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klao@347
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// -*- c++ -*- //
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klao@347
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klao@347
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#ifndef HUGO_ITER_MAP
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klao@347
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#define HUGO_ITER_MAP
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#include <vector>
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#include <algorithm>
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// for uint8_t
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#include <stdint.h>
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// for memset
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#include <cstring>
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klao@365
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#include <invalid.h>
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namespace hugo {
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klao@347
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klao@367
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/// \brief A map with "small integers" as value set which can enumarate it
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/// value classes
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klao@347
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klao@347
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/// \todo Decide whether we need all the range checkings!!!
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/// \todo Implement dynamic map behaviour. Is it necessary? Yes it is.
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template<typename KeyIntMap, uint8_t N, typename Val = uint8_t>
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class IterableMap {
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public:
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typedef typename KeyIntMap::KeyType KeyType;
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typedef Val ValueType;
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typedef typename std::vector<KeyType>::const_iterator iterator;
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protected:
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KeyIntMap &base;
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std::vector<KeyType> data;
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size_t bounds[N];
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Val def_val;
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Val find(size_t a) const {
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for(uint8_t n=0; n<N; ++n) {
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if(bounds[n] > a)
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return n;
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}
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return def_val;
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}
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void half_swap(size_t &a, size_t b) {
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if(a != b) {
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base.set(data[b],a);
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data[a] = data[b];
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a = b;
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}
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}
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size_t move(size_t a, uint8_t m, uint8_t n) {
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if(m != n) {
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size_t orig_a = a;
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KeyType orig_key = data[a];
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while(m > n) {
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--m;
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half_swap(a, bounds[m]++);
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}
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klao@362
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// FIXME: range check ide?
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while(m < n) {
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half_swap(a, --bounds[m]);
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++m;
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}
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if(a != orig_a) {
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base.set(orig_key, a);
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data[a]=orig_key;
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}
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}
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return a;
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}
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public:
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IterableMap(KeyIntMap &_base, Val d = N+1) : base(_base), def_val(d) {
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memset(bounds, 0, sizeof(bounds));
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// for(int i=0; i<N; ++i) { bounds[i]=0; }
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}
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Val operator[](const KeyType& k) const {
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return find(base[k]);
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}
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void set(const KeyType& k, Val n) {
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klao@362
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// FIXME: range check?
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size_t a = base[k];
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klao@362
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if(a < bounds[N-1]) {
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move(a, find(a), n);
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}
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else {
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insert(k, n);
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}
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}
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void insert(const KeyType& k, Val n) {
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data.push_back(k);
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base.set(k, move(bounds[N-1]++, N-1, n));
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}
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/// This func is not very usable, but necessary to implement
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/// dynamic map behaviour.
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void remove(const KeyType& k) {
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size_t a = base[k];
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if(a < bounds[N-1]) {
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move(a, find(a), N);
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data.pop_back();
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base.set(k, -1);
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}
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}
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iterator begin(Val n) const {
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return data.begin() + (n ? bounds[n-1] : 0);
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}
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iterator end(Val n) const {
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return data.begin() + bounds[n];
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}
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size_t size(Val n) const {
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return bounds[n] - (n ? bounds[n-1] : 0);
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}
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size_t size() const {
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// assert(bounds[N-1] == data.size());
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return bounds[N-1];
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}
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/// For use as an iterator...
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KeyType& first(KeyType &k, Val n) {
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size_t i = (n ? bounds[n-1] : 0);
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if( i < bounds[n] ) {
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k = data[i];
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}
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else {
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k = INVALID;
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}
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return k;
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}
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/// For use as an iterator...
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KeyType& next(KeyType &k) {
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size_t i = base[k];
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uint8_t n = find(i);
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++i;
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if( i < bounds[n] ) {
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k = data[i];
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}
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else {
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k = INVALID;
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}
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return k;
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}
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};
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template<typename KeyIntMap>
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class IterableBoolMap : public IterableMap<KeyIntMap, 2, bool> {
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typedef IterableMap<KeyIntMap, 2, bool> Parent;
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public:
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IterableBoolMap(KeyIntMap &_base, bool d = false) : Parent(_base, d) {}
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};
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}
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#endif
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