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Author SHA1 Message Date
54ce5605c4
Merge branch 'master' of https://git.ad5001.eu/Ad5001/LogarithmPlotter
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2022-01-24 19:07:23 +01:00
5e61869a78
Merge branch 'master' of https://git.ad5001.eu/Ad5001/LogarithmPlotter 2022-01-19 16:41:48 +01:00
63dcc4be1e
Continuing AST. 2022-01-19 16:41:36 +01:00
4e3fd84cf8
Merge branch 'master' of https://git.ad5001.eu/Ad5001/LogarithmPlotter 2021-09-30 23:00:43 +02:00
fc4c453592
Setting snap grade to stable. 2021-09-30 20:51:47 +02:00
5 changed files with 217 additions and 29 deletions

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@ -1,5 +1,7 @@
// https://silentmatt.com/javascript-expression-evaluator/ // https://silentmatt.com/javascript-expression-evaluator/
.pragma library
var INUMBER = 'INUMBER'; var INUMBER = 'INUMBER';
var IOP1 = 'IOP1'; var IOP1 = 'IOP1';
var IOP2 = 'IOP2'; var IOP2 = 'IOP2';

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@ -20,6 +20,8 @@
.import "reference.js" as Reference .import "reference.js" as Reference
const DERIVATION_PRECISION = 0.01
const OPERATION_PRIORITY = { const OPERATION_PRIORITY = {
"+": 10, "-": 10, "+": 10, "-": 10,
"*": 20, "/": 20 "*": 20, "/": 20
@ -32,7 +34,8 @@ enum ASEType {
STRING, STRING,
FUNCTION, FUNCTION,
CONSTANT, CONSTANT,
OPERATION OPERATION,
NEGATION // Example: -x.
} }
class AbstractSyntaxElement { class AbstractSyntaxElement {
@ -44,7 +47,7 @@ class AbstractSyntaxElement {
simplify() { simplify() {
return this; return this;
} }
derivative(variable) { derivate(variable) {
return this; return this;
} }
integrate(variable) { integrate(variable) {
@ -76,7 +79,7 @@ class Variable extends AbstractSyntaxElement {
} }
} }
derivative(variable) { derivate(variable) {
if(variable == this.varName) if(variable == this.varName)
return new NumberElement(1); return new NumberElement(1);
return this; return this;
@ -157,7 +160,7 @@ class Constant extends Variable {
} }
} }
derivative(variable) { derivate(variable) {
if(variable == this.varName) if(variable == this.varName)
return new NumberElement(0); return new NumberElement(0);
return this; return this;
@ -187,7 +190,7 @@ class NumberElement extends AbstractSyntaxElement {
this.value = parseFloat(number); this.value = parseFloat(number);
} }
derivative(variable) { derivate(variable) {
return new NumberElement(0); return new NumberElement(0);
} }
@ -219,7 +222,7 @@ class StringElement extends AbstractSyntaxElement {
return this.str return this.str
} }
derivative(variable) { derivate(variable) {
return this; return this;
} }
@ -249,7 +252,11 @@ class FunctionElement extends AbstractSyntaxElement {
} }
execute(variables) { execute(variables) {
if(Reference.FUNCTIONS_LIST.includes(this.function)) { if(this.function == "derivate") {
return executeDerivative(variables)
} else if(this.function == "integrate") {
return executeIntegral(variables)
} else if(Reference.FUNCTIONS_LIST.includes(this.function)) {
let args = this.args.map(arg => arg.execute(variables)); let args = this.args.map(arg => arg.execute(variables));
return Reference.FUNCTIONS[this.function](...args); return Reference.FUNCTIONS[this.function](...args);
} else { } else {
@ -257,6 +264,63 @@ class FunctionElement extends AbstractSyntaxElement {
} }
} }
executeDerivative(variables) {
// Calculate derivation.
if(this.args.length == 2)
if(this.args[1] instanceof Variable) {
let d = this.args[1].varName; // derivative variable name.
if(Object.keys(variables).includes(d)) {
let plus = this.args[0].execute(Object.assign({}, variables, {d: variables[d]+DERIVATION_PRECISION/2}));
let min = this.args[0].execute(Object.assign({}, variables, {d: variables[d]-DERIVATION_PRECISION/2}));
return (plus-min)/DERIVATION_PRECISION
} else
throw new EvalError("Undefined variable " + d + ".");
} else
throw new EvalError(`Argument 1 of function derivate must be a variable.`)
else
throw new EvalError(`Function 'derivate' can only have 2 arguments. ${this.args.length} provided.`)
}
executeIntegral(variables) {
// Calculate integral.
// Using simons rule
// https://en.wikipedia.org/wiki/Simpson%27s_rule
let d, f, a, b;
if(this.args.length == 2)
// Integral(f,var) integral of f by var.
if(this.args[1] instanceof Variable)
if(Object.keys(variables).includes(d)) {
d = this.args[1].varName; // derivative variable name.
if(!Object.keys(variables).includes(d))
throw new EvalError("Undefined variable " + d + ".")
a = 0;
b = variables[d];
f = this.args[0].execute;
} else
else
throw new EvalError(`Argument 2 of function derivate must be a variable.`)
else if(this.args.length == 4)
// Integral(a,b,f,var) integral from a to b of f by var.
if(this.args[3] instanceof Variable)
if(Object.keys(variables).includes(d)) {
a = this.args[0].execute(variables);
b = this.args[1].execute(variables);
f = this.args[2].execute;
d = this.args[3].varName; // derivative variable name.
if(!Object.keys(variables).includes(d))
throw new EvalError("Undefined variable " + d + ".");
}
else
throw new EvalError(`Argument 4 of function derivate must be a variable.`)
else
throw new EvalError(`Function 'derivate' can only have 2 or 4 arguments. ${this.args.length} provided.`)
// (b-a)/6*(f(a)+4*f((a+b)/2)+f(b))
let f_a = f(Object.assign({}, variables, {d: a})), f_b = f(Object.assign({}, variables, {d: b}));
let f_m = f(Object.assign({}, variables, {d: (a+b)/2}))
return (b-a)/6*(f_a+4*f_m+f_b);
}
simplify() { simplify() {
let args = this.args.map(arg => arg.simplify(variables)); let args = this.args.map(arg => arg.simplify(variables));
let newFunc = new FunctionElement(this.function, args); let newFunc = new FunctionElement(this.function, args);
@ -268,14 +332,14 @@ class FunctionElement extends AbstractSyntaxElement {
} }
} }
derivative(variable) { derivate(variable) {
//TODO: Use DERIVATIVES elements in reference. //TODO: Use DERIVATIVES elements in reference.
return new FunctionElement("derivative", this.toEditableString()); return new FunctionElement("derivate", this, variable);
} }
integrate(variable) { integrate(variable) {
//TODO: Use INTEGRALS elements in reference. //TODO: Use INTEGRALS elements in reference.
return new FunctionElement("integrate", this.toEditableString()); return new FunctionElement("integrate", this, variable);
} }
toEditableString() { toEditableString() {
@ -298,7 +362,12 @@ class FunctionElement extends AbstractSyntaxElement {
} }
isConstant() { isConstant() {
return this.args.every(x => x.isConstant()); if(this.function == "derivate")
return this.args[0].isConstant();
else if(this.function == "integrate")
return this.args.length == 4 && this.args[0].isConstant() && this.args[1].isConstant() && this.args[2].isConstant();
else
return this.args.every(x => x.isConstant());
} }
} }
@ -334,7 +403,7 @@ class Operation extends AbstractSyntaxElement {
let leftHand = this.leftHand.simplify(); let leftHand = this.leftHand.simplify();
let rightHand = this.rightHand.simplify(); let rightHand = this.rightHand.simplify();
let newOpe = new Operation(leftHand, this.ope, rightHand); let newOpe = new Operation(leftHand, this.ope, rightHand);
if(leftHand.type == ASEType.NUMBER && rightHand.type == ASEType.NUMBER && Math.abs(newOpe.value) < 1000000) { if(leftHand.isConstant() && rightHand.isConstant() && Math.abs(newOpe.execute({})) < 1000000) {
// Do not simplify to too big numbers // Do not simplify to too big numbers
switch(this.ope) { switch(this.ope) {
case '+': case '+':
@ -342,10 +411,10 @@ class Operation extends AbstractSyntaxElement {
case '*': case '*':
case '^': case '^':
case '%': case '%':
return new NumberElement(newOpe.value); return new NumberElement(newOpe.execute({}));
case '/': case '/':
if(result % 1 == 0) if(result % 1 == 0)
return new NumberElement(newOpe.value); return new NumberElement(newOpe.execute({}));
else { else {
let simplified = simplifyFraction(leftHand.number, rightHand.number) let simplified = simplifyFraction(leftHand.number, rightHand.number)
return new Operation(new NumberElement(simplified[0]), '/', new NumberElement(simplified[1])) return new Operation(new NumberElement(simplified[0]), '/', new NumberElement(simplified[1]))
@ -370,7 +439,7 @@ class Operation extends AbstractSyntaxElement {
case '*': case '*':
if((leftHand.type == ASEType.NUMBER && leftHand.value == 0) || (rightHand.type == ASEType.NUMBER && rightHand.value == 0)) if((leftHand.type == ASEType.NUMBER && leftHand.value == 0) || (rightHand.type == ASEType.NUMBER && rightHand.value == 0))
return new NumberElement(0); return new NumberElement(0);
else if(leftHand.type == ASEType.NUMBER && leftHand.value == 0) else if(leftHand.type == ASEType.NUMBER && leftHand.value == 1)
return rightHand; return rightHand;
else if(rightHand.type == ASEType.NUMBER && rightHand.value == 1) else if(rightHand.type == ASEType.NUMBER && rightHand.value == 1)
return leftHand; return leftHand;
@ -396,26 +465,30 @@ class Operation extends AbstractSyntaxElement {
} }
} }
derivative(variable) { derivate(variable) {
switch(this.ope) { switch(this.ope) {
case '-': case '-':
case '+': case '+':
return new Operation(this.leftHand.derivative(variable), this.ope, this.rightHand.derivative(variable)); return new Operation(this.leftHand.derivate(variable), this.ope, this.rightHand.derivate(variable));
case '*': case '*':
return new Operation( return new Operation(
new Operation(this.leftHand.derivative(variable), '*', this.rightHand), new Operation(this.leftHand, '*', this.rightHand.derivate(variable)),
'+', '+',
new Operation(this.leftHand, '*', this.rightHand.derivative(variable)) new Operation(this.leftHand.derivate(variable), '*', this.rightHand),
); );
case '/': case '/':
return new Operation( return new Operation(
new Operation(this.leftHand.derivative(variable), '*', this.rightHand), new Operation(
'+', new Operation(this.leftHand, '*', this.rightHand.derivate(variable)),
new Operation(this.leftHand, '*', this.rightHand.derivative(variable)) '-',
new Operation(this.leftHand.derivate(variable), '*', this.rightHand),
),
'/',
new Operation(this.rightHand, '^', new NumberElement(2))
); );
case '^': case '^':
case '%': case '%':
return new FunctionElement("integrate", this.toEditableString()); return new FunctionElement("derivate", this.toEditableString());
default: default:
throw new EvalError("Unknown operator " + ope + "."); throw new EvalError("Unknown operator " + ope + ".");
} }
@ -428,15 +501,15 @@ class Operation extends AbstractSyntaxElement {
return new Operation(this.leftHand.integrate(variable), this.ope, this.rightHand.integrate(variable)); return new Operation(this.leftHand.integrate(variable), this.ope, this.rightHand.integrate(variable));
case '*': case '*':
return new Operation( return new Operation(
new Operation(this.leftHand.derivative(variable), '*', this.rightHand), new Operation(this.leftHand.derivate(variable), '*', this.rightHand),
'+', '+',
new Operation(this.leftHand, '*', this.rightHand.derivative(variable)) new Operation(this.leftHand, '*', this.rightHand.derivate(variable))
); );
case '/': case '/':
return new Operation( return new Operation(
new Operation(this.leftHand.derivative(variable), '*', this.rightHand), new Operation(this.leftHand.derivate(variable), '*', this.rightHand),
'+', '+',
new Operation(this.leftHand, '*', this.rightHand.derivative(variable)) new Operation(this.leftHand, '*', this.rightHand.derivate(variable))
); );
case '^': case '^':
case '%': case '%':
@ -501,4 +574,90 @@ function simplifyFraction(num,den) {
return [num*mult/gcd, den*mult/gcd] return [num*mult/gcd, den*mult/gcd]
} }
class Negation extends AbstractSyntaxElement {
type = ASEType.NEGATION;
constructor(variableName) {
this.varName = variableName;
}
execute(variables) {
if(variables.includes(this.varName)) {
return variables[this.varName];
} else {
throw new EvalError("Unknown variable " + this.varName + ".");
}
}
derivate(variable) {
if(variable == this.varName)
return new NumberElement(1);
return this;
}
integrate(variable) {
if(variable == this.varName)
// <var>^2/2
return new Operation(new Operation(this, '^', new NumberElement(2)), '/', new NumberElement(2));
return this;
}
toEditableString() {
return this.varName;
}
toLatex() {
return this.varName;
}
isConstant() {
return false;
}
}
class Negation extends AbstractSyntaxElement {
type = ASEType.NEGATION;
constructor(expression) {
this.expression = expression;
}
execute(variables) {
if(variables.includes(this.arrayName)) {
let index = this.astIndex.execute(variables)
if(index % 1 != 0 || index < 0) { // Float index.
throw new EvalError("Non-integer array index " + index + " used as array index for " + this.varName + ".");
} else if(variables[this.arrayName].length <= index) {
throw new EvalError("Out-of-range index " + index + " used as array index for " + this.varName + ".");
} else {
return variables[this.arrayName][index];
}
} else {
throw new EvalError("Unknown variable " + this.varName + ".");
}
toLatex() {
return this.varName;
}
}
simplify() {
return new Negation(this.expression.simplify());
}
derivate(variable) {
return new Negation(this.expression.derivate(variable));
}
integrate(variable) {
return new Negation(this.expression.integrate(variable));
}
toLatex() {
return '-' + this.expression.toLatex();
}
isConstant() {
return this.expression.isConstant();
}
}

View file

@ -18,3 +18,30 @@
.pragma library .pragma library
import "ast.js" as AST
import "tokenizer.js" as TK
class ExpressionBuilder {
constructor(tokenizer) {
this.tokenizer = tokenizer;
}
parseExpression(delimitors = '') {
// Parse a sequence of operations, and orders them based on OPERATION_PRIORITY.
let elements = []
let operators = []
let firstToken = this.tokenizer.peek();
if(firstToken.type == TK.TokenType.OPERATOR) // First operations.
if(firstToken.value == "-") {
// TODO: Set initial argument.
this.tokenizer.skip(TK.TokenType.OPERATOR)
} else
tokenizer.input.raise(`Invalid operator ${firstToken.value} at begining of statement.`)
else {
}
}
parseOperation()`
}

View file

@ -63,7 +63,7 @@ const FUNCTIONS = {
"sqrt": Math.sqrt, "sqrt": Math.sqrt,
"tan": Math.tan, "tan": Math.tan,
"tanh": Math.tanh, "tanh": Math.tanh,
"trunc": Math.trunc "trunc": Math.trunc,
} }
const FUNCTIONS_LIST = Object.keys(FUNCTIONS); const FUNCTIONS_LIST = Object.keys(FUNCTIONS);
// TODO: Complete // TODO: Complete

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@ -7,7 +7,7 @@ description: |
It's primary use is to quickly create [asymptotic Bode plots](https://en.wikipedia.org/wiki/Bode_plot), but it's extensible nature and ability to switch to non-logarithmic scales allow it to create other things with it, like sequences or statistical repartition functions. It's primary use is to quickly create [asymptotic Bode plots](https://en.wikipedia.org/wiki/Bode_plot), but it's extensible nature and ability to switch to non-logarithmic scales allow it to create other things with it, like sequences or statistical repartition functions.
confinement: strict confinement: strict
base: core20 base: core20
grade: devel grade: stable
icon: LogarithmPlotter/logarithmplotter.svg icon: LogarithmPlotter/logarithmplotter.svg
adopt-info: linuxfiles adopt-info: linuxfiles
license: GPL-3.0+ license: GPL-3.0+