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Implement conditional formulas

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This commit is contained in:
thepaperpilot 2023-01-19 08:36:16 -06:00
parent 675b30fdd0
commit 30aec8a93c
2 changed files with 106 additions and 10 deletions
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61
src/game/formulas.ts
View file

@ -1,5 +1,5 @@
import Decimal, { DecimalSource } from "util/bignum"; import Decimal, { DecimalSource } from "util/bignum";
import { ProcessedComputable } from "util/computed"; import { Computable, convertComputable, ProcessedComputable } from "util/computed";
import { ref, Ref, unref } from "vue"; import { ref, Ref, unref } from "vue";
// eslint-disable-next-line @typescript-eslint/no-explicit-any // eslint-disable-next-line @typescript-eslint/no-explicit-any
@ -439,26 +439,27 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
* @param start The value at which to start applying the step * @param start The value at which to start applying the step
* @param formulaModifier How this step should modify the formula. The incoming value will be the unmodified formula value _minus the start value_. So for example if an incoming formula evaluates to 200 and has a step that starts at 150, the formulaModifier would be given 50 as the parameter * @param formulaModifier How this step should modify the formula. The incoming value will be the unmodified formula value _minus the start value_. So for example if an incoming formula evaluates to 200 and has a step that starts at 150, the formulaModifier would be given 50 as the parameter
*/ */
public static step<T extends FormulaSource>( public static step(
value: T, value: FormulaSource,
start: ProcessedComputable<DecimalSource>, start: Computable<DecimalSource>,
formulaModifier: (value: Ref<DecimalSource>) => GenericFormula formulaModifier: (value: Ref<DecimalSource>) => GenericFormula
) { ) {
const lhsRef = ref<DecimalSource>(0); const lhsRef = ref<DecimalSource>(0);
const formula = formulaModifier(lhsRef); const formula = formulaModifier(lhsRef);
const processedStart = convertComputable(start);
function evalStep(lhs: DecimalSource) { function evalStep(lhs: DecimalSource) {
if (Decimal.lt(lhs, unref(start))) { if (Decimal.lt(lhs, unref(processedStart))) {
return lhs; return lhs;
} }
lhsRef.value = Decimal.sub(lhs, unref(start)); lhsRef.value = Decimal.sub(lhs, unref(processedStart));
return Decimal.add(formula.evaluate(), unref(start)); return Decimal.add(formula.evaluate(), unref(processedStart));
} }
function invertStep(value: DecimalSource, lhs: FormulaSource) { function invertStep(value: DecimalSource, lhs: FormulaSource) {
if (hasVariable(lhs)) { if (hasVariable(lhs)) {
if (Decimal.gt(value, unref(start))) { if (Decimal.gt(value, unref(processedStart))) {
value = Decimal.add( value = Decimal.add(
formula.invert(Decimal.sub(value, unref(start))), formula.invert(Decimal.sub(value, unref(processedStart))),
unref(start) unref(processedStart)
); );
} }
return lhs.invert(value); return lhs.invert(value);
@ -472,6 +473,46 @@ export default class Formula<T extends [FormulaSource] | FormulaSource[]> {
); );
} }
public static if(
value: FormulaSource,
condition: Computable<boolean>,
formulaModifier: (value: Ref<DecimalSource>) => GenericFormula
) {
const lhsRef = ref<DecimalSource>(0);
const formula = formulaModifier(lhsRef);
const processedCondition = convertComputable(condition);
function evalStep(lhs: DecimalSource) {
if (unref(processedCondition)) {
lhsRef.value = lhs;
return formula.evaluate();
} else {
return lhs;
}
}
function invertStep(value: DecimalSource, lhs: FormulaSource) {
if (!hasVariable(lhs)) {
throw "Could not invert due to no input being a variable";
}
if (unref(processedCondition)) {
return lhs.invert(formula.invert(value));
} else {
return lhs.invert(value);
}
}
return new Formula(
[value],
evalStep,
formula.isInvertible() && !formula.hasVariable() ? invertStep : undefined
);
}
public static conditional(
value: FormulaSource,
condition: Computable<boolean>,
formulaModifier: (value: Ref<DecimalSource>) => GenericFormula
) {
return Formula.if(value, condition, formulaModifier);
}
public static constant(value: InvertibleFormulaSource): InvertibleFormula { public static constant(value: InvertibleFormulaSource): InvertibleFormula {
return new Formula([value]) as InvertibleFormula; return new Formula([value]) as InvertibleFormula;
} }

55
tests/game/formulas.test.ts
View file

@ -530,3 +530,58 @@ describe("Step-wise", () => {
).compare_tolerance(10)); ).compare_tolerance(10));
}); });
}); });
describe("Conditionals", () => {
let variable: GenericFormula;
let constant: GenericFormula;
beforeAll(() => {
variable = Formula.variable(10);
constant = Formula.constant(10);
});
test("Formula without variable is marked as such", () => {
expect(Formula.if(constant, true, value => Formula.sqrt(value)).isInvertible()).toBe(true);
expect(Formula.if(constant, true, value => Formula.sqrt(value)).hasVariable()).toBe(false);
});
test("Formula with variable is marked as such", () => {
expect(Formula.if(variable, true, value => Formula.sqrt(value)).isInvertible()).toBe(true);
expect(Formula.if(variable, true, value => Formula.sqrt(value)).hasVariable()).toBe(true);
});
test("Non-invertible formula modifier marks formula as such", () => {
expect(Formula.if(constant, true, value => Formula.abs(value)).isInvertible()).toBe(false);
expect(Formula.if(constant, true, value => Formula.abs(value)).hasVariable()).toBe(false);
});
test("Formula modifiers with variables mark formula as non-invertible", () => {
expect(
Formula.if(constant, true, value => Formula.add(value, variable)).isInvertible()
).toBe(false);
expect(
Formula.if(constant, true, value => Formula.add(value, variable)).hasVariable()
).toBe(false);
});
describe("Pass-through with condition false", () => {
test("Evaluates correctly", () =>
expect(
Formula.if(constant, false, value => Formula.sqrt(value)).evaluate()
).compare_tolerance(10));
test("Inverts correctly with variable in input", () =>
expect(
Formula.if(variable, false, value => Formula.sqrt(value)).invert(10)
).compare_tolerance(10));
});
describe("Evaluates correctly with condition true", () => {
test("Evaluates correctly", () =>
expect(
Formula.if(variable, true, value => Formula.add(value, 2)).evaluate()
).compare_tolerance(12));
test("Inverts correctly", () =>
expect(
Formula.if(variable, true, value => Formula.add(value, 2)).invert(12)
).compare_tolerance(10));
});
});