle and an uncapping state in which the cap is apart from the liquid jetting head; and a controller configured to perform: controlling the discharging section to cause the liquid to be discharged from the nozzle, based on both of a supply evaporation rate and a cap evaporation rate, the supply evaporation rate relating to an evaporation rate of a water content in the liquid inside the supply channel, and the cap evaporation rate being an evaporation rate of the water content in the liquid discharged into the cap and remaining in the cap; and controlling the discharging section to cause the liquid to be discharged from the nozzle, based on one of the supply evaporation rate and the cap evaporation rate, wherein in a case that the controller controls the discharging section to cause the liquid to be discharged from the nozzle based on both of the supply evaporation rate and the cap evaporation rate, the controller controls the discharging section based on a change in a viscosity of the liquid inside the nozzle due to movement of the water content between the liquid inside the nozzle and the liquid inside the cap in the capping state, and in a case that the controller controls the discharging section to cause the liquid to be discharged from the nozzle based on one of the supply evaporation rate and the cap evaporation rate, the controller controls the discharging section, not based on the change in the viscosity of the liquid inside the nozzle due to the movement of the water content. 4. The liquid jetting apparatus according to claim 3 , further comprising a power source circuit configured to generate a driving voltage for driving the liquid jetting head, wherein the discharging section includes an actuator configured to impart a jetting energy to the liquid for jetting the liquid from the nozzle, and in the case that the controller controls the discharging section to cause the liquid to be discharged from the nozzle based on both of the supply evaporation rate and the cap evaporation rate, the controller controls the actuator to perform a pre-jetting flushing for jetting the liquid from the nozzle, before controlling the actuator to jet the liquid from the nozzle toward a medium. 5. The liquid jetting apparatus according to claim 4 , wherein in a case that the controller controls the liquid jetting head to perform the pre-jetting flushing based on both of the supply evaporation rate and the cap evaporation rate, the controller is configured to determine as to whether the power source circuit is caused to generate a first driving voltage or a second driving voltage being higher than the first driving voltage. 6. The liquid jetting apparatus according to claim 5 , wherein in a case that the controller controls the actuator to jet the liquid from the nozzle toward the medium based on the supply evaporation rate, the controller is configured to determine as to whether the power source circuit is caused to generate the first driving voltage or the second driving voltage. 7. The liquid jetting apparatus according to claim 3 , wherein the discharging section includes a purge mechanism configured to cause the liquid inside the liquid jetting head to be discharged in a state that the cap is in the capping state, and in the case that the controller controls the discharging section to cause the liquid to be discharged from the nozzle based on both of the supply evaporation rate and the cap evaporation rate, the controller controls the purge mechanism to perform a pre-jetting purge for causing the liquid inside the liquid jetting head to be discharged, before jetting the liquid from the nozzle toward a medium. 8. The liquid jetting apparatus according to claim 7 , wherein the liquid contains pigment particles, in the case that the controller controls the discharging section to cause the liquid to be discharged from the nozzle based on one of the supply evaporation rate and the cap evaporation rate, the controller controls the purge mechanism to perform a sedimentation purge for causing the liquid in which the pigment particles are sediment to be discharged from the nozzle, before jetting the liquid from the nozzle toward a medium, an amount of the liquid discharged in the sedimentation purge is greater than an amount of the liquid discharged in the pre-jetting purge, and in a case that the controller controls the purge mechanism to perform the sedimentation purge, the controller controls the purge mechanism based on the supply evaporation rate. 9. The liquid jetting apparatus according to claim 7 , wherein the purge mechanism includes: the cap; and a suction pump connected to the cap, the suction pump being controlled by the controller. 10. The liquid jetting apparatus according to claim 3 , wherein the discharging section includes an actuator configured to impart a jetting energy to the liquid inside the nozzle, in the case that the controller controls the discharging section to cause the liquid to be discharged from the nozzle based on one of the supply evaporation rate and the cap evaporation rate, the controller controls the actuator to perform a during-jetting flushing for jetting the liquid from the nozzle, while the controller is controlling the actuator to jet the liquid from the nozzle toward a medium, and in a case that the controller controls the actuator to p