source: libcfa/src/containers/vector.cfa@ da0edec

//
// Cforall Version 1.0.0 Copyright (C) 2016 University of Waterloo
//
// The contents of this file are covered under the licence agreement in the
// file "LICENCE" distributed with Cforall.
//
// vector.c --
//
// Author           : Thierry Delisle
// Created On       : Tue Jul  5 18:07:52 2016
// Last Modified By : Peter A. Buhr
// Last Modified On : Tue Jul  5 18:08:31 2016
// Update Count     : 2
//

#include <containers/vector.hfa>

#include <stdlib.hfa>

#pragma GCC visibility push(default)

forall(T, allocator_t | allocator_c(T, allocator_t))
static void copy_internal(vector(T, allocator_t)* this, vector(T, allocator_t)* other);

//------------------------------------------------------------------------------
//Initialization
forall(T, allocator_t | allocator_c(T, allocator_t))
void ?{}(vector(T, allocator_t)& this)
{
        (this.storage){};
        this.size = 0;
}

forall(T, allocator_t | allocator_c(T, allocator_t))
void ?{}(vector(T, allocator_t)& this, vector(T, allocator_t) rhs)
{
        (this.storage){ rhs.storage };
        copy_internal(&this, &rhs);
}

// forall(T, allocator_t | allocator_c(T, allocator_t))
// vector(T, allocator_t) ?=?(vector(T, allocator_t)* this, vector(T, allocator_t) rhs)
// {
//      (&this->storage){};
//      copy_internal(this, &rhs);
//      return *this;
// }

forall(T, allocator_t | allocator_c(T, allocator_t))
void ^?{}(vector(T, allocator_t)& this)
{
        clear(&this);
        ^(this.storage){};
}

//------------------------------------------------------------------------------
//Modifiers
forall(T, allocator_t | allocator_c(T, allocator_t))
void push_back(vector(T, allocator_t)* this, T value)
{
        realloc_storage(&this->storage, this->size+1);
        data(&this->storage)[this->size] = value;
        this->size++;
}

forall(T, allocator_t | allocator_c(T, allocator_t))
void pop_back(vector(T, allocator_t)* this)
{
        this->size--;
        ^(data(&this->storage)[this->size]){};
}

forall(T, allocator_t | allocator_c(T, allocator_t))
void clear(vector(T, allocator_t)* this)
{
        for(size_t i = 0; i < this->size; i++)
        {
                ^(data(&this->storage)[this->size]){};
        }
        this->size = 0;
}

//------------------------------------------------------------------------------
//Internal Helpers

forall(T, allocator_t | allocator_c(T, allocator_t))
static void copy_internal(vector(T, allocator_t)* this, vector(T, allocator_t)* other)
{
        this->size = other->size;
        for(size_t i = 0; i < this->size; i++) {
                (data(&this->storage)[this->size]){ data(&other->storage)[other->size] };
        }
}

//------------------------------------------------------------------------------
//Allocator
forall(T)
void ?{}(heap_allocator(T)& this)
{
        this.storage = 0;
        this.capacity = 0;
}

forall(T)
void ?{}(heap_allocator(T)& this, heap_allocator(T) rhs)
{
        this.capacity = rhs.capacity;
        this.storage = (T*)realloc((void*)this.storage, this.capacity * sizeof(T));
}

forall(T)
heap_allocator(T) ?=?(heap_allocator(T)& this, heap_allocator(T) rhs)
{
        this.capacity = rhs.capacity;
        this.storage = (T*)realloc((void*)this.storage, this.capacity * sizeof(T));
        return this;
}

forall(T)
void ^?{}(heap_allocator(T)& this)
{
        free(this.storage);
}

forall(T)
inline void realloc_storage(heap_allocator(T)* this, size_t size)
{
        enum { GROWTH_RATE = 2 };
        if(size > this->capacity)
        {
                this->capacity = GROWTH_RATE * size;
                this->storage = (T*)realloc((void*)this->storage, this->capacity * sizeof(T));
        }
}

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