예제 #1
0
void CppInterpreterGenerator::generate_more_monitors()
{
  StackFrame frame;

  const int frame_header_size = frame.unaligned_size() + slop_factor;
  const int monitor_size = frame::interpreter_frame_monitor_size() * wordSize;

  const Address stack_words_addr(Rmethod, methodOopDesc::max_stack_offset());

  Label loop_start, loop_test;

  // Extend the frame if necessary
  const Register required_bytes  = r3;
  const Register available_bytes = r4;

  __ load (required_bytes, frame_header_size + monitor_size);
  __ load (available_bytes, STATE(_stack_limit));
  __ addi (available_bytes, available_bytes, wordSize);
  __ sub (available_bytes, available_bytes, r1);
  __ maybe_extend_frame (required_bytes, available_bytes);

  // Move the expression stack contents
  const Register src = r3;
  const Register end = r4;
  const Register dst = r5;

  __ load (src, STATE(_stack));
  __ addi (src, src, wordSize);
  __ load (end, STATE(_stack_base));
  __ subi (dst, src, monitor_size);
  __ b (loop_test);
  __ bind (loop_start);
  __ load (r0, Address(src, 0));
  __ store (r0, Address(dst, 0));
  __ addi (src, src, wordSize);
  __ addi (dst, dst, wordSize);
  __ bind (loop_test);
  __ compare (src, end);
  __ blt (loop_start);

  // Move the expression stack pointers
  const Register tmp = r3;

  __ load (tmp, STATE(_stack_limit));
  __ subi (tmp, tmp, monitor_size);
  __ store (tmp, STATE(_stack_limit));
  __ load (tmp, STATE(_stack));
  __ subi (tmp, tmp, monitor_size);
  __ store (tmp, STATE(_stack));
  __ load (tmp, STATE(_stack_base));
  __ subi (tmp, tmp, monitor_size);
  __ store (tmp, STATE(_stack_base));

  // Zero the new monitor so the interpreter can find it.
  // NB tmp at this point contains _stack_base, the address
  // of the word after the expression stack -- which just
  // happens to be the address of our new monitor.
  __ load (r0, 0);
  __ store (r0, Address(tmp, BasicObjectLock::obj_offset_in_bytes()));
}
예제 #2
0
void Gfx::unpackBlt(const Common::Rect& r, byte *data, uint size, Graphics::Surface *surf, uint16 z, uint scale, byte transparentColor) {
	byte *d = _unpackedBitmap;
	uint pixelsLeftInLine = r.width();

	while (size > 0) {
		uint8 p = *data++;
		size--;
		uint8 color = p & 0xF;
		uint8 repeat = (p & 0xF0) >> 4;
		if (repeat == 0) {
			repeat = *data++;
			size--;
		}
		if (repeat == 0) {
			// end of line
			repeat = pixelsLeftInLine;
			pixelsLeftInLine = r.width();
		} else {
			pixelsLeftInLine -= repeat;
		}

		memset(d, color, repeat);
		d += repeat;
	}

	blt(r, _unpackedBitmap, surf, z, scale, transparentColor);
}
예제 #3
0
void Gfx::drawGfxObject(GfxObj *obj, Graphics::Surface &surf) {
	if (!obj->isVisible()) {
		return;
	}

	Common::Rect rect;
	byte *data;

	obj->getRect(obj->frame, rect);

	int x = obj->x;
	int y = obj->y;
	if (_overlayMode) {
		x += _scrollPosX;
		y += _scrollPosY;
	}
	rect.translate(x, y);
	data = obj->getData(obj->frame);

	if (obj->getSize(obj->frame) == obj->getRawSize(obj->frame)) {
		blt(rect, data, &surf, obj->layer, obj->scale, obj->transparentKey);
	} else {
		unpackBlt(rect, data, obj->getRawSize(obj->frame), &surf, obj->layer, obj->scale, obj->transparentKey);
	}

}
예제 #4
0
void Gfx::drawGfxObject(GfxObj *obj, Graphics::Surface &surf) {
	if (!obj->isVisible()) {
		return;
	}

	Common::Rect rect;
	byte *data;

	obj->getRect(obj->frame, rect);

	int x = obj->x;
	int y = obj->y;
	if (_overlayMode) {
		x += _scrollPosX;
		y += _scrollPosY;
	}
	rect.translate(x, y);
	data = obj->getData(obj->frame);

	// WORKAROUND: During the end credits, game scripts try to show a
	// non-existing frame. We change it to an existing one here.
	if (obj->frame == 14 && obj->getNum() == 9 && !strcmp(obj->getName(), "Dinor"))
		obj->frame = 8;

	if (obj->getSize(obj->frame) == obj->getRawSize(obj->frame)) {
		blt(rect, data, &surf, obj->layer, obj->scale, obj->transparentKey);
	} else {
		unpackBlt(rect, data, obj->getRawSize(obj->frame), &surf, obj->layer, obj->scale, obj->transparentKey);
	}

}
예제 #5
0
파일: bitmap.cpp 프로젝트: Lobomon/mkxp 
Bitmap::Bitmap(const Bitmap &other)
{
	other.ensureNonMega();

	p = new BitmapPrivate;

	p->gl = shState->texPool().request(other.width(), other.height());

	blt(0, 0, other, rect());
}
예제 #6
0
void Scene::renderGameStatistics()
{
	// Show intro
	if( m_fTimer < 3.0f )
	{
		scene->renderFont( 255, 0, 255, 0, 3.0f, GAME_WIDTH / 2.0f, 30.0f, HGETEXT_CENTER, "-=SURVIVAL=-" ); 
	}

	// Show statistics
	std::string atp( "attempts: " );
	atp += std::to_string( attempts ); 
	renderFont( 255, 128, 128, 128, 1.0f, GAME_WIDTH - 140.0f, 10.0f, HGETEXT_LEFT, atp );

	std::string str( "health: ");
	int health = static_cast<int>( objects->getTank( )->getHealth( ) * 100 );
	str += std::to_string( health ); 
	renderFont( 255, 128, 128, 128, 1.0f, GAME_WIDTH - 140.0f, 40.0f, HGETEXT_LEFT, str );

	std::string timer( "timer: "); 
	timer += std::to_string( static_cast<int>(SURVIVAL_TIME) - static_cast<int>(m_fTimer) );
	timer += "s";
	renderFont( 255, 128, 128, 128, 1.0f, GAME_WIDTH - 140.0f, 70.0f, HGETEXT_LEFT, timer );

	std::string bst( "beasts: ") ;
	bst += std::to_string( objects->getDeadBeastQuantity( ) ); 
	renderFont( 255, 128, 128, 128, 1.0f, 10.0f, 10.0f, HGETEXT_LEFT, bst );

	std::string dmn( "daemons: ");
	dmn += std::to_string( objects->getDeadDaemonQuantity( ) ); 
	renderFont( 255, 128, 128, 128, 1.0f, 10.0f, 40.0f, HGETEXT_LEFT, dmn );

	std::string rpt( "reptiles: "); 
	rpt += std::to_string( objects->getDeadReptileQuantity( ) );
	renderFont( 255, 128, 128, 128, 1.0f, 10.0f, 70.0f, HGETEXT_LEFT, rpt );

	std::string blt( "bullets: ");
	blt += std::to_string( Weapon::getBulletsQuantity( ) );
	renderFont( 255, 128, 128, 128, 1.0f, 10.0f, GAME_HEIGHT - 90.0f, HGETEXT_LEFT, blt );

	std::string shl( "shells: ");
	shl += std::to_string( Weapon::getShellsQuantity( ) );
	renderFont( 255, 128, 128, 128, 1.0f, 10.0f, GAME_HEIGHT - 60.0f, HGETEXT_LEFT, shl );

	std::string rct( "rockets: ");
	rct += std::to_string( Weapon::getRocketsQuantity( ) );
	renderFont( 255, 128, 128, 128, 1.0f, 10.0f, GAME_HEIGHT - 30.0f, HGETEXT_LEFT, rct );
}
예제 #7
0
 static void blt(Surface &dest, const iXY &pos, const char *string)
 {
     // The color in this really doesn't matter.
     blt(dest, pos, string, Color::black);
 }
예제 #8
0
/* execute instructions on this CPU until icount expires */
static int hd6309_execute(int cycles)	/* NS 970908 */
{
	hd6309_ICount = cycles - hd6309.extra_cycles;
	hd6309.extra_cycles = 0;

	if (hd6309.int_state & (HD6309_CWAI | HD6309_SYNC))
	{
		CALL_MAME_DEBUG;
		hd6309_ICount = 0;
	}
	else
	{
		do
		{
			pPPC = pPC;

			CALL_MAME_DEBUG;

			hd6309.ireg = ROP(PCD);
			PC++;

#ifdef BIG_SWITCH
			switch( hd6309.ireg )
			{
			case 0x00: neg_di();   				break;
			case 0x01: oim_di();   				break;
			case 0x02: aim_di();   				break;
			case 0x03: com_di();   				break;
			case 0x04: lsr_di();   				break;
			case 0x05: eim_di();   				break;
			case 0x06: ror_di();   				break;
			case 0x07: asr_di();   				break;
			case 0x08: asl_di();   				break;
			case 0x09: rol_di();   				break;
			case 0x0a: dec_di();   				break;
			case 0x0b: tim_di();   				break;
			case 0x0c: inc_di();   				break;
			case 0x0d: tst_di();   				break;
			case 0x0e: jmp_di();   				break;
			case 0x0f: clr_di();   				break;
			case 0x10: pref10();				break;
			case 0x11: pref11();				break;
			case 0x12: nop();	   				break;
			case 0x13: sync();	   				break;
			case 0x14: sexw();	   				break;
			case 0x15: IIError();				break;
			case 0x16: lbra();	   				break;
			case 0x17: lbsr();	   				break;
			case 0x18: IIError();				break;
			case 0x19: daa();	   				break;
			case 0x1a: orcc();	   				break;
			case 0x1b: IIError();				break;
			case 0x1c: andcc();    				break;
			case 0x1d: sex();	   				break;
			case 0x1e: exg();	   				break;
			case 0x1f: tfr();	   				break;
			case 0x20: bra();	   				break;
			case 0x21: brn();	   				break;
			case 0x22: bhi();	   				break;
			case 0x23: bls();	   				break;
			case 0x24: bcc();	   				break;
			case 0x25: bcs();	   				break;
			case 0x26: bne();	   				break;
			case 0x27: beq();	   				break;
			case 0x28: bvc();	   				break;
			case 0x29: bvs();	   				break;
			case 0x2a: bpl();	   				break;
			case 0x2b: bmi();	   				break;
			case 0x2c: bge();	   				break;
			case 0x2d: blt();	   				break;
			case 0x2e: bgt();	   				break;
			case 0x2f: ble();	   				break;
			case 0x30: leax();	   				break;
			case 0x31: leay();	   				break;
			case 0x32: leas();	   				break;
			case 0x33: leau();	   				break;
			case 0x34: pshs();	   				break;
			case 0x35: puls();	   				break;
			case 0x36: pshu();	   				break;
			case 0x37: pulu();	   				break;
			case 0x38: IIError();				break;
			case 0x39: rts();	   				break;
			case 0x3a: abx();	   				break;
			case 0x3b: rti();	   				break;
			case 0x3c: cwai();					break;
			case 0x3d: mul();					break;
			case 0x3e: IIError();				break;
			case 0x3f: swi();					break;
			case 0x40: nega();	   				break;
			case 0x41: IIError();				break;
			case 0x42: IIError();				break;
			case 0x43: coma();	   				break;
			case 0x44: lsra();	   				break;
			case 0x45: IIError();				break;
			case 0x46: rora();	   				break;
			case 0x47: asra();	   				break;
			case 0x48: asla();	   				break;
			case 0x49: rola();	   				break;
			case 0x4a: deca();	   				break;
			case 0x4b: IIError();				break;
			case 0x4c: inca();	   				break;
			case 0x4d: tsta();	   				break;
			case 0x4e: IIError();				break;
			case 0x4f: clra();	   				break;
			case 0x50: negb();	   				break;
			case 0x51: IIError();				break;
			case 0x52: IIError();				break;
			case 0x53: comb();	   				break;
			case 0x54: lsrb();	   				break;
			case 0x55: IIError();				break;
			case 0x56: rorb();	   				break;
			case 0x57: asrb();	   				break;
			case 0x58: aslb();	   				break;
			case 0x59: rolb();	   				break;
			case 0x5a: decb();	   				break;
			case 0x5b: IIError();				break;
			case 0x5c: incb();	   				break;
			case 0x5d: tstb();	   				break;
			case 0x5e: IIError();				break;
			case 0x5f: clrb();	   				break;
			case 0x60: neg_ix();   				break;
			case 0x61: oim_ix();   				break;
			case 0x62: aim_ix();   				break;
			case 0x63: com_ix();   				break;
			case 0x64: lsr_ix();   				break;
			case 0x65: eim_ix();   				break;
			case 0x66: ror_ix();   				break;
			case 0x67: asr_ix();   				break;
			case 0x68: asl_ix();   				break;
			case 0x69: rol_ix();   				break;
			case 0x6a: dec_ix();   				break;
			case 0x6b: tim_ix();   				break;
			case 0x6c: inc_ix();   				break;
			case 0x6d: tst_ix();   				break;
			case 0x6e: jmp_ix();   				break;
			case 0x6f: clr_ix();   				break;
			case 0x70: neg_ex();   				break;
			case 0x71: oim_ex();   				break;
			case 0x72: aim_ex();   				break;
			case 0x73: com_ex();   				break;
			case 0x74: lsr_ex();   				break;
			case 0x75: eim_ex();   				break;
			case 0x76: ror_ex();   				break;
			case 0x77: asr_ex();   				break;
			case 0x78: asl_ex();   				break;
			case 0x79: rol_ex();   				break;
			case 0x7a: dec_ex();   				break;
			case 0x7b: tim_ex();   				break;
			case 0x7c: inc_ex();   				break;
			case 0x7d: tst_ex();   				break;
			case 0x7e: jmp_ex();   				break;
			case 0x7f: clr_ex();   				break;
			case 0x80: suba_im();  				break;
			case 0x81: cmpa_im();  				break;
			case 0x82: sbca_im();  				break;
			case 0x83: subd_im();  				break;
			case 0x84: anda_im();  				break;
			case 0x85: bita_im();  				break;
			case 0x86: lda_im();   				break;
			case 0x87: IIError(); 				break;
			case 0x88: eora_im();  				break;
			case 0x89: adca_im();  				break;
			case 0x8a: ora_im();   				break;
			case 0x8b: adda_im();  				break;
			case 0x8c: cmpx_im();  				break;
			case 0x8d: bsr();	   				break;
			case 0x8e: ldx_im();   				break;
			case 0x8f: IIError();  				break;
			case 0x90: suba_di();  				break;
			case 0x91: cmpa_di();  				break;
			case 0x92: sbca_di();  				break;
			case 0x93: subd_di();  				break;
			case 0x94: anda_di();  				break;
			case 0x95: bita_di();  				break;
			case 0x96: lda_di();   				break;
			case 0x97: sta_di();   				break;
			case 0x98: eora_di();  				break;
			case 0x99: adca_di();  				break;
			case 0x9a: ora_di();   				break;
			case 0x9b: adda_di();  				break;
			case 0x9c: cmpx_di();  				break;
			case 0x9d: jsr_di();   				break;
			case 0x9e: ldx_di();   				break;
			case 0x9f: stx_di();   				break;
			case 0xa0: suba_ix();  				break;
			case 0xa1: cmpa_ix();  				break;
			case 0xa2: sbca_ix();  				break;
			case 0xa3: subd_ix();  				break;
			case 0xa4: anda_ix();  				break;
			case 0xa5: bita_ix();  				break;
			case 0xa6: lda_ix();   				break;
			case 0xa7: sta_ix();   				break;
			case 0xa8: eora_ix();  				break;
			case 0xa9: adca_ix();  				break;
			case 0xaa: ora_ix();   				break;
			case 0xab: adda_ix();  				break;
			case 0xac: cmpx_ix();  				break;
			case 0xad: jsr_ix();   				break;
			case 0xae: ldx_ix();   				break;
			case 0xaf: stx_ix();   				break;
			case 0xb0: suba_ex();  				break;
			case 0xb1: cmpa_ex();  				break;
			case 0xb2: sbca_ex();  				break;
			case 0xb3: subd_ex();  				break;
			case 0xb4: anda_ex();  				break;
			case 0xb5: bita_ex();  				break;
			case 0xb6: lda_ex();   				break;
			case 0xb7: sta_ex();   				break;
			case 0xb8: eora_ex();  				break;
			case 0xb9: adca_ex();  				break;
			case 0xba: ora_ex();   				break;
			case 0xbb: adda_ex();  				break;
			case 0xbc: cmpx_ex();  				break;
			case 0xbd: jsr_ex();   				break;
			case 0xbe: ldx_ex();   				break;
			case 0xbf: stx_ex();   				break;
			case 0xc0: subb_im();  				break;
			case 0xc1: cmpb_im();  				break;
			case 0xc2: sbcb_im();  				break;
			case 0xc3: addd_im();  				break;
			case 0xc4: andb_im();  				break;
			case 0xc5: bitb_im();  				break;
			case 0xc6: ldb_im();   				break;
			case 0xc7: IIError(); 				break;
			case 0xc8: eorb_im();  				break;
			case 0xc9: adcb_im();  				break;
			case 0xca: orb_im();   				break;
			case 0xcb: addb_im();  				break;
			case 0xcc: ldd_im();   				break;
			case 0xcd: ldq_im();   				break; /* in m6809 was std_im */
			case 0xce: ldu_im();   				break;
			case 0xcf: IIError();  				break;
			case 0xd0: subb_di();  				break;
			case 0xd1: cmpb_di();  				break;
			case 0xd2: sbcb_di();  				break;
			case 0xd3: addd_di();  				break;
			case 0xd4: andb_di();  				break;
			case 0xd5: bitb_di();  				break;
			case 0xd6: ldb_di();   				break;
			case 0xd7: stb_di();   				break;
			case 0xd8: eorb_di();  				break;
			case 0xd9: adcb_di();  				break;
			case 0xda: orb_di();   				break;
			case 0xdb: addb_di();  				break;
			case 0xdc: ldd_di();   				break;
			case 0xdd: std_di();   				break;
			case 0xde: ldu_di();   				break;
			case 0xdf: stu_di();   				break;
			case 0xe0: subb_ix();  				break;
			case 0xe1: cmpb_ix();  				break;
			case 0xe2: sbcb_ix();  				break;
			case 0xe3: addd_ix();  				break;
			case 0xe4: andb_ix();  				break;
			case 0xe5: bitb_ix();  				break;
			case 0xe6: ldb_ix();   				break;
			case 0xe7: stb_ix();   				break;
			case 0xe8: eorb_ix();  				break;
			case 0xe9: adcb_ix();  				break;
			case 0xea: orb_ix();   				break;
			case 0xeb: addb_ix();  				break;
			case 0xec: ldd_ix();   				break;
			case 0xed: std_ix();   				break;
			case 0xee: ldu_ix();   				break;
			case 0xef: stu_ix();   				break;
			case 0xf0: subb_ex();  				break;
			case 0xf1: cmpb_ex();  				break;
			case 0xf2: sbcb_ex();  				break;
			case 0xf3: addd_ex();  				break;
			case 0xf4: andb_ex();  				break;
			case 0xf5: bitb_ex();  				break;
			case 0xf6: ldb_ex();   				break;
			case 0xf7: stb_ex();   				break;
			case 0xf8: eorb_ex();  				break;
			case 0xf9: adcb_ex();  				break;
			case 0xfa: orb_ex();   				break;
			case 0xfb: addb_ex();  				break;
			case 0xfc: ldd_ex();   				break;
			case 0xfd: std_ex();   				break;
			case 0xfe: ldu_ex();   				break;
			case 0xff: stu_ex();   				break;
			}
#else
			(*hd6309_main[hd6309.ireg])();
#endif    /* BIG_SWITCH */

			hd6309_ICount -= cycle_counts_page0[hd6309.ireg];

		} while( hd6309_ICount > 0 );

		hd6309_ICount -= hd6309.extra_cycles;
		hd6309.extra_cycles = 0;
	}

	return cycles - hd6309_ICount;	 /* NS 970908 */
}
예제 #9
0
 void blt(Surface &dest, iXY pos) const
 {
     blt(dest, pos.x, pos.y);
 }
예제 #10
0
void RasterNode::blta8(const glm::mat4& transform, const glm::vec2& destSize)
{
    blt(transform, destSize);
}
예제 #11
0
void RasterNode::blt32()
{
    blt(getTransform(), getSize());
}
예제 #12
0
address AbstractInterpreterGenerator::generate_slow_signature_handler() {
  // Slow_signature handler that respects the PPC C calling conventions.
  //
  // We get called by the native entry code with our output register
  // area == 8. First we call InterpreterRuntime::get_result_handler
  // to copy the pointer to the signature string temporarily to the
  // first C-argument and to return the result_handler in
  // R3_RET. Since native_entry will copy the jni-pointer to the
  // first C-argument slot later on, it is OK to occupy this slot
  // temporarilly. Then we copy the argument list on the java
  // expression stack into native varargs format on the native stack
  // and load arguments into argument registers. Integer arguments in
  // the varargs vector will be sign-extended to 8 bytes.
  //
  // On entry:
  //   R3_ARG1        - intptr_t*     Address of java argument list in memory.
  //   R15_prev_state - BytecodeInterpreter* Address of interpreter state for
  //     this method
  //   R19_method
  //
  // On exit (just before return instruction):
  //   R3_RET            - contains the address of the result_handler.
  //   R4_ARG2           - is not updated for static methods and contains "this" otherwise.
  //   R5_ARG3-R10_ARG8: - When the (i-2)th Java argument is not of type float or double,
  //                       ARGi contains this argument. Otherwise, ARGi is not updated.
  //   F1_ARG1-F13_ARG13 - contain the first 13 arguments of type float or double.

  const int LogSizeOfTwoInstructions = 3;

  // FIXME: use Argument:: GL: Argument names different numbers!
  const int max_fp_register_arguments  = 13;
  const int max_int_register_arguments = 6;  // first 2 are reserved

  const Register arg_java       = R21_tmp1;
  const Register arg_c          = R22_tmp2;
  const Register signature      = R23_tmp3;  // is string
  const Register sig_byte       = R24_tmp4;
  const Register fpcnt          = R25_tmp5;
  const Register argcnt         = R26_tmp6;
  const Register intSlot        = R27_tmp7;
  const Register target_sp      = R28_tmp8;
  const FloatRegister floatSlot = F0;

  address entry = __ function_entry();

  __ save_LR_CR(R0);
  __ save_nonvolatile_gprs(R1_SP, _spill_nonvolatiles_neg(r14));
  // We use target_sp for storing arguments in the C frame.
  __ mr(target_sp, R1_SP);
  __ push_frame_reg_args_nonvolatiles(0, R11_scratch1);

  __ mr(arg_java, R3_ARG1);

  __ call_VM_leaf(CAST_FROM_FN_PTR(address, InterpreterRuntime::get_signature), R16_thread, R19_method);

  // Signature is in R3_RET. Signature is callee saved.
  __ mr(signature, R3_RET);

  // Get the result handler.
  __ call_VM_leaf(CAST_FROM_FN_PTR(address, InterpreterRuntime::get_result_handler), R16_thread, R19_method);

  {
    Label L;
    // test if static
    // _access_flags._flags must be at offset 0.
    // TODO PPC port: requires change in shared code.
    //assert(in_bytes(AccessFlags::flags_offset()) == 0,
    //       "MethodDesc._access_flags == MethodDesc._access_flags._flags");
    // _access_flags must be a 32 bit value.
    assert(sizeof(AccessFlags) == 4, "wrong size");
    __ lwa(R11_scratch1/*access_flags*/, method_(access_flags));
    // testbit with condition register.
    __ testbitdi(CCR0, R0, R11_scratch1/*access_flags*/, JVM_ACC_STATIC_BIT);
    __ btrue(CCR0, L);
    // For non-static functions, pass "this" in R4_ARG2 and copy it
    // to 2nd C-arg slot.
    // We need to box the Java object here, so we use arg_java
    // (address of current Java stack slot) as argument and don't
    // dereference it as in case of ints, floats, etc.
    __ mr(R4_ARG2, arg_java);
    __ addi(arg_java, arg_java, -BytesPerWord);
    __ std(R4_ARG2, _abi(carg_2), target_sp);
    __ bind(L);
  }

  // Will be incremented directly after loop_start. argcnt=0
  // corresponds to 3rd C argument.
  __ li(argcnt, -1);
  // arg_c points to 3rd C argument
  __ addi(arg_c, target_sp, _abi(carg_3));
  // no floating-point args parsed so far
  __ li(fpcnt, 0);

  Label move_intSlot_to_ARG, move_floatSlot_to_FARG;
  Label loop_start, loop_end;
  Label do_int, do_long, do_float, do_double, do_dontreachhere, do_object, do_array, do_boxed;

  // signature points to '(' at entry
#ifdef ASSERT
  __ lbz(sig_byte, 0, signature);
  __ cmplwi(CCR0, sig_byte, '(');
  __ bne(CCR0, do_dontreachhere);
#endif

  __ bind(loop_start);

  __ addi(argcnt, argcnt, 1);
  __ lbzu(sig_byte, 1, signature);

  __ cmplwi(CCR0, sig_byte, ')'); // end of signature
  __ beq(CCR0, loop_end);

  __ cmplwi(CCR0, sig_byte, 'B'); // byte
  __ beq(CCR0, do_int);

  __ cmplwi(CCR0, sig_byte, 'C'); // char
  __ beq(CCR0, do_int);

  __ cmplwi(CCR0, sig_byte, 'D'); // double
  __ beq(CCR0, do_double);

  __ cmplwi(CCR0, sig_byte, 'F'); // float
  __ beq(CCR0, do_float);

  __ cmplwi(CCR0, sig_byte, 'I'); // int
  __ beq(CCR0, do_int);

  __ cmplwi(CCR0, sig_byte, 'J'); // long
  __ beq(CCR0, do_long);

  __ cmplwi(CCR0, sig_byte, 'S'); // short
  __ beq(CCR0, do_int);

  __ cmplwi(CCR0, sig_byte, 'Z'); // boolean
  __ beq(CCR0, do_int);

  __ cmplwi(CCR0, sig_byte, 'L'); // object
  __ beq(CCR0, do_object);

  __ cmplwi(CCR0, sig_byte, '['); // array
  __ beq(CCR0, do_array);

  //  __ cmplwi(CCR0, sig_byte, 'V'); // void cannot appear since we do not parse the return type
  //  __ beq(CCR0, do_void);

  __ bind(do_dontreachhere);

  __ unimplemented("ShouldNotReachHere in slow_signature_handler", 120);

  __ bind(do_array);

  {
    Label start_skip, end_skip;

    __ bind(start_skip);
    __ lbzu(sig_byte, 1, signature);
    __ cmplwi(CCR0, sig_byte, '[');
    __ beq(CCR0, start_skip); // skip further brackets
    __ cmplwi(CCR0, sig_byte, '9');
    __ bgt(CCR0, end_skip);   // no optional size
    __ cmplwi(CCR0, sig_byte, '0');
    __ bge(CCR0, start_skip); // skip optional size
    __ bind(end_skip);

    __ cmplwi(CCR0, sig_byte, 'L');
    __ beq(CCR0, do_object);  // for arrays of objects, the name of the object must be skipped
    __ b(do_boxed);          // otherwise, go directly to do_boxed
  }

  __ bind(do_object);
  {
    Label L;
    __ bind(L);
    __ lbzu(sig_byte, 1, signature);
    __ cmplwi(CCR0, sig_byte, ';');
    __ bne(CCR0, L);
   }
  // Need to box the Java object here, so we use arg_java (address of
  // current Java stack slot) as argument and don't dereference it as
  // in case of ints, floats, etc.
  Label do_null;
  __ bind(do_boxed);
  __ ld(R0,0, arg_java);
  __ cmpdi(CCR0, R0, 0);
  __ li(intSlot,0);
  __ beq(CCR0, do_null);
  __ mr(intSlot, arg_java);
  __ bind(do_null);
  __ std(intSlot, 0, arg_c);
  __ addi(arg_java, arg_java, -BytesPerWord);
  __ addi(arg_c, arg_c, BytesPerWord);
  __ cmplwi(CCR0, argcnt, max_int_register_arguments);
  __ blt(CCR0, move_intSlot_to_ARG);
  __ b(loop_start);

  __ bind(do_int);
  __ lwa(intSlot, 0, arg_java);
  __ std(intSlot, 0, arg_c);
  __ addi(arg_java, arg_java, -BytesPerWord);
  __ addi(arg_c, arg_c, BytesPerWord);
  __ cmplwi(CCR0, argcnt, max_int_register_arguments);
  __ blt(CCR0, move_intSlot_to_ARG);
  __ b(loop_start);

  __ bind(do_long);
  __ ld(intSlot, -BytesPerWord, arg_java);
  __ std(intSlot, 0, arg_c);
  __ addi(arg_java, arg_java, - 2 * BytesPerWord);
  __ addi(arg_c, arg_c, BytesPerWord);
  __ cmplwi(CCR0, argcnt, max_int_register_arguments);
  __ blt(CCR0, move_intSlot_to_ARG);
  __ b(loop_start);

  __ bind(do_float);
  __ lfs(floatSlot, 0, arg_java);
#if defined(LINUX)
  // Linux uses ELF ABI. Both original ELF and ELFv2 ABIs have float
  // in the least significant word of an argument slot.
#if defined(VM_LITTLE_ENDIAN)
  __ stfs(floatSlot, 0, arg_c);
#else
  __ stfs(floatSlot, 4, arg_c);
#endif
#elif defined(AIX)
  // Although AIX runs on big endian CPU, float is in most significant
  // word of an argument slot.
  __ stfs(floatSlot, 0, arg_c);
#else
#error "unknown OS"
#endif
  __ addi(arg_java, arg_java, -BytesPerWord);
  __ addi(arg_c, arg_c, BytesPerWord);
  __ cmplwi(CCR0, fpcnt, max_fp_register_arguments);
  __ blt(CCR0, move_floatSlot_to_FARG);
  __ b(loop_start);

  __ bind(do_double);
  __ lfd(floatSlot, - BytesPerWord, arg_java);
  __ stfd(floatSlot, 0, arg_c);
  __ addi(arg_java, arg_java, - 2 * BytesPerWord);
  __ addi(arg_c, arg_c, BytesPerWord);
  __ cmplwi(CCR0, fpcnt, max_fp_register_arguments);
  __ blt(CCR0, move_floatSlot_to_FARG);
  __ b(loop_start);

  __ bind(loop_end);

  __ pop_frame();
  __ restore_nonvolatile_gprs(R1_SP, _spill_nonvolatiles_neg(r14));
  __ restore_LR_CR(R0);

  __ blr();

  Label move_int_arg, move_float_arg;
  __ bind(move_int_arg); // each case must consist of 2 instructions (otherwise adapt LogSizeOfTwoInstructions)
  __ mr(R5_ARG3, intSlot);  __ b(loop_start);
  __ mr(R6_ARG4, intSlot);  __ b(loop_start);
  __ mr(R7_ARG5, intSlot);  __ b(loop_start);
  __ mr(R8_ARG6, intSlot);  __ b(loop_start);
  __ mr(R9_ARG7, intSlot);  __ b(loop_start);
  __ mr(R10_ARG8, intSlot); __ b(loop_start);

  __ bind(move_float_arg); // each case must consist of 2 instructions (otherwise adapt LogSizeOfTwoInstructions)
  __ fmr(F1_ARG1, floatSlot);   __ b(loop_start);
  __ fmr(F2_ARG2, floatSlot);   __ b(loop_start);
  __ fmr(F3_ARG3, floatSlot);   __ b(loop_start);
  __ fmr(F4_ARG4, floatSlot);   __ b(loop_start);
  __ fmr(F5_ARG5, floatSlot);   __ b(loop_start);
  __ fmr(F6_ARG6, floatSlot);   __ b(loop_start);
  __ fmr(F7_ARG7, floatSlot);   __ b(loop_start);
  __ fmr(F8_ARG8, floatSlot);   __ b(loop_start);
  __ fmr(F9_ARG9, floatSlot);   __ b(loop_start);
  __ fmr(F10_ARG10, floatSlot); __ b(loop_start);
  __ fmr(F11_ARG11, floatSlot); __ b(loop_start);
  __ fmr(F12_ARG12, floatSlot); __ b(loop_start);
  __ fmr(F13_ARG13, floatSlot); __ b(loop_start);

  __ bind(move_intSlot_to_ARG);
  __ sldi(R0, argcnt, LogSizeOfTwoInstructions);
  __ load_const(R11_scratch1, move_int_arg); // Label must be bound here.
  __ add(R11_scratch1, R0, R11_scratch1);
  __ mtctr(R11_scratch1/*branch_target*/);
  __ bctr();
  __ bind(move_floatSlot_to_FARG);
  __ sldi(R0, fpcnt, LogSizeOfTwoInstructions);
  __ addi(fpcnt, fpcnt, 1);
  __ load_const(R11_scratch1, move_float_arg); // Label must be bound here.
  __ add(R11_scratch1, R0, R11_scratch1);
  __ mtctr(R11_scratch1/*branch_target*/);
  __ bctr();

  return entry;
}
예제 #13
0
/* execute instructions on this CPU until icount expires */
static CPU_EXECUTE( m6809 )	/* NS 970908 */
{
	m68_state_t *m68_state = get_safe_token(device);

    m68_state->icount = cycles - m68_state->extra_cycles;
	m68_state->extra_cycles = 0;

	check_irq_lines(m68_state);

	if (m68_state->int_state & (M6809_CWAI | M6809_SYNC))
	{
		debugger_instruction_hook(device, PCD);
		m68_state->icount = 0;
	}
	else
	{
		do
		{
			pPPC = pPC;

			debugger_instruction_hook(device, PCD);

			m68_state->ireg = ROP(PCD);
			PC++;
#if BIG_SWITCH
            switch( m68_state->ireg )
			{
			case 0x00: neg_di(m68_state);    break;
			case 0x01: neg_di(m68_state);    break;	/* undocumented */
			case 0x02: IIError(m68_state);   break;
			case 0x03: com_di(m68_state);    break;
			case 0x04: lsr_di(m68_state);    break;
			case 0x05: IIError(m68_state);   break;
			case 0x06: ror_di(m68_state);    break;
			case 0x07: asr_di(m68_state);    break;
			case 0x08: asl_di(m68_state);    break;
			case 0x09: rol_di(m68_state);    break;
			case 0x0a: dec_di(m68_state);    break;
			case 0x0b: IIError(m68_state);   break;
			case 0x0c: inc_di(m68_state);    break;
			case 0x0d: tst_di(m68_state);    break;
			case 0x0e: jmp_di(m68_state);    break;
			case 0x0f: clr_di(m68_state);    break;
			case 0x10: pref10(m68_state);					 break;
			case 0x11: pref11(m68_state);					 break;
			case 0x12: nop(m68_state);	    break;
			case 0x13: sync(m68_state);	    break;
			case 0x14: IIError(m68_state);   break;
			case 0x15: IIError(m68_state);   break;
			case 0x16: lbra(m68_state);	    break;
			case 0x17: lbsr(m68_state);	    break;
			case 0x18: IIError(m68_state);   break;
			case 0x19: daa(m68_state);	    break;
			case 0x1a: orcc(m68_state);	    break;
			case 0x1b: IIError(m68_state);   break;
			case 0x1c: andcc(m68_state);     break;
			case 0x1d: sex(m68_state);	    break;
			case 0x1e: exg(m68_state);	    break;
			case 0x1f: tfr(m68_state);	    break;
			case 0x20: bra(m68_state);	    break;
			case 0x21: brn(m68_state);	    break;
			case 0x22: bhi(m68_state);	    break;
			case 0x23: bls(m68_state);	    break;
			case 0x24: bcc(m68_state);	    break;
			case 0x25: bcs(m68_state);	    break;
			case 0x26: bne(m68_state);	    break;
			case 0x27: beq(m68_state);	    break;
			case 0x28: bvc(m68_state);	    break;
			case 0x29: bvs(m68_state);	    break;
			case 0x2a: bpl(m68_state);	    break;
			case 0x2b: bmi(m68_state);	    break;
			case 0x2c: bge(m68_state);	    break;
			case 0x2d: blt(m68_state);	    break;
			case 0x2e: bgt(m68_state);	    break;
			case 0x2f: ble(m68_state);	    break;
			case 0x30: leax(m68_state);	    break;
			case 0x31: leay(m68_state);	    break;
			case 0x32: leas(m68_state);	    break;
			case 0x33: leau(m68_state);	    break;
			case 0x34: pshs(m68_state);	    break;
			case 0x35: puls(m68_state);	    break;
			case 0x36: pshu(m68_state);	    break;
			case 0x37: pulu(m68_state);	    break;
			case 0x38: IIError(m68_state);   break;
			case 0x39: rts(m68_state);	    break;
			case 0x3a: abx(m68_state);	    break;
			case 0x3b: rti(m68_state);	    break;
			case 0x3c: cwai(m68_state);	    break;
			case 0x3d: mul(m68_state);	    break;
			case 0x3e: IIError(m68_state);   break;
			case 0x3f: swi(m68_state);	    break;
			case 0x40: nega(m68_state);	    break;
			case 0x41: IIError(m68_state);   break;
			case 0x42: IIError(m68_state);   break;
			case 0x43: coma(m68_state);	    break;
			case 0x44: lsra(m68_state);	    break;
			case 0x45: IIError(m68_state);   break;
			case 0x46: rora(m68_state);	    break;
			case 0x47: asra(m68_state);	    break;
			case 0x48: asla(m68_state);	    break;
			case 0x49: rola(m68_state);	    break;
			case 0x4a: deca(m68_state);	    break;
			case 0x4b: IIError(m68_state);   break;
			case 0x4c: inca(m68_state);	    break;
			case 0x4d: tsta(m68_state);	    break;
			case 0x4e: IIError(m68_state);   break;
			case 0x4f: clra(m68_state);	    break;
			case 0x50: negb(m68_state);	    break;
			case 0x51: IIError(m68_state);   break;
			case 0x52: IIError(m68_state);   break;
			case 0x53: comb(m68_state);	    break;
			case 0x54: lsrb(m68_state);	    break;
			case 0x55: IIError(m68_state);   break;
			case 0x56: rorb(m68_state);	    break;
			case 0x57: asrb(m68_state);	    break;
			case 0x58: aslb(m68_state);	    break;
			case 0x59: rolb(m68_state);	    break;
			case 0x5a: decb(m68_state);	    break;
			case 0x5b: IIError(m68_state);   break;
			case 0x5c: incb(m68_state);	    break;
			case 0x5d: tstb(m68_state);	    break;
			case 0x5e: IIError(m68_state);   break;
			case 0x5f: clrb(m68_state);	    break;
			case 0x60: neg_ix(m68_state);    break;
			case 0x61: IIError(m68_state);   break;
			case 0x62: IIError(m68_state);   break;
			case 0x63: com_ix(m68_state);    break;
			case 0x64: lsr_ix(m68_state);    break;
			case 0x65: IIError(m68_state);   break;
			case 0x66: ror_ix(m68_state);    break;
			case 0x67: asr_ix(m68_state);    break;
			case 0x68: asl_ix(m68_state);    break;
			case 0x69: rol_ix(m68_state);    break;
			case 0x6a: dec_ix(m68_state);    break;
			case 0x6b: IIError(m68_state);   break;
			case 0x6c: inc_ix(m68_state);    break;
			case 0x6d: tst_ix(m68_state);    break;
			case 0x6e: jmp_ix(m68_state);    break;
			case 0x6f: clr_ix(m68_state);    break;
			case 0x70: neg_ex(m68_state);    break;
			case 0x71: IIError(m68_state);   break;
			case 0x72: IIError(m68_state);   break;
			case 0x73: com_ex(m68_state);    break;
			case 0x74: lsr_ex(m68_state);    break;
			case 0x75: IIError(m68_state);   break;
			case 0x76: ror_ex(m68_state);    break;
			case 0x77: asr_ex(m68_state);    break;
			case 0x78: asl_ex(m68_state);    break;
			case 0x79: rol_ex(m68_state);    break;
			case 0x7a: dec_ex(m68_state);    break;
			case 0x7b: IIError(m68_state);   break;
			case 0x7c: inc_ex(m68_state);    break;
			case 0x7d: tst_ex(m68_state);    break;
			case 0x7e: jmp_ex(m68_state);    break;
			case 0x7f: clr_ex(m68_state);    break;
			case 0x80: suba_im(m68_state);   break;
			case 0x81: cmpa_im(m68_state);   break;
			case 0x82: sbca_im(m68_state);   break;
			case 0x83: subd_im(m68_state);   break;
			case 0x84: anda_im(m68_state);   break;
			case 0x85: bita_im(m68_state);   break;
			case 0x86: lda_im(m68_state);    break;
			case 0x87: sta_im(m68_state);    break;
			case 0x88: eora_im(m68_state);   break;
			case 0x89: adca_im(m68_state);   break;
			case 0x8a: ora_im(m68_state);    break;
			case 0x8b: adda_im(m68_state);   break;
			case 0x8c: cmpx_im(m68_state);   break;
			case 0x8d: bsr(m68_state);	    break;
			case 0x8e: ldx_im(m68_state);    break;
			case 0x8f: stx_im(m68_state);    break;
			case 0x90: suba_di(m68_state);   break;
			case 0x91: cmpa_di(m68_state);   break;
			case 0x92: sbca_di(m68_state);   break;
			case 0x93: subd_di(m68_state);   break;
			case 0x94: anda_di(m68_state);   break;
			case 0x95: bita_di(m68_state);   break;
			case 0x96: lda_di(m68_state);    break;
			case 0x97: sta_di(m68_state);    break;
			case 0x98: eora_di(m68_state);   break;
			case 0x99: adca_di(m68_state);   break;
			case 0x9a: ora_di(m68_state);    break;
			case 0x9b: adda_di(m68_state);   break;
			case 0x9c: cmpx_di(m68_state);   break;
			case 0x9d: jsr_di(m68_state);    break;
			case 0x9e: ldx_di(m68_state);    break;
			case 0x9f: stx_di(m68_state);    break;
			case 0xa0: suba_ix(m68_state);   break;
			case 0xa1: cmpa_ix(m68_state);   break;
			case 0xa2: sbca_ix(m68_state);   break;
			case 0xa3: subd_ix(m68_state);   break;
			case 0xa4: anda_ix(m68_state);   break;
			case 0xa5: bita_ix(m68_state);   break;
			case 0xa6: lda_ix(m68_state);    break;
			case 0xa7: sta_ix(m68_state);    break;
			case 0xa8: eora_ix(m68_state);   break;
			case 0xa9: adca_ix(m68_state);   break;
			case 0xaa: ora_ix(m68_state);    break;
			case 0xab: adda_ix(m68_state);   break;
			case 0xac: cmpx_ix(m68_state);   break;
			case 0xad: jsr_ix(m68_state);    break;
			case 0xae: ldx_ix(m68_state);    break;
			case 0xaf: stx_ix(m68_state);    break;
			case 0xb0: suba_ex(m68_state);   break;
			case 0xb1: cmpa_ex(m68_state);   break;
			case 0xb2: sbca_ex(m68_state);   break;
			case 0xb3: subd_ex(m68_state);   break;
			case 0xb4: anda_ex(m68_state);   break;
			case 0xb5: bita_ex(m68_state);   break;
			case 0xb6: lda_ex(m68_state);    break;
			case 0xb7: sta_ex(m68_state);    break;
			case 0xb8: eora_ex(m68_state);   break;
			case 0xb9: adca_ex(m68_state);   break;
			case 0xba: ora_ex(m68_state);    break;
			case 0xbb: adda_ex(m68_state);   break;
			case 0xbc: cmpx_ex(m68_state);   break;
			case 0xbd: jsr_ex(m68_state);    break;
			case 0xbe: ldx_ex(m68_state);    break;
			case 0xbf: stx_ex(m68_state);    break;
			case 0xc0: subb_im(m68_state);   break;
			case 0xc1: cmpb_im(m68_state);   break;
			case 0xc2: sbcb_im(m68_state);   break;
			case 0xc3: addd_im(m68_state);   break;
			case 0xc4: andb_im(m68_state);   break;
			case 0xc5: bitb_im(m68_state);   break;
			case 0xc6: ldb_im(m68_state);    break;
			case 0xc7: stb_im(m68_state);    break;
			case 0xc8: eorb_im(m68_state);   break;
			case 0xc9: adcb_im(m68_state);   break;
			case 0xca: orb_im(m68_state);    break;
			case 0xcb: addb_im(m68_state);   break;
			case 0xcc: ldd_im(m68_state);    break;
			case 0xcd: std_im(m68_state);    break;
			case 0xce: ldu_im(m68_state);    break;
			case 0xcf: stu_im(m68_state);    break;
			case 0xd0: subb_di(m68_state);   break;
			case 0xd1: cmpb_di(m68_state);   break;
			case 0xd2: sbcb_di(m68_state);   break;
			case 0xd3: addd_di(m68_state);   break;
			case 0xd4: andb_di(m68_state);   break;
			case 0xd5: bitb_di(m68_state);   break;
			case 0xd6: ldb_di(m68_state);    break;
			case 0xd7: stb_di(m68_state);    break;
			case 0xd8: eorb_di(m68_state);   break;
			case 0xd9: adcb_di(m68_state);   break;
			case 0xda: orb_di(m68_state);    break;
			case 0xdb: addb_di(m68_state);   break;
			case 0xdc: ldd_di(m68_state);    break;
			case 0xdd: std_di(m68_state);    break;
			case 0xde: ldu_di(m68_state);    break;
			case 0xdf: stu_di(m68_state);    break;
			case 0xe0: subb_ix(m68_state);   break;
			case 0xe1: cmpb_ix(m68_state);   break;
			case 0xe2: sbcb_ix(m68_state);   break;
			case 0xe3: addd_ix(m68_state);   break;
			case 0xe4: andb_ix(m68_state);   break;
			case 0xe5: bitb_ix(m68_state);   break;
			case 0xe6: ldb_ix(m68_state);    break;
			case 0xe7: stb_ix(m68_state);    break;
			case 0xe8: eorb_ix(m68_state);   break;
			case 0xe9: adcb_ix(m68_state);   break;
			case 0xea: orb_ix(m68_state);    break;
			case 0xeb: addb_ix(m68_state);   break;
			case 0xec: ldd_ix(m68_state);    break;
			case 0xed: std_ix(m68_state);    break;
			case 0xee: ldu_ix(m68_state);    break;
			case 0xef: stu_ix(m68_state);    break;
			case 0xf0: subb_ex(m68_state);   break;
			case 0xf1: cmpb_ex(m68_state);   break;
			case 0xf2: sbcb_ex(m68_state);   break;
			case 0xf3: addd_ex(m68_state);   break;
			case 0xf4: andb_ex(m68_state);   break;
			case 0xf5: bitb_ex(m68_state);   break;
			case 0xf6: ldb_ex(m68_state);    break;
			case 0xf7: stb_ex(m68_state);    break;
			case 0xf8: eorb_ex(m68_state);   break;
			case 0xf9: adcb_ex(m68_state);   break;
			case 0xfa: orb_ex(m68_state);    break;
			case 0xfb: addb_ex(m68_state);   break;
			case 0xfc: ldd_ex(m68_state);    break;
			case 0xfd: std_ex(m68_state);    break;
			case 0xfe: ldu_ex(m68_state);    break;
			case 0xff: stu_ex(m68_state);    break;
			}
#else
            		(*m6809_main[m68_state->ireg])(m68_state);
#endif    /* BIG_SWITCH */
        		m68_state->icount -= cycles1[m68_state->ireg];

		} while( m68_state->icount > 0 );

        m68_state->icount -= m68_state->extra_cycles;
		m68_state->extra_cycles = 0;
    }

    return cycles - m68_state->icount;   /* NS 970908 */
}
예제 #14
0
void Image::blt(int x, int y, Image const* src)
{
  if (src == NULL || src->_bits == NULL || src == this) return;
  blt(x, y, src, 0, 0, src->_width, src->_height);
}
예제 #15
0
	inline void blt(const Surface &dest, iXY pos) const
	{
		blt(dest, pos.x, pos.y);
	}