package juloo.keyboard2; import java.util.Arrays; public final class ComposeKey { /** Apply the pending compose sequence to [kv]. Returns [null] if [kv] is not part of the pending sequence. */ public static KeyValue apply(int state, KeyValue kv) { switch (kv.getKind()) { case Char: KeyValue res = apply(state, kv.getChar()); // Dim characters not part of any sequence instead of removing them. if (res == null) return kv.withFlags(kv.getFlags() | KeyValue.FLAG_SECONDARY); return res; /* These keys must not be removed. */ case Event: case Modifier: return kv; /* These keys cannot be part of sequences. */ case String: case Keyevent: case Editing: case Placeholder: return kv.withFlags(kv.getFlags() | KeyValue.FLAG_SECONDARY); case Compose_pending: return null; } return null; } /** Apply the pending compose sequence to char [c]. */ static KeyValue apply(int state, char c) { char[] states = ComposeKeyData.states; char[] edges = ComposeKeyData.edges; int length = edges[state]; int next = Arrays.binarySearch(states, state + 1, state + length, c); if (next < 0) return null; next = edges[next]; // The next state is the end of a sequence, show the result. if (edges[next] == 1) return KeyValue.makeCharKey(states[next]); return KeyValue.makeComposePending(String.valueOf(c), next, 0); } /** The [states] array represents the different states and their transition. A state occupies one or several cells of the array: - The first cell is the result of the compose sequence if the state is of size 1, unspecified otherwise. - The remaining cells are the transitions, sorted alphabetically. The [edges] array represents the transition state corresponding to each accepted inputs. Id [states[i]] is the first cell of a state, [edges[i]] is the number of cells occupied by the state [i]. If [states[i]] is a transition, [edges[i]] is the index of the state to jump into. */ }