-
- if (minGap < fromRU.numCycles)
- {
- // only need to check from cycle `minGap' onwards
- for (cycles_t gap=minGap; gap <= fromRU.numCycles-1; gap++)
- {
- // check if instr. #2 can start executing `gap' cycles after #1
- // by checking for resource conflicts in each overlapping cycle
- cycles_t numOverlap =std::min(fromRU.numCycles - gap, toRU.numCycles);
- for (cycles_t c = 0; c <= numOverlap-1; c++)
- if (RUConflict(fromRU.resourcesByCycle[gap + c],
- toRU.resourcesByCycle[c]))
- {
- // conflict found so minGap must be more than `gap'
- minGap = gap+1;
- break;
- }
- }
+
+ if (minGap < fromRU.numCycles) {
+ // only need to check from cycle `minGap' onwards
+ for (CycleCount_t gap=minGap; gap <= fromRU.numCycles-1; gap++) {
+ // check if instr. #2 can start executing `gap' cycles after #1
+ // by checking for resource conflicts in each overlapping cycle
+ CycleCount_t numOverlap =std::min(fromRU.numCycles - gap, toRU.numCycles);
+ for (CycleCount_t c = 0; c <= numOverlap-1; c++)
+ if (RUConflict(fromRU.resourcesByCycle[gap + c],
+ toRU.resourcesByCycle[c])) {
+ // conflict found so minGap must be more than `gap'
+ minGap = gap+1;
+ break;
+ }