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211 commits
hbcb ... trunk

Author SHA1 Message Date
peony ed5630a6df /shrug 2024-11-17 11:22:47 +01:00
peony 5964857423 Merge remote-tracking branch 'holey-bytes-main/trunk' into trunk 2024-11-07 21:32:24 +01:00
Jakub Doka 0374848b28
fixing formatter not reporting errors 2024-11-07 17:02:22 +01:00
Jakub Doka 513d2c7127
removing log line 2024-11-07 16:42:57 +01:00
Jakub Doka 9d2f419140
fixing messed up flag calculation 2024-11-07 16:39:15 +01:00
Jakub Doka f535ea7b0a
ups, left log lines 2024-11-07 16:05:16 +01:00
Jakub Doka be6d0d3f18
removing wrong graph query in a peephole 2024-11-07 10:47:31 +01:00
Jakub Doka 2718ef8523
ups 2024-11-07 10:43:45 +01:00
Jakub Doka 3ee78f3a31
fixing bugs from the new tests 2024-11-07 10:43:29 +01:00
Jakub Doka 2bac7c1fb3
saving 2024-11-07 08:53:11 +01:00
mlokis 79a3f1ab2b Merge pull request 'various tests' (#23) from koniifer/holey-bytes:trunk into trunk
Reviewed-on: https://git.ablecorp.us/AbleOS/holey-bytes/pulls/23
Reviewed-by: mlokis <mlokis@email.com>
2024-11-07 01:49:56 -06:00
koniifer b15e66b2af test broken sin function 2024-11-06 17:35:01 +00:00
koniifer d2ba7cc101 returning optional issues test 2024-11-06 15:17:03 +00:00
koniifer d3ee72306e optional from eca test 2024-11-05 18:07:04 +00:00
Jakub Doka 87cb77a553
making a Backend trait to separate the different backends we will have in the fucture 2024-11-05 14:52:30 +01:00
Jakub Doka 276d1bb0cf
fixing tab indentation in error messages and depell not displaying errors 2024-11-05 09:41:57 +01:00
Jakub Doka 5cce904135
fixing struct null check on function arguments 2024-11-04 19:57:15 +01:00
Jakub Doka 3338d50672
nasty bug with rescheduled load 2024-11-04 19:18:37 +01:00
Jakub Doka 2e36f32ae0
fixing very sneaky bug 2024-11-04 12:38:47 +01:00
Jakub Doka e8f1d2af8c
allowing 0 idk 2024-11-03 22:54:05 +01:00
Jakub Doka 999b25df8b
adding '_ = <expr>' syntax 2024-11-03 22:27:37 +01:00
Jakub Doka 61250c906a
comparison of non null types to null are now errors 2024-11-03 21:31:46 +01:00
Jakub Doka 44fc9c3e2e
deferring all null checks after the peepholes 2024-11-03 21:13:24 +01:00
peony 191c49ff1d Made sure null_check_test reproduces exact issue. 2024-11-03 15:58:42 +01:00
peony d4a52b6342 Fixed inlining_loops 2024-11-03 15:22:29 +01:00
peony e27a218746 Fixed some issues with null_check_test` 2024-11-03 15:17:59 +01:00
peony b1b3907bc1 Merge remote-tracking branch 'holey-bytes-main/trunk' into trunk 2024-11-03 15:08:23 +01:00
peony 92cc1f00a8 Added null_check_test 2024-11-03 15:03:59 +01:00
peony 4e5db51091 another quick git test 2024-11-03 14:54:18 +01:00
peony fc12bf1723 test 2024-11-03 14:53:55 +01:00
Jakub Doka 798000c756
little correction 2024-11-03 10:23:17 +01:00
Jakub Doka 9de631234d
adding unreachable 2024-11-03 10:15:03 +01:00
Jakub Doka 843fbddf3b
loops in inlined functions now work better 2024-11-03 08:59:42 +01:00
Jakub Doka 38a00cbaa0
some start for homemade regalloc 2024-10-31 14:56:55 +01:00
Jakub Doka 4664240e08
eliminating even more todos 2024-10-31 11:10:05 +01:00
Jakub Doka 728d563cea
eliminating more todos 2024-10-31 11:03:58 +01:00
Jakub Doka 56984f08ff
eliminating more todos 2024-10-31 10:56:59 +01:00
Jakub Doka 3f9f99ff65
adding optional values 2024-10-31 10:36:18 +01:00
Jakub Doka 9ed3c7ab9e
saving 2024-10-30 20:20:03 +01:00
Jakub Doka acacd10ee9
microoptimizing bitset 2024-10-30 18:42:25 +01:00
Jakub Doka f6f661cee3
finally struct operators fold into constant 2024-10-30 14:10:46 +01:00
Jakub Doka 4bfb5f192e
fixing the matrix 2024-10-30 13:45:19 +01:00
Jakub Doka ea628c1278
saving 2024-10-29 20:38:33 +01:00
Jakub Doka 7448339605
removing return value temporary optimization sadly 2024-10-29 17:03:00 +01:00
Jakub Doka da7cd5926c
unifiing annoying clobber logic 2024-10-29 15:15:30 +01:00
Jakub Doka 9cf7933251
clobber global loads across functions 2024-10-29 15:04:07 +01:00
Jakub Doka 24b9f9e78b
adding floating point conversions 2024-10-29 14:24:31 +01:00
Jakub Doka 80558ea7e6
adding floating point arithmetic 2024-10-29 13:36:12 +01:00
Jakub Doka 348d9014e3
adding a lot better load elimination 2024-10-29 10:31:52 +01:00
Jakub Doka 30bd6103a6
cleaning up some code 2024-10-29 10:01:37 +01:00
Jakub Doka 97eb985a02
removing specific opts from a fucntion and adding them to the general peepholes 2024-10-29 09:04:49 +01:00
Jakub Doka 7ef1adf7e2
saving 2024-10-28 23:38:57 +01:00
Jakub Doka be828b8c54
properly handling cases when stack is referenced by dofferent part of the memory 2024-10-28 18:53:36 +01:00
Jakub Doka b4b3bae104
fixing storing struct pointer bug 2024-10-28 18:39:42 +01:00
Jakub Doka 33d78fbc52
missing scoping 2024-10-28 17:22:18 +01:00
Jakub Doka be2d38a6d2
making the aliasing analisys bit smarter 2024-10-28 17:19:41 +01:00
Jakub Doka bbd7e12af4
saving this to make sure 2024-10-28 16:18:53 +01:00
Jakub Doka 37db783699
making stack peeps compatible with parallel alias classes 2024-10-28 12:39:26 +01:00
Jakub Doka 948710dc27
fixing an infeence bug 2024-10-28 12:36:46 +01:00
Jakub Doka f0a588fcff
updating test 2024-10-28 11:04:47 +01:00
Jakub Doka 9c32f260a1
cleanup 2024-10-27 21:34:03 +01:00
Jakub Doka 047e1ed15c
adding null 2024-10-27 19:55:11 +01:00
Jakub Doka 2c2f0c048b
cleaning up tests 2024-10-27 19:13:25 +01:00
Jakub Doka 3c12c0e288
removing codegen test outputs 2024-10-27 19:08:22 +01:00
Jakub Doka ca8497550a
updating commandline help 2024-10-27 19:02:13 +01:00
Jakub Doka 849e842336
dont write to the file if the contents did not differ from formatted 2024-10-27 18:56:29 +01:00
Jakub Doka 5c82623db9
removing stuff 2024-10-27 18:37:18 +01:00
Jakub Doka e8a8fa3eb1
simplifiing upcasts, hwich conincidentally allowed more optimizations 2024-10-27 18:21:33 +01:00
Jakub Doka 5926f69e6c
fixing missing upcast 2024-10-27 18:04:50 +01:00
Jakub Doka 83d3fb4919
adding array reformatting rule 2024-10-27 16:07:46 +01:00
Jakub Doka b429534d23
moving hbvm related code into one file 2024-10-27 14:29:14 +01:00
Jakub Doka b187af64a8
removing old compiler 2024-10-27 13:57:00 +01:00
Jakub Doka ce7bb001da
handling infinite loops properly 2024-10-27 11:32:34 +01:00
Jakub Doka 9c90adbfe8
removing idk for scalar values (antipattern) 2024-10-27 00:02:59 +02:00
Jakub Doka db62434736
fixing infinite loop when fetching cycles 2024-10-26 23:24:45 +02:00
Jakub Doka 3d721812f0
adding better dead code elimination 2024-10-26 20:29:31 +02:00
Jakub Doka 5b23a0661b
fixing peep_iter related bugs 2024-10-26 15:18:00 +02:00
Jakub Doka 7c919cd453
fixing nonexistent identifier file mismatch 2024-10-26 14:06:08 +02:00
Jakub Doka bb61526d3e
eliminating more useless stack moves related to return values 2024-10-26 13:43:36 +02:00
Jakub Doka 45e1c6743a
eliminating more useless operations 2024-10-26 12:48:57 +02:00
Jakub Doka 39588579a8
using more typesafe locking 2024-10-26 12:09:53 +02:00
Jakub Doka 9095af6d84
appliing late peepholes 2024-10-26 10:45:50 +02:00
Jakub Doka b62413046d
cleanup 2024-10-26 10:25:42 +02:00
Jakub Doka af4d965b8c
fixed fmt error reporting 2024-10-26 09:53:14 +02:00
Jakub Doka 855da58e06
fixed a binor uga buga 2024-10-26 01:07:35 +02:00
Jakub Doka 2fc24f0f58
ups 2024-10-26 00:37:39 +02:00
Jakub Doka 8016b1fad5
adding rescheduling 2024-10-26 00:34:22 +02:00
Jakub Doka 46f9903562
adding error log when compiler crashes 2024-10-25 23:05:43 +02:00
Jakub Doka 517850f283
fixing undescriptive error or not enough arguments 2024-10-25 22:59:01 +02:00
Jakub Doka faa8dd2e6f
adding pointer checks on ecas 2024-10-25 16:33:56 +02:00
Jakub Doka d23d010917
fixing eror message 2024-10-25 16:08:20 +02:00
Jakub Doka b1da36ecde
fixing upcasting signed to unsigned 2024-10-25 15:45:00 +02:00
Jakub Doka e62aab9b4b
adding better binaro operator errors positions 2024-10-25 15:40:23 +02:00
Jakub Doka 423361a80e
forgottend typecheck on a struct 2024-10-25 15:31:49 +02:00
Jakub Doka 62a7c61cdc
properly selecting li instructions for integer sizes 2024-10-25 15:29:17 +02:00
Jakub Doka 2bab16d3ce
making never type cause less errors 2024-10-25 15:14:32 +02:00
Jakub Doka c88daa4800
adding better negative number inference 2024-10-25 15:07:39 +02:00
Jakub Doka 6988d8893f
changing uint to be the default 2024-10-25 14:51:33 +02:00
Jakub Doka 64e228450f
little cleanup and fixing error recovery 2024-10-25 11:29:54 +02:00
Jakub Doka 897e121eeb
fixing stack alloc overoptimization 2024-10-24 19:57:36 +02:00
Jakub Doka 648bd24d0d
forgot to mul by 8 2024-10-24 16:26:28 +02:00
Jakub Doka aefa7e6405
forgot 2024-10-24 15:49:41 +02:00
Jakub Doka 026f6141e6
forgot 2024-10-24 15:45:16 +02:00
Jakub Doka cb88edea1f
fixing overoptimization of load -> store 2024-10-24 15:39:38 +02:00
Jakub Doka 127e8dcb38
fixing @as misbehaving 2024-10-24 14:10:07 +02:00
Jakub Doka 9c43dafcf5
fixing @as misbehaving 2024-10-24 14:08:17 +02:00
Jakub Doka e65dbcfcbe
fixing bitcasts 2024-10-24 13:58:58 +02:00
Jakub Doka e0d4955bd5
fixing small struct return 2024-10-24 13:25:30 +02:00
Jakub Doka 78ebc3292c
removing useless clobbers 2024-10-24 12:28:18 +02:00
Jakub Doka 0c2db878f0
adding the stack optimizations 2024-10-24 10:21:10 +02:00
Jakub Doka cb9d7f7d1e
okay now it works 2024-10-24 09:43:07 +02:00
Jakub Doka 41b70bec43
should work better 2024-10-23 12:26:07 +02:00
Jakub Doka f013e90936
better somehow 2024-10-22 22:57:40 +02:00
Jakub Doka 6977cb218c
seems to be compiling 2024-10-22 16:54:32 +02:00
Jakub Doka 3f30735eaa
seems to be compiling 2024-10-22 16:53:48 +02:00
Jakub Doka 58f4837ae0
eliminating important todo 2024-10-22 16:03:23 +02:00
Jakub Doka b95bddac7b
ups 2024-10-22 12:57:49 +02:00
Jakub Doka 7d53706e71
adding --optimize flag to the compiler 2024-10-22 12:50:54 +02:00
Jakub Doka 4d699fcbf1
strinc operatos seem to work now 2024-10-22 12:40:41 +02:00
Jakub Doka 5aa6150c70
now the generic types work too 2024-10-22 10:17:16 +02:00
Jakub Doka b0a85f44c9
fixing some bugs and making the generic types work, well not quite 2024-10-22 10:08:50 +02:00
Jakub Doka 2aa5ba9abc
generic functions work now 2024-10-22 07:20:08 +02:00
Jakub Doka 35d34dca54
sweeping trought more tests 2024-10-21 19:57:55 +02:00
Jakub Doka bc817c4ea2
implementing directives 2024-10-21 18:57:23 +02:00
Jakub Doka 0298b32e38
sniping a peephole 2024-10-21 17:29:11 +02:00
Jakub Doka 73c9ccef6a
simplifing code patterns and sixing argument passing 2024-10-21 17:04:29 +02:00
Jakub Doka ad4aed9c98
fixing loop bugs and some optimization edgecases 2024-10-21 15:12:37 +02:00
Jakub Doka 8528bef8cf
adding more tests, fixing pointer math, and integer upcasting 2024-10-20 21:50:08 +02:00
Jakub Doka 11c8755b18
implementing wide returns and adding integer upcast ops 2024-10-20 21:00:56 +02:00
Jakub Doka d5c90b95a7
committy committy 2024-10-20 18:50:10 +02:00
Jakub Doka 1da900461c
fixing struct return and copy miscompilation 2024-10-20 18:49:41 +02:00
Jakub Doka 3aff6fc006
reorganizing the type parser trait 2024-10-20 16:43:25 +02:00
Jakub Doka ccfde6c237
adding more tests and organizing things 2024-10-20 15:33:32 +02:00
Jakub Doka 44c4b71bb3
unifiing the type resolution into a trait 2024-10-20 15:16:55 +02:00
Jakub Doka c3a6e62bf2
implementing strings 2024-10-20 12:22:28 +02:00
Jakub Doka 00949c4ea8
implementing global variables 2024-10-20 10:37:48 +02:00
Jakub Doka 15e4762d4a
cleanup: 2 2024-10-19 19:53:43 +02:00
Jakub Doka 959bfd7f76
cleanup: 1 2024-10-19 19:37:02 +02:00
Jakub Doka 6ad0b41759
fixing code scheduling bugs 2024-10-19 10:17:36 +02:00
Jakub Doka 89cc611f7a
good direction 2024-10-18 16:57:00 +02:00
Jakub Doka cf74fdd99c
adding loops and seeing they totally not work 2024-10-18 16:52:54 +02:00
Jakub Doka 58578dd4b2
adding loops and seeing they totally not work 2024-10-18 16:51:54 +02:00
Jakub Doka 4a7b4e4ead
handling conditional stores 2024-10-18 13:11:11 +02:00
Jakub Doka c900f4ef5c
removing offset from stores and loads 2024-10-18 09:52:50 +02:00
Jakub Doka 3a494147ec
reorganizing tests 2024-10-18 08:43:50 +02:00
Jakub Doka 4336fec653
structs work with optimizations 2024-10-17 22:29:09 +02:00
Jakub Doka 11f6537a09
foo 2024-10-17 19:32:10 +02:00
Jakub Doka da58a5926d
removing some old garbage 2024-10-17 16:08:29 +02:00
Jakub Doka f5ef62c6bb
fixing nasty bug 2024-10-17 15:48:22 +02:00
Jakub Doka f386c332e5
adding link to the hosted page 2024-10-15 12:48:35 +02:00
Jakub Doka 23b90b3dd7
adding tab highlight and some more details in readme 2024-10-15 12:46:36 +02:00
Jakub Doka ea736d8824
lota of progress 2024-10-14 22:04:18 +02:00
Jakub Doka dc2e0cc5b3
implementing dependency fetching 2024-10-14 13:25:38 +02:00
Jakub Doka c9b85f9004
fixing sizeof not storing values 2024-10-13 22:24:57 +02:00
Jakub Doka af147b3cb6
adding test for embed 2024-10-13 20:01:18 +02:00
Jakub Doka 0f8a720fe8
wrong handling of embeds 2024-10-13 16:38:51 +02:00
Jakub Doka 2ab6f6c914
resolving shadoving in inlined functions correctly 2024-10-13 16:16:27 +02:00
Jakub Doka 54d93608aa
correctly implementing big block copies 2024-10-13 15:49:14 +02:00
Jakub Doka 19a6cdd764
implementing embeds 2024-10-13 15:33:57 +02:00
Jakub Doka 2660d976fe
fixing arithmetic bug 2024-10-13 15:22:16 +02:00
Jakub Doka 659ccbd637
adding stricter typechecking 2024-10-13 14:11:17 +02:00
Jakub Doka 3a2367f24f
fixing some bugs 2024-10-13 13:30:00 +02:00
Jakub Doka 0f4ff918d2
fixing bugs and improving memory consumption 2024-10-13 12:25:12 +02:00
Jakub Doka 6d7e726066
fixing generic function inlining 2024-10-12 22:29:52 +02:00
Jakub Doka 9e65f3949d
fixing arg datarace 2024-10-12 22:21:20 +02:00
Jakub Doka bf00dc85b2
progres on inline generic funcs and bettere error message 2024-10-12 22:03:53 +02:00
Jakub Doka 69b58c2b36
progress 2024-10-12 21:25:37 +02:00
Jakub Doka 5364b66629
adding gzip to static files 2024-10-12 15:04:58 +02:00
Jakub Doka c4826d3bfd
fixing feature incompatibility 2024-10-12 13:07:49 +02:00
Jakub Doka 07638caff0
starting the compiler wasm 2024-10-10 19:01:12 +02:00
Jakub Doka 5ef1ec4811
removing obvious temporary allocation 2024-10-10 16:08:03 +02:00
Jakub Doka f0ae65606d
renaming directories, reducing temporary allocations during parsing 2024-10-10 15:48:08 +02:00
Jakub Doka a538c0ddb0
optimizing ast allocation 2024-10-10 13:04:17 +02:00
Jakub Doka c31d1dcb9c
more size opts 2024-10-10 09:51:03 +02:00
Jakub Doka 54a7f85978
progress 2024-10-10 08:35:17 +02:00
Jakub Doka e200c2fc98
lock 2024-10-09 00:17:48 +02:00
Jakub Doka 1626734c1a
some progress 2024-10-09 00:17:13 +02:00
Jakub Doka 13f63c7700
cleanup 2024-10-06 10:51:33 +02:00
Jakub Doka c7dbe1c43d
adding some starter code to the depell 2024-10-05 23:07:33 +02:00
Jakub Doka 4c15f61cb7
something idk 2024-10-04 21:44:29 +02:00
Jakub Doka f1ea01ef0c
unifiing context key maps 2024-10-01 22:53:03 +02:00
Jakub Doka 2361e166cd
save 2024-10-01 21:39:23 +02:00
Jakub Doka 4d913462cb
save 2024-10-01 21:36:23 +02:00
Jakub Doka bdc2c43773
save 2024-10-01 21:33:30 +02:00
Jakub Doka b2254e9820
making compiler a bit smarter about evaluating types (more shortcuts) 2024-10-01 17:43:15 +02:00
Jakub Doka d293e02f62
relaxing by optimizing the compiler 2024-10-01 15:28:18 +02:00
Jakub Doka 1ee8d464c6
fixing infinite recusrion bug 2024-10-01 14:00:41 +02:00
Jakub Doka 2a4d27d8e6
tweak 2024-09-30 22:47:00 +02:00
Jakub Doka 1f5846afaa
fixing struct type display 2024-09-30 22:17:54 +02:00
Jakub Doka 006bc80f12
fixing duplicate structs 2024-09-30 22:15:40 +02:00
Jakub Doka 802e8b5d55
fixing a leaked reg bug when constant happens 2024-09-30 21:55:34 +02:00
Jakub Doka 6b7572f089
logging bugfix 2024-09-30 19:41:52 +02:00
Jakub Doka 1d04287532
separating the cli parsing 2024-09-30 19:35:25 +02:00
Jakub Doka 8b6d9b5de3
transitioning to log crate 2024-09-30 19:27:00 +02:00
Jakub Doka 136bba1631
some cleanup 2024-09-30 19:14:00 +02:00
Jakub Doka c1b00b6d6b
making nostd compat work 2024-09-30 19:09:17 +02:00
Jakub Doka a51b23187d
making a little utility for computing struct layouts 2024-09-28 21:56:39 +02:00
Jakub Doka c3f9e535d3
cleaning up tests 2024-09-28 16:34:08 +02:00
Jakub Doka 6d805dc2ec
fixing the cli 2024-09-28 16:28:05 +02:00
Jakub Doka 4291ebc25e
forgot 2024-09-28 15:14:17 +02:00
Jakub Doka 02c74a181d
making some pointer peepholes 2024-09-28 15:13:32 +02:00
Jakub Doka c0d4464097
implementing pointers example 2024-09-27 16:53:28 +02:00
mlokr 602249a48a
adding packed structs 2024-09-22 18:17:30 +02:00
mlokr 338e3f1519
fixing compiler errors 2024-09-21 14:46:12 +02:00
mlokr 0e9f4402cb
fixing hbbytecode having the std mentioned 2024-09-21 08:19:27 +02:00
mlokr 6057e88034
fixing a bug and preparing form memory manipulation with optimizations 2024-09-20 19:01:44 +02:00
mlokr 2a3d077476
fixing all supidus bugs 2024-09-20 16:37:51 +02:00
mlokr 8e62bd747b
fixing some other stuff that nerfs the code a bit (a lot) 2024-09-20 12:03:24 +02:00
mlokr b8ff503c14
fixing report bug 2024-09-20 11:01:10 +02:00
mlokr 9e69e53e24
merge 2024-09-20 08:20:48 +02:00
mlokr 4d163a2313
bruhma 2024-09-20 08:09:29 +02:00
196 changed files with 19515 additions and 14264 deletions

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@ -1,2 +1,4 @@
[alias]
xtask = "r -p xtask --"
wasm-build = "b --target wasm32-unknown-unknown --profile=small -Zbuild-std=core,alloc -Zbuild-std-features=optimize_for_size,panic_immediate_abort -p"
wasm-build-debug = "b --target wasm32-unknown-unknown --profile=small-dev -Zbuild-std=core,alloc -Zbuild-std-features=optimize_for_size -p"

18
.gitignore vendored
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@ -1,7 +1,13 @@
# garbage
/target
/hbbytecode/src/opcode.rs
/hbbytecode/src/ops.rs
/hblang/src/instrs.rs
/hblang/src/disasm.rs
/.rgignore
rust-ice-*
rustc-ice-*
# sqlite
db.sqlite
db.sqlite-journal
# assets
/depell/src/*.gz
/depell/src/*.wasm
#**/*-sv.rs
/bytecode/src/instrs.rs

1491
Cargo.lock generated

File diff suppressed because it is too large Load diff

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@ -1,17 +1,50 @@
cargo-features = ["profile-rustflags"]
[workspace]
resolver = "2"
members = ["hbbytecode", "hbvm", "hbxrt", "xtask", "hblang", "hbjit"]
members = [
"bytecode",
"vm",
"xrt",
"xtask",
"lang",
"depell",
"depell/wasm-fmt",
"depell/wasm-hbc",
"depell/wasm-rt",
]
[workspace.dependencies]
hbbytecode = { path = "bytecode", default-features = false }
hbvm = { path = "vm", default-features = false }
hbxrt = { path = "xrt" }
hblang = { path = "lang", default-features = false }
hbjit = { path = "jit" }
[profile.release]
strip = true
lto = true
#debug = true
strip = true
codegen-units = 1
panic = "abort"
[profile.small]
rustflags = ["-Zfmt-debug=none", "-Zlocation-detail=none"]
inherits = "release"
opt-level = "z"
strip = true
strip = "debuginfo"
lto = true
codegen-units = 1
panic = "abort"
[profile.small-dev]
inherits = "dev"
opt-level = "z"
strip = "debuginfo"
panic = "abort"
[profile.fuzz]
inherits = "dev"
debug = true
opt-level = 3
panic = "abort"

View file

@ -2,3 +2,9 @@
name = "hbbytecode"
version = "0.1.0"
edition = "2018"
[features]
default = ["disasm"]
std = []
disasm = ["std"]

View file

@ -1,19 +1,43 @@
#![feature(iter_next_chunk)]
use std::{collections::HashSet, fmt::Write};
fn main() -> Result<(), Box<dyn std::error::Error>> {
println!("cargo:rerun-if-changed=build.rs");
println!("cargo:rerun-if-changed=../hbbytecode/instructions.in");
println!("cargo:rerun-if-changed=instructions.in");
gen_instrs()?;
let mut generated = String::new();
gen_instrs(&mut generated)?;
std::fs::write("src/instrs.rs", generated)?;
Ok(())
}
fn gen_instrs() -> Result<(), Box<dyn std::error::Error>> {
let mut generated = String::new();
fn gen_instrs(generated: &mut String) -> Result<(), Box<dyn std::error::Error>> {
writeln!(generated, "#![expect(dead_code)]")?;
writeln!(generated, "use crate::*;")?;
writeln!(generated, "#![allow(dead_code)] #![allow(clippy::upper_case_acronyms)]")?;
'_opcode_structs: {
let mut seen = HashSet::new();
for [.., args, _] in instructions() {
if !seen.insert(args) {
continue;
}
writeln!(generated, "#[derive(Clone, Copy, Debug)]")?;
writeln!(generated, "#[repr(packed)]")?;
write!(generated, "pub struct Ops{args}(")?;
let mut first = true;
for ch in args.chars().filter(|&ch| ch != 'N') {
if !std::mem::take(&mut first) {
write!(generated, ",")?;
}
write!(generated, "pub Op{ch}")?;
}
writeln!(generated, ");")?;
writeln!(generated, "unsafe impl BytecodeItem for Ops{args} {{}}")?;
}
}
'_max_size: {
let max = instructions()
@ -61,11 +85,7 @@ fn gen_instrs() -> Result<(), Box<dyn std::error::Error>> {
}
'_name_list: {
writeln!(generated, "pub const NAMES: [&str; {}] = [", instructions().count())?;
for [_, name, _, _] in instructions() {
writeln!(generated, " \"{}\",", name.to_lowercase())?;
}
writeln!(generated, "];")?;
writeln!(generated, "pub const COUNT: u8 = {};", instructions().count())?;
}
let instr = "Instr";
@ -98,7 +118,8 @@ fn gen_instrs() -> Result<(), Box<dyn std::error::Error>> {
generated,
"/// This assumes the instruction byte is still at the beginning of the buffer"
)?;
writeln!(generated, "pub fn parse_args(bytes: &mut &[u8], kind: {instr}, buf: &mut Vec<{oper}>) -> Option<()> {{")?;
writeln!(generated, "#[cfg(feature = \"disasm\")]")?;
writeln!(generated, "pub fn parse_args(bytes: &mut &[u8], kind: {instr}, buf: &mut alloc::vec::Vec<{oper}>) -> Option<()> {{")?;
writeln!(generated, " match kind {{")?;
let mut instrs = instructions().collect::<Vec<_>>();
instrs.sort_unstable_by_key(|&[.., ty, _]| ty);
@ -138,7 +159,7 @@ fn comma_sep(items: impl Iterator<Item = String>) -> String {
}
fn instructions() -> impl Iterator<Item = [&'static str; 4]> {
include_str!("../hbbytecode/instructions.in")
include_str!("instructions.in")
.lines()
.filter_map(|line| line.strip_suffix(';'))
.map(|line| line.splitn(4, ',').map(str::trim).next_chunk().unwrap())

284
bytecode/src/lib.rs Normal file
View file

@ -0,0 +1,284 @@
#![no_std]
#[cfg(feature = "disasm")]
extern crate alloc;
pub use crate::instrs::*;
use core::convert::TryFrom;
mod instrs;
type OpR = u8;
type OpA = u64;
type OpO = i32;
type OpP = i16;
type OpB = u8;
type OpH = u16;
type OpW = u32;
type OpD = u64;
/// # Safety
/// Has to be valid to be decoded from bytecode.
pub unsafe trait BytecodeItem {}
unsafe impl BytecodeItem for u8 {}
impl TryFrom<u8> for Instr {
type Error = u8;
#[inline]
fn try_from(value: u8) -> Result<Self, Self::Error> {
#[cold]
fn failed(value: u8) -> Result<Instr, u8> {
Err(value)
}
if value < COUNT {
unsafe { Ok(core::mem::transmute::<u8, Instr>(value)) }
} else {
failed(value)
}
}
}
#[inline]
unsafe fn encode<T>(instr: T) -> (usize, [u8; instrs::MAX_SIZE]) {
let mut buf = [0; instrs::MAX_SIZE];
core::ptr::write(buf.as_mut_ptr() as *mut T, instr);
(core::mem::size_of::<T>(), buf)
}
#[inline]
#[cfg(feature = "disasm")]
fn decode<T>(binary: &mut &[u8]) -> Option<T> {
let (front, rest) = core::mem::take(binary).split_at_checked(core::mem::size_of::<T>())?;
*binary = rest;
unsafe { Some(core::ptr::read(front.as_ptr() as *const T)) }
}
/// Rounding mode
#[derive(Clone, Copy, Debug, PartialEq, Eq)]
#[repr(u8)]
pub enum RoundingMode {
NearestEven = 0,
Truncate = 1,
Up = 2,
Down = 3,
}
impl TryFrom<u8> for RoundingMode {
type Error = ();
fn try_from(value: u8) -> Result<Self, Self::Error> {
(value <= 3).then(|| unsafe { core::mem::transmute(value) }).ok_or(())
}
}
#[cfg(feature = "disasm")]
#[derive(Clone, Copy)]
pub enum DisasmItem {
Func,
Global,
}
#[cfg(feature = "disasm")]
#[derive(Debug)]
pub enum DisasmError<'a> {
InvalidInstruction(u8),
InstructionOutOfBounds(&'a str),
FmtFailed(core::fmt::Error),
HasOutOfBoundsJumps,
}
#[cfg(feature = "disasm")]
impl From<core::fmt::Error> for DisasmError<'_> {
fn from(value: core::fmt::Error) -> Self {
Self::FmtFailed(value)
}
}
#[cfg(feature = "disasm")]
impl core::fmt::Display for DisasmError<'_> {
fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
match *self {
DisasmError::InvalidInstruction(b) => write!(f, "invalid instruction opcode: {b}"),
DisasmError::InstructionOutOfBounds(name) => {
write!(f, "instruction would go out of bounds of {name} symbol")
}
DisasmError::FmtFailed(error) => write!(f, "fmt failed: {error}"),
DisasmError::HasOutOfBoundsJumps => write!(
f,
"the code contained jumps that dont got neither to a \
valid symbol or local insturction"
),
}
}
}
#[cfg(feature = "disasm")]
impl core::error::Error for DisasmError<'_> {}
#[cfg(feature = "disasm")]
pub fn disasm<'a>(
binary: &mut &[u8],
functions: &alloc::collections::BTreeMap<u32, (&'a str, u32, DisasmItem)>,
out: &mut alloc::string::String,
mut eca_handler: impl FnMut(&mut &[u8]),
) -> Result<(), DisasmError<'a>> {
use {
self::instrs::Instr,
alloc::{
collections::btree_map::{BTreeMap, Entry},
vec::Vec,
},
core::{convert::TryInto, fmt::Write},
};
fn instr_from_byte(b: u8) -> Result<Instr, DisasmError<'static>> {
b.try_into().map_err(DisasmError::InvalidInstruction)
}
let mut labels = BTreeMap::<u32, u32>::default();
let mut buf = Vec::<instrs::Oper>::new();
let mut has_oob = false;
'_offset_pass: for (&off, &(name, len, kind)) in functions.iter() {
if matches!(kind, DisasmItem::Global) {
continue;
}
let prev = *binary;
*binary = &binary[off as usize..];
let mut label_count = 0;
while let Some(&byte) = binary.first() {
let offset: i32 = (prev.len() - binary.len()).try_into().unwrap();
if offset as u32 == off + len {
break;
}
let Ok(inst) = instr_from_byte(byte) else { break };
instrs::parse_args(binary, inst, &mut buf)
.ok_or(DisasmError::InstructionOutOfBounds(name))?;
for op in buf.drain(..) {
let rel = match op {
instrs::Oper::O(rel) => rel,
instrs::Oper::P(rel) => rel.into(),
_ => continue,
};
let global_offset: u32 = (offset + rel).try_into().unwrap();
if functions.get(&global_offset).is_some() {
continue;
}
label_count += match labels.entry(global_offset) {
Entry::Occupied(_) => 0,
Entry::Vacant(entry) => {
entry.insert(label_count);
1
}
}
}
if matches!(inst, Instr::ECA) {
eca_handler(binary);
}
}
*binary = prev;
}
let mut ordered = functions.iter().collect::<Vec<_>>();
ordered.sort_unstable_by_key(|(_, (name, _, _))| name);
'_dump: for (&off, &(name, len, kind)) in ordered {
if matches!(kind, DisasmItem::Global) {
continue;
}
let prev = *binary;
writeln!(out, "{name}:")?;
*binary = &binary[off as usize..];
while let Some(&byte) = binary.first() {
let offset: i32 = (prev.len() - binary.len()).try_into().unwrap();
if offset as u32 == off + len {
break;
}
let Ok(inst) = instr_from_byte(byte) else {
writeln!(out, "invalid instr {byte}")?;
break;
};
instrs::parse_args(binary, inst, &mut buf).unwrap();
if let Some(label) = labels.get(&offset.try_into().unwrap()) {
write!(out, "{:>2}: ", label)?;
} else {
write!(out, " ")?;
}
write!(out, "{inst:<8?} ")?;
'a: for (i, op) in buf.drain(..).enumerate() {
if i != 0 {
write!(out, ", ")?;
}
let rel = 'b: {
match op {
instrs::Oper::O(rel) => break 'b rel,
instrs::Oper::P(rel) => break 'b rel.into(),
instrs::Oper::R(r) => write!(out, "r{r}")?,
instrs::Oper::B(b) => write!(out, "{b}b")?,
instrs::Oper::H(h) => write!(out, "{h}h")?,
instrs::Oper::W(w) => write!(out, "{w}w")?,
instrs::Oper::D(d) if (d as i64) < 0 => write!(out, "{}d", d as i64)?,
instrs::Oper::D(d) => write!(out, "{d}d")?,
instrs::Oper::A(a) => write!(out, "{a}a")?,
}
continue 'a;
};
let global_offset: u32 = (offset + rel).try_into().unwrap();
if let Some(&(name, ..)) = functions.get(&global_offset) {
if name.contains('\0') {
write!(out, ":{name:?}")?;
} else {
write!(out, ":{name}")?;
}
} else {
let local_has_oob = global_offset < off
|| global_offset > off + len
|| prev
.get(global_offset as usize)
.map_or(true, |&b| instr_from_byte(b).is_err())
|| prev[global_offset as usize] == 0;
has_oob |= local_has_oob;
let label = labels.get(&global_offset).unwrap();
if local_has_oob {
write!(out, "!!!!!!!!!{rel}")?;
} else {
write!(out, ":{label}")?;
}
}
}
writeln!(out)?;
if matches!(inst, Instr::ECA) {
eca_handler(binary);
}
}
*binary = prev;
}
if has_oob {
return Err(DisasmError::HasOutOfBoundsJumps);
}
Ok(())
}

23
depell/Cargo.toml Normal file
View file

@ -0,0 +1,23 @@
[package]
name = "depell"
version = "0.1.0"
edition = "2021"
[dependencies]
argon2 = "0.5.3"
axum = "0.7.7"
axum-server = { version = "0.7.1", optional = true, features = ["rustls", "tls-rustls"] }
const_format = "0.2.33"
getrandom = "0.2.15"
hblang.workspace = true
htmlm = "0.5.0"
log = "0.4.22"
rand_core = { version = "0.6.4", features = ["getrandom"] }
rusqlite = { version = "0.32.1", features = ["bundled"] }
serde = { version = "1.0.210", features = ["derive"] }
time = "0.3.36"
tokio = { version = "1.40.0", features = ["rt"] }
[features]
#default = ["tls"]
tls = ["dep:axum-server"]

14
depell/README.md Normal file
View file

@ -0,0 +1,14 @@
# Depell
Depell is a website that allows users to import/post/run hblang code and create huge dependency graphs. Its currently hosted at https://depell.mlokis.tech.
## Local Development
Prerequirements:
- rust nigthly toolchain: install rust from [here](https://www.rust-lang.org/tools/install)
```bash
rustup default nightly
cargo xtask watch-depell-debug
# browser http://localhost:8080
```

143
depell/src/index.css Normal file
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@ -0,0 +1,143 @@
* {
font-family: var(--font);
}
body {
--primary: white;
--secondary: #EFEFEF;
--timestamp: #777777;
--error: #ff3333;
--placeholder: #333333;
}
body {
--small-gap: 5px;
--font: system-ui, -apple-system, BlinkMacSystemFont, 'Segoe UI', Roboto, Oxygen, Ubuntu, Cantarell, 'Open Sans', 'Helvetica Neue', sans-serif;
--monospace: 'Courier New', Courier, monospace;
nav {
display: flex;
justify-content: space-between;
align-items: center;
section:last-child {
display: flex;
gap: var(--small-gap);
}
}
main {
margin-top: var(--small-gap);
display: flex;
flex-direction: column;
gap: var(--small-gap);
}
}
div.preview {
div.info {
display: flex;
gap: var(--small-gap);
span[apply=timestamp] {
color: var(--timestamp);
}
}
div.stats {
display: flex;
gap: var(--small-gap);
}
}
form {
display: flex;
flex-direction: column;
gap: var(--small-gap);
.error {
color: var(--error);
text-align: center;
}
}
textarea {
outline: none;
border: none;
background: var(--secondary);
padding: var(--small-gap);
padding-top: calc(var(--small-gap) * 1.5);
font-family: var(--monospace);
resize: none;
tab-size: 4;
}
pre {
background: var(--secondary);
padding: var(--small-gap);
padding-top: calc(var(--small-gap) * 1.5);
margin: 0px;
font-family: var(--monospace);
tab-size: 4;
overflow-x: auto;
}
input {
font-size: inherit;
outline: none;
border: none;
background: var(--secondary);
padding: var(--small-gap);
}
input:is(:hover, :focus) {
background: var(--primary);
}
button {
border: none;
outline: none;
font-size: inherit;
background: var(--secondary);
}
button:hover:not(:active) {
background: var(--primary);
}
div#code-editor {
display: flex;
position: relative;
textarea {
flex: 1;
}
span#code-size {
position: absolute;
right: 2px;
font-size: 12px;
}
}
div#dep-list {
display: flex;
flex-direction: column;
align-items: center;
gap: var(--small-gap);
section {
width: 100%;
display: flex;
flex-direction: column;
text-align: center;
gap: var(--small-gap);
div {
text-align: left;
}
}
}

427
depell/src/index.js Normal file
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@ -0,0 +1,427 @@
/// @ts-check
/** @return {never} */
function never() { throw new Error() }
/**@type{WebAssembly.Instance}*/ let hbcInstance;
/**@type{Promise<WebAssembly.WebAssemblyInstantiatedSource>}*/ let hbcInstaceFuture;
async function getHbcInstance() {
hbcInstaceFuture ??= WebAssembly.instantiateStreaming(fetch("/hbc.wasm"), {});
return hbcInstance ??= (await hbcInstaceFuture).instance;
}
const stack_pointer_offset = 1 << 20;
/** @param {WebAssembly.Instance} instance @param {Post[]} packages @param {number} fuel
* @returns {string} */
function compileCode(instance, packages, fuel) {
let {
INPUT, INPUT_LEN,
LOG_MESSAGES, LOG_MESSAGES_LEN,
memory, compile_and_run,
} = instance.exports;
if (!(true
&& memory instanceof WebAssembly.Memory
&& INPUT instanceof WebAssembly.Global
&& INPUT_LEN instanceof WebAssembly.Global
&& LOG_MESSAGES instanceof WebAssembly.Global
&& LOG_MESSAGES_LEN instanceof WebAssembly.Global
&& typeof compile_and_run === "function"
)) never();
const codeLength = packPosts(packages, new DataView(memory.buffer, INPUT.value));
new DataView(memory.buffer).setUint32(INPUT_LEN.value, codeLength, true);
runWasmFunction(instance, compile_and_run, fuel);
return bufToString(memory, LOG_MESSAGES, LOG_MESSAGES_LEN);
}
/**@type{WebAssembly.Instance}*/ let fmtInstance;
/**@type{Promise<WebAssembly.WebAssemblyInstantiatedSource>}*/ let fmtInstaceFuture;
async function getFmtInstance() {
fmtInstaceFuture ??= WebAssembly.instantiateStreaming(fetch("/hbfmt.wasm"), {});
return fmtInstance ??= (await fmtInstaceFuture).instance;
}
/** @param {WebAssembly.Instance} instance @param {string} code @param {"fmt" | "minify"} action
* @returns {string | undefined} */
function modifyCode(instance, code, action) {
let {
INPUT, INPUT_LEN,
OUTPUT, OUTPUT_LEN,
memory, fmt, minify
} = instance.exports;
if (!(true
&& memory instanceof WebAssembly.Memory
&& INPUT instanceof WebAssembly.Global
&& INPUT_LEN instanceof WebAssembly.Global
&& OUTPUT instanceof WebAssembly.Global
&& OUTPUT_LEN instanceof WebAssembly.Global
&& typeof fmt === "function"
&& typeof minify === "function"
)) never();
if (action !== "fmt") {
INPUT = OUTPUT;
INPUT_LEN = OUTPUT_LEN;
}
let dw = new DataView(memory.buffer);
dw.setUint32(INPUT_LEN.value, code.length, true);
new Uint8Array(memory.buffer, INPUT.value).set(new TextEncoder().encode(code));
return runWasmFunction(instance, action === "fmt" ? fmt : minify) ?
bufToString(memory, OUTPUT, OUTPUT_LEN) : undefined;
}
/** @param {WebAssembly.Instance} instance @param {CallableFunction} func @param {any[]} args
* @returns {boolean} */
function runWasmFunction(instance, func, ...args) {
const { PANIC_MESSAGE, PANIC_MESSAGE_LEN, memory, stack_pointer } = instance.exports;
if (!(true
&& memory instanceof WebAssembly.Memory
&& stack_pointer instanceof WebAssembly.Global
)) never();
const ptr = stack_pointer.value;
try {
func(...args);
return true;
} catch (error) {
if (error instanceof WebAssembly.RuntimeError
&& error.message == "unreachable"
&& PANIC_MESSAGE instanceof WebAssembly.Global
&& PANIC_MESSAGE_LEN instanceof WebAssembly.Global) {
console.error(bufToString(memory, PANIC_MESSAGE, PANIC_MESSAGE_LEN), error);
} else {
console.error(error);
}
stack_pointer.value = ptr;
return false;
}
}
/** @typedef {Object} Post
* @property {string} path
* @property {string} code */
/** @param {Post[]} posts @param {DataView} view @returns {number} */
function packPosts(posts, view) {
const enc = new TextEncoder(), buf = new Uint8Array(view.buffer, view.byteOffset);
let len = 0; for (const post of posts) {
view.setUint16(len, post.path.length, true); len += 2;
buf.set(enc.encode(post.path), len); len += post.path.length;
view.setUint16(len, post.code.length, true); len += 2;
buf.set(enc.encode(post.code), len); len += post.code.length;
}
return len;
}
/** @param {WebAssembly.Memory} mem
* @param {WebAssembly.Global} ptr
* @param {WebAssembly.Global} len
* @return {string} */
function bufToString(mem, ptr, len) {
const res = new TextDecoder()
.decode(new Uint8Array(mem.buffer, ptr.value,
new DataView(mem.buffer).getUint32(len.value, true)));
new DataView(mem.buffer).setUint32(len.value, 0, true);
return res;
}
/** @param {HTMLElement} target */
function wireUp(target) {
execApply(target);
cacheInputs(target);
bindCodeEdit(target);
bindTextareaAutoResize(target);
}
const importRe = /@use\s*\(\s*"(([^"]|\\")+)"\s*\)/g;
/** @param {string} code
* @param {string[]} roots
* @param {Post[]} buf
* @param {Set<string>} prevRoots
* @returns {void} */
function loadCachedPackages(code, roots, buf, prevRoots) {
buf[0].code = code;
roots.length = 0;
let changed = false;
for (const match of code.matchAll(importRe)) {
changed ||= !prevRoots.has(match[1]);
roots.push(match[1]);
}
if (!changed) return;
buf.length = 1;
prevRoots.clear();
for (let imp = roots.pop(); imp !== undefined; imp = roots.pop()) {
if (prevRoots.has(imp)) continue; prevRoots.add(imp);
buf.push({ path: imp, code: localStorage.getItem("package-" + imp) ?? never() });
for (const match of buf[buf.length - 1].code.matchAll(importRe)) {
roots.push(match[1]);
}
}
}
/**@type{Set<string>}*/ const prevRoots = new Set();
/** @param {HTMLElement} target */
async function bindCodeEdit(target) {
const edit = target.querySelector("#code-edit");
if (!(edit instanceof HTMLTextAreaElement)) return;
const codeSize = target.querySelector("#code-size");
const errors = target.querySelector("#compiler-output");
if (!(true
&& codeSize instanceof HTMLSpanElement
&& errors instanceof HTMLPreElement
)) never();
const MAX_CODE_SIZE = parseInt(codeSize.innerHTML);
if (Number.isNaN(MAX_CODE_SIZE)) never();
const hbc = await getHbcInstance(), fmt = await getFmtInstance();
let importDiff = new Set();
const keyBuf = [];
/**@type{Post[]}*/
const packages = [{ path: "local.hb", code: "" }];
const debounce = 100;
/**@type{AbortController|undefined}*/
let cancelation = undefined;
let timeout = 0;
prevRoots.clear();
const onInput = () => {
importDiff.clear();
for (const match of edit.value.matchAll(importRe)) {
if (localStorage["package-" + match[1]]) continue;
importDiff.add(match[1]);
}
if (importDiff.size !== 0) {
if (cancelation) cancelation.abort();
cancelation = new AbortController();
keyBuf.length = 0;
keyBuf.push(...importDiff.keys());
errors.textContent = "fetching: " + keyBuf.join(", ");
fetch(`/code`, {
method: "POST",
signal: cancelation.signal,
headers: { "Content-Type": "application/json" },
body: JSON.stringify(keyBuf),
}).then(async e => {
try {
const json = await e.json();
if (e.status == 200) {
for (const [key, value] of Object.entries(json)) {
localStorage["package-" + key] = value;
}
const missing = keyBuf.filter(i => json[i] === undefined);
if (missing.length !== 0) {
errors.textContent = "deps not found: " + missing.join(", ");
} else {
cancelation = undefined;
edit.dispatchEvent(new InputEvent("input"));
}
}
} catch (er) {
errors.textContent = "completely failed to fetch ("
+ e.status + "): " + keyBuf.join(", ");
console.error(e, er);
}
});
}
if (cancelation && importDiff.size !== 0) {
return;
}
loadCachedPackages(edit.value, keyBuf, packages, prevRoots);
errors.textContent = compileCode(hbc, packages, 1);
const minified_size = modifyCode(fmt, edit.value, "minify")?.length;
if (minified_size) {
codeSize.textContent = (MAX_CODE_SIZE - minified_size) + "";
const perc = Math.min(100, Math.floor(100 * (minified_size / MAX_CODE_SIZE)));
codeSize.style.color = `color-mix(in srgb, white, var(--error) ${perc}%)`;
}
timeout = 0;
};
edit.addEventListener("input", () => {
if (timeout) clearTimeout(timeout);
timeout = setTimeout(onInput, debounce)
});
edit.dispatchEvent(new InputEvent("input"));
}
/** @type {{ [key: string]: (content: string) => Promise<string> | string }} */
const applyFns = {
timestamp: (content) => new Date(parseInt(content) * 1000).toLocaleString(),
fmt: (content) => getFmtInstance().then(i => modifyCode(i, content, "fmt") ?? "invalid code"),
};
/** @param {HTMLElement} target */
function execApply(target) {
for (const elem of target.querySelectorAll('[apply]')) {
if (!(elem instanceof HTMLElement)) continue;
const funcname = elem.getAttribute('apply') ?? never();
let res = applyFns[funcname](elem.textContent ?? "");
if (res instanceof Promise) res.then(c => elem.textContent = c);
else elem.textContent = res;
}
}
/** @param {HTMLElement} target */
function bindTextareaAutoResize(target) {
for (const textarea of target.querySelectorAll("textarea")) {
if (!(textarea instanceof HTMLTextAreaElement)) never();
const taCssMap = window.getComputedStyle(textarea);
const padding = parseInt(taCssMap.getPropertyValue('padding-top') ?? "0")
+ parseInt(taCssMap.getPropertyValue('padding-top') ?? "0");
textarea.style.height = "auto";
textarea.style.height = (textarea.scrollHeight - padding) + "px";
textarea.style.overflowY = "hidden";
textarea.addEventListener("input", function() {
let top = window.scrollY;
textarea.style.height = "auto";
textarea.style.height = (textarea.scrollHeight - padding) + "px";
window.scrollTo({ top });
});
textarea.onkeydown = (ev) => {
if (ev.key === "Tab") {
ev.preventDefault();
document.execCommand('insertText', false, "\t");
}
}
}
}
/** @param {HTMLElement} target */
function cacheInputs(target) {
/**@type {HTMLFormElement}*/ let form;
for (form of target.querySelectorAll('form')) {
const path = form.getAttribute('hx-post') || form.getAttribute('hx-delete');
if (!path) {
console.warn('form does not have a hx-post or hx-delete attribute', form);
continue;
}
for (const input of form.elements) {
if (input instanceof HTMLInputElement || input instanceof HTMLTextAreaElement) {
if ('password submit button'.includes(input.type)) continue;
const key = path + input.name;
input.value = localStorage.getItem(key) ?? '';
input.addEventListener("input", () => localStorage.setItem(key, input.value));
} else {
console.warn("unhandled form element: ", input);
}
}
}
}
/** @param {string} [path] */
function updaetTab(path) {
for (const elem of document.querySelectorAll("button[hx-push-url]")) {
if (elem instanceof HTMLButtonElement)
elem.disabled = elem.getAttribute("hx-push-url") === (path ?? window.location.pathname);
}
}
if (window.location.hostname === 'localhost') {
let id; setInterval(async () => {
let new_id = await fetch('/hot-reload').then(reps => reps.text());
id ??= new_id;
if (id !== new_id) window.location.reload();
}, 300);
(async function test() {
{
const code = "main:=fn():void{return}";
const inst = await getFmtInstance()
const fmtd = modifyCode(inst, code, "fmt") ?? never();
const prev = modifyCode(inst, fmtd, "minify") ?? never();
if (code != prev) console.error(code, prev);
}
{
const posts = [{
path: "foo.hb",
code: "main:=fn():int{return 42}",
}];
const res = compileCode(await getHbcInstance(), posts, 1) ?? never();
const expected = "exit code: 42\n";
if (expected != res) console.error(expected, res);
}
})()
}
document.body.addEventListener('htmx:afterSwap', (ev) => {
if (!(ev.target instanceof HTMLElement)) never();
wireUp(ev.target);
if (ev.target.tagName == "MAIN" || ev.target.tagName == "BODY")
updaetTab(ev['detail'].pathInfo.finalRequestPath);
console.log(ev);
});
getFmtInstance().then(inst => {
document.body.addEventListener('htmx:configRequest', (ev) => {
const details = ev['detail'];
if (details.path === "/post" && details.verb === "post") {
details.parameters['code'] = modifyCode(inst, details.parameters['code'], "minify");
}
});
/** @param {string} query @param {string} target @returns {number} */
function fuzzyCost(query, target) {
let qi = 0, bi = 0, cost = 0, matched = false;
while (qi < query.length) {
if (query.charAt(qi) === target.charAt(bi++)) {
matched = true;
qi++;
} else {
cost++;
}
if (bi === target.length) (bi = 0, qi++);
}
return cost + (matched ? 0 : 100 * target.length);
}
let deps = undefined;
/** @param {HTMLInputElement} input @returns {void} */
function filterCodeDeps(input) {
deps ??= document.getElementById("deps");
if (!(deps instanceof HTMLElement)) never();
if (input.value === "") {
deps.textContent = "results show here...";
return;
}
deps.innerHTML = "";
for (const root of [...prevRoots.keys()]
.sort((a, b) => fuzzyCost(input.value, a) - fuzzyCost(input.value, b))) {
const pane = document.createElement("div");
const code = modifyCode(inst, localStorage["package-" + root], "fmt");
pane.innerHTML = `<div>${root}</div><pre>${code}</pre>`;
deps.appendChild(pane);
}
if (deps.innerHTML === "") {
deps.textContent = "no results";
}
}
Object.assign(window, { filterCodeDeps });
});
updaetTab();
wireUp(document.body);

813
depell/src/main.rs Normal file
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@ -0,0 +1,813 @@
#![feature(iter_collect_into)]
use {
argon2::{password_hash::SaltString, PasswordVerifier},
axum::{
body::Bytes,
extract::Path,
http::{header::COOKIE, request::Parts},
response::{AppendHeaders, Html},
},
const_format::formatcp,
core::fmt,
htmlm::{html, write_html},
rand_core::OsRng,
serde::{Deserialize, Serialize},
std::{
collections::{HashMap, HashSet},
fmt::{Display, Write},
net::Ipv4Addr,
},
};
const MAX_NAME_LENGTH: usize = 32;
const MAX_POSTNAME_LENGTH: usize = 64;
const MAX_CODE_LENGTH: usize = 1024 * 4;
const SESSION_DURATION_SECS: u64 = 60 * 60;
const MAX_FEED_SIZE: usize = 8 * 1024;
type Redirect<const COUNT: usize = 1> = AppendHeaders<[(&'static str, &'static str); COUNT]>;
macro_rules! static_asset {
($mime:literal, $body:literal) => {
get(|| async {
axum::http::Response::builder()
.header("content-type", $mime)
.header("content-encoding", "gzip")
.body(axum::body::Body::from(Bytes::from_static(include_bytes!(concat!(
$body, ".gz"
)))))
.unwrap()
})
};
}
async fn amain() {
use axum::routing::{delete, get, post};
let debug = cfg!(debug_assertions);
log::set_logger(&Logger).unwrap();
log::set_max_level(if debug { log::LevelFilter::Warn } else { log::LevelFilter::Error });
db::init();
let router = axum::Router::new()
.route("/", get(Index::page))
.route("/index.css", static_asset!("text/css", "index.css"))
.route("/index.js", static_asset!("text/javascript", "index.js"))
.route("/hbfmt.wasm", static_asset!("application/wasm", "hbfmt.wasm"))
.route("/hbc.wasm", static_asset!("application/wasm", "hbc.wasm"))
.route("/index-view", get(Index::get))
.route("/feed", get(Feed::page))
.route("/feed-view", get(Feed::get))
.route("/feed-more", post(Feed::more))
.route("/profile", get(Profile::page))
.route("/profile-view", get(Profile::get))
.route("/profile/:name", get(Profile::get_other_page))
.route("/profile-view/:name", get(Profile::get_other))
.route("/post", get(Post::page))
.route("/post-view", get(Post::get))
.route("/post", post(Post::post))
.route("/code", post(fetch_code))
.route("/login", get(Login::page))
.route("/login-view", get(Login::get))
.route("/login", post(Login::post))
.route("/login", delete(Login::delete))
.route("/signup", get(Signup::page))
.route("/signup-view", get(Signup::get))
.route("/signup", post(Signup::post))
.route(
"/hot-reload",
get({
let id = std::time::SystemTime::now()
.duration_since(std::time::SystemTime::UNIX_EPOCH)
.unwrap()
.as_millis();
move || async move { id.to_string() }
}),
);
#[cfg(feature = "tls")]
{
let addr =
(Ipv4Addr::UNSPECIFIED, std::env::var("DEPELL_PORT").unwrap().parse::<u16>().unwrap());
let config = axum_server::tls_rustls::RustlsConfig::from_pem_file(
std::env::var("DEPELL_CERT_PATH").unwrap(),
std::env::var("DEPELL_KEY_PATH").unwrap(),
)
.await
.unwrap();
axum_server::bind_rustls(addr.into(), config)
.serve(router.into_make_service())
.await
.unwrap();
}
#[cfg(not(feature = "tls"))]
{
let addr = (Ipv4Addr::UNSPECIFIED, 8080);
let socket = tokio::net::TcpListener::bind(addr).await.unwrap();
axum::serve(socket, router).await.unwrap();
}
}
async fn fetch_code(
axum::Json(paths): axum::Json<Vec<String>>,
) -> axum::Json<HashMap<String, String>> {
let mut deps = HashMap::<String, String>::new();
db::with(|db| {
for path in &paths {
let Some((author, name)) = path.split_once('/') else { continue };
db.fetch_deps
.query_map((name, author), |r| {
Ok((
r.get::<_, String>(1)? + "/" + r.get_ref(0)?.as_str()?,
r.get::<_, String>(2)?,
))
})
.log("fetch deps query")
.into_iter()
.flatten()
.filter_map(|r| r.log("deps row"))
.collect_into(&mut deps);
}
});
axum::Json(deps)
}
#[derive(Deserialize)]
#[serde(untagged)]
enum Feed {
Before { before_timestamp: u64 },
}
#[derive(Deserialize)]
struct Before {
before_timestamp: u64,
}
impl Feed {
async fn more(session: Session, axum::Form(data): axum::Form<Before>) -> Html<String> {
Self::Before { before_timestamp: data.before_timestamp }.render(&session)
}
}
impl Default for Feed {
fn default() -> Self {
Self::Before { before_timestamp: now() + 3600 }
}
}
impl Page for Feed {
fn render_to_buf(self, _: &Session, buf: &mut String) {
db::with(|db| {
let cursor = match self {
Feed::Before { before_timestamp } => db
.get_pots_before
.query_map((before_timestamp,), Post::from_row)
.log("fetch before posts query")
.into_iter()
.flatten()
.filter_map(|r| r.log("fetch before posts row")),
};
let base_len = buf.len();
let mut last_timestamp = None;
for post in cursor {
write!(buf, "{}", post).unwrap();
if buf.len() - base_len > MAX_FEED_SIZE {
last_timestamp = Some(post.timestamp);
break;
}
}
write_html!((*buf)
if let Some(last_timestamp) = last_timestamp {
<div "hx-post"="/feed-more"
"hx-trigger"="intersect once"
"hx-swap"="outerHTML"
"hx-vals"={format_args!("{{\"before_timestamp\":{last_timestamp}}}")}
>"there might be more"</div>
} else {
"no more stuff"
}
);
});
}
}
#[derive(Default)]
struct Index;
impl PublicPage for Index {
fn render_to_buf(self, buf: &mut String) {
buf.push_str(include_str!("welcome-page.html"));
}
}
#[derive(Deserialize, Default)]
struct Post {
author: String,
name: String,
#[serde(skip)]
timestamp: u64,
#[serde(skip)]
imports: usize,
#[serde(skip)]
runs: usize,
#[serde(skip)]
dependencies: usize,
code: String,
#[serde(skip)]
error: Option<&'static str>,
}
impl Page for Post {
fn render_to_buf(self, session: &Session, buf: &mut String) {
let Self { name, code, error, .. } = self;
write_html! { (buf)
<form id="postForm" "hx-post"="/post" "hx-swap"="outerHTML">
if let Some(e) = error { <div class="error">e</div> }
<input name="author" type="text" value={session.name} hidden>
<input name="name" type="text" placeholder="name" value=name
required maxlength=MAX_POSTNAME_LENGTH>
<div id="code-editor">
<textarea id="code-edit" name="code" placeholder="code" rows=1
required>code</textarea>
<span id="code-size">MAX_CODE_LENGTH</span>
</div>
<input type="submit" value="submit">
<pre id="compiler-output"></pre>
</form>
!{include_str!("post-page.html")}
}
}
}
impl Post {
pub fn from_row(r: &rusqlite::Row) -> rusqlite::Result<Self> {
Ok(Post {
author: r.get(0)?,
name: r.get(1)?,
timestamp: r.get(2)?,
code: r.get(3)?,
..Default::default()
})
}
async fn post(
session: Session,
axum::Form(mut data): axum::Form<Self>,
) -> Result<Redirect, Html<String>> {
if data.name.len() > MAX_POSTNAME_LENGTH {
data.error = Some(formatcp!("name too long, max length is {MAX_POSTNAME_LENGTH}"));
return Err(data.render(&session));
}
if data.code.len() > MAX_CODE_LENGTH {
data.error = Some(formatcp!("code too long, max length is {MAX_CODE_LENGTH}"));
return Err(data.render(&session));
}
db::with(|db| {
if let Err(e) = db.create_post.insert((&data.name, &session.name, now(), &data.code)) {
if let rusqlite::Error::SqliteFailure(e, _) = e {
if e.code == rusqlite::ErrorCode::ConstraintViolation {
data.error = Some("this name is already used");
}
}
data.error = data.error.or_else(|| {
log::error!("create post error: {e}");
Some("internal server error")
});
return;
}
for (author, name) in hblang::lexer::Lexer::uses(&data.code)
.filter_map(|v| v.split_once('/'))
.collect::<HashSet<_>>()
{
if db
.create_import
.insert((author, name, &session.name, &data.name))
.log("create import query")
.is_none()
{
data.error = Some("internal server error");
return;
};
}
});
if data.error.is_some() {
Err(data.render(&session))
} else {
Ok(redirect("/profile"))
}
}
}
impl fmt::Display for Post {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
let Self { author, name, timestamp, imports, runs, dependencies, code, .. } = self;
write_html! { f <div class="preview">
<div class="info">
<span>
<a "hx-get"={format_args!("/profile-view/{author}")} href="" "hx-target"="main"
"hx-push-url"={format_args!("/profile/{author}")}
"hx-swam"="innerHTML">author</a>
"/"
name
</span>
<span apply="timestamp">timestamp</span>
</div>
<div class="stats">
for (name, count) in "inps runs deps".split(' ')
.zip([imports, runs, dependencies])
.filter(|(_, &c)| c != 0)
{
name ": "<span>count</span>
}
</div>
<pre apply="fmt">code</pre>
if *timestamp == 0 {
<button "hx-get"="/post" "hx-swap"="outerHTML"
"hx-target"="[preview]">"edit"</button>
}
</div> }
Ok(())
}
}
#[derive(Default)]
struct Profile {
other: Option<String>,
}
impl Profile {
async fn get_other(session: Session, Path(name): Path<String>) -> Html<String> {
Profile { other: Some(name) }.render(&session)
}
async fn get_other_page(session: Session, Path(name): Path<String>) -> Html<String> {
base(|b| Profile { other: Some(name) }.render_to_buf(&session, b), Some(&session))
}
}
impl Page for Profile {
fn render_to_buf(self, session: &Session, buf: &mut String) {
db::with(|db| {
let iter = db
.get_user_posts
.query_map((self.other.as_ref().unwrap_or(&session.name),), Post::from_row)
.log("get user posts query")
.into_iter()
.flatten()
.filter_map(|p| p.log("user post row"));
write_html! { (buf)
for post in iter {
!{post}
} else {
"no posts"
}
!{include_str!("profile-page.html")}
}
})
}
}
fn hash_password(password: &str) -> String {
use argon2::PasswordHasher;
argon2::Argon2::default()
.hash_password(password.as_bytes(), &SaltString::generate(&mut OsRng))
.unwrap()
.to_string()
}
fn verify_password(hash: &str, password: &str) -> Result<(), argon2::password_hash::Error> {
argon2::Argon2::default()
.verify_password(password.as_bytes(), &argon2::PasswordHash::new(hash)?)
}
#[derive(Serialize, Deserialize, Default, Debug)]
struct Login {
name: String,
password: String,
#[serde(skip)]
error: Option<&'static str>,
}
impl PublicPage for Login {
fn render_to_buf(self, buf: &mut String) {
let Login { name, password, error } = self;
write_html! { (buf)
<form "hx-post"="/login" "hx-swap"="outerHTML">
if let Some(e) = error { <div class="error">e</div> }
<input name="name" type="text" autocomplete="name" placeholder="name" value=name
required maxlength=MAX_NAME_LENGTH>
<input name="password" type="password" autocomplete="current-password" placeholder="password"
value=password>
<input type="submit" value="submit">
</form>
}
}
}
impl Login {
async fn post(
axum::Form(mut data): axum::Form<Self>,
) -> Result<AppendHeaders<[(&'static str, String); 2]>, Html<String>> {
// TODO: hash password
let mut id = [0u8; 32];
db::with(|db| match db.authenticate.query_row((&data.name,), |r| r.get::<_, String>(1)) {
Ok(hash) => {
if verify_password(&hash, &data.password).is_err() {
data.error = Some("invalid credentials");
} else {
getrandom::getrandom(&mut id).unwrap();
if db
.login
.insert((id, &data.name, now() + SESSION_DURATION_SECS))
.log("create session query")
.is_none()
{
data.error = Some("internal server error");
}
}
}
Err(rusqlite::Error::QueryReturnedNoRows) => {
data.error = Some("invalid credentials");
}
Err(e) => {
log::error!("foo {e}");
data.error = Some("internal server error");
}
});
if data.error.is_some() {
log::error!("what {:?}", data);
Err(data.render())
} else {
Ok(AppendHeaders([
("hx-location", "/feed".into()),
(
"set-cookie",
format!(
"id={}; SameSite=Strict; Secure; Max-Age={SESSION_DURATION_SECS}",
to_hex(&id)
),
),
]))
}
}
async fn delete(session: Session) -> Redirect {
_ = db::with(|q| q.logout.execute((session.id,)).log("delete session query"));
redirect("/login")
}
}
#[derive(Serialize, Deserialize, Default)]
struct Signup {
name: String,
new_password: String,
confirm_password: String,
#[serde(default)]
confirm_no_password: bool,
#[serde(skip)]
error: Option<&'static str>,
}
impl PublicPage for Signup {
fn render_to_buf(self, buf: &mut String) {
let Signup { name, new_password, confirm_password, confirm_no_password, error } = self;
let vals = if confirm_no_password { "{\"confirm_no_password\":true}" } else { "{}" };
write_html! { (buf)
<form "hx-post"="/signup" "hx-swap"="outerHTML" "hx-vals"=vals>
if let Some(e) = error { <div class="error">e</div> }
<input name="name" type="text" autocomplete="name" placeholder="name" value=name
maxlength=MAX_NAME_LENGTH required>
<input name="new_password" type="password" autocomplete="new-password" placeholder="new password"
value=new_password>
<input name="confirm_password" type="password" autocomplete="confirm-password"
placeholder="confirm password" value=confirm_password>
<input type="submit" value="submit">
</form>
}
}
}
impl Signup {
async fn post(axum::Form(mut data): axum::Form<Self>) -> Result<Redirect, Html<String>> {
if data.name.len() > MAX_NAME_LENGTH {
data.error = Some(formatcp!("name too long, max length is {MAX_NAME_LENGTH}"));
return Err(data.render());
}
if !data.confirm_no_password && data.new_password.is_empty() {
data.confirm_no_password = true;
data.error = Some("Are you sure you don't want to use a password? (then submit again)");
return Err(data.render());
}
db::with(|db| {
// TODO: hash passwords
match db.register.insert((&data.name, hash_password(&data.new_password))) {
Ok(_) => {}
Err(rusqlite::Error::SqliteFailure(e, _))
if e.code == rusqlite::ErrorCode::ConstraintViolation =>
{
data.error = Some("username already taken");
}
Err(e) => {
log::error!("create user query: {e}");
data.error = Some("internal server error");
}
};
});
if data.error.is_some() {
Err(data.render())
} else {
Ok(redirect("/login"))
}
}
}
fn base(body: impl FnOnce(&mut String), session: Option<&Session>) -> Html<String> {
let username = session.map(|s| &s.name);
let nav_button = |f: &mut String, name: &str| {
write_html! {(f)
<button "hx-push-url"={format_args!("/{name}")}
"hx-get"={format_args!("/{name}-view")}
"hx-target"="main"
"hx-swap"="innerHTML">name</button>
}
};
Html(html! {
"<!DOCTYPE html>"
<html lang="en">
<head>
<meta name="charset" content="UTF-8">
<meta name="viewport" content="width=device-width, initial-scale=1">
<link rel="stylesheet" href="/index.css">
</head>
<body>
<nav>
<button "hx-push-url"="/" "hx-get"="/index-view" "hx-target"="main" "hx-swap"="innerHTML">"depell"</button>
<section>
if let Some(username) = username {
<button "hx-push-url"="/profile" "hx-get"="/profile-view" "hx-target"="main"
"hx-swap"="innerHTML">username</button>
|f|{nav_button(f, "feed"); nav_button(f, "post")}
<button "hx-delete"="/login">"logout"</button>
} else {
|f|{nav_button(f, "login"); nav_button(f, "signup")}
}
</section>
</nav>
<section id="post-form"></section>
<main>|f|{body(f)}</main>
</body>
<script src="https://unpkg.com/htmx.org@2.0.3/dist/htmx.min.js" integrity="sha384-0895/pl2MU10Hqc6jd4RvrthNlDiE9U1tWmX7WRESftEDRosgxNsQG/Ze9YMRzHq" crossorigin="anonymous"></script>
<script type="module" src="/index.js"></script>
</html>
})
}
struct Session {
name: String,
id: [u8; 32],
}
#[axum::async_trait]
impl<S> axum::extract::FromRequestParts<S> for Session {
/// If the extractor fails it'll use this "rejection" type. A rejection is
/// a kind of error that can be converted into a response.
type Rejection = Redirect;
/// Perform the extraction.
async fn from_request_parts(parts: &mut Parts, _: &S) -> Result<Self, Self::Rejection> {
let err = redirect("/login");
let value = parts
.headers
.get_all(COOKIE)
.into_iter()
.find_map(|c| c.to_str().ok()?.trim().strip_prefix("id="))
.map(|c| c.split_once(';').unwrap_or((c, "")).0)
.ok_or(err)?;
let mut id = [0u8; 32];
parse_hex(value, &mut id).ok_or(err)?;
let (name, expiration) = db::with(|db| {
db.get_session
.query_row((id,), |r| Ok((r.get::<_, String>(0)?, r.get::<_, u64>(1)?)))
.log("fetching session")
.ok_or(err)
})?;
if expiration < now() {
return Err(err);
}
Ok(Self { name, id })
}
}
fn now() -> u64 {
std::time::SystemTime::now()
.duration_since(std::time::SystemTime::UNIX_EPOCH)
.unwrap()
.as_secs()
}
fn parse_hex(hex: &str, dst: &mut [u8]) -> Option<()> {
fn hex_to_nibble(b: u8) -> Option<u8> {
Some(match b {
b'a'..=b'f' => b - b'a' + 10,
b'A'..=b'F' => b - b'A' + 10,
b'0'..=b'9' => b - b'0',
_ => return None,
})
}
if hex.len() != dst.len() * 2 {
return None;
}
for (d, p) in dst.iter_mut().zip(hex.as_bytes().chunks_exact(2)) {
*d = (hex_to_nibble(p[0])? << 4) | hex_to_nibble(p[1])?;
}
Some(())
}
fn to_hex(src: &[u8]) -> String {
use std::fmt::Write;
let mut buf = String::new();
for &b in src {
write!(buf, "{b:02x}").unwrap()
}
buf
}
fn main() {
tokio::runtime::Builder::new_current_thread().enable_all().build().unwrap().block_on(amain());
}
mod db {
use std::cell::RefCell;
macro_rules! gen_queries {
($vis:vis struct $name:ident {
$($qname:ident: $code:expr,)*
}) => {
$vis struct $name<'a> {
$($vis $qname: rusqlite::Statement<'a>,)*
}
impl<'a> $name<'a> {
fn new(db: &'a rusqlite::Connection) -> Self {
Self {
$($qname: db.prepare($code).unwrap(),)*
}
}
}
};
}
gen_queries! {
pub struct Queries {
register: "INSERT INTO user (name, password_hash) VALUES(?, ?)",
authenticate: "SELECT name, password_hash FROM user WHERE name = ?",
login: "INSERT OR REPLACE INTO session (id, username, expiration) VALUES(?, ?, ?)",
logout: "DELETE FROM session WHERE id = ?",
get_session: "SELECT username, expiration FROM session WHERE id = ?",
get_user_posts: "SELECT author, name, timestamp, code FROM post WHERE author = ?
ORDER BY timestamp DESC",
get_pots_before: "SELECT author, name, timestamp, code FROM post WHERE timestamp < ?",
create_post: "INSERT INTO post (name, author, timestamp, code) VALUES(?, ?, ?, ?)",
fetch_deps: "
WITH RECURSIVE roots(name, author, code) AS (
SELECT name, author, code FROM post WHERE name = ? AND author = ?
UNION
SELECT post.name, post.author, post.code FROM
post JOIN import ON post.name = import.to_name
AND post.author = import.to_author
JOIN roots ON import.from_name = roots.name
AND import.from_author = roots.author
) SELECT * FROM roots;
",
create_import: "INSERT INTO import(to_author, to_name, from_author, from_name)
VALUES(?, ?, ?, ?)",
}
}
struct Db {
queries: Queries<'static>,
_db: Box<rusqlite::Connection>,
}
impl Db {
fn new() -> Self {
let db = Box::new(rusqlite::Connection::open("db.sqlite").unwrap());
Self {
queries: Queries::new(unsafe {
std::mem::transmute::<&rusqlite::Connection, &rusqlite::Connection>(&db)
}),
_db: db,
}
}
}
pub fn with<T>(with: impl FnOnce(&mut Queries) -> T) -> T {
thread_local! { static DB_CONN: RefCell<Db> = RefCell::new(Db::new()); }
DB_CONN.with_borrow_mut(|q| with(&mut q.queries))
}
pub fn init() {
let db = rusqlite::Connection::open("db.sqlite").unwrap();
db.execute_batch(include_str!("schema.sql")).unwrap();
Queries::new(&db);
}
}
fn redirect(to: &'static str) -> Redirect {
AppendHeaders([("hx-location", to)])
}
trait PublicPage: Default {
fn render_to_buf(self, buf: &mut String);
fn render(self) -> Html<String> {
let mut str = String::new();
self.render_to_buf(&mut str);
Html(str)
}
async fn get() -> Html<String> {
Self::default().render()
}
async fn page(session: Option<Session>) -> Html<String> {
base(|s| Self::default().render_to_buf(s), session.as_ref())
}
}
trait Page: Default {
fn render_to_buf(self, session: &Session, buf: &mut String);
fn render(self, session: &Session) -> Html<String> {
let mut str = String::new();
self.render_to_buf(session, &mut str);
Html(str)
}
async fn get(session: Session) -> Html<String> {
Self::default().render(&session)
}
async fn page(session: Option<Session>) -> Result<Html<String>, axum::response::Redirect> {
match session {
Some(session) => {
Ok(base(|f| Self::default().render_to_buf(&session, f), Some(&session)))
}
None => Err(axum::response::Redirect::permanent("/login")),
}
}
}
trait ResultExt<O, E> {
fn log(self, prefix: impl Display) -> Option<O>;
}
impl<O, E: Display> ResultExt<O, E> for Result<O, E> {
fn log(self, prefix: impl Display) -> Option<O> {
match self {
Ok(v) => Some(v),
Err(e) => {
log::error!("{prefix}: {e}");
None
}
}
}
}
struct Logger;
impl log::Log for Logger {
fn enabled(&self, _: &log::Metadata) -> bool {
true
}
fn log(&self, record: &log::Record) {
if self.enabled(record.metadata()) {
eprintln!("{} - {}", record.module_path().unwrap_or("=="), record.args());
}
}
fn flush(&self) {}
}

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<div id="dep-list">
<input placeholder="search impoted deps.." oninput="filterCodeDeps(this, event)">
<section id="deps">
results show here...
</section>
</div>
<div>
<h3>About posting code</h3>
<p>
If you are unfammiliar with <a href="https://git.ablecorp.us/AbleOS/holey-bytes">hblang</a>, refer to the
<strong>hblang/README.md</strong> or
vizit <a href="/profile/mlokis">mlokis'es posts</a>. Preferably don't edit the code here.
</p>
<h3>Extra textarea features</h3>
<ul>
<li>proper tab behaviour</li>
<li>snap to previous tab boundary on "empty" lines</li>
</ul>

55
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PRAGMA foreign_keys = ON;
CREATE TABLE IF NOT EXISTS user(
name TEXT NOT NULL,
password_hash TEXT NOT NULL,
PRIMARY KEY (name)
) WITHOUT ROWID;
CREATE TABLE IF NOT EXISTS session(
id BLOB NOT NULL,
username TEXT NOT NULL,
expiration INTEGER NOT NULL,
FOREIGN KEY (username) REFERENCES user (name)
PRIMARY KEY (username)
) WITHOUT ROWID;
CREATE UNIQUE INDEX IF NOT EXISTS
session_id ON session (id);
CREATE TABLE IF NOT EXISTS post(
name TEXT NOT NULL,
author TEXT,
timestamp INTEGER,
code TEXT NOT NULL,
FOREIGN KEY (author) REFERENCES user(name) ON DELETE SET NULL,
PRIMARY KEY (author, name)
);
CREATE INDEX IF NOT EXISTS
post_timestamp ON post(timestamp DESC);
CREATE TABLE IF NOT EXISTS import(
from_name TEXT NOT NULL,
from_author TEXT,
to_name TEXT NOT NULL,
to_author TEXT,
FOREIGN KEY (from_name, from_author) REFERENCES post(name, author),
FOREIGN KEY (to_name, to_author) REFERENCES post(name, author)
);
CREATE INDEX IF NOT EXISTS
dependencies ON import(from_name, from_author);
CREATE INDEX IF NOT EXISTS
dependants ON import(to_name, to_author);
CREATE TABLE IF NOT EXISTS run(
code_name TEXT NOT NULL,
code_author TEXT NOT NULL,
runner TEXT NOT NULL,
FOREIGN KEY (code_name, code_author) REFERENCES post(name, author),
FOREIGN KEY (runner) REFERENCES user(name),
PRIMARY KEY (code_name, code_author, runner)
);

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@ -0,0 +1,17 @@
<h1>Welcome to depell</h1>
<p>
Depell (dependency hell) is a simple "social" media site best compared to twitter, except that all you can post is
<a href="https://git.ablecorp.us/AbleOS/holey-bytes">hblang</a> code with no comments allowed. Instead of likes you
run the program, and instead of retweets you import the program as dependency. Run counts even when ran indirectly.
</p>
<p>
The backend only serves the code and frontend compiles and runs it locally. All posts are immutable.
</p>
<h2>Security?</h2>
<p>
All code runs in WASM (inside a holey-bytes VM until hblang compiles to wasm) and is controlled by JavaScript. WASM
cant do any form of IO without going trough JavaScript so as long as JS import does not allow wasm to execute
arbitrary JS code, WASM can act as a container inside the JS.
</p>

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@ -0,0 +1,11 @@
[package]
name = "wasm-hbfmt"
version = "0.1.0"
edition = "2021"
[lib]
crate-type = ["cdylib"]
[dependencies]
hblang = { workspace = true, features = ["no_log"] }
wasm-rt = { version = "0.1.0", path = "../wasm-rt" }

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@ -0,0 +1,34 @@
#![no_std]
#![feature(str_from_raw_parts)]
#![feature(alloc_error_handler)]
use hblang::{fmt, parser};
wasm_rt::decl_runtime!(128 * 1024, 1024 * 4);
const MAX_OUTPUT_SIZE: usize = 1024 * 10;
wasm_rt::decl_buffer!(MAX_OUTPUT_SIZE, MAX_OUTPUT, OUTPUT, OUTPUT_LEN);
const MAX_INPUT_SIZE: usize = 1024 * 4;
wasm_rt::decl_buffer!(MAX_INPUT_SIZE, MAX_INPUT, INPUT, INPUT_LEN);
#[no_mangle]
unsafe extern "C" fn fmt() {
ALLOCATOR.reset();
let code = core::str::from_raw_parts(core::ptr::addr_of!(INPUT).cast(), INPUT_LEN);
let arena = parser::Arena::with_capacity(code.len() * parser::SOURCE_TO_AST_FACTOR);
let mut ctx = parser::Ctx::default();
let exprs = parser::Parser::parse(&mut ctx, code, "source.hb", &mut parser::no_loader, &arena);
let mut f = wasm_rt::Write(&mut OUTPUT[..]);
fmt::fmt_file(exprs, code, &mut f).unwrap();
OUTPUT_LEN = MAX_OUTPUT_SIZE - f.0.len();
}
#[no_mangle]
unsafe extern "C" fn minify() {
let code = core::str::from_raw_parts_mut(core::ptr::addr_of_mut!(OUTPUT).cast(), OUTPUT_LEN);
OUTPUT_LEN = fmt::minify(code);
}

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@ -0,0 +1,14 @@
[package]
name = "wasm-hbc"
version = "0.1.0"
edition = "2021"
[lib]
crate-type = ["cdylib"]
[dependencies]
hblang = { workspace = true, features = [] }
hbvm.workspace = true
log = { version = "0.4.22", features = ["release_max_level_error"] }
wasm-rt = { version = "0.1.0", path = "../wasm-rt", features = ["log"] }

118
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#![feature(alloc_error_handler)]
#![feature(slice_take)]
#![no_std]
use {
alloc::{string::String, vec::Vec},
hblang::{
parser::FileId,
son::{hbvm::HbvmBackend, Codegen, CodegenCtx},
},
};
extern crate alloc;
const ARENA_CAP: usize = 128 * 16 * 1024;
wasm_rt::decl_runtime!(ARENA_CAP, 1024 * 4);
const MAX_INPUT_SIZE: usize = 32 * 4 * 1024;
wasm_rt::decl_buffer!(MAX_INPUT_SIZE, MAX_INPUT, INPUT, INPUT_LEN);
#[no_mangle]
unsafe fn compile_and_run(mut fuel: usize) {
ALLOCATOR.reset();
_ = log::set_logger(&wasm_rt::Logger);
log::set_max_level(log::LevelFilter::Error);
struct File<'a> {
path: &'a str,
code: &'a mut str,
}
let mut root = 0;
let files = {
let mut input_bytes =
core::slice::from_raw_parts_mut(core::ptr::addr_of_mut!(INPUT).cast::<u8>(), INPUT_LEN);
let mut files = Vec::with_capacity(32);
while let Some((&mut path_len, rest)) = input_bytes.split_first_chunk_mut() {
let (path, rest) = rest.split_at_mut(u16::from_le_bytes(path_len) as usize);
let (&mut code_len, rest) = rest.split_first_chunk_mut().unwrap();
let (code, rest) = rest.split_at_mut(u16::from_le_bytes(code_len) as usize);
files.push(File {
path: core::str::from_utf8_unchecked(path),
code: core::str::from_utf8_unchecked_mut(code),
});
input_bytes = rest;
}
let root_path = files[root].path;
hblang::quad_sort(&mut files, |a, b| a.path.cmp(b.path));
root = files.binary_search_by_key(&root_path, |p| p.path).unwrap();
files
};
let mut ctx = CodegenCtx::default();
let files = {
let paths = files.iter().map(|f| f.path).collect::<Vec<_>>();
let mut loader = |path: &str, _: &str, kind| match kind {
hblang::parser::FileKind::Module => Ok(paths.binary_search(&path).unwrap() as FileId),
hblang::parser::FileKind::Embed => Err("embeds are not supported".into()),
};
files
.into_iter()
.map(|f| {
hblang::parser::Ast::new(
f.path,
// since 'free' does nothing this is fine
String::from_raw_parts(f.code.as_mut_ptr(), f.code.len(), f.code.len()),
&mut ctx.parser,
&mut loader,
)
})
.collect::<Vec<_>>()
};
let mut ct = {
let mut backend = HbvmBackend::default();
Codegen::new(&mut backend, &files, &mut ctx).generate(root as FileId);
if !ctx.parser.errors.borrow().is_empty() {
log::error!("{}", ctx.parser.errors.borrow());
return;
}
let mut c = Codegen::new(&mut backend, &files, &mut ctx);
c.assemble_comptime()
};
while fuel != 0 {
match ct.vm.run() {
Ok(hbvm::VmRunOk::End) => {
log::error!("exit code: {}", ct.vm.read_reg(1).0 as i64);
break;
}
Ok(hbvm::VmRunOk::Ecall) => {
let unknown = ct.vm.read_reg(2).0;
log::error!("unknown ecall: {unknown}")
}
Ok(hbvm::VmRunOk::Timer) => {
fuel -= 1;
if fuel == 0 {
log::error!("program timed out");
}
}
Ok(hbvm::VmRunOk::Breakpoint) => todo!(),
Err(e) => {
log::error!("vm error: {e}");
break;
}
}
}
//log::error!("memory consumption: {}b / {}b", ALLOCATOR.used(), ARENA_CAP);
}

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@ -0,0 +1,7 @@
[package]
name = "wasm-rt"
version = "0.1.0"
edition = "2021"
[dependencies]
log = { version = "0.4.22", optional = true }

162
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#![feature(alloc_error_handler)]
#![feature(pointer_is_aligned_to)]
#![feature(slice_take)]
#![no_std]
use core::{
alloc::{GlobalAlloc, Layout},
cell::UnsafeCell,
};
extern crate alloc;
#[macro_export]
macro_rules! decl_buffer {
($cap:expr, $export_cap:ident, $export_base:ident, $export_len:ident) => {
#[no_mangle]
static $export_cap: usize = $cap;
#[no_mangle]
static mut $export_base: [u8; $cap] = [0; $cap];
#[no_mangle]
static mut $export_len: usize = 0;
};
}
#[macro_export]
macro_rules! decl_runtime {
($memory_size:expr, $max_panic_size:expr) => {
#[cfg(debug_assertions)]
#[no_mangle]
static mut PANIC_MESSAGE: [u8; $max_panic_size] = [0; $max_panic_size];
#[cfg(debug_assertions)]
#[no_mangle]
static mut PANIC_MESSAGE_LEN: usize = 0;
#[cfg(target_arch = "wasm32")]
#[panic_handler]
pub fn handle_panic(_info: &core::panic::PanicInfo) -> ! {
#[cfg(debug_assertions)]
{
unsafe {
use core::fmt::Write;
let mut f = $crate::Write(&mut PANIC_MESSAGE[..]);
_ = writeln!(f, "{}", _info);
PANIC_MESSAGE_LEN = $max_panic_size - f.0.len();
}
}
core::arch::wasm32::unreachable();
}
#[global_allocator]
static ALLOCATOR: $crate::ArenaAllocator<{ $memory_size }> = $crate::ArenaAllocator::new();
#[cfg(target_arch = "wasm32")]
#[alloc_error_handler]
fn alloc_error(_: core::alloc::Layout) -> ! {
#[cfg(debug_assertions)]
{
unsafe {
use core::fmt::Write;
let mut f = $crate::Write(&mut PANIC_MESSAGE[..]);
_ = writeln!(f, "out of memory");
PANIC_MESSAGE_LEN = $max_panic_size - f.0.len();
}
}
core::arch::wasm32::unreachable()
}
};
}
#[cfg(feature = "log")]
pub struct Logger;
#[cfg(feature = "log")]
impl log::Log for Logger {
fn enabled(&self, _: &log::Metadata) -> bool {
true
}
fn log(&self, record: &log::Record) {
if self.enabled(record.metadata()) {
const MAX_LOG_MESSAGE: usize = 1024 * 8;
#[no_mangle]
static mut LOG_MESSAGES: [u8; MAX_LOG_MESSAGE] = [0; MAX_LOG_MESSAGE];
#[no_mangle]
static mut LOG_MESSAGES_LEN: usize = 0;
unsafe {
use core::fmt::Write;
let mut f = Write(&mut LOG_MESSAGES[LOG_MESSAGES_LEN..]);
_ = writeln!(f, "{}", record.args());
LOG_MESSAGES_LEN = MAX_LOG_MESSAGE - f.0.len();
}
}
}
fn flush(&self) {}
}
pub struct ArenaAllocator<const SIZE: usize> {
arena: UnsafeCell<[u8; SIZE]>,
head: UnsafeCell<*mut u8>,
}
impl<const SIZE: usize> ArenaAllocator<SIZE> {
#[expect(clippy::new_without_default)]
pub const fn new() -> Self {
ArenaAllocator {
arena: UnsafeCell::new([0; SIZE]),
head: UnsafeCell::new(core::ptr::null_mut()),
}
}
#[expect(clippy::missing_safety_doc)]
pub unsafe fn reset(&self) {
(*self.head.get()) = self.arena.get().cast::<u8>().add(SIZE);
}
pub fn used(&self) -> usize {
unsafe { self.arena.get() as usize + SIZE - (*self.head.get()) as usize }
}
}
unsafe impl<const SIZE: usize> Sync for ArenaAllocator<SIZE> {}
unsafe impl<const SIZE: usize> GlobalAlloc for ArenaAllocator<SIZE> {
unsafe fn alloc(&self, layout: Layout) -> *mut u8 {
let size = layout.size();
let align = layout.align();
let until = self.arena.get() as *mut u8;
let new_head = (*self.head.get()).sub(size);
let aligned_head = (new_head as usize & !(align - 1)) as *mut u8;
debug_assert!(aligned_head.is_aligned_to(align));
if until > aligned_head {
return core::ptr::null_mut();
}
*self.head.get() = aligned_head;
aligned_head
}
unsafe fn dealloc(&self, _ptr: *mut u8, _layout: Layout) {
/* lol */
}
}
pub struct Write<'a>(pub &'a mut [u8]);
impl core::fmt::Write for Write<'_> {
fn write_str(&mut self, s: &str) -> core::fmt::Result {
if let Some(m) = self.0.take_mut(..s.len()) {
m.copy_from_slice(s.as_bytes());
Ok(())
} else {
Err(core::fmt::Error)
}
}
}

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@ -1,58 +0,0 @@
#![feature(iter_next_chunk)]
fn main() -> Result<(), Box<dyn std::error::Error>> {
println!("cargo:rerun-if-changed=build.rs");
println!("cargo:rerun-if-changed=instructions.in");
let mut generated = String::new();
gen_op_structs(&mut generated)?;
std::fs::write("src/ops.rs", generated)?;
let mut generated = String::new();
gen_op_codes(&mut generated)?;
std::fs::write("src/opcode.rs", generated)?;
Ok(())
}
fn gen_op_structs(generated: &mut String) -> std::fmt::Result {
use std::fmt::Write;
let mut seen = std::collections::HashSet::new();
writeln!(generated, "use crate::*;")?;
for [.., args, _] in instructions() {
if !seen.insert(args) {
continue;
}
writeln!(generated, "#[derive(Clone, Copy, Debug)]")?;
writeln!(generated, "#[repr(packed)]")?;
write!(generated, "pub struct Ops{args}(")?;
let mut first = true;
for ch in args.chars().filter(|&ch| ch != 'N') {
if !std::mem::take(&mut first) {
write!(generated, ",")?;
}
write!(generated, "pub Op{ch}")?;
}
writeln!(generated, ");")?;
writeln!(generated, "unsafe impl BytecodeItem for Ops{args} {{}}")?;
}
Ok(())
}
fn gen_op_codes(generated: &mut String) -> std::fmt::Result {
use std::fmt::Write;
for [op, name, _, comment] in instructions() {
writeln!(generated, "#[doc = {comment}]")?;
writeln!(generated, "pub const {name}: u8 = {op};")?;
}
Ok(())
}
fn instructions() -> impl Iterator<Item = [&'static str; 4]> {
include_str!("../hbbytecode/instructions.in")
.lines()
.map(|line| line.strip_suffix(';').unwrap())
.map(|line| line.splitn(4, ',').map(str::trim).next_chunk().unwrap())
}

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@ -1,41 +0,0 @@
#![no_std]
pub use crate::ops::*;
use core::convert::TryFrom;
pub mod opcode;
mod ops;
type OpR = u8;
type OpA = u64;
type OpO = i32;
type OpP = i16;
type OpB = u8;
type OpH = u16;
type OpW = u32;
type OpD = u64;
/// # Safety
/// Has to be valid to be decoded from bytecode.
pub unsafe trait BytecodeItem {}
unsafe impl BytecodeItem for u8 {}
/// Rounding mode
#[derive(Clone, Copy, Debug, PartialEq, Eq)]
#[repr(u8)]
pub enum RoundingMode {
NearestEven = 0,
Truncate = 1,
Up = 2,
Down = 3,
}
impl TryFrom<u8> for RoundingMode {
type Error = ();
fn try_from(value: u8) -> Result<Self, Self::Error> {
(value <= 3).then(|| unsafe { core::mem::transmute(value) }).ok_or(())
}
}

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@ -1,6 +0,0 @@
[package]
name = "hbjit"
version = "0.1.0"
edition = "2021"
[dependencies]

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@ -1,3 +0,0 @@
fn main() {
println!("Hello, world!");
}

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@ -1,14 +0,0 @@
[package]
name = "hblang"
version = "0.1.0"
edition = "2021"
[[bin]]
name = "hbc"
path = "src/main.rs"
[dependencies]
env_logger = "0.11.5"
hbvm = { path = "../hbvm", features = ["nightly"] }
log = "0.4.22"
regalloc2 = { version = "0.10.2", features = ["trace-log"] }

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@ -1,945 +0,0 @@
# HERE SHALL THE DOCUMENTATION RESIDE
## Enforced Political Views
- worse is better
- less is more
- embrace `unsafe {}`
- adhere `macro_rules!`
- pessimization == death (put in `std::pin::Pin` and left with hungry crabs)
- importing external dependencies == death (`fn(dependencies) -> ExecutionStrategy`)
- above sell not be disputed, discussed, or questioned
## What hblang is
Holey-Bytes-Language (hblang for short) (*.hb) is the only true language targeting hbvm byte code. hblang is low level, manually managed, and procedural. Its rumored to be better then writing hbasm and you should probably use it for complex applications.
## What hblang isnt't
hblang knows what it isn't, because it knows what it is, hblang computes this by sub...
## Examples
Examples are also used in tests. To add an example that runs during testing add:
<pre>
#### &lt;name&gt
```hb
&lt;example&gt
```
</pre>
and also:
```rs
<name> => README;
```
to the `run_tests` macro at the bottom of the `src/codegen.rs`.
### Tour Examples
Following examples incrementally introduce language features and syntax.
#### main_fn
```hb
main := fn(): int {
return 1;
}
```
#### arithmetic
```hb
main := fn(): int {
return 10 - 20 / 2 + 4 * (2 + 2) - 4 * 4 + (1 << 0) + -1
}
```
#### functions
```hb
main := fn(): int {
return add_one(10) + add_two(20)
}
add_two := fn(x: int): int {
return x + 2
}
add_one := fn(x: int): int {
return x + 1
}
```
#### comments
```hb
// commant is an item
main := fn(): int {
// comment is a statement
foo(/* comment is an exprression /* if you are crazy */ */)
return 0
}
foo := fn(comment: void): void return /* comment evaluates to void */
// comments might be formatted in the future
```
#### if_statements
```hb
main := fn(): int {
return fib(10)
}
fib := fn(x: int): int {
if x <= 2 {
return 1
} else {
return fib(x - 1) + fib(x - 2)
}
}
```
#### variables
```hb
main := fn(): int {
ඞ := 1
b := 2
ඞ += 1
return ඞ - b
}
```
#### loops
```hb
main := fn(): int {
return fib(10)
}
fib := fn(n: int): int {
a := 0
b := 1
loop if n == 0 break else {
c := a + b
a = b
b = c
n -= 1
}
return a
}
```
#### pointers
```hb
main := fn(): int {
a := 1
b := &a
modify(b)
drop(a)
stack_reclamation_edge_case := 0
return *b - 2
}
modify := fn(a: ^int): void {
*a = 2
return
}
drop := fn(a: int): void {
return
}
```
#### structs
```hb
Ty := struct {
// comment
a: int,
b: int,
}
Ty2 := struct {
ty: Ty,
c: int,
}
main := fn(): int {
finst := Ty2.{ty: Ty.{a: 4, b: 1}, c: 3}
inst := odher_pass(finst)
if inst.c == 3 {
return pass(&inst.ty)
}
return 0
}
pass := fn(t: ^Ty): int {
.{a, b} := *t
return a - b
}
odher_pass := fn(t: Ty2): Ty2 {
return t
}
```
#### struct_operators
```hb
Point := struct {
x: int,
y: int,
}
Rect := struct {
a: Point,
b: Point,
}
main := fn(): int {
a := Point.(1, 2)
b := Point.(3, 4)
d := Rect.(a + b, b - a)
d2 := Rect.(Point.(0, 0) - b, a)
d2 += d
c := d2.a + d2.b
return c.x + c.y
}
```
#### global_variables
```hb
global_var := 10
complex_global_var := fib(global_var) - 5
fib := fn(n: int): int {
if 2 > n {
return n
}
return fib(n - 1) + fib(n - 2)
}
main := fn(): int {
complex_global_var += 5
return complex_global_var
}
```
note: values of global variables are evaluated at compile time
#### directives
```hb
foo := @use("foo.hb")
main := fn(): int {
byte := @as(u8, 10)
same_type_as_byte := @as(@TypeOf(byte), 30)
wide_uint := @as(u32, 40)
truncated_uint := @as(u8, @intcast(wide_uint))
size_of_Type_in_bytes := @sizeof(foo.Type)
align_of_Type_in_bytes := @alignof(foo.Type)
hardcoded_pointer := @as(^u8, @bitcast(10))
ecall_that_returns_int := @as(int, @eca(1, foo.Type.(10, 20), 5, 6))
return @inline(foo.foo)
}
// in module: foo.hb
Type := struct {
brah: int,
blah: int,
}
foo := fn(): int return 0
```
- `@use(<string>)`: imports a module based of string, the string is passed to a loader that can be customized, default loader uses following syntax:
- `((rel:|)(<path>)|git:<git-addr>:<path>)`: `rel:` and `''` prefixes both mean module is located at `path` relavive to the current file, `git:` takes a git url without `https://` passed as `git-addr`, `path` then refers to file within the repository
- `@TypeOf(<expr>)`: results into literal type of whatever the type of `<expr>` is, `<expr>` is not included in final binary
- `@as(<ty>, <expr>)`: hint to the compiler that `@TypeOf(<expr>) == <ty>`
- `@intcast(<expr>)`: needs to be used when conversion of `@TypeOf(<expr>)` would loose precision (widening of integers is implicit)
- `@sizeof(<ty>), @alignof(<ty>)`: I think explaining this would insult your intelligence
- `@bitcast(<expr>)`: tell compiler to assume `@TypeOf(<expr>)` is whatever is inferred, so long as size and alignment did not change
- `@eca(<ty>, ...<expr>)`: invoke `eca` instruction, where `<ty>` is the type this will return and `<expr>...` are arguments passed to the call
- `@inline(<func>, ...<args>)`: equivalent to `<func>(...<args>)` but function is guaranteed to inline, compiler will otherwise never inline
#### c_strings
```hb
str_len := fn(str: ^u8): int {
len := 0
loop if *str == 0 break else {
len += 1
str += 1
}
return len
}
main := fn(): int {
// when string ends with '\0' its a C string and thus type is '^u8'
some_str := "abඞ\n\r\t\{35}\{36373839}\0"
len := str_len(some_str)
some_other_str := "fff\0"
lep := str_len(some_other_str)
return lep + len
}
```
#### struct_patterns
```hb
.{fib, fib_iter, Fiber} := @use("fibs.hb")
main := fn(): int {
.{a, b} := Fiber.{a: 10, b: 10}
return fib(a) - fib_iter(b)
}
// in module: fibs.hb
Fiber := struct {a: u8, b: u8}
fib := fn(n: int): int if n < 2 {
return n
} else {
return fib(n - 1) + fib(n - 2)
}
fib_iter := fn(n: int): int {
a := 0
b := 1
loop if n == 0 break else {
c := a + b
a = b
b = c
n -= 1
}
return a
}
```
#### arrays
```hb
main := fn(): int {
addr := @as(u16, 0x1FF)
msg := [u8].(0, 0, @as(u8, addr & 0xFF), @as(u8, addr >> 8 & 0xFF))
_force_stack := &msg
arr := [int].(1, 2, 4)
return pass(&arr) + msg[3]
}
pass := fn(arr: ^[int; 3]): int {
return arr[0] + arr[1] + arr[arr[1]]
}
```
#### inline
```hb
main := fn(): int {
return @inline(foo, 1, 2, 3) - 6
}
foo := fn(a: int, b: int, c: int): int {
return a + b + c
}
```
#### idk
```hb
_edge_case := @as(int, idk)
main := fn(): int {
big_array := @as([u8; 128], idk)
i := 0
loop if i >= 128 break else {
big_array[i] = 69
i += 1
}
return big_array[42]
}
```
#### wide_ret
```hb
OemIdent := struct {
dos_version: [u8; 8],
dos_version_name: [u8; 8],
}
Stru := struct {
a: u16,
b: u16,
}
small_struct := fn(): Stru {
return .{a: 0, b: 0}
}
main := fn(major: int, minor: int): OemIdent {
small_struct()
ver := [u8].(0, 0, 0, 0, 0, 0, 0, 0)
return OemIdent.(ver, ver)
}
```
### Incomplete Examples
#### comptime_pointers
```hb
main := fn(): int {
$integer := 7
modify(&integer)
return integer
}
modify := fn($num: ^int): void {
$: *num = 0
}
```
#### generic_types
```hb
MALLOC_SYS_CALL := 69
FREE_SYS_CALL := 96
malloc := fn(size: uint, align: uint): ^void return @eca(MALLOC_SYS_CALL, size, align)
free := fn(ptr: ^void, size: uint, align: uint): void return @eca(FREE_SYS_CALL, ptr, size, align)
Vec := fn($Elem: type): type {
return struct {
data: ^Elem,
len: uint,
cap: uint,
}
}
new := fn($Elem: type): Vec(Elem) return Vec(Elem).{data: @bitcast(0), len: 0, cap: 0}
deinit := fn($Elem: type, vec: ^Vec(Elem)): void {
free(@bitcast(vec.data), vec.cap * @sizeof(Elem), @alignof(Elem));
*vec = new(Elem)
return
}
push := fn($Elem: type, vec: ^Vec(Elem), value: Elem): ^Elem {
if vec.len == vec.cap {
if vec.cap == 0 {
vec.cap = 1
} else {
vec.cap *= 2
}
new_alloc := @as(^Elem, @bitcast(malloc(vec.cap * @sizeof(Elem), @alignof(Elem))))
if new_alloc == 0 return 0
src_cursor := vec.data
dst_cursor := new_alloc
end := vec.data + vec.len
loop if src_cursor == end break else {
*dst_cursor = *src_cursor
src_cursor += 1
dst_cursor += 1
}
if vec.len != 0 {
free(@bitcast(vec.data), vec.len * @sizeof(Elem), @alignof(Elem))
}
vec.data = new_alloc
}
slot := vec.data + vec.len;
*slot = value
vec.len += 1
return slot
}
main := fn(): int {
vec := new(int)
push(int, &vec, 69)
res := *vec.data
deinit(int, &vec)
return res
}
```
#### generic_functions
```hb
add := fn($T: type, a: T, b: T): T return a + b
main := fn(): int {
return add(u32, 2, 2) - add(int, 1, 3)
}
```
#### fb_driver
```hb
arm_fb_ptr := fn(): int return 100
x86_fb_ptr := fn(): int return 100
check_platform := fn(): int {
return x86_fb_ptr()
}
set_pixel := fn(x: int, y: int, width: int): int {
return y * width + x
}
main := fn(): int {
fb_ptr := check_platform()
width := 100
height := 30
x := 0
y := 0
//t := 0
i := 0
loop {
if x < height {
//t += set_pixel(x, y, height)
x += 1
i += 1
} else {
x = 0
y += 1
if set_pixel(x, y, height) != i return 0
if y == width break
}
}
return i
}
```
### Purely Testing Examples
#### comptime_min_reg_leak
```hb
a := @use("math.hb").min(100, 50)
main := fn(): int {
return a
}
// in module: math.hb
SIZEOF_INT := 32
SHIFT := SIZEOF_INT - 1
min := fn(a: int, b: int): int {
c := a - b
return b + (c & c >> SHIFT)
}
```
#### different_types
```hb
Color := struct {
r: u8,
g: u8,
b: u8,
a: u8,
}
Point := struct {
x: u32,
y: u32,
}
Pixel := struct {
color: Color,
point: Point,
}
main := fn(): int {
pixel := Pixel.{
color: Color.{
r: 255,
g: 0,
b: 0,
a: 255,
},
point: Point.{
x: 0,
y: 2,
},
}
soupan := 1
if *(&pixel.point.x + soupan) != 2 {
return 0
}
if *(&pixel.point.y - 1) != 0 {
return 64
}
return pixel.point.x + pixel.point.y + pixel.color.r
+ pixel.color.g + pixel.color.b + pixel.color.a
}
```
#### struct_return_from_module_function
```hb
bar := @use("bar.hb")
main := fn(): int {
return 7 - bar.foo().x - bar.foo().y - bar.foo().z
}
// in module: bar.hb
foo := fn(): Foo {
return .{x: 3, y: 2, z: 2}
}
Foo := struct {x: int, y: u32, z: u32}
```
#### sort_something_viredly
```hb
main := fn(): int {
foo := sqrt
return 0
}
sqrt := fn(x: int): int {
temp := 0
g := 0
b := 32768
bshift := 15
loop if b == 0 break else {
bshift -= 1
temp = b + (g << 1)
temp <<= bshift
if x >= temp {
g += b
x -= temp
}
b >>= 1
}
return g
}
```
#### hex_octal_binary_literals
```hb
main := fn(): int {
hex := 0xFF
decimal := 255
octal := 0o377
binary := 0b11111111
if hex == decimal & octal == decimal & binary == decimal {
return 0
}
return 1
}
```
#### structs_in_registers
```hb
ColorBGRA := struct {b: u8, g: u8, r: u8, a: u8}
MAGENTA := ColorBGRA.{b: 205, g: 0, r: 205, a: 255}
main := fn(): int {
color := MAGENTA
return color.r
}
```
#### comptime_function_from_another_file
```hb
stn := @use("stn.hb")
CONST_A := 100
CONST_B := 50
a := stn.math.min(CONST_A, CONST_B)
main := fn(): int {
return a
}
// in module: stn.hb
math := @use("math.hb")
// in module: math.hb
SIZEOF_INT := 32
SHIFT := SIZEOF_INT - 1
min := fn(a: int, b: int): int {
c := a - b
return b + (c & c >> SHIFT)
}
```
### Just Testing Optimizations
#### const_folding_with_arg
```hb
main := fn(arg: int): int {
// reduces to 0
return arg + 0 - arg * 1 + arg + 1 + arg + 2 + arg + 3 - arg * 3 - 6
}
```
#### branch_assignments
```hb
main := fn(arg: int): int {
if arg == 1 {
arg = 1
} else if arg == 0 {
arg = 2
} else {
arg = 3
}
return arg
}
```
#### inline_test
```hb
Point := struct {x: int, y: int}
Buffer := struct {}
Transform := Point
ColorBGRA := Point
line := fn(buffer: Buffer, p0: Point, p1: Point, color: ColorBGRA, thickness: int): void {
if true {
if p0.x > p1.x {
@inline(line_low, buffer, p1, p0, color)
} else {
@inline(line_low, buffer, p0, p1, color)
}
} else {
if p0.y > p1.y {
// blah, test leading new line on directives
@inline(line_high, buffer, p1, p0, color)
} else {
@inline(line_high, buffer, p0, p1, color)
}
}
return
}
line_low := fn(buffer: Buffer, p0: Point, p1: Point, color: ColorBGRA): void {
return
}
line_high := fn(buffer: Buffer, p0: Point, p1: Point, color: ColorBGRA): void {
return
}
screenidx := @use("screen.hb").screenidx
rect_line := fn(buffer: Buffer, pos: Point, tr: Transform, color: ColorBGRA, thickness: int): void {
t := 0
y := 0
x := 0
loop if t == thickness break else {
y = pos.y
x = pos.x
loop if y == pos.y + tr.x break else {
a := 1 + @inline(screenidx, 10)
a = 1 + @inline(screenidx, 2)
y += 1
}
t += 1
}
return
}
random := @use("random.hb")
example := fn(): void {
loop {
random_x := @inline(random.integer, 0, 1024)
random_y := random.integer(0, 768)
a := @inline(screenidx, random_x)
break
}
return
}
main := fn(): int {
line(.(), .(0, 0), .(0, 0), .(0, 0), 10)
rect_line(.(), .(0, 0), .(0, 0), .(0, 0), 10)
example()
return 0
}
// in module: screen.hb
screenidx := fn(orange: int): int {
return orange
}
// in module: random.hb
integer := fn(min: int, max: int): int {
rng := @as(int, @eca(3, 4))
if min != 0 | max != 0 {
return rng % (max - min + 1) + min
}
return rng
}
```
#### some_generic_code
```hb
some_func := fn($Elem: type): void {
return
}
main := fn(): void {
some_func(u8)
return
}
```
#### integer_inference_issues
```hb
.{integer_range} := @use("random.hb")
main := fn(): void {
a := integer_range(0, 1000)
return
}
// in module: random.hb
integer_range := fn(min: uint, max: int): uint {
return @eca(3, 4) % (@bitcast(max) - min + 1) + min
}
```
#### exhaustive_loop_testing
```hb
main := fn(): int {
if multiple_breaks(0) != 3 {
return 1
}
if multiple_breaks(4) != 10 {
return 2
}
if state_change_in_break(0) != 0 {
return 3
}
if state_change_in_break(4) != 10 {
return 4
}
if continue_and_state_change(10) != 10 {
return 5
}
if continue_and_state_change(3) != 0 {
return 6
}
return 0
}
multiple_breaks := fn(arg: int): int {
loop if arg < 10 {
arg += 1
if arg == 3 break
} else break
return arg
}
state_change_in_break := fn(arg: int): int {
loop if arg < 10 {
if arg == 3 {
arg = 0
break
}
arg += 1
} else break
return arg
}
continue_and_state_change := fn(arg: int): int {
loop if arg < 10 {
if arg == 2 {
arg = 4
continue
}
if arg == 3 {
arg = 0
break
}
arg += 1
} else break
return arg
}
```
#### writing_into_string
```hb
outl := fn(): void {
msg := "whahaha\0"
@as(u8, 0)
return
}
inl := fn(): void {
msg := "luhahah\0"
return
}
main := fn(): void {
outl()
inl()
return
}
```
#### request_page
```hb
request_page := fn(page_count: u8): ^u8 {
msg := "\{00}\{01}xxxxxxxx\0"
msg_page_count := msg + 1;
*msg_page_count = page_count
return @eca(3, 2, msg, 12)
}
create_back_buffer := fn(total_pages: int): ^u32 {
if total_pages <= 0xFF {
return @bitcast(request_page(total_pages))
}
ptr := request_page(255)
remaining := total_pages - 0xFF
loop if remaining <= 0 break else {
if remaining < 0xFF {
request_page(remaining)
} else {
request_page(0xFF)
}
remaining -= 0xFF
}
return @bitcast(ptr)
}
main := fn(): void {
create_back_buffer(400)
return
}
```
#### tests_ptr_to_ptr_copy
```hb
main := fn(): int {
back_buffer := @as([u8; 1024 * 10], idk)
n := 0
loop if n >= 1024 break else {
back_buffer[n] = 64
n += 1
}
n = 1
loop if n >= 10 break else {
*(@as(^[u8; 1024], @bitcast(&back_buffer)) + n) = *@as(^[u8; 1024], @bitcast(&back_buffer))
n += 1
}
return back_buffer[1024 * 2]
}
```

View file

@ -1,4 +0,0 @@
--fmt - format all source files
--fmt-current - format mentioned file
--fmt-stdout - dont write the formatted file but print it
--threads <1...> - number of threads compiler can use [default: 1]

File diff suppressed because it is too large Load diff

File diff suppressed because it is too large Load diff

View file

@ -1,28 +0,0 @@
use std::num::NonZeroUsize;
fn main() -> std::io::Result<()> {
let args = std::env::args().collect::<Vec<_>>();
let args = args.iter().map(String::as_str).collect::<Vec<_>>();
if args.contains(&"--help") || args.contains(&"-h") {
println!("Usage: hbc [OPTIONS...] <FILE>");
println!(include_str!("../command-help.txt"));
return Err(std::io::ErrorKind::Other.into());
}
hblang::run_compiler(
args.get(1).copied().unwrap_or("main.hb"),
hblang::Options {
fmt: args.contains(&"--fmt"),
fmt_current: args.contains(&"--fmt-current"),
dump_asm: args.contains(&"--dump-asm"),
extra_threads: args
.iter()
.position(|&a| a == "--threads")
.map(|i| args[i + 1].parse::<NonZeroUsize>().expect("--threads expects integer"))
.map_or(1, NonZeroUsize::get)
- 1,
},
&mut std::io::stdout(),
)
}

File diff suppressed because it is too large Load diff

File diff suppressed because it is too large Load diff

View file

@ -1,28 +0,0 @@
main:
ADDI64 r254, r254, -32d
ST r31, r254, 0a, 32h
LI64 r32, 10d
LI64 r33, 20d
LI64 r34, 2d
DIRS64 r33, r0, r33, r34
SUB64 r32, r32, r33
LI64 r33, 4d
LI64 r34, 2d
ADDI64 r34, r34, 2d
MUL64 r33, r33, r34
ADD64 r32, r32, r33
LI64 r33, 4d
MULI64 r33, r33, 4d
SUB64 r32, r32, r33
LI64 r33, 1d
SLUI64 r33, r33, 0b
ADD64 r32, r32, r33
LI64 r33, 1d
NEG r33, r33
ADD64 r1, r32, r33
LD r31, r254, 0a, 32h
ADDI64 r254, r254, 32d
JALA r0, r31, 0a
code size: 205
ret: 0
status: Ok(())

View file

@ -1,68 +0,0 @@
main:
ADDI64 r254, r254, -68d
ST r31, r254, 28a, 40h
LI64 r32, 511d
LI64 r33, 0d
ST r33, r254, 24a, 1h
LI64 r33, 0d
ST r33, r254, 25a, 1h
CP r33, r32
ANDI r33, r33, 255d
ST r33, r254, 26a, 1h
SRUI16 r32, r32, 8b
ANDI r32, r32, 255d
ST r32, r254, 27a, 1h
CP r32, r0
LD r32, r254, 24a, 4h
ST r32, r254, 0a, 4h
ADDI64 r32, r254, 0d
LI64 r33, 1d
ST r33, r254, 4a, 8h
LI64 r33, 2d
ST r33, r254, 12a, 8h
LI64 r33, 4d
ST r33, r254, 20a, 8h
ADDI64 r33, r254, 4d
CP r2, r33
JAL r31, r0, :pass
CP r33, r1
ADDI64 r34, r254, 0d
LI64 r35, 3d
ADD64 r34, r34, r35
CP r35, r0
LD r35, r34, 0a, 1h
SXT8 r35, r35
ADD64 r1, r33, r35
LD r31, r254, 28a, 40h
ADDI64 r254, r254, 68d
JALA r0, r31, 0a
pass:
ADDI64 r254, r254, -40d
ST r31, r254, 0a, 40h
CP r32, r2
CP r33, r32
LI64 r34, 0d
MULI64 r34, r34, 8d
ADD64 r33, r33, r34
LD r34, r33, 0a, 8h
CP r33, r32
LI64 r35, 1d
MULI64 r35, r35, 8d
ADD64 r33, r33, r35
LD r35, r33, 0a, 8h
ADD64 r34, r34, r35
CP r33, r32
LI64 r35, 1d
MULI64 r35, r35, 8d
ADD64 r32, r32, r35
LD r35, r32, 0a, 8h
MULI64 r35, r35, 8d
ADD64 r33, r33, r35
LD r35, r33, 0a, 8h
ADD64 r1, r34, r35
LD r31, r254, 0a, 40h
ADDI64 r254, r254, 40d
JALA r0, r31, 0a
code size: 580
ret: 8
status: Ok(())

View file

@ -1,36 +0,0 @@
main:
ADDI64 r254, r254, -24d
ST r31, r254, 0a, 24h
LRA r32, r0, :"abඞ\n\r\t56789\0"
CP r2, r32
JAL r31, r0, :str_len
CP r32, r1
LRA r33, r0, :"fff\0"
CP r2, r33
JAL r31, r0, :str_len
CP r33, r1
ADD64 r1, r33, r32
LD r31, r254, 0a, 24h
ADDI64 r254, r254, 24d
JALA r0, r31, 0a
str_len:
ADDI64 r254, r254, -48d
ST r31, r254, 0a, 48h
CP r32, r2
LI64 r33, 0d
2: CP r34, r32
CP r35, r0
LD r35, r34, 0a, 1h
LI64 r36, 0d
JNE r35, r36, :0
JMP :1
0: ADDI64 r33, r33, 1d
ADDI64 r32, r32, 1d
JMP :2
1: CP r1, r33
LD r31, r254, 0a, 48h
ADDI64 r254, r254, 48d
JALA r0, r31, 0a
code size: 270
ret: 16
status: Ok(())

View file

@ -1,17 +0,0 @@
foo:
ADDI64 r254, r254, -8d
ST r31, r254, 0a, 8h
LD r31, r254, 0a, 8h
ADDI64 r254, r254, 8d
JALA r0, r31, 0a
main:
ADDI64 r254, r254, -8d
ST r31, r254, 0a, 8h
JAL r31, r0, :foo
LI64 r1, 0d
LD r31, r254, 0a, 8h
ADDI64 r254, r254, 8d
JALA r0, r31, 0a
code size: 143
ret: 0
status: Ok(())

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@ -1,11 +0,0 @@
main:
ADDI64 r254, r254, -16d
ST r31, r254, 0a, 16h
LRA r32, r0, :a
LD r1, r32, 0a, 8h
LD r31, r254, 0a, 16h
ADDI64 r254, r254, 16d
JALA r0, r31, 0a
code size: 95
ret: 50
status: Ok(())

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@ -1,11 +0,0 @@
main:
ADDI64 r254, r254, -16d
ST r31, r254, 0a, 16h
LRA r32, r0, :a
LD r1, r32, 0a, 8h
LD r31, r254, 0a, 16h
ADDI64 r254, r254, 16d
JALA r0, r31, 0a
code size: 218
ret: 50
status: Ok(())

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@ -1,57 +0,0 @@
main:
ADDI64 r254, r254, -44d
ST r31, r254, 12a, 32h
LI64 r32, 255d
ST r32, r254, 0a, 1h
LI64 r32, 0d
ST r32, r254, 1a, 1h
LI64 r32, 0d
ST r32, r254, 2a, 1h
LI64 r32, 255d
ST r32, r254, 3a, 1h
LI64 r32, 0d
ST r32, r254, 4a, 4h
LI64 r32, 2d
ST r32, r254, 8a, 4h
LI64 r32, 1d
ADDI64 r33, r254, 4d
CP r34, r32
MULI64 r34, r34, 4d
ADD64 r33, r33, r34
CP r32, r0
LD r32, r33, 0a, 4h
LI64 r34, 2d
JEQ r32, r34, :0
LI64 r1, 0d
JMP :1
0: ADDI64 r34, r254, 8d
ADDI64 r34, r34, -4d
CP r32, r0
LD r32, r34, 0a, 4h
LI64 r33, 0d
JEQ r32, r33, :2
LI64 r1, 64d
JMP :1
2: CP r33, r0
LD r33, r254, 4a, 4h
CP r32, r0
LD r32, r254, 8a, 4h
ADD32 r33, r33, r32
CP r32, r0
LD r32, r254, 0a, 1h
ADD32 r33, r33, r32
CP r32, r0
LD r32, r254, 1a, 1h
ADD32 r33, r33, r32
CP r32, r0
LD r32, r254, 2a, 1h
ADD32 r33, r33, r32
CP r32, r0
LD r32, r254, 3a, 1h
ADD32 r1, r33, r32
1: LD r31, r254, 12a, 32h
ADDI64 r254, r254, 44d
JALA r0, r31, 0a
code size: 474
ret: 512
status: Ok(())

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@ -1,27 +0,0 @@
main:
ADDI64 r254, r254, -80d
ST r31, r254, 16a, 64h
LI64 r32, 10d
LI64 r33, 30d
LI64 r34, 40d
LI64 r35, 16d
LI64 r36, 8d
LI64 r37, 10d
LI64 r2, 1d
LI64 r38, 10d
ST r38, r254, 0a, 8h
LI64 r38, 20d
ST r38, r254, 8a, 8h
LD r3, r254, 0a, 16h
LI64 r5, 5d
LI64 r6, 6d
ECA
CP r38, r1
LI64 r1, 0d
LD r31, r254, 16a, 64h
ADDI64 r254, r254, 80d
JALA r0, r31, 0a
ev: Ecall
code size: 230
ret: 0
status: Ok(())

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@ -1,74 +0,0 @@
main:
ADDI64 r254, r254, -80d
ST r31, r254, 0a, 80h
JAL r31, r0, :check_platform
CP r32, r1
LI64 r33, 100d
LI64 r34, 30d
LI64 r35, 0d
LI64 r36, 0d
4: CP r37, r35
CP r38, r34
ADDI64 r38, r38, 1d
CMPS r37, r37, r38
CMPUI r37, r37, 1d
JEQ r37, r0, :0
CP r2, r35
CP r3, r36
CP r4, r33
JAL r31, r0, :set_pixel
CP r37, r1
CP r38, r35
ADDI64 r38, r38, 1d
CP r35, r38
JMP :1
0: CP r2, r35
CP r3, r36
CP r4, r33
JAL r31, r0, :set_pixel
CP r38, r1
LI64 r35, 0d
CP r39, r36
ADDI64 r39, r39, 1d
CP r36, r39
1: CP r39, r36
CP r40, r33
CMPS r39, r39, r40
CMPUI r39, r39, 0d
NOT r39, r39
JEQ r39, r0, :2
JMP :3
2: JMP :4
3: LI64 r1, 0d
LD r31, r254, 0a, 80h
ADDI64 r254, r254, 80d
JALA r0, r31, 0a
set_pixel:
ADDI64 r254, r254, -32d
ST r31, r254, 0a, 32h
CP r32, r2
CP r33, r3
CP r34, r4
MUL64 r33, r33, r34
ADD64 r33, r33, r32
LI64 r1, 0d
LD r31, r254, 0a, 32h
ADDI64 r254, r254, 32d
JALA r0, r31, 0a
check_platform:
ADDI64 r254, r254, -8d
ST r31, r254, 0a, 8h
JAL r31, r0, :x86_fb_ptr
LD r31, r254, 0a, 8h
ADDI64 r254, r254, 8d
JALA r0, r31, 0a
x86_fb_ptr:
ADDI64 r254, r254, -8d
ST r31, r254, 0a, 8h
LI64 r1, 100d
LD r31, r254, 0a, 8h
ADDI64 r254, r254, 8d
JALA r0, r31, 0a
code size: 511
ret: 0
status: Ok(())

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@ -1,32 +0,0 @@
add_one:
ADDI64 r254, r254, -16d
ST r31, r254, 0a, 16h
CP r32, r2
ADDI64 r1, r32, 1d
LD r31, r254, 0a, 16h
ADDI64 r254, r254, 16d
JALA r0, r31, 0a
add_two:
ADDI64 r254, r254, -16d
ST r31, r254, 0a, 16h
CP r32, r2
ADDI64 r1, r32, 2d
LD r31, r254, 0a, 16h
ADDI64 r254, r254, 16d
JALA r0, r31, 0a
main:
ADDI64 r254, r254, -24d
ST r31, r254, 0a, 24h
LI64 r2, 10d
JAL r31, r0, :add_one
CP r32, r1
LI64 r2, 20d
JAL r31, r0, :add_two
CP r33, r1
ADD64 r1, r32, r33
LD r31, r254, 0a, 24h
ADDI64 r254, r254, 24d
JALA r0, r31, 0a
code size: 257
ret: 33
status: Ok(())

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@ -1,38 +0,0 @@
add:
ADDI64 r254, r254, -24d
ST r31, r254, 0a, 24h
CP r32, r2
CP r33, r3
ADD64 r1, r32, r33
LD r31, r254, 0a, 24h
ADDI64 r254, r254, 24d
JALA r0, r31, 0a
add:
ADDI64 r254, r254, -24d
ST r31, r254, 0a, 24h
CP r32, r2
CP r33, r3
ADD32 r1, r32, r33
LD r31, r254, 0a, 24h
ADDI64 r254, r254, 24d
JALA r0, r31, 0a
main:
ADDI64 r254, r254, -32d
ST r31, r254, 0a, 32h
LI64 r2, 2d
LI64 r3, 2d
JAL r31, r0, :add
CP r32, r1
LI64 r2, 1d
LI64 r3, 3d
JAL r31, r0, :add
CP r33, r1
CP r34, r32
SXT32 r34, r34
SUB64 r1, r34, r33
LD r31, r254, 0a, 32h
ADDI64 r254, r254, 32d
JALA r0, r31, 0a
code size: 275
ret: 0
status: Ok(())

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@ -1,142 +0,0 @@
deinit:
ADDI64 r254, r254, -24d
ST r31, r254, 0a, 24h
CP r32, r2
LD r2, r32, 0a, 8h
LD r33, r32, 16a, 8h
MULI64 r33, r33, 8d
CP r3, r33
LI64 r4, 8d
JAL r31, r0, :free
CP r1, r32
JAL r31, r0, :new
LD r31, r254, 0a, 24h
ADDI64 r254, r254, 24d
JALA r0, r31, 0a
free:
ADDI64 r254, r254, -40d
ST r31, r254, 0a, 40h
CP r32, r2
CP r33, r3
CP r34, r4
LRA r35, r0, :FREE_SYS_CALL
LD r2, r35, 0a, 8h
CP r3, r32
CP r4, r33
CP r5, r34
ECA
LD r31, r254, 0a, 40h
ADDI64 r254, r254, 40d
JALA r0, r31, 0a
main:
ADDI64 r254, r254, -48d
ST r31, r254, 24a, 24h
ADDI64 r1, r254, 0d
JAL r31, r0, :new
ADDI64 r32, r254, 0d
CP r2, r32
LI64 r3, 69d
JAL r31, r0, :push
CP r32, r1
LD r32, r254, 0a, 8h
LD r33, r32, 0a, 8h
ADDI64 r32, r254, 0d
CP r2, r32
JAL r31, r0, :deinit
CP r1, r33
LD r31, r254, 24a, 24h
ADDI64 r254, r254, 48d
JALA r0, r31, 0a
malloc:
ADDI64 r254, r254, -32d
ST r31, r254, 0a, 32h
CP r32, r2
CP r33, r3
LRA r34, r0, :MALLOC_SYS_CALL
LD r2, r34, 0a, 8h
CP r3, r32
CP r4, r33
ECA
LD r31, r254, 0a, 32h
ADDI64 r254, r254, 32d
JALA r0, r31, 0a
new:
ADDI64 r254, r254, -24d
ST r31, r254, 0a, 24h
CP r32, r1
LI64 r33, 0d
ST r33, r32, 0a, 8h
LI64 r33, 0d
ST r33, r32, 8a, 8h
LI64 r33, 0d
ST r33, r32, 16a, 8h
LD r31, r254, 0a, 24h
ADDI64 r254, r254, 24d
JALA r0, r31, 0a
push:
ADDI64 r254, r254, -72d
ST r31, r254, 0a, 72h
CP r32, r2
CP r33, r3
LD r34, r32, 8a, 8h
LD r35, r32, 16a, 8h
JNE r34, r35, :0
LD r35, r32, 16a, 8h
LI64 r34, 0d
JNE r35, r34, :1
LI64 r34, 1d
ST r34, r32, 16a, 8h
JMP :2
1: LD r34, r32, 16a, 8h
MULI64 r34, r34, 2d
ST r34, r32, 16a, 8h
2: LD r34, r32, 16a, 8h
MULI64 r34, r34, 8d
CP r2, r34
LI64 r3, 8d
JAL r31, r0, :malloc
CP r34, r1
LI64 r35, 0d
JNE r34, r35, :3
LI64 r1, 0d
JMP :4
3: LD r35, r32, 0a, 8h
CP r36, r34
LD r37, r32, 0a, 8h
LD r38, r32, 8a, 8h
MULI64 r38, r38, 8d
ADD64 r37, r37, r38
7: JNE r35, r37, :5
JMP :6
5: CP r38, r36
CP r39, r35
BMC r39, r38, 8h
ADDI64 r35, r35, 8d
ADDI64 r36, r36, 8d
JMP :7
6: LD r38, r32, 8a, 8h
LI64 r39, 0d
JEQ r38, r39, :8
LD r2, r32, 0a, 8h
LD r39, r32, 8a, 8h
MULI64 r39, r39, 8d
CP r3, r39
LI64 r4, 8d
JAL r31, r0, :free
8: ST r34, r32, 0a, 8h
0: LD r34, r32, 0a, 8h
LD r39, r32, 8a, 8h
MULI64 r39, r39, 8d
ADD64 r34, r34, r39
CP r39, r34
ST r33, r39, 0a, 8h
LD r39, r32, 8a, 8h
ADDI64 r39, r39, 1d
ST r39, r32, 8a, 8h
CP r1, r34
4: LD r31, r254, 0a, 72h
ADDI64 r254, r254, 72d
JALA r0, r31, 0a
code size: 1201
ret: 69
status: Ok(())

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@ -1,16 +0,0 @@
main:
ADDI64 r254, r254, -32d
ST r31, r254, 0a, 32h
LRA r32, r0, :complex_global_var
LRA r33, r0, :complex_global_var
LD r34, r33, 0a, 8h
ADDI64 r34, r34, 5d
ST r34, r32, 0a, 8h
LRA r32, r0, :complex_global_var
LD r1, r32, 0a, 8h
LD r31, r254, 0a, 32h
ADDI64 r254, r254, 32d
JALA r0, r31, 0a
code size: 146
ret: 55
status: Ok(())

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@ -1,28 +0,0 @@
main:
ADDI64 r254, r254, -40d
ST r31, r254, 0a, 40h
LI64 r32, 255d
LI64 r33, 255d
LI64 r34, 255d
LI64 r35, 255d
CMPS r32, r32, r33
CMPUI r32, r32, 0d
NOT r32, r32
CMPS r34, r34, r33
CMPUI r34, r34, 0d
NOT r34, r34
AND r32, r32, r34
CMPS r35, r35, r33
CMPUI r35, r35, 0d
NOT r35, r35
AND r32, r32, r35
JEQ r32, r0, :0
LI64 r1, 0d
JMP :1
0: LI64 r1, 1d
1: LD r31, r254, 0a, 40h
ADDI64 r254, r254, 40d
JALA r0, r31, 0a
code size: 199
ret: 0
status: Ok(())

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@ -1,25 +0,0 @@
main:
ADDI64 r254, r254, -160d
ST r31, r254, 128a, 32h
LI64 r32, 0d
2: LI64 r33, 128d
JLTS r32, r33, :0
JMP :1
0: ADDI64 r33, r254, 0d
CP r34, r32
ADD64 r33, r33, r34
LI64 r34, 69d
ST r34, r33, 0a, 1h
ADDI64 r32, r32, 1d
JMP :2
1: ADDI64 r33, r254, 0d
LI64 r34, 42d
ADD64 r33, r33, r34
CP r1, r0
LD r1, r33, 0a, 1h
LD r31, r254, 128a, 32h
ADDI64 r254, r254, 160d
JALA r0, r31, 0a
code size: 195
ret: 69
status: Ok(())

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@ -1,32 +0,0 @@
fib:
ADDI64 r254, r254, -24d
ST r31, r254, 0a, 24h
CP r32, r2
LI64 r33, 2d
JGTS r32, r33, :0
LI64 r1, 1d
JMP :1
0: CP r33, r32
ADDI64 r33, r33, -1d
CP r2, r33
JAL r31, r0, :fib
CP r33, r1
ADDI64 r32, r32, -2d
CP r2, r32
JAL r31, r0, :fib
CP r32, r1
ADD64 r1, r33, r32
1: LD r31, r254, 0a, 24h
ADDI64 r254, r254, 24d
JALA r0, r31, 0a
main:
ADDI64 r254, r254, -8d
ST r31, r254, 0a, 8h
LI64 r2, 10d
JAL r31, r0, :fib
LD r31, r254, 0a, 8h
ADDI64 r254, r254, 8d
JALA r0, r31, 0a
code size: 231
ret: 55
status: Ok(())

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@ -1,13 +0,0 @@
main:
ADDI64 r254, r254, -24d
ST r31, r254, 0a, 24h
LI64 r33, 1d
ADDI64 r33, r33, 2d
ADDI64 r32, r33, 3d
ADDI64 r1, r32, -6d
LD r31, r254, 0a, 24h
ADDI64 r254, r254, 24d
JALA r0, r31, 0a
code size: 110
ret: 0
status: Ok(())

View file

@ -1,161 +0,0 @@
example:
ADDI64 r254, r254, -48d
ST r31, r254, 0a, 48h
LI64 r2, 3d
LI64 r3, 4d
ECA
CP r33, r1
LI64 r34, 0d
LI64 r35, 0d
CMPS r34, r34, r35
CMPUI r34, r34, 0d
LI64 r35, 1024d
LI64 r36, 0d
CMPS r35, r35, r36
CMPUI r35, r35, 0d
OR r34, r34, r35
JEQ r34, r0, :0
CP r34, r33
LI64 r35, 1024d
ADDI64 r35, r35, 0d
ADDI64 r35, r35, 1d
DIRS64 r0, r34, r34, r35
ADDI64 r32, r34, 0d
JMP :1
0: CP r32, r33
1: LI64 r2, 0d
LI64 r3, 768d
JAL r31, r0, :integer
CP r33, r1
CP r34, r32
JMP :2
2: LD r31, r254, 0a, 48h
ADDI64 r254, r254, 48d
JALA r0, r31, 0a
integer:
ADDI64 r254, r254, -56d
ST r31, r254, 0a, 56h
CP r32, r2
CP r33, r3
LI64 r2, 3d
LI64 r3, 4d
ECA
CP r34, r1
CP r35, r32
LI64 r36, 0d
CMPS r35, r35, r36
CMPUI r35, r35, 0d
CP r36, r33
LI64 r37, 0d
CMPS r36, r36, r37
CMPUI r36, r36, 0d
OR r35, r35, r36
JEQ r35, r0, :0
CP r35, r34
SUB64 r33, r33, r32
ADDI64 r33, r33, 1d
DIRS64 r0, r35, r35, r33
ADD64 r1, r35, r32
JMP :1
0: CP r1, r34
1: LD r31, r254, 0a, 56h
ADDI64 r254, r254, 56d
JALA r0, r31, 0a
line:
ADDI64 r254, r254, -80d
ST r31, r254, 48a, 32h
ST r2, r254, 16a, 16h
ST r4, r254, 0a, 16h
ST r6, r254, 32a, 16h
CP r32, r8
LI64 r33, 1d
JEQ r33, r0, :0
LD r33, r254, 16a, 8h
LD r34, r254, 0a, 8h
JGTS r33, r34, :1
JMP :1
1: JMP :2
0: LD r34, r254, 24a, 8h
LD r33, r254, 8a, 8h
JGTS r34, r33, :2
JMP :2
2: LD r31, r254, 48a, 32h
ADDI64 r254, r254, 80d
JALA r0, r31, 0a
main:
ADDI64 r254, r254, -64d
ST r31, r254, 48a, 16h
LI64 r32, 0d
ST r32, r254, 0a, 8h
LI64 r32, 0d
ST r32, r254, 8a, 8h
LD r2, r254, 0a, 16h
LI64 r32, 0d
ST r32, r254, 16a, 8h
LI64 r32, 0d
ST r32, r254, 24a, 8h
LD r4, r254, 16a, 16h
LI64 r32, 0d
ST r32, r254, 32a, 8h
LI64 r32, 0d
ST r32, r254, 40a, 8h
LD r6, r254, 32a, 16h
LI64 r8, 10d
JAL r31, r0, :line
LI64 r32, 0d
ST r32, r254, 0a, 8h
LI64 r32, 0d
ST r32, r254, 8a, 8h
LD r2, r254, 0a, 16h
LI64 r32, 0d
ST r32, r254, 16a, 8h
LI64 r32, 0d
ST r32, r254, 24a, 8h
LD r4, r254, 16a, 16h
LI64 r32, 0d
ST r32, r254, 32a, 8h
LI64 r32, 0d
ST r32, r254, 40a, 8h
LD r6, r254, 32a, 16h
LI64 r8, 10d
JAL r31, r0, :rect_line
JAL r31, r0, :example
LI64 r1, 0d
LD r31, r254, 48a, 16h
ADDI64 r254, r254, 64d
JALA r0, r31, 0a
rect_line:
ADDI64 r254, r254, -112d
ST r31, r254, 48a, 64h
ST r2, r254, 0a, 16h
ST r4, r254, 16a, 16h
ST r6, r254, 32a, 16h
CP r32, r8
LI64 r33, 0d
LI64 r34, 0d
LI64 r35, 0d
5: JNE r33, r32, :0
JMP :1
0: LD r34, r254, 8a, 8h
LD r35, r254, 0a, 8h
4: LD r36, r254, 8a, 8h
LD r37, r254, 16a, 8h
ADD64 r36, r36, r37
JNE r34, r36, :2
JMP :3
2: LI64 r36, 1d
LI64 r37, 10d
ADD64 r36, r36, r37
LI64 r37, 1d
LI64 r38, 2d
ADD64 r36, r37, r38
ADDI64 r34, r34, 1d
JMP :4
3: ADDI64 r33, r33, 1d
JMP :5
1: LD r31, r254, 48a, 64h
ADDI64 r254, r254, 112d
JALA r0, r31, 0a
code size: 1400
ret: 0
status: Ok(())

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@ -1,30 +0,0 @@
fib:
ADDI64 r254, r254, -40d
ST r31, r254, 0a, 40h
CP r32, r2
LI64 r33, 0d
LI64 r34, 1d
2: LI64 r35, 0d
JNE r32, r35, :0
JMP :1
0: CP r35, r33
ADD64 r35, r35, r34
CP r33, r34
CP r34, r35
ADDI64 r32, r32, -1d
JMP :2
1: CP r1, r33
LD r31, r254, 0a, 40h
ADDI64 r254, r254, 40d
JALA r0, r31, 0a
main:
ADDI64 r254, r254, -8d
ST r31, r254, 0a, 8h
LI64 r2, 10d
JAL r31, r0, :fib
LD r31, r254, 0a, 8h
ADDI64 r254, r254, 8d
JALA r0, r31, 0a
code size: 218
ret: 55
status: Ok(())

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@ -1,35 +0,0 @@
drop:
ADDI64 r254, r254, -16d
ST r31, r254, 0a, 16h
CP r32, r2
LD r31, r254, 0a, 16h
ADDI64 r254, r254, 16d
JALA r0, r31, 0a
main:
ADDI64 r254, r254, -40d
ST r31, r254, 8a, 32h
LI64 r32, 1d
ST r32, r254, 0a, 8h
ADDI64 r32, r254, 0d
CP r2, r32
JAL r31, r0, :modify
LD r2, r254, 0a, 8h
JAL r31, r0, :drop
LI64 r33, 0d
LD r34, r32, 0a, 8h
ADDI64 r1, r34, -2d
LD r31, r254, 8a, 32h
ADDI64 r254, r254, 40d
JALA r0, r31, 0a
modify:
ADDI64 r254, r254, -24d
ST r31, r254, 0a, 24h
CP r32, r2
LI64 r33, 2d
ST r33, r32, 0a, 8h
LD r31, r254, 0a, 24h
ADDI64 r254, r254, 24d
JALA r0, r31, 0a
code size: 312
ret: 0
status: Ok(())

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@ -1,59 +0,0 @@
create_back_buffer:
ADDI64 r254, r254, -32d
ST r31, r254, 0a, 32h
CP r32, r2
LI64 r33, 255d
JGTS r32, r33, :0
CP r2, r32
JAL r31, r0, :request_page
JMP :1
0: LI64 r2, 255d
JAL r31, r0, :request_page
CP r33, r1
ADDI64 r32, r32, -255d
6: LI64 r34, 0d
JGTS r32, r34, :2
JMP :3
2: LI64 r34, 255d
JLTS r32, r34, :4
LI64 r2, 255d
JAL r31, r0, :request_page
CP r34, r1
JMP :5
4: CP r2, r32
JAL r31, r0, :request_page
CP r34, r1
5: ADDI64 r32, r32, -255d
JMP :6
3: CP r1, r33
1: LD r31, r254, 0a, 32h
ADDI64 r254, r254, 32d
JALA r0, r31, 0a
main:
ADDI64 r254, r254, -16d
ST r31, r254, 0a, 16h
LI64 r2, 400d
JAL r31, r0, :create_back_buffer
CP r32, r1
LD r31, r254, 0a, 16h
ADDI64 r254, r254, 16d
JALA r0, r31, 0a
request_page:
ADDI64 r254, r254, -32d
ST r31, r254, 0a, 32h
CP r32, r2
LRA r33, r0, :"\0\u{1}xxxxxxxx\0"
CP r34, r33
ADDI64 r34, r34, 1d
ST r32, r34, 0a, 1h
LI64 r2, 3d
LI64 r3, 2d
CP r4, r33
LI64 r5, 12d
ECA
LD r31, r254, 0a, 32h
ADDI64 r254, r254, 32d
JALA r0, r31, 0a
code size: 443
ret: 42
status: Ok(())

View file

@ -1,16 +0,0 @@
main:
ADDI64 r254, r254, -8d
ST r31, r254, 0a, 8h
JAL r31, r0, :some_func
LD r31, r254, 0a, 8h
ADDI64 r254, r254, 8d
JALA r0, r31, 0a
some_func:
ADDI64 r254, r254, -8d
ST r31, r254, 0a, 8h
LD r31, r254, 0a, 8h
ADDI64 r254, r254, 8d
JALA r0, r31, 0a
code size: 133
ret: 0
status: Ok(())

View file

@ -1,11 +0,0 @@
main:
ADDI64 r254, r254, -16d
ST r31, r254, 0a, 16h
LI64 r32, 1610612737d
LI64 r1, 0d
LD r31, r254, 0a, 16h
ADDI64 r254, r254, 16d
JALA r0, r31, 0a
code size: 87
ret: 0
status: Ok(())

View file

@ -1,75 +0,0 @@
main:
ADDI64 r254, r254, -136d
ST r31, r254, 112a, 24h
LI64 r32, 1d
ST r32, r254, 32a, 8h
LI64 r32, 2d
ST r32, r254, 40a, 8h
LI64 r32, 3d
ST r32, r254, 16a, 8h
LI64 r32, 4d
ST r32, r254, 24a, 8h
LD r32, r254, 32a, 8h
LD r33, r254, 16a, 8h
ADD64 r32, r32, r33
ST r32, r254, 48a, 8h
LD r32, r254, 40a, 8h
LD r33, r254, 24a, 8h
ADD64 r32, r32, r33
ST r32, r254, 56a, 8h
LD r32, r254, 16a, 8h
LD r33, r254, 32a, 8h
SUB64 r32, r32, r33
ST r32, r254, 64a, 8h
LD r32, r254, 24a, 8h
LD r33, r254, 40a, 8h
SUB64 r32, r32, r33
ST r32, r254, 72a, 8h
LI64 r32, 0d
ST r32, r254, 0a, 8h
LI64 r32, 0d
ST r32, r254, 8a, 8h
LD r32, r254, 0a, 8h
LD r33, r254, 16a, 8h
SUB64 r32, r32, r33
ST r32, r254, 80a, 8h
LD r32, r254, 8a, 8h
LD r33, r254, 24a, 8h
SUB64 r32, r32, r33
ST r32, r254, 88a, 8h
ADDI64 r32, r254, 32d
ADDI64 r33, r254, 96d
BMC r32, r33, 16h
LD r33, r254, 80a, 8h
LD r32, r254, 48a, 8h
ADD64 r33, r33, r32
ST r33, r254, 80a, 8h
LD r33, r254, 88a, 8h
LD r32, r254, 56a, 8h
ADD64 r33, r33, r32
ST r33, r254, 88a, 8h
LD r33, r254, 96a, 8h
LD r32, r254, 64a, 8h
ADD64 r33, r33, r32
ST r33, r254, 96a, 8h
LD r33, r254, 104a, 8h
LD r32, r254, 72a, 8h
ADD64 r33, r33, r32
ST r33, r254, 104a, 8h
LD r33, r254, 80a, 8h
LD r32, r254, 96a, 8h
ADD64 r33, r33, r32
ST r33, r254, 96a, 8h
LD r33, r254, 88a, 8h
LD r32, r254, 104a, 8h
ADD64 r33, r33, r32
ST r33, r254, 104a, 8h
LD r33, r254, 96a, 8h
LD r32, r254, 104a, 8h
ADD64 r1, r33, r32
LD r31, r254, 112a, 24h
ADDI64 r254, r254, 136d
JALA r0, r31, 0a
code size: 778
ret: 10
status: Ok(())

View file

@ -1,65 +0,0 @@
fib:
ADDI64 r254, r254, -32d
ST r31, r254, 0a, 32h
CP r32, r2
LI64 r33, 2d
JLTS r32, r33, :0
CP r33, r32
ADDI64 r33, r33, -1d
CP r2, r33
JAL r31, r0, :fib
CP r33, r1
CP r34, r32
ADDI64 r34, r34, -2d
CP r2, r34
JAL r31, r0, :fib
CP r34, r1
ADD64 r1, r33, r34
JMP :1
0: CP r1, r32
1: LD r31, r254, 0a, 32h
ADDI64 r254, r254, 32d
JALA r0, r31, 0a
fib_iter:
ADDI64 r254, r254, -40d
ST r31, r254, 0a, 40h
CP r32, r2
LI64 r33, 0d
LI64 r34, 1d
2: LI64 r35, 0d
JNE r32, r35, :0
JMP :1
0: CP r35, r33
ADD64 r35, r35, r34
CP r33, r34
CP r34, r35
ADDI64 r32, r32, -1d
JMP :2
1: CP r1, r33
LD r31, r254, 0a, 40h
ADDI64 r254, r254, 40d
JALA r0, r31, 0a
main:
ADDI64 r254, r254, -26d
ST r31, r254, 2a, 24h
LI64 r32, 10d
ST r32, r254, 0a, 1h
LI64 r32, 10d
ST r32, r254, 1a, 1h
CP r32, r0
LD r32, r254, 0a, 1h
CP r33, r0
LD r33, r254, 1a, 1h
CP r2, r32
JAL r31, r0, :fib
CP r32, r1
CP r2, r33
JAL r31, r0, :fib_iter
CP r33, r1
SUB64 r1, r32, r33
LD r31, r254, 2a, 24h
ADDI64 r254, r254, 26d
JALA r0, r31, 0a
code size: 452
ret: 0
status: Ok(())

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@ -1,39 +0,0 @@
foo:
ADDI64 r254, r254, -32d
ST r31, r254, 16a, 16h
LI64 r32, 3d
ST r32, r254, 0a, 8h
LI64 r32, 2d
ST r32, r254, 8a, 4h
LI64 r32, 2d
ST r32, r254, 12a, 4h
LD r1, r254, 0a, 16h
LD r31, r254, 16a, 16h
ADDI64 r254, r254, 32d
JALA r0, r31, 0a
main:
ADDI64 r254, r254, -40d
ST r31, r254, 16a, 24h
LI64 r32, 7d
JAL r31, r0, :foo
ST r1, r254, 0a, 16h
LD r33, r254, 0a, 8h
SUB64 r32, r32, r33
JAL r31, r0, :foo
ST r1, r254, 0a, 16h
CP r33, r0
LD r33, r254, 8a, 4h
SXT32 r33, r33
SUB64 r32, r32, r33
JAL r31, r0, :foo
ST r1, r254, 0a, 16h
CP r33, r0
LD r33, r254, 12a, 4h
SXT32 r33, r33
SUB64 r1, r32, r33
LD r31, r254, 16a, 24h
ADDI64 r254, r254, 40d
JALA r0, r31, 0a
code size: 341
ret: 0
status: Ok(())

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@ -1,46 +0,0 @@
main:
ADDI64 r254, r254, -48d
ST r31, r254, 24a, 24h
LI64 r32, 4d
ST r32, r254, 0a, 8h
LI64 r32, 1d
ST r32, r254, 8a, 8h
LI64 r32, 3d
ST r32, r254, 16a, 8h
ADDI64 r2, r254, 0d
ADDI64 r1, r254, 0d
JAL r31, r0, :odher_pass
LD r32, r254, 16a, 8h
LI64 r33, 3d
JNE r32, r33, :0
ADDI64 r33, r254, 0d
CP r2, r33
JAL r31, r0, :pass
JMP :1
0: LI64 r1, 0d
1: LD r31, r254, 24a, 24h
ADDI64 r254, r254, 48d
JALA r0, r31, 0a
odher_pass:
ADDI64 r254, r254, -32d
ST r31, r254, 0a, 32h
CP r32, r2
CP r33, r1
CP r34, r33
BMC r32, r34, 24h
LD r31, r254, 0a, 32h
ADDI64 r254, r254, 32d
JALA r0, r31, 0a
pass:
ADDI64 r254, r254, -32d
ST r31, r254, 0a, 32h
CP r32, r2
LD r33, r32, 0a, 8h
LD r34, r32, 8a, 8h
SUB64 r1, r33, r34
LD r31, r254, 0a, 32h
ADDI64 r254, r254, 32d
JALA r0, r31, 0a
code size: 394
ret: 3
status: Ok(())

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@ -1,38 +0,0 @@
main:
ADDI64 r254, r254, -10272d
ST r31, r254, 10240a, 32h
LI64 r32, 0d
2: LI64 r33, 1024d
JLTS r32, r33, :0
JMP :1
0: ADDI64 r33, r254, 0d
CP r34, r32
ADD64 r33, r33, r34
LI64 r34, 64d
ST r34, r33, 0a, 1h
ADDI64 r32, r32, 1d
JMP :2
1: LI64 r32, 1d
5: LI64 r33, 10d
JLTS r32, r33, :3
JMP :4
3: ADDI64 r33, r254, 0d
CP r34, r32
MULI64 r34, r34, 1024d
ADD64 r33, r33, r34
ADDI64 r34, r254, 0d
BMC r34, r33, 1024h
ADDI64 r32, r32, 1d
JMP :5
4: LI64 r33, 1024d
MULI64 r33, r33, 2d
ADDI64 r34, r254, 0d
ADD64 r34, r34, r33
CP r1, r0
LD r1, r34, 0a, 1h
LD r31, r254, 10240a, 32h
ADDI64 r254, r254, 10272d
JALA r0, r31, 0a
code size: 297
ret: 64
status: Ok(())

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@ -1,13 +0,0 @@
main:
ADDI64 r254, r254, -24d
ST r31, r254, 0a, 24h
LI64 r32, 1d
LI64 r33, 2d
ADDI64 r32, r32, 1d
SUB64 r1, r32, r33
LD r31, r254, 0a, 24h
ADDI64 r254, r254, 24d
JALA r0, r31, 0a
code size: 102
ret: 0
status: Ok(())

View file

@ -1,45 +0,0 @@
main:
ADDI64 r254, r254, -48d
ST r31, r254, 16a, 32h
CP r32, r3
CP r33, r4
JAL r31, r0, :small_struct
CP r34, r1
LI64 r34, 0d
ST r34, r254, 8a, 1h
LI64 r34, 0d
ST r34, r254, 9a, 1h
LI64 r34, 0d
ST r34, r254, 10a, 1h
LI64 r34, 0d
ST r34, r254, 11a, 1h
LI64 r34, 0d
ST r34, r254, 12a, 1h
LI64 r34, 0d
ST r34, r254, 13a, 1h
LI64 r34, 0d
ST r34, r254, 14a, 1h
LI64 r34, 0d
ST r34, r254, 15a, 1h
LD r34, r254, 8a, 8h
ST r34, r254, 0a, 8h
ST r34, r254, 8a, 8h
LD r1, r254, 0a, 16h
LD r31, r254, 16a, 32h
ADDI64 r254, r254, 48d
JALA r0, r31, 0a
small_struct:
ADDI64 r254, r254, -20d
ST r31, r254, 4a, 16h
LI64 r32, 0d
ST r32, r254, 0a, 2h
LI64 r32, 0d
ST r32, r254, 2a, 2h
CP r1, r0
LD r1, r254, 0a, 4h
LD r31, r254, 4a, 16h
ADDI64 r254, r254, 20d
JALA r0, r31, 0a
code size: 440
ret: 0
status: Ok(())

View file

@ -1,25 +0,0 @@
inl:
ADDI64 r254, r254, -16d
ST r31, r254, 0a, 16h
LRA r32, r0, :"luhahah\0"
LD r31, r254, 0a, 16h
ADDI64 r254, r254, 16d
JALA r0, r31, 0a
main:
ADDI64 r254, r254, -8d
ST r31, r254, 0a, 8h
JAL r31, r0, :outl
JAL r31, r0, :inl
LD r31, r254, 0a, 8h
ADDI64 r254, r254, 8d
JALA r0, r31, 0a
outl:
ADDI64 r254, r254, -16d
ST r31, r254, 0a, 16h
LRA r32, r0, :"whahaha\0"
LD r31, r254, 0a, 16h
ADDI64 r254, r254, 16d
JALA r0, r31, 0a
code size: 229
ret: 0
status: Ok(())

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@ -1,17 +0,0 @@
main:
ADDI64 r254, r254, -16d
ST r31, r254, 0a, 16h
LI64 r1, 1d
JNE r2, r1, :0
JMP :1
0: LI64 r32, 0d
JNE r2, r32, :2
LI64 r1, 2d
JMP :1
2: LI64 r1, 3d
1: LD r31, r254, 0a, 16h
ADDI64 r254, r254, 16d
JALA r0, r31, 0a
code size: 127
ret: 2
status: Ok(())

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@ -1,18 +0,0 @@
main:
ADDI64 r254, r254, -16d
ST r31, r254, 0a, 16h
JAL r31, r0, :foo
CP r32, r1
LI64 r1, 0d
LD r31, r254, 0a, 16h
ADDI64 r254, r254, 16d
JALA r0, r31, 0a
foo:
ADDI64 r254, r254, -8d
ST r31, r254, 0a, 8h
LD r31, r254, 0a, 8h
ADDI64 r254, r254, 8d
JALA r0, r31, 0a
code size: 146
ret: 0
status: Ok(())

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@ -1,10 +0,0 @@
main:
ADDI64 r254, r254, -8d
ST r31, r254, 0a, 8h
LI64 r1, 0d
LD r31, r254, 0a, 8h
ADDI64 r254, r254, 8d
JALA r0, r31, 0a
code size: 77
ret: 0
status: Ok(())

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@ -1,103 +0,0 @@
main:
ADDI64 r254, r254, -88d
ST r31, r254, 0a, 88h
LI64 r32, 0d
CP r2, r32
JAL r31, r0, :multiple_breaks
CP r33, r1
LI64 r34, 3d
JEQ r33, r34, :0
LI64 r1, 1d
JMP :1
0: LI64 r35, 4d
CP r2, r35
JAL r31, r0, :multiple_breaks
CP r36, r1
LI64 r37, 10d
JEQ r36, r37, :2
LI64 r1, 2d
JMP :1
2: CP r2, r32
JAL r31, r0, :state_change_in_break
CP r38, r1
JEQ r38, r32, :3
CP r1, r34
JMP :1
3: CP r2, r35
JAL r31, r0, :state_change_in_break
CP r39, r1
JEQ r39, r37, :4
CP r1, r35
JMP :1
4: CP r2, r37
JAL r31, r0, :continue_and_state_change
CP r40, r1
JEQ r40, r37, :5
LI64 r1, 5d
JMP :1
5: CP r2, r34
JAL r31, r0, :continue_and_state_change
CP r41, r1
JEQ r41, r32, :6
LI64 r1, 6d
JMP :1
6: CP r1, r32
1: LD r31, r254, 0a, 88h
ADDI64 r254, r254, 88d
JALA r0, r31, 0a
continue_and_state_change:
ADDI64 r254, r254, -40d
ST r31, r254, 0a, 40h
CP r1, r2
LI64 r32, 3d
LI64 r33, 4d
LI64 r34, 2d
LI64 r35, 10d
6: JLTU r1, r35, :0
JMP :1
0: JNE r1, r34, :2
CP r1, r33
JMP :3
2: JNE r1, r32, :4
LI64 r1, 0d
1: JMP :5
4: ADDI64 r33, r1, 1d
CP r1, r33
3: JMP :6
5: LD r31, r254, 0a, 40h
ADDI64 r254, r254, 40d
JALA r0, r31, 0a
state_change_in_break:
ADDI64 r254, r254, -24d
ST r31, r254, 0a, 24h
CP r1, r2
LI64 r32, 3d
LI64 r33, 10d
4: JLTU r1, r33, :0
JMP :1
0: JNE r1, r32, :2
LI64 r1, 0d
1: JMP :3
2: ADDI64 r1, r1, 1d
JMP :4
3: LD r31, r254, 0a, 24h
ADDI64 r254, r254, 24d
JALA r0, r31, 0a
multiple_breaks:
ADDI64 r254, r254, -24d
ST r31, r254, 0a, 24h
CP r1, r2
LI64 r32, 3d
LI64 r33, 10d
4: JLTU r1, r33, :0
JMP :1
0: ADDI64 r1, r1, 1d
JNE r1, r32, :2
1: JMP :3
2: JMP :4
3: LD r31, r254, 0a, 24h
ADDI64 r254, r254, 24d
JALA r0, r31, 0a
code size: 704
ret: 0
status: Ok(())

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@ -1,60 +0,0 @@
main:
ADDI64 r254, r254, -88d
ST r31, r254, 0a, 88h
JAL r31, r0, :check_platform
CP r32, r1
LI64 r33, 0d
LI64 r34, 30d
LI64 r35, 100d
CP r36, r33
CP r37, r33
CP r38, r33
5: JLTU r37, r34, :0
ADDI64 r36, r36, 1d
CP r2, r33
CP r3, r36
CP r4, r34
JAL r31, r0, :set_pixel
CP r39, r1
JEQ r39, r38, :1
CP r1, r33
JMP :2
1: JNE r36, r35, :3
CP r1, r38
JMP :2
3: CP r37, r33
CP r40, r38
JMP :4
0: ADDI64 r40, r38, 1d
ADDI64 r41, r37, 1d
CP r37, r41
4: CP r38, r40
JMP :5
2: LD r31, r254, 0a, 88h
ADDI64 r254, r254, 88d
JALA r0, r31, 0a
set_pixel:
ADDI64 r254, r254, -16d
ST r31, r254, 0a, 16h
MUL64 r32, r4, r3
ADD64 r1, r32, r2
LD r31, r254, 0a, 16h
ADDI64 r254, r254, 16d
JALA r0, r31, 0a
check_platform:
ADDI64 r254, r254, -8d
ST r31, r254, 0a, 8h
JAL r31, r0, :x86_fb_ptr
LD r31, r254, 0a, 8h
ADDI64 r254, r254, 8d
JALA r0, r31, 0a
x86_fb_ptr:
ADDI64 r254, r254, -8d
ST r31, r254, 0a, 8h
LI64 r1, 100d
LD r31, r254, 0a, 8h
ADDI64 r254, r254, 8d
JALA r0, r31, 0a
code size: 423
ret: 3000
status: Ok(())

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@ -1,30 +0,0 @@
main:
ADDI64 r254, r254, -24d
ST r31, r254, 0a, 24h
LI64 r2, 10d
JAL r31, r0, :add_one
CP r32, r1
LI64 r2, 20d
JAL r31, r0, :add_two
CP r33, r1
ADD64 r1, r33, r32
LD r31, r254, 0a, 24h
ADDI64 r254, r254, 24d
JALA r0, r31, 0a
add_two:
ADDI64 r254, r254, -8d
ST r31, r254, 0a, 8h
ADDI64 r1, r2, 2d
LD r31, r254, 0a, 8h
ADDI64 r254, r254, 8d
JALA r0, r31, 0a
add_one:
ADDI64 r254, r254, -8d
ST r31, r254, 0a, 8h
ADDI64 r1, r2, 1d
LD r31, r254, 0a, 8h
ADDI64 r254, r254, 8d
JALA r0, r31, 0a
code size: 251
ret: 33
status: Ok(())

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@ -1,28 +0,0 @@
main:
ADDI64 r254, r254, -8d
ST r31, r254, 0a, 8h
LI64 r2, 10d
JAL r31, r0, :fib
LD r31, r254, 0a, 8h
ADDI64 r254, r254, 8d
JALA r0, r31, 0a
fib:
ADDI64 r254, r254, -40d
ST r31, r254, 0a, 40h
LI64 r32, 1d
LI64 r33, 0d
CP r1, r33
CP r34, r32
2: JNE r2, r33, :0
JMP :1
0: ADD64 r35, r34, r1
SUB64 r2, r2, r32
CP r1, r34
CP r34, r35
JMP :2
1: LD r31, r254, 0a, 40h
ADDI64 r254, r254, 40d
JALA r0, r31, 0a
code size: 198
ret: 55
status: Ok(())

View file

@ -1,11 +0,0 @@
foo := 0;
.{global, fib, Structa, create_window, WindowID} := @use("pkg.hb")
main := fn(a: int): int {
g := global
win := create_window()
return fib(g + Structa.(0, 0).foo)
}

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@ -1,19 +0,0 @@
global := 10
Structa := struct {
foo: int,
goo: int,
}
create_window := fn(): WindowID {
return WindowID.(1, 2)
}
WindowID := struct {
host_id: int,
window_id: int,
}
fib := fn(n: int): int {
return n + 1
}

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28
lang/Cargo.toml Normal file
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[package]
name = "hblang"
version = "0.1.0"
edition = "2021"
[[bin]]
name = "hbc"
path = "src/main.rs"
[[bin]]
name = "fuzz"
path = "src/fuzz_main.rs"
[dependencies]
hashbrown = { version = "0.15.0", default-features = false, features = ["raw-entry", "allocator-api2"] }
hbbytecode = { workspace = true, features = ["disasm"] }
hbvm = { workspace = true, features = ["nightly"] }
log = "0.4.22"
[dependencies.regalloc2]
git = "https://github.com/jakubDoka/regalloc2"
branch = "reuse-allocations"
default-features = false
[features]
default = ["std", "regalloc2/trace-log"]
std = []
no_log = ["log/max_level_off"]

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4
lang/command-help.txt Normal file
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@ -0,0 +1,4 @@
--fmt - format all imported source files
--fmt-stdout - dont write the formatted file but print it
--dump-asm - output assembly instead of raw code, (the assembly is more for debugging the compiler)
--threads <1...> - number of extra threads compiler can use [default: 0]

535
lang/src/fmt.rs Normal file
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@ -0,0 +1,535 @@
use {
crate::{
lexer::{self, Lexer, TokenKind},
parser::{self, CommentOr, CtorField, Expr, Poser, Radix, StructField},
},
core::fmt::{self},
};
pub fn display_radix(radix: Radix, mut value: u64, buf: &mut [u8; 64]) -> &str {
fn conv_radix(d: u8) -> u8 {
match d {
0..=9 => d + b'0',
_ => d - 10 + b'A',
}
}
for (i, b) in buf.iter_mut().enumerate().rev() {
let d = (value % radix as u64) as u8;
value /= radix as u64;
*b = conv_radix(d);
if value == 0 {
return unsafe { core::str::from_utf8_unchecked(&buf[i..]) };
}
}
unreachable!()
}
pub fn minify(source: &mut str) -> usize {
fn needs_space(c: u8) -> bool {
matches!(c, b'a'..=b'z' | b'A'..=b'Z' | b'0'..=b'9' | 127..)
}
let mut writer = source.as_mut_ptr();
let mut reader = &source[..];
let mut prev_needs_whitecpace = false;
let mut prev_needs_newline = false;
loop {
let mut token = lexer::Lexer::new(reader).eat();
match token.kind {
TokenKind::Eof => break,
TokenKind::CtIdent | TokenKind::Directive => token.start -= 1,
_ => {}
}
let cpy_len = token.range().len();
let mut prefix = 0;
if prev_needs_whitecpace && needs_space(reader.as_bytes()[token.start as usize]) {
prefix = b' ';
debug_assert!(token.start != 0, "{reader}");
}
prev_needs_whitecpace = needs_space(reader.as_bytes()[token.end as usize - 1]);
let inbetween_new_lines =
reader[..token.start as usize].bytes().filter(|&b| b == b'\n').count()
+ token.kind.precedence().is_some() as usize;
let extra_prefix_new_lines = if inbetween_new_lines > 1 {
1 + token.kind.precedence().is_none() as usize
} else {
prev_needs_newline as usize
};
if token.kind == TokenKind::Comment && reader.as_bytes()[token.end as usize - 1] != b'/' {
prev_needs_newline = true;
prev_needs_whitecpace = false;
} else {
prev_needs_newline = false;
}
let sstr = reader[token.start as usize..].as_ptr();
reader = &reader[token.end as usize..];
unsafe {
if extra_prefix_new_lines != 0 {
for _ in 0..extra_prefix_new_lines {
writer.write(b'\n');
writer = writer.add(1);
}
} else if prefix != 0 {
writer.write(prefix);
writer = writer.add(1);
}
writer.copy_from(sstr, cpy_len);
writer = writer.add(cpy_len);
}
}
unsafe { writer.sub_ptr(source.as_mut_ptr()) }
}
pub struct Formatter<'a> {
source: &'a str,
depth: usize,
}
// we exclusively use `write_str` to reduce bloat
impl<'a> Formatter<'a> {
pub fn new(source: &'a str) -> Self {
Self { source, depth: 0 }
}
fn fmt_list<T: Poser, F: core::fmt::Write>(
&mut self,
f: &mut F,
trailing: bool,
end: &str,
sep: &str,
list: &[T],
fmt: impl Fn(&mut Self, &T, &mut F) -> fmt::Result,
) -> fmt::Result {
self.fmt_list_low(f, trailing, end, sep, list, |s, v, f| {
fmt(s, v, f)?;
Ok(true)
})
}
fn fmt_list_low<T: Poser, F: core::fmt::Write>(
&mut self,
f: &mut F,
trailing: bool,
end: &str,
sep: &str,
list: &[T],
fmt: impl Fn(&mut Self, &T, &mut F) -> Result<bool, fmt::Error>,
) -> fmt::Result {
if !trailing {
let mut first = true;
for expr in list {
if !core::mem::take(&mut first) {
f.write_str(sep)?;
f.write_str(" ")?;
}
first = !fmt(self, expr, f)?;
}
return f.write_str(end);
}
writeln!(f)?;
self.depth += 1;
let res = (|| {
for (i, stmt) in list.iter().enumerate() {
for _ in 0..self.depth {
f.write_str("\t")?;
}
let add_sep = fmt(self, stmt, f)?;
if add_sep {
f.write_str(sep)?;
}
if let Some(expr) = list.get(i + 1)
&& let Some(rest) = self.source.get(expr.posi() as usize..)
{
if insert_needed_semicolon(rest) {
f.write_str(";")?;
}
if preserve_newlines(&self.source[..expr.posi() as usize]) > 1 {
f.write_str("\n")?;
}
}
if add_sep {
f.write_str("\n")?;
}
}
Ok(())
})();
self.depth -= 1;
for _ in 0..self.depth {
f.write_str("\t")?;
}
f.write_str(end)?;
res
}
fn fmt_paren<F: core::fmt::Write>(
&mut self,
expr: &Expr,
f: &mut F,
cond: impl FnOnce(&Expr) -> bool,
) -> fmt::Result {
if cond(expr) {
f.write_str("(")?;
self.fmt(expr, f)?;
f.write_str(")")
} else {
self.fmt(expr, f)
}
}
pub fn fmt<F: core::fmt::Write>(&mut self, expr: &Expr, f: &mut F) -> fmt::Result {
macro_rules! impl_parenter {
($($name:ident => $pat:pat,)*) => {
$(
let $name = |e: &Expr| matches!(e, $pat);
)*
};
}
impl_parenter! {
unary => Expr::BinOp { .. },
postfix => Expr::UnOp { .. } | Expr::BinOp { .. },
consecutive => Expr::UnOp { .. },
}
match *expr {
Expr::Ct { value, .. } => {
f.write_str("$: ")?;
self.fmt(value, f)
}
Expr::String { literal, .. } => f.write_str(literal),
Expr::Comment { literal, .. } => f.write_str(literal),
Expr::Mod { path, .. } => write!(f, "@use(\"{path}\")"),
Expr::Embed { path, .. } => write!(f, "@embed(\"{path}\")"),
Expr::Field { target, name: field, .. } => {
self.fmt_paren(target, f, postfix)?;
f.write_str(".")?;
f.write_str(field)
}
Expr::Directive { name, args, .. } => {
f.write_str("@")?;
f.write_str(name)?;
f.write_str("(")?;
self.fmt_list(f, false, ")", ",", args, Self::fmt)
}
Expr::Struct { fields, trailing_comma, packed, .. } => {
if packed {
f.write_str("packed ")?;
}
write!(f, "struct {{")?;
self.fmt_list_low(f, trailing_comma, "}", ",", fields, |s, field, f| {
match field {
CommentOr::Or(StructField { name, ty, .. }) => {
f.write_str(name)?;
f.write_str(": ")?;
s.fmt(ty, f)?
}
CommentOr::Comment { literal, .. } => {
f.write_str(literal)?;
f.write_str("\n")?;
}
}
Ok(field.or().is_some())
})
}
Expr::Ctor { ty, fields, trailing_comma, .. } => {
if let Some(ty) = ty {
self.fmt_paren(ty, f, unary)?;
}
f.write_str(".{")?;
self.fmt_list(
f,
trailing_comma,
"}",
",",
fields,
|s: &mut Self, CtorField { name, value, .. }: &_, f| {
f.write_str(name)?;
if !matches!(value, &Expr::Ident { id, .. } if *name == &self.source[id.range()]) {
f.write_str(": ")?;
s.fmt(value, f)?;
}
Ok(())
},
)
}
Expr::Tupl {
pos,
ty: Some(&Expr::Slice { pos: spos, size: Some(&Expr::Number { value, .. }), item }),
fields,
trailing_comma,
} if value as usize == fields.len() => self.fmt(
&Expr::Tupl {
pos,
ty: Some(&Expr::Slice { pos: spos, size: None, item }),
fields,
trailing_comma,
},
f,
),
Expr::Tupl { ty, fields, trailing_comma, .. } => {
if let Some(ty) = ty {
self.fmt_paren(ty, f, unary)?;
}
f.write_str(".(")?;
self.fmt_list(f, trailing_comma, ")", ",", fields, Self::fmt)
}
Expr::Slice { item, size, .. } => {
f.write_str("[")?;
self.fmt(item, f)?;
if let Some(size) = size {
f.write_str("; ")?;
self.fmt(size, f)?;
}
f.write_str("]")
}
Expr::Index { base, index } => {
self.fmt(base, f)?;
f.write_str("[")?;
self.fmt(index, f)?;
f.write_str("]")
}
Expr::UnOp { op, val, .. } => {
f.write_str(op.name())?;
self.fmt_paren(val, f, unary)
}
Expr::Break { .. } => f.write_str("break"),
Expr::Continue { .. } => f.write_str("continue"),
Expr::If { cond, then, else_, .. } => {
f.write_str("if ")?;
self.fmt(cond, f)?;
f.write_str(" ")?;
self.fmt_paren(then, f, consecutive)?;
if let Some(e) = else_ {
f.write_str(" else ")?;
self.fmt(e, f)?;
}
Ok(())
}
Expr::Loop { body, .. } => {
f.write_str("loop ")?;
self.fmt(body, f)
}
Expr::Closure { ret, body, args, .. } => {
f.write_str("fn(")?;
self.fmt_list(f, false, "", ",", args, |s, arg, f| {
if arg.is_ct {
f.write_str("$")?;
}
f.write_str(arg.name)?;
f.write_str(": ")?;
s.fmt(&arg.ty, f)
})?;
f.write_str("): ")?;
self.fmt(ret, f)?;
f.write_str(" ")?;
self.fmt_paren(body, f, consecutive)?;
Ok(())
}
Expr::Call { func, args, trailing_comma } => {
self.fmt_paren(func, f, postfix)?;
f.write_str("(")?;
self.fmt_list(f, trailing_comma, ")", ",", args, Self::fmt)
}
Expr::Return { val: Some(val), .. } => {
f.write_str("return ")?;
self.fmt(val, f)
}
Expr::Return { val: None, .. } => f.write_str("return"),
Expr::Wildcard { .. } => f.write_str("_"),
Expr::Ident { pos, is_ct, .. } => {
if is_ct {
f.write_str("$")?;
}
f.write_str(&self.source[Lexer::restore(self.source, pos).eat().range()])
}
Expr::Block { stmts, .. } => {
f.write_str("{")?;
self.fmt_list(f, true, "}", "", stmts, Self::fmt)
}
Expr::Number { value, radix, .. } => {
f.write_str(match radix {
Radix::Decimal => "",
Radix::Hex => "0x",
Radix::Octal => "0o",
Radix::Binary => "0b",
})?;
let mut buf = [0u8; 64];
f.write_str(display_radix(radix, value as u64, &mut buf))
}
Expr::Float { pos, .. } => {
f.write_str(&self.source[Lexer::restore(self.source, pos).eat().range()])
}
Expr::Bool { value, .. } => f.write_str(if value { "true" } else { "false" }),
Expr::Idk { .. } => f.write_str("idk"),
Expr::Die { .. } => f.write_str("die"),
Expr::Null { .. } => f.write_str("null"),
Expr::BinOp {
left,
op: TokenKind::Assign,
right: &Expr::BinOp { left: lleft, op, right, .. },
..
} if left.pos() == lleft.pos() => {
self.fmt(left, f)?;
f.write_str(" ")?;
f.write_str(op.name())?;
f.write_str("= ")?;
self.fmt(right, f)
}
Expr::BinOp { right, op, left, .. } => {
let prec_miss_left = |e: &Expr| {
matches!(
e, Expr::BinOp { op: lop, .. } if op.precedence() > lop.precedence()
)
};
let prec_miss_right = |e: &Expr| {
matches!(
e, Expr::BinOp { op: lop, .. }
if (op.precedence() == lop.precedence() && !op.is_comutative())
|| op.precedence() > lop.precedence()
)
};
self.fmt_paren(left, f, prec_miss_left)?;
if let Some(mut prev) = self.source.get(..right.pos() as usize) {
prev = prev.trim_end();
let estimate_bound =
prev.rfind(|c: char| c.is_ascii_whitespace()).map_or(prev.len(), |i| i + 1);
let exact_bound = lexer::Lexer::new(&prev[estimate_bound..]).last().start;
prev = &prev[..exact_bound as usize + estimate_bound];
if preserve_newlines(prev) > 0 {
f.write_str("\n")?;
for _ in 0..self.depth + 1 {
f.write_str("\t")?;
}
f.write_str(op.name())?;
f.write_str(" ")?;
} else {
f.write_str(" ")?;
f.write_str(op.name())?;
f.write_str(" ")?;
}
} else {
f.write_str(" ")?;
f.write_str(op.name())?;
f.write_str(" ")?;
}
self.fmt_paren(right, f, prec_miss_right)
}
}
}
}
pub fn preserve_newlines(source: &str) -> usize {
source[source.trim_end().len()..].bytes().filter(|&c| c == b'\n').count()
}
pub fn insert_needed_semicolon(source: &str) -> bool {
let kind = lexer::Lexer::new(source).eat().kind;
kind.precedence().is_some() || matches!(kind, TokenKind::Ctor | TokenKind::Tupl)
}
impl core::fmt::Display for parser::Ast {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
fmt_file(self.exprs(), &self.file, f)
}
}
pub fn fmt_file(exprs: &[Expr], file: &str, f: &mut impl fmt::Write) -> fmt::Result {
for (i, expr) in exprs.iter().enumerate() {
Formatter::new(file).fmt(expr, f)?;
if let Some(expr) = exprs.get(i + 1)
&& let Some(rest) = file.get(expr.pos() as usize..)
{
if insert_needed_semicolon(rest) {
write!(f, ";")?;
}
if preserve_newlines(&file[..expr.pos() as usize]) > 1 {
writeln!(f)?;
}
}
if i + 1 != exprs.len() {
writeln!(f)?;
}
}
Ok(())
}
#[cfg(test)]
pub mod test {
use {
crate::parser::{self, Ctx},
alloc::borrow::ToOwned,
std::{fmt::Write, string::String},
};
pub fn format(ident: &str, input: &str) {
let mut minned = input.to_owned();
let len = crate::fmt::minify(&mut minned);
minned.truncate(len);
let mut ctx = Ctx::default();
let ast = parser::Ast::new(ident, minned, &mut ctx, &mut parser::no_loader);
//log::error!(
// "{} / {} = {} | {} / {} = {}",
// ast.mem.size(),
// input.len(),
// ast.mem.size() as f32 / input.len() as f32,
// ast.mem.size(),
// ast.file.len(),
// ast.mem.size() as f32 / ast.file.len() as f32
//);
let mut output = String::new();
write!(output, "{ast}").unwrap();
let input_path = format!("formatter_{ident}.expected");
let output_path = format!("formatter_{ident}.actual");
std::fs::write(&input_path, input).unwrap();
std::fs::write(&output_path, output).unwrap();
let success = std::process::Command::new("diff")
.arg("-u")
.arg("--color")
.arg(&input_path)
.arg(&output_path)
.status()
.unwrap()
.success();
std::fs::remove_file(&input_path).unwrap();
std::fs::remove_file(&output_path).unwrap();
assert!(success, "test failed");
}
macro_rules! test {
($($name:ident => $input:expr;)*) => {$(
#[test]
fn $name() {
format(stringify!($name), $input);
}
)*};
}
test! {
comments => "// comment\n// comment\n\n// comment\n\n\
/* comment */\n/* comment */\n\n/* comment */";
some_ordinary_code => "loft := fn(): int return loft(1, 2, 3)";
some_arg_per_line_code => "loft := fn(): int return loft(\
\n\t1,\n\t2,\n\t3,\n)";
some_ordinary_struct => "loft := fn(): int return loft.{a: 1, b: 2}";
some_ordinary_fild_per_lin_struct => "loft := fn(): int return loft.{\
\n\ta: 1,\n\tb: 2,\n}";
code_block => "loft := fn(): int {\n\tloft()\n\treturn 1\n}";
}
}

378
lang/src/fs.rs Normal file
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@ -0,0 +1,378 @@
use {
crate::{
parser::{self, Ast, Ctx, FileKind},
son::{self, hbvm::HbvmBackend},
},
alloc::{string::String, vec::Vec},
core::{fmt::Write, num::NonZeroUsize, ops::Deref},
hashbrown::hash_map,
std::{
collections::VecDeque,
eprintln,
ffi::OsStr,
io::{self, Write as _},
path::{Path, PathBuf},
string::ToString,
sync::Mutex,
},
};
pub struct Logger;
impl log::Log for Logger {
fn enabled(&self, _: &log::Metadata) -> bool {
true
}
fn log(&self, record: &log::Record) {
if self.enabled(record.metadata()) {
eprintln!("{}", record.args())
}
}
fn flush(&self) {}
}
#[derive(Default)]
pub struct Options {
pub fmt: bool,
pub fmt_stdout: bool,
pub dump_asm: bool,
pub extra_threads: usize,
}
impl Options {
pub fn from_args(args: &[&str]) -> std::io::Result<Self> {
if args.contains(&"--help") || args.contains(&"-h") {
log::error!("Usage: hbc [OPTIONS...] <FILE>");
log::error!(include_str!("../command-help.txt"));
return Err(std::io::ErrorKind::Other.into());
}
Ok(Options {
fmt: args.contains(&"--fmt"),
fmt_stdout: args.contains(&"--fmt-stdout"),
dump_asm: args.contains(&"--dump-asm"),
extra_threads: args
.iter()
.position(|&a| a == "--threads")
.map(|i| {
args[i + 1].parse::<NonZeroUsize>().map_err(|e| {
std::io::Error::other(format!("--threads expects non zero integer: {e}"))
})
})
.transpose()?
.map_or(1, NonZeroUsize::get)
- 1,
})
}
}
pub fn run_compiler(root_file: &str, options: Options, out: &mut Vec<u8>) -> std::io::Result<()> {
let parsed = parse_from_fs(options.extra_threads, root_file)?;
fn format_ast(ast: parser::Ast) -> std::io::Result<()> {
let mut output = String::new();
write!(output, "{ast}").unwrap();
if ast.file.deref().trim() != output.as_str().trim() {
std::fs::write(&*ast.path, output)?;
}
Ok(())
}
if options.fmt {
if !parsed.errors.is_empty() {
*out = parsed.errors.into_bytes();
return Err(std::io::Error::other("parsing fialed"));
}
for parsed in parsed.ast {
format_ast(parsed)?;
}
} else if options.fmt_stdout {
if !parsed.errors.is_empty() {
*out = parsed.errors.into_bytes();
return Err(std::io::Error::other("parsing fialed"));
}
let ast = parsed.ast.into_iter().next().unwrap();
write!(out, "{ast}").unwrap();
} else {
let mut backend = HbvmBackend::default();
let mut ctx = crate::son::CodegenCtx::default();
*ctx.parser.errors.get_mut() = parsed.errors;
let mut codegen = son::Codegen::new(&mut backend, &parsed.ast, &mut ctx);
codegen.push_embeds(parsed.embeds);
codegen.generate(0);
if !codegen.errors.borrow().is_empty() {
log::error!("{}", codegen.errors.borrow());
return Err(std::io::Error::other("compilation faoled"));
}
codegen.assemble(out);
if options.dump_asm {
let mut disasm = String::new();
codegen.disasm(&mut disasm, out).map_err(|e| io::Error::other(e.to_string()))?;
*out = disasm.into_bytes();
}
}
Ok(())
}
struct TaskQueue<T> {
inner: Mutex<TaskQueueInner<T>>,
}
impl<T> TaskQueue<T> {
fn new(max_waiters: usize) -> Self {
Self { inner: Mutex::new(TaskQueueInner::new(max_waiters)) }
}
pub fn push(&self, message: T) {
self.extend([message]);
}
pub fn extend(&self, messages: impl IntoIterator<Item = T>) {
self.inner.lock().unwrap().push(messages);
}
pub fn pop(&self) -> Option<T> {
TaskQueueInner::pop(&self.inner)
}
}
enum TaskSlot<T> {
Waiting,
Delivered(T),
Closed,
}
struct TaskQueueInner<T> {
max_waiters: usize,
messages: VecDeque<T>,
parked: VecDeque<(*mut TaskSlot<T>, std::thread::Thread)>,
}
unsafe impl<T: Send> Send for TaskQueueInner<T> {}
unsafe impl<T: Send + Sync> Sync for TaskQueueInner<T> {}
impl<T> TaskQueueInner<T> {
fn new(max_waiters: usize) -> Self {
Self { max_waiters, messages: Default::default(), parked: Default::default() }
}
fn push(&mut self, messages: impl IntoIterator<Item = T>) {
for msg in messages {
if let Some((dest, thread)) = self.parked.pop_front() {
unsafe { *dest = TaskSlot::Delivered(msg) };
thread.unpark();
} else {
self.messages.push_back(msg);
}
}
}
fn pop(s: &Mutex<Self>) -> Option<T> {
let mut res = TaskSlot::Waiting;
{
let mut s = s.lock().unwrap();
if let Some(msg) = s.messages.pop_front() {
return Some(msg);
}
if s.max_waiters == s.parked.len() + 1 {
for (dest, thread) in s.parked.drain(..) {
unsafe { *dest = TaskSlot::Closed };
thread.unpark();
}
return None;
}
s.parked.push_back((&mut res, std::thread::current()));
}
loop {
std::thread::park();
let _s = s.lock().unwrap();
match core::mem::replace(&mut res, TaskSlot::Waiting) {
TaskSlot::Delivered(msg) => return Some(msg),
TaskSlot::Closed => return None,
TaskSlot::Waiting => {}
}
}
}
}
pub struct Loaded {
ast: Vec<Ast>,
embeds: Vec<Vec<u8>>,
errors: String,
}
pub fn parse_from_fs(extra_threads: usize, root: &str) -> io::Result<Loaded> {
fn resolve(path: &str, from: &str, tmp: &mut PathBuf) -> Result<PathBuf, CantLoadFile> {
tmp.clear();
match Path::new(from).parent() {
Some(parent) => tmp.extend([parent, Path::new(path)]),
None => tmp.push(path),
};
tmp.canonicalize().map_err(|source| CantLoadFile { path: std::mem::take(tmp), source })
}
#[derive(Debug)]
struct CantLoadFile {
path: PathBuf,
source: io::Error,
}
impl core::fmt::Display for CantLoadFile {
fn fmt(&self, f: &mut core::fmt::Formatter) -> core::fmt::Result {
write!(f, "can't load file: {}", display_rel_path(&self.path),)
}
}
impl core::error::Error for CantLoadFile {
fn source(&self) -> Option<&(dyn core::error::Error + 'static)> {
Some(&self.source)
}
}
impl From<CantLoadFile> for io::Error {
fn from(e: CantLoadFile) -> Self {
io::Error::new(io::ErrorKind::InvalidData, e)
}
}
type Task = (u32, PathBuf);
let seen_modules = Mutex::new(crate::HashMap::<PathBuf, u32>::default());
let seen_embeds = Mutex::new(crate::HashMap::<PathBuf, u32>::default());
let tasks = TaskQueue::<Task>::new(extra_threads + 1);
let ast = Mutex::new(Vec::<io::Result<Ast>>::new());
let embeds = Mutex::new(Vec::<Vec<u8>>::new());
let loader = |path: &str, from: &str, kind: FileKind, tmp: &mut _| {
let mut physiscal_path = resolve(path, from, tmp)?;
match kind {
FileKind::Module => {
let id = {
let mut seen = seen_modules.lock().unwrap();
let len = seen.len();
match seen.entry(physiscal_path) {
hash_map::Entry::Occupied(entry) => {
return Ok(*entry.get());
}
hash_map::Entry::Vacant(entry) => {
physiscal_path = entry.insert_entry(len as _).key().clone();
len as u32
}
}
};
if !physiscal_path.exists() {
return Err(io::Error::new(
io::ErrorKind::NotFound,
format!("can't find file: {}", display_rel_path(&physiscal_path)),
));
}
tasks.push((id, physiscal_path));
Ok(id)
}
FileKind::Embed => {
let id = {
let mut seen = seen_embeds.lock().unwrap();
let len = seen.len();
match seen.entry(physiscal_path) {
hash_map::Entry::Occupied(entry) => {
return Ok(*entry.get());
}
hash_map::Entry::Vacant(entry) => {
physiscal_path = entry.insert_entry(len as _).key().clone();
len as u32
}
}
};
let content = std::fs::read(&physiscal_path).map_err(|e| {
io::Error::new(
e.kind(),
format!(
"can't load embed file: {}: {e}",
display_rel_path(&physiscal_path)
),
)
})?;
let mut embeds = embeds.lock().unwrap();
if id as usize >= embeds.len() {
embeds.resize(id as usize + 1, Default::default());
}
embeds[id as usize] = content;
Ok(id)
}
}
};
let execute_task = |ctx: &mut _, (_, path): Task, tmp: &mut _| {
let path = path.to_str().ok_or_else(|| {
io::Error::new(
io::ErrorKind::InvalidData,
format!("path contains invalid characters: {}", display_rel_path(&path)),
)
})?;
Ok(Ast::new(path, std::fs::read_to_string(path)?, ctx, &mut |path, from, kind| {
loader(path, from, kind, tmp).map_err(|e| e.to_string())
}))
};
let thread = || {
let mut ctx = Ctx::default();
let mut tmp = PathBuf::new();
while let Some(task @ (indx, ..)) = tasks.pop() {
let res = execute_task(&mut ctx, task, &mut tmp);
let mut ast = ast.lock().unwrap();
let len = ast.len().max(indx as usize + 1);
ast.resize_with(len, || Err(io::ErrorKind::InvalidData.into()));
ast[indx as usize] = res;
}
ctx.errors.into_inner()
};
let path = Path::new(root).canonicalize().map_err(|e| {
io::Error::new(e.kind(), format!("can't canonicalize root file path ({root})"))
})?;
seen_modules.lock().unwrap().insert(path.clone(), 0);
tasks.push((0, path));
let errors = if extra_threads == 0 {
thread()
} else {
std::thread::scope(|s| {
(0..extra_threads + 1)
.map(|_| s.spawn(thread))
.collect::<Vec<_>>()
.into_iter()
.map(|t| t.join().unwrap())
.collect::<String>()
})
};
Ok(Loaded {
ast: ast.into_inner().unwrap().into_iter().collect::<io::Result<Vec<_>>>()?,
embeds: embeds.into_inner().unwrap(),
errors,
})
}
pub fn display_rel_path(path: &(impl AsRef<OsStr> + ?Sized)) -> std::path::Display {
static CWD: std::sync::LazyLock<PathBuf> =
std::sync::LazyLock::new(|| std::env::current_dir().unwrap_or_default());
std::path::Path::new(path).strip_prefix(&*CWD).unwrap_or(std::path::Path::new(path)).display()
}

140
lang/src/fuzz.rs Normal file
View file

@ -0,0 +1,140 @@
use {
crate::{
lexer::TokenKind,
parser,
son::{hbvm::HbvmBackend, Codegen, CodegenCtx},
},
alloc::string::String,
core::{fmt::Write, hash::BuildHasher, ops::Range},
};
#[derive(Default)]
struct Rand(pub u64);
impl Rand {
pub fn next(&mut self) -> u64 {
self.0 = crate::FnvBuildHasher::default().hash_one(self.0);
self.0
}
pub fn range(&mut self, min: u64, max: u64) -> u64 {
self.next() % (max - min) + min
}
fn bool(&mut self) -> bool {
self.next() % 2 == 0
}
}
#[derive(Default)]
struct FuncGen {
rand: Rand,
buf: String,
vars: u64,
}
impl FuncGen {
fn gen(&mut self, seed: u64) -> &str {
self.rand = Rand(seed);
self.buf.clear();
self.buf.push_str("main := fn(): void ");
self.block().unwrap();
&self.buf
}
fn block(&mut self) -> core::fmt::Result {
let prev_vars = self.vars;
self.buf.push('{');
for _ in 0..self.rand.range(1, 10) {
self.stmt()?;
}
self.buf.push('}');
self.vars = prev_vars;
Ok(())
}
fn stmt(&mut self) -> core::fmt::Result {
match self.rand.range(0, 100) {
0..4 => _ = self.block(),
4..10 => {
write!(self.buf, "var{} := ", self.vars)?;
self.expr()?;
self.vars += 1;
}
10..20 if self.vars != 0 => {
write!(self.buf, "var{} = ", self.rand.range(0, self.vars))?;
self.expr()?;
}
20..23 => {
self.buf.push_str("if ");
self.expr()?;
self.block()?;
if self.rand.bool() {
self.buf.push_str(" else ");
self.block()?;
}
}
_ => {
self.buf.push_str("return ");
self.expr()?;
}
}
self.buf.push(';');
Ok(())
}
fn expr(&mut self) -> core::fmt::Result {
match self.rand.range(0, 100) {
0..80 => {
write!(self.buf, "{}", self.rand.next())
}
80..90 if self.vars != 0 => {
write!(self.buf, "var{}", self.rand.range(0, self.vars))
}
80..100 => {
self.expr()?;
let ops = [
TokenKind::Add,
TokenKind::Sub,
TokenKind::Mul,
TokenKind::Div,
TokenKind::Shl,
TokenKind::Eq,
TokenKind::Ne,
TokenKind::Lt,
TokenKind::Gt,
TokenKind::Le,
TokenKind::Ge,
TokenKind::Band,
TokenKind::Bor,
TokenKind::Xor,
TokenKind::Mod,
TokenKind::Shr,
];
let op = ops[self.rand.range(0, ops.len() as u64) as usize];
write!(self.buf, " {op} ")?;
self.expr()
}
_ => unreachable!(),
}
}
}
pub fn fuzz(seed_range: Range<u64>) {
let mut gen = FuncGen::default();
let mut ctx = CodegenCtx::default();
for i in seed_range {
ctx.clear();
let src = gen.gen(i);
let parsed = parser::Ast::new("fuzz", src, &mut ctx.parser, &mut parser::no_loader);
assert!(ctx.parser.errors.get_mut().is_empty());
let mut backend = HbvmBackend::default();
let mut cdg = Codegen::new(&mut backend, core::slice::from_ref(&parsed), &mut ctx);
cdg.generate(0);
}
}

3
lang/src/fuzz_main.rs Normal file
View file

@ -0,0 +1,3 @@
fn main() {
hblang::fuzz::fuzz(0..1000000);
}

View file

@ -1,5 +1,3 @@
use crate::{instrs, EncodedInstr};
const fn ascii_mask(chars: &[u8]) -> u128 {
let mut eq = 0;
let mut i = 0;
@ -19,7 +17,7 @@ pub struct Token {
}
impl Token {
pub fn range(&self) -> std::ops::Range<usize> {
pub fn range(&self) -> core::ops::Range<usize> {
self.start as usize..self.end as usize
}
}
@ -44,13 +42,15 @@ macro_rules! gen_token_kind {
)*
}
) => {
impl std::fmt::Display for $name {
fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result {
impl core::fmt::Display for $name {
fn fmt(&self, f: &mut core::fmt::Formatter) -> core::fmt::Result {
f.write_str(self.name())
}
}
impl $name {
pub const OPS: &[Self] = &[$($(Self::$op),*),*];
pub fn name(&self) -> &str {
let sf = unsafe { &*(self as *const _ as *const u8) } ;
match *self {
@ -59,7 +59,7 @@ macro_rules! gen_token_kind {
$( Self::$punkt => stringify!($punkt_lit), )*
$($( Self::$op => $op_lit,
$(Self::$assign => concat!($op_lit, "="),)?)*)*
_ => unsafe { std::str::from_utf8_unchecked(std::slice::from_ref(&sf)) },
_ => unsafe { core::str::from_utf8_unchecked(core::slice::from_ref(&sf)) },
}
}
@ -72,7 +72,6 @@ macro_rules! gen_token_kind {
} + 1)
}
#[inline(always)]
fn from_ident(ident: &[u8]) -> Self {
match ident {
$($keyword_lit => Self::$keyword,)*
@ -83,7 +82,7 @@ macro_rules! gen_token_kind {
};
}
#[derive(Debug, PartialEq, Eq, Clone, Copy, Hash, PartialOrd, Ord)]
#[derive(PartialEq, Eq, Clone, Copy, Hash, PartialOrd, Ord)]
#[repr(u8)]
pub enum TokenKind {
Not = b'!',
@ -117,6 +116,7 @@ pub enum TokenKind {
Ident,
Number,
Float,
Eof,
Ct,
@ -129,9 +129,12 @@ pub enum TokenKind {
Continue,
Fn,
Struct,
Packed,
True,
False,
Null,
Idk,
Die,
Ctor,
Tupl,
@ -145,6 +148,7 @@ pub enum TokenKind {
RBrack = b']',
Xor = b'^',
Tick = b'`',
Under = b'_',
// Unused = a-z
LBrace = b'{',
Bor = b'|',
@ -169,93 +173,19 @@ pub enum TokenKind {
ShlAss = b'<' - 5 + 128,
}
impl core::fmt::Debug for TokenKind {
fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
core::fmt::Display::fmt(self, f)
}
}
impl TokenKind {
#[allow(clippy::type_complexity)]
pub fn cond_op(self, signed: bool) -> Option<(fn(u8, u8, i16) -> EncodedInstr, bool)> {
Some((
match self {
Self::Le if signed => instrs::jgts,
Self::Le => instrs::jgtu,
Self::Lt if signed => instrs::jlts,
Self::Lt => instrs::jltu,
Self::Ge if signed => instrs::jlts,
Self::Ge => instrs::jltu,
Self::Gt if signed => instrs::jgts,
Self::Gt => instrs::jgtu,
Self::Eq => instrs::jne,
Self::Ne => instrs::jeq,
_ => return None,
},
matches!(self, Self::Lt | TokenKind::Gt),
))
}
pub fn binop(self, signed: bool, size: u32) -> Option<fn(u8, u8, u8) -> EncodedInstr> {
use instrs::*;
macro_rules! div { ($($op:ident),*) => {[$(|a, b, c| $op(a, 0, b, c)),*]}; }
macro_rules! rem { ($($op:ident),*) => {[$(|a, b, c| $op(0, a, b, c)),*]}; }
let ops = match self {
Self::Add => [add8, add16, add32, add64],
Self::Sub => [sub8, sub16, sub32, sub64],
Self::Mul => [mul8, mul16, mul32, mul64],
Self::Div if signed => div!(dirs8, dirs16, dirs32, dirs64),
Self::Div => div!(diru8, diru16, diru32, diru64),
Self::Mod if signed => rem!(dirs8, dirs16, dirs32, dirs64),
Self::Mod => rem!(diru8, diru16, diru32, diru64),
Self::Band => return Some(and),
Self::Bor => return Some(or),
Self::Xor => return Some(xor),
Self::Shl => [slu8, slu16, slu32, slu64],
Self::Shr if signed => [srs8, srs16, srs32, srs64],
Self::Shr => [sru8, sru16, sru32, sru64],
_ => return None,
};
Some(ops[size.ilog2() as usize])
}
#[allow(clippy::type_complexity)]
pub fn imm_binop(self, signed: bool, size: u32) -> Option<fn(u8, u8, u64) -> EncodedInstr> {
use instrs::*;
macro_rules! def_op {
($name:ident |$a:ident, $b:ident, $c:ident| $($tt:tt)*) => {
macro_rules! $name {
($$($$op:ident),*) => {
[$$(
|$a, $b, $c: u64| $$op($($tt)*),
)*]
}
}
};
}
def_op!(basic_op | a, b, c | a, b, c as _);
def_op!(sub_op | a, b, c | a, b, c.wrapping_neg() as _);
let ops = match self {
Self::Add => basic_op!(addi8, addi16, addi32, addi64),
Self::Sub => sub_op!(addi8, addi16, addi32, addi64),
Self::Mul => basic_op!(muli8, muli16, muli32, muli64),
Self::Band => return Some(andi),
Self::Bor => return Some(ori),
Self::Xor => return Some(xori),
Self::Shr if signed => basic_op!(srui8, srui16, srui32, srui64),
Self::Shr => basic_op!(srui8, srui16, srui32, srui64),
Self::Shl => basic_op!(slui8, slui16, slui32, slui64),
_ => return None,
};
Some(ops[size.ilog2() as usize])
}
pub fn ass_op(self) -> Option<Self> {
let id = (self as u8).saturating_sub(128);
if ascii_mask(b"|+-*/%^&79") & (1u128 << id) == 0 {
return None;
}
Some(unsafe { std::mem::transmute::<u8, Self>(id) })
Some(unsafe { core::mem::transmute::<u8, Self>(id) })
}
pub fn is_comutative(self) -> bool {
@ -263,15 +193,62 @@ impl TokenKind {
matches!(self, S::Eq | S::Ne | S::Bor | S::Xor | S::Band | S::Add | S::Mul)
}
pub fn apply_binop(self, a: i64, b: i64) -> i64 {
pub fn is_supported_float_op(self) -> bool {
matches!(
self,
Self::Add
| Self::Sub
| Self::Mul
| Self::Div
| Self::Eq
| Self::Ne
| Self::Le
| Self::Ge
| Self::Lt
| Self::Gt
)
}
pub fn apply_binop(self, a: i64, b: i64, float: bool) -> i64 {
if float {
debug_assert!(self.is_supported_float_op());
let [a, b] = [f64::from_bits(a as _), f64::from_bits(b as _)];
let res = match self {
Self::Add => a + b,
Self::Sub => a - b,
Self::Mul => a * b,
Self::Div => a / b,
Self::Eq => return (a == b) as i64,
Self::Ne => return (a != b) as i64,
Self::Lt => return (a < b) as i64,
Self::Gt => return (a > b) as i64,
Self::Le => return (a >= b) as i64,
Self::Ge => return (a <= b) as i64,
_ => todo!("floating point op: {self}"),
};
return res.to_bits() as _;
}
match self {
Self::Add => a.wrapping_add(b),
Self::Sub => a.wrapping_sub(b),
Self::Mul => a.wrapping_mul(b),
Self::Div if b == 0 => 0,
Self::Div => a.wrapping_div(b),
Self::Shl => a.wrapping_shl(b as _),
Self::Eq => (a == b) as i64,
Self::Ne => (a != b) as i64,
Self::Lt => (a < b) as i64,
Self::Gt => (a > b) as i64,
Self::Le => (a >= b) as i64,
Self::Ge => (a <= b) as i64,
Self::Band => a & b,
Self::Bor => a | b,
Self::Xor => a ^ b,
Self::Mod if b == 0 => 0,
Self::Mod => a.wrapping_rem(b),
Self::Shr => a.wrapping_shr(b as _),
s => todo!("{s}"),
}
}
@ -282,19 +259,30 @@ impl TokenKind {
&& self.precedence() != Self::Eof.precedence()
}
pub fn unop(&self) -> Option<fn(u8, u8) -> EncodedInstr> {
Some(match self {
Self::Sub => instrs::neg,
_ => return None,
})
}
pub fn apply_unop(&self, value: i64) -> i64 {
pub fn apply_unop(&self, value: i64, float: bool) -> i64 {
match self {
Self::Sub if float => (-f64::from_bits(value as _)).to_bits() as _,
Self::Sub => value.wrapping_neg(),
Self::Float if float => value,
Self::Float => (value as f64).to_bits() as _,
Self::Number => {
debug_assert!(float);
f64::from_bits(value as _).to_bits() as _
}
s => todo!("{s}"),
}
}
pub fn closing(&self) -> Option<TokenKind> {
Some(match self {
Self::Ctor => Self::RBrace,
Self::Tupl => Self::RParen,
Self::LParen => Self::RParen,
Self::LBrack => Self::RBrack,
Self::LBrace => Self::RBrace,
_ => return None,
})
}
}
gen_token_kind! {
@ -303,6 +291,7 @@ gen_token_kind! {
CtIdent,
Ident,
Number,
Float,
Eof,
Directive,
#[keywords]
@ -314,9 +303,13 @@ gen_token_kind! {
Continue = b"continue",
Fn = b"fn",
Struct = b"struct",
Packed = b"packed",
True = b"true",
False = b"false",
Idk = b"idk",
Null = b"null",
Idk = b"idk",
Die = b"die",
Under = b"_",
#[punkt]
Ctor = ".{",
Tupl = ".(",
@ -359,7 +352,7 @@ gen_token_kind! {
pub struct Lexer<'a> {
pos: u32,
bytes: &'a [u8],
source: &'a [u8],
}
impl<'a> Lexer<'a> {
@ -367,23 +360,42 @@ impl<'a> Lexer<'a> {
Self::restore(input, 0)
}
pub fn uses(input: &'a str) -> impl Iterator<Item = &'a str> {
let mut s = Self::new(input);
core::iter::from_fn(move || loop {
let t = s.eat();
if t.kind == TokenKind::Eof {
return None;
}
if t.kind == TokenKind::Directive
&& s.slice(t.range()) == "use"
&& s.eat().kind == TokenKind::LParen
{
let t = s.eat();
if t.kind == TokenKind::DQuote {
return Some(&s.slice(t.range())[1..t.range().len() - 1]);
}
}
})
}
pub fn restore(input: &'a str, pos: u32) -> Self {
Self { pos, bytes: input.as_bytes() }
Self { pos, source: input.as_bytes() }
}
pub fn source(&self) -> &'a str {
unsafe { std::str::from_utf8_unchecked(self.bytes) }
unsafe { core::str::from_utf8_unchecked(self.source) }
}
pub fn slice(&self, tok: std::ops::Range<usize>) -> &'a str {
unsafe { std::str::from_utf8_unchecked(&self.bytes[tok]) }
pub fn slice(&self, tok: core::ops::Range<usize>) -> &'a str {
unsafe { core::str::from_utf8_unchecked(&self.source[tok]) }
}
fn peek(&self) -> Option<u8> {
if std::intrinsics::unlikely(self.pos >= self.bytes.len() as u32) {
if core::intrinsics::unlikely(self.pos >= self.source.len() as u32) {
None
} else {
Some(unsafe { *self.bytes.get_unchecked(self.pos as usize) })
Some(unsafe { *self.source.get_unchecked(self.pos as usize) })
}
}
@ -394,9 +406,9 @@ impl<'a> Lexer<'a> {
}
pub fn last(&mut self) -> Token {
let mut token = self.next();
let mut token = self.eat();
loop {
let next = self.next();
let next = self.eat();
if next.kind == TokenKind::Eof {
break;
}
@ -405,7 +417,7 @@ impl<'a> Lexer<'a> {
token
}
pub fn next(&mut self) -> Token {
pub fn eat(&mut self) -> Token {
use TokenKind as T;
loop {
let mut start = self.pos;
@ -420,7 +432,7 @@ impl<'a> Lexer<'a> {
}
};
let identity = |s: u8| unsafe { std::mem::transmute::<u8, T>(s) };
let identity = |s: u8| unsafe { core::mem::transmute::<u8, T>(s) };
let kind = match c {
..=b' ' => continue,
@ -446,11 +458,19 @@ impl<'a> Lexer<'a> {
while let Some(b'0'..=b'9') = self.peek() {
self.advance();
}
T::Number
if self.advance_if(b'.') {
while let Some(b'0'..=b'9') = self.peek() {
self.advance();
}
T::Float
} else {
T::Number
}
}
b'a'..=b'z' | b'A'..=b'Z' | b'_' | 127.. => {
advance_ident(self);
let ident = &self.bytes[start as usize..self.pos as usize];
let ident = &self.source[start as usize..self.pos as usize];
T::from_ident(ident)
}
b'"' | b'\'' => loop {
@ -462,10 +482,18 @@ impl<'a> Lexer<'a> {
}
},
b'/' if self.advance_if(b'/') => {
while let Some(l) = self.advance()
while let Some(l) = self.peek()
&& l != b'\n'
{}
T::Comment
{
self.pos += 1;
}
let end = self.source[..self.pos as usize]
.iter()
.rposition(|&b| !b.is_ascii_whitespace())
.map_or(self.pos, |i| i as u32 + 1);
return Token { kind: T::Comment, start, end };
}
b'/' if self.advance_if(b'*') => {
let mut depth = 1;

1668
lang/src/lib.rs Normal file

File diff suppressed because it is too large Load diff

17
lang/src/main.rs Normal file
View file

@ -0,0 +1,17 @@
#[cfg(feature = "std")]
fn main() -> std::io::Result<()> {
use std::io::Write;
log::set_logger(&hblang::Logger).unwrap();
log::set_max_level(log::LevelFilter::Info);
let args = std::env::args().collect::<Vec<_>>();
let args = args.iter().map(String::as_str).collect::<Vec<_>>();
let opts = hblang::Options::from_args(&args)?;
let file = args.iter().filter(|a| !a.starts_with('-')).nth(1).copied().unwrap_or("main.hb");
let mut out = Vec::new();
hblang::run_compiler(file, opts, &mut out)?;
std::io::stdout().write_all(&out)
}

1520
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2
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4645
lang/src/son.rs Normal file

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768
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use {
super::{AssemblySpec, Backend, Nid, Node, Nodes},
crate::{
lexer::TokenKind,
parser, reg,
son::{debug_assert_matches, write_reloc, Kind, MEM},
ty::{self, Loc},
Offset, Reloc, Size, TypedReloc, Types,
},
alloc::{boxed::Box, collections::BTreeMap, string::String, vec::Vec},
core::mem,
hbbytecode::{self as instrs, *},
};
mod my_regalloc;
mod their_regalloc;
struct FuncDt {
offset: Offset,
// TODO: change to indices into common vec
relocs: Vec<TypedReloc>,
code: Vec<u8>,
}
impl Default for FuncDt {
fn default() -> Self {
Self { offset: u32::MAX, relocs: Default::default(), code: Default::default() }
}
}
struct GlobalDt {
offset: Offset,
}
impl Default for GlobalDt {
fn default() -> Self {
Self { offset: u32::MAX }
}
}
#[derive(Default)]
struct Assembler {
frontier: Vec<ty::Id>,
globals: Vec<ty::Global>,
funcs: Vec<ty::Func>,
}
#[derive(Default)]
pub struct HbvmBackend {
funcs: Vec<FuncDt>,
globals: Vec<GlobalDt>,
asm: Assembler,
ralloc: their_regalloc::Regalloc,
ralloc_my: my_regalloc::Res,
ret_relocs: Vec<Reloc>,
relocs: Vec<TypedReloc>,
jump_relocs: Vec<(Nid, Reloc)>,
code: Vec<u8>,
offsets: Vec<Offset>,
}
impl HbvmBackend {
fn emit(&mut self, instr: (usize, [u8; instrs::MAX_SIZE])) {
emit(&mut self.code, instr);
}
}
impl Backend for HbvmBackend {
fn assemble_bin(&mut self, entry: ty::Func, types: &Types, to: &mut Vec<u8>) {
to.extend([0u8; HEADER_SIZE]);
binary_prelude(to);
let AssemblySpec { code_length, data_length, entry } =
self.assemble_reachable(entry, types, to);
let exe = AbleOsExecutableHeader {
magic_number: [0x15, 0x91, 0xD2],
executable_version: 0,
code_length,
data_length,
debug_length: 0,
config_length: 0,
metadata_length: 0,
};
Reloc::new(HEADER_SIZE, 3, 4).apply_jump(to, entry, 0);
unsafe { *to.as_mut_ptr().cast::<AbleOsExecutableHeader>() = exe }
}
fn assemble_reachable(
&mut self,
from: ty::Func,
types: &Types,
to: &mut Vec<u8>,
) -> AssemblySpec {
debug_assert!(self.asm.frontier.is_empty());
debug_assert!(self.asm.funcs.is_empty());
debug_assert!(self.asm.globals.is_empty());
self.globals.resize_with(types.ins.globals.len(), Default::default);
self.asm.frontier.push(ty::Kind::Func(from).compress());
while let Some(itm) = self.asm.frontier.pop() {
match itm.expand() {
ty::Kind::Func(func) => {
let fuc = &mut self.funcs[func as usize];
debug_assert!(!fuc.code.is_empty());
if fuc.offset != u32::MAX {
continue;
}
fuc.offset = 0;
self.asm.funcs.push(func);
self.asm.frontier.extend(fuc.relocs.iter().map(|r| r.target));
}
ty::Kind::Global(glob) => {
let glb = &mut self.globals[glob as usize];
if glb.offset != u32::MAX {
continue;
}
glb.offset = 0;
self.asm.globals.push(glob);
}
_ => unreachable!(),
}
}
let init_len = to.len();
for &func in &self.asm.funcs {
let fuc = &mut self.funcs[func as usize];
fuc.offset = to.len() as _;
debug_assert!(!fuc.code.is_empty());
to.extend(&fuc.code);
}
let code_length = to.len() - init_len;
for global in self.asm.globals.drain(..) {
self.globals[global as usize].offset = to.len() as _;
to.extend(&types.ins.globals[global as usize].data);
}
let data_length = to.len() - code_length - init_len;
for func in self.asm.funcs.drain(..) {
let fuc = &self.funcs[func as usize];
for rel in &fuc.relocs {
let offset = match rel.target.expand() {
ty::Kind::Func(fun) => self.funcs[fun as usize].offset,
ty::Kind::Global(glo) => self.globals[glo as usize].offset,
_ => unreachable!(),
};
rel.reloc.apply_jump(to, offset, fuc.offset);
}
}
AssemblySpec {
code_length: code_length as _,
data_length: data_length as _,
entry: self.funcs[from as usize].offset,
}
}
fn disasm<'a>(
&'a self,
mut sluce: &[u8],
eca_handler: &mut dyn FnMut(&mut &[u8]),
types: &'a Types,
files: &'a [parser::Ast],
output: &mut String,
) -> Result<(), hbbytecode::DisasmError<'a>> {
use hbbytecode::DisasmItem;
let functions = types
.ins
.funcs
.iter()
.zip(&self.funcs)
.filter(|(_, f)| f.offset != u32::MAX)
.map(|(f, fd)| {
let name = if f.file != u32::MAX {
let file = &files[f.file as usize];
file.ident_str(f.name)
} else {
"target_fn"
};
(fd.offset, (name, fd.code.len() as u32, DisasmItem::Func))
})
.chain(
types
.ins
.globals
.iter()
.zip(&self.globals)
.filter(|(_, g)| g.offset != u32::MAX)
.map(|(g, gd)| {
let name = if g.file == u32::MAX {
core::str::from_utf8(&g.data).unwrap_or("invalid utf-8")
} else {
let file = &files[g.file as usize];
file.ident_str(g.name)
};
(gd.offset, (name, g.data.len() as Size, DisasmItem::Global))
}),
)
.collect::<BTreeMap<_, _>>();
hbbytecode::disasm(&mut sluce, &functions, output, eca_handler)
}
fn emit_ct_body(
&mut self,
id: ty::Func,
nodes: &mut Nodes,
tys: &Types,
files: &[parser::Ast],
) {
self.emit_body(id, nodes, tys, files);
let fd = &mut self.funcs[id as usize];
fd.code.truncate(fd.code.len() - instrs::jala(0, 0, 0).0);
emit(&mut fd.code, instrs::tx());
}
fn emit_body(&mut self, id: ty::Func, nodes: &mut Nodes, tys: &Types, files: &[parser::Ast]) {
let sig = tys.ins.funcs[id as usize].sig.unwrap();
debug_assert!(self.code.is_empty());
self.offsets.clear();
self.offsets.resize(nodes.values.len(), Offset::MAX);
let mut stack_size = 0;
'_compute_stack: {
let mems = mem::take(&mut nodes[MEM].outputs);
for &stck in mems.iter() {
if !matches!(nodes[stck].kind, Kind::Stck | Kind::Arg) {
debug_assert_matches!(
nodes[stck].kind,
Kind::Phi | Kind::Return | Kind::Load | Kind::Call { .. } | Kind::Stre
);
continue;
}
stack_size += tys.size_of(nodes[stck].ty);
self.offsets[stck as usize] = stack_size;
}
for &stck in mems.iter() {
if !matches!(nodes[stck].kind, Kind::Stck | Kind::Arg) {
continue;
}
self.offsets[stck as usize] = stack_size - self.offsets[stck as usize];
}
nodes[MEM].outputs = mems;
}
let (saved, tail) = self.emit_body_code(nodes, sig, tys, files);
//let (saved, tail) = self.emit_body_code_my(nodes, sig, tys, files);
if let Some(last_ret) = self.ret_relocs.last()
&& last_ret.offset as usize == self.code.len() - 5
&& self
.jump_relocs
.last()
.map_or(true, |&(r, _)| self.offsets[r as usize] as usize != self.code.len())
{
self.code.truncate(self.code.len() - 5);
self.ret_relocs.pop();
}
// FIXME: maybe do this incrementally
for (nd, rel) in self.jump_relocs.drain(..) {
let offset = self.offsets[nd as usize];
//debug_assert!(offset < self.code.len() as u32 - 1);
rel.apply_jump(&mut self.code, offset, 0);
}
let end = self.code.len();
for ret_rel in self.ret_relocs.drain(..) {
ret_rel.apply_jump(&mut self.code, end as _, 0);
}
let mut stripped_prelude_size = 0;
'_close_function: {
let pushed = (saved as i64 + !tail as i64) * 8;
let stack = stack_size as i64;
let add_len = instrs::addi64(0, 0, 0).0;
let st_len = instrs::st(0, 0, 0, 0).0;
match (pushed, stack) {
(0, 0) => {
stripped_prelude_size = add_len + st_len;
self.code.drain(0..stripped_prelude_size);
break '_close_function;
}
(0, stack) => {
write_reloc(&mut self.code, 3, -stack, 8);
stripped_prelude_size = st_len;
let end = add_len + st_len;
self.code.drain(add_len..end);
self.emit(instrs::addi64(reg::STACK_PTR, reg::STACK_PTR, stack as _));
break '_close_function;
}
_ => {}
}
write_reloc(&mut self.code, 3, -(pushed + stack), 8);
write_reloc(&mut self.code, 3 + 8 + 3, stack, 8);
write_reloc(&mut self.code, 3 + 8 + 3 + 8, pushed, 2);
self.emit(instrs::ld(
reg::RET_ADDR + tail as u8,
reg::STACK_PTR,
stack as _,
pushed as _,
));
self.emit(instrs::addi64(reg::STACK_PTR, reg::STACK_PTR, (pushed + stack) as _));
}
self.relocs.iter_mut().for_each(|r| r.reloc.offset -= stripped_prelude_size as u32);
if sig.ret != ty::Id::NEVER {
self.emit(instrs::jala(reg::ZERO, reg::RET_ADDR, 0));
}
if self.funcs.get(id as usize).is_none() {
self.funcs.resize_with(id as usize + 1, Default::default);
}
self.funcs[id as usize].code = mem::take(&mut self.code);
self.funcs[id as usize].relocs = mem::take(&mut self.relocs);
debug_assert_eq!(self.ret_relocs.len(), 0);
debug_assert_eq!(self.relocs.len(), 0);
debug_assert_eq!(self.jump_relocs.len(), 0);
debug_assert_eq!(self.code.len(), 0);
}
}
impl Nodes {
fn is_never_used(&self, nid: Nid, tys: &Types) -> bool {
let node = &self[nid];
match node.kind {
Kind::CInt { .. } => node.outputs.iter().all(|&o| {
matches!(self[o].kind, Kind::BinOp { op }
if op.imm_binop(self[o].ty).is_some()
&& self.is_const(self[o].inputs[2])
&& op.cond_op(self[o].ty).is_none())
}),
Kind::BinOp { op: TokenKind::Add | TokenKind::Sub } => {
self[node.inputs[1]].lock_rc != 0
|| (self.is_const(node.inputs[2])
&& node.outputs.iter().all(|&n| self[n].uses_direct_offset_of(nid, tys)))
}
Kind::BinOp { op } => {
op.cond_op(node.ty).is_some()
&& node.outputs.iter().all(|&n| self[n].kind == Kind::If)
}
Kind::Stck if tys.size_of(node.ty) == 0 => true,
Kind::Stck | Kind::Arg => node.outputs.iter().all(|&n| {
self[n].uses_direct_offset_of(nid, tys)
|| (matches!(self[n].kind, Kind::BinOp { op: TokenKind::Add })
&& self.is_never_used(n, tys))
}),
Kind::Load { .. } => node.ty.loc(tys) == Loc::Stack,
_ => false,
}
}
}
impl Node {
fn uses_direct_offset_of(&self, nid: Nid, tys: &Types) -> bool {
((self.kind == Kind::Stre && self.inputs[2] == nid)
|| (self.kind == Kind::Load && self.inputs[1] == nid))
&& self.ty.loc(tys) == Loc::Reg
}
}
impl TokenKind {
fn cmp_against(self) -> Option<u64> {
Some(match self {
TokenKind::Le | TokenKind::Gt => 1,
TokenKind::Ne | TokenKind::Eq => 0,
TokenKind::Ge | TokenKind::Lt => (-1i64) as _,
_ => return None,
})
}
fn float_cmp(self, ty: ty::Id) -> Option<fn(u8, u8, u8) -> EncodedInstr> {
if !ty.is_float() {
return None;
}
let size = ty.simple_size().unwrap();
let ops = match self {
TokenKind::Gt => [instrs::fcmpgt32, instrs::fcmpgt64],
TokenKind::Lt => [instrs::fcmplt32, instrs::fcmplt64],
_ => return None,
};
Some(ops[size.ilog2() as usize - 2])
}
#[expect(clippy::type_complexity)]
fn cond_op(self, ty: ty::Id) -> Option<(fn(u8, u8, i16) -> EncodedInstr, bool)> {
if ty.is_float() {
return None;
}
let signed = ty.is_signed();
Some((
match self {
Self::Le if signed => instrs::jgts,
Self::Le => instrs::jgtu,
Self::Lt if signed => instrs::jlts,
Self::Lt => instrs::jltu,
Self::Ge if signed => instrs::jlts,
Self::Ge => instrs::jltu,
Self::Gt if signed => instrs::jgts,
Self::Gt => instrs::jgtu,
Self::Eq => instrs::jne,
Self::Ne => instrs::jeq,
_ => return None,
},
matches!(self, Self::Lt | TokenKind::Gt),
))
}
fn binop(self, ty: ty::Id) -> Option<fn(u8, u8, u8) -> EncodedInstr> {
let size = ty.simple_size().unwrap();
if ty.is_integer() || ty == ty::Id::BOOL || ty.is_pointer() {
macro_rules! div { ($($op:ident),*) => {[$(|a, b, c| $op(a, 0, b, c)),*]}; }
macro_rules! rem { ($($op:ident),*) => {[$(|a, b, c| $op(0, a, b, c)),*]}; }
let signed = ty.is_signed();
let ops = match self {
Self::Add => [add8, add16, add32, add64],
Self::Sub => [sub8, sub16, sub32, sub64],
Self::Mul => [mul8, mul16, mul32, mul64],
Self::Div if signed => div!(dirs8, dirs16, dirs32, dirs64),
Self::Div => div!(diru8, diru16, diru32, diru64),
Self::Mod if signed => rem!(dirs8, dirs16, dirs32, dirs64),
Self::Mod => rem!(diru8, diru16, diru32, diru64),
Self::Band => return Some(and),
Self::Bor => return Some(or),
Self::Xor => return Some(xor),
Self::Shl => [slu8, slu16, slu32, slu64],
Self::Shr if signed => [srs8, srs16, srs32, srs64],
Self::Shr => [sru8, sru16, sru32, sru64],
_ => return None,
};
Some(ops[size.ilog2() as usize])
} else {
debug_assert!(ty.is_float(), "{self} {ty:?}");
let ops = match self {
Self::Add => [fadd32, fadd64],
Self::Sub => [fsub32, fsub64],
Self::Mul => [fmul32, fmul64],
Self::Div => [fdiv32, fdiv64],
_ => return None,
};
Some(ops[size.ilog2() as usize - 2])
}
}
fn imm_binop(self, ty: ty::Id) -> Option<fn(u8, u8, u64) -> EncodedInstr> {
macro_rules! def_op {
($name:ident |$a:ident, $b:ident, $c:ident| $($tt:tt)*) => {
macro_rules! $name {
($$($$op:ident),*) => {
[$$(
|$a, $b, $c: u64| $$op($($tt)*),
)*]
}
}
};
}
if ty.is_float() {
return None;
}
def_op!(basic_op | a, b, c | a, b, c as _);
def_op!(sub_op | a, b, c | a, b, c.wrapping_neg() as _);
let signed = ty.is_signed();
let ops = match self {
Self::Add => basic_op!(addi8, addi16, addi32, addi64),
Self::Sub => sub_op!(addi8, addi16, addi32, addi64),
Self::Mul => basic_op!(muli8, muli16, muli32, muli64),
Self::Band => return Some(andi),
Self::Bor => return Some(ori),
Self::Xor => return Some(xori),
Self::Shr if signed => basic_op!(srui8, srui16, srui32, srui64),
Self::Shr => basic_op!(srui8, srui16, srui32, srui64),
Self::Shl => basic_op!(slui8, slui16, slui32, slui64),
_ => return None,
};
let size = ty.simple_size().unwrap();
Some(ops[size.ilog2() as usize])
}
fn unop(&self, dst: ty::Id, src: ty::Id) -> Option<fn(u8, u8) -> EncodedInstr> {
let src_idx = src.simple_size().unwrap().ilog2() as usize - 2;
Some(match self {
Self::Sub => instrs::neg,
Self::Float if dst.is_float() && src.is_integer() => {
debug_assert_eq!(dst.simple_size(), src.simple_size());
[instrs::itf32, instrs::itf64][src_idx]
}
Self::Number if src.is_float() && dst.is_integer() => {
[|a, b| instrs::fti32(a, b, 1), |a, b| instrs::fti64(a, b, 1)][src_idx]
}
Self::Float if dst.is_float() && src.is_float() => {
[instrs::fc32t64, |a, b| instrs::fc64t32(a, b, 1)][src_idx]
}
_ => return None,
})
}
}
type EncodedInstr = (usize, [u8; instrs::MAX_SIZE]);
fn emit(out: &mut Vec<u8>, (len, instr): EncodedInstr) {
out.extend_from_slice(&instr[..len]);
}
fn binary_prelude(to: &mut Vec<u8>) {
emit(to, instrs::jal(reg::RET_ADDR, reg::ZERO, 0));
emit(to, instrs::tx());
}
#[derive(Default)]
pub struct LoggedMem {
pub mem: hbvm::mem::HostMemory,
op_buf: Vec<hbbytecode::Oper>,
disp_buf: String,
prev_instr: Option<hbbytecode::Instr>,
}
impl LoggedMem {
unsafe fn display_instr<T>(&mut self, instr: hbbytecode::Instr, addr: hbvm::mem::Address) {
let novm: *const hbvm::Vm<Self, 0> = core::ptr::null();
let offset = core::ptr::addr_of!((*novm).memory) as usize;
let regs = unsafe {
&*core::ptr::addr_of!(
(*(((self as *mut _ as *mut u8).sub(offset)) as *const hbvm::Vm<Self, 0>))
.registers
)
};
let mut bytes = core::slice::from_raw_parts(
(addr.get() - 1) as *const u8,
core::mem::size_of::<T>() + 1,
);
use core::fmt::Write;
hbbytecode::parse_args(&mut bytes, instr, &mut self.op_buf).unwrap();
debug_assert!(bytes.is_empty());
self.disp_buf.clear();
write!(self.disp_buf, "{:<10}", format!("{instr:?}")).unwrap();
for (i, op) in self.op_buf.drain(..).enumerate() {
if i != 0 {
write!(self.disp_buf, ", ").unwrap();
}
write!(self.disp_buf, "{op:?}").unwrap();
if let hbbytecode::Oper::R(r) = op {
write!(self.disp_buf, "({})", regs[r as usize].0).unwrap()
}
}
log::trace!("read-typed: {:x}: {}", addr.get(), self.disp_buf);
}
}
impl hbvm::mem::Memory for LoggedMem {
unsafe fn load(
&mut self,
addr: hbvm::mem::Address,
target: *mut u8,
count: usize,
) -> Result<(), hbvm::mem::LoadError> {
log::trace!(
"load: {:x} {}",
addr.get(),
AsHex(core::slice::from_raw_parts(addr.get() as *const u8, count))
);
self.mem.load(addr, target, count)
}
unsafe fn store(
&mut self,
addr: hbvm::mem::Address,
source: *const u8,
count: usize,
) -> Result<(), hbvm::mem::StoreError> {
log::trace!(
"store: {:x} {}",
addr.get(),
AsHex(core::slice::from_raw_parts(source, count))
);
self.mem.store(addr, source, count)
}
unsafe fn prog_read<T: Copy + 'static>(&mut self, addr: hbvm::mem::Address) -> T {
if log::log_enabled!(log::Level::Trace) {
if core::any::TypeId::of::<u8>() == core::any::TypeId::of::<T>() {
if let Some(instr) = self.prev_instr {
self.display_instr::<()>(instr, addr);
}
self.prev_instr = hbbytecode::Instr::try_from(*(addr.get() as *const u8)).ok();
} else {
let instr = self.prev_instr.take().unwrap();
self.display_instr::<T>(instr, addr);
}
}
self.mem.prog_read(addr)
}
}
struct AsHex<'a>(&'a [u8]);
impl core::fmt::Display for AsHex<'_> {
fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
for &b in self.0 {
write!(f, "{b:02x}")?;
}
Ok(())
}
}
const VM_STACK_SIZE: usize = 1024 * 64;
pub struct Comptime {
pub vm: hbvm::Vm<LoggedMem, { 1024 * 10 }>,
stack: Box<[u8; VM_STACK_SIZE]>,
pub code: Vec<u8>,
depth: usize,
}
impl Comptime {
pub fn run(&mut self, ret_loc: &mut [u8], offset: u32) -> u64 {
self.vm.write_reg(reg::RET, ret_loc.as_mut_ptr() as u64);
let prev_pc = self.push_pc(offset);
loop {
match self.vm.run().expect("TODO") {
hbvm::VmRunOk::End => break,
hbvm::VmRunOk::Timer => todo!(),
hbvm::VmRunOk::Ecall => todo!(),
hbvm::VmRunOk::Breakpoint => todo!(),
}
}
self.pop_pc(prev_pc);
if let len @ 1..=8 = ret_loc.len() {
ret_loc.copy_from_slice(&self.vm.read_reg(reg::RET).0.to_ne_bytes()[..len])
}
self.vm.read_reg(reg::RET).0
}
pub fn reset(&mut self) {
let ptr = unsafe { self.stack.as_mut_ptr().cast::<u8>().add(VM_STACK_SIZE) as u64 };
self.vm.registers.fill(hbvm::value::Value(0));
self.vm.write_reg(reg::STACK_PTR, ptr);
self.vm.pc = hbvm::mem::Address::new(self.code.as_ptr() as u64 + HEADER_SIZE as u64);
}
fn push_pc(&mut self, offset: Offset) -> hbvm::mem::Address {
let entry = &mut self.code[offset as usize] as *mut _ as _;
core::mem::replace(&mut self.vm.pc, hbvm::mem::Address::new(entry))
- self.code.as_ptr() as usize
}
fn pop_pc(&mut self, prev_pc: hbvm::mem::Address) {
self.vm.pc = prev_pc + self.code.as_ptr() as usize;
}
pub fn clear(&mut self) {
self.code.clear();
}
#[must_use]
pub fn active(&self) -> bool {
self.depth != 0
}
pub fn activate(&mut self) {
self.depth += 1;
}
pub fn deactivate(&mut self) {
self.depth -= 1;
}
}
impl Default for Comptime {
fn default() -> Self {
let mut stack = Box::<[u8; VM_STACK_SIZE]>::new_uninit();
let mut vm = hbvm::Vm::default();
let ptr = unsafe { stack.as_mut_ptr().cast::<u8>().add(VM_STACK_SIZE) as u64 };
vm.write_reg(reg::STACK_PTR, ptr);
Self { vm, stack: unsafe { stack.assume_init() }, code: Default::default(), depth: 0 }
}
}
const HEADER_SIZE: usize = core::mem::size_of::<AbleOsExecutableHeader>();
#[repr(packed)]
#[expect(dead_code)]
pub struct AbleOsExecutableHeader {
magic_number: [u8; 3],
executable_version: u32,
code_length: u64,
data_length: u64,
debug_length: u64,
config_length: u64,
metadata_length: u64,
}
#[cfg(test)]
pub fn test_run_vm(out: &[u8], output: &mut String) {
use core::fmt::Write;
let mut stack = [0_u64; 1024 * 20];
let mut vm = unsafe {
hbvm::Vm::<_, { 1024 * 100 }>::new(
LoggedMem::default(),
hbvm::mem::Address::new(out.as_ptr() as u64).wrapping_add(HEADER_SIZE),
)
};
vm.write_reg(reg::STACK_PTR, unsafe { stack.as_mut_ptr().add(stack.len()) } as u64);
let stat = loop {
match vm.run() {
Ok(hbvm::VmRunOk::End) => break Ok(()),
Ok(hbvm::VmRunOk::Ecall) => match vm.read_reg(2).0 {
1 => writeln!(output, "ev: Ecall").unwrap(), // compatibility with a test
69 => {
let [size, align] = [vm.read_reg(3).0 as usize, vm.read_reg(4).0 as usize];
let layout = core::alloc::Layout::from_size_align(size, align).unwrap();
let ptr = unsafe { alloc::alloc::alloc(layout) };
vm.write_reg(1, ptr as u64);
}
96 => {
let [ptr, size, align] = [
vm.read_reg(3).0 as usize,
vm.read_reg(4).0 as usize,
vm.read_reg(5).0 as usize,
];
let layout = core::alloc::Layout::from_size_align(size, align).unwrap();
unsafe { alloc::alloc::dealloc(ptr as *mut u8, layout) };
}
3 => vm.write_reg(1, 42),
8 => {}
unknown => writeln!(output, "unknown ecall: {unknown:?}").unwrap(),
},
Ok(hbvm::VmRunOk::Timer) => {
writeln!(output, "timed out").unwrap();
break Ok(());
}
Ok(ev) => writeln!(output, "ev: {:?}", ev).unwrap(),
Err(e) => break Err(e),
}
};
writeln!(output, "code size: {}", out.len() - HEADER_SIZE).unwrap();
writeln!(output, "ret: {:?}", vm.read_reg(1).0).unwrap();
writeln!(output, "status: {:?}", stat).unwrap();
}

View file

@ -0,0 +1,903 @@
use {
super::{HbvmBackend, Nid, Nodes},
crate::{
lexer::TokenKind,
parser,
reg::{self, Reg},
son::{debug_assert_matches, Kind, ARG_START, MEM, VOID},
ty::{self, Arg, Loc},
utils::{BitSet, Vc},
Offset, PLoc, Reloc, Sig, TypedReloc, Types,
},
alloc::{borrow::ToOwned, vec::Vec},
core::{mem, ops::Range},
hbbytecode::{self as instrs},
};
impl HbvmBackend {
pub fn emit_body_code_my(
&mut self,
nodes: &mut Nodes,
sig: Sig,
tys: &Types,
files: &[parser::Ast],
) -> (usize, bool) {
let mut fuc = Function::new(nodes, tys, sig);
log::info!("{fuc:?}");
let mut res = mem::take(&mut self.ralloc_my);
Env::new(&fuc, &fuc.func, &mut res).run();
'_open_function: {
self.emit(instrs::addi64(reg::STACK_PTR, reg::STACK_PTR, 0));
self.emit(instrs::st(reg::RET_ADDR + fuc.tail as u8, reg::STACK_PTR, 0, 0));
}
let reg_offset = if fuc.tail { reg::RET + 12 } else { reg::RET_ADDR + 1 };
res.node_to_reg.iter_mut().filter(|r| **r != 0).for_each(|r| {
*r += reg_offset - 1;
if fuc.tail && *r >= reg::RET_ADDR {
*r += 1;
}
});
let atr = |allc: Nid| res.node_to_reg[allc as usize];
//for (id, node) in fuc.nodes.iter() {
// if node.kind == Kind::Phi {
// debug_assert_eq!(atr(node.inputs[1]), atr(node.inputs[2]));
// debug_assert_eq!(atr(id), atr(node.inputs[2]));
// }
//}
let (retl, mut parama) = tys.parama(sig.ret);
let mut typs = sig.args.args();
let mut args = fuc.nodes[VOID].outputs[ARG_START..].iter();
while let Some(aty) = typs.next(tys) {
let Arg::Value(ty) = aty else { continue };
let Some(loc) = parama.next(ty, tys) else { continue };
let &arg = args.next().unwrap();
let (rg, size) = match loc {
PLoc::WideReg(rg, size) => (rg, size),
PLoc::Reg(rg, size) if ty.loc(tys) == Loc::Stack => (rg, size),
PLoc::Reg(r, ..) | PLoc::Ref(r, ..) => {
self.emit(instrs::cp(atr(arg), r));
continue;
}
};
self.emit(instrs::st(rg, reg::STACK_PTR, self.offsets[arg as usize] as _, size));
if fuc.nodes[arg].lock_rc == 0 {
self.emit(instrs::addi64(rg, reg::STACK_PTR, self.offsets[arg as usize] as _));
}
self.emit(instrs::cp(atr(arg), rg));
}
for (i, block) in fuc.func.blocks.iter().enumerate() {
self.offsets[block.entry as usize] = self.code.len() as _;
for &nid in &fuc.func.instrs[block.range.clone()] {
if nid == VOID {
continue;
}
let node = &fuc.nodes[nid];
let extend = |base: ty::Id, dest: ty::Id, from: Nid, to: Nid| {
let (bsize, dsize) = (tys.size_of(base), tys.size_of(dest));
debug_assert!(bsize <= 8, "{}", ty::Display::new(tys, files, base));
debug_assert!(dsize <= 8, "{}", ty::Display::new(tys, files, dest));
if bsize == dsize {
return Default::default();
}
match (base.is_signed(), dest.is_signed()) {
(true, true) => {
let op = [instrs::sxt8, instrs::sxt16, instrs::sxt32]
[bsize.ilog2() as usize];
op(atr(to), atr(from))
}
_ => {
let mask = (1u64 << (bsize * 8)) - 1;
instrs::andi(atr(to), atr(from), mask)
}
}
};
match node.kind {
Kind::If => {
let &[_, cnd] = node.inputs.as_slice() else { unreachable!() };
if let Kind::BinOp { op } = fuc.nodes[cnd].kind
&& let Some((op, swapped)) =
op.cond_op(fuc.nodes[fuc.nodes[cnd].inputs[1]].ty)
{
let &[_, lhs, rhs] = fuc.nodes[cnd].inputs.as_slice() else {
unreachable!()
};
self.emit(extend(fuc.nodes[lhs].ty, fuc.nodes[lhs].ty.extend(), 0, 0));
self.emit(extend(fuc.nodes[rhs].ty, fuc.nodes[rhs].ty.extend(), 1, 1));
let rel = Reloc::new(self.code.len(), 3, 2);
self.jump_relocs.push((node.outputs[!swapped as usize], rel));
self.emit(op(atr(lhs), atr(rhs), 0));
} else {
self.emit(extend(fuc.nodes[cnd].ty, fuc.nodes[cnd].ty.extend(), 0, 0));
let rel = Reloc::new(self.code.len(), 3, 2);
self.jump_relocs.push((node.outputs[0], rel));
self.emit(instrs::jne(atr(cnd), reg::ZERO, 0));
}
}
Kind::Loop | Kind::Region => {
if (mem::replace(&mut fuc.backrefs[nid as usize], u16::MAX) != u16::MAX)
^ (node.kind == Kind::Loop)
{
let index = (node.kind == Kind::Loop) as usize + 1;
for &out in node.outputs.iter() {
if fuc.nodes[out].is_data_phi()
&& atr(out) != atr(fuc.nodes[out].inputs[index])
{
self.emit(instrs::cp(
atr(out),
atr(fuc.nodes[out].inputs[index]),
));
}
}
let rel = Reloc::new(self.code.len(), 1, 4);
self.jump_relocs.push((nid, rel));
self.emit(instrs::jmp(0));
} else {
let index = (node.kind != Kind::Loop) as usize + 1;
for &out in node.outputs.iter() {
if fuc.nodes[out].is_data_phi()
&& atr(out) != atr(fuc.nodes[out].inputs[index])
{
self.emit(instrs::cp(
atr(out),
atr(fuc.nodes[out].inputs[index]),
));
}
}
}
}
Kind::Return => {
let &[_, mut ret, ..] = node.inputs.as_slice() else { unreachable!() };
match retl {
None => {}
Some(PLoc::Reg(r, _)) if sig.ret.loc(tys) == Loc::Reg => {
self.emit(instrs::cp(r, atr(ret)));
}
Some(PLoc::Reg(r, size)) | Some(PLoc::WideReg(r, size)) => {
ret = match fuc.nodes[ret].kind {
Kind::Load { .. } => fuc.nodes[ret].inputs[1],
_ => ret,
};
self.emit(instrs::ld(r, atr(ret), 0, size))
}
Some(PLoc::Ref(_, size)) => {
ret = match fuc.nodes[ret].kind {
Kind::Load { .. } => fuc.nodes[ret].inputs[1],
_ => ret,
};
let [src, dst] = [atr(ret), atr(MEM)];
if let Ok(size) = u16::try_from(size) {
self.emit(instrs::bmc(src, dst, size));
} else {
for _ in 0..size / u16::MAX as u32 {
self.emit(instrs::bmc(src, dst, u16::MAX));
self.emit(instrs::addi64(src, src, u16::MAX as _));
self.emit(instrs::addi64(dst, dst, u16::MAX as _));
}
self.emit(instrs::bmc(src, dst, size as u16));
self.emit(instrs::addi64(src, src, size.wrapping_neg() as _));
self.emit(instrs::addi64(dst, dst, size.wrapping_neg() as _));
}
}
}
if i != fuc.func.blocks.len() - 1 {
let rel = Reloc::new(self.code.len(), 1, 4);
self.ret_relocs.push(rel);
self.emit(instrs::jmp(0));
}
}
Kind::Die => self.emit(instrs::un()),
Kind::CInt { value } if node.ty.is_float() => {
self.emit(match node.ty {
ty::Id::F32 => instrs::li32(
atr(nid),
(f64::from_bits(value as _) as f32).to_bits(),
),
ty::Id::F64 => instrs::li64(atr(nid), value as _),
_ => unreachable!(),
});
}
Kind::CInt { value } => self.emit(match tys.size_of(node.ty) {
1 => instrs::li8(atr(nid), value as _),
2 => instrs::li16(atr(nid), value as _),
4 => instrs::li32(atr(nid), value as _),
_ => instrs::li64(atr(nid), value as _),
}),
Kind::UnOp { op } => {
let op = op
.unop(node.ty, fuc.nodes[node.inputs[1]].ty)
.expect("TODO: unary operator not supported");
self.emit(op(atr(nid), atr(node.inputs[1])));
}
Kind::BinOp { .. } if node.lock_rc != 0 => {}
Kind::BinOp { op } => {
let &[.., lhs, rhs] = node.inputs.as_slice() else { unreachable!() };
if let Kind::CInt { value } = fuc.nodes[rhs].kind
&& fuc.nodes[rhs].lock_rc != 0
&& let Some(op) = op.imm_binop(node.ty)
{
self.emit(op(atr(nid), atr(lhs), value as _));
} else if let Some(op) =
op.binop(node.ty).or(op.float_cmp(fuc.nodes[lhs].ty))
{
self.emit(op(atr(nid), atr(lhs), atr(rhs)));
} else if let Some(against) = op.cmp_against() {
let op_ty = fuc.nodes[lhs].ty;
self.emit(extend(fuc.nodes[lhs].ty, fuc.nodes[lhs].ty.extend(), 0, 0));
self.emit(extend(fuc.nodes[rhs].ty, fuc.nodes[rhs].ty.extend(), 1, 1));
if op_ty.is_float() && matches!(op, TokenKind::Le | TokenKind::Ge) {
let opop = match op {
TokenKind::Le => TokenKind::Gt,
TokenKind::Ge => TokenKind::Lt,
_ => unreachable!(),
};
let op_fn = opop.float_cmp(op_ty).unwrap();
self.emit(op_fn(atr(nid), atr(lhs), atr(rhs)));
self.emit(instrs::not(atr(nid), atr(nid)));
} else if op_ty.is_integer() {
let op_fn =
if op_ty.is_signed() { instrs::cmps } else { instrs::cmpu };
self.emit(op_fn(atr(nid), atr(lhs), atr(rhs)));
self.emit(instrs::cmpui(atr(nid), atr(nid), against));
if matches!(op, TokenKind::Eq | TokenKind::Lt | TokenKind::Gt) {
self.emit(instrs::not(atr(nid), atr(nid)));
}
} else {
todo!("unhandled operator: {op}");
}
} else {
todo!("unhandled operator: {op}");
}
}
Kind::Call { args, func } => {
let (ret, mut parama) = tys.parama(node.ty);
let mut args = args.args();
let mut allocs = node.inputs[1..].iter();
while let Some(arg) = args.next(tys) {
let Arg::Value(ty) = arg else { continue };
let Some(loc) = parama.next(ty, tys) else { continue };
let mut arg = *allocs.next().unwrap();
let (rg, size) = match loc {
PLoc::Reg(rg, size) if ty.loc(tys) == Loc::Stack => (rg, size),
PLoc::WideReg(rg, size) => (rg, size),
PLoc::Ref(r, ..) => {
arg = match fuc.nodes[arg].kind {
Kind::Load { .. } => fuc.nodes[arg].inputs[1],
_ => arg,
};
self.emit(instrs::cp(r, atr(arg)));
continue;
}
PLoc::Reg(r, ..) => {
self.emit(instrs::cp(r, atr(arg)));
continue;
}
};
arg = match fuc.nodes[arg].kind {
Kind::Load { .. } => fuc.nodes[arg].inputs[1],
_ => arg,
};
self.emit(instrs::ld(rg, atr(arg), 0, size));
}
debug_assert!(
!matches!(ret, Some(PLoc::Ref(..))) || allocs.next().is_some()
);
if func == ty::ECA {
self.emit(instrs::eca());
} else {
self.relocs.push(TypedReloc {
target: ty::Kind::Func(func).compress(),
reloc: Reloc::new(self.code.len(), 3, 4),
});
self.emit(instrs::jal(reg::RET_ADDR, reg::ZERO, 0));
}
match ret {
Some(PLoc::WideReg(r, size)) => {
debug_assert_eq!(
fuc.nodes[*node.inputs.last().unwrap()].kind,
Kind::Stck
);
let stck = self.offsets[*node.inputs.last().unwrap() as usize];
self.emit(instrs::st(r, reg::STACK_PTR, stck as _, size));
}
Some(PLoc::Reg(r, size)) if node.ty.loc(tys) == Loc::Stack => {
debug_assert_eq!(
fuc.nodes[*node.inputs.last().unwrap()].kind,
Kind::Stck
);
let stck = self.offsets[*node.inputs.last().unwrap() as usize];
self.emit(instrs::st(r, reg::STACK_PTR, stck as _, size));
}
Some(PLoc::Reg(r, ..)) => self.emit(instrs::cp(atr(nid), r)),
None | Some(PLoc::Ref(..)) => {}
}
}
Kind::Global { global } => {
let reloc = Reloc::new(self.code.len(), 3, 4);
self.relocs.push(TypedReloc {
target: ty::Kind::Global(global).compress(),
reloc,
});
self.emit(instrs::lra(atr(nid), 0, 0));
}
Kind::Stck => {
let base = reg::STACK_PTR;
let offset = self.offsets[nid as usize];
self.emit(instrs::addi64(atr(nid), base, offset as _));
}
Kind::Load => {
let mut region = node.inputs[1];
let mut offset = 0;
if fuc.nodes[region].kind == (Kind::BinOp { op: TokenKind::Add })
&& let Kind::CInt { value } =
fuc.nodes[fuc.nodes[region].inputs[2]].kind
{
region = fuc.nodes[region].inputs[1];
offset = value as Offset;
}
let size = tys.size_of(node.ty);
if node.ty.loc(tys) != Loc::Stack {
let (base, offset) = match fuc.nodes[region].kind {
Kind::Stck => {
(reg::STACK_PTR, self.offsets[region as usize] + offset)
}
_ => (atr(region), offset),
};
self.emit(instrs::ld(atr(nid), base, offset as _, size as _));
}
}
Kind::Stre if node.inputs[1] == VOID => {}
Kind::Stre => {
let mut region = node.inputs[2];
let mut offset = 0;
let size = u16::try_from(tys.size_of(node.ty)).expect("TODO");
if fuc.nodes[region].kind == (Kind::BinOp { op: TokenKind::Add })
&& let Kind::CInt { value } =
fuc.nodes[fuc.nodes[region].inputs[2]].kind
&& node.ty.loc(tys) == Loc::Reg
{
region = fuc.nodes[region].inputs[1];
offset = value as Offset;
}
let nd = &fuc.nodes[region];
let value = node.inputs[1];
let (base, offset, src) = match nd.kind {
Kind::Stck if node.ty.loc(tys) == Loc::Reg => {
(reg::STACK_PTR, self.offsets[region as usize] + offset, value)
}
_ => (atr(region), offset, match fuc.nodes[value].kind {
Kind::Load { .. } => fuc.nodes[value].inputs[1],
_ => value,
}),
};
match node.ty.loc(tys) {
Loc::Reg => self.emit(instrs::st(atr(src), base, offset as _, size)),
Loc::Stack => {
debug_assert_eq!(offset, 0);
self.emit(instrs::bmc(atr(src), base, size))
}
}
}
Kind::Mem => self.emit(instrs::cp(atr(MEM), reg::RET)),
Kind::Arg => {}
e @ (Kind::Start
| Kind::Entry
| Kind::End
| Kind::Loops
| Kind::Then
| Kind::Else
| Kind::Phi
| Kind::Assert { .. }) => unreachable!("{e:?}"),
}
}
}
self.ralloc_my = res;
let bundle_count = self.ralloc_my.bundles.len() + (reg_offset as usize);
(
if fuc.tail {
bundle_count.saturating_sub(reg::RET_ADDR as _)
} else {
assert!(bundle_count < reg::STACK_PTR as usize, "TODO: spill memory");
self.ralloc_my.bundles.len()
},
fuc.tail,
)
}
}
pub struct Function<'a> {
sig: Sig,
tail: bool,
backrefs: Vec<u16>,
nodes: &'a mut Nodes,
tys: &'a Types,
visited: BitSet,
func: Func,
}
impl Function<'_> {
fn vreg_count(&self) -> usize {
self.nodes.values.len()
}
fn uses_of(&self, nid: Nid, buf: &mut Vec<Nid>) {
if self.nodes[nid].kind.is_cfg() && !matches!(self.nodes[nid].kind, Kind::Call { .. }) {
return;
}
self.nodes[nid]
.outputs
.iter()
.filter(|&&n| self.nodes.is_data_dep(nid, n))
.collect_into(buf);
}
fn phi_inputs_of(&self, nid: Nid, buf: &mut Vec<Nid>) {
match self.nodes[nid].kind {
Kind::Region => {
for &inp in self.nodes[nid].outputs.as_slice() {
if self.nodes[inp].is_data_phi() {
buf.extend(&self.nodes[inp].inputs[1..]);
buf.push(inp);
}
}
}
Kind::Loop => {
for &inp in self.nodes[nid].outputs.as_slice() {
if self.nodes[inp].is_data_phi() {
buf.push(self.nodes[inp].inputs[1]);
buf.push(inp);
buf.push(self.nodes[inp].inputs[2]);
}
}
}
_ => {}
}
}
fn instr_of(&self, nid: Nid) -> Option<Nid> {
if self.nodes[nid].kind == Kind::Phi || self.nodes[nid].lock_rc != 0 {
return None;
}
debug_assert_ne!(self.backrefs[nid as usize], Nid::MAX, "{:?}", self.nodes[nid]);
Some(self.backrefs[nid as usize])
}
fn block_of(&self, nid: Nid) -> Nid {
debug_assert!(self.nodes[nid].kind.starts_basic_block());
self.backrefs[nid as usize]
}
fn idom_of(&self, mut nid: Nid) -> Nid {
while !self.nodes[nid].kind.starts_basic_block() {
nid = self.nodes.idom(nid);
}
nid
}
fn use_block(&self, inst: Nid, uinst: Nid) -> Nid {
let mut block = self.nodes.use_block(inst, uinst);
while !self.nodes[block].kind.starts_basic_block() {
block = self.nodes.idom(block);
}
block
}
}
impl core::fmt::Debug for Function<'_> {
fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
for block in &self.func.blocks {
writeln!(f, "{:?}", self.nodes[block.entry].kind)?;
for &instr in &self.func.instrs[block.range.clone()] {
writeln!(f, "{:?}", self.nodes[instr].kind)?;
}
}
Ok(())
}
}
impl<'a> Function<'a> {
fn new(nodes: &'a mut Nodes, tys: &'a Types, sig: Sig) -> Self {
let mut s = Self {
backrefs: vec![u16::MAX; nodes.values.len()],
tail: true,
nodes,
tys,
sig,
visited: Default::default(),
func: Default::default(),
};
s.visited.clear(s.nodes.values.len());
s.emit_node(VOID);
s
}
fn add_block(&mut self, entry: Nid) {
self.func
.blocks
.push(Block { range: self.func.instrs.len()..self.func.instrs.len(), entry });
self.backrefs[entry as usize] = self.func.blocks.len() as u16 - 1;
}
fn close_block(&mut self, exit: Nid) {
if !matches!(self.nodes[exit].kind, Kind::Loop | Kind::Region) {
self.add_instr(exit);
} else {
self.func.instrs.push(exit);
}
let prev = self.func.blocks.last_mut().unwrap();
prev.range.end = self.func.instrs.len();
}
fn add_instr(&mut self, nid: Nid) {
debug_assert_ne!(self.nodes[nid].kind, Kind::Loop);
self.backrefs[nid as usize] = self.func.instrs.len() as u16;
self.func.instrs.push(nid);
}
fn emit_node(&mut self, nid: Nid) {
if matches!(self.nodes[nid].kind, Kind::Region | Kind::Loop) {
match (self.nodes[nid].kind, self.visited.set(nid)) {
(Kind::Loop, false) | (Kind::Region, true) => {
self.close_block(nid);
return;
}
_ => {}
}
} else if !self.visited.set(nid) {
return;
}
if self.nodes.is_never_used(nid, self.tys) {
self.nodes.lock(nid);
return;
}
let mut node = self.nodes[nid].clone();
match node.kind {
Kind::Start => {
debug_assert_matches!(self.nodes[node.outputs[0]].kind, Kind::Entry);
self.add_block(VOID);
self.emit_node(node.outputs[0])
}
Kind::If => {
let &[_, cond] = node.inputs.as_slice() else { unreachable!() };
let &[mut then, mut else_] = node.outputs.as_slice() else { unreachable!() };
if let Kind::BinOp { op } = self.nodes[cond].kind
&& let Some((_, swapped)) = op.cond_op(node.ty)
&& swapped
{
mem::swap(&mut then, &mut else_);
}
self.close_block(nid);
self.emit_node(then);
self.emit_node(else_);
}
Kind::Region | Kind::Loop => {
self.close_block(nid);
self.add_block(nid);
self.reschedule_block(nid, &mut node.outputs);
for o in node.outputs.into_iter().rev() {
self.emit_node(o);
}
}
Kind::Return | Kind::Die => {
self.close_block(nid);
self.emit_node(node.outputs[0]);
}
Kind::Entry => {
let (ret, mut parama) = self.tys.parama(self.sig.ret);
let mut typs = self.sig.args.args();
#[expect(clippy::unnecessary_to_owned)]
let mut args = self.nodes[VOID].outputs[ARG_START..].to_owned().into_iter();
while let Some(ty) = typs.next_value(self.tys) {
let arg = args.next().unwrap();
debug_assert_eq!(self.nodes[arg].kind, Kind::Arg);
match parama.next(ty, self.tys) {
None => {}
Some(_) => self.add_instr(arg),
}
}
if let Some(PLoc::Ref(..)) = ret {
self.add_instr(MEM);
}
self.reschedule_block(nid, &mut node.outputs);
for o in node.outputs.into_iter().rev() {
self.emit_node(o);
}
}
Kind::Then | Kind::Else => {
self.add_block(nid);
self.reschedule_block(nid, &mut node.outputs);
for o in node.outputs.into_iter().rev() {
self.emit_node(o);
}
}
Kind::Call { func, .. } => {
self.tail &= func == ty::ECA;
self.add_instr(nid);
self.reschedule_block(nid, &mut node.outputs);
for o in node.outputs.into_iter().rev() {
if self.nodes[o].inputs[0] == nid
|| (matches!(self.nodes[o].kind, Kind::Loop | Kind::Region)
&& self.nodes[o].inputs[1] == nid)
{
self.emit_node(o);
}
}
}
Kind::CInt { .. }
| Kind::BinOp { .. }
| Kind::UnOp { .. }
| Kind::Global { .. }
| Kind::Load { .. }
| Kind::Stre
| Kind::Stck => self.add_instr(nid),
Kind::End | Kind::Phi | Kind::Arg | Kind::Mem | Kind::Loops => {}
Kind::Assert { .. } => unreachable!(),
}
}
fn reschedule_block(&mut self, from: Nid, outputs: &mut Vc) {
let from = Some(&from);
let mut buf = Vec::with_capacity(outputs.len());
let mut seen = BitSet::default();
seen.clear(self.nodes.values.len());
for &o in outputs.iter() {
if !self.nodes.is_cfg(o) {
continue;
}
seen.set(o);
let mut cursor = buf.len();
buf.push(o);
while let Some(&n) = buf.get(cursor) {
for &i in &self.nodes[n].inputs[1..] {
if from == self.nodes[i].inputs.first()
&& self.nodes[i]
.outputs
.iter()
.all(|&o| self.nodes[o].inputs.first() != from || seen.get(o))
&& seen.set(i)
{
buf.push(i);
}
}
cursor += 1;
}
}
for &o in outputs.iter() {
if !seen.set(o) {
continue;
}
let mut cursor = buf.len();
buf.push(o);
while let Some(&n) = buf.get(cursor) {
for &i in &self.nodes[n].inputs[1..] {
if from == self.nodes[i].inputs.first()
&& self.nodes[i]
.outputs
.iter()
.all(|&o| self.nodes[o].inputs.first() != from || seen.get(o))
&& seen.set(i)
{
buf.push(i);
}
}
cursor += 1;
}
}
debug_assert!(
outputs.len() == buf.len() || outputs.len() == buf.len() + 1,
"{:?} {:?}",
outputs,
buf
);
if buf.len() + 1 == outputs.len() {
outputs.remove(outputs.len() - 1);
}
outputs.copy_from_slice(&buf);
}
}
pub struct Env<'a> {
ctx: &'a Function<'a>,
func: &'a Func,
res: &'a mut Res,
}
impl<'a> Env<'a> {
pub fn new(ctx: &'a Function<'a>, func: &'a Func, res: &'a mut Res) -> Self {
Self { ctx, func, res }
}
pub fn run(&mut self) {
self.res.bundles.clear();
self.res.node_to_reg.clear();
self.res.node_to_reg.resize(self.ctx.vreg_count(), 0);
debug_assert!(self.res.dfs_buf.is_empty());
debug_assert!(self.res.use_buf.is_empty());
debug_assert!(self.res.phi_input_buf.is_empty());
let mut bundle = Bundle::new(self.func.instrs.len());
let mut visited = BitSet::with_capacity(self.ctx.nodes.values.len());
let mut use_buf = mem::take(&mut self.res.use_buf);
let mut phi_input_buf = mem::take(&mut self.res.phi_input_buf);
for block in &self.func.blocks {
self.ctx.phi_inputs_of(block.entry, &mut phi_input_buf);
for param in phi_input_buf.drain(..) {
if !visited.set(param) {
continue;
}
self.append_bundle(param, &mut bundle, &mut use_buf);
}
}
self.res.phi_input_buf = phi_input_buf;
for &inst in &self.func.instrs {
if visited.get(inst) || inst == 0 {
continue;
}
self.append_bundle(inst, &mut bundle, &mut use_buf);
}
self.res.use_buf = use_buf;
}
fn append_bundle(&mut self, inst: Nid, bundle: &mut Bundle, use_buf: &mut Vec<Nid>) {
let mut dom = self.ctx.idom_of(inst);
if self.ctx.nodes[dom].kind == Kind::Loop && self.ctx.nodes[inst].kind == Kind::Phi {
dom = self.ctx.nodes.idom(dom);
dom = self.ctx.idom_of(dom);
}
self.ctx.uses_of(inst, use_buf);
for uinst in use_buf.drain(..) {
let cursor = self.ctx.use_block(inst, uinst);
self.reverse_cfg_dfs(cursor, dom, |_, n, b| {
let mut range = b.range.clone();
range.start =
range.start.max(self.ctx.instr_of(inst).map_or(0, |n| n + 1) as usize);
range.end = range.end.min(
self.ctx
.instr_of(uinst)
.filter(|_| self.ctx.nodes.loop_depth(dom) == self.ctx.nodes.loop_depth(n))
.map_or(Nid::MAX, |n| n + 1) as usize,
);
bundle.add(range);
});
}
match self.res.bundles.iter_mut().enumerate().find(|(_, b)| !b.overlaps(bundle)) {
Some((i, other)) => {
other.merge(bundle);
bundle.clear();
self.res.node_to_reg[inst as usize] = i as Reg + 1;
}
None => {
self.res.bundles.push(mem::replace(bundle, Bundle::new(self.func.instrs.len())));
self.res.node_to_reg[inst as usize] = self.res.bundles.len() as Reg;
}
}
}
fn reverse_cfg_dfs(
&mut self,
from: Nid,
until: Nid,
mut each: impl FnMut(&mut Self, Nid, &Block),
) {
debug_assert!(self.res.dfs_buf.is_empty());
self.res.dfs_buf.push(from);
self.res.dfs_seem.clear(self.ctx.nodes.values.len());
while let Some(nid) = self.res.dfs_buf.pop() {
each(self, nid, &self.func.blocks[self.ctx.block_of(nid) as usize]);
if nid == until {
continue;
}
match self.ctx.nodes[nid].kind {
Kind::Then | Kind::Else | Kind::Region | Kind::Loop => {
for &n in self.ctx.nodes[nid].inputs.iter() {
let d = self.ctx.idom_of(n);
if self.res.dfs_seem.set(d) {
self.res.dfs_buf.push(d);
}
}
}
Kind::Start => {}
_ => unreachable!(),
}
}
}
}
#[derive(Default)]
pub struct Res {
pub bundles: Vec<Bundle>,
pub node_to_reg: Vec<Reg>,
use_buf: Vec<Nid>,
phi_input_buf: Vec<Nid>,
dfs_buf: Vec<Nid>,
dfs_seem: BitSet,
}
pub struct Bundle {
taken: Vec<bool>,
}
impl Bundle {
fn new(size: usize) -> Self {
Self { taken: vec![false; size] }
}
fn add(&mut self, range: Range<usize>) {
self.taken[range].fill(true);
}
fn overlaps(&self, other: &Self) -> bool {
self.taken.iter().zip(other.taken.iter()).any(|(a, b)| a & b)
}
fn merge(&mut self, other: &Self) {
debug_assert!(!self.overlaps(other));
self.taken.iter_mut().zip(other.taken.iter()).for_each(|(a, b)| *a |= *b);
}
fn clear(&mut self) {
self.taken.fill(false);
}
}
#[derive(Default)]
pub struct Func {
pub blocks: Vec<Block>,
pub instrs: Vec<Nid>,
}
pub struct Block {
pub range: Range<usize>,
pub entry: Nid,
}

File diff suppressed because it is too large Load diff

534
lang/src/utils.rs Normal file
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@ -0,0 +1,534 @@
#![expect(dead_code)]
use {
alloc::alloc,
core::{
alloc::Layout,
fmt::Debug,
hint::unreachable_unchecked,
mem::MaybeUninit,
ops::{Deref, DerefMut, Not},
ptr::Unique,
},
};
type Nid = u16;
pub union BitSet {
inline: usize,
alloced: Unique<AllocedBitSet>,
}
impl Debug for BitSet {
fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
f.debug_list().entries(self.iter()).finish()
}
}
impl Clone for BitSet {
fn clone(&self) -> Self {
if self.is_inline() {
Self { inline: unsafe { self.inline } }
} else {
let (data, _) = self.data_and_len();
let (layout, _) = Self::layout(data.len());
unsafe {
let ptr = alloc::alloc(layout);
ptr.copy_from_nonoverlapping(self.alloced.as_ptr() as _, layout.size());
Self { alloced: Unique::new_unchecked(ptr as _) }
}
}
}
}
impl Drop for BitSet {
fn drop(&mut self) {
if !self.is_inline() {
unsafe {
let cap = self.alloced.as_ref().cap;
alloc::dealloc(self.alloced.as_ptr() as _, Self::layout(cap).0);
}
}
}
}
impl Default for BitSet {
fn default() -> Self {
Self { inline: Self::FLAG }
}
}
impl BitSet {
const FLAG: usize = 1 << (Self::UNIT - 1);
const INLINE_ELEMS: usize = Self::UNIT - 1;
const UNIT: usize = core::mem::size_of::<usize>() * 8;
pub fn with_capacity(len: usize) -> Self {
let mut s = Self::default();
s.reserve(len);
s
}
fn is_inline(&self) -> bool {
unsafe { self.inline & Self::FLAG != 0 }
}
fn data_and_len(&self) -> (&[usize], usize) {
unsafe {
if self.is_inline() {
(core::slice::from_ref(&self.inline), Self::INLINE_ELEMS)
} else {
let small_vec = self.alloced.as_ref();
(
core::slice::from_raw_parts(
&small_vec.data as *const _ as *const usize,
small_vec.cap,
),
small_vec.cap * core::mem::size_of::<usize>() * 8,
)
}
}
}
fn data_mut_and_len(&mut self) -> (&mut [usize], usize) {
unsafe {
if self.is_inline() {
(core::slice::from_mut(&mut self.inline), INLINE_ELEMS)
} else {
let small_vec = self.alloced.as_mut();
(
core::slice::from_raw_parts_mut(
&mut small_vec.data as *mut _ as *mut usize,
small_vec.cap,
),
small_vec.cap * Self::UNIT,
)
}
}
}
fn indexes(index: usize) -> (usize, usize) {
(index / Self::UNIT, index % Self::UNIT)
}
pub fn get(&self, index: Nid) -> bool {
let index = index as usize;
let (data, len) = self.data_and_len();
if index >= len {
return false;
}
let (elem, bit) = Self::indexes(index);
(unsafe { *data.get_unchecked(elem) }) & (1 << bit) != 0
}
pub fn set(&mut self, index: Nid) -> bool {
let index = index as usize;
let (mut data, len) = self.data_mut_and_len();
if core::intrinsics::unlikely(index >= len) {
self.grow(index.next_power_of_two().max(4 * Self::UNIT));
(data, _) = self.data_mut_and_len();
}
let (elem, bit) = Self::indexes(index);
let elem = unsafe { data.get_unchecked_mut(elem) };
let prev = *elem;
*elem |= 1 << bit;
*elem != prev
}
fn grow(&mut self, size: usize) {
debug_assert!(size.is_power_of_two());
let slot_count = size / Self::UNIT;
let (layout, off) = Self::layout(slot_count);
let (ptr, prev_len) = unsafe {
if self.is_inline() {
let ptr = alloc::alloc(layout);
*ptr.add(off).cast::<usize>() = self.inline & !Self::FLAG;
(ptr, 1)
} else {
let prev_len = self.alloced.as_ref().cap;
let (prev_layout, _) = Self::layout(prev_len);
(alloc::realloc(self.alloced.as_ptr() as _, prev_layout, layout.size()), prev_len)
}
};
unsafe {
MaybeUninit::fill(
core::slice::from_raw_parts_mut(
ptr.add(off).cast::<MaybeUninit<usize>>().add(prev_len),
slot_count - prev_len,
),
0,
);
*ptr.cast::<usize>() = slot_count;
core::ptr::write(self, Self { alloced: Unique::new_unchecked(ptr as _) });
}
}
fn layout(slot_count: usize) -> (core::alloc::Layout, usize) {
unsafe {
core::alloc::Layout::new::<AllocedBitSet>()
.extend(Layout::array::<usize>(slot_count).unwrap_unchecked())
.unwrap_unchecked()
}
}
pub fn iter(&self) -> BitSetIter {
if self.is_inline() {
BitSetIter { index: 0, current: unsafe { self.inline & !Self::FLAG }, remining: &[] }
} else {
let &[current, ref remining @ ..] = self.data_and_len().0 else {
unsafe { unreachable_unchecked() }
};
BitSetIter { index: 0, current, remining }
}
}
pub fn clear(&mut self, len: usize) {
self.reserve(len);
if self.is_inline() {
unsafe { self.inline &= Self::FLAG };
} else {
self.data_mut_and_len().0.fill(0);
}
}
pub fn units<'a>(&'a self, slot: &'a mut usize) -> &'a [usize] {
if self.is_inline() {
*slot = unsafe { self.inline } & !Self::FLAG;
core::slice::from_ref(slot)
} else {
self.data_and_len().0
}
}
pub fn reserve(&mut self, len: usize) {
if len > self.data_and_len().1 {
self.grow(len.next_power_of_two().max(4 * Self::UNIT));
}
}
pub fn units_mut(&mut self) -> Result<&mut [usize], &mut InlineBitSetView> {
if self.is_inline() {
Err(unsafe {
core::mem::transmute::<&mut usize, &mut InlineBitSetView>(&mut self.inline)
})
} else {
Ok(self.data_mut_and_len().0)
}
}
}
pub struct InlineBitSetView(usize);
impl InlineBitSetView {
pub(crate) fn add_mask(&mut self, tmp: usize) {
debug_assert!(tmp & BitSet::FLAG == 0);
self.0 |= tmp;
}
}
pub struct BitSetIter<'a> {
index: usize,
current: usize,
remining: &'a [usize],
}
impl Iterator for BitSetIter<'_> {
type Item = usize;
fn next(&mut self) -> Option<Self::Item> {
while self.current == 0 {
self.current = *self.remining.take_first()?;
self.index += 1;
}
let sub_idx = self.current.trailing_zeros() as usize;
self.current &= self.current - 1;
Some(self.index * BitSet::UNIT + sub_idx)
}
}
struct AllocedBitSet {
cap: usize,
data: [usize; 0],
}
#[cfg(test)]
#[test]
fn test_small_bit_set() {
use std::vec::Vec;
let mut sv = BitSet::default();
sv.set(10);
debug_assert!(sv.get(10));
sv.set(100);
debug_assert!(sv.get(100));
sv.set(10000);
debug_assert!(sv.get(10000));
debug_assert_eq!(sv.iter().collect::<Vec<_>>(), &[10, 100, 10000]);
sv.clear(10000);
debug_assert_eq!(sv.iter().collect::<Vec<_>>(), &[]);
}
pub union Vc {
inline: InlineVc,
alloced: AllocedVc,
}
impl Default for Vc {
fn default() -> Self {
Vc { inline: InlineVc { elems: MaybeUninit::uninit(), cap: Default::default() } }
}
}
impl Debug for Vc {
fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
self.as_slice().fmt(f)
}
}
impl FromIterator<Nid> for Vc {
fn from_iter<T: IntoIterator<Item = Nid>>(iter: T) -> Self {
let mut slf = Self::default();
for i in iter {
slf.push(i);
}
slf
}
}
const INLINE_ELEMS: usize = VC_SIZE / 2 - 1;
const VC_SIZE: usize = 16;
impl Vc {
fn is_inline(&self) -> bool {
unsafe { self.inline.cap <= INLINE_ELEMS as Nid }
}
fn layout(&self) -> Option<core::alloc::Layout> {
unsafe {
self.is_inline().not().then(|| {
core::alloc::Layout::array::<Nid>(self.alloced.cap as _).unwrap_unchecked()
})
}
}
pub fn len(&self) -> usize {
unsafe {
if self.is_inline() {
self.inline.cap as _
} else {
self.alloced.len as _
}
}
}
fn len_mut(&mut self) -> &mut Nid {
unsafe {
if self.is_inline() {
&mut self.inline.cap
} else {
&mut self.alloced.len
}
}
}
fn as_ptr(&self) -> *const Nid {
unsafe {
match self.is_inline() {
true => self.inline.elems.as_ptr().cast(),
false => self.alloced.base.as_ptr(),
}
}
}
fn as_mut_ptr(&mut self) -> *mut Nid {
unsafe {
match self.is_inline() {
true => self.inline.elems.as_mut_ptr().cast(),
false => self.alloced.base.as_ptr(),
}
}
}
pub fn as_slice(&self) -> &[Nid] {
unsafe { core::slice::from_raw_parts(self.as_ptr(), self.len()) }
}
fn as_slice_mut(&mut self) -> &mut [Nid] {
unsafe { core::slice::from_raw_parts_mut(self.as_mut_ptr(), self.len()) }
}
pub fn push(&mut self, value: Nid) {
if let Some(layout) = self.layout()
&& unsafe { self.alloced.len == self.alloced.cap }
{
unsafe {
self.alloced.cap *= 2;
self.alloced.base = Unique::new_unchecked(
alloc::realloc(
self.alloced.base.as_ptr().cast(),
layout,
self.alloced.cap as usize * core::mem::size_of::<Nid>(),
)
.cast(),
);
}
} else if self.len() == INLINE_ELEMS {
unsafe {
let mut allcd =
Self::alloc((self.inline.cap + 1).next_power_of_two() as _, self.len());
core::ptr::copy_nonoverlapping(self.as_ptr(), allcd.as_mut_ptr(), self.len());
*self = allcd;
}
}
unsafe {
*self.len_mut() += 1;
self.as_mut_ptr().add(self.len() - 1).write(value);
}
}
unsafe fn alloc(cap: usize, len: usize) -> Self {
debug_assert!(cap > INLINE_ELEMS);
let layout = unsafe { core::alloc::Layout::array::<Nid>(cap).unwrap_unchecked() };
let alloc = unsafe { alloc::alloc(layout) };
unsafe {
Vc {
alloced: AllocedVc {
base: Unique::new_unchecked(alloc.cast()),
len: len as _,
cap: cap as _,
},
}
}
}
pub fn swap_remove(&mut self, index: usize) {
let len = self.len() - 1;
self.as_slice_mut().swap(index, len);
*self.len_mut() -= 1;
}
pub fn remove(&mut self, index: usize) {
self.as_slice_mut().copy_within(index + 1.., index);
*self.len_mut() -= 1;
}
}
impl Drop for Vc {
fn drop(&mut self) {
if let Some(layout) = self.layout() {
unsafe {
alloc::dealloc(self.alloced.base.as_ptr().cast(), layout);
}
}
}
}
impl Clone for Vc {
fn clone(&self) -> Self {
self.as_slice().into()
}
}
impl IntoIterator for Vc {
type IntoIter = VcIntoIter;
type Item = Nid;
fn into_iter(self) -> Self::IntoIter {
VcIntoIter { start: 0, end: self.len(), vc: self }
}
}
pub struct VcIntoIter {
start: usize,
end: usize,
vc: Vc,
}
impl Iterator for VcIntoIter {
type Item = Nid;
fn next(&mut self) -> Option<Self::Item> {
if self.start == self.end {
return None;
}
let ret = unsafe { core::ptr::read(self.vc.as_slice().get_unchecked(self.start)) };
self.start += 1;
Some(ret)
}
fn size_hint(&self) -> (usize, Option<usize>) {
let len = self.end - self.start;
(len, Some(len))
}
}
impl DoubleEndedIterator for VcIntoIter {
fn next_back(&mut self) -> Option<Self::Item> {
if self.start == self.end {
return None;
}
self.end -= 1;
Some(unsafe { core::ptr::read(self.vc.as_slice().get_unchecked(self.end)) })
}
}
impl ExactSizeIterator for VcIntoIter {}
impl<const SIZE: usize> From<[Nid; SIZE]> for Vc {
fn from(value: [Nid; SIZE]) -> Self {
value.as_slice().into()
}
}
impl<'a> From<&'a [Nid]> for Vc {
fn from(value: &'a [Nid]) -> Self {
if value.len() <= INLINE_ELEMS {
let mut dflt = Self::default();
unsafe {
core::ptr::copy_nonoverlapping(value.as_ptr(), dflt.as_mut_ptr(), value.len())
};
dflt.inline.cap = value.len() as _;
dflt
} else {
let mut allcd = unsafe { Self::alloc(value.len(), value.len()) };
unsafe {
core::ptr::copy_nonoverlapping(value.as_ptr(), allcd.as_mut_ptr(), value.len())
};
allcd
}
}
}
impl Deref for Vc {
type Target = [Nid];
fn deref(&self) -> &Self::Target {
self.as_slice()
}
}
impl DerefMut for Vc {
fn deref_mut(&mut self) -> &mut Self::Target {
self.as_slice_mut()
}
}
#[derive(Clone, Copy)]
#[repr(C)]
struct InlineVc {
cap: Nid,
elems: MaybeUninit<[Nid; INLINE_ELEMS]>,
}
#[derive(Clone, Copy)]
#[repr(C)]
struct AllocedVc {
cap: Nid,
len: Nid,
base: Unique<Nid>,
}

View file

@ -0,0 +1,44 @@
main:
ADDI64 r254, r254, -24d
ST r31, r254, 0a, 24h
LI32 r32, 1148846080w
CP r2, r32
JAL r31, r0, :sin
FMUL32 r33, r1, r32
FTI32 r1, r33, 1b
LD r31, r254, 0a, 24h
ADDI64 r254, r254, 24d
JALA r0, r31, 0a
sin:
LI32 r4, 1124073472w
LI32 r5, 1078530011w
FMUL32 r7, r2, r4
FDIV32 r9, r7, r5
FTI32 r11, r9, 1b
ANDI r10, r11, 255d
ITF64 r5, r11
MULI64 r4, r10, 4d
LRA r3, r0, :SIN_TABLE
LI32 r7, 1086918619w
FC64T32 r9, r5, 1b
ADDI64 r5, r11, 64d
ADD64 r8, r3, r4
LI32 r1, 1132462080w
FMUL32 r6, r9, r7
ANDI r7, r5, 255d
LI32 r5, 1056964608w
LD r4, r8, 0a, 4h
FDIV32 r8, r6, r1
MULI64 r6, r7, 4d
FMUL32 r10, r4, r5
FSUB32 r11, r2, r8
ADD64 r9, r3, r6
FMUL32 r2, r11, r10
LD r12, r9, 0a, 4h
FSUB32 r5, r12, r2
FMUL32 r7, r5, r11
FADD32 r1, r4, r7
JALA r0, r31, 0a
code size: 1303
ret: 826
status: Ok(())

View file

@ -0,0 +1,6 @@
main:
LI64 r1, 0d
JALA r0, r31, 0a
code size: 29
ret: 0
status: Ok(())

View file

@ -0,0 +1,6 @@
main:
LI64 r1, 0d
JALA r0, r31, 0a
code size: 29
ret: 0
status: Ok(())

View file

@ -0,0 +1,27 @@
main:
ADDI64 r254, r254, -56d
ST r31, r254, 24a, 32h
LI64 r32, 1d
ADDI64 r2, r254, 0d
ST r32, r254, 0a, 8h
LI64 r33, 2d
ST r33, r254, 8a, 8h
LI64 r34, 4d
ST r34, r254, 16a, 8h
JAL r31, r0, :pass
ADD64 r1, r1, r32
LD r31, r254, 24a, 32h
ADDI64 r254, r254, 56d
JALA r0, r31, 0a
pass:
LD r4, r2, 8a, 8h
MULI64 r7, r4, 8d
LD r5, r2, 0a, 8h
ADD64 r10, r7, r2
ADD64 r9, r4, r5
LD r1, r10, 0a, 8h
ADD64 r1, r1, r9
JALA r0, r31, 0a
code size: 231
ret: 8
status: Ok(())

View file

@ -0,0 +1,7 @@
main:
LRA r1, r0, :SIN_TABLE
LD r1, r1, 80a, 8h
JALA r0, r31, 0a
code size: 767
ret: 1736
status: Ok(())

View file

@ -0,0 +1,13 @@
main:
LI64 r1, 1d
JNE r2, r1, :0
JMP :1
0: LI64 r7, 0d
JNE r2, r7, :2
LI64 r1, 2d
JMP :1
2: LI64 r1, 3d
1: JALA r0, r31, 0a
code size: 79
ret: 2
status: Ok(())

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