import std/sequtils import ./errors import ./utils import ./utils/asynciter {.push raises: [].} type # Representing a strategy for grouping indices (of blocks usually) # Given an interation-count as input, will produce a seq of # selected indices. IndexingError* = object of CodexError IndexingWrongIndexError* = object of IndexingError IndexingWrongIterationsError* = object of IndexingError IndexingStrategy* = ref object of RootObj firstIndex*: int # Lowest index that can be returned lastIndex*: int # Highest index that can be returned numberOfIterations*: int # getIndices(iteration) will run from 0 ..< numberOfIterations step*: int # Simplest approach: # 0 => 0, 1, 2 # 1 => 3, 4, 5 # 2 => 6, 7, 8 LinearIndexingStrategy* = ref object of IndexingStrategy # Stepped indexing: # 0 => 0, 3, 6 # 1 => 1, 4, 7 # 2 => 2, 5, 8 SteppedIndexingStrategy* = ref object of IndexingStrategy proc checkIteration( self: IndexingStrategy, iteration: int): void {.raises: [IndexingError].} = if iteration >= self.numberOfIterations: raise newException( IndexingError, "Indexing iteration can't be greater than or equal to numberOfIterations.") method getIndicies*( self: IndexingStrategy, iteration: int): Iter[int] {.base, raises: [IndexingError].} = raiseAssert("Not implemented") proc getIter(first, last, step: int): Iter[int] = var finish = false cur = first proc get(): int = result = cur cur += step if cur > last: finish = true proc isFinished(): bool = finish Iter.new(get, isFinished) method getIndicies*( self: LinearIndexingStrategy, iteration: int): Iter[int] {.raises: [IndexingError].} = self.checkIteration(iteration) let first = self.firstIndex + iteration * (self.step + 1) last = min(first + self.step, self.lastIndex) getIter(first, last, 1) method getIndicies*( self: SteppedIndexingStrategy, iteration: int): Iter[int] {.raises: [IndexingError].} = self.checkIteration(iteration) let first = self.firstIndex + iteration last = self.lastIndex getIter(first, last, self.numberOfIterations) proc new*( T: type IndexingStrategy, firstIndex, lastIndex, numberOfIterations: int): T {.raises: [IndexingError].} = if firstIndex > lastIndex: raise newException( IndexingWrongIndexError, "firstIndex (" & $firstIndex & ") can't be greater than lastIndex (" & $lastIndex & ")") if numberOfIterations <= 0: raise newException( IndexingWrongIterationsError, "numberOfIteration (" & $numberOfIterations & ") must be greater than zero.") T( firstIndex: firstIndex, lastIndex: lastIndex, numberOfIterations: numberOfIterations, step: divUp((lastIndex - firstIndex), numberOfIterations) )