Vector.c - htop - Rivoreo Source Code Repositories

 /*
 htop - Vector.c
 (C) 2004-2011 Hisham H. Muhammad
 Released under the GNU GPL, see the COPYING file
 in the source distribution for its full text.
 */

 /*{
 #include "Object.h"
 #include <stdbool.h>

 #define swap(a_,x_,y_) do { void *tmp_ = (a_)[x_]; (a_)[x_] = (a_)[y_]; (a_)[y_] = tmp_; } while(0)

 #ifndef DEFAULT_SIZE
 #define DEFAULT_SIZE -1
 #endif

 typedef struct Vector_ {
    Object **array;
    ObjectClass* type;
    int arraySize;
    int growthRate;
    int items;
    bool owner;
 } Vector;
 }*/

 #include "Vector.h"
 #include <string.h>
 #include <stdlib.h>
 #include <assert.h>

 Vector* Vector_new(ObjectClass* type, bool owner, int size) {
    Vector* this;

    if (size == DEFAULT_SIZE)
       size = 10;
    this = xMalloc(sizeof(Vector));
    this->growthRate = size;
    this->array = xCalloc(size, sizeof(Object *));
    this->arraySize = size;
    this->items = 0;
    this->type = type;
    this->owner = owner;
    return this;
 }

 void Vector_delete(Vector* this) {
    if (this->owner) {
       for (int i = 0; i < this->items; i++)
          if (this->array[i])
             Object_delete(this->array[i]);
    }
    free(this->array);
    free(this);
 }

 #ifndef NDEBUG

 static inline bool Vector_isConsistent(const Vector *this) {
    assert(this->items <= this->arraySize);
    if (this->owner) {
       for (int i = 0; i < this->items; i++) {
          if (this->array[i] && !Object_isA(this->array[i], this->type)) {
             return false;
          }
       }
    }
    return true;
 }

 int Vector_count(const Vector *this) {
    int count = 0;
    for (int i = 0; i < this->items; i++) {
       if (this->array[i]) count++;
    }
    assert(count == this->items);
    return count;
 }

 #endif

 void Vector_prune(Vector* this) {
    assert(Vector_isConsistent(this));
    if (this->owner) {
       for (int i = 0; i < this->items; i++)
          if (this->array[i]) {
             Object_delete(this->array[i]);
             //this->array[i] = NULL;
          }
    }
    this->items = 0;
 }

 static int comparisons = 0;

 static int partition(Object** array, int left, int right, int pivotIndex, Object_Compare compare) {
    void* pivotValue = array[pivotIndex];
    swap(array, pivotIndex, right);
    int storeIndex = left;
    for (int i = left; i < right; i++) {
       comparisons++;
       if (compare(array[i], pivotValue) <= 0) {
          swap(array, i, storeIndex);
          storeIndex++;
       }
    }
    swap(array, storeIndex, right);
    return storeIndex;
 }

 static void quickSort(Object** array, int left, int right, Object_Compare compare) {
    if (left >= right)
       return;
    int pivotIndex = (left+right) / 2;
    int pivotNewIndex = partition(array, left, right, pivotIndex, compare);
    quickSort(array, left, pivotNewIndex - 1, compare);
    quickSort(array, pivotNewIndex + 1, right, compare);
 }

 // If I were to use only one sorting algorithm for both cases, it would probably be this one:
 /*

 static void combSort(Object** array, int left, int right, Object_Compare compare) {
    int gap = right - left;
    bool swapped = true;
    while ((gap > 1) || swapped) {
       if (gap > 1) {
          gap = (int)((double)gap / 1.247330950103979);
       }
       swapped = false;
       for (int i = left; gap + i <= right; i++) {
          comparisons++;
          if (compare(array[i], array[i+gap]) > 0) {
             swap(array, i, i+gap);
             swapped = true;
          }
       }
    }
 }

 */

 static void insertionSort(Object** array, int left, int right, Object_Compare compare) {
    for (int i = left+1; i <= right; i++) {
       void* t = array[i];
       int j = i - 1;
       while (j >= left) {
          comparisons++;
          if (compare(array[j], t) <= 0)
             break;
          array[j+1] = array[j];
          j--;
       }
       array[j+1] = t;
    }
 }

 void Vector_quickSort(Vector* this) {
    assert(this->items >= 0);
    assert(this->type->compare || !this->items);
    assert(Vector_isConsistent(this));
    quickSort(this->array, 0, this->items - 1, this->type->compare);
    assert(Vector_isConsistent(this));
 }

 void Vector_insertionSort(Vector* this) {
    assert(this->items >= 0);
    assert(this->type->compare || !this->items);
    assert(Vector_isConsistent(this));
    insertionSort(this->array, 0, this->items - 1, this->type->compare);
    assert(Vector_isConsistent(this));
 }

 static void Vector_checkArraySize(Vector* this) {
    assert(Vector_isConsistent(this));
    if (this->items >= this->arraySize) {
       //int i;
       //i = this->arraySize;
       this->arraySize = this->items + this->growthRate;
       this->array = xRealloc(this->array, this->arraySize * sizeof(Object *));
       //for (; i < this->arraySize; i++)
       //   this->array[i] = NULL;
    }
    assert(Vector_isConsistent(this));
 }

 void Vector_insert(Vector* this, int idx, void* data_) {
    Object* data = data_;
    assert(idx >= 0);
    assert(Object_isA(data, this->type));
    assert(Vector_isConsistent(this));

    if (idx > this->items) {
       idx = this->items;
    }
    Vector_checkArraySize(this);
    //assert(this->array[this->items] == NULL);
    memmove(this->array + idx + 1, this->array + idx, (this->items - idx) * sizeof(Object *));
    this->array[idx] = data;
    this->items++;
    assert(Vector_isConsistent(this));
 }

 Object* Vector_take(Vector* this, int idx) {
    assert(idx >= 0 && idx < this->items);
    assert(Vector_isConsistent(this));
    Object* removed = this->array[idx];
    //assert (removed != NULL);
    this->items--;
    memmove(this->array + idx, this->array + idx + 1, (this->items - idx) * sizeof(Object *));
    //this->array[this->items] = NULL;
    assert(Vector_isConsistent(this));
    return removed;
 }

 Object* Vector_remove(Vector* this, int idx) {
    Object* removed = Vector_take(this, idx);
    if (this->owner) {
       Object_delete(removed);
       return NULL;
    }
    return removed;
 }

 void Vector_moveUp(Vector* this, int idx) {
    assert(idx >= 0 && idx < this->items);
    assert(Vector_isConsistent(this));
    if (idx == 0)
       return;
    Object* temp = this->array[idx];
    this->array[idx] = this->array[idx - 1];
    this->array[idx - 1] = temp;
 }

 void Vector_moveDown(Vector* this, int idx) {
    assert(idx >= 0 && idx < this->items);
    assert(Vector_isConsistent(this));
    if (idx == this->items - 1)
       return;
    Object* temp = this->array[idx];
    this->array[idx] = this->array[idx + 1];
    this->array[idx + 1] = temp;
 }

 void Vector_set(Vector* this, int idx, void* data_) {
    Object* data = data_;
    assert(idx >= 0);
    assert(Object_isA(data, this->type));
    assert(Vector_isConsistent(this));

    Vector_checkArraySize(this);
    if (idx >= this->items) {
       this->items = idx+1;
    } else {
       if (this->owner) {
          Object* removed = this->array[idx];
          assert (removed != NULL);
          if (this->owner) {
             Object_delete(removed);
          }
       }
    }
    this->array[idx] = data;
    assert(Vector_isConsistent(this));
 }

 #ifdef DEBUG

 inline Object* Vector_get(const Vector *this, int idx) {
    assert(idx < this->items);
    assert(Vector_isConsistent(this));
    return this->array[idx];
 }

 #else

 #define Vector_get(v_, idx_) ((v_)->array[idx_])

 #endif

 #ifdef DEBUG

 inline int Vector_size(const Vector *this) {
    assert(Vector_isConsistent(this));
    return this->items;
 }

 #else

 #define Vector_size(v_) ((v_)->items)

 #endif

 /*

 static void Vector_merge(Vector* this, Vector* v2) {
    assert(Vector_isConsistent(this));
    for (int i = 0; i < v2->items; i++) Vector_add(this, v2->array[i]);
    v2->items = 0;
    Vector_delete(v2);
    assert(Vector_isConsistent(this));
 }

 */

 void Vector_add(Vector* this, void* data_) {
    Object* data = data_;
    assert(Object_isA(data, this->type));
    assert(Vector_isConsistent(this));
    int i = this->items;
    Vector_set(this, this->items, data);
    assert(this->items == i+1); (void)(i);
    assert(Vector_isConsistent(this));
 }

 inline int Vector_indexOf(const Vector *this, const void *search, Object_Compare compare) {
    assert(Object_isA(search, this->type));
    assert(compare);
    assert(Vector_isConsistent(this));
    for (int i = 0; i < this->items; i++) {
       const Object *o = this->array[i];
       assert(o);
       if (compare(search, o) == 0) return i;
    }
    return -1;
 }
	/*
	htop - Vector.c
	(C) 2004-2011 Hisham H. Muhammad
	Released under the GNU GPL, see the COPYING file
	in the source distribution for its full text.
	*/

	/*{
	#include "Object.h"
	#include <stdbool.h>

	#define swap(a_,x_,y_) do { void *tmp_ = (a_)[x_]; (a_)[x_] = (a_)[y_]; (a_)[y_] = tmp_; } while(0)

	#ifndef DEFAULT_SIZE
	#define DEFAULT_SIZE -1
	#endif

	typedef struct Vector_ {
	Object **array;
	ObjectClass* type;
	int arraySize;
	int growthRate;
	int items;
	bool owner;
	} Vector;
	}*/

	#include "Vector.h"
	#include <string.h>
	#include <stdlib.h>
	#include <assert.h>

	Vector* Vector_new(ObjectClass* type, bool owner, int size) {
	Vector* this;

	if (size == DEFAULT_SIZE)
	size = 10;
	this = xMalloc(sizeof(Vector));
	this->growthRate = size;
	this->array = xCalloc(size, sizeof(Object *));
	this->arraySize = size;
	this->items = 0;
	this->type = type;
	this->owner = owner;
	return this;
	}

	void Vector_delete(Vector* this) {
	if (this->owner) {
	for (int i = 0; i < this->items; i++)
	if (this->array[i])
	Object_delete(this->array[i]);
	}
	free(this->array);
	free(this);
	}

	#ifndef NDEBUG

	static inline bool Vector_isConsistent(const Vector *this) {
	assert(this->items <= this->arraySize);
	if (this->owner) {
	for (int i = 0; i < this->items; i++) {
	if (this->array[i] && !Object_isA(this->array[i], this->type)) {
	return false;
	}
	}
	}
	return true;
	}

	int Vector_count(const Vector *this) {
	int count = 0;
	for (int i = 0; i < this->items; i++) {
	if (this->array[i]) count++;
	}
	assert(count == this->items);
	return count;
	}

	#endif

	void Vector_prune(Vector* this) {
	assert(Vector_isConsistent(this));
	if (this->owner) {
	for (int i = 0; i < this->items; i++)
	if (this->array[i]) {
	Object_delete(this->array[i]);
	//this->array[i] = NULL;
	}
	}
	this->items = 0;
	}

	static int comparisons = 0;

	static int partition(Object** array, int left, int right, int pivotIndex, Object_Compare compare) {
	void* pivotValue = array[pivotIndex];
	swap(array, pivotIndex, right);
	int storeIndex = left;
	for (int i = left; i < right; i++) {
	comparisons++;
	if (compare(array[i], pivotValue) <= 0) {
	swap(array, i, storeIndex);
	storeIndex++;
	}
	}
	swap(array, storeIndex, right);
	return storeIndex;
	}

	static void quickSort(Object** array, int left, int right, Object_Compare compare) {
	if (left >= right)
	return;
	int pivotIndex = (left+right) / 2;
	int pivotNewIndex = partition(array, left, right, pivotIndex, compare);
	quickSort(array, left, pivotNewIndex - 1, compare);
	quickSort(array, pivotNewIndex + 1, right, compare);
	}

	// If I were to use only one sorting algorithm for both cases, it would probably be this one:
	/*

	static void combSort(Object** array, int left, int right, Object_Compare compare) {
	int gap = right - left;
	bool swapped = true;
	while ((gap > 1) \|\| swapped) {
	if (gap > 1) {
	gap = (int)((double)gap / 1.247330950103979);
	}
	swapped = false;
	for (int i = left; gap + i <= right; i++) {
	comparisons++;
	if (compare(array[i], array[i+gap]) > 0) {
	swap(array, i, i+gap);
	swapped = true;
	}
	}
	}
	}

	*/

	static void insertionSort(Object** array, int left, int right, Object_Compare compare) {
	for (int i = left+1; i <= right; i++) {
	void* t = array[i];
	int j = i - 1;
	while (j >= left) {
	comparisons++;
	if (compare(array[j], t) <= 0)
	break;
	array[j+1] = array[j];
	j--;
	}
	array[j+1] = t;
	}
	}

	void Vector_quickSort(Vector* this) {
	assert(this->items >= 0);
	assert(this->type->compare \|\| !this->items);
	assert(Vector_isConsistent(this));
	quickSort(this->array, 0, this->items - 1, this->type->compare);
	assert(Vector_isConsistent(this));
	}

	void Vector_insertionSort(Vector* this) {
	assert(this->items >= 0);
	assert(this->type->compare \|\| !this->items);
	assert(Vector_isConsistent(this));
	insertionSort(this->array, 0, this->items - 1, this->type->compare);
	assert(Vector_isConsistent(this));
	}

	static void Vector_checkArraySize(Vector* this) {
	assert(Vector_isConsistent(this));
	if (this->items >= this->arraySize) {
	//int i;
	//i = this->arraySize;
	this->arraySize = this->items + this->growthRate;
	this->array = xRealloc(this->array, this->arraySize * sizeof(Object *));
	//for (; i < this->arraySize; i++)
	// this->array[i] = NULL;
	}
	assert(Vector_isConsistent(this));
	}

	void Vector_insert(Vector* this, int idx, void* data_) {
	Object* data = data_;
	assert(idx >= 0);
	assert(Object_isA(data, this->type));
	assert(Vector_isConsistent(this));

	if (idx > this->items) {
	idx = this->items;
	}
	Vector_checkArraySize(this);
	//assert(this->array[this->items] == NULL);
	memmove(this->array + idx + 1, this->array + idx, (this->items - idx) * sizeof(Object *));
	this->array[idx] = data;
	this->items++;
	assert(Vector_isConsistent(this));
	}

	Object* Vector_take(Vector* this, int idx) {
	assert(idx >= 0 && idx < this->items);
	assert(Vector_isConsistent(this));
	Object* removed = this->array[idx];
	//assert (removed != NULL);
	this->items--;
	memmove(this->array + idx, this->array + idx + 1, (this->items - idx) * sizeof(Object *));
	//this->array[this->items] = NULL;
	assert(Vector_isConsistent(this));
	return removed;
	}

	Object* Vector_remove(Vector* this, int idx) {
	Object* removed = Vector_take(this, idx);
	if (this->owner) {
	Object_delete(removed);
	return NULL;
	}
	return removed;
	}

	void Vector_moveUp(Vector* this, int idx) {
	assert(idx >= 0 && idx < this->items);
	assert(Vector_isConsistent(this));
	if (idx == 0)
	return;
	Object* temp = this->array[idx];
	this->array[idx] = this->array[idx - 1];
	this->array[idx - 1] = temp;
	}

	void Vector_moveDown(Vector* this, int idx) {
	assert(idx >= 0 && idx < this->items);
	assert(Vector_isConsistent(this));
	if (idx == this->items - 1)
	return;
	Object* temp = this->array[idx];
	this->array[idx] = this->array[idx + 1];
	this->array[idx + 1] = temp;
	}

	void Vector_set(Vector* this, int idx, void* data_) {
	Object* data = data_;
	assert(idx >= 0);
	assert(Object_isA(data, this->type));
	assert(Vector_isConsistent(this));

	Vector_checkArraySize(this);
	if (idx >= this->items) {
	this->items = idx+1;
	} else {
	if (this->owner) {
	Object* removed = this->array[idx];
	assert (removed != NULL);
	if (this->owner) {
	Object_delete(removed);
	}
	}
	}
	this->array[idx] = data;
	assert(Vector_isConsistent(this));
	}

	#ifdef DEBUG

	inline Object* Vector_get(const Vector *this, int idx) {
	assert(idx < this->items);
	assert(Vector_isConsistent(this));
	return this->array[idx];
	}

	#else

	#define Vector_get(v_, idx_) ((v_)->array[idx_])

	#endif

	#ifdef DEBUG

	inline int Vector_size(const Vector *this) {
	assert(Vector_isConsistent(this));
	return this->items;
	}

	#else

	#define Vector_size(v_) ((v_)->items)

	#endif

	/*

	static void Vector_merge(Vector* this, Vector* v2) {
	assert(Vector_isConsistent(this));
	for (int i = 0; i < v2->items; i++) Vector_add(this, v2->array[i]);
	v2->items = 0;
	Vector_delete(v2);
	assert(Vector_isConsistent(this));
	}

	*/

	void Vector_add(Vector* this, void* data_) {
	Object* data = data_;
	assert(Object_isA(data, this->type));
	assert(Vector_isConsistent(this));
	int i = this->items;
	Vector_set(this, this->items, data);
	assert(this->items == i+1); (void)(i);
	assert(Vector_isConsistent(this));
	}

	inline int Vector_indexOf(const Vector this, const void search, Object_Compare compare) {
	assert(Object_isA(search, this->type));
	assert(compare);
	assert(Vector_isConsistent(this));
	for (int i = 0; i < this->items; i++) {
	const Object *o = this->array[i];
	assert(o);
	if (compare(search, o) == 0) return i;
	}
	return -1;
	}