282 lines
24 KiB
Java
282 lines
24 KiB
Java
package io.gitlab.jfronny.muscript.optimizer;
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import io.gitlab.jfronny.muscript.ast.*;
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import io.gitlab.jfronny.muscript.ast.bool.*;
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import io.gitlab.jfronny.muscript.ast.context.Script;
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import io.gitlab.jfronny.muscript.ast.dynamic.*;
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import io.gitlab.jfronny.muscript.ast.extensible.*;
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import io.gitlab.jfronny.muscript.ast.number.*;
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import io.gitlab.jfronny.muscript.ast.string.*;
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import io.gitlab.jfronny.muscript.core.CodeLocation;
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import io.gitlab.jfronny.muscript.data.additional.DFinal;
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import io.gitlab.jfronny.muscript.data.dynamic.Dynamic;
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import java.util.LinkedHashMap;
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import java.util.List;
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import java.util.Map;
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import java.util.stream.Stream;
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import static io.gitlab.jfronny.muscript.ast.Expr.literal;
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import static io.gitlab.jfronny.muscript.ast.context.ExprUtils.*;
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public class Optimizer {
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public static Script optimize(Script script) {
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return new Script(optimize(script.content()));
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}
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public static Expr optimize(Expr expr) {
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return switch (unpack(expr)) {
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case null -> throw new NullPointerException();
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case ExtensibleExpr e -> e.optimize();
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case StringExpr stringExpr -> optimize(stringExpr);
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case NumberExpr numberExpr -> optimize(numberExpr);
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case BoolExpr boolExpr -> optimize(boolExpr);
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case DynamicExpr dynamicExpr -> optimize(dynamicExpr);
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case NullLiteral nl -> nl;
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};
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}
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public static StringExpr optimize(StringExpr expr) {
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return switch (optimizeInner(expr)) {
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case null -> throw new NullPointerException();
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case StringConditional(var location, BoolLiteral(var location1, var value), var ifTrue, var ifFalse) -> value ? ifTrue : ifFalse;
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case StringConditional(var location, Not(var location1, var condition), var ifTrue, var ifFalse) -> new StringConditional(location, condition, ifFalse, ifTrue);
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case Concatenate(var location, StringLiteral(var location1, var left), StringLiteral(var location2, var right)) -> literal(location, left + right);
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case Concatenate(var location, Concatenate(var location1, var left1, StringLiteral(var location2, var right1)), StringLiteral(var location3, var right2)) -> new Concatenate(location1, left1, literal(location2, right1 + right2));
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case Concatenate(var location, StringLiteral(var location1, var left1), Concatenate(var location2, StringLiteral(var location3, var left2), var right)) -> new Concatenate(location2, literal(location3, left1 + left2), right);
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case StringExpr fallback -> fallback; // Used instead of default to still keep applied optimizations
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};
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}
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private static StringExpr optimizeInner(StringExpr expr) {
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return switch (expr) {
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case null -> null;
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case StringLiteral e -> e;
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case ExtensibleStringExpr e -> e.optimize();
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case StringUnpack(var inner) -> asString(unpack(optimize(inner)));
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case StringCoerce(var inner) -> asString(unpack(optimize(inner)));
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case StringAssign(var location, var variable, var value) -> new StringAssign(location, variable, optimize(value));
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case StringConditional(var location, var condition, var ifTrue, var ifFalse) -> new StringConditional(location, optimize(condition), optimize(ifTrue), optimize(ifFalse));
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case Concatenate(var location, var left, var right) -> new Concatenate(location, optimize(left), optimize(right));
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};
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}
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public static NumberExpr optimize(NumberExpr expr) {
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return switch (optimizeInner(expr)) {
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case null -> throw new NullPointerException();
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case NumberConditional(var location, BoolLiteral(var location1, var value), var ifTrue, var ifFalse) -> value ? ifTrue : ifFalse;
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case NumberConditional(var location, Not(var location1, var condition), var ifTrue, var ifFalse) -> new NumberConditional(location, condition, ifFalse, ifTrue);
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case Add(var location, NumberLiteral(var location1, var augend), NumberLiteral(var location2, var addend)) -> literal(location, augend + addend);
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case Add(var location, Negate(var location1, var augend), Negate(var location2, var addend)) -> new Negate(location, optimize(new Add(location, augend, addend)));
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case Add(var location, Negate(var location1, var augend), var addend) -> optimize(new Subtract(location, addend, augend));
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case Add(var location, var augend, Negate(var location1, var addend)) -> optimize(new Subtract(location, augend, addend));
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case Subtract(var location, NumberLiteral(var location1, var minuend), NumberLiteral(var location2, var subtrahend)) -> literal(location, minuend - subtrahend);
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case Subtract(var location, Subtract(var location1, var minuend1, var subtrahend1), var subtrahend) -> optimize(new Subtract(location, minuend1, new Add(location1, subtrahend1, subtrahend)));
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case Subtract(var location, var minuend, Subtract(var location1, var minuend1, var subtrahend1)) -> new Subtract(location, new Add(location1, minuend, subtrahend1), minuend1);
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case Subtract(var location, Negate(var location1, var minuend), Negate(var location2, var subtrahend)) -> new Subtract(location, subtrahend, minuend);
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case Subtract(var location, Negate(var location1, var minuend), var subtrahend) -> optimize(new Negate(location, new Add(location, minuend, subtrahend)));
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case Subtract(var location, var minuend, Negate(var location1, var subtrahend)) -> optimize(new Add(location, minuend, subtrahend));
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case Negate(var location, NumberLiteral(var location1, var value)) -> literal(location, -value);
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case Negate(var location, Negate(var location1, var inner)) -> inner;
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case Negate(var location, Subtract(var location1, var minuend, var subtrahend)) -> optimize(new Subtract(location, subtrahend, minuend));
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case Multiply(var location, NumberLiteral(var location1, var multiplier), NumberLiteral(var location2, var multiplicand)) -> literal(location, multiplier * multiplicand);
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//TODO optimize multiplication with or division by 1
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case Divide(var location, NumberLiteral(var location1, var dividend), NumberLiteral(var location2, var divisor)) -> literal(location, dividend / divisor);
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case Divide(var location, Divide(var location1, var dividend1, var divisor1), var divisor) -> new Divide(location, dividend1, new Multiply(location1, divisor1, divisor));
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case Divide(var location, var dividend, Divide(var location1, var dividend1, var divisor1)) -> new Divide(location, new Multiply(location1, dividend, divisor1), dividend1);
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case Divide(var location, Negate(var location1, var dividend), Negate(var location2, var divisor)) -> new Divide(location, divisor, dividend);
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case Divide(var location, Negate(var location1, var dividend), var divisor) -> new Negate(location, new Divide(location1, dividend, divisor));
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case Divide(var location, var dividend, Negate(var location1, var divisor)) -> new Negate(location, new Divide(location1, dividend, divisor));
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case Modulo(var location, NumberLiteral(var location1, var dividend), NumberLiteral(var location2, var divisor)) -> literal(location, dividend % divisor);
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case Power(var location, NumberLiteral(var location1, var base), NumberLiteral(var location2, var exponent)) -> literal(location, Math.pow(base, exponent));
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case Power(var location, Multiply(var location1, NumberLiteral(var location2, var multiplier), var multiplicand), NumberLiteral(var location3, var exponent)) -> new Multiply(location1, literal(location, Math.pow(multiplier, exponent)), new Power(location, multiplicand, literal(location3, exponent)));
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case Power(var location, Multiply(var location1, var multiplier, NumberLiteral(var location2, var multiplicand)), NumberLiteral(var location3, var exponent)) -> new Multiply(location1, literal(location, Math.pow(multiplicand, exponent)), new Power(location, multiplier, literal(location3, exponent)));
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case NumberExpr fallback -> fallback; // Used instead of default to still keep applied optimizations
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};
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}
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private static NumberExpr optimizeInner(NumberExpr expr) {
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return switch (expr) {
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case null -> null;
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case NumberLiteral e -> e;
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case ExtensibleNumberExpr e -> e.optimize();
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case NumberUnpack(var inner) -> asNumber(unpack(optimize(inner)));
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case NumberAssign(var location, var variable, var value) -> new NumberAssign(location, variable, optimize(value));
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case NumberConditional(var location, var condition, var ifTrue, var ifFalse) -> new NumberConditional(location, optimize(condition), optimize(ifTrue), optimize(ifFalse));
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case Add(var location, var augend, var addend) -> new Add(location, optimize(augend), optimize(addend));
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case Subtract(var location, var minuend, var subtrahend) -> new Subtract(location, optimize(minuend), optimize(subtrahend));
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case Negate(var location, var inner) -> new Negate(location, optimize(inner));
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case Multiply(var location, var multiplier, var multiplicand) -> new Multiply(location, optimize(multiplier), optimize(multiplicand));
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case Divide(var location, var dividend, var divisor) -> new Divide(location, optimize(dividend), optimize(divisor));
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case Modulo(var location, var dividend, var divisor) -> new Modulo(location, optimize(dividend), optimize(divisor));
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case Power(var location, var base, var exponent) -> new Power(location, optimize(base), optimize(exponent));
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};
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}
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public static BoolExpr optimize(BoolExpr expr) {
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return switch (optimizeInner(expr)) {
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case null -> throw new NullPointerException();
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case BoolConditional(var location, BoolLiteral(var location1, var value), var ifTrue, var ifFalse) -> value ? ifTrue : ifFalse;
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case BoolConditional(var location, Not(var location1, var condition), var ifTrue, var ifFalse) -> new BoolConditional(location, condition, ifFalse, ifTrue);
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case And(var location, BoolLiteral(var location1, var left), var right) -> left ? right : literal(location, false);
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case And(var location, var left, BoolLiteral(var location1, var right)) -> right ? left : literal(location, false);
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case Or(var location, BoolLiteral(var location1, var left), var right) -> left ? literal(location, true) : right;
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case Or(var location, var left, BoolLiteral(var location1, var right)) -> right ? literal(location, true) : left;
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case Not(var location, BoolLiteral(var location1, var value)) -> literal(location, !value);
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case Not(var location, Not(var location1, var inner)) -> inner;
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case GreaterThan(var location, NumberLiteral(var location1, var left), NumberLiteral(var location2, var right)) -> literal(location, left > right);
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case GreaterThan(var location, Divide(var location1, var dividend, var divisor), var right) -> optimize(new GreaterThan(location, dividend, new Multiply(location1, right, divisor)));
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case GreaterThan(var location, Negate(var location1, var inner), var right) -> optimize(new GreaterThan(location, new Negate(right.location(), right), inner));
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case GreaterThan(var location, Subtract(var location1, var minuend, var subtrahend), var right) -> optimize(new GreaterThan(location, minuend, new Add(location1, subtrahend, right)));
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// Modulo is left out because it is too complicated for this naive impl
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// Multiply is left out since it would transform into a division and may be 0
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case GreaterThan(var location, Add(var location1, var augend, var addend), var right) -> optimize(new GreaterThan(location, augend, new Subtract(location1, right, addend)));
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// Power is left out because it can't be transformed cleanly either
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case BoolExpr fallback -> fallback; // Used instead of default to still keep applied optimizations
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};
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}
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private static BoolExpr optimizeInner(BoolExpr expr) {
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return switch (expr) {
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case null -> null;
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case BoolLiteral e -> e;
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case ExtensibleBoolExpr e -> e.optimize();
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case BoolUnpack(var inner) -> asBool(unpack(optimize(inner)));
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case BoolAssign(var location, var variable, var value) -> new BoolAssign(location, variable, optimize(value));
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case BoolConditional(var location, var condition, var ifTrue, var ifFalse) -> new BoolConditional(location, optimize(condition), optimize(ifTrue), optimize(ifFalse));
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case And(var location, var left, var right) -> new And(location, optimize(left), optimize(right));
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case Or(var location, var left, var right) -> new Or(location, optimize(left), optimize(right));
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case Not(var location, var inner) -> new Not(location, optimize(inner));
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case Equals(var location, var left, var right) -> new Equals(location, optimize(left), optimize(right));
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case GreaterThan(var location, var left, var right) -> new GreaterThan(location, optimize(left), optimize(right));
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};
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}
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public static DynamicExpr optimize(DynamicExpr expr) {
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return switch (optimizeInner(expr)) {
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case null -> throw new NullPointerException();
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case DynamicConditional(var location, BoolLiteral(var location1, var value), var ifTrue, var ifFalse) -> value ? ifTrue : ifFalse;
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case DynamicConditional(var location, Not(var location1, var inner), var ifTrue, var ifFalse) -> optimize(new DynamicConditional(location, inner, ifFalse, ifTrue));
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case DynamicConditional(var location, var condition, var ifTrue, var ifFalse) when ifTrue.equals(ifFalse) -> new ExprGroup(location, extractSideEffects(condition).map(Optimizer::optimize).toList(), ifTrue, null, false);
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case GetOrAt(var location, ObjectLiteral l, var nameOrIndex) -> new Get(location, l, asString(nameOrIndex));
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case GetOrAt(var location, ListLiteral l, var nameOrIndex) -> new At(location, l, asNumber(nameOrIndex));
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case GetOrAt(var location, var left, StringExpr name) -> new Get(location, left, name);
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case GetOrAt(var location, var left, NumberExpr index) -> new At(location, left, index);
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case Call(var location, Bind(var location1, var callable, var parameter), var arguments) -> optimize(new Call(location, callable, concat(arguments, new Call.Argument(parameter, false))));
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case Call(var location, Closure(var location1, var boundArgs, var variadic, var steps, var finish), var arguments) -> new ExprGroup(location1, concat(steps, finish), new ExprGroup.PackedArgs(arguments, boundArgs, variadic), true);
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case ObjectLiteral(var location, var originalContent) -> {
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var content = new LinkedHashMap<String, DynamicExpr>();
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var literalContent = new LinkedHashMap<String, Dynamic>();
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boolean literal = true;
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for (Map.Entry<String, DynamicExpr> entry : originalContent.entrySet()) {
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DynamicExpr de = optimize(entry.getValue());
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if (de instanceof DynamicLiteral(var location1, var cnt) && literal) {
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if (cnt instanceof Dynamic d) literalContent.put(entry.getKey(), d);
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else throw new IllegalArgumentException("Unsupported implementation of Dynamic");
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} else literal = false;
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content.put(entry.getKey(), de);
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}
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if (literal) yield new DynamicLiteral(location, DFinal.of(literalContent));
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yield new ObjectLiteral(location, content);
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}
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case DynamicExpr fallback -> fallback; // Used instead of default to still keep applied optimizations
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};
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}
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private static DynamicExpr optimizeInner(DynamicExpr expr) {
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return switch (expr) {
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case null -> null;
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case DynamicLiteral e -> e;
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case ExtensibleDynamicExpr e -> e.optimize();
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case DynamicCoerce(var inner) -> asDynamic(unpack(optimize(inner)));
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case DynamicAssign(var location, var variable, var value) -> new DynamicAssign(location, variable, optimize(value));
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case DynamicConditional(var location, var condition, var ifTrue, var ifFalse) -> new DynamicConditional(location, optimize(condition), optimize(ifTrue), optimize(ifFalse));
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case This e -> e;
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case Variable e -> e;
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case Get(var location, var left, var name) -> new Get(location, optimize(left), optimize(name));
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case At(var location, var left, var index) -> new At(location, optimize(left), optimize(index));
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case GetOrAt(var location, var left, var nameOrIndex) -> new GetOrAt(location, optimize(left), optimize(nameOrIndex));
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case Bind(var location, var callable, var parameter) -> new Bind(location, optimize(callable), optimize(parameter));
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case Call(var location, var callable, var arguments) -> new Call(location, optimize(callable), optimize(arguments));
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case Closure(var location, var boundArgs, var variadic, var steps, var finish) -> new Closure(location, boundArgs, variadic, optimize(steps, finish), optimize(finish));
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case ExprGroup(var location, var steps, var finish, ExprGroup.PackedArgs(var pFrom, var pTo, var variadic), var fork) -> new ExprGroup(location, optimize(steps, finish), new ExprGroup.PackedArgs(optimize(pFrom), pTo, variadic), fork);
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case ExprGroup(var location, var steps, var finish, var packedArgs, var fork) -> asDynamic(ExprGroup.of(location, optimize(steps, finish), fork));
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case ListLiteral(var location, var elements) -> new ListLiteral(location, elements.stream().map(Optimizer::optimize).toList());
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case ObjectLiteral e -> e; // Exclusively handled in optimize even though it contains expressions, since it cannot be decomposed
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};
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}
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private static <T> List<T> concat(List<T> list, T element) {
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return Stream.concat(list.stream(), Stream.of(element)).toList();
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}
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private static List<Expr> optimize(List<Expr> steps, DynamicExpr finish) {
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return Stream.concat(steps.stream().map(Optimizer::optimize).flatMap(Optimizer::extractSideEffects).map(Optimizer::optimize), Stream.of(optimize(finish))).toList();
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}
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private static List<Call.Argument> optimize(List<Call.Argument> arguments) {
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return arguments.stream().map(arg -> new Call.Argument(optimize(arg.value()), arg.variadic())).toList();
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}
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public static Stream<Expr> extractSideEffects(Expr expr) {
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return switch (expr) {
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case NullLiteral e -> Stream.empty();
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case BoolLiteral e -> Stream.empty();
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case NumberLiteral e -> Stream.empty();
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case StringLiteral e -> Stream.empty();
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case DynamicLiteral e -> Stream.empty();
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case Closure e -> Stream.empty();
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case Variable e -> Stream.empty();
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case This e -> Stream.empty();
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case NumberUnpack(var inner) -> extractSideEffects(inner);
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case StringUnpack(var inner) -> extractSideEffects(inner);
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case BoolUnpack(var inner) -> extractSideEffects(inner);
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case DynamicCoerce(var inner) -> extractSideEffects(inner);
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case StringCoerce(var inner) -> extractSideEffects(inner);
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case BoolAssign e -> Stream.of(e);
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case NumberAssign e -> Stream.of(e);
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case StringAssign e -> Stream.of(e);
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case DynamicAssign e -> Stream.of(e);
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case ExtensibleExpr e -> e.extractSideEffects();
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case And(var location, var left, var right) -> Stream.concat(extractSideEffects(left), extractSideEffects(right));
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case Or(var location, var left, var right) -> Stream.concat(extractSideEffects(left), extractSideEffects(right));
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case Not(var location, var inner) -> extractSideEffects(inner);
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case Equals(var location, var left, var right) -> Stream.concat(extractSideEffects(left), extractSideEffects(right));
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case GreaterThan(var location, var left, var right) -> Stream.concat(extractSideEffects(left), extractSideEffects(right));
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case BoolConditional(var location, var condition, var ifTrue, var ifFalse) -> extractConditionalSideEffects(location, condition, ifTrue, ifFalse);
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case DynamicConditional(var location, var condition, var ifTrue, var ifFalse) -> extractConditionalSideEffects(location, condition, ifTrue, ifFalse);
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case NumberConditional(var location, var condition, var ifTrue, var ifFalse) -> extractConditionalSideEffects(location, condition, ifTrue, ifFalse);
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case StringConditional(var location, var condition, var ifTrue, var ifFalse) -> extractConditionalSideEffects(location, condition, ifTrue, ifFalse);
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case Bind(var location, var callable, var parameter) -> Stream.concat(extractSideEffects(callable), extractSideEffects(parameter));
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case Call e -> Stream.of(e);
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case ExprGroup(var location, var steps, var finish, var packedArgs, var fork) when fork -> Stream.of(expr);
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case ExprGroup(var location, var steps, var finish, var packedArgs, var fork) -> Stream.of(ExprGroup.of(location, steps.stream().flatMap(Optimizer::extractSideEffects).toList()));
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case Get(var location, var left, var name) -> Stream.concat(extractSideEffects(left), extractSideEffects(name));
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case At(var location, var left, var index) -> Stream.concat(extractSideEffects(left), extractSideEffects(index));
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case GetOrAt(var location, var left, var nameOrIndex) -> Stream.concat(extractSideEffects(left), extractSideEffects(nameOrIndex));
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case ListLiteral(var location, var elements) -> elements.stream().flatMap(Optimizer::extractSideEffects);
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case ObjectLiteral(var location, var content) -> content.values().stream().flatMap(Optimizer::extractSideEffects);
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case Divide(var location, var dividend, var divisor) -> Stream.concat(extractSideEffects(dividend), extractSideEffects(divisor));
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case Negate(var location, var inner) -> extractSideEffects(inner);
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case Add(var location, var augend, var addend) -> Stream.concat(extractSideEffects(augend), extractSideEffects(addend));
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case Subtract(var location, var minuend, var subtrahend) -> Stream.concat(extractSideEffects(minuend), extractSideEffects(subtrahend));
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case Multiply(var location, var multiplier, var multiplicand) -> Stream.concat(extractSideEffects(multiplier), extractSideEffects(multiplicand));
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case Modulo(var location, var dividend, var divisor) -> Stream.concat(extractSideEffects(dividend), extractSideEffects(divisor));
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case Power(var location, var base, var exponent) -> Stream.concat(extractSideEffects(base), extractSideEffects(exponent));
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case Concatenate(var location, var left, var right) -> Stream.concat(extractSideEffects(left), extractSideEffects(right));
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};
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}
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private static Stream<Expr> extractConditionalSideEffects(CodeLocation location, BoolExpr condition, Expr ifTrue, Expr ifFalse) {
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List<Expr> trueSE = extractSideEffects(ifTrue).toList();
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List<Expr> falseSE = extractSideEffects(ifFalse).toList();
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if (trueSE.isEmpty() && falseSE.isEmpty()) return extractSideEffects(condition);
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return Stream.of(new DynamicConditional(
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location,
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condition,
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asDynamic(ExprGroup.of(ifTrue.location(), trueSE, false)),
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asDynamic(ExprGroup.of(ifFalse.location(), falseSE, false))
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));
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}
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}
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