mirror of
https://github.com/thepaperpilot/Planar-Pioneers.git
synced 2024-11-25 01:41:44 +00:00
Updated formula typing for non-invertible params in invertible formulas
This commit is contained in:
parent
a4d6c2e844
commit
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2 changed files with 258 additions and 214 deletions
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@ -6,7 +6,6 @@ import { computed, ComputedRef, ref, Ref, unref } from "vue";
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// eslint-disable-next-line @typescript-eslint/no-explicit-any
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export type GenericFormula = Formula<any>;
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export type FormulaSource = ProcessedComputable<DecimalSource> | GenericFormula;
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export type InvertibleFormulaSource = ProcessedComputable<DecimalSource> | InvertibleFormula;
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export type InvertibleFormula = GenericFormula & {
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invert: (value: DecimalSource) => DecimalSource;
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};
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@ -938,7 +937,7 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
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* @param value The constant value for this formula.
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*/
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public static constant(
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value: InvertibleFormulaSource
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value: ProcessedComputable<DecimalSource>
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): InvertibleFormula & IntegrableFormula & InvertibleIntegralFormula {
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return new Formula({ inputs: [value] }) as InvertibleFormula;
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}
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@ -1045,7 +1044,7 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
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return new Formula({ inputs: [value], evaluate: Decimal.abs });
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}
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public static neg(value: InvertibleFormulaSource): InvertibleFormula & IntegrableFormula;
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public static neg<T extends GenericFormula>(value: T): Omit<T, "invertIntegral">;
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public static neg(value: FormulaSource): GenericFormula;
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public static neg(value: FormulaSource) {
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return new Formula({
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@ -1055,9 +1054,13 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
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integrate: integrateNeg
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});
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}
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public static negate<T extends GenericFormula>(value: T): Omit<T, "invertIntegral">;
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public static negate(value: FormulaSource): GenericFormula;
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public static negate(value: FormulaSource) {
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return Formula.neg(value);
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}
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public static negated<T extends GenericFormula>(value: T): Omit<T, "invertIntegral">;
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public static negated(value: FormulaSource): GenericFormula;
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public static negated(value: FormulaSource) {
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return Formula.neg(value);
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}
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@ -1085,10 +1088,8 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
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return new Formula({ inputs: [value], evaluate: Decimal.trunc });
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}
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public static add(
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value: InvertibleFormulaSource,
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other: InvertibleFormulaSource
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): InvertibleFormula & IntegrableFormula & InvertibleIntegralFormula;
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public static add<T extends GenericFormula>(value: T, other: FormulaSource): T;
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public static add<T extends GenericFormula>(value: FormulaSource, other: T): T;
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public static add(value: FormulaSource, other: FormulaSource): GenericFormula;
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public static add(value: FormulaSource, other: FormulaSource) {
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return new Formula({
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@ -1099,14 +1100,15 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
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invertIntegral: invertIntegrateAdd
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});
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}
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public static plus<T extends GenericFormula>(value: T, other: FormulaSource): T;
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public static plus<T extends GenericFormula>(value: FormulaSource, other: T): T;
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public static plus(value: FormulaSource, other: FormulaSource): GenericFormula;
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public static plus(value: FormulaSource, other: FormulaSource) {
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return Formula.add(value, other);
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}
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public static sub(
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value: InvertibleFormulaSource,
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other: InvertibleFormulaSource
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): InvertibleFormula & IntegrableFormula & InvertibleIntegralFormula;
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public static sub<T extends GenericFormula>(value: T, other: FormulaSource): T;
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public static sub<T extends GenericFormula>(value: FormulaSource, other: T): T;
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public static sub(value: FormulaSource, other: FormulaSource): GenericFormula;
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public static sub(value: FormulaSource, other: FormulaSource) {
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return new Formula({
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@ -1117,17 +1119,21 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
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invertIntegral: invertIntegrateSub
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});
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}
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public static subtract<T extends GenericFormula>(value: T, other: FormulaSource): T;
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public static subtract<T extends GenericFormula>(value: FormulaSource, other: T): T;
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public static subtract(value: FormulaSource, other: FormulaSource): GenericFormula;
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public static subtract(value: FormulaSource, other: FormulaSource) {
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return Formula.sub(value, other);
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}
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public static minus<T extends GenericFormula>(value: T, other: FormulaSource): T;
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public static minus<T extends GenericFormula>(value: FormulaSource, other: T): T;
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public static minus(value: FormulaSource, other: FormulaSource): GenericFormula;
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public static minus(value: FormulaSource, other: FormulaSource) {
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return Formula.sub(value, other);
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}
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public static mul(
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value: InvertibleFormulaSource,
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other: InvertibleFormulaSource
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): InvertibleFormula & IntegrableFormula & InvertibleIntegralFormula;
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public static mul<T extends GenericFormula>(value: T, other: FormulaSource): T;
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public static mul<T extends GenericFormula>(value: FormulaSource, other: T): T;
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public static mul(value: FormulaSource, other: FormulaSource): GenericFormula;
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public static mul(value: FormulaSource, other: FormulaSource) {
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return new Formula({
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@ -1138,17 +1144,21 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
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invertIntegral: invertIntegrateMul
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});
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}
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public static multiply<T extends GenericFormula>(value: T, other: FormulaSource): T;
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public static multiply<T extends GenericFormula>(value: FormulaSource, other: T): T;
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public static multiply(value: FormulaSource, other: FormulaSource): GenericFormula;
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public static multiply(value: FormulaSource, other: FormulaSource) {
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return Formula.mul(value, other);
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}
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public static times<T extends GenericFormula>(value: T, other: FormulaSource): T;
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public static times<T extends GenericFormula>(value: FormulaSource, other: T): T;
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public static times(value: FormulaSource, other: FormulaSource): GenericFormula;
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public static times(value: FormulaSource, other: FormulaSource) {
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return Formula.mul(value, other);
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}
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public static div(
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value: InvertibleFormulaSource,
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other: InvertibleFormulaSource
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): InvertibleFormula & IntegrableFormula & InvertibleIntegralFormula;
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public static div<T extends GenericFormula>(value: T, other: FormulaSource): T;
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public static div<T extends GenericFormula>(value: FormulaSource, other: T): T;
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public static div(value: FormulaSource, other: FormulaSource): GenericFormula;
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public static div(value: FormulaSource, other: FormulaSource) {
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return new Formula({
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@ -1159,13 +1169,14 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
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invertIntegral: invertIntegrateDiv
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});
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}
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public static divide<T extends GenericFormula>(value: T, other: FormulaSource): T;
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public static divide<T extends GenericFormula>(value: FormulaSource, other: T): T;
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public static divide(value: FormulaSource, other: FormulaSource): GenericFormula;
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public static divide(value: FormulaSource, other: FormulaSource) {
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return Formula.div(value, other);
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}
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public static recip(
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value: InvertibleFormulaSource
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): InvertibleFormula & IntegrableFormula & InvertibleIntegralFormula;
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public static recip<T extends GenericFormula>(value: T): T;
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public static recip(value: FormulaSource): GenericFormula;
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public static recip(value: FormulaSource) {
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return new Formula({
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@ -1176,9 +1187,13 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
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invertIntegral: invertIntegrateRecip
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});
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}
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public static reciprocal<T extends GenericFormula>(value: T): T;
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public static reciprocal(value: FormulaSource): GenericFormula;
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public static reciprocal(value: FormulaSource): GenericFormula {
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return Formula.recip(value);
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}
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public static reciprocate<T extends GenericFormula>(value: T): T;
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public static reciprocate(value: FormulaSource): GenericFormula;
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public static reciprocate(value: FormulaSource) {
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return Formula.recip(value);
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}
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@ -1215,21 +1230,15 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
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return new Formula({ inputs: [value, max], evaluate: Decimal.clampMax });
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}
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public static pLog10(value: InvertibleFormulaSource): InvertibleFormula;
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public static pLog10(value: FormulaSource): GenericFormula;
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public static pLog10(value: FormulaSource) {
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public static pLog10(value: FormulaSource): GenericFormula {
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return new Formula({ inputs: [value], evaluate: Decimal.pLog10 });
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}
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public static absLog10(value: InvertibleFormulaSource): InvertibleFormula;
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public static absLog10(value: FormulaSource): GenericFormula;
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public static absLog10(value: FormulaSource) {
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public static absLog10(value: FormulaSource): GenericFormula {
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return new Formula({ inputs: [value], evaluate: Decimal.absLog10 });
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}
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public static log10(
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value: InvertibleFormulaSource
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): InvertibleFormula & IntegrableFormula & InvertibleIntegralFormula;
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public static log10<T extends GenericFormula>(value: T): T;
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public static log10(value: FormulaSource): GenericFormula;
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public static log10(value: FormulaSource) {
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return new Formula({
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@ -1241,10 +1250,8 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
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});
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}
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public static log(
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value: InvertibleFormulaSource,
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base: InvertibleFormulaSource
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): InvertibleFormula & IntegrableFormula & InvertibleIntegralFormula;
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public static log<T extends GenericFormula>(value: T, base: FormulaSource): T;
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public static log<T extends GenericFormula>(value: FormulaSource, base: T): T;
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public static log(value: FormulaSource, base: FormulaSource): GenericFormula;
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public static log(value: FormulaSource, base: FormulaSource) {
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return new Formula({
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@ -1255,13 +1262,14 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
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invertIntegral: invertIntegrateLog
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});
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}
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public static logarithm<T extends GenericFormula>(value: T, base: FormulaSource): T;
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public static logarithm<T extends GenericFormula>(value: FormulaSource, base: T): T;
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public static logarithm(value: FormulaSource, base: FormulaSource): GenericFormula;
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public static logarithm(value: FormulaSource, base: FormulaSource) {
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return Formula.log(value, base);
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}
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public static log2(
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value: InvertibleFormulaSource
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): InvertibleFormula & IntegrableFormula & InvertibleIntegralFormula;
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public static log2<T extends GenericFormula>(value: T): T;
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public static log2(value: FormulaSource): GenericFormula;
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public static log2(value: FormulaSource) {
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return new Formula({
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@ -1273,9 +1281,7 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
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});
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}
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public static ln(
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value: InvertibleFormulaSource
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): InvertibleFormula & IntegrableFormula & InvertibleIntegralFormula;
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public static ln<T extends GenericFormula>(value: T): T;
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public static ln(value: FormulaSource): GenericFormula;
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public static ln(value: FormulaSource) {
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return new Formula({
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@ -1287,10 +1293,8 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
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});
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}
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public static pow(
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value: InvertibleFormulaSource,
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other: InvertibleFormulaSource
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): InvertibleFormula & IntegrableFormula & InvertibleIntegralFormula;
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public static pow<T extends GenericFormula>(value: T, other: FormulaSource): T;
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public static pow<T extends GenericFormula>(value: FormulaSource, other: T): T;
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public static pow(value: FormulaSource, other: FormulaSource): GenericFormula;
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public static pow(value: FormulaSource, other: FormulaSource) {
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return new Formula({
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@ -1302,9 +1306,7 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
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});
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}
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public static pow10(
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value: InvertibleFormulaSource
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): InvertibleFormula & IntegrableFormula & InvertibleIntegralFormula;
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public static pow10<T extends GenericFormula>(value: T): T;
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public static pow10(value: FormulaSource): GenericFormula;
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public static pow10(value: FormulaSource) {
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return new Formula({
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@ -1316,10 +1318,8 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
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});
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}
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public static pow_base(
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value: InvertibleFormulaSource,
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other: InvertibleFormulaSource
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): InvertibleFormula & IntegrableFormula & InvertibleIntegralFormula;
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public static pow_base<T extends GenericFormula>(value: T, other: FormulaSource): T;
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public static pow_base<T extends GenericFormula>(value: FormulaSource, other: T): T;
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public static pow_base(value: FormulaSource, other: FormulaSource): GenericFormula;
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public static pow_base(value: FormulaSource, other: FormulaSource) {
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return new Formula({
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@ -1331,10 +1331,8 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
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});
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}
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public static root(
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value: InvertibleFormulaSource,
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other: InvertibleFormulaSource
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): InvertibleFormula & IntegrableFormula & InvertibleIntegralFormula;
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public static root<T extends GenericFormula>(value: T, other: FormulaSource): T;
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public static root<T extends GenericFormula>(value: FormulaSource, other: T): T;
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public static root(value: FormulaSource, other: FormulaSource): GenericFormula;
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public static root(value: FormulaSource, other: FormulaSource) {
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return new Formula({
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@ -1358,7 +1356,7 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
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return new Formula({ inputs: [value], evaluate: Decimal.lngamma });
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}
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public static exp(value: InvertibleFormulaSource): InvertibleFormula & IntegrableFormula;
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public static exp<T extends GenericFormula>(value: T): Omit<T, "invertsIntegral">;
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public static exp(value: FormulaSource): GenericFormula;
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public static exp(value: FormulaSource) {
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return new Formula({
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@ -1369,27 +1367,35 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
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});
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}
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public static sqr<T extends GenericFormula>(value: T): T;
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public static sqr(value: FormulaSource): GenericFormula;
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public static sqr(value: FormulaSource) {
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return Formula.pow(value, 2);
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}
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public static sqrt<T extends GenericFormula>(value: T): T;
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public static sqrt(value: FormulaSource): GenericFormula;
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public static sqrt(value: FormulaSource) {
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return Formula.root(value, 2);
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}
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public static cube<T extends GenericFormula>(value: T): T;
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public static cube(value: FormulaSource): GenericFormula;
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public static cube(value: FormulaSource) {
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return Formula.pow(value, 3);
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}
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public static cbrt<T extends GenericFormula>(value: T): T;
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public static cbrt(value: FormulaSource): GenericFormula;
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public static cbrt(value: FormulaSource) {
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return Formula.root(value, 3);
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}
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public static tetrate(
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value: InvertibleFormulaSource,
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height?: InvertibleFormulaSource,
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payload?: InvertibleFormulaSource
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): InvertibleFormula;
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public static tetrate<T extends GenericFormula>(
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value: T,
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height?: FormulaSource,
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payload?: FormulaSource
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): Omit<T, "integrate" | "invertIntegral">;
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public static tetrate(
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value: FormulaSource,
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height?: FormulaSource,
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@ -1407,11 +1413,11 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
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});
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}
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public static iteratedexp(
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value: InvertibleFormulaSource,
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height?: InvertibleFormulaSource,
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payload?: InvertibleFormulaSource
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): InvertibleFormula;
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public static iteratedexp<T extends GenericFormula>(
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value: T,
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height?: FormulaSource,
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payload?: FormulaSource
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): Omit<T, "integrate" | "invertIntegral">;
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public static iteratedexp(
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value: FormulaSource,
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height?: FormulaSource,
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@ -1437,24 +1443,24 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
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return new Formula({ inputs: [value, base, times], evaluate: iteratedLog });
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}
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public static slog(
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value: InvertibleFormulaSource,
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base?: InvertibleFormulaSource
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): InvertibleFormula;
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public static slog<T extends GenericFormula>(
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value: T,
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base?: FormulaSource
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): Omit<T, "integrate" | "invertIntegral">;
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public static slog(value: FormulaSource, base?: FormulaSource): GenericFormula;
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public static slog(value: FormulaSource, base: FormulaSource = 10) {
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return new Formula({ inputs: [value, base], evaluate: slog, invert: invertSlog });
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}
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public static layeradd10(value: FormulaSource, diff: FormulaSource): GenericFormula {
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public static layeradd10(value: FormulaSource, diff: FormulaSource) {
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return new Formula({ inputs: [value, diff], evaluate: Decimal.layeradd10 });
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}
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public static layeradd(
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value: InvertibleFormulaSource,
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diff: InvertibleFormulaSource,
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base?: InvertibleFormulaSource
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): InvertibleFormula;
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public static layeradd<T extends GenericFormula>(
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value: T,
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diff: FormulaSource,
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base?: FormulaSource
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): Omit<T, "integrate" | "invertIntegral">;
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public static layeradd(
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value: FormulaSource,
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diff: FormulaSource,
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@ -1468,13 +1474,17 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
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});
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}
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public static lambertw(value: InvertibleFormulaSource): InvertibleFormula;
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public static lambertw<T extends GenericFormula>(
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value: T
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): Omit<T, "integrate" | "invertIntegral">;
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public static lambertw(value: FormulaSource): GenericFormula;
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public static lambertw(value: FormulaSource) {
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return new Formula({ inputs: [value], evaluate: Decimal.lambertw, invert: invertLambertw });
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}
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public static ssqrt(value: InvertibleFormulaSource): InvertibleFormula;
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public static ssqrt<T extends GenericFormula>(
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value: T
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): Omit<T, "integrate" | "invertIntegral">;
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public static ssqrt(value: FormulaSource): GenericFormula;
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public static ssqrt(value: FormulaSource) {
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return new Formula({ inputs: [value], evaluate: Decimal.ssqrt, invert: invertSsqrt });
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@ -1484,11 +1494,11 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
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value: FormulaSource,
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height: FormulaSource = 2,
|
||||
payload: FormulaSource = Decimal.fromComponents_noNormalize(1, 0, 1)
|
||||
) {
|
||||
): GenericFormula {
|
||||
return new Formula({ inputs: [value, height, payload], evaluate: pentate });
|
||||
}
|
||||
|
||||
public static sin(value: InvertibleFormulaSource): InvertibleFormula & IntegrableFormula;
|
||||
public static sin<T extends GenericFormula>(value: T): Omit<T, "invertIntegral">;
|
||||
public static sin(value: FormulaSource): GenericFormula;
|
||||
public static sin(value: FormulaSource) {
|
||||
return new Formula({
|
||||
|
@ -1499,7 +1509,7 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
|
|||
});
|
||||
}
|
||||
|
||||
public static cos(value: InvertibleFormulaSource): InvertibleFormula & IntegrableFormula;
|
||||
public static cos<T extends GenericFormula>(value: T): Omit<T, "invertIntegral">;
|
||||
public static cos(value: FormulaSource): GenericFormula;
|
||||
public static cos(value: FormulaSource) {
|
||||
return new Formula({
|
||||
|
@ -1510,7 +1520,7 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
|
|||
});
|
||||
}
|
||||
|
||||
public static tan(value: InvertibleFormulaSource): InvertibleFormula & IntegrableFormula;
|
||||
public static tan<T extends GenericFormula>(value: T): Omit<T, "invertIntegral">;
|
||||
public static tan(value: FormulaSource): GenericFormula;
|
||||
public static tan(value: FormulaSource) {
|
||||
return new Formula({
|
||||
|
@ -1521,7 +1531,7 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
|
|||
});
|
||||
}
|
||||
|
||||
public static asin(value: InvertibleFormulaSource): InvertibleFormula & IntegrableFormula;
|
||||
public static asin<T extends GenericFormula>(value: T): Omit<T, "invertIntegral">;
|
||||
public static asin(value: FormulaSource): GenericFormula;
|
||||
public static asin(value: FormulaSource) {
|
||||
return new Formula({
|
||||
|
@ -1532,7 +1542,7 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
|
|||
});
|
||||
}
|
||||
|
||||
public static acos(value: InvertibleFormulaSource): InvertibleFormula & IntegrableFormula;
|
||||
public static acos<T extends GenericFormula>(value: T): Omit<T, "invertIntegral">;
|
||||
public static acos(value: FormulaSource): GenericFormula;
|
||||
public static acos(value: FormulaSource) {
|
||||
return new Formula({
|
||||
|
@ -1543,7 +1553,7 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
|
|||
});
|
||||
}
|
||||
|
||||
public static atan(value: InvertibleFormulaSource): InvertibleFormula & IntegrableFormula;
|
||||
public static atan<T extends GenericFormula>(value: T): Omit<T, "invertIntegral">;
|
||||
public static atan(value: FormulaSource): GenericFormula;
|
||||
public static atan(value: FormulaSource) {
|
||||
return new Formula({
|
||||
|
@ -1554,7 +1564,7 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
|
|||
});
|
||||
}
|
||||
|
||||
public static sinh(value: InvertibleFormulaSource): InvertibleFormula & IntegrableFormula;
|
||||
public static sinh<T extends GenericFormula>(value: T): Omit<T, "invertIntegral">;
|
||||
public static sinh(value: FormulaSource): GenericFormula;
|
||||
public static sinh(value: FormulaSource) {
|
||||
return new Formula({
|
||||
|
@ -1565,7 +1575,7 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
|
|||
});
|
||||
}
|
||||
|
||||
public static cosh(value: InvertibleFormulaSource): InvertibleFormula & IntegrableFormula;
|
||||
public static cosh<T extends GenericFormula>(value: T): Omit<T, "invertIntegral">;
|
||||
public static cosh(value: FormulaSource): GenericFormula;
|
||||
public static cosh(value: FormulaSource) {
|
||||
return new Formula({
|
||||
|
@ -1576,7 +1586,7 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
|
|||
});
|
||||
}
|
||||
|
||||
public static tanh(value: InvertibleFormulaSource): InvertibleFormula & IntegrableFormula;
|
||||
public static tanh<T extends GenericFormula>(value: T): Omit<T, "invertIntegral">;
|
||||
public static tanh(value: FormulaSource): GenericFormula;
|
||||
public static tanh(value: FormulaSource) {
|
||||
return new Formula({
|
||||
|
@ -1587,7 +1597,7 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
|
|||
});
|
||||
}
|
||||
|
||||
public static asinh(value: InvertibleFormulaSource): InvertibleFormula & IntegrableFormula;
|
||||
public static asinh<T extends GenericFormula>(value: T): Omit<T, "invertIntegral">;
|
||||
public static asinh(value: FormulaSource): GenericFormula;
|
||||
public static asinh(value: FormulaSource) {
|
||||
return new Formula({
|
||||
|
@ -1598,7 +1608,7 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
|
|||
});
|
||||
}
|
||||
|
||||
public static acosh(value: InvertibleFormulaSource): InvertibleFormula & IntegrableFormula;
|
||||
public static acosh<T extends GenericFormula>(value: T): Omit<T, "invertIntegral">;
|
||||
public static acosh(value: FormulaSource): GenericFormula;
|
||||
public static acosh(value: FormulaSource) {
|
||||
return new Formula({
|
||||
|
@ -1609,7 +1619,7 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
|
|||
});
|
||||
}
|
||||
|
||||
public static atanh(value: InvertibleFormulaSource): InvertibleFormula & IntegrableFormula;
|
||||
public static atanh<T extends GenericFormula>(value: T): Omit<T, "invertIntegral">;
|
||||
public static atanh(value: FormulaSource): GenericFormula;
|
||||
public static atanh(value: FormulaSource) {
|
||||
return new Formula({
|
||||
|
@ -1644,13 +1654,19 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
|
|||
return Formula.abs(this);
|
||||
}
|
||||
|
||||
public neg() {
|
||||
public neg<T extends GenericFormula>(this: T): Omit<T, "invertIntegral">;
|
||||
public neg(this: GenericFormula): GenericFormula;
|
||||
public neg(this: GenericFormula) {
|
||||
return Formula.neg(this);
|
||||
}
|
||||
public negate() {
|
||||
public negate<T extends GenericFormula>(this: T): Omit<T, "invertIntegral">;
|
||||
public negate(this: GenericFormula): GenericFormula;
|
||||
public negate(this: GenericFormula) {
|
||||
return Formula.neg(this);
|
||||
}
|
||||
public negated() {
|
||||
public negated<T extends GenericFormula>(this: T): Omit<T, "invertIntegral">;
|
||||
public negated(this: GenericFormula): GenericFormula;
|
||||
public negated(this: GenericFormula) {
|
||||
return Formula.neg(this);
|
||||
}
|
||||
|
||||
|
@ -1677,112 +1693,94 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
|
|||
return Formula.trunc(this);
|
||||
}
|
||||
|
||||
public add(
|
||||
this: InvertibleFormulaSource,
|
||||
value: InvertibleFormulaSource
|
||||
): InvertibleFormula & IntegrableFormula & InvertibleIntegralFormula;
|
||||
public add(this: FormulaSource, value: FormulaSource): GenericFormula;
|
||||
public add(value: FormulaSource) {
|
||||
public add<T extends GenericFormula>(this: T, value: FormulaSource): T;
|
||||
public add<T extends GenericFormula>(this: GenericFormula, value: T): T;
|
||||
public add(this: GenericFormula, value: FormulaSource): GenericFormula;
|
||||
public add(this: GenericFormula, value: FormulaSource) {
|
||||
return Formula.add(this, value);
|
||||
}
|
||||
public plus(
|
||||
this: InvertibleFormulaSource,
|
||||
value: InvertibleFormulaSource
|
||||
): InvertibleFormula & IntegrableFormula & InvertibleIntegralFormula;
|
||||
public plus(this: FormulaSource, value: FormulaSource): GenericFormula;
|
||||
public plus<T extends GenericFormula>(this: T, value: FormulaSource): T;
|
||||
public plus<T extends GenericFormula>(this: GenericFormula, value: T): T;
|
||||
public plus(this: GenericFormula, value: FormulaSource): GenericFormula;
|
||||
public plus(value: FormulaSource) {
|
||||
return Formula.add(this, value);
|
||||
}
|
||||
|
||||
public sub(
|
||||
this: InvertibleFormulaSource,
|
||||
value: InvertibleFormulaSource
|
||||
): InvertibleFormula & IntegrableFormula & InvertibleIntegralFormula;
|
||||
public sub(this: FormulaSource, value: FormulaSource): GenericFormula;
|
||||
public sub<T extends GenericFormula>(this: T, value: FormulaSource): T;
|
||||
public sub<T extends GenericFormula>(this: GenericFormula, value: T): T;
|
||||
public sub(this: GenericFormula, value: FormulaSource): GenericFormula;
|
||||
public sub(value: FormulaSource) {
|
||||
return Formula.sub(this, value);
|
||||
}
|
||||
public subtract(
|
||||
this: InvertibleFormulaSource,
|
||||
value: InvertibleFormulaSource
|
||||
): InvertibleFormula & IntegrableFormula & InvertibleIntegralFormula;
|
||||
public subtract(this: FormulaSource, value: FormulaSource): GenericFormula;
|
||||
public subtract<T extends GenericFormula>(this: T, value: FormulaSource): T;
|
||||
public subtract<T extends GenericFormula>(this: GenericFormula, value: T): T;
|
||||
public subtract(this: GenericFormula, value: FormulaSource): GenericFormula;
|
||||
public subtract(value: FormulaSource) {
|
||||
return Formula.sub(this, value);
|
||||
}
|
||||
public minus(
|
||||
this: InvertibleFormulaSource,
|
||||
value: InvertibleFormulaSource
|
||||
): InvertibleFormula & IntegrableFormula & InvertibleIntegralFormula;
|
||||
public minus(this: FormulaSource, value: FormulaSource): GenericFormula;
|
||||
public minus<T extends GenericFormula>(this: T, value: FormulaSource): T;
|
||||
public minus<T extends GenericFormula>(this: GenericFormula, value: T): T;
|
||||
public minus(this: GenericFormula, value: FormulaSource): GenericFormula;
|
||||
public minus(value: FormulaSource) {
|
||||
return Formula.sub(this, value);
|
||||
}
|
||||
|
||||
public mul(
|
||||
this: InvertibleFormulaSource,
|
||||
value: InvertibleFormulaSource
|
||||
): InvertibleFormula & IntegrableFormula & InvertibleIntegralFormula;
|
||||
public mul(this: FormulaSource, value: FormulaSource): GenericFormula;
|
||||
public mul<T extends GenericFormula>(this: T, value: FormulaSource): T;
|
||||
public mul<T extends GenericFormula>(this: GenericFormula, value: T): T;
|
||||
public mul(this: GenericFormula, value: FormulaSource): GenericFormula;
|
||||
public mul(value: FormulaSource) {
|
||||
return Formula.mul(this, value);
|
||||
}
|
||||
public multiply(
|
||||
this: InvertibleFormulaSource,
|
||||
value: InvertibleFormulaSource
|
||||
): InvertibleFormula & IntegrableFormula & InvertibleIntegralFormula;
|
||||
public multiply(this: FormulaSource, value: FormulaSource): GenericFormula;
|
||||
public multiply<T extends GenericFormula>(this: T, value: FormulaSource): T;
|
||||
public multiply<T extends GenericFormula>(this: GenericFormula, value: T): T;
|
||||
public multiply(this: GenericFormula, value: FormulaSource): GenericFormula;
|
||||
public multiply(value: FormulaSource) {
|
||||
return Formula.mul(this, value);
|
||||
}
|
||||
public times(
|
||||
this: InvertibleFormulaSource,
|
||||
value: InvertibleFormulaSource
|
||||
): InvertibleFormula & IntegrableFormula & InvertibleIntegralFormula;
|
||||
public times(this: FormulaSource, value: FormulaSource): GenericFormula;
|
||||
public times<T extends GenericFormula>(this: T, value: FormulaSource): T;
|
||||
public times<T extends GenericFormula>(this: GenericFormula, value: T): T;
|
||||
public times(this: GenericFormula, value: FormulaSource): GenericFormula;
|
||||
public times(value: FormulaSource) {
|
||||
return Formula.mul(this, value);
|
||||
}
|
||||
|
||||
public div(
|
||||
this: InvertibleFormulaSource,
|
||||
value: InvertibleFormulaSource
|
||||
): InvertibleFormula & IntegrableFormula & InvertibleIntegralFormula;
|
||||
public div(this: FormulaSource, value: FormulaSource): GenericFormula;
|
||||
public div<T extends GenericFormula>(this: T, value: FormulaSource): T;
|
||||
public div<T extends GenericFormula>(this: GenericFormula, value: T): T;
|
||||
public div(this: GenericFormula, value: FormulaSource): GenericFormula;
|
||||
public div(value: FormulaSource) {
|
||||
return Formula.div(this, value);
|
||||
}
|
||||
public divide(
|
||||
this: InvertibleFormulaSource,
|
||||
value: InvertibleFormulaSource
|
||||
): InvertibleFormula & IntegrableFormula & InvertibleIntegralFormula;
|
||||
public divide(this: FormulaSource, value: FormulaSource): GenericFormula;
|
||||
public divide<T extends GenericFormula>(this: T, value: FormulaSource): T;
|
||||
public divide<T extends GenericFormula>(this: GenericFormula, value: T): T;
|
||||
public divide(this: GenericFormula, value: FormulaSource): GenericFormula;
|
||||
public divide(value: FormulaSource) {
|
||||
return Formula.div(this, value);
|
||||
}
|
||||
public divideBy(
|
||||
this: InvertibleFormulaSource,
|
||||
value: InvertibleFormulaSource
|
||||
): InvertibleFormula & IntegrableFormula & InvertibleIntegralFormula;
|
||||
public divideBy(this: FormulaSource, value: FormulaSource): GenericFormula;
|
||||
public divideBy<T extends GenericFormula>(this: T, value: FormulaSource): T;
|
||||
public divideBy<T extends GenericFormula>(this: GenericFormula, value: T): T;
|
||||
public divideBy(this: GenericFormula, value: FormulaSource): GenericFormula;
|
||||
public divideBy(value: FormulaSource) {
|
||||
return Formula.div(this, value);
|
||||
}
|
||||
public dividedBy(
|
||||
this: InvertibleFormulaSource,
|
||||
value: InvertibleFormulaSource
|
||||
): InvertibleFormula & IntegrableFormula & InvertibleIntegralFormula;
|
||||
public dividedBy(this: FormulaSource, value: FormulaSource): GenericFormula;
|
||||
public dividedBy<T extends GenericFormula>(this: T, value: FormulaSource): T;
|
||||
public dividedBy<T extends GenericFormula>(this: GenericFormula, value: T): T;
|
||||
public dividedBy(this: GenericFormula, value: FormulaSource): GenericFormula;
|
||||
public dividedBy(value: FormulaSource) {
|
||||
return Formula.div(this, value);
|
||||
}
|
||||
|
||||
public recip<T extends GenericFormula>(this: T): T;
|
||||
public recip(this: FormulaSource): GenericFormula;
|
||||
public recip() {
|
||||
return Formula.recip(this);
|
||||
}
|
||||
public reciprocal<T extends GenericFormula>(this: T): T;
|
||||
public reciprocal(this: FormulaSource): GenericFormula;
|
||||
public reciprocal() {
|
||||
return Formula.recip(this);
|
||||
}
|
||||
public reciprocate<T extends GenericFormula>(this: T): T;
|
||||
public reciprocate(this: FormulaSource): GenericFormula;
|
||||
public reciprocate() {
|
||||
return Formula.recip(this);
|
||||
}
|
||||
|
@ -1823,61 +1821,59 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
|
|||
return Formula.absLog10(this);
|
||||
}
|
||||
|
||||
public log10<T extends GenericFormula>(this: T): T;
|
||||
public log10(this: FormulaSource): GenericFormula;
|
||||
public log10() {
|
||||
return Formula.log10(this);
|
||||
}
|
||||
|
||||
public log(
|
||||
this: InvertibleFormulaSource,
|
||||
value: InvertibleFormulaSource
|
||||
): InvertibleFormula & IntegrableFormula & InvertibleIntegralFormula;
|
||||
public log<T extends GenericFormula>(this: T, value: FormulaSource): T;
|
||||
public log<T extends GenericFormula>(this: FormulaSource, value: T): T;
|
||||
public log(this: FormulaSource, value: FormulaSource): GenericFormula;
|
||||
public log(value: FormulaSource) {
|
||||
return Formula.log(this, value);
|
||||
}
|
||||
public logarithm(
|
||||
this: InvertibleFormulaSource,
|
||||
value: InvertibleFormulaSource
|
||||
): InvertibleFormula & IntegrableFormula & InvertibleIntegralFormula;
|
||||
public logarithm<T extends GenericFormula>(this: T, value: FormulaSource): T;
|
||||
public logarithm<T extends GenericFormula>(this: FormulaSource, value: T): T;
|
||||
public logarithm(this: FormulaSource, value: FormulaSource): GenericFormula;
|
||||
public logarithm(value: FormulaSource) {
|
||||
return Formula.log(this, value);
|
||||
}
|
||||
|
||||
public log2<T extends GenericFormula>(this: T): T;
|
||||
public log2(this: FormulaSource): GenericFormula;
|
||||
public log2() {
|
||||
return Formula.log2(this);
|
||||
}
|
||||
|
||||
public ln<T extends GenericFormula>(this: T): T;
|
||||
public ln(this: FormulaSource): GenericFormula;
|
||||
public ln() {
|
||||
return Formula.ln(this);
|
||||
}
|
||||
|
||||
public pow(
|
||||
this: InvertibleFormulaSource,
|
||||
value: InvertibleFormulaSource
|
||||
): InvertibleFormula & IntegrableFormula & InvertibleIntegralFormula;
|
||||
public pow<T extends GenericFormula>(this: T, value: FormulaSource): T;
|
||||
public pow<T extends GenericFormula>(this: FormulaSource, value: T): T;
|
||||
public pow(this: FormulaSource, value: FormulaSource): GenericFormula;
|
||||
public pow(value: FormulaSource) {
|
||||
return Formula.pow(this, value);
|
||||
}
|
||||
|
||||
public pow10<T extends GenericFormula>(this: T): T;
|
||||
public pow10(this: FormulaSource): GenericFormula;
|
||||
public pow10() {
|
||||
return Formula.pow10(this);
|
||||
}
|
||||
|
||||
public pow_base(
|
||||
this: InvertibleFormulaSource,
|
||||
value: InvertibleFormulaSource
|
||||
): InvertibleFormula & IntegrableFormula & InvertibleIntegralFormula;
|
||||
public pow_base<T extends GenericFormula>(this: T, value: FormulaSource): T;
|
||||
public pow_base<T extends GenericFormula>(this: FormulaSource, value: T): T;
|
||||
public pow_base(this: FormulaSource, value: FormulaSource): GenericFormula;
|
||||
public pow_base(value: FormulaSource) {
|
||||
return Formula.pow_base(this, value);
|
||||
}
|
||||
|
||||
public root(
|
||||
this: InvertibleFormulaSource,
|
||||
value: InvertibleFormulaSource
|
||||
): InvertibleFormula & IntegrableFormula & InvertibleIntegralFormula;
|
||||
public root<T extends GenericFormula>(this: T, value: FormulaSource): T;
|
||||
public root<T extends GenericFormula>(this: FormulaSource, value: T): T;
|
||||
public root(this: FormulaSource, value: FormulaSource): GenericFormula;
|
||||
public root(value: FormulaSource) {
|
||||
return Formula.root(this, value);
|
||||
|
@ -1894,53 +1890,65 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
|
|||
return Formula.lngamma(this);
|
||||
}
|
||||
|
||||
public exp() {
|
||||
public exp<T extends GenericFormula>(this: T): Omit<T, "invertsIntegral">;
|
||||
public exp(this: FormulaSource): GenericFormula;
|
||||
public exp(this: FormulaSource) {
|
||||
return Formula.exp(this);
|
||||
}
|
||||
|
||||
public sqr<T extends GenericFormula>(this: T): T;
|
||||
public sqr(this: FormulaSource): GenericFormula;
|
||||
public sqr() {
|
||||
return Formula.pow(this, 2);
|
||||
}
|
||||
|
||||
public sqrt<T extends GenericFormula>(this: T): T;
|
||||
public sqrt(this: FormulaSource): GenericFormula;
|
||||
public sqrt() {
|
||||
return Formula.root(this, 2);
|
||||
}
|
||||
public cube<T extends GenericFormula>(this: T): T;
|
||||
public cube(this: FormulaSource): GenericFormula;
|
||||
public cube() {
|
||||
return Formula.pow(this, 3);
|
||||
}
|
||||
|
||||
public cbrt<T extends GenericFormula>(this: T): T;
|
||||
public cbrt(this: FormulaSource): GenericFormula;
|
||||
public cbrt() {
|
||||
return Formula.root(this, 3);
|
||||
}
|
||||
|
||||
public tetrate(
|
||||
this: InvertibleFormulaSource,
|
||||
height: InvertibleFormulaSource,
|
||||
payload: InvertibleFormulaSource
|
||||
): InvertibleFormula;
|
||||
public tetrate<T extends GenericFormula>(
|
||||
this: T,
|
||||
height?: FormulaSource,
|
||||
payload?: FormulaSource
|
||||
): Omit<T, "integrate" | "invertIntegral">;
|
||||
public tetrate(
|
||||
this: FormulaSource,
|
||||
height: FormulaSource,
|
||||
payload: FormulaSource
|
||||
height?: FormulaSource,
|
||||
payload?: FormulaSource
|
||||
): GenericFormula;
|
||||
public tetrate(
|
||||
this: FormulaSource,
|
||||
height: FormulaSource = 2,
|
||||
payload: FormulaSource = Decimal.fromComponents_noNormalize(1, 0, 1)
|
||||
) {
|
||||
return Formula.tetrate(this, height, payload);
|
||||
}
|
||||
|
||||
public iteratedexp(
|
||||
this: InvertibleFormulaSource,
|
||||
height: InvertibleFormulaSource,
|
||||
payload: InvertibleFormulaSource
|
||||
): InvertibleFormula;
|
||||
public iteratedexp<T extends GenericFormula>(
|
||||
this: T,
|
||||
height?: FormulaSource,
|
||||
payload?: FormulaSource
|
||||
): Omit<T, "integrate" | "invertIntegral">;
|
||||
public iteratedexp(
|
||||
this: FormulaSource,
|
||||
height: FormulaSource,
|
||||
payload: FormulaSource
|
||||
height?: FormulaSource,
|
||||
payload?: FormulaSource
|
||||
): GenericFormula;
|
||||
public iteratedexp(
|
||||
this: FormulaSource,
|
||||
height: FormulaSource = 2,
|
||||
payload: FormulaSource = Decimal.fromComponents_noNormalize(1, 0, 1)
|
||||
) {
|
||||
|
@ -1951,9 +1959,12 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
|
|||
return Formula.iteratedlog(this, base, times);
|
||||
}
|
||||
|
||||
public slog(this: InvertibleFormulaSource, base?: InvertibleFormulaSource): InvertibleFormula;
|
||||
public slog<T extends GenericFormula>(
|
||||
this: T,
|
||||
base?: FormulaSource
|
||||
): Omit<T, "integrate" | "invertIntegral">;
|
||||
public slog(this: FormulaSource, base?: FormulaSource): GenericFormula;
|
||||
public slog(base: FormulaSource = 10) {
|
||||
public slog(this: FormulaSource, base: FormulaSource = 10) {
|
||||
return Formula.slog(this, base);
|
||||
}
|
||||
|
||||
|
@ -1961,21 +1972,25 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
|
|||
return Formula.layeradd10(this, diff);
|
||||
}
|
||||
|
||||
public layeradd(
|
||||
this: InvertibleFormulaSource,
|
||||
diff: InvertibleFormulaSource,
|
||||
base?: InvertibleFormulaSource
|
||||
): InvertibleFormula;
|
||||
public layeradd<T extends GenericFormula>(
|
||||
this: T,
|
||||
diff: FormulaSource,
|
||||
base?: FormulaSource
|
||||
): Omit<T, "integrate" | "invertIntegral">;
|
||||
public layeradd(this: FormulaSource, diff: FormulaSource, base?: FormulaSource): GenericFormula;
|
||||
public layeradd(diff: FormulaSource, base: FormulaSource) {
|
||||
public layeradd(this: FormulaSource, diff: FormulaSource, base: FormulaSource) {
|
||||
return Formula.layeradd(this, diff, base);
|
||||
}
|
||||
|
||||
public lambertw() {
|
||||
public lambertw<T extends GenericFormula>(this: T): Omit<T, "integrate" | "invertIntegral">;
|
||||
public lambertw(this: FormulaSource): GenericFormula;
|
||||
public lambertw(this: FormulaSource) {
|
||||
return Formula.lambertw(this);
|
||||
}
|
||||
|
||||
public ssqrt() {
|
||||
public ssqrt<T extends GenericFormula>(this: T): Omit<T, "integrate" | "invertIntegral">;
|
||||
public ssqrt(this: FormulaSource): GenericFormula;
|
||||
public ssqrt(this: FormulaSource) {
|
||||
return Formula.ssqrt(this);
|
||||
}
|
||||
|
||||
|
@ -1986,51 +2001,75 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
|
|||
return Formula.pentate(this, height, payload);
|
||||
}
|
||||
|
||||
public sin() {
|
||||
public sin<T extends GenericFormula>(this: T): Omit<T, "invertIntegral">;
|
||||
public sin(this: FormulaSource): GenericFormula;
|
||||
public sin(this: FormulaSource) {
|
||||
return Formula.sin(this);
|
||||
}
|
||||
|
||||
public cos() {
|
||||
public cos<T extends GenericFormula>(this: T): Omit<T, "invertIntegral">;
|
||||
public cos(this: FormulaSource): GenericFormula;
|
||||
public cos(this: FormulaSource) {
|
||||
return Formula.cos(this);
|
||||
}
|
||||
|
||||
public tan() {
|
||||
public tan<T extends GenericFormula>(this: T): Omit<T, "invertIntegral">;
|
||||
public tan(this: FormulaSource): GenericFormula;
|
||||
public tan(this: FormulaSource) {
|
||||
return Formula.tan(this);
|
||||
}
|
||||
|
||||
public asin() {
|
||||
public asin<T extends GenericFormula>(this: T): Omit<T, "invertIntegral">;
|
||||
public asin(this: FormulaSource): GenericFormula;
|
||||
public asin(this: FormulaSource) {
|
||||
return Formula.asin(this);
|
||||
}
|
||||
|
||||
public acos() {
|
||||
public acos<T extends GenericFormula>(this: T): Omit<T, "invertIntegral">;
|
||||
public acos(this: FormulaSource): GenericFormula;
|
||||
public acos(this: FormulaSource) {
|
||||
return Formula.acos(this);
|
||||
}
|
||||
|
||||
public atan() {
|
||||
public atan<T extends GenericFormula>(this: T): Omit<T, "invertIntegral">;
|
||||
public atan(this: FormulaSource): GenericFormula;
|
||||
public atan(this: FormulaSource) {
|
||||
return Formula.atan(this);
|
||||
}
|
||||
|
||||
public sinh() {
|
||||
public sinh<T extends GenericFormula>(this: T): Omit<T, "invertIntegral">;
|
||||
public sinh(this: FormulaSource): GenericFormula;
|
||||
public sinh(this: FormulaSource) {
|
||||
return Formula.sinh(this);
|
||||
}
|
||||
|
||||
public cosh() {
|
||||
public cosh<T extends GenericFormula>(this: T): Omit<T, "invertIntegral">;
|
||||
public cosh(this: FormulaSource): GenericFormula;
|
||||
public cosh(this: FormulaSource) {
|
||||
return Formula.cosh(this);
|
||||
}
|
||||
|
||||
public tanh() {
|
||||
public tanh<T extends GenericFormula>(this: T): Omit<T, "invertIntegral">;
|
||||
public tanh(this: FormulaSource): GenericFormula;
|
||||
public tanh(this: FormulaSource) {
|
||||
return Formula.tanh(this);
|
||||
}
|
||||
|
||||
public asinh() {
|
||||
public asinh<T extends GenericFormula>(this: T): Omit<T, "invertIntegral">;
|
||||
public asinh(this: FormulaSource): GenericFormula;
|
||||
public asinh(this: FormulaSource) {
|
||||
return Formula.asinh(this);
|
||||
}
|
||||
|
||||
public acosh() {
|
||||
public acosh<T extends GenericFormula>(this: T): Omit<T, "invertIntegral">;
|
||||
public acosh(this: FormulaSource): GenericFormula;
|
||||
public acosh(this: FormulaSource) {
|
||||
return Formula.acosh(this);
|
||||
}
|
||||
|
||||
public atanh() {
|
||||
public atanh<T extends GenericFormula>(this: T): Omit<T, "invertIntegral">;
|
||||
public atanh(this: FormulaSource): GenericFormula;
|
||||
public atanh(this: FormulaSource) {
|
||||
return Formula.atanh(this);
|
||||
}
|
||||
}
|
||||
|
|
|
@ -250,7 +250,6 @@ describe("Creating Formulas", () => {
|
|||
}
|
||||
testConstant("number", () => Formula.constant(10));
|
||||
testConstant("string", () => Formula.constant("10"));
|
||||
testConstant("formula", () => Formula.constant(Formula.constant(10)));
|
||||
testConstant("decimal", () => Formula.constant(new Decimal("1e400")), "1e400");
|
||||
testConstant("ref", () => Formula.constant(ref(10)));
|
||||
});
|
||||
|
@ -532,6 +531,12 @@ describe("Inverting", () => {
|
|||
const formula = Formula.add(variable, constant).times(constant);
|
||||
expect(formula.invert(100)).compare_tolerance(0);
|
||||
});
|
||||
|
||||
test("Inverting with non-invertible sections", () => {
|
||||
const formula = Formula.add(variable, constant.ceil());
|
||||
expect(formula.isInvertible()).toBe(true);
|
||||
expect(formula.invert(10)).compare_tolerance(7);
|
||||
});
|
||||
});
|
||||
|
||||
describe("Integrating", () => {
|
||||
|
|
Loading…
Reference in a new issue