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Open-Argon:master Open-Argon:int64_implementation Open-Argon:oop_numbers Open-Argon:master-fail
Open-Argon:test
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compare: Open-Argon:int64_implementation
Branches Tags
Open-Argon:master Open-Argon:int64_implementation Open-Argon:oop_numbers Open-Argon:master-fail
Open-Argon:test

123 Commits
master-fai ... int64_impl

Author SHA1 Message Date
William Bell
1e14c77b8e start implementing int64 use for numbers which can be representated as int64s 2025-02-19 01:33:24 +00:00
William Bell
bfdb7b6e6a start removing newNumber and number types from the code. 2024-07-11 03:55:19 +01:00
William Bell
70f2c47e4f impliement more methods to number, hopefully finishing the requirements from within the number object mostly 2024-07-11 03:17:27 +01:00
William Bell
b4a02be086 make for loops use int64 to hopefully speed up iterations 2024-07-10 12:30:06 +01:00
William Bell
14a94274c4 Refactor code to use object-oriented programming (OOP) for numbers 2024-07-10 01:47:44 +01:00
William Bell
53f7637234 begin coverting old code that uses non oop numbers to use oop numbers 2024-07-10 01:47:15 +01:00
William Bell
7c23db80d4 start moving numbers to oop 2024-07-09 14:05:21 +01:00
William Bell
3761070e82 remove typo 2024-05-30 17:03:47 +01:00
William Bell
7aadb812e4 fix delete keyword not doing anything when deleting a variable, and move length calculation to only when needed 2024-05-30 17:03:29 +01:00
William Bell
5afa0b10c7 make brackets more efficient 2024-05-30 13:08:10 +01:00
William Bell
9945e1590f add join 2024-05-30 12:49:29 +01:00
William Bell
d48b0ab7b6 add eval and potentially speed up variable access speeds when multi threading. fix bug in threading count 2024-05-30 12:46:25 +01:00
William Bell
051581c84b add copy and move functions 2024-05-30 00:25:16 +01:00
William Bell
677643eeed remove debug 2024-05-29 23:57:48 +01:00
William Bell
f0876bd5ac fix being able to run a script in a parent folder from a child folder 2024-05-29 23:15:49 +01:00
William Bell
37a3d56b5f fix broken import logic 2024-04-12 17:08:55 +01:00
William Bell
0a8952bc3b Update version number to 3.0.5 and fix code inconsistency 2024-04-12 16:14:46 +01:00
William Bell
a8fb5d4c1f fix up inconsistent error types 2024-04-09 19:22:43 +01:00
William Bell
42e12933bf fix bug which would make syntax errors inside functions display the wrong line 2024-04-09 16:19:29 +01:00
William Bell
31158dfb89 add support for version numbers and change version 2024-04-06 15:53:05 +01:00
William Bell
e8d25d231c get rid of circular imports 2024-04-06 15:48:00 +01:00
William Bell
bf15b435c2 fix json parse not throwing error when incorrect 2024-04-05 19:41:42 +02:00
William Bell
82aae37479 Update readme.md 2024-04-05 09:16:46 +02:00
William Bell
269430b025 fix trig inaccurate when given a large input 2024-03-14 12:51:51 +00:00
William Bell
23a9a443d6 add byte object 2024-03-09 15:11:56 +00:00
William Bell
fafc016ea5 remove isotope files 2024-03-04 23:22:52 +00:00
William Bell
a57d79587e increment version 2024-03-04 22:03:14 +00:00
William Bell
046ad89679 fix main being the wrong variable 2024-03-04 10:50:58 +00:00
William Bell
cf040a5209 fix comments being broken for isLine level 3 2024-03-04 00:00:34 +00:00
William Bell
efcc155e55 fix no exit function 2024-03-03 23:06:10 +00:00
William Bell
56f5fbd61a fix while loop having isLine param of 2 instead of 3 2024-02-23 23:50:44 +00:00
William Bell
7a7f785b64 Merge pull request #3 from Open-Argon/master 
parse imports with fixed paths before running all the code
 2024-02-23 21:54:01 +00:00
William Bell
b3a07d7f63 parse imports with fixed paths before running all the code 2024-02-23 21:50:53 +00:00
William Bell
7f86d345ae store known failures which are not necessarily errors 2023-11-23 14:01:09 +00:00
William Bell
4b66d23597 add get_value and fix map function 2023-11-17 11:35:05 +00:00
William Bell
c207c0668d Fix indentation and translation errors in doWrap, 
forLoop, ifStatement, and whileLoop functions.
Also fix syntax error in broken_funcCall test
file.
 2023-11-14 21:48:04 +00:00
William Bell
65c608e088 allow single line if statements 2023-11-14 20:27:17 +00:00
William Bell
8e887aeaff allow single line try catch 2023-11-14 20:24:04 +00:00
William Bell
6dee9d6874 oops, accidently left some debugging code in 2023-11-14 20:21:58 +00:00
William Bell
6295e23d1b add paster to some weird golang incorrect memory address bug 2023-11-14 20:19:24 +00:00
Ugric
140ce3d2a8 fix thread count 2023-08-12 01:01:47 +01:00
William Bell
501bbff1a2 fix do not working if not after space in shell 2023-08-10 12:05:04 +01:00
William Bell
541ff1b172 change 2023-08-08 23:28:30 +01:00
William Bell
b93ecdc4d7 add status badge 2023-08-08 23:10:14 +01:00
William Bell
8d62e4c0c1 try fix 2023-08-08 23:07:05 +01:00
William Bell
3f2c7d8f5b try new release 2023-08-08 23:00:33 +01:00
William Bell
820da24175 remove release 2023-08-08 22:33:15 +01:00
William Bell
41b716c690 fix 2023-08-08 21:18:22 +01:00
William Bell
2a801a19d8 fix release 2023-08-08 21:16:49 +01:00
William Bell
27cd520ea6 try fix build 2023-08-08 21:14:10 +01:00
William Bell
458317e193 add build_release 2023-08-08 21:12:48 +01:00
William Bell
046f569042 Create go.yml 2023-08-08 20:23:04 +01:00
William Bell
6b804f58d2 fix broken return on if statement 2023-08-08 18:58:24 +01:00
William Bell
583e28b2f7 fix do wrap bugs 2023-08-08 18:45:03 +01:00
William Bell
4020598315 update tests 2023-08-07 00:42:02 +01:00
William Bell
43ae6dd1e2 RM DS_Store 2023-08-07 00:26:33 +01:00
William Bell
0e4d057e2f rm DS_Store 2023-08-07 00:26:16 +01:00
William Bell
035df80758 fix variable unable to be assigned on the same line 2023-08-06 18:23:35 +01:00
William Bell
fc8916ce4b add license to docker 2023-08-03 20:36:35 +02:00
William Bell
488766159a fix broken time functions 2023-08-03 20:32:14 +02:00
William Bell
9bfda2fb30 Update readme.md 2023-08-03 17:23:22 +02:00
William Bell
9bfb983c2b Update readme.md 2023-08-03 17:22:29 +02:00
William Bell
590d5cbc6e Update readme.md 2023-08-03 17:21:52 +02:00
William Bell
d574529eb7 Update readme.md 2023-08-03 17:20:40 +02:00
William Bell
5e7f246933 delete MIT 2023-08-03 17:16:57 +02:00
William Bell
45e4135d82 Change to GNU General Public License v3.0 2023-08-03 17:13:17 +02:00
William Bell
e2390e8d85 add docker build commands 2023-08-03 14:40:10 +02:00
William Bell
e42a0da486 add environment variable support 2023-08-03 11:44:26 +02:00
William Bell
ee0cb1fed9 change to alpine 2023-08-03 01:42:55 +02:00
William Bell
79e4126785 add dockerfile 2023-08-03 01:31:54 +02:00
William Bell
65a7e35fb4 use isotope 2023-08-02 02:25:48 +02:00
William Bell
346c602a6c use isotope 2023-08-02 02:25:39 +02:00
William Bell
4a66d3937e test push 2023-08-02 01:43:44 +02:00
William Bell
e810810c48 test push 2023-08-02 01:41:25 +02:00
William Bell
5cea62fcb4 fix not converting to argon string 2023-08-01 17:35:40 +02:00
William Bell
bf40ff3611 fixed bug 2023-07-30 01:16:38 +02:00
William Bell
975436615d fix 2023-07-30 01:14:05 +02:00
William Bell
83346521bc try fix bug 2023-07-30 01:08:59 +02:00
William Bell
c6f13ce7a2 fix reverse on custom sort 2023-07-30 01:01:25 +02:00
William Bell
ccdf8c03ee wait for threads to complete 2023-07-30 00:43:34 +02:00
William Bell
b2bd683e08 fix broken sort function 2023-07-28 19:42:31 +02:00
William Bell
ab94c9ff65 fix quote bug 2023-07-26 20:54:37 +02:00
William Bell
7aa4a83cd1 fix broken length number 2023-07-26 15:03:45 +02:00
William Bell
32d76d1693 add fileInfo to verify not directory 2023-07-19 15:57:11 +01:00
William Bell
0f2a9b34e9 fix create map 2023-07-19 00:13:44 +01:00
William Bell
44e261bf70 fix unquote function 2023-07-19 00:05:59 +01:00
William Bell
aa21a53791 add more features 2023-07-17 20:52:42 +01:00
William Bell
425b73b681 fix minor dir bug 2023-07-16 23:28:55 +01:00
Ugric
32f810e9b0 fix for windows 2023-07-12 00:43:18 +01:00
William Bell
4d37d8d4de add * import 2023-07-10 22:18:02 +01:00
William Bell
88129528f4 fix parsing taking really long 2023-06-29 23:45:23 +01:00
William Bell
af934e0429 add readUntil 2023-06-29 00:57:52 +01:00
William Bell
9649c33217 add features to buffer 2023-06-28 00:31:56 +01:00
William Bell
2012605d2b add typeof function 2023-06-27 22:25:28 +01:00
William Bell
85e2964471 change how thread joins 2023-06-27 22:13:03 +01:00
William Bell
5bb89a86a7 add path 2023-06-25 18:24:08 +01:00
William Bell
6ff2d7c69f add client, seek, and size 2023-06-25 00:52:52 +01:00
William Bell
4ca158cc96 add buffer and byte objects, making socket read and write faster 2023-06-24 10:30:34 +01:00
William Bell
f63229c6f8 fix check if value is in array 2023-06-22 23:59:20 +01:00
William Bell
9b3f3d1555 fix not equal 2023-06-22 23:31:37 +01:00
William Bell
ef951afab5 add read bytes and contentType 2023-06-22 17:22:08 +01:00
William Bell
1d3eaf9990 add isClosed to socket 2023-06-22 11:32:33 +01:00
William Bell
1a2ad64ea4 remove println 2023-06-22 09:34:13 +01:00
William Bell
b8ceafa3c9 add built in socket lib 2023-06-22 09:27:21 +01:00
William Bell
a8cbfa66e9 fix divide by zero bug 2023-06-21 20:48:46 +01:00
William Bell
114cdec821 change back to support custom data types 2023-06-21 20:42:12 +01:00
William Bell
9fe8bcb515 convert function call to builtInCall in setvariable, and add OOP example 2023-06-21 20:36:06 +01:00
William Bell
ae08f059fb make even negative sign not allow any type 2023-06-21 08:58:13 +01:00
William Bell
6495e7f9b9 fix __Boolean__ and calcOr 2023-06-21 00:18:52 +01:00
William Bell
40a1404534 fix brainfuck.ar takes ages to parse 2023-06-21 00:07:22 +01:00
William Bell
ad3ef3b673 allow import without as 2023-06-20 23:51:23 +01:00
William Bell
3cec4a2339 fully add init map 2023-06-20 22:41:12 +01:00
Ugric
e7ab5c9b7e Merge branch 'master' of https://github.com/Open-Argon/argon-v3 2023-06-19 23:59:42 +01:00
Ugric
2ef823580d change any key to enter 2023-06-19 23:59:41 +01:00
William Bell
3bf48079d5 add colour object 2023-06-19 23:58:34 +01:00
William Bell
3f048ce645 add __dir__ function for maps 2023-06-19 12:32:51 +01:00
William Bell
dc2e62bbdb fix operations being ignored as syntax error when multiple minuses 2023-06-19 11:59:59 +01:00
William Bell
82b14f09a3 add emojis 2023-06-18 15:39:50 +01:00
Ugric
14ae68b9d1 fix operation translation taking ages 2023-06-18 01:20:21 +01:00
William Bell
63d7616053 update how powers work 2023-06-17 00:57:17 +01:00
William Bell
651830ec31 fix map __call__ 2023-06-16 10:35:06 +01:00
William Bell
3071da2e2d fix getindex and add debug 2023-06-16 10:02:16 +01:00
William Bell
ec53db45d5 add debug 2023-06-13 23:18:54 +01:00
102 changed files with 6891 additions and 1914 deletions
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.DS_Store vendored
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@@ -0,0 +1,24 @@
# workflow name
name: Generate release-artifacts
on:
release:
types:
- created
# workflow tasks
jobs:
generate:
name: Generate cross-platform builds
runs-on: ubuntu-latest
steps:
- name: Checkout the repository
uses: actions/checkout@v2
- name: Generate build files
uses: thatisuday/go-cross-build@v1
with:
platforms: 'linux/amd64, darwin/amd64, windows/amd64'
package: 'src'
name: 'argon'
compress: 'true'
dest: 'bin'

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.github/workflows/go.yml vendored Normal file
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# This workflow will build a golang project
# For more information see: https://docs.github.com/en/actions/automating-builds-and-tests/building-and-testing-go
name: Go
on:
push:
branches: [ "master" ]
pull_request:
branches: [ "master" ]
jobs:
build:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v3
- name: Install or Update CA Certificates
run: |
sudo apt update
sudo apt install -y --reinstall ca-certificates
- name: Set up Go
uses: actions/setup-go@v4
with:
go-version: '1.20'
- name: Build
run: ./build
- name: Test
run: go test -v ./src

2
.gitignore vendored
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@@ -1,2 +1,4 @@
bin
array.json
argon_modules
.DS_Store

29
Dockerfile Normal file
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# Use Alpine as the base image
FROM golang:alpine
# Install isotope
FROM ugric/isotope:latest
# Set the Current Working Directory inside the container
WORKDIR /argon
# Copy go mod and sum files
COPY go.mod go.sum ./
# Download all dependencies. Dependencies will be cached if the go.mod and go.sum files are not changed
RUN go mod download
# Copy the source from the current directory to the Working Directory inside the container
COPY ./src ./src
# Copy License
COPY LICENSE .
# Build the Go app
RUN go build -trimpath -ldflags="-s -w" -o bin/argon ./src
# make the binary executable
RUN chmod +x bin/argon
# add the binary to the path
ENV PATH="/argon/bin:${PATH}"

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LICENSE Normal file
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@@ -0,0 +1,674 @@
GNU GENERAL PUBLIC LICENSE
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reinstated, you do not qualify to receive new licenses for the same
material under section 10.
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run a copy of the Program. Ancillary propagation of a covered work
occurring solely as a consequence of using peer-to-peer transmission
to receive a copy likewise does not require acceptance. However,
nothing other than this License grants you permission to propagate or
modify any covered work. These actions infringe copyright if you do
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work thus licensed is called the contributor's "contributor version".
A contributor's "essential patent claims" are all patent claims
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hereafter acquired, that would be infringed by some manner, permitted
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then you must either (1) cause the Corresponding Source to be so
available, or (2) arrange to deprive yourself of the benefit of the
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in a country, would infringe one or more identifiable patents in that
country that you have reason to believe are valid.
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you grant is automatically extended to all recipients of the covered
work and works based on it.
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the scope of its coverage, prohibits the exercise of, or is
conditioned on the non-exercise of one or more of the rights that are
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to the third party based on the extent of your activity of conveying
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patent license (a) in connection with copies of the covered work
conveyed by you (or copies made from those copies), or (b) primarily
for and in connection with specific products or compilations that
contain the covered work, unless you entered into that arrangement,
or that patent license was granted, prior to 28 March 2007.
Nothing in this License shall be construed as excluding or limiting
any implied license or other defenses to infringement that may
otherwise be available to you under applicable patent law.
12. No Surrender of Others' Freedom.
If conditions are imposed on you (whether by court order, agreement or
otherwise) that contradict the conditions of this License, they do not
excuse you from the conditions of this License. If you cannot convey a
covered work so as to satisfy simultaneously your obligations under this
License and any other pertinent obligations, then as a consequence you may
not convey it at all. For example, if you agree to terms that obligate you
to collect a royalty for further conveying from those to whom you convey
the Program, the only way you could satisfy both those terms and this
License would be to refrain entirely from conveying the Program.
13. Use with the GNU Affero General Public License.
Notwithstanding any other provision of this License, you have
permission to link or combine any covered work with a work licensed
under version 3 of the GNU Affero General Public License into a single
combined work, and to convey the resulting work. The terms of this
License will continue to apply to the part which is the covered work,
but the special requirements of the GNU Affero General Public License,
section 13, concerning interaction through a network will apply to the
combination as such.
14. Revised Versions of this License.
The Free Software Foundation may publish revised and/or new versions of
the GNU General Public License from time to time. Such new versions will
be similar in spirit to the present version, but may differ in detail to
address new problems or concerns.
Each version is given a distinguishing version number. If the
Program specifies that a certain numbered version of the GNU General
Public License "or any later version" applies to it, you have the
option of following the terms and conditions either of that numbered
version or of any later version published by the Free Software
Foundation. If the Program does not specify a version number of the
GNU General Public License, you may choose any version ever published
by the Free Software Foundation.
If the Program specifies that a proxy can decide which future
versions of the GNU General Public License can be used, that proxy's
public statement of acceptance of a version permanently authorizes you
to choose that version for the Program.
Later license versions may give you additional or different
permissions. However, no additional obligations are imposed on any
author or copyright holder as a result of your choosing to follow a
later version.
15. Disclaimer of Warranty.
THERE IS NO WARRANTY FOR THE PROGRAM, TO THE EXTENT PERMITTED BY
APPLICABLE LAW. EXCEPT WHEN OTHERWISE STATED IN WRITING THE COPYRIGHT
HOLDERS AND/OR OTHER PARTIES PROVIDE THE PROGRAM "AS IS" WITHOUT WARRANTY
OF ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, BUT NOT LIMITED TO,
THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
PURPOSE. THE ENTIRE RISK AS TO THE QUALITY AND PERFORMANCE OF THE PROGRAM
IS WITH YOU. SHOULD THE PROGRAM PROVE DEFECTIVE, YOU ASSUME THE COST OF
ALL NECESSARY SERVICING, REPAIR OR CORRECTION.
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IN NO EVENT UNLESS REQUIRED BY APPLICABLE LAW OR AGREED TO IN WRITING
WILL ANY COPYRIGHT HOLDER, OR ANY OTHER PARTY WHO MODIFIES AND/OR CONVEYS
THE PROGRAM AS PERMITTED ABOVE, BE LIABLE TO YOU FOR DAMAGES, INCLUDING ANY
GENERAL, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES ARISING OUT OF THE
USE OR INABILITY TO USE THE PROGRAM (INCLUDING BUT NOT LIMITED TO LOSS OF
DATA OR DATA BEING RENDERED INACCURATE OR LOSSES SUSTAINED BY YOU OR THIRD
PARTIES OR A FAILURE OF THE PROGRAM TO OPERATE WITH ANY OTHER PROGRAMS),
EVEN IF SUCH HOLDER OR OTHER PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF
SUCH DAMAGES.
17. Interpretation of Sections 15 and 16.
If the disclaimer of warranty and limitation of liability provided
above cannot be given local legal effect according to their terms,
reviewing courts shall apply local law that most closely approximates
an absolute waiver of all civil liability in connection with the
Program, unless a warranty or assumption of liability accompanies a
copy of the Program in return for a fee.
END OF TERMS AND CONDITIONS
How to Apply These Terms to Your New Programs
If you develop a new program, and you want it to be of the greatest
possible use to the public, the best way to achieve this is to make it
free software which everyone can redistribute and change under these terms.
To do so, attach the following notices to the program. It is safest
to attach them to the start of each source file to most effectively
state the exclusion of warranty; and each file should have at least
the "copyright" line and a pointer to where the full notice is found.
<one line to give the program's name and a brief idea of what it does.>
Copyright (C) <year> <name of author>
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <https://www.gnu.org/licenses/>.
Also add information on how to contact you by electronic and paper mail.
If the program does terminal interaction, make it output a short
notice like this when it starts in an interactive mode:
<program> Copyright (C) <year> <name of author>
This program comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
The hypothetical commands `show w' and `show c' should show the appropriate
parts of the General Public License. Of course, your program's commands
might be different; for a GUI interface, you would use an "about box".
You should also get your employer (if you work as a programmer) or school,
if any, to sign a "copyright disclaimer" for the program, if necessary.
For more information on this, and how to apply and follow the GNU GPL, see
<https://www.gnu.org/licenses/>.
The GNU General Public License does not permit incorporating your program
into proprietary programs. If your program is a subroutine library, you
may consider it more useful to permit linking proprietary applications with
the library. If this is what you want to do, use the GNU Lesser General
Public License instead of this License. But first, please read
<https://www.gnu.org/licenses/why-not-lgpl.html>.

46
app.py
View File

@@ -1,46 +0,0 @@
def interpret(code):
memory = {}
pointer = 0
code_ptr = 0
loops = []
while code_ptr < len(code):
command = code[code_ptr]
if command == '>':
pointer += 1
elif command == '<':
pointer -= 1
elif command == '+':
if pointer not in memory:
memory[pointer] = 0
memory[pointer] += 1
elif command == '-':
if pointer not in memory:
memory[pointer] = 0
memory[pointer] -= 1
elif command == '.':
print(chr(memory.get(pointer, 0)), end='')
elif command == ',':
memory[pointer] = ord(input())
elif command == '[':
if memory.get(pointer, 0) == 0:
loop_depth = 1
while loop_depth > 0:
code_ptr += 1
if code[code_ptr] == '[':
loop_depth += 1
elif code[code_ptr] == ']':
loop_depth -= 1
else:
loops.append(code_ptr)
elif command == ']':
if memory.get(pointer, 0) != 0:
code_ptr = loops[-1]
else:
loops.pop()
code_ptr += 1
# Example usage
interpret("++++++++[>++++[>++>+++>+++>+<<<<-]>+>+>->>+[<]<-]>>.>---.+++++++..+++.>>.<-.<.+++.------.--------.>>+.>++.")
# Output: Hello World!

2
build
View File

@@ -1 +1 @@
GOOS=js GOARCH=wasm go build -o wasm/bin/argon.wasm ./src
go build -trimpath -ldflags="-s -w" -o bin/argon ./src

4
build.bat
View File

@@ -1,4 +1,2 @@
@echo off
set GOOS=js
set GOARCH=wasm
go build -o wasm/bin/argon.wasm ./src
go build -trimpath -ldflags="-s -w" -o bin/argon.exe ./src

2
debug Executable file
View File

@@ -0,0 +1,2 @@
# run the go run command passing the path to the main.go file, with the working directory set to the bin folder. pass in the arguments
__ARGON_DEBUG__=true go run ./src "$@"

6
debug.bat Normal file
View File

@@ -0,0 +1,6 @@
@echo off
:: run the go run command passing the path to the main.go file, with the working directory set to the bin folder. pass in the arguments
set __ARGON_DEBUG__=true
go run ./src %*

2
debug_build.bat Normal file
View File

@@ -0,0 +1,2 @@
@echo off
go build -o bin/debug_argon.exe ./src

1
dockerBuild Executable file
View File

@@ -0,0 +1 @@
docker build -t ugric/argon .

1
dockerPush Executable file
View File

@@ -0,0 +1 @@
docker push ugric/argon

10
go.mod
View File

@@ -7,6 +7,16 @@ require (
github.com/wadey/go-rounding v1.1.0
)
require (
github.com/chzyer/readline v1.5.1 // indirect
github.com/joho/godotenv v1.5.1 // indirect
)
require (
github.com/gabriel-vasile/mimetype v1.4.2
golang.org/x/net v0.8.0 // indirect
)
require (
github.com/jwalton/go-supportscolor v1.1.0
github.com/mattn/go-colorable v0.1.13 // indirect

9
go.sum
View File

@@ -1,5 +1,13 @@
github.com/chzyer/logex v1.2.1/go.mod h1:JLbx6lG2kDbNRFnfkgvh4eRJRPX1QCoOIWomwysCBrQ=
github.com/chzyer/readline v1.5.1 h1:upd/6fQk4src78LMRzh5vItIt361/o4uq553V8B5sGI=
github.com/chzyer/readline v1.5.1/go.mod h1:Eh+b79XXUwfKfcPLepksvw2tcLE/Ct21YObkaSkeBlk=
github.com/chzyer/test v1.0.0/go.mod h1:2JlltgoNkt4TW/z9V/IzDdFaMTM2JPIi26O1pF38GC8=
github.com/fatih/color v1.14.1 h1:qfhVLaG5s+nCROl1zJsZRxFeYrHLqWroPOQ8BWiNb4w=
github.com/fatih/color v1.14.1/go.mod h1:2oHN61fhTpgcxD3TSWCgKDiH1+x4OiDVVGH8WlgGZGg=
github.com/gabriel-vasile/mimetype v1.4.2 h1:w5qFW6JKBz9Y393Y4q372O9A7cUSequkh1Q7OhCmWKU=
github.com/gabriel-vasile/mimetype v1.4.2/go.mod h1:zApsH/mKG4w07erKIaJPFiX0Tsq9BFQgN3qGY5GnNgA=
github.com/joho/godotenv v1.5.1 h1:7eLL/+HRGLY0ldzfGMeQkb7vMd0as4CfYvUVzLqw0N0=
github.com/joho/godotenv v1.5.1/go.mod h1:f4LDr5Voq0i2e/R5DDNOoa2zzDfwtkZa6DnEwAbqwq4=
github.com/jwalton/go-supportscolor v1.1.0 h1:HsXFJdMPjRUAx8cIW6g30hVSFYaxh9yRQwEWgkAR7lQ=
github.com/jwalton/go-supportscolor v1.1.0/go.mod h1:hFVUAZV2cWg+WFFC4v8pT2X/S2qUUBYMioBD9AINXGs=
github.com/mattn/go-colorable v0.1.13 h1:fFA4WZxdEF4tXPZVKMLwD8oUnCTTo08duU7wxecdEvA=
@@ -15,6 +23,7 @@ golang.org/x/net v0.8.0 h1:Zrh2ngAOFYneWTAIAPethzeaQLuHwhuBkuV6ZiRnUaQ=
golang.org/x/net v0.8.0/go.mod h1:QVkue5JL9kW//ek3r6jTKnTFis1tRmNAW2P1shuFdJc=
golang.org/x/sys v0.0.0-20201119102817-f84b799fce68/go.mod h1:h1NjWce9XRLGQEsW7wpKNCjG9DtNlClVuFLEZdDNbEs=
golang.org/x/sys v0.0.0-20210220050731-9a76102bfb43/go.mod h1:h1NjWce9XRLGQEsW7wpKNCjG9DtNlClVuFLEZdDNbEs=
golang.org/x/sys v0.0.0-20220310020820-b874c991c1a5/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg=
golang.org/x/sys v0.0.0-20220811171246-fbc7d0a398ab/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg=
golang.org/x/sys v0.3.0 h1:w8ZOecv6NaNa/zC8944JTU3vz4u6Lagfk4RPQxv92NQ=
golang.org/x/sys v0.3.0/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg=

21
licence
View File

@@ -1,21 +0,0 @@
MIT License
Copyright (c) 2022 Open Argon
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.

2
merge
View File

@@ -1,2 +0,0 @@
git fetch upstream
git merge upstream/master master

2
merge.bat
View File

@@ -1,2 +0,0 @@
git fetch upstream
git merge upstream/master master

27
modules/csv/init.ar
View File

@@ -1,27 +0,0 @@
let read(path) = do
f = file.read(path)
text = f.text()
data = []
splitlines = text.split("\n")
for (i from 0 to splitlines.length) do
values = []
in_quotes = false
start = 0
line = splitlines[i]
for (j from 0 to line.length) do
char = line[j]
if (char == "," && not in_quotes) do
value = line[start:j].rightstrip("\r").strip()
if (value && value[0] == "\"" && value[-1] == "\"") value = value[1:value.length - 1]
value = value.replace("\"\"", "\"")
values.append(value)
start = j + 1
else if (char == "\"") in_quotes = not in_quotes
if (j == line.length - 1) do
value = line[start:j + 1].rightstrip("\r").strip()
if (value && value[0] == "\"" && value[-1] == "\"") value = value[1:value.length - 1]
value = value.replace("\"\"", "\"")
values.append(value)
data.append(values)
return data

53
modules/this.ar
View File

@@ -1,53 +0,0 @@
# The Argon Manifesto - ChatGPT
# Simple is better than complex
# Argon's design, we should respect
# Readability is key, it's plain to see
# With Argon, code clarity comes naturally
# Sparse is better than dense
# Argon's syntax, it makes sense
# No need for excess, or verbosity
# With Argon, brevity is a necessity
# Explicit is better than implicit
# Argon's logic, it's not cryptic
# Avoiding confusion, it's a must
# With Argon, understanding is a trust
# Errors should never pass silently
# Argon catches them, and does so quietly
# Graceful handling, it's what we aim to achieve
# With Argon, bugs are easier to perceive
# That which is complex, can be made simple
# Argon's power, it's in its example
# Programming, it can be a breeze
# With Argon, it's a language that's sure to please
term.log("The Argon Manifesto - ChatGPT")
term.log()
term.log("Simple is better than complex")
term.log("Argon's design, we should respect")
term.log("Readability is key, it's plain to see")
term.log("With Argon, code clarity comes naturally")
term.log()
term.log("Sparse is better than dense")
term.log("Argon's syntax, it makes sense")
term.log("No need for excess, or verbosity")
term.log("With Argon, brevity is a necessity")
term.log()
term.log("Explicit is better than implicit")
term.log("Argon's logic, it's not cryptic")
term.log("Avoiding confusion, it's a must")
term.log("With Argon, understanding is a trust")
term.log()
term.log("Errors should never pass silently")
term.log("Argon catches them, and does so quietly")
term.log("Graceful handling, it's what we aim to achieve")
term.log("With Argon, bugs are easier to perceive")
term.log()
term.log("That which is complex, can be made simple")
term.log("Argon's power, it's in its example")
term.log("Programming, it can be a breeze")
term.log("With Argon, it's a language that's sure to please")

35
readme.md
View File

@@ -2,37 +2,24 @@
<p>
<img width="150" src="logos/ArLogo.png">
</p>
<h1>Argon v3.wasm</h1>
<h1>Argon v3</h1>
</div>
### HEADS UP! 🙂
[![Go](https://github.com/Open-Argon/argon-v3/actions/workflows/go.yml/badge.svg)](https://github.com/Open-Argon/argon-v3/actions/workflows/go.yml)
Argon v3.wasm is a fork of Argon v3 which has had parts rewritten for support in WebAssembly (WASM).
It includes all the same features and functionality as Argon v3, but has been compiled to run efficiently on WebAssembly.
Please note that Argon v3.wasm can only be compiled for use with WebAssembly.
---
ARGON 3 is a math-driven programming language designed to make code easy to read and write. It's not meant to be fast, as it's interpreted. This specification should be used as a guideline, and is subject to change for later versions. Later updates for Argon 3 should be backwards compatible (where possible) with code designed for older versions of the interpreter.
ARGON 3 is a math-driven programming language designed to make code easy to read and write. It's not meant to be fast, as it's interpreted.
## 📚 Features
- Easy to read and write: Argon 3 is designed with clarity of code in mind, making it easier for you and others to read and write code.
- All numbers are stored as rational numbers, preventing precision errors.
- Math-driven: Designed for mathematical computations, Argon 3 uses techniques and rules set in maths. It's designed to be easy for mathematicians to write and understand algorithms in.
- Interpreted: Argon 3 is an interpreted language, so you don't need to compile your code before running it.
- Cross-platform: Argon 3 can be run on any platform that has an interpreter for it.
- Lightweight: The Argon 3 interpreter is small and doesn't require a lot of system resources to run.
- Easy to read and write: Argon 3 is designed with clarity of code in mind, making it easier for you and others to read and write code.
- All numbers are stored as rational numbers, preventing precision errors.
- Math-driven: Designed for mathematical computations, Argon 3 uses techniques and rules set in maths. It's designed to be easy for mathematicians to write and understand algorithms in.
- Interpreted: Argon 3 is an interpreted language, so you don't need to compile your code before running it.
- Cross-platform: Argon 3 can be run on any platform that has an interpreter for it.
## 💻 Installation
As of now, Argon 3 does not have an installer. Feel free to clone this repo and run the `build` file for your plateform. the build will be found in `bin/argon(.exe)`.
## 📖 Usage
To use Argon 3, you can create a file with the .ar extension and write your code in it. Then, you can run your code using the interpreter. For example, if you have a file called example.ar, you can run it using the following command:
```
@@ -41,7 +28,7 @@ argon example.ar
## 🔍 Specification
For a detailed specification of the Argon 3 language, please refer to [spec.md](spec.md).
For a detailed specification of the Argon 3 language, please refer to [the docs](https://argon.wbell.dev/docs/).
## 🚀 Example Code
@@ -52,10 +39,10 @@ f(x) = x^2 + 2*x + 1
term.log('f(10) =', f(10))
```
This code defines a function f(x) that calculates x^2 + 2\*x + 1. It then calls the function with an argument of 10 and logs the result to the console.
This code defines a function f(x) that calculates x^2 + 2*x + 1. It then calls the function with an argument of 10 and logs the result to the console.
Please note that this example is subject to change as the specification is in beta and may be updated frequently.
## Licence
MIT
GNU General Public License v3.0

2
run Executable file
View File

@@ -0,0 +1,2 @@
# run the go run command passing the path to the main.go file, with the working directory set to the bin folder. pass in the arguments
go run ./src "$@"

5
run.bat Normal file
View File

@@ -0,0 +1,5 @@
@echo off
:: run the go run command passing the path to the main.go file, with the working directory set to the bin folder. pass in the arguments
go run ./src %*

3
serve.bat
View File

@@ -1,3 +0,0 @@
@echo off
cd ./wasm
npx serve

9
server_test/app.ar Normal file
View File

@@ -0,0 +1,9 @@
import "http.ar" as http
let server = http.server()
let home(req,res) = do
res.send("hello world")
server.get("/",home)
server.run()

4
server_test/argon-package.json Normal file
View File

@@ -0,0 +1,4 @@
{
"name": "server-test",
"version": "1.0.0"
}

1
server_test/iso-lock.json Normal file
View File

@@ -0,0 +1 @@
[{"Name":"http.ar","Version":"1.1.6","URL":"https://isotope.wbell.dev/isotope-download?name=http.ar\u0026version=1.1.6","Remote":"isotope.wbell.dev"}]

48
src/abs.go
View File

@@ -40,38 +40,28 @@ func parseAbs(code UNPARSEcode, index int, codelines []UNPARSEcode) (any, bool,
}
func runAbs(x ABS, stack stack, stacklevel int) (any, ArErr) {
resp, err := runVal(x.body, stack, stacklevel+1)
value, err := runVal(x, stack, stacklevel+1)
if err.EXISTS {
return nil, err
}
if typeof(resp) != "number" {
return nil, ArErr{TYPE: "Runtime Error",
message: fmt.Sprintf("abs expected number, got %s", typeof(resp)),
EXISTS: true,
switch value := value.(type) {
case ArObject:
if Callable, ok := value.obj["__abs__"]; ok {
return runCall(call{
Callable: Callable,
Args: []any{},
Code: x.code,
Line: x.line,
Path: x.path,
}, stack, stacklevel)
}
}
return abs(resp.(number)), ArErr{}
return nil, ArErr{
"TypeError",
fmt.Sprint("abs() not supported on ", typeof(value)),
x.line,
x.path,
x.code,
true,
}
}
func abs(x number) number {
if x.Sign() < 0 {
return x.Neg(x)
}
return x
}
var ArAbs = builtinFunc{"abs", func(args ...any) (any, ArErr) {
if len(args) != 1 {
return nil, ArErr{TYPE: "Runtime Error",
message: fmt.Sprintf("abs expected 1 argument, got %d", len(args)),
EXISTS: true,
}
}
if typeof(args[0]) != "number" {
return nil, ArErr{TYPE: "Runtime Error",
message: fmt.Sprintf("abs expected number, got %s", typeof(args[0])),
EXISTS: true,
}
}
return abs(args[0].(number)), ArErr{}
}}

288
src/array.go
View File

@@ -23,7 +23,48 @@ func ArArray(arr []any) ArObject {
anymap{
"__name__": "array",
"__value__": arr,
"length": newNumber().SetUint64(uint64(len(arr))),
},
}
val.obj["__json__"] = builtinFunc{
"__json__",
func(args ...any) (any, ArErr) {
if len(args) != 1 {
return "", ArErr{
TYPE: "Type Error",
message: "expected 1 argument, got " + fmt.Sprint(len(args)),
EXISTS: true,
}
}
if typeof(args[0]) != "number" {
return "", ArErr{
TYPE: "Type Error",
message: "expected number, got " + typeof(args[0]),
EXISTS: true,
}
}
output := []string{}
level, err := numberToInt64(args[0].(ArObject))
if err != nil {
return "", ArErr{
TYPE: "Runtime Error",
message: err.Error(),
EXISTS: true,
}
}
for _, value := range arr {
str, err := jsonstringify(value, level+1)
if err != nil {
return "", ArErr{
TYPE: "Runtime Error",
message: err.Error(),
EXISTS: true,
}
}
output = append(output, str)
}
return "[" + strings.Join(output, ", ") + "]", ArErr{}
},
}
val.obj["__setindex__"] = builtinFunc{
@@ -31,29 +72,37 @@ func ArArray(arr []any) ArObject {
func(a ...any) (any, ArErr) {
if len(a) != 2 {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "expected 2 arguments, got " + fmt.Sprint(len(a)),
EXISTS: true,
}
}
if typeof(a[0]) != "number" {
return nil, ArErr{
TYPE: "TypeError",
message: "dex must be a number",
TYPE: "Type Error",
message: "index must be a number",
EXISTS: true,
}
}
if !a[0].(number).IsInt() {
if !isNumberInt(a[0].(ArObject)) {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "index must be an integer",
EXISTS: true,
}
}
num := int(a[0].(number).Num().Int64())
num64, err := numberToInt64(a[0].(ArObject))
if err != nil {
return nil, ArErr{
TYPE: "Runtime Error",
message: err.Error(),
EXISTS: true,
}
}
num := int(num64)
if num < 0 || num >= len(arr) {
return nil, ArErr{
TYPE: "IndexError",
TYPE: "Index Error",
message: "index out of range",
EXISTS: true,
}
@@ -68,8 +117,18 @@ func ArArray(arr []any) ArObject {
// a[0] is start
// a[1] is end
// a[2] is step
if len(a) > 3 {
return nil, ArErr{"TypeError", "expected 1 to 3 arguments, got " + fmt.Sprint(len(a)), 0, "", "", true}
if len(a) > 3 || len(a) == 0 {
return nil, ArErr{"Type Error", "expected 1 to 3 arguments, got " + fmt.Sprint(len(a)), 0, "", "", true}
}
{
if len(a) == 1 {
if typeof(a[0]) == "string" {
var name = ArValidToAny(a[0]).(string)
if name == "length" {
return Number(len(arr)), ArErr{}
}
}
}
}
var (
start int = 0
@@ -79,42 +138,67 @@ func ArArray(arr []any) ArObject {
{
if a[0] == nil {
start = 0
} else if typeof(a[0]) != "number" || !a[0].(number).IsInt() {
} else if typeof(a[0]) != "number" || !isNumberInt(a[0].(ArObject)) {
return "", ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "slice index must be an integer",
EXISTS: true,
}
} else {
start = int(a[0].(number).Num().Int64())
start64, err := numberToInt64(a[0].(ArObject))
if err != nil {
return "", ArErr{
TYPE: "Runtime Error",
message: err.Error(),
EXISTS: true,
}
}
start = int(start64)
}
}
if len(a) > 1 {
if a[1] == nil {
end = len(arr)
} else if typeof(a[1]) != "number" || !a[1].(number).IsInt() {
} else if typeof(a[1]) != "number" || !isNumberInt(a[1].(ArObject)) {
return "", ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "slice index must be an integer",
EXISTS: true,
}
} else {
end = int(a[1].(number).Num().Int64())
end64, err := numberToInt64(a[1].(ArObject))
if err != nil {
return "", ArErr{
TYPE: "Runtime Error",
message: err.Error(),
EXISTS: true,
}
}
end = int(end64)
}
}
if len(a) > 2 {
if a[2] == nil {
step = 1
} else if typeof(a[2]) != "number" || !a[2].(number).IsInt() {
} else if typeof(a[2]) != "number" || !isNumberInt(a[2].(ArObject)) {
return "", ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "slice index must be an integer",
EXISTS: true,
}
} else {
step = int(a[2].(number).Num().Int64())
step64, err := numberToInt64(a[2].(ArObject))
if err != nil {
return "", ArErr{
TYPE: "Runtime Error",
message: err.Error(),
EXISTS: true,
}
}
step = int(step64)
}
}
var ogStart = start
if start < 0 {
start = len(arr) + start
}
@@ -124,6 +208,13 @@ func ArArray(arr []any) ArObject {
if end != nil && end.(int) > len(arr) {
end = len(arr)
}
if start >= len(arr) || start < 0 {
return "", ArErr{
TYPE: "Index Error",
message: "index out of range, trying to access index " + fmt.Sprint(ogStart) + " in array of length " + fmt.Sprint(len(arr)),
EXISTS: true,
}
}
if end == nil {
return arr[start], ArErr{}
} else if step == 1 {
@@ -147,35 +238,42 @@ func ArArray(arr []any) ArObject {
func(args ...any) (any, ArErr) {
if len(args) != 1 {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "missing argument",
EXISTS: true,
}
}
if typeof(args[0]) != "number" {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "argument must be a number",
EXISTS: true,
}
}
if !args[0].(number).IsInt() {
if !isNumberInt(args[0].(ArObject)) {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "argument must be an integer",
EXISTS: true,
}
}
num := int(args[0].(number).Num().Int64())
num64, err := (numberToInt64(args[0].(ArObject)))
if err != nil {
return nil, ArErr{
TYPE: "Runtime Error",
message: err.Error(),
EXISTS: true,
}
}
num := int(num64)
if num < 0 || num >= len(arr) {
return nil, ArErr{
TYPE: "IndexError",
TYPE: "Index Error",
message: "index out of range",
EXISTS: true,
}
}
arr = append(arr[:num], arr[num+1:]...)
val.obj["length"] = newNumber().SetUint64(uint64(len(arr)))
val.obj["__value__"] = arr
return nil, ArErr{}
}}
@@ -184,13 +282,12 @@ func ArArray(arr []any) ArObject {
func(args ...any) (any, ArErr) {
if len(args) == 0 {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "missing argument",
EXISTS: true,
}
}
arr = append(arr, args...)
val.obj["length"] = newNumber().SetUint64(uint64(len(arr)))
val.obj["__value__"] = arr
return nil, ArErr{}
},
@@ -200,35 +297,42 @@ func ArArray(arr []any) ArObject {
func(args ...any) (any, ArErr) {
if len(args) < 2 {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "missing argument",
EXISTS: true,
}
}
if typeof(args[0]) != "number" {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "argument must be a number",
EXISTS: true,
}
}
if !args[0].(number).IsInt() {
if !isNumberInt(args[0].(ArObject)) {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "argument must be an integer",
EXISTS: true,
}
}
num := int(args[0].(number).Num().Int64())
num64, err := numberToInt64(args[0].(ArObject))
if err != nil {
return nil, ArErr{
TYPE: "Runtime Error",
message: err.Error(),
EXISTS: true,
}
}
num := int(num64)
if num < 0 || num > len(arr) {
return nil, ArErr{
TYPE: "IndexError",
TYPE: "Index Error",
message: "index out of range",
EXISTS: true,
}
}
arr = append(arr[:num], append(args[1:], arr[num:]...)...)
val.obj["length"] = newNumber().SetUint64(uint64(len(arr)))
val.obj["__value__"] = arr
return nil, ArErr{}
},
@@ -238,7 +342,7 @@ func ArArray(arr []any) ArObject {
func(args ...any) (any, ArErr) {
if len(args) > 1 {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "too many arguments",
EXISTS: true,
}
@@ -246,35 +350,41 @@ func ArArray(arr []any) ArObject {
if len(args) == 1 {
if typeof(args[0]) != "number" {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "argument must be a number",
EXISTS: true,
}
}
if !args[0].(number).IsInt() {
if !isNumberInt(args[0].(ArObject)) {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "argument must be an integer",
EXISTS: true,
}
}
num := int(args[0].(number).Num().Int64())
num64, err := (numberToInt64(args[0].(ArObject)))
if err != nil {
return nil, ArErr{
TYPE: "Runtime Error",
message: err.Error(),
EXISTS: true,
}
}
num := int(num64)
if num < 0 || num >= len(arr) {
return nil, ArErr{
TYPE: "IndexError",
TYPE: "Index Error",
message: "index out of range",
EXISTS: true,
}
}
v := arr[num]
arr = append(arr[:num], arr[num+1:]...)
val.obj["length"] = newNumber().SetUint64(uint64(len(arr)))
val.obj["__value__"] = arr
return v, ArErr{}
}
v := arr[len(arr)-1]
arr = arr[:len(arr)-1]
val.obj["length"] = newNumber().SetUint64(uint64(len(arr)))
val.obj["__value__"] = arr
return v, ArErr{}
},
@@ -284,13 +394,12 @@ func ArArray(arr []any) ArObject {
func(args ...any) (any, ArErr) {
if len(args) != 0 {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "too many arguments",
EXISTS: true,
}
}
arr = []any{}
val.obj["length"] = newNumber().SetUint64(uint64(len(arr)))
val.obj["__value__"] = arr
return nil, ArErr{}
},
@@ -300,20 +409,19 @@ func ArArray(arr []any) ArObject {
func(args ...any) (any, ArErr) {
if len(args) != 1 {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "missing argument",
EXISTS: true,
}
}
if typeof(args[0]) != "array" {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "argument must be an array",
EXISTS: true,
}
}
arr = append(arr, args[0].(ArObject).obj["__value__"].([]any)...)
val.obj["length"] = len(arr)
val.obj["__value__"] = arr
return nil, ArErr{}
},
@@ -323,7 +431,7 @@ func ArArray(arr []any) ArObject {
func(args ...any) (any, ArErr) {
if len(args) > 2 {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "too many arguments",
EXISTS: true,
}
@@ -332,7 +440,7 @@ func ArArray(arr []any) ArObject {
if len(args) >= 1 {
if typeof(args[0]) != "boolean" {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "argument must be a boolean",
EXISTS: true,
}
@@ -342,7 +450,7 @@ func ArArray(arr []any) ArObject {
if len(args) == 2 {
if typeof(args[1]) != "function" {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "argument must be a function",
EXISTS: true,
}
@@ -356,8 +464,12 @@ func ArArray(arr []any) ArObject {
if err.EXISTS {
return nil, err
}
if reverse {
for i, j := 0, len(output)-1; i < j; i, j = i+1, j-1 {
output[i], output[j] = output[j], output[i]
}
}
arr = output
val.obj["length"] = len(arr)
val.obj["__value__"] = arr
return nil, ArErr{}
}
@@ -373,7 +485,6 @@ func ArArray(arr []any) ArObject {
}
}
arr = output
val.obj["length"] = len(arr)
val.obj["__value__"] = arr
return nil, ArErr{}
},
@@ -383,14 +494,14 @@ func ArArray(arr []any) ArObject {
func(args ...any) (any, ArErr) {
if len(args) != 1 {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "missing argument",
EXISTS: true,
}
}
if typeof(args[0]) != "function" {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "argument must be a function",
EXISTS: true,
}
@@ -414,14 +525,14 @@ func ArArray(arr []any) ArObject {
func(args ...any) (any, ArErr) {
if len(args) != 1 {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "missing argument",
EXISTS: true,
}
}
if typeof(args[0]) != "function" {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "argument must be a function",
EXISTS: true,
}
@@ -447,14 +558,14 @@ func ArArray(arr []any) ArObject {
func(args ...any) (any, ArErr) {
if len(args) != 2 {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "missing argument, expected 2 got " + fmt.Sprint(len(args)),
EXISTS: true,
}
}
if typeof(args[0]) != "function" {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "argument must be a function",
EXISTS: true,
}
@@ -485,14 +596,14 @@ func ArArray(arr []any) ArObject {
func(args ...any) (any, ArErr) {
if len(args) != 1 {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "missing argument",
EXISTS: true,
}
}
if typeof(args[0]) != "string" {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "argument must be a string",
EXISTS: true,
}
@@ -501,7 +612,7 @@ func ArArray(arr []any) ArObject {
for _, v := range arr {
if typeof(v) != "string" {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "array must be an array of strings",
EXISTS: true,
}
@@ -516,14 +627,14 @@ func ArArray(arr []any) ArObject {
func(args ...any) (any, ArErr) {
if len(args) < 1 {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "missing argument(s)",
EXISTS: true,
}
}
if typeof(args[0]) != "array" {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "argument must be an array",
EXISTS: true,
}
@@ -533,11 +644,11 @@ func ArArray(arr []any) ArObject {
},
}
val.obj["__Equal__"] = builtinFunc{
"__LessThanEqual__",
"__Equal__",
func(args ...any) (any, ArErr) {
if len(args) != 1 {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "missing argument",
EXISTS: true,
}
@@ -567,14 +678,14 @@ func ArArray(arr []any) ArObject {
func(args ...any) (any, ArErr) {
if len(args) != 1 {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "missing argument",
EXISTS: true,
}
}
for _, v := range arr {
res, err := runOperation(operationType{
operation: 8,
operation: 9,
values: []any{v, args[0]},
}, stack{}, 0)
if err.EXISTS {
@@ -587,6 +698,47 @@ func ArArray(arr []any) ArObject {
return false, ArErr{}
},
}
val.obj["__NotContains__"] = builtinFunc{
"__NotContains__",
func(args ...any) (any, ArErr) {
if len(args) != 1 {
return nil, ArErr{
TYPE: "Type Error",
message: "missing argument",
EXISTS: true,
}
}
for _, v := range arr {
res, err := runOperation(operationType{
operation: 9,
values: []any{v, args[0]},
}, stack{}, 0)
if err.EXISTS {
return nil, err
}
if anyToBool(res) {
return false, ArErr{}
}
}
return true, ArErr{}
},
}
val.obj["copy"] = builtinFunc{
"copy",
func(args ...any) (any, ArErr) {
arrCopy := make([]any, len(arr))
copy(arrCopy, arr)
return ArArray(arrCopy), ArErr{}
},
}
val.obj["__Boolean__"] = builtinFunc{
"__Boolean__",
func(args ...any) (any, ArErr) {
return len(
arr,
) > 0, ArErr{}
},
}
return val
}

8
src/arvalid.go
View File

@@ -1,5 +1,7 @@
package main
import "math/big"
func AnyToArValid(arr any) any {
switch arr := arr.(type) {
case []any:
@@ -8,6 +10,12 @@ func AnyToArValid(arr any) any {
return ArString(arr)
case anymap:
return Map(arr)
case []byte:
return ArBuffer(arr)
case byte:
return ArByte(arr)
case int, int64, float64, float32, *big.Rat, *big.Int:
return Number(arr)
default:
return arr
}

20
src/boolean.go
View File

@@ -1,22 +1,30 @@
package main
import "strings"
import (
"strings"
)
func anyToBool(x any) bool {
switch x := x.(type) {
case string:
return x != ""
case number:
return x.Cmp(newNumber()) != 0
case bool:
return x
case nil:
return false
case ArObject:
if typeof(x) == "array" {
return len(x.obj["__value__"].([]any)) != 0
if y, ok := x.obj["__Boolean__"]; ok {
val, err := runCall(
call{
Callable: y,
Args: []any{},
}, stack{}, 0)
if err.EXISTS {
return false
}
return len(x.obj) != 0
return anyToBool(val)
}
return false
case builtinFunc:
return true
case Callable:

16
src/brackets.go
View File

@@ -6,18 +6,11 @@ import (
var bracketsCompile = makeRegex(`( *)\((.|\n)+\)( *)`)
type brackets struct {
VAL any
line int
code string
path string
}
func isBrackets(code UNPARSEcode) bool {
return bracketsCompile.MatchString(code.code)
}
func parseBrackets(code UNPARSEcode, index int, codeline []UNPARSEcode) (brackets, bool, ArErr, int) {
func parseBrackets(code UNPARSEcode, index int, codeline []UNPARSEcode) (any, bool, ArErr, int) {
trimmed := strings.TrimSpace(code.code)
resp, worked, err, i := translateVal(UNPARSEcode{
code: trimmed[1 : len(trimmed)-1],
@@ -25,10 +18,5 @@ func parseBrackets(code UNPARSEcode, index int, codeline []UNPARSEcode) (bracket
line: code.line,
path: code.path,
}, index, codeline, 0)
return brackets{
VAL: resp,
line: code.line,
code: code.realcode,
path: code.path,
}, worked, err, i
return resp, worked, err, i
}

543
src/buffer.go Normal file
View File

@@ -0,0 +1,543 @@
package main
import (
"bytes"
"encoding/hex"
"fmt"
)
func ArByte(Byte byte) ArObject {
obj := ArObject{
obj: anymap{
"__name__": "byte",
"__value__": Byte,
},
}
obj.obj["__string__"] = builtinFunc{
"__string__",
func(a ...any) (any, ArErr) {
return ArString("0x" + hex.EncodeToString([]byte{Byte})), ArErr{}
},
}
obj.obj["__repr__"] = builtinFunc{
"__repr__",
func(a ...any) (any, ArErr) {
return ArString("<byte 0x" + hex.EncodeToString([]byte{Byte}) + ">"), ArErr{}
},
}
obj.obj["number"] = builtinFunc{
"number",
func(a ...any) (any, ArErr) {
return Number(int64(Byte)), ArErr{}
},
}
obj.obj["from"] = builtinFunc{
"from",
func(a ...any) (any, ArErr) {
if len(a) == 0 {
return nil, ArErr{
TYPE: "Type Error",
message: "expected at least 1 argument, got 0",
EXISTS: true,
}
}
a[0] = ArValidToAny(a[0])
switch x := a[0].(type) {
case int64:
if x > 255 || x < 0 {
return nil, ArErr{
TYPE: "ValueError",
message: "expected number between 0 and 255, got " + fmt.Sprint(x),
EXISTS: true,
}
}
Byte = byte(x)
case string:
if len(x) != 1 {
return nil, ArErr{
TYPE: "ValueError",
message: "expected string of length 1, got " + fmt.Sprint(len(x)),
EXISTS: true,
}
}
Byte = byte(x[0])
default:
return nil, ArErr{
TYPE: "Type Error",
message: "expected number or string, got " + typeof(x),
EXISTS: true,
}
}
return obj, ArErr{}
},
}
return obj
}
func ArBuffer(buf []byte) ArObject {
obj := ArObject{
obj: anymap{
"__name__": "buffer",
"__value__": buf,
},
}
obj.obj["__string__"] = builtinFunc{
"__string__",
func(a ...any) (any, ArErr) {
return ArString("<buffer length=" + fmt.Sprint(len(buf)) + ">"), ArErr{}
},
}
obj.obj["__repr__"] = builtinFunc{
"__repr__",
func(a ...any) (any, ArErr) {
return ArString("<buffer length=" + fmt.Sprint(len(buf)) + ">"), ArErr{}
},
}
obj.obj["from"] = builtinFunc{
"from",
func(a ...any) (any, ArErr) {
if len(a) == 0 {
return nil, ArErr{
TYPE: "Type Error",
message: "expected at least 1 argument, got 0",
EXISTS: true,
}
}
a[0] = ArValidToAny(a[0])
switch x := a[0].(type) {
case string:
buf = []byte(x)
case []byte:
buf = x
case []any:
outputbuf := []byte{}
for _, v := range x {
V := ArValidToAny(v)
switch y := V.(type) {
case int64:
if y > 255 || y < 0 {
return nil, ArErr{
TYPE: "ValueError",
message: "expected number between 0 and 255, got " + fmt.Sprint(y),
EXISTS: true,
}
}
outputbuf = append(outputbuf, byte(y))
default:
return nil, ArErr{
TYPE: "Type Error",
message: "Cannot convert " + typeof(v) + " to byte",
EXISTS: true,
}
}
}
buf = outputbuf
default:
return nil, ArErr{
TYPE: "Type Error",
message: "expected string or buffer, got " + typeof(x),
EXISTS: true,
}
}
obj.obj["__value__"] = buf
return obj, ArErr{}
},
}
obj.obj["splitN"] = builtinFunc{
"splitN",
func(a ...any) (any, ArErr) {
if len(a) != 2 {
return nil, ArErr{
TYPE: "Type Error",
message: "expected 1 argument, got " + fmt.Sprint(len(a)),
EXISTS: true,
}
}
splitVal := ArValidToAny(a[0])
if typeof(splitVal) != "buffer" {
return nil, ArErr{
TYPE: "Type Error",
message: "expected buffer, got " + typeof(splitVal),
EXISTS: true,
}
}
var separator = splitVal.([]byte)
nVal := ArValidToAny(a[1])
if typeof(nVal) != "number" {
return nil, ArErr{
TYPE: "Type Error",
message: "expected number, got " + typeof(nVal),
EXISTS: true,
}
}
n, err := numberToInt64(nVal.(ArObject))
if err != nil {
return nil, ArErr{
TYPE: "Type Error",
message: err.Error(),
EXISTS: true,
}
}
var result [][]byte
start := 0
var i int64
for i = 0; i < n; i++ {
index := bytes.Index(buf[start:], separator)
if index == -1 {
result = append(result, buf[start:])
break
}
end := start + index
result = append(result, buf[start:end])
start = end + len(separator)
}
if int64(len(result)) != n {
result = append(result, buf[start:])
}
var bufoutput = []any{}
for _, v := range result {
bufoutput = append(bufoutput, ArBuffer(v))
}
return ArArray(bufoutput), ArErr{}
},
}
obj.obj["split"] = builtinFunc{
"split",
func(a ...any) (any, ArErr) {
if len(a) != 1 {
return nil, ArErr{
TYPE: "Type Error",
message: "expected 1 argument, got " + fmt.Sprint(len(a)),
EXISTS: true,
}
}
splitVal := ArValidToAny(a[0])
if typeof(splitVal) != "buffer" {
return nil, ArErr{
TYPE: "Type Error",
message: "expected buffer, got " + typeof(splitVal),
EXISTS: true,
}
}
var separator = splitVal.([]byte)
var result [][]byte
start := 0
for {
index := bytes.Index(buf[start:], separator)
if index == -1 {
result = append(result, buf[start:])
break
}
end := start + index
result = append(result, buf[start:end])
start = end + len(separator)
}
var bufoutput = []any{}
for _, v := range result {
bufoutput = append(bufoutput, ArBuffer(v))
}
return ArArray(bufoutput), ArErr{}
},
}
obj.obj["slice"] = builtinFunc{
"slice",
func(a ...any) (any, ArErr) {
if len(a) != 2 {
return nil, ArErr{
TYPE: "Type Error",
message: "expected 2 arguments, got " + fmt.Sprint(len(a)),
EXISTS: true,
}
}
if typeof(a[0]) != "number" || typeof(a[1]) != "number" {
return nil, ArErr{
TYPE: "Type Error",
message: "expected number, got " + typeof(a[0]) + " and " + typeof(a[1]),
EXISTS: true,
}
}
start, err := numberToInt64(ArValidToAny(a[0]).(ArObject))
if err != nil {
return nil, ArErr{
TYPE: "Type Error",
message: err.Error(),
EXISTS: true,
}
}
end, err := numberToInt64(ArValidToAny(a[1]).(ArObject))
if err != nil {
return nil, ArErr{
TYPE: "Type Error",
message: err.Error(),
EXISTS: true,
}
}
if start < 0 || end < 0 || start > int64(len(buf)) || end > int64(len(buf)) {
return nil, ArErr{
TYPE: "Index Error",
message: "index out of range",
EXISTS: true,
}
}
return ArBuffer(buf[start:end]), ArErr{}
},
}
obj.obj["to"] = builtinFunc{
"to",
func(a ...any) (any, ArErr) {
if len(a) != 1 {
return nil, ArErr{
TYPE: "Type Error",
message: "expected 1 argument, got " + fmt.Sprint(len(a)),
EXISTS: true,
}
}
if typeof(a[0]) != "string" {
return nil, ArErr{
TYPE: "Type Error",
message: "expected string, got " + typeof(a[0]),
EXISTS: true,
}
}
Type := ArValidToAny(a[0]).(string)
switch Type {
case "string":
return ArString(string(buf)), ArErr{}
case "bytes":
output := []any{}
for _, v := range buf {
output = append(output, ArByte(v))
}
return ArArray(output), ArErr{}
case "array":
output := []any{}
for _, v := range buf {
output = append(output, Number(int64(v)))
}
return ArArray(output), ArErr{}
default:
return nil, ArErr{
TYPE: "Type Error",
message: "expected string, bytes or array, got '" + Type + "'",
EXISTS: true,
}
}
},
}
obj.obj["append"] = builtinFunc{
"append",
func(a ...any) (any, ArErr) {
if len(a) != 1 {
return nil, ArErr{
TYPE: "Type Error",
message: "expected 1 argument, got " + fmt.Sprint(len(a)),
EXISTS: true,
}
}
a[0] = ArValidToAny(a[0])
switch x := a[0].(type) {
case int64:
if x > 255 || x < 0 {
return nil, ArErr{
TYPE: "ValueError",
message: "expected number between 0 and 255, got " + fmt.Sprint(x),
EXISTS: true,
}
}
buf = append(buf, byte(x))
case string:
buf = append(buf, []byte(x)...)
case []byte:
buf = append(buf, x...)
case []any:
for _, v := range x {
switch y := v.(type) {
case int64:
if y > 255 || y < 0 {
return nil, ArErr{
TYPE: "ValueError",
message: "expected number between 0 and 255, got " + fmt.Sprint(y),
EXISTS: true,
}
}
buf = append(buf, byte(y))
default:
return nil, ArErr{
TYPE: "Type Error",
message: "Cannot convert " + typeof(v) + " to byte",
EXISTS: true,
}
}
}
default:
return nil, ArErr{
TYPE: "Type Error",
message: "expected string, buffer or array, got " + typeof(x),
EXISTS: true,
}
}
obj.obj["__value__"] = buf
return obj, ArErr{}
},
}
obj.obj["insert"] = builtinFunc{
"insert",
func(a ...any) (any, ArErr) {
if len(a) != 2 {
return nil, ArErr{
TYPE: "Type Error",
message: "expected 2 arguments, got " + fmt.Sprint(len(a)),
EXISTS: true,
}
}
poss := ArValidToAny(a[0])
values := ArValidToAny(a[1])
if typeof(poss) != "number" {
return nil, ArErr{
TYPE: "Type Error",
message: "expected number, got " + typeof(poss),
EXISTS: true,
}
}
posNum, err := numberToInt64(poss.(ArObject))
if err != nil {
return nil, ArErr{
TYPE: "Type Error",
message: err.Error(),
EXISTS: true,
}
}
switch x := values.(type) {
case int64:
if x > 255 || x < 0 {
return nil, ArErr{
TYPE: "ValueError",
message: "expected number between 0 and 255, got " + fmt.Sprint(x),
EXISTS: true,
}
}
buf = append(buf[:posNum], append([]byte{byte(x)}, buf[posNum:]...)...)
case string:
buf = append(buf[:posNum], append([]byte(x), buf[posNum:]...)...)
case []byte:
buf = append(buf[:posNum], append(x, buf[posNum:]...)...)
case []any:
for _, v := range x {
switch y := v.(type) {
case int64:
if y > 255 || y < 0 {
return nil, ArErr{
TYPE: "ValueError",
message: "expected number between 0 and 255, got " + fmt.Sprint(y),
EXISTS: true,
}
}
buf = append(buf[:posNum], append([]byte{byte(y)}, buf[posNum:]...)...)
default:
return nil, ArErr{
TYPE: "Type Error",
message: "Cannot convert " + typeof(v) + " to byte",
EXISTS: true,
}
}
}
default:
return nil, ArErr{
TYPE: "Type Error",
message: "expected string or buffer, got " + typeof(x),
EXISTS: true,
}
}
obj.obj["__value__"] = buf
return obj, ArErr{}
},
}
obj.obj["__getindex__"] = builtinFunc{
"__getindex__",
func(a ...any) (any, ArErr) {
if len(a) != 1 {
return nil, ArErr{
TYPE: "Type Error",
message: "expected 1 argument, got " + fmt.Sprint(len(a)),
EXISTS: true,
}
}
{
if len(a) == 1 {
if typeof(a[0]) == "string" {
var name = ArValidToAny(a[0]).(string)
if name == "length" {
return Number(len(buf)), ArErr{}
}
}
}
}
poss := a[0]
if typeof(poss) != "number" {
return nil, ArErr{
TYPE: "Type Error",
message: "expected number, got " + typeof(poss),
EXISTS: true,
}
}
posNum, err := numberToInt64(poss.(ArObject))
if err != nil {
return nil, ArErr{
TYPE: "Type Error",
message: err.Error(),
EXISTS: true,
}
}
if posNum < 0 || posNum >= int64(len(buf)) {
return nil, ArErr{
TYPE: "Index Error",
message: "index out of range",
EXISTS: true,
}
}
return ArByte(buf[posNum]), ArErr{}
},
}
obj.obj["remove"] = builtinFunc{
"remove",
func(a ...any) (any, ArErr) {
if len(a) != 1 {
return nil, ArErr{
TYPE: "Type Error",
message: "expected 1 argument, got " + fmt.Sprint(len(a)),
EXISTS: true,
}
}
poss := ArValidToAny(a[0])
if typeof(poss) != "number" {
return nil, ArErr{
TYPE: "Type Error",
message: "expected number, got " + typeof(poss),
EXISTS: true,
}
}
posNum, err := numberToInt64(poss.(ArObject))
if err != nil {
return nil, ArErr{
TYPE: "Type Error",
message: err.Error(),
EXISTS: true,
}
}
if posNum < 0 || posNum >= int64(len(buf)) {
return nil, ArErr{
TYPE: "Index Error",
message: "index out of range",
EXISTS: true,
}
}
buf = append(buf[:posNum], buf[posNum+1:]...)
obj.obj["__value__"] = buf
return obj, ArErr{}
},
}
return obj
}

40
src/built-in-functions.go
View File

@@ -14,12 +14,12 @@ func ArgonString(args ...any) (any, ArErr) {
return ArString(""), ArErr{}
}
args[0] = ArValidToAny(args[0])
return ArString(anyToArgon(args[0], true, false, 3, 0, false, 0)), ArErr{}
return ArString(anyToArgon(args[0], false, false, 3, 0, false, 0)), ArErr{}
}
func ArgonNumber(args ...any) (any, ArErr) {
if len(args) == 0 {
return newNumber(), ArErr{}
return _zero_Number, ArErr{}
}
args[0] = ArValidToAny(args[0])
switch x := args[0].(type) {
@@ -27,17 +27,17 @@ func ArgonNumber(args ...any) (any, ArErr) {
if !isNumber(UNPARSEcode{code: x}) {
return nil, ArErr{TYPE: "Conversion Error", message: "Cannot convert " + anyToArgon(x, true, true, 3, 0, false, 0) + " to a number", EXISTS: true}
}
N, _ := newNumber().SetString(x)
N := Number(x)
return N, ArErr{}
case number:
return x, ArErr{}
case int64, *big.Int, *big.Rat:
return Number(x), ArErr{}
case bool:
if x {
return newNumber().SetInt64(1), ArErr{}
return _one_Number, ArErr{}
}
return newNumber(), ArErr{}
return _zero_Number, ArErr{}
case nil:
return newNumber(), ArErr{}
return _zero_Number, ArErr{}
}
return nil, ArErr{TYPE: "Number Error", message: "Cannot convert " + typeof(args[0]) + " to a number", EXISTS: true}
@@ -48,26 +48,12 @@ func ArgonSqrt(a ...any) (any, ArErr) {
return nil, ArErr{TYPE: "Runtime Error", message: "sqrt takes 1 argument",
EXISTS: true}
}
if typeof(a[0]) != "number" {
return nil, ArErr{TYPE: "Runtime Error", message: "sqrt takes a number not a '" + typeof(a[0]) + "'",
if _, ok := a[0].(ArObject); !ok {
return nil, ArErr{TYPE: "Runtime Error", message: "can't sqrt type '" + typeof(a[0]) + "'",
EXISTS: true}
}
r := a[0].(number)
if r.Sign() < 0 {
return nil, ArErr{TYPE: "Runtime Error", message: "sqrt takes a positive number",
EXISTS: true}
if sqrt_method, ok := a[0].(ArObject).obj["__sqrt__"]; ok {
return builtinCall(sqrt_method, []any{})
}
var x big.Float
x.SetPrec(30)
x.SetRat(r)
var s big.Float
s.SetPrec(15)
s.Sqrt(&x)
r, _ = s.Rat(nil)
return r, ArErr{}
return nil, ArErr{TYPE: "Runtime Error", message: "can't sqrt type '" + typeof(a[0]) + "'"}
}

279
src/built-ins.go
View File

@@ -5,17 +5,20 @@ import (
"os"
)
func makeGlobal(allowDocument bool) ArObject {
func makeGlobal() ArObject {
var vars = anymap{}
vars["global"] = vars
vars["env"] = env
vars["term"] = ArTerm
if allowDocument {
vars["document"] = ArDocument
}
vars["js"] = ArJS
vars["ArgonVersion"] = ArString(VERSION)
vars["ArgonVersionNumber"] = Number(VERSION_NUM)
vars["number"] = builtinFunc{"number", ArgonNumber}
vars["string"] = builtinFunc{"string", ArgonString}
vars["infinity"] = infinity
vars["socket"] = Map(anymap{
"server": builtinFunc{"server", ArSocketServer},
"client": builtinFunc{"client", ArSocketClient},
})
vars["eval"] = builtinFunc{"eval", AReval}
vars["map"] = builtinFunc{"map", func(a ...any) (any, ArErr) {
if len(a) == 0 {
return Map(anymap{}), ArErr{}
@@ -30,7 +33,7 @@ func makeGlobal(allowDocument bool) ArObject {
case []any:
if len(y) == 2 {
if isUnhashable(y[0]) {
return nil, ArErr{TYPE: "TypeError", message: "Cannot use unhashable value as key: " + typeof(y[0]), EXISTS: true}
return nil, ArErr{TYPE: "Type Error", message: "Cannot use unhashable value as key: " + typeof(y[0]), EXISTS: true}
}
key := ArValidToAny(y[0])
newmap[key] = y[1]
@@ -47,10 +50,39 @@ func makeGlobal(allowDocument bool) ArObject {
}
return Map(newmap), ArErr{}
}
return x, ArErr{}
newmap := anymap{}
for key, val := range x.obj {
newmap[key] = val
}
return nil, ArErr{TYPE: "TypeError", message: "Cannot create map from '" + typeof(a[0]) + "'", EXISTS: true}
return Map(newmap), ArErr{}
}
return nil, ArErr{TYPE: "Type Error", message: "Cannot create map from '" + typeof(a[0]) + "'", EXISTS: true}
}}
vars["hex"] = builtinFunc{"hex", func(a ...any) (any, ArErr) {
if len(a) != 1 {
return nil, ArErr{TYPE: "Type Error", message: "expected 1 argument, got " + fmt.Sprint(len(a)), EXISTS: true}
}
a[0] = ArValidToAny(a[0])
switch x := a[0].(type) {
case int64:
return ArString(fmt.Sprintf("%x", x)), ArErr{}
}
return nil, ArErr{TYPE: "Type Error", message: "Cannot convert '" + typeof(a[0]) + "' to hex", EXISTS: true}
}}
vars["buffer"] = builtinFunc{"buffer", func(a ...any) (any, ArErr) {
if len(a) != 0 {
return nil, ArErr{TYPE: "Type Error", message: "expected 0 arguments, got " + fmt.Sprint(len(a)), EXISTS: true}
}
return ArBuffer([]byte{}), ArErr{}
}}
vars["byte"] = builtinFunc{"byte", func(a ...any) (any, ArErr) {
if len(a) != 0 {
return nil, ArErr{TYPE: "Type Error", message: "expected 0 arguments, got " + fmt.Sprint(len(a)), EXISTS: true}
}
return ArByte(0), ArErr{}
}}
vars["throwError"] = builtinFunc{"throwError", ArThrowError}
vars["array"] = builtinFunc{"array", func(a ...any) (any, ArErr) {
if len(a) == 0 {
return ArArray([]any{}), ArErr{}
@@ -73,7 +105,7 @@ func makeGlobal(allowDocument bool) ArObject {
}
return ArArray(newarray), ArErr{}
}
return nil, ArErr{TYPE: "TypeError", message: "Cannot create array from '" + typeof(a[0]) + "'", EXISTS: true}
return nil, ArErr{TYPE: "Type Error", message: "Cannot create array from '" + typeof(a[0]) + "'", EXISTS: true}
}}
vars["boolean"] = builtinFunc{"boolean", func(a ...any) (any, ArErr) {
if len(a) == 0 {
@@ -95,24 +127,23 @@ func makeGlobal(allowDocument bool) ArObject {
return nil, ArErr{TYPE: "round", message: "round takes 1 argument",
EXISTS: true}
}
precision := newNumber()
var precision int64 = 0
if len(a) > 1 {
a[1] = ArValidToAny(a[1])
switch x := a[1].(type) {
case number:
if !x.IsInt() {
return nil, ArErr{TYPE: "TypeError", message: "Cannot round to '" + typeof(a[1]) + "'", EXISTS: true}
}
case int64:
precision = x
default:
return nil, ArErr{TYPE: "TypeError", message: "Cannot round to '" + typeof(a[1]) + "'", EXISTS: true}
return nil, ArErr{TYPE: "Type Error", message: "Cannot round to '" + typeof(a[1]) + "'", EXISTS: true}
}
}
switch x := a[0].(type) {
case number:
return round(newNumber().Set(x), int(precision.Num().Int64())), ArErr{}
case ArObject:
if round_method, ok := x.obj["__round__"]; ok {
return builtinCall(round_method, []any{Number(precision)})
}
return nil, ArErr{TYPE: "TypeError", message: "Cannot round '" + typeof(a[0]) + "'", EXISTS: true}
}
return nil, ArErr{TYPE: "Type Error", message: "Cannot round '" + typeof(a[0]) + "'", EXISTS: true}
}}
vars["floor"] = builtinFunc{"floor", func(a ...any) (any, ArErr) {
if len(a) == 0 {
@@ -120,22 +151,25 @@ func makeGlobal(allowDocument bool) ArObject {
EXISTS: true}
}
switch x := a[0].(type) {
case number:
return floor(x), ArErr{}
case ArObject:
if floor_method, ok := x.obj["__floor__"]; ok {
return builtinCall(floor_method, []any{})
}
return nil, ArErr{TYPE: "TypeError", message: "Cannot floor '" + typeof(a[0]) + "'", EXISTS: true}
}
return nil, ArErr{TYPE: "Type Error", message: "Cannot floor '" + typeof(a[0]) + "'", EXISTS: true}
}}
vars["ceil"] = builtinFunc{"ceil", func(a ...any) (any, ArErr) {
if len(a) == 0 {
return nil, ArErr{TYPE: "ceil", message: "ceil takes 1 argument",
EXISTS: true}
}
switch x := a[0].(type) {
case number:
return ceil(x), ArErr{}
case ArObject:
if ceil_method, ok := x.obj["__ceil__"]; ok {
return builtinCall(ceil_method, []any{})
}
return nil, ArErr{TYPE: "TypeError", message: "Cannot ceil '" + typeof(a[0]) + "'", EXISTS: true}
}
return nil, ArErr{TYPE: "Type Error", message: "Cannot ceil '" + typeof(a[0]) + "'", EXISTS: true}
}}
vars["sqrt"] = builtinFunc{"sqrt", ArgonSqrt}
vars["file"] = ArFile
@@ -154,8 +188,32 @@ func makeGlobal(allowDocument bool) ArObject {
vars["cot"] = ArCot
vars["arccot"] = ArArccot
vars["todeg"] = ArToDeg
vars["colour"] = ArColour
vars["torad"] = ArToRad
vars["abs"] = ArAbs
vars["fraction"] = builtinFunc{"fraction", func(a ...any) (any, ArErr) {
if len(a) == 0 {
return nil, ArErr{TYPE: "fraction", message: "fraction takes 1 argument",
EXISTS: true}
}
switch x := a[0].(type) {
case ArObject:
if callable, ok := x.obj["__fraction__"]; ok {
resp, err := runCall(
call{
Callable: callable,
Args: []any{},
},
stack{},
0,
)
if err.EXISTS {
return nil, err
}
return resp, ArErr{}
}
}
return nil, ArErr{TYPE: "Type Error", message: "Cannot fraction '" + typeof(a[0]) + "'", EXISTS: true}
}}
vars["dir"] = builtinFunc{"dir", func(a ...any) (any, ArErr) {
if len(a) == 0 {
return ArArray([]any{}), ArErr{}
@@ -165,74 +223,147 @@ func makeGlobal(allowDocument bool) ArObject {
case ArObject:
newarray := []any{}
for key := range x.obj {
newarray = append(newarray, key)
newarray = append(newarray, AnyToArValid(key))
}
return ArArray(newarray), ArErr{}
}
return ArArray([]any{}), ArErr{}
}}
vars["subprocess"] = builtinFunc{"subprocess", ArSubprocess}
vars["object"] = builtinFunc{"object", func(a ...any) (any, ArErr) {
if len(a) == 0 {
return nil, ArErr{TYPE: "TypeError", message: "Cannot create class from '" + typeof(a[0]) + "'", EXISTS: true}
}
switch x := a[0].(type) {
case ArObject:
if typeof(x) == "object" {
return x, ArErr{}
}
newclass := ArObject{obj: anymap{}}
for key, val := range x.obj {
newclass.obj[key] = val
}
return newclass, ArErr{}
}
return nil, ArErr{TYPE: "TypeError", message: "Cannot create class from '" + typeof(a[0]) + "'", EXISTS: true}
}}
vars["sequence"] = builtinFunc{"sequence", ArSequence}
vars["exit"] = builtinFunc{"exit", func(a ...any) (any, ArErr) {
if len(a) == 0 {
os.Exit(0)
}
a[0] = ArValidToAny(a[0])
switch x := a[0].(type) {
case number:
os.Exit(int(floor(x).Num().Int64()))
case int64:
os.Exit(int(x))
return nil, ArErr{}
}
os.Exit(0)
return nil, ArErr{}
}}
vars["error"] = builtinFunc{"error", func(a ...any) (any, ArErr) {
if len(a) < 1 || len(a) > 2 {
return nil, ArErr{TYPE: "error", message: "error takes 1 or 2 arguments, got " + fmt.Sprint(len(a)), EXISTS: true}
}
if len(a) == 1 {
a[0] = ArValidToAny(a[0])
switch x := a[0].(type) {
case string:
return nil, ArErr{TYPE: "Error", message: x, EXISTS: true}
}
} else {
a[0] = ArValidToAny(a[0])
a[1] = ArValidToAny(a[1])
switch x := a[0].(type) {
case string:
switch y := a[1].(type) {
case string:
return nil, ArErr{TYPE: x, message: y, EXISTS: true}
}
}
}
return nil, ArErr{TYPE: "TypeError", message: "Cannot create error from '" + typeof(a[0]) + "'", EXISTS: true}
}}
vars["chr"] = builtinFunc{"chr", func(a ...any) (any, ArErr) {
if len(a) != 1 {
return nil, ArErr{TYPE: "chr", message: "chr takes 1 argument, got " + fmt.Sprint(len(a)), EXISTS: true}
}
a[0] = ArValidToAny(a[0])
switch x := a[0].(type) {
case number:
return string([]rune{rune(floor(x).Num().Int64())}), ArErr{}
case int64:
return string([]rune{rune(x)}), ArErr{}
}
return nil, ArErr{TYPE: "TypeError", message: "Cannot convert '" + typeof(a[0]) + "' to string", EXISTS: true}
return nil, ArErr{TYPE: "Type Error", message: "Cannot convert '" + typeof(a[0]) + "' to string", EXISTS: true}
}}
vars["ord"] = builtinFunc{"ord", func(a ...any) (any, ArErr) {
if len(a) != 1 {
return nil, ArErr{TYPE: "ord", message: "ord takes 1 argument, got " + fmt.Sprint(len(a)), EXISTS: true}
}
a[0] = ArValidToAny(a[0])
switch x := a[0].(type) {
case string:
if len(x) != 1 {
return nil, ArErr{TYPE: "ord", message: "ord takes a string with only one character, got " + fmt.Sprint(len(a)), EXISTS: true}
}
return Number(int64([]rune(x)[0])), ArErr{}
}
return nil, ArErr{TYPE: "Type Error", message: "Cannot convert '" + typeof(a[0]) + "' to string", EXISTS: true}
}}
vars["max"] = builtinFunc{"max", func(a ...any) (any, ArErr) {
if len(a) != 1 {
return nil, ArErr{TYPE: "runtime Error", message: "max takes 1 argument, got " + fmt.Sprint(len(a)), EXISTS: true}
}
a[0] = ArValidToAny(a[0])
switch x := a[0].(type) {
case []any:
if len(x) == 0 {
return nil, ArErr{TYPE: "runtime Error", message: "max takes a non-empty array", EXISTS: true}
}
var max ArObject
for i, v := range x {
switch x := v.(type) {
case ArObject:
if i == 0 {
max = x
} else {
compared, err := CompareObjects(max, x)
if err.EXISTS {
return nil, err
}
compared_int, Err := numberToInt64(compared)
if Err != nil {
return nil, ArErr{TYPE: "Type Error", message: Err.Error(), EXISTS: true}
}
if compared_int == 1 {
max = x
}
}
}
}
return max, ArErr{}
}
return nil, ArErr{TYPE: "Type Error", message: "Cannot get max of type '" + typeof(a[0]) + "'", EXISTS: true}
}}
vars["min"] = builtinFunc{"min", func(a ...any) (any, ArErr) {
if len(a) != 1 {
return nil, ArErr{TYPE: "runtime Error", message: "max takes 1 argument, got " + fmt.Sprint(len(a)), EXISTS: true}
}
a[0] = ArValidToAny(a[0])
switch x := a[0].(type) {
case []any:
if len(x) == 0 {
return nil, ArErr{TYPE: "runtime Error", message: "max takes a non-empty array", EXISTS: true}
}
var max ArObject
for i, v := range x {
switch x := v.(type) {
case ArObject:
if i == 0 {
max = x
} else {
compared, err := CompareObjects(max, x)
if err.EXISTS {
return nil, err
}
compared_int, Err := numberToInt64(compared)
if Err != nil {
return nil, ArErr{TYPE: "Type Error", message: Err.Error(), EXISTS: true}
}
if compared_int == -1 {
max = x
}
}
}
}
return max, ArErr{}
}
return nil, ArErr{TYPE: "Type Error", message: "Cannot get max of type '" + typeof(a[0]) + "'", EXISTS: true}
}}
vars["path"] = ArPath
vars["typeof"] = builtinFunc{"typeof", func(a ...any) (any, ArErr) {
if len(a) != 1 {
return nil, ArErr{TYPE: "typeof", message: "typeof takes 1 argument, got " + fmt.Sprint(len(a)), EXISTS: true}
}
return ArString(typeof(a[0])), ArErr{}
}}
vars["sha256"] = builtinFunc{"sha256", func(a ...any) (any, ArErr) {
if len(a) != 1 {
return nil, ArErr{TYPE: "sha256", message: "sha256 takes 1 argument, got " + fmt.Sprint(len(a)), EXISTS: true}
}
a[0] = ArValidToAny(a[0])
switch x := a[0].(type) {
case string:
return ArString(sha256Hash(x)), ArErr{}
}
return nil, ArErr{TYPE: "Type Error", message: "Cannot hash type '" + typeof(a[0]) + "'", EXISTS: true}
}}
return Map(vars)
}

66
src/call.go
View File

@@ -8,11 +8,11 @@ import (
var callCompile = makeRegex("( *)(.|\n)+\\((.|\n)*\\)( *)")
type call struct {
callable any
args []any
code string
line int
path string
Callable any
Args []any
Code string
Line int
Path string
}
type Callable struct {
@@ -32,59 +32,60 @@ func parseCall(code UNPARSEcode, index int, codelines []UNPARSEcode) (any, bool,
trim := strings.TrimSpace(code.code)
trim = trim[:len(trim)-1]
splitby := strings.Split(trim, "(")
var works bool
var callable any
var arguments []any
for i := 1; i < len(splitby); i++ {
name := strings.Join(splitby[0:i], "(")
argstr := strings.Join(splitby[i:], "(")
args, success, argserr := getValuesFromLetter(argstr, ",", index, codelines, false)
arguments = args
if !success {
if i == len(splitby)-1 {
return nil, false, argserr, 1
}
continue
}
resp, worked, _, _ := translateVal(UNPARSEcode{code: name, realcode: code.realcode, line: index + 1, path: code.path}, index, codelines, 0)
resp, worked, err, linecount := translateVal(UNPARSEcode{code: name, realcode: code.realcode, line: index + 1, path: code.path}, index, codelines, 0)
if !worked {
if i == len(splitby)-1 {
return nil, false, ArErr{"Syntax Error", "invalid callable", code.line, code.path, code.realcode, true}, 1
return nil, false, err, 1
}
continue
}
works = true
callable = resp
break
return call{Callable: resp, Args: args, Line: code.line, Code: code.realcode, Path: code.path}, true, ArErr{}, linecount
}
if !works {
return nil, false, ArErr{"Syntax Error", "invalid call", code.line, code.path, code.realcode, true}, 1
}
return call{callable: callable, args: arguments, line: code.line, code: code.realcode, path: code.path}, true, ArErr{}, 1
}
func runCall(c call, stack stack, stacklevel int) (any, ArErr) {
var callable any
switch x := c.callable.(type) {
var callable any = c.Callable
switch x := c.Callable.(type) {
case builtinFunc:
callable = x
case Callable:
callable = x
default:
callable_, err := runVal(c.callable, stack, stacklevel+1)
callable_, err := runVal(c.Callable, stack, stacklevel+1)
if err.EXISTS {
return nil, err
}
switch x := callable_.(type) {
case ArObject:
callable_ = x.obj["__call__"]
}
callable_, err := mapGet(ArMapGet{
x,
[]any{"__call__"},
true,
c.Line,
c.Code,
c.Path,
}, stack, stacklevel+1)
if !err.EXISTS {
callable = callable_
}
default:
callable = callable_
}
}
args := []any{}
level := append(stack, newscope())
for _, arg := range c.args {
for _, arg := range c.Args {
resp, err := runVal(arg, level, stacklevel+1)
if err.EXISTS {
return nil, err
@@ -93,35 +94,38 @@ func runCall(c call, stack stack, stacklevel int) (any, ArErr) {
}
switch x := callable.(type) {
case builtinFunc:
debugPrintln(x.name, args)
resp, err := x.FUNC(args...)
resp = AnyToArValid(resp)
if err.EXISTS {
if err.line == 0 {
err.line = c.line
err.line = c.Line
}
if err.path == "" {
err.path = c.path
err.path = c.Path
}
if err.code == "" {
err.code = c.code
err.code = c.Code
}
}
return resp, err
case Callable:
debugPrintln(x.name, args)
if len(x.params) != len(args) {
return nil, ArErr{"Runtime Error", "expected " + fmt.Sprint(len(x.params)) + " arguments, got " + fmt.Sprint(len(args)), c.line, c.path, c.code, true}
return nil, ArErr{"Runtime Error", "expected " + fmt.Sprint(len(x.params)) + " arguments, got " + fmt.Sprint(len(args)), c.Line, c.Path, c.Code, true}
}
l := anymap{}
for i, param := range x.params {
l[param] = args[i]
}
resp, err := runVal(x.run, append(x.stack, Map(l)), stacklevel+1)
return ThrowOnNonLoop(openReturn(resp), err)
return openReturn(resp), err
}
return nil, ArErr{"Runtime Error", "type '" + typeof(callable) + "' is not callable", c.line, c.path, c.code, true}
return nil, ArErr{"Runtime Error", "type '" + typeof(callable) + "' is not callable", c.Line, c.Path, c.Code, true}
}
func builtinCall(callable any, args []any) (any, ArErr) {
debugPrintln(callable, args)
switch x := callable.(type) {
case builtinFunc:
@@ -137,7 +141,7 @@ func builtinCall(callable any, args []any) (any, ArErr) {
level.obj[param] = args[i]
}
resp, err := runVal(x.run, append(x.stack, level), 0)
return ThrowOnNonLoop(openReturn(resp), err)
return openReturn(resp), err
}
return nil, ArErr{TYPE: "Runtime Error", message: "type '" + typeof(callable) + "' is not callable", EXISTS: true}
}

104
src/colour.go Normal file
View File

@@ -0,0 +1,104 @@
package main
import (
"fmt"
"github.com/fatih/color"
"github.com/jwalton/go-supportscolor"
)
var ArColour = Map(
anymap{
"set": builtinFunc{"set", func(a ...any) (any, ArErr) {
if len(a) != 2 {
return nil, ArErr{
TYPE: "Type Error",
message: "set() takes exactly 2 argument (" + fmt.Sprint(len(a)) + " given)",
EXISTS: true,
}
}
var c *color.Color
var s string
if x, ok := a[0].(ArObject); ok {
colour_int64, err := numberToInt64(x)
if err != nil {
return nil, ArErr{
TYPE: "Type Error",
message: err.Error(),
EXISTS: true,
}
}
c = color.New(color.Attribute(colour_int64))
} else {
return nil, ArErr{
TYPE: "Type Error",
message: "set() argument 1 must be an number, not " + typeof(a[0]),
EXISTS: true,
}
}
if typeof(a[1]) == "string" {
s = ArValidToAny(a[1]).(string)
} else {
return nil, ArErr{
TYPE: "Type Error",
message: "set() argument 2 must be a string, not " + typeof(a[1]),
EXISTS: true,
}
}
if supportscolor.Stdout().SupportsColor {
return c.Sprint(s), ArErr{}
} else {
return s, ArErr{}
}
}},
"bg": Map(
anymap{
"black": Number(int64(color.BgBlack)),
"red": Number(int64(color.BgRed)),
"green": Number(int64(color.BgGreen)),
"yellow": Number(int64(color.BgYellow)),
"blue": Number(int64(color.BgBlue)),
"magenta": Number(int64(color.BgMagenta)),
"cyan": Number(int64(color.BgCyan)),
"white": Number(int64(color.BgWhite)),
"hiBlack": Number(int64(color.BgHiBlack)),
"hiRed": Number(int64(color.BgHiRed)),
"hiGreen": Number(int64(color.BgHiGreen)),
"hiYellow": Number(int64(color.BgHiYellow)),
"hiBlue": Number(int64(color.BgHiBlue)),
"hiMagenta": Number(int64(color.BgHiMagenta)),
"hiCyan": Number(int64(color.BgHiCyan)),
"hiWhite": Number(int64(color.BgHiWhite)),
},
),
"fg": Map(
anymap{
"black": Number(int64(color.FgBlack)),
"red": Number(int64(color.FgRed)),
"green": Number(int64(color.FgGreen)),
"yellow": Number(int64(color.FgYellow)),
"blue": Number(int64(color.FgBlue)),
"magenta": Number(int64(color.FgMagenta)),
"cyan": Number(int64(color.FgCyan)),
"white": Number(int64(color.FgWhite)),
"hiBlack": Number(int64(color.FgHiBlack)),
"hiRed": Number(int64(color.FgHiRed)),
"hiGreen": Number(int64(color.FgHiGreen)),
"hiYellow": Number(int64(color.FgHiYellow)),
"hiBlue": Number(int64(color.FgHiBlue)),
"hiMagenta": Number(int64(color.FgHiMagenta)),
"hiCyan": Number(int64(color.FgHiCyan)),
"hiWhite": Number(int64(color.FgHiWhite)),
},
),
"reset": Number(int64(color.Reset)),
"bold": Number(int64(color.Bold)),
"faint": Number(int64(color.Faint)),
"italic": Number(int64(color.Italic)),
"underline": Number(int64(color.Underline)),
"blinkSlow": Number(int64(color.BlinkSlow)),
"blinkRapid": Number(int64(color.BlinkRapid)),
"reverseVideo": Number(int64(color.ReverseVideo)),
"concealed": Number(int64(color.Concealed)),
"crossedOut": Number(int64(color.CrossedOut)),
})

2
src/comment.go
View File

@@ -24,7 +24,7 @@ func parseComment(code UNPARSEcode, index int, codelines []UNPARSEcode) (any, bo
if isBlank(UNPARSEcode{code: joined, realcode: code.realcode, line: code.line, path: code.path}) {
return nil, true, ArErr{}, step
}
resp, worked, _, s := translateVal(UNPARSEcode{code: joined, realcode: code.realcode, line: code.line, path: code.path}, index, codelines, 2)
resp, worked, _, s := translateVal(UNPARSEcode{code: joined, realcode: code.realcode, line: code.line, path: code.path}, index, codelines, 3)
step += s - 1
if worked {
return resp, true, ArErr{}, step

8
src/config.go
View File

@@ -1,9 +1,9 @@
package main
var websiteLang = "https://argon.wbell.dev/"
var website = "https://argon.wbell.dev/"
var docs = "https://argon.wbell.dev/docs/"
var mainrepo = "https://github.com/Open-Argon/argon-v3"
var mainissuesPage = "https://github.com/Open-Argon/argon-v3/issues"
var fork = true
var forkrepo = "https://github.com/Open-Argon/argon-v3.wasm"
var forkissuesPage = "https://github.com/Open-Argon/argon-v3.wasm/issues"
var fork = false
var forkrepo = ""
var forkissuesPage = ""

44
src/debug.go Normal file
View File

@@ -0,0 +1,44 @@
package main
import (
"fmt"
"os"
"sync"
)
var debug = os.Getenv("__ARGON_DEBUG__") == "true"
var __debugPrints = [][]any{}
var __debugPrintsLock = sync.RWMutex{}
func debugInit() {
if debug {
fmt.Println("In debug mode...")
go func() {
defer func() {
if r := recover(); r != nil {
fmt.Println("debugPrintln: panic:", r)
}
}()
for {
__debugPrintsLock.RLock()
for _, v := range __debugPrints {
fmt.Println(v...)
}
__debugPrintsLock.RUnlock()
__debugPrintsLock.Lock()
__debugPrints = [][]any{}
__debugPrintsLock.Unlock()
}
}()
}
}
func debugPrintln(a ...any) {
switch debug {
case true:
__debugPrintsLock.Lock()
__debugPrints = append(__debugPrints, a)
__debugPrintsLock.Unlock()
}
}

213
src/document.go
View File

@@ -1,213 +0,0 @@
package main
import (
"syscall/js"
)
func windowElement(element js.Value) ArObject {
return ArObject{
obj: anymap{
"innerHTML": builtinFunc{"innerHTML", func(args ...any) (any, ArErr) {
if len(args) > 0 {
if typeof(args[0]) != "string" {
return nil, ArErr{"Argument Error", "innerHTML only accepts strings", 0, "", "", true}
}
element.Set("innerHTML", args[0].(string))
}
return element.Get("innerHTML").String(), ArErr{}
}},
"innerText": builtinFunc{"innerText", func(args ...any) (any, ArErr) {
if len(args) > 0 {
if typeof(args[0]) != "string" {
return nil, ArErr{"Argument Error", "innerText only accepts strings", 0, "", "", true}
}
element.Set("innerText", args[0].(string))
}
return element.Get("innerText").String(), ArErr{}
}},
"addEventListener": builtinFunc{"addEventListener", func(args ...any) (any, ArErr) {
if len(args) < 2 {
return nil, ArErr{"Argument Error", "Not enough arguments for addEventListener", 0, "", "", true}
}
if typeof(args[0]) != "string" {
return nil, ArErr{"Argument Error", "addEventListener's first argument must be a string", 0, "", "", true}
}
event := args[0].(string)
if typeof(args[1]) != "function" {
return nil, ArErr{"Argument Error", "addEventListener's second argument must be a function", 0, "", "", true}
}
callable := args[1]
element.Call("addEventListener", event, js.FuncOf(func(this js.Value, args []js.Value) interface{} {
runCall(call{
callable: callable,
args: []any{},
}, stack{}, 0)
return nil
}))
return nil, ArErr{}
}},
"removeEventListener": builtinFunc{"removeEventListener", func(args ...any) (any, ArErr) {
if len(args) < 2 {
return nil, ArErr{"Argument Error", "Not enough arguments for removeEventListener", 0, "", "", true}
}
if typeof(args[0]) != "string" {
return nil, ArErr{"Argument Error", "removeEventListener's first argument must be a string", 0, "", "", true}
}
event := args[0].(string)
if typeof(args[1]) != "function" {
return nil, ArErr{"Argument Error", "removeEventListener's second argument must be a function", 0, "", "", true}
}
callable := args[1]
element.Call("removeEventListener", event, js.FuncOf(func(this js.Value, args []js.Value) interface{} {
runCall(call{
callable: callable,
args: []any{},
}, stack{}, 0)
return nil
}))
return nil, ArErr{}
}},
"appendChild": builtinFunc{"appendChild", func(args ...any) (any, ArErr) {
if len(args) < 1 {
return nil, ArErr{"Argument Error", "Not enough arguments for appendChild", 0, "", "", true}
}
if typeof(args[0]) != "map" {
return nil, ArErr{"Argument Error", "appendChild's first argument must be a map", 0, "", "", true}
}
child := args[0].(anymap)
if child["__TYPE__"] != "windowElement" {
return nil, ArErr{"Argument Error", "appendChild's first argument must be an element", 0, "", "", true}
}
element.Call("appendChild", child["__element__"])
return nil, ArErr{}
}},
"removeChild": builtinFunc{"removeChild", func(args ...any) (any, ArErr) {
if len(args) < 1 {
return nil, ArErr{"Argument Error", "Not enough arguments for removeChild", 0, "", "", true}
}
if typeof(args[0]) != "map" {
return nil, ArErr{"Argument Error", "removeChild's first argument must be a map", 0, "", "", true}
}
child := args[0].(anymap)
if child["__TYPE__"] != "windowElement" {
return nil, ArErr{"Argument Error", "removeChild's first argument must be an element", 0, "", "", true}
}
element.Call("removeChild", child["__element__"])
return nil, ArErr{}
}},
"setAttribute": builtinFunc{"setAttribute", func(args ...any) (any, ArErr) {
if len(args) < 2 {
return nil, ArErr{"Argument Error", "Not enough arguments for setAttribute", 0, "", "", true}
}
if typeof(args[0]) != "string" {
return nil, ArErr{"Argument Error", "setAttribute's first argument must be a string", 0, "", "", true}
}
element.Call("setAttribute", args[0].(string), anyToArgon(args[1], false, false, 3, 0, false, 0))
return nil, ArErr{}
}},
"__element__": element,
"__TYPE__": "windowElement",
},
}
}
var ArDocument = Map(
anymap{
"body": builtinFunc{"getElementById", func(args ...any) (any, ArErr) {
return windowElement(js.Global().Get("document").Get("body")), ArErr{}
}},
"head": builtinFunc{"getElementById", func(args ...any) (any, ArErr) {
return windowElement(js.Global().Get("document").Get("head")), ArErr{}
}},
"getElementById": builtinFunc{"getElementById", func(args ...any) (any, ArErr) {
if len(args) < 1 {
return nil, ArErr{"Argument Error", "Not enough arguments for getElementById", 0, "", "", true}
}
if typeof(args[0]) != "string" {
return nil, ArErr{"Argument Error", "getElementById's first argument must be a string", 0, "", "", true}
}
id := args[0].(string)
result := js.Global().Get("document").Call("getElementById", id)
if js.Null().Equal(result) {
return nil, ArErr{}
}
return windowElement(result), ArErr{}
}},
"createElement": builtinFunc{"createElement", func(args ...any) (any, ArErr) {
if len(args) < 1 {
return nil, ArErr{"Argument Error", "Not enough arguments for createElement", 0, "", "", true}
}
if typeof(args[0]) != "string" {
return nil, ArErr{"Argument Error", "createElement's first argument must be a string", 0, "", "", true}
}
tag := args[0].(string)
return windowElement(js.Global().Get("document").Call("createElement", tag)), ArErr{}
}},
"createTextNode": builtinFunc{"createTextNode", func(args ...any) (any, ArErr) {
if len(args) < 1 {
return nil, ArErr{"Argument Error", "Not enough arguments for createTextNode", 0, "", "", true}
}
if typeof(args[0]) != "string" {
return nil, ArErr{"Argument Error", "createTextNode's first argument must be a string", 0, "", "", true}
}
text := args[0].(string)
return windowElement(js.Global().Get("document").Call("createTextNode", text)), ArErr{}
}},
"createComment": builtinFunc{"createComment", func(args ...any) (any, ArErr) {
if len(args) < 1 {
return nil, ArErr{"Argument Error", "Not enough arguments for createComment", 0, "", "", true}
}
if typeof(args[0]) != "string" {
return nil, ArErr{"Argument Error", "createComment's first argument must be a string", 0, "", "", true}
}
text := args[0].(string)
return windowElement(js.Global().Get("document").Call("createComment", text)), ArErr{}
}},
"createDocumentFragment": builtinFunc{"createDocumentFragment", func(args ...any) (any, ArErr) {
return windowElement(js.Global().Get("document").Call("createDocumentFragment")), ArErr{}
}},
"addEventListener": builtinFunc{"addEventListener", func(args ...any) (any, ArErr) {
if len(args) < 2 {
return nil, ArErr{"Argument Error", "Not enough arguments for addEventListener", 0, "", "", true}
}
if typeof(args[0]) != "string" {
return nil, ArErr{"Argument Error", "addEventListener's first argument must be a string", 0, "", "", true}
}
event := args[0].(string)
if typeof(args[1]) != "function" {
return nil, ArErr{"Argument Error", "addEventListener's second argument must be a function", 0, "", "", true}
}
callable := args[1]
js.Global().Get("document").Call("addEventListener", event, js.FuncOf(func(this js.Value, args []js.Value) interface{} {
runCall(call{
callable: callable,
args: []any{},
}, stack{}, 0)
return nil
}))
return nil, ArErr{}
}},
"removeEventListener": builtinFunc{"removeEventListener", func(args ...any) (any, ArErr) {
if len(args) < 2 {
return nil, ArErr{"Argument Error", "Not enough arguments for removeEventListener", 0, "", "", true}
}
if typeof(args[0]) != "string" {
return nil, ArErr{"Argument Error", "removeEventListener's first argument must be a string", 0, "", "", true}
}
event := args[0].(string)
if typeof(args[1]) != "function" {
return nil, ArErr{"Argument Error", "removeEventListener's second argument must be a function", 0, "", "", true}
}
callable := args[1]
js.Global().Get("document").Call("removeEventListener", event, js.FuncOf(func(this js.Value, args []js.Value) interface{} {
runCall(call{
callable: callable,
args: []any{},
}, stack{}, 0)
return nil
}))
return nil, ArErr{}
}},
"__TYPE__": "document",
},
)

33
src/dowraps.go
View File

@@ -20,11 +20,11 @@ func isDoWrap(code UNPARSEcode) bool {
func parseDoWrap(code UNPARSEcode, index int, codelines []UNPARSEcode) (any, bool, ArErr, int) {
currentindent := len(code.realcode) - len(strings.TrimLeft(code.realcode, " "))
var setindent int = -1
var i = index + 1
translated := []any{}
for i < len(codelines) {
var allCodelines = []UNPARSEcode{}
i := index + 1
for ; i < len(codelines); i++ {
if isBlank(codelines[i]) {
i++
continue
}
indent := len(codelines[i].code) - len(strings.TrimLeft(codelines[i].code, " "))
@@ -34,31 +34,38 @@ func parseDoWrap(code UNPARSEcode, index int, codelines []UNPARSEcode) (any, boo
if indent <= currentindent {
break
}
allCodelines = append(allCodelines, codelines[i])
}
finalLines := i
codelines = allCodelines
translated := []any{}
for i := 0; i < len(codelines); {
indent := len(codelines[i].code) - len(strings.TrimLeft(codelines[i].code, " "))
if indent != setindent {
return nil, false, ArErr{"Syntax Error", "invalid indent", code.line, code.path, code.realcode, true}, 1
return nil, false, ArErr{"Syntax Error", "invalid indent", code.line, code.path, codelines[i].code, true}, 1
}
val, _, err, step := translateVal(codelines[i], i, codelines, 2)
val, _, err, step := translateVal(codelines[i], i, codelines, 3)
i += step
if err.EXISTS {
return nil, false, err, i - index
}
translated = append(translated, val)
}
return dowrap{run: translated, line: code.line, path: code.path, code: code.realcode}, true, ArErr{}, i - index
return dowrap{run: translated, line: code.line, path: code.path, code: code.realcode}, true, ArErr{}, finalLines - index
}
func runDoWrap(d dowrap, stack stack, stacklevel int) (any, ArErr) {
newstack := append(stack, newscope())
func runDoWrap(d dowrap, Stack stack, stacklevel int) (any, ArErr) {
newstack := append(Stack, newscope())
newstackCopy := make(stack, len(newstack))
copy(newstackCopy, newstack)
for _, v := range d.run {
val, err := runVal(v, newstack, stacklevel+1)
val, err := runVal(v, newstackCopy, stacklevel+1)
if err.EXISTS {
return nil, err
}
switch x := val.(type) {
case Return:
return x, ArErr{}
case Break:
case Return, Break, Continue:
return x, ArErr{}
}
}

29
src/env.go Normal file
View File

@@ -0,0 +1,29 @@
package main
import (
"os"
"strings"
"github.com/joho/godotenv"
)
// get the environment variables
func getEnv() ArObject {
env := make(anymap)
for _, e := range os.Environ() {
pair := strings.Split(e, "=")
env[pair[0]] = ArString(pair[1])
}
err := godotenv.Load(".env")
if err == nil {
values, err := godotenv.Read()
if err == nil {
for k, v := range values {
env[k] = ArString(v)
}
}
}
return Map(env)
}
var env = getEnv()

33
src/error.go
View File

@@ -2,8 +2,6 @@ package main
import (
"fmt"
"github.com/jwalton/go-supportscolor"
)
type ArErr struct {
@@ -15,15 +13,38 @@ type ArErr struct {
EXISTS bool
}
func ArThrowError(a ...any) (any, ArErr) {
if len(a) != 2 {
return nil, ArErr{
TYPE: "Type Error",
message: "throwError takes 2 arguments, " + fmt.Sprint(len(a)) + " given",
EXISTS: true,
}
} else if typeof(a[0]) != "string" {
return nil, ArErr{
TYPE: "Type Error",
message: "throwError type must be a string",
EXISTS: true,
}
} else if typeof(a[1]) != "string" {
return nil, ArErr{
TYPE: "Type Error",
message: "throwError message must be a string",
EXISTS: true,
}
}
return nil, ArErr{
TYPE: ArValidToAny(a[0]).(string),
message: ArValidToAny(a[1]).(string),
EXISTS: true,
}
}
func panicErr(err ArErr) {
if err.code != "" && err.line != 0 && err.path != "" {
fmt.Println(" File:", err.path+":"+fmt.Sprint(err.line))
fmt.Println(" " + err.code)
fmt.Println()
}
if supportscolor.Stdout().SupportsColor {
fmt.Printf("\x1b[%dm%s\x1b[0m", 91, fmt.Sprint(err.TYPE, ": ", err.message, "\n"))
} else {
fmt.Println(fmt.Sprint(err.TYPE, ": ", err.message))
}
}

41
src/eval_function.go Normal file
View File

@@ -0,0 +1,41 @@
package main
import "fmt"
func AReval(a ...any) (any, ArErr) {
if len(a) < 1 || len(a) > 2 {
return nil, ArErr{TYPE: "Type Error", message: "expected 1 or 2 argument, got " + fmt.Sprint(len(a)), EXISTS: true}
}
var expression string
if typeof(a[0]) != "string" {
return nil, ArErr{TYPE: "Type Error", message: "expected string as first argument, got " + typeof(a[0]), EXISTS: true}
}
expression = ArValidToAny(a[0]).(string)
// translate the expression
var code UNPARSEcode = UNPARSEcode{
code: expression,
realcode: expression,
line: 0,
path: "eval",
}
translated, err := translate([]UNPARSEcode{code})
if err.EXISTS {
return nil, err
}
var scope ArObject
if len(a) == 2 {
if typeof(a[1]) != "map" {
return nil, ArErr{TYPE: "Type Error", message: "expected map as second argument, got " + typeof(a[1]), EXISTS: true}
}
scope = a[1].(ArObject)
} else {
scope = newscope()
}
var stack stack = []ArObject{scope}
// run the translated expression
return run(translated, stack)
}

38
src/factorial.go
View File

@@ -28,36 +28,26 @@ func isFactorial(code UNPARSEcode) bool {
return factorialCompiled.MatchString(code.code)
}
func fact(n number) number {
if n.Cmp(newNumber().SetInt64(1000)) >= 0 {
return infinity
} else if n.Cmp(newNumber().SetInt64(0)) == -1 {
return newNumber().SetInt64(0)
} else if n.Cmp(newNumber().SetInt64(0)) == 0 {
return newNumber().SetInt64(1)
}
result := newNumber().SetInt64(1)
for i := newNumber().SetInt64(2); i.Cmp(n) <= 0; i.Add(i, newNumber().SetInt64(1)) {
result.Mul(result, i)
}
return result
}
func runFactorial(f factorial, stack stack, stacklevel int) (any, ArErr) {
val, err := runVal(f.value, stack, stacklevel+1)
if err.EXISTS {
return nil, err
}
switch x := val.(type) {
case number:
if !x.IsInt() {
return nil, ArErr{"Runtime Error", "cannot use factorial on non-integer", f.line, f.path, f.code, true}
switch val := val.(type) {
case ArObject:
if callable, ok := val.obj["__factorial__"]; ok {
return runCall(call{
Callable: callable,
Args: []any{},
Code: f.code,
Line: f.line,
Path: f.path,
}, stack, stacklevel)
}
if x.Cmp(newNumber().SetInt64(0)) == -1 {
return nil, ArErr{"Runtime Error", "cannot use factorial on negative number", f.line, f.path, f.code, true}
}
return fact(x), ArErr{}
default:
return nil, ArErr{"Runtime Error", "cannot use factorial on non-number of type '" + typeof(val) + "'", f.line, f.path, f.code, true}
return nil, ArErr{
TYPE: "TypeError",
message: "factorial not defined for type",
EXISTS: true,
}
}

193
src/file.go
View File

@@ -5,13 +5,80 @@ import (
"fmt"
"io"
"os"
"github.com/gabriel-vasile/mimetype"
)
var ArFile = Map(anymap{
"read": builtinFunc{"read", ArRead},
"write": builtinFunc{"write", ArWrite},
"move": builtinFunc{"move", ARmoveFile},
"copy": builtinFunc{"copy", ARcopyFile},
})
func ARmoveFile(args ...any) (any, ArErr) {
if len(args) != 2 {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: "move takes 2 arguments, got " + fmt.Sprint(len(args)), EXISTS: true}
}
if typeof(args[0]) != "string" {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: "move takes a string not type '" + typeof(args[0]) + "'", EXISTS: true}
}
if typeof(args[1]) != "string" {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: "move takes a string not type '" + typeof(args[1]) + "'", EXISTS: true}
}
args[0] = ArValidToAny(args[0])
args[1] = ArValidToAny(args[1])
err := os.Rename(args[0].(string), args[1].(string))
if err != nil {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: err.Error(), EXISTS: true}
}
return nil, ArErr{}
}
func copyFile(src, dst string) (int64, error) {
sourceFileStat, err := os.Stat(src)
if err != nil {
return 0, err
}
if !sourceFileStat.Mode().IsRegular() {
return 0, fmt.Errorf("%s is not a regular file", src)
}
source, err := os.Open(src)
if err != nil {
return 0, err
}
defer source.Close()
destination, err := os.Create(dst)
if err != nil {
return 0, err
}
defer destination.Close()
nBytes, err := io.Copy(destination, source)
return nBytes, err
}
func ARcopyFile(args ...any) (any, ArErr) {
if len(args) != 2 {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: "copy takes 2 arguments, got " + fmt.Sprint(len(args)), EXISTS: true}
}
if typeof(args[0]) != "string" {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: "copy takes a string not type '" + typeof(args[0]) + "'", EXISTS: true}
}
if typeof(args[1]) != "string" {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: "copy takes a string not type '" + typeof(args[1]) + "'", EXISTS: true}
}
args[0] = ArValidToAny(args[0])
args[1] = ArValidToAny(args[1])
_, err := copyFile(args[0].(string), args[1].(string))
if err != nil {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: err.Error(), EXISTS: true}
}
return nil, ArErr{}
}
func readtext(file *os.File) (string, error) {
var buf bytes.Buffer
_, err := io.Copy(&buf, file)
@@ -21,6 +88,15 @@ func readtext(file *os.File) (string, error) {
return buf.String(), nil
}
func readbinary(file *os.File) ([]byte, error) {
var buf bytes.Buffer
_, err := io.Copy(&buf, file)
if err != nil {
return nil, err
}
return buf.Bytes(), nil
}
func ArRead(args ...any) (any, ArErr) {
if len(args) != 1 {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: "read takes 1 argument, got " + fmt.Sprint(len(args)), EXISTS: true}
@@ -34,6 +110,18 @@ func ArRead(args ...any) (any, ArErr) {
if err != nil {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: err.Error(), EXISTS: true}
}
fileInfo, err := os.Stat(filename)
if err != nil {
if os.IsNotExist(err) {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: "File does not exist: " + filename, EXISTS: true}
} else {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: err.Error(), EXISTS: true}
}
} else if fileInfo.Mode().IsDir() {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: "path goes to a directory, not a file: " + filename, EXISTS: true}
}
return Map(anymap{
"text": builtinFunc{"text", func(...any) (any, ArErr) {
text, err := readtext(file)
@@ -47,7 +135,78 @@ func ArRead(args ...any) (any, ArErr) {
if err != nil {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: err.Error(), EXISTS: true}
}
return jsonparse(text), ArErr{}
return jsonparse(text)
}},
"contentType": builtinFunc{"contentType", func(...any) (any, ArErr) {
file.Seek(0, io.SeekStart)
mimetype, err := mimetype.DetectReader(file)
if err != nil {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: err.Error(), EXISTS: true}
}
return mimetype.String(), ArErr{}
}},
"buffer": builtinFunc{"buffer", func(args ...any) (any, ArErr) {
if len(args) > 1 {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: "buffer takes 0 or 1 argument, got " + fmt.Sprint(len(args)), EXISTS: true}
}
if len(args) == 1 {
if typeof(args[0]) != "number" {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: "buffer takes a number not type '" + typeof(args[0]) + "'", EXISTS: true}
}
size, err := numberToInt64(args[0].(ArObject))
if err != nil {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: err.Error(), EXISTS: true}
}
buf := make([]byte, size)
n, err := file.Read(buf)
if err != nil {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: err.Error(), EXISTS: true}
}
return ArBuffer(buf[:n]), ArErr{}
}
bytes, err := readbinary(file)
if err != nil {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: err.Error(), EXISTS: true}
}
return ArBuffer(bytes), ArErr{}
}},
"seek": builtinFunc{"seek", func(args ...any) (any, ArErr) {
if len(args) != 1 {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: "seek takes 1 argument, got " + fmt.Sprint(len(args)), EXISTS: true}
}
if typeof(args[0]) != "number" {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: "seek takes a number not type '" + typeof(args[0]) + "'", EXISTS: true}
}
offset, Err := numberToInt64(args[0].(ArObject))
if Err != nil {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: Err.Error(), EXISTS: true}
}
_, err := file.Seek(offset, io.SeekStart)
if err != nil {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: err.Error(), EXISTS: true}
}
return nil, ArErr{}
}},
"size": builtinFunc{"size", func(...any) (any, ArErr) {
info, err := file.Stat()
if err != nil {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: err.Error(), EXISTS: true}
}
return Number(info.Size()), ArErr{}
}},
"ModTime": builtinFunc{"ModTime", func(...any) (any, ArErr) {
info, err := file.Stat()
if err != nil {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: err.Error(), EXISTS: true}
}
return ArTimeClass(info.ModTime()), ArErr{}
}},
"close": builtinFunc{"close", func(...any) (any, ArErr) {
err := file.Close()
if err != nil {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: err.Error(), EXISTS: true}
}
return nil, ArErr{}
}},
}), ArErr{}
}
@@ -73,7 +232,25 @@ func ArWrite(args ...any) (any, ArErr) {
if typeof(args[0]) != "string" {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: "text takes a string not type '" + typeof(args[0]) + "'", EXISTS: true}
}
file.Write([]byte(args[0].(string)))
args[0] = ArValidToAny(args[0])
_, err = file.Write([]byte(args[0].(string)))
if err != nil {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: err.Error(), EXISTS: true}
}
return nil, ArErr{}
}},
"buffer": builtinFunc{"buffer", func(args ...any) (any, ArErr) {
if len(args) != 1 {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: "buffer takes 1 argument, got " + fmt.Sprint(len(args)), EXISTS: true}
}
if typeof(args[0]) != "buffer" {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: "buffer takes a buffer not type '" + typeof(args[0]) + "'", EXISTS: true}
}
args[0] = ArValidToAny(args[0])
_, err = file.Write(args[0].([]byte))
if err != nil {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: err.Error(), EXISTS: true}
}
return nil, ArErr{}
}},
"json": builtinFunc{"json", func(args ...any) (any, ArErr) {
@@ -84,7 +261,17 @@ func ArWrite(args ...any) (any, ArErr) {
if err != nil {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: err.Error(), EXISTS: true}
}
file.Write([]byte(jsonstr))
_, err = file.Write([]byte(jsonstr))
if err != nil {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: err.Error(), EXISTS: true}
}
return nil, ArErr{}
}},
"close": builtinFunc{"close", func(...any) (any, ArErr) {
err := file.Close()
if err != nil {
return ArObject{}, ArErr{TYPE: "Runtime Error", message: err.Error(), EXISTS: true}
}
return nil, ArErr{}
}},
}), ArErr{}

76
src/forloop.go
View File

@@ -51,7 +51,7 @@ func parseForLoop(code UNPARSEcode, index int, codelines []UNPARSEcode) (forLoop
innertotalstep += stepstep - 1
stepval = stepval_
} else {
stepval = newNumber().SetInt64(1)
stepval = _one_Number
}
to := strings.TrimSpace(valsplit[0])
toval, worked, err, tostep := translateVal(UNPARSEcode{code: to, realcode: code.realcode, line: code.line, path: code.path}, index, codelines, 0)
@@ -63,7 +63,7 @@ func parseForLoop(code UNPARSEcode, index int, codelines []UNPARSEcode) (forLoop
}
innertotalstep += tostep - 1
body := strings.Join(tosplit[i:], ")")
bodyval, worked, err, bodystep := translateVal(UNPARSEcode{code: body, realcode: code.realcode, line: code.line, path: code.path}, index, codelines, 1)
bodyval, worked, err, bodystep := translateVal(UNPARSEcode{code: body, realcode: code.realcode, line: code.line, path: code.path}, index, codelines, 3)
if !worked {
if i == 0 {
return forLoop{}, worked, err, bodystep
@@ -83,7 +83,7 @@ func runForLoop(loop forLoop, stack stack, stacklevel int) (any, ArErr) {
if typeof(fromval) != "number" {
return nil, ArErr{"Type Error", "for loop from value must be a number", loop.line, loop.path, loop.code, true}
}
from := fromval.(number)
from := fromval.(ArObject)
toval, err := runVal(loop.to, stack, stacklevel+1)
if err.EXISTS {
return nil, err
@@ -91,7 +91,7 @@ func runForLoop(loop forLoop, stack stack, stacklevel int) (any, ArErr) {
if typeof(toval) != "number" {
return nil, ArErr{"Type Error", "for loop to value must be a number", loop.line, loop.path, loop.code, true}
}
to := toval.(number)
to := toval.(ArObject)
stepval, err := runVal(loop.step, stack, stacklevel+1)
if err.EXISTS {
return nil, err
@@ -99,11 +99,16 @@ func runForLoop(loop forLoop, stack stack, stacklevel int) (any, ArErr) {
if typeof(stepval) != "number" {
return nil, ArErr{"Type Error", "for loop step value must be a number", loop.line, loop.path, loop.code, true}
}
step := stepval.(number)
for i := newNumber().Set(from); i.Cmp(to) == -1; i = i.Add(i, step) {
resp, err := runVal(loop.body, append(stack, Map(anymap{
loop.variable: newNumber().Set(i),
})), stacklevel+1)
step := stepval.(ArObject)
if isNumberInt64(from) && isNumberInt64(to) && isNumberInt64(step) {
i, _ := numberToInt64(from)
to_, _ := numberToInt64(to)
step_, _ := numberToInt64(step)
layer := anymap{}
stacks := append(stack, Map(layer))
for i < to_ {
layer[loop.variable] = Number(i)
resp, err := runVal(loop.body, stacks, stacklevel+1)
if err.EXISTS {
return nil, err
}
@@ -113,7 +118,58 @@ func runForLoop(loop forLoop, stack stack, stacklevel int) (any, ArErr) {
case Break:
return nil, ArErr{}
case Continue:
continue
}
i += step_
}
return nil, ArErr{}
}
i := from
direction_obj, err := CompareObjects(step, _zero_Number)
if err.EXISTS {
return nil, err
}
currentDirection_obj, err := CompareObjects(to, i)
if err.EXISTS {
return nil, err
}
currentDirection, error := numberToInt64(currentDirection_obj)
if error != nil {
return nil, ArErr{"Type Error", error.Error(), loop.line, loop.path, loop.code, true}
}
direction, error := numberToInt64(direction_obj)
if error != nil {
return nil, ArErr{"Type Error", error.Error(), loop.line, loop.path, loop.code, true}
}
layer := anymap{}
stacks := append(stack, Map(layer))
for currentDirection == direction {
layer[loop.variable] = i
resp, err := runVal(loop.body, stacks, stacklevel+1)
if err.EXISTS {
return nil, err
}
switch x := resp.(type) {
case Return:
return x, ArErr{}
case Break:
return nil, ArErr{}
case Continue:
}
i, err = AddObjects(i, step)
if err.EXISTS {
return nil, err
}
currentDirection_obj, err = CompareObjects(to, i)
if err.EXISTS {
return nil, err
}
currentDirection, error = numberToInt64(currentDirection_obj)
if error != nil {
return nil, ArErr{"Type Error", error.Error(), loop.line, loop.path, loop.code, true}
}
direction, error = numberToInt64(direction_obj)
if error != nil {
return nil, ArErr{"Type Error", error.Error(), loop.line, loop.path, loop.code, true}
}
}
return nil, ArErr{}

63
src/getIndex.go
View File

@@ -15,10 +15,11 @@ var indexGetCompile = makeRegex(`(.|\n)+\[(.|\n)+\]( *)`)
type ArMapGet struct {
VAL any
args []any
line int
code string
path string
Args []any
IncludeConstuctors bool
Line int
Code string
Path string
}
func mapGet(r ArMapGet, stack stack, stacklevel int) (any, ArErr) {
@@ -28,36 +29,33 @@ func mapGet(r ArMapGet, stack stack, stacklevel int) (any, ArErr) {
}
switch m := resp.(type) {
case ArObject:
if _, ok := m.obj["__getindex__"]; ok {
callable := m.obj["__getindex__"]
if r.IncludeConstuctors {
if obj, ok := m.obj[r.Args[0]]; ok {
return obj, ArErr{}
}
}
if callable, ok := m.obj["__getindex__"]; ok {
resp, err := runCall(call{
callable: callable,
args: r.args,
line: r.line,
path: r.path,
code: r.code,
Callable: callable,
Args: r.Args,
Line: r.Line,
Path: r.Path,
Code: r.Code,
}, stack, stacklevel+1)
if !err.EXISTS {
return resp, ArErr{}
}
if len(r.args) == 1 && !isUnhashable(r.args[0]) {
if _, ok := m.obj[r.args[0]]; ok {
return m.obj[r.args[0]], ArErr{}
}
}
return resp, err
}
}
key, err := runVal(r.args[0], stack, stacklevel+1)
key, err := runVal(r.Args[0], stack, stacklevel+1)
if err.EXISTS {
return nil, err
}
return nil, ArErr{
"TypeError",
"Type Error",
"cannot read " + anyToArgon(key, true, true, 3, 0, false, 0) + " from type '" + typeof(resp) + "'",
r.line,
r.path,
r.code,
r.Line,
r.Path,
r.Code,
true,
}
}
@@ -75,7 +73,7 @@ func mapGetParse(code UNPARSEcode, index int, codelines []UNPARSEcode) (ArMapGet
if !worked {
return ArMapGet{}, false, err, i
}
return ArMapGet{resp, []any{key}, code.line, code.realcode, code.path}, true, ArErr{}, 1
return ArMapGet{resp, []any{key}, true, code.line, code.realcode, code.path}, true, ArErr{}, 1
}
func isIndexGet(code UNPARSEcode) bool {
@@ -113,7 +111,7 @@ func indexGetParse(code UNPARSEcode, index int, codelines []UNPARSEcode) (ArMapG
}
continue
}
return ArMapGet{tival, args, code.line, code.realcode, code.path}, true, ArErr{}, 1
return ArMapGet{tival, args, false, code.line, code.realcode, code.path}, true, ArErr{}, 1
}
return ArMapGet{}, false, ArErr{
"Syntax Error",
@@ -125,19 +123,10 @@ func indexGetParse(code UNPARSEcode, index int, codelines []UNPARSEcode) (ArMapG
}, 1
}
var hashabletypes = []string{
"number",
"string",
"bool",
"null",
}
func isUnhashable(val any) bool {
keytype := typeof(val)
for _, v := range hashabletypes {
if v == keytype {
switch val.(type) {
case int64, float64, string, bool, nil:
return false
}
}
return true
}

8
src/ifstatement.go
View File

@@ -32,6 +32,7 @@ func parseIfStatement(code UNPARSEcode, index int, codeline []UNPARSEcode) (ifst
conditions := []statement{}
var ELSE any
i := index
codeline[i] = code
for i < len(codeline) && (elseifstatmentCompile.MatchString(codeline[i].code) || i == index) {
trimmed := strings.TrimSpace(codeline[i].code)
trimmed = strings.TrimSpace(trimmed[strings.Index(trimmed, "("):])
@@ -50,8 +51,7 @@ func parseIfStatement(code UNPARSEcode, index int, codeline []UNPARSEcode) (ifst
},
i,
codeline,
0,
)
0)
if err.EXISTS || !worked {
if j == 1 {
return ifstatement{}, worked, err, step
@@ -70,7 +70,7 @@ func parseIfStatement(code UNPARSEcode, index int, codeline []UNPARSEcode) (ifst
},
i,
codeline,
2,
3,
)
if err.EXISTS || !worked {
return ifstatement{}, worked, err, step
@@ -99,7 +99,7 @@ func parseIfStatement(code UNPARSEcode, index int, codeline []UNPARSEcode) (ifst
},
i,
codeline,
2,
3,
)
if err.EXISTS {
return ifstatement{}, false, err, step

185
src/import.go
View File

@@ -2,30 +2,27 @@ package main
import (
"bufio"
"errors"
"log"
"os"
"path/filepath"
)
var imported = make(map[string]ArObject)
var translatedImports = make(map[string]translatedImport)
var importing = make(map[string]bool)
func FileExists(filename string) bool {
if _, err := os.Stat(filename); err == nil {
return true
const modules_folder = "argon_modules"
} else if errors.Is(err, os.ErrNotExist) {
return false
} else {
return false
func FileExists(filename string) bool {
if info, err := os.Stat(filename); err == nil && !info.IsDir() {
return true
}
return false
}
func readFile(path string) []UNPARSEcode {
func readFile(path string) ([]UNPARSEcode, error) {
file, err := os.Open(path)
if err != nil {
log.Fatal(err)
return nil
return nil, err
}
defer file.Close()
@@ -40,33 +37,72 @@ func readFile(path string) []UNPARSEcode {
}
if err := scanner.Err(); err != nil {
log.Fatal(err)
return nil
return nil, err
}
return output
return output, nil
}
func importMod(realpath string, origin string, main bool, global ArObject) (ArObject, ArErr) {
return ArObject{}, ArErr{
TYPE: "Import Error",
message: "importing in WASM is currently not supported",
EXISTS: true,
type translatedImport struct {
translated []any
p string
path string
origin string
}
var runTranslatedImport func(translatedImport, ArObject, bool) (ArObject, ArErr)
var ex string
var exc string
var exc_dir string
func init() {
runTranslatedImport = __runTranslatedImport
ex, _ = os.Getwd()
exc, _ = os.Executable()
exc_dir = filepath.Dir(exc)
}
func __runTranslatedImport(translatedImport translatedImport, global ArObject, main bool) (ArObject, ArErr) {
if _, ok := imported[translatedImport.p]; ok {
return imported[translatedImport.p], ArErr{}
}
/*
ArgsArArray := []any{}
withoutarfile := []string{}
if len(Args) > 1 {
withoutarfile = Args[1:]
}
for _, arg := range withoutarfile {
ArgsArArray = append(ArgsArArray, arg)
}
local := newscope()
localvars := Map(anymap{
"program": Map(anymap{
"args": ArArray(ArgsArArray),
"origin": ArString(translatedImport.origin),
"cwd": ArString(ex),
"exc": ArString(exc),
"file": Map(anymap{
"name": ArString(filepath.Base(translatedImport.p)),
"path": ArString(translatedImport.p),
}),
"main": main,
}),
})
imported[translatedImport.p] = local
_, runimeErr := run(translatedImport.translated, stack{global, localvars, local})
if runimeErr.EXISTS {
return ArObject{}, runimeErr
}
return local, ArErr{}
}
func translateImport(realpath string, origin string, topLevelOnly bool) (translatedImport, ArErr) {
extention := filepath.Ext(realpath)
path := realpath
if extention == "" {
path += ".ar"
}
ex, err := os.Getwd()
if err != nil {
return ArObject{}, ArErr{TYPE: "Import Error", message: "Could not get working directory", EXISTS: true}
}
exc, err := os.Executable()
if err != nil {
return ArObject{}, ArErr{TYPE: "Import Error", message: "Could not get executable", EXISTS: true}
}
executable := filepath.Dir(exc)
isABS := filepath.IsAbs(path)
var pathsToTest []string
if isABS {
@@ -76,18 +112,26 @@ func importMod(realpath string, origin string, main bool, global ArObject) (ArOb
}
} else {
pathsToTest = []string{
filepath.Join(origin, realpath, "init.ar"),
filepath.Join(origin, path),
filepath.Join(origin, "modules", path),
filepath.Join(origin, "modules", realpath, "init.ar"),
filepath.Join(ex, path),
filepath.Join(ex, "modules", realpath, "init.ar"),
filepath.Join(ex, "modules", path),
filepath.Join(executable, "modules", realpath, "init.ar"),
filepath.Join(executable, "modules", path),
filepath.Join(exc_dir, path),
filepath.Join(exc_dir, realpath, "init.ar"),
filepath.Join(exc_dir, modules_folder, path),
filepath.Join(exc_dir, modules_folder, realpath, "init.ar"),
}
var currentPath string = origin
var oldPath string = ""
for currentPath != oldPath {
pathsToTest = append(pathsToTest,
filepath.Join(currentPath, path),
filepath.Join(currentPath, realpath, "init.ar"),
filepath.Join(currentPath, modules_folder, path),
filepath.Join(currentPath, modules_folder, realpath, "init.ar"))
if topLevelOnly {
break
}
oldPath = currentPath
currentPath = filepath.Dir(currentPath)
}
}
var p string
var found bool
for _, p = range pathsToTest {
@@ -98,57 +142,26 @@ func importMod(realpath string, origin string, main bool, global ArObject) (ArOb
}
if !found {
return ArObject{}, ArErr{TYPE: "Import Error", message: "File does not exist: " + realpath, EXISTS: true}
return translatedImport{}, ArErr{TYPE: "Import Error", message: "File does not exist: " + path, EXISTS: true}
} else if importing[p] {
return ArObject{}, ArErr{TYPE: "Import Error", message: "Circular import: " + realpath, EXISTS: true}
} else if _, ok := imported[p]; ok {
return imported[p], ArErr{}
return translatedImport{}, ArErr{TYPE: "Import Error", message: "Circular import: " + path, EXISTS: true}
} else if _, ok := translatedImports[p]; ok {
return translatedImports[p], ArErr{}
}
importing[p] = true
codelines := readFile(p)
codelines, err := readFile(p)
if err != nil {
return translatedImport{}, ArErr{TYPE: "Import Error", message: "Could not read file: " + path, EXISTS: true}
}
importing[p] = true
translated, translationerr := translate(codelines)
if translationerr.EXISTS {
return ArObject{}, translationerr
}
ArgsArArray := []any{}
withoutarfile := []string{}
if len(Args) > 1 {
withoutarfile = Args[1:]
}
for _, arg := range withoutarfile {
ArgsArArray = append(ArgsArArray, arg)
}
global := newscope()
localvars := Map(anymap{
"program": Map(anymap{
"args": ArArray(ArgsArArray),
"origin": origin,
"import": builtinFunc{"import", func(args ...any) (any, ArErr) {
if len(args) != 1 {
return nil, ArErr{"Import Error", "Invalid number of arguments", 0, realpath, "", true}
}
if _, ok := args[0].(string); !ok {
return nil, ArErr{"Import Error", "Invalid argument type", 0, realpath, "", true}
}
return importMod(args[0].(string), filepath.Dir(p), false)
}},
"cwd": ex,
"exc": exc,
"file": Map(anymap{
"name": filepath.Base(p),
"path": p,
}),
"main": main,
"scope": global,
}),
})
_, runimeErr := ThrowOnNonLoop(run(translated, stack{vars, localvars, global}))
importing[p] = false
if runimeErr.EXISTS {
return ArObject{}, runimeErr
if translationerr.EXISTS {
return translatedImport{}, translationerr
}
imported[p] = global
return global, ArErr{}
*/
translatedImports[p] = translatedImport{translated, p, path, origin}
return translatedImports[p], ArErr{}
}

1
src/infinity.go Normal file
View File

@@ -0,0 +1 @@
package main

73
src/input.go
View File

@@ -2,25 +2,35 @@ package main
import (
"fmt"
"log"
"os"
"syscall/js"
"github.com/chzyer/readline"
"golang.org/x/term"
)
func input(args ...any) string {
var tempFilePath = os.TempDir() + "/argon_input_history.tmp"
func input(args ...any) (string, error) {
output := []any{}
for i := 0; i < len(args); i++ {
output = append(output, anyToArgon(args[i], false, true, 3, 0, true, 0))
if i != len(args)-1 {
output = append(output, " ")
}
message := fmt.Sprint(output...)
rl, err := readline.NewEx(&readline.Config{
Prompt: message,
HistoryFile: tempFilePath,
HistorySearchFold: true,
})
if err != nil {
log.Fatalf("Failed to create readline instance: %v", err)
}
text := fmt.Sprint(output...)
fmt.Print(text)
inputData := js.Global().Get("getInput").Invoke(fmt.Sprint(output...)).String()
fmt.Println(inputData)
return (inputData)
defer rl.Close()
line, err := rl.Readline()
if err != nil { // io.EOF or other error
return "", err
}
return line, nil
}
func getPassword(args ...any) (string, error) {
@@ -28,36 +38,25 @@ func getPassword(args ...any) (string, error) {
for i := 0; i < len(args); i++ {
output = append(output, anyToArgon(args[i], false, true, 3, 0, true, 0))
}
fmt.Print(output...)
password := []byte{}
oldState, err := term.MakeRaw(int(os.Stdin.Fd()))
message := fmt.Sprint(output...)
rl, err := readline.NewEx(&readline.Config{
Prompt: message,
MaskRune: '*',
EnableMask: true,
})
if err != nil {
panic(err)
log.Fatalf("Failed to create readline instance: %v", err)
}
defer term.Restore(int(os.Stdin.Fd()), oldState)
for {
char := make([]byte, 1)
_, err := os.Stdin.Read(char)
if err != nil {
defer rl.Close()
line, err := rl.Readline()
if err != nil { // io.EOF or other error
return "", err
}
if char[0] == 3 || char[0] == 4 {
return "", fmt.Errorf("keyboard interupt")
} else if char[0] == '\r' || char[0] == '\n' {
fmt.Println()
break
} else if char[0] == '\b' || char[0] == 127 {
if len(password) > 0 {
password = password[:len(password)-1]
fmt.Print("\b \b")
}
} else {
password = append(password, char[0])
fmt.Print("*")
}
}
fmt.Print("\r")
return string(password), nil
return line, nil
}
func pause() {
fmt.Print("Press Enter to continue...")
term.ReadPassword(int(os.Stdin.Fd()))
fmt.Println()
}

79
src/json.go
View File

@@ -3,9 +3,7 @@ package main
import (
"encoding/json"
"errors"
"math"
"strconv"
"strings"
)
func convertToArgon(obj any) any {
@@ -22,9 +20,9 @@ func convertToArgon(obj any) any {
}
return ArArray(x)
case string:
return x
return ArString(x)
case float64:
return newNumber().SetFloat64(x)
return Number(x)
case bool:
return x
case nil:
@@ -33,45 +31,40 @@ func convertToArgon(obj any) any {
return nil
}
func jsonparse(str string) any {
func jsonparse(str string) (any, ArErr) {
var jsonMap any
json.Unmarshal([]byte(str), &jsonMap)
return convertToArgon(jsonMap)
var err = json.Unmarshal([]byte(str), &jsonMap)
if err != nil {
return nil, ArErr{TYPE: "Runtime Error", message: err.Error(), EXISTS: true}
}
return convertToArgon(jsonMap), ArErr{}
}
func jsonstringify(obj any, level int) (string, error) {
func jsonstringify(obj any, level int64) (string, error) {
if level > 100 {
return "", errors.New("json stringify error: too many levels")
}
output := []string{}
obj = ArValidToAny(obj)
switch x := obj.(type) {
case ArObject:
for key, value := range x.obj {
str, err := jsonstringify(value, level+1)
if err != nil {
return "", err
if callable, ok := x.obj["__json__"]; ok {
val, err := runCall(
call{
Callable: callable,
Args: []any{Int64ToNumber(level)},
},
stack{},
0,
)
if err.EXISTS {
return "", errors.New(err.message)
}
output = append(output, ""+strconv.Quote(anyToArgon(key, false, true, 3, 0, false, 0))+": "+str)
val = ArValidToAny(val)
if x, ok := val.(string); ok {
return x, nil
} else {
return "", errors.New("json stringify error: __json__ must return a string")
}
return "{" + strings.Join(output, ", ") + "}", nil
case []any:
for _, value := range x {
str, err := jsonstringify(value, level+1)
if err != nil {
return "", err
}
output = append(output, str)
}
return "[" + strings.Join(output, ", ") + "]", nil
case string:
return strconv.Quote(x), nil
case number:
num, _ := x.Float64()
if math.IsNaN(num) || math.IsInf(num, 0) {
return "null", nil
}
return numberToString(x, false), nil
case bool:
return strconv.FormatBool(x), nil
case nil:
@@ -89,16 +82,28 @@ var ArJSON = Map(anymap{
if typeof(args[0]) != "string" {
return nil, ArErr{TYPE: "Runtime Error", message: "parse takes a string not a '" + typeof(args[0]) + "'", EXISTS: true}
}
return jsonparse(args[0].(string)), ArErr{}
args[0] = ArValidToAny(args[0])
return jsonparse(args[0].(string))
}},
"stringify": builtinFunc{"stringify", func(args ...any) (any, ArErr) {
if len(args) == 0 {
return nil, ArErr{TYPE: "Runtime Error", message: "stringify takes 1 argument", EXISTS: true}
if len(args) != 1 && len(args) != 2 {
return nil, ArErr{TYPE: "Runtime Error", message: "stringify takes 1 or 2 arguments", EXISTS: true}
}
str, err := jsonstringify(args[0], 0)
var level int64 = 0
if len(args) == 2 {
if typeof(args[1]) != "number" {
return nil, ArErr{TYPE: "Runtime Error", message: "stringify takes a number not a '" + typeof(args[1]) + "'", EXISTS: true}
}
var err error
level, err = numberToInt64(args[1].(ArObject))
if err != nil {
return nil, ArErr{TYPE: "Runtime Error", message: err.Error(), EXISTS: true}
}
return str, ArErr{}
}
str, err := jsonstringify(args[0], level)
if err != nil {
return nil, ArErr{TYPE: "Runtime Error", message: err.Error(), EXISTS: true}
}
return ArString(str), ArErr{}
}},
})

25
src/jumpStatements.go
View File

@@ -4,7 +4,7 @@ import (
"strings"
)
var returnCompile = makeRegex(`( *)return( +)(.|\n)+`)
var returnCompile = makeRegex(`( *)return(( +)(.|\n)+)?`)
var breakCompile = makeRegex(`( *)break( *)`)
var continueCompile = makeRegex(`( *)continue( *)`)
@@ -45,12 +45,17 @@ func isContinue(code UNPARSEcode) bool {
}
func parseReturn(code UNPARSEcode, index int, codeline []UNPARSEcode) (CallReturn, bool, ArErr, int) {
resp, worked, err, i := translateVal(UNPARSEcode{
code: strings.TrimSpace(code.code)[6:],
val := strings.TrimSpace(code.code)[6:]
var resp any
var worked, err, i = true, ArErr{}, 1
if val != "" {
resp, worked, err, i = translateVal(UNPARSEcode{
code: val,
realcode: code.realcode,
line: code.line,
path: code.path,
}, index, codeline, 1)
}
return CallReturn{
value: resp,
line: code.line,
@@ -66,6 +71,7 @@ func runReturn(code CallReturn, stack stack, stacklevel int) (any, ArErr) {
if err.EXISTS {
return nil, err
}
v = openReturn(v)
val = v
}
return Return{
@@ -76,6 +82,19 @@ func runReturn(code CallReturn, stack stack, stacklevel int) (any, ArErr) {
}, ArErr{}
}
func translateThrowOnNonLoop(val any) ArErr {
switch x := val.(type) {
case Break:
return ArErr{"Break Error", "break can only be used in loops", x.line, x.path, x.code, true}
case Continue:
return ArErr{"Continue Error", "continue can only be used in loops", x.line, x.path, x.code, true}
case CallReturn:
return ArErr{"Return Error", "return can only be used in do wraps", x.line, x.path, x.code, true}
default:
return ArErr{}
}
}
func openReturn(resp any) any {
switch x := resp.(type) {
case Return:

32
src/logarithms.go
View File

@@ -5,19 +5,26 @@ import (
"math"
)
var N = newNumber().SetInt64(1e6)
var N = Number(1e6)
func Ln(x number) number {
output := newNumber()
output.SetInt64(1)
output.Quo(output, N)
func Ln(x ArObject) (any, ArErr) {
var output any = Number(1)
var err ArErr
output, err = runOperation(
operationType{
operation: 15,
values: []any{x},
},
stack{},
0,
)
if err.EXISTS {
return nil, err
}
n1, _ := x.Float64()
n1, _ := x_rational.Float64()
n2, _ := output.Float64()
output = newNumber().SetFloat64(math.Pow(n1, n2))
if output == nil {
output = infinity
}
output.Sub(output, newNumber().SetInt64(1))
output.Mul(output, N)
return output
@@ -37,10 +44,11 @@ func ArgonLn(a ...any) (any, ArErr) {
return nil, ArErr{TYPE: "Runtime Error", message: "ln takes a positive number",
EXISTS: true}
}
return Ln(x), ArErr{}
return Ln(x)
}
var __ln10 = Ln(newNumber().SetInt64(10))
var __ln10, _ = Ln(Number(10))
func ArgonLog(a ...any) (any, ArErr) {
if len(a) != 1 {
@@ -56,7 +64,7 @@ func ArgonLog(a ...any) (any, ArErr) {
return nil, ArErr{TYPE: "Runtime Error", message: "log takes a positive number",
EXISTS: true}
}
return Ln(x).Quo(Ln(x), __ln10), ArErr{}
return Ln(x).Quo(Ln(x), __ln10)
}
func ArgonLogN(a ...any) (any, ArErr) {

45
src/main.go
View File

@@ -3,7 +3,6 @@ package main
import (
"fmt"
"os"
"syscall/js"
)
// args without the program path
@@ -11,15 +10,23 @@ var Args = os.Args[1:]
type stack = []ArObject
const VERSION = "3.1.0 oop numbers beta 1"
const VERSION_NUM = 7
func newscope() ArObject {
return Map(anymap{})
}
func main() {
c := make(chan ArObject)
debugInit()
if !debug {
defer func() {
if r := recover(); r != nil {
fmt.Println("There was a fundamental error in argon v3 that caused it to crash.")
fmt.Println("There was a fundamental error in argon v" + VERSION + " that caused it to crash.")
fmt.Println()
fmt.Println("website:", website)
fmt.Println("docs:", docs)
fmt.Println()
if fork {
fmt.Println("This is a fork of Open-Argon. Please report this to the fork's maintainer.")
@@ -37,26 +44,26 @@ func main() {
os.Exit(1)
}
}()
initRandom()
}
garbageCollect()
obj := js.Global().Get("Object").New()
obj.Set("eval", js.FuncOf(func(this js.Value, args []js.Value) interface{} {
code := ""
allowDocument := false
if len(args) >= 1 {
code = args[0].String()
global := makeGlobal()
if len(Args) == 0 {
shell(global)
os.Exit(0)
}
if len(args) >= 2 {
allowDocument = args[1].Bool()
ex, e := os.Getwd()
if e != nil {
panic(e)
}
val, err := wasmRun(code, allowDocument)
translated, err := translateImport(Args[0], ex, true)
if err.EXISTS {
panicErr(err)
return js.Null()
os.Exit(1)
}
return js.ValueOf(argonToJsValid(val))
}))
js.Global().Set("Ar", obj)
<-c
_, runimeErr := runTranslatedImport(translated, global, true)
if runimeErr.EXISTS {
panicErr(runimeErr)
os.Exit(1)
}
threadChan.Wait()
}

421
src/map.go
View File

@@ -6,10 +6,10 @@ import (
"sync"
)
var mapCompiled = makeRegex(`( *)\{(((( *).+( *):( *).+( *))|(` + spacelessVariable + `))(( *)\,(( *).+( *):( *).+( *))|(` + spacelessVariable + `)))*\}( *)`)
var mapCompiled = makeRegex(`( )*{( |\n)*(((.|\n)+)(,(.|\n)+)*)?( |\n)*}( )*`)
type createMap struct {
body anymap
body [][2]any
code string
line int
path string
@@ -19,21 +19,112 @@ func isMap(code UNPARSEcode) bool {
return mapCompiled.MatchString(code.code)
}
func parseMap(code UNPARSEcode) (any, UNPARSEcode) {
trimmed := strings.Trim(code.code, " ")
func runCreateMap(m createMap, stack stack, stacklevel int) (any, ArErr) {
var body = m.body
var newmap = anymap{}
for _, pair := range body {
key := pair[0]
val := pair[1]
keyVal, err := runVal(key, stack, stacklevel+1)
if err.EXISTS {
return nil, err
}
keyVal = ArValidToAny(keyVal)
valVal, err := runVal(val, stack, stacklevel+1)
if err.EXISTS {
return nil, err
}
if isUnhashable(keyVal) {
return nil, ArErr{
"Type Error",
"unhashable type: '" + typeof(keyVal) + "'",
m.line,
m.path,
m.code,
true,
}
}
newmap[keyVal] = valVal
}
return Map(newmap), ArErr{}
}
func parseMap(code UNPARSEcode, index int, codelines []UNPARSEcode) (any, bool, ArErr, int) {
trimmed := strings.TrimSpace(code.code)
trimmed = trimmed[1 : len(trimmed)-1]
fmt.Println(trimmed)
return nil, UNPARSEcode{}
if len(trimmed) == 0 {
return createMap{
body: [][2]any{},
code: code.realcode,
line: code.line,
path: code.path,
}, true, ArErr{}, 1
}
var body [][2]any
var LookingAtKey bool = true
var current int
var currentKey any
var countIndex int = 1
for i := 0; i < len(trimmed); i++ {
var str string
if LookingAtKey {
if trimmed[i] != ':' {
continue
}
str = trimmed[current:i]
} else {
if trimmed[i] != ',' && i != len(trimmed)-1 {
continue
}
if i == len(trimmed)-1 {
str = trimmed[current:]
} else {
str = trimmed[current:i]
}
}
var value any
if LookingAtKey && variableCompile.MatchString(str) {
value = strings.TrimSpace(str)
} else {
val1, worked, err, indexcounted := translateVal(UNPARSEcode{code: str, realcode: code.realcode, line: code.line, path: code.path}, index, codelines, 0)
if !worked || err.EXISTS {
if i == len(trimmed)-1 {
return val1, worked, err, i
}
continue
}
value = val1
countIndex += indexcounted - 1
}
if LookingAtKey {
currentKey = value
current = i + 1
LookingAtKey = false
} else {
body = append(body, [2]any{currentKey, value})
current = i + 1
LookingAtKey = true
}
}
return createMap{
body: body,
code: code.realcode,
line: code.line,
path: code.path,
}, true, ArErr{}, countIndex
}
func Map(m anymap) ArObject {
var mutex = sync.RWMutex{}
return ArObject{
var listenersMutex = sync.RWMutex{}
var currentID uint32 = 0
listeners := map[any]map[uint32]any{}
obj := ArObject{
obj: anymap{
"__value__": m,
"__name__": "map",
"get": builtinFunc{
"get",
"get_value": builtinFunc{
"get_value",
func(args ...any) (any, ArErr) {
if len(args) < 1 || len(args) > 2 {
return nil, ArErr{
@@ -69,7 +160,7 @@ func Map(m anymap) ArObject {
func(args ...any) (any, ArErr) {
if len(args) != 1 {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "expected 1 argument, got " + fmt.Sprint(len(args)),
EXISTS: true,
}
@@ -79,12 +170,29 @@ func Map(m anymap) ArObject {
return false, ArErr{}
}
mutex.RLock()
if _, ok := m[key]; !ok {
mutex.RUnlock()
return false, ArErr{}
}
if _, ok := m[key]; ok {
mutex.RUnlock()
return true, ArErr{}
}
for k := range m {
compare, err := runOperation(
operationType{
operation: 9,
values: []any{key, k},
},
stack{},
0,
)
if err.EXISTS {
continue
}
if anyToBool(compare) {
mutex.RUnlock()
return true, ArErr{}
}
}
mutex.RUnlock()
return false, ArErr{}
},
},
"__NotContains__": builtinFunc{
@@ -92,7 +200,7 @@ func Map(m anymap) ArObject {
func(args ...any) (any, ArErr) {
if len(args) != 1 {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "expected 1 argument, got " + fmt.Sprint(len(args)),
EXISTS: true,
}
@@ -102,12 +210,29 @@ func Map(m anymap) ArObject {
return true, ArErr{}
}
mutex.RLock()
if _, ok := m[key]; !ok {
mutex.RUnlock()
return true, ArErr{}
}
if _, ok := m[key]; ok {
mutex.RUnlock()
return false, ArErr{}
}
for k := range m {
compare, err := runOperation(
operationType{
operation: 9,
values: []any{key, k},
},
stack{},
0,
)
if err.EXISTS {
continue
}
if anyToBool(compare) {
mutex.RUnlock()
return false, ArErr{}
}
}
mutex.RUnlock()
return true, ArErr{}
},
},
"__setindex__": builtinFunc{
@@ -115,11 +240,50 @@ func Map(m anymap) ArObject {
func(args ...any) (any, ArErr) {
if len(args) != 2 {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "expected 2 arguments, got " + fmt.Sprint(len(args)),
EXISTS: true,
}
}
args[0] = ArValidToAny(args[0])
if isUnhashable(args[0]) {
return nil, ArErr{
TYPE: "Runtime Error",
message: "unhashable type: " + typeof(args[0]),
EXISTS: true,
}
}
key := ArValidToAny(args[0])
listenersMutex.RLock()
if _, ok := listeners[key]; ok {
for _, v := range listeners[key] {
runCall(
call{
Callable: v,
Args: []any{args[1]},
},
stack{},
0,
)
}
}
listenersMutex.RUnlock()
mutex.Lock()
m[key] = args[1]
mutex.Unlock()
return nil, ArErr{}
},
},
"__deleteindex__": builtinFunc{
"__deleteindex__",
func(args ...any) (any, ArErr) {
if len(args) != 1 {
return nil, ArErr{
TYPE: "Type Error",
message: "expected 1 argument, got " + fmt.Sprint(len(args)),
EXISTS: true,
}
}
if isUnhashable(args[0]) {
return nil, ArErr{
TYPE: "Runtime Error",
@@ -128,8 +292,32 @@ func Map(m anymap) ArObject {
}
}
key := ArValidToAny(args[0])
mutex.RLock()
if _, ok := m[key]; !ok {
mutex.RUnlock()
return nil, ArErr{
TYPE: "KeyError",
message: "key " + fmt.Sprint(key) + " not found",
EXISTS: true,
}
}
mutex.RUnlock()
listenersMutex.RLock()
if _, ok := listeners[key]; ok {
for _, v := range listeners[key] {
runCall(
call{
Callable: v,
Args: []any{},
},
stack{},
0,
)
}
}
listenersMutex.RUnlock()
mutex.Lock()
m[key] = args[1]
delete(m, key)
mutex.Unlock()
return nil, ArErr{}
},
@@ -139,7 +327,7 @@ func Map(m anymap) ArObject {
func(args ...any) (any, ArErr) {
if len(args) != 1 {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "expected 1 argument, got " + fmt.Sprint(len(args)),
EXISTS: true,
}
@@ -153,19 +341,198 @@ func Map(m anymap) ArObject {
}
}
mutex.RLock()
if _, ok := m[key]; !ok {
if v, ok := m[key]; ok {
mutex.RUnlock()
return v, ArErr{}
}
for k := range m {
compare, err := runOperation(
operationType{
operation: 9,
values: []any{key, k},
},
stack{},
0,
)
if err.EXISTS {
continue
}
if anyToBool(compare) {
mutex.RUnlock()
return m[k], ArErr{}
}
}
mutex.RUnlock()
return nil, ArErr{
TYPE: "KeyError",
message: "key " + fmt.Sprint(key) + " not found",
EXISTS: true,
}
},
},
},
}
v := m[key]
obj.obj["__Equal__"] = builtinFunc{
"__Equal__",
func(args ...any) (any, ArErr) {
debugPrintln("Equal", args)
if len(args) != 1 {
return nil, ArErr{
TYPE: "Type Error",
message: "expected 1 argument, got " + fmt.Sprint(len(args)),
EXISTS: true,
}
}
if typeof(args[0]) != "map" {
return false, ArErr{}
}
a := ArValidToAny(args[0]).(anymap)
mutex.RLock()
if len(m) != len(a) {
mutex.RUnlock()
return v, ArErr{}
},
},
return false, ArErr{}
}
for k, v := range m {
debugPrintln(k, v)
if _, ok := a[k]; !ok {
mutex.RUnlock()
return false, ArErr{}
}
val, err := runOperation(operationType{
operation: 9,
values: []any{v, a[k]},
}, stack{}, 0)
if err.EXISTS {
return val, err
}
if !anyToBool(val) {
mutex.RUnlock()
return false, ArErr{}
}
}
mutex.RUnlock()
return true, ArErr{}
},
}
obj.obj["copy"] = builtinFunc{
"copy",
func(args ...any) (any, ArErr) {
debugPrintln("copy", args)
if len(args) != 0 {
return nil, ArErr{
TYPE: "Type Error",
message: "expected 0 arguments, got " + fmt.Sprint(len(args)),
EXISTS: true,
}
}
mutex.RLock()
newMap := make(anymap)
for k, v := range m {
newMap[k] = v
}
mutex.RUnlock()
return newMap, ArErr{}
},
}
obj.obj["addKeyChangeListener"] = builtinFunc{
"addKeyChangeListener",
func(args ...any) (any, ArErr) {
if len(args) != 2 {
return nil, ArErr{
TYPE: "Type Error",
message: "expected 2 arguments, got " + fmt.Sprint(len(args)),
EXISTS: true,
}
}
key := ArValidToAny(args[0])
if isUnhashable(key) {
return nil, ArErr{
TYPE: "Runtime Error",
message: "unhashable type: " + typeof(args[0]),
EXISTS: true,
}
}
if typeof(args[1]) != "function" {
return nil, ArErr{
TYPE: "Type Error",
message: "expected function, got " + typeof(args[1]),
EXISTS: true,
}
}
id := currentID
currentID++
listenersMutex.Lock()
if _, ok := listeners[key]; !ok {
listeners[key] = map[uint32]any{}
}
listeners[key][id] = args[1]
listenersMutex.Unlock()
return anymap{
"remove": builtinFunc{
"remove",
func(args ...any) (any, ArErr) {
if len(args) != 0 {
return nil, ArErr{
TYPE: "Type Error",
message: "expected 0 arguments, got " + fmt.Sprint(len(args)),
EXISTS: true,
}
}
listenersMutex.Lock()
delete(listeners[key], id)
listenersMutex.Unlock()
return nil, ArErr{}
},
},
}, ArErr{}
},
}
obj.obj["keys"] = builtinFunc{
"keys",
func(args ...any) (any, ArErr) {
if len(args) != 0 {
return nil, ArErr{
TYPE: "Type Error",
message: "expected 0 arguments, got " + fmt.Sprint(len(args)),
EXISTS: true,
}
}
mutex.RLock()
keys := []any{}
for k := range m {
keys = append(keys, AnyToArValid(k))
}
mutex.RUnlock()
return ArArray(keys), ArErr{}
},
}
obj.obj["__Boolean__"] = builtinFunc{
"__Boolean__",
func(args ...any) (any, ArErr) {
mutex.RLock()
if len(m) == 0 {
mutex.RUnlock()
return false, ArErr{}
}
mutex.RUnlock()
return true, ArErr{}
},
}
obj.obj["object"] = builtinFunc{
"object",
func(args ...any) (any, ArErr) {
if len(args) != 0 {
return nil, ArErr{
TYPE: "Type Error",
message: "expected 0 arguments, got " + fmt.Sprint(len(args)),
EXISTS: true,
}
}
return ArObject{
obj: m,
}, ArErr{}
},
}
return obj
}

14
src/maths constants.go
View File

@@ -1,5 +1,13 @@
package main
var PI, _ = newNumber().SetString("3.1415926535897932384626433832795028841971693993751058209749445923078164062862089986280348253421170679821480865132823066470938446095505822317253594081284811174502841027019385211055596446229489549303819644288109756659334461284756482337867831652712019091456485669234603486104543266482133936072602491412737245870066063155881748815209209628292540917153643678925903600113305305488204665213841469519415116094330572703657595919530921861173819326117931051185480744623799627495673518857527248912279381830119491298336733624406566430860213949463952247371907021798609437027705392171762931767523846748184676694051320005681271452635608277857713427577896091736371787214684409012249534301465495853710507922796892589235420199561121290219608640344181598136297747713099605187072113499999983729780499510597317328160963185950244594553469083026425223082533446850352619311881710100031378387528865875332083814206171776691473035982534904287554687311595628638823537875937519577818577805321712268066130019278766111959092164201989")
var e, _ = newNumber().SetString("2.7182818284590452353602874713526624977572470936999595749669676277240766303535475945713821785251664274274663919320030599218174135966290435729003342952605956307381323286279434907632338298807531952510190115738341879307021540891499348841675092447614606680822648001684774118537423454424371075390777449920695517027618386062613313845830007520449338265602976067371132007093287091274437470472306969772093101416928368190255151086574637721112523897844250569536967707854499699679468644549059879316368892300987931277361782154249992295763514822082698951936680331825288693984964651058209392398294887933203625094431173012381970684161403970198376793206832823764648042953118023287825098194558153017567173613320698112509961818815930416903515988885193458072738667385894228792284998920868058257492796104841984443634632449684875602336248270419786232090021609902353043699418491463140934317381436405462531520961836908887070167683964243781405927145635490613031072085103837505101157477041718986106873969655212671546889570350354")
var infinity, _ = newNumber().SetString("1e1000")
import "math/big"
var PI_RAT, _ = new(big.Rat).SetString("3.1415926535897932384626433832795028841971693993751058209749445923078164062862089986280348253421170679821480865132823066470938446095505822317253594081284811174502841027019385211055596446229489549303819644288109756659334461284756482337867831652712019091456485669234603486104543266482133936072602491412737245870066063155881748815209209628292540917153643678925903600113305305488204665213841469519415116094330572703657595919530921861173819326117931051185480744623799627495673518857527248912279381830119491298336733624406566430860213949463952247371907021798609437027705392171762931767523846748184676694051320005681271452635608277857713427577896091736371787214684409012249534301465495853710507922796892589235420199561121290219608640344181598136297747713099605187072113499999983729780499510597317328160963185950244594553469083026425223082533446850352619311881710100031378387528865875332083814206171776691473035982534904287554687311595628638823537875937519577818577805321712268066130019278766111959092164201989")
var PI ArObject
var e_RAT, _ = new(big.Rat).SetString("2.7182818284590452353602874713526624977572470936999595749669676277240766303535475945713821785251664274274663919320030599218174135966290435729003342952605956307381323286279434907632338298807531952510190115738341879307021540891499348841675092447614606680822648001684774118537423454424371075390777449920695517027618386062613313845830007520449338265602976067371132007093287091274437470472306969772093101416928368190255151086574637721112523897844250569536967707854499699679468644549059879316368892300987931277361782154249992295763514822082698951936680331825288693984964651058209392398294887933203625094431173012381970684161403970198376793206832823764648042953118023287825098194558153017567173613320698112509961818815930416903515988885193458072738667385894228792284998920868058257492796104841984443634632449684875602336248270419786232090021609902353043699418491463140934317381436405462531520961836908887070167683964243781405927145635490613031072085103837505101157477041718986106873969655212671546889570350354")
var e ArObject
func init() {
PI = Number(PI_RAT)
e = Number(e_RAT)
}

10
src/negative.go
View File

@@ -6,6 +6,7 @@ var negativeCompile = makeRegex(`( *)-(.|\n)+( *)`)
type negative struct {
VAL any
sign bool
line int
code string
path string
@@ -15,15 +16,20 @@ func isNegative(code UNPARSEcode) bool {
return negativeCompile.MatchString(code.code)
}
func parseNegative(code UNPARSEcode, index int, codeline []UNPARSEcode) (negative, bool, ArErr, int) {
func parseNegative(code UNPARSEcode, index int, codeline []UNPARSEcode) (any, bool, ArErr, int) {
trimmed := strings.TrimSpace(code.code)
trimmednegative := strings.TrimLeft(trimmed, "-")
difference := len(trimmed) - len(trimmednegative)
resp, worked, err, i := translateVal(UNPARSEcode{
code: strings.TrimSpace(code.code)[1:],
code: trimmednegative,
realcode: code.realcode,
line: code.line,
path: code.path,
}, index, codeline, 0)
return negative{
VAL: resp,
sign: difference%2 == 0,
line: code.line,
code: code.realcode,
path: code.path,

1765
src/number.go
View File

File diff suppressed because it is too large Load Diff

391
src/operations.go
View File

@@ -2,49 +2,29 @@ package main
import (
"fmt"
"math"
"reflect"
"strings"
)
var operations = [][]string{
{
var operations = []string{
"&&",
" and ",
}, {
"||",
" or ",
}, {
" not in ",
}, {
" in ",
}, {
"<=",
}, {
">=",
}, {
"<",
}, {
">",
}, {
"!=",
}, {
"==",
}, {
"+",
}, {
"-",
}, {
"*",
}, {
"%",
}, {
"//",
}, {
"/",
}, {
"^",
"**",
}}
}
type operationType struct {
operation int
@@ -56,49 +36,52 @@ type operationType struct {
func parseOperations(code UNPARSEcode, index int, codelines []UNPARSEcode) (operationType, bool, ArErr, int) {
for i := 0; i < len(operations); i++ {
values := []any{}
current := 0
totalindex := 1
for l := 0; l < len(code.code); l++ {
for j := 0; j < len(operations[i]); j++ {
if len(code.code[l:]) >= len(operations[i][j]) && code.code[l:l+len(operations[i][j])] == operations[i][j] {
resp, success, _, respindex := translateVal(
split := strings.Split(code.code, operations[i])
if len(split) < 2 {
continue
}
var values []any
lookingAt := 0
totalStep := 1
for j := 1; j < len(split); j++ {
if split[j-1] == "" {
continue
}
joined := strings.Join(split[lookingAt:j], operations[i])
resp, success, err, respindex := translateVal(
UNPARSEcode{
code: code.code[current:l],
code: joined,
realcode: code.realcode,
line: code.line,
path: code.path,
}, index, codelines, 0)
if success {
totalindex += respindex - 1
if !success || err.EXISTS {
continue
}
values = append(values, resp)
current = l + len(operations[i][j])
}
}
}
totalStep += respindex - 1
lookingAt = j
}
if len(values) > 0 {
resp, success, err, respindex := translateVal(
UNPARSEcode{
code: code.code[current:],
code: strings.Join(split[lookingAt:], operations[i]),
realcode: code.realcode,
line: code.line,
path: code.path,
}, index, codelines, 0)
if success {
totalindex += respindex - 1
values = append(values, resp)
return operationType{
i,
values,
code.line,
code.realcode,
code.path,
}, true, err, totalindex
if !success || err.EXISTS {
continue
}
return operationType{}, false, err, totalindex
values = append(values, resp)
totalStep += respindex - 1
return operationType{
operation: i,
values: values,
line: code.line,
code: code.realcode,
path: code.path,
}, true, ArErr{}, totalStep
}
}
return operationType{}, false, ArErr{}, 0
@@ -129,15 +112,12 @@ func compareValues(o operationType, stack stack, stacklevel int) (bool, ArErr) {
stack,
stacklevel+1,
)
resp2 = ArValidToAny(resp2)
if err.EXISTS {
return false, err
}
switch o.operation {
case 4:
if isAnyNumber(resp) && isAnyNumber(resp2) {
return resp.(number).Cmp(resp2.(number)) <= 0, ArErr{}
} else if x, ok := resp.(ArObject); ok {
if x, ok := resp.(ArObject); ok {
if y, ok := x.obj["__LessThanEqual__"]; ok {
val, err := runCall(
call{
@@ -162,9 +142,7 @@ func compareValues(o operationType, stack stack, stacklevel int) (bool, ArErr) {
true,
}
case 5:
if isAnyNumber(resp) && isAnyNumber(resp2) {
return resp.(number).Cmp(resp2.(number)) >= 0, ArErr{}
} else if x, ok := resp.(ArObject); ok {
if x, ok := resp.(ArObject); ok {
if y, ok := x.obj["__GreaterThanEqual__"]; ok {
val, err := runCall(
call{
@@ -189,9 +167,7 @@ func compareValues(o operationType, stack stack, stacklevel int) (bool, ArErr) {
true,
}
case 6:
if isAnyNumber(resp) && isAnyNumber(resp2) {
return resp.(number).Cmp(resp2.(number)) < 0, ArErr{}
} else if x, ok := resp.(ArObject); ok {
if x, ok := resp.(ArObject); ok {
if y, ok := x.obj["__LessThan__"]; ok {
val, err := runCall(
call{
@@ -216,9 +192,7 @@ func compareValues(o operationType, stack stack, stacklevel int) (bool, ArErr) {
true,
}
case 7:
if isAnyNumber(resp) && isAnyNumber(resp2) {
return resp.(number).Cmp(resp2.(number)) > 0, ArErr{}
} else if x, ok := resp.(ArObject); ok {
if x, ok := resp.(ArObject); ok {
if y, ok := x.obj["__GreaterThan__"]; ok {
val, err := runCall(
call{
@@ -243,9 +217,9 @@ func compareValues(o operationType, stack stack, stacklevel int) (bool, ArErr) {
true,
}
case 8:
return notequals(resp, resp2, o, stack, stacklevel)
return notequals(resp, resp2, o, stack, stacklevel+1)
case 9:
return equals(resp, resp2, o, stack, stacklevel)
return equals(resp, resp2, o, stack, stacklevel+1)
default:
return false, ArErr{
"Runtime Error",
@@ -268,9 +242,6 @@ func calcNegative(o operationType, stack stack, stacklevel int) (any, ArErr) {
return nil, err
}
output := resp
if isAnyNumber(resp) {
output = newNumber().Set(resp.(number))
}
for i := 1; i < len(o.values); i++ {
resp, err := runVal(
o.values[i],
@@ -280,10 +251,7 @@ func calcNegative(o operationType, stack stack, stacklevel int) (any, ArErr) {
if err.EXISTS {
return nil, err
}
if typeof(output) == "number" && typeof(resp) == "number" {
output = output.(number).Sub(output.(number), resp.(number))
continue
} else if x, ok := output.(ArObject); ok {
if x, ok := output.(ArObject); ok {
if y, ok := x.obj["__Subtract__"]; ok {
val, err := runCall(
call{
@@ -324,23 +292,17 @@ func calcDivide(o operationType, stack stack, stacklevel int) (any, ArErr) {
return nil, err
}
output := resp
if isAnyNumber(resp) {
output = newNumber().Set(resp.(number))
}
for i := 1; i < len(o.values); i++ {
resp, err := runVal(
o.values[i],
stack,
stacklevel+1,
)
resp = ArValidToAny(resp)
if err.EXISTS {
return nil, err
}
if typeof(resp) == "number" && typeof(output) == "number" {
output = output.(number).Quo(output.(number), resp.(number))
continue
} else if x, ok := output.(ArObject); ok {
if x, ok := output.(ArObject); ok {
if y, ok := x.obj["__Divide__"]; ok {
val, err := runCall(
call{
@@ -380,9 +342,6 @@ func calcAdd(o operationType, stack stack, stacklevel int) (any, ArErr) {
return nil, err
}
var output any = resp
if typeof(output) == "number" {
output = newNumber().Set(output.(number))
}
for i := 1; i < len(o.values); i++ {
resp, err := runVal(
o.values[i],
@@ -392,10 +351,7 @@ func calcAdd(o operationType, stack stack, stacklevel int) (any, ArErr) {
if err.EXISTS {
return nil, err
}
if typeof(output) == "number" && typeof(resp) == "number" {
output = output.(number).Add(output.(number), resp.(number))
continue
} else if x, ok := output.(ArObject); ok {
if x, ok := output.(ArObject); ok {
if y, ok := x.obj["__Add__"]; ok {
val, err := runCall(
call{
@@ -405,13 +361,28 @@ func calcAdd(o operationType, stack stack, stacklevel int) (any, ArErr) {
o.line,
o.path,
}, stack, stacklevel+1)
if err.EXISTS {
return nil, err
}
if !err.EXISTS {
output = val
continue
}
}
}
if x, ok := resp.(ArObject); ok {
if y, ok := x.obj["__PostAdd__"]; ok {
val, err := runCall(
call{
y,
[]any{output},
o.code,
o.line,
o.path,
}, stack, stacklevel+1)
if !err.EXISTS {
output = val
continue
}
}
}
return nil, ArErr{
"Runtime Error",
"Cannot add type '" + typeof(resp) + "' to type '" + typeof(output) + "'",
@@ -421,7 +392,7 @@ func calcAdd(o operationType, stack stack, stacklevel int) (any, ArErr) {
true,
}
}
return (output), ArErr{}
return output, ArErr{}
}
func calcMul(o operationType, stack stack, stacklevel int) (any, ArErr) {
@@ -435,9 +406,6 @@ func calcMul(o operationType, stack stack, stacklevel int) (any, ArErr) {
return nil, err
}
var output any = resp
if isAnyNumber(resp) {
output = newNumber().Set(resp.(number))
}
for i := 1; i < len(o.values); i++ {
resp, err := runVal(
o.values[i],
@@ -447,10 +415,7 @@ func calcMul(o operationType, stack stack, stacklevel int) (any, ArErr) {
if err.EXISTS {
return nil, err
}
if typeof(output) == "number" && typeof(resp) == "number" {
output = output.(number).Mul(output.(number), resp.(number))
continue
} else if x, ok := output.(ArObject); ok {
if x, ok := output.(ArObject); ok {
if y, ok := x.obj["__Multiply__"]; ok {
val, err := runCall(
call{
@@ -460,13 +425,28 @@ func calcMul(o operationType, stack stack, stacklevel int) (any, ArErr) {
o.line,
o.path,
}, stack, stacklevel+1)
if err.EXISTS {
return nil, err
}
if !err.EXISTS {
output = val
continue
}
}
}
if x, ok := resp.(ArObject); ok {
if y, ok := x.obj["__PostMultiply__"]; ok {
val, err := runCall(
call{
y,
[]any{output},
o.code,
o.line,
o.path,
}, stack, stacklevel+1)
if !err.EXISTS {
output = val
continue
}
}
}
return nil, ArErr{
"Runtime Error",
"Cannot multiply type '" + typeof(resp) + "'",
@@ -488,7 +468,7 @@ func calcAnd(o operationType, stack stack, stacklevel int) (any, ArErr) {
stack,
stacklevel+1,
)
resp = ArValidToAny(resp)
if err.EXISTS {
return nil, err
}
@@ -508,7 +488,7 @@ func calcOr(o operationType, stack stack, stacklevel int) (any, ArErr) {
stack,
stacklevel+1,
)
resp = ArValidToAny(resp)
if err.EXISTS {
return nil, err
}
@@ -544,7 +524,7 @@ func calcNotIn(o operationType, stack stack, stacklevel int) (any, ArErr) {
stack,
stacklevel+1,
)
resp = ArValidToAny(resp)
if err.EXISTS {
return false, err
}
@@ -629,9 +609,7 @@ func calcIn(o operationType, stack stack, stacklevel int) (any, ArErr) {
}
}
func notequals(a any, b any, o operationType, stack stack, stacklevel int) (bool, ArErr) {
if typeof(a) == "number" && typeof(b) == "number" {
return a.(number).Cmp(b.(number)) != 0, ArErr{}
} else if x, ok := a.(ArObject); ok {
if x, ok := a.(ArObject); ok {
if y, ok := x.obj["__NotEqual__"]; ok {
val, err := runCall(
call{
@@ -641,19 +619,33 @@ func notequals(a any, b any, o operationType, stack stack, stacklevel int) (bool
o.line,
o.path,
}, stack, stacklevel+1)
if !err.EXISTS {
return anyToBool(val), ArErr{}
}
}
}
if x, ok := b.(ArObject); ok {
if y, ok := x.obj["__NotEqual__"]; ok {
val, err := runCall(
call{
y,
[]any{a},
o.code,
o.line,
o.path,
}, stack, stacklevel+1)
if err.EXISTS {
return false, err
}
return !anyToBool(val), ArErr{}
return anyToBool(val), ArErr{}
}
}
return !reflect.DeepEqual(a, b), ArErr{}
}
func equals(a any, b any, o operationType, stack stack, stacklevel int) (bool, ArErr) {
if typeof(a) == "number" && typeof(b) == "number" {
return a.(number).Cmp(b.(number)) == 0, ArErr{}
} else if x, ok := a.(ArObject); ok {
debugPrintln("equals", a, b)
if x, ok := a.(ArObject); ok {
if y, ok := x.obj["__Equal__"]; ok {
val, err := runCall(
call{
@@ -663,6 +655,21 @@ func equals(a any, b any, o operationType, stack stack, stacklevel int) (bool, A
o.line,
o.path,
}, stack, stacklevel+1)
if !err.EXISTS {
return anyToBool(val), ArErr{}
}
}
}
if x, ok := b.(ArObject); ok {
if y, ok := x.obj["__Equal__"]; ok {
val, err := runCall(
call{
y,
[]any{a},
o.code,
o.line,
o.path,
}, stack, stacklevel+1)
if err.EXISTS {
return false, err
}
@@ -678,32 +685,20 @@ func calcMod(o operationType, stack stack, stacklevel int) (any, ArErr) {
stack,
stacklevel+1,
)
resp = ArValidToAny(resp)
if err.EXISTS {
return nil, err
}
output := resp
if isAnyNumber(resp) {
output = newNumber().Set(resp.(number))
}
for i := 1; i < len(o.values); i++ {
resp, err := runVal(
o.values[i],
stack,
stacklevel+1,
)
resp = ArValidToAny(resp)
if err.EXISTS {
return nil, err
}
if typeof(resp) == "number" && typeof(output) == "number" {
x := newNumber().Set(resp.(number))
x.Quo(output.(number), x)
x = floor(x)
x.Mul(x, resp.(number))
output.(number).Sub(output.(number), x)
continue
} else if x, ok := output.(ArObject); ok {
if x, ok := output.(ArObject); ok {
if y, ok := x.obj["__Modulo__"]; ok {
val, err := runCall(
call{
@@ -742,23 +737,17 @@ func calcIntDiv(o operationType, stack stack, stacklevel int) (any, ArErr) {
return nil, err
}
output := resp
if isAnyNumber(resp) {
output = newNumber().Set(resp.(number))
}
for i := 1; i < len(o.values); i++ {
resp, err := runVal(
o.values[i],
stack,
stacklevel+1,
)
resp = ArValidToAny(resp)
if err.EXISTS {
return nil, err
}
if typeof(resp) == "number" && typeof(output) == "number" {
output = output.(number).Quo(output.(number), resp.(number))
continue
} else if x, ok := output.(ArObject); ok {
if x, ok := output.(ArObject); ok {
if y, ok := x.obj["__IntDivide__"]; ok {
val, err := runCall(
call{
@@ -777,7 +766,7 @@ func calcIntDiv(o operationType, stack stack, stacklevel int) (any, ArErr) {
}
return nil, ArErr{
"Runtime Error",
"Cannot divide type '" + typeof(resp) + "'",
"Cannot int divide type '" + typeof(resp) + "'",
o.line,
o.path,
o.code,
@@ -787,56 +776,142 @@ func calcIntDiv(o operationType, stack stack, stacklevel int) (any, ArErr) {
return output, ArErr{}
}
func calcPower(o operationType, stack stack, stacklevel int) (number, ArErr) {
// func calcPower(o operationType, stack stack, stacklevel int) (number, ArErr) {
// resp, err := runVal(
// o.values[0],
// stack,
// stacklevel+1,
// )
//
// if err.EXISTS {
// return nil, err
// }
// if typeof(resp) != "number" {
// return nil, ArErr{
// "Runtime Error",
// "Cannot calculate power of type '" + typeof(resp) + "'",
// o.line,
// o.path,
// o.code,
// true,
// }
// }
// output := newNumber().Set(resp.(number))
// for i := 1; i < len(o.values); i++ {
// resp, err := runVal(
// o.values[i],
// stack,
// stacklevel+1,
// )
//
// if err.EXISTS {
// return nil, err
// }
// if typeof(resp) == "number" {
// n := newNumber().Set(resp.(number))
// if n.Cmp(newNumber().SetInt64(10)) <= 0 {
// toOut := newNumber().SetInt64(1)
// clone := newNumber().Set(output)
// nAbs := (abs(newNumber().Set(n)))
// j := newNumber()
// for ; j.Cmp(nAbs) < 0; j.Add(j, one) {
// toOut.Mul(toOut, clone)
// }
// nAbs.Sub(nAbs, j)
// if nAbs.Cmp(newNumber()) < 0 {
// j.Sub(j, one)
// n1, _ := toOut.Float64()
// n2, _ := nAbs.Float64()
// calculated := newNumber().SetFloat64(math.Pow(n1, n2))
// if calculated == nil {
// calculated = infinity
// }
// toOut.Mul(toOut, calculated)
// }
// if n.Cmp(newNumber()) < 0 {
// toOut.Quo(newNumber().SetInt64(1), toOut)
// }
// output.Set(toOut)
// } else if n.Cmp(newNumber().SetInt64(1)) != 0 {
// n1, _ := output.Float64()
// n2, _ := n.Float64()
// calculated := newNumber().SetFloat64(math.Pow(n1, n2))
// if calculated == nil {
// calculated = infinity
// }
// output.Mul(output, calculated)
// }
// /*
// n1, _ := output.Float64()
// n2, _ := resp.(number).Float64()
// output = newNumber().SetFloat64(math.Pow(n1, n2))
// if output == nil {
// output = infinity
// }
// */
// } else {
// return nil, ArErr{
// "Runtime Error",
// "Cannot calculate power of type '" + typeof(resp) + "'",
// o.line,
// o.path,
// o.code,
// true,
// }
// }
// }
// return output, ArErr{}
// }
func calcPower(o operationType, stack stack, stacklevel int) (any, ArErr) {
resp, err := runVal(
o.values[0],
stack,
stacklevel+1,
)
resp = ArValidToAny(resp)
if err.EXISTS {
return nil, err
}
if typeof(resp) != "number" {
return nil, ArErr{
"Runtime Error",
"Cannot calculate power of type '" + typeof(resp) + "'",
o.line,
o.path,
o.code,
true,
}
}
output := newNumber().Set(resp.(number))
var output any = resp
for i := 1; i < len(o.values); i++ {
resp, err := runVal(
o.values[i],
stack,
stacklevel+1,
)
resp = ArValidToAny(resp)
if err.EXISTS {
return nil, err
}
if typeof(resp) == "number" {
n1, _ := output.Float64()
n2, _ := resp.(number).Float64()
output = newNumber().SetFloat64(math.Pow(n1, n2))
if output == nil {
output = infinity
if x, ok := output.(ArObject); ok {
if y, ok := x.obj["__Power__"]; ok {
val, err := runCall(
call{
y,
[]any{resp},
o.code,
o.line,
o.path,
}, stack, stacklevel+1)
if err.EXISTS {
return nil, err
}
output = val
continue
}
}
} else {
return nil, ArErr{
"Runtime Error",
"Cannot calculate power of type '" + typeof(resp) + "'",
"Cannot power type '" + typeof(resp) + "' to type '" + typeof(output) + "'",
o.line,
o.path,
o.code,
true,
}
}
}
return output, ArErr{}
return (output), ArErr{}
}
func runOperation(o operationType, stack stack, stacklevel int) (any, ArErr) {

154
src/parseImport.go
View File

@@ -1,18 +1,20 @@
package main
import (
"os"
"path/filepath"
"strings"
)
var genericImportCompiled = makeRegex(`import( )+(.|\n)+( )+as( )+([a-zA-Z_]|(\p{L}\p{M}*))([a-zA-Z0-9_]|(\p{L}\p{M}*))*( *)`)
var genericImportCompiled = makeRegex(`( *)import( )+(.|\n)+(( )+as( )+([a-zA-Z_]|(\p{L}\p{M}*))([a-zA-Z0-9_]|(\p{L}\p{M}*))*)?( *)`)
type ArImport struct {
filePath any
values any
code string
line int
path string
pretranslated bool
translated translatedImport
FilePath any
Values any
Code string
Line int
Path string
}
func isGenericImport(code UNPARSEcode) bool {
@@ -22,66 +24,154 @@ func isGenericImport(code UNPARSEcode) bool {
func parseGenericImport(code UNPARSEcode, index int, codeline []UNPARSEcode) (ArImport, bool, ArErr, int) {
trim := strings.Trim(code.code, " ")
pathAndAs := trim[6:]
split := strings.SplitN(pathAndAs, " as ", 2)
toImportstr := strings.TrimSpace(split[0])
asStr := strings.TrimSpace(split[1])
toImport, worked, err, i := translateVal(UNPARSEcode{
code: toImportstr,
split := strings.Split(pathAndAs, " as ")
var toImport any
var asStr any
var i = 1
if len(split) == 1 {
toImportval, worked, err, I := translateVal(UNPARSEcode{
code: strings.Trim(split[0], " "),
realcode: code.realcode,
line: code.line,
path: code.path,
}, index, codeline, 0)
if !worked {
return ArImport{}, false, err, i
if !worked || err.EXISTS {
return ArImport{}, worked, err, I
}
return ArImport{
toImport = toImportval
i = I
} else {
for i := 1; i < len(split); i++ {
before := strings.Trim(strings.Join(split[:i], " as "), " ")
after := strings.Trim(strings.Join(split[i:], " as "), " ")
toImportval, worked, err, I := translateVal(UNPARSEcode{
code: before,
realcode: code.realcode,
line: code.line,
path: code.path,
}, index, codeline, 0)
i = I
if !worked || err.EXISTS {
if i == len(split)-1 {
return ArImport{}, worked, err, i
}
continue
}
if after == "" {
} else if after == "*" {
asStr = true
} else if variableCompile.MatchString(after) {
asStr = after
} else {
return ArImport{}, false, ArErr{"Syntax Error", "invalid variable name '" + after + "'", code.line, code.path, code.realcode, true}, i
}
toImport = toImportval
}
}
importOBJ := ArImport{
false,
translatedImport{},
toImport,
asStr,
code.realcode,
code.line,
code.path,
}, true, ArErr{}, i
}
if str, ok := toImport.(string); ok {
resp, err := translateImport(str, filepath.Dir(filepath.ToSlash(code.path)), false)
if !err.EXISTS {
importOBJ.translated = resp
importOBJ.pretranslated = true
}
}
return importOBJ, true, ArErr{}, i
}
func runImport(importOBJ ArImport, stack stack, stacklevel int) (any, ArErr) {
return nil, ArErr{"Import Error", "importing in WASM is currently not supported", importOBJ.line, importOBJ.path, importOBJ.code, true}
val, err := runVal(importOBJ.filePath, stack, stacklevel+1)
var translated = importOBJ.translated
if !importOBJ.pretranslated {
val, err := runVal(importOBJ.FilePath, stack, stacklevel+1)
val = ArValidToAny(val)
if err.EXISTS {
return nil, err
}
if typeof(val) != "string" {
return nil, ArErr{"Type Error", "import requires a string, got type '" + typeof(val) + "'", importOBJ.line, importOBJ.path, importOBJ.code, true}
return nil, ArErr{"Type Error", "import requires a string, got type '" + typeof(val) + "'", importOBJ.Line, importOBJ.Path, importOBJ.Code, true}
}
path := val.(string)
ex, e := os.Getwd()
if e != nil {
return nil, ArErr{"File Error", "could not get current working directory", importOBJ.line, importOBJ.path, importOBJ.code, true}
}
stackMap, err := importMod(path, ex, false, stack[0])
parent := filepath.Dir(filepath.ToSlash(importOBJ.Path))
translated, err = translateImport(val.(string), parent, false)
if err.EXISTS {
if err.line == 0 {
err.line = importOBJ.line
err.line = importOBJ.Line
}
if err.path == "" {
err.path = importOBJ.path
err.path = importOBJ.Path
}
if err.code == "" {
err.code = importOBJ.code
err.code = importOBJ.Code
}
return nil, err
}
switch x := importOBJ.values.(type) {
}
stackMap, err := runTranslatedImport(translated, stack[0], false)
if err.EXISTS {
if err.line == 0 {
err.line = importOBJ.Line
}
if err.path == "" {
err.path = importOBJ.Path
}
if err.code == "" {
err.code = importOBJ.Code
}
return nil, err
}
setindex, ok := stack[len(stack)-1].obj["__setindex__"]
if !ok {
return nil, ArErr{
"Import Error",
"could not find __setindex__ in module scope",
importOBJ.Line,
importOBJ.Path,
importOBJ.Code,
true,
}
}
switch x := importOBJ.Values.(type) {
case []string:
for _, v := range x {
val, ok := stackMap.obj[v]
if !ok {
return nil, ArErr{"Import Error", "could not find value " + anyToArgon(v, true, false, 3, 0, false, 0) + " in module " + anyToArgon(path, true, false, 3, 0, false, 0), importOBJ.line, importOBJ.path, importOBJ.code, true}
return nil, ArErr{"Import Error", "could not find value " + anyToArgon(v, true, false, 3, 0, false, 0) + " in module " + anyToArgon(translated.path, true, false, 3, 0, false, 0), importOBJ.Line, importOBJ.Path, importOBJ.Code, true}
}
stack[len(stack)-1].obj[v] = val
builtinCall(setindex, []any{v, val})
}
case string:
stack[len(stack)-1].obj[x] = stackMap
builtinCall(setindex, []any{x, stackMap})
case bool:
keyGetter, ok := stackMap.obj["keys"]
if !ok {
return nil, ArErr{"Import Error", "could not find keys in module scope", importOBJ.Line, importOBJ.Path, importOBJ.Code, true}
}
valueGetter, ok := stackMap.obj["__getindex__"]
if !ok {
return nil, ArErr{"Import Error", "could not find __getindex__ in module scope", importOBJ.Line, importOBJ.Path, importOBJ.Code, true}
}
keys, err := builtinCall(keyGetter, []any{})
if err.EXISTS {
return nil, err
}
keys = ArValidToAny(keys)
for _, v := range keys.([]any) {
val, err := builtinCall(valueGetter, []any{v})
if err.EXISTS {
return nil, err
}
builtinCall(setindex, []any{v, val})
}
}
return nil, ArErr{}
}

244
src/path.go Normal file
View File

@@ -0,0 +1,244 @@
package main
import (
"fmt"
"os"
"path"
"path/filepath"
)
var ArPath = Map(
anymap{
"ReadDir": builtinFunc{
"ReadDir",
func(args ...any) (any, ArErr) {
if len(args) != 1 {
return nil, ArErr{
TYPE: "Runtime Error",
message: "ReadDir takes exactly 1 argument, got " + fmt.Sprint(len(args)),
EXISTS: true,
}
}
args[0] = ArValidToAny(args[0])
if typeof(args[0]) != "string" {
return nil, ArErr{
TYPE: "Runtime Error",
message: "ReadDir argument must be a string, got " + typeof(args[0]),
EXISTS: true,
}
}
files, err := os.ReadDir(args[0].(string))
if err != nil {
return nil, ArErr{
TYPE: "Runtime Error",
message: err.Error(),
EXISTS: true,
}
}
var ret []any
for _, file := range files {
ret = append(ret, file.Name())
}
return ret, ArErr{}
}},
"exists": builtinFunc{
"exists",
func(args ...any) (any, ArErr) {
if len(args) != 1 {
return nil, ArErr{
TYPE: "Runtime Error",
message: "exists takes exactly 1 argument, got " + fmt.Sprint(len(args)),
EXISTS: true,
}
}
args[0] = ArValidToAny(args[0])
if typeof(args[0]) != "string" {
return nil, ArErr{
TYPE: "Runtime Error",
message: "exists argument must be a string, got " + typeof(args[0]),
EXISTS: true,
}
}
_, err := os.Stat(args[0].(string))
if err != nil {
if os.IsNotExist(err) {
return false, ArErr{}
}
return nil, ArErr{
TYPE: "Runtime Error",
message: err.Error(),
EXISTS: true,
}
}
return true, ArErr{}
}},
"mkAllDir": builtinFunc{
"mkAllDir",
func(args ...any) (any, ArErr) {
if len(args) != 1 {
return nil, ArErr{
TYPE: "Runtime Error",
message: "mkAllDir takes exactly 1 argument, got " + fmt.Sprint(len(args)),
EXISTS: true,
}
}
args[0] = ArValidToAny(args[0])
if typeof(args[0]) != "string" {
return nil, ArErr{
TYPE: "Runtime Error",
message: "mkAllDir argument must be a string, got " + typeof(args[0]),
EXISTS: true,
}
}
err := os.MkdirAll(args[0].(string), os.ModePerm)
if err != nil {
return nil, ArErr{
TYPE: "Runtime Error",
message: err.Error(),
EXISTS: true,
}
}
return nil, ArErr{}
}},
"mkDir": builtinFunc{
"mkDir",
func(args ...any) (any, ArErr) {
if len(args) != 1 {
return nil, ArErr{
TYPE: "Runtime Error",
message: "mkDir takes exactly 1 argument, got " + fmt.Sprint(len(args)),
EXISTS: true,
}
}
args[0] = ArValidToAny(args[0])
if typeof(args[0]) != "string" {
return nil, ArErr{
TYPE: "Runtime Error",
message: "mkDir argument must be a string, got " + typeof(args[0]),
EXISTS: true,
}
}
err := os.Mkdir(args[0].(string), os.ModePerm)
if err != nil {
return nil, ArErr{
TYPE: "Runtime Error",
message: err.Error(),
EXISTS: true,
}
}
return nil, ArErr{}
}},
"remove": builtinFunc{
"remove",
func(args ...any) (any, ArErr) {
if len(args) != 1 {
return nil, ArErr{
TYPE: "Runtime Error",
message: "remove takes exactly 1 argument, got " + fmt.Sprint(len(args)),
EXISTS: true,
}
}
args[0] = ArValidToAny(args[0])
if typeof(args[0]) != "string" {
return nil, ArErr{
TYPE: "Runtime Error",
message: "remove argument must be a string, got " + typeof(args[0]),
EXISTS: true,
}
}
err := os.Remove(args[0].(string))
if err != nil {
return nil, ArErr{
TYPE: "Runtime Error",
message: err.Error(),
EXISTS: true,
}
}
return nil, ArErr{}
}},
"isDir": builtinFunc{
"isDir",
func(args ...any) (any, ArErr) {
if len(args) != 1 {
return nil, ArErr{
TYPE: "Runtime Error",
message: "isDir takes exactly 1 argument, got " + fmt.Sprint(len(args)),
EXISTS: true,
}
}
args[0] = ArValidToAny(args[0])
if typeof(args[0]) != "string" {
return nil, ArErr{
TYPE: "Runtime Error",
message: "isDir argument must be a string, got " + typeof(args[0]),
EXISTS: true,
}
}
stat, err := os.Stat(args[0].(string))
if err != nil {
if os.IsNotExist(err) {
return false, ArErr{}
}
return nil, ArErr{
TYPE: "Runtime Error",
message: err.Error(),
EXISTS: true,
}
}
return stat.IsDir(), ArErr{}
}},
"join": builtinFunc{
"join",
func(args ...any) (any, ArErr) {
if len(args) != 1 {
return nil, ArErr{
TYPE: "Runtime Error",
message: "join takes exactly 1 argument, got " + fmt.Sprint(len(args)),
EXISTS: true,
}
}
args[0] = ArValidToAny(args[0])
switch arr := args[0].(type) {
case []any:
var Path []string
for _, x := range arr {
x = ArValidToAny(x)
if typeof(x) != "string" {
return nil, ArErr{
TYPE: "Runtime Error",
message: "join argument must be an array of strings, got " + typeof(x),
EXISTS: true,
}
}
Path = append(Path, x.(string))
}
return filepath.Join(Path...), ArErr{}
}
return nil, ArErr{
TYPE: "Runtime Error",
message: "join argument must be an array, got " + typeof(args[0]),
EXISTS: true,
}
}},
"parent": builtinFunc{
"parent",
func(args ...any) (any, ArErr) {
if len(args) != 1 {
return nil, ArErr{
TYPE: "Runtime Error",
message: "parent takes exactly 1 argument, got " + fmt.Sprint(len(args)),
EXISTS: true,
}
}
args[0] = ArValidToAny(args[0])
if typeof(args[0]) != "string" {
return nil, ArErr{
TYPE: "Runtime Error",
message: "parent argument must be a string, got " + typeof(args[0]),
EXISTS: true,
}
}
return path.Dir(filepath.ToSlash(args[0].(string))), ArErr{}
},
},
})

108
src/random.go
View File

@@ -6,10 +6,10 @@ import (
"time"
)
func random() number {
return newNumber().SetFloat64(
rand.Float64(),
)
var rand_source = rand.New(rand.NewSource(time.Now().UnixMicro()))
func random() ArObject {
return Number(rand_source.Float64())
}
func randomRange(args ...any) (any, ArErr) {
@@ -33,23 +33,88 @@ func randomRange(args ...any) (any, ArErr) {
EXISTS: true,
}
}
min := args[0].(number)
max := args[1].(number)
if min.Cmp(max) > 0 {
min := args[0].(ArObject)
max := args[1].(ArObject)
compare_num, err := CompareObjects(min, max)
if err.EXISTS {
return nil, err
}
compare, Err := numberToInt64(compare_num)
if Err != nil {
return nil, ArErr{
TYPE: "Runtime Error",
message: "takes a min less than max",
message: Err.Error(),
EXISTS: true,
}
}
difference := newNumber().Sub(max, min)
if compare == 1 {
return nil, ArErr{
TYPE: "Runtime Error",
message: "range() num 1 must be less than or equal to num 2",
EXISTS: true,
}
}
num_range, err := runOperation(
operationType{
operation: 11,
values: []any{max, min},
},
stack{},
0,
)
if err.EXISTS {
return nil, err
}
if _, ok := num_range.(ArObject); !ok {
return nil, ArErr{
TYPE: "Runtime Error",
message: "could not subtract the two numbers to calculate the range",
EXISTS: true,
}
}
num_range_obj := num_range.(ArObject)
rand := random()
rand.Mul(rand, difference)
rand.Add(rand, min)
return rand, ArErr{}
multiplier, err := runOperation(
operationType{
operation: 12,
values: []any{rand, num_range_obj},
},
stack{},
0,
)
if err.EXISTS {
return nil, err
}
if _, ok := multiplier.(ArObject); !ok {
return nil, ArErr{
TYPE: "Runtime Error",
message: "could not multiply the random number by the range",
EXISTS: true,
}
}
return runOperation(
operationType{
operation: 10,
values: []any{multiplier, min},
},
stack{},
0,
)
}
var ArRandom = Map(anymap{
var ArRandom = ArObject{anymap{
"__call__": builtinFunc{"random", func(args ...any) (any, ArErr) {
if len(args) != 0 {
return nil, ArErr{
@@ -83,22 +148,15 @@ var ArRandom = Map(anymap{
EXISTS: true,
}
}
if !a[0].(number).IsInt() {
new_seed, err := numberToInt64(a[0].(ArObject))
if err != nil {
return nil, ArErr{
TYPE: "Runtime Error",
message: "takes an integer not a float",
message: err.Error(),
EXISTS: true,
}
}
rand.Seed(
a[0].(number).Num().Int64(),
)
rand_source.Seed(new_seed)
return nil, ArErr{}
}},
})
func initRandom() {
rand.Seed(
time.Now().UnixMicro(),
)
}
}}

4
src/rounding.go
View File

@@ -1,6 +1,8 @@
package main
import "github.com/wadey/go-rounding"
import (
"github.com/wadey/go-rounding"
)
func floor(x number) number {

89
src/run.go
View File

@@ -2,6 +2,7 @@ package main
import (
"fmt"
"math/big"
"reflect"
)
@@ -18,9 +19,9 @@ func runVal(line any, stack stack, stacklevel int) (any, ArErr) {
return ArString(x), ArErr{}
case call:
if stackoverflow {
linenum = x.line
path = x.path
code = x.code
linenum = x.Line
path = x.Path
code = x.Code
break
}
return runCall(x, stack, stacklevel+1)
@@ -34,17 +35,17 @@ func runVal(line any, stack stack, stacklevel int) (any, ArErr) {
return runFactorial(x, stack, stacklevel+1)
case accessVariable:
if stackoverflow {
linenum = x.line
path = x.path
code = x.code
linenum = x.Line
path = x.Path
code = x.Code
break
}
return readVariable(x, stack)
case ArMapGet:
if stackoverflow {
linenum = x.line
path = x.path
code = x.code
linenum = x.Line
path = x.Path
code = x.Code
break
}
return mapGet(x, stack, stacklevel+1)
@@ -56,35 +57,30 @@ func runVal(line any, stack stack, stacklevel int) (any, ArErr) {
break
}
return setVariableValue(x, stack, stacklevel+1)
case negative:
if stackoverflow {
linenum = x.line
path = x.path
code = x.code
break
}
resp, err := runVal(x.VAL, stack, stacklevel+1)
resp = AnyToArValid(resp)
if err.EXISTS {
return nil, err
}
switch y := resp.(type) {
case number:
return newNumber().Neg(y), ArErr{}
}
return nil, ArErr{
TYPE: "TypeError",
message: "cannot negate a non-number",
EXISTS: true,
}
case brackets:
if stackoverflow {
linenum = x.line
path = x.path
code = x.code
break
}
return runVal(x.VAL, stack, stacklevel+1)
// case negative:
// if stackoverflow {
// linenum = x.line
// path = x.path
// code = x.code
// break
// }
// resp, err := runVal(x.VAL, stack, stacklevel+1)
// resp = AnyToArValid(resp)
// if err.EXISTS {
// return nil, err
// }
// switch y := resp.(type) {
// case compiledNumber:
// if !x.sign {
// return Number(compiledNumber{new(big.Rat).Neg(y)}), ArErr{}
// }
// return y, ArErr{}
// }
// return nil, ArErr{
// TYPE: "Type Error",
// message: "cannot negate a non-number",
// EXISTS: true,
// }
case operationType:
if stackoverflow {
linenum = x.line
@@ -181,13 +177,21 @@ func runVal(line any, stack stack, stacklevel int) (any, ArErr) {
break
}
return runSquareroot(x, stack, stacklevel+1)
case ArImport:
case createMap:
if stackoverflow {
linenum = x.line
path = x.path
code = x.code
break
}
return runCreateMap(x, stack, stacklevel+1)
case ArImport:
if stackoverflow {
linenum = x.Line
path = x.Path
code = x.Code
break
}
return runImport(x, stack, stacklevel+1)
case ABS:
if stackoverflow {
@@ -205,7 +209,11 @@ func runVal(line any, stack stack, stacklevel int) (any, ArErr) {
break
}
return runTryCatch(x, stack, stacklevel+1)
case bool, ArObject, number, nil:
case compiledNumber:
return Number(x.value), ArErr{}
case int64, int, float64, float32, *big.Rat, *big.Int:
return Number(x), ArErr{}
case bool, ArObject, nil, Callable, builtinFunc, anymap:
return x, ArErr{}
}
if stackoverflow {
@@ -219,6 +227,7 @@ func runVal(line any, stack stack, stacklevel int) (any, ArErr) {
}
}
fmt.Println("unreachable", reflect.TypeOf(line))
fmt.Println(line)
panic("unreachable")
}

4
src/sequence-and-series.go
View File

@@ -1,6 +1,8 @@
package main
import "fmt"
import (
"fmt"
)
func ArSequence(a ...any) (any, ArErr) {
if len(a) < 1 || len(a) > 2 {

13
src/sha256.go Normal file
View File

@@ -0,0 +1,13 @@
package main
import (
"crypto/sha256"
"fmt"
)
func sha256Hash(s string) string {
h := sha256.New()
h.Write([]byte(s))
bs := h.Sum(nil)
return fmt.Sprintf("%x", bs)
}

31
src/shell.go
View File

@@ -4,6 +4,7 @@ import (
"fmt"
"os"
"os/signal"
"strings"
)
func shell(global ArObject) {
@@ -18,23 +19,30 @@ func shell(global ArObject) {
}
}
}()
fmt.Print("\x1b[32;5;25mWelcome to the Argon v3!\x1b[25m\n\n")
for {
indo := false
indent := 0
previous := 0
totranslate := []UNPARSEcode{}
code := input("\x1b[38;5;240m>>> \x1b[0m\x1b[1;5;240m")
fmt.Print("\x1b[0m")
if code == "" {
continue
textBefore := ">>>"
for i := 1; indent > 0 || (previous != indent && indent >= 0) || i == 1; i++ {
indentStr := strings.Repeat(" ", indent)
line, err := input("\x1b[38;5;240m" + textBefore + indentStr + " \x1b[0m\x1b[1;5;25m")
if err != nil {
fmt.Println("\x1b[0m\n\x1b[32;5;25mBye :)\x1b[0m")
os.Exit(0)
}
indo = true
totranslate = append(totranslate, UNPARSEcode{code, code, 1, "<shell>"})
for i := 2; indo; i++ {
code := input("\x1b[38;5;240m... \x1b[0m\x1b[1;5;240m")
code := indentStr + line
fmt.Print("\x1b[0m")
totranslate = append(totranslate, UNPARSEcode{code, code, i, "<shell>"})
if code == "" {
indo = false
trimmed := strings.TrimSpace(code)
previous = indent
if len(trimmed) >= 2 && trimmed[len(trimmed)-2:] == "do" {
indent++
} else if trimmed == "" {
indent--
}
textBefore = "..."
}
translated, translationerr := translate(totranslate)
count := len(translated)
@@ -47,7 +55,6 @@ func shell(global ArObject) {
if runimeErr.EXISTS {
panicErr(runimeErr)
} else if count == 1 {
fmt.Println(anyToArgon(output, true, true, 3, 0, true, 1))
}
}

529
src/socket.go Normal file
View File

@@ -0,0 +1,529 @@
package main
import (
"fmt"
"io"
"net"
"time"
)
func ArSocketClient(args ...any) (any, ArErr) {
if len(args) != 2 {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: "Socket takes exactly 2 arguments",
EXISTS: true,
}
} else if typeof(args[0]) != "string" {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: "Socket type must be a string",
EXISTS: true,
}
} else if typeof(args[1]) != "string" {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: "Socket address must be a string",
EXISTS: true,
}
}
networktype := ArValidToAny(args[0]).(string)
address := ArValidToAny(args[1]).(string)
conn, err := net.Dial(networktype, address)
if err != nil {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: fmt.Sprintf("Socket connection failed: %s", err.Error()),
EXISTS: true,
}
}
return ArObject{
obj: anymap{
"read": builtinFunc{
"read",
func(args ...any) (any, ArErr) {
if len(args) != 1 {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: "Socket.readData() takes exactly 1 argument",
EXISTS: true,
}
}
if conn == nil {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: "Connection is closed",
EXISTS: true,
}
}
buf := make([]byte, args[0].(number).Num().Int64())
n, err := conn.Read(buf)
if err != nil {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: fmt.Sprintf("Socket read failed: %s", err.Error()),
EXISTS: true,
}
}
return ArBuffer(buf[:n]), ArErr{}
}},
"readUntil": builtinFunc{
"readUntil",
func(args ...any) (any, ArErr) {
if len(args) != 1 {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: "Socket.readUntil() takes exactly 1 argument",
EXISTS: true,
}
}
if conn == nil {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: "Connection is closed",
EXISTS: true,
}
}
value := ArValidToAny(args[0])
if typeof(value) != "buffer" {
return ArObject{}, ArErr{
TYPE: "Type Error",
message: fmt.Sprintf("Socket.readUntil() argument must be a buffer, not %s", typeof(value)),
EXISTS: true,
}
}
endBuf := value.([]byte)
reader := io.Reader(conn)
buf := make([]byte, len(endBuf))
var data []byte
for {
_, err := reader.Read(buf)
if err != nil {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: fmt.Sprintf("Socket read failed: %s", err.Error()),
EXISTS: true,
}
}
data = append(data, buf[0])
if len(data) >= len(endBuf) {
dataSlice := data[len(data)-len(endBuf):]
for i := 0; i < len(endBuf); i++ {
if dataSlice[i] != endBuf[i] {
break
}
if i == len(endBuf)-1 {
return ArBuffer(data), ArErr{}
}
}
}
}
}},
"write": builtinFunc{
"write",
func(args ...any) (any, ArErr) {
if len(args) != 1 {
return nil, ArErr{
TYPE: "Type Error",
message: fmt.Sprintf("write() takes exactly 1 argument (%d given)", len(args)),
EXISTS: true,
}
}
if typeof(args[0]) != "buffer" {
return ArObject{}, ArErr{
TYPE: "Type Error",
message: fmt.Sprintf("write() argument must be a buffer, not %s", typeof(args[0])),
EXISTS: true,
}
}
if conn == nil {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: "Connection is closed",
EXISTS: true,
}
}
args[0] = ArValidToAny(args[0])
if typeof(args[0]) != "buffer" {
return ArObject{}, ArErr{
TYPE: "Type Error",
message: fmt.Sprintf("write() argument must be a buffer, not %s", typeof(args[0])),
EXISTS: true,
}
}
_, err := conn.Write(args[0].([]byte))
if err != nil {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: err.Error(),
EXISTS: true,
}
}
return nil, ArErr{}
}},
"close": builtinFunc{
"close",
func(args ...any) (any, ArErr) {
if conn == nil {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: "Connection is already closed",
EXISTS: true,
}
}
err := conn.Close()
if err != nil {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: err.Error(),
EXISTS: true,
}
}
conn = nil
return nil, ArErr{}
},
},
"isClosed": builtinFunc{
"isClosed",
func(args ...any) (any, ArErr) {
if conn == nil {
return true, ArErr{}
}
conn.SetWriteDeadline(time.Now().Add(1 * time.Millisecond))
_, err := conn.Write([]byte{})
conn.SetWriteDeadline(time.Time{})
if err != nil {
conn.Close()
conn = nil
return true, ArErr{}
}
return false, ArErr{}
},
},
}}, ArErr{}
}
func ArSocketServer(args ...any) (any, ArErr) {
if len(args) != 2 {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: "Socket takes exactly 2 arguments",
EXISTS: true,
}
} else if typeof(args[0]) != "string" {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: "Socket type must be a string",
EXISTS: true,
}
} else if typeof(args[1]) != "number" {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: "Socket port must be a number",
EXISTS: true,
}
}
networktype := ArValidToAny(args[0]).(string)
port_num := args[1].(ArObject)
port, err := numberToInt64(port_num)
if err != nil {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: err.Error(),
EXISTS: true,
}
}
ln, err := net.Listen(networktype, ":"+fmt.Sprint(port))
if err != nil {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: err.Error(),
EXISTS: true,
}
}
return Map(anymap{
"accept": builtinFunc{
"accept",
func(args ...any) (any, ArErr) {
if ln == nil {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: "Socket is closed",
EXISTS: true,
}
}
conn, err := ln.Accept()
if err != nil {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: err.Error(),
EXISTS: true,
}
}
return Map(anymap{
"read": builtinFunc{
"read",
func(args ...any) (any, ArErr) {
if len(args) != 1 {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: "Socket.readData() takes exactly 1 argument",
EXISTS: true,
}
}
if conn == nil {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: "Connection is closed",
EXISTS: true,
}
}
buf := make([]byte, args[0].(number).Num().Int64())
n, err := conn.Read(buf)
if err != nil {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: err.Error(),
EXISTS: true,
}
}
return ArBuffer(buf[:n]), ArErr{}
},
},
"readUntil": builtinFunc{
"readUntil",
func(args ...any) (any, ArErr) {
if len(args) != 1 {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: "Socket.readUntil() takes exactly 1 argument",
EXISTS: true,
}
}
if conn == nil {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: "Connection is closed",
EXISTS: true,
}
}
value := ArValidToAny(args[0])
if typeof(value) != "buffer" {
return ArObject{}, ArErr{
TYPE: "Type Error",
message: fmt.Sprintf("Socket.readUntil() argument must be a buffer, not %s", typeof(value)),
EXISTS: true,
}
}
endBuf := value.([]byte)
var data []byte
buf := make([]byte, 1)
lookingAt := 0
for {
n, err := io.ReadFull(conn, buf)
if err != nil {
return ArBuffer(data), ArErr{}
}
chunk := buf[:n]
data = append(data, chunk...)
for i := 0; i < n; i++ {
if chunk[i] == endBuf[lookingAt] {
lookingAt++
if lookingAt == len(endBuf) {
data = append(data, chunk...)
return ArBuffer(data), ArErr{}
}
} else {
lookingAt = 0
}
}
}
}},
"clearTimeout": builtinFunc{
"clearTimeout",
func(args ...any) (any, ArErr) {
if len(args) != 0 {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: "Socket.clearTimeout() takes exactly 0 arguments",
EXISTS: true,
}
}
if conn == nil {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: "Connection is closed",
EXISTS: true,
}
}
conn.SetDeadline(time.Time{})
return ArObject{}, ArErr{}
},
},
"setTimeout": builtinFunc{
"setTimeout",
func(args ...any) (any, ArErr) {
if len(args) != 1 {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: "Socket.setTimeout() takes exactly 1 argument",
EXISTS: true,
}
}
if typeof(args[0]) != "number" {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: "Socket timeout must be a number",
EXISTS: true,
}
}
if conn == nil {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: "Connection is closed",
EXISTS: true,
}
}
timeout := args[0].(number)
if timeout.Denom().Int64() != 1 {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: "Socket timeout must be an integer",
EXISTS: true,
}
}
err := conn.SetDeadline(time.Now().Add(time.Duration(timeout.Num().Int64()) * time.Millisecond))
if err != nil {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: err.Error(),
EXISTS: true,
}
}
return ArObject{}, ArErr{}
},
},
"write": builtinFunc{
"write",
func(args ...any) (any, ArErr) {
if len(args) != 1 {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: "Socket.writeData() takes exactly 1 argument",
EXISTS: true,
}
}
if conn == nil {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: "Connection is closed",
EXISTS: true,
}
}
data := ArValidToAny(args[0])
switch x := data.(type) {
case []any:
bytes := []byte{}
for _, v := range x {
if typeof(v) != "number" && v.(number).Denom().Int64() != 1 {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: "Socket.writeData() argument must be a array of integers",
EXISTS: true,
}
}
bytes = append(bytes, byte(v.(number).Num().Int64()))
}
conn.Write(bytes)
return nil, ArErr{}
case []byte:
conn.Write(x)
return nil, ArErr{}
}
return nil, ArErr{
TYPE: "Socket Error",
message: "Socket.writeData() argument must be a array of numbers",
}
},
},
"close": builtinFunc{
"close",
func(args ...any) (any, ArErr) {
if conn == nil {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: "Connection is already closed",
EXISTS: true,
}
}
conn.Close()
conn = nil
return nil, ArErr{}
},
},
"isClosed": builtinFunc{
"isClosed",
func(args ...any) (any, ArErr) {
if conn == nil {
return true, ArErr{}
}
conn.SetWriteDeadline(time.Now().Add(1 * time.Millisecond))
_, err := conn.Write([]byte{})
conn.SetWriteDeadline(time.Time{})
if err != nil {
conn.Close()
conn = nil
return true, ArErr{}
}
return false, ArErr{}
},
},
"RemoteAddr": builtinFunc{
"RemoteAddr",
func(args ...any) (any, ArErr) {
if conn == nil {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: "Connection is closed",
EXISTS: true,
}
}
return ArString(conn.RemoteAddr().String()), ArErr{}
},
},
"LocalAddr": builtinFunc{
"LocalAddr",
func(args ...any) (any, ArErr) {
return ArString(conn.LocalAddr().String()), ArErr{}
},
},
}), ArErr{}
},
},
"close": builtinFunc{
"close",
func(args ...any) (any, ArErr) {
if ln == nil {
return ArObject{}, ArErr{
TYPE: "Socket Error",
message: "Socket is already closed",
EXISTS: true,
}
}
ln.Close()
ln = nil
return nil, ArErr{}
},
},
"isClosed": builtinFunc{
"isClosed",
func(args ...any) (any, ArErr) {
return ln == nil, ArErr{}
},
},
}), ArErr{}
}

31
src/sortany.go
View File

@@ -1,8 +1,8 @@
package main
import "fmt"
type keyCache map[any]any
import (
"fmt"
)
func quickSort(list []any, getKey func(any) (any, ArErr)) ([]any, ArErr) {
if len(list) <= 1 {
@@ -13,21 +13,19 @@ func quickSort(list []any, getKey func(any) (any, ArErr)) ([]any, ArErr) {
var left []any
var right []any
var cache = make(keyCache)
for _, v := range list[1:] {
val, err := getkeyCache(getKey, v, cache)
val, err := getkeyCache(getKey, v)
if err.EXISTS {
return nil, err
}
pivotval, err := getkeyCache(getKey, pivot, cache)
pivotval, err := getkeyCache(getKey, pivot)
if err.EXISTS {
return nil, err
}
comp, comperr := compare(val, pivotval)
if comperr != nil {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Runtime Error",
message: comperr.Error(),
EXISTS: true,
}
@@ -51,28 +49,21 @@ func quickSort(list []any, getKey func(any) (any, ArErr)) ([]any, ArErr) {
return append(append(left, pivot), right...), ArErr{}
}
func getkeyCache(getKey func(any) (any, ArErr), index any, cache keyCache) (any, ArErr) {
key := ArValidToAny(index)
if cacheval, ok := cache[key]; ok {
return cacheval, ArErr{}
}
val, err := getKey(index)
func getkeyCache(getKey func(any) (any, ArErr), key any) (any, ArErr) {
val, err := getKey(key)
if err.EXISTS {
return nil, err
}
cache[key] = val
return val, ArErr{}
}
func compare(a, b any) (bool, error) {
if isAnyNumber(a) && isAnyNumber(b) {
return a.(number).Cmp(b.(number)) < 0, nil
} else if x, ok := a.(ArObject); ok {
if x, ok := a.(ArObject); ok {
if y, ok := x.obj["__LessThan__"]; ok {
resp, err := runCall(
call{
callable: y,
args: []any{b},
Callable: y,
Args: []any{b},
}, stack{}, 0)
if !err.EXISTS {
return anyToBool(resp), nil

275
src/string.go
View File

@@ -5,6 +5,7 @@ import (
"strconv"
"strings"
"github.com/fatih/color"
"golang.org/x/text/cases"
"golang.org/x/text/language"
)
@@ -15,21 +16,36 @@ func isString(code UNPARSEcode) bool {
return stringCompile.MatchString(code.code)
}
func swapQuotes(text string) string {
result := ""
for _, char := range text {
switch char {
case '"':
result += "'"
case '\'':
result += "\""
default:
result += string(char)
}
}
return result
}
func unquoted(
str string,
) (string, error) {
str = strings.Trim(str, " ")
if str[0] == '\'' {
str = strings.Replace(str, "\\\"", "\"", -1)
str = strings.Replace(str, "\"", "\\\"", -1)
char := str[0]
if char == '\'' {
str = swapQuotes(str)
}
str = str[1 : len(str)-1]
str = strings.Replace(str, "\\'", "'", -1)
str = "\"" + str + "\""
output, err := strconv.Unquote(str)
if err != nil {
return "", err
}
if char == '\'' {
output = swapQuotes(output)
}
return output, nil
}
@@ -39,7 +55,7 @@ func parseString(code UNPARSEcode) (string, bool, ArErr, int) {
unquoted, err := unquoted(trim)
if err != nil {
return "", false, ArErr{"Syntax Error", "invalid string", code.line, code.path, code.realcode, true}, 1
return "", false, ArErr{"Syntax Error", "invalid escape sequence", code.line, code.path, code.realcode, true}, 1
}
return unquoted, true, ArErr{}, 1
@@ -50,7 +66,32 @@ func ArString(str string) ArObject {
anymap{
"__value__": str,
"__name__": "string",
"length": newNumber().SetUint64(uint64(len(str))),
},
}
obj.obj["__string__"] = builtinFunc{
"__string__",
func(a ...any) (any, ArErr) {
return str, ArErr{}
}}
obj.obj["__repr__"] = builtinFunc{
"__repr__",
func(a ...any) (any, ArErr) {
colored := false
if len(a) == 1 {
if typeof(a[0]) != "boolean" {
return nil, ArErr{"Type Error", "expected boolean, got " + typeof(a[0]), 0, "", "", true}
}
colored = a[0].(bool)
}
output := []string{}
quoted := strconv.Quote(str)
if colored {
output = append(output, color.New(33).Sprint(quoted))
} else {
output = append(output, quoted)
}
return ArString(strings.Join(output, "")), ArErr{}
},
}
@@ -58,30 +99,29 @@ func ArString(str string) ArObject {
"__setindex__",
func(a ...any) (any, ArErr) {
if len(a) != 2 {
return nil, ArErr{"TypeError", "expected 2 arguments, got " + fmt.Sprint(len(a)), 0, "", "", true}
return nil, ArErr{"Type Error", "expected 2 arguments, got " + fmt.Sprint(len(a)), 0, "", "", true}
}
if typeof(a[0]) != "number" {
return nil, ArErr{"TypeError", "expected number, got " + typeof(a[0]), 0, "", "", true}
return nil, ArErr{"Type Error", "expected number, got " + typeof(a[0]), 0, "", "", true}
}
if typeof(a[1]) != "string" {
return nil, ArErr{"TypeError", "expected string, got " + typeof(a[1]), 0, "", "", true}
return nil, ArErr{"Type Error", "expected string, got " + typeof(a[1]), 0, "", "", true}
}
if len(a[1].(string)) != 1 {
return nil, ArErr{"TypeError", "expected string of length 1, got " + fmt.Sprint(len(a[1].(string))), 0, "", "", true}
return nil, ArErr{"Type Error", "expected string of length 1, got " + fmt.Sprint(len(a[1].(string))), 0, "", "", true}
}
if !a[0].(number).IsInt() {
return nil, ArErr{"TypeError", "expected integer, got float", 0, "", "", true}
return nil, ArErr{"Type Error", "expected integer, got float", 0, "", "", true}
}
index := a[0].(number).Num().Int64()
if index < 0 {
index = int64(len(str)) + index
}
if index < 0 || index >= int64(len(str)) {
return nil, ArErr{"IndexError", "index out of range", 0, "", "", true}
return nil, ArErr{"Index Error", "index out of range", 0, "", "", true}
}
str = strings.Join([]string{str[:index], a[1].(string), str[index+1:]}, "")
obj.obj["__value__"] = str
obj.obj["length"] = newNumber().SetUint64(uint64(len(str)))
return nil, ArErr{}
}}
obj.obj["__getindex__"] = builtinFunc{
@@ -90,8 +130,18 @@ func ArString(str string) ArObject {
// a[0] is start
// a[1] is end
// a[2] is step
if len(a) > 3 {
return nil, ArErr{"TypeError", "expected 1 to 3 arguments, got " + fmt.Sprint(len(a)), 0, "", "", true}
if len(a) > 3 || len(a) == 0 {
return nil, ArErr{"Type Error", "expected 1 to 3 arguments, got " + fmt.Sprint(len(a)), 0, "", "", true}
}
{
if len(a) == 1 {
if typeof(a[0]) == "string" {
var name = ArValidToAny(a[0]).(string)
if name == "length" {
return newNumber().SetInt64(int64(len(str))), ArErr{}
}
}
}
}
var (
start int = 0
@@ -101,14 +151,12 @@ func ArString(str string) ArObject {
{
if a[0] == nil {
start = 0
} else if typeof(a[0]) != "number" || !a[0].(number).IsInt() {
return "", ArErr{
TYPE: "TypeError",
message: "slice index must be an integer",
EXISTS: true,
} else if x, ok := a[0].(ArObject); ok {
start64, err := numberToInt64(x)
if err != nil {
return nil, ArErr{"Type Error", err.Error(), 0, "", "", true}
}
} else {
start = int(a[0].(number).Num().Int64())
start = int(start64)
}
}
if len(a) > 1 {
@@ -116,7 +164,7 @@ func ArString(str string) ArObject {
end = len(str)
} else if typeof(a[1]) != "number" || !a[1].(number).IsInt() {
return "", ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "slice index must be an integer",
EXISTS: true,
}
@@ -129,7 +177,7 @@ func ArString(str string) ArObject {
step = 1
} else if typeof(a[2]) != "number" || !a[2].(number).IsInt() {
return "", ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "slice index must be an integer",
EXISTS: true,
}
@@ -169,40 +217,38 @@ func ArString(str string) ArObject {
"append",
func(a ...any) (any, ArErr) {
if len(a) == 0 {
return nil, ArErr{"TypeError", "expected 1 or more argument, got 0", 0, "", "", true}
return nil, ArErr{"Type Error", "expected 1 or more argument, got 0", 0, "", "", true}
}
output := []string{str}
for _, v := range a {
v = ArValidToAny(v)
if typeof(v) != "string" {
return nil, ArErr{"TypeError", "expected string, got " + typeof(v), 0, "", "", true}
return nil, ArErr{"Type Error", "expected string, got " + typeof(v), 0, "", "", true}
}
output = append(output, v.(string))
}
str = strings.Join(output, "")
obj.obj["__value__"] = str
obj.obj["length"] = newNumber().SetUint64(uint64(len(str)))
return nil, ArErr{}
}}
obj.obj["extend"] = builtinFunc{
"extend",
func(a ...any) (any, ArErr) {
if len(a) != 1 {
return nil, ArErr{"TypeError", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
return nil, ArErr{"Type Error", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
}
if typeof(a[0]) != "array" {
return nil, ArErr{"TypeError", "expected array, got " + typeof(a[0]), 0, "", "", true}
return nil, ArErr{"Type Error", "expected array, got " + typeof(a[0]), 0, "", "", true}
}
output := []string{str}
for _, v := range a[0].([]any) {
if typeof(v) != "string" {
return nil, ArErr{"TypeError", "expected string, got " + typeof(v), 0, "", "", true}
return nil, ArErr{"Type Error", "expected string, got " + typeof(v), 0, "", "", true}
}
output = append(output, v.(string))
}
str = strings.Join(output, "")
obj.obj["__value__"] = str
obj.obj["length"] = newNumber().SetUint64(uint64(len(str)))
return nil, ArErr{}
},
}
@@ -210,13 +256,13 @@ func ArString(str string) ArObject {
"insert",
func(a ...any) (any, ArErr) {
if len(a) != 2 {
return nil, ArErr{"TypeError", "expected 2 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
return nil, ArErr{"Type Error", "expected 2 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
}
if typeof(a[0]) != "number" || !a[0].(number).IsInt() {
return nil, ArErr{"TypeError", "expected integer, got " + typeof(a[0]), 0, "", "", true}
return nil, ArErr{"Type Error", "expected integer, got " + typeof(a[0]), 0, "", "", true}
}
if typeof(a[1]) != "string" {
return nil, ArErr{"TypeError", "expected string, got " + typeof(a[1]), 0, "", "", true}
return nil, ArErr{"Type Error", "expected string, got " + typeof(a[1]), 0, "", "", true}
}
index := int(a[0].(number).Num().Int64())
if index < 0 {
@@ -227,19 +273,18 @@ func ArString(str string) ArObject {
}
str = str[:index] + a[1].(string) + str[index:]
obj.obj["__value__"] = str
obj.obj["length"] = newNumber().SetUint64(uint64(len(str)))
return nil, ArErr{}
}}
obj.obj["concat"] = builtinFunc{
"concat",
func(a ...any) (any, ArErr) {
if len(a) == 0 {
return nil, ArErr{"TypeError", "expected 1 or more argument, got 0", 0, "", "", true}
return nil, ArErr{"Type Error", "expected 1 or more argument, got 0", 0, "", "", true}
}
output := []string{str}
for _, v := range a {
if typeof(v) != "string" {
return nil, ArErr{"TypeError", "expected string, got " + typeof(v), 0, "", "", true}
return nil, ArErr{"Type Error", "expected string, got " + typeof(v), 0, "", "", true}
}
output = append(output, v.(string))
}
@@ -249,12 +294,12 @@ func ArString(str string) ArObject {
"split",
func(a ...any) (any, ArErr) {
if len(a) != 1 {
return nil, ArErr{"TypeError", "expected 1 or more argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
return nil, ArErr{"Type Error", "expected 1 or more argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
}
if typeof(a[0]) != "string" {
return nil, ArErr{"TypeError", "expected string, got " + typeof(a[0]), 0, "", "", true}
return nil, ArErr{"Type Error", "expected string, got " + typeof(a[0]), 0, "", "", true}
}
splitby := a[0].(ArObject).obj["__value__"].(string)
splitby := ArValidToAny(a[0]).(string)
output := []any{}
splitted := (strings.Split(str, splitby))
for _, v := range splitted {
@@ -262,11 +307,32 @@ func ArString(str string) ArObject {
}
return output, ArErr{}
}}
obj.obj["splitN"] = builtinFunc{
"splitN",
func(a ...any) (any, ArErr) {
if len(a) != 2 {
return nil, ArErr{"Type Error", "expected 2 or more argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
}
if typeof(a[0]) != "string" {
return nil, ArErr{"Type Error", "expected string, got " + typeof(a[0]), 0, "", "", true}
}
if typeof(a[1]) != "number" || !a[1].(number).IsInt() {
return nil, ArErr{"Type Error", "expected integer, got " + typeof(a[1]), 0, "", "", true}
}
splitby := ArValidToAny(a[0]).(string)
n := int(a[1].(number).Num().Int64())
output := []any{}
splitted := (strings.SplitN(str, splitby, n))
for _, v := range splitted {
output = append(output, ArString(v))
}
return output, ArErr{}
}}
obj.obj["capitalise"] = builtinFunc{
"capitalise",
func(a ...any) (any, ArErr) {
if len(a) != 0 {
return nil, ArErr{"TypeError", "expected 0 arguments, got " + fmt.Sprint(len(a)), 0, "", "", true}
return nil, ArErr{"Type Error", "expected 0 arguments, got " + fmt.Sprint(len(a)), 0, "", "", true}
}
return cases.Title(language.English).String(str), ArErr{}
}}
@@ -274,7 +340,7 @@ func ArString(str string) ArObject {
"lower",
func(a ...any) (any, ArErr) {
if len(a) != 0 {
return nil, ArErr{"TypeError", "expected 0 arguments, got " + fmt.Sprint(len(a)), 0, "", "", true}
return nil, ArErr{"Type Error", "expected 0 arguments, got " + fmt.Sprint(len(a)), 0, "", "", true}
}
return strings.ToLower(str), ArErr{}
}}
@@ -282,7 +348,7 @@ func ArString(str string) ArObject {
"upper",
func(a ...any) (any, ArErr) {
if len(a) != 0 {
return nil, ArErr{"TypeError", "expected 0 arguments, got " + fmt.Sprint(len(a)), 0, "", "", true}
return nil, ArErr{"Type Error", "expected 0 arguments, got " + fmt.Sprint(len(a)), 0, "", "", true}
}
return strings.ToUpper(str), ArErr{}
}}
@@ -290,13 +356,13 @@ func ArString(str string) ArObject {
"replace",
func(a ...any) (any, ArErr) {
if len(a) != 2 {
return nil, ArErr{"TypeError", "expected 2 arguments, got " + fmt.Sprint(len(a)), 0, "", "", true}
return nil, ArErr{"Type Error", "expected 2 arguments, got " + fmt.Sprint(len(a)), 0, "", "", true}
}
if typeof(a[0]) != "string" {
return nil, ArErr{"TypeError", "expected string, got " + typeof(a[0]), 0, "", "", true}
return nil, ArErr{"Type Error", "expected string, got " + typeof(a[0]), 0, "", "", true}
}
if typeof(a[1]) != "string" {
return nil, ArErr{"TypeError", "expected string, got " + typeof(a[1]), 0, "", "", true}
return nil, ArErr{"Type Error", "expected string, got " + typeof(a[1]), 0, "", "", true}
}
a[0] = ArValidToAny(a[0])
a[1] = ArValidToAny(a[1])
@@ -306,10 +372,10 @@ func ArString(str string) ArObject {
"contains",
func(a ...any) (any, ArErr) {
if len(a) != 1 {
return nil, ArErr{"TypeError", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
return nil, ArErr{"Type Error", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
}
if typeof(a[0]) != "string" {
return nil, ArErr{"TypeError", "expected string, got " + typeof(a[0]), 0, "", "", true}
return nil, ArErr{"Type Error", "expected string, got " + typeof(a[0]), 0, "", "", true}
}
return strings.Contains(str, a[0].(ArObject).obj["__value__"].(string)), ArErr{}
}}
@@ -317,10 +383,10 @@ func ArString(str string) ArObject {
"startswith",
func(a ...any) (any, ArErr) {
if len(a) != 1 {
return nil, ArErr{"TypeError", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
return nil, ArErr{"Type Error", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
}
if typeof(a[0]) != "string" {
return nil, ArErr{"TypeError", "expected string, got " + typeof(a[0]), 0, "", "", true}
return nil, ArErr{"Type Error", "expected string, got " + typeof(a[0]), 0, "", "", true}
}
return strings.HasPrefix(str, a[0].(ArObject).obj["__value__"].(string)), ArErr{}
}}
@@ -328,10 +394,10 @@ func ArString(str string) ArObject {
"endswith",
func(a ...any) (any, ArErr) {
if len(a) != 1 {
return nil, ArErr{"TypeError", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
return nil, ArErr{"Type Error", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
}
if typeof(a[0]) != "string" {
return nil, ArErr{"TypeError", "expected string, got " + typeof(a[0]), 0, "", "", true}
return nil, ArErr{"Type Error", "expected string, got " + typeof(a[0]), 0, "", "", true}
}
return strings.HasSuffix(str, a[0].(ArObject).obj["__value__"].(string)), ArErr{}
}}
@@ -339,10 +405,10 @@ func ArString(str string) ArObject {
"index",
func(a ...any) (any, ArErr) {
if len(a) != 1 {
return nil, ArErr{"TypeError", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
return nil, ArErr{"Type Error", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
}
if typeof(a[0]) != "string" {
return nil, ArErr{"TypeError", "expected string, got " + typeof(a[0]), 0, "", "", true}
return nil, ArErr{"Type Error", "expected string, got " + typeof(a[0]), 0, "", "", true}
}
return strings.Index(str, a[0].(ArObject).obj["__value__"].(string)), ArErr{}
}}
@@ -350,10 +416,10 @@ func ArString(str string) ArObject {
"rindex",
func(a ...any) (any, ArErr) {
if len(a) != 1 {
return nil, ArErr{"TypeError", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
return nil, ArErr{"Type Error", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
}
if typeof(a[0]) != "string" {
return nil, ArErr{"TypeError", "expected string, got " + typeof(a[0]), 0, "", "", true}
return nil, ArErr{"Type Error", "expected string, got " + typeof(a[0]), 0, "", "", true}
}
return strings.LastIndex(str, a[0].(ArObject).obj["__value__"].(string)), ArErr{}
}}
@@ -362,10 +428,10 @@ func ArString(str string) ArObject {
func(a ...any) (any, ArErr) {
if len(a) != 1 {
return nil, ArErr{"TypeError", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
return nil, ArErr{"Type Error", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
}
if typeof(a[0]) != "string" {
return nil, ArErr{"TypeError", "expected string, got " + typeof(a[0]), 0, "", "", true}
return nil, ArErr{"Type Error", "expected string, got " + typeof(a[0]), 0, "", "", true}
}
return strings.Count(str, a[0].(ArObject).obj["__value__"].(string)), ArErr{}
}}
@@ -375,7 +441,7 @@ func ArString(str string) ArObject {
func(args ...any) (any, ArErr) {
if len(args) > 2 {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "too many arguments",
EXISTS: true,
}
@@ -384,7 +450,7 @@ func ArString(str string) ArObject {
if len(args) >= 1 {
if typeof(args[0]) != "boolean" {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "argument must be a boolean",
EXISTS: true,
}
@@ -399,7 +465,7 @@ func ArString(str string) ArObject {
if len(args) == 2 {
if typeof(args[1]) != "function" {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: "argument must be a function",
EXISTS: true,
}
@@ -418,7 +484,6 @@ func ArString(str string) ArObject {
bytes[i] = b.(byte)
}
str = string(bytes)
obj.obj["length"] = len(str)
obj.obj["__value__"] = str
return nil, ArErr{}
}
@@ -438,7 +503,6 @@ func ArString(str string) ArObject {
bytes[i] = b.(byte)
}
str = string(bytes)
obj.obj["length"] = len(str)
obj.obj["__value__"] = str
return nil, ArErr{}
},
@@ -447,12 +511,12 @@ func ArString(str string) ArObject {
"strip",
func(a ...any) (any, ArErr) {
if len(a) > 1 {
return nil, ArErr{"TypeError", "expected 0 or 1 arguments, got " + fmt.Sprint(len(a)), 0, "", "", true}
return nil, ArErr{"Type Error", "expected 0 or 1 arguments, got " + fmt.Sprint(len(a)), 0, "", "", true}
}
cutset := " "
if len(a) == 1 {
if typeof(a[0]) != "string" {
return nil, ArErr{"TypeError", "expected string, got " + typeof(a[0]), 0, "", "", true}
return nil, ArErr{"Type Error", "expected string, got " + typeof(a[0]), 0, "", "", true}
}
cutset = a[0].(ArObject).obj["__value__"].(string)
}
@@ -462,12 +526,12 @@ func ArString(str string) ArObject {
"leftstrip",
func(a ...any) (any, ArErr) {
if len(a) > 1 {
return nil, ArErr{"TypeError", "expected 0 or 1 arguments, got " + fmt.Sprint(len(a)), 0, "", "", true}
return nil, ArErr{"Type Error", "expected 0 or 1 arguments, got " + fmt.Sprint(len(a)), 0, "", "", true}
}
cutset := " "
if len(a) == 1 {
if typeof(a[0]) != "string" {
return nil, ArErr{"TypeError", "expected string, got " + typeof(a[0]), 0, "", "", true}
return nil, ArErr{"Type Error", "expected string, got " + typeof(a[0]), 0, "", "", true}
}
cutset = a[0].(ArObject).obj["__value__"].(string)
}
@@ -477,12 +541,12 @@ func ArString(str string) ArObject {
"rightstrip",
func(a ...any) (any, ArErr) {
if len(a) > 1 {
return nil, ArErr{"TypeError", "expected 0 or 1 arguments, got " + fmt.Sprint(len(a)), 0, "", "", true}
return nil, ArErr{"Type Error", "expected 0 or 1 arguments, got " + fmt.Sprint(len(a)), 0, "", "", true}
}
cutset := " "
if len(a) == 1 {
if typeof(a[0]) != "string" {
return nil, ArErr{"TypeError", "expected string, got " + typeof(a[0]), 0, "", "", true}
return nil, ArErr{"Type Error", "expected string, got " + typeof(a[0]), 0, "", "", true}
}
cutset = a[0].(ArObject).obj["__value__"].(string)
}
@@ -492,10 +556,10 @@ func ArString(str string) ArObject {
"__LessThanOrEqual__",
func(a ...any) (any, ArErr) {
if len(a) != 1 {
return nil, ArErr{"TypeError", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
return nil, ArErr{"Type Error", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
}
if typeof(a[0]) != "string" {
return nil, ArErr{"TypeError", "cannot get less than or equal to of type " + typeof(a[0]) + " from string", 0, "", "", true}
return nil, ArErr{"Type Error", "cannot get less than or equal to of type " + typeof(a[0]) + " from string", 0, "", "", true}
}
a[0] = ArValidToAny(a[0])
return str <= a[0].(string), ArErr{}
@@ -504,10 +568,10 @@ func ArString(str string) ArObject {
"__LessThan__",
func(a ...any) (any, ArErr) {
if len(a) != 1 {
return nil, ArErr{"TypeError", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
return nil, ArErr{"Type Error", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
}
if typeof(a[0]) != "string" {
return nil, ArErr{"TypeError", "cannot get less than of type " + typeof(a[0]) + " from string", 0, "", "", true}
return nil, ArErr{"Type Error", "cannot get less than of type " + typeof(a[0]) + " from string", 0, "", "", true}
}
a[0] = ArValidToAny(a[0])
return str < a[0].(string), ArErr{}
@@ -516,10 +580,10 @@ func ArString(str string) ArObject {
"__GreaterThan__",
func(a ...any) (any, ArErr) {
if len(a) != 1 {
return nil, ArErr{"TypeError", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
return nil, ArErr{"Type Error", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
}
if typeof(a[0]) != "string" {
return nil, ArErr{"TypeError", "cannot get greater than of type " + typeof(a[0]) + " from string", 0, "", "", true}
return nil, ArErr{"Type Error", "cannot get greater than of type " + typeof(a[0]) + " from string", 0, "", "", true}
}
a[0] = ArValidToAny(a[0])
return str > a[0].(string), ArErr{}
@@ -529,10 +593,10 @@ func ArString(str string) ArObject {
"__GreaterThanEqual__",
func(a ...any) (any, ArErr) {
if len(a) != 1 {
return nil, ArErr{"TypeError", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
return nil, ArErr{"Type Error", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
}
if typeof(a[0]) != "string" {
return nil, ArErr{"TypeError", "cannot get greater than or equal to of type " + typeof(a[0]) + " from string", 0, "", "", true}
return nil, ArErr{"Type Error", "cannot get greater than or equal to of type " + typeof(a[0]) + " from string", 0, "", "", true}
}
a[0] = ArValidToAny(a[0])
return str >= a[0].(string), ArErr{}
@@ -541,7 +605,7 @@ func ArString(str string) ArObject {
"__Equal__",
func(a ...any) (any, ArErr) {
if len(a) != 1 {
return nil, ArErr{"TypeError", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
return nil, ArErr{"Type Error", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
}
a[0] = ArValidToAny(a[0])
return str == a[0], ArErr{}
@@ -550,7 +614,7 @@ func ArString(str string) ArObject {
"__NotEqual__",
func(a ...any) (any, ArErr) {
if len(a) != 1 {
return nil, ArErr{"TypeError", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
return nil, ArErr{"Type Error", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
}
a[0] = ArValidToAny(a[0])
return str != a[0], ArErr{}
@@ -559,22 +623,34 @@ func ArString(str string) ArObject {
"__Add__",
func(a ...any) (any, ArErr) {
if len(a) != 1 {
return nil, ArErr{"TypeError", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
return nil, ArErr{"Type Error", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
}
a[0] = ArValidToAny(a[0])
if typeof(a[0]) != "string" {
a[0] = anyToArgon(a[0], false, false, 3, 0, false, 0)
}
return strings.Join([]string{str, a[0].(string)}, ""), ArErr{}
return str + a[0].(string), ArErr{}
}}
obj.obj["__PostAdd__"] = builtinFunc{
"__PostAdd__",
func(a ...any) (any, ArErr) {
if len(a) != 1 {
return nil, ArErr{"Type Error", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
}
a[0] = ArValidToAny(a[0])
if typeof(a[0]) != "string" {
a[0] = anyToArgon(a[0], false, false, 3, 0, false, 0)
}
return a[0].(string) + str, ArErr{}
}}
obj.obj["__Multiply__"] = builtinFunc{
"__Multiply__",
func(a ...any) (any, ArErr) {
if len(a) != 1 {
return nil, ArErr{"TypeError", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
return nil, ArErr{"Type Error", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
}
if typeof(a[0]) != "number" {
return nil, ArErr{"TypeError", "cannot multiply string by " + typeof(a[0]), 0, "", "", true}
return nil, ArErr{"Type Error", "cannot multiply string by " + typeof(a[0]), 0, "", "", true}
}
n := a[0].(number)
if !n.IsInt() {
@@ -585,14 +661,26 @@ func ArString(str string) ArObject {
}
return strings.Repeat(str, int(n.Num().Int64())), ArErr{}
}}
obj.obj["__NotContains__"] = builtinFunc{
"__NotContains__",
func(a ...any) (any, ArErr) {
if len(a) != 1 {
return nil, ArErr{"Type Error", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
}
if typeof(a[0]) != "string" {
return nil, ArErr{"Type Error", "cannot check if string contains " + typeof(a[0]), 0, "", "", true}
}
a[0] = ArValidToAny(a[0])
return !strings.Contains(str, a[0].(string)), ArErr{}
}}
obj.obj["__Contains__"] = builtinFunc{
"__Contains__",
func(a ...any) (any, ArErr) {
if len(a) != 1 {
return nil, ArErr{"TypeError", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
return nil, ArErr{"Type Error", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
}
if typeof(a[0]) != "string" {
return nil, ArErr{"TypeError", "cannot check if string contains " + typeof(a[0]), 0, "", "", true}
return nil, ArErr{"Type Error", "cannot check if string contains " + typeof(a[0]), 0, "", "", true}
}
a[0] = ArValidToAny(a[0])
return strings.Contains(str, a[0].(string)), ArErr{}
@@ -601,10 +689,10 @@ func ArString(str string) ArObject {
"__Subtract__",
func(a ...any) (any, ArErr) {
if len(a) != 1 {
return nil, ArErr{"TypeError", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
return nil, ArErr{"Type Error", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
}
if typeof(a[0]) != "string" {
return nil, ArErr{"TypeError", "cannot subtract " + typeof(a[0]) + " from string", 0, "", "", true}
return nil, ArErr{"Type Error", "cannot subtract " + typeof(a[0]) + " from string", 0, "", "", true}
}
a[0] = ArValidToAny(a[0])
return strings.Replace(str, a[0].(string), "", -1), ArErr{}
@@ -613,10 +701,10 @@ func ArString(str string) ArObject {
"__Divide__",
func(a ...any) (any, ArErr) {
if len(a) != 1 {
return nil, ArErr{"TypeError", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
return nil, ArErr{"Type Error", "expected 1 argument, got " + fmt.Sprint(len(a)), 0, "", "", true}
}
if typeof(a[0]) != "string" {
return nil, ArErr{"TypeError", "cannot divide string by " + typeof(a[0]), 0, "", "", true}
return nil, ArErr{"Type Error", "cannot divide string by " + typeof(a[0]), 0, "", "", true}
}
a[0] = ArValidToAny(a[0])
splitby := a[0].(string)
@@ -627,5 +715,10 @@ func ArString(str string) ArObject {
}
return ArArray(output), ArErr{}
}}
obj.obj["__Boolean__"] = builtinFunc{
"__Boolean__",
func(a ...any) (any, ArErr) {
return len(str) > 0, ArErr{}
}}
return obj
}

12
src/subprocess.go
View File

@@ -15,7 +15,7 @@ func ArSubprocess(args ...any) (any, ArErr) {
}
} else if typeof(args[0]) != "array" {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: fmt.Sprintf("subprocess() argument must be an array, not %s", typeof(args[0])),
EXISTS: true,
}
@@ -32,7 +32,7 @@ func ArSubprocess(args ...any) (any, ArErr) {
for _, x := range args[0].([]any) {
if typeof(x) != "string" {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: fmt.Sprintf("subprocess() argument must be an array of strings, not %s", typeof(x)),
EXISTS: true,
}
@@ -70,7 +70,7 @@ func ArSubprocess(args ...any) (any, ArErr) {
func(args ...any) (any, ArErr) {
if len(args) != 0 {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: fmt.Sprintf("scan() takes exactly 0 arguments (%d given)", len(args)),
EXISTS: true,
}
@@ -82,7 +82,7 @@ func ArSubprocess(args ...any) (any, ArErr) {
func(args ...any) (any, ArErr) {
if len(args) != 0 {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: fmt.Sprintf("text() takes exactly 0 arguments (%d given)", len(args)),
EXISTS: true,
}
@@ -94,7 +94,7 @@ func ArSubprocess(args ...any) (any, ArErr) {
func(args ...any) (any, ArErr) {
if len(args) != 0 {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: fmt.Sprintf("err() takes exactly 0 arguments (%d given)", len(args)),
EXISTS: true,
}
@@ -109,7 +109,7 @@ func ArSubprocess(args ...any) (any, ArErr) {
func(args ...any) (any, ArErr) {
if len(args) != 0 {
return nil, ArErr{
TYPE: "TypeError",
TYPE: "Type Error",
message: fmt.Sprintf("wait() takes exactly 0 arguments (%d given)", len(args)),
EXISTS: true,
}

31
src/term-class.go
View File

@@ -2,10 +2,12 @@ package main
import (
"fmt"
"sync"
"time"
)
var timing = anymap{}
var timingSync = sync.RWMutex{}
var ArTerm = Map(anymap{
"log": builtinFunc{"log", func(args ...any) (any, ArErr) {
@@ -78,7 +80,7 @@ var ArTerm = Map(anymap{
}},
}),
"error": builtinFunc{"error", func(args ...any) (any, ArErr) {
output := []any{"error: "}
output := []any{}
for i := 0; i < len(args); i++ {
output = append(output, anyToArgon(args[i], false, true, 3, 0, false, 0))
}
@@ -87,7 +89,7 @@ var ArTerm = Map(anymap{
},
},
"warn": builtinFunc{"error", func(args ...any) (any, ArErr) {
output := []any{"warning: "}
output := []any{}
for i := 0; i < len(args); i++ {
output = append(output, anyToArgon(args[i], false, true, 3, 0, false, 0))
}
@@ -100,7 +102,9 @@ var ArTerm = Map(anymap{
if len(args) > 0 {
id = ArValidToAny(args[0])
}
timingSync.Lock()
timing[id] = time.Now()
timingSync.Unlock()
return nil, ArErr{}
},
},
@@ -109,11 +113,15 @@ var ArTerm = Map(anymap{
if len(args) > 0 {
id = ArValidToAny(args[0])
}
timingSync.RLock()
if _, ok := timing[id]; !ok {
return nil, ArErr{TYPE: "TypeError", message: "Cannot find timer with id '" + fmt.Sprint(id) + "'", EXISTS: true}
return nil, ArErr{TYPE: "Type Error", message: "Cannot find timer with id '" + fmt.Sprint(id) + "'", EXISTS: true}
}
timesince := time.Since(timing[id].(time.Time))
timingSync.RUnlock()
timingSync.Lock()
delete(timing, id)
timingSync.Unlock()
if id == nil {
id = "Timer"
}
@@ -131,11 +139,16 @@ var ArInput = Map(
}
return ArString(resp), ArErr{}
}},
"__call__": builtinFunc{"input", func(args ...any) (any, ArErr) {
resp, err := input(args...)
if err != nil {
return nil, ArErr{TYPE: "Runtime Error", message: err.Error(), EXISTS: true}
}
return ArString(resp), ArErr{}
}},
"pause": builtinFunc{"pause", func(args ...any) (any, ArErr) {
pause()
return nil, ArErr{}
}},
},
)
func init() {
ArInput.obj["__call__"] = builtinFunc{"input", func(args ...any) (any, ArErr) {
return input(args...), ArErr{}
}}
}

18
src/thread.go
View File

@@ -5,41 +5,45 @@ import (
"sync"
)
var threadChan = sync.WaitGroup{}
func ArThread(args ...any) (any, ArErr) {
if len(args) != 1 {
return nil, ArErr{TYPE: "TypeError", message: "Invalid number of arguments, expected 1, got " + fmt.Sprint(len(args)), EXISTS: true}
return nil, ArErr{TYPE: "Type Error", message: "Invalid number of arguments, expected 1, got " + fmt.Sprint(len(args)), EXISTS: true}
}
var tocall any
switch x := args[0].(type) {
case anymap:
if _, ok := x["__call__"]; !ok {
return nil, ArErr{TYPE: "TypeError", message: "Cannot call thread with a '" + typeof(args[0]) + "'", EXISTS: true}
return nil, ArErr{TYPE: "Type Error", message: "Cannot call thread with a '" + typeof(args[0]) + "'", EXISTS: true}
}
tocall = x["__call__"]
case builtinFunc, Callable:
tocall = x
default:
return nil, ArErr{TYPE: "TypeError", message: "Cannot call thread with a '" + typeof(args[0]) + "'", EXISTS: true}
return nil, ArErr{TYPE: "Type Error", message: "Cannot call thread with a '" + typeof(args[0]) + "'", EXISTS: true}
}
var resp any
var err ArErr
hasrun := false
joined := false
var wg sync.WaitGroup
var wg = sync.WaitGroup{}
threadMap := Map(anymap{
"start": builtinFunc{"start", func(args ...any) (any, ArErr) {
if hasrun {
return nil, ArErr{TYPE: "Runtime Error", message: "Cannot start a thread twice", EXISTS: true}
}
if len(args) != 0 {
return nil, ArErr{TYPE: "TypeError", message: "Invalid number of arguments, expected 0, got " + fmt.Sprint(len(args)), EXISTS: true}
return nil, ArErr{TYPE: "Type Error", message: "Invalid number of arguments, expected 0, got " + fmt.Sprint(len(args)), EXISTS: true}
}
hasrun = true
wg.Add(1)
threadChan.Add(1)
go func() {
resp, err = runCall(call{tocall, []any{}, "", 0, ""}, nil, 0)
resp, err = runCall(call{Callable: tocall, Args: []any{}}, nil, 0)
wg.Done()
threadChan.Done()
}()
return nil, ArErr{}
}},
@@ -50,7 +54,7 @@ func ArThread(args ...any) (any, ArErr) {
return nil, ArErr{TYPE: "Runtime Error", message: "Cannot join a thread twice", EXISTS: true}
}
if len(args) != 0 {
return nil, ArErr{TYPE: "TypeError", message: "Invalid number of arguments, expected 0, got " + fmt.Sprint(len(args)), EXISTS: true}
return nil, ArErr{TYPE: "Type Error", message: "Invalid number of arguments, expected 0, got " + fmt.Sprint(len(args)), EXISTS: true}
}
joined = true
wg.Wait()

19
src/time.go
View File

@@ -102,11 +102,14 @@ func ArTimeClass(N time.Time) ArObject {
var ArTime = Map(anymap{
"snooze": builtinFunc{"snooze", func(a ...any) (any, ArErr) {
if len(a) > 0 {
if len(a) == 1 {
float, _ := a[0].(number).Float64()
time.Sleep(time.Duration(float*1000000000) * time.Nanosecond)
}
return nil, ArErr{}
return nil, ArErr{
TYPE: "Runtime Error",
message: "snooze requires 1 argument",
}
}},
"now": builtinFunc{"now", func(a ...any) (any, ArErr) {
return ArTimeClass(time.Now()), ArErr{}
@@ -129,7 +132,7 @@ var ArTime = Map(anymap{
}
}
return ArTimeClass(N), ArErr{}
} else if len(a) > 1 {
} else if len(a) == 2 {
if typeof(a[0]) != "string" {
return nil, ArErr{
TYPE: "Runtime Error",
@@ -163,7 +166,7 @@ var ArTime = Map(anymap{
}
}},
"parseInLocation": builtinFunc{"parseInLocation", func(a ...any) (any, ArErr) {
if len(a) != 2 {
if len(a) == 2 {
if typeof(a[0]) != "string" || typeof(a[1]) != "string" {
return nil, ArErr{
TYPE: "Runtime Error",
@@ -191,7 +194,7 @@ var ArTime = Map(anymap{
},
},
"date": builtinFunc{"date", func(a ...any) (any, ArErr) {
if len(a) != 1 {
if len(a) == 1 {
if typeof(a[0]) != "string" {
return nil, ArErr{
TYPE: "Runtime Error",
@@ -218,7 +221,7 @@ var ArTime = Map(anymap{
},
},
"unix": builtinFunc{"unix", func(a ...any) (any, ArErr) {
if len(a) != 2 {
if len(a) == 2 {
if typeof(a[0]) != "number" || typeof(a[1]) != "number" {
return nil, ArErr{
TYPE: "Runtime Error",
@@ -238,7 +241,7 @@ var ArTime = Map(anymap{
},
},
"unixMilli": builtinFunc{"unixMilli", func(a ...any) (any, ArErr) {
if len(a) != 1 {
if len(a) == 1 {
if typeof(a[0]) != "number" {
return nil, ArErr{
TYPE: "Runtime Error",
@@ -257,7 +260,7 @@ var ArTime = Map(anymap{
},
},
"unixMicro": builtinFunc{"unixMicro", func(a ...any) (any, ArErr) {
if len(a) > 0 {
if len(a) == 1 {
if typeof(a[0]) != "number" {
return nil, ArErr{
TYPE: "Runtime Error",

76
src/to-argon.go
View File

@@ -2,7 +2,6 @@ package main
import (
"fmt"
"math"
"sort"
"strconv"
"strings"
@@ -11,8 +10,7 @@ import (
"github.com/jwalton/go-supportscolor"
)
func anyToArgon(x any, quote bool, simplify bool, depth int, indent int, colored bool, plain int) string {
x = ArValidToAny(x)
func anyToArgon(x any, representive bool, simplify bool, depth int, indent int, colored bool, plain int) string {
output := []string{}
maybenewline := ""
if plain == 1 {
@@ -30,37 +28,9 @@ func anyToArgon(x any, quote bool, simplify bool, depth int, indent int, colored
return strings.Join(output, "")
}
switch x := x.(type) {
case string:
if !quote {
output = append(output, x)
break
}
quoted := strconv.Quote(x)
if colored {
output = append(output, color.New(33).Sprint(quoted))
} else {
output = append(output, quoted)
}
case number:
if colored {
output = append(output, "\x1b[34;5;240m")
}
num, _ := x.Float64()
if math.IsNaN(num) {
output = append(output, "NaN")
} else if math.IsInf(num, 1) {
output = append(output, "infinity")
} else if math.IsInf(num, -1) {
output = append(output, "-infinity")
} else {
output = append(output, numberToString(x, simplify))
}
if colored {
output = append(output, "\x1b[0m")
}
case bool:
if colored {
output = append(output, "\x1b[35;5;240m")
output = append(output, "\x1b[35;5;25m")
}
output = append(output, strconv.FormatBool(x))
if colored {
@@ -68,12 +38,44 @@ func anyToArgon(x any, quote bool, simplify bool, depth int, indent int, colored
}
case nil:
if colored {
output = append(output, "\x1b[31;5;240m")
output = append(output, "\x1b[31;5;25m")
}
output = append(output, "null")
if colored {
output = append(output, "\x1b[0m")
}
case ArObject:
if callable, ok := x.obj["__string__"]; ok && !representive {
val, err := runCall(
call{
Callable: callable,
Args: []any{},
},
stack{},
0,
)
if !err.EXISTS {
output = append(output, fmt.Sprint(ArValidToAny(val)))
break
}
} else if callable, ok := x.obj["__repr__"]; ok {
val, err := runCall(
call{
Callable: callable,
Args: []any{colored},
},
stack{},
0,
)
if !err.EXISTS {
output = append(output, fmt.Sprint(ArValidToAny(val)))
break
}
} else if val, ok := x.obj["__value__"]; ok {
output = append(output, anyToArgon(val, representive, simplify, depth, indent, colored, plain))
break
}
output = append(output, "<object>")
case anymap:
if len(x) == 0 {
return "{}"
@@ -97,7 +99,7 @@ func anyToArgon(x any, quote bool, simplify bool, depth int, indent int, colored
} else {
outputkeyval := []string{}
if colored {
outputkeyval = append(outputkeyval, "\x1b[36;5;240m")
outputkeyval = append(outputkeyval, "\x1b[36;5;25m")
}
outputkeyval = append(outputkeyval, key.(string))
if colored {
@@ -117,7 +119,7 @@ func anyToArgon(x any, quote bool, simplify bool, depth int, indent int, colored
output = append(output, anyToArgon(item, true, true, depth-1, indent+1, colored, plain))
}
if colored {
output = append(output, "\x1b[38;5;240m(...)\x1b[0m")
output = append(output, "\x1b[38;5;25m(...)\x1b[0m")
} else {
output = append(output, "(...)")
}
@@ -142,7 +144,7 @@ func anyToArgon(x any, quote bool, simplify bool, depth int, indent int, colored
return "[" + maybenewline + (strings.Repeat(" ", (indent+1)*plain)) + strings.Join(output, ","+maybenewline+(strings.Repeat(" ", (indent+1)*plain))) + maybenewline + (strings.Repeat(" ", indent*plain)) + "]"
case builtinFunc:
if colored {
output = append(output, "\x1b[38;5;240m")
output = append(output, "\x1b[38;5;25m")
}
output = append(output, "<builtin function "+x.name+">")
if colored {
@@ -150,7 +152,7 @@ func anyToArgon(x any, quote bool, simplify bool, depth int, indent int, colored
}
case Callable:
if colored {
output = append(output, "\x1b[38;5;240m")
output = append(output, "\x1b[38;5;25m")
}
output = append(output, "<function "+x.name+">")
if colored {

130
src/translate.go
View File

@@ -11,6 +11,8 @@ type UNPARSEcode struct {
path string
}
var QuickKnownFailures = map[string]bool{}
func translateVal(code UNPARSEcode, index int, codelines []UNPARSEcode, isLine int) (any, bool, ArErr, int) {
var (
resp any = nil
@@ -18,115 +20,144 @@ func translateVal(code UNPARSEcode, index int, codelines []UNPARSEcode, isLine i
err ArErr = ArErr{"Syntax Error", "invalid syntax", code.line, code.path, code.realcode, true}
i int = 1
)
if isLine == 2 {
if isDeleteVariable(code) {
return parseDelete(code, index, codelines)
} else if isComment(code) {
if isLine >= 3 {
if isComment(code) {
resp, worked, err, i = parseComment(code, index, codelines)
if worked {
return resp, worked, err, i
}
} else if isReturn(code) {
return parseReturn(code, index, codelines)
} else if isBreak(code) {
return parseBreak(code)
} else if isContinue(code) {
return parseContinue(code)
} else if isIfStatement(code) {
}
if isIfStatement(code) {
return parseIfStatement(code, index, codelines)
} else if isWhileLoop(code) {
return parseWhileLoop(code, index, codelines)
} else if isForeverLoop(code) {
return parseForeverLoop(code, index, codelines)
} else if isForLoop(code) {
return parseForLoop(code, index, codelines)
} else if isGenericImport(code) {
return parseGenericImport(code, index, codelines)
} else if isTryCatch(code) {
return parseTryCatch(code, index, codelines)
}
}
if isLine >= 1 {
if isDoWrap(code) {
return parseDoWrap(code, index, codelines)
if isLine >= 2 {
if isReturn(code) {
return parseReturn(code, index, codelines)
} else if isBreak(code) {
return parseBreak(code)
} else if isContinue(code) {
return parseContinue(code)
} else if isDeleteVariable(code) {
return parseDelete(code, index, codelines)
}
}
if isLine == 2 {
if isLine > 1 {
isLine = 1
}
if isBoolean(code) {
if isDoWrap(code) {
return parseDoWrap(code, index, codelines)
} else if isBoolean(code) {
return parseBoolean(code)
} else if isBrackets(code) {
} else if !QuickKnownFailures["brackets"+code.code] && isBrackets(code) {
resp, worked, err, i = parseBrackets(code, index, codelines)
if worked {
return resp, worked, err, i
}
QuickKnownFailures["brackets"+code.code] = true
}
if isAbs(code) {
if !QuickKnownFailures["abs"+code.code] && isAbs(code) {
resp, worked, err, i = parseAbs(code, index, codelines)
if worked {
return resp, worked, err, i
}
QuickKnownFailures["abs"+code.code] = true
}
if isnot(code) {
return parseNot(code, index, codelines, isLine)
}
if isSetVariable(code) {
resp, worked, err, i = parseSetVariable(code, index, codelines, isLine)
if worked {
return resp, worked, err, i
}
}
if isAutoAsignVariable(code) {
if !QuickKnownFailures["autoasign"+code.code] && isAutoAsignVariable(code) {
resp, worked, err, i = parseAutoAsignVariable(code, index, codelines, isLine)
if worked {
return resp, worked, err, i
}
QuickKnownFailures["autoasign"+code.code] = true
}
if isNumber(code) {
if isSetVariable(code) {
return parseSetVariable(code, index, codelines, isLine)
} else if isNumber(code) {
return parseNumber(code)
} else if isString(code) {
return parseString(code)
} else if issquareroot(code) {
return parseSquareroot(code, index, codelines)
} else if isFactorial(code) {
return parseFactorial(code, index, codelines)
} else if !QuickKnownFailures["squareroot"+code.code] && issquareroot(code) {
resp, worked, err, i = parseSquareroot(code, index, codelines)
if worked {
return resp, worked, err, i
}
QuickKnownFailures["squareroot"+code.code] = true
}
if isVariable(code) {
return parseVariable(code)
}
if isArray(code) {
if !QuickKnownFailures["array"+code.code] && isArray(code) {
resp, worked, err, i = parseArray(code, index, codelines)
if worked {
return resp, worked, err, i
}
QuickKnownFailures["array"+code.code] = true
} else if isMap(code) {
resp, worked, err, i = parseMap(code, index, codelines)
}
if isCall(code) {
if !QuickKnownFailures["not"+code.code] && isnot(code) {
resp, worked, err, i = parseNot(code, index, codelines, isLine)
if worked {
return resp, worked, err, i
}
QuickKnownFailures["not"+code.code] = true
}
if !QuickKnownFailures["operations"+code.code] {
operation, worked, err, step := parseOperations(code, index, codelines)
if worked {
return operation, worked, err, step
}
QuickKnownFailures["operations"+code.code] = true
if err.EXISTS {
return nil, worked, err, step
}
}
if !QuickKnownFailures["factorial"+code.code] && isFactorial(code) {
resp, worked, err, i = parseFactorial(code, index, codelines)
if worked {
return resp, worked, err, i
}
QuickKnownFailures["factorial"+code.code] = true
}
if !QuickKnownFailures["call"+code.code] && isCall(code) {
resp, worked, err, i = parseCall(code, index, codelines)
if worked {
return resp, worked, err, i
}
}
{
operation, worked, err, step := parseOperations(code, index, codelines)
if worked {
return operation, worked, err, step
} else if err.EXISTS {
return nil, worked, err, step
}
QuickKnownFailures["call"+code.code] = true
}
if isNegative(code) {
return parseNegative(code, index, codelines)
} else if isMapGet(code) {
return mapGetParse(code, index, codelines)
} else if isIndexGet(code) {
} else if !QuickKnownFailures["indexget"+code.code] && isIndexGet(code) {
resp, worked, err, i = indexGetParse(code, index, codelines)
if worked {
return resp, worked, err, i
}
QuickKnownFailures["indexget"+code.code] = true
}
return resp, worked, err, i
}
@@ -141,15 +172,16 @@ func translate(codelines []UNPARSEcode) ([]any, ArErr) {
if currentindent != 0 {
return nil, ArErr{"Syntax Error", "invalid indent", codelines[i].line, codelines[i].path, codelines[i].realcode, true}
}
val, _, err, step := translateVal(codelines[i], i, codelines, 2)
switch val.(type) {
case CallReturn:
return nil, ArErr{"Runtime Error", "Jump statment at top level", codelines[i].line, codelines[i].path, codelines[i].realcode, true}
}
val, _, err, step := translateVal(codelines[i], i, codelines, 4)
i += step
if err.EXISTS {
return nil, err
}
err = translateThrowOnNonLoop(val)
if err.EXISTS {
return nil, err
}
translated = append(translated, val)
}
return translated, ArErr{}

57
src/trig.go
View File

@@ -7,6 +7,18 @@ import (
var PIFloatInaccuracy number = newNumber()
type sinCacheValue struct {
INPUT number
OUTPUT number
}
var sinCache = []sinCacheValue{
{newNumber(), newNumber()},
{newNumber().Quo(PI_RAT, newNumber().SetInt64(2)), newNumber().SetInt64(1)},
{PI_RAT, newNumber()},
{newNumber().Add(PI_RAT, newNumber().Quo(PI_RAT, newNumber().SetInt64(2))), newNumber().SetInt64(-1)},
}
func init() {
PIFloatInaccuracy.SetFloat64(math.Asin(1) * 2)
}
@@ -25,7 +37,19 @@ var ArSin = builtinFunc{"sin", func(args ...any) (any, ArErr) {
}
}
num := newNumber().Set(args[0].(number))
num.Quo(num, PI)
toTrim := newNumber().Mul(PI_RAT, newNumber().SetInt64(2))
toTrim.Quo(num, toTrim)
toTrim = floor(toTrim)
toTrim.Mul(toTrim, newNumber().Mul(PI_RAT, newNumber().SetInt64(2)))
num.Sub(num, toTrim)
for i := 0; i < len(sinCache); i++ {
if sinCache[i].INPUT.Cmp(num) == 0 {
return sinCache[i].OUTPUT, ArErr{}
}
}
num.Quo(num, PI_RAT)
num.Mul(num, PIFloatInaccuracy)
n, _ := num.Float64()
outputnum := newNumber().SetFloat64(math.Sin(n))
@@ -54,7 +78,7 @@ var ArArcsin = builtinFunc{"arcsin", func(args ...any) (any, ArErr) {
}
outputnum := newNumber().SetFloat64(math.Asin(n))
outputnum.Quo(outputnum, PIFloatInaccuracy)
outputnum.Mul(outputnum, PI)
outputnum.Mul(outputnum, PI_RAT)
return outputnum, ArErr{}
}}
@@ -71,12 +95,7 @@ var ArCos = builtinFunc{"cos", func(args ...any) (any, ArErr) {
EXISTS: true,
}
}
num := newNumber().Set(args[0].(number))
num.Quo(num, PI)
num.Mul(num, PIFloatInaccuracy)
n, _ := num.Float64()
outputnum := newNumber().SetFloat64(math.Cos(n))
return outputnum, ArErr{}
return builtinCall(ArSin, []any{newNumber().Add(args[0].(number), newNumber().Quo(PI_RAT, newNumber().SetInt64(2)))})
}}
var ArArccos = builtinFunc{"arccos", func(args ...any) (any, ArErr) {
if len(args) != 1 {
@@ -101,7 +120,7 @@ var ArArccos = builtinFunc{"arccos", func(args ...any) (any, ArErr) {
}
outputnum := newNumber().SetFloat64(math.Acos(n))
outputnum.Quo(outputnum, PIFloatInaccuracy)
outputnum.Mul(outputnum, PI)
outputnum.Mul(outputnum, PI_RAT)
return outputnum, ArErr{}
}}
@@ -119,7 +138,7 @@ var ArTan = builtinFunc{"tan", func(args ...any) (any, ArErr) {
}
}
num := newNumber().Set(args[0].(number))
num.Quo(num, PI)
num.Quo(num, PI_RAT)
num.Mul(num, PIFloatInaccuracy)
n, _ := num.Float64()
outputnum := newNumber().SetFloat64(math.Tan(n))
@@ -142,7 +161,7 @@ var ArArctan = builtinFunc{"arctan", func(args ...any) (any, ArErr) {
n, _ := num.Float64()
outputnum := newNumber().SetFloat64(math.Atan(n))
outputnum.Quo(outputnum, PIFloatInaccuracy)
outputnum.Mul(outputnum, PI)
outputnum.Mul(outputnum, PI_RAT)
return outputnum, ArErr{}
}}
@@ -160,7 +179,7 @@ var ArCosec = builtinFunc{"cosec", func(args ...any) (any, ArErr) {
}
}
num := newNumber().Set(args[0].(number))
num.Quo(num, PI)
num.Quo(num, PI_RAT)
num.Mul(num, PIFloatInaccuracy)
n, _ := num.Float64()
outputnum := newNumber().SetFloat64(1 / math.Sin(n))
@@ -189,7 +208,7 @@ var ArArccosec = builtinFunc{"arccosec", func(args ...any) (any, ArErr) {
}
outputnum := newNumber().SetFloat64(math.Asin(1 / n))
outputnum.Quo(outputnum, PIFloatInaccuracy)
outputnum.Mul(outputnum, PI)
outputnum.Mul(outputnum, PI_RAT)
return outputnum, ArErr{}
}}
@@ -207,7 +226,7 @@ var ArSec = builtinFunc{"sec", func(args ...any) (any, ArErr) {
}
}
num := newNumber().Set(args[0].(number))
num.Quo(num, PI)
num.Quo(num, PI_RAT)
num.Mul(num, PIFloatInaccuracy)
n, _ := num.Float64()
outputnum := newNumber().SetFloat64(1 / math.Cos(n))
@@ -237,7 +256,7 @@ var ArArcsec = builtinFunc{"arcsec", func(args ...any) (any, ArErr) {
}
outputnum := newNumber().SetFloat64(math.Acos(1 / n))
outputnum.Quo(outputnum, PIFloatInaccuracy)
outputnum.Mul(outputnum, PI)
outputnum.Mul(outputnum, PI_RAT)
return outputnum, ArErr{}
}}
@@ -255,7 +274,7 @@ var ArCot = builtinFunc{"cot", func(args ...any) (any, ArErr) {
}
}
num := newNumber().Set(args[0].(number))
num.Quo(num, PI)
num.Quo(num, PI_RAT)
num.Mul(num, PIFloatInaccuracy)
n, _ := num.Float64()
outputnum := newNumber().SetFloat64(1 / math.Tan(n))
@@ -279,7 +298,7 @@ var ArArccot = builtinFunc{"arccot", func(args ...any) (any, ArErr) {
n, _ := num.Float64()
outputnum := newNumber().SetFloat64(math.Atan(1 / n))
outputnum.Quo(outputnum, PIFloatInaccuracy)
outputnum.Mul(outputnum, PI)
outputnum.Mul(outputnum, PI_RAT)
return outputnum, ArErr{}
}}
@@ -297,7 +316,7 @@ var ArToDeg = builtinFunc{"toDeg", func(args ...any) (any, ArErr) {
}
}
num := newNumber().Set(args[0].(number))
num.Quo(num, PI)
num.Quo(num, PI_RAT)
num.Mul(num, newNumber().SetInt64(180))
return num, ArErr{}
}}
@@ -317,6 +336,6 @@ var ArToRad = builtinFunc{"toRad", func(args ...any) (any, ArErr) {
}
num := newNumber().Set(args[0].(number))
num.Quo(num, newNumber().SetInt64(180))
num.Mul(num, PI)
num.Mul(num, PI_RAT)
return num, ArErr{}
}}

8
src/trycatch.go
View File

@@ -23,7 +23,7 @@ func isTryCatch(code UNPARSEcode) bool {
func parseTryCatch(code UNPARSEcode, index int, codelines []UNPARSEcode) (TryCatch, bool, ArErr, int) {
trytrimmed := strings.TrimSpace(code.code)
totalIndex := 0
tryparsed, worked, err, i := translateVal(UNPARSEcode{trytrimmed[4:], code.realcode, code.line, code.path}, index, codelines, 1)
tryparsed, worked, err, i := translateVal(UNPARSEcode{trytrimmed[4:], code.realcode, code.line, code.path}, index, codelines, 3)
if !worked {
return TryCatch{}, false, err, i
}
@@ -40,7 +40,7 @@ func parseTryCatch(code UNPARSEcode, index int, codelines []UNPARSEcode) (TryCat
catchbracketSplit := strings.SplitN(catchtrimmed, ")", 2)
errorName := strings.TrimSpace(strings.TrimSpace(catchbracketSplit[0])[1:])
errcode := catchbracketSplit[1]
catchparsed, worked, err, i := translateVal(UNPARSEcode{errcode, code.realcode, code.line, code.path}, index+totalIndex, codelines, 1)
catchparsed, worked, err, i := translateVal(UNPARSEcode{errcode, code.realcode, code.line, code.path}, index+totalIndex, codelines, 3)
if !worked {
return TryCatch{}, false, err, i
}
@@ -57,7 +57,7 @@ func parseTryCatch(code UNPARSEcode, index int, codelines []UNPARSEcode) (TryCat
}
func runTryCatch(t TryCatch, stack stack, stacklevel int) (any, ArErr) {
val, err := runVal(t.Try, stack, stacklevel)
val, err := runVal(t.Try, stack, stacklevel+1)
if err.EXISTS {
vars := anymap{}
vars[t.errorName] = Map(anymap{
@@ -67,7 +67,7 @@ func runTryCatch(t TryCatch, stack stack, stacklevel int) (any, ArErr) {
"path": err.path,
"code": err.code,
})
val, err = runVal(t.Catch, append(stack, Map(vars)), stacklevel)
val, err = runVal(t.Catch, append(stack, Map(vars)), stacklevel+1)
if err.EXISTS {
return nil, err
}

6
src/typeof.go
View File

@@ -2,8 +2,6 @@ package main
func typeof(val any) string {
switch x := val.(type) {
case number:
return "number"
case nil:
return "null"
case bool:
@@ -18,6 +16,10 @@ func typeof(val any) string {
return "function"
case builtinFunc:
return "function"
case byte:
return "byte"
case []byte:
return "buffer"
case ArObject:
if val, ok := x.obj["__name__"]; ok {
val := ArValidToAny(val)

100
src/variable.go
View File

@@ -37,10 +37,10 @@ var blockedVariableNames = map[string]bool{
}
type accessVariable struct {
name string
line int
code string
path string
Name string
Line int
Code string
Path string
}
type setVariable struct {
@@ -72,16 +72,17 @@ func isVariable(code UNPARSEcode) bool {
func parseVariable(code UNPARSEcode) (accessVariable, bool, ArErr, int) {
name := strings.TrimSpace(code.code)
return accessVariable{name: name, code: code.realcode, line: code.line, path: code.path}, true, ArErr{}, 1
return accessVariable{Name: name, Code: code.realcode, Line: code.line, Path: code.path}, true, ArErr{}, 1
}
func readVariable(v accessVariable, stack stack) (any, ArErr) {
name := ArString(v.Name)
for i := len(stack) - 1; i >= 0; i-- {
callable, ok := stack[i].obj["__Contains__"]
if !ok {
continue
}
contains, err := builtinCall(callable, []any{v.name})
contains, err := builtinCall(callable, []any{name})
if err.EXISTS {
return nil, err
}
@@ -90,10 +91,10 @@ func readVariable(v accessVariable, stack stack) (any, ArErr) {
if !ok {
continue
}
return builtinCall(callable, []any{v.name})
return builtinCall(callable, []any{name})
}
}
return nil, ArErr{"Name Error", "variable \"" + v.name + "\" does not exist", v.line, v.path, v.code, true}
return nil, ArErr{"Name Error", "variable \"" + v.Name + "\" does not exist", v.Line, v.Path, v.Code, true}
}
func isSetVariable(code UNPARSEcode) bool {
@@ -159,7 +160,7 @@ func parseSetVariable(code UNPARSEcode, index int, lines []UNPARSEcode, isLine i
params = x.params
toset = x.toset
if toset == nil {
return setVariable{}, false, ArErr{"Type Error", "can't set for non variable, did you mean to put 'let' before?", code.line, code.path, code.realcode, true}, 1
return setVariable{}, false, ArErr{"Type Error", "can't set for non variable, did you mean '=='?", code.line, code.path, code.realcode, true}, 1
}
default:
return setVariable{}, false, ArErr{"Type Error", "can't set for non variable, did you mean '=='?", code.line, code.path, code.realcode, true}, 1
@@ -171,19 +172,47 @@ func parseSetVariable(code UNPARSEcode, index int, lines []UNPARSEcode, isLine i
return setVariable{TYPE: "let", toset: toset, value: value, function: function, params: params, line: code.line, code: code.code, path: code.path}, true, ArErr{}, i + namei - 1
}
var operationsToInt = map[byte]int{
'+': 10,
'-': 11,
'*': 12,
'/': 15,
'^': 16,
'&': 0,
'|': 1,
}
func parseAutoAsignVariable(code UNPARSEcode, index int, lines []UNPARSEcode, isLine int) (setVariable, bool, ArErr, int) {
trim := strings.TrimSpace(code.code)
equalsplit := strings.SplitN(trim, "=", 2)
name := strings.TrimSpace(equalsplit[0])
equalsplit := strings.Split(trim, "=")
for i := 1; i < len(equalsplit); i++ {
name := strings.TrimSpace(strings.Join(equalsplit[:i], "="))
if name == "" {
continue
}
operation := name[len(name)-1]
var operationtype int = -1
if operation == '+' || operation == '-' || operation == '*' || operation == '/' || operation == '^' || operation == '&' || operation == '|' {
name = strings.TrimSpace(name[:len(name)-1])
if n, ok := operationsToInt[operation]; ok {
operationtype = n
}
}
params := []string{}
function := false
if blockedVariableNames[name] {
if i == len(equalsplit)-1 {
return setVariable{}, false, ArErr{"Naming Error", "\"" + name + "\" is a reserved keyword", code.line, code.path, code.realcode, true}, 1
}
continue
}
toset, success, err, namei := nameToTranslated(UNPARSEcode{code: name, realcode: code.realcode, line: code.line, path: code.path}, index, lines)
if err.EXISTS {
if i == len(equalsplit)-1 {
return setVariable{}, success, err, namei
}
continue
}
switch x := toset.(type) {
case accessVariable:
break
@@ -194,13 +223,27 @@ func parseAutoAsignVariable(code UNPARSEcode, index int, lines []UNPARSEcode, is
params = x.params
toset = x.toset
default:
if i == len(equalsplit)-1 {
return setVariable{}, false, ArErr{"Type Error", "can't set for non variable, did you mean '=='?", code.line, code.path, code.realcode, true}, 1
}
value, success, err, i := translateVal(UNPARSEcode{code: equalsplit[1], realcode: code.realcode, line: code.line, path: code.path}, index, lines, isLine)
continue
}
value, success, err, i := translateVal(UNPARSEcode{code: strings.Join(equalsplit[i:], "="), realcode: code.realcode, line: code.line, path: code.path}, index, lines, isLine)
if !success {
return setVariable{}, false, err, i
}
if operationtype != -1 {
value = operationType{
operation: operationtype,
values: []any{toset, value},
line: code.line,
code: code.code,
path: code.path,
}
}
return setVariable{TYPE: "auto", toset: toset, value: value, function: function, params: params, line: code.line, code: code.code, path: code.path}, true, ArErr{}, i + namei - 1
}
return setVariable{}, false, ArErr{"Syntax Error", "invalid syntax", code.line, code.path, code.realcode, true}, 1
}
func setVariableValue(v setVariable, stack stack, stacklevel int) (any, ArErr) {
@@ -216,18 +259,22 @@ func setVariableValue(v setVariable, stack stack, stacklevel int) (any, ArErr) {
}
if v.TYPE == "let" {
name := v.toset.(accessVariable).Name
if v.function {
resp = Callable{name, v.params, v.value, v.code, stack, v.line}
}
stackcallable, ok := stack[len(stack)-1].obj["__setindex__"]
if !ok {
return nil, ArErr{"Type Error", "stack doesn't have __setindex__", v.line, v.path, v.code, true}
}
_, err := builtinCall(stackcallable, []any{v.toset.(accessVariable).name, resp})
_, err := builtinCall(stackcallable, []any{name, resp})
if err.EXISTS {
return nil, err
}
} else {
switch x := v.toset.(type) {
case accessVariable:
name := x.name
name := x.Name
hasSet := false
if v.function {
resp = Callable{name, v.params, v.value, v.code, stack, v.line}
@@ -263,10 +310,10 @@ func setVariableValue(v setVariable, stack stack, stacklevel int) (any, ArErr) {
if err.EXISTS {
return nil, err
}
if len(x.args) != 1 {
if len(x.Args) != 1 {
return nil, ArErr{"Runtime Error", "cannot set by slice", v.line, v.path, v.code, true}
}
key, err := runVal(x.args[0], stack, stacklevel+1)
key, err := runVal(x.Args[0], stack, stacklevel+1)
key = ArValidToAny(key)
if err.EXISTS {
return nil, err
@@ -275,13 +322,12 @@ func setVariableValue(v setVariable, stack stack, stacklevel int) (any, ArErr) {
case ArObject:
if _, ok := y.obj["__setindex__"]; ok {
callable := y.obj["__setindex__"]
r := ArValidToAny(resp)
_, err := runCall(call{
callable: callable,
args: []any{key, r},
line: v.line,
path: v.path,
code: v.code,
Callable: callable,
Args: []any{key, resp},
Line: v.line,
Path: v.path,
Code: v.code,
}, stack, stacklevel+1)
if err.EXISTS {
return nil, err
@@ -323,7 +369,7 @@ func runDelete(d ArDelete, stack stack, stacklevel int) (any, ArErr) {
if !ok {
continue
}
contains, err := builtinCall(callable, []any{x.name})
contains, err := builtinCall(callable, []any{x.Name})
if err.EXISTS {
return nil, err
}
@@ -332,19 +378,19 @@ func runDelete(d ArDelete, stack stack, stacklevel int) (any, ArErr) {
if !ok {
continue
}
return builtinCall(callable, []any{x.name})
return builtinCall(callable, []any{x.Name})
}
}
return nil, ArErr{"Name Error", "variable \"" + x.name + "\" does not exist", d.line, d.path, d.code, true}
return nil, ArErr{"Name Error", "variable \"" + x.Name + "\" does not exist", d.line, d.path, d.code, true}
case ArMapGet:
respp, err := runVal(x.VAL, stack, stacklevel+1)
if err.EXISTS {
return nil, err
}
if len(x.args) != 1 {
if len(x.Args) != 1 {
return nil, ArErr{"Runtime Error", "can't delete by slice", d.line, d.path, d.code, true}
}
key, err := runVal(x.args[0], stack, stacklevel+1)
key, err := runVal(x.Args[0], stack, stacklevel+1)
if err.EXISTS {
return nil, err
}

221
src/wasm.go
View File

@@ -1,221 +0,0 @@
package main
import (
"fmt"
"strings"
"syscall/js"
)
func argonToJsValid(argon any) any {
switch x := argon.(type) {
case number:
f, _ := x.Float64()
return f
case ArObject:
if typeof(x) == "array" {
arr := js.Global().Get("Array").New()
for i, v := range x.obj["__value__"].([]any) {
arr.SetIndex(i, argonToJsValid(v))
}
return arr
} else if typeof(x) == "string" {
return x.obj["__value__"].(string)
}
obj := js.Global().Get("Object").New()
for k, v := range x.obj {
obj.Set(anyToArgon(k, false, false, 3, 0, false, 0), argonToJsValid(v))
}
return obj
case bool, string:
return x
default:
return nil
}
}
func wasmRun(code string, allowDocument bool) (any, ArErr) {
JSclearTimers()
initRandom()
global := makeGlobal(allowDocument)
lines := strings.Split(code, "\n")
codelines := []UNPARSEcode{}
for i := 0; i < len(lines); i++ {
codelines = append(codelines, UNPARSEcode{
lines[i],
lines[i],
i + 1,
"<wasm>",
})
}
translated, translationerr := translate(codelines)
if translationerr.EXISTS {
return nil, translationerr
}
local := newscope()
localvars := Map(anymap{
"program": Map(anymap{
"args": []any{},
"origin": "",
"import": builtinFunc{"import", func(args ...any) (any, ArErr) {
return nil, ArErr{"Import Error", "Cannot Import in WASM", 0, "<wasm>", "", true}
}},
"cwd": "",
"exc": "",
"file": Map(anymap{
"name": "<wasm>",
"path": "",
}),
"main": true,
"scope": global,
}),
})
return ThrowOnNonLoop(run(translated, stack{global, localvars, local}))
}
func await(awaitable js.Value) ([]js.Value, []js.Value) {
then := make(chan []js.Value)
defer close(then)
thenFunc := js.FuncOf(func(this js.Value, args []js.Value) interface{} {
then <- args
return nil
})
defer thenFunc.Release()
catch := make(chan []js.Value)
defer close(catch)
catchFunc := js.FuncOf(func(this js.Value, args []js.Value) interface{} {
catch <- args
return nil
})
defer catchFunc.Release()
awaitable.Call("then", thenFunc).Call("catch", catchFunc)
select {
case result := <-then:
return result, nil
case err := <-catch:
return nil, err
}
}
var IntervalList = []int{}
var TimeoutList = []int{}
func JSclearTimers() {
for _, v := range IntervalList {
js.Global().Call("clearInterval", v)
}
for _, v := range TimeoutList {
js.Global().Call("clearTimeout", v)
}
}
var ArJS = Map(anymap{
"setTimeout": builtinFunc{"setTimeout", func(args ...any) (any, ArErr) {
if len(args) > 2 || len(args) < 1 {
return nil, ArErr{"TypeError", "Expected 1 or 2 argument, got " + fmt.Sprint(len(args)), 0, "<wasm>", "", true}
}
if typeof(args[0]) != "function" {
return nil, ArErr{"TypeError", "Expected function, got " + typeof(args[0]), 0, "<wasm>", "", true}
}
var ms int64 = 0
if len(args) == 2 {
if typeof(args[1]) != "number" {
return nil, ArErr{"TypeError", "Expected number, got " + typeof(args[1]), 0, "<wasm>", "", true}
}
if !args[1].(number).IsInt() {
return nil, ArErr{"TypeError", "Expected integer, got float", 0, "<wasm>", "", true}
}
ms = args[1].(number).Num().Int64()
}
f := js.FuncOf(func(this js.Value, a []js.Value) interface{} {
runCall(
call{
callable: args[0],
args: []any{},
},
stack{},
0,
)
return nil
})
n := js.Global().Call("setTimeout", f, ms).Int()
TimeoutList = append(TimeoutList, n)
return newNumber().SetInt64(int64(n)), ArErr{}
}},
"setInterval": builtinFunc{"setInterval", func(args ...any) (any, ArErr) {
if len(args) > 2 || len(args) < 1 {
return nil, ArErr{"TypeError", "Expected 1 or 2 argument, got " + fmt.Sprint(len(args)), 0, "<wasm>", "", true}
}
if typeof(args[0]) != "function" {
return nil, ArErr{"TypeError", "Expected function, got " + typeof(args[0]), 0, "<wasm>", "", true}
}
var ms int64 = 0
if len(args) == 2 {
if typeof(args[1]) != "number" {
return nil, ArErr{"TypeError", "Expected number, got " + typeof(args[1]), 0, "<wasm>", "", true}
}
if !args[1].(number).IsInt() {
return nil, ArErr{"TypeError", "Expected integer, got float", 0, "<wasm>", "", true}
}
ms = args[1].(number).Num().Int64()
}
f := js.FuncOf(func(this js.Value, a []js.Value) interface{} {
runCall(
call{
callable: args[0],
args: []any{},
},
stack{},
0,
)
return nil
})
n := js.Global().Call("setInterval", f, ms).Int()
IntervalList = append(IntervalList, n)
return newNumber().SetInt64(int64(n)), ArErr{}
}},
"clearTimeout": builtinFunc{"clearTimeout", func(args ...any) (any, ArErr) {
if len(args) != 1 {
return nil, ArErr{"TypeError", "Expected 1 argument, got " + fmt.Sprint(len(args)), 0, "<wasm>", "", true}
}
if typeof(args[0]) != "number" {
return nil, ArErr{"TypeError", "Expected number, got " + typeof(args[0]), 0, "<wasm>", "", true}
}
if !args[0].(number).IsInt() {
return nil, ArErr{"TypeError", "Expected integer, got float", 0, "<wasm>", "", true}
}
n := args[0].(number).Num().Int64()
for i, v := range TimeoutList {
if v == int(n) {
TimeoutList = append(TimeoutList[:i], TimeoutList[i+1:]...)
break
}
}
js.Global().Call("clearTimeout", n)
return nil, ArErr{}
}},
"clearInterval": builtinFunc{"clearInterval", func(args ...any) (any, ArErr) {
if len(args) != 1 {
return nil, ArErr{"TypeError", "Expected 1 argument, got " + fmt.Sprint(len(args)), 0, "<wasm>", "", true}
}
if typeof(args[0]) != "number" {
return nil, ArErr{"TypeError", "Expected number, got " + typeof(args[0]), 0, "<wasm>", "", true}
}
if !args[0].(number).IsInt() {
return nil, ArErr{"TypeError", "Expected integer, got float", 0, "<wasm>", "", true}
}
n := args[0].(number).Num().Int64()
for i, v := range IntervalList {
if v == int(n) {
IntervalList = append(IntervalList[:i], IntervalList[i+1:]...)
break
}
}
js.Global().Call("clearInterval", n)
return nil, ArErr{}
}},
})

7
src/whileloop.go
View File

@@ -60,7 +60,7 @@ func parseWhileLoop(code UNPARSEcode, index int, codeline []UNPARSEcode) (whileL
},
index+outindex-1,
codeline,
2,
3,
)
if err.EXISTS || !worked {
return whileLoop{}, worked, err, step
@@ -96,7 +96,7 @@ func parseForeverLoop(code UNPARSEcode, index int, codeline []UNPARSEcode) (whil
},
index,
codeline,
2,
3,
)
return whileLoop{
condition: true,
@@ -108,13 +108,14 @@ func parseForeverLoop(code UNPARSEcode, index int, codeline []UNPARSEcode) (whil
}
func runWhileLoop(loop whileLoop, stack stack, stacklevel int) (any, ArErr) {
newstack := append(stack, newscope())
for {
condition, err := runVal(loop.condition, newstack, stacklevel+1)
newbodystack := append(newstack, newscope())
if err.EXISTS {
return nil, err
}
newbodystack := append(newstack, newscope())
if !anyToBool(condition) {
break
}

5
tests/brainfuck.ar
View File

@@ -15,7 +15,7 @@ let interpret(code) = do
else if (command == '-') do
if (pointer not in memory) memory[pointer] = 0
memory[pointer] = memory[pointer] - 1
else if (command == '.') term.plain.oneLine(chr(memory.get(pointer, 0)), end='')
else if (command == '.') term.log((memory.get(pointer, 0)))
else if (command == ',') memory[pointer] = ord(input())
else if (command == '[') do
if (memory.get(pointer, 0) == 0) do
@@ -30,5 +30,4 @@ let interpret(code) = do
else loops.pop()
code_ptr = code_ptr + 1
interpret('>++++++++[<+++++++++>-]<.>++++[<+++++++>-]<+.+++++++..+++.>>++++++[<+++++++>-]<++.------------.>++++++[<+++++++++>-]<+.<.+++.------.--------.>>>++++[<++++++++>-]<+.')
interpret('>+++++++++[<++++++++>-]<.>+++++++[<++++>-]<+.+++++++..+++.>>>++++++++[<++++>-]<.>>>++++++++++[<+++++++++>-]<---.<<<<.+++.------.--------.>>+.>++++++++++.')

13
tests/broken_funcCall.ar Normal file
View File

@@ -0,0 +1,13 @@
let x = do
let class = {}
class.f(path) = do
let nice(callback) = do
callback()
return class
let class = {nice:nice}
return class
class.cool(path, callback) = class.f(path).nice(callback)
return class
term.log(x.cool("to", ()=term.log("epic")).nice(()=term.log("test")))

20
tests/chatbot code.ar Normal file
View File

@@ -0,0 +1,20 @@
# This is a comment
term.log("Hello World!") # Printing to console/output
value = "Hello" # Declaring a variable
do # Start of indented block
combined = value + " World!"
term.log(combined)
loop = true # Using true condition
while (loop) do # While loop syntax
term.log("Looping...")
loop = false # Using false condition
if (value == "Hello") do # If statement syntax
term.log("The value is Hello")
else do # else block
term.log("The value is not Hello")

2
tests/circular_import.ar Normal file
View File

@@ -0,0 +1,2 @@
import "circular_test"
term.log("epic wow")

2
tests/circular_test.ar Normal file
View File

@@ -0,0 +1,2 @@
import "circular_import"
term.log("hello")

6
tests/csv_test.ar
View File

@@ -1,3 +1,5 @@
import "csv" as csv
import "csv.ar" as csv
term.log(csv.read("tests/test.csv"))
let table = (csv.read("tests/test.csv"))
term.log(table)

14
tests/diff.ar Normal file
View File

@@ -0,0 +1,14 @@
let h = 1e-1000
let diff(f) = (x) = (f(x + h) - f(x)) / h
let f(x) = x^10+x^9+x^8+x^7+x^6+x^5+x^4+x^3+x^2+x+1
let x = 100
let d = 0
forever do
let n = f(x)
term.log("f"+("'"*d)+"("+x+") = "+n)
if (n == 0) break
f = diff(f)
d += 1

5
tests/example.ar
View File

@@ -1,10 +1,7 @@
let getInitials(name) = do
name = name.upper()
namesplit = name.split(" ")
i = 0
while (i < namesplit.length) do
namesplit[i] = namesplit[i][0]
i = i + 1
for (i from 0 to namesplit.length) namesplit[i] = namesplit[i][0]
return namesplit.join("")
name = "william bell"

5
tests/memoryLeakTest.ar
View File

@@ -1,7 +1,8 @@
f() = do
a = []
for (i from 0 to 10000) a.append(i)
let a = []
for (i from 0 to 1000000) a.append(i)
term.log("start")
f()
term.log("end")
input()

16
tests/multi_threading.ar Normal file
View File

@@ -0,0 +1,16 @@
let mythread(threadID) = do
term.log(threadID, "start")
let mynumber = 10
for (i from 0 to 1e4) do
mynumber += 1
mynumber
return term.log(threadID, "done")
let threads = []
term.time("start")
for (i from 0 to 100) do
threads.append(thread(()=mythread(i)))
threads[i].start()
for (i from 0 to 100) do
threads[i].join()
term.timeEnd("start")

24
tests/oop.ar Normal file
View File

@@ -0,0 +1,24 @@
let toyTank(colour, name) = do
let class = {}
class.getColour() = do
term.log("My colour is", colour)
class.getName() = do
term.log("My name is", name)
class.setColour(newColour) = do
colour = newColour
class.setName(newName) = do
name = newName
return class.object()
let tanks = []
for (i from 0 to 10) tanks.append(toyTank("red", "tank" + (i+1)))
term.log(dir(tanks[0]))
for (i from 0 to tanks.length) do
tanks[i].getName()
tanks[i].getColour()
tanks[i].setColour("blue")
tanks[i].setName("tank" + (i + 11))
tanks[i].getName()
tanks[i].getColour()
term.log()

0
example.ar → tests/rng.ar
View File

12
tests/stack test.ar
View File

@@ -1,7 +1,17 @@
x = 10
let x = 10
do
let x = 20
term.log(x)
term.log(x)
term.log()
let x = 10
do
x = 20
term.log(x)
term.log(x)

0
tests/testing.ar Normal file
View File

Some files were not shown because too many files have changed in this diff Show More