WIP: git submodules #45

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tasiaiso wants to merge 21 commits from tasiaiso/tildefriends:submodules into main
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deps/quickjs/Changelog vendored
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2024-01-13:
- top-level-await support in modules
- allow 'await' in the REPL
- added Array.prototype.{with,toReversed,toSpliced,toSorted} and
TypedArray.prototype.{with,toReversed,toSorted}
- added String.prototype.isWellFormed and String.prototype.toWellFormed
- added Object.groupBy and Map.groupBy
- added Promise.withResolvers
- class static block
- 'in' operator support for private fields
- optional chaining fixes
- added RegExp 'd' flag
- fixed RegExp zero length match logic
- fixed RegExp case insensitive flag
- added os.getpid() and os.now()
- added cosmopolitan build
- misc bug fixes
2023-12-09:
- added Object.hasOwn, {String|Array|TypedArray}.prototype.at,
{Array|TypedArray}.prototype.findLast{Index}
- BigInt support is enabled even if CONFIG_BIGNUM disabled
- updated to Unicode 15.0.0
- misc bug fixes
2021-03-27:
- faster Array.prototype.push and Array.prototype.unshift
- added JS_UpdateStackTop()
- fixed Windows console
- misc bug fixes
2020-11-08:
- improved function parameter initializers
- added std.setenv(), std.unsetenv() and std.getenviron()
- added JS_EvalThis()
- misc bug fixes
2020-09-06:
- added logical assignment operators
- added IsHTMLDDA support
- faster for-of loops
- os.Worker now takes a module filename as parameter
- qjsc: added -D option to compile dynamically loaded modules or workers
- misc bug fixes
2020-07-05:
- modified JS_GetPrototype() to return a live value
- REPL: support unicode characters larger than 16 bits
- added os.Worker
- improved object serialization
- added std.parseExtJSON
- misc bug fixes
2020-04-12:
- added cross realm support
- added AggregateError and Promise.any
- added env, uid and gid options in os.exec()
- misc bug fixes
2020-03-16:
- reworked error handling in std and os libraries: suppressed I/O
exceptions in std FILE functions and return a positive errno value
when it is explicit
- output exception messages to stderr
- added std.loadFile(), std.strerror(), std.FILE.prototype.tello()
- added JS_GetRuntimeOpaque(), JS_SetRuntimeOpaque(), JS_NewUint32()
- updated to Unicode 13.0.0
- misc bug fixes
2020-01-19:
- keep CONFIG_BIGNUM in the makefile
- added os.chdir()
- qjs: added -I option
- more memory checks in the bignum operations
- modified operator overloading semantics to be closer to the TC39
proposal
- suppressed "use bigint" mode. Simplified "use math" mode
- BigDecimal: changed suffix from 'd' to 'm'
- misc bug fixes
2020-01-05:
- always compile the bignum code. Added '--bignum' option to qjs.
- added BigDecimal
- added String.prototype.replaceAll
- misc bug fixes
2019-12-21:
- added nullish coalescing operator (ES2020)
- added optional chaining (ES2020)
- removed recursions in garbage collector
- test stack overflow in the parser
- improved backtrace logic
- added JS_SetHostPromiseRejectionTracker()
- allow exotic constructors
- improved c++ compatibility
- misc bug fixes
2019-10-27:
- added example of C class in a module (examples/test_point.js)
- added JS_GetTypedArrayBuffer()
- misc bug fixes
2019-09-18:
- added os.exec and other system calls
- exported JS_ValueToAtom()
- qjsc: added 'qjsc_' prefix to the generated C identifiers
- added cross-compilation support
- misc bug fixes
2019-09-01:
- added globalThis
- documented JS_EVAL_FLAG_COMPILE_ONLY
- added import.meta.url and import.meta.main
- added 'debugger' statement
- misc bug fixes
2019-08-18:
- added os.realpath, os.getcwd, os.mkdir, os.stat, os.lstat,
os.readlink, os.readdir, os.utimes, std.popen
- module autodetection
- added import.meta
- misc bug fixes
2019-08-10:
- added public class fields and private class fields, methods and
accessors (TC39 proposal)
- changed JS_ToCStringLen() prototype
- qjsc: handle '-' in module names and modules with the same filename
- added std.urlGet
- exported JS_GetOwnPropertyNames() and JS_GetOwnProperty()
- exported some bigint C functions
- added support for eshost in run-test262
- misc bug fixes
2019-07-28:
- added dynamic import
- added Promise.allSettled
- added String.prototype.matchAll
- added Object.fromEntries
- reduced number of ticks in await
- added BigInt support in Atomics
- exported JS_NewPromiseCapability()
- misc async function and async generator fixes
- enabled hashbang support by default
2019-07-21:
- updated test262 tests
- updated to Unicode version 12.1.0
- fixed missing Date object in qjsc
- fixed multi-context creation
- misc ES2020 related fixes
- simplified power and division operators in bignum extension
- fixed several crash conditions
2019-07-09:
- first public release

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deps/quickjs/LICENSE vendored
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QuickJS Javascript Engine
Copyright (c) 2017-2021 Fabrice Bellard
Copyright (c) 2017-2021 Charlie Gordon
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
THE SOFTWARE.

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deps/quickjs/Makefile vendored
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#
# QuickJS Javascript Engine
#
# Copyright (c) 2017-2021 Fabrice Bellard
# Copyright (c) 2017-2021 Charlie Gordon
#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to deal
# in the Software without restriction, including without limitation the rights
# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
# copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in
# all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
# THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
# THE SOFTWARE.
ifeq ($(shell uname -s),Darwin)
CONFIG_DARWIN=y
endif
# Windows cross compilation from Linux
#CONFIG_WIN32=y
# use link time optimization (smaller and faster executables but slower build)
CONFIG_LTO=y
# consider warnings as errors (for development)
#CONFIG_WERROR=y
# force 32 bit build for some utilities
#CONFIG_M32=y
# cosmopolitan build (see https://github.com/jart/cosmopolitan)
#CONFIG_COSMO=y
# installation directory
PREFIX?=/usr/local
# use the gprof profiler
#CONFIG_PROFILE=y
# use address sanitizer
#CONFIG_ASAN=y
# include the code for BigFloat/BigDecimal, math mode and faster large integers
CONFIG_BIGNUM=y
OBJDIR=.obj
ifdef CONFIG_DARWIN
# use clang instead of gcc
CONFIG_CLANG=y
CONFIG_DEFAULT_AR=y
endif
ifdef CONFIG_WIN32
ifdef CONFIG_M32
CROSS_PREFIX?=i686-w64-mingw32-
else
CROSS_PREFIX?=x86_64-w64-mingw32-
endif
EXE=.exe
else
CROSS_PREFIX?=
EXE=
endif
ifdef CONFIG_CLANG
HOST_CC=clang
CC=$(CROSS_PREFIX)clang
CFLAGS+=-g -Wall -MMD -MF $(OBJDIR)/$(@F).d
CFLAGS += -Wextra
CFLAGS += -Wno-sign-compare
CFLAGS += -Wno-missing-field-initializers
CFLAGS += -Wundef -Wuninitialized
CFLAGS += -Wunused -Wno-unused-parameter
CFLAGS += -Wwrite-strings
CFLAGS += -Wchar-subscripts -funsigned-char
CFLAGS += -MMD -MF $(OBJDIR)/$(@F).d
ifdef CONFIG_DEFAULT_AR
AR=$(CROSS_PREFIX)ar
else
ifdef CONFIG_LTO
AR=$(CROSS_PREFIX)llvm-ar
else
AR=$(CROSS_PREFIX)ar
endif
endif
else ifdef CONFIG_COSMO
CONFIG_LTO=
HOST_CC=gcc
CC=cosmocc
# cosmocc does not correct support -MF
CFLAGS=-g -Wall #-MMD -MF $(OBJDIR)/$(@F).d
CFLAGS += -Wno-array-bounds -Wno-format-truncation
AR=cosmoar
else
HOST_CC=gcc
CC=$(CROSS_PREFIX)gcc
CFLAGS+=-g -Wall -MMD -MF $(OBJDIR)/$(@F).d
CFLAGS += -Wno-array-bounds -Wno-format-truncation
ifdef CONFIG_LTO
AR=$(CROSS_PREFIX)gcc-ar
else
AR=$(CROSS_PREFIX)ar
endif
endif
STRIP=$(CROSS_PREFIX)strip
CFLAGS+=-fwrapv # ensure that signed overflows behave as expected
ifdef CONFIG_WERROR
CFLAGS+=-Werror
endif
DEFINES:=-D_GNU_SOURCE -DCONFIG_VERSION=\"$(shell cat VERSION)\"
ifdef CONFIG_BIGNUM
DEFINES+=-DCONFIG_BIGNUM
endif
ifdef CONFIG_WIN32
DEFINES+=-D__USE_MINGW_ANSI_STDIO # for standard snprintf behavior
endif
CFLAGS+=$(DEFINES)
CFLAGS_DEBUG=$(CFLAGS) -O0
CFLAGS_SMALL=$(CFLAGS) -Os
CFLAGS_OPT=$(CFLAGS) -O2
CFLAGS_NOLTO:=$(CFLAGS_OPT)
ifdef CONFIG_COSMO
LDFLAGS+=-s # better to strip by default
else
LDFLAGS+=-g
endif
ifdef CONFIG_LTO
CFLAGS_SMALL+=-flto
CFLAGS_OPT+=-flto
LDFLAGS+=-flto
endif
ifdef CONFIG_PROFILE
CFLAGS+=-p
LDFLAGS+=-p
endif
ifdef CONFIG_ASAN
CFLAGS+=-fsanitize=address -fno-omit-frame-pointer
LDFLAGS+=-fsanitize=address -fno-omit-frame-pointer
endif
ifdef CONFIG_WIN32
LDEXPORT=
else
LDEXPORT=-rdynamic
endif
ifndef CONFIG_COSMO
ifndef CONFIG_DARWIN
CONFIG_SHARED_LIBS=y # building shared libraries is supported
endif
endif
PROGS=qjs$(EXE) qjsc$(EXE) run-test262
ifneq ($(CROSS_PREFIX),)
QJSC_CC=gcc
QJSC=./host-qjsc
PROGS+=$(QJSC)
else
QJSC_CC=$(CC)
QJSC=./qjsc$(EXE)
endif
ifndef CONFIG_WIN32
PROGS+=qjscalc
endif
ifdef CONFIG_M32
PROGS+=qjs32 qjs32_s
endif
PROGS+=libquickjs.a
ifdef CONFIG_LTO
PROGS+=libquickjs.lto.a
endif
# examples
ifeq ($(CROSS_PREFIX),)
PROGS+=examples/hello
ifndef CONFIG_ASAN
PROGS+=examples/hello_module
endif
ifdef CONFIG_SHARED_LIBS
PROGS+=examples/test_fib examples/fib.so examples/point.so
endif
endif
all: $(OBJDIR) $(OBJDIR)/quickjs.check.o $(OBJDIR)/qjs.check.o $(PROGS)
QJS_LIB_OBJS=$(OBJDIR)/quickjs.o $(OBJDIR)/libregexp.o $(OBJDIR)/libunicode.o $(OBJDIR)/cutils.o $(OBJDIR)/quickjs-libc.o $(OBJDIR)/libbf.o
QJS_OBJS=$(OBJDIR)/qjs.o $(OBJDIR)/repl.o $(QJS_LIB_OBJS)
ifdef CONFIG_BIGNUM
QJS_OBJS+=$(OBJDIR)/qjscalc.o
endif
HOST_LIBS=-lm -ldl -lpthread
LIBS=-lm
ifndef CONFIG_WIN32
LIBS+=-ldl -lpthread
endif
LIBS+=$(EXTRA_LIBS)
$(OBJDIR):
mkdir -p $(OBJDIR) $(OBJDIR)/examples $(OBJDIR)/tests
qjs$(EXE): $(QJS_OBJS)
$(CC) $(LDFLAGS) $(LDEXPORT) -o $@ $^ $(LIBS)
qjs-debug$(EXE): $(patsubst %.o, %.debug.o, $(QJS_OBJS))
$(CC) $(LDFLAGS) -o $@ $^ $(LIBS)
qjsc$(EXE): $(OBJDIR)/qjsc.o $(QJS_LIB_OBJS)
$(CC) $(LDFLAGS) -o $@ $^ $(LIBS)
ifneq ($(CROSS_PREFIX),)
$(QJSC): $(OBJDIR)/qjsc.host.o \
$(patsubst %.o, %.host.o, $(QJS_LIB_OBJS))
$(HOST_CC) $(LDFLAGS) -o $@ $^ $(HOST_LIBS)
endif #CROSS_PREFIX
QJSC_DEFINES:=-DCONFIG_CC=\"$(QJSC_CC)\" -DCONFIG_PREFIX=\"$(PREFIX)\"
ifdef CONFIG_LTO
QJSC_DEFINES+=-DCONFIG_LTO
endif
QJSC_HOST_DEFINES:=-DCONFIG_CC=\"$(HOST_CC)\" -DCONFIG_PREFIX=\"$(PREFIX)\"
$(OBJDIR)/qjsc.o: CFLAGS+=$(QJSC_DEFINES)
$(OBJDIR)/qjsc.host.o: CFLAGS+=$(QJSC_HOST_DEFINES)
qjs32: $(patsubst %.o, %.m32.o, $(QJS_OBJS))
$(CC) -m32 $(LDFLAGS) $(LDEXPORT) -o $@ $^ $(LIBS)
qjs32_s: $(patsubst %.o, %.m32s.o, $(QJS_OBJS))
$(CC) -m32 $(LDFLAGS) -o $@ $^ $(LIBS)
@size $@
qjscalc: qjs
ln -sf $< $@
ifdef CONFIG_LTO
LTOEXT=.lto
else
LTOEXT=
endif
libquickjs$(LTOEXT).a: $(QJS_LIB_OBJS)
$(AR) rcs $@ $^
ifdef CONFIG_LTO
libquickjs.a: $(patsubst %.o, %.nolto.o, $(QJS_LIB_OBJS))
$(AR) rcs $@ $^
endif # CONFIG_LTO
repl.c: $(QJSC) repl.js
$(QJSC) -c -o $@ -m repl.js
qjscalc.c: $(QJSC) qjscalc.js
$(QJSC) -fbignum -c -o $@ qjscalc.js
ifneq ($(wildcard unicode/UnicodeData.txt),)
$(OBJDIR)/libunicode.o $(OBJDIR)/libunicode.m32.o $(OBJDIR)/libunicode.m32s.o \
$(OBJDIR)/libunicode.nolto.o: libunicode-table.h
libunicode-table.h: unicode_gen
./unicode_gen unicode $@
endif
run-test262: $(OBJDIR)/run-test262.o $(QJS_LIB_OBJS)
$(CC) $(LDFLAGS) -o $@ $^ $(LIBS)
run-test262-debug: $(patsubst %.o, %.debug.o, $(OBJDIR)/run-test262.o $(QJS_LIB_OBJS))
$(CC) $(LDFLAGS) -o $@ $^ $(LIBS)
run-test262-32: $(patsubst %.o, %.m32.o, $(OBJDIR)/run-test262.o $(QJS_LIB_OBJS))
$(CC) -m32 $(LDFLAGS) -o $@ $^ $(LIBS)
# object suffix order: nolto, [m32|m32s]
$(OBJDIR)/%.o: %.c | $(OBJDIR)
$(CC) $(CFLAGS_OPT) -c -o $@ $<
$(OBJDIR)/%.host.o: %.c | $(OBJDIR)
$(HOST_CC) $(CFLAGS_OPT) -c -o $@ $<
$(OBJDIR)/%.pic.o: %.c | $(OBJDIR)
$(CC) $(CFLAGS_OPT) -fPIC -DJS_SHARED_LIBRARY -c -o $@ $<
$(OBJDIR)/%.nolto.o: %.c | $(OBJDIR)
$(CC) $(CFLAGS_NOLTO) -c -o $@ $<
$(OBJDIR)/%.m32.o: %.c | $(OBJDIR)
$(CC) -m32 $(CFLAGS_OPT) -c -o $@ $<
$(OBJDIR)/%.m32s.o: %.c | $(OBJDIR)
$(CC) -m32 $(CFLAGS_SMALL) -c -o $@ $<
$(OBJDIR)/%.debug.o: %.c | $(OBJDIR)
$(CC) $(CFLAGS_DEBUG) -c -o $@ $<
$(OBJDIR)/%.check.o: %.c | $(OBJDIR)
$(CC) $(CFLAGS) -DCONFIG_CHECK_JSVALUE -c -o $@ $<
regexp_test: libregexp.c libunicode.c cutils.c
$(CC) $(LDFLAGS) $(CFLAGS) -DTEST -o $@ libregexp.c libunicode.c cutils.c $(LIBS)
unicode_gen: $(OBJDIR)/unicode_gen.host.o $(OBJDIR)/cutils.host.o libunicode.c unicode_gen_def.h
$(HOST_CC) $(LDFLAGS) $(CFLAGS) -o $@ $(OBJDIR)/unicode_gen.host.o $(OBJDIR)/cutils.host.o
clean:
rm -f repl.c qjscalc.c out.c
rm -f *.a *.o *.d *~ unicode_gen regexp_test $(PROGS)
rm -f hello.c test_fib.c
rm -f examples/*.so tests/*.so
rm -rf $(OBJDIR)/ *.dSYM/ qjs-debug
rm -rf run-test262-debug run-test262-32
install: all
mkdir -p "$(DESTDIR)$(PREFIX)/bin"
$(STRIP) qjs qjsc
install -m755 qjs qjsc "$(DESTDIR)$(PREFIX)/bin"
ln -sf qjs "$(DESTDIR)$(PREFIX)/bin/qjscalc"
mkdir -p "$(DESTDIR)$(PREFIX)/lib/quickjs"
install -m644 libquickjs.a "$(DESTDIR)$(PREFIX)/lib/quickjs"
ifdef CONFIG_LTO
install -m644 libquickjs.lto.a "$(DESTDIR)$(PREFIX)/lib/quickjs"
endif
mkdir -p "$(DESTDIR)$(PREFIX)/include/quickjs"
install -m644 quickjs.h quickjs-libc.h "$(DESTDIR)$(PREFIX)/include/quickjs"
###############################################################################
# examples
# example of static JS compilation
HELLO_SRCS=examples/hello.js
HELLO_OPTS=-fno-string-normalize -fno-map -fno-promise -fno-typedarray \
-fno-typedarray -fno-regexp -fno-json -fno-eval -fno-proxy \
-fno-date -fno-module-loader -fno-bigint
hello.c: $(QJSC) $(HELLO_SRCS)
$(QJSC) -e $(HELLO_OPTS) -o $@ $(HELLO_SRCS)
ifdef CONFIG_M32
examples/hello: $(OBJDIR)/hello.m32s.o $(patsubst %.o, %.m32s.o, $(QJS_LIB_OBJS))
$(CC) -m32 $(LDFLAGS) -o $@ $^ $(LIBS)
else
examples/hello: $(OBJDIR)/hello.o $(QJS_LIB_OBJS)
$(CC) $(LDFLAGS) -o $@ $^ $(LIBS)
endif
# example of static JS compilation with modules
HELLO_MODULE_SRCS=examples/hello_module.js
HELLO_MODULE_OPTS=-fno-string-normalize -fno-map -fno-promise -fno-typedarray \
-fno-typedarray -fno-regexp -fno-json -fno-eval -fno-proxy \
-fno-date -m
examples/hello_module: $(QJSC) libquickjs$(LTOEXT).a $(HELLO_MODULE_SRCS)
$(QJSC) $(HELLO_MODULE_OPTS) -o $@ $(HELLO_MODULE_SRCS)
# use of an external C module (static compilation)
test_fib.c: $(QJSC) examples/test_fib.js
$(QJSC) -e -M examples/fib.so,fib -m -o $@ examples/test_fib.js
examples/test_fib: $(OBJDIR)/test_fib.o $(OBJDIR)/examples/fib.o libquickjs$(LTOEXT).a
$(CC) $(LDFLAGS) -o $@ $^ $(LIBS)
examples/fib.so: $(OBJDIR)/examples/fib.pic.o
$(CC) $(LDFLAGS) -shared -o $@ $^
examples/point.so: $(OBJDIR)/examples/point.pic.o
$(CC) $(LDFLAGS) -shared -o $@ $^
###############################################################################
# documentation
DOCS=doc/quickjs.pdf doc/quickjs.html doc/jsbignum.pdf doc/jsbignum.html
build_doc: $(DOCS)
clean_doc:
rm -f $(DOCS)
doc/%.pdf: doc/%.texi
texi2pdf --clean -o $@ -q $<
doc/%.html.pre: doc/%.texi
makeinfo --html --no-headers --no-split --number-sections -o $@ $<
doc/%.html: doc/%.html.pre
sed -e 's|</style>|</style>\n<meta name="viewport" content="width=device-width, initial-scale=1.0">|' < $< > $@
###############################################################################
# tests
ifdef CONFIG_SHARED_LIBS
test: tests/bjson.so examples/point.so
endif
ifdef CONFIG_M32
test: qjs32
endif
test: qjs
./qjs tests/test_closure.js
./qjs tests/test_language.js
./qjs tests/test_builtin.js
./qjs tests/test_loop.js
./qjs tests/test_std.js
./qjs tests/test_worker.js
ifdef CONFIG_SHARED_LIBS
ifdef CONFIG_BIGNUM
./qjs --bignum tests/test_bjson.js
else
./qjs tests/test_bjson.js
endif
./qjs examples/test_point.js
endif
ifdef CONFIG_BIGNUM
./qjs --bignum tests/test_op_overloading.js
./qjs --bignum tests/test_bignum.js
./qjs --qjscalc tests/test_qjscalc.js
endif
ifdef CONFIG_M32
./qjs32 tests/test_closure.js
./qjs32 tests/test_language.js
./qjs32 tests/test_builtin.js
./qjs32 tests/test_loop.js
./qjs32 tests/test_std.js
./qjs32 tests/test_worker.js
ifdef CONFIG_BIGNUM
./qjs32 --bignum tests/test_op_overloading.js
./qjs32 --bignum tests/test_bignum.js
./qjs32 --qjscalc tests/test_qjscalc.js
endif
endif
stats: qjs qjs32
./qjs -qd
./qjs32 -qd
microbench: qjs
./qjs tests/microbench.js
microbench-32: qjs32
./qjs32 tests/microbench.js
# ES5 tests (obsolete)
test2o: run-test262
time ./run-test262 -m -c test262o.conf
test2o-32: run-test262-32
time ./run-test262-32 -m -c test262o.conf
test2o-update: run-test262
./run-test262 -u -c test262o.conf
# Test262 tests
test2-default: run-test262
time ./run-test262 -m -c test262.conf
test2: run-test262
time ./run-test262 -m -c test262.conf -a
test2-32: run-test262-32
time ./run-test262-32 -m -c test262.conf -a
test2-update: run-test262
./run-test262 -u -c test262.conf -a
test2-check: run-test262
time ./run-test262 -m -c test262.conf -E -a
testall: all test microbench test2o test2
testall-32: all test-32 microbench-32 test2o-32 test2-32
testall-complete: testall testall-32
bench-v8: qjs
make -C tests/bench-v8
./qjs -d tests/bench-v8/combined.js
tests/bjson.so: $(OBJDIR)/tests/bjson.pic.o
$(CC) $(LDFLAGS) -shared -o $@ $^ $(LIBS)
-include $(wildcard $(OBJDIR)/*.d)

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Misc ideas:
- use custom printf to avoid compatibility issues with floating point numbers
- consistent naming for preprocessor defines
- unify coding style and naming conventions
- use names from the ECMA spec in library implementation
- use byte code emitters with typed arguments (for clarity)
- use 2 bytecode DynBufs in JSFunctionDef, one for reading, one for writing
and use the same wrappers in all phases
- use more generic method for line numbers in resolve_variables and resolve_labels
- use custom timezone support to avoid C library compatibility issues
Memory:
- use memory pools for objects, etc?
- test border cases for max number of atoms, object properties, string length
- add emergency malloc mode for out of memory exceptions.
- test all DynBuf memory errors
- test all js_realloc memory errors
- improve JS_ComputeMemoryUsage() with more info
Built-in standard library:
- BSD sockets
- modules: use realpath in module name normalizer and put it in quickjs-libc
- modules: if no ".", use a well known module loading path ?
- get rid of __loadScript, use more common name
REPL:
- debugger
- readline: support MS Windows terminal
- readline: handle dynamic terminal resizing
- readline: handle double width unicode characters
- multiline editing
- runtime object and function inspectors
- interactive object browser
- use more generic approach to display evaluation results
- improve directive handling: dispatch, colorize, completion...
- save history
- close all predefined methods in repl.js and jscalc.js
Optimization ideas:
- 64-bit atoms in 64-bit mode ?
- 64-bit small bigint in 64-bit mode ?
- reuse stack slots for disjoint scopes, if strip
- add heuristic to avoid some cycles in closures
- small String (0-2 charcodes) with immediate storage
- perform static string concatenation at compile time
- optimize string concatenation with ropes or miniropes?
- add implicit numeric strings for Uint32 numbers?
- optimize `s += a + b`, `s += a.b` and similar simple expressions
- ensure string canonical representation and optimise comparisons and hashes?
- remove JSObject.first_weak_ref, use bit+context based hashed array for weak references
- property access optimization on the global object, functions,
prototypes and special non extensible objects.
- create object literals with the correct length by backpatching length argument
- remove redundant set_loc_uninitialized/check_uninitialized opcodes
- peephole optim: push_atom_value, to_propkey -> push_atom_value
- peephole optim: put_loc x, get_loc_check x -> set_loc x
- convert slow array to fast array when all properties != length are numeric
- optimize destructuring assignments for global and local variables
- implement some form of tail-call-optimization
- optimize OP_apply
- optimize f(...b)
Test262o: 0/11262 errors, 463 excluded
Test262o commit: 7da91bceb9ce7613f87db47ddd1292a2dda58b42 (es5-tests branch)
Result: 10/76947 errors, 1497 excluded, 8117 skipped
Test262 commit: 6cbb6da9473c56d95358d8e679c5a6d2b4574efb

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2024-01-13

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/*
* C utilities
*
* Copyright (c) 2017 Fabrice Bellard
* Copyright (c) 2018 Charlie Gordon
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#include <stdlib.h>
#include <stdio.h>
#include <stdarg.h>
#include <string.h>
#include "cutils.h"
void pstrcpy(char *buf, int buf_size, const char *str)
{
int c;
char *q = buf;
if (buf_size <= 0)
return;
for(;;) {
c = *str++;
if (c == 0 || q >= buf + buf_size - 1)
break;
*q++ = c;
}
*q = '\0';
}
/* strcat and truncate. */
char *pstrcat(char *buf, int buf_size, const char *s)
{
int len;
len = strlen(buf);
if (len < buf_size)
pstrcpy(buf + len, buf_size - len, s);
return buf;
}
int strstart(const char *str, const char *val, const char **ptr)
{
const char *p, *q;
p = str;
q = val;
while (*q != '\0') {
if (*p != *q)
return 0;
p++;
q++;
}
if (ptr)
*ptr = p;
return 1;
}
int has_suffix(const char *str, const char *suffix)
{
size_t len = strlen(str);
size_t slen = strlen(suffix);
return (len >= slen && !memcmp(str + len - slen, suffix, slen));
}
/* Dynamic buffer package */
static void *dbuf_default_realloc(void *opaque, void *ptr, size_t size)
{
return realloc(ptr, size);
}
void dbuf_init2(DynBuf *s, void *opaque, DynBufReallocFunc *realloc_func)
{
memset(s, 0, sizeof(*s));
if (!realloc_func)
realloc_func = dbuf_default_realloc;
s->opaque = opaque;
s->realloc_func = realloc_func;
}
void dbuf_init(DynBuf *s)
{
dbuf_init2(s, NULL, NULL);
}
/* return < 0 if error */
int dbuf_realloc(DynBuf *s, size_t new_size)
{
size_t size;
uint8_t *new_buf;
if (new_size > s->allocated_size) {
if (s->error)
return -1;
size = s->allocated_size * 3 / 2;
if (size > new_size)
new_size = size;
new_buf = s->realloc_func(s->opaque, s->buf, new_size);
if (!new_buf) {
s->error = TRUE;
return -1;
}
s->buf = new_buf;
s->allocated_size = new_size;
}
return 0;
}
int dbuf_write(DynBuf *s, size_t offset, const uint8_t *data, size_t len)
{
size_t end;
end = offset + len;
if (dbuf_realloc(s, end))
return -1;
memcpy(s->buf + offset, data, len);
if (end > s->size)
s->size = end;
return 0;
}
int dbuf_put(DynBuf *s, const uint8_t *data, size_t len)
{
if (unlikely((s->size + len) > s->allocated_size)) {
if (dbuf_realloc(s, s->size + len))
return -1;
}
memcpy(s->buf + s->size, data, len);
s->size += len;
return 0;
}
int dbuf_put_self(DynBuf *s, size_t offset, size_t len)
{
if (unlikely((s->size + len) > s->allocated_size)) {
if (dbuf_realloc(s, s->size + len))
return -1;
}
memcpy(s->buf + s->size, s->buf + offset, len);
s->size += len;
return 0;
}
int dbuf_putc(DynBuf *s, uint8_t c)
{
return dbuf_put(s, &c, 1);
}
int dbuf_putstr(DynBuf *s, const char *str)
{
return dbuf_put(s, (const uint8_t *)str, strlen(str));
}
int __attribute__((format(printf, 2, 3))) dbuf_printf(DynBuf *s,
const char *fmt, ...)
{
va_list ap;
char buf[128];
int len;
va_start(ap, fmt);
len = vsnprintf(buf, sizeof(buf), fmt, ap);
va_end(ap);
if (len < sizeof(buf)) {
/* fast case */
return dbuf_put(s, (uint8_t *)buf, len);
} else {
if (dbuf_realloc(s, s->size + len + 1))
return -1;
va_start(ap, fmt);
vsnprintf((char *)(s->buf + s->size), s->allocated_size - s->size,
fmt, ap);
va_end(ap);
s->size += len;
}
return 0;
}
void dbuf_free(DynBuf *s)
{
/* we test s->buf as a fail safe to avoid crashing if dbuf_free()
is called twice */
if (s->buf) {
s->realloc_func(s->opaque, s->buf, 0);
}
memset(s, 0, sizeof(*s));
}
/* Note: at most 31 bits are encoded. At most UTF8_CHAR_LEN_MAX bytes
are output. */
int unicode_to_utf8(uint8_t *buf, unsigned int c)
{
uint8_t *q = buf;
if (c < 0x80) {
*q++ = c;
} else {
if (c < 0x800) {
*q++ = (c >> 6) | 0xc0;
} else {
if (c < 0x10000) {
*q++ = (c >> 12) | 0xe0;
} else {
if (c < 0x00200000) {
*q++ = (c >> 18) | 0xf0;
} else {
if (c < 0x04000000) {
*q++ = (c >> 24) | 0xf8;
} else if (c < 0x80000000) {
*q++ = (c >> 30) | 0xfc;
*q++ = ((c >> 24) & 0x3f) | 0x80;
} else {
return 0;
}
*q++ = ((c >> 18) & 0x3f) | 0x80;
}
*q++ = ((c >> 12) & 0x3f) | 0x80;
}
*q++ = ((c >> 6) & 0x3f) | 0x80;
}
*q++ = (c & 0x3f) | 0x80;
}
return q - buf;
}
static const unsigned int utf8_min_code[5] = {
0x80, 0x800, 0x10000, 0x00200000, 0x04000000,
};
static const unsigned char utf8_first_code_mask[5] = {
0x1f, 0xf, 0x7, 0x3, 0x1,
};
/* return -1 if error. *pp is not updated in this case. max_len must
be >= 1. The maximum length for a UTF8 byte sequence is 6 bytes. */
int unicode_from_utf8(const uint8_t *p, int max_len, const uint8_t **pp)
{
int l, c, b, i;
c = *p++;
if (c < 0x80) {
*pp = p;
return c;
}
switch(c) {
case 0xc0: case 0xc1: case 0xc2: case 0xc3:
case 0xc4: case 0xc5: case 0xc6: case 0xc7:
case 0xc8: case 0xc9: case 0xca: case 0xcb:
case 0xcc: case 0xcd: case 0xce: case 0xcf:
case 0xd0: case 0xd1: case 0xd2: case 0xd3:
case 0xd4: case 0xd5: case 0xd6: case 0xd7:
case 0xd8: case 0xd9: case 0xda: case 0xdb:
case 0xdc: case 0xdd: case 0xde: case 0xdf:
l = 1;
break;
case 0xe0: case 0xe1: case 0xe2: case 0xe3:
case 0xe4: case 0xe5: case 0xe6: case 0xe7:
case 0xe8: case 0xe9: case 0xea: case 0xeb:
case 0xec: case 0xed: case 0xee: case 0xef:
l = 2;
break;
case 0xf0: case 0xf1: case 0xf2: case 0xf3:
case 0xf4: case 0xf5: case 0xf6: case 0xf7:
l = 3;
break;
case 0xf8: case 0xf9: case 0xfa: case 0xfb:
l = 4;
break;
case 0xfc: case 0xfd:
l = 5;
break;
default:
return -1;
}
/* check that we have enough characters */
if (l > (max_len - 1))
return -1;
c &= utf8_first_code_mask[l - 1];
for(i = 0; i < l; i++) {
b = *p++;
if (b < 0x80 || b >= 0xc0)
return -1;
c = (c << 6) | (b & 0x3f);
}
if (c < utf8_min_code[l - 1])
return -1;
*pp = p;
return c;
}
#if 0
#if defined(EMSCRIPTEN) || defined(__ANDROID__)
static void *rqsort_arg;
static int (*rqsort_cmp)(const void *, const void *, void *);
static int rqsort_cmp2(const void *p1, const void *p2)
{
return rqsort_cmp(p1, p2, rqsort_arg);
}
/* not reentrant, but not needed with emscripten */
void rqsort(void *base, size_t nmemb, size_t size,
int (*cmp)(const void *, const void *, void *),
void *arg)
{
rqsort_arg = arg;
rqsort_cmp = cmp;
qsort(base, nmemb, size, rqsort_cmp2);
}
#endif
#else
typedef void (*exchange_f)(void *a, void *b, size_t size);
typedef int (*cmp_f)(const void *, const void *, void *opaque);
static void exchange_bytes(void *a, void *b, size_t size) {
uint8_t *ap = (uint8_t *)a;
uint8_t *bp = (uint8_t *)b;
while (size-- != 0) {
uint8_t t = *ap;
*ap++ = *bp;
*bp++ = t;
}
}
static void exchange_one_byte(void *a, void *b, size_t size) {
uint8_t *ap = (uint8_t *)a;
uint8_t *bp = (uint8_t *)b;
uint8_t t = *ap;
*ap = *bp;
*bp = t;
}
static void exchange_int16s(void *a, void *b, size_t size) {
uint16_t *ap = (uint16_t *)a;
uint16_t *bp = (uint16_t *)b;
for (size /= sizeof(uint16_t); size-- != 0;) {
uint16_t t = *ap;
*ap++ = *bp;
*bp++ = t;
}
}
static void exchange_one_int16(void *a, void *b, size_t size) {
uint16_t *ap = (uint16_t *)a;
uint16_t *bp = (uint16_t *)b;
uint16_t t = *ap;
*ap = *bp;
*bp = t;
}
static void exchange_int32s(void *a, void *b, size_t size) {
uint32_t *ap = (uint32_t *)a;
uint32_t *bp = (uint32_t *)b;
for (size /= sizeof(uint32_t); size-- != 0;) {
uint32_t t = *ap;
*ap++ = *bp;
*bp++ = t;
}
}
static void exchange_one_int32(void *a, void *b, size_t size) {
uint32_t *ap = (uint32_t *)a;
uint32_t *bp = (uint32_t *)b;
uint32_t t = *ap;
*ap = *bp;
*bp = t;
}
static void exchange_int64s(void *a, void *b, size_t size) {
uint64_t *ap = (uint64_t *)a;
uint64_t *bp = (uint64_t *)b;
for (size /= sizeof(uint64_t); size-- != 0;) {
uint64_t t = *ap;
*ap++ = *bp;
*bp++ = t;
}
}
static void exchange_one_int64(void *a, void *b, size_t size) {
uint64_t *ap = (uint64_t *)a;
uint64_t *bp = (uint64_t *)b;
uint64_t t = *ap;
*ap = *bp;
*bp = t;
}
static void exchange_int128s(void *a, void *b, size_t size) {
uint64_t *ap = (uint64_t *)a;
uint64_t *bp = (uint64_t *)b;
for (size /= sizeof(uint64_t) * 2; size-- != 0; ap += 2, bp += 2) {
uint64_t t = ap[0];
uint64_t u = ap[1];
ap[0] = bp[0];
ap[1] = bp[1];
bp[0] = t;
bp[1] = u;
}
}
static void exchange_one_int128(void *a, void *b, size_t size) {
uint64_t *ap = (uint64_t *)a;
uint64_t *bp = (uint64_t *)b;
uint64_t t = ap[0];
uint64_t u = ap[1];
ap[0] = bp[0];
ap[1] = bp[1];
bp[0] = t;
bp[1] = u;
}
static inline exchange_f exchange_func(const void *base, size_t size) {
switch (((uintptr_t)base | (uintptr_t)size) & 15) {
case 0:
if (size == sizeof(uint64_t) * 2)
return exchange_one_int128;
else
return exchange_int128s;
case 8:
if (size == sizeof(uint64_t))
return exchange_one_int64;
else
return exchange_int64s;
case 4:
case 12:
if (size == sizeof(uint32_t))
return exchange_one_int32;
else
return exchange_int32s;
case 2:
case 6:
case 10:
case 14:
if (size == sizeof(uint16_t))
return exchange_one_int16;
else
return exchange_int16s;
default:
if (size == 1)
return exchange_one_byte;
else
return exchange_bytes;
}
}
static void heapsortx(void *base, size_t nmemb, size_t size, cmp_f cmp, void *opaque)
{
uint8_t *basep = (uint8_t *)base;
size_t i, n, c, r;
exchange_f swap = exchange_func(base, size);
if (nmemb > 1) {
i = (nmemb / 2) * size;
n = nmemb * size;
while (i > 0) {
i -= size;
for (r = i; (c = r * 2 + size) < n; r = c) {
if (c < n - size && cmp(basep + c, basep + c + size, opaque) <= 0)
c += size;
if (cmp(basep + r, basep + c, opaque) > 0)
break;
swap(basep + r, basep + c, size);
}
}
for (i = n - size; i > 0; i -= size) {
swap(basep, basep + i, size);
for (r = 0; (c = r * 2 + size) < i; r = c) {
if (c < i - size && cmp(basep + c, basep + c + size, opaque) <= 0)
c += size;
if (cmp(basep + r, basep + c, opaque) > 0)
break;
swap(basep + r, basep + c, size);
}
}
}
}
static inline void *med3(void *a, void *b, void *c, cmp_f cmp, void *opaque)
{
return cmp(a, b, opaque) < 0 ?
(cmp(b, c, opaque) < 0 ? b : (cmp(a, c, opaque) < 0 ? c : a )) :
(cmp(b, c, opaque) > 0 ? b : (cmp(a, c, opaque) < 0 ? a : c ));
}
/* pointer based version with local stack and insertion sort threshhold */
void rqsort(void *base, size_t nmemb, size_t size, cmp_f cmp, void *opaque)
{
struct { uint8_t *base; size_t count; int depth; } stack[50], *sp = stack;
uint8_t *ptr, *pi, *pj, *plt, *pgt, *top, *m;
size_t m4, i, lt, gt, span, span2;
int c, depth;
exchange_f swap = exchange_func(base, size);
exchange_f swap_block = exchange_func(base, size | 128);
if (nmemb < 2 || size <= 0)
return;
sp->base = (uint8_t *)base;
sp->count = nmemb;
sp->depth = 0;
sp++;
while (sp > stack) {
sp--;
ptr = sp->base;
nmemb = sp->count;
depth = sp->depth;
while (nmemb > 6) {
if (++depth > 50) {
/* depth check to ensure worst case logarithmic time */
heapsortx(ptr, nmemb, size, cmp, opaque);
nmemb = 0;
break;
}
/* select median of 3 from 1/4, 1/2, 3/4 positions */
/* should use median of 5 or 9? */
m4 = (nmemb >> 2) * size;
m = med3(ptr + m4, ptr + 2 * m4, ptr + 3 * m4, cmp, opaque);
swap(ptr, m, size); /* move the pivot to the start or the array */
i = lt = 1;
pi = plt = ptr + size;
gt = nmemb;
pj = pgt = top = ptr + nmemb * size;
for (;;) {
while (pi < pj && (c = cmp(ptr, pi, opaque)) >= 0) {
if (c == 0) {
swap(plt, pi, size);
lt++;
plt += size;
}
i++;
pi += size;
}
while (pi < (pj -= size) && (c = cmp(ptr, pj, opaque)) <= 0) {
if (c == 0) {
gt--;
pgt -= size;
swap(pgt, pj, size);
}
}
if (pi >= pj)
break;
swap(pi, pj, size);
i++;
pi += size;
}
/* array has 4 parts:
* from 0 to lt excluded: elements identical to pivot
* from lt to pi excluded: elements smaller than pivot
* from pi to gt excluded: elements greater than pivot
* from gt to n excluded: elements identical to pivot
*/
/* move elements identical to pivot in the middle of the array: */
/* swap values in ranges [0..lt[ and [i-lt..i[
swapping the smallest span between lt and i-lt is sufficient
*/
span = plt - ptr;
span2 = pi - plt;
lt = i - lt;
if (span > span2)
span = span2;
swap_block(ptr, pi - span, span);
/* swap values in ranges [gt..top[ and [i..top-(top-gt)[
swapping the smallest span between top-gt and gt-i is sufficient
*/
span = top - pgt;
span2 = pgt - pi;
pgt = top - span2;
gt = nmemb - (gt - i);
if (span > span2)
span = span2;
swap_block(pi, top - span, span);
/* now array has 3 parts:
* from 0 to lt excluded: elements smaller than pivot
* from lt to gt excluded: elements identical to pivot
* from gt to n excluded: elements greater than pivot
*/
/* stack the larger segment and keep processing the smaller one
to minimize stack use for pathological distributions */
if (lt > nmemb - gt) {
sp->base = ptr;
sp->count = lt;
sp->depth = depth;
sp++;
ptr = pgt;
nmemb -= gt;
} else {
sp->base = pgt;
sp->count = nmemb - gt;
sp->depth = depth;
sp++;
nmemb = lt;
}
}
/* Use insertion sort for small fragments */
for (pi = ptr + size, top = ptr + nmemb * size; pi < top; pi += size) {
for (pj = pi; pj > ptr && cmp(pj - size, pj, opaque) > 0; pj -= size)
swap(pj, pj - size, size);
}
}
}
#endif

300
deps/quickjs/cutils.h vendored
View File

@ -1,300 +0,0 @@
/*
* C utilities
*
* Copyright (c) 2017 Fabrice Bellard
* Copyright (c) 2018 Charlie Gordon
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#ifndef CUTILS_H
#define CUTILS_H
#include <stdlib.h>
#include <inttypes.h>
/* set if CPU is big endian */
#undef WORDS_BIGENDIAN
#define likely(x) __builtin_expect(!!(x), 1)
#define unlikely(x) __builtin_expect(!!(x), 0)
#define force_inline inline __attribute__((always_inline))
#define no_inline __attribute__((noinline))
#define __maybe_unused __attribute__((unused))
#define xglue(x, y) x ## y
#define glue(x, y) xglue(x, y)
#define stringify(s) tostring(s)
#define tostring(s) #s
#ifndef offsetof
#define offsetof(type, field) ((size_t) &((type *)0)->field)
#endif
#ifndef countof
#define countof(x) (sizeof(x) / sizeof((x)[0]))
#endif
/* return the pointer of type 'type *' containing 'ptr' as field 'member' */
#define container_of(ptr, type, member) ((type *)((uint8_t *)(ptr) - offsetof(type, member)))
typedef int BOOL;
#ifndef FALSE
enum {
FALSE = 0,
TRUE = 1,
};
#endif
void pstrcpy(char *buf, int buf_size, const char *str);
char *pstrcat(char *buf, int buf_size, const char *s);
int strstart(const char *str, const char *val, const char **ptr);
int has_suffix(const char *str, const char *suffix);
static inline int max_int(int a, int b)
{
if (a > b)
return a;
else
return b;
}
static inline int min_int(int a, int b)
{
if (a < b)
return a;
else
return b;
}
static inline uint32_t max_uint32(uint32_t a, uint32_t b)
{
if (a > b)
return a;
else
return b;
}
static inline uint32_t min_uint32(uint32_t a, uint32_t b)
{
if (a < b)
return a;
else
return b;
}
static inline int64_t max_int64(int64_t a, int64_t b)
{
if (a > b)
return a;
else
return b;
}
static inline int64_t min_int64(int64_t a, int64_t b)
{
if (a < b)
return a;
else
return b;
}
/* WARNING: undefined if a = 0 */
static inline int clz32(unsigned int a)
{
return __builtin_clz(a);
}
/* WARNING: undefined if a = 0 */
static inline int clz64(uint64_t a)
{
return __builtin_clzll(a);
}
/* WARNING: undefined if a = 0 */
static inline int ctz32(unsigned int a)
{
return __builtin_ctz(a);
}
/* WARNING: undefined if a = 0 */
static inline int ctz64(uint64_t a)
{
return __builtin_ctzll(a);
}
struct __attribute__((packed)) packed_u64 {
uint64_t v;
};
struct __attribute__((packed)) packed_u32 {
uint32_t v;
};
struct __attribute__((packed)) packed_u16 {
uint16_t v;
};
static inline uint64_t get_u64(const uint8_t *tab)
{
return ((const struct packed_u64 *)tab)->v;
}
static inline int64_t get_i64(const uint8_t *tab)
{
return (int64_t)((const struct packed_u64 *)tab)->v;
}
static inline void put_u64(uint8_t *tab, uint64_t val)
{
((struct packed_u64 *)tab)->v = val;
}
static inline uint32_t get_u32(const uint8_t *tab)
{
return ((const struct packed_u32 *)tab)->v;
}
static inline int32_t get_i32(const uint8_t *tab)
{
return (int32_t)((const struct packed_u32 *)tab)->v;
}
static inline void put_u32(uint8_t *tab, uint32_t val)
{
((struct packed_u32 *)tab)->v = val;
}
static inline uint32_t get_u16(const uint8_t *tab)
{
return ((const struct packed_u16 *)tab)->v;
}
static inline int32_t get_i16(const uint8_t *tab)
{
return (int16_t)((const struct packed_u16 *)tab)->v;
}
static inline void put_u16(uint8_t *tab, uint16_t val)
{
((struct packed_u16 *)tab)->v = val;
}
static inline uint32_t get_u8(const uint8_t *tab)
{
return *tab;
}
static inline int32_t get_i8(const uint8_t *tab)
{
return (int8_t)*tab;
}
static inline void put_u8(uint8_t *tab, uint8_t val)
{
*tab = val;
}
static inline uint16_t bswap16(uint16_t x)
{
return (x >> 8) | (x << 8);
}
static inline uint32_t bswap32(uint32_t v)
{
return ((v & 0xff000000) >> 24) | ((v & 0x00ff0000) >> 8) |
((v & 0x0000ff00) << 8) | ((v & 0x000000ff) << 24);
}
static inline uint64_t bswap64(uint64_t v)
{
return ((v & ((uint64_t)0xff << (7 * 8))) >> (7 * 8)) |
((v & ((uint64_t)0xff << (6 * 8))) >> (5 * 8)) |
((v & ((uint64_t)0xff << (5 * 8))) >> (3 * 8)) |
((v & ((uint64_t)0xff << (4 * 8))) >> (1 * 8)) |
((v & ((uint64_t)0xff << (3 * 8))) << (1 * 8)) |
((v & ((uint64_t)0xff << (2 * 8))) << (3 * 8)) |
((v & ((uint64_t)0xff << (1 * 8))) << (5 * 8)) |
((v & ((uint64_t)0xff << (0 * 8))) << (7 * 8));
}
/* XXX: should take an extra argument to pass slack information to the caller */
typedef void *DynBufReallocFunc(void *opaque, void *ptr, size_t size);
typedef struct DynBuf {
uint8_t *buf;
size_t size;
size_t allocated_size;
BOOL error; /* true if a memory allocation error occurred */
DynBufReallocFunc *realloc_func;
void *opaque; /* for realloc_func */
} DynBuf;
void dbuf_init(DynBuf *s);
void dbuf_init2(DynBuf *s, void *opaque, DynBufReallocFunc *realloc_func);
int dbuf_realloc(DynBuf *s, size_t new_size);
int dbuf_write(DynBuf *s, size_t offset, const uint8_t *data, size_t len);
int dbuf_put(DynBuf *s, const uint8_t *data, size_t len);
int dbuf_put_self(DynBuf *s, size_t offset, size_t len);
int dbuf_putc(DynBuf *s, uint8_t c);
int dbuf_putstr(DynBuf *s, const char *str);
static inline int dbuf_put_u16(DynBuf *s, uint16_t val)
{
return dbuf_put(s, (uint8_t *)&val, 2);
}
static inline int dbuf_put_u32(DynBuf *s, uint32_t val)
{
return dbuf_put(s, (uint8_t *)&val, 4);
}
static inline int dbuf_put_u64(DynBuf *s, uint64_t val)
{
return dbuf_put(s, (uint8_t *)&val, 8);
}
int __attribute__((format(printf, 2, 3))) dbuf_printf(DynBuf *s,
const char *fmt, ...);
void dbuf_free(DynBuf *s);
static inline BOOL dbuf_error(DynBuf *s) {
return s->error;
}
static inline void dbuf_set_error(DynBuf *s)
{
s->error = TRUE;
}
#define UTF8_CHAR_LEN_MAX 6
int unicode_to_utf8(uint8_t *buf, unsigned int c);
int unicode_from_utf8(const uint8_t *p, int max_len, const uint8_t **pp);
static inline int from_hex(int c)
{
if (c >= '0' && c <= '9')
return c - '0';
else if (c >= 'A' && c <= 'F')
return c - 'A' + 10;
else if (c >= 'a' && c <= 'f')
return c - 'a' + 10;
else
return -1;
}
void rqsort(void *base, size_t nmemb, size_t size,
int (*cmp)(const void *, const void *, void *),
void *arg);
#endif /* CUTILS_H */

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<h1 class="settitle" align="center">Javascript Bignum Extensions</h1>
<a name="SEC_Contents"></a>
<h2 class="contents-heading">Table of Contents</h2>
<div class="contents">
<ul class="no-bullet">
<li><a name="toc-Introduction" href="#Introduction">1 Introduction</a></li>
<li><a name="toc-Operator-overloading" href="#Operator-overloading">2 Operator overloading</a></li>
<li><a name="toc-BigInt-extensions" href="#BigInt-extensions">3 BigInt extensions</a></li>
<li><a name="toc-BigFloat" href="#BigFloat">4 BigFloat</a>
<ul class="no-bullet">
<li><a name="toc-Introduction-1" href="#Introduction-1">4.1 Introduction</a></li>
<li><a name="toc-Floating-point-rounding" href="#Floating-point-rounding">4.2 Floating point rounding</a></li>
<li><a name="toc-Operators" href="#Operators">4.3 Operators</a></li>
<li><a name="toc-BigFloat-literals" href="#BigFloat-literals">4.4 BigFloat literals</a></li>
<li><a name="toc-Builtin-Object-changes" href="#Builtin-Object-changes">4.5 Builtin Object changes</a>
<ul class="no-bullet">
<li><a name="toc-BigFloat-function" href="#BigFloat-function">4.5.1 <code>BigFloat</code> function</a></li>
<li><a name="toc-BigFloat_002eprototype" href="#BigFloat_002eprototype">4.5.2 <code>BigFloat.prototype</code></a></li>
<li><a name="toc-BigFloatEnv-constructor" href="#BigFloatEnv-constructor">4.5.3 <code>BigFloatEnv</code> constructor</a></li>
</ul></li>
</ul></li>
<li><a name="toc-BigDecimal" href="#BigDecimal">5 BigDecimal</a>
<ul class="no-bullet">
<li><a name="toc-Operators-1" href="#Operators-1">5.1 Operators</a></li>
<li><a name="toc-BigDecimal-literals" href="#BigDecimal-literals">5.2 BigDecimal literals</a></li>
<li><a name="toc-Builtin-Object-changes-1" href="#Builtin-Object-changes-1">5.3 Builtin Object changes</a>
<ul class="no-bullet">
<li><a name="toc-The-BigDecimal-function_002e" href="#The-BigDecimal-function_002e">5.3.1 The <code>BigDecimal</code> function.</a></li>
<li><a name="toc-Properties-of-the-BigDecimal-object" href="#Properties-of-the-BigDecimal-object">5.3.2 Properties of the <code>BigDecimal</code> object</a></li>
<li><a name="toc-Properties-of-the-BigDecimal_002eprototype-object" href="#Properties-of-the-BigDecimal_002eprototype-object">5.3.3 Properties of the <code>BigDecimal.prototype</code> object</a></li>
</ul></li>
</ul></li>
<li><a name="toc-Math-mode" href="#Math-mode">6 Math mode</a></li>
</ul>
</div>
<a name="Introduction"></a>
<h2 class="chapter">1 Introduction</h2>
<p>The Bignum extensions add the following features to the Javascript
language while being 100% backward compatible:
</p>
<ul>
<li> Operator overloading with a dispatch logic inspired from the proposal available at <a href="https://github.com/tc39/proposal-operator-overloading/">https://github.com/tc39/proposal-operator-overloading/</a>.
</li><li> Arbitrarily large floating point numbers (<code>BigFloat</code>) in base 2 using the IEEE 754 semantics.
</li><li> Arbitrarily large floating point numbers (<code>BigDecimal</code>) in base 10 based on the proposal available at
<a href="https://github.com/littledan/proposal-bigdecimal">https://github.com/littledan/proposal-bigdecimal</a>.
</li><li> <code>math</code> mode: arbitrarily large integers and floating point numbers are available by default. The integer division and power can be overloaded for example to return a fraction. The modulo operator (<code>%</code>) is defined as the Euclidian
remainder. <code>^</code> is an alias to the power operator
(<code>**</code>). <code>^^</code> is used as the exclusive or operator.
</li></ul>
<p>The extensions are independent from each other except the <code>math</code>
mode which relies on BigFloat and operator overloading.
</p>
<a name="Operator-overloading"></a>
<h2 class="chapter">2 Operator overloading</h2>
<p>Operator overloading is inspired from the proposal available at
<a href="https://github.com/tc39/proposal-operator-overloading/">https://github.com/tc39/proposal-operator-overloading/</a>. It
implements the same dispatch logic but finds the operator sets by
looking at the <code>Symbol.operatorSet</code> property in the objects. The
changes were done in order to simplify the implementation.
</p>
<p>More precisely, the following modifications were made:
</p>
<ul>
<li> <code>with operators from</code> is not supported. Operator overloading is always enabled.
</li><li> The dispatch is not based on a static <code>[[OperatorSet]]</code> field in all instances. Instead, a dynamic lookup of the <code>Symbol.operatorSet</code> property is done. This property is typically added in the prototype of each object.
</li><li> <code>Operators.create(...dictionaries)</code> is used to create a new OperatorSet object. The <code>Operators</code> function is supported as an helper to be closer to the TC39 proposal.
</li><li> <code>[]</code> cannot be overloaded.
</li><li> In math mode, the BigInt division and power operators can be overloaded with <code>Operators.updateBigIntOperators(dictionary)</code>.
</li></ul>
<a name="BigInt-extensions"></a>
<h2 class="chapter">3 BigInt extensions</h2>
<p>A few properties are added to the BigInt object:
</p>
<dl compact="compact">
<dt><code>tdiv(a, b)</code></dt>
<dd><p>Return <em>trunc(a/b)</em>. <code>b = 0</code> raises a RangeError
exception.
</p>
</dd>
<dt><code>fdiv(a, b)</code></dt>
<dd><p>Return <em>\lfloor a/b \rfloor</em>. <code>b = 0</code> raises a RangeError
exception.
</p>
</dd>
<dt><code>cdiv(a, b)</code></dt>
<dd><p>Return <em>\lceil a/b \rceil</em>. <code>b = 0</code> raises a RangeError
exception.
</p>
</dd>
<dt><code>ediv(a, b)</code></dt>
<dd><p>Return <em>sgn(b) \lfloor a/{|b|} \rfloor</em> (Euclidian
division). <code>b = 0</code> raises a RangeError exception.
</p>
</dd>
<dt><code>tdivrem(a, b)</code></dt>
<dt><code>fdivrem(a, b)</code></dt>
<dt><code>cdivrem(a, b)</code></dt>
<dt><code>edivrem(a, b)</code></dt>
<dd><p>Return an array of two elements. The first element is the quotient,
the second is the remainder. The same rounding is done as the
corresponding division operation.
</p>
</dd>
<dt><code>sqrt(a)</code></dt>
<dd><p>Return <em>\lfloor \sqrt(a) \rfloor</em>. A RangeError exception is
raised if <em>a &lt; 0</em>.
</p>
</dd>
<dt><code>sqrtrem(a)</code></dt>
<dd><p>Return an array of two elements. The first element is <em>\lfloor
\sqrt{a} \rfloor</em>. The second element is <em>a-\lfloor \sqrt{a}
\rfloor^2</em>. A RangeError exception is raised if <em>a &lt; 0</em>.
</p>
</dd>
<dt><code>floorLog2(a)</code></dt>
<dd><p>Return -1 if <em>a \leq 0</em> otherwise return <em>\lfloor \log2(a) \rfloor</em>.
</p>
</dd>
<dt><code>ctz(a)</code></dt>
<dd><p>Return the number of trailing zeros in the two&rsquo;s complement binary representation of a. Return -1 if <em>a=0</em>.
</p>
</dd>
</dl>
<a name="BigFloat"></a>
<h2 class="chapter">4 BigFloat</h2>
<a name="Introduction-1"></a>
<h3 class="section">4.1 Introduction</h3>
<p>This extension adds the <code>BigFloat</code> primitive type. The
<code>BigFloat</code> type represents floating point numbers in base 2
with the IEEE 754 semantics. A floating
point number is represented as a sign, mantissa and exponent. The
special values <code>NaN</code>, <code>+/-Infinity</code>, <code>+0</code> and <code>-0</code>
are supported. The mantissa and exponent can have any bit length with
an implementation specific minimum and maximum.
</p>
<a name="Floating-point-rounding"></a>
<h3 class="section">4.2 Floating point rounding</h3>
<p>Each floating point operation operates with infinite precision and
then rounds the result according to the specified floating point
environment (<code>BigFloatEnv</code> object). The status flags of the
environment are also set according to the result of the operation.
</p>
<p>If no floating point environment is provided, the global floating
point environment is used.
</p>
<p>The rounding mode of the global floating point environment is always
<code>RNDN</code> (&ldquo;round to nearest with ties to even&rdquo;)<a name="DOCF1" href="#FOOT1"><sup>1</sup></a>. The status flags of the global environment cannot be
read<a name="DOCF2" href="#FOOT2"><sup>2</sup></a>. The precision of the global environment is
<code>BigFloatEnv.prec</code>. The number of exponent bits of the global
environment is <code>BigFloatEnv.expBits</code>. The global environment
subnormal flag is set to <code>true</code>.
</p>
<p>For example, <code>prec = 53</code> and <code> expBits = 11</code> exactly give
the same precision as the IEEE 754 64 bit floating point format. The
default precision is <code>prec = 113</code> and <code> expBits = 15</code> (IEEE
754 128 bit floating point format).
</p>
<p>The global floating point environment can only be modified temporarily
when calling a function (see <code>BigFloatEnv.setPrec</code>). Hence a
function can change the global floating point environment for its
callees but not for its caller.
</p>
<a name="Operators"></a>
<h3 class="section">4.3 Operators</h3>
<p>The builtin operators are extended so that a BigFloat is returned if
at least one operand is a BigFloat. The computations are always done
with infinite precision and rounded according to the global floating
point environment.
</p>
<p><code>typeof</code> applied on a <code>BigFloat</code> returns <code>bigfloat</code>.
</p>
<p>BigFloat can be compared with all the other numeric types and the
result follows the expected mathematical relations.
</p>
<p>However, since BigFloat and Number are different types they are never
equal when using the strict comparison operators (e.g. <code>0.0 ===
0.0l</code> is false).
</p>
<a name="BigFloat-literals"></a>
<h3 class="section">4.4 BigFloat literals</h3>
<p>BigFloat literals are floating point numbers with a trailing <code>l</code>
suffix. BigFloat literals have an infinite precision. They are rounded
according to the global floating point environment when they are
evaluated.<a name="DOCF3" href="#FOOT3"><sup>3</sup></a>
</p>
<a name="Builtin-Object-changes"></a>
<h3 class="section">4.5 Builtin Object changes</h3>
<a name="BigFloat-function"></a>
<h4 class="subsection">4.5.1 <code>BigFloat</code> function</h4>
<p>The <code>BigFloat</code> function cannot be invoked as a constructor. When
invoked as a function: the parameter is converted to a primitive
type. If the result is a numeric type, it is converted to BigFloat
without rounding. If the result is a string, it is converted to
BigFloat using the precision of the global floating point environment.
</p>
<p><code>BigFloat</code> properties:
</p>
<dl compact="compact">
<dt><code>LN2</code></dt>
<dt><code>PI</code></dt>
<dd><p>Getter. Return the value of the corresponding mathematical constant
rounded to nearest, ties to even with the current global
precision. The constant values are cached for small precisions.
</p>
</dd>
<dt><code>MIN_VALUE</code></dt>
<dt><code>MAX_VALUE</code></dt>
<dt><code>EPSILON</code></dt>
<dd><p>Getter. Return the minimum, maximum and epsilon <code>BigFloat</code> values
(same definition as the corresponding <code>Number</code> constants).
</p>
</dd>
<dt><code>fpRound(a[, e])</code></dt>
<dd><p>Round the floating point number <code>a</code> according to the floating
point environment <code>e</code> or the global environment if <code>e</code> is
undefined.
</p>
</dd>
<dt><code>parseFloat(a[, radix[, e]])</code></dt>
<dd><p>Parse the string <code>a</code> as a floating point number in radix
<code>radix</code>. The radix is 0 (default) or from 2 to 36. The radix 0
means radix 10 unless there is a hexadecimal or binary prefix. The
result is rounded according to the floating point environment <code>e</code>
or the global environment if <code>e</code> is undefined.
</p>
</dd>
<dt><code>isFinite(a)</code></dt>
<dd><p>Return true if <code>a</code> is a finite bigfloat.
</p>
</dd>
<dt><code>isNaN(a)</code></dt>
<dd><p>Return true if <code>a</code> is a NaN bigfloat.
</p>
</dd>
<dt><code>add(a, b[, e])</code></dt>
<dt><code>sub(a, b[, e])</code></dt>
<dt><code>mul(a, b[, e])</code></dt>
<dt><code>div(a, b[, e])</code></dt>
<dd><p>Perform the specified floating point operation and round the floating
point number <code>a</code> according to the floating point environment
<code>e</code> or the global environment if <code>e</code> is undefined. If
<code>e</code> is specified, the floating point status flags are updated.
</p>
</dd>
<dt><code>floor(x)</code></dt>
<dt><code>ceil(x)</code></dt>
<dt><code>round(x)</code></dt>
<dt><code>trunc(x)</code></dt>
<dd><p>Round to an integer. No additional rounding is performed.
</p>
</dd>
<dt><code>abs(x)</code></dt>
<dd><p>Return the absolute value of x. No additional rounding is performed.
</p>
</dd>
<dt><code>fmod(x, y[, e])</code></dt>
<dt><code>remainder(x, y[, e])</code></dt>
<dd><p>Floating point remainder. The quotient is truncated to zero (fmod) or
to the nearest integer with ties to even (remainder). <code>e</code> is an
optional floating point environment.
</p>
</dd>
<dt><code>sqrt(x[, e])</code></dt>
<dd><p>Square root. Return a rounded floating point number. <code>e</code> is an
optional floating point environment.
</p>
</dd>
<dt><code>sin(x[, e])</code></dt>
<dt><code>cos(x[, e])</code></dt>
<dt><code>tan(x[, e])</code></dt>
<dt><code>asin(x[, e])</code></dt>
<dt><code>acos(x[, e])</code></dt>
<dt><code>atan(x[, e])</code></dt>
<dt><code>atan2(x, y[, e])</code></dt>
<dt><code>exp(x[, e])</code></dt>
<dt><code>log(x[, e])</code></dt>
<dt><code>pow(x, y[, e])</code></dt>
<dd><p>Transcendental operations. Return a rounded floating point
number. <code>e</code> is an optional floating point environment.
</p>
</dd>
</dl>
<a name="BigFloat_002eprototype"></a>
<h4 class="subsection">4.5.2 <code>BigFloat.prototype</code></h4>
<p>The following properties are modified:
</p>
<dl compact="compact">
<dt><code>valueOf()</code></dt>
<dd><p>Return the bigfloat primitive value corresponding to <code>this</code>.
</p>
</dd>
<dt><code>toString(radix)</code></dt>
<dd>
<p>For floating point numbers:
</p>
<ul>
<li> If the radix is a power of two, the conversion is done with infinite
precision.
</li><li> Otherwise, the number is rounded to nearest with ties to even using
the global precision. It is then converted to string using the minimum
number of digits so that its conversion back to a floating point using
the global precision and round to nearest gives the same number.
</li></ul>
<p>The exponent letter is <code>e</code> for base 10, <code>p</code> for bases 2, 8,
16 with a binary exponent and <code>@</code> for the other bases.
</p>
</dd>
<dt><code>toPrecision(p, rnd_mode = BigFloatEnv.RNDNA, radix = 10)</code></dt>
<dt><code>toFixed(p, rnd_mode = BigFloatEnv.RNDNA, radix = 10)</code></dt>
<dt><code>toExponential(p, rnd_mode = BigFloatEnv.RNDNA, radix = 10)</code></dt>
<dd><p>Same semantics as the corresponding <code>Number</code> functions with
BigFloats. There is no limit on the accepted precision <code>p</code>. The
rounding mode and radix can be optionally specified. The radix must be
between 2 and 36.
</p>
</dd>
</dl>
<a name="BigFloatEnv-constructor"></a>
<h4 class="subsection">4.5.3 <code>BigFloatEnv</code> constructor</h4>
<p>The <code>BigFloatEnv([p, [,rndMode]]</code> constructor cannot be invoked as a
function. The floating point environment contains:
</p>
<ul>
<li> the mantissa precision in bits
</li><li> the exponent size in bits assuming an IEEE 754 representation;
</li><li> the subnormal flag (if true, subnormal floating point numbers can
be generated by the floating point operations).
</li><li> the rounding mode
</li><li> the floating point status. The status flags can only be set by the floating point operations. They can be reset with <code>BigFloatEnv.prototype.clearStatus()</code> or with the various status flag setters.
</li></ul>
<p><code>new BigFloatEnv([p, [,rndMode]]</code> creates a new floating point
environment. The status flags are reset. If no parameter is given the
precision, exponent bits and subnormal flags are copied from the
global floating point environment. Otherwise, the precision is set to
<code>p</code>, the number of exponent bits is set to <code>expBitsMax</code> and the
subnormal flags is set to <code>false</code>. If <code>rndMode</code> is
<code>undefined</code>, the rounding mode is set to <code>RNDN</code>.
</p>
<p><code>BigFloatEnv</code> properties:
</p>
<dl compact="compact">
<dt><code>prec</code></dt>
<dd><p>Getter. Return the precision in bits of the global floating point
environment. The initial value is <code>113</code>.
</p>
</dd>
<dt><code>expBits</code></dt>
<dd><p>Getter. Return the exponent size in bits of the global floating point
environment assuming an IEEE 754 representation. The initial value is
<code>15</code>.
</p>
</dd>
<dt><code>setPrec(f, p[, e])</code></dt>
<dd><p>Set the precision of the global floating point environment to <code>p</code>
and the exponent size to <code>e</code> then call the function
<code>f</code>. Then the Float precision and exponent size are reset to
their precious value and the return value of <code>f</code> is returned (or
an exception is raised if <code>f</code> raised an exception). If <code>e</code>
is <code>undefined</code> it is set to <code>BigFloatEnv.expBitsMax</code>.
</p>
</dd>
<dt><code>precMin</code></dt>
<dd><p>Read-only integer. Return the minimum allowed precision. Must be at least 2.
</p>
</dd>
<dt><code>precMax</code></dt>
<dd><p>Read-only integer. Return the maximum allowed precision. Must be at least 113.
</p>
</dd>
<dt><code>expBitsMin</code></dt>
<dd><p>Read-only integer. Return the minimum allowed exponent size in
bits. Must be at least 3.
</p>
</dd>
<dt><code>expBitsMax</code></dt>
<dd><p>Read-only integer. Return the maximum allowed exponent size in
bits. Must be at least 15.
</p>
</dd>
<dt><code>RNDN</code></dt>
<dd><p>Read-only integer. Round to nearest, with ties to even rounding mode.
</p>
</dd>
<dt><code>RNDZ</code></dt>
<dd><p>Read-only integer. Round to zero rounding mode.
</p>
</dd>
<dt><code>RNDD</code></dt>
<dd><p>Read-only integer. Round to -Infinity rounding mode.
</p>
</dd>
<dt><code>RNDU</code></dt>
<dd><p>Read-only integer. Round to +Infinity rounding mode.
</p>
</dd>
<dt><code>RNDNA</code></dt>
<dd><p>Read-only integer. Round to nearest, with ties away from zero rounding mode.
</p>
</dd>
<dt><code>RNDA</code></dt>
<dd><p>Read-only integer. Round away from zero rounding mode.
</p>
</dd>
<dt><code>RNDF<a name="DOCF4" href="#FOOT4"><sup>4</sup></a></code></dt>
<dd><p>Read-only integer. Faithful rounding mode. The result is
non-deterministically rounded to -Infinity or +Infinity. This rounding
mode usually gives a faster and deterministic running time for the
floating point operations.
</p>
</dd>
</dl>
<p><code>BigFloatEnv.prototype</code> properties:
</p>
<dl compact="compact">
<dt><code>prec</code></dt>
<dd><p>Getter and setter (Integer). Return or set the precision in bits.
</p>
</dd>
<dt><code>expBits</code></dt>
<dd><p>Getter and setter (Integer). Return or set the exponent size in bits
assuming an IEEE 754 representation.
</p>
</dd>
<dt><code>rndMode</code></dt>
<dd><p>Getter and setter (Integer). Return or set the rounding mode.
</p>
</dd>
<dt><code>subnormal</code></dt>
<dd><p>Getter and setter (Boolean). subnormal flag. It is false when
<code>expBits = expBitsMax</code>.
</p>
</dd>
<dt><code>clearStatus()</code></dt>
<dd><p>Clear the status flags.
</p>
</dd>
<dt><code>invalidOperation</code></dt>
<dt><code>divideByZero</code></dt>
<dt><code>overflow</code></dt>
<dt><code>underflow</code></dt>
<dt><code>inexact</code></dt>
<dd><p>Getter and setter (Boolean). Status flags.
</p>
</dd>
</dl>
<a name="BigDecimal"></a>
<h2 class="chapter">5 BigDecimal</h2>
<p>This extension adds the <code>BigDecimal</code> primitive type. The
<code>BigDecimal</code> type represents floating point numbers in base
10. It is inspired from the proposal available at
<a href="https://github.com/littledan/proposal-bigdecimal">https://github.com/littledan/proposal-bigdecimal</a>.
</p>
<p>The <code>BigDecimal</code> floating point numbers are always normalized and
finite. There is no concept of <code>-0</code>, <code>Infinity</code> or
<code>NaN</code>. By default, all the computations are done with infinite
precision.
</p>
<a name="Operators-1"></a>
<h3 class="section">5.1 Operators</h3>
<p>The following builtin operators support BigDecimal:
</p>
<dl compact="compact">
<dt><code>+</code></dt>
<dt><code>-</code></dt>
<dt><code>*</code></dt>
<dd><p>Both operands must be BigDecimal. The result is computed with infinite
precision.
</p></dd>
<dt><code>%</code></dt>
<dd><p>Both operands must be BigDecimal. The result is computed with infinite
precision. A range error is throws in case of division by zero.
</p>
</dd>
<dt><code>/</code></dt>
<dd><p>Both operands must be BigDecimal. A range error is throws in case of
division by zero or if the result cannot be represented with infinite
precision (use <code>BigDecimal.div</code> to specify the rounding).
</p>
</dd>
<dt><code>**</code></dt>
<dd><p>Both operands must be BigDecimal. The exponent must be a positive
integer. The result is computed with infinite precision.
</p>
</dd>
<dt><code>===</code></dt>
<dd><p>When one of the operand is a BigDecimal, return true if both operands
are a BigDecimal and if they are equal.
</p>
</dd>
<dt><code>==</code></dt>
<dt><code>!=</code></dt>
<dt><code>&lt;=</code></dt>
<dt><code>&gt;=</code></dt>
<dt><code>&lt;</code></dt>
<dt><code>&gt;</code></dt>
<dd>
<p>Numerical comparison. When one of the operand is not a BigDecimal, it is
converted to BigDecimal by using ToString(). Hence comparisons between
Number and BigDecimal do not use the exact mathematical value of the
Number value.
</p>
</dd>
</dl>
<a name="BigDecimal-literals"></a>
<h3 class="section">5.2 BigDecimal literals</h3>
<p>BigDecimal literals are decimal floating point numbers with a trailing
<code>m</code> suffix.
</p>
<a name="Builtin-Object-changes-1"></a>
<h3 class="section">5.3 Builtin Object changes</h3>
<a name="The-BigDecimal-function_002e"></a>
<h4 class="subsection">5.3.1 The <code>BigDecimal</code> function.</h4>
<p>It returns <code>0m</code> if no parameter is provided. Otherwise the first
parameter is converted to a bigdecimal by using ToString(). Hence
Number values are not converted to their exact numerical value as
BigDecimal.
</p>
<a name="Properties-of-the-BigDecimal-object"></a>
<h4 class="subsection">5.3.2 Properties of the <code>BigDecimal</code> object</h4>
<dl compact="compact">
<dt><code>add(a, b[, e])</code></dt>
<dt><code>sub(a, b[, e])</code></dt>
<dt><code>mul(a, b[, e])</code></dt>
<dt><code>div(a, b[, e])</code></dt>
<dt><code>mod(a, b[, e])</code></dt>
<dt><code>sqrt(a, e)</code></dt>
<dt><code>round(a, e)</code></dt>
<dd><p>Perform the specified floating point operation and round the floating
point result according to the rounding object <code>e</code>. If the
rounding object is not present, the operation is executed with
infinite precision.
</p>
<p>For <code>div</code>, a <code>RangeError</code> exception is thrown in case of
division by zero or if the result cannot be represented with infinite
precision if no rounding object is present.
</p>
<p>For <code>sqrt</code>, a range error is thrown if <code>a</code> is less than
zero.
</p>
<p>The rounding object must contain the following properties:
<code>roundingMode</code> is a string specifying the rounding mode
(<code>&quot;floor&quot;</code>, <code>&quot;ceiling&quot;</code>, <code>&quot;down&quot;</code>, <code>&quot;up&quot;</code>,
<code>&quot;half-even&quot;</code>, <code>&quot;half-up&quot;</code>). Either
<code>maximumSignificantDigits</code> or <code>maximumFractionDigits</code> must
be present to specify respectively the number of significant digits
(must be &gt;= 1) or the number of digits after the decimal point (must
be &gt;= 0).
</p>
</dd>
</dl>
<a name="Properties-of-the-BigDecimal_002eprototype-object"></a>
<h4 class="subsection">5.3.3 Properties of the <code>BigDecimal.prototype</code> object</h4>
<dl compact="compact">
<dt><code>valueOf()</code></dt>
<dd><p>Return the bigdecimal primitive value corresponding to <code>this</code>.
</p>
</dd>
<dt><code>toString()</code></dt>
<dd><p>Convert <code>this</code> to a string with infinite precision in base 10.
</p>
</dd>
<dt><code>toPrecision(p, rnd_mode = &quot;half-up&quot;)</code></dt>
<dt><code>toFixed(p, rnd_mode = &quot;half-up&quot;)</code></dt>
<dt><code>toExponential(p, rnd_mode = &quot;half-up&quot;)</code></dt>
<dd><p>Convert the BigDecimal <code>this</code> to string with the specified
precision <code>p</code>. There is no limit on the accepted precision
<code>p</code>. The rounding mode can be optionally
specified. <code>toPrecision</code> outputs either in decimal fixed notation
or in decimal exponential notation with a <code>p</code> digits of
precision. <code>toExponential</code> outputs in decimal exponential
notation with <code>p</code> digits after the decimal point. <code>toFixed</code>
outputs in decimal notation with <code>p</code> digits after the decimal
point.
</p>
</dd>
</dl>
<a name="Math-mode"></a>
<h2 class="chapter">6 Math mode</h2>
<p>A new <em>math mode</em> is enabled with the <code>&quot;use math&quot;</code>
directive. It propagates the same way as the <em>strict mode</em>. It is
designed so that arbitrarily large integers and floating point numbers
are available by default. In order to minimize the number of changes
in the Javascript semantics, integers are represented either as Number
or BigInt depending on their magnitude. Floating point numbers are
always represented as BigFloat.
</p>
<p>The following changes are made to the Javascript semantics:
</p>
<ul>
<li> Floating point literals (i.e. number with a decimal point or an exponent) are <code>BigFloat</code> by default (i.e. a <code>l</code> suffix is implied). Hence <code>typeof 1.0 === &quot;bigfloat&quot;</code>.
</li><li> Integer literals (i.e. numbers without a decimal point or an exponent) with or without the <code>n</code> suffix are <code>BigInt</code> if their value cannot be represented as a safe integer. A safe integer is defined as a integer whose absolute value is smaller or equal to <code>2**53-1</code>. Hence <code>typeof 1 === &quot;number &quot;</code>, <code>typeof 1n === &quot;number&quot;</code> but <code>typeof 9007199254740992 === &quot;bigint&quot; </code>.
</li><li> All the bigint builtin operators and functions are modified so that their result is returned as a Number if it is a safe integer. Otherwise the result stays a BigInt.
</li><li> The builtin operators are modified so that they return an exact result (which can be a BigInt) if their operands are safe integers. Operands between Number and BigInt are accepted provided the Number operand is a safe integer. The integer power with a negative exponent returns a BigFloat as result. The integer division returns a BigFloat as result.
</li><li> The <code>^</code> operator is an alias to the power operator (<code>**</code>).
</li><li> The power operator (both <code>^</code> and <code>**</code>) grammar is modified so that <code>-2^2</code> is allowed and yields <code>-4</code>.
</li><li> The logical xor operator is still available with the <code>^^</code> operator.
</li><li> The modulo operator (<code>%</code>) returns the Euclidian remainder (always positive) instead of the truncated remainder.
</li><li> The integer division operator can be overloaded with <code>Operators.updateBigIntOperators(dictionary)</code>.
</li><li> The integer power operator with a non zero negative exponent can be overloaded with <code>Operators.updateBigIntOperators(dictionary)</code>.
</li></ul>
<div class="footnote">
<hr>
<h4 class="footnotes-heading">Footnotes</h4>
<h3><a name="FOOT1" href="#DOCF1">(1)</a></h3>
<p>The
rationale is that the rounding mode changes must always be
explicit.</p>
<h3><a name="FOOT2" href="#DOCF2">(2)</a></h3>
<p>The rationale is to avoid side effects for the built-in
operators.</p>
<h3><a name="FOOT3" href="#DOCF3">(3)</a></h3>
<p>Base 10 floating point literals cannot usually be
exactly represented as base 2 floating point number. In order to
ensure that the literal is represented accurately with the current
precision, it must be evaluated at runtime.</p>
<h3><a name="FOOT4" href="#DOCF4">(4)</a></h3>
<p>Could be removed in case a deterministic behavior for floating point operations is required.</p>
</div>
<hr>
</body>
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\input texinfo
@iftex
@afourpaper
@headings double
@end iftex
@titlepage
@afourpaper
@sp 7
@center @titlefont{Javascript Bignum Extensions}
@sp 3
@center Version 2020-01-11
@sp 3
@center Author: Fabrice Bellard
@end titlepage
@setfilename jsbignum.info
@settitle Javascript Bignum Extensions
@contents
@chapter Introduction
The Bignum extensions add the following features to the Javascript
language while being 100% backward compatible:
@itemize
@item Operator overloading with a dispatch logic inspired from the proposal available at @url{https://github.com/tc39/proposal-operator-overloading/}.
@item Arbitrarily large floating point numbers (@code{BigFloat}) in base 2 using the IEEE 754 semantics.
@item Arbitrarily large floating point numbers (@code{BigDecimal}) in base 10 based on the proposal available at
@url{https://github.com/littledan/proposal-bigdecimal}.
@item @code{math} mode: arbitrarily large integers and floating point numbers are available by default. The integer division and power can be overloaded for example to return a fraction. The modulo operator (@code{%}) is defined as the Euclidian
remainder. @code{^} is an alias to the power operator
(@code{**}). @code{^^} is used as the exclusive or operator.
@end itemize
The extensions are independent from each other except the @code{math}
mode which relies on BigFloat and operator overloading.
@chapter Operator overloading
Operator overloading is inspired from the proposal available at
@url{https://github.com/tc39/proposal-operator-overloading/}. It
implements the same dispatch logic but finds the operator sets by
looking at the @code{Symbol.operatorSet} property in the objects. The
changes were done in order to simplify the implementation.
More precisely, the following modifications were made:
@itemize
@item @code{with operators from} is not supported. Operator overloading is always enabled.
@item The dispatch is not based on a static @code{[[OperatorSet]]} field in all instances. Instead, a dynamic lookup of the @code{Symbol.operatorSet} property is done. This property is typically added in the prototype of each object.
@item @code{Operators.create(...dictionaries)} is used to create a new OperatorSet object. The @code{Operators} function is supported as an helper to be closer to the TC39 proposal.
@item @code{[]} cannot be overloaded.
@item In math mode, the BigInt division and power operators can be overloaded with @code{Operators.updateBigIntOperators(dictionary)}.
@end itemize
@chapter BigInt extensions
A few properties are added to the BigInt object:
@table @code
@item tdiv(a, b)
Return @math{trunc(a/b)}. @code{b = 0} raises a RangeError
exception.
@item fdiv(a, b)
Return @math{\lfloor a/b \rfloor}. @code{b = 0} raises a RangeError
exception.
@item cdiv(a, b)
Return @math{\lceil a/b \rceil}. @code{b = 0} raises a RangeError
exception.
@item ediv(a, b)
Return @math{sgn(b) \lfloor a/{|b|} \rfloor} (Euclidian
division). @code{b = 0} raises a RangeError exception.
@item tdivrem(a, b)
@item fdivrem(a, b)
@item cdivrem(a, b)
@item edivrem(a, b)
Return an array of two elements. The first element is the quotient,
the second is the remainder. The same rounding is done as the
corresponding division operation.
@item sqrt(a)
Return @math{\lfloor \sqrt(a) \rfloor}. A RangeError exception is
raised if @math{a < 0}.
@item sqrtrem(a)
Return an array of two elements. The first element is @math{\lfloor
\sqrt{a} \rfloor}. The second element is @math{a-\lfloor \sqrt{a}
\rfloor^2}. A RangeError exception is raised if @math{a < 0}.
@item floorLog2(a)
Return -1 if @math{a \leq 0} otherwise return @math{\lfloor \log2(a) \rfloor}.
@item ctz(a)
Return the number of trailing zeros in the two's complement binary representation of a. Return -1 if @math{a=0}.
@end table
@chapter BigFloat
@section Introduction
This extension adds the @code{BigFloat} primitive type. The
@code{BigFloat} type represents floating point numbers in base 2
with the IEEE 754 semantics. A floating
point number is represented as a sign, mantissa and exponent. The
special values @code{NaN}, @code{+/-Infinity}, @code{+0} and @code{-0}
are supported. The mantissa and exponent can have any bit length with
an implementation specific minimum and maximum.
@section Floating point rounding
Each floating point operation operates with infinite precision and
then rounds the result according to the specified floating point
environment (@code{BigFloatEnv} object). The status flags of the
environment are also set according to the result of the operation.
If no floating point environment is provided, the global floating
point environment is used.
The rounding mode of the global floating point environment is always
@code{RNDN} (``round to nearest with ties to even'')@footnote{The
rationale is that the rounding mode changes must always be
explicit.}. The status flags of the global environment cannot be
read@footnote{The rationale is to avoid side effects for the built-in
operators.}. The precision of the global environment is
@code{BigFloatEnv.prec}. The number of exponent bits of the global
environment is @code{BigFloatEnv.expBits}. The global environment
subnormal flag is set to @code{true}.
For example, @code{prec = 53} and @code{ expBits = 11} exactly give
the same precision as the IEEE 754 64 bit floating point format. The
default precision is @code{prec = 113} and @code{ expBits = 15} (IEEE
754 128 bit floating point format).
The global floating point environment can only be modified temporarily
when calling a function (see @code{BigFloatEnv.setPrec}). Hence a
function can change the global floating point environment for its
callees but not for its caller.
@section Operators
The builtin operators are extended so that a BigFloat is returned if
at least one operand is a BigFloat. The computations are always done
with infinite precision and rounded according to the global floating
point environment.
@code{typeof} applied on a @code{BigFloat} returns @code{bigfloat}.
BigFloat can be compared with all the other numeric types and the
result follows the expected mathematical relations.
However, since BigFloat and Number are different types they are never
equal when using the strict comparison operators (e.g. @code{0.0 ===
0.0l} is false).
@section BigFloat literals
BigFloat literals are floating point numbers with a trailing @code{l}
suffix. BigFloat literals have an infinite precision. They are rounded
according to the global floating point environment when they are
evaluated.@footnote{Base 10 floating point literals cannot usually be
exactly represented as base 2 floating point number. In order to
ensure that the literal is represented accurately with the current
precision, it must be evaluated at runtime.}
@section Builtin Object changes
@subsection @code{BigFloat} function
The @code{BigFloat} function cannot be invoked as a constructor. When
invoked as a function: the parameter is converted to a primitive
type. If the result is a numeric type, it is converted to BigFloat
without rounding. If the result is a string, it is converted to
BigFloat using the precision of the global floating point environment.
@code{BigFloat} properties:
@table @code
@item LN2
@item PI
Getter. Return the value of the corresponding mathematical constant
rounded to nearest, ties to even with the current global
precision. The constant values are cached for small precisions.
@item MIN_VALUE
@item MAX_VALUE
@item EPSILON
Getter. Return the minimum, maximum and epsilon @code{BigFloat} values
(same definition as the corresponding @code{Number} constants).
@item fpRound(a[, e])
Round the floating point number @code{a} according to the floating
point environment @code{e} or the global environment if @code{e} is
undefined.
@item parseFloat(a[, radix[, e]])
Parse the string @code{a} as a floating point number in radix
@code{radix}. The radix is 0 (default) or from 2 to 36. The radix 0
means radix 10 unless there is a hexadecimal or binary prefix. The
result is rounded according to the floating point environment @code{e}
or the global environment if @code{e} is undefined.
@item isFinite(a)
Return true if @code{a} is a finite bigfloat.
@item isNaN(a)
Return true if @code{a} is a NaN bigfloat.
@item add(a, b[, e])
@item sub(a, b[, e])
@item mul(a, b[, e])
@item div(a, b[, e])
Perform the specified floating point operation and round the floating
point number @code{a} according to the floating point environment
@code{e} or the global environment if @code{e} is undefined. If
@code{e} is specified, the floating point status flags are updated.
@item floor(x)
@item ceil(x)
@item round(x)
@item trunc(x)
Round to an integer. No additional rounding is performed.
@item abs(x)
Return the absolute value of x. No additional rounding is performed.
@item fmod(x, y[, e])
@item remainder(x, y[, e])
Floating point remainder. The quotient is truncated to zero (fmod) or
to the nearest integer with ties to even (remainder). @code{e} is an
optional floating point environment.
@item sqrt(x[, e])
Square root. Return a rounded floating point number. @code{e} is an
optional floating point environment.
@item sin(x[, e])
@item cos(x[, e])
@item tan(x[, e])
@item asin(x[, e])
@item acos(x[, e])
@item atan(x[, e])
@item atan2(x, y[, e])
@item exp(x[, e])
@item log(x[, e])
@item pow(x, y[, e])
Transcendental operations. Return a rounded floating point
number. @code{e} is an optional floating point environment.
@end table
@subsection @code{BigFloat.prototype}
The following properties are modified:
@table @code
@item valueOf()
Return the bigfloat primitive value corresponding to @code{this}.
@item toString(radix)
For floating point numbers:
@itemize
@item
If the radix is a power of two, the conversion is done with infinite
precision.
@item
Otherwise, the number is rounded to nearest with ties to even using
the global precision. It is then converted to string using the minimum
number of digits so that its conversion back to a floating point using
the global precision and round to nearest gives the same number.
@end itemize
The exponent letter is @code{e} for base 10, @code{p} for bases 2, 8,
16 with a binary exponent and @code{@@} for the other bases.
@item toPrecision(p, rnd_mode = BigFloatEnv.RNDNA, radix = 10)
@item toFixed(p, rnd_mode = BigFloatEnv.RNDNA, radix = 10)
@item toExponential(p, rnd_mode = BigFloatEnv.RNDNA, radix = 10)
Same semantics as the corresponding @code{Number} functions with
BigFloats. There is no limit on the accepted precision @code{p}. The
rounding mode and radix can be optionally specified. The radix must be
between 2 and 36.
@end table
@subsection @code{BigFloatEnv} constructor
The @code{BigFloatEnv([p, [,rndMode]]} constructor cannot be invoked as a
function. The floating point environment contains:
@itemize
@item the mantissa precision in bits
@item the exponent size in bits assuming an IEEE 754 representation;
@item the subnormal flag (if true, subnormal floating point numbers can
be generated by the floating point operations).
@item the rounding mode
@item the floating point status. The status flags can only be set by the floating point operations. They can be reset with @code{BigFloatEnv.prototype.clearStatus()} or with the various status flag setters.
@end itemize
@code{new BigFloatEnv([p, [,rndMode]]} creates a new floating point
environment. The status flags are reset. If no parameter is given the
precision, exponent bits and subnormal flags are copied from the
global floating point environment. Otherwise, the precision is set to
@code{p}, the number of exponent bits is set to @code{expBitsMax} and the
subnormal flags is set to @code{false}. If @code{rndMode} is
@code{undefined}, the rounding mode is set to @code{RNDN}.
@code{BigFloatEnv} properties:
@table @code
@item prec
Getter. Return the precision in bits of the global floating point
environment. The initial value is @code{113}.
@item expBits
Getter. Return the exponent size in bits of the global floating point
environment assuming an IEEE 754 representation. The initial value is
@code{15}.
@item setPrec(f, p[, e])
Set the precision of the global floating point environment to @code{p}
and the exponent size to @code{e} then call the function
@code{f}. Then the Float precision and exponent size are reset to
their precious value and the return value of @code{f} is returned (or
an exception is raised if @code{f} raised an exception). If @code{e}
is @code{undefined} it is set to @code{BigFloatEnv.expBitsMax}.
@item precMin
Read-only integer. Return the minimum allowed precision. Must be at least 2.
@item precMax
Read-only integer. Return the maximum allowed precision. Must be at least 113.
@item expBitsMin
Read-only integer. Return the minimum allowed exponent size in
bits. Must be at least 3.
@item expBitsMax
Read-only integer. Return the maximum allowed exponent size in
bits. Must be at least 15.
@item RNDN
Read-only integer. Round to nearest, with ties to even rounding mode.
@item RNDZ
Read-only integer. Round to zero rounding mode.
@item RNDD
Read-only integer. Round to -Infinity rounding mode.
@item RNDU
Read-only integer. Round to +Infinity rounding mode.
@item RNDNA
Read-only integer. Round to nearest, with ties away from zero rounding mode.
@item RNDA
Read-only integer. Round away from zero rounding mode.
@item RNDF@footnote{Could be removed in case a deterministic behavior for floating point operations is required.}
Read-only integer. Faithful rounding mode. The result is
non-deterministically rounded to -Infinity or +Infinity. This rounding
mode usually gives a faster and deterministic running time for the
floating point operations.
@end table
@code{BigFloatEnv.prototype} properties:
@table @code
@item prec
Getter and setter (Integer). Return or set the precision in bits.
@item expBits
Getter and setter (Integer). Return or set the exponent size in bits
assuming an IEEE 754 representation.
@item rndMode
Getter and setter (Integer). Return or set the rounding mode.
@item subnormal
Getter and setter (Boolean). subnormal flag. It is false when
@code{expBits = expBitsMax}.
@item clearStatus()
Clear the status flags.
@item invalidOperation
@item divideByZero
@item overflow
@item underflow
@item inexact
Getter and setter (Boolean). Status flags.
@end table
@chapter BigDecimal
This extension adds the @code{BigDecimal} primitive type. The
@code{BigDecimal} type represents floating point numbers in base
10. It is inspired from the proposal available at
@url{https://github.com/littledan/proposal-bigdecimal}.
The @code{BigDecimal} floating point numbers are always normalized and
finite. There is no concept of @code{-0}, @code{Infinity} or
@code{NaN}. By default, all the computations are done with infinite
precision.
@section Operators
The following builtin operators support BigDecimal:
@table @code
@item +
@item -
@item *
Both operands must be BigDecimal. The result is computed with infinite
precision.
@item %
Both operands must be BigDecimal. The result is computed with infinite
precision. A range error is throws in case of division by zero.
@item /
Both operands must be BigDecimal. A range error is throws in case of
division by zero or if the result cannot be represented with infinite
precision (use @code{BigDecimal.div} to specify the rounding).
@item **
Both operands must be BigDecimal. The exponent must be a positive
integer. The result is computed with infinite precision.
@item ===
When one of the operand is a BigDecimal, return true if both operands
are a BigDecimal and if they are equal.
@item ==
@item !=
@item <=
@item >=
@item <
@item >
Numerical comparison. When one of the operand is not a BigDecimal, it is
converted to BigDecimal by using ToString(). Hence comparisons between
Number and BigDecimal do not use the exact mathematical value of the
Number value.
@end table
@section BigDecimal literals
BigDecimal literals are decimal floating point numbers with a trailing
@code{m} suffix.
@section Builtin Object changes
@subsection The @code{BigDecimal} function.
It returns @code{0m} if no parameter is provided. Otherwise the first
parameter is converted to a bigdecimal by using ToString(). Hence
Number values are not converted to their exact numerical value as
BigDecimal.
@subsection Properties of the @code{BigDecimal} object
@table @code
@item add(a, b[, e])
@item sub(a, b[, e])
@item mul(a, b[, e])
@item div(a, b[, e])
@item mod(a, b[, e])
@item sqrt(a, e)
@item round(a, e)
Perform the specified floating point operation and round the floating
point result according to the rounding object @code{e}. If the
rounding object is not present, the operation is executed with
infinite precision.
For @code{div}, a @code{RangeError} exception is thrown in case of
division by zero or if the result cannot be represented with infinite
precision if no rounding object is present.
For @code{sqrt}, a range error is thrown if @code{a} is less than
zero.
The rounding object must contain the following properties:
@code{roundingMode} is a string specifying the rounding mode
(@code{"floor"}, @code{"ceiling"}, @code{"down"}, @code{"up"},
@code{"half-even"}, @code{"half-up"}). Either
@code{maximumSignificantDigits} or @code{maximumFractionDigits} must
be present to specify respectively the number of significant digits
(must be >= 1) or the number of digits after the decimal point (must
be >= 0).
@end table
@subsection Properties of the @code{BigDecimal.prototype} object
@table @code
@item valueOf()
Return the bigdecimal primitive value corresponding to @code{this}.
@item toString()
Convert @code{this} to a string with infinite precision in base 10.
@item toPrecision(p, rnd_mode = "half-up")
@item toFixed(p, rnd_mode = "half-up")
@item toExponential(p, rnd_mode = "half-up")
Convert the BigDecimal @code{this} to string with the specified
precision @code{p}. There is no limit on the accepted precision
@code{p}. The rounding mode can be optionally
specified. @code{toPrecision} outputs either in decimal fixed notation
or in decimal exponential notation with a @code{p} digits of
precision. @code{toExponential} outputs in decimal exponential
notation with @code{p} digits after the decimal point. @code{toFixed}
outputs in decimal notation with @code{p} digits after the decimal
point.
@end table
@chapter Math mode
A new @emph{math mode} is enabled with the @code{"use math"}
directive. It propagates the same way as the @emph{strict mode}. It is
designed so that arbitrarily large integers and floating point numbers
are available by default. In order to minimize the number of changes
in the Javascript semantics, integers are represented either as Number
or BigInt depending on their magnitude. Floating point numbers are
always represented as BigFloat.
The following changes are made to the Javascript semantics:
@itemize
@item Floating point literals (i.e. number with a decimal point or an exponent) are @code{BigFloat} by default (i.e. a @code{l} suffix is implied). Hence @code{typeof 1.0 === "bigfloat"}.
@item Integer literals (i.e. numbers without a decimal point or an exponent) with or without the @code{n} suffix are @code{BigInt} if their value cannot be represented as a safe integer. A safe integer is defined as a integer whose absolute value is smaller or equal to @code{2**53-1}. Hence @code{typeof 1 === "number "}, @code{typeof 1n === "number"} but @code{typeof 9007199254740992 === "bigint" }.
@item All the bigint builtin operators and functions are modified so that their result is returned as a Number if it is a safe integer. Otherwise the result stays a BigInt.
@item The builtin operators are modified so that they return an exact result (which can be a BigInt) if their operands are safe integers. Operands between Number and BigInt are accepted provided the Number operand is a safe integer. The integer power with a negative exponent returns a BigFloat as result. The integer division returns a BigFloat as result.
@item The @code{^} operator is an alias to the power operator (@code{**}).
@item The power operator (both @code{^} and @code{**}) grammar is modified so that @code{-2^2} is allowed and yields @code{-4}.
@item The logical xor operator is still available with the @code{^^} operator.
@item The modulo operator (@code{%}) returns the Euclidian remainder (always positive) instead of the truncated remainder.
@item The integer division operator can be overloaded with @code{Operators.updateBigIntOperators(dictionary)}.
@item The integer power operator with a non zero negative exponent can be overloaded with @code{Operators.updateBigIntOperators(dictionary)}.
@end itemize
@bye

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/*
* QuickJS: Example of C module
*
* Copyright (c) 2017-2018 Fabrice Bellard
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#include "../quickjs.h"
#define countof(x) (sizeof(x) / sizeof((x)[0]))
static int fib(int n)
{
if (n <= 0)
return 0;
else if (n == 1)
return 1;
else
return fib(n - 1) + fib(n - 2);
}
static JSValue js_fib(JSContext *ctx, JSValueConst this_val,
int argc, JSValueConst *argv)
{
int n, res;
if (JS_ToInt32(ctx, &n, argv[0]))
return JS_EXCEPTION;
res = fib(n);
return JS_NewInt32(ctx, res);
}
static const JSCFunctionListEntry js_fib_funcs[] = {
JS_CFUNC_DEF("fib", 1, js_fib ),
};
static int js_fib_init(JSContext *ctx, JSModuleDef *m)
{
return JS_SetModuleExportList(ctx, m, js_fib_funcs,
countof(js_fib_funcs));
}
#ifdef JS_SHARED_LIBRARY
#define JS_INIT_MODULE js_init_module
#else
#define JS_INIT_MODULE js_init_module_fib
#endif
JSModuleDef *JS_INIT_MODULE(JSContext *ctx, const char *module_name)
{
JSModuleDef *m;
m = JS_NewCModule(ctx, module_name, js_fib_init);
if (!m)
return NULL;
JS_AddModuleExportList(ctx, m, js_fib_funcs, countof(js_fib_funcs));
return m;
}

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@ -1,10 +0,0 @@
/* fib module */
export function fib(n)
{
if (n <= 0)
return 0;
else if (n == 1)
return 1;
else
return fib(n - 1) + fib(n - 2);
}

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@ -1 +0,0 @@
console.log("Hello World");

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@ -1,6 +0,0 @@
/* example of JS module */
import { fib } from "./fib_module.js";
console.log("Hello World");
console.log("fib(10)=", fib(10));

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@ -1,68 +0,0 @@
/*
* PI computation in Javascript using the QuickJS bigdecimal type
* (decimal floating point)
*/
"use strict";
/* compute PI with a precision of 'prec' digits */
function calc_pi(prec) {
const CHUD_A = 13591409m;
const CHUD_B = 545140134m;
const CHUD_C = 640320m;
const CHUD_C3 = 10939058860032000m; /* C^3/24 */
const CHUD_DIGITS_PER_TERM = 14.18164746272548; /* log10(C/12)*3 */
/* return [P, Q, G] */
function chud_bs(a, b, need_G) {
var c, P, Q, G, P1, Q1, G1, P2, Q2, G2, b1;
if (a == (b - 1n)) {
b1 = BigDecimal(b);
G = (2m * b1 - 1m) * (6m * b1 - 1m) * (6m * b1 - 5m);
P = G * (CHUD_B * b1 + CHUD_A);
if (b & 1n)
P = -P;
G = G;
Q = b1 * b1 * b1 * CHUD_C3;
} else {
c = (a + b) >> 1n;
[P1, Q1, G1] = chud_bs(a, c, true);
[P2, Q2, G2] = chud_bs(c, b, need_G);
P = P1 * Q2 + P2 * G1;
Q = Q1 * Q2;
if (need_G)
G = G1 * G2;
else
G = 0m;
}
return [P, Q, G];
}
var n, P, Q, G;
/* number of serie terms */
n = BigInt(Math.ceil(prec / CHUD_DIGITS_PER_TERM)) + 10n;
[P, Q, G] = chud_bs(0n, n, false);
Q = BigDecimal.div(Q, (P + Q * CHUD_A),
{ roundingMode: "half-even",
maximumSignificantDigits: prec });
G = (CHUD_C / 12m) * BigDecimal.sqrt(CHUD_C,
{ roundingMode: "half-even",
maximumSignificantDigits: prec });
return Q * G;
}
(function() {
var r, n_digits, n_bits;
if (typeof scriptArgs != "undefined") {
if (scriptArgs.length < 2) {
print("usage: pi n_digits");
return;
}
n_digits = scriptArgs[1] | 0;
} else {
n_digits = 1000;
}
/* we add more digits to reduce the probability of bad rounding for
the last digits */
r = calc_pi(n_digits + 20);
print(r.toFixed(n_digits, "down"));
})();

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@ -1,66 +0,0 @@
/*
* PI computation in Javascript using the QuickJS bigfloat type
* (binary floating point)
*/
"use strict";
/* compute PI with a precision of 'prec' bits */
function calc_pi() {
const CHUD_A = 13591409n;
const CHUD_B = 545140134n;
const CHUD_C = 640320n;
const CHUD_C3 = 10939058860032000n; /* C^3/24 */
const CHUD_BITS_PER_TERM = 47.11041313821584202247; /* log2(C/12)*3 */
/* return [P, Q, G] */
function chud_bs(a, b, need_G) {
var c, P, Q, G, P1, Q1, G1, P2, Q2, G2;
if (a == (b - 1n)) {
G = (2n * b - 1n) * (6n * b - 1n) * (6n * b - 5n);
P = BigFloat(G * (CHUD_B * b + CHUD_A));
if (b & 1n)
P = -P;
G = BigFloat(G);
Q = BigFloat(b * b * b * CHUD_C3);
} else {
c = (a + b) >> 1n;
[P1, Q1, G1] = chud_bs(a, c, true);
[P2, Q2, G2] = chud_bs(c, b, need_G);
P = P1 * Q2 + P2 * G1;
Q = Q1 * Q2;
if (need_G)
G = G1 * G2;
else
G = 0l;
}
return [P, Q, G];
}
var n, P, Q, G;
/* number of serie terms */
n = BigInt(Math.ceil(BigFloatEnv.prec / CHUD_BITS_PER_TERM)) + 10n;
[P, Q, G] = chud_bs(0n, n, false);
Q = Q / (P + Q * BigFloat(CHUD_A));
G = BigFloat((CHUD_C / 12n)) * BigFloat.sqrt(BigFloat(CHUD_C));
return Q * G;
}
(function() {
var r, n_digits, n_bits;
if (typeof scriptArgs != "undefined") {
if (scriptArgs.length < 2) {
print("usage: pi n_digits");
return;
}
n_digits = scriptArgs[1];
} else {
n_digits = 1000;
}
n_bits = Math.ceil(n_digits * Math.log2(10));
/* we add more bits to reduce the probability of bad rounding for
the last digits */
BigFloatEnv.setPrec( () => {
r = calc_pi();
print(r.toFixed(n_digits, BigFloatEnv.RNDZ));
}, n_bits + 32);
})();

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@ -1,118 +0,0 @@
/*
* PI computation in Javascript using the BigInt type
*/
"use strict";
/* return floor(log2(a)) for a > 0 and 0 for a = 0 */
function floor_log2(a)
{
var k_max, a1, k, i;
k_max = 0n;
while ((a >> (2n ** k_max)) != 0n) {
k_max++;
}
k = 0n;
a1 = a;
for(i = k_max - 1n; i >= 0n; i--) {
a1 = a >> (2n ** i);
if (a1 != 0n) {
a = a1;
k |= (1n << i);
}
}
return k;
}
/* return ceil(log2(a)) for a > 0 */
function ceil_log2(a)
{
return floor_log2(a - 1n) + 1n;
}
/* return floor(sqrt(a)) (not efficient but simple) */
function int_sqrt(a)
{
var l, u, s;
if (a == 0n)
return a;
l = ceil_log2(a);
u = 1n << ((l + 1n) / 2n);
/* u >= floor(sqrt(a)) */
for(;;) {
s = u;
u = ((a / s) + s) / 2n;
if (u >= s)
break;
}
return s;
}
/* return pi * 2**prec */
function calc_pi(prec) {
const CHUD_A = 13591409n;
const CHUD_B = 545140134n;
const CHUD_C = 640320n;
const CHUD_C3 = 10939058860032000n; /* C^3/24 */
const CHUD_BITS_PER_TERM = 47.11041313821584202247; /* log2(C/12)*3 */
/* return [P, Q, G] */
function chud_bs(a, b, need_G) {
var c, P, Q, G, P1, Q1, G1, P2, Q2, G2;
if (a == (b - 1n)) {
G = (2n * b - 1n) * (6n * b - 1n) * (6n * b - 5n);
P = G * (CHUD_B * b + CHUD_A);
if (b & 1n)
P = -P;
Q = b * b * b * CHUD_C3;
} else {
c = (a + b) >> 1n;
[P1, Q1, G1] = chud_bs(a, c, true);
[P2, Q2, G2] = chud_bs(c, b, need_G);
P = P1 * Q2 + P2 * G1;
Q = Q1 * Q2;
if (need_G)
G = G1 * G2;
else
G = 0n;
}
return [P, Q, G];
}
var n, P, Q, G;
/* number of serie terms */
n = BigInt(Math.ceil(Number(prec) / CHUD_BITS_PER_TERM)) + 10n;
[P, Q, G] = chud_bs(0n, n, false);
Q = (CHUD_C / 12n) * (Q << prec) / (P + Q * CHUD_A);
G = int_sqrt(CHUD_C << (2n * prec));
return (Q * G) >> prec;
}
function main(args) {
var r, n_digits, n_bits, out;
if (args.length < 1) {
print("usage: pi n_digits");
return;
}
n_digits = args[0] | 0;
/* we add more bits to reduce the probability of bad rounding for
the last digits */
n_bits = BigInt(Math.ceil(n_digits * Math.log2(10))) + 32n;
r = calc_pi(n_bits);
r = ((10n ** BigInt(n_digits)) * r) >> n_bits;
out = r.toString();
print(out[0] + "." + out.slice(1));
}
var args;
if (typeof scriptArgs != "undefined") {
args = scriptArgs;
args.shift();
} else if (typeof arguments != "undefined") {
args = arguments;
} else {
/* default: 1000 digits */
args=[1000];
}
main(args);

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@ -1,151 +0,0 @@
/*
* QuickJS: Example of C module with a class
*
* Copyright (c) 2019 Fabrice Bellard
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#include "../quickjs.h"
#include <math.h>
#define countof(x) (sizeof(x) / sizeof((x)[0]))
/* Point Class */
typedef struct {
int x;
int y;
} JSPointData;
static JSClassID js_point_class_id;
static void js_point_finalizer(JSRuntime *rt, JSValue val)
{
JSPointData *s = JS_GetOpaque(val, js_point_class_id);
/* Note: 's' can be NULL in case JS_SetOpaque() was not called */
js_free_rt(rt, s);
}
static JSValue js_point_ctor(JSContext *ctx,
JSValueConst new_target,
int argc, JSValueConst *argv)
{
JSPointData *s;
JSValue obj = JS_UNDEFINED;
JSValue proto;
s = js_mallocz(ctx, sizeof(*s));
if (!s)
return JS_EXCEPTION;
if (JS_ToInt32(ctx, &s->x, argv[0]))
goto fail;
if (JS_ToInt32(ctx, &s->y, argv[1]))
goto fail;
/* using new_target to get the prototype is necessary when the
class is extended. */
proto = JS_GetPropertyStr(ctx, new_target, "prototype");
if (JS_IsException(proto))
goto fail;
obj = JS_NewObjectProtoClass(ctx, proto, js_point_class_id);
JS_FreeValue(ctx, proto);
if (JS_IsException(obj))
goto fail;
JS_SetOpaque(obj, s);
return obj;
fail:
js_free(ctx, s);
JS_FreeValue(ctx, obj);
return JS_EXCEPTION;
}
static JSValue js_point_get_xy(JSContext *ctx, JSValueConst this_val, int magic)
{
JSPointData *s = JS_GetOpaque2(ctx, this_val, js_point_class_id);
if (!s)
return JS_EXCEPTION;
if (magic == 0)
return JS_NewInt32(ctx, s->x);
else
return JS_NewInt32(ctx, s->y);
}
static JSValue js_point_set_xy(JSContext *ctx, JSValueConst this_val, JSValue val, int magic)
{
JSPointData *s = JS_GetOpaque2(ctx, this_val, js_point_class_id);
int v;
if (!s)
return JS_EXCEPTION;
if (JS_ToInt32(ctx, &v, val))
return JS_EXCEPTION;
if (magic == 0)
s->x = v;
else
s->y = v;
return JS_UNDEFINED;
}
static JSValue js_point_norm(JSContext *ctx, JSValueConst this_val,
int argc, JSValueConst *argv)
{
JSPointData *s = JS_GetOpaque2(ctx, this_val, js_point_class_id);
if (!s)
return JS_EXCEPTION;
return JS_NewFloat64(ctx, sqrt((double)s->x * s->x + (double)s->y * s->y));
}
static JSClassDef js_point_class = {
"Point",
.finalizer = js_point_finalizer,
};
static const JSCFunctionListEntry js_point_proto_funcs[] = {
JS_CGETSET_MAGIC_DEF("x", js_point_get_xy, js_point_set_xy, 0),
JS_CGETSET_MAGIC_DEF("y", js_point_get_xy, js_point_set_xy, 1),
JS_CFUNC_DEF("norm", 0, js_point_norm),
};
static int js_point_init(JSContext *ctx, JSModuleDef *m)
{
JSValue point_proto, point_class;
/* create the Point class */
JS_NewClassID(&js_point_class_id);
JS_NewClass(JS_GetRuntime(ctx), js_point_class_id, &js_point_class);
point_proto = JS_NewObject(ctx);
JS_SetPropertyFunctionList(ctx, point_proto, js_point_proto_funcs, countof(js_point_proto_funcs));
point_class = JS_NewCFunction2(ctx, js_point_ctor, "Point", 2, JS_CFUNC_constructor, 0);
/* set proto.constructor and ctor.prototype */
JS_SetConstructor(ctx, point_class, point_proto);
JS_SetClassProto(ctx, js_point_class_id, point_proto);
JS_SetModuleExport(ctx, m, "Point", point_class);
return 0;
}
JSModuleDef *js_init_module(JSContext *ctx, const char *module_name)
{
JSModuleDef *m;
m = JS_NewCModule(ctx, module_name, js_point_init);
if (!m)
return NULL;
JS_AddModuleExport(ctx, m, "Point");
return m;
}

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@ -1,6 +0,0 @@
/* example of JS module importing a C module */
import { fib } from "./fib.so";
console.log("Hello World");
console.log("fib(10)=", fib(10));

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@ -1,40 +0,0 @@
/* example of JS module importing a C module */
import { Point } from "./point.so";
function assert(b, str)
{
if (b) {
return;
} else {
throw Error("assertion failed: " + str);
}
}
class ColorPoint extends Point {
constructor(x, y, color) {
super(x, y);
this.color = color;
}
get_color() {
return this.color;
}
};
function main()
{
var pt, pt2;
pt = new Point(2, 3);
assert(pt.x === 2);
assert(pt.y === 3);
pt.x = 4;
assert(pt.x === 4);
assert(pt.norm() == 5);
pt2 = new ColorPoint(2, 3, 0xffffff);
assert(pt2.x === 2);
assert(pt2.color === 0xffffff);
assert(pt2.get_color() === 0xffffff);
}
main();

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/*
* Tiny arbitrary precision floating point library
*
* Copyright (c) 2017-2021 Fabrice Bellard
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#ifndef LIBBF_H
#define LIBBF_H
#include <stddef.h>
#include <stdint.h>
#if defined(__SIZEOF_INT128__) && (INTPTR_MAX >= INT64_MAX)
#define LIMB_LOG2_BITS 6
#else
#define LIMB_LOG2_BITS 5
#endif
#define LIMB_BITS (1 << LIMB_LOG2_BITS)
#if LIMB_BITS == 64
typedef __int128 int128_t;
typedef unsigned __int128 uint128_t;
typedef int64_t slimb_t;
typedef uint64_t limb_t;
typedef uint128_t dlimb_t;
#define BF_RAW_EXP_MIN INT64_MIN
#define BF_RAW_EXP_MAX INT64_MAX
#define LIMB_DIGITS 19
#define BF_DEC_BASE UINT64_C(10000000000000000000)
#else
typedef int32_t slimb_t;
typedef uint32_t limb_t;
typedef uint64_t dlimb_t;
#define BF_RAW_EXP_MIN INT32_MIN
#define BF_RAW_EXP_MAX INT32_MAX
#define LIMB_DIGITS 9
#define BF_DEC_BASE 1000000000U
#endif
/* in bits */
/* minimum number of bits for the exponent */
#define BF_EXP_BITS_MIN 3
/* maximum number of bits for the exponent */
#define BF_EXP_BITS_MAX (LIMB_BITS - 3)
/* extended range for exponent, used internally */
#define BF_EXT_EXP_BITS_MAX (BF_EXP_BITS_MAX + 1)
/* minimum possible precision */
#define BF_PREC_MIN 2
/* minimum possible precision */
#define BF_PREC_MAX (((limb_t)1 << (LIMB_BITS - 2)) - 2)
/* some operations support infinite precision */
#define BF_PREC_INF (BF_PREC_MAX + 1) /* infinite precision */
#if LIMB_BITS == 64
#define BF_CHKSUM_MOD (UINT64_C(975620677) * UINT64_C(9795002197))
#else
#define BF_CHKSUM_MOD 975620677U
#endif
#define BF_EXP_ZERO BF_RAW_EXP_MIN
#define BF_EXP_INF (BF_RAW_EXP_MAX - 1)
#define BF_EXP_NAN BF_RAW_EXP_MAX
/* +/-zero is represented with expn = BF_EXP_ZERO and len = 0,
+/-infinity is represented with expn = BF_EXP_INF and len = 0,
NaN is represented with expn = BF_EXP_NAN and len = 0 (sign is ignored)
*/
typedef struct {
struct bf_context_t *ctx;
int sign;
slimb_t expn;
limb_t len;
limb_t *tab;
} bf_t;
typedef struct {
/* must be kept identical to bf_t */
struct bf_context_t *ctx;
int sign;
slimb_t expn;
limb_t len;
limb_t *tab;
} bfdec_t;
typedef enum {
BF_RNDN, /* round to nearest, ties to even */
BF_RNDZ, /* round to zero */
BF_RNDD, /* round to -inf (the code relies on (BF_RNDD xor BF_RNDU) = 1) */
BF_RNDU, /* round to +inf */
BF_RNDNA, /* round to nearest, ties away from zero */
BF_RNDA, /* round away from zero */
BF_RNDF, /* faithful rounding (nondeterministic, either RNDD or RNDU,
inexact flag is always set) */
} bf_rnd_t;
/* allow subnormal numbers. Only available if the number of exponent
bits is <= BF_EXP_BITS_USER_MAX and prec != BF_PREC_INF. */
#define BF_FLAG_SUBNORMAL (1 << 3)
/* 'prec' is the precision after the radix point instead of the whole
mantissa. Can only be used with bf_round() and
bfdec_[add|sub|mul|div|sqrt|round](). */
#define BF_FLAG_RADPNT_PREC (1 << 4)
#define BF_RND_MASK 0x7
#define BF_EXP_BITS_SHIFT 5
#define BF_EXP_BITS_MASK 0x3f
/* shortcut for bf_set_exp_bits(BF_EXT_EXP_BITS_MAX) */
#define BF_FLAG_EXT_EXP (BF_EXP_BITS_MASK << BF_EXP_BITS_SHIFT)
/* contains the rounding mode and number of exponents bits */
typedef uint32_t bf_flags_t;
typedef void *bf_realloc_func_t(void *opaque, void *ptr, size_t size);
typedef struct {
bf_t val;
limb_t prec;
} BFConstCache;
typedef struct bf_context_t {
void *realloc_opaque;
bf_realloc_func_t *realloc_func;
BFConstCache log2_cache;
BFConstCache pi_cache;
struct BFNTTState *ntt_state;
} bf_context_t;
static inline int bf_get_exp_bits(bf_flags_t flags)
{
int e;
e = (flags >> BF_EXP_BITS_SHIFT) & BF_EXP_BITS_MASK;
if (e == BF_EXP_BITS_MASK)
return BF_EXP_BITS_MAX + 1;
else
return BF_EXP_BITS_MAX - e;
}
static inline bf_flags_t bf_set_exp_bits(int n)
{
return ((BF_EXP_BITS_MAX - n) & BF_EXP_BITS_MASK) << BF_EXP_BITS_SHIFT;
}
/* returned status */
#define BF_ST_INVALID_OP (1 << 0)
#define BF_ST_DIVIDE_ZERO (1 << 1)
#define BF_ST_OVERFLOW (1 << 2)
#define BF_ST_UNDERFLOW (1 << 3)
#define BF_ST_INEXACT (1 << 4)
/* indicate that a memory allocation error occured. NaN is returned */
#define BF_ST_MEM_ERROR (1 << 5)
#define BF_RADIX_MAX 36 /* maximum radix for bf_atof() and bf_ftoa() */
static inline slimb_t bf_max(slimb_t a, slimb_t b)
{
if (a > b)
return a;
else
return b;
}
static inline slimb_t bf_min(slimb_t a, slimb_t b)
{
if (a < b)
return a;
else
return b;
}
void bf_context_init(bf_context_t *s, bf_realloc_func_t *realloc_func,
void *realloc_opaque);
void bf_context_end(bf_context_t *s);
/* free memory allocated for the bf cache data */
void bf_clear_cache(bf_context_t *s);
static inline void *bf_realloc(bf_context_t *s, void *ptr, size_t size)
{
return s->realloc_func(s->realloc_opaque, ptr, size);
}
/* 'size' must be != 0 */
static inline void *bf_malloc(bf_context_t *s, size_t size)
{
return bf_realloc(s, NULL, size);
}
static inline void bf_free(bf_context_t *s, void *ptr)
{
/* must test ptr otherwise equivalent to malloc(0) */
if (ptr)
bf_realloc(s, ptr, 0);
}
void bf_init(bf_context_t *s, bf_t *r);
static inline void bf_delete(bf_t *r)
{
bf_context_t *s = r->ctx;
/* we accept to delete a zeroed bf_t structure */
if (s && r->tab) {
bf_realloc(s, r->tab, 0);
}
}
static inline void bf_neg(bf_t *r)
{
r->sign ^= 1;
}
static inline int bf_is_finite(const bf_t *a)
{
return (a->expn < BF_EXP_INF);
}
static inline int bf_is_nan(const bf_t *a)
{
return (a->expn == BF_EXP_NAN);
}
static inline int bf_is_zero(const bf_t *a)
{
return (a->expn == BF_EXP_ZERO);
}
static inline void bf_memcpy(bf_t *r, const bf_t *a)
{
*r = *a;
}
int bf_set_ui(bf_t *r, uint64_t a);
int bf_set_si(bf_t *r, int64_t a);
void bf_set_nan(bf_t *r);
void bf_set_zero(bf_t *r, int is_neg);
void bf_set_inf(bf_t *r, int is_neg);
int bf_set(bf_t *r, const bf_t *a);
void bf_move(bf_t *r, bf_t *a);
int bf_get_float64(const bf_t *a, double *pres, bf_rnd_t rnd_mode);
int bf_set_float64(bf_t *a, double d);
int bf_cmpu(const bf_t *a, const bf_t *b);
int bf_cmp_full(const bf_t *a, const bf_t *b);
int bf_cmp(const bf_t *a, const bf_t *b);
static inline int bf_cmp_eq(const bf_t *a, const bf_t *b)
{
return bf_cmp(a, b) == 0;
}
static inline int bf_cmp_le(const bf_t *a, const bf_t *b)
{
return bf_cmp(a, b) <= 0;
}
static inline int bf_cmp_lt(const bf_t *a, const bf_t *b)
{
return bf_cmp(a, b) < 0;
}
int bf_add(bf_t *r, const bf_t *a, const bf_t *b, limb_t prec, bf_flags_t flags);
int bf_sub(bf_t *r, const bf_t *a, const bf_t *b, limb_t prec, bf_flags_t flags);
int bf_add_si(bf_t *r, const bf_t *a, int64_t b1, limb_t prec, bf_flags_t flags);
int bf_mul(bf_t *r, const bf_t *a, const bf_t *b, limb_t prec, bf_flags_t flags);
int bf_mul_ui(bf_t *r, const bf_t *a, uint64_t b1, limb_t prec, bf_flags_t flags);
int bf_mul_si(bf_t *r, const bf_t *a, int64_t b1, limb_t prec,
bf_flags_t flags);
int bf_mul_2exp(bf_t *r, slimb_t e, limb_t prec, bf_flags_t flags);
int bf_div(bf_t *r, const bf_t *a, const bf_t *b, limb_t prec, bf_flags_t flags);
#define BF_DIVREM_EUCLIDIAN BF_RNDF
int bf_divrem(bf_t *q, bf_t *r, const bf_t *a, const bf_t *b,
limb_t prec, bf_flags_t flags, int rnd_mode);
int bf_rem(bf_t *r, const bf_t *a, const bf_t *b, limb_t prec,
bf_flags_t flags, int rnd_mode);
int bf_remquo(slimb_t *pq, bf_t *r, const bf_t *a, const bf_t *b, limb_t prec,
bf_flags_t flags, int rnd_mode);
/* round to integer with infinite precision */
int bf_rint(bf_t *r, int rnd_mode);
int bf_round(bf_t *r, limb_t prec, bf_flags_t flags);
int bf_sqrtrem(bf_t *r, bf_t *rem1, const bf_t *a);
int bf_sqrt(bf_t *r, const bf_t *a, limb_t prec, bf_flags_t flags);
slimb_t bf_get_exp_min(const bf_t *a);
int bf_logic_or(bf_t *r, const bf_t *a, const bf_t *b);
int bf_logic_xor(bf_t *r, const bf_t *a, const bf_t *b);
int bf_logic_and(bf_t *r, const bf_t *a, const bf_t *b);
/* additional flags for bf_atof */
/* do not accept hex radix prefix (0x or 0X) if radix = 0 or radix = 16 */
#define BF_ATOF_NO_HEX (1 << 16)
/* accept binary (0b or 0B) or octal (0o or 0O) radix prefix if radix = 0 */
#define BF_ATOF_BIN_OCT (1 << 17)
/* Do not parse NaN or Inf */
#define BF_ATOF_NO_NAN_INF (1 << 18)
/* return the exponent separately */
#define BF_ATOF_EXPONENT (1 << 19)
int bf_atof(bf_t *a, const char *str, const char **pnext, int radix,
limb_t prec, bf_flags_t flags);
/* this version accepts prec = BF_PREC_INF and returns the radix
exponent */
int bf_atof2(bf_t *r, slimb_t *pexponent,
const char *str, const char **pnext, int radix,
limb_t prec, bf_flags_t flags);
int bf_mul_pow_radix(bf_t *r, const bf_t *T, limb_t radix,
slimb_t expn, limb_t prec, bf_flags_t flags);
/* Conversion of floating point number to string. Return a null
terminated string or NULL if memory error. *plen contains its
length if plen != NULL. The exponent letter is "e" for base 10,
"p" for bases 2, 8, 16 with a binary exponent and "@" for the other
bases. */
#define BF_FTOA_FORMAT_MASK (3 << 16)
/* fixed format: prec significant digits rounded with (flags &
BF_RND_MASK). Exponential notation is used if too many zeros are
needed.*/
#define BF_FTOA_FORMAT_FIXED (0 << 16)
/* fractional format: prec digits after the decimal point rounded with
(flags & BF_RND_MASK) */
#define BF_FTOA_FORMAT_FRAC (1 << 16)
/* free format:
For binary radices with bf_ftoa() and for bfdec_ftoa(): use the minimum
number of digits to represent 'a'. The precision and the rounding
mode are ignored.
For the non binary radices with bf_ftoa(): use as many digits as
necessary so that bf_atof() return the same number when using
precision 'prec', rounding to nearest and the subnormal
configuration of 'flags'. The result is meaningful only if 'a' is
already rounded to 'prec' bits. If the subnormal flag is set, the
exponent in 'flags' must also be set to the desired exponent range.
*/
#define BF_FTOA_FORMAT_FREE (2 << 16)
/* same as BF_FTOA_FORMAT_FREE but uses the minimum number of digits
(takes more computation time). Identical to BF_FTOA_FORMAT_FREE for
binary radices with bf_ftoa() and for bfdec_ftoa(). */
#define BF_FTOA_FORMAT_FREE_MIN (3 << 16)
/* force exponential notation for fixed or free format */
#define BF_FTOA_FORCE_EXP (1 << 20)
/* add 0x prefix for base 16, 0o prefix for base 8 or 0b prefix for
base 2 if non zero value */
#define BF_FTOA_ADD_PREFIX (1 << 21)
/* return "Infinity" instead of "Inf" and add a "+" for positive
exponents */
#define BF_FTOA_JS_QUIRKS (1 << 22)
char *bf_ftoa(size_t *plen, const bf_t *a, int radix, limb_t prec,
bf_flags_t flags);
/* modulo 2^n instead of saturation. NaN and infinity return 0 */
#define BF_GET_INT_MOD (1 << 0)
int bf_get_int32(int *pres, const bf_t *a, int flags);
int bf_get_int64(int64_t *pres, const bf_t *a, int flags);
int bf_get_uint64(uint64_t *pres, const bf_t *a);
/* the following functions are exported for testing only. */
void mp_print_str(const char *str, const limb_t *tab, limb_t n);
void bf_print_str(const char *str, const bf_t *a);
int bf_resize(bf_t *r, limb_t len);
int bf_get_fft_size(int *pdpl, int *pnb_mods, limb_t len);
int bf_normalize_and_round(bf_t *r, limb_t prec1, bf_flags_t flags);
int bf_can_round(const bf_t *a, slimb_t prec, bf_rnd_t rnd_mode, slimb_t k);
slimb_t bf_mul_log2_radix(slimb_t a1, unsigned int radix, int is_inv,
int is_ceil1);
int mp_mul(bf_context_t *s, limb_t *result,
const limb_t *op1, limb_t op1_size,
const limb_t *op2, limb_t op2_size);
limb_t mp_add(limb_t *res, const limb_t *op1, const limb_t *op2,
limb_t n, limb_t carry);
limb_t mp_add_ui(limb_t *tab, limb_t b, size_t n);
int mp_sqrtrem(bf_context_t *s, limb_t *tabs, limb_t *taba, limb_t n);
int mp_recip(bf_context_t *s, limb_t *tabr, const limb_t *taba, limb_t n);
limb_t bf_isqrt(limb_t a);
/* transcendental functions */
int bf_const_log2(bf_t *T, limb_t prec, bf_flags_t flags);
int bf_const_pi(bf_t *T, limb_t prec, bf_flags_t flags);
int bf_exp(bf_t *r, const bf_t *a, limb_t prec, bf_flags_t flags);
int bf_log(bf_t *r, const bf_t *a, limb_t prec, bf_flags_t flags);
#define BF_POW_JS_QUIRKS (1 << 16) /* (+/-1)^(+/-Inf) = NaN, 1^NaN = NaN */
int bf_pow(bf_t *r, const bf_t *x, const bf_t *y, limb_t prec, bf_flags_t flags);
int bf_cos(bf_t *r, const bf_t *a, limb_t prec, bf_flags_t flags);
int bf_sin(bf_t *r, const bf_t *a, limb_t prec, bf_flags_t flags);
int bf_tan(bf_t *r, const bf_t *a, limb_t prec, bf_flags_t flags);
int bf_atan(bf_t *r, const bf_t *a, limb_t prec, bf_flags_t flags);
int bf_atan2(bf_t *r, const bf_t *y, const bf_t *x,
limb_t prec, bf_flags_t flags);
int bf_asin(bf_t *r, const bf_t *a, limb_t prec, bf_flags_t flags);
int bf_acos(bf_t *r, const bf_t *a, limb_t prec, bf_flags_t flags);
/* decimal floating point */
static inline void bfdec_init(bf_context_t *s, bfdec_t *r)
{
bf_init(s, (bf_t *)r);
}
static inline void bfdec_delete(bfdec_t *r)
{
bf_delete((bf_t *)r);
}
static inline void bfdec_neg(bfdec_t *r)
{
r->sign ^= 1;
}
static inline int bfdec_is_finite(const bfdec_t *a)
{
return (a->expn < BF_EXP_INF);
}
static inline int bfdec_is_nan(const bfdec_t *a)
{
return (a->expn == BF_EXP_NAN);
}
static inline int bfdec_is_zero(const bfdec_t *a)
{
return (a->expn == BF_EXP_ZERO);
}
static inline void bfdec_memcpy(bfdec_t *r, const bfdec_t *a)
{
bf_memcpy((bf_t *)r, (const bf_t *)a);
}
int bfdec_set_ui(bfdec_t *r, uint64_t a);
int bfdec_set_si(bfdec_t *r, int64_t a);
static inline void bfdec_set_nan(bfdec_t *r)
{
bf_set_nan((bf_t *)r);
}
static inline void bfdec_set_zero(bfdec_t *r, int is_neg)
{
bf_set_zero((bf_t *)r, is_neg);
}
static inline void bfdec_set_inf(bfdec_t *r, int is_neg)
{
bf_set_inf((bf_t *)r, is_neg);
}
static inline int bfdec_set(bfdec_t *r, const bfdec_t *a)
{
return bf_set((bf_t *)r, (bf_t *)a);
}
static inline void bfdec_move(bfdec_t *r, bfdec_t *a)
{
bf_move((bf_t *)r, (bf_t *)a);
}
static inline int bfdec_cmpu(const bfdec_t *a, const bfdec_t *b)
{
return bf_cmpu((const bf_t *)a, (const bf_t *)b);
}
static inline int bfdec_cmp_full(const bfdec_t *a, const bfdec_t *b)
{
return bf_cmp_full((const bf_t *)a, (const bf_t *)b);
}
static inline int bfdec_cmp(const bfdec_t *a, const bfdec_t *b)
{
return bf_cmp((const bf_t *)a, (const bf_t *)b);
}
static inline int bfdec_cmp_eq(const bfdec_t *a, const bfdec_t *b)
{
return bfdec_cmp(a, b) == 0;
}
static inline int bfdec_cmp_le(const bfdec_t *a, const bfdec_t *b)
{
return bfdec_cmp(a, b) <= 0;
}
static inline int bfdec_cmp_lt(const bfdec_t *a, const bfdec_t *b)
{
return bfdec_cmp(a, b) < 0;
}
int bfdec_add(bfdec_t *r, const bfdec_t *a, const bfdec_t *b, limb_t prec,
bf_flags_t flags);
int bfdec_sub(bfdec_t *r, const bfdec_t *a, const bfdec_t *b, limb_t prec,
bf_flags_t flags);
int bfdec_add_si(bfdec_t *r, const bfdec_t *a, int64_t b1, limb_t prec,
bf_flags_t flags);
int bfdec_mul(bfdec_t *r, const bfdec_t *a, const bfdec_t *b, limb_t prec,
bf_flags_t flags);
int bfdec_mul_si(bfdec_t *r, const bfdec_t *a, int64_t b1, limb_t prec,
bf_flags_t flags);
int bfdec_div(bfdec_t *r, const bfdec_t *a, const bfdec_t *b, limb_t prec,
bf_flags_t flags);
int bfdec_divrem(bfdec_t *q, bfdec_t *r, const bfdec_t *a, const bfdec_t *b,
limb_t prec, bf_flags_t flags, int rnd_mode);
int bfdec_rem(bfdec_t *r, const bfdec_t *a, const bfdec_t *b, limb_t prec,
bf_flags_t flags, int rnd_mode);
int bfdec_rint(bfdec_t *r, int rnd_mode);
int bfdec_sqrt(bfdec_t *r, const bfdec_t *a, limb_t prec, bf_flags_t flags);
int bfdec_round(bfdec_t *r, limb_t prec, bf_flags_t flags);
int bfdec_get_int32(int *pres, const bfdec_t *a);
int bfdec_pow_ui(bfdec_t *r, const bfdec_t *a, limb_t b);
char *bfdec_ftoa(size_t *plen, const bfdec_t *a, limb_t prec, bf_flags_t flags);
int bfdec_atof(bfdec_t *r, const char *str, const char **pnext,
limb_t prec, bf_flags_t flags);
/* the following functions are exported for testing only. */
extern const limb_t mp_pow_dec[LIMB_DIGITS + 1];
void bfdec_print_str(const char *str, const bfdec_t *a);
static inline int bfdec_resize(bfdec_t *r, limb_t len)
{
return bf_resize((bf_t *)r, len);
}
int bfdec_normalize_and_round(bfdec_t *r, limb_t prec1, bf_flags_t flags);
#endif /* LIBBF_H */

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@ -1,57 +0,0 @@
/*
* Regular Expression Engine
*
* Copyright (c) 2017-2018 Fabrice Bellard
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#ifdef DEF
DEF(invalid, 1) /* never used */
DEF(char, 3)
DEF(char32, 5)
DEF(dot, 1)
DEF(any, 1) /* same as dot but match any character including line terminator */
DEF(line_start, 1)
DEF(line_end, 1)
DEF(goto, 5)
DEF(split_goto_first, 5)
DEF(split_next_first, 5)
DEF(match, 1)
DEF(save_start, 2) /* save start position */
DEF(save_end, 2) /* save end position, must come after saved_start */
DEF(save_reset, 3) /* reset save positions */
DEF(loop, 5) /* decrement the top the stack and goto if != 0 */
DEF(push_i32, 5) /* push integer on the stack */
DEF(drop, 1)
DEF(word_boundary, 1)
DEF(not_word_boundary, 1)
DEF(back_reference, 2)
DEF(backward_back_reference, 2) /* must come after back_reference */
DEF(range, 3) /* variable length */
DEF(range32, 3) /* variable length */
DEF(lookahead, 5)
DEF(negative_lookahead, 5)
DEF(push_char_pos, 1) /* push the character position on the stack */
DEF(check_advance, 1) /* pop one stack element and check that it is different from the character position */
DEF(prev, 1) /* go to the previous char */
DEF(simple_greedy_quant, 17)
#endif /* DEF */

2529
deps/quickjs/libregexp.c vendored

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@ -1,93 +0,0 @@
/*
* Regular Expression Engine
*
* Copyright (c) 2017-2018 Fabrice Bellard
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#ifndef LIBREGEXP_H
#define LIBREGEXP_H
#include <stddef.h>
#include "libunicode.h"
#define LRE_BOOL int /* for documentation purposes */
#define LRE_FLAG_GLOBAL (1 << 0)
#define LRE_FLAG_IGNORECASE (1 << 1)
#define LRE_FLAG_MULTILINE (1 << 2)
#define LRE_FLAG_DOTALL (1 << 3)
#define LRE_FLAG_UTF16 (1 << 4)
#define LRE_FLAG_STICKY (1 << 5)
#define LRE_FLAG_INDICES (1 << 6) /* Unused by libregexp, just recorded. */
#define LRE_FLAG_NAMED_GROUPS (1 << 7) /* named groups are present in the regexp */
uint8_t *lre_compile(int *plen, char *error_msg, int error_msg_size,
const char *buf, size_t buf_len, int re_flags,
void *opaque);
int lre_get_capture_count(const uint8_t *bc_buf);
int lre_get_flags(const uint8_t *bc_buf);
const char *lre_get_groupnames(const uint8_t *bc_buf);
int lre_exec(uint8_t **capture,
const uint8_t *bc_buf, const uint8_t *cbuf, int cindex, int clen,
int cbuf_type, void *opaque);
int lre_parse_escape(const uint8_t **pp, int allow_utf16);
LRE_BOOL lre_is_space(int c);
/* must be provided by the user */
LRE_BOOL lre_check_stack_overflow(void *opaque, size_t alloca_size);
void *lre_realloc(void *opaque, void *ptr, size_t size);
/* JS identifier test */
extern uint32_t const lre_id_start_table_ascii[4];
extern uint32_t const lre_id_continue_table_ascii[4];
static inline int lre_js_is_ident_first(int c)
{
if ((uint32_t)c < 128) {
return (lre_id_start_table_ascii[c >> 5] >> (c & 31)) & 1;
} else {
#ifdef CONFIG_ALL_UNICODE
return lre_is_id_start(c);
#else
return !lre_is_space(c);
#endif
}
}
static inline int lre_js_is_ident_next(int c)
{
if ((uint32_t)c < 128) {
return (lre_id_continue_table_ascii[c >> 5] >> (c & 31)) & 1;
} else {
/* ZWNJ and ZWJ are accepted in identifiers */
#ifdef CONFIG_ALL_UNICODE
return lre_is_id_continue(c) || c == 0x200C || c == 0x200D;
#else
return !lre_is_space(c) || c == 0x200C || c == 0x200D;
#endif
}
}
#undef LRE_BOOL
#endif /* LIBREGEXP_H */

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File diff suppressed because it is too large Load Diff

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@ -1,127 +0,0 @@
/*
* Unicode utilities
*
* Copyright (c) 2017-2018 Fabrice Bellard
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#ifndef LIBUNICODE_H
#define LIBUNICODE_H
#include <inttypes.h>
#define LRE_BOOL int /* for documentation purposes */
/* define it to include all the unicode tables (40KB larger) */
#define CONFIG_ALL_UNICODE
#define LRE_CC_RES_LEN_MAX 3
typedef enum {
UNICODE_NFC,
UNICODE_NFD,
UNICODE_NFKC,
UNICODE_NFKD,
} UnicodeNormalizationEnum;
int lre_case_conv(uint32_t *res, uint32_t c, int conv_type);
int lre_canonicalize(uint32_t c, BOOL is_unicode);
LRE_BOOL lre_is_cased(uint32_t c);
LRE_BOOL lre_is_case_ignorable(uint32_t c);
/* char ranges */
typedef struct {
int len; /* in points, always even */
int size;
uint32_t *points; /* points sorted by increasing value */
void *mem_opaque;
void *(*realloc_func)(void *opaque, void *ptr, size_t size);
} CharRange;
typedef enum {
CR_OP_UNION,
CR_OP_INTER,
CR_OP_XOR,
} CharRangeOpEnum;
void cr_init(CharRange *cr, void *mem_opaque, void *(*realloc_func)(void *opaque, void *ptr, size_t size));
void cr_free(CharRange *cr);
int cr_realloc(CharRange *cr, int size);
int cr_copy(CharRange *cr, const CharRange *cr1);
static inline int cr_add_point(CharRange *cr, uint32_t v)
{
if (cr->len >= cr->size) {
if (cr_realloc(cr, cr->len + 1))
return -1;
}
cr->points[cr->len++] = v;
return 0;
}
static inline int cr_add_interval(CharRange *cr, uint32_t c1, uint32_t c2)
{
if ((cr->len + 2) > cr->size) {
if (cr_realloc(cr, cr->len + 2))
return -1;
}
cr->points[cr->len++] = c1;
cr->points[cr->len++] = c2;
return 0;
}
int cr_union1(CharRange *cr, const uint32_t *b_pt, int b_len);
static inline int cr_union_interval(CharRange *cr, uint32_t c1, uint32_t c2)
{
uint32_t b_pt[2];
b_pt[0] = c1;
b_pt[1] = c2 + 1;
return cr_union1(cr, b_pt, 2);
}
int cr_op(CharRange *cr, const uint32_t *a_pt, int a_len,
const uint32_t *b_pt, int b_len, int op);
int cr_invert(CharRange *cr);
int cr_regexp_canonicalize(CharRange *cr, BOOL is_unicode);
#ifdef CONFIG_ALL_UNICODE
LRE_BOOL lre_is_id_start(uint32_t c);
LRE_BOOL lre_is_id_continue(uint32_t c);
int unicode_normalize(uint32_t **pdst, const uint32_t *src, int src_len,
UnicodeNormalizationEnum n_type,
void *opaque, void *(*realloc_func)(void *opaque, void *ptr, size_t size));
/* Unicode character range functions */
int unicode_script(CharRange *cr,
const char *script_name, LRE_BOOL is_ext);
int unicode_general_category(CharRange *cr, const char *gc_name);
int unicode_prop(CharRange *cr, const char *prop_name);
#endif /* CONFIG_ALL_UNICODE */
#undef LRE_BOOL
#endif /* LIBUNICODE_H */

99
deps/quickjs/list.h vendored
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@ -1,99 +0,0 @@
/*
* Linux klist like system
*
* Copyright (c) 2016-2017 Fabrice Bellard
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#ifndef LIST_H
#define LIST_H
#ifndef NULL
#include <stddef.h>
#endif
struct list_head {
struct list_head *prev;
struct list_head *next;
};
#define LIST_HEAD_INIT(el) { &(el), &(el) }
/* return the pointer of type 'type *' containing 'el' as field 'member' */
#define list_entry(el, type, member) container_of(el, type, member)
static inline void init_list_head(struct list_head *head)
{
head->prev = head;
head->next = head;
}
/* insert 'el' between 'prev' and 'next' */
static inline void __list_add(struct list_head *el,
struct list_head *prev, struct list_head *next)
{
prev->next = el;
el->prev = prev;
el->next = next;
next->prev = el;
}
/* add 'el' at the head of the list 'head' (= after element head) */
static inline void list_add(struct list_head *el, struct list_head *head)
{
__list_add(el, head, head->next);
}
/* add 'el' at the end of the list 'head' (= before element head) */
static inline void list_add_tail(struct list_head *el, struct list_head *head)
{
__list_add(el, head->prev, head);
}
static inline void list_del(struct list_head *el)
{
struct list_head *prev, *next;
prev = el->prev;
next = el->next;
prev->next = next;
next->prev = prev;
el->prev = NULL; /* fail safe */
el->next = NULL; /* fail safe */
}
static inline int list_empty(struct list_head *el)
{
return el->next == el;
}
#define list_for_each(el, head) \
for(el = (head)->next; el != (head); el = el->next)
#define list_for_each_safe(el, el1, head) \
for(el = (head)->next, el1 = el->next; el != (head); \
el = el1, el1 = el->next)
#define list_for_each_prev(el, head) \
for(el = (head)->prev; el != (head); el = el->prev)
#define list_for_each_prev_safe(el, el1, head) \
for(el = (head)->prev, el1 = el->prev; el != (head); \
el = el1, el1 = el->prev)
#endif /* LIST_H */

561
deps/quickjs/qjs.c vendored
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@ -1,561 +0,0 @@
/*
* QuickJS stand alone interpreter
*
* Copyright (c) 2017-2021 Fabrice Bellard
* Copyright (c) 2017-2021 Charlie Gordon
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#include <stdlib.h>
#include <stdio.h>
#include <stdarg.h>
#include <inttypes.h>
#include <string.h>
#include <assert.h>
#include <unistd.h>
#include <errno.h>
#include <fcntl.h>
#include <time.h>
#if defined(__APPLE__)
#include <malloc/malloc.h>
#elif defined(__linux__)
#include <malloc.h>
#endif
#include "cutils.h"
#include "quickjs-libc.h"
extern const uint8_t qjsc_repl[];
extern const uint32_t qjsc_repl_size;
#ifdef CONFIG_BIGNUM
extern const uint8_t qjsc_qjscalc[];
extern const uint32_t qjsc_qjscalc_size;
static int bignum_ext;
#endif
static int eval_buf(JSContext *ctx, const void *buf, int buf_len,
const char *filename, int eval_flags)
{
JSValue val;
int ret;
if ((eval_flags & JS_EVAL_TYPE_MASK) == JS_EVAL_TYPE_MODULE) {
/* for the modules, we compile then run to be able to set
import.meta */
val = JS_Eval(ctx, buf, buf_len, filename,
eval_flags | JS_EVAL_FLAG_COMPILE_ONLY);
if (!JS_IsException(val)) {
js_module_set_import_meta(ctx, val, TRUE, TRUE);
val = JS_EvalFunction(ctx, val);
}
} else {
val = JS_Eval(ctx, buf, buf_len, filename, eval_flags);
}
if (JS_IsException(val)) {
js_std_dump_error(ctx);
ret = -1;
} else {
ret = 0;
}
JS_FreeValue(ctx, val);
return ret;
}
static int eval_file(JSContext *ctx, const char *filename, int module)
{
uint8_t *buf;
int ret, eval_flags;
size_t buf_len;
buf = js_load_file(ctx, &buf_len, filename);
if (!buf) {
perror(filename);
exit(1);
}
if (module < 0) {
module = (has_suffix(filename, ".mjs") ||
JS_DetectModule((const char *)buf, buf_len));
}
if (module)
eval_flags = JS_EVAL_TYPE_MODULE;
else
eval_flags = JS_EVAL_TYPE_GLOBAL;
ret = eval_buf(ctx, buf, buf_len, filename, eval_flags);
js_free(ctx, buf);
return ret;
}
/* also used to initialize the worker context */
static JSContext *JS_NewCustomContext(JSRuntime *rt)
{
JSContext *ctx;
ctx = JS_NewContext(rt);
if (!ctx)
return NULL;
#ifdef CONFIG_BIGNUM
if (bignum_ext) {
JS_AddIntrinsicBigFloat(ctx);
JS_AddIntrinsicBigDecimal(ctx);
JS_AddIntrinsicOperators(ctx);
JS_EnableBignumExt(ctx, TRUE);
}
#endif
/* system modules */
js_init_module_std(ctx, "std");
js_init_module_os(ctx, "os");
return ctx;
}
#if defined(__APPLE__)
#define MALLOC_OVERHEAD 0
#else
#define MALLOC_OVERHEAD 8
#endif
struct trace_malloc_data {
uint8_t *base;
};
static inline unsigned long long js_trace_malloc_ptr_offset(uint8_t *ptr,
struct trace_malloc_data *dp)
{
return ptr - dp->base;
}
/* default memory allocation functions with memory limitation */
static size_t js_trace_malloc_usable_size(const void *ptr)
{
#if defined(__APPLE__)
return malloc_size(ptr);
#elif defined(_WIN32)
return _msize((void *)ptr);
#elif defined(EMSCRIPTEN)
return 0;
#elif defined(__linux__)
return malloc_usable_size((void *)ptr);
#else
/* change this to `return 0;` if compilation fails */
return malloc_usable_size((void *)ptr);
#endif
}
static void
#ifdef _WIN32
/* mingw printf is used */
__attribute__((format(gnu_printf, 2, 3)))
#else
__attribute__((format(printf, 2, 3)))
#endif
js_trace_malloc_printf(JSMallocState *s, const char *fmt, ...)
{
va_list ap;
int c;
va_start(ap, fmt);
while ((c = *fmt++) != '\0') {
if (c == '%') {
/* only handle %p and %zd */
if (*fmt == 'p') {
uint8_t *ptr = va_arg(ap, void *);
if (ptr == NULL) {
printf("NULL");
} else {
printf("H%+06lld.%zd",
js_trace_malloc_ptr_offset(ptr, s->opaque),
js_trace_malloc_usable_size(ptr));
}
fmt++;
continue;
}
if (fmt[0] == 'z' && fmt[1] == 'd') {
size_t sz = va_arg(ap, size_t);
printf("%zd", sz);
fmt += 2;
continue;
}
}
putc(c, stdout);
}
va_end(ap);
}
static void js_trace_malloc_init(struct trace_malloc_data *s)
{
free(s->base = malloc(8));
}
static void *js_trace_malloc(JSMallocState *s, size_t size)
{
void *ptr;
/* Do not allocate zero bytes: behavior is platform dependent */
assert(size != 0);
if (unlikely(s->malloc_size + size > s->malloc_limit))
return NULL;
ptr = malloc(size);
js_trace_malloc_printf(s, "A %zd -> %p\n", size, ptr);
if (ptr) {
s->malloc_count++;
s->malloc_size += js_trace_malloc_usable_size(ptr) + MALLOC_OVERHEAD;
}
return ptr;
}
static void js_trace_free(JSMallocState *s, void *ptr)
{
if (!ptr)
return;
js_trace_malloc_printf(s, "F %p\n", ptr);
s->malloc_count--;
s->malloc_size -= js_trace_malloc_usable_size(ptr) + MALLOC_OVERHEAD;
free(ptr);
}
static void *js_trace_realloc(JSMallocState *s, void *ptr, size_t size)
{
size_t old_size;
if (!ptr) {
if (size == 0)
return NULL;
return js_trace_malloc(s, size);
}
old_size = js_trace_malloc_usable_size(ptr);
if (size == 0) {
js_trace_malloc_printf(s, "R %zd %p\n", size, ptr);
s->malloc_count--;
s->malloc_size -= old_size + MALLOC_OVERHEAD;
free(ptr);
return NULL;
}
if (s->malloc_size + size - old_size > s->malloc_limit)
return NULL;
js_trace_malloc_printf(s, "R %zd %p", size, ptr);
ptr = realloc(ptr, size);
js_trace_malloc_printf(s, " -> %p\n", ptr);
if (ptr) {
s->malloc_size += js_trace_malloc_usable_size(ptr) - old_size;
}
return ptr;
}
static const JSMallocFunctions trace_mf = {
js_trace_malloc,
js_trace_free,
js_trace_realloc,
js_trace_malloc_usable_size,
};
#define PROG_NAME "qjs"
void help(void)
{
printf("QuickJS version " CONFIG_VERSION "\n"
"usage: " PROG_NAME " [options] [file [args]]\n"
"-h --help list options\n"
"-e --eval EXPR evaluate EXPR\n"
"-i --interactive go to interactive mode\n"
"-m --module load as ES6 module (default=autodetect)\n"
" --script load as ES6 script (default=autodetect)\n"
"-I --include file include an additional file\n"
" --std make 'std' and 'os' available to the loaded script\n"
#ifdef CONFIG_BIGNUM
" --bignum enable the bignum extensions (BigFloat, BigDecimal)\n"
" --qjscalc load the QJSCalc runtime (default if invoked as qjscalc)\n"
#endif
"-T --trace trace memory allocation\n"
"-d --dump dump the memory usage stats\n"
" --memory-limit n limit the memory usage to 'n' bytes\n"
" --stack-size n limit the stack size to 'n' bytes\n"
" --unhandled-rejection dump unhandled promise rejections\n"
"-q --quit just instantiate the interpreter and quit\n");
exit(1);
}
int main(int argc, char **argv)
{
JSRuntime *rt;
JSContext *ctx;
struct trace_malloc_data trace_data = { NULL };
int optind;
char *expr = NULL;
int interactive = 0;
int dump_memory = 0;
int trace_memory = 0;
int empty_run = 0;
int module = -1;
int load_std = 0;
int dump_unhandled_promise_rejection = 0;
size_t memory_limit = 0;
char *include_list[32];
int i, include_count = 0;
#ifdef CONFIG_BIGNUM
int load_jscalc;
#endif
size_t stack_size = 0;
#ifdef CONFIG_BIGNUM
/* load jscalc runtime if invoked as 'qjscalc' */
{
const char *p, *exename;
exename = argv[0];
p = strrchr(exename, '/');
if (p)
exename = p + 1;
load_jscalc = !strcmp(exename, "qjscalc");
}
#endif
/* cannot use getopt because we want to pass the command line to
the script */
optind = 1;
while (optind < argc && *argv[optind] == '-') {
char *arg = argv[optind] + 1;
const char *longopt = "";
/* a single - is not an option, it also stops argument scanning */
if (!*arg)
break;
optind++;
if (*arg == '-') {
longopt = arg + 1;
arg += strlen(arg);
/* -- stops argument scanning */
if (!*longopt)
break;
}
for (; *arg || *longopt; longopt = "") {
char opt = *arg;
if (opt)
arg++;
if (opt == 'h' || opt == '?' || !strcmp(longopt, "help")) {
help();
continue;
}
if (opt == 'e' || !strcmp(longopt, "eval")) {
if (*arg) {
expr = arg;
break;
}
if (optind < argc) {
expr = argv[optind++];
break;
}
fprintf(stderr, "qjs: missing expression for -e\n");
exit(2);
}
if (opt == 'I' || !strcmp(longopt, "include")) {
if (optind >= argc) {
fprintf(stderr, "expecting filename");
exit(1);
}
if (include_count >= countof(include_list)) {
fprintf(stderr, "too many included files");
exit(1);
}
include_list[include_count++] = argv[optind++];
continue;
}
if (opt == 'i' || !strcmp(longopt, "interactive")) {
interactive++;
continue;
}
if (opt == 'm' || !strcmp(longopt, "module")) {
module = 1;
continue;
}
if (!strcmp(longopt, "script")) {
module = 0;
continue;
}
if (opt == 'd' || !strcmp(longopt, "dump")) {
dump_memory++;
continue;
}
if (opt == 'T' || !strcmp(longopt, "trace")) {
trace_memory++;
continue;
}
if (!strcmp(longopt, "std")) {
load_std = 1;
continue;
}
if (!strcmp(longopt, "unhandled-rejection")) {
dump_unhandled_promise_rejection = 1;
continue;
}
#ifdef CONFIG_BIGNUM
if (!strcmp(longopt, "bignum")) {
bignum_ext = 1;
continue;
}
if (!strcmp(longopt, "qjscalc")) {
load_jscalc = 1;
continue;
}
#endif
if (opt == 'q' || !strcmp(longopt, "quit")) {
empty_run++;
continue;
}
if (!strcmp(longopt, "memory-limit")) {
if (optind >= argc) {
fprintf(stderr, "expecting memory limit");
exit(1);
}
memory_limit = (size_t)strtod(argv[optind++], NULL);
continue;
}
if (!strcmp(longopt, "stack-size")) {
if (optind >= argc) {
fprintf(stderr, "expecting stack size");
exit(1);
}
stack_size = (size_t)strtod(argv[optind++], NULL);
continue;
}
if (opt) {
fprintf(stderr, "qjs: unknown option '-%c'\n", opt);
} else {
fprintf(stderr, "qjs: unknown option '--%s'\n", longopt);
}
help();
}
}
#ifdef CONFIG_BIGNUM
if (load_jscalc)
bignum_ext = 1;
#endif
if (trace_memory) {
js_trace_malloc_init(&trace_data);
rt = JS_NewRuntime2(&trace_mf, &trace_data);
} else {
rt = JS_NewRuntime();
}
if (!rt) {
fprintf(stderr, "qjs: cannot allocate JS runtime\n");
exit(2);
}
if (memory_limit != 0)
JS_SetMemoryLimit(rt, memory_limit);
if (stack_size != 0)
JS_SetMaxStackSize(rt, stack_size);
js_std_set_worker_new_context_func(JS_NewCustomContext);
js_std_init_handlers(rt);
ctx = JS_NewCustomContext(rt);
if (!ctx) {
fprintf(stderr, "qjs: cannot allocate JS context\n");
exit(2);
}
/* loader for ES6 modules */
JS_SetModuleLoaderFunc(rt, NULL, js_module_loader, NULL);
if (dump_unhandled_promise_rejection) {
JS_SetHostPromiseRejectionTracker(rt, js_std_promise_rejection_tracker,
NULL);
}
if (!empty_run) {
#ifdef CONFIG_BIGNUM
if (load_jscalc) {
js_std_eval_binary(ctx, qjsc_qjscalc, qjsc_qjscalc_size, 0);
}
#endif
js_std_add_helpers(ctx, argc - optind, argv + optind);
/* make 'std' and 'os' visible to non module code */
if (load_std) {
const char *str = "import * as std from 'std';\n"
"import * as os from 'os';\n"
"globalThis.std = std;\n"
"globalThis.os = os;\n";
eval_buf(ctx, str, strlen(str), "<input>", JS_EVAL_TYPE_MODULE);
}
for(i = 0; i < include_count; i++) {
if (eval_file(ctx, include_list[i], module))
goto fail;
}
if (expr) {
if (eval_buf(ctx, expr, strlen(expr), "<cmdline>", 0))
goto fail;
} else
if (optind >= argc) {
/* interactive mode */
interactive = 1;
} else {
const char *filename;
filename = argv[optind];
if (eval_file(ctx, filename, module))
goto fail;
}
if (interactive) {
js_std_eval_binary(ctx, qjsc_repl, qjsc_repl_size, 0);
}
js_std_loop(ctx);
}
if (dump_memory) {
JSMemoryUsage stats;
JS_ComputeMemoryUsage(rt, &stats);
JS_DumpMemoryUsage(stdout, &stats, rt);
}
js_std_free_handlers(rt);
JS_FreeContext(ctx);
JS_FreeRuntime(rt);
if (empty_run && dump_memory) {
clock_t t[5];
double best[5];
int i, j;
for (i = 0; i < 100; i++) {
t[0] = clock();
rt = JS_NewRuntime();
t[1] = clock();
ctx = JS_NewContext(rt);
t[2] = clock();
JS_FreeContext(ctx);
t[3] = clock();
JS_FreeRuntime(rt);
t[4] = clock();
for (j = 4; j > 0; j--) {
double ms = 1000.0 * (t[j] - t[j - 1]) / CLOCKS_PER_SEC;
if (i == 0 || best[j] > ms)
best[j] = ms;
}
}
printf("\nInstantiation times (ms): %.3f = %.3f+%.3f+%.3f+%.3f\n",
best[1] + best[2] + best[3] + best[4],
best[1], best[2], best[3], best[4]);
}
return 0;
fail:
js_std_free_handlers(rt);
JS_FreeContext(ctx);
JS_FreeRuntime(rt);
return 1;
}

761
deps/quickjs/qjsc.c vendored
View File

@ -1,761 +0,0 @@
/*
* QuickJS command line compiler
*
* Copyright (c) 2018-2021 Fabrice Bellard
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#include <stdlib.h>
#include <stdio.h>
#include <stdarg.h>
#include <inttypes.h>
#include <string.h>
#include <assert.h>
#include <unistd.h>
#include <errno.h>
#if !defined(_WIN32)
#include <sys/wait.h>
#endif
#include "cutils.h"
#include "quickjs-libc.h"
typedef struct {
char *name;
char *short_name;
int flags;
} namelist_entry_t;
typedef struct namelist_t {
namelist_entry_t *array;
int count;
int size;
} namelist_t;
typedef struct {
const char *option_name;
const char *init_name;
} FeatureEntry;
static namelist_t cname_list;
static namelist_t cmodule_list;
static namelist_t init_module_list;
static uint64_t feature_bitmap;
static FILE *outfile;
static BOOL byte_swap;
static BOOL dynamic_export;
static const char *c_ident_prefix = "qjsc_";
#define FE_ALL (-1)
static const FeatureEntry feature_list[] = {
{ "date", "Date" },
{ "eval", "Eval" },
{ "string-normalize", "StringNormalize" },
{ "regexp", "RegExp" },
{ "json", "JSON" },
{ "proxy", "Proxy" },
{ "map", "MapSet" },
{ "typedarray", "TypedArrays" },
{ "promise", "Promise" },
#define FE_MODULE_LOADER 9
{ "module-loader", NULL },
{ "bigint", "BigInt" },
};
void namelist_add(namelist_t *lp, const char *name, const char *short_name,
int flags)
{
namelist_entry_t *e;
if (lp->count == lp->size) {
size_t newsize = lp->size + (lp->size >> 1) + 4;
namelist_entry_t *a =
realloc(lp->array, sizeof(lp->array[0]) * newsize);
/* XXX: check for realloc failure */
lp->array = a;
lp->size = newsize;
}
e = &lp->array[lp->count++];
e->name = strdup(name);
if (short_name)
e->short_name = strdup(short_name);
else
e->short_name = NULL;
e->flags = flags;
}
void namelist_free(namelist_t *lp)
{
while (lp->count > 0) {
namelist_entry_t *e = &lp->array[--lp->count];
free(e->name);
free(e->short_name);
}
free(lp->array);
lp->array = NULL;
lp->size = 0;
}
namelist_entry_t *namelist_find(namelist_t *lp, const char *name)
{
int i;
for(i = 0; i < lp->count; i++) {
namelist_entry_t *e = &lp->array[i];
if (!strcmp(e->name, name))
return e;
}
return NULL;
}
static void get_c_name(char *buf, size_t buf_size, const char *file)
{
const char *p, *r;
size_t len, i;
int c;
char *q;
p = strrchr(file, '/');
if (!p)
p = file;
else
p++;
r = strrchr(p, '.');
if (!r)
len = strlen(p);
else
len = r - p;
pstrcpy(buf, buf_size, c_ident_prefix);
q = buf + strlen(buf);
for(i = 0; i < len; i++) {
c = p[i];
if (!((c >= '0' && c <= '9') ||
(c >= 'A' && c <= 'Z') ||
(c >= 'a' && c <= 'z'))) {
c = '_';
}
if ((q - buf) < buf_size - 1)
*q++ = c;
}
*q = '\0';
}
static void dump_hex(FILE *f, const uint8_t *buf, size_t len)
{
size_t i, col;
col = 0;
for(i = 0; i < len; i++) {
fprintf(f, " 0x%02x,", buf[i]);
if (++col == 8) {
fprintf(f, "\n");
col = 0;
}
}
if (col != 0)
fprintf(f, "\n");
}
static void output_object_code(JSContext *ctx,
FILE *fo, JSValueConst obj, const char *c_name,
BOOL load_only)
{
uint8_t *out_buf;
size_t out_buf_len;
int flags;
flags = JS_WRITE_OBJ_BYTECODE;
if (byte_swap)
flags |= JS_WRITE_OBJ_BSWAP;
out_buf = JS_WriteObject(ctx, &out_buf_len, obj, flags);
if (!out_buf) {
js_std_dump_error(ctx);
exit(1);
}
namelist_add(&cname_list, c_name, NULL, load_only);
fprintf(fo, "const uint32_t %s_size = %u;\n\n",
c_name, (unsigned int)out_buf_len);
fprintf(fo, "const uint8_t %s[%u] = {\n",
c_name, (unsigned int)out_buf_len);
dump_hex(fo, out_buf, out_buf_len);
fprintf(fo, "};\n\n");
js_free(ctx, out_buf);
}
static int js_module_dummy_init(JSContext *ctx, JSModuleDef *m)
{
/* should never be called when compiling JS code */
abort();
}
static void find_unique_cname(char *cname, size_t cname_size)
{
char cname1[1024];
int suffix_num;
size_t len, max_len;
assert(cname_size >= 32);
/* find a C name not matching an existing module C name by
adding a numeric suffix */
len = strlen(cname);
max_len = cname_size - 16;
if (len > max_len)
cname[max_len] = '\0';
suffix_num = 1;
for(;;) {
snprintf(cname1, sizeof(cname1), "%s_%d", cname, suffix_num);
if (!namelist_find(&cname_list, cname1))
break;
suffix_num++;
}
pstrcpy(cname, cname_size, cname1);
}
JSModuleDef *jsc_module_loader(JSContext *ctx,
const char *module_name, void *opaque)
{
JSModuleDef *m;
namelist_entry_t *e;
/* check if it is a declared C or system module */
e = namelist_find(&cmodule_list, module_name);
if (e) {
/* add in the static init module list */
namelist_add(&init_module_list, e->name, e->short_name, 0);
/* create a dummy module */
m = JS_NewCModule(ctx, module_name, js_module_dummy_init);
} else if (has_suffix(module_name, ".so")) {
fprintf(stderr, "Warning: binary module '%s' will be dynamically loaded\n", module_name);
/* create a dummy module */
m = JS_NewCModule(ctx, module_name, js_module_dummy_init);
/* the resulting executable will export its symbols for the
dynamic library */
dynamic_export = TRUE;
} else {
size_t buf_len;
uint8_t *buf;
JSValue func_val;
char cname[1024];
buf = js_load_file(ctx, &buf_len, module_name);
if (!buf) {
JS_ThrowReferenceError(ctx, "could not load module filename '%s'",
module_name);
return NULL;
}
/* compile the module */
func_val = JS_Eval(ctx, (char *)buf, buf_len, module_name,
JS_EVAL_TYPE_MODULE | JS_EVAL_FLAG_COMPILE_ONLY);
js_free(ctx, buf);
if (JS_IsException(func_val))
return NULL;
get_c_name(cname, sizeof(cname), module_name);
if (namelist_find(&cname_list, cname)) {
find_unique_cname(cname, sizeof(cname));
}
output_object_code(ctx, outfile, func_val, cname, TRUE);
/* the module is already referenced, so we must free it */
m = JS_VALUE_GET_PTR(func_val);
JS_FreeValue(ctx, func_val);
}
return m;
}
static void compile_file(JSContext *ctx, FILE *fo,
const char *filename,
const char *c_name1,
int module)
{
uint8_t *buf;
char c_name[1024];
int eval_flags;
JSValue obj;
size_t buf_len;
buf = js_load_file(ctx, &buf_len, filename);
if (!buf) {
fprintf(stderr, "Could not load '%s'\n", filename);
exit(1);
}
eval_flags = JS_EVAL_FLAG_COMPILE_ONLY;
if (module < 0) {
module = (has_suffix(filename, ".mjs") ||
JS_DetectModule((const char *)buf, buf_len));
}
if (module)
eval_flags |= JS_EVAL_TYPE_MODULE;
else
eval_flags |= JS_EVAL_TYPE_GLOBAL;
obj = JS_Eval(ctx, (const char *)buf, buf_len, filename, eval_flags);
if (JS_IsException(obj)) {
js_std_dump_error(ctx);
exit(1);
}
js_free(ctx, buf);
if (c_name1) {
pstrcpy(c_name, sizeof(c_name), c_name1);
} else {
get_c_name(c_name, sizeof(c_name), filename);
}
output_object_code(ctx, fo, obj, c_name, FALSE);
JS_FreeValue(ctx, obj);
}
static const char main_c_template1[] =
"int main(int argc, char **argv)\n"
"{\n"
" JSRuntime *rt;\n"
" JSContext *ctx;\n"
" rt = JS_NewRuntime();\n"
" js_std_set_worker_new_context_func(JS_NewCustomContext);\n"
" js_std_init_handlers(rt);\n"
;
static const char main_c_template2[] =
" js_std_loop(ctx);\n"
" js_std_free_handlers(rt);\n"
" JS_FreeContext(ctx);\n"
" JS_FreeRuntime(rt);\n"
" return 0;\n"
"}\n";
#define PROG_NAME "qjsc"
void help(void)
{
printf("QuickJS Compiler version " CONFIG_VERSION "\n"
"usage: " PROG_NAME " [options] [files]\n"
"\n"
"options are:\n"
"-c only output bytecode to a C file\n"
"-e output main() and bytecode to a C file (default = executable output)\n"
"-o output set the output filename\n"
"-N cname set the C name of the generated data\n"
"-m compile as Javascript module (default=autodetect)\n"
"-D module_name compile a dynamically loaded module or worker\n"
"-M module_name[,cname] add initialization code for an external C module\n"
"-x byte swapped output\n"
"-p prefix set the prefix of the generated C names\n"
"-S n set the maximum stack size to 'n' bytes (default=%d)\n",
JS_DEFAULT_STACK_SIZE);
#ifdef CONFIG_LTO
{
int i;
printf("-flto use link time optimization\n");
printf("-fbignum enable bignum extensions\n");
printf("-fno-[");
for(i = 0; i < countof(feature_list); i++) {
if (i != 0)
printf("|");
printf("%s", feature_list[i].option_name);
}
printf("]\n"
" disable selected language features (smaller code size)\n");
}
#endif
exit(1);
}
#if defined(CONFIG_CC) && !defined(_WIN32)
int exec_cmd(char **argv)
{
int pid, status, ret;
pid = fork();
if (pid == 0) {
execvp(argv[0], argv);
exit(1);
}
for(;;) {
ret = waitpid(pid, &status, 0);
if (ret == pid && WIFEXITED(status))
break;
}
return WEXITSTATUS(status);
}
static int output_executable(const char *out_filename, const char *cfilename,
BOOL use_lto, BOOL verbose, const char *exename)
{
const char *argv[64];
const char **arg, *bn_suffix, *lto_suffix;
char libjsname[1024];
char exe_dir[1024], inc_dir[1024], lib_dir[1024], buf[1024], *p;
int ret;
/* get the directory of the executable */
pstrcpy(exe_dir, sizeof(exe_dir), exename);
p = strrchr(exe_dir, '/');
if (p) {
*p = '\0';
} else {
pstrcpy(exe_dir, sizeof(exe_dir), ".");
}
/* if 'quickjs.h' is present at the same path as the executable, we
use it as include and lib directory */
snprintf(buf, sizeof(buf), "%s/quickjs.h", exe_dir);
if (access(buf, R_OK) == 0) {
pstrcpy(inc_dir, sizeof(inc_dir), exe_dir);
pstrcpy(lib_dir, sizeof(lib_dir), exe_dir);
} else {
snprintf(inc_dir, sizeof(inc_dir), "%s/include/quickjs", CONFIG_PREFIX);
snprintf(lib_dir, sizeof(lib_dir), "%s/lib/quickjs", CONFIG_PREFIX);
}
lto_suffix = "";
bn_suffix = "";
arg = argv;
*arg++ = CONFIG_CC;
*arg++ = "-O2";
#ifdef CONFIG_LTO
if (use_lto) {
*arg++ = "-flto";
lto_suffix = ".lto";
}
#endif
/* XXX: use the executable path to find the includes files and
libraries */
*arg++ = "-D";
*arg++ = "_GNU_SOURCE";
*arg++ = "-I";
*arg++ = inc_dir;
*arg++ = "-o";
*arg++ = out_filename;
if (dynamic_export)
*arg++ = "-rdynamic";
*arg++ = cfilename;
snprintf(libjsname, sizeof(libjsname), "%s/libquickjs%s%s.a",
lib_dir, bn_suffix, lto_suffix);
*arg++ = libjsname;
*arg++ = "-lm";
*arg++ = "-ldl";
*arg++ = "-lpthread";
*arg = NULL;
if (verbose) {
for(arg = argv; *arg != NULL; arg++)
printf("%s ", *arg);
printf("\n");
}
ret = exec_cmd((char **)argv);
unlink(cfilename);
return ret;
}
#else
static int output_executable(const char *out_filename, const char *cfilename,
BOOL use_lto, BOOL verbose, const char *exename)
{
fprintf(stderr, "Executable output is not supported for this target\n");
exit(1);
return 0;
}
#endif
typedef enum {
OUTPUT_C,
OUTPUT_C_MAIN,
OUTPUT_EXECUTABLE,
} OutputTypeEnum;
int main(int argc, char **argv)
{
int c, i, verbose;
const char *out_filename, *cname;
char cfilename[1024];
FILE *fo;
JSRuntime *rt;
JSContext *ctx;
BOOL use_lto;
int module;
OutputTypeEnum output_type;
size_t stack_size;
#ifdef CONFIG_BIGNUM
BOOL bignum_ext = FALSE;
#endif
namelist_t dynamic_module_list;
out_filename = NULL;
output_type = OUTPUT_EXECUTABLE;
cname = NULL;
feature_bitmap = FE_ALL;
module = -1;
byte_swap = FALSE;
verbose = 0;
use_lto = FALSE;
stack_size = 0;
memset(&dynamic_module_list, 0, sizeof(dynamic_module_list));
/* add system modules */
namelist_add(&cmodule_list, "std", "std", 0);
namelist_add(&cmodule_list, "os", "os", 0);
for(;;) {
c = getopt(argc, argv, "ho:cN:f:mxevM:p:S:D:");
if (c == -1)
break;
switch(c) {
case 'h':
help();
case 'o':
out_filename = optarg;
break;
case 'c':
output_type = OUTPUT_C;
break;
case 'e':
output_type = OUTPUT_C_MAIN;
break;
case 'N':
cname = optarg;
break;
case 'f':
{
const char *p;
p = optarg;
if (!strcmp(optarg, "lto")) {
use_lto = TRUE;
} else if (strstart(p, "no-", &p)) {
use_lto = TRUE;
for(i = 0; i < countof(feature_list); i++) {
if (!strcmp(p, feature_list[i].option_name)) {
feature_bitmap &= ~((uint64_t)1 << i);
break;
}
}
if (i == countof(feature_list))
goto bad_feature;
} else
#ifdef CONFIG_BIGNUM
if (!strcmp(optarg, "bignum")) {
bignum_ext = TRUE;
} else
#endif
{
bad_feature:
fprintf(stderr, "unsupported feature: %s\n", optarg);
exit(1);
}
}
break;
case 'm':
module = 1;
break;
case 'M':
{
char *p;
char path[1024];
char cname[1024];
pstrcpy(path, sizeof(path), optarg);
p = strchr(path, ',');
if (p) {
*p = '\0';
pstrcpy(cname, sizeof(cname), p + 1);
} else {
get_c_name(cname, sizeof(cname), path);
}
namelist_add(&cmodule_list, path, cname, 0);
}
break;
case 'D':
namelist_add(&dynamic_module_list, optarg, NULL, 0);
break;
case 'x':
byte_swap = TRUE;
break;
case 'v':
verbose++;
break;
case 'p':
c_ident_prefix = optarg;
break;
case 'S':
stack_size = (size_t)strtod(optarg, NULL);
break;
default:
break;
}
}
if (optind >= argc)
help();
if (!out_filename) {
if (output_type == OUTPUT_EXECUTABLE) {
out_filename = "a.out";
} else {
out_filename = "out.c";
}
}
if (output_type == OUTPUT_EXECUTABLE) {
#if defined(_WIN32) || defined(__ANDROID__)
/* XXX: find a /tmp directory ? */
snprintf(cfilename, sizeof(cfilename), "out%d.c", getpid());
#else
snprintf(cfilename, sizeof(cfilename), "/tmp/out%d.c", getpid());
#endif
} else {
pstrcpy(cfilename, sizeof(cfilename), out_filename);
}
fo = fopen(cfilename, "w");
if (!fo) {
perror(cfilename);
exit(1);
}
outfile = fo;
rt = JS_NewRuntime();
ctx = JS_NewContext(rt);
#ifdef CONFIG_BIGNUM
if (bignum_ext) {
JS_AddIntrinsicBigFloat(ctx);
JS_AddIntrinsicBigDecimal(ctx);
JS_AddIntrinsicOperators(ctx);
JS_EnableBignumExt(ctx, TRUE);
}
#endif
/* loader for ES6 modules */
JS_SetModuleLoaderFunc(rt, NULL, jsc_module_loader, NULL);
fprintf(fo, "/* File generated automatically by the QuickJS compiler. */\n"
"\n"
);
if (output_type != OUTPUT_C) {
fprintf(fo, "#include \"quickjs-libc.h\"\n"
"\n"
);
} else {
fprintf(fo, "#include <inttypes.h>\n"
"\n"
);
}
for(i = optind; i < argc; i++) {
const char *filename = argv[i];
compile_file(ctx, fo, filename, cname, module);
cname = NULL;
}
for(i = 0; i < dynamic_module_list.count; i++) {
if (!jsc_module_loader(ctx, dynamic_module_list.array[i].name, NULL)) {
fprintf(stderr, "Could not load dynamic module '%s'\n",
dynamic_module_list.array[i].name);
exit(1);
}
}
if (output_type != OUTPUT_C) {
fprintf(fo,
"static JSContext *JS_NewCustomContext(JSRuntime *rt)\n"
"{\n"
" JSContext *ctx = JS_NewContextRaw(rt);\n"
" if (!ctx)\n"
" return NULL;\n");
/* add the basic objects */
fprintf(fo, " JS_AddIntrinsicBaseObjects(ctx);\n");
for(i = 0; i < countof(feature_list); i++) {
if ((feature_bitmap & ((uint64_t)1 << i)) &&
feature_list[i].init_name) {
fprintf(fo, " JS_AddIntrinsic%s(ctx);\n",
feature_list[i].init_name);
}
}
#ifdef CONFIG_BIGNUM
if (bignum_ext) {
fprintf(fo,
" JS_AddIntrinsicBigFloat(ctx);\n"
" JS_AddIntrinsicBigDecimal(ctx);\n"
" JS_AddIntrinsicOperators(ctx);\n"
" JS_EnableBignumExt(ctx, 1);\n");
}
#endif
/* add the precompiled modules (XXX: could modify the module
loader instead) */
for(i = 0; i < init_module_list.count; i++) {
namelist_entry_t *e = &init_module_list.array[i];
/* initialize the static C modules */
fprintf(fo,
" {\n"
" extern JSModuleDef *js_init_module_%s(JSContext *ctx, const char *name);\n"
" js_init_module_%s(ctx, \"%s\");\n"
" }\n",
e->short_name, e->short_name, e->name);
}
for(i = 0; i < cname_list.count; i++) {
namelist_entry_t *e = &cname_list.array[i];
if (e->flags) {
fprintf(fo, " js_std_eval_binary(ctx, %s, %s_size, 1);\n",
e->name, e->name);
}
}
fprintf(fo,
" return ctx;\n"
"}\n\n");
fputs(main_c_template1, fo);
if (stack_size != 0) {
fprintf(fo, " JS_SetMaxStackSize(rt, %u);\n",
(unsigned int)stack_size);
}
/* add the module loader if necessary */
if (feature_bitmap & (1 << FE_MODULE_LOADER)) {
fprintf(fo, " JS_SetModuleLoaderFunc(rt, NULL, js_module_loader, NULL);\n");
}
fprintf(fo,
" ctx = JS_NewCustomContext(rt);\n"
" js_std_add_helpers(ctx, argc, argv);\n");
for(i = 0; i < cname_list.count; i++) {
namelist_entry_t *e = &cname_list.array[i];
if (!e->flags) {
fprintf(fo, " js_std_eval_binary(ctx, %s, %s_size, 0);\n",
e->name, e->name);
}
}
fputs(main_c_template2, fo);
}
JS_FreeContext(ctx);
JS_FreeRuntime(rt);
fclose(fo);
if (output_type == OUTPUT_EXECUTABLE) {
return output_executable(out_filename, cfilename, use_lto, verbose,
argv[0]);
}
namelist_free(&cname_list);
namelist_free(&cmodule_list);
namelist_free(&init_module_list);
return 0;
}

2657
deps/quickjs/qjscalc.js vendored

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@ -1,273 +0,0 @@
/*
* QuickJS atom definitions
*
* Copyright (c) 2017-2018 Fabrice Bellard
* Copyright (c) 2017-2018 Charlie Gordon
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#ifdef DEF
/* Note: first atoms are considered as keywords in the parser */
DEF(null, "null") /* must be first */
DEF(false, "false")
DEF(true, "true")
DEF(if, "if")
DEF(else, "else")
DEF(return, "return")
DEF(var, "var")
DEF(this, "this")
DEF(delete, "delete")
DEF(void, "void")
DEF(typeof, "typeof")
DEF(new, "new")
DEF(in, "in")
DEF(instanceof, "instanceof")
DEF(do, "do")
DEF(while, "while")
DEF(for, "for")
DEF(break, "break")
DEF(continue, "continue")
DEF(switch, "switch")
DEF(case, "case")
DEF(default, "default")
DEF(throw, "throw")
DEF(try, "try")
DEF(catch, "catch")
DEF(finally, "finally")
DEF(function, "function")
DEF(debugger, "debugger")
DEF(with, "with")
/* FutureReservedWord */
DEF(class, "class")
DEF(const, "const")
DEF(enum, "enum")
DEF(export, "export")
DEF(extends, "extends")
DEF(import, "import")
DEF(super, "super")
/* FutureReservedWords when parsing strict mode code */
DEF(implements, "implements")
DEF(interface, "interface")
DEF(let, "let")
DEF(package, "package")
DEF(private, "private")
DEF(protected, "protected")
DEF(public, "public")
DEF(static, "static")
DEF(yield, "yield")
DEF(await, "await")
/* empty string */
DEF(empty_string, "")
/* identifiers */
DEF(length, "length")
DEF(fileName, "fileName")
DEF(lineNumber, "lineNumber")
DEF(message, "message")
DEF(cause, "cause")
DEF(errors, "errors")
DEF(stack, "stack")
DEF(name, "name")
DEF(toString, "toString")
DEF(toLocaleString, "toLocaleString")
DEF(valueOf, "valueOf")
DEF(eval, "eval")
DEF(prototype, "prototype")
DEF(constructor, "constructor")
DEF(configurable, "configurable")
DEF(writable, "writable")
DEF(enumerable, "enumerable")
DEF(value, "value")
DEF(get, "get")
DEF(set, "set")
DEF(of, "of")
DEF(__proto__, "__proto__")
DEF(undefined, "undefined")
DEF(number, "number")
DEF(boolean, "boolean")
DEF(string, "string")
DEF(object, "object")
DEF(symbol, "symbol")
DEF(integer, "integer")
DEF(unknown, "unknown")
DEF(arguments, "arguments")
DEF(callee, "callee")
DEF(caller, "caller")
DEF(_eval_, "<eval>")
DEF(_ret_, "<ret>")
DEF(_var_, "<var>")
DEF(_arg_var_, "<arg_var>")
DEF(_with_, "<with>")
DEF(lastIndex, "lastIndex")
DEF(target, "target")
DEF(index, "index")
DEF(input, "input")
DEF(defineProperties, "defineProperties")
DEF(apply, "apply")
DEF(join, "join")
DEF(concat, "concat")
DEF(split, "split")
DEF(construct, "construct")
DEF(getPrototypeOf, "getPrototypeOf")
DEF(setPrototypeOf, "setPrototypeOf")
DEF(isExtensible, "isExtensible")
DEF(preventExtensions, "preventExtensions")
DEF(has, "has")
DEF(deleteProperty, "deleteProperty")
DEF(defineProperty, "defineProperty")
DEF(getOwnPropertyDescriptor, "getOwnPropertyDescriptor")
DEF(ownKeys, "ownKeys")
DEF(add, "add")
DEF(done, "done")
DEF(next, "next")
DEF(values, "values")
DEF(source, "source")
DEF(flags, "flags")
DEF(global, "global")
DEF(unicode, "unicode")
DEF(raw, "raw")
DEF(new_target, "new.target")
DEF(this_active_func, "this.active_func")
DEF(home_object, "<home_object>")
DEF(computed_field, "<computed_field>")
DEF(static_computed_field, "<static_computed_field>") /* must come after computed_fields */
DEF(class_fields_init, "<class_fields_init>")
DEF(brand, "<brand>")
DEF(hash_constructor, "#constructor")
DEF(as, "as")
DEF(from, "from")
DEF(meta, "meta")
DEF(_default_, "*default*")
DEF(_star_, "*")
DEF(Module, "Module")
DEF(then, "then")
DEF(resolve, "resolve")
DEF(reject, "reject")
DEF(promise, "promise")
DEF(proxy, "proxy")
DEF(revoke, "revoke")
DEF(async, "async")
DEF(exec, "exec")
DEF(groups, "groups")
DEF(indices, "indices")
DEF(status, "status")
DEF(reason, "reason")
DEF(globalThis, "globalThis")
DEF(bigint, "bigint")
#ifdef CONFIG_BIGNUM
DEF(bigfloat, "bigfloat")
DEF(bigdecimal, "bigdecimal")
DEF(roundingMode, "roundingMode")
DEF(maximumSignificantDigits, "maximumSignificantDigits")
DEF(maximumFractionDigits, "maximumFractionDigits")
#endif
/* the following 3 atoms are only used with CONFIG_ATOMICS */
DEF(not_equal, "not-equal")
DEF(timed_out, "timed-out")
DEF(ok, "ok")
/* */
DEF(toJSON, "toJSON")
/* class names */
DEF(Object, "Object")
DEF(Array, "Array")
DEF(Error, "Error")
DEF(Number, "Number")
DEF(String, "String")
DEF(Boolean, "Boolean")
DEF(Symbol, "Symbol")
DEF(Arguments, "Arguments")
DEF(Math, "Math")
DEF(JSON, "JSON")
DEF(Date, "Date")
DEF(Function, "Function")
DEF(GeneratorFunction, "GeneratorFunction")
DEF(ForInIterator, "ForInIterator")
DEF(RegExp, "RegExp")
DEF(ArrayBuffer, "ArrayBuffer")
DEF(SharedArrayBuffer, "SharedArrayBuffer")
/* must keep same order as class IDs for typed arrays */
DEF(Uint8ClampedArray, "Uint8ClampedArray")
DEF(Int8Array, "Int8Array")
DEF(Uint8Array, "Uint8Array")
DEF(Int16Array, "Int16Array")
DEF(Uint16Array, "Uint16Array")
DEF(Int32Array, "Int32Array")
DEF(Uint32Array, "Uint32Array")
DEF(BigInt64Array, "BigInt64Array")
DEF(BigUint64Array, "BigUint64Array")
DEF(Float32Array, "Float32Array")
DEF(Float64Array, "Float64Array")
DEF(DataView, "DataView")
DEF(BigInt, "BigInt")
#ifdef CONFIG_BIGNUM
DEF(BigFloat, "BigFloat")
DEF(BigFloatEnv, "BigFloatEnv")
DEF(BigDecimal, "BigDecimal")
DEF(OperatorSet, "OperatorSet")
DEF(Operators, "Operators")
#endif
DEF(Map, "Map")
DEF(Set, "Set") /* Map + 1 */
DEF(WeakMap, "WeakMap") /* Map + 2 */
DEF(WeakSet, "WeakSet") /* Map + 3 */
DEF(Map_Iterator, "Map Iterator")
DEF(Set_Iterator, "Set Iterator")
DEF(Array_Iterator, "Array Iterator")
DEF(String_Iterator, "String Iterator")
DEF(RegExp_String_Iterator, "RegExp String Iterator")
DEF(Generator, "Generator")
DEF(Proxy, "Proxy")
DEF(Promise, "Promise")
DEF(PromiseResolveFunction, "PromiseResolveFunction")
DEF(PromiseRejectFunction, "PromiseRejectFunction")
DEF(AsyncFunction, "AsyncFunction")
DEF(AsyncFunctionResolve, "AsyncFunctionResolve")
DEF(AsyncFunctionReject, "AsyncFunctionReject")
DEF(AsyncGeneratorFunction, "AsyncGeneratorFunction")
DEF(AsyncGenerator, "AsyncGenerator")
DEF(EvalError, "EvalError")
DEF(RangeError, "RangeError")
DEF(ReferenceError, "ReferenceError")
DEF(SyntaxError, "SyntaxError")
DEF(TypeError, "TypeError")
DEF(URIError, "URIError")
DEF(InternalError, "InternalError")
/* private symbols */
DEF(Private_brand, "<brand>")
/* symbols */
DEF(Symbol_toPrimitive, "Symbol.toPrimitive")
DEF(Symbol_iterator, "Symbol.iterator")
DEF(Symbol_match, "Symbol.match")
DEF(Symbol_matchAll, "Symbol.matchAll")
DEF(Symbol_replace, "Symbol.replace")
DEF(Symbol_search, "Symbol.search")
DEF(Symbol_split, "Symbol.split")
DEF(Symbol_toStringTag, "Symbol.toStringTag")
DEF(Symbol_isConcatSpreadable, "Symbol.isConcatSpreadable")
DEF(Symbol_hasInstance, "Symbol.hasInstance")
DEF(Symbol_species, "Symbol.species")
DEF(Symbol_unscopables, "Symbol.unscopables")
DEF(Symbol_asyncIterator, "Symbol.asyncIterator")
#ifdef CONFIG_BIGNUM
DEF(Symbol_operatorSet, "Symbol.operatorSet")
#endif
#endif /* DEF */

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@ -1,59 +0,0 @@
/*
* QuickJS C library
*
* Copyright (c) 2017-2018 Fabrice Bellard
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#ifndef QUICKJS_LIBC_H
#define QUICKJS_LIBC_H
#include <stdio.h>
#include <stdlib.h>
#include "quickjs.h"
#ifdef __cplusplus
extern "C" {
#endif
JSModuleDef *js_init_module_std(JSContext *ctx, const char *module_name);
JSModuleDef *js_init_module_os(JSContext *ctx, const char *module_name);
void js_std_add_helpers(JSContext *ctx, int argc, char **argv);
void js_std_loop(JSContext *ctx);
void js_std_init_handlers(JSRuntime *rt);
void js_std_free_handlers(JSRuntime *rt);
void js_std_dump_error(JSContext *ctx);
uint8_t *js_load_file(JSContext *ctx, size_t *pbuf_len, const char *filename);
int js_module_set_import_meta(JSContext *ctx, JSValueConst func_val,
JS_BOOL use_realpath, JS_BOOL is_main);
JSModuleDef *js_module_loader(JSContext *ctx,
const char *module_name, void *opaque);
void js_std_eval_binary(JSContext *ctx, const uint8_t *buf, size_t buf_len,
int flags);
void js_std_promise_rejection_tracker(JSContext *ctx, JSValueConst promise,
JSValueConst reason,
JS_BOOL is_handled, void *opaque);
void js_std_set_worker_new_context_func(JSContext *(*func)(JSRuntime *rt));
#ifdef __cplusplus
} /* extern "C" { */
#endif
#endif /* QUICKJS_LIBC_H */

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@ -1,372 +0,0 @@
/*
* QuickJS opcode definitions
*
* Copyright (c) 2017-2018 Fabrice Bellard
* Copyright (c) 2017-2018 Charlie Gordon
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#ifdef FMT
FMT(none)
FMT(none_int)
FMT(none_loc)
FMT(none_arg)
FMT(none_var_ref)
FMT(u8)
FMT(i8)
FMT(loc8)
FMT(const8)
FMT(label8)
FMT(u16)
FMT(i16)
FMT(label16)
FMT(npop)
FMT(npopx)
FMT(npop_u16)
FMT(loc)
FMT(arg)
FMT(var_ref)
FMT(u32)
FMT(i32)
FMT(const)
FMT(label)
FMT(atom)
FMT(atom_u8)
FMT(atom_u16)
FMT(atom_label_u8)
FMT(atom_label_u16)
FMT(label_u16)
#undef FMT
#endif /* FMT */
#ifdef DEF
#ifndef def
#define def(id, size, n_pop, n_push, f) DEF(id, size, n_pop, n_push, f)
#endif
DEF(invalid, 1, 0, 0, none) /* never emitted */
/* push values */
DEF( push_i32, 5, 0, 1, i32)
DEF( push_const, 5, 0, 1, const)
DEF( fclosure, 5, 0, 1, const) /* must follow push_const */
DEF(push_atom_value, 5, 0, 1, atom)
DEF( private_symbol, 5, 0, 1, atom)
DEF( undefined, 1, 0, 1, none)
DEF( null, 1, 0, 1, none)
DEF( push_this, 1, 0, 1, none) /* only used at the start of a function */
DEF( push_false, 1, 0, 1, none)
DEF( push_true, 1, 0, 1, none)
DEF( object, 1, 0, 1, none)
DEF( special_object, 2, 0, 1, u8) /* only used at the start of a function */
DEF( rest, 3, 0, 1, u16) /* only used at the start of a function */
DEF( drop, 1, 1, 0, none) /* a -> */
DEF( nip, 1, 2, 1, none) /* a b -> b */
DEF( nip1, 1, 3, 2, none) /* a b c -> b c */
DEF( dup, 1, 1, 2, none) /* a -> a a */
DEF( dup1, 1, 2, 3, none) /* a b -> a a b */
DEF( dup2, 1, 2, 4, none) /* a b -> a b a b */
DEF( dup3, 1, 3, 6, none) /* a b c -> a b c a b c */
DEF( insert2, 1, 2, 3, none) /* obj a -> a obj a (dup_x1) */
DEF( insert3, 1, 3, 4, none) /* obj prop a -> a obj prop a (dup_x2) */
DEF( insert4, 1, 4, 5, none) /* this obj prop a -> a this obj prop a */
DEF( perm3, 1, 3, 3, none) /* obj a b -> a obj b */
DEF( perm4, 1, 4, 4, none) /* obj prop a b -> a obj prop b */
DEF( perm5, 1, 5, 5, none) /* this obj prop a b -> a this obj prop b */
DEF( swap, 1, 2, 2, none) /* a b -> b a */
DEF( swap2, 1, 4, 4, none) /* a b c d -> c d a b */
DEF( rot3l, 1, 3, 3, none) /* x a b -> a b x */
DEF( rot3r, 1, 3, 3, none) /* a b x -> x a b */
DEF( rot4l, 1, 4, 4, none) /* x a b c -> a b c x */
DEF( rot5l, 1, 5, 5, none) /* x a b c d -> a b c d x */
DEF(call_constructor, 3, 2, 1, npop) /* func new.target args -> ret. arguments are not counted in n_pop */
DEF( call, 3, 1, 1, npop) /* arguments are not counted in n_pop */
DEF( tail_call, 3, 1, 0, npop) /* arguments are not counted in n_pop */
DEF( call_method, 3, 2, 1, npop) /* arguments are not counted in n_pop */
DEF(tail_call_method, 3, 2, 0, npop) /* arguments are not counted in n_pop */
DEF( array_from, 3, 0, 1, npop) /* arguments are not counted in n_pop */
DEF( apply, 3, 3, 1, u16)
DEF( return, 1, 1, 0, none)
DEF( return_undef, 1, 0, 0, none)
DEF(check_ctor_return, 1, 1, 2, none)
DEF( check_ctor, 1, 0, 0, none)
DEF( check_brand, 1, 2, 2, none) /* this_obj func -> this_obj func */
DEF( add_brand, 1, 2, 0, none) /* this_obj home_obj -> */
DEF( return_async, 1, 1, 0, none)
DEF( throw, 1, 1, 0, none)
DEF( throw_error, 6, 0, 0, atom_u8)
DEF( eval, 5, 1, 1, npop_u16) /* func args... -> ret_val */
DEF( apply_eval, 3, 2, 1, u16) /* func array -> ret_eval */
DEF( regexp, 1, 2, 1, none) /* create a RegExp object from the pattern and a
bytecode string */
DEF( get_super, 1, 1, 1, none)
DEF( import, 1, 1, 1, none) /* dynamic module import */
DEF( check_var, 5, 0, 1, atom) /* check if a variable exists */
DEF( get_var_undef, 5, 0, 1, atom) /* push undefined if the variable does not exist */
DEF( get_var, 5, 0, 1, atom) /* throw an exception if the variable does not exist */
DEF( put_var, 5, 1, 0, atom) /* must come after get_var */
DEF( put_var_init, 5, 1, 0, atom) /* must come after put_var. Used to initialize a global lexical variable */
DEF( put_var_strict, 5, 2, 0, atom) /* for strict mode variable write */
DEF( get_ref_value, 1, 2, 3, none)
DEF( put_ref_value, 1, 3, 0, none)
DEF( define_var, 6, 0, 0, atom_u8)
DEF(check_define_var, 6, 0, 0, atom_u8)
DEF( define_func, 6, 1, 0, atom_u8)
DEF( get_field, 5, 1, 1, atom)
DEF( get_field2, 5, 1, 2, atom)
DEF( put_field, 5, 2, 0, atom)
DEF( get_private_field, 1, 2, 1, none) /* obj prop -> value */
DEF( put_private_field, 1, 3, 0, none) /* obj value prop -> */
DEF(define_private_field, 1, 3, 1, none) /* obj prop value -> obj */
DEF( get_array_el, 1, 2, 1, none)
DEF( get_array_el2, 1, 2, 2, none) /* obj prop -> obj value */
DEF( put_array_el, 1, 3, 0, none)
DEF(get_super_value, 1, 3, 1, none) /* this obj prop -> value */
DEF(put_super_value, 1, 4, 0, none) /* this obj prop value -> */
DEF( define_field, 5, 2, 1, atom)
DEF( set_name, 5, 1, 1, atom)
DEF(set_name_computed, 1, 2, 2, none)
DEF( set_proto, 1, 2, 1, none)
DEF(set_home_object, 1, 2, 2, none)
DEF(define_array_el, 1, 3, 2, none)
DEF( append, 1, 3, 2, none) /* append enumerated object, update length */
DEF(copy_data_properties, 2, 3, 3, u8)
DEF( define_method, 6, 2, 1, atom_u8)
DEF(define_method_computed, 2, 3, 1, u8) /* must come after define_method */
DEF( define_class, 6, 2, 2, atom_u8) /* parent ctor -> ctor proto */
DEF( define_class_computed, 6, 3, 3, atom_u8) /* field_name parent ctor -> field_name ctor proto (class with computed name) */
DEF( get_loc, 3, 0, 1, loc)
DEF( put_loc, 3, 1, 0, loc) /* must come after get_loc */
DEF( set_loc, 3, 1, 1, loc) /* must come after put_loc */
DEF( get_arg, 3, 0, 1, arg)
DEF( put_arg, 3, 1, 0, arg) /* must come after get_arg */
DEF( set_arg, 3, 1, 1, arg) /* must come after put_arg */
DEF( get_var_ref, 3, 0, 1, var_ref)
DEF( put_var_ref, 3, 1, 0, var_ref) /* must come after get_var_ref */
DEF( set_var_ref, 3, 1, 1, var_ref) /* must come after put_var_ref */
DEF(set_loc_uninitialized, 3, 0, 0, loc)
DEF( get_loc_check, 3, 0, 1, loc)
DEF( put_loc_check, 3, 1, 0, loc) /* must come after get_loc_check */
DEF( put_loc_check_init, 3, 1, 0, loc)
DEF(get_loc_checkthis, 3, 0, 1, loc)
DEF(get_var_ref_check, 3, 0, 1, var_ref)
DEF(put_var_ref_check, 3, 1, 0, var_ref) /* must come after get_var_ref_check */
DEF(put_var_ref_check_init, 3, 1, 0, var_ref)
DEF( close_loc, 3, 0, 0, loc)
DEF( if_false, 5, 1, 0, label)
DEF( if_true, 5, 1, 0, label) /* must come after if_false */
DEF( goto, 5, 0, 0, label) /* must come after if_true */
DEF( catch, 5, 0, 1, label)
DEF( gosub, 5, 0, 0, label) /* used to execute the finally block */
DEF( ret, 1, 1, 0, none) /* used to return from the finally block */
DEF( nip_catch, 1, 2, 1, none) /* catch ... a -> a */
DEF( to_object, 1, 1, 1, none)
//DEF( to_string, 1, 1, 1, none)
DEF( to_propkey, 1, 1, 1, none)
DEF( to_propkey2, 1, 2, 2, none)
DEF( with_get_var, 10, 1, 0, atom_label_u8) /* must be in the same order as scope_xxx */
DEF( with_put_var, 10, 2, 1, atom_label_u8) /* must be in the same order as scope_xxx */
DEF(with_delete_var, 10, 1, 0, atom_label_u8) /* must be in the same order as scope_xxx */
DEF( with_make_ref, 10, 1, 0, atom_label_u8) /* must be in the same order as scope_xxx */
DEF( with_get_ref, 10, 1, 0, atom_label_u8) /* must be in the same order as scope_xxx */
DEF(with_get_ref_undef, 10, 1, 0, atom_label_u8)
DEF( make_loc_ref, 7, 0, 2, atom_u16)
DEF( make_arg_ref, 7, 0, 2, atom_u16)
DEF(make_var_ref_ref, 7, 0, 2, atom_u16)
DEF( make_var_ref, 5, 0, 2, atom)
DEF( for_in_start, 1, 1, 1, none)
DEF( for_of_start, 1, 1, 3, none)
DEF(for_await_of_start, 1, 1, 3, none)
DEF( for_in_next, 1, 1, 3, none)
DEF( for_of_next, 2, 3, 5, u8)
DEF(iterator_check_object, 1, 1, 1, none)
DEF(iterator_get_value_done, 1, 1, 2, none)
DEF( iterator_close, 1, 3, 0, none)
DEF( iterator_next, 1, 4, 4, none)
DEF( iterator_call, 2, 4, 5, u8)
DEF( initial_yield, 1, 0, 0, none)
DEF( yield, 1, 1, 2, none)
DEF( yield_star, 1, 1, 2, none)
DEF(async_yield_star, 1, 1, 2, none)
DEF( await, 1, 1, 1, none)
/* arithmetic/logic operations */
DEF( neg, 1, 1, 1, none)
DEF( plus, 1, 1, 1, none)
DEF( dec, 1, 1, 1, none)
DEF( inc, 1, 1, 1, none)
DEF( post_dec, 1, 1, 2, none)
DEF( post_inc, 1, 1, 2, none)
DEF( dec_loc, 2, 0, 0, loc8)
DEF( inc_loc, 2, 0, 0, loc8)
DEF( add_loc, 2, 1, 0, loc8)
DEF( not, 1, 1, 1, none)
DEF( lnot, 1, 1, 1, none)
DEF( typeof, 1, 1, 1, none)
DEF( delete, 1, 2, 1, none)
DEF( delete_var, 5, 0, 1, atom)
DEF( mul, 1, 2, 1, none)
DEF( div, 1, 2, 1, none)
DEF( mod, 1, 2, 1, none)
DEF( add, 1, 2, 1, none)
DEF( sub, 1, 2, 1, none)
DEF( pow, 1, 2, 1, none)
DEF( shl, 1, 2, 1, none)
DEF( sar, 1, 2, 1, none)
DEF( shr, 1, 2, 1, none)
DEF( lt, 1, 2, 1, none)
DEF( lte, 1, 2, 1, none)
DEF( gt, 1, 2, 1, none)
DEF( gte, 1, 2, 1, none)
DEF( instanceof, 1, 2, 1, none)
DEF( in, 1, 2, 1, none)
DEF( eq, 1, 2, 1, none)
DEF( neq, 1, 2, 1, none)
DEF( strict_eq, 1, 2, 1, none)
DEF( strict_neq, 1, 2, 1, none)
DEF( and, 1, 2, 1, none)
DEF( xor, 1, 2, 1, none)
DEF( or, 1, 2, 1, none)
DEF(is_undefined_or_null, 1, 1, 1, none)
DEF( private_in, 1, 2, 1, none)
#ifdef CONFIG_BIGNUM
DEF( mul_pow10, 1, 2, 1, none)
DEF( math_mod, 1, 2, 1, none)
#endif
/* must be the last non short and non temporary opcode */
DEF( nop, 1, 0, 0, none)
/* temporary opcodes: never emitted in the final bytecode */
def( enter_scope, 3, 0, 0, u16) /* emitted in phase 1, removed in phase 2 */
def( leave_scope, 3, 0, 0, u16) /* emitted in phase 1, removed in phase 2 */
def( label, 5, 0, 0, label) /* emitted in phase 1, removed in phase 3 */
/* the following opcodes must be in the same order as the 'with_x' and
get_var_undef, get_var and put_var opcodes */
def(scope_get_var_undef, 7, 0, 1, atom_u16) /* emitted in phase 1, removed in phase 2 */
def( scope_get_var, 7, 0, 1, atom_u16) /* emitted in phase 1, removed in phase 2 */
def( scope_put_var, 7, 1, 0, atom_u16) /* emitted in phase 1, removed in phase 2 */
def(scope_delete_var, 7, 0, 1, atom_u16) /* emitted in phase 1, removed in phase 2 */
def( scope_make_ref, 11, 0, 2, atom_label_u16) /* emitted in phase 1, removed in phase 2 */
def( scope_get_ref, 7, 0, 2, atom_u16) /* emitted in phase 1, removed in phase 2 */
def(scope_put_var_init, 7, 0, 2, atom_u16) /* emitted in phase 1, removed in phase 2 */
def(scope_get_var_checkthis, 7, 0, 1, atom_u16) /* emitted in phase 1, removed in phase 2, only used to return 'this' in derived class constructors */
def(scope_get_private_field, 7, 1, 1, atom_u16) /* obj -> value, emitted in phase 1, removed in phase 2 */
def(scope_get_private_field2, 7, 1, 2, atom_u16) /* obj -> obj value, emitted in phase 1, removed in phase 2 */
def(scope_put_private_field, 7, 2, 0, atom_u16) /* obj value ->, emitted in phase 1, removed in phase 2 */
def(scope_in_private_field, 7, 1, 1, atom_u16) /* obj -> res emitted in phase 1, removed in phase 2 */
def(get_field_opt_chain, 5, 1, 1, atom) /* emitted in phase 1, removed in phase 2 */
def(get_array_el_opt_chain, 1, 2, 1, none) /* emitted in phase 1, removed in phase 2 */
def( set_class_name, 5, 1, 1, u32) /* emitted in phase 1, removed in phase 2 */
def( line_num, 5, 0, 0, u32) /* emitted in phase 1, removed in phase 3 */
#if SHORT_OPCODES
DEF( push_minus1, 1, 0, 1, none_int)
DEF( push_0, 1, 0, 1, none_int)
DEF( push_1, 1, 0, 1, none_int)
DEF( push_2, 1, 0, 1, none_int)
DEF( push_3, 1, 0, 1, none_int)
DEF( push_4, 1, 0, 1, none_int)
DEF( push_5, 1, 0, 1, none_int)
DEF( push_6, 1, 0, 1, none_int)
DEF( push_7, 1, 0, 1, none_int)
DEF( push_i8, 2, 0, 1, i8)
DEF( push_i16, 3, 0, 1, i16)
DEF( push_const8, 2, 0, 1, const8)
DEF( fclosure8, 2, 0, 1, const8) /* must follow push_const8 */
DEF(push_empty_string, 1, 0, 1, none)
DEF( get_loc8, 2, 0, 1, loc8)
DEF( put_loc8, 2, 1, 0, loc8)
DEF( set_loc8, 2, 1, 1, loc8)
DEF( get_loc0, 1, 0, 1, none_loc)
DEF( get_loc1, 1, 0, 1, none_loc)
DEF( get_loc2, 1, 0, 1, none_loc)
DEF( get_loc3, 1, 0, 1, none_loc)
DEF( put_loc0, 1, 1, 0, none_loc)
DEF( put_loc1, 1, 1, 0, none_loc)
DEF( put_loc2, 1, 1, 0, none_loc)
DEF( put_loc3, 1, 1, 0, none_loc)
DEF( set_loc0, 1, 1, 1, none_loc)
DEF( set_loc1, 1, 1, 1, none_loc)
DEF( set_loc2, 1, 1, 1, none_loc)
DEF( set_loc3, 1, 1, 1, none_loc)
DEF( get_arg0, 1, 0, 1, none_arg)
DEF( get_arg1, 1, 0, 1, none_arg)
DEF( get_arg2, 1, 0, 1, none_arg)
DEF( get_arg3, 1, 0, 1, none_arg)
DEF( put_arg0, 1, 1, 0, none_arg)
DEF( put_arg1, 1, 1, 0, none_arg)
DEF( put_arg2, 1, 1, 0, none_arg)
DEF( put_arg3, 1, 1, 0, none_arg)
DEF( set_arg0, 1, 1, 1, none_arg)
DEF( set_arg1, 1, 1, 1, none_arg)
DEF( set_arg2, 1, 1, 1, none_arg)
DEF( set_arg3, 1, 1, 1, none_arg)
DEF( get_var_ref0, 1, 0, 1, none_var_ref)
DEF( get_var_ref1, 1, 0, 1, none_var_ref)
DEF( get_var_ref2, 1, 0, 1, none_var_ref)
DEF( get_var_ref3, 1, 0, 1, none_var_ref)
DEF( put_var_ref0, 1, 1, 0, none_var_ref)
DEF( put_var_ref1, 1, 1, 0, none_var_ref)
DEF( put_var_ref2, 1, 1, 0, none_var_ref)
DEF( put_var_ref3, 1, 1, 0, none_var_ref)
DEF( set_var_ref0, 1, 1, 1, none_var_ref)
DEF( set_var_ref1, 1, 1, 1, none_var_ref)
DEF( set_var_ref2, 1, 1, 1, none_var_ref)
DEF( set_var_ref3, 1, 1, 1, none_var_ref)
DEF( get_length, 1, 1, 1, none)
DEF( if_false8, 2, 1, 0, label8)
DEF( if_true8, 2, 1, 0, label8) /* must come after if_false8 */
DEF( goto8, 2, 0, 0, label8) /* must come after if_true8 */
DEF( goto16, 3, 0, 0, label16)
DEF( call0, 1, 1, 1, npopx)
DEF( call1, 1, 1, 1, npopx)
DEF( call2, 1, 1, 1, npopx)
DEF( call3, 1, 1, 1, npopx)
DEF( is_undefined, 1, 1, 1, none)
DEF( is_null, 1, 1, 1, none)
DEF(typeof_is_undefined, 1, 1, 1, none)
DEF( typeof_is_function, 1, 1, 1, none)
#endif
#undef DEF
#undef def
#endif /* DEF */

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The main documentation is in doc/quickjs.pdf or doc/quickjs.html.

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#!/bin/sh
# Release the QuickJS source code
set -e
version=`cat VERSION`
if [ "$1" = "-h" ] ; then
echo "release.sh [release_list]"
echo ""
echo "release_list: extras binary win_binary cosmo_binary quickjs"
exit 1
fi
release_list="extras binary win_binary cosmo_binary quickjs"
if [ "$1" != "" ] ; then
release_list="$1"
fi
#################################################"
# extras
if echo $release_list | grep -w -q extras ; then
d="quickjs-${version}"
name="quickjs-extras-${version}"
outdir="/tmp/${d}"
rm -rf $outdir
mkdir -p $outdir $outdir/unicode $outdir/tests
cp unicode/* $outdir/unicode
cp -a tests/bench-v8 $outdir/tests
( cd /tmp && tar Jcvf /tmp/${name}.tar.xz ${d} )
fi
#################################################"
# Windows binary release
if echo $release_list | grep -w -q win_binary ; then
# win64
dlldir=/usr/x86_64-w64-mingw32/sys-root/mingw/bin
cross_prefix="x86_64-w64-mingw32-"
d="quickjs-win-x86_64-${version}"
outdir="/tmp/${d}"
rm -rf $outdir
mkdir -p $outdir
make CONFIG_WIN32=y qjs.exe
cp qjs.exe $outdir
${cross_prefix}strip $outdir/qjs.exe
cp $dlldir/libwinpthread-1.dll $outdir
( cd /tmp/$d && rm -f ../${d}.zip && zip -r ../${d}.zip . )
make CONFIG_WIN32=y clean
# win32
dlldir=/usr/i686-w64-mingw32/sys-root/mingw/bin
cross_prefix="i686-w64-mingw32-"
d="quickjs-win-i686-${version}"
outdir="/tmp/${d}"
rm -rf $outdir
mkdir -p $outdir
make clean
make CONFIG_WIN32=y clean
make CONFIG_WIN32=y CONFIG_M32=y qjs.exe
cp qjs.exe $outdir
${cross_prefix}strip $outdir/qjs.exe
cp $dlldir/libwinpthread-1.dll $outdir
( cd /tmp/$d && rm -f ../${d}.zip && zip -r ../${d}.zip . )
fi
#################################################"
# Cosmopolitan binary release
if echo $release_list | grep -w -q cosmo_binary ; then
export PATH=$PATH:$HOME/cosmocc/bin
d="quickjs-cosmo-${version}"
outdir="/tmp/${d}"
rm -rf $outdir
mkdir -p $outdir
make clean
make CONFIG_COSMO=y -j4 qjs run-test262
cp qjs run-test262 $outdir
cp readme-cosmo.txt $outdir/readme.txt
( cd /tmp/$d && rm -f ../${d}.zip && zip -r ../${d}.zip . )
fi
#################################################"
# Linux binary release
if echo $release_list | grep -w -q binary ; then
make clean
make CONFIG_WIN32=y clean
make -j4 qjs run-test262
make -j4 CONFIG_M32=y qjs32 run-test262-32
strip qjs run-test262 qjs32 run-test262-32
d="quickjs-linux-x86_64-${version}"
outdir="/tmp/${d}"
rm -rf $outdir
mkdir -p $outdir
cp qjs run-test262 $outdir
( cd /tmp/$d && rm -f ../${d}.zip && zip -r ../${d}.zip . )
d="quickjs-linux-i686-${version}"
outdir="/tmp/${d}"
rm -rf $outdir
mkdir -p $outdir
cp qjs32 $outdir/qjs
cp run-test262-32 $outdir/run-test262
( cd /tmp/$d && rm -f ../${d}.zip && zip -r ../${d}.zip . )
fi
#################################################"
# quickjs
if echo $release_list | grep -w -q quickjs ; then
make build_doc
d="quickjs-${version}"
outdir="/tmp/${d}"
rm -rf $outdir
mkdir -p $outdir $outdir/doc $outdir/tests $outdir/examples
cp Makefile VERSION TODO Changelog readme.txt LICENSE \
release.sh unicode_download.sh \
qjs.c qjsc.c qjscalc.js repl.js \
quickjs.c quickjs.h quickjs-atom.h \
quickjs-libc.c quickjs-libc.h quickjs-opcode.h \
cutils.c cutils.h list.h \
libregexp.c libregexp.h libregexp-opcode.h \
libunicode.c libunicode.h libunicode-table.h \
libbf.c libbf.h \
unicode_gen.c unicode_gen_def.h \
run-test262.c test262o.conf test262.conf \
test262o_errors.txt test262_errors.txt \
$outdir
cp tests/*.js tests/*.patch tests/bjson.c $outdir/tests
cp examples/*.js examples/*.c $outdir/examples
cp doc/quickjs.texi doc/quickjs.pdf doc/quickjs.html \
doc/jsbignum.texi doc/jsbignum.html doc/jsbignum.pdf \
$outdir/doc
( cd /tmp && tar Jcvf /tmp/${d}.tar.xz ${d} )
fi

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[config]
# general settings for test262 ES6 version
# framework style: old, new
style=new
# handle tests tagged as [noStrict]: yes, no, skip
nostrict=yes
# handle tests tagged as [strictOnly]: yes, no, skip
strict=yes
# test mode: default, default-nostrict, default-strict, strict, nostrict, both, all
mode=default
# handle tests flagged as [async]: yes, no, skip
# for these, load 'harness/doneprintHandle.js' prior to test
# and expect `print('Test262:AsyncTestComplete')` to be called for
# successful termination
async=yes
# handle tests flagged as [module]: yes, no, skip
module=yes
# output error messages: yes, no
verbose=yes
# load harness files from this directory
harnessdir=test262/harness
# names of harness include files to skip
#harnessexclude=
# name of the error file for known errors
errorfile=test262_errors.txt
# exclude tests enumerated in this file (see also [exclude] section)
#excludefile=test262_exclude.txt
# report test results to this file
reportfile=test262_report.txt
# enumerate tests from this directory
testdir=test262/test
[features]
# Standard language features and proposed extensions
# list the features that are included
# skipped features are tagged as such to avoid warnings
# Keep this list alpha-sorted (:sort i in vim)
__getter__
__proto__
__setter__
AggregateError
align-detached-buffer-semantics-with-web-reality
arbitrary-module-namespace-names=skip
array-find-from-last
array-grouping
Array.fromAsync=skip
Array.prototype.at
Array.prototype.flat
Array.prototype.flatMap
Array.prototype.flatten
Array.prototype.includes
Array.prototype.values
ArrayBuffer
arraybuffer-transfer=skip
arrow-function
async-functions
async-iteration
Atomics
Atomics.waitAsync=skip
BigInt
caller
change-array-by-copy
class
class-fields-private
class-fields-private-in
class-fields-public
class-methods-private
class-static-block
class-static-fields-private
class-static-fields-public
class-static-methods-private
cleanupSome=skip
coalesce-expression
computed-property-names
const
cross-realm
DataView
DataView.prototype.getFloat32
DataView.prototype.getFloat64
DataView.prototype.getInt16
DataView.prototype.getInt32
DataView.prototype.getInt8
DataView.prototype.getUint16
DataView.prototype.getUint32
DataView.prototype.setUint8
decorators=skip
default-parameters
destructuring-assignment
destructuring-binding
dynamic-import
error-cause
exponentiation
export-star-as-namespace-from-module
FinalizationGroup=skip
FinalizationRegistry.prototype.cleanupSome=skip
FinalizationRegistry=skip
Float32Array
Float64Array
for-in-order
for-of
generators
globalThis
hashbang
host-gc-required=skip
import-assertions=skip
import-attributes=skip
import.meta
Int16Array
Int32Array
Int8Array
IsHTMLDDA
iterator-helpers=skip
json-modules=skip
json-parse-with-source=skip
json-superset
legacy-regexp=skip
let
logical-assignment-operators
Map
new.target
numeric-separator-literal
object-rest
object-spread
Object.fromEntries
Object.hasOwn
Object.is
optional-catch-binding
optional-chaining
Promise
promise-with-resolvers
Promise.allSettled
Promise.any
Promise.prototype.finally
Proxy
proxy-missing-checks
Reflect
Reflect.construct
Reflect.set
Reflect.setPrototypeOf
regexp-dotall
regexp-duplicate-named-groups=skip
regexp-lookbehind
regexp-match-indices
regexp-named-groups
regexp-unicode-property-escapes
regexp-v-flag=skip
resizable-arraybuffer=skip
rest-parameters
Set
set-methods=skip
ShadowRealm=skip
SharedArrayBuffer
string-trimming
String.fromCodePoint
String.prototype.at
String.prototype.endsWith
String.prototype.includes
String.prototype.isWellFormed
String.prototype.matchAll
String.prototype.replaceAll
String.prototype.toWellFormed
String.prototype.trimEnd
String.prototype.trimStart
super
Symbol
Symbol.asyncIterator
Symbol.hasInstance
Symbol.isConcatSpreadable
Symbol.iterator
Symbol.match
Symbol.matchAll
Symbol.prototype.description
Symbol.replace
Symbol.search
Symbol.species
Symbol.split
Symbol.toPrimitive
Symbol.toStringTag
Symbol.unscopables
symbols-as-weakmap-keys=skip
tail-call-optimization=skip
template
Temporal=skip
top-level-await
TypedArray
TypedArray.prototype.at
u180e
Uint16Array
Uint32Array
Uint8Array
Uint8ClampedArray
WeakMap
WeakRef=skip
WeakSet
well-formed-json-stringify
[exclude]
# list excluded tests and directories here
# intl not supported
test262/test/intl402/
# incompatible with the "caller" feature
test262/test/built-ins/Function/prototype/restricted-property-caller.js
test262/test/built-ins/Function/prototype/restricted-property-arguments.js
test262/test/built-ins/ThrowTypeError/unique-per-realm-function-proto.js
# slow tests
#test262/test/built-ins/RegExp/CharacterClassEscapes/
#test262/test/built-ins/RegExp/property-escapes/
[tests]
# list test files or use config.testdir

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@ -1,8 +0,0 @@
test262/test/annexB/language/eval-code/direct/script-decl-lex-collision-in-sloppy-mode.js:13: Test262Error: Expected a SyntaxError to be thrown but no exception was thrown at all
test262/test/language/expressions/assignment/target-member-computed-reference-null.js:32: Test262Error: Expected a DummyError but got a TypeError
test262/test/language/expressions/assignment/target-member-computed-reference-null.js:32: strict mode: Test262Error: Expected a DummyError but got a TypeError
test262/test/language/expressions/assignment/target-member-computed-reference-undefined.js:32: Test262Error: Expected a DummyError but got a TypeError
test262/test/language/expressions/assignment/target-member-computed-reference-undefined.js:32: strict mode: Test262Error: Expected a DummyError but got a TypeError
test262/test/language/expressions/in/private-field-invalid-assignment-target.js:23: unexpected error type: Test262: This statement should not be evaluated.
test262/test/language/expressions/in/private-field-invalid-assignment-target.js:23: strict mode: unexpected error type: Test262: This statement should not be evaluated.
test262/test/language/global-code/script-decl-lex-var-declared-via-eval-sloppy.js:13: Test262Error: variable Expected a SyntaxError to be thrown but no exception was thrown at all

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[config]
# general settings for test262 ES5 version
# framework style: old, new
style=old
# handle tests tagged as @noStrict: yes, no, skip
nostrict=yes
# handle tests tagged as @strictOnly: yes, no, skip
strict=yes
# test mode: default, default-nostrict, default-strict, strict, nostrict, both, all
mode=default
# output error messages: yes, no
verbose=yes
# load harness files this directory
harnessdir=test262o/test/harness
# name of the error file for known errors
errorfile=test262o_errors.txt
# exclude tests enumerated in this file
#excludefile=test262o_excluded.txt
# report test results to this file
reportfile=test262o_report.txt
# enumerate tests from this directory
testdir=test262o/test/suite
[exclude]
# list excluded tests and directories here
# intl not supported
test262o/test/suite/intl402/
# ES6 != ES5: block scoped function definitions allowed in strict mode
test262o/test/suite/bestPractice/Sbp_A1_T1.js
test262o/test/suite/bestPractice/Sbp_A2_T1.js
test262o/test/suite/bestPractice/Sbp_A2_T2.js
test262o/test/suite/bestPractice/Sbp_A3_T1.js
test262o/test/suite/bestPractice/Sbp_A3_T2.js
test262o/test/suite/bestPractice/Sbp_A4_T1.js
test262o/test/suite/bestPractice/Sbp_A4_T2.js
test262o/test/suite/bestPractice/Sbp_A5_T2.js
# ES6 != ES5: `y={x};` is shorthand for `y={x:x}`
test262o/test/suite/ch12/12.1/S12.1_A4_T2.js
test262o/test/suite/ch12/12.6/12.6.4/S12.6.4_A15.js
# ES6 != ES5: function length property is configurable
test262o/test/suite/ch11/11.4/11.4.1/11.4.1-5-a-28-s.js
test262o/test/suite/ch13/13.2/13.2-15-1.js
test262o/test/suite/ch15/15.1/15.1.2/15.1.2.1/S15.1.2.1_A4.2.js
test262o/test/suite/ch15/15.1/15.1.2/15.1.2.2/S15.1.2.2_A9.2.js
test262o/test/suite/ch15/15.1/15.1.2/15.1.2.3/S15.1.2.3_A7.2.js
test262o/test/suite/ch15/15.1/15.1.2/15.1.2.4/S15.1.2.4_A2.2.js
test262o/test/suite/ch15/15.1/15.1.2/15.1.2.5/S15.1.2.5_A2.2.js
test262o/test/suite/ch15/15.1/15.1.3/15.1.3.1/S15.1.3.1_A5.2.js
test262o/test/suite/ch15/15.1/15.1.3/15.1.3.2/S15.1.3.2_A5.2.js
test262o/test/suite/ch15/15.1/15.1.3/15.1.3.3/S15.1.3.3_A5.2.js
test262o/test/suite/ch15/15.1/15.1.3/15.1.3.4/S15.1.3.4_A5.2.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.3/15.2.3.3-4-186.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.3/15.2.3.3-4-187.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.3/15.2.3.3-4-191.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.3/15.2.3.3-4-194.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.3/15.2.3.3-4-201.js
test262o/test/suite/ch15/15.2/15.2.4/15.2.4.2/S15.2.4.2_A9.js
test262o/test/suite/ch15/15.2/15.2.4/15.2.4.3/S15.2.4.3_A9.js
test262o/test/suite/ch15/15.2/15.2.4/15.2.4.4/S15.2.4.4_A9.js
test262o/test/suite/ch15/15.2/15.2.4/15.2.4.5/S15.2.4.5_A9.js
test262o/test/suite/ch15/15.2/15.2.4/15.2.4.6/S15.2.4.6_A9.js
test262o/test/suite/ch15/15.2/15.2.4/15.2.4.7/S15.2.4.7_A9.js
test262o/test/suite/ch15/15.3/15.3.3/15.3.3.2/15.3.3.2-1.js
test262o/test/suite/ch15/15.3/15.3.4/15.3.4.2/S15.3.4.2_A9.js
test262o/test/suite/ch15/15.3/15.3.4/15.3.4.3/S15.3.4.3_A9.js
test262o/test/suite/ch15/15.3/15.3.4/15.3.4.4/S15.3.4.4_A9.js
test262o/test/suite/ch15/15.3/15.3.4/15.3.4.5/15.3.4.5-15-2.js
test262o/test/suite/ch15/15.3/15.3.5/S15.3.5.1_A2_T1.js
test262o/test/suite/ch15/15.3/15.3.5/S15.3.5.1_A2_T2.js
test262o/test/suite/ch15/15.3/15.3.5/S15.3.5.1_A2_T3.js
test262o/test/suite/ch15/15.4/15.4.3/S15.4.3_A2.2.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.2/S15.4.4.2_A4.2.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.3/S15.4.4.3_A4.2.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.4/S15.4.4.4_A4.2.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.5/S15.4.4.5_A6.2.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.6/S15.4.4.6_A5.2.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.7/S15.4.4.7_A6.2.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.8/S15.4.4.8_A5.2.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.9/S15.4.4.9_A5.2.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.10/S15.4.4.10_A5.2.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.11/S15.4.4.11_A7.2.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.12/S15.4.4.12_A5.2.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.13/S15.4.4.13_A5.2.js
test262o/test/suite/ch15/15.5/15.5.4/15.5.4.4/S15.5.4.4_A9.js
test262o/test/suite/ch15/15.5/15.5.4/15.5.4.5/S15.5.4.5_A9.js
test262o/test/suite/ch15/15.5/15.5.4/15.5.4.6/S15.5.4.6_A9.js
test262o/test/suite/ch15/15.5/15.5.4/15.5.4.7/S15.5.4.7_A9.js
test262o/test/suite/ch15/15.5/15.5.4/15.5.4.8/S15.5.4.8_A9.js
test262o/test/suite/ch15/15.5/15.5.4/15.5.4.9/S15.5.4.9_A9.js
test262o/test/suite/ch15/15.5/15.5.4/15.5.4.10/S15.5.4.10_A9.js
test262o/test/suite/ch15/15.5/15.5.4/15.5.4.11/S15.5.4.11_A9.js
test262o/test/suite/ch15/15.5/15.5.4/15.5.4.12/S15.5.4.12_A9.js
test262o/test/suite/ch15/15.5/15.5.4/15.5.4.13/S15.5.4.13_A9.js
test262o/test/suite/ch15/15.5/15.5.4/15.5.4.14/S15.5.4.14_A9.js
test262o/test/suite/ch15/15.5/15.5.4/15.5.4.15/S15.5.4.15_A9.js
test262o/test/suite/ch15/15.5/15.5.4/15.5.4.16/S15.5.4.16_A9.js
test262o/test/suite/ch15/15.5/15.5.4/15.5.4.17/S15.5.4.17_A9.js
test262o/test/suite/ch15/15.5/15.5.4/15.5.4.18/S15.5.4.18_A9.js
test262o/test/suite/ch15/15.5/15.5.4/15.5.4.19/S15.5.4.19_A9.js
test262o/test/suite/ch15/15.9/15.9.4/15.9.4.2/S15.9.4.2_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.4/15.9.4.3/S15.9.4.3_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.1/S15.9.5.1_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.2/S15.9.5.2_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.3/S15.9.5.3_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.4/S15.9.5.4_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.5/S15.9.5.5_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.6/S15.9.5.6_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.7/S15.9.5.7_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.8/S15.9.5.8_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.9/S15.9.5.9_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.10/S15.9.5.10_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.11/S15.9.5.11_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.12/S15.9.5.12_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.13/S15.9.5.13_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.14/S15.9.5.14_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.15/S15.9.5.15_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.16/S15.9.5.16_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.17/S15.9.5.17_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.18/S15.9.5.18_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.19/S15.9.5.19_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.20/S15.9.5.20_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.21/S15.9.5.21_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.22/S15.9.5.22_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.23/S15.9.5.23_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.24/S15.9.5.24_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.25/S15.9.5.25_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.26/S15.9.5.26_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.27/S15.9.5.27_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.28/S15.9.5.28_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.29/S15.9.5.29_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.30/S15.9.5.30_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.31/S15.9.5.31_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.32/S15.9.5.32_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.33/S15.9.5.33_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.34/S15.9.5.34_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.35/S15.9.5.35_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.36/S15.9.5.36_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.37/S15.9.5.37_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.38/S15.9.5.38_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.39/S15.9.5.39_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.40/S15.9.5.40_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.41/S15.9.5.41_A3_T2.js
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.42/S15.9.5.42_A3_T2.js
test262o/test/suite/ch15/15.10/15.10.6/15.10.6.2/S15.10.6.2_A9.js
test262o/test/suite/ch15/15.10/15.10.6/15.10.6.3/S15.10.6.3_A9.js
test262o/test/suite/ch15/15.10/15.10.6/15.10.6.4/S15.10.6.4_A9.js
# ES6 != ES5: object literals may have duplicates
test262o/test/suite/ch11/11.1/11.1.5/11.1.5-4-4-a-1-s.js
test262o/test/suite/ch11/11.1/11.1.5/11.1.5_4-4-b-1.js
test262o/test/suite/ch11/11.1/11.1.5/11.1.5_4-4-b-2.js
test262o/test/suite/ch11/11.1/11.1.5/11.1.5_4-4-c-1.js
test262o/test/suite/ch11/11.1/11.1.5/11.1.5_4-4-c-2.js
test262o/test/suite/ch11/11.1/11.1.5/11.1.5_4-4-d-1.js
test262o/test/suite/ch11/11.1/11.1.5/11.1.5_4-4-d-2.js
test262o/test/suite/ch11/11.1/11.1.5/11.1.5_4-4-d-3.js
test262o/test/suite/ch11/11.1/11.1.5/11.1.5_4-4-d-4.js
# ES6 != ES5: Date.prototype is no longer an instance of Date
test262o/test/suite/ch15/15.9/15.9.5/15.9.5.40/15.9.5.40_1.js
# ES6 != ES5: Object.getPrototypeOf converts argument to object
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.2/15.2.3.2-1-3.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.2/15.2.3.2-1-4.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.2/15.2.3.2-1.js
# ES6 != ES5: Object.getPrototypeOf(NativeError)
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.2/15.2.3.2-2-12.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.2/15.2.3.2-2-13.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.2/15.2.3.2-2-14.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.2/15.2.3.2-2-15.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.2/15.2.3.2-2-16.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.2/15.2.3.2-2-17.js
# ES6 != ES5: Object.getOwnPropertyDescriptor converts argument to object
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.3/15.2.3.3-1-3.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.3/15.2.3.3-1-4.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.3/15.2.3.3-1.js
# ES6 != ES5: Object.getOwnPropertyNames converts argument to object
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.4/15.2.3.4-1-4.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.4/15.2.3.4-1-5.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.4/15.2.3.4-1.js
# ES6 != ES5: Object.seal accepts all types
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.8/15.2.3.8-1-1.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.8/15.2.3.8-1-2.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.8/15.2.3.8-1-3.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.8/15.2.3.8-1-4.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.8/15.2.3.8-1.js
# ES6 != ES5: Object.freeze accepts all types
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.9/15.2.3.9-1-1.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.9/15.2.3.9-1-2.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.9/15.2.3.9-1-3.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.9/15.2.3.9-1-4.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.9/15.2.3.9-1.js
# ES6 != ES5: Object.preventExtensions accepts all types
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.10/15.2.3.10-1-1.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.10/15.2.3.10-1-2.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.10/15.2.3.10-1-3.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.10/15.2.3.10-1-4.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.10/15.2.3.10-1.js
# ES6 != ES5: Object.isSealed accepts all types
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.11/15.2.3.11-1.js
# ES6 != ES5: Object.isFrozen accepts all types
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.12/15.2.3.12-1-1.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.12/15.2.3.12-1-2.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.12/15.2.3.12-1-3.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.12/15.2.3.12-1-4.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.12/15.2.3.12-1.js
# ES6 != ES5: Object.isExtensible accepts all types
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.13/15.2.3.13-1-1.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.13/15.2.3.13-1-2.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.13/15.2.3.13-1-3.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.13/15.2.3.13-1-4.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.13/15.2.3.13-1.js
# ES6 != ES5: Object.keys converts argument to object
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.14/15.2.3.14-1-1.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.14/15.2.3.14-1-2.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.14/15.2.3.14-1-3.js
# ES6 != ES5: source and other properties of RegExp.prototype are not own properties
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.3/15.2.3.3-4-212.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.3/15.2.3.3-4-213.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.3/15.2.3.3-4-214.js
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.3/15.2.3.3-4-215.js
# ES6 != ES5: String numeric object properties are enumerated first
test262o/test/suite/ch15/15.2/15.2.3/15.2.3.4/15.2.3.4-4-44.js
# ES6: new RegExp(regex, flags) is valid
test262o/test/suite/ch15/15.10/15.10.3/S15.10.3.1_A2_T1.js
test262o/test/suite/ch15/15.10/15.10.3/S15.10.3.1_A2_T2.js
test262o/test/suite/ch15/15.10/15.10.4/15.10.4.1/15.10.4.1-1.js
test262o/test/suite/ch15/15.10/15.10.4/S15.10.4.1_A2_T1.js
test262o/test/suite/ch15/15.10/15.10.4/S15.10.4.1_A2_T2.js
# ES6 != ES5: RegExp.prototype.test behavior
test262o/test/suite/ch15/15.10/15.10.6/15.10.6.2/S15.10.6.2_A5_T3.js
# ES6 != ES5: source, global, ignoreCase, multiline, lastIndex are not data properties
# of RegExp objects and RegExp.prototype is not a RegExp object
test262o/test/suite/ch15/15.10/15.10.6/15.10.6.js
test262o/test/suite/ch15/15.10/15.10.7/15.10.7.1/15.10.7.1-1.js
test262o/test/suite/ch15/15.10/15.10.7/15.10.7.1/15.10.7.1-2.js
test262o/test/suite/ch15/15.10/15.10.7/15.10.7.1/S15.10.7.1_A8.js
test262o/test/suite/ch15/15.10/15.10.7/15.10.7.1/S15.10.7.1_A9.js
test262o/test/suite/ch15/15.10/15.10.7/15.10.7.1/S15.10.7.1_A10.js
test262o/test/suite/ch15/15.10/15.10.7/15.10.7.2/15.10.7.2-1.js
test262o/test/suite/ch15/15.10/15.10.7/15.10.7.2/15.10.7.2-2.js
test262o/test/suite/ch15/15.10/15.10.7/15.10.7.2/S15.10.7.2_A8.js
test262o/test/suite/ch15/15.10/15.10.7/15.10.7.2/S15.10.7.2_A9.js
test262o/test/suite/ch15/15.10/15.10.7/15.10.7.2/S15.10.7.2_A10.js
test262o/test/suite/ch15/15.10/15.10.7/15.10.7.3/15.10.7.3-1.js
test262o/test/suite/ch15/15.10/15.10.7/15.10.7.3/15.10.7.3-2.js
test262o/test/suite/ch15/15.10/15.10.7/15.10.7.3/S15.10.7.3_A8.js
test262o/test/suite/ch15/15.10/15.10.7/15.10.7.3/S15.10.7.3_A9.js
test262o/test/suite/ch15/15.10/15.10.7/15.10.7.3/S15.10.7.3_A10.js
test262o/test/suite/ch15/15.10/15.10.7/15.10.7.4/15.10.7.4-1.js
test262o/test/suite/ch15/15.10/15.10.7/15.10.7.4/15.10.7.4-2.js
test262o/test/suite/ch15/15.10/15.10.7/15.10.7.4/S15.10.7.4_A8.js
test262o/test/suite/ch15/15.10/15.10.7/15.10.7.4/S15.10.7.4_A9.js
test262o/test/suite/ch15/15.10/15.10.7/15.10.7.4/S15.10.7.4_A10.js
test262o/test/suite/ch15/15.10/15.10.7/15.10.7.5/15.10.7.5-1.js
test262o/test/suite/ch15/15.10/15.10.7/15.10.7.5/15.10.7.5-2.js
# ES6 != ES5: Error.prototype is a normal object
test262o/test/suite/ch15/15.11/15.11.4/S15.11.4_A2.js
# ES6 different ToLength() semantics
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.5/S15.4.4.5_A4_T3.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.6/S15.4.4.6_A2_T2.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.6/S15.4.4.6_A3_T1.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.6/S15.4.4.6_A3_T2.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.6/S15.4.4.6_A3_T3.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.7/S15.4.4.7_A2_T2.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.7/S15.4.4.7_A4_T1.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.7/S15.4.4.7_A4_T3.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.8/S15.4.4.8_A3_T3.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.9/S15.4.4.9_A3_T3.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.10/S15.4.4.10_A3_T1.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.10/S15.4.4.10_A3_T2.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.10/S15.4.4.10_A3_T3.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.11/S15.4.4.11_A4_T3.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.12/S15.4.4.12_A3_T1.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.12/S15.4.4.12_A3_T3.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.13/S15.4.4.13_A3_T2.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.14/15.4.4.14-3-7.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.14/15.4.4.14-3-8.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.14/15.4.4.14-3-12.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.14/15.4.4.14-3-14.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.14/15.4.4.14-3-25.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.14/15.4.4.14-3-28.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.14/15.4.4.14-3-29.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.15/15.4.4.15-3-7.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.15/15.4.4.15-3-12.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.15/15.4.4.15-3-25.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.15/15.4.4.15-3-28.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.16/15.4.4.16-3-7.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.16/15.4.4.16-3-8.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.16/15.4.4.16-3-12.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.16/15.4.4.16-3-14.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.16/15.4.4.16-3-25.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.16/15.4.4.16-3-29.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.17/15.4.4.17-3-7.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.17/15.4.4.17-3-8.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.17/15.4.4.17-3-12.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.17/15.4.4.17-3-14.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.17/15.4.4.17-3-25.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.17/15.4.4.17-3-28.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.17/15.4.4.17-3-29.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.18/15.4.4.18-3-7.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.18/15.4.4.18-3-12.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.18/15.4.4.18-3-25.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.19/15.4.4.19-3-7.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.19/15.4.4.19-3-8.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.19/15.4.4.19-3-12.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.19/15.4.4.19-3-14.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.19/15.4.4.19-3-25.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.19/15.4.4.19-3-28.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.19/15.4.4.19-3-29.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.20/15.4.4.20-3-7.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.20/15.4.4.20-3-12.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.20/15.4.4.20-3-25.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.21/15.4.4.21-3-7.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.21/15.4.4.21-3-12.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.21/15.4.4.21-3-25.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.22/15.4.4.22-3-7.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.22/15.4.4.22-3-12.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.22/15.4.4.22-3-25.js
# ES6 different ToLength() semantics causes near infinite runtime
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.15/15.4.4.15-3-14.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.18/15.4.4.18-3-14.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.20/15.4.4.20-3-14.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.21/15.4.4.21-3-14.js
test262o/test/suite/ch15/15.4/15.4.4/15.4.4.22/15.4.4.22-3-14.js
# ES6 arguments/caller changes
test262o/test/suite/ch10/10.6/10.6-13-b-1-s.js
test262o/test/suite/ch10/10.6/10.6-13-b-2-s.js
test262o/test/suite/ch10/10.6/10.6-13-b-3-s.js
test262o/test/suite/ch10/10.6/10.6-14-1-s.js
test262o/test/suite/ch10/10.6/10.6-14-b-1-s.js
test262o/test/suite/ch10/10.6/10.6-14-b-4-s.js
test262o/test/suite/ch13/13.2/13.2-29-s.js
test262o/test/suite/ch13/13.2/13.2-30-s.js
test262o/test/suite/ch13/13.2/13.2-31-s.js
test262o/test/suite/ch13/13.2/13.2-32-s.js
test262o/test/suite/ch13/13.2/13.2-33-s.js
test262o/test/suite/ch13/13.2/13.2-34-s.js
test262o/test/suite/ch13/13.2/13.2-35-s.js
test262o/test/suite/ch13/13.2/13.2-36-s.js
test262o/test/suite/ch13/13.2/S13.2.3_A1.js
test262o/test/suite/ch15/15.3/15.3.4/15.3.4.5/15.3.4.5-20-1.js
test262o/test/suite/ch15/15.3/15.3.4/15.3.4.5/15.3.4.5-20-4.js
test262o/test/suite/ch15/15.3/15.3.4/15.3.4.5/15.3.4.5-20-5.js
test262o/test/suite/ch15/15.3/15.3.4/15.3.4.5/15.3.4.5-21-1.js
test262o/test/suite/ch15/15.3/15.3.4/15.3.4.5/15.3.4.5-21-4.js
test262o/test/suite/ch15/15.3/15.3.4/15.3.4.5/15.3.4.5-21-5.js
# u180e is no longer considered as a space
test262o/test/suite/ch09/9.3/9.3.1/S9.3.1_A2.js
test262o/test/suite/ch09/9.3/9.3.1/S9.3.1_A3_T1.js
test262o/test/suite/ch09/9.3/9.3.1/S9.3.1_A3_T2.js
test262o/test/suite/ch15/15.1/15.1.2/15.1.2.2/S15.1.2.2_A2_T10.js
test262o/test/suite/ch15/15.1/15.1.2/15.1.2.3/S15.1.2.3_A2_T10.js
test262o/test/suite/ch15/15.5/15.5.4/15.5.4.20/15.5.4.20-3-2.js
test262o/test/suite/ch15/15.5/15.5.4/15.5.4.20/15.5.4.20-3-3.js
test262o/test/suite/ch15/15.5/15.5.4/15.5.4.20/15.5.4.20-3-4.js
test262o/test/suite/ch15/15.5/15.5.4/15.5.4.20/15.5.4.20-3-5.js
test262o/test/suite/ch15/15.5/15.5.4/15.5.4.20/15.5.4.20-3-6.js
test262o/test/suite/ch15/15.10/15.10.2/15.10.2.12/S15.10.2.12_A1_T1.js
test262o/test/suite/ch15/15.10/15.10.2/15.10.2.12/S15.10.2.12_A2_T1.js
# E6 eval return value is different
test262o/test/suite/ch12/12.6/12.6.3/S12.6.3_A9.js
test262o/test/suite/ch12/12.6/12.6.3/S12.6.3_A9.1.js
# ECMA 2019 optional-catch-binding feature allows try{}catch{}
test262o/test/suite/ch12/12.14/S12.14_A16_T4.js
# Syntax error instead of ReferenceError in ES2020
test262o/test/suite/ch11/11.13/11.13.1/11.13.1-1-1.js
test262o/test/suite/ch11/11.13/11.13.1/11.13.1-1-2.js
test262o/test/suite/ch11/11.13/11.13.1/11.13.1-1-3.js
test262o/test/suite/ch11/11.13/11.13.1/11.13.1-1-4.js
[tests]
# list test files or use config.testdir

View File

View File

@ -1,96 +0,0 @@
/*
* QuickJS: binary JSON module (test only)
*
* Copyright (c) 2017-2019 Fabrice Bellard
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#include "../quickjs-libc.h"
#include "../cutils.h"
static JSValue js_bjson_read(JSContext *ctx, JSValueConst this_val,
int argc, JSValueConst *argv)
{
uint8_t *buf;
uint64_t pos, len;
JSValue obj;
size_t size;
int flags;
if (JS_ToIndex(ctx, &pos, argv[1]))
return JS_EXCEPTION;
if (JS_ToIndex(ctx, &len, argv[2]))
return JS_EXCEPTION;
buf = JS_GetArrayBuffer(ctx, &size, argv[0]);
if (!buf)
return JS_EXCEPTION;
if (pos + len > size)
return JS_ThrowRangeError(ctx, "array buffer overflow");
flags = 0;
if (JS_ToBool(ctx, argv[3]))
flags |= JS_READ_OBJ_REFERENCE;
obj = JS_ReadObject(ctx, buf + pos, len, flags);
return obj;
}
static JSValue js_bjson_write(JSContext *ctx, JSValueConst this_val,
int argc, JSValueConst *argv)
{
size_t len;
uint8_t *buf;
JSValue array;
int flags;
flags = 0;
if (JS_ToBool(ctx, argv[1]))
flags |= JS_WRITE_OBJ_REFERENCE;
buf = JS_WriteObject(ctx, &len, argv[0], flags);
if (!buf)
return JS_EXCEPTION;
array = JS_NewArrayBufferCopy(ctx, buf, len);
js_free(ctx, buf);
return array;
}
static const JSCFunctionListEntry js_bjson_funcs[] = {
JS_CFUNC_DEF("read", 4, js_bjson_read ),
JS_CFUNC_DEF("write", 2, js_bjson_write ),
};
static int js_bjson_init(JSContext *ctx, JSModuleDef *m)
{
return JS_SetModuleExportList(ctx, m, js_bjson_funcs,
countof(js_bjson_funcs));
}
#ifdef JS_SHARED_LIBRARY
#define JS_INIT_MODULE js_init_module
#else
#define JS_INIT_MODULE js_init_module_bjson
#endif
JSModuleDef *JS_INIT_MODULE(JSContext *ctx, const char *module_name)
{
JSModuleDef *m;
m = JS_NewCModule(ctx, module_name, js_bjson_init);
if (!m)
return NULL;
JS_AddModuleExportList(ctx, m, js_bjson_funcs, countof(js_bjson_funcs));
return m;
}

File diff suppressed because it is too large Load Diff

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@ -1,71 +0,0 @@
diff --git a/harness/atomicsHelper.js b/harness/atomicsHelper.js
index 9c1217351e..3c24755558 100644
--- a/harness/atomicsHelper.js
+++ b/harness/atomicsHelper.js
@@ -227,10 +227,14 @@ $262.agent.waitUntil = function(typedArray, index, expected) {
* }
*/
$262.agent.timeouts = {
- yield: 100,
- small: 200,
- long: 1000,
- huge: 10000,
+// yield: 100,
+// small: 200,
+// long: 1000,
+// huge: 10000,
+ yield: 20,
+ small: 20,
+ long: 100,
+ huge: 1000,
};
/**
diff --git a/harness/regExpUtils.js b/harness/regExpUtils.js
index be7039fda0..7b38abf8df 100644
--- a/harness/regExpUtils.js
+++ b/harness/regExpUtils.js
@@ -6,24 +6,27 @@ description: |
defines: [buildString, testPropertyEscapes, matchValidator]
---*/
+if ($262 && typeof $262.codePointRange === "function") {
+ /* use C function to build the codePointRange (much faster with
+ slow JS engines) */
+ codePointRange = $262.codePointRange;
+} else {
+ codePointRange = function codePointRange(start, end) {
+ const codePoints = [];
+ let length = 0;
+ for (codePoint = start; codePoint < end; codePoint++) {
+ codePoints[length++] = codePoint;
+ }
+ return String.fromCodePoint.apply(null, codePoints);
+ }
+}
+
function buildString({ loneCodePoints, ranges }) {
- const CHUNK_SIZE = 10000;
- let result = Reflect.apply(String.fromCodePoint, null, loneCodePoints);
- for (let i = 0; i < ranges.length; i++) {
- const range = ranges[i];
- const start = range[0];
- const end = range[1];
- const codePoints = [];
- for (let length = 0, codePoint = start; codePoint <= end; codePoint++) {
- codePoints[length++] = codePoint;
- if (length === CHUNK_SIZE) {
- result += Reflect.apply(String.fromCodePoint, null, codePoints);
- codePoints.length = length = 0;
- }
+ let result = String.fromCodePoint.apply(null, loneCodePoints);
+ for (const [start, end] of ranges) {
+ result += codePointRange(start, end + 1);
}
- result += Reflect.apply(String.fromCodePoint, null, codePoints);
- }
- return result;
+ return result;
}
function testPropertyEscapes(regex, string, expression) {

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@ -1,326 +0,0 @@
"use strict";
function assert(actual, expected, message) {
if (arguments.length == 1)
expected = true;
if (actual === expected)
return;
if (actual !== null && expected !== null
&& typeof actual == 'object' && typeof expected == 'object'
&& actual.toString() === expected.toString())
return;
throw Error("assertion failed: got |" + actual + "|" +
", expected |" + expected + "|" +
(message ? " (" + message + ")" : ""));
}
function assertThrows(err, func)
{
var ex;
ex = false;
try {
func();
} catch(e) {
ex = true;
assert(e instanceof err);
}
assert(ex, true, "exception expected");
}
// load more elaborate version of assert if available
try { __loadScript("test_assert.js"); } catch(e) {}
/*----------------*/
function bigint_pow(a, n)
{
var r, i;
r = 1n;
for(i = 0n; i < n; i++)
r *= a;
return r;
}
/* a must be < b */
function test_less(a, b)
{
assert(a < b);
assert(!(b < a));
assert(a <= b);
assert(!(b <= a));
assert(b > a);
assert(!(a > b));
assert(b >= a);
assert(!(a >= b));
assert(a != b);
assert(!(a == b));
}
/* a must be numerically equal to b */
function test_eq(a, b)
{
assert(a == b);
assert(b == a);
assert(!(a != b));
assert(!(b != a));
assert(a <= b);
assert(b <= a);
assert(!(a < b));
assert(a >= b);
assert(b >= a);
assert(!(a > b));
}
function test_bigint1()
{
var a, r;
test_less(2n, 3n);
test_eq(3n, 3n);
test_less(2, 3n);
test_eq(3, 3n);
test_less(2.1, 3n);
test_eq(Math.sqrt(4), 2n);
a = bigint_pow(3n, 100n);
assert((a - 1n) != a);
assert(a == 515377520732011331036461129765621272702107522001n);
assert(a == 0x5a4653ca673768565b41f775d6947d55cf3813d1n);
r = 1n << 31n;
assert(r, 2147483648n, "1 << 31n === 2147483648n");
r = 1n << 32n;
assert(r, 4294967296n, "1 << 32n === 4294967296n");
}
function test_bigint2()
{
assert(BigInt(""), 0n);
assert(BigInt(" 123"), 123n);
assert(BigInt(" 123 "), 123n);
assertThrows(SyntaxError, () => { BigInt("+") } );
assertThrows(SyntaxError, () => { BigInt("-") } );
assertThrows(SyntaxError, () => { BigInt("\x00a") } );
assertThrows(SyntaxError, () => { BigInt(" 123 r") } );
}
function test_divrem(div1, a, b, q)
{
var div, divrem, t;
div = BigInt[div1];
divrem = BigInt[div1 + "rem"];
assert(div(a, b) == q);
t = divrem(a, b);
assert(t[0] == q);
assert(a == b * q + t[1]);
}
function test_idiv1(div, a, b, r)
{
test_divrem(div, a, b, r[0]);
test_divrem(div, -a, b, r[1]);
test_divrem(div, a, -b, r[2]);
test_divrem(div, -a, -b, r[3]);
}
/* QuickJS BigInt extensions */
function test_bigint_ext()
{
var r;
assert(BigInt.floorLog2(0n) === -1n);
assert(BigInt.floorLog2(7n) === 2n);
assert(BigInt.sqrt(0xffffffc000000000000000n) === 17592185913343n);
r = BigInt.sqrtrem(0xffffffc000000000000000n);
assert(r[0] === 17592185913343n);
assert(r[1] === 35167191957503n);
test_idiv1("tdiv", 3n, 2n, [1n, -1n, -1n, 1n]);
test_idiv1("fdiv", 3n, 2n, [1n, -2n, -2n, 1n]);
test_idiv1("cdiv", 3n, 2n, [2n, -1n, -1n, 2n]);
test_idiv1("ediv", 3n, 2n, [1n, -2n, -1n, 2n]);
}
function test_bigfloat()
{
var e, a, b, sqrt2;
assert(typeof 1n === "bigint");
assert(typeof 1l === "bigfloat");
assert(1 == 1.0l);
assert(1 !== 1.0l);
test_less(2l, 3l);
test_eq(3l, 3l);
test_less(2, 3l);
test_eq(3, 3l);
test_less(2.1, 3l);
test_eq(Math.sqrt(9), 3l);
test_less(2n, 3l);
test_eq(3n, 3l);
e = new BigFloatEnv(128);
assert(e.prec == 128);
a = BigFloat.sqrt(2l, e);
assert(a === BigFloat.parseFloat("0x1.6a09e667f3bcc908b2fb1366ea957d3e", 0, e));
assert(e.inexact === true);
assert(BigFloat.fpRound(a) == 0x1.6a09e667f3bcc908b2fb1366ea95l);
b = BigFloatEnv.setPrec(BigFloat.sqrt.bind(null, 2), 128);
assert(a === b);
assert(BigFloat.isNaN(BigFloat(NaN)));
assert(BigFloat.isFinite(1l));
assert(!BigFloat.isFinite(1l/0l));
assert(BigFloat.abs(-3l) === 3l);
assert(BigFloat.sign(-3l) === -1l);
assert(BigFloat.exp(0.2l) === 1.2214027581601698339210719946396742l);
assert(BigFloat.log(3l) === 1.0986122886681096913952452369225256l);
assert(BigFloat.pow(2.1l, 1.6l) === 3.277561666451861947162828744873745l);
assert(BigFloat.sin(-1l) === -0.841470984807896506652502321630299l);
assert(BigFloat.cos(1l) === 0.5403023058681397174009366074429766l);
assert(BigFloat.tan(0.1l) === 0.10033467208545054505808004578111154l);
assert(BigFloat.asin(0.3l) === 0.30469265401539750797200296122752915l);
assert(BigFloat.acos(0.4l) === 1.1592794807274085998465837940224159l);
assert(BigFloat.atan(0.7l) === 0.610725964389208616543758876490236l);
assert(BigFloat.atan2(7.1l, -5.1l) === 2.1937053809751415549388104628759813l);
assert(BigFloat.floor(2.5l) === 2l);
assert(BigFloat.ceil(2.5l) === 3l);
assert(BigFloat.trunc(-2.5l) === -2l);
assert(BigFloat.round(2.5l) === 3l);
assert(BigFloat.fmod(3l,2l) === 1l);
assert(BigFloat.remainder(3l,2l) === -1l);
/* string conversion */
assert((1234.125l).toString(), "1234.125");
assert((1234.125l).toFixed(2), "1234.13");
assert((1234.125l).toFixed(2, "down"), "1234.12");
assert((1234.125l).toExponential(), "1.234125e+3");
assert((1234.125l).toExponential(5), "1.23413e+3");
assert((1234.125l).toExponential(5, BigFloatEnv.RNDZ), "1.23412e+3");
assert((1234.125l).toPrecision(6), "1234.13");
assert((1234.125l).toPrecision(6, BigFloatEnv.RNDZ), "1234.12");
/* string conversion with binary base */
assert((0x123.438l).toString(16), "123.438");
assert((0x323.438l).toString(16), "323.438");
assert((0x723.438l).toString(16), "723.438");
assert((0xf23.438l).toString(16), "f23.438");
assert((0x123.438l).toFixed(2, BigFloatEnv.RNDNA, 16), "123.44");
assert((0x323.438l).toFixed(2, BigFloatEnv.RNDNA, 16), "323.44");
assert((0x723.438l).toFixed(2, BigFloatEnv.RNDNA, 16), "723.44");
assert((0xf23.438l).toFixed(2, BigFloatEnv.RNDNA, 16), "f23.44");
assert((0x0.0000438l).toFixed(6, BigFloatEnv.RNDNA, 16), "0.000044");
assert((0x1230000000l).toFixed(1, BigFloatEnv.RNDNA, 16), "1230000000.0");
assert((0x123.438l).toPrecision(5, BigFloatEnv.RNDNA, 16), "123.44");
assert((0x123.438l).toPrecision(5, BigFloatEnv.RNDZ, 16), "123.43");
assert((0x323.438l).toPrecision(5, BigFloatEnv.RNDNA, 16), "323.44");
assert((0x723.438l).toPrecision(5, BigFloatEnv.RNDNA, 16), "723.44");
assert((-0xf23.438l).toPrecision(5, BigFloatEnv.RNDD, 16), "-f23.44");
assert((0x123.438l).toExponential(4, BigFloatEnv.RNDNA, 16), "1.2344p+8");
}
function test_bigdecimal()
{
assert(1m === 1m);
assert(1m !== 2m);
test_less(1m, 2m);
test_eq(2m, 2m);
test_less(1, 2m);
test_eq(2, 2m);
test_less(1.1, 2m);
test_eq(Math.sqrt(4), 2m);
test_less(2n, 3m);
test_eq(3n, 3m);
assert(BigDecimal("1234.1") === 1234.1m);
assert(BigDecimal(" 1234.1") === 1234.1m);
assert(BigDecimal(" 1234.1 ") === 1234.1m);
assert(BigDecimal(0.1) === 0.1m);
assert(BigDecimal(123) === 123m);
assert(BigDecimal(true) === 1m);
assert(123m + 1m === 124m);
assert(123m - 1m === 122m);
assert(3.2m * 3m === 9.6m);
assert(10m / 2m === 5m);
assertThrows(RangeError, () => { 10m / 3m } );
assert(10m % 3m === 1m);
assert(-10m % 3m === -1m);
assert(1234.5m ** 3m === 1881365963.625m);
assertThrows(RangeError, () => { 2m ** 3.1m } );
assertThrows(RangeError, () => { 2m ** -3m } );
assert(BigDecimal.sqrt(2m,
{ roundingMode: "half-even",
maximumSignificantDigits: 4 }) === 1.414m);
assert(BigDecimal.sqrt(101m,
{ roundingMode: "half-even",
maximumFractionDigits: 3 }) === 10.050m);
assert(BigDecimal.sqrt(0.002m,
{ roundingMode: "half-even",
maximumFractionDigits: 3 }) === 0.045m);
assert(BigDecimal.round(3.14159m,
{ roundingMode: "half-even",
maximumFractionDigits: 3 }) === 3.142m);
assert(BigDecimal.add(3.14159m, 0.31212m,
{ roundingMode: "half-even",
maximumFractionDigits: 2 }) === 3.45m);
assert(BigDecimal.sub(3.14159m, 0.31212m,
{ roundingMode: "down",
maximumFractionDigits: 2 }) === 2.82m);
assert(BigDecimal.mul(3.14159m, 0.31212m,
{ roundingMode: "half-even",
maximumFractionDigits: 3 }) === 0.981m);
assert(BigDecimal.mod(3.14159m, 0.31211m,
{ roundingMode: "half-even",
maximumFractionDigits: 4 }) === 0.0205m);
assert(BigDecimal.div(20m, 3m,
{ roundingMode: "half-even",
maximumSignificantDigits: 3 }) === 6.67m);
assert(BigDecimal.div(20m, 3m,
{ roundingMode: "half-even",
maximumFractionDigits: 50 }) ===
6.66666666666666666666666666666666666666666666666667m);
/* string conversion */
assert((1234.125m).toString(), "1234.125");
assert((1234.125m).toFixed(2), "1234.13");
assert((1234.125m).toFixed(2, "down"), "1234.12");
assert((1234.125m).toExponential(), "1.234125e+3");
assert((1234.125m).toExponential(5), "1.23413e+3");
assert((1234.125m).toExponential(5, "down"), "1.23412e+3");
assert((1234.125m).toPrecision(6), "1234.13");
assert((1234.125m).toPrecision(6, "down"), "1234.12");
assert((-1234.125m).toPrecision(6, "floor"), "-1234.13");
}
test_bigint1();
test_bigint2();
test_bigint_ext();
test_bigfloat();
test_bigdecimal();

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@ -1,191 +0,0 @@
import * as bjson from "./bjson.so";
function assert(actual, expected, message) {
if (arguments.length == 1)
expected = true;
if (actual === expected)
return;
if (actual !== null && expected !== null
&& typeof actual == 'object' && typeof expected == 'object'
&& actual.toString() === expected.toString())
return;
throw Error("assertion failed: got |" + actual + "|" +
", expected |" + expected + "|" +
(message ? " (" + message + ")" : ""));
}
function toHex(a)
{
var i, s = "", tab, v;
tab = new Uint8Array(a);
for(i = 0; i < tab.length; i++) {
v = tab[i].toString(16);
if (v.length < 2)
v = "0" + v;
if (i !== 0)
s += " ";
s += v;
}
return s;
}
function isArrayLike(a)
{
return Array.isArray(a) ||
(a instanceof Uint8ClampedArray) ||
(a instanceof Uint8Array) ||
(a instanceof Uint16Array) ||
(a instanceof Uint32Array) ||
(a instanceof Int8Array) ||
(a instanceof Int16Array) ||
(a instanceof Int32Array) ||
(a instanceof Float32Array) ||
(a instanceof Float64Array);
}
function toStr(a)
{
var s, i, props, prop;
switch(typeof(a)) {
case "object":
if (a === null)
return "null";
if (a instanceof Date) {
s = "Date(" + toStr(a.valueOf()) + ")";
} else if (a instanceof Number) {
s = "Number(" + toStr(a.valueOf()) + ")";
} else if (a instanceof String) {
s = "String(" + toStr(a.valueOf()) + ")";
} else if (a instanceof Boolean) {
s = "Boolean(" + toStr(a.valueOf()) + ")";
} else if (isArrayLike(a)) {
s = "[";
for(i = 0; i < a.length; i++) {
if (i != 0)
s += ",";
s += toStr(a[i]);
}
s += "]";
} else {
props = Object.keys(a);
s = "{";
for(i = 0; i < props.length; i++) {
if (i != 0)
s += ",";
prop = props[i];
s += prop + ":" + toStr(a[prop]);
}
s += "}";
}
return s;
case "undefined":
return "undefined";
case "string":
return a.__quote();
case "number":
case "bigfloat":
if (a == 0 && 1 / a < 0)
return "-0";
else
return a.toString();
break;
default:
return a.toString();
}
}
function bjson_test(a)
{
var buf, r, a_str, r_str;
a_str = toStr(a);
buf = bjson.write(a);
if (0) {
print(a_str, "->", toHex(buf));
}
r = bjson.read(buf, 0, buf.byteLength);
r_str = toStr(r);
if (a_str != r_str) {
print(a_str);
print(r_str);
assert(false);
}
}
/* test multiple references to an object including circular
references */
function bjson_test_reference()
{
var array, buf, i, n, array_buffer;
n = 16;
array = [];
for(i = 0; i < n; i++)
array[i] = {};
array_buffer = new ArrayBuffer(n);
for(i = 0; i < n; i++) {
array[i].next = array[(i + 1) % n];
array[i].idx = i;
array[i].typed_array = new Uint8Array(array_buffer, i, 1);
}
buf = bjson.write(array, true);
array = bjson.read(buf, 0, buf.byteLength, true);
/* check the result */
for(i = 0; i < n; i++) {
assert(array[i].next, array[(i + 1) % n]);
assert(array[i].idx, i);
assert(array[i].typed_array.buffer, array_buffer);
assert(array[i].typed_array.length, 1);
assert(array[i].typed_array.byteOffset, i);
}
}
function bjson_test_all()
{
var obj;
bjson_test({x:1, y:2, if:3});
bjson_test([1, 2, 3]);
bjson_test([1.0, "aa", true, false, undefined, null, NaN, -Infinity, -0.0]);
if (typeof BigInt !== "undefined") {
bjson_test([BigInt("1"), -BigInt("0x123456789"),
BigInt("0x123456789abcdef123456789abcdef")]);
}
if (typeof BigFloat !== "undefined") {
BigFloatEnv.setPrec(function () {
bjson_test([BigFloat("0.1"), BigFloat("-1e30"), BigFloat("0"),
BigFloat("-0"), BigFloat("Infinity"), BigFloat("-Infinity"),
0.0 / BigFloat("0"), BigFloat.MAX_VALUE,
BigFloat.MIN_VALUE]);
}, 113, 15);
}
if (typeof BigDecimal !== "undefined") {
bjson_test([BigDecimal("0"),
BigDecimal("0.8"), BigDecimal("123321312321321e100"),
BigDecimal("-1233213123213214332333223332e100"),
BigDecimal("1.233e-1000")]);
}
bjson_test([new Date(1234), new String("abc"), new Number(-12.1), new Boolean(true)]);
bjson_test(new Int32Array([123123, 222111, -32222]));
bjson_test(new Float64Array([123123, 222111.5]));
/* tested with a circular reference */
obj = {};
obj.x = obj;
try {
bjson.write(obj);
assert(false);
} catch(e) {
assert(e instanceof TypeError);
}
bjson_test_reference();
}
bjson_test_all();

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@ -1,713 +0,0 @@
"use strict";
function assert(actual, expected, message) {
if (arguments.length == 1)
expected = true;
if (actual === expected)
return;
if (actual !== null && expected !== null
&& typeof actual == 'object' && typeof expected == 'object'
&& actual.toString() === expected.toString())
return;
throw Error("assertion failed: got |" + actual + "|" +
", expected |" + expected + "|" +
(message ? " (" + message + ")" : ""));
}
function assert_throws(expected_error, func)
{
var err = false;
try {
func();
} catch(e) {
err = true;
if (!(e instanceof expected_error)) {
throw Error("unexpected exception type");
}
}
if (!err) {
throw Error("expected exception");
}
}
// load more elaborate version of assert if available
try { __loadScript("test_assert.js"); } catch(e) {}
/*----------------*/
function my_func(a, b)
{
return a + b;
}
function test_function()
{
function f(a, b) {
var i, tab = [];
tab.push(this);
for(i = 0; i < arguments.length; i++)
tab.push(arguments[i]);
return tab;
}
function constructor1(a) {
this.x = a;
}
var r, g;
r = my_func.call(null, 1, 2);
assert(r, 3, "call");
r = my_func.apply(null, [1, 2]);
assert(r, 3, "apply");
r = (function () { return 1; }).apply(null, undefined);
assert(r, 1);
assert_throws(TypeError, (function() {
Reflect.apply((function () { return 1; }), null, undefined);
}));
r = new Function("a", "b", "return a + b;");
assert(r(2,3), 5, "function");
g = f.bind(1, 2);
assert(g.length, 1);
assert(g.name, "bound f");
assert(g(3), [1,2,3]);
g = constructor1.bind(null, 1);
r = new g();
assert(r.x, 1);
}
function test()
{
var r, a, b, c, err;
r = Error("hello");
assert(r.message, "hello", "Error");
a = new Object();
a.x = 1;
assert(a.x, 1, "Object");
assert(Object.getPrototypeOf(a), Object.prototype, "getPrototypeOf");
Object.defineProperty(a, "y", { value: 3, writable: true, configurable: true, enumerable: true });
assert(a.y, 3, "defineProperty");
Object.defineProperty(a, "z", { get: function () { return 4; }, set: function(val) { this.z_val = val; }, configurable: true, enumerable: true });
assert(a.z, 4, "get");
a.z = 5;
assert(a.z_val, 5, "set");
a = { get z() { return 4; }, set z(val) { this.z_val = val; } };
assert(a.z, 4, "get");
a.z = 5;
assert(a.z_val, 5, "set");
b = Object.create(a);
assert(Object.getPrototypeOf(b), a, "create");
c = {u:2};
/* XXX: refcount bug in 'b' instead of 'a' */
Object.setPrototypeOf(a, c);
assert(Object.getPrototypeOf(a), c, "setPrototypeOf");
a = {};
assert(a.toString(), "[object Object]", "toString");
a = {x:1};
assert(Object.isExtensible(a), true, "extensible");
Object.preventExtensions(a);
err = false;
try {
a.y = 2;
} catch(e) {
err = true;
}
assert(Object.isExtensible(a), false, "extensible");
assert(typeof a.y, "undefined", "extensible");
assert(err, true, "extensible");
}
function test_enum()
{
var a, tab;
a = {x:1,
"18014398509481984": 1,
"9007199254740992": 1,
"9007199254740991": 1,
"4294967296": 1,
"4294967295": 1,
y:1,
"4294967294": 1,
"1": 2};
tab = Object.keys(a);
// console.log("tab=" + tab.toString());
assert(tab, ["1","4294967294","x","18014398509481984","9007199254740992","9007199254740991","4294967296","4294967295","y"], "keys");
}
function test_array()
{
var a, err;
a = [1, 2, 3];
assert(a.length, 3, "array");
assert(a[2], 3, "array1");
a = new Array(10);
assert(a.length, 10, "array2");
a = new Array(1, 2);
assert(a.length === 2 && a[0] === 1 && a[1] === 2, true, "array3");
a = [1, 2, 3];
a.length = 2;
assert(a.length === 2 && a[0] === 1 && a[1] === 2, true, "array4");
a = [];
a[1] = 10;
a[4] = 3;
assert(a.length, 5);
a = [1,2];
a.length = 5;
a[4] = 1;
a.length = 4;
assert(a[4] !== 1, true, "array5");
a = [1,2];
a.push(3,4);
assert(a.join(), "1,2,3,4", "join");
a = [1,2,3,4,5];
Object.defineProperty(a, "3", { configurable: false });
err = false;
try {
a.length = 2;
} catch(e) {
err = true;
}
assert(err && a.toString() === "1,2,3,4");
}
function test_string()
{
var a;
a = String("abc");
assert(a.length, 3, "string");
assert(a[1], "b", "string");
assert(a.charCodeAt(1), 0x62, "string");
assert(String.fromCharCode(65), "A", "string");
assert(String.fromCharCode.apply(null, [65, 66, 67]), "ABC", "string");
assert(a.charAt(1), "b");
assert(a.charAt(-1), "");
assert(a.charAt(3), "");
a = "abcd";
assert(a.substring(1, 3), "bc", "substring");
a = String.fromCharCode(0x20ac);
assert(a.charCodeAt(0), 0x20ac, "unicode");
assert(a, "€", "unicode");
assert(a, "\u20ac", "unicode");
assert(a, "\u{20ac}", "unicode");
assert("a", "\x61", "unicode");
a = "\u{10ffff}";
assert(a.length, 2, "unicode");
assert(a, "\u{dbff}\u{dfff}", "unicode");
assert(a.codePointAt(0), 0x10ffff);
assert(String.fromCodePoint(0x10ffff), a);
assert("a".concat("b", "c"), "abc");
assert("abcabc".indexOf("cab"), 2);
assert("abcabc".indexOf("cab2"), -1);
assert("abc".indexOf("c"), 2);
assert("aaa".indexOf("a"), 0);
assert("aaa".indexOf("a", NaN), 0);
assert("aaa".indexOf("a", -Infinity), 0);
assert("aaa".indexOf("a", -1), 0);
assert("aaa".indexOf("a", -0), 0);
assert("aaa".indexOf("a", 0), 0);
assert("aaa".indexOf("a", 1), 1);
assert("aaa".indexOf("a", 2), 2);
assert("aaa".indexOf("a", 3), -1);
assert("aaa".indexOf("a", 4), -1);
assert("aaa".indexOf("a", Infinity), -1);
assert("aaa".indexOf(""), 0);
assert("aaa".indexOf("", NaN), 0);
assert("aaa".indexOf("", -Infinity), 0);
assert("aaa".indexOf("", -1), 0);
assert("aaa".indexOf("", -0), 0);
assert("aaa".indexOf("", 0), 0);
assert("aaa".indexOf("", 1), 1);
assert("aaa".indexOf("", 2), 2);
assert("aaa".indexOf("", 3), 3);
assert("aaa".indexOf("", 4), 3);
assert("aaa".indexOf("", Infinity), 3);
assert("aaa".lastIndexOf("a"), 2);
assert("aaa".lastIndexOf("a", NaN), 2);
assert("aaa".lastIndexOf("a", -Infinity), 0);
assert("aaa".lastIndexOf("a", -1), 0);
assert("aaa".lastIndexOf("a", -0), 0);
assert("aaa".lastIndexOf("a", 0), 0);
assert("aaa".lastIndexOf("a", 1), 1);
assert("aaa".lastIndexOf("a", 2), 2);
assert("aaa".lastIndexOf("a", 3), 2);
assert("aaa".lastIndexOf("a", 4), 2);
assert("aaa".lastIndexOf("a", Infinity), 2);
assert("aaa".lastIndexOf(""), 3);
assert("aaa".lastIndexOf("", NaN), 3);
assert("aaa".lastIndexOf("", -Infinity), 0);
assert("aaa".lastIndexOf("", -1), 0);
assert("aaa".lastIndexOf("", -0), 0);
assert("aaa".lastIndexOf("", 0), 0);
assert("aaa".lastIndexOf("", 1), 1);
assert("aaa".lastIndexOf("", 2), 2);
assert("aaa".lastIndexOf("", 3), 3);
assert("aaa".lastIndexOf("", 4), 3);
assert("aaa".lastIndexOf("", Infinity), 3);
assert("a,b,c".split(","), ["a","b","c"]);
assert(",b,c".split(","), ["","b","c"]);
assert("a,b,".split(","), ["a","b",""]);
assert("aaaa".split(), [ "aaaa" ]);
assert("aaaa".split(undefined, 0), [ ]);
assert("aaaa".split(""), [ "a", "a", "a", "a" ]);
assert("aaaa".split("", 0), [ ]);
assert("aaaa".split("", 1), [ "a" ]);
assert("aaaa".split("", 2), [ "a", "a" ]);
assert("aaaa".split("a"), [ "", "", "", "", "" ]);
assert("aaaa".split("a", 2), [ "", "" ]);
assert("aaaa".split("aa"), [ "", "", "" ]);
assert("aaaa".split("aa", 0), [ ]);
assert("aaaa".split("aa", 1), [ "" ]);
assert("aaaa".split("aa", 2), [ "", "" ]);
assert("aaaa".split("aaa"), [ "", "a" ]);
assert("aaaa".split("aaaa"), [ "", "" ]);
assert("aaaa".split("aaaaa"), [ "aaaa" ]);
assert("aaaa".split("aaaaa", 0), [ ]);
assert("aaaa".split("aaaaa", 1), [ "aaaa" ]);
assert(eval('"\0"'), "\0");
assert("abc".padStart(Infinity, ""), "abc");
}
function test_math()
{
var a;
a = 1.4;
assert(Math.floor(a), 1);
assert(Math.ceil(a), 2);
assert(Math.imul(0x12345678, 123), -1088058456);
assert(Math.fround(0.1), 0.10000000149011612);
assert(Math.hypot() == 0);
assert(Math.hypot(-2) == 2);
assert(Math.hypot(3, 4) == 5);
assert(Math.abs(Math.hypot(3, 4, 5) - 7.0710678118654755) <= 1e-15);
}
function test_number()
{
assert(parseInt("123"), 123);
assert(parseInt(" 123r"), 123);
assert(parseInt("0x123"), 0x123);
assert(parseInt("0o123"), 0);
assert(+" 123 ", 123);
assert(+"0b111", 7);
assert(+"0o123", 83);
assert(parseFloat("0x1234"), 0);
assert(parseFloat("Infinity"), Infinity);
assert(parseFloat("-Infinity"), -Infinity);
assert(parseFloat("123.2"), 123.2);
assert(parseFloat("123.2e3"), 123200);
assert(Number.isNaN(Number("+")));
assert(Number.isNaN(Number("-")));
assert(Number.isNaN(Number("\x00a")));
assert((25).toExponential(0), "3e+1");
assert((-25).toExponential(0), "-3e+1");
assert((2.5).toPrecision(1), "3");
assert((-2.5).toPrecision(1), "-3");
assert((1.125).toFixed(2), "1.13");
assert((-1.125).toFixed(2), "-1.13");
}
function test_eval2()
{
var g_call_count = 0;
/* force non strict mode for f1 and f2 */
var f1 = new Function("eval", "eval(1, 2)");
var f2 = new Function("eval", "eval(...[1, 2])");
function g(a, b) {
assert(a, 1);
assert(b, 2);
g_call_count++;
}
f1(g);
f2(g);
assert(g_call_count, 2);
}
function test_eval()
{
function f(b) {
var x = 1;
return eval(b);
}
var r, a;
r = eval("1+1;");
assert(r, 2, "eval");
r = eval("var my_var=2; my_var;");
assert(r, 2, "eval");
assert(typeof my_var, "undefined");
assert(eval("if (1) 2; else 3;"), 2);
assert(eval("if (0) 2; else 3;"), 3);
assert(f.call(1, "this"), 1);
a = 2;
assert(eval("a"), 2);
eval("a = 3");
assert(a, 3);
assert(f("arguments.length", 1), 2);
assert(f("arguments[1]", 1), 1);
a = 4;
assert(f("a"), 4);
f("a=3");
assert(a, 3);
test_eval2();
}
function test_typed_array()
{
var buffer, a, i, str;
a = new Uint8Array(4);
assert(a.length, 4);
for(i = 0; i < a.length; i++)
a[i] = i;
assert(a.join(","), "0,1,2,3");
a[0] = -1;
assert(a[0], 255);
a = new Int8Array(3);
a[0] = 255;
assert(a[0], -1);
a = new Int32Array(3);
a[0] = Math.pow(2, 32) - 1;
assert(a[0], -1);
assert(a.BYTES_PER_ELEMENT, 4);
a = new Uint8ClampedArray(4);
a[0] = -100;
a[1] = 1.5;
a[2] = 0.5;
a[3] = 1233.5;
assert(a.toString(), "0,2,0,255");
buffer = new ArrayBuffer(16);
assert(buffer.byteLength, 16);
a = new Uint32Array(buffer, 12, 1);
assert(a.length, 1);
a[0] = -1;
a = new Uint16Array(buffer, 2);
a[0] = -1;
a = new Float32Array(buffer, 8, 1);
a[0] = 1;
a = new Uint8Array(buffer);
str = a.toString();
/* test little and big endian cases */
if (str !== "0,0,255,255,0,0,0,0,0,0,128,63,255,255,255,255" &&
str !== "0,0,255,255,0,0,0,0,63,128,0,0,255,255,255,255") {
assert(false);
}
assert(a.buffer, buffer);
a = new Uint8Array([1, 2, 3, 4]);
assert(a.toString(), "1,2,3,4");
a.set([10, 11], 2);
assert(a.toString(), "1,2,10,11");
}
function test_json()
{
var a, s;
s = '{"x":1,"y":true,"z":null,"a":[1,2,3],"s":"str"}';
a = JSON.parse(s);
assert(a.x, 1);
assert(a.y, true);
assert(a.z, null);
assert(JSON.stringify(a), s);
/* indentation test */
assert(JSON.stringify([[{x:1,y:{},z:[]},2,3]],undefined,1),
`[
[
{
"x": 1,
"y": {},
"z": []
},
2,
3
]
]`);
}
function test_date()
{
var d = new Date(1506098258091), a, s;
assert(d.toISOString(), "2017-09-22T16:37:38.091Z");
d.setUTCHours(18, 10, 11);
assert(d.toISOString(), "2017-09-22T18:10:11.091Z");
a = Date.parse(d.toISOString());
assert((new Date(a)).toISOString(), d.toISOString());
s = new Date("2020-01-01T01:01:01.1Z").toISOString();
assert(s == "2020-01-01T01:01:01.100Z");
s = new Date("2020-01-01T01:01:01.12Z").toISOString();
assert(s == "2020-01-01T01:01:01.120Z");
s = new Date("2020-01-01T01:01:01.123Z").toISOString();
assert(s == "2020-01-01T01:01:01.123Z");
s = new Date("2020-01-01T01:01:01.1234Z").toISOString();
assert(s == "2020-01-01T01:01:01.123Z");
s = new Date("2020-01-01T01:01:01.12345Z").toISOString();
assert(s == "2020-01-01T01:01:01.123Z");
s = new Date("2020-01-01T01:01:01.1235Z").toISOString();
assert(s == "2020-01-01T01:01:01.124Z");
s = new Date("2020-01-01T01:01:01.9999Z").toISOString();
assert(s == "2020-01-01T01:01:02.000Z");
}
function test_regexp()
{
var a, str;
str = "abbbbbc";
a = /(b+)c/.exec(str);
assert(a[0], "bbbbbc");
assert(a[1], "bbbbb");
assert(a.index, 1);
assert(a.input, str);
a = /(b+)c/.test(str);
assert(a, true);
assert(/\x61/.exec("a")[0], "a");
assert(/\u0061/.exec("a")[0], "a");
assert(/\ca/.exec("\x01")[0], "\x01");
assert(/\\a/.exec("\\a")[0], "\\a");
assert(/\c0/.exec("\\c0")[0], "\\c0");
a = /(\.(?=com|org)|\/)/.exec("ah.com");
assert(a.index === 2 && a[0] === ".");
a = /(\.(?!com|org)|\/)/.exec("ah.com");
assert(a, null);
a = /(?=(a+))/.exec("baaabac");
assert(a.index === 1 && a[0] === "" && a[1] === "aaa");
a = /(z)((a+)?(b+)?(c))*/.exec("zaacbbbcac");
assert(a, ["zaacbbbcac","z","ac","a",,"c"]);
a = eval("/\0a/");
assert(a.toString(), "/\0a/");
assert(a.exec("\0a")[0], "\0a");
assert(/{1a}/.toString(), "/{1a}/");
a = /a{1+/.exec("a{11");
assert(a, ["a{11"]);
/* test zero length matches */
a = /(?:(?=(abc)))a/.exec("abc");
assert(a, ["a", "abc"]);
a = /(?:(?=(abc)))?a/.exec("abc");
assert(a, ["a", undefined]);
a = /(?:(?=(abc))){0,2}a/.exec("abc");
assert(a, ["a", undefined]);
a = /(?:|[\w])+([0-9])/.exec("123a23");
assert(a, ["123a23", "3"]);
}
function test_symbol()
{
var a, b, obj, c;
a = Symbol("abc");
obj = {};
obj[a] = 2;
assert(obj[a], 2);
assert(typeof obj["abc"], "undefined");
assert(String(a), "Symbol(abc)");
b = Symbol("abc");
assert(a == a);
assert(a === a);
assert(a != b);
assert(a !== b);
b = Symbol.for("abc");
c = Symbol.for("abc");
assert(b === c);
assert(b !== a);
assert(Symbol.keyFor(b), "abc");
assert(Symbol.keyFor(a), undefined);
a = Symbol("aaa");
assert(a.valueOf(), a);
assert(a.toString(), "Symbol(aaa)");
b = Object(a);
assert(b.valueOf(), a);
assert(b.toString(), "Symbol(aaa)");
}
function test_map()
{
var a, i, n, tab, o, v;
n = 1000;
a = new Map();
tab = [];
for(i = 0; i < n; i++) {
v = { };
o = { id: i };
tab[i] = [o, v];
a.set(o, v);
}
assert(a.size, n);
for(i = 0; i < n; i++) {
assert(a.get(tab[i][0]), tab[i][1]);
}
i = 0;
a.forEach(function (v, o) {
assert(o, tab[i++][0]);
assert(a.has(o));
assert(a.delete(o));
assert(!a.has(o));
});
assert(a.size, 0);
}
function test_weak_map()
{
var a, i, n, tab, o, v, n2;
a = new WeakMap();
n = 10;
tab = [];
for(i = 0; i < n; i++) {
v = { };
o = { id: i };
tab[i] = [o, v];
a.set(o, v);
}
o = null;
n2 = n >> 1;
for(i = 0; i < n2; i++) {
a.delete(tab[i][0]);
}
for(i = n2; i < n; i++) {
tab[i][0] = null; /* should remove the object from the WeakMap too */
}
/* the WeakMap should be empty here */
}
function test_generator()
{
function *f() {
var ret;
yield 1;
ret = yield 2;
assert(ret, "next_arg");
return 3;
}
function *f2() {
yield 1;
yield 2;
return "ret_val";
}
function *f1() {
var ret = yield *f2();
assert(ret, "ret_val");
return 3;
}
function *f3() {
var ret;
/* test stack consistency with nip_n to handle yield return +
* finally clause */
try {
ret = 2 + (yield 1);
} catch(e) {
} finally {
ret++;
}
return ret;
}
var g, v;
g = f();
v = g.next();
assert(v.value === 1 && v.done === false);
v = g.next();
assert(v.value === 2 && v.done === false);
v = g.next("next_arg");
assert(v.value === 3 && v.done === true);
v = g.next();
assert(v.value === undefined && v.done === true);
g = f1();
v = g.next();
assert(v.value === 1 && v.done === false);
v = g.next();
assert(v.value === 2 && v.done === false);
v = g.next();
assert(v.value === 3 && v.done === true);
v = g.next();
assert(v.value === undefined && v.done === true);
g = f3();
v = g.next();
assert(v.value === 1 && v.done === false);
v = g.next(3);
assert(v.value === 6 && v.done === true);
}
test();
test_function();
test_enum();
test_array();
test_string();
test_math();
test_number();
test_eval();
test_typed_array();
test_json();
test_date();
test_regexp();
test_symbol();
test_map();
test_weak_map();
test_generator();

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@ -1,221 +0,0 @@
function assert(actual, expected, message) {
if (arguments.length == 1)
expected = true;
if (actual === expected)
return;
if (actual !== null && expected !== null
&& typeof actual == 'object' && typeof expected == 'object'
&& actual.toString() === expected.toString())
return;
throw Error("assertion failed: got |" + actual + "|" +
", expected |" + expected + "|" +
(message ? " (" + message + ")" : ""));
}
// load more elaborate version of assert if available
try { __loadScript("test_assert.js"); } catch(e) {}
/*----------------*/
var log_str = "";
function log(str)
{
log_str += str + ",";
}
function f(a, b, c)
{
var x = 10;
log("a="+a);
function g(d) {
function h() {
log("d=" + d);
log("x=" + x);
}
log("b=" + b);
log("c=" + c);
h();
}
g(4);
return g;
}
var g1 = f(1, 2, 3);
g1(5);
assert(log_str, "a=1,b=2,c=3,d=4,x=10,b=2,c=3,d=5,x=10,", "closure1");
function test_closure1()
{
function f2()
{
var val = 1;
function set(a) {
val = a;
}
function get(a) {
return val;
}
return { "set": set, "get": get };
}
var obj = f2();
obj.set(10);
var r;
r = obj.get();
assert(r, 10, "closure2");
}
function test_closure2()
{
var expr_func = function myfunc1(n) {
function myfunc2(n) {
return myfunc1(n - 1);
}
if (n == 0)
return 0;
else
return myfunc2(n);
};
var r;
r = expr_func(1);
assert(r, 0, "expr_func");
}
function test_closure3()
{
function fib(n)
{
if (n <= 0)
return 0;
else if (n == 1)
return 1;
else
return fib(n - 1) + fib(n - 2);
}
var fib_func = function fib1(n)
{
if (n <= 0)
return 0;
else if (n == 1)
return 1;
else
return fib1(n - 1) + fib1(n - 2);
};
assert(fib(6), 8, "fib");
assert(fib_func(6), 8, "fib_func");
}
function test_arrow_function()
{
"use strict";
function f1() {
return (() => arguments)();
}
function f2() {
return (() => this)();
}
function f3() {
return (() => eval("this"))();
}
function f4() {
return (() => eval("new.target"))();
}
var a;
a = f1(1, 2);
assert(a.length, 2);
assert(a[0] === 1 && a[1] === 2);
assert(f2.call("this_val") === "this_val");
assert(f3.call("this_val") === "this_val");
assert(new f4() === f4);
var o1 = { f() { return this; } };
var o2 = { f() {
return (() => eval("super.f()"))();
} };
o2.__proto__ = o1;
assert(o2.f() === o2);
}
function test_with()
{
var o1 = { x: "o1", y: "o1" };
var x = "local";
eval('var z="var_obj";');
assert(z === "var_obj");
with (o1) {
assert(x === "o1");
assert(eval("x") === "o1");
var f = function () {
o2 = { x: "o2" };
with (o2) {
assert(x === "o2");
assert(y === "o1");
assert(z === "var_obj");
assert(eval("x") === "o2");
assert(eval("y") === "o1");
assert(eval("z") === "var_obj");
assert(eval('eval("x")') === "o2");
}
};
f();
}
}
function test_eval_closure()
{
var tab;
tab = [];
for(let i = 0; i < 3; i++) {
eval("tab.push(function g1() { return i; })");
}
for(let i = 0; i < 3; i++) {
assert(tab[i]() === i);
}
tab = [];
for(let i = 0; i < 3; i++) {
let f = function f() {
eval("tab.push(function g2() { return i; })");
};
f();
}
for(let i = 0; i < 3; i++) {
assert(tab[i]() === i);
}
}
function test_eval_const()
{
const a = 1;
var success = false;
var f = function () {
eval("a = 1");
};
try {
f();
} catch(e) {
success = (e instanceof TypeError);
}
assert(success);
}
test_closure1();
test_closure2();
test_closure3();
test_arrow_function();
test_with();
test_eval_closure();
test_eval_const();

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@ -1,606 +0,0 @@
function assert(actual, expected, message) {
if (arguments.length == 1)
expected = true;
if (actual === expected)
return;
if (actual !== null && expected !== null
&& typeof actual == 'object' && typeof expected == 'object'
&& actual.toString() === expected.toString())
return;
throw Error("assertion failed: got |" + actual + "|" +
", expected |" + expected + "|" +
(message ? " (" + message + ")" : ""));
}
function assert_throws(expected_error, func)
{
var err = false;
try {
func();
} catch(e) {
err = true;
if (!(e instanceof expected_error)) {
throw Error("unexpected exception type");
}
}
if (!err) {
throw Error("expected exception");
}
}
// load more elaborate version of assert if available
try { __loadScript("test_assert.js"); } catch(e) {}
/*----------------*/
function test_op1()
{
var r, a;
r = 1 + 2;
assert(r, 3, "1 + 2 === 3");
r = 1 - 2;
assert(r, -1, "1 - 2 === -1");
r = -1;
assert(r, -1, "-1 === -1");
r = +2;
assert(r, 2, "+2 === 2");
r = 2 * 3;
assert(r, 6, "2 * 3 === 6");
r = 4 / 2;
assert(r, 2, "4 / 2 === 2");
r = 4 % 3;
assert(r, 1, "4 % 3 === 3");
r = 4 << 2;
assert(r, 16, "4 << 2 === 16");
r = 1 << 0;
assert(r, 1, "1 << 0 === 1");
r = 1 << 31;
assert(r, -2147483648, "1 << 31 === -2147483648");
r = 1 << 32;
assert(r, 1, "1 << 32 === 1");
r = (1 << 31) < 0;
assert(r, true, "(1 << 31) < 0 === true");
r = -4 >> 1;
assert(r, -2, "-4 >> 1 === -2");
r = -4 >>> 1;
assert(r, 0x7ffffffe, "-4 >>> 1 === 0x7ffffffe");
r = 1 & 1;
assert(r, 1, "1 & 1 === 1");
r = 0 | 1;
assert(r, 1, "0 | 1 === 1");
r = 1 ^ 1;
assert(r, 0, "1 ^ 1 === 0");
r = ~1;
assert(r, -2, "~1 === -2");
r = !1;
assert(r, false, "!1 === false");
assert((1 < 2), true, "(1 < 2) === true");
assert((2 > 1), true, "(2 > 1) === true");
assert(('b' > 'a'), true, "('b' > 'a') === true");
assert(2 ** 8, 256, "2 ** 8 === 256");
}
function test_cvt()
{
assert((NaN | 0) === 0);
assert((Infinity | 0) === 0);
assert(((-Infinity) | 0) === 0);
assert(("12345" | 0) === 12345);
assert(("0x12345" | 0) === 0x12345);
assert(((4294967296 * 3 - 4) | 0) === -4);
assert(("12345" >>> 0) === 12345);
assert(("0x12345" >>> 0) === 0x12345);
assert((NaN >>> 0) === 0);
assert((Infinity >>> 0) === 0);
assert(((-Infinity) >>> 0) === 0);
assert(((4294967296 * 3 - 4) >>> 0) === (4294967296 - 4));
assert((19686109595169230000).toString() === "19686109595169230000");
}
function test_eq()
{
assert(null == undefined);
assert(undefined == null);
assert(true == 1);
assert(0 == false);
assert("" == 0);
assert("123" == 123);
assert("122" != 123);
assert((new Number(1)) == 1);
assert(2 == (new Number(2)));
assert((new String("abc")) == "abc");
assert({} != "abc");
}
function test_inc_dec()
{
var a, r;
a = 1;
r = a++;
assert(r === 1 && a === 2, true, "++");
a = 1;
r = ++a;
assert(r === 2 && a === 2, true, "++");
a = 1;
r = a--;
assert(r === 1 && a === 0, true, "--");
a = 1;
r = --a;
assert(r === 0 && a === 0, true, "--");
a = {x:true};
a.x++;
assert(a.x, 2, "++");
a = {x:true};
a.x--;
assert(a.x, 0, "--");
a = [true];
a[0]++;
assert(a[0], 2, "++");
a = {x:true};
r = a.x++;
assert(r === 1 && a.x === 2, true, "++");
a = {x:true};
r = a.x--;
assert(r === 1 && a.x === 0, true, "--");
a = [true];
r = a[0]++;
assert(r === 1 && a[0] === 2, true, "++");
a = [true];
r = a[0]--;
assert(r === 1 && a[0] === 0, true, "--");
}
function F(x)
{
this.x = x;
}
function test_op2()
{
var a, b;
a = new Object;
a.x = 1;
assert(a.x, 1, "new");
b = new F(2);
assert(b.x, 2, "new");
a = {x : 2};
assert(("x" in a), true, "in");
assert(("y" in a), false, "in");
a = {};
assert((a instanceof Object), true, "instanceof");
assert((a instanceof String), false, "instanceof");
assert((typeof 1), "number", "typeof");
assert((typeof Object), "function", "typeof");
assert((typeof null), "object", "typeof");
assert((typeof unknown_var), "undefined", "typeof");
a = {x: 1, if: 2, async: 3};
assert(a.if === 2);
assert(a.async === 3);
}
function test_delete()
{
var a, err;
a = {x: 1, y: 1};
assert((delete a.x), true, "delete");
assert(("x" in a), false, "delete");
/* the following are not tested by test262 */
assert(delete "abc"[100], true);
err = false;
try {
delete null.a;
} catch(e) {
err = (e instanceof TypeError);
}
assert(err, true, "delete");
err = false;
try {
a = { f() { delete super.a; } };
a.f();
} catch(e) {
err = (e instanceof ReferenceError);
}
assert(err, true, "delete");
}
function test_prototype()
{
var f = function f() { };
assert(f.prototype.constructor, f, "prototype");
var g = function g() { };
/* QuickJS bug */
Object.defineProperty(g, "prototype", { writable: false });
assert(g.prototype.constructor, g, "prototype");
}
function test_arguments()
{
function f2() {
assert(arguments.length, 2, "arguments");
assert(arguments[0], 1, "arguments");
assert(arguments[1], 3, "arguments");
}
f2(1, 3);
}
function test_class()
{
var o;
class C {
constructor() {
this.x = 10;
}
f() {
return 1;
}
static F() {
return -1;
}
get y() {
return 12;
}
};
class D extends C {
constructor() {
super();
this.z = 20;
}
g() {
return 2;
}
static G() {
return -2;
}
h() {
return super.f();
}
static H() {
return super["F"]();
}
}
assert(C.F() === -1);
assert(Object.getOwnPropertyDescriptor(C.prototype, "y").get.name === "get y");
o = new C();
assert(o.f() === 1);
assert(o.x === 10);
assert(D.F() === -1);
assert(D.G() === -2);
assert(D.H() === -1);
o = new D();
assert(o.f() === 1);
assert(o.g() === 2);
assert(o.x === 10);
assert(o.z === 20);
assert(o.h() === 1);
/* test class name scope */
var E1 = class E { static F() { return E; } };
assert(E1 === E1.F());
class S {
static x = 42;
static y = S.x;
static z = this.x;
}
assert(S.x === 42);
assert(S.y === 42);
assert(S.z === 42);
};
function test_template()
{
var a, b;
b = 123;
a = `abc${b}d`;
assert(a, "abc123d");
a = String.raw `abc${b}d`;
assert(a, "abc123d");
a = "aaa";
b = "bbb";
assert(`aaa${a, b}ccc`, "aaabbbccc");
}
function test_template_skip()
{
var a = "Bar";
var { b = `${a + `a${a}` }baz` } = {};
assert(b, "BaraBarbaz");
}
function test_object_literal()
{
var x = 0, get = 1, set = 2; async = 3;
a = { get: 2, set: 3, async: 4 };
assert(JSON.stringify(a), '{"get":2,"set":3,"async":4}');
a = { x, get, set, async };
assert(JSON.stringify(a), '{"x":0,"get":1,"set":2,"async":3}');
}
function test_regexp_skip()
{
var a, b;
[a, b = /abc\(/] = [1];
assert(a === 1);
[a, b =/abc\(/] = [2];
assert(a === 2);
}
function test_labels()
{
do x: { break x; } while(0);
if (1)
x: { break x; }
else
x: { break x; }
with ({}) x: { break x; };
while (0) x: { break x; };
}
function test_destructuring()
{
function * g () { return 0; };
var [x] = g();
assert(x, void 0);
}
function test_spread()
{
var x;
x = [1, 2, ...[3, 4]];
assert(x.toString(), "1,2,3,4");
x = [ ...[ , ] ];
assert(Object.getOwnPropertyNames(x).toString(), "0,length");
}
function test_function_length()
{
assert( ((a, b = 1, c) => {}).length, 1);
assert( (([a,b]) => {}).length, 1);
assert( (({a,b}) => {}).length, 1);
assert( ((c, [a,b] = 1, d) => {}).length, 1);
}
function test_argument_scope()
{
var f;
var c = "global";
f = function(a = eval("var arguments")) {};
assert_throws(SyntaxError, f);
f = function(a = eval("1"), b = arguments[0]) { return b; };
assert(f(12), 12);
f = function(a, b = arguments[0]) { return b; };
assert(f(12), 12);
f = function(a, b = () => arguments) { return b; };
assert(f(12)()[0], 12);
f = function(a = eval("1"), b = () => arguments) { return b; };
assert(f(12)()[0], 12);
(function() {
"use strict";
f = function(a = this) { return a; };
assert(f.call(123), 123);
f = function f(a = f) { return a; };
assert(f(), f);
f = function f(a = eval("f")) { return a; };
assert(f(), f);
})();
f = (a = eval("var c = 1"), probe = () => c) => {
var c = 2;
assert(c, 2);
assert(probe(), 1);
}
f();
f = (a = eval("var arguments = 1"), probe = () => arguments) => {
var arguments = 2;
assert(arguments, 2);
assert(probe(), 1);
}
f();
f = function f(a = eval("var c = 1"), b = c, probe = () => c) {
assert(b, 1);
assert(c, 1);
assert(probe(), 1)
}
f();
assert(c, "global");
f = function f(a, b = c, probe = () => c) {
eval("var c = 1");
assert(c, 1);
assert(b, "global");
assert(probe(), "global")
}
f();
assert(c, "global");
f = function f(a = eval("var c = 1"), probe = (d = eval("c")) => d) {
assert(probe(), 1)
}
f();
}
function test_function_expr_name()
{
var f;
/* non strict mode test : assignment to the function name silently
fails */
f = function myfunc() {
myfunc = 1;
return myfunc;
};
assert(f(), f);
f = function myfunc() {
myfunc = 1;
(() => {
myfunc = 1;
})();
return myfunc;
};
assert(f(), f);
f = function myfunc() {
eval("myfunc = 1");
return myfunc;
};
assert(f(), f);
/* strict mode test : assignment to the function name raises a
TypeError exception */
f = function myfunc() {
"use strict";
myfunc = 1;
};
assert_throws(TypeError, f);
f = function myfunc() {
"use strict";
(() => {
myfunc = 1;
})();
};
assert_throws(TypeError, f);
f = function myfunc() {
"use strict";
eval("myfunc = 1");
};
assert_throws(TypeError, f);
}
function test_parse_semicolon()
{
/* 'yield' or 'await' may not be considered as a token if the
previous ';' is missing */
function *f()
{
function func() {
}
yield 1;
var h = x => x + 1
yield 2;
}
async function g()
{
function func() {
}
await 1;
var h = x => x + 1
await 2;
}
}
/* optional chaining tests not present in test262 */
function test_optional_chaining()
{
var a, z;
z = null;
a = { b: { c: 2 } };
assert(delete z?.b.c, true);
assert(delete a?.b.c, true);
assert(JSON.stringify(a), '{"b":{}}', "optional chaining delete");
a = { b: { c: 2 } };
assert(delete z?.b["c"], true);
assert(delete a?.b["c"], true);
assert(JSON.stringify(a), '{"b":{}}');
a = {
b() { return this._b; },
_b: { c: 42 }
};
assert((a?.b)().c, 42);
assert((a?.["b"])().c, 42);
}
test_op1();
test_cvt();
test_eq();
test_inc_dec();
test_op2();
test_delete();
test_prototype();
test_arguments();
test_class();
test_template();
test_template_skip();
test_object_literal();
test_regexp_skip();
test_labels();
test_destructuring();
test_spread();
test_function_length();
test_argument_scope();
test_function_expr_name();
test_parse_semicolon();
test_optional_chaining();

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@ -1,392 +0,0 @@
function assert(actual, expected, message) {
if (arguments.length == 1)
expected = true;
if (actual === expected)
return;
if (actual !== null && expected !== null
&& typeof actual == 'object' && typeof expected == 'object'
&& actual.toString() === expected.toString())
return;
throw Error("assertion failed: got |" + actual + "|" +
", expected |" + expected + "|" +
(message ? " (" + message + ")" : ""));
}
// load more elaborate version of assert if available
try { __loadScript("test_assert.js"); } catch(e) {}
/*----------------*/
function test_while()
{
var i, c;
i = 0;
c = 0;
while (i < 3) {
c++;
i++;
}
assert(c === 3);
}
function test_while_break()
{
var i, c;
i = 0;
c = 0;
while (i < 3) {
c++;
if (i == 1)
break;
i++;
}
assert(c === 2 && i === 1);
}
function test_do_while()
{
var i, c;
i = 0;
c = 0;
do {
c++;
i++;
} while (i < 3);
assert(c === 3 && i === 3);
}
function test_for()
{
var i, c;
c = 0;
for(i = 0; i < 3; i++) {
c++;
}
assert(c === 3 && i === 3);
c = 0;
for(var j = 0; j < 3; j++) {
c++;
}
assert(c === 3 && j === 3);
}
function test_for_in()
{
var i, tab, a, b;
tab = [];
for(i in {x:1, y: 2}) {
tab.push(i);
}
assert(tab.toString(), "x,y", "for_in");
/* prototype chain test */
a = {x:2, y: 2, "1": 3};
b = {"4" : 3 };
Object.setPrototypeOf(a, b);
tab = [];
for(i in a) {
tab.push(i);
}
assert(tab.toString(), "1,x,y,4", "for_in");
/* non enumerable properties hide enumerables ones in the
prototype chain */
a = {y: 2, "1": 3};
Object.defineProperty(a, "x", { value: 1 });
b = {"x" : 3 };
Object.setPrototypeOf(a, b);
tab = [];
for(i in a) {
tab.push(i);
}
assert(tab.toString(), "1,y", "for_in");
/* array optimization */
a = [];
for(i = 0; i < 10; i++)
a.push(i);
tab = [];
for(i in a) {
tab.push(i);
}
assert(tab.toString(), "0,1,2,3,4,5,6,7,8,9", "for_in");
/* iterate with a field */
a={x:0};
tab = [];
for(a.x in {x:1, y: 2}) {
tab.push(a.x);
}
assert(tab.toString(), "x,y", "for_in");
/* iterate with a variable field */
a=[0];
tab = [];
for(a[0] in {x:1, y: 2}) {
tab.push(a[0]);
}
assert(tab.toString(), "x,y", "for_in");
/* variable definition in the for in */
tab = [];
for(var j in {x:1, y: 2}) {
tab.push(j);
}
assert(tab.toString(), "x,y", "for_in");
/* variable assigment in the for in */
tab = [];
for(var k = 2 in {x:1, y: 2}) {
tab.push(k);
}
assert(tab.toString(), "x,y", "for_in");
}
function test_for_in2()
{
var i;
tab = [];
for(i in {x:1, y: 2, z:3}) {
if (i === "y")
continue;
tab.push(i);
}
assert(tab.toString() == "x,z");
tab = [];
for(i in {x:1, y: 2, z:3}) {
if (i === "z")
break;
tab.push(i);
}
assert(tab.toString() == "x,y");
}
function test_for_in_proxy() {
let removed_key = "";
let target = {}
let proxy = new Proxy(target, {
ownKeys: function() {
return ["a", "b", "c"];
},
getOwnPropertyDescriptor: function(target, key) {
if (removed_key != "" && key == removed_key)
return undefined;
else
return { enumerable: true, configurable: true, value: this[key] };
}
});
let str = "";
for(let o in proxy) {
str += " " + o;
if (o == "a")
removed_key = "b";
}
assert(str == " a c");
}
function test_for_break()
{
var i, c;
c = 0;
L1: for(i = 0; i < 3; i++) {
c++;
if (i == 0)
continue;
while (1) {
break L1;
}
}
assert(c === 2 && i === 1);
}
function test_switch1()
{
var i, a, s;
s = "";
for(i = 0; i < 3; i++) {
a = "?";
switch(i) {
case 0:
a = "a";
break;
case 1:
a = "b";
break;
default:
a = "c";
break;
}
s += a;
}
assert(s === "abc" && i === 3);
}
function test_switch2()
{
var i, a, s;
s = "";
for(i = 0; i < 4; i++) {
a = "?";
switch(i) {
case 0:
a = "a";
break;
case 1:
a = "b";
break;
case 2:
continue;
default:
a = "" + i;
break;
}
s += a;
}
assert(s === "ab3" && i === 4);
}
function test_try_catch1()
{
try {
throw "hello";
} catch (e) {
assert(e, "hello", "catch");
return;
}
assert(false, "catch");
}
function test_try_catch2()
{
var a;
try {
a = 1;
} catch (e) {
a = 2;
}
assert(a, 1, "catch");
}
function test_try_catch3()
{
var s;
s = "";
try {
s += "t";
} catch (e) {
s += "c";
} finally {
s += "f";
}
assert(s, "tf", "catch");
}
function test_try_catch4()
{
var s;
s = "";
try {
s += "t";
throw "c";
} catch (e) {
s += e;
} finally {
s += "f";
}
assert(s, "tcf", "catch");
}
function test_try_catch5()
{
var s;
s = "";
for(;;) {
try {
s += "t";
break;
s += "b";
} finally {
s += "f";
}
}
assert(s, "tf", "catch");
}
function test_try_catch6()
{
function f() {
try {
s += 't';
return 1;
} finally {
s += "f";
}
}
var s = "";
assert(f() === 1);
assert(s, "tf", "catch6");
}
function test_try_catch7()
{
var s;
s = "";
try {
try {
s += "t";
throw "a";
} finally {
s += "f";
}
} catch(e) {
s += e;
} finally {
s += "g";
}
assert(s, "tfag", "catch");
}
function test_try_catch8()
{
var i, s;
s = "";
for(var i in {x:1, y:2}) {
try {
s += i;
throw "a";
} catch (e) {
s += e;
} finally {
s += "f";
}
}
assert(s === "xafyaf");
}
test_while();
test_while_break();
test_do_while();
test_for();
test_for_break();
test_switch1();
test_switch2();
test_for_in();
test_for_in2();
test_for_in_proxy();
test_try_catch1();
test_try_catch2();
test_try_catch3();
test_try_catch4();
test_try_catch5();
test_try_catch6();
test_try_catch7();
test_try_catch8();

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@ -1,207 +0,0 @@
"use strict";
function assert(actual, expected, message) {
if (arguments.length == 1)
expected = true;
if (actual === expected)
return;
if (actual !== null && expected !== null
&& typeof actual == 'object' && typeof expected == 'object'
&& actual.toString() === expected.toString())
return;
throw Error("assertion failed: got |" + actual + "|" +
", expected |" + expected + "|" +
(message ? " (" + message + ")" : ""));
}
/* operators overloading with Operators.create() */
function test_operators_create() {
class Vec2
{
constructor(x, y) {
this.x = x;
this.y = y;
}
static mul_scalar(p1, a) {
var r = new Vec2();
r.x = p1.x * a;
r.y = p1.y * a;
return r;
}
toString() {
return "Vec2(" + this.x + "," + this.y + ")";
}
}
Vec2.prototype[Symbol.operatorSet] = Operators.create(
{
"+"(p1, p2) {
var r = new Vec2();
r.x = p1.x + p2.x;
r.y = p1.y + p2.y;
return r;
},
"-"(p1, p2) {
var r = new Vec2();
r.x = p1.x - p2.x;
r.y = p1.y - p2.y;
return r;
},
"=="(a, b) {
return a.x == b.x && a.y == b.y;
},
"<"(a, b) {
var r;
/* lexicographic order */
if (a.x == b.x)
r = (a.y < b.y);
else
r = (a.x < b.x);
return r;
},
"++"(a) {
var r = new Vec2();
r.x = a.x + 1;
r.y = a.y + 1;
return r;
}
},
{
left: Number,
"*"(a, b) {
return Vec2.mul_scalar(b, a);
}
},
{
right: Number,
"*"(a, b) {
return Vec2.mul_scalar(a, b);
}
});
var a = new Vec2(1, 2);
var b = new Vec2(3, 4);
var r;
r = a * 2 + 3 * b;
assert(r.x === 11 && r.y === 16);
assert(a == a, true);
assert(a == b, false);
assert(a != a, false);
assert(a < b, true);
assert(a <= b, true);
assert(b < a, false);
assert(b <= a, false);
assert(a <= a, true);
assert(a >= a, true);
a++;
assert(a.x === 2 && a.y === 3);
r = ++a;
assert(a.x === 3 && a.y === 4);
assert(r === a);
}
/* operators overloading thru inheritance */
function test_operators()
{
var Vec2;
function mul_scalar(p1, a) {
var r = new Vec2();
r.x = p1.x * a;
r.y = p1.y * a;
return r;
}
var vec2_ops = Operators({
"+"(p1, p2) {
var r = new Vec2();
r.x = p1.x + p2.x;
r.y = p1.y + p2.y;
return r;
},
"-"(p1, p2) {
var r = new Vec2();
r.x = p1.x - p2.x;
r.y = p1.y - p2.y;
return r;
},
"=="(a, b) {
return a.x == b.x && a.y == b.y;
},
"<"(a, b) {
var r;
/* lexicographic order */
if (a.x == b.x)
r = (a.y < b.y);
else
r = (a.x < b.x);
return r;
},
"++"(a) {
var r = new Vec2();
r.x = a.x + 1;
r.y = a.y + 1;
return r;
}
},
{
left: Number,
"*"(a, b) {
return mul_scalar(b, a);
}
},
{
right: Number,
"*"(a, b) {
return mul_scalar(a, b);
}
});
Vec2 = class Vec2 extends vec2_ops
{
constructor(x, y) {
super();
this.x = x;
this.y = y;
}
toString() {
return "Vec2(" + this.x + "," + this.y + ")";
}
}
var a = new Vec2(1, 2);
var b = new Vec2(3, 4);
var r;
r = a * 2 + 3 * b;
assert(r.x === 11 && r.y === 16);
assert(a == a, true);
assert(a == b, false);
assert(a != a, false);
assert(a < b, true);
assert(a <= b, true);
assert(b < a, false);
assert(b <= a, false);
assert(a <= a, true);
assert(a >= a, true);
a++;
assert(a.x === 2 && a.y === 3);
r = ++a;
assert(a.x === 3 && a.y === 4);
assert(r === a);
}
function test_default_op()
{
assert(Object(1) + 2, 3);
assert(Object(1) + true, 2);
assert(-Object(1), -1);
}
test_operators_create();
test_operators();
test_default_op();

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@ -1,256 +0,0 @@
"use math";
"use strict";
function assert(actual, expected, message) {
if (arguments.length == 1)
expected = true;
if (actual === expected)
return;
if (actual !== null && expected !== null
&& typeof actual == 'object' && typeof expected == 'object'
&& actual.toString() === expected.toString())
return;
throw Error("assertion failed: got |" + actual + "|" +
", expected |" + expected + "|" +
(message ? " (" + message + ")" : ""));
}
function assertThrows(err, func)
{
var ex;
ex = false;
try {
func();
} catch(e) {
ex = true;
assert(e instanceof err);
}
assert(ex, true, "exception expected");
}
// load more elaborate version of assert if available
try { __loadScript("test_assert.js"); } catch(e) {}
/*----------------*/
function pow(a, n)
{
var r, i;
r = 1;
for(i = 0; i < n; i++)
r *= a;
return r;
}
function test_integer()
{
var a, r;
a = pow(3, 100);
assert((a - 1) != a);
assert(a == 515377520732011331036461129765621272702107522001);
assert(a == 0x5a4653ca673768565b41f775d6947d55cf3813d1);
assert(Integer.isInteger(1) === true);
assert(Integer.isInteger(1.0) === false);
assert(Integer.floorLog2(0) === -1);
assert(Integer.floorLog2(7) === 2);
r = 1 << 31;
assert(r, 2147483648, "1 << 31 === 2147483648");
r = 1 << 32;
assert(r, 4294967296, "1 << 32 === 4294967296");
r = (1 << 31) < 0;
assert(r, false, "(1 << 31) < 0 === false");
assert(typeof 1 === "number");
assert(typeof 9007199254740991 === "number");
assert(typeof 9007199254740992 === "bigint");
}
function test_float()
{
assert(typeof 1.0 === "bigfloat");
assert(1 == 1.0);
assert(1 !== 1.0);
}
/* jscalc tests */
function test_modulo()
{
var i, p, a, b;
/* Euclidian modulo operator */
assert((-3) % 2 == 1);
assert(3 % (-2) == 1);
p = 101;
for(i = 1; i < p; i++) {
a = Integer.invmod(i, p);
assert(a >= 0 && a < p);
assert((i * a) % p == 1);
}
assert(Integer.isPrime(2^107-1));
assert(!Integer.isPrime((2^107-1) * (2^89-1)));
a = Integer.factor((2^89-1)*2^3*11*13^2*1009);
assert(a == [ 2,2,2,11,13,13,1009,618970019642690137449562111 ]);
}
function test_fraction()
{
assert((1/3 + 1).toString(), "4/3")
assert((2/3)^30, 1073741824/205891132094649);
assert(1/3 < 2/3);
assert(1/3 < 1);
assert(1/3 == 1.0/3);
assert(1.0/3 < 2/3);
}
function test_mod()
{
var a, b, p;
a = Mod(3, 101);
b = Mod(-1, 101);
assert((a + b) == Mod(2, 101));
assert(a ^ 100 == Mod(1, 101));
p = 2 ^ 607 - 1; /* mersenne prime */
a = Mod(3, p) ^ (p - 1);
assert(a == Mod(1, p));
}
function test_polynomial()
{
var a, b, q, r, t, i;
a = (1 + X) ^ 4;
assert(a == X^4+4*X^3+6*X^2+4*X+1);
r = (1 + X);
q = (1+X+X^2);
b = (1 - X^2);
a = q * b + r;
t = Polynomial.divrem(a, b);
assert(t[0] == q);
assert(t[1] == r);
a = 1 + 2*X + 3*X^2;
assert(a.apply(0.1) == 1.23);
a = 1-2*X^2+2*X^3;
assert(deriv(a) == (6*X^2-4*X));
assert(deriv(integ(a)) == a);
a = (X-1)*(X-2)*(X-3)*(X-4)*(X-0.1);
r = polroots(a);
for(i = 0; i < r.length; i++) {
b = abs(a.apply(r[i]));
assert(b <= 1e-13);
}
}
function test_poly_mod()
{
var a, p;
/* modulo using polynomials */
p = X^2 + X + 1;
a = PolyMod(3+X, p) ^ 10;
assert(a == PolyMod(-3725*X-18357, p));
a = PolyMod(1/X, 1+X^2);
assert(a == PolyMod(-X, X^2+1));
}
function test_rfunc()
{
var a;
a = (X+1)/((X+1)*(X-1));
assert(a == 1/(X-1));
a = (X + 2) / (X - 2);
assert(a.apply(1/3) == -7/5);
assert(deriv((X^2-X+1)/(X-1)) == (X^2-2*X)/(X^2-2*X+1));
}
function test_series()
{
var a, b;
a = 1+X+O(X^5);
b = a.inverse();
assert(b == 1-X+X^2-X^3+X^4+O(X^5));
assert(deriv(b) == -1+2*X-3*X^2+4*X^3+O(X^4));
assert(deriv(integ(b)) == b);
a = Series(1/(1-X), 5);
assert(a == 1+X+X^2+X^3+X^4+O(X^5));
b = a.apply(0.1);
assert(b == 1.1111);
assert(exp(3*X^2+O(X^10)) == 1+3*X^2+9/2*X^4+9/2*X^6+27/8*X^8+O(X^10));
assert(sin(X+O(X^6)) == X-1/6*X^3+1/120*X^5+O(X^6));
assert(cos(X+O(X^6)) == 1-1/2*X^2+1/24*X^4+O(X^6));
assert(tan(X+O(X^8)) == X+1/3*X^3+2/15*X^5+17/315*X^7+O(X^8));
assert((1+X+O(X^6))^(2+X) == 1+2*X+2*X^2+3/2*X^3+5/6*X^4+5/12*X^5+O(X^6));
}
function test_matrix()
{
var a, b, r;
a = [[1, 2],[3, 4]];
b = [3, 4];
r = a * b;
assert(r == [11, 25]);
r = (a^-1) * 2;
assert(r == [[-4, 2],[3, -1]]);
assert(norm2([1,2,3]) == 14);
assert(diag([1,2,3]) == [ [ 1, 0, 0 ], [ 0, 2, 0 ], [ 0, 0, 3 ] ]);
assert(trans(a) == [ [ 1, 3 ], [ 2, 4 ] ]);
assert(trans([1,2,3]) == [[1,2,3]]);
assert(trace(a) == 5);
assert(charpoly(Matrix.hilbert(4)) == X^4-176/105*X^3+3341/12600*X^2-41/23625*X+1/6048000);
assert(det(Matrix.hilbert(4)) == 1/6048000);
a = [[1,2,1],[-2,-3,1],[3,5,0]];
assert(rank(a) == 2);
assert(ker(a) == [ [ 5 ], [ -3 ], [ 1 ] ]);
assert(dp([1, 2, 3], [3, -4, -7]) === -26);
assert(cp([1, 2, 3], [3, -4, -7]) == [ -2, 16, -10 ]);
}
function assert_eq(a, ref)
{
assert(abs(a / ref - 1.0) <= 1e-15);
}
function test_trig()
{
assert_eq(sin(1/2), 0.479425538604203);
assert_eq(sin(2+3*I), 9.154499146911428-4.168906959966565*I);
assert_eq(cos(2+3*I), -4.189625690968807-9.109227893755337*I);
assert_eq((2+0.5*I)^(1.1-0.5*I), 2.494363021357619-0.23076804554558092*I);
assert_eq(sqrt(2*I), 1 + I);
}
test_integer();
test_float();
test_modulo();
test_fraction();
test_mod();
test_polynomial();
test_poly_mod();
test_rfunc();
test_series();
test_matrix();
test_trig();

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@ -1,304 +0,0 @@
#! (shebang test)
import * as std from "std";
import * as os from "os";
function assert(actual, expected, message) {
if (arguments.length == 1)
expected = true;
if (actual === expected)
return;
if (actual !== null && expected !== null
&& typeof actual == 'object' && typeof expected == 'object'
&& actual.toString() === expected.toString())
return;
throw Error("assertion failed: got |" + actual + "|" +
", expected |" + expected + "|" +
(message ? " (" + message + ")" : ""));
}
// load more elaborate version of assert if available
try { std.loadScript("test_assert.js"); } catch(e) {}
/*----------------*/
function test_printf()
{
assert(std.sprintf("a=%d s=%s", 123, "abc"), "a=123 s=abc");
assert(std.sprintf("%010d", 123), "0000000123");
assert(std.sprintf("%x", -2), "fffffffe");
assert(std.sprintf("%lx", -2), "fffffffffffffffe");
assert(std.sprintf("%10.1f", 2.1), " 2.1");
assert(std.sprintf("%*.*f", 10, 2, -2.13), " -2.13");
assert(std.sprintf("%#lx", 0x7fffffffffffffffn), "0x7fffffffffffffff");
}
function test_file1()
{
var f, len, str, size, buf, ret, i, str1;
f = std.tmpfile();
str = "hello world\n";
f.puts(str);
f.seek(0, std.SEEK_SET);
str1 = f.readAsString();
assert(str1 === str);
f.seek(0, std.SEEK_END);
size = f.tell();
assert(size === str.length);
f.seek(0, std.SEEK_SET);
buf = new Uint8Array(size);
ret = f.read(buf.buffer, 0, size);
assert(ret === size);
for(i = 0; i < size; i++)
assert(buf[i] === str.charCodeAt(i));
f.close();
}
function test_file2()
{
var f, str, i, size;
f = std.tmpfile();
str = "hello world\n";
size = str.length;
for(i = 0; i < size; i++)
f.putByte(str.charCodeAt(i));
f.seek(0, std.SEEK_SET);
for(i = 0; i < size; i++) {
assert(str.charCodeAt(i) === f.getByte());
}
assert(f.getByte() === -1);
f.close();
}
function test_getline()
{
var f, line, line_count, lines, i;
lines = ["hello world", "line 1", "line 2" ];
f = std.tmpfile();
for(i = 0; i < lines.length; i++) {
f.puts(lines[i], "\n");
}
f.seek(0, std.SEEK_SET);
assert(!f.eof());
line_count = 0;
for(;;) {
line = f.getline();
if (line === null)
break;
assert(line == lines[line_count]);
line_count++;
}
assert(f.eof());
assert(line_count === lines.length);
f.close();
}
function test_popen()
{
var str, f, fname = "tmp_file.txt";
var content = "hello world";
f = std.open(fname, "w");
f.puts(content);
f.close();
/* test loadFile */
assert(std.loadFile(fname), content);
/* execute the 'cat' shell command */
f = std.popen("cat " + fname, "r");
str = f.readAsString();
f.close();
assert(str, content);
os.remove(fname);
}
function test_ext_json()
{
var expected, input, obj;
expected = '{"x":false,"y":true,"z2":null,"a":[1,8,160],"s":"str"}';
input = `{ "x":false, /*comments are allowed */
"y":true, // also a comment
z2:null, // unquoted property names
"a":[+1,0o10,0xa0,], // plus prefix, octal, hexadecimal
"s":"str",} // trailing comma in objects and arrays
`;
obj = std.parseExtJSON(input);
assert(JSON.stringify(obj), expected);
}
function test_os()
{
var fd, fpath, fname, fdir, buf, buf2, i, files, err, fdate, st, link_path;
assert(os.isatty(0));
fdir = "test_tmp_dir";
fname = "tmp_file.txt";
fpath = fdir + "/" + fname;
link_path = fdir + "/test_link";
os.remove(link_path);
os.remove(fpath);
os.remove(fdir);
err = os.mkdir(fdir, 0o755);
assert(err === 0);
fd = os.open(fpath, os.O_RDWR | os.O_CREAT | os.O_TRUNC);
assert(fd >= 0);
buf = new Uint8Array(10);
for(i = 0; i < buf.length; i++)
buf[i] = i;
assert(os.write(fd, buf.buffer, 0, buf.length) === buf.length);
assert(os.seek(fd, 0, std.SEEK_SET) === 0);
buf2 = new Uint8Array(buf.length);
assert(os.read(fd, buf2.buffer, 0, buf2.length) === buf2.length);
for(i = 0; i < buf.length; i++)
assert(buf[i] == buf2[i]);
if (typeof BigInt !== "undefined") {
assert(os.seek(fd, BigInt(6), std.SEEK_SET), BigInt(6));
assert(os.read(fd, buf2.buffer, 0, 1) === 1);
assert(buf[6] == buf2[0]);
}
assert(os.close(fd) === 0);
[files, err] = os.readdir(fdir);
assert(err, 0);
assert(files.indexOf(fname) >= 0);
fdate = 10000;
err = os.utimes(fpath, fdate, fdate);
assert(err, 0);
[st, err] = os.stat(fpath);
assert(err, 0);
assert(st.mode & os.S_IFMT, os.S_IFREG);
assert(st.mtime, fdate);
err = os.symlink(fname, link_path);
assert(err === 0);
[st, err] = os.lstat(link_path);
assert(err, 0);
assert(st.mode & os.S_IFMT, os.S_IFLNK);
[buf, err] = os.readlink(link_path);
assert(err, 0);
assert(buf, fname);
assert(os.remove(link_path) === 0);
[buf, err] = os.getcwd();
assert(err, 0);
[buf2, err] = os.realpath(".");
assert(err, 0);
assert(buf, buf2);
assert(os.remove(fpath) === 0);
fd = os.open(fpath, os.O_RDONLY);
assert(fd < 0);
assert(os.remove(fdir) === 0);
}
function test_os_exec()
{
var ret, fds, pid, f, status;
ret = os.exec(["true"]);
assert(ret, 0);
ret = os.exec(["/bin/sh", "-c", "exit 1"], { usePath: false });
assert(ret, 1);
fds = os.pipe();
pid = os.exec(["sh", "-c", "echo $FOO"], {
stdout: fds[1],
block: false,
env: { FOO: "hello" },
} );
assert(pid >= 0);
os.close(fds[1]); /* close the write end (as it is only in the child) */
f = std.fdopen(fds[0], "r");
assert(f.getline(), "hello");
assert(f.getline(), null);
f.close();
[ret, status] = os.waitpid(pid, 0);
assert(ret, pid);
assert(status & 0x7f, 0); /* exited */
assert(status >> 8, 0); /* exit code */
pid = os.exec(["cat"], { block: false } );
assert(pid >= 0);
os.kill(pid, os.SIGQUIT);
[ret, status] = os.waitpid(pid, 0);
assert(ret, pid);
assert(status & 0x7f, os.SIGQUIT);
}
function test_timer()
{
var th, i;
/* just test that a timer can be inserted and removed */
th = [];
for(i = 0; i < 3; i++)
th[i] = os.setTimeout(function () { }, 1000);
for(i = 0; i < 3; i++)
os.clearTimeout(th[i]);
}
/* test closure variable handling when freeing asynchronous
function */
function test_async_gc()
{
(async function run () {
let obj = {}
let done = () => {
obj
std.gc();
}
Promise.resolve().then(done)
const p = new Promise(() => {})
await p
})();
}
test_printf();
test_file1();
test_file2();
test_getline();
test_popen();
test_os();
test_os_exec();
test_timer();
test_ext_json();
test_async_gc();

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@ -1,62 +0,0 @@
/* os.Worker API test */
import * as std from "std";
import * as os from "os";
function assert(actual, expected, message) {
if (arguments.length == 1)
expected = true;
if (actual === expected)
return;
if (actual !== null && expected !== null
&& typeof actual == 'object' && typeof expected == 'object'
&& actual.toString() === expected.toString())
return;
throw Error("assertion failed: got |" + actual + "|" +
", expected |" + expected + "|" +
(message ? " (" + message + ")" : ""));
}
var worker;
function test_worker()
{
var counter;
worker = new os.Worker("./test_worker_module.js");
counter = 0;
worker.onmessage = function (e) {
var ev = e.data;
// print("recv", JSON.stringify(ev));
switch(ev.type) {
case "num":
assert(ev.num, counter);
counter++;
if (counter == 10) {
/* test SharedArrayBuffer modification */
let sab = new SharedArrayBuffer(10);
let buf = new Uint8Array(sab);
worker.postMessage({ type: "sab", buf: buf });
}
break;
case "sab_done":
{
let buf = ev.buf;
/* check that the SharedArrayBuffer was modified */
assert(buf[2], 10);
worker.postMessage({ type: "abort" });
}
break;
case "done":
/* terminate */
worker.onmessage = null;
break;
}
};
}
test_worker();

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@ -1,32 +0,0 @@
/* Worker code for test_worker.js */
import * as std from "std";
import * as os from "os";
var parent = os.Worker.parent;
function handle_msg(e) {
var ev = e.data;
// print("child_recv", JSON.stringify(ev));
switch(ev.type) {
case "abort":
parent.postMessage({ type: "done" });
parent.onMessage = null; /* terminate the worker */
break;
case "sab":
/* modify the SharedArrayBuffer */
ev.buf[2] = 10;
parent.postMessage({ type: "sab_done", buf: ev.buf });
break;
}
}
function worker_main() {
var i;
parent.onmessage = handle_msg;
for(i = 0; i < 10; i++) {
parent.postMessage({ type: "num", num: i });
}
}
worker_main();

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@ -1,19 +0,0 @@
#!/bin/sh
set -e
url="ftp://ftp.unicode.org/Public/15.0.0/ucd"
emoji_url="${url}/emoji/emoji-data.txt"
files="CaseFolding.txt DerivedNormalizationProps.txt PropList.txt \
SpecialCasing.txt CompositionExclusions.txt ScriptExtensions.txt \
UnicodeData.txt DerivedCoreProperties.txt NormalizationTest.txt Scripts.txt \
PropertyValueAliases.txt"
mkdir -p unicode
for f in $files; do
g="${url}/${f}"
wget $g -O unicode/$f
done
wget $emoji_url -O unicode/emoji-data.txt

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@ -1,291 +0,0 @@
#ifdef UNICODE_GENERAL_CATEGORY
DEF(Cn, "Unassigned") /* must be zero */
DEF(Lu, "Uppercase_Letter")
DEF(Ll, "Lowercase_Letter")
DEF(Lt, "Titlecase_Letter")
DEF(Lm, "Modifier_Letter")
DEF(Lo, "Other_Letter")
DEF(Mn, "Nonspacing_Mark")
DEF(Mc, "Spacing_Mark")
DEF(Me, "Enclosing_Mark")
DEF(Nd, "Decimal_Number,digit")
DEF(Nl, "Letter_Number")
DEF(No, "Other_Number")
DEF(Sm, "Math_Symbol")
DEF(Sc, "Currency_Symbol")
DEF(Sk, "Modifier_Symbol")
DEF(So, "Other_Symbol")
DEF(Pc, "Connector_Punctuation")
DEF(Pd, "Dash_Punctuation")
DEF(Ps, "Open_Punctuation")
DEF(Pe, "Close_Punctuation")
DEF(Pi, "Initial_Punctuation")
DEF(Pf, "Final_Punctuation")
DEF(Po, "Other_Punctuation")
DEF(Zs, "Space_Separator")
DEF(Zl, "Line_Separator")
DEF(Zp, "Paragraph_Separator")
DEF(Cc, "Control,cntrl")
DEF(Cf, "Format")
DEF(Cs, "Surrogate")
DEF(Co, "Private_Use")
/* synthetic properties */
DEF(LC, "Cased_Letter")
DEF(L, "Letter")
DEF(M, "Mark,Combining_Mark")
DEF(N, "Number")
DEF(S, "Symbol")
DEF(P, "Punctuation,punct")
DEF(Z, "Separator")
DEF(C, "Other")
#endif
#ifdef UNICODE_SCRIPT
/* scripts aliases names in PropertyValueAliases.txt */
DEF(Unknown, "Zzzz")
DEF(Adlam, "Adlm")
DEF(Ahom, "Ahom")
DEF(Anatolian_Hieroglyphs, "Hluw")
DEF(Arabic, "Arab")
DEF(Armenian, "Armn")
DEF(Avestan, "Avst")
DEF(Balinese, "Bali")
DEF(Bamum, "Bamu")
DEF(Bassa_Vah, "Bass")
DEF(Batak, "Batk")
DEF(Bengali, "Beng")
DEF(Bhaiksuki, "Bhks")
DEF(Bopomofo, "Bopo")
DEF(Brahmi, "Brah")
DEF(Braille, "Brai")
DEF(Buginese, "Bugi")
DEF(Buhid, "Buhd")
DEF(Canadian_Aboriginal, "Cans")
DEF(Carian, "Cari")
DEF(Caucasian_Albanian, "Aghb")
DEF(Chakma, "Cakm")
DEF(Cham, "Cham")
DEF(Cherokee, "Cher")
DEF(Chorasmian, "Chrs")
DEF(Common, "Zyyy")
DEF(Coptic, "Copt,Qaac")
DEF(Cuneiform, "Xsux")
DEF(Cypriot, "Cprt")
DEF(Cyrillic, "Cyrl")
DEF(Cypro_Minoan, "Cpmn")
DEF(Deseret, "Dsrt")
DEF(Devanagari, "Deva")
DEF(Dives_Akuru, "Diak")
DEF(Dogra, "Dogr")
DEF(Duployan, "Dupl")
DEF(Egyptian_Hieroglyphs, "Egyp")
DEF(Elbasan, "Elba")
DEF(Elymaic, "Elym")
DEF(Ethiopic, "Ethi")
DEF(Georgian, "Geor")
DEF(Glagolitic, "Glag")
DEF(Gothic, "Goth")
DEF(Grantha, "Gran")
DEF(Greek, "Grek")
DEF(Gujarati, "Gujr")
DEF(Gunjala_Gondi, "Gong")
DEF(Gurmukhi, "Guru")
DEF(Han, "Hani")
DEF(Hangul, "Hang")
DEF(Hanifi_Rohingya, "Rohg")
DEF(Hanunoo, "Hano")
DEF(Hatran, "Hatr")
DEF(Hebrew, "Hebr")
DEF(Hiragana, "Hira")
DEF(Imperial_Aramaic, "Armi")
DEF(Inherited, "Zinh,Qaai")
DEF(Inscriptional_Pahlavi, "Phli")
DEF(Inscriptional_Parthian, "Prti")
DEF(Javanese, "Java")
DEF(Kaithi, "Kthi")
DEF(Kannada, "Knda")
DEF(Katakana, "Kana")
DEF(Kawi, "Kawi")
DEF(Kayah_Li, "Kali")
DEF(Kharoshthi, "Khar")
DEF(Khmer, "Khmr")
DEF(Khojki, "Khoj")
DEF(Khitan_Small_Script, "Kits")
DEF(Khudawadi, "Sind")
DEF(Lao, "Laoo")
DEF(Latin, "Latn")
DEF(Lepcha, "Lepc")
DEF(Limbu, "Limb")
DEF(Linear_A, "Lina")
DEF(Linear_B, "Linb")
DEF(Lisu, "Lisu")
DEF(Lycian, "Lyci")
DEF(Lydian, "Lydi")
DEF(Makasar, "Maka")
DEF(Mahajani, "Mahj")
DEF(Malayalam, "Mlym")
DEF(Mandaic, "Mand")
DEF(Manichaean, "Mani")
DEF(Marchen, "Marc")
DEF(Masaram_Gondi, "Gonm")
DEF(Medefaidrin, "Medf")
DEF(Meetei_Mayek, "Mtei")
DEF(Mende_Kikakui, "Mend")
DEF(Meroitic_Cursive, "Merc")
DEF(Meroitic_Hieroglyphs, "Mero")
DEF(Miao, "Plrd")
DEF(Modi, "Modi")
DEF(Mongolian, "Mong")
DEF(Mro, "Mroo")
DEF(Multani, "Mult")
DEF(Myanmar, "Mymr")
DEF(Nabataean, "Nbat")
DEF(Nag_Mundari, "Nagm")
DEF(Nandinagari, "Nand")
DEF(New_Tai_Lue, "Talu")
DEF(Newa, "Newa")
DEF(Nko, "Nkoo")
DEF(Nushu, "Nshu")
DEF(Nyiakeng_Puachue_Hmong, "Hmnp")
DEF(Ogham, "Ogam")
DEF(Ol_Chiki, "Olck")
DEF(Old_Hungarian, "Hung")
DEF(Old_Italic, "Ital")
DEF(Old_North_Arabian, "Narb")
DEF(Old_Permic, "Perm")
DEF(Old_Persian, "Xpeo")
DEF(Old_Sogdian, "Sogo")
DEF(Old_South_Arabian, "Sarb")
DEF(Old_Turkic, "Orkh")
DEF(Old_Uyghur, "Ougr")
DEF(Oriya, "Orya")
DEF(Osage, "Osge")
DEF(Osmanya, "Osma")
DEF(Pahawh_Hmong, "Hmng")
DEF(Palmyrene, "Palm")
DEF(Pau_Cin_Hau, "Pauc")
DEF(Phags_Pa, "Phag")
DEF(Phoenician, "Phnx")
DEF(Psalter_Pahlavi, "Phlp")
DEF(Rejang, "Rjng")
DEF(Runic, "Runr")
DEF(Samaritan, "Samr")
DEF(Saurashtra, "Saur")
DEF(Sharada, "Shrd")
DEF(Shavian, "Shaw")
DEF(Siddham, "Sidd")
DEF(SignWriting, "Sgnw")
DEF(Sinhala, "Sinh")
DEF(Sogdian, "Sogd")
DEF(Sora_Sompeng, "Sora")
DEF(Soyombo, "Soyo")
DEF(Sundanese, "Sund")
DEF(Syloti_Nagri, "Sylo")
DEF(Syriac, "Syrc")
DEF(Tagalog, "Tglg")
DEF(Tagbanwa, "Tagb")
DEF(Tai_Le, "Tale")
DEF(Tai_Tham, "Lana")
DEF(Tai_Viet, "Tavt")
DEF(Takri, "Takr")
DEF(Tamil, "Taml")
DEF(Tangut, "Tang")
DEF(Telugu, "Telu")
DEF(Thaana, "Thaa")
DEF(Thai, "Thai")
DEF(Tibetan, "Tibt")
DEF(Tifinagh, "Tfng")
DEF(Tirhuta, "Tirh")
DEF(Tangsa, "Tnsa")
DEF(Toto, "Toto")
DEF(Ugaritic, "Ugar")
DEF(Vai, "Vaii")
DEF(Vithkuqi, "Vith")
DEF(Wancho, "Wcho")
DEF(Warang_Citi, "Wara")
DEF(Yezidi, "Yezi")
DEF(Yi, "Yiii")
DEF(Zanabazar_Square, "Zanb")
#endif
#ifdef UNICODE_PROP_LIST
/* Prop list not exported to regexp */
DEF(Hyphen, "")
DEF(Other_Math, "")
DEF(Other_Alphabetic, "")
DEF(Other_Lowercase, "")
DEF(Other_Uppercase, "")
DEF(Other_Grapheme_Extend, "")
DEF(Other_Default_Ignorable_Code_Point, "")
DEF(Other_ID_Start, "")
DEF(Other_ID_Continue, "")
DEF(Prepended_Concatenation_Mark, "")
/* additional computed properties for smaller tables */
DEF(ID_Continue1, "")
DEF(XID_Start1, "")
DEF(XID_Continue1, "")
DEF(Changes_When_Titlecased1, "")
DEF(Changes_When_Casefolded1, "")
DEF(Changes_When_NFKC_Casefolded1, "")
/* Prop list exported to JS */
DEF(ASCII_Hex_Digit, "AHex")
DEF(Bidi_Control, "Bidi_C")
DEF(Dash, "")
DEF(Deprecated, "Dep")
DEF(Diacritic, "Dia")
DEF(Extender, "Ext")
DEF(Hex_Digit, "Hex")
DEF(IDS_Binary_Operator, "IDSB")
DEF(IDS_Trinary_Operator, "IDST")
DEF(Ideographic, "Ideo")
DEF(Join_Control, "Join_C")
DEF(Logical_Order_Exception, "LOE")
DEF(Noncharacter_Code_Point, "NChar")
DEF(Pattern_Syntax, "Pat_Syn")
DEF(Pattern_White_Space, "Pat_WS")
DEF(Quotation_Mark, "QMark")
DEF(Radical, "")
DEF(Regional_Indicator, "RI")
DEF(Sentence_Terminal, "STerm")
DEF(Soft_Dotted, "SD")
DEF(Terminal_Punctuation, "Term")
DEF(Unified_Ideograph, "UIdeo")
DEF(Variation_Selector, "VS")
DEF(White_Space, "space")
DEF(Bidi_Mirrored, "Bidi_M")
DEF(Emoji, "")
DEF(Emoji_Component, "EComp")
DEF(Emoji_Modifier, "EMod")
DEF(Emoji_Modifier_Base, "EBase")
DEF(Emoji_Presentation, "EPres")
DEF(Extended_Pictographic, "ExtPict")
DEF(Default_Ignorable_Code_Point, "DI")
DEF(ID_Start, "IDS")
DEF(Case_Ignorable, "CI")
/* other binary properties */
DEF(ASCII,"")
DEF(Alphabetic, "Alpha")
DEF(Any, "")
DEF(Assigned,"")
DEF(Cased, "")
DEF(Changes_When_Casefolded, "CWCF")
DEF(Changes_When_Casemapped, "CWCM")
DEF(Changes_When_Lowercased, "CWL")
DEF(Changes_When_NFKC_Casefolded, "CWKCF")
DEF(Changes_When_Titlecased, "CWT")
DEF(Changes_When_Uppercased, "CWU")
DEF(Grapheme_Base, "Gr_Base")
DEF(Grapheme_Extend, "Gr_Ext")
DEF(ID_Continue, "IDC")
DEF(Lowercase, "Lower")
DEF(Math, "")
DEF(Uppercase, "Upper")
DEF(XID_Continue, "XIDC")
DEF(XID_Start, "XIDS")
/* internal tables with index */
DEF(Cased1, "")
#endif