gambas-source-code/main/share/gb_code_temp.h
Benoît Minisini 39ca57f967 Fix optimization of small integer or float constants additions.
[COMPILER]
* BUG: Fix optimization of small integer or float constants additions.
2023-09-30 02:36:16 +02:00

1538 lines
23 KiB
C

/***************************************************************************
gb_code_temp.h
(c) 2000-2017 Benoît Minisini <benoit.minisini@gambas-basic.org>
This program 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.
This program 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 this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
MA 02110-1301, USA.
***************************************************************************/
//#define DEBUG
#define write_Zxxx(code, val) write_short(code | ((short)val & 0x0FFF))
#define write_Z8xx(code, val) write_short(code | ((short)val & 0x07FF))
#define write_ZZxx(code, val) write_short(code | ((short)val & 0x00FF))
#ifndef PROJECT_EXEC
#define LAST_CODE \
{ \
if (JOB->debug && !JOB->nobreak) \
CODE_break(); \
cur_func->last_code2 = cur_func->last_code; \
cur_func->last_code = cur_func->ncode; \
}
#define CURRENT_CLASS JOB->class
#else
#define LAST_CODE \
{ \
cur_func->last_code2 = cur_func->last_code; \
cur_func->last_code = cur_func->ncode; \
}
#define CURRENT_CLASS EVAL
#endif
short CODE_stack_usage;
short CODE_stack;
unsigned char CODE_disabled = 0;
static bool _ignore_next_stack_usage = FALSE;
#ifdef PROJECT_EXEC
#define cur_func EVAL
#else
static FUNCTION *cur_func = NULL;
FUNCTION *CODE_current_func = NULL;
//static int last_line = 0;
#endif
static void alloc_code(void)
{
cur_func->ncode_max += CODE_INSTR_INC;
if (!cur_func->code)
ALLOC(&cur_func->code, sizeof(short) * CODE_INSTR_INC);
else
REALLOC(&cur_func->code, sizeof(short) * cur_func->ncode_max);
}
#define write_short(_value) \
({ \
if (CODE_disabled == 0) \
{ \
if (cur_func->ncode >= cur_func->ncode_max) \
alloc_code(); \
\
cur_func->code[cur_func->ncode] = _value; \
/*fprintf(stderr, "[%d] %04hX\n", cur_func->ncode, (ushort)value);*/ \
cur_func->ncode++; \
} \
})
#ifdef PROJECT_COMP
bool CODE_break_is_allowed = FALSE;
static void CODE_break(void)
{
if (!CODE_break_is_allowed)
return;
/*if (last_line < 0)
{
if (CODE_get_current_pos())
return;
}
else
{
if (JOB->line == last_line)
return;
last_line = JOB->line;
}*/
#ifdef DEBUG
printf("BREAK\n");
#endif
write_short(C_BREAK);
CODE_break_is_allowed = FALSE;
}
#endif
static void write_int(int value)
{
write_short(value & 0xFFFF);
write_short((unsigned int)value >> 16);
}
/*static void remove_last(void)
{
ARRAY_remove_last(&cur_func->code);
cur_func->last_code = ARRAY_count(cur_func->code);
}*/
static inline void use_stack(int use)
{
if (_ignore_next_stack_usage)
{
_ignore_next_stack_usage = FALSE;
return;
}
CODE_stack += use;
CODE_stack_usage = Max(CODE_stack_usage, CODE_stack);
#ifdef DEBUG
printf("%04d: %d\n", cur_func->ncode, CODE_stack);
#endif
}
static void CODE_undo()
{
cur_func->ncode = cur_func->last_code;
cur_func->last_code = cur_func->last_code2;
cur_func->last_code2 = (-1);
}
#ifdef PROJECT_EXEC
ushort CODE_get_current_pos(void)
{
return cur_func->ncode;
}
#endif
ushort CODE_set_current_pos(ushort pos)
{
ushort old = cur_func->ncode;
cur_func->ncode = pos;
return old;
}
void CODE_ignore_next_stack_usage(void)
{
_ignore_next_stack_usage = TRUE;
}
#ifdef PROJECT_EXEC
void CODE_begin_function()
{
CODE_stack = 0;
CODE_stack_usage = 0;
}
void CODE_end_function()
{
if (CODE_stack)
{
fprintf(stderr, "gb.eval: bad stack usage computed: %d\n", CODE_stack);
THROW("Internal compiler error");
}
}
#else
FUNCTION *CODE_set_function(FUNCTION *func)
{
FUNCTION *prev = cur_func;
if (cur_func)
{
cur_func->code_stack = CODE_stack;
cur_func->code_stack_usage = CODE_stack_usage;
}
cur_func = func;
CODE_current_func = func;
if (func)
{
CODE_stack = cur_func->code_stack;
CODE_stack_usage = cur_func->code_stack_usage;
}
return prev;
}
void CODE_begin_function(FUNCTION *func)
{
func->code_stack = func->code_stack_usage = 0;
CODE_set_function(func);
/*if (func->start == NULL)
last_line = (-1);
else
last_line = 0;*/
}
void CODE_end_function(FUNCTION *func)
{
if (CODE_stack)
{
ERROR_warning("bad stack usage computed: %d\n", CODE_stack);
THROW("Internal compiler error");
}
}
#endif
static ushort *get_last_code()
{
if ((ushort)cur_func->last_code == CODE_NO_POS)
return NULL;
return &cur_func->code[cur_func->last_code];
}
static ushort *get_last_code2()
{
if ((ushort)cur_func->last_code2 == CODE_NO_POS)
return NULL;
return &cur_func->code[cur_func->last_code2];
}
bool CODE_popify_last(bool no_conv)
{
/*
#ifdef DEBUG
printf("CODE_is_last_popable ? ");
if (!last_code) printf("FALSE, last_code = NULL");
else printf("0x%04hX", *last_code);
printf("\n");
#endif
*/
unsigned short *last_code, op;
last_code = get_last_code();
if (!last_code)
return FALSE;
op = *last_code & 0xFF00;
if ((op >= C_PUSH_LOCAL && op <= C_PUSH_UNKNOWN))
{
*last_code += 0x0800;
}
else if (op == C_PUSH_LOCAL_NOREF)
{
if (no_conv)
*last_code = C_POP_LOCAL_FAST | (*last_code & 0xFF);
else
*last_code = C_POP_LOCAL_NOREF | (*last_code & 0xFF);
}
else if (op == C_PUSH_PARAM_NOREF)
{
if (no_conv)
*last_code = C_POP_PARAM_FAST | (*last_code & 0xFF);
else
*last_code = C_POP_PARAM_NOREF | (*last_code & 0xFF);
}
else if ((op & 0xF000) == C_PUSH_DYNAMIC)
{
*last_code += 0x1000;
}
else
return FALSE;
use_stack(-2);
return TRUE;
}
#ifdef PROJECT_COMP
bool CODE_check_statement_last(void)
{
unsigned short op;
PCODE *last_code;
last_code = get_last_code();
if (!last_code)
return FALSE;
op = *last_code & 0xFF00;
if (op == C_CALL)
return TRUE;
op >>= 8;
if (op >= CODE_FIRST_SUBR && op <= CODE_LAST_SUBR)
return TRUE;
return FALSE;
}
bool CODE_check_pop_local_last(short *local)
{
PCODE *last_code;
last_code = get_last_code();
if (!last_code)
return FALSE;
if ((*last_code & 0xFF00) == C_POP_LOCAL || (*last_code & 0xFF00) == C_POP_LOCAL_NOREF)
{
*local = *last_code & 0xFF;
return TRUE;
}
return FALSE;
}
bool CODE_check_jump_not(void)
{
ushort op;
PCODE *last_code = get_last_code();
if (!last_code)
return FALSE;
op = *last_code & 0xFF00;
if (op != C_NOT)
return FALSE;
CODE_undo();
return TRUE;
}
#endif
bool CODE_check_varptr(void)
{
unsigned short op;
PCODE *last_code;
last_code = get_last_code();
if (!last_code)
return TRUE;
op = *last_code;
if (!((op & 0xFF00) == C_PUSH_LOCAL || (op & 0xFF00) == C_PUSH_LOCAL_NOREF
|| (op & 0xFF00) == C_PUSH_PARAM || (op & 0xF800) == C_PUSH_STATIC
|| (op & 0xF800) == C_PUSH_DYNAMIC))
return TRUE;
*last_code = C_PUSH_INTEGER;
write_short((short)op);
return FALSE;
}
bool CODE_check_fast_cat(void)
{
unsigned short op;
PCODE *last_code;
last_code = get_last_code();
if (!last_code)
return FALSE;
op = *last_code;
if (!((op & 0xFF00) == C_POP_LOCAL || (op & 0xFF00) == C_POP_PARAM || (op & 0xF800) == C_POP_STATIC || (op & 0xF800) == C_POP_DYNAMIC))
return FALSE;
cur_func->code[cur_func->ncode - 2] &= 0xFF00;
cur_func->code[cur_func->ncode - 2] |= 1;
return TRUE;
}
bool CODE_check_ismissing(void)
{
unsigned short op;
PCODE *last_code;
last_code = get_last_code();
if (!last_code)
return TRUE;
op = *last_code;
if ((op & 0xFF00) != C_PUSH_PARAM && ((op & 0xFF00) != C_PUSH_PARAM_NOREF))
return TRUE;
*last_code = C_PUSH_QUICK | (op & 0xFF);
return FALSE;
}
void CODE_nop(void)
{
LAST_CODE;
write_short(C_NOP);
}
void CODE_push_number(int value)
{
LAST_CODE;
use_stack(1);
if (value >= -256 && value < 256)
{
#ifdef DEBUG
printf("PUSH QUICK %d\n", value);
#endif
write_Zxxx(C_PUSH_QUICK, value);
}
else if (value >= -32768L && value < 32768L)
{
#ifdef DEBUG
printf("PUSH INTEGER %d\n", value);
#endif
write_short(C_PUSH_INTEGER);
write_short((short)value);
}
else
{
#ifdef DEBUG
printf("PUSH LONG %d\n", value);
#endif
write_short(C_PUSH_LONG);
write_int(value);
}
}
void CODE_push_float(int value)
{
LAST_CODE;
use_stack(1);
write_ZZxx(C_PUSH_FLOAT, value);
}
void CODE_push_const(ushort value)
{
LAST_CODE;
use_stack(1);
#ifdef DEBUG
#ifdef PROJECT_EXEC
printf("PUSH CONST %d\n", value);
#else
printf("PUSH CONST %d %s\n", value, TABLE_get_symbol_name(CURRENT_CLASS->table, CURRENT_CLASS->constant[value].index));
#endif
#endif
if (value < 0xF00)
write_Zxxx(C_PUSH_CONST, value);
else
{
write_Zxxx(C_PUSH_CONST, 0xF00);
write_short((short)value);
}
}
void CODE_push_local_ref(short num, bool ref)
{
LAST_CODE;
use_stack(1);
#ifdef DEBUG
if (num >= 0)
printf("PUSH LOCAL %d\n", num);
else
printf("PUSH PARAM %d\n", (-1) - num);
#endif
if (!ref && COMP_version >= 0x03180000)
{
if (num >= 0)
write_ZZxx(C_PUSH_LOCAL_NOREF, num);
else
write_ZZxx(C_PUSH_PARAM_NOREF, num);
}
else
{
if (num >= 0)
write_ZZxx(C_PUSH_LOCAL, num);
else
write_ZZxx(C_PUSH_PARAM, num);
}
}
#ifdef PROJECT_COMP
void CODE_pop_local(short num)
{
LAST_CODE;
use_stack(-1);
#ifdef DEBUG
if (num >= 0)
printf("POP LOCAL #%d\n", num);
else
printf("POP PARAM #%d\n", (-1) - num);
#endif
if (num >= 0)
write_ZZxx(C_POP_LOCAL, num);
else
write_ZZxx(C_POP_PARAM, num);
}
void CODE_pop_local_noref(short num)
{
if (COMP_version < 0x03180000)
{
CODE_pop_local(num);
return;
}
LAST_CODE;
use_stack(-1);
#ifdef DEBUG
if (num >= 0)
printf("POP LOCAL NOREF #%d\n", num);
else
printf("POP PARAM NOREF #%d\n", (-1) - num);
#endif
if (num >= 0)
write_ZZxx(C_POP_LOCAL_NOREF, num);
else
write_ZZxx(C_POP_PARAM_NOREF, num);
}
void CODE_pop_ctrl(short num)
{
LAST_CODE;
use_stack(-1);
#ifdef DEBUG
printf("POP CTRL #%d\n", num);
#endif
write_ZZxx(C_POP_CTRL, num);
}
void CODE_pop_optional(short num)
{
LAST_CODE;
use_stack(-1);
#ifdef DEBUG
printf("POP OPTIONAL #%d\n", (-1) - num);
#endif
write_ZZxx(C_POP_OPTIONAL, num);
}
#endif /* PROJECT_COMP */
void CODE_push_array(short nparam)
{
LAST_CODE;
use_stack(1 - nparam);
write_ZZxx(C_PUSH_ARRAY, nparam);
}
void CODE_push_global(short global, bool is_static, bool is_function)
{
LAST_CODE;
use_stack(1);
#ifdef DEBUG
printf("PUSH %s %d\n", is_static ? "STATIC" : "DYNAMIC", global);
#endif
if (is_function)
write_Z8xx(C_PUSH_FUNCTION, global);
else if (is_static)
write_Z8xx(C_PUSH_STATIC, global);
else
write_Z8xx(C_PUSH_DYNAMIC, global);
}
#ifdef PROJECT_COMP
void CODE_pop_global(short global, bool is_static)
{
LAST_CODE;
use_stack(-1);
#ifdef DEBUG
printf("POP %s %d\n", is_static ? "STATIC" : "DYNAMIC", global);
#endif
if (is_static)
write_Z8xx(C_POP_STATIC, global);
else
write_Z8xx(C_POP_DYNAMIC, global);
}
#endif
/*
void CODE_push_symbol(short symbol)
{
LAST_CODE;
use_stack(0);
#ifdef DEBUG
printf("PUSH SYMBOL %s\n", TABLE_get_symbol_name(CURRENT_CLASS->table, symbol));
#endif
write_short(C_PUSH_SYMBOL);
write_short(symbol);
}
void CODE_pop_symbol(short symbol)
{
LAST_CODE;
use_stack(-2);
#ifdef DEBUG
printf("POP SYMBOL %s\n", TABLE_get_symbol_name(CURRENT_CLASS->table, symbol));
#endif
write_short(C_POP_SYMBOL);
write_short(symbol);
}
*/
void CODE_push_unknown(short symbol)
{
LAST_CODE;
use_stack(0);
#ifdef DEBUG
#ifdef PROJECT_EXEC
printf("PUSH UNKNOWN %s\n", CURRENT_CLASS->unknown[symbol]);
#else
printf("PUSH UNKNOWN %s\n", TABLE_get_symbol_name(CURRENT_CLASS->table, symbol));
#endif
#endif
write_short(C_PUSH_UNKNOWN);
write_short(symbol);
}
void CODE_push_unknown_event(short symbol)
{
LAST_CODE;
use_stack(1);
#ifdef DEBUG
printf("PUSH UNKNOWN EVENT %s\n", TABLE_get_symbol_name(CURRENT_CLASS->table, symbol));
#endif
write_ZZxx(C_PUSH_EVENT, 0xFF);
write_short(symbol);
}
#ifdef PROJECT_COMP
void CODE_pop_unknown(short symbol)
{
LAST_CODE;
use_stack(-2);
#ifdef DEBUG
printf("POP UNKNOWN %s\n", TABLE_get_symbol_name(CURRENT_CLASS->table, symbol));
#endif
write_short(C_POP_UNKNOWN);
write_short(symbol);
}
#endif
void CODE_push_class(short class)
{
LAST_CODE;
use_stack(1);
#ifdef DEBUG
printf("PUSH CLASS %d\n", class);
#endif
write_Z8xx(C_PUSH_CLASS, class);
#ifdef PROJECT_COMP
CURRENT_CLASS->class[class].used = TRUE;
#endif
}
#ifdef PROJECT_COMP
void CODE_jump()
{
LAST_CODE;
#ifdef DEBUG
printf("JUMP\n");
#endif
write_short(C_JUMP);
write_short(0);
}
void CODE_gosub(int ctrl_local)
{
LAST_CODE;
#ifdef DEBUG
printf("GOSUB\n");
#endif
write_ZZxx(C_GOSUB, ctrl_local);
write_short(0);
}
void CODE_on(uchar num)
{
LAST_CODE;
use_stack(-1);
#ifdef DEBUG
printf("ON\n");
#endif
write_ZZxx(C_ON, num);
}
void CODE_jump_if(bool test, bool fast)
{
ushort op;
use_stack(-1);
#ifdef DEBUG
printf("JUMP IF %s\n", test ? "TRUE" : "FALSE");
#endif
LAST_CODE;
if (test)
{
if (fast && COMP_version >= 0x03180000)
op = C_JUMP_IF_TRUE_FAST;
else
op = C_JUMP_IF_TRUE;
}
else
{
if (fast && COMP_version >= 0x03180000)
op = C_JUMP_IF_FALSE_FAST;
else
op = C_JUMP_IF_FALSE;
}
write_short(op);
write_short(0);
}
void CODE_jump_first(short local)
{
LAST_CODE;
use_stack(-2);
#ifdef DEBUG
printf("JUMP FIRST LOCAL %d\n", local);
#endif
write_ZZxx(C_JUMP_FIRST, local);
}
void CODE_jump_next(void)
{
LAST_CODE;
use_stack(1);
#ifdef DEBUG
printf("JUMP NEXT\n");
#endif
write_short(C_JUMP_NEXT);
/**pos = CODE_get_current_pos();*/
write_short(0);
}
void CODE_jump_length(ushort src, ushort dst)
{
if (src >= (cur_func->ncode - 1))
return;
int diff = (int)dst - (int)src;
if (diff < -32768 || diff > 32767)
THROW("Jump is too far");
if (cur_func->code[src] == C_BREAK)
cur_func->code[src + 2] = (short)(diff - 3); //dst - (src + 2) - 1;
else if (cur_func->code[src] == C_NOP)
cur_func->code[src] = (short)diff; //dst - src;
else
cur_func->code[src + 1] = (short)(diff - 2); //dst - (src + 1) - 1;
}
void CODE_first(short local)
{
LAST_CODE;
use_stack(-1);
#ifdef DEBUG
printf("ENUM FIRST LOCAL %d\n", local);
#endif
write_ZZxx(C_FIRST, local);
}
void CODE_next(bool drop)
{
LAST_CODE;
use_stack(drop ? 0 : 1);
#ifdef DEBUG
printf("ENUM NEXT%s\n", drop ? " DROP" : "");
#endif
write_ZZxx(C_NEXT, drop ? 1 : 0);
write_short(0);
}
#endif /* PROJECT_COMP */
void CODE_op(short op, short subcode, short nparam, bool fixed)
{
LAST_CODE;
use_stack(1 - nparam);
#ifdef DEBUG
printf("OP %d (%d)\n", op, nparam);
#endif
if (fixed)
write_ZZxx(op, subcode);
else
write_ZZxx(op, nparam);
}
#ifdef PROJECT_COMP
void CODE_add_sub(short op, short subcode, short nparam, TYPE_ID type)
#else
void CODE_add_sub(short op, short subcode, short nparam)
#endif
{
PCODE *last_code;
short value, value2;
last_code = get_last_code();
if (last_code && ((*last_code & 0xF000) == C_PUSH_QUICK))
{
value = *last_code & 0xFFF;
if (value >= 0x800) value |= 0xF000;
if (op == C_SUB) value = (-value); // prevent -256 to be valid!
#ifdef DEBUG
printf("ADD QUICK %d\n", value);
#endif
if (COMP_version < 0x03180000 || (value > -256 && value < 256))
{
#ifdef PROJECT_COMP
PCODE opcode = C_ADD_QUICK;
if (COMP_version >= 0x03190000)
{
if (value >= -128 && value < 128)
{
if (type == T_INTEGER)
opcode = C_ADD_QUICK_INTEGER;
else if (type == T_FLOAT)
opcode = C_ADD_QUICK_FLOAT;
}
}
if (opcode == C_ADD_QUICK)
*last_code = opcode | (value & 0x0FFF);
else
*last_code = opcode | (value & 0x00FF);
#else
*last_code = C_ADD_QUICK | (value & 0x0FFF);
#endif
use_stack(1 - nparam);
// Now, look if we are PUSH QUICK then ADD QUICK
last_code = get_last_code2();
if (last_code && ((*last_code & 0xF000) == C_PUSH_QUICK))
{
value2 = *last_code & 0xFFF;
if (value2 >= 0x800) value2 |= 0xF000;
if (value2 > -256 && value2 < 256)
{
value += value2;
if (value >= -256 && value < 256)
{
*last_code = C_PUSH_QUICK | (value & 0x0FFF);
CODE_undo();
}
}
}
return;
}
}
CODE_op(op, subcode, nparam, TRUE);
}
void CODE_push_me(bool debug)
{
LAST_CODE;
use_stack(1);
#ifdef DEBUG
printf("PUSH ME\n");
#endif
write_ZZxx(C_PUSH_ME, debug ? 1 : 0);
}
void CODE_push_super(bool debug)
{
LAST_CODE;
use_stack(1);
#ifdef DEBUG
printf("PUSH SUPER\n");
#endif
write_ZZxx(C_PUSH_ME, debug ? 3 : 2);
}
void CODE_push_last()
{
LAST_CODE;
use_stack(1);
#ifdef DEBUG
printf("PUSH LAST\n");
#endif
write_ZZxx(C_PUSH_MISC, CPM_LAST);
}
void CODE_push_null()
{
LAST_CODE;
use_stack(1);
#ifdef DEBUG
printf("PUSH NULL\n");
#endif
write_ZZxx(C_PUSH_MISC, CPM_NULL);
}
void CODE_push_void_string()
{
LAST_CODE;
use_stack(1);
#ifdef DEBUG
printf("PUSH VOID STRING\n");
#endif
write_ZZxx(C_PUSH_MISC, CPM_STRING);
}
/*
static bool change_last_call(ushort flag)
{
ushort *last_code = get_last_code();
if (!last_code)
return FALSE;
if ((*last_code & 0xFF00) == C_CALL)
{
*last_code = *last_code | flag;
return TRUE;
}
else if ((ushort)((*last_code) & 0xFF00) >= (ushort)CODE_FIRST_SUBR)
{
*last_code = *last_code | flag;
return TRUE;
}
else if (((*last_code & 0xFF00) == C_DROP) && flag == CODE_CALL_DROP)
return FALSE;
}
*/
void CODE_dup(void)
{
LAST_CODE;
use_stack(1);
#ifdef DEBUG
printf("DUP\n");
#endif
write_short(C_DUP);
}
void CODE_return(int return_value)
{
LAST_CODE;
if (return_value == 1)
use_stack(-1);
write_ZZxx(C_RETURN, return_value);
#ifdef DEBUG
printf("RETURN (%d)\n", return_value);
#endif
}
#ifdef PROJECT_COMP
void CODE_quit(bool ret)
{
LAST_CODE;
#ifdef DEBUG
printf("QUIT (%d)\n", ret);
#endif
if (ret)
use_stack(-1);
write_ZZxx(C_QUIT, ret ? 3 : 0);
}
void CODE_stop(void)
{
LAST_CODE;
#ifdef DEBUG
printf("STOP\n");
#endif
write_ZZxx(C_QUIT, 1);
}
#endif /* PROJECT_COMP */
void CODE_push_char(uchar car)
{
LAST_CODE;
use_stack(1);
write_ZZxx(C_PUSH_CHAR, car);
#ifdef DEBUG
printf("PUSH CHAR %d\n", car);
#endif
}
void CODE_push_void(void)
{
LAST_CODE;
use_stack(1);
write_ZZxx(C_PUSH_MISC, CPM_VOID);
#ifdef DEBUG
printf("PUSH VOID\n");
#endif
}
#ifdef PROJECT_COMP
void CODE_stop_event(void)
{
LAST_CODE;
write_ZZxx(C_QUIT, 2);
#ifdef DEBUG
printf("STOP EVENT\n");
#endif
}
#endif
void CODE_subr(short subr, short nparam, short optype, bool fixed)
{
LAST_CODE;
use_stack(1 - nparam);
#ifdef DEBUG
printf("SUBR %d (%d)\n", subr, nparam);
#endif
if (optype == 0)
{
if (fixed)
nparam = 0;
}
else
{
nparam = optype;
}
subr += CODE_FIRST_SUBR;
write_short(((subr & 0xFF) << 8) | (nparam & 0xFF));
}
/*void CODE_subr_output(short subr, short nparam, int output)
{
LAST_CODE;
use_stack(output - nparam);
#ifdef DEBUG
printf("SUBR OUTPUT %d %d (%d)\n", output, subr, nparam);
#endif
subr += CODE_FIRST_SUBR;
write_short(((subr & 0xFF) << 8) | (nparam & 0xFF));
}*/
void CODE_call(short nparam)
{
LAST_CODE;
use_stack(-nparam);
#ifdef DEBUG
printf("CALL ( %d )\n", nparam);
#endif
write_ZZxx(C_CALL, nparam);
}
void CODE_byref(uint64_t byref)
{
LAST_CODE;
int n;
#ifdef DEBUG
printf("BYREF\n");
#endif
if (byref >> 48)
n = 3;
else if (byref >> 32)
n = 2;
else if (byref >> 16)
n = 1;
else
n = 0;
write_ZZxx(C_BYREF, n);
while (n >= 0)
{
write_short(byref & 0xFFFF);
byref >>= 16;
n--;
}
}
void CODE_call_byref(short nparam, uint64_t byref)
{
LAST_CODE;
int i, n;
use_stack(-nparam);
n = 0;
for (i = 0; i < nparam; i++)
{
if (byref & (1ULL << i))
n++;
}
use_stack(n);
#ifdef DEBUG
printf("CALL ( %d )\n", nparam);
#endif
write_ZZxx(C_CALL, nparam);
CODE_byref(byref);
}
/*void CODE_push_return(void)
{
LAST_CODE;
use_stack(1);
write_short(C_PUSH_RETURN);
#ifdef DEBUG
printf("PUSH RETURN\n");
#endif
}*/
#ifdef PROJECT_COMP
void CODE_try(void)
{
LAST_CODE;
write_short(C_TRY);
write_short(0);
#ifdef DEBUG
printf("TRY\n");
#endif
}
void CODE_end_try(void)
{
LAST_CODE;
write_short(C_END_TRY);
#ifdef DEBUG
printf("END TRY\n");
#endif
}
void CODE_catch(void)
{
LAST_CODE;
write_short(C_CATCH);
#ifdef DEBUG
printf("CATCH\n");
#endif
}
#endif
void CODE_drop(void)
{
//ushort *last_code = get_last_code();
//ushort subr;
use_stack(-1);
#ifdef DEBUG
printf("DROP\n");
#endif
/*if (last_code)
{
switch(*last_code & 0xFF00)
{
case C_DROP:
*last_code = (*last_code & 0xFF00) + (*last_code & 0xFF) + 1;
return;
case C_CALL:
*last_code |= CODE_CALL_VOID;
return;
default:
subr = (*last_code) >> 8;
if (subr >= CODE_FIRST_SUBR && subr <= CODE_LAST_SUBR && (!(*last_code & CODE_CALL_VOID)))
{
*last_code |= CODE_CALL_VOID;
return;
}
}
}*/
//THROW("Internal compiler error: Bad stack drop!");
LAST_CODE;
write_ZZxx(C_DROP, 1);
}
/*void CODE_push_special(short spec)
{
LAST_CODE;
use_stack(0);
#ifdef DEBUG
printf("PUSH SPECIAL %d\n", spec);
#endif
write_ZZxx(C_PUSH_SPECIAL, spec);
}
*/
#ifdef PROJECT_COMP
void CODE_push_event(short event)
{
LAST_CODE;
use_stack(1);
#ifdef DEBUG
printf("PUSH EVENT %d\n", event);
#endif
write_ZZxx(C_PUSH_EVENT, event);
}
void CODE_push_extern(short index)
{
LAST_CODE;
use_stack(1);
#ifdef DEBUG
printf("PUSH EXTERN %d\n", index);
#endif
write_ZZxx(C_PUSH_EXTERN, index);
}
void CODE_new(ushort nparam, bool array, bool event)
{
LAST_CODE;
use_stack(1 - nparam);
#ifdef DEBUG
printf("NEW %s (%d)\n", (array ? "ARRAY" : (event ? "EVENT" : "")), nparam);
#endif
if (array)
nparam |= CODE_NEW_ARRAY;
if (event)
nparam |= CODE_NEW_EVENT;
write_ZZxx(C_NEW, nparam);
}
#endif
void CODE_push_boolean(bool value)
{
LAST_CODE;
use_stack(1);
write_ZZxx(C_PUSH_MISC, value ? CPM_TRUE : CPM_FALSE);
#ifdef DEBUG
printf("PUSH %s\n", value ? "TRUE" : "FALSE");
#endif
}
void CODE_push_inf(bool neg)
{
LAST_CODE;
use_stack(1);
#ifdef DEBUG
printf("PUSH %cINF\n", neg ? '-' : '+');
#endif
write_ZZxx(C_PUSH_MISC, neg ? CPM_MINF : CPM_PINF);
}
void CODE_push_complex(void)
{
LAST_CODE;
#ifdef DEBUG
printf("PUSH COMPLEX\n");
#endif
write_ZZxx(C_PUSH_MISC, CPM_COMPLEX);
}
void CODE_push_vargs(void)
{
LAST_CODE;
#ifdef DEBUG
printf("PUSH VARGS\n");
#endif
write_ZZxx(C_PUSH_MISC, CPM_VARGS);
}
void CODE_drop_vargs(void)
{
LAST_CODE;
#ifdef DEBUG
printf("DROP VARGS\n");
#endif
write_ZZxx(C_PUSH_MISC, CPM_DROP_VARGS);
}
void CODE_end_vargs(void)
{
LAST_CODE;
#ifdef DEBUG
printf("END VARGS\n");
#endif
write_ZZxx(C_PUSH_MISC, CPM_END_VARGS);
}
#ifdef CODE_DUMP
void CODE_dump(PCODE *code, int count)
{
int i;
printf("\n");
for (i = 0; i < count;)
i += PCODE_dump(stdout, i, &code[i]);
printf("\n");
}
#endif
void CODE_string_add(void)
{
LAST_CODE;
#ifdef DEBUG
printf("STOP\n");
#endif
write_ZZxx(C_QUIT, 3);
}