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mal/impls/swift/step7_quote.swift
Nicolas Boulenguez fbfe6784d2 Change quasiquote algorithm 
- Add a `vec` built-in function in step7 so that `quasiquote` does not
  require `apply` from step9.
- Introduce quasiquoteexpand special in order to help debugging step7.
  This may also prepare newcomers to understand step8.
- Add soft tests.
- Do not quote numbers, strings and so on.

Should ideally have been in separate commits:
- elisp: simplify and fix (keyword :k)
- factor: fix copy/paste error in let*/step7, simplify eval-ast.
- guile: improve list/vector types
- haskell: revert evaluation during quasiquote
- logo, make: cosmetic issues
2020-08-11 01:01:56 +02:00

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//******************************************************************************
// MAL - step 7 - quote
//******************************************************************************
// This file is automatically generated from templates/step.swift. Rather than
// editing it directly, it's probably better to edit templates/step.swift and
// regenerate this file. Otherwise, your change might be lost if/when someone
// else performs that process.
//******************************************************************************
import Foundation
// The number of times EVAL has been entered recursively. We keep track of this
// so that we can protect against overrunning the stack.
//
private var EVAL_level = 0
// The maximum number of times we let EVAL recurse before throwing an exception.
// Testing puts this at some place between 1800 and 1900. Let's keep it at 500
// for safety's sake.
//
private let EVAL_leval_max = 500
// Control whether or not tail-call optimization (TCO) is enabled. We want it
// `true` most of the time, but may disable it for debugging purposes (it's
// easier to get a meaningful backtrace that way).
//
private let TCO = true
// Control whether or not we emit debugging statements in EVAL.
//
private let DEBUG_EVAL = false
// String used to prefix information logged in EVAL. Increasing lengths of the
// string are used the more EVAL is recursed.
//
private let INDENT_TEMPLATE = "|----|----|----|----|----|----|----|----|" +
"----|----|----|----|----|----|----|----|----|----|----|" +
"----|----|----|----|----|----|----|----|----|----|----|" +
"----|----|----|----|----|----|----|----|----|----|----|" +
"----|----|----|----|----|----|----|----|----|----|----|" +
"----|----|----|----|----|----|----|----|----|----|----|" +
"----|----|----|----|----|----|----|----|----|----|----|" +
"----|----|----|----|----|----|----|----|----|----|----|" +
"----|----|----|----|----|----|----|----|----|----|----|" +
"----|----|----|----|----|----|----|----|----|----|----|" +
"----|----|----|----|----|----|----|----|----|----|----|"
// Holds the prefix of INDENT_TEMPLATE used for actual logging.
//
private var indent = String()
// Symbols used in this module.
//
private let kValArgv = make_symbol("*ARGV*")
private let kValConcat = make_symbol("concat")
private let kValCons = make_symbol("cons")
private let kValDef = make_symbol("def!")
private let kValDo = make_symbol("do")
private let kValEval = make_symbol("eval")
private let kValFn = make_symbol("fn*")
private let kValIf = make_symbol("if")
private let kValLet = make_symbol("let*")
private let kValQuasiQuote = make_symbol("quasiquote")
private let kValQuasiQuoteExp = make_symbol("quasiquoteexpand")
private let kValQuote = make_symbol("quote")
private let kValSpliceUnquote = make_symbol("splice-unquote")
private let kValUnquote = make_symbol("unquote")
private let kValTry = make_symbol("try*")
private let kValVec = make_symbol("vec")
private let kSymbolArgv = as_symbol(kValArgv)
private let kSymbolConcat = as_symbol(kValConcat)
private let kSymbolCons = as_symbol(kValCons)
private let kSymbolDef = as_symbol(kValDef)
private let kSymbolDo = as_symbol(kValDo)
private let kSymbolEval = as_symbol(kValEval)
private let kSymbolFn = as_symbol(kValFn)
private let kSymbolIf = as_symbol(kValIf)
private let kSymbolLet = as_symbol(kValLet)
private let kSymbolQuasiQuote = as_symbol(kValQuasiQuote)
private let kSymbolQuasiQuoteExp = as_symbol(kValQuasiQuoteExp)
private let kSymbolQuote = as_symbol(kValQuote)
private let kSymbolSpliceUnquote = as_symbol(kValSpliceUnquote)
private let kSymbolUnquote = as_symbol(kValUnquote)
private let kSymbolVec = as_symbol(kValVec)
func substring(s: String, _ begin: Int, _ end: Int) -> String {
return s[s.startIndex.advancedBy(begin) ..< s.startIndex.advancedBy(end)]
}
// Parse the string into an AST.
//
private func READ(str: String) throws -> MalVal {
return try read_str(str)
}
// Return whether or not `ast` is a list and first element is the required symbol.
//
private func starts_with(ast: MalVal, sym: MalSymbol) -> MalVal? {
if let list = as_listQ(ast) where 1 < list.count,
let a0 = as_symbolQ(try! list.nth(0)) where a0 == sym {
return try! list.nth(1)
} else {
return nil
}
}
// Evaluate `quasiquote`, possibly recursing in the process.
//
private func quasiquote(qq_arg: MalVal) throws -> MalVal {
// If the argument is an atom or empty list:
//
// Return: (quote <argument>)
if is_symbol(qq_arg) || is_hashmap(qq_arg) {
return make_list_from(kValQuote, qq_arg)
}
guard let seq = as_sequenceQ(qq_arg) else {
return qq_arg
}
// The argument is a non-empty list -- that is (item rest...)
// If the first item from the list is a symbol and it's "unquote" -- that
// is, (unquote item ignored...):
//
// Return: item
if let x = starts_with(qq_arg, sym: kSymbolUnquote) {
return x
}
var result = make_list_from()
for elt in seq.reverse() {
if let x = starts_with(elt, sym: kSymbolSpliceUnquote) {
result = make_list_from(kValConcat, x, result)
} else {
result = make_list_from(kValCons, try quasiquote (elt), result)
}
}
if is_vector(qq_arg) {
return make_list_from(kValVec, result)
}
return result
}
// Perform a simple evaluation of the `ast` object. If it's a symbol,
// dereference it and return its value. If it's a collection, call EVAL on all
// elements (or just the values, in the case of the hashmap). Otherwise, return
// the object unchanged.
//
private func eval_ast(ast: MalVal, _ env: Environment) throws -> MalVal {
if let symbol = as_symbolQ(ast) {
guard let val = env.get(symbol) else {
try throw_error("'\(symbol)' not found") // Specific text needed to match MAL unit tests
}
return val
}
if let list = as_listQ(ast) {
var result = [MalVal]()
result.reserveCapacity(Int(list.count))
for item in list {
let eval = try EVAL(item, env)
result.append(eval)
}
return make_list(result)
}
if let vec = as_vectorQ(ast) {
var result = [MalVal]()
result.reserveCapacity(Int(vec.count))
for item in vec {
let eval = try EVAL(item, env)
result.append(eval)
}
return make_vector(result)
}
if let hash = as_hashmapQ(ast) {
var result = [MalVal]()
result.reserveCapacity(Int(hash.count) * 2)
for (k, v) in hash {
let new_v = try EVAL(v, env)
result.append(k)
result.append(new_v)
}
return make_hashmap(result)
}
return ast
}
private enum TCOVal {
case NoResult
case Return(MalVal)
case Continue(MalVal, Environment)
init() { self = .NoResult }
init(_ result: MalVal) { self = .Return(result) }
init(_ ast: MalVal, _ env: Environment) { self = .Continue(ast, env) }
}
// EVALuate "def!".
//
private func eval_def(list: MalSequence, _ env: Environment) throws -> TCOVal {
guard list.count == 3 else {
try throw_error("expected 2 arguments to def!, got \(list.count - 1)")
}
let arg1 = try! list.nth(1)
let arg2 = try! list.nth(2)
guard let sym = as_symbolQ(arg1) else {
try throw_error("expected symbol for first argument to def!")
}
let value = try EVAL(arg2, env)
return TCOVal(env.set(sym, value))
}
// EVALuate "let*".
//
private func eval_let(list: MalSequence, _ env: Environment) throws -> TCOVal {
guard list.count == 3 else {
try throw_error("expected 2 arguments to let*, got \(list.count - 1)")
}
let arg1 = try! list.nth(1)
let arg2 = try! list.nth(2)
guard let bindings = as_sequenceQ(arg1) else {
try throw_error("expected list for first argument to let*")
}
guard bindings.count % 2 == 0 else {
try throw_error("expected even number of elements in bindings to let*, got \(bindings.count)")
}
let new_env = Environment(outer: env)
for var index: MalIntType = 0; index < bindings.count; index += 2 {
let binding_name = try! bindings.nth(index)
let binding_value = try! bindings.nth(index + 1)
guard let binding_symbol = as_symbolQ(binding_name) else {
try throw_error("expected symbol for first element in binding pair")
}
let evaluated_value = try EVAL(binding_value, new_env)
new_env.set(binding_symbol, evaluated_value)
}
if TCO {
return TCOVal(arg2, new_env)
}
return TCOVal(try EVAL(arg2, new_env))
}
// EVALuate "do".
//
private func eval_do(list: MalSequence, _ env: Environment) throws -> TCOVal {
if TCO {
let _ = try eval_ast(list.range_from(1, to: list.count-1), env)
return TCOVal(list.last(), env)
}
let evaluated_ast = try eval_ast(list.rest(), env)
let evaluated_seq = as_sequence(evaluated_ast)
return TCOVal(evaluated_seq.last())
}
// EVALuate "if".
//
private func eval_if(list: MalSequence, _ env: Environment) throws -> TCOVal {
guard list.count >= 3 else {
try throw_error("expected at least 2 arguments to if, got \(list.count - 1)")
}
let cond_result = try EVAL(try! list.nth(1), env)
var new_ast: MalVal
if is_truthy(cond_result) {
new_ast = try! list.nth(2)
} else if list.count == 4 {
new_ast = try! list.nth(3)
} else {
return TCOVal(make_nil())
}
if TCO {
return TCOVal(new_ast, env)
}
return TCOVal(try EVAL(new_ast, env))
}
// EVALuate "fn*".
//
private func eval_fn(list: MalSequence, _ env: Environment) throws -> TCOVal {
guard list.count == 3 else {
try throw_error("expected 2 arguments to fn*, got \(list.count - 1)")
}
guard let seq = as_sequenceQ(try! list.nth(1)) else {
try throw_error("expected list or vector for first argument to fn*")
}
return TCOVal(make_closure((eval: EVAL, args: seq, body: try! list.nth(2), env: env)))
}
// EVALuate "quote".
//
private func eval_quote(list: MalSequence, _ env: Environment) throws -> TCOVal {
if list.count >= 2 {
return TCOVal(try! list.nth(1))
}
return TCOVal(make_nil())
}
// EVALuate "quasiquoteexpand".
//
private func eval_quasiquoteexp(list: MalSequence) throws -> TCOVal {
if list.count < 2 {
try throw_error("quasiquoteexpand: arg count")
}
return TCOVal(try! quasiquote(try! list.nth(1)))
}
// EVALuate "quasiquote".
//
private func eval_quasiquote(list: MalSequence, _ env: Environment) throws -> TCOVal {
guard list.count >= 2 else {
try throw_error("Expected non-nil parameter to 'quasiquote'")
}
if TCO {
return TCOVal(try quasiquote(try! list.nth(1)), env)
}
return TCOVal(try EVAL(try quasiquote(try! list.nth(1)), env))
}
// Walk the AST and completely evaluate it, handling macro expansions, special
// forms and function calls.
//
private func EVAL(var ast: MalVal, var _ env: Environment) throws -> MalVal {
EVAL_level++
defer { EVAL_level-- }
guard EVAL_level <= EVAL_leval_max else {
try throw_error("Recursing too many levels (> \(EVAL_leval_max))")
}
if DEBUG_EVAL {
indent = substring(INDENT_TEMPLATE, 0, EVAL_level)
}
while true {
if DEBUG_EVAL { print("\(indent)> \(ast)") }
if !is_list(ast) {
// Not a list -- just evaluate and return.
let answer = try eval_ast(ast, env)
if DEBUG_EVAL { print("\(indent)>>> \(answer)") }
return answer
}
// Special handling if it's a list.
let list = as_list(ast)
if DEBUG_EVAL { print("\(indent)>. \(list)") }
if list.isEmpty {
return ast
}
// Check for special forms, where we want to check the operation
// before evaluating all of the parameters.
let arg0 = list.first()
if let fn_symbol = as_symbolQ(arg0) {
let res: TCOVal
switch fn_symbol {
case kSymbolDef: res = try eval_def(list, env)
case kSymbolLet: res = try eval_let(list, env)
case kSymbolDo: res = try eval_do(list, env)
case kSymbolIf: res = try eval_if(list, env)
case kSymbolFn: res = try eval_fn(list, env)
case kSymbolQuote: res = try eval_quote(list, env)
case kSymbolQuasiQuote: res = try eval_quasiquote(list, env)
case kSymbolQuasiQuoteExp: res = try eval_quasiquoteexp(list)
default: res = TCOVal()
}
switch res {
case let .Return(result): return result
case let .Continue(new_ast, new_env): ast = new_ast; env = new_env; continue
case .NoResult: break
}
}
// Standard list to be applied. Evaluate all the elements first.
let eval = try eval_ast(ast, env)
// The result had better be a list and better be non-empty.
let eval_list = as_list(eval)
if eval_list.isEmpty {
return eval
}
if DEBUG_EVAL { print("\(indent)>> \(eval)") }
// Get the first element of the list and execute it.
let first = eval_list.first()
let rest = as_sequence(eval_list.rest())
if let fn = as_builtinQ(first) {
let answer = try fn.apply(rest)
if DEBUG_EVAL { print("\(indent)>>> \(answer)") }
return answer
} else if let fn = as_closureQ(first) {
let new_env = Environment(outer: fn.env)
let _ = try new_env.set_bindings(fn.args, with_exprs: rest)
if TCO {
env = new_env
ast = fn.body
continue
}
let answer = try EVAL(fn.body, new_env)
if DEBUG_EVAL { print("\(indent)>>> \(answer)") }
return answer
}
// The first element wasn't a function to be executed. Return an
// error saying so.
try throw_error("first list item does not evaluate to a function: \(first)")
}
}
// Convert the value into a human-readable string for printing.
//
private func PRINT(exp: MalVal) -> String {
return pr_str(exp, true)
}
// Perform the READ and EVAL steps. Useful for when you don't care about the
// printable result.
//
private func RE(text: String, _ env: Environment) -> MalVal? {
if !text.isEmpty {
do {
let ast = try READ(text)
do {
return try EVAL(ast, env)
} catch let error as MalException {
print("Error evaluating input: \(error)")
} catch {
print("Error evaluating input: \(error)")
}
} catch let error as MalException {
print("Error parsing input: \(error)")
} catch {
print("Error parsing input: \(error)")
}
}
return nil
}
// Perform the full READ/EVAL/PRINT, returning a printable string.
//
private func REP(text: String, _ env: Environment) -> String? {
let exp = RE(text, env)
if exp == nil { return nil }
return PRINT(exp!)
}
// Perform the full REPL.
//
private func REPL(env: Environment) {
while true {
if let text = _readline("user> ") {
if let output = REP(text, env) {
print("\(output)")
}
} else {
print("")
break
}
}
}
// Process any command line arguments. Any trailing arguments are incorporated
// into the environment. Any argument immediately after the process name is
// taken as a script to execute. If one exists, it is executed in lieu of
// running the REPL.
//
private func process_command_line(args: [String], _ env: Environment) -> Bool {
var argv = make_list()
if args.count > 2 {
let args1 = args[2..<args.count]
let args2 = args1.map { make_string($0) }
let args3 = [MalVal](args2)
argv = make_list(args3)
}
env.set(kSymbolArgv, argv)
if args.count > 1 {
RE("(load-file \"\(args[1])\")", env)
return false
}
return true
}
func main() {
let env = Environment(outer: nil)
load_history_file()
load_builtins(env)
RE("(def! not (fn* (a) (if a false true)))", env)
RE("(def! load-file (fn* (f) (eval (read-string (str \"(do \" (slurp f) \"\\nnil)\")))))", env)
env.set(kSymbolEval, make_builtin({
try! unwrap_args($0) {
(ast: MalVal) -> MalVal in
try EVAL(ast, env)
}
}))
if process_command_line(Process.arguments, env) {
REPL(env)
}
save_history_file()
}
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