gotosocial/vendor/github.com/cloudwego/iasm/expr/ast.go

//
// Copyright 2024 CloudWeGo Authors
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
//     http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//

package expr

import (
    `fmt`
)

// Type is tyep expression type.
type Type int

const (
    // CONST indicates that the expression is a constant.
    CONST Type = iota

    // TERM indicates that the expression is a Term reference.
    TERM

    // EXPR indicates that the expression is a unary or binary expression.
    EXPR
)

var typeNames = map[Type]string {
    EXPR  : "Expr",
    TERM  : "Term",
    CONST : "Const",
}

// String returns the string representation of a Type.
func (self Type) String() string {
    if v, ok := typeNames[self]; ok {
        return v
    } else {
        return fmt.Sprintf("expr.Type(%d)", self)
    }
}

// Operator represents an operation to perform when Type is EXPR.
type Operator uint8

const (
    // ADD performs "Add Expr.Left and Expr.Right".
    ADD Operator = iota

    // SUB performs "Subtract Expr.Left by Expr.Right".
    SUB

    // MUL performs "Multiply Expr.Left by Expr.Right".
    MUL

    // DIV performs "Divide Expr.Left by Expr.Right".
    DIV

    // MOD performs "Modulo Expr.Left by Expr.Right".
    MOD

    // AND performs "Bitwise AND Expr.Left and Expr.Right".
    AND

    // OR performs "Bitwise OR Expr.Left and Expr.Right".
    OR

    // XOR performs "Bitwise XOR Expr.Left and Expr.Right".
    XOR

    // SHL performs "Bitwise Shift Expr.Left to the Left by Expr.Right Bits".
    SHL

    // SHR performs "Bitwise Shift Expr.Left to the Right by Expr.Right Bits".
    SHR

    // POW performs "Raise Expr.Left to the power of Expr.Right"
    POW

    // NOT performs "Bitwise Invert Expr.Left".
    NOT

    // NEG performs "Negate Expr.Left".
    NEG
)

var operatorNames = map[Operator]string {
    ADD : "Add",
    SUB : "Subtract",
    MUL : "Multiply",
    DIV : "Divide",
    MOD : "Modulo",
    AND : "And",
    OR  : "Or",
    XOR : "ExclusiveOr",
    SHL : "ShiftLeft",
    SHR : "ShiftRight",
    POW : "Power",
    NOT : "Invert",
    NEG : "Negate",
}

// String returns the string representation of a Type.
func (self Operator) String() string {
    if v, ok := operatorNames[self]; ok {
        return v
    } else {
        return fmt.Sprintf("expr.Operator(%d)", self)
    }
}

// Expr represents an expression node.
type Expr struct {
    Type  Type
    Term  Term
    Op    Operator
    Left  *Expr
    Right *Expr
    Const int64
}

// Ref creates an expression from a Term.
func Ref(t Term) (p *Expr) {
    p = newExpression()
    p.Term = t
    p.Type = TERM
    return
}

// Int creates an expression from an integer.
func Int(v int64) (p *Expr) {
    p = newExpression()
    p.Type = CONST
    p.Const = v
    return
}

func (self *Expr) clear() {
    if self.Term != nil  { self.Term.Free() }
    if self.Left != nil  { self.Left.Free() }
    if self.Right != nil { self.Right.Free() }
}

// Free returns the Expr into pool.
// Any operation performed after Free is undefined behavior.
func (self *Expr) Free() {
    self.clear()
    freeExpression(self)
}

// Evaluate evaluates the expression into an integer.
// It also implements the Term interface.
func (self *Expr) Evaluate() (int64, error) {
    switch self.Type {
        case EXPR  : return self.eval()
        case TERM  : return self.Term.Evaluate()
        case CONST : return self.Const, nil
        default    : panic("invalid expression type: " + self.Type.String())
    }
}

/** Expression Combinator **/

func combine(a *Expr, op Operator, b *Expr) (r *Expr) {
    r = newExpression()
    r.Op = op
    r.Type = EXPR
    r.Left = a
    r.Right = b
    return
}

func (self *Expr) Add(v *Expr) *Expr { return combine(self, ADD, v) }
func (self *Expr) Sub(v *Expr) *Expr { return combine(self, SUB, v) }
func (self *Expr) Mul(v *Expr) *Expr { return combine(self, MUL, v) }
func (self *Expr) Div(v *Expr) *Expr { return combine(self, DIV, v) }
func (self *Expr) Mod(v *Expr) *Expr { return combine(self, MOD, v) }
func (self *Expr) And(v *Expr) *Expr { return combine(self, AND, v) }
func (self *Expr) Or (v *Expr) *Expr { return combine(self, OR , v) }
func (self *Expr) Xor(v *Expr) *Expr { return combine(self, XOR, v) }
func (self *Expr) Shl(v *Expr) *Expr { return combine(self, SHL, v) }
func (self *Expr) Shr(v *Expr) *Expr { return combine(self, SHR, v) }
func (self *Expr) Pow(v *Expr) *Expr { return combine(self, POW, v) }
func (self *Expr) Not()        *Expr { return combine(self, NOT, nil) }
func (self *Expr) Neg()        *Expr { return combine(self, NEG, nil) }

/** Expression Evaluator **/

var binaryEvaluators = [256]func(int64, int64) (int64, error) {
    ADD: func(a, b int64) (int64, error) { return a + b, nil },
    SUB: func(a, b int64) (int64, error) { return a - b, nil },
    MUL: func(a, b int64) (int64, error) { return a * b, nil },
    DIV: idiv,
    MOD: imod,
    AND: func(a, b int64) (int64, error) { return a & b, nil },
     OR: func(a, b int64) (int64, error) { return a | b, nil },
    XOR: func(a, b int64) (int64, error) { return a ^ b, nil },
    SHL: func(a, b int64) (int64, error) { return a << b, nil },
    SHR: func(a, b int64) (int64, error) { return a >> b, nil },
    POW: ipow,
}

func (self *Expr) eval() (int64, error) {
    var lhs int64
    var rhs int64
    var err error
    var vfn func(int64, int64) (int64, error)

    /* evaluate LHS */
    if lhs, err = self.Left.Evaluate(); err != nil {
        return 0, err
    }

    /* check for unary operators */
    switch self.Op {
        case NOT: return self.unaryNot(lhs)
        case NEG: return self.unaryNeg(lhs)
    }

    /* check for operators */
    if vfn = binaryEvaluators[self.Op]; vfn == nil {
        panic("invalid operator: " + self.Op.String())
    }

    /* must be a binary expression */
    if self.Right == nil {
        panic("operator " + self.Op.String() + " is a binary operator")
    }

    /* evaluate RHS, and call the operator */
    if rhs, err = self.Right.Evaluate(); err != nil {
        return 0, err
    } else {
        return vfn(lhs, rhs)
    }
}

func (self *Expr) unaryNot(v int64) (int64, error) {
    if self.Right == nil {
        return ^v, nil
    } else {
        panic("operator Invert is an unary operator")
    }
}

func (self *Expr) unaryNeg(v int64) (int64, error) {
    if self.Right == nil {
        return -v, nil
    } else {
        panic("operator Negate is an unary operator")
    }
}
[chore]: Bump github.com/gin-contrib/gzip from 1.0.0 to 1.0.1 (#2899) Bumps [github.com/gin-contrib/gzip](https://github.com/gin-contrib/gzip) from 1.0.0 to 1.0.1. - [Release notes](https://github.com/gin-contrib/gzip/releases) - [Changelog](https://github.com/gin-contrib/gzip/blob/master/.goreleaser.yaml) - [Commits](https://github.com/gin-contrib/gzip/compare/v1.0.0...v1.0.1) --- updated-dependencies: - dependency-name: github.com/gin-contrib/gzip dependency-type: direct:production update-type: version-update:semver-patch ... Signed-off-by: dependabot[bot] <support@github.com> Co-authored-by: dependabot[bot] <49699333+dependabot[bot]@users.noreply.github.com> 2024-05-06 09:50:47 +01:00			`//`
			`// Copyright 2024 CloudWeGo Authors`
			`//`
			`// Licensed under the Apache License, Version 2.0 (the "License");`
			`// you may not use this file except in compliance with the License.`
			`// You may obtain a copy of the License at`
			`//`
			`// http://www.apache.org/licenses/LICENSE-2.0`
			`//`
			`// Unless required by applicable law or agreed to in writing, software`
			`// distributed under the License is distributed on an "AS IS" BASIS,`
			`// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.`
			`// See the License for the specific language governing permissions and`
			`// limitations under the License.`
			`//`

[chore]: Bump github.com/gin-contrib/cors from 1.4.0 to 1.5.0 (#2388) Co-authored-by: dependabot[bot] <49699333+dependabot[bot]@users.noreply.github.com> 2023-11-27 13:15:03 +00:00			`package expr`

			`import (`
			`fmt`
			`)`

			`// Type is tyep expression type.`
			`type Type int`

			`const (`
			`// CONST indicates that the expression is a constant.`
			`CONST Type = iota`

			`// TERM indicates that the expression is a Term reference.`
			`TERM`

			`// EXPR indicates that the expression is a unary or binary expression.`
			`EXPR`
			`)`

			`var typeNames = map[Type]string {`
			`EXPR : "Expr",`
			`TERM : "Term",`
			`CONST : "Const",`
			`}`

			`// String returns the string representation of a Type.`
			`func (self Type) String() string {`
			`if v, ok := typeNames[self]; ok {`
			`return v`
			`} else {`
			`return fmt.Sprintf("expr.Type(%d)", self)`
			`}`
			`}`

			`// Operator represents an operation to perform when Type is EXPR.`
			`type Operator uint8`

			`const (`
			`// ADD performs "Add Expr.Left and Expr.Right".`
			`ADD Operator = iota`

			`// SUB performs "Subtract Expr.Left by Expr.Right".`
			`SUB`

			`// MUL performs "Multiply Expr.Left by Expr.Right".`
			`MUL`

			`// DIV performs "Divide Expr.Left by Expr.Right".`
			`DIV`

			`// MOD performs "Modulo Expr.Left by Expr.Right".`
			`MOD`

			`// AND performs "Bitwise AND Expr.Left and Expr.Right".`
			`AND`

			`// OR performs "Bitwise OR Expr.Left and Expr.Right".`
			`OR`

			`// XOR performs "Bitwise XOR Expr.Left and Expr.Right".`
			`XOR`

			`// SHL performs "Bitwise Shift Expr.Left to the Left by Expr.Right Bits".`
			`SHL`

			`// SHR performs "Bitwise Shift Expr.Left to the Right by Expr.Right Bits".`
			`SHR`

			`// POW performs "Raise Expr.Left to the power of Expr.Right"`
			`POW`

			`// NOT performs "Bitwise Invert Expr.Left".`
			`NOT`

			`// NEG performs "Negate Expr.Left".`
			`NEG`
			`)`

			`var operatorNames = map[Operator]string {`
			`ADD : "Add",`
			`SUB : "Subtract",`
			`MUL : "Multiply",`
			`DIV : "Divide",`
			`MOD : "Modulo",`
			`AND : "And",`
			`OR : "Or",`
			`XOR : "ExclusiveOr",`
			`SHL : "ShiftLeft",`
			`SHR : "ShiftRight",`
			`POW : "Power",`
			`NOT : "Invert",`
			`NEG : "Negate",`
			`}`

			`// String returns the string representation of a Type.`
			`func (self Operator) String() string {`
			`if v, ok := operatorNames[self]; ok {`
			`return v`
			`} else {`
			`return fmt.Sprintf("expr.Operator(%d)", self)`
			`}`
			`}`

			`// Expr represents an expression node.`
			`type Expr struct {`
			`Type Type`
			`Term Term`
			`Op Operator`
			`Left *Expr`
			`Right *Expr`
			`Const int64`
			`}`

			`// Ref creates an expression from a Term.`
			`func Ref(t Term) (p *Expr) {`
			`p = newExpression()`
			`p.Term = t`
			`p.Type = TERM`
			`return`
			`}`

			`// Int creates an expression from an integer.`
			`func Int(v int64) (p *Expr) {`
			`p = newExpression()`
			`p.Type = CONST`
			`p.Const = v`
			`return`
			`}`

			`func (self *Expr) clear() {`
			`if self.Term != nil { self.Term.Free() }`
			`if self.Left != nil { self.Left.Free() }`
			`if self.Right != nil { self.Right.Free() }`
			`}`

			`// Free returns the Expr into pool.`
			`// Any operation performed after Free is undefined behavior.`
			`func (self *Expr) Free() {`
			`self.clear()`
			`freeExpression(self)`
			`}`

			`// Evaluate evaluates the expression into an integer.`
			`// It also implements the Term interface.`
			`func (self *Expr) Evaluate() (int64, error) {`
			`switch self.Type {`
			`case EXPR : return self.eval()`
			`case TERM : return self.Term.Evaluate()`
			`case CONST : return self.Const, nil`
			`default : panic("invalid expression type: " + self.Type.String())`
			`}`
			`}`

			`/ Expression Combinator /`

			`func combine(a Expr, op Operator, b Expr) (r *Expr) {`
			`r = newExpression()`
			`r.Op = op`
			`r.Type = EXPR`
			`r.Left = a`
			`r.Right = b`
			`return`
			`}`

			`func (self Expr) Add(v Expr) *Expr { return combine(self, ADD, v) }`
			`func (self Expr) Sub(v Expr) *Expr { return combine(self, SUB, v) }`
			`func (self Expr) Mul(v Expr) *Expr { return combine(self, MUL, v) }`
			`func (self Expr) Div(v Expr) *Expr { return combine(self, DIV, v) }`
			`func (self Expr) Mod(v Expr) *Expr { return combine(self, MOD, v) }`
			`func (self Expr) And(v Expr) *Expr { return combine(self, AND, v) }`
			`func (self Expr) Or (v Expr) *Expr { return combine(self, OR , v) }`
			`func (self Expr) Xor(v Expr) *Expr { return combine(self, XOR, v) }`
			`func (self Expr) Shl(v Expr) *Expr { return combine(self, SHL, v) }`
			`func (self Expr) Shr(v Expr) *Expr { return combine(self, SHR, v) }`
			`func (self Expr) Pow(v Expr) *Expr { return combine(self, POW, v) }`
			`func (self Expr) Not() Expr { return combine(self, NOT, nil) }`
			`func (self Expr) Neg() Expr { return combine(self, NEG, nil) }`

			`/ Expression Evaluator /`

			`var binaryEvaluators = [256]func(int64, int64) (int64, error) {`
			`ADD: func(a, b int64) (int64, error) { return a + b, nil },`
			`SUB: func(a, b int64) (int64, error) { return a - b, nil },`
			`MUL: func(a, b int64) (int64, error) { return a * b, nil },`
			`DIV: idiv,`
			`MOD: imod,`
			`AND: func(a, b int64) (int64, error) { return a & b, nil },`
			`OR: func(a, b int64) (int64, error) { return a \| b, nil },`
			`XOR: func(a, b int64) (int64, error) { return a ^ b, nil },`
			`SHL: func(a, b int64) (int64, error) { return a << b, nil },`
			`SHR: func(a, b int64) (int64, error) { return a >> b, nil },`
			`POW: ipow,`
			`}`

			`func (self *Expr) eval() (int64, error) {`
			`var lhs int64`
			`var rhs int64`
			`var err error`
			`var vfn func(int64, int64) (int64, error)`

			`/* evaluate LHS */`
			`if lhs, err = self.Left.Evaluate(); err != nil {`
			`return 0, err`
			`}`

			`/* check for unary operators */`
			`switch self.Op {`
			`case NOT: return self.unaryNot(lhs)`
			`case NEG: return self.unaryNeg(lhs)`
			`}`

			`/* check for operators */`
			`if vfn = binaryEvaluators[self.Op]; vfn == nil {`
			`panic("invalid operator: " + self.Op.String())`
			`}`

			`/* must be a binary expression */`
			`if self.Right == nil {`
			`panic("operator " + self.Op.String() + " is a binary operator")`
			`}`

			`/* evaluate RHS, and call the operator */`
			`if rhs, err = self.Right.Evaluate(); err != nil {`
			`return 0, err`
			`} else {`
			`return vfn(lhs, rhs)`
			`}`
			`}`

			`func (self *Expr) unaryNot(v int64) (int64, error) {`
			`if self.Right == nil {`
			`return ^v, nil`
			`} else {`
			`panic("operator Invert is an unary operator")`
			`}`
			`}`

			`func (self *Expr) unaryNeg(v int64) (int64, error) {`
			`if self.Right == nil {`
			`return -v, nil`
			`} else {`
			`panic("operator Negate is an unary operator")`
			`}`
			`}`