System for variable actuation of a valve of an internal-combustion engine

What is claimed is: 1. A system for variable actuation of an engine intake valve of an internal-combustion engine, comprising: a hydraulic apparatus including: a master piston, a slave piston configured to be driven by said master piston by a volume of fluid set between said master piston and said slave piston, and a solenoid valve configured for being controlled to be in a state in which said volume of fluid is set in communication with an outlet so as to render said slave piston independent from movement of said master piston; wherein said system further comprises: a single camshaft designed to drive said master piston in motion; said camshaft has a cam provided with a composite profile that is defined by a first lobe portion of the cam for governing, through the master piston, the engine valve at least in a four-stroke engine operating mode, and that is defined by a second lobe portion of the cam for governing the engine valve at least in a two-stroke engine operating mode; a control unit configured for controlling said solenoid valve so as to govern said engine valve, within the four-stroke engine operating mode, according to a lift and/or opening and closing times that are variable as a function of one or more parameters indicative of operating conditions of the engine; said control unit is configured for selecting either the two-stroke engine operating mode or the four-stroke engine operating mode as a function of an operating condition of engine load, and, on the basis of the two-stroke or four-stroke engine operating mode selected, for controlling said solenoid valve so as to render said slave piston independent from said master piston along said second lobe portion of said composite cam profile and/or along said first lobe portion of said composite cam profile of said cam; said control unit configured to select the two-stroke engine operating mode based on the engine load being determined to be greater than a predetermined engine load threshold, and said control unit configured to select the four-stroke engine operating mode based on the engine load being determined to be lower than the predetermined engine load threshold; and a phase-variator device designed to regulate an angular position of said camshaft relative to a crankshaft of the engine so as to be able to vary an instant of opening of said engine intake valve. 2. The system according to claim 1 , wherein said control unit is configured for governing said phase-variator device on the basis of the two-stroke or four-stroke engine operating mode selected. 3. The system according to claim 2 , wherein said control unit is configured for delaying the instant of opening of said engine valve in said two-stroke engine operating mode. 4. The system according to claim 1 , wherein said control unit is configured for comparing a reference value stored therein with a measured parameter indicative of the engine load. 5. The system according to claim 1 , wherein said first and second lobe portions of said composite profile are pre-arranged for governing said engine intake valve in said two-stroke engine operating mode, said control unit being configured for controlling said solenoid valve so as to render said slave piston independent from said master piston along said first and second lobe portions so as to govern said engine intake valve according to a lift profile that is different from said first and second lobe portions. 6. The system according to claim 1 , wherein, in said four-stroke engine operating mode, said control unit is configured for controlling said solenoid valve so as to render said slave piston independent from said master piston along said first lobe portion or said second lobe portion of said composite profile so as to annul the lift of said engine intake valve, which would otherwise be induced by said first lobe portion or said second lobe portion. 7. A method for controlling a system for variable actuation of an intake engine valve of an internal-combustion engine, wherein said system comprises: a hydraulic apparatus including: a master piston actuated by a camshaft; said camshaft has a cam provided with a composite profile that is defined by a first lobe portion of the cam for governing, through the master piston, the engine intake valve at least in a four-stroke engine operating mode, and that is defined by a second lobe portion of the cam for governing the engine intake valve at least in a two-stroke engine operating mode; a slave piston configured to be driven by said master piston by a volume of fluid set between said master piston and said slave piston; and a solenoid valve configured for being controlled to be in a state where said volume of fluid is set in communication with an outlet so as to render said slave piston independent from movement of said master piston; and a control unit configured for controlling said solenoid valve so as to govern said engine intake valve according to a lift and/or opening and closing times that are variable as a function of one or more parameters indicative of operating conditions of the engine; said method further comprising: selecting one between the two-stroke engine operating mode and the four-stroke engine operating mode on the basis of the operating condition of engine load, wherein the engine load is compared to an engine load threshold and, i) when the engine load is greater than the engine load threshold, selecting the two-stroke engine operating mode, and ii) when the engine load is less than the engine load threshold, selecting the four-stroke engine operating mode; controlling said solenoid valve on the basis of the selected two-stroke or four-stroke engine operating mode so as to govern said engine intake valve in said selected two-stroke or four-stroke engine operating mode; for at least one of the two-stroke and four-stroke engine operating modes, controlling said solenoid valve so as to govern said engine intake valve according to a lift and/or opening and closing times that are variable as a function of one or more parameters indicative of the operating conditions of the engine; wherein said system comprises a phase-variator device designed to regulate an angular position of said camshaft relative to a crankshaft of the engine, and wherein, on the basis of the selected two-stroke or four-stroke engine operating mode, said method includes controlling said phase-variator device so as to be able to vary an instant of opening of said engine intake valve. 8. The method according to claim 7 , wherein, on the basis of the selected two-stroke or four-stroke engine operating mode, said method includes controlling said solenoid valve so as to render said slave piston independent from said master piston along said second lobe portion and/or along said first lobe portion. 9. The method according to claim 8 , wherein, in said system for variable actuation of an engine intake valve of an internal-combustion engine, said first and second lobe portions of said composite cam profile are pre-arranged for governing said engine intake valve in said two-stroke engine operating mode, and wherein, in the two-stroke engine operating mode, said method includes controlling said solenoid valve so as to render said slave piston independent from said master piston along said first and second lobe portions of said composite profile so as to govern said engine intake valve according to a lift profile that is different from said first and second lobe portions. 10. The method according to claim 7 , wherein, in said four-stroke engine operating mode, said method includes controlling said solenoid valve so as to render said slave piston independent from said master piston along said first lobe portio