ivy/mie/select/node.c

#include "builder.h"

#include <mie/select/graph.h>
#include <mie/select/node.h>
#include <mie/select/opcode.h>
#include <stddef.h>
#include <stdlib.h>
#include <string.h>

static const struct select_node_type *node_types[] = {

};
static const size_t nr_node_types = sizeof node_types / sizeof node_types[0];

const struct select_node_type *select_type_for_node(enum mie_select_opcode node)
{
	if (node < 0 || node >= nr_node_types) {
		return NULL;
	}

	return node_types[node];
}

void mie_select_node_iterator_next(struct mie_select_node_iterator *it)
{
	b_queue_iterator_next(&it->it_base);
}

bool mie_select_node_iterator_is_valid(const struct mie_select_node_iterator *it)
{
	return b_queue_iterator_is_valid(&it->it_base);
}

struct mie_select_node *mie_select_node_create(
	const struct mie_target *target, unsigned int op,
	struct mie_type **results, size_t nr_results)
{
	struct mie_select_node *out = malloc(sizeof *out);
	if (!out) {
		return NULL;
	}

	memset(out, 0x0, sizeof *out);

	out->n_target = target;
	out->n_opcode = op;
	out->n_results = calloc(nr_results, sizeof(struct mie_type *));
	if (!out->n_results) {
		free(out);
		return NULL;
	}

	out->n_nr_results = nr_results;
	memcpy(out->n_results, results, nr_results * sizeof(struct mie_type *));

	return out;
}

void mie_select_node_destroy(struct mie_select_node *node)
{
	if (node->n_results) {
		free(node->n_results);
	}

	mie_select_node_clear_operands(node);

	free(node);
}

enum mie_status mie_select_node_set_operands(
	struct mie_select_node *node, struct mie_select_value *operands,
	size_t nr_operands)
{
	mie_select_node_clear_operands(node);
	if (!nr_operands) {
		return MIE_SUCCESS;
	}

	struct mie_select_use *uses = calloc(nr_operands, sizeof *uses);
	if (!uses) {
		return MIE_ERR_NO_MEMORY;
	}

	memset(uses, 0x0, sizeof *uses);

	for (size_t i = 0; i < nr_operands; i++) {
		struct mie_select_node *operand_node = operands[i].v_node;

		uses[i].u_user = node;
		uses[i].u_value = operands[i];

		b_queue_push_back(&operand_node->n_use, &uses[i].u_entry);
	}

	node->n_operands = uses;
	node->n_nr_operands = nr_operands;

	return MIE_SUCCESS;
}

enum mie_status mie_select_node_clear_operands(struct mie_select_node *node)
{
	struct mie_select_use_iterator it;
	mie_select_use_foreach(&it, &node->n_use)
	{
		struct mie_select_use *use = mie_select_use_iterator_unbox(&it);
		if (use->u_value.v_node == node) {
			memset(&use->u_value, 0x0, sizeof use->u_value);
		}
	}

	if (node->n_operands) {
		free(node->n_operands);
	}

	node->n_operands = NULL;
	node->n_nr_operands = 0;

	return MIE_SUCCESS;
}

void mie_select_node_get_users(
	struct mie_select_node *node, struct mie_select_node_iterator *it)
{
}

void mie_select_node_get_uses(
	struct mie_select_node *node, struct mie_select_node_iterator *it)
{
}

struct mie_select_node *mie_select_node_get_glued_node(struct mie_select_node *node)
{
	return NULL;
}

struct mie_select_node *mie_select_node_get_glued_user(struct mie_select_node *node)
{
	return NULL;
}