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dim Area = Length 2 dim Volume = Length 3 dim Velocity = Length/Time dim Speed = Velocity dim Acceleration = Velocity/Time dim Momentum = Mass Velocity dim AngularVelocity = Angle/Second dim AngularAcceleration = Angle/Second 2 dim WaveNumber = 1/Length dim MassDensity = Mass/Volume dim CurrentDensity = Current/Area dim MagneticFieldStrength = Current/Length dim Luminance = LuminousIntensity/Area dim Work = Energy dim Action = Energy Time dim MomentOfForce = Force Length dim Torque = MomentOfForce dim MomentOfInertia = Mass Length 2 dim Voltage = ElectricPotential dim Conductivity = Conductance/Length dim Resistivity = 1/Conductivity dim Impedance = Resistance dim Permittivity = Capacitance/Length dim Permeability = Inductance/Length dim Irradiance = Power/Area dim RadiantIntensity = Power/SolidAngle dim Radiance = Power/Area SolidAngle dim AbsorbedDoseRate = AbsorbedDose/Time dim CatalyticConcentration = CatalyticActivity/Volume dim HeatCapacity = Energy/Temperature dim Entropy = Energy/Temperature dim DynamicViscosity = Pressure Time dim SpecificHeatCapacity = Energy/Mass Temperature dim SpecificEntropy = Energy/Mass Temperature dim SpecificEnergy = Energy/Mass dim ThermalConductivity = Energy/Length Temperature dim EnergyDensity = Energy/Volume dim ElectricFieldStrength = ElectricPotential/Length dim ElectricChargeDensity = ElectricCharge/Volume dim ElectricFlux = ElectricCharge dim ElectricFluxDensity = ElectricCharge/Area dim MolarEnergy = Energy/AmountOfSubstance dim MolarHeatCapacity = Energy/AmountOfSubstance Temperature dim MolarEntropy = Energy/AmountOfSubstance Temperature dim RadiationExposure = ElectricCharge/Mass (∗ Units outside the SI that are accepted for use with the SI ∗) unit minute minutes min: Time unit hour hours h: Time unit day days d: Time unit degreeOfAngle degrees: Angle unit minuteOfAngle minutesOfAngle:Angle 208
unit secondOfAngle secondsOfAngle: Angle SI unit metricTon metricTons tonne tonnes t:Mass SI unit liter liters L: Volume 29.2 Fortress.EnglishUnits import { Length, Area, Volume, Time, Mass, millimeters, liters, grams } from Fortress.SIUnits unit inch inches: Length unit foot feet: Length unit yard yards:Length unit mile miles: Length unit rod rods: Length unit furlong furlongs: Length unit surveyFoot surveyFeet: Length unit surveyMile surveyMiles: Length unit nauticalMile nauticalMiles:Length unit knot knots: Speed unit week weeks: Time unit fortnight fortnights: Time unit microfortnight microfortnights unit gallon gallons: Volume unit fluidQuart fluidQuarts:Volume unit fluidPint fluidPints: Volume unit fluidCup fluidCups: Volume Unit fluidOunce fluidOunces:Volume unit fluidDram fluidDrams: Volume unit minim minims: Volume unit traditionalTablespoon traditionalTablespoons: Volume unit traditionalTeaspoon traditionalTeaspoons: Volume unit federalTablespoon federalTablespoons: Volume unit federalTeaspoon federalTeaspoons: Volume unit dryPint dryPints: Volume unit dryQuart dryQuarts: Volume unit peck pecks: Volume unit bushel bushels: Volume unit acre: Area unit imperialGallon: Volume unit imperialQuart: Volume unit imperialPint: Volume unit imperialGill:Volume unit imperialFluidOunce: Volume unit imperialFluidDrachm: Volume unit imperialFluidDRam : Volume unit imperialFluidScruple:Volume unit imperialMinim: Volume unit pound pounds lb lbs: Mass 209
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The Fortress Language Specification
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4 Evaluation 36 4.1 Values . . . .
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12 Functions 85 12.1 Function Decla
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17.7 Coercions for Tuple and Arrow
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IV Fortress for Library Writers 214
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40.10The Trait Fortress.Core.Binary
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Chapter 1 Introduction The Fortress
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A note on the presented libraries i
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component HelloWorld export Executa
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foo:String → () baz: String → S
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fortress upgrade Gary with Ralph No
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halve(x : R64) : R64 = x/2 Predicta
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while x < 10 do print x x += 1 end
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It is also possible to convert a me
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factorial(n) = ∏ i←1:n i This f
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In both methods cons and append , t
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default distributions will provide
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Chapter 3 Programs A program consis
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Chapter 10), a literal (see Section
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(discussed in Section 13.13) to a s
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Chapter 5 Lexical Structure A Fortr
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U+0021 EXCLAMATION MARK ! U+0023 NU
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If a character (or any other syntac
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BIG SI unit absorbs abstract also a
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escape sequences are useful for ASC
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5.14.1 Multicharacter Enclosing Ope
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Note: the elegant way to write Avog
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• top-level variable declarations
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declares id to be a mutable variabl
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several new variables. This syntax
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Chapter 7 Names Names are used to r
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7.3 Qualified Names Fortress provid
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Fortress also allows coercion betwe
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• element types of a tuple type c
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TypeAlias ::= type Id [StaticParams
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‘}’. If such a clause contains
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Note that a trait declaration inher
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the parametric trait WrappedDiction
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Chapter 10 Objects An object is a v
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FldDef ::= FldMod ∗ Id [IsType] (
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Chapter 11 Static Parameters Trait,
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11.5 Operator and Identifier Parame
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Chapter 12 Functions Functions are
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swap(x :Object, y : Object) = (y, x
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A function declaration may be separ
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Chapter 13 Expressions Fortress is
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Negating the literal 0 produces a s
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the function is evaluated with the
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13.10 Assignments Syntax: Expr ::=
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treeSum(t : TreeLeaf) = 0 treeSum(t
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Several common mathematical operato
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The body of each iteration is run i
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to the value of the condition expre
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An atomic expression consists of th
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13.26 Try Expressions Syntax: Flow
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13.27.2 Static Expressions and Valu
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A = [1 2 3; 4 5 6; 7 8 9] then A 1,
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evaluates to the set {0, 4, 16} Map
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ignore(f x) is equivalent to: f x;
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trait CheckedException extends { Ex
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Chapter 15 Overloading and Multiple
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e called with. In other words, we e
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Chapter 16 Operators Operators are
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• “ordinary” operators: + −
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left context whitespace operator fi
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The rules below are designed to for
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16.8.3 Enclosing Operators When use
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16.8.9 Intersection, Union, and Set
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Chapter 17 Conversions and Coercion
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17.3 Coercion Invocations One may i
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arguments nor with variable number
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trait B extends A end trait C exten
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a new coercion in a subexpression
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for tokens. For readability, plural
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Chapter 19 Tests and Properties For
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19.5 Test Suites In order to allow
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Chapter 20 Type Inference Type infe
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3. If a i is a functional applicati
Page 157 and 158: 21.2 Programming Discipline If Fort
Page 159 and 160: Here the call f(a, a) ends up setti
Page 161 and 162: 2. Ancestors, dynamically ordered b
Page 163 and 164: The ways in which fortresses are ac
Page 165 and 166: Component equivalence is determined
Page 167 and 168: 22.5 Type Inference for Components
Page 169 and 170: Fortress.IO Fortress.Crypto IronLin
Page 171 and 172: execute(componentName:String, args:
Page 173 and 174: 3. If the replacement does not expo
Page 175 and 176: This method runs all test functions
Page 177 and 178: Fortress.IO Fortress.Crypto Fortres
Page 179 and 180: Part III Fortress APIs and Document
Page 181 and 182: 23.1.3 hash(maxval: N64): N64 23.1.
Page 183 and 184: opr =(self,other: Boolean):Boolean
Page 185 and 186: 24.1.20 getter hashCode(): N64 24.1
Page 187 and 188: False: BooleanInterval Uncertain: B
Page 189 and 190: 24.2.11 opr ∧(self,other: Boolean
Page 191 and 192: 24.2.19 possibly(self): Boolean 24.
Page 193 and 194: Chapter 25 Numbers 25.1 Rational Nu
Page 195 and 196: opr ⌈self ⌉: N realpart(self):
Page 197 and 198: 25.1.11 opr (self,other: Q):Boolean
Page 199 and 200: 25.1.26 floor(self): Z 25.1.27 opr
Page 201 and 202: Chapter 26 Negated Relational Opera
Page 203 and 204: 26.1.26 opr ⊀T extends BinaryPred
Page 205 and 206: 27.3 The Trait Fortress.Standard.Un
Page 207: Chapter 29 Dimensions and Units 29.
Page 211 and 212: Chapter 30 Tests 30.1 The Object Fo
Page 213 and 214: 31.2 Convenience Types An optional
Page 215 and 216: Chapter 32 Parallelism and Locality
Page 217 and 218: y evaluating the two elements of th
Page 219 and 220: There is a DefaultDistribution whic
Page 221 and 222: v = spawn at a.region(i) do a i end
Page 223 and 224: expr ∑ type wrapper ∑ body R,
Page 225 and 226: 32.8.3 Using Overloading to Adapt G
Page 227 and 228: Chapter 33 Overloaded Functional De
Page 229 and 230: coercions: T U ⇐⇒ T ♦ U ∧
Page 231 and 232: The More Specific Rule for Function
Page 233 and 234: An infix/multifix operator declarat
Page 235 and 236: may be so defined except ordinary p
Page 237 and 238: and here some of these computed dim
Page 239 and 240: unit name 1 name 2 name 3 : . . . u
Page 241 and 242: Chapter 36 Support for Domain-Speci
Page 243 and 244: Because syntax expanders are define
Page 245 and 246: Part V Fortress APIs and Documentat
Page 247 and 248: property ∀(a:T) ¬(a ∼ a) end A
Page 249 and 250: trait PartialOrderOperatorsT extend
Page 251 and 252: The HasMinimalElement trait specifi
Page 253 and 254: The trait Commutative requires the
Page 255 and 256: A value e is a left identity for a
Page 257 and 258: trait ApproximatelyHasInverses T ex
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end extends { ApproximateCommutativ
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A default definition is provided fo
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trait RationalQuantityunit U absorb
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(self,other:RationalQuantityU,ninf
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38.2.4 getter hashCode(): Z64 38.2.
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Chapter 39 Components and APIs We d
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Chapter 40 Memory Sequences and Bin
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updatenat k(j: IntegerStatick, v: T
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40.1.12 update(j:IndexInt, v: T): L
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40.3.2 opr nat m[r:RangeOfStaticSiz
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40.5 The Trait Fortress.Core.Binary
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40.5.5 bit(m:IndexInt): Bit The res
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40.6 The Trait Fortress.Core.Binary
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40.6.4 opr nat m[r:RangeOfStaticSiz
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40.6.16 opr ‖ nat m,bool bigEndia
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countLeadingZeroBits():IndexInt cou
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40.7.41 signedShift(j:IndexInt):T 4
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40.8.6 signedDivide(other: T,overfl
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littleEndian():BinaryEndianLinearEn
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40.9.16 opr ‖ nat m,nat radix,nat
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v: BinaryEndianWordb,bigEndianBytes
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40.10.9 opr nat m[r:RangeOfStaticSi
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40.10.24 splitnat b ′ () : Binary
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itAnd(selfStart: IndexInt,source:T,
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40.13.2 wrappingAdd(selfStart: Inde
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40.13.30 unsignedMax(selfStart: Ind
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40.13.55 gatherBits(selfStart:Index
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Appendix A Fortress Calculi A.1 Bas
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Values, evaluation contexts, redexe
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Expression typing: p; ∆; Γ ⊢ e
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α, β type variables f method name
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Function/method name lookup: Fname(
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One owner for all the visible metho
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Traits defining a method: defining
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Values, evaluation contexts, and re
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Valid function declarations: p ⊢
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Method definition lookup: visible p
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Values, intermediate expressions, e
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Field typing: p; ∆; Γ ⊢ vd ok
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Appendix B Overloaded Functional De
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Proof. We prove this for δ, but th
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Upgrade A predicate upg? takes two
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a is rendered as a foobar is render
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• If a portion is sub and another
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supercalifragilisticexpialidocious
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any alternative names, with undersc
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Appendix F Operator Precedence, Cha
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U+007C VERTICAL LINE | | U+2016 DOU
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The following two operators have th
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U+003D EQUALS SIGN = = EQ U+2243 AS
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U+22DD EQUAL TO OR GREATER-THAN U+2
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U+2289 NEITHER A SUPERSET OF NOR EQ
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F.4.8 Miscellaneous Relational Oper
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U+21A5 UPWARDS ARROW FROM BAR U+21A
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U+2224 DOES NOT DIVIDE ∤ U+2225 P
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U+27F8 LONG LEFTWARDS DOUBLE ARROW
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U+2960 UPWARDS HARPOON WITH BARB LE
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U+29ED BLACK CIRCLE WITH DOWN ARROW
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Appendix G Concrete Syntax In this
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Extends ::= extends TraitTypes Excl
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StaticParam ::= Id [Extends] [absor
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Value ::= Literal | fn ValParam [Is
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Appendix H Generated Concrete Synta
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-> fn_decl -> object_decl -> var_de
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-> id extends_opt absorbs_opt -> "n
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-> w "excludes" w type_ref_list com
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-> obj_decl_body_elem br obj_decl_b
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-> op wr op_follows_op_w -> op wr e
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-> no_space_op_expr_result no_space
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id_opt -> -> w id with_opt -> -> w
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-> unpasting_elem rect_separator un
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-> "}" comprehension -> set_compreh
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-> do_expr -> for_expr -> spawn_exp
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-> type_ref -> "(" w type_ref w ","
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enc -> enc_literal op_or_enc -> op
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Bibliography [1] O. Agesen, L. Bak,
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