Custom function support + refactor of vars registry
This commit is contained in:
Sergey Solovyev
@@ -78,15 +78,15 @@
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<string name="c_var.already.exists">¡Ya existe una variable con el mismo nombre!</string>
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<string name="c_name.is.not.valid">El nombre de la Constante no es válido: el nombre debe comenzar con una letra,puede contener letras, dígitos y líneas.</string>
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<string name="c_sys.var.cannot.be.changed">¡Una Variable de Sistema no puede ser cambiada!</string>
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<string name="c_pi_description">Ratio de la circunferencia del círculo a su diámetro</string>
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<string name="c_e_description">Número real único como el valor de la derivada (pendiente de la línea tangente) de la función f(x) = e^x en el punto x = 0 es igual a 1</string>
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<string name="c_i_description">Unidad imaginaria, definida como i^2 = −1</string>
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<string name="c_c_description">Velocidad de la luz en vacío, m·s^-1</string>
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<string name="c_g_description">La constante gravitatoria es una constante física empírica consistente en el cálculo de la atracción gravitatoria entre objetos con masa, m^3·kg^−1·s^−2</string>
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<string name="c_h_description">Constante física que refleja los tamaños de energía cuántica en mecánica cuántica, J·s</string>
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<string name="c_h_reduced_description">Constante Planck reducida, J·s</string>
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<string name="c_nan_description">No es un número</string>
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<string name="c_infinity_description">Infinito</string>
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<string name="c_var_description_pi">Ratio de la circunferencia del círculo a su diámetro</string>
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<string name="c_var_description_e">Número real único como el valor de la derivada (pendiente de la línea tangente) de la función f(x) = e^x en el punto x = 0 es igual a 1</string>
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<string name="c_var_description_i">Unidad imaginaria, definida como i^2 = −1</string>
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<string name="c_var_description_c">Velocidad de la luz en vacío, m·s^-1</string>
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<string name="c_var_description_G">La constante gravitatoria es una constante física empírica consistente en el cálculo de la atracción gravitatoria entre objetos con masa, m^3·kg^−1·s^−2</string>
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<string name="c_var_description_h">Constante física que refleja los tamaños de energía cuántica en mecánica cuántica, J·s</string>
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<string name="c_var_description_h_reduced">Constante Planck reducida, J·s</string>
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<string name="c_var_description_nan">No es un número</string>
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<string name="c_var_description_inf">Infinito</string>
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<string name="c_calc_editor_hint">Introducir nuevo cálculo</string>
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<string name="c_press_to_copy">Pulsar para copiar</string>
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<string name="c_continue">Continuar</string>
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@@ -72,15 +72,15 @@
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<string name="c_name.is.not.valid">Il nome della costante non è valido: il nome deve iniziare con una lettera, può contenere lettere, cifre e underscore.</string>
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<string name="c_sys.var.cannot.be.changed">La variabile di sistema non può essere cambiata!</string>
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<string name="c_pi_description">Rapporto tra la circonferenza di qualsiasi cerchio col suo diametro</string>
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<string name="c_e_description">Unico numero reale tale che il valore della derivata (pendenza della retta tangente) della funzione f(x) = e^x nel punto x = 0 che è uguale a 1</string>
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<string name="c_i_description">Unità immaginaria, definita come i^2 = -1</string>
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<string name="c_c_description">Velocità della luce nel vuoto, m·s^-1</string>
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<string name="c_g_description">La costante gravitazionale è una costante fisica empirica coinvolta nel calcolo dell\' attrazione gravitazionale tra gli oggetti con massa, m^3·kg^−1·s^−2</string>
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<string name="c_h_description">Costante fisica che riflette la dimensione dei quanti di energia in meccanica quantistica, J·s</string>
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<string name="c_h_reduced_description">Costante di riduzione di Planck, J·s</string>
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<string name="c_nan_description">Non è un numero</string>
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<string name="c_infinity_description">Infinito</string>
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<string name="c_var_description_pi">Rapporto tra la circonferenza di qualsiasi cerchio col suo diametro</string>
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<string name="c_var_description_e">Unico numero reale tale che il valore della derivata (pendenza della retta tangente) della funzione f(x) = e^x nel punto x = 0 che è uguale a 1</string>
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<string name="c_var_description_i">Unità immaginaria, definita come i^2 = -1</string>
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<string name="c_var_description_c">Velocità della luce nel vuoto, m·s^-1</string>
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<string name="c_var_description_G">La costante gravitazionale è una costante fisica empirica coinvolta nel calcolo dell\' attrazione gravitazionale tra gli oggetti con massa, m^3·kg^−1·s^−2</string>
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<string name="c_var_description_h">Costante fisica che riflette la dimensione dei quanti di energia in meccanica quantistica, J·s</string>
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<string name="c_var_description_h_reduced">Costante di riduzione di Planck, J·s</string>
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<string name="c_var_description_nan">Non è un numero</string>
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<string name="c_var_description_inf">Infinito</string>
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<string name="c_calc_editor_hint">Inserisci una nuova espressione</string>
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<string name="c_press_to_copy">Premi per copiare</string>
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@@ -71,15 +71,16 @@
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<string name="c_name.is.not.valid">Имя переменной не валидно: им ядолжно начинаться с буквы, может содержать буквы, цифры и знак подчёркивания.</string>
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<string name="c_sys.var.cannot.be.changed">Системная переменная не может быть изменена!</string>
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<string name="c_pi_description">Отношение длины окружности к диаметру</string>
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<string name="c_e_description">Вещественное число, такое что производная функции f(x) = e^x в точке x = 0 равно 1</string>
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<string name="c_i_description">Мнимая единица, определённая как i^2 = −1</string>
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<string name="c_c_description">Скорость света в вакууме, м·с^-1</string>
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<string name="c_g_description">Гравитационная постоянная, с^3·кг^−1·с^−2</string>
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<string name="c_h_description">Постоянная Планка - коэффициент, связывающий величину энергии электромагнитного излучения с его частотой, Дж·с</string>
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<string name="c_h_reduced_description">Приведённая постоянная Планка, Дж·с</string>
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<string name="c_nan_description">Не число</string>
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<string name="c_infinity_description">Бесконечность</string>
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<string name="c_var_description_pi">Отношение длины окружности к диаметру. Внимание: эта постоянная зависит от единиц измерения углов => rad: 3.14, deg: 180.0</string>
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<string name="c_var_description_PI">Отношение длины окружности к диаметру. Внимание: эта постоянная не зависит от единиц измерения углов => rad: 3.14, rad: 3.14</string>
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<string name="c_var_description_e">Вещественное число, такое что производная функции f(x) = e^x в точке x = 0 равно 1</string>
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<string name="c_var_description_i">Мнимая единица, определённая как i^2 = −1</string>
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<string name="c_var_description_c">Скорость света в вакууме, м·с^-1</string>
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<string name="c_var_description_G">Гравитационная постоянная, с^3·кг^−1·с^−2</string>
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<string name="c_var_description_h">Постоянная Планка - коэффициент, связывающий величину энергии электромагнитного излучения с его частотой, Дж·с</string>
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<string name="c_var_description_h_reduced">Приведённая постоянная Планка, Дж·с</string>
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<string name="c_var_description_nan">Не число</string>
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<string name="c_var_description_inf">Бесконечность</string>
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<string name="c_calc_editor_hint">Введите новое выражение</string>
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<string name="c_continue">Продолжить</string>
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<string name="c_press_to_copy">Нажмите для копирования</string>
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@@ -27,6 +27,7 @@
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<string name="p_calc_round_result_key">org.solovyev.android.calculator.CalculatorModel_round_result</string>
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<string name="p_calc_round_result">true</string>
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<string name="p_calc_functions">org.solovyev.android.calculator.CalculatorModel_functions</string>
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<string name="p_calc_vars">org.solovyev.android.calculator.CalculatorModel_vars</string>
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<string name="p_calc_history">org.solovyev.android.calculator.CalculatorModel_history</string>
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@@ -74,15 +74,16 @@
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<string name="c_name.is.not.valid">Name of constant is not valid: name must start with letter, can contain letters, digits and underscore.</string>
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<string name="c_sys.var.cannot.be.changed">System variable cannot be changed!</string>
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<string name="c_pi_description">Ratio of any circle\'s circumference to its diameter</string>
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<string name="c_e_description">Unique real number such that the value of the derivative (slope of the tangent line) of the function f(x) = e^x at the point x = 0 is equal to 1</string>
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<string name="c_i_description">Imaginary unit, defined such that i^2 = −1</string>
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<string name="c_c_description">Speed of light in vacuum, m·s^-1</string>
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<string name="c_g_description">The gravitational constant is an empirical physical constant involved in the calculation of the gravitational attraction between objects with mass, m^3·kg^−1·s^−2</string>
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<string name="c_h_description">Physical constant reflecting the sizes of energy quanta in quantum mechanics, J·s</string>
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<string name="c_h_reduced_description">Reduced Planck constant, J·s</string>
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<string name="c_nan_description">Not a number</string>
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<string name="c_infinity_description">Infinity</string>
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<string name="c_var_description_pi">Ratio of any circle\'s circumference to its diameter. Note: this constant is degree unit dependent => rad: 3.14, deg: 180.0</string>
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<string name="c_var_description_PI">Ratio of any circle\'s circumference to its diameter. Note: this constant is degree unit independent => rad: 3.14, rad: 3.14</string>
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<string name="c_var_description_e">Unique real number such that the value of the derivative (slope of the tangent line) of the function f(x) = e^x at the point x = 0 is equal to 1</string>
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<string name="c_var_description_i">Imaginary unit, defined such that i^2 = −1</string>
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<string name="c_var_description_c">Speed of light in vacuum, m·s^-1</string>
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<string name="c_var_description_G">The gravitational constant is an empirical physical constant involved in the calculation of the gravitational attraction between objects with mass, m^3·kg^−1·s^−2</string>
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<string name="c_var_description_h">Physical constant reflecting the sizes of energy quanta in quantum mechanics, J·s</string>
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<string name="c_var_description_h_reduced">Reduced Planck constant, J·s</string>
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<string name="c_var_description_nan">Not a number</string>
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<string name="c_var_description_inf">Infinity</string>
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<string name="c_calc_editor_hint">Enter new expression</string>
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<string name="c_press_to_copy">Press to copy</string>
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