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#  Copyright (C) 2003-2013 Free Software Foundation, Inc.
#  Contributed by Kelley Cook, June 2004.
#  Original code from Neil Booth, May 2003.
#
# 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 3, 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; see the file COPYING3.  If not see
# <http://www.gnu.org/licenses/>.

# This Awk script reads in the option records generated from 
# opt-gather.awk, combines the flags of duplicate options and generates a
# C file.
#

# This program uses functions from opt-functions.awk and code from
# opt-read.awk.
#
# Usage: awk -f opt-functions.awk -f opt-read.awk -f optc-gen.awk \
#            [-v header_name=header.h] < inputfile > options.c

# Dump that array of options into a C file.
END {

# Record first EnabledBy and LangEnabledBy uses.
n_enabledby = 0;
for (i = 0; i < n_langs; i++) {
    n_enabledby_lang[i] = 0;
}
for (i = 0; i < n_opts; i++) {
    enabledby_arg = opt_args("EnabledBy", flags[i]);
    if (enabledby_arg != "") {
        n_enabledby_names = split(enabledby_arg, enabledby_names, " && ");
        if (n_enabledby_names > 2) {
            print "#error EnabledBy (Wfoo && Wbar && Wbaz) not currently supported"
        }
        for (j = 1; j <= n_enabledby_names; j++) {
            enabledby_name = enabledby_names[j];
            enabledby_index = opt_numbers[enabledby_name];
            if (enabledby_index == "") {
                print "#error Enabledby: " enabledby_name 
            } else {
                condition = "";
                if (n_enabledby_names == 2) {
                    opt_var_name_1 = search_var_name(enabledby_names[1], opt_numbers, opts, flags, n_opts);
                    opt_var_name_2 = search_var_name(enabledby_names[2], opt_numbers, opts, flags, n_opts);
                    if (opt_var_name_1 == "") {
                        print "#error " enabledby_names[1] " does not have a Var() flag"
                    }
                    if (opt_var_name_2 == "") {
                        print "#error " enabledby_names[2] " does not have a Var() flag"
                    }
                    condition = "opts->x_" opt_var_name_1 " && opts->x_" opt_var_name_2;
                }
                if (enables[enabledby_name] == "") {
                    enabledby[n_enabledby] = enabledby_name;
                    n_enabledby++;
                }
                enables[enabledby_name] = enables[enabledby_name] opts[i] ";";
                enablesif[enabledby_name] = enablesif[enabledby_name] condition ";";
            }
        }
    }

    enabledby_arg = opt_args("LangEnabledBy", flags[i]);
    if (enabledby_arg != "") {
        enabledby_langs = nth_arg(0, enabledby_arg);
        enabledby_name = nth_arg(1, enabledby_arg);
        enabledby_posarg = nth_arg(2, enabledby_arg);
	enabledby_negarg = nth_arg(3, enabledby_arg);
        lang_enabled_by(enabledby_langs, enabledby_name, enabledby_posarg, enabledby_negarg);
    }
}


print "/* This file is auto-generated by optc-gen.awk.  */"
print ""
n_headers = split(header_name, headers, " ")
for (i = 1; i <= n_headers; i++)
	print "#include " quote headers[i] quote
print "#include " quote "opts.h" quote
print "#include " quote "intl.h" quote
print "#include " quote "insn-attr-common.h" quote
print ""

if (n_extra_c_includes > 0) {
	for (i = 0; i < n_extra_c_includes; i++) {
		print "#include " quote extra_c_includes[i] quote
	}
	print ""
}

for (i = 0; i < n_enums; i++) {
	name = enum_names[i]
	type = enum_type[name]
	print "static const struct cl_enum_arg cl_enum_" name \
	    "_data[] = "
	print "{"
	print enum_data[name] "  { NULL, 0, 0 }"
	print "};"
	print ""
	print "static void"
	print "cl_enum_" name "_set (void *var, int value)"
	print "{"
	print "  *((" type " *) var) = (" type ") value;"
	print "}"
	print ""
	print "static int"
	print "cl_enum_" name "_get (const void *var)"
	print "{"
	print "  return (int) *((const " type " *) var);"
	print "}"
	print ""
}

print "const struct cl_enum cl_enums[] ="
print "{"
for (i = 0; i < n_enums; i++) {
	name = enum_names[i]
	ehelp = enum_help[name]
	if (ehelp == "")
		ehelp = "NULL"
	else
		ehelp = quote ehelp quote
	unknown_error = enum_unknown_error[name]
	if (unknown_error == "")
		unknown_error = "NULL"
	else
		unknown_error = quote unknown_error quote
	print "  {"
	print "    " ehelp ","
	print "    " unknown_error ","
	print "    cl_enum_" name "_data,"
	print "    sizeof (" enum_type[name] "),"
	print "    cl_enum_" name "_set,"
	print "    cl_enum_" name "_get"
	print "  },"
}
print "};"
print "const unsigned int cl_enums_count = " n_enums ";"
print ""

print "const struct gcc_options global_options_init =\n{"
for (i = 0; i < n_extra_vars; i++) {
	var = extra_vars[i]
	init = extra_vars[i]
	if (var ~ "=" ) {
		sub(".*= *", "", init)
	} else {
		init = "0"
	}
	sub(" *=.*", "", var)
	name = var
	sub("^.*[ *]", "", name)
	sub("\\[.*\\]$", "", name)
	var_seen[name] = 1
	print "  " init ", /* " name " */"
}
for (i = 0; i < n_opts; i++) {
	name = var_name(flags[i]);
	if (name == "")
		continue;

	init = opt_args("Init", flags[i])
	if (init != "") {
		if (name in var_init && var_init[name] != init)
			print "#error multiple initializers for " name
		var_init[name] = init
	}
}
for (i = 0; i < n_opts; i++) {
	name = var_name(flags[i]);
	if (name == "")
		continue;

	if (name in var_seen)
		continue;

	if (name in var_init)
		init = var_init[name]
	else
		init = "0"

	print "  " init ", /* " name " */"

	var_seen[name] = 1;
}
for (i = 0; i < n_opts; i++) {
	name = static_var(opts[i], flags[i]);
	if (name != "") {
		print "  0, /* " name " (private state) */"
		print "#undef x_" name
	}
}
for (i = 0; i < n_opts; i++) {
	if (flag_set_p("SetByCombined", flags[i]))
		print "  false, /* frontend_set_" var_name(flags[i]) " */"
}
print "};"
print ""
print "struct gcc_options global_options;"
print "struct gcc_options global_options_set;"
print ""

print "const char * const lang_names[] =\n{"
for (i = 0; i < n_langs; i++) {
        macros[i] = "CL_" lang_sanitized_name(langs[i])
	s = substr("         ", length (macros[i]))
	print "  " quote langs[i] quote ","
    }

print "  0\n};\n"
print "const unsigned int cl_options_count = N_OPTS;\n"
print "#if (1U << " n_langs ") > CL_MIN_OPTION_CLASS"
print "  #error the number of languages exceeds the implementation limit"
print "#endif"
print "const unsigned int cl_lang_count = " n_langs ";\n"

print "const struct cl_option cl_options[] =\n{"

j = 0
for (i = 0; i < n_opts; i++) {
	back_chain[i] = "N_OPTS";
	indices[opts[i]] = j;
	# Combine the flags of identical switches.  Switches
	# appear many times if they are handled by many front
	# ends, for example.
	while( i + 1 != n_opts && opts[i] == opts[i + 1] ) {
		flags[i + 1] = flags[i] " " flags[i + 1];
		if (help[i + 1] == "")
			help[i + 1] = help[i]
		else if (help[i] != "" && help[i + 1] != help[i])
			print "#error Multiple different help strings for " \
				opts[i] ":\n\t" help[i] "\n\t" help[i + 1]
				
		i++;
		back_chain[i] = "N_OPTS";
		indices[opts[i]] = j;
	}
	j++;
}

for (i = 0; i < n_opts; i++) {
	# With identical flags, pick only the last one.  The
	# earlier loop ensured that it has all flags merged,
	# and a nonempty help text if one of the texts was nonempty.
	while( i + 1 != n_opts && opts[i] == opts[i + 1] ) {
		i++;
	}

	len = length (opts[i]);
	enum = opt_enum(opts[i])

	# If this switch takes joined arguments, back-chain all
	# subsequent switches to it for which it is a prefix.  If
	# a later switch S is a longer prefix of a switch T, T
	# will be back-chained to S in a later iteration of this
	# for() loop, which is what we want.
	if (flag_set_p("Joined.*", flags[i])) {
		for (j = i + 1; j < n_opts; j++) {
			if (substr (opts[j], 1, len) != opts[i])
				break;
			back_chain[j] = enum;
		}
	}

	s = substr("                                  ", length (opts[i]))
	if (i + 1 == n_opts)
		comma = ""

	if (help[i] == "")
		hlp = "0"
	else
		hlp = quote help[i] quote;

	missing_arg_error = opt_args("MissingArgError", flags[i])
	if (missing_arg_error == "")
		missing_arg_error = "0"
	else
		missing_arg_error = quote missing_arg_error quote


	warn_message = opt_args("Warn", flags[i])
	if (warn_message == "")
		warn_message = "0"
	else
		warn_message = quote warn_message quote

	alias_arg = opt_args("Alias", flags[i])
	if (alias_arg == "") {
		if (flag_set_p("Ignore", flags[i]))
			alias_data = "NULL, NULL, OPT_SPECIAL_ignore"
		else
			alias_data = "NULL, NULL, N_OPTS"
	} else {
		alias_opt = nth_arg(0, alias_arg)
		alias_posarg = nth_arg(1, alias_arg)
		alias_negarg = nth_arg(2, alias_arg)

		if (var_ref(opts[i], flags[i]) != "-1")
			print "#error Alias setting variable"

		if (alias_posarg != "" && alias_negarg == "") {
			if (!flag_set_p("RejectNegative", flags[i]) \
			    && opts[i] ~ "^[Wfm]")
				print "#error Alias with single argument " \
					"allowing negative form"
		}
		if (alias_posarg != "" \
		    && flag_set_p("NegativeAlias", flags[i])) {
			print "#error Alias with multiple arguments " \
				"used with NegativeAlias"
		}

		alias_opt = opt_enum(alias_opt)
		if (alias_posarg == "")
			alias_posarg = "NULL"
		else
			alias_posarg = quote alias_posarg quote
		if (alias_negarg == "")
			alias_negarg = "NULL"
		else
			alias_negarg = quote alias_negarg quote
		alias_data = alias_posarg ", " alias_negarg ", " alias_opt
	}

	neg = opt_args("Negative", flags[i]);
	if (neg != "")
		idx = indices[neg]
	else {
		if (flag_set_p("RejectNegative", flags[i]))
			idx = -1;
		else {
			if (opts[i] ~ "^[Wfm]")
				idx = indices[opts[i]];
			else
				idx = -1;
		}
	}
	# Split the printf after %u to work around an ia64-hp-hpux11.23
	# awk bug.
	printf("  { %c-%s%c,\n    %s,\n    %s,\n    %s,\n    %s, %s, %u,",
	       quote, opts[i], quote, hlp, missing_arg_error, warn_message,
	       alias_data, back_chain[i], len)
	printf(" %d,\n", idx)
	condition = opt_args("Condition", flags[i])
	cl_flags = switch_flags(flags[i])
	cl_bit_fields = switch_bit_fields(flags[i])
	cl_zero_bit_fields = switch_bit_fields("")
	if (condition != "")
		printf("#if %s\n" \
		       "    %s,\n" \
		       "    0, %s,\n" \
		       "#else\n" \
		       "    0,\n" \
		       "    1 /* Disabled.  */, %s,\n" \
		       "#endif\n",
		       condition, cl_flags, cl_bit_fields, cl_zero_bit_fields)
	else
		printf("    %s,\n" \
		       "    0, %s,\n",
		       cl_flags, cl_bit_fields)
	printf("    %s, %s }%s\n", var_ref(opts[i], flags[i]),
	       var_set(flags[i]), comma)
}

print "};"

print "\n\n"
print "bool                                                                  "
print "common_handle_option_auto (struct gcc_options *opts,                  "
print "                           struct gcc_options *opts_set,              "
print "                           const struct cl_decoded_option *decoded,   "
print "                           unsigned int lang_mask, int kind,          "
print "                           location_t loc,                            "
print "                           const struct cl_option_handlers *handlers, "
print "                           diagnostic_context *dc)                    "
print "{                                                                     "
print "  size_t scode = decoded->opt_index;                                  "
print "  int value = decoded->value;                                         "
print "  enum opt_code code = (enum opt_code) scode;                         "
print "                                                                      "
print "  gcc_assert (decoded->canonical_option_num_elements <= 2);           "
print "                                                                      "
print "  switch (code)                                                       "
print "    {                                                                 "
# Handle EnabledBy
for (i = 0; i < n_enabledby; i++) {
    enabledby_name = enabledby[i];
    print "    case " opt_enum(enabledby_name) ":"
    n_enables = split(enables[enabledby_name], thisenable, ";");
    n_enablesif = split(enablesif[enabledby_name], thisenableif, ";");
    if (n_enables != n_enablesif) {
        print "#error n_enables != n_enablesif: Something went wrong!"
    }
    for (j = 1; j < n_enables; j++) {
        opt_var_name = var_name(flags[opt_numbers[thisenable[j]]]);
        if (opt_var_name != "") {
            condition = "!opts_set->x_" opt_var_name
            if (thisenableif[j] != "") {
                condition = condition " && (" thisenableif[j] ")"
            }
            print "      if (" condition ")"
            print "        handle_generated_option (opts, opts_set,"
            print "                                 " opt_enum(thisenable[j]) ", NULL, value,"
            print "                                 lang_mask, kind, loc, handlers, dc);"
        } else {
            print "#error " thisenable[j] " does not have a Var() flag"
        }
    }
    print "      break;\n"
}
print "    default:    "
print "      break;    "
print "    }           "
print "  return true;  "
print "}               "

# Handle LangEnabledBy
for (i = 0; i < n_langs; i++) {
    lang_name = lang_sanitized_name(langs[i]);
    mark_unused = " ATTRIBUTE_UNUSED";

    print "\n\n"
    print "bool                                                                  "
    print lang_name "_handle_option_auto (struct gcc_options *opts" mark_unused ",              "
    print "                           struct gcc_options *opts_set" mark_unused ",              "
    print "                           size_t scode" mark_unused ", const char *arg" mark_unused ", int value" mark_unused ",  "
    print "                           unsigned int lang_mask" mark_unused ", int kind" mark_unused ",          "
    print "                           location_t loc" mark_unused ",                            "
    print "                           const struct cl_option_handlers *handlers" mark_unused ", "
    print "                           diagnostic_context *dc" mark_unused ")                    "
    print "{                                                                     "
    print "  enum opt_code code = (enum opt_code) scode;                         "
    print "                                                                      "
    print "  switch (code)                                                       "
    print "    {                                                                 "
    
    for (k = 0; k < n_enabledby_lang[i]; k++) {
        enabledby_name = enabledby[lang_name,k];
        print "    case " opt_enum(enabledby_name) ":"
        n_thisenable = split(enables[lang_name,enabledby_name], thisenable, ";");
        for (j = 1; j < n_thisenable; j++) {
            n_thisenable_args = split(thisenable[j], thisenable_args, ",");
            if (n_thisenable_args == 1) {
                thisenable_opt = thisenable[j];
                value = "value";
            } else {
                thisenable_opt = thisenable_args[1];
                with_posarg = thisenable_args[2];
                with_negarg = thisenable_args[3];
                value = "value ? " with_posarg " : " with_negarg;
            }
            opt_var_name = var_name(flags[opt_numbers[thisenable_opt]]);
            if (opt_var_name != "") {
                print "      if (!opts_set->x_" opt_var_name ")"
                print "        handle_generated_option (opts, opts_set,"
                print "                                 " opt_enum(thisenable_opt) ", NULL, " value ","
                print "                                 lang_mask, kind, loc, handlers, dc);"
            } else {
                print "#error " thisenable_opt " does not have a Var() flag"
            }
        }
        print "      break;\n"
    }
    print "    default:    "
    print "      break;    "
    print "    }           "
    print "  return true;  "
    print "}               "
}

}