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Author SHA1 Message Date
David Mak 0c9705f5f1 [meta] Apply clippy changes 2024-11-25 16:05:12 +08:00
David Mak 5f940f86d9 [artiq] Fix obtaining ndarray struct from NDArrayType 2024-11-25 15:01:39 +08:00
Sebastien Bourdeauducq 5651e00688 flake: add platformdirs artiq dependency 2024-11-22 20:30:30 +08:00
Sebastien Bourdeauducq f6745b987f bump sipyco and artiq used for profiling 2024-11-22 19:43:03 +08:00
mwojcik e0dedc6580 nac3artiq: support kernels sent by content 2024-11-22 19:38:52 +08:00
David Mak 28f574282c [core_derive] Ignore doctest in example
Causes linker errors for unknown reasons.
2024-11-22 00:00:05 +08:00
David Mak 144f0922db [core] coregen/types: Implement StructFields for NDArray
Also rename some fields to better align with their naming in numpy.
2024-11-21 14:27:00 +08:00
David Mak c58ce9c3a9 [core] codegen/types: Implement NDArray in terms of i8*
Better aligns with the future implementation of ndstrides.
2024-11-21 14:27:00 +08:00
David Mak f7e296da53 [core] irrt: Break IRRT into several impl files
Each IRRT file is now mapped to one Rust file.
2024-11-21 14:27:00 +08:00
David Mak b58c99369e [core] irrt: Update some IRRT implementation
- Change CSlice to use `void*` for better pointer compatibility
- Only include impl *.hpp files in irrt.cpp
- Refactor typedef to using declaration
- Add missing ``// namespace`
2024-11-21 14:26:58 +08:00
David Mak 1a535db558 [core] codegen: Add dtype to NDArrayType
We won't have this once NDArray is refactored to strided impl.
2024-11-20 15:35:57 +08:00
David Mak 1ba2e287a6 [core] codegen: Add Self::llvm_type to all type abstractions 2024-11-20 15:35:57 +08:00
lyken f95f979ad3 core/irrt: fix exception.hpp C++ castings 2024-11-20 15:35:57 +08:00
lyken 48e2148c0f core/toplevel/helper: add {extract,create}_ndims 2024-11-20 15:35:57 +08:00
David Mak 88e57f7120 [core_derive] Initial implementation 2024-11-20 15:35:55 +08:00
David Mak d7633c42bc [core] codegen/types: Implement StructField{,s}
Loosely based on FieldTraversal by lyken.
2024-11-19 13:46:25 +08:00
David Mak a4f53b6e6b [core] codegen: Refactor ProxyType and ProxyValue
Accepts generator+context object for generic type checking. Also
implements more default trait impl for easier delegation.
2024-11-19 13:46:25 +08:00
David Mak 9d9ead211e [core] Move Proxies to their own modules 2024-11-19 13:46:23 +08:00
David Mak 26a1b85206 [core] codegen/classes: Remove Underlying type
This is confusing and we want a better abstraction than this.
2024-11-19 13:45:55 +08:00
David Mak 2822074b2d [meta] Cleanup from upgrading Rust version
- Remove rust_2024_edition warnings, since it wouldn't be released for
another 3 months
- Fix new clippy warnings
2024-11-19 13:43:57 +08:00
David Mak fe67ed076c [meta] Update pre-commit configuration 2024-11-19 13:20:27 +08:00
David Mak 94e2414df0 [meta] Update cargo dependencies 2024-11-19 13:20:26 +08:00
Sebastien Bourdeauducq 2cee760404 turn rust_2024_compatibility lints into warnings 2024-11-16 13:41:49 +08:00
Sebastien Bourdeauducq 230982dc84 update dependencies 2024-11-16 12:40:11 +08:00
occheung 2bd3f63991 boolop: terminate both branches with *_end_bb 2024-11-16 12:06:20 +08:00
occheung b53266e9e6 artiq: use async RPC for attributes writeback 2024-11-12 12:04:01 +08:00
occheung 86eb22bbf3 artiq: main is always the last module 2024-11-12 12:03:38 +08:00
occheung beaa38047d artiq: suppress main module debug warning 2024-11-12 12:03:08 +08:00
occheung 705dc4ff1c artiq: lump return value into attributes writeback RPC 2024-11-12 12:02:35 +08:00
occheung 979209a526 binop: expand `not` operator as loglcal not 2024-11-08 17:12:01 +08:00
David Mak c3927d0ef6 [ast] Refactor lazy_static to LazyLock
It is available in Rust 1.80 and reduces a dependency.
2024-10-30 12:29:51 +08:00
David Mak 202a902cd0 [meta] Update dependencies 2024-10-30 12:29:51 +08:00
David Mak b6e2644391 [meta] Update cargo dependencies 2024-10-18 14:17:16 +08:00
David Mak 45cd01556b [meta] Apply cargo fmt 2024-10-18 14:16:42 +08:00
David Mak b6cd2a6993 [meta] Reorganize order of use declarations - Phase 3 2024-10-17 16:25:52 +08:00
David Mak a98f33e6d1 [meta] Reorganize order of use declarations - Phase 2
Some more rules:

- For module-level imports, prefer no prefix > super > crate.
- Use crate instead of super if super refers to the crate-level module
2024-10-17 15:57:33 +08:00
David Mak 5839badadd [standalone] Update globals.py with type-inferred global var 2024-10-07 20:44:08 +08:00
David Mak 56c845aac4 [standalone] Add support for registering globals without type decl 2024-10-07 20:44:06 +08:00
David Mak 65a12d9ab3 [core] Refactor registration of top-level variables 2024-10-07 17:05:48 +08:00
David Mak 9c6685fa8f [core] typecheck/function_check: Fix lookup of defined ids in scope 2024-10-07 16:51:37 +08:00
David Mak 2bb788e4bb [core] codegen/expr: Materialize implicit globals
Required for when globals are read without the use of a global
declaration.
2024-10-07 13:13:20 +08:00
David Mak 42a2f243b5 [core] typecheck: Disallow redeclaration of var shadowing global 2024-10-07 13:11:00 +08:00
David Mak 3ce2eddcdc [core] typecheck/type_inferencer: Infer whether variables are global 2024-10-07 13:10:46 +08:00
David Mak 51bf126a32 [core] typecheck/type_inferencer: Differentiate global symbols
Required for analyzing use of global symbols before global declaration.
2024-10-07 12:25:00 +08:00
David Mak 1a197c67f6 [core] toplevel/composer: Reduce lock scope while analyzing function 2024-10-05 15:53:20 +08:00
David Mak 581b2f7bb2 [standalone] Add demo for global variables 2024-10-04 13:24:30 +08:00
David Mak 746329ec5d [standalone] Implement symbol resolution for globals 2024-10-04 13:24:30 +08:00
David Mak e60e8e837f [core] Add support for global statements 2024-10-04 13:24:27 +08:00
David Mak 9fdbe9695d [core] Add generator to SymbolResolver::get_symbol_value
Needed in a future commit.
2024-10-04 13:20:29 +08:00
David Mak 8065e73598 [core] toplevel/composer: Add type analysis for global variables 2024-10-04 13:20:29 +08:00
David Mak 192290889b [core] Add IdentifierInfo
Keeps track of whether an identifier refers to a global or local
variable.
2024-10-04 13:20:24 +08:00
David Mak 1407553a2f [core] Implement parsing of global variables
Globals are now parsed into symbol resolver and top level definitions.
2024-10-04 13:18:29 +08:00
David Mak c7697606e1 [core] Add TopLevelDef::Variable 2024-10-04 13:09:25 +08:00
David Mak 88d0ccbf69 [standalone] Explicit panic when encountering a compilation error
Otherwise scripts will continue to execute.
2024-10-04 13:00:16 +08:00
David Mak a43b59539c [meta] Move variables declarations closer to where they are first used 2024-10-04 13:00:16 +08:00
David Mak fe06b2806f [meta] Reorganize order of use declarations
Use declarations are now grouped into 4 groups:

- Declarations from the standard library
- Declarations from external crates
- Declarations from other crates in this project
- Declarations from within this module

Furthermore, all use declarations are grouped together to enhance
readability. super::super is also replaced by an equivalent crate::
declaration.
2024-10-04 12:52:01 +08:00
David Mak 7f6c9a25ac [meta] Update Cargo dependencies 2024-10-04 12:52:01 +08:00
Sébastien Bourdeauducq 6c8382219f msys2: get python via numpy dependencies 2024-09-30 14:27:30 +08:00
Sebastien Bourdeauducq 9274a7b96b flake: update nixpkgs 2024-09-30 14:22:40 +08:00
Sébastien Bourdeauducq d1c0fe2900 cargo: update dependencies 2024-09-30 14:14:43 +08:00
91 changed files with 5700 additions and 3849 deletions

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@ -1,7 +1,7 @@
# See https://pre-commit.com for more information # See https://pre-commit.com for more information
# See https://pre-commit.com/hooks.html for more hooks # See https://pre-commit.com/hooks.html for more hooks
default_stages: [commit] default_stages: [pre-commit]
repos: repos:
- repo: local - repo: local

404
Cargo.lock generated
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name = "windows-sys" name = "windows-sys"
version = "0.52.0" version = "0.52.0"
@ -1528,6 +1601,15 @@ version = "0.52.6"
source = "registry+https://github.com/rust-lang/crates.io-index" source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "589f6da84c646204747d1270a2a5661ea66ed1cced2631d546fdfb155959f9ec" checksum = "589f6da84c646204747d1270a2a5661ea66ed1cced2631d546fdfb155959f9ec"
[[package]]
name = "winnow"
version = "0.6.20"
source = "registry+https://github.com/rust-lang/crates.io-index"
checksum = "36c1fec1a2bb5866f07c25f68c26e565c4c200aebb96d7e55710c19d3e8ac49b"
dependencies = [
"memchr",
]
[[package]] [[package]]
name = "yaml-rust" name = "yaml-rust"
version = "0.4.5" version = "0.4.5"
@ -1555,5 +1637,5 @@ checksum = "fa4f8080344d4671fb4e831a13ad1e68092748387dfc4f55e356242fae12ce3e"
dependencies = [ dependencies = [
"proc-macro2", "proc-macro2",
"quote", "quote",
"syn 2.0.77", "syn 2.0.87",
] ]

View File

@ -4,6 +4,7 @@ members = [
"nac3ast", "nac3ast",
"nac3parser", "nac3parser",
"nac3core", "nac3core",
"nac3core/nac3core_derive",
"nac3standalone", "nac3standalone",
"nac3artiq", "nac3artiq",
"runkernel", "runkernel",

View File

@ -2,11 +2,11 @@
"nodes": { "nodes": {
"nixpkgs": { "nixpkgs": {
"locked": { "locked": {
"lastModified": 1725432240, "lastModified": 1731319897,
"narHash": "sha256-+yj+xgsfZaErbfYM3T+QvEE2hU7UuE+Jf0fJCJ8uPS0=", "narHash": "sha256-PbABj4tnbWFMfBp6OcUK5iGy1QY+/Z96ZcLpooIbuEI=",
"owner": "NixOS", "owner": "NixOS",
"repo": "nixpkgs", "repo": "nixpkgs",
"rev": "ad416d066ca1222956472ab7d0555a6946746a80", "rev": "dc460ec76cbff0e66e269457d7b728432263166c",
"type": "github" "type": "github"
}, },
"original": { "original": {

View File

@ -107,18 +107,18 @@
(pkgs.fetchFromGitHub { (pkgs.fetchFromGitHub {
owner = "m-labs"; owner = "m-labs";
repo = "sipyco"; repo = "sipyco";
rev = "939f84f9b5eef7efbf7423c735d1834783b6140e"; rev = "094a6cd63ffa980ef63698920170e50dc9ba77fd";
sha256 = "sha256-15Nun4EY35j+6SPZkjzZtyH/ncxLS60KuGJjFh5kSTc="; sha256 = "sha256-PPnAyDedUQ7Og/Cby9x5OT9wMkNGTP8GS53V6N/dk4w=";
}) })
(pkgs.fetchFromGitHub { (pkgs.fetchFromGitHub {
owner = "m-labs"; owner = "m-labs";
repo = "artiq"; repo = "artiq";
rev = "923ca3377d42c815f979983134ec549dc39d3ca0"; rev = "28c9de3e251daa89a8c9fd79d5ab64a3ec03bac6";
sha256 = "sha256-oJoEeNEeNFSUyh6jXG8Tzp6qHVikeHS0CzfE+mODPgw="; sha256 = "sha256-vAvpbHc5B+1wtG8zqN7j9dQE1ON+i22v+uqA+tw6Gak=";
}) })
]; ];
buildInputs = [ buildInputs = [
(python3-mimalloc.withPackages(ps: [ ps.numpy ps.scipy ps.jsonschema ps.lmdb nac3artiq-instrumented ])) (python3-mimalloc.withPackages(ps: [ ps.numpy ps.scipy ps.jsonschema ps.lmdb ps.platformdirs nac3artiq-instrumented ]))
pkgs.llvmPackages_14.llvm.out pkgs.llvmPackages_14.llvm.out
]; ];
phases = [ "buildPhase" "installPhase" ]; phases = [ "buildPhase" "installPhase" ];

View File

@ -12,7 +12,7 @@ crate-type = ["cdylib"]
itertools = "0.13" itertools = "0.13"
pyo3 = { version = "0.21", features = ["extension-module", "gil-refs"] } pyo3 = { version = "0.21", features = ["extension-module", "gil-refs"] }
parking_lot = "0.12" parking_lot = "0.12"
tempfile = "3.10" tempfile = "3.13"
nac3core = { path = "../nac3core" } nac3core = { path = "../nac3core" }
nac3ld = { path = "../nac3ld" } nac3ld = { path = "../nac3ld" }

View File

@ -206,7 +206,7 @@ class Core:
embedding = EmbeddingMap() embedding = EmbeddingMap()
if allow_registration: if allow_registration:
compiler.analyze(registered_functions, registered_classes) compiler.analyze(registered_functions, registered_classes, set())
allow_registration = False allow_registration = False
if hasattr(method, "__self__"): if hasattr(method, "__self__"):

View File

@ -1,39 +1,3 @@
use nac3core::{
codegen::{
classes::{
ArrayLikeIndexer, ArrayLikeValue, ArraySliceValue, ListValue, NDArrayType,
NDArrayValue, ProxyType, ProxyValue, RangeValue, UntypedArrayLikeAccessor,
},
expr::{destructure_range, gen_call},
irrt::call_ndarray_calc_size,
llvm_intrinsics::{call_int_smax, call_memcpy_generic, call_stackrestore, call_stacksave},
stmt::{gen_block, gen_for_callback_incrementing, gen_if_callback, gen_with},
CodeGenContext, CodeGenerator,
},
symbol_resolver::ValueEnum,
toplevel::{helper::PrimDef, numpy::unpack_ndarray_var_tys, DefinitionId, GenCall},
typecheck::typedef::{iter_type_vars, FunSignature, FuncArg, Type, TypeEnum, VarMap},
};
use nac3core::nac3parser::ast::{Expr, ExprKind, Located, Stmt, StmtKind, StrRef};
use nac3core::inkwell::{
context::Context,
module::Linkage,
types::{BasicType, IntType},
values::{BasicValueEnum, PointerValue, StructValue},
AddressSpace, IntPredicate, OptimizationLevel,
};
use pyo3::{
types::{PyDict, PyList},
PyObject, PyResult, Python,
};
use crate::{symbol_resolver::InnerResolver, timeline::TimeFns};
use itertools::Itertools;
use nac3core::inkwell::values::IntValue;
use std::{ use std::{
collections::{hash_map::DefaultHasher, HashMap}, collections::{hash_map::DefaultHasher, HashMap},
hash::{Hash, Hasher}, hash::{Hash, Hasher},
@ -42,6 +6,40 @@ use std::{
sync::Arc, sync::Arc,
}; };
use itertools::Itertools;
use pyo3::{
types::{PyDict, PyList},
PyObject, PyResult, Python,
};
use nac3core::{
codegen::{
expr::{destructure_range, gen_call},
irrt::call_ndarray_calc_size,
llvm_intrinsics::{call_int_smax, call_memcpy_generic, call_stackrestore, call_stacksave},
stmt::{gen_block, gen_for_callback_incrementing, gen_if_callback, gen_with},
types::{NDArrayType, ProxyType},
values::{
ArrayLikeIndexer, ArrayLikeValue, ArraySliceValue, ListValue, NDArrayValue, ProxyValue,
RangeValue, UntypedArrayLikeAccessor,
},
CodeGenContext, CodeGenerator,
},
inkwell::{
context::Context,
module::Linkage,
types::{BasicType, IntType},
values::{BasicValueEnum, IntValue, PointerValue, StructValue},
AddressSpace, IntPredicate, OptimizationLevel,
},
nac3parser::ast::{Expr, ExprKind, Located, Stmt, StmtKind, StrRef},
symbol_resolver::ValueEnum,
toplevel::{helper::PrimDef, numpy::unpack_ndarray_var_tys, DefinitionId, GenCall},
typecheck::typedef::{iter_type_vars, FunSignature, FuncArg, Type, TypeEnum, VarMap},
};
use super::{symbol_resolver::InnerResolver, timeline::TimeFns};
/// The parallelism mode within a block. /// The parallelism mode within a block.
#[derive(Copy, Clone, Eq, PartialEq)] #[derive(Copy, Clone, Eq, PartialEq)]
enum ParallelMode { enum ParallelMode {
@ -463,7 +461,7 @@ fn format_rpc_arg<'ctx>(
let (elem_ty, _) = unpack_ndarray_var_tys(&mut ctx.unifier, arg_ty); let (elem_ty, _) = unpack_ndarray_var_tys(&mut ctx.unifier, arg_ty);
let llvm_elem_ty = ctx.get_llvm_type(generator, elem_ty); let llvm_elem_ty = ctx.get_llvm_type(generator, elem_ty);
let llvm_arg_ty = NDArrayType::new(generator, ctx.ctx, llvm_elem_ty); let llvm_arg_ty = NDArrayType::new(generator, ctx.ctx, llvm_elem_ty);
let llvm_arg = NDArrayValue::from_ptr_val(arg.into_pointer_value(), llvm_usize, None); let llvm_arg = llvm_arg_ty.map_value(arg.into_pointer_value(), None);
let llvm_usize_sizeof = ctx let llvm_usize_sizeof = ctx
.builder .builder
@ -500,7 +498,7 @@ fn format_rpc_arg<'ctx>(
call_memcpy_generic( call_memcpy_generic(
ctx, ctx,
pbuffer_dims_begin, pbuffer_dims_begin,
llvm_arg.dim_sizes().base_ptr(ctx, generator), llvm_arg.shape().base_ptr(ctx, generator),
dims_buf_sz, dims_buf_sz,
llvm_i1.const_zero(), llvm_i1.const_zero(),
); );
@ -614,7 +612,7 @@ fn format_rpc_ret<'ctx>(
// Set `ndarray.ndims` // Set `ndarray.ndims`
ndarray.store_ndims(ctx, generator, llvm_usize.const_int(ndims, false)); ndarray.store_ndims(ctx, generator, llvm_usize.const_int(ndims, false));
// Allocate `ndarray.shape` [size_t; ndims] // Allocate `ndarray.shape` [size_t; ndims]
ndarray.create_dim_sizes(ctx, llvm_usize, ndarray.load_ndims(ctx)); ndarray.create_shape(ctx, llvm_usize, ndarray.load_ndims(ctx));
/* /*
ndarray now: ndarray now:
@ -704,7 +702,7 @@ fn format_rpc_ret<'ctx>(
call_memcpy_generic( call_memcpy_generic(
ctx, ctx,
ndarray.dim_sizes().base_ptr(ctx, generator), ndarray.shape().base_ptr(ctx, generator),
pbuffer_dims, pbuffer_dims,
sizeof_dims, sizeof_dims,
llvm_i1.const_zero(), llvm_i1.const_zero(),
@ -716,7 +714,7 @@ fn format_rpc_ret<'ctx>(
// `ndarray.shape` must be initialized beforehand in this implementation // `ndarray.shape` must be initialized beforehand in this implementation
// (for ndarray.create_data() to know how many elements to allocate) // (for ndarray.create_data() to know how many elements to allocate)
let num_elements = let num_elements =
call_ndarray_calc_size(generator, ctx, &ndarray.dim_sizes(), (None, None)); call_ndarray_calc_size(generator, ctx, &ndarray.shape(), (None, None));
// debug_assert(nelems * sizeof(T) >= ndarray_nbytes) // debug_assert(nelems * sizeof(T) >= ndarray_nbytes)
if ctx.registry.llvm_options.opt_level == OptimizationLevel::None { if ctx.registry.llvm_options.opt_level == OptimizationLevel::None {
@ -993,11 +991,12 @@ fn rpc_codegen_callback_fn<'ctx>(
} }
} }
pub fn attributes_writeback( pub fn attributes_writeback<'ctx>(
ctx: &mut CodeGenContext<'_, '_>, ctx: &mut CodeGenContext<'ctx, '_>,
generator: &mut dyn CodeGenerator, generator: &mut dyn CodeGenerator,
inner_resolver: &InnerResolver, inner_resolver: &InnerResolver,
host_attributes: &PyObject, host_attributes: &PyObject,
return_obj: Option<(Type, ValueEnum<'ctx>)>,
) -> Result<(), String> { ) -> Result<(), String> {
Python::with_gil(|py| -> PyResult<Result<(), String>> { Python::with_gil(|py| -> PyResult<Result<(), String>> {
let host_attributes: &PyList = host_attributes.downcast(py)?; let host_attributes: &PyList = host_attributes.downcast(py)?;
@ -1007,6 +1006,11 @@ pub fn attributes_writeback(
let zero = int32.const_zero(); let zero = int32.const_zero();
let mut values = Vec::new(); let mut values = Vec::new();
let mut scratch_buffer = Vec::new(); let mut scratch_buffer = Vec::new();
if let Some((ty, obj)) = return_obj {
values.push((ty, obj.to_basic_value_enum(ctx, generator, ty).unwrap()));
}
for val in (*globals).values() { for val in (*globals).values() {
let val = val.as_ref(py); let val = val.as_ref(py);
let ty = inner_resolver.get_obj_type( let ty = inner_resolver.get_obj_type(
@ -1085,7 +1089,7 @@ pub fn attributes_writeback(
let args: Vec<_> = let args: Vec<_> =
values.into_iter().map(|(_, val)| (None, ValueEnum::Dynamic(val))).collect(); values.into_iter().map(|(_, val)| (None, ValueEnum::Dynamic(val))).collect();
if let Err(e) = if let Err(e) =
rpc_codegen_callback_fn(ctx, None, (&fun, PrimDef::Int32.id()), args, generator, false) rpc_codegen_callback_fn(ctx, None, (&fun, PrimDef::Int32.id()), args, generator, true)
{ {
return Ok(Err(e)); return Ok(Err(e));
} }
@ -1311,7 +1315,8 @@ fn polymorphic_print<'ctx>(
fmt.push('['); fmt.push('[');
flush(ctx, generator, &mut fmt, &mut args); flush(ctx, generator, &mut fmt, &mut args);
let val = ListValue::from_ptr_val(value.into_pointer_value(), llvm_usize, None); let val =
ListValue::from_pointer_value(value.into_pointer_value(), llvm_usize, None);
let len = val.load_size(ctx, None); let len = val.load_size(ctx, None);
let last = let last =
ctx.builder.build_int_sub(len, llvm_usize.const_int(1, false), "").unwrap(); ctx.builder.build_int_sub(len, llvm_usize.const_int(1, false), "").unwrap();
@ -1363,12 +1368,18 @@ fn polymorphic_print<'ctx>(
TypeEnum::TObj { obj_id, .. } if *obj_id == PrimDef::NDArray.id() => { TypeEnum::TObj { obj_id, .. } if *obj_id == PrimDef::NDArray.id() => {
let (elem_ty, _) = unpack_ndarray_var_tys(&mut ctx.unifier, ty); let (elem_ty, _) = unpack_ndarray_var_tys(&mut ctx.unifier, ty);
let llvm_elem_ty = ctx.get_llvm_type(generator, elem_ty);
fmt.push_str("array(["); fmt.push_str("array([");
flush(ctx, generator, &mut fmt, &mut args); flush(ctx, generator, &mut fmt, &mut args);
let val = NDArrayValue::from_ptr_val(value.into_pointer_value(), llvm_usize, None); let val = NDArrayValue::from_pointer_value(
let len = call_ndarray_calc_size(generator, ctx, &val.dim_sizes(), (None, None)); value.into_pointer_value(),
llvm_elem_ty,
llvm_usize,
None,
);
let len = call_ndarray_calc_size(generator, ctx, &val.shape(), (None, None));
let last = let last =
ctx.builder.build_int_sub(len, llvm_usize.const_int(1, false), "").unwrap(); ctx.builder.build_int_sub(len, llvm_usize.const_int(1, false), "").unwrap();
@ -1421,7 +1432,7 @@ fn polymorphic_print<'ctx>(
fmt.push_str("range("); fmt.push_str("range(");
flush(ctx, generator, &mut fmt, &mut args); flush(ctx, generator, &mut fmt, &mut args);
let val = RangeValue::from_ptr_val(value.into_pointer_value(), None); let val = RangeValue::from_pointer_value(value.into_pointer_value(), None);
let (start, stop, step) = destructure_range(ctx, val); let (start, stop, step) = destructure_range(ctx, val);

View File

@ -1,10 +1,4 @@
#![deny( #![deny(future_incompatible, let_underscore, nonstandard_style, clippy::all)]
future_incompatible,
let_underscore,
nonstandard_style,
rust_2024_compatibility,
clippy::all
)]
#![warn(clippy::pedantic)] #![warn(clippy::pedantic)]
#![allow( #![allow(
unsafe_op_in_unsafe_fn, unsafe_op_in_unsafe_fn,
@ -16,64 +10,65 @@
clippy::wildcard_imports clippy::wildcard_imports
)] )]
use std::collections::{HashMap, HashSet}; use std::{
use std::fs; collections::{HashMap, HashSet},
use std::io::Write; fs,
use std::process::Command; io::Write,
use std::rc::Rc; process::Command,
use std::sync::Arc; rc::Rc,
sync::Arc,
};
use itertools::Itertools; use itertools::Itertools;
use nac3core::codegen::{gen_func_impl, CodeGenLLVMOptions, CodeGenTargetMachineOptions}; use parking_lot::{Mutex, RwLock};
use nac3core::inkwell::{ use pyo3::{
create_exception, exceptions,
prelude::*,
types::{PyBytes, PyDict, PyNone, PySet},
};
use tempfile::{self, TempDir};
use nac3core::{
codegen::{
concrete_type::ConcreteTypeStore, gen_func_impl, irrt::load_irrt, CodeGenLLVMOptions,
CodeGenTargetMachineOptions, CodeGenTask, CodeGenerator, WithCall, WorkerRegistry,
},
inkwell::{
context::Context, context::Context,
memory_buffer::MemoryBuffer, memory_buffer::MemoryBuffer,
module::{Linkage, Module}, module::{FlagBehavior, Linkage, Module},
passes::PassBuilderOptions, passes::PassBuilderOptions,
support::is_multithreaded, support::is_multithreaded,
targets::*, targets::*,
OptimizationLevel, OptimizationLevel,
}; },
use nac3core::toplevel::builtins::get_exn_constructor; nac3parser::{
use nac3core::typecheck::typedef::{into_var_map, TypeEnum, Unifier, VarMap};
use nac3core::nac3parser::{
ast::{Constant, ExprKind, Located, Stmt, StmtKind, StrRef}, ast::{Constant, ExprKind, Located, Stmt, StmtKind, StrRef},
parser::parse_program, parser::parse_program,
}; },
use pyo3::create_exception;
use pyo3::prelude::*;
use pyo3::{exceptions, types::PyBytes, types::PyDict, types::PySet};
use parking_lot::{Mutex, RwLock};
use nac3core::{
codegen::irrt::load_irrt,
codegen::{concrete_type::ConcreteTypeStore, CodeGenTask, WithCall, WorkerRegistry},
symbol_resolver::SymbolResolver, symbol_resolver::SymbolResolver,
toplevel::{ toplevel::{
builtins::get_exn_constructor,
composer::{BuiltinFuncCreator, BuiltinFuncSpec, ComposerConfig, TopLevelComposer}, composer::{BuiltinFuncCreator, BuiltinFuncSpec, ComposerConfig, TopLevelComposer},
DefinitionId, GenCall, TopLevelDef, DefinitionId, GenCall, TopLevelDef,
}, },
typecheck::typedef::{FunSignature, FuncArg}, typecheck::{
typecheck::{type_inferencer::PrimitiveStore, typedef::Type}, type_inferencer::PrimitiveStore,
typedef::{into_var_map, FunSignature, FuncArg, Type, TypeEnum, Unifier, VarMap},
},
}; };
use nac3ld::Linker; use nac3ld::Linker;
use crate::{ use codegen::{
codegen::{
attributes_writeback, gen_core_log, gen_rtio_log, rpc_codegen_callback, ArtiqCodeGenerator, attributes_writeback, gen_core_log, gen_rtio_log, rpc_codegen_callback, ArtiqCodeGenerator,
},
symbol_resolver::{DeferredEvaluationStore, InnerResolver, PythonHelper, Resolver},
}; };
use tempfile::{self, TempDir}; use symbol_resolver::{DeferredEvaluationStore, InnerResolver, PythonHelper, Resolver};
use timeline::TimeFns;
mod codegen; mod codegen;
mod symbol_resolver; mod symbol_resolver;
mod timeline; mod timeline;
use timeline::TimeFns;
#[derive(PartialEq, Clone, Copy)] #[derive(PartialEq, Clone, Copy)]
enum Isa { enum Isa {
Host, Host,
@ -147,14 +142,32 @@ impl Nac3 {
module: &PyObject, module: &PyObject,
registered_class_ids: &HashSet<u64>, registered_class_ids: &HashSet<u64>,
) -> PyResult<()> { ) -> PyResult<()> {
let (module_name, source_file) = Python::with_gil(|py| -> PyResult<(String, String)> { let (module_name, source_file, source) =
Python::with_gil(|py| -> PyResult<(String, String, String)> {
let module: &PyAny = module.extract(py)?; let module: &PyAny = module.extract(py)?;
Ok((module.getattr("__name__")?.extract()?, module.getattr("__file__")?.extract()?)) let source_file = module.getattr("__file__");
let (source_file, source) = if let Ok(source_file) = source_file {
let source_file = source_file.extract()?;
(
source_file,
fs::read_to_string(source_file).map_err(|e| {
exceptions::PyIOError::new_err(format!(
"failed to read input file: {e}"
))
})?,
)
} else {
// kernels submitted by content have no file
// but still can provide source by StringLoader
let get_src_fn = module
.getattr("__loader__")?
.extract::<PyObject>()?
.getattr(py, "get_source")?;
("<expcontent>", get_src_fn.call1(py, (PyNone::get(py),))?.extract(py)?)
};
Ok((module.getattr("__name__")?.extract()?, source_file.to_string(), source))
})?; })?;
let source = fs::read_to_string(&source_file).map_err(|e| {
exceptions::PyIOError::new_err(format!("failed to read input file: {e}"))
})?;
let parser_result = parse_program(&source, source_file.into()) let parser_result = parse_program(&source, source_file.into())
.map_err(|e| exceptions::PySyntaxError::new_err(format!("parse error: {e}")))?; .map_err(|e| exceptions::PySyntaxError::new_err(format!("parse error: {e}")))?;
@ -647,6 +660,11 @@ impl Nac3 {
} }
} }
} }
TopLevelDef::Variable { .. } => {
return Err(CompileError::new_err(String::from(
"Unsupported @rpc annotation on global variable",
)))
}
} }
} }
} }
@ -667,33 +685,12 @@ impl Nac3 {
let task = CodeGenTask { let task = CodeGenTask {
subst: Vec::default(), subst: Vec::default(),
symbol_name: "__modinit__".to_string(), symbol_name: "__modinit__".to_string(),
body: instance.body,
signature,
resolver: resolver.clone(),
store,
unifier_index: instance.unifier_id,
calls: instance.calls,
id: 0,
};
let mut store = ConcreteTypeStore::new();
let mut cache = HashMap::new();
let signature = store.from_signature(
&mut composer.unifier,
&self.primitive,
&fun_signature,
&mut cache,
);
let signature = store.add_cty(signature);
let attributes_writeback_task = CodeGenTask {
subst: Vec::default(),
symbol_name: "attributes_writeback".to_string(),
body: Arc::new(Vec::default()), body: Arc::new(Vec::default()),
signature, signature,
resolver, resolver,
store, store,
unifier_index: instance.unifier_id, unifier_index: instance.unifier_id,
calls: Arc::new(HashMap::default()), calls: instance.calls,
id: 0, id: 0,
}; };
@ -717,19 +714,27 @@ impl Nac3 {
.collect(); .collect();
let membuffer = membuffers.clone(); let membuffer = membuffers.clone();
let mut has_return = false;
py.allow_threads(|| { py.allow_threads(|| {
let (registry, handles) = let (registry, handles) =
WorkerRegistry::create_workers(threads, top_level.clone(), &self.llvm_options, &f); WorkerRegistry::create_workers(threads, top_level.clone(), &self.llvm_options, &f);
registry.add_task(task);
registry.wait_tasks_complete(handles);
let mut generator = let mut generator = ArtiqCodeGenerator::new("main".to_string(), size_t, self.time_fns);
ArtiqCodeGenerator::new("attributes_writeback".to_string(), size_t, self.time_fns);
let context = Context::create(); let context = Context::create();
let module = context.create_module("attributes_writeback"); let module = context.create_module("main");
let target_machine = self.llvm_options.create_target_machine().unwrap(); let target_machine = self.llvm_options.create_target_machine().unwrap();
module.set_data_layout(&target_machine.get_target_data().get_data_layout()); module.set_data_layout(&target_machine.get_target_data().get_data_layout());
module.set_triple(&target_machine.get_triple()); module.set_triple(&target_machine.get_triple());
module.add_basic_value_flag(
"Debug Info Version",
FlagBehavior::Warning,
context.i32_type().const_int(3, false),
);
module.add_basic_value_flag(
"Dwarf Version",
FlagBehavior::Warning,
context.i32_type().const_int(4, false),
);
let builder = context.create_builder(); let builder = context.create_builder();
let (_, module, _) = gen_func_impl( let (_, module, _) = gen_func_impl(
&context, &context,
@ -737,9 +742,27 @@ impl Nac3 {
&registry, &registry,
builder, builder,
module, module,
attributes_writeback_task, task,
|generator, ctx| { |generator, ctx| {
attributes_writeback(ctx, generator, inner_resolver.as_ref(), &host_attributes) assert_eq!(instance.body.len(), 1, "toplevel module should have 1 statement");
let StmtKind::Expr { value: ref expr, .. } = instance.body[0].node else {
unreachable!("toplevel statement must be an expression")
};
let ExprKind::Call { .. } = expr.node else {
unreachable!("toplevel expression must be a function call")
};
let return_obj =
generator.gen_expr(ctx, expr)?.map(|value| (expr.custom.unwrap(), value));
has_return = return_obj.is_some();
registry.wait_tasks_complete(handles);
attributes_writeback(
ctx,
generator,
inner_resolver.as_ref(),
&host_attributes,
return_obj,
)
}, },
) )
.unwrap(); .unwrap();
@ -748,35 +771,23 @@ impl Nac3 {
membuffer.lock().push(buffer); membuffer.lock().push(buffer);
}); });
embedding_map.setattr("expects_return", has_return).unwrap();
// Link all modules into `main`. // Link all modules into `main`.
let buffers = membuffers.lock(); let buffers = membuffers.lock();
let main = context let main = context
.create_module_from_ir(MemoryBuffer::create_from_memory_range(&buffers[0], "main")) .create_module_from_ir(MemoryBuffer::create_from_memory_range(
buffers.last().unwrap(),
"main",
))
.unwrap(); .unwrap();
for buffer in buffers.iter().skip(1) { for buffer in buffers.iter().rev().skip(1) {
let other = context let other = context
.create_module_from_ir(MemoryBuffer::create_from_memory_range(buffer, "main")) .create_module_from_ir(MemoryBuffer::create_from_memory_range(buffer, "main"))
.unwrap(); .unwrap();
main.link_in_module(other).map_err(|err| CompileError::new_err(err.to_string()))?; main.link_in_module(other).map_err(|err| CompileError::new_err(err.to_string()))?;
} }
let builder = context.create_builder();
let modinit_return = main
.get_function("__modinit__")
.unwrap()
.get_last_basic_block()
.unwrap()
.get_terminator()
.unwrap();
builder.position_before(&modinit_return);
builder
.build_call(
main.get_function("attributes_writeback").unwrap(),
&[],
"attributes_writeback",
)
.unwrap();
main.link_in_module(irrt).map_err(|err| CompileError::new_err(err.to_string()))?; main.link_in_module(irrt).map_err(|err| CompileError::new_err(err.to_string()))?;
let mut function_iter = main.get_first_function(); let mut function_iter = main.get_first_function();
@ -1079,7 +1090,12 @@ impl Nac3 {
}) })
} }
fn analyze(&mut self, functions: &PySet, classes: &PySet) -> PyResult<()> { fn analyze(
&mut self,
functions: &PySet,
classes: &PySet,
content_modules: &PySet,
) -> PyResult<()> {
let (modules, class_ids) = let (modules, class_ids) =
Python::with_gil(|py| -> PyResult<(HashMap<u64, PyObject>, HashSet<u64>)> { Python::with_gil(|py| -> PyResult<(HashMap<u64, PyObject>, HashSet<u64>)> {
let mut modules: HashMap<u64, PyObject> = HashMap::new(); let mut modules: HashMap<u64, PyObject> = HashMap::new();
@ -1089,14 +1105,22 @@ impl Nac3 {
let getmodule_fn = PyModule::import(py, "inspect")?.getattr("getmodule")?; let getmodule_fn = PyModule::import(py, "inspect")?.getattr("getmodule")?;
for function in functions { for function in functions {
let module = getmodule_fn.call1((function,))?.extract()?; let module: PyObject = getmodule_fn.call1((function,))?.extract()?;
if !module.is_none(py) {
modules.insert(id_fn.call1((&module,))?.extract()?, module); modules.insert(id_fn.call1((&module,))?.extract()?, module);
} }
}
for class in classes { for class in classes {
let module = getmodule_fn.call1((class,))?.extract()?; let module: PyObject = getmodule_fn.call1((class,))?.extract()?;
if !module.is_none(py) {
modules.insert(id_fn.call1((&module,))?.extract()?, module); modules.insert(id_fn.call1((&module,))?.extract()?, module);
}
class_ids.insert(id_fn.call1((class,))?.extract()?); class_ids.insert(id_fn.call1((class,))?.extract()?);
} }
for module in content_modules {
let module: PyObject = module.extract()?;
modules.insert(id_fn.call1((&module,))?.extract()?, module);
}
Ok((modules, class_ids)) Ok((modules, class_ids))
})?; })?;

View File

@ -1,17 +1,30 @@
use crate::PrimitivePythonId; use std::{
collections::{HashMap, HashSet},
sync::{
atomic::{AtomicBool, Ordering::Relaxed},
Arc,
},
};
use itertools::Itertools; use itertools::Itertools;
use nac3core::inkwell::{ use parking_lot::RwLock;
use pyo3::{
types::{PyDict, PyTuple},
PyAny, PyObject, PyResult, Python,
};
use nac3core::{
codegen::{
types::{NDArrayType, ProxyType},
CodeGenContext, CodeGenerator,
},
inkwell::{
module::Linkage, module::Linkage,
types::{BasicType, BasicTypeEnum}, types::{BasicType, BasicTypeEnum},
values::BasicValueEnum, values::BasicValueEnum,
AddressSpace, AddressSpace,
};
use nac3core::nac3parser::ast::{self, StrRef};
use nac3core::{
codegen::{
classes::{NDArrayType, ProxyType},
CodeGenContext, CodeGenerator,
}, },
nac3parser::ast::{self, StrRef},
symbol_resolver::{StaticValue, SymbolResolver, SymbolValue, ValueEnum}, symbol_resolver::{StaticValue, SymbolResolver, SymbolValue, ValueEnum},
toplevel::{ toplevel::{
helper::PrimDef, helper::PrimDef,
@ -23,18 +36,8 @@ use nac3core::{
typedef::{into_var_map, iter_type_vars, Type, TypeEnum, TypeVar, Unifier, VarMap}, typedef::{into_var_map, iter_type_vars, Type, TypeEnum, TypeVar, Unifier, VarMap},
}, },
}; };
use parking_lot::RwLock;
use pyo3::{ use super::PrimitivePythonId;
types::{PyDict, PyTuple},
PyAny, PyObject, PyResult, Python,
};
use std::{
collections::{HashMap, HashSet},
sync::{
atomic::{AtomicBool, Ordering::Relaxed},
Arc,
},
};
pub enum PrimitiveValue { pub enum PrimitiveValue {
I32(i32), I32(i32),
@ -1093,7 +1096,7 @@ impl InnerResolver {
if self.global_value_ids.read().contains_key(&id) { if self.global_value_ids.read().contains_key(&id) {
let global = ctx.module.get_global(&id_str).unwrap_or_else(|| { let global = ctx.module.get_global(&id_str).unwrap_or_else(|| {
ctx.module.add_global( ctx.module.add_global(
ndarray_llvm_ty.as_underlying_type(), ndarray_llvm_ty.as_base_type().get_element_type().into_struct_type(),
Some(AddressSpace::default()), Some(AddressSpace::default()),
&id_str, &id_str,
) )
@ -1187,7 +1190,11 @@ impl InnerResolver {
data_global.set_initializer(&data); data_global.set_initializer(&data);
// create a global for the ndarray object and initialize it // create a global for the ndarray object and initialize it
let value = ndarray_llvm_ty.as_underlying_type().const_named_struct(&[ let value = ndarray_llvm_ty
.as_base_type()
.get_element_type()
.into_struct_type()
.const_named_struct(&[
llvm_usize.const_int(ndarray_ndims, false).into(), llvm_usize.const_int(ndarray_ndims, false).into(),
shape_global shape_global
.as_pointer_value() .as_pointer_value()
@ -1200,7 +1207,7 @@ impl InnerResolver {
]); ]);
let ndarray = ctx.module.add_global( let ndarray = ctx.module.add_global(
ndarray_llvm_ty.as_underlying_type(), ndarray_llvm_ty.as_base_type().get_element_type().into_struct_type(),
Some(AddressSpace::default()), Some(AddressSpace::default()),
&id_str, &id_str,
); );
@ -1467,6 +1474,7 @@ impl SymbolResolver for Resolver {
&self, &self,
id: StrRef, id: StrRef,
_: &mut CodeGenContext<'ctx, '_>, _: &mut CodeGenContext<'ctx, '_>,
_: &mut dyn CodeGenerator,
) -> Option<ValueEnum<'ctx>> { ) -> Option<ValueEnum<'ctx>> {
let sym_value = { let sym_value = {
let id_to_val = self.0.id_to_pyval.read(); let id_to_val = self.0.id_to_pyval.read();

View File

@ -1,8 +1,11 @@
use itertools::Either; use itertools::Either;
use nac3core::codegen::CodeGenContext;
use nac3core::inkwell::{ use nac3core::{
codegen::CodeGenContext,
inkwell::{
values::{BasicValueEnum, CallSiteValue}, values::{BasicValueEnum, CallSiteValue},
AddressSpace, AtomicOrdering, AddressSpace, AtomicOrdering,
},
}; };
/// Functions for manipulating the timeline. /// Functions for manipulating the timeline.

View File

@ -10,7 +10,6 @@ constant-optimization = ["fold"]
fold = [] fold = []
[dependencies] [dependencies]
lazy_static = "1.5"
parking_lot = "0.12" parking_lot = "0.12"
string-interner = "0.17" string-interner = "0.17"
fxhash = "0.2" fxhash = "0.2"

View File

@ -5,14 +5,12 @@ pub use crate::location::Location;
use fxhash::FxBuildHasher; use fxhash::FxBuildHasher;
use parking_lot::{Mutex, MutexGuard}; use parking_lot::{Mutex, MutexGuard};
use std::{cell::RefCell, collections::HashMap, fmt}; use std::{cell::RefCell, collections::HashMap, fmt, sync::LazyLock};
use string_interner::{symbol::SymbolU32, DefaultBackend, StringInterner}; use string_interner::{symbol::SymbolU32, DefaultBackend, StringInterner};
pub type Interner = StringInterner<DefaultBackend, FxBuildHasher>; pub type Interner = StringInterner<DefaultBackend, FxBuildHasher>;
lazy_static! { static INTERNER: LazyLock<Mutex<Interner>> =
static ref INTERNER: Mutex<Interner> = LazyLock::new(|| Mutex::new(StringInterner::with_hasher(FxBuildHasher::default())));
Mutex::new(StringInterner::with_hasher(FxBuildHasher::default()));
}
thread_local! { thread_local! {
static LOCAL_INTERNER: RefCell<HashMap<String, StrRef>> = RefCell::default(); static LOCAL_INTERNER: RefCell<HashMap<String, StrRef>> = RefCell::default();

View File

@ -1,10 +1,4 @@
#![deny( #![deny(future_incompatible, let_underscore, nonstandard_style, clippy::all)]
future_incompatible,
let_underscore,
nonstandard_style,
rust_2024_compatibility,
clippy::all
)]
#![warn(clippy::pedantic)] #![warn(clippy::pedantic)]
#![allow( #![allow(
clippy::missing_errors_doc, clippy::missing_errors_doc,
@ -14,9 +8,6 @@
clippy::wildcard_imports clippy::wildcard_imports
)] )]
#[macro_use]
extern crate lazy_static;
mod ast_gen; mod ast_gen;
mod constant; mod constant;
#[cfg(feature = "fold")] #[cfg(feature = "fold")]

View File

@ -5,14 +5,17 @@ authors = ["M-Labs"]
edition = "2021" edition = "2021"
[features] [features]
default = ["derive"]
derive = ["dep:nac3core_derive"]
no-escape-analysis = [] no-escape-analysis = []
[dependencies] [dependencies]
itertools = "0.13" itertools = "0.13"
crossbeam = "0.8" crossbeam = "0.8"
indexmap = "2.2" indexmap = "2.6"
parking_lot = "0.12" parking_lot = "0.12"
rayon = "1.8" rayon = "1.10"
nac3core_derive = { path = "nac3core_derive", optional = true }
nac3parser = { path = "../nac3parser" } nac3parser = { path = "../nac3parser" }
strum = "0.26" strum = "0.26"
strum_macros = "0.26" strum_macros = "0.26"

View File

@ -1,4 +1,3 @@
use regex::Regex;
use std::{ use std::{
env, env,
fs::File, fs::File,
@ -7,6 +6,8 @@ use std::{
process::{Command, Stdio}, process::{Command, Stdio},
}; };
use regex::Regex;
fn main() { fn main() {
let out_dir = env::var("OUT_DIR").unwrap(); let out_dir = env::var("OUT_DIR").unwrap();
let out_dir = Path::new(&out_dir); let out_dir = Path::new(&out_dir);
@ -55,9 +56,8 @@ fn main() {
let output = Command::new("clang-irrt") let output = Command::new("clang-irrt")
.args(flags) .args(flags)
.output() .output()
.map(|o| { .inspect(|o| {
assert!(o.status.success(), "{}", std::str::from_utf8(&o.stderr).unwrap()); assert!(o.status.success(), "{}", std::str::from_utf8(&o.stderr).unwrap());
o
}) })
.unwrap(); .unwrap();

View File

@ -1,5 +1,4 @@
#include "irrt/exception.hpp" #include "irrt/exception.hpp"
#include "irrt/int_types.hpp"
#include "irrt/list.hpp" #include "irrt/list.hpp"
#include "irrt/math.hpp" #include "irrt/math.hpp"
#include "irrt/ndarray.hpp" #include "irrt/ndarray.hpp"

View File

@ -4,6 +4,6 @@
template<typename SizeT> template<typename SizeT>
struct CSlice { struct CSlice {
uint8_t* base; void* base;
SizeT len; SizeT len;
}; };

View File

@ -6,7 +6,7 @@
/** /**
* @brief The int type of ARTIQ exception IDs. * @brief The int type of ARTIQ exception IDs.
*/ */
typedef int32_t ExceptionId; using ExceptionId = int32_t;
/* /*
* Set of exceptions C++ IRRT can use. * Set of exceptions C++ IRRT can use.
@ -55,11 +55,14 @@ void _raise_exception_helper(ExceptionId id,
int64_t param2) { int64_t param2) {
Exception<SizeT> e = { Exception<SizeT> e = {
.id = id, .id = id,
.filename = {.base = reinterpret_cast<const uint8_t*>(filename), .len = __builtin_strlen(filename)}, .filename = {.base = reinterpret_cast<void*>(const_cast<char*>(filename)),
.len = static_cast<SizeT>(__builtin_strlen(filename))},
.line = line, .line = line,
.column = 0, .column = 0,
.function = {.base = reinterpret_cast<const uint8_t*>(function), .len = __builtin_strlen(function)}, .function = {.base = reinterpret_cast<void*>(const_cast<char*>(function)),
.msg = {.base = reinterpret_cast<const uint8_t*>(msg), .len = __builtin_strlen(msg)}, .len = static_cast<SizeT>(__builtin_strlen(function))},
.msg = {.base = reinterpret_cast<void*>(const_cast<char*>(msg)),
.len = static_cast<SizeT>(__builtin_strlen(msg))},
}; };
e.params[0] = param0; e.params[0] = param0;
e.params[1] = param1; e.params[1] = param1;
@ -67,6 +70,7 @@ void _raise_exception_helper(ExceptionId id,
__nac3_raise(reinterpret_cast<void*>(&e)); __nac3_raise(reinterpret_cast<void*>(&e));
__builtin_unreachable(); __builtin_unreachable();
} }
} // namespace
/** /**
* @brief Raise an exception with location details (location in the IRRT source files). * @brief Raise an exception with location details (location in the IRRT source files).
@ -79,4 +83,3 @@ void _raise_exception_helper(ExceptionId id,
*/ */
#define raise_exception(SizeT, id, msg, param0, param1, param2) \ #define raise_exception(SizeT, id, msg, param0, param1, param2) \
_raise_exception_helper<SizeT>(id, __FILE__, __LINE__, __FUNCTION__, msg, param0, param1, param2) _raise_exception_helper<SizeT>(id, __FILE__, __LINE__, __FUNCTION__, msg, param0, param1, param2)
} // namespace

View File

@ -8,12 +8,17 @@ using uint32_t = unsigned _BitInt(32);
using int64_t = _BitInt(64); using int64_t = _BitInt(64);
using uint64_t = unsigned _BitInt(64); using uint64_t = unsigned _BitInt(64);
#else #else
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wdeprecated-type"
using int8_t = _ExtInt(8); using int8_t = _ExtInt(8);
using uint8_t = unsigned _ExtInt(8); using uint8_t = unsigned _ExtInt(8);
using int32_t = _ExtInt(32); using int32_t = _ExtInt(32);
using uint32_t = unsigned _ExtInt(32); using uint32_t = unsigned _ExtInt(32);
using int64_t = _ExtInt(64); using int64_t = _ExtInt(64);
using uint64_t = unsigned _ExtInt(64); using uint64_t = unsigned _ExtInt(64);
#pragma clang diagnostic pop
#endif #endif
// NDArray indices are always `uint32_t`. // NDArray indices are always `uint32_t`.

View File

@ -13,12 +13,12 @@ extern "C" {
SliceIndex __nac3_list_slice_assign_var_size(SliceIndex dest_start, SliceIndex __nac3_list_slice_assign_var_size(SliceIndex dest_start,
SliceIndex dest_end, SliceIndex dest_end,
SliceIndex dest_step, SliceIndex dest_step,
uint8_t* dest_arr, void* dest_arr,
SliceIndex dest_arr_len, SliceIndex dest_arr_len,
SliceIndex src_start, SliceIndex src_start,
SliceIndex src_end, SliceIndex src_end,
SliceIndex src_step, SliceIndex src_step,
uint8_t* src_arr, void* src_arr,
SliceIndex src_arr_len, SliceIndex src_arr_len,
const SliceIndex size) { const SliceIndex size) {
/* if dest_arr_len == 0, do nothing since we do not support extending list */ /* if dest_arr_len == 0, do nothing since we do not support extending list */
@ -29,11 +29,13 @@ SliceIndex __nac3_list_slice_assign_var_size(SliceIndex dest_start,
const SliceIndex src_len = (src_end >= src_start) ? (src_end - src_start + 1) : 0; const SliceIndex src_len = (src_end >= src_start) ? (src_end - src_start + 1) : 0;
const SliceIndex dest_len = (dest_end >= dest_start) ? (dest_end - dest_start + 1) : 0; const SliceIndex dest_len = (dest_end >= dest_start) ? (dest_end - dest_start + 1) : 0;
if (src_len > 0) { if (src_len > 0) {
__builtin_memmove(dest_arr + dest_start * size, src_arr + src_start * size, src_len * size); __builtin_memmove(static_cast<uint8_t*>(dest_arr) + dest_start * size,
static_cast<uint8_t*>(src_arr) + src_start * size, src_len * size);
} }
if (dest_len > 0) { if (dest_len > 0) {
/* dropping */ /* dropping */
__builtin_memmove(dest_arr + (dest_start + src_len) * size, dest_arr + (dest_end + 1) * size, __builtin_memmove(static_cast<uint8_t*>(dest_arr) + (dest_start + src_len) * size,
static_cast<uint8_t*>(dest_arr) + (dest_end + 1) * size,
(dest_arr_len - dest_end - 1) * size); (dest_arr_len - dest_end - 1) * size);
} }
/* shrink size */ /* shrink size */
@ -44,7 +46,7 @@ SliceIndex __nac3_list_slice_assign_var_size(SliceIndex dest_start,
&& !(max(dest_start, dest_end) < min(src_start, src_end) && !(max(dest_start, dest_end) < min(src_start, src_end)
|| max(src_start, src_end) < min(dest_start, dest_end)); || max(src_start, src_end) < min(dest_start, dest_end));
if (need_alloca) { if (need_alloca) {
uint8_t* tmp = reinterpret_cast<uint8_t*>(__builtin_alloca(src_arr_len * size)); void* tmp = __builtin_alloca(src_arr_len * size);
__builtin_memcpy(tmp, src_arr, src_arr_len * size); __builtin_memcpy(tmp, src_arr, src_arr_len * size);
src_arr = tmp; src_arr = tmp;
} }
@ -53,20 +55,24 @@ SliceIndex __nac3_list_slice_assign_var_size(SliceIndex dest_start,
for (; (src_step > 0) ? (src_ind <= src_end) : (src_ind >= src_end); src_ind += src_step, dest_ind += dest_step) { for (; (src_step > 0) ? (src_ind <= src_end) : (src_ind >= src_end); src_ind += src_step, dest_ind += dest_step) {
/* for constant optimization */ /* for constant optimization */
if (size == 1) { if (size == 1) {
__builtin_memcpy(dest_arr + dest_ind, src_arr + src_ind, 1); __builtin_memcpy(static_cast<uint8_t*>(dest_arr) + dest_ind, static_cast<uint8_t*>(src_arr) + src_ind, 1);
} else if (size == 4) { } else if (size == 4) {
__builtin_memcpy(dest_arr + dest_ind * 4, src_arr + src_ind * 4, 4); __builtin_memcpy(static_cast<uint8_t*>(dest_arr) + dest_ind * 4,
static_cast<uint8_t*>(src_arr) + src_ind * 4, 4);
} else if (size == 8) { } else if (size == 8) {
__builtin_memcpy(dest_arr + dest_ind * 8, src_arr + src_ind * 8, 8); __builtin_memcpy(static_cast<uint8_t*>(dest_arr) + dest_ind * 8,
static_cast<uint8_t*>(src_arr) + src_ind * 8, 8);
} else { } else {
/* memcpy for var size, cannot overlap after previous alloca */ /* memcpy for var size, cannot overlap after previous alloca */
__builtin_memcpy(dest_arr + dest_ind * size, src_arr + src_ind * size, size); __builtin_memcpy(static_cast<uint8_t*>(dest_arr) + dest_ind * size,
static_cast<uint8_t*>(src_arr) + src_ind * size, size);
} }
} }
/* only dest_step == 1 can we shrink the dest list. */ /* only dest_step == 1 can we shrink the dest list. */
/* size should be ensured prior to calling this function */ /* size should be ensured prior to calling this function */
if (dest_step == 1 && dest_end >= dest_start) { if (dest_step == 1 && dest_end >= dest_start) {
__builtin_memmove(dest_arr + dest_ind * size, dest_arr + (dest_end + 1) * size, __builtin_memmove(static_cast<uint8_t*>(dest_arr) + dest_ind * size,
static_cast<uint8_t*>(dest_arr) + (dest_end + 1) * size,
(dest_arr_len - dest_end - 1) * size); (dest_arr_len - dest_end - 1) * size);
return dest_arr_len - (dest_end - dest_ind) - 1; return dest_arr_len - (dest_end - dest_ind) - 1;
} }

View File

@ -90,4 +90,4 @@ double __nac3_j0(double x) {
return j0(x); return j0(x);
} }
} } // namespace

View File

@ -141,4 +141,4 @@ void __nac3_ndarray_calc_broadcast_idx64(const uint64_t* src_dims,
NDIndex* out_idx) { NDIndex* out_idx) {
__nac3_ndarray_calc_broadcast_idx_impl(src_dims, src_ndims, in_idx, out_idx); __nac3_ndarray_calc_broadcast_idx_impl(src_dims, src_ndims, in_idx, out_idx);
} }
} } // namespace

View File

@ -25,4 +25,4 @@ SliceIndex __nac3_range_slice_len(const SliceIndex start, const SliceIndex end,
return 0; return 0;
} }
} }
} } // namespace

View File

@ -0,0 +1,21 @@
[package]
name = "nac3core_derive"
version = "0.1.0"
edition = "2021"
[lib]
proc-macro = true
[[test]]
name = "structfields_tests"
path = "tests/structfields_test.rs"
[dev-dependencies]
nac3core = { path = ".." }
trybuild = { version = "1.0", features = ["diff"] }
[dependencies]
proc-macro2 = "1.0"
proc-macro-error = "1.0"
syn = "2.0"
quote = "1.0"

View File

@ -0,0 +1,320 @@
use proc_macro::TokenStream;
use proc_macro_error::{abort, proc_macro_error};
use quote::quote;
use syn::{
parse_macro_input, spanned::Spanned, Data, DataStruct, Expr, ExprField, ExprMethodCall,
ExprPath, GenericArgument, Ident, LitStr, Path, PathArguments, Type, TypePath,
};
/// Extracts all generic arguments of a [`Type`] into a [`Vec`].
///
/// Returns [`Some`] of a possibly-empty [`Vec`] if the path of `ty` matches with
/// `expected_ty_name`, otherwise returns [`None`].
fn extract_generic_args(expected_ty_name: &'static str, ty: &Type) -> Option<Vec<GenericArgument>> {
let Type::Path(TypePath { qself: None, path, .. }) = ty else {
return None;
};
let segments = &path.segments;
if segments.len() != 1 {
return None;
};
let segment = segments.iter().next().unwrap();
if segment.ident != expected_ty_name {
return None;
}
let PathArguments::AngleBracketed(path_args) = &segment.arguments else {
return Some(Vec::new());
};
let args = &path_args.args;
Some(args.iter().cloned().collect::<Vec<_>>())
}
/// Maps a `path` matching one of the `target_idents` into the `replacement` [`Ident`].
fn map_path_to_ident(path: &Path, target_idents: &[&str], replacement: &str) -> Option<Ident> {
path.require_ident()
.ok()
.filter(|ident| target_idents.iter().any(|target| ident == target))
.map(|ident| Ident::new(replacement, ident.span()))
}
/// Extracts the left-hand side of a dot-expression.
fn extract_dot_operand(expr: &Expr) -> Option<&Expr> {
match expr {
Expr::MethodCall(ExprMethodCall { receiver: operand, .. })
| Expr::Field(ExprField { base: operand, .. }) => Some(operand),
_ => None,
}
}
/// Replaces the top-level receiver of a dot-expression with an [`Ident`], returning `Some(&mut expr)` if the
/// replacement is performed.
///
/// The top-level receiver is the left-most receiver expression, e.g. the top-level receiver of `a.b.c.foo()` is `a`.
fn replace_top_level_receiver(expr: &mut Expr, ident: Ident) -> Option<&mut Expr> {
if let Expr::MethodCall(ExprMethodCall { receiver: operand, .. })
| Expr::Field(ExprField { base: operand, .. }) = expr
{
return if extract_dot_operand(operand).is_some() {
if replace_top_level_receiver(operand, ident).is_some() {
Some(expr)
} else {
None
}
} else {
*operand = Box::new(Expr::Path(ExprPath {
attrs: Vec::default(),
qself: None,
path: ident.into(),
}));
Some(expr)
};
}
None
}
/// Iterates all operands to the left-hand side of the `.` of an [expression][`Expr`], i.e. the container operand of all
/// [`Expr::Field`] and the receiver operand of all [`Expr::MethodCall`].
///
/// The iterator will return the operand expressions in reverse order of appearance. For example, `a.b.c.func()` will
/// return `vec![c, b, a]`.
fn iter_dot_operands(expr: &Expr) -> impl Iterator<Item = &Expr> {
let mut o = extract_dot_operand(expr);
std::iter::from_fn(move || {
let this = o;
o = o.as_ref().and_then(|o| extract_dot_operand(o));
this
})
}
/// Normalizes a value expression for use when creating an instance of this structure, returning a
/// [`proc_macro2::TokenStream`] of tokens representing the normalized expression.
fn normalize_value_expr(expr: &Expr) -> proc_macro2::TokenStream {
match &expr {
Expr::Path(ExprPath { qself: None, path, .. }) => {
if let Some(ident) = map_path_to_ident(path, &["usize", "size_t"], "llvm_usize") {
quote! { #ident }
} else {
abort!(
path,
format!(
"Expected one of `size_t`, `usize`, or an implicit call expression in #[value_type(...)], found {}",
quote!(#expr).to_string(),
)
)
}
}
Expr::Call(_) => {
quote! { ctx.#expr }
}
Expr::MethodCall(_) => {
let base_receiver = iter_dot_operands(expr).last();
match base_receiver {
// `usize.{...}`, `size_t.{...}` -> Rewrite the identifiers to `llvm_usize`
Some(Expr::Path(ExprPath { qself: None, path, .. }))
if map_path_to_ident(path, &["usize", "size_t"], "llvm_usize").is_some() =>
{
let ident =
map_path_to_ident(path, &["usize", "size_t"], "llvm_usize").unwrap();
let mut expr = expr.clone();
let expr = replace_top_level_receiver(&mut expr, ident).unwrap();
quote!(#expr)
}
// `ctx.{...}`, `context.{...}` -> Rewrite the identifiers to `ctx`
Some(Expr::Path(ExprPath { qself: None, path, .. }))
if map_path_to_ident(path, &["ctx", "context"], "ctx").is_some() =>
{
let ident = map_path_to_ident(path, &["ctx", "context"], "ctx").unwrap();
let mut expr = expr.clone();
let expr = replace_top_level_receiver(&mut expr, ident).unwrap();
quote!(#expr)
}
// No reserved identifier prefix -> Prepend `ctx.` to the entire expression
_ => quote! { ctx.#expr },
}
}
_ => {
abort!(
expr,
format!(
"Expected one of `size_t`, `usize`, or an implicit call expression in #[value_type(...)], found {}",
quote!(#expr).to_string(),
)
)
}
}
}
/// Derives an implementation of `codegen::types::structure::StructFields`.
///
/// The benefit of using `#[derive(StructFields)]` is that all index- or order-dependent logic required by
/// `impl StructFields` is automatically generated by this implementation, including the field index as required by
/// `StructField::new` and the fields as returned by `StructFields::to_vec`.
///
/// # Prerequisites
///
/// In order to derive from [`StructFields`], you must implement (or derive) [`Eq`] and [`Copy`] as required by
/// `StructFields`.
///
/// Moreover, `#[derive(StructFields)]` can only be used for `struct`s with named fields, and may only contain fields
/// with either `StructField` or [`PhantomData`] types.
///
/// # Attributes for [`StructFields`]
///
/// Each `StructField` field must be declared with the `#[value_type(...)]` attribute. The argument of `value_type`
/// accepts one of the following:
///
/// - An expression returning an instance of `inkwell::types::BasicType` (with or without the receiver `ctx`/`context`).
/// For example, `context.i8_type()`, `ctx.i8_type()`, and `i8_type()` all refer to `i8`.
/// - The reserved identifiers `usize` and `size_t` referring to an `inkwell::types::IntType` of the platform-dependent
/// integer size. `usize` and `size_t` can also be used as the receiver to other method calls, e.g.
/// `usize.array_type(3)`.
///
/// # Example
///
/// The following is an example of an LLVM slice implemented using `#[derive(StructFields)]`.
///
/// ```rust,ignore
/// use nac3core::{
/// codegen::types::structure::StructField,
/// inkwell::{
/// values::{IntValue, PointerValue},
/// AddressSpace,
/// },
/// };
/// use nac3core_derive::StructFields;
///
/// // All classes that implement StructFields must also implement Eq and Copy
/// #[derive(PartialEq, Eq, Clone, Copy, StructFields)]
/// pub struct SliceValue<'ctx> {
/// // Declares ptr have a value type of i8*
/// //
/// // Can also be written as `ctx.i8_type().ptr_type(...)` or `context.i8_type().ptr_type(...)`
/// #[value_type(i8_type().ptr_type(AddressSpace::default()))]
/// ptr: StructField<'ctx, PointerValue<'ctx>>,
///
/// // Declares len have a value type of usize, depending on the target compilation platform
/// #[value_type(usize)]
/// len: StructField<'ctx, IntValue<'ctx>>,
/// }
/// ```
#[proc_macro_derive(StructFields, attributes(value_type))]
#[proc_macro_error]
pub fn derive(input: TokenStream) -> TokenStream {
let input = parse_macro_input!(input as syn::DeriveInput);
let ident = &input.ident;
let Data::Struct(DataStruct { fields, .. }) = &input.data else {
abort!(input, "Only structs with named fields are supported");
};
if let Err(err_span) =
fields
.iter()
.try_for_each(|field| if field.ident.is_some() { Ok(()) } else { Err(field.span()) })
{
abort!(err_span, "Only structs with named fields are supported");
};
// Check if struct<'ctx>
if input.generics.params.len() != 1 {
abort!(input.generics, "Expected exactly 1 generic parameter")
}
let phantom_info = fields
.iter()
.filter(|field| extract_generic_args("PhantomData", &field.ty).is_some())
.map(|field| field.ident.as_ref().unwrap())
.cloned()
.collect::<Vec<_>>();
let field_info = fields
.iter()
.filter(|field| extract_generic_args("PhantomData", &field.ty).is_none())
.map(|field| {
let ident = field.ident.as_ref().unwrap();
let ty = &field.ty;
let Some(_) = extract_generic_args("StructField", ty) else {
abort!(field, "Only StructField and PhantomData are allowed")
};
let attrs = &field.attrs;
let Some(value_type_attr) =
attrs.iter().find(|attr| attr.path().is_ident("value_type"))
else {
abort!(field, "Expected #[value_type(...)] attribute for field");
};
let Ok(value_type_expr) = value_type_attr.parse_args::<Expr>() else {
abort!(value_type_attr, "Expected expression in #[value_type(...)]");
};
let value_expr_toks = normalize_value_expr(&value_type_expr);
(ident.clone(), value_expr_toks)
})
.collect::<Vec<_>>();
// `<*>::new` impl of `StructField` and `PhantomData` for `StructFields::new`
let phantoms_create = phantom_info
.iter()
.map(|id| quote! { #id: ::std::marker::PhantomData })
.collect::<Vec<_>>();
let fields_create = field_info
.iter()
.map(|(id, ty)| {
let id_lit = LitStr::new(&id.to_string(), id.span());
quote! {
#id: ::nac3core::codegen::types::structure::StructField::create(
&mut counter,
#id_lit,
#ty,
)
}
})
.collect::<Vec<_>>();
// `.into()` impl of `StructField` for `StructFields::to_vec`
let fields_into =
field_info.iter().map(|(id, _)| quote! { self.#id.into() }).collect::<Vec<_>>();
let impl_block = quote! {
impl<'ctx> ::nac3core::codegen::types::structure::StructFields<'ctx> for #ident<'ctx> {
fn new(ctx: impl ::nac3core::inkwell::context::AsContextRef<'ctx>, llvm_usize: ::nac3core::inkwell::types::IntType<'ctx>) -> Self {
let ctx = unsafe { ::nac3core::inkwell::context::ContextRef::new(ctx.as_ctx_ref()) };
let mut counter = ::nac3core::codegen::types::structure::FieldIndexCounter::default();
#ident {
#(#fields_create),*
#(#phantoms_create),*
}
}
fn to_vec(&self) -> ::std::vec::Vec<(&'static str, ::nac3core::inkwell::types::BasicTypeEnum<'ctx>)> {
vec![
#(#fields_into),*
]
}
}
};
impl_block.into()
}

View File

@ -0,0 +1,9 @@
use nac3core_derive::StructFields;
use std::marker::PhantomData;
#[derive(PartialEq, Eq, Clone, Copy, StructFields)]
pub struct EmptyValue<'ctx> {
_phantom: PhantomData<&'ctx ()>,
}
fn main() {}

View File

@ -0,0 +1,20 @@
use nac3core::{
codegen::types::structure::StructField,
inkwell::{
values::{IntValue, PointerValue},
AddressSpace,
},
};
use nac3core_derive::StructFields;
#[derive(PartialEq, Eq, Clone, Copy, StructFields)]
pub struct NDArrayValue<'ctx> {
#[value_type(usize)]
ndims: StructField<'ctx, IntValue<'ctx>>,
#[value_type(usize.ptr_type(AddressSpace::default()))]
shape: StructField<'ctx, PointerValue<'ctx>>,
#[value_type(i8_type().ptr_type(AddressSpace::default()))]
data: StructField<'ctx, PointerValue<'ctx>>,
}
fn main() {}

View File

@ -0,0 +1,18 @@
use nac3core::{
codegen::types::structure::StructField,
inkwell::{
values::{IntValue, PointerValue},
AddressSpace,
},
};
use nac3core_derive::StructFields;
#[derive(PartialEq, Eq, Clone, Copy, StructFields)]
pub struct SliceValue<'ctx> {
#[value_type(i8_type().ptr_type(AddressSpace::default()))]
ptr: StructField<'ctx, PointerValue<'ctx>>,
#[value_type(usize)]
len: StructField<'ctx, IntValue<'ctx>>,
}
fn main() {}

View File

@ -0,0 +1,18 @@
use nac3core::{
codegen::types::structure::StructField,
inkwell::{
values::{IntValue, PointerValue},
AddressSpace,
},
};
use nac3core_derive::StructFields;
#[derive(PartialEq, Eq, Clone, Copy, StructFields)]
pub struct SliceValue<'ctx> {
#[value_type(context.i8_type().ptr_type(AddressSpace::default()))]
ptr: StructField<'ctx, PointerValue<'ctx>>,
#[value_type(usize)]
len: StructField<'ctx, IntValue<'ctx>>,
}
fn main() {}

View File

@ -0,0 +1,18 @@
use nac3core::{
codegen::types::structure::StructField,
inkwell::{
values::{IntValue, PointerValue},
AddressSpace,
},
};
use nac3core_derive::StructFields;
#[derive(PartialEq, Eq, Clone, Copy, StructFields)]
pub struct SliceValue<'ctx> {
#[value_type(ctx.i8_type().ptr_type(AddressSpace::default()))]
ptr: StructField<'ctx, PointerValue<'ctx>>,
#[value_type(usize)]
len: StructField<'ctx, IntValue<'ctx>>,
}
fn main() {}

View File

@ -0,0 +1,18 @@
use nac3core::{
codegen::types::structure::StructField,
inkwell::{
values::{IntValue, PointerValue},
AddressSpace,
},
};
use nac3core_derive::StructFields;
#[derive(PartialEq, Eq, Clone, Copy, StructFields)]
pub struct SliceValue<'ctx> {
#[value_type(i8_type().ptr_type(AddressSpace::default()))]
ptr: StructField<'ctx, PointerValue<'ctx>>,
#[value_type(size_t)]
len: StructField<'ctx, IntValue<'ctx>>,
}
fn main() {}

View File

@ -0,0 +1,10 @@
#[test]
fn test_parse_empty() {
let t = trybuild::TestCases::new();
t.pass("tests/structfields_empty.rs");
t.pass("tests/structfields_slice.rs");
t.pass("tests/structfields_slice_ctx.rs");
t.pass("tests/structfields_slice_context.rs");
t.pass("tests/structfields_slice_sizet.rs");
t.pass("tests/structfields_ndarray.rs");
}

View File

@ -1,21 +1,32 @@
use inkwell::types::BasicTypeEnum; use inkwell::{
use inkwell::values::{BasicValue, BasicValueEnum, IntValue, PointerValue}; types::BasicTypeEnum,
use inkwell::{FloatPredicate, IntPredicate, OptimizationLevel}; values::{BasicValue, BasicValueEnum, IntValue, PointerValue},
FloatPredicate, IntPredicate, OptimizationLevel,
};
use itertools::Itertools; use itertools::Itertools;
use crate::codegen::classes::{ use super::{
expr::destructure_range,
extern_fns, irrt,
irrt::calculate_len_for_slice_range,
llvm_intrinsics,
macros::codegen_unreachable,
numpy,
numpy::ndarray_elementwise_unaryop_impl,
stmt::gen_for_callback_incrementing,
values::{
ArrayLikeValue, NDArrayValue, ProxyValue, RangeValue, TypedArrayLikeAccessor, ArrayLikeValue, NDArrayValue, ProxyValue, RangeValue, TypedArrayLikeAccessor,
UntypedArrayLikeAccessor, UntypedArrayLikeMutator, UntypedArrayLikeAccessor, UntypedArrayLikeMutator,
},
CodeGenContext, CodeGenerator,
};
use crate::{
toplevel::{
helper::{arraylike_flatten_element_type, PrimDef},
numpy::unpack_ndarray_var_tys,
},
typecheck::typedef::{Type, TypeEnum},
}; };
use crate::codegen::expr::destructure_range;
use crate::codegen::irrt::calculate_len_for_slice_range;
use crate::codegen::macros::codegen_unreachable;
use crate::codegen::numpy::ndarray_elementwise_unaryop_impl;
use crate::codegen::stmt::gen_for_callback_incrementing;
use crate::codegen::{extern_fns, irrt, llvm_intrinsics, numpy, CodeGenContext, CodeGenerator};
use crate::toplevel::helper::PrimDef;
use crate::toplevel::numpy::unpack_ndarray_var_tys;
use crate::typecheck::typedef::{Type, TypeEnum};
/// Shorthand for [`unreachable!()`] when a type of argument is not supported. /// Shorthand for [`unreachable!()`] when a type of argument is not supported.
/// ///
@ -39,7 +50,7 @@ pub fn call_len<'ctx, G: CodeGenerator + ?Sized>(
let (arg_ty, arg) = n; let (arg_ty, arg) = n;
Ok(if ctx.unifier.unioned(arg_ty, range_ty) { Ok(if ctx.unifier.unioned(arg_ty, range_ty) {
let arg = RangeValue::from_ptr_val(arg.into_pointer_value(), Some("range")); let arg = RangeValue::from_pointer_value(arg.into_pointer_value(), Some("range"));
let (start, end, step) = destructure_range(ctx, arg); let (start, end, step) = destructure_range(ctx, arg);
calculate_len_for_slice_range(generator, ctx, start, end, step) calculate_len_for_slice_range(generator, ctx, start, end, step)
} else { } else {
@ -57,11 +68,17 @@ pub fn call_len<'ctx, G: CodeGenerator + ?Sized>(
ctx.builder.build_int_truncate_or_bit_cast(len, llvm_i32, "len").unwrap() ctx.builder.build_int_truncate_or_bit_cast(len, llvm_i32, "len").unwrap()
} }
TypeEnum::TObj { obj_id, .. } if *obj_id == PrimDef::NDArray.id() => { TypeEnum::TObj { obj_id, .. } if *obj_id == PrimDef::NDArray.id() => {
let elem_ty = arraylike_flatten_element_type(&mut ctx.unifier, arg_ty);
let llvm_usize = generator.get_size_type(ctx.ctx); let llvm_usize = generator.get_size_type(ctx.ctx);
let arg = NDArrayValue::from_ptr_val(arg.into_pointer_value(), llvm_usize, None); let arg = NDArrayValue::from_pointer_value(
arg.into_pointer_value(),
ctx.get_llvm_type(generator, elem_ty),
llvm_usize,
None,
);
let ndims = arg.dim_sizes().size(ctx, generator); let ndims = arg.shape().size(ctx, generator);
ctx.make_assert( ctx.make_assert(
generator, generator,
ctx.builder ctx.builder
@ -74,12 +91,7 @@ pub fn call_len<'ctx, G: CodeGenerator + ?Sized>(
); );
let len = unsafe { let len = unsafe {
arg.dim_sizes().get_typed_unchecked( arg.shape().get_typed_unchecked(ctx, generator, &llvm_usize.const_zero(), None)
ctx,
generator,
&llvm_usize.const_zero(),
None,
)
}; };
ctx.builder.build_int_truncate_or_bit_cast(len, llvm_i32, "len").unwrap() ctx.builder.build_int_truncate_or_bit_cast(len, llvm_i32, "len").unwrap()
@ -134,13 +146,14 @@ pub fn call_int32<'ctx, G: CodeGenerator + ?Sized>(
if n_ty.obj_id(&ctx.unifier).is_some_and(|id| id == PrimDef::NDArray.id()) => if n_ty.obj_id(&ctx.unifier).is_some_and(|id| id == PrimDef::NDArray.id()) =>
{ {
let (elem_ty, _) = unpack_ndarray_var_tys(&mut ctx.unifier, n_ty); let (elem_ty, _) = unpack_ndarray_var_tys(&mut ctx.unifier, n_ty);
let llvm_elem_ty = ctx.get_llvm_type(generator, elem_ty);
let ndarray = ndarray_elementwise_unaryop_impl( let ndarray = ndarray_elementwise_unaryop_impl(
generator, generator,
ctx, ctx,
ctx.primitives.int32, ctx.primitives.int32,
None, None,
NDArrayValue::from_ptr_val(n, llvm_usize, None), NDArrayValue::from_pointer_value(n, llvm_elem_ty, llvm_usize, None),
|generator, ctx, val| call_int32(generator, ctx, (elem_ty, val)), |generator, ctx, val| call_int32(generator, ctx, (elem_ty, val)),
)?; )?;
@ -196,13 +209,14 @@ pub fn call_int64<'ctx, G: CodeGenerator + ?Sized>(
if n_ty.obj_id(&ctx.unifier).is_some_and(|id| id == PrimDef::NDArray.id()) => if n_ty.obj_id(&ctx.unifier).is_some_and(|id| id == PrimDef::NDArray.id()) =>
{ {
let (elem_ty, _) = unpack_ndarray_var_tys(&mut ctx.unifier, n_ty); let (elem_ty, _) = unpack_ndarray_var_tys(&mut ctx.unifier, n_ty);
let llvm_elem_ty = ctx.get_llvm_type(generator, elem_ty);
let ndarray = ndarray_elementwise_unaryop_impl( let ndarray = ndarray_elementwise_unaryop_impl(
generator, generator,
ctx, ctx,
ctx.primitives.int64, ctx.primitives.int64,
None, None,
NDArrayValue::from_ptr_val(n, llvm_usize, None), NDArrayValue::from_pointer_value(n, llvm_elem_ty, llvm_usize, None),
|generator, ctx, val| call_int64(generator, ctx, (elem_ty, val)), |generator, ctx, val| call_int64(generator, ctx, (elem_ty, val)),
)?; )?;
@ -274,13 +288,14 @@ pub fn call_uint32<'ctx, G: CodeGenerator + ?Sized>(
if n_ty.obj_id(&ctx.unifier).is_some_and(|id| id == PrimDef::NDArray.id()) => if n_ty.obj_id(&ctx.unifier).is_some_and(|id| id == PrimDef::NDArray.id()) =>
{ {
let (elem_ty, _) = unpack_ndarray_var_tys(&mut ctx.unifier, n_ty); let (elem_ty, _) = unpack_ndarray_var_tys(&mut ctx.unifier, n_ty);
let llvm_elem_ty = ctx.get_llvm_type(generator, elem_ty);
let ndarray = ndarray_elementwise_unaryop_impl( let ndarray = ndarray_elementwise_unaryop_impl(
generator, generator,
ctx, ctx,
ctx.primitives.uint32, ctx.primitives.uint32,
None, None,
NDArrayValue::from_ptr_val(n, llvm_usize, None), NDArrayValue::from_pointer_value(n, llvm_elem_ty, llvm_usize, None),
|generator, ctx, val| call_uint32(generator, ctx, (elem_ty, val)), |generator, ctx, val| call_uint32(generator, ctx, (elem_ty, val)),
)?; )?;
@ -341,13 +356,14 @@ pub fn call_uint64<'ctx, G: CodeGenerator + ?Sized>(
if n_ty.obj_id(&ctx.unifier).is_some_and(|id| id == PrimDef::NDArray.id()) => if n_ty.obj_id(&ctx.unifier).is_some_and(|id| id == PrimDef::NDArray.id()) =>
{ {
let (elem_ty, _) = unpack_ndarray_var_tys(&mut ctx.unifier, n_ty); let (elem_ty, _) = unpack_ndarray_var_tys(&mut ctx.unifier, n_ty);
let llvm_elem_ty = ctx.get_llvm_type(generator, elem_ty);
let ndarray = ndarray_elementwise_unaryop_impl( let ndarray = ndarray_elementwise_unaryop_impl(
generator, generator,
ctx, ctx,
ctx.primitives.uint64, ctx.primitives.uint64,
None, None,
NDArrayValue::from_ptr_val(n, llvm_usize, None), NDArrayValue::from_pointer_value(n, llvm_elem_ty, llvm_usize, None),
|generator, ctx, val| call_uint64(generator, ctx, (elem_ty, val)), |generator, ctx, val| call_uint64(generator, ctx, (elem_ty, val)),
)?; )?;
@ -407,13 +423,14 @@ pub fn call_float<'ctx, G: CodeGenerator + ?Sized>(
if n_ty.obj_id(&ctx.unifier).is_some_and(|id| id == PrimDef::NDArray.id()) => if n_ty.obj_id(&ctx.unifier).is_some_and(|id| id == PrimDef::NDArray.id()) =>
{ {
let (elem_ty, _) = unpack_ndarray_var_tys(&mut ctx.unifier, n_ty); let (elem_ty, _) = unpack_ndarray_var_tys(&mut ctx.unifier, n_ty);
let llvm_elem_ty = ctx.get_llvm_type(generator, elem_ty);
let ndarray = ndarray_elementwise_unaryop_impl( let ndarray = ndarray_elementwise_unaryop_impl(
generator, generator,
ctx, ctx,
ctx.primitives.float, ctx.primitives.float,
None, None,
NDArrayValue::from_ptr_val(n, llvm_usize, None), NDArrayValue::from_pointer_value(n, llvm_elem_ty, llvm_usize, None),
|generator, ctx, val| call_float(generator, ctx, (elem_ty, val)), |generator, ctx, val| call_float(generator, ctx, (elem_ty, val)),
)?; )?;
@ -453,13 +470,14 @@ pub fn call_round<'ctx, G: CodeGenerator + ?Sized>(
if n_ty.obj_id(&ctx.unifier).is_some_and(|id| id == PrimDef::NDArray.id()) => if n_ty.obj_id(&ctx.unifier).is_some_and(|id| id == PrimDef::NDArray.id()) =>
{ {
let (elem_ty, _) = unpack_ndarray_var_tys(&mut ctx.unifier, n_ty); let (elem_ty, _) = unpack_ndarray_var_tys(&mut ctx.unifier, n_ty);
let llvm_elem_ty = ctx.get_llvm_type(generator, elem_ty);
let ndarray = ndarray_elementwise_unaryop_impl( let ndarray = ndarray_elementwise_unaryop_impl(
generator, generator,
ctx, ctx,
ret_elem_ty, ret_elem_ty,
None, None,
NDArrayValue::from_ptr_val(n, llvm_usize, None), NDArrayValue::from_pointer_value(n, llvm_elem_ty, llvm_usize, None),
|generator, ctx, val| call_round(generator, ctx, (elem_ty, val), ret_elem_ty), |generator, ctx, val| call_round(generator, ctx, (elem_ty, val), ret_elem_ty),
)?; )?;
@ -493,13 +511,14 @@ pub fn call_numpy_round<'ctx, G: CodeGenerator + ?Sized>(
if n_ty.obj_id(&ctx.unifier).is_some_and(|id| id == PrimDef::NDArray.id()) => if n_ty.obj_id(&ctx.unifier).is_some_and(|id| id == PrimDef::NDArray.id()) =>
{ {
let (elem_ty, _) = unpack_ndarray_var_tys(&mut ctx.unifier, n_ty); let (elem_ty, _) = unpack_ndarray_var_tys(&mut ctx.unifier, n_ty);
let llvm_elem_ty = ctx.get_llvm_type(generator, elem_ty);
let ndarray = ndarray_elementwise_unaryop_impl( let ndarray = ndarray_elementwise_unaryop_impl(
generator, generator,
ctx, ctx,
ctx.primitives.float, ctx.primitives.float,
None, None,
NDArrayValue::from_ptr_val(n, llvm_usize, None), NDArrayValue::from_pointer_value(n, llvm_elem_ty, llvm_usize, None),
|generator, ctx, val| call_numpy_round(generator, ctx, (elem_ty, val)), |generator, ctx, val| call_numpy_round(generator, ctx, (elem_ty, val)),
)?; )?;
@ -558,13 +577,14 @@ pub fn call_bool<'ctx, G: CodeGenerator + ?Sized>(
if n_ty.obj_id(&ctx.unifier).is_some_and(|id| id == PrimDef::NDArray.id()) => if n_ty.obj_id(&ctx.unifier).is_some_and(|id| id == PrimDef::NDArray.id()) =>
{ {
let (elem_ty, _) = unpack_ndarray_var_tys(&mut ctx.unifier, n_ty); let (elem_ty, _) = unpack_ndarray_var_tys(&mut ctx.unifier, n_ty);
let llvm_elem_ty = ctx.get_llvm_type(generator, elem_ty);
let ndarray = ndarray_elementwise_unaryop_impl( let ndarray = ndarray_elementwise_unaryop_impl(
generator, generator,
ctx, ctx,
ctx.primitives.bool, ctx.primitives.bool,
None, None,
NDArrayValue::from_ptr_val(n, llvm_usize, None), NDArrayValue::from_pointer_value(n, llvm_elem_ty, llvm_usize, None),
|generator, ctx, val| { |generator, ctx, val| {
let elem = call_bool(generator, ctx, (elem_ty, val))?; let elem = call_bool(generator, ctx, (elem_ty, val))?;
@ -612,13 +632,14 @@ pub fn call_floor<'ctx, G: CodeGenerator + ?Sized>(
if n_ty.obj_id(&ctx.unifier).is_some_and(|id| id == PrimDef::NDArray.id()) => if n_ty.obj_id(&ctx.unifier).is_some_and(|id| id == PrimDef::NDArray.id()) =>
{ {
let (elem_ty, _) = unpack_ndarray_var_tys(&mut ctx.unifier, n_ty); let (elem_ty, _) = unpack_ndarray_var_tys(&mut ctx.unifier, n_ty);
let llvm_elem_ty = ctx.get_llvm_type(generator, elem_ty);
let ndarray = ndarray_elementwise_unaryop_impl( let ndarray = ndarray_elementwise_unaryop_impl(
generator, generator,
ctx, ctx,
ret_elem_ty, ret_elem_ty,
None, None,
NDArrayValue::from_ptr_val(n, llvm_usize, None), NDArrayValue::from_pointer_value(n, llvm_elem_ty, llvm_usize, None),
|generator, ctx, val| call_floor(generator, ctx, (elem_ty, val), ret_elem_ty), |generator, ctx, val| call_floor(generator, ctx, (elem_ty, val), ret_elem_ty),
)?; )?;
@ -662,13 +683,14 @@ pub fn call_ceil<'ctx, G: CodeGenerator + ?Sized>(
if n_ty.obj_id(&ctx.unifier).is_some_and(|id| id == PrimDef::NDArray.id()) => if n_ty.obj_id(&ctx.unifier).is_some_and(|id| id == PrimDef::NDArray.id()) =>
{ {
let (elem_ty, _) = unpack_ndarray_var_tys(&mut ctx.unifier, n_ty); let (elem_ty, _) = unpack_ndarray_var_tys(&mut ctx.unifier, n_ty);
let llvm_elem_ty = ctx.get_llvm_type(generator, elem_ty);
let ndarray = ndarray_elementwise_unaryop_impl( let ndarray = ndarray_elementwise_unaryop_impl(
generator, generator,
ctx, ctx,
ret_elem_ty, ret_elem_ty,
None, None,
NDArrayValue::from_ptr_val(n, llvm_usize, None), NDArrayValue::from_pointer_value(n, llvm_elem_ty, llvm_usize, None),
|generator, ctx, val| call_ceil(generator, ctx, (elem_ty, val), ret_elem_ty), |generator, ctx, val| call_ceil(generator, ctx, (elem_ty, val), ret_elem_ty),
)?; )?;
@ -797,8 +819,8 @@ pub fn call_numpy_minimum<'ctx, G: CodeGenerator + ?Sized>(
ctx, ctx,
dtype, dtype,
None, None,
(x1, !is_ndarray1), (x1_ty, x1, !is_ndarray1),
(x2, !is_ndarray2), (x2_ty, x2, !is_ndarray2),
|generator, ctx, (lhs, rhs)| { |generator, ctx, (lhs, rhs)| {
call_numpy_minimum(generator, ctx, (x1_scalar_ty, lhs), (x2_scalar_ty, rhs)) call_numpy_minimum(generator, ctx, (x1_scalar_ty, lhs), (x2_scalar_ty, rhs))
}, },
@ -897,10 +919,10 @@ pub fn call_numpy_max_min<'ctx, G: CodeGenerator + ?Sized>(
if a_ty.obj_id(&ctx.unifier).is_some_and(|id| id == PrimDef::NDArray.id()) => if a_ty.obj_id(&ctx.unifier).is_some_and(|id| id == PrimDef::NDArray.id()) =>
{ {
let (elem_ty, _) = unpack_ndarray_var_tys(&mut ctx.unifier, a_ty); let (elem_ty, _) = unpack_ndarray_var_tys(&mut ctx.unifier, a_ty);
let llvm_ndarray_ty = ctx.get_llvm_type(generator, elem_ty); let llvm_elem_ty = ctx.get_llvm_type(generator, elem_ty);
let n = NDArrayValue::from_ptr_val(n, llvm_usize, None); let n = NDArrayValue::from_pointer_value(n, llvm_elem_ty, llvm_usize, None);
let n_sz = irrt::call_ndarray_calc_size(generator, ctx, &n.dim_sizes(), (None, None)); let n_sz = irrt::call_ndarray_calc_size(generator, ctx, &n.shape(), (None, None));
if ctx.registry.llvm_options.opt_level == OptimizationLevel::None { if ctx.registry.llvm_options.opt_level == OptimizationLevel::None {
let n_sz_eqz = ctx let n_sz_eqz = ctx
.builder .builder
@ -917,7 +939,7 @@ pub fn call_numpy_max_min<'ctx, G: CodeGenerator + ?Sized>(
); );
} }
let accumulator_addr = generator.gen_var_alloc(ctx, llvm_ndarray_ty, None)?; let accumulator_addr = generator.gen_var_alloc(ctx, llvm_elem_ty, None)?;
let res_idx = generator.gen_var_alloc(ctx, llvm_int64.into(), None)?; let res_idx = generator.gen_var_alloc(ctx, llvm_int64.into(), None)?;
unsafe { unsafe {
@ -1059,8 +1081,8 @@ pub fn call_numpy_maximum<'ctx, G: CodeGenerator + ?Sized>(
ctx, ctx,
dtype, dtype,
None, None,
(x1, !is_ndarray1), (x1_ty, x1, !is_ndarray1),
(x2, !is_ndarray2), (x2_ty, x2, !is_ndarray2),
|generator, ctx, (lhs, rhs)| { |generator, ctx, (lhs, rhs)| {
call_numpy_maximum(generator, ctx, (x1_scalar_ty, lhs), (x2_scalar_ty, rhs)) call_numpy_maximum(generator, ctx, (x1_scalar_ty, lhs), (x2_scalar_ty, rhs))
}, },
@ -1105,6 +1127,7 @@ where
{ {
let llvm_usize = generator.get_size_type(ctx.ctx); let llvm_usize = generator.get_size_type(ctx.ctx);
let (arg_elem_ty, _) = unpack_ndarray_var_tys(&mut ctx.unifier, arg_ty); let (arg_elem_ty, _) = unpack_ndarray_var_tys(&mut ctx.unifier, arg_ty);
let llvm_arg_elem_ty = ctx.get_llvm_type(generator, arg_elem_ty);
let ret_elem_ty = get_ret_elem_type(ctx, arg_elem_ty); let ret_elem_ty = get_ret_elem_type(ctx, arg_elem_ty);
let ndarray = ndarray_elementwise_unaryop_impl( let ndarray = ndarray_elementwise_unaryop_impl(
@ -1112,7 +1135,7 @@ where
ctx, ctx,
ret_elem_ty, ret_elem_ty,
None, None,
NDArrayValue::from_ptr_val(x, llvm_usize, None), NDArrayValue::from_pointer_value(x, llvm_arg_elem_ty, llvm_usize, None),
|generator, ctx, elem_val| { |generator, ctx, elem_val| {
helper_call_numpy_unary_elementwise( helper_call_numpy_unary_elementwise(
generator, generator,
@ -1499,8 +1522,8 @@ pub fn call_numpy_arctan2<'ctx, G: CodeGenerator + ?Sized>(
ctx, ctx,
dtype, dtype,
None, None,
(x1, !is_ndarray1), (x1_ty, x1, !is_ndarray1),
(x2, !is_ndarray2), (x2_ty, x2, !is_ndarray2),
|generator, ctx, (lhs, rhs)| { |generator, ctx, (lhs, rhs)| {
call_numpy_arctan2(generator, ctx, (x1_scalar_ty, lhs), (x2_scalar_ty, rhs)) call_numpy_arctan2(generator, ctx, (x1_scalar_ty, lhs), (x2_scalar_ty, rhs))
}, },
@ -1566,8 +1589,8 @@ pub fn call_numpy_copysign<'ctx, G: CodeGenerator + ?Sized>(
ctx, ctx,
dtype, dtype,
None, None,
(x1, !is_ndarray1), (x1_ty, x1, !is_ndarray1),
(x2, !is_ndarray2), (x2_ty, x2, !is_ndarray2),
|generator, ctx, (lhs, rhs)| { |generator, ctx, (lhs, rhs)| {
call_numpy_copysign(generator, ctx, (x1_scalar_ty, lhs), (x2_scalar_ty, rhs)) call_numpy_copysign(generator, ctx, (x1_scalar_ty, lhs), (x2_scalar_ty, rhs))
}, },
@ -1633,8 +1656,8 @@ pub fn call_numpy_fmax<'ctx, G: CodeGenerator + ?Sized>(
ctx, ctx,
dtype, dtype,
None, None,
(x1, !is_ndarray1), (x1_ty, x1, !is_ndarray1),
(x2, !is_ndarray2), (x2_ty, x2, !is_ndarray2),
|generator, ctx, (lhs, rhs)| { |generator, ctx, (lhs, rhs)| {
call_numpy_fmax(generator, ctx, (x1_scalar_ty, lhs), (x2_scalar_ty, rhs)) call_numpy_fmax(generator, ctx, (x1_scalar_ty, lhs), (x2_scalar_ty, rhs))
}, },
@ -1700,8 +1723,8 @@ pub fn call_numpy_fmin<'ctx, G: CodeGenerator + ?Sized>(
ctx, ctx,
dtype, dtype,
None, None,
(x1, !is_ndarray1), (x1_ty, x1, !is_ndarray1),
(x2, !is_ndarray2), (x2_ty, x2, !is_ndarray2),
|generator, ctx, (lhs, rhs)| { |generator, ctx, (lhs, rhs)| {
call_numpy_fmin(generator, ctx, (x1_scalar_ty, lhs), (x2_scalar_ty, rhs)) call_numpy_fmin(generator, ctx, (x1_scalar_ty, lhs), (x2_scalar_ty, rhs))
}, },
@ -1756,8 +1779,8 @@ pub fn call_numpy_ldexp<'ctx, G: CodeGenerator + ?Sized>(
ctx, ctx,
dtype, dtype,
None, None,
(x1, !is_ndarray1), (x1_ty, x1, !is_ndarray1),
(x2, !is_ndarray2), (x2_ty, x2, !is_ndarray2),
|generator, ctx, (lhs, rhs)| { |generator, ctx, (lhs, rhs)| {
call_numpy_ldexp(generator, ctx, (x1_scalar_ty, lhs), (x2_scalar_ty, rhs)) call_numpy_ldexp(generator, ctx, (x1_scalar_ty, lhs), (x2_scalar_ty, rhs))
}, },
@ -1823,8 +1846,8 @@ pub fn call_numpy_hypot<'ctx, G: CodeGenerator + ?Sized>(
ctx, ctx,
dtype, dtype,
None, None,
(x1, !is_ndarray1), (x1_ty, x1, !is_ndarray1),
(x2, !is_ndarray2), (x2_ty, x2, !is_ndarray2),
|generator, ctx, (lhs, rhs)| { |generator, ctx, (lhs, rhs)| {
call_numpy_hypot(generator, ctx, (x1_scalar_ty, lhs), (x2_scalar_ty, rhs)) call_numpy_hypot(generator, ctx, (x1_scalar_ty, lhs), (x2_scalar_ty, rhs))
}, },
@ -1890,8 +1913,8 @@ pub fn call_numpy_nextafter<'ctx, G: CodeGenerator + ?Sized>(
ctx, ctx,
dtype, dtype,
None, None,
(x1, !is_ndarray1), (x1_ty, x1, !is_ndarray1),
(x2, !is_ndarray2), (x2_ty, x2, !is_ndarray2),
|generator, ctx, (lhs, rhs)| { |generator, ctx, (lhs, rhs)| {
call_numpy_nextafter(generator, ctx, (x1_scalar_ty, lhs), (x2_scalar_ty, rhs)) call_numpy_nextafter(generator, ctx, (x1_scalar_ty, lhs), (x2_scalar_ty, rhs))
}, },
@ -1951,14 +1974,14 @@ pub fn call_np_linalg_cholesky<'ctx, G: CodeGenerator + ?Sized>(
unsupported_type(ctx, FN_NAME, &[x1_ty]); unsupported_type(ctx, FN_NAME, &[x1_ty]);
}; };
let n1 = NDArrayValue::from_ptr_val(n1, llvm_usize, None); let n1 = NDArrayValue::from_pointer_value(n1, n1_elem_ty, llvm_usize, None);
let dim0 = unsafe { let dim0 = unsafe {
n1.dim_sizes() n1.shape()
.get_unchecked(ctx, generator, &llvm_usize.const_zero(), None) .get_unchecked(ctx, generator, &llvm_usize.const_zero(), None)
.into_int_value() .into_int_value()
}; };
let dim1 = unsafe { let dim1 = unsafe {
n1.dim_sizes() n1.shape()
.get_unchecked(ctx, generator, &llvm_usize.const_int(1, false), None) .get_unchecked(ctx, generator, &llvm_usize.const_int(1, false), None)
.into_int_value() .into_int_value()
}; };
@ -1993,14 +2016,14 @@ pub fn call_np_linalg_qr<'ctx, G: CodeGenerator + ?Sized>(
unimplemented!("{FN_NAME} operates on float type NdArrays only"); unimplemented!("{FN_NAME} operates on float type NdArrays only");
}; };
let n1 = NDArrayValue::from_ptr_val(n1, llvm_usize, None); let n1 = NDArrayValue::from_pointer_value(n1, n1_elem_ty, llvm_usize, None);
let dim0 = unsafe { let dim0 = unsafe {
n1.dim_sizes() n1.shape()
.get_unchecked(ctx, generator, &llvm_usize.const_zero(), None) .get_unchecked(ctx, generator, &llvm_usize.const_zero(), None)
.into_int_value() .into_int_value()
}; };
let dim1 = unsafe { let dim1 = unsafe {
n1.dim_sizes() n1.shape()
.get_unchecked(ctx, generator, &llvm_usize.const_int(1, false), None) .get_unchecked(ctx, generator, &llvm_usize.const_int(1, false), None)
.into_int_value() .into_int_value()
}; };
@ -2043,15 +2066,15 @@ pub fn call_np_linalg_svd<'ctx, G: CodeGenerator + ?Sized>(
unsupported_type(ctx, FN_NAME, &[x1_ty]); unsupported_type(ctx, FN_NAME, &[x1_ty]);
}; };
let n1 = NDArrayValue::from_ptr_val(n1, llvm_usize, None); let n1 = NDArrayValue::from_pointer_value(n1, n1_elem_ty, llvm_usize, None);
let dim0 = unsafe { let dim0 = unsafe {
n1.dim_sizes() n1.shape()
.get_unchecked(ctx, generator, &llvm_usize.const_zero(), None) .get_unchecked(ctx, generator, &llvm_usize.const_zero(), None)
.into_int_value() .into_int_value()
}; };
let dim1 = unsafe { let dim1 = unsafe {
n1.dim_sizes() n1.shape()
.get_unchecked(ctx, generator, &llvm_usize.const_int(1, false), None) .get_unchecked(ctx, generator, &llvm_usize.const_int(1, false), None)
.into_int_value() .into_int_value()
}; };
@ -2098,14 +2121,14 @@ pub fn call_np_linalg_inv<'ctx, G: CodeGenerator + ?Sized>(
unsupported_type(ctx, FN_NAME, &[x1_ty]); unsupported_type(ctx, FN_NAME, &[x1_ty]);
}; };
let n1 = NDArrayValue::from_ptr_val(n1, llvm_usize, None); let n1 = NDArrayValue::from_pointer_value(n1, n1_elem_ty, llvm_usize, None);
let dim0 = unsafe { let dim0 = unsafe {
n1.dim_sizes() n1.shape()
.get_unchecked(ctx, generator, &llvm_usize.const_zero(), None) .get_unchecked(ctx, generator, &llvm_usize.const_zero(), None)
.into_int_value() .into_int_value()
}; };
let dim1 = unsafe { let dim1 = unsafe {
n1.dim_sizes() n1.shape()
.get_unchecked(ctx, generator, &llvm_usize.const_int(1, false), None) .get_unchecked(ctx, generator, &llvm_usize.const_int(1, false), None)
.into_int_value() .into_int_value()
}; };
@ -2140,15 +2163,15 @@ pub fn call_np_linalg_pinv<'ctx, G: CodeGenerator + ?Sized>(
unsupported_type(ctx, FN_NAME, &[x1_ty]); unsupported_type(ctx, FN_NAME, &[x1_ty]);
}; };
let n1 = NDArrayValue::from_ptr_val(n1, llvm_usize, None); let n1 = NDArrayValue::from_pointer_value(n1, n1_elem_ty, llvm_usize, None);
let dim0 = unsafe { let dim0 = unsafe {
n1.dim_sizes() n1.shape()
.get_unchecked(ctx, generator, &llvm_usize.const_zero(), None) .get_unchecked(ctx, generator, &llvm_usize.const_zero(), None)
.into_int_value() .into_int_value()
}; };
let dim1 = unsafe { let dim1 = unsafe {
n1.dim_sizes() n1.shape()
.get_unchecked(ctx, generator, &llvm_usize.const_int(1, false), None) .get_unchecked(ctx, generator, &llvm_usize.const_int(1, false), None)
.into_int_value() .into_int_value()
}; };
@ -2183,15 +2206,15 @@ pub fn call_sp_linalg_lu<'ctx, G: CodeGenerator + ?Sized>(
unsupported_type(ctx, FN_NAME, &[x1_ty]); unsupported_type(ctx, FN_NAME, &[x1_ty]);
}; };
let n1 = NDArrayValue::from_ptr_val(n1, llvm_usize, None); let n1 = NDArrayValue::from_pointer_value(n1, n1_elem_ty, llvm_usize, None);
let dim0 = unsafe { let dim0 = unsafe {
n1.dim_sizes() n1.shape()
.get_unchecked(ctx, generator, &llvm_usize.const_zero(), None) .get_unchecked(ctx, generator, &llvm_usize.const_zero(), None)
.into_int_value() .into_int_value()
}; };
let dim1 = unsafe { let dim1 = unsafe {
n1.dim_sizes() n1.shape()
.get_unchecked(ctx, generator, &llvm_usize.const_int(1, false), None) .get_unchecked(ctx, generator, &llvm_usize.const_int(1, false), None)
.into_int_value() .into_int_value()
}; };
@ -2236,7 +2259,7 @@ pub fn call_np_linalg_matrix_power<'ctx, G: CodeGenerator + ?Sized>(
unsupported_type(ctx, FN_NAME, &[x1_ty, x2_ty]); unsupported_type(ctx, FN_NAME, &[x1_ty, x2_ty]);
}; };
let n1 = NDArrayValue::from_ptr_val(n1, llvm_usize, None); let n1 = NDArrayValue::from_pointer_value(n1, n1_elem_ty, llvm_usize, None);
// Changing second parameter to a `NDArray` for uniformity in function call // Changing second parameter to a `NDArray` for uniformity in function call
let n2_array = numpy::create_ndarray_const_shape( let n2_array = numpy::create_ndarray_const_shape(
generator, generator,
@ -2256,12 +2279,12 @@ pub fn call_np_linalg_matrix_power<'ctx, G: CodeGenerator + ?Sized>(
let n2_array = n2_array.as_base_value().as_basic_value_enum(); let n2_array = n2_array.as_base_value().as_basic_value_enum();
let outdim0 = unsafe { let outdim0 = unsafe {
n1.dim_sizes() n1.shape()
.get_unchecked(ctx, generator, &llvm_usize.const_zero(), None) .get_unchecked(ctx, generator, &llvm_usize.const_zero(), None)
.into_int_value() .into_int_value()
}; };
let outdim1 = unsafe { let outdim1 = unsafe {
n1.dim_sizes() n1.shape()
.get_unchecked(ctx, generator, &llvm_usize.const_int(1, false), None) .get_unchecked(ctx, generator, &llvm_usize.const_int(1, false), None)
.into_int_value() .into_int_value()
}; };
@ -2331,10 +2354,10 @@ pub fn call_sp_linalg_schur<'ctx, G: CodeGenerator + ?Sized>(
unsupported_type(ctx, FN_NAME, &[x1_ty]); unsupported_type(ctx, FN_NAME, &[x1_ty]);
}; };
let n1 = NDArrayValue::from_ptr_val(n1, llvm_usize, None); let n1 = NDArrayValue::from_pointer_value(n1, n1_elem_ty, llvm_usize, None);
let dim0 = unsafe { let dim0 = unsafe {
n1.dim_sizes() n1.shape()
.get_unchecked(ctx, generator, &llvm_usize.const_zero(), None) .get_unchecked(ctx, generator, &llvm_usize.const_zero(), None)
.into_int_value() .into_int_value()
}; };
@ -2374,10 +2397,10 @@ pub fn call_sp_linalg_hessenberg<'ctx, G: CodeGenerator + ?Sized>(
unsupported_type(ctx, FN_NAME, &[x1_ty]); unsupported_type(ctx, FN_NAME, &[x1_ty]);
}; };
let n1 = NDArrayValue::from_ptr_val(n1, llvm_usize, None); let n1 = NDArrayValue::from_pointer_value(n1, n1_elem_ty, llvm_usize, None);
let dim0 = unsafe { let dim0 = unsafe {
n1.dim_sizes() n1.shape()
.get_unchecked(ctx, generator, &llvm_usize.const_zero(), None) .get_unchecked(ctx, generator, &llvm_usize.const_zero(), None)
.into_int_value() .into_int_value()
}; };

File diff suppressed because it is too large Load Diff

View File

@ -1,3 +1,9 @@
use std::collections::HashMap;
use indexmap::IndexMap;
use nac3parser::ast::StrRef;
use crate::{ use crate::{
symbol_resolver::SymbolValue, symbol_resolver::SymbolValue,
toplevel::DefinitionId, toplevel::DefinitionId,
@ -9,10 +15,6 @@ use crate::{
}, },
}; };
use indexmap::IndexMap;
use nac3parser::ast::StrRef;
use std::collections::HashMap;
pub struct ConcreteTypeStore { pub struct ConcreteTypeStore {
store: Vec<ConcreteTypeEnum>, store: Vec<ConcreteTypeEnum>,
} }

View File

@ -1,9 +1,24 @@
use crate::{ use std::{
codegen::{ cmp::min,
classes::{ collections::HashMap,
ArrayLikeIndexer, ArrayLikeValue, ListType, ListValue, NDArrayValue, ProxyType, convert::TryInto,
ProxyValue, RangeValue, TypedArrayLikeAccessor, UntypedArrayLikeAccessor, iter::{once, repeat, repeat_with, zip},
}, };
use inkwell::{
attributes::{Attribute, AttributeLoc},
types::{AnyType, BasicType, BasicTypeEnum},
values::{BasicValueEnum, CallSiteValue, FunctionValue, IntValue, PointerValue, StructValue},
AddressSpace, IntPredicate, OptimizationLevel,
};
use itertools::{chain, izip, Either, Itertools};
use nac3parser::ast::{
self, Boolop, Cmpop, Comprehension, Constant, Expr, ExprKind, Location, Operator, StrRef,
Unaryop,
};
use super::{
concrete_type::{ConcreteFuncArg, ConcreteTypeEnum, ConcreteTypeStore}, concrete_type::{ConcreteFuncArg, ConcreteTypeEnum, ConcreteTypeStore},
gen_in_range_check, get_llvm_abi_type, get_llvm_type, get_va_count_arg_name, gen_in_range_check, get_llvm_abi_type, get_llvm_type, get_va_count_arg_name,
irrt::*, irrt::*,
@ -17,8 +32,14 @@ use crate::{
gen_for_callback_incrementing, gen_if_callback, gen_if_else_expr_callback, gen_raise, gen_for_callback_incrementing, gen_if_callback, gen_if_else_expr_callback, gen_raise,
gen_var, gen_var,
}, },
CodeGenContext, CodeGenTask, CodeGenerator, types::{ListType, ProxyType},
values::{
ArrayLikeIndexer, ArrayLikeValue, ListValue, NDArrayValue, ProxyValue, RangeValue,
TypedArrayLikeAccessor, UntypedArrayLikeAccessor,
}, },
CodeGenContext, CodeGenTask, CodeGenerator,
};
use crate::{
symbol_resolver::{SymbolValue, ValueEnum}, symbol_resolver::{SymbolValue, ValueEnum},
toplevel::{ toplevel::{
helper::PrimDef, helper::PrimDef,
@ -30,20 +51,6 @@ use crate::{
typedef::{FunSignature, FuncArg, Type, TypeEnum, TypeVarId, Unifier, VarMap}, typedef::{FunSignature, FuncArg, Type, TypeEnum, TypeVarId, Unifier, VarMap},
}, },
}; };
use inkwell::{
attributes::{Attribute, AttributeLoc},
types::{AnyType, BasicType, BasicTypeEnum},
values::{BasicValueEnum, CallSiteValue, FunctionValue, IntValue, PointerValue, StructValue},
AddressSpace, IntPredicate, OptimizationLevel,
};
use itertools::{chain, izip, Either, Itertools};
use nac3parser::ast::{
self, Boolop, Cmpop, Comprehension, Constant, Expr, ExprKind, Location, Operator, StrRef,
Unaryop,
};
use std::cmp::min;
use std::iter::{repeat, repeat_with};
use std::{collections::HashMap, convert::TryInto, iter::once, iter::zip};
pub fn get_subst_key( pub fn get_subst_key(
unifier: &mut Unifier, unifier: &mut Unifier,
@ -971,6 +978,7 @@ pub fn gen_call<'ctx, G: CodeGenerator>(
TopLevelDef::Class { .. } => { TopLevelDef::Class { .. } => {
return Ok(Some(generator.gen_constructor(ctx, fun.0, &def, params)?)) return Ok(Some(generator.gen_constructor(ctx, fun.0, &def, params)?))
} }
TopLevelDef::Variable { .. } => unreachable!(),
} }
} }
.or_else(|_: String| { .or_else(|_: String| {
@ -1160,7 +1168,8 @@ pub fn gen_comprehension<'ctx, G: CodeGenerator>(
TypeEnum::TObj { obj_id, .. } TypeEnum::TObj { obj_id, .. }
if *obj_id == ctx.primitives.range.obj_id(&ctx.unifier).unwrap() => if *obj_id == ctx.primitives.range.obj_id(&ctx.unifier).unwrap() =>
{ {
let iter_val = RangeValue::from_ptr_val(iter_val.into_pointer_value(), Some("range")); let iter_val =
RangeValue::from_pointer_value(iter_val.into_pointer_value(), Some("range"));
let (start, stop, step) = destructure_range(ctx, iter_val); let (start, stop, step) = destructure_range(ctx, iter_val);
let diff = ctx.builder.build_int_sub(stop, start, "diff").unwrap(); let diff = ctx.builder.build_int_sub(stop, start, "diff").unwrap();
// add 1 to the length as the value is rounded to zero // add 1 to the length as the value is rounded to zero
@ -1391,8 +1400,10 @@ pub fn gen_binop_expr_with_values<'ctx, G: CodeGenerator>(
let llvm_elem_ty = ctx.get_llvm_type(generator, elem_ty1); let llvm_elem_ty = ctx.get_llvm_type(generator, elem_ty1);
let sizeof_elem = llvm_elem_ty.size_of().unwrap(); let sizeof_elem = llvm_elem_ty.size_of().unwrap();
let lhs = ListValue::from_ptr_val(left_val.into_pointer_value(), llvm_usize, None); let lhs =
let rhs = ListValue::from_ptr_val(right_val.into_pointer_value(), llvm_usize, None); ListValue::from_pointer_value(left_val.into_pointer_value(), llvm_usize, None);
let rhs =
ListValue::from_pointer_value(right_val.into_pointer_value(), llvm_usize, None);
let size = ctx let size = ctx
.builder .builder
@ -1475,7 +1486,7 @@ pub fn gen_binop_expr_with_values<'ctx, G: CodeGenerator>(
codegen_unreachable!(ctx) codegen_unreachable!(ctx)
}; };
let list_val = let list_val =
ListValue::from_ptr_val(list_val.into_pointer_value(), llvm_usize, None); ListValue::from_pointer_value(list_val.into_pointer_value(), llvm_usize, None);
let int_val = ctx let int_val = ctx
.builder .builder
.build_int_s_extend(int_val.into_int_value(), llvm_usize, "") .build_int_s_extend(int_val.into_int_value(), llvm_usize, "")
@ -1553,10 +1564,21 @@ pub fn gen_binop_expr_with_values<'ctx, G: CodeGenerator>(
assert!(ctx.unifier.unioned(ndarray_dtype1, ndarray_dtype2)); assert!(ctx.unifier.unioned(ndarray_dtype1, ndarray_dtype2));
let left_val = let llvm_ndarray_dtype1 = ctx.get_llvm_type(generator, ndarray_dtype1);
NDArrayValue::from_ptr_val(left_val.into_pointer_value(), llvm_usize, None); let llvm_ndarray_dtype2 = ctx.get_llvm_type(generator, ndarray_dtype2);
let right_val =
NDArrayValue::from_ptr_val(right_val.into_pointer_value(), llvm_usize, None); let left_val = NDArrayValue::from_pointer_value(
left_val.into_pointer_value(),
llvm_ndarray_dtype1,
llvm_usize,
None,
);
let right_val = NDArrayValue::from_pointer_value(
right_val.into_pointer_value(),
llvm_ndarray_dtype2,
llvm_usize,
None,
);
let res = if op.base == Operator::MatMult { let res = if op.base == Operator::MatMult {
// MatMult is the only binop which is not an elementwise op // MatMult is the only binop which is not an elementwise op
@ -1580,8 +1602,8 @@ pub fn gen_binop_expr_with_values<'ctx, G: CodeGenerator>(
BinopVariant::Normal => None, BinopVariant::Normal => None,
BinopVariant::AugAssign => Some(left_val), BinopVariant::AugAssign => Some(left_val),
}, },
(left_val.as_base_value().into(), false), (ty1, left_val.as_base_value().into(), false),
(right_val.as_base_value().into(), false), (ty2, right_val.as_base_value().into(), false),
|generator, ctx, (lhs, rhs)| { |generator, ctx, (lhs, rhs)| {
gen_binop_expr_with_values( gen_binop_expr_with_values(
generator, generator,
@ -1605,8 +1627,10 @@ pub fn gen_binop_expr_with_values<'ctx, G: CodeGenerator>(
} else { } else {
let (ndarray_dtype, _) = let (ndarray_dtype, _) =
unpack_ndarray_var_tys(&mut ctx.unifier, if is_ndarray1 { ty1 } else { ty2 }); unpack_ndarray_var_tys(&mut ctx.unifier, if is_ndarray1 { ty1 } else { ty2 });
let ndarray_val = NDArrayValue::from_ptr_val( let llvm_ndarray_dtype = ctx.get_llvm_type(generator, ndarray_dtype);
let ndarray_val = NDArrayValue::from_pointer_value(
if is_ndarray1 { left_val } else { right_val }.into_pointer_value(), if is_ndarray1 { left_val } else { right_val }.into_pointer_value(),
llvm_ndarray_dtype,
llvm_usize, llvm_usize,
None, None,
); );
@ -1618,8 +1642,8 @@ pub fn gen_binop_expr_with_values<'ctx, G: CodeGenerator>(
BinopVariant::Normal => None, BinopVariant::Normal => None,
BinopVariant::AugAssign => Some(ndarray_val), BinopVariant::AugAssign => Some(ndarray_val),
}, },
(left_val, !is_ndarray1), (ty1, left_val, !is_ndarray1),
(right_val, !is_ndarray2), (ty2, right_val, !is_ndarray2),
|generator, ctx, (lhs, rhs)| { |generator, ctx, (lhs, rhs)| {
gen_binop_expr_with_values( gen_binop_expr_with_values(
generator, generator,
@ -1770,7 +1794,12 @@ pub fn gen_unaryop_expr_with_values<'ctx, G: CodeGenerator>(
ast::Unaryop::Invert => ctx.builder.build_not(val, "not").map(Into::into).unwrap(), ast::Unaryop::Invert => ctx.builder.build_not(val, "not").map(Into::into).unwrap(),
ast::Unaryop::Not => ctx ast::Unaryop::Not => ctx
.builder .builder
.build_xor(val, val.get_type().const_all_ones(), "not") .build_int_compare(
inkwell::IntPredicate::EQ,
val,
val.get_type().const_zero(),
"not",
)
.map(Into::into) .map(Into::into)
.unwrap(), .unwrap(),
ast::Unaryop::UAdd => val.into(), ast::Unaryop::UAdd => val.into(),
@ -1794,8 +1823,14 @@ pub fn gen_unaryop_expr_with_values<'ctx, G: CodeGenerator>(
} else if ty.obj_id(&ctx.unifier).is_some_and(|id| id == PrimDef::NDArray.id()) { } else if ty.obj_id(&ctx.unifier).is_some_and(|id| id == PrimDef::NDArray.id()) {
let llvm_usize = generator.get_size_type(ctx.ctx); let llvm_usize = generator.get_size_type(ctx.ctx);
let (ndarray_dtype, _) = unpack_ndarray_var_tys(&mut ctx.unifier, ty); let (ndarray_dtype, _) = unpack_ndarray_var_tys(&mut ctx.unifier, ty);
let llvm_ndarray_dtype = ctx.get_llvm_type(generator, ndarray_dtype);
let val = NDArrayValue::from_ptr_val(val.into_pointer_value(), llvm_usize, None); let val = NDArrayValue::from_pointer_value(
val.into_pointer_value(),
llvm_ndarray_dtype,
llvm_usize,
None,
);
// ndarray uses `~` rather than `not` to perform elementwise inversion, convert it before // ndarray uses `~` rather than `not` to perform elementwise inversion, convert it before
// passing it to the elementwise codegen function // passing it to the elementwise codegen function
@ -1886,15 +1921,21 @@ pub fn gen_cmpop_expr_with_values<'ctx, G: CodeGenerator>(
assert!(ctx.unifier.unioned(ndarray_dtype1, ndarray_dtype2)); assert!(ctx.unifier.unioned(ndarray_dtype1, ndarray_dtype2));
let left_val = let llvm_ndarray_dtype1 = ctx.get_llvm_type(generator, ndarray_dtype1);
NDArrayValue::from_ptr_val(lhs.into_pointer_value(), llvm_usize, None);
let left_val = NDArrayValue::from_pointer_value(
lhs.into_pointer_value(),
llvm_ndarray_dtype1,
llvm_usize,
None,
);
let res = numpy::ndarray_elementwise_binop_impl( let res = numpy::ndarray_elementwise_binop_impl(
generator, generator,
ctx, ctx,
ctx.primitives.bool, ctx.primitives.bool,
None, None,
(left_val.as_base_value().into(), false), (left_ty, left_val.as_base_value().into(), false),
(rhs, false), (right_ty, rhs, false),
|generator, ctx, (lhs, rhs)| { |generator, ctx, (lhs, rhs)| {
let val = gen_cmpop_expr_with_values( let val = gen_cmpop_expr_with_values(
generator, generator,
@ -1925,8 +1966,8 @@ pub fn gen_cmpop_expr_with_values<'ctx, G: CodeGenerator>(
ctx, ctx,
ctx.primitives.bool, ctx.primitives.bool,
None, None,
(lhs, !is_ndarray1), (left_ty, lhs, !is_ndarray1),
(rhs, !is_ndarray2), (right_ty, rhs, !is_ndarray2),
|generator, ctx, (lhs, rhs)| { |generator, ctx, (lhs, rhs)| {
let val = gen_cmpop_expr_with_values( let val = gen_cmpop_expr_with_values(
generator, generator,
@ -2189,9 +2230,9 @@ pub fn gen_cmpop_expr_with_values<'ctx, G: CodeGenerator>(
} }
let left_val = let left_val =
ListValue::from_ptr_val(lhs.into_pointer_value(), llvm_usize, None); ListValue::from_pointer_value(lhs.into_pointer_value(), llvm_usize, None);
let right_val = let right_val =
ListValue::from_ptr_val(rhs.into_pointer_value(), llvm_usize, None); ListValue::from_pointer_value(rhs.into_pointer_value(), llvm_usize, None);
Ok(gen_if_else_expr_callback( Ok(gen_if_else_expr_callback(
generator, generator,
@ -2590,7 +2631,7 @@ fn gen_ndarray_subscript_expr<'ctx, G: CodeGenerator>(
let llvm_i32 = ctx.ctx.i32_type(); let llvm_i32 = ctx.ctx.i32_type();
let len = unsafe { let len = unsafe {
v.dim_sizes().get_typed_unchecked( v.shape().get_typed_unchecked(
ctx, ctx,
generator, generator,
&llvm_usize.const_int(dim, true), &llvm_usize.const_int(dim, true),
@ -2631,7 +2672,7 @@ fn gen_ndarray_subscript_expr<'ctx, G: CodeGenerator>(
ExprKind::Slice { lower, upper, step } => { ExprKind::Slice { lower, upper, step } => {
let dim_sz = unsafe { let dim_sz = unsafe {
v.dim_sizes().get_typed_unchecked( v.shape().get_typed_unchecked(
ctx, ctx,
generator, generator,
&llvm_usize.const_int(dim, false), &llvm_usize.const_int(dim, false),
@ -2755,7 +2796,12 @@ fn gen_ndarray_subscript_expr<'ctx, G: CodeGenerator>(
// elements over // elements over
let subscripted_ndarray = let subscripted_ndarray =
generator.gen_var_alloc(ctx, llvm_ndarray_t.into(), None)?; generator.gen_var_alloc(ctx, llvm_ndarray_t.into(), None)?;
let ndarray = NDArrayValue::from_ptr_val(subscripted_ndarray, llvm_usize, None); let ndarray = NDArrayValue::from_pointer_value(
subscripted_ndarray,
llvm_ndarray_data_t,
llvm_usize,
None,
);
let num_dims = v.load_ndims(ctx); let num_dims = v.load_ndims(ctx);
ndarray.store_ndims( ndarray.store_ndims(
@ -2767,7 +2813,7 @@ fn gen_ndarray_subscript_expr<'ctx, G: CodeGenerator>(
); );
let ndarray_num_dims = ndarray.load_ndims(ctx); let ndarray_num_dims = ndarray.load_ndims(ctx);
ndarray.create_dim_sizes(ctx, llvm_usize, ndarray_num_dims); ndarray.create_shape(ctx, llvm_usize, ndarray_num_dims);
let ndarray_num_dims = ctx let ndarray_num_dims = ctx
.builder .builder
@ -2778,7 +2824,7 @@ fn gen_ndarray_subscript_expr<'ctx, G: CodeGenerator>(
) )
.unwrap(); .unwrap();
let v_dims_src_ptr = unsafe { let v_dims_src_ptr = unsafe {
v.dim_sizes().ptr_offset_unchecked( v.shape().ptr_offset_unchecked(
ctx, ctx,
generator, generator,
&llvm_usize.const_int(1, false), &llvm_usize.const_int(1, false),
@ -2787,7 +2833,7 @@ fn gen_ndarray_subscript_expr<'ctx, G: CodeGenerator>(
}; };
call_memcpy_generic( call_memcpy_generic(
ctx, ctx,
ndarray.dim_sizes().base_ptr(ctx, generator), ndarray.shape().base_ptr(ctx, generator),
v_dims_src_ptr, v_dims_src_ptr,
ctx.builder ctx.builder
.build_int_mul(ndarray_num_dims, llvm_usize.size_of(), "") .build_int_mul(ndarray_num_dims, llvm_usize.size_of(), "")
@ -2799,7 +2845,7 @@ fn gen_ndarray_subscript_expr<'ctx, G: CodeGenerator>(
let ndarray_num_elems = call_ndarray_calc_size( let ndarray_num_elems = call_ndarray_calc_size(
generator, generator,
ctx, ctx,
&ndarray.dim_sizes().as_slice_value(ctx, generator), &ndarray.shape().as_slice_value(ctx, generator),
(None, None), (None, None),
); );
let ndarray_num_elems = ctx let ndarray_num_elems = ctx
@ -2879,7 +2925,31 @@ pub fn gen_expr<'ctx, G: CodeGenerator>(
Some((_, Some(static_value), _)) => ValueEnum::Static(static_value.clone()), Some((_, Some(static_value), _)) => ValueEnum::Static(static_value.clone()),
None => { None => {
let resolver = ctx.resolver.clone(); let resolver = ctx.resolver.clone();
resolver.get_symbol_value(*id, ctx).unwrap() let value = resolver.get_symbol_value(*id, ctx, generator).unwrap();
let globals = ctx
.top_level
.definitions
.read()
.iter()
.filter_map(|def| {
if let TopLevelDef::Variable { simple_name, ty, .. } = &*def.read() {
Some((*simple_name, *ty))
} else {
None
}
})
.collect_vec();
if let Some((_, ty)) = globals.iter().find(|(name, _)| name == id) {
let ptr = value
.to_basic_value_enum(ctx, generator, *ty)
.map(BasicValueEnum::into_pointer_value)?;
ctx.builder.build_load(ptr, id.to_string().as_str()).map(Into::into).unwrap()
} else {
value
}
} }
}, },
ExprKind::List { elts, .. } => { ExprKind::List { elts, .. } => {
@ -3072,48 +3142,53 @@ pub fn gen_expr<'ctx, G: CodeGenerator>(
}; };
let left = generator.bool_to_i1(ctx, left); let left = generator.bool_to_i1(ctx, left);
let current = ctx.builder.get_insert_block().unwrap().get_parent().unwrap(); let current = ctx.builder.get_insert_block().unwrap().get_parent().unwrap();
let a_bb = ctx.ctx.append_basic_block(current, "a"); let a_begin_bb = ctx.ctx.append_basic_block(current, "a_begin");
let b_bb = ctx.ctx.append_basic_block(current, "b"); let a_end_bb = ctx.ctx.append_basic_block(current, "a_end");
let b_begin_bb = ctx.ctx.append_basic_block(current, "b_begin");
let b_end_bb = ctx.ctx.append_basic_block(current, "b_end");
let cont_bb = ctx.ctx.append_basic_block(current, "cont"); let cont_bb = ctx.ctx.append_basic_block(current, "cont");
ctx.builder.build_conditional_branch(left, a_bb, b_bb).unwrap(); ctx.builder.build_conditional_branch(left, a_begin_bb, b_begin_bb).unwrap();
ctx.builder.position_at_end(a_end_bb);
ctx.builder.build_unconditional_branch(cont_bb).unwrap();
ctx.builder.position_at_end(b_end_bb);
ctx.builder.build_unconditional_branch(cont_bb).unwrap();
let (a, b) = match op { let (a, b) = match op {
Boolop::Or => { Boolop::Or => {
ctx.builder.position_at_end(a_bb); ctx.builder.position_at_end(a_begin_bb);
let a = ctx.ctx.i8_type().const_int(1, false); let a = ctx.ctx.i8_type().const_int(1, false);
ctx.builder.build_unconditional_branch(cont_bb).unwrap(); ctx.builder.build_unconditional_branch(a_end_bb).unwrap();
ctx.builder.position_at_end(b_bb); ctx.builder.position_at_end(b_begin_bb);
let b = if let Some(v) = generator.gen_expr(ctx, &values[1])? { let b = if let Some(v) = generator.gen_expr(ctx, &values[1])? {
let b = v let b = v
.to_basic_value_enum(ctx, generator, values[1].custom.unwrap())? .to_basic_value_enum(ctx, generator, values[1].custom.unwrap())?
.into_int_value(); .into_int_value();
let b = generator.bool_to_i8(ctx, b); let b = generator.bool_to_i8(ctx, b);
ctx.builder.build_unconditional_branch(cont_bb).unwrap();
Some(b) Some(b)
} else { } else {
None None
}; };
ctx.builder.build_unconditional_branch(b_end_bb).unwrap();
(Some(a), b) (Some(a), b)
} }
Boolop::And => { Boolop::And => {
ctx.builder.position_at_end(a_bb); ctx.builder.position_at_end(a_begin_bb);
let a = if let Some(v) = generator.gen_expr(ctx, &values[1])? { let a = if let Some(v) = generator.gen_expr(ctx, &values[1])? {
let a = v let a = v
.to_basic_value_enum(ctx, generator, values[1].custom.unwrap())? .to_basic_value_enum(ctx, generator, values[1].custom.unwrap())?
.into_int_value(); .into_int_value();
let a = generator.bool_to_i8(ctx, a); let a = generator.bool_to_i8(ctx, a);
ctx.builder.build_unconditional_branch(cont_bb).unwrap();
Some(a) Some(a)
} else { } else {
None None
}; };
ctx.builder.build_unconditional_branch(a_end_bb).unwrap();
ctx.builder.position_at_end(b_bb); ctx.builder.position_at_end(b_begin_bb);
let b = ctx.ctx.i8_type().const_zero(); let b = ctx.ctx.i8_type().const_zero();
ctx.builder.build_unconditional_branch(cont_bb).unwrap(); ctx.builder.build_unconditional_branch(b_end_bb).unwrap();
(a, Some(b)) (a, Some(b))
} }
@ -3123,7 +3198,7 @@ pub fn gen_expr<'ctx, G: CodeGenerator>(
match (a, b) { match (a, b) {
(Some(a), Some(b)) => { (Some(a), Some(b)) => {
let phi = ctx.builder.build_phi(ctx.ctx.i8_type(), "").unwrap(); let phi = ctx.builder.build_phi(ctx.ctx.i8_type(), "").unwrap();
phi.add_incoming(&[(&a, a_bb), (&b, b_bb)]); phi.add_incoming(&[(&a, a_end_bb), (&b, b_end_bb)]);
phi.as_basic_value().into() phi.as_basic_value().into()
} }
(Some(a), None) => a.into(), (Some(a), None) => a.into(),
@ -3361,7 +3436,7 @@ pub fn gen_expr<'ctx, G: CodeGenerator>(
} else { } else {
return Ok(None); return Ok(None);
}; };
let v = ListValue::from_ptr_val(v, usize, Some("arr")); let v = ListValue::from_pointer_value(v, usize, Some("arr"));
let ty = ctx.get_llvm_type(generator, *ty); let ty = ctx.get_llvm_type(generator, *ty);
if let ExprKind::Slice { lower, upper, step } = &slice.node { if let ExprKind::Slice { lower, upper, step } = &slice.node {
let one = int32.const_int(1, false); let one = int32.const_int(1, false);
@ -3464,6 +3539,7 @@ pub fn gen_expr<'ctx, G: CodeGenerator>(
} }
TypeEnum::TObj { obj_id, params, .. } if *obj_id == PrimDef::NDArray.id() => { TypeEnum::TObj { obj_id, params, .. } if *obj_id == PrimDef::NDArray.id() => {
let (ty, ndims) = params.iter().map(|(_, ty)| ty).collect_tuple().unwrap(); let (ty, ndims) = params.iter().map(|(_, ty)| ty).collect_tuple().unwrap();
let llvm_ty = ctx.get_llvm_type(generator, *ty);
let v = if let Some(v) = generator.gen_expr(ctx, value)? { let v = if let Some(v) = generator.gen_expr(ctx, value)? {
v.to_basic_value_enum(ctx, generator, value.custom.unwrap())? v.to_basic_value_enum(ctx, generator, value.custom.unwrap())?
@ -3471,7 +3547,7 @@ pub fn gen_expr<'ctx, G: CodeGenerator>(
} else { } else {
return Ok(None); return Ok(None);
}; };
let v = NDArrayValue::from_ptr_val(v, usize, None); let v = NDArrayValue::from_pointer_value(v, llvm_ty, usize, None);
return gen_ndarray_subscript_expr(generator, ctx, *ty, *ndims, v, slice); return gen_ndarray_subscript_expr(generator, ctx, *ty, *ndims, v, slice);
} }

View File

@ -1,8 +1,10 @@
use inkwell::attributes::{Attribute, AttributeLoc}; use inkwell::{
use inkwell::values::{BasicValueEnum, CallSiteValue, FloatValue, IntValue}; attributes::{Attribute, AttributeLoc},
values::{BasicValueEnum, CallSiteValue, FloatValue, IntValue},
};
use itertools::Either; use itertools::Either;
use crate::codegen::CodeGenContext; use super::CodeGenContext;
/// Macro to generate extern function /// Macro to generate extern function
/// Both function return type and function parameter type are `FloatValue` /// Both function return type and function parameter type are `FloatValue`

View File

@ -1,16 +1,18 @@
use crate::{
codegen::{bool_to_i1, bool_to_i8, classes::ArraySliceValue, expr::*, stmt::*, CodeGenContext},
symbol_resolver::ValueEnum,
toplevel::{DefinitionId, TopLevelDef},
typecheck::typedef::{FunSignature, Type},
};
use inkwell::{ use inkwell::{
context::Context, context::Context,
types::{BasicTypeEnum, IntType}, types::{BasicTypeEnum, IntType},
values::{BasicValueEnum, IntValue, PointerValue}, values::{BasicValueEnum, IntValue, PointerValue},
}; };
use nac3parser::ast::{Expr, Stmt, StrRef}; use nac3parser::ast::{Expr, Stmt, StrRef};
use super::{bool_to_i1, bool_to_i8, expr::*, stmt::*, values::ArraySliceValue, CodeGenContext};
use crate::{
symbol_resolver::ValueEnum,
toplevel::{DefinitionId, TopLevelDef},
typecheck::typedef::{FunSignature, Type},
};
pub trait CodeGenerator { pub trait CodeGenerator {
/// Return the module name for the code generator. /// Return the module name for the code generator.
fn get_name(&self) -> &str; fn get_name(&self) -> &str;

View File

@ -0,0 +1,162 @@
use inkwell::{
types::BasicTypeEnum,
values::{BasicValueEnum, CallSiteValue, IntValue},
AddressSpace, IntPredicate,
};
use itertools::Either;
use super::calculate_len_for_slice_range;
use crate::codegen::{
macros::codegen_unreachable,
values::{ArrayLikeValue, ListValue},
CodeGenContext, CodeGenerator,
};
/// This function handles 'end' **inclusively**.
/// Order of tuples `assign_idx` and `value_idx` is ('start', 'end', 'step').
/// Negative index should be handled before entering this function
pub fn list_slice_assignment<'ctx, G: CodeGenerator + ?Sized>(
generator: &mut G,
ctx: &mut CodeGenContext<'ctx, '_>,
ty: BasicTypeEnum<'ctx>,
dest_arr: ListValue<'ctx>,
dest_idx: (IntValue<'ctx>, IntValue<'ctx>, IntValue<'ctx>),
src_arr: ListValue<'ctx>,
src_idx: (IntValue<'ctx>, IntValue<'ctx>, IntValue<'ctx>),
) {
let size_ty = generator.get_size_type(ctx.ctx);
let int8_ptr = ctx.ctx.i8_type().ptr_type(AddressSpace::default());
let int32 = ctx.ctx.i32_type();
let (fun_symbol, elem_ptr_type) = ("__nac3_list_slice_assign_var_size", int8_ptr);
let slice_assign_fun = {
let ty_vec = vec![
int32.into(), // dest start idx
int32.into(), // dest end idx
int32.into(), // dest step
elem_ptr_type.into(), // dest arr ptr
int32.into(), // dest arr len
int32.into(), // src start idx
int32.into(), // src end idx
int32.into(), // src step
elem_ptr_type.into(), // src arr ptr
int32.into(), // src arr len
int32.into(), // size
];
ctx.module.get_function(fun_symbol).unwrap_or_else(|| {
let fn_t = int32.fn_type(ty_vec.as_slice(), false);
ctx.module.add_function(fun_symbol, fn_t, None)
})
};
let zero = int32.const_zero();
let one = int32.const_int(1, false);
let dest_arr_ptr = dest_arr.data().base_ptr(ctx, generator);
let dest_arr_ptr =
ctx.builder.build_pointer_cast(dest_arr_ptr, elem_ptr_type, "dest_arr_ptr_cast").unwrap();
let dest_len = dest_arr.load_size(ctx, Some("dest.len"));
let dest_len = ctx.builder.build_int_truncate_or_bit_cast(dest_len, int32, "srclen32").unwrap();
let src_arr_ptr = src_arr.data().base_ptr(ctx, generator);
let src_arr_ptr =
ctx.builder.build_pointer_cast(src_arr_ptr, elem_ptr_type, "src_arr_ptr_cast").unwrap();
let src_len = src_arr.load_size(ctx, Some("src.len"));
let src_len = ctx.builder.build_int_truncate_or_bit_cast(src_len, int32, "srclen32").unwrap();
// index in bound and positive should be done
// assert if dest.step == 1 then len(src) <= len(dest) else len(src) == len(dest), and
// throw exception if not satisfied
let src_end = ctx
.builder
.build_select(
ctx.builder.build_int_compare(IntPredicate::SLT, src_idx.2, zero, "is_neg").unwrap(),
ctx.builder.build_int_sub(src_idx.1, one, "e_min_one").unwrap(),
ctx.builder.build_int_add(src_idx.1, one, "e_add_one").unwrap(),
"final_e",
)
.map(BasicValueEnum::into_int_value)
.unwrap();
let dest_end = ctx
.builder
.build_select(
ctx.builder.build_int_compare(IntPredicate::SLT, dest_idx.2, zero, "is_neg").unwrap(),
ctx.builder.build_int_sub(dest_idx.1, one, "e_min_one").unwrap(),
ctx.builder.build_int_add(dest_idx.1, one, "e_add_one").unwrap(),
"final_e",
)
.map(BasicValueEnum::into_int_value)
.unwrap();
let src_slice_len =
calculate_len_for_slice_range(generator, ctx, src_idx.0, src_end, src_idx.2);
let dest_slice_len =
calculate_len_for_slice_range(generator, ctx, dest_idx.0, dest_end, dest_idx.2);
let src_eq_dest = ctx
.builder
.build_int_compare(IntPredicate::EQ, src_slice_len, dest_slice_len, "slice_src_eq_dest")
.unwrap();
let src_slt_dest = ctx
.builder
.build_int_compare(IntPredicate::SLT, src_slice_len, dest_slice_len, "slice_src_slt_dest")
.unwrap();
let dest_step_eq_one = ctx
.builder
.build_int_compare(
IntPredicate::EQ,
dest_idx.2,
dest_idx.2.get_type().const_int(1, false),
"slice_dest_step_eq_one",
)
.unwrap();
let cond_1 = ctx.builder.build_and(dest_step_eq_one, src_slt_dest, "slice_cond_1").unwrap();
let cond = ctx.builder.build_or(src_eq_dest, cond_1, "slice_cond").unwrap();
ctx.make_assert(
generator,
cond,
"0:ValueError",
"attempt to assign sequence of size {0} to slice of size {1} with step size {2}",
[Some(src_slice_len), Some(dest_slice_len), Some(dest_idx.2)],
ctx.current_loc,
);
let new_len = {
let args = vec![
dest_idx.0.into(), // dest start idx
dest_idx.1.into(), // dest end idx
dest_idx.2.into(), // dest step
dest_arr_ptr.into(), // dest arr ptr
dest_len.into(), // dest arr len
src_idx.0.into(), // src start idx
src_idx.1.into(), // src end idx
src_idx.2.into(), // src step
src_arr_ptr.into(), // src arr ptr
src_len.into(), // src arr len
{
let s = match ty {
BasicTypeEnum::FloatType(t) => t.size_of(),
BasicTypeEnum::IntType(t) => t.size_of(),
BasicTypeEnum::PointerType(t) => t.size_of(),
BasicTypeEnum::StructType(t) => t.size_of().unwrap(),
_ => codegen_unreachable!(ctx),
};
ctx.builder.build_int_truncate_or_bit_cast(s, int32, "size").unwrap()
}
.into(),
];
ctx.builder
.build_call(slice_assign_fun, args.as_slice(), "slice_assign")
.map(CallSiteValue::try_as_basic_value)
.map(|v| v.map_left(BasicValueEnum::into_int_value))
.map(Either::unwrap_left)
.unwrap()
};
// update length
let need_update =
ctx.builder.build_int_compare(IntPredicate::NE, new_len, dest_len, "need_update").unwrap();
let current = ctx.builder.get_insert_block().unwrap().get_parent().unwrap();
let update_bb = ctx.ctx.append_basic_block(current, "update");
let cont_bb = ctx.ctx.append_basic_block(current, "cont");
ctx.builder.build_conditional_branch(need_update, update_bb, cont_bb).unwrap();
ctx.builder.position_at_end(update_bb);
let new_len = ctx.builder.build_int_z_extend_or_bit_cast(new_len, size_ty, "new_len").unwrap();
dest_arr.store_size(ctx, generator, new_len);
ctx.builder.build_unconditional_branch(cont_bb).unwrap();
ctx.builder.position_at_end(cont_bb);
}

View File

@ -0,0 +1,152 @@
use inkwell::{
values::{BasicValueEnum, CallSiteValue, FloatValue, IntValue},
IntPredicate,
};
use itertools::Either;
use crate::codegen::{
macros::codegen_unreachable,
{CodeGenContext, CodeGenerator},
};
// repeated squaring method adapted from GNU Scientific Library:
// https://git.savannah.gnu.org/cgit/gsl.git/tree/sys/pow_int.c
pub fn integer_power<'ctx, G: CodeGenerator + ?Sized>(
generator: &mut G,
ctx: &mut CodeGenContext<'ctx, '_>,
base: IntValue<'ctx>,
exp: IntValue<'ctx>,
signed: bool,
) -> IntValue<'ctx> {
let symbol = match (base.get_type().get_bit_width(), exp.get_type().get_bit_width(), signed) {
(32, 32, true) => "__nac3_int_exp_int32_t",
(64, 64, true) => "__nac3_int_exp_int64_t",
(32, 32, false) => "__nac3_int_exp_uint32_t",
(64, 64, false) => "__nac3_int_exp_uint64_t",
_ => codegen_unreachable!(ctx),
};
let base_type = base.get_type();
let pow_fun = ctx.module.get_function(symbol).unwrap_or_else(|| {
let fn_type = base_type.fn_type(&[base_type.into(), base_type.into()], false);
ctx.module.add_function(symbol, fn_type, None)
});
// throw exception when exp < 0
let ge_zero = ctx
.builder
.build_int_compare(
IntPredicate::SGE,
exp,
exp.get_type().const_zero(),
"assert_int_pow_ge_0",
)
.unwrap();
ctx.make_assert(
generator,
ge_zero,
"0:ValueError",
"integer power must be positive or zero",
[None, None, None],
ctx.current_loc,
);
ctx.builder
.build_call(pow_fun, &[base.into(), exp.into()], "call_int_pow")
.map(CallSiteValue::try_as_basic_value)
.map(|v| v.map_left(BasicValueEnum::into_int_value))
.map(Either::unwrap_left)
.unwrap()
}
/// Generates a call to `isinf` in IR. Returns an `i1` representing the result.
pub fn call_isinf<'ctx, G: CodeGenerator + ?Sized>(
generator: &mut G,
ctx: &CodeGenContext<'ctx, '_>,
v: FloatValue<'ctx>,
) -> IntValue<'ctx> {
let intrinsic_fn = ctx.module.get_function("__nac3_isinf").unwrap_or_else(|| {
let fn_type = ctx.ctx.i32_type().fn_type(&[ctx.ctx.f64_type().into()], false);
ctx.module.add_function("__nac3_isinf", fn_type, None)
});
let ret = ctx
.builder
.build_call(intrinsic_fn, &[v.into()], "isinf")
.map(CallSiteValue::try_as_basic_value)
.map(|v| v.map_left(BasicValueEnum::into_int_value))
.map(Either::unwrap_left)
.unwrap();
generator.bool_to_i1(ctx, ret)
}
/// Generates a call to `isnan` in IR. Returns an `i1` representing the result.
pub fn call_isnan<'ctx, G: CodeGenerator + ?Sized>(
generator: &mut G,
ctx: &CodeGenContext<'ctx, '_>,
v: FloatValue<'ctx>,
) -> IntValue<'ctx> {
let intrinsic_fn = ctx.module.get_function("__nac3_isnan").unwrap_or_else(|| {
let fn_type = ctx.ctx.i32_type().fn_type(&[ctx.ctx.f64_type().into()], false);
ctx.module.add_function("__nac3_isnan", fn_type, None)
});
let ret = ctx
.builder
.build_call(intrinsic_fn, &[v.into()], "isnan")
.map(CallSiteValue::try_as_basic_value)
.map(|v| v.map_left(BasicValueEnum::into_int_value))
.map(Either::unwrap_left)
.unwrap();
generator.bool_to_i1(ctx, ret)
}
/// Generates a call to `gamma` in IR. Returns an `f64` representing the result.
pub fn call_gamma<'ctx>(ctx: &CodeGenContext<'ctx, '_>, v: FloatValue<'ctx>) -> FloatValue<'ctx> {
let llvm_f64 = ctx.ctx.f64_type();
let intrinsic_fn = ctx.module.get_function("__nac3_gamma").unwrap_or_else(|| {
let fn_type = llvm_f64.fn_type(&[llvm_f64.into()], false);
ctx.module.add_function("__nac3_gamma", fn_type, None)
});
ctx.builder
.build_call(intrinsic_fn, &[v.into()], "gamma")
.map(CallSiteValue::try_as_basic_value)
.map(|v| v.map_left(BasicValueEnum::into_float_value))
.map(Either::unwrap_left)
.unwrap()
}
/// Generates a call to `gammaln` in IR. Returns an `f64` representing the result.
pub fn call_gammaln<'ctx>(ctx: &CodeGenContext<'ctx, '_>, v: FloatValue<'ctx>) -> FloatValue<'ctx> {
let llvm_f64 = ctx.ctx.f64_type();
let intrinsic_fn = ctx.module.get_function("__nac3_gammaln").unwrap_or_else(|| {
let fn_type = llvm_f64.fn_type(&[llvm_f64.into()], false);
ctx.module.add_function("__nac3_gammaln", fn_type, None)
});
ctx.builder
.build_call(intrinsic_fn, &[v.into()], "gammaln")
.map(CallSiteValue::try_as_basic_value)
.map(|v| v.map_left(BasicValueEnum::into_float_value))
.map(Either::unwrap_left)
.unwrap()
}
/// Generates a call to `j0` in IR. Returns an `f64` representing the result.
pub fn call_j0<'ctx>(ctx: &CodeGenContext<'ctx, '_>, v: FloatValue<'ctx>) -> FloatValue<'ctx> {
let llvm_f64 = ctx.ctx.f64_type();
let intrinsic_fn = ctx.module.get_function("__nac3_j0").unwrap_or_else(|| {
let fn_type = llvm_f64.fn_type(&[llvm_f64.into()], false);
ctx.module.add_function("__nac3_j0", fn_type, None)
});
ctx.builder
.build_call(intrinsic_fn, &[v.into()], "j0")
.map(CallSiteValue::try_as_basic_value)
.map(|v| v.map_left(BasicValueEnum::into_float_value))
.map(Either::unwrap_left)
.unwrap()
}

View File

@ -1,27 +1,26 @@
use crate::{symbol_resolver::SymbolResolver, typecheck::typedef::Type};
use super::{
classes::{
ArrayLikeIndexer, ArrayLikeValue, ArraySliceValue, ListValue, NDArrayValue,
TypedArrayLikeAccessor, TypedArrayLikeAdapter, UntypedArrayLikeAccessor,
},
llvm_intrinsics,
macros::codegen_unreachable,
stmt::gen_for_callback_incrementing,
CodeGenContext, CodeGenerator,
};
use inkwell::{ use inkwell::{
attributes::{Attribute, AttributeLoc}, attributes::{Attribute, AttributeLoc},
context::Context, context::Context,
memory_buffer::MemoryBuffer, memory_buffer::MemoryBuffer,
module::Module, module::Module,
types::{BasicTypeEnum, IntType}, values::{BasicValue, BasicValueEnum, IntValue},
values::{BasicValue, BasicValueEnum, CallSiteValue, FloatValue, IntValue}, IntPredicate,
AddressSpace, IntPredicate,
}; };
use itertools::Either;
use nac3parser::ast::Expr; use nac3parser::ast::Expr;
use super::{CodeGenContext, CodeGenerator};
use crate::{symbol_resolver::SymbolResolver, typecheck::typedef::Type};
pub use list::*;
pub use math::*;
pub use ndarray::*;
pub use slice::*;
mod list;
mod math;
mod ndarray;
mod slice;
#[must_use] #[must_use]
pub fn load_irrt<'ctx>(ctx: &'ctx Context, symbol_resolver: &dyn SymbolResolver) -> Module<'ctx> { pub fn load_irrt<'ctx>(ctx: &'ctx Context, symbol_resolver: &dyn SymbolResolver) -> Module<'ctx> {
let bitcode_buf = MemoryBuffer::create_from_memory_range( let bitcode_buf = MemoryBuffer::create_from_memory_range(
@ -61,88 +60,6 @@ pub fn load_irrt<'ctx>(ctx: &'ctx Context, symbol_resolver: &dyn SymbolResolver)
irrt_mod irrt_mod
} }
// repeated squaring method adapted from GNU Scientific Library:
// https://git.savannah.gnu.org/cgit/gsl.git/tree/sys/pow_int.c
pub fn integer_power<'ctx, G: CodeGenerator + ?Sized>(
generator: &mut G,
ctx: &mut CodeGenContext<'ctx, '_>,
base: IntValue<'ctx>,
exp: IntValue<'ctx>,
signed: bool,
) -> IntValue<'ctx> {
let symbol = match (base.get_type().get_bit_width(), exp.get_type().get_bit_width(), signed) {
(32, 32, true) => "__nac3_int_exp_int32_t",
(64, 64, true) => "__nac3_int_exp_int64_t",
(32, 32, false) => "__nac3_int_exp_uint32_t",
(64, 64, false) => "__nac3_int_exp_uint64_t",
_ => codegen_unreachable!(ctx),
};
let base_type = base.get_type();
let pow_fun = ctx.module.get_function(symbol).unwrap_or_else(|| {
let fn_type = base_type.fn_type(&[base_type.into(), base_type.into()], false);
ctx.module.add_function(symbol, fn_type, None)
});
// throw exception when exp < 0
let ge_zero = ctx
.builder
.build_int_compare(
IntPredicate::SGE,
exp,
exp.get_type().const_zero(),
"assert_int_pow_ge_0",
)
.unwrap();
ctx.make_assert(
generator,
ge_zero,
"0:ValueError",
"integer power must be positive or zero",
[None, None, None],
ctx.current_loc,
);
ctx.builder
.build_call(pow_fun, &[base.into(), exp.into()], "call_int_pow")
.map(CallSiteValue::try_as_basic_value)
.map(|v| v.map_left(BasicValueEnum::into_int_value))
.map(Either::unwrap_left)
.unwrap()
}
pub fn calculate_len_for_slice_range<'ctx, G: CodeGenerator + ?Sized>(
generator: &mut G,
ctx: &mut CodeGenContext<'ctx, '_>,
start: IntValue<'ctx>,
end: IntValue<'ctx>,
step: IntValue<'ctx>,
) -> IntValue<'ctx> {
const SYMBOL: &str = "__nac3_range_slice_len";
let len_func = ctx.module.get_function(SYMBOL).unwrap_or_else(|| {
let i32_t = ctx.ctx.i32_type();
let fn_t = i32_t.fn_type(&[i32_t.into(), i32_t.into(), i32_t.into()], false);
ctx.module.add_function(SYMBOL, fn_t, None)
});
// assert step != 0, throw exception if not
let not_zero = ctx
.builder
.build_int_compare(IntPredicate::NE, step, step.get_type().const_zero(), "range_step_ne")
.unwrap();
ctx.make_assert(
generator,
not_zero,
"0:ValueError",
"step must not be zero",
[None, None, None],
ctx.current_loc,
);
ctx.builder
.build_call(len_func, &[start.into(), end.into(), step.into()], "calc_len")
.map(CallSiteValue::try_as_basic_value)
.map(|v| v.map_left(BasicValueEnum::into_int_value))
.map(Either::unwrap_left)
.unwrap()
}
/// NOTE: the output value of the end index of this function should be compared ***inclusively***, /// NOTE: the output value of the end index of this function should be compared ***inclusively***,
/// because python allows `a[2::-1]`, whose semantic is `[a[2], a[1], a[0]]`, which is equivalent to /// because python allows `a[2::-1]`, whose semantic is `[a[2], a[1], a[0]]`, which is equivalent to
/// NO numeric slice in python. /// NO numeric slice in python.
@ -308,644 +225,3 @@ pub fn handle_slice_indices<'ctx, G: CodeGenerator>(
} }
})) }))
} }
/// this function allows index out of range, since python
/// allows index out of range in slice (`a = [1,2,3]; a[1:10] == [2,3]`).
pub fn handle_slice_index_bound<'ctx, G: CodeGenerator>(
i: &Expr<Option<Type>>,
ctx: &mut CodeGenContext<'ctx, '_>,
generator: &mut G,
length: IntValue<'ctx>,
) -> Result<Option<IntValue<'ctx>>, String> {
const SYMBOL: &str = "__nac3_slice_index_bound";
let func = ctx.module.get_function(SYMBOL).unwrap_or_else(|| {
let i32_t = ctx.ctx.i32_type();
let fn_t = i32_t.fn_type(&[i32_t.into(), i32_t.into()], false);
ctx.module.add_function(SYMBOL, fn_t, None)
});
let i = if let Some(v) = generator.gen_expr(ctx, i)? {
v.to_basic_value_enum(ctx, generator, i.custom.unwrap())?
} else {
return Ok(None);
};
Ok(Some(
ctx.builder
.build_call(func, &[i.into(), length.into()], "bounded_ind")
.map(CallSiteValue::try_as_basic_value)
.map(|v| v.map_left(BasicValueEnum::into_int_value))
.map(Either::unwrap_left)
.unwrap(),
))
}
/// This function handles 'end' **inclusively**.
/// Order of tuples `assign_idx` and `value_idx` is ('start', 'end', 'step').
/// Negative index should be handled before entering this function
pub fn list_slice_assignment<'ctx, G: CodeGenerator + ?Sized>(
generator: &mut G,
ctx: &mut CodeGenContext<'ctx, '_>,
ty: BasicTypeEnum<'ctx>,
dest_arr: ListValue<'ctx>,
dest_idx: (IntValue<'ctx>, IntValue<'ctx>, IntValue<'ctx>),
src_arr: ListValue<'ctx>,
src_idx: (IntValue<'ctx>, IntValue<'ctx>, IntValue<'ctx>),
) {
let size_ty = generator.get_size_type(ctx.ctx);
let int8_ptr = ctx.ctx.i8_type().ptr_type(AddressSpace::default());
let int32 = ctx.ctx.i32_type();
let (fun_symbol, elem_ptr_type) = ("__nac3_list_slice_assign_var_size", int8_ptr);
let slice_assign_fun = {
let ty_vec = vec![
int32.into(), // dest start idx
int32.into(), // dest end idx
int32.into(), // dest step
elem_ptr_type.into(), // dest arr ptr
int32.into(), // dest arr len
int32.into(), // src start idx
int32.into(), // src end idx
int32.into(), // src step
elem_ptr_type.into(), // src arr ptr
int32.into(), // src arr len
int32.into(), // size
];
ctx.module.get_function(fun_symbol).unwrap_or_else(|| {
let fn_t = int32.fn_type(ty_vec.as_slice(), false);
ctx.module.add_function(fun_symbol, fn_t, None)
})
};
let zero = int32.const_zero();
let one = int32.const_int(1, false);
let dest_arr_ptr = dest_arr.data().base_ptr(ctx, generator);
let dest_arr_ptr =
ctx.builder.build_pointer_cast(dest_arr_ptr, elem_ptr_type, "dest_arr_ptr_cast").unwrap();
let dest_len = dest_arr.load_size(ctx, Some("dest.len"));
let dest_len = ctx.builder.build_int_truncate_or_bit_cast(dest_len, int32, "srclen32").unwrap();
let src_arr_ptr = src_arr.data().base_ptr(ctx, generator);
let src_arr_ptr =
ctx.builder.build_pointer_cast(src_arr_ptr, elem_ptr_type, "src_arr_ptr_cast").unwrap();
let src_len = src_arr.load_size(ctx, Some("src.len"));
let src_len = ctx.builder.build_int_truncate_or_bit_cast(src_len, int32, "srclen32").unwrap();
// index in bound and positive should be done
// assert if dest.step == 1 then len(src) <= len(dest) else len(src) == len(dest), and
// throw exception if not satisfied
let src_end = ctx
.builder
.build_select(
ctx.builder.build_int_compare(IntPredicate::SLT, src_idx.2, zero, "is_neg").unwrap(),
ctx.builder.build_int_sub(src_idx.1, one, "e_min_one").unwrap(),
ctx.builder.build_int_add(src_idx.1, one, "e_add_one").unwrap(),
"final_e",
)
.map(BasicValueEnum::into_int_value)
.unwrap();
let dest_end = ctx
.builder
.build_select(
ctx.builder.build_int_compare(IntPredicate::SLT, dest_idx.2, zero, "is_neg").unwrap(),
ctx.builder.build_int_sub(dest_idx.1, one, "e_min_one").unwrap(),
ctx.builder.build_int_add(dest_idx.1, one, "e_add_one").unwrap(),
"final_e",
)
.map(BasicValueEnum::into_int_value)
.unwrap();
let src_slice_len =
calculate_len_for_slice_range(generator, ctx, src_idx.0, src_end, src_idx.2);
let dest_slice_len =
calculate_len_for_slice_range(generator, ctx, dest_idx.0, dest_end, dest_idx.2);
let src_eq_dest = ctx
.builder
.build_int_compare(IntPredicate::EQ, src_slice_len, dest_slice_len, "slice_src_eq_dest")
.unwrap();
let src_slt_dest = ctx
.builder
.build_int_compare(IntPredicate::SLT, src_slice_len, dest_slice_len, "slice_src_slt_dest")
.unwrap();
let dest_step_eq_one = ctx
.builder
.build_int_compare(
IntPredicate::EQ,
dest_idx.2,
dest_idx.2.get_type().const_int(1, false),
"slice_dest_step_eq_one",
)
.unwrap();
let cond_1 = ctx.builder.build_and(dest_step_eq_one, src_slt_dest, "slice_cond_1").unwrap();
let cond = ctx.builder.build_or(src_eq_dest, cond_1, "slice_cond").unwrap();
ctx.make_assert(
generator,
cond,
"0:ValueError",
"attempt to assign sequence of size {0} to slice of size {1} with step size {2}",
[Some(src_slice_len), Some(dest_slice_len), Some(dest_idx.2)],
ctx.current_loc,
);
let new_len = {
let args = vec![
dest_idx.0.into(), // dest start idx
dest_idx.1.into(), // dest end idx
dest_idx.2.into(), // dest step
dest_arr_ptr.into(), // dest arr ptr
dest_len.into(), // dest arr len
src_idx.0.into(), // src start idx
src_idx.1.into(), // src end idx
src_idx.2.into(), // src step
src_arr_ptr.into(), // src arr ptr
src_len.into(), // src arr len
{
let s = match ty {
BasicTypeEnum::FloatType(t) => t.size_of(),
BasicTypeEnum::IntType(t) => t.size_of(),
BasicTypeEnum::PointerType(t) => t.size_of(),
BasicTypeEnum::StructType(t) => t.size_of().unwrap(),
_ => codegen_unreachable!(ctx),
};
ctx.builder.build_int_truncate_or_bit_cast(s, int32, "size").unwrap()
}
.into(),
];
ctx.builder
.build_call(slice_assign_fun, args.as_slice(), "slice_assign")
.map(CallSiteValue::try_as_basic_value)
.map(|v| v.map_left(BasicValueEnum::into_int_value))
.map(Either::unwrap_left)
.unwrap()
};
// update length
let need_update =
ctx.builder.build_int_compare(IntPredicate::NE, new_len, dest_len, "need_update").unwrap();
let current = ctx.builder.get_insert_block().unwrap().get_parent().unwrap();
let update_bb = ctx.ctx.append_basic_block(current, "update");
let cont_bb = ctx.ctx.append_basic_block(current, "cont");
ctx.builder.build_conditional_branch(need_update, update_bb, cont_bb).unwrap();
ctx.builder.position_at_end(update_bb);
let new_len = ctx.builder.build_int_z_extend_or_bit_cast(new_len, size_ty, "new_len").unwrap();
dest_arr.store_size(ctx, generator, new_len);
ctx.builder.build_unconditional_branch(cont_bb).unwrap();
ctx.builder.position_at_end(cont_bb);
}
/// Generates a call to `isinf` in IR. Returns an `i1` representing the result.
pub fn call_isinf<'ctx, G: CodeGenerator + ?Sized>(
generator: &mut G,
ctx: &CodeGenContext<'ctx, '_>,
v: FloatValue<'ctx>,
) -> IntValue<'ctx> {
let intrinsic_fn = ctx.module.get_function("__nac3_isinf").unwrap_or_else(|| {
let fn_type = ctx.ctx.i32_type().fn_type(&[ctx.ctx.f64_type().into()], false);
ctx.module.add_function("__nac3_isinf", fn_type, None)
});
let ret = ctx
.builder
.build_call(intrinsic_fn, &[v.into()], "isinf")
.map(CallSiteValue::try_as_basic_value)
.map(|v| v.map_left(BasicValueEnum::into_int_value))
.map(Either::unwrap_left)
.unwrap();
generator.bool_to_i1(ctx, ret)
}
/// Generates a call to `isnan` in IR. Returns an `i1` representing the result.
pub fn call_isnan<'ctx, G: CodeGenerator + ?Sized>(
generator: &mut G,
ctx: &CodeGenContext<'ctx, '_>,
v: FloatValue<'ctx>,
) -> IntValue<'ctx> {
let intrinsic_fn = ctx.module.get_function("__nac3_isnan").unwrap_or_else(|| {
let fn_type = ctx.ctx.i32_type().fn_type(&[ctx.ctx.f64_type().into()], false);
ctx.module.add_function("__nac3_isnan", fn_type, None)
});
let ret = ctx
.builder
.build_call(intrinsic_fn, &[v.into()], "isnan")
.map(CallSiteValue::try_as_basic_value)
.map(|v| v.map_left(BasicValueEnum::into_int_value))
.map(Either::unwrap_left)
.unwrap();
generator.bool_to_i1(ctx, ret)
}
/// Generates a call to `gamma` in IR. Returns an `f64` representing the result.
pub fn call_gamma<'ctx>(ctx: &CodeGenContext<'ctx, '_>, v: FloatValue<'ctx>) -> FloatValue<'ctx> {
let llvm_f64 = ctx.ctx.f64_type();
let intrinsic_fn = ctx.module.get_function("__nac3_gamma").unwrap_or_else(|| {
let fn_type = llvm_f64.fn_type(&[llvm_f64.into()], false);
ctx.module.add_function("__nac3_gamma", fn_type, None)
});
ctx.builder
.build_call(intrinsic_fn, &[v.into()], "gamma")
.map(CallSiteValue::try_as_basic_value)
.map(|v| v.map_left(BasicValueEnum::into_float_value))
.map(Either::unwrap_left)
.unwrap()
}
/// Generates a call to `gammaln` in IR. Returns an `f64` representing the result.
pub fn call_gammaln<'ctx>(ctx: &CodeGenContext<'ctx, '_>, v: FloatValue<'ctx>) -> FloatValue<'ctx> {
let llvm_f64 = ctx.ctx.f64_type();
let intrinsic_fn = ctx.module.get_function("__nac3_gammaln").unwrap_or_else(|| {
let fn_type = llvm_f64.fn_type(&[llvm_f64.into()], false);
ctx.module.add_function("__nac3_gammaln", fn_type, None)
});
ctx.builder
.build_call(intrinsic_fn, &[v.into()], "gammaln")
.map(CallSiteValue::try_as_basic_value)
.map(|v| v.map_left(BasicValueEnum::into_float_value))
.map(Either::unwrap_left)
.unwrap()
}
/// Generates a call to `j0` in IR. Returns an `f64` representing the result.
pub fn call_j0<'ctx>(ctx: &CodeGenContext<'ctx, '_>, v: FloatValue<'ctx>) -> FloatValue<'ctx> {
let llvm_f64 = ctx.ctx.f64_type();
let intrinsic_fn = ctx.module.get_function("__nac3_j0").unwrap_or_else(|| {
let fn_type = llvm_f64.fn_type(&[llvm_f64.into()], false);
ctx.module.add_function("__nac3_j0", fn_type, None)
});
ctx.builder
.build_call(intrinsic_fn, &[v.into()], "j0")
.map(CallSiteValue::try_as_basic_value)
.map(|v| v.map_left(BasicValueEnum::into_float_value))
.map(Either::unwrap_left)
.unwrap()
}
/// Generates a call to `__nac3_ndarray_calc_size`. Returns an [`IntValue`] representing the
/// calculated total size.
///
/// * `dims` - An [`ArrayLikeIndexer`] containing the size of each dimension.
/// * `range` - The dimension index to begin and end (exclusively) calculating the dimensions for,
/// or [`None`] if starting from the first dimension and ending at the last dimension
/// respectively.
pub fn call_ndarray_calc_size<'ctx, G, Dims>(
generator: &G,
ctx: &CodeGenContext<'ctx, '_>,
dims: &Dims,
(begin, end): (Option<IntValue<'ctx>>, Option<IntValue<'ctx>>),
) -> IntValue<'ctx>
where
G: CodeGenerator + ?Sized,
Dims: ArrayLikeIndexer<'ctx>,
{
let llvm_usize = generator.get_size_type(ctx.ctx);
let llvm_pusize = llvm_usize.ptr_type(AddressSpace::default());
let ndarray_calc_size_fn_name = match llvm_usize.get_bit_width() {
32 => "__nac3_ndarray_calc_size",
64 => "__nac3_ndarray_calc_size64",
bw => codegen_unreachable!(ctx, "Unsupported size type bit width: {}", bw),
};
let ndarray_calc_size_fn_t = llvm_usize.fn_type(
&[llvm_pusize.into(), llvm_usize.into(), llvm_usize.into(), llvm_usize.into()],
false,
);
let ndarray_calc_size_fn =
ctx.module.get_function(ndarray_calc_size_fn_name).unwrap_or_else(|| {
ctx.module.add_function(ndarray_calc_size_fn_name, ndarray_calc_size_fn_t, None)
});
let begin = begin.unwrap_or_else(|| llvm_usize.const_zero());
let end = end.unwrap_or_else(|| dims.size(ctx, generator));
ctx.builder
.build_call(
ndarray_calc_size_fn,
&[
dims.base_ptr(ctx, generator).into(),
dims.size(ctx, generator).into(),
begin.into(),
end.into(),
],
"",
)
.map(CallSiteValue::try_as_basic_value)
.map(|v| v.map_left(BasicValueEnum::into_int_value))
.map(Either::unwrap_left)
.unwrap()
}
/// Generates a call to `__nac3_ndarray_calc_nd_indices`. Returns a [`TypeArrayLikeAdpater`]
/// containing `i32` indices of the flattened index.
///
/// * `index` - The index to compute the multidimensional index for.
/// * `ndarray` - LLVM pointer to the `NDArray`. This value must be the LLVM representation of an
/// `NDArray`.
pub fn call_ndarray_calc_nd_indices<'ctx, G: CodeGenerator + ?Sized>(
generator: &G,
ctx: &mut CodeGenContext<'ctx, '_>,
index: IntValue<'ctx>,
ndarray: NDArrayValue<'ctx>,
) -> TypedArrayLikeAdapter<'ctx, IntValue<'ctx>> {
let llvm_void = ctx.ctx.void_type();
let llvm_i32 = ctx.ctx.i32_type();
let llvm_usize = generator.get_size_type(ctx.ctx);
let llvm_pi32 = llvm_i32.ptr_type(AddressSpace::default());
let llvm_pusize = llvm_usize.ptr_type(AddressSpace::default());
let ndarray_calc_nd_indices_fn_name = match llvm_usize.get_bit_width() {
32 => "__nac3_ndarray_calc_nd_indices",
64 => "__nac3_ndarray_calc_nd_indices64",
bw => codegen_unreachable!(ctx, "Unsupported size type bit width: {}", bw),
};
let ndarray_calc_nd_indices_fn =
ctx.module.get_function(ndarray_calc_nd_indices_fn_name).unwrap_or_else(|| {
let fn_type = llvm_void.fn_type(
&[llvm_usize.into(), llvm_pusize.into(), llvm_usize.into(), llvm_pi32.into()],
false,
);
ctx.module.add_function(ndarray_calc_nd_indices_fn_name, fn_type, None)
});
let ndarray_num_dims = ndarray.load_ndims(ctx);
let ndarray_dims = ndarray.dim_sizes();
let indices = ctx.builder.build_array_alloca(llvm_i32, ndarray_num_dims, "").unwrap();
ctx.builder
.build_call(
ndarray_calc_nd_indices_fn,
&[
index.into(),
ndarray_dims.base_ptr(ctx, generator).into(),
ndarray_num_dims.into(),
indices.into(),
],
"",
)
.unwrap();
TypedArrayLikeAdapter::from(
ArraySliceValue::from_ptr_val(indices, ndarray_num_dims, None),
Box::new(|_, v| v.into_int_value()),
Box::new(|_, v| v.into()),
)
}
fn call_ndarray_flatten_index_impl<'ctx, G, Indices>(
generator: &G,
ctx: &CodeGenContext<'ctx, '_>,
ndarray: NDArrayValue<'ctx>,
indices: &Indices,
) -> IntValue<'ctx>
where
G: CodeGenerator + ?Sized,
Indices: ArrayLikeIndexer<'ctx>,
{
let llvm_i32 = ctx.ctx.i32_type();
let llvm_usize = generator.get_size_type(ctx.ctx);
let llvm_pi32 = llvm_i32.ptr_type(AddressSpace::default());
let llvm_pusize = llvm_usize.ptr_type(AddressSpace::default());
debug_assert_eq!(
IntType::try_from(indices.element_type(ctx, generator))
.map(IntType::get_bit_width)
.unwrap_or_default(),
llvm_i32.get_bit_width(),
"Expected i32 value for argument `indices` to `call_ndarray_flatten_index_impl`"
);
debug_assert_eq!(
indices.size(ctx, generator).get_type().get_bit_width(),
llvm_usize.get_bit_width(),
"Expected usize integer value for argument `indices_size` to `call_ndarray_flatten_index_impl`"
);
let ndarray_flatten_index_fn_name = match llvm_usize.get_bit_width() {
32 => "__nac3_ndarray_flatten_index",
64 => "__nac3_ndarray_flatten_index64",
bw => codegen_unreachable!(ctx, "Unsupported size type bit width: {}", bw),
};
let ndarray_flatten_index_fn =
ctx.module.get_function(ndarray_flatten_index_fn_name).unwrap_or_else(|| {
let fn_type = llvm_usize.fn_type(
&[llvm_pusize.into(), llvm_usize.into(), llvm_pi32.into(), llvm_usize.into()],
false,
);
ctx.module.add_function(ndarray_flatten_index_fn_name, fn_type, None)
});
let ndarray_num_dims = ndarray.load_ndims(ctx);
let ndarray_dims = ndarray.dim_sizes();
let index = ctx
.builder
.build_call(
ndarray_flatten_index_fn,
&[
ndarray_dims.base_ptr(ctx, generator).into(),
ndarray_num_dims.into(),
indices.base_ptr(ctx, generator).into(),
indices.size(ctx, generator).into(),
],
"",
)
.map(CallSiteValue::try_as_basic_value)
.map(|v| v.map_left(BasicValueEnum::into_int_value))
.map(Either::unwrap_left)
.unwrap();
index
}
/// Generates a call to `__nac3_ndarray_flatten_index`. Returns the flattened index for the
/// multidimensional index.
///
/// * `ndarray` - LLVM pointer to the `NDArray`. This value must be the LLVM representation of an
/// `NDArray`.
/// * `indices` - The multidimensional index to compute the flattened index for.
pub fn call_ndarray_flatten_index<'ctx, G, Index>(
generator: &mut G,
ctx: &mut CodeGenContext<'ctx, '_>,
ndarray: NDArrayValue<'ctx>,
indices: &Index,
) -> IntValue<'ctx>
where
G: CodeGenerator + ?Sized,
Index: ArrayLikeIndexer<'ctx>,
{
call_ndarray_flatten_index_impl(generator, ctx, ndarray, indices)
}
/// Generates a call to `__nac3_ndarray_calc_broadcast`. Returns a tuple containing the number of
/// dimension and size of each dimension of the resultant `ndarray`.
pub fn call_ndarray_calc_broadcast<'ctx, G: CodeGenerator + ?Sized>(
generator: &mut G,
ctx: &mut CodeGenContext<'ctx, '_>,
lhs: NDArrayValue<'ctx>,
rhs: NDArrayValue<'ctx>,
) -> TypedArrayLikeAdapter<'ctx, IntValue<'ctx>> {
let llvm_usize = generator.get_size_type(ctx.ctx);
let llvm_pusize = llvm_usize.ptr_type(AddressSpace::default());
let ndarray_calc_broadcast_fn_name = match llvm_usize.get_bit_width() {
32 => "__nac3_ndarray_calc_broadcast",
64 => "__nac3_ndarray_calc_broadcast64",
bw => codegen_unreachable!(ctx, "Unsupported size type bit width: {}", bw),
};
let ndarray_calc_broadcast_fn =
ctx.module.get_function(ndarray_calc_broadcast_fn_name).unwrap_or_else(|| {
let fn_type = llvm_usize.fn_type(
&[
llvm_pusize.into(),
llvm_usize.into(),
llvm_pusize.into(),
llvm_usize.into(),
llvm_pusize.into(),
],
false,
);
ctx.module.add_function(ndarray_calc_broadcast_fn_name, fn_type, None)
});
let lhs_ndims = lhs.load_ndims(ctx);
let rhs_ndims = rhs.load_ndims(ctx);
let min_ndims = llvm_intrinsics::call_int_umin(ctx, lhs_ndims, rhs_ndims, None);
gen_for_callback_incrementing(
generator,
ctx,
None,
llvm_usize.const_zero(),
(min_ndims, false),
|generator, ctx, _, idx| {
let idx = ctx.builder.build_int_sub(min_ndims, idx, "").unwrap();
let (lhs_dim_sz, rhs_dim_sz) = unsafe {
(
lhs.dim_sizes().get_typed_unchecked(ctx, generator, &idx, None),
rhs.dim_sizes().get_typed_unchecked(ctx, generator, &idx, None),
)
};
let llvm_usize_const_one = llvm_usize.const_int(1, false);
let lhs_eqz = ctx
.builder
.build_int_compare(IntPredicate::EQ, lhs_dim_sz, llvm_usize_const_one, "")
.unwrap();
let rhs_eqz = ctx
.builder
.build_int_compare(IntPredicate::EQ, rhs_dim_sz, llvm_usize_const_one, "")
.unwrap();
let lhs_or_rhs_eqz = ctx.builder.build_or(lhs_eqz, rhs_eqz, "").unwrap();
let lhs_eq_rhs = ctx
.builder
.build_int_compare(IntPredicate::EQ, lhs_dim_sz, rhs_dim_sz, "")
.unwrap();
let is_compatible = ctx.builder.build_or(lhs_or_rhs_eqz, lhs_eq_rhs, "").unwrap();
ctx.make_assert(
generator,
is_compatible,
"0:ValueError",
"operands could not be broadcast together",
[None, None, None],
ctx.current_loc,
);
Ok(())
},
llvm_usize.const_int(1, false),
)
.unwrap();
let max_ndims = llvm_intrinsics::call_int_umax(ctx, lhs_ndims, rhs_ndims, None);
let lhs_dims = lhs.dim_sizes().base_ptr(ctx, generator);
let lhs_ndims = lhs.load_ndims(ctx);
let rhs_dims = rhs.dim_sizes().base_ptr(ctx, generator);
let rhs_ndims = rhs.load_ndims(ctx);
let out_dims = ctx.builder.build_array_alloca(llvm_usize, max_ndims, "").unwrap();
let out_dims = ArraySliceValue::from_ptr_val(out_dims, max_ndims, None);
ctx.builder
.build_call(
ndarray_calc_broadcast_fn,
&[
lhs_dims.into(),
lhs_ndims.into(),
rhs_dims.into(),
rhs_ndims.into(),
out_dims.base_ptr(ctx, generator).into(),
],
"",
)
.unwrap();
TypedArrayLikeAdapter::from(
out_dims,
Box::new(|_, v| v.into_int_value()),
Box::new(|_, v| v.into()),
)
}
/// Generates a call to `__nac3_ndarray_calc_broadcast_idx`. Returns an [`ArrayAllocaValue`]
/// containing the indices used for accessing `array` corresponding to the index of the broadcasted
/// array `broadcast_idx`.
pub fn call_ndarray_calc_broadcast_index<
'ctx,
G: CodeGenerator + ?Sized,
BroadcastIdx: UntypedArrayLikeAccessor<'ctx>,
>(
generator: &mut G,
ctx: &mut CodeGenContext<'ctx, '_>,
array: NDArrayValue<'ctx>,
broadcast_idx: &BroadcastIdx,
) -> TypedArrayLikeAdapter<'ctx, IntValue<'ctx>> {
let llvm_i32 = ctx.ctx.i32_type();
let llvm_usize = generator.get_size_type(ctx.ctx);
let llvm_pi32 = llvm_i32.ptr_type(AddressSpace::default());
let llvm_pusize = llvm_usize.ptr_type(AddressSpace::default());
let ndarray_calc_broadcast_fn_name = match llvm_usize.get_bit_width() {
32 => "__nac3_ndarray_calc_broadcast_idx",
64 => "__nac3_ndarray_calc_broadcast_idx64",
bw => codegen_unreachable!(ctx, "Unsupported size type bit width: {}", bw),
};
let ndarray_calc_broadcast_fn =
ctx.module.get_function(ndarray_calc_broadcast_fn_name).unwrap_or_else(|| {
let fn_type = llvm_usize.fn_type(
&[llvm_pusize.into(), llvm_usize.into(), llvm_pi32.into(), llvm_pi32.into()],
false,
);
ctx.module.add_function(ndarray_calc_broadcast_fn_name, fn_type, None)
});
let broadcast_size = broadcast_idx.size(ctx, generator);
let out_idx = ctx.builder.build_array_alloca(llvm_i32, broadcast_size, "").unwrap();
let array_dims = array.dim_sizes().base_ptr(ctx, generator);
let array_ndims = array.load_ndims(ctx);
let broadcast_idx_ptr = unsafe {
broadcast_idx.ptr_offset_unchecked(ctx, generator, &llvm_usize.const_zero(), None)
};
ctx.builder
.build_call(
ndarray_calc_broadcast_fn,
&[array_dims.into(), array_ndims.into(), broadcast_idx_ptr.into(), out_idx.into()],
"",
)
.unwrap();
TypedArrayLikeAdapter::from(
ArraySliceValue::from_ptr_val(out_idx, broadcast_size, None),
Box::new(|_, v| v.into_int_value()),
Box::new(|_, v| v.into()),
)
}

View File

@ -0,0 +1,384 @@
use inkwell::{
types::IntType,
values::{BasicValueEnum, CallSiteValue, IntValue},
AddressSpace, IntPredicate,
};
use itertools::Either;
use crate::codegen::{
llvm_intrinsics,
macros::codegen_unreachable,
stmt::gen_for_callback_incrementing,
values::{
ArrayLikeIndexer, ArrayLikeValue, ArraySliceValue, NDArrayValue, TypedArrayLikeAccessor,
TypedArrayLikeAdapter, UntypedArrayLikeAccessor,
},
CodeGenContext, CodeGenerator,
};
/// Generates a call to `__nac3_ndarray_calc_size`. Returns an [`IntValue`] representing the
/// calculated total size.
///
/// * `dims` - An [`ArrayLikeIndexer`] containing the size of each dimension.
/// * `range` - The dimension index to begin and end (exclusively) calculating the dimensions for,
/// or [`None`] if starting from the first dimension and ending at the last dimension
/// respectively.
pub fn call_ndarray_calc_size<'ctx, G, Dims>(
generator: &G,
ctx: &CodeGenContext<'ctx, '_>,
dims: &Dims,
(begin, end): (Option<IntValue<'ctx>>, Option<IntValue<'ctx>>),
) -> IntValue<'ctx>
where
G: CodeGenerator + ?Sized,
Dims: ArrayLikeIndexer<'ctx>,
{
let llvm_usize = generator.get_size_type(ctx.ctx);
let llvm_pusize = llvm_usize.ptr_type(AddressSpace::default());
let ndarray_calc_size_fn_name = match llvm_usize.get_bit_width() {
32 => "__nac3_ndarray_calc_size",
64 => "__nac3_ndarray_calc_size64",
bw => codegen_unreachable!(ctx, "Unsupported size type bit width: {}", bw),
};
let ndarray_calc_size_fn_t = llvm_usize.fn_type(
&[llvm_pusize.into(), llvm_usize.into(), llvm_usize.into(), llvm_usize.into()],
false,
);
let ndarray_calc_size_fn =
ctx.module.get_function(ndarray_calc_size_fn_name).unwrap_or_else(|| {
ctx.module.add_function(ndarray_calc_size_fn_name, ndarray_calc_size_fn_t, None)
});
let begin = begin.unwrap_or_else(|| llvm_usize.const_zero());
let end = end.unwrap_or_else(|| dims.size(ctx, generator));
ctx.builder
.build_call(
ndarray_calc_size_fn,
&[
dims.base_ptr(ctx, generator).into(),
dims.size(ctx, generator).into(),
begin.into(),
end.into(),
],
"",
)
.map(CallSiteValue::try_as_basic_value)
.map(|v| v.map_left(BasicValueEnum::into_int_value))
.map(Either::unwrap_left)
.unwrap()
}
/// Generates a call to `__nac3_ndarray_calc_nd_indices`. Returns a [`TypeArrayLikeAdpater`]
/// containing `i32` indices of the flattened index.
///
/// * `index` - The index to compute the multidimensional index for.
/// * `ndarray` - LLVM pointer to the `NDArray`. This value must be the LLVM representation of an
/// `NDArray`.
pub fn call_ndarray_calc_nd_indices<'ctx, G: CodeGenerator + ?Sized>(
generator: &G,
ctx: &mut CodeGenContext<'ctx, '_>,
index: IntValue<'ctx>,
ndarray: NDArrayValue<'ctx>,
) -> TypedArrayLikeAdapter<'ctx, IntValue<'ctx>> {
let llvm_void = ctx.ctx.void_type();
let llvm_i32 = ctx.ctx.i32_type();
let llvm_usize = generator.get_size_type(ctx.ctx);
let llvm_pi32 = llvm_i32.ptr_type(AddressSpace::default());
let llvm_pusize = llvm_usize.ptr_type(AddressSpace::default());
let ndarray_calc_nd_indices_fn_name = match llvm_usize.get_bit_width() {
32 => "__nac3_ndarray_calc_nd_indices",
64 => "__nac3_ndarray_calc_nd_indices64",
bw => codegen_unreachable!(ctx, "Unsupported size type bit width: {}", bw),
};
let ndarray_calc_nd_indices_fn =
ctx.module.get_function(ndarray_calc_nd_indices_fn_name).unwrap_or_else(|| {
let fn_type = llvm_void.fn_type(
&[llvm_usize.into(), llvm_pusize.into(), llvm_usize.into(), llvm_pi32.into()],
false,
);
ctx.module.add_function(ndarray_calc_nd_indices_fn_name, fn_type, None)
});
let ndarray_num_dims = ndarray.load_ndims(ctx);
let ndarray_dims = ndarray.shape();
let indices = ctx.builder.build_array_alloca(llvm_i32, ndarray_num_dims, "").unwrap();
ctx.builder
.build_call(
ndarray_calc_nd_indices_fn,
&[
index.into(),
ndarray_dims.base_ptr(ctx, generator).into(),
ndarray_num_dims.into(),
indices.into(),
],
"",
)
.unwrap();
TypedArrayLikeAdapter::from(
ArraySliceValue::from_ptr_val(indices, ndarray_num_dims, None),
Box::new(|_, v| v.into_int_value()),
Box::new(|_, v| v.into()),
)
}
fn call_ndarray_flatten_index_impl<'ctx, G, Indices>(
generator: &G,
ctx: &CodeGenContext<'ctx, '_>,
ndarray: NDArrayValue<'ctx>,
indices: &Indices,
) -> IntValue<'ctx>
where
G: CodeGenerator + ?Sized,
Indices: ArrayLikeIndexer<'ctx>,
{
let llvm_i32 = ctx.ctx.i32_type();
let llvm_usize = generator.get_size_type(ctx.ctx);
let llvm_pi32 = llvm_i32.ptr_type(AddressSpace::default());
let llvm_pusize = llvm_usize.ptr_type(AddressSpace::default());
debug_assert_eq!(
IntType::try_from(indices.element_type(ctx, generator))
.map(IntType::get_bit_width)
.unwrap_or_default(),
llvm_i32.get_bit_width(),
"Expected i32 value for argument `indices` to `call_ndarray_flatten_index_impl`"
);
debug_assert_eq!(
indices.size(ctx, generator).get_type().get_bit_width(),
llvm_usize.get_bit_width(),
"Expected usize integer value for argument `indices_size` to `call_ndarray_flatten_index_impl`"
);
let ndarray_flatten_index_fn_name = match llvm_usize.get_bit_width() {
32 => "__nac3_ndarray_flatten_index",
64 => "__nac3_ndarray_flatten_index64",
bw => codegen_unreachable!(ctx, "Unsupported size type bit width: {}", bw),
};
let ndarray_flatten_index_fn =
ctx.module.get_function(ndarray_flatten_index_fn_name).unwrap_or_else(|| {
let fn_type = llvm_usize.fn_type(
&[llvm_pusize.into(), llvm_usize.into(), llvm_pi32.into(), llvm_usize.into()],
false,
);
ctx.module.add_function(ndarray_flatten_index_fn_name, fn_type, None)
});
let ndarray_num_dims = ndarray.load_ndims(ctx);
let ndarray_dims = ndarray.shape();
let index = ctx
.builder
.build_call(
ndarray_flatten_index_fn,
&[
ndarray_dims.base_ptr(ctx, generator).into(),
ndarray_num_dims.into(),
indices.base_ptr(ctx, generator).into(),
indices.size(ctx, generator).into(),
],
"",
)
.map(CallSiteValue::try_as_basic_value)
.map(|v| v.map_left(BasicValueEnum::into_int_value))
.map(Either::unwrap_left)
.unwrap();
index
}
/// Generates a call to `__nac3_ndarray_flatten_index`. Returns the flattened index for the
/// multidimensional index.
///
/// * `ndarray` - LLVM pointer to the `NDArray`. This value must be the LLVM representation of an
/// `NDArray`.
/// * `indices` - The multidimensional index to compute the flattened index for.
pub fn call_ndarray_flatten_index<'ctx, G, Index>(
generator: &mut G,
ctx: &mut CodeGenContext<'ctx, '_>,
ndarray: NDArrayValue<'ctx>,
indices: &Index,
) -> IntValue<'ctx>
where
G: CodeGenerator + ?Sized,
Index: ArrayLikeIndexer<'ctx>,
{
call_ndarray_flatten_index_impl(generator, ctx, ndarray, indices)
}
/// Generates a call to `__nac3_ndarray_calc_broadcast`. Returns a tuple containing the number of
/// dimension and size of each dimension of the resultant `ndarray`.
pub fn call_ndarray_calc_broadcast<'ctx, G: CodeGenerator + ?Sized>(
generator: &mut G,
ctx: &mut CodeGenContext<'ctx, '_>,
lhs: NDArrayValue<'ctx>,
rhs: NDArrayValue<'ctx>,
) -> TypedArrayLikeAdapter<'ctx, IntValue<'ctx>> {
let llvm_usize = generator.get_size_type(ctx.ctx);
let llvm_pusize = llvm_usize.ptr_type(AddressSpace::default());
let ndarray_calc_broadcast_fn_name = match llvm_usize.get_bit_width() {
32 => "__nac3_ndarray_calc_broadcast",
64 => "__nac3_ndarray_calc_broadcast64",
bw => codegen_unreachable!(ctx, "Unsupported size type bit width: {}", bw),
};
let ndarray_calc_broadcast_fn =
ctx.module.get_function(ndarray_calc_broadcast_fn_name).unwrap_or_else(|| {
let fn_type = llvm_usize.fn_type(
&[
llvm_pusize.into(),
llvm_usize.into(),
llvm_pusize.into(),
llvm_usize.into(),
llvm_pusize.into(),
],
false,
);
ctx.module.add_function(ndarray_calc_broadcast_fn_name, fn_type, None)
});
let lhs_ndims = lhs.load_ndims(ctx);
let rhs_ndims = rhs.load_ndims(ctx);
let min_ndims = llvm_intrinsics::call_int_umin(ctx, lhs_ndims, rhs_ndims, None);
gen_for_callback_incrementing(
generator,
ctx,
None,
llvm_usize.const_zero(),
(min_ndims, false),
|generator, ctx, _, idx| {
let idx = ctx.builder.build_int_sub(min_ndims, idx, "").unwrap();
let (lhs_dim_sz, rhs_dim_sz) = unsafe {
(
lhs.shape().get_typed_unchecked(ctx, generator, &idx, None),
rhs.shape().get_typed_unchecked(ctx, generator, &idx, None),
)
};
let llvm_usize_const_one = llvm_usize.const_int(1, false);
let lhs_eqz = ctx
.builder
.build_int_compare(IntPredicate::EQ, lhs_dim_sz, llvm_usize_const_one, "")
.unwrap();
let rhs_eqz = ctx
.builder
.build_int_compare(IntPredicate::EQ, rhs_dim_sz, llvm_usize_const_one, "")
.unwrap();
let lhs_or_rhs_eqz = ctx.builder.build_or(lhs_eqz, rhs_eqz, "").unwrap();
let lhs_eq_rhs = ctx
.builder
.build_int_compare(IntPredicate::EQ, lhs_dim_sz, rhs_dim_sz, "")
.unwrap();
let is_compatible = ctx.builder.build_or(lhs_or_rhs_eqz, lhs_eq_rhs, "").unwrap();
ctx.make_assert(
generator,
is_compatible,
"0:ValueError",
"operands could not be broadcast together",
[None, None, None],
ctx.current_loc,
);
Ok(())
},
llvm_usize.const_int(1, false),
)
.unwrap();
let max_ndims = llvm_intrinsics::call_int_umax(ctx, lhs_ndims, rhs_ndims, None);
let lhs_dims = lhs.shape().base_ptr(ctx, generator);
let lhs_ndims = lhs.load_ndims(ctx);
let rhs_dims = rhs.shape().base_ptr(ctx, generator);
let rhs_ndims = rhs.load_ndims(ctx);
let out_dims = ctx.builder.build_array_alloca(llvm_usize, max_ndims, "").unwrap();
let out_dims = ArraySliceValue::from_ptr_val(out_dims, max_ndims, None);
ctx.builder
.build_call(
ndarray_calc_broadcast_fn,
&[
lhs_dims.into(),
lhs_ndims.into(),
rhs_dims.into(),
rhs_ndims.into(),
out_dims.base_ptr(ctx, generator).into(),
],
"",
)
.unwrap();
TypedArrayLikeAdapter::from(
out_dims,
Box::new(|_, v| v.into_int_value()),
Box::new(|_, v| v.into()),
)
}
/// Generates a call to `__nac3_ndarray_calc_broadcast_idx`. Returns an [`ArrayAllocaValue`]
/// containing the indices used for accessing `array` corresponding to the index of the broadcasted
/// array `broadcast_idx`.
pub fn call_ndarray_calc_broadcast_index<
'ctx,
G: CodeGenerator + ?Sized,
BroadcastIdx: UntypedArrayLikeAccessor<'ctx>,
>(
generator: &mut G,
ctx: &mut CodeGenContext<'ctx, '_>,
array: NDArrayValue<'ctx>,
broadcast_idx: &BroadcastIdx,
) -> TypedArrayLikeAdapter<'ctx, IntValue<'ctx>> {
let llvm_i32 = ctx.ctx.i32_type();
let llvm_usize = generator.get_size_type(ctx.ctx);
let llvm_pi32 = llvm_i32.ptr_type(AddressSpace::default());
let llvm_pusize = llvm_usize.ptr_type(AddressSpace::default());
let ndarray_calc_broadcast_fn_name = match llvm_usize.get_bit_width() {
32 => "__nac3_ndarray_calc_broadcast_idx",
64 => "__nac3_ndarray_calc_broadcast_idx64",
bw => codegen_unreachable!(ctx, "Unsupported size type bit width: {}", bw),
};
let ndarray_calc_broadcast_fn =
ctx.module.get_function(ndarray_calc_broadcast_fn_name).unwrap_or_else(|| {
let fn_type = llvm_usize.fn_type(
&[llvm_pusize.into(), llvm_usize.into(), llvm_pi32.into(), llvm_pi32.into()],
false,
);
ctx.module.add_function(ndarray_calc_broadcast_fn_name, fn_type, None)
});
let broadcast_size = broadcast_idx.size(ctx, generator);
let out_idx = ctx.builder.build_array_alloca(llvm_i32, broadcast_size, "").unwrap();
let array_dims = array.shape().base_ptr(ctx, generator);
let array_ndims = array.load_ndims(ctx);
let broadcast_idx_ptr = unsafe {
broadcast_idx.ptr_offset_unchecked(ctx, generator, &llvm_usize.const_zero(), None)
};
ctx.builder
.build_call(
ndarray_calc_broadcast_fn,
&[array_dims.into(), array_ndims.into(), broadcast_idx_ptr.into(), out_idx.into()],
"",
)
.unwrap();
TypedArrayLikeAdapter::from(
ArraySliceValue::from_ptr_val(out_idx, broadcast_size, None),
Box::new(|_, v| v.into_int_value()),
Box::new(|_, v| v.into()),
)
}

View File

@ -0,0 +1,76 @@
use inkwell::{
values::{BasicValueEnum, CallSiteValue, IntValue},
IntPredicate,
};
use itertools::Either;
use nac3parser::ast::Expr;
use crate::{
codegen::{CodeGenContext, CodeGenerator},
typecheck::typedef::Type,
};
/// this function allows index out of range, since python
/// allows index out of range in slice (`a = [1,2,3]; a[1:10] == [2,3]`).
pub fn handle_slice_index_bound<'ctx, G: CodeGenerator>(
i: &Expr<Option<Type>>,
ctx: &mut CodeGenContext<'ctx, '_>,
generator: &mut G,
length: IntValue<'ctx>,
) -> Result<Option<IntValue<'ctx>>, String> {
const SYMBOL: &str = "__nac3_slice_index_bound";
let func = ctx.module.get_function(SYMBOL).unwrap_or_else(|| {
let i32_t = ctx.ctx.i32_type();
let fn_t = i32_t.fn_type(&[i32_t.into(), i32_t.into()], false);
ctx.module.add_function(SYMBOL, fn_t, None)
});
let i = if let Some(v) = generator.gen_expr(ctx, i)? {
v.to_basic_value_enum(ctx, generator, i.custom.unwrap())?
} else {
return Ok(None);
};
Ok(Some(
ctx.builder
.build_call(func, &[i.into(), length.into()], "bounded_ind")
.map(CallSiteValue::try_as_basic_value)
.map(|v| v.map_left(BasicValueEnum::into_int_value))
.map(Either::unwrap_left)
.unwrap(),
))
}
pub fn calculate_len_for_slice_range<'ctx, G: CodeGenerator + ?Sized>(
generator: &mut G,
ctx: &mut CodeGenContext<'ctx, '_>,
start: IntValue<'ctx>,
end: IntValue<'ctx>,
step: IntValue<'ctx>,
) -> IntValue<'ctx> {
const SYMBOL: &str = "__nac3_range_slice_len";
let len_func = ctx.module.get_function(SYMBOL).unwrap_or_else(|| {
let i32_t = ctx.ctx.i32_type();
let fn_t = i32_t.fn_type(&[i32_t.into(), i32_t.into(), i32_t.into()], false);
ctx.module.add_function(SYMBOL, fn_t, None)
});
// assert step != 0, throw exception if not
let not_zero = ctx
.builder
.build_int_compare(IntPredicate::NE, step, step.get_type().const_zero(), "range_step_ne")
.unwrap();
ctx.make_assert(
generator,
not_zero,
"0:ValueError",
"step must not be zero",
[None, None, None],
ctx.current_loc,
);
ctx.builder
.build_call(len_func, &[start.into(), end.into(), step.into()], "calc_len")
.map(CallSiteValue::try_as_basic_value)
.map(|v| v.map_left(BasicValueEnum::into_int_value))
.map(Either::unwrap_left)
.unwrap()
}

View File

@ -1,12 +1,14 @@
use crate::codegen::CodeGenContext; use inkwell::{
use inkwell::context::Context; context::Context,
use inkwell::intrinsics::Intrinsic; intrinsics::Intrinsic,
use inkwell::types::AnyTypeEnum::IntType; types::{AnyTypeEnum::IntType, FloatType},
use inkwell::types::FloatType; values::{BasicValueEnum, CallSiteValue, FloatValue, IntValue, PointerValue},
use inkwell::values::{BasicValueEnum, CallSiteValue, FloatValue, IntValue, PointerValue}; AddressSpace,
use inkwell::AddressSpace; };
use itertools::Either; use itertools::Either;
use super::CodeGenContext;
/// Returns the string representation for the floating-point type `ft` when used in intrinsic /// Returns the string representation for the floating-point type `ft` when used in intrinsic
/// functions. /// functions.
fn get_float_intrinsic_repr(ctx: &Context, ft: FloatType) -> &'static str { fn get_float_intrinsic_repr(ctx: &Context, ft: FloatType) -> &'static str {

View File

@ -1,12 +1,12 @@
use crate::{ use std::{
codegen::classes::{ListType, NDArrayType, ProxyType, RangeType}, collections::{HashMap, HashSet},
symbol_resolver::{StaticValue, SymbolResolver}, sync::{
toplevel::{helper::PrimDef, numpy::unpack_ndarray_var_tys, TopLevelContext, TopLevelDef}, atomic::{AtomicBool, Ordering},
typecheck::{ Arc,
type_inferencer::{CodeLocation, PrimitiveStore},
typedef::{CallId, FuncArg, Type, TypeEnum, Unifier},
}, },
thread,
}; };
use crossbeam::channel::{unbounded, Receiver, Sender}; use crossbeam::channel::{unbounded, Receiver, Sender};
use inkwell::{ use inkwell::{
attributes::{Attribute, AttributeLoc}, attributes::{Attribute, AttributeLoc},
@ -24,17 +24,23 @@ use inkwell::{
AddressSpace, IntPredicate, OptimizationLevel, AddressSpace, IntPredicate, OptimizationLevel,
}; };
use itertools::Itertools; use itertools::Itertools;
use nac3parser::ast::{Location, Stmt, StrRef};
use parking_lot::{Condvar, Mutex}; use parking_lot::{Condvar, Mutex};
use std::collections::{HashMap, HashSet};
use std::sync::{ use nac3parser::ast::{Location, Stmt, StrRef};
atomic::{AtomicBool, Ordering},
Arc, use crate::{
symbol_resolver::{StaticValue, SymbolResolver},
toplevel::{helper::PrimDef, numpy::unpack_ndarray_var_tys, TopLevelContext, TopLevelDef},
typecheck::{
type_inferencer::{CodeLocation, PrimitiveStore},
typedef::{CallId, FuncArg, Type, TypeEnum, Unifier},
},
}; };
use std::thread; use concrete_type::{ConcreteType, ConcreteTypeEnum, ConcreteTypeStore};
pub use generator::{CodeGenerator, DefaultCodeGenerator};
use types::{ListType, NDArrayType, ProxyType, RangeType};
pub mod builtin_fns; pub mod builtin_fns;
pub mod classes;
pub mod concrete_type; pub mod concrete_type;
pub mod expr; pub mod expr;
pub mod extern_fns; pub mod extern_fns;
@ -43,13 +49,12 @@ pub mod irrt;
pub mod llvm_intrinsics; pub mod llvm_intrinsics;
pub mod numpy; pub mod numpy;
pub mod stmt; pub mod stmt;
pub mod types;
pub mod values;
#[cfg(test)] #[cfg(test)]
mod test; mod test;
use concrete_type::{ConcreteType, ConcreteTypeEnum, ConcreteTypeStore};
pub use generator::{CodeGenerator, DefaultCodeGenerator};
mod macros { mod macros {
/// Codegen-variant of [`std::unreachable`] which accepts an instance of [`CodeGenContext`] as /// Codegen-variant of [`std::unreachable`] which accepts an instance of [`CodeGenContext`] as
/// its first argument to provide Python source information to indicate the codegen location /// its first argument to provide Python source information to indicate the codegen location
@ -848,10 +853,9 @@ pub fn gen_func_impl<
builder.position_at_end(init_bb); builder.position_at_end(init_bb);
let body_bb = context.append_basic_block(fn_val, "body"); let body_bb = context.append_basic_block(fn_val, "body");
// Store non-vararg argument values into local variables
let mut var_assignment = HashMap::new(); let mut var_assignment = HashMap::new();
let offset = u32::from(has_sret); let offset = u32::from(has_sret);
// Store non-vararg argument values into local variables
for (n, arg) in args.iter().enumerate().filter(|(_, arg)| !arg.is_vararg) { for (n, arg) in args.iter().enumerate().filter(|(_, arg)| !arg.is_vararg) {
let param = fn_val.get_nth_param((n as u32) + offset).unwrap(); let param = fn_val.get_nth_param((n as u32) + offset).unwrap();
let local_type = get_llvm_type( let local_type = get_llvm_type(

View File

@ -1,24 +1,32 @@
use crate::{ use inkwell::{
codegen::{ types::{AnyTypeEnum, BasicType, BasicTypeEnum, PointerType},
classes::{ values::{BasicValue, BasicValueEnum, IntValue, PointerValue},
ArrayLikeIndexer, ArrayLikeValue, ListType, ListValue, NDArrayType, NDArrayValue, AddressSpace, IntPredicate, OptimizationLevel,
ProxyType, ProxyValue, TypedArrayLikeAccessor, TypedArrayLikeAdapter, };
TypedArrayLikeMutator, UntypedArrayLikeAccessor, UntypedArrayLikeMutator,
}, use nac3parser::ast::{Operator, StrRef};
use super::{
expr::gen_binop_expr_with_values, expr::gen_binop_expr_with_values,
irrt::{ irrt::{
calculate_len_for_slice_range, call_ndarray_calc_broadcast, calculate_len_for_slice_range, call_ndarray_calc_broadcast,
call_ndarray_calc_broadcast_index, call_ndarray_calc_nd_indices, call_ndarray_calc_broadcast_index, call_ndarray_calc_nd_indices, call_ndarray_calc_size,
call_ndarray_calc_size,
}, },
llvm_intrinsics::{self, call_memcpy_generic}, llvm_intrinsics::{self, call_memcpy_generic},
macros::codegen_unreachable, macros::codegen_unreachable,
stmt::{gen_for_callback_incrementing, gen_for_range_callback, gen_if_else_expr_callback}, stmt::{gen_for_callback_incrementing, gen_for_range_callback, gen_if_else_expr_callback},
CodeGenContext, CodeGenerator, types::{ListType, NDArrayType, ProxyType},
values::{
ArrayLikeIndexer, ArrayLikeValue, ListValue, NDArrayValue, ProxyValue,
TypedArrayLikeAccessor, TypedArrayLikeAdapter, TypedArrayLikeMutator,
UntypedArrayLikeAccessor, UntypedArrayLikeMutator,
}, },
CodeGenContext, CodeGenerator,
};
use crate::{
symbol_resolver::ValueEnum, symbol_resolver::ValueEnum,
toplevel::{ toplevel::{
helper::PrimDef, helper::{arraylike_flatten_element_type, PrimDef},
numpy::{make_ndarray_ty, unpack_ndarray_var_tys}, numpy::{make_ndarray_ty, unpack_ndarray_var_tys},
DefinitionId, DefinitionId,
}, },
@ -27,16 +35,6 @@ use crate::{
typedef::{FunSignature, Type, TypeEnum}, typedef::{FunSignature, Type, TypeEnum},
}, },
}; };
use inkwell::{
types::BasicType,
values::{BasicValueEnum, IntValue, PointerValue},
AddressSpace, IntPredicate, OptimizationLevel,
};
use inkwell::{
types::{AnyTypeEnum, BasicTypeEnum, PointerType},
values::BasicValue,
};
use nac3parser::ast::{Operator, StrRef};
/// Creates an uninitialized `NDArray` instance. /// Creates an uninitialized `NDArray` instance.
fn create_ndarray_uninitialized<'ctx, G: CodeGenerator + ?Sized>( fn create_ndarray_uninitialized<'ctx, G: CodeGenerator + ?Sized>(
@ -44,6 +42,7 @@ fn create_ndarray_uninitialized<'ctx, G: CodeGenerator + ?Sized>(
ctx: &mut CodeGenContext<'ctx, '_>, ctx: &mut CodeGenContext<'ctx, '_>,
elem_ty: Type, elem_ty: Type,
) -> Result<NDArrayValue<'ctx>, String> { ) -> Result<NDArrayValue<'ctx>, String> {
let llvm_elem_ty = ctx.get_llvm_type(generator, elem_ty);
let ndarray_ty = make_ndarray_ty(&mut ctx.unifier, &ctx.primitives, Some(elem_ty), None); let ndarray_ty = make_ndarray_ty(&mut ctx.unifier, &ctx.primitives, Some(elem_ty), None);
let llvm_usize = generator.get_size_type(ctx.ctx); let llvm_usize = generator.get_size_type(ctx.ctx);
@ -56,7 +55,7 @@ fn create_ndarray_uninitialized<'ctx, G: CodeGenerator + ?Sized>(
let ndarray = generator.gen_var_alloc(ctx, llvm_ndarray_t.into(), None)?; let ndarray = generator.gen_var_alloc(ctx, llvm_ndarray_t.into(), None)?;
Ok(NDArrayValue::from_ptr_val(ndarray, llvm_usize, None)) Ok(NDArrayValue::from_pointer_value(ndarray, llvm_elem_ty, llvm_usize, None))
} }
/// Creates an `NDArray` instance from a dynamic shape. /// Creates an `NDArray` instance from a dynamic shape.
@ -129,7 +128,7 @@ where
ndarray.store_ndims(ctx, generator, num_dims); ndarray.store_ndims(ctx, generator, num_dims);
let ndarray_num_dims = ndarray.load_ndims(ctx); let ndarray_num_dims = ndarray.load_ndims(ctx);
ndarray.create_dim_sizes(ctx, llvm_usize, ndarray_num_dims); ndarray.create_shape(ctx, llvm_usize, ndarray_num_dims);
// Copy the dimension sizes from shape to ndarray.dims // Copy the dimension sizes from shape to ndarray.dims
let shape_len = shape_len_fn(generator, ctx, shape)?; let shape_len = shape_len_fn(generator, ctx, shape)?;
@ -145,7 +144,7 @@ where
let shape_dim = ctx.builder.build_int_z_extend(shape_dim, llvm_usize, "").unwrap(); let shape_dim = ctx.builder.build_int_z_extend(shape_dim, llvm_usize, "").unwrap();
let ndarray_pdim = let ndarray_pdim =
unsafe { ndarray.dim_sizes().ptr_offset_unchecked(ctx, generator, &i, None) }; unsafe { ndarray.shape().ptr_offset_unchecked(ctx, generator, &i, None) };
ctx.builder.build_store(ndarray_pdim, shape_dim).unwrap(); ctx.builder.build_store(ndarray_pdim, shape_dim).unwrap();
@ -196,12 +195,12 @@ pub fn create_ndarray_const_shape<'ctx, G: CodeGenerator + ?Sized>(
ndarray.store_ndims(ctx, generator, num_dims); ndarray.store_ndims(ctx, generator, num_dims);
let ndarray_num_dims = ndarray.load_ndims(ctx); let ndarray_num_dims = ndarray.load_ndims(ctx);
ndarray.create_dim_sizes(ctx, llvm_usize, ndarray_num_dims); ndarray.create_shape(ctx, llvm_usize, ndarray_num_dims);
for (i, &shape_dim) in shape.iter().enumerate() { for (i, &shape_dim) in shape.iter().enumerate() {
let shape_dim = ctx.builder.build_int_z_extend(shape_dim, llvm_usize, "").unwrap(); let shape_dim = ctx.builder.build_int_z_extend(shape_dim, llvm_usize, "").unwrap();
let ndarray_dim = unsafe { let ndarray_dim = unsafe {
ndarray.dim_sizes().ptr_offset_unchecked( ndarray.shape().ptr_offset_unchecked(
ctx, ctx,
generator, generator,
&llvm_usize.const_int(i as u64, true), &llvm_usize.const_int(i as u64, true),
@ -230,7 +229,7 @@ fn ndarray_init_data<'ctx, G: CodeGenerator + ?Sized>(
let ndarray_num_elems = call_ndarray_calc_size( let ndarray_num_elems = call_ndarray_calc_size(
generator, generator,
ctx, ctx,
&ndarray.dim_sizes().as_slice_value(ctx, generator), &ndarray.shape().as_slice_value(ctx, generator),
(None, None), (None, None),
); );
ndarray.create_data(ctx, llvm_ndarray_data_t, ndarray_num_elems); ndarray.create_data(ctx, llvm_ndarray_data_t, ndarray_num_elems);
@ -316,11 +315,11 @@ fn call_ndarray_empty_impl<'ctx, G: CodeGenerator + ?Sized>(
match shape { match shape {
BasicValueEnum::PointerValue(shape_list_ptr) BasicValueEnum::PointerValue(shape_list_ptr)
if ListValue::is_instance(shape_list_ptr, llvm_usize).is_ok() => if ListValue::is_representable(shape_list_ptr, llvm_usize).is_ok() =>
{ {
// 1. A list of ints; e.g., `np.empty([600, 800, 3])` // 1. A list of ints; e.g., `np.empty([600, 800, 3])`
let shape_list = ListValue::from_ptr_val(shape_list_ptr, llvm_usize, None); let shape_list = ListValue::from_pointer_value(shape_list_ptr, llvm_usize, None);
create_ndarray_dyn_shape( create_ndarray_dyn_shape(
generator, generator,
ctx, ctx,
@ -381,7 +380,7 @@ where
let ndarray_num_elems = call_ndarray_calc_size( let ndarray_num_elems = call_ndarray_calc_size(
generator, generator,
ctx, ctx,
&ndarray.dim_sizes().as_slice_value(ctx, generator), &ndarray.shape().as_slice_value(ctx, generator),
(None, None), (None, None),
); );
@ -475,8 +474,8 @@ fn ndarray_broadcast_fill<'ctx, 'a, G, ValueFn>(
generator: &mut G, generator: &mut G,
ctx: &mut CodeGenContext<'ctx, 'a>, ctx: &mut CodeGenContext<'ctx, 'a>,
res: NDArrayValue<'ctx>, res: NDArrayValue<'ctx>,
lhs: (BasicValueEnum<'ctx>, bool), lhs: (Type, BasicValueEnum<'ctx>, bool),
rhs: (BasicValueEnum<'ctx>, bool), rhs: (Type, BasicValueEnum<'ctx>, bool),
value_fn: ValueFn, value_fn: ValueFn,
) -> Result<NDArrayValue<'ctx>, String> ) -> Result<NDArrayValue<'ctx>, String>
where where
@ -489,8 +488,8 @@ where
{ {
let llvm_usize = generator.get_size_type(ctx.ctx); let llvm_usize = generator.get_size_type(ctx.ctx);
let (lhs_val, lhs_scalar) = lhs; let (lhs_ty, lhs_val, lhs_scalar) = lhs;
let (rhs_val, rhs_scalar) = rhs; let (rhs_ty, rhs_val, rhs_scalar) = rhs;
assert!( assert!(
!(lhs_scalar && rhs_scalar), !(lhs_scalar && rhs_scalar),
@ -501,12 +500,26 @@ where
// Assert that all ndarray operands are broadcastable to the target size // Assert that all ndarray operands are broadcastable to the target size
if !lhs_scalar { if !lhs_scalar {
let lhs_val = NDArrayValue::from_ptr_val(lhs_val.into_pointer_value(), llvm_usize, None); let lhs_dtype = arraylike_flatten_element_type(&mut ctx.unifier, lhs_ty);
let llvm_lhs_elem_ty = ctx.get_llvm_type(generator, lhs_dtype);
let lhs_val = NDArrayValue::from_pointer_value(
lhs_val.into_pointer_value(),
llvm_lhs_elem_ty,
llvm_usize,
None,
);
ndarray_assert_is_broadcastable(generator, ctx, res, lhs_val); ndarray_assert_is_broadcastable(generator, ctx, res, lhs_val);
} }
if !rhs_scalar { if !rhs_scalar {
let rhs_val = NDArrayValue::from_ptr_val(rhs_val.into_pointer_value(), llvm_usize, None); let rhs_dtype = arraylike_flatten_element_type(&mut ctx.unifier, rhs_ty);
let llvm_rhs_elem_ty = ctx.get_llvm_type(generator, rhs_dtype);
let rhs_val = NDArrayValue::from_pointer_value(
rhs_val.into_pointer_value(),
llvm_rhs_elem_ty,
llvm_usize,
None,
);
ndarray_assert_is_broadcastable(generator, ctx, res, rhs_val); ndarray_assert_is_broadcastable(generator, ctx, res, rhs_val);
} }
@ -514,7 +527,14 @@ where
let lhs_elem = if lhs_scalar { let lhs_elem = if lhs_scalar {
lhs_val lhs_val
} else { } else {
let lhs = NDArrayValue::from_ptr_val(lhs_val.into_pointer_value(), llvm_usize, None); let lhs_dtype = arraylike_flatten_element_type(&mut ctx.unifier, lhs_ty);
let llvm_lhs_elem_ty = ctx.get_llvm_type(generator, lhs_dtype);
let lhs = NDArrayValue::from_pointer_value(
lhs_val.into_pointer_value(),
llvm_lhs_elem_ty,
llvm_usize,
None,
);
let lhs_idx = call_ndarray_calc_broadcast_index(generator, ctx, lhs, idx); let lhs_idx = call_ndarray_calc_broadcast_index(generator, ctx, lhs, idx);
unsafe { lhs.data().get_unchecked(ctx, generator, &lhs_idx, None) } unsafe { lhs.data().get_unchecked(ctx, generator, &lhs_idx, None) }
@ -523,7 +543,14 @@ where
let rhs_elem = if rhs_scalar { let rhs_elem = if rhs_scalar {
rhs_val rhs_val
} else { } else {
let rhs = NDArrayValue::from_ptr_val(rhs_val.into_pointer_value(), llvm_usize, None); let rhs_dtype = arraylike_flatten_element_type(&mut ctx.unifier, rhs_ty);
let llvm_rhs_elem_ty = ctx.get_llvm_type(generator, rhs_dtype);
let rhs = NDArrayValue::from_pointer_value(
rhs_val.into_pointer_value(),
llvm_rhs_elem_ty,
llvm_usize,
None,
);
let rhs_idx = call_ndarray_calc_broadcast_index(generator, ctx, rhs, idx); let rhs_idx = call_ndarray_calc_broadcast_index(generator, ctx, rhs, idx);
unsafe { rhs.data().get_unchecked(ctx, generator, &rhs_idx, None) } unsafe { rhs.data().get_unchecked(ctx, generator, &rhs_idx, None) }
@ -649,11 +676,15 @@ fn llvm_ndlist_get_ndims<'ctx, G: CodeGenerator + ?Sized>(
let ndims = llvm_usize.const_int(1, false); let ndims = llvm_usize.const_int(1, false);
match list_elem_ty { match list_elem_ty {
AnyTypeEnum::PointerType(ptr_ty) if ListType::is_type(ptr_ty, llvm_usize).is_ok() => { AnyTypeEnum::PointerType(ptr_ty)
if ListType::is_representable(ptr_ty, llvm_usize).is_ok() =>
{
ndims.const_add(llvm_ndlist_get_ndims(generator, ctx, ptr_ty)) ndims.const_add(llvm_ndlist_get_ndims(generator, ctx, ptr_ty))
} }
AnyTypeEnum::PointerType(ptr_ty) if NDArrayType::is_type(ptr_ty, llvm_usize).is_ok() => { AnyTypeEnum::PointerType(ptr_ty)
if NDArrayType::is_representable(ptr_ty, llvm_usize).is_ok() =>
{
todo!("Getting ndims for list[ndarray] not supported") todo!("Getting ndims for list[ndarray] not supported")
} }
@ -665,16 +696,20 @@ fn llvm_ndlist_get_ndims<'ctx, G: CodeGenerator + ?Sized>(
fn llvm_arraylike_get_ndims<'ctx, G: CodeGenerator + ?Sized>( fn llvm_arraylike_get_ndims<'ctx, G: CodeGenerator + ?Sized>(
generator: &mut G, generator: &mut G,
ctx: &mut CodeGenContext<'ctx, '_>, ctx: &mut CodeGenContext<'ctx, '_>,
value: BasicValueEnum<'ctx>, (ty, value): (Type, BasicValueEnum<'ctx>),
) -> IntValue<'ctx> { ) -> IntValue<'ctx> {
let llvm_usize = generator.get_size_type(ctx.ctx); let llvm_usize = generator.get_size_type(ctx.ctx);
match value { match value {
BasicValueEnum::PointerValue(v) if NDArrayValue::is_instance(v, llvm_usize).is_ok() => { BasicValueEnum::PointerValue(v)
NDArrayValue::from_ptr_val(v, llvm_usize, None).load_ndims(ctx) if NDArrayValue::is_representable(v, llvm_usize).is_ok() =>
{
let dtype = arraylike_flatten_element_type(&mut ctx.unifier, ty);
let llvm_elem_ty = ctx.get_llvm_type(generator, dtype);
NDArrayValue::from_pointer_value(v, llvm_elem_ty, llvm_usize, None).load_ndims(ctx)
} }
BasicValueEnum::PointerValue(v) if ListValue::is_instance(v, llvm_usize).is_ok() => { BasicValueEnum::PointerValue(v) if ListValue::is_representable(v, llvm_usize).is_ok() => {
llvm_ndlist_get_ndims(generator, ctx, v.get_type()) llvm_ndlist_get_ndims(generator, ctx, v.get_type())
} }
@ -686,7 +721,6 @@ fn llvm_arraylike_get_ndims<'ctx, G: CodeGenerator + ?Sized>(
fn ndarray_from_ndlist_impl<'ctx, G: CodeGenerator + ?Sized>( fn ndarray_from_ndlist_impl<'ctx, G: CodeGenerator + ?Sized>(
generator: &mut G, generator: &mut G,
ctx: &mut CodeGenContext<'ctx, '_>, ctx: &mut CodeGenContext<'ctx, '_>,
elem_ty: Type,
(dst_arr, dst_slice_ptr): (NDArrayValue<'ctx>, PointerValue<'ctx>), (dst_arr, dst_slice_ptr): (NDArrayValue<'ctx>, PointerValue<'ctx>),
src_lst: ListValue<'ctx>, src_lst: ListValue<'ctx>,
dim: u64, dim: u64,
@ -697,13 +731,15 @@ fn ndarray_from_ndlist_impl<'ctx, G: CodeGenerator + ?Sized>(
let list_elem_ty = src_lst.get_type().element_type(); let list_elem_ty = src_lst.get_type().element_type();
match list_elem_ty { match list_elem_ty {
AnyTypeEnum::PointerType(ptr_ty) if ListType::is_type(ptr_ty, llvm_usize).is_ok() => { AnyTypeEnum::PointerType(ptr_ty)
if ListType::is_representable(ptr_ty, llvm_usize).is_ok() =>
{
// The stride of elements in this dimension, i.e. the number of elements between arr[i] // The stride of elements in this dimension, i.e. the number of elements between arr[i]
// and arr[i + 1] in this dimension // and arr[i + 1] in this dimension
let stride = call_ndarray_calc_size( let stride = call_ndarray_calc_size(
generator, generator,
ctx, ctx,
&dst_arr.dim_sizes(), &dst_arr.shape(),
(Some(llvm_usize.const_int(dim + 1, false)), None), (Some(llvm_usize.const_int(dim + 1, false)), None),
); );
@ -717,11 +753,25 @@ fn ndarray_from_ndlist_impl<'ctx, G: CodeGenerator + ?Sized>(
|_, _| Ok(llvm_usize.const_int(1, false)), |_, _| Ok(llvm_usize.const_int(1, false)),
|generator, ctx, _, i| { |generator, ctx, _, i| {
let offset = ctx.builder.build_int_mul(stride, i, "").unwrap(); let offset = ctx.builder.build_int_mul(stride, i, "").unwrap();
let offset = ctx
.builder
.build_int_mul(
offset,
ctx.builder
.build_int_truncate_or_bit_cast(
dst_arr.get_type().element_type().size_of().unwrap(),
offset.get_type(),
"",
)
.unwrap(),
"",
)
.unwrap();
let dst_ptr = let dst_ptr =
unsafe { ctx.builder.build_gep(dst_slice_ptr, &[offset], "").unwrap() }; unsafe { ctx.builder.build_gep(dst_slice_ptr, &[offset], "").unwrap() };
let nested_lst_elem = ListValue::from_ptr_val( let nested_lst_elem = ListValue::from_pointer_value(
unsafe { src_lst.data().get_unchecked(ctx, generator, &i, None) } unsafe { src_lst.data().get_unchecked(ctx, generator, &i, None) }
.into_pointer_value(), .into_pointer_value(),
llvm_usize, llvm_usize,
@ -731,7 +781,6 @@ fn ndarray_from_ndlist_impl<'ctx, G: CodeGenerator + ?Sized>(
ndarray_from_ndlist_impl( ndarray_from_ndlist_impl(
generator, generator,
ctx, ctx,
elem_ty,
(dst_arr, dst_ptr), (dst_arr, dst_ptr),
nested_lst_elem, nested_lst_elem,
dim + 1, dim + 1,
@ -742,13 +791,15 @@ fn ndarray_from_ndlist_impl<'ctx, G: CodeGenerator + ?Sized>(
)?; )?;
} }
AnyTypeEnum::PointerType(ptr_ty) if NDArrayType::is_type(ptr_ty, llvm_usize).is_ok() => { AnyTypeEnum::PointerType(ptr_ty)
if NDArrayType::is_representable(ptr_ty, llvm_usize).is_ok() =>
{
todo!("Not implemented for list[ndarray]") todo!("Not implemented for list[ndarray]")
} }
_ => { _ => {
let lst_len = src_lst.load_size(ctx, None); let lst_len = src_lst.load_size(ctx, None);
let sizeof_elem = ctx.get_llvm_type(generator, elem_ty).size_of().unwrap(); let sizeof_elem = dst_arr.get_type().element_type().size_of().unwrap();
let sizeof_elem = ctx.builder.build_int_cast(sizeof_elem, llvm_usize, "").unwrap(); let sizeof_elem = ctx.builder.build_int_cast(sizeof_elem, llvm_usize, "").unwrap();
let cpy_len = ctx let cpy_len = ctx
@ -803,8 +854,9 @@ fn call_ndarray_array_impl<'ctx, G: CodeGenerator + ?Sized>(
let object = object.into_pointer_value(); let object = object.into_pointer_value();
// object is an NDArray instance - copy object unless copy=0 && ndmin < object.ndims // object is an NDArray instance - copy object unless copy=0 && ndmin < object.ndims
if NDArrayValue::is_instance(object, llvm_usize).is_ok() { if NDArrayValue::is_representable(object, llvm_usize).is_ok() {
let object = NDArrayValue::from_ptr_val(object, llvm_usize, None); let llvm_elem_ty = ctx.get_llvm_type(generator, elem_ty);
let object = NDArrayValue::from_pointer_value(object, llvm_elem_ty, llvm_usize, None);
let ndarray = gen_if_else_expr_callback( let ndarray = gen_if_else_expr_callback(
generator, generator,
@ -866,7 +918,6 @@ fn call_ndarray_array_impl<'ctx, G: CodeGenerator + ?Sized>(
ndarray_sliced_copyto_impl( ndarray_sliced_copyto_impl(
generator, generator,
ctx, ctx,
elem_ty,
(ndarray, ndarray.data().base_ptr(ctx, generator)), (ndarray, ndarray.data().base_ptr(ctx, generator)),
(object, object.data().base_ptr(ctx, generator)), (object, object.data().base_ptr(ctx, generator)),
0, 0,
@ -878,16 +929,17 @@ fn call_ndarray_array_impl<'ctx, G: CodeGenerator + ?Sized>(
|_, _| Ok(Some(object.as_base_value())), |_, _| Ok(Some(object.as_base_value())),
)?; )?;
return Ok(NDArrayValue::from_ptr_val( return Ok(NDArrayValue::from_pointer_value(
ndarray.map(BasicValueEnum::into_pointer_value).unwrap(), ndarray.map(BasicValueEnum::into_pointer_value).unwrap(),
llvm_elem_ty,
llvm_usize, llvm_usize,
None, None,
)); ));
} }
// Remaining case: TList // Remaining case: TList
assert!(ListValue::is_instance(object, llvm_usize).is_ok()); assert!(ListValue::is_representable(object, llvm_usize).is_ok());
let object = ListValue::from_ptr_val(object, llvm_usize, None); let object = ListValue::from_pointer_value(object, llvm_usize, None);
// The number of dimensions to prepend 1's to // The number of dimensions to prepend 1's to
let ndims = llvm_ndlist_get_ndims(generator, ctx, object.as_base_value().get_type()); let ndims = llvm_ndlist_get_ndims(generator, ctx, object.as_base_value().get_type());
@ -967,7 +1019,8 @@ fn call_ndarray_array_impl<'ctx, G: CodeGenerator + ?Sized>(
.map(|v| ctx.builder.build_bit_cast(v, plist_plist_i8, "").unwrap()) .map(|v| ctx.builder.build_bit_cast(v, plist_plist_i8, "").unwrap())
.map(BasicValueEnum::into_pointer_value) .map(BasicValueEnum::into_pointer_value)
.unwrap(); .unwrap();
let this_dim = ListValue::from_ptr_val(this_dim, llvm_usize, None); let this_dim =
ListValue::from_pointer_value(this_dim, llvm_usize, None);
// TODO: Assert this_dim.sz != 0 // TODO: Assert this_dim.sz != 0
@ -993,7 +1046,7 @@ fn call_ndarray_array_impl<'ctx, G: CodeGenerator + ?Sized>(
}, },
)?; )?;
let lst = ListValue::from_ptr_val( let lst = ListValue::from_pointer_value(
ctx.builder ctx.builder
.build_load(lst, "") .build_load(lst, "")
.map(BasicValueEnum::into_pointer_value) .map(BasicValueEnum::into_pointer_value)
@ -1013,7 +1066,6 @@ fn call_ndarray_array_impl<'ctx, G: CodeGenerator + ?Sized>(
ndarray_from_ndlist_impl( ndarray_from_ndlist_impl(
generator, generator,
ctx, ctx,
elem_ty,
(ndarray, ndarray.data().base_ptr(ctx, generator)), (ndarray, ndarray.data().base_ptr(ctx, generator)),
object, object,
0, 0,
@ -1086,7 +1138,6 @@ fn call_ndarray_eye_impl<'ctx, G: CodeGenerator + ?Sized>(
fn ndarray_sliced_copyto_impl<'ctx, G: CodeGenerator + ?Sized>( fn ndarray_sliced_copyto_impl<'ctx, G: CodeGenerator + ?Sized>(
generator: &mut G, generator: &mut G,
ctx: &mut CodeGenContext<'ctx, '_>, ctx: &mut CodeGenContext<'ctx, '_>,
elem_ty: Type,
(dst_arr, dst_slice_ptr): (NDArrayValue<'ctx>, PointerValue<'ctx>), (dst_arr, dst_slice_ptr): (NDArrayValue<'ctx>, PointerValue<'ctx>),
(src_arr, src_slice_ptr): (NDArrayValue<'ctx>, PointerValue<'ctx>), (src_arr, src_slice_ptr): (NDArrayValue<'ctx>, PointerValue<'ctx>),
dim: u64, dim: u64,
@ -1095,14 +1146,16 @@ fn ndarray_sliced_copyto_impl<'ctx, G: CodeGenerator + ?Sized>(
let llvm_i1 = ctx.ctx.bool_type(); let llvm_i1 = ctx.ctx.bool_type();
let llvm_usize = generator.get_size_type(ctx.ctx); let llvm_usize = generator.get_size_type(ctx.ctx);
assert_eq!(dst_arr.get_type().element_type(), src_arr.get_type().element_type());
let sizeof_elem = dst_arr.get_type().element_type().size_of().unwrap();
// If there are no (remaining) slice expressions, memcpy the entire dimension // If there are no (remaining) slice expressions, memcpy the entire dimension
if slices.is_empty() { if slices.is_empty() {
let sizeof_elem = ctx.get_llvm_type(generator, elem_ty).size_of().unwrap();
let stride = call_ndarray_calc_size( let stride = call_ndarray_calc_size(
generator, generator,
ctx, ctx,
&src_arr.dim_sizes(), &src_arr.shape(),
(Some(llvm_usize.const_int(dim, false)), None), (Some(llvm_usize.const_int(dim, false)), None),
); );
let stride = let stride =
@ -1120,13 +1173,13 @@ fn ndarray_sliced_copyto_impl<'ctx, G: CodeGenerator + ?Sized>(
let src_stride = call_ndarray_calc_size( let src_stride = call_ndarray_calc_size(
generator, generator,
ctx, ctx,
&src_arr.dim_sizes(), &src_arr.shape(),
(Some(llvm_usize.const_int(dim + 1, false)), None), (Some(llvm_usize.const_int(dim + 1, false)), None),
); );
let dst_stride = call_ndarray_calc_size( let dst_stride = call_ndarray_calc_size(
generator, generator,
ctx, ctx,
&dst_arr.dim_sizes(), &dst_arr.shape(),
(Some(llvm_usize.const_int(dim + 1, false)), None), (Some(llvm_usize.const_int(dim + 1, false)), None),
); );
@ -1149,9 +1202,29 @@ fn ndarray_sliced_copyto_impl<'ctx, G: CodeGenerator + ?Sized>(
|generator, ctx, _, src_i| { |generator, ctx, _, src_i| {
// Calculate the offset of the active slice // Calculate the offset of the active slice
let src_data_offset = ctx.builder.build_int_mul(src_stride, src_i, "").unwrap(); let src_data_offset = ctx.builder.build_int_mul(src_stride, src_i, "").unwrap();
let src_data_offset = ctx
.builder
.build_int_mul(
src_data_offset,
ctx.builder
.build_int_cast(sizeof_elem, src_data_offset.get_type(), "")
.unwrap(),
"",
)
.unwrap();
let dst_i = let dst_i =
ctx.builder.build_load(dst_i_addr, "").map(BasicValueEnum::into_int_value).unwrap(); ctx.builder.build_load(dst_i_addr, "").map(BasicValueEnum::into_int_value).unwrap();
let dst_data_offset = ctx.builder.build_int_mul(dst_stride, dst_i, "").unwrap(); let dst_data_offset = ctx.builder.build_int_mul(dst_stride, dst_i, "").unwrap();
let dst_data_offset = ctx
.builder
.build_int_mul(
dst_data_offset,
ctx.builder
.build_int_cast(sizeof_elem, dst_data_offset.get_type(), "")
.unwrap(),
"",
)
.unwrap();
let (src_ptr, dst_ptr) = unsafe { let (src_ptr, dst_ptr) = unsafe {
( (
@ -1163,7 +1236,6 @@ fn ndarray_sliced_copyto_impl<'ctx, G: CodeGenerator + ?Sized>(
ndarray_sliced_copyto_impl( ndarray_sliced_copyto_impl(
generator, generator,
ctx, ctx,
elem_ty,
(dst_arr, dst_ptr), (dst_arr, dst_ptr),
(src_arr, src_ptr), (src_arr, src_ptr),
dim + 1, dim + 1,
@ -1206,7 +1278,7 @@ pub fn ndarray_sliced_copy<'ctx, G: CodeGenerator + ?Sized>(
&this, &this,
|_, ctx, shape| Ok(shape.load_ndims(ctx)), |_, ctx, shape| Ok(shape.load_ndims(ctx)),
|generator, ctx, shape, idx| unsafe { |generator, ctx, shape, idx| unsafe {
Ok(shape.dim_sizes().get_typed_unchecked(ctx, generator, &idx, None)) Ok(shape.shape().get_typed_unchecked(ctx, generator, &idx, None))
}, },
)? )?
} else { } else {
@ -1214,7 +1286,7 @@ pub fn ndarray_sliced_copy<'ctx, G: CodeGenerator + ?Sized>(
ndarray.store_ndims(ctx, generator, this.load_ndims(ctx)); ndarray.store_ndims(ctx, generator, this.load_ndims(ctx));
let ndims = this.load_ndims(ctx); let ndims = this.load_ndims(ctx);
ndarray.create_dim_sizes(ctx, llvm_usize, ndims); ndarray.create_shape(ctx, llvm_usize, ndims);
// Populate the first slices.len() dimensions by computing the size of each dim slice // Populate the first slices.len() dimensions by computing the size of each dim slice
for (i, (start, stop, step)) in slices.iter().enumerate() { for (i, (start, stop, step)) in slices.iter().enumerate() {
@ -1246,7 +1318,7 @@ pub fn ndarray_sliced_copy<'ctx, G: CodeGenerator + ?Sized>(
ctx.builder.build_int_z_extend_or_bit_cast(slice_len, llvm_usize, "").unwrap(); ctx.builder.build_int_z_extend_or_bit_cast(slice_len, llvm_usize, "").unwrap();
unsafe { unsafe {
ndarray.dim_sizes().set_typed_unchecked( ndarray.shape().set_typed_unchecked(
ctx, ctx,
generator, generator,
&llvm_usize.const_int(i as u64, false), &llvm_usize.const_int(i as u64, false),
@ -1264,8 +1336,8 @@ pub fn ndarray_sliced_copy<'ctx, G: CodeGenerator + ?Sized>(
(this.load_ndims(ctx), false), (this.load_ndims(ctx), false),
|generator, ctx, _, idx| { |generator, ctx, _, idx| {
unsafe { unsafe {
let dim_sz = this.dim_sizes().get_typed_unchecked(ctx, generator, &idx, None); let dim_sz = this.shape().get_typed_unchecked(ctx, generator, &idx, None);
ndarray.dim_sizes().set_typed_unchecked(ctx, generator, &idx, dim_sz); ndarray.shape().set_typed_unchecked(ctx, generator, &idx, dim_sz);
} }
Ok(()) Ok(())
@ -1280,7 +1352,6 @@ pub fn ndarray_sliced_copy<'ctx, G: CodeGenerator + ?Sized>(
ndarray_sliced_copyto_impl( ndarray_sliced_copyto_impl(
generator, generator,
ctx, ctx,
elem_ty,
(ndarray, ndarray.data().base_ptr(ctx, generator)), (ndarray, ndarray.data().base_ptr(ctx, generator)),
(this, this.data().base_ptr(ctx, generator)), (this, this.data().base_ptr(ctx, generator)),
0, 0,
@ -1326,7 +1397,7 @@ where
&operand, &operand,
|_, ctx, v| Ok(v.load_ndims(ctx)), |_, ctx, v| Ok(v.load_ndims(ctx)),
|generator, ctx, v, idx| unsafe { |generator, ctx, v, idx| unsafe {
Ok(v.dim_sizes().get_typed_unchecked(ctx, generator, &idx, None)) Ok(v.shape().get_typed_unchecked(ctx, generator, &idx, None))
}, },
) )
.unwrap() .unwrap()
@ -1363,8 +1434,8 @@ pub fn ndarray_elementwise_binop_impl<'ctx, 'a, G, ValueFn>(
ctx: &mut CodeGenContext<'ctx, 'a>, ctx: &mut CodeGenContext<'ctx, 'a>,
elem_ty: Type, elem_ty: Type,
res: Option<NDArrayValue<'ctx>>, res: Option<NDArrayValue<'ctx>>,
lhs: (BasicValueEnum<'ctx>, bool), lhs: (Type, BasicValueEnum<'ctx>, bool),
rhs: (BasicValueEnum<'ctx>, bool), rhs: (Type, BasicValueEnum<'ctx>, bool),
value_fn: ValueFn, value_fn: ValueFn,
) -> Result<NDArrayValue<'ctx>, String> ) -> Result<NDArrayValue<'ctx>, String>
where where
@ -1377,8 +1448,8 @@ where
{ {
let llvm_usize = generator.get_size_type(ctx.ctx); let llvm_usize = generator.get_size_type(ctx.ctx);
let (lhs_val, lhs_scalar) = lhs; let (lhs_ty, lhs_val, lhs_scalar) = lhs;
let (rhs_val, rhs_scalar) = rhs; let (rhs_ty, rhs_val, rhs_scalar) = rhs;
assert!( assert!(
!(lhs_scalar && rhs_scalar), !(lhs_scalar && rhs_scalar),
@ -1389,10 +1460,22 @@ where
let ndarray = res.unwrap_or_else(|| { let ndarray = res.unwrap_or_else(|| {
if lhs_scalar && rhs_scalar { if lhs_scalar && rhs_scalar {
let lhs_val = let lhs_dtype = arraylike_flatten_element_type(&mut ctx.unifier, lhs_ty);
NDArrayValue::from_ptr_val(lhs_val.into_pointer_value(), llvm_usize, None); let llvm_lhs_elem_ty = ctx.get_llvm_type(generator, lhs_dtype);
let rhs_val = let lhs_val = NDArrayValue::from_pointer_value(
NDArrayValue::from_ptr_val(rhs_val.into_pointer_value(), llvm_usize, None); lhs_val.into_pointer_value(),
llvm_lhs_elem_ty,
llvm_usize,
None,
);
let rhs_dtype = arraylike_flatten_element_type(&mut ctx.unifier, rhs_ty);
let llvm_rhs_elem_ty = ctx.get_llvm_type(generator, rhs_dtype);
let rhs_val = NDArrayValue::from_pointer_value(
rhs_val.into_pointer_value(),
llvm_rhs_elem_ty,
llvm_usize,
None,
);
let ndarray_dims = call_ndarray_calc_broadcast(generator, ctx, lhs_val, rhs_val); let ndarray_dims = call_ndarray_calc_broadcast(generator, ctx, lhs_val, rhs_val);
@ -1408,8 +1491,14 @@ where
) )
.unwrap() .unwrap()
} else { } else {
let ndarray = NDArrayValue::from_ptr_val( let dtype = arraylike_flatten_element_type(
&mut ctx.unifier,
if lhs_scalar { rhs_ty } else { lhs_ty },
);
let llvm_elem_ty = ctx.get_llvm_type(generator, dtype);
let ndarray = NDArrayValue::from_pointer_value(
if lhs_scalar { rhs_val } else { lhs_val }.into_pointer_value(), if lhs_scalar { rhs_val } else { lhs_val }.into_pointer_value(),
llvm_elem_ty,
llvm_usize, llvm_usize,
None, None,
); );
@ -1421,7 +1510,7 @@ where
&ndarray, &ndarray,
|_, ctx, v| Ok(v.load_ndims(ctx)), |_, ctx, v| Ok(v.load_ndims(ctx)),
|generator, ctx, v, idx| unsafe { |generator, ctx, v, idx| unsafe {
Ok(v.dim_sizes().get_typed_unchecked(ctx, generator, &idx, None)) Ok(v.shape().get_typed_unchecked(ctx, generator, &idx, None))
}, },
) )
.unwrap() .unwrap()
@ -1482,10 +1571,10 @@ pub fn ndarray_matmul_2d<'ctx, G: CodeGenerator>(
if let Some(res) = res { if let Some(res) = res {
let res_ndims = res.load_ndims(ctx); let res_ndims = res.load_ndims(ctx);
let res_dim0 = unsafe { let res_dim0 = unsafe {
res.dim_sizes().get_typed_unchecked(ctx, generator, &llvm_usize.const_zero(), None) res.shape().get_typed_unchecked(ctx, generator, &llvm_usize.const_zero(), None)
}; };
let res_dim1 = unsafe { let res_dim1 = unsafe {
res.dim_sizes().get_typed_unchecked( res.shape().get_typed_unchecked(
ctx, ctx,
generator, generator,
&llvm_usize.const_int(1, false), &llvm_usize.const_int(1, false),
@ -1493,10 +1582,10 @@ pub fn ndarray_matmul_2d<'ctx, G: CodeGenerator>(
) )
}; };
let lhs_dim0 = unsafe { let lhs_dim0 = unsafe {
lhs.dim_sizes().get_typed_unchecked(ctx, generator, &llvm_usize.const_zero(), None) lhs.shape().get_typed_unchecked(ctx, generator, &llvm_usize.const_zero(), None)
}; };
let rhs_dim1 = unsafe { let rhs_dim1 = unsafe {
rhs.dim_sizes().get_typed_unchecked( rhs.shape().get_typed_unchecked(
ctx, ctx,
generator, generator,
&llvm_usize.const_int(1, false), &llvm_usize.const_int(1, false),
@ -1545,15 +1634,10 @@ pub fn ndarray_matmul_2d<'ctx, G: CodeGenerator>(
if ctx.registry.llvm_options.opt_level == OptimizationLevel::None { if ctx.registry.llvm_options.opt_level == OptimizationLevel::None {
let lhs_dim1 = unsafe { let lhs_dim1 = unsafe {
lhs.dim_sizes().get_typed_unchecked( lhs.shape().get_typed_unchecked(ctx, generator, &llvm_usize.const_int(1, false), None)
ctx,
generator,
&llvm_usize.const_int(1, false),
None,
)
}; };
let rhs_dim0 = unsafe { let rhs_dim0 = unsafe {
rhs.dim_sizes().get_typed_unchecked(ctx, generator, &llvm_usize.const_zero(), None) rhs.shape().get_typed_unchecked(ctx, generator, &llvm_usize.const_zero(), None)
}; };
// lhs.dims[1] == rhs.dims[0] // lhs.dims[1] == rhs.dims[0]
@ -1592,7 +1676,7 @@ pub fn ndarray_matmul_2d<'ctx, G: CodeGenerator>(
}, },
|generator, ctx| { |generator, ctx| {
Ok(Some(unsafe { Ok(Some(unsafe {
lhs.dim_sizes().get_typed_unchecked( lhs.shape().get_typed_unchecked(
ctx, ctx,
generator, generator,
&llvm_usize.const_zero(), &llvm_usize.const_zero(),
@ -1602,7 +1686,7 @@ pub fn ndarray_matmul_2d<'ctx, G: CodeGenerator>(
}, },
|generator, ctx| { |generator, ctx| {
Ok(Some(unsafe { Ok(Some(unsafe {
rhs.dim_sizes().get_typed_unchecked( rhs.shape().get_typed_unchecked(
ctx, ctx,
generator, generator,
&llvm_usize.const_int(1, false), &llvm_usize.const_int(1, false),
@ -1629,7 +1713,7 @@ pub fn ndarray_matmul_2d<'ctx, G: CodeGenerator>(
let common_dim = { let common_dim = {
let lhs_idx1 = unsafe { let lhs_idx1 = unsafe {
lhs.dim_sizes().get_typed_unchecked( lhs.shape().get_typed_unchecked(
ctx, ctx,
generator, generator,
&llvm_usize.const_int(1, false), &llvm_usize.const_int(1, false),
@ -1637,7 +1721,7 @@ pub fn ndarray_matmul_2d<'ctx, G: CodeGenerator>(
) )
}; };
let rhs_idx0 = unsafe { let rhs_idx0 = unsafe {
rhs.dim_sizes().get_typed_unchecked(ctx, generator, &llvm_usize.const_zero(), None) rhs.shape().get_typed_unchecked(ctx, generator, &llvm_usize.const_zero(), None)
}; };
let idx = llvm_intrinsics::call_expect(ctx, rhs_idx0, lhs_idx1, None); let idx = llvm_intrinsics::call_expect(ctx, rhs_idx0, lhs_idx1, None);
@ -1968,11 +2052,18 @@ pub fn gen_ndarray_copy<'ctx>(
let this_arg = let this_arg =
obj.as_ref().unwrap().1.clone().to_basic_value_enum(context, generator, this_ty)?; obj.as_ref().unwrap().1.clone().to_basic_value_enum(context, generator, this_ty)?;
let llvm_elem_ty = context.get_llvm_type(generator, this_elem_ty);
ndarray_copy_impl( ndarray_copy_impl(
generator, generator,
context, context,
this_elem_ty, this_elem_ty,
NDArrayValue::from_ptr_val(this_arg.into_pointer_value(), llvm_usize, None), NDArrayValue::from_pointer_value(
this_arg.into_pointer_value(),
llvm_elem_ty,
llvm_usize,
None,
),
) )
.map(NDArrayValue::into) .map(NDArrayValue::into)
} }
@ -1991,6 +2082,7 @@ pub fn gen_ndarray_fill<'ctx>(
let llvm_usize = generator.get_size_type(context.ctx); let llvm_usize = generator.get_size_type(context.ctx);
let this_ty = obj.as_ref().unwrap().0; let this_ty = obj.as_ref().unwrap().0;
let this_elem_ty = arraylike_flatten_element_type(&mut context.unifier, this_ty);
let this_arg = obj let this_arg = obj
.as_ref() .as_ref()
.unwrap() .unwrap()
@ -2001,10 +2093,12 @@ pub fn gen_ndarray_fill<'ctx>(
let value_ty = fun.0.args[0].ty; let value_ty = fun.0.args[0].ty;
let value_arg = args[0].1.clone().to_basic_value_enum(context, generator, value_ty)?; let value_arg = args[0].1.clone().to_basic_value_enum(context, generator, value_ty)?;
let llvm_elem_ty = context.get_llvm_type(generator, this_elem_ty);
ndarray_fill_flattened( ndarray_fill_flattened(
generator, generator,
context, context,
NDArrayValue::from_ptr_val(this_arg, llvm_usize, None), NDArrayValue::from_pointer_value(this_arg, llvm_elem_ty, llvm_usize, None),
|generator, ctx, _| { |generator, ctx, _| {
let value = if value_arg.is_pointer_value() { let value = if value_arg.is_pointer_value() {
let llvm_i1 = ctx.ctx.bool_type(); let llvm_i1 = ctx.ctx.bool_type();
@ -2045,8 +2139,9 @@ pub fn ndarray_transpose<'ctx, G: CodeGenerator + ?Sized>(
if let BasicValueEnum::PointerValue(n1) = x1 { if let BasicValueEnum::PointerValue(n1) = x1 {
let (elem_ty, _) = unpack_ndarray_var_tys(&mut ctx.unifier, x1_ty); let (elem_ty, _) = unpack_ndarray_var_tys(&mut ctx.unifier, x1_ty);
let n1 = NDArrayValue::from_ptr_val(n1, llvm_usize, None); let llvm_elem_ty = ctx.get_llvm_type(generator, elem_ty);
let n_sz = call_ndarray_calc_size(generator, ctx, &n1.dim_sizes(), (None, None)); let n1 = NDArrayValue::from_pointer_value(n1, llvm_elem_ty, llvm_usize, None);
let n_sz = call_ndarray_calc_size(generator, ctx, &n1.shape(), (None, None));
// Dimensions are reversed in the transposed array // Dimensions are reversed in the transposed array
let out = create_ndarray_dyn_shape( let out = create_ndarray_dyn_shape(
@ -2061,7 +2156,7 @@ pub fn ndarray_transpose<'ctx, G: CodeGenerator + ?Sized>(
.builder .builder
.build_int_sub(new_idx, new_idx.get_type().const_int(1, false), "") .build_int_sub(new_idx, new_idx.get_type().const_int(1, false), "")
.unwrap(); .unwrap();
unsafe { Ok(n.dim_sizes().get_typed_unchecked(ctx, generator, &new_idx, None)) } unsafe { Ok(n.shape().get_typed_unchecked(ctx, generator, &new_idx, None)) }
}, },
) )
.unwrap(); .unwrap();
@ -2098,7 +2193,7 @@ pub fn ndarray_transpose<'ctx, G: CodeGenerator + ?Sized>(
.build_int_sub(ndim_rev, llvm_usize.const_int(1, false), "") .build_int_sub(ndim_rev, llvm_usize.const_int(1, false), "")
.unwrap(); .unwrap();
let dim = unsafe { let dim = unsafe {
n1.dim_sizes().get_typed_unchecked(ctx, generator, &ndim_rev, None) n1.shape().get_typed_unchecked(ctx, generator, &ndim_rev, None)
}; };
let rem_idx_val = let rem_idx_val =
@ -2164,8 +2259,9 @@ pub fn ndarray_reshape<'ctx, G: CodeGenerator + ?Sized>(
if let BasicValueEnum::PointerValue(n1) = x1 { if let BasicValueEnum::PointerValue(n1) = x1 {
let (elem_ty, _) = unpack_ndarray_var_tys(&mut ctx.unifier, x1_ty); let (elem_ty, _) = unpack_ndarray_var_tys(&mut ctx.unifier, x1_ty);
let n1 = NDArrayValue::from_ptr_val(n1, llvm_usize, None); let llvm_elem_ty = ctx.get_llvm_type(generator, elem_ty);
let n_sz = call_ndarray_calc_size(generator, ctx, &n1.dim_sizes(), (None, None)); let n1 = NDArrayValue::from_pointer_value(n1, llvm_elem_ty, llvm_usize, None);
let n_sz = call_ndarray_calc_size(generator, ctx, &n1.shape(), (None, None));
let acc = generator.gen_var_alloc(ctx, llvm_usize.into(), None)?; let acc = generator.gen_var_alloc(ctx, llvm_usize.into(), None)?;
let num_neg = generator.gen_var_alloc(ctx, llvm_usize.into(), None)?; let num_neg = generator.gen_var_alloc(ctx, llvm_usize.into(), None)?;
@ -2174,11 +2270,11 @@ pub fn ndarray_reshape<'ctx, G: CodeGenerator + ?Sized>(
let out = match shape { let out = match shape {
BasicValueEnum::PointerValue(shape_list_ptr) BasicValueEnum::PointerValue(shape_list_ptr)
if ListValue::is_instance(shape_list_ptr, llvm_usize).is_ok() => if ListValue::is_representable(shape_list_ptr, llvm_usize).is_ok() =>
{ {
// 1. A list of ints; e.g., `np.reshape(arr, [int64(600), int64(800, -1])` // 1. A list of ints; e.g., `np.reshape(arr, [int64(600), int64(800, -1])`
let shape_list = ListValue::from_ptr_val(shape_list_ptr, llvm_usize, None); let shape_list = ListValue::from_pointer_value(shape_list_ptr, llvm_usize, None);
// Check for -1 in dimensions // Check for -1 in dimensions
gen_for_callback_incrementing( gen_for_callback_incrementing(
generator, generator,
@ -2393,7 +2489,7 @@ pub fn ndarray_reshape<'ctx, G: CodeGenerator + ?Sized>(
); );
// The new shape must be compatible with the old shape // The new shape must be compatible with the old shape
let out_sz = call_ndarray_calc_size(generator, ctx, &out.dim_sizes(), (None, None)); let out_sz = call_ndarray_calc_size(generator, ctx, &out.shape(), (None, None));
ctx.make_assert( ctx.make_assert(
generator, generator,
ctx.builder.build_int_compare(IntPredicate::EQ, out_sz, n_sz, "").unwrap(), ctx.builder.build_int_compare(IntPredicate::EQ, out_sz, n_sz, "").unwrap(),
@ -2441,17 +2537,22 @@ pub fn ndarray_dot<'ctx, G: CodeGenerator + ?Sized>(
) -> Result<BasicValueEnum<'ctx>, String> { ) -> Result<BasicValueEnum<'ctx>, String> {
const FN_NAME: &str = "ndarray_dot"; const FN_NAME: &str = "ndarray_dot";
let (x1_ty, x1) = x1; let (x1_ty, x1) = x1;
let (_, x2) = x2; let (x2_ty, x2) = x2;
let llvm_usize = generator.get_size_type(ctx.ctx); let llvm_usize = generator.get_size_type(ctx.ctx);
match (x1, x2) { match (x1, x2) {
(BasicValueEnum::PointerValue(n1), BasicValueEnum::PointerValue(n2)) => { (BasicValueEnum::PointerValue(n1), BasicValueEnum::PointerValue(n2)) => {
let n1 = NDArrayValue::from_ptr_val(n1, llvm_usize, None); let n1_dtype = arraylike_flatten_element_type(&mut ctx.unifier, x1_ty);
let n2 = NDArrayValue::from_ptr_val(n2, llvm_usize, None); let n2_dtype = arraylike_flatten_element_type(&mut ctx.unifier, x2_ty);
let llvm_n1_data_ty = ctx.get_llvm_type(generator, n1_dtype);
let llvm_n2_data_ty = ctx.get_llvm_type(generator, n2_dtype);
let n1_sz = call_ndarray_calc_size(generator, ctx, &n1.dim_sizes(), (None, None)); let n1 = NDArrayValue::from_pointer_value(n1, llvm_n1_data_ty, llvm_usize, None);
let n2_sz = call_ndarray_calc_size(generator, ctx, &n1.dim_sizes(), (None, None)); let n2 = NDArrayValue::from_pointer_value(n2, llvm_n2_data_ty, llvm_usize, None);
let n1_sz = call_ndarray_calc_size(generator, ctx, &n1.shape(), (None, None));
let n2_sz = call_ndarray_calc_size(generator, ctx, &n1.shape(), (None, None));
ctx.make_assert( ctx.make_assert(
generator, generator,
@ -2488,7 +2589,7 @@ pub fn ndarray_dot<'ctx, G: CodeGenerator + ?Sized>(
.build_float_mul(e1, elem2.into_float_value(), "") .build_float_mul(e1, elem2.into_float_value(), "")
.unwrap() .unwrap()
.as_basic_value_enum(), .as_basic_value_enum(),
_ => codegen_unreachable!(ctx), _ => codegen_unreachable!(ctx, "product: {}", elem1.get_type()),
}; };
let acc_val = ctx.builder.build_load(acc, "").unwrap(); let acc_val = ctx.builder.build_load(acc, "").unwrap();
let acc_val = match acc_val { let acc_val = match acc_val {
@ -2502,7 +2603,7 @@ pub fn ndarray_dot<'ctx, G: CodeGenerator + ?Sized>(
.build_float_add(e1, product.into_float_value(), "") .build_float_add(e1, product.into_float_value(), "")
.unwrap() .unwrap()
.as_basic_value_enum(), .as_basic_value_enum(),
_ => codegen_unreachable!(ctx), _ => codegen_unreachable!(ctx, "acc_val: {}", acc_val.get_type()),
}; };
ctx.builder.build_store(acc, acc_val).unwrap(); ctx.builder.build_store(acc, acc_val).unwrap();

View File

@ -1,9 +1,22 @@
use inkwell::{
attributes::{Attribute, AttributeLoc},
basic_block::BasicBlock,
types::{BasicType, BasicTypeEnum},
values::{BasicValue, BasicValueEnum, FunctionValue, IntValue, PointerValue},
IntPredicate,
};
use itertools::{izip, Itertools};
use nac3parser::ast::{
Constant, ExcepthandlerKind, Expr, ExprKind, Location, Stmt, StmtKind, StrRef,
};
use super::{ use super::{
classes::{ArrayLikeIndexer, ArraySliceValue, ListValue, RangeValue},
expr::{destructure_range, gen_binop_expr}, expr::{destructure_range, gen_binop_expr},
gen_in_range_check, gen_in_range_check,
irrt::{handle_slice_indices, list_slice_assignment}, irrt::{handle_slice_indices, list_slice_assignment},
macros::codegen_unreachable, macros::codegen_unreachable,
values::{ArrayLikeIndexer, ArraySliceValue, ListValue, RangeValue},
CodeGenContext, CodeGenerator, CodeGenContext, CodeGenerator,
}; };
use crate::{ use crate::{
@ -14,17 +27,6 @@ use crate::{
typedef::{iter_type_vars, FunSignature, Type, TypeEnum}, typedef::{iter_type_vars, FunSignature, Type, TypeEnum},
}, },
}; };
use inkwell::{
attributes::{Attribute, AttributeLoc},
basic_block::BasicBlock,
types::{BasicType, BasicTypeEnum},
values::{BasicValue, BasicValueEnum, FunctionValue, IntValue, PointerValue},
IntPredicate,
};
use itertools::{izip, Itertools};
use nac3parser::ast::{
Constant, ExcepthandlerKind, Expr, ExprKind, Location, Stmt, StmtKind, StrRef,
};
/// See [`CodeGenerator::gen_var_alloc`]. /// See [`CodeGenerator::gen_var_alloc`].
pub fn gen_var<'ctx>( pub fn gen_var<'ctx>(
@ -308,7 +310,7 @@ pub fn gen_setitem<'ctx, G: CodeGenerator>(
.unwrap() .unwrap()
.to_basic_value_enum(ctx, generator, target_ty)? .to_basic_value_enum(ctx, generator, target_ty)?
.into_pointer_value(); .into_pointer_value();
let target = ListValue::from_ptr_val(target, llvm_usize, None); let target = ListValue::from_pointer_value(target, llvm_usize, None);
if let ExprKind::Slice { .. } = &key.node { if let ExprKind::Slice { .. } = &key.node {
// Handle assigning to a slice // Handle assigning to a slice
@ -329,7 +331,7 @@ pub fn gen_setitem<'ctx, G: CodeGenerator>(
let value = let value =
value.to_basic_value_enum(ctx, generator, value_ty)?.into_pointer_value(); value.to_basic_value_enum(ctx, generator, value_ty)?.into_pointer_value();
let value = ListValue::from_ptr_val(value, llvm_usize, None); let value = ListValue::from_pointer_value(value, llvm_usize, None);
let target_item_ty = ctx.get_llvm_type(generator, target_item_ty); let target_item_ty = ctx.get_llvm_type(generator, target_item_ty);
let Some(src_ind) = handle_slice_indices( let Some(src_ind) = handle_slice_indices(
@ -461,7 +463,8 @@ pub fn gen_for<G: CodeGenerator>(
TypeEnum::TObj { obj_id, .. } TypeEnum::TObj { obj_id, .. }
if *obj_id == ctx.primitives.range.obj_id(&ctx.unifier).unwrap() => if *obj_id == ctx.primitives.range.obj_id(&ctx.unifier).unwrap() =>
{ {
let iter_val = RangeValue::from_ptr_val(iter_val.into_pointer_value(), Some("range")); let iter_val =
RangeValue::from_pointer_value(iter_val.into_pointer_value(), Some("range"));
// Internal variable for loop; Cannot be assigned // Internal variable for loop; Cannot be assigned
let i = generator.gen_var_alloc(ctx, int32.into(), Some("for.i.addr"))?; let i = generator.gen_var_alloc(ctx, int32.into(), Some("for.i.addr"))?;
// Variable declared in "target" expression of the loop; Can be reassigned *or* shadowed // Variable declared in "target" expression of the loop; Can be reassigned *or* shadowed
@ -1826,6 +1829,37 @@ pub fn gen_stmt<G: CodeGenerator>(
stmt.location, stmt.location,
); );
} }
StmtKind::Global { names, .. } => {
let registered_globals = ctx
.top_level
.definitions
.read()
.iter()
.filter_map(|def| {
if let TopLevelDef::Variable { simple_name, ty, .. } = &*def.read() {
Some((*simple_name, *ty))
} else {
None
}
})
.collect_vec();
for id in names {
let Some((_, ty)) = registered_globals.iter().find(|(name, _)| name == id) else {
return Err(format!("{id} is not a global at {}", stmt.location));
};
let resolver = ctx.resolver.clone();
let ptr = resolver
.get_symbol_value(*id, ctx, generator)
.map(|val| val.to_basic_value_enum(ctx, generator, *ty))
.transpose()?
.map(BasicValueEnum::into_pointer_value)
.unwrap();
ctx.var_assignment.insert(*id, (ptr, None, 0));
}
}
_ => unimplemented!(), _ => unimplemented!(),
}; };
Ok(()) Ok(())

View File

@ -1,34 +1,37 @@
use crate::{ use std::{
codegen::{ collections::{HashMap, HashSet},
classes::{ListType, NDArrayType, ProxyType, RangeType}, sync::Arc,
concrete_type::ConcreteTypeStore,
CodeGenContext, CodeGenLLVMOptions, CodeGenTargetMachineOptions, CodeGenTask,
CodeGenerator, DefaultCodeGenerator, WithCall, WorkerRegistry,
},
symbol_resolver::{SymbolResolver, ValueEnum},
toplevel::{
composer::{ComposerConfig, TopLevelComposer},
DefinitionId, FunInstance, TopLevelContext, TopLevelDef,
},
typecheck::{
type_inferencer::{FunctionData, Inferencer, PrimitiveStore},
typedef::{FunSignature, FuncArg, Type, TypeEnum, Unifier, VarMap},
},
}; };
use indexmap::IndexMap; use indexmap::IndexMap;
use indoc::indoc; use indoc::indoc;
use inkwell::{ use inkwell::{
targets::{InitializationConfig, Target}, targets::{InitializationConfig, Target},
OptimizationLevel, OptimizationLevel,
}; };
use nac3parser::ast::FileName;
use nac3parser::{ use nac3parser::{
ast::{fold::Fold, StrRef}, ast::{fold::Fold, FileName, StrRef},
parser::parse_program, parser::parse_program,
}; };
use parking_lot::RwLock; use parking_lot::RwLock;
use std::collections::{HashMap, HashSet};
use std::sync::Arc; use super::{
concrete_type::ConcreteTypeStore,
types::{ListType, NDArrayType, ProxyType, RangeType},
CodeGenContext, CodeGenLLVMOptions, CodeGenTargetMachineOptions, CodeGenTask, CodeGenerator,
DefaultCodeGenerator, WithCall, WorkerRegistry,
};
use crate::{
symbol_resolver::{SymbolResolver, ValueEnum},
toplevel::{
composer::{ComposerConfig, TopLevelComposer},
DefinitionId, FunInstance, TopLevelContext, TopLevelDef,
},
typecheck::{
type_inferencer::{FunctionData, IdentifierInfo, Inferencer, PrimitiveStore},
typedef::{FunSignature, FuncArg, Type, TypeEnum, Unifier, VarMap},
},
};
struct Resolver { struct Resolver {
id_to_type: HashMap<StrRef, Type>, id_to_type: HashMap<StrRef, Type>,
@ -64,6 +67,7 @@ impl SymbolResolver for Resolver {
&self, &self,
_: StrRef, _: StrRef,
_: &mut CodeGenContext<'ctx, '_>, _: &mut CodeGenContext<'ctx, '_>,
_: &mut dyn CodeGenerator,
) -> Option<ValueEnum<'ctx>> { ) -> Option<ValueEnum<'ctx>> {
unimplemented!() unimplemented!()
} }
@ -138,7 +142,8 @@ fn test_primitives() {
}; };
let mut virtual_checks = Vec::new(); let mut virtual_checks = Vec::new();
let mut calls = HashMap::new(); let mut calls = HashMap::new();
let mut identifiers: HashSet<_> = ["a".into(), "b".into()].into(); let mut identifiers: HashMap<_, _> =
["a".into(), "b".into()].map(|id| (id, IdentifierInfo::default())).into();
let mut inferencer = Inferencer { let mut inferencer = Inferencer {
top_level: &top_level, top_level: &top_level,
function_data: &mut function_data, function_data: &mut function_data,
@ -317,7 +322,8 @@ fn test_simple_call() {
}; };
let mut virtual_checks = Vec::new(); let mut virtual_checks = Vec::new();
let mut calls = HashMap::new(); let mut calls = HashMap::new();
let mut identifiers: HashSet<_> = ["a".into(), "foo".into()].into(); let mut identifiers: HashMap<_, _> =
["a".into(), "foo".into()].map(|id| (id, IdentifierInfo::default())).into();
let mut inferencer = Inferencer { let mut inferencer = Inferencer {
top_level: &top_level, top_level: &top_level,
function_data: &mut function_data, function_data: &mut function_data,
@ -446,7 +452,7 @@ fn test_classes_list_type_new() {
let llvm_usize = generator.get_size_type(&ctx); let llvm_usize = generator.get_size_type(&ctx);
let llvm_list = ListType::new(&generator, &ctx, llvm_i32.into()); let llvm_list = ListType::new(&generator, &ctx, llvm_i32.into());
assert!(ListType::is_type(llvm_list.as_base_type(), llvm_usize).is_ok()); assert!(ListType::is_representable(llvm_list.as_base_type(), llvm_usize).is_ok());
} }
#[test] #[test]
@ -454,7 +460,7 @@ fn test_classes_range_type_new() {
let ctx = inkwell::context::Context::create(); let ctx = inkwell::context::Context::create();
let llvm_range = RangeType::new(&ctx); let llvm_range = RangeType::new(&ctx);
assert!(RangeType::is_type(llvm_range.as_base_type()).is_ok()); assert!(RangeType::is_representable(llvm_range.as_base_type()).is_ok());
} }
#[test] #[test]
@ -466,5 +472,5 @@ fn test_classes_ndarray_type_new() {
let llvm_usize = generator.get_size_type(&ctx); let llvm_usize = generator.get_size_type(&ctx);
let llvm_ndarray = NDArrayType::new(&generator, &ctx, llvm_i32.into()); let llvm_ndarray = NDArrayType::new(&generator, &ctx, llvm_i32.into());
assert!(NDArrayType::is_type(llvm_ndarray.as_base_type(), llvm_usize).is_ok()); assert!(NDArrayType::is_representable(llvm_ndarray.as_base_type(), llvm_usize).is_ok());
} }

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@ -0,0 +1,192 @@
use inkwell::{
context::Context,
types::{AnyTypeEnum, BasicType, BasicTypeEnum, IntType, PointerType},
values::IntValue,
AddressSpace,
};
use super::ProxyType;
use crate::codegen::{
values::{ArraySliceValue, ListValue, ProxyValue},
CodeGenContext, CodeGenerator,
};
/// Proxy type for a `list` type in LLVM.
#[derive(Debug, PartialEq, Eq, Clone, Copy)]
pub struct ListType<'ctx> {
ty: PointerType<'ctx>,
llvm_usize: IntType<'ctx>,
}
impl<'ctx> ListType<'ctx> {
/// Checks whether `llvm_ty` represents a `list` type, returning [Err] if it does not.
pub fn is_representable(
llvm_ty: PointerType<'ctx>,
llvm_usize: IntType<'ctx>,
) -> Result<(), String> {
let llvm_list_ty = llvm_ty.get_element_type();
let AnyTypeEnum::StructType(llvm_list_ty) = llvm_list_ty else {
return Err(format!("Expected struct type for `list` type, got {llvm_list_ty}"));
};
if llvm_list_ty.count_fields() != 2 {
return Err(format!(
"Expected 2 fields in `list`, got {}",
llvm_list_ty.count_fields()
));
}
let list_size_ty = llvm_list_ty.get_field_type_at_index(0).unwrap();
let Ok(_) = PointerType::try_from(list_size_ty) else {
return Err(format!("Expected pointer type for `list.0`, got {list_size_ty}"));
};
let list_data_ty = llvm_list_ty.get_field_type_at_index(1).unwrap();
let Ok(list_data_ty) = IntType::try_from(list_data_ty) else {
return Err(format!("Expected int type for `list.1`, got {list_data_ty}"));
};
if list_data_ty.get_bit_width() != llvm_usize.get_bit_width() {
return Err(format!(
"Expected {}-bit int type for `list.1`, got {}-bit int",
llvm_usize.get_bit_width(),
list_data_ty.get_bit_width()
));
}
Ok(())
}
/// Creates an LLVM type corresponding to the expected structure of a `List`.
#[must_use]
fn llvm_type(
ctx: &'ctx Context,
element_type: BasicTypeEnum<'ctx>,
llvm_usize: IntType<'ctx>,
) -> PointerType<'ctx> {
// struct List { data: T*, size: size_t }
let field_tys = [element_type.ptr_type(AddressSpace::default()).into(), llvm_usize.into()];
ctx.struct_type(&field_tys, false).ptr_type(AddressSpace::default())
}
/// Creates an instance of [`ListType`].
#[must_use]
pub fn new<G: CodeGenerator + ?Sized>(
generator: &G,
ctx: &'ctx Context,
element_type: BasicTypeEnum<'ctx>,
) -> Self {
let llvm_usize = generator.get_size_type(ctx);
let llvm_list = Self::llvm_type(ctx, element_type, llvm_usize);
ListType::from_type(llvm_list, llvm_usize)
}
/// Creates an [`ListType`] from a [`PointerType`].
#[must_use]
pub fn from_type(ptr_ty: PointerType<'ctx>, llvm_usize: IntType<'ctx>) -> Self {
debug_assert!(Self::is_representable(ptr_ty, llvm_usize).is_ok());
ListType { ty: ptr_ty, llvm_usize }
}
/// Returns the type of the `size` field of this `list` type.
#[must_use]
pub fn size_type(&self) -> IntType<'ctx> {
self.as_base_type()
.get_element_type()
.into_struct_type()
.get_field_type_at_index(1)
.map(BasicTypeEnum::into_int_type)
.unwrap()
}
/// Returns the element type of this `list` type.
#[must_use]
pub fn element_type(&self) -> AnyTypeEnum<'ctx> {
self.as_base_type()
.get_element_type()
.into_struct_type()
.get_field_type_at_index(0)
.map(BasicTypeEnum::into_pointer_type)
.map(PointerType::get_element_type)
.unwrap()
}
}
impl<'ctx> ProxyType<'ctx> for ListType<'ctx> {
type Base = PointerType<'ctx>;
type Value = ListValue<'ctx>;
fn is_type<G: CodeGenerator + ?Sized>(
generator: &G,
ctx: &'ctx Context,
llvm_ty: impl BasicType<'ctx>,
) -> Result<(), String> {
if let BasicTypeEnum::PointerType(ty) = llvm_ty.as_basic_type_enum() {
<Self as ProxyType<'ctx>>::is_representable(generator, ctx, ty)
} else {
Err(format!("Expected pointer type, got {llvm_ty:?}"))
}
}
fn is_representable<G: CodeGenerator + ?Sized>(
generator: &G,
ctx: &'ctx Context,
llvm_ty: Self::Base,
) -> Result<(), String> {
Self::is_representable(llvm_ty, generator.get_size_type(ctx))
}
fn new_value<G: CodeGenerator + ?Sized>(
&self,
generator: &mut G,
ctx: &mut CodeGenContext<'ctx, '_>,
name: Option<&'ctx str>,
) -> Self::Value {
self.map_value(
generator
.gen_var_alloc(
ctx,
self.as_base_type().get_element_type().into_struct_type().into(),
name,
)
.unwrap(),
name,
)
}
fn new_array_value<G: CodeGenerator + ?Sized>(
&self,
generator: &mut G,
ctx: &mut CodeGenContext<'ctx, '_>,
size: IntValue<'ctx>,
name: Option<&'ctx str>,
) -> ArraySliceValue<'ctx> {
generator
.gen_array_var_alloc(
ctx,
self.as_base_type().get_element_type().into_struct_type().into(),
size,
name,
)
.unwrap()
}
fn map_value(
&self,
value: <Self::Value as ProxyValue<'ctx>>::Base,
name: Option<&'ctx str>,
) -> Self::Value {
Self::Value::from_pointer_value(value, self.llvm_usize, name)
}
fn as_base_type(&self) -> Self::Base {
self.ty
}
}
impl<'ctx> From<ListType<'ctx>> for PointerType<'ctx> {
fn from(value: ListType<'ctx>) -> Self {
value.as_base_type()
}
}

View File

@ -0,0 +1,64 @@
use inkwell::{context::Context, types::BasicType, values::IntValue};
use super::{
values::{ArraySliceValue, ProxyValue},
{CodeGenContext, CodeGenerator},
};
pub use list::*;
pub use ndarray::*;
pub use range::*;
mod list;
mod ndarray;
mod range;
pub mod structure;
/// A LLVM type that is used to represent a corresponding type in NAC3.
pub trait ProxyType<'ctx>: Into<Self::Base> {
/// The LLVM type of which values of this type possess. This is usually a
/// [LLVM pointer type][PointerType] for any non-primitive types.
type Base: BasicType<'ctx>;
/// The type of values represented by this type.
type Value: ProxyValue<'ctx, Type = Self>;
fn is_type<G: CodeGenerator + ?Sized>(
generator: &G,
ctx: &'ctx Context,
llvm_ty: impl BasicType<'ctx>,
) -> Result<(), String>;
/// Checks whether `llvm_ty` can be represented by this [`ProxyType`].
fn is_representable<G: CodeGenerator + ?Sized>(
generator: &G,
ctx: &'ctx Context,
llvm_ty: Self::Base,
) -> Result<(), String>;
/// Creates a new value of this type.
fn new_value<G: CodeGenerator + ?Sized>(
&self,
generator: &mut G,
ctx: &mut CodeGenContext<'ctx, '_>,
name: Option<&'ctx str>,
) -> Self::Value;
/// Creates a new array value of this type.
fn new_array_value<G: CodeGenerator + ?Sized>(
&self,
generator: &mut G,
ctx: &mut CodeGenContext<'ctx, '_>,
size: IntValue<'ctx>,
name: Option<&'ctx str>,
) -> ArraySliceValue<'ctx>;
/// Converts an existing value into a [`ProxyValue`] of this type.
fn map_value(
&self,
value: <Self::Value as ProxyValue<'ctx>>::Base,
name: Option<&'ctx str>,
) -> Self::Value;
/// Returns the [base type][Self::Base] of this proxy.
fn as_base_type(&self) -> Self::Base;
}

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@ -0,0 +1,258 @@
use inkwell::{
context::Context,
types::{AnyTypeEnum, BasicType, BasicTypeEnum, IntType, PointerType},
values::{IntValue, PointerValue},
AddressSpace,
};
use itertools::Itertools;
use nac3core_derive::StructFields;
use super::{
structure::{StructField, StructFields},
ProxyType,
};
use crate::codegen::{
values::{ArraySliceValue, NDArrayValue, ProxyValue},
{CodeGenContext, CodeGenerator},
};
/// Proxy type for a `ndarray` type in LLVM.
#[derive(Debug, PartialEq, Eq, Clone, Copy)]
pub struct NDArrayType<'ctx> {
ty: PointerType<'ctx>,
dtype: BasicTypeEnum<'ctx>,
llvm_usize: IntType<'ctx>,
}
#[derive(PartialEq, Eq, Clone, Copy, StructFields)]
pub struct NDArrayStructFields<'ctx> {
#[value_type(usize)]
pub ndims: StructField<'ctx, IntValue<'ctx>>,
#[value_type(usize.ptr_type(AddressSpace::default()))]
pub shape: StructField<'ctx, PointerValue<'ctx>>,
#[value_type(i8_type().ptr_type(AddressSpace::default()))]
pub data: StructField<'ctx, PointerValue<'ctx>>,
}
impl<'ctx> NDArrayType<'ctx> {
/// Checks whether `llvm_ty` represents a `ndarray` type, returning [Err] if it does not.
pub fn is_representable(
llvm_ty: PointerType<'ctx>,
llvm_usize: IntType<'ctx>,
) -> Result<(), String> {
let llvm_ndarray_ty = llvm_ty.get_element_type();
let AnyTypeEnum::StructType(llvm_ndarray_ty) = llvm_ndarray_ty else {
return Err(format!("Expected struct type for `NDArray` type, got {llvm_ndarray_ty}"));
};
if llvm_ndarray_ty.count_fields() != 3 {
return Err(format!(
"Expected 3 fields in `NDArray`, got {}",
llvm_ndarray_ty.count_fields()
));
}
let ndarray_ndims_ty = llvm_ndarray_ty.get_field_type_at_index(0).unwrap();
let Ok(ndarray_ndims_ty) = IntType::try_from(ndarray_ndims_ty) else {
return Err(format!("Expected int type for `ndarray.0`, got {ndarray_ndims_ty}"));
};
if ndarray_ndims_ty.get_bit_width() != llvm_usize.get_bit_width() {
return Err(format!(
"Expected {}-bit int type for `ndarray.0`, got {}-bit int",
llvm_usize.get_bit_width(),
ndarray_ndims_ty.get_bit_width()
));
}
let ndarray_dims_ty = llvm_ndarray_ty.get_field_type_at_index(1).unwrap();
let Ok(ndarray_pdims) = PointerType::try_from(ndarray_dims_ty) else {
return Err(format!("Expected pointer type for `ndarray.1`, got {ndarray_dims_ty}"));
};
let ndarray_dims = ndarray_pdims.get_element_type();
let Ok(ndarray_dims) = IntType::try_from(ndarray_dims) else {
return Err(format!(
"Expected pointer-to-int type for `ndarray.1`, got pointer-to-{ndarray_dims}"
));
};
if ndarray_dims.get_bit_width() != llvm_usize.get_bit_width() {
return Err(format!(
"Expected pointer-to-{}-bit int type for `ndarray.1`, got pointer-to-{}-bit int",
llvm_usize.get_bit_width(),
ndarray_dims.get_bit_width()
));
}
let ndarray_data_ty = llvm_ndarray_ty.get_field_type_at_index(2).unwrap();
let Ok(ndarray_pdata) = PointerType::try_from(ndarray_data_ty) else {
return Err(format!("Expected pointer type for `ndarray.2`, got {ndarray_data_ty}"));
};
let ndarray_data = ndarray_pdata.get_element_type();
let Ok(ndarray_data) = IntType::try_from(ndarray_data) else {
return Err(format!(
"Expected pointer-to-int type for `ndarray.2`, got pointer-to-{ndarray_data}"
));
};
if ndarray_data.get_bit_width() != 8 {
return Err(format!(
"Expected pointer-to-8-bit int type for `ndarray.1`, got pointer-to-{}-bit int",
ndarray_data.get_bit_width()
));
}
Ok(())
}
// TODO: Move this into e.g. StructProxyType
#[must_use]
fn fields(ctx: &'ctx Context, llvm_usize: IntType<'ctx>) -> NDArrayStructFields<'ctx> {
NDArrayStructFields::new(ctx, llvm_usize)
}
// TODO: Move this into e.g. StructProxyType
#[must_use]
pub fn get_fields(
&self,
ctx: &'ctx Context,
llvm_usize: IntType<'ctx>,
) -> NDArrayStructFields<'ctx> {
Self::fields(ctx, llvm_usize)
}
/// Creates an LLVM type corresponding to the expected structure of an `NDArray`.
#[must_use]
fn llvm_type(ctx: &'ctx Context, llvm_usize: IntType<'ctx>) -> PointerType<'ctx> {
// struct NDArray { num_dims: size_t, dims: size_t*, data: i8* }
//
// * data : Pointer to an array containing the array data
// * itemsize: The size of each NDArray elements in bytes
// * ndims : Number of dimensions in the array
// * shape : Pointer to an array containing the shape of the NDArray
// * strides : Pointer to an array indicating the number of bytes between each element at a dimension
let field_tys =
Self::fields(ctx, llvm_usize).into_iter().map(|field| field.1).collect_vec();
ctx.struct_type(&field_tys, false).ptr_type(AddressSpace::default())
}
/// Creates an instance of [`NDArrayType`].
#[must_use]
pub fn new<G: CodeGenerator + ?Sized>(
generator: &G,
ctx: &'ctx Context,
dtype: BasicTypeEnum<'ctx>,
) -> Self {
let llvm_usize = generator.get_size_type(ctx);
let llvm_ndarray = Self::llvm_type(ctx, llvm_usize);
NDArrayType { ty: llvm_ndarray, dtype, llvm_usize }
}
/// Creates an [`NDArrayType`] from a [`PointerType`] representing an `NDArray`.
#[must_use]
pub fn from_type(
ptr_ty: PointerType<'ctx>,
dtype: BasicTypeEnum<'ctx>,
llvm_usize: IntType<'ctx>,
) -> Self {
debug_assert!(Self::is_representable(ptr_ty, llvm_usize).is_ok());
NDArrayType { ty: ptr_ty, dtype, llvm_usize }
}
/// Returns the type of the `size` field of this `ndarray` type.
#[must_use]
pub fn size_type(&self) -> IntType<'ctx> {
self.as_base_type()
.get_element_type()
.into_struct_type()
.get_field_type_at_index(0)
.map(BasicTypeEnum::into_int_type)
.unwrap()
}
/// Returns the element type of this `ndarray` type.
#[must_use]
pub fn element_type(&self) -> BasicTypeEnum<'ctx> {
self.dtype
}
}
impl<'ctx> ProxyType<'ctx> for NDArrayType<'ctx> {
type Base = PointerType<'ctx>;
type Value = NDArrayValue<'ctx>;
fn is_type<G: CodeGenerator + ?Sized>(
generator: &G,
ctx: &'ctx Context,
llvm_ty: impl BasicType<'ctx>,
) -> Result<(), String> {
if let BasicTypeEnum::PointerType(ty) = llvm_ty.as_basic_type_enum() {
<Self as ProxyType<'ctx>>::is_representable(generator, ctx, ty)
} else {
Err(format!("Expected pointer type, got {llvm_ty:?}"))
}
}
fn is_representable<G: CodeGenerator + ?Sized>(
generator: &G,
ctx: &'ctx Context,
llvm_ty: Self::Base,
) -> Result<(), String> {
Self::is_representable(llvm_ty, generator.get_size_type(ctx))
}
fn new_value<G: CodeGenerator + ?Sized>(
&self,
generator: &mut G,
ctx: &mut CodeGenContext<'ctx, '_>,
name: Option<&'ctx str>,
) -> Self::Value {
self.map_value(
generator
.gen_var_alloc(
ctx,
self.as_base_type().get_element_type().into_struct_type().into(),
name,
)
.unwrap(),
name,
)
}
fn new_array_value<G: CodeGenerator + ?Sized>(
&self,
generator: &mut G,
ctx: &mut CodeGenContext<'ctx, '_>,
size: IntValue<'ctx>,
name: Option<&'ctx str>,
) -> ArraySliceValue<'ctx> {
generator
.gen_array_var_alloc(
ctx,
self.as_base_type().get_element_type().into_struct_type().into(),
size,
name,
)
.unwrap()
}
fn map_value(
&self,
value: <Self::Value as ProxyValue<'ctx>>::Base,
name: Option<&'ctx str>,
) -> Self::Value {
debug_assert_eq!(value.get_type(), self.as_base_type());
NDArrayValue::from_pointer_value(value, self.dtype, self.llvm_usize, name)
}
fn as_base_type(&self) -> Self::Base {
self.ty
}
}
impl<'ctx> From<NDArrayType<'ctx>> for PointerType<'ctx> {
fn from(value: NDArrayType<'ctx>) -> Self {
value.as_base_type()
}
}

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@ -0,0 +1,159 @@
use inkwell::{
context::Context,
types::{AnyTypeEnum, BasicType, BasicTypeEnum, IntType, PointerType},
values::IntValue,
AddressSpace,
};
use super::ProxyType;
use crate::codegen::{
values::{ArraySliceValue, ProxyValue, RangeValue},
{CodeGenContext, CodeGenerator},
};
/// Proxy type for a `range` type in LLVM.
#[derive(Debug, PartialEq, Eq, Clone, Copy)]
pub struct RangeType<'ctx> {
ty: PointerType<'ctx>,
}
impl<'ctx> RangeType<'ctx> {
/// Checks whether `llvm_ty` represents a `range` type, returning [Err] if it does not.
pub fn is_representable(llvm_ty: PointerType<'ctx>) -> Result<(), String> {
let llvm_range_ty = llvm_ty.get_element_type();
let AnyTypeEnum::ArrayType(llvm_range_ty) = llvm_range_ty else {
return Err(format!("Expected array type for `range` type, got {llvm_range_ty}"));
};
if llvm_range_ty.len() != 3 {
return Err(format!(
"Expected 3 elements for `range` type, got {}",
llvm_range_ty.len()
));
}
let llvm_range_elem_ty = llvm_range_ty.get_element_type();
let Ok(llvm_range_elem_ty) = IntType::try_from(llvm_range_elem_ty) else {
return Err(format!(
"Expected int type for `range` element type, got {llvm_range_elem_ty}"
));
};
if llvm_range_elem_ty.get_bit_width() != 32 {
return Err(format!(
"Expected 32-bit int type for `range` element type, got {}",
llvm_range_elem_ty.get_bit_width()
));
}
Ok(())
}
/// Creates an LLVM type corresponding to the expected structure of a `Range`.
#[must_use]
fn llvm_type(ctx: &'ctx Context) -> PointerType<'ctx> {
// typedef int32_t Range[3];
let llvm_i32 = ctx.i32_type();
llvm_i32.array_type(3).ptr_type(AddressSpace::default())
}
/// Creates an instance of [`RangeType`].
#[must_use]
pub fn new(ctx: &'ctx Context) -> Self {
let llvm_range = Self::llvm_type(ctx);
RangeType::from_type(llvm_range)
}
/// Creates an [`RangeType`] from a [`PointerType`].
#[must_use]
pub fn from_type(ptr_ty: PointerType<'ctx>) -> Self {
debug_assert!(Self::is_representable(ptr_ty).is_ok());
RangeType { ty: ptr_ty }
}
/// Returns the type of all fields of this `range` type.
#[must_use]
pub fn value_type(&self) -> IntType<'ctx> {
self.as_base_type().get_element_type().into_array_type().get_element_type().into_int_type()
}
}
impl<'ctx> ProxyType<'ctx> for RangeType<'ctx> {
type Base = PointerType<'ctx>;
type Value = RangeValue<'ctx>;
fn is_type<G: CodeGenerator + ?Sized>(
generator: &G,
ctx: &'ctx Context,
llvm_ty: impl BasicType<'ctx>,
) -> Result<(), String> {
if let BasicTypeEnum::PointerType(ty) = llvm_ty.as_basic_type_enum() {
<Self as ProxyType<'ctx>>::is_representable(generator, ctx, ty)
} else {
Err(format!("Expected pointer type, got {llvm_ty:?}"))
}
}
fn is_representable<G: CodeGenerator + ?Sized>(
_: &G,
_: &'ctx Context,
llvm_ty: Self::Base,
) -> Result<(), String> {
Self::is_representable(llvm_ty)
}
fn new_value<G: CodeGenerator + ?Sized>(
&self,
generator: &mut G,
ctx: &mut CodeGenContext<'ctx, '_>,
name: Option<&'ctx str>,
) -> Self::Value {
self.map_value(
generator
.gen_var_alloc(
ctx,
self.as_base_type().get_element_type().into_struct_type().into(),
name,
)
.unwrap(),
name,
)
}
fn new_array_value<G: CodeGenerator + ?Sized>(
&self,
generator: &mut G,
ctx: &mut CodeGenContext<'ctx, '_>,
size: IntValue<'ctx>,
name: Option<&'ctx str>,
) -> ArraySliceValue<'ctx> {
generator
.gen_array_var_alloc(
ctx,
self.as_base_type().get_element_type().into_struct_type().into(),
size,
name,
)
.unwrap()
}
fn map_value(
&self,
value: <Self::Value as ProxyValue<'ctx>>::Base,
name: Option<&'ctx str>,
) -> Self::Value {
debug_assert_eq!(value.get_type(), self.as_base_type());
RangeValue::from_pointer_value(value, name)
}
fn as_base_type(&self) -> Self::Base {
self.ty
}
}
impl<'ctx> From<RangeType<'ctx>> for PointerType<'ctx> {
fn from(value: RangeType<'ctx>) -> Self {
value.as_base_type()
}
}

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@ -0,0 +1,203 @@
use std::marker::PhantomData;
use inkwell::{
context::AsContextRef,
types::{BasicTypeEnum, IntType},
values::{BasicValue, BasicValueEnum, IntValue, PointerValue, StructValue},
};
use crate::codegen::CodeGenContext;
/// Trait indicating that the structure is a field-wise representation of an LLVM structure.
///
/// # Usage
///
/// For example, for a simple C-slice LLVM structure:
///
/// ```ignore
/// struct CSliceFields<'ctx> {
/// ptr: StructField<'ctx, PointerValue<'ctx>>,
/// len: StructField<'ctx, IntValue<'ctx>>
/// }
/// ```
pub trait StructFields<'ctx>: Eq + Copy {
/// Creates an instance of [`StructFields`] using the given `ctx` and `size_t` types.
fn new(ctx: impl AsContextRef<'ctx>, llvm_usize: IntType<'ctx>) -> Self;
/// Returns a [`Vec`] that contains the fields of the structure in the order as they appear in
/// the type definition.
#[must_use]
fn to_vec(&self) -> Vec<(&'static str, BasicTypeEnum<'ctx>)>;
/// Returns a [`Iterator`] that contains the fields of the structure in the order as they appear
/// in the type definition.
#[must_use]
fn iter(&self) -> impl Iterator<Item = (&'static str, BasicTypeEnum<'ctx>)> {
self.to_vec().into_iter()
}
/// Returns a [`Vec`] that contains the fields of the structure in the order as they appear in
/// the type definition.
#[must_use]
fn into_vec(self) -> Vec<(&'static str, BasicTypeEnum<'ctx>)>
where
Self: Sized,
{
self.to_vec()
}
/// Returns a [`Iterator`] that contains the fields of the structure in the order as they appear
/// in the type definition.
#[must_use]
fn into_iter(self) -> impl Iterator<Item = (&'static str, BasicTypeEnum<'ctx>)>
where
Self: Sized,
{
self.into_vec().into_iter()
}
}
/// A single field of an LLVM structure.
#[derive(Debug, PartialEq, Eq, Clone, Copy)]
pub struct StructField<'ctx, Value>
where
Value: BasicValue<'ctx> + TryFrom<BasicValueEnum<'ctx>, Error = ()>,
{
/// The index of this field within the structure.
index: u32,
/// The name of this field.
name: &'static str,
/// The type of this field.
ty: BasicTypeEnum<'ctx>,
/// Instance of [`PhantomData`] containing [`Value`], used to implement automatic downcasts.
_value_ty: PhantomData<Value>,
}
impl<'ctx, Value> StructField<'ctx, Value>
where
Value: BasicValue<'ctx> + TryFrom<BasicValueEnum<'ctx>, Error = ()>,
{
/// Creates an instance of [`StructField`].
///
/// * `idx_counter` - The instance of [`FieldIndexCounter`] used to track the current field
/// index.
/// * `name` - Name of the field.
/// * `ty` - The type of this field.
pub fn create(
idx_counter: &mut FieldIndexCounter,
name: &'static str,
ty: impl Into<BasicTypeEnum<'ctx>>,
) -> Self {
StructField { index: idx_counter.increment(), name, ty: ty.into(), _value_ty: PhantomData }
}
/// Creates an instance of [`StructField`] with a given index.
///
/// * `index` - The index of this field within its enclosing structure.
/// * `name` - Name of the field.
/// * `ty` - The type of this field.
pub fn create_at(index: u32, name: &'static str, ty: impl Into<BasicTypeEnum<'ctx>>) -> Self {
StructField { index, name, ty: ty.into(), _value_ty: PhantomData }
}
/// Creates a pointer to this field in an arbitrary structure by performing a `getelementptr i32
/// {idx...}, i32 {self.index}`.
pub fn ptr_by_array_gep(
&self,
ctx: &CodeGenContext<'ctx, '_>,
pobj: PointerValue<'ctx>,
idx: &[IntValue<'ctx>],
) -> PointerValue<'ctx> {
unsafe {
ctx.builder.build_in_bounds_gep(
pobj,
&[idx, &[ctx.ctx.i32_type().const_int(u64::from(self.index), false)]].concat(),
"",
)
}
.unwrap()
}
/// Creates a pointer to this field in an arbitrary structure by performing the equivalent of
/// `getelementptr i32 0, i32 {self.index}`.
pub fn ptr_by_gep(
&self,
ctx: &CodeGenContext<'ctx, '_>,
pobj: PointerValue<'ctx>,
obj_name: Option<&'ctx str>,
) -> PointerValue<'ctx> {
ctx.builder
.build_struct_gep(
pobj,
self.index,
&obj_name.map(|name| format!("{name}.{}.addr", self.name)).unwrap_or_default(),
)
.unwrap()
}
/// Gets the value of this field for a given `obj`.
#[must_use]
pub fn get_from_value(&self, obj: StructValue<'ctx>) -> Value {
obj.get_field_at_index(self.index).and_then(|value| Value::try_from(value).ok()).unwrap()
}
/// Sets the value of this field for a given `obj`.
pub fn set_from_value(&self, obj: StructValue<'ctx>, value: Value) {
obj.set_field_at_index(self.index, value);
}
/// Gets the value of this field for a pointer-to-structure.
pub fn get(
&self,
ctx: &CodeGenContext<'ctx, '_>,
pobj: PointerValue<'ctx>,
obj_name: Option<&'ctx str>,
) -> Value {
ctx.builder
.build_load(
self.ptr_by_gep(ctx, pobj, obj_name),
&obj_name.map(|name| format!("{name}.{}", self.name)).unwrap_or_default(),
)
.map_err(|_| ())
.and_then(|value| Value::try_from(value))
.unwrap()
}
/// Sets the value of this field for a pointer-to-structure.
pub fn set(
&self,
ctx: &CodeGenContext<'ctx, '_>,
pobj: PointerValue<'ctx>,
value: Value,
obj_name: Option<&'ctx str>,
) {
ctx.builder.build_store(self.ptr_by_gep(ctx, pobj, obj_name), value).unwrap();
}
}
impl<'ctx, Value> From<StructField<'ctx, Value>> for (&'static str, BasicTypeEnum<'ctx>)
where
Value: BasicValue<'ctx> + TryFrom<BasicValueEnum<'ctx>, Error = ()>,
{
fn from(value: StructField<'ctx, Value>) -> Self {
(value.name, value.ty)
}
}
/// A counter that tracks the next index of a field using a monotonically increasing counter.
#[derive(Default, Debug, PartialEq, Eq, Clone, Copy)]
pub struct FieldIndexCounter(u32);
impl FieldIndexCounter {
/// Increments the number stored by this counter, returning the previous value.
///
/// Functionally equivalent to `i++` in C-based languages.
pub fn increment(&mut self) -> u32 {
let v = self.0;
self.0 += 1;
v
}
}

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@ -0,0 +1,426 @@
use inkwell::{
types::AnyTypeEnum,
values::{BasicValueEnum, IntValue, PointerValue},
IntPredicate,
};
use crate::codegen::{CodeGenContext, CodeGenerator};
/// An LLVM value that is array-like, i.e. it contains a contiguous, sequenced collection of
/// elements.
pub trait ArrayLikeValue<'ctx> {
/// Returns the element type of this array-like value.
fn element_type<G: CodeGenerator + ?Sized>(
&self,
ctx: &CodeGenContext<'ctx, '_>,
generator: &G,
) -> AnyTypeEnum<'ctx>;
/// Returns the base pointer to the array.
fn base_ptr<G: CodeGenerator + ?Sized>(
&self,
ctx: &CodeGenContext<'ctx, '_>,
generator: &G,
) -> PointerValue<'ctx>;
/// Returns the size of this array-like value.
fn size<G: CodeGenerator + ?Sized>(
&self,
ctx: &CodeGenContext<'ctx, '_>,
generator: &G,
) -> IntValue<'ctx>;
/// Returns a [`ArraySliceValue`] representing this value.
fn as_slice_value<G: CodeGenerator + ?Sized>(
&self,
ctx: &CodeGenContext<'ctx, '_>,
generator: &G,
) -> ArraySliceValue<'ctx> {
ArraySliceValue::from_ptr_val(
self.base_ptr(ctx, generator),
self.size(ctx, generator),
None,
)
}
}
/// An array-like value that can be indexed by memory offset.
pub trait ArrayLikeIndexer<'ctx, Index = IntValue<'ctx>>: ArrayLikeValue<'ctx> {
/// # Safety
///
/// This function should be called with a valid index.
unsafe fn ptr_offset_unchecked<G: CodeGenerator + ?Sized>(
&self,
ctx: &mut CodeGenContext<'ctx, '_>,
generator: &mut G,
idx: &Index,
name: Option<&str>,
) -> PointerValue<'ctx>;
/// Returns the pointer to the data at the `idx`-th index.
fn ptr_offset<G: CodeGenerator + ?Sized>(
&self,
ctx: &mut CodeGenContext<'ctx, '_>,
generator: &mut G,
idx: &Index,
name: Option<&str>,
) -> PointerValue<'ctx>;
}
/// An array-like value that can have its array elements accessed as a [`BasicValueEnum`].
pub trait UntypedArrayLikeAccessor<'ctx, Index = IntValue<'ctx>>:
ArrayLikeIndexer<'ctx, Index>
{
/// # Safety
///
/// This function should be called with a valid index.
unsafe fn get_unchecked<G: CodeGenerator + ?Sized>(
&self,
ctx: &mut CodeGenContext<'ctx, '_>,
generator: &mut G,
idx: &Index,
name: Option<&str>,
) -> BasicValueEnum<'ctx> {
let ptr = unsafe { self.ptr_offset_unchecked(ctx, generator, idx, name) };
ctx.builder.build_load(ptr, name.unwrap_or_default()).unwrap()
}
/// Returns the data at the `idx`-th index.
fn get<G: CodeGenerator + ?Sized>(
&self,
ctx: &mut CodeGenContext<'ctx, '_>,
generator: &mut G,
idx: &Index,
name: Option<&str>,
) -> BasicValueEnum<'ctx> {
let ptr = self.ptr_offset(ctx, generator, idx, name);
ctx.builder.build_load(ptr, name.unwrap_or_default()).unwrap()
}
}
/// An array-like value that can have its array elements mutated as a [`BasicValueEnum`].
pub trait UntypedArrayLikeMutator<'ctx, Index = IntValue<'ctx>>:
ArrayLikeIndexer<'ctx, Index>
{
/// # Safety
///
/// This function should be called with a valid index.
unsafe fn set_unchecked<G: CodeGenerator + ?Sized>(
&self,
ctx: &mut CodeGenContext<'ctx, '_>,
generator: &mut G,
idx: &Index,
value: BasicValueEnum<'ctx>,
) {
let ptr = unsafe { self.ptr_offset_unchecked(ctx, generator, idx, None) };
ctx.builder.build_store(ptr, value).unwrap();
}
/// Sets the data at the `idx`-th index.
fn set<G: CodeGenerator + ?Sized>(
&self,
ctx: &mut CodeGenContext<'ctx, '_>,
generator: &mut G,
idx: &Index,
value: BasicValueEnum<'ctx>,
) {
let ptr = self.ptr_offset(ctx, generator, idx, None);
ctx.builder.build_store(ptr, value).unwrap();
}
}
/// An array-like value that can have its array elements accessed as an arbitrary type `T`.
pub trait TypedArrayLikeAccessor<'ctx, T, Index = IntValue<'ctx>>:
UntypedArrayLikeAccessor<'ctx, Index>
{
/// Casts an element from [`BasicValueEnum`] into `T`.
fn downcast_to_type(
&self,
ctx: &mut CodeGenContext<'ctx, '_>,
value: BasicValueEnum<'ctx>,
) -> T;
/// # Safety
///
/// This function should be called with a valid index.
unsafe fn get_typed_unchecked<G: CodeGenerator + ?Sized>(
&self,
ctx: &mut CodeGenContext<'ctx, '_>,
generator: &mut G,
idx: &Index,
name: Option<&str>,
) -> T {
let value = unsafe { self.get_unchecked(ctx, generator, idx, name) };
self.downcast_to_type(ctx, value)
}
/// Returns the data at the `idx`-th index.
fn get_typed<G: CodeGenerator + ?Sized>(
&self,
ctx: &mut CodeGenContext<'ctx, '_>,
generator: &mut G,
idx: &Index,
name: Option<&str>,
) -> T {
let value = self.get(ctx, generator, idx, name);
self.downcast_to_type(ctx, value)
}
}
/// An array-like value that can have its array elements mutated as an arbitrary type `T`.
pub trait TypedArrayLikeMutator<'ctx, T, Index = IntValue<'ctx>>:
UntypedArrayLikeMutator<'ctx, Index>
{
/// Casts an element from T into [`BasicValueEnum`].
fn upcast_from_type(
&self,
ctx: &mut CodeGenContext<'ctx, '_>,
value: T,
) -> BasicValueEnum<'ctx>;
/// # Safety
///
/// This function should be called with a valid index.
unsafe fn set_typed_unchecked<G: CodeGenerator + ?Sized>(
&self,
ctx: &mut CodeGenContext<'ctx, '_>,
generator: &mut G,
idx: &Index,
value: T,
) {
let value = self.upcast_from_type(ctx, value);
unsafe { self.set_unchecked(ctx, generator, idx, value) }
}
/// Sets the data at the `idx`-th index.
fn set_typed<G: CodeGenerator + ?Sized>(
&self,
ctx: &mut CodeGenContext<'ctx, '_>,
generator: &mut G,
idx: &Index,
value: T,
) {
let value = self.upcast_from_type(ctx, value);
self.set(ctx, generator, idx, value);
}
}
/// Type alias for a function that casts a [`BasicValueEnum`] into a `T`.
type ValueDowncastFn<'ctx, T> =
Box<dyn Fn(&mut CodeGenContext<'ctx, '_>, BasicValueEnum<'ctx>) -> T>;
/// Type alias for a function that casts a `T` into a [`BasicValueEnum`].
type ValueUpcastFn<'ctx, T> = Box<dyn Fn(&mut CodeGenContext<'ctx, '_>, T) -> BasicValueEnum<'ctx>>;
/// An adapter for constraining untyped array values as typed values.
pub struct TypedArrayLikeAdapter<'ctx, T, Adapted: ArrayLikeValue<'ctx> = ArraySliceValue<'ctx>> {
adapted: Adapted,
downcast_fn: ValueDowncastFn<'ctx, T>,
upcast_fn: ValueUpcastFn<'ctx, T>,
}
impl<'ctx, T, Adapted> TypedArrayLikeAdapter<'ctx, T, Adapted>
where
Adapted: ArrayLikeValue<'ctx>,
{
/// Creates a [`TypedArrayLikeAdapter`].
///
/// * `adapted` - The value to be adapted.
/// * `downcast_fn` - The function converting a [`BasicValueEnum`] into a `T`.
/// * `upcast_fn` - The function converting a T into a [`BasicValueEnum`].
pub fn from(
adapted: Adapted,
downcast_fn: ValueDowncastFn<'ctx, T>,
upcast_fn: ValueUpcastFn<'ctx, T>,
) -> Self {
TypedArrayLikeAdapter { adapted, downcast_fn, upcast_fn }
}
}
impl<'ctx, T, Adapted> ArrayLikeValue<'ctx> for TypedArrayLikeAdapter<'ctx, T, Adapted>
where
Adapted: ArrayLikeValue<'ctx>,
{
fn element_type<G: CodeGenerator + ?Sized>(
&self,
ctx: &CodeGenContext<'ctx, '_>,
generator: &G,
) -> AnyTypeEnum<'ctx> {
self.adapted.element_type(ctx, generator)
}
fn base_ptr<G: CodeGenerator + ?Sized>(
&self,
ctx: &CodeGenContext<'ctx, '_>,
generator: &G,
) -> PointerValue<'ctx> {
self.adapted.base_ptr(ctx, generator)
}
fn size<G: CodeGenerator + ?Sized>(
&self,
ctx: &CodeGenContext<'ctx, '_>,
generator: &G,
) -> IntValue<'ctx> {
self.adapted.size(ctx, generator)
}
}
impl<'ctx, T, Index, Adapted> ArrayLikeIndexer<'ctx, Index>
for TypedArrayLikeAdapter<'ctx, T, Adapted>
where
Adapted: ArrayLikeIndexer<'ctx, Index>,
{
unsafe fn ptr_offset_unchecked<G: CodeGenerator + ?Sized>(
&self,
ctx: &mut CodeGenContext<'ctx, '_>,
generator: &mut G,
idx: &Index,
name: Option<&str>,
) -> PointerValue<'ctx> {
unsafe { self.adapted.ptr_offset_unchecked(ctx, generator, idx, name) }
}
fn ptr_offset<G: CodeGenerator + ?Sized>(
&self,
ctx: &mut CodeGenContext<'ctx, '_>,
generator: &mut G,
idx: &Index,
name: Option<&str>,
) -> PointerValue<'ctx> {
self.adapted.ptr_offset(ctx, generator, idx, name)
}
}
impl<'ctx, T, Index, Adapted> UntypedArrayLikeAccessor<'ctx, Index>
for TypedArrayLikeAdapter<'ctx, T, Adapted>
where
Adapted: UntypedArrayLikeAccessor<'ctx, Index>,
{
}
impl<'ctx, T, Index, Adapted> UntypedArrayLikeMutator<'ctx, Index>
for TypedArrayLikeAdapter<'ctx, T, Adapted>
where
Adapted: UntypedArrayLikeMutator<'ctx, Index>,
{
}
impl<'ctx, T, Index, Adapted> TypedArrayLikeAccessor<'ctx, T, Index>
for TypedArrayLikeAdapter<'ctx, T, Adapted>
where
Adapted: UntypedArrayLikeAccessor<'ctx, Index>,
{
fn downcast_to_type(
&self,
ctx: &mut CodeGenContext<'ctx, '_>,
value: BasicValueEnum<'ctx>,
) -> T {
(self.downcast_fn)(ctx, value)
}
}
impl<'ctx, T, Index, Adapted> TypedArrayLikeMutator<'ctx, T, Index>
for TypedArrayLikeAdapter<'ctx, T, Adapted>
where
Adapted: UntypedArrayLikeMutator<'ctx, Index>,
{
fn upcast_from_type(
&self,
ctx: &mut CodeGenContext<'ctx, '_>,
value: T,
) -> BasicValueEnum<'ctx> {
(self.upcast_fn)(ctx, value)
}
}
/// An LLVM value representing an array slice, consisting of a pointer to the data and the size of
/// the slice.
#[derive(Copy, Clone)]
pub struct ArraySliceValue<'ctx>(PointerValue<'ctx>, IntValue<'ctx>, Option<&'ctx str>);
impl<'ctx> ArraySliceValue<'ctx> {
/// Creates an [`ArraySliceValue`] from a [`PointerValue`] and its size.
#[must_use]
pub fn from_ptr_val(
ptr: PointerValue<'ctx>,
size: IntValue<'ctx>,
name: Option<&'ctx str>,
) -> Self {
ArraySliceValue(ptr, size, name)
}
}
impl<'ctx> From<ArraySliceValue<'ctx>> for PointerValue<'ctx> {
fn from(value: ArraySliceValue<'ctx>) -> Self {
value.0
}
}
impl<'ctx> ArrayLikeValue<'ctx> for ArraySliceValue<'ctx> {
fn element_type<G: CodeGenerator + ?Sized>(
&self,
_: &CodeGenContext<'ctx, '_>,
_: &G,
) -> AnyTypeEnum<'ctx> {
self.0.get_type().get_element_type()
}
fn base_ptr<G: CodeGenerator + ?Sized>(
&self,
_: &CodeGenContext<'ctx, '_>,
_: &G,
) -> PointerValue<'ctx> {
self.0
}
fn size<G: CodeGenerator + ?Sized>(
&self,
_: &CodeGenContext<'ctx, '_>,
_: &G,
) -> IntValue<'ctx> {
self.1
}
}
impl<'ctx> ArrayLikeIndexer<'ctx> for ArraySliceValue<'ctx> {
unsafe fn ptr_offset_unchecked<G: CodeGenerator + ?Sized>(
&self,
ctx: &mut CodeGenContext<'ctx, '_>,
generator: &mut G,
idx: &IntValue<'ctx>,
name: Option<&str>,
) -> PointerValue<'ctx> {
let var_name = name.map(|v| format!("{v}.addr")).unwrap_or_default();
unsafe {
ctx.builder
.build_in_bounds_gep(self.base_ptr(ctx, generator), &[*idx], var_name.as_str())
.unwrap()
}
}
fn ptr_offset<G: CodeGenerator + ?Sized>(
&self,
ctx: &mut CodeGenContext<'ctx, '_>,
generator: &mut G,
idx: &IntValue<'ctx>,
name: Option<&str>,
) -> PointerValue<'ctx> {
debug_assert_eq!(idx.get_type(), generator.get_size_type(ctx.ctx));
let size = self.size(ctx, generator);
let in_range = ctx.builder.build_int_compare(IntPredicate::ULT, *idx, size, "").unwrap();
ctx.make_assert(
generator,
in_range,
"0:IndexError",
"list index out of range",
[None, None, None],
ctx.current_loc,
);
unsafe { self.ptr_offset_unchecked(ctx, generator, idx, name) }
}
}
impl<'ctx> UntypedArrayLikeAccessor<'ctx> for ArraySliceValue<'ctx> {}
impl<'ctx> UntypedArrayLikeMutator<'ctx> for ArraySliceValue<'ctx> {}

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@ -0,0 +1,241 @@
use inkwell::{
types::{AnyTypeEnum, BasicType, BasicTypeEnum, IntType},
values::{BasicValueEnum, IntValue, PointerValue},
AddressSpace, IntPredicate,
};
use super::{
ArrayLikeIndexer, ArrayLikeValue, ProxyValue, UntypedArrayLikeAccessor, UntypedArrayLikeMutator,
};
use crate::codegen::{
types::ListType,
{CodeGenContext, CodeGenerator},
};
/// Proxy type for accessing a `list` value in LLVM.
#[derive(Copy, Clone)]
pub struct ListValue<'ctx> {
value: PointerValue<'ctx>,
llvm_usize: IntType<'ctx>,
name: Option<&'ctx str>,
}
impl<'ctx> ListValue<'ctx> {
/// Checks whether `value` is an instance of `list`, returning [Err] if `value` is not an
/// instance.
pub fn is_representable(
value: PointerValue<'ctx>,
llvm_usize: IntType<'ctx>,
) -> Result<(), String> {
ListType::is_representable(value.get_type(), llvm_usize)
}
/// Creates an [`ListValue`] from a [`PointerValue`].
#[must_use]
pub fn from_pointer_value(
ptr: PointerValue<'ctx>,
llvm_usize: IntType<'ctx>,
name: Option<&'ctx str>,
) -> Self {
debug_assert!(Self::is_representable(ptr, llvm_usize).is_ok());
ListValue { value: ptr, llvm_usize, name }
}
/// Returns the double-indirection pointer to the `data` array, as if by calling `getelementptr`
/// on the field.
fn pptr_to_data(&self, ctx: &CodeGenContext<'ctx, '_>) -> PointerValue<'ctx> {
let llvm_i32 = ctx.ctx.i32_type();
let var_name = self.name.map(|v| format!("{v}.data.addr")).unwrap_or_default();
unsafe {
ctx.builder
.build_in_bounds_gep(
self.as_base_value(),
&[llvm_i32.const_zero(), llvm_i32.const_zero()],
var_name.as_str(),
)
.unwrap()
}
}
/// Returns the pointer to the field storing the size of this `list`.
fn ptr_to_size(&self, ctx: &CodeGenContext<'ctx, '_>) -> PointerValue<'ctx> {
let llvm_i32 = ctx.ctx.i32_type();
let var_name = self.name.map(|v| format!("{v}.size.addr")).unwrap_or_default();
unsafe {
ctx.builder
.build_in_bounds_gep(
self.as_base_value(),
&[llvm_i32.const_zero(), llvm_i32.const_int(1, true)],
var_name.as_str(),
)
.unwrap()
}
}
/// Stores the array of data elements `data` into this instance.
fn store_data(&self, ctx: &CodeGenContext<'ctx, '_>, data: PointerValue<'ctx>) {
ctx.builder.build_store(self.pptr_to_data(ctx), data).unwrap();
}
/// Convenience method for creating a new array storing data elements with the given element
/// type `elem_ty` and `size`.
///
/// If `size` is [None], the size stored in the field of this instance is used instead.
pub fn create_data(
&self,
ctx: &mut CodeGenContext<'ctx, '_>,
elem_ty: BasicTypeEnum<'ctx>,
size: Option<IntValue<'ctx>>,
) {
let size = size.unwrap_or_else(|| self.load_size(ctx, None));
let data = ctx
.builder
.build_select(
ctx.builder
.build_int_compare(IntPredicate::NE, size, self.llvm_usize.const_zero(), "")
.unwrap(),
ctx.builder.build_array_alloca(elem_ty, size, "").unwrap(),
elem_ty.ptr_type(AddressSpace::default()).const_zero(),
"",
)
.map(BasicValueEnum::into_pointer_value)
.unwrap();
self.store_data(ctx, data);
}
/// Returns the double-indirection pointer to the `data` array, as if by calling `getelementptr`
/// on the field.
#[must_use]
pub fn data(&self) -> ListDataProxy<'ctx, '_> {
ListDataProxy(self)
}
/// Stores the `size` of this `list` into this instance.
pub fn store_size<G: CodeGenerator + ?Sized>(
&self,
ctx: &CodeGenContext<'ctx, '_>,
generator: &G,
size: IntValue<'ctx>,
) {
debug_assert_eq!(size.get_type(), generator.get_size_type(ctx.ctx));
let psize = self.ptr_to_size(ctx);
ctx.builder.build_store(psize, size).unwrap();
}
/// Returns the size of this `list` as a value.
pub fn load_size(&self, ctx: &CodeGenContext<'ctx, '_>, name: Option<&str>) -> IntValue<'ctx> {
let psize = self.ptr_to_size(ctx);
let var_name = name
.map(ToString::to_string)
.or_else(|| self.name.map(|v| format!("{v}.size")))
.unwrap_or_default();
ctx.builder
.build_load(psize, var_name.as_str())
.map(BasicValueEnum::into_int_value)
.unwrap()
}
}
impl<'ctx> ProxyValue<'ctx> for ListValue<'ctx> {
type Base = PointerValue<'ctx>;
type Type = ListType<'ctx>;
fn get_type(&self) -> Self::Type {
ListType::from_type(self.as_base_value().get_type(), self.llvm_usize)
}
fn as_base_value(&self) -> Self::Base {
self.value
}
}
impl<'ctx> From<ListValue<'ctx>> for PointerValue<'ctx> {
fn from(value: ListValue<'ctx>) -> Self {
value.as_base_value()
}
}
/// Proxy type for accessing the `data` array of an `list` instance in LLVM.
#[derive(Copy, Clone)]
pub struct ListDataProxy<'ctx, 'a>(&'a ListValue<'ctx>);
impl<'ctx> ArrayLikeValue<'ctx> for ListDataProxy<'ctx, '_> {
fn element_type<G: CodeGenerator + ?Sized>(
&self,
_: &CodeGenContext<'ctx, '_>,
_: &G,
) -> AnyTypeEnum<'ctx> {
self.0.value.get_type().get_element_type()
}
fn base_ptr<G: CodeGenerator + ?Sized>(
&self,
ctx: &CodeGenContext<'ctx, '_>,
_: &G,
) -> PointerValue<'ctx> {
let var_name = self.0.name.map(|v| format!("{v}.data")).unwrap_or_default();
ctx.builder
.build_load(self.0.pptr_to_data(ctx), var_name.as_str())
.map(BasicValueEnum::into_pointer_value)
.unwrap()
}
fn size<G: CodeGenerator + ?Sized>(
&self,
ctx: &CodeGenContext<'ctx, '_>,
_: &G,
) -> IntValue<'ctx> {
self.0.load_size(ctx, None)
}
}
impl<'ctx> ArrayLikeIndexer<'ctx> for ListDataProxy<'ctx, '_> {
unsafe fn ptr_offset_unchecked<G: CodeGenerator + ?Sized>(
&self,
ctx: &mut CodeGenContext<'ctx, '_>,
generator: &mut G,
idx: &IntValue<'ctx>,
name: Option<&str>,
) -> PointerValue<'ctx> {
let var_name = name.map(|v| format!("{v}.addr")).unwrap_or_default();
unsafe {
ctx.builder
.build_in_bounds_gep(self.base_ptr(ctx, generator), &[*idx], var_name.as_str())
.unwrap()
}
}
fn ptr_offset<G: CodeGenerator + ?Sized>(
&self,
ctx: &mut CodeGenContext<'ctx, '_>,
generator: &mut G,
idx: &IntValue<'ctx>,
name: Option<&str>,
) -> PointerValue<'ctx> {
debug_assert_eq!(idx.get_type(), generator.get_size_type(ctx.ctx));
let size = self.size(ctx, generator);
let in_range = ctx.builder.build_int_compare(IntPredicate::ULT, *idx, size, "").unwrap();
ctx.make_assert(
generator,
in_range,
"0:IndexError",
"list index out of range",
[None, None, None],
ctx.current_loc,
);
unsafe { self.ptr_offset_unchecked(ctx, generator, idx, name) }
}
}
impl<'ctx> UntypedArrayLikeAccessor<'ctx> for ListDataProxy<'ctx, '_> {}
impl<'ctx> UntypedArrayLikeMutator<'ctx> for ListDataProxy<'ctx, '_> {}

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@ -0,0 +1,47 @@
use inkwell::{context::Context, values::BasicValue};
use super::types::ProxyType;
use crate::codegen::CodeGenerator;
pub use array::*;
pub use list::*;
pub use ndarray::*;
pub use range::*;
mod array;
mod list;
mod ndarray;
mod range;
/// A LLVM type that is used to represent a non-primitive value in NAC3.
pub trait ProxyValue<'ctx>: Into<Self::Base> {
/// The type of LLVM values represented by this instance. This is usually the
/// [LLVM pointer type][PointerValue].
type Base: BasicValue<'ctx>;
/// The type of this value.
type Type: ProxyType<'ctx, Value = Self>;
/// Checks whether `value` can be represented by this [`ProxyValue`].
fn is_instance<G: CodeGenerator + ?Sized>(
generator: &G,
ctx: &'ctx Context,
value: impl BasicValue<'ctx>,
) -> Result<(), String> {
Self::Type::is_type(generator, ctx, value.as_basic_value_enum().get_type())
}
/// Checks whether `value` can be represented by this [`ProxyValue`].
fn is_representable<G: CodeGenerator + ?Sized>(
generator: &G,
ctx: &'ctx Context,
value: Self::Base,
) -> Result<(), String> {
Self::is_instance(generator, ctx, value.as_basic_value_enum())
}
/// Returns the [type][ProxyType] of this value.
fn get_type(&self) -> Self::Type;
/// Returns the [base value][Self::Base] of this proxy.
fn as_base_value(&self) -> Self::Base;
}

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@ -0,0 +1,523 @@
use inkwell::{
types::{AnyType, AnyTypeEnum, BasicType, BasicTypeEnum, IntType},
values::{BasicValueEnum, IntValue, PointerValue},
AddressSpace, IntPredicate,
};
use super::{
ArrayLikeIndexer, ArrayLikeValue, ProxyValue, TypedArrayLikeAccessor, TypedArrayLikeMutator,
UntypedArrayLikeAccessor, UntypedArrayLikeMutator,
};
use crate::codegen::{
irrt::{call_ndarray_calc_size, call_ndarray_flatten_index},
llvm_intrinsics::call_int_umin,
stmt::gen_for_callback_incrementing,
types::NDArrayType,
CodeGenContext, CodeGenerator,
};
/// Proxy type for accessing an `NDArray` value in LLVM.
#[derive(Copy, Clone)]
pub struct NDArrayValue<'ctx> {
value: PointerValue<'ctx>,
dtype: BasicTypeEnum<'ctx>,
llvm_usize: IntType<'ctx>,
name: Option<&'ctx str>,
}
impl<'ctx> NDArrayValue<'ctx> {
/// Checks whether `value` is an instance of `NDArray`, returning [Err] if `value` is not an
/// instance.
pub fn is_representable(
value: PointerValue<'ctx>,
llvm_usize: IntType<'ctx>,
) -> Result<(), String> {
NDArrayType::is_representable(value.get_type(), llvm_usize)
}
/// Creates an [`NDArrayValue`] from a [`PointerValue`].
#[must_use]
pub fn from_pointer_value(
ptr: PointerValue<'ctx>,
dtype: BasicTypeEnum<'ctx>,
llvm_usize: IntType<'ctx>,
name: Option<&'ctx str>,
) -> Self {
debug_assert!(Self::is_representable(ptr, llvm_usize).is_ok());
NDArrayValue { value: ptr, dtype, llvm_usize, name }
}
/// Returns the pointer to the field storing the number of dimensions of this `NDArray`.
fn ptr_to_ndims(&self, ctx: &CodeGenContext<'ctx, '_>) -> PointerValue<'ctx> {
self.get_type()
.get_fields(ctx.ctx, self.llvm_usize)
.ndims
.ptr_by_gep(ctx, self.value, self.name)
}
/// Stores the number of dimensions `ndims` into this instance.
pub fn store_ndims<G: CodeGenerator + ?Sized>(
&self,
ctx: &CodeGenContext<'ctx, '_>,
generator: &G,
ndims: IntValue<'ctx>,
) {
debug_assert_eq!(ndims.get_type(), generator.get_size_type(ctx.ctx));
let pndims = self.ptr_to_ndims(ctx);
ctx.builder.build_store(pndims, ndims).unwrap();
}
/// Returns the number of dimensions of this `NDArray` as a value.
pub fn load_ndims(&self, ctx: &CodeGenContext<'ctx, '_>) -> IntValue<'ctx> {
let pndims = self.ptr_to_ndims(ctx);
ctx.builder.build_load(pndims, "").map(BasicValueEnum::into_int_value).unwrap()
}
/// Returns the double-indirection pointer to the `shape` array, as if by calling
/// `getelementptr` on the field.
fn ptr_to_shape(&self, ctx: &CodeGenContext<'ctx, '_>) -> PointerValue<'ctx> {
self.get_type()
.get_fields(ctx.ctx, self.llvm_usize)
.shape
.ptr_by_gep(ctx, self.value, self.name)
}
/// Stores the array of dimension sizes `dims` into this instance.
fn store_shape(&self, ctx: &CodeGenContext<'ctx, '_>, dims: PointerValue<'ctx>) {
ctx.builder.build_store(self.ptr_to_shape(ctx), dims).unwrap();
}
/// Convenience method for creating a new array storing dimension sizes with the given `size`.
pub fn create_shape(
&self,
ctx: &CodeGenContext<'ctx, '_>,
llvm_usize: IntType<'ctx>,
size: IntValue<'ctx>,
) {
self.store_shape(ctx, ctx.builder.build_array_alloca(llvm_usize, size, "").unwrap());
}
/// Returns a proxy object to the field storing the size of each dimension of this `NDArray`.
#[must_use]
pub fn shape(&self) -> NDArrayShapeProxy<'ctx, '_> {
NDArrayShapeProxy(self)
}
/// Returns the double-indirection pointer to the `data` array, as if by calling `getelementptr`
/// on the field.
pub fn ptr_to_data(&self, ctx: &CodeGenContext<'ctx, '_>) -> PointerValue<'ctx> {
self.get_type()
.get_fields(ctx.ctx, self.llvm_usize)
.data
.ptr_by_gep(ctx, self.value, self.name)
}
/// Stores the array of data elements `data` into this instance.
fn store_data(&self, ctx: &CodeGenContext<'ctx, '_>, data: PointerValue<'ctx>) {
let data = ctx
.builder
.build_bit_cast(data, ctx.ctx.i8_type().ptr_type(AddressSpace::default()), "")
.unwrap();
ctx.builder.build_store(self.ptr_to_data(ctx), data).unwrap();
}
/// Convenience method for creating a new array storing data elements with the given element
/// type `elem_ty` and `size`.
pub fn create_data(
&self,
ctx: &CodeGenContext<'ctx, '_>,
elem_ty: BasicTypeEnum<'ctx>,
size: IntValue<'ctx>,
) {
let itemsize =
ctx.builder.build_int_cast(elem_ty.size_of().unwrap(), size.get_type(), "").unwrap();
let nbytes = ctx.builder.build_int_mul(size, itemsize, "").unwrap();
// TODO: What about alignment?
self.store_data(
ctx,
ctx.builder.build_array_alloca(ctx.ctx.i8_type(), nbytes, "").unwrap(),
);
}
/// Returns a proxy object to the field storing the data of this `NDArray`.
#[must_use]
pub fn data(&self) -> NDArrayDataProxy<'ctx, '_> {
NDArrayDataProxy(self)
}
}
impl<'ctx> ProxyValue<'ctx> for NDArrayValue<'ctx> {
type Base = PointerValue<'ctx>;
type Type = NDArrayType<'ctx>;
fn get_type(&self) -> Self::Type {
NDArrayType::from_type(self.as_base_value().get_type(), self.dtype, self.llvm_usize)
}
fn as_base_value(&self) -> Self::Base {
self.value
}
}
impl<'ctx> From<NDArrayValue<'ctx>> for PointerValue<'ctx> {
fn from(value: NDArrayValue<'ctx>) -> Self {
value.as_base_value()
}
}
/// Proxy type for accessing the `dims` array of an `NDArray` instance in LLVM.
#[derive(Copy, Clone)]
pub struct NDArrayShapeProxy<'ctx, 'a>(&'a NDArrayValue<'ctx>);
impl<'ctx> ArrayLikeValue<'ctx> for NDArrayShapeProxy<'ctx, '_> {
fn element_type<G: CodeGenerator + ?Sized>(
&self,
ctx: &CodeGenContext<'ctx, '_>,
generator: &G,
) -> AnyTypeEnum<'ctx> {
self.0.shape().base_ptr(ctx, generator).get_type().get_element_type()
}
fn base_ptr<G: CodeGenerator + ?Sized>(
&self,
ctx: &CodeGenContext<'ctx, '_>,
_: &G,
) -> PointerValue<'ctx> {
let var_name = self.0.name.map(|v| format!("{v}.data")).unwrap_or_default();
ctx.builder
.build_load(self.0.ptr_to_shape(ctx), var_name.as_str())
.map(BasicValueEnum::into_pointer_value)
.unwrap()
}
fn size<G: CodeGenerator + ?Sized>(
&self,
ctx: &CodeGenContext<'ctx, '_>,
_: &G,
) -> IntValue<'ctx> {
self.0.load_ndims(ctx)
}
}
impl<'ctx> ArrayLikeIndexer<'ctx, IntValue<'ctx>> for NDArrayShapeProxy<'ctx, '_> {
unsafe fn ptr_offset_unchecked<G: CodeGenerator + ?Sized>(
&self,
ctx: &mut CodeGenContext<'ctx, '_>,
generator: &mut G,
idx: &IntValue<'ctx>,
name: Option<&str>,
) -> PointerValue<'ctx> {
let var_name = name.map(|v| format!("{v}.addr")).unwrap_or_default();
unsafe {
ctx.builder
.build_in_bounds_gep(self.base_ptr(ctx, generator), &[*idx], var_name.as_str())
.unwrap()
}
}
fn ptr_offset<G: CodeGenerator + ?Sized>(
&self,
ctx: &mut CodeGenContext<'ctx, '_>,
generator: &mut G,
idx: &IntValue<'ctx>,
name: Option<&str>,
) -> PointerValue<'ctx> {
let size = self.size(ctx, generator);
let in_range = ctx.builder.build_int_compare(IntPredicate::ULT, *idx, size, "").unwrap();
ctx.make_assert(
generator,
in_range,
"0:IndexError",
"index {0} is out of bounds for axis 0 with size {1}",
[Some(*idx), Some(self.0.load_ndims(ctx)), None],
ctx.current_loc,
);
unsafe { self.ptr_offset_unchecked(ctx, generator, idx, name) }
}
}
impl<'ctx> UntypedArrayLikeAccessor<'ctx, IntValue<'ctx>> for NDArrayShapeProxy<'ctx, '_> {}
impl<'ctx> UntypedArrayLikeMutator<'ctx, IntValue<'ctx>> for NDArrayShapeProxy<'ctx, '_> {}
impl<'ctx> TypedArrayLikeAccessor<'ctx, IntValue<'ctx>> for NDArrayShapeProxy<'ctx, '_> {
fn downcast_to_type(
&self,
_: &mut CodeGenContext<'ctx, '_>,
value: BasicValueEnum<'ctx>,
) -> IntValue<'ctx> {
value.into_int_value()
}
}
impl<'ctx> TypedArrayLikeMutator<'ctx, IntValue<'ctx>> for NDArrayShapeProxy<'ctx, '_> {
fn upcast_from_type(
&self,
_: &mut CodeGenContext<'ctx, '_>,
value: IntValue<'ctx>,
) -> BasicValueEnum<'ctx> {
value.into()
}
}
/// Proxy type for accessing the `data` array of an `NDArray` instance in LLVM.
#[derive(Copy, Clone)]
pub struct NDArrayDataProxy<'ctx, 'a>(&'a NDArrayValue<'ctx>);
impl<'ctx> ArrayLikeValue<'ctx> for NDArrayDataProxy<'ctx, '_> {
fn element_type<G: CodeGenerator + ?Sized>(
&self,
_: &CodeGenContext<'ctx, '_>,
_: &G,
) -> AnyTypeEnum<'ctx> {
self.0.dtype.as_any_type_enum()
}
fn base_ptr<G: CodeGenerator + ?Sized>(
&self,
ctx: &CodeGenContext<'ctx, '_>,
_: &G,
) -> PointerValue<'ctx> {
let var_name = self.0.name.map(|v| format!("{v}.data")).unwrap_or_default();
ctx.builder
.build_load(self.0.ptr_to_data(ctx), var_name.as_str())
.map(BasicValueEnum::into_pointer_value)
.unwrap()
}
fn size<G: CodeGenerator + ?Sized>(
&self,
ctx: &CodeGenContext<'ctx, '_>,
generator: &G,
) -> IntValue<'ctx> {
call_ndarray_calc_size(generator, ctx, &self.as_slice_value(ctx, generator), (None, None))
}
}
impl<'ctx> ArrayLikeIndexer<'ctx> for NDArrayDataProxy<'ctx, '_> {
unsafe fn ptr_offset_unchecked<G: CodeGenerator + ?Sized>(
&self,
ctx: &mut CodeGenContext<'ctx, '_>,
generator: &mut G,
idx: &IntValue<'ctx>,
name: Option<&str>,
) -> PointerValue<'ctx> {
let sizeof_elem = ctx
.builder
.build_int_truncate_or_bit_cast(
self.element_type(ctx, generator).size_of().unwrap(),
idx.get_type(),
"",
)
.unwrap();
let idx = ctx.builder.build_int_mul(*idx, sizeof_elem, "").unwrap();
let ptr = unsafe {
ctx.builder
.build_in_bounds_gep(
self.base_ptr(ctx, generator),
&[idx],
name.unwrap_or_default(),
)
.unwrap()
};
// Current implementation is transparent - The returned pointer type is
// already cast into the expected type, allowing for immediately
// load/store.
ctx.builder
.build_pointer_cast(
ptr,
BasicTypeEnum::try_from(self.element_type(ctx, generator))
.unwrap()
.ptr_type(AddressSpace::default()),
"",
)
.unwrap()
}
fn ptr_offset<G: CodeGenerator + ?Sized>(
&self,
ctx: &mut CodeGenContext<'ctx, '_>,
generator: &mut G,
idx: &IntValue<'ctx>,
name: Option<&str>,
) -> PointerValue<'ctx> {
let data_sz = self.size(ctx, generator);
let in_range = ctx.builder.build_int_compare(IntPredicate::ULT, *idx, data_sz, "").unwrap();
ctx.make_assert(
generator,
in_range,
"0:IndexError",
"index {0} is out of bounds with size {1}",
[Some(*idx), Some(self.0.load_ndims(ctx)), None],
ctx.current_loc,
);
let ptr = unsafe { self.ptr_offset_unchecked(ctx, generator, idx, name) };
// Current implementation is transparent - The returned pointer type is
// already cast into the expected type, allowing for immediately
// load/store.
ctx.builder
.build_pointer_cast(
ptr,
BasicTypeEnum::try_from(self.element_type(ctx, generator))
.unwrap()
.ptr_type(AddressSpace::default()),
"",
)
.unwrap()
}
}
impl<'ctx> UntypedArrayLikeAccessor<'ctx, IntValue<'ctx>> for NDArrayDataProxy<'ctx, '_> {}
impl<'ctx> UntypedArrayLikeMutator<'ctx, IntValue<'ctx>> for NDArrayDataProxy<'ctx, '_> {}
impl<'ctx, Index: UntypedArrayLikeAccessor<'ctx>> ArrayLikeIndexer<'ctx, Index>
for NDArrayDataProxy<'ctx, '_>
{
unsafe fn ptr_offset_unchecked<G: CodeGenerator + ?Sized>(
&self,
ctx: &mut CodeGenContext<'ctx, '_>,
generator: &mut G,
indices: &Index,
name: Option<&str>,
) -> PointerValue<'ctx> {
let llvm_usize = generator.get_size_type(ctx.ctx);
let indices_elem_ty = indices
.ptr_offset(ctx, generator, &llvm_usize.const_zero(), None)
.get_type()
.get_element_type();
let Ok(indices_elem_ty) = IntType::try_from(indices_elem_ty) else {
panic!("Expected list[int32] but got {indices_elem_ty}")
};
assert_eq!(
indices_elem_ty.get_bit_width(),
32,
"Expected list[int32] but got list[int{}]",
indices_elem_ty.get_bit_width()
);
let index = call_ndarray_flatten_index(generator, ctx, *self.0, indices);
let sizeof_elem = ctx
.builder
.build_int_truncate_or_bit_cast(
self.element_type(ctx, generator).size_of().unwrap(),
index.get_type(),
"",
)
.unwrap();
let index = ctx.builder.build_int_mul(index, sizeof_elem, "").unwrap();
let ptr = unsafe {
ctx.builder
.build_in_bounds_gep(
self.base_ptr(ctx, generator),
&[index],
name.unwrap_or_default(),
)
.unwrap()
};
// TODO: Current implementation is transparent
ctx.builder
.build_pointer_cast(
ptr,
BasicTypeEnum::try_from(self.element_type(ctx, generator))
.unwrap()
.ptr_type(AddressSpace::default()),
"",
)
.unwrap()
}
fn ptr_offset<G: CodeGenerator + ?Sized>(
&self,
ctx: &mut CodeGenContext<'ctx, '_>,
generator: &mut G,
indices: &Index,
name: Option<&str>,
) -> PointerValue<'ctx> {
let llvm_usize = generator.get_size_type(ctx.ctx);
let indices_size = indices.size(ctx, generator);
let nidx_leq_ndims = ctx
.builder
.build_int_compare(IntPredicate::SLE, indices_size, self.0.load_ndims(ctx), "")
.unwrap();
ctx.make_assert(
generator,
nidx_leq_ndims,
"0:IndexError",
"invalid index to scalar variable",
[None, None, None],
ctx.current_loc,
);
let indices_len = indices.size(ctx, generator);
let ndarray_len = self.0.load_ndims(ctx);
let len = call_int_umin(ctx, indices_len, ndarray_len, None);
gen_for_callback_incrementing(
generator,
ctx,
None,
llvm_usize.const_zero(),
(len, false),
|generator, ctx, _, i| {
let (dim_idx, dim_sz) = unsafe {
(
indices.get_unchecked(ctx, generator, &i, None).into_int_value(),
self.0.shape().get_typed_unchecked(ctx, generator, &i, None),
)
};
let dim_idx = ctx
.builder
.build_int_z_extend_or_bit_cast(dim_idx, dim_sz.get_type(), "")
.unwrap();
let dim_lt =
ctx.builder.build_int_compare(IntPredicate::SLT, dim_idx, dim_sz, "").unwrap();
ctx.make_assert(
generator,
dim_lt,
"0:IndexError",
"index {0} is out of bounds for axis 0 with size {1}",
[Some(dim_idx), Some(dim_sz), None],
ctx.current_loc,
);
Ok(())
},
llvm_usize.const_int(1, false),
)
.unwrap();
let ptr = unsafe { self.ptr_offset_unchecked(ctx, generator, indices, name) };
// TODO: Current implementation is transparent
ctx.builder
.build_pointer_cast(
ptr,
BasicTypeEnum::try_from(self.element_type(ctx, generator))
.unwrap()
.ptr_type(AddressSpace::default()),
"",
)
.unwrap()
}
}
impl<'ctx, Index: UntypedArrayLikeAccessor<'ctx>> UntypedArrayLikeAccessor<'ctx, Index>
for NDArrayDataProxy<'ctx, '_>
{
}
impl<'ctx, Index: UntypedArrayLikeAccessor<'ctx>> UntypedArrayLikeMutator<'ctx, Index>
for NDArrayDataProxy<'ctx, '_>
{
}

View File

@ -0,0 +1,153 @@
use inkwell::values::{BasicValueEnum, IntValue, PointerValue};
use super::ProxyValue;
use crate::codegen::{types::RangeType, CodeGenContext};
/// Proxy type for accessing a `range` value in LLVM.
#[derive(Copy, Clone)]
pub struct RangeValue<'ctx> {
value: PointerValue<'ctx>,
name: Option<&'ctx str>,
}
impl<'ctx> RangeValue<'ctx> {
/// Checks whether `value` is an instance of `range`, returning [Err] if `value` is not an instance.
pub fn is_representable(value: PointerValue<'ctx>) -> Result<(), String> {
RangeType::is_representable(value.get_type())
}
/// Creates an [`RangeValue`] from a [`PointerValue`].
#[must_use]
pub fn from_pointer_value(ptr: PointerValue<'ctx>, name: Option<&'ctx str>) -> Self {
debug_assert!(Self::is_representable(ptr).is_ok());
RangeValue { value: ptr, name }
}
fn ptr_to_start(&self, ctx: &CodeGenContext<'ctx, '_>) -> PointerValue<'ctx> {
let llvm_i32 = ctx.ctx.i32_type();
let var_name = self.name.map(|v| format!("{v}.start.addr")).unwrap_or_default();
unsafe {
ctx.builder
.build_in_bounds_gep(
self.as_base_value(),
&[llvm_i32.const_zero(), llvm_i32.const_int(0, false)],
var_name.as_str(),
)
.unwrap()
}
}
fn ptr_to_end(&self, ctx: &CodeGenContext<'ctx, '_>) -> PointerValue<'ctx> {
let llvm_i32 = ctx.ctx.i32_type();
let var_name = self.name.map(|v| format!("{v}.end.addr")).unwrap_or_default();
unsafe {
ctx.builder
.build_in_bounds_gep(
self.as_base_value(),
&[llvm_i32.const_zero(), llvm_i32.const_int(1, false)],
var_name.as_str(),
)
.unwrap()
}
}
fn ptr_to_step(&self, ctx: &CodeGenContext<'ctx, '_>) -> PointerValue<'ctx> {
let llvm_i32 = ctx.ctx.i32_type();
let var_name = self.name.map(|v| format!("{v}.step.addr")).unwrap_or_default();
unsafe {
ctx.builder
.build_in_bounds_gep(
self.as_base_value(),
&[llvm_i32.const_zero(), llvm_i32.const_int(2, false)],
var_name.as_str(),
)
.unwrap()
}
}
/// Stores the `start` value into this instance.
pub fn store_start(&self, ctx: &CodeGenContext<'ctx, '_>, start: IntValue<'ctx>) {
debug_assert_eq!(start.get_type().get_bit_width(), 32);
let pstart = self.ptr_to_start(ctx);
ctx.builder.build_store(pstart, start).unwrap();
}
/// Returns the `start` value of this `range`.
pub fn load_start(&self, ctx: &CodeGenContext<'ctx, '_>, name: Option<&str>) -> IntValue<'ctx> {
let pstart = self.ptr_to_start(ctx);
let var_name = name
.map(ToString::to_string)
.or_else(|| self.name.map(|v| format!("{v}.start")))
.unwrap_or_default();
ctx.builder
.build_load(pstart, var_name.as_str())
.map(BasicValueEnum::into_int_value)
.unwrap()
}
/// Stores the `end` value into this instance.
pub fn store_end(&self, ctx: &CodeGenContext<'ctx, '_>, end: IntValue<'ctx>) {
debug_assert_eq!(end.get_type().get_bit_width(), 32);
let pend = self.ptr_to_end(ctx);
ctx.builder.build_store(pend, end).unwrap();
}
/// Returns the `end` value of this `range`.
pub fn load_end(&self, ctx: &CodeGenContext<'ctx, '_>, name: Option<&str>) -> IntValue<'ctx> {
let pend = self.ptr_to_end(ctx);
let var_name = name
.map(ToString::to_string)
.or_else(|| self.name.map(|v| format!("{v}.end")))
.unwrap_or_default();
ctx.builder.build_load(pend, var_name.as_str()).map(BasicValueEnum::into_int_value).unwrap()
}
/// Stores the `step` value into this instance.
pub fn store_step(&self, ctx: &CodeGenContext<'ctx, '_>, step: IntValue<'ctx>) {
debug_assert_eq!(step.get_type().get_bit_width(), 32);
let pstep = self.ptr_to_step(ctx);
ctx.builder.build_store(pstep, step).unwrap();
}
/// Returns the `step` value of this `range`.
pub fn load_step(&self, ctx: &CodeGenContext<'ctx, '_>, name: Option<&str>) -> IntValue<'ctx> {
let pstep = self.ptr_to_step(ctx);
let var_name = name
.map(ToString::to_string)
.or_else(|| self.name.map(|v| format!("{v}.step")))
.unwrap_or_default();
ctx.builder
.build_load(pstep, var_name.as_str())
.map(BasicValueEnum::into_int_value)
.unwrap()
}
}
impl<'ctx> ProxyValue<'ctx> for RangeValue<'ctx> {
type Base = PointerValue<'ctx>;
type Type = RangeType<'ctx>;
fn get_type(&self) -> Self::Type {
RangeType::from_type(self.value.get_type())
}
fn as_base_value(&self) -> Self::Base {
self.value
}
}
impl<'ctx> From<RangeValue<'ctx>> for PointerValue<'ctx> {
fn from(value: RangeValue<'ctx>) -> Self {
value.as_base_value()
}
}

View File

@ -1,10 +1,4 @@
#![deny( #![deny(future_incompatible, let_underscore, nonstandard_style, clippy::all)]
future_incompatible,
let_underscore,
nonstandard_style,
rust_2024_compatibility,
clippy::all
)]
#![warn(clippy::pedantic)] #![warn(clippy::pedantic)]
#![allow( #![allow(
dead_code, dead_code,
@ -27,3 +21,5 @@ pub mod codegen;
pub mod symbol_resolver; pub mod symbol_resolver;
pub mod toplevel; pub mod toplevel;
pub mod typecheck; pub mod typecheck;
extern crate self as nac3core;

View File

@ -1,7 +1,15 @@
use std::fmt::Debug; use std::{
use std::rc::Rc; collections::{HashMap, HashSet},
use std::sync::Arc; fmt::{Debug, Display},
use std::{collections::HashMap, collections::HashSet, fmt::Display}; rc::Rc,
sync::Arc,
};
use inkwell::values::{BasicValueEnum, FloatValue, IntValue, PointerValue, StructValue};
use itertools::{chain, izip, Itertools};
use parking_lot::RwLock;
use nac3parser::ast::{Constant, Expr, Location, StrRef};
use crate::{ use crate::{
codegen::{CodeGenContext, CodeGenerator}, codegen::{CodeGenContext, CodeGenerator},
@ -11,10 +19,6 @@ use crate::{
typedef::{Type, TypeEnum, Unifier, VarMap}, typedef::{Type, TypeEnum, Unifier, VarMap},
}, },
}; };
use inkwell::values::{BasicValueEnum, FloatValue, IntValue, PointerValue, StructValue};
use itertools::{chain, izip, Itertools};
use nac3parser::ast::{Constant, Expr, Location, StrRef};
use parking_lot::RwLock;
#[derive(Clone, PartialEq, Debug)] #[derive(Clone, PartialEq, Debug)]
pub enum SymbolValue { pub enum SymbolValue {
@ -365,6 +369,7 @@ pub trait SymbolResolver {
&self, &self,
str: StrRef, str: StrRef,
ctx: &mut CodeGenContext<'ctx, '_>, ctx: &mut CodeGenContext<'ctx, '_>,
generator: &mut dyn CodeGenerator,
) -> Option<ValueEnum<'ctx>>; ) -> Option<ValueEnum<'ctx>>;
fn get_default_param_value(&self, expr: &Expr) -> Option<SymbolValue>; fn get_default_param_value(&self, expr: &Expr) -> Option<SymbolValue>;

View File

@ -1,6 +1,5 @@
use std::iter::once; use std::iter::once;
use helper::{debug_assert_prim_is_allowed, make_exception_fields, PrimDefDetails};
use indexmap::IndexMap; use indexmap::IndexMap;
use inkwell::{ use inkwell::{
attributes::{Attribute, AttributeLoc}, attributes::{Attribute, AttributeLoc},
@ -11,20 +10,22 @@ use inkwell::{
use itertools::Either; use itertools::Either;
use strum::IntoEnumIterator; use strum::IntoEnumIterator;
use super::{
helper::{debug_assert_prim_is_allowed, make_exception_fields, PrimDef, PrimDefDetails},
numpy::make_ndarray_ty,
*,
};
use crate::{ use crate::{
codegen::{ codegen::{
builtin_fns, builtin_fns,
classes::{ProxyValue, RangeValue},
numpy::*, numpy::*,
stmt::exn_constructor, stmt::exn_constructor,
values::{ProxyValue, RangeValue},
}, },
symbol_resolver::SymbolValue, symbol_resolver::SymbolValue,
toplevel::{helper::PrimDef, numpy::make_ndarray_ty},
typecheck::typedef::{into_var_map, iter_type_vars, TypeVar, VarMap}, typecheck::typedef::{into_var_map, iter_type_vars, TypeVar, VarMap},
}; };
use super::*;
type BuiltinInfo = Vec<(Arc<RwLock<TopLevelDef>>, Option<Stmt>)>; type BuiltinInfo = Vec<(Arc<RwLock<TopLevelDef>>, Option<Stmt>)>;
pub fn get_exn_constructor( pub fn get_exn_constructor(
@ -709,7 +710,7 @@ impl<'a> BuiltinBuilder<'a> {
let (zelf_ty, zelf) = obj.unwrap(); let (zelf_ty, zelf) = obj.unwrap();
let zelf = let zelf =
zelf.to_basic_value_enum(ctx, generator, zelf_ty)?.into_pointer_value(); zelf.to_basic_value_enum(ctx, generator, zelf_ty)?.into_pointer_value();
let zelf = RangeValue::from_ptr_val(zelf, Some("range")); let zelf = RangeValue::from_pointer_value(zelf, Some("range"));
let mut start = None; let mut start = None;
let mut stop = None; let mut stop = None;

View File

@ -1,17 +1,17 @@
use nac3parser::ast::fold::Fold;
use std::rc::Rc; use std::rc::Rc;
use nac3parser::ast::{fold::Fold, ExprKind, Ident};
use super::*;
use crate::{ use crate::{
codegen::{expr::get_subst_key, stmt::exn_constructor}, codegen::{expr::get_subst_key, stmt::exn_constructor},
symbol_resolver::SymbolValue, symbol_resolver::SymbolValue,
typecheck::{ typecheck::{
type_inferencer::{FunctionData, Inferencer}, type_inferencer::{FunctionData, IdentifierInfo, Inferencer},
typedef::{TypeVar, VarMap}, typedef::{TypeVar, VarMap},
}, },
}; };
use super::*;
pub struct ComposerConfig { pub struct ComposerConfig {
pub kernel_ann: Option<&'static str>, pub kernel_ann: Option<&'static str>,
pub kernel_invariant_ann: &'static str, pub kernel_invariant_ann: &'static str,
@ -101,7 +101,8 @@ impl TopLevelComposer {
.iter() .iter()
.map(|def_ast| match *def_ast.0.read() { .map(|def_ast| match *def_ast.0.read() {
TopLevelDef::Class { name, .. } => name.to_string(), TopLevelDef::Class { name, .. } => name.to_string(),
TopLevelDef::Function { simple_name, .. } => simple_name.to_string(), TopLevelDef::Function { simple_name, .. }
| TopLevelDef::Variable { simple_name, .. } => simple_name.to_string(),
}) })
.collect_vec(); .collect_vec();
@ -381,13 +382,87 @@ impl TopLevelComposer {
)) ))
} }
ast::StmtKind::Assign { .. } => {
// Assignment statements can assign to (and therefore create) more than one
// variable, but this function only allows returning one set of symbol information.
// We want to avoid changing this to return a `Vec` of symbol info, as this would
// require `iter().next().unwrap()` on every variable created from a non-Assign
// statement.
//
// Make callers use `register_top_level_var` instead, as it provides more
// fine-grained control over which symbols to register, while also simplifying the
// usage of this function.
panic!("Registration of top-level Assign statements must use TopLevelComposer::register_top_level_var (at {})", ast.location);
}
ast::StmtKind::AnnAssign { target, annotation, .. } => {
let ExprKind::Name { id: name, .. } = target.node else {
return Err(format!(
"global variable declaration must be an identifier (at {})",
target.location
));
};
self.register_top_level_var(
name,
Some(annotation.as_ref().clone()),
resolver,
mod_path,
target.location,
)
}
_ => Err(format!( _ => Err(format!(
"registrations of constructs other than top level classes/functions are not supported (at {})", "registrations of constructs other than top level classes/functions/variables are not supported (at {})",
ast.location ast.location
)), )),
} }
} }
/// Registers a top-level variable with the given `name` into the composer.
///
/// `annotation` - The type annotation of the top-level variable, or [`None`] if no type
/// annotation is provided.
/// `location` - The location of the top-level variable.
pub fn register_top_level_var(
&mut self,
name: Ident,
annotation: Option<Expr>,
resolver: Option<Arc<dyn SymbolResolver + Send + Sync>>,
mod_path: &str,
location: Location,
) -> Result<(StrRef, DefinitionId, Option<Type>), String> {
if self.keyword_list.contains(&name) {
return Err(format!("cannot use keyword `{name}` as a class name (at {location})"));
}
let global_var_name =
if mod_path.is_empty() { name.to_string() } else { format!("{mod_path}.{name}") };
if !self.defined_names.insert(global_var_name.clone()) {
return Err(format!(
"global variable `{global_var_name}` defined twice (at {location})"
));
}
let ty_to_be_unified = self.unifier.get_dummy_var().ty;
self.definition_ast_list.push((
RwLock::new(Self::make_top_level_variable_def(
global_var_name,
name,
// dummy here, unify with correct type later,
ty_to_be_unified,
annotation,
resolver,
Some(location),
))
.into(),
None,
));
Ok((name, DefinitionId(self.definition_ast_list.len() - 1), Some(ty_to_be_unified)))
}
pub fn start_analysis(&mut self, inference: bool) -> Result<(), HashSet<String>> { pub fn start_analysis(&mut self, inference: bool) -> Result<(), HashSet<String>> {
self.analyze_top_level_class_type_var()?; self.analyze_top_level_class_type_var()?;
self.analyze_top_level_class_bases()?; self.analyze_top_level_class_bases()?;
@ -396,6 +471,7 @@ impl TopLevelComposer {
if inference { if inference {
self.analyze_function_instance()?; self.analyze_function_instance()?;
} }
self.analyze_top_level_variables()?;
Ok(()) Ok(())
} }
@ -433,7 +509,7 @@ impl TopLevelComposer {
// things like `class A(Generic[T, V, ImportedModule.T])` is not supported // things like `class A(Generic[T, V, ImportedModule.T])` is not supported
// i.e. only simple names are allowed in the subscript // i.e. only simple names are allowed in the subscript
// should update the TopLevelDef::Class.typevars and the TypeEnum::TObj.params // should update the TopLevelDef::Class.typevars and the TypeEnum::TObj.params
ast::ExprKind::Subscript { value, slice, .. } ExprKind::Subscript { value, slice, .. }
if { if {
matches!( matches!(
&value.node, &value.node,
@ -449,9 +525,9 @@ impl TopLevelComposer {
} }
is_generic = true; is_generic = true;
let type_var_list: Vec<&ast::Expr<()>>; let type_var_list: Vec<&Expr<()>>;
// if `class A(Generic[T, V, G])` // if `class A(Generic[T, V, G])`
if let ast::ExprKind::Tuple { elts, .. } = &slice.node { if let ExprKind::Tuple { elts, .. } = &slice.node {
type_var_list = elts.iter().collect_vec(); type_var_list = elts.iter().collect_vec();
// `class A(Generic[T])` // `class A(Generic[T])`
} else { } else {
@ -500,6 +576,7 @@ impl TopLevelComposer {
} }
Ok(()) Ok(())
}; };
let mut errors = HashSet::new(); let mut errors = HashSet::new();
for (class_def, class_ast) in def_list.iter().skip(self.builtin_num) { for (class_def, class_ast) in def_list.iter().skip(self.builtin_num) {
if class_ast.is_none() { if class_ast.is_none() {
@ -853,7 +930,6 @@ impl TopLevelComposer {
let unifier = self.unifier.borrow_mut(); let unifier = self.unifier.borrow_mut();
let primitives_store = &self.primitives_ty; let primitives_store = &self.primitives_ty;
let mut errors = HashSet::new();
let mut analyze = |function_def: &Arc<RwLock<TopLevelDef>>, function_ast: &Option<Stmt>| { let mut analyze = |function_def: &Arc<RwLock<TopLevelDef>>, function_ast: &Option<Stmt>| {
let mut function_def = function_def.write(); let mut function_def = function_def.write();
let function_def = &mut *function_def; let function_def = &mut *function_def;
@ -962,15 +1038,15 @@ impl TopLevelComposer {
} }
} }
let arg_with_default: Vec<(&ast::Located<ast::ArgData<()>>, Option<&ast::Expr>)> = let arg_with_default: Vec<(&ast::Located<ast::ArgData<()>>, Option<&Expr>)> = args
args.args .args
.iter() .iter()
.rev() .rev()
.zip( .zip(
args.defaults args.defaults
.iter() .iter()
.rev() .rev()
.map(|x| -> Option<&ast::Expr> { Some(x) }) .map(|x| -> Option<&Expr> { Some(x) })
.chain(std::iter::repeat(None)), .chain(std::iter::repeat(None)),
) )
.collect_vec(); .collect_vec();
@ -1128,6 +1204,8 @@ impl TopLevelComposer {
})?; })?;
Ok(()) Ok(())
}; };
let mut errors = HashSet::new();
for (function_def, function_ast) in def_list.iter().skip(self.builtin_num) { for (function_def, function_ast) in def_list.iter().skip(self.builtin_num) {
if function_ast.is_none() { if function_ast.is_none() {
continue; continue;
@ -1229,7 +1307,7 @@ impl TopLevelComposer {
let arg_with_default: Vec<( let arg_with_default: Vec<(
&ast::Located<ast::ArgData<()>>, &ast::Located<ast::ArgData<()>>,
Option<&ast::Expr>, Option<&Expr>,
)> = args )> = args
.args .args
.iter() .iter()
@ -1238,7 +1316,7 @@ impl TopLevelComposer {
args.defaults args.defaults
.iter() .iter()
.rev() .rev()
.map(|x| -> Option<&ast::Expr> { Some(x) }) .map(|x| -> Option<&Expr> { Some(x) })
.chain(std::iter::repeat(None)), .chain(std::iter::repeat(None)),
) )
.collect_vec(); .collect_vec();
@ -1395,7 +1473,7 @@ impl TopLevelComposer {
.map_err(|e| HashSet::from([e.to_display(unifier).to_string()]))?; .map_err(|e| HashSet::from([e.to_display(unifier).to_string()]))?;
} }
ast::StmtKind::AnnAssign { target, annotation, value, .. } => { ast::StmtKind::AnnAssign { target, annotation, value, .. } => {
if let ast::ExprKind::Name { id: attr, .. } = &target.node { if let ExprKind::Name { id: attr, .. } = &target.node {
if defined_fields.insert(attr.to_string()) { if defined_fields.insert(attr.to_string()) {
let dummy_field_type = unifier.get_dummy_var().ty; let dummy_field_type = unifier.get_dummy_var().ty;
@ -1403,7 +1481,7 @@ impl TopLevelComposer {
None => { None => {
// handle Kernel[T], KernelInvariant[T] // handle Kernel[T], KernelInvariant[T]
let (annotation, mutable) = match &annotation.node { let (annotation, mutable) = match &annotation.node {
ast::ExprKind::Subscript { value, slice, .. } ExprKind::Subscript { value, slice, .. }
if matches!( if matches!(
&value.node, &value.node,
ast::ExprKind::Name { id, .. } if id == &core_config.kernel_invariant_ann.into() ast::ExprKind::Name { id, .. } if id == &core_config.kernel_invariant_ann.into()
@ -1411,7 +1489,7 @@ impl TopLevelComposer {
{ {
(slice, false) (slice, false)
} }
ast::ExprKind::Subscript { value, slice, .. } ExprKind::Subscript { value, slice, .. }
if matches!( if matches!(
&value.node, &value.node,
ast::ExprKind::Name { id, .. } if core_config.kernel_ann.map_or(false, |c| id == &c.into()) ast::ExprKind::Name { id, .. } if core_config.kernel_ann.map_or(false, |c| id == &c.into())
@ -1429,13 +1507,13 @@ impl TopLevelComposer {
Some(boxed_expr) => { Some(boxed_expr) => {
// Class attributes are set as immutable regardless // Class attributes are set as immutable regardless
let (annotation, _) = match &annotation.node { let (annotation, _) = match &annotation.node {
ast::ExprKind::Subscript { slice, .. } => (slice, false), ExprKind::Subscript { slice, .. } => (slice, false),
_ if core_config.kernel_ann.is_none() => (annotation, false), _ if core_config.kernel_ann.is_none() => (annotation, false),
_ => continue, _ => continue,
}; };
match &**boxed_expr { match &**boxed_expr {
ast::Located {location: _, custom: (), node: ast::ExprKind::Constant { value: v, kind: _ }} => { ast::Located {location: _, custom: (), node: ExprKind::Constant { value: v, kind: _ }} => {
// Restricting the types allowed to be defined as class attributes // Restricting the types allowed to be defined as class attributes
match v { match v {
ast::Constant::Bool(_) | ast::Constant::Str(_) | ast::Constant::Int(_) | ast::Constant::Float(_) => {} ast::Constant::Bool(_) | ast::Constant::Str(_) | ast::Constant::Int(_) | ast::Constant::Float(_) => {}
@ -1702,7 +1780,6 @@ impl TopLevelComposer {
} }
} }
let mut errors = HashSet::new();
let mut analyze = |i, def: &Arc<RwLock<TopLevelDef>>, ast: &Option<Stmt>| { let mut analyze = |i, def: &Arc<RwLock<TopLevelDef>>, ast: &Option<Stmt>| {
let class_def = def.read(); let class_def = def.read();
if let TopLevelDef::Class { if let TopLevelDef::Class {
@ -1845,6 +1922,8 @@ impl TopLevelComposer {
} }
Ok(()) Ok(())
}; };
let mut errors = HashSet::new();
for (i, (def, ast)) in definition_ast_list.iter().enumerate().skip(self.builtin_num) { for (i, (def, ast)) in definition_ast_list.iter().enumerate().skip(self.builtin_num) {
if ast.is_none() { if ast.is_none() {
continue; continue;
@ -1882,20 +1961,20 @@ impl TopLevelComposer {
if ast.is_none() { if ast.is_none() {
return Ok(()); return Ok(());
} }
let mut function_def = def.write();
if let TopLevelDef::Function { let (name, simple_name, signature, resolver) = {
instance_to_stmt, let function_def = def.read();
instance_to_symbol, let TopLevelDef::Function { name, simple_name, signature, resolver, .. } =
name, &*function_def
simple_name, else {
signature, return Ok(());
resolver, };
..
} = &mut *function_def (name.clone(), *simple_name, *signature, resolver.clone())
{ };
let signature_ty_enum = unifier.get_ty(*signature);
let TypeEnum::TFunc(FunSignature { args, ret, vars, .. }) = let signature_ty_enum = unifier.get_ty(signature);
signature_ty_enum.as_ref() let TypeEnum::TFunc(FunSignature { args, ret, vars, .. }) = signature_ty_enum.as_ref()
else { else {
unreachable!("must be typeenum::tfunc") unreachable!("must be typeenum::tfunc")
}; };
@ -2003,11 +2082,11 @@ impl TopLevelComposer {
}) })
}; };
let mut identifiers = { let mut identifiers = {
let mut result: HashSet<_> = HashSet::new(); let mut result = HashMap::new();
if self_type.is_some() { if self_type.is_some() {
result.insert("self".into()); result.insert("self".into(), IdentifierInfo::default());
} }
result.extend(inst_args.iter().map(|x| x.name)); result.extend(inst_args.iter().map(|x| (x.name, IdentifierInfo::default())));
result result
}; };
let mut calls: HashMap<CodeLocation, CallId> = HashMap::new(); let mut calls: HashMap<CodeLocation, CallId> = HashMap::new();
@ -2044,33 +2123,43 @@ impl TopLevelComposer {
else { else {
unreachable!("must be function def ast") unreachable!("must be function def ast")
}; };
if !decorator_list.is_empty()
&& matches!(&decorator_list[0].node,
ast::ExprKind::Name{ id, .. } if id == &"extern".into())
{
instance_to_symbol.insert(String::new(), simple_name.to_string());
continue;
}
if !decorator_list.is_empty()
&& matches!(&decorator_list[0].node,
ast::ExprKind::Name{ id, .. } if id == &"rpc".into())
{
instance_to_symbol.insert(String::new(), simple_name.to_string());
continue;
}
if !decorator_list.is_empty() { if !decorator_list.is_empty() {
if let ast::ExprKind::Call { func, .. } = &decorator_list[0].node { if matches!(&decorator_list[0].node, ExprKind::Name { id, .. } if id == &"extern".into())
if matches!(&func.node,
ast::ExprKind::Name{ id, .. } if id == &"rpc".into())
{ {
let TopLevelDef::Function { instance_to_symbol, .. } = &mut *def.write()
else {
unreachable!()
};
instance_to_symbol.insert(String::new(), simple_name.to_string());
continue;
}
if matches!(&decorator_list[0].node, ExprKind::Name { id, .. } if id == &"rpc".into())
{
let TopLevelDef::Function { instance_to_symbol, .. } = &mut *def.write()
else {
unreachable!()
};
instance_to_symbol.insert(String::new(), simple_name.to_string());
continue;
}
if let ExprKind::Call { func, .. } = &decorator_list[0].node {
if matches!(&func.node, ExprKind::Name { id, .. } if id == &"rpc".into()) {
let TopLevelDef::Function { instance_to_symbol, .. } =
&mut *def.write()
else {
unreachable!()
};
instance_to_symbol.insert(String::new(), simple_name.to_string()); instance_to_symbol.insert(String::new(), simple_name.to_string());
continue; continue;
} }
} }
} }
let fun_body = body let fun_body =
.into_iter() body.into_iter()
.map(|b| inferencer.fold_stmt(b)) .map(|b| inferencer.fold_stmt(b))
.collect::<Result<Vec<_>, _>>()?; .collect::<Result<Vec<_>, _>>()?;
@ -2140,6 +2229,9 @@ impl TopLevelComposer {
)])); )]));
} }
let TopLevelDef::Function { instance_to_stmt, .. } = &mut *def.write() else {
unreachable!()
};
instance_to_stmt.insert( instance_to_stmt.insert(
get_subst_key( get_subst_key(
unifier, unifier,
@ -2155,10 +2247,10 @@ impl TopLevelComposer {
}, },
); );
} }
}
Ok(()) Ok(())
}; };
for (id, (def, ast)) in self.definition_ast_list.iter().enumerate().skip(self.builtin_num) { for (id, (def, ast)) in self.definition_ast_list.iter().enumerate().skip(self.builtin_num) {
if ast.is_none() { if ast.is_none() {
continue; continue;
@ -2172,4 +2264,59 @@ impl TopLevelComposer {
} }
Ok(()) Ok(())
} }
/// Step 6. Analyze and populate the types of global variables.
fn analyze_top_level_variables(&mut self) -> Result<(), HashSet<String>> {
let def_list = &self.definition_ast_list;
let temp_def_list = self.extract_def_list();
let unifier = &mut self.unifier;
let primitives_store = &self.primitives_ty;
let mut analyze = |variable_def: &Arc<RwLock<TopLevelDef>>| -> Result<_, HashSet<String>> {
let TopLevelDef::Variable { ty: dummy_ty, ty_decl, resolver, loc, .. } =
&*variable_def.read()
else {
// not top level variable def, skip
return Ok(());
};
let resolver = &**resolver.as_ref().unwrap();
if let Some(ty_decl) = ty_decl {
let ty_annotation = parse_ast_to_type_annotation_kinds(
resolver,
&temp_def_list,
unifier,
primitives_store,
ty_decl,
HashMap::new(),
)?;
let ty_from_ty_annotation = get_type_from_type_annotation_kinds(
&temp_def_list,
unifier,
primitives_store,
&ty_annotation,
&mut None,
)?;
unifier.unify(*dummy_ty, ty_from_ty_annotation).map_err(|e| {
HashSet::from([e.at(Some(loc.unwrap())).to_display(unifier).to_string()])
})?;
}
Ok(())
};
let mut errors = HashSet::new();
for (variable_def, _) in def_list.iter().skip(self.builtin_num) {
if let Err(e) = analyze(variable_def) {
errors.extend(e);
}
}
if !errors.is_empty() {
return Err(errors);
}
Ok(())
}
} }

View File

@ -1,14 +1,15 @@
use std::convert::TryInto; use std::convert::TryInto;
use crate::symbol_resolver::SymbolValue;
use crate::toplevel::numpy::unpack_ndarray_var_tys;
use crate::typecheck::typedef::{into_var_map, iter_type_vars, Mapping, TypeVarId, VarMap};
use ast::ExprKind;
use nac3parser::ast::{Constant, Location};
use strum::IntoEnumIterator; use strum::IntoEnumIterator;
use strum_macros::EnumIter; use strum_macros::EnumIter;
use super::*; use nac3parser::ast::{Constant, ExprKind, Location};
use super::{numpy::unpack_ndarray_var_tys, *};
use crate::{
symbol_resolver::SymbolValue,
typecheck::typedef::{into_var_map, iter_type_vars, Mapping, TypeVarId, VarMap},
};
/// All primitive types and functions in nac3core. /// All primitive types and functions in nac3core.
#[derive(Clone, Copy, Debug, EnumIter, PartialEq, Eq)] #[derive(Clone, Copy, Debug, EnumIter, PartialEq, Eq)]
@ -388,6 +389,9 @@ impl TopLevelDef {
r r
} }
), ),
TopLevelDef::Variable { name, ty, .. } => {
format!("Variable {{ name: {name:?}, ty: {:?} }}", unifier.stringify(*ty),)
}
} }
} }
} }
@ -589,6 +593,18 @@ impl TopLevelComposer {
} }
} }
#[must_use]
pub fn make_top_level_variable_def(
name: String,
simple_name: StrRef,
ty: Type,
ty_decl: Option<Expr>,
resolver: Option<Arc<dyn SymbolResolver + Send + Sync>>,
loc: Option<Location>,
) -> TopLevelDef {
TopLevelDef::Variable { name, simple_name, ty, ty_decl, resolver, loc }
}
#[must_use] #[must_use]
pub fn make_class_method_name(mut class_name: String, method_name: &str) -> String { pub fn make_class_method_name(mut class_name: String, method_name: &str) -> String {
class_name.push('.'); class_name.push('.');
@ -1118,3 +1134,23 @@ pub fn arraylike_get_ndims(unifier: &mut Unifier, ty: Type) -> u64 {
_ => 0, _ => 0,
} }
} }
/// Extract an ndarray's `ndims` [type][`Type`] in `u64`. Panic if not possible.
/// The `ndims` must only contain 1 value.
#[must_use]
pub fn extract_ndims(unifier: &Unifier, ndims_ty: Type) -> u64 {
let ndims_ty_enum = unifier.get_ty_immutable(ndims_ty);
let TypeEnum::TLiteral { values, .. } = &*ndims_ty_enum else {
panic!("ndims_ty should be a TLiteral");
};
assert_eq!(values.len(), 1, "ndims_ty TLiteral should only contain 1 value");
let ndims = values[0].clone();
u64::try_from(ndims).unwrap()
}
/// Return an ndarray's `ndims` as a typechecker [`Type`] from its `u64` value.
pub fn create_ndims(unifier: &mut Unifier, ndims: u64) -> Type {
unifier.get_fresh_literal(vec![SymbolValue::U64(ndims)], None)
}

View File

@ -6,36 +6,36 @@ use std::{
sync::Arc, sync::Arc,
}; };
use super::codegen::CodeGenContext;
use super::typecheck::type_inferencer::PrimitiveStore;
use super::typecheck::typedef::{
FunSignature, FuncArg, SharedUnifier, Type, TypeEnum, Unifier, VarMap,
};
use crate::{
codegen::CodeGenerator,
symbol_resolver::{SymbolResolver, ValueEnum},
typecheck::{
type_inferencer::CodeLocation,
typedef::{CallId, TypeVarId},
},
};
use inkwell::values::BasicValueEnum; use inkwell::values::BasicValueEnum;
use itertools::Itertools; use itertools::Itertools;
use nac3parser::ast::{self, Location, Stmt, StrRef};
use parking_lot::RwLock; use parking_lot::RwLock;
#[derive(PartialEq, Eq, PartialOrd, Ord, Clone, Copy, Hash, Debug)] use nac3parser::ast::{self, Expr, Location, Stmt, StrRef};
pub struct DefinitionId(pub usize);
use crate::{
codegen::{CodeGenContext, CodeGenerator},
symbol_resolver::{SymbolResolver, ValueEnum},
typecheck::{
type_inferencer::{CodeLocation, PrimitiveStore},
typedef::{
CallId, FunSignature, FuncArg, SharedUnifier, Type, TypeEnum, TypeVarId, Unifier,
VarMap,
},
},
};
use composer::*;
use type_annotation::*;
pub mod builtins; pub mod builtins;
pub mod composer; pub mod composer;
pub mod helper; pub mod helper;
pub mod numpy; pub mod numpy;
pub mod type_annotation;
use composer::*;
use type_annotation::*;
#[cfg(test)] #[cfg(test)]
mod test; mod test;
pub mod type_annotation;
#[derive(PartialEq, Eq, PartialOrd, Ord, Clone, Copy, Hash, Debug)]
pub struct DefinitionId(pub usize);
type GenCallCallback = dyn for<'ctx, 'a> Fn( type GenCallCallback = dyn for<'ctx, 'a> Fn(
&mut CodeGenContext<'ctx, 'a>, &mut CodeGenContext<'ctx, 'a>,
@ -148,6 +148,25 @@ pub enum TopLevelDef {
/// Definition location. /// Definition location.
loc: Option<Location>, loc: Option<Location>,
}, },
Variable {
/// Qualified name of the global variable, should be unique globally.
name: String,
/// Simple name, the same as in method/function definition.
simple_name: StrRef,
/// Type of the global variable.
ty: Type,
/// The declared type of the global variable, or [`None`] if no type annotation is provided.
ty_decl: Option<Expr>,
/// Symbol resolver of the module defined the class.
resolver: Option<Arc<dyn SymbolResolver + Send + Sync>>,
/// Definition location.
loc: Option<Location>,
},
} }
pub struct TopLevelContext { pub struct TopLevelContext {

View File

@ -1,11 +1,10 @@
use crate::{ use itertools::Itertools;
toplevel::helper::PrimDef,
typecheck::{ use super::helper::PrimDef;
use crate::typecheck::{
type_inferencer::PrimitiveStore, type_inferencer::PrimitiveStore,
typedef::{Type, TypeEnum, TypeVarId, Unifier, VarMap}, typedef::{Type, TypeEnum, TypeVarId, Unifier, VarMap},
},
}; };
use itertools::Itertools;
/// Creates a `ndarray` [`Type`] with the given type arguments. /// Creates a `ndarray` [`Type`] with the given type arguments.
/// ///

View File

@ -1,21 +1,23 @@
use super::*; use std::{collections::HashMap, sync::Arc};
use crate::toplevel::helper::PrimDef;
use crate::typecheck::typedef::into_var_map; use indoc::indoc;
use parking_lot::Mutex;
use test_case::test_case;
use nac3parser::{
ast::{fold::Fold, FileName},
parser::parse_program,
};
use super::{helper::PrimDef, DefinitionId, *};
use crate::{ use crate::{
codegen::CodeGenContext, codegen::CodeGenContext,
symbol_resolver::{SymbolResolver, ValueEnum}, symbol_resolver::{SymbolResolver, ValueEnum},
toplevel::DefinitionId,
typecheck::{ typecheck::{
type_inferencer::PrimitiveStore, type_inferencer::PrimitiveStore,
typedef::{Type, Unifier}, typedef::{into_var_map, Type, Unifier},
}, },
}; };
use indoc::indoc;
use nac3parser::ast::FileName;
use nac3parser::{ast::fold::Fold, parser::parse_program};
use parking_lot::Mutex;
use std::{collections::HashMap, sync::Arc};
use test_case::test_case;
struct ResolverInternal { struct ResolverInternal {
id_to_type: Mutex<HashMap<StrRef, Type>>, id_to_type: Mutex<HashMap<StrRef, Type>>,
@ -62,6 +64,7 @@ impl SymbolResolver for Resolver {
&self, &self,
_: StrRef, _: StrRef,
_: &mut CodeGenContext<'ctx, '_>, _: &mut CodeGenContext<'ctx, '_>,
_: &mut dyn CodeGenerator,
) -> Option<ValueEnum<'ctx>> { ) -> Option<ValueEnum<'ctx>> {
unimplemented!() unimplemented!()
} }

View File

@ -1,10 +1,13 @@
use super::*;
use crate::symbol_resolver::SymbolValue;
use crate::toplevel::helper::{PrimDef, PrimDefDetails};
use crate::typecheck::typedef::VarMap;
use nac3parser::ast::Constant;
use strum::IntoEnumIterator; use strum::IntoEnumIterator;
use nac3parser::ast::Constant;
use super::{
helper::{PrimDef, PrimDefDetails},
*,
};
use crate::{symbol_resolver::SymbolValue, typecheck::typedef::VarMap};
#[derive(Clone, Debug)] #[derive(Clone, Debug)]
pub enum TypeAnnotation { pub enum TypeAnnotation {
Primitive(Type), Primitive(Type),

View File

@ -1,13 +1,19 @@
use crate::toplevel::helper::PrimDef; use std::{
collections::{HashMap, HashSet},
iter::once,
};
use super::type_inferencer::Inferencer;
use super::typedef::{Type, TypeEnum};
use nac3parser::ast::{ use nac3parser::ast::{
self, Constant, Expr, ExprKind, self, Constant, Expr, ExprKind,
Operator::{LShift, RShift}, Operator::{LShift, RShift},
Stmt, StmtKind, StrRef, Stmt, StmtKind, StrRef,
}; };
use std::{collections::HashSet, iter::once};
use super::{
type_inferencer::{DeclarationSource, IdentifierInfo, Inferencer},
typedef::{Type, TypeEnum},
};
use crate::toplevel::helper::PrimDef;
impl<'a> Inferencer<'a> { impl<'a> Inferencer<'a> {
fn should_have_value(&mut self, expr: &Expr<Option<Type>>) -> Result<(), HashSet<String>> { fn should_have_value(&mut self, expr: &Expr<Option<Type>>) -> Result<(), HashSet<String>> {
@ -21,15 +27,29 @@ impl<'a> Inferencer<'a> {
fn check_pattern( fn check_pattern(
&mut self, &mut self,
pattern: &Expr<Option<Type>>, pattern: &Expr<Option<Type>>,
defined_identifiers: &mut HashSet<StrRef>, defined_identifiers: &mut HashMap<StrRef, IdentifierInfo>,
) -> Result<(), HashSet<String>> { ) -> Result<(), HashSet<String>> {
match &pattern.node { match &pattern.node {
ExprKind::Name { id, .. } if id == &"none".into() => { ExprKind::Name { id, .. } if id == &"none".into() => {
Err(HashSet::from([format!("cannot assign to a `none` (at {})", pattern.location)])) Err(HashSet::from([format!("cannot assign to a `none` (at {})", pattern.location)]))
} }
ExprKind::Name { id, .. } => { ExprKind::Name { id, .. } => {
if !defined_identifiers.contains(id) { // If `id` refers to a declared symbol, reject this assignment if it is used in the
defined_identifiers.insert(*id); // context of an (implicit) global variable
if let Some(id_info) = defined_identifiers.get(id) {
if matches!(
id_info.source,
DeclarationSource::Global { is_explicit: Some(false) }
) {
return Err(HashSet::from([format!(
"cannot access local variable '{id}' before it is declared (at {})",
pattern.location
)]));
}
}
if !defined_identifiers.contains_key(id) {
defined_identifiers.insert(*id, IdentifierInfo::default());
} }
self.should_have_value(pattern)?; self.should_have_value(pattern)?;
Ok(()) Ok(())
@ -69,7 +89,7 @@ impl<'a> Inferencer<'a> {
fn check_expr( fn check_expr(
&mut self, &mut self,
expr: &Expr<Option<Type>>, expr: &Expr<Option<Type>>,
defined_identifiers: &mut HashSet<StrRef>, defined_identifiers: &mut HashMap<StrRef, IdentifierInfo>,
) -> Result<(), HashSet<String>> { ) -> Result<(), HashSet<String>> {
// there are some cases where the custom field is None // there are some cases where the custom field is None
if let Some(ty) = &expr.custom { if let Some(ty) = &expr.custom {
@ -90,7 +110,7 @@ impl<'a> Inferencer<'a> {
return Ok(()); return Ok(());
} }
self.should_have_value(expr)?; self.should_have_value(expr)?;
if !defined_identifiers.contains(id) { if !defined_identifiers.contains_key(id) {
match self.function_data.resolver.get_symbol_type( match self.function_data.resolver.get_symbol_type(
self.unifier, self.unifier,
&self.top_level.definitions.read(), &self.top_level.definitions.read(),
@ -98,7 +118,22 @@ impl<'a> Inferencer<'a> {
*id, *id,
) { ) {
Ok(_) => { Ok(_) => {
self.defined_identifiers.insert(*id); let is_global = self.is_id_global(*id);
defined_identifiers.insert(
*id,
IdentifierInfo {
source: match is_global {
Some(true) => {
DeclarationSource::Global { is_explicit: Some(false) }
}
Some(false) => {
DeclarationSource::Global { is_explicit: None }
}
None => DeclarationSource::Local,
},
},
);
} }
Err(e) => { Err(e) => {
return Err(HashSet::from([format!( return Err(HashSet::from([format!(
@ -171,9 +206,7 @@ impl<'a> Inferencer<'a> {
let mut defined_identifiers = defined_identifiers.clone(); let mut defined_identifiers = defined_identifiers.clone();
for arg in &args.args { for arg in &args.args {
// TODO: should we check the types here? // TODO: should we check the types here?
if !defined_identifiers.contains(&arg.node.arg) { defined_identifiers.entry(arg.node.arg).or_default();
defined_identifiers.insert(arg.node.arg);
}
} }
self.check_expr(body, &mut defined_identifiers)?; self.check_expr(body, &mut defined_identifiers)?;
} }
@ -236,7 +269,7 @@ impl<'a> Inferencer<'a> {
fn check_stmt( fn check_stmt(
&mut self, &mut self,
stmt: &Stmt<Option<Type>>, stmt: &Stmt<Option<Type>>,
defined_identifiers: &mut HashSet<StrRef>, defined_identifiers: &mut HashMap<StrRef, IdentifierInfo>,
) -> Result<bool, HashSet<String>> { ) -> Result<bool, HashSet<String>> {
match &stmt.node { match &stmt.node {
StmtKind::For { target, iter, body, orelse, .. } => { StmtKind::For { target, iter, body, orelse, .. } => {
@ -262,9 +295,11 @@ impl<'a> Inferencer<'a> {
let body_returned = self.check_block(body, &mut body_identifiers)?; let body_returned = self.check_block(body, &mut body_identifiers)?;
let orelse_returned = self.check_block(orelse, &mut orelse_identifiers)?; let orelse_returned = self.check_block(orelse, &mut orelse_identifiers)?;
for ident in &body_identifiers { for ident in body_identifiers.keys() {
if !defined_identifiers.contains(ident) && orelse_identifiers.contains(ident) { if !defined_identifiers.contains_key(ident)
defined_identifiers.insert(*ident); && orelse_identifiers.contains_key(ident)
{
defined_identifiers.insert(*ident, IdentifierInfo::default());
} }
} }
Ok(body_returned && orelse_returned) Ok(body_returned && orelse_returned)
@ -295,7 +330,7 @@ impl<'a> Inferencer<'a> {
let mut defined_identifiers = defined_identifiers.clone(); let mut defined_identifiers = defined_identifiers.clone();
let ast::ExcepthandlerKind::ExceptHandler { name, body, .. } = &handler.node; let ast::ExcepthandlerKind::ExceptHandler { name, body, .. } = &handler.node;
if let Some(name) = name { if let Some(name) = name {
defined_identifiers.insert(*name); defined_identifiers.insert(*name, IdentifierInfo::default());
} }
self.check_block(body, &mut defined_identifiers)?; self.check_block(body, &mut defined_identifiers)?;
} }
@ -359,6 +394,44 @@ impl<'a> Inferencer<'a> {
} }
Ok(true) Ok(true)
} }
StmtKind::Global { names, .. } => {
for id in names {
if let Some(id_info) = defined_identifiers.get(id) {
if id_info.source == DeclarationSource::Local {
return Err(HashSet::from([format!(
"name '{id}' is referenced prior to global declaration at {}",
stmt.location,
)]));
}
continue;
}
match self.function_data.resolver.get_symbol_type(
self.unifier,
&self.top_level.definitions.read(),
self.primitives,
*id,
) {
Ok(_) => {
defined_identifiers.insert(
*id,
IdentifierInfo {
source: DeclarationSource::Global { is_explicit: Some(true) },
},
);
}
Err(e) => {
return Err(HashSet::from([format!(
"type error at identifier `{}` ({}) at {}",
id, e, stmt.location
)]))
}
}
}
Ok(false)
}
// break, raise, etc. // break, raise, etc.
_ => Ok(false), _ => Ok(false),
} }
@ -367,7 +440,7 @@ impl<'a> Inferencer<'a> {
pub fn check_block( pub fn check_block(
&mut self, &mut self,
block: &[Stmt<Option<Type>>], block: &[Stmt<Option<Type>>],
defined_identifiers: &mut HashSet<StrRef>, defined_identifiers: &mut HashMap<StrRef, IdentifierInfo>,
) -> Result<bool, HashSet<String>> { ) -> Result<bool, HashSet<String>> {
let mut ret = false; let mut ret = false;
for stmt in block { for stmt in block {

View File

@ -1,17 +1,21 @@
use crate::symbol_resolver::SymbolValue; use std::{cmp::max, collections::HashMap, rc::Rc};
use crate::toplevel::helper::PrimDef;
use crate::toplevel::numpy::{make_ndarray_ty, unpack_ndarray_var_tys}; use itertools::{iproduct, Itertools};
use crate::typecheck::{ use strum::IntoEnumIterator;
use nac3parser::ast::{Cmpop, Operator, StrRef, Unaryop};
use super::{
type_inferencer::*, type_inferencer::*,
typedef::{FunSignature, FuncArg, Type, TypeEnum, Unifier, VarMap}, typedef::{FunSignature, FuncArg, Type, TypeEnum, Unifier, VarMap},
}; };
use itertools::{iproduct, Itertools}; use crate::{
use nac3parser::ast::StrRef; symbol_resolver::SymbolValue,
use nac3parser::ast::{Cmpop, Operator, Unaryop}; toplevel::{
use std::cmp::max; helper::PrimDef,
use std::collections::HashMap; numpy::{make_ndarray_ty, unpack_ndarray_var_tys},
use std::rc::Rc; },
use strum::IntoEnumIterator; };
/// The variant of a binary operator. /// The variant of a binary operator.
#[derive(Debug, Clone, Copy, PartialEq, Eq)] #[derive(Debug, Clone, Copy, PartialEq, Eq)]

View File

@ -1,14 +1,13 @@
use std::collections::HashMap; use std::{collections::HashMap, fmt::Display};
use std::fmt::Display;
use crate::typecheck::{magic_methods::HasOpInfo, typedef::TypeEnum}; use itertools::Itertools;
use nac3parser::ast::{Cmpop, Location, StrRef};
use super::{ use super::{
magic_methods::Binop, magic_methods::{Binop, HasOpInfo},
typedef::{RecordKey, Type, Unifier}, typedef::{RecordKey, Type, TypeEnum, Unifier},
}; };
use itertools::Itertools;
use nac3parser::ast::{Cmpop, Location, StrRef};
#[derive(Debug, Clone)] #[derive(Debug, Clone)]
pub enum TypeErrorKind { pub enum TypeErrorKind {

View File

@ -1,32 +1,36 @@
use std::cmp::max; use std::{
use std::collections::{HashMap, HashSet}; cell::RefCell,
use std::convert::{From, TryInto}; cmp::max,
use std::iter::once; collections::{HashMap, HashSet},
use std::{cell::RefCell, sync::Arc}; convert::{From, TryInto},
iter::once,
sync::Arc,
};
use itertools::{izip, Itertools};
use nac3parser::ast::{
self,
fold::{self, Fold},
Arguments, Comprehension, ExprContext, ExprKind, Ident, Located, Location, StrRef,
};
use super::{ use super::{
magic_methods::*, magic_methods::*,
type_error::{TypeError, TypeErrorKind}, type_error::{TypeError, TypeErrorKind},
typedef::{ typedef::{
into_var_map, iter_type_vars, Call, CallId, FunSignature, FuncArg, OperatorInfo, into_var_map, iter_type_vars, Call, CallId, FunSignature, FuncArg, Mapping, OperatorInfo,
RecordField, RecordKey, Type, TypeEnum, TypeVar, Unifier, VarMap, RecordField, RecordKey, Type, TypeEnum, TypeVar, Unifier, VarMap,
}, },
}; };
use crate::toplevel::type_annotation::TypeAnnotation;
use crate::{ use crate::{
symbol_resolver::{SymbolResolver, SymbolValue}, symbol_resolver::{SymbolResolver, SymbolValue},
toplevel::{ toplevel::{
helper::{arraylike_flatten_element_type, arraylike_get_ndims, PrimDef}, helper::{arraylike_flatten_element_type, arraylike_get_ndims, PrimDef},
numpy::{make_ndarray_ty, unpack_ndarray_var_tys}, numpy::{make_ndarray_ty, unpack_ndarray_var_tys},
type_annotation::TypeAnnotation,
TopLevelContext, TopLevelDef, TopLevelContext, TopLevelDef,
}, },
typecheck::typedef::Mapping,
};
use itertools::{izip, Itertools};
use nac3parser::ast::{
self,
fold::{self, Fold},
Arguments, Comprehension, ExprContext, ExprKind, Located, Location, StrRef,
}; };
#[cfg(test)] #[cfg(test)]
@ -84,6 +88,40 @@ impl PrimitiveStore {
} }
} }
/// The location where an identifier declaration refers to.
#[derive(Clone, Copy, Debug, Eq, PartialEq)]
pub enum DeclarationSource {
/// Local scope.
Local,
/// Global scope.
Global {
/// Whether the identifier is declared by the use of `global` statement. This field is
/// [`None`] if the identifier does not refer to a variable.
is_explicit: Option<bool>,
},
}
/// Information regarding a defined identifier.
#[derive(Clone, Copy, Debug)]
pub struct IdentifierInfo {
/// Whether this identifier refers to a global variable.
pub source: DeclarationSource,
}
impl Default for IdentifierInfo {
fn default() -> Self {
IdentifierInfo { source: DeclarationSource::Local }
}
}
impl IdentifierInfo {
#[must_use]
pub fn new() -> IdentifierInfo {
IdentifierInfo::default()
}
}
pub struct FunctionData { pub struct FunctionData {
pub resolver: Arc<dyn SymbolResolver + Send + Sync>, pub resolver: Arc<dyn SymbolResolver + Send + Sync>,
pub return_type: Option<Type>, pub return_type: Option<Type>,
@ -92,7 +130,7 @@ pub struct FunctionData {
pub struct Inferencer<'a> { pub struct Inferencer<'a> {
pub top_level: &'a TopLevelContext, pub top_level: &'a TopLevelContext,
pub defined_identifiers: HashSet<StrRef>, pub defined_identifiers: HashMap<StrRef, IdentifierInfo>,
pub function_data: &'a mut FunctionData, pub function_data: &'a mut FunctionData,
pub unifier: &'a mut Unifier, pub unifier: &'a mut Unifier,
pub primitives: &'a PrimitiveStore, pub primitives: &'a PrimitiveStore,
@ -224,9 +262,7 @@ impl<'a> Fold<()> for Inferencer<'a> {
handler.location, handler.location,
)); ));
if let Some(name) = name { if let Some(name) = name {
if !self.defined_identifiers.contains(&name) { self.defined_identifiers.entry(name).or_default();
self.defined_identifiers.insert(name);
}
if let Some(old_typ) = self.variable_mapping.insert(name, typ) { if let Some(old_typ) = self.variable_mapping.insert(name, typ) {
let loc = handler.location; let loc = handler.location;
self.unifier.unify(old_typ, typ).map_err(|e| { self.unifier.unify(old_typ, typ).map_err(|e| {
@ -378,6 +414,7 @@ impl<'a> Fold<()> for Inferencer<'a> {
| ast::StmtKind::Continue { .. } | ast::StmtKind::Continue { .. }
| ast::StmtKind::Expr { .. } | ast::StmtKind::Expr { .. }
| ast::StmtKind::For { .. } | ast::StmtKind::For { .. }
| ast::StmtKind::Global { .. }
| ast::StmtKind::Pass { .. } | ast::StmtKind::Pass { .. }
| ast::StmtKind::Try { .. } => {} | ast::StmtKind::Try { .. } => {}
ast::StmtKind::If { test, .. } | ast::StmtKind::While { test, .. } => { ast::StmtKind::If { test, .. } | ast::StmtKind::While { test, .. } => {
@ -499,9 +536,8 @@ impl<'a> Fold<()> for Inferencer<'a> {
} }
ast::StmtKind::Assert { test, msg, .. } => { ast::StmtKind::Assert { test, msg, .. } => {
self.unify(test.custom.unwrap(), self.primitives.bool, &test.location)?; self.unify(test.custom.unwrap(), self.primitives.bool, &test.location)?;
match msg { if let Some(m) = msg {
Some(m) => self.unify(m.custom.unwrap(), self.primitives.str, &m.location)?, self.unify(m.custom.unwrap(), self.primitives.str, &m.location)?;
None => (),
} }
} }
_ => return report_error("Unsupported statement type", stmt.location), _ => return report_error("Unsupported statement type", stmt.location),
@ -549,7 +585,7 @@ impl<'a> Fold<()> for Inferencer<'a> {
unreachable!("must be tobj") unreachable!("must be tobj")
} }
} else { } else {
if !self.defined_identifiers.contains(id) { if !self.defined_identifiers.contains_key(id) {
match self.function_data.resolver.get_symbol_type( match self.function_data.resolver.get_symbol_type(
self.unifier, self.unifier,
&self.top_level.definitions.read(), &self.top_level.definitions.read(),
@ -557,7 +593,22 @@ impl<'a> Fold<()> for Inferencer<'a> {
*id, *id,
) { ) {
Ok(_) => { Ok(_) => {
self.defined_identifiers.insert(*id); let is_global = self.is_id_global(*id);
self.defined_identifiers.insert(
*id,
IdentifierInfo {
source: match is_global {
Some(true) => DeclarationSource::Global {
is_explicit: Some(false),
},
Some(false) => {
DeclarationSource::Global { is_explicit: None }
}
None => DeclarationSource::Local,
},
},
);
} }
Err(e) => { Err(e) => {
return report_error( return report_error(
@ -622,8 +673,8 @@ impl<'a> Inferencer<'a> {
fn infer_pattern<T>(&mut self, pattern: &ast::Expr<T>) -> Result<(), InferenceError> { fn infer_pattern<T>(&mut self, pattern: &ast::Expr<T>) -> Result<(), InferenceError> {
match &pattern.node { match &pattern.node {
ExprKind::Name { id, .. } => { ExprKind::Name { id, .. } => {
if !self.defined_identifiers.contains(id) { if !self.defined_identifiers.contains_key(id) {
self.defined_identifiers.insert(*id); self.defined_identifiers.insert(*id, IdentifierInfo::default());
} }
Ok(()) Ok(())
} }
@ -732,8 +783,8 @@ impl<'a> Inferencer<'a> {
let mut defined_identifiers = self.defined_identifiers.clone(); let mut defined_identifiers = self.defined_identifiers.clone();
for arg in &args.args { for arg in &args.args {
let name = &arg.node.arg; let name = &arg.node.arg;
if !defined_identifiers.contains(name) { if !defined_identifiers.contains_key(name) {
defined_identifiers.insert(*name); defined_identifiers.insert(*name, IdentifierInfo::default());
} }
} }
let fn_args: Vec<_> = args let fn_args: Vec<_> = args
@ -2633,4 +2684,22 @@ impl<'a> Inferencer<'a> {
self.constrain(body.custom.unwrap(), orelse.custom.unwrap(), &body.location)?; self.constrain(body.custom.unwrap(), orelse.custom.unwrap(), &body.location)?;
Ok(body.custom.unwrap()) Ok(body.custom.unwrap())
} }
/// Determines whether the given `id` refers to a global symbol.
///
/// Returns `Some(true)` if `id` refers to a global variable, `Some(false)` if `id` refers to a
/// class/function, and `None` if `id` refers to a local symbol.
pub(super) fn is_id_global(&self, id: Ident) -> Option<bool> {
self.top_level
.definitions
.read()
.iter()
.map(|def| match *def.read() {
TopLevelDef::Class { name, .. } => (name, false),
TopLevelDef::Function { simple_name, .. } => (simple_name, false),
TopLevelDef::Variable { simple_name, .. } => (simple_name, true),
})
.find(|(global, _)| global == &id)
.map(|(_, has_explicit_prop)| has_explicit_prop)
}
} }

View File

@ -1,18 +1,20 @@
use super::super::{magic_methods::with_fields, typedef::*}; use std::iter::zip;
use super::*;
use crate::{
codegen::CodeGenContext,
symbol_resolver::ValueEnum,
toplevel::{helper::PrimDef, DefinitionId, TopLevelDef},
};
use indexmap::IndexMap; use indexmap::IndexMap;
use indoc::indoc; use indoc::indoc;
use nac3parser::ast::FileName;
use nac3parser::parser::parse_program;
use parking_lot::RwLock; use parking_lot::RwLock;
use std::iter::zip;
use test_case::test_case; use test_case::test_case;
use nac3parser::{ast::FileName, parser::parse_program};
use super::*;
use crate::{
codegen::{CodeGenContext, CodeGenerator},
symbol_resolver::ValueEnum,
toplevel::{helper::PrimDef, DefinitionId, TopLevelDef},
typecheck::{magic_methods::with_fields, typedef::*},
};
struct Resolver { struct Resolver {
id_to_type: HashMap<StrRef, Type>, id_to_type: HashMap<StrRef, Type>,
id_to_def: HashMap<StrRef, DefinitionId>, id_to_def: HashMap<StrRef, DefinitionId>,
@ -41,6 +43,7 @@ impl SymbolResolver for Resolver {
&self, &self,
_: StrRef, _: StrRef,
_: &mut CodeGenContext<'ctx, '_>, _: &mut CodeGenContext<'ctx, '_>,
_: &mut dyn CodeGenerator,
) -> Option<ValueEnum<'ctx>> { ) -> Option<ValueEnum<'ctx>> {
unimplemented!() unimplemented!()
} }
@ -517,7 +520,7 @@ impl TestEnvironment {
primitives: &mut self.primitives, primitives: &mut self.primitives,
virtual_checks: &mut self.virtual_checks, virtual_checks: &mut self.virtual_checks,
calls: &mut self.calls, calls: &mut self.calls,
defined_identifiers: HashSet::default(), defined_identifiers: HashMap::default(),
in_handler: false, in_handler: false,
} }
} }
@ -593,8 +596,9 @@ fn test_basic(source: &str, mapping: &HashMap<&str, &str>, virtuals: &[(&str, &s
println!("source:\n{source}"); println!("source:\n{source}");
let mut env = TestEnvironment::new(); let mut env = TestEnvironment::new();
let id_to_name = std::mem::take(&mut env.id_to_name); let id_to_name = std::mem::take(&mut env.id_to_name);
let mut defined_identifiers: HashSet<_> = env.identifier_mapping.keys().copied().collect(); let mut defined_identifiers: HashMap<_, _> =
defined_identifiers.insert("virtual".into()); env.identifier_mapping.keys().copied().map(|id| (id, IdentifierInfo::default())).collect();
defined_identifiers.insert("virtual".into(), IdentifierInfo::default());
let mut inferencer = env.get_inferencer(); let mut inferencer = env.get_inferencer();
inferencer.defined_identifiers.clone_from(&defined_identifiers); inferencer.defined_identifiers.clone_from(&defined_identifiers);
let statements = parse_program(source, FileName::default()).unwrap(); let statements = parse_program(source, FileName::default()).unwrap();
@ -739,8 +743,9 @@ fn test_primitive_magic_methods(source: &str, mapping: &HashMap<&str, &str>) {
println!("source:\n{source}"); println!("source:\n{source}");
let mut env = TestEnvironment::basic_test_env(); let mut env = TestEnvironment::basic_test_env();
let id_to_name = std::mem::take(&mut env.id_to_name); let id_to_name = std::mem::take(&mut env.id_to_name);
let mut defined_identifiers: HashSet<_> = env.identifier_mapping.keys().copied().collect(); let mut defined_identifiers: HashMap<_, _> =
defined_identifiers.insert("virtual".into()); env.identifier_mapping.keys().copied().map(|id| (id, IdentifierInfo::default())).collect();
defined_identifiers.insert("virtual".into(), IdentifierInfo::default());
let mut inferencer = env.get_inferencer(); let mut inferencer = env.get_inferencer();
inferencer.defined_identifiers.clone_from(&defined_identifiers); inferencer.defined_identifiers.clone_from(&defined_identifiers);
let statements = parse_program(source, FileName::default()).unwrap(); let statements = parse_program(source, FileName::default()).unwrap();

View File

@ -1,21 +1,28 @@
use super::magic_methods::{Binop, HasOpInfo}; use std::{
use super::type_error::{TypeError, TypeErrorKind}; borrow::Cow,
use super::unification_table::{UnificationKey, UnificationTable}; cell::RefCell,
use crate::symbol_resolver::SymbolValue; collections::{HashMap, HashSet},
use crate::toplevel::helper::PrimDef; fmt::{self, Display},
use crate::toplevel::{DefinitionId, TopLevelContext, TopLevelDef}; iter::{repeat, zip},
use crate::typecheck::magic_methods::OpInfo; rc::Rc,
use crate::typecheck::type_inferencer::PrimitiveStore; sync::{Arc, Mutex},
};
use indexmap::IndexMap; use indexmap::IndexMap;
use itertools::{repeat_n, Itertools}; use itertools::{repeat_n, Itertools};
use nac3parser::ast::{Cmpop, Location, StrRef, Unaryop}; use nac3parser::ast::{Cmpop, Location, StrRef, Unaryop};
use std::cell::RefCell;
use std::collections::HashMap; use super::{
use std::fmt::{self, Display}; magic_methods::{Binop, HasOpInfo, OpInfo},
use std::iter::{repeat, zip}; type_error::{TypeError, TypeErrorKind},
use std::rc::Rc; type_inferencer::PrimitiveStore,
use std::sync::{Arc, Mutex}; unification_table::{UnificationKey, UnificationTable},
use std::{borrow::Cow, collections::HashSet}; };
use crate::{
symbol_resolver::SymbolValue,
toplevel::{helper::PrimDef, DefinitionId, TopLevelContext, TopLevelDef},
};
#[cfg(test)] #[cfg(test)]
mod test; mod test;

View File

@ -1,10 +1,12 @@
use super::super::magic_methods::with_fields; use std::collections::HashMap;
use super::*;
use indoc::indoc; use indoc::indoc;
use itertools::Itertools; use itertools::Itertools;
use std::collections::HashMap;
use test_case::test_case; use test_case::test_case;
use super::*;
use crate::typecheck::magic_methods::with_fields;
impl Unifier { impl Unifier {
/// Check whether two types are equal. /// Check whether two types are equal.
fn eq(&mut self, a: Type, b: Type) -> bool { fn eq(&mut self, a: Type, b: Type) -> bool {

View File

@ -1,10 +1,4 @@
#![deny( #![deny(future_incompatible, let_underscore, nonstandard_style, clippy::all)]
future_incompatible,
let_underscore,
nonstandard_style,
rust_2024_compatibility,
clippy::all
)]
#![warn(clippy::pedantic)] #![warn(clippy::pedantic)]
#![allow( #![allow(
clippy::cast_possible_truncation, clippy::cast_possible_truncation,
@ -21,13 +15,12 @@
clippy::wildcard_imports clippy::wildcard_imports
)] )]
use std::{collections::HashMap, mem, ptr, slice, str};
use byteorder::{ByteOrder, LittleEndian};
use dwarf::*; use dwarf::*;
use elf::*; use elf::*;
use std::collections::HashMap;
use std::{mem, ptr, slice, str};
extern crate byteorder;
use byteorder::{ByteOrder, LittleEndian};
mod dwarf; mod dwarf;
mod elf; mod elf;

View File

@ -8,15 +8,15 @@ license = "MIT"
edition = "2021" edition = "2021"
[build-dependencies] [build-dependencies]
lalrpop = "0.21" lalrpop = "0.22"
[dependencies] [dependencies]
nac3ast = { path = "../nac3ast" } nac3ast = { path = "../nac3ast" }
lalrpop-util = "0.21" lalrpop-util = "0.22"
log = "0.4" log = "0.4"
unic-emoji-char = "0.9" unic-emoji-char = "0.9"
unic-ucd-ident = "0.9" unic-ucd-ident = "0.9"
unicode_names2 = "1.2" unicode_names2 = "1.3"
phf = { version = "0.11", features = ["macros"] } phf = { version = "0.11", features = ["macros"] }
ahash = "0.8" ahash = "0.8"

View File

@ -1,8 +1,10 @@
use crate::ast::Ident; use crate::{
use crate::ast::Location; ast::{Ident, Location},
use crate::error::*; error::*,
use crate::token::Tok; token::Tok,
};
use lalrpop_util::ParseError; use lalrpop_util::ParseError;
use nac3ast::*; use nac3ast::*;
pub fn make_config_comment( pub fn make_config_comment(

View File

@ -1,13 +1,12 @@
//! Define internal parse error types //! Define internal parse error types
//! The goal is to provide a matching and a safe error API, maksing errors from LALR //! The goal is to provide a matching and a safe error API, maksing errors from LALR
use lalrpop_util::ParseError as LalrpopError;
use crate::ast::Location;
use crate::token::Tok;
use std::error::Error; use std::error::Error;
use std::fmt; use std::fmt;
use lalrpop_util::ParseError as LalrpopError;
use crate::{ast::Location, token::Tok};
/// Represents an error during lexical scanning. /// Represents an error during lexical scanning.
#[derive(Debug, PartialEq)] #[derive(Debug, PartialEq)]
pub struct LexicalError { pub struct LexicalError {

View File

@ -1,12 +1,11 @@
use std::iter; use std::{iter, mem, str};
use std::mem;
use std::str;
use crate::ast::{Constant, ConversionFlag, Expr, ExprKind, Location};
use crate::error::{FStringError, FStringErrorType, ParseError};
use crate::parser::parse_expression;
use self::FStringErrorType::*; use self::FStringErrorType::*;
use crate::{
ast::{Constant, ConversionFlag, Expr, ExprKind, Location},
error::{FStringError, FStringErrorType, ParseError},
parser::parse_expression,
};
struct FStringParser<'a> { struct FStringParser<'a> {
chars: iter::Peekable<str::Chars<'a>>, chars: iter::Peekable<str::Chars<'a>>,

View File

@ -1,8 +1,11 @@
use ahash::RandomState;
use std::collections::HashSet; use std::collections::HashSet;
use crate::ast; use ahash::RandomState;
use crate::error::{LexicalError, LexicalErrorType};
use crate::{
ast,
error::{LexicalError, LexicalErrorType},
};
pub struct ArgumentList { pub struct ArgumentList {
pub args: Vec<ast::Expr>, pub args: Vec<ast::Expr>,

View File

@ -1,17 +1,17 @@
//! This module takes care of lexing python source text. //! This module takes care of lexing python source text.
//! //!
//! This means source code is translated into separate tokens. //! This means source code is translated into separate tokens.
use std::{char, cmp::Ordering, num::IntErrorKind, str::FromStr};
pub use super::token::Tok;
use crate::ast::{FileName, Location};
use crate::error::{LexicalError, LexicalErrorType};
use std::char;
use std::cmp::Ordering;
use std::num::IntErrorKind;
use std::str::FromStr;
use unic_emoji_char::is_emoji_presentation; use unic_emoji_char::is_emoji_presentation;
use unic_ucd_ident::{is_xid_continue, is_xid_start}; use unic_ucd_ident::{is_xid_continue, is_xid_start};
pub use super::token::Tok;
use crate::{
ast::{FileName, Location},
error::{LexicalError, LexicalErrorType},
};
#[derive(Clone, Copy, PartialEq, Debug, Default)] #[derive(Clone, Copy, PartialEq, Debug, Default)]
struct IndentationLevel { struct IndentationLevel {
tabs: usize, tabs: usize,

View File

@ -15,13 +15,7 @@
//! //!
//! ``` //! ```
#![deny( #![deny(future_incompatible, let_underscore, nonstandard_style, clippy::all)]
future_incompatible,
let_underscore,
nonstandard_style,
rust_2024_compatibility,
clippy::all
)]
#![warn(clippy::pedantic)] #![warn(clippy::pedantic)]
#![allow( #![allow(
clippy::enum_glob_use, clippy::enum_glob_use,
@ -49,11 +43,11 @@ lalrpop_mod!(
future_incompatible, future_incompatible,
let_underscore, let_underscore,
nonstandard_style, nonstandard_style,
rust_2024_compatibility,
unused, unused,
clippy::all, clippy::all,
clippy::pedantic clippy::pedantic
)] )]
#[warn(rust_2024_compatibility)]
python python
); );
pub mod config_comment_helper; pub mod config_comment_helper;

View File

@ -5,14 +5,16 @@
//! parse a whole program, a single statement, or a single //! parse a whole program, a single statement, or a single
//! expression. //! expression.
use nac3ast::Location;
use std::iter; use std::iter;
use crate::ast::{self, FileName}; use nac3ast::Location;
use crate::error::ParseError;
use crate::lexer;
pub use crate::mode::Mode; pub use crate::mode::Mode;
use crate::python; use crate::{
ast::{self, FileName},
error::ParseError,
lexer, python,
};
/* /*
* Parse python code. * Parse python code.

View File

@ -1,8 +1,9 @@
//! Different token definitions. //! Different token definitions.
//! Loosely based on token.h from CPython source: //! Loosely based on token.h from CPython source:
use crate::ast;
use std::fmt::{self, Write}; use std::fmt::{self, Write};
use crate::ast;
/// Python source code can be tokenized in a sequence of these tokens. /// Python source code can be tokenized in a sequence of these tokens.
#[derive(Clone, Debug, PartialEq)] #[derive(Clone, Debug, PartialEq)]
pub enum Tok { pub enum Tok {

View File

@ -0,0 +1,31 @@
@extern
def output_int32(x: int32):
...
@extern
def output_int64(x: int64):
...
X: int32 = 0
Y = int64(1)
def f():
global X, Y
X = 1
Y = int64(2)
def run() -> int32:
global X, Y
output_int32(X)
output_int64(Y)
f()
output_int32(X)
output_int64(Y)
X = 0
Y = int64(0)
output_int32(X)
output_int64(Y)
return 0

View File

@ -144,6 +144,7 @@ def test_ndarray_array():
# Copy # Copy
n2_cpy: ndarray[float, 2] = np_array(n2, copy=False) n2_cpy: ndarray[float, 2] = np_array(n2, copy=False)
output_ndarray_float_2(n2_cpy)
n2_cpy.fill(0.0) n2_cpy.fill(0.0)
output_ndarray_float_2(n2_cpy) output_ndarray_float_2(n2_cpy)

View File

@ -1,6 +1,14 @@
use nac3core::nac3parser::ast::{self, StrRef}; use std::{
collections::{HashMap, HashSet},
sync::Arc,
};
use parking_lot::{Mutex, RwLock};
use nac3core::{ use nac3core::{
codegen::CodeGenContext, codegen::{CodeGenContext, CodeGenerator},
inkwell::{module::Linkage, values::BasicValue},
nac3parser::ast::{self, StrRef},
symbol_resolver::{SymbolResolver, SymbolValue, ValueEnum}, symbol_resolver::{SymbolResolver, SymbolValue, ValueEnum},
toplevel::{DefinitionId, TopLevelDef}, toplevel::{DefinitionId, TopLevelDef},
typecheck::{ typecheck::{
@ -8,9 +16,6 @@ use nac3core::{
typedef::{Type, Unifier}, typedef::{Type, Unifier},
}, },
}; };
use parking_lot::{Mutex, RwLock};
use std::collections::HashSet;
use std::{collections::HashMap, sync::Arc};
pub struct ResolverInternal { pub struct ResolverInternal {
pub id_to_type: Mutex<HashMap<StrRef, Type>>, pub id_to_type: Mutex<HashMap<StrRef, Type>>,
@ -45,20 +50,51 @@ impl SymbolResolver for Resolver {
fn get_symbol_type( fn get_symbol_type(
&self, &self,
_: &mut Unifier, unifier: &mut Unifier,
_: &[Arc<RwLock<TopLevelDef>>], _: &[Arc<RwLock<TopLevelDef>>],
_: &PrimitiveStore, primitives: &PrimitiveStore,
str: StrRef, str: StrRef,
) -> Result<Type, String> { ) -> Result<Type, String> {
self.0.id_to_type.lock().get(&str).copied().ok_or(format!("cannot get type of {str}")) self.0
.id_to_type
.lock()
.get(&str)
.copied()
.or_else(|| {
self.0
.module_globals
.lock()
.get(&str)
.cloned()
.map(|v| v.get_type(primitives, unifier))
})
.ok_or(format!("cannot get type of {str}"))
} }
fn get_symbol_value<'ctx>( fn get_symbol_value<'ctx>(
&self, &self,
_: StrRef, str: StrRef,
_: &mut CodeGenContext<'ctx, '_>, ctx: &mut CodeGenContext<'ctx, '_>,
generator: &mut dyn CodeGenerator,
) -> Option<ValueEnum<'ctx>> { ) -> Option<ValueEnum<'ctx>> {
unimplemented!() self.0.module_globals.lock().get(&str).cloned().map(|v| {
ctx.module
.get_global(&str.to_string())
.unwrap_or_else(|| {
let ty = v.get_type(&ctx.primitives, &mut ctx.unifier);
let init_val = ctx.gen_symbol_val(generator, &v, ty);
let llvm_ty = init_val.get_type();
let global = ctx.module.add_global(llvm_ty, None, &str.to_string());
global.set_linkage(Linkage::LinkOnceAny);
global.set_initializer(&init_val);
global
})
.as_basic_value_enum()
.into()
})
} }
fn get_identifier_def(&self, id: StrRef) -> Result<DefinitionId, HashSet<String>> { fn get_identifier_def(&self, id: StrRef) -> Result<DefinitionId, HashSet<String>> {

View File

@ -1,27 +1,31 @@
#![deny( #![deny(future_incompatible, let_underscore, nonstandard_style, clippy::all)]
future_incompatible,
let_underscore,
nonstandard_style,
rust_2024_compatibility,
clippy::all
)]
#![warn(clippy::pedantic)] #![warn(clippy::pedantic)]
#![allow(clippy::too_many_lines, clippy::wildcard_imports)] #![allow(clippy::too_many_lines, clippy::wildcard_imports)]
use std::{
collections::{HashMap, HashSet},
fs,
num::NonZeroUsize,
path::Path,
sync::Arc,
};
use clap::Parser; use clap::Parser;
use nac3core::inkwell::{ use parking_lot::{Mutex, RwLock};
memory_buffer::MemoryBuffer, module::Linkage, passes::PassBuilderOptions,
support::is_multithreaded, targets::*, OptimizationLevel,
};
use nac3core::nac3parser::{
ast::{Constant, Expr, ExprKind, StmtKind, StrRef},
parser,
};
use nac3core::{ use nac3core::{
codegen::{ codegen::{
concrete_type::ConcreteTypeStore, irrt::load_irrt, CodeGenLLVMOptions, concrete_type::ConcreteTypeStore, irrt::load_irrt, CodeGenLLVMOptions,
CodeGenTargetMachineOptions, CodeGenTask, DefaultCodeGenerator, WithCall, WorkerRegistry, CodeGenTargetMachineOptions, CodeGenTask, DefaultCodeGenerator, WithCall, WorkerRegistry,
}, },
inkwell::{
memory_buffer::MemoryBuffer, module::Linkage, passes::PassBuilderOptions,
support::is_multithreaded, targets::*, OptimizationLevel,
},
nac3parser::{
ast::{Constant, Expr, ExprKind, StmtKind, StrRef},
parser,
},
symbol_resolver::SymbolResolver, symbol_resolver::SymbolResolver,
toplevel::{ toplevel::{
composer::{ComposerConfig, TopLevelComposer}, composer::{ComposerConfig, TopLevelComposer},
@ -34,13 +38,10 @@ use nac3core::{
typedef::{FunSignature, Type, Unifier, VarMap}, typedef::{FunSignature, Type, Unifier, VarMap},
}, },
}; };
use parking_lot::{Mutex, RwLock};
use std::collections::HashSet; use basic_symbol_resolver::*;
use std::num::NonZeroUsize;
use std::{collections::HashMap, fs, path::Path, sync::Arc};
mod basic_symbol_resolver; mod basic_symbol_resolver;
use basic_symbol_resolver::*;
/// Command-line argument parser definition. /// Command-line argument parser definition.
#[derive(Parser)] #[derive(Parser)]
@ -168,46 +169,49 @@ fn handle_typevar_definition(
fn handle_assignment_pattern( fn handle_assignment_pattern(
targets: &[Expr], targets: &[Expr],
value: &Expr, value: &Expr,
resolver: &(dyn SymbolResolver + Send + Sync), resolver: Arc<dyn SymbolResolver + Send + Sync>,
internal_resolver: &ResolverInternal, internal_resolver: &ResolverInternal,
def_list: &[Arc<RwLock<TopLevelDef>>], composer: &mut TopLevelComposer,
unifier: &mut Unifier,
primitives: &PrimitiveStore,
) -> Result<(), String> { ) -> Result<(), String> {
if targets.len() == 1 { if targets.len() == 1 {
match &targets[0].node { let target = &targets[0];
match &target.node {
ExprKind::Name { id, .. } => { ExprKind::Name { id, .. } => {
let def_list = composer.extract_def_list();
let unifier = &mut composer.unifier;
let primitives = &composer.primitives_ty;
if let Ok(var) = if let Ok(var) =
handle_typevar_definition(value, resolver, def_list, unifier, primitives) handle_typevar_definition(value, &*resolver, &def_list, unifier, primitives)
{ {
internal_resolver.add_id_type(*id, var); internal_resolver.add_id_type(*id, var);
Ok(()) Ok(())
} else if let Ok(val) = parse_parameter_default_value(value, resolver) { } else if let Ok(val) = parse_parameter_default_value(value, &*resolver) {
internal_resolver.add_module_global(*id, val); internal_resolver.add_module_global(*id, val);
let (name, def_id, _) = composer
.register_top_level_var(
*id,
None,
Some(resolver.clone()),
"__main__",
target.location,
)
.unwrap();
internal_resolver.add_id_def(name, def_id);
Ok(()) Ok(())
} else { } else {
Err(format!("fails to evaluate this expression `{:?}` as a constant or generic parameter at {}", Err(format!("fails to evaluate this expression `{:?}` as a constant or generic parameter at {}",
targets[0].node, target.node,
targets[0].location, target.location,
)) ))
} }
} }
ExprKind::List { elts, .. } | ExprKind::Tuple { elts, .. } => { ExprKind::List { elts, .. } | ExprKind::Tuple { elts, .. } => {
handle_assignment_pattern( handle_assignment_pattern(elts, value, resolver, internal_resolver, composer)?;
elts,
value,
resolver,
internal_resolver,
def_list,
unifier,
primitives,
)?;
Ok(()) Ok(())
} }
_ => Err(format!( _ => Err(format!("assignment to {target:?} is not supported at {}", target.location)),
"assignment to {:?} is not supported at {}",
targets[0], targets[0].location
)),
} }
} else { } else {
match &value.node { match &value.node {
@ -217,11 +221,9 @@ fn handle_assignment_pattern(
handle_assignment_pattern( handle_assignment_pattern(
std::slice::from_ref(tar), std::slice::from_ref(tar),
val, val,
resolver, resolver.clone(),
internal_resolver, internal_resolver,
def_list, composer,
unifier,
primitives,
)?; )?;
} }
Ok(()) Ok(())
@ -239,6 +241,39 @@ fn handle_assignment_pattern(
} }
} }
fn handle_global_var(
target: &Expr,
value: Option<&Expr>,
resolver: &Arc<dyn SymbolResolver + Send + Sync>,
internal_resolver: &ResolverInternal,
composer: &mut TopLevelComposer,
) -> Result<(), String> {
let ExprKind::Name { id, .. } = target.node else {
return Err(format!(
"global variable declaration must be an identifier (at {})",
target.location,
));
};
let Some(value) = value else {
return Err(format!("global variable `{id}` must be initialized in its definition"));
};
if let Ok(val) = parse_parameter_default_value(value, &**resolver) {
internal_resolver.add_module_global(id, val);
let (name, def_id, _) = composer
.register_top_level_var(id, None, Some(resolver.clone()), "__main__", target.location)
.unwrap();
internal_resolver.add_id_def(name, def_id);
Ok(())
} else {
Err(format!(
"failed to evaluate this expression `{:?}` as a constant at {}",
target.node, target.location,
))
}
}
fn main() { fn main() {
let cli = CommandLineArgs::parse(); let cli = CommandLineArgs::parse();
let CommandLineArgs { file_name, threads, opt_level, emit_llvm, triple, mcpu, target_features } = let CommandLineArgs { file_name, threads, opt_level, emit_llvm, triple, mcpu, target_features } =
@ -291,8 +326,7 @@ fn main() {
let program = match fs::read_to_string(file_name.clone()) { let program = match fs::read_to_string(file_name.clone()) {
Ok(program) => program, Ok(program) => program,
Err(err) => { Err(err) => {
println!("Cannot open input file: {err}"); panic!("Cannot open input file: {err}");
return;
} }
}; };
@ -322,22 +356,29 @@ fn main() {
for stmt in parser_result { for stmt in parser_result {
match &stmt.node { match &stmt.node {
StmtKind::Assign { targets, value, .. } => { StmtKind::Assign { targets, value, .. } => {
let def_list = composer.extract_def_list();
let unifier = &mut composer.unifier;
let primitives = &composer.primitives_ty;
if let Err(err) = handle_assignment_pattern( if let Err(err) = handle_assignment_pattern(
targets, targets,
value, value,
resolver.as_ref(), resolver.clone(),
internal_resolver.as_ref(), internal_resolver.as_ref(),
&def_list, &mut composer,
unifier,
primitives,
) { ) {
eprintln!("{err}"); panic!("{err}");
return;
} }
} }
StmtKind::AnnAssign { target, value, .. } => {
if let Err(err) = handle_global_var(
target,
value.as_ref().map(Box::as_ref),
&resolver,
internal_resolver.as_ref(),
&mut composer,
) {
panic!("{err}");
}
}
// allow (and ignore) "from __future__ import annotations" // allow (and ignore) "from __future__ import annotations"
StmtKind::ImportFrom { module, names, .. } StmtKind::ImportFrom { module, names, .. }
if module == &Some("__future__".into()) if module == &Some("__future__".into())

View File

@ -10,7 +10,7 @@ curl -L https://repo.msys2.org/msys/x86_64/pacman-mirrors-20240523-1-any.pkg.tar
curl -L https://raw.githubusercontent.com/msys2/MSYS2-packages/master/pacman/pacman.conf | sed "s|SigLevel = Required|SigLevel = Never|g" | sed "s|/etc/pacman.d|$MSYS2DIR/etc/pacman.d|g" > $MSYS2DIR/etc/pacman.conf curl -L https://raw.githubusercontent.com/msys2/MSYS2-packages/master/pacman/pacman.conf | sed "s|SigLevel = Required|SigLevel = Never|g" | sed "s|/etc/pacman.d|$MSYS2DIR/etc/pacman.d|g" > $MSYS2DIR/etc/pacman.conf
fakeroot pacman --root $MSYS2DIR --config $MSYS2DIR/etc/pacman.conf -Syy fakeroot pacman --root $MSYS2DIR --config $MSYS2DIR/etc/pacman.conf -Syy
pacman --root $MSYS2DIR --config $MSYS2DIR/etc/pacman.conf --cachedir $MSYS2DIR/msys/cache -Sp mingw-w64-clang-x86_64-rust mingw-w64-clang-x86_64-cmake mingw-w64-clang-x86_64-ninja mingw-w64-clang-x86_64-python3.12 mingw-w64-clang-x86_64-python-numpy mingw-w64-clang-x86_64-python-setuptools > $MSYS2DIR/packages.txt pacman --root $MSYS2DIR --config $MSYS2DIR/etc/pacman.conf --cachedir $MSYS2DIR/msys/cache -Sp mingw-w64-clang-x86_64-rust mingw-w64-clang-x86_64-cmake mingw-w64-clang-x86_64-ninja mingw-w64-clang-x86_64-python-numpy mingw-w64-clang-x86_64-python-setuptools > $MSYS2DIR/packages.txt
echo "{ pkgs } : [" > msys2_packages.nix echo "{ pkgs } : [" > msys2_packages.nix
while read package; do while read package; do

View File

@ -1,10 +1,4 @@
#![deny( #![deny(future_incompatible, let_underscore, nonstandard_style, clippy::all)]
future_incompatible,
let_underscore,
nonstandard_style,
rust_2024_compatibility,
clippy::all
)]
#![warn(clippy::pedantic)] #![warn(clippy::pedantic)]
#![allow(clippy::semicolon_if_nothing_returned, clippy::uninlined_format_args)] #![allow(clippy::semicolon_if_nothing_returned, clippy::uninlined_format_args)]
@ -12,47 +6,47 @@ use std::env;
static mut NOW: i64 = 0; static mut NOW: i64 = 0;
#[no_mangle] #[unsafe(no_mangle)]
pub extern "C" fn now_mu() -> i64 { pub extern "C" fn now_mu() -> i64 {
unsafe { NOW } unsafe { NOW }
} }
#[no_mangle] #[unsafe(no_mangle)]
pub extern "C" fn at_mu(t: i64) { pub extern "C" fn at_mu(t: i64) {
unsafe { NOW = t } unsafe { NOW = t }
} }
#[no_mangle] #[unsafe(no_mangle)]
pub extern "C" fn delay_mu(dt: i64) { pub extern "C" fn delay_mu(dt: i64) {
unsafe { NOW += dt } unsafe { NOW += dt }
} }
#[no_mangle] #[unsafe(no_mangle)]
pub extern "C" fn rtio_init() { pub extern "C" fn rtio_init() {
println!("rtio_init"); println!("rtio_init");
} }
#[no_mangle] #[unsafe(no_mangle)]
pub extern "C" fn rtio_get_counter() -> i64 { pub extern "C" fn rtio_get_counter() -> i64 {
0 0
} }
#[no_mangle] #[unsafe(no_mangle)]
pub extern "C" fn rtio_output(target: i32, data: i32) { pub extern "C" fn rtio_output(target: i32, data: i32) {
println!("rtio_output @{} target={target:04x} data={data}", unsafe { NOW }); println!("rtio_output @{} target={target:04x} data={data}", unsafe { NOW });
} }
#[no_mangle] #[unsafe(no_mangle)]
pub extern "C" fn print_int32(x: i32) { pub extern "C" fn print_int32(x: i32) {
println!("print_int32: {x}"); println!("print_int32: {x}");
} }
#[no_mangle] #[unsafe(no_mangle)]
pub extern "C" fn print_int64(x: i64) { pub extern "C" fn print_int64(x: i64) {
println!("print_int64: {x}"); println!("print_int64: {x}");
} }
#[no_mangle] #[unsafe(no_mangle)]
pub extern "C" fn __nac3_personality(_state: u32, _exception_object: u32, _context: u32) -> u32 { pub extern "C" fn __nac3_personality(_state: u32, _exception_object: u32, _context: u32) -> u32 {
unimplemented!(); unimplemented!();
} }