gambas-source-code/main/share/gb_pcode_temp.h
Benoît Minisini cdcf6cdac9 [DEVELOPMENT ENVIRONMENT]
* BUG: Code indentation routine correctly handles structures now.

[INTERPRETER]
* NEW: Object.LastEventName has been deprecated, and replaced by 
  the Param.EventName property.
* BUG: IsFloat() is now a synonymous for IsNumber().
* BUG: Intrinsic functions description has been updated.

[COMPILER]
* NEW: "\e" is a new string escape sequence equivalent to "\x1B".

[GB.FORM]
* NEW: Use the new Control.Proxy property instead of internal observers
  inside compound controls (ValueBox, ButtonBox, MenuButton).

[GB.GTK]
* NEW: Control.Proxy is a new property that allows to define a control 
  proxy that will handle focus, key and mouse events in original control's 
  place.

[GB.QT4]
* NEW: Control.Proxy is a new property that allows to define a control 
  proxy that will handle focus, key and mouse events in original control's 
  place.


git-svn-id: svn://localhost/gambas/trunk@3387 867c0c6c-44f3-4631-809d-bfa615b0a4ec
2010-12-21 14:05:42 +00:00

414 lines
9.4 KiB
C

/***************************************************************************
gb_pcode_temp.h
(c) 2000-2009 Benoît Minisini <gambas@users.sourceforge.net>
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., 675 Mass Ave, Cambridge, MA 02139, USA.
***************************************************************************/
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include "gb_common.h"
#include "gb_error.h"
#ifdef PROJECT_COMP
#include "gb_limit.h"
#include "gbc_compile.h"
#endif
#include "gb_pcode.h"
/*#define DEBUG*/
short PCODE_dump(FILE *out, short addr, PCODE *code)
{
static const char *op_comp[] = { "=", "<>", ">", "<=", "<", ">=", "==", "CASE" };
static const char *op_arith[] = { "+", "-" , "*", "/", "NEG", "\\", "MOD", "POW", "AND", "OR", "XOR", "NOT", "&", "LIKE", "&/" };
int j;
unsigned short op;
unsigned short digit;
int value;
#ifdef PROJECT_COMP
int index;
TABLE *table;
bool trans;
#endif
int ncode;
op = *code;
switch (op & 0xFF00)
{
case C_PUSH_UNKNOWN: case C_POP_UNKNOWN:
case C_PUSH_INTEGER:
case C_JUMP: case C_JUMP_IF_TRUE: case C_JUMP_IF_FALSE:
case C_NEXT: case C_JUMP_NEXT:
case C_TRY:
ncode = 2;
break;
case C_PUSH_LONG:
ncode = 3;
break;
case C_BYREF:
ncode = 2 + (op & 0xFF);
break;
default:
if ((op & 0xFF00) == (C_PUSH_CONST | 0xF00))
ncode = 2;
else
ncode = 1;
}
fprintf(out, "%04d : ", addr);
for (j = 0; j < ncode; j++)
fprintf(out, " %04hX", code[j]);
for (j = 0; j < (3 - ncode); j++)
fprintf(out, " ");
fprintf(out, " ");
digit = (op >> 12);
value = op & 0xFFF;
if (value >= 0x800) value |= 0xFFFFF000;
switch (digit)
{
#ifdef PROJECT_COMP
case 0xF:
fprintf(out, "PUSH QUICK %d", (short)value);
break;
case 0xE:
if ((op & 0xF00) == 0xF00)
{
value = code[1];
}
fprintf(out, "PUSH CONST %d", value);
switch(JOB->class->constant[value].type.t.id)
{
case T_STRING:
table = JOB->class->string;
trans = FALSE;
break;
case T_CSTRING:
table = JOB->class->string;
trans = TRUE;
break;
default:
table = JOB->class->table;
trans = FALSE;
break;
}
if (trans)
fprintf(out, " (\"%s\")", TABLE_get_symbol_name(table, JOB->class->constant[value].value));
else
fprintf(out, " \"%s\"", TABLE_get_symbol_name(table, JOB->class->constant[value].value));
break;
case 0xD: case 0xC:
fprintf(out, "%s %s ", (digit == 0xD ? "POP" : "PUSH"), (value & 0x800) ? "STATIC" : "DYNAMIC");
index = ((value & 0x800) ? JOB->class->stat[value & 0x7FF].index : JOB->class->dyn[value & 0x7FF].index);
fprintf(out, "%s", TABLE_get_symbol_name(JOB->class->table, index));
break;
case 0xB:
if (value & 0x800)
{
fprintf(out, "PUSH FUNCTION ");
index = JOB->class->function[value & 0x7FF].name;
}
else
{
fprintf(out, "PUSH CLASS ");
index = JOB->class->class[value].index;
}
fprintf(out, "%s", TABLE_get_symbol_name(JOB->class->table, index));
break;
case 0xA:
fprintf(out, "ADD QUICK %d", (short)value);
break;
#else
case 0xF:
fprintf(out, "PUSH QUICK %d", (short)value);
break;
case 0xE:
fprintf(out, "PUSH CONST %d", (short)value);
break;
case 0xD:
fprintf(out, "POP %s %d", (value & 0x800) ? "STATIC" : "DYNAMIC", value & 0x7FF);
break;
case 0xC:
fprintf(out, "PUSH %s %d", (value & 0x800) ? "STATIC" : "DYNAMIC", value & 0x7FF);
break;
case 0xB:
fprintf(out, "PUSH %s %d", (value & 0x800) ? "FUNCTION" : "CLASS", value & 0x7FF);
break;
case 0xA:
fprintf(out, "ADD QUICK %d", (short)value);
break;
#endif
default:
digit = op & 0xFF00;
value = op & 0xFF;
if (value >= 0x80) value |= 0xFFFFFF00;
if (digit >= C_PUSH_LOCAL && digit < C_QUIT && digit != C_BYREF)
fprintf(out, "PUSH ");
else if (digit >= C_POP_LOCAL && digit < C_BREAK)
fprintf(out, "POP ");
switch(digit)
{
case C_PUSH_LOCAL: case C_POP_LOCAL: case C_PUSH_PARAM: case C_POP_PARAM:
if (value >= 0)
fprintf(out, "LOCAL %d", (short)value);
else
fprintf(out, "PARAM %d", (short)value);
break;
case C_POP_CTRL:
fprintf(out, "CTRL %d", (short)value);
break;
case C_POP_OPTIONAL:
fprintf(out, "OPTIONAL %d", (short)value);
break;
case C_PUSH_UNKNOWN: case C_POP_UNKNOWN:
value = code[1];
#ifdef PROJECT_COMP
fprintf(out, "UNKNOWN %s", TABLE_get_symbol_name(JOB->class->table, JOB->class->unknown[value]));
#else
fprintf(out, "UNKNOWN %d", (short)value);
#endif
break;
/*case C_PUSH_SPECIAL:
fprintf(out, "SPECIAL %d", (short)value);
break;*/
case C_PUSH_EXTERN:
fprintf(out, "EXTERN %d", (short)value);
break;
case C_PUSH_EVENT:
fprintf(out, "EVENT %d", (short)value);
break;
case C_PUSH_ARRAY: case C_POP_ARRAY:
fprintf(out, "ARRAY (%d)", (short)value);
break;
case C_CALL: case C_CALL_QUICK: case C_CALL_SLOW:
if (digit == C_CALL)
fprintf(out, "CALL ");
else if (digit == C_CALL_QUICK)
fprintf(out, "CALL QUICK ");
else
fprintf(out, "CALL SLOW ");
if (value & CODE_CALL_VARIANT)
fprintf(out, "VARIANT ");
//if (value & CODE_CALL_VOID)
// fprintf(out, "VOID ");
fprintf(out, "(%d)", (short)value & 0x3F);
break;
case C_BYREF:
fprintf(out, "BYREF (%d) ", (short)value & 0x3F);
for (j = 1; j < ncode; j++)
fprintf(out, "%04X", code[j]);
break;
case C_PUSH_INTEGER:
value = code[1];
fprintf(out, "PUSH SHORT %d", (short)value);
break;
case C_PUSH_LONG:
// FIXME: endianness
value = code[0] | (code[1] << 16); //*((int *)&code[1]);
fprintf(out, "PUSH INTEGER %d", value);
break;
case C_PUSH_ME:
fprintf(out, "PUSH %s", (value & 2) ? "SUPER": "ME");
break;
case C_PUSH_MISC:
switch (value)
{
case CPM_NULL: fprintf(out, "PUSH NULL"); break;
case CPM_VOID: fprintf(out, "PUSH VOID"); break;
case CPM_FALSE: fprintf(out, "PUSH FALSE"); break;
case CPM_TRUE: fprintf(out, "PUSH TRUE"); break;
case CPM_LAST: fprintf(out, "PUSH LAST"); break;
}
break;
case C_JUMP: case C_JUMP_IF_TRUE: case C_JUMP_IF_FALSE:
value = code[1];
fprintf(out, "JUMP%s %04d",
(digit == C_JUMP ? "" :
digit == C_JUMP_IF_TRUE ? " IF TRUE" :
digit == C_JUMP_IF_FALSE ? " IF FALSE" : "??"),
(short)(addr + value + 2));
break;
case C_JUMP_FIRST:
fprintf(out, "JUMP FIRST LOCAL %d", (short)value);
break;
case C_JUMP_NEXT:
fprintf(out, "JUMP NEXT ");
value = code[1];
fprintf(out, "%04d ", (short)(addr + value + 2));
break;
case C_FIRST:
fprintf(out, "ENUM FIRST LOCAL %d", (short)value);
break;
case C_NEXT:
fprintf(out, "ENUM NEXT ");
if (value & 0xFF)
fprintf(out, "DROP ");
value = code[1];
fprintf(out, "%04d ", (short)(addr + value + 2));
break;
case C_DROP:
fprintf(out, "DROP (%d)", (short)value);
break;
case C_DUP:
fprintf(out, "DUP");
break;
case C_NEW:
fprintf(out, "NEW ");
if (value & CODE_NEW_EVENT)
fprintf(out, "EVENT ");
if (value & CODE_NEW_ARRAY)
fprintf(out, "ARRAY ");
fprintf(out, "(%d)", (short)value & 0x3F);
break;
case C_BREAK:
fprintf(out, "BREAK");
break;
case C_RETURN:
fprintf(out, "RETURN (%d)", (short)value);
break;
case C_QUIT:
switch(value)
{
case 0: fprintf(out, "QUIT"); break;
case 1: fprintf(out, "STOP"); break;
case 2: default: fprintf(out, "STOP EVENT"); break;
}
break;
case C_PUSH_CHAR:
fprintf(out, "PUSH CHAR (%d)", (short)value);
break;
case C_TRY:
value = code[1];
fprintf(out, "TRY %04d", (short)(addr + value + 2));
break;
case C_END_TRY:
fprintf(out, "END TRY");
break;
case C_CATCH:
fprintf(out, "CATCH");
break;
default:
digit = (digit >> 8);
if (digit >= CODE_FIRST_SUBR)
{
#ifdef PROJECT_COMP
fprintf(out, "SUBR %s ", SUBR_get_from_opcode(digit - CODE_FIRST_SUBR, (short)value & 0x3F)->name);
#else
fprintf(out, "SUBR #%d ", digit - CODE_FIRST_SUBR);
#endif
if (value & CODE_CALL_VARIANT)
fprintf(out, "VARIANT ");
//if (value & CODE_CALL_VOID)
// fprintf(out, "VOID ");
fprintf(out, "(%d)", (short)value & 0x3F);
}
else if (digit >= 0x28 && digit <= 0x2F)
fprintf(out, "%s (%d)", op_comp[digit - 0x28], (short)value);
else if (digit >= 0x30 && digit <= 0x3E)
fprintf(out, "%s (%d)", op_arith[digit - 0x30], (short)value);
else if (digit == 0x3F)
fprintf(out, "IS (%d)", (short)value);
else
fprintf(out, "ILLEGAL");
}
}
fprintf(out, "\n");
return ncode;
}