Split section management into its own file

2025-11-20 18:22:07 +00:00 · 2020-02-03 23:26:00 +01:00
parent bfdbd00092
commit d0ec35628f
8 changed files with 535 additions and 511 deletions
--- a/1
+++ b/1
@@ -61,6 +61,7 @@ rgbasm_obj := \
 	src/asm/math.o \
 	src/asm/output.o \
 	src/asm/rpn.o \
 	src/asm/section.o \
 	src/asm/symbol.o \
 	src/asm/util.o \
 	src/asm/warning.o \
--- a/include/asm/output.h
+++ b/include/asm/output.h
@@ -11,45 +11,16 @@
 #include <stdint.h>
 #include "asm/rpn.h"
 #include "linkdefs.h"
-struct Section {
+struct Expression;
 	char *pzName;
 	enum SectionType nType;
 	uint32_t nPC;
 	uint32_t nOrg;
 	uint32_t nBank;
 	uint32_t nAlign;
 	struct Section *pNext;
 	struct Patch *pPatches;
 	uint8_t *tData;
 };
 extern char *tzObjectname;
 extern struct Section *pSectionList, *pCurrentSection;
 void out_PrepPass2(void);
 void out_SetFileName(char *s);
-struct Section *out_FindSectionByName(const char *pzName);
+void out_CreatePatch(uint32_t type, struct Expression *expr);
 void out_NewSection(char *pzName, uint32_t secttype);
 void out_NewAbsSection(char *pzName, uint32_t secttype, int32_t org,
 		       int32_t bank);
 void out_NewAlignedSection(char *pzName, uint32_t secttype, int32_t alignment,
 			   int32_t bank);
 void out_AbsByte(int32_t b);
 void out_AbsByteGroup(char *s, int32_t 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(int32_t skip);
 void out_BinaryFile(char *s);
 void out_BinaryFileSlice(char *s, int32_t start_pos, int32_t length);
 void out_String(char *s);
 void out_AbsLong(int32_t b);
 void out_RelLong(struct Expression *expr);
 void out_PushSection(void);
 void out_PopSection(void);
 #endif /* RGBDS_ASM_OUTPUT_H */
--- a/include/asm/section.h
+++ b/include/asm/section.h
@@ -0,0 +1,39 @@
 #include <stdint.h>
 #include "linkdefs.h"
 struct Expression;
 struct Section {
 	char *pzName;
 	enum SectionType nType;
 	uint32_t nPC;
 	uint32_t nOrg;
 	uint32_t nBank;
 	uint32_t nAlign;
 	struct Section *pNext;
 	struct Patch *pPatches;
 	uint8_t *tData;
 };
 struct Section *out_FindSectionByName(const char *pzName);
 void out_NewSection(char *pzName, uint32_t secttype);
 void out_NewAbsSection(char *pzName, uint32_t secttype, int32_t org,
 		       int32_t bank);
 void out_NewAlignedSection(char *pzName, uint32_t secttype, int32_t alignment,
 			   int32_t bank);
 void out_AbsByte(int32_t b);
 void out_AbsByteGroup(char *s, int32_t length);
 void out_Skip(int32_t skip);
 void out_String(char *s);
 void out_RelByte(struct Expression *expr);
 void out_RelWord(struct Expression *expr);
 void out_RelLong(struct Expression *expr);
 void out_PCRelByte(struct Expression *expr);
 void out_BinaryFile(char *s);
 void out_BinaryFileSlice(char *s, int32_t start_pos, int32_t length);
 void out_PushSection(void);
 void out_PopSection(void);
--- a/src/asm/asmy.y
+++ b/src/asm/asmy.y
@@ -22,8 +22,8 @@
 #include "asm/lexer.h"
 #include "asm/main.h"
 #include "asm/mymath.h"
 #include "asm/output.h"
 #include "asm/rpn.h"
 #include "asm/section.h"
 #include "asm/symbol.h"
 #include "asm/util.h"
 #include "asm/warning.h"
--- a/src/asm/output.c
+++ b/src/asm/output.c
@@ -40,6 +40,7 @@
 #include "asm/main.h"
 #include "asm/output.h"
 #include "asm/rpn.h"
 #include "asm/section.h"
 #include "asm/symbol.h"
 #include "asm/warning.h"
@@ -47,8 +48,6 @@
 #include "linkdefs.h"
 void out_SetCurrentSection(struct Section *pSect);
 struct Patch {
 	char tzFilename[_MAX_PATH + 1];
 	uint32_t nLine;
@@ -66,49 +65,11 @@ struct PatchSymbol {
 	struct PatchSymbol *pBucketNext; /* next symbol in hash table bucket */
 };
 struct SectionStackEntry {
 	struct Section *pSection;
 	struct sSymbol *pScope; /* Section's symbol scope */
 	struct SectionStackEntry *pNext;
 };
 struct PatchSymbol *tHashedPatchSymbols[HASHSIZE];
 struct Section *pSectionList, *pCurrentSection;
 struct PatchSymbol *pPatchSymbols;
 struct PatchSymbol **ppPatchSymbolsTail = &pPatchSymbols;
 char *tzObjectname;
 struct SectionStackEntry *pSectionStack;
 /*
 * Section stack routines
 */
 void out_PushSection(void)
 {
 	struct SectionStackEntry *pSect;
 	pSect = malloc(sizeof(struct SectionStackEntry));
 	if (pSect == NULL)
 		fatalerror("No memory for section stack");
 	pSect->pSection = pCurrentSection;
 	pSect->pScope = sym_GetCurrentSymbolScope();
 	pSect->pNext = pSectionStack;
 	pSectionStack = pSect;
 }
 void out_PopSection(void)
 {
 	if (pSectionStack == NULL)
 		fatalerror("No entries in the section stack");
 	struct SectionStackEntry *pSect;
 	pSect = pSectionStack;
 	out_SetCurrentSection(pSect->pSection);
 	sym_SetCurrentSymbolScope(pSect->pScope);
 	pSectionStack = pSect->pNext;
 	free(pSect);
 }
 /*
 * Count the number of symbols used in this object
@@ -368,7 +329,7 @@ struct Patch *allocpatch(void)
 /*
 * Create a new patch (includes the rpn expr)
 */
-void createpatch(uint32_t type, struct Expression *expr)
+void out_CreatePatch(uint32_t type, struct Expression *expr)
 {
 	struct Patch *pPatch;
 	uint16_t rpndata;
@@ -469,51 +430,6 @@ void createpatch(uint32_t type, struct Expression *expr)
 	pPatch->nRPNSize = rpnptr;
 }
 /*
 * A quick check to see if we have an initialized section
 */
 static void checksection(void)
 {
 	if (pCurrentSection == NULL)
 		fatalerror("Code generation before SECTION directive");
 }
 /*
 * A quick check to see if we have an initialized section that can contain
 * this much initialized data
 */
 static void checkcodesection(void)
 {
 	checksection();
 	if (!sect_HasData(pCurrentSection->nType))
 		fatalerror("Section '%s' cannot contain code or data (not ROM0 or ROMX)",
 			   pCurrentSection->pzName);
 	else if (nUnionDepth > 0)
 		fatalerror("UNIONs cannot contain code or data");
 }
 /*
 * Check if the section has grown too much.
 */
 static void checksectionoverflow(uint32_t delta_size)
 {
 	uint32_t maxSize = maxsize[pCurrentSection->nType];
 	uint32_t newSize = pCurrentSection->nPC + delta_size;
 	if (newSize > maxSize) {
 		/*
 		 * This check is here to trap broken code that generates
 		 * sections that are too big and to prevent the assembler from
 		 * generating huge object files or trying to allocate too much
 		 * memory.
 		 * The real check must be done at the linking stage.
 		 */
 		fatalerror("Section '%s' is too big (max size = 0x%X bytes, reached 0x%X).",
 			   pCurrentSection->pzName, maxSize, newSize);
 	}
 }
 /*
 * Write an objectfile
 */
@@ -576,393 +492,3 @@ void out_SetFileName(char *s)
 	if (CurrentOptions.verbose)
 		printf("Output filename %s\n", s);
 }
 struct Section *out_FindSectionByName(const char *pzName)
 {
 	struct Section *pSect = pSectionList;
 	while (pSect) {
 		if (strcmp(pzName, pSect->pzName) == 0)
 			return pSect;
 		pSect = pSect->pNext;
 	}
 	return NULL;
 }
 /*
 * Find a section by name and type. If it doesn't exist, create it
 */
 struct Section *out_FindSection(char *pzName, enum SectionType secttype,
 				int32_t org, int32_t bank, int32_t alignment)
 {
 	struct Section *pSect = out_FindSectionByName(pzName);
 	if (pSect) {
 		if (secttype == pSect->nType
 			&& ((uint32_t)org) == pSect->nOrg
 			&& ((uint32_t)bank) == pSect->nBank
 			&& ((uint32_t)alignment == pSect->nAlign)) {
 			return pSect;
 		}
 		fatalerror("Section already exists but with a different type");
 	}
 	pSect = malloc(sizeof(*pSect));
 	if (pSect == NULL)
 		fatalerror("Not enough memory for section");
 	pSect->pzName = strdup(pzName);
 	if (pSect->pzName == NULL)
 		fatalerror("Not enough memory for sectionname");
 	if (nbbanks(secttype) == 1)
 		bank = bankranges[secttype][0];
 	pSect->nType = secttype;
 	pSect->nPC = 0;
 	pSect->nOrg = org;
 	pSect->nBank = bank;
 	pSect->nAlign = alignment;
 	pSect->pNext = pSectionList;
 	pSect->pPatches = NULL;
 	/* It is only needed to allocate memory for ROM sections. */
 	if (sect_HasData(secttype)) {
 		uint32_t sectsize;
 		sectsize = maxsize[secttype];
 		pSect->tData = malloc(sectsize);
 		if (pSect->tData == NULL)
 			fatalerror("Not enough memory for section");
 	} else {
 		pSect->tData = NULL;
 	}
 	/*
 	 * Add the new section to the list
 	 * at the beginning because order doesn't matter
 	 */
 	pSectionList = pSect;
 	return pSect;
 }
 /*
 * Set the current section
 */
 void out_SetCurrentSection(struct Section *pSect)
 {
 	if (nUnionDepth > 0)
 		fatalerror("Cannot change the section within a UNION");
 	pCurrentSection = pSect;
 	nPC = (pSect != NULL) ? pSect->nPC : 0;
 	pPCSymbol->nValue = nPC;
 	pPCSymbol->pSection = pCurrentSection;
 	pPCSymbol->isConstant = pSect && pSect->nOrg != -1;
 }
 /*
 * Set the current section by name and type
 */
 void out_NewSection(char *pzName, uint32_t secttype)
 {
 	out_SetCurrentSection(out_FindSection(pzName, secttype, -1, -1, 1));
 }
 /*
 * Set the current section by name and type
 */
 void out_NewAbsSection(char *pzName, uint32_t secttype, int32_t org,
 		       int32_t bank)
 {
 	out_SetCurrentSection(out_FindSection(pzName, secttype, org, bank, 1));
 }
 /*
 * Set the current section by name and type, using a given byte alignment
 */
 void out_NewAlignedSection(char *pzName, uint32_t secttype, int32_t alignment,
 			   int32_t bank)
 {
 	if (alignment < 0 || alignment > 16)
 		yyerror("Alignment must be between 0-16 bits.");
 	out_SetCurrentSection(out_FindSection(pzName, secttype, -1, bank,
 					      1 << alignment));
 }
 /*
 * Output an absolute byte (bypassing ROM/union checks)
 */
 void out_AbsByteBypassCheck(int32_t b)
 {
 	checksectionoverflow(1);
 	b &= 0xFF;
 	pCurrentSection->tData[nPC] = b;
 	pCurrentSection->nPC++;
 	nPC++;
 	pPCSymbol->nValue++;
 }
 /*
 * Output an absolute byte
 */
 void out_AbsByte(int32_t b)
 {
 	checkcodesection();
 	out_AbsByteBypassCheck(b);
 }
 void out_AbsByteGroup(char *s, int32_t length)
 {
 	checkcodesection();
 	checksectionoverflow(length);
 	while (length--)
 		out_AbsByte(*s++);
 }
 /*
 * Skip this many bytes
 */
 void out_Skip(int32_t skip)
 {
 	checksection();
 	checksectionoverflow(skip);
 	if (!sect_HasData(pCurrentSection->nType)) {
 		pCurrentSection->nPC += skip;
 		nPC += skip;
 		pPCSymbol->nValue += skip;
 	} else if (nUnionDepth > 0) {
 		while (skip--)
 			out_AbsByteBypassCheck(CurrentOptions.fillchar);
 	} else {
 		checkcodesection();
 		while (skip--)
 			out_AbsByte(CurrentOptions.fillchar);
 	}
 }
 /*
 * Output a NULL terminated string (excluding the NULL-character)
 */
 void out_String(char *s)
 {
 	checkcodesection();
 	checksectionoverflow(strlen(s));
 	while (*s)
 		out_AbsByte(*s++);
 }
 /*
 * Output a relocatable byte. Checking will be done to see if it
 * is an absolute value in disguise.
 */
 void out_RelByte(struct Expression *expr)
 {
 	checkcodesection();
 	checksectionoverflow(1);
 	if (!rpn_isKnown(expr)) {
 		pCurrentSection->tData[nPC] = 0;
 		createpatch(PATCHTYPE_BYTE, expr);
 		pCurrentSection->nPC++;
 		nPC++;
 		pPCSymbol->nValue++;
 	} else {
 		out_AbsByte(expr->nVal);
 	}
 	rpn_Free(expr);
 }
 /*
 * Output an absolute word
 */
 void out_AbsWord(int32_t b)
 {
 	checkcodesection();
 	checksectionoverflow(2);
 	b &= 0xFFFF;
 	pCurrentSection->tData[nPC] = b & 0xFF;
 	pCurrentSection->tData[nPC + 1] = b >> 8;
 	pCurrentSection->nPC += 2;
 	nPC += 2;
 	pPCSymbol->nValue += 2;
 }
 /*
 * Output a relocatable word. Checking will be done to see if
 * it's an absolute value in disguise.
 */
 void out_RelWord(struct Expression *expr)
 {
 	checkcodesection();
 	checksectionoverflow(2);
 	if (!rpn_isKnown(expr)) {
 		pCurrentSection->tData[nPC] = 0;
 		pCurrentSection->tData[nPC + 1] = 0;
 		createpatch(PATCHTYPE_WORD, expr);
 		pCurrentSection->nPC += 2;
 		nPC += 2;
 		pPCSymbol->nValue += 2;
 	} else {
 		out_AbsWord(expr->nVal);
 	}
 	rpn_Free(expr);
 }
 /*
 * Output an absolute longword
 */
 void out_AbsLong(int32_t b)
 {
 	checkcodesection();
 	checksectionoverflow(sizeof(int32_t));
 	pCurrentSection->tData[nPC] = b & 0xFF;
 	pCurrentSection->tData[nPC + 1] = b >> 8;
 	pCurrentSection->tData[nPC + 2] = b >> 16;
 	pCurrentSection->tData[nPC + 3] = b >> 24;
 	pCurrentSection->nPC += 4;
 	nPC += 4;
 	pPCSymbol->nValue += 4;
 }
 /*
 * Output a relocatable longword. Checking will be done to see if
 * is an absolute value in disguise.
 */
 void out_RelLong(struct Expression *expr)
 {
 	checkcodesection();
 	checksectionoverflow(4);
 	if (!rpn_isKnown(expr)) {
 		pCurrentSection->tData[nPC] = 0;
 		pCurrentSection->tData[nPC + 1] = 0;
 		pCurrentSection->tData[nPC + 2] = 0;
 		pCurrentSection->tData[nPC + 3] = 0;
 		createpatch(PATCHTYPE_LONG, expr);
 		pCurrentSection->nPC += 4;
 		nPC += 4;
 		pPCSymbol->nValue += 4;
 	} else {
 		out_AbsLong(expr->nVal);
 	}
 	rpn_Free(expr);
 }
 /*
 * Output a PC-relative relocatable byte. Checking will be done to see if it
 * is an absolute value in disguise.
 */
 void out_PCRelByte(struct Expression *expr)
 {
 	checkcodesection();
 	checksectionoverflow(1);
 	if (!rpn_isKnown(expr) || pCurrentSection->nOrg == -1) {
 		pCurrentSection->tData[nPC] = 0;
 		createpatch(PATCHTYPE_JR, expr);
 		pCurrentSection->nPC++;
 		nPC++;
 		pPCSymbol->nValue++;
 	} else {
 		/* Target is relative to the byte *after* the operand */
 		uint16_t address = pCurrentSection->nOrg + nPC + 1;
 		/* The offset wraps (jump from ROM to HRAM, for loopexample) */
 		int16_t offset = expr->nVal - address;
 		if (offset < -128 || offset > 127) {
 			yyerror("jr target out of reach (expected -129 < %d < 128)", offset);
 			out_AbsByte(0);
 		} else {
 			out_AbsByte(offset);
 		}
 	}
 	rpn_Free(expr);
 }
 /*
 * Output a binary file
 */
 void out_BinaryFile(char *s)
 {
 	FILE *f;
 	f = fstk_FindFile(s, NULL);
 	if (f == NULL) {
 		if (oGeneratedMissingIncludes) {
 			oFailedOnMissingInclude = true;
 			return;
 		}
 		err(1, "Unable to open incbin file '%s'", s);
 	}
 	int32_t fsize;
 	fseek(f, 0, SEEK_END);
 	fsize = ftell(f);
 	fseek(f, 0, SEEK_SET);
 	checkcodesection();
 	checksectionoverflow(fsize);
 	int32_t dest = nPC;
 	int32_t todo = fsize;
 	while (todo--)
 		pCurrentSection->tData[dest++] = fgetc(f);
 	pCurrentSection->nPC += fsize;
 	nPC += fsize;
 	pPCSymbol->nValue += fsize;
 	fclose(f);
 }
 void out_BinaryFileSlice(char *s, int32_t start_pos, int32_t length)
 {
 	FILE *f;
 	if (start_pos < 0)
 		fatalerror("Start position cannot be negative");
 	if (length < 0)
 		fatalerror("Number of bytes to read must be greater than zero");
 	f = fstk_FindFile(s, NULL);
 	if (f == NULL) {
 		if (oGeneratedMissingIncludes) {
 			oFailedOnMissingInclude = true;
 			return;
 		}
 		err(1, "Unable to open included file '%s'", s);
 	}
 	int32_t fsize;
 	fseek(f, 0, SEEK_END);
 	fsize = ftell(f);
 	if (start_pos >= fsize)
 		fatalerror("Specified start position is greater than length of file");
 	if ((start_pos + length) > fsize)
 		fatalerror("Specified range in INCBIN is out of bounds");
 	fseek(f, start_pos, SEEK_SET);
 	checkcodesection();
 	checksectionoverflow(length);
 	int32_t dest = nPC;
 	int32_t todo = length;
 	while (todo--)
 		pCurrentSection->tData[dest++] = fgetc(f);
 	pCurrentSection->nPC += length;
 	nPC += length;
 	pPCSymbol->nValue += length;
 	fclose(f);
 }
--- a/src/asm/rpn.c
+++ b/src/asm/rpn.c
@@ -19,8 +19,8 @@
 #include "asm/asm.h"
 #include "asm/main.h"
 #include "asm/rpn.h"
 #include "asm/section.h"
 #include "asm/symbol.h"
 #include "asm/output.h"
 #include "asm/warning.h"
 /* Makes an expression "not known", also setting its error message */
--- a/src/asm/section.c
+++ b/src/asm/section.c
@@ -0,0 +1,487 @@
 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>
 #include "asm/fstack.h"
 #include "asm/main.h"
 #include "asm/output.h"
 #include "asm/rpn.h"
 #include "asm/section.h"
 #include "asm/warning.h"
 #include "extern/err.h"
 struct SectionStackEntry {
 	struct Section *pSection;
 	struct sSymbol *pScope; /* Section's symbol scope */
 	struct SectionStackEntry *pNext;
 };
 struct SectionStackEntry *pSectionStack;
 /*
 * A quick check to see if we have an initialized section
 */
 static void checksection(void)
 {
 	if (pCurrentSection == NULL)
 		fatalerror("Code generation before SECTION directive");
 }
 /*
 * A quick check to see if we have an initialized section that can contain
 * this much initialized data
 */
 static void checkcodesection(void)
 {
 	checksection();
 	if (!sect_HasData(pCurrentSection->nType))
 		fatalerror("Section '%s' cannot contain code or data (not ROM0 or ROMX)",
 			   pCurrentSection->pzName);
 	else if (nUnionDepth > 0)
 		fatalerror("UNIONs cannot contain code or data");
 }
 /*
 * Check if the section has grown too much.
 */
 static void checksectionoverflow(uint32_t delta_size)
 {
 	uint32_t maxSize = maxsize[pCurrentSection->nType];
 	uint32_t newSize = pCurrentSection->nPC + delta_size;
 	if (newSize > maxSize) {
 		/*
 		 * This check is here to trap broken code that generates
 		 * sections that are too big and to prevent the assembler from
 		 * generating huge object files or trying to allocate too much
 		 * memory.
 		 * The real check must be done at the linking stage.
 		 */
 		fatalerror("Section '%s' is too big (max size = 0x%X bytes, reached 0x%X).",
 			   pCurrentSection->pzName, maxSize, newSize);
 	}
 }
 struct Section *out_FindSectionByName(const char *pzName)
 {
 	struct Section *pSect = pSectionList;
 	while (pSect) {
 		if (strcmp(pzName, pSect->pzName) == 0)
 			return pSect;
 		pSect = pSect->pNext;
 	}
 	return NULL;
 }
 /*
 * Find a section by name and type. If it doesn't exist, create it
 */
 static struct Section *findSection(char *pzName, enum SectionType secttype,
 				   int32_t org, int32_t bank, int32_t alignment)
 {
 	struct Section *pSect = out_FindSectionByName(pzName);
 	if (pSect) {
 		if (secttype == pSect->nType
 			&& ((uint32_t)org) == pSect->nOrg
 			&& ((uint32_t)bank) == pSect->nBank
 			&& ((uint32_t)alignment == pSect->nAlign)) {
 			return pSect;
 		}
 		fatalerror("Section already exists but with a different type");
 	}
 	pSect = malloc(sizeof(*pSect));
 	if (pSect == NULL)
 		fatalerror("Not enough memory for section");
 	pSect->pzName = strdup(pzName);
 	if (pSect->pzName == NULL)
 		fatalerror("Not enough memory for sectionname");
 	if (nbbanks(secttype) == 1)
 		bank = bankranges[secttype][0];
 	pSect->nType = secttype;
 	pSect->nPC = 0;
 	pSect->nOrg = org;
 	pSect->nBank = bank;
 	pSect->nAlign = alignment;
 	pSect->pNext = pSectionList;
 	pSect->pPatches = NULL;
 	/* It is only needed to allocate memory for ROM sections. */
 	if (sect_HasData(secttype)) {
 		uint32_t sectsize;
 		sectsize = maxsize[secttype];
 		pSect->tData = malloc(sectsize);
 		if (pSect->tData == NULL)
 			fatalerror("Not enough memory for section");
 	} else {
 		pSect->tData = NULL;
 	}
 	/*
 	 * Add the new section to the list
 	 * at the beginning because order doesn't matter
 	 */
 	pSectionList = pSect;
 	return pSect;
 }
 /*
 * Set the current section
 */
 static void setCurrentSection(struct Section *pSect)
 {
 	if (nUnionDepth > 0)
 		fatalerror("Cannot change the section within a UNION");
 	pCurrentSection = pSect;
 	nPC = (pSect != NULL) ? pSect->nPC : 0;
 	pPCSymbol->nValue = nPC;
 	pPCSymbol->pSection = pCurrentSection;
 	pPCSymbol->isConstant = pSect && pSect->nOrg != -1;
 }
 /*
 * Set the current section by name and type
 */
 void out_NewSection(char *pzName, uint32_t secttype)
 {
 	setCurrentSection(findSection(pzName, secttype, -1, -1, 1));
 }
 /*
 * Set the current section by name and type
 */
 void out_NewAbsSection(char *pzName, uint32_t secttype, int32_t org,
 		       int32_t bank)
 {
 	setCurrentSection(findSection(pzName, secttype, org, bank, 1));
 }
 /*
 * Set the current section by name and type, using a given byte alignment
 */
 void out_NewAlignedSection(char *pzName, uint32_t secttype, int32_t alignment,
 			   int32_t bank)
 {
 	if (alignment < 0 || alignment > 16)
 		yyerror("Alignment must be between 0-16 bits.");
 	setCurrentSection(findSection(pzName, secttype, -1, bank,
 				      1 << alignment));
 }
 /*
 * Output an absolute byte (bypassing ROM/union checks)
 */
 static void absByteBypassCheck(int32_t b)
 {
 	checksectionoverflow(1);
 	b &= 0xFF;
 	pCurrentSection->tData[nPC] = b;
 	pCurrentSection->nPC++;
 	nPC++;
 	pPCSymbol->nValue++;
 }
 /*
 * Output an absolute byte
 */
 void out_AbsByte(int32_t b)
 {
 	checkcodesection();
 	absByteBypassCheck(b);
 }
 void out_AbsByteGroup(char *s, int32_t length)
 {
 	checkcodesection();
 	checksectionoverflow(length);
 	while (length--)
 		out_AbsByte(*s++);
 }
 /*
 * Skip this many bytes
 */
 void out_Skip(int32_t skip)
 {
 	checksection();
 	checksectionoverflow(skip);
 	if (!sect_HasData(pCurrentSection->nType)) {
 		pCurrentSection->nPC += skip;
 		nPC += skip;
 		pPCSymbol->nValue += skip;
 	} else if (nUnionDepth > 0) {
 		while (skip--)
 			absByteBypassCheck(CurrentOptions.fillchar);
 	} else {
 		checkcodesection();
 		while (skip--)
 			out_AbsByte(CurrentOptions.fillchar);
 	}
 }
 /*
 * Output a NULL terminated string (excluding the NULL-character)
 */
 void out_String(char *s)
 {
 	checkcodesection();
 	checksectionoverflow(strlen(s));
 	while (*s)
 		out_AbsByte(*s++);
 }
 /*
 * Output a relocatable byte. Checking will be done to see if it
 * is an absolute value in disguise.
 */
 void out_RelByte(struct Expression *expr)
 {
 	checkcodesection();
 	checksectionoverflow(1);
 	if (!rpn_isKnown(expr)) {
 		pCurrentSection->tData[nPC] = 0;
 		out_CreatePatch(PATCHTYPE_BYTE, expr);
 		pCurrentSection->nPC++;
 		nPC++;
 		pPCSymbol->nValue++;
 	} else {
 		out_AbsByte(expr->nVal);
 	}
 	rpn_Free(expr);
 }
 /*
 * Output an absolute word
 */
 static void absWord(int32_t b)
 {
 	checkcodesection();
 	checksectionoverflow(2);
 	b &= 0xFFFF;
 	pCurrentSection->tData[nPC] = b & 0xFF;
 	pCurrentSection->tData[nPC + 1] = b >> 8;
 	pCurrentSection->nPC += 2;
 	nPC += 2;
 	pPCSymbol->nValue += 2;
 }
 /*
 * Output a relocatable word. Checking will be done to see if
 * it's an absolute value in disguise.
 */
 void out_RelWord(struct Expression *expr)
 {
 	checkcodesection();
 	checksectionoverflow(2);
 	if (!rpn_isKnown(expr)) {
 		pCurrentSection->tData[nPC] = 0;
 		pCurrentSection->tData[nPC + 1] = 0;
 		out_CreatePatch(PATCHTYPE_WORD, expr);
 		pCurrentSection->nPC += 2;
 		nPC += 2;
 		pPCSymbol->nValue += 2;
 	} else {
 		absWord(expr->nVal);
 	}
 	rpn_Free(expr);
 }
 /*
 * Output an absolute longword
 */
 static void absLong(int32_t b)
 {
 	checkcodesection();
 	checksectionoverflow(sizeof(int32_t));
 	pCurrentSection->tData[nPC] = b & 0xFF;
 	pCurrentSection->tData[nPC + 1] = b >> 8;
 	pCurrentSection->tData[nPC + 2] = b >> 16;
 	pCurrentSection->tData[nPC + 3] = b >> 24;
 	pCurrentSection->nPC += 4;
 	nPC += 4;
 	pPCSymbol->nValue += 4;
 }
 /*
 * Output a relocatable longword. Checking will be done to see if
 * is an absolute value in disguise.
 */
 void out_RelLong(struct Expression *expr)
 {
 	checkcodesection();
 	checksectionoverflow(4);
 	if (!rpn_isKnown(expr)) {
 		pCurrentSection->tData[nPC] = 0;
 		pCurrentSection->tData[nPC + 1] = 0;
 		pCurrentSection->tData[nPC + 2] = 0;
 		pCurrentSection->tData[nPC + 3] = 0;
 		out_CreatePatch(PATCHTYPE_LONG, expr);
 		pCurrentSection->nPC += 4;
 		nPC += 4;
 		pPCSymbol->nValue += 4;
 	} else {
 		absLong(expr->nVal);
 	}
 	rpn_Free(expr);
 }
 /*
 * Output a PC-relative relocatable byte. Checking will be done to see if it
 * is an absolute value in disguise.
 */
 void out_PCRelByte(struct Expression *expr)
 {
 	checkcodesection();
 	checksectionoverflow(1);
 	if (!rpn_isKnown(expr) || pCurrentSection->nOrg == -1) {
 		pCurrentSection->tData[nPC] = 0;
 		out_CreatePatch(PATCHTYPE_JR, expr);
 		pCurrentSection->nPC++;
 		nPC++;
 		pPCSymbol->nValue++;
 	} else {
 		/* Target is relative to the byte *after* the operand */
 		uint16_t address = pCurrentSection->nOrg + nPC + 1;
 		/* The offset wraps (jump from ROM to HRAM, for loopexample) */
 		int16_t offset = expr->nVal - address;
 		if (offset < -128 || offset > 127) {
 			yyerror("jr target out of reach (expected -129 < %d < 128)", offset);
 			out_AbsByte(0);
 		} else {
 			out_AbsByte(offset);
 		}
 	}
 	rpn_Free(expr);
 }
 /*
 * Output a binary file
 */
 void out_BinaryFile(char *s)
 {
 	FILE *f;
 	f = fstk_FindFile(s, NULL);
 	if (f == NULL) {
 		if (oGeneratedMissingIncludes) {
 			oFailedOnMissingInclude = true;
 			return;
 		}
 		err(1, "Unable to open incbin file '%s'", s);
 	}
 	int32_t fsize;
 	fseek(f, 0, SEEK_END);
 	fsize = ftell(f);
 	fseek(f, 0, SEEK_SET);
 	checkcodesection();
 	checksectionoverflow(fsize);
 	int32_t dest = nPC;
 	int32_t todo = fsize;
 	while (todo--)
 		pCurrentSection->tData[dest++] = fgetc(f);
 	pCurrentSection->nPC += fsize;
 	nPC += fsize;
 	pPCSymbol->nValue += fsize;
 	fclose(f);
 }
 void out_BinaryFileSlice(char *s, int32_t start_pos, int32_t length)
 {
 	FILE *f;
 	if (start_pos < 0)
 		fatalerror("Start position cannot be negative");
 	if (length < 0)
 		fatalerror("Number of bytes to read must be greater than zero");
 	f = fstk_FindFile(s, NULL);
 	if (f == NULL) {
 		if (oGeneratedMissingIncludes) {
 			oFailedOnMissingInclude = true;
 			return;
 		}
 		err(1, "Unable to open included file '%s'", s);
 	}
 	int32_t fsize;
 	fseek(f, 0, SEEK_END);
 	fsize = ftell(f);
 	if (start_pos >= fsize)
 		fatalerror("Specified start position is greater than length of file");
 	if ((start_pos + length) > fsize)
 		fatalerror("Specified range in INCBIN is out of bounds");
 	fseek(f, start_pos, SEEK_SET);
 	checkcodesection();
 	checksectionoverflow(length);
 	int32_t dest = nPC;
 	int32_t todo = length;
 	while (todo--)
 		pCurrentSection->tData[dest++] = fgetc(f);
 	pCurrentSection->nPC += length;
 	nPC += length;
 	pPCSymbol->nValue += length;
 	fclose(f);
 }
 /*
 * Section stack routines
 */
 void out_PushSection(void)
 {
 	struct SectionStackEntry *pSect;
 	pSect = malloc(sizeof(struct SectionStackEntry));
 	if (pSect == NULL)
 		fatalerror("No memory for section stack");
 	pSect->pSection = pCurrentSection;
 	pSect->pScope = sym_GetCurrentSymbolScope();
 	pSect->pNext = pSectionStack;
 	pSectionStack = pSect;
 }
 void out_PopSection(void)
 {
 	if (pSectionStack == NULL)
 		fatalerror("No entries in the section stack");
 	struct SectionStackEntry *pSect;
 	pSect = pSectionStack;
 	setCurrentSection(pSect->pSection);
 	sym_SetCurrentSymbolScope(pSect->pScope);
 	pSectionStack = pSect->pNext;
 	free(pSect);
 }
--- a/src/asm/symbol.c
+++ b/src/asm/symbol.c
@@ -21,7 +21,7 @@
 #include "asm/symbol.h"
 #include "asm/main.h"
 #include "asm/mymath.h"
-#include "asm/output.h"
+#include "asm/section.h"
 #include "asm/util.h"
 #include "asm/warning.h"