scripts/dtc/dtc-parser.y - pub/scm/linux/kernel/git/davidb/linux-msm - Git at Google

 /*
  * (C) Copyright David Gibson <dwg@au1.ibm.com>, IBM Corporation.  2005.
  *
  *
  * 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, write to the Free Software
  *  Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307
  *                                                                   USA
  */

 %{
 #include <stdio.h>

 #include "dtc.h"
 #include "srcpos.h"

 YYLTYPE yylloc;

 extern int yylex(void);
 extern void print_error(char const *fmt, ...);
 extern void yyerror(char const *s);

 extern struct boot_info *the_boot_info;
 extern int treesource_error;

 static unsigned long long eval_literal(const char *s, int base, int bits);
 static unsigned char eval_char_literal(const char *s);
 %}

 %union {
 	char *propnodename;
 	char *literal;
 	char *labelref;
 	unsigned int cbase;
 	uint8_t byte;
 	struct data data;

 	struct {
 		struct data	data;
 		int		bits;
 	} array;

 	struct property *prop;
 	struct property *proplist;
 	struct node *node;
 	struct node *nodelist;
 	struct reserve_info *re;
 	uint64_t integer;
 }

 %token DT_V1
 %token DT_MEMRESERVE
 %token DT_LSHIFT DT_RSHIFT DT_LE DT_GE DT_EQ DT_NE DT_AND DT_OR
 %token DT_BITS
 %token DT_DEL_PROP
 %token DT_DEL_NODE
 %token <propnodename> DT_PROPNODENAME
 %token <literal> DT_LITERAL
 %token <literal> DT_CHAR_LITERAL
 %token <cbase> DT_BASE
 %token <byte> DT_BYTE
 %token <data> DT_STRING
 %token <labelref> DT_LABEL
 %token <labelref> DT_REF
 %token DT_INCBIN

 %type <data> propdata
 %type <data> propdataprefix
 %type <re> memreserve
 %type <re> memreserves
 %type <array> arrayprefix
 %type <data> bytestring
 %type <prop> propdef
 %type <proplist> proplist

 %type <node> devicetree
 %type <node> nodedef
 %type <node> subnode
 %type <nodelist> subnodes

 %type <integer> integer_prim
 %type <integer> integer_unary
 %type <integer> integer_mul
 %type <integer> integer_add
 %type <integer> integer_shift
 %type <integer> integer_rela
 %type <integer> integer_eq
 %type <integer> integer_bitand
 %type <integer> integer_bitxor
 %type <integer> integer_bitor
 %type <integer> integer_and
 %type <integer> integer_or
 %type <integer> integer_trinary
 %type <integer> integer_expr

 %%

 sourcefile:
 	  DT_V1 ';' memreserves devicetree
 		{
 			the_boot_info = build_boot_info($3, $4,
 							guess_boot_cpuid($4));
 		}
 	;

 memreserves:
 	  /* empty */
 		{
 			$$ = NULL;
 		}
 	| memreserve memreserves
 		{
 			$$ = chain_reserve_entry($1, $2);
 		}
 	;

 memreserve:
 	  DT_MEMRESERVE integer_prim integer_prim ';'
 		{
 			$$ = build_reserve_entry($2, $3);
 		}
 	| DT_LABEL memreserve
 		{
 			add_label(&$2->labels, $1);
 			$$ = $2;
 		}
 	;

 devicetree:
 	  '/' nodedef
 		{
 			$$ = name_node($2, "");
 		}
 	| devicetree '/' nodedef
 		{
 			$$ = merge_nodes($1, $3);
 		}
 	| devicetree DT_REF nodedef
 		{
 			struct node *target = get_node_by_ref($1, $2);

 			if (target)
 				merge_nodes(target, $3);
 			else
 				print_error("label or path, '%s', not found", $2);
 			$$ = $1;
 		}
 	| devicetree DT_DEL_NODE DT_REF ';'
 		{
 			struct node *target = get_node_by_ref($1, $3);

 			if (!target)
 				print_error("label or path, '%s', not found", $3);
 			else
 				delete_node(target);

 			$$ = $1;
 		}
 	;

 nodedef:
 	  '{' proplist subnodes '}' ';'
 		{
 			$$ = build_node($2, $3);
 		}
 	;

 proplist:
 	  /* empty */
 		{
 			$$ = NULL;
 		}
 	| proplist propdef
 		{
 			$$ = chain_property($2, $1);
 		}
 	;

 propdef:
 	  DT_PROPNODENAME '=' propdata ';'
 		{
 			$$ = build_property($1, $3);
 		}
 	| DT_PROPNODENAME ';'
 		{
 			$$ = build_property($1, empty_data);
 		}
 	| DT_DEL_PROP DT_PROPNODENAME ';'
 		{
 			$$ = build_property_delete($2);
 		}
 	| DT_LABEL propdef
 		{
 			add_label(&$2->labels, $1);
 			$$ = $2;
 		}
 	;

 propdata:
 	  propdataprefix DT_STRING
 		{
 			$$ = data_merge($1, $2);
 		}
 	| propdataprefix arrayprefix '>'
 		{
 			$$ = data_merge($1, $2.data);
 		}
 	| propdataprefix '[' bytestring ']'
 		{
 			$$ = data_merge($1, $3);
 		}
 	| propdataprefix DT_REF
 		{
 			$$ = data_add_marker($1, REF_PATH, $2);
 		}
 	| propdataprefix DT_INCBIN '(' DT_STRING ',' integer_prim ',' integer_prim ')'
 		{
 			FILE *f = srcfile_relative_open($4.val, NULL);
 			struct data d;

 			if ($6 != 0)
 				if (fseek(f, $6, SEEK_SET) != 0)
 					print_error("Couldn't seek to offset %llu in \"%s\": %s",
 						     (unsigned long long)$6,
 						     $4.val,
 						     strerror(errno));

 			d = data_copy_file(f, $8);

 			$$ = data_merge($1, d);
 			fclose(f);
 		}
 	| propdataprefix DT_INCBIN '(' DT_STRING ')'
 		{
 			FILE *f = srcfile_relative_open($4.val, NULL);
 			struct data d = empty_data;

 			d = data_copy_file(f, -1);

 			$$ = data_merge($1, d);
 			fclose(f);
 		}
 	| propdata DT_LABEL
 		{
 			$$ = data_add_marker($1, LABEL, $2);
 		}
 	;

 propdataprefix:
 	  /* empty */
 		{
 			$$ = empty_data;
 		}
 	| propdata ','
 		{
 			$$ = $1;
 		}
 	| propdataprefix DT_LABEL
 		{
 			$$ = data_add_marker($1, LABEL, $2);
 		}
 	;

 arrayprefix:
 	DT_BITS DT_LITERAL '<'
 		{
 			$$.data = empty_data;
 			$$.bits = eval_literal($2, 0, 7);

 			if (($$.bits !=  8) &&
 			    ($$.bits != 16) &&
 			    ($$.bits != 32) &&
 			    ($$.bits != 64))
 			{
 				print_error("Only 8, 16, 32 and 64-bit elements"
 					    " are currently supported");
 				$$.bits = 32;
 			}
 		}
 	| '<'
 		{
 			$$.data = empty_data;
 			$$.bits = 32;
 		}
 	| arrayprefix integer_prim
 		{
 			if ($1.bits < 64) {
 				uint64_t mask = (1ULL << $1.bits) - 1;
 				/*
 				 * Bits above mask must either be all zero
 				 * (positive within range of mask) or all one
 				 * (negative and sign-extended). The second
 				 * condition is true if when we set all bits
 				 * within the mask to one (i.e. | in the
 				 * mask), all bits are one.
 				 */
 				if (($2 > mask) && (($2 | mask) != -1ULL))
 					print_error(
 						"integer value out of range "
 						"%016lx (%d bits)", $1.bits);
 			}

 			$$.data = data_append_integer($1.data, $2, $1.bits);
 		}
 	| arrayprefix DT_REF
 		{
 			uint64_t val = ~0ULL >> (64 - $1.bits);

 			if ($1.bits == 32)
 				$1.data = data_add_marker($1.data,
 							  REF_PHANDLE,
 							  $2);
 			else
 				print_error("References are only allowed in "
 					    "arrays with 32-bit elements.");

 			$$.data = data_append_integer($1.data, val, $1.bits);
 		}
 	| arrayprefix DT_LABEL
 		{
 			$$.data = data_add_marker($1.data, LABEL, $2);
 		}
 	;

 integer_prim:
 	  DT_LITERAL
 		{
 			$$ = eval_literal($1, 0, 64);
 		}
 	| DT_CHAR_LITERAL
 		{
 			$$ = eval_char_literal($1);
 		}
 	| '(' integer_expr ')'
 		{
 			$$ = $2;
 		}
 	;

 integer_expr:
 	integer_trinary
 	;

 integer_trinary:
 	  integer_or
 	| integer_or '?' integer_expr ':' integer_trinary { $$ = $1 ? $3 : $5; }
 	;

 integer_or:
 	  integer_and
 	| integer_or DT_OR integer_and { $$ = $1 || $3; }
 	;

 integer_and:
 	  integer_bitor
 	| integer_and DT_AND integer_bitor { $$ = $1 && $3; }
 	;

 integer_bitor:
 	  integer_bitxor
 	| integer_bitor '|' integer_bitxor { $$ = $1 | $3; }
 	;

 integer_bitxor:
 	  integer_bitand
 	| integer_bitxor '^' integer_bitand { $$ = $1 ^ $3; }
 	;

 integer_bitand:
 	  integer_eq
 	| integer_bitand '&' integer_eq { $$ = $1 & $3; }
 	;

 integer_eq:
 	  integer_rela
 	| integer_eq DT_EQ integer_rela { $$ = $1 == $3; }
 	| integer_eq DT_NE integer_rela { $$ = $1 != $3; }
 	;

 integer_rela:
 	  integer_shift
 	| integer_rela '<' integer_shift { $$ = $1 < $3; }
 	| integer_rela '>' integer_shift { $$ = $1 > $3; }
 	| integer_rela DT_LE integer_shift { $$ = $1 <= $3; }
 	| integer_rela DT_GE integer_shift { $$ = $1 >= $3; }
 	;

 integer_shift:
 	  integer_shift DT_LSHIFT integer_add { $$ = $1 << $3; }
 	| integer_shift DT_RSHIFT integer_add { $$ = $1 >> $3; }
 	| integer_add
 	;

 integer_add:
 	  integer_add '+' integer_mul { $$ = $1 + $3; }
 	| integer_add '-' integer_mul { $$ = $1 - $3; }
 	| integer_mul
 	;

 integer_mul:
 	  integer_mul '*' integer_unary { $$ = $1 * $3; }
 	| integer_mul '/' integer_unary { $$ = $1 / $3; }
 	| integer_mul '%' integer_unary { $$ = $1 % $3; }
 	| integer_unary
 	;

 integer_unary:
 	  integer_prim
 	| '-' integer_unary { $$ = -$2; }
 	| '~' integer_unary { $$ = ~$2; }
 	| '!' integer_unary { $$ = !$2; }
 	;

 bytestring:
 	  /* empty */
 		{
 			$$ = empty_data;
 		}
 	| bytestring DT_BYTE
 		{
 			$$ = data_append_byte($1, $2);
 		}
 	| bytestring DT_LABEL
 		{
 			$$ = data_add_marker($1, LABEL, $2);
 		}
 	;

 subnodes:
 	  /* empty */
 		{
 			$$ = NULL;
 		}
 	| subnode subnodes
 		{
 			$$ = chain_node($1, $2);
 		}
 	| subnode propdef
 		{
 			print_error("syntax error: properties must precede subnodes");
 			YYERROR;
 		}
 	;

 subnode:
 	  DT_PROPNODENAME nodedef
 		{
 			$$ = name_node($2, $1);
 		}
 	| DT_DEL_NODE DT_PROPNODENAME ';'
 		{
 			$$ = name_node(build_node_delete(), $2);
 		}
 	| DT_LABEL subnode
 		{
 			add_label(&$2->labels, $1);
 			$$ = $2;
 		}
 	;

 %%

 void print_error(char const *fmt, ...)
 {
 	va_list va;

 	va_start(va, fmt);
 	srcpos_verror(&yylloc, fmt, va);
 	va_end(va);

 	treesource_error = 1;
 }

 void yyerror(char const *s) {
 	print_error("%s", s);
 }

 static unsigned long long eval_literal(const char *s, int base, int bits)
 {
 	unsigned long long val;
 	char *e;

 	errno = 0;
 	val = strtoull(s, &e, base);
 	if (*e) {
 		size_t uls = strspn(e, "UL");
 		if (e[uls])
 			print_error("bad characters in literal");
 	}
 	if ((errno == ERANGE)
 		 || ((bits < 64) && (val >= (1ULL << bits))))
 		print_error("literal out of range");
 	else if (errno != 0)
 		print_error("bad literal");
 	return val;
 }

 static unsigned char eval_char_literal(const char *s)
 {
 	int i = 1;
 	char c = s[0];

 	if (c == '\0')
 	{
 		print_error("empty character literal");
 		return 0;
 	}

 	/*
 	 * If the first character in the character literal is a \ then process
 	 * the remaining characters as an escape encoding. If the first
 	 * character is neither an escape or a terminator it should be the only
 	 * character in the literal and will be returned.
 	 */
 	if (c == '\\')
 		c = get_escape_char(s, &i);

 	if (s[i] != '\0')
 		print_error("malformed character literal");

 	return c;
 }
	/*
	* (C) Copyright David Gibson <dwg@au1.ibm.com>, IBM Corporation. 2005.
	*
	*
	* 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, write to the Free Software
	* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
	* USA
	*/

	%{
	#include <stdio.h>

	#include "dtc.h"
	#include "srcpos.h"

	YYLTYPE yylloc;

	extern int yylex(void);
	extern void print_error(char const *fmt, ...);
	extern void yyerror(char const *s);

	extern struct boot_info *the_boot_info;
	extern int treesource_error;

	static unsigned long long eval_literal(const char *s, int base, int bits);
	static unsigned char eval_char_literal(const char *s);
	%}

	%union {
	char *propnodename;
	char *literal;
	char *labelref;
	unsigned int cbase;
	uint8_t byte;
	struct data data;

	struct {
	struct data data;
	int bits;
	} array;

	struct property *prop;
	struct property *proplist;
	struct node *node;
	struct node *nodelist;
	struct reserve_info *re;
	uint64_t integer;
	}

	%token DT_V1
	%token DT_MEMRESERVE
	%token DT_LSHIFT DT_RSHIFT DT_LE DT_GE DT_EQ DT_NE DT_AND DT_OR
	%token DT_BITS
	%token DT_DEL_PROP
	%token DT_DEL_NODE
	%token <propnodename> DT_PROPNODENAME
	%token <literal> DT_LITERAL
	%token <literal> DT_CHAR_LITERAL
	%token <cbase> DT_BASE
	%token <byte> DT_BYTE
	%token <data> DT_STRING
	%token <labelref> DT_LABEL
	%token <labelref> DT_REF
	%token DT_INCBIN

	%type <data> propdata
	%type <data> propdataprefix
	%type <re> memreserve
	%type <re> memreserves
	%type <array> arrayprefix
	%type <data> bytestring
	%type <prop> propdef
	%type <proplist> proplist

	%type <node> devicetree
	%type <node> nodedef
	%type <node> subnode
	%type <nodelist> subnodes

	%type <integer> integer_prim
	%type <integer> integer_unary
	%type <integer> integer_mul
	%type <integer> integer_add
	%type <integer> integer_shift
	%type <integer> integer_rela
	%type <integer> integer_eq
	%type <integer> integer_bitand
	%type <integer> integer_bitxor
	%type <integer> integer_bitor
	%type <integer> integer_and
	%type <integer> integer_or
	%type <integer> integer_trinary
	%type <integer> integer_expr

	%%

	sourcefile:
	DT_V1 ';' memreserves devicetree
	{
	the_boot_info = build_boot_info($3, $4,
	guess_boot_cpuid($4));
	}
	;

	memreserves:
	/* empty */
	{
	$$ = NULL;
	}
	\| memreserve memreserves
	{
	$$ = chain_reserve_entry($1, $2);
	}
	;

	memreserve:
	DT_MEMRESERVE integer_prim integer_prim ';'
	{
	$$ = build_reserve_entry($2, $3);
	}
	\| DT_LABEL memreserve
	{
	add_label(&$2->labels, $1);
	$$ = $2;
	}
	;

	devicetree:
	'/' nodedef
	{
	$$ = name_node($2, "");
	}
	\| devicetree '/' nodedef
	{
	$$ = merge_nodes($1, $3);
	}
	\| devicetree DT_REF nodedef
	{
	struct node *target = get_node_by_ref($1, $2);

	if (target)
	merge_nodes(target, $3);
	else
	print_error("label or path, '%s', not found", $2);
	$$ = $1;
	}
	\| devicetree DT_DEL_NODE DT_REF ';'
	{
	struct node *target = get_node_by_ref($1, $3);

	if (!target)
	print_error("label or path, '%s', not found", $3);
	else
	delete_node(target);

	$$ = $1;
	}
	;

	nodedef:
	'{' proplist subnodes '}' ';'
	{
	$$ = build_node($2, $3);
	}
	;

	proplist:
	/* empty */
	{
	$$ = NULL;
	}
	\| proplist propdef
	{
	$$ = chain_property($2, $1);
	}
	;

	propdef:
	DT_PROPNODENAME '=' propdata ';'
	{
	$$ = build_property($1, $3);
	}
	\| DT_PROPNODENAME ';'
	{
	$$ = build_property($1, empty_data);
	}
	\| DT_DEL_PROP DT_PROPNODENAME ';'
	{
	$$ = build_property_delete($2);
	}
	\| DT_LABEL propdef
	{
	add_label(&$2->labels, $1);
	$$ = $2;
	}
	;

	propdata:
	propdataprefix DT_STRING
	{
	$$ = data_merge($1, $2);
	}
	\| propdataprefix arrayprefix '>'
	{
	$$ = data_merge($1, $2.data);
	}
	\| propdataprefix '[' bytestring ']'
	{
	$$ = data_merge($1, $3);
	}
	\| propdataprefix DT_REF
	{
	$$ = data_add_marker($1, REF_PATH, $2);
	}
	\| propdataprefix DT_INCBIN '(' DT_STRING ',' integer_prim ',' integer_prim ')'
	{
	FILE *f = srcfile_relative_open($4.val, NULL);
	struct data d;

	if ($6 != 0)
	if (fseek(f, $6, SEEK_SET) != 0)
	print_error("Couldn't seek to offset %llu in \"%s\": %s",
	(unsigned long long)$6,
	$4.val,
	strerror(errno));

	d = data_copy_file(f, $8);

	$$ = data_merge($1, d);
	fclose(f);
	}
	\| propdataprefix DT_INCBIN '(' DT_STRING ')'
	{
	FILE *f = srcfile_relative_open($4.val, NULL);
	struct data d = empty_data;

	d = data_copy_file(f, -1);

	$$ = data_merge($1, d);
	fclose(f);
	}
	\| propdata DT_LABEL
	{
	$$ = data_add_marker($1, LABEL, $2);
	}
	;

	propdataprefix:
	/* empty */
	{
	$$ = empty_data;
	}
	\| propdata ','
	{
	$$ = $1;
	}
	\| propdataprefix DT_LABEL
	{
	$$ = data_add_marker($1, LABEL, $2);
	}
	;

	arrayprefix:
	DT_BITS DT_LITERAL '<'
	{
	$$.data = empty_data;
	$$.bits = eval_literal($2, 0, 7);

	if (($$.bits != 8) &&
	($$.bits != 16) &&
	($$.bits != 32) &&
	($$.bits != 64))
	{
	print_error("Only 8, 16, 32 and 64-bit elements"
	" are currently supported");
	$$.bits = 32;
	}
	}
	\| '<'
	{
	$$.data = empty_data;
	$$.bits = 32;
	}
	\| arrayprefix integer_prim
	{
	if ($1.bits < 64) {
	uint64_t mask = (1ULL << $1.bits) - 1;
	/*
	* Bits above mask must either be all zero
	* (positive within range of mask) or all one
	* (negative and sign-extended). The second
	* condition is true if when we set all bits
	* within the mask to one (i.e. \| in the
	* mask), all bits are one.
	*/
	if (($2 > mask) && (($2 \| mask) != -1ULL))
	print_error(
	"integer value out of range "
	"%016lx (%d bits)", $1.bits);
	}

	$$.data = data_append_integer($1.data, $2, $1.bits);
	}
	\| arrayprefix DT_REF
	{
	uint64_t val = ~0ULL >> (64 - $1.bits);

	if ($1.bits == 32)
	$1.data = data_add_marker($1.data,
	REF_PHANDLE,
	$2);
	else
	print_error("References are only allowed in "
	"arrays with 32-bit elements.");

	$$.data = data_append_integer($1.data, val, $1.bits);
	}
	\| arrayprefix DT_LABEL
	{
	$$.data = data_add_marker($1.data, LABEL, $2);
	}
	;

	integer_prim:
	DT_LITERAL
	{
	$$ = eval_literal($1, 0, 64);
	}
	\| DT_CHAR_LITERAL
	{
	$$ = eval_char_literal($1);
	}
	\| '(' integer_expr ')'
	{
	$$ = $2;
	}
	;

	integer_expr:
	integer_trinary
	;

	integer_trinary:
	integer_or
	\| integer_or '?' integer_expr ':' integer_trinary { $$ = $1 ? $3 : $5; }
	;

	integer_or:
	integer_and
	\| integer_or DT_OR integer_and { $$ = $1 \|\| $3; }
	;

	integer_and:
	integer_bitor
	\| integer_and DT_AND integer_bitor { $$ = $1 && $3; }
	;

	integer_bitor:
	integer_bitxor
	\| integer_bitor '\|' integer_bitxor { $$ = $1 \| $3; }
	;

	integer_bitxor:
	integer_bitand
	\| integer_bitxor '^' integer_bitand { $$ = $1 ^ $3; }
	;

	integer_bitand:
	integer_eq
	\| integer_bitand '&' integer_eq { $$ = $1 & $3; }
	;

	integer_eq:
	integer_rela
	\| integer_eq DT_EQ integer_rela { $$ = $1 == $3; }
	\| integer_eq DT_NE integer_rela { $$ = $1 != $3; }
	;

	integer_rela:
	integer_shift
	\| integer_rela '<' integer_shift { $$ = $1 < $3; }
	\| integer_rela '>' integer_shift { $$ = $1 > $3; }
	\| integer_rela DT_LE integer_shift { $$ = $1 <= $3; }
	\| integer_rela DT_GE integer_shift { $$ = $1 >= $3; }
	;

	integer_shift:
	integer_shift DT_LSHIFT integer_add { $$ = $1 << $3; }
	\| integer_shift DT_RSHIFT integer_add { $$ = $1 >> $3; }
	\| integer_add
	;

	integer_add:
	integer_add '+' integer_mul { $$ = $1 + $3; }
	\| integer_add '-' integer_mul { $$ = $1 - $3; }
	\| integer_mul
	;

	integer_mul:
	integer_mul '' integer_unary { $$ = $1 $3; }
	\| integer_mul '/' integer_unary { $$ = $1 / $3; }
	\| integer_mul '%' integer_unary { $$ = $1 % $3; }
	\| integer_unary
	;

	integer_unary:
	integer_prim
	\| '-' integer_unary { $$ = -$2; }
	\| '~' integer_unary { $$ = ~$2; }
	\| '!' integer_unary { $$ = !$2; }
	;

	bytestring:
	/* empty */
	{
	$$ = empty_data;
	}
	\| bytestring DT_BYTE
	{
	$$ = data_append_byte($1, $2);
	}
	\| bytestring DT_LABEL
	{
	$$ = data_add_marker($1, LABEL, $2);
	}
	;

	subnodes:
	/* empty */
	{
	$$ = NULL;
	}
	\| subnode subnodes
	{
	$$ = chain_node($1, $2);
	}
	\| subnode propdef
	{
	print_error("syntax error: properties must precede subnodes");
	YYERROR;
	}
	;

	subnode:
	DT_PROPNODENAME nodedef
	{
	$$ = name_node($2, $1);
	}
	\| DT_DEL_NODE DT_PROPNODENAME ';'
	{
	$$ = name_node(build_node_delete(), $2);
	}
	\| DT_LABEL subnode
	{
	add_label(&$2->labels, $1);
	$$ = $2;
	}
	;

	%%

	void print_error(char const *fmt, ...)
	{
	va_list va;

	va_start(va, fmt);
	srcpos_verror(&yylloc, fmt, va);
	va_end(va);

	treesource_error = 1;
	}

	void yyerror(char const *s) {
	print_error("%s", s);
	}

	static unsigned long long eval_literal(const char *s, int base, int bits)
	{
	unsigned long long val;
	char *e;

	errno = 0;
	val = strtoull(s, &e, base);
	if (*e) {
	size_t uls = strspn(e, "UL");
	if (e[uls])
	print_error("bad characters in literal");
	}
	if ((errno == ERANGE)
	\|\| ((bits < 64) && (val >= (1ULL << bits))))
	print_error("literal out of range");
	else if (errno != 0)
	print_error("bad literal");
	return val;
	}

	static unsigned char eval_char_literal(const char *s)
	{
	int i = 1;
	char c = s[0];

	if (c == '\0')
	{
	print_error("empty character literal");
	return 0;
	}

	/*
	* If the first character in the character literal is a \ then process
	* the remaining characters as an escape encoding. If the first
	* character is neither an escape or a terminator it should be the only
	* character in the literal and will be returned.
	*/
	if (c == '\\')
	c = get_escape_char(s, &i);

	if (s[i] != '\0')
	print_error("malformed character literal");

	return c;
	}