ref: 9d0203a4ee2f2e21e5aca614776fc47574e59b00
dir: /src/asm/rpn.c/
/* * Controls RPN expressions for objectfiles */ #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) /* * Add a byte to the RPN expression */ void pushbyte(struct Expression * expr, int b) { expr->tRPN[expr->nRPNLength++] = b & 0xFF; } /* * Reset the RPN module */ void rpn_Reset(struct Expression * expr) { expr->nRPNLength = expr->nRPNOut = expr->isReloc = expr->isPCRel = 0; } /* * 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++]); } /* * Determine if the current expression is relocatable */ ULONG rpn_isReloc(struct Expression * expr) { return (expr->isReloc); } /* * Determine if the current expression can be pc-relative */ ULONG rpn_isPCRelative(struct Expression * expr) { return (expr->isPCRel); } /* * 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) { yyerror("'%s' not defined", tzSym); } 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); } } void rpn_CheckHRAM(struct Expression * expr, struct Expression * src) { *expr = *src; pushbyte(expr, RPN_HRAM); } 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); }