web/docs/pheap_8h_source.html

/*

 * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.

 *

 * SPDX-License-Identifier: BSD-3-Clause

 */


#ifndef _PICO_UTIL_PHEAP_H

#define _PICO_UTIL_PHEAP_H


#include "pico.h"


#ifdef __cplusplus

extern "C" {

#endif


// PICO_CONFIG: PARAM_ASSERTIONS_ENABLED_PHEAP, Enable/disable assertions in the pheap module, type=bool, default=0, group=pico_util

#ifndef PARAM_ASSERTIONS_ENABLED_PHEAP

#define PARAM_ASSERTIONS_ENABLED_PHEAP 0

#endif


// PICO_CONFIG: PICO_PHEAP_MAX_ENTRIES, Maximum number of entries in the pheap, min=1, max=65534, default=255, group=pico_util

#ifndef PICO_PHEAP_MAX_ENTRIES

#define PICO_PHEAP_MAX_ENTRIES 255

#endif


// public heap_node ids are numbered from 1 (0 means none)

#if PICO_PHEAP_MAX_ENTRIES < 256

typedef uint8_t pheap_node_id_t;

#elif PICO_PHEAP_MAX_ENTRIES < 65535

typedef uint16_t pheap_node_id_t;

#else

#error invalid PICO_PHEAP_MAX_ENTRIES

#endif


typedef struct pheap_node {

    pheap_node_id_t child, sibling, parent;

} pheap_node_t;


typedef bool (*pheap_comparator)(void *user_data, pheap_node_id_t a, pheap_node_id_t b);


typedef struct pheap {

    pheap_node_t *nodes;

    pheap_comparator comparator;

    void *user_data;

    pheap_node_id_t max_nodes;

    pheap_node_id_t root_id;

    // we remove from head and add to tail to stop reusing the same ids

    pheap_node_id_t free_head_id;

    pheap_node_id_t free_tail_id;

} pheap_t;


pheap_t *ph_create(uint max_nodes, pheap_comparator comparator, void *user_data);


void ph_clear(pheap_t *heap);


void ph_destroy(pheap_t *heap);


// internal method

static inline pheap_node_t *ph_get_node(pheap_t *heap, pheap_node_id_t id) {

    assert(id && id <= heap->max_nodes);

    return heap->nodes + id - 1;

}


// internal method

static void ph_add_child_node(pheap_t *heap, pheap_node_id_t parent_id, pheap_node_id_t child_id) {

    pheap_node_t *n = ph_get_node(heap, parent_id);

    assert(parent_id);

    assert(child_id);

    assert(parent_id != child_id);

    pheap_node_t *c = ph_get_node(heap, child_id);

    c->parent = parent_id;

    if (!n->child) {

        n->child = child_id;

    } else {

        c->sibling = n->child;

        n->child = child_id;

    }

}


// internal method

static pheap_node_id_t ph_merge_nodes(pheap_t *heap, pheap_node_id_t a, pheap_node_id_t b) {

    if (!a) return b;

    if (!b) return a;

    if (heap->comparator(heap->user_data, a, b)) {

        ph_add_child_node(heap, a, b);

        return a;

    } else {

        ph_add_child_node(heap, b, a);

        return b;

    }

}


static inline pheap_node_id_t ph_new_node(pheap_t *heap) {

    if (!heap->free_head_id) return 0;

    pheap_node_id_t id = heap->free_head_id;

    pheap_node_t *hn = ph_get_node(heap, id);

    heap->free_head_id = hn->sibling;

    if (!heap->free_head_id) heap->free_tail_id = 0;

    hn->child = hn->sibling = hn->parent = 0;

    return id;

}


static inline pheap_node_id_t ph_insert_node(pheap_t *heap, pheap_node_id_t id) {

    assert(id);

    pheap_node_t *hn = ph_get_node(heap, id);

    hn->child = hn->sibling = hn->parent = 0;

    heap->root_id = ph_merge_nodes(heap, heap->root_id, id);

    return heap->root_id;

}


static inline pheap_node_id_t ph_peek_head(pheap_t *heap) {

    return heap->root_id;

}


pheap_node_id_t ph_remove_head(pheap_t *heap, bool free);


static inline pheap_node_id_t ph_remove_and_free_head(pheap_t *heap) {

    return ph_remove_head(heap, true);

}


bool ph_remove_and_free_node(pheap_t *heap, pheap_node_id_t id);


static inline bool ph_contains_node(pheap_t *heap, pheap_node_id_t id) {

    return id == heap->root_id || ph_get_node(heap, id)->parent;

}


static inline void ph_free_node(pheap_t *heap, pheap_node_id_t id) {

    assert(id && !ph_contains_node(heap, id));

    if (heap->free_tail_id) {

        ph_get_node(heap, heap->free_tail_id)->sibling = id;

    }

    if (!heap->free_head_id) {

        assert(!heap->free_tail_id);

        heap->free_head_id = id;

    }

    heap->free_tail_id = id;

}


void ph_dump(pheap_t *heap, void (*dump_key)(pheap_node_id_t id, void *user_data), void *user_data);


void ph_post_alloc_init(pheap_t *heap, uint max_nodes, pheap_comparator comparator, void *user_data);


#define PHEAP_DEFINE_STATIC(name, _max_nodes) \

    static_assert(_max_nodes && _max_nodes < (1u << (8 * sizeof(pheap_node_id_t))), ""); \

    static pheap_node_t name ## _nodes[_max_nodes]; \

    static pheap_t name = { \

            .nodes = name ## _nodes, \

            .max_nodes = _max_nodes \

    };


#ifdef __cplusplus

}

#endif


#endif

pheap_comparator
bool(* pheap_comparator)(void *user_data, pheap_node_id_t a, pheap_node_id_t b)
A user comparator function for nodes in a pairing heap.
Definition: pheap.h:60

ph_destroy
void ph_destroy(pheap_t *heap)
De-allocates a pairing heap.
Definition: pheap.c:37

ph_free_node
static void ph_free_node(pheap_t *heap, pheap_node_id_t id)
Free a node that is not currently in the heap, but has been allocated.
Definition: pheap.h:245

ph_clear
void ph_clear(pheap_t *heap)
Removes all nodes from the pairing heap.
Definition: pheap.c:27

ph_post_alloc_init
void ph_post_alloc_init(pheap_t *heap, uint max_nodes, pheap_comparator comparator, void *user_data)
Initialize a statically allocated heap (ph_create() using the C heap). The heap member nodes must be ...
Definition: pheap.c:19

ph_contains_node
static bool ph_contains_node(pheap_t *heap, pheap_node_id_t id)
Determine if the heap contains a given node. Note containment refers to whether the node is inserted ...
Definition: pheap.h:234

ph_remove_and_free_node
bool ph_remove_and_free_node(pheap_t *heap, pheap_node_id_t id)
Remove and free an arbitrary node from the pairing heap. This is a more costly operation than removin...
Definition: pheap.c:82

ph_remove_head
pheap_node_id_t ph_remove_head(pheap_t *heap, bool free)
Remove the head node from the pairing heap. This head node is the node which compares first in the lo...
Definition: pheap.c:76

ph_peek_head
static pheap_node_id_t ph_peek_head(pheap_t *heap)
Returns the head node in the heap, i.e. the node which compares first, but without removing it from t...
Definition: pheap.h:179

ph_dump
void ph_dump(pheap_t *heap, void(*dump_key)(pheap_node_id_t id, void *user_data), void *user_data)
Print a representation of the heap for debugging.

ph_insert_node
static pheap_node_id_t ph_insert_node(pheap_t *heap, pheap_node_id_t id)
Inserts a node into the heap.
Definition: pheap.h:164

ph_create
pheap_t * ph_create(uint max_nodes, pheap_comparator comparator, void *user_data)
Create a pairing heap, which effectively maintains an efficient sorted ordering of nodes....
Definition: pheap.c:11

ph_remove_and_free_head
static pheap_node_id_t ph_remove_and_free_head(pheap_t *heap)
Remove the head node from the pairing heap. This head node is the node which compares first in the lo...
Definition: pheap.h:212

ph_new_node
static pheap_node_id_t ph_new_node(pheap_t *heap)
Allocate a new node from the unused space in the heap.
Definition: pheap.h:143

pico.h

pheap_node
Definition: pheap.h:51

pheap
Definition: pheap.h:62