KeywordLookupGenerator.py   [plain text]


# Copyright (C) 2011-2019 Apple Inc. All rights reserved.
# Copyright (C) 2012 Sony Network Entertainment. All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions
# are met:
# 1. Redistributions of source code must retain the above copyright
#    notice, this list of conditions and the following disclaimer.
# 2. Redistributions in binary form must reproduce the above copyright
#    notice, this list of conditions and the following disclaimer in the
#    documentation and/or other materials provided with the distribution.
#
# THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY
# EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
# IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
# PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL APPLE INC. OR
# CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
# EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
# PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
# PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
# OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

import sys
import string
import operator

keywordsText = open(sys.argv[1]).read()

# A second argument signifies that the output
# should be redirected to a file
redirect_to_file = len(sys.argv) > 2

# Change stdout to point to the file if requested
if redirect_to_file:
    file_output = open(sys.argv[-1], "w")
    sys.stdout = file_output

# Observed weights of the most common keywords, rounded to 2.s.d
keyWordWeights = {
    "catch": 0.01,
    "try": 0.01,
    "while": 0.01,
    "case": 0.01,
    "break": 0.01,
    "new": 0.01,
    "in": 0.01,
    "typeof": 0.02,
    "true": 0.02,
    "false": 0.02,
    "for": 0.03,
    "null": 0.03,
    "else": 0.03,
    "return": 0.13,
    "var": 0.13,
    "if": 0.16,
    "function": 0.18,
    "this": 0.18,
}


def allWhitespace(str):
    for c in str:
        if not(c in string.whitespace):
            return False
    return True


def parseKeywords(keywordsText):

    if sys.platform == "cygwin":
        keywordsText = keywordsText.replace("\r\n", "\n")

    lines = keywordsText.split("\n")
    lines = [line.split("#")[0] for line in lines]
    lines = [line for line in lines if (not allWhitespace(line))]
    name = lines[0].split()
    terminator = lines[-1]

    if not name[0] == "@begin":
        raise Exception("expected description beginning with @begin")
    if not terminator == "@end":
        raise Exception("expected description ending with @end")

    lines = lines[1:-1]  # trim off the old heading
    return [line.split() for line in lines]


def makePadding(size):
    str = ""
    for i in range(size):
        str = str + " "
    return str


class Trie:
    def __init__(self, prefix):
        self.prefix = prefix
        self.keys = {}
        self.value = None

    def insert(self, key, value):
        if len(key) == 0:
            self.value = value
            return
        if not (key[0] in self.keys):
            self.keys[key[0]] = Trie(key[0])
        self.keys[key[0]].insert(key[1:], value)

    def coalesce(self):
        keys = {}
        for k, v in self.keys.items():
            t = v.coalesce()
            keys[t.prefix] = t
        self.keys = keys
        if self.value != None:
            return self
        if len(self.keys) != 1:
            return self
        # Python 3: for() loop for compatibility. Use next() when Python 2.6 is the baseline.
        for (prefix, suffix) in self.keys.items():
            res = Trie(self.prefix + prefix)
            res.value = suffix.value
            res.keys = suffix.keys
            return res

    def fillOut(self, prefix=""):
        self.fullPrefix = prefix + self.prefix
        weight = 0
        if self.fullPrefix in keyWordWeights:
            weight = weight + keyWordWeights[self.fullPrefix]
        self.selfWeight = weight
        for trie in self.keys.values():
            trie.fillOut(self.fullPrefix)
            weight = weight + trie.weight
        self.keys = [(trie.prefix, trie) for trie in sorted(self.keys.values(), key=operator.attrgetter('weight'), reverse=True)]
        self.weight = weight

    def printSubTreeAsC(self, typeName, indent):
        str = makePadding(indent)

        if self.value != None:
            print(str + "if (LIKELY(cannotBeIdentPartOrEscapeStart(code[%d]))) {" % (len(self.fullPrefix)))
            print(str + "    internalShift<%d>();" % len(self.fullPrefix))
            print(str + "    if (shouldCreateIdentifier)")
            print(str + ("        data->ident = &m_vm.propertyNames->%sKeyword;" % self.fullPrefix))
            print(str + "    return " + self.value + ";")
            print(str + "}")
        rootIndex = len(self.fullPrefix)
        itemCount = 0
        for k, trie in self.keys:
            baseIndex = rootIndex
            if (baseIndex > 0) and (len(k) == 3):
                baseIndex = baseIndex - 1
                k = trie.fullPrefix[baseIndex] + k
            test = [("'%s'" % c) for c in k]
            if len(test) == 1:
                comparison = "code[%d] == %s" % (baseIndex, test[0])
            else:
                base = "code"
                if baseIndex > 0:
                    base = "code + %d" % baseIndex
                comparison = ("COMPARE_%d%sS(%s, " % (len(test), typeName, base)) + ", ".join(test) + ")"
            if itemCount == 0:
                print(str + "if (" + comparison + ") {")
            else:
                print(str + "} else if (" + comparison + ") {")

            trie.printSubTreeAsC(typeName, indent + 4)
            itemCount = itemCount + 1

            if itemCount == len(self.keys):
                print(str + "}")

    def maxLength(self):
        max = len(self.fullPrefix)
        for (_, trie) in self.keys:
            l = trie.maxLength()
            if l > max:
                max = l
        return max

    def printAsC(self):
        print("namespace JSC {")
        print("")
        print("static ALWAYS_INLINE bool cannotBeIdentPartOrEscapeStart(LChar);")
        print("static ALWAYS_INLINE bool cannotBeIdentPartOrEscapeStart(UChar);")
        # max length + 1 so we don't need to do any bounds checking at all
        print("static constexpr int maxTokenLength = %d;" % (self.maxLength() + 1))
        print("")
        print("template <>")
        print("template <bool shouldCreateIdentifier> ALWAYS_INLINE JSTokenType Lexer<UChar>::parseKeyword(JSTokenData* data)")
        print("{")
        print("    ASSERT(m_codeEnd - m_code >= maxTokenLength);")
        print("")
        print("    const UChar* code = m_code;")
        self.printSubTreeAsC("UCHAR", 4)
        print("    return IDENT;")
        print("}")
        print("")
        print("template <>")
        print("template <bool shouldCreateIdentifier> ALWAYS_INLINE JSTokenType Lexer<LChar>::parseKeyword(JSTokenData* data)")
        print("{")
        print("    ASSERT(m_codeEnd - m_code >= maxTokenLength);")
        print("")
        print("    const LChar* code = m_code;")
        self.printSubTreeAsC("CHAR", 4)
        print("    return IDENT;")
        print("}")
        print("")
        print("} // namespace JSC")

keywords = parseKeywords(keywordsText)
trie = Trie("")
for k, v in keywords:
    trie.insert(k, v)
trie.coalesce()
trie.fillOut()
print("// This file was generated by KeywordLookupGenerator.py.  Do not edit.")
print("""
#if CPU(NEEDS_ALIGNED_ACCESS)

#define COMPARE_2CHARS(address, char1, char2) \\
    (((address)[0] == char1) && ((address)[1] == char2))
#define COMPARE_4CHARS(address, char1, char2, char3, char4) \\
    (COMPARE_2CHARS(address, char1, char2) && COMPARE_2CHARS((address) + 2, char3, char4))
#define COMPARE_2UCHARS(address, char1, char2) \\
    (((address)[0] == char1) && ((address)[1] == char2))
#define COMPARE_4UCHARS(address, char1, char2, char3, char4) \\
    (COMPARE_2UCHARS(address, char1, char2) && COMPARE_2UCHARS((address) + 2, char3, char4))

#else // CPU(NEEDS_ALIGNED_ACCESS)

#if CPU(BIG_ENDIAN)

#define CHARPAIR_TOUINT16(a, b) \\
    ((((uint16_t)(a)) << 8) + (uint16_t)(b))
#define CHARQUAD_TOUINT32(a, b, c, d) \\
    ((((uint32_t)(CHARPAIR_TOUINT16(a, b))) << 16) + CHARPAIR_TOUINT16(c, d))
#define UCHARPAIR_TOUINT32(a, b) \\
    ((((uint32_t)(a)) << 16) + (uint32_t)(b))
#define UCHARQUAD_TOUINT64(a, b, c, d) \\
    ((((uint64_t)(UCHARQUAD_TOUINT64(a, b))) << 32) + UCHARPAIR_TOUINT32(c, d))

#else // CPU(BIG_ENDIAN)

#define CHARPAIR_TOUINT16(a, b) \\
    ((((uint16_t)(b)) << 8) + (uint16_t)(a))
#define CHARQUAD_TOUINT32(a, b, c, d) \\
    ((((uint32_t)(CHARPAIR_TOUINT16(c, d))) << 16) + CHARPAIR_TOUINT16(a, b))
#define UCHARPAIR_TOUINT32(a, b) \\
    ((((uint32_t)(b)) << 16) + (uint32_t)(a))
#define UCHARQUAD_TOUINT64(a, b, c, d) \\
    ((((uint64_t)(UCHARPAIR_TOUINT32(c, d))) << 32) + UCHARPAIR_TOUINT32(a, b))

#endif // CPU(BIG_ENDIAN)


#define COMPARE_2CHARS(address, char1, char2) \\
    ((reinterpret_cast<const uint16_t*>(address))[0] == CHARPAIR_TOUINT16(char1, char2))
#define COMPARE_2UCHARS(address, char1, char2) \\
    ((reinterpret_cast<const uint32_t*>(address))[0] == UCHARPAIR_TOUINT32(char1, char2))

#if CPU(X86_64)

#define COMPARE_4CHARS(address, char1, char2, char3, char4) \\
    ((reinterpret_cast<const uint32_t*>(address))[0] == CHARQUAD_TOUINT32(char1, char2, char3, char4))
#define COMPARE_4UCHARS(address, char1, char2, char3, char4) \\
    ((reinterpret_cast<const uint64_t*>(address))[0] == UCHARQUAD_TOUINT64(char1, char2, char3, char4))

#else // CPU(X86_64)

#define COMPARE_4CHARS(address, char1, char2, char3, char4) \\
    (COMPARE_2CHARS(address, char1, char2) && COMPARE_2CHARS((address) + 2, char3, char4))
#define COMPARE_4UCHARS(address, char1, char2, char3, char4) \\
    (COMPARE_2UCHARS(address, char1, char2) && COMPARE_2UCHARS((address) + 2, char3, char4))

#endif // CPU(X86_64)

#endif // CPU(NEEDS_ALIGNED_ACCESS)

#define COMPARE_3CHARS(address, char1, char2, char3) \\
    (COMPARE_2CHARS(address, char1, char2) && ((address)[2] == (char3)))
#define COMPARE_3UCHARS(address, char1, char2, char3) \\
    (COMPARE_2UCHARS(address, char1, char2) && ((address)[2] == (char3)))
#define COMPARE_5CHARS(address, char1, char2, char3, char4, char5) \\
    (COMPARE_4CHARS(address, char1, char2, char3, char4) && ((address)[4] == (char5)))
#define COMPARE_5UCHARS(address, char1, char2, char3, char4, char5) \\
    (COMPARE_4UCHARS(address, char1, char2, char3, char4) && ((address)[4] == (char5)))
#define COMPARE_6CHARS(address, char1, char2, char3, char4, char5, char6) \\
    (COMPARE_4CHARS(address, char1, char2, char3, char4) && COMPARE_2CHARS(address + 4, char5, char6))
#define COMPARE_6UCHARS(address, char1, char2, char3, char4, char5, char6) \\
    (COMPARE_4UCHARS(address, char1, char2, char3, char4) && COMPARE_2UCHARS(address + 4, char5, char6))
#define COMPARE_7CHARS(address, char1, char2, char3, char4, char5, char6, char7) \\
    (COMPARE_4CHARS(address, char1, char2, char3, char4) && COMPARE_4CHARS(address + 3, char4, char5, char6, char7))
#define COMPARE_7UCHARS(address, char1, char2, char3, char4, char5, char6, char7) \\
    (COMPARE_4UCHARS(address, char1, char2, char3, char4) && COMPARE_4UCHARS(address + 3, char4, char5, char6, char7))
#define COMPARE_8CHARS(address, char1, char2, char3, char4, char5, char6, char7, char8) \\
    (COMPARE_4CHARS(address, char1, char2, char3, char4) && COMPARE_4CHARS(address + 4, char5, char6, char7, char8))
#define COMPARE_8UCHARS(address, char1, char2, char3, char4, char5, char6, char7, char8) \\
    (COMPARE_4UCHARS(address, char1, char2, char3, char4) && COMPARE_4UCHARS(address + 4, char5, char6, char7, char8))
""")

trie.printAsC()

# Close the redirected file if requested
if (redirect_to_file):
    file_output.close()
    sys.stdout = sys.__stdout__