Work around a crash when '@' is interpreted as a macro name.

rgbasm: improve (some) pathological spacing.
Makefile: don't expand variables in a non-POSIXish way.
2025-11-21 02:32:06 +00:00 · 2015-01-22 21:12:57 -07:00 · 2015-01-22 21:09:10 -07:00 · 2015-01-22 20:42:27 -07:00 · 2015-01-22 20:33:07 -07:00 · 2015-01-19 23:28:09 -08:00
32 changed files with 2274 additions and 2383 deletions
--- a/30
+++ b/30
@@ -1,6 +1,8 @@
 .POSIX:
-REALCFLAGS =	${CFLAGS} -Wall -Iinclude -Iinclude/asm/gameboy -g -std=c99
+WARNFLAGS =	-Wall -Werror=implicit
 REALCFLAGS =	${CFLAGS} ${WARNFLAGS} -Iinclude -g \
 		-std=c99 -D_POSIX_C_SOURCE=200809L
 # User-defined variables
 PREFIX =	/usr/local
@@ -8,14 +10,9 @@ BINPREFIX =	${PREFIX}/bin
 MANPREFIX =	${PREFIX}/man
 Q =		@
-yacc_pre := \
+rgbasm_obj = \
 	src/asm/yaccprt1.y\
 	src/asm/gameboy/yaccprt2.y\
 	src/asm/yaccprt3.y\
 	src/asm/gameboy/yaccprt4.y
 rgbasm_obj := \
 	src/asm/asmy.o \
 	src/asm/charmap.o \
 	src/asm/fstack.o \
 	src/asm/globlex.o \
 	src/asm/lexer.o \
@@ -24,12 +21,12 @@ rgbasm_obj := \
 	src/asm/output.o \
 	src/asm/rpn.o \
 	src/asm/symbol.o \
-	src/asm/gameboy/locallex.o \
+	src/asm/locallex.o \
 	src/extern/err.o \
 	src/extern/strlcpy.o \
 	src/extern/strlcat.o
-rgblink_obj := \
+rgblink_obj = \
 	src/link/assign.o \
 	src/link/library.o \
 	src/link/main.o \
@@ -40,7 +37,7 @@ rgblink_obj := \
 	src/link/symbol.o \
 	src/extern/err.o
-rgbfix_obj := \
+rgbfix_obj = \
 	src/fix/main.o \
 	src/extern/err.o
@@ -51,7 +48,7 @@ clean:
 	$Qrm -rf rgbasm rgbasm.exe ${rgbasm_obj} rgbasm.html
 	$Qrm -rf rgblink rgblink.exe ${rgblink_obj} rgblink.html
 	$Qrm -rf rgbfix rgbfix.exe ${rgbfix_obj} rgbfix.html
-	$Qrm -rf src/asm/asmy.c src/asm/asmy.h src/asm/asmy.y
+	$Qrm -rf src/asm/asmy.c src/asm/asmy.h
 install: all
 	$Qmkdir -p ${BINPREFIX}
@@ -79,13 +76,9 @@ rgbfix: ${rgbfix_obj}
 .c.o:
 	$Q${CC} ${REALCFLAGS} -c -o $@ $<
-src/asm/gameboy/locallex.o src/asm/globlex.o src/asm/lexer.o: src/asm/asmy.h
+src/asm/locallex.o src/asm/globlex.o src/asm/lexer.o: src/asm/asmy.h
 src/asm/asmy.h: src/asm/asmy.c
 src/asm/asmy.y: ${yacc_pre}
 	$Qcat ${yacc_pre} > $@
 # Below is a target for the project maintainer to easily create win32 exes.
 # This is not for Windows users!
 # If you're building on Windows with Cygwin or Mingw, just follow the Unix
@@ -93,7 +86,8 @@ src/asm/asmy.y: ${yacc_pre}
 mingw:
 	$Qenv PATH=/usr/local/mingw32/bin:/bin:/usr/bin:/usr/local/bin \
 		make CC=gcc CFLAGS="-I/usr/local/mingw32/include \
-			-D__progname=\\\"\\\" ${CFLAGS}"
+			-D__progname=\\\"\\\" \
 			${CFLAGS}"
 	$Qmv rgbasm rgbasm.exe
 	$Qmv rgblink rgblink.exe
 	$Qmv rgbfix rgbfix.exe
--- a/include/asm/asm.h
+++ b/include/asm/asm.h
@@ -9,8 +9,9 @@
 #ifndef ASMOTOR_ASM_ASM_H
 #define ASMOTOR_ASM_ASM_H
-#include <stdlib.h>
+#include <stdbool.h>
 #include <stdio.h>
 #include <stdlib.h>
 #include "asm/types.h"
 #include "asm/symbol.h"
@@ -26,9 +27,9 @@ extern char tzCurrentFileName[_MAX_PATH + 1];
 extern struct Section *pCurrentSection;
 extern struct sSymbol *tHashedSymbols[HASHSIZE];
 extern struct sSymbol *pPCSymbol;
-extern UBYTE oDontExpandStrings;
+extern bool oDontExpandStrings;
-#define MAXMACROARGS	9
+#define MAXMACROARGS	256
 #define MAXINCPATHS		16
 #endif	/* //       ASM_H */
--- a/include/asm/charmap.h
+++ b/include/asm/charmap.h
@@ -0,0 +1,18 @@
 #ifndef ASMOTOR_ASM_CHARMAP_H
 #define ASMOTOR_ASM_CHARMAP_H
 #define MAXCHARMAPS	512
 #define CHARMAPLENGTH	8
 struct Charmap {
 	int count;
 	char input[MAXCHARMAPS][CHARMAPLENGTH + 1];
 	char output[MAXCHARMAPS];
 };
 int readUTF8Char(char *destination, char *source);
 void charmap_Sort();
 int charmap_Add(char *input, UBYTE output);
 int charmap_Convert(char **input);
 #endif
--- a/include/asm/gameboy/localasm.h
+++ b/include/asm/gameboy/localasm.h
--- a/include/asm/main.h
+++ b/include/asm/main.h
@@ -8,6 +8,7 @@ struct sOptions {
 	char binary[2];
 	SLONG fillchar;
 	bool verbose;
 	bool haltnop;
 	    //-1 == random
 };
--- a/include/asm/mymath.h
+++ b/include/asm/mymath.h
@@ -14,5 +14,8 @@ SLONG math_ATan(SLONG i);
 SLONG math_ATan2(SLONG i, SLONG j);
 SLONG math_Mul(SLONG i, SLONG j);
 SLONG math_Div(SLONG i, SLONG j);
 SLONG math_Round(SLONG i);
 SLONG math_Ceil(SLONG i);
 SLONG math_Floor(SLONG i);
 #endif
--- a/include/asm/output.h
+++ b/include/asm/output.h
@@ -12,6 +12,7 @@ struct Section {
 	ULONG nBank;
 	struct Section *pNext;
 	struct Patch *pPatches;
 	struct Charmap *charmap;
 	UBYTE *tData;
 };
@@ -20,12 +21,14 @@ void out_SetFileName(char *s);
 void out_NewSection(char *pzName, ULONG secttype);
 void out_NewAbsSection(char *pzName, ULONG secttype, SLONG org, SLONG bank);
 void out_AbsByte(int b);
 void out_AbsByteGroup(char *s, int length);
 void out_RelByte(struct Expression * expr);
 void out_RelWord(struct Expression * expr);
 void out_PCRelByte(struct Expression * expr);
 void out_WriteObject(void);
 void out_Skip(int skip);
 void out_BinaryFile(char *s);
 void out_BinaryFileSlice(char *s, SLONG start_pos, SLONG length);
 void out_String(char *s);
 void out_AbsLong(SLONG b);
 void out_RelLong(struct Expression * expr);
--- a/include/asm/types.h
+++ b/include/asm/types.h
@@ -1,7 +1,9 @@
 #ifndef ASMOTOR_ASM_TYPES_H
 #define ASMOTOR_ASM_TYPES_H
 #ifndef _MAX_PATH
 #define	_MAX_PATH	512
 #endif
 typedef unsigned char UBYTE;
 typedef signed char SBYTE;
--- a/include/extern/err.h
+++ b/include/extern/err.h
@@ -29,6 +29,7 @@
 #else
 #include <stdarg.h>
 #include "stdnoreturn.h"
 #define warn rgbds_warn
 #define vwarn rgbds_vwarn
@@ -49,10 +50,10 @@ void vwarn(const char *, va_list);
 void warnx(const char *, ...);
 void vwarnx(const char *, va_list);
-void err(int, const char *, ...);
+noreturn void err(int, const char *, ...);
-void verr(int, const char *, va_list);
+noreturn void verr(int, const char *, va_list);
-void errx(int, const char *, ...);
+noreturn void errx(int, const char *, ...);
-void verrx(int, const char *, va_list);
+noreturn void verrx(int, const char *, va_list);
 #ifdef __cplusplus
 }
--- a/include/extern/stdnoreturn.h
+++ b/include/extern/stdnoreturn.h
@@ -0,0 +1,16 @@
 #if __STDC_VERSION__ >= 201112L
    // C11 or newer
    #define noreturn _Noreturn
 #elif __cplusplus >= 201103L
    // C++11 or newer
    #define noreturn [[noreturn]]
 #elif __GNUC__ > 2 || (__GNUC__ == 2 && (__GNUC_MINOR__ >= 5))
    // GCC 2.5 or newer
    #define noreturn __attribute__ ((noreturn))
 #elif _MSC_VER >= 1310
    // MS Visual Studio 2003/.NET Framework 1.1 or newer
    #define noreturn _declspec( noreturn)
 #else
    // unsupported, but no need to throw a fit
    #define noreturn 
 #endif
--- a/include/link/mylink.h
+++ b/include/link/mylink.h
@@ -1,7 +1,9 @@
 #ifndef ASMOTOR_LINK_LINK_H
 #define ASMOTOR_LINK_LINK_H
 #ifndef _MAX_PATH
 #define _MAX_PATH	512
 #endif
 #include "link/types.h"
--- a/include/link/types.h
+++ b/include/link/types.h
@@ -1,7 +1,9 @@
 #ifndef ASMOTOR_LINK_TYPES_H
 #define ASMOTOR_LINK_TYPES_H
 #ifndef _MAX_PATH
 #define	_MAX_PATH	512
 #endif
 typedef unsigned char UBYTE;
 typedef signed char SBYTE;
--- a/src/asm/.gitignore
+++ b/src/asm/.gitignore
@@ -1,3 +1,2 @@
 asmy.c
 asmy.h
 asmy.y
--- a/src/asm/asmy.y
+++ b/src/asm/asmy.y
--- a/src/asm/charmap.c
+++ b/src/asm/charmap.c
@@ -0,0 +1,204 @@
 /*
 * Copyright © 2013 stag019 <stag019@gmail.com>
 *
 * Permission to use, copy, modify, and distribute this software for any
 * purpose with or without fee is hereby granted, provided that the above
 * copyright notice and this permission notice appear in all copies.
 *
 * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
 * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
 * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
 * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
 * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
 * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
 * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
 */
 #include <stdlib.h>
 #include <stdio.h>
 #include <string.h>
 #include "asm/asm.h"
 #include "asm/charmap.h"
 #include "asm/main.h"
 #include "asm/output.h"
 struct Charmap globalCharmap = {0};
 extern struct Section *pCurrentSection;
 int
 readUTF8Char(char *destination, char *source)
 {
 	int size;
 	UBYTE first;
 	first = source[0];
 	if(first >= 0xFC)
 	{
 		size = 6;
 	}
 	else if(first >= 0xF8)
 	{
 		size = 5;
 	}
 	else if(first >= 0xF0)
 	{
 		size = 4;
 	}
 	else if(first >= 0xE0)
 	{
 		size = 3;
 	}
 	else if(first >= 0xC0)
 	{
 		size = 2;
 	}
 	else if(first != '\0')
 	{
 		size = 1;
 	}
 	else
 	{
 		size = 0;
 	}
 	strncpy(destination, source, size);
 	destination[size] = 0;
 	return size;
 }
 int
 charmap_Add(char *input, UBYTE output)
 {
 	int i, input_length;
 	char temp1i[CHARMAPLENGTH + 1], temp2i[CHARMAPLENGTH + 1], temp1o = 0, temp2o = 0;
 	struct Charmap *charmap;
 	if(pCurrentSection)
 	{
 		if(pCurrentSection -> charmap)
 		{
 			charmap = pCurrentSection -> charmap;
 		}
 		else
 		{
 			if((charmap = (struct Charmap *) calloc(1, sizeof(struct Charmap))) == NULL)
 			{
 				fatalerror("Not enough memory for charmap");
 			}
 			pCurrentSection -> charmap = charmap;
 		}
 	}
 	else
 	{
 		charmap = &globalCharmap;
 	}
 	if(nPass == 2)
 	{
 		return charmap -> count;
 	}
 	if(charmap -> count > MAXCHARMAPS || strlen(input) > CHARMAPLENGTH)
 	{
 		return -1;
 	}
 	input_length = strlen(input);
 	if(input_length > 1)
 	{
 		i = 0;
 		while(i < charmap -> count + 1)
 		{
 			if(input_length > strlen(charmap -> input[i]))
 			{
 				memcpy(temp1i, charmap -> input[i], CHARMAPLENGTH + 1);
 				memcpy(charmap -> input[i], input, input_length);
 				temp1o = charmap -> output[i];
 				charmap -> output[i] = output;
 				i++;
 				break;
 			}
 			i++;
 		}
 		while(i < charmap -> count + 1)
 		{
 			memcpy(temp2i, charmap -> input[i], CHARMAPLENGTH + 1);
 			memcpy(charmap -> input[i], temp1i, CHARMAPLENGTH + 1);
 			memcpy(temp1i, temp2i, CHARMAPLENGTH + 1);
 			temp2o = charmap -> output[i];
 			charmap -> output[i] = temp1o;
 			temp1o = temp2o;
 			i++;
 		}
 		memcpy(charmap -> input[charmap -> count + 1], temp1i, CHARMAPLENGTH + 1);
 		charmap -> output[charmap -> count + 1] = temp1o;
 	}
 	else
 	{
 		memcpy(charmap -> input[charmap -> count], input, input_length);
 		charmap -> output[charmap -> count] = output;
 	}
 	return ++charmap -> count;
 }
 int 
 charmap_Convert(char **input)
 {
 	struct Charmap *charmap;
 	char outchar[CHARMAPLENGTH + 1];
 	char *buffer;
 	int i, j, length;
 	if(pCurrentSection && pCurrentSection -> charmap)
 	{
 		charmap = pCurrentSection -> charmap;
 	}
 	else
 	{
 		charmap = &globalCharmap;
 	}
 	if((buffer = (char *) malloc(strlen(*input))) == NULL)
 	{
 		fatalerror("Not enough memory for buffer");
 	}
 	length = 0;
 	while(**input)
 	{
 		j = 0;
 		for(i = 0; i < charmap -> count; i++)
 		{
 			j = strlen(charmap -> input[i]);
 			if(memcmp(*input, charmap -> input[i], j) == 0)
 			{
 				outchar[0] = charmap -> output[i];
 				outchar[1] = 0;
 				break;
 			}
 			j = 0;
 		}
 		if(!j)
 		{
 			j = readUTF8Char(outchar, *input);
 		}
 		if(!outchar[0])
 		{
 			buffer[length++] = 0;
 		}
 		else
 		{
 			for(i = 0; outchar[i]; i++)
 			{
 				buffer[length++] = outchar[i];
 			}
 		}
 		*input += j;
 	}
 	*input = buffer;
 	return length;
 }
--- a/src/asm/fstack.c
+++ b/src/asm/fstack.c
@@ -1,8 +1,5 @@
 /*
- * RGBAsm - FSTACK.C (FileStack routines)
+ * FileStack routines
 *
 * INCLUDES
 *
 */
 #include <errno.h>
@@ -23,13 +20,6 @@
 #define PATH_MAX 256
 #endif
 /*
 * RGBAsm - FSTACK.C (FileStack routines)
 *
 * VARIABLES
 *
 */
 struct sContext *pFileStack;
 struct sSymbol *pCurrentMacro;
 YY_BUFFER_STATE CurrentFlexHandle;
@@ -55,12 +45,8 @@ ULONG ulMacroReturnValue;
 #define STAT_isREPTBlock	3
 /*
 * RGBAsm - FSTACK.C (FileStack routines)
 *
 * Context push and pop
 *
 */
 void 
 pushcontext(void)
 {
@@ -167,13 +153,10 @@ yywrap(void)
 {
 	return (popcontext());
 }
 /*
 * RGBAsm - FSTACK.C (FileStack routines)
 *
 * Dump the context stack to stderr
 *
 */
 /*
 * Dump the context stack to stderr
 */
 void 
 fstk_Dump(void)
 {
@@ -189,13 +172,10 @@ fstk_Dump(void)
 	fprintf(stderr, "%s(%ld)", tzCurrentFileName, nLineNo);
 }
 /*
 * RGBAsm - FSTACK.C (FileStack routines)
 *
 * Extra includepath stuff
 *
 */
 /*
 * Extra includepath stuff
 */
 void 
 fstk_AddIncludePath(char *s)
 {
@@ -230,13 +210,10 @@ fstk_FindFile(char *fname)
 	errno = ENOENT;
 	return NULL;
 }
 /*
 * RGBAsm - FSTACK.C (FileStack routines)
 *
 * Set up an include file for parsing
 *
 */
 /*
 * Set up an include file for parsing
 */
 void
 fstk_RunInclude(char *tzFileName)
 {
@@ -262,13 +239,10 @@ fstk_RunInclude(char *tzFileName)
 	yyunput('\n');
 	nLineNo -= 1;
 }
 /*
 * RGBAsm - FSTACK.C (FileStack routines)
 *
 * Set up a macro for parsing
 *
 */
 /*
 * Set up a macro for parsing
 */
 ULONG 
 fstk_RunMacro(char *s)
 {
@@ -281,22 +255,21 @@ fstk_RunMacro(char *s)
 		sym_UseNewMacroArgs();
 		nCurrentStatus = STAT_isMacro;
 		strcpy(tzCurrentFileName, s);
 		if (sym->pMacro == NULL)
 			return 0;
 		pCurrentMacro = sym;
 		CurrentFlexHandle =
 		    yy_scan_bytes(pCurrentMacro->pMacro,
-		    pCurrentMacro->ulMacroSize);
+		    strlen(pCurrentMacro->pMacro));
 		yy_switch_to_buffer(CurrentFlexHandle);
 		return (1);
 	} else
 		return (0);
 }
 /*
 * RGBAsm - FSTACK.C (FileStack routines)
 *
 * Set up a macroargument for parsing
 *
 */
 /*
 * Set up a macroargument for parsing
 */
 void 
 fstk_RunMacroArg(SLONG s)
 {
@@ -316,13 +289,10 @@ fstk_RunMacroArg(SLONG s)
 	} else
 		fatalerror("No such macroargument");
 }
 /*
 * RGBAsm - FSTACK.C (FileStack routines)
 *
 * Set up a stringequate for parsing
 *
 */
 /*
 * Set up a stringequate for parsing
 */
 void 
 fstk_RunString(char *s)
 {
@@ -338,13 +308,10 @@ fstk_RunString(char *s)
 	} else
 		yyerror("No such string symbol '%s'", s);
 }
 /*
 * RGBAsm - FSTACK.C (FileStack routines)
 *
 * Set up a repeat block for parsing
 *
 */
 /*
 * Set up a repeat block for parsing
 */
 void 
 fstk_RunRept(ULONG count)
 {
@@ -362,13 +329,10 @@ fstk_RunRept(ULONG count)
 		yy_switch_to_buffer(CurrentFlexHandle);
 	}
 }
 /*
 * RGBAsm - FSTACK.C (FileStack routines)
 *
 * Initialize the filestack routines
 *
 */
 /*
 * Initialize the filestack routines
 */
 void
 fstk_Init(char *s)
 {
--- a/src/asm/gameboy/yaccprt2.y
+++ b/src/asm/gameboy/yaccprt2.y
@@ -1,41 +0,0 @@
 %token	T_SECT_WRAM0 T_SECT_VRAM T_SECT_ROMX T_SECT_ROM0 T_SECT_HRAM T_SECT_WRAMX T_SECT_SRAM
 %token	T_Z80_ADC T_Z80_ADD T_Z80_AND
 %token	T_Z80_BIT
 %token	T_Z80_CALL T_Z80_CCF T_Z80_CP T_Z80_CPL
 %token	T_Z80_DAA T_Z80_DEC T_Z80_DI
 %token	T_Z80_EI T_Z80_EX
 %token	T_Z80_HALT
 %token	T_Z80_INC
 %token	T_Z80_JP T_Z80_JR
 %token	T_Z80_LD
 %token	T_Z80_LDI
 %token	T_Z80_LDD
 %token	T_Z80_LDIO
 %token	T_Z80_NOP
 %token	T_Z80_OR
 %token	T_Z80_POP T_Z80_PUSH
 %token	T_Z80_RES T_Z80_RET T_Z80_RETI T_Z80_RST
 %token	T_Z80_RL T_Z80_RLA T_Z80_RLC T_Z80_RLCA
 %token	T_Z80_RR T_Z80_RRA T_Z80_RRC T_Z80_RRCA
 %token	T_Z80_SBC T_Z80_SCF T_Z80_STOP
 %token	T_Z80_SLA T_Z80_SRA T_Z80_SRL T_Z80_SUB T_Z80_SWAP
 %token	T_Z80_XOR
 %token	T_MODE_A T_MODE_B T_MODE_C T_MODE_C_IND T_MODE_D T_MODE_E T_MODE_H T_MODE_L
 %token	T_MODE_AF
 %token	T_MODE_BC T_MODE_BC_IND
 %token	T_MODE_DE T_MODE_DE_IND
 %token	T_MODE_SP T_MODE_SP_IND
 %token	T_MODE_HL T_MODE_HL_IND T_MODE_HL_INDDEC T_MODE_HL_INDINC
 %token	T_CC_NZ T_CC_Z T_CC_NC
 %type	<nConstValue>	reg_r
 %type	<nConstValue>	reg_ss
 %type	<nConstValue>	reg_rr
 %type	<nConstValue>	reg_tt
 %type	<nConstValue>	ccode
 %type	<sVal>			op_a_n
 %type	<nConstValue>	op_a_r
 %type	<nConstValue>	op_hl_ss
 %type	<sVal>			op_mem_ind
--- a/src/asm/gameboy/yaccprt4.y
+++ b/src/asm/gameboy/yaccprt4.y
@@ -1,557 +0,0 @@
 section:
 		T_POP_SECTION string ',' sectiontype
 		{
 			out_NewSection($2,$4);
 		}
 	|	T_POP_SECTION string ',' sectiontype '[' const ']'
 		{
 			if( $6>=0 && $6<0x10000 )
 				out_NewAbsSection($2,$4,$6,-1);
 			else
 				yyerror("Address $%x not 16-bit", $6);
 		}
 	|	T_POP_SECTION string ',' sectiontype ',' T_OP_BANK '[' const ']'
 		{
 			if( $4==SECT_ROMX ) {
 				if( $8>=1 && $8<=0x1ff )
 					out_NewAbsSection($2,$4,-1,$8);
 				else
 					yyerror("ROM bank value $%x out of range (1 to $1ff)", $8);
 			} else if ($4 == SECT_SRAM) {
 				if ($8 >= 0 && $8 <= 3) {
 					out_NewAbsSection($2, $4, -1, $8);
 				} else {
 					yyerror("SRAM bank value $%x out of range (0 to 3)", $8);
 				}
 			} else if ($4 == SECT_WRAMX) {
 				if ($8 >= 1 && $8 <= 7) {
 					out_NewAbsSection($2, $4, -1, $8);
 				} else {
 					yyerror("WRAMX bank value $%x out of range (1 to 7)", $8);
 				}
 			} else if ($4 == SECT_VRAM) {
 				if ($8 >= 0 && $8 <= 1) {
 					out_NewAbsSection($2, $4, -1, $8);
 				} else {
 					yyerror("VRAM bank value $%x out of range (0 to 1)", $8);
 				}
 			} else {
 				yyerror("BANK only allowed for ROMX, WRAMX, SRAM, or VRAM sections");
 			}
 		}
 	|	T_POP_SECTION string ',' sectiontype '[' const ']' ',' T_OP_BANK '[' const ']'
 		{
 			if( $4==SECT_ROMX ) {
 				if( $6>=0 && $6<0x10000 ) {
 					if( $11>=1 && $11<=0x1ff )
 						out_NewAbsSection($2,$4,$6,$11);
 					else
 						yyerror("ROM bank value $%x out of range (1 to $1ff)", $11);
 				} else
 					yyerror("Address $%x not 16-bit", $6);
 			} else if ($4 == SECT_SRAM) {
 				if ($6 >= 0 && $6 < 0x10000) {
 					if ($11 >= 0 && $11 <= 3) {
 						out_NewAbsSection($2, $4, $6, $11);
 					} else {
 						yyerror("SRAM bank value $%x out of range (0 to 3)", $11);
 					}
 				} else {
 					yyerror("Address $%x not 16-bit", $6);
 				}
 			} else if ($4 == SECT_WRAMX) {
 				if ($6 >= 0 && $6 < 0x10000) {
 					if ($11 >= 1 && $11 <= 7) {
 						out_NewAbsSection($2, $4, $6, $11);
 					} else {
 						yyerror("WRAMX bank value $%x out of range (1 to 7)", $11);
 					}
 				} else {
 					yyerror("Address $%x not 16-bit", $6);
 				}
 			} else if ($4 == SECT_VRAM) {
 				if ($6 >= 0 && $6 < 0x10000) {
 					if ($11 >= 0 && $11 <= 1) {
 						out_NewAbsSection($2,$4,$6,$11);
 					} else {
 						yyerror("VRAM bank value $%x out of range (0 to 1)", $11);
 					}
 				} else {
 					yyerror("Address $%x not 16-bit", $6);
 				}
 			} else {
 				yyerror("BANK only allowed for ROMX, WRAMX, SRAM, or VRAM sections");
 			}
 		}
 ;
 sectiontype:
 		T_SECT_WRAM0	{ $$=SECT_WRAM0; }
 	|	T_SECT_VRAM	{ $$=SECT_VRAM; }
 	|	T_SECT_ROMX	{ $$=SECT_ROMX; }
 	|	T_SECT_ROM0	{ $$=SECT_ROM0; }
 	|	T_SECT_HRAM	{ $$=SECT_HRAM; }
 	|	T_SECT_WRAMX	{ $$=SECT_WRAMX; }
 	|	T_SECT_SRAM	{ $$=SECT_SRAM; }
 ;
 cpu_command		:	z80_adc
 				|	z80_add
 				|	z80_and
 				|	z80_bit
 				|	z80_call
 				|	z80_ccf
 				|	z80_cp
 				|	z80_cpl
 				|	z80_daa
 				|	z80_dec
 				|	z80_di
 				|	z80_ei
 				|	z80_ex
 				|	z80_halt
 				|	z80_inc
 				|	z80_jp
 				|	z80_jr
 				|	z80_ld
 				|	z80_ldd
 				|	z80_ldi
 				|	z80_ldio
 				|	z80_nop
 				|	z80_or
 				|	z80_pop
 				|	z80_push
 				|	z80_res
 				|	z80_ret
 				|	z80_reti
 				|	z80_rl
 				|	z80_rla
 				|	z80_rlc
 				|	z80_rlca
 				|	z80_rr
 				|	z80_rra
 				|	z80_rrc
 				|	z80_rrca
 				|	z80_rst
 				|	z80_sbc
 				|	z80_scf
 				|	z80_set
 				|	z80_sla
 				|	z80_sra
 				|	z80_srl
 				|	z80_stop
 				|	z80_sub
 				|	z80_swap
 				|	z80_xor
 ;
 z80_adc			:	T_Z80_ADC op_a_n	{ out_AbsByte(0xCE); out_RelByte(&$2); }
 				|	T_Z80_ADC op_a_r	{ out_AbsByte(0x88|$2); }
 ;
 z80_add			:	T_Z80_ADD op_a_n	{ out_AbsByte(0xC6); out_RelByte(&$2); }
 				|	T_Z80_ADD op_a_r	{ out_AbsByte(0x80|$2); }
 				|	T_Z80_ADD op_hl_ss	{ out_AbsByte(0x09|($2<<4)); }
 				|	T_Z80_ADD T_MODE_SP comma const_8bit
 					{ out_AbsByte(0xE8); out_RelByte(&$4); }
 ;
 z80_and			:	T_Z80_AND op_a_n	{ out_AbsByte(0xE6); out_RelByte(&$2); }
 				|	T_Z80_AND op_a_r	{ out_AbsByte(0xA0|$2); }
 ;
 z80_bit			:	T_Z80_BIT const_3bit comma reg_r
 					{ out_AbsByte(0xCB); out_AbsByte(0x40|($2<<3)|$4); }
 ;
 z80_call		:	T_Z80_CALL const_16bit
 					{ out_AbsByte(0xCD); out_RelWord(&$2); }
 				|	T_Z80_CALL ccode comma const_16bit
 					{ out_AbsByte(0xC4|($2<<3)); out_RelWord(&$4); }
 ;
 z80_ccf			:	T_Z80_CCF
 					{ out_AbsByte(0x3F); }
 ;
 z80_cp			:	T_Z80_CP op_a_n	{ out_AbsByte(0xFE); out_RelByte(&$2); }
 				|	T_Z80_CP op_a_r	{ out_AbsByte(0xB8|$2); }
 ;
 z80_cpl			:	T_Z80_CPL { out_AbsByte(0x2F); }
 ;
 z80_daa			:	T_Z80_DAA { out_AbsByte(0x27); }
 ;
 z80_dec			:	T_Z80_DEC reg_r
 					{ out_AbsByte(0x05|($2<<3)); }
 				|	T_Z80_DEC reg_ss
 					{ out_AbsByte(0x0B|($2<<4)); }
 ;
 z80_di			:	T_Z80_DI
 					{ out_AbsByte(0xF3); }
 ;
 z80_ei			:	T_Z80_EI
 					{ out_AbsByte(0xFB); }
 ;
 z80_ex			:	T_Z80_EX T_MODE_HL comma T_MODE_SP_IND
 					{ out_AbsByte(0xE3); }
 				|	T_Z80_EX T_MODE_SP_IND comma T_MODE_HL
 					{ out_AbsByte(0xE3); }
 ;
 z80_halt: T_Z80_HALT
 		{
 			out_AbsByte(0x76);
 			if (haltnop) {
 				out_AbsByte(0x00);
 			}
 		}
 ;
 z80_inc			:	T_Z80_INC reg_r
 					{ out_AbsByte(0x04|($2<<3)); }
 				|	T_Z80_INC reg_ss
 					{ out_AbsByte(0x03|($2<<4)); }
 ;
 z80_jp			:	T_Z80_JP const_16bit
 					{ out_AbsByte(0xC3); out_RelWord(&$2); }
 				|	T_Z80_JP ccode comma const_16bit
 					{ out_AbsByte(0xC2|($2<<3)); out_RelWord(&$4); }
 				|	T_Z80_JP T_MODE_HL_IND
 					{ out_AbsByte(0xE9); }
 				|	T_Z80_JP T_MODE_HL
 					{ out_AbsByte(0xE9); }
 ;
 z80_jr			:	T_Z80_JR const_PCrel
 					{ out_AbsByte(0x18); out_PCRelByte(&$2); }
 				|	T_Z80_JR ccode comma const_PCrel
 					{ out_AbsByte(0x20|($2<<3)); out_PCRelByte(&$4); }
 ;
 z80_ldi			:	T_Z80_LDI T_MODE_HL_IND comma T_MODE_A
 					{ out_AbsByte(0x02|(2<<4)); }
 				|	T_Z80_LDI T_MODE_A comma T_MODE_HL
 					{ out_AbsByte(0x0A|(2<<4)); }
 ;
 z80_ldd			:	T_Z80_LDD T_MODE_HL_IND comma T_MODE_A
 					{ out_AbsByte(0x02|(3<<4)); }
 				|	T_Z80_LDD T_MODE_A comma T_MODE_HL
 					{ out_AbsByte(0x0A|(3<<4)); }
 ;
 z80_ldio		:	T_Z80_LDIO T_MODE_A comma op_mem_ind
 					{
 						rpn_CheckHRAM(&$4,&$4);
 						if( (!rpn_isReloc(&$4))
 						&&	($4.nVal<0 || ($4.nVal>0xFF && $4.nVal<0xFF00) || $4.nVal>0xFFFF) )
 						{
 							yyerror("Source address $%x not in HRAM ($FF00 to $FFFE)", $4.nVal);
 						}
 						out_AbsByte(0xF0);
 						$4.nVal&=0xFF;
 						out_RelByte(&$4);
 					}
 				|	T_Z80_LDIO op_mem_ind comma T_MODE_A
 					{
 						rpn_CheckHRAM(&$2,&$2);
 						if( (!rpn_isReloc(&$2))
 						&&	($2.nVal<0 || ($2.nVal>0xFF && $2.nVal<0xFF00) || $2.nVal>0xFFFF) )
 						{
 							yyerror("Destination address $%x not in HRAM ($FF00 to $FFFE)", $2.nVal);
 						}
 						out_AbsByte(0xE0);
 						$2.nVal&=0xFF;
 						out_RelByte(&$2);
 					}
 ;
 z80_ld			:	z80_ld_mem
 				|	z80_ld_cind
 				|	z80_ld_rr
 				|	z80_ld_ss
 				|	z80_ld_hl
 				|	z80_ld_sp
 				|	z80_ld_r
 				|	z80_ld_a
 ;
 z80_ld_hl		:	T_Z80_LD T_MODE_HL comma '[' T_MODE_SP const_8bit ']'
 					{ out_AbsByte(0xF8); out_RelByte(&$6); }
 				|	T_Z80_LD T_MODE_HL comma T_MODE_SP const_8bit
 					{ out_AbsByte(0xF8); out_RelByte(&$5); }
 				|	T_Z80_LD T_MODE_HL comma const_16bit
 					{ out_AbsByte(0x01|(REG_HL<<4)); out_RelWord(&$4); }
 ;
 z80_ld_sp		:	T_Z80_LD T_MODE_SP comma T_MODE_HL
 					{ out_AbsByte(0xF9); }
 				|	T_Z80_LD T_MODE_SP comma const_16bit
 					{ out_AbsByte(0x01|(REG_SP<<4)); out_RelWord(&$4); }
 ;
 z80_ld_mem		:	T_Z80_LD op_mem_ind comma T_MODE_SP
 					{ out_AbsByte(0x08); out_RelWord(&$2); }
 				|	T_Z80_LD op_mem_ind comma T_MODE_A
 					{
 						if( (!rpn_isReloc(&$2)) && $2.nVal>=0xFF00)
 						{
 							out_AbsByte(0xE0);
 							out_AbsByte($2.nVal&0xFF);
 						}
 						else
 						{
 							out_AbsByte(0xEA);
 							out_RelWord(&$2);
 						}
 					}
 ;
 z80_ld_cind		:	T_Z80_LD T_MODE_C_IND comma T_MODE_A
 					{ out_AbsByte(0xE2); }
 ;
 z80_ld_rr		:	T_Z80_LD reg_rr comma T_MODE_A
 					{ out_AbsByte(0x02|($2<<4)); }
 ;
 z80_ld_r		:	T_Z80_LD reg_r comma const_8bit
 					{ out_AbsByte(0x06|($2<<3)); out_RelByte(&$4); }
 				|	T_Z80_LD reg_r comma reg_r
 					{
 						if( ($2==REG_HL_IND) && ($4==REG_HL_IND) )
 						{
 							yyerror("LD [HL],[HL] not a valid instruction");
 						}
 						else
 							out_AbsByte(0x40|($2<<3)|$4);
 					}
 ;
 z80_ld_a		:	T_Z80_LD reg_r comma T_MODE_C_IND
 					{
 						if( $2==REG_A )
 							out_AbsByte(0xF2);
 						else
 						{
 							yyerror("Destination operand must be A");
 						}
 					}
 				|	T_Z80_LD reg_r comma reg_rr
 					{
 						if( $2==REG_A )
 							out_AbsByte(0x0A|($4<<4));
 						else
 						{
 							yyerror("Destination operand must be A");
 						}
 					}
 				|	T_Z80_LD reg_r comma op_mem_ind
 					{
 						if( $2==REG_A )
 						{
 							if( (!rpn_isReloc(&$4)) && $4.nVal>=0xFF00 )
 							{
 								out_AbsByte(0xF0);
 								out_AbsByte($4.nVal&0xFF);
 							}
 							else
 							{
 								out_AbsByte(0xFA);
 								out_RelWord(&$4);
 							}
 						}
 						else
 						{
 							yyerror("Destination operand must be A");
 						}
 					}
 ;
 z80_ld_ss		:	T_Z80_LD reg_ss comma const_16bit
 					{ out_AbsByte(0x01|($2<<4)); out_RelWord(&$4); }
 ;
 z80_nop			:	T_Z80_NOP
 					{ out_AbsByte(0x00); }
 ;
 z80_or			:	T_Z80_OR op_a_n
 					{ out_AbsByte(0xF6); out_RelByte(&$2); }
 				|	T_Z80_OR op_a_r
 					{ out_AbsByte(0xB0|$2); }
 ;
 z80_pop			:	T_Z80_POP reg_tt
 					{ out_AbsByte(0xC1|($2<<4)); }
 ;
 z80_push		:	T_Z80_PUSH reg_tt
 					{ out_AbsByte(0xC5|($2<<4)); }
 ;
 z80_res			:	T_Z80_RES const_3bit comma reg_r
 					{ out_AbsByte(0xCB); out_AbsByte(0x80|($2<<3)|$4); }
 ;
 z80_ret			:	T_Z80_RET
 					{ out_AbsByte(0xC9); }
 				|	T_Z80_RET ccode
 					{ out_AbsByte(0xC0|($2<<3)); }
 ;
 z80_reti		:	T_Z80_RETI
 					{ out_AbsByte(0xD9); }
 ;
 z80_rl			:	T_Z80_RL reg_r
 					{ out_AbsByte(0xCB); out_AbsByte(0x10|$2); }
 ;
 z80_rla			:	T_Z80_RLA
 					{ out_AbsByte(0x17); }
 ;
 z80_rlc			:	T_Z80_RLC reg_r
 					{ out_AbsByte(0xCB); out_AbsByte(0x00|$2); }
 ;
 z80_rlca 		:	T_Z80_RLCA
 					{ out_AbsByte(0x07); }
 ;
 z80_rr			:	T_Z80_RR reg_r
 					{ out_AbsByte(0xCB); out_AbsByte(0x18|$2); }
 ;
 z80_rra			:	T_Z80_RRA
 					{ out_AbsByte(0x1F); }
 ;
 z80_rrc			:	T_Z80_RRC reg_r
 					{ out_AbsByte(0xCB); out_AbsByte(0x08|$2); }
 ;
 z80_rrca 		:	T_Z80_RRCA
 					{ out_AbsByte(0x0F); }
 ;
 z80_rst 		:	T_Z80_RST const_8bit
 					{
 						if( rpn_isReloc(&$2) )
 						{
 							yyerror("Address for RST must be absolute");
 						}
 						else if( ($2.nVal&0x38)!=$2.nVal )
 						{
 							yyerror("Invalid address $%x for RST", $2.nVal);
 						}
 						else
 							out_AbsByte(0xC7|$2.nVal);
 					}
 ;
 z80_sbc			:	T_Z80_SBC op_a_n	{ out_AbsByte(0xDE); out_RelByte(&$2); }
 				|	T_Z80_SBC op_a_r	{ out_AbsByte(0x98|$2); }
 ;
 z80_scf			:	T_Z80_SCF
 					{ out_AbsByte(0x37); }
 ;
 z80_set			:	T_POP_SET const_3bit comma reg_r
 					{ out_AbsByte(0xCB); out_AbsByte(0xC0|($2<<3)|$4); }
 ;
 z80_sla			:	T_Z80_SLA reg_r
 					{ out_AbsByte(0xCB); out_AbsByte(0x20|$2); }
 ;
 z80_sra			:	T_Z80_SRA reg_r
 					{ out_AbsByte(0xCB); out_AbsByte(0x28|$2); }
 ;
 z80_srl			:	T_Z80_SRL reg_r
 					{ out_AbsByte(0xCB); out_AbsByte(0x38|$2); }
 ;
 z80_stop		:	T_Z80_STOP
 					{ out_AbsByte(0x10); out_AbsByte(0x00); }
 ;
 z80_sub			:	T_Z80_SUB op_a_n	{ out_AbsByte(0xD6); out_RelByte(&$2); }
 				|	T_Z80_SUB op_a_r	{ out_AbsByte(0x90|$2); }
 ;
 z80_swap		:	T_Z80_SWAP reg_r
 					{ out_AbsByte(0xCB); out_AbsByte(0x30|$2); }
 ;
 z80_xor			:	T_Z80_XOR op_a_n	{ out_AbsByte(0xEE); out_RelByte(&$2); }
 				|	T_Z80_XOR op_a_r	{ out_AbsByte(0xA8|$2); }
 ;
 op_mem_ind		:	'[' const_16bit ']'	{ $$ = $2; }
 ;
 op_hl_ss 		:	reg_ss					{ $$ = $1; }
 				|	T_MODE_HL comma reg_ss	{ $$ = $3; }
 ;
 op_a_r			:	reg_r				{ $$ = $1; }
 				|	T_MODE_A comma reg_r	{ $$ = $3; }
 ;
 op_a_n			:	const_8bit				{ $$ = $1; }
 				|	T_MODE_A comma const_8bit	{ $$ = $3; }
 ;
 comma			:	','
 ;
 ccode			:	T_CC_NZ		{ $$ = CC_NZ; }
 				|	T_CC_Z		{ $$ = CC_Z; }
 				|	T_CC_NC		{ $$ = CC_NC; }
 				|	T_MODE_C	{ $$ = CC_C; }
 ;
 reg_r			:	T_MODE_B		{ $$ = REG_B; }
 				|	T_MODE_C		{ $$ = REG_C; }
 				|	T_MODE_D		{ $$ = REG_D; }
 				|	T_MODE_E		{ $$ = REG_E; }
 				|	T_MODE_H		{ $$ = REG_H; }
 				|	T_MODE_L		{ $$ = REG_L; }
 				|	T_MODE_HL_IND	{ $$ = REG_HL_IND; }
 				|	T_MODE_A		{ $$ = REG_A; }
 ;
 reg_tt			:	T_MODE_BC		{ $$ = REG_BC; }
 				|	T_MODE_DE		{ $$ = REG_DE; }
 				|	T_MODE_HL		{ $$ = REG_HL; }
 				|	T_MODE_AF		{ $$ = REG_AF; }
 ;
 reg_ss			:	T_MODE_BC		{ $$ = REG_BC; }
 				|	T_MODE_DE		{ $$ = REG_DE; }
 				|	T_MODE_HL		{ $$ = REG_HL; }
 				|	T_MODE_SP		{ $$ = REG_SP; }
 ;
 reg_rr			:	T_MODE_BC_IND		{ $$ = REG_BC_IND; }
 				|	T_MODE_DE_IND		{ $$ = REG_DE_IND; }
 				|	T_MODE_HL_INDINC	{ $$ = REG_HL_INDINC; }
 				|	T_MODE_HL_INDDEC	{ $$ = REG_HL_INDDEC; }
 ;
 %%
--- a/src/asm/globlex.c
+++ b/src/asm/globlex.c
@@ -7,12 +7,13 @@
 #include "asmy.h"
 #include <stdbool.h>
 #include <stdio.h>
 #include <stdlib.h>
 #include <math.h>
 #include <string.h>
-UBYTE oDontExpandStrings = 0;
+bool oDontExpandStrings = false;
 SLONG nGBGfxID = -1;
 SLONG nBinaryID = -1;
@@ -109,7 +110,7 @@ ascii2bin(char *s)
 ULONG 
 ParseFixedPoint(char *s, ULONG size)
 {
-	char dest[256];
+	//char dest[256];
 	ULONG i = 0, dot = 0;
 	while (size && dot != 2) {
@@ -117,13 +118,13 @@ ParseFixedPoint(char *s, ULONG size)
 			dot += 1;
 		if (dot < 2) {
-			dest[i] = s[i];
+			//dest[i] = s[i];
 			size -= 1;
 			i += 1;
 		}
 	}
-	dest[i] = 0;
+	//dest[i] = 0;
 	yyunputbytes(size);
@@ -184,7 +185,7 @@ ParseSymbol(char *src, ULONG size)
 	dest[copied] = 0;
-	if (oDontExpandStrings == 0 && sym_isString(dest)) {
+	if (!oDontExpandStrings && sym_isString(dest)) {
 		char *s;
 		yyskipbytes(size_backup);
@@ -225,7 +226,6 @@ PutUniqueArg(char *src, ULONG size)
 {
 	char *s;
 	src = src;
 	yyskipbytes(size);
 	if ((s = sym_FindMacroArg(-1)) != NULL) {
 		yyunputstr(s);
@@ -268,6 +268,9 @@ struct sLexInitString staticstrings[] = {
 	{"bank", T_OP_BANK},
 	{"round", T_OP_ROUND},
 	{"ceil", T_OP_CEIL},
 	{"floor", T_OP_FLOOR},
 	{"div", T_OP_FDIV},
 	{"mul", T_OP_FMUL},
 	{"sin", T_OP_SIN},
@@ -308,6 +311,7 @@ struct sLexInitString staticstrings[] = {
 	{"rsset", T_POP_RSSET},
 	{"incbin", T_POP_INCBIN},
 	{"charmap", T_POP_CHARMAP},
 	{"fail", T_POP_FAIL},
 	{"warn", T_POP_WARN},
--- a/src/asm/lexer.c
+++ b/src/asm/lexer.c
@@ -1,3 +1,9 @@
 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>
 #include <strings.h>
 #include <ctype.h>
 #include "asm/asm.h"
 #include "asm/lexer.h"
 #include "asm/types.h"
@@ -8,11 +14,6 @@
 #include "asmy.h"
 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>
 #include <ctype.h>
 struct sLexString {
 	char *tzName;
 	ULONG nToken;
@@ -164,7 +165,10 @@ yy_create_buffer(FILE * f)
 				if (*mem == '\"')
 					instring = 1 - instring;
-				if (instring) {
+				if (mem[0] == '\\' &&
 				    (mem[1] == '\"' || mem[1] == '\\')) {
 					mem += 2;
 				} else if (instring) {
 					mem += 1;
 				} else {
 					if ((mem[0] == 10 && mem[1] == 13)
--- a/src/asm/gameboy/locallex.c
+++ b/src/asm/gameboy/locallex.c
@@ -2,7 +2,7 @@
 #include "asm/lexer.h"
 #include "asm/rpn.h"
-#include "../asmy.h"
+#include "asmy.h"
 struct sLexInitString localstrings[] = {
 	{"adc", T_Z80_ADC},
--- a/src/asm/main.c
+++ b/src/asm/main.c
@@ -1,14 +1,5 @@
 /*
 * RGBAsm - MAIN.C
 *
 * INCLUDES
 *
 */
 #include <math.h>
 #include <getopt.h>
 #include <stdarg.h>
 #include <stdbool.h>
 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>
@@ -24,15 +15,6 @@
 int yyparse(void);
 void setuplex(void);
 /*
 * RGBAsm - MAIN.C
 *
 * VARIABLES
 *
 */
 bool haltnop;
 clock_t nStartClock, nEndClock;
 SLONG nLineNo;
 ULONG nTotalLines, nPass, nPC, nIFDepth, nErrors;
@@ -40,10 +22,7 @@ ULONG nTotalLines, nPass, nPC, nIFDepth, nErrors;
 extern int yydebug;
 /*
 * RGBAsm - MAIN.C
 *
 * Option stack
 *
 */
 struct sOptions DefaultOptions;
@@ -194,13 +173,10 @@ opt_Pop(void)
 	} else
 		fatalerror("No entries in the option stack");
 }
 /*
 * RGBAsm - MAIN.C
 *
 * Error handling
 *
 */
 /*
 * Error handling
 */
 void
 verror(const char *fmt, va_list args)
 {
@@ -230,26 +206,15 @@ fatalerror(const char *fmt, ...)
 	va_end(args);
 	exit(5);
 }
 /*
 * RGBAsm - MAIN.C
 *
 * Help text
 *
 */
-void 
+static void 
-PrintUsage(void)
+usage(void)
 {
-	printf("Usage: rgbasm [-v] [-h] [-b chars] [-g chars] [-i path] [-o outfile] [-p pad_value]\n"
+	printf(
-	    "              file\n");
+"Usage: rgbasm [-v] [-h] [-b chars] [-g chars] [-i path] [-o outfile]\n"
 "              [-p pad_value] file.asm\n");
 	exit(1);
 }
 /*
 * RGBAsm - MAIN.C
 *
 * main
 *
 */
 int 
 main(int argc, char *argv[])
@@ -261,10 +226,10 @@ main(int argc, char *argv[])
 	char *tzMainfile;
-	haltnop = true;
+
 	if (argc == 1)
-		PrintUsage();
+		usage();
 	/* yydebug=1; */
@@ -276,6 +241,7 @@ main(int argc, char *argv[])
 	DefaultOptions.binary[1] = '1';
 	DefaultOptions.fillchar = 0;
 	DefaultOptions.verbose = false;
 	DefaultOptions.haltnop = true;
 	opt_SetCurrentOptions(&DefaultOptions);
@@ -304,7 +270,7 @@ main(int argc, char *argv[])
 			}
 			break;
 		case 'h':
-			haltnop = false;
+			newopt.haltnop = false;
 			break;
 		case 'i':
 			fstk_AddIncludePath(optarg);
@@ -326,7 +292,7 @@ main(int argc, char *argv[])
 			newopt.verbose = true;
 			break;
 		default:
-			PrintUsage();
+			usage();
 		}
 	}
 	argc -= optind;
@@ -336,6 +302,9 @@ main(int argc, char *argv[])
 	DefaultOptions = CurrentOptions;
 	if (argc == 0)
 		usage();
 	tzMainfile = argv[argc - 1];
 	setuplex();
@@ -354,6 +323,7 @@ main(int argc, char *argv[])
 	nErrors = 0;
 	sym_PrepPass1();
 	fstk_Init(tzMainfile);
 	if (CurrentOptions.verbose) {
 		printf("Pass 1...\n");
 	}
@@ -361,59 +331,48 @@ main(int argc, char *argv[])
 	yy_set_state(LEX_STATE_NORMAL);
 	opt_SetCurrentOptions(&DefaultOptions);
-	if (yyparse() == 0 && nErrors == 0) {
+	if (yyparse() != 0 || nErrors != 0) {
-		if (nIFDepth == 0) {
+		errx(1, "Assembly aborted in pass 1 (%ld errors)!", nErrors);
 			nTotalLines = 0;
 			nLineNo = 1;
 			nIFDepth = 0;
 			nPC = 0;
 			nPass = 2;
 			nErrors = 0;
 			sym_PrepPass2();
 			out_PrepPass2();
 			fstk_Init(tzMainfile);
 			yy_set_state(LEX_STATE_NORMAL);
 			opt_SetCurrentOptions(&DefaultOptions);
 			if (CurrentOptions.verbose) {
 				printf("Pass 2...\n");
 			}
 			if (yyparse() == 0 && nErrors == 0) {
 				double timespent;
 				nEndClock = clock();
 				timespent =
 				    ((double) (nEndClock - nStartClock))
 				    / (double) CLOCKS_PER_SEC;
 				if (CurrentOptions.verbose) {
 					printf
 					    ("Success! %ld lines in %d.%02d seconds ",
 					    nTotalLines, (int) timespent,
 					    ((int) (timespent * 100.0)) % 100);
 					if (timespent == 0)
 						printf
 						    ("(INFINITY lines/minute)\n");
 					else
 						printf("(%d lines/minute)\n",
 						    (int) (60 / timespent *
 							nTotalLines));
 				}
 				out_WriteObject();
 			} else {
 				printf
 				    ("Assembly aborted in pass 2 (%ld errors)!\n",
 				    nErrors);
 				//sym_PrintSymbolTable();
 				exit(5);
 			}
 		} else {
 			errx(1, "Unterminated IF construct (%ld levels)!",
 			    nIFDepth);
 		}
 	} else {
 		errx(1, "Assembly aborted in pass 1 (%ld errors)!",
 		    nErrors);
 	}
 	if (nIFDepth != 0) {
 		errx(1, "Unterminated IF construct (%ld levels)!", nIFDepth);
 	}
 	nTotalLines = 0;
 	nLineNo = 1;
 	nIFDepth = 0;
 	nPC = 0;
 	nPass = 2;
 	nErrors = 0;
 	sym_PrepPass2();
 	out_PrepPass2();
 	fstk_Init(tzMainfile);
 	yy_set_state(LEX_STATE_NORMAL);
 	opt_SetCurrentOptions(&DefaultOptions);
 	if (CurrentOptions.verbose) {
 		printf("Pass 2...\n");
 	}
 	if (yyparse() != 0 || nErrors != 0) {
 		errx(1, "Assembly aborted in pass 2 (%ld errors)!", nErrors);
 	}
 	double timespent;
 	nEndClock = clock();
 	timespent = ((double)(nEndClock - nStartClock))
 	    / (double)CLOCKS_PER_SEC;
 	if (CurrentOptions.verbose) {
 		printf("Success! %ld lines in %d.%02d seconds ", nTotalLines,
 		    (int) timespent, ((int) (timespent * 100.0)) % 100);
 		if (timespent == 0)
 			printf("(INFINITY lines/minute)\n");
 		else
 			printf("(%d lines/minute)\n",
 			    (int) (60 / timespent * nTotalLines));
 	}
 	out_WriteObject();
 	return 0;
 }
--- a/src/asm/math.c
+++ b/src/asm/math.c
@@ -1,8 +1,5 @@
 /*
- * RGBAsm - MATH.C (Fixedpoint math routines)
+ * Fixedpoint math routines
 *
 * INCLUDES
 *
 */
 #include <math.h>
@@ -19,24 +16,17 @@
 #endif
 /*
 * RGBAsm - MATH.C (Fixedpoint math routines)
 *
 * Define the _PI symbol
 *
 */
 void 
 math_DefinePI(void)
 {
 	sym_AddEqu("_PI", double2fix(PI));
 }
 /*
 * RGBAsm - MATH.C (Fixedpoint math routines)
 *
 * Print a fixed point value
 *
 */
 /*
 * Print a fixed point value
 */
 void 
 math_Print(SLONG i)
 {
@@ -47,112 +37,112 @@ math_Print(SLONG i)
 		printf("-%ld.%05ld", (-i) >> 16,
 		    ((SLONG) (fix2double(-i) * 100000 + 0.5)) % 100000);
 }
 /*
 * RGBAsm - MATH.C (Fixedpoint math routines)
 *
 * Calculate sine
 *
 */
 /*
 * Calculate sine
 */
 SLONG 
 math_Sin(SLONG i)
 {
 	return (double2fix(sin(fix2double(i) * 2 * PI / 65536)));
 }
 /*
 * RGBAsm - MATH.C (Fixedpoint math routines)
 *
 * Calculate cosine
 *
 */
 /*
 * Calculate cosine
 */
 SLONG 
 math_Cos(SLONG i)
 {
 	return (double2fix(cos(fix2double(i) * 2 * PI / 65536)));
 }
 /*
 * RGBAsm - MATH.C (Fixedpoint math routines)
 *
 * Calculate tangent
 *
 */
 /*
 * Calculate tangent
 */
 SLONG 
 math_Tan(SLONG i)
 {
 	return (double2fix(tan(fix2double(i) * 2 * PI / 65536)));
 }
 /*
 * RGBAsm - MATH.C (Fixedpoint math routines)
 *
 * Calculate sine^-1
 *
 */
 /*
 * Calculate arcsine
 */
 SLONG 
 math_ASin(SLONG i)
 {
 	return (double2fix(asin(fix2double(i)) / 2 / PI * 65536));
 }
 /*
 * RGBAsm - MATH.C (Fixedpoint math routines)
 *
 * Calculate cosine^-1
 *
 */
 /*
 * Calculate arccosine
 */
 SLONG 
 math_ACos(SLONG i)
 {
 	return (double2fix(acos(fix2double(i)) / 2 / PI * 65536));
 }
 /*
 * RGBAsm - MATH.C (Fixedpoint math routines)
 *
 * Calculate tangent^-1
 *
 */
 /*
 * Calculate arctangent
 */
 SLONG 
 math_ATan(SLONG i)
 {
 	return (double2fix(atan(fix2double(i)) / 2 / PI * 65536));
 }
 /*
 * RGBAsm - MATH.C (Fixedpoint math routines)
 *
 * Calculate atan2
 *
 */
 /*
 * Calculate atan2
 */
 SLONG 
 math_ATan2(SLONG i, SLONG j)
 {
 	return (double2fix
 	    (atan2(fix2double(i), fix2double(j)) / 2 / PI * 65536));
 }
 /*
 * RGBAsm - MATH.C (Fixedpoint math routines)
 *
 * Multiplication
 *
 */
 /*
 * Multiplication
 */
 SLONG 
 math_Mul(SLONG i, SLONG j)
 {
 	return (double2fix(fix2double(i) * fix2double(j)));
 }
 /*
 * RGBAsm - MATH.C (Fixedpoint math routines)
 *
 * Division
 *
 */
 /*
 * Division
 */
 SLONG 
 math_Div(SLONG i, SLONG j)
 {
 	return (double2fix(fix2double(i) / fix2double(j)));
 }
 /*
 * Round
 */
 SLONG 
 math_Round(SLONG i)
 {
 	return double2fix(round(fix2double(i)));
 }
 /*
 * Ceil
 */
 SLONG 
 math_Ceil(SLONG i)
 {
 	return double2fix(ceil(fix2double(i)));
 }
 /*
 * Floor
 */
 SLONG 
 math_Floor(SLONG i)
 {
 	return double2fix(floor(fix2double(i)));
 }
--- a/src/asm/output.c
+++ b/src/asm/output.c
@@ -1,8 +1,5 @@
 /*
- * RGBAsm - OUTPUT.C - Outputs an objectfile
+ * Outputs an objectfile
 *
 * INCLUDES
 *
 */
 #include <errno.h>
@@ -11,6 +8,7 @@
 #include <string.h>
 #include "asm/asm.h"
 #include "asm/charmap.h"
 #include "asm/output.h"
 #include "asm/symbol.h"
 #include "asm/mylink.h"
@@ -21,13 +19,6 @@
 #define SECTIONCHUNK	0x4000
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * Internal structures
 *
 */
 void out_SetCurrentSection(struct Section * pSect);
 struct Patch {
@@ -51,12 +42,6 @@ struct SectionStackEntry {
 	struct Section *pSection;
 	struct SectionStackEntry *pNext;
 };
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * VARIABLES
 *
 */
 struct PatchSymbol *tHashedPatchSymbols[HASHSIZE];
 struct Section *pSectionList = NULL, *pCurrentSection = NULL;
@@ -66,12 +51,8 @@ char *tzObjectname;
 struct SectionStackEntry *pSectionStack = NULL;
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * Section stack routines
 *
 */
 void 
 out_PushSection(void)
 {
@@ -98,13 +79,10 @@ out_PopSection(void)
 	} else
 		fatalerror("No entries in the section stack");
 }
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * Count the number of symbols used in this object
 *
 */
 /*
 * Count the number of symbols used in this object
 */
 ULONG 
 countsymbols(void)
 {
@@ -120,13 +98,10 @@ countsymbols(void)
 	return (count);
 }
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * Count the number of sections used in this object
 *
 */
 /*
 * Count the number of sections used in this object
 */
 ULONG 
 countsections(void)
 {
@@ -142,13 +117,10 @@ countsections(void)
 	return (count);
 }
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * Count the number of patches used in this object
 *
 */
 /*
 * Count the number of patches used in this object
 */
 ULONG 
 countpatches(struct Section * pSect)
 {
@@ -163,13 +135,10 @@ countpatches(struct Section * pSect)
 	return (r);
 }
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * Write a long to a file (little-endian)
 *
 */
 /*
 * Write a long to a file (little-endian)
 */
 void 
 fputlong(ULONG i, FILE * f)
 {
@@ -178,13 +147,10 @@ fputlong(ULONG i, FILE * f)
 	fputc(i >> 16, f);
 	fputc(i >> 24, f);
 }
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * Write a NULL-terminated string to a file
 *
 */
 /*
 * Write a NULL-terminated string to a file
 */
 void 
 fputstring(char *s, FILE * f)
 {
@@ -192,13 +158,10 @@ fputstring(char *s, FILE * f)
 		fputc(*s++, f);
 	fputc(0, f);
 }
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * Return a sections ID
 *
 */
 /*
 * Return a section's ID
 */
 ULONG 
 getsectid(struct Section * pSect)
 {
@@ -217,13 +180,10 @@ getsectid(struct Section * pSect)
 	fatalerror("INTERNAL: Unknown section");
 	return ((ULONG) - 1);
 }
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * Write a patch to a file
 *
 */
 /*
 * Write a patch to a file
 */
 void 
 writepatch(struct Patch * pPatch, FILE * f)
 {
@@ -234,13 +194,10 @@ writepatch(struct Patch * pPatch, FILE * f)
 	fputlong(pPatch->nRPNSize, f);
 	fwrite(pPatch->pRPN, 1, pPatch->nRPNSize, f);
 }
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * Write a section to a file
 *
 */
 /*
 * Write a section to a file
 */
 void 
 writesection(struct Section * pSect, FILE * f)
 {
@@ -268,13 +225,10 @@ writesection(struct Section * pSect, FILE * f)
 		}
 	}
 }
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * Write a symbol to a file
 *
 */
 /*
 * Write a symbol to a file
 */
 void 
 writesymbol(struct sSymbol * pSym, FILE * f)
 {
@@ -318,13 +272,10 @@ writesymbol(struct sSymbol * pSym, FILE * f)
 		fputlong(offset, f);
 	}
 }
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * Add a symbol to the object
 *
 */
 /*
 * Add a symbol to the object
 */
 ULONG 
 addsymbol(struct sSymbol * pSym)
 {
@@ -354,13 +305,10 @@ addsymbol(struct sSymbol * pSym)
 	return pPSym->ID;
 }
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * Add all exported symbols to the object
 *
 */
 /*
 * Add all exported symbols to the object
 */
 void 
 addexports(void)
 {
@@ -377,13 +325,10 @@ addexports(void)
 		}
 	}
 }
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * Allocate a new patchstructure and link it into the list
 *
 */
 /*
 * Allocate a new patchstructure and link it into the list
 */
 struct Patch *
 allocpatch(void)
 {
@@ -400,13 +345,10 @@ allocpatch(void)
 	return (pPatch);
 }
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * Create a new patch (includes the rpn expr)
 *
 */
 /*
 * Create a new patch (includes the rpn expr)
 */
 void 
 createpatch(ULONG type, struct Expression * expr)
 {
@@ -472,13 +414,10 @@ createpatch(ULONG type, struct Expression * expr)
 		pPatch->nRPNSize = rpnptr;
 	}
 }
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * A quick check to see if we have an initialized section
 *
 */
 /*
 * A quick check to see if we have an initialized section
 */
 void 
 checksection(void)
 {
@@ -487,14 +426,11 @@ checksection(void)
 	else
 		fatalerror("Code generation before SECTION directive");
 }
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * A quick check to see if we have an initialized section that can contain
 * this much initialized data
 *
 */
 void 
 checkcodesection(SLONG size)
 {
@@ -523,13 +459,10 @@ checkcodesection(SLONG size)
 	} else
 		errx(1, "Section '%s' is too big", pCurrentSection->pzName);
 }
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * Write an objectfile
 *
 */
 /*
 * Write an objectfile
 */
 void 
 out_WriteObject(void)
 {
@@ -560,13 +493,10 @@ out_WriteObject(void)
 		fclose(f);
 	}
 }
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * Prepare for pass #2
 *
 */
 /*
 * Prepare for pass #2
 */
 void 
 out_PrepPass2(void)
 {
@@ -580,13 +510,10 @@ out_PrepPass2(void)
 	pCurrentSection = NULL;
 	pSectionStack = NULL;
 }
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * Set the objectfilename
 *
 */
 /*
 * Set the objectfilename
 */
 void 
 out_SetFileName(char *s)
 {
@@ -598,16 +525,12 @@ out_SetFileName(char *s)
 	pCurrentSection = NULL;
 	pPatchSymbols = NULL;
 }
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * Find a section by name and type.  If it doesn't exist, create it
 *
 */
 /*
 * Find a section by name and type.  If it doesn't exist, create it
 */
 struct Section *
-out_FindSection(char *pzName, ULONG secttype, SLONG org,
+out_FindSection(char *pzName, ULONG secttype, SLONG org, SLONG bank)
    SLONG bank)
 {
 	struct Section *pSect, **ppSect;
@@ -637,6 +560,7 @@ out_FindSection(char *pzName, ULONG secttype, SLONG org,
 			pSect->nBank = bank;
 			pSect->pNext = NULL;
 			pSect->pPatches = NULL;
 			pSect->charmap = NULL;
 			pPatchSymbols = NULL;
 			if ((pSect->tData = malloc(SECTIONCHUNK)) != NULL) {
@@ -650,13 +574,10 @@ out_FindSection(char *pzName, ULONG secttype, SLONG org,
 	return (NULL);
 }
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * Set the current section
 *
 */
 /*
 * Set the current section
 */
 void 
 out_SetCurrentSection(struct Section * pSect)
 {
@@ -666,37 +587,28 @@ out_SetCurrentSection(struct Section * pSect)
 	pPCSymbol->nValue = nPC;
 	pPCSymbol->pSection = pCurrentSection;
 }
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * Set the current section by name and type
 *
 */
 /*
 * Set the current section by name and type
 */
 void 
 out_NewSection(char *pzName, ULONG secttype)
 {
 	out_SetCurrentSection(out_FindSection(pzName, secttype, -1, -1));
 }
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * Set the current section by name and type
 *
 */
 /*
 * Set the current section by name and type
 */
 void 
 out_NewAbsSection(char *pzName, ULONG secttype, SLONG org, SLONG bank)
 {
 	out_SetCurrentSection(out_FindSection(pzName, secttype, org, bank));
 }
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * Output an absolute byte
 *
 */
 /*
 * Output an absolute byte
 */
 void 
 out_AbsByte(int b)
 {
@@ -709,13 +621,18 @@ out_AbsByte(int b)
 	nPC += 1;
 	pPCSymbol->nValue += 1;
 }
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * Skip this many bytes
 *
 */
 void 
 out_AbsByteGroup(char *s, int length)
 {
 	checkcodesection(length);
 	while (length--)
 		out_AbsByte(*s++);
 }
 /*
 * Skip this many bytes
 */
 void 
 out_Skip(int skip)
 {
@@ -731,13 +648,10 @@ out_Skip(int skip)
 			out_AbsByte(CurrentOptions.fillchar);
 	}
 }
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * Output a NULL terminated string (excluding the NULL-character)
 *
 */
 /*
 * Output a NULL terminated string (excluding the NULL-character)
 */
 void 
 out_String(char *s)
 {
@@ -745,12 +659,10 @@ out_String(char *s)
 	while (*s)
 		out_AbsByte(*s++);
 }
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * Output a relocatable byte.  Checking will be done to see if it
 * is an absolute value in disguise.
 *
 */
 void 
@@ -770,13 +682,10 @@ out_RelByte(struct Expression * expr)
 	rpn_Reset(expr);
 }
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * Output an absolute word
 *
 */
 /*
 * Output an absolute word
 */
 void 
 out_AbsWord(int b)
 {
@@ -790,14 +699,11 @@ out_AbsWord(int b)
 	nPC += 2;
 	pPCSymbol->nValue += 2;
 }
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * Output a relocatable word.  Checking will be done to see if
 * is an absolute value in disguise.
 *
 */
 /*
 * Output a relocatable word.  Checking will be done to see if
 * it's an absolute value in disguise.
 */
 void 
 out_RelWord(struct Expression * expr)
 {
@@ -818,13 +724,10 @@ out_RelWord(struct Expression * expr)
 		out_AbsWord(expr->nVal);
 	rpn_Reset(expr);
 }
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * Output an absolute longword
 *
 */
 /*
 * Output an absolute longword
 */
 void 
 out_AbsLong(SLONG b)
 {
@@ -839,14 +742,11 @@ out_AbsLong(SLONG b)
 	nPC += 4;
 	pPCSymbol->nValue += 4;
 }
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * Output a relocatable longword.  Checking will be done to see if
 * is an absolute value in disguise.
 *
 */
 void 
 out_RelLong(struct Expression * expr)
 {
@@ -869,13 +769,10 @@ out_RelLong(struct Expression * expr)
 		out_AbsLong(expr->nVal);
 	rpn_Reset(expr);
 }
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * Output a PC-relative byte
 *
 */
 /*
 * Output a PC-relative byte
 */
 void 
 out_PCRelByte(struct Expression * expr)
 {
@@ -889,13 +786,10 @@ out_PCRelByte(struct Expression * expr)
 	out_AbsByte(b);
 	rpn_Reset(expr);
 }
 /*
 * RGBAsm - OUTPUT.C - Outputs an objectfile
 *
 * Output a binary file
 *
 */
 /*
 * Output a binary file
 */
 void 
 out_BinaryFile(char *s)
 {
--- a/src/asm/rpn.c
+++ b/src/asm/rpn.c
@@ -1,8 +1,5 @@
 /*
- * RGBAsm - RPN.C - Controls RPN expressions for objectfiles
+ * Controls RPN expressions for objectfiles
 *
 * INCLUDES
 *
 */
 #include <stdio.h>
@@ -29,49 +26,26 @@ mergetwoexpressions(struct Expression * expr, struct Expression * src1,
 #define joinexpr() mergetwoexpressions(expr,src1,src2)
 /*
 * RGBAsm - RPN.C - Controls RPN expressions for objectfiles
 *
 * VARIABLES
 *
 */
 //UBYTE rpnexpr[2048];
 //ULONG rpnptr = 0;
 //ULONG rpnoutptr = 0;
 //ULONG reloc = 0;
 //ULONG pcrel = 0;
 /*
 * RGBAsm - RPN.C - Controls RPN expressions for objectfiles
 *
 * Add a byte to the RPN expression
 *
 */
 void 
 pushbyte(struct Expression * expr, int b)
 {
 	expr->tRPN[expr->nRPNLength++] = b & 0xFF;
 }
 /*
 * RGBAsm - RPN.C - Controls RPN expressions for objectfiles
 *
 * Reset the RPN module
 *
 */
 /*
 * Reset the RPN module
 */
 void 
 rpn_Reset(struct Expression * expr)
 {
 	expr->nRPNLength = expr->nRPNOut = expr->isReloc = expr->isPCRel = 0;
 }
 /*
 * RGBAsm - RPN.C - Controls RPN expressions for objectfiles
 *
 * Returns the next rpn byte in expression
 *
 */
 /*
 * Returns the next rpn byte in expression
 */
 UWORD 
 rpn_PopByte(struct Expression * expr)
 {
@@ -80,37 +54,28 @@ rpn_PopByte(struct Expression * expr)
 	} else
 		return (expr->tRPN[expr->nRPNOut++]);
 }
 /*
 * RGBAsm - RPN.C - Controls RPN expressions for objectfiles
 *
 * Determine if the current expression is relocatable
 *
 */
 /*
 * Determine if the current expression is relocatable
 */
 ULONG 
 rpn_isReloc(struct Expression * expr)
 {
 	return (expr->isReloc);
 }
 /*
 * RGBAsm - RPN.C - Controls RPN expressions for objectfiles
 *
 * Determine if the current expression can be pc-relative
 *
 */
 /*
 * Determine if the current expression can be pc-relative
 */
 ULONG 
 rpn_isPCRelative(struct Expression * expr)
 {
 	return (expr->isPCRel);
 }
 /*
 * RGBAsm - RPN.C - Controls RPN expressions for objectfiles
 *
 * Add symbols, constants and operators to expression
 *
 */
 /*
 * Add symbols, constants and operators to expression
 */
 void 
 rpn_Number(struct Expression * expr, ULONG i)
 {
@@ -187,6 +152,7 @@ rpn_RangeCheck(struct Expression * expr, struct Expression * src, SLONG low,
 		return (expr->nVal >= low && expr->nVal <= high);
 	}
 }
 void 
 rpn_CheckHRAM(struct Expression * expr, struct Expression * src)
 {
--- a/src/asm/symbol.c
+++ b/src/asm/symbol.c
@@ -1,8 +1,5 @@
 /*
- * RGBAsm - SYMBOL.C - Symboltable and macroargs stuff
+ * Symboltable and macroargs stuff
 *
 * INCLUDES
 *
 */
 #include <assert.h>
@@ -16,13 +13,6 @@
 #include "asm/mymath.h"
 #include "asm/output.h"
 /*
 * RGBAsm - SYMBOL.C - Symboltable stuff
 *
 * VARIABLES
 *
 */
 struct sSymbol *tHashedSymbols[HASHSIZE];
 struct sSymbol *pScope = NULL;
 struct sSymbol *pPCSymbol = NULL;
@@ -37,7 +27,6 @@ Callback_NARG(struct sSymbol * sym)
 {
 	ULONG i = 0;
 	sym = sym;
 	while (currentmacroargs[i] && i < MAXMACROARGS)
 		i += 1;
@@ -45,12 +34,8 @@ Callback_NARG(struct sSymbol * sym)
 }
 /*
 * RGBAsm - SYMBOL.C - Symboltable stuff
 *
 * Get the nValue field of a symbol
 *
 */
 SLONG 
 getvaluefield(struct sSymbol * sym)
 {
@@ -59,13 +44,10 @@ getvaluefield(struct sSymbol * sym)
 	} else
 		return (sym->nValue);
 }
 /*
 * RGBAsm - SYMBOL.C - Symboltable stuff
 *
 * Calculate the hash value for a string
 *
 */
 /*
 * Calculate the hash value for a string
 */
 ULONG 
 calchash(char *s)
 {
@@ -76,13 +58,10 @@ calchash(char *s)
 	return (hash % HASHSIZE);
 }
 /*
 * RGBAsm - SYMBOL.C - Symboltable stuff
 *
 * Create a new symbol by name
 *
 */
 /*
 * Create a new symbol by name
 */
 struct sSymbol *
 createsymbol(char *s)
 {
@@ -111,12 +90,8 @@ createsymbol(char *s)
 	}
 }
 /*
 * RGBAsm - SYMBOL.C - Symboltable stuff
 *
 * Find a symbol by name and scope
 *
 */
 struct sSymbol *
 findsymbol(char *s, struct sSymbol * scope)
 {
@@ -135,13 +110,10 @@ findsymbol(char *s, struct sSymbol * scope)
 	}
 	return (NULL);
 }
 /*
 * RGBAsm - SYMBOL.C - Symboltable stuff
 *
 * Find the pointer to a symbol by name and scope
 *
 */
 /*
 * Find the pointer to a symbol by name and scope
 */
 struct sSymbol **
 findpsymbol(char *s, struct sSymbol * scope)
 {
@@ -160,13 +132,10 @@ findpsymbol(char *s, struct sSymbol * scope)
 	}
 	return (NULL);
 }
 /*
 * RGBAsm - SYMBOL.C - Symboltable stuff
 *
 * Find a symbol by name and scope
 *
 */
 /*
 * Find a symbol by name and scope
 */
 struct sSymbol *
 sym_FindSymbol(char *tzName)
 {
@@ -179,13 +148,10 @@ sym_FindSymbol(char *tzName)
 	return (findsymbol(tzName, pscope));
 }
 /*
 * RGBAsm - SYMBOL.C - Symboltable stuff
 *
 * Purge a symbol
 *
 */
 /*
 * Purge a symbol
 */
 void 
 sym_Purge(char *tzName)
 {
@@ -213,13 +179,10 @@ sym_Purge(char *tzName)
 		yyerror("'%s' not defined", tzName);
 	}
 }
 /*
 * RGBAsm - SYMBOL.C - Symboltable stuff
 *
 * Determine if a symbol has been defined
 *
 */
 /*
 * Determine if a symbol has been defined
 */
 ULONG 
 sym_isConstDefined(char *tzName)
 {
@@ -261,13 +224,10 @@ sym_isDefined(char *tzName)
 	else
 		return (0);
 }
 /*
 * RGBAsm - SYMBOL.C - Symboltable stuff
 *
 * Determine if the symbol is a constant
 *
 */
 /*
 * Determine if the symbol is a constant
 */
 ULONG 
 sym_isConstant(char *s)
 {
@@ -284,13 +244,10 @@ sym_isConstant(char *s)
 	}
 	return (0);
 }
 /*
 * RGBAsm - SYMBOL.C - Symboltable stuff
 *
 * Get a string equate's value
 *
 */
 /*
 * Get a string equate's value
 */
 char *
 sym_GetStringValue(char *tzSym)
 {
@@ -304,13 +261,10 @@ sym_GetStringValue(char *tzSym)
 	return (NULL);
 }
 /*
 * RGBAsm - SYMBOL.C - Symboltable stuff
 *
 * Return a constant symbols value
 *
 */
 /*
 * Return a constant symbols value
 */
 ULONG 
 sym_GetConstantValue(char *s)
 {
@@ -333,13 +287,10 @@ sym_GetConstantValue(char *s)
 	return (0);
 }
 /*
 * RGBAsm - SYMBOL.C - Symboltable stuff
 *
 * Return a symbols value... "estimated" if not defined yet
 *
 */
 /*
 * Return a symbols value... "estimated" if not defined yet
 */
 ULONG 
 sym_GetValue(char *s)
 {
@@ -375,13 +326,10 @@ sym_GetValue(char *s)
 	return (0);
 }
 /*
 * RGBAsm - SYMBOL.C - Symboltable stuff
 *
 * Return a defined symbols value... aborts if not defined yet
 *
 */
 /*
 * Return a defined symbols value... aborts if not defined yet
 */
 ULONG 
 sym_GetDefinedValue(char *s)
 {
@@ -407,13 +355,10 @@ sym_GetDefinedValue(char *s)
 	return (0);
 }
 /*
 * RGBAsm - SYMBOL.C - Symboltable stuff
 *
 * Macro argument stuff
 *
 */
 /*
 * Macro argument stuff
 */
 void 
 sym_ShiftCurrentMacroArgs(void)
 {
@@ -491,7 +436,7 @@ sym_AddNewMacroArg(char *s)
 		else
 			newmacroargs[i] = NULL;
 	} else
-		yyerror("A maximum of 9 arguments allowed");
+		yyerror("A maximum of %d arguments allowed", MAXMACROARGS);
 }
 void 
@@ -511,25 +456,19 @@ sym_UseCurrentMacroArgs(void)
 	for (i = 1; i <= MAXMACROARGS; i += 1)
 		sym_AddNewMacroArg(sym_FindMacroArg(i));
 }
 /*
 * RGBAsm - SYMBOL.C - Symboltable stuff
 *
 * Find a macro by name
 *
 */
 /*
 * Find a macro by name
 */
 struct sSymbol *
 sym_FindMacro(char *s)
 {
 	return (findsymbol(s, NULL));
 }
 /*
 * RGBAsm - SYMBOL.C - Symboltable stuff
 *
 * Add an equated symbol
 *
 */
 /*
 * Add an equated symbol
 */
 void 
 sym_AddEqu(char *tzSym, SLONG value)
 {
@@ -552,13 +491,10 @@ sym_AddEqu(char *tzSym, SLONG value)
 		}
 	}
 }
 /*
 * RGBAsm - SYMBOL.C - Symboltable stuff
 *
 * Add a string equated symbol
 *
 */
 /*
 * Add a string equated symbol
 */
 void 
 sym_AddString(char *tzSym, char *tzValue)
 {
@@ -581,13 +517,10 @@ sym_AddString(char *tzSym, char *tzValue)
 		nsym->pScope = NULL;
 	}
 }
 /*
 * RGBAsm - SYMBOL.C - Symboltable stuff
 *
 * check if symbol is a string equated symbol
 *
 */
 /*
 * check if symbol is a string equated symbol
 */
 ULONG 
 sym_isString(char *tzSym)
 {
@@ -599,13 +532,10 @@ sym_isString(char *tzSym)
 	}
 	return (0);
 }
 /*
 * RGBAsm - SYMBOL.C - Symboltable stuff
 *
 * Alter a SET symbols value
 *
 */
 /*
 * Alter a SET symbols value
 */
 void 
 sym_AddSet(char *tzSym, SLONG value)
 {
@@ -621,13 +551,10 @@ sym_AddSet(char *tzSym, SLONG value)
 		nsym->pScope = NULL;
 	}
 }
 /*
 * RGBAsm - SYMBOL.C - Symboltable stuff
 *
 * Add a local (.name) relocatable symbol
 *
 */
 /*
 * Add a local (.name) relocatable symbol
 */
 void 
 sym_AddLocalReloc(char *tzSym)
 {
@@ -655,13 +582,10 @@ sym_AddLocalReloc(char *tzSym)
 			fatalerror("Local label in main scope");
 	}
 }
 /*
 * RGBAsm - SYMBOL.C - Symboltable stuff
 *
 * Add a relocatable symbol
 *
 */
 /*
 * Add a relocatable symbol
 */
 void 
 sym_AddReloc(char *tzSym)
 {
@@ -685,15 +609,11 @@ sym_AddReloc(char *tzSym)
 		}
 	}
 	pScope = findsymbol(tzSym, NULL);
 }
 /*
 * RGBAsm - SYMBOL.C - Symboltable stuff
 *
 * Export a symbol
 *
 */
 /*
 * Export a symbol
 */
 void 
 sym_Export(char *tzSym)
 {
@@ -717,13 +637,10 @@ sym_Export(char *tzSym)
 	}
 }
 /*
 * RGBAsm - SYMBOL.C - Symboltable stuff
 *
 * Import a symbol
 *
 */
 /*
 * Import a symbol
 */
 void 
 sym_Import(char *tzSym)
 {
@@ -738,13 +655,10 @@ sym_Import(char *tzSym)
 			nsym->nType |= SYMF_IMPORT;
 	}
 }
 /*
 * RGBAsm - SYMBOL.C - Symboltable stuff
 *
 * Globalize a symbol (export if defined, import if not)
 *
 */
 /*
 * Globalize a symbol (export if defined, import if not)
 */
 void 
 sym_Global(char *tzSym)
 {
@@ -766,13 +680,10 @@ sym_Global(char *tzSym)
 		}
 	}
 }
 /*
 * RGBAsm - SYMBOL.C - Symboltable stuff
 *
 * Add a macro definition
 *
 */
 /*
 * Add a macro definition
 */
 void 
 sym_AddMacro(char *tzSym)
 {
@@ -797,25 +708,19 @@ sym_AddMacro(char *tzSym)
 		}
 	}
 }
 /*
 * RGBAsm - SYMBOL.C - Symboltable stuff
 *
 * Prepare for pass #1
 *
 */
 /*
 * Prepare for pass #1
 */
 void 
 sym_PrepPass1(void)
 {
 	sym_Init();
 }
 /*
 * RGBAsm - SYMBOL.C - Symboltable stuff
 *
 * Prepare for pass #2
 *
 */
 /*
 * Prepare for pass #2
 */
 void 
 sym_PrepPass2(void)
 {
@@ -847,13 +752,10 @@ sym_PrepPass2(void)
 	p_NARGSymbol = findsymbol("_NARG", NULL);
 	p_NARGSymbol->Callback = Callback_NARG;
 }
 /*
 * RGBAsm - SYMBOL.C - Symboltable stuff
 *
 * Initialise the symboltable
 *
 */
 /*
 * Initialize the symboltable
 */
 void 
 sym_Init(void)
 {
@@ -890,72 +792,3 @@ sym_Init(void)
 	math_DefinePI();
 }
 /*
 * RGBAsm - SYMBOL.C - Symboltable stuff
 *
 * DEBUG: Print the symbol table
 *
 */
 void 
 sym_PrintSymbolTable(void)
 {
 	ULONG i;
 	for (i = 0; i < HASHSIZE; i += 1) {
 		struct sSymbol *sym = tHashedSymbols[i];
 		if (sym != NULL)
 			printf("\nHashTable #%ld:\n", i);
 		while (sym != NULL) {
 			if (sym->nType & SYMF_LOCAL)
 				printf("LOCAL : '%s%s' - %08lX\n",
 				    sym->pScope->tzName, sym->tzName,
 				    getvaluefield(sym));
 			else if (sym->nType & (SYMF_MACRO | SYMF_STRING)) {
 				ULONG i = 0;
 				printf("MACRO : '%s'\n\"", sym->tzName);
 				while (i < sym->ulMacroSize) {
 					if (sym->pMacro[i] == '\n') {
 						printf("\n");
 						i += 1;
 					} else
 						printf("%c", sym->pMacro[i++]);
 				}
 				printf("\"\n");
 			} else if (sym->nType & SYMF_EXPORT)
 				printf("EXPORT: '%s' - %08lX\n", sym->tzName,
 				    getvaluefield(sym));
 			else if (sym->nType & SYMF_IMPORT)
 				printf("IMPORT: '%s'\n", sym->tzName);
 			else if (sym->nType & SYMF_EQU)
 				printf("EQU   : '%s' - %08lX\n", sym->tzName,
 				    getvaluefield(sym));
 			else if (sym->nType & SYMF_SET)
 				printf("SET   : '%s' - %08lX\n", sym->tzName,
 				    getvaluefield(sym));
 			else
 				printf("SYMBOL: '%s' - %08lX\n", sym->tzName,
 				    getvaluefield(sym));
 			sym = sym->pNext;
 		}
 	}
 }
 /*
 * RGBAsm - SYMBOL.C - Symboltable stuff
 *
 * DEBUG: Dump the macroargs
 *
 */
 void 
 sym_DumpMacroArgs(void)
 {
 	ULONG i;
 	for (i = 0; i < MAXMACROARGS; i += 1)
 		printf("CurrentArg%ld: %s\n", i + 1, currentmacroargs[i]);
 }
--- a/src/asm/yaccprt1.y
+++ b/src/asm/yaccprt1.y
@@ -1,435 +0,0 @@
 %{
 #include <ctype.h>
 #include <errno.h>
 #include <stdbool.h>
 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>
 #include "asm/symbol.h"
 #include "asm/asm.h"
 #include "asm/output.h"
 #include "asm/mylink.h"
 #include "asm/fstack.h"
 #include "asm/mymath.h"
 #include "asm/rpn.h"
 #include "asm/main.h"
 #include "asm/lexer.h"
 extern bool haltnop;
 char	*tzNewMacro;
 ULONG	ulNewMacroSize;
 size_t symvaluetostring(char *dest, size_t maxLength, char *sym)
 {
 	size_t length;
 	if (sym_isString(sym)) {
 		char *src = sym_GetStringValue(sym);
 		size_t i;
 		for (i = 0; src[i] != 0; i++) {
 			if (i >= maxLength) {
 				fatalerror("Symbol value too long to fit buffer");
 			}
 			dest[i] = src[i];
 		}
 		length = i;
 	} else {
 		ULONG value = sym_GetConstantValue(sym);
 		int fullLength = snprintf(dest, maxLength + 1, "$%lX", value);
 		if (fullLength < 0) {
 			fatalerror("snprintf encoding error");
 		} else {
 			length = (size_t)fullLength;
 			if (length > maxLength) {
 				fatalerror("Symbol value too long to fit buffer");
 			}
 		}
 	}
 	return length;
 }
 ULONG	str2int( char *s )
 {
 	ULONG r=0;
 	while( *s )
 	{
 		r<<=8;
 		r|=(UBYTE)(*s++);
 	}
 	return( r );
 }
 ULONG	isWhiteSpace( char s )
 {
 	return( s==' ' || s=='\t' || s=='\0' || s=='\n' );
 }
 ULONG	isRept( char *s )
 {
 	return( (strncasecmp(s,"REPT",4)==0) && isWhiteSpace(*(s-1)) && isWhiteSpace(s[4]) );
 }
 ULONG	isEndr( char *s )
 {
 	return( (strncasecmp(s,"Endr",4)==0) && isWhiteSpace(*(s-1)) && isWhiteSpace(s[4]) );
 }
 void	copyrept( void )
 {
 	SLONG	level=1, len, instring=0;
 	char	*src=pCurrentBuffer->pBuffer;
 	while( *src && level )
 	{
 		if( instring==0 )
 		{
 			if( isRept(src) )
 			{
 				level+=1;
 				src+=4;
 			}
 			else if( isEndr(src) )
 			{
 				level-=1;
 				src+=4;
 			}
 			else
 			{
 				if( *src=='\"' )
 					instring=1;
 				src+=1;
 			}
 		}
 		else
 		{
 			if( *src=='\\' )
 			{
 				src+=2;
 			}
 			else if( *src=='\"' )
 			{
 				src+=1;
 				instring=0;
 			}
 			else
 			{
 				src+=1;
 			}
 		}
 	}
 	len=src-pCurrentBuffer->pBuffer-4;
 	src=pCurrentBuffer->pBuffer;
 	ulNewMacroSize=len;
 	if ((tzNewMacro = malloc(ulNewMacroSize + 1)) != NULL) {
 		ULONG i;
 		tzNewMacro[ulNewMacroSize]=0;
 		for( i=0; i<ulNewMacroSize; i+=1 )
 		{
 			if( (tzNewMacro[i]=src[i])=='\n' )
 				nLineNo+=1;
 		}
 	} else
 		fatalerror( "No mem for REPT block" );
 	yyskipbytes( ulNewMacroSize+4 );
 }
 ULONG	isMacro( char *s )
 {
 	return( (strncasecmp(s,"MACRO",4)==0) && isWhiteSpace(*(s-1)) && isWhiteSpace(s[5]) );
 }
 ULONG	isEndm( char *s )
 {
 	return( (strncasecmp(s,"Endm",4)==0) && isWhiteSpace(*(s-1)) && isWhiteSpace(s[4]) );
 }
 void	copymacro( void )
 {
 	SLONG	level=1, len, instring=0;
 	char	*src=pCurrentBuffer->pBuffer;
 	while( *src && level )
 	{
 		if( instring==0 )
 		{
 			if( isMacro(src) )
 			{
 				level+=1;
 				src+=4;
 			}
 			else if( isEndm(src) )
 			{
 				level-=1;
 				src+=4;
 			}
 			else
 			{
 				if( *src=='\"' )
 					instring=1;
 				src+=1;
 			}
 		}
 		else
 		{
 			if( *src=='\\' )
 			{
 				src+=2;
 			}
 			else if( *src=='\"' )
 			{
 				src+=1;
 				instring=0;
 			}
 			else
 			{
 				src+=1;
 			}
 		}
 	}
 	len=src-pCurrentBuffer->pBuffer-4;
 	src=pCurrentBuffer->pBuffer;
 	ulNewMacroSize=len;
 	if( (tzNewMacro=(char *)malloc(ulNewMacroSize+2))!=NULL )
 	{
 		ULONG i;
 		tzNewMacro[ulNewMacroSize]='\n';
 		tzNewMacro[ulNewMacroSize+1]=0;
 		for( i=0; i<ulNewMacroSize; i+=1 )
 		{
 			if( (tzNewMacro[i]=src[i])=='\n' )
 				nLineNo+=1;
 		}
 	}
 	else
 		fatalerror( "No mem for MACRO definition" );
 	yyskipbytes( ulNewMacroSize+4 );
 }
 ULONG	isIf( char *s )
 {
 	return( (strncasecmp(s,"If",2)==0) && isWhiteSpace(*(s-1)) && isWhiteSpace(s[2]) );
 }
 ULONG	isElse( char *s )
 {
 	return( (strncasecmp(s,"Else",4)==0) && isWhiteSpace(*(s-1)) && isWhiteSpace(s[4]) );
 }
 ULONG	isEndc( char *s )
 {
 	return( (strncasecmp(s,"Endc",4)==0) && isWhiteSpace(*(s-1)) && isWhiteSpace(s[4]) );
 }
 void	if_skip_to_else( void )
 {
 	SLONG	level=1, len, instring=0;
 	char	*src=pCurrentBuffer->pBuffer;
 	while( *src && level )
 	{
 		if( *src=='\n' )
 			nLineNo+=1;
 		if( instring==0 )
 		{
 			if( isIf(src) )
 			{
 				level+=1;
 				src+=2;
 			}
 			else if( level==1 && isElse(src) )
 			{
 				level-=1;
 				src+=4;
 			}
 			else if( isEndc(src) )
 			{
 				level-=1;
 				if( level!=0 )
 					src+=4;
 			}
 			else
 			{
 				if( *src=='\"' )
 					instring=1;
 				src+=1;
 			}
 		}
 		else
 		{
 			if( *src=='\\' )
 			{
 				src+=2;
 			}
 			else if( *src=='\"' )
 			{
 				src+=1;
 				instring=0;
 			}
 			else
 			{
 				src+=1;
 			}
 		}
 	}
 	len=src-pCurrentBuffer->pBuffer;
 	yyskipbytes( len );
 	yyunput( '\n' );
 	nLineNo-=1;
 }
 void	if_skip_to_endc( void )
 {
 	SLONG	level=1, len, instring=0;
 	char	*src=pCurrentBuffer->pBuffer;
 	while( *src && level )
 	{
 		if( *src=='\n' )
 			nLineNo+=1;
 		if( instring==0 )
 		{
 			if( isIf(src) )
 			{
 				level+=1;
 				src+=2;
 			}
 			else if( isEndc(src) )
 			{
 				level-=1;
 				if( level!=0 )
 					src+=4;
 			}
 			else
 			{
 				if( *src=='\"' )
 					instring=1;
 				src+=1;
 			}
 		}
 		else
 		{
 			if( *src=='\\' )
 			{
 				src+=2;
 			}
 			else if( *src=='\"' )
 			{
 				src+=1;
 				instring=0;
 			}
 			else
 			{
 				src+=1;
 			}
 		}
 	}
 	len=src-pCurrentBuffer->pBuffer;
 	yyskipbytes( len );
 	yyunput( '\n' );
 	nLineNo-=1;
 }
 %}
 %union
 {
    char tzSym[MAXSYMLEN + 1];
    char tzString[MAXSTRLEN + 1];
    struct Expression sVal;
    SLONG nConstValue;
 }
 %type	<sVal>	relocconst
 %type	<nConstValue>	const
 %type	<nConstValue>	const_3bit
 %type	<sVal>	const_8bit
 %type	<sVal>	const_16bit
 %type	<sVal>	const_PCrel
 %type	<nConstValue>	sectiontype
 %type	<tzString>	string
 %token	<nConstValue>		T_NUMBER
 %token	<tzString>	T_STRING
 %left	T_OP_LOGICNOT
 %left	T_OP_LOGICOR T_OP_LOGICAND T_OP_LOGICEQU
 %left	T_OP_LOGICGT T_OP_LOGICLT T_OP_LOGICGE T_OP_LOGICLE T_OP_LOGICNE
 %left	T_OP_ADD T_OP_SUB
 %left	T_OP_OR T_OP_XOR T_OP_AND
 %left	T_OP_SHL T_OP_SHR
 %left	T_OP_MUL T_OP_DIV T_OP_MOD
 %left	T_OP_NOT
 %left	T_OP_DEF
 %left	T_OP_BANK
 %left	T_OP_SIN
 %left	T_OP_COS
 %left	T_OP_TAN
 %left	T_OP_ASIN
 %left	T_OP_ACOS
 %left	T_OP_ATAN
 %left	T_OP_ATAN2
 %left	T_OP_FDIV
 %left	T_OP_FMUL
 %left	T_OP_STRCMP
 %left	T_OP_STRIN
 %left	T_OP_STRSUB
 %left	T_OP_STRLEN
 %left	T_OP_STRCAT
 %left	T_OP_STRUPR
 %left	T_OP_STRLWR
 %left	NEG     /* negation--unary minus */
 %token	<tzSym> T_LABEL
 %token	<tzSym> T_ID
 %token	<tzSym> T_POP_EQU
 %token	<tzSym> T_POP_SET
 %token	<tzSym> T_POP_EQUS
 %token	T_POP_INCLUDE T_POP_PRINTF T_POP_PRINTT T_POP_PRINTV T_POP_IF T_POP_ELSE T_POP_ENDC
 %token	T_POP_IMPORT T_POP_EXPORT T_POP_GLOBAL
 %token	T_POP_DB T_POP_DS T_POP_DW T_POP_DL
 %token	T_POP_SECTION
 %token	T_POP_RB
 %token	T_POP_RW
 %token	T_POP_RL
 %token	T_POP_MACRO
 %token	T_POP_ENDM
 %token	T_POP_RSRESET T_POP_RSSET
 %token	T_POP_INCBIN T_POP_REPT
 %token	T_POP_SHIFT
 %token	T_POP_ENDR
 %token	T_POP_FAIL
 %token	T_POP_WARN
 %token	T_POP_PURGE
 %token	T_POP_POPS
 %token	T_POP_PUSHS
 %token	T_POP_POPO
 %token	T_POP_PUSHO
 %token	T_POP_OPT
--- a/src/asm/yaccprt3.y
+++ b/src/asm/yaccprt3.y
@@ -1,533 +0,0 @@
 %start asmfile
 %%
 asmfile			:	lines lastline
 ;
 lastline		:	/* empty */
 				|	line
 					{ nLineNo+=1; nTotalLines+=1; }
 ;
 lines			:	/* empty */
 				|	lines line '\n'
 					{ nLineNo+=1; nTotalLines+=1; }
 ;
 line			:	/* empty */
 				|	label
 				|	label cpu_command
 				|	label macro
 				|	label simple_pseudoop
 				|	pseudoop
 ;
 label			:	/* empty */
 				|	T_LABEL			{	if( $1[0]=='.' )
 											sym_AddLocalReloc($1);
 										else
 											sym_AddReloc($1);
 									}
 				|	T_LABEL ':'		{	if( $1[0]=='.' )
 											sym_AddLocalReloc($1);
 										else
 											sym_AddReloc($1);
 									}
 				|	T_LABEL ':' ':'	{ sym_AddReloc($1); sym_Export($1); }
 ;
 macro			:	T_ID
 					{
 						yy_set_state( LEX_STATE_MACROARGS );
 					}
 					macroargs
 					{
 						yy_set_state( LEX_STATE_NORMAL );
 						if( !fstk_RunMacro($1) )
 						{
 							yyerror("Macro '%s' not defined", $1);
 						}
 					}
 ;
 macroargs		:	/* empty */
 				|	macroarg
 				|	macroarg ',' macroargs
 ;
 macroarg 		:	T_STRING
 					{ sym_AddNewMacroArg( $1 ); }
 ;
 pseudoop		:	equ
 				|	set
 				|	rb
 				|	rw
 				|	rl
 				|	equs
 				|	macrodef
 ;
 simple_pseudoop	:	include
 				|	printf
 				|	printt
 				|	printv
 				|	if
 				|	else
 				|	endc
 				|	import
 				|	export
 				|	global
 				|	db
 				|	dw
 				|	dl
 				|	ds
 				|	section
 				|	rsreset
 				|	rsset
 				|	incbin
 				|	rept
 				|	shift
 				|	fail
 				|	warn
 				|	purge
 				|	pops
 				|	pushs
 				|	popo
 				|	pusho
 				|	opt
 ;
 opt				:	T_POP_OPT
 					{
 						yy_set_state( LEX_STATE_MACROARGS );
 					}
 					opt_list
 					{
 						yy_set_state( LEX_STATE_NORMAL );
 					}
 ;
 opt_list		:	opt_list_entry
 				|	opt_list_entry ',' opt_list
 ;
 opt_list_entry	:	T_STRING
 					{
 						opt_Parse($1);
 					}
 ;
 popo			:	T_POP_POPO
 					{ opt_Pop(); }
 ;
 pusho			:	T_POP_PUSHO
 					{ opt_Push(); }
 ;
 pops			:	T_POP_POPS
 					{ out_PopSection(); }
 ;
 pushs			:	T_POP_PUSHS
 					{ out_PushSection(); }
 ;
 fail			:	T_POP_FAIL string
 					{ fatalerror("%s", $2); }
 ;
 warn			:	T_POP_WARN string
 					{ yyerror("%s", $2); }
 ;
 shift			:	T_POP_SHIFT
 					{ sym_ShiftCurrentMacroArgs(); }
 ;
 rept			:	T_POP_REPT const
 					{
 						copyrept();
 						fstk_RunRept( $2 );
 					}
 ;
 macrodef		:	T_LABEL ':' T_POP_MACRO
 					{
 						copymacro();
 						sym_AddMacro($1);
 					}
 ;
 equs			:	T_LABEL T_POP_EQUS string
 					{ sym_AddString( $1, $3 ); }
 ;
 rsset			:	T_POP_RSSET const
 					{ sym_AddSet( "_RS", $2 ); }
 ;
 rsreset			:	T_POP_RSRESET
 					{ sym_AddSet( "_RS", 0 ); }
 ;
 rl				:	T_LABEL T_POP_RL const
 					{
 						sym_AddEqu( $1, sym_GetConstantValue("_RS") );
 						sym_AddSet( "_RS", sym_GetConstantValue("_RS")+4*$3 );
 					}
 ;
 rw				:	T_LABEL T_POP_RW const
 					{
 						sym_AddEqu( $1, sym_GetConstantValue("_RS") );
 						sym_AddSet( "_RS", sym_GetConstantValue("_RS")+2*$3 );
 					}
 ;
 rb				:	T_LABEL T_POP_RB const
 					{
 						sym_AddEqu( $1, sym_GetConstantValue("_RS") );
 						sym_AddSet( "_RS", sym_GetConstantValue("_RS")+$3 );
 					}
 ;
 ds				:	T_POP_DS const
 					{ out_Skip( $2 ); }
 ;
 db				:	T_POP_DB constlist_8bit
 ;
 dw				:	T_POP_DW constlist_16bit
 ;
 dl				:	T_POP_DL constlist_32bit
 ;
 purge			:	T_POP_PURGE
 					{
 						oDontExpandStrings=1;
 					}
 					purge_list
 					{
 						oDontExpandStrings=0;
 					}
 ;
 purge_list		:	purge_list_entry
 				|	purge_list_entry ',' purge_list
 ;
 purge_list_entry	:	T_ID	{ sym_Purge($1); }
 ;
 import			:	T_POP_IMPORT import_list
 ;
 import_list		:	import_list_entry
 				|	import_list_entry ',' import_list
 ;
 import_list_entry	:	T_ID	{ sym_Import($1); }
 ;
 export			:	T_POP_EXPORT export_list
 ;
 export_list		:	export_list_entry
 				|	export_list_entry ',' export_list
 ;
 export_list_entry	:	T_ID	{ sym_Export($1); }
 ;
 global			:	T_POP_GLOBAL global_list
 ;
 global_list		:	global_list_entry
 				|	global_list_entry ',' global_list
 ;
 global_list_entry	:	T_ID	{ sym_Global($1); }
 ;
 equ				:	T_LABEL T_POP_EQU const
 					{ sym_AddEqu( $1, $3 ); }
 ;
 set				:	T_LABEL T_POP_SET const
 					{ sym_AddSet( $1, $3 ); }
 ;
 include			:	T_POP_INCLUDE string
 					{
 						fstk_RunInclude($2);
 					}
 ;
 incbin			:	T_POP_INCBIN string
 					{ out_BinaryFile( $2 ); }
 				|	T_POP_INCBIN string ',' const ',' const
 					{
 						out_BinaryFileSlice( $2, $4, $6 );
 					}
 ;
 printt			:	T_POP_PRINTT string
 					{
 						if( nPass==1 )
 							printf( "%s", $2 );
 					}
 ;
 printv			:	T_POP_PRINTV const
 					{
 						if( nPass==1 )
 							printf( "$%lX", $2 );
 					}
 ;
 printf			:	T_POP_PRINTF const
 					{
 						if( nPass==1 )
 							math_Print( $2 );
 					}
 ;
 if				:	T_POP_IF const
 					{
 						nIFDepth+=1;
 						if( !$2 )
 						{
 							if_skip_to_else();	/* will continue parsing just after ELSE or just at ENDC keyword */
 						}
 					}
 else			:	T_POP_ELSE
 					{
 						if_skip_to_endc();		/* will continue parsing just at ENDC keyword */
 					}
 ;
 endc			:	T_POP_ENDC
 					{
 						nIFDepth-=1;
 					}
 ;
 const_3bit		:	const
 					{
 						if( ($1<0) || ($1>7) )
 						{
 							yyerror("Immediate value must be 3-bit");
 						}
 						else
 							$$=$1&0x7;
 					}
 ;
 constlist_8bit	:	constlist_8bit_entry
 				|	constlist_8bit_entry ',' constlist_8bit
 ;
 constlist_8bit_entry	:               { out_Skip( 1 ); }
 						|	const_8bit	{ out_RelByte( &$1 ); }
 			   			|	string		{ out_String( $1 );  }
 ;
 constlist_16bit	:	constlist_16bit_entry
 				|	constlist_16bit_entry ',' constlist_16bit
 ;
 constlist_16bit_entry	:  				{ out_Skip( 2 ); }
 						|	const_16bit	{ out_RelWord( &$1 ); }
 ;
 constlist_32bit	:	constlist_32bit_entry
 				|	constlist_32bit_entry ',' constlist_32bit
 ;
 constlist_32bit_entry	:				{ out_Skip( 4 ); }
 						|	relocconst	{ out_RelLong( &$1 ); }
 ;
 const_PCrel		:	relocconst
 					{
 						$$ = $1;
 						if( !rpn_isPCRelative(&$1) )
 							yyerror("Expression must be PC-relative");
 					}
 ;
 const_8bit		:	relocconst
 					{
 						if( (!rpn_isReloc(&$1)) && (($1.nVal<-128) || ($1.nVal>255)) )
 						{
 							yyerror("Expression must be 8-bit");
 						}
 						$$=$1;
 					}
 ;
 const_16bit		:	relocconst
 					{
 						if( (!rpn_isReloc(&$1)) && (($1.nVal<-32768) || ($1.nVal>65535)) )
 						{
 							yyerror("Expression must be 16-bit");
 						}
 						$$=$1;
 					}
 ;
 relocconst		:	T_ID
 						{ rpn_Symbol(&$$,$1);	$$.nVal = sym_GetValue($1); }
 				|	T_NUMBER
 						{ rpn_Number(&$$,$1);	$$.nVal = $1; }
 				|	string
 						{ ULONG r; r=str2int($1); rpn_Number(&$$,r); $$.nVal=r; }
 				|	T_OP_LOGICNOT relocconst %prec NEG
 						{ rpn_LOGNOT(&$$,&$2); }
 				|	relocconst T_OP_LOGICOR relocconst
 						{ rpn_LOGOR(&$$,&$1,&$3); }
 				|	relocconst T_OP_LOGICAND relocconst
 						{ rpn_LOGAND(&$$,&$1,&$3); }
 				|	relocconst T_OP_LOGICEQU relocconst
 						{ rpn_LOGEQU(&$$,&$1,&$3); }
 				|	relocconst T_OP_LOGICGT relocconst
 						{ rpn_LOGGT(&$$,&$1,&$3); }
 				|	relocconst T_OP_LOGICLT relocconst
 						{ rpn_LOGLT(&$$,&$1,&$3); }
 				|	relocconst T_OP_LOGICGE relocconst
 					 	{ rpn_LOGGE(&$$,&$1,&$3); }
 				|	relocconst T_OP_LOGICLE relocconst
 					 	{ rpn_LOGLE(&$$,&$1,&$3); }
 				|	relocconst T_OP_LOGICNE relocconst
 					 	{ rpn_LOGNE(&$$,&$1,&$3); }
 				|	relocconst T_OP_ADD relocconst
 						{ rpn_ADD(&$$,&$1,&$3); }
 				|	relocconst T_OP_SUB relocconst
 						{ rpn_SUB(&$$,&$1,&$3); }
 				|	relocconst T_OP_XOR relocconst
 						{ rpn_XOR(&$$,&$1,&$3); }
 				|	relocconst T_OP_OR relocconst
 						{ rpn_OR(&$$,&$1,&$3); }
 				|	relocconst T_OP_AND relocconst
 						{ rpn_AND(&$$,&$1,&$3); }
 				|	relocconst T_OP_SHL relocconst
 						{ rpn_SHL(&$$,&$1,&$3); }
 				|	relocconst T_OP_SHR relocconst
 						{ rpn_SHR(&$$,&$1,&$3); }
 				|	relocconst T_OP_MUL relocconst
 						{ rpn_MUL(&$$,&$1,&$3); }
 				|	relocconst T_OP_DIV relocconst
 						{ rpn_DIV(&$$,&$1,&$3); }
 				|	relocconst T_OP_MOD relocconst
 						{ rpn_MOD(&$$,&$1,&$3); }
 				|	T_OP_ADD relocconst %prec NEG
 						{ $$ = $2; }
 				|	T_OP_SUB relocconst %prec NEG
 						{ rpn_UNNEG(&$$,&$2); }
 				|	T_OP_NOT relocconst %prec NEG
 						{ rpn_UNNOT(&$$,&$2); }
 				|	T_OP_BANK '(' T_ID ')'
 						{ rpn_Bank(&$$,$3); $$.nVal = 0; }
 				|	T_OP_DEF '(' T_ID ')'
 						{ rpn_Number(&$$,sym_isConstDefined($3)); }
 				|	T_OP_FDIV '(' const ',' const ')'			{ rpn_Number(&$$,math_Div($3,$5)); }
 				|	T_OP_FMUL '(' const ',' const ')'			{ rpn_Number(&$$,math_Mul($3,$5)); }
 				|	T_OP_SIN '(' const ')'			{ rpn_Number(&$$,math_Sin($3)); }
 				|	T_OP_COS '(' const ')'			{ rpn_Number(&$$,math_Cos($3)); }
 				|	T_OP_TAN '(' const ')'			{ rpn_Number(&$$,math_Tan($3)); }
 				|	T_OP_ASIN '(' const ')'			{ rpn_Number(&$$,math_ASin($3)); }
 				|	T_OP_ACOS '(' const ')'			{ rpn_Number(&$$,math_ACos($3)); }
 				|	T_OP_ATAN '(' const ')'			{ rpn_Number(&$$,math_ATan($3)); }
 				|	T_OP_ATAN2 '(' const ',' const ')'	{ rpn_Number(&$$,math_ATan2($3,$5)); }
 				|	T_OP_STRCMP '(' string ',' string ')'	{ rpn_Number(&$$,strcmp($3,$5)); }
 				|	T_OP_STRIN '(' string ',' string ')'
 					{
 						char	*p;
  						if( (p=strstr($3,$5))!=NULL )
 						{
 							rpn_Number(&$$,p-$3+1);
 						}
 						else
 						{
 							rpn_Number(&$$,0);
 						}
 					}
 				|	T_OP_STRLEN '(' string ')'		{ rpn_Number(&$$,strlen($3)); }
 				|	'(' relocconst ')'
 						{ $$ = $2; }
 ;
 const			:	T_ID							{ $$ = sym_GetConstantValue($1); }
 				|	T_NUMBER 						{ $$ = $1; }
 				|	string						{ $$ = str2int($1); }
 				|	T_OP_LOGICNOT const %prec NEG	{ $$ = !$2; }
 				|	const T_OP_LOGICOR const		{ $$ = $1 || $3; }
 				|	const T_OP_LOGICAND const		{ $$ = $1 && $3; }
 				|	const T_OP_LOGICEQU const		{ $$ = $1 == $3; }
 				|	const T_OP_LOGICGT const 		{ $$ = $1 > $3; }
 				|	const T_OP_LOGICLT const		{ $$ = $1 < $3; }
 				|	const T_OP_LOGICGE const 		{ $$ = $1 >= $3; }
 				|	const T_OP_LOGICLE const 		{ $$ = $1 <= $3; }
 				|	const T_OP_LOGICNE const 		{ $$ = $1 != $3; }
 				|	const T_OP_ADD const			{ $$ = $1 + $3; }
 				|	const T_OP_SUB const			{ $$ = $1 - $3; }
 				|	T_ID  T_OP_SUB T_ID				{ $$ = sym_GetDefinedValue($1) - sym_GetDefinedValue($3); }
 				|	const T_OP_XOR const			{ $$ = $1 ^ $3; }
 				|	const T_OP_OR const				{ $$ = $1 | $3; }
 				|	const T_OP_AND const			{ $$ = $1 & $3; }
 				|	const T_OP_SHL const			{ $$ = $1 << $3; }
 				|	const T_OP_SHR const			{ $$ = $1 >> $3; }
 				|	const T_OP_MUL const			{ $$ = $1 * $3; }
 				|	const T_OP_DIV const			{ $$ = $1 / $3; }
 				|	const T_OP_MOD const			{ $$ = $1 % $3; }
 				|	T_OP_ADD const %prec NEG		{ $$ = +$2; }
 				|	T_OP_SUB const %prec NEG		{ $$ = -$2; }
 				|	T_OP_NOT const %prec NEG		{ $$ = 0xFFFFFFFF^$2; }
 				|	T_OP_FDIV '(' const ',' const ')'			{ $$ = math_Div($3,$5); }
 				|	T_OP_FMUL '(' const ',' const ')'			{ $$ = math_Mul($3,$5); }
 				|	T_OP_SIN '(' const ')'			{ $$ = math_Sin($3); }
 				|	T_OP_COS '(' const ')'			{ $$ = math_Cos($3); }
 				|	T_OP_TAN '(' const ')'			{ $$ = math_Tan($3); }
 				|	T_OP_ASIN '(' const ')'			{ $$ = math_ASin($3); }
 				|	T_OP_ACOS '(' const ')'			{ $$ = math_ACos($3); }
 				|	T_OP_ATAN '(' const ')'			{ $$ = math_ATan($3); }
 				|	T_OP_ATAN2 '(' const ',' const ')'	{ $$ = math_ATan2($3,$5); }
 				|	T_OP_DEF '(' T_ID ')'				{ $$ = sym_isConstDefined($3); }
 				|	T_OP_STRCMP '(' string ',' string ')'	{ $$ = strcmp( $3, $5 ); }
 				|	T_OP_STRIN '(' string ',' string ')'
 					{
 						char	*p;
  						if( (p=strstr($3,$5))!=NULL )
 						{
 							$$ = p-$3+1;
 						}
 						else
 						{
 							$$ = 0;
 						}
 					}
 				|	T_OP_STRLEN '(' string ')'		{ $$ = strlen($3); }
 				|	'(' const ')'					{ $$ = $2; }
 ;
 string			:	T_STRING
 					{ strcpy($$,$1); }
 				|	T_OP_STRSUB '(' string ',' const ',' const ')'
 					{ strncpy($$,$3+$5-1,$7); $$[$7]=0; }
 				|	T_OP_STRCAT '(' string ',' string ')'
 					{ strcpy($$,$3); strcat($$,$5); }
 				|	T_OP_STRUPR '(' string ')'
 					{ strcpy($$,$3); strupr($$); }
 				|	T_OP_STRLWR '(' string ')'
 					{ strcpy($$,$3); strlwr($$); }
 ;
--- a/src/extern/err.c
+++ b/src/extern/err.c
@@ -27,7 +27,7 @@
 #include "extern/err.h"
 #ifndef __MINGW32__
-extern char *__progname;
+char *__progname;
 #endif
 void rgbds_vwarn(const char *fmt, va_list ap)
@@ -47,13 +47,13 @@ void rgbds_vwarnx(const char *fmt, va_list ap)
 	putc('\n', stderr);
 }
-void rgbds_verr(int status, const char *fmt, va_list ap)
+noreturn void rgbds_verr(int status, const char *fmt, va_list ap)
 {
 	vwarn(fmt, ap);
 	exit(status);
 }
-void rgbds_verrx(int status, const char *fmt, va_list ap)
+noreturn void rgbds_verrx(int status, const char *fmt, va_list ap)
 {
 	vwarnx(fmt, ap);
 	exit(status);
@@ -75,7 +75,7 @@ void rgbds_warnx(const char *fmt, ...)
 	va_end(ap);
 }
-void rgbds_err(int status, const char *fmt, ...)
+noreturn void rgbds_err(int status, const char *fmt, ...)
 {
 	va_list ap;
 	va_start(ap, fmt);
@@ -83,7 +83,7 @@ void rgbds_err(int status, const char *fmt, ...)
 	va_end(ap);
 }
-void rgbds_errx(int status, const char *fmt, ...)
+noreturn void rgbds_errx(int status, const char *fmt, ...)
 {
 	va_list ap;
 	va_start(ap, fmt);
--- a/src/fix/main.c
+++ b/src/fix/main.c
@@ -14,7 +14,6 @@
 * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
 */
 #include <getopt.h>
 #include <stdbool.h>
 #include <stdint.h>
 #include <stdio.h>
@@ -27,10 +26,10 @@
 static void
 usage(void)
 {
-	printf("usage: rgbfix [-Ccjsv] [-i game_id] [-k licensee_str] "
+	printf(
-	    "[-l licensee_id]\n" "              [-m mbc_type] [-n rom_version] "
+"usage: rgbfix [-Ccjsv] [-i game_id] [-k licensee_str] [-l licensee_id]\n"
-	    "[-p pad_value] [-r ram_size]\n"
+"              [-m mbc_type] [-n rom_version] [-p pad_value] [-r ram_size]\n"
-	    "              [-t title_str] file.gb\n");
+"              [-t title_str] file\n");
 	exit(1);
 }
@@ -41,17 +40,6 @@ main(int argc, char *argv[])
 	int ch;
 	char *ep;
 	/*
 	 * Open the ROM file
 	 */
 	if (argc < 2)
 		usage();
 	if ((rom = fopen(argv[argc - 1], "rb+")) == NULL) {
 		err(1, "Error opening file %s", argv[argc - 1]);
 	}
 	/*
 	 * Parse command-line options
 	 */
@@ -71,15 +59,15 @@ main(int argc, char *argv[])
 	bool resize = false;
 	bool setversion = false;
-	char *title = NULL; /* game title in ASCII */
+	char *title; /* game title in ASCII */
-	char *id = NULL; /* game ID in ASCII */
+	char *id; /* game ID in ASCII */
-	char *newlicensee = NULL; /* new licensee ID, two ASCII characters */
+	char *newlicensee; /* new licensee ID, two ASCII characters */
-	int licensee = -1;  /* old licensee ID */
+	int licensee;  /* old licensee ID */
-	int cartridge = -1; /* cartridge hardware ID */
+	int cartridge; /* cartridge hardware ID */
-	int ramsize = -1;   /* RAM size ID */
+	int ramsize;   /* RAM size ID */
-	int version = -1;   /* mask ROM version number */
+	int version;   /* mask ROM version number */
-	int padvalue = -1;  /* to pad the rom with if it changes size */
+	int padvalue;  /* to pad the rom with if it changes size */
 	while ((ch = getopt(argc, argv, "Cci:jk:l:m:n:p:sr:t:v")) != -1) {
 		switch (ch) {
@@ -198,6 +186,20 @@ main(int argc, char *argv[])
 		}
 	}
 	argc -= optind;
 	argv += optind;
 	if (argc == 0)
 		usage();
 	/*
 	 * Open the ROM file
 	 */
 	if ((rom = fopen(argv[argc - 1], "rb+")) == NULL) {
 		err(1, "Error opening file %s", argv[argc - 1]);
 	}
 	/*
 	 * Write changes to ROM
 	 */
--- a/src/link/main.c
+++ b/src/link/main.c
@@ -1,4 +1,3 @@
 #include <getopt.h>
 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>
@@ -33,9 +32,9 @@ char smartlinkstartsymbol[256];
 static void 
 usage(void)
 {
-	printf("usage: rgblink [-t] [-m mapfile] [-n symfile] [-o outfile]\n");
+	printf(
-	printf("\t    [-s symbol] [-z pad_value] objectfile [...]\n");
+"usage: rgblink [-t] [-m mapfile] [-n symfile] [-o outfile] [-s symbol]\n"
-
+"               [-z pad_value] file [...]\n");
 	exit(1);
 }
--- a/src/link/mapfile.c
+++ b/src/link/mapfile.c
@@ -72,14 +72,13 @@ MapfileInitBank(SLONG bank)
 void 
 MapfileWriteSection(struct sSection * pSect)
 {
 	if (!mf && !sf)
 		return;
 	SLONG i;
-	fprintf(mf, "  SECTION: $%04lX-$%04lX ($%04lX bytes)\n",
+	if (mf) {
-	    pSect->nOrg, pSect->nOrg + pSect->nByteSize - 1,
+		fprintf(mf, "  SECTION: $%04lX-$%04lX ($%04lX bytes)\n",
-	    pSect->nByteSize);
+		    pSect->nOrg, pSect->nOrg + pSect->nByteSize - 1,
 		    pSect->nByteSize);
 	}
 	for (i = 0; i < pSect->nNumberOfSymbols; i += 1) {
 		struct sSymbol *pSym;
Author	SHA1	Message	Date
Anthony J. Bentley	361f1ac50b	Work around a crash when '@' is interpreted as a macro name.	2015-01-22 21:12:57 -07:00
Anthony J. Bentley	4f8cf84ed4	rgbasm: improve (some) pathological spacing.	2015-01-22 21:09:10 -07:00
Anthony J. Bentley	c75b9d4d55	Makefile: don't expand variables in a non-POSIXish way.	2015-01-22 20:42:27 -07:00
Anthony J. Bentley	cd2af0204e	rgbasm: Save some horizontal space in main.c.	2015-01-22 20:33:07 -07:00
yenatch	91241b44da	rgbasm: bump MAXMACROARGS up to 256 from 9	2015-01-19 23:28:09 -08:00
Anthony J. Bentley	1d174f37da	rgbasm: Convert oDontExpandStrings to bool.	2015-01-07 23:52:22 -07:00
Anthony J. Bentley	2777044f70	Delete some unused functions.	2015-01-07 23:39:00 -07:00
Anthony J. Bentley	e5e64b8cec	rgbasm: trim ludicrously redundant comments.	2015-01-07 23:36:08 -07:00
Anthony J. Bentley	8534f3a148	Unify usage strings/functions across programs. The funny spacing is to make it easier to keep to 80 characters/line.	2015-01-07 23:13:18 -07:00
Anthony J. Bentley	bdc6401eba	rgbfix: deal with options and arguments in the right order.	2015-01-07 23:07:09 -07:00
Anthony J. Bentley	21d0b402d3	Don't unnecessarily initialize variables.	2015-01-07 22:59:06 -07:00
Anthony J. Bentley	a305649557	rgbasm: Print usage if no filename is given after flags.	2015-01-07 22:44:28 -07:00
Anthony J. Bentley	3b0e207036	Pass -Wimplicit (implicit + implicit-function-declaration) by default.	2015-01-07 18:43:16 -07:00
Anthony J. Bentley	83eddb4c4e	Merge branch 'haltnop' of https://github.com/stag019/rgbds	2015-01-07 16:47:10 -07:00
Anthony J. Bentley	57997756b6	Merge branch 'symmapfix' of https://github.com/stag019/rgbds	2015-01-07 16:36:37 -07:00
stag019	ab66b28fdf	yacc_pre is no longer needed, since all the files were merged into one.	2015-01-03 06:57:07 -05:00
stag019	116569f54d	Fix for mapfiles and symfiles. Before, you couldn't define a mapfile unless you also defined a symfile. If you did, it would segfault.	2015-01-01 01:20:29 -05:00
stag019	2b839fec37	Use the options parameter provided for command line options. Specifically, for haltnop.	2014-12-31 13:29:24 -05:00
Anthony J. Bentley	513d451710	Tweak path for stdnoreturn.h header.	2014-12-31 03:21:46 -07:00
Anthony J. Bentley	9399ba36f9	Check for standards‐compliant platforms first in stdnoreturn.h.	2014-12-31 03:20:14 -07:00
Anthony J. Bentley	ef3a486845	Request POSIX 2008 for strdup().	2014-12-31 03:18:01 -07:00
stag019	f0e5c5ccc8	Cross-compiler noreturn support.	2014-12-31 04:11:06 -05:00
stag019	9b4959cb75	Implement round, ceil, and floor math functions.	2014-12-17 01:30:19 -05:00
stag019	dca82e6d95	Fix DEF() automatically converting string EQUS.	2014-11-07 16:42:55 -05:00
stag019	871c5ed360	We aren't kidding ourselves anymore. This is a Gameboy assembler, not any sort of generic assembler.	2014-11-07 16:36:03 -05:00
Anthony J. Bentley	635014b74d	On Clang, error on implicit function declaration by default.	2014-11-06 21:54:49 -07:00
Anthony J. Bentley	7ad634febd	Don’t assign to self.	2014-11-06 21:42:40 -07:00
Anthony J. Bentley	1e1339467e	Use POSIX 2001 as the base standard.	2014-11-06 21:39:36 -07:00
Anthony J. Bentley	9e24c26468	Specify _Noreturn in the err family prototypes.	2014-11-06 21:36:27 -07:00
Anthony J. Bentley	c1213f536b	Merge branch 'master' of https://github.com/stag019/rgbds	2014-11-04 17:36:45 -07:00
Anthony J. Bentley	82de716454	Mark error functions as _Noreturn.	2014-11-04 17:30:00 -07:00
stag019	a64d725a8d	The actual way the macro bug should have been fixed.	2014-11-04 18:09:22 -05:00
stag019	80e2129f22	Merge https://github.com/bentley/rgbds Conflicts: include/lib/types.h src/asm/symbol.c	2014-11-02 01:00:20 -05:00
stag019	af70f03933	A few more small changes to charmap.c.	2014-10-31 19:01:21 -04:00
stag019	004bc2e50e	Fix a few charmap bugs maybe?	2014-10-31 10:48:54 -04:00
Christophe Staïesse	25efb00769	fix a bug in the lexer involving double quote escaping and semicolons The bug showed up when a semicolon was located anywhere after \". These three test cases are syntaxically correct but didn't compile: 1) SECTION "HOME", HOME db "\";" 2) SECTION "HOME", HOME db "\"" nop ; 3) SECTION "HOME", HOME db "\"" ; The problem was located in yy_create_buffer(). Basicaly, this function loads an entire source file, uniformizes EOL terminators and filters out comments without touching literal strings. However, bounds of literal strings were wrongly guessed because \" was interpreted as two characters (and so the double quote was not escaped). In test 1, the string terminates early and so ;" is filtered out as it was a comment and so the assembler complains of an unterminated string. In test 2 and 3, the string is in fact interpreted as two strings, the second one terminates at EOF in these cases and so comments are not filtered out and that makes the assembler complains. A special case must be taken into account: 4) SECTION "HOME", HOME db "\\" ; So we need to ignore \\ as well. Note that there is still a problem left: in yy_create_buffer() a string may span multiple lines but not in the lexer. However in this case I think the lexer would quit at the first newline so there should be nothing to worry about.	2014-10-10 16:50:11 +02:00
stag019	af506985e5	Added license to charmap.c	2014-02-03 20:46:52 -05:00
stag019	240d2a7f14	Merge https://github.com/bentley/rgbds	2014-01-29 00:18:10 -05:00
stag019	34656f9e5d	Fix a bug where the first charmap entry wasn't added correctly.	2013-12-28 00:35:05 -05:00
stag019	c61c112218	Remove GNU-specific <getopt.h>. getopt() is defined in <unistd.h> in POSIX, which adding #define _XOPEN_SOURCE 500 causes GCC to include.	2013-12-23 14:57:06 -05:00
stag019	55974bc743	Only define _MAX_PATH is it isn't already defined.	2013-12-23 14:52:37 -05:00
stag019	94005513a4	Comment out unused variable dest.	2013-12-23 14:50:37 -05:00
stag019	36edec6231	Add out_BinaryFileSlice() definition to output.h.	2013-12-23 14:47:37 -05:00
stag019	7d176245d8	Remove all implicit definitions of compiler provided functions. <strings.h> cause strncasecmp to be define.	2013-12-23 14:40:53 -05:00
stag019	c65d58c589	Move local includes below system includes.	2013-12-23 14:37:56 -05:00
stag019	1f9fd0f060	This fixes an error with using long label names in macros. If the label name you're using is longer than the string length of the literal macro text, a syntax error would occur. This fix makes sure it at least allocates enough bytes for the largest allowed label name.	2013-12-22 20:56:31 -05:00
stag019	1218da79a9	Character maps.	2013-12-22 20:55:14 -05:00