X-Git-Url: http://shamusworld.gotdns.org/cgi-bin/gitweb.cgi?p=rmac;a=blobdiff_plain;f=parmode.h;h=0c5ca2c0818e01b9ab248016127482dc41c456ce;hp=8b0456f15ece244a583011a93639905f0d1d03a2;hb=f3c7d186a15b89c39e360b9cc89545a0d24bd6a4;hpb=5cd8a4814b805f1ef8ce689423eb5eeba12573c5 diff --git a/parmode.h b/parmode.h index 8b0456f..0c5ca2c 100644 --- a/parmode.h +++ b/parmode.h @@ -1,7 +1,7 @@ // -// RMAC - Reboot's Macro Assembler for the Atari Jaguar Console System +// RMAC - Reboot's Macro Assembler for all Atari computers // PARMODE.C - Addressing Modes Parser Include -// Copyright (C) 199x Landon Dyer, 2017 Reboot and Friends +// Copyright (C) 199x Landon Dyer, 2011-2017 Reboot and Friends // RMAC derived from MADMAC v1.07 Written by Landon Dyer, 1986 // Source utilised with the kind permission of Landon Dyer // @@ -12,19 +12,19 @@ // Dn // An // # expression - if ((*tok >= KW_D0) && (*tok <= KW_D7)) + if ((*tok.u32 >= KW_D0) && (*tok.u32 <= KW_D7)) { AMn = DREG; - AnREG = *tok++ & 7; + AnREG = *tok.u32++ & 7; } - else if ((*tok >= KW_A0) && (*tok <= KW_A7)) + else if ((*tok.u32 >= KW_A0) && (*tok.u32 <= KW_A7)) { AMn = AREG; - AnREG = *tok++ & 7; + AnREG = *tok.u32++ & 7; } - else if (*tok == '#') + else if (*tok.u32 == '#') { - tok++; + tok.u32++; if (expr(AnEXPR, &AnEXVAL, &AnEXATTR, &AnESYM) != OK) return ERROR; @@ -48,21 +48,21 @@ // ([bd,An,Xn],od) // ([bd,PC],Xn,od) // ([bd,PC,Xn],od) - else if (*tok == '(') + else if (*tok.u32 == '(') { - tok++; + tok.u32++; - if ((*tok >= KW_A0) && (*tok <= KW_A7)) + if ((*tok.u32 >= KW_A0) && (*tok.u32 <= KW_A7)) { - AnREG = *tok++ & 7; + AnREG = *tok.u32++ & 7; - if (*tok == ')') + if (*tok.u32 == ')') { - tok++; + tok.u32++; - if (*tok == '+') + if (*tok.u32 == '+') { - tok++; + tok.u32++; AMn = APOSTINC; } else @@ -74,66 +74,127 @@ AMn = AINDEXED; goto AMn_IX0; // Handle ",Xn[.siz][*scale])" } - else if ((*tok >= KW_D0) && (*tok <= KW_D7)) + else if ((*tok.u32 >= KW_D0) && (*tok.u32 <= KW_D7)) { //Since index register isn't used here, store register number in this field - AnIXREG = *tok++ & 7; // (Dn) - if (*tok==')') + AnIXREG = *tok.u32++ & 7; // (Dn) + + if (*tok.u32 == ')') + { + tok.u32++; + AnEXTEN |= EXT_FULLWORD; // Definitely using full extension format, so set bit 8 + AnEXTEN |= EXT_BS; // Base register suppressed + AnEXTEN |= EXT_BDSIZE0; // Base displacement null + AnEXTEN |= EXT_IISPOSN; // Indirect Postindexed with Null Outer Displacement + AMn = MEMPOST; + AnREG = 6 << 3; // stuff 110 to mode field + goto AnOK; + } + else if (*tok.u32 == 'L') { - tok++; - AnEXTEN |= EXT_FULLWORD; // Definitely using full extension format, so set bit 8 - AnEXTEN |= EXT_BS; // Base register suppressed - AnEXTEN |= EXT_BDSIZE0; // Base displacement null - AnEXTEN |= EXT_IISPOSN; // Indirect Postindexed with Null Outer Displacement - AMn= MEMPOST; - AnREG = 6 << 3; // stuff 110 to mode field - goto AnOK; + // TODO: does DINDL gets used at all? + AMn = DINDL; // (Dn.l) + AnEXTEN = 1 << 1; // Long index size + tok.u32++; } - else if (*tok=='L') + else if (*tok.u32 == 'W') // (Dn.w) { - // TODO: does DINDL gets used at all? - //AMn=DINDL; // (Dn.l) - //AnEXTEN = 1 << 1; // Long index size - //tok++; + // TODO: does DINDW gets used at all? + AMn = DINDW; + AnEXTEN = 1 << 1; // Word index size + tok.u32++; } - else if (*tok=='W') // (Dn.w) + else if (*tok.u32 == ',') { - // TODO: does DINDW gets used at all? - //AMn=DINDW; - //AnEXTEN = 1 << 1; // Word index size - //tok++; + // ([bd,An],Xn..) without bd, An + // Base displacement is suppressed + AnEXTEN |= EXT_FULLWORD; // Definitely using full extension format, so set bit 8 + AnEXTEN |= EXT_BS; // Base register suppressed + AnEXTEN |= EXT_BDSIZE0; + AnREG = 6 << 3; // stuff 110 to mode field + tok.u32++; + goto CHECKODn; } - else if (*tok == ',') - { - // ([bd,An],Xn..) without bd, An - // Base displacement is suppressed - AnEXTEN |= EXT_FULLWORD; // Definitely using full extension format, so set bit 8 - AnEXTEN |= EXT_BS; // Base register suppressed - AnEXTEN |= EXT_BDSIZE0; - AnREG = 6 << 3; // stuff 110 to mode field - tok++; - goto CHECKODn; - } else + { return error("(Dn) error"); + } + + if (*tok.u32 == '*') + { // scale: *1, *2, *4, *8 + tok.u32++; + + if (*tok.u32 == SYMBOL) + { + if (expr(AnEXPR, &AnEXVAL, &AnEXATTR, &AnESYM) != OK) + return error("scale factor expression must evaluate"); + + switch (AnEXVAL) + { + case 1: + break; + case 2: + AnIXSIZ |= TIMES2; + break; + case 4: + AnIXSIZ |= TIMES4; + break; + case 8: + AnIXSIZ |= TIMES8; + break; + default: + goto badmode; + } + } + else if (*tok.u32++ != CONST || *tok.u32 > 8) + goto badmode; + else + { + switch ((int)*tok.u32++) + { + case 1: + break; + case 2: + AnIXSIZ |= TIMES2; + break; + case 4: + AnIXSIZ |= TIMES4; + break; + case 8: + AnIXSIZ |= TIMES8; + break; + default: + goto badmode; + } + } + } - if (*tok == ')') - { - tok++; - AnEXTEN |= EXT_FULLWORD; // Definitely using full extension format, so set bit 8 - AnEXTEN |= EXT_BS; // Base register suppressed - AnEXTEN |= EXT_BDSIZE0; // Base displacement null - AnEXTEN |= EXT_IISPOSN; // Indirect Postindexed with Null Outer Displacement - AnREG = 6 << 3; // stuff 110 to mode field - AMn = MEMPOST; - goto AnOK; - } - else - return error("unhandled so far"); + if (*tok.u32 == ')') + { + tok.u32++; + AnEXTEN |= EXT_FULLWORD; // Definitely using full extension format, so set bit 8 + AnEXTEN |= EXT_BS; // Base register suppressed + AnEXTEN |= EXT_BDSIZE0; // Base displacement null + AnEXTEN |= EXT_IISPOSN; // Indirect Postindexed with Null Outer Displacement + AnREG = 6 << 3; // stuff 110 to mode field + AMn = MEMPOST; + goto AnOK; + } + else if (*tok.u32 == ',') + { + tok.u32++; // eat the comma + // It might be (Dn[.wl][*scale],od) + // Maybe this is wrong and we have to write some code here + // instead of reusing that path... + AnEXTEN |= EXT_BDSIZE0; // Base displacement null - suppressed + goto CHECKODn; + } + else + return error("unhandled so far"); } - else if (*tok == KW_PC) + else if (*tok.u32 == KW_PC) { // (PC,Xn[.siz][*scale]) - tok++; + tok.u32++; AMn = PCINDEXED; // Common index handler; enter here with 'tok' pointing at the @@ -146,309 +207,409 @@ AMn_IXN: // Handle any indexed (tok -> a comma) - if (*tok++ != ',') + if (*tok.u32++ != ',') goto badmode; - if (*tok < KW_D0 || *tok > KW_A7) + if (*tok.u32 < KW_D0 || *tok.u32 > KW_A7) goto badmode; - AnIXREG = *tok++ & 15; + AnIXREG = *tok.u32++ & 15; - switch ((int)*tok) + switch ((int)*tok.u32) { // Index reg size: | .W | .L case DOTW: - tok++; + tok.u32++; default: AnIXSIZ = 0; break; case DOTL: AnIXSIZ = 0x0800; - tok++; + tok.u32++; break; case DOTB: // .B not allowed here... goto badmode; } - if (*tok == '*') + if (*tok.u32 == '*') { // scale: *1, *2, *4, *8 - tok++; + tok.u32++; - if (*tok++ != CONST || *tok > 8) - goto badmode; - - switch ((int)*tok++) + if (*tok.u32 == SYMBOL) { - case 1: - break; - case 2: - AnIXSIZ |= TIMES2; - break; - case 4: - AnIXSIZ |= TIMES4; - break; - case 8: - AnIXSIZ |= TIMES8; - break; - default: + if (expr(AnEXPR, &AnEXVAL, &AnEXATTR, &AnESYM) != OK) + return error("scale factor expression must evaluate"); + switch (AnEXVAL) + { + case 1: + break; + case 2: + AnIXSIZ |= TIMES2; + break; + case 4: + AnIXSIZ |= TIMES4; + break; + case 8: + AnIXSIZ |= TIMES8; + break; + default: + goto badmode; + } + } + else if (*tok.u32++ != CONST || *tok.u32 > 8) goto badmode; + else + { + switch ((int)*tok.u32++) + { + case 1: + break; + case 2: + AnIXSIZ |= TIMES2; + break; + case 4: + AnIXSIZ |= TIMES4; + break; + case 8: + AnIXSIZ |= TIMES8; + break; + default: + goto badmode; + } } } - if (*tok++ != ')') // final ")" + if (*tok.u32 == ',') + { + // If we got here we didn't get any [] stuff + // so let's suppress base displacement before + // branching off + tok.u32++; + AnEXTEN |= EXT_BDSIZE0; // Base displacement null - suppressed + goto CHECKODn; + } + if (*tok.u32++ != ')') // final ")" goto badmode; goto AnOK; } - else if (*tok == '[') + else if (*tok.u32 == '[') { // ([... - tok++; - AnEXTEN|=EXT_FULLWORD; //Definitely using full extension format, so set bit 8 + tok.u32++; + AnEXTEN |= EXT_FULLWORD; // Definitely using full extension format, so set bit 8 + // Check to see if base displacement is present - //WARNING("expr will return a bad expression error here but this is expected, it needs to be silenced!"); - if (*tok!=CONST && *tok !=SYMBOL) - //if (expr(AnBEXPR, &AnBEXVAL, &AnBEXATTR, &AnESYM) != OK) + if (*tok.u32 != CONST && *tok.u32 != SYMBOL) { - AnEXTEN|=EXT_BDSIZE0; - //tok++; - //tok--; //Rewind tok since expr advances it forward + AnEXTEN |= EXT_BDSIZE0; } else { expr(AnBEXPR, &AnBEXVAL, &AnBEXATTR, &AnESYM); - if (optim_flags[OPT_BASE_DISP] && AnBEXVAL==0 && AnEXATTR!=0) + if (CHECK_OPTS(OPT_BASE_DISP) && AnBEXVAL == 0 && AnEXATTR != 0) { // bd=0 so let's optimise it out AnEXTEN|=EXT_BDSIZE0; } - else if (*tok==DOTL) - { // ([bd.l,... - AnEXTEN|=EXT_BDSIZEL; - tok++; + else if (*tok.u32 == DOTL) + { // ([bd.l,... + AnEXTEN |= EXT_BDSIZEL; + tok.u32++; } else - { // ([bd[.w],... or ([bd,... + { // ([bd[.w],... or ([bd,... // Is .W forced here? - if (*tok == DOTW) + if (*tok.u32 == DOTW) { - AnEXTEN|=EXT_BDSIZEW; - tok++; + AnEXTEN |= EXT_BDSIZEW; + tok.u32++; } - else - { - // Defined, absolute values from $FFFF8000..$00007FFF get optimized - // to absolute short - if (optim_flags[OPT_ABS_SHORT] && (AnBEXATTR & (TDB|DEFINED)) == DEFINED && (AnBEXVAL + 0x8000) < 0x10000) - { - AnEXTEN|=EXT_BDSIZEW; + else + { + // Defined, absolute values from $FFFF8000..$00007FFF get optimized + // to absolute short + if (CHECK_OPTS(OPT_ABS_SHORT) + && ((AnBEXATTR & (TDB | DEFINED)) == DEFINED) + && (((uint32_t)AnBEXVAL + 0x8000) < 0x10000)) + { + AnEXTEN |= EXT_BDSIZEW; warn("absolute value in base displacement ranging $FFFF8000..$00007FFF optimised to absolute short"); - } - else - { - AnEXTEN|=EXT_BDSIZEL; - } - } - } - if (*tok==',') - tok++; + } + else + { + AnEXTEN |= EXT_BDSIZEL; + } + } + } + + if (*tok.u32 == ',') + tok.u32++; //else // return error("Comma expected after base displacement"); } + // Check for address register or PC, suppress base register + // otherwise - // Check for address register or PC, suppress base register otherwise - - if (*tok==KW_PC) + if (*tok.u32 == KW_PC) { // ([bd,PC,... - AnREG=(7<<3)|3; // PC is special case - stuff 011 to register field and 111 to the mode field - tok++; + AnREG = (7 << 3) | 3; // PC is special case - stuff 011 to register field and 111 to the mode field + tok.u32++; } - else if ((*tok >= KW_A0) && (*tok <= KW_A7)) + else if ((*tok.u32 >= KW_A0) && (*tok.u32 <= KW_A7)) { // ([bd,An,... - AnREG = (6<<3)|*tok & 7; - tok++; + AnREG = (6 << 3) | *tok.u32 & 7; + tok.u32++; } - else if ((*tok >= KW_D0) && (*tok <= KW_D7)) - { // ([bd,Dn,... - AnREG = (6<<3); - AnEXTEN|=((*tok&7)<<12); - AnEXTEN|=EXT_D; - AnEXTEN|=EXT_BS; // Oh look, a data register! Which means that base register is suppressed - tok++; + else if ((*tok.u32 >= KW_D0) && (*tok.u32 <= KW_D7)) + { + // ([bd,Dn,... + AnREG = (6 << 3); + AnEXTEN |= ((*tok.u32 & 7) << 12); + AnEXTEN |= EXT_D; + AnEXTEN |= EXT_BS; // Oh look, a data register! Which means that base register is suppressed + tok.u32++; // Check for size - { // ([bd,An/PC],Xn.W/L...) - switch ((int)*tok) - { // Index reg size: | .W | .L - case DOTW: - tok++; - break; - default: - break; - case DOTL: - AnEXTEN |= EXT_L; - tok++; - break; - case DOTB: // .B not allowed here... - goto badmode; - } + { + // ([bd,An/PC],Xn.W/L...) + switch ((int)*tok.u32) + { + // Index reg size: | .W | .L + case DOTW: + tok.u32++; + break; + default: + break; + case DOTL: + AnEXTEN |= EXT_L; + tok.u32++; + break; + case DOTB: + // .B not allowed here... + goto badmode; + } } // Check for scale - if (*tok=='*') // ([bd,An/PC],Xn*...) - { - tok++; - if (*tok==CONST) // TODO: I suppose the scale is stored as a CONST and nothing else? So prolly the if is not needed? - tok++; - switch ((int)*tok++) + if (*tok.u32 == '*') // ([bd,An/PC],Xn*...) + { // scale: *1, *2, *4, *8 + tok.u32++; + + if (*tok.u32 == SYMBOL) { - case 1: - break; - case 2: - AnEXTEN |= EXT_TIMES2; - break; - case 4: - AnEXTEN |= EXT_TIMES4; - break; - case 8: - AnEXTEN |= EXT_TIMES8; - break; - default: + if (expr(AnEXPR, &AnEXVAL, &AnEXATTR, &AnESYM) != OK) + return error("scale factor expression must evaluate"); + + switch (AnEXVAL) + { + case 1: + break; + case 2: + AnIXSIZ |= TIMES2; + break; + case 4: + AnIXSIZ |= TIMES4; + break; + case 8: + AnIXSIZ |= TIMES8; + break; + default: + goto badmode; + } + } + else if (*tok.u32++ != CONST || *tok.u32 > 8) goto badmode; - } + else + { + switch ((int)*tok.u32++) + { + case 1: + break; + case 2: + AnIXSIZ |= TIMES2; + break; + case 4: + AnIXSIZ |= TIMES4; + break; + case 8: + AnIXSIZ |= TIMES8; + break; + default: + goto badmode; + } + } } - if (*tok==']') // ([bd,Dn]... + if (*tok.u32 == ']') // ([bd,Dn]... { - tok++; + tok.u32++; goto IS_SUPPRESSEDn; } } - else if (*tok==']') + else if (*tok.u32 == ']') { - // PC and Xn is suppressed - AnREG=6<<3; // stuff 110 to mode field + // PC and Xn is suppressed + AnREG = 6 << 3; // stuff 110 to mode field //AnEXTEN|=EXT_BS|EXT_IS; - AnEXTEN |= EXT_BS; - } - else - { - goto badmode; - } + AnEXTEN |= EXT_BS; + } + else + { + goto badmode; + } // At a crossroads here. We can accept either ([bd,An/PC],... or ([bd,An/PC,Xn*scale],... - if (*tok==']') - { //([bd,An/PC],Xn,od) + if (*tok.u32 == ']') + { + //([bd,An/PC],Xn,od) // Check for Xn - tok++; - if (*tok==')') - { //Xn and od are non existent, get out of jail free card - AMn=MEMPRE; // ([bc,An,Xn],od) with no Xn and od - AnEXTEN|=EXT_IS|EXT_IISPREN; //Suppress Xn and od - tok++; + tok.u32++; + + if (*tok.u32 == ')') + { + //Xn and od are non existent, get out of jail free card + tok.u32++; + AMn = MEMPRE; // ([bc,An,Xn],od) with no Xn and od + AnEXTEN |= EXT_IS | EXT_IISPREN; //Suppress Xn and od goto AnOK; } - else if (*tok!=',') + else if (*tok.u32 != ',') return error("comma expected after ]"); else - tok++; // eat the comma + tok.u32++; // eat the comma - if ((*tok >= KW_A0) && (*tok <= KW_A7)) + if ((*tok.u32 >= KW_A0) && (*tok.u32 <= KW_A7)) { - AnIXREG=((*tok&7)<<12); - AnEXTEN|=EXT_A; - tok++; + AnIXREG = ((*tok.u32 & 7) << 12); + AnEXTEN |= EXT_A; + tok.u32++; } - else if ((*tok >= KW_D0) && (*tok <= KW_D7)) + else if ((*tok.u32 >= KW_D0) && (*tok.u32 <= KW_D7)) { - AnEXTEN|=((*tok&7)<<12); - AnEXTEN|=EXT_D; - tok++; + AnEXTEN |= ((*tok.u32 & 7) << 12); + AnEXTEN |= EXT_D; + tok.u32++; } else { //No index found, suppress it - AnEXTEN|=EXT_IS; - tok--; // Rewind tok to point to the comma - goto IS_SUPPRESSEDn; // https://xkcd.com/292/ - what does he know anyway? + AnEXTEN |= EXT_IS; + tok.u32--; // Rewind tok to point to the comma + goto IS_SUPPRESSEDn; // https://xkcd.com/292/ - what does he know anyway? } // Check for size - { // ([bd,An/PC],Xn.W/L...) - switch ((int)*tok) - { // Index reg size: | .W | .L + { + // ([bd,An/PC],Xn.W/L...) + switch ((int)*tok.u32) + { + // Index reg size: | .W | .L case DOTW: - tok++; + tok.u32++; break; default: break; case DOTL: AnEXTEN |= EXT_L; - tok++; + tok.u32++; break; - case DOTB: // .B not allowed here... + case DOTB: + // .B not allowed here... goto badmode; } } // Check for scale - if (*tok=='*') // ([bd,An/PC],Xn*...) - { - tok++; - if (*tok==CONST) // TODO: I suppose the scale is stored as a CONST and nothing else? So prolly the if is not needed? - tok++; - switch ((int)*tok++) + if (*tok.u32 == '*') // ([bd,An/PC],Xn*...) + { // scale: *1, *2, *4, *8 + tok.u32++; + + if (*tok.u32 == SYMBOL) { - case 1: - break; - case 2: - AnEXTEN |= EXT_TIMES2; - break; - case 4: - AnEXTEN |= EXT_TIMES4; - break; - case 8: - AnEXTEN |= EXT_TIMES8; - break; - default: + if (expr(AnEXPR, &AnEXVAL, &AnEXATTR, &AnESYM) != OK) + return error("scale factor expression must evaluate"); + + switch (AnEXVAL) + { + case 1: + break; + case 2: + AnIXSIZ |= TIMES2; + break; + case 4: + AnIXSIZ |= TIMES4; + break; + case 8: + AnIXSIZ |= TIMES8; + break; + default: + goto badmode; + } + } + else if (*tok.u32++ != CONST || *tok.u32 > 8) goto badmode; - } + else + { + switch ((int)*tok.u32++) + { + case 1: + break; + case 2: + AnIXSIZ |= TIMES2; + break; + case 4: + AnIXSIZ |= TIMES4; + break; + case 8: + AnIXSIZ |= TIMES8; + break; + default: + goto badmode; + } + } } // Check for od - if (*tok==')') // ([bd,An/PC],Xn) - { //od is non existant, get out of jail free card - AMn=MEMPOST; // let's say it's ([bd,An],Xn,od) with od=0 then - AnEXTEN|=EXT_IISPOSN; // No outer displacement - tok++; + if (*tok.u32 == ')') // ([bd,An/PC],Xn) + { + //od is non existant, get out of jail free card + AMn = MEMPOST; // let's say it's ([bd,An],Xn,od) with od=0 then + AnEXTEN |= EXT_IISPOSN; // No outer displacement + tok.u32++; goto AnOK; } - else if (*tok!=',') + else if (*tok.u32 != ',') return error("comma expected"); else - tok++; // eat the comma + tok.u32++; // eat the comma - CHECKODn: + CHECKODn: if (expr(AnEXPR, &AnEXVAL, &AnEXATTR, &AnESYM) != OK) goto badmode; - if (optim_flags[OPT_BASE_DISP] && AnEXVAL==0) + + if (CHECK_OPTS(OPT_BASE_DISP) && (AnEXVAL == 0)) { // od=0 so optimise it out - AMn=MEMPOST; // let's say it's ([bd,An],Xn,od) with od=0 then - AnEXTEN|=EXT_IISPOSN; // No outer displacement - tok++; + AMn = MEMPOST; // let's say it's ([bd,An],Xn,od) with od=0 then + AnEXTEN |= EXT_IISPOSN; // No outer displacement + tok.u32++; goto AnOK; } + // ([bd,An/PC],Xn,od) - if (*tok == DOTL) + if (*tok.u32 == DOTL) { // expr.L - AnEXTEN|=EXT_IISPOSL; // Long outer displacement + AnEXTEN |= EXT_IISPOSL; // Long outer displacement AMn = MEMPOST; + tok.u32++; - // Defined, absolute values from $FFFF8000..$00007FFF get optimized - // to absolute short - if (optim_flags[OPT_ABS_SHORT] && (AnEXATTR & (TDB|DEFINED)) == DEFINED && (AnEXVAL + 0x8000) < 0x10000) - { - AnEXTEN|=EXT_IISPOSW; // Word outer displacement + // Defined, absolute values from $FFFF8000..$00007FFF get + // optimized to absolute short + if (CHECK_OPTS(OPT_ABS_SHORT) + && ((AnEXATTR & (TDB | DEFINED)) == DEFINED) + && (((uint32_t)AnEXVAL + 0x8000) < 0x10000)) + { + AnEXTEN |= EXT_IISPOSW; // Word outer displacement AMn = MEMPOST; warn("outer displacement absolute value from $FFFF8000..$00007FFF optimised to absolute short"); } @@ -457,220 +618,262 @@ else { // expr[.W] - AnEXTEN|=EXT_IISPOSW; // Word outer displacement + AnEXTEN |= EXT_IISPOSW; // Word outer displacement AMn = MEMPOST; // Is .W forced here? - if (*tok == DOTW) + if (*tok.u32 == DOTW) { - tok++; + tok.u32++; } - } // Check for final closing parenthesis - if (*tok==')') + if (*tok.u32 == ')') { - tok++; + tok.u32++; goto AnOK; } else return error("Closing parenthesis missing on addressing mode"); - IS_SUPPRESSEDn: +IS_SUPPRESSEDn: // Check for od - if (*tok==')') // ([bd,An/PC],Xn) - { //od is non existant, get out of jail free card - AMn=MEMPOST; // let's say it's ([bd,An],Xn,od) with od=0 then - AnEXTEN|=EXT_IISNOIN; // No outer displacement - tok++; + if (*tok.u32 == ')') // ([bd,An/PC],Xn) + { + //od is non existant, get out of jail free card + AMn = MEMPOST; // let's say it's ([bd,An],Xn,od) with od=0 then + AnEXTEN |= EXT_IISNOIN; // No outer displacement + tok.u32++; goto AnOK; } - else if (*tok!=',') + else if (*tok.u32!=',') return error("comma expected"); else - tok++; // eat the comma + tok.u32++; // eat the comma - if (*tok != CONST && *tok != SYMBOL) - //if (expr(AnEXPR, &AnEXVAL, &AnEXATTR, &AnESYM) != OK) + if ((*tok.u32 != CONST) && (*tok.u32 != SYMBOL)) goto badmode; - expr(AnEXPR, &AnEXVAL, &AnEXATTR, &AnESYM); - if (optim_flags[OPT_BASE_DISP] && AnEXVAL==0) + + expr(AnEXPR, &AnEXVAL, &AnEXATTR, &AnESYM); + + if (CHECK_OPTS(OPT_BASE_DISP) && (AnEXVAL == 0)) { // od=0 so optimise it out - AMn=MEMPOST; // let's say it's ([bd,An],Xn,od) with od=0 then - AnEXTEN|=EXT_IISNOIN; // No outer displacement - tok++; + AMn = MEMPOST; // let's say it's ([bd,An],Xn,od) with od=0 then + AnEXTEN |= EXT_IISNOIN; // No outer displacement + tok.u32++; goto AnOK; } + // ([bd,An/PC],Xn,od) - if (*tok == DOTL) + if (*tok.u32 == DOTL) { // expr.L - tok++; + tok.u32++; AMn = MEMPOST; - AnEXTEN|=EXT_IISNOIL; // Long outer displacement with IS suppressed - //goto AnOK; - + AnEXTEN |= EXT_IISNOIL; // Long outer displacement with IS suppressed } else { // expr[.W][] - AnEXTEN |= EXT_IISNOIW; // Word outer displacement with IS suppressed - AMn = MEMPRE; - if (*tok == DOTW) - { - //AnEXTEN|=EXT_IISNOIW; // Word outer displacement - AMn = MEMPOST; - tok++; - } - - // Defined, absolute values from $FFFF8000..$00007FFF get optimized - // to absolute short - else if (optim_flags[OPT_BASE_DISP] && (AnEXATTR & (TDB|DEFINED)) == DEFINED && (AnEXVAL + 0x8000) < 0x10000) + AnEXTEN |= EXT_IISNOIW; // Word outer displacement with IS suppressed + AMn = MEMPRE; + + if (*tok.u32 == DOTW) + { + //AnEXTEN|=EXT_IISNOIW; // Word outer displacement + AMn = MEMPOST; + tok.u32++; + } + // Defined, absolute values from $FFFF8000..$00007FFF get + // optimized to absolute short + else if (CHECK_OPTS(OPT_BASE_DISP) + && ((AnEXATTR & (TDB | DEFINED)) == DEFINED) + && (((uint32_t)AnEXVAL + 0x8000) < 0x10000)) { //AnEXTEN|=EXT_IISNOIW; // Word outer displacement with IS suppressed warn("outer displacement absolute value from $FFFF8000..$00007FFF optimised to absolute short"); } - - } // Check for final closing parenthesis - if (*tok==')') + if (*tok.u32 == ')') { - tok++; + tok.u32++; goto AnOK; } else return error("Closing parenthesis missing on addressing mode"); - } - else if (*tok==',') + else if (*tok.u32 == ',') { - *tok++; // ([bd,An,Xn.size*scale],od) + *tok.u32++; // ([bd,An,Xn.size*scale],od) + //Check for Xn - if ((*tok >= KW_A0) && (*tok <= KW_A7)) + if ((*tok.u32 >= KW_A0) && (*tok.u32 <= KW_A7)) { - AnEXTEN|=((*tok&7)<<12); - AnEXTEN|=EXT_A; - tok++; + AnEXTEN |= ((*tok.u32 & 7) << 12); + AnEXTEN |= EXT_A; + tok.u32++; } - else if ((*tok >= KW_D0) && (*tok <= KW_D7)) + else if ((*tok.u32 >= KW_D0) && (*tok.u32 <= KW_D7)) { - AnEXTEN|=((*tok&7)<<12); - AnEXTEN|=EXT_D; - tok++; + AnEXTEN |= ((*tok.u32 & 7) << 12); + AnEXTEN |= EXT_D; + tok.u32++; } // Check for size - { // ([bd,An/PC],Xn.W/L...) - switch ((int)*tok) - { // Index reg size: | .W | .L - case DOTW: - tok++; - break; - default: - break; - case DOTL: - tok++; - AnEXTEN |= EXT_L; - break; - case DOTB: // .B not allowed here... - goto badmode; - } - + { + // ([bd,An/PC],Xn.W/L...) + switch ((int)*tok.u32) + { + // Index reg size: | .W | .L + case DOTW: + tok.u32++; + break; + default: + break; + case DOTL: + tok.u32++; + AnEXTEN |= EXT_L; + break; + case DOTB: + // .B not allowed here... + goto badmode; } - + } + // Check for scale - if (*tok=='*') // ([bd,An/PC],Xn*...) - { - tok++; - if (*tok==CONST) // TODO: I suppose the scale is stored as a CONST and nothing else? So prolly the if is not needed? - tok++; - switch ((int)*tok++) + if (*tok.u32 == '*') // ([bd,An/PC],Xn*...) + { // scale: *1, *2, *4, *8 + tok.u32++; + + if (*tok.u32 == SYMBOL) { - case 1: - break; - case 2: - AnEXTEN |= EXT_TIMES2; - break; - case 4: - AnEXTEN |= EXT_TIMES4; - break; - case 8: - AnEXTEN |= EXT_TIMES8; - break; - default: + if (expr(AnEXPR, &AnEXVAL, &AnEXATTR, &AnESYM) != OK) + return error("scale factor expression must evaluate"); + switch (AnEXVAL) + { + case 1: + break; + case 2: + AnIXSIZ |= TIMES2; + break; + case 4: + AnIXSIZ |= TIMES4; + break; + case 8: + AnIXSIZ |= TIMES8; + break; + default: + goto badmode; + } + } + else if (*tok.u32++ != CONST || *tok.u32 > 8) goto badmode; - } + else + { + switch ((int)*tok.u32++) + { + case 1: + break; + case 2: + AnIXSIZ |= TIMES2; + break; + case 4: + AnIXSIZ |= TIMES4; + break; + case 8: + AnIXSIZ |= TIMES8; + break; + default: + goto badmode; + } + } } //Check for ] - if (*tok!=']') + if (*tok.u32 != ']') return error("Expected closing bracket ]"); - tok++; // Eat the bracket + tok.u32++; // Eat the bracket //Check for od - if (*tok==')') // ([bd,An/PC,Xn]... - { //od is non existant, get out of jail free card + if (*tok.u32 == ')') // ([bd,An/PC,Xn]... + { + //od is non existant, get out of jail free card //AnEXVAL=0; // zero outer displacement - AMn=MEMPRE; // let's say it's ([bd,An,Xn],od) with od suppressed then - AnEXTEN|=EXT_IISPREN; // No outer displacement - tok++; + AMn = MEMPRE; // let's say it's ([bd,An,Xn],od) with od suppressed then + AnEXTEN |= EXT_IISPREN; // No outer displacement + tok.u32++; goto AnOK; } - else if (*tok++!=',') + else if (*tok.u32++ != ',') return error("comma expected after ]"); - WARNING(Put symbol and constant checks here!) - if (expr(AnEXPR, &AnEXVAL, &AnEXATTR, &AnESYM) != OK) - goto badmode; - if (optim_flags[OPT_BASE_DISP] && AnEXVAL==0) + + if (*tok.u32 == SYMBOL || *tok.u32 == CONST) { - // od=0 so optimise it out - AMn=MEMPRE; // let's say it's ([bd,An],Xn,od) with od=0 then - AnEXTEN|=EXT_IISPRE0; // No outer displacement - tok++; - goto AnOK; + if (expr(AnEXPR, &AnEXVAL, &AnEXATTR, &AnESYM) != OK) + goto badmode; + + if (CHECK_OPTS(OPT_BASE_DISP) && (AnEXVAL == 0) && (AnEXATTR & DEFINED)) + { + // od=0 so optimise it out + AMn = MEMPRE; // let's say it's ([bd,An],Xn,od) with od=0 then + AnEXTEN |= EXT_IISPRE0; // No outer displacement + tok.u32++; + goto AnOK; + } } + // ([bd,An/PC,Xn],od) - if (*tok == DOTL) + if (*tok.u32 == DOTL) { // expr.L AMn = MEMPRE; - tok++; - - AnEXTEN|=EXT_IISPREL; - + tok.u32++; + AnEXTEN |= EXT_IISPREL; } else { - // expr.[W] - //tok++; - - AnEXTEN|=EXT_IISPREW; + // expr.[W] AMn = MEMPRE; + int expr_size = EXT_IISPREW; // Assume we have a .w value - // Is .W forced here? - if (*tok == DOTW) + if ((AnEXVAL + 0x8000) > 0x10000) { - tok++; + // Long value, so mark it as such for now + expr_size = EXT_IISPREL; + + // Defined, absolute values from $FFFF8000..$00007FFF + // get optimized to absolute short + if (CHECK_OPTS(OPT_BASE_DISP) + && ((AnEXATTR & (TDB | DEFINED)) == DEFINED) + && (((uint32_t)AnEXVAL + 0x8000) < 0x10000)) + { + expr_size = EXT_IISPREW; + warn("outer displacement absolute value from $FFFF8000..$00007FFF optimised to absolute short"); + } } - // Defined, absolute values from $FFFF8000..$00007FFF get optimized - // to absolute short - else if (optim_flags[OPT_BASE_DISP] && (AnEXATTR & (TDB|DEFINED)) == DEFINED && (AnEXVAL + 0x8000) < 0x10000) + AnEXTEN |= expr_size; // Assume we have a .w value + + // Is .W forced here? + if (*tok.u32 == DOTW) { - AnEXTEN|=EXT_IISPREW; - warn("outer displacement absolute value from $FFFF8000..$00007FFF optimised to absolute short"); + tok.u32++; + + if (expr_size == EXT_IISPREL) + return error("outer displacement value does not fit in .w size"); } } // Check for final closing parenthesis - if (*tok==')') + if (*tok.u32 == ')') { - tok++; + tok.u32++; goto AnOK; } else @@ -678,56 +881,55 @@ } else goto badmode; - - //goto unmode; } else - { // (expr... + { + // (expr... if (expr(AnEXPR, &AnEXVAL, &AnEXATTR, &AnESYM) != OK) return ERROR; // It could be that this is really just an expression prefixing a // register as a displacement... - if (*tok == ')') + if (*tok.u32 == ')') { - tok++; + tok.u32++; goto CHK_FOR_DISPn; } // Otherwise, check for PC & etc displacements... - if (*tok++ != ',') + if (*tok.u32++ != ',') goto badmode; - if ((*tok >= KW_A0) && (*tok <= KW_A7)) + if ((*tok.u32 >= KW_A0) && (*tok.u32 <= KW_A7)) { - AnREG = *tok & 7; - tok++; + AnREG = *tok.u32 & 7; + tok.u32++; - if (*tok == ',') + if (*tok.u32 == ',') { AMn = AINDEXED; goto AMn_IXN; } - else if (*tok == ')') - { - AMn = ADISP; - tok++; - goto AnOK; - } + else if (*tok.u32 == ')') + { + AMn = ADISP; + tok.u32++; + goto AnOK; + } else goto badmode; } - else if (*tok == KW_PC) + else if (*tok.u32 == KW_PC) { - if (*++tok == ',') + if (*++tok.u32 == ',') { // expr(PC,Xn...) AMn = PCINDEXED; goto AMn_IXN; } - else if (*tok == ')') + else if (*tok.u32 == ')') { - AMn = PCDISP; // expr(PC) - tok++; + AMn = PCDISP; // expr(PC) + tok.u32++; goto AnOK; } else @@ -737,56 +939,56 @@ goto badmode; } } - else if (*tok=='-' && tok[1]=='(' && ((tok[2]>=KW_A0) && (tok[2]<=KW_A7)) && tok[3]==')') + else if (*tok.u32 == '-' && tok.u32[1] == '(' && ((tok.u32[2] >= KW_A0) && (tok.u32[2] <= KW_A7)) && tok.u32[3] == ')') { AMn = APREDEC; - AnREG = tok[2] & 7; - tok += 4; + AnREG = tok.u32[2] & 7; + tok.u32 += 4; } - else if (*tok == KW_CCR) + else if (*tok.u32 == KW_CCR) { AMn = AM_CCR; - tok++; + tok.u32++; goto AnOK; } - else if (*tok == KW_SR) + else if (*tok.u32 == KW_SR) { AMn = AM_SR; - tok++; + tok.u32++; goto AnOK; } - else if (*tok == KW_USP) + else if (*tok.u32 == KW_USP) { AMn = AM_USP; - tok++; - AnREG=2; //Added this for the case of USP used in movec (see CREGlut in mach.c). Hopefully nothing gets broken! + tok.u32++; + AnREG = 2; //Added this for the case of USP used in movec (see CREGlut in mach.c). Hopefully nothing gets broken! goto AnOK; } - else if ((*tok>=KW_IC40) && (*tok<=KW_BC40)) + else if ((*tok.u32 >= KW_IC40) && (*tok.u32 <= KW_BC40)) { - AMn=CACHES; - AnREG=*tok++-KW_IC40; + AMn = CACHES; + AnREG = *tok.u32++ - KW_IC40; // After a cache keyword only a comma or EOL is allowed - if ((*tok!=',') && (*tok!=EOL)) + if ((*tok.u32 != ',') && (*tok.u32 != EOL)) return ERROR; goto AnOK; } - else if ((*tok>=KW_SFC) && (*tok<=KW_CRP)) + else if ((*tok.u32 >= KW_SFC) && (*tok.u32 <= KW_CRP)) { - AMn=CREG; - AnREG=(*tok++)-KW_SFC; + AMn = CREG; + AnREG = (*tok.u32++) - KW_SFC; goto AnOK; } - else if ((*tok>=KW_FP0) && (*tok<=KW_FP7)) + else if ((*tok.u32 >= KW_FP0) && (*tok.u32 <= KW_FP7)) { - AMn=FREG; - AnREG=(*tok++&7); + AMn = FREG; + AnREG = (*tok.u32++ & 7); } - else if ((*tok>=KW_FPIAR) && (*tok<=KW_FPCR)) + else if ((*tok.u32 >= KW_FPIAR) && (*tok.u32 <= KW_FPCR)) { - AMn=FPSCR; - AnREG=(1<<((*tok++)-KW_FPIAR+10)); + AMn = FPSCR; + AnREG = (1 << ((*tok.u32++) - KW_FPIAR + 10)); } // expr // expr.w @@ -801,25 +1003,27 @@ return ERROR; CHK_FOR_DISPn: - if (*tok == DOTW) + if (*tok.u32 == DOTW) { - // expr.W - tok++; + // expr.W + tok.u32++; AMn = ABSW; - if ((AnEXATTR & (TDB|DEFINED)) == DEFINED && (AnEXVAL < 0x10000)) + if (((AnEXATTR & (TDB | DEFINED)) == DEFINED) && (AnEXVAL < 0x10000)) AnEXVAL = (int32_t)(int16_t)AnEXVAL; // Sign extend value goto AnOK; } - else if (*tok != '(') + else if (*tok.u32 != '(') { // expr[.L] AMn = ABSL; // Defined, absolute values from $FFFF8000..$00007FFF get optimized // to absolute short - if (optim_flags[OPT_ABS_SHORT] && (AnEXATTR & (TDB|DEFINED)) == DEFINED && (AnEXVAL + 0x8000) < 0x10000) + if (CHECK_OPTS(OPT_ABS_SHORT) + && ((AnEXATTR & (TDB | DEFINED)) == DEFINED) + && (((uint32_t)AnEXVAL + 0x8000) < 0x10000)) { AMn = ABSW; @@ -828,49 +1032,49 @@ CHK_FOR_DISPn: } // Is .L forced here? - if (*tok == DOTL) + if (*tok.u32 == DOTL) { - tok++; + tok.u32++; AMn = ABSL; } goto AnOK; } - tok++; + tok.u32++; - if ((*tok >= KW_A0) && (*tok <= KW_A7)) + if ((*tok.u32 >= KW_A0) && (*tok.u32 <= KW_A7)) { - AnREG = *tok++ & 7; + AnREG = *tok.u32++ & 7; - if (*tok == ')') + if (*tok.u32 == ')') { AMn = ADISP; - tok++; + tok.u32++; goto AnOK; } AMn = AINDEXED; goto AMn_IXN; } - else if (*tok == KW_PC) + else if (*tok.u32 == KW_PC) { - if (*++tok == ')') + if (*++tok.u32 == ')') { AMn = PCDISP; - tok++; + tok.u32++; goto AnOK; } AMn = PCINDEXED; goto AMn_IXN; } + goto badmode; } // Addressing mode OK - - AnOK: +AnOK: ; }