&& ((am0 == ADISP) && (a0reg == a1reg) && (a0exattr & DEFINED))
&& ((a0exval > 0) && (a0exval <= 8)))
{
- inst = B16(01010000, 01001000) | ((a0exval & 7) << 9) | (a0reg);
+ inst = B16(01010000, 01001000) | (((uint16_t)a0exval & 7) << 9) | (a0reg);
D_word(inst);
warn("lea size(An),An converted to addq #size,An");
return OK;
}
else
{
- AddFixup(FU_QUICK, sloc, a0expr);
+ AddFixup(FU_QUICK, sloc, (TOKENPTR)a0expr);
D_word(inst);
}
int m_dbra(WORD inst, WORD siz)
{
- uint32_t v;
-
siz = siz;
inst |= a0reg;
D_word(inst);
if ((a1exattr & TDB) != cursect)
return error(rel_error);
- v = a1exval - sloc;
+ uint32_t v = a1exval - sloc;
if (v + 0x8000 > 0x10000)
return error(range_error);
}
else
{
- AddFixup(FU_WORD | FU_PCREL | FU_ISBRA, sloc, a1expr);
+ AddFixup(FU_WORD | FU_PCREL | FU_ISBRA, sloc, (TOKENPTR)a1expr);
D_word(0);
}
siz = siz;
if (am0 == DREG && am1 == DREG)
- m = 0x0040; // Dn,Dn
+ m = 0x0040; // Dn,Dn
else if (am0 == AREG && am1 == AREG)
- m = 0x0048; // An,An
+ m = 0x0048; // An,An
else
{
if (am0 == AREG)
- { // Dn,An or An,Dn
- m = a1reg; // Get AREG into a1reg
+ { // Dn,An or An,Dn
+ m = a1reg; // Get AREG into a1reg
a1reg = a0reg;
a0reg = m;
}
int siz = (int)size;
// Try to optimize to MOVEQ
+ // N.B.: We can get away with casting the uint64_t to a 32-bit value
+ // because it checks for a SIZL (i.e., a 32-bit value).
if (CHECK_OPTS(OPT_MOVEL_MOVEQ)
&& (siz == SIZL) && (am0 == IMMED) && (am1 == DREG)
&& ((a0exattr & (TDB | DEFINED)) == DEFINED)
- && (a0exval + 0x80 < 0x100))
+ && ((uint32_t)a0exval + 0x80 < 0x100))
{
m_moveq((WORD)0x7000, (WORD)0);
int m_move30(WORD inst, WORD size)
{
int siz = (int)size;
- // TODO: is extra_addressing necessary/correct?
+ // TODO: is extra_addressing necessary/correct?
//inst |= siz_12[siz] | reg_9[a1reg & 7] | a0reg | extra_addressing[am0 - ABASE];
- inst |= siz_12[siz] | reg_9[a1reg & 7] | a0reg;
+ inst |= siz_12[siz] | reg_9[a1reg & 7] | a0reg;
D_word(inst);
// Arrange for future fixup
if (!(a0exattr & DEFINED))
{
- AddFixup(FU_BYTE | FU_SEXT, sloc + 1, a0expr);
+ AddFixup(FU_BYTE | FU_SEXT, sloc + 1, (TOKENPTR)a0expr);
a0exval = 0;
}
- else if (a0exval + 0x100 >= 0x200)
+ else if ((uint32_t)a0exval + 0x100 >= 0x200)
return error(range_error);
inst |= reg_9[a1reg] | (a0exval & 0xFF);
int m_movep(WORD inst, WORD siz)
{
// Tell ea0gen to lay off the 0(a0) optimisations on this one
- movep = 1;
+ movep = 1;
if (siz == SIZL)
inst |= 0x0040;
ea0gen(siz);
}
- movep = 0;
+ movep = 0;
return 0;
}
//
int m_br(WORD inst, WORD siz)
{
- uint32_t v;
-
if (a0exattr & DEFINED)
{
if ((a0exattr & TDB) != cursect)
return error(rel_error);
//}
- v = a0exval - (sloc + 2);
+ uint32_t v = (uint32_t)a0exval - (sloc + 2);
// Optimize branch instr. size
if (siz == SIZN)
if (siz == SIZB || siz == SIZS)
{
// .B
- AddFixup(FU_BBRA | FU_PCREL | FU_SEXT, sloc, a0expr);
+ AddFixup(FU_BBRA | FU_PCREL | FU_SEXT, sloc, (TOKENPTR)a0expr);
D_word(inst);
return OK;
}
{
// .W
D_word(inst);
- AddFixup(FU_WORD | FU_PCREL | FU_LBRA | FU_ISBRA, sloc, a0expr);
+ AddFixup(FU_WORD | FU_PCREL | FU_LBRA | FU_ISBRA, sloc, (TOKENPTR)a0expr);
D_word(0);
}
}
else
{
- AddFixup(FU_QUICK, sloc, a0expr);
+ AddFixup(FU_QUICK, sloc, (TOKENPTR)a0expr);
D_word(inst);
}
//
int m_movem(WORD inst, WORD siz)
{
- uint32_t eval;
+ uint64_t eval;
WORD i;
WORD w;
WORD rmask;
if (siz == SIZL)
inst |= 0x0040;
- if (*tok == '#')
+ if (*tok.u32 == '#')
{
// Handle #<expr>, ea
- tok++;
+ tok.u32++;
if (abs_expr(&eval) != OK)
return OK;
goto immed1;
}
- if ((*tok >= KW_D0) && (*tok <= KW_A7))
+ if ((*tok.u32 >= KW_D0) && (*tok.u32 <= KW_A7))
{
// <rlist>, ea
if (reglist(&rmask) < 0)
return OK;
immed1:
- if (*tok++ != ',')
+ if (*tok.u32++ != ',')
return error("missing comma");
if (amode(0) < 0)
inst |= 0x0400 | am0 | a0reg;
- if (*tok++ != ',')
+ if (*tok.u32++ != ',')
return error("missing comma");
- if (*tok == EOL)
+ if (*tok.u32 == EOL)
return error("missing register list");
- if (*tok == '#')
+ if (*tok.u32 == '#')
{
// ea, #<expr>
- tok++;
+ tok.u32++;
if (abs_expr(&eval) != OK)
return OK;
if ((a0exattr & TDB) != cursect)
return error(rel_error);
- uint32_t v = a0exval - (sloc + 2);
+ uint32_t v = (uint32_t)a0exval - (sloc + 2);
D_word(inst);
D_long(v);
else
{
// .L
- AddFixup(FU_LONG | FU_PCREL | FU_SEXT, sloc, a0expr);
+ AddFixup(FU_LONG | FU_PCREL | FU_SEXT, sloc, (TOKENPTR)a0expr);
D_word(inst);
return OK;
}
//
int m_bfop(WORD inst, WORD siz)
{
-
- if ((bfval1 > 31) || (bfval1 < 0))
- return error("bfxxx offset: immediate value must be between 0 and 31");
+ if ((bfval1 > 31) || (bfval1 < 0))
+ return error("bfxxx offset: immediate value must be between 0 and 31");
// First instruction word - just the opcode and first EA
- // Note: both am1 is ORed because solely of bfins - maybe it's a good idea to make a dedicated function for it?
+ // Note: both am1 is ORed because solely of bfins - maybe it's a good idea
+ // to make a dedicated function for it?
if (am1 == AM_NONE)
- {
+ {
am1 = 0;
- }
- else
- {
- if (bfval2 > 31 || bfval2 < 0)
- return error("bfxxx width: immediate value must be between 0 and 31");
-
- // For Dw both immediate and register number are stuffed
- // into the same field O_o
- bfparam2 = (bfval2 << 0);
- }
-
- if (bfparam1 == 0)
- {
- bfparam1 = (bfval1 << 6);
- }
- else
- {
- bfparam1 = bfval1 << 12;
- }
+ }
+ else
+ {
+ if (bfval2 > 31 || bfval2 < 0)
+ return error("bfxxx width: immediate value must be between 0 and 31");
+
+ // For Dw both immediate and register number are stuffed
+ // into the same field O_o
+ bfparam2 = (bfval2 << 0);
+ }
+
+ if (bfparam1 == 0)
+ bfparam1 = (bfval1 << 6);
+ else
+ bfparam1 = bfval1 << 12;
D_word((inst | am0 | a0reg | am1 | a1reg));
ea0gen(siz); // Generate EA
// Second instruction word - Dest register (if exists), Do, Offset, Dw, Width
-
inst = bfparam1 | bfparam2;
if (am1 == DREG)
if (a0exval > 255)
return error(range_error);
- inst = a0exval;
+ inst = (uint16_t)a0exval;
D_word(inst);
}
else
return error(undef_error);
- ea1gen(siz);
+ ea1gen(siz);
return OK;
}
// Dc
- if ((*tok < KW_D0) && (*tok > KW_D7))
+ if ((*tok.u32 < KW_D0) && (*tok.u32 > KW_D7))
return error("CAS accepts only data registers");
- inst2 = (*tok++) & 7;
+ inst2 = (*tok.u32++) & 7;
- if (*tok++ != ',')
+ if (*tok.u32++ != ',')
return error("missing comma");
// Du
- if ((*tok < KW_D0) && (*tok > KW_D7))
+ if ((*tok.u32 < KW_D0) && (*tok.u32 > KW_D7))
return error("CAS accepts only data registers");
- inst2 |= ((*tok++) & 7) << 6;
+ inst2 |= ((*tok.u32++) & 7) << 6;
- if (*tok++ != ',')
+ if (*tok.u32++ != ',')
return error("missing comma");
// ea
if (modes > 1)
return error("too many ea fields");
- if (*tok!=EOL)
+ if (*tok.u32 != EOL)
return error("extra (unexpected) text found");
// Reject invalud ea modes
}
// Dc1
- if ((*tok < KW_D0) && (*tok > KW_D7))
+ if ((*tok.u32 < KW_D0) && (*tok.u32 > KW_D7))
return error("CAS2 accepts only data registers for Dx1:Dx2 pairs");
- inst2 = (*tok++) & 7;
+ inst2 = (*tok.u32++) & 7;
- if (*tok++ != ':')
+ if (*tok.u32++ != ':')
return error("missing colon");
// Dc2
- if ((*tok < KW_D0) && (*tok > KW_D7))
+ if ((*tok.u32 < KW_D0) && (*tok.u32 > KW_D7))
return error("CAS2 accepts only data registers for Dx1:Dx2 pairs");
- inst3 = (*tok++) & 7;
+ inst3 = (*tok.u32++) & 7;
- if (*tok++ != ',')
+ if (*tok.u32++ != ',')
return error("missing comma");
// Du1
- if ((*tok < KW_D0) && (*tok > KW_D7))
+ if ((*tok.u32 < KW_D0) && (*tok.u32 > KW_D7))
return error("CAS2 accepts only data registers for Dx1:Dx2 pairs");
- inst2 |= ((*tok++) & 7) << 6;
+ inst2 |= ((*tok.u32++) & 7) << 6;
- if (*tok++ != ':')
+ if (*tok.u32++ != ':')
return error("missing colon");
// Du2
- if ((*tok < KW_D0) && (*tok > KW_D7))
+ if ((*tok.u32 < KW_D0) && (*tok.u32 > KW_D7))
return error("CAS2 accepts only data registers for Dx1:Dx2 pairs");
- inst3 |= ((*tok++) & 7) << 6;
+ inst3 |= ((*tok.u32++) & 7) << 6;
- if (*tok++ != ',')
+ if (*tok.u32++ != ',')
return error("missing comma");
// Rn1
- if (*tok++ != '(')
+ if (*tok.u32++ != '(')
return error("missing (");
- if ((*tok >= KW_D0) && (*tok <= KW_D7))
- inst2 |= (((*tok++) & 7) << 12) | (0 << 15);
- else if ((*tok >= KW_A0) && (*tok <= KW_A7))
- inst2 |= (((*tok++) & 7) << 12) | (1 << 15);
+ if ((*tok.u32 >= KW_D0) && (*tok.u32 <= KW_D7))
+ inst2 |= (((*tok.u32++) & 7) << 12) | (0 << 15);
+ else if ((*tok.u32 >= KW_A0) && (*tok.u32 <= KW_A7))
+ inst2 |= (((*tok.u32++) & 7) << 12) | (1 << 15);
else
return error("CAS accepts either data or address registers for Rn1:Rn2 pair");
- if (*tok++ != ')')
+ if (*tok.u32++ != ')')
return error("missing (");
- if (*tok++ != ':')
+ if (*tok.u32++ != ':')
return error("missing colon");
// Rn2
- if (*tok++ != '(')
+ if (*tok.u32++ != '(')
return error("missing (");
- if ((*tok >= KW_D0) && (*tok <= KW_D7))
- inst3 |= (((*tok++) & 7) << 12) | (0 << 15);
- else if ((*tok >= KW_A0) && (*tok <= KW_A7))
- inst3 |= (((*tok++) & 7) << 12) | (1 << 15);
+ if ((*tok.u32 >= KW_D0) && (*tok.u32 <= KW_D7))
+ inst3 |= (((*tok.u32++) & 7) << 12) | (0 << 15);
+ else if ((*tok.u32 >= KW_A0) && (*tok.u32 <= KW_A7))
+ inst3 |= (((*tok.u32++) & 7) << 12) | (1 << 15);
else
return error("CAS accepts either data or address registers for Rn1:Rn2 pair");
- if (*tok++ != ')')
+ if (*tok.u32++ != ')')
return error("missing (");
- if (*tok != EOL)
+ if (*tok.u32 != EOL)
return error("extra (unexpected) text found");
D_word(inst);
if ((a0exattr & TDB) != cursect)
return error(rel_error);
- uint32_t v = a0exval - (sloc + 2);
+ uint32_t v = (uint32_t)a0exval - (sloc + 2);
// Optimize branch instr. size
if (siz == SIZL)
if (siz == SIZL)
{
// .L
- D_word(inst);
- AddFixup(FU_LONG | FU_PCREL | FU_SEXT, sloc, a0expr);
- D_long(0);
+ D_word(inst);
+ AddFixup(FU_LONG | FU_PCREL | FU_SEXT, sloc, (TOKENPTR)a0expr);
+ D_long(0);
return OK;
}
else
{
// .W
D_word(inst);
- AddFixup(FU_WORD | FU_PCREL | FU_SEXT, sloc, a0expr);
+ AddFixup(FU_WORD | FU_PCREL | FU_SEXT, sloc, (TOKENPTR)a0expr);
D_word(0);
}
//
int m_cpdbr(WORD inst, WORD siz)
{
- CHECK00;
-
- uint32_t v;
- WORD condition = inst & 0x1f; // Grab condition sneakily placed in the lower 5 bits of inst
- inst &= 0xffe0; // And then mask them out - you ain't seen me, roit?
+ CHECK00;
- inst |= (1 << 9); // Bolt on FPU id
- inst |= a0reg;
+ uint32_t v;
+ WORD condition = inst & 0x1F; // Grab condition sneakily placed in the lower 5 bits of inst
+ inst &= 0xFFE0; // And then mask them out - you ain't seen me, roit?
- D_word(inst);
+ inst |= (1 << 9); // Bolt on FPU id
+ inst |= a0reg;
- D_word(condition);
+ D_word(inst);
- if (a1exattr & DEFINED)
- {
- if ((a1exattr & TDB) != cursect)
- return error(rel_error);
+ D_word(condition);
- v = a1exval - sloc;
+ if (a1exattr & DEFINED)
+ {
+ if ((a1exattr & TDB) != cursect)
+ return error(rel_error);
- if (v + 0x8000 > 0x10000)
- return error(range_error);
+ v = (uint32_t)a1exval - sloc;
- D_word(v);
- }
- else
- {
- AddFixup(FU_WORD | FU_PCREL | FU_ISBRA, sloc, a1expr);
- D_word(0);
- }
+ if (v + 0x8000 > 0x10000)
+ return error(range_error);
- return OK;
+ D_word(v);
+ }
+ else
+ {
+ AddFixup(FU_WORD | FU_PCREL | FU_ISBRA, sloc, (TOKENPTR)a1expr);
+ D_word(0);
+ }
+ return OK;
}
{
//move16 (ax)+,(xxx).L
inst |= 0 << 3;
- v = a1exval;
+ v = (int)a1exval;
}
}
else if (am0 == ABSL)
{
//move16 (xxx).L,(ax)+
inst |= 1 << 3;
- v = a0exval;
+ v = (int)a0exval;
}
else //APOSTINC
{
//move16 (xxx).L,(ax)
inst |= 3 << 3;
- v = a0exval;
+ v = (int)a0exval;
}
}
else if (am0 == AIND)
{
//move16 (ax),(xxx).L
inst |= 2 << 3;
- v = a1exval;
+ v = (int)a1exval;
}
D_word(inst);
//
int m_pack(WORD inst, WORD siz)
{
- CHECK00;
+ CHECK00;
- if (siz != SIZN)
- return error("bad size suffix");
+ if (siz != SIZN)
+ return error("bad size suffix");
- if (*tok >= KW_D0 && *tok <= KW_D7)
- {
- // Dx,Dy,#<adjustment>
- inst |= (0 << 3); // R/M
- inst |= (*tok++ & 7);
- if (*tok != ',' && tok[2] != ',')
- return error("missing comma");
- if (tok[1] < KW_D0 && tok[1] > KW_D7)
- return error(syntax_error);
- inst |= ((tok[1] & 7)<<9);
- tok = tok + 3;
- D_word(inst);
- // Fall through for adjustment (common in both valid cases)
- }
- else if (*tok == '-')
- {
- // -(Ax),-(Ay),#<adjustment>
- inst |= (1 << 3); // R/M
- tok++; // eat the minus
- if ((*tok != '(') && (tok[2]!=')') && (tok[3]!=',') && (tok[4] != '-') && (tok[5] != '(') && (tok[7] != ')') && (tok[8] != ','))
- return error(syntax_error);
- if (tok[1] < KW_A0 && tok[1] > KW_A7)
- return error(syntax_error);
- if (tok[5] < KW_A0 && tok[6] > KW_A7)
- return error(syntax_error);
- inst |= ((tok[1] & 7) << 0);
- inst |= ((tok[6] & 7) << 9);
- tok = tok + 9;
- D_word(inst);
- // Fall through for adjustment (common in both valid cases)
- }
- else
- return error("invalid syntax");
+ if (*tok.u32 >= KW_D0 && *tok.u32 <= KW_D7)
+ {
+ // Dx,Dy,#<adjustment>
+ inst |= (0 << 3); // R/M
+ inst |= (*tok.u32++ & 7);
+ if (*tok.u32 != ',' && tok.u32[2] != ',')
+ return error("missing comma");
- if ((*tok != CONST) && (*tok != SYMBOL) && (*tok != '-'))
- return error(syntax_error);
+ if (tok.u32[1] < KW_D0 && tok.u32[1] > KW_D7)
+ return error(syntax_error);
- if (expr(a0expr, &a0exval, &a0exattr, &a0esym)==ERROR)
- return ERROR;
+ inst |= ((tok.u32[1] & 7)<<9);
+ tok.u32 = tok.u32 + 3;
+ D_word(inst);
+ // Fall through for adjustment (common in both valid cases)
+ }
+ else if (*tok.u32 == '-')
+ {
+ // -(Ax),-(Ay),#<adjustment>
+ inst |= (1 << 3); // R/M
+ tok.u32++; // eat the minus
+
+ if ((*tok.u32 != '(') && (tok.u32[2]!=')') && (tok.u32[3]!=',') && (tok.u32[4] != '-') && (tok.u32[5] != '(') && (tok.u32[7] != ')') && (tok.u32[8] != ','))
+ return error(syntax_error);
+
+ if (tok.u32[1] < KW_A0 && tok.u32[1] > KW_A7)
+ return error(syntax_error);
- if ((a0exattr & DEFINED) == 0)
- return error(undef_error);
+ if (tok.u32[5] < KW_A0 && tok.u32[6] > KW_A7)
+ return error(syntax_error);
+
+ inst |= ((tok.u32[1] & 7) << 0);
+ inst |= ((tok.u32[6] & 7) << 9);
+ tok.u32 = tok.u32 + 9;
+ D_word(inst);
+ // Fall through for adjustment (common in both valid cases)
+ }
+ else
+ return error("invalid syntax");
- if (a0exval + 0x8000 > 0x10000)
- return error("");
+ if ((*tok.u32 != CONST) && (*tok.u32 != SYMBOL) && (*tok.u32 != '-'))
+ return error(syntax_error);
- if (*tok != EOL)
- return error(extra_stuff);
+ if (expr((TOKENPTR)a0expr, &a0exval, &a0exattr, &a0esym) == ERROR)
+ return ERROR;
- D_word((a0exval & 0xffff));
+ if ((a0exattr & DEFINED) == 0)
+ return error(undef_error);
+ if (a0exval + 0x8000 > 0x10000)
+ return error("");
+ if (*tok.u32 != EOL)
+ return error(extra_stuff);
- return OK;
+ D_word((a0exval & 0xFFFF));
+ return OK;
}
if (am1 == AM_NONE)
inst |= (0 << 6) | (a1reg);
- switch (a0reg)
- {
- case 0: // KW_IC40
+ switch (a0reg)
+ {
+ case 0: // KW_IC40
inst |= (2 << 6) | (a1reg);
- break;
- case 1: // KW_DC40
+ break;
+ case 1: // KW_DC40
inst |= (1 << 6) | (a1reg);
- break;
- case 2: // KW_BC40
+ break;
+ case 2: // KW_BC40
inst |= (3 << 6) | (a1reg);
- break;
- }
+ break;
+ }
D_word(inst);
return OK;
return error(unsupport);
if (siz == SIZB)
- {
inst |= 0 << 6;
- }
else if (siz == SIZL)
- {
inst |= 2 << 6;
- }
else // SIZW/SIZN
- {
inst |= 1 << 6;
- }
if (am0 == DREG)
{
//
int m_pflusha(WORD inst, WORD siz)
{
- if (activecpu == CPU_68030)
- {
- D_word(inst);
- inst = (1 << 13) | (1 << 10) | (0 << 5) | 0;
- D_word(inst);
- return OK;
-}
- else if (activecpu == CPU_68040)
- {
- inst = B16(11110101, 00011000);
- D_word(inst);
- return OK;
- }
- else
- return error(unsupport);
-
- return OK;
+ if (activecpu == CPU_68030)
+ {
+ D_word(inst);
+ inst = (1 << 13) | (1 << 10) | (0 << 5) | 0;
+ D_word(inst);
+ return OK;
+ }
+ else if (activecpu == CPU_68040)
+ {
+ inst = B16(11110101, 00011000);
+ D_word(inst);
+ return OK;
+ }
+ else
+ return error(unsupport);
+ return OK;
}
{
if (activecpu == CPU_68030)
{
- // PFLUSH FC, MASK
- // PFLUSH FC, MASK, < ea >
- WORD mask, fc;
- switch ((int)*tok)
- {
- case '#':
- tok++;
- if (*tok != CONST && *tok != SYMBOL)
- return error("function code should be an expression");
- if (expr(a0expr, &a0exval, &a0exattr, &a0esym) == ERROR)
- return ERROR;
- if ((a0exattr & DEFINED) == 0)
- return error("function code immediate should be defined");
- if (a0exval > 7 && a0exval < 0)
- return error("function code out of range (0-7)");
- fc = a0exval;
- break;
- case KW_D0:
- case KW_D1:
- case KW_D2:
- case KW_D3:
- case KW_D4:
- case KW_D5:
- case KW_D6:
- case KW_D7:
- fc = (1 << 4) | (*tok++ & 7);
- break;
- case KW_SFC:
- fc = 0;
- tok++;
- break;
- case KW_DFC:
- fc = 1;
- tok++;
- break;
- default:
- return error(syntax_error);
- }
-
- if (*tok++ != ',')
- return error("comma exptected");
-
- if (*tok++ != '#')
- return error("mask should be an immediate value");
- if (*tok != CONST && *tok != SYMBOL)
- return error("mask is supposed to be immediate");
- if (expr(a0expr, &a0exval, &a0exattr, &a0esym) == ERROR)
- return ERROR;
- if ((a0exattr & DEFINED) == 0)
- return error("mask immediate value should be defined");
- if (a0exval > 7 && a0exval < 0)
- return error("function code out of range (0-7)");
- mask = a0exval << 5;
-
- if (*tok == EOL)
- {
- // PFLUSH FC, MASK
- D_word(inst);
- inst = (1 << 13) | fc | mask | (4 << 10);
- D_word(inst);
- return OK;
- }
- else if (*tok == ',')
- {
- // PFLUSH FC, MASK, < ea >
- tok++;
- if (amode(0) == ERROR)
- return ERROR;
- if (*tok != EOL)
- return error(extra_stuff);
- if (am0 == AIND || am0 == ABSW || am0 == ABSL || am0 == ADISP || am0 == ADISP || am0 == AINDEXED || am0 == ABASE || am0 == MEMPOST || am0 == MEMPRE)
- {
- inst |= am0 | a0reg;
- D_word(inst);
- inst = (1 << 13) | fc | mask | (6 << 10);
- D_word(inst);
- ea0gen(siz);
- return OK;
- }
- else
- return error("unsupported addressing mode");
-
- }
- else
- return error(syntax_error);
-
- return OK;
+ // PFLUSH FC, MASK
+ // PFLUSH FC, MASK, < ea >
+ WORD mask, fc;
+ switch ((int)*tok.u32)
+ {
+ case '#':
+ tok.u32++;
+
+ if (*tok.u32 != CONST && *tok.u32 != SYMBOL)
+ return error("function code should be an expression");
+
+ if (expr((TOKENPTR)a0expr, &a0exval, &a0exattr, &a0esym) == ERROR)
+ return ERROR;
+
+ if ((a0exattr & DEFINED) == 0)
+ return error("function code immediate should be defined");
+
+ if (a0exval > 7 && a0exval < 0)
+ return error("function code out of range (0-7)");
+
+ fc = (uint16_t)a0exval;
+ break;
+ case KW_D0:
+ case KW_D1:
+ case KW_D2:
+ case KW_D3:
+ case KW_D4:
+ case KW_D5:
+ case KW_D6:
+ case KW_D7:
+ fc = (1 << 4) | (*tok.u32++ & 7);
+ break;
+ case KW_SFC:
+ fc = 0;
+ tok.u32++;
+ break;
+ case KW_DFC:
+ fc = 1;
+ tok.u32++;
+ break;
+ default:
+ return error(syntax_error);
+ }
+
+ if (*tok.u32++ != ',')
+ return error("comma exptected");
+
+ if (*tok.u32++ != '#')
+ return error("mask should be an immediate value");
+
+ if (*tok.u32 != CONST && *tok.u32 != SYMBOL)
+ return error("mask is supposed to be immediate");
+
+ if (expr((TOKENPTR)a0expr, &a0exval, &a0exattr, &a0esym) == ERROR)
+ return ERROR;
+
+ if ((a0exattr & DEFINED) == 0)
+ return error("mask immediate value should be defined");
+
+ if (a0exval > 7 && a0exval < 0)
+ return error("function code out of range (0-7)");
+
+ mask = (uint16_t)a0exval << 5;
+
+ if (*tok.u32 == EOL)
+ {
+ // PFLUSH FC, MASK
+ D_word(inst);
+ inst = (1 << 13) | fc | mask | (4 << 10);
+ D_word(inst);
+ return OK;
+ }
+ else if (*tok.u32 == ',')
+ {
+ // PFLUSH FC, MASK, < ea >
+ tok.u32++;
+
+ if (amode(0) == ERROR)
+ return ERROR;
+
+ if (*tok.u32 != EOL)
+ return error(extra_stuff);
+
+ if (am0 == AIND || am0 == ABSW || am0 == ABSL || am0 == ADISP || am0 == ADISP || am0 == AINDEXED || am0 == ABASE || am0 == MEMPOST || am0 == MEMPRE)
+ {
+ inst |= am0 | a0reg;
+ D_word(inst);
+ inst = (1 << 13) | fc | mask | (6 << 10);
+ D_word(inst);
+ ea0gen(siz);
+ return OK;
+ }
+ else
+ return error("unsupported addressing mode");
+
+ }
+ else
+ return error(syntax_error);
+
+ return OK;
}
else if (activecpu == CPU_68040 || activecpu == CPU_68060)
{
- // PFLUSH(An)
- // PFLUSHN(An)
- if (*tok != '(' && tok[2] != ')')
- return error(syntax_error);
- if (tok[1] < KW_A0 && tok[1] > KW_A7)
- return error("expected (An)");
- if ((inst & 7) == 7)
- // With pflushn/pflush there's no easy way to
- // distinguish between the two in 68040 mode.
- // Ideally the opcode bitfields would have been
- // hardcoded in 68ktab but there is aliasing
- // between 68030 and 68040 opcode. So we just
- // set the 3 lower bits to 1 in pflushn inside
- // 68ktab and detect it here.
- inst = (inst & 0xff8) | 8;
- inst |= (tok[1] & 7) | (5 << 8);
- if (tok[3] != EOL)
- return error(extra_stuff);
- D_word(inst);
+ // PFLUSH(An)
+ // PFLUSHN(An)
+ if (*tok.u32 != '(' && tok.u32[2] != ')')
+ return error(syntax_error);
+
+ if (tok.u32[1] < KW_A0 && tok.u32[1] > KW_A7)
+ return error("expected (An)");
+
+ if ((inst & 7) == 7)
+ // With pflushn/pflush there's no easy way to distinguish between
+ // the two in 68040 mode. Ideally the opcode bitfields would have
+ // been hardcoded in 68ktab but there is aliasing between 68030
+ // and 68040 opcode. So we just set the 3 lower bits to 1 in
+ // pflushn inside 68ktab and detect it here.
+ inst = (inst & 0xff8) | 8;
+
+ inst |= (tok.u32[1] & 7) | (5 << 8);
+
+ if (tok.u32[3] != EOL)
+ return error(extra_stuff);
+
+ D_word(inst);
}
else
return error(unsupport);
//
int m_pload(WORD inst, WORD siz, WORD extension)
{
- // TODO: 68551 support is not added yet.
- // None of the ST series of computers had
- // a 68020 + 68551 socket and since this is
- // an Atari targetted assembler....
- CHECKNO30;
+ // TODO: 68551 support is not added yet.
+ // None of the ST series of computers had a 68020 + 68551 socket and since
+ // this is an Atari targetted assembler...
+ CHECKNO30;
- inst |= am1;
+ inst |= am1;
- D_word(inst);
+ D_word(inst);
- switch (am0)
+ switch (am0)
{
- case CREG:
- if (a0reg == KW_SFC - KW_SFC)
- {
- inst = 0;
- }
- else if (a0reg == KW_DFC - KW_SFC)
- {
- inst = 1;
- }
- else
- return error("illegal control register specified");
- break;
- case DREG:
- inst = (1 << 3) | a0reg;
- break;
- case IMMED:
- if ((a0exattr & DEFINED) == 0)
- return error("constant value must be defined");
- inst = (2 << 3) | a0exval;
- break;
- }
+ case CREG:
+ if (a0reg == KW_SFC - KW_SFC)
+ inst = 0;
+ else if (a0reg == KW_DFC - KW_SFC)
+ inst = 1;
+ else
+ return error("illegal control register specified");
+
+ break;
+ case DREG:
+ inst = (1 << 3) | a0reg;
+ break;
+ case IMMED:
+ if ((a0exattr & DEFINED) == 0)
+ return error("constant value must be defined");
- inst |= extension | (1 << 13);
- D_word(inst);
+ inst = (2 << 3) | (uint16_t)a0exval;
+ break;
+ }
- ea1gen(siz);
+ inst |= extension | (1 << 13);
+ D_word(inst);
+
+ ea1gen(siz);
- return OK;
+ return OK;
}
int m_ploadr(WORD inst, WORD siz)
{
- return m_pload(inst, siz, 1 << 9);
+ return m_pload(inst, siz, 1 << 9);
}
int m_ploadw(WORD inst, WORD siz)
{
- return m_pload(inst, siz, 0 << 9);
+ return m_pload(inst, siz, 0 << 9);
}
//
{
int inst2,reg;
- // TODO: 68551 support is not added yet.
- // None of the ST series of computers had
- // a 68020 + 68551 socket and since this is
- // an Atari targetted assembler....
- // (same for 68EC030)
- CHECKNO30;
+ // TODO: 68551 support is not added yet.
+ // None of the ST series of computers had
+ // a 68020 + 68551 socket and since this is
+ // an Atari targetted assembler....
+ // (same for 68EC030)
+ CHECKNO30;
inst2 = inst & (1 << 8); //Copy the flush bit over to inst2 in case we're called from m_pmovefd
inst &= ~(1 << 8); //And mask it out
else
return error("pmove sez: Wut?");
- // The instruction is a quad-word (8 byte) operation
- // for the CPU root pointer and the supervisor root pointer.
- // It is a long - word operation for the translation control register
- // and the transparent translation registers(TT0 and TT1).
- // It is a word operation for the MMU status register.
+ // The instruction is a quad-word (8 byte) operation
+ // for the CPU root pointer and the supervisor root pointer.
+ // It is a long - word operation for the translation control register
+ // and the transparent translation registers(TT0 and TT1).
+ // It is a word operation for the MMU status register.
if (((reg == (KW_URP - KW_SFC)) || (reg == (KW_SRP - KW_SFC)))
&& ((siz != SIZD) && (siz != SIZN)))
if (am0 == CREG)
{
- inst |= am1 | a1reg;
+ inst |= am1 | a1reg;
D_word(inst);
}
else if (am1 == CREG)
switch (reg + KW_SFC)
{
- case KW_TC:
- inst2 |= (0 << 10) + (1 << 14); break;
- case KW_SRP:
- inst2 |= (2 << 10) + (1 << 14); break;
- case KW_CRP:
- inst2 |= (3 << 10) + (1 << 14); break;
- case KW_TT0:
+ case KW_TC:
+ inst2 |= (0 << 10) + (1 << 14); break;
+ case KW_SRP:
+ inst2 |= (2 << 10) + (1 << 14); break;
+ case KW_CRP:
+ inst2 |= (3 << 10) + (1 << 14); break;
+ case KW_TT0:
inst2 |= (2 << 10) + (0 << 13); break;
- case KW_TT1:
+ case KW_TT1:
inst2 |= (3 << 10) + (0 << 13); break;
- case KW_MMUSR:
- if (am0 == CREG)
- inst2 |= (1 << 9) + (3 << 13);
- else
- inst2 |= (0 << 9) + (3 << 13);
- break;
- default:
- return error("unsupported register");
- break;
+ case KW_MMUSR:
+ if (am0 == CREG)
+ inst2 |= (1 << 9) + (3 << 13);
+ else
+ inst2 |= (0 << 9) + (3 << 13);
+ break;
+ default:
+ return error("unsupported register");
+ break;
}
D_word(inst2);
- if (am0 == CREG)
- {
- ea1gen(siz);
- }
- else if (am1 == CREG)
- {
- ea0gen(siz);
- }
+ if (am0 == CREG)
+ ea1gen(siz);
+ else if (am1 == CREG)
+ ea0gen(siz);
return OK;
}
return m_pmove(inst | (1 << 8), siz);
}
-
//
// ptrapcc (68851)
//
#define gen_ptrapcc(name,opcode) \
int m_##name(WORD inst, WORD siz) \
{ \
- CHECKNO20; \
- if (siz == SIZW) \
- { \
- D_word(inst); \
- D_word(B8(opcode)); \
- D_word(a0exval); \
- } \
- else \
- { \
- inst |= 3; \
- D_word(inst); \
- D_word(B8(opcode)); \
- D_long(a0exval); \
- } \
- return OK; \
+ CHECKNO20; \
+ if (siz == SIZW) \
+ { \
+ D_word(inst); \
+ D_word(B8(opcode)); \
+ D_word(a0exval); \
+ } \
+ else \
+ { \
+ inst |= 3; \
+ D_word(inst); \
+ D_word(B8(opcode)); \
+ D_long(a0exval); \
+ } \
+ return OK; \
}\
int m_##name##n(WORD inst, WORD siz) \
{ \
- CHECKNO20; \
- D_word(inst); \
- D_word(B8(opcode)); \
- return OK; \
+ CHECKNO20; \
+ D_word(inst); \
+ D_word(B8(opcode)); \
+ return OK; \
}
gen_ptrapcc(ptrapbs,00000000)
switch (siz)
{
- case SIZB: inst |= (6 << 10); break;
+ case SIZB: inst |= (6 << 10); break;
case SIZW: inst |= (4 << 10); break;
case SIZL: inst |= (0 << 10); break;
case SIZN:
if ((a1exattr & TDB) != cursect)
return error(rel_error);
- uint32_t v = a1exval - sloc;
+ uint32_t v = (uint32_t)a1exval - sloc;
if ((v + 0x8000) > 0x10000)
return error(range_error);
}
else
{
- AddFixup(FU_WORD | FU_PCREL | FU_ISBRA, sloc, a1expr);
+ AddFixup(FU_WORD | FU_PCREL | FU_ISBRA, sloc, (TOKENPTR)a1expr);
D_word(0);
}
// Source specifier
switch (siz)
{
- case SIZB: inst |= (6 << 10); break;
+ case SIZB: inst |= (6 << 10); break;
case SIZW: inst |= (4 << 10); break;
case SIZL: inst |= (0 << 10); break;
case SIZN:
case SIZS: inst |= (1 << 10); break;
case SIZD: inst |= (5 << 10); break;
case SIZX: inst |= (2 << 10); break;
- case SIZP: inst |= (3 << 10);
- // In P size we have 2 cases: {#k} where k is immediate
- // and {Dn} where Dn=Data register
+ case SIZP: inst |= (3 << 10);
+ // In P size we have 2 cases: {#k} where k is immediate
+ // and {Dn} where Dn=Data register
if (bfparam1)
- {
- // Dn
+ {
+ // Dn
inst |= 1 << 12;
- inst |= bfval1 << 4;
- }
- else
- {
- // #k
- if (bfval1>63 && bfval1<-64)
- return error("K-factor must be between -64 and 63");
- inst |= bfval1 & 127;
- }
+ inst |= bfval1 << 4;
+ }
+ else
+ {
+ // #k
+ if (bfval1 > 63 && bfval1 < -64)
+ return error("K-factor must be between -64 and 63");
+
+ inst |= bfval1 & 127;
+ }
break;
default:
// Source specifier
switch (siz)
{
- case SIZB: inst |= (6 << 10); break;
+ case SIZB: inst |= (6 << 10); break;
case SIZW: inst |= (4 << 10); break;
case SIZL: inst |= (0 << 10); break;
case SIZN:
case SIZS: inst |= (1 << 10); break;
case SIZD: inst |= (5 << 10); break;
case SIZX: inst |= (2 << 10); break;
- case SIZP: inst |= (3 << 10); break;
+ case SIZP: inst |= (3 << 10); break;
default:
return error("Something bad happened, possibly.");
break;
if (siz == SIZX || siz==SIZN)
{
- if ((*tok >= KW_FP0) && (*tok <= KW_FP7))
+ if ((*tok.u32 >= KW_FP0) && (*tok.u32 <= KW_FP7))
{
//fmovem.x <rlist>,ea
if (fpu_reglist_left(®mask) < 0)
return OK;
- if (*tok++ != ',')
+ if (*tok.u32++ != ',')
return error("missing comma");
if (amode(0) < 0)
ea0gen(siz);
return OK;
}
- else if ((*tok >= KW_D0) && (*tok <= KW_D7))
+ else if ((*tok.u32 >= KW_D0) && (*tok.u32 <= KW_D7))
{
// fmovem.x Dn,ea
- datareg = (*tok++ & 7) << 10;
+ datareg = (*tok.u32++ & 7) << 10;
- if (*tok++ != ',')
+ if (*tok.u32++ != ',')
return error("missing comma");
if (amode(0) < 0)
inst |= am0 | a0reg;
- if (*tok++ != ',')
+ if (*tok.u32++ != ',')
return error("missing comma");
- if ((*tok >= KW_FP0) && (*tok <= KW_FP7))
+ if ((*tok.u32 >= KW_FP0) && (*tok.u32 <= KW_FP7))
{
//fmovem.x ea,<rlist>
if (fpu_reglist_right(®mask) < 0)
else
{
// fmovem.x ea,Dn
- datareg = (*tok++ & 7) << 10;
+ datareg = (*tok.u32++ & 7) << 10;
D_word(inst);
inst = (1 << 15) | (1 << 14) | (0 << 13) | (3 << 11) | (datareg << 4);
D_word(inst);
}
else if (siz == SIZL)
{
- if ((*tok == KW_FPCR) || (*tok == KW_FPSR) || (*tok == KW_FPIAR))
+ if ((*tok.u32 == KW_FPCR) || (*tok.u32 == KW_FPSR) || (*tok.u32 == KW_FPIAR))
{
//fmovem.l <rlist>,ea
regmask = (1 << 15) | (1 << 13);
fmovem_loop_1:
- if (*tok == KW_FPCR)
+ if (*tok.u32 == KW_FPCR)
{
regmask |= (1 << 12);
- tok++;
+ tok.u32++;
goto fmovem_loop_1;
}
- if (*tok == KW_FPSR)
+ if (*tok.u32 == KW_FPSR)
{
regmask |= (1 << 11);
- tok++;
+ tok.u32++;
goto fmovem_loop_1;
}
- if (*tok == KW_FPIAR)
+ if (*tok.u32 == KW_FPIAR)
{
regmask |= (1 << 10);
- tok++;
+ tok.u32++;
goto fmovem_loop_1;
}
- if ((*tok == '/') || (*tok == '-'))
+ if ((*tok.u32 == '/') || (*tok.u32 == '-'))
{
- tok++;
+ tok.u32++;
goto fmovem_loop_1;
}
- if (*tok++ != ',')
+ if (*tok.u32++ != ',')
return error("missing comma");
if (amode(0) < 0)
inst |= am0 | a0reg;
- if (*tok++ != ',')
+ if (*tok.u32++ != ',')
return error("missing comma");
regmask = (1 << 15) | (0 << 13);
fmovem_loop_2:
- if (*tok == KW_FPCR)
+ if (*tok.u32 == KW_FPCR)
{
regmask |= (1 << 12);
- tok++;
+ tok.u32++;
goto fmovem_loop_2;
}
- if (*tok == KW_FPSR)
+ if (*tok.u32 == KW_FPSR)
{
regmask |= (1 << 11);
- tok++;
+ tok.u32++;
goto fmovem_loop_2;
}
- if (*tok == KW_FPIAR)
+ if (*tok.u32 == KW_FPIAR)
{
regmask |= (1 << 10);
- tok++;
+ tok.u32++;
goto fmovem_loop_2;
}
- if ((*tok == '/') || (*tok == '-'))
+ if ((*tok.u32 == '/') || (*tok.u32 == '-'))
{
- tok++;
+ tok.u32++;
goto fmovem_loop_2;
}
- if (*tok!=EOL)
+ if (*tok.u32 != EOL)
return error("extra (unexpected) text found");
inst |= am0 | a0reg;
#define gen_FTRAPcc(name,opcode) \
int m_##name (WORD inst, WORD siz) \
{ \
- if (siz==SIZW) \
- { \
- D_word(inst); \
- D_word(B8(opcode)); \
- D_word(a0exval); \
- } \
- else \
- { \
- inst|=3; \
- D_word(inst); \
- D_word(B8(opcode)); \
- D_long(a0exval); \
- } \
- return OK;\
+ if (siz==SIZW) \
+ { \
+ D_word(inst); \
+ D_word(B8(opcode)); \
+ D_word(a0exval); \
+ } \
+ else \
+ { \
+ inst|=3; \
+ D_word(inst); \
+ D_word(B8(opcode)); \
+ D_long(a0exval); \
+ } \
+ return OK;\
} \
int m_##name##n (WORD inst, WORD siz) \
{ \
- D_word(inst); \
- D_word(B8(opcode)); \
- return OK;\
+ D_word(inst); \
+ D_word(B8(opcode)); \
+ return OK;\
}
gen_FTRAPcc(ftrapeq ,00000001)