/*****************************************************************************/ /* */ /* ea65.c */ /* */ /* 65XX effective address parsing for the ca65 macroassembler */ /* */ /* */ /* */ /* (C) 1998-2011, Ullrich von Bassewitz */ /* Roemerstrasse 52 */ /* D-70794 Filderstadt */ /* EMail: uz@cc65.org */ /* */ /* */ /* This software is provided 'as-is', without any expressed or implied */ /* warranty. In no event will the authors be held liable for any damages */ /* arising from the use of this software. */ /* */ /* Permission is granted to anyone to use this software for any purpose, */ /* including commercial applications, and to alter it and redistribute it */ /* freely, subject to the following restrictions: */ /* */ /* 1. The origin of this software must not be misrepresented; you must not */ /* claim that you wrote the original software. If you use this software */ /* in a product, an acknowledgment in the product documentation would be */ /* appreciated but is not required. */ /* 2. Altered source versions must be plainly marked as such, and must not */ /* be misrepresented as being the original software. */ /* 3. This notice may not be removed or altered from any source */ /* distribution. */ /* */ /*****************************************************************************/ /* ca65 */ #include "ea.h" #include "ea65.h" #include "error.h" #include "expr.h" #include "instr.h" #include "nexttok.h" #include "global.h" /*****************************************************************************/ /* Code */ /*****************************************************************************/ void GetEA (EffAddr* A) /* Parse an effective address, return the result in A */ { unsigned long Restrictions; token_t IndirectEnter; token_t IndirectLeave; const char* IndirectExpect; /* Choose syntax for indirection */ if (BracketAsIndirect) { IndirectEnter = TOK_LBRACK; IndirectLeave = TOK_RBRACK; IndirectExpect = "']' expected"; } else { IndirectEnter = TOK_LPAREN; IndirectLeave = TOK_RPAREN; IndirectExpect = "')' expected"; } /* Clear the output struct */ A->AddrModeSet = 0; A->Expr = 0; /* Handle an addressing size override */ switch (CurTok.Tok) { case TOK_OVERRIDE_ZP: Restrictions = AM65_DIR | AM65_DIR_X | AM65_DIR_Y; NextTok (); break; case TOK_OVERRIDE_ABS: Restrictions = AM65_ABS | AM65_ABS_X | AM65_ABS_Y; NextTok (); break; case TOK_OVERRIDE_FAR: Restrictions = AM65_ABS_LONG | AM65_ABS_LONG_X; NextTok (); break; default: Restrictions = ~0UL; /* None */ break; } /* Parse the effective address */ if (TokIsSep (CurTok.Tok)) { A->AddrModeSet = AM65_IMPLICIT; } else if (CurTok.Tok == TOK_HASH) { /* #val */ NextTok (); A->Expr = Expression (); A->AddrModeSet = AM65_ALL_IMM; } else if (CurTok.Tok == TOK_A) { NextTok (); A->AddrModeSet = AM65_ACCU; } else if (CurTok.Tok == IndirectEnter) { /* One of the indirect modes */ NextTok (); A->Expr = Expression (); if (CurTok.Tok == TOK_COMMA) { /* (expr,X) or (rel,S),y */ NextTok (); if (CurTok.Tok == TOK_X) { /* (adr,x) */ NextTok (); A->AddrModeSet = AM65_ABS_X_IND | AM65_DIR_X_IND; Consume (IndirectLeave, IndirectExpect); } else if (CurTok.Tok == TOK_S) { /* (rel,s),y */ NextTok (); A->AddrModeSet = AM65_STACK_REL_IND_Y; Consume (IndirectLeave, IndirectExpect); ConsumeComma (); Consume (TOK_Y, "'Y' expected"); } else { Error ("Syntax error"); } } else { /* (adr), (adr),y or (adr),z */ Consume (IndirectLeave, IndirectExpect); if (CurTok.Tok == TOK_COMMA) { /* (adr),y */ NextTok (); switch (CurTok.Tok) { case TOK_Z: /* only set by scanner.c if in 4510-mode */ NextTok (); A->AddrModeSet = AM65_DIR_IND; break; default: Consume (TOK_Y, "'Y' expected"); A->AddrModeSet = AM65_DIR_IND_Y; break; } } else { /* (adr) */ A->AddrModeSet = (CPU == CPU_4510) ? AM65_ABS_IND : AM65_ABS_IND | AM65_ABS_IND_LONG | AM65_DIR_IND; } } } else if (CurTok.Tok == TOK_LBRACK) { /* Never executed if BracketAsIndirect feature is enabled. */ /* [dir] or [dir],y */ NextTok (); A->Expr = Expression (); Consume (TOK_RBRACK, "']' expected"); if (CurTok.Tok == TOK_COMMA) { /* [dir],y */ NextTok (); Consume (TOK_Y, "'Y' expected"); A->AddrModeSet = AM65_DIR_IND_LONG_Y; } else { /* [dir] */ A->AddrModeSet = AM65_DIR_IND_LONG | AM65_ABS_IND_LONG; } } else { /* Remaining stuff: ** ** adr ** adr,x ** adr,y ** adr,s */ A->Expr = Expression (); if (CurTok.Tok == TOK_COMMA) { NextTok (); switch (CurTok.Tok) { case TOK_X: A->AddrModeSet = AM65_ABS_LONG_X | AM65_ABS_X | AM65_DIR_X; NextTok (); break; case TOK_Y: A->AddrModeSet = AM65_ABS_Y | AM65_DIR_Y; NextTok (); break; case TOK_S: A->AddrModeSet = AM65_STACK_REL; NextTok (); break; default: Error ("Syntax error"); } } else { A->AddrModeSet = AM65_ABS_LONG | AM65_ABS | AM65_DIR; } } /* Apply addressing mode overrides */ A->AddrModeSet &= Restrictions; }