unwind: paths where the parent is gone are counted as param_released

[smatch.git] / builtin.c

/*
 * builtin evaluation & expansion.
 *
 * Copyright (C) 2003 Transmeta Corp.
 *               2003-2004 Linus Torvalds
 *
 * Permission is hereby granted, free of charge, to any person obtaining a copy
 * of this software and associated documentation files (the "Software"), to deal
 * in the Software without restriction, including without limitation the rights
 * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
 * copies of the Software, and to permit persons to whom the Software is
 * furnished to do so, subject to the following conditions:
 *
 * The above copyright notice and this permission notice shall be included in
 * all copies or substantial portions of the Software.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
 * THE SOFTWARE.
 */

#include "builtin.h"
#include "expression.h"
#include "evaluate.h"
#include "expand.h"
#include "symbol.h"
#include "compat/bswap.h"
#include <stdarg.h>

static int evaluate_to_int_const_expr(struct expression *expr)
{
        expr->ctype = &int_ctype;
        expr->flags |= CEF_SET_ICE;
        return 1;
}

static int evaluate_pure_unop(struct expression *expr)
{
        struct expression *arg = first_expression(expr->args);
        int flags = arg->flags;

        /*
         * Allow such functions with a constant integer expression
         * argument to be treated as a *constant* integer.
         * This allow us to use them in switch() { case ...:
         */
        flags |= (flags & CEF_ICE) ? CEF_SET_INT : 0;
        expr->flags = flags;
        return 1;
}

/*
 * eval_args - check the number of arguments and evaluate them.
 */
static int eval_args(struct expression *expr, int n)
{
        struct expression *arg;
        struct symbol *sym;
        const char *msg;
        int rc = 1;

        FOR_EACH_PTR(expr->args, arg) {
                if (n-- == 0) {
                        msg = "too many arguments";
                        goto error;
                }
                if (!evaluate_expression(arg))
                        rc = 0;
        } END_FOR_EACH_PTR(arg);
        if (n > 0) {
                msg = "not enough arguments";
                goto error;
        }
        return rc;

error:
        sym = expr->fn->ctype;
        expression_error(expr, "%s for %s", msg, show_ident(sym->ident));
        return 0;
}

static int args_triadic(struct expression *expr)
{
        return eval_args(expr, 3);
}

static int evaluate_choose(struct expression *expr)
{
        struct expression_list *list = expr->args;
        struct expression *arg, *args[3];
        int n = 0;

        /* there will be exactly 3; we'd already verified that */
        FOR_EACH_PTR(list, arg) {
                args[n++] = arg;
        } END_FOR_EACH_PTR(arg);

        *expr = get_expression_value(args[0]) ? *args[1] : *args[2];

        return 1;
}

static int expand_expect(struct expression *expr, int cost)
{
        struct expression *arg = first_ptr_list((struct ptr_list *) expr->args);

        if (arg)
                *expr = *arg;
        return 0;
}

/*
 * __builtin_warning() has type "int" and always returns 1,
 * so that you can use it in conditionals or whatever
 */
static int expand_warning(struct expression *expr, int cost)
{
        struct expression *arg;
        struct expression_list *arglist = expr->args;

        FOR_EACH_PTR (arglist, arg) {
                /*
                 * Constant strings get printed out as a warning. By the
                 * time we get here, the EXPR_STRING has been fully 
                 * evaluated, so by now it's an anonymous symbol with a
                 * string initializer.
                 *
                 * Just for the heck of it, allow any constant string
                 * symbol.
                 */
                if (arg->type == EXPR_SYMBOL) {
                        struct symbol *sym = arg->symbol;
                        if (sym->initializer && sym->initializer->type == EXPR_STRING) {
                                struct string *string = sym->initializer->string;
                                warning(expr->pos, "%*s", string->length-1, string->data);
                        }
                        continue;
                }

                /*
                 * Any other argument is a conditional. If it's
                 * non-constant, or it is false, we exit and do
                 * not print any warning.
                 */
                if (arg->type != EXPR_VALUE)
                        goto out;
                if (!arg->value)
                        goto out;
        } END_FOR_EACH_PTR(arg);
out:
        expr->type = EXPR_VALUE;
        expr->value = 1;
        expr->taint = 0;
        return 0;
}

/* The arguments are constant if the cost of all of them is zero */
static int expand_constant_p(struct expression *expr, int cost)
{
        expr->type = EXPR_VALUE;
        expr->value = !cost;
        expr->taint = 0;
        return 0;
}

/* The arguments are safe, if their cost is less than SIDE_EFFECTS */
static int expand_safe_p(struct expression *expr, int cost)
{
        expr->type = EXPR_VALUE;
        expr->value = (cost < SIDE_EFFECTS);
        expr->taint = 0;
        return 0;
}

static struct symbol_op constant_p_op = {
        .evaluate = evaluate_to_int_const_expr,
        .expand = expand_constant_p
};

static struct symbol_op safe_p_op = {
        .evaluate = evaluate_to_int_const_expr,
        .expand = expand_safe_p
};

static struct symbol_op warning_op = {
        .evaluate = evaluate_to_int_const_expr,
        .expand = expand_warning
};

static struct symbol_op expect_op = {
        .expand = expand_expect
};

static struct symbol_op choose_op = {
        .args = args_triadic,
        .evaluate = evaluate_choose,
};

/* The argument is constant and valid if the cost is zero */
static int expand_bswap(struct expression *expr, int cost)
{
        struct expression *arg;
        long long val;

        if (cost)
                return cost;

        /* the arguments number & type have already been checked */
        arg = first_expression(expr->args);
        val = get_expression_value_silent(arg);
        switch (expr->ctype->bit_size) {
        case 16: expr->value = bswap16(val); break;
        case 32: expr->value = bswap32(val); break;
        case 64: expr->value = bswap64(val); break;
        default: /* impossible error */
                return SIDE_EFFECTS;
        }

        expr->type = EXPR_VALUE;
        expr->taint = 0;
        return 0;
}

static struct symbol_op bswap_op = {
        .evaluate = evaluate_pure_unop,
        .expand = expand_bswap,
};


#define EXPAND_FINDBIT(name)                                    \
static int expand_##name(struct expression *expr, int cost)     \
{                                                               \
        struct expression *arg;                                 \
        long long val;                                          \
                                                                \
        if (cost)                                               \
                return cost;                                    \
                                                                \
        arg = first_expression(expr->args);                     \
        val = get_expression_value_silent(arg);                 \
        switch (arg->ctype->bit_size) {                         \
        case sizeof(int) * 8:                                   \
                val = __builtin_##name(val); break;             \
        case sizeof(long long) * 8:                             \
                val = __builtin_##name##ll(val); break;         \
        default: /* impossible error */                         \
                return SIDE_EFFECTS;                            \
        }                                                       \
                                                                \
        expr->value = val;                                      \
        expr->type = EXPR_VALUE;                                \
        expr->taint = 0;                                        \
        return 0;                                               \
}                                                               \
                                                                \
static struct symbol_op name##_op = {                           \
        .evaluate = evaluate_pure_unop,                         \
        .expand = expand_##name,                                \
}

EXPAND_FINDBIT(clz);
EXPAND_FINDBIT(ctz);
EXPAND_FINDBIT(clrsb);
EXPAND_FINDBIT(ffs);
EXPAND_FINDBIT(parity);
EXPAND_FINDBIT(popcount);

static int evaluate_fp_unop(struct expression *expr)
{
        struct expression *arg;

        if (!eval_args(expr, 1))
                return 0;

        arg = first_expression(expr->args);
        if (!is_float_type(arg->ctype)) {
                expression_error(expr, "non-floating-point argument in call to %s()",
                        show_ident(expr->fn->ctype->ident));
                return 0;
        }
        return 1;
}

static struct symbol_op fp_unop_op = {
        .evaluate = evaluate_fp_unop,
};


static int evaluate_overflow_gen(struct expression *expr, int ptr)
{
        struct expression *arg;
        int n = 0;

        /* there will be exactly 3; we'd already verified that */
        FOR_EACH_PTR(expr->args, arg) {
                struct symbol *type;

                n++;
                if (!arg || !(type = arg->ctype))
                        return 0;
                // 1st & 2nd args must be a basic integer type
                // 3rd arg must be a pointer to such a type.
                if (n == 3 && ptr) {
                        if (type->type == SYM_NODE)
                                type = type->ctype.base_type;
                        if (!type)
                                return 0;
                        if (type->type != SYM_PTR)
                                goto err;
                        type = type->ctype.base_type;
                        if (!type)
                                return 0;
                }
                if (type->type == SYM_NODE)
                        type = type->ctype.base_type;
                if (!type)
                        return 0;
                if (type->ctype.base_type != &int_type || type == &bool_ctype)
                        goto err;
        } END_FOR_EACH_PTR(arg);

        // the builtin returns a bool
        expr->ctype = &bool_ctype;
        return 1;

err:
        sparse_error(arg->pos, "invalid type for argument %d:", n);
        info(arg->pos, "        %s", show_typename(arg->ctype));
        expr->ctype = &bad_ctype;
        return 0;
}

static int evaluate_overflow(struct expression *expr)
{
        return evaluate_overflow_gen(expr, 1);
}

static struct symbol_op overflow_op = {
        .args = args_triadic,
        .evaluate = evaluate_overflow,
};

static int evaluate_overflow_p(struct expression *expr)
{
        return evaluate_overflow_gen(expr, 0);
}

static struct symbol_op overflow_p_op = {
        .args = args_triadic,
        .evaluate = evaluate_overflow_p,
};


static int eval_sync_compare_and_swap(struct expression *expr)
{
        struct symbol_list *types = NULL;
        struct symbol *ctype = NULL;
        struct expression *arg;
        int n = 0;

        /* the first arg is a pointer type; we'd already verified that */
        FOR_EACH_PTR(expr->args, arg) {
                struct symbol *t = arg->ctype;

                if (!t)
                        return 0;

                // 2nd & 3rd args must be a basic integer type or a pointer
                // 1st arg must be a pointer to such a type.
                if (++n == 1) {
                        if (t->type == SYM_NODE)
                                t = t->ctype.base_type;
                        if (!t)
                                return 0;
                        if (t->type != SYM_PTR)
                                goto err;
                        t = t->ctype.base_type;
                        if (!t)
                                return 0;
                        if (t->type == SYM_NODE)
                                t = t->ctype.base_type;
                        if (!t)
                                return 0;
                        if (t->type != SYM_PTR && t->ctype.base_type != &int_type)
                                goto err;
                        ctype = t;
                        add_ptr_list(&types, arg->ctype);
                } else {
                        add_ptr_list(&types, ctype);
                }
        } END_FOR_EACH_PTR(arg);

        if (!expr->ctype)       // __sync_val_compare_and_swap()
                expr->ctype = ctype;
        return evaluate_arguments(types, expr->args);

err:
        sparse_error(arg->pos, "invalid type for argument %d:", n);
        info(arg->pos, "        %s", show_typename(arg->ctype));
        expr->ctype = &bad_ctype;
        return 0;
}

static struct symbol_op sync_compare_and_swap_op = {
        .args = args_triadic,
        .evaluate = eval_sync_compare_and_swap,
};


/*
 * Builtin functions
 */
static struct symbol size_t_alias;

static struct symbol *get_ctype(struct symbol *sym)
{
        if (sym == &size_t_alias)
                return size_t_ctype;
        return sym;
}

static void declare_builtin(int stream, const struct builtin_fn *entry)
{
        struct symbol *sym = create_symbol(stream, entry->name, SYM_NODE, NS_SYMBOL);
        struct symbol *fun = alloc_symbol(sym->pos, SYM_FN);
        struct symbol *arg;
        int i;

        sym->ctype.base_type = fun;
        sym->ctype.modifiers = MOD_TOPLEVEL;
        sym->builtin = 1;
        sym->op = entry->op;

        fun->ctype.base_type = get_ctype(entry->ret_type);
        fun->variadic = entry->variadic;

        for (i = 0; (arg = entry->args[i]); i++) {
                struct symbol *anode = alloc_symbol(sym->pos, SYM_NODE);
                anode->ctype.base_type = get_ctype(arg);
                add_symbol(&fun->arguments, anode);
        }
}

static void declare_builtins(int stream, const struct builtin_fn tbl[])
{
        if (!tbl)
                return;

        while (tbl->name)
                declare_builtin(stream, tbl++);
}

static const struct builtin_fn builtins_common[] = {
#define size_t_ctype    &size_t_alias
#define va_list_ctype   &ptr_ctype
        { "__builtin_choose_expr", NULL, 1, .op = &choose_op },
        { "__builtin_constant_p", NULL, 1, .op = &constant_p_op },
        { "__builtin_expect", &long_ctype, 0, { &long_ctype ,&long_ctype }, .op = &expect_op },
        { "__builtin_safe_p", NULL, 1, .op = &safe_p_op },
        { "__builtin_warning", NULL, 1, .op = &warning_op },

        { "__builtin_abort", &void_ctype, 0 },
        { "__builtin_abs", &int_ctype , 0, { &int_ctype }},
        { "__builtin_add_overflow", &bool_ctype, 1, .op = &overflow_op },
        { "__builtin_add_overflow_p", &bool_ctype, 1, .op = &overflow_p_op },
        { "__builtin_alloca", &ptr_ctype, 0, { size_t_ctype }},
        { "__builtin_bcmp", &int_ctype , 0, { &const_ptr_ctype, &const_ptr_ctype, size_t_ctype }},
        { "__builtin_bcopy", &void_ctype, 0, { &const_ptr_ctype, &ptr_ctype, size_t_ctype }},
        { "__builtin_bswap16", &ushort_ctype, 0, { &ushort_ctype }, .op = &bswap_op },
        { "__builtin_bswap32", &uint_ctype, 0, { &uint_ctype }, .op = &bswap_op },
        { "__builtin_bswap64", &ullong_ctype, 0, { &ullong_ctype }, .op = &bswap_op },
        { "__builtin_bzero", &void_ctype, 0, { &ptr_ctype, size_t_ctype }},
        { "__builtin_calloc", &ptr_ctype, 0, { size_t_ctype, size_t_ctype }},
        { "__builtin_clrsb", &int_ctype, 0, { &int_ctype }, .op = &clrsb_op },
        { "__builtin_clrsbl", &int_ctype, 0, { &long_ctype }, .op = &clrsb_op },
        { "__builtin_clrsbll", &int_ctype, 0, { &llong_ctype }, .op = &clrsb_op },
        { "__builtin_clz", &int_ctype, 0, { &int_ctype }, .op = &clz_op },
        { "__builtin_clzl", &int_ctype, 0, { &long_ctype }, .op = &clz_op },
        { "__builtin_clzll", &int_ctype, 0, { &llong_ctype }, .op = &clz_op },
        { "__builtin_ctz", &int_ctype, 0, { &int_ctype }, .op = &ctz_op },
        { "__builtin_ctzl", &int_ctype, 0, { &long_ctype }, .op = &ctz_op },
        { "__builtin_ctzll", &int_ctype, 0, { &llong_ctype }, .op = &ctz_op },
        { "__builtin_exit", &void_ctype, 0, { &int_ctype }},
        { "__builtin_extract_return_addr", &ptr_ctype, 0, { &ptr_ctype }},
        { "__builtin_fabs", &double_ctype, 0, { &double_ctype }},
        { "__builtin_ffs", &int_ctype, 0, { &int_ctype }, .op = &ffs_op },
        { "__builtin_ffsl", &int_ctype, 0, { &long_ctype }, .op = &ffs_op },
        { "__builtin_ffsll", &int_ctype, 0, { &llong_ctype }, .op = &ffs_op },
        { "__builtin_frame_address", &ptr_ctype, 0, { &uint_ctype }},
        { "__builtin_free", &void_ctype, 0, { &ptr_ctype }},
        { "__builtin_huge_val", &double_ctype, 0 },
        { "__builtin_huge_valf", &float_ctype, 0 },
        { "__builtin_huge_vall", &ldouble_ctype, 0 },
        { "__builtin_index", &string_ctype, 0, { &const_string_ctype, &int_ctype }},
        { "__builtin_inf", &double_ctype, 0 },
        { "__builtin_inff", &float_ctype, 0 },
        { "__builtin_infl", &ldouble_ctype, 0 },
        { "__builtin_isfinite", &int_ctype, 1, .op = &fp_unop_op },
        { "__builtin_isgreater", &int_ctype, 0, { &float_ctype, &float_ctype }},
        { "__builtin_isgreaterequal", &int_ctype, 0, { &float_ctype, &float_ctype }},
        { "__builtin_isinf", &int_ctype, 1, .op = &fp_unop_op },
        { "__builtin_isinf_sign", &int_ctype, 1, .op = &fp_unop_op },
        { "__builtin_isless", &int_ctype, 0, { &float_ctype, &float_ctype }},
        { "__builtin_islessequal", &int_ctype, 0, { &float_ctype, &float_ctype }},
        { "__builtin_islessgreater", &int_ctype, 0, { &float_ctype, &float_ctype }},
        { "__builtin_isnan", &int_ctype, 1, .op = &fp_unop_op },
        { "__builtin_isnormal", &int_ctype, 1, .op = &fp_unop_op },
        { "__builtin_isunordered", &int_ctype, 0, { &float_ctype, &float_ctype }},
        { "__builtin_labs", &long_ctype, 0, { &long_ctype }},
        { "__builtin_llabs", &llong_ctype, 0, { &llong_ctype }},
        { "__builtin_malloc", &ptr_ctype, 0, { size_t_ctype }},
        { "__builtin_memchr", &ptr_ctype, 0, { &const_ptr_ctype, &int_ctype, size_t_ctype }},
        { "__builtin_memcmp", &int_ctype, 0, { &const_ptr_ctype, &const_ptr_ctype, size_t_ctype }},
        { "__builtin_memcpy", &ptr_ctype, 0, { &ptr_ctype, &const_ptr_ctype, size_t_ctype }},
        { "__builtin_memmove", &ptr_ctype, 0, { &ptr_ctype, &const_ptr_ctype, size_t_ctype }},
        { "__builtin_mempcpy", &ptr_ctype, 0, { &ptr_ctype, &const_ptr_ctype, size_t_ctype }},
        { "__builtin_memset", &ptr_ctype, 0, { &ptr_ctype, &int_ctype, size_t_ctype }},
        { "__builtin_mul_overflow", &bool_ctype, 1, .op = &overflow_op },
        { "__builtin_mul_overflow_p", &bool_ctype, 1, .op = &overflow_p_op },
        { "__builtin_nan", &double_ctype, 0, { &const_string_ctype }},
        { "__builtin_nanf", &float_ctype, 0, { &const_string_ctype }},
        { "__builtin_nanl", &ldouble_ctype, 0, { &const_string_ctype }},
        { "__builtin_object_size", size_t_ctype, 0, { &const_ptr_ctype, &int_ctype }},
        { "__builtin_parity", &int_ctype, 0, { &uint_ctype }, .op = &parity_op },
        { "__builtin_parityl", &int_ctype, 0, { &ulong_ctype }, .op = &parity_op },
        { "__builtin_parityll", &int_ctype, 0, { &ullong_ctype }, .op = &parity_op },
        { "__builtin_popcount", &int_ctype, 0, { &uint_ctype }, .op = &popcount_op },
        { "__builtin_popcountl", &int_ctype, 0, { &ulong_ctype }, .op = &popcount_op },
        { "__builtin_popcountll", &int_ctype, 0, { &ullong_ctype }, .op = &popcount_op },
        { "__builtin_prefetch", &void_ctype, 1, { &const_ptr_ctype }},
        { "__builtin_printf", &int_ctype, 1, { &const_string_ctype }},
        { "__builtin_puts", &int_ctype, 0, { &const_string_ctype }},
        { "__builtin_realloc", &ptr_ctype, 0, { &ptr_ctype, size_t_ctype }},
        { "__builtin_return_address", &ptr_ctype, 0, { &uint_ctype }},
        { "__builtin_rindex", &string_ctype, 0, { &const_string_ctype, &int_ctype }},
        { "__builtin_sadd_overflow", &bool_ctype, 0, { &int_ctype, &int_ctype, &int_ptr_ctype }},
        { "__builtin_saddl_overflow", &bool_ctype, 0, { &long_ctype, &long_ctype, &long_ptr_ctype }},
        { "__builtin_saddll_overflow", &bool_ctype, 0, { &llong_ctype, &llong_ctype, &llong_ptr_ctype }},
        { "__builtin_signbit", &int_ctype, 1 , .op = &fp_unop_op },
        { "__builtin_smul_overflow", &bool_ctype, 0, { &int_ctype, &int_ctype, &int_ptr_ctype }},
        { "__builtin_smull_overflow", &bool_ctype, 0, { &long_ctype, &long_ctype, &long_ptr_ctype }},
        { "__builtin_smulll_overflow", &bool_ctype, 0, { &llong_ctype, &llong_ctype, &llong_ptr_ctype }},
        { "__builtin_snprintf", &int_ctype, 1, { &string_ctype, size_t_ctype, &const_string_ctype }},
        { "__builtin_sprintf", &int_ctype, 1, { &string_ctype, &const_string_ctype }},
        { "__builtin_ssub_overflow", &bool_ctype, 0, { &int_ctype, &int_ctype, &int_ptr_ctype }},
        { "__builtin_ssubl_overflow", &bool_ctype, 0, { &long_ctype, &long_ctype, &long_ptr_ctype }},
        { "__builtin_ssubll_overflow", &bool_ctype, 0, { &llong_ctype, &llong_ctype, &llong_ptr_ctype }},
        { "__builtin_stpcpy", &string_ctype, 0, { &const_string_ctype, &const_string_ctype }},
        { "__builtin_stpncpy", &string_ctype, 0, { &const_string_ctype, &const_string_ctype, size_t_ctype }},
        { "__builtin_strcasecmp", &int_ctype, 0, { &const_string_ctype, &const_string_ctype }},
        { "__builtin_strcasestr", &string_ctype, 0, { &const_string_ctype, &const_string_ctype }},
        { "__builtin_strcat", &string_ctype, 0, { &string_ctype, &const_string_ctype }},
        { "__builtin_strchr", &string_ctype, 0, { &const_string_ctype, &int_ctype }},
        { "__builtin_strcmp", &int_ctype, 0, { &const_string_ctype, &const_string_ctype }},
        { "__builtin_strcpy", &string_ctype, 0, { &string_ctype, &const_string_ctype }},
        { "__builtin_strcspn", size_t_ctype, 0, { &const_string_ctype, &const_string_ctype }},
        { "__builtin_strdup", &string_ctype, 0, { &const_string_ctype }},
        { "__builtin_strlen", size_t_ctype, 0, { &const_string_ctype }},
        { "__builtin_strncasecmp", &int_ctype, 0, { &const_string_ctype, &const_string_ctype, size_t_ctype }},
        { "__builtin_strncat", &string_ctype, 0, { &string_ctype, &const_string_ctype, size_t_ctype }},
        { "__builtin_strncmp", &int_ctype, 0, { &const_string_ctype, &const_string_ctype, size_t_ctype }},
        { "__builtin_strncpy", &string_ctype, 0, { &string_ctype, &const_string_ctype, size_t_ctype }},
        { "__builtin_strndup", &string_ctype, 0, { &const_string_ctype, size_t_ctype }},
        { "__builtin_strnstr", &string_ctype, 0, { &const_string_ctype, &const_string_ctype, size_t_ctype }},
        { "__builtin_strpbrk", &string_ctype, 0, { &const_string_ctype, &const_string_ctype }},
        { "__builtin_strrchr", &string_ctype, 0, { &const_string_ctype, &int_ctype }},
        { "__builtin_strspn", size_t_ctype, 0, { &const_string_ctype, &const_string_ctype }},
        { "__builtin_strstr", &string_ctype, 0, { &const_string_ctype, &const_string_ctype }},
        { "__builtin_sub_overflow", &bool_ctype, 1, .op = &overflow_op },
        { "__builtin_sub_overflow_p", &bool_ctype, 1, .op = &overflow_p_op },
        { "__builtin_trap", &void_ctype, 0 },
        { "__builtin_uadd_overflow", &bool_ctype, 0, { &uint_ctype, &uint_ctype, &uint_ptr_ctype }},
        { "__builtin_uaddl_overflow", &bool_ctype, 0, { &ulong_ctype, &ulong_ctype, &ulong_ptr_ctype }},
        { "__builtin_uaddll_overflow", &bool_ctype, 0, { &ullong_ctype, &ullong_ctype, &ullong_ptr_ctype }},
        { "__builtin_umul_overflow", &bool_ctype, 0, { &uint_ctype, &uint_ctype, &uint_ptr_ctype }},
        { "__builtin_umull_overflow", &bool_ctype, 0, { &ulong_ctype, &ulong_ctype, &ulong_ptr_ctype }},
        { "__builtin_umulll_overflow", &bool_ctype, 0, { &ullong_ctype, &ullong_ctype, &ullong_ptr_ctype }},
        { "__builtin_unreachable", &void_ctype, 0 },
        { "__builtin_usub_overflow", &bool_ctype, 0, { &uint_ctype, &uint_ctype, &uint_ptr_ctype }},
        { "__builtin_usubl_overflow", &bool_ctype, 0, { &ulong_ctype, &ulong_ctype, &ulong_ptr_ctype }},
        { "__builtin_usubll_overflow", &bool_ctype, 0, { &ullong_ctype, &ullong_ctype, &ullong_ptr_ctype }},
        { "__builtin_va_arg_pack_len", size_t_ctype, 0 },
        { "__builtin_vprintf", &int_ctype, 0, { &const_string_ctype, va_list_ctype }},
        { "__builtin_vsnprintf", &int_ctype, 0, { &string_ctype, size_t_ctype, &const_string_ctype, va_list_ctype }},
        { "__builtin_vsprintf", &int_ctype, 0, { &string_ctype, &const_string_ctype, va_list_ctype }},

        { "__builtin___memcpy_chk", &ptr_ctype, 0, { &ptr_ctype, &const_ptr_ctype, size_t_ctype, size_t_ctype }},
        { "__builtin___memmove_chk", &ptr_ctype, 0, { &ptr_ctype, &const_ptr_ctype, size_t_ctype, size_t_ctype }},
        { "__builtin___mempcpy_chk", &ptr_ctype, 0, { &ptr_ctype, &const_ptr_ctype, size_t_ctype, size_t_ctype }},
        { "__builtin___memset_chk", &ptr_ctype, 0, { &ptr_ctype, &int_ctype, size_t_ctype, size_t_ctype }},
        { "__builtin___snprintf_chk", &int_ctype, 1, { &string_ctype, size_t_ctype, &int_ctype , size_t_ctype, &const_string_ctype }},
        { "__builtin___sprintf_chk", &int_ctype, 1, { &string_ctype, &int_ctype, size_t_ctype, &const_string_ctype }},
        { "__builtin___stpcpy_chk", &string_ctype, 0, { &string_ctype, &const_string_ctype, size_t_ctype }},
        { "__builtin___strcat_chk", &string_ctype, 0, { &string_ctype, &const_string_ctype, size_t_ctype }},
        { "__builtin___strcpy_chk", &string_ctype, 0, { &string_ctype, &const_string_ctype, size_t_ctype }},
        { "__builtin___strncat_chk", &string_ctype, 0, { &string_ctype, &const_string_ctype, size_t_ctype, size_t_ctype }},
        { "__builtin___strncpy_chk", &string_ctype, 0, { &string_ctype, &const_string_ctype, size_t_ctype, size_t_ctype }},
        { "__builtin___vsnprintf_chk", &int_ctype, 0, { &string_ctype, size_t_ctype, &int_ctype, size_t_ctype, &const_string_ctype, va_list_ctype }},
        { "__builtin___vsprintf_chk", &int_ctype, 0, { &string_ctype, &int_ctype, size_t_ctype, &const_string_ctype, va_list_ctype }},

        { "__sync_add_and_fetch", &int_ctype, 1, { &ptr_ctype }},
        { "__sync_and_and_fetch", &int_ctype, 1, { &ptr_ctype }},
        { "__sync_bool_compare_and_swap", &bool_ctype, 1, { &ptr_ctype }, .op = &sync_compare_and_swap_op},
        { "__sync_fetch_and_add", &int_ctype, 1, { &ptr_ctype }},
        { "__sync_fetch_and_and", &int_ctype, 1, { &ptr_ctype }},
        { "__sync_fetch_and_nand", &int_ctype, 1, { &ptr_ctype }},
        { "__sync_fetch_and_or", &int_ctype, 1, { &ptr_ctype }},
        { "__sync_fetch_and_sub", &int_ctype, 1, { &ptr_ctype }},
        { "__sync_fetch_and_xor", &int_ctype, 1, { &ptr_ctype }},
        { "__sync_lock_release", &void_ctype, 1, { &ptr_ctype }},
        { "__sync_lock_test_and_set", &int_ctype, 1, { &ptr_ctype }},
        { "__sync_nand_and_fetch", &int_ctype, 1, { &ptr_ctype }},
        { "__sync_or_and_fetch", &int_ctype, 1, { &ptr_ctype }},
        { "__sync_sub_and_fetch", &int_ctype, 1, { &ptr_ctype }},
        { "__sync_synchronize", &void_ctype, 0 },
        { "__sync_val_compare_and_swap", NULL, 1, { &ptr_ctype }, .op = &sync_compare_and_swap_op },
        { "__sync_xor_and_fetch", &int_ctype, 1, { &ptr_ctype }},

        { }
};

void init_builtins(int stream)
{
        declare_builtins(stream, builtins_common);
        declare_builtins(stream, arch_target->builtins);
        init_linearized_builtins(stream);
}