diff options
Diffstat (limited to 'sim/z8k/writecode.c')
| -rw-r--r-- | sim/z8k/writecode.c | 2011 |
1 files changed, 2011 insertions, 0 deletions
diff --git a/sim/z8k/writecode.c b/sim/z8k/writecode.c new file mode 100644 index 00000000000..8b4c868edea --- /dev/null +++ b/sim/z8k/writecode.c @@ -0,0 +1,2011 @@ + +/* generate instructions for Z8KSIM + Copyright (C) 1992, 1993 Free Software Foundation, Inc. + +This file is part of Z8KSIM + +Z8KSIM is free software; you can redistribute it and/or modify +it under the terms of the GNU General Public License as published by +the Free Software Foundation; either version 2, or (at your option) +any later version. + +Z8KSIM is distributed in the hope that it will be useful, +but WITHOUT ANY WARRANTY; without even the implied warranty of +MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +GNU General Public License for more details. + +You should have received a copy of the GNU General Public License +along with Z8KZIM; if not, write to the Free Software +Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ + +/* This program generates the code which emulates each of the z8k + instructions + + code goes into three files, tc-gen1.h, tc-gen2.h and tc-gen3.h. + which file being made depends upon the options + + -1 tc-gen1.h contains the fully expanded code for some selected + opcodes, (those in the quick.c list) + + -2 tc-gen2.h contains a list of pointers to functions, one for each + opcode. It points to functions in tc-gen3.h and tc-gen1.h + depending upon quick.c + + -3 tc-gen3.h contains all the opcodes in unexpanded form. + + -b3 tc-genb3.h same as -3 but for long pointers + + -m regenerates list.c, which is an inverted list of opcodes to + pointers into the z8k dissassemble opcode table, it's just there + to makes things faster. + */ + +/* steve chamberlain + sac@cygnus.com */ + +#include "config.h" + +#include <ansidecl.h> +#include <stdio.h> +#ifdef HAVE_STDLIB_H +#include <stdlib.h> +#endif +#ifdef HAVE_STRING_H +#include <string.h> +#else +#ifdef HAVE_STRINGS_H +#include <strings.h> +#endif +#endif + +#define NICENAMES + +#define DEFINE_TABLE +#include "../opcodes/z8k-opc.h" + +#define NOPS 500 + +#define DIRTY_HACK 0 /* Enable if your gcc can't cope with huge tables */ +extern short z8k_inv_list[]; +struct opcode_value +{ + int n; + struct opcode_value *next; +}; + +#define NICENAMES +int BIG; + +static char *reg_names[] = +{"bad", "src", "dst", "aux_a", "aux_b", "aux_r", "aux_x"}; + +#define IS_DST(x) ((x & 0xf) == 2) +#define IS_SRC(x) ((x & 0xf)==1) +#define SIZE_ADDRESS (BIG ? 8 : 4) /* number of nibbles in a ptr*/ + +static int file; +static int makelist; + +static int nibs = 0; + +static char *current_size; +static char *current_name; +static char current_word0[40]; +static char current_byte0[40]; +static char current_byte1[40]; +static int indent; +static char *p; +static char *d; + +struct opcode_value *list[NOPS]; + +static opcode_entry_type * +lookup_inst (what) + int what; +{ + if (makelist) + { + + int nibl_index; + int nibl_matched; + unsigned short instr_nibl; + unsigned short tabl_datum, datum_class, datum_value; + char instr_nibbles[8]; + + opcode_entry_type *ptr = z8k_table; + + nibl_matched = 0; + + instr_nibbles[3] = (what >> 0) & 0xf; + instr_nibbles[2] = (what >> 4) & 0xf; + instr_nibbles[1] = (what >> 8) & 0xf; + instr_nibbles[0] = (what >> 12) & 0xf; + + while (ptr->name) + { + nibl_matched = 1; + for (nibl_index = 0; nibl_index < 4 && nibl_matched; nibl_index++) + { + instr_nibl = instr_nibbles[nibl_index]; + + tabl_datum = ptr->byte_info[nibl_index]; + datum_class = tabl_datum & CLASS_MASK; + datum_value = ~CLASS_MASK & tabl_datum; + + switch (datum_class) + { + case CLASS_BIT_1OR2: + if (datum_value != (instr_nibl & ~0x2)) + nibl_matched = 0; + break; + + case CLASS_BIT: + if (datum_value != instr_nibl) + nibl_matched = 0; + break; + case CLASS_00II: + if (!((~instr_nibl) & 0x4)) + nibl_matched = 0; + break; + case CLASS_01II: + if (!(instr_nibl & 0x4)) + nibl_matched = 0; + break; + case CLASS_0CCC: + if (!((~instr_nibl) & 0x8)) + nibl_matched = 0; + break; + case CLASS_1CCC: + if (!(instr_nibl & 0x8)) + nibl_matched = 0; + break; + case CLASS_0DISP7: + if (!((~instr_nibl) & 0x8)) + nibl_matched = 0; + nibl_index += 1; + break; + case CLASS_1DISP7: + if (!(instr_nibl & 0x8)) + nibl_matched = 0; + nibl_index += 1; + break; + case CLASS_REGN0: + if (instr_nibl == 0) + nibl_matched = 0; + break; + default: + break; + } + } + if (nibl_matched) + { + return ptr; + } + ptr++; + } + return 0; + } + else + { + + if (z8k_inv_list[what] < 0) + return 0; + return z8k_table + z8k_inv_list[what]; + } +} + +static char * +insn_4 (n) + int n; +{ + switch (n) + { + case 1: + return "((iwords_0>>8) & 0xf)"; + case 2: + return "((ibytes_1 >> 4) & 0xf)"; + case 3: + return "((ibytes_1) & 0xf)"; + case 4: + return "((ibytes_2>>4) & 0xf)"; + case 5: + return "((ibytes_2) & 0xf)"; + case 6: + return "((ibytes_3 >> 4) & 0xf)"; + case 7: + return "((ibytes_3) & 0xf)"; + default: + return "****"; + } +} + +char * +ptr_mode () +{ + if (BIG) + { + return "ptr_long"; + } + return "word"; +} + +static +char * +ptr_size () +{ + if (BIG) + return "4"; + return "2"; +} + +static char * +reg_n (x) + unsigned int x; +{ + return reg_names[x & 0xf]; +} + +char * +stack_ptr () +{ + return BIG ? "14" : "15"; +} + +char * +mem () +{ +#if 0 + return BIG ? "segmem" : "unsegmem"; +#else + return "mem"; +#endif +} + +int +match (a) + char *a; +{ + if (strncmp (p, a, strlen (a)) == 0) + { + p += strlen (a); + return 1; + } + return 0; +} + +static +void +sub (y) + char *y; +{ + sprintf (d, "%s", y); + d += strlen (d); +} + +static char * +insn_16 (n) + int n; +{ + switch (n) + { + case 0: + return "(iwords_0)"; + case 4: + return "(iwords_1)"; + case 8: + return "(iwords_2)"; + case 12: + return "(iwords_3)"; + default: + return "****"; + } +} + +static +char * +insn_32 (n) + int n; +{ + switch (n) + { + case 0: + return "((iwords_0<<16) | (iwords_1))"; + case 4: + return "((iwords_1<<16) | (iwords_2))"; + case 8: + return "((iwords_2<<16) | (iwords_3))"; + default: + return "****"; + } +} + +static char * +size_name (x) + int x; +{ + switch (x) + { + case 8: + return "byte"; + case 16: + return "word"; + case 32: + return "long"; + case 64: + return "quad"; + } + return "!!"; +} + +/*VARARGS*/ +void +emit (string, a1, a2, a3, a4, a5) + char *string; + char* a1; + char* a2; + char* a3; + char* a4; + char* a5; +{ + int indent_inc = 0; + int indent_dec = 0; + int i; + char buffer[1000]; + + d = buffer; + p = string; + + while (*p) + { + if (match ("<fop>")) + { + if (BIG) + { + sub ("bfop"); + } + else + { + sub ("sfop"); + } + } + else if (match ("<iptr>")) + { + if (BIG) + { + switch (nibs) + { + case 4: + sub ("(((iwords_1 << 8) | (iwords_2)) & 0x7fffff)"); + break; + default: + sub ("fail(context,124)"); + break; + } + } + else + { + switch (nibs) + { + case 4: + sub ("iwords_1"); + break; + default: + sub ("fail(context,123)"); + break; + } + } + } + else if (match ("<name>")) + { + sub (current_name); + } + else if (match ("<size>")) + { + sub (current_size); + } + else if (match ("<insn_4>")) + { + sub (insn_4 (nibs)); + } + else if (match ("<insn_16>")) + { + sub (insn_16 (nibs)); + } + else if (match ("<insn_32>")) + { + sub (insn_32 (nibs)); + } + else if (match ("iwords_0")) + { + sub (current_word0); + } + else if (match ("ibytes_0")) + { + sub (current_byte0); + } + else if (match ("<ibytes_1>")) + { + sub (current_byte1); + } + else if (match ("<next_size>")) + { + if (strcmp (current_size, "word") == 0) + sub ("long"); + if (strcmp (current_size, "byte") == 0) + sub ("word"); + else if (strcmp (current_size, "long") == 0) + sub ("quad"); + else + abort (); + } + else if (match ("<addr_type>")) + { + if (BIG) + sub ("unsigned long"); + else + sub ("unsigned short"); + } + + else if (match ("<c_size>")) + { + if (strcmp (current_size, "word") == 0) + sub ("short"); + else if (strcmp (current_size, "byte") == 0) + sub ("char"); + else if (strcmp (current_size, "long") == 0) + sub ("long"); + else + abort (); + } + + else if (match ("<pc>")) + { + sub ("pc"); + } + else if (match ("<mem>")) + { + sub (mem ()); + } + else if (match ("<sp>")) + { + sub (stack_ptr ()); + } + else if (match ("<ptr_size>")) + { + sub (ptr_size ()); + } + else if (match ("<ptr_mode>")) + { + sub (ptr_mode ()); + } + else if (match ("<insn_8>")) + { + switch (nibs) + { + case 2: + sub ("(iwords_0&0xff)"); + break; + case 4: + sub ("(iwords_1>>8)"); + break; + case 6: + sub ("(iwords_1&0xff)"); + break; + case 8: + sub ("(iwords_2>>8)"); + break; + case 12: + sub ("(/* WHO */iwords_3&0xff)"); + break; + default: + abort (); + } + } + else + { + if (*p == '{') + indent_inc++; + if (*p == '}') + indent_dec++; + *d++ = *p; + p++; + } + } + *d++ = 0; + indent -= indent_dec; + for (i = 0; i < indent; i++) + printf ("\t"); + indent += indent_inc; + printf (buffer, a1, a2, a3, a4, a5); + +} + +/* fetch the lvalues of the operands */ +void +info_args (p) + opcode_entry_type *p; +{ + unsigned int *s; + + int done_one_imm8 = 0; + + /* int done_read = 4;*/ + s = p->byte_info; + nibs = 0; + while (*s) + { + switch (*s & CLASS_MASK) + { + case CLASS_BIT_1OR2: + emit ("register unsigned int imm_src=(<insn_4>& 2)?2:1;\n"); + break; + case CLASS_BIT: + /* Just ignore these, we've already decoded this bit */ + nibs++; + break; + case CLASS_REGN0: + case CLASS_REG: + /* this nibble tells us which register to use as an arg, + if we've already gobbled the nibble we know what to use */ + { + int regname = *s & 0xf; + + emit ("register unsigned int reg_%s=<insn_4>;\n", + reg_names[regname]); + + nibs++; + } + break; + case CLASS_ADDRESS: + emit ("register unsigned base_%s=<iptr>;\n", reg_n (*s)); + + nibs += SIZE_ADDRESS; + + break; + case CLASS_01II: + case CLASS_00II: + emit ("register unsigned int imm_src=<insn_4>&0x2;\n"); + nibs++; + break; + case CLASS_FLAGS: + emit ("register unsigned int imm_src=<insn_4>;\n"); + nibs++; +break; + case CLASS_IMM: + /* Work out the size of the think to fetch */ + + { + switch (*s & ~CLASS_MASK) + { + case ARG_IMM16: + emit ("register unsigned imm_src=<insn_16>;\n"); + nibs += 4; + break; + case ARG_IMM32: + emit ("register unsigned int imm_src= %s;\n", insn_32 (nibs)); + nibs += 8; + break; + case ARG_IMM4: + emit ("register unsigned int imm_src=<insn_4>;\n"); + nibs++; + break; + case ARG_IMM2: + emit ("register unsigned int imm_src=<insn_4> & 0x2;\n"); + nibs++; + break; + + case ARG_IMM4M1: + emit ("register unsigned int imm_src=(<insn_4> + 1);\n"); + nibs++; + break; + case ARG_IMM_1: + emit ("register unsigned int imm_src=1;\n"); + break; + case ARG_IMM_2: + emit ("register unsigned int imm_src=2;\n"); + break; + case ARG_NIM8: + emit ("register unsigned int imm_src=-<insn_8>;\n"); + nibs += 2; + break; + case ARG_IMM8: + if (!done_one_imm8) + { + emit ("register unsigned int imm_src=<insn_8>;\n"); + nibs += 2; + done_one_imm8 = 1; + } + break; + default: + emit ("register int fail%d=fail(context,1);\n", nibs); + break; + } + break; + + case CLASS_DISP8: + /* We can't use `(char)' since char might be unsigned. + We can't use `(signed char)' because the compiler might be K&R. + This seems safe, since it only assumes that bytes are 8 + bits. */ + emit ("register unsigned int oplval_dst=((ibytes_1 << (sizeof (int) * 8 - 8)) >> (sizeof (int) * 8 - 9)) + pc;\n"); +#if 0 + /* Original code: fails if characters are unsigned. */ + emit ("register unsigned int oplval_dst=(((char)ibytes_1)<<1) + pc;\n"); +#endif + nibs += 2; + break; + case CLASS_CC: + emit ("register unsigned int op_cc=<insn_4>;\n"); + nibs++; + break; + default: + emit ("register int FAIL%d=fail(context,2);\n", nibs); + break; + } + ; + /* work out how to fetch the immediate value */ + } + + s++; + } +} + +void +info_special (p, getdst, nostore, before, nosrc) + opcode_entry_type *p; + int *getdst; + int *nostore; + int *before; + int *nosrc; +{ + switch (p->opcode) + { + case OPC_exts: + case OPC_extsb: + case OPC_extsl: + *nostore = 1; + *nosrc = 1; + break; + case OPC_ldm: + *nostore = 1; + *nosrc = 1; + break; + case OPC_negb: + case OPC_neg: + case OPC_sla: + case OPC_slab: + case OPC_slal: + case OPC_sda: + case OPC_sdab: + case OPC_sdal: + case OPC_com: + case OPC_comb: + case OPC_adc: + case OPC_sbc: + case OPC_nop: + case OPC_adcb: + case OPC_add: + case OPC_addb: + case OPC_addl: + case OPC_inc: + case OPC_sub: + case OPC_subb: + case OPC_subl: + case OPC_and: + case OPC_andb: + case OPC_xorb: + case OPC_xor: + break; + + case OPC_mult: + case OPC_multl: + case OPC_div: + case OPC_divl: + + *nostore = 1; + break; + + case OPC_testb: + case OPC_test: + case OPC_testl: + case OPC_cp: + case OPC_cpb: + case OPC_cpl: + case OPC_bit: + *nostore = 1; + *before = 0; + break; + + case OPC_bpt: + case OPC_jr: + case OPC_jp: + case OPC_ret: + case OPC_call: + case OPC_tcc: + *nosrc = 1; + *nostore = 1; + *before = 1; + break; + case OPC_sc: + *nostore = 1; + *before = 0; + break; + case OPC_clrb: + case OPC_clr: + *before = 1; + *nosrc = 1; + break; + case OPC_ldi: + case OPC_ldib: + case OPC_lddb: + case OPC_ldd: + + *before = 1; + *nostore = 1; + *nosrc = 1; + break; + case OPC_ldk: + case OPC_ld: + case OPC_ldb: + case OPC_ldl: + *before = 1; + *getdst = 0; + break; + case OPC_push: + case OPC_pushl: + case OPC_pop: + case OPC_popl: + *before = 1; + *getdst = 0; + break; + case OPC_lda: + *nosrc = 1; + break; + } +} + +/* calculate the lvalues required for the opcode */ +void +info_lvals (p) + opcode_entry_type *p; +{ + /* emit code to work out lvalues, if any */ + unsigned int *i = p->arg_info; + + while (*i) + { + current_name = reg_n (*i); + current_size = size_name (p->type); + switch (*i & CLASS_MASK) + { + case CLASS_X: + /* address(reg) */ + emit ("register <addr_type> oplval_<name>= ((base_<name> + (short)get_word_reg(context,reg_<name>)) & 0xffff) + (base_<name> & ~0xffff);\n"); + break; + case CLASS_IR: + /* Indirect register */ + emit ("register int oplval_<name> = get_<ptr_mode>_reg(context,reg_<name>);\n"); + break; + case CLASS_DA: + emit ("register int oplval_<name>=base_<name>;\n"); + break; + case CLASS_IMM: + case CLASS_REG_WORD: + case CLASS_REG_LONG: + case CLASS_REG_BYTE: + case CLASS_PR: + break; + case CLASS_BA: + emit ("register int oplval_<name> = get_<ptr_mode>_reg(context,reg_<name>) + (short)(imm_src);\n"); + break; + case CLASS_BX: + emit ("register int oplval_<name> = get_<ptr_mode>_reg(context,reg_<name>)\n"); + emit (" + get_word_reg(context,reg_aux_x);\n"); + break; + } + i++; + } +} + +/* emit code to fetch the args from calculated lvalues */ +int allregs; +void +info_fetch (p, getdst) + opcode_entry_type *p; + int getdst; +{ + unsigned int *i = p->arg_info; + int had_src = 0; + + allregs = 1; + while (*i) + { + + current_name = reg_n (*i); + current_size = size_name (p->type); + switch (*i & CLASS_MASK) + { + case CLASS_X: + case CLASS_IR: + case CLASS_BA: + case CLASS_BX: + case CLASS_DA: + if (!getdst && IS_DST (*i)) + break; + emit ("register int op_<name>= get_<size>_<mem>_da(context,oplval_<name>);\n"); + allregs = 0; + break; + case CLASS_IMM: + if (!had_src) + { + if (p->opcode == OPC_out || + p->opcode == OPC_outb || + p->opcode == OPC_sout || + p->opcode == OPC_soutb) + { + /* The imm is a dest here */ + emit ("register int op_dst = imm_src;\n"); + } + else + { + emit ("register int op_src = imm_src;\n"); + } + } + break; + case CLASS_REG_QUAD: + if (!getdst && IS_DST (*i)) + break; + had_src |= IS_SRC (*i); + emit ("UDItype op_<name> ;\n"); + + break; + case CLASS_REG_WORD: + if (!getdst && IS_DST (*i)) + break; + had_src |= IS_SRC (*i); + emit ("register int op_<name> = get_word_reg(context,reg_<name>);\n"); + break; + + case CLASS_REG_LONG: + if (!getdst && IS_DST (*i)) + break; + had_src |= IS_SRC (*i); + emit ("register int op_<name> = get_long_reg(context,reg_<name>);\n"); + break; + case CLASS_REG_BYTE: + if (!getdst && IS_DST (*i)) + break; + had_src |= IS_SRC (*i); + emit ("register int op_<name> = get_byte_reg(context,reg_<name>);\n"); + break; + } + i++; + } +} + +static void +normal_flags (p, s, neg) + opcode_entry_type *p; + char *s; +{ + emit (" %s;\n", s); + emit ("NORMAL_FLAGS(context,%d, tmp, op_dst, op_src,%d); \n", p->type,neg); +} + +static void +test_normal_flags (p, s, opt) + opcode_entry_type *p; + char *s; + int opt; +{ + emit (" %s;\n", s); + if (0 && opt) + { + emit ("context->broken_flags = TST_FLAGS;\n"); + emit ("context->size = %d;\n", p->type); + } + else + { + emit ("TEST_NORMAL_FLAGS(context,%d, tmp); \n", p->type); + } + +} + +static void +optimize_normal_flags (p, s,neg) + opcode_entry_type *p; + char *s; +{ + emit (" %s;\n", s); +#if 0 + emit ("context->broken_flags = CMP_FLAGS;\n"); +#else + emit ("NORMAL_FLAGS(context,%d, tmp, op_dst, op_src,%d); \n", p->type, neg); +#endif +} + +static +void +jp (p) + opcode_entry_type *p; +{ + + emit ("if(op_cc == 8 || COND(context,op_cc)) pc = oplval_dst;\n"); +} + +static void +jr (p) + opcode_entry_type *p; +{ + emit ("if(op_cc == 8 || COND(context,op_cc)) pc = oplval_dst;\n"); +} + +static void +ret (p) + opcode_entry_type *p; +{ + emit ("if(op_cc == 8 || COND(context,op_cc))\n{\n"); + emit ("pc = get_<ptr_mode>_<mem>_ir(context,<sp>);\n"); + emit ("put_<ptr_mode>_reg(context,<sp>, get_<ptr_mode>_reg(context,<sp>) + <ptr_size>);\n"); + emit ("};\n"); +} + +static void +call (p) + opcode_entry_type *p; +{ + emit ("put_<ptr_mode>_reg(context,<sp>,tmp = get_<ptr_mode>_reg(context,<sp>) - <ptr_size>);\n"); + emit ("put_<ptr_mode>_<mem>_da(context,tmp, pc);\n"); + emit ("pc = oplval_dst;\n"); +} + +static void +push (p) + opcode_entry_type *p; +{ + emit ("tmp = op_src;\n"); + emit ("oplval_dst -= %d;\n", p->type / 8); + emit ("put_<ptr_mode>_reg(context,reg_dst, oplval_dst);\n"); +} + +static void +pop (p) + opcode_entry_type *p; +{ + emit ("tmp = op_src;\n"); + emit ("put_<ptr_mode>_reg(context,reg_src, oplval_src + %d);\n", p->type / 8); +} + +static void +ld (p) + opcode_entry_type *p; +{ + emit ("tmp = op_src;\n"); +} + +static void +sc () +{ + emit ("support_call(context,imm_src);\n"); +} + +static void +bpt () +{ + emit ("pc -=2; \n"); + emit ("context->exception = SIM_BREAKPOINT;\n"); +} + +static void +ldi (p, size, inc) + opcode_entry_type *p; + int size; + int inc; +{ + int dinc = (size / 8) * inc; + + current_size = size_name (size); + emit ("{ \n"); + emit ("int type = %s;\n", insn_4 (7)); + emit ("int rs = get_<ptr_mode>_reg(context,reg_src);\n"); + emit ("int rd = get_<ptr_mode>_reg(context,reg_dst);\n"); + emit ("int rr = get_word_reg(context,reg_aux_r);\n"); + emit ("do {\n"); + emit ("put_<size>_<mem>_da(context,rd, get_<size>_<mem>_da(context,rs));\n"); + emit ("rd += %d;\n", dinc); + emit ("rs += %d;\n", dinc); + emit ("rr --;\n"); + emit ("context->cycles += 9;\n"); + emit ("} while (!type && rr != 0 && context->exception <= 1);\n"); + emit ("if (context->exception>1) pc -=4;\n"); + emit ("put_<ptr_mode>_reg(context,reg_src, rs);\n"); + emit ("put_<ptr_mode>_reg(context,reg_dst, rd);\n"); + emit ("put_word_reg(context,reg_aux_r, rr);\n"); + emit ("}\n"); + +} + +static void +shift (p, arith) + opcode_entry_type *p; + int arith; +{ + + /* We can't use `(char)' since char might be unsigned. + We can't use `(signed char)' because the compiler might be K&R. + This seems safe, since it only assumes that bytes are 8 bits. */ + emit ("op_src = (op_src << (sizeof (int) * 8 - 8)) >> (sizeof (int) * 8 - 8);\n"); +#if 0 + /* Original code: fails if characters are unsigned. */ + emit ("op_src = (char)op_src;\n"); +#endif + emit ("if (op_src < 0) \n"); + emit ("{\n"); + emit ("op_src = -op_src;\n"); + emit ("op_dst = (%s <c_size>)op_dst;\n", arith ? "" : "unsigned"); + emit ("tmp = (%s op_dst) >> op_src;\n", arith ? "" : "(unsigned)"); + emit ("context->carry = op_dst >> (op_src-1);\n", p->type); + emit ("}\n"); + emit ("else\n"); + emit ("{\n"); + emit ("tmp = op_dst << op_src;\n"); + emit ("context->carry = op_dst >> (%d - op_src);\n", p->type); + emit ("}\n"); + emit ("context->zero = (<c_size>)tmp == 0;\n"); + emit ("context->sign = (int)((<c_size>)tmp) < 0;\n"); + emit ("context->overflow = ((int)tmp < 0) != ((int)op_dst < 0);\n"); + emit ("context->cycles += 3*op_src;\n"); + emit ("context->broken_flags = 0;\n"); + +} + +static void +rotate (p, through_carry, size, left) + opcode_entry_type *p; + int through_carry; + int size; + int left; +{ + + if (!left) + { + emit ("while (op_src--) {\n"); + emit ("int rotbit;\n"); + emit ("rotbit = op_dst & 1;\n"); + emit ("op_dst = ((unsigned)op_dst) >> 1;\n"); + + if (through_carry) + { + emit ("op_dst |= context->carry << %d;\n", size - 1); + } + else + { + emit ("op_dst |= rotbit << %d;\n", size - 1); + } + emit ("context->carry = rotbit;\n"); + emit ("}\n"); + } + else + { + emit ("while (op_src--) {\n"); + emit ("int rotbit;\n"); + + emit ("rotbit = (op_dst >> (%d))&1;\n", size - 1); + emit ("op_dst <<=1;\n"); + if (through_carry) + { + emit ("if (context->carry) op_dst |=1;\n"); + } + else + { + emit ("if (rotbit) op_dst |= 1;\n"); + } + emit ("context->carry = rotbit;\n"); + emit ("}\n"); + } + emit ("tmp = (<c_size>)op_dst;\n"); + emit ("context->zero = tmp == 0;\n"); + emit ("context->sign = (int)tmp < 0;\n"); + emit ("context->overflow = ((int)tmp < 0) != ((int)op_dst < 0);\n"); + emit ("context->cycles += 3*op_src;\n"); + emit ("context->broken_flags = 0;\n"); + +} + +static void +adiv (p) + opcode_entry_type *p; +{ + emit ("if (op_src==0)\n"); + emit ("{\n"); + emit ("context->exception = SIM_DIV_ZERO;\n"); + emit ("}\n"); + emit ("else\n"); + emit ("{\n"); + + if (p->type == 32) + { + emit ("op_dst.low = (int)get_long_reg(context,reg_dst+2);\n"); + emit ("op_dst.high = (int)get_long_reg(context,reg_dst+0);\n"); +#ifdef __GNUC__ + emit ("tmp = (((long long)op_dst.high << 32) + (op_dst.low)) / (int)op_src;\n"); +#else + emit ("tmp = (long)op_dst.low / (int)op_src;\n"); +#endif + emit ("put_long_reg(context,reg_dst+2, tmp);\n"); +#ifdef __GNUC__ + emit ("put_long_reg(context,reg_dst, (((long long)op_dst.high << 32) + (op_dst.low)) %% (int)op_src);\n"); +#else + emit ("put_long_reg(context,reg_dst, (int)op_dst.low %% (int)op_src);\n"); +#endif + + emit ("context->zero = op_src == 0 || (op_dst.low==0 && op_dst.high==0);\n"); + } + else + { + emit ("tmp = (long)op_dst / (short)op_src;\n"); + emit ("put_word_reg(context,reg_dst+1, tmp);\n"); + emit ("put_word_reg(context,reg_dst, (long) op_dst %% (short)op_src);\n"); + emit ("context->zero = op_src == 0 || op_dst==0;\n"); + } + + emit ("context->sign = (int)tmp < 0;\n"); + emit ("context->overflow =(tmp & 0x%x) != 0;\n", + ~((1 << (p->type)) - 1)); + emit ("context->carry = (tmp & 0x%x) != 0;\n", + ~(1 << (p->type))); + + emit ("}\n"); +} + +static void +dobit (p) +opcode_entry_type *p; +{ + emit("context->zero = (op_dst & (1<<op_src))==0;\n"); + emit("context->broken_flags = 0;\n"); +} +static void +doset (p, v) +opcode_entry_type*p; +int v; +{ + if (v) + emit (" tmp = op_dst | (1<< op_src);\n"); + else + emit (" tmp = op_dst & ~(1<< op_src);\n"); +} + +static void +mult (p) + opcode_entry_type *p; +{ + + if (p->type == 32) + { + emit ("op_dst.low = get_long_reg(context,reg_dst+2);\n"); + emit ("tmp = op_dst.low * op_src;\n"); + emit ("put_long_reg(context,reg_dst+2, tmp);\n"); + emit ("put_long_reg(context,reg_dst, 0);\n"); + } + else + { + emit ("op_dst = get_word_reg(context,reg_dst+1);\n"); + emit ("tmp = op_dst * op_src;\n"); + emit ("put_long_reg(context,reg_dst, tmp);\n"); + } + + emit ("context->sign = (int)tmp < 0;\n"); + emit ("context->overflow =0;\n"); + emit ("context->carry = (tmp & 0x%x) != 0;\n", ~((1 << (p->type)) - 1)); + emit ("context->zero = tmp == 0;\n"); + +} + +static void +exts (p) + opcode_entry_type *p; +{ + /* Fetch the ls part of the src */ + current_size = size_name (p->type * 2); + + if (p->type == 32) + { + emit ("tmp= get_long_reg(context,reg_dst+2);\n"); + emit ("if (tmp & (1<<%d)) {\n", p->type - 1); + emit ("put_long_reg(context,reg_dst, 0xffffffff);\n"); + emit ("}\n"); + emit ("else\n"); + emit ("{\n"); + emit ("put_long_reg(context,reg_dst, 0);\n"); + emit ("}\n"); + } + else + { + emit ("tmp= get_<size>_reg(context,reg_dst);\n"); + emit ("if (tmp & (1<<%d)) {\n", p->type - 1); + emit ("tmp |= 0x%x;\n", ~((1 << p->type) - 1)); + emit ("}\n"); + emit ("else\n"); + emit ("{\n"); + + emit ("tmp &= 0x%x;\n", ((1 << p->type) - 1)); + emit ("}\n"); + emit ("put_<size>_reg(context,reg_dst, tmp);\n"); + } +} +doflag(on) +int on; +{ + /* Load up the flags */ + emit(" COND (context, 0x0b);\n"); + + if (on) + emit ("{ int on =1;\n "); + else + emit ("{ int on =0;\n "); + + emit ("if (imm_src & 1)\n"); + emit ("PSW_OVERFLOW = on;\n"); + + emit ("if (imm_src & 2)\n"); + emit ("PSW_SIGN = on;\n"); + + emit ("if (imm_src & 4)\n"); + emit ("PSW_ZERO = on;\n"); + + emit ("if (imm_src & 8)\n"); + emit ("PSW_CARRY = on;\n"); + emit("}\n"); + + +} +/* emit code to perform operation */ +void +info_docode (p) + opcode_entry_type *p; +{ + switch (p->opcode) + { + case OPC_clr: + case OPC_clrb: + emit ("tmp = 0;\n"); + break; + case OPC_ex: + case OPC_exb: + + emit ("tmp = op_src; \n"); + if (allregs) + { + emit ("put_<size>_reg(context,reg_src, op_dst);\n"); + } + else + { + emit ("put_<size>_mem_da(context, oplval_src, op_dst);\n"); + } + break; + case OPC_adc: + case OPC_adcb: + normal_flags (p, "op_src += COND(context,7);tmp = op_dst + op_src ;",0); + break; + case OPC_sbc: + normal_flags (p, "op_src += COND(context,7);tmp = op_dst - op_src ;",1); + break; + case OPC_nop: + break; + case OPC_com: + case OPC_comb: + test_normal_flags (p, "tmp = ~ op_dst", 1); + break; + case OPC_and: + case OPC_andb: + test_normal_flags (p, "tmp = op_dst & op_src", 1); + break; + case OPC_xor: + case OPC_xorb: + test_normal_flags (p, "tmp = op_dst ^ op_src", 1); + break; + case OPC_or: + case OPC_orb: + test_normal_flags (p, "tmp = op_dst | op_src", 1); + break; + case OPC_sla: + case OPC_slab: + case OPC_slal: + case OPC_sda: + case OPC_sdab: + case OPC_sdal: + shift (p, 1); + break; + + case OPC_sll: + case OPC_sllb: + case OPC_slll: + case OPC_sdl: + case OPC_sdlb: + case OPC_sdll: + shift (p, 0); + break; + case OPC_rl: + rotate (p, 0, 16, 1); + break; + case OPC_rlb: + rotate (p, 0, 8, 1); + break; + case OPC_rr: + rotate (p, 0, 16, 0); + break; + case OPC_rrb: + rotate (p, 0, 8, 0); + break; + case OPC_rrc: + rotate (p, 1, 16, 0); + break; + case OPC_rrcb: + rotate (p, 1, 8, 0); + break; + case OPC_rlc: + rotate (p, 1, 16, 1); + break; + case OPC_rlcb: + rotate (p, 1, 8, 1); + break; + + case OPC_extsb: + case OPC_exts: + case OPC_extsl: + exts (p); + break; + case OPC_add: + case OPC_addb: + case OPC_addl: + case OPC_inc: + case OPC_incb: + optimize_normal_flags (p, "tmp = op_dst + op_src",0); + break; + case OPC_testb: + case OPC_test: + case OPC_testl: + test_normal_flags (p, "tmp = op_dst", 0); + break; + case OPC_cp: + case OPC_cpb: + case OPC_cpl: + normal_flags (p, "tmp = op_dst - op_src",1); + break; + case OPC_negb: + case OPC_neg: + emit ("{\n"); + emit ("int op_src = -op_dst;\n"); + emit ("op_dst = 0;\n"); + optimize_normal_flags (p, "tmp = op_dst + op_src;\n",1); + emit ("}"); + break; + + case OPC_sub: + case OPC_subb: + case OPC_subl: + case OPC_dec: + case OPC_decb: + optimize_normal_flags (p, "tmp = op_dst - op_src",1); + break; + case OPC_bpt: + bpt (); + break; + case OPC_jr: + jr (p); + break; + case OPC_sc: + sc (); + break; + case OPC_jp: + jp (p); + break; + case OPC_ret: + ret (p); + break; + case OPC_call: + call (p); + break; + case OPC_tcc: + case OPC_tccb: + emit ("if(op_cc == 8 || COND(context,op_cc)) put_word_reg(context,reg_dst, 1);\n"); + break; + case OPC_lda: + emit ("tmp = oplval_src; \n"); + /*(((oplval_src) & 0xff0000) << 8) | (oplval_src & 0xffff); \n");*/ + break; + case OPC_ldk: + case OPC_ld: + + case OPC_ldb: + case OPC_ldl: + ld (p); + break; + case OPC_ldib: + ldi (p, 8, 1); + break; + case OPC_ldi: + ldi (p, 16, 1); + break; + + case OPC_lddb: + ldi (p, 8, -1); + break; + case OPC_ldd: + ldi (p, 16, -1); + break; + + case OPC_push: + case OPC_pushl: + push (p); + break; + + case OPC_div: + case OPC_divl: + adiv (p); + break; + case OPC_mult: + case OPC_multl: + mult (p); + break; + case OPC_pop: + case OPC_popl: + pop (p); + break; + case OPC_set: + doset (p,1); + break; + case OPC_res: + doset (p,0); + break; + case OPC_bit: + dobit(p); + break; + case OPC_resflg: + doflag(0); + break; + case OPC_setflg: + doflag(1); + break; + default: + + emit ("tmp = fail(context,%d);\n", p->opcode); + break; + } +} + +/* emit code to store result in calculated lvalue */ + +void +info_store (p) + opcode_entry_type *p; +{ + unsigned int *i = p->arg_info; + + while (*i) + { + current_name = reg_n (*i); + current_size = size_name (p->type); + + if (IS_DST (*i)) + { + switch (*i & CLASS_MASK) + { + case CLASS_PR: + emit ("put_<ptr_mode>_reg(context,reg_<name>, tmp);\n"); + break; + case CLASS_REG_LONG: + case CLASS_REG_WORD: + case CLASS_REG_BYTE: + + emit ("put_<size>_reg(context,reg_<name>,tmp);\n"); + break; + case CLASS_X: + case CLASS_IR: + case CLASS_DA: + case CLASS_BX: + case CLASS_BA: + + emit ("put_<size>_<mem>_da(context,oplval_<name>, tmp);\n"); + break; + case CLASS_IMM: + break; + default: + emit ("abort(); "); + break; + } + + } + i++; + } +} + +static +void +mangle (p, shortcut, value) + opcode_entry_type *p; + int shortcut; + int value; +{ + int nostore = 0; + int extra; + int getdst = 1; + int before = 0; + int nosrc = 0; + + emit ("/\052 %s \052/\n", p->nicename); + if (shortcut) + { + emit ("int <fop>_%04x(context,pc)\n", value); + } + else + { + emit ("int <fop>_%d(context,pc,iwords0)\n", p->idx); + emit ("int iwords0;\n"); + } + emit ("sim_state_type *context;\n"); + emit ("int pc;\n"); + emit ("{\n"); + emit ("register unsigned int tmp;\n"); + if (shortcut) + { + emit ("register unsigned int iwords0 = 0x%x;\n", value); + } + + /* work out how much bigger this opcode could be because it's large + model */ + if (BIG) + { + int i; + + extra = 0; + for (i = 0; i < 4; i++) + { + if ((p->arg_info[i] & CLASS_MASK) == CLASS_DA + || (p->arg_info[i] & CLASS_MASK) == CLASS_X) + extra += 2; + } + } + else + { + extra = 0; + } + printf (" /* Length %d */ \n", p->length + extra); + switch (p->length + extra) + { + case 2: + emit ("pc += 2\n;"); + break; + case 4: + emit ("register unsigned int iwords1 = get_word_mem_da(context,pc+2);\n"); + emit ("pc += 4;\n"); + break; + case 6: + + emit ("register unsigned int iwords1 = get_word_mem_da(context,pc+2);\n"); + emit ("register unsigned int iwords2 = get_word_mem_da(context,pc+4);\n"); + emit ("pc += 6;\n"); + break; + case 8: + emit ("register unsigned int iwords1 = get_word_mem_da(context,pc+2);\n"); + emit ("register unsigned int iwords2 = get_word_mem_da(context,pc+4);\n"); + emit ("register unsigned int iwords3 = get_word_mem_da(context,pc+6);\n"); + emit ("pc += 8;\n"); + break; + default: + break; + + } + emit ("context->cycles += %d;\n", p->cycles); + + emit ("{\n"); + info_args (p); + info_special (p, &getdst, &nostore, &before, &nosrc); + + info_lvals (p); + if (!nosrc) + { + info_fetch (p, getdst); + } + + if (before) + { + info_docode (p); + } + else + { + info_docode (p); + } + if (!nostore) + info_store (p); + emit ("}\n"); + emit ("return pc;\n"); + emit ("}\n"); +} + +void +static +one_instruction (i) + int i; +{ + /* find the table entry */ + opcode_entry_type *p = z8k_table + i; + + if (!p) + return; + mangle (p, 0, 0); +} + +void +add_to_list (ptr, value) + struct opcode_value **ptr; + int value; +{ + struct opcode_value *prev; + + prev = *ptr; + *ptr = (struct opcode_value *) malloc (sizeof (struct opcode_value)); + + (*ptr)->n = value; + (*ptr)->next = prev; +} + +void +build_list (i) + int i; +{ + opcode_entry_type *p = lookup_inst (i); + + if (!p) + return; + add_to_list (&list[p->idx], i); +} + +int +main (ac, av) + int ac; + char **av; +{ + int i; + int needcomma = 0; + + makelist = 0; + + for (i = 1; i < ac; i++) + { + if (strcmp (av[i], "-m") == 0) + makelist = 1; + if (strcmp (av[i], "-1") == 0) + file = 1; + if (strcmp (av[i], "-2") == 0) + file = 2; + if (strcmp (av[i], "-3") == 0) + file = 3; + if (strcmp (av[i], "-b3") == 0) + { + file = 3; + BIG = 1; + } + + } + if (makelist) + { + + int i; + needcomma = 0; + printf ("short int z8k_inv_list[] = {\n"); + + for (i = 0; i < 1 << 16; i++) + { + opcode_entry_type *p = lookup_inst (i); + + if(needcomma) + printf(","); + if ((i & 0xf) == 0) + printf ("\n"); + +#if 0 + printf ("\n /*%04x %s */", i, p ? p->nicename : ""); +#endif + + if (!p) + { + printf ("-1"); + } + else + { + printf ("%d", p->idx); + } + + if ((i & 0x3f) == 0 && DIRTY_HACK) + { + printf ("\n#ifdef __GNUC__\n"); + printf ("};\n"); + printf("short int int_list%d[] = {\n", i); + printf ("#else\n"); + printf (",\n"); + printf ("#endif\n"); + needcomma = 0; + } + else + needcomma = 1; + + } + printf ("};\n"); + return 1; + } + + /* First work out which opcodes use which bit patterns, + build a list of all matching bit pattens */ + for (i = 0; i < 1 << 16; i++) + { + build_list (i); + } +#if DUMP_LIST + for (i = 0; i < NOPS; i++) + { + struct opcode_value *p; + + printf ("%d,", i); + p = list[i]; + while (p) + { + printf (" %04x,", p->n); + p = p->next; + } + printf ("-1\n"); + } + +#endif + + if (file == 1) + { + extern int quick[]; + + /* Do the shortcuts */ + printf (" /* SHORTCUTS */\n"); + for (i = 0; quick[i]; i++) + { + int t = quick[i]; + + mangle (z8k_table + z8k_inv_list[t], + 1, + t); + } + } + if (file == 3) + { + printf (" /* NOT -SHORTCUTS */\n"); + for (i = 0; i < NOPS; i++) + { + if (list[i]) + { + one_instruction (i); + } + else + { + emit ("int <fop>_%d(context,pc)\n", i); + printf ("sim_state_type *context;\n"); + printf ("int pc;\n"); + emit ("{ <fop>_bad1();return pc; }\n"); + } + } + emit ("int <fop>_bad() ;\n"); + + /* Write the jump table */ + emit ("int (*(<fop>_table[]))() = {"); + needcomma = 0; + for (i = 0; i < NOPS; i++) + { + if (needcomma) + printf (","); + emit ("<fop>_%d\n", i); + needcomma = 1; + if ((i & 0x3f) == 0 && DIRTY_HACK) + { + printf ("#ifdef __GNUC__\n"); + printf ("};\n"); + emit ("int (*(<fop>_table%d[]))() = {\n", i); + printf ("#else\n"); + printf (",\n"); + printf ("#endif\n"); + needcomma = 0; + } + } + emit ("};\n"); + } + + if (file == 2) + { + extern int quick[]; + /* Static - since it's too be to be automatic on the apollo */ + static int big[64 * 1024]; + + for (i = 0; i < 64 * 1024; i++) + big[i] = 0; + + for (i = 0; quick[i]; i++) + { +#if 0 + + printf ("extern int <fop>_%04x();\n", quick[i]); +#endif + + big[quick[i]] = 1; + } + + for (i = 0; i < NOPS; i++) + { +#if 0 + printf ("extern int fop_%d();\n", i); +#endif + } +#if 0 + printf ("extern int fop_bad();\n"); +#endif + printf ("struct op_info op_info_table[] = {\n"); + for (i = 0; i < 1 << 16; i++) + { + int inv = z8k_inv_list[i]; + opcode_entry_type *p = z8k_table + inv; + + if (needcomma) + printf (","); +#if 0 + if (big[i]) + { + printf ("<fop>_%04x", i); + } + else +#endif + if (inv >= 0) + { + printf ("%d", inv); + } + else + printf ("400"); + if (inv >= 0) + { + printf (" /* %04x %s */\n", i, p->nicename); + } + else + { + printf ("\n"); + } + needcomma = 1; + if ((i & 0x3f) == 0 && DIRTY_HACK) + { + printf ("#ifdef __GNUC__\n"); + printf ("}; \n"); + printf ("struct op_info op_info_table%d[] = {\n", i); + printf ("#else\n"); + printf (",\n"); + + printf ("#endif\n"); + needcomma = 0; + } + } + printf ("};\n"); + + } + return 0; +} + +char * +insn_ptr (n) + int n; +{ + if (BIG) + { + abort (); + } + + switch (n) + { + case 4: + return "iwords_1"; + default: + return "fail(context,123)"; + } +} + +/* work out if the opcode only wants lvalues */ +int +lvalue (p) + opcode_entry_type *p; +{ + switch (p->opcode) + { + case OPC_lda: + return 1; + case OPC_call: + case OPC_jp: + return 1; + default: + return 0; + } +} + +int +info_len_in_words (o) + opcode_entry_type *o; +{ + unsigned int *p = o->byte_info; + int nibs = 0; + + while (*p) + { + switch (*p & CLASS_MASK) + { + case CLASS_BIT: + case CLASS_REGN0: + case CLASS_REG: + case CLASS_01II: + case CLASS_00II: + nibs++; + break; + case CLASS_ADDRESS: + nibs += SIZE_ADDRESS; + break; + case CLASS_IMM: + switch (*p & ~CLASS_MASK) + { + case ARG_IMM16: + nibs += 4; + break; + case ARG_IMM32: + nibs += 8; + break; + case ARG_IMM2: + case ARG_IMM4: + case ARG_IMM4M1: + case ARG_IMM_1: + case ARG_IMM_2: + case ARG_IMMNMINUS1: + nibs++; + break; + case ARG_NIM8: + + case ARG_IMM8: + nibs += 2; + break; + default: + abort (); + } + break; + case CLASS_DISP: + switch (*p & ~CLASS_MASK) + { + case ARG_DISP16: + nibs += 4; + break; + case ARG_DISP12: + nibs += 3; + break; + case ARG_DISP8: + nibs += 2; + break; + default: + abort (); + } + break; + case CLASS_0DISP7: + case CLASS_1DISP7: + case CLASS_DISP8: + nibs += 2; + break; + case CLASS_BIT_1OR2: + case CLASS_0CCC: + case CLASS_1CCC: + case CLASS_CC: + nibs++; + break; + default: + emit ("don't know %x\n", *p); + } + p++; + } + + return nibs / 4; /* return umber of words */ +} |