ref: 6c1dd85c9a742589d2142be72257a7380a4786dd
dir: /src/asm/rpn.c/
/*
* RGBAsm - RPN.C - Controls RPN expressions for objectfiles
*
* INCLUDES
*
*/
#include <stdio.h>
#include <string.h>
#include "asm/mylink.h"
#include "asm/types.h"
#include "asm/symbol.h"
#include "asm/asm.h"
#include "asm/main.h"
#include "asm/rpn.h"
void mergetwoexpressions(struct Expression *expr, struct Expression *src1,
struct Expression *src2)
{
*expr = *src1;
memcpy(&(expr->tRPN[expr->nRPNLength]), src2->tRPN, src2->nRPNLength);
expr->nRPNLength += src2->nRPNLength;
expr->isReloc |= src2->isReloc;
expr->isPCRel |= src2->isPCRel;
}
#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
*
*/
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
*
*/
UWORD rpn_PopByte(struct Expression *expr)
{
if (expr->nRPNOut == expr->nRPNLength) {
return (0xDEAD);
} else
return (expr->tRPN[expr->nRPNOut++]);
}
/*
* RGBAsm - RPN.C - Controls RPN expressions for objectfiles
*
* 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
*
*/
ULONG rpn_isPCRelative(struct Expression * expr)
{
return (expr->isPCRel);
}
/*
* RGBAsm - RPN.C - Controls RPN expressions for objectfiles
*
* Add symbols, constants and operators to expression
*
*/
void rpn_Number(struct Expression *expr, ULONG i)
{
rpn_Reset(expr);
pushbyte(expr, RPN_CONST);
pushbyte(expr, i);
pushbyte(expr, i >> 8);
pushbyte(expr, i >> 16);
pushbyte(expr, i >> 24);
expr->nVal = i;
}
void rpn_Symbol(struct Expression *expr, char *tzSym)
{
if (!sym_isConstant(tzSym)) {
struct sSymbol *psym;
rpn_Reset(expr);
psym = sym_FindSymbol(tzSym);
if (psym == NULL || psym->pSection == pCurrentSection
|| psym->pSection == NULL)
expr->isPCRel = 1;
expr->isReloc = 1;
pushbyte(expr, RPN_SYM);
while (*tzSym)
pushbyte(expr, *tzSym++);
pushbyte(expr, 0);
} else
rpn_Number(expr, sym_GetConstantValue(tzSym));
}
void rpn_Bank(struct Expression *expr, char *tzSym)
{
if (!sym_isConstant(tzSym)) {
struct sSymbol *psym;
rpn_Reset(expr);
psym = sym_FindSymbol(tzSym);
if (nPass == 2 && psym == NULL) {
sprintf(temptext, "'%s' not defined", tzSym);
yyerror(temptext);
}
expr->isReloc = 1;
pushbyte(expr, RPN_BANK);
while (*tzSym)
pushbyte(expr, *tzSym++);
pushbyte(expr, 0);
} else
yyerror("BANK argument must be a relocatable identifier");
}
int rpn_RangeCheck(struct Expression *expr, struct Expression *src, SLONG low,
SLONG high)
{
*expr = *src;
if (rpn_isReloc(src)) {
pushbyte(expr, RPN_RANGECHECK);
pushbyte(expr, low);
pushbyte(expr, low >> 8);
pushbyte(expr, low >> 16);
pushbyte(expr, low >> 24);
pushbyte(expr, high);
pushbyte(expr, high >> 8);
pushbyte(expr, high >> 16);
pushbyte(expr, high >> 24);
return (1);
} else {
return (expr->nVal >= low && expr->nVal <= high);
}
}
#ifdef GAMEBOY
void rpn_CheckHRAM(struct Expression *expr, struct Expression *src)
{
*expr = *src;
pushbyte(expr, RPN_HRAM);
}
#endif
#ifdef PCENGINE
void rpn_CheckZP(struct Expression *expr, struct Expression *src)
{
*expr = *src;
pushbyte(expr, RPN_PCEZP);
}
#endif
void rpn_LOGNOT(struct Expression *expr, struct Expression *src)
{
*expr = *src;
pushbyte(expr, RPN_LOGUNNOT);
}
void rpn_LOGOR(struct Expression *expr, struct Expression *src1,
struct Expression *src2)
{
joinexpr();
expr->nVal = (expr->nVal || src2->nVal);
pushbyte(expr, RPN_LOGOR);
}
void rpn_LOGAND(struct Expression *expr, struct Expression *src1,
struct Expression *src2)
{
joinexpr();
expr->nVal = (expr->nVal && src2->nVal);
pushbyte(expr, RPN_LOGAND);
}
void rpn_LOGEQU(struct Expression *expr, struct Expression *src1,
struct Expression *src2)
{
joinexpr();
expr->nVal = (expr->nVal == src2->nVal);
pushbyte(expr, RPN_LOGEQ);
}
void rpn_LOGGT(struct Expression *expr, struct Expression *src1,
struct Expression *src2)
{
joinexpr();
expr->nVal = (expr->nVal > src2->nVal);
pushbyte(expr, RPN_LOGGT);
}
void rpn_LOGLT(struct Expression *expr, struct Expression *src1,
struct Expression *src2)
{
joinexpr();
expr->nVal = (expr->nVal < src2->nVal);
pushbyte(expr, RPN_LOGLT);
}
void rpn_LOGGE(struct Expression *expr, struct Expression *src1,
struct Expression *src2)
{
joinexpr();
expr->nVal = (expr->nVal >= src2->nVal);
pushbyte(expr, RPN_LOGGE);
}
void rpn_LOGLE(struct Expression *expr, struct Expression *src1,
struct Expression *src2)
{
joinexpr();
expr->nVal = (expr->nVal <= src2->nVal);
pushbyte(expr, RPN_LOGLE);
}
void rpn_LOGNE(struct Expression *expr, struct Expression *src1,
struct Expression *src2)
{
joinexpr();
expr->nVal = (expr->nVal != src2->nVal);
pushbyte(expr, RPN_LOGNE);
}
void rpn_ADD(struct Expression *expr, struct Expression *src1,
struct Expression *src2)
{
joinexpr();
expr->nVal = (expr->nVal + src2->nVal);
pushbyte(expr, RPN_ADD);
}
void rpn_SUB(struct Expression *expr, struct Expression *src1,
struct Expression *src2)
{
joinexpr();
expr->nVal = (expr->nVal - src2->nVal);
pushbyte(expr, RPN_SUB);
}
void rpn_XOR(struct Expression *expr, struct Expression *src1,
struct Expression *src2)
{
joinexpr();
expr->nVal = (expr->nVal ^ src2->nVal);
pushbyte(expr, RPN_XOR);
}
void rpn_OR(struct Expression *expr, struct Expression *src1,
struct Expression *src2)
{
joinexpr();
expr->nVal = (expr->nVal | src2->nVal);
pushbyte(expr, RPN_OR);
}
void rpn_AND(struct Expression *expr, struct Expression *src1,
struct Expression *src2)
{
joinexpr();
expr->nVal = (expr->nVal & src2->nVal);
pushbyte(expr, RPN_AND);
}
void rpn_SHL(struct Expression *expr, struct Expression *src1,
struct Expression *src2)
{
joinexpr();
expr->nVal = (expr->nVal << src2->nVal);
pushbyte(expr, RPN_SHL);
}
void rpn_SHR(struct Expression *expr, struct Expression *src1,
struct Expression *src2)
{
joinexpr();
expr->nVal = (expr->nVal >> src2->nVal);
pushbyte(expr, RPN_SHR);
}
void rpn_MUL(struct Expression *expr, struct Expression *src1,
struct Expression *src2)
{
joinexpr();
expr->nVal = (expr->nVal * src2->nVal);
pushbyte(expr, RPN_MUL);
}
void rpn_DIV(struct Expression *expr, struct Expression *src1,
struct Expression *src2)
{
joinexpr();
expr->nVal = (expr->nVal / src2->nVal);
pushbyte(expr, RPN_DIV);
}
void rpn_MOD(struct Expression *expr, struct Expression *src1,
struct Expression *src2)
{
joinexpr();
expr->nVal = (expr->nVal % src2->nVal);
pushbyte(expr, RPN_MOD);
}
void rpn_UNNEG(struct Expression *expr, struct Expression *src)
{
*expr = *src;
expr->nVal = -expr->nVal;
pushbyte(expr, RPN_UNSUB);
}
void rpn_UNNOT(struct Expression *expr, struct Expression *src)
{
*expr = *src;
expr->nVal = expr->nVal ^ 0xFFFFFFFF;
pushbyte(expr, RPN_UNNOT);
}