Use methods for RPN Expression (#1372)

include/asm/rpn.hpp

@@ -12,16 +12,12 @@
 struct Symbol;
 
 struct Expression {
-	int32_t val;        // If the expression's value is known, it's here
-	std::string reason; // Why the expression is not known, if it isn't
-	bool isKnown;       // Whether the expression's value is known at assembly time
-	bool isSymbol;      // Whether the expression represents a symbol suitable for const diffing
-	std::vector<uint8_t> rpn; // Bytes serializing the RPN expression
-	uint32_t rpnPatchSize;    // Size the expression will take in the object file
-
-	int32_t getConstVal() const;
-	Symbol const *symbolOf() const;
-	bool isDiffConstant(Symbol const *symName) const;
+	int32_t val = 0;       // If the expression's value is known, it's here
+	std::string reason{};  // Why the expression is not known, if it isn't
+	bool isKnown = true;   // Whether the expression's value is known at assembly time
+	bool isSymbol = false; // Whether the expression represents a symbol suitable for const diffing
+	std::vector<uint8_t> rpn{}; // Bytes serializing the RPN expression
+	uint32_t rpnPatchSize = 0;  // Size the expression will take in the object file
 
 	Expression() = default;
 	Expression(Expression &&) = default;
@@ -31,27 +27,43 @@ struct Expression {
 #endif
 
 	Expression &operator=(Expression &&) = default;
+
+	int32_t getConstVal() const;
+	Symbol const *symbolOf() const;
+	bool isDiffConstant(Symbol const *symName) const;
+
+	void makeNumber(uint32_t value);
+	void makeSymbol(std::string const &symName);
+	void makeBankSymbol(std::string const &symName);
+	void makeBankSection(std::string const &sectName);
+	void makeSizeOfSection(std::string const &sectName);
+	void makeStartOfSection(std::string const &sectName);
+	void makeSizeOfSectionType(SectionType type);
+	void makeStartOfSectionType(SectionType type);
+	void makeHigh();
+	void makeLow();
+	void makeNeg();
+	void makeNot();
+	void makeLogicNot();
+	void makeBinaryOp(RPNCommand op, Expression &&src1, Expression const &src2);
+
+	void makeCheckHRAM();
+	void makeCheckRST();
+
+	void checkNBit(uint8_t n) const;
+
+private:
+	void clear();
+	uint8_t *reserveSpace(uint32_t size);
+	uint8_t *reserveSpace(uint32_t size, uint32_t patchSize);
+
+	// Makes an expression "not known", also setting its error message
+	template<typename... Ts>
+	void makeUnknown(Ts... parts) {
+		isKnown = false;
+		reason.clear();
+		(reason.append(parts), ...);
+	}
 };
 
-void rpn_Number(Expression &expr, uint32_t val);
-void rpn_Symbol(Expression &expr, std::string const &symName);
-void rpn_LOGNOT(Expression &expr, Expression &&src);
-void rpn_BinaryOp(RPNCommand op, Expression &expr, Expression &&src1, Expression const &src2);
-void rpn_HIGH(Expression &expr, Expression &&src);
-void rpn_LOW(Expression &expr, Expression &&src);
-void rpn_ISCONST(Expression &expr, Expression const &src);
-void rpn_NEG(Expression &expr, Expression &&src);
-void rpn_NOT(Expression &expr, Expression &&src);
-void rpn_BankSymbol(Expression &expr, std::string const &symName);
-void rpn_BankSection(Expression &expr, std::string const &sectionName);
-void rpn_BankSelf(Expression &expr);
-void rpn_SizeOfSection(Expression &expr, std::string const &sectionName);
-void rpn_StartOfSection(Expression &expr, std::string const &sectionName);
-void rpn_SizeOfSectionType(Expression &expr, SectionType type);
-void rpn_StartOfSectionType(Expression &expr, SectionType type);
-
-void rpn_CheckHRAM(Expression &expr);
-void rpn_CheckRST(Expression &expr);
-void rpn_CheckNBit(Expression const &expr, uint8_t n);
-
 #endif // RGBDS_ASM_RPN_H

src/asm/parser.y

@@ -1272,40 +1272,41 @@ constlist_32bit_entry:
 
 reloc_8bit:
 	relocexpr {
-		rpn_CheckNBit($1, 8);
 		$$ = std::move($1);
+		$$.checkNBit(8);
 	}
 ;
 
 reloc_8bit_no_str:
 	relocexpr_no_str {
-		rpn_CheckNBit($1, 8);
 		$$ = std::move($1);
+		$$.checkNBit(8);
 	}
 ;
 
 reloc_8bit_offset:
 	OP_ADD relocexpr {
-		rpn_CheckNBit($2, 8);
 		$$ = std::move($2);
+		$$.checkNBit(8);
 	}
 	| OP_SUB relocexpr {
-		rpn_NEG($$, std::move($2));
-		rpn_CheckNBit($$, 8);
+		$$ = std::move($2);
+		$$.makeNeg();
+		$$.checkNBit(8);
 	}
 ;
 
 reloc_16bit:
 	relocexpr {
-		rpn_CheckNBit($1, 16);
 		$$ = std::move($1);
+		$$.checkNBit(16);
 	}
 ;
 
 reloc_16bit_no_str:
 	relocexpr_no_str {
-		rpn_CheckNBit($1, 16);
 		$$ = std::move($1);
+		$$.checkNBit(16);
 	}
 ;
 
@@ -1317,189 +1318,194 @@ relocexpr:
 		std::vector<uint8_t> output;
 
 		charmap_Convert($1, output);
-		rpn_Number($$, str2int2(output));
+		$$.makeNumber(str2int2(output));
 	}
 ;
 
 relocexpr_no_str:
 	scoped_anon_id {
-		rpn_Symbol($$, $1);
+		$$.makeSymbol($1);
 	}
 	| NUMBER {
-		rpn_Number($$, $1);
+		$$.makeNumber($1);
 	}
 	| OP_LOGICNOT relocexpr %prec NEG {
-		rpn_LOGNOT($$, std::move($2));
+		$$ = std::move($2);
+		$$.makeLogicNot();
 	}
 	| relocexpr OP_LOGICOR relocexpr {
-		rpn_BinaryOp(RPN_LOGOR, $$, std::move($1), $3);
+		$$.makeBinaryOp(RPN_LOGOR, std::move($1), $3);
 	}
 	| relocexpr OP_LOGICAND relocexpr {
-		rpn_BinaryOp(RPN_LOGAND, $$, std::move($1), $3);
+		$$.makeBinaryOp(RPN_LOGAND, std::move($1), $3);
 	}
 	| relocexpr OP_LOGICEQU relocexpr {
-		rpn_BinaryOp(RPN_LOGEQ, $$, std::move($1), $3);
+		$$.makeBinaryOp(RPN_LOGEQ, std::move($1), $3);
 	}
 	| relocexpr OP_LOGICGT relocexpr {
-		rpn_BinaryOp(RPN_LOGGT, $$, std::move($1), $3);
+		$$.makeBinaryOp(RPN_LOGGT, std::move($1), $3);
 	}
 	| relocexpr OP_LOGICLT relocexpr {
-		rpn_BinaryOp(RPN_LOGLT, $$, std::move($1), $3);
+		$$.makeBinaryOp(RPN_LOGLT, std::move($1), $3);
 	}
 	| relocexpr OP_LOGICGE relocexpr {
-		rpn_BinaryOp(RPN_LOGGE, $$, std::move($1), $3);
+		$$.makeBinaryOp(RPN_LOGGE, std::move($1), $3);
 	}
 	| relocexpr OP_LOGICLE relocexpr {
-		rpn_BinaryOp(RPN_LOGLE, $$, std::move($1), $3);
+		$$.makeBinaryOp(RPN_LOGLE, std::move($1), $3);
 	}
 	| relocexpr OP_LOGICNE relocexpr {
-		rpn_BinaryOp(RPN_LOGNE, $$, std::move($1), $3);
+		$$.makeBinaryOp(RPN_LOGNE, std::move($1), $3);
 	}
 	| relocexpr OP_ADD relocexpr {
-		rpn_BinaryOp(RPN_ADD, $$, std::move($1), $3);
+		$$.makeBinaryOp(RPN_ADD, std::move($1), $3);
 	}
 	| relocexpr OP_SUB relocexpr {
-		rpn_BinaryOp(RPN_SUB, $$, std::move($1), $3);
+		$$.makeBinaryOp(RPN_SUB, std::move($1), $3);
 	}
 	| relocexpr OP_XOR relocexpr {
-		rpn_BinaryOp(RPN_XOR, $$, std::move($1), $3);
+		$$.makeBinaryOp(RPN_XOR, std::move($1), $3);
 	}
 	| relocexpr OP_OR relocexpr {
-		rpn_BinaryOp(RPN_OR, $$, std::move($1), $3);
+		$$.makeBinaryOp(RPN_OR, std::move($1), $3);
 	}
 	| relocexpr OP_AND relocexpr {
-		rpn_BinaryOp(RPN_AND, $$, std::move($1), $3);
+		$$.makeBinaryOp(RPN_AND, std::move($1), $3);
 	}
 	| relocexpr OP_SHL relocexpr {
-		rpn_BinaryOp(RPN_SHL, $$, std::move($1), $3);
+		$$.makeBinaryOp(RPN_SHL, std::move($1), $3);
 	}
 	| relocexpr OP_SHR relocexpr {
-		rpn_BinaryOp(RPN_SHR, $$, std::move($1), $3);
+		$$.makeBinaryOp(RPN_SHR, std::move($1), $3);
 	}
 	| relocexpr OP_USHR relocexpr {
-		rpn_BinaryOp(RPN_USHR, $$, std::move($1), $3);
+		$$.makeBinaryOp(RPN_USHR, std::move($1), $3);
 	}
 	| relocexpr OP_MUL relocexpr {
-		rpn_BinaryOp(RPN_MUL, $$, std::move($1), $3);
+		$$.makeBinaryOp(RPN_MUL, std::move($1), $3);
 	}
 	| relocexpr OP_DIV relocexpr {
-		rpn_BinaryOp(RPN_DIV, $$, std::move($1), $3);
+		$$.makeBinaryOp(RPN_DIV, std::move($1), $3);
 	}
 	| relocexpr OP_MOD relocexpr {
-		rpn_BinaryOp(RPN_MOD, $$, std::move($1), $3);
+		$$.makeBinaryOp(RPN_MOD, std::move($1), $3);
 	}
 	| relocexpr OP_EXP relocexpr {
-		rpn_BinaryOp(RPN_EXP, $$, std::move($1), $3);
+		$$.makeBinaryOp(RPN_EXP, std::move($1), $3);
 	}
 	| OP_ADD relocexpr %prec NEG {
 		$$ = std::move($2);
 	}
 	| OP_SUB relocexpr %prec NEG {
-		rpn_NEG($$, std::move($2));
+		$$ = std::move($2);
+		$$.makeNeg();
 	}
 	| OP_NOT relocexpr %prec NEG {
-		rpn_NOT($$, std::move($2));
+		$$ = std::move($2);
+		$$.makeNot();
 	}
 	| OP_HIGH LPAREN relocexpr RPAREN {
-		rpn_HIGH($$, std::move($3));
+		$$ = std::move($3);
+		$$.makeHigh();
 	}
 	| OP_LOW LPAREN relocexpr RPAREN {
-		rpn_LOW($$, std::move($3));
+		$$ = std::move($3);
+		$$.makeLow();
 	}
 	| OP_ISCONST LPAREN relocexpr RPAREN {
-		rpn_ISCONST($$, $3);
+		$$.makeNumber($3.isKnown);
 	}
 	| OP_BANK LPAREN scoped_anon_id RPAREN {
 		// '@' is also an ID; it is handled here
-		rpn_BankSymbol($$, $3);
+		$$.makeBankSymbol($3);
 	}
 	| OP_BANK LPAREN string RPAREN {
-		rpn_BankSection($$, $3);
+		$$.makeBankSection($3);
 	}
 	| OP_SIZEOF LPAREN string RPAREN {
-		rpn_SizeOfSection($$, $3);
+		$$.makeSizeOfSection($3);
 	}
 	| OP_STARTOF LPAREN string RPAREN {
-		rpn_StartOfSection($$, $3);
+		$$.makeStartOfSection($3);
 	}
 	| OP_SIZEOF LPAREN sect_type RPAREN {
-		rpn_SizeOfSectionType($$, (SectionType)$3);
+		$$.makeSizeOfSectionType((SectionType)$3);
 	}
 	| OP_STARTOF LPAREN sect_type RPAREN {
-		rpn_StartOfSectionType($$, (SectionType)$3);
+		$$.makeStartOfSectionType((SectionType)$3);
 	}
 	| OP_DEF {
 		lexer_ToggleStringExpansion(false);
 	} LPAREN scoped_anon_id RPAREN {
-		rpn_Number($$, sym_FindScopedValidSymbol($4) != nullptr);
+		$$.makeNumber(sym_FindScopedValidSymbol($4) != nullptr);
 		lexer_ToggleStringExpansion(true);
 	}
 	| OP_ROUND LPAREN const opt_q_arg RPAREN {
-		rpn_Number($$, fix_Round($3, $4));
+		$$.makeNumber(fix_Round($3, $4));
 	}
 	| OP_CEIL LPAREN const opt_q_arg RPAREN {
-		rpn_Number($$, fix_Ceil($3, $4));
+		$$.makeNumber(fix_Ceil($3, $4));
 	}
 	| OP_FLOOR LPAREN const opt_q_arg RPAREN {
-		rpn_Number($$, fix_Floor($3, $4));
+		$$.makeNumber(fix_Floor($3, $4));
 	}
 	| OP_FDIV LPAREN const COMMA const opt_q_arg RPAREN {
-		rpn_Number($$, fix_Div($3, $5, $6));
+		$$.makeNumber(fix_Div($3, $5, $6));
 	}
 	| OP_FMUL LPAREN const COMMA const opt_q_arg RPAREN {
-		rpn_Number($$, fix_Mul($3, $5, $6));
+		$$.makeNumber(fix_Mul($3, $5, $6));
 	}
 	| OP_FMOD LPAREN const COMMA const opt_q_arg RPAREN {
-		rpn_Number($$, fix_Mod($3, $5, $6));
+		$$.makeNumber(fix_Mod($3, $5, $6));
 	}
 	| OP_POW LPAREN const COMMA const opt_q_arg RPAREN {
-		rpn_Number($$, fix_Pow($3, $5, $6));
+		$$.makeNumber(fix_Pow($3, $5, $6));
 	}
 	| OP_LOG LPAREN const COMMA const opt_q_arg RPAREN {
-		rpn_Number($$, fix_Log($3, $5, $6));
+		$$.makeNumber(fix_Log($3, $5, $6));
 	}
 	| OP_SIN LPAREN const opt_q_arg RPAREN {
-		rpn_Number($$, fix_Sin($3, $4));
+		$$.makeNumber(fix_Sin($3, $4));
 	}
 	| OP_COS LPAREN const opt_q_arg RPAREN {
-		rpn_Number($$, fix_Cos($3, $4));
+		$$.makeNumber(fix_Cos($3, $4));
 	}
 	| OP_TAN LPAREN const opt_q_arg RPAREN {
-		rpn_Number($$, fix_Tan($3, $4));
+		$$.makeNumber(fix_Tan($3, $4));
 	}
 	| OP_ASIN LPAREN const opt_q_arg RPAREN {
-		rpn_Number($$, fix_ASin($3, $4));
+		$$.makeNumber(fix_ASin($3, $4));
 	}
 	| OP_ACOS LPAREN const opt_q_arg RPAREN {
-		rpn_Number($$, fix_ACos($3, $4));
+		$$.makeNumber(fix_ACos($3, $4));
 	}
 	| OP_ATAN LPAREN const opt_q_arg RPAREN {
-		rpn_Number($$, fix_ATan($3, $4));
+		$$.makeNumber(fix_ATan($3, $4));
 	}
 	| OP_ATAN2 LPAREN const COMMA const opt_q_arg RPAREN {
-		rpn_Number($$, fix_ATan2($3, $5, $6));
+		$$.makeNumber(fix_ATan2($3, $5, $6));
 	}
 	| OP_STRCMP LPAREN string COMMA string RPAREN {
-		rpn_Number($$, $3.compare($5));
+		$$.makeNumber($3.compare($5));
 	}
 	| OP_STRIN LPAREN string COMMA string RPAREN {
 		auto pos = $3.find($5);
 
-		rpn_Number($$, pos != std::string::npos ? pos + 1 : 0);
+		$$.makeNumber(pos != std::string::npos ? pos + 1 : 0);
 	}
 	| OP_STRRIN LPAREN string COMMA string RPAREN {
 		auto pos = $3.rfind($5);
 
-		rpn_Number($$, pos != std::string::npos ? pos + 1 : 0);
+		$$.makeNumber(pos != std::string::npos ? pos + 1 : 0);
 	}
 	| OP_STRLEN LPAREN string RPAREN {
-		rpn_Number($$, strlenUTF8($3));
+		$$.makeNumber(strlenUTF8($3));
 	}
 	| OP_CHARLEN LPAREN string RPAREN {
-		rpn_Number($$, charlenUTF8($3));
+		$$.makeNumber(charlenUTF8($3));
 	}
 	| OP_INCHARMAP LPAREN string RPAREN {
-		rpn_Number($$, charmap_HasChar($3));
+		$$.makeNumber(charmap_HasChar($3));
 	}
 	| LPAREN relocexpr RPAREN {
 		$$ = std::move($2);
@@ -1941,13 +1947,13 @@ z80_ldd:
 
 z80_ldio:
 	Z80_LDH MODE_A COMMA op_mem_ind {
-		rpn_CheckHRAM($4);
+		$4.makeCheckHRAM();
 
 		sect_AbsByte(0xF0);
 		sect_RelByte($4, 1);
 	}
 	| Z80_LDH op_mem_ind COMMA MODE_A {
-		rpn_CheckHRAM($2);
+		$2.makeCheckHRAM();
 
 		sect_AbsByte(0xE0);
 		sect_RelByte($2, 1);
@@ -2200,7 +2206,7 @@ z80_rrca:
 
 z80_rst:
 	Z80_RST reloc_8bit {
-		rpn_CheckRST($2);
+		$2.makeCheckRST();
 		if (!$2.isKnown)
 			sect_RelByte($2, 0);
 		else
@@ -2720,9 +2726,9 @@ static void compoundAssignment(std::string const &symName, RPNCommand op, int32_
 	Expression oldExpr, constExpr, newExpr;
 	int32_t newValue;
 
-	rpn_Symbol(oldExpr, symName);
-	rpn_Number(constExpr, constValue);
-	rpn_BinaryOp(op, newExpr, std::move(oldExpr), constExpr);
+	oldExpr.makeSymbol(symName);
+	constExpr.makeNumber(constValue);
+	newExpr.makeBinaryOp(op, std::move(oldExpr), constExpr);
 	newValue = newExpr.getConstVal();
 	sym_AddVar(symName, newValue);
 }

src/asm/rpn.cpp

@@ -20,231 +20,24 @@
 #include "asm/symbol.hpp"
 #include "asm/warning.hpp"
 
-// Init a RPN expression
-static void initExpression(Expression &expr) {
-	expr.val = 0;
-	expr.reason.clear();
-	expr.isKnown = true;
-	expr.isSymbol = false;
-	expr.rpn.clear();
-	expr.rpnPatchSize = 0;
+void Expression::clear() {
+	val = 0;
+	reason.clear();
+	isKnown = true;
+	isSymbol = false;
+	rpn.clear();
+	rpnPatchSize = 0;
 }
 
-// Makes an expression "not known", also setting its error message
-template<typename... Ts>
-static void makeUnknown(Expression &expr, Ts... parts) {
-	expr.isKnown = false;
-	expr.reason.clear();
-	(expr.reason.append(parts), ...);
+uint8_t *Expression::reserveSpace(uint32_t size) {
+	return reserveSpace(size, size);
 }
 
-static uint8_t *reserveSpace(Expression &expr, uint32_t size) {
-	size_t curSize = expr.rpn.size();
-
-	expr.rpn.resize(curSize + size);
-	return &expr.rpn[curSize];
-}
-
-// Add symbols, constants and operators to expression
-void rpn_Number(Expression &expr, uint32_t val) {
-	initExpression(expr);
-	expr.val = val;
-}
-
-void rpn_Symbol(Expression &expr, std::string const &symName) {
-	initExpression(expr);
-
-	Symbol *sym = sym_FindScopedSymbol(symName);
-
-	if (sym_IsPC(sym) && !sect_GetSymbolSection()) {
-		error("PC has no value outside a section\n");
-		expr.val = 0;
-	} else if (!sym || !sym->isConstant()) {
-		expr.isSymbol = true;
-
-		if (sym_IsPC(sym))
-			makeUnknown(expr, "PC is not constant at assembly time");
-		else
-			makeUnknown(expr, "'", symName, "' is not constant at assembly time");
-		sym = sym_Ref(symName);
-		expr.rpnPatchSize += 5; // 1-byte opcode + 4-byte symbol ID
-
-		size_t nameLen = sym->name.length() + 1; // Don't forget NUL!
-		uint8_t *ptr = reserveSpace(expr, nameLen + 1);
-		*ptr++ = RPN_SYM;
-		memcpy(ptr, sym->name.c_str(), nameLen);
-	} else {
-		expr.val = sym_GetConstantValue(symName);
-	}
-}
-
-static void bankSelf(Expression &expr) {
-	initExpression(expr);
-
-	if (!currentSection) {
-		error("PC has no bank outside a section\n");
-		expr.val = 1;
-	} else if (currentSection->bank == (uint32_t)-1) {
-		makeUnknown(expr, "Current section's bank is not known");
-		expr.rpnPatchSize++;
-		*reserveSpace(expr, 1) = RPN_BANK_SELF;
-	} else {
-		expr.val = currentSection->bank;
-	}
-}
-
-void rpn_BankSymbol(Expression &expr, std::string const &symName) {
-	Symbol const *sym = sym_FindScopedSymbol(symName);
-
-	// The @ symbol is treated differently.
-	if (sym_IsPC(sym)) {
-		bankSelf(expr);
-		return;
-	}
-
-	initExpression(expr);
-	if (sym && !sym->isLabel()) {
-		error("BANK argument must be a label\n");
-		expr.val = 1;
-	} else {
-		sym = sym_Ref(symName);
-		assert(sym); // If the symbol didn't exist, it should have been created
-
-		if (sym->getSection() && sym->getSection()->bank != (uint32_t)-1) {
-			// Symbol's section is known and bank is fixed
-			expr.val = sym->getSection()->bank;
-		} else {
-			makeUnknown(expr, "\"", symName, "\"'s bank is not known");
-			expr.rpnPatchSize += 5; // opcode + 4-byte sect ID
-
-			size_t nameLen = sym->name.length() + 1; // Room for NUL!
-			uint8_t *ptr = reserveSpace(expr, nameLen + 1);
-
-			*ptr++ = RPN_BANK_SYM;
-			memcpy(ptr, sym->name.c_str(), nameLen);
-		}
-	}
-}
-
-void rpn_BankSection(Expression &expr, std::string const &sectionName) {
-	initExpression(expr);
-
-	Section *section = sect_FindSectionByName(sectionName);
-
-	if (section && section->bank != (uint32_t)-1) {
-		expr.val = section->bank;
-	} else {
-		makeUnknown(expr, "Section \"", sectionName, "\"'s bank is not known");
-
-		size_t nameLen = sectionName.length() + 1; // Room for NUL!
-		uint8_t *ptr = reserveSpace(expr, nameLen + 1);
-
-		expr.rpnPatchSize += nameLen + 1;
-		*ptr++ = RPN_BANK_SECT;
-		memcpy(ptr, sectionName.data(), nameLen);
-	}
-}
-
-void rpn_SizeOfSection(Expression &expr, std::string const &sectionName) {
-	initExpression(expr);
-
-	Section *section = sect_FindSectionByName(sectionName);
-
-	if (section && section->isSizeKnown()) {
-		expr.val = section->size;
-	} else {
-		makeUnknown(expr, "Section \"", sectionName, "\"'s size is not known");
-
-		size_t nameLen = sectionName.length() + 1; // Room for NUL!
-		uint8_t *ptr = reserveSpace(expr, nameLen + 1);
-
-		expr.rpnPatchSize += nameLen + 1;
-		*ptr++ = RPN_SIZEOF_SECT;
-		memcpy(ptr, sectionName.data(), nameLen);
-	}
-}
-
-void rpn_StartOfSection(Expression &expr, std::string const &sectionName) {
-	initExpression(expr);
-
-	Section *section = sect_FindSectionByName(sectionName);
-
-	if (section && section->org != (uint32_t)-1) {
-		expr.val = section->org;
-	} else {
-		makeUnknown(expr, "Section \"", sectionName, "\"'s start is not known");
-
-		size_t nameLen = sectionName.length() + 1; // Room for NUL!
-		uint8_t *ptr = reserveSpace(expr, nameLen + 1);
-
-		expr.rpnPatchSize += nameLen + 1;
-		*ptr++ = RPN_STARTOF_SECT;
-		memcpy(ptr, sectionName.data(), nameLen);
-	}
-}
-
-void rpn_SizeOfSectionType(Expression &expr, SectionType type) {
-	initExpression(expr);
-	makeUnknown(expr, "Section type's size is not known");
-
-	uint8_t *ptr = reserveSpace(expr, 2);
-
-	expr.rpnPatchSize += 2;
-	*ptr++ = RPN_SIZEOF_SECTTYPE;
-	*ptr++ = type;
-}
-
-void rpn_StartOfSectionType(Expression &expr, SectionType type) {
-	initExpression(expr);
-	makeUnknown(expr, "Section type's start is not known");
-
-	uint8_t *ptr = reserveSpace(expr, 2);
-
-	expr.rpnPatchSize += 2;
-	*ptr++ = RPN_STARTOF_SECTTYPE;
-	*ptr++ = type;
-}
-
-void rpn_CheckHRAM(Expression &expr) {
-	expr.isSymbol = false;
-
-	if (!expr.isKnown) {
-		expr.rpnPatchSize++;
-		*reserveSpace(expr, 1) = RPN_HRAM;
-	} else if (expr.val >= 0xFF00 && expr.val <= 0xFFFF) {
-		// That range is valid, but only keep the lower byte
-		expr.val &= 0xFF;
-	} else if (expr.val < 0 || expr.val > 0xFF) {
-		error("Source address $%" PRIx32 " not between $FF00 to $FFFF\n", expr.val);
-	}
-}
-
-void rpn_CheckRST(Expression &expr) {
-	if (expr.isKnown) {
-		// A valid RST address must be masked with 0x38
-		if (expr.val & ~0x38)
-			error("Invalid address $%" PRIx32 " for RST\n", expr.val);
-		// The target is in the "0x38" bits, all other bits are set
-		expr.val |= 0xC7;
-	} else {
-		expr.rpnPatchSize++;
-		*reserveSpace(expr, 1) = RPN_RST;
-	}
-}
-
-// Checks that an RPN expression's value fits within N bits (signed or unsigned)
-void rpn_CheckNBit(Expression const &expr, uint8_t n) {
-	assert(n != 0);                     // That doesn't make sense
-	assert(n < CHAR_BIT * sizeof(int)); // Otherwise `1 << n` is UB
-
-	if (expr.isKnown) {
-		int32_t val = expr.val;
-
-		if (val < -(1 << n) || val >= 1 << n)
-			warning(WARNING_TRUNCATION_1, "Expression must be %u-bit\n", n);
-		else if (val < -(1 << (n - 1)))
-			warning(WARNING_TRUNCATION_2, "Expression must be %u-bit\n", n);
-	}
+uint8_t *Expression::reserveSpace(uint32_t size, uint32_t patchSize) {
+	rpnPatchSize += patchSize;
+	size_t curSize = rpn.size();
+	rpn.resize(curSize + size);
+	return &rpn[curSize];
 }
 
 int32_t Expression::getConstVal() const {
@@ -255,18 +48,6 @@ int32_t Expression::getConstVal() const {
 	return val;
 }
 
-void rpn_LOGNOT(Expression &expr, Expression &&src) {
-	expr = std::move(src);
-	expr.isSymbol = false;
-
-	if (expr.isKnown) {
-		expr.val = !expr.val;
-	} else {
-		expr.rpnPatchSize++;
-		*reserveSpace(expr, 1) = RPN_LOGNOT;
-	}
-}
-
 Symbol const *Expression::symbolOf() const {
 	if (!isSymbol)
 		return nullptr;
@@ -280,9 +61,140 @@ bool Expression::isDiffConstant(Symbol const *sym) const {
 	if (!sym1 || !sym || sym1->type != SYM_LABEL || sym->type != SYM_LABEL)
 		return false;
 
-	Section const *section1 = sym1->getSection();
-	Section const *section2 = sym->getSection();
-	return section1 && (section1 == section2);
+	Section const *sect1 = sym1->getSection();
+	Section const *sect2 = sym->getSection();
+	return sect1 && (sect1 == sect2);
+}
+
+void Expression::makeNumber(uint32_t value) {
+	clear();
+	val = value;
+}
+
+void Expression::makeSymbol(std::string const &symName) {
+	clear();
+	if (Symbol *sym = sym_FindScopedSymbol(symName); sym_IsPC(sym) && !sect_GetSymbolSection()) {
+		error("PC has no value outside a section\n");
+		val = 0;
+	} else if (!sym || !sym->isConstant()) {
+		isSymbol = true;
+
+		if (sym_IsPC(sym))
+			makeUnknown("PC is not constant at assembly time");
+		else
+			makeUnknown("'", symName, "' is not constant at assembly time");
+		sym = sym_Ref(symName);
+
+		size_t nameLen = sym->name.length() + 1; // Don't forget NUL!
+
+		// 1-byte opcode + 4-byte symbol ID
+		uint8_t *ptr = reserveSpace(nameLen + 1, 5);
+		*ptr++ = RPN_SYM;
+		memcpy(ptr, sym->name.c_str(), nameLen);
+	} else {
+		val = sym_GetConstantValue(symName);
+	}
+}
+
+void Expression::makeBankSymbol(std::string const &symName) {
+	clear();
+	if (Symbol const *sym = sym_FindScopedSymbol(symName); sym_IsPC(sym)) {
+		// The @ symbol is treated differently.
+		if (!currentSection) {
+			error("PC has no bank outside a section\n");
+			val = 1;
+		} else if (currentSection->bank == (uint32_t)-1) {
+			makeUnknown("Current section's bank is not known");
+
+			*reserveSpace(1) = RPN_BANK_SELF;
+		} else {
+			val = currentSection->bank;
+		}
+		return;
+	} else if (sym && !sym->isLabel()) {
+		error("BANK argument must be a label\n");
+		val = 1;
+	} else {
+		sym = sym_Ref(symName);
+		assert(sym); // If the symbol didn't exist, it should have been created
+
+		if (sym->getSection() && sym->getSection()->bank != (uint32_t)-1) {
+			// Symbol's section is known and bank is fixed
+			val = sym->getSection()->bank;
+		} else {
+			makeUnknown("\"", symName, "\"'s bank is not known");
+
+			size_t nameLen = sym->name.length() + 1; // Room for NUL!
+
+			// 1-byte opcode + 4-byte sect ID
+			uint8_t *ptr = reserveSpace(nameLen + 1, 5);
+			*ptr++ = RPN_BANK_SYM;
+			memcpy(ptr, sym->name.c_str(), nameLen);
+		}
+	}
+}
+
+void Expression::makeBankSection(std::string const &sectName) {
+	clear();
+	if (Section *sect = sect_FindSectionByName(sectName); sect && sect->bank != (uint32_t)-1) {
+		val = sect->bank;
+	} else {
+		makeUnknown("Section \"", sectName, "\"'s bank is not known");
+
+		size_t nameLen = sectName.length() + 1; // Room for NUL!
+
+		uint8_t *ptr = reserveSpace(nameLen + 1);
+		*ptr++ = RPN_BANK_SECT;
+		memcpy(ptr, sectName.data(), nameLen);
+	}
+}
+
+void Expression::makeSizeOfSection(std::string const &sectName) {
+	clear();
+	if (Section *sect = sect_FindSectionByName(sectName); sect && sect->isSizeKnown()) {
+		val = sect->size;
+	} else {
+		makeUnknown("Section \"", sectName, "\"'s size is not known");
+
+		size_t nameLen = sectName.length() + 1; // Room for NUL!
+
+		uint8_t *ptr = reserveSpace(nameLen + 1);
+		*ptr++ = RPN_SIZEOF_SECT;
+		memcpy(ptr, sectName.data(), nameLen);
+	}
+}
+
+void Expression::makeStartOfSection(std::string const &sectName) {
+	clear();
+	if (Section *sect = sect_FindSectionByName(sectName); sect && sect->org != (uint32_t)-1) {
+		val = sect->org;
+	} else {
+		makeUnknown("Section \"", sectName, "\"'s start is not known");
+
+		size_t nameLen = sectName.length() + 1; // Room for NUL!
+
+		uint8_t *ptr = reserveSpace(nameLen + 1);
+		*ptr++ = RPN_STARTOF_SECT;
+		memcpy(ptr, sectName.data(), nameLen);
+	}
+}
+
+void Expression::makeSizeOfSectionType(SectionType type) {
+	clear();
+	makeUnknown("Section type's size is not known");
+
+	uint8_t *ptr = reserveSpace(2);
+	*ptr++ = RPN_SIZEOF_SECTTYPE;
+	*ptr = type;
+}
+
+void Expression::makeStartOfSectionType(SectionType type) {
+	clear();
+	makeUnknown("Section type's start is not known");
+
+	uint8_t *ptr = reserveSpace(2);
+	*ptr++ = RPN_STARTOF_SECTTYPE;
+	*ptr = type;
 }
 
 /*
@@ -325,56 +237,102 @@ static int32_t tryConstMask(Expression const &lhs, Expression const &rhs) {
 	return (symbolOfs + sect.alignOfs) & ~unknownBits;
 }
 
-void rpn_BinaryOp(RPNCommand op, Expression &expr, Expression &&src1, Expression const &src2) {
-	initExpression(expr);
-	expr.isSymbol = false;
-	int32_t constMaskVal;
+void Expression::makeHigh() {
+	isSymbol = false;
+	if (isKnown) {
+		val = (uint32_t)val >> 8 & 0xFF;
+	} else {
+		uint8_t bytes[] = {RPN_CONST, 8, 0, 0, 0, RPN_SHR, RPN_CONST, 0xFF, 0, 0, 0, RPN_AND};
 
+		memcpy(reserveSpace(sizeof(bytes)), bytes, sizeof(bytes));
+	}
+}
+
+void Expression::makeLow() {
+	isSymbol = false;
+	if (isKnown) {
+		val = val & 0xFF;
+	} else {
+		uint8_t bytes[] = {RPN_CONST, 0xFF, 0, 0, 0, RPN_AND};
+
+		memcpy(reserveSpace(sizeof(bytes)), bytes, sizeof(bytes));
+	}
+}
+
+void Expression::makeNeg() {
+	isSymbol = false;
+	if (isKnown) {
+		val = -(uint32_t)val;
+	} else {
+		*reserveSpace(1) = RPN_NEG;
+	}
+}
+
+void Expression::makeNot() {
+	isSymbol = false;
+	if (isKnown) {
+		val = ~val;
+	} else {
+		*reserveSpace(1) = RPN_NOT;
+	}
+}
+
+void Expression::makeLogicNot() {
+	isSymbol = false;
+	if (isKnown) {
+		val = !val;
+	} else {
+		*reserveSpace(1) = RPN_LOGNOT;
+	}
+}
+
+void Expression::makeBinaryOp(RPNCommand op, Expression &&src1, Expression const &src2) {
+	clear();
 	// First, check if the expression is known
-	expr.isKnown = src1.isKnown && src2.isKnown;
-	if (expr.isKnown) {
+	isKnown = src1.isKnown && src2.isKnown;
+	if (isKnown) {
 		// If both expressions are known, just compute the value
 		uint32_t uleft = src1.val, uright = src2.val;
 
 		switch (op) {
 		case RPN_LOGOR:
-			expr.val = src1.val || src2.val;
+			val = src1.val || src2.val;
 			break;
 		case RPN_LOGAND:
-			expr.val = src1.val && src2.val;
+			val = src1.val && src2.val;
 			break;
 		case RPN_LOGEQ:
-			expr.val = src1.val == src2.val;
+			val = src1.val == src2.val;
 			break;
 		case RPN_LOGGT:
-			expr.val = src1.val > src2.val;
+			val = src1.val > src2.val;
 			break;
 		case RPN_LOGLT:
-			expr.val = src1.val < src2.val;
+			val = src1.val < src2.val;
 			break;
 		case RPN_LOGGE:
-			expr.val = src1.val >= src2.val;
+			val = src1.val >= src2.val;
 			break;
 		case RPN_LOGLE:
-			expr.val = src1.val <= src2.val;
+			val = src1.val <= src2.val;
 			break;
 		case RPN_LOGNE:
-			expr.val = src1.val != src2.val;
+			val = src1.val != src2.val;
 			break;
 		case RPN_ADD:
-			expr.val = uleft + uright;
+			val = uleft + uright;
 			break;
 		case RPN_SUB:
-			expr.val = uleft - uright;
+			val = uleft - uright;
 			break;
 		case RPN_XOR:
-			expr.val = src1.val ^ src2.val;
+			val = src1.val ^ src2.val;
 			break;
 		case RPN_OR:
-			expr.val = src1.val | src2.val;
+			val = src1.val | src2.val;
 			break;
 		case RPN_AND:
-			expr.val = src1.val & src2.val;
+			val = src1.val & src2.val;
 			break;
 		case RPN_SHL:
 			if (src2.val < 0)
@@ -387,7 +345,7 @@ void rpn_BinaryOp(RPNCommand op, Expression &expr, Expression &&src1, Expression
 				    WARNING_SHIFT_AMOUNT, "Shifting left by large amount %" PRId32 "\n", src2.val
 				);
 
-			expr.val = op_shift_left(src1.val, src2.val);
+			val = op_shift_left(src1.val, src2.val);
 			break;
 		case RPN_SHR:
 			if (src1.val < 0)
@@ -405,7 +363,7 @@ void rpn_BinaryOp(RPNCommand op, Expression &expr, Expression &&src1, Expression
 				    WARNING_SHIFT_AMOUNT, "Shifting right by large amount %" PRId32 "\n", src2.val
 				);
 
-			expr.val = op_shift_right(src1.val, src2.val);
+			val = op_shift_right(src1.val, src2.val);
 			break;
 		case RPN_USHR:
 			if (src2.val < 0)
@@ -420,10 +378,10 @@ void rpn_BinaryOp(RPNCommand op, Expression &expr, Expression &&src1, Expression
 				    WARNING_SHIFT_AMOUNT, "Shifting right by large amount %" PRId32 "\n", src2.val
 				);
 
-			expr.val = op_shift_right_unsigned(src1.val, src2.val);
+			val = op_shift_right_unsigned(src1.val, src2.val);
 			break;
 		case RPN_MUL:
-			expr.val = uleft * uright;
+			val = uleft * uright;
 			break;
 		case RPN_DIV:
 			if (src2.val == 0)
@@ -436,9 +394,9 @@ void rpn_BinaryOp(RPNCommand op, Expression &expr, Expression &&src1, Expression
 				    INT32_MIN,
 				    INT32_MIN
 				);
-				expr.val = INT32_MIN;
+				val = INT32_MIN;
 			} else {
-				expr.val = op_divide(src1.val, src2.val);
+				val = op_divide(src1.val, src2.val);
 			}
 			break;
 		case RPN_MOD:
@@ -446,15 +404,15 @@ void rpn_BinaryOp(RPNCommand op, Expression &expr, Expression &&src1, Expression
 				fatalerror("Modulo by zero\n");
 
 			if (src1.val == INT32_MIN && src2.val == -1)
-				expr.val = 0;
+				val = 0;
 			else
-				expr.val = op_modulo(src1.val, src2.val);
+				val = op_modulo(src1.val, src2.val);
 			break;
 		case RPN_EXP:
 			if (src2.val < 0)
 				fatalerror("Exponentiation by negative power\n");
 
-			expr.val = op_exponent(src1.val, src2.val);
+			val = op_exponent(src1.val, src2.val);
 			break;
 
 		case RPN_NEG:
@@ -473,16 +431,15 @@ void rpn_BinaryOp(RPNCommand op, Expression &expr, Expression &&src1, Expression
 		case RPN_SYM:
 			fatalerror("%d is not a binary operator\n", op);
 		}
-
 	} else if (op == RPN_SUB && src1.isDiffConstant(src2.symbolOf())) {
 		Symbol const &symbol1 = *src1.symbolOf();
 		Symbol const &symbol2 = *src2.symbolOf();
 
-		expr.val = symbol1.getValue() - symbol2.getValue();
-		expr.isKnown = true;
-	} else if (op == RPN_AND && (constMaskVal = tryConstMask(src1, src2)) != -1) {
-		expr.val = constMaskVal;
-		expr.isKnown = true;
+		val = symbol1.getValue() - symbol2.getValue();
+		isKnown = true;
+	} else if (int32_t constVal; op == RPN_AND && (constVal = tryConstMask(src1, src2)) != -1) {
+		val = constVal;
+		isKnown = true;
 	} else {
 		// If it's not known, start computing the RPN expression
 
@@ -496,23 +453,23 @@ void rpn_BinaryOp(RPNCommand op, Expression &expr, Expression &&src1, Expression
 			    (uint8_t)(lval >> 16),
 			    (uint8_t)(lval >> 24),
 			};
-			expr.rpnPatchSize = sizeof(bytes);
-			expr.rpn.clear();
-			memcpy(reserveSpace(expr, sizeof(bytes)), bytes, sizeof(bytes));
+			rpn.clear();
+			rpnPatchSize = 0;
+			memcpy(reserveSpace(sizeof(bytes)), bytes, sizeof(bytes));
 
 			// Use the other expression's un-const reason
-			expr.reason = src2.reason;
+			reason = src2.reason;
 		} else {
 			// Otherwise just reuse its RPN buffer
-			expr.rpnPatchSize = src1.rpnPatchSize;
-			std::swap(expr.rpn, src1.rpn);
-			expr.reason = src1.reason;
+			rpnPatchSize = src1.rpnPatchSize;
+			std::swap(rpn, src1.rpn);
+			reason = src1.reason;
 		}
 
 		// Now, merge the right expression into the left one
-		uint8_t const *ptr = nullptr;
-		uint32_t len = 0;
-		uint32_t patchSize = 0;
+		uint8_t const *srcBytes = nullptr;
+		uint32_t srcLen = 0;
+		uint32_t srcPatchSize = 0;
 
 		// If the right expression is constant, merge a shim instead
 		uint32_t rval = src2.val;
@@ -524,80 +481,56 @@ void rpn_BinaryOp(RPNCommand op, Expression &expr, Expression &&src1, Expression
 		    (uint8_t)(rval >> 24),
 		};
 		if (src2.isKnown) {
-			ptr = bytes;
-			len = sizeof(bytes);
-			patchSize = sizeof(bytes);
+			srcBytes = bytes;
+			srcLen = sizeof(bytes);
+			srcPatchSize = sizeof(bytes);
 		} else {
-			ptr = src2.rpn.data(); // Pointer to the right RPN
-			len = src2.rpn.size(); // Size of the right RPN
-			patchSize = src2.rpnPatchSize;
+			srcBytes = src2.rpn.data(); // Pointer to the right RPN
+			srcLen = src2.rpn.size();      // Size of the right RPN
+			srcPatchSize = src2.rpnPatchSize;
 		}
 		// Copy the right RPN and append the operator
-		uint8_t *buf = reserveSpace(expr, len + 1);
-
-		if (ptr)
-			// If there was none, `memcpy(buf, nullptr, 0)` would be UB
-			memcpy(buf, ptr, len);
-		buf[len] = op;
-
-		expr.rpnPatchSize += patchSize + 1;
+		uint8_t *ptr = reserveSpace(srcLen + 1, srcPatchSize + 1);
+		if (srcBytes)
+			// If there were no `srcBytes`, then `memcpy(ptr, nullptr, 0)` would be UB
+			memcpy(ptr, srcBytes, srcLen);
+		ptr[srcLen] = op;
 	}
 }
 
-void rpn_HIGH(Expression &expr, Expression &&src) {
-	expr = std::move(src);
-	expr.isSymbol = false;
+void Expression::makeCheckHRAM() {
+	isSymbol = false;
+	if (!isKnown) {
+		*reserveSpace(1) = RPN_HRAM;
+	} else if (val >= 0xFF00 && val <= 0xFFFF) {
+		// That range is valid, but only keep the lower byte
+		val &= 0xFF;
+	} else if (val < 0 || val > 0xFF) {
+		error("Source address $%" PRIx32 " not between $FF00 to $FFFF\n", val);
+	}
+}
 
-	if (expr.isKnown) {
-		expr.val = (uint32_t)expr.val >> 8 & 0xFF;
+void Expression::makeCheckRST() {
+	if (isKnown) {
+		// A valid RST address must be masked with 0x38
+		if (val & ~0x38)
+			error("Invalid address $%" PRIx32 " for RST\n", val);
+		// The target is in the "0x38" bits, all other bits are set
+		val |= 0xC7;
 	} else {
-		uint8_t bytes[] = {RPN_CONST, 8, 0, 0, 0, RPN_SHR, RPN_CONST, 0xFF, 0, 0, 0, RPN_AND};
-		expr.rpnPatchSize += sizeof(bytes);
-		memcpy(reserveSpace(expr, sizeof(bytes)), bytes, sizeof(bytes));
+		*reserveSpace(1) = RPN_RST;
 	}
 }
 
-void rpn_LOW(Expression &expr, Expression &&src) {
-	expr = std::move(src);
-	expr.isSymbol = false;
+// Checks that an RPN expression's value fits within N bits (signed or unsigned)
+void Expression::checkNBit(uint8_t n) const {
+	assert(n != 0);                     // That doesn't make sense
+	assert(n < CHAR_BIT * sizeof(int)); // Otherwise `1 << n` is UB
 
-	if (expr.isKnown) {
-		expr.val = expr.val & 0xFF;
-	} else {
-		uint8_t bytes[] = {RPN_CONST, 0xFF, 0, 0, 0, RPN_AND};
-
-		expr.rpnPatchSize += sizeof(bytes);
-		memcpy(reserveSpace(expr, sizeof(bytes)), bytes, sizeof(bytes));
-	}
-}
-
-void rpn_ISCONST(Expression &expr, Expression const &src) {
-	initExpression(expr);
-	expr.val = src.isKnown;
-	expr.isKnown = true;
-	expr.isSymbol = false;
-}
-
-void rpn_NEG(Expression &expr, Expression &&src) {
-	expr = std::move(src);
-	expr.isSymbol = false;
-
-	if (expr.isKnown) {
-		expr.val = -(uint32_t)expr.val;
-	} else {
-		expr.rpnPatchSize++;
-		*reserveSpace(expr, 1) = RPN_NEG;
-	}
-}
-
-void rpn_NOT(Expression &expr, Expression &&src) {
-	expr = std::move(src);
-	expr.isSymbol = false;
-
-	if (expr.isKnown) {
-		expr.val = ~expr.val;
-	} else {
-		expr.rpnPatchSize++;
-		*reserveSpace(expr, 1) = RPN_NOT;
+	if (isKnown) {
+		if (val < -(1 << n) || val >= 1 << n)
+			warning(WARNING_TRUNCATION_1, "Expression must be %u-bit\n", n);
+		else if (val < -(1 << (n - 1)))
+			warning(WARNING_TRUNCATION_2, "Expression must be %u-bit\n", n);
 	}
 }

src/link/sdas_obj.cpp

@@ -264,7 +264,7 @@ void sdobj_ReadFile(FileStackNode const &where, FILE *file, std::vector<Symbol>
 				if (!strcmp(token, entry.section->name.c_str()))
 					fatal(&where, lineNo, "Area \"%s\" already defined earlier", token);
 			}
-			char const *sectionName = token; // We'll deal with the section's name depending on type
+			char const *sectName = token; // We'll deal with the section's name depending on type
 
 			expectToken("size", 'A');
 
@@ -297,7 +297,7 @@ void sdobj_ReadFile(FileStackNode const &where, FILE *file, std::vector<Symbol>
 				curSection->name.append(where.name());
 				curSection->name.append(" ");
 			}
-			curSection->name.append(sectionName);
+			curSection->name.append(sectName);
 
 			expectToken("addr", 'A');