source: libcfa/src/containers/vector2.hfa @ 0442f93f

ast-experimental
Last change on this file since 0442f93f was 5e4a830, checked in by Peter A. Buhr <pabuhr@…>, 20 months ago

add #pragma once to .h and .hfa files

  • Property mode set to 100644
File size: 10.4 KB
Line 
1//
2// Cforall Version 1.0.0 Copyright (C) 2016 University of Waterloo
3//
4// The contents of this file are covered under the licence agreement in the
5// file "LICENCE" distributed with Cforall.
6//
7// vector -- A growable array, with full-service iterators
8//
9// Author           : Michael Brooks
10// Created On       : Thu Jun 23 22:00:00 2021
11// Last Modified By : Peter A. Buhr
12// Last Modified On : Tue Mar 14 08:40:53 2023
13// Update Count     : 2
14//
15
16#pragma once
17
18#include <stdlib.hfa>
19#include "list.hfa"
20
21forall( T ) {
22    struct vector;
23   
24    struct vector_transit {
25        vector(T) * col_$;
26        ptrdiff_t idx_$;
27    };
28
29    struct vector_exit {
30        vector(T) * invec_$;
31        T * item_$;
32    };
33
34    struct vector_permit {
35        vector(T) * invec_$;
36        T * item_$;
37        inline dlink(vector_permit(T));
38    };
39    P9_EMBEDDED(vector_permit(T), dlink(vector_permit(T)))
40
41    struct vector {
42        T * buffer_first_$;
43        T * buffer_end_$;
44        T * elems_first_$;
45        T * elems_end_$; // wrapped before storing, never == buffer_end_$
46        size_t exit_refcount_$;
47        dlist(vector_permit(T)) live_iters_$;
48    };
49}
50
51static inline
52forall( T ) {
53   
54    // vector
55
56    void ?{}( vector( T ) &, size_t capacity );
57    void ^?{}( vector( T ) & );
58
59    void ?{}( vector( T ) & ) = void;
60    void ?{}( vector( T ) &, vector( T ) & ) = void;
61    vector( T ) & ?=?( vector( T ) &, vector( T ) & ) = void;
62
63    // transit
64
65    void ?{}( vector_transit(T) & ) = void;
66    void ?{}( vector_transit(T) &, vector_transit(T) & );
67    void ^?{}( vector_transit(T) & );
68
69    T ?`val( vector_transit(T) & src );
70    void ?=?( vector_transit(T) & dst, T val );
71
72    // exit
73
74    void ?{}( vector_exit(T) & ) = void;
75    void ?{}( vector_exit(T) &, vector(T) * ) = void;
76
77    void ^?{}( vector_exit(T) & );
78    void ?{}( vector_exit(T) &, vector_transit(T) & );
79    void ?{}( vector_exit(T) &, vector_exit(T) & );
80
81    T ?`val( vector_exit(T) & src );
82    void ?=?( vector_exit(T) & dst, T val );
83    T & ?=?( T & dst, vector_exit(T) & src );
84    void ?*=?( T & dst, vector_exit(T) & src );
85
86    bool ?`moveNext( vector_exit(T) & it );
87
88    // permit
89
90    void ?{}( vector_permit(T) & ) = void;
91
92    void ^?{}( vector_permit(T) & );
93    void ?{}( vector_permit(T) &, vector_transit(T) & );
94    void ?{}( vector_permit(T) &, vector_exit(T) & );
95    void ?{}( vector_permit(T) &, vector_permit(T) & ) = void;
96
97    T ?`val( vector_permit(T) & src );
98
99    // api
100
101    vector_transit(T) push_last( vector( T ) & col, T val );
102    vector_transit(T) ?[?]( vector( T ) &, ptrdiff_t );
103    vector_exit(T) ?`origin( vector( T ) & );
104    size_t ?`capacity( vector(T) & );
105    size_t ?`length( vector(T) & );
106
107    void insert_before( vector( T ) & col, ptrdiff_t idx, T val );
108
109}
110
111static inline
112forall( T ) {
113
114    // vector
115
116    void ?{}( vector( T ) & this, size_t capacity ) {
117        (this.buffer_first_$){ aalloc( capacity ) };
118        (this.buffer_end_$){ this.buffer_first_$ + capacity};
119        (this.elems_first_$){ 0p };
120        (this.elems_end_$){ this.buffer_first_$ };
121        (this.exit_refcount_$){ 0 };
122        (this.live_iters_$){};
123    }
124
125    void ^?{}( vector( T ) & this ) {
126        assert( this.exit_refcount_$ == 0 );
127        free( this.buffer_first_$ );
128        this.buffer_first_$ = 0p;
129        this.buffer_end_$ = 0p;
130        this.elems_first_$ = 0p;
131        this.elems_end_$ = 0p;
132    }
133
134    // transit
135
136    void ?{}( vector_transit(T) & this, vector_transit(T) & other ) {
137        // call autogen constructor deleted at end of hfa
138        (this){ other.col_$, other.idx_$ };
139    }
140
141    void ^?{}( vector_transit(T) & ) {}
142
143
144    vector_transit(T) ?[?]( vector( T ) & vec, ptrdiff_t idx ) {
145        // call autogen constructor deleted at end of hfa
146        vector_transit(T) ret = { & vec, idx };
147        return ret;
148    }
149
150    T & findElemMem_$( vector(T) & v, ptrdiff_t idx ) {
151        size_t len = v`length;
152        while (idx > len) idx -= len;
153        while (idx < 0  ) idx += len;
154        T * ret = v.elems_first_$ + idx;
155        if (ret < v.buffer_end_$) return *ret;
156        ret -= (v.buffer_end_$ - v.buffer_first_$);
157        assert( v.buffer_first_$ <= ret && ret < v.elems_end_$ );
158        return *ret;
159    }
160
161    T ?`val( vector_transit(T) & src ) {
162        T ret = findElemMem_$( *src.col_$, src.idx_$ );
163        return ret;
164    }
165
166    void ?=?( vector_transit(T) & src, T val ) {
167        findElemMem_$( *src.col_$, src.idx_$ ) = val;
168    }
169
170    // exit
171
172    void ?{}( vector_exit(T) & this, vector_transit(T) & src ) {
173        ( this.invec_$ ){ src.col_$ };
174        ( this.item_$ ){ & findElemMem_$( *src.col_$, src.idx_$ ) };
175
176        this.invec_$->exit_refcount_$ ++;
177    }
178    void ?{}( vector_exit(T) & this, vector_exit(T) & src ){
179        ( this.invec_$ ){ src.invec_$ };
180        ( this.item_$ ){ src.item_$ };
181
182        this.invec_$->exit_refcount_$ ++;
183    }
184
185    void ^?{}( vector_exit(T) & it ) {
186        it.invec_$->exit_refcount_$ --;
187    }
188
189    T ?`val( vector_exit(T) & src ) {
190        return *src.item_$;
191    }
192
193    void ?*=?( T & dst, vector_exit(T) & src ) {
194        dst = *src.item_$;
195    }
196
197    bool ?`moveNext( vector_exit(T) & it ) {
198        if (it.invec_$->elems_first_$ == 0p) {
199            // vector is empty
200            assert ( it.item_$ == 0p ); // it was at origin
201            return false;
202        }
203        assert( it.invec_$->elems_first_$ < it.invec_$->elems_end_$ && "can't handle wraparound yet" ); // temporary: must implement
204        if( it.item_$ == 0p ) {
205            // moving from origin
206            it.item_$ = it.invec_$->elems_first_$;
207        } else {
208            it.item_$ += 1;
209            if( it.item_$ > it.invec_$->buffer_end_$ )
210                it.item_$ = it.invec_$->buffer_first_$;
211        }
212        if ( it.item_$ >= it.invec_$->elems_end_$ ) {
213            // moving to origin
214            it.item_$ = 0p;
215            return false;
216        } else {
217            return true;
218        }
219    }
220
221    // permit
222
223    void ^?{}( vector_permit(T) & this ) {
224        remove(this);
225    }
226
227    void ?{}( vector_permit(T) & this, vector_transit(T) & src ) {
228        ( this.invec_$ ){ src.col_$ };
229        ( this.item_$ ){ & findElemMem_$( *src.col_$, src.idx_$ ) };
230        insert_first( src.col_$->live_iters_$, this );
231    }
232
233    void ?{}( vector_permit(T) & this, vector_exit(T) & src ) {
234        ( this.invec_$ ){ src.invec_$ };
235        ( this.item_$ ){ src.item_$ };
236        insert_first( src.invec_$->live_iters_$, this );
237    }
238
239    T ?`val( vector_permit(T) & src ){
240        return *src.item_$;
241    }
242
243    // vec internals
244
245    void grow( vector( T ) & this ) {
246        size_t newCapacity = 2 * (this.buffer_end_$ - this.buffer_first_$);
247        T * newItems = aalloc( newCapacity );
248        size_t elemCount = this`length;
249        for ( ptrdiff_t pos = 0; pos < elemCount; pos += 1 ) {
250            newItems[pos] = findElemMem_$(this, pos);
251        }
252
253        while ( vector_permit(T) & liveIter = this.live_iters_$`elems; liveIter`moveNext ) {
254            liveIter.item_$ += (newItems - this.buffer_first_$);
255        }
256
257        free( this.buffer_first_$ );
258        this.buffer_first_$ = newItems;
259        this.buffer_end_$ = newItems + newCapacity;
260        this.elems_first_$ = this.buffer_first_$;
261        this.elems_end_$ = this.buffer_first_$ + elemCount;
262        assert (this.elems_end_$ < this.buffer_end_$);
263    }
264
265    // vec api
266
267    vector_transit(T) push_last( vector( T ) & col, T val ) {
268        assert (col.exit_refcount_$ == 0);
269        if (col`length >= col`capacity) {
270            assert (col`length == col`capacity);
271            grow(col);
272        }
273        // call autogen constructor deleted at end of hfa
274        vector_transit(T) ret = { & col, col`length };
275        *col.elems_end_$ = val;
276        if (col.elems_first_$ == 0p) col.elems_first_$ = col.elems_end_$;
277        col.elems_end_$ += 1;
278        if (col.elems_end_$ >= col.buffer_end_$) col.elems_end_$ = col.buffer_first_$;
279        return ret;
280    }
281
282    vector_exit(T) ?`origin( vector( T ) & vec ) {
283
284        // private memberwise constructor, deleted from global namespace at end
285        // autogen constructor would not do the raii
286        void ?{}( vector_exit(T) & this, vector(T) * invec_$, T * item_$ ) {
287            ( this.invec_$ ){ invec_$ };
288            ( this.item_$ ){ item_$ };
289            this.invec_$->exit_refcount_$ ++;
290        }
291
292        vector_exit(T) ret = { &vec, 0p };
293        return ret;
294    }
295
296    bool inRange_$( T * query, T * from, T * to) {
297        if (from == to) return false;
298        if (from < to) return from <= query && query < to;
299        return query < to || from <= query;
300    }
301
302    void insert_before( vector( T ) & col, ptrdiff_t idx, T val ) {
303        assert (col.exit_refcount_$ == 0);
304        if (col`length >= col`capacity) {
305            assert (col`length == col`capacity);
306            grow(col);
307        }
308       
309        T & insertTargetR = findElemMem_$( col, idx );
310        T * insertTarget = & insertTargetR; // doesn't work in one line; must be a bug
311
312        // bubble toward back
313        if ( col.elems_end_$ < insertTarget ) {
314            // two phases of bubbling, to wrap around
315            for (T * tgt = col.elems_end_$; tgt > col.buffer_first_$; tgt--) {
316                *tgt = *(tgt-1);
317            }
318            *col.buffer_first_$ = *(col.buffer_end_$ - 1);
319            for (T * tgt = col.buffer_end_$ - 1; tgt > insertTarget; tgt--) {
320                *tgt = *(tgt-1);
321            }
322        } else {
323            for (T * tgt = col.elems_end_$; tgt > insertTarget; tgt--) {
324                *tgt = *(tgt-1);
325            }
326        }
327
328        col.elems_end_$ += 1;
329        if (col.elems_end_$ == col.buffer_end_$) col.elems_end_$ = col.buffer_first_$;
330
331        *insertTarget = val;
332
333        while ( vector_permit(T) & liveIter = col.live_iters_$`elems; liveIter`moveNext ) {
334            if ( inRange_$(liveIter.item_$, insertTarget, col.elems_end_$) ) {
335                liveIter.item_$ += 1;
336                if (liveIter.item_$ >= col.buffer_end_$) liveIter.item_$ = col.buffer_first_$;
337            }
338        }
339    }
340
341    size_t ?`capacity( vector(T) & v ) {
342        return v.buffer_end_$ - v.buffer_first_$;
343    }
344
345    size_t ?`length( vector(T) & v ) {
346        if (v.elems_first_$ == 0p) return 0;
347        if (v.elems_first_$ < v.elems_end_$ ) return v.elems_end_$ - v.elems_first_$;
348        return v.buffer_end_$ - v.elems_first_$ + v.elems_end_$ - v.buffer_first_$;
349    }
350
351
352} // forall T
353
354forall( T ) {
355    void ?{}( vector_exit(T) &, vector(T) *, T * ) = void;
356    void ?{}( vector_transit(T) & this, vector( T ) * col, ptrdiff_t idx ) = void;
357}
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