Method and system for fuel injection control

The invention claimed is: 1. A method for an engine, comprising: actuating a variable compression ratio mechanism of a cylinder to provide a compression ratio selected based on engine operating conditions; adjusting a split ratio of fuel direct injected into the cylinder in an intake stroke relative to a compression stroke based on the selected compression ratio; and adjusting a timing of a start of injection of an intake stroke direct fuel injection in the intake stroke based on the selected compression ratio. 2. The method of claim 1 , wherein actuating the variable compression ratio mechanism mechanically alters a piston displacement within the cylinder. 3. The method of claim 1 , wherein adjusting the split ratio of fuel direct injected into the cylinder in the intake stroke relative to the compression stroke based on the selected compression ratio includes increasing an amount of fuel injected during the intake stroke, as the intake stroke direct fuel injection, relative to an amount of fuel injected during the compression stroke as the selected compression ratio increases. 4. The method of claim 1 , wherein adjusting the split ratio of fuel direct injected into the cylinder in the intake stroke relative to the compression stroke based on the selected compression ratio includes adjusting a number of intake stroke direct fuel injections relative to compression stroke direct fuel injections. 5. The method of claim 4 , wherein adjusting the number of intake stroke direct fuel injections relative to compression stroke direct fuel injections includes increasing the number of intake stroke direct injections while decreasing the number of compression stroke direct injections as the selected compression ratio increases. 6. The method of claim 1 , further comprising adjusting a timing of a start of injection of a compression stroke direct fuel injection in the compression stroke based on the selected compression ratio. 7. The method of claim 6 , wherein adjusting the timing of a start of injection of the intake stroke direct fuel injection based on the selected compression ratio includes retarding the start of injection of the intake stroke direct fuel injection, and wherein adjusting the timing of the start of injection of the compression stroke direct fuel injection based on the selected compression ratio includes advancing the start of injection of the compression stroke direct fuel injection as the selected compression ratio increases. 8. The method of claim 1 , further comprising, responsive to an indication of knock, increasing the split ratio of fuel direct injected into the cylinder in the intake stroke relative to the compression stroke from that determined based on the selected compression ratio, advancing the timing of the start of injection of the intake stroke direct fuel injection from that determined based on the selected compression ratio, and retarding a spark timing. 9. The method of claim 1 , further comprising, responsive to an indication of pre-ignition, reducing the compression ratio to a feedback compression ratio, adjusting the split ratio of fuel direct injected into the cylinder in the intake stroke relative to the compression stroke based on the feedback compression ratio, and adjusting the timing of a start of injection of the intake stroke direct fuel injection based on the feedback compression ratio. 10. A method for an engine, comprising: as a compression ratio applied to engine cylinders increases, increasing a split ratio of fuel delivered to the cylinders via an intake stroke direct injection relative to a compression stroke direct injection, while retarding the intake stroke direct injection and advancing the compression stroke direct injection. 11. The method of claim 10 , further comprising: responsive to an indication of pre-ignition, enriching the engine for a number of engine cycles while maintaining the compression ratio, and thereafter, reducing the compression ratio until a threshold compression ratio is reached while operating the engine at stoichiometry; and responsive to an indication of knock, further increasing the split ratio of fuel delivered via the intake stroke direct injection relative to the compression stroke direct injection, further advancing the intake stroke direct injection, and retarding spark timing. 12. The method of claim 11 , wherein enriching the engine includes, for the number of engine cycles, increasing the split ratio of fuel delivered via the intake stroke direct injection relative to the compression stroke direct injection, and wherein retarding the intake stroke direct injection and advancing the compression stroke direct injection as the compression ratio applied to the engine cylinders increases includes adjusting a timing of each of the intake stroke direct injection and the compression stroke direct injection based on the compression ratio applied to the engine cylinders. 13. The method of claim 11 , wherein reducing the compression ratio includes mechanically reducing a piston displacement within corresponding cylinders by actuating a variable compression ratio mechanism, and wherein retarding the intake stroke direct injection and advancing the compression stroke direct injection is responsive to the increasing compression ratio. 14. The method of claim 13 , further comprising, responsive to no further indication of pre-ignition received after the enriching and the decreasing the compression ratio, increasing the compression ratio over a duration by increasing the piston displacement within the combustion chamber over the duration. 15. A system, comprising: an engine having a cylinder; a variable compression ratio mechanism for mechanically altering a piston position within the cylinder; a fuel injector for directly injecting fuel into the cylinder; and a controller configured with computer readable instructions stored on non-transitory memory that, when executed, cause the controller to: actuate the variable compression ratio mechanism to provide a compression ratio selected based on engine operating conditions; and based on the selected compression ratio, operate in one of a first mode by injecting, via the fuel injector, a higher split ratio of intake stroke to compression stroke direct injected fuel when the selected compression ratio is higher and a second mode by injecting, via the fuel injector, a lower split ratio of intake stroke to compression stroke direct injected fuel when the selected compression ratio is lower. 16. The system of claim 15 , further comprising a knock sensor for providing an indication of abnormal combustion and a spark plug for providing spark to the cylinder, and wherein the controller stores further instructions on non-transitory memory that, when executed, cause the controller to: measure a knock signal from an output of the knock sensor; and in response to the knock signal surpassing a knock threshold while operating in the first mode, actuate the variable compression ratio mechanism to decrease the compression ratio from the selected compression ratio, increase the higher split ratio of intake stroke to compression stroke direct injected fuel delivered via the fuel injector; and retard a timing of the spark provided by the spark plug. 17. The system of claim 15 , wherein the higher split ratio of intake stroke to compression stroke direct injected fuel includes delivering, via the fuel injector, a larger portion of fuel during an intake stroke relative to the lower split ratio of intake stroke to compression stroke direct injected fuel and a smaller portion