Bladeren bron

some leaks plugged (as detected by the leak detector)

dick 38 jaren geleden
bovenliggende
commit
fa9f4ab0ab

+ 7 - 6
lang/cem/cemcom/Makefile.erik

@@ -56,7 +56,7 @@ GOBJ =	char.o symbol2str.o next.o
 # generated source files
 GSRC =	char.c symbol2str.c next.c \
 	code.h declar.h decspecs.h def.h expr.h field.h \
-	idf.h macro.h stack.h struct.h switch.h type.h
+	idf.h macro.h stack.h stmt.h struct.h switch.h type.h
 
 # .h files generated by `make hfiles'; PLEASE KEEP THIS UP-TO-DATE!
 GHSRC =	botch_free.h dataflow.h debug.h density.h errout.h \
@@ -71,7 +71,7 @@ GENERATED = tab tokenfile.g Lpars.h LLfiles LL.output lint.out \
 
 # include files containing ALLOCDEF specifications
 NEXTFILES = code.str declar.str decspecs.str def.str expr.str field.str \
-	idf.str macro.str stack.str struct.str switch.str type.str
+	idf.str macro.str stack.str stmt.str struct.str switch.str type.str
 
 .SUFFIXES: .str .h
 .str.h:
@@ -90,7 +90,7 @@ cem:	cem.c
 lint.cem: cem.c
 	lint -abx cem.c
 
-hfiles: Parameters
+hfiles: ./make.hfiles Parameters
 	./make.hfiles Parameters
 	@touch hfiles
 
@@ -119,6 +119,7 @@ field.h:	make.allocd
 idf.h:		make.allocd
 macro.h:	make.allocd
 stack.h:	make.allocd
+stmt.h:		make.allocd
 struct.h:	make.allocd
 switch.h:	make.allocd
 type.h:		make.allocd
@@ -202,7 +203,7 @@ ch7bin.o: Lpars.h arith.h botch_free.h expr.h idf.h label.h nobitfield.h nopp.h
 cstoper.o: Lpars.h arith.h assert.h debug.h expr.h idf.h label.h nobitfield.h nopp.h sizes.h spec_arith.h target_sizes.h type.h
 arith.o: Lpars.h alloc.h arith.h botch_free.h expr.h field.h idf.h label.h mes.h nobitfield.h nopp.h spec_arith.h storage.h type.h
 alloc.o: alloc.h assert.h debug.h myalloc.h
-code.o: LLlex.h Lpars.h alloc.h arith.h assert.h atw.h botch_free.h code.h dataflow.h debug.h declar.h decspecs.h def.h expr.h idf.h label.h level.h mes.h nobitfield.h nopp.h sizes.h spec_arith.h specials.h stack.h storage.h type.h use_tmp.h
+code.o: LLlex.h Lpars.h alloc.h arith.h assert.h atw.h botch_free.h code.h dataflow.h debug.h declar.h decspecs.h def.h expr.h idf.h label.h level.h mes.h nobitfield.h nopp.h sizes.h spec_arith.h specials.h stack.h stmt.h storage.h type.h use_tmp.h
 dumpidf.o: Lpars.h arith.h debug.h def.h expr.h field.h idf.h label.h nobitfield.h nopp.h spec_arith.h stack.h struct.h type.h
 error.o: LLlex.h arith.h debug.h errout.h expr.h label.h nopp.h spec_arith.h tokenname.h use_tmp.h
 field.o: Lpars.h arith.h assert.h code.h debug.h expr.h field.h idf.h label.h nobitfield.h nopp.h sizes.h spec_arith.h type.h
@@ -217,7 +218,7 @@ options.o: align.h arith.h class.h idf.h idfsize.h macro.h maxincl.h nobitfield.
 scan.o: class.h idf.h input.h interface.h lapbuf.h macro.h nopp.h nparams.h
 skip.o: LLlex.h arith.h class.h input.h interface.h nopp.h spec_arith.h
 stack.o: Lpars.h alloc.h arith.h botch_free.h debug.h def.h idf.h level.h mes.h nobitfield.h nopp.h spec_arith.h stack.h storage.h struct.h type.h use_tmp.h
-type.o: Lpars.h align.h alloc.h arith.h def.h idf.h nobitfield.h nopp.h sizes.h spec_arith.h type.h
+type.o: Lpars.h align.h alloc.h arith.h def.h idf.h nobitfield.h nopp.h sizes.h spec_arith.h storage.h type.h
 ch7mon.o: Lpars.h arith.h botch_free.h def.h expr.h idf.h label.h nobitfield.h nopp.h spec_arith.h storage.h type.h
 label.o: Lpars.h arith.h def.h idf.h label.h level.h nobitfield.h nopp.h spec_arith.h type.h
 eval.o: Lpars.h align.h arith.h assert.h atw.h code.h dataflow.h debug.h def.h expr.h idf.h label.h level.h mes.h nobitfield.h nopp.h sizes.h spec_arith.h stack.h type.h
@@ -228,7 +229,7 @@ conversion.o: Lpars.h arith.h nobitfield.h sizes.h spec_arith.h type.h
 blocks.o: arith.h atw.h sizes.h spec_arith.h
 dataflow.o: dataflow.h
 tokenfile.o: Lpars.h
-declar.o: LLlex.h Lpars.h arith.h debug.h declar.h decspecs.h def.h expr.h field.h idf.h label.h nobitfield.h nopp.h sizes.h spec_arith.h struct.h type.h
+declar.o: LLlex.h Lpars.h arith.h debug.h declar.h decspecs.h def.h expr.h field.h idf.h label.h nobitfield.h nopp.h sizes.h spec_arith.h storage.h struct.h type.h
 statement.o: LLlex.h Lpars.h arith.h botch_free.h code.h debug.h def.h expr.h idf.h label.h nobitfield.h nopp.h spec_arith.h stack.h storage.h type.h
 expression.o: LLlex.h Lpars.h arith.h expr.h idf.h label.h nobitfield.h nopp.h spec_arith.h type.h
 program.o: LLlex.h Lpars.h alloc.h arith.h code.h declar.h decspecs.h def.h expr.h idf.h label.h nobitfield.h nopp.h spec_arith.h type.h

+ 1 - 1
lang/cem/cemcom/Parameters

@@ -1,5 +1,5 @@
 !File: myalloc.h
-#define OWNALLOC	1	/* use own superfast allocation		*/
+#define	OWNALLOC	1	/* use own superfast allocation		*/
 #define	ALLOCSIZ	4096	/* allocate pieces of 4K	*/
 #define	ALIGNSIZE	8	/* needed for alloc.c	*/
 

+ 76 - 70
lang/cem/cemcom/code.c

@@ -12,6 +12,7 @@
 #include	"idf.h"
 #include	"label.h"
 #include	"code.h"
+#include	"stmt.h"
 #include	"alloc.h"
 #include	"def.h"
 #include	"expr.h"
@@ -28,7 +29,7 @@
 #include	"atw.h"
 #include	"assert.h"
 
-static struct stat_block *stat_sp, *stat_head;
+static struct stmt_block *stmt_stack;
 
 char *symbol2str();
 int fp_used;
@@ -37,20 +38,18 @@ label datlab_count = 1;
 
 extern char options[];
 
-/*	init_code() initialises the output file on which the compact
-	EM code is written
-*/
 init_code(dst_file)
 	char *dst_file;
 {
+	/*	init_code() initialises the output file on which the
+		compact EM code is written
+	*/
 	C_init(word_size, pointer_size); /* initialise EM module */
 	if (C_open(dst_file) == 0)
 		fatal("cannot write to %s\n", dst_file);
 #ifndef	USE_TMP
 	famous_first_words();
 #endif	USE_TMP
-	stat_sp = stat_head = new_stat_block();
-	clear((char *)stat_sp, sizeof(struct stat_block));
 }
 
 famous_first_words()
@@ -162,18 +161,18 @@ static label func_res_label;
 static char *last_fn_given = "";
 static label file_name_label;
 
-/*	begin_proc() is called at the entrance of a new function
-	and performs the necessary code generation:
-	-	a scope indicator (if needed) exp/inp
-	-	the procedure entry pro $name
-	-	reserves some space if the result of the function
-		does not fit in the return area
-	-	a fil pseudo instruction
-*/
 begin_proc(name, def)	/* to be called when entering a procedure	*/
 	char *name;
 	struct def *def;
 {
+	/*	begin_proc() is called at the entrance of a new function
+		and performs the necessary code generation:
+		-	a scope indicator (if needed) exp/inp
+		-	the procedure entry pro $name
+		-	reserves some space if the result of the function
+			does not fit in the return area
+		-	a fil pseudo instruction
+	*/
 	arith size;
 
 #ifndef	USE_TMP
@@ -217,20 +216,21 @@ begin_proc(name, def)	/* to be called when entering a procedure	*/
 	}
 }
 
-/*	end_proc() deals with the code to be generated at the end of
-	a function, as there is:
-	-	the EM ret instruction: "ret 0"
-	-	loading of the function result in the function result area
-		if there has been a return <expr> in the function body
-		(see do_return_expr())
-	-	indication of the use of floating points
-	-	indication of the number of bytes used for formal parameters
-	-	use of special identifiers such as "setjmp"
-	-	"end" + number of bytes used for local variables
-*/
 end_proc(fbytes, nbytes)
 	arith fbytes, nbytes;
 {
+	/*	end_proc() deals with the code to be generated at the end of
+		a function, as there is:
+		-	the EM ret instruction: "ret 0"
+		-	loading of the function result in the function
+			result area if there has been a return <expr>
+			in the function body (see do_return_expr())
+		-	indication of the use of floating points
+		-	indication of the number of bytes used for
+			formal parameters
+		-	use of special identifiers such as "setjmp"
+		-	"end" + number of bytes used for local variables
+	*/
 	static int mes_flt_given = 0;	/* once for the whole program */
 
 #ifdef	DATAFLOW
@@ -296,6 +296,10 @@ code_declaration(idf, expr, lvl, sc)
 		-	global variables, coded only if initialized;
 		-	local static variables;
 		-	local automatic variables;
+		Since the expression may be modified in the process,
+		code_declaration() frees it after use, as the caller can
+		no longer do so.
+		
 		If there is a storage class indication (EXTERN/STATIC),
 		code_declaration() will generate an exa or ina.
 		The sc is the actual storage class, as given in the
@@ -328,6 +332,7 @@ code_declaration(idf, expr, lvl, sc)
 			def->df_alloc = ALLOC_DONE;
 			C_df_dnam(text);
 			do_ival(&(def->df_type), expr);
+			free_expression(expr);
 		}
 	}
 	else
@@ -341,8 +346,11 @@ code_declaration(idf, expr, lvl, sc)
 				integer label in EM.
 			*/
 			C_df_dlb((label)def->df_address);
-			if (expr) /* there is an initialisation	*/
+			if (expr)	{
+				/* there is an initialisation	*/
 				do_ival(&(def->df_type), expr);
+				free_expression(expr);
+			}
 			else {	/* produce blank space */
 				if (size <= 0) {
 					error("size of %s unknown", text);
@@ -378,6 +386,7 @@ loc_init(expr, id)
 {
 	/*	loc_init() generates code for the assignment of
 		expression expr to the local variable described by id.
+		It frees the expression afterwards.
 	*/
 	register struct type *tp = id->id_def->df_type;
 	
@@ -388,6 +397,7 @@ loc_init(expr, id)
 	case STRUCT:
 	case UNION:
 		error("no automatic aggregate initialisation");
+		free_expression(expr);
 		return;
 	}
 	
@@ -407,8 +417,9 @@ loc_init(expr, id)
 	else	{	/* not embraced	*/
 		struct value vl;
 
-		ch7cast(&expr, '=', tp);
+		ch7cast(&expr, '=', tp);	/* may modify expr */
 		EVAL(expr, RVAL, TRUE, NO_LABEL, NO_LABEL);
+		free_expression(expr);
 		vl.vl_class = Name;
 		vl.vl_data.vl_idf = id;
 		vl.vl_value = (arith)0;
@@ -416,11 +427,11 @@ loc_init(expr, id)
 	}
 }
 
-/*	bss() allocates bss space for the global idf.
-*/
 bss(idf)
 	struct idf *idf;
 {
+	/*	bss() allocates bss space for the global idf.
+	*/
 	register struct def *def = idf->id_def;
 	arith size = def->df_type->tp_size;
 	
@@ -454,85 +465,80 @@ formal_cvt(def)
 		}
 }
 
-/*	code_expr() is the parser's interface to the expression code
-	generator.
-	If line number trace is wanted, it generates a lin instruction.
-	EVAL() is called directly.
-*/
 code_expr(expr, val, code, tlbl, flbl)
 	struct expr *expr;
 	label tlbl, flbl;
 {
+	/*	code_expr() is the parser's interface to the expression code
+		generator.
+		If line number trace is wanted, it generates a
+		lin instruction.  EVAL() is called directly.
+	*/
 	if (options['p'])	/* profiling	*/
 		C_lin((arith)LineNumber);
 	EVAL(expr, val, code, tlbl, flbl);
 }
 
 /*	The FOR/WHILE/DO/SWITCH stacking mechanism:
-	stat_stack() has to be called at the entrance of a
+	stack_stmt() has to be called at the entrance of a
 	for, while, do or switch statement to indicate the
 	EM labels where a subsequent break or continue causes
 	the program to jump to.
 */
-/*	do_break() generates EM code needed at the occurrence of "break":
+/*	code_break() generates EM code needed at the occurrence of "break":
 	it generates a branch instruction to the break label of the
 	innermost statement in which break has a meaning.
 	As "break" is legal in any of 'while', 'do', 'for' or 'switch',
 	which are the only ones that are stacked, only the top of
 	the stack is interesting.
-	0 is returned if the break cannot be bound to any enclosing
-	statement.
 */
-int
-do_break()
+code_break()
 {
-	register struct stat_block *stat_ptr = stat_sp;
+	register struct stmt_block *stmt_block = stmt_stack;
 
-	if (stat_ptr)	{
-		C_bra(stat_ptr->st_break);
-		return 1;
+	if (stmt_block)	{
+		C_bra(stmt_block->st_break);
+		return;
 	}
-	return 0;	/* break is illegal	*/
+	error("break not inside for, while, do or switch");
 }
 
-/*	do_continue() generates EM code needed at the occurrence of "continue":
+/*	code_continue() generates EM code needed at the occurrence of
+	"continue":
 	it generates a branch instruction to the continue label of the
 	innermost statement in which continue has a meaning.
-	0 is returned if the continue cannot be bound to any enclosing
-	statement.
 */
-int
-do_continue()
+code_continue()
 {
-	register struct stat_block *stat_ptr = stat_sp;
+	register struct stmt_block *stmt_block = stmt_stack;
 
-	while (stat_ptr)	{
-		if (stat_ptr->st_continue)	{
-			C_bra(stat_ptr->st_continue);
-			return 1;
+	while (stmt_block)	{
+		if (stmt_block->st_continue)	{
+			C_bra(stmt_block->st_continue);
+			return;
 		}
-		stat_ptr = stat_ptr->next;
+		stmt_block = stmt_block->next;
 	}
-	return 0;
+	error("continue not inside for, while or do");
 }
 
-stat_stack(break_label, cont_label)
+stack_stmt(break_label, cont_label)
 	label break_label, cont_label;
 {
-	register struct stat_block *newb = new_stat_block();
+	register struct stmt_block *stmt_block = new_stmt_block();
 
-	newb->next = stat_sp;
-	newb->st_break = break_label;
-	newb->st_continue = cont_label;
-	stat_sp = newb;
+	stmt_block->next = stmt_stack;
+	stmt_block->st_break = break_label;
+	stmt_block->st_continue = cont_label;
+	stmt_stack = stmt_block;
 }
 
-/*	stat_unstack() unstacks the data of a statement
-	which may contain break or continue
-*/
-stat_unstack()
+unstack_stmt()
 {
-	register struct stat_block *sbp = stat_sp;
-	stat_sp = stat_sp->next;
-	free_stat_block(sbp);
+	/*	unstack_stmt() unstacks the data of a statement
+		which may contain break or continue
+	*/
+	register struct stmt_block *sbp = stmt_stack;
+	stmt_stack = stmt_stack->next;
+	free_stmt_block(sbp);
 }

+ 0 - 8
lang/cem/cemcom/code.str

@@ -1,14 +1,6 @@
 /* $Header$ */
 /*	C O D E - G E N E R A T O R   D E F I N I T I O N S	*/
 
-struct stat_block	{
-	struct stat_block *next;
-	label st_break;
-	label st_continue;
-};
-
-/* ALLOCDEF "stat_block" */
-
 struct string_cst	{	/* storing string constants */
 	struct string_cst *next;
 	char *sc_value;

+ 1 - 0
lang/cem/cemcom/cstoper.c

@@ -180,6 +180,7 @@ cstbin(expp, oper, expr)
 	cut_size(*expp);
 	(*expp)->ex_flags |= expr->ex_flags;
 	(*expp)->ex_flags &= ~EX_PARENS;
+	free_expression(expr);
 }
 
 cut_size(expr)

+ 12 - 12
lang/cem/cemcom/declar.g

@@ -16,6 +16,7 @@
 #include	"label.h"
 #include	"expr.h"
 #include	"sizes.h"
+#include	"storage.h"
 
 extern char options[];
 }
@@ -151,7 +152,6 @@ init_declarator(struct decspecs *ds;)
 	initializer(Dc.dc_idf, &expr)?
 	{
 		code_declaration(Dc.dc_idf, expr, level, ds->ds_sc);
-		free_expression(expr);
 	}
 ]
 	{remove_declarator(&Dc);}
@@ -167,7 +167,7 @@ init_declarator(struct decspecs *ds;)
 declarator(struct declarator *dc;)
 	{
 		arith count;
-		struct idstack_item *is = 0;
+		struct formal *fm = 0;
 	}
 :
 [
@@ -177,11 +177,11 @@ declarator(struct declarator *dc;)
 						old-fashioned initialization.
 					*/
 		'('
-		formal_list(&is) ?	/* semantic check later...	*/
+		formal_list(&fm) ?	/* semantic check later...	*/
 		')'
 		{
-			add_decl_unary(dc, FUNCTION, (arith)0, is);
-			is = 0;
+			add_decl_unary(dc, FUNCTION, (arith)0, fm);
+			fm = 0;
 		}
 	|
 		arrayer(&count)
@@ -219,21 +219,21 @@ arrayer(arith *sizep;)
 	']'
 ;
 
-formal_list (struct idstack_item **is;)
+formal_list (struct formal **fmp;)
 :
-	formal(is) [ ',' formal(is) ]*
+	formal(fmp) [ ',' formal(fmp) ]*
 ;
 
-formal(struct idstack_item **is;)
+formal(struct formal **fmp;)
 	{struct idf *idf;	}
 :
 	identifier(&idf)
 	{
-		struct idstack_item *new = new_idstack_item();
+		struct formal *new = new_formal();
 		
-		new->is_idf = idf;
-		new->next = *is;
-		*is = new;
+		new->fm_idf = idf;
+		new->next = *fmp;
+		*fmp = new;
 	}
 ;
 

+ 10 - 2
lang/cem/cemcom/declar.str

@@ -10,12 +10,20 @@ struct declarator	{
 	struct declarator *next;
 	struct idf *dc_idf;
 	struct decl_unary *dc_decl_unary;
-	struct idstack_item *dc_fparams;	/* params for function	*/
+	struct formal *dc_formal;	/* params for function	*/
 };
 
 /* ALLOCDEF "declarator" */
 
-#define	NO_PARAMS ((struct idstack_item *) 0)
+
+struct formal	{			/* list of formals */
+	struct formal *next;
+	struct idf *fm_idf;
+};
+
+/* ALLOCDEF "formal" */
+
+#define	NO_PARAMS ((struct formal *) 0)
 
 struct decl_unary	{
 	struct decl_unary *next;

+ 7 - 7
lang/cem/cemcom/declarator.c

@@ -32,10 +32,10 @@ declare_type(tp, dc)
 	return tp;
 }
 
-add_decl_unary(dc, fund, count, is)
+add_decl_unary(dc, fund, count, fm)
 	struct declarator *dc;
 	arith count;
-	struct idstack_item *is;
+	struct formal *fm;
 {
 	/*	A decl_unary describing a constructor with fundamental
 		type fund and with size count is inserted in front of the
@@ -47,14 +47,14 @@ add_decl_unary(dc, fund, count, is)
 	new->next = dc->dc_decl_unary;
 	new->du_fund = fund;
 	new->du_count = count;
-	if (is)	{
+	if (fm)	{
 		if (dc->dc_decl_unary)	{
 			/* paramlist only allowed at first decl_unary	*/
 			error("formal parameter list discarded");
 		}
 		else	{
 			/* register the parameters	*/
-			dc->dc_fparams = is;
+			dc->dc_formal = fm;
 		}
 	}
 	dc->dc_decl_unary = new;
@@ -82,10 +82,10 @@ reject_params(dc)
 	/*	The declarator is checked to have no parameters, if it
 		is a function.
 	*/
-	if (dc->dc_fparams)	{
+	if (dc->dc_formal)	{
 		error("non_empty formal parameter pack");
-		del_idfstack(dc->dc_fparams);
-		dc->dc_fparams = 0;
+		free_formals(dc->dc_formal);
+		dc->dc_formal = 0;
 	}
 }
 

+ 33 - 14
lang/cem/cemcom/expr.c

@@ -132,7 +132,7 @@ dot2expr(expp)
 		string2expr(*expp);
 		break;
 	case INTEGER:
-		*expp = intexpr(dot.tk_ival, dot.tk_fund);
+		int2expr(*expp);
 		break;
 	case FLOATING:
 		float2expr(*expp);
@@ -214,6 +214,27 @@ string2expr(expr)
 	expr->SG_DATLAB = 0;
 }
 
+int2expr(expr)
+	struct expr *expr;
+{
+	/*	Dot contains an integer constant which is turned
+		into an expression.
+	*/
+	fill_int_expr(expr, dot.tk_ival, dot.tk_fund);
+}
+
+float2expr(expr)
+	struct expr *expr;
+{
+	/*	Dot contains a floating point constant which is turned
+		into an expression.
+	*/
+	expr->ex_type = double_type;
+	expr->ex_class = Float;
+	expr->FL_VALUE = dot.tk_fval;
+	expr->FL_DATLAB = 0;
+}
+
 struct expr*
 intexpr(ivalue, fund)
 	arith ivalue;
@@ -227,6 +248,17 @@ intexpr(ivalue, fund)
 	expr->ex_file = dot.tk_file;
 	expr->ex_line = dot.tk_line;
 	
+	fill_int_expr(expr, ivalue, fund);
+	return expr;
+}
+
+fill_int_expr(expr, ivalue, fund)
+	struct expr *expr;
+	arith ivalue;
+{
+	/*	Details derived from ivalue and fund are put into the
+		constant integer expression expr.
+	*/
 	switch (fund) {
 	case INT:
 		expr->ex_type = int_type;
@@ -258,19 +290,6 @@ intexpr(ivalue, fund)
 	expr->VL_VALUE = ivalue;
 	
 	cut_size(expr);
-	return expr;
-}
-
-float2expr(expr)
-	struct expr *expr;
-{
-	/*	Dot contains a floating point constant which is turned
-		into an expression.
-	*/
-	expr->ex_type = double_type;
-	expr->ex_class = Float;
-	expr->FL_VALUE = dot.tk_fval;
-	expr->FL_DATLAB = 0;
 }
 
 struct expr *

+ 12 - 12
lang/cem/cemcom/idf.c

@@ -552,14 +552,14 @@ declare_params(dc)
 {
 	/*	Declares the formal parameters if they exist.
 	*/
-	register struct idstack_item *is = dc->dc_fparams;
+	register struct formal *fm = dc->dc_formal;
 	
-	while (is)	{
-		declare_parameter(is->is_idf);
-		is = is->next;
+	while (fm)	{
+		declare_parameter(fm->fm_idf);
+		fm = fm->next;
 	}
-	del_idfstack(dc->dc_fparams);
-	dc->dc_fparams = 0;
+	free_formals(dc->dc_formal);
+	dc->dc_formal = 0;
 }
 
 init_idf(idf)
@@ -672,13 +672,13 @@ update_ahead(idf)
 				TYPE_IDENTIFIER : IDENTIFIER;
 }
 
-del_idfstack(is)
-	struct idstack_item *is;
+free_formals(fm)
+	struct formal *fm;
 {
-	while (is)	{
-		register struct idstack_item *tmp = is->next;
-		free_idstack_item(is);
-		is = tmp;
+	while (fm)	{
+		register struct formal *tmp = fm->next;
+		free_formal(fm);
+		fm = tmp;
 	}
 }
 

+ 0 - 7
lang/cem/cemcom/idf.str

@@ -22,13 +22,6 @@ extern char hmask[];		/* the random masks */
 #define	ENHASH(hs,ch,ps)	(hs + (ch ^ hmask[ps]))
 #define	STOPHASH(hs)		(hs & HASHMASK)
 
-struct idstack_item	{	/* stack of identifiers */
-	struct idstack_item *next;
-	struct idf *is_idf;
-};
-
-/* ALLOCDEF "idstack_item" */
-
 struct idf	{
 	struct idf *next;
 	char *id_text;

+ 4 - 3
lang/cem/cemcom/main.c

@@ -189,14 +189,15 @@ compile(argc, argv)
 #endif USE_TMP
 
 #ifdef	DEBUG
-		if (options['u'])	/* unstack L_UNIVERSAL	*/
-			unstack_level();
+		if (options['u'])	{
+			unstack_level();	/* unstack L_GLOBAL */
+		}
 		if (options['f'] || options['t'])
 			dumpidftab("end of main", options['f'] ? 0 : 0);
 #endif	DEBUG
 #ifndef NOPP
 	}
-#endif NOPP
+#endif	NOPP
 	PopLex();
 }
 

+ 0 - 1
lang/cem/cemcom/make.allocd

@@ -1,7 +1,6 @@
 sed '
 s:^.*ALLOCDEF.*"\(.*\)".*$:\
 /* allocation definitions of struct \1 */\
-extern char *st_alloc();\
 extern struct \1 *h_\1;\
 #define	new_\1() ((struct \1 *) \\\
 		st_alloc((char **)\&h_\1, sizeof(struct \1)))\

+ 3 - 4
lang/cem/cemcom/program.g

@@ -153,10 +153,9 @@ non_function(struct decspecs *ds; struct declarator *dc;)
 :
 	{reject_params(dc);}
 	initializer(dc->dc_idf, &expr)?
-		{
-			code_declaration(dc->dc_idf, expr, level, ds->ds_sc);
-			free_expression(expr);
-		}
+	{
+		code_declaration(dc->dc_idf, expr, level, ds->ds_sc);
+	}
 	[
 		','
 		init_declarator(ds)

+ 9 - 7
lang/cem/cemcom/stack.c

@@ -1,4 +1,4 @@
-/* DERIVED FROM $Header$ */
+/* $Header$ */
 /*	S T A C K / U N S T A C K  R O U T I N E S	*/
 
 #include	<system.h>
@@ -250,19 +250,21 @@ unstack_world()
 			/* space must be allocated */
 			bss(idf);
 			namelist(idf->id_text);		/* may be common */
-			def->df_alloc = ALLOC_DONE;	/* *)	*/
+			def->df_alloc = ALLOC_DONE;	/* see Note below */
 		}
 		se = se->next;
 	}
-	/*   *)	df_alloc must be set to ALLOC_DONE because the idf entry
+	/*	Note:
+		df_alloc must be set to ALLOC_DONE because the idf entry
 		may occur several times in the list.
 		The reason for this is that the same name may be used
-		for different purposes on the same level, e.g
+		for different purposes on the same level, e.g.
 			struct s {int s;} s;
-		is a legal definition and contains 3 defining occurrences of s.
-		Each definition has been entered into the idfstack.
+		is a legal definition and contains 3 defining occurrences
+		of s.
+		Each definition has been entered into the identifier stack.
 		Although only one of them concerns a variable, we meet the
-		s 3 times when scanning the idfstack.
+		s 3 times when scanning the identifier stack.
 	*/
 }
 

+ 8 - 14
lang/cem/cemcom/statement.g

@@ -153,7 +153,7 @@ while_statement
 :
 	WHILE
 		{
-			stat_stack(l_break, l_continue);
+			stack_stmt(l_break, l_continue);
 			C_df_ilb(l_continue);
 		}
 	'('
@@ -175,7 +175,7 @@ while_statement
 		{
 			C_bra(l_continue);
 			C_df_ilb(l_break);
-			stat_unstack();
+			unstack_stmt();
 			free_expression(expr);
 		}
 ;
@@ -189,7 +189,7 @@ do_statement
 :
 	DO
 		{	C_df_ilb(l_body);
-			stat_stack(l_break, l_continue);
+			stack_stmt(l_break, l_continue);
 		}
 	statement
 	WHILE
@@ -212,7 +212,7 @@ do_statement
 	')'
 	';'
 		{
-			stat_unstack();
+			unstack_stmt();
 			free_expression(expr);
 		}
 ;
@@ -226,7 +226,7 @@ for_statement
 	}
 :
 	FOR
-		{	stat_stack(l_break, l_continue);
+		{	stack_stmt(l_break, l_continue);
 		}
 	'('
 	[
@@ -263,7 +263,7 @@ for_statement
 							NO_LABEL, NO_LABEL);
 			C_bra(l_test);
 			C_df_ilb(l_break);
-			stat_unstack();
+			unstack_stmt();
 			free_expression(e_init);
 			free_expression(e_test);
 			free_expression(e_incr);
@@ -317,20 +317,14 @@ default_statement
 break_statement
 :
 	BREAK
-		{
-			if (!do_break())
-				error("invalid break");
-		}
+	{code_break();}
 	';'
 ;
 
 continue_statement
 :
 	CONTINUE
-		{
-			if (!do_continue())
-				error("invalid continue");
-		}
+	{code_continue();}
 	';'
 ;
 

+ 1 - 1
lang/cem/cemcom/storage.c

@@ -21,7 +21,7 @@ struct xxx	{
 };
 
 char *
-st_alloc(phead, size)
+head_alloc(phead, size)
 	char **phead;
 	int size;
 {

+ 17 - 3
lang/cem/cemcom/storage.h

@@ -1,9 +1,23 @@
 /* $Header$ */
 /*	S T R U C T U R E - S T O R A G E  D E F I N I T I O N S	*/
 
+/*	Storage allocation is one of the most expensive operations in
+	the compiler and consequently much thought and experimentation
+	has gone into it.  To simplify the hooking in of new super-fancy
+	algorithms, all allocating and freeing of storage for structs
+	goes through the macros
+		st_alloc(&head, size)
+		st_free(ptr, head, size)
+	which, hopefully, convey enough information.
+*/
+
+extern char *head_alloc();
+
+#define	st_alloc(headp, size)		head_alloc((char **)headp, size)
+
 #ifndef	BOTCH_FREE
-#define	st_free(ptr, head, size)	{ptr->next = head; head = ptr;}
+#define	st_free(ptr, head, size)	(ptr->next = head, head = ptr)
 #else	def BOTCH_FREE
-#define	st_free(ptr, head, size)	{botch((char *)(ptr), size); \
-						ptr->next = head; head = ptr;}
+#define	st_free(ptr, head, size)	(botch((char *)(ptr), size), \
+						ptr->next = head, head = ptr)
 #endif	BOTCH_FREE

+ 0 - 2
lang/cem/cemcom/struct.str

@@ -11,8 +11,6 @@ struct sdef	{		/* for selectors */
 	arith sd_offset;
 };
 
-extern char *st_alloc();
-
 /* ALLOCDEF "sdef" */
 
 struct tag	{		/* for struct-, union- and enum tags */

+ 2 - 2
lang/cem/cemcom/switch.c

@@ -55,7 +55,7 @@ code_startswitch(expr)
 		break;
 	}
 	
-	stat_stack(l_break, NO_LABEL);
+	stack_stmt(l_break, NO_LABEL);
 	sh->sh_break = l_break;
 	sh->sh_default = 0;
 	sh->sh_table = l_table;
@@ -123,7 +123,7 @@ code_endswitch()
 		ce = tmp;
 	}
 	free_switch_hdr(sh);
-	stat_unstack();
+	unstack_stmt();
 }
 
 code_case(expr)

+ 1 - 0
lang/cem/cemcom/type.c

@@ -10,6 +10,7 @@
 #include	"def.h"
 #include	"sizes.h"
 #include	"align.h"
+#include	"storage.h"
 
 struct type *function_of(), *array_of();
 #ifndef NOBITFIELD