;;; -*- mode:gate -*- =node: Rational function - TO - Rubout handler =index: @Rational function, definition|(NUMBERS-2)Numeric Type Conversions|(NUMBERS-0)Numbers|149|m| @Rationalize function, definition|(NUMBERS-2)Numeric Type Conversions|(NUMBERS-0)Numbers|149|m| @Rationalp function, definition|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|012|m| @Ratio|(NUMBERS-1)Introduction to Numbers|(NUMBERS-0)Numbers|135|c| @Raw pathname components|(FILENAMES-1)Raw Components and Interchange Components|(FILENAMES-0)Naming of Files|549|c| @Read macro characters|(READPRINT-4)Read-Macro Characters|(READPRINT-0)Expression Input and Output|539|c| @Read-eval-print loop|(MISCELL-2)The Lisp Listen Loop|(MISCELL-0)Miscellaneous Useful Functions|795|c| @Read-macro characters|(READPRINT-4)Read-Macro Characters|(READPRINT-0)Expression Input and Output|539|r| @Reader sharp-sign constructs|(READPRINT-2)Sharp-sign Constructs|(READPRINT-0)Expression Input and Output|521-527|r| @Reader, what it accepts|(READPRINT-2)What the Reader Accepts|(READPRINT-0)Expression Input and Output|516-527|r| @Reader|(READPRINT-2)What the Reader Accepts|(READPRINT-0)Expression Input and Output|516|c| @Reading, use in creating symbols|(SYMBOLS-1)Creating Symbols|(SYMBOLS-0)Symbols|133|m| @Reading|(READPRINT-3)Expression Input Functions|(READPRINT-0)Expression Input and Output|530|c| @Readtable attribute, use to specify Common Lisp|(INTRO-1)Common Lisp Support|(INTRO-0)Introduction|008|m| @Readtable data type specifier, definition|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|018|m| @Readtable variable, use to specify Common Lisp|(INTRO-1)Common Lisp Support|(INTRO-0)Introduction|008|m| @Readtable, description and use|(READPRINT-4)The Readtable|(READPRINT-0)Expression Input and Output|535-539|r| @Readtable|(READPRINT-4)The Readtable|(READPRINT-0)Expression Input and Output|535|c| @Real data type specifier, definition|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|015|m| @Realp function, definition|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|012|m| @Realpart function, definition|(NUMBERS-2)Complex Number Functions|(NUMBERS-0)Numbers|146|m| @Record (structure)|(DEFSTRUCT-1)Introduction to Structure Macros|(DEFSTRUCT-0)Defstruct|372|c| @Recursion, as Lisp control flow structure|(FLOWCTL-1)Introduction to Flow of Control|(FLOWCTL-0)Flow of Control|062|m| @Recursion, tail, definition|(EVAL-4)Tail Recursion|(EVAL-0)Evaluation|055|m| @Recursion|(FLOWCTL-1)Introduction to Flow of Control|(FLOWCTL-0)Flow of Control|062|c| @Regions, as components of areas|(AREAS-1)Introduction to Areas|(AREAS-0)Areas|296|r| @Regions, as components of areas|(AREAS-1)Introduction to Areas|(AREAS-0)Areas|296|r| @Regular PDL, as component of stack group|(STACKGROUPS-1)Introduction to Stack Groups|(STACKGROUPS-0)Stack Groups|256|r| @Regular pdl|(STACKGROUPS-1)Introduction to Stack Groups|(STACKGROUPS-0)Stack Groups|256|c| @Rem function, definition|(MANLISTSTR-2)Lists as Tables|(MANLISTSTR-0)Manipulating List Structure|105|m| @Rem-if function, definition|(MANLISTSTR-2)Lists as Tables|(MANLISTSTR-0)Manipulating List Structure|106|m| @Rem-if-not function, definition|(MANLISTSTR-2)Lists as Tables|(MANLISTSTR-0)Manipulating List Structure|106|m| @Remainder function, definition|(NUMBERS-1)Arithmetic|(NUMBERS-0)Numbers|144|m| @Remf function, definition|(MANLISTSTR-2)Property Lists|(MANLISTSTR-0)Manipulating List Structure|115|m| @Remhash function, definition|(MANLISTSTR-3)Hash Table Functions|(MANLISTSTR-0)Manipulating List Structure|119|m| @Remote disk protocol, chaosnet|(CHAOSNET-2)Remote Disk|(CHAOSNET-0)The Chaosnet|632|r| @Remove function, definition|(MANLISTSTR-2)Lists as Tables|(MANLISTSTR-0)Manipulating List Structure|105|m| @Remove items from a list, functions which|(MANLISTSTR-2)Lists as Tables|(MANLISTSTR-0)Manipulating List Structure|102|m| @Remove items from a list, functions which|(MANLISTSTR-2)Lists as Tables|(MANLISTSTR-0)Manipulating List Structure|104-106|m| @Remprop function, definition|(MANLISTSTR-2)Property Lists|(MANLISTSTR-0)Manipulating List Structure|115|m| @Remq function, definition|(MANLISTSTR-2)Lists as Tables|(MANLISTSTR-0)Manipulating List Structure|105|m| @Rename-within|(FUNCTIONS-2)Rename-Within Encapsulations|(FUNCTIONS-0)Functions|249|c| @Required parameters|(EVAL-3)Introduction to Functions|(EVAL-0)Evaluation|039|c| @Resource data structure, accessing|(MANLISTSTR-3)Accessing the Resource Data Structure|(MANLISTSTR-0)Manipulating List Structure|127|m| @Resource objects, allocating|(MANLISTSTR-3)Allocating Resource Objects|(MANLISTSTR-0)Manipulating List Structure|126-127|m| @Resource-in-use-p function, definition|(MANLISTSTR-3)Accessing the Resource Data Structure|(MANLISTSTR-0)Manipulating List Structure|127|m| @Resource-n-objects function, definition|(MANLISTSTR-3)Accessing the Resource Data Structure|(MANLISTSTR-0)Manipulating List Structure|127|m| @Resource-object function, definition|(MANLISTSTR-3)Accessing the Resource Data STructure|(MANLISTSTR-0)Manipulating List Structure|127|m| @Resource-parameters function, definition|(MANLISTSTR-3)Accessing the Resource Data Structure|(MANLISTSTR-0)Manipulating List Structure|127|m| @Resource-parametizer function, definition|(MANLISTSTR-3)Accessing the Resource Data Structure|(MANLISTSTR-0)Manipulating List Structure|127|m| @Resources, defining|(MANLISTSTR-3)Defining Resources|(MANLISTSTR-0)Manipulating List Structure|124-126|m| @Resources, fast pseudo|(MANLISTSTR-3)Fast Pseudo-Resources|(MANLISTSTR-0)Manipulating List Structure|128|m| @Rest parameters|(EVAL-3)Introduction to Functions|(EVAL-0)Evaluation|039|c| @Restriction types for arrays, definition|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|017|m| @Restriction types for numbers, definition|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|016|m| @Resume handlers|(DEBUGGING-3)Nonlocal Proceed Types|(DEBUGGING-0)Errors and Debugging|723|c| @Resume operation for stack groups, components of|(STACKGROUPS-1)Introduction to Stack Groups|(STACKGROUPS-0)Stack Groups|256|r| @Resumer name, as way of resuming stack groups|(STACKGROUPS-1)Resuming of Stack Groups|(STACKGROUPS-0)Stack Groups|257|r| @Resumer|(STACKGROUPS-1)Resuming of Stack Groups|(STACKGROUPS-0)Stack Groups|257|c| @Resuming stack groups|(STACKGROUPS-1)Resuming of Stack Groups|(STACKGROUPS-0)Stack Groups|257-258|r| @Resumption, as operation of making a stack group current|(STACKGROUPS-1)Introduction to Stack Groups|(STACKGROUPS-0)Stack Groups|256|r| @Return non-local exit, role in unbinding variables|(EVAL-1)Variables and Bindings|(EVAL-0)Evaluation|025|m| @Return special form, definition|(FLOWCTL-2)Static Non-Local Exits|(FLOWCTL-0)Flow of Control|077|m| @Return-from sepcial form, definition|(FLOWCTL-2)Static Non-Local Exits|(FLOWCTL-0)Flow of Control|077|m| @Return-from special form as lexical (static) non-local exit|(FLOWCTL-1)Introduction to Flow of Control|(FLOWCTL-0)Flow of Control|062|m| @Return-list special form, definition|(FLOWCTL-2)Static Non-Local Exits|(FLOWCTL-0)Flow of Control|078|m| @Returning multiple values|(EVAL-4)Multiple Values|(EVAL-0)Evaluation|055|c| @Revappend function, definition|(MANLISTSTR-1)Lists|(MANLISTSTR-0)Manipulating List Structure|095|m| @Rot function, definition|(NUMBERS-2)Logical Operations on Numbers|(NUMBERS-0)Numbers|154|m| @Rotate function (rot)|(NUMBERS-2)Logical Operations on Numbers|(NUMBERS-0)Numbers|154|m| @Rotatef macro, definition|(EVAL-2)setf|(EVAL-0)Evaluation|037|m| @Round function, definition|(NUMBERS-1)Arithmetic|(NUMBERS-0)Numbers|143|m| @Rplaca function, definition|(MANLISTSTR-1)Conses|(MANLISTSTR-0)Manipulating List Structure|089|m| @Rplaca, use with arrays|(ARRAYS-1)Array Types|(ARRAYS-0)Arrays|163|m| @Rplacd function, definition|(MANLISTSTR-1)Conses|(MANLISTSTR-0)Manipulating List Structure|089|m| @Rplacd, as error if used with stack list|(MANLISTSTR-2)Stack Lists|(MANLISTSTR-0)Manipulating List Structure|113|m| @Rplacd-wrong-representation-type condition, definition|(MANLISTSTR-2)Stack Lists|(MANLISTSTR-0)Manipulating List Structure|113|m| @Rubout handler|(IOSYSTEM-4)Rubout Handling|(IOSYSTEM-0)The I/O System|500|c| =node: Run reason - TO - Si:change-indirect-array =index: @Run reason|(PROCESSES-1)Introduction|(PROCESSES-0)Processes|682|c| @S-expression|(INTRO-1)Notational Conventions and Helpful Notes|(INTRO-0)Introduction|005|c| @Samefringe problem, as example of the use of stack groups|(STACKGROUPS-1)An Example of Stack Groups|(STACKGROUPS-0)Stack Groups|265-266|r| @Sassoc function, definition|(MANLISTSTR-2)Stack Lists|(MANLISTSTR-0)Manipulating List Structure|112|m| @Sassq function, definition|(MANLISTSTR-2)Association Lists|(MANLISTSTR-0)Manipulating List Structure|111|m| @Satisfies data type specifiers, definition|(PRIMOBJTYPE-1)User-Defined Type Specifiers|(PRIMOBJTYPE-0)Primitive Object Types|019|m| @Sbit function, definition|(ARRAYS-2)Accessing Array Elements|(ARRAYS-0)Arrays|172|m| @Scale-float function, definition|(NUMBERS-2)Floating Point Numbers|(NUMBERS-0)Numbers|150|m| @Schar function, definition|(ARRAYS-2)Accessing Array Elements|(ARRAYS-0)Arrays|172|m| @Scheduler, special stack group for managing processes|(STACKGROUPS-1)Resuming of Stack Groups|(STACKGROUPS-0)Stack Groups|258|r| @Scheduler, use in managing processes|(PROCESSES-1)The Scheduler|(PROCESSES-0)Processes|683-686|r| @Scheduler|(PROCESSES-1)The Scheduler|(PROCESSES-0)Processes|683|c| @Scope of binding|(EVAL-1)Variables and Bindings|(EVAL-0)Evaluation|025|c| @Scope of variable binding, definition|(EVAL-1)Variables and Bindings|(EVAL-0)Evaluation|025|m| @Screen bit save arrays, how stored|(ARRAYS-3)Order of Array Elements|(ARRAYS-0)Arrays|182|m| @Search for items in a list, functions which|(MANLISTSTR-2)Lists as Tables|(MANLISTSTR-0)Manipulating List Structure|102-106|m| @Select data type specifier, definition|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|015|m| @Select macro, definition|(FLOWCTL-1)Conditionals|(FLOWCTL-0)Flow of Control|064|m| @Select-match macro, definition|(FLOWCTL-1)Conditionals|(FLOWCTL-0)Flow of Control|064|m| @Select-method function, as alist of symbols and functions|(FUNCTIONS-1)Other Kinds of functions|(FUNCTIONS-0)Functions|232|r| @Selector macro, definition|(FLOWCTL-1)Conditionals|(FLOWCTL-0)Flow of Control|064|m| @Selectq macro, definition|(FLOWCTL-1)Conditionals|(FLOWCTL-0)Flow of Control|065|m| @Selectq, as Lisp conditional control flow structure|(FLOWCTL-1)Introduction to Flow of Control|(FLOWCTL-0)Flow of Control|062|m| @Selectq-every macro, definition|(FLOWCTL-1)Conditionals|(FLOWCTL-0)Flow of Control|064|m| @Send function, definition and usage|(FLAVOR-1)Modularity|(FLAVOR-0)Objects, Message Passing, and Flavors|403|m| @Send protocol, chaosnet|(CHAOSNET-2)Send|(CHAOSNET-0)The Chaosnet|629|r| @Sequence break, as trigger for resuming the scheduler|(STACKGROUPS-1)Resuming of Stack Groups|(STACKGROUPS-0)Stack Groups|258|r| @Sequence data type specifier, definition|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|015|m| @Sequence iteration in a loop|(LOOP-2)Sequence Iteration|(LOOP-0)The LOOP Iteration Macro|366|r| @Sequence operations, primitive|(GENERIC-1)Introduction to Generic Sequence Functions|(GENERIC-0)Generic Sequence Functions|188|r| @Sequence operations, simple|(GENERIC-1)Primitive Sequence Operations|(GENERIC-0)Generic Sequence Functions|189-191|r| @Sequence type specifier, use with generic sequence functions|(GENERIC-1)Introduction to Generic Sequence Functions|(GENERIC-0)Generic Sequence Functions|188|r| @Sequences, concatenating|(GENERIC-1)Primitive Sequence Operations|(GENERIC-0)Generic Sequence Functions|189 |r| @Sequences, copying|(GENERIC-1)Primitive Sequence Operations|(GENERIC-0)Generic Sequence Functions|189|r| @Sequences, creating|(GENERIC-1)Introduction to Generic Sequence Functions|(GENERIC-0)Generic Sequence Functions|188|r| @Sequences, filling|(GENERIC-1)Primitive Sequence Operations|(GENERIC-0)Generic Sequence Functions|190|r| @Sequences, finding the length of|(GENERIC-1)Introduction to Generic Sequence Functions|(GENERIC-0)Generic Sequence Functions|188|r| @Sequences, mapping functions for generic|(GENERIC-1)Simple Sequence Operations|(GENERIC-0)Generic Sequence Functions|191|r| @Sequences, obtaining a subset of|(GENERIC-1)Primitive Sequence Operations|(GENERIC-0)Generic Sequence Functions|189|r| @Sequences, replacing elements in a|(GENERIC-1)Primitive Sequence Operations|(GENERIC-0)Generic Sequence Functions|189|r| @Sequences, retrieving elements of|(GENERIC-1)Introduction to Generic Sequence Functions|(GENERIC-0)Generic Sequence Functions|188|r| @Sequences, reversing, destructive|(GENERIC-1)Primitive Sequence Operations|(GENERIC-0)Generic Sequence Functions|190|r| @Sequences, reversing, non-destructive|(GENERIC-1)Primitive Sequence Operations|(GENERIC-0)Generic Sequence Functions|190|r| @Sequential binding of variables, using let special form for|(EVAL-1)Variable Binding Constructs|(EVAL-0)Evaluation|031|m| @Sequential vs parallel binding and initialization (in loop)|(LOOP-1)Clauses|(LOOP-0)The LOOP Iteration Macro|352|c| @Set function, definition|(SYMBOLS-1)The Value Cell|(SYMBOLS-0)Symbols|129|m| @Set-difference function, definition|(MANLISTSTR-2)Lists as Sets|(MANLISTSTR-0)Manipulating List Structure|109|m| @Set-exclusive-or function, definition|(MANLISTSTR-2)Lists as Sets|(MANLISTSTR-0)Manipulating List Structure|109|m| @Set-globally function, definition|(EVAL-1)The Global Binding|(EVAL-0)Evaluation|035|m| @Setf as preferred way to store function definitions into a symbol|(SYMBOLS-1)The Function Cell|(SYMBOLS-0)Symbols|130|m| @Setf special form, definition|(EVAL-2)setf|(EVAL-0)Evaluation|036|m| @Setf special form, use with structure acessing macros|(EVAL-2)setf|(EVAL-0)Evaluation|036|m| @Setf, extending the functionality of|(MACROS-3)Extending setf and locf|(MACROS-0)Macros|345|r| @Setf|(EVAL-2)Introduction to Generalized Variables|(EVAL-0)Evaluation|035|c| @Setplist function, definition|(SYMBOLS-1)The Property List|(SYMBOLS-0)Symbols|131|m| @Setq special form, definition|(EVAL-1)Setting Variables|(EVAL-0)Evaluation|030|m| @Setq-globally macro, definition|(EVAL-1)The Global Binding|(EVAL-0)Evaluation|035|m| @Setq-globally special form, use in setting permanent global bindings|(EVAL-1)Variables and Bindings|(EVAL-0)Evaluation|025|m| @Sets, lists as unordered, functions which manipulate|(MANLISTSTR-2)Lists as Sets|(MANLISTSTR-0)Manipulating List Structure|107-109|m| @Sets|(MANLISTSTR-2)Lists as Sets|(MANLISTSTR-0)Manipulating List Structure|107|c| @Setting a variable, as way to change its value|(EVAL-1)Variables and Bindings|(EVAL-0)Evaluation|025|m| @Setting variables, functions which do it|(EVAL-1)Setting Variables|(EVAL-0)Evaluation|030|m| @Shadowing and name conflicts|(PACKAGES-2)Shadowing and Name Conflicts|(PACKAGES-0)Packages|647-648|r| @Shadowing of bindings|(EVAL-1)Variables and Bindings|(EVAL-0)Evaluation|025|c| @Shadowing of symbols|(PACKAGES-2)Shadowing and Name Conflicts|(PACKAGES-0)Packages|647|c| @Shadowing of variables, definition|(EVAL-1)Variables and Bindings|(EVAL-0)Evaluation|025|m| @Sharp sign reader macros|(READPRINT-2)Sharp-sign Constructs|(READPRINT-0)Expression Input and Output|521|c| @Sharp-sign constructs, reader|(READPRINT-2)Sharp-sign Constructs|(READPRINT-0)Expression Input and Output|521-527|r| @Shift functions|(NUMBERS-2)Logical Operations on Numbers|(NUMBERS-0)Numbers|152-154|m| @Shiftf macro, definition|(EVAL-2)setf|(EVAL-0)Evaluation|037|m| @Short float data type, definition|(PRIMOBJTYPE-1)Data Types|(PRIMOBJTYPE-0)Primitive Object Types|009|m| @Short float|(NUMBERS-1)Introduction to Numbers|(NUMBERS-0)Numbers|135|c| @Short-float data type specifier, definition|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|015|m| @Short-float data type specifier, definition|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|016|m| @Short-float function, definition|(NUMBERS-2)Numeric Type Conversions|(NUMBERS-0)Numbers|149|m| @Short-float number type, definition|(NUMBERS-1)Introduction to Numbers|(NUMBERS-0)Numbers|135|m| @Short-float-epsilon constant, definition|(NUMBERS-2)Random Numbers|(NUMBERS-0)Numbers|159|m| @Short-float-negative-epsilon constant, definition|(NUMBERS-2)Random Numbers|(NUMBERS-0)Numbers|159|m| @Si:change-indirect-array function, definition|(ARRAYS-2)Changing the Size of an Array|(ARRAYS-0)Arrays|177|m| =node: Si:dump-warnings - TO - Stack group, regular PDL as component of =index: @Si:dump-warnings function, use to save compiler warnings|(COMPILER-1)Using Compiler Warnings|(COMPILER-0)The Compiler|308|r| @Si:eval1 function, definition|(EVAL-4)Some Functions and Special Forms|(EVAL-0)Evaluation|046|m| @Si:random-create-array function, definition|(NUMBERS-2)Random Numbers|(NUMBERS-0)Numbers|158|m| @Si:random-in-range function, definition|(NUMBERS-2)Random Numbers|(NUMBERS-0)Numbers|157|m| @Si:random-initialize function, definition|(NUMBERS-2)Random Numbers|(NUMBERS-0)Numbers|158|m| @Si:resource-in-use-p function, definition|(MANLISTSTR-3)Accessing the Resource Data Structure|(MANLISTSTR-0)Manipulating List Structure|127|m| @Si:resource-n-objects function, definition|(MANLISTSTR-3)Accessing the Resource Data Structure|(MANLISTSTR-0)Manipulating List Structure|127|m| @Si:resource-object function, definition|(MANLISTSTR-3)Accessing the Resource Data Structure|(MANLISTSTR-0)Manipulating List Structure|127|m| @Si:resource-parameters function, definition|(MANLISTSTR-3)Allocating Resource Objects|(MANLISTSTR-0)Manipulating List Structure|126|m| @Si:resource-parametizer function, definition|(MANLISTSTR-3)Allocating Resource Objects|(MANLISTSTR-0)Manipulating List Structure|126|m| @Signal names|(DEBUGGING-2)Creating Condition Instances|(DEBUGGING-0)Errors and Debugging|713|c| @Signaling conditions|(DEBUGGING-2)Signaling Conditions|(DEBUGGING-0)Errors and Debugging|708|c| @Signed-byte data type specifier, definition|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|016|m| @Signp function, definition|(NUMBERS-1)Numeric Predicates|(NUMBERS-0)Numbers|138|m| @Signum function, definition|(NUMBERS-2)Complex Number Functions|(NUMBERS-0)Numbers|147|m| @Simple array|(ARRAYS-1)Introduction to Arrays|(ARRAYS-0)Arrays|162|c| @Simple process|(PROCESSES-2)Process Flavors|(PROCESSES-0)Processes|695|c| @Simple-array data type specifier, definition|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|017|m| @Simple-array data type specifier, definition|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|018|m| @Simple-bit-vector data type specifier, definition|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|017|m| @Simple-bit-vector data type specifier, definition|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|018|m| @Simple-bit-vector-p function, definition|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|013|m| @Simple-string data type specifier, definition|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|017|m| @Simple-string data type specifier, definition|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|018|m| @Simple-string-p function, definition|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|013|m| @Simple-vector data type specifier, definition|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|017|m| @Simple-vector data type specifier, definition|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|018|m| @Simple-vector-p function, definition|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|013|m| @Simultaneous linear equations, solving|(ARRAYS-3)Matrices and Systems of Linear Equations|(ARRAYS-0)Arrays|184|m| @Sin function, definition|(NUMBERS-2)Transcendental Functions|(NUMBERS-0)Numbers|148|m| @Sind function, definition|(NUMBERS-2)Transcendental Functions|(NUMBERS-0)Numbers|148|m| @Single-character symbol|(READPRINT-4)The Readtable|(READPRINT-0)Expression Input and Output|538|c| @Single-float data type specifier, definition|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|015|m| @Single-float data type specifier, definition|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|016|m| @Single-float number type, definition|(NUMBERS-1)Introduction to Numbers|(NUMBERS-0)Numbers|135|m| @Single-float-epsilon constant, definition|(NUMBERS-2)Random Numbers|(NUMBERS-0)Numbers|159|m| @Single-float-negative-epsilon constant, definition|(NUMBERS-2)Random Numbers|(NUMBERS-0)Numbers|160|m| @Sinh function, definition|(NUMBERS-2)Transcendental Functions|(NUMBERS-0)Numbers|148|m| @Site options|(MISCELL-4)Site Options and Host Table|(MISCELL-0)Miscellaneous Useful Functions|810|c| @Slot|(DEFSTRUCT-1)How to Use Defstruct|(DEFSTRUCT-0)Defstruct|374|c| @Small-float function, definition|(NUMBERS-2)Numeric Type Conversions|(NUMBERS-0)Numbers|149|m| @Small-floatp function, definition|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|012|m| @Solve function, definition|(ARRAYS-3)Matrices and Systems of Linear Equations|(ARRAYS-0)Arrays|184|m| @Some function, definition|(MANLISTSTR-2)Lists as Tables|(MANLISTSTR-0)Manipulating List Structure|106|m| @Source file and QFASL file, differences between|(COMPILER-1)Input to the Compiler|(COMPILER-0)The Compiler|303|m| @Source-level optimizers, compiler|(COMPILER-2)Compiler Source-Level Optimizers|(COMPILER-0)The Compiler|313-314|r| @Special binding, another name for dynamic binding|(EVAL-1)Variables and Bindings|(EVAL-0)Evaluation|026|m| @Special characters, definition of|(INTRO-1)Notational Conventions and Helpful Notes|(INTRO-0)Introduction|006|m| @Special declaration, use of request dynamic binding|(EVAL-1)Variables and Bindings|(EVAL-0)Evaluation|026|m| @Special form, definition|(EVAL-1)Introduction to Evaluation|(EVAL-0)Evaluation|024|m| @Special forms, as a list form|(EVAL-1)Introduction to Evaluation|(EVAL-0)Evaluation|024|m| @Special forms, functions to define|(FUNCTIONS-2)Function-Defining Special Forms|(FUNCTIONS-0)Functions|234-237|r| @Special forms, how to define|(FUNCTIONS-1)Special Forms and Functions|(FUNCTIONS-0)Functions|233|r| @Special forms, unacceptable in a mapping function|(FLOWCTL-2)Mapping|(FLOWCTL-0)Flow of Control|085|m| @Special pdl stack, use for dynamic binding|(EVAL-1)Variables and Bindings|(EVAL-0)Evaluation|029|m| @Special PDL, as component of stack group|(STACKGROUPS-1)Introduction to Stack Groups|(STACKGROUPS-0)Stack Groups|256|r| @Special pdl|(EVAL-1)Variables and Bindings|(EVAL-0)Evaluation|029|c| @Special pdl|(STACKGROUPS-1)Introduction to Stack Groups|(STACKGROUPS-0)Stack Groups|256|c| @Special special form, definition|(EVAL-4)Declarations|(EVAL-0)Evaluation|054|m| @Special system declaration, definition|(EVAL-4)Declarations|(EVAL-0)Evaluation|052|m| @Special variables, definition|(EVAL-1)Variables and Bindings|(EVAL-0)Evaluation|026|m| @Special variable|(COMPILER-1)Input to the Compiler|(COMPILER-0)The Compiler|305|c| @Special variable|(EVAL-1)Variables and Bindings|(EVAL-0)Evaluation|026|c| @Special-binding subprimitive|(SUBPRIMITIVES-2)Special-Binding Subprimitive|(SUBPRIMITIVES-0)Subprimitives|284|r| @Special-form-p function, definition|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|013|m| @Specialized array|(ARRAYS-1)Array Types|(ARRAYS-0)Arrays|163|c| @Sqrt function, definition|(NUMBERS-1)Arithmetic|(NUMBERS-0)Numbers|146|m| @Square root function, definition|(NUMBERS-1)Arithmetic|(NUMBERS-0)Numbers|146|m| @Stack frames, analyzing|(STACKGROUPS-1)Analyzing Stack Frames|(STACKGROUPS-0)Stack Groups|261-264|r| @Stack frames, effect of tail recursion on|(EVAL-4)Tail Recursion|(EVAL-0)Evaluation|055|m| @Stack frames, use in storing exical bindings|(EVAL-1)Variables and Bindings|(EVAL-0)Evaluation|029|m| @Stack group states|(STACKGROUPS-1)Stack Group States|(STACKGROUPS-0)Stack Groups|258-259|r| @Stack group switch, as operation to make a stack group current|(STACKGROUPS-1)Introduction to Stack Groups|(STACKGROUPS-0)Stack Groups|256|r| @Stack group, as Lisp object containing a computation and its internal state|(STACKGROUPS-1)Introduction to Stack Groups|(STACKGROUPS-0)Stack Groups|256|r| @Stack group, called as function|(FUNCTIONS-1)Other Kinds of functions|(FUNCTIONS-0)Functions|232|r| @Stack group, control stack as compoment of|(STACKGROUPS-1)Introduction to Stack Groups|(STACKGROUPS-0)Stack Groups|256|r| @Stack group, current, associated with currently running computation|(STACKGROUPS-1)Introduction to Stack Groups|(STACKGROUPS-0)Stack Groups|256|r| @Stack group, dynamic environment stack as component of|(STACKGROUPS-1)Introduction to Stack Groups|(STACKGROUPS-0)Stack Groups|256|r| @Stack group, regular PDL as component of|(STACKGROUPS-1)Introduction to Stack Groups|(STACKGROUPS-0)Stack Groups|256|r| =node: Stack groups, an example - TO - Structures, named =index: @Stack groups, an example|(STACKGROUPS-1)An Example of Stack Groups|(STACKGROUPS-0)Stack Groups|265-266|r| @Stack groups, creating|(STACKGROUPS-1)Stack Group Functions|(STACKGROUPS-0)Stack Groups|259|r| @Stack groups, initial function of|(STACKGROUPS-1)Introduction to Stack Groups|(STACKGROUPS-0)Stack Groups|256|r| @Stack groups, input and output in|(STACKGROUPS-1)Input/Output in Stack Groups|(STACKGROUPS-0)Stack Groups|264|r| @Stack groups, presetting the initial state|(STACKGROUPS-1)Introduction to Stack Groups|(STACKGROUPS-0)Stack Groups|256|r| @Stack groups, resuming|(STACKGROUPS-1)Resuming of Stack Groups|(STACKGROUPS-0)Stack Groups|257-258|r| @Stack groups, sharing of Lisp machine address space|(STACKGROUPS-1)Introduction to Stack Groups|(STACKGROUPS-0)Stack Groups|256|r| @Stack groups, use in management of coroutines and generators|(STACKGROUPS-1)Introduction to Stack Groups|(STACKGROUPS-0)Stack Groups|256-266|r| @Stack groups, used as functions|(STACKGROUPS-1)Resuming of Stack Groups|(STACKGROUPS-0)Stack Groups|257|r| @Stack group|(ARRAYS-1)Array Types|(ARRAYS-0)Arrays|165|c| @Stack group|(STACKGROUPS-1)Introduction to Stack Groups|(STACKGROUPS-0)Stack Groups|256|c| @Stack lists, definition and functions which manipulate|(MANLISTSTR-2)Stack Lists|(MANLISTSTR-0)Manipulating List Structure|112-113|m| @Stack lists|(MANLISTSTR-2)Stack Lists|(MANLISTSTR-0)Manipulating List Structure|112|c| @Stack management functions, push and pop|(MANLISTSTR-1)Conses|(MANLISTSTR-0)Manipulating List Structure|088|m| @Stack-group data type specifier, definition|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|015|m| @Stack-group-resume function, as way of resuming a stack group|(STACKGROUPS-1)Resuming of Stack Groups|(STACKGROUPS-0)Stack Groups|257|r| @Stack-group-return function, as way of resuming a stack group|(STACKGROUPS-1)Resuming of Stack Groups|(STACKGROUPS-0)Stack Groups|257|r| @Standard-char data type specifier, definition|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|015|m| @State, of stack group|(STACKGROUPS-1)Stack Group States|(STACKGROUPS-0)Stack Groups|258-259|r| @Statement|(FLOWCTL-2)Tags and Gotos|(FLOWCTL-0)Flow of Control|078|c| @Static non-local exit control structures, definition|(FLOWCTL-2)Static Non-Local Exits|(FLOWCTL-0)Flow of Control|075-078|m| @Static non-local exit, block and return-from special form as|(FLOWCTL-1)Introduction to Flow of Control|(FLOWCTL-0)Flow of Control|062|m| @Static non-local exit|(FLOWCTL-2)Static Non-Local Exits|(FLOWCTL-0)Flow of Control|075|c| @Status, of a patchable system|(SYSTEMS-2)System Status|(SYSTEMS-0)Maintaining Large Systems|679|c| @Stepper debugging facility|(DEBUGGING-6)Stepping Through an Evaluation|(DEBUGGING-0)Errors and Debugging|746-748|r| @Stepping through evaluation|(DEBUGGING-6)Stepping Through an Evaluation|(DEBUGGING-0)Errors and Debugging|746|c| @Storage efficiency, how to manage|(MANLISTSTR-1)Cdr-Coding|(MANLISTSTR-0)Manipulating List Structure|101-102|m| @Storage layout definition|(SUBPRIMITIVES-2)Storage Layout Definitions|(SUBPRIMITIVES-0)Subprimitives|278-279|r| @Storage management, areas as mechanism for user control of|(AREAS-1)Introduction to Areas|(AREAS-0)Areas|296|r| @Storage management, areas as mechanism for user control of|(AREAS-1)Introduction to Areas|(AREAS-0)Areas|296|r| @Storage, freeing|(SUBPRIMITIVES-2)Returning Storage|(SUBPRIMITIVES-0)Subprimitives|281|r| @Store function, definition|(ARRAYS-3)Maclisp Array Compatibility|(ARRAYS-0)Arrays|187|m| @Store-array-leader function, definition|(ARRAYS-2)Accessing Array Elements|(ARRAYS-0)Arrays|171|m| @Stream data type specifier, definition|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|018|m| @Stream input and output, chaosnet|(CHAOSNET-1)Stream Input and Output|(CHAOSNET-0)The Chaosnet|617-618|r| @Stream operations, :read and :print|(READPRINT-4)The :read and :print Stream Operations|(READPRINT-0)Expression Input and Output|543|r| @Streams, asking them what they can do|(IOSYSTEM-2)Asking Streams What They Can Do|(IOSYSTEM-0)The I/O System|465-466|r| @Streams, buffered operations|(IOSYSTEM-2)Buffered Stream Operations|(IOSYSTEM-0)The I/O System|469|r| @Streams, cursor positioning operations|(IOSYSTEM-2)Cursor Positioning Stream Operations|(IOSYSTEM-0)The I/O System|467|r| @Streams, I/O|(IOSYSTEM-2)I/O Streams|(IOSYSTEM-0)The I/O System|459-482|r| @Streams, implementing without flavors|(IOSYSTEM-2)Implementing Streams without Flavors|(IOSYSTEM-0)The I/O System|479|r| @Streams, implementing|(IOSYSTEM-2)Implementing Streams|(IOSYSTEM-0)The I/O System|474|r| @Streams, obtaining|(IOSYSTEM-2)Buffered Stream Operations|(IOSYSTEM-0)The I/O System|470|r| @Streams, operations for efficient pretty-printing|(IOSYSTEM-2)Operations for Efficient Pretty-Printing|(IOSYSTEM-0)The I/O System|468|r| @Streams, operations for interaction|(IOSYSTEM-2)Operations for Interactive Streams|(IOSYSTEM-0)The I/O System|466|r| @Streams, random access file operations|(IOSYSTEM-2)Random Access File Operations|(IOSYSTEM-0)The I/O System|468|r| @Streams, standard input operations|(IOSYSTEM-2)Standard Input Stream Operations|(IOSYSTEM-0)The I/O System|461-463|r| @Streams, standard output operations|(IOSYSTEM-2)Standard Output Stream Operations|(IOSYSTEM-0)The I/O System|463-464|r| @Streams, standard|(IOSYSTEM-2)Standard Streams|(IOSYSTEM-0)The I/O System|459-460|r| @Streams, string I/O|(IOSYSTEM-2)String I/O Streams|(IOSYSTEM-0)The I/O System|473|r| @Streams, using flavors to implement|(IOSYSTEM-2)Implementing Streams with Flavors|(IOSYSTEM-0)The I/O System|475|r| @Stream|(IOSYSTEM-1)Introduction to the I/O System|(IOSYSTEM-0)The I/O System|448|c| @Stream|(IOSYSTEM-2)I/O Streams|(IOSYSTEM-0)The I/O System|459|c| @String data type specifier, definition|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|017|m| @String data type specifier, definition|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|018|m| @String input and output on streams|(IOSYSTEM-2)String I/O Streams|(IOSYSTEM-0)The I/O System|473|r| @String input functions|(IOSYSTEM-1)String Input Functions|(IOSYSTEM-0)The I/O System|449-455|r| @String-char data type specifier, definition|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|015|m| @Stringp function, definition|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|012|m| @String|(ARRAYS-1)Array Types|(ARRAYS-0)Arrays|163|c| @String|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|012|c| @Structure data type specifier, definition|(PRIMOBJTYPE-1)Data Type Predicates|(PRIMOBJTYPE-0)Primitive Object Types|014|m| @Structure definitions, macros to create|(DEFSTRUCT-1)Introduction to Structure Macros|(DEFSTRUCT-0)Defstruct|372-400|r| @Structure macros, introduction to|(DEFSTRUCT-1)Introduction to Structure Macros|(DEFSTRUCT-0)Defstruct|372-374|r| @Structure, as data representation type|(AREAS-1)Introduction to Areas|(AREAS-0)Areas|296|r| @Structure, as data representation type|(AREAS-1)Introduction to Areas|(AREAS-0)Areas|296|r| @Structure-defining macro, how to use|(DEFSTRUCT-1)Introduction to Structure Macros|(DEFSTRUCT-0)Defstruct|374-376|r| @Structure-defining macro, options to|(DEFSTRUCT-1)Options to Defstruct|(DEFSTRUCT-0)Defstruct|376-385|r| @Structure-type objects, creating|(SUBPRIMITIVES-2)Creating Objects|(SUBPRIMITIVES-0)Subprimitives|280|r| @Structured pathname components|(FILENAMES-1)Raw Components and Interchange Components|(FILENAMES-0)Naming of Files|549|c| @Structured records, as tabular data structures|(MANLISTSTR-2)Tables|(MANLISTSTR-0)Manipulating List Structure|102|m| @Structures, analyzing|(SUBPRIMITIVES-2)Analyzing Structures|(SUBPRIMITIVES-0)Subprimitives|279-280|r| @Structures, byte fields in|(DEFSTRUCT-2)Byte Fields|(DEFSTRUCT-0)Defstruct|387-389|r| @Structures, extensions to|(DEFSTRUCT-3)Extensions to Defstruct|(DEFSTRUCT-0)Defstruct|396-400|r| @Structures, grouped arrays in|(DEFSTRUCT-2)Grouped Arrays|(DEFSTRUCT-0)Defstruct|389|r| @Structures, how to change|(DEFSTRUCT-2)Using the Constructor and Alterant|(DEFSTRUCT-0)Defstruct|385-387|r| @Structures, internal structures used by defstruct in|(DEFSTRUCT-3)The si:defstruct-description Structure|(DEFSTRUCT-0)Defstruct|394-395|r| @Structures, named|(DEFSTRUCT-2)Named Structures|(DEFSTRUCT-0)Defstruct|390-393|r|