GCC Code Coverage Report
Directory: . Exec Total Coverage
File: src/prop/minisat/mtl/Vec.h Lines: 45 47 95.7 %
Date: 2021-03-23 Branches: 222 524 42.4 %

Line Exec Source
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/*******************************************************************************************[Vec.h]
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Copyright (c) 2003-2007, Niklas Een, Niklas Sorensson
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Copyright (c) 2007-2010, Niklas Sorensson
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Permission is hereby granted, free of charge, to any person obtaining a copy of this software and
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associated documentation files (the "Software"), to deal in the Software without restriction,
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including without limitation the rights to use, copy, modify, merge, publish, distribute,
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sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is
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furnished to do so, subject to the following conditions:
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The above copyright notice and this permission notice shall be included in all copies or
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substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT
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NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
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NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
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DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT
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OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
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**************************************************************************************************/
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#ifndef Minisat_Vec_h
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#define Minisat_Vec_h
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#include <new>
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#include "base/check.h"
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#include "prop/minisat/mtl/IntTypes.h"
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#include "prop/minisat/mtl/XAlloc.h"
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namespace CVC4 {
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namespace Minisat {
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//=================================================================================================
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// Automatically resizable arrays
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//
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// NOTE! Don't use this vector on datatypes that cannot be re-located in memory (with realloc)
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template<class T>
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class vec {
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    T*  data;
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    int sz;
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    int cap;
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    // Don't allow copying (error prone):
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    vec<T>& operator=(vec<T>& other)
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    {
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      Assert(0);
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      return *this;
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    }
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    vec(vec<T>& other) { Assert(0); }
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    // Helpers for calculating next capacity:
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    static inline int  imax   (int x, int y) { int mask = (y-x) >> (sizeof(int)*8-1); return (x&mask) + (y&(~mask)); }
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    //static inline void nextCap(int& cap){ cap += ((cap >> 1) + 2) & ~1; }
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    static inline void nextCap(int& cap){ cap += ((cap >> 1) + 2) & ~1; }
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public:
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    // Constructors:
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    vec()                       : data(NULL) , sz(0)   , cap(0)    { }
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    explicit vec(int size)      : data(NULL) , sz(0)   , cap(0)    { growTo(size); }
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    vec(int size, const T& pad) : data(NULL) , sz(0)   , cap(0)    { growTo(size, pad); }
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   ~vec()                                                          { clear(true); }
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    // Pointer to first element:
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    operator T*       (void)           { return data; }
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    // Size operations:
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    int      size     (void) const     { return sz; }
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    void shrink(int nelems)
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    {
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      Assert(nelems <= sz);
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      for (int i = 0; i < nelems; i++) sz--, data[sz].~T();
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    }
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    void shrink_(int nelems)
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    {
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      Assert(nelems <= sz);
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      sz -= nelems;
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    }
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    int      capacity (void) const     { return cap; }
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    void     capacity (int min_cap);
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    void     growTo   (int size);
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    void     growTo   (int size, const T& pad);
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    void     clear    (bool dealloc = false);
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    // Stack interface:
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    void     push  (void)              { if (sz == cap) capacity(sz+1); new (&data[sz]) T(); sz++; }
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    void     push  (const T& elem)     { if (sz == cap) capacity(sz+1); data[sz++] = elem; }
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    void push_(const T& elem)
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    {
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      Assert(sz < cap);
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      data[sz++] = elem;
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    }
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    void pop(void)
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    {
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      Assert(sz > 0);
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      sz--, data[sz].~T();
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    }
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    // NOTE: it seems possible that overflow can happen in the 'sz+1' expression of 'push()', but
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    // in fact it can not since it requires that 'cap' is equal to INT_MAX. This in turn can not
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    // happen given the way capacities are calculated (below). Essentially, all capacities are
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    // even, but INT_MAX is odd.
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    const T& last  (void) const        { return data[sz-1]; }
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    T&       last  (void)              { return data[sz-1]; }
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    // Vector interface:
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    const T& operator [] (int index) const { return data[index]; }
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    T&       operator [] (int index)       { return data[index]; }
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    // Duplication (preferred instead):
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    void copyTo(vec<T>& copy) const { copy.clear(); copy.growTo(sz); for (int i = 0; i < sz; i++) copy[i] = data[i]; }
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    void moveTo(vec<T>& dest) { dest.clear(true); dest.data = data; dest.sz = sz; dest.cap = cap; data = NULL; sz = 0; cap = 0; }
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};
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template<class T>
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void vec<T>::capacity(int min_cap) {
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    if (cap >= min_cap) return;
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    int add = imax((min_cap - cap + 1) & ~1, ((cap >> 1) + 2) & ~1);   // NOTE: grow by approximately 3/2
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    if (add > INT_MAX - cap || (((data = (T*)::realloc(data, (cap += add) * sizeof(T))) == NULL) && errno == ENOMEM))
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        throw OutOfMemoryException();
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 }
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template<class T>
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void vec<T>::growTo(int size, const T& pad) {
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    if (sz >= size) return;
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    capacity(size);
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    for (int i = sz; i < size; i++) data[i] = pad;
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    sz = size; }
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template<class T>
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void vec<T>::growTo(int size) {
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    if (sz >= size) return;
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    capacity(size);
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    for (int i = sz; i < size; i++) new (&data[i]) T();
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    sz = size; }
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template<class T>
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void vec<T>::clear(bool dealloc) {
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    if (data != NULL){
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        for (int i = 0; i < sz; i++) data[i].~T();
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        sz = 0;
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        if (dealloc) free(data), data = NULL, cap = 0; } }
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//=================================================================================================
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}
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}
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#endif