Distribution device for a hydraulic machine and a hydraulic machine fitted with such a device

We claim: 1. A distribution device for a hydraulic machine comprising a distributor having a central axis extending therethrough and presenting distribution ducts opening out into a radial distribution face, and a distributor-counterpart, wherein each of the distributor and distributor-counterpart is an element and wherein one element is engaged in the other of said elements, in such a manner that said elements present respective opposite axially-extending faces between which first and second main enclosures are provided, the device comprising first and second cylinder-capacity selection slides arranged one after the other in a bore of one of the elements constituted by the distributor and by the distributor-counterpart, which bore is connected to the main enclosures and to at least some of the distribution ducts, said slides being configured to adopt at least three distinct configurations establishing different connections between main ducts and the distribution ducts via the main enclosures, thus defining at least three distinct operating capacities associated with the at least three distinct configurations. 2. The device as claimed in claim 1 , wherein the bore is arranged axially and the slides are movable axially within the bore in order to define said distinct configurations. 3. The device as claimed in claim 2 , wherein the bore is formed in whichever of the distributor or the distributor-counterpart is engaged in the other of the distributor or the distributor-counterpart. 4. The device as claimed in claim 3 , wherein the bore is centered about the central axis. 5. The device as claimed in claim 1 , including a spring, arranged between opposite faces of the two slides for permanently biasing relative movement of the slides. 6. The device as claimed in claim 5 , wherein the spring is arranged in a zone of the bore that is connected to a leak return duct. 7. The device as claimed in claim 5 , wherein for each of the two slides, the device comprises an abutment that is suitable for co-operating with each slide in order to limit the movement of that slide toward the other slide, regardless of the position of the other slide. 8. The device as claimed in claim 5 , comprising a first control chamber for the first slide and a second control chamber for the second slide, each control chamber being suitable for being fed with fluid in order to control selectively a controlled movement of the respective slide in a direction opposite to said relative movement of that slide. 9. The device as claimed in claim 8 , wherein the control chambers are arranged at the respective ends of the slides, opposite the spring. 10. The device as claimed in claim 1 , wherein the distributor is engaged in the distributor-counterpart that forms a casing portion of the device. 11. The device as claimed in claim 10 , wherein the bore is formed in the distributor-counterpart. 12. The device as claimed in claim 1 , wherein the first and second slides are arranged in respective first and second segments of the bore, each of the first and second segments of the bore comprising a first distribution groove connected to the first main enclosure and a second distribution groove connected to the second main enclosure, each of the first and second segments of the bore comprising a connection groove suitable for being connected to one of the first and the second distribution grooves of the segment depending on the position of the slide situated in said segment; and wherein, among the distribution ducts, distinct groups of distribution ducts are connected respectively to the connection grooves and to the distribution grooves. 13. The device as claimed in claim 12 , wherein the distributor is constrained not to move in rotation relative to the distributor-counterpart, the bore is formed in the distributor, and the first distribution groove of the first segment of the bore and the first distribution groove of the second segment of the bore are connected to each other by a first hole in the distributor and the second distribution groove of the first segment of the bore and the second distribution groove of the second segment of the bore are connected to each other by a second hole in the distributor. 14. The device as claimed in claim 12 , wherein the distributor is constrained not to move in rotation relative to the distributor-counterpart, the bore is formed in the casing portion in which the distributor is engaged, and the first distribution groove of the first segment of the bore and the first distribution groove of the second segment of the bore are connected to each other by a first hole in the distributor, and the second distribution groove of the first segment of the bore and the second distribution groove of the second segment of the bore are connected to each other by a second hole in said casing portion. 15. The device claimed in claim 1 , wherein the first and second slides are arranged in respective first and second segments of the bore, each of the first and second segments of the bore comprising a first distribution groove connected to a first one of the main ducts and a second distribution groove connected to a second one of the main ducts; each of the first and second segments of the bore comprising a connection groove suitable for being connected to one of the first and second distribution grooves of the segment depending on the position of the slide situated in said segment; and wherein, among the distribution ducts, distinct groups of distribution ducts are connected respectively to the connection grooves and to the distribution grooves. 16. The device as claimed in claim 15 , wherein the distributor rotates with respect to the distributor-counterpart, the bore is formed in the distributor-counterpart, which is engaged in the distributor, and the first distribution groove of the first segment of the bore and the first distribution groove of the second segment of the bore are connected to each other by a first hole in the distributor-counterpart connected to the first main duct and the second distribution groove of the first segment of the bore and the second distribution groove of the second segment of the bore are connected to each other by a second hole in the distributor-counterpart connected to the second main duct. 17. The device as claimed in claim 15 , wherein first and second secondary enclosures, provided between a respective opposite axially-extending faces of the distributor and the distributor-counterpart, are connected respectively to the first and second connection grooves. 18. The device as claimed in claim 12 , wherein, for each of the first and second segments of the bore, the connection groove is situated between the first and second distribution grooves, and each of the first and second slides presents a communication groove in order to put the connection groove into communication with the first or the second distribution groove depending on a position of the slide. 19. The device as claimed in claim 1 , wherein the distribution ducts are distributed in first and second primary groups, first and second secondary groups, and first and second tertiary groups, and the at least three distinct operating cylinder capacities comprise: a first cylinder capacity in which the distribution ducts of the first primary, first secondary, and first tertiary groups are connected to a first one of the main ducts while the distribution ducts of the second primary, second secondary, and second tertiary groups are connected to a second one of the main ducts; a second cylinder capacity in