/*
 * min.c
 *
 *  Created on: 08/02/2018
 *      Author: pedro
 */

#ifndef __OPENCL_VERSION__

#include <stddef.h>
#include <stdio.h>

#include "min.h"

#include "../bitmaps.h"
#include "../config.h"
#include "../variables.h"

#endif

#include "../kernels/cl_aux_functions.h"
#if CL_D_TYPE == CL_BITMAP
#include "../kernels/cl_bitmaps.h"
#elif CL_D_TYPE == CL_INTERVAL
#include  "../kernels/cl_intervals.h"
#endif
#include "../kernels/cl_constraints.h"
#include "../kernels/cl_variables.h"
#include "../kernels/cl_ttl.h"

#ifndef __OPENCL_VERSION__

/*
 * Creates a new constraint of the min type and return the constraint ID
 * min(x, y) = z
 * x_id - ID of the x variable
 * y_id - ID of the y variable
 * z_id - ID of the z variable
 */
unsigned int c_min(unsigned int x_id, unsigned int y_id, unsigned int z_id) {

	// set to include in kernel compilation
	USE_CS[MIN] = 1;
	USE_NON_CS_REIFI[MIN] = 1;
	REV = 1;

	unsigned int c_vs[3];
	c_vs[0] = x_id;
	c_vs[1] = y_id;
	c_vs[2] = z_id;

	// creates a new generic constraint
	unsigned int c_id = c_new(c_vs, 3, NULL, 0, -1);

	// pointers to this type of constraint functions
	CS[c_id].kind = MIN;
	CS[c_id].check_sol_f = &min_check;
	CS[c_id].constant_val = 0;

	return c_id;
}

/*
 * Creates a new reified constraint of the min type and return the constraint ID
 * min(x, y) = z
 * x_id - ID of the x variable
 * y_id - ID of the y variable
 * z_id - ID of the z variable
 * reif_v_id - ID of the reification variable
 */
unsigned int c_min_reif(unsigned int x_id, unsigned int y_id, unsigned int z_id, int reif_v_id) {

	if (VS[reif_v_id].max > 1) {
		v_del_gt(&VS[reif_v_id], 1);

		if (VS[reif_v_id].n_vals == 0) {
			fprintf(stderr, "\nError: Constraint MIN_REIF makes model inconsistent at creation:\n");
			exit(-1);
		}
	}

	// set to include in kernel compilation
	USE_CS[MIN] = 1;
	USE_CS_REIFI[MIN] = 1;
	REV = 1;

	unsigned int c_vs[3];
	c_vs[0] = x_id;
	c_vs[1] = y_id;
	c_vs[2] = z_id;

	// creates a new generic constraint
	unsigned int c_id = c_new(c_vs, 3, NULL, 0, reif_v_id);

	// pointers to this type of constraint functions
	CS[c_id].kind = MIN;
	CS[c_id].check_sol_f = &min_check;
	CS[c_id].constant_val = 0;

	return c_id;
}

/*
 * Return true if the min constraint is respected or false if not
 * min(x, y) = z
 * c - constraint to check if is respected
 * explored - if the CSP was already explored, which mean that all the variables must already be singletons
 * */
bool min_check(constr* c, bool explored) {

	// check if any variable inside same a_eq_b_minus_c constraint has domain 0, more than one value
	// or if the MIN is not correct. If so, return false. Else return true.
	if (
#if CHECK_SOL_N_VALS
			(c->c_vs[0]->to_label && c->c_vs[0]->n_vals != 1) || (c->c_vs[1]->to_label && c->c_vs[1]->n_vals != 1) || (c->c_vs[2]->to_label && c->c_vs[2]->n_vals != 1) ||
#endif
			(MIN_(c->c_vs[0]->min, c->c_vs[1]->min) != c->c_vs[2]->min)) {

		if (explored) {
			fprintf(stderr, "\nError: Constraint MAX (%d) not respected:\n", c->c_id);

			fprintf(stderr, "Variable ID=%u -> minimum=%u, maximum=%u, number of values=%u\n\n", c->c_vs[0]->v_id, b_get_min_val(&c->c_vs[0]->domain_b),
					b_get_max_val(&c->c_vs[0]->domain_b), b_cnt_vals(&c->c_vs[0]->domain_b));
			fprintf(stderr, "Variable ID=%u -> minimum=%u, maximum=%u, number of values=%u\n\n", c->c_vs[1]->v_id, b_get_min_val(&c->c_vs[1]->domain_b),
					b_get_max_val(&c->c_vs[1]->domain_b), b_cnt_vals(&c->c_vs[1]->domain_b));
			fprintf(stderr, "Variable ID=%u -> minimum=%u, maximum=%u, number of values=%u\n\n", c->c_vs[2]->v_id, b_get_min_val(&c->c_vs[2]->domain_b),
					b_get_max_val(&c->c_vs[2]->domain_b), b_cnt_vals(&c->c_vs[2]->domain_b));
		}
		return false;
	}

	return true;
}

#endif

#if CS_MIN == 1
/*
 * Propagate the domain of the variable with the ID prop_v_id through all the other variables on the same c_numb ID min constraint
 * prop_ok will be set to 1 if success or to 0 if any domain became empty
 * min(x, y) = z
 * vs_per_c_idx - vector with all constrained variables ID per constraint, per constraint ID order
 * vs_prop_ - all CSP variables with current step values
 * prop_v_id - variable ID to propagate
 * current_cs - constraint that should be propagated for the variable with prop_v_id ID
 * vs_id_to_prop_ - circular vector with the ids of the variables to propagate
 * global value to optimize
 */
#if CS_IGNORE == 0
#ifndef __OPENCL_VERSION__
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wunused-parameter"
#endif
#endif
CUDA_FUNC void min_prop(CL_INTS_MEM int* vs_per_c_idx, CL_MEMORY VARS_PROP* vs_prop_, CL_CS_MEM cl_constr* current_cs, CL_MEMORY unsigned short* vs_id_to_prop_,
		bool* prop_ok CS_IGNORE_FUNC TTL_CTR) {

	int x_id = vs_per_c_idx[0];
	int y_id = vs_per_c_idx[1];
	int z_id = vs_per_c_idx[2];
	bool changed1;
	bool changed2;

	cl_v_del_lt_m(&changed1, &vs_prop_[z_id], MIN_(V_MIN(vs_prop_[x_id]),V_MIN(vs_prop_[y_id])) TTL_CTR_V);
	cl_v_del_gt_m(&changed2, &vs_prop_[z_id], MIN_(V_MAX(vs_prop_[x_id]),V_MAX(vs_prop_[y_id])) TTL_CTR_V);
	if (changed1 || changed2) {
		if (V_IS_EMPTY(vs_prop_[z_id])) {
			*prop_ok = 0;
			return;
		}
		v_add_to_prop(vs_id_to_prop_, vs_prop_, z_id);
	}

	if (V_MIN(vs_prop_[x_id]) < V_MIN(vs_prop_[y_id]) && V_N_VALS(vs_prop_[x_id]) == 1) {

		cl_v_del_all_except_val_m(&changed1, &vs_prop_[z_id], V_MIN(vs_prop_[x_id]) TTL_CTR_V);

		if (changed1) {
			if (V_IS_EMPTY(vs_prop_[z_id])) {
				*prop_ok = 0;
				return;
			}
			v_add_to_prop(vs_id_to_prop_, vs_prop_, z_id);
		}

#if CL_CS_IGNORE
		cs_ignore[current_cs->c_id] = 1;
#endif
		return;
	}

	if (V_MIN(vs_prop_[y_id]) < V_MIN(vs_prop_[x_id]) && V_N_VALS(vs_prop_[y_id]) == 1) {

		cl_v_del_all_except_val_m(&changed1, &vs_prop_[z_id], V_MIN(vs_prop_[y_id]) TTL_CTR_V);

		if (changed1) {
			if (V_IS_EMPTY(vs_prop_[z_id])) {
				*prop_ok = 0;
				return;
			}
			v_add_to_prop(vs_id_to_prop_, vs_prop_, z_id);
		}

#if CL_CS_IGNORE
		cs_ignore[current_cs->c_id] = 1;
#endif
	}
}
#ifndef __OPENCL_VERSION__
#if CS_IGNORE == 0
#pragma GCC diagnostic pop
#endif
#endif

#if CS_R_MIN == 1
/*
 * Validate min constraint to be normally propagated, when reified
 * vs_per_c_idx - vector with all constrained variables ID per constraint, per constraint ID order
 * vs_prop_ - all CSP variables with current step values
 * current_cs - constraint that should be propagated for the variable with prop_v_id ID
 * vs_id_to_prop_ - circular vector with the ids of the variables to propagate
 */
CUDA_FUNC void min_reif( CL_INTS_MEM int* vs_per_c_idx, CL_MEMORY VARS_PROP* vs_prop_, CL_CS_MEM cl_constr* current_cs, CL_MEMORY unsigned short* vs_id_to_prop_ TTL_CTR) {

	int x_id = vs_per_c_idx[0];
	int y_id = vs_per_c_idx[1];
	int z_id = vs_per_c_idx[2];
	bool changed1 = 0;
	bool changed2 = 0;

	if (V_N_VALS(vs_prop_[x_id]) == 1 && V_N_VALS(vs_prop_[y_id]) == 1 && V_N_VALS(vs_prop_[z_id]) == 1
			&& MIN_(V_MIN(vs_prop_[x_id]),V_MIN(vs_prop_[y_id])) == V_MIN(vs_prop_[z_id])) {

		cl_v_del_val_m(&changed1, &vs_prop_[current_cs->reif_var_id], 0 TTL_CTR_V);

		v_add_to_prop(vs_id_to_prop_, vs_prop_, convert_int(current_cs->reif_var_id));
		return;
	}

	VARS_PROP z;
	cl_v_copy_pm(&z, &vs_prop_[z_id] TTL_CTR_V);

	cl_v_del_lt_n(&changed1, &z, MIN_(V_MIN(vs_prop_[x_id]),V_MIN(vs_prop_[y_id])) TTL_CTR_V);
	cl_v_del_gt_n(&changed2, &z, MIN_(V_MAX(vs_prop_[x_id]),V_MAX(vs_prop_[y_id])) TTL_CTR_V);
	if (changed1 || changed2) {
		if (V_IS_EMPTY(z)) {
			cl_v_del_val_m(&changed1, &vs_prop_[current_cs->reif_var_id], 1 TTL_CTR_V);

			v_add_to_prop(vs_id_to_prop_, vs_prop_, convert_int(current_cs->reif_var_id));
			return;
		}
	}

	if (V_MIN(vs_prop_[x_id]) < V_MIN(vs_prop_[y_id]) && V_N_VALS(vs_prop_[x_id]) == 1) {

		cl_v_del_all_except_val_n(&changed1, &z, V_MIN(vs_prop_[x_id]) TTL_CTR_V);

		if (changed1) {
			if (V_IS_EMPTY(z)) {
				cl_v_del_val_m(&changed1, &vs_prop_[current_cs->reif_var_id], 1 TTL_CTR_V);

				v_add_to_prop(vs_id_to_prop_, vs_prop_, convert_int(current_cs->reif_var_id));
				return;
			}
		}
		return;
	}

	if (V_MIN(vs_prop_[y_id]) < V_MIN(vs_prop_[x_id]) && V_N_VALS(vs_prop_[y_id]) == 1) {

		cl_v_del_all_except_val_n(&changed1, &z, V_MIN(vs_prop_[y_id]) TTL_CTR_V);

		if (changed1) {
			if (V_IS_EMPTY(z)) {
				cl_v_del_val_m(&changed1, &vs_prop_[current_cs->reif_var_id], 1 TTL_CTR_V);

				v_add_to_prop(vs_id_to_prop_, vs_prop_, convert_int(current_cs->reif_var_id));
			}
		}
	}
}

/*
 * Propagate the domain of the variable with the ID prop_v_id through all the other variables on the same c_numb ID min opposite constraint
 * min(x, y) = z
 * vs_per_c_idx - vector with all constrained variables ID per constraint, per constraint ID order
 * vs_prop_ - all CSP variables with current step values
 * prop_v_id - variable ID to propagate
 * current_cs - constraint that should be propagated for the variable with prop_v_id ID
 * vs_id_to_prop_ - circular vector with the ids of the variables to propagate
 * global value to optimize
 */
CUDA_FUNC void min_prop_opposite(CL_INTS_MEM int* vs_per_c_idx, CL_MEMORY VARS_PROP* vs_prop_, bool* prop_ok) {

	int x_id = vs_per_c_idx[0];
	int y_id = vs_per_c_idx[1];
	int z_id = vs_per_c_idx[2];

	if (V_N_VALS(vs_prop_[x_id]) == 1 && V_N_VALS(vs_prop_[y_id]) == 1 && V_N_VALS(vs_prop_[z_id]) == 1
			&& MIN_(V_MIN(vs_prop_[x_id]),V_MIN(vs_prop_[y_id])) == V_MIN(vs_prop_[z_id])) {

		*prop_ok = 0;
		return;
	}
}

#endif

CUDA_FUNC void min_propagate(CL_INTS_MEM int* vs_per_c_idx, CL_MEMORY VARS_PROP* vs_prop_, CL_CS_MEM cl_constr* current_cs, CL_MEMORY unsigned short* vs_id_to_prop_,
		bool* prop_ok PROPAGATED_FUNC CS_IGNORE_FUNC TTL_CTR) {

#if CS_R_MIN == 0
	min_prop(vs_per_c_idx, vs_prop_, current_cs, vs_id_to_prop_, prop_ok CS_IGNORE_CALL TTL_CTR_V);
#if CL_STATS == 1
	*propagated = true;
#endif
#elif CS_R_MIN == 1
	if (current_cs->reified == 1) {
		if (V_N_VALS(vs_prop_[current_cs->reif_var_id]) > 1) {
			min_reif(vs_per_c_idx, vs_prop_, current_cs, vs_id_to_prop_ TTL_CTR_V);
		}
		if (V_N_VALS(vs_prop_[current_cs->reif_var_id]) == 1) {
			if (V_MIN(vs_prop_[current_cs->reif_var_id]) == 1) {
				min_prop(vs_per_c_idx, vs_prop_, current_cs, vs_id_to_prop_, prop_ok CS_IGNORE_CALL TTL_CTR_V);
			} else {
				min_prop_opposite(vs_per_c_idx, vs_prop_, prop_ok);
			}
#if CL_STATS == 1
			*propagated = true;
#endif
		}
	} else {
		min_prop(vs_per_c_idx, vs_prop_, current_cs, vs_id_to_prop_, prop_ok CS_IGNORE_CALL TTL_CTR_V);
#if CL_STATS == 1
		*propagated = true;
#endif
	}
#endif
}

#endif