Пример #1
0
//Check that all basic blocks should only end with terminator IR.
void IRBB::verify()
{
    UINT c = 0;
    C<IR*> * ct;
    for (IR * ir = BB_irlist(this).get_head(&ct);
         ir != NULL; ir = BB_irlist(this).get_next(&ct)) {
        ASSERT0(ir->is_single());
        ASSERT0(ir->get_bb() == this);
        switch (IR_code(ir)) {
        case IR_ST:
        case IR_STPR:
        case IR_STARRAY:
        case IR_IST:
        case IR_PHI:
        case IR_REGION:
        case IR_CALL:
        case IR_ICALL:
        case IR_GOTO:
        case IR_IGOTO:
        case IR_TRUEBR:
        case IR_FALSEBR:
        case IR_RETURN:
        case IR_SWITCH:
            break;
        default: ASSERT(0, ("BB does not supported this kind of IR."));
        }

        if (is_bb_down_boundary(ir)) {
            ASSERT(ir == BB_last_ir(this), ("invalid BB down boundary."));
        }

        c++;
    }
    ASSERT0(c == getNumOfIR());
}
Пример #2
0
//Canonicalize det of IF.
//e.g: if (a=10,b+=3,c<a) {...}
//be replaced by
//     a = 10;
//     b += 3;
//     if (c<a) {...}
bool IR_CFS_OPT::hoistIf(IR ** head, IR * ir)
{
    ASSERT(ir->is_if(), ("need IF"));
    ASSERT(IF_det(ir), ("DET is NULL"));

    IR * det = IF_det(ir);
    INT i = 0;
    while (det != NULL) {
        i++;
        det = det->get_next();
    }

    IR * new_list = NULL;
    if (i > 1) {
        det = IF_det(ir);
        while (i > 1) {
            IR * c = det;
            ASSERT(c->is_stmt(),
                ("Non-stmt ir should be remove during reshape_ir_tree()"));
            det = det->get_next();
            xcom::remove(&IF_det(ir), c);
            xcom::add_next(&new_list, c);
            i--;
        }
        xcom::insertbefore(head, ir, new_list);
        return true;
    }
    return false;
}
Пример #3
0
//Before removing bb, revising phi opnd if there are phis
//in one of bb's successors.
void IRBB::removeSuccessorPhiOpnd(CFG<IRBB, IR> * cfg)
{
    IR_CFG * ircfg = (IR_CFG*)cfg;
    Region * ru = ircfg->get_ru();
    Vertex * vex = ircfg->get_vertex(BB_id(this));
    ASSERT0(vex);
    for (EdgeC * out = VERTEX_out_list(vex);
         out != NULL; out = EC_next(out)) {
        Vertex * succ_vex = EDGE_to(EC_edge(out));
        IRBB * succ = ircfg->get_bb(VERTEX_id(succ_vex));
        ASSERT0(succ);

        UINT const pos = ircfg->WhichPred(this, succ);

        for (IR * ir = BB_first_ir(succ);
             ir != NULL; ir = BB_next_ir(succ)) {
            if (!ir->is_phi()) { break; }

            ASSERT0(cnt_list(PHI_opnd_list(ir)) ==
                     cnt_list(VERTEX_in_list(succ_vex)));

            IR * opnd;
            UINT lpos = pos;
            for (opnd = PHI_opnd_list(ir);
                 lpos != 0; opnd = IR_next(opnd)) {
                ASSERT0(opnd);
                lpos--;
            }

            opnd->removeSSAUse();
            ((CPhi*)ir)->removeOpnd(opnd);
            ru->freeIRTree(opnd);
        }
    }
}
volatile char IRremote(char key, char first)
{
	if(first)
	{
		lcd.cls();
		menu.setTitle(TEXT("IR Remote"));
		menu.setBar(TEXT("Delayed"), TEXT("Trigger"));
		lcd.update();
	}

	switch(key)
	{
	   case FL_KEY:
		   ir.shutterDelayed();
		   break;

	   case FR_KEY:
		   ir.shutterNow();
		   break;

	   case LEFT_KEY:
		   return FN_CANCEL;
	}

	return FN_CONTINUE;
}
Пример #5
0
/* Canonicalize det of IF.
e.g: if (a=10,b+=3,c<a) {...}
be replaced by
	 a = 10;
	 b += 3;
	 if (c<a) {...} */
bool IR_CFS_OPT::hoist_if(IR ** head, IR * ir)
{
	IS_TRUE(IR_type(ir) == IR_IF, ("need IF"));
	IS_TRUE(IF_det(ir), ("DET is NULL"));

	IR * det = IF_det(ir);
	INT i = 0;
	while (det != NULL) {
		i++;
		det = IR_next(det);
	}

	IR * new_list = NULL;
	if (i > 1) {
		det = IF_det(ir);
		while (i > 1) {
			IR * c = det;
			IS_TRUE(c->is_stmt(),
				("Non-stmt ir should be remove during reshape_ir_tree()"));
			det = IR_next(det);
			remove(&IF_det(ir), c);
			add_next(&new_list, c);
			i--;
		}
		insertbefore(head, ir, new_list);
		return true;
	}
	return false;
}
Пример #6
0
//Allocate MDPhi and initialize with the number of operands.
//Each operands has zero version to mdid.
MDPhi * UseDefMgr::allocMDPhi(UINT mdid, UINT num_operands)
{
    ASSERT0(mdid > 0 && num_operands > 0);

    MDPhi * phi = (MDPhi*)smpoolMallocConstSize(sizeof(MDPhi), m_phi_pool);
    phi->init();
    MDDEF_id(phi) = m_def_count++;
    m_def_vec.set(MDDEF_id(phi), phi);
    VMD const* vmd = allocVMD(mdid, 0);
    ASSERT0(vmd);

    MD const* md = m_md_sys->getMD(mdid);
    ASSERT0(md);
    IR * last = NULL;
    for (UINT i = 0; i < num_operands; i++) {
        IR * opnd = m_ru->buildId(md->get_base());
        opnd->setRefMD(md, m_ru);

        MDSSAInfo * mdssainfo = genMDSSAInfo(opnd);

        ASSERT0(m_sbs_mgr);
        mdssainfo->getVOpndSet()->append(vmd, *m_sbs_mgr);

        xcom::add_next(&MDPHI_opnd_list(phi), &last, opnd);

        ID_phi(opnd) = phi;
    }
    return phi;
}
Пример #7
0
/* Hoist det of loop.
e.g: while (a=10,b+=3,c<a) {
		IR-LIST;
	 }

be replaced by

	 a = 10;
	 b += 3;
	 while (c<a) {
		IR-LIST;
		a = 10;
	    b += 3;
	 } */
bool IR_CFS_OPT::hoist_loop(IR ** head, IR * ir)
{
	IS_TRUE(IR_type(ir)==IR_DO_WHILE ||
		    IR_type(ir)==IR_WHILE_DO ||
			IR_type(ir)==IR_DO_LOOP, ("need LOOP"));
	IS_TRUE(LOOP_det(ir), ("DET is NULL"));
	IR * det = LOOP_det(ir);

	INT i = 0;
	while (det != NULL) {
		i++;
		det = IR_next(det);
	}

	IR * new_list = NULL, * new_body_list = NULL;
	if (i > 1) {
		det = LOOP_det(ir);
		while (i > 1) {
			IR * c = det;
			IS_TRUE(c->is_stmt(), ("Non-stmt ir should be remove "
								   "during reshape_ir_tree()"));
			det = IR_next(det);
			remove(&LOOP_det(ir), c);
			add_next(&new_list, c);
			i--;
		}
		new_body_list = m_ru->dup_irs_list(new_list);
		insertbefore(head, ir, new_list);
		add_next(&LOOP_body(ir), new_body_list);
		return true;
	}
	return false;
}
Пример #8
0
//Hoist det of loop.
//e.g: while (a=10,b+=3,c<a) {
//        IR-List;
//     }
//
//be replaced by
//
//     a = 10;
//     b += 3;
//     while (c<a) {
//        IR-List;
//        a = 10;
//        b += 3;
//     }
bool IR_CFS_OPT::hoistLoop(IR ** head, IR * ir)
{
    ASSERT0(ir->is_dowhile() || ir->is_whiledo() || ir->is_doloop());
    ASSERT(LOOP_det(ir), ("DET is NULL"));
    IR * det = LOOP_det(ir);

    INT i = 0;
    while (det != NULL) {
        i++;
        det = det->get_next();
    }

    IR * new_list = NULL, * new_body_list = NULL;
    if (i > 1) {
        det = LOOP_det(ir);
        while (i > 1) {
            IR * c = det;
            ASSERT(c->is_stmt(), ("Non-stmt ir should be remove "
                                   "during reshape_ir_tree()"));
            det = det->get_next();
            xcom::remove(&LOOP_det(ir), c);
            xcom::add_next(&new_list, c);
            i--;
        }
        new_body_list = m_ru->dupIRTreeList(new_list);
        xcom::insertbefore(head, ir, new_list);
        xcom::add_next(&LOOP_body(ir), new_body_list);
        return true;
    }
    return false;
}
Пример #9
0
//Before removing bb or change bb successor,
//you need remove the related PHI operand if BB successor has PHI stmt.
void IRBB::removeSuccessorDesignatePhiOpnd(CFG<IRBB, IR> * cfg, IRBB * succ)
{
    ASSERT0(cfg && succ);
    IR_CFG * ircfg = (IR_CFG*)cfg;
    Region * ru = ircfg->get_ru();
    UINT const pos = ircfg->WhichPred(this, succ);
    for (IR * ir = BB_first_ir(succ); ir != NULL; ir = BB_next_ir(succ)) {
        if (!ir->is_phi()) { break; }

        ASSERT0(cnt_list(PHI_opnd_list(ir)) == succ->getNumOfPred(cfg));

        IR * opnd;
        UINT lpos = pos;
        for (opnd = PHI_opnd_list(ir); lpos != 0; opnd = opnd->get_next()) {
            ASSERT0(opnd);
            lpos--;
        }

        if (opnd == NULL) {
            //PHI does not contain any operand.
            continue;
        }

        opnd->removeSSAUse();
        ((CPhi*)ir)->removeOpnd(opnd);
        ru->freeIRTree(opnd);
    }
}
Пример #10
0
  CE_Eliminator(IR* hir) : _cee_count(0), _ifop_count(0), _hir(hir) {
    _has_substitution = false;
    _hir->iterate_preorder(this);
    if (_has_substitution) {
      // substituted some ifops/phis, so resolve the substitution
      SubstitutionResolver sr(_hir);
    }

    CompileLog* log = _hir->compilation()->log();
    if (log != NULL)
      log->set_context("optimize name='cee'");
  }
Пример #11
0
void shutter::off(void)
{
  if(conf.devMode) hardware_flashlight(0);
  if(cable_connected == 0)
  {
    if(bulb && shutter_state)
    {
      ir.shutterNow();
    }
    shutter_state = 0;
  }
  else if(conf.bulbMode == 0)
  {
    SHUTTER_CLOSE;
    MIRROR_DOWN; _delay_ms(50); CHECK_CABLE;
  }
  else if(conf.bulbMode == 1 && shutter_state == 1)
  {
    SHUTTER_CLOSE;
    MIRROR_DOWN; _delay_ms(50); CHECK_CABLE;
    shutter_state = 0;
    full();
    shutter_state = 0;
  }
}
Пример #12
0
void settings_load()
{
    eeprom_read_block((void*)&conf, &conf_eep, sizeof(settings_t));
    if(settings_camera_index > 0)
    {
        eeprom_read_block((void*)&conf.camera, &camera_settings_eep[settings_camera_index - 1], sizeof(camera_settings_t));
    }
    if(conf.lcdContrast > 0xf || conf.lcdContrast < 0x1) conf.lcdContrast = 0x8;
    if(conf.lcdCoefficent > 0x7 || conf.lcdCoefficent < 0x3) conf.lcdCoefficent = 0x7;
    if(conf.lcdBias > 0x4 || conf.lcdBias < 0x3) conf.lcdBias = 0x4;
    if(conf.apertureMin > 100 || conf.apertureMin < 2) conf.apertureMin = 2;
    if(conf.lightIntegrationMinutes == 255 || conf.lightIntegrationMinutes == 0) conf.lightIntegrationMinutes = 10;
    if(conf.camera.brampGap > 20 || conf.camera.brampGap == 0) conf.camera.brampGap = 6;
    if(conf.errorAlert > 5) conf.errorAlert = 0;
    if(conf.linearInterpolation > 1) conf.linearInterpolation = 0;
    lcd.color(conf.lcdColor);
    ir.init();
    ir.make = conf.camera.cameraMake;
    if(conf.auxPort != AUX_MODE_DISABLED)
    {
        aux1_off();
        aux2_off();
    }
    if(bt.present && !remote.connected)
    {
        if(conf.btMode == BT_MODE_SLEEP) bt.sleep(); else bt.advertise();
    }
}
Пример #13
0
 CE_Eliminator(IR* hir) : _cee_count(0), _ifop_count(0), _hir(hir) {
   _has_substitution = false;
   _hir->iterate_preorder(this);
   if (_has_substitution) {
     // substituted some ifops/phis, so resolve the substitution
     SubstitutionResolver sr(_hir);
   }
 }
Пример #14
0
//Return true if one of bb's successor has a phi.
bool IRBB::successorHasPhi(CFG<IRBB, IR> * cfg)
{
    Vertex * vex = cfg->get_vertex(BB_id(this));
    ASSERT0(vex);
    for (EdgeC * out = VERTEX_out_list(vex);
         out != NULL; out = EC_next(out)) {
        Vertex * succ_vex = EDGE_to(EC_edge(out));
        IRBB * succ = cfg->get_bb(VERTEX_id(succ_vex));
        ASSERT0(succ);

        for (IR * ir = BB_first_ir(succ);
             ir != NULL; ir = BB_next_ir(succ)) {
            if (ir->is_phi()) { return true; }
        }
    }
    return false;
}
Пример #15
0
void IRBB::dump(Region * ru)
{
    if (g_tfile == NULL) { return; }

    g_indent = 0;

    fprintf(g_tfile, "\n----- BB%d ------", BB_id(this));
    if (get_lab_list().get_elem_count() > 0) {
        fprintf(g_tfile, "\nLABEL:");
        dumpBBLabel(get_lab_list(), g_tfile);
    }

    //Attributes
    fprintf(g_tfile, "\nATTR:");
    if (BB_is_entry(this)) {
        fprintf(g_tfile, "entry_bb ");
    }

    //if (BB_is_exit(this)) {
    //    fprintf(g_tfile, "exit_bb ");
    //}

    if (BB_is_fallthrough(this)) {
        fprintf(g_tfile, "fall_through ");
    }

    if (BB_is_target(this)) {
        fprintf(g_tfile, "branch_target ");
    }

    //IR list
    fprintf(g_tfile, "\nSTMT NUM:%d", getNumOfIR());
    g_indent += 3;
    TypeMgr * dm = ru->get_type_mgr();
    for (IR * ir = BB_first_ir(this);
        ir != NULL; ir = BB_irlist(this).get_next()) {
        ASSERT0(IR_next(ir) == NULL && IR_prev(ir) == NULL);
        ASSERT0(ir->get_bb() == this);
        dump_ir(ir, dm, NULL, true, true, false);
    }
    g_indent -= 3;
    fprintf(g_tfile, "\n");
    fflush(g_tfile);
}
Пример #16
0
//Control flow struct optimizations.
//Transform follow struct to do-while loop
//
//    LABEL:
//    IR-List
//    IF DET
//       GOTO LABEL
//       ...(DEAD CODE)
//    ELSE
//       FALSE-PART
//    ENDIF
//
//is replace by
//
//    DO {
//        IR-List
//    } WHILE DET
//    FALSE-PART
bool IR_CFS_OPT::transformToDoWhile(IR ** head, IR * ir)
{
    ASSERT(head != NULL && *head != NULL, ("invalid parameter"));
    if (!ir->is_lab()) { return false; }

    for (IR * t = ir; t != NULL; t = t->get_next()) {
        if (!t->is_if()) { continue; }

        if (IF_truebody(t) != NULL &&
            IF_truebody(t)->is_goto() &&
            isSameLabel(LAB_lab(ir), GOTO_lab(IF_truebody(t)))) {

            //Start transform.
            IR * dowhile = m_ru->allocIR(IR_DO_WHILE);
            LOOP_det(dowhile) = m_ru->dupIRTree(LOOP_det(t));

            IR * if_stmt = t;
            t = ir->get_next();
            while (t != NULL && t != if_stmt) {
                IR * c = t;
                t = t->get_next();
                xcom::remove(head, c);
                xcom::add_next(&LOOP_body(dowhile), c);
            }

            ASSERT(t == if_stmt, ("illegal IR layout"));

            xcom::remove(head, if_stmt);
            if (IF_falsebody(if_stmt)) {
                xcom::add_next(&dowhile, IF_falsebody(if_stmt));
                IF_falsebody(if_stmt) = NULL;
            }
            xcom::insertafter(&ir, dowhile);
            m_ru->freeIRTree(if_stmt); //free IF
            xcom::remove(head, ir);
            m_ru->freeIRTree(ir); //free LABEL
            return true;
        }
    }

    return false;
}
Пример #17
0
//Check and replace 'ir' with 'cand_expr' if they are
//equal, and update DU info. If 'cand_expr' is NOT leaf,
//that will create redundant computation, and
//depends on later Redundancy Elimination to reverse back.
//exp: expression which will be replaced.
//
//cand_expr: substitute cand_expr for exp.
//    e.g: cand_expr is *p, cand_expr_md is MD3
//        *p(MD3) = 10 //p point to MD3
//        ...
//        g = *q(MD3) //q point to MD3
//
//exp_use_ssadu: true if exp used SSA du info.
//
//NOTE: Do NOT handle stmt.
void IR_CP::replaceExp(IR * exp, IR const* cand_expr,
                        IN OUT CPCtx & ctx, bool exp_use_ssadu)
{
    ASSERT0(exp && exp->is_exp() && cand_expr);
    ASSERT0(exp->get_exact_ref());

    if (!checkTypeConsistency(exp, cand_expr)) {
        return;
    }

    IR * parent = IR_parent(exp);
    if (parent->is_ild()) {
        CPC_need_recomp_aa(ctx) = true;
    } else if (parent->is_ist() && exp == IST_base(parent)) {
        if (!cand_expr->is_ld() && !cand_expr->is_pr() && !cand_expr->is_lda()) {
            return;
        }
        CPC_need_recomp_aa(ctx) = true;
    }

    IR * newir = m_ru->dupIRTree(cand_expr);
    m_du->copyIRTreeDU(newir, cand_expr, true);

    ASSERT0(cand_expr->get_stmt());
    if (exp_use_ssadu) {
        //Remove exp SSA use.
        ASSERT0(exp->get_ssainfo());
        ASSERT0(exp->get_ssainfo()->get_uses().find(exp));

        exp->removeSSAUse();
    } else {
        m_du->removeUseOutFromDefset(exp);
    }
    CPC_change(ctx) = true;

    ASSERT0(exp->get_stmt());
    bool doit = parent->replaceKid(exp, newir, false);
    ASSERT0(doit);
    UNUSED(doit);
    m_ru->freeIRTree(exp);
}
Пример #18
0
//Collect all USE, where USE is IR expression.
void MDSSAInfo::collectUse(
        OUT DefSBitSetCore & set,
        IN UseDefMgr * usedefmgr,
        IN DefMiscBitSetMgr * bsmgr)
{
    ASSERT0(usedefmgr && bsmgr);
    SEGIter * iter = NULL;
    Region * rg = usedefmgr->getRegion();
    for (INT i = getVOpndSet()->get_first(&iter);
         i >= 0; i = getVOpndSet()->get_next(i, &iter)) {
        VMD * vopnd = (VMD*)usedefmgr->getVOpnd(i);
        ASSERT0(vopnd && vopnd->is_md());

        SEGIter * vit = NULL;
        for (INT i2 = vopnd->getOccSet()->get_first(&vit);
            i2 >= 0; i2 = vopnd->getOccSet()->get_next(i2, &vit)) {
            IR * use = rg->getIR(i2);
            ASSERT0(use && (use->isMemoryRef() || use->is_id()));
            set.bunion(use->id(), *bsmgr);
        }
    }
}
Пример #19
0
void shutter::capture(void)
{
    if(cable_connected == 0)
    {
        ir.shutterNow();
//        ir.shutterDelayed();
    } 
    full();
    _delay_ms(75);
    off();
    ir_shutter_state = 0;
    shutter_state = 0;
}
Пример #20
0
void settings_load()
{
    eeprom_read_block((void*)&conf, &conf_eep, sizeof(settings));
    if(conf.lcdContrast > 0xf || conf.lcdContrast < 0x1) conf.lcdContrast = 0x8;
    if(conf.lcdCoefficent > 0x7 || conf.lcdCoefficent < 0x3) conf.lcdCoefficent = 0x7;
    if(conf.lcdBias > 0x4 || conf.lcdBias < 0x3) conf.lcdBias = 0x4;
    if(conf.apertureMin > 100 || conf.apertureMin < 2) conf.apertureMin = 2;
    lcd.color(conf.lcdColor);
    ir.init();
    ir.make = conf.cameraMake;
    if(conf.auxPort != AUX_MODE_DISABLED) aux_off();
    if(bt.present && !remote.connected)
    {
        if(conf.btMode == BT_MODE_SLEEP) bt.sleep(); else bt.advertise();
    }
}
Пример #21
0
//Check and replace 'exp' with 'cand_expr' if they are
//equal, and update SSA info. If 'cand_expr' is NOT leaf,
//that will create redundant computation, and
//depends on later Redundancy Elimination to reverse back.
//
//'cand_expr': substitute cand_expr for exp.
//    e.g: exp is pr1 of S2, cand_expr is 10.
//        pr1 = 10 //S1
//        g = pr1 //S2
//    =>
//        pr1 = 10
//        g = 10
//
//NOTE: Do NOT handle stmt.
void IR_CP::replaceExpViaSSADu(IR * exp, IR const* cand_expr,
                                    IN OUT CPCtx & ctx)
{
    ASSERT0(exp && exp->is_exp() && cand_expr && cand_expr->is_exp());
    ASSERT0(exp->get_exact_ref());

    if (!checkTypeConsistency(exp, cand_expr)) {
        return;
    }

    IR * parent = IR_parent(exp);
    if (parent->is_ild()) {
        CPC_need_recomp_aa(ctx) = true;
    } else if (parent->is_ist() && exp == IST_base(parent)) {
        if (!cand_expr->is_ld() &&
            !cand_expr->is_pr() &&
            !cand_expr->is_lda()) {
            return;
        }
        CPC_need_recomp_aa(ctx) = true;
    }

    IR * newir = m_ru->dupIRTree(cand_expr);

    if (cand_expr->is_read_pr() && PR_ssainfo(cand_expr) != NULL) {
        PR_ssainfo(newir) = PR_ssainfo(cand_expr);
        SSA_uses(PR_ssainfo(newir)).append(newir);
    } else {
        m_du->copyIRTreeDU(newir, cand_expr, true);
    }

    //cand_expr may be IR tree. And there might be PR or LD on the tree.
    newir->copyRefForTree(cand_expr, m_ru);

    //Add SSA use for new exp.
    SSAInfo * cand_ssainfo = NULL;
    if ((cand_ssainfo = cand_expr->get_ssainfo()) != NULL) {
        SSA_uses(cand_ssainfo).append(newir);
    }

    //Remove old exp SSA use.
    SSAInfo * exp_ssainfo = exp->get_ssainfo();
    ASSERT0(exp_ssainfo);
    ASSERT0(SSA_uses(exp_ssainfo).find(exp));
    SSA_uses(exp_ssainfo).remove(exp);

    CPC_change(ctx) = true;

    ASSERT0(exp->get_stmt());
    bool doit = parent->replaceKid(exp, newir, false);
    ASSERT0(doit);
    UNUSED(doit);
    m_ru->freeIRTree(exp);
}
Пример #22
0
void shutter::half(void)
{
  if(conf.devMode) hardware_flashlight(0);
  if(cable_connected == 0)
  {
    if(bulb && shutter_state)
    {
      shutter_state = 0;
      ir.shutterNow();
    }
    shutter_state = 0;
  }
  else
  {
    SHUTTER_CLOSE;
    MIRROR_UP;
  }
}
Пример #23
0
void shutter::bulbStart(void)
{
    if(cable_connected == 0 && ir_shutter_state != 1)
    {
        ir_shutter_state = 1;
        ir.shutterNow();
//        ir.shutterDelayed();
    } 
    if(conf.bulbMode == 0)
    {
        full();
    } 
    else if(conf.bulbMode == 1 && shutter_state != 1)
    {
        full();
        shutter_state = 1;
        _delay_ms(75);
        half();
    }
}
Пример #24
0
void shutter::bulbEnd(void)
{
    if(cable_connected == 0 && ir_shutter_state == 1)
    {
        ir_shutter_state = 0;
        ir.shutterNow();
//        ir.shutterDelayed();
    } 
    if(conf.bulbMode == 0)
    {
        off();
    }
    else if(conf.bulbMode == 1 && shutter_state == 1)
    {
        full();
        shutter_state = 0;
        _delay_ms(75);
        off();
    }
}
Пример #25
0
void shutter::full(void)
{
  if(conf.devMode) hardware_flashlight(1);
  if(cable_connected == 0)
  {
    if(bulb) shutter_state = 1; else shutter_state = 0;
    ir.shutterNow();
  }
  else if(conf.bulbMode == 0)
  {
    MIRROR_UP;
    SHUTTER_OPEN;
  }
  else if(conf.bulbMode == 1 && shutter_state == 0)
  {
    MIRROR_UP;
    SHUTTER_OPEN;
    shutter_state = 1;
    _delay_ms(50);
    half();
  }
}
Пример #26
0
//Duplicate and add an operand that indicated by opnd_pos at phi stmt
//in one of bb's successors.
void IRBB::dupSuccessorPhiOpnd(CFG<IRBB, IR> * cfg, Region * ru, UINT opnd_pos)
{
    IR_CFG * ircfg = (IR_CFG*)cfg;
    Vertex * vex = ircfg->get_vertex(BB_id(this));
    ASSERT0(vex);
    for (EdgeC * out = VERTEX_out_list(vex);
            out != NULL; out = EC_next(out)) {
        Vertex * succ_vex = EDGE_to(EC_edge(out));
        IRBB * succ = ircfg->get_bb(VERTEX_id(succ_vex));
        ASSERT0(succ);

        for (IR * ir = BB_first_ir(succ);
                ir != NULL; ir = BB_next_ir(succ)) {
            if (!ir->is_phi()) {
                break;
            }

            ASSERT0(cnt_list(PHI_opnd_list(ir)) >= opnd_pos);

            IR * opnd;
            UINT lpos = opnd_pos;
            for (opnd = PHI_opnd_list(ir);
                    lpos != 0; opnd = opnd->get_next()) {
                ASSERT0(opnd);
                lpos--;
            }

            IR * newopnd = ru->dupIRTree(opnd);
            if (opnd->is_read_pr()) {
                newopnd->copyRef(opnd, ru);
                ASSERT0(PR_ssainfo(opnd));
                PR_ssainfo(newopnd) = PR_ssainfo(opnd);
                SSA_uses(PR_ssainfo(newopnd)).append(newopnd);
            }

            ((CPhi*)ir)->addOpnd(newopnd);
        }
    }
}
Пример #27
0
 ~CE_Eliminator() {
   CompileLog* log = _hir->compilation()->log();
   if (log != NULL)
     log->clear_context(); // skip marker if nothing was printed
 }
Пример #28
0
bool IR_CFS_OPT::CfsOpt(
        IN OUT IR ** ir_list,
        SimpCtx const& sc)
{
    bool change = false;

    for (IR * ir = *ir_list; ir != NULL;) {
        if (transformToDoWhile(ir_list, ir)) {
            change = true;
            ir = *ir_list;
            continue;
        }

        if (ir->is_if() && transformIf1(ir_list, ir)) {
            change = true;
            ir = *ir_list;
            continue;
        }

        if (ir->is_if() && transformIf2(ir_list, ir)) {
            change = true;
            ir = *ir_list;
            continue;
        }

        if (ir->is_if() && transformIf3(ir_list, ir)) {
            change = true;
            ir = *ir_list;
            continue;
        }

        switch (ir->get_code()) {
        case IR_IF:
            if (hoistIf(ir_list, ir)) {
                change = true;
                ir = *ir_list;
                continue;
            }
            if (CfsOpt(&IF_truebody(ir), sc)) {
                change = true;
                ir = *ir_list;
                continue;
            }
            if (CfsOpt(&IF_falsebody(ir), sc)) {
                change = true;
                ir = *ir_list;
                continue;
            }
            break;
        case IR_DO_WHILE:
        case IR_WHILE_DO:
        case IR_DO_LOOP:
            if (hoistLoop(ir_list, ir)) {
                change = true;
                ir = *ir_list;
                continue;
            }
            if (CfsOpt(&LOOP_body(ir), sc)) {
                change = true;
                ir = *ir_list;
                continue;
            }
            break;
        case IR_SWITCH:
            if (CfsOpt(&SWITCH_body(ir), sc)) {
                change = true;
                ir = *ir_list;
                continue;
            }
            break;
        default:;
        } //end switch

         ir = ir->get_next();
    }
    return change;
}
Пример #29
0
//The followed forms
// x is signed
//     IF(x > 0x7FFFFFFF) {a=1} ELSE {b=1}   =>  b=1
//     IF(x < 0x80000000) {a=1} ELSE {b=1}   =>  b=1
//
// x is unsigned
//     IF(x > 0xFFFFFFFF){a=1} ELSE {b=1}   =>  b=1
//     IF(x < 0x0) {a=1} ELSE {b=1}         =>  b=1
bool IR_CFS_OPT::transformIf3(IR ** head, IR * ir)
{
    ASSERT(head && *head, ("invalid parameter"));
    if (ir == NULL || !ir->is_if()) { return false; }

    IR * det = IF_det(ir);
    if (det->is_gt()) {
        IR * opnd0 = BIN_opnd0(det);
        IR * opnd1 = BIN_opnd1(det);
        if (opnd0->is_ld() &&
            opnd0->is_int() &&
            opnd1->is_const() &&
            opnd1->is_int() &&
            m_ru->getIntegerInDataTypeValueRange(opnd1) ==
              m_ru->getMaxInteger(m_tm->get_dtype_bitsize(
                TY_dtype(opnd1->get_type())), opnd1->is_signed())) {
            //e.g:
            //x is unsigned, if(x>0xFFFFFFFF) {a=1} else {b=1} => b=1
            //x is signed, if(x>0x7FFFFFFF) {a=1} else {b=1} =>  b=1
            IR * allocIR = NULL;
            if (IF_falsebody(ir) != NULL) {
                allocIR = m_ru->dupIRTree(IF_falsebody(ir));
            }

            xcom::replace(head, ir, allocIR);

            if (allocIR != NULL) {
                IR_parent(allocIR) = IR_parent(ir);
            }

            m_ru->freeIRTree(ir);
            return true;
        }
    } else if (det->is_lt()) {
        IR * opnd0 = BIN_opnd0(det);
        IR * opnd1 = BIN_opnd1(det);
        if (opnd0->is_ld() &&
            opnd0->is_int() &&
            opnd1->is_const() &&
            opnd1->is_int() &&
            m_ru->getIntegerInDataTypeValueRange(opnd1) ==
              m_ru->getMinInteger(m_tm->get_dtype_bitsize(
                TY_dtype(opnd1->get_type())), opnd1->is_signed())) {
            //x is signed, IF(x < 0x80000000) {a=1} ELSE {b=1}  =>  b=1
            IR * allocIR = NULL;
            if (IF_falsebody(ir) != NULL) {
                allocIR = m_ru->dupIRTree(IF_falsebody(ir));
            }

            xcom::replace(head, ir, allocIR);

            if (allocIR != NULL) {
                IR_parent(allocIR) = IR_parent(ir);
            }

            m_ru->freeIRTree(ir);
            return true;
        } else if (opnd0->is_ld() &&
                   opnd1->is_const() &&
                   opnd0->is_uint() &&
                   CONST_int_val(opnd1) == 0) {
            //x is unsigned, if(x<0) {a=1} else {b=1}  =>  b=1
            IR * allocIR = NULL;
            if (IF_falsebody(ir) != NULL) {
                allocIR = m_ru->dupIRTree(IF_falsebody(ir));
            }

            xcom::replace(head, ir, allocIR);

            if (allocIR != NULL) {
                IR_parent(allocIR) = IR_parent(ir);
            }

            m_ru->freeIRTree(ir);
            return true;
        }
    }

    return false;
}
Пример #30
0
//The followed forms
//   if (cond) {
//       t=1
//       a=1
//       goto L1;
//   }
//   f=1
//   goto L2;
//   L1:
//
//is replaced with
//
//   if (!cond) {
//       f=1
//       goto L2;
//   }
//   t=1
//   a=1
//   L1:
//
//'goto L1' is removed and free, and L1 is removed if it is not a target
//of some other instruction.
bool IR_CFS_OPT::transformIf1(IR ** head, IR * ir)
{
    ASSERT(head && *head, ("invalid parameter"));

    if (ir == NULL || !ir->is_if()) { return false; }

    //Check true part.
    IR * t = IF_truebody(ir);
    while (t != NULL) {
        if (!is_non_branch_ir(t)) {
            break;
        }
        t = t->get_next();
    }

    if (t != NULL && t->get_next() == NULL && t->is_goto()) {
        IR * first_goto = t;
        t = ir->get_next();
        while (t != NULL) {
            if (!is_non_branch_ir(t)) { break; }
            t = t->get_next();
        }

        if (t != NULL && t->is_goto()) {
            IR * second_goto = t;
            if (IR_next(second_goto) != NULL &&
                IR_next(second_goto)->is_lab() &&
                isSameLabel(GOTO_lab(first_goto),
                            LAB_lab(IR_next(second_goto)))) {

                //Start transforming.
                m_ru->invertCondition(&IF_det(ir));
                IR * new_list1 = NULL;
                IR * new_list2 = NULL;

                t = IF_truebody(ir);

                //Split true body of IF.
                IR * last = NULL;
                while (t != first_goto) {
                    IR * c = t;
                    t = t->get_next();
                    xcom::remove(&IF_truebody(ir), c);
                    xcom::add_next(&new_list1, &last, c);
                }
                ASSERT(t && t == first_goto, ("invalid control flow"));

                xcom::remove(&IF_truebody(ir), first_goto);
                m_ru->freeIRTree(first_goto);

                //Split all irs between IF and L1.
                t = ir->get_next();
                while (t != second_goto) {
                    IR * c = t;
                    t = t->get_next();
                    xcom::remove(head, c);
                    xcom::add_next(&new_list2, c);
                }
                ASSERT(t != NULL && t == second_goto, ("???"));
                xcom::remove(head, second_goto);
                xcom::add_next(&new_list2, second_goto);

                //Swap new_list1 and new_list2
                xcom::insertbefore(&IF_truebody(ir), IF_truebody(ir), new_list2);

                //Update the IR_parent for new_list2.
                for (IR * tmp = new_list2; tmp != NULL; tmp = IR_next(tmp)) {
                    IR_parent(tmp) = ir;
                }

                ASSERT(IF_truebody(ir) == new_list2, ("illegal insertbefore<T>"));

                xcom::insertafter(&ir, new_list1);

                //Update the IR_parent for new_list1.
                for (IR * tmp = new_list1; tmp != NULL; tmp = IR_next(tmp)) {
                    IR_parent(tmp) = IR_parent(ir);
                }

                return true;
            }
        }
    }

    return false;
}