ref: 9f82fa4cf7df9e18d8b44bc91c525411a51f8e2e
dir: /src/asm/asmy.y/
/* * This file is part of RGBDS. * * Copyright (c) 1997-2019, Carsten Sorensen and RGBDS contributors. * * SPDX-License-Identifier: MIT */ %{ #include <ctype.h> #include <errno.h> #include <stdbool.h> #include <stdint.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <strings.h> #include "asm/asm.h" #include "asm/charmap.h" #include "asm/fstack.h" #include "asm/lexer.h" #include "asm/macro.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" #include "extern/utf8decoder.h" #include "linkdefs.h" uint32_t nListCountEmpty; char *tzNewMacro; uint32_t ulNewMacroSize; int32_t nPCOffset; size_t symvaluetostring(char *dest, size_t maxLength, char *symName, const char *mode) { size_t length; struct sSymbol *sym = sym_FindSymbol(symName); if (sym && sym->type == SYM_EQUS) { char const *src = sym_GetStringValue(sym); size_t i; if (mode) yyerror("Print types are only allowed for numbers"); 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 { uint32_t value = sym_GetConstantValue(symName); int32_t fullLength; /* Special cheat for binary */ if (mode && !mode[0]) { char binary[33]; /* 32 bits + 1 terminator */ char *write_ptr = binary + 32; fullLength = 0; binary[32] = 0; do { *(--write_ptr) = (value & 1) + '0'; value >>= 1; fullLength++; } while(value); strncpy(dest, write_ptr, maxLength + 1); } else { fullLength = snprintf(dest, maxLength + 1, mode ? mode : "$%X", 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; } static uint32_t str2int2(char *s, int32_t length) { int32_t i; uint32_t r = 0; i = length < 4 ? 0 : length - 4; while (i < length) { r <<= 8; r |= (uint8_t)s[i]; i++; } return r; } static uint32_t isWhiteSpace(char s) { return (s == ' ') || (s == '\t') || (s == '\0') || (s == '\n'); } static uint32_t isRept(char *s) { return (strncasecmp(s, "REPT", 4) == 0) && isWhiteSpace(*(s - 1)) && isWhiteSpace(s[4]); } static uint32_t isEndr(char *s) { return (strncasecmp(s, "ENDR", 4) == 0) && isWhiteSpace(*(s - 1)) && isWhiteSpace(s[4]); } static void copyrept(void) { int32_t level = 1, len, instring = 0; char *src = pCurrentBuffer->pBuffer; char *bufferEnd = pCurrentBuffer->pBufferStart + pCurrentBuffer->nBufferSize; while (src < bufferEnd && level) { if (instring == 0) { if (isRept(src)) { level++; src += 4; } else if (isEndr(src)) { level--; src += 4; } else { if (*src == '\"') instring = 1; src++; } } else { if (*src == '\\') { src += 2; } else if (*src == '\"') { src++; instring = 0; } else { src++; } } } if (level != 0) fatalerror("Unterminated REPT block"); len = src - pCurrentBuffer->pBuffer - 4; src = pCurrentBuffer->pBuffer; ulNewMacroSize = len; tzNewMacro = malloc(ulNewMacroSize + 1); if (tzNewMacro == NULL) fatalerror("Not enough memory for REPT block."); uint32_t i; tzNewMacro[ulNewMacroSize] = 0; for (i = 0; i < ulNewMacroSize; i++) { tzNewMacro[i] = src[i]; if (src[i] == '\n') nLineNo++; } yyskipbytes(ulNewMacroSize + 4); } static uint32_t isMacro(char *s) { return (strncasecmp(s, "MACRO", 4) == 0) && isWhiteSpace(*(s - 1)) && isWhiteSpace(s[5]); } static uint32_t isEndm(char *s) { return (strncasecmp(s, "ENDM", 4) == 0) && isWhiteSpace(*(s - 1)) && isWhiteSpace(s[4]); } static void copymacro(void) { int32_t level = 1, len, instring = 0; char *src = pCurrentBuffer->pBuffer; char *bufferEnd = pCurrentBuffer->pBufferStart + pCurrentBuffer->nBufferSize; while (src < bufferEnd && level) { if (instring == 0) { if (isMacro(src)) { level++; src += 4; } else if (isEndm(src)) { level--; src += 4; } else { if(*src == '\"') instring = 1; src++; } } else { if (*src == '\\') { src += 2; } else if (*src == '\"') { src++; instring = 0; } else { src++; } } } if (level != 0) fatalerror("Unterminated MACRO definition."); len = src - pCurrentBuffer->pBuffer - 4; src = pCurrentBuffer->pBuffer; ulNewMacroSize = len; tzNewMacro = (char *)malloc(ulNewMacroSize + 1); if (tzNewMacro == NULL) fatalerror("Not enough memory for MACRO definition."); uint32_t i; tzNewMacro[ulNewMacroSize] = 0; for (i = 0; i < ulNewMacroSize; i++) { tzNewMacro[i] = src[i]; if (src[i] == '\n') nLineNo++; } yyskipbytes(ulNewMacroSize + 4); } static bool endsIf(char c) { return isWhiteSpace(c) || c == '(' || c == '{'; } static uint32_t isIf(char *s) { return (strncasecmp(s, "IF", 2) == 0) && isWhiteSpace(s[-1]) && endsIf(s[2]); } static uint32_t isElif(char *s) { return (strncasecmp(s, "ELIF", 4) == 0) && isWhiteSpace(s[-1]) && endsIf(s[4]); } static uint32_t isElse(char *s) { return (strncasecmp(s, "ELSE", 4) == 0) && isWhiteSpace(s[-1]) && isWhiteSpace(s[4]); } static uint32_t isEndc(char *s) { return (strncasecmp(s, "ENDC", 4) == 0) && isWhiteSpace(s[-1]) && isWhiteSpace(s[4]); } static void if_skip_to_else(void) { int32_t level = 1; bool inString = false; char *src = pCurrentBuffer->pBuffer; while (*src && level) { if (*src == '\n') nLineNo++; if (!inString) { if (isIf(src)) { level++; src += 2; } else if (level == 1 && isElif(src)) { level--; skipElif = false; } else if (level == 1 && isElse(src)) { level--; src += 4; } else if (isEndc(src)) { level--; if (level != 0) src += 4; } else { if (*src == '\"') inString = true; src++; } } else { if (*src == '\"') { inString = false; } else if (*src == '\\') { /* Escaped quotes don't end the string */ if (*++src != '\"') src--; } src++; } } if (level != 0) fatalerror("Unterminated IF construct"); int32_t len = src - pCurrentBuffer->pBuffer; yyskipbytes(len); yyunput('\n'); nLineNo--; } static void if_skip_to_endc(void) { int32_t level = 1; bool inString = false; char *src = pCurrentBuffer->pBuffer; while (*src && level) { if (*src == '\n') nLineNo++; if (!inString) { if (isIf(src)) { level++; src += 2; } else if (isEndc(src)) { level--; if (level != 0) src += 4; } else { if (*src == '\"') inString = true; src++; } } else { if (*src == '\"') { inString = false; } else if (*src == '\\') { /* Escaped quotes don't end the string */ if (*++src != '\"') src--; } src++; } } if (level != 0) fatalerror("Unterminated IF construct"); int32_t len = src - pCurrentBuffer->pBuffer; yyskipbytes(len); yyunput('\n'); nLineNo--; } static void startUnion(void) { if (!pCurrentSection) fatalerror("UNIONs must be inside a SECTION"); uint32_t unionIndex = nUnionDepth; nUnionDepth++; if (nUnionDepth > MAXUNIONS) fatalerror("Too many nested UNIONs"); unionStart[unionIndex] = curOffset; unionSize[unionIndex] = 0; } static void updateUnion(void) { uint32_t unionIndex = nUnionDepth - 1; uint32_t size = curOffset - unionStart[unionIndex]; if (size > unionSize[unionIndex]) unionSize[unionIndex] = size; curOffset = unionStart[unionIndex]; } static size_t strlenUTF8(const char *s) { size_t len = 0; uint32_t state = 0; uint32_t codep = 0; while (*s) { switch (decode(&state, &codep, (uint8_t)*s)) { case 1: fatalerror("STRLEN: Invalid UTF-8 character"); break; case 0: len++; break; } s++; } /* Check for partial code point. */ if (state != 0) fatalerror("STRLEN: Invalid UTF-8 character"); return len; } static void strsubUTF8(char *dest, const char *src, uint32_t pos, uint32_t len) { size_t srcIndex = 0; size_t destIndex = 0; uint32_t state = 0; uint32_t codep = 0; uint32_t curPos = 1; uint32_t curLen = 0; if (pos < 1) { warning(WARNING_BUILTIN_ARG, "STRSUB: Position starts at 1"); pos = 1; } /* Advance to starting position in source string. */ while (src[srcIndex] && curPos < pos) { switch (decode(&state, &codep, (uint8_t)src[srcIndex])) { case 1: fatalerror("STRSUB: Invalid UTF-8 character"); break; case 0: curPos++; break; } srcIndex++; } if (!src[srcIndex]) warning(WARNING_BUILTIN_ARG, "STRSUB: Position %lu is past the end of the string", (unsigned long)pos); /* Copy from source to destination. */ while (src[srcIndex] && destIndex < MAXSTRLEN && curLen < len) { switch (decode(&state, &codep, (uint8_t)src[srcIndex])) { case 1: fatalerror("STRSUB: Invalid UTF-8 character"); break; case 0: curLen++; break; } dest[destIndex++] = src[srcIndex++]; } if (curLen < len) warning(WARNING_BUILTIN_ARG, "STRSUB: Length too big: %lu", (unsigned long)len); /* Check for partial code point. */ if (state != 0) fatalerror("STRSUB: Invalid UTF-8 character"); dest[destIndex] = 0; } %} %union { char tzSym[MAXSYMLEN + 1]; char tzString[MAXSTRLEN + 1]; struct Expression sVal; int32_t nConstValue; struct SectionSpec sectSpec; struct MacroArgs *macroArg; enum AssertionType assertType; } %type <sVal> relocexpr %type <sVal> relocexpr_no_str %type <nConstValue> const %type <nConstValue> uconst %type <nConstValue> const_3bit %type <sVal> reloc_8bit %type <sVal> reloc_8bit_no_str %type <sVal> reloc_16bit %type <nConstValue> sectiontype %type <tzString> string %type <nConstValue> sectorg %type <sectSpec> sectattrs %token <nConstValue> T_NUMBER %token <tzString> T_STRING %left T_OP_LOGICNOT %left T_OP_LOGICOR T_OP_LOGICAND %left T_OP_LOGICGT T_OP_LOGICLT T_OP_LOGICGE T_OP_LOGICLE T_OP_LOGICNE T_OP_LOGICEQU %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 T_OP_ALIGN %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_ROUND %left T_OP_CEIL %left T_OP_FLOOR %token T_OP_HIGH T_OP_LOW %token T_OP_ISCONST %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 %type <tzSym> scoped_label %type <tzSym> scoped_label_bare %token <tzSym> T_ID %token <tzSym> T_LOCAL_ID %type <tzSym> scoped_id %token T_POP_EQU %token T_POP_SET %token T_POP_EQUAL %token T_POP_EQUS %token T_POP_INCLUDE T_POP_PRINTF T_POP_PRINTT T_POP_PRINTV T_POP_PRINTI %token T_POP_IF T_POP_ELIF T_POP_ELSE T_POP_ENDC %token T_POP_EXPORT T_POP_GLOBAL T_POP_XDEF %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_UNION T_POP_NEXTU T_POP_ENDU %token T_POP_INCBIN T_POP_REPT %token T_POP_CHARMAP %token T_POP_NEWCHARMAP %token T_POP_SETCHARMAP %token T_POP_PUSHC %token T_POP_POPC %token T_POP_SHIFT %token T_POP_ENDR %token T_POP_LOAD T_POP_ENDL %token T_POP_FAIL %token T_POP_WARN %token T_POP_FATAL %token T_POP_ASSERT T_POP_STATIC_ASSERT %token T_POP_PURGE %token T_POP_POPS %token T_POP_PUSHS %token T_POP_POPO %token T_POP_PUSHO %token T_POP_OPT %token T_SECT_WRAM0 T_SECT_VRAM T_SECT_ROMX T_SECT_ROM0 T_SECT_HRAM %token T_SECT_WRAMX T_SECT_SRAM T_SECT_OAM %type <nConstValue> sectunion %type <macroArg> macroargs %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 %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_TOKEN_A T_TOKEN_B T_TOKEN_C T_TOKEN_D T_TOKEN_E T_TOKEN_H T_TOKEN_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 %token T_MODE_C_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 %type <assertType> assert_type %start asmfile %% asmfile : lines; /* Note: The lexer adds '\n' at the end of the input */ lines : /* empty */ | lines { nListCountEmpty = 0; nPCOffset = 0; } line '\n' { nLineNo++; nTotalLines++; } ; line : label | label cpu_command | label macro | label simple_pseudoop | pseudoop ; scoped_label_bare : T_LABEL { warning(WARNING_OBSOLETE, "Non-local labels without a colon are deprecated"); strcpy($$, $1); } | T_LOCAL_ID { strcpy($$, $1); } ; scoped_label : T_LABEL ':' { strcpy($$, $1); } | T_LOCAL_ID ':' { strcpy($$, $1); } ; scoped_id : T_ID | T_LOCAL_ID ; label : /* empty */ | scoped_label_bare { if ($1[0] == '.') sym_AddLocalReloc($1); else sym_AddReloc($1); } | scoped_label { if ($1[0] == '.') sym_AddLocalReloc($1); else sym_AddReloc($1); } | scoped_label ':' { if ($1[0] == '.') sym_AddLocalReloc($1); else 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, $3)) fatalerror("Macro '%s' not defined", $1); } ; macroargs : /* empty */ { $$ = macro_NewArgs(); } | T_STRING { $$ = macro_NewArgs(); macro_AppendArg($$, strdup($1)); } | macroargs ',' T_STRING { macro_AppendArg($$, strdup($3)); } ; pseudoop : equ | set | rb | rw | rl | equs | macrodef ; simple_pseudoop : include | printf | printt | printv | printi | if | elif | else | endc | export | db | dw | dl | ds | section | rsreset | rsset | union | nextu | endu | incbin | charmap | newcharmap | setcharmap | pushc | popc | load | rept | shift | fail | warn | assert | 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 ',' opt_list_entry ; 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 { warning(WARNING_USER, "%s", $2); } ; assert_type : /* empty */ { $$ = ASSERT_ERROR; } | T_POP_WARN ',' { $$ = ASSERT_WARN; } | T_POP_FAIL ',' { $$ = ASSERT_ERROR; } | T_POP_FATAL ',' { $$ = ASSERT_FATAL; } ; assert : T_POP_ASSERT assert_type relocexpr { if (!rpn_isKnown(&$3)) { if (!out_CreateAssert($2, &$3, "", sect_GetOutputOffset())) yyerror("Assertion creation failed: %s", strerror(errno)); } else if ($3.nVal == 0) { switch ($2) { case ASSERT_FATAL: fatalerror("Assertion failed"); case ASSERT_ERROR: yyerror("Assertion failed"); break; case ASSERT_WARN: warning(WARNING_ASSERT, "Assertion failed"); break; } } rpn_Free(&$3); } | T_POP_ASSERT assert_type relocexpr ',' string { if (!rpn_isKnown(&$3)) { if (!out_CreateAssert($2, &$3, $5, sect_GetOutputOffset())) yyerror("Assertion creation failed: %s", strerror(errno)); } else if ($3.nVal == 0) { switch ($2) { case ASSERT_FATAL: fatalerror("Assertion failed: %s", $5); case ASSERT_ERROR: yyerror("Assertion failed: %s", $5); break; case ASSERT_WARN: warning(WARNING_ASSERT, "Assertion failed: %s", $5); break; } } rpn_Free(&$3); } | T_POP_STATIC_ASSERT assert_type const { if ($3 == 0) { switch ($2) { case ASSERT_FATAL: fatalerror("Assertion failed"); case ASSERT_ERROR: yyerror("Assertion failed"); break; case ASSERT_WARN: warning(WARNING_ASSERT, "Assertion failed"); break; } } } | T_POP_STATIC_ASSERT assert_type const ',' string { if ($3 == 0) { switch ($2) { case ASSERT_FATAL: fatalerror("Assertion failed: %s", $5); case ASSERT_ERROR: yyerror("Assertion failed: %s", $5); break; case ASSERT_WARN: warning(WARNING_ASSERT, "Assertion failed: %s", $5); break; } } } ; shift : T_POP_SHIFT { macro_ShiftCurrentArgs(); } | T_POP_SHIFT uconst { int32_t i = $2; while (i--) macro_ShiftCurrentArgs(); } ; load : T_POP_LOAD string ',' sectiontype sectorg sectattrs { out_SetLoadSection($2, $4, $5, &$6); } | T_POP_ENDL { out_EndLoadSection(); } ; rept : T_POP_REPT uconst { uint32_t nDefinitionLineNo = nLineNo; copyrept(); fstk_RunRept($2, nDefinitionLineNo); } ; macrodef : T_LABEL ':' T_POP_MACRO { int32_t nDefinitionLineNo = nLineNo; copymacro(); sym_AddMacro($1, nDefinitionLineNo); } ; equs : T_LABEL T_POP_EQUS string { sym_AddString($1, $3); } ; rsset : T_POP_RSSET uconst { sym_AddSet("_RS", $2); } ; rsreset : T_POP_RSRESET { sym_AddSet("_RS", 0); } ; rl : T_LABEL T_POP_RL uconst { sym_AddEqu($1, sym_GetConstantValue("_RS")); sym_AddSet("_RS", sym_GetConstantValue("_RS") + 4 * $3); } ; rw : T_LABEL T_POP_RW uconst { sym_AddEqu($1, sym_GetConstantValue("_RS")); sym_AddSet("_RS", sym_GetConstantValue("_RS") + 2 * $3); } ; rb : T_LABEL T_POP_RB uconst { sym_AddEqu($1, sym_GetConstantValue("_RS")); sym_AddSet("_RS", sym_GetConstantValue("_RS") + $3); } ; union : T_POP_UNION { startUnion(); } ; nextu : T_POP_NEXTU { if (nUnionDepth <= 0) fatalerror("Found NEXTU outside of a UNION construct"); updateUnion(); } ; endu : T_POP_ENDU { if (nUnionDepth <= 0) fatalerror("Found ENDU outside of a UNION construct"); updateUnion(); nUnionDepth--; curOffset = unionStart[nUnionDepth] + unionSize[nUnionDepth]; } ; ds : T_POP_DS uconst { out_Skip($2); } | T_POP_DS uconst ',' reloc_8bit { out_RelBytes(&$4, $2); } ; /* Authorize empty entries if there is only one */ db : T_POP_DB constlist_8bit_entry ',' constlist_8bit { if (nListCountEmpty > 0) warning(WARNING_EMPTY_ENTRY, "Empty entry in list of 8-bit elements (treated as padding)."); } | T_POP_DB constlist_8bit_entry ; dw : T_POP_DW constlist_16bit_entry ',' constlist_16bit { if (nListCountEmpty > 0) warning(WARNING_EMPTY_ENTRY, "Empty entry in list of 16-bit elements (treated as padding)."); } | T_POP_DW constlist_16bit_entry ; dl : T_POP_DL constlist_32bit_entry ',' constlist_32bit { if (nListCountEmpty > 0) warning(WARNING_EMPTY_ENTRY, "Empty entry in list of 32-bit elements (treated as padding)."); } | T_POP_DL constlist_32bit_entry ; purge : T_POP_PURGE { oDontExpandStrings = true; } purge_list { oDontExpandStrings = false; } ; purge_list : purge_list_entry | purge_list ',' purge_list_entry ; purge_list_entry : scoped_id { sym_Purge($1); } ; export : export_token export_list ; export_token : T_POP_EXPORT | T_POP_GLOBAL { warning(WARNING_OBSOLETE, "`GLOBAL` is a deprecated synonym for `EXPORT`"); } | T_POP_XDEF { warning(WARNING_OBSOLETE, "`XDEF` is a deprecated synonym for `EXPORT`"); } ; export_list : export_list_entry | export_list ',' export_list_entry ; export_list_entry : scoped_id { sym_Export($1); } ; equ : T_LABEL T_POP_EQU const { sym_AddEqu($1, $3); } ; set : T_LABEL T_POP_SET const { sym_AddSet($1, $3); } | T_LABEL T_POP_EQUAL const { sym_AddSet($1, $3); } ; include : T_POP_INCLUDE string { fstk_RunInclude($2); if (oFailedOnMissingInclude) YYACCEPT; } ; incbin : T_POP_INCBIN string { out_BinaryFile($2); if (oFailedOnMissingInclude) YYACCEPT; } | T_POP_INCBIN string ',' uconst ',' uconst { out_BinaryFileSlice($2, $4, $6); if (oFailedOnMissingInclude) YYACCEPT; } ; charmap : T_POP_CHARMAP string ',' const { if (($4 & 0xFF) != $4) warning(WARNING_TRUNCATION, "Expression must be 8-bit"); if (charmap_Add($2, $4 & 0xFF) == -1) yyerror("Error parsing charmap. Either you've added too many (%i), or the input character length is too long (%i)' : %s\n", MAXCHARMAPS, CHARMAPLENGTH, strerror(errno)); } ; newcharmap : T_POP_NEWCHARMAP T_ID { charmap_New($2, NULL); } | T_POP_NEWCHARMAP T_ID ',' T_ID { charmap_New($2, $4); } ; setcharmap : T_POP_SETCHARMAP T_ID { charmap_Set($2); } ; pushc : T_POP_PUSHC { charmap_Push(); } ; popc : T_POP_POPC { charmap_Pop(); } ; printt : T_POP_PRINTT string { printf("%s", $2); } ; printv : T_POP_PRINTV const { printf("$%X", $2); } ; printi : T_POP_PRINTI const { printf("%d", $2); } ; printf : T_POP_PRINTF const { math_Print($2); } ; if : T_POP_IF const { nIFDepth++; if (!$2) if_skip_to_else(); } ; elif : T_POP_ELIF const { if (nIFDepth <= 0) fatalerror("Found ELIF outside an IF construct"); if (skipElif) { /* * Executed when ELIF is reached at the end of * an IF or ELIF block for which the condition * was true. * * Continue parsing at ENDC keyword */ if_skip_to_endc(); } else { /* * Executed when ELIF is skipped to because the * condition of the previous IF or ELIF block * was false. */ skipElif = true; if (!$2) { /* * Continue parsing after ELSE, or at * ELIF or ENDC keyword. */ if_skip_to_else(); } } } ; else : T_POP_ELSE { if (nIFDepth <= 0) fatalerror("Found ELSE outside an IF construct"); /* Continue parsing at ENDC keyword */ if_skip_to_endc(); } ; endc : T_POP_ENDC { if (nIFDepth <= 0) fatalerror("Found ENDC outside an IF construct"); nIFDepth--; } ; const_3bit : const { int32_t value = $1; if ((value < 0) || (value > 7)) { yyerror("Immediate value must be 3-bit"); $$ = 0; } else { $$ = value & 0x7; } } ; constlist_8bit : constlist_8bit_entry | constlist_8bit ',' constlist_8bit_entry ; constlist_8bit_entry : /* empty */ { out_Skip(1); nListCountEmpty++; } | reloc_8bit_no_str { out_RelByte(&$1); } | string { char *s = $1; int32_t length = charmap_Convert(&s); out_AbsByteGroup((uint8_t*)s, length); free(s); } ; constlist_16bit : constlist_16bit_entry | constlist_16bit ',' constlist_16bit_entry ; constlist_16bit_entry : /* empty */ { out_Skip(2); nListCountEmpty++; } | reloc_16bit { out_RelWord(&$1); } ; constlist_32bit : constlist_32bit_entry | constlist_32bit ',' constlist_32bit_entry ; constlist_32bit_entry : /* empty */ { out_Skip(4); nListCountEmpty++; } | relocexpr { out_RelLong(&$1); } ; reloc_8bit : relocexpr { if(rpn_isKnown(&$1) && ($1.nVal < -128 || $1.nVal > 255)) warning(WARNING_TRUNCATION, "Expression must be 8-bit"); $$ = $1; } ; reloc_8bit_no_str : relocexpr_no_str { if(rpn_isKnown(&$1) && ($1.nVal < -128 || $1.nVal > 255)) warning(WARNING_TRUNCATION, "Expression must be 8-bit"); $$ = $1; } ; reloc_16bit : relocexpr { if (rpn_isKnown(&$1) && ($1.nVal < -32768 || $1.nVal > 65535)) warning(WARNING_TRUNCATION, "Expression must be 16-bit"); $$ = $1; } ; relocexpr : relocexpr_no_str | string { char *s = $1; int32_t length = charmap_Convert(&s); uint32_t r = str2int2(s, length); free(s); rpn_Number(&$$, r); } ; relocexpr_no_str : scoped_id { rpn_Symbol(&$$, $1); } | T_NUMBER { rpn_Number(&$$, $1); } | T_OP_LOGICNOT relocexpr %prec NEG { rpn_LOGNOT(&$$, &$2); } | relocexpr T_OP_LOGICOR relocexpr { rpn_BinaryOp(RPN_LOGOR, &$$, &$1, &$3); } | relocexpr T_OP_LOGICAND relocexpr { rpn_BinaryOp(RPN_LOGAND, &$$, &$1, &$3); } | relocexpr T_OP_LOGICEQU relocexpr { rpn_BinaryOp(RPN_LOGEQ, &$$, &$1, &$3); } | relocexpr T_OP_LOGICGT relocexpr { rpn_BinaryOp(RPN_LOGGT, &$$, &$1, &$3); } | relocexpr T_OP_LOGICLT relocexpr { rpn_BinaryOp(RPN_LOGLT, &$$, &$1, &$3); } | relocexpr T_OP_LOGICGE relocexpr { rpn_BinaryOp(RPN_LOGGE, &$$, &$1, &$3); } | relocexpr T_OP_LOGICLE relocexpr { rpn_BinaryOp(RPN_LOGLE, &$$, &$1, &$3); } | relocexpr T_OP_LOGICNE relocexpr { rpn_BinaryOp(RPN_LOGNE, &$$, &$1, &$3); } | relocexpr T_OP_ADD relocexpr { rpn_BinaryOp(RPN_ADD, &$$, &$1, &$3); } | relocexpr T_OP_SUB relocexpr { rpn_BinaryOp(RPN_SUB, &$$, &$1, &$3); } | relocexpr T_OP_XOR relocexpr { rpn_BinaryOp(RPN_XOR, &$$, &$1, &$3); } | relocexpr T_OP_OR relocexpr { rpn_BinaryOp(RPN_OR, &$$, &$1, &$3); } | relocexpr T_OP_AND relocexpr { rpn_BinaryOp(RPN_AND, &$$, &$1, &$3); } | relocexpr T_OP_SHL relocexpr { rpn_BinaryOp(RPN_SHL, &$$, &$1, &$3); } | relocexpr T_OP_SHR relocexpr { rpn_BinaryOp(RPN_SHR, &$$, &$1, &$3); } | relocexpr T_OP_MUL relocexpr { rpn_BinaryOp(RPN_MUL, &$$, &$1, &$3); } | relocexpr T_OP_DIV relocexpr { rpn_BinaryOp(RPN_DIV, &$$, &$1, &$3); } | relocexpr T_OP_MOD relocexpr { rpn_BinaryOp(RPN_MOD, &$$, &$1, &$3); } | T_OP_ADD relocexpr %prec NEG { $$ = $2; } | T_OP_SUB relocexpr %prec NEG { rpn_UNNEG(&$$, &$2); } | T_OP_NOT relocexpr %prec NEG { rpn_UNNOT(&$$, &$2); } | T_OP_HIGH '(' relocexpr ')' { rpn_HIGH(&$$, &$3); } | T_OP_LOW '(' relocexpr ')' { rpn_LOW(&$$, &$3); } | T_OP_ISCONST '(' relocexpr ')'{ rpn_ISCONST(&$$, &$3); } | T_OP_BANK '(' scoped_id ')' { /* '@' is also a T_ID, it is handled here. */ rpn_BankSymbol(&$$, $3); } | T_OP_BANK '(' string ')' { rpn_BankSection(&$$, $3); } | T_OP_DEF { oDontExpandStrings = true; } '(' scoped_id ')' { struct sSymbol const *sym = sym_FindSymbol($4); rpn_Number(&$$, !!sym); oDontExpandStrings = false; } | T_OP_ROUND '(' const ')' { rpn_Number(&$$, math_Round($3)); } | T_OP_CEIL '(' const ')' { rpn_Number(&$$, math_Ceil($3)); } | T_OP_FLOOR '(' const ')' { rpn_Number(&$$, math_Floor($3)); } | T_OP_FDIV '(' const ',' const ')' { rpn_Number(&$$, 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(&$$, strcmp($3, $5)); } | T_OP_STRIN '(' string ',' string ')' { char *p = strstr($3, $5); rpn_Number(&$$, p ? p - $3 + 1 : 0); } | T_OP_STRLEN '(' string ')' { rpn_Number(&$$, strlenUTF8($3)); } | '(' relocexpr ')' { $$ = $2; } ; uconst : const { $$ = $1; if ($$ < 0) fatalerror("Constant mustn't be negative: %d", $1); } ; const : relocexpr { if (!rpn_isKnown(&$1)) { yyerror("Expected constant expression: %s", $1.reason); $$ = 0; } else { $$ = $1.nVal; } } ; string : T_STRING { if (snprintf($$, MAXSTRLEN + 1, "%s", $1) > MAXSTRLEN) warning(WARNING_LONG_STR, "String is too long '%s'", $1); } | T_OP_STRSUB '(' string ',' uconst ',' uconst ')' { strsubUTF8($$, $3, $5, $7); } | T_OP_STRCAT '(' string ',' string ')' { if (snprintf($$, MAXSTRLEN + 1, "%s%s", $3, $5) > MAXSTRLEN) warning(WARNING_LONG_STR, "STRCAT: String too long '%s%s'", $3, $5); } | T_OP_STRUPR '(' string ')' { if (snprintf($$, MAXSTRLEN + 1, "%s", $3) > MAXSTRLEN) warning(WARNING_LONG_STR, "STRUPR: String too long '%s'", $3); upperstring($$); } | T_OP_STRLWR '(' string ')' { if (snprintf($$, MAXSTRLEN + 1, "%s", $3) > MAXSTRLEN) warning(WARNING_LONG_STR, "STRUPR: String too long '%s'", $3); lowerstring($$); } ; section : T_POP_SECTION sectunion string ',' sectiontype sectorg sectattrs { out_NewSection($3, $5, $6, &$7, $2); } ; sectunion : /* empty */ { $$ = false; } | T_POP_UNION { $$ = true; } sectiontype : T_SECT_WRAM0 { $$ = SECTTYPE_WRAM0; } | T_SECT_VRAM { $$ = SECTTYPE_VRAM; } | T_SECT_ROMX { $$ = SECTTYPE_ROMX; } | T_SECT_ROM0 { $$ = SECTTYPE_ROM0; } | T_SECT_HRAM { $$ = SECTTYPE_HRAM; } | T_SECT_WRAMX { $$ = SECTTYPE_WRAMX; } | T_SECT_SRAM { $$ = SECTTYPE_SRAM; } | T_SECT_OAM { $$ = SECTTYPE_OAM; } ; sectorg : /* empty */ { $$ = -1; } | '[' uconst ']' { if ($2 < 0 || $2 >= 0x10000) { yyerror("Address $%x is not 16-bit", $2); $$ = -1; } else { $$ = $2; } } ; sectattrs : /* empty */ { $$.alignment = 0; $$.bank = -1; } | sectattrs ',' T_OP_ALIGN '[' uconst ']' { if ($5 < 0 || $5 > 16) yyerror("Alignment must be between 0 and 16 bits, not %u", $5); else $$.alignment = $5; } | sectattrs ',' T_OP_BANK '[' uconst ']' { /* We cannot check the validity of this now */ $$.bank = $5; } ; cpu_command : { nPCOffset = 1; } z80_adc | { nPCOffset = 1; } z80_add | { nPCOffset = 1; } z80_and | { nPCOffset = 1; } z80_bit | { nPCOffset = 1; } z80_call | z80_ccf | { nPCOffset = 1; } z80_cp | z80_cpl | z80_daa | { nPCOffset = 1; } z80_dec | z80_di | z80_ei | z80_halt | z80_inc | { nPCOffset = 1; } z80_jp | { nPCOffset = 1; } z80_jr | { nPCOffset = 1; } z80_ld | z80_ldd | z80_ldi | { nPCOffset = 1; } z80_ldio | z80_nop | { nPCOffset = 1; } z80_or | z80_pop | z80_push | { nPCOffset = 1; } z80_res | z80_ret | z80_reti | z80_rl | z80_rla | z80_rlc | z80_rlca | z80_rr | z80_rra | z80_rrc | z80_rrca | /*{ nPCOffset = 0; }*/ z80_rst | { nPCOffset = 1; } z80_sbc | z80_scf | { nPCOffset = 1; } z80_set | z80_sla | z80_sra | z80_srl | { nPCOffset = 1; } z80_stop | { nPCOffset = 1; } z80_sub | z80_swap | { nPCOffset = 1; } 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 ',' reloc_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 ',' reg_r { out_AbsByte(0xCB); out_AbsByte(0x40 | ($2 << 3) | $4); } ; z80_call : T_Z80_CALL reloc_16bit { out_AbsByte(0xCD); out_RelWord(&$2); } | T_Z80_CALL ccode ',' reloc_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_halt : T_Z80_HALT { out_AbsByte(0x76); if (CurrentOptions.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 reloc_16bit { out_AbsByte(0xC3); out_RelWord(&$2); } | T_Z80_JP ccode ',' reloc_16bit { out_AbsByte(0xC2 | ($2 << 3)); out_RelWord(&$4); } | T_Z80_JP T_MODE_HL { out_AbsByte(0xE9); } ; z80_jr : T_Z80_JR reloc_16bit { out_AbsByte(0x18); out_PCRelByte(&$2); } | T_Z80_JR ccode ',' reloc_16bit { out_AbsByte(0x20 | ($2 << 3)); out_PCRelByte(&$4); } ; z80_ldi : T_Z80_LDI T_MODE_HL_IND ',' T_MODE_A { out_AbsByte(0x02 | (2 << 4)); } | T_Z80_LDI T_MODE_A ',' T_MODE_HL_IND { out_AbsByte(0x0A | (2 << 4)); } ; z80_ldd : T_Z80_LDD T_MODE_HL_IND ',' T_MODE_A { out_AbsByte(0x02 | (3 << 4)); } | T_Z80_LDD T_MODE_A ',' T_MODE_HL_IND { out_AbsByte(0x0A | (3 << 4)); } ; z80_ldio : T_Z80_LDIO T_MODE_A ',' op_mem_ind { rpn_CheckHRAM(&$4, &$4); out_AbsByte(0xF0); out_RelByte(&$4); } | T_Z80_LDIO op_mem_ind ',' T_MODE_A { rpn_CheckHRAM(&$2, &$2); out_AbsByte(0xE0); out_RelByte(&$2); } | T_Z80_LDIO T_MODE_A ',' T_MODE_C_IND { out_AbsByte(0xF2); } | T_Z80_LDIO T_MODE_C_IND ',' T_MODE_A { out_AbsByte(0xE2); } ; 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 ',' T_MODE_SP reloc_8bit { out_AbsByte(0xF8); out_RelByte(&$5); } | T_Z80_LD T_MODE_HL ',' reloc_16bit { out_AbsByte(0x01 | (REG_HL << 4)); out_RelWord(&$4); } ; z80_ld_sp : T_Z80_LD T_MODE_SP ',' T_MODE_HL { out_AbsByte(0xF9); } | T_Z80_LD T_MODE_SP ',' reloc_16bit { out_AbsByte(0x01 | (REG_SP << 4)); out_RelWord(&$4); } ; z80_ld_mem : T_Z80_LD op_mem_ind ',' T_MODE_SP { out_AbsByte(0x08); out_RelWord(&$2); } | T_Z80_LD op_mem_ind ',' T_MODE_A { if (CurrentOptions.optimizeloads && (rpn_isKnown(&$2)) && ($2.nVal >= 0xFF00)) { out_AbsByte(0xE0); out_AbsByte($2.nVal & 0xFF); rpn_Free(&$2); } else { out_AbsByte(0xEA); out_RelWord(&$2); } } ; z80_ld_cind : T_Z80_LD T_MODE_C_IND ',' T_MODE_A { out_AbsByte(0xE2); } ; z80_ld_rr : T_Z80_LD reg_rr ',' T_MODE_A { out_AbsByte(0x02 | ($2 << 4)); } ; z80_ld_r : T_Z80_LD reg_r ',' reloc_8bit { out_AbsByte(0x06 | ($2 << 3)); out_RelByte(&$4); } | T_Z80_LD reg_r ',' 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 ',' T_MODE_C_IND { if ($2 == REG_A) out_AbsByte(0xF2); else yyerror("Destination operand must be A"); } | T_Z80_LD reg_r ',' reg_rr { if ($2 == REG_A) out_AbsByte(0x0A | ($4 << 4)); else yyerror("Destination operand must be A"); } | T_Z80_LD reg_r ',' op_mem_ind { if ($2 == REG_A) { if (CurrentOptions.optimizeloads && (rpn_isKnown(&$4)) && ($4.nVal >= 0xFF00)) { out_AbsByte(0xF0); out_AbsByte($4.nVal & 0xFF); rpn_Free(&$4); } else { out_AbsByte(0xFA); out_RelWord(&$4); } } else { yyerror("Destination operand must be A"); rpn_Free(&$4); } } ; z80_ld_ss : T_Z80_LD T_MODE_BC ',' reloc_16bit { out_AbsByte(0x01 | (REG_BC << 4)); out_RelWord(&$4); } | T_Z80_LD T_MODE_DE ',' reloc_16bit { out_AbsByte(0x01 | (REG_DE << 4)); out_RelWord(&$4); } /* * HL is taken care of in z80_ld_hl * SP is taken care of in z80_ld_sp */ ; 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 ',' 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 reloc_8bit { rpn_CheckRST(&$2, &$2); if (!rpn_isKnown(&$2)) out_RelByte(&$2); else out_AbsByte(0xC7 | $2.nVal); rpn_Free(&$2); } ; 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 ',' 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); } | T_Z80_STOP reloc_8bit { out_AbsByte(0x10); out_RelByte(&$2); } ; 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 : '[' reloc_16bit ']' { $$ = $2; } ; op_hl_ss : reg_ss { $$ = $1; } | T_MODE_HL ',' reg_ss { $$ = $3; } ; op_a_r : reg_r { $$ = $1; } | T_MODE_A ',' reg_r { $$ = $3; } ; op_a_n : reloc_8bit { $$ = $1; } | T_MODE_A ',' reloc_8bit { $$ = $3; } ; T_MODE_A : T_TOKEN_A | T_OP_HIGH '(' T_MODE_AF ')' ; T_MODE_B : T_TOKEN_B | T_OP_HIGH '(' T_MODE_BC ')' ; T_MODE_C : T_TOKEN_C | T_OP_LOW '(' T_MODE_BC ')' ; T_MODE_D : T_TOKEN_D | T_OP_HIGH '(' T_MODE_DE ')' ; T_MODE_E : T_TOKEN_E | T_OP_LOW '(' T_MODE_DE ')' ; T_MODE_H : T_TOKEN_H | T_OP_HIGH '(' T_MODE_HL ')' ; T_MODE_L : T_TOKEN_L | T_OP_LOW '(' T_MODE_HL ')' ; ccode : T_CC_NZ { $$ = CC_NZ; } | T_CC_Z { $$ = CC_Z; } | T_CC_NC { $$ = CC_NC; } | T_TOKEN_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; } ; %%