implied: remove unused add_pool() function

[smatch.git] / smatch_comparison.c

/*
 * Copyright (C) 2012 Oracle.
 *
 * This program is free software; you can redistribute it and/or
 * modify it under the terms of the GNU General Public License
 * as published by the Free Software Foundation; either version 2
 * of the License, or (at your option) any later version.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, see http://www.gnu.org/copyleft/gpl.txt
 */

/*
 * The point here is to store the relationships between two variables.
 * Ie:  y > x.
 * To do that we create a state with the two variables in alphabetical order:
 * ->name = "x vs y" and the state would be "<".  On the false path the state
 * would be ">=".
 *
 * Part of the trick of it is that if x or y is modified then we need to reset
 * the state.  We need to keep a list of all the states which depend on x and
 * all the states which depend on y.  The link_id code handles this.
 *
 */

#include "smatch.h"
#include "smatch_extra.h"
#include "smatch_slist.h"

static int compare_id;
static int link_id;
static int inc_dec_id;
static int inc_dec_link_id;

/* for handling for loops */
STATE(start);
STATE(incremented);

ALLOCATOR(compare_data, "compare data");

static struct symbol *vsl_to_sym(struct var_sym_list *vsl)
{
        struct var_sym *vs;

        if (!vsl)
                return NULL;
        if (ptr_list_size((struct ptr_list *)vsl) != 1)
                return NULL;
        vs = first_ptr_list((struct ptr_list *)vsl);
        return vs->sym;
}

static struct smatch_state *alloc_compare_state(
                const char *var1, struct var_sym_list *vsl1,
                int comparison,
                const char *var2, struct var_sym_list *vsl2)
{
        struct smatch_state *state;
        struct compare_data *data;

        state = __alloc_smatch_state(0);
        state->name = alloc_sname(show_special(comparison));
        data = __alloc_compare_data(0);
        data->var1 = alloc_sname(var1);
        data->vsl1 = clone_var_sym_list(vsl1);
        data->comparison = comparison;
        data->var2 = alloc_sname(var2);
        data->vsl2 = clone_var_sym_list(vsl2);
        state->data = data;
        return state;
}

static int state_to_comparison(struct smatch_state *state)
{
        if (!state || !state->data)
                return 0;
        return ((struct compare_data *)state->data)->comparison;
}

/*
 * flip_comparison() reverses the op left and right.  So "x >= y" becomes "y <= x".
 */
int flip_comparison(int op)
{
        switch (op) {
        case 0:
                return 0;
        case '<':
                return '>';
        case SPECIAL_UNSIGNED_LT:
                return SPECIAL_UNSIGNED_GT;
        case SPECIAL_LTE:
                return SPECIAL_GTE;
        case SPECIAL_UNSIGNED_LTE:
                return SPECIAL_UNSIGNED_GTE;
        case SPECIAL_EQUAL:
                return SPECIAL_EQUAL;
        case SPECIAL_NOTEQUAL:
                return SPECIAL_NOTEQUAL;
        case SPECIAL_GTE:
                return SPECIAL_LTE;
        case SPECIAL_UNSIGNED_GTE:
                return SPECIAL_UNSIGNED_LTE;
        case '>':
                return '<';
        case SPECIAL_UNSIGNED_GT:
                return SPECIAL_UNSIGNED_LT;
        default:
                sm_msg("internal smatch bug.  unhandled comparison %d", op);
                return op;
        }
}

int negate_comparison(int op)
{
        switch (op) {
        case 0:
                return 0;
        case '<':
                return SPECIAL_GTE;
        case SPECIAL_UNSIGNED_LT:
                return SPECIAL_UNSIGNED_GTE;
        case SPECIAL_LTE:
                return '>';
        case SPECIAL_UNSIGNED_LTE:
                return SPECIAL_UNSIGNED_GT;
        case SPECIAL_EQUAL:
                return SPECIAL_NOTEQUAL;
        case SPECIAL_NOTEQUAL:
                return SPECIAL_EQUAL;
        case SPECIAL_GTE:
                return '<';
        case SPECIAL_UNSIGNED_GTE:
                return SPECIAL_UNSIGNED_LT;
        case '>':
                return SPECIAL_LTE;
        case SPECIAL_UNSIGNED_GT:
                return SPECIAL_UNSIGNED_LTE;
        default:
                sm_msg("internal smatch bug.  unhandled comparison %d", op);
                return op;
        }
}

static int rl_comparison(struct range_list *left_rl, struct range_list *right_rl)
{
        sval_t left_min, left_max, right_min, right_max;

        if (!left_rl || !right_rl)
                return 0;

        left_min = rl_min(left_rl);
        left_max = rl_max(left_rl);
        right_min = rl_min(right_rl);
        right_max = rl_max(right_rl);

        if (left_min.value == left_max.value &&
            right_min.value == right_max.value &&
            left_min.value == right_min.value)
                return SPECIAL_EQUAL;

        if (sval_cmp(left_max, right_min) < 0)
                return '<';
        if (sval_cmp(left_max, right_min) == 0)
                return SPECIAL_LTE;
        if (sval_cmp(left_min, right_max) > 0)
                return '>';
        if (sval_cmp(left_min, right_max) == 0)
                return SPECIAL_GTE;

        return 0;
}

static struct range_list *get_orig_rl(struct var_sym_list *vsl)
{
        struct symbol *sym;
        struct smatch_state *state;

        if (!vsl)
                return NULL;
        sym = vsl_to_sym(vsl);
        if (!sym || !sym->ident)
                return NULL;
        state = get_orig_estate(sym->ident->name, sym);
        return estate_rl(state);
}

static struct smatch_state *unmatched_comparison(struct sm_state *sm)
{
        struct compare_data *data = sm->state->data;
        struct range_list *left_rl, *right_rl;
        int op;

        if (!data)
                return &undefined;

        if (strstr(data->var1, " orig"))
                left_rl = get_orig_rl(data->vsl1);
        else if (!get_implied_rl_var_sym(data->var1, vsl_to_sym(data->vsl1), &left_rl))
                return &undefined;
        if (strstr(data->var2, " orig"))
                right_rl = get_orig_rl(data->vsl2);
        else if (!get_implied_rl_var_sym(data->var2, vsl_to_sym(data->vsl2), &right_rl))
                return &undefined;


        op = rl_comparison(left_rl, right_rl);
        if (op)
                return alloc_compare_state(data->var1, data->vsl1, op, data->var2, data->vsl2);

        return &undefined;
}

/* remove_unsigned_from_comparison() is obviously a hack. */
static int remove_unsigned_from_comparison(int op)
{
        switch (op) {
        case SPECIAL_UNSIGNED_LT:
                return '<';
        case SPECIAL_UNSIGNED_LTE:
                return SPECIAL_LTE;
        case SPECIAL_UNSIGNED_GTE:
                return SPECIAL_GTE;
        case SPECIAL_UNSIGNED_GT:
                return '>';
        default:
                return op;
        }
}

/*
 * This is for when you merge states "a < b" and "a == b", the result is that
 * we can say for sure, "a <= b" after the merge.
 */
static int merge_comparisons(int one, int two)
{
        int LT, EQ, GT;

        one = remove_unsigned_from_comparison(one);
        two = remove_unsigned_from_comparison(two);

        if (one == two)
                return one;

        LT = EQ = GT = 0;

        switch (one) {
        case '<':
                LT = 1;
                break;
        case SPECIAL_LTE:
                LT = 1;
                EQ = 1;
                break;
        case SPECIAL_EQUAL:
                EQ = 1;
                break;
        case SPECIAL_GTE:
                GT = 1;
                EQ = 1;
                break;
        case '>':
                GT = 1;
        }

        switch (two) {
        case '<':
                LT = 1;
                break;
        case SPECIAL_LTE:
                LT = 1;
                EQ = 1;
                break;
        case SPECIAL_EQUAL:
                EQ = 1;
                break;
        case SPECIAL_GTE:
                GT = 1;
                EQ = 1;
                break;
        case '>':
                GT = 1;
        }

        if (LT && EQ && GT)
                return 0;
        if (LT && EQ)
                return SPECIAL_LTE;
        if (LT && GT)
                return SPECIAL_NOTEQUAL;
        if (LT)
                return '<';
        if (EQ && GT)
                return SPECIAL_GTE;
        if (GT)
                return '>';
        return 0;
}

/*
 * This is for if you have "a < b" and "b <= c".  Or in other words,
 * "a < b <= c".  You would call this like get_combined_comparison('<', '<=').
 * The return comparison would be '<'.
 *
 * This function is different from merge_comparisons(), for example:
 * merge_comparison('<', '==') returns '<='
 * get_combined_comparison('<', '==') returns '<'
 */
static int combine_comparisons(int left_compare, int right_compare)
{
        int LT, EQ, GT;

        left_compare = remove_unsigned_from_comparison(left_compare);
        right_compare = remove_unsigned_from_comparison(right_compare);

        LT = EQ = GT = 0;

        switch (left_compare) {
        case '<':
                LT++;
                break;
        case SPECIAL_LTE:
                LT++;
                EQ++;
                break;
        case SPECIAL_EQUAL:
                return right_compare;
        case SPECIAL_GTE:
                GT++;
                EQ++;
                break;
        case '>':
                GT++;
        }

        switch (right_compare) {
        case '<':
                LT++;
                break;
        case SPECIAL_LTE:
                LT++;
                EQ++;
                break;
        case SPECIAL_EQUAL:
                return left_compare;
        case SPECIAL_GTE:
                GT++;
                EQ++;
                break;
        case '>':
                GT++;
        }

        if (LT == 2) {
                if (EQ == 2)
                        return SPECIAL_LTE;
                return '<';
        }

        if (GT == 2) {
                if (EQ == 2)
                        return SPECIAL_GTE;
                return '>';
        }
        return 0;
}

static int filter_comparison(int orig, int op)
{
        if (orig == op)
                return orig;

        switch (orig) {
        case 0:
                return op;
        case '<':
                switch (op) {
                case '<':
                case SPECIAL_LTE:
                case SPECIAL_NOTEQUAL:
                        return '<';
                }
                return 0;
        case SPECIAL_LTE:
                switch (op) {
                case '<':
                case SPECIAL_LTE:
                case SPECIAL_EQUAL:
                        return op;
                case SPECIAL_NOTEQUAL:
                        return '<';
                }
                return 0;
        case SPECIAL_EQUAL:
                switch (op) {
                case SPECIAL_LTE:
                case SPECIAL_EQUAL:
                case SPECIAL_GTE:
                case SPECIAL_UNSIGNED_LTE:
                case SPECIAL_UNSIGNED_GTE:
                        return SPECIAL_EQUAL;
                }
                return 0;
        case SPECIAL_NOTEQUAL:
                switch (op) {
                case '<':
                case SPECIAL_LTE:
                        return '<';
                case SPECIAL_UNSIGNED_LT:
                case SPECIAL_UNSIGNED_LTE:
                        return SPECIAL_UNSIGNED_LT;
                case SPECIAL_NOTEQUAL:
                        return op;
                case '>':
                case SPECIAL_GTE:
                        return '>';
                case SPECIAL_UNSIGNED_GT:
                case SPECIAL_UNSIGNED_GTE:
                        return SPECIAL_UNSIGNED_GT;
                }
                return 0;
        case SPECIAL_GTE:
                switch (op) {
                case SPECIAL_LTE:
                        return SPECIAL_EQUAL;
                case '>':
                case SPECIAL_GTE:
                case SPECIAL_EQUAL:
                        return op;
                case SPECIAL_NOTEQUAL:
                        return '>';
                }
                return 0;
        case '>':
                switch (op) {
                case '>':
                case SPECIAL_GTE:
                case SPECIAL_NOTEQUAL:
                        return '>';
                }
                return 0;
        case SPECIAL_UNSIGNED_LT:
                switch (op) {
                case SPECIAL_UNSIGNED_LT:
                case SPECIAL_UNSIGNED_LTE:
                case SPECIAL_NOTEQUAL:
                        return SPECIAL_UNSIGNED_LT;
                }
                return 0;
        case SPECIAL_UNSIGNED_LTE:
                switch (op) {
                case SPECIAL_UNSIGNED_LT:
                case SPECIAL_UNSIGNED_LTE:
                case SPECIAL_EQUAL:
                        return op;
                case SPECIAL_NOTEQUAL:
                        return SPECIAL_UNSIGNED_LT;
                case SPECIAL_UNSIGNED_GTE:
                        return SPECIAL_EQUAL;
                }
                return 0;
        case SPECIAL_UNSIGNED_GTE:
                switch (op) {
                case SPECIAL_UNSIGNED_LTE:
                        return SPECIAL_EQUAL;
                case SPECIAL_NOTEQUAL:
                        return SPECIAL_UNSIGNED_GT;
                case SPECIAL_EQUAL:
                case SPECIAL_UNSIGNED_GTE:
                case SPECIAL_UNSIGNED_GT:
                        return op;
                }
                return 0;
        case SPECIAL_UNSIGNED_GT:
                switch (op) {
                case SPECIAL_UNSIGNED_GT:
                case SPECIAL_UNSIGNED_GTE:
                case SPECIAL_NOTEQUAL:
                        return SPECIAL_UNSIGNED_GT;
                }
                return 0;
        }
        return 0;
}

static struct smatch_state *merge_compare_states(struct smatch_state *s1, struct smatch_state *s2)
{
        struct compare_data *data = s1->data;
        int op;

        op = merge_comparisons(state_to_comparison(s1), state_to_comparison(s2));
        if (op)
                return alloc_compare_state(data->var1, data->vsl1, op, data->var2, data->vsl2);
        return &undefined;
}

static struct smatch_state *alloc_link_state(struct string_list *links)
{
        struct smatch_state *state;
        static char buf[256];
        char *tmp;
        int i;

        state = __alloc_smatch_state(0);

        i = 0;
        FOR_EACH_PTR(links, tmp) {
                if (!i++) {
                        snprintf(buf, sizeof(buf), "%s", tmp);
                } else {
                        append(buf, ", ", sizeof(buf));
                        append(buf, tmp, sizeof(buf));
                }
        } END_FOR_EACH_PTR(tmp);

        state->name = alloc_sname(buf);
        state->data = links;
        return state;
}

static void save_start_states(struct statement *stmt)
{
        struct symbol *param;
        char orig[64];
        char state_name[128];
        struct smatch_state *state;
        struct string_list *links;
        char *link;

        FOR_EACH_PTR(cur_func_sym->ctype.base_type->arguments, param) {
                struct var_sym_list *vsl1 = NULL;
                struct var_sym_list *vsl2 = NULL;

                if (!param->ident)
                        continue;
                snprintf(orig, sizeof(orig), "%s orig", param->ident->name);
                snprintf(state_name, sizeof(state_name), "%s vs %s", param->ident->name, orig);
                add_var_sym(&vsl1, param->ident->name, param);
                add_var_sym(&vsl2, orig, param);
                state = alloc_compare_state(param->ident->name, vsl1, SPECIAL_EQUAL, alloc_sname(orig), vsl2);
                set_state(compare_id, state_name, NULL, state);

                link = alloc_sname(state_name);
                links = NULL;
                insert_string(&links, link);
                state = alloc_link_state(links);
                set_state(link_id, param->ident->name, param, state);
        } END_FOR_EACH_PTR(param);
}

static struct smatch_state *merge_links(struct smatch_state *s1, struct smatch_state *s2)
{
        struct smatch_state *ret;
        struct string_list *links;

        links = combine_string_lists(s1->data, s2->data);
        ret = alloc_link_state(links);
        return ret;
}

static void save_link_var_sym(const char *var, struct symbol *sym, const char *link)
{
        struct smatch_state *old_state, *new_state;
        struct string_list *links;
        char *new;

        old_state = get_state(link_id, var, sym);
        if (old_state)
                links = clone_str_list(old_state->data);
        else
                links = NULL;

        new = alloc_sname(link);
        insert_string(&links, new);

        new_state = alloc_link_state(links);
        set_state(link_id, var, sym, new_state);
}

static void match_inc(struct sm_state *sm)
{
        struct string_list *links;
        struct smatch_state *state;
        char *tmp;

        links = sm->state->data;

        FOR_EACH_PTR(links, tmp) {
                state = get_state(compare_id, tmp, NULL);

                switch (state_to_comparison(state)) {
                case SPECIAL_EQUAL:
                case SPECIAL_GTE:
                case SPECIAL_UNSIGNED_GTE:
                case '>':
                case SPECIAL_UNSIGNED_GT: {
                        struct compare_data *data = state->data;
                        struct smatch_state *new;

                        new = alloc_compare_state(data->var1, data->vsl1, '>', data->var2, data->vsl2);
                        set_state(compare_id, tmp, NULL, new);
                        break;
                }
                default:
                        set_state(compare_id, tmp, NULL, &undefined);
                }
        } END_FOR_EACH_PTR(tmp);
}

static void match_dec(struct sm_state *sm)
{
        struct string_list *links;
        struct smatch_state *state;
        char *tmp;

        links = sm->state->data;

        FOR_EACH_PTR(links, tmp) {
                state = get_state(compare_id, tmp, NULL);

                switch (state_to_comparison(state)) {
                case SPECIAL_EQUAL:
                case SPECIAL_LTE:
                case SPECIAL_UNSIGNED_LTE:
                case '<':
                case SPECIAL_UNSIGNED_LT: {
                        struct compare_data *data = state->data;
                        struct smatch_state *new;

                        new = alloc_compare_state(data->var1, data->vsl1, '<', data->var2, data->vsl2);
                        set_state(compare_id, tmp, NULL, new);
                        break;
                        }
                default:
                        set_state(compare_id, tmp, NULL, &undefined);
                }
        } END_FOR_EACH_PTR(tmp);
}

static int match_inc_dec(struct sm_state *sm, struct expression *mod_expr)
{
        if (!mod_expr)
                return 0;
        if (mod_expr->type != EXPR_PREOP && mod_expr->type != EXPR_POSTOP)
                return 0;

        if (mod_expr->op == SPECIAL_INCREMENT) {
                match_inc(sm);
                return 1;
        }
        if (mod_expr->op == SPECIAL_DECREMENT) {
                match_dec(sm);
                return 1;
        }
        return 0;
}

static void match_modify(struct sm_state *sm, struct expression *mod_expr)
{
        struct string_list *links;
        char *tmp;

        /*
         * if (foo > bar) then ++foo is also > bar.
         */
        if (match_inc_dec(sm, mod_expr))
                return;

        links = sm->state->data;

        FOR_EACH_PTR(links, tmp) {
                set_state(compare_id, tmp, NULL, &undefined);
        } END_FOR_EACH_PTR(tmp);
        set_state(link_id, sm->name, sm->sym, &undefined);
}

static char *chunk_to_var_sym(struct expression *expr, struct symbol **sym)
{
        expr = strip_expr(expr);
        if (!expr)
                return NULL;
        if (sym)
                *sym = NULL;

        if (expr->type == EXPR_PREOP &&
            (expr->op == SPECIAL_INCREMENT ||
             expr->op == SPECIAL_DECREMENT))
                expr = strip_expr(expr->unop);

        return expr_to_chunk_sym_vsl(expr, sym, NULL);
}

static char *chunk_to_var(struct expression *expr)
{
        return chunk_to_var_sym(expr, NULL);
}

static void save_link(struct expression *expr, char *link)
{
        char *var;
        struct symbol *sym;

        expr = strip_expr(expr);
        if (expr->type == EXPR_BINOP) {
                char *chunk;

                chunk = chunk_to_var(expr);
                if (!chunk)
                        return;

                save_link(expr->left, link);
                save_link(expr->right, link);
                save_link_var_sym(chunk, NULL, link);
                return;
        }

        var = expr_to_var_sym(expr, &sym);
        if (!var || !sym)
                goto done;

        save_link_var_sym(var, sym, link);
done:
        free_string(var);
}

static int get_orig_comparison(struct stree *pre_stree, const char *left, const char *right)
{
        struct smatch_state *state;
        struct compare_data *data;
        int flip = 0;
        char state_name[256];

        if (strcmp(left, right) > 0) {
                const char *tmp = right;

                flip = 1;
                right = left;
                left = tmp;
        }

        snprintf(state_name, sizeof(state_name), "%s vs %s", left, right);
        state = get_state_stree(pre_stree, compare_id, state_name, NULL);
        if (!state || !state->data)
                return 0;
        data = state->data;
        if (flip)
                return flip_comparison(data->comparison);
        return data->comparison;

}

static int have_common_var_sym(struct var_sym_list *left_vsl, struct var_sym_list *right_vsl)
{
        struct var_sym *tmp;

        FOR_EACH_PTR(left_vsl, tmp) {
                if (in_var_sym_list(right_vsl, tmp->var, tmp->sym))
                        return 1;
        } END_FOR_EACH_PTR(tmp);

        return 0;
}

/*
 * The idea here is that we take a comparison "a < b" and then we look at all
 * the things which "b" is compared against "b < c" and we say that that implies
 * a relationship "a < c".
 *
 * The names here about because the comparisons are organized like this
 * "a < b < c".
 *
 */
static void update_tf_links(struct stree *pre_stree,
                            const char *left_var, struct var_sym_list *left_vsl,
                            int left_comparison, int left_false_comparison,
                            const char *mid_var, struct var_sym_list *mid_vsl,
                            struct string_list *links)
{
        struct smatch_state *state;
        struct smatch_state *true_state, *false_state;
        struct compare_data *data;
        const char *right_var;
        struct var_sym_list *right_vsl;
        int orig_comparison;
        int right_comparison;
        int true_comparison;
        int false_comparison;
        char *tmp;
        char state_name[256];
        struct var_sym *vs;

        FOR_EACH_PTR(links, tmp) {
                state = get_state_stree(pre_stree, compare_id, tmp, NULL);
                if (!state || !state->data)
                        continue;
                data = state->data;
                right_comparison = data->comparison;
                right_var = data->var2;
                right_vsl = data->vsl2;
                if (strcmp(mid_var, right_var) == 0) {
                        right_var = data->var1;
                        right_vsl = data->vsl1;
                        right_comparison = flip_comparison(right_comparison);
                }
                if (have_common_var_sym(left_vsl, right_vsl))
                        continue;

                orig_comparison = get_orig_comparison(pre_stree, left_var, right_var);

                true_comparison = combine_comparisons(left_comparison, right_comparison);
                false_comparison = combine_comparisons(left_false_comparison, right_comparison);

                true_comparison = filter_comparison(orig_comparison, true_comparison);
                false_comparison = filter_comparison(orig_comparison, false_comparison);

                if (strcmp(left_var, right_var) > 0) {
                        const char *tmp_var = left_var;
                        struct var_sym_list *tmp_vsl = left_vsl;

                        left_var = right_var;
                        left_vsl = right_vsl;
                        right_var = tmp_var;
                        right_vsl = tmp_vsl;
                        true_comparison = flip_comparison(true_comparison);
                        false_comparison = flip_comparison(false_comparison);
                }

                if (!true_comparison && !false_comparison)
                        continue;

                if (true_comparison)
                        true_state = alloc_compare_state(left_var, left_vsl, true_comparison, right_var, right_vsl);
                else
                        true_state = NULL;
                if (false_comparison)
                        false_state = alloc_compare_state(left_var, left_vsl, false_comparison, right_var, right_vsl);
                else
                        false_state = NULL;

                snprintf(state_name, sizeof(state_name), "%s vs %s", left_var, right_var);
                set_true_false_states(compare_id, state_name, NULL, true_state, false_state);
                FOR_EACH_PTR(left_vsl, vs) {
                        save_link_var_sym(vs->var, vs->sym, state_name);
                } END_FOR_EACH_PTR(vs);
                FOR_EACH_PTR(right_vsl, vs) {
                        save_link_var_sym(vs->var, vs->sym, state_name);
                } END_FOR_EACH_PTR(vs);
                if (!vsl_to_sym(left_vsl))
                        save_link_var_sym(left_var, NULL, state_name);
                if (!vsl_to_sym(right_vsl))
                        save_link_var_sym(right_var, NULL, state_name);
        } END_FOR_EACH_PTR(tmp);
}

static void update_tf_data(struct stree *pre_stree,
                const char *left_name, struct var_sym_list *left_vsl,
                const char *right_name, struct var_sym_list *right_vsl,
                int true_comparison, int false_comparison)
{
        struct smatch_state *state;

        state = get_state_stree(pre_stree, link_id, right_name, vsl_to_sym(right_vsl));
        if (state)
                update_tf_links(pre_stree, left_name, left_vsl, true_comparison, false_comparison, right_name, right_vsl, state->data);

        state = get_state_stree(pre_stree, link_id, left_name, vsl_to_sym(left_vsl));
        if (state)
                update_tf_links(pre_stree, right_name, right_vsl, flip_comparison(true_comparison), flip_comparison(false_comparison), left_name, left_vsl, state->data);
}

static void iter_modify(struct sm_state *sm, struct expression *mod_expr)
{
        if (sm->state != &start ||
            !mod_expr ||
            (mod_expr->type != EXPR_PREOP && mod_expr->type != EXPR_POSTOP) ||
            mod_expr->op != SPECIAL_INCREMENT)
                set_state(inc_dec_id, sm->name, sm->sym, &undefined);
        else
                set_state(inc_dec_id, sm->name, sm->sym, &incremented);
}

static void handle_for_loops(struct expression *expr, char *state_name, struct smatch_state *false_state)
{
        sval_t sval;
        char *iter_name, *cap_name;
        struct symbol *iter_sym, *cap_sym;
        struct compare_data *data;

        if (expr->op != '<' && expr->op != SPECIAL_UNSIGNED_LT)
                return;

        if (!__cur_stmt || !__prev_stmt)
                return;
        if (__cur_stmt->type != STMT_ITERATOR)
                return;
        if (__cur_stmt->iterator_pre_condition != expr)
                return;

        /* literals are handled in smatch_extra.c */
        if (get_value(expr->right, &sval))
                return;

        /* First time checking the condition */
        if (__prev_stmt == __cur_stmt->iterator_pre_statement) {
                if (!get_implied_value(expr->left, &sval) ||
                    sval.value != 0)
                        return;

                iter_name = expr_to_var_sym(expr->left, &iter_sym);
                cap_name = expr_to_var_sym(expr->right, &cap_sym);
                if (!iter_name || !cap_name || !iter_sym || !cap_sym) {
                        free_string(iter_name);
                        free_string(cap_name);
                        return;
                }

                set_state(inc_dec_id, iter_name, iter_sym, &start);
                store_link(inc_dec_link_id, cap_name, cap_sym, iter_name, iter_sym);

                free_string(iter_name);
                free_string(cap_name);
                return;
        }

        /* Second time checking the condtion */
        if (__prev_stmt != __cur_stmt->iterator_post_statement)
                return;

        if (get_state_expr(inc_dec_id, expr->left) != &incremented)
                return;

        data = false_state->data;
        false_state = alloc_compare_state(data->var1, data->vsl1, SPECIAL_EQUAL, data->var2, data->vsl2);

        set_true_false_states(compare_id, state_name, NULL, NULL, false_state);
}

static void handle_comparison(struct expression *expr_left, int op, struct expression *expr_right, char **_state_name, struct smatch_state **_false_state)
{
        char *left = NULL;
        char *right = NULL;
        struct symbol *left_sym, *right_sym;
        struct var_sym_list *left_vsl, *right_vsl;
        int false_op;
        int orig_comparison;
        struct smatch_state *true_state, *false_state;
        static char state_name[256];
        struct stree *pre_stree;
        sval_t sval;

        false_op = negate_comparison(op);

        if (op == SPECIAL_UNSIGNED_LT &&
            get_implied_value(expr_left, &sval) &&
            sval.value == 0)
                false_op = SPECIAL_EQUAL;

        if (op == SPECIAL_UNSIGNED_GT &&
            get_implied_value(expr_right, &sval) &&
            sval.value == 0)
                false_op = SPECIAL_EQUAL;

        left = chunk_to_var_sym(expr_left, &left_sym);
        if (!left)
                goto free;
        left_vsl = expr_to_vsl(expr_left);
        right = chunk_to_var_sym(expr_right, &right_sym);
        if (!right)
                goto free;
        right_vsl = expr_to_vsl(expr_right);

        if (strcmp(left, right) > 0) {
                struct symbol *tmp_sym = left_sym;
                char *tmp_name = left;
                struct var_sym_list *tmp_vsl = left_vsl;

                left = right;
                left_sym = right_sym;
                left_vsl = right_vsl;
                right = tmp_name;
                right_sym = tmp_sym;
                right_vsl = tmp_vsl;
                op = flip_comparison(op);
                false_op = flip_comparison(false_op);
        }

        orig_comparison = get_comparison_strings(left, right);
        op = filter_comparison(orig_comparison, op);
        false_op = filter_comparison(orig_comparison, false_op);

        snprintf(state_name, sizeof(state_name), "%s vs %s", left, right);
        true_state = alloc_compare_state(left, left_vsl, op, right, right_vsl);
        false_state = alloc_compare_state(left, left_vsl, false_op, right, right_vsl);

        pre_stree = clone_stree(__get_cur_stree());
        update_tf_data(pre_stree, left, left_vsl, right, right_vsl, op, false_op);
        free_stree(&pre_stree);

        set_true_false_states(compare_id, state_name, NULL, true_state, false_state);
        save_link(expr_left, state_name);
        save_link(expr_right, state_name);

        if (_false_state)
                *_false_state = false_state;
        if (_state_name)
                *_state_name = state_name;
free:
        free_string(left);
        free_string(right);

}

void __comparison_match_condition(struct expression *expr)
{
        struct expression *left, *right, *new_left, *new_right;
        struct smatch_state *false_state = NULL;
        char *state_name = NULL;

        if (expr->type != EXPR_COMPARE)
                return;

        handle_comparison(expr->left, expr->op, expr->right, &state_name, &false_state);
        if (false_state && state_name)
                handle_for_loops(expr, state_name, false_state);


        left = strip_parens(expr->left);
        right = strip_parens(expr->right);

        if (left->type == EXPR_BINOP && left->op == '+') {
                new_left = left->left;
                new_right = binop_expression(right, '-', left->right);
                handle_comparison(new_left, expr->op, new_right, NULL, NULL);

                new_left = left->right;
                new_right = binop_expression(right, '-', left->left);
                handle_comparison(new_left, expr->op, new_right, NULL, NULL);
        }
}

static void add_comparison_var_sym(const char *left_name,
                struct var_sym_list *left_vsl,
                int comparison,
                const char *right_name, struct var_sym_list *right_vsl)
{
        struct smatch_state *state;
        struct var_sym *vs;
        char state_name[256];

        if (strcmp(left_name, right_name) > 0) {
                const char *tmp_name = left_name;
                struct var_sym_list *tmp_vsl = left_vsl;

                left_name = right_name;
                left_vsl = right_vsl;
                right_name = tmp_name;
                right_vsl = tmp_vsl;
                comparison = flip_comparison(comparison);
        }
        snprintf(state_name, sizeof(state_name), "%s vs %s", left_name, right_name);
        state = alloc_compare_state(left_name, left_vsl, comparison, right_name, right_vsl);

        set_state(compare_id, state_name, NULL, state);

        FOR_EACH_PTR(left_vsl, vs) {
                save_link_var_sym(vs->var, vs->sym, state_name);
        } END_FOR_EACH_PTR(vs);
        FOR_EACH_PTR(right_vsl, vs) {
                save_link_var_sym(vs->var, vs->sym, state_name);
        } END_FOR_EACH_PTR(vs);
}

static void add_comparison(struct expression *left, int comparison, struct expression *right)
{
        char *left_name = NULL;
        char *right_name = NULL;
        struct symbol *left_sym, *right_sym;
        struct var_sym_list *left_vsl, *right_vsl;
        struct smatch_state *state;
        char state_name[256];

        left_name = chunk_to_var_sym(left, &left_sym);
        if (!left_name)
                goto free;
        left_vsl = expr_to_vsl(left);
        right_name = chunk_to_var_sym(right, &right_sym);
        if (!right_name)
                goto free;
        right_vsl = expr_to_vsl(right);

        if (strcmp(left_name, right_name) > 0) {
                struct symbol *tmp_sym = left_sym;
                char *tmp_name = left_name;
                struct var_sym_list *tmp_vsl = left_vsl;

                left_name = right_name;
                left_sym = right_sym;
                left_vsl = right_vsl;
                right_name = tmp_name;
                right_sym = tmp_sym;
                right_vsl = tmp_vsl;
                comparison = flip_comparison(comparison);
        }
        snprintf(state_name, sizeof(state_name), "%s vs %s", left_name, right_name);
        state = alloc_compare_state(left_name, left_vsl, comparison, right_name, right_vsl);

        set_state(compare_id, state_name, NULL, state);
        save_link(left, state_name);
        save_link(right, state_name);

free:
        free_string(left_name);
        free_string(right_name);
}

static void match_assign_add(struct expression *expr)
{
        struct expression *right;
        struct expression *r_left, *r_right;
        sval_t left_tmp, right_tmp;

        right = strip_expr(expr->right);
        r_left = strip_expr(right->left);
        r_right = strip_expr(right->right);

        get_absolute_min(r_left, &left_tmp);
        get_absolute_min(r_right, &right_tmp);

        if (left_tmp.value > 0)
                add_comparison(expr->left, '>', r_right);
        else if (left_tmp.value == 0)
                add_comparison(expr->left, SPECIAL_GTE, r_right);

        if (right_tmp.value > 0)
                add_comparison(expr->left, '>', r_left);
        else if (right_tmp.value == 0)
                add_comparison(expr->left, SPECIAL_GTE, r_left);
}

static void match_assign_sub(struct expression *expr)
{
        struct expression *right;
        struct expression *r_left, *r_right;
        int comparison;
        sval_t min;

        right = strip_expr(expr->right);
        r_left = strip_expr(right->left);
        r_right = strip_expr(right->right);

        if (get_absolute_min(r_right, &min) && sval_is_negative(min))
                return;

        comparison = get_comparison(r_left, r_right);

        switch (comparison) {
        case '>':
        case SPECIAL_GTE:
                if (implied_not_equal(r_right, 0))
                        add_comparison(expr->left, '>', r_left);
                else
                        add_comparison(expr->left, SPECIAL_GTE, r_left);
                return;
        }
}

static void match_assign_divide(struct expression *expr)
{
        struct expression *right;
        struct expression *r_left, *r_right;
        sval_t min;

        right = strip_expr(expr->right);
        r_left = strip_expr(right->left);
        r_right = strip_expr(right->right);
        if (!get_implied_min(r_right, &min) || min.value <= 1)
                return;

        add_comparison(expr->left, '<', r_left);
}

static void match_binop_assign(struct expression *expr)
{
        struct expression *right;

        right = strip_expr(expr->right);
        if (right->op == '+')
                match_assign_add(expr);
        if (right->op == '-')
                match_assign_sub(expr);
        if (right->op == '/')
                match_assign_divide(expr);
}

static void copy_comparisons(struct expression *left, struct expression *right)
{
        struct string_list *links;
        struct smatch_state *state;
        struct compare_data *data;
        struct symbol *left_sym, *right_sym;
        char *left_var = NULL;
        char *right_var = NULL;
        struct var_sym_list *left_vsl;
        const char *var;
        struct var_sym_list *vsl;
        int comparison;
        char *tmp;

        left_var = chunk_to_var_sym(left, &left_sym);
        if (!left_var)
                goto done;
        left_vsl = expr_to_vsl(left);
        right_var = chunk_to_var_sym(right, &right_sym);
        if (!right_var)
                goto done;

        state = get_state(link_id, right_var, right_sym);
        if (!state)
                return;
        links = state->data;

        FOR_EACH_PTR(links, tmp) {
                state = get_state(compare_id, tmp, NULL);
                if (!state || !state->data)
                        continue;
                data = state->data;
                comparison = data->comparison;
                var = data->var2;
                vsl = data->vsl2;
                if (strcmp(var, right_var) == 0) {
                        var = data->var1;
                        vsl = data->vsl1;
                        comparison = flip_comparison(comparison);
                }
                add_comparison_var_sym(left_var, left_vsl, comparison, var, vsl);
        } END_FOR_EACH_PTR(tmp);

done:
        free_string(right_var);
}

static void match_assign(struct expression *expr)
{
        struct expression *right;

        if (expr->op != '=')
                return;
        if (__in_fake_assign || outside_of_function())
                return;

        if (is_struct(expr->left))
                return;

        copy_comparisons(expr->left, expr->right);
        add_comparison(expr->left, SPECIAL_EQUAL, expr->right);

        right = strip_expr(expr->right);
        if (right->type == EXPR_BINOP)
                match_binop_assign(expr);
}

int get_comparison_strings(const char *one, const char *two)
{
        char buf[256];
        struct smatch_state *state;
        int invert = 0;
        int ret = 0;

        if (strcmp(one, two) == 0)
                return SPECIAL_EQUAL;

        if (strcmp(one, two) > 0) {
                const char *tmp = one;

                one = two;
                two = tmp;
                invert = 1;
        }

        snprintf(buf, sizeof(buf), "%s vs %s", one, two);
        state = get_state(compare_id, buf, NULL);
        if (state)
                ret = state_to_comparison(state);

        if (invert)
                ret = flip_comparison(ret);

        return ret;
}

int get_comparison(struct expression *a, struct expression *b)
{
        char *one = NULL;
        char *two = NULL;
        int ret = 0;

        one = chunk_to_var(a);
        if (!one)
                goto free;
        two = chunk_to_var(b);
        if (!two)
                goto free;

        ret = get_comparison_strings(one, two);
free:
        free_string(one);
        free_string(two);
        return ret;
}

int possible_comparison(struct expression *a, int comparison, struct expression *b)
{
        char *one = NULL;
        char *two = NULL;
        int ret = 0;
        char buf[256];
        struct sm_state *sm;
        int saved;

        one = chunk_to_var(a);
        if (!one)
                goto free;
        two = chunk_to_var(b);
        if (!two)
                goto free;


        if (strcmp(one, two) == 0 && comparison == SPECIAL_EQUAL) {
                ret = 1;
                goto free;
        }

        if (strcmp(one, two) > 0) {
                char *tmp = one;

                one = two;
                two = tmp;
                comparison = flip_comparison(comparison);
        }

        snprintf(buf, sizeof(buf), "%s vs %s", one, two);
        sm = get_sm_state(compare_id, buf, NULL);
        if (!sm)
                goto free;

        FOR_EACH_PTR(sm->possible, sm) {
                if (!sm->state->data)
                        continue;
                saved = ((struct compare_data *)sm->state->data)->comparison;
                if (saved == comparison)
                        ret = 1;
                if (comparison == SPECIAL_EQUAL &&
                    (saved == SPECIAL_LTE ||
                     saved == SPECIAL_GTE ||
                     saved == SPECIAL_UNSIGNED_LTE ||
                     saved == SPECIAL_UNSIGNED_GTE))
                        ret = 1;
                if (ret == 1)
                        goto free;
        } END_FOR_EACH_PTR(sm);

        return ret;
free:
        free_string(one);
        free_string(two);
        return ret;
}

struct state_list *get_all_comparisons(struct expression *expr)
{
        struct smatch_state *state;
        struct string_list *links;
        struct state_list *ret = NULL;
        struct sm_state *sm;
        char *tmp;

        state = get_state_expr(link_id, expr);
        if (!state)
                return NULL;
        links = state->data;

        FOR_EACH_PTR(links, tmp) {
                sm = get_sm_state(compare_id, tmp, NULL);
                if (!sm)
                        continue;
                // FIXME have to compare name with vsl
                add_ptr_list(&ret, sm);
        } END_FOR_EACH_PTR(tmp);

        return ret;
}

struct state_list *get_all_possible_equal_comparisons(struct expression *expr)
{
        struct smatch_state *state;
        struct string_list *links;
        struct state_list *ret = NULL;
        struct sm_state *sm;
        char *tmp;

        state = get_state_expr(link_id, expr);
        if (!state)
                return NULL;
        links = state->data;

        FOR_EACH_PTR(links, tmp) {
                sm = get_sm_state(compare_id, tmp, NULL);
                if (!sm)
                        continue;
                if (!strchr(sm->state->name, '='))
                        continue;
                if (strcmp(sm->state->name, "!=") == 0)
                        continue;
                add_ptr_list(&ret, sm);
        } END_FOR_EACH_PTR(tmp);

        return ret;
}

static void update_links_from_call(struct expression *left,
                                   int left_compare,
                                   struct expression *right)
{
        struct string_list *links;
        struct smatch_state *state;
        struct compare_data *data;
        struct symbol *left_sym, *right_sym;
        char *left_var = NULL;
        char *right_var = NULL;
        struct var_sym_list *left_vsl;
        const char *var;
        struct var_sym_list *vsl;
        int comparison;
        char *tmp;

        left_var = chunk_to_var_sym(left, &left_sym);
        if (!left_var)
                goto done;
        left_vsl = expr_to_vsl(left);
        right_var = chunk_to_var_sym(right, &right_sym);
        if (!right_var)
                goto done;

        state = get_state(link_id, right_var, right_sym);
        if (!state)
                return;
        links = state->data;

        FOR_EACH_PTR(links, tmp) {
                state = get_state(compare_id, tmp, NULL);
                if (!state || !state->data)
                        continue;
                data = state->data;
                comparison = data->comparison;
                var = data->var2;
                vsl = data->vsl2;
                if (strcmp(var, right_var) == 0) {
                        var = data->var1;
                        vsl = data->vsl1;
                        comparison = flip_comparison(comparison);
                }
                comparison = combine_comparisons(left_compare, comparison);
                if (!comparison)
                        continue;
                add_comparison_var_sym(left_var, left_vsl, comparison, var, vsl);
        } END_FOR_EACH_PTR(tmp);

done:
        free_string(right_var);
}

void __add_comparison_info(struct expression *expr, struct expression *call, const char *range)
{
        struct expression *arg;
        int comparison;
        const char *c = range;

        if (!str_to_comparison_arg(c, call, &comparison, &arg))
                return;
        update_links_from_call(expr, comparison, arg);
        add_comparison(expr, comparison, arg);
}

static char *range_comparison_to_param_helper(struct expression *expr, char starts_with, int ignore)
{
        struct symbol *param;
        char *var = NULL;
        char buf[256];
        char *ret_str = NULL;
        int compare;
        int i;

        var = chunk_to_var(expr);
        if (!var)
                goto free;

        i = -1;
        FOR_EACH_PTR(cur_func_sym->ctype.base_type->arguments, param) {
                i++;
                if (i == ignore)
                        continue;
                if (!param->ident)
                        continue;
                snprintf(buf, sizeof(buf), "%s orig", param->ident->name);
                compare = get_comparison_strings(var, buf);
                if (!compare)
                        continue;
                if (show_special(compare)[0] != starts_with)
                        continue;
                snprintf(buf, sizeof(buf), "[%s$%d]", show_special(compare), i);
                ret_str = alloc_sname(buf);
                break;
        } END_FOR_EACH_PTR(param);

free:
        free_string(var);
        return ret_str;
}

char *name_sym_to_param_comparison(const char *name, struct symbol *sym)
{
        struct symbol *param;
        char buf[256];
        int compare;
        int i;

        i = -1;
        FOR_EACH_PTR(cur_func_sym->ctype.base_type->arguments, param) {
                i++;
                if (!param->ident)
                        continue;
                snprintf(buf, sizeof(buf), "%s orig", param->ident->name);
                compare = get_comparison_strings(name, buf);
                if (!compare)
                        continue;
                snprintf(buf, sizeof(buf), "[%s$%d]", show_special(compare), i);
                return alloc_sname(buf);
        } END_FOR_EACH_PTR(param);

        return NULL;
}

char *expr_equal_to_param(struct expression *expr, int ignore)
{
        return range_comparison_to_param_helper(expr, '=', ignore);
}

char *expr_lte_to_param(struct expression *expr, int ignore)
{
        return range_comparison_to_param_helper(expr, '<', ignore);
}

char *expr_param_comparison(struct expression *expr, int ignore)
{
        struct symbol *param;
        char *var = NULL;
        char buf[256];
        char *ret_str = NULL;
        int compare;
        int i;

        var = chunk_to_var(expr);
        if (!var)
                goto free;

        i = -1;
        FOR_EACH_PTR(cur_func_sym->ctype.base_type->arguments, param) {
                i++;
                if (i == ignore)
                        continue;
                if (!param->ident)
                        continue;
                snprintf(buf, sizeof(buf), "%s orig", param->ident->name);
                compare = get_comparison_strings(var, buf);
                if (!compare)
                        continue;
                snprintf(buf, sizeof(buf), "[%s$%d]", show_special(compare), i);
                ret_str = alloc_sname(buf);
                break;
        } END_FOR_EACH_PTR(param);

free:
        free_string(var);
        return ret_str;
}

static void match_call_info(struct expression *expr)
{
        struct expression *arg;
        struct smatch_state *state;
        struct sm_state *sm;
        struct compare_data *data;
        int comparison;
        struct string_list *links;
        char *arg_name;
        const char *right_name;
        char *link;
        char info_buf[256];
        int i;

        i = -1;
        FOR_EACH_PTR(expr->args, arg) {
                i++;

                state = get_state_expr(link_id, arg);
                if (!state)
                        continue;

                links = state->data;
                FOR_EACH_PTR(links, link) {
                        if (strstr(link, " orig"))
                                continue;
                        sm = get_sm_state(compare_id, link, NULL);
                        if (!sm)
                                continue;
                        data = sm->state->data;
                        if (!data || !data->comparison)
                                continue;
                        arg_name = expr_to_var(arg);
                        if (!arg_name)
                                continue;

                        if (strcmp(data->var1, arg_name) == 0) {
                                comparison = data->comparison;
                                right_name = data->var2;
                        } else if (strcmp(data->var2, arg_name) == 0) {
                                comparison = flip_comparison(data->comparison);
                                right_name = data->var1;
                        } else {
                                goto free;
                        }

                        snprintf(info_buf, sizeof(info_buf), "%s %s", show_special(comparison), right_name);
                        sql_insert_caller_info(expr, PARAM_COMPARE, i, "$", info_buf);

free:
                        free_string(arg_name);
                } END_FOR_EACH_PTR(link);
        } END_FOR_EACH_PTR(arg);
}

static void free_data(struct symbol *sym)
{
        if (__inline_fn)
                return;
        clear_compare_data_alloc();
}

void register_comparison(int id)
{
        compare_id = id;
        add_hook(&save_start_states, AFTER_DEF_HOOK);
        add_unmatched_state_hook(compare_id, unmatched_comparison);
        add_merge_hook(compare_id, &merge_compare_states);
        add_hook(&free_data, AFTER_FUNC_HOOK);
        add_hook(&match_call_info, FUNCTION_CALL_HOOK);
}

void register_comparison_late(int id)
{
        add_hook(&match_assign, ASSIGNMENT_HOOK);
}

void register_comparison_links(int id)
{
        link_id = id;
        add_merge_hook(link_id, &merge_links);
        add_modification_hook_late(link_id, &match_modify);
}

void register_comparison_inc_dec(int id)
{
        inc_dec_id = id;
        add_modification_hook_late(inc_dec_id, &iter_modify);
}

void register_comparison_inc_dec_links(int id)
{
        inc_dec_link_id = id;
        set_up_link_functions(inc_dec_id, inc_dec_link_id);
}

static void filter_by_sm(struct sm_state *sm, int op,
                       struct state_list **true_stack,
                       struct state_list **false_stack)
{
        struct compare_data *data;
        int istrue = 0;
        int isfalse = 0;

        if (!sm)
                return;
        data = sm->state->data;
        if (!data) {
                if (sm->merged) {
                        filter_by_sm(sm->left, op, true_stack, false_stack);
                        filter_by_sm(sm->right, op, true_stack, false_stack);
                }
                return;
        }

        if (data->comparison &&
            data->comparison == filter_comparison(data->comparison, op))
                istrue = 1;

        if (data->comparison &&
            data->comparison == filter_comparison(data->comparison, negate_comparison(op)))
                isfalse = 1;

        if (istrue)
                add_ptr_list(true_stack, sm);
        if (isfalse)
                add_ptr_list(false_stack, sm);

        if (sm->merged) {
                filter_by_sm(sm->left, op, true_stack, false_stack);
                filter_by_sm(sm->right, op, true_stack, false_stack);
        }
}

struct sm_state *comparison_implication_hook(struct expression *expr,
                                struct state_list **true_stack,
                                struct state_list **false_stack)
{
        struct sm_state *sm;
        char *left, *right;
        int op;
        static char buf[256];

        if (expr->type != EXPR_COMPARE)
                return NULL;

        op = expr->op;

        left = expr_to_var(expr->left);
        right = expr_to_var(expr->right);
        if (!left || !right) {
                free_string(left);
                free_string(right);
                return NULL;
        }

        if (strcmp(left, right) > 0) {
                char *tmp = left;

                left = right;
                right = tmp;
                op = flip_comparison(op);
        }

        snprintf(buf, sizeof(buf), "%s vs %s", left, right);
        sm = get_sm_state(compare_id, buf, NULL);
        if (!sm)
                return NULL;
        if (!sm->merged)
                return NULL;

        filter_by_sm(sm, op, true_stack, false_stack);
        if (!*true_stack && !*false_stack)
                return NULL;

        return sm;
}