int parse_instruction_NAME(struct _asm_context *asm_context, char *instr)
{
char token[TOKENLEN];
int token_type;
char instr_case[TOKENLEN];
int n;
lower_copy(instr_case, instr);
//token_type=get_token(asm_context, token, TOKENLEN);
//pushback(asm_context, token, token_type);
print_error_unknown_instr(instr, asm_context);
return -1;
}
int parse_instruction_mips(struct _asm_context *asm_context, char *instr)
{
struct _operand operands[3];
int operand_count = 0;
char token[TOKENLEN];
int token_type;
char instr_case[TOKENLEN];
int paren_flag;
int num,n,r;
int opcode;
#if 0
int n,cond,s=0;
int opcode=0;
#endif
lower_copy(instr_case, instr);
memset(operands, 0, sizeof(operands));
//printf("%s %s\n", instr_case, instr);
while(1)
{
token_type = tokens_get(asm_context, token, TOKENLEN);
if (token_type == TOKEN_EOL) { break; }
//printf("token=%s token_type=%d\n", token, token_type);
if (operand_count == 0 && IS_TOKEN(token,'.'))
{
strcat(instr_case, ".");
strcat(instr, ".");
token_type = tokens_get(asm_context, token, TOKENLEN);
strcat(instr, token);
n = 0;
while(token[n] != 0) { token[n]=tolower(token[n]); n++; }
strcat(instr_case, token);
continue;
}
do
{
paren_flag = 0;
if (IS_TOKEN(token,'('))
{
token_type = tokens_get(asm_context, token, TOKENLEN);
paren_flag = 1;
}
num = get_register_mips(token, 't');
if (num != -1)
{
operands[operand_count].value = num;
operands[operand_count].type = OPERAND_TREG;
if (paren_flag == 0) { break; }
}
else
if (paren_flag == 0)
{
num = get_register_mips(token, 'f');
if (num != -1)
{
operands[operand_count].value = num;
operands[operand_count].type = OPERAND_FREG;
break;
}
}
if (paren_flag == 1)
{
token_type = tokens_get(asm_context, token, TOKENLEN);
if (IS_NOT_TOKEN(token,')'))
{
print_error_unexp(token, asm_context);
return -1;
}
operands[operand_count].reg2 = operands[operand_count].value;
operands[operand_count].value = 0;
operands[operand_count].type = OPERAND_IMMEDIATE_RS;;
break;
}
operands[operand_count].type = OPERAND_IMMEDIATE;
if (asm_context->pass == 1)
{
eat_operand(asm_context);
break;
}
tokens_push(asm_context, token, token_type);
if (eval_expression(asm_context, &num) != 0)
{
print_error_unexp(token, asm_context);
return -1;
}
operands[operand_count].value = num;
token_type = tokens_get(asm_context, token, TOKENLEN);
if (IS_TOKEN(token,'('))
{
token_type = tokens_get(asm_context, token, TOKENLEN);
num = get_register_mips(token, 't');
if (num == -1)
{
print_error_unexp(token, asm_context);
return -1;
}
operands[operand_count].reg2 = num;
operands[operand_count].type = OPERAND_IMMEDIATE_RS;;
token_type = tokens_get(asm_context, token, TOKENLEN);
if (IS_NOT_TOKEN(token,')'))
{
print_error_unexp(token, asm_context);
return -1;
}
}
else
{
tokens_push(asm_context, token, token_type);
}
} while(0);
operand_count++;
token_type = tokens_get(asm_context, token, TOKENLEN);
if (token_type == TOKEN_EOL) { break; }
if (IS_NOT_TOKEN(token,','))
{
print_error_unexp(token, asm_context);
return -1;
}
if (operand_count == 3)
{
print_error_unexp(token, asm_context);
return -1;
}
}
if (asm_context->pass == 1)
{
add_bin32(asm_context, 0, IS_OPCODE);
return 4;
}
// Check pseudo-instructions
if (strcmp(instr_case, "move") == 0 && operand_count == 2)
{
strcpy(instr_case, "add");
operands[operand_count].value = 0;
operands[operand_count].type = OPERAND_TREG;;
operand_count++;
}
else
#if 0
if (strcmp(instr_case, "li") == 0 && operand_count == 2)
{
strcpy(instr_case, "addi");
memcpy(&operands[operand_count], &operands[operand_count-1], sizeof(struct _operand));
operands[operand_count-1].value = 0;
operands[operand_count-1].reg2 = 0;
operands[operand_count-1].type = OPERAND_TREG;;
operand_count++;
}
else
#endif
if (strcmp(instr_case, "nop") == 0 && operand_count == 0)
{
strcpy(instr_case, "add");
operand_count = 3;
}
else
if (strcmp(instr_case, "neg") == 0 && operand_count == 1)
{
strcpy(instr_case, "subu");
memcpy(&operands[1], &operands[0], sizeof(struct _operand));
operand_count = 3;
}
// R-Type Instruction [ op 6, rs 5, rt 5, rd 5, sa 5, function 6 ]
n = 0;
while(mips_r_table[n].instr != NULL)
{
if (strcmp(instr_case, mips_r_table[n].instr) == 0)
{
char shift_table[] = { 0, 11, 21, 16, 6 };
if (mips_r_table[n].operand_count != operand_count)
{
print_error_illegal_operands(instr, asm_context);
return -1;
}
opcode = mips_r_table[n].function;
for (r = 0; r < operand_count; r++)
{
if (operands[r].type != OPERAND_TREG)
{
//printf("%s %s %s\n", instr_case, mips_r_table[n].instr, instr);
printf("Error: '%s' expects registers at %s:%d\n", instr, asm_context->filename, asm_context->line);
return -1;
}
//printf("%s %d<<%d\n", instr, operands[r].value, shift_table[(int)mips_r_table[n].operand[r]]);
opcode |= operands[r].value << shift_table[(int)mips_r_table[n].operand[r]];
}
add_bin32(asm_context, opcode, IS_OPCODE);
return 4;
}
n++;
}
// J-Type Instruction [ op 6, target 26 ]
if (strcmp(instr_case, "ja") == 0 || strcmp(instr_case, "jal") == 0)
{
// FIXME - what to do with this
//unsigned int upper = (address + 4) & 0xf0000000;
if (operand_count != 1)
{
print_error_illegal_operands(instr, asm_context);
return -1;
}
if (operands[0].type != OPERAND_IMMEDIATE)
{
printf("Error: Expecting address for '%s' at %s:%d\n", instr, asm_context->filename, asm_context->line);
return -1;
}
if (instr_case[2] == 'l') { opcode = 2 << 26; }
else { opcode = 3 << 26; }
add_bin32(asm_context, opcode | operands[0].value >> 2, IS_OPCODE);
return 4;
}
// Coprocessor Instruction [ op 6, format 5, ft 5, fs 5, fd 5, funct 6 ]
n = 0;
while(mips_cop_table[n].instr != NULL)
{
if (strcmp(instr_case, mips_cop_table[n].instr) == 0)
{
char shift_table[] = { 0, 5, 11, 16 };
if (mips_cop_table[n].operand_count != operand_count)
{
print_error_illegal_operands(instr, asm_context);
return -1;
}
opcode = (0x11 << 26) | (mips_cop_table[n].format << 21) | mips_cop_table[n].function;
for (r = 0; r < operand_count; r++)
{
if (operands[r].type != OPERAND_FREG)
{
printf("Error: '%s' expects registers at %s:%d\n", instr, asm_context->filename, asm_context->line);
return -1;
}
opcode |= operands[r].value << shift_table[(int)mips_cop_table[n].operand[r]];
}
add_bin32(asm_context, opcode, IS_OPCODE);
return 4;
}
n++;
}
// I-Type? [ op 6, rs 5, rt 5, imm 16 ]
n = 0;
while(mips_i_table[n].instr != NULL)
{
if (strcmp(instr_case, mips_i_table[n].instr) == 0)
{
char shift_table[] = { 0, 0, 21, 16 };
if (mips_i_table[n].operand_count != operand_count)
{
print_error_opcount(instr, asm_context);
return -1;
}
opcode = mips_i_table[n].function << 26;
for (r = 0; r < mips_i_table[n].operand_count; r++)
{
if ((mips_i_table[n].operand[r] == MIPS_OP_RT ||
mips_i_table[n].operand[r] == MIPS_OP_RS) &&
operands[r].type == OPERAND_TREG)
{
opcode |= operands[r].value << shift_table[(int)mips_i_table[n].operand[r]];
}
else
if (mips_i_table[n].operand[r] == MIPS_OP_LABEL)
{
// FIXME - Calculate address
//if (operands[r].value > 65535 || operands[r].value < -32768)
//{
// print_error("Constant larger than 16 bit.", asm_context);
// return -1;
//}
opcode |= operands[r].value;
}
else
if (mips_i_table[n].operand[r] == MIPS_OP_IMMEDIATE)
{
if (operands[r].value > 65535 || operands[r].value < -32768)
{
print_error("Constant larger than 16 bit.", asm_context);
return -1;
}
opcode |= operands[r].value;
}
else
if (mips_i_table[n].operand[r] == MIPS_OP_IMMEDIATE_RS)
{
if (operands[r].value > 65535 || operands[r].value < -32768)
{
print_error("Constant larger than 16 bit.", asm_context);
return -1;
}
opcode |= operands[r].value;
opcode |= operands[r].reg2 << 21;
}
else
if (mips_i_table[n].operand[r] == MIPS_OP_RT_IS_0)
{
// Derr
}
else
if (mips_i_table[n].operand[r] == MIPS_OP_RT_IS_1)
{
opcode |= 1 << 16;
}
else
{
print_error_illegal_operands(instr, asm_context);
return -1;
}
opcode |= operands[r].value << shift_table[(int)mips_i_table[n].operand[r]];
}
add_bin32(asm_context, opcode, IS_OPCODE);
return 4;
}
n++;
}
print_error_unknown_instr(instr, asm_context);
return -1;
}
int parse_instruction_6800(struct _asm_context *asm_context, char *instr)
{
char token[TOKENLEN];
int token_type;
char instr_case[TOKENLEN];
int operand_type;
int operand_value;
int address_size = 0;
int opcode = -1;
int n;
lower_copy(instr_case, instr);
do
{
token_type = tokens_get(asm_context, token, TOKENLEN);
if (token_type == TOKEN_EOL || token_type == TOKEN_EOF)
{
operand_type = OPERAND_NONE;
break;
}
if (token_type == TOKEN_POUND)
{
operand_type = OPERAND_NUMBER;
if (eval_expression(asm_context, &operand_value) != 0)
{
if (asm_context->pass == 2)
{
print_error_illegal_expression(instr, asm_context);
return -1;
}
eat_operand(asm_context);
operand_value = 0xffff;
}
}
else
{
operand_type = OPERAND_ADDRESS;
tokens_push(asm_context, token, token_type);
if (eval_expression(asm_context, &operand_value) != 0)
{
if (asm_context->pass == 2)
{
print_error_illegal_expression(instr, asm_context);
return -1;
}
eat_operand(asm_context);
operand_value = 0xffff;
}
token_type = tokens_get(asm_context, token, TOKENLEN);
if (token_type == TOKEN_EOL || token_type == TOKEN_EOF) { break; }
if (IS_NOT_TOKEN(token, ','))
{
print_error_unexp(token, asm_context);
return -1;
}
if (expect_token_s(asm_context, "x") != 0) { return -1; }
operand_type = OPERAND_ADDRESS_COMMA_X;
}
} while(0);
for (n = 0; n < 256; n++)
{
if (table_6800[n].instr == NULL) { continue; }
if (strcmp(instr_case, table_6800[n].instr) == 0)
{
if (table_6800[n].operand_type == M6800_OP_NONE &&
operand_type == OPERAND_NONE)
{
add_bin8(asm_context, n, IS_OPCODE);
return 1;
}
else
if (table_6800[n].operand_type == M6800_OP_REL_OFFSET &&
operand_type == OPERAND_ADDRESS)
{
int offset = operand_value - (asm_context->address + 2);
if (asm_context->pass != 1)
{
if (offset < -128 || offset > 127)
{
print_error_range("Offset", -128, 127, asm_context);
return -1;
}
}
add_bin8(asm_context, n, IS_OPCODE);
add_bin8(asm_context, offset & 0xff, IS_OPCODE);
return 1;
}
else
if (table_6800[n].operand_type == M6800_OP_IMM16 &&
operand_type == OPERAND_NUMBER)
{
add_bin8(asm_context, n, IS_OPCODE);
add_bin8(asm_context, operand_value >> 8, IS_OPCODE);
add_bin8(asm_context, operand_value & 0xff, IS_OPCODE);
return 3;
}
else
if (table_6800[n].operand_type == M6800_OP_IMM8 &&
operand_type == OPERAND_NUMBER)
{
if (asm_context->pass != 1)
{
if (operand_value < -128 || operand_value > 255)
{
print_error_range("Offset", -128, 255, asm_context);
return -1;
}
}
add_bin8(asm_context, n, IS_OPCODE);
add_bin8(asm_context, operand_value & 0xff, IS_OPCODE);
return 2;
}
else
if (table_6800[n].operand_type == M6800_OP_NN_X &&
operand_type == OPERAND_ADDRESS_COMMA_X)
{
int offset = operand_value-(asm_context->address + 2);
if (asm_context->pass != 1)
{
if (offset < -128 || offset > 127)
{
print_error_range("Offset", -128, 127, asm_context);
return -1;
}
}
add_bin8(asm_context, n, IS_OPCODE);
add_bin8(asm_context, offset & 0xff, IS_OPCODE);
return 2;
}
else
if (table_6800[n].operand_type == M6800_OP_DIR_PAGE_8 &&
operand_type == OPERAND_ADDRESS)
{
if (asm_context->pass == 1)
{
if (address_size == 0 && (operand_value >= 0 && operand_value <= 255))
{
address_size = 1;
opcode = n;
}
}
if (memory_read_m(&asm_context->memory, asm_context->address) == 1)
{
add_bin8(asm_context, n, IS_OPCODE);
add_bin8(asm_context, operand_value, IS_OPCODE);
return 2;
}
}
else
if (table_6800[n].operand_type == M6800_OP_ABSOLUTE_16 &&
operand_type == OPERAND_ADDRESS)
{
if (asm_context->pass == 1)
{
if (address_size == 0)
{
address_size = 2;
opcode=n;
}
}
if (memory_read_m(&asm_context->memory, asm_context->address)==2)
{
add_bin8(asm_context, n, IS_OPCODE);
add_bin8(asm_context, operand_value >> 8, IS_OPCODE);
add_bin8(asm_context, operand_value & 0xff, IS_OPCODE);
return 2;
}
}
int parse_instruction_65xx(struct _asm_context *asm_context, char *instr)
{
char token[TOKENLEN];
char instr_case[TOKENLEN];
char temp[80];
int token_type;
int opcode;
int mode;
int num;
int index;
int i;
// make lower case
lower_copy(instr_case, instr);
// get instruction index
index = -1;
for(i = 0; i < 56; i++)
{
if(strcmp(instr_case, opcodes_65xx[i].name) == 0)
{
index = i;
break;
}
}
// no instruction found
if(index == -1)
{
print_error_unexp(token, asm_context);
return -1;
}
// default
mode = MODE_IMPLIED;
// begin parsing
token_type=get_token(asm_context, token, TOKENLEN);
if (token_type==TOKEN_EOL) { goto skip; }
if(IS_TOKEN(token, '#'))
{
mode = MODE_IMMEDIATE;
if(eval_expression(asm_context, &num) != 0)
{
if(asm_context->pass == 1)
{
eat_operand(asm_context);
}
else
{
print_error_unexp(token, asm_context);
return -1;
}
}
num = (unsigned char)num;
if(num < 0 || num > 0xFF)
print_error_unexp(token, asm_context);
}
else
if(IS_TOKEN(token, '('))
{
mode = MODE_INDIRECT;
if(eval_expression(asm_context, &num) != 0)
{
if(asm_context->pass == 1)
{
eat_operand(asm_context);
}
else
{
print_error_unexp(token, asm_context);
return -1;
}
}
token_type = get_token(asm_context, token, TOKENLEN);
if (token_type==TOKEN_EOL) { goto skip; }
if(IS_TOKEN(token, ','))
{
if(num < 0 || num > 0xFF)
{
print_error("X-Indexed Indirect value out of range", asm_context);
return -1;
}
mode = MODE_X_INDEXED_INDIRECT;
token_type = get_token(asm_context, token, TOKENLEN);
if (token_type==TOKEN_EOL) { goto skip; }
if(IS_NOT_TOKEN(token, 'x') && IS_NOT_TOKEN(token, 'X'))
{
print_error_unexp(token, asm_context);
return -1;
}
token_type = get_token(asm_context, token, TOKENLEN);
if (token_type==TOKEN_EOL) { goto skip; }
if(IS_NOT_TOKEN(token, ')'))
{
print_error_unexp(token, asm_context);
return -1;
}
}
else
if(IS_TOKEN(token, ')'))
{
mode = MODE_INDIRECT;
token_type = get_token(asm_context, token, TOKENLEN);
if (token_type==TOKEN_EOL) { goto skip; }
if(IS_TOKEN(token, ','))
{
if(num < 0 || num > 0xFF)
{
print_error("Indirect Y-Indexed value out of range", asm_context);
return -1;
}
mode = MODE_INDIRECT_Y_INDEXED;
token_type = get_token(asm_context, token, TOKENLEN);
if (token_type==TOKEN_EOL) { goto skip; }
if(IS_NOT_TOKEN(token, 'y') && IS_NOT_TOKEN(token, 'Y'))
{
print_error_unexp(token, asm_context);
return -1;
}
token_type = get_token(asm_context, token, TOKENLEN);
}
}
}
else
{
pushback(asm_context, token, token_type);
if(eval_expression(asm_context, &num) != 0)
{
if(asm_context->pass == 1)
{
eat_operand(asm_context);
}
else
{
print_error_unexp(token, asm_context);
return -1;
}
}
// try zero page
if((num >= 0x01 && num <= 0xFF)
&& opcodes_65xx[index].opcode[MODE_ZEROPAGE] != 0xFF)
{
mode = MODE_ZEROPAGE;
}
else
{
mode = MODE_ABSOLUTE;
}
token_type = get_token(asm_context, token, TOKENLEN);
if (token_type==TOKEN_EOL) { goto skip; }
if(IS_TOKEN(token, ','))
{
token_type = get_token(asm_context, token, TOKENLEN);
if (token_type==TOKEN_EOL) { goto skip; }
if(IS_TOKEN(token, 'x') || IS_TOKEN(token, 'X'))
{
if((num >= 0x00 && num <= 0xFF)
&& opcodes_65xx[index].opcode[MODE_ZEROPAGE_X_INDEXED] != 0xFF)
{
mode = MODE_ZEROPAGE_X_INDEXED;
}
else
{
mode = MODE_ABSOLUTE_X_INDEXED;
}
}
else
if(IS_TOKEN(token, 'y') || IS_TOKEN(token, 'Y'))
{
if((num >= 0x00 && num <= 0xFF)
&& opcodes_65xx[index].opcode[MODE_ZEROPAGE_Y_INDEXED] != 0xFF)
{
mode = MODE_ZEROPAGE_Y_INDEXED;
}
else
{
mode = MODE_ABSOLUTE_Y_INDEXED;
}
}
else
{
print_error_unexp(token, asm_context);
return -1;
}
}
if(num < 0 || num > 0xFFFF)
{
print_error("Address out of range", asm_context);
return -1;
}
}
skip:
// branches are in table positions 3 - 10
if(index >= 3 && index <= 10)
{
if(mode == MODE_IMMEDIATE)
{
mode = MODE_RELATIVE;
num = (unsigned char)num;
}
else
{
mode = MODE_RELATIVE;
if(asm_context->pass == 2)
{
// calculate branch offset, need to add 2 to current
// address, since thats where the program counter would be
num -= (asm_context->address + 2);
if(num < -128 || num > 127)
{
print_error("Branch out of range", asm_context);
return -1;
}
num = (unsigned char)num;
}
}
}
// see if theres an opcode for this instruction and mode
opcode = opcodes_65xx[index].opcode[mode];
if(asm_context->pass == 2 && opcode == 0xFF)
{
sprintf(temp, "No instruction found for addressing mode %d", mode);
print_error(temp, asm_context);
return -1;
}
// warn if indirect JMP bug will happen
if((opcode == 0x6C) && ((num & 0xFF) == 0xFF))
{
print_error("Warning: Indirect JMP to upper page boundary (6502 bug)", asm_context);
}
//printf("address=%04x, num=%04x\n", asm_context->address, num);
// write opcode
//printf("%04x, %02x\n", asm_context->address, opcode & 0xFF);
add_bin8(asm_context, opcode & 0xFF, IS_OPCODE);
// write low byte first, if any
if(mode_bytes[mode] > 1)
{
//printf("%04x, %02x\n", asm_context->address, num & 0xFF);
add_bin8(asm_context, num & 0xFF, IS_OPCODE);
}
// then high byte, if any
if(mode_bytes[mode] > 2)
{
//printf("%04x, %02x\n", asm_context->address, (num >> 8) & 0xFF);
add_bin8(asm_context, (num >> 8) & 0xFF, IS_OPCODE);
}
int parse_instruction_thumb(struct _asm_context *asm_context, char *instr)
{
char token[TOKENLEN];
int token_type;
char instr_case[TOKENLEN];
struct _operand operands[3];
int operand_count=0;
int matched=0;
int num;
int n;
lower_copy(instr_case, instr);
memset(&operands, 0, sizeof(operands));
while(1)
{
token_type=tokens_get(asm_context, token, TOKENLEN);
if (token_type==TOKEN_EOL || token_type==TOKEN_EOF)
{
break;
}
if (operand_count>=3)
{
print_error_opcount(instr, asm_context);
return -1;
}
if ((num=get_register_thumb(token))!=-1)
{
operands[operand_count].type=OPERAND_REGISTER;
operands[operand_count].value=num;
token_type=tokens_get(asm_context, token, TOKENLEN);
if (IS_TOKEN(token,'!'))
{
operands[operand_count].type=OPERAND_REGISTER_INC;
}
else
{
tokens_push(asm_context, token, token_type);
}
}
else
if ((num=get_h_register_thumb(token))!=-1)
{
operands[operand_count].type=OPERAND_H_REGISTER;
operands[operand_count].value=num;
}
else
if (token_type==TOKEN_POUND)
{
if (eval_expression(asm_context, &num)!=0)
{
if (asm_context->pass==1)
{
eat_operand(asm_context);
}
else
{
print_error_illegal_expression(instr, asm_context);
return -1;
}
}
operands[operand_count].type=OPERAND_NUMBER;
operands[operand_count].value=num;
}
else
if (IS_TOKEN(token,'['))
{
token_type=tokens_get(asm_context, token, TOKENLEN);
if (strcasecmp(token,"pc")==0 || strcasecmp(token,"r15")==0)
{
operands[operand_count].type=OPERAND_PC_AND_REG_IN_BRACKETS;
}
else
if (strcasecmp(token,"sp")==0 || strcasecmp(token,"r13")==0)
{
operands[operand_count].type=OPERAND_SP_AND_REG_IN_BRACKETS;
}
else
if ((num=get_register_thumb(token))!=-1)
{
operands[operand_count].type=OPERAND_TWO_REG_IN_BRACKETS;
operands[operand_count].value=num;
}
else
{
print_error_unexp(token, asm_context);
return -1;
}
if (expect_token_s(asm_context,",")!=0) { return -1; }
token_type=tokens_get(asm_context, token, TOKENLEN);
if ((num=get_register_thumb(token))!=-1)
{
operands[operand_count].second_value=num;
if (operands[operand_count].type==OPERAND_PC_AND_NUM_IN_BRACKETS)
{
operands[operand_count].type=OPERAND_PC_AND_REG_IN_BRACKETS;
}
}
else
if (token_type==TOKEN_POUND)
{
if (eval_expression(asm_context, &num)!=0)
{
if (asm_context->pass==1)
{
eat_operand(asm_context);
}
else
{
print_error_illegal_expression(instr, asm_context);
return -1;
}
}
operands[operand_count].second_value=num;
operands[operand_count].type++;
}
else
{
print_error_unexp(token, asm_context);
return -1;
}
if (expect_token_s(asm_context,"]")!=0) { return -1; }
}
else
if (IS_TOKEN(token,'{'))
{
operands[operand_count].type=OPERAND_REGISTER_LIST;
if (read_register_list(asm_context, &operands[operand_count])==-1)
{
return -1;
}
}
else
{
tokens_push(asm_context, token, token_type);
if (eval_expression(asm_context, &num)!=0)
{
if (asm_context->pass==1)
{
eat_operand(asm_context);
}
else
{
print_error_illegal_expression(instr, asm_context);
return -1;
}
}
operands[operand_count].value=num;
operands[operand_count].type=OPERAND_ADDRESS;
}
operand_count++;
token_type=tokens_get(asm_context, token, TOKENLEN);
if (token_type==TOKEN_EOL) break;
if (IS_NOT_TOKEN(token,',') || operand_count==3)
{
print_error_unexp(token, asm_context);
return -1;
}
}
n=0;
while(table_thumb[n].instr!=NULL)
{
if (strcmp(table_thumb[n].instr,instr_case)==0)
{
matched=1;
switch(table_thumb[n].type)
{
case OP_SHIFT:
if (operand_count==3 &&
operands[0].type==OPERAND_REGISTER &&
operands[1].type==OPERAND_REGISTER &&
operands[2].type==OPERAND_NUMBER)
{
if (check_reg_lower(asm_context, operands[0].value)==-1) { return -1; }
if (check_reg_lower(asm_context, operands[1].value)==-1) { return -1; }
if (check_range(asm_context, "Offset", operands[2].value, 0, 31)==-1) { return -1; }
#if 0
if (operands[2].value<0 || operands[2].value>31)
{
print_error_range("Offset", 0, 31, asm_context);
return -1;
}
#endif
add_bin16(asm_context, table_thumb[n].opcode|(operands[2].value<<6)|(operands[1].value<<3)|(operands[0].value), IS_OPCODE);
return 2;
}
break;
case OP_ADD_SUB:
if (operand_count==3 &&
operands[0].type==OPERAND_REGISTER &&
operands[1].type==OPERAND_REGISTER &&
operands[2].type==OPERAND_REGISTER)
{
add_bin16(asm_context, table_thumb[n].opcode|(operands[2].value<<6)|(operands[1].value<<3)|(operands[0].value), IS_OPCODE);
return 2;
}
else
if (operand_count==3 &&
operands[0].type==OPERAND_REGISTER &&
operands[1].type==OPERAND_REGISTER &&
operands[2].type==OPERAND_NUMBER)
{
add_bin16(asm_context, table_thumb[n].opcode|(1<<10)|(operands[2].value<<6)|(operands[1].value<<3)|(operands[0].value), IS_OPCODE);
return 2;
}
break;
case OP_IMM:
if (operand_count==2 &&
operands[0].type==OPERAND_REGISTER &&
operands[1].type==OPERAND_NUMBER)
{
add_bin16(asm_context, table_thumb[n].opcode|(operands[0].value<<8)|(operands[1].value), IS_OPCODE);
return 2;
}
break;
case OP_ALU:
if (operand_count==2 &&
operands[0].type==OPERAND_REGISTER &&
operands[1].type==OPERAND_REGISTER)
{
add_bin16(asm_context, table_thumb[n].opcode|(operands[1].value<<3)|(operands[0].value), IS_OPCODE);
return 2;
}
break;
case OP_HI:
if (operand_count==2)
{
if (operands[0].type==OPERAND_H_REGISTER &&
operands[1].type==OPERAND_REGISTER)
{
add_bin16(asm_context, table_thumb[n].opcode|(1<<7)|(operands[1].value<<3)|(operands[0].value), IS_OPCODE);
return 2;
}
else
if (operands[0].type==OPERAND_REGISTER &&
operands[1].type==OPERAND_H_REGISTER)
{
add_bin16(asm_context, table_thumb[n].opcode|(1<<6)|(operands[1].value<<3)|(operands[0].value), IS_OPCODE);
return 2;
}
else
if (operands[0].type==OPERAND_H_REGISTER &&
operands[1].type==OPERAND_H_REGISTER)
{
add_bin16(asm_context, table_thumb[n].opcode|(1<<7)|(1<<6)|(operands[1].value<<3)|(operands[0].value), IS_OPCODE);
return 2;
}
}
break;
case OP_HI_BX:
if (operand_count==1 &&
operands[0].type==OPERAND_REGISTER)
{
add_bin16(asm_context, table_thumb[n].opcode|(operands[0].value<<3), IS_OPCODE);
return 2;
}
else
if (operand_count==1 &&
operands[0].type==OPERAND_H_REGISTER)
{
add_bin16(asm_context, table_thumb[n].opcode|(1<<6)|(operands[0].value<<3), IS_OPCODE);
return 2;
}
break;
case OP_PC_RELATIVE_LOAD:
// REVIEW - Docs say this is a 10 bit, 4 byte aligned number
// and it seems unsigned. Why isn't this signed?
if (operand_count==2 &&
operands[0].type==OPERAND_REGISTER &&
operands[1].type==OPERAND_PC_AND_NUM_IN_BRACKETS)
{
if (check_range(asm_context, "Offset", operands[1].second_value, 0, 1020)==-1) { return -1; }
if (is_4_byte_aligned(asm_context, operands[1].second_value)==-1) { return -1; }
#if 0
if ((operands[1].second_value&0x3)!=0)
{
print_error("Offset not 4 byte aligned", asm_context);
return -1;
}
#endif
add_bin16(asm_context, table_thumb[n].opcode|(operands[0].value<<8)|(operands[1].second_value>>2), IS_OPCODE);
return 2;
}
if (operand_count==2 &&
operands[0].type==OPERAND_REGISTER &&
operands[1].type==OPERAND_ADDRESS)
{
// REVIEW: This looks so odd. Docs say: The value of the PC will
// be 4 bytes greater than the address of this instruction, but bit
// 1 of the PC is forced to 0 to ensure it is word aligned.
if (is_4_byte_aligned(asm_context, operands[1].value)==-1) { return -1; }
#if 0
if ((operands[1].value&0x3)!=0)
{
print_error("Offset not 4 byte aligned", asm_context);
return -1;
}
#endif
int offset=operands[1].value-((asm_context->address+4)&0xfffffffc);
if (asm_context->pass==1) { offset=0; }
if (check_range(asm_context, "Offset", offset, 0, 1020)==-1) { return -1; }
#if 0
if (offset<0 || offset>1020)
{
print_error_range("Offset", 0, 1020, asm_context);
return -1;
}
#endif
add_bin16(asm_context, table_thumb[n].opcode|(operands[0].value<<8)|(offset>>2), IS_OPCODE);
return 2;
}
break;
case OP_LOAD_STORE:
if (operand_count==2 &&
operands[0].type==OPERAND_REGISTER &&
operands[1].type==OPERAND_TWO_REG_IN_BRACKETS)
{
add_bin16(asm_context, table_thumb[n].opcode|(operands[1].second_value<<6)|(operands[1].value<<3)|(operands[0].value), IS_OPCODE);
return 2;
}
break;
case OP_LOAD_STORE_SIGN_EXT_HALF_WORD:
if (operand_count==2 &&
operands[0].type==OPERAND_REGISTER &&
operands[1].type==OPERAND_TWO_REG_IN_BRACKETS)
{
add_bin16(asm_context, table_thumb[n].opcode|(operands[1].second_value<<6)|(operands[1].value<<3)|(operands[0].value), IS_OPCODE);
return 2;
}
break;
case OP_LOAD_STORE_IMM_OFFSET_WORD:
if (operand_count==2 &&
operands[0].type==OPERAND_REGISTER &&
operands[1].type==OPERAND_REG_AND_NUM_IN_BRACKETS)
{
int offset=operands[1].second_value;
if (check_range(asm_context, "Offset", offset, 0, 124)==-1) { return -1; }
if (is_4_byte_aligned(asm_context, offset)==-1) { return -1; }
#if 0
if ((offset&0x3)!=0)
{
print_error("Offset not 4 byte aligned", asm_context);
return -1;
}
#endif
offset=offset>>2;
add_bin16(asm_context, table_thumb[n].opcode|(offset<<6)|(operands[1].value<<3)|(operands[0].value), IS_OPCODE);
return 2;
}
break;
case OP_LOAD_STORE_IMM_OFFSET:
if (operand_count==2 &&
operands[0].type==OPERAND_REGISTER &&
operands[1].type==OPERAND_REG_AND_NUM_IN_BRACKETS)
{
if (check_range(asm_context, "Offset", operands[1].second_value, 0, 31)==-1) { return -1; }
add_bin16(asm_context, table_thumb[n].opcode|(operands[1].second_value<<6)|(operands[1].value<<3)|(operands[0].value), IS_OPCODE);
return 2;
}
break;
case OP_LOAD_STORE_IMM_OFFSET_HALF_WORD:
if (operand_count==2 &&
operands[0].type==OPERAND_REGISTER &&
operands[1].type==OPERAND_REG_AND_NUM_IN_BRACKETS)
{
int offset=operands[1].second_value;
if (check_range(asm_context, "Offset", offset, 0, 60)==-1) { return -1; }
if (is_2_byte_aligned(asm_context, offset)==-1) { return -1; }
#if 0
if ((offset&0x1)!=0)
{
print_error("Offset not 2 byte aligned", asm_context);
return -1;
}
#endif
offset=offset>>1;
add_bin16(asm_context, table_thumb[n].opcode|(offset<<6)|(operands[1].value<<3)|(operands[0].value), IS_OPCODE);
return 2;
}
break;
case OP_LOAD_STORE_SP_RELATIVE:
if (operand_count==2 &&
operands[0].type==OPERAND_REGISTER &&
operands[1].type==OPERAND_SP_AND_NUM_IN_BRACKETS)
{
if (check_range(asm_context, "Offset", operands[1].value, 0, 1020)==-1) { return -1; }
if (is_4_byte_aligned(asm_context, operands[1].value)==-1) { return -1; }
add_bin16(asm_context, table_thumb[n].opcode|(operands[0].value<<8)|(operands[1].second_value>>2), IS_OPCODE);
return 2;
}
break;
case OP_LOAD_ADDRESS:
if (operand_count==3 &&
operands[0].type==OPERAND_REGISTER &&
operands[1].type==OPERAND_H_REGISTER &&
operands[2].type==OPERAND_NUMBER)
{
if (check_range(asm_context, "Offset", operands[2].value, 0, 1020)==-1) { return -1; }
if (is_4_byte_aligned(asm_context, operands[2].value)==-1) { return -1; }
if (operands[1].value==7)
{
add_bin16(asm_context, table_thumb[n].opcode|(operands[0].value<<8)|(operands[2].value>>2), IS_OPCODE);
return 2;
}
else
if (operands[1].value==5)
