rust/mk/crates.mk

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# Copyright 2014 The Rust Project Developers. See the COPYRIGHT
# file at the top-level directory of this distribution and at
# http://rust-lang.org/COPYRIGHT.
#
# Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
# http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
# <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
# option. This file may not be copied, modified, or distributed
# except according to those terms.
################################################################################
# Rust's standard distribution of crates and tools
#
# The crates outlined below are the standard distribution of libraries provided
# in a rust installation. These rules are meant to abstract over the
# dependencies (both native and rust) of crates and basically generate all the
# necessary makefile rules necessary to build everything.
#
# Here's an explanation of the variables below
#
# TARGET_CRATES
# This list of crates will be built for all targets, including
# cross-compiled targets
#
# HOST_CRATES
# This list of crates will be compiled for only host targets. Note that
# this set is explicitly *not* a subset of TARGET_CRATES, but rather it is
# a disjoint set. Nothing in the TARGET_CRATES set can depend on crates in
# the HOST_CRATES set, but the HOST_CRATES set can depend on target
# crates.
#
# TOOLS
# A list of all tools which will be built as part of the compilation
# process. It is currently assumed that most tools are built through
# src/driver/driver.rs with a particular configuration (there's a
# corresponding library providing the implementation)
#
# DEPS_<crate>
# These lists are the dependencies of the <crate> that is to be built.
# Rust dependencies are listed bare (i.e. std) and native
# dependencies have a "native:" prefix (i.e. native:hoedown). All deps
# will be built before the crate itself is built.
#
# TOOL_DEPS_<tool>/TOOL_SOURCE_<tool>
# Similar to the DEPS variable, this is the library crate dependencies
# list for tool as well as the source file for the specified tool
#
# You shouldn't need to modify much other than these variables. Crates are
# automatically generated for all stage/host/target combinations.
################################################################################
TARGET_CRATES := libc std term \
getopts collections test rand \
compiler_builtins core alloc \
rustc_unicode rustc_bitflags \
rustc: Implement custom panic runtimes This commit is an implementation of [RFC 1513] which allows applications to alter the behavior of panics at compile time. A new compiler flag, `-C panic`, is added and accepts the values `unwind` or `panic`, with the default being `unwind`. This model affects how code is generated for the local crate, skipping generation of landing pads with `-C panic=abort`. [RFC 1513]: https://github.com/rust-lang/rfcs/blob/master/text/1513-less-unwinding.md Panic implementations are then provided by crates tagged with `#![panic_runtime]` and lazily required by crates with `#![needs_panic_runtime]`. The panic strategy (`-C panic` value) of the panic runtime must match the final product, and if the panic strategy is not `abort` then the entire DAG must have the same panic strategy. With the `-C panic=abort` strategy, users can expect a stable method to disable generation of landing pads, improving optimization in niche scenarios, decreasing compile time, and decreasing output binary size. With the `-C panic=unwind` strategy users can expect the existing ability to isolate failure in Rust code from the outside world. Organizationally, this commit dismantles the `sys_common::unwind` module in favor of some bits moving part of it to `libpanic_unwind` and the rest into the `panicking` module in libstd. The custom panic runtime support is pretty similar to the custom allocator support with the only major difference being how the panic runtime is injected (takes the `-C panic` flag into account).
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alloc_system alloc_jemalloc \
panic_abort panic_unwind unwind
RUSTC_CRATES := rustc rustc_typeck rustc_mir rustc_borrowck rustc_resolve rustc_driver \
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rustc_trans rustc_back rustc_llvm rustc_privacy rustc_lint \
rustc_data_structures rustc_platform_intrinsics rustc_errors \
rustc_plugin rustc_metadata rustc_passes rustc_save_analysis \
rustc_const_eval rustc_const_math rustc_incremental proc_macro
HOST_CRATES := syntax syntax_ext proc_macro_tokens proc_macro_plugin syntax_pos $(RUSTC_CRATES) \
rustdoc fmt_macros flate arena graphviz log serialize
TOOLS := compiletest rustdoc rustc rustbook error_index_generator
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DEPS_core :=
DEPS_compiler_builtins := core
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DEPS_alloc := core libc alloc_system
DEPS_alloc_system := core libc
DEPS_alloc_jemalloc := core libc native:jemalloc
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DEPS_collections := core alloc rustc_unicode
DEPS_libc := core
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DEPS_rand := core
DEPS_rustc_bitflags := core
DEPS_rustc_unicode := core
rustc: Implement custom panic runtimes This commit is an implementation of [RFC 1513] which allows applications to alter the behavior of panics at compile time. A new compiler flag, `-C panic`, is added and accepts the values `unwind` or `panic`, with the default being `unwind`. This model affects how code is generated for the local crate, skipping generation of landing pads with `-C panic=abort`. [RFC 1513]: https://github.com/rust-lang/rfcs/blob/master/text/1513-less-unwinding.md Panic implementations are then provided by crates tagged with `#![panic_runtime]` and lazily required by crates with `#![needs_panic_runtime]`. The panic strategy (`-C panic` value) of the panic runtime must match the final product, and if the panic strategy is not `abort` then the entire DAG must have the same panic strategy. With the `-C panic=abort` strategy, users can expect a stable method to disable generation of landing pads, improving optimization in niche scenarios, decreasing compile time, and decreasing output binary size. With the `-C panic=unwind` strategy users can expect the existing ability to isolate failure in Rust code from the outside world. Organizationally, this commit dismantles the `sys_common::unwind` module in favor of some bits moving part of it to `libpanic_unwind` and the rest into the `panicking` module in libstd. The custom panic runtime support is pretty similar to the custom allocator support with the only major difference being how the panic runtime is injected (takes the `-C panic` flag into account).
2016-04-09 01:18:40 +02:00
DEPS_panic_abort := libc alloc
DEPS_panic_unwind := libc alloc unwind
DEPS_unwind := libc
RUSTFLAGS_compiler_builtins := -lstatic=compiler-rt
rustc: Implement custom panic runtimes This commit is an implementation of [RFC 1513] which allows applications to alter the behavior of panics at compile time. A new compiler flag, `-C panic`, is added and accepts the values `unwind` or `panic`, with the default being `unwind`. This model affects how code is generated for the local crate, skipping generation of landing pads with `-C panic=abort`. [RFC 1513]: https://github.com/rust-lang/rfcs/blob/master/text/1513-less-unwinding.md Panic implementations are then provided by crates tagged with `#![panic_runtime]` and lazily required by crates with `#![needs_panic_runtime]`. The panic strategy (`-C panic` value) of the panic runtime must match the final product, and if the panic strategy is not `abort` then the entire DAG must have the same panic strategy. With the `-C panic=abort` strategy, users can expect a stable method to disable generation of landing pads, improving optimization in niche scenarios, decreasing compile time, and decreasing output binary size. With the `-C panic=unwind` strategy users can expect the existing ability to isolate failure in Rust code from the outside world. Organizationally, this commit dismantles the `sys_common::unwind` module in favor of some bits moving part of it to `libpanic_unwind` and the rest into the `panicking` module in libstd. The custom panic runtime support is pretty similar to the custom allocator support with the only major difference being how the panic runtime is injected (takes the `-C panic` flag into account).
2016-04-09 01:18:40 +02:00
# FIXME(stage0): change this to just `RUSTFLAGS_panic_abort := ...`
RUSTFLAGS1_panic_abort := -C panic=abort
RUSTFLAGS2_panic_abort := -C panic=abort
RUSTFLAGS3_panic_abort := -C panic=abort
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DEPS_std := core libc rand alloc collections compiler_builtins rustc_unicode \
native:backtrace \
rustc: Implement custom panic runtimes This commit is an implementation of [RFC 1513] which allows applications to alter the behavior of panics at compile time. A new compiler flag, `-C panic`, is added and accepts the values `unwind` or `panic`, with the default being `unwind`. This model affects how code is generated for the local crate, skipping generation of landing pads with `-C panic=abort`. [RFC 1513]: https://github.com/rust-lang/rfcs/blob/master/text/1513-less-unwinding.md Panic implementations are then provided by crates tagged with `#![panic_runtime]` and lazily required by crates with `#![needs_panic_runtime]`. The panic strategy (`-C panic` value) of the panic runtime must match the final product, and if the panic strategy is not `abort` then the entire DAG must have the same panic strategy. With the `-C panic=abort` strategy, users can expect a stable method to disable generation of landing pads, improving optimization in niche scenarios, decreasing compile time, and decreasing output binary size. With the `-C panic=unwind` strategy users can expect the existing ability to isolate failure in Rust code from the outside world. Organizationally, this commit dismantles the `sys_common::unwind` module in favor of some bits moving part of it to `libpanic_unwind` and the rest into the `panicking` module in libstd. The custom panic runtime support is pretty similar to the custom allocator support with the only major difference being how the panic runtime is injected (takes the `-C panic` flag into account).
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alloc_system panic_abort panic_unwind unwind
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DEPS_arena := std
DEPS_glob := std
DEPS_flate := std native:miniz
DEPS_fmt_macros = std
DEPS_getopts := std
DEPS_graphviz := std
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DEPS_log := std
DEPS_num := std
DEPS_serialize := std log
DEPS_term := std
DEPS_test := std getopts term native:rust_test_helpers
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DEPS_syntax := std term serialize log arena libc rustc_bitflags rustc_unicode rustc_errors syntax_pos rustc_data_structures
DEPS_syntax_ext := syntax syntax_pos rustc_errors fmt_macros proc_macro
DEPS_syntax_pos := serialize
DEPS_proc_macro_tokens := syntax syntax_pos log
DEPS_proc_macro_plugin := syntax syntax_pos rustc_plugin log proc_macro_tokens
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DEPS_rustc_const_math := std syntax log serialize
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DEPS_rustc_const_eval := rustc_const_math rustc syntax log serialize \
rustc_back graphviz syntax_pos
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DEPS_rustc := syntax fmt_macros flate arena serialize getopts \
log graphviz rustc_llvm rustc_back rustc_data_structures\
rustc_const_math syntax_pos rustc_errors
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DEPS_rustc_back := std syntax flate log libc
DEPS_rustc_borrowck := rustc log graphviz syntax syntax_pos rustc_errors rustc_mir
DEPS_rustc_data_structures := std log serialize libc
DEPS_rustc_driver := arena flate getopts graphviz libc rustc rustc_back rustc_borrowck \
rustc_typeck rustc_mir rustc_resolve log syntax serialize rustc_llvm \
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rustc_trans rustc_privacy rustc_lint rustc_plugin \
rustc_metadata syntax_ext proc_macro_plugin \
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rustc_passes rustc_save_analysis rustc_const_eval \
rustc_incremental syntax_pos rustc_errors proc_macro rustc_data_structures
DEPS_rustc_errors := log libc serialize syntax_pos
DEPS_rustc_lint := rustc log syntax syntax_pos rustc_const_eval
DEPS_rustc_llvm := native:rustllvm libc std rustc_bitflags
DEPS_proc_macro := std syntax
DEPS_rustc_metadata := rustc syntax syntax_pos rustc_errors rustc_const_math \
proc_macro syntax_ext
DEPS_rustc_passes := syntax syntax_pos rustc core rustc_const_eval rustc_errors
DEPS_rustc_mir := rustc syntax syntax_pos rustc_const_math rustc_const_eval rustc_bitflags
DEPS_rustc_resolve := arena rustc log syntax syntax_pos rustc_errors
DEPS_rustc_platform_intrinsics := std
DEPS_rustc_plugin := rustc rustc_metadata syntax syntax_pos rustc_errors
DEPS_rustc_privacy := rustc log syntax syntax_pos
DEPS_rustc_trans := arena flate getopts graphviz libc rustc rustc_back \
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log syntax serialize rustc_llvm rustc_platform_intrinsics \
rustc_const_math rustc_const_eval rustc_incremental rustc_errors syntax_pos
DEPS_rustc_incremental := rustc syntax_pos serialize rustc_data_structures
DEPS_rustc_save_analysis := rustc log syntax syntax_pos serialize
DEPS_rustc_typeck := rustc syntax syntax_pos rustc_platform_intrinsics rustc_const_math \
rustc_const_eval rustc_errors
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DEPS_rustdoc := rustc rustc_driver native:hoedown serialize getopts test \
rustc_lint rustc_const_eval syntax_pos rustc_data_structures
TOOL_DEPS_compiletest := test getopts log serialize
TOOL_DEPS_rustdoc := rustdoc
TOOL_DEPS_rustc := rustc_driver
TOOL_DEPS_rustbook := std rustdoc
TOOL_DEPS_error_index_generator := rustdoc syntax serialize
TOOL_SOURCE_compiletest := $(S)src/tools/compiletest/src/main.rs
TOOL_SOURCE_rustdoc := $(S)src/driver/driver.rs
TOOL_SOURCE_rustc := $(S)src/driver/driver.rs
TOOL_SOURCE_rustbook := $(S)src/tools/rustbook/main.rs
TOOL_SOURCE_error_index_generator := $(S)src/tools/error_index_generator/main.rs
ONLY_RLIB_compiler_builtins := 1
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ONLY_RLIB_core := 1
ONLY_RLIB_libc := 1
ONLY_RLIB_alloc := 1
std: Recreate a `rand` module This commit shuffles around some of the `rand` code, along with some reorganization. The new state of the world is as follows: * The librand crate now only depends on libcore. This interface is experimental. * The standard library has a new module, `std::rand`. This interface will eventually become stable. Unfortunately, this entailed more of a breaking change than just shuffling some names around. The following breaking changes were made to the rand library: * Rng::gen_vec() was removed. This has been replaced with Rng::gen_iter() which will return an infinite stream of random values. Previous behavior can be regained with `rng.gen_iter().take(n).collect()` * Rng::gen_ascii_str() was removed. This has been replaced with Rng::gen_ascii_chars() which will return an infinite stream of random ascii characters. Similarly to gen_iter(), previous behavior can be emulated with `rng.gen_ascii_chars().take(n).collect()` * {IsaacRng, Isaac64Rng, XorShiftRng}::new() have all been removed. These all relied on being able to use an OSRng for seeding, but this is no longer available in librand (where these types are defined). To retain the same functionality, these types now implement the `Rand` trait so they can be generated with a random seed from another random number generator. This allows the stdlib to use an OSRng to create seeded instances of these RNGs. * Rand implementations for `Box<T>` and `@T` were removed. These seemed to be pretty rare in the codebase, and it allows for librand to not depend on liballoc. Additionally, other pointer types like Rc<T> and Arc<T> were not supported. If this is undesirable, librand can depend on liballoc and regain these implementations. * The WeightedChoice structure is no longer built with a `Vec<Weighted<T>>`, but rather a `&mut [Weighted<T>]`. This means that the WeightedChoice structure now has a lifetime associated with it. * The `sample` method on `Rng` has been moved to a top-level function in the `rand` module due to its dependence on `Vec`. cc #13851 [breaking-change]
2014-05-25 10:39:37 +02:00
ONLY_RLIB_rand := 1
std: Recreate a `collections` module As with the previous commit with `librand`, this commit shuffles around some `collections` code. The new state of the world is similar to that of librand: * The libcollections crate now only depends on libcore and liballoc. * The standard library has a new module, `std::collections`. All functionality of libcollections is reexported through this module. I would like to stress that this change is purely cosmetic. There are very few alterations to these primitives. There are a number of notable points about the new organization: * std::{str, slice, string, vec} all moved to libcollections. There is no reason that these primitives shouldn't be necessarily usable in a freestanding context that has allocation. These are all reexported in their usual places in the standard library. * The `hashmap`, and transitively the `lru_cache`, modules no longer reside in `libcollections`, but rather in libstd. The reason for this is because the `HashMap::new` contructor requires access to the OSRng for initially seeding the hash map. Beyond this requirement, there is no reason that the hashmap could not move to libcollections. I do, however, have a plan to move the hash map to the collections module. The `HashMap::new` function could be altered to require that the `H` hasher parameter ascribe to the `Default` trait, allowing the entire `hashmap` module to live in libcollections. The key idea would be that the default hasher would be different in libstd. Something along the lines of: // src/libstd/collections/mod.rs pub type HashMap<K, V, H = RandomizedSipHasher> = core_collections::HashMap<K, V, H>; This is not possible today because you cannot invoke static methods through type aliases. If we modified the compiler, however, to allow invocation of static methods through type aliases, then this type definition would essentially be switching the default hasher from `SipHasher` in libcollections to a libstd-defined `RandomizedSipHasher` type. This type's `Default` implementation would randomly seed the `SipHasher` instance, and otherwise perform the same as `SipHasher`. This future state doesn't seem incredibly far off, but until that time comes, the hashmap module will live in libstd to not compromise on functionality. * In preparation for the hashmap moving to libcollections, the `hash` module has moved from libstd to libcollections. A previously snapshotted commit enables a distinct `Writer` trait to live in the `hash` module which `Hash` implementations are now parameterized over. Due to using a custom trait, the `SipHasher` implementation has lost its specialized methods for writing integers. These can be re-added backwards-compatibly in the future via default methods if necessary, but the FNV hashing should satisfy much of the need for speedier hashing. A list of breaking changes: * HashMap::{get, get_mut} no longer fails with the key formatted into the error message with `{:?}`, instead, a generic message is printed. With backtraces, it should still be not-too-hard to track down errors. * The HashMap, HashSet, and LruCache types are now available through std::collections instead of the collections crate. * Manual implementations of hash should be parameterized over `hash::Writer` instead of just `Writer`. [breaking-change]
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ONLY_RLIB_collections := 1
ONLY_RLIB_rustc_unicode := 1
ONLY_RLIB_rustc_bitflags := 1
ONLY_RLIB_alloc_system := 1
ONLY_RLIB_alloc_jemalloc := 1
rustc: Implement custom panic runtimes This commit is an implementation of [RFC 1513] which allows applications to alter the behavior of panics at compile time. A new compiler flag, `-C panic`, is added and accepts the values `unwind` or `panic`, with the default being `unwind`. This model affects how code is generated for the local crate, skipping generation of landing pads with `-C panic=abort`. [RFC 1513]: https://github.com/rust-lang/rfcs/blob/master/text/1513-less-unwinding.md Panic implementations are then provided by crates tagged with `#![panic_runtime]` and lazily required by crates with `#![needs_panic_runtime]`. The panic strategy (`-C panic` value) of the panic runtime must match the final product, and if the panic strategy is not `abort` then the entire DAG must have the same panic strategy. With the `-C panic=abort` strategy, users can expect a stable method to disable generation of landing pads, improving optimization in niche scenarios, decreasing compile time, and decreasing output binary size. With the `-C panic=unwind` strategy users can expect the existing ability to isolate failure in Rust code from the outside world. Organizationally, this commit dismantles the `sys_common::unwind` module in favor of some bits moving part of it to `libpanic_unwind` and the rest into the `panicking` module in libstd. The custom panic runtime support is pretty similar to the custom allocator support with the only major difference being how the panic runtime is injected (takes the `-C panic` flag into account).
2016-04-09 01:18:40 +02:00
ONLY_RLIB_panic_unwind := 1
ONLY_RLIB_panic_abort := 1
ONLY_RLIB_unwind := 1
TARGET_SPECIFIC_alloc_jemalloc := 1
2014-05-01 05:05:14 +02:00
# Documented-by-default crates
DOC_CRATES := std alloc collections core libc rustc_unicode
ifeq ($(CFG_DISABLE_JEMALLOC),)
RUSTFLAGS_rustc_back := --cfg 'feature="jemalloc"'
endif
################################################################################
# You should not need to edit below this line
################################################################################
CRATES := $(TARGET_CRATES) $(HOST_CRATES)
# This macro creates some simple definitions for each crate being built, just
# some munging of all of the parameters above.
#
# $(1) is the crate to generate variables for
define RUST_CRATE
mk: Build crates with relative paths to rustc The path we pass to rustc will be visible in panic messages and backtraces: they will be user visible! Avoid junk in these paths by passing relative paths to rustc. For most advanced users, `libcore` or `libstd` in the path will be a clue to the location -- inside our code, not theirs. Store both the relative path to the source as well as the absolute. Use the relative path where it matters, compiling the main crates, instead of changing all of the build process to cope with relative paths. Example output after this patch: ``` $ ./testunwrap thread '<main>' panicked at 'called `Option::unwrap()` on a `None` value', ../src/libcore/option.rs:362 $ RUST_BACKTRACE=1 ./testunwrap thread '<main>' panicked at 'called `Option::unwrap()` on a `None` value', ../src/libcore/option.rs:362 stack backtrace: 1: 0x7ff59c1e9956 - sys::backtrace::write::h67a542fd2b201576des at ../src/libstd/sys/unix/backtrace.rs:158 2: 0x7ff59c1ed5b6 - panicking::on_panic::h3d21c41cdd5c12d41Xw at ../src/libstd/panicking.rs:58 3: 0x7ff59c1e7b6e - rt::unwind::begin_unwind_inner::h9f3a5440cebb8baeLDw at ../src/libstd/rt/unwind/mod.rs:273 4: 0x7ff59c1e7f84 - rt::unwind::begin_unwind_fmt::h4fe8a903e0c296b0RCw at ../src/libstd/rt/unwind/mod.rs:212 5: 0x7ff59c1eced7 - rust_begin_unwind 6: 0x7ff59c22c11a - panicking::panic_fmt::h00b0cd49c98a9220i5B at ../src/libcore/panicking.rs:64 7: 0x7ff59c22b9e0 - panicking::panic::hf549420c0ee03339P3B at ../src/libcore/panicking.rs:45 8: 0x7ff59c1e621d - option::Option<T>::unwrap::h501963526474862829 9: 0x7ff59c1e61b1 - main::hb5c91ce92347d1e6eaa 10: 0x7ff59c1f1c18 - rust_try_inner 11: 0x7ff59c1f1c05 - rust_try 12: 0x7ff59c1ef374 - rt::lang_start::h7e51e19c6677cffe5Sw at ../src/libstd/rt/unwind/mod.rs:147 at ../src/libstd/rt/unwind/mod.rs:130 at ../src/libstd/rt/mod.rs:128 13: 0x7ff59c1e628e - main 14: 0x7ff59b3f6b44 - __libc_start_main 15: 0x7ff59c1e6078 - <unknown> 16: 0x0 - <unknown> ```
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CRATEFILE_$(1) := $$(SREL)src/lib$(1)/lib.rs
RSINPUTS_$(1) := $$(call rwildcard,$(S)src/lib$(1)/,*.rs)
NATIVE_DEPS_$(1) := $$(patsubst native:%,%,$$(filter native:%,$$(DEPS_$(1))))
endef
$(foreach crate,$(CRATES),$(eval $(call RUST_CRATE,$(crate))))
# $(1) - crate
# $(2) - target
define RUST_CRATE_DEPS
RUST_DEPS_$(1)_T_$(2) := $$(filter-out native:%,$$(DEPS_$(1)))
endef
$(foreach target,$(CFG_TARGET),\
$(foreach crate,$(CRATES),$(eval $(call RUST_CRATE_DEPS,$(crate),$(target)))))
# $(1) - target
# $(2) - crate
define DEFINE_TARGET_CRATES
ifndef TARGET_SPECIFIC_$(2)
TARGET_CRATES_$(1) += $(2)
endif
endef
$(foreach target,$(CFG_TARGET),\
$(foreach crate,$(TARGET_CRATES),\
$(eval $(call DEFINE_TARGET_CRATES,$(target),$(crate)))))
# Similar to the macro above for crates, this macro is for tools
#
# $(1) is the crate to generate variables for
define RUST_TOOL
TOOL_INPUTS_$(1) := $$(call rwildcard,$$(dir $$(TOOL_SOURCE_$(1))),*.rs)
endef
$(foreach crate,$(TOOLS),$(eval $(call RUST_TOOL,$(crate))))
CRATEFILE_libc := $(SREL)src/liblibc/src/lib.rs
RUSTFLAGS_libc := --cfg stdbuild