Example 21 with LongVariable
use of net.sourceforge.usbdm.deviceEditor.information.LongVariable in project usbdm-eclipse-plugins by podonoghue.
the class ClockValidator_MKL method validateClocks.
protected void validateClocks(Variable variable) throws Exception {
// System.err.println(getSimpleClassName()+" Var = "+variable);
super.validate(variable);
StringVariable clockConfig = safeGetStringVariable("ClockConfig");
clockConfig.setStatus(isValidCIdentifier(clockConfig.getValueAsString()) ? (String) null : "Illegal C enum value");
// OSC0 Clock monitor
// =================================
Variable mcg_c6_cme0Var = getVariable("mcg_c6_cme0");
Variable mcg_c2_locre0Var = getVariable("mcg_c2_locre0");
mcg_c2_locre0Var.enable(mcg_c6_cme0Var.getValueAsBoolean());
// =================================
Variable system_mcgfllclk_clockVar = getVariable("system_mcgfllclk_clock");
Variable mcg_c4_dmx32Var = getVariable("mcg_c4_dmx32");
Variable mcg_c1_frdivVar = getVariable("mcg_c1_frdiv");
Variable mcg_c4_drst_drsVar = getVariable("mcg_c4_drst_drs");
Variable pll0EnabledVar = getVariable("pll0Enabled");
Variable pll0InputFrequencyVar = getVariable("pll0InputFrequency");
Variable pll0OutputFrequency = getVariable("pll0OutputFrequency");
Variable mcg_c5_pllclkenVar = getVariable("mcg_c5_pllclken");
Variable mcg_c5_pllstenVar = getVariable("mcg_c5_pllsten");
Variable mcg_c5_prdiv0Var = getVariable("mcg_c5_prdiv0");
Variable mcg_c6_vdiv0Var = getVariable("mcg_c6_vdiv0");
Variable system_mcgpllclk_clockVar = getVariable("system_mcgpllclk_clock");
Variable system_mcgoutclk_clock_sourceVar = getVariable("system_mcgoutclk_clock_source");
Variable system_mcgoutclk_clockVar = getVariable("system_mcgoutclk_clock");
Variable mcg_c1_irefsVar = getVariable("mcg_c1_irefs");
Variable mcg_c1_clksVar = getVariable("mcg_c1_clks");
Variable mcg_c2_lpVar = getVariable("mcg_c2_lp");
Variable mcg_c6_pllsVar = getVariable("mcg_c6_plls");
// Determine MCGIRCLK (not gated/undivided and gated)
// ========================================
Variable mcg_sc_fcrdivVar = safeGetVariable("mcg_sc_fcrdiv");
Variable system_fast_irc_clockVar = getVariable("system_fast_irc_clock");
Variable system_slow_irc_clockVar = getVariable("system_slow_irc_clock");
Variable mcg_c2_ircsVar = getVariable("mcg_c2_ircs");
Variable system_mcgir_ungated_clock = new LongVariable("system_mcgir_ungated", null);
if (mcg_c2_ircsVar.getValueAsBoolean()) {
// Fast IRC selected
if (mcg_sc_fcrdivVar != null) {
// Variable divisor
long mcg_sc_fcrdiv = mcg_sc_fcrdivVar.getValueAsLong();
system_mcgir_ungated_clock.setOrigin("(Fast IRC)/FCRDIV");
system_mcgir_ungated_clock.setValue(system_fast_irc_clockVar.getValueAsLong() / (1 << mcg_sc_fcrdiv));
} else {
// Fixed divisor of 2
system_mcgir_ungated_clock.setOrigin("(Fast IRC)/2");
system_mcgir_ungated_clock.setValue(system_fast_irc_clockVar.getValueAsLong() / 2);
}
} else {
// Slow IRC selected
system_mcgir_ungated_clock.setOrigin("Slow IRC");
system_mcgir_ungated_clock.setValue(system_slow_irc_clockVar.getValueAsLong());
}
Variable system_mcgirclk_clockVar = getVariable("system_mcgirclk_clock");
system_mcgirclk_clockVar.setOrigin(system_mcgir_ungated_clock.getOrigin());
Variable mcg_c1_irclkenVar = getVariable("mcg_c1_irclken");
Variable mcg_c1_irefstenVar = getVariable("mcg_c1_irefsten");
if (mcg_c1_irclkenVar.getValueAsBoolean()) {
// Enabled
system_mcgirclk_clockVar.setValue(system_mcgir_ungated_clock.getValueAsLong());
system_mcgirclk_clockVar.setStatus((Status) null);
system_mcgirclk_clockVar.enable(true);
mcg_c1_irefstenVar.enable(true);
} else {
// Disabled
system_mcgirclk_clockVar.setValue(0);
system_mcgirclk_clockVar.setStatus(new Status("Disabled by mcg_c1_irclken", Severity.OK));
system_mcgirclk_clockVar.enable(false);
mcg_c1_irefstenVar.enable(false);
}
// Clock Mapping
// =================
String osc0_peripheral = getStringVariable("/SIM/osc0_peripheral").getValueAsString();
LongVariable osc0_osc_clockVar = getLongVariable(osc0_peripheral + "/osc_clock");
// Only MCG external reference clock on device
// ========================================================
Variable mcg_erc_clockVar = getVariable("mcg_erc_clock");
mcg_erc_clockVar.setValue(osc0_osc_clockVar.getValueAsLong());
mcg_erc_clockVar.setStatus(osc0_osc_clockVar.getFilteredStatus());
mcg_erc_clockVar.setOrigin(osc0_osc_clockVar.getOrigin());
// Main clock mode
// ===============================
int mcg_c1_clks;
int mcg_c6_plls;
int mcg_c2_lp;
boolean mcg_c1_irefs;
// Main clock mode
// ====================
ClockMode clock_mode = ClockMode.valueOf(getVariable("clock_mode").getSubstitutionValue());
Variable fll_enabledVar = getVariable("fll_enabled");
Variable fllInputFrequencyVar = getVariable("fllInputFrequency");
switch(clock_mode) {
default:
case ClockMode_None:
mcg_c1_clks = 0;
mcg_c6_plls = 0;
mcg_c2_lp = 0;
mcg_c1_irefs = true;
system_mcgoutclk_clock_sourceVar.setValue("FLL output");
pll0EnabledVar.setValue(mcg_c5_pllclkenVar.getValueAsBoolean());
fll_enabledVar.setValue(true);
break;
case ClockMode_FEI:
mcg_c1_clks = 0;
mcg_c6_plls = 0;
mcg_c2_lp = 0;
mcg_c1_irefs = true;
system_mcgoutclk_clock_sourceVar.setValue("FLL output");
pll0EnabledVar.setValue(mcg_c5_pllclkenVar.getValueAsBoolean());
fll_enabledVar.setValue(true);
break;
case ClockMode_FEE:
mcg_c1_clks = 0;
mcg_c6_plls = 0;
mcg_c2_lp = 0;
mcg_c1_irefs = false;
system_mcgoutclk_clock_sourceVar.setValue("FLL output");
pll0EnabledVar.setValue(mcg_c5_pllclkenVar.getValueAsBoolean());
fll_enabledVar.setValue(true);
break;
case ClockMode_FBI:
mcg_c1_clks = 1;
mcg_c6_plls = 0;
mcg_c2_lp = 0;
mcg_c1_irefs = true;
system_mcgoutclk_clock_sourceVar.setValue("MCGIRCLK");
pll0EnabledVar.setValue(mcg_c5_pllclkenVar.getValueAsBoolean());
fll_enabledVar.setValue(true);
break;
case ClockMode_FBE:
mcg_c1_clks = 2;
mcg_c6_plls = 0;
mcg_c2_lp = 0;
mcg_c1_irefs = false;
system_mcgoutclk_clock_sourceVar.setValue("MCGERCLK");
pll0EnabledVar.setValue(mcg_c5_pllclkenVar.getValueAsBoolean());
fll_enabledVar.setValue(true);
break;
case ClockMode_BLPI:
mcg_c1_clks = 1;
mcg_c6_plls = 0;
mcg_c2_lp = 1;
mcg_c1_irefs = true;
system_mcgoutclk_clock_sourceVar.setValue("MCGIRCLK");
pll0EnabledVar.setValue(mcg_c5_pllclkenVar.getValueAsBoolean());
fll_enabledVar.setValue(false);
break;
case ClockMode_BLPE:
mcg_c1_clks = 2;
mcg_c6_plls = 0;
mcg_c2_lp = 1;
mcg_c1_irefs = false;
system_mcgoutclk_clock_sourceVar.setValue("MCGERCLK");
pll0EnabledVar.setValue(mcg_c5_pllclkenVar.getValueAsBoolean());
fll_enabledVar.setValue(false);
break;
case ClockMode_PBE:
mcg_c1_clks = 2;
mcg_c6_plls = 1;
mcg_c2_lp = 0;
mcg_c1_irefs = false;
system_mcgoutclk_clock_sourceVar.setValue("MCGERCLK");
pll0EnabledVar.setValue(true);
fll_enabledVar.setValue(false);
break;
case ClockMode_PEE:
mcg_c1_clks = 0;
mcg_c6_plls = 1;
mcg_c2_lp = 0;
mcg_c1_irefs = false;
system_mcgoutclk_clock_sourceVar.setValue("PLL output");
pll0EnabledVar.setValue(true);
fll_enabledVar.setValue(false);
break;
}
mcg_c1_clksVar.setValue(mcg_c1_clks);
mcg_c6_pllsVar.setValue(mcg_c6_plls);
mcg_c2_lpVar.setValue(mcg_c2_lp);
mcg_c1_irefsVar.setValue(mcg_c1_irefs);
Variable osc0_osc_cr_erclkenVar = safeGetBooleanVariable(osc0_peripheral + "/osc_cr_erclken");
// =======================================
// Find FLL dividers
FllConfigure fllCheck = new FllConfigure(osc0_osc_cr_erclkenVar, safeGetVariable(osc0_peripheral + "/oscillatorRange"), getVariable("mcg_c2_range"), mcg_c1_irefs, mcg_erc_clockVar, system_slow_irc_clockVar.getValueAsLong(), // Always uses OSC0
0, mcg_c4_dmx32Var.getValueAsBoolean(), fllInputFrequencyVar, system_mcgfllclk_clockVar, getVariable("system_mcgffclk_clock"), DRST_DRS_MAX);
mcg_c1_frdivVar.setValue(fllCheck.mcg_c1_frdiv);
mcg_c4_drst_drsVar.setValue(fllCheck.mcg_c4_drst_drs);
// Internal PLL
// ========================================
// Find PLL divider
PllConfigure pllConfigure = new PllConfigure(PLL_OUT_MIN, PLL_OUT_MAX, PLL_IN_MIN, PLL_IN_MAX, PRDIV_MIN, PRDIV_MAX, VDIV_MIN, VDIV_MAX, PLL_POST_DIV);
pllConfigure.validate(mcg_erc_clockVar, pll0InputFrequencyVar, pll0OutputFrequency, mcg_c5_prdiv0Var, mcg_c6_vdiv0Var);
boolean pll0Enabled = pll0EnabledVar.getValueAsBoolean();
pll0InputFrequencyVar.enable(pll0Enabled);
mcg_c5_prdiv0Var.enable(pll0Enabled);
mcg_c6_vdiv0Var.enable(pll0Enabled);
mcg_c5_pllstenVar.enable(pll0Enabled);
if (pll0Enabled) {
pll0OutputFrequency.enable(pll0InputFrequencyVar.getFilteredStatus() == null);
pll0OutputFrequency.setStatus(pllConfigure.getPllStatus());
} else {
pll0OutputFrequency.enable(false);
pll0OutputFrequency.setStatus(new Status("PLL is disabled", Severity.WARNING));
}
// Internal PLL
system_mcgpllclk_clockVar.setValue(pll0OutputFrequency.getValueAsLong());
system_mcgpllclk_clockVar.setOrigin(pll0OutputFrequency.getOrigin());
system_mcgpllclk_clockVar.setStatus(pll0OutputFrequency.getFilteredStatus());
// ======================================
// FLL status
boolean fllEnabled = fll_enabledVar.getValueAsBoolean();
fllInputFrequencyVar.enable(fllEnabled);
if (fllEnabled) {
boolean fllInputIsOK = (fllInputFrequencyVar.getStatus() == null) || (fllCheck.getFllStatus().getSeverity().lessThan(Severity.WARNING));
system_mcgfllclk_clockVar.enable(fllInputIsOK);
system_mcgfllclk_clockVar.setStatus(fllCheck.getFllStatus());
} else {
system_mcgfllclk_clockVar.enable(false);
system_mcgfllclk_clockVar.setStatus(new Status("FLL is disabled", Severity.WARNING));
}
mcg_c4_dmx32Var.enable(fllEnabled);
mcg_c4_drst_drsVar.enable(fllEnabled);
// Main clock mode
// ===============================
Status clock_mode_Status = null;
switch(clock_mode) {
default:
case ClockMode_None:
system_mcgoutclk_clockVar.setValue(system_mcgfllclk_clockVar.getValueAsLong());
system_mcgoutclk_clockVar.setOrigin(system_mcgfllclk_clockVar.getOrigin());
system_mcgoutclk_clockVar.setStatus((Status) null);
clock_mode_Status = new Status("No clock settings are applied", Severity.WARNING);
break;
case ClockMode_FEI:
system_mcgoutclk_clockVar.setValue(system_mcgfllclk_clockVar.getValueAsLong());
system_mcgoutclk_clockVar.setOrigin(system_mcgfllclk_clockVar.getOrigin());
system_mcgoutclk_clockVar.setStatus(system_mcgfllclk_clockVar.getFilteredStatus());
break;
case ClockMode_FEE:
system_mcgoutclk_clockVar.setValue(system_mcgfllclk_clockVar.getValueAsLong());
system_mcgoutclk_clockVar.setOrigin(system_mcgfllclk_clockVar.getOrigin());
system_mcgoutclk_clockVar.setStatus(system_mcgfllclk_clockVar.getFilteredStatus());
break;
case ClockMode_FBI:
system_mcgoutclk_clockVar.setValue(system_mcgir_ungated_clock.getValueAsLong());
system_mcgoutclk_clockVar.setOrigin(system_mcgir_ungated_clock.getOrigin());
system_mcgoutclk_clockVar.setStatus(system_mcgir_ungated_clock.getFilteredStatus());
break;
case ClockMode_FBE:
system_mcgoutclk_clockVar.setValue(mcg_erc_clockVar.getValueAsLong());
system_mcgoutclk_clockVar.setOrigin(mcg_erc_clockVar.getOrigin());
system_mcgoutclk_clockVar.setStatus(mcg_erc_clockVar.getFilteredStatus());
break;
case ClockMode_BLPI:
system_mcgoutclk_clockVar.setValue(system_mcgir_ungated_clock.getValueAsLong());
system_mcgoutclk_clockVar.setOrigin(system_mcgir_ungated_clock.getOrigin());
system_mcgoutclk_clockVar.setStatus(system_mcgir_ungated_clock.getFilteredStatus());
break;
case ClockMode_BLPE:
system_mcgoutclk_clockVar.setValue(mcg_erc_clockVar.getValueAsLong());
system_mcgoutclk_clockVar.setOrigin(mcg_erc_clockVar.getOrigin());
system_mcgoutclk_clockVar.setStatus(mcg_erc_clockVar.getFilteredStatus());
break;
case ClockMode_PBE:
system_mcgoutclk_clockVar.setValue(mcg_erc_clockVar.getValueAsLong());
system_mcgoutclk_clockVar.setOrigin(mcg_erc_clockVar.getOrigin());
system_mcgoutclk_clockVar.setStatus(mcg_erc_clockVar.getFilteredStatus());
break;
case ClockMode_PEE:
system_mcgoutclk_clockVar.setValue(system_mcgpllclk_clockVar.getValueAsLong());
system_mcgoutclk_clockVar.setOrigin(system_mcgpllclk_clockVar.getOrigin());
system_mcgoutclk_clockVar.setStatus(system_mcgpllclk_clockVar.getFilteredStatus());
break;
}
system_mcgoutclk_clock_sourceVar.setStatus(clock_mode_Status);
system_mcgoutclk_clock_sourceVar.setOrigin(system_mcgoutclk_clockVar.getOrigin());
}
Also used :
Status(net.sourceforge.usbdm.deviceEditor.model.Status)
StringVariable(net.sourceforge.usbdm.deviceEditor.information.StringVariable)
Variable(net.sourceforge.usbdm.deviceEditor.information.Variable)
LongVariable(net.sourceforge.usbdm.deviceEditor.information.LongVariable)
LongVariable(net.sourceforge.usbdm.deviceEditor.information.LongVariable)
StringVariable(net.sourceforge.usbdm.deviceEditor.information.StringVariable)
Example 22 with LongVariable
use of net.sourceforge.usbdm.deviceEditor.information.LongVariable in project usbdm-eclipse-plugins by podonoghue.
the class LcdValidate method validate.
/**
* Class to validate LCD settings
* @throws Exception
*/
@Override
public void validate(Variable variable) throws Exception {
super.validate(variable);
String osc0_peripheral = getStringVariable("/SIM/osc0_peripheral").getValueAsString();
LongVariable osc0_oscer_clockVar = getLongVariable(osc0_peripheral + "/oscer_clock");
LongVariable system_erclk32k_clockVar = getLongVariable("/SIM/system_erclk32k_clock");
LongVariable system_mcgirclk_clockVar = getLongVariable("/MCG/system_mcgirclk_clock");
ChoiceVariable lcd_gcr_clockVar = getChoiceVariable("lcd_gcr_clock");
ChoiceVariable lcd_gcr_altdivVar = getChoiceVariable("lcd_gcr_altdiv");
DoubleVariable lcdClockVar = getDoubleVariable("lcdClock");
BooleanVariable lcd_gcr_rvenVar = getBooleanVariable("lcd_gcr_rven");
ChoiceVariable lcd_gcr_rvtrimVar = getChoiceVariable("lcd_gcr_rvtrim");
lcd_gcr_rvtrimVar.enable(lcd_gcr_rvenVar.getValueAsBoolean());
ChoiceVariable lcd_gcr_dutyVar = getChoiceVariable("lcd_gcr_duty");
PinListVariable backplanesVar = (PinListVariable) getVariable("backplanes");
PinListVariable frontplanesVar = (PinListVariable) getVariable("frontplanes");
Vector<Signal> table = getPeripheral().getSignalTables().get(0).table;
Status unmappedBackplanesMessage = null;
int[] backPlaneValues = backplanesVar.getValues();
for (int pinNum : backPlaneValues) {
Signal entry = table.get(pinNum);
if ((entry == null) || (entry.getMappedPin().getPin() == Pin.UNASSIGNED_PIN)) {
unmappedBackplanesMessage = UNMAPPED_PIN_STATUS;
break;
}
}
backplanesVar.setStatus(unmappedBackplanesMessage);
Status unmappedFrontplanesMessage = null;
int[] frontPlaneValues = frontplanesVar.getValues();
for (int pinNum : frontPlaneValues) {
Signal entry = table.get(pinNum);
if ((entry == null) || (entry.getMappedPin().getPin() == Pin.UNASSIGNED_PIN)) {
unmappedFrontplanesMessage = UNMAPPED_PIN_STATUS;
break;
}
}
frontplanesVar.setStatus(unmappedFrontplanesMessage);
// Number of back-planes is determined by duty-cycle
backplanesVar.setMinListLength(0);
backplanesVar.setListLength((int) lcd_gcr_dutyVar.getValueAsLong() + 1);
// Number of front-planes is determined by pins left over from back-planes
frontplanesVar.setMinListLength(0);
frontplanesVar.setMaxListLength(63 - ((int) lcd_gcr_dutyVar.getValueAsLong() + 1));
double divider = 1 << (3 * lcd_gcr_altdivVar.getValueAsLong());
switch((int) lcd_gcr_clockVar.getValueAsLong()) {
default:
lcd_gcr_clockVar.setValue(0);
case 0:
lcd_gcr_altdivVar.enable(false);
lcdClockVar.setValue(system_erclk32k_clockVar.getValueAsLong());
lcdClockVar.setOrigin(system_erclk32k_clockVar.getOrigin());
lcdClockVar.setStatus(system_erclk32k_clockVar.getFilteredStatus());
break;
case 1:
lcd_gcr_altdivVar.enable(true);
lcdClockVar.setValue(system_mcgirclk_clockVar.getValueAsLong() / divider);
lcdClockVar.setOrigin(system_mcgirclk_clockVar.getOrigin() + " / ALTDIV");
lcdClockVar.setStatus(system_mcgirclk_clockVar.getFilteredStatus());
break;
case 2:
lcd_gcr_altdivVar.enable(true);
lcdClockVar.setValue(osc0_oscer_clockVar.getValueAsLong() / divider);
lcdClockVar.setOrigin(osc0_oscer_clockVar.getOrigin() + " / ALTDIV");
lcdClockVar.setStatus(osc0_oscer_clockVar.getFilteredStatus());
break;
}
}
Also used :
PinListVariable(net.sourceforge.usbdm.deviceEditor.information.PinListVariable)
Status(net.sourceforge.usbdm.deviceEditor.model.Status)
Signal(net.sourceforge.usbdm.deviceEditor.information.Signal)
LongVariable(net.sourceforge.usbdm.deviceEditor.information.LongVariable)
BooleanVariable(net.sourceforge.usbdm.deviceEditor.information.BooleanVariable)
DoubleVariable(net.sourceforge.usbdm.deviceEditor.information.DoubleVariable)
ChoiceVariable(net.sourceforge.usbdm.deviceEditor.information.ChoiceVariable)
Example 23 with LongVariable
use of net.sourceforge.usbdm.deviceEditor.information.LongVariable in project usbdm-eclipse-plugins by podonoghue.
the class LptmrValidate method validate.
/**
* Class to determine LPTMR settings
* @throws Exception
*/
@Override
public void validate(Variable variable) throws Exception {
super.validate(variable);
// System.err.println("LptmrValidate.validate("+variable+")");
final String osc0_peripheral = getStringVariable("/SIM/osc0_peripheral").getValueAsString();
// Variables
// =================================
DoubleVariable clockFrequencyVar = getDoubleVariable("clockFrequency");
DoubleVariable clockPeriodVar = getDoubleVariable("clockPeriod");
DoubleVariable maximumPeriodVar = getDoubleVariable("maximumPeriod");
Variable lptmr_psr_pcsVar = getVariable("lptmr_psr_pcs");
BooleanVariable lptmr_psr_pbypVar = getBooleanVariable("lptmr_psr_pbyp");
Variable lptmr_psr_prescalerVar = getVariable("lptmr_psr_prescaler");
BooleanVariable lptmr_csr_tmsVar = getBooleanVariable("lptmr_csr_tms");
Variable lptmr_csr_tpsVar = getVariable("lptmr_csr_tps");
Variable lptmr_csr_tppVar = getVariable("lptmr_csr_tpp");
LongVariable lptmr_cmrVar = getLongVariable("lptmr_cmr");
DoubleVariable lptmr_cmrPeriodVar = getDoubleVariable("lptmr_cmrPeriod");
DoubleVariable lptmr_cmrFrequencyVar = getDoubleVariable("lptmr_cmrFrequency");
// Enable/disable parameters that depend on mode
boolean lptmr_csr_tms = lptmr_csr_tmsVar.getValueAsBoolean();
lptmr_csr_tpsVar.enable(lptmr_csr_tms);
lptmr_csr_tppVar.enable(lptmr_csr_tms);
lptmr_cmrPeriodVar.enable(!lptmr_csr_tms);
lptmr_cmrFrequencyVar.enable(!lptmr_csr_tms);
Variable clockSourceVar = null;
switch((int) lptmr_psr_pcsVar.getValueAsLong()) {
default:
lptmr_psr_pcsVar.setValue(0);
case 0:
clockSourceVar = getVariable("/MCG/system_mcgirclk_clock[0]");
break;
case 1:
clockSourceVar = getVariable("/MCG/system_low_power_clock");
break;
case 2:
clockSourceVar = getVariable("/SIM/system_erclk32k_clock");
break;
case 3:
clockSourceVar = getVariable(osc0_peripheral + "/oscer_clock");
break;
}
boolean clockChanged = // Initial setup
(variable == null) || // Clock source selection change
(variable == lptmr_psr_pcsVar) || // Change in the currently selected clock source
(variable == clockSourceVar) || // Prescaler bypass
(variable == lptmr_psr_pbypVar) || // Prescaler changed
(variable == lptmr_psr_prescalerVar);
if (variable == lptmr_psr_pbypVar) {
// Update bypass affected things
if (lptmr_psr_pbypVar.getValueAsBoolean()) {
// Clock divider bypassed
lptmr_psr_prescalerVar.enable(false);
lptmr_psr_prescalerVar.setOrigin("Disabled by lptmr_psr_pbyp");
clockFrequencyVar.setOrigin(clockSourceVar.getOrigin());
clockPeriodVar.setOrigin(clockSourceVar.getOrigin());
} else {
// Clock divider used
lptmr_psr_prescalerVar.enable(true);
lptmr_psr_prescalerVar.setOrigin(null);
clockFrequencyVar.setOrigin(clockSourceVar.getOrigin() + " frequency divided by lptmr_psr_prescaler");
clockPeriodVar.setOrigin(clockSourceVar.getOrigin() + " period multiplied by lptmr_psr_prescaler");
}
}
// Current values
double clockFrequency = clockSourceVar.getValueAsLong();
if (!lptmr_psr_pbypVar.getValueAsBoolean()) {
// Clock divider used
clockFrequency = clockFrequency / (1L << (lptmr_psr_prescalerVar.getValueAsLong() + 1));
}
double clockPeriod = (clockFrequency == 0) ? 0 : (1 / clockFrequency);
clockFrequencyVar.setStatus(clockSourceVar.getFilteredStatus());
if (clockChanged) {
// Update clockFrequency, clockPeriod
clockFrequencyVar.setValue(clockFrequency);
clockPeriodVar.setStatus(clockSourceVar.getStatus());
if (clockFrequency == 0) {
clockFrequencyVar.enable(false);
clockPeriodVar.enable(false);
clockPeriod = 0.0;
clockPeriodVar.setValue(clockPeriod);
} else {
clockFrequencyVar.enable(true);
clockPeriodVar.enable(true);
clockPeriod = 1 / clockFrequency;
clockPeriodVar.setValue(clockPeriod);
}
}
double maximumPeriod = clockPeriod * 65536;
maximumPeriodVar.setValue(maximumPeriod);
lptmr_cmrPeriodVar.setMax(maximumPeriod);
long lptmr_cmr = lptmr_cmrVar.getValueAsLong();
if (clockChanged) {
// cmr==0 produced infinity which is OK!
Double cmrFrequency = clockFrequency / lptmr_cmr;
Double cmrPeriod = clockPeriod * lptmr_cmr;
lptmr_cmrPeriodVar.setValue(cmrPeriod);
lptmr_cmrFrequencyVar.setValue(cmrFrequency);
} else if (variable != null) {
if (variable.equals(lptmr_cmrVar)) {
// cmr==0 produced infinity which is OK!
Double cmrFrequency = clockFrequency / lptmr_cmr;
Double cmrPeriod = clockPeriod * lptmr_cmr;
lptmr_cmrPeriodVar.setValue(cmrPeriod);
lptmr_cmrFrequencyVar.setValue(cmrFrequency);
} else if (variable.equals(lptmr_cmrPeriodVar)) {
// Calculate rounded value
lptmr_cmr = Math.round(lptmr_cmrPeriodVar.getValueAsDouble() * clockFrequency);
// cmr==0 produced infinity which is OK!
Double cmrFrequency = clockFrequency / lptmr_cmr;
Double cmrPeriod = clockPeriod * lptmr_cmr;
// Update
lptmr_cmrVar.setValue(lptmr_cmr);
// Need to show effect of rounding
lptmr_cmrPeriodVar.setValue(cmrPeriod);
lptmr_cmrFrequencyVar.setValue(cmrFrequency);
} else if (variable.equals(lptmr_cmrFrequencyVar)) {
// Calculate rounded value
Double cmrFrequency = lptmr_cmrFrequencyVar.getValueAsDouble();
if (cmrFrequency <= (clockFrequency / 65535)) {
lptmr_cmr = 65535;
} else {
lptmr_cmr = Math.round(clockFrequency / cmrFrequency);
}
// cmr==0 produced infinity which is OK!
cmrFrequency = clockFrequency / lptmr_cmr;
Double cmrPeriod = clockPeriod * lptmr_cmr;
// Update
lptmr_cmrVar.setValue(lptmr_cmr);
// Need to show effect of rounding
lptmr_cmrPeriodVar.setValue(cmrPeriod);
lptmr_cmrFrequencyVar.setValue(cmrFrequency);
}
}
}
Also used :
BooleanVariable(net.sourceforge.usbdm.deviceEditor.information.BooleanVariable)
DoubleVariable(net.sourceforge.usbdm.deviceEditor.information.DoubleVariable)
Variable(net.sourceforge.usbdm.deviceEditor.information.Variable)
LongVariable(net.sourceforge.usbdm.deviceEditor.information.LongVariable)
LongVariable(net.sourceforge.usbdm.deviceEditor.information.LongVariable)
BooleanVariable(net.sourceforge.usbdm.deviceEditor.information.BooleanVariable)
DoubleVariable(net.sourceforge.usbdm.deviceEditor.information.DoubleVariable)
Example 24 with LongVariable
use of net.sourceforge.usbdm.deviceEditor.information.LongVariable in project usbdm-eclipse-plugins by podonoghue.
the class LpuartValidate method validate.
/**
* Class to validate LPUART settings
* @throws Exception
*/
@Override
public void validate(Variable variable) throws Exception {
super.validate(variable);
// Variables
// =================================
BooleanVariable uartClassVar = getBooleanVariable("lpuartClass");
LongVariable receiveBufferSizeVar = getLongVariable("receiveBufferSize");
LongVariable transmitBufferSizeVar = getLongVariable("transmitBufferSize");
IrqVariable txrxHandlerVar = getIrqVariable("irqHandlers");
// Enable/disable parameters that depend on mode
boolean uartClass = uartClassVar.getValueAsBoolean();
if (variable == uartClassVar) {
// System.err.println("uartClassVar = "+uartClassVar.getValueAsBoolean());
// Changed buffering
receiveBufferSizeVar.enable(uartClass);
transmitBufferSizeVar.enable(uartClass);
txrxHandlerVar.setLocked(uartClass);
if (uartClass) {
txrxHandlerVar.setValue(IrqVariable.CLASS_VALUE);
}
}
validateMappedPins(new int[] { 0, 1 }, getPeripheral().getSignalTables().get(0).table);
}
Also used :
LongVariable(net.sourceforge.usbdm.deviceEditor.information.LongVariable)
BooleanVariable(net.sourceforge.usbdm.deviceEditor.information.BooleanVariable)
IrqVariable(net.sourceforge.usbdm.deviceEditor.information.IrqVariable)
Example 25 with LongVariable
use of net.sourceforge.usbdm.deviceEditor.information.LongVariable in project usbdm-eclipse-plugins by podonoghue.
the class PdbValidate method doDacValidate.
/**
* Validate a DAC settings
*
* @param variable Variable that triggered change (may be null)
* @param channel The DAC to validate e.g. 0, 1 etc
*
* @throws Exception
*/
void doDacValidate(Variable variable, int channel) throws Exception {
// In/Out
BooleanVariable pdb_intXc_toeVar = safeGetBooleanVariable("pdb_int" + channel + "c_toe");
if (pdb_intXc_toeVar == null) {
// Dac trigger doesn't exit
return;
}
BooleanVariable pdb_intXc_extVar = getBooleanVariable("pdb_int" + channel + "c_ext");
LongVariable pdb_intX_intVar = getLongVariable("pdb_int" + channel + "_int");
// Out/Out
DoubleVariable pdb_intX_int_delayVar = getDoubleVariable("pdb_int" + channel + "_int_delay");
boolean triggerEnable = pdb_intXc_toeVar.getRawValueAsBoolean();
// Do enable/disable first
pdb_intXc_extVar.enable(triggerEnable);
pdb_intX_intVar.enable(triggerEnable);
pdb_intX_int_delayVar.enable(triggerEnable);
// Get current values
long pdb_intX_int = pdb_intX_intVar.getRawValueAsLong();
double pdb_intX_int_delay = pdb_intX_int_delayVar.getRawValueAsDouble();
if (clockChanged) {
pdb_intX_int_delayVar.setOrigin(pdbClockOrigin + " period * pdb_int" + channel + "_int");
}
if (variable != null) {
if (variable.equals(pdb_intX_int_delayVar)) {
// Calculate rounded value
pdb_intX_int = Math.max(0, Math.round((pdb_intX_int_delay / pdb_period) - 1));
// Update
pdb_intX_intVar.setValue(pdb_intX_int);
// Need to show effect of rounding
}
}
pdb_intX_intVar.setMax(pdb_mod);
pdb_intX_int_delayVar.setMax((pdb_mod + 1.5) * pdb_period);
pdb_intX_int_delayVar.setValue(pdb_period * (pdb_intX_int + 1));
}
Also used :
LongVariable(net.sourceforge.usbdm.deviceEditor.information.LongVariable)
BooleanVariable(net.sourceforge.usbdm.deviceEditor.information.BooleanVariable)
DoubleVariable(net.sourceforge.usbdm.deviceEditor.information.DoubleVariable)
Aggregations
LongVariable (net.sourceforge.usbdm.deviceEditor.information.LongVariable)28
ChoiceVariable (net.sourceforge.usbdm.deviceEditor.information.ChoiceVariable)16
BooleanVariable (net.sourceforge.usbdm.deviceEditor.information.BooleanVariable)15
Variable (net.sourceforge.usbdm.deviceEditor.information.Variable)12
DoubleVariable (net.sourceforge.usbdm.deviceEditor.information.DoubleVariable)10
Status (net.sourceforge.usbdm.deviceEditor.model.Status)10
StringVariable (net.sourceforge.usbdm.deviceEditor.information.StringVariable)4
Severity (net.sourceforge.usbdm.deviceEditor.model.Status.Severity)4
IrqVariable (net.sourceforge.usbdm.deviceEditor.information.IrqVariable)2
FileNotFoundException (java.io.FileNotFoundException)1
PinListVariable (net.sourceforge.usbdm.deviceEditor.information.PinListVariable)1
Signal (net.sourceforge.usbdm.deviceEditor.information.Signal)1
UsbdmException (net.sourceforge.usbdm.jni.UsbdmException)1
