Farming support system, position information generation method, computer program, and processing device

What is claimed is: 1. A farming support system comprising: a first position detector provided in one of a work vehicle and a rake implement attachable to the work vehicle; and a processor configured or programmed to obtain, based on rake implement information about the rake implement, a first positional relationship between a reference point to be positioned by the first position detector and a swath to be formed by the rake implement, in a local coordinate system that is defined for the work vehicle and the rake implement which is attached to the work vehicle; wherein the processor is configured or programmed to generate swath position information indicating positions of a plurality of swaths in a geographic coordinate system, based on information indicating a position of the reference point in the geographic coordinate system detected by the first position detector during a work of forming the plurality of swaths, and the first positional relationship; the processor is configured or programmed to associate coordinates indicated by the generated swath position information with map information of a field to generate a map of the field that includes the positions of the formed plurality of swaths based on the generated swath position information; the processor is configured or programmed to control a display to display the map; the map displayed on the display indicates the positions of the plurality of swaths generated based on the generated swath position information; in response to one of the plurality of swaths being selected, identification information of the one of the plurality of swaths that is selected is displayed on the display in a window alongside the map; and the identification information includes one or more of a specie, a moisture content, or a growth state of grass of the one of the plurality of swaths that is selected. 2. The farming support system according to claim 1 , wherein the rake implement information includes information indicating a relationship between a reference position of the rake implement in a local coordinate system of the rake implement and the position of the swath to be formed by the rake implement; the processor is configured or programmed to obtain first information indicating a relationship between the reference position of the rake implement and the position of the reference point; and the processor is configured or programmed to determine the first positional relationship, based on the rake implement information and the first information. 3. The farming support system according to claim 1 , wherein the first position detector is provided in the work vehicle; the rake implement information includes information indicating a relationship between a reference position of the rake implement in a local coordinate system of the rake implement, and the position of the swath to be formed by the rake implement; the processor is configured or programmed to obtain second information indicating a relationship between the reference point and a reference position of the work vehicle, and third information indicating a relationship between the reference position of the work vehicle and the reference position of the rake implement; and the processor is configured or programmed to determine the first positional relationship, based on the rake implement information, the second information, and the third information. 4. The farming support system according to claim 1 , wherein the rake implement information is stored in the rake implement, and is transmitted from the rake implement to the work vehicle when the rake implement is attached to the work vehicle; and the processor is configured or programmed to obtain the rake implement information from the work vehicle. 5. The farming support system according to claim 1 , further comprising: a storage to store rake implement information about a plurality of models of the rake implements; wherein model information indicating the model of the rake implement is transmitted from the rake implement to the work vehicle when the rake implement is attached to the work vehicle; the processor is configured or programmed to obtain the model information from the work vehicle; and the processor is configured or programmed to obtain, from the storage, the rake implement information corresponding to the model indicated by the model information. 6. The farming support system according to claim 1 , wherein the rake implement information includes information indicating a relationship between the position of the swath to be formed by the rake implement and a range in which the rake implement collects grass, in a local coordinate system of the rake implement; and the processor is configured or programmed to generate first swath information indicating a relationship between the position of the formed swath and a position of grass collected to form the swath, in the geographic coordinate system, based on the swath position information and the rake implement information. 7. The farming support system according to claim 6 , further comprising: a storage to store first grass information about grass for each predetermined area of the field; wherein the processor is configured or programmed to generate second swath information in which the position of the formed swath is associated with the first grass information, based on the first swath information and the first grass information. 8. The farming support system according to claim 1 , further comprising: a second position detector provided in one of the work vehicle and a baler attachable to the work vehicle; wherein the processor is configured or programmed to obtain, based on baler information about the baler, a second positional relationship between a reference point to be positioned by the second position detector, and a position where the baler picks up the swath, in a local coordinate system that is defined for the work vehicle and the baler which is attached to the work vehicle. 9. The farming support system according to claim 8 , wherein the second position detector is provided in the work vehicle; and the first and second position detectors are the same position detector. 10. The farming support system according to claim 8 , wherein the rake implement information includes information indicating a relationship between the position of the swath to be formed by the rake implement and a range in which the rake implement collects grass to form the swath, in a local coordinate system of the rake implement; and the processor is configured or programmed to generate first swath information indicating a relationship between the position of the formed swath and a position of grass collected to form the swath, in the geographic coordinate system, based on the swath position information and the rake implement information. 11. The farming support system according to claim 10 , further comprising: a storage to store first grass information about grass for each predetermined area of the field; wherein the processor is configured or programmed to generate second swath information in which the position of the formed swath is associated with the first grass information, based on the first swath information and the first grass information. 12. The farming support system according to claim 11 , wherein the processor is configured or programmed to obtain information about start and end of formation of a bale formed by the baler, and reference point information indicating a position of the reference point in the geographic coordinate system detected by the second position detector during a work of forming the bale; the processor is configured or prog