AndroidCalculator class removed

This commit is contained in:
serso 2016-02-01 21:14:33 +01:00
parent a219db0391
commit 570221d691
9 changed files with 494 additions and 804 deletions

View File

@ -1,210 +0,0 @@
/*
* Copyright 2013 serso aka se.solovyev
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
* ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
* Contact details
*
* Email: se.solovyev@gmail.com
* Site: http://se.solovyev.org
*/
package org.solovyev.android.calculator;
import android.app.Application;
import android.content.SharedPreferences;
import android.preference.PreferenceManager;
import com.squareup.otto.Bus;
import jscl.NumeralBase;
import jscl.math.Generic;
import org.solovyev.android.calculator.errors.FixableErrorsActivity;
import org.solovyev.android.calculator.jscl.JsclOperation;
import org.solovyev.common.msg.Message;
import javax.annotation.Nonnull;
import javax.annotation.Nullable;
import java.util.List;
import java.util.concurrent.Executor;
public class AndroidCalculator implements Calculator, CalculatorEventListener, SharedPreferences.OnSharedPreferenceChangeListener {
@Nonnull
private final CalculatorImpl calculator;
@Nonnull
private final Application context;
public AndroidCalculator(@Nonnull Application application, @Nonnull Bus bus, Executor eventExecutor) {
this.context = application;
this.calculator = new CalculatorImpl(bus, eventExecutor);
this.calculator.addCalculatorEventListener(this);
PreferenceManager.getDefaultSharedPreferences(application).registerOnSharedPreferenceChangeListener(this);
}
@Override
@Nonnull
public CalculatorEventData evaluate(@Nonnull JsclOperation operation, @Nonnull String expression) {
return calculator.evaluate(operation, expression);
}
@Override
@Nonnull
public CalculatorEventData evaluate(@Nonnull JsclOperation operation, @Nonnull String expression, long sequenceId) {
return calculator.evaluate(operation, expression, sequenceId);
}
@Override
public boolean isCalculateOnFly() {
return calculator.isCalculateOnFly();
}
@Override
public void setCalculateOnFly(boolean calculateOnFly) {
calculator.setCalculateOnFly(calculateOnFly);
}
@Override
public boolean isConversionPossible(@Nonnull Generic generic, @Nonnull NumeralBase from, @Nonnull NumeralBase to) {
return calculator.isConversionPossible(generic, from, to);
}
@Override
@Nonnull
public CalculatorEventData convert(@Nonnull Generic generic, @Nonnull NumeralBase to) {
return calculator.convert(generic, to);
}
@Override
@Nonnull
public CalculatorEventData fireCalculatorEvent(@Nonnull CalculatorEventType calculatorEventType, @Nullable Object data) {
return calculator.fireCalculatorEvent(calculatorEventType, data);
}
@Nonnull
@Override
public CalculatorEventData fireCalculatorEvent(@Nonnull CalculatorEventType calculatorEventType, @Nullable Object data, @Nonnull Object source) {
return calculator.fireCalculatorEvent(calculatorEventType, data, source);
}
@Override
@Nonnull
public CalculatorEventData fireCalculatorEvent(@Nonnull CalculatorEventType calculatorEventType, @Nullable Object data, @Nonnull Long sequenceId) {
return calculator.fireCalculatorEvent(calculatorEventType, data, sequenceId);
}
@Nonnull
@Override
public PreparedExpression prepareExpression(@Nonnull String expression) throws ParseException {
return calculator.prepareExpression(expression);
}
@Override
public void init(@Nonnull Executor initThread) {
this.calculator.init(initThread);
final SharedPreferences prefs = PreferenceManager.getDefaultSharedPreferences(context);
this.calculator.setCalculateOnFly(Preferences.Calculations.calculateOnFly.getPreference(prefs));
}
@Override
public void addCalculatorEventListener(@Nonnull CalculatorEventListener calculatorEventListener) {
calculator.addCalculatorEventListener(calculatorEventListener);
}
@Override
public void removeCalculatorEventListener(@Nonnull CalculatorEventListener calculatorEventListener) {
calculator.removeCalculatorEventListener(calculatorEventListener);
}
@Override
public void fireCalculatorEvent(@Nonnull CalculatorEventData calculatorEventData, @Nonnull CalculatorEventType calculatorEventType, @Nullable Object data) {
calculator.fireCalculatorEvent(calculatorEventData, calculatorEventType, data);
}
@Override
public void fireCalculatorEvents(@Nonnull List<CalculatorEvent> calculatorEvents) {
calculator.fireCalculatorEvents(calculatorEvents);
}
@Override
public void evaluate() {
calculator.evaluate();
}
@Override
public void evaluate(@Nonnull Long sequenceId) {
calculator.evaluate(sequenceId);
}
@Override
public void simplify() {
calculator.simplify();
}
@Override
public void onCalculatorEvent(@Nonnull CalculatorEventData calculatorEventData, @Nonnull CalculatorEventType calculatorEventType, @Nullable Object data) {
switch (calculatorEventType) {
case calculation_messages:
FixableErrorsActivity.show(App.getApplication(), (List<Message>) data);
break;
case show_history:
CalculatorActivityLauncher.showHistory(App.getApplication());
break;
case show_history_detached:
CalculatorActivityLauncher.showHistory(App.getApplication(), true);
break;
case show_functions:
CalculatorActivityLauncher.showFunctions(App.getApplication());
break;
case show_functions_detached:
CalculatorActivityLauncher.showFunctions(App.getApplication(), true);
break;
case show_operators:
CalculatorActivityLauncher.showOperators(App.getApplication());
break;
case show_operators_detached:
CalculatorActivityLauncher.showOperators(App.getApplication(), true);
break;
case show_vars:
CalculatorActivityLauncher.showVars(App.getApplication());
break;
case show_vars_detached:
CalculatorActivityLauncher.showVars(App.getApplication(), true);
break;
case show_settings:
CalculatorActivityLauncher.showSettings(App.getApplication());
break;
case show_settings_detached:
CalculatorActivityLauncher.showSettings(App.getApplication(), true);
break;
case show_settings_widget:
CalculatorActivityLauncher.showWidgetSettings(App.getApplication(), true);
break;
case show_like_dialog:
CalculatorActivityLauncher.likeButtonPressed(App.getApplication());
break;
case open_app:
CalculatorActivityLauncher.openApp(App.getApplication());
break;
}
}
@Override
public void onSharedPreferenceChanged(@Nonnull SharedPreferences prefs, @Nonnull String key) {
if (Preferences.Calculations.calculateOnFly.getKey().equals(key)) {
this.calculator.setCalculateOnFly(Preferences.Calculations.calculateOnFly.getPreference(prefs));
}
}
}

View File

@ -64,8 +64,8 @@ public class AppModule {
@Provides
@Singleton
Calculator provideCalculator(Bus bus, @Named(THREAD_UI) Executor executor) {
return new AndroidCalculator(application, bus, executor);
Calculator provideCalculator(SharedPreferences preferences, Bus bus, @Named(THREAD_UI) Executor executor) {
return new Calculator(preferences, bus, executor);
}
@Provides

View File

@ -22,79 +22,510 @@
package org.solovyev.android.calculator;
import android.content.SharedPreferences;
import android.support.annotation.NonNull;
import android.text.TextUtils;
import android.util.Log;
import com.squareup.otto.Bus;
import com.squareup.otto.Subscribe;
import jscl.AbstractJsclArithmeticException;
import jscl.MathEngine;
import jscl.NumeralBase;
import jscl.NumeralBaseException;
import jscl.math.Generic;
import jscl.math.function.IConstant;
import jscl.text.ParseInterruptedException;
import org.solovyev.android.calculator.errors.FixableErrorsActivity;
import org.solovyev.android.calculator.functions.FunctionsRegistry;
import org.solovyev.android.calculator.jscl.JsclOperation;
import org.solovyev.android.calculator.units.CalculatorNumeralBase;
import org.solovyev.android.calculator.variables.CppVariable;
import org.solovyev.common.msg.ListMessageRegistry;
import org.solovyev.common.msg.Message;
import org.solovyev.common.msg.MessageRegistry;
import org.solovyev.common.msg.MessageType;
import org.solovyev.common.text.Strings;
import org.solovyev.common.units.ConversionException;
import org.solovyev.common.units.Conversions;
import javax.annotation.Nonnull;
import javax.annotation.Nullable;
import java.util.ArrayList;
import java.util.List;
import java.util.concurrent.Executor;
import java.util.concurrent.Executors;
import java.util.concurrent.atomic.AtomicLong;
/**
* User: Solovyev_S
* Date: 20.09.12
* Time: 16:38
*/
public interface Calculator extends CalculatorEventContainer {
public class Calculator implements CalculatorEventListener, SharedPreferences.OnSharedPreferenceChangeListener {
void init(@Nonnull Executor initThread);
/*
**********************************************************************
*
* CALCULATIONS
*
**********************************************************************
*/
void evaluate();
void evaluate(@Nonnull Long sequenceId);
void simplify();
// one minute
private static final long PREFERENCE_CHECK_INTERVAL = 1000L * 60L;
@Nonnull
CalculatorEventData evaluate(@Nonnull JsclOperation operation,
@Nonnull String expression);
private final CalculatorEventContainer calculatorEventContainer = new ListCalculatorEventContainer();
@Nonnull
CalculatorEventData evaluate(@Nonnull JsclOperation operation,
@Nonnull String expression,
long sequenceId);
boolean isCalculateOnFly();
void setCalculateOnFly(boolean calculateOnFly);
/*
**********************************************************************
*
* CONVERSION
*
**********************************************************************
*/
boolean isConversionPossible(@Nonnull Generic generic, @Nonnull NumeralBase from, @Nonnull NumeralBase to);
private final AtomicLong counter = new AtomicLong(CalculatorUtils.FIRST_ID);
@Nonnull
CalculatorEventData convert(@Nonnull Generic generic, @Nonnull NumeralBase to);
/*
**********************************************************************
*
* EVENTS
*
**********************************************************************
*/
@Nonnull
CalculatorEventData fireCalculatorEvent(@Nonnull CalculatorEventType calculatorEventType, @Nullable Object data);
private final ToJsclTextProcessor preprocessor = ToJsclTextProcessor.getInstance();
@Nonnull
CalculatorEventData fireCalculatorEvent(@Nonnull CalculatorEventType calculatorEventType, @Nullable Object data, @Nonnull Object source);
private final Executor calculationsExecutor = Executors.newFixedThreadPool(10);
@Nonnull
CalculatorEventData fireCalculatorEvent(@Nonnull CalculatorEventType calculatorEventType, @Nullable Object data, @Nonnull Long sequenceId);
private final SharedPreferences preferences;
@Nonnull
PreparedExpression prepareExpression(@Nonnull String expression) throws ParseException;
private final Executor eventExecutor;
private volatile boolean calculateOnFly = true;
private volatile long lastPreferenceCheck = 0L;
public Calculator(@Nonnull SharedPreferences preferences, @Nonnull Bus bus, @Nonnull Executor eventExecutor) {
this.preferences = preferences;
this.eventExecutor = eventExecutor;
bus.register(this);
addCalculatorEventListener(this);
preferences.registerOnSharedPreferenceChangeListener(this);
}
@Nonnull
private static String doConversion(@Nonnull Generic generic,
@Nonnull NumeralBase from,
@Nonnull NumeralBase to) throws ConversionException {
final String result;
if (from != to) {
String fromString = generic.toString();
if (!Strings.isEmpty(fromString)) {
try {
fromString = ToJsclTextProcessor.getInstance().process(fromString).getExpression();
} catch (ParseException e) {
// ok, problems while processing occurred
}
}
result = Conversions.doConversion(CalculatorNumeralBase.getConverter(), fromString, CalculatorNumeralBase.valueOf(from), CalculatorNumeralBase.valueOf(to));
} else {
result = generic.toString();
}
return result;
}
@Nonnull
private CalculatorEventData nextEventData() {
long eventId = counter.incrementAndGet();
return CalculatorEventDataImpl.newInstance(eventId, eventId);
}
@Nonnull
private CalculatorEventData nextEventData(@Nonnull Object source) {
long eventId = counter.incrementAndGet();
return CalculatorEventDataImpl.newInstance(eventId, eventId, source);
}
@Nonnull
private CalculatorEventData nextEventData(@Nonnull Long sequenceId) {
long eventId = counter.incrementAndGet();
return CalculatorEventDataImpl.newInstance(eventId, sequenceId);
}
public void evaluate() {
final EditorState viewState = getEditor().getState();
final CalculatorEventData eventData = fireCalculatorEvent(CalculatorEventType.manual_calculation_requested, viewState);
this.evaluate(JsclOperation.numeric, viewState.getTextString(), eventData.getSequenceId());
}
public void simplify() {
final EditorState viewState = getEditor().getState();
final CalculatorEventData eventData = fireCalculatorEvent(CalculatorEventType.manual_calculation_requested, viewState);
this.evaluate(JsclOperation.simplify, viewState.getTextString(), eventData.getSequenceId());
}
@Nonnull
public CalculatorEventData evaluate(@Nonnull final JsclOperation operation,
@Nonnull final String expression) {
final CalculatorEventData eventDataId = nextEventData();
calculationsExecutor.execute(new Runnable() {
@Override
public void run() {
Calculator.this.evaluate(eventDataId.getSequenceId(), operation, expression, null);
}
});
return eventDataId;
}
@Nonnull
public CalculatorEventData evaluate(@Nonnull final JsclOperation operation, @Nonnull final String expression, long sequenceId) {
final CalculatorEventData eventDataId = nextEventData(sequenceId);
calculationsExecutor.execute(new Runnable() {
@Override
public void run() {
Calculator.this.evaluate(eventDataId.getSequenceId(), operation, expression, null);
}
});
return eventDataId;
}
public void init(@Nonnull Executor initThread) {
Locator.getInstance().getEngine().init(initThread);
setCalculateOnFly(Preferences.Calculations.calculateOnFly.getPreference(preferences));
}
public boolean isCalculateOnFly() {
return calculateOnFly;
}
public void setCalculateOnFly(boolean calculateOnFly) {
if (this.calculateOnFly != calculateOnFly) {
this.calculateOnFly = calculateOnFly;
if (this.calculateOnFly) {
evaluate();
}
}
}
@Nonnull
private CalculatorConversionEventData newConversionEventData(@Nonnull Long sequenceId,
@Nonnull Generic value,
@Nonnull NumeralBase from,
@Nonnull NumeralBase to,
@Nonnull DisplayState displayViewState) {
return CalculatorConversionEventDataImpl.newInstance(nextEventData(sequenceId), value, from, to, displayViewState);
}
private void evaluate(@Nonnull Long sequenceId,
@Nonnull JsclOperation operation,
@Nonnull String expression,
@Nullable MessageRegistry mr) {
checkPreferredPreferences();
PreparedExpression preparedExpression = null;
try {
expression = expression.trim();
if (Strings.isEmpty(expression)) {
fireCalculatorEvent(newCalculationEventData(operation, expression, sequenceId), CalculatorEventType.calculation_result, CalculatorOutputImpl.newEmptyOutput(operation));
} else {
preparedExpression = prepareExpression(expression);
final String jsclExpression = preparedExpression.toString();
try {
final MathEngine mathEngine = Locator.getInstance().getEngine().getMathEngine();
final MessageRegistry messageRegistry = new ListMessageRegistry();
Locator.getInstance().getEngine().getMathEngine().setMessageRegistry(messageRegistry);
final Generic result = operation.evaluateGeneric(jsclExpression, mathEngine);
// NOTE: toString() method must be called here as ArithmeticOperationException may occur in it (just to avoid later check!)
result.toString();
if (messageRegistry.hasMessage()) {
final ErrorReporter errorReporter = Locator.getInstance().getErrorReporter();
try {
final List<Message> messages = new ArrayList<Message>();
while (messageRegistry.hasMessage()) {
messages.add(messageRegistry.getMessage());
}
if (!messages.isEmpty()) {
fireCalculatorEvent(newCalculationEventData(operation, expression, sequenceId), CalculatorEventType.calculation_messages, messages);
}
} catch (Throwable e) {
// todo serso: not good but we need proper synchronization
Log.e("Calculator", e.getMessage(), e);
}
}
final CalculatorOutput data = CalculatorOutputImpl.newOutput(operation.getFromProcessor().process(result), operation, result);
fireCalculatorEvent(newCalculationEventData(operation, expression, sequenceId), CalculatorEventType.calculation_result, data);
} catch (AbstractJsclArithmeticException e) {
handleException(sequenceId, operation, expression, mr, new CalculatorEvalException(e, e, jsclExpression));
}
}
} catch (ArithmeticException e) {
handleException(sequenceId, operation, expression, mr, preparedExpression, new ParseException(expression, new CalculatorMessage(CalculatorMessages.msg_001, MessageType.error, e.getMessage())));
} catch (StackOverflowError e) {
handleException(sequenceId, operation, expression, mr, preparedExpression, new ParseException(expression, new CalculatorMessage(CalculatorMessages.msg_002, MessageType.error)));
} catch (jscl.text.ParseException e) {
handleException(sequenceId, operation, expression, mr, preparedExpression, new ParseException(e));
} catch (ParseInterruptedException e) {
// do nothing - we ourselves interrupt the calculations
fireCalculatorEvent(newCalculationEventData(operation, expression, sequenceId), CalculatorEventType.calculation_cancelled, null);
} catch (ParseException e) {
handleException(sequenceId, operation, expression, mr, preparedExpression, e);
}
}
private void checkPreferredPreferences() {
final long currentTime = System.currentTimeMillis();
if (currentTime - lastPreferenceCheck > PREFERENCE_CHECK_INTERVAL) {
lastPreferenceCheck = currentTime;
Locator.getInstance().getPreferenceService().check(false);
}
}
@Nonnull
public PreparedExpression prepareExpression(@Nonnull String expression) throws ParseException {
return preprocessor.process(expression);
}
@Nonnull
private CalculatorEventData newCalculationEventData(@Nonnull JsclOperation operation,
@Nonnull String expression,
@Nonnull Long calculationId) {
return new CalculatorEvaluationEventDataImpl(nextEventData(calculationId), operation, expression);
}
private void handleException(@Nonnull Long sequenceId,
@Nonnull JsclOperation operation,
@Nonnull String expression,
@Nullable MessageRegistry mr,
@Nullable PreparedExpression preparedExpression,
@Nonnull ParseException parseException) {
if (operation == JsclOperation.numeric
&& preparedExpression != null
&& preparedExpression.isExistsUndefinedVar()) {
evaluate(sequenceId, JsclOperation.simplify, expression, mr);
} else {
fireCalculatorEvent(newCalculationEventData(operation, expression, sequenceId), CalculatorEventType.calculation_failed, new CalculatorFailureImpl(parseException));
}
}
private void handleException(@Nonnull Long calculationId,
@Nonnull JsclOperation operation,
@Nonnull String expression,
@Nullable MessageRegistry mr,
@Nonnull CalculatorEvalException evalException) {
if (operation == JsclOperation.numeric && evalException.getCause() instanceof NumeralBaseException) {
evaluate(calculationId, JsclOperation.simplify, expression, mr);
} else {
fireCalculatorEvent(newCalculationEventData(operation, expression, calculationId), CalculatorEventType.calculation_failed, new CalculatorFailureImpl(evalException));
}
}
@Nonnull
public CalculatorEventData convert(@Nonnull final Generic value,
@Nonnull final NumeralBase to) {
final CalculatorEventData eventDataId = nextEventData();
final DisplayState displayViewState = App.getDisplay().getState();
final NumeralBase from = Locator.getInstance().getEngine().getMathEngine().getNumeralBase();
calculationsExecutor.execute(new Runnable() {
@Override
public void run() {
final Long sequenceId = eventDataId.getSequenceId();
fireCalculatorEvent(newConversionEventData(sequenceId, value, from, to, displayViewState), CalculatorEventType.conversion_started, null);
try {
final String result = doConversion(value, from, to);
fireCalculatorEvent(newConversionEventData(sequenceId, value, from, to, displayViewState), CalculatorEventType.conversion_result, result);
} catch (ConversionException e) {
fireCalculatorEvent(newConversionEventData(sequenceId, value, from, to, displayViewState), CalculatorEventType.conversion_failed, new ConversionFailureImpl(e));
}
}
});
return eventDataId;
}
public boolean isConversionPossible(@Nonnull Generic generic, NumeralBase from, @Nonnull NumeralBase to) {
try {
doConversion(generic, from, to);
return true;
} catch (ConversionException e) {
return false;
}
}
public void addCalculatorEventListener(@Nonnull CalculatorEventListener calculatorEventListener) {
calculatorEventContainer.addCalculatorEventListener(calculatorEventListener);
}
public void removeCalculatorEventListener(@Nonnull CalculatorEventListener calculatorEventListener) {
calculatorEventContainer.removeCalculatorEventListener(calculatorEventListener);
}
public void fireCalculatorEvent(@Nonnull final CalculatorEventData calculatorEventData, @Nonnull final CalculatorEventType calculatorEventType, @Nullable final Object data) {
eventExecutor.execute(new Runnable() {
@Override
public void run() {
calculatorEventContainer.fireCalculatorEvent(calculatorEventData, calculatorEventType, data);
}
});
}
@Nonnull
public CalculatorEventData fireCalculatorEvent(@Nonnull final CalculatorEventType calculatorEventType, @Nullable final Object data) {
final CalculatorEventData eventData = nextEventData();
fireCalculatorEvent(eventData, calculatorEventType, data);
return eventData;
}
@Nonnull
public CalculatorEventData fireCalculatorEvent(@Nonnull final CalculatorEventType calculatorEventType, @Nullable final Object data, @Nonnull Object source) {
final CalculatorEventData eventData = nextEventData(source);
fireCalculatorEvent(eventData, calculatorEventType, data);
return eventData;
}
@Subscribe
public void onEditorChanged(@Nonnull Editor.ChangedEvent e) {
if (!calculateOnFly) {
return;
}
if (TextUtils.equals(e.newState.text, e.oldState.text)) {
return;
}
evaluate(JsclOperation.numeric, e.newState.getTextString(), e.newState.sequence);
}
@Subscribe
public void onDisplayChanged(@Nonnull Display.ChangedEvent e) {
final DisplayState newState = e.newState;
if (!newState.valid) {
return;
}
final String text = newState.text;
if (TextUtils.isEmpty(text)) {
return;
}
updateAnsVariable(text);
}
private void updateAnsVariable(@NonNull String value) {
final VariablesRegistry variablesRegistry = Locator.getInstance().getEngine().getVariablesRegistry();
final IConstant variable = variablesRegistry.get(VariablesRegistry.ANS);
final CppVariable.Builder b = variable != null ? CppVariable.builder(variable) : CppVariable.builder(VariablesRegistry.ANS);
b.withValue(value);
b.withSystem(true);
b.withDescription(CalculatorMessages.getBundle().getString(CalculatorMessages.ans_description));
variablesRegistry.add(b.build().toJsclBuilder(), variable);
}
@Subscribe
public void onFunctionAdded(@Nonnull FunctionsRegistry.AddedEvent event) {
evaluate();
}
@Subscribe
public void onFunctionsChanged(@Nonnull FunctionsRegistry.ChangedEvent event) {
evaluate();
}
@Subscribe
public void onFunctionsRemoved(@Nonnull FunctionsRegistry.RemovedEvent event) {
evaluate();
}
@Subscribe
public void onVariableRemoved(@NonNull VariablesRegistry.RemovedEvent e) {
evaluate();
}
@Subscribe
public void onVariableAdded(@NonNull VariablesRegistry.AddedEvent e) {
evaluate();
}
@Subscribe
public void onVariableChanged(@NonNull VariablesRegistry.ChangedEvent e) {
if (!e.newVariable.getName().equals(VariablesRegistry.ANS)) {
evaluate();
}
}
@Nonnull
private Editor getEditor() {
return App.getEditor();
}
@Override
public void onCalculatorEvent(@Nonnull CalculatorEventData calculatorEventData, @Nonnull CalculatorEventType calculatorEventType, @Nullable Object data) {
switch (calculatorEventType) {
case calculation_messages:
FixableErrorsActivity.show(App.getApplication(), (List<Message>) data);
break;
case show_history:
CalculatorActivityLauncher.showHistory(App.getApplication());
break;
case show_history_detached:
CalculatorActivityLauncher.showHistory(App.getApplication(), true);
break;
case show_functions:
CalculatorActivityLauncher.showFunctions(App.getApplication());
break;
case show_functions_detached:
CalculatorActivityLauncher.showFunctions(App.getApplication(), true);
break;
case show_operators:
CalculatorActivityLauncher.showOperators(App.getApplication());
break;
case show_operators_detached:
CalculatorActivityLauncher.showOperators(App.getApplication(), true);
break;
case show_vars:
CalculatorActivityLauncher.showVars(App.getApplication());
break;
case show_vars_detached:
CalculatorActivityLauncher.showVars(App.getApplication(), true);
break;
case show_settings:
CalculatorActivityLauncher.showSettings(App.getApplication());
break;
case show_settings_detached:
CalculatorActivityLauncher.showSettings(App.getApplication(), true);
break;
case show_settings_widget:
CalculatorActivityLauncher.showWidgetSettings(App.getApplication(), true);
break;
case show_like_dialog:
CalculatorActivityLauncher.likeButtonPressed(App.getApplication());
break;
case open_app:
CalculatorActivityLauncher.openApp(App.getApplication());
break;
}
}
@Override
public void onSharedPreferenceChanged(@Nonnull SharedPreferences prefs, @Nonnull String key) {
if (Preferences.Calculations.calculateOnFly.getKey().equals(key)) {
setCalculateOnFly(Preferences.Calculations.calculateOnFly.getPreference(prefs));
}
}
}

View File

@ -1,526 +0,0 @@
/*
* Copyright 2013 serso aka se.solovyev
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
* ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
* Contact details
*
* Email: se.solovyev@gmail.com
* Site: http://se.solovyev.org
*/
package org.solovyev.android.calculator;
import android.support.annotation.NonNull;
import android.text.TextUtils;
import android.util.Log;
import com.squareup.otto.Bus;
import com.squareup.otto.Subscribe;
import jscl.AbstractJsclArithmeticException;
import jscl.MathEngine;
import jscl.NumeralBase;
import jscl.NumeralBaseException;
import jscl.math.Generic;
import jscl.math.function.IConstant;
import jscl.text.ParseInterruptedException;
import org.solovyev.android.calculator.functions.FunctionsRegistry;
import org.solovyev.android.calculator.jscl.JsclOperation;
import org.solovyev.android.calculator.units.CalculatorNumeralBase;
import org.solovyev.android.calculator.variables.CppVariable;
import org.solovyev.common.msg.ListMessageRegistry;
import org.solovyev.common.msg.Message;
import org.solovyev.common.msg.MessageRegistry;
import org.solovyev.common.msg.MessageType;
import org.solovyev.common.text.Strings;
import org.solovyev.common.units.ConversionException;
import org.solovyev.common.units.Conversions;
import javax.annotation.Nonnull;
import javax.annotation.Nullable;
import java.util.ArrayList;
import java.util.List;
import java.util.concurrent.Executor;
import java.util.concurrent.Executors;
import java.util.concurrent.atomic.AtomicLong;
public class CalculatorImpl implements Calculator {
// one minute
private static final long PREFERENCE_CHECK_INTERVAL = 1000L * 60L;
@Nonnull
private final CalculatorEventContainer calculatorEventContainer = new ListCalculatorEventContainer();
@Nonnull
private final AtomicLong counter = new AtomicLong(CalculatorUtils.FIRST_ID);
@Nonnull
private final ToJsclTextProcessor preprocessor = ToJsclTextProcessor.getInstance();
@Nonnull
private final Executor calculationsExecutor = Executors.newFixedThreadPool(10);
@Nonnull
private final Executor eventExecutor;
private volatile boolean calculateOnFly = true;
private volatile long lastPreferenceCheck = 0L;
public CalculatorImpl(@Nonnull Bus bus, @Nonnull Executor eventExecutor) {
this.eventExecutor = eventExecutor;
bus.register(this);
}
@Nonnull
private static String doConversion(@Nonnull Generic generic,
@Nonnull NumeralBase from,
@Nonnull NumeralBase to) throws ConversionException {
final String result;
if (from != to) {
String fromString = generic.toString();
if (!Strings.isEmpty(fromString)) {
try {
fromString = ToJsclTextProcessor.getInstance().process(fromString).getExpression();
} catch (ParseException e) {
// ok, problems while processing occurred
}
}
result = Conversions.doConversion(CalculatorNumeralBase.getConverter(), fromString, CalculatorNumeralBase.valueOf(from), CalculatorNumeralBase.valueOf(to));
} else {
result = generic.toString();
}
return result;
}
@Nonnull
private CalculatorEventData nextEventData() {
long eventId = counter.incrementAndGet();
return CalculatorEventDataImpl.newInstance(eventId, eventId);
}
@Nonnull
private CalculatorEventData nextEventData(@Nonnull Object source) {
long eventId = counter.incrementAndGet();
return CalculatorEventDataImpl.newInstance(eventId, eventId, source);
}
@Nonnull
private CalculatorEventData nextEventData(@Nonnull Long sequenceId) {
long eventId = counter.incrementAndGet();
return CalculatorEventDataImpl.newInstance(eventId, sequenceId);
}
@Override
public void evaluate() {
final EditorState viewState = getEditor().getState();
final CalculatorEventData eventData = fireCalculatorEvent(CalculatorEventType.manual_calculation_requested, viewState);
this.evaluate(JsclOperation.numeric, viewState.getTextString(), eventData.getSequenceId());
}
@Override
public void evaluate(@Nonnull Long sequenceId) {
final EditorState viewState = getEditor().getState();
fireCalculatorEvent(CalculatorEventType.manual_calculation_requested, viewState, sequenceId);
this.evaluate(JsclOperation.numeric, viewState.getTextString(), sequenceId);
}
@Override
public void simplify() {
final EditorState viewState = getEditor().getState();
final CalculatorEventData eventData = fireCalculatorEvent(CalculatorEventType.manual_calculation_requested, viewState);
this.evaluate(JsclOperation.simplify, viewState.getTextString(), eventData.getSequenceId());
}
@Nonnull
@Override
public CalculatorEventData evaluate(@Nonnull final JsclOperation operation,
@Nonnull final String expression) {
final CalculatorEventData eventDataId = nextEventData();
calculationsExecutor.execute(new Runnable() {
@Override
public void run() {
CalculatorImpl.this.evaluate(eventDataId.getSequenceId(), operation, expression, null);
}
});
return eventDataId;
}
@Nonnull
@Override
public CalculatorEventData evaluate(@Nonnull final JsclOperation operation, @Nonnull final String expression, long sequenceId) {
final CalculatorEventData eventDataId = nextEventData(sequenceId);
calculationsExecutor.execute(new Runnable() {
@Override
public void run() {
CalculatorImpl.this.evaluate(eventDataId.getSequenceId(), operation, expression, null);
}
});
return eventDataId;
}
@Override
public void init(@Nonnull Executor initThread) {
Locator.getInstance().getEngine().init(initThread);
}
@Override
public boolean isCalculateOnFly() {
return calculateOnFly;
}
@Override
public void setCalculateOnFly(boolean calculateOnFly) {
if (this.calculateOnFly != calculateOnFly) {
this.calculateOnFly = calculateOnFly;
if (this.calculateOnFly) {
evaluate();
}
}
}
@Nonnull
private CalculatorConversionEventData newConversionEventData(@Nonnull Long sequenceId,
@Nonnull Generic value,
@Nonnull NumeralBase from,
@Nonnull NumeralBase to,
@Nonnull DisplayState displayViewState) {
return CalculatorConversionEventDataImpl.newInstance(nextEventData(sequenceId), value, from, to, displayViewState);
}
private void evaluate(@Nonnull Long sequenceId,
@Nonnull JsclOperation operation,
@Nonnull String expression,
@Nullable MessageRegistry mr) {
checkPreferredPreferences();
PreparedExpression preparedExpression = null;
try {
expression = expression.trim();
if (Strings.isEmpty(expression)) {
fireCalculatorEvent(newCalculationEventData(operation, expression, sequenceId), CalculatorEventType.calculation_result, CalculatorOutputImpl.newEmptyOutput(operation));
} else {
preparedExpression = prepareExpression(expression);
final String jsclExpression = preparedExpression.toString();
try {
final MathEngine mathEngine = Locator.getInstance().getEngine().getMathEngine();
final MessageRegistry messageRegistry = new ListMessageRegistry();
Locator.getInstance().getEngine().getMathEngine().setMessageRegistry(messageRegistry);
final Generic result = operation.evaluateGeneric(jsclExpression, mathEngine);
// NOTE: toString() method must be called here as ArithmeticOperationException may occur in it (just to avoid later check!)
result.toString();
if (messageRegistry.hasMessage()) {
final ErrorReporter errorReporter = Locator.getInstance().getErrorReporter();
try {
final List<Message> messages = new ArrayList<Message>();
while (messageRegistry.hasMessage()) {
messages.add(messageRegistry.getMessage());
}
if (!messages.isEmpty()) {
fireCalculatorEvent(newCalculationEventData(operation, expression, sequenceId), CalculatorEventType.calculation_messages, messages);
}
} catch (Throwable e) {
// todo serso: not good but we need proper synchronization
Log.e("Calculator", e.getMessage(), e);
}
}
final CalculatorOutput data = CalculatorOutputImpl.newOutput(operation.getFromProcessor().process(result), operation, result);
fireCalculatorEvent(newCalculationEventData(operation, expression, sequenceId), CalculatorEventType.calculation_result, data);
} catch (AbstractJsclArithmeticException e) {
handleException(sequenceId, operation, expression, mr, new CalculatorEvalException(e, e, jsclExpression));
}
}
} catch (ArithmeticException e) {
handleException(sequenceId, operation, expression, mr, preparedExpression, new ParseException(expression, new CalculatorMessage(CalculatorMessages.msg_001, MessageType.error, e.getMessage())));
} catch (StackOverflowError e) {
handleException(sequenceId, operation, expression, mr, preparedExpression, new ParseException(expression, new CalculatorMessage(CalculatorMessages.msg_002, MessageType.error)));
} catch (jscl.text.ParseException e) {
handleException(sequenceId, operation, expression, mr, preparedExpression, new ParseException(e));
} catch (ParseInterruptedException e) {
// do nothing - we ourselves interrupt the calculations
fireCalculatorEvent(newCalculationEventData(operation, expression, sequenceId), CalculatorEventType.calculation_cancelled, null);
} catch (ParseException e) {
handleException(sequenceId, operation, expression, mr, preparedExpression, e);
}
}
private void checkPreferredPreferences() {
final long currentTime = System.currentTimeMillis();
if (currentTime - lastPreferenceCheck > PREFERENCE_CHECK_INTERVAL) {
lastPreferenceCheck = currentTime;
Locator.getInstance().getPreferenceService().check(false);
}
}
@Nonnull
@Override
public PreparedExpression prepareExpression(@Nonnull String expression) throws ParseException {
return preprocessor.process(expression);
}
@Nonnull
private CalculatorEventData newCalculationEventData(@Nonnull JsclOperation operation,
@Nonnull String expression,
@Nonnull Long calculationId) {
return new CalculatorEvaluationEventDataImpl(nextEventData(calculationId), operation, expression);
}
private void handleException(@Nonnull Long sequenceId,
@Nonnull JsclOperation operation,
@Nonnull String expression,
@Nullable MessageRegistry mr,
@Nullable PreparedExpression preparedExpression,
@Nonnull ParseException parseException) {
if (operation == JsclOperation.numeric
&& preparedExpression != null
&& preparedExpression.isExistsUndefinedVar()) {
evaluate(sequenceId, JsclOperation.simplify, expression, mr);
} else {
fireCalculatorEvent(newCalculationEventData(operation, expression, sequenceId), CalculatorEventType.calculation_failed, new CalculatorFailureImpl(parseException));
}
}
/*
**********************************************************************
*
* CONVERSION
*
**********************************************************************
*/
private void handleException(@Nonnull Long calculationId,
@Nonnull JsclOperation operation,
@Nonnull String expression,
@Nullable MessageRegistry mr,
@Nonnull CalculatorEvalException evalException) {
if (operation == JsclOperation.numeric && evalException.getCause() instanceof NumeralBaseException) {
evaluate(calculationId, JsclOperation.simplify, expression, mr);
} else {
fireCalculatorEvent(newCalculationEventData(operation, expression, calculationId), CalculatorEventType.calculation_failed, new CalculatorFailureImpl(evalException));
}
}
@Nonnull
@Override
public CalculatorEventData convert(@Nonnull final Generic value,
@Nonnull final NumeralBase to) {
final CalculatorEventData eventDataId = nextEventData();
final DisplayState displayViewState = App.getDisplay().getState();
final NumeralBase from = Locator.getInstance().getEngine().getMathEngine().getNumeralBase();
calculationsExecutor.execute(new Runnable() {
@Override
public void run() {
final Long sequenceId = eventDataId.getSequenceId();
fireCalculatorEvent(newConversionEventData(sequenceId, value, from, to, displayViewState), CalculatorEventType.conversion_started, null);
try {
final String result = doConversion(value, from, to);
fireCalculatorEvent(newConversionEventData(sequenceId, value, from, to, displayViewState), CalculatorEventType.conversion_result, result);
} catch (ConversionException e) {
fireCalculatorEvent(newConversionEventData(sequenceId, value, from, to, displayViewState), CalculatorEventType.conversion_failed, new ConversionFailureImpl(e));
}
}
});
return eventDataId;
}
@Override
public boolean isConversionPossible(@Nonnull Generic generic, NumeralBase from, @Nonnull NumeralBase to) {
try {
doConversion(generic, from, to);
return true;
} catch (ConversionException e) {
return false;
}
}
/*
**********************************************************************
*
* EVENTS
*
**********************************************************************
*/
@Override
public void addCalculatorEventListener(@Nonnull CalculatorEventListener calculatorEventListener) {
calculatorEventContainer.addCalculatorEventListener(calculatorEventListener);
}
@Override
public void removeCalculatorEventListener(@Nonnull CalculatorEventListener calculatorEventListener) {
calculatorEventContainer.removeCalculatorEventListener(calculatorEventListener);
}
@Override
public void fireCalculatorEvent(@Nonnull final CalculatorEventData calculatorEventData, @Nonnull final CalculatorEventType calculatorEventType, @Nullable final Object data) {
eventExecutor.execute(new Runnable() {
@Override
public void run() {
calculatorEventContainer.fireCalculatorEvent(calculatorEventData, calculatorEventType, data);
}
});
}
@Override
public void fireCalculatorEvents(@Nonnull final List<CalculatorEvent> calculatorEvents) {
eventExecutor.execute(new Runnable() {
@Override
public void run() {
calculatorEventContainer.fireCalculatorEvents(calculatorEvents);
}
});
}
@Nonnull
@Override
public CalculatorEventData fireCalculatorEvent(@Nonnull final CalculatorEventType calculatorEventType, @Nullable final Object data) {
final CalculatorEventData eventData = nextEventData();
fireCalculatorEvent(eventData, calculatorEventType, data);
return eventData;
}
@Nonnull
@Override
public CalculatorEventData fireCalculatorEvent(@Nonnull final CalculatorEventType calculatorEventType, @Nullable final Object data, @Nonnull Object source) {
final CalculatorEventData eventData = nextEventData(source);
fireCalculatorEvent(eventData, calculatorEventType, data);
return eventData;
}
@Nonnull
@Override
public CalculatorEventData fireCalculatorEvent(@Nonnull final CalculatorEventType calculatorEventType, @Nullable final Object data, @Nonnull Long sequenceId) {
final CalculatorEventData eventData = nextEventData(sequenceId);
fireCalculatorEvent(eventData, calculatorEventType, data);
return eventData;
}
@Subscribe
public void onEditorChanged(@Nonnull Editor.ChangedEvent e) {
if (!calculateOnFly) {
return;
}
if (TextUtils.equals(e.newState.text, e.oldState.text)) {
return;
}
evaluate(JsclOperation.numeric, e.newState.getTextString(), e.newState.sequence);
}
@Subscribe
public void onDisplayChanged(@Nonnull Display.ChangedEvent e) {
final DisplayState newState = e.newState;
if (!newState.valid) {
return;
}
final String text = newState.text;
if (TextUtils.isEmpty(text)) {
return;
}
updateAnsVariable(text);
}
private void updateAnsVariable(@NonNull String value) {
final VariablesRegistry variablesRegistry = Locator.getInstance().getEngine().getVariablesRegistry();
final IConstant variable = variablesRegistry.get(VariablesRegistry.ANS);
final CppVariable.Builder b = variable != null ? CppVariable.builder(variable) : CppVariable.builder(VariablesRegistry.ANS);
b.withValue(value);
b.withSystem(true);
b.withDescription(CalculatorMessages.getBundle().getString(CalculatorMessages.ans_description));
variablesRegistry.add(b.build().toJsclBuilder(), variable);
}
@Subscribe
public void onFunctionAdded(@Nonnull FunctionsRegistry.AddedEvent event) {
evaluate();
}
@Subscribe
public void onFunctionsChanged(@Nonnull FunctionsRegistry.ChangedEvent event) {
evaluate();
}
@Subscribe
public void onFunctionsRemoved(@Nonnull FunctionsRegistry.RemovedEvent event) {
evaluate();
}
@Subscribe
public void onVariableRemoved(@NonNull VariablesRegistry.RemovedEvent e) {
evaluate();
}
@Subscribe
public void onVariableAdded(@NonNull VariablesRegistry.AddedEvent e) {
evaluate();
}
@Subscribe
public void onVariableChanged(@NonNull VariablesRegistry.ChangedEvent e) {
if (!e.newVariable.getName().equals(VariablesRegistry.ANS)) {
evaluate();
}
}
@Nonnull
private Editor getEditor() {
return App.getEditor();
}
}

View File

@ -30,8 +30,8 @@ import jscl.math.function.IFunction;
import org.simpleframework.xml.Serializer;
import org.simpleframework.xml.core.Persister;
import org.solovyev.android.Check;
import org.solovyev.android.calculator.entities.BaseEntitiesRegistry;
import org.solovyev.android.calculator.Calculator;
import org.solovyev.android.calculator.entities.BaseEntitiesRegistry;
import org.solovyev.android.calculator.entities.Category;
import org.solovyev.android.calculator.entities.Entities;
import org.solovyev.android.calculator.json.Json;

View File

@ -25,26 +25,18 @@ package org.solovyev.android.calculator.plot;
import com.google.common.base.Predicate;
import com.google.common.collect.Iterables;
import com.google.common.collect.Lists;
import jscl.math.Generic;
import jscl.math.function.Constant;
import org.solovyev.android.calculator.Calculator;
import org.solovyev.android.calculator.CalculatorEventType;
import org.solovyev.android.calculator.CalculatorUtils;
import javax.annotation.Nonnull;
import javax.annotation.Nullable;
import java.util.ArrayList;
import java.util.Collections;
import java.util.List;
import javax.annotation.Nonnull;
import javax.annotation.Nullable;
import jscl.math.Generic;
import jscl.math.function.Constant;
/**
* User: serso
* Date: 1/12/13
* Time: 8:42 PM
*/
public class CalculatorPlotterImpl implements CalculatorPlotter {
@Nonnull

View File

@ -22,6 +22,7 @@
package org.solovyev.android.calculator;
import android.content.SharedPreferences;
import com.squareup.otto.Bus;
import org.mockito.Mockito;
import org.solovyev.android.calculator.plot.CalculatorPlotter;
@ -36,7 +37,7 @@ import java.util.concurrent.Executor;
public class AbstractCalculatorTest {
protected void setUp() throws Exception {
Locator.getInstance().init(new CalculatorImpl(Mockito.mock(Bus.class), Mockito.mock(Executor.class)), CalculatorTestUtils.newCalculatorEngine(), Mockito.mock(CalculatorNotifier.class), new SystemErrorReporter(), Mockito.mock(PreferredPreferences.class), Mockito.mock(Keyboard.class), Mockito.mock(CalculatorPlotter.class));
Locator.getInstance().init(new Calculator(Mockito.mock(SharedPreferences.class), Mockito.mock(Bus.class), Mockito.mock(Executor.class)), CalculatorTestUtils.newCalculatorEngine(), Mockito.mock(CalculatorNotifier.class), new SystemErrorReporter(), Mockito.mock(PreferredPreferences.class), Mockito.mock(Keyboard.class), Mockito.mock(CalculatorPlotter.class));
Locator.getInstance().getEngine().init(new Executor() {
@Override
public void execute(Runnable command) {

View File

@ -30,7 +30,7 @@ import org.junit.Test;
* Date: 15.10.12
* Time: 12:30
*/
public class CalculatorImplTest extends AbstractCalculatorTest {
public class CalculatorTest extends AbstractCalculatorTest {
@Before
public void setUp() throws Exception {

View File

@ -23,10 +23,10 @@
package org.solovyev.android.calculator;
import android.content.Context;
import android.content.SharedPreferences;
import com.squareup.otto.Bus;
import jscl.JsclMathEngine;
import org.junit.Assert;
import org.mockito.Mockito;
import org.robolectric.fakes.RoboSharedPreferences;
import org.solovyev.android.calculator.functions.FunctionsRegistry;
import org.solovyev.android.calculator.jscl.JsclOperation;
@ -45,6 +45,8 @@ import java.util.concurrent.CountDownLatch;
import java.util.concurrent.Executor;
import java.util.concurrent.TimeUnit;
import static org.mockito.Mockito.mock;
/**
* User: serso
* Date: 10/7/12
@ -57,7 +59,7 @@ public class CalculatorTestUtils {
public static void staticSetUp() throws Exception {
App.init(new CalculatorApplication(), new Languages(new RoboSharedPreferences(new HashMap<String, Map<String, Object>>(), "test", 0)));
Locator.getInstance().init(new CalculatorImpl(Mockito.mock(Bus.class), Mockito.mock(Executor.class)), newCalculatorEngine(), Mockito.mock(CalculatorNotifier.class), new SystemErrorReporter(), Mockito.mock(PreferredPreferences.class), Mockito.mock(Keyboard.class), Mockito.mock(CalculatorPlotter.class));
Locator.getInstance().init(new Calculator(mock(SharedPreferences.class), mock(Bus.class), mock(Executor.class)), newCalculatorEngine(), mock(CalculatorNotifier.class), new SystemErrorReporter(), mock(PreferredPreferences.class), mock(Keyboard.class), mock(CalculatorPlotter.class));
Locator.getInstance().getEngine().init(new Executor() {
@Override
public void execute(Runnable command) {
@ -72,7 +74,7 @@ public class CalculatorTestUtils {
}
public static void staticSetUp(@Nullable Context context) throws Exception {
Locator.getInstance().init(new CalculatorImpl(Mockito.mock(Bus.class), Mockito.mock(Executor.class)), newCalculatorEngine(), Mockito.mock(CalculatorNotifier.class), new SystemErrorReporter(), Mockito.mock(PreferredPreferences.class), Mockito.mock(Keyboard.class), Mockito.mock(CalculatorPlotter.class));
Locator.getInstance().init(new Calculator(mock(SharedPreferences.class), mock(Bus.class), mock(Executor.class)), newCalculatorEngine(), mock(CalculatorNotifier.class), new SystemErrorReporter(), mock(PreferredPreferences.class), mock(Keyboard.class), mock(CalculatorPlotter.class));
Locator.getInstance().getEngine().init(new Executor() {
@Override
public void execute(Runnable command) {