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zig_llvm: Reduce our exposure to LLVM API breakage.

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LLVM recently introduced new Triple::ArchType members in 19.1.3 which broke our
static assertions in zig_llvm.cpp. When implementing a fix for that, I realized
that we don't even need a lot of the stuff we have in zig_llvm.(cpp,h) anymore.
This commit trims the interface down considerably.
This commit is contained in:
Alex Rønne Petersen 2024-10-31 01:27:22 +01:00
parent 17a87d7341
commit f1f804e532
No known key found for this signature in database
6 changed files with 97 additions and 746 deletions
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5
src/codegen/llvm.zig
View File

@ -1363,7 +1363,10 @@ pub const Object = struct {
.large => .Large,
};
const float_abi: llvm.ABIType = if (comp.root_mod.resolved_target.result.floatAbi() == .hard) .Hard else .Soft;
const float_abi: llvm.TargetMachine.FloatABI = if (comp.root_mod.resolved_target.result.floatAbi() == .hard)
.Hard
else
.Soft;
var target_machine = llvm.TargetMachine.create(
target,

151
src/codegen/llvm/bindings.zig
View File

@ -57,6 +57,15 @@ pub const disposeMessage = LLVMDisposeMessage;
extern fn LLVMDisposeMessage(Message: [*:0]const u8) void;
pub const TargetMachine = opaque {
pub const FloatABI = enum(c_int) {
/// Target-specific (either soft or hard depending on triple, etc).
Default,
/// Soft float.
Soft,
// Hard float.
Hard,
};
pub const create = ZigLLVMCreateTargetMachine;
extern fn ZigLLVMCreateTargetMachine(
T: *Target,
@ -68,7 +77,7 @@ pub const TargetMachine = opaque {
CodeModel: CodeModel,
function_sections: bool,
data_sections: bool,
float_abi: ABIType,
float_abi: FloatABI,
abi_name: ?[*:0]const u8,
) *TargetMachine;
@ -108,7 +117,7 @@ pub const TargetMachine = opaque {
TraceStores: bool,
CollectControlFlow: bool,
pub const Type = enum(c_uint) {
pub const Type = enum(c_int) {
None = 0,
Function,
BB,
@ -166,15 +175,6 @@ pub const RelocMode = enum(c_int) {
ROPI_RWPI,
};
pub const ABIType = enum(c_int) {
/// Target-specific (either soft or hard depending on triple, etc).
Default,
/// Soft float.
Soft,
// Hard float.
Hard,
};
pub const Target = opaque {
pub const getFromTriple = LLVMGetTargetFromTriple;
extern fn LLVMGetTargetFromTriple(Triple: [*:0]const u8, T: **Target, ErrorMessage: *[*:0]const u8) Bool;
@ -303,16 +303,14 @@ pub const LinkCOFF = ZigLLDLinkCOFF;
pub const LinkELF = ZigLLDLinkELF;
pub const LinkWasm = ZigLLDLinkWasm;
pub const ObjectFormatType = enum(c_int) {
Unknown,
pub const ArchiveKind = enum(c_int) {
GNU,
GNU64,
BSD,
DARWIN,
DARWIN64,
COFF,
DXContainer,
ELF,
GOFF,
MachO,
SPIRV,
Wasm,
XCOFF,
AIXBIG,
};
pub const WriteArchive = ZigLLVMWriteArchive;
@ -320,125 +318,16 @@ extern fn ZigLLVMWriteArchive(
archive_name: [*:0]const u8,
file_names_ptr: [*]const [*:0]const u8,
file_names_len: usize,
os_type: OSType,
archive_kind: ArchiveKind,
) bool;
pub const OSType = enum(c_int) {
UnknownOS,
Darwin,
DragonFly,
FreeBSD,
Fuchsia,
IOS,
KFreeBSD,
Linux,
Lv2,
MacOSX,
NetBSD,
OpenBSD,
Solaris,
UEFI,
Win32,
ZOS,
Haiku,
RTEMS,
NaCl,
AIX,
CUDA,
NVCL,
AMDHSA,
PS4,
PS5,
ELFIAMCU,
TvOS,
WatchOS,
BridgeOS,
DriverKit,
XROS,
Mesa3D,
AMDPAL,
HermitCore,
Hurd,
WASI,
Emscripten,
ShaderModel,
LiteOS,
Serenity,
Vulkan,
};
pub const ArchType = enum(c_int) {
UnknownArch,
arm,
armeb,
aarch64,
aarch64_be,
aarch64_32,
arc,
avr,
bpfel,
bpfeb,
csky,
dxil,
hexagon,
loongarch32,
loongarch64,
m68k,
mips,
mipsel,
mips64,
mips64el,
msp430,
ppc,
ppcle,
ppc64,
ppc64le,
r600,
amdgcn,
riscv32,
riscv64,
sparc,
sparcv9,
sparcel,
systemz,
tce,
tcele,
thumb,
thumbeb,
x86,
x86_64,
xcore,
xtensa,
nvptx,
nvptx64,
le32,
le64,
amdil,
amdil64,
hsail,
hsail64,
spir,
spir64,
spirv,
spirv32,
spirv64,
kalimba,
shave,
lanai,
wasm32,
wasm64,
renderscript32,
renderscript64,
ve,
};
pub const ParseCommandLineOptions = ZigLLVMParseCommandLineOptions;
extern fn ZigLLVMParseCommandLineOptions(argc: usize, argv: [*]const [*:0]const u8) void;
pub const WriteImportLibrary = ZigLLVMWriteImportLibrary;
extern fn ZigLLVMWriteImportLibrary(
def_path: [*:0]const u8,
arch: ArchType,
coff_machine: c_uint,
output_lib_path: [*:0]const u8,
kill_at: bool,
) bool;

14
src/link.zig
View File

@ -1209,8 +1209,18 @@ pub const File = struct {
const llvm = @import("codegen/llvm.zig");
const target = comp.root_mod.resolved_target.result;
llvm.initializeLLVMTarget(target.cpu.arch);
const os_tag = llvm.targetOs(target.os.tag);
const bad = llvm_bindings.WriteArchive(full_out_path_z, object_files.items.ptr, object_files.items.len, os_tag);
const bad = llvm_bindings.WriteArchive(
full_out_path_z,
object_files.items.ptr,
object_files.items.len,
switch (target.os.tag) {
.linux => .GNU,
.freebsd, .openbsd => .BSD,
.macos, .ios => .DARWIN,
.windows => .GNU,
else => .GNU,
},
);
if (bad) return error.UnableToWriteArchive;
if (!base.disable_lld_caching) {

15
src/mingw.zig
View File

@ -279,11 +279,20 @@ pub fn buildImportLib(comp: *Compilation, lib_name: []const u8) !void {
if (!build_options.have_llvm) return error.ZigCompilerNotBuiltWithLLVMExtensions;
const llvm_bindings = @import("codegen/llvm/bindings.zig");
const llvm = @import("codegen/llvm.zig");
const arch_tag = llvm.targetArch(target.cpu.arch);
const def_final_path_z = try arena.dupeZ(u8, def_final_path);
const lib_final_path_z = try comp.global_cache_directory.joinZ(arena, &.{lib_final_path});
if (llvm_bindings.WriteImportLibrary(def_final_path_z.ptr, arch_tag, lib_final_path_z.ptr, true)) {
if (llvm_bindings.WriteImportLibrary(
def_final_path_z.ptr,
@intFromEnum(@as(std.coff.MachineType, switch (target.cpu.arch) {
.arm, .armeb, .thumb, .thumbeb => .ARMNT,
.aarch64, .aarch64_be => .ARM64,
.x86 => .I386,
.x86_64 => .X64,
else => unreachable,
})),
lib_final_path_z.ptr,
true,
)) {
// TODO surface a proper error here
log.err("unable to turn {s}.def into {s}.lib", .{ lib_name, lib_name });
return error.WritingImportLibFailed;

312
src/zig_llvm.cpp
View File

@ -50,6 +50,7 @@
#include <llvm/Support/Timer.h>
#include <llvm/Support/raw_ostream.h>
#include <llvm/Target/TargetMachine.h>
#include <llvm/Target/TargetOptions.h>
#include <llvm/Target/CodeGenCWrappers.h>
#include <llvm/Transforms/IPO.h>
#include <llvm/Transforms/IPO/AlwaysInliner.h>
@ -81,7 +82,7 @@ static const bool assertions_on = false;
LLVMTargetMachineRef ZigLLVMCreateTargetMachine(LLVMTargetRef T, const char *Triple,
const char *CPU, const char *Features, LLVMCodeGenOptLevel Level, LLVMRelocMode Reloc,
LLVMCodeModel CodeModel, bool function_sections, bool data_sections, ZigLLVMABIType float_abi,
LLVMCodeModel CodeModel, bool function_sections, bool data_sections, ZigLLVMFloatABI float_abi,
const char *abi_name)
{
std::optional<Reloc::Model> RM;
@ -133,13 +134,13 @@ LLVMTargetMachineRef ZigLLVMCreateTargetMachine(LLVMTargetRef T, const char *Tri
opt.FunctionSections = function_sections;
opt.DataSections = data_sections;
switch (float_abi) {
case ZigLLVMABITypeDefault:
case ZigLLVMFloatABI_Default:
opt.FloatABIType = FloatABI::Default;
break;
case ZigLLVMABITypeSoft:
case ZigLLVMFloatABI_Soft:
opt.FloatABIType = FloatABI::Soft;
break;
case ZigLLVMABITypeHard:
case ZigLLVMFloatABI_Hard:
opt.FloatABIType = FloatABI::Hard;
break;
}
@ -213,7 +214,7 @@ static SanitizerCoverageOptions getSanCovOptions(ZigLLVMCoverageOptions z) {
}
ZIG_EXTERN_C bool ZigLLVMTargetMachineEmitToFile(LLVMTargetMachineRef targ_machine_ref, LLVMModuleRef module_ref,
char **error_message, const struct ZigLLVMEmitOptions *options)
char **error_message, const ZigLLVMEmitOptions *options)
{
TimePassesIsEnabled = options->time_report;
@ -419,7 +420,7 @@ struct ZigDiagnosticHandler : public DiagnosticHandler {
BrokenDebugInfo = true;
}
return false;
}
}
};
void ZigLLVMEnableBrokenDebugInfoCheck(LLVMContextRef context_ref) {
@ -435,35 +436,10 @@ void ZigLLVMParseCommandLineOptions(size_t argc, const char *const *argv) {
cl::ParseCommandLineOptions(argc, argv);
}
bool ZigLLVMWriteImportLibrary(const char *def_path, const ZigLLVM_ArchType arch,
const char *output_lib_path, bool kill_at)
bool ZigLLVMWriteImportLibrary(const char *def_path, unsigned int coff_machine,
const char *output_lib_path, bool kill_at)
{
COFF::MachineTypes machine = COFF::IMAGE_FILE_MACHINE_UNKNOWN;
switch (arch) {
case ZigLLVM_x86:
machine = COFF::IMAGE_FILE_MACHINE_I386;
break;
case ZigLLVM_x86_64:
machine = COFF::IMAGE_FILE_MACHINE_AMD64;
break;
case ZigLLVM_arm:
case ZigLLVM_armeb:
case ZigLLVM_thumb:
case ZigLLVM_thumbeb:
machine = COFF::IMAGE_FILE_MACHINE_ARMNT;
break;
case ZigLLVM_aarch64:
case ZigLLVM_aarch64_be:
machine = COFF::IMAGE_FILE_MACHINE_ARM64;
break;
default:
break;
}
if (machine == COFF::IMAGE_FILE_MACHINE_UNKNOWN) {
return true;
}
COFF::MachineTypes machine = static_cast<COFF::MachineTypes>(coff_machine);
auto bufOrErr = MemoryBuffer::getFile(def_path);
if (!bufOrErr) {
@ -515,30 +491,8 @@ bool ZigLLVMWriteImportLibrary(const char *def_path, const ZigLLVM_ArchType arch
}
bool ZigLLVMWriteArchive(const char *archive_name, const char **file_names, size_t file_name_count,
ZigLLVM_OSType os_type)
ZigLLVMArchiveKind archive_kind)
{
object::Archive::Kind kind;
switch (os_type) {
case ZigLLVM_Win32:
// For some reason llvm-lib passes K_GNU on windows.
// See lib/ToolDrivers/llvm-lib/LibDriver.cpp:168 in libDriverMain
kind = object::Archive::K_GNU;
break;
case ZigLLVM_Linux:
kind = object::Archive::K_GNU;
break;
case ZigLLVM_MacOSX:
case ZigLLVM_Darwin:
case ZigLLVM_IOS:
kind = object::Archive::K_DARWIN;
break;
case ZigLLVM_OpenBSD:
case ZigLLVM_FreeBSD:
kind = object::Archive::K_BSD;
break;
default:
kind = object::Archive::K_GNU;
}
SmallVector<NewArchiveMember, 4> new_members;
for (size_t i = 0; i < file_name_count; i += 1) {
Expected<NewArchiveMember> new_member = NewArchiveMember::getFile(file_names[i], true);
@ -547,7 +501,7 @@ bool ZigLLVMWriteArchive(const char *archive_name, const char **file_names, size
new_members.push_back(std::move(*new_member));
}
Error err = writeArchive(archive_name, new_members,
SymtabWritingMode::NormalSymtab, kind, true, false, nullptr);
SymtabWritingMode::NormalSymtab, static_cast<object::Archive::Kind>(archive_kind), true, false, nullptr);
if (err) return true;
return false;
@ -586,236 +540,14 @@ bool ZigLLDLinkWasm(int argc, const char **argv, bool can_exit_early, bool disab
return lld::wasm::link(args, llvm::outs(), llvm::errs(), can_exit_early, disable_output);
}
static_assert((Triple::ArchType)ZigLLVM_UnknownArch == Triple::UnknownArch, "");
static_assert((Triple::ArchType)ZigLLVM_arm == Triple::arm, "");
static_assert((Triple::ArchType)ZigLLVM_armeb == Triple::armeb, "");
static_assert((Triple::ArchType)ZigLLVM_aarch64 == Triple::aarch64, "");
static_assert((Triple::ArchType)ZigLLVM_aarch64_be == Triple::aarch64_be, "");
static_assert((Triple::ArchType)ZigLLVM_aarch64_32 == Triple::aarch64_32, "");
static_assert((Triple::ArchType)ZigLLVM_arc == Triple::arc, "");
static_assert((Triple::ArchType)ZigLLVM_avr == Triple::avr, "");
static_assert((Triple::ArchType)ZigLLVM_bpfel == Triple::bpfel, "");
static_assert((Triple::ArchType)ZigLLVM_bpfeb == Triple::bpfeb, "");
static_assert((Triple::ArchType)ZigLLVM_csky == Triple::csky, "");
static_assert((Triple::ArchType)ZigLLVM_hexagon == Triple::hexagon, "");
static_assert((Triple::ArchType)ZigLLVM_m68k == Triple::m68k, "");
static_assert((Triple::ArchType)ZigLLVM_mips == Triple::mips, "");
static_assert((Triple::ArchType)ZigLLVM_mipsel == Triple::mipsel, "");
static_assert((Triple::ArchType)ZigLLVM_mips64 == Triple::mips64, "");
static_assert((Triple::ArchType)ZigLLVM_mips64el == Triple::mips64el, "");
static_assert((Triple::ArchType)ZigLLVM_msp430 == Triple::msp430, "");
static_assert((Triple::ArchType)ZigLLVM_ppc == Triple::ppc, "");
static_assert((Triple::ArchType)ZigLLVM_ppcle == Triple::ppcle, "");
static_assert((Triple::ArchType)ZigLLVM_ppc64 == Triple::ppc64, "");
static_assert((Triple::ArchType)ZigLLVM_ppc64le == Triple::ppc64le, "");
static_assert((Triple::ArchType)ZigLLVM_r600 == Triple::r600, "");
static_assert((Triple::ArchType)ZigLLVM_amdgcn == Triple::amdgcn, "");
static_assert((Triple::ArchType)ZigLLVM_riscv32 == Triple::riscv32, "");
static_assert((Triple::ArchType)ZigLLVM_riscv64 == Triple::riscv64, "");
static_assert((Triple::ArchType)ZigLLVM_sparc == Triple::sparc, "");
static_assert((Triple::ArchType)ZigLLVM_sparcv9 == Triple::sparcv9, "");
static_assert((Triple::ArchType)ZigLLVM_sparcel == Triple::sparcel, "");
static_assert((Triple::ArchType)ZigLLVM_systemz == Triple::systemz, "");
static_assert((Triple::ArchType)ZigLLVM_tce == Triple::tce, "");
static_assert((Triple::ArchType)ZigLLVM_tcele == Triple::tcele, "");
static_assert((Triple::ArchType)ZigLLVM_thumb == Triple::thumb, "");
static_assert((Triple::ArchType)ZigLLVM_thumbeb == Triple::thumbeb, "");
static_assert((Triple::ArchType)ZigLLVM_x86 == Triple::x86, "");
static_assert((Triple::ArchType)ZigLLVM_x86_64 == Triple::x86_64, "");
static_assert((Triple::ArchType)ZigLLVM_xcore == Triple::xcore, "");
static_assert((Triple::ArchType)ZigLLVM_xtensa == Triple::xtensa, "");
static_assert((Triple::ArchType)ZigLLVM_nvptx == Triple::nvptx, "");
static_assert((Triple::ArchType)ZigLLVM_nvptx64 == Triple::nvptx64, "");
static_assert((Triple::ArchType)ZigLLVM_le32 == Triple::le32, "");
static_assert((Triple::ArchType)ZigLLVM_le64 == Triple::le64, "");
static_assert((Triple::ArchType)ZigLLVM_amdil == Triple::amdil, "");
static_assert((Triple::ArchType)ZigLLVM_amdil64 == Triple::amdil64, "");
static_assert((Triple::ArchType)ZigLLVM_hsail == Triple::hsail, "");
static_assert((Triple::ArchType)ZigLLVM_hsail64 == Triple::hsail64, "");
static_assert((Triple::ArchType)ZigLLVM_spir == Triple::spir, "");
static_assert((Triple::ArchType)ZigLLVM_spir64 == Triple::spir64, "");
static_assert((Triple::ArchType)ZigLLVM_spirv == Triple::spirv, "");
static_assert((Triple::ArchType)ZigLLVM_spirv32 == Triple::spirv32, "");
static_assert((Triple::ArchType)ZigLLVM_spirv64 == Triple::spirv64, "");
static_assert((Triple::ArchType)ZigLLVM_kalimba == Triple::kalimba, "");
static_assert((Triple::ArchType)ZigLLVM_shave == Triple::shave, "");
static_assert((Triple::ArchType)ZigLLVM_lanai == Triple::lanai, "");
static_assert((Triple::ArchType)ZigLLVM_wasm32 == Triple::wasm32, "");
static_assert((Triple::ArchType)ZigLLVM_wasm64 == Triple::wasm64, "");
static_assert((Triple::ArchType)ZigLLVM_renderscript32 == Triple::renderscript32, "");
static_assert((Triple::ArchType)ZigLLVM_renderscript64 == Triple::renderscript64, "");
static_assert((Triple::ArchType)ZigLLVM_ve == Triple::ve, "");
static_assert((Triple::ArchType)ZigLLVM_LastArchType == Triple::LastArchType, "");
static_assert((FloatABI::ABIType)ZigLLVMFloatABI_Default == FloatABI::ABIType::Default, "");
static_assert((FloatABI::ABIType)ZigLLVMFloatABI_Soft == FloatABI::ABIType::Soft, "");
static_assert((FloatABI::ABIType)ZigLLVMFloatABI_Hard == FloatABI::ABIType::Hard, "");
static_assert((Triple::VendorType)ZigLLVM_UnknownVendor == Triple::UnknownVendor, "");
static_assert((Triple::VendorType)ZigLLVM_Apple == Triple::Apple, "");
static_assert((Triple::VendorType)ZigLLVM_PC == Triple::PC, "");
static_assert((Triple::VendorType)ZigLLVM_SCEI == Triple::SCEI, "");
static_assert((Triple::VendorType)ZigLLVM_Freescale == Triple::Freescale, "");
static_assert((Triple::VendorType)ZigLLVM_IBM == Triple::IBM, "");
static_assert((Triple::VendorType)ZigLLVM_ImaginationTechnologies == Triple::ImaginationTechnologies, "");
static_assert((Triple::VendorType)ZigLLVM_MipsTechnologies == Triple::MipsTechnologies, "");
static_assert((Triple::VendorType)ZigLLVM_NVIDIA == Triple::NVIDIA, "");
static_assert((Triple::VendorType)ZigLLVM_CSR == Triple::CSR, "");
static_assert((Triple::VendorType)ZigLLVM_AMD == Triple::AMD, "");
static_assert((Triple::VendorType)ZigLLVM_Mesa == Triple::Mesa, "");
static_assert((Triple::VendorType)ZigLLVM_SUSE == Triple::SUSE, "");
static_assert((Triple::VendorType)ZigLLVM_OpenEmbedded == Triple::OpenEmbedded, "");
static_assert((Triple::VendorType)ZigLLVM_LastVendorType == Triple::LastVendorType, "");
static_assert((Triple::OSType)ZigLLVM_UnknownOS == Triple::UnknownOS, "");
static_assert((Triple::OSType)ZigLLVM_Darwin == Triple::Darwin, "");
static_assert((Triple::OSType)ZigLLVM_DragonFly == Triple::DragonFly, "");
static_assert((Triple::OSType)ZigLLVM_FreeBSD == Triple::FreeBSD, "");
static_assert((Triple::OSType)ZigLLVM_Fuchsia == Triple::Fuchsia, "");
static_assert((Triple::OSType)ZigLLVM_IOS == Triple::IOS, "");
// Commented out to work around a Debian/Ubuntu bug.
// See https://github.com/ziglang/zig/issues/2076
//static_assert((Triple::OSType)ZigLLVM_KFreeBSD == Triple::KFreeBSD, "");
static_assert((Triple::OSType)ZigLLVM_Linux == Triple::Linux, "");
static_assert((Triple::OSType)ZigLLVM_Lv2 == Triple::Lv2, "");
static_assert((Triple::OSType)ZigLLVM_MacOSX == Triple::MacOSX, "");
static_assert((Triple::OSType)ZigLLVM_NetBSD == Triple::NetBSD, "");
static_assert((Triple::OSType)ZigLLVM_OpenBSD == Triple::OpenBSD, "");
static_assert((Triple::OSType)ZigLLVM_Solaris == Triple::Solaris, "");
static_assert((Triple::OSType)ZigLLVM_UEFI == Triple::UEFI, "");
static_assert((Triple::OSType)ZigLLVM_Win32 == Triple::Win32, "");
static_assert((Triple::OSType)ZigLLVM_ZOS == Triple::ZOS, "");
static_assert((Triple::OSType)ZigLLVM_Haiku == Triple::Haiku, "");
static_assert((Triple::OSType)ZigLLVM_RTEMS == Triple::RTEMS, "");
static_assert((Triple::OSType)ZigLLVM_NaCl == Triple::NaCl, "");
static_assert((Triple::OSType)ZigLLVM_AIX == Triple::AIX, "");
static_assert((Triple::OSType)ZigLLVM_CUDA == Triple::CUDA, "");
static_assert((Triple::OSType)ZigLLVM_NVCL == Triple::NVCL, "");
static_assert((Triple::OSType)ZigLLVM_AMDHSA == Triple::AMDHSA, "");
static_assert((Triple::OSType)ZigLLVM_PS4 == Triple::PS4, "");
static_assert((Triple::OSType)ZigLLVM_ELFIAMCU == Triple::ELFIAMCU, "");
static_assert((Triple::OSType)ZigLLVM_TvOS == Triple::TvOS, "");
static_assert((Triple::OSType)ZigLLVM_WatchOS == Triple::WatchOS, "");
static_assert((Triple::OSType)ZigLLVM_BridgeOS == Triple::BridgeOS, "");
static_assert((Triple::OSType)ZigLLVM_DriverKit == Triple::DriverKit, "");
static_assert((Triple::OSType)ZigLLVM_XROS == Triple::XROS, "");
static_assert((Triple::OSType)ZigLLVM_Mesa3D == Triple::Mesa3D, "");
static_assert((Triple::OSType)ZigLLVM_AMDPAL == Triple::AMDPAL, "");
static_assert((Triple::OSType)ZigLLVM_HermitCore == Triple::HermitCore, "");
static_assert((Triple::OSType)ZigLLVM_Hurd == Triple::Hurd, "");
static_assert((Triple::OSType)ZigLLVM_WASI == Triple::WASI, "");
static_assert((Triple::OSType)ZigLLVM_Emscripten == Triple::Emscripten, "");
static_assert((Triple::OSType)ZigLLVM_ShaderModel == Triple::ShaderModel, "");
static_assert((Triple::OSType)ZigLLVM_LiteOS == Triple::LiteOS, "");
static_assert((Triple::OSType)ZigLLVM_Serenity == Triple::Serenity, "");
static_assert((Triple::OSType)ZigLLVM_Vulkan == Triple::Vulkan, "");
static_assert((Triple::OSType)ZigLLVM_LastOSType == Triple::LastOSType, "");
static_assert((Triple::EnvironmentType)ZigLLVM_UnknownEnvironment == Triple::UnknownEnvironment, "");
static_assert((Triple::EnvironmentType)ZigLLVM_GNU == Triple::GNU, "");
static_assert((Triple::EnvironmentType)ZigLLVM_GNUABIN32 == Triple::GNUABIN32, "");
static_assert((Triple::EnvironmentType)ZigLLVM_GNUABI64 == Triple::GNUABI64, "");
static_assert((Triple::EnvironmentType)ZigLLVM_GNUEABI == Triple::GNUEABI, "");
static_assert((Triple::EnvironmentType)ZigLLVM_GNUEABIHF == Triple::GNUEABIHF, "");
static_assert((Triple::EnvironmentType)ZigLLVM_GNUF32 == Triple::GNUF32, "");
static_assert((Triple::EnvironmentType)ZigLLVM_GNUF64 == Triple::GNUF64, "");
static_assert((Triple::EnvironmentType)ZigLLVM_GNUSF == Triple::GNUSF, "");
static_assert((Triple::EnvironmentType)ZigLLVM_GNUX32 == Triple::GNUX32, "");
static_assert((Triple::EnvironmentType)ZigLLVM_GNUILP32 == Triple::GNUILP32, "");
static_assert((Triple::EnvironmentType)ZigLLVM_CODE16 == Triple::CODE16, "");
static_assert((Triple::EnvironmentType)ZigLLVM_EABI == Triple::EABI, "");
static_assert((Triple::EnvironmentType)ZigLLVM_EABIHF == Triple::EABIHF, "");
static_assert((Triple::EnvironmentType)ZigLLVM_Android == Triple::Android, "");
static_assert((Triple::EnvironmentType)ZigLLVM_Musl == Triple::Musl, "");
static_assert((Triple::EnvironmentType)ZigLLVM_MuslEABI == Triple::MuslEABI, "");
static_assert((Triple::EnvironmentType)ZigLLVM_MuslEABIHF == Triple::MuslEABIHF, "");
static_assert((Triple::EnvironmentType)ZigLLVM_MuslX32 == Triple::MuslX32, "");
static_assert((Triple::EnvironmentType)ZigLLVM_MSVC == Triple::MSVC, "");
static_assert((Triple::EnvironmentType)ZigLLVM_Itanium == Triple::Itanium, "");
static_assert((Triple::EnvironmentType)ZigLLVM_Cygnus == Triple::Cygnus, "");
static_assert((Triple::EnvironmentType)ZigLLVM_CoreCLR == Triple::CoreCLR, "");
static_assert((Triple::EnvironmentType)ZigLLVM_Simulator == Triple::Simulator, "");
static_assert((Triple::EnvironmentType)ZigLLVM_MacABI == Triple::MacABI, "");
static_assert((Triple::EnvironmentType)ZigLLVM_Pixel == Triple::Pixel, "");
static_assert((Triple::EnvironmentType)ZigLLVM_Vertex == Triple::Vertex, "");
static_assert((Triple::EnvironmentType)ZigLLVM_Geometry == Triple::Geometry, "");
static_assert((Triple::EnvironmentType)ZigLLVM_Hull == Triple::Hull, "");
static_assert((Triple::EnvironmentType)ZigLLVM_Domain == Triple::Domain, "");
static_assert((Triple::EnvironmentType)ZigLLVM_Compute == Triple::Compute, "");
static_assert((Triple::EnvironmentType)ZigLLVM_Library == Triple::Library, "");
static_assert((Triple::EnvironmentType)ZigLLVM_RayGeneration == Triple::RayGeneration, "");
static_assert((Triple::EnvironmentType)ZigLLVM_Intersection == Triple::Intersection, "");
static_assert((Triple::EnvironmentType)ZigLLVM_AnyHit == Triple::AnyHit, "");
static_assert((Triple::EnvironmentType)ZigLLVM_ClosestHit == Triple::ClosestHit, "");
static_assert((Triple::EnvironmentType)ZigLLVM_Miss == Triple::Miss, "");
static_assert((Triple::EnvironmentType)ZigLLVM_Callable == Triple::Callable, "");
static_assert((Triple::EnvironmentType)ZigLLVM_Mesh == Triple::Mesh, "");
static_assert((Triple::EnvironmentType)ZigLLVM_Amplification == Triple::Amplification, "");
static_assert((Triple::EnvironmentType)ZigLLVM_OpenCL == Triple::OpenCL, "");
static_assert((Triple::EnvironmentType)ZigLLVM_OpenHOS == Triple::OpenHOS, "");
static_assert((Triple::EnvironmentType)ZigLLVM_PAuthTest == Triple::PAuthTest, "");
static_assert((Triple::EnvironmentType)ZigLLVM_LastEnvironmentType == Triple::LastEnvironmentType, "");
static_assert((Triple::ObjectFormatType)ZigLLVM_UnknownObjectFormat == Triple::UnknownObjectFormat, "");
static_assert((Triple::ObjectFormatType)ZigLLVM_COFF == Triple::COFF, "");
static_assert((Triple::ObjectFormatType)ZigLLVM_ELF == Triple::ELF, "");
static_assert((Triple::ObjectFormatType)ZigLLVM_GOFF == Triple::GOFF, "");
static_assert((Triple::ObjectFormatType)ZigLLVM_MachO == Triple::MachO, "");
static_assert((Triple::ObjectFormatType)ZigLLVM_Wasm == Triple::Wasm, "");
static_assert((Triple::ObjectFormatType)ZigLLVM_XCOFF == Triple::XCOFF, "");
static_assert((CallingConv::ID)ZigLLVM_C == llvm::CallingConv::C, "");
static_assert((CallingConv::ID)ZigLLVM_Fast == llvm::CallingConv::Fast, "");
static_assert((CallingConv::ID)ZigLLVM_Cold == llvm::CallingConv::Cold, "");
static_assert((CallingConv::ID)ZigLLVM_GHC == llvm::CallingConv::GHC, "");
static_assert((CallingConv::ID)ZigLLVM_HiPE == llvm::CallingConv::HiPE, "");
static_assert((CallingConv::ID)ZigLLVM_AnyReg == llvm::CallingConv::AnyReg, "");
static_assert((CallingConv::ID)ZigLLVM_PreserveMost == llvm::CallingConv::PreserveMost, "");
static_assert((CallingConv::ID)ZigLLVM_PreserveAll == llvm::CallingConv::PreserveAll, "");
static_assert((CallingConv::ID)ZigLLVM_Swift == llvm::CallingConv::Swift, "");
static_assert((CallingConv::ID)ZigLLVM_CXX_FAST_TLS == llvm::CallingConv::CXX_FAST_TLS, "");
static_assert((CallingConv::ID)ZigLLVM_Tail == llvm::CallingConv::Tail, "");
static_assert((CallingConv::ID)ZigLLVM_CFGuard_Check == llvm::CallingConv::CFGuard_Check, "");
static_assert((CallingConv::ID)ZigLLVM_SwiftTail == llvm::CallingConv::SwiftTail, "");
static_assert((CallingConv::ID)ZigLLVM_FirstTargetCC == llvm::CallingConv::FirstTargetCC, "");
static_assert((CallingConv::ID)ZigLLVM_X86_StdCall == llvm::CallingConv::X86_StdCall, "");
static_assert((CallingConv::ID)ZigLLVM_X86_FastCall == llvm::CallingConv::X86_FastCall, "");
static_assert((CallingConv::ID)ZigLLVM_ARM_APCS == llvm::CallingConv::ARM_APCS, "");
static_assert((CallingConv::ID)ZigLLVM_ARM_AAPCS == llvm::CallingConv::ARM_AAPCS, "");
static_assert((CallingConv::ID)ZigLLVM_ARM_AAPCS_VFP == llvm::CallingConv::ARM_AAPCS_VFP, "");
static_assert((CallingConv::ID)ZigLLVM_MSP430_INTR == llvm::CallingConv::MSP430_INTR, "");
static_assert((CallingConv::ID)ZigLLVM_X86_ThisCall == llvm::CallingConv::X86_ThisCall, "");
static_assert((CallingConv::ID)ZigLLVM_PTX_Kernel == llvm::CallingConv::PTX_Kernel, "");
static_assert((CallingConv::ID)ZigLLVM_PTX_Device == llvm::CallingConv::PTX_Device, "");
static_assert((CallingConv::ID)ZigLLVM_SPIR_FUNC == llvm::CallingConv::SPIR_FUNC, "");
static_assert((CallingConv::ID)ZigLLVM_SPIR_KERNEL == llvm::CallingConv::SPIR_KERNEL, "");
static_assert((CallingConv::ID)ZigLLVM_Intel_OCL_BI == llvm::CallingConv::Intel_OCL_BI, "");
static_assert((CallingConv::ID)ZigLLVM_X86_64_SysV == llvm::CallingConv::X86_64_SysV, "");
static_assert((CallingConv::ID)ZigLLVM_Win64 == llvm::CallingConv::Win64, "");
static_assert((CallingConv::ID)ZigLLVM_X86_VectorCall == llvm::CallingConv::X86_VectorCall, "");
static_assert((CallingConv::ID)ZigLLVM_DUMMY_HHVM == llvm::CallingConv::DUMMY_HHVM, "");
static_assert((CallingConv::ID)ZigLLVM_DUMMY_HHVM_C == llvm::CallingConv::DUMMY_HHVM_C, "");
static_assert((CallingConv::ID)ZigLLVM_X86_INTR == llvm::CallingConv::X86_INTR, "");
static_assert((CallingConv::ID)ZigLLVM_AVR_INTR == llvm::CallingConv::AVR_INTR, "");
static_assert((CallingConv::ID)ZigLLVM_AVR_SIGNAL == llvm::CallingConv::AVR_SIGNAL, "");
static_assert((CallingConv::ID)ZigLLVM_AVR_BUILTIN == llvm::CallingConv::AVR_BUILTIN, "");
static_assert((CallingConv::ID)ZigLLVM_AMDGPU_VS == llvm::CallingConv::AMDGPU_VS, "");
static_assert((CallingConv::ID)ZigLLVM_AMDGPU_GS == llvm::CallingConv::AMDGPU_GS, "");
static_assert((CallingConv::ID)ZigLLVM_AMDGPU_PS == llvm::CallingConv::AMDGPU_PS, "");
static_assert((CallingConv::ID)ZigLLVM_AMDGPU_CS == llvm::CallingConv::AMDGPU_CS, "");
static_assert((CallingConv::ID)ZigLLVM_AMDGPU_KERNEL == llvm::CallingConv::AMDGPU_KERNEL, "");
static_assert((CallingConv::ID)ZigLLVM_X86_RegCall == llvm::CallingConv::X86_RegCall, "");
static_assert((CallingConv::ID)ZigLLVM_AMDGPU_HS == llvm::CallingConv::AMDGPU_HS, "");
static_assert((CallingConv::ID)ZigLLVM_MSP430_BUILTIN == llvm::CallingConv::MSP430_BUILTIN, "");
static_assert((CallingConv::ID)ZigLLVM_AMDGPU_LS == llvm::CallingConv::AMDGPU_LS, "");
static_assert((CallingConv::ID)ZigLLVM_AMDGPU_ES == llvm::CallingConv::AMDGPU_ES, "");
static_assert((CallingConv::ID)ZigLLVM_AArch64_VectorCall == llvm::CallingConv::AArch64_VectorCall, "");
static_assert((CallingConv::ID)ZigLLVM_AArch64_SVE_VectorCall == llvm::CallingConv::AArch64_SVE_VectorCall, "");
static_assert((CallingConv::ID)ZigLLVM_WASM_EmscriptenInvoke == llvm::CallingConv::WASM_EmscriptenInvoke, "");
static_assert((CallingConv::ID)ZigLLVM_AMDGPU_Gfx == llvm::CallingConv::AMDGPU_Gfx, "");
static_assert((CallingConv::ID)ZigLLVM_M68k_INTR == llvm::CallingConv::M68k_INTR, "");
static_assert((CallingConv::ID)ZigLLVM_AArch64_SME_ABI_Support_Routines_PreserveMost_From_X0 == llvm::CallingConv::AArch64_SME_ABI_Support_Routines_PreserveMost_From_X0, "");
static_assert((CallingConv::ID)ZigLLVM_AArch64_SME_ABI_Support_Routines_PreserveMost_From_X2 == llvm::CallingConv::AArch64_SME_ABI_Support_Routines_PreserveMost_From_X2, "");
static_assert((CallingConv::ID)ZigLLVM_AMDGPU_CS_Chain == llvm::CallingConv::AMDGPU_CS_Chain, "");
static_assert((CallingConv::ID)ZigLLVM_AMDGPU_CS_ChainPreserve == llvm::CallingConv::AMDGPU_CS_ChainPreserve, "");
static_assert((CallingConv::ID)ZigLLVM_M68k_RTD == llvm::CallingConv::M68k_RTD, "");
static_assert((CallingConv::ID)ZigLLVM_GRAAL == llvm::CallingConv::GRAAL, "");
static_assert((CallingConv::ID)ZigLLVM_ARM64EC_Thunk_X64 == llvm::CallingConv::ARM64EC_Thunk_X64, "");
static_assert((CallingConv::ID)ZigLLVM_ARM64EC_Thunk_Native == llvm::CallingConv::ARM64EC_Thunk_Native, "");
static_assert((CallingConv::ID)ZigLLVM_MaxID == llvm::CallingConv::MaxID, "");
static_assert((object::Archive::Kind)ZigLLVMArchiveKind_GNU == object::Archive::Kind::K_GNU, "");
static_assert((object::Archive::Kind)ZigLLVMArchiveKind_GNU64 == object::Archive::Kind::K_GNU64, "");
static_assert((object::Archive::Kind)ZigLLVMArchiveKind_BSD == object::Archive::Kind::K_BSD, "");
static_assert((object::Archive::Kind)ZigLLVMArchiveKind_DARWIN == object::Archive::Kind::K_DARWIN, "");
static_assert((object::Archive::Kind)ZigLLVMArchiveKind_DARWIN64 == object::Archive::Kind::K_DARWIN64, "");
static_assert((object::Archive::Kind)ZigLLVMArchiveKind_COFF == object::Archive::Kind::K_COFF, "");
static_assert((object::Archive::Kind)ZigLLVMArchiveKind_AIXBIG == object::Archive::Kind::K_AIXBIG, "");

346
src/zig_llvm.h
View File

@ -24,7 +24,8 @@
// ATTENTION: If you modify this file, be sure to update the corresponding
// extern function declarations in the self-hosted compiler.
// synchronize with llvm/include/Transforms/Instrumentation.h::SanitizerCoverageOptions::Type
// synchronize with codegen/llvm/bindings.zig::TargetMachine::EmitOptions::Coverage::Type
enum ZigLLVMCoverageType {
ZigLLVMCoverageType_None = 0,
ZigLLVMCoverageType_Function,
@ -67,18 +68,32 @@ struct ZigLLVMEmitOptions {
ZigLLVMCoverageOptions coverage;
};
ZIG_EXTERN_C bool ZigLLVMTargetMachineEmitToFile(LLVMTargetMachineRef targ_machine_ref, LLVMModuleRef module_ref,
char **error_message, const struct ZigLLVMEmitOptions *options);
enum ZigLLVMABIType {
ZigLLVMABITypeDefault, // Target-specific (either soft or hard depending on triple, etc).
ZigLLVMABITypeSoft, // Soft float.
ZigLLVMABITypeHard // Hard float.
// synchronize with llvm/include/Object/Archive.h::Object::Archive::Kind
// synchronize with codegen/llvm/bindings.zig::ArchiveKind
enum ZigLLVMArchiveKind {
ZigLLVMArchiveKind_GNU,
ZigLLVMArchiveKind_GNU64,
ZigLLVMArchiveKind_BSD,
ZigLLVMArchiveKind_DARWIN,
ZigLLVMArchiveKind_DARWIN64,
ZigLLVMArchiveKind_COFF,
ZigLLVMArchiveKind_AIXBIG,
};
// synchronize with llvm/include/Target/TargetOptions.h::FloatABI::ABIType
// synchronize with codegen/llvm/bindings.zig::TargetMachine::FloatABI
enum ZigLLVMFloatABI {
ZigLLVMFloatABI_Default, // Target-specific (either soft or hard depending on triple, etc).
ZigLLVMFloatABI_Soft, // Soft float.
ZigLLVMFloatABI_Hard // Hard float.
};
ZIG_EXTERN_C bool ZigLLVMTargetMachineEmitToFile(LLVMTargetMachineRef targ_machine_ref, LLVMModuleRef module_ref,
char **error_message, const ZigLLVMEmitOptions *options);
ZIG_EXTERN_C LLVMTargetMachineRef ZigLLVMCreateTargetMachine(LLVMTargetRef T, const char *Triple,
const char *CPU, const char *Features, LLVMCodeGenOptLevel Level, LLVMRelocMode Reloc,
LLVMCodeModel CodeModel, bool function_sections, bool data_sections, enum ZigLLVMABIType float_abi,
LLVMCodeModel CodeModel, bool function_sections, bool data_sections, ZigLLVMFloatABI float_abi,
const char *abi_name);
ZIG_EXTERN_C void ZigLLVMSetOptBisectLimit(LLVMContextRef context_ref, int limit);
@ -86,323 +101,16 @@ ZIG_EXTERN_C void ZigLLVMSetOptBisectLimit(LLVMContextRef context_ref, int limit
ZIG_EXTERN_C void ZigLLVMEnableBrokenDebugInfoCheck(LLVMContextRef context_ref);
ZIG_EXTERN_C bool ZigLLVMGetBrokenDebugInfo(LLVMContextRef context_ref);
enum ZigLLVMTailCallKind {
ZigLLVMTailCallKindNone,
ZigLLVMTailCallKindTail,
ZigLLVMTailCallKindMustTail,
ZigLLVMTailCallKindNoTail,
};
enum ZigLLVM_CallingConv {
ZigLLVM_C = 0,
ZigLLVM_Fast = 8,
ZigLLVM_Cold = 9,
ZigLLVM_GHC = 10,
ZigLLVM_HiPE = 11,
ZigLLVM_AnyReg = 13,
ZigLLVM_PreserveMost = 14,
ZigLLVM_PreserveAll = 15,
ZigLLVM_Swift = 16,
ZigLLVM_CXX_FAST_TLS = 17,
ZigLLVM_Tail = 18,
ZigLLVM_CFGuard_Check = 19,
ZigLLVM_SwiftTail = 20,
ZigLLVM_FirstTargetCC = 64,
ZigLLVM_X86_StdCall = 64,
ZigLLVM_X86_FastCall = 65,
ZigLLVM_ARM_APCS = 66,
ZigLLVM_ARM_AAPCS = 67,
ZigLLVM_ARM_AAPCS_VFP = 68,
ZigLLVM_MSP430_INTR = 69,
ZigLLVM_X86_ThisCall = 70,
ZigLLVM_PTX_Kernel = 71,
ZigLLVM_PTX_Device = 72,
ZigLLVM_SPIR_FUNC = 75,
ZigLLVM_SPIR_KERNEL = 76,
ZigLLVM_Intel_OCL_BI = 77,
ZigLLVM_X86_64_SysV = 78,
ZigLLVM_Win64 = 79,
ZigLLVM_X86_VectorCall = 80,
ZigLLVM_DUMMY_HHVM = 81,
ZigLLVM_DUMMY_HHVM_C = 82,
ZigLLVM_X86_INTR = 83,
ZigLLVM_AVR_INTR = 84,
ZigLLVM_AVR_SIGNAL = 85,
ZigLLVM_AVR_BUILTIN = 86,
ZigLLVM_AMDGPU_VS = 87,
ZigLLVM_AMDGPU_GS = 88,
ZigLLVM_AMDGPU_PS = 89,
ZigLLVM_AMDGPU_CS = 90,
ZigLLVM_AMDGPU_KERNEL = 91,
ZigLLVM_X86_RegCall = 92,
ZigLLVM_AMDGPU_HS = 93,
ZigLLVM_MSP430_BUILTIN = 94,
ZigLLVM_AMDGPU_LS = 95,
ZigLLVM_AMDGPU_ES = 96,
ZigLLVM_AArch64_VectorCall = 97,
ZigLLVM_AArch64_SVE_VectorCall = 98,
ZigLLVM_WASM_EmscriptenInvoke = 99,
ZigLLVM_AMDGPU_Gfx = 100,
ZigLLVM_M68k_INTR = 101,
ZigLLVM_AArch64_SME_ABI_Support_Routines_PreserveMost_From_X0 = 102,
ZigLLVM_AArch64_SME_ABI_Support_Routines_PreserveMost_From_X2 = 103,
ZigLLVM_AMDGPU_CS_Chain = 104,
ZigLLVM_AMDGPU_CS_ChainPreserve = 105,
ZigLLVM_M68k_RTD = 106,
ZigLLVM_GRAAL = 107,
ZigLLVM_ARM64EC_Thunk_X64 = 108,
ZigLLVM_ARM64EC_Thunk_Native = 109,
ZigLLVM_MaxID = 1023,
};
ZIG_EXTERN_C void ZigLLVMParseCommandLineOptions(size_t argc, const char *const *argv);
// synchronize with llvm/include/ADT/Triple.h::ArchType
// synchronize with std.Target.Cpu.Arch
// synchronize with codegen/llvm/bindings.zig::ArchType
enum ZigLLVM_ArchType {
ZigLLVM_UnknownArch,
ZigLLVM_arm, // ARM (little endian): arm, armv.*, xscale
ZigLLVM_armeb, // ARM (big endian): armeb
ZigLLVM_aarch64, // AArch64 (little endian): aarch64
ZigLLVM_aarch64_be, // AArch64 (big endian): aarch64_be
ZigLLVM_aarch64_32, // AArch64 (little endian) ILP32: aarch64_32
ZigLLVM_arc, // ARC: Synopsys ARC
ZigLLVM_avr, // AVR: Atmel AVR microcontroller
ZigLLVM_bpfel, // eBPF or extended BPF or 64-bit BPF (little endian)
ZigLLVM_bpfeb, // eBPF or extended BPF or 64-bit BPF (big endian)
ZigLLVM_csky, // CSKY: csky
ZigLLVM_dxil, // DXIL 32-bit DirectX bytecode
ZigLLVM_hexagon, // Hexagon: hexagon
ZigLLVM_loongarch32, // LoongArch (32-bit): loongarch32
ZigLLVM_loongarch64, // LoongArch (64-bit): loongarch64
ZigLLVM_m68k, // M68k: Motorola 680x0 family
ZigLLVM_mips, // MIPS: mips, mipsallegrex, mipsr6
ZigLLVM_mipsel, // MIPSEL: mipsel, mipsallegrexe, mipsr6el
ZigLLVM_mips64, // MIPS64: mips64, mips64r6, mipsn32, mipsn32r6
ZigLLVM_mips64el, // MIPS64EL: mips64el, mips64r6el, mipsn32el, mipsn32r6el
ZigLLVM_msp430, // MSP430: msp430
ZigLLVM_ppc, // PPC: powerpc
ZigLLVM_ppcle, // PPCLE: powerpc (little endian)
ZigLLVM_ppc64, // PPC64: powerpc64, ppu
ZigLLVM_ppc64le, // PPC64LE: powerpc64le
ZigLLVM_r600, // R600: AMD GPUs HD2XXX - HD6XXX
ZigLLVM_amdgcn, // AMDGCN: AMD GCN GPUs
ZigLLVM_riscv32, // RISC-V (32-bit): riscv32
ZigLLVM_riscv64, // RISC-V (64-bit): riscv64
ZigLLVM_sparc, // Sparc: sparc
ZigLLVM_sparcv9, // Sparcv9: Sparcv9
ZigLLVM_sparcel, // Sparc: (endianness = little). NB: 'Sparcle' is a CPU variant
ZigLLVM_systemz, // SystemZ: s390x
ZigLLVM_tce, // TCE (http://tce.cs.tut.fi/): tce
ZigLLVM_tcele, // TCE little endian (http://tce.cs.tut.fi/): tcele
ZigLLVM_thumb, // Thumb (little endian): thumb, thumbv.*
ZigLLVM_thumbeb, // Thumb (big endian): thumbeb
ZigLLVM_x86, // X86: i[3-9]86
ZigLLVM_x86_64, // X86-64: amd64, x86_64
ZigLLVM_xcore, // XCore: xcore
ZigLLVM_xtensa, // Tensilica: Xtensa
ZigLLVM_nvptx, // NVPTX: 32-bit
ZigLLVM_nvptx64, // NVPTX: 64-bit
ZigLLVM_le32, // le32: generic little-endian 32-bit CPU (PNaCl)
ZigLLVM_le64, // le64: generic little-endian 64-bit CPU (PNaCl)
ZigLLVM_amdil, // AMDIL
ZigLLVM_amdil64, // AMDIL with 64-bit pointers
ZigLLVM_hsail, // AMD HSAIL
ZigLLVM_hsail64, // AMD HSAIL with 64-bit pointers
ZigLLVM_spir, // SPIR: standard portable IR for OpenCL 32-bit version
ZigLLVM_spir64, // SPIR: standard portable IR for OpenCL 64-bit version
ZigLLVM_spirv, // SPIR-V with logical memory layout.
ZigLLVM_spirv32, // SPIR-V with 32-bit pointers
ZigLLVM_spirv64, // SPIR-V with 64-bit pointers
ZigLLVM_kalimba, // Kalimba: generic kalimba
ZigLLVM_shave, // SHAVE: Movidius vector VLIW processors
ZigLLVM_lanai, // Lanai: Lanai 32-bit
ZigLLVM_wasm32, // WebAssembly with 32-bit pointers
ZigLLVM_wasm64, // WebAssembly with 64-bit pointers
ZigLLVM_renderscript32, // 32-bit RenderScript
ZigLLVM_renderscript64, // 64-bit RenderScript
ZigLLVM_ve, // NEC SX-Aurora Vector Engine
ZigLLVM_LastArchType = ZigLLVM_ve
};
enum ZigLLVM_VendorType {
ZigLLVM_UnknownVendor,
ZigLLVM_Apple,
ZigLLVM_PC,
ZigLLVM_SCEI,
ZigLLVM_Freescale,
ZigLLVM_IBM,
ZigLLVM_ImaginationTechnologies,
ZigLLVM_MipsTechnologies,
ZigLLVM_NVIDIA,
ZigLLVM_CSR,
ZigLLVM_AMD,
ZigLLVM_Mesa,
ZigLLVM_SUSE,
ZigLLVM_OpenEmbedded,
ZigLLVM_LastVendorType = ZigLLVM_OpenEmbedded
};
// synchronize with llvm/include/ADT/Triple.h::OsType
// synchronize with std.Target.Os.Tag
// synchronize with codegen/llvm/bindings.zig::OsType
enum ZigLLVM_OSType {
ZigLLVM_UnknownOS,
ZigLLVM_Darwin,
ZigLLVM_DragonFly,
ZigLLVM_FreeBSD,
ZigLLVM_Fuchsia,
ZigLLVM_IOS,
ZigLLVM_KFreeBSD,
ZigLLVM_Linux,
ZigLLVM_Lv2, // PS3
ZigLLVM_MacOSX,
ZigLLVM_NetBSD,
ZigLLVM_OpenBSD,
ZigLLVM_Solaris,
ZigLLVM_UEFI,
ZigLLVM_Win32,
ZigLLVM_ZOS,
ZigLLVM_Haiku,
ZigLLVM_RTEMS,
ZigLLVM_NaCl, // Native Client
ZigLLVM_AIX,
ZigLLVM_CUDA, // NVIDIA CUDA
ZigLLVM_NVCL, // NVIDIA OpenCL
ZigLLVM_AMDHSA, // AMD HSA Runtime
ZigLLVM_PS4,
ZigLLVM_PS5,
ZigLLVM_ELFIAMCU,
ZigLLVM_TvOS, // Apple tvOS
ZigLLVM_WatchOS, // Apple watchOS
ZigLLVM_BridgeOS, // Apple bridgeOS
ZigLLVM_DriverKit, // Apple DriverKit
ZigLLVM_XROS, // Apple XROS
ZigLLVM_Mesa3D,
ZigLLVM_AMDPAL, // AMD PAL Runtime
ZigLLVM_HermitCore, // HermitCore Unikernel/Multikernel
ZigLLVM_Hurd, // GNU/Hurd
ZigLLVM_WASI, // Experimental WebAssembly OS
ZigLLVM_Emscripten,
ZigLLVM_ShaderModel, // DirectX ShaderModel
ZigLLVM_LiteOS,
ZigLLVM_Serenity,
ZigLLVM_Vulkan, // Vulkan SPIR-V
ZigLLVM_LastOSType = ZigLLVM_Vulkan
};
// Synchronize with target.cpp::abi_list
enum ZigLLVM_EnvironmentType {
ZigLLVM_UnknownEnvironment,
ZigLLVM_GNU,
ZigLLVM_GNUABIN32,
ZigLLVM_GNUABI64,
ZigLLVM_GNUEABI,
ZigLLVM_GNUEABIHF,
ZigLLVM_GNUF32,
ZigLLVM_GNUF64,
ZigLLVM_GNUSF,
ZigLLVM_GNUX32,
ZigLLVM_GNUILP32,
ZigLLVM_CODE16,
ZigLLVM_EABI,
ZigLLVM_EABIHF,
ZigLLVM_Android,
ZigLLVM_Musl,
ZigLLVM_MuslEABI,
ZigLLVM_MuslEABIHF,
ZigLLVM_MuslX32,
ZigLLVM_MSVC,
ZigLLVM_Itanium,
ZigLLVM_Cygnus,
ZigLLVM_CoreCLR,
ZigLLVM_Simulator, // Simulator variants of other systems, e.g., Apple's iOS
ZigLLVM_MacABI, // Mac Catalyst variant of Apple's iOS deployment target.
ZigLLVM_Pixel,
ZigLLVM_Vertex,
ZigLLVM_Geometry,
ZigLLVM_Hull,
ZigLLVM_Domain,
ZigLLVM_Compute,
ZigLLVM_Library,
ZigLLVM_RayGeneration,
ZigLLVM_Intersection,
ZigLLVM_AnyHit,
ZigLLVM_ClosestHit,
ZigLLVM_Miss,
ZigLLVM_Callable,
ZigLLVM_Mesh,
ZigLLVM_Amplification,
ZigLLVM_OpenCL,
ZigLLVM_OpenHOS,
ZigLLVM_PAuthTest,
ZigLLVM_LastEnvironmentType = ZigLLVM_PAuthTest
};
enum ZigLLVM_ObjectFormatType {
ZigLLVM_UnknownObjectFormat,
ZigLLVM_COFF,
ZigLLVM_DXContainer,
ZigLLVM_ELF,
ZigLLVM_GOFF,
ZigLLVM_MachO,
ZigLLVM_SPIRV,
ZigLLVM_Wasm,
ZigLLVM_XCOFF,
};
#define ZigLLVM_DIFlags_Zero 0U
#define ZigLLVM_DIFlags_Private 1U
#define ZigLLVM_DIFlags_Protected 2U
#define ZigLLVM_DIFlags_Public 3U
#define ZigLLVM_DIFlags_FwdDecl (1U << 2)
#define ZigLLVM_DIFlags_AppleBlock (1U << 3)
#define ZigLLVM_DIFlags_BlockByrefStruct (1U << 4)
#define ZigLLVM_DIFlags_Virtual (1U << 5)
#define ZigLLVM_DIFlags_Artificial (1U << 6)
#define ZigLLVM_DIFlags_Explicit (1U << 7)
#define ZigLLVM_DIFlags_Prototyped (1U << 8)
#define ZigLLVM_DIFlags_ObjcClassComplete (1U << 9)
#define ZigLLVM_DIFlags_ObjectPointer (1U << 10)
#define ZigLLVM_DIFlags_Vector (1U << 11)
#define ZigLLVM_DIFlags_StaticMember (1U << 12)
#define ZigLLVM_DIFlags_LValueReference (1U << 13)
#define ZigLLVM_DIFlags_RValueReference (1U << 14)
#define ZigLLVM_DIFlags_Reserved (1U << 15)
#define ZigLLVM_DIFlags_SingleInheritance (1U << 16)
#define ZigLLVM_DIFlags_MultipleInheritance (2 << 16)
#define ZigLLVM_DIFlags_VirtualInheritance (3 << 16)
#define ZigLLVM_DIFlags_IntroducedVirtual (1U << 18)
#define ZigLLVM_DIFlags_BitField (1U << 19)
#define ZigLLVM_DIFlags_NoReturn (1U << 20)
#define ZigLLVM_DIFlags_TypePassByValue (1U << 22)
#define ZigLLVM_DIFlags_TypePassByReference (1U << 23)
#define ZigLLVM_DIFlags_EnumClass (1U << 24)
#define ZigLLVM_DIFlags_Thunk (1U << 25)
#define ZigLLVM_DIFlags_NonTrivial (1U << 26)
#define ZigLLVM_DIFlags_BigEndian (1U << 27)
#define ZigLLVM_DIFlags_LittleEndian (1U << 28)
#define ZigLLVM_DIFlags_AllCallsDescribed (1U << 29)
ZIG_EXTERN_C bool ZigLLDLinkCOFF(int argc, const char **argv, bool can_exit_early, bool disable_output);
ZIG_EXTERN_C bool ZigLLDLinkELF(int argc, const char **argv, bool can_exit_early, bool disable_output);
ZIG_EXTERN_C bool ZigLLDLinkWasm(int argc, const char **argv, bool can_exit_early, bool disable_output);
ZIG_EXTERN_C bool ZigLLVMWriteArchive(const char *archive_name, const char **file_names, size_t file_name_count,
enum ZigLLVM_OSType os_type);
ZigLLVMArchiveKind archive_kind);
ZIG_EXTERN_C bool ZigLLVMWriteImportLibrary(const char *def_path, const enum ZigLLVM_ArchType arch,
const char *output_lib_path, bool kill_at);
ZIG_EXTERN_C bool ZigLLVMWriteImportLibrary(const char *def_path, unsigned int coff_machine,
const char *output_lib_path, bool kill_at);
#endif