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import std._str;
import std._vec;
import std._str.rustrt.sbuf;
import std._vec.rustrt.vbuf;
import std.map.hashmap;
import front.ast;
import driver.session;
import back.x86;
import back.abi;
import util.common.istr;
import util.common.new_str_hash;
import lib.llvm.llvm;
import lib.llvm.builder;
import lib.llvm.llvm.ModuleRef;
import lib.llvm.llvm.ValueRef;
import lib.llvm.llvm.TypeRef;
import lib.llvm.llvm.BuilderRef;
import lib.llvm.llvm.BasicBlockRef;
import lib.llvm.False;
import lib.llvm.True;
type glue_fns = rec(ValueRef activate_glue,
ValueRef yield_glue,
vec[ValueRef] upcall_glues);
type trans_ctxt = rec(session.session sess,
ModuleRef llmod,
hashmap[str,ValueRef] upcalls,
hashmap[str,ValueRef] fns,
@glue_fns glues,
str path);
type fn_ctxt = rec(ValueRef llfn,
ValueRef lloutptr,
ValueRef lltaskptr,
@trans_ctxt tcx);
type terminator = fn(@fn_ctxt cx, builder build);
type block_ctxt = rec(BasicBlockRef llbb,
builder build,
terminator term,
@fn_ctxt fcx);
// LLVM type constructors.
fn T_nil() -> TypeRef {
ret llvm.LLVMVoidType();
}
fn T_int() -> TypeRef {
ret llvm.LLVMInt32Type();
}
fn T_fn(vec[TypeRef] inputs, TypeRef output) -> TypeRef {
ret llvm.LLVMFunctionType(output,
_vec.buf[TypeRef](inputs),
_vec.len[TypeRef](inputs),
False);
}
fn T_ptr(TypeRef t) -> TypeRef {
ret llvm.LLVMPointerType(t, 0u);
}
fn T_struct(vec[TypeRef] elts) -> TypeRef {
ret llvm.LLVMStructType(_vec.buf[TypeRef](elts),
_vec.len[TypeRef](elts),
False);
}
fn T_opaque() -> TypeRef {
ret llvm.LLVMOpaqueType();
}
fn T_task() -> TypeRef {
ret T_struct(vec(T_int(), // Refcount
T_int(), // Delegate pointer
T_int(), // Stack segment pointer
T_int(), // Runtime SP
T_int(), // Rust SP
T_int(), // GC chain
T_int(), // Domain pointer
T_int() // Crate cache pointer
));
}
fn T_crate() -> TypeRef {
ret T_struct(vec(T_int(), // ptrdiff_t image_base_off
T_int(), // uintptr_t self_addr
T_int(), // ptrdiff_t debug_abbrev_off
T_int(), // size_t debug_abbrev_sz
T_int(), // ptrdiff_t debug_info_off
T_int(), // size_t debug_info_sz
T_int(), // size_t activate_glue_off
T_int(), // size_t yield_glue_off
T_int(), // size_t unwind_glue_off
T_int(), // size_t gc_glue_off
T_int(), // size_t main_exit_task_glue_off
T_int(), // int n_rust_syms
T_int(), // int n_c_syms
T_int() //int n_libs
));
}
fn T_double() -> TypeRef {
ret llvm.LLVMDoubleType();
}
fn T_taskptr() -> TypeRef {
ret T_ptr(T_task());
}
// LLVM constant constructors.
fn C_null(TypeRef t) -> ValueRef {
ret llvm.LLVMConstNull(t);
}
fn C_int(int i) -> ValueRef {
// FIXME. We can't use LLVM.ULongLong with our existing minimal native
// API, which only knows word-sized args. Lucky for us LLVM has a "take a
// string encoding" version. Hilarious. Please fix to handle:
//
// ret llvm.LLVMConstInt(T_int(), t as LLVM.ULongLong, False);
//
ret llvm.LLVMConstIntOfString(T_int(),
_str.buf(istr(i)), 10);
}
fn C_str(str s) -> ValueRef {
ret llvm.LLVMConstString(_str.buf(s), _str.byte_len(s), False);
}
fn C_struct(vec[ValueRef] elts) -> ValueRef {
ret llvm.LLVMConstStruct(_vec.buf[ValueRef](elts),
_vec.len[ValueRef](elts),
False);
}
fn decl_cdecl_fn(ModuleRef llmod, str name,
vec[TypeRef] inputs, TypeRef output) -> ValueRef {
let TypeRef llty = T_fn(inputs, output);
log "declaring " + name + " with type " + lib.llvm.type_to_str(llty);
let ValueRef llfn =
llvm.LLVMAddFunction(llmod, _str.buf(name), llty);
llvm.LLVMSetFunctionCallConv(llfn, lib.llvm.LLVMCCallConv);
ret llfn;
}
fn decl_glue(ModuleRef llmod, str s) -> ValueRef {
ret decl_cdecl_fn(llmod, s, vec(T_taskptr()), T_nil());
}
fn decl_upcall(ModuleRef llmod, uint _n) -> ValueRef {
// It doesn't actually matter what type we come up with here, at the
// moment, as we cast the upcall function pointers to int before passing
// them to the indirect upcall-invocation glue. But eventually we'd like
// to call them directly, once we have a calling convention worked out.
let int n = _n as int;
let str s = abi.upcall_glue_name(n);
let vec[TypeRef] args =
vec(T_taskptr(), // taskptr
T_int()) // callee
+ _vec.init_elt[TypeRef](T_int(), n as uint);
ret decl_cdecl_fn(llmod, s, args, T_int());
}
fn get_upcall(@trans_ctxt cx, str name, int n_args) -> ValueRef {
if (cx.upcalls.contains_key(name)) {
ret cx.upcalls.get(name);
}
auto inputs = vec(T_taskptr());
inputs += _vec.init_elt[TypeRef](T_int(), n_args as uint);
auto output = T_nil();
auto f = decl_cdecl_fn(cx.llmod, name, inputs, output);
cx.upcalls.insert(name, f);
ret f;
}
fn trans_upcall(@block_ctxt cx, str name, vec[ValueRef] args) -> ValueRef {
let int n = _vec.len[ValueRef](args) as int;
let ValueRef llupcall = get_upcall(cx.fcx.tcx, name, n);
llupcall = llvm.LLVMConstPointerCast(llupcall, T_int());
let ValueRef llglue = cx.fcx.tcx.glues.upcall_glues.(n);
let vec[ValueRef] call_args = vec(cx.fcx.lltaskptr, llupcall) + args;
log "emitting indirect-upcall via " + abi.upcall_glue_name(n);
for (ValueRef v in call_args) {
log "arg: " + lib.llvm.type_to_str(llvm.LLVMTypeOf(v));
}
log "emitting call to callee of type: " +
lib.llvm.type_to_str(llvm.LLVMTypeOf(llglue));
ret cx.build.Call(llglue, call_args);
}
fn trans_log(@block_ctxt cx, &ast.atom a) {
alt (a) {
case (ast.atom_lit(?lit)) {
alt (*lit) {
case (ast.lit_int(?i)) {
trans_upcall(cx, "upcall_log_int", vec(C_int(i)));
}
case (_) {
cx.fcx.tcx.sess.unimpl("literal variant in trans_log");
}
}
}
case (_) {
cx.fcx.tcx.sess.unimpl("atom variant in trans_log");
}
}
}
fn trans_stmt(@block_ctxt cx, &ast.stmt s) {
alt (s) {
case (ast.stmt_log(?a)) {
trans_log(cx, *a);
}
case (_) {
cx.fcx.tcx.sess.unimpl("stmt variant");
}
}
}
fn default_terminate(@fn_ctxt cx, builder build) {
build.RetVoid();
}
fn new_builder(BasicBlockRef llbb) -> builder {
let BuilderRef llbuild = llvm.LLVMCreateBuilder();
llvm.LLVMPositionBuilderAtEnd(llbuild, llbb);
ret builder(llbuild);
}
fn trans_block(@fn_ctxt cx, &ast.block b, terminator term) {
let BasicBlockRef llbb =
llvm.LLVMAppendBasicBlock(cx.llfn, _str.buf(""));
auto bcx = @rec(llbb=llbb,
build=new_builder(llbb),
term=term,
fcx=cx);
for (@ast.stmt s in b) {
trans_stmt(bcx, *s);
}
bcx.term(cx, bcx.build);
}
fn trans_fn(@trans_ctxt cx, &ast._fn f) {
let vec[TypeRef] args = vec(T_ptr(T_int()), // outptr.
T_taskptr() // taskptr
);
let ValueRef llfn = decl_cdecl_fn(cx.llmod, cx.path, args, T_nil());
cx.fns.insert(cx.path, llfn);
let ValueRef lloutptr = llvm.LLVMGetParam(llfn, 0u);
let ValueRef lltaskptr = llvm.LLVMGetParam(llfn, 1u);
auto fcx = @rec(llfn=llfn,
lloutptr=lloutptr,
lltaskptr=lltaskptr,
tcx=cx);
auto term = default_terminate;
trans_block(fcx, f.body, term);
}
fn trans_item(@trans_ctxt cx, &str name, &ast.item item) {
auto sub_cx = @rec(path=cx.path + "." + name with *cx);
alt (item) {
case (ast.item_fn(?f)) {
trans_fn(sub_cx, *f);
}
case (ast.item_mod(?m)) {
trans_mod(sub_cx, *m);
}
}
}
fn trans_mod(@trans_ctxt cx, &ast._mod m) {
for each (tup(str, ast.item) pair in m.items()) {
trans_item(cx, pair._0, pair._1);
}
}
fn p2i(ValueRef v) -> ValueRef {
ret llvm.LLVMConstPtrToInt(v, T_int());
}
fn crate_constant(@trans_ctxt cx) -> ValueRef {
let ValueRef crate_ptr =
llvm.LLVMAddGlobal(cx.llmod, T_crate(),
_str.buf("rust_crate"));
let ValueRef crate_addr = p2i(crate_ptr);
let ValueRef activate_glue_off =
llvm.LLVMConstSub(p2i(cx.glues.activate_glue), crate_addr);
let ValueRef yield_glue_off =
llvm.LLVMConstSub(p2i(cx.glues.yield_glue), crate_addr);
// FIXME: we aren't generating the exit-task glue yet.
// llvm.LLVMConstSub(p2i(cx.glues.exit_task_glue), crate_addr);
let ValueRef exit_task_glue_off = C_null(T_int());
let ValueRef crate_val =
C_struct(vec(C_null(T_int()), // ptrdiff_t image_base_off
p2i(crate_ptr), // uintptr_t self_addr
C_null(T_int()), // ptrdiff_t debug_abbrev_off
C_null(T_int()), // size_t debug_abbrev_sz
C_null(T_int()), // ptrdiff_t debug_info_off
C_null(T_int()), // size_t debug_info_sz
activate_glue_off, // size_t activate_glue_off
yield_glue_off, // size_t yield_glue_off
C_null(T_int()), // size_t unwind_glue_off
C_null(T_int()), // size_t gc_glue_off
exit_task_glue_off, // size_t main_exit_task_glue_off
C_null(T_int()), // int n_rust_syms
C_null(T_int()), // int n_c_syms
C_null(T_int()) // int n_libs
));
llvm.LLVMSetInitializer(crate_ptr, crate_val);
ret crate_ptr;
}
fn trans_main_fn(@trans_ctxt cx, ValueRef llcrate) {
auto T_main_args = vec(T_int(), T_int());
auto T_rust_start_args = vec(T_int(), T_int(), T_int(), T_int());
auto llmain =
decl_cdecl_fn(cx.llmod, "main", T_main_args, T_int());
auto llrust_start =
decl_cdecl_fn(cx.llmod, "rust_start", T_rust_start_args, T_int());
auto llargc = llvm.LLVMGetParam(llmain, 0u);
auto llargv = llvm.LLVMGetParam(llmain, 1u);
auto llrust_main = cx.fns.get("_rust.main");
//
// Emit the moral equivalent of:
//
// main(int argc, char **argv) {
// rust_start(&_rust.main, &crate, argc, argv);
// }
//
let BasicBlockRef llbb =
llvm.LLVMAppendBasicBlock(llmain, _str.buf(""));
auto b = new_builder(llbb);
auto start_args = vec(p2i(llrust_main), p2i(llcrate), llargc, llargv);
b.Ret(b.Call(llrust_start, start_args));
}
fn trans_crate(session.session sess, ast.crate crate) {
auto llmod =
llvm.LLVMModuleCreateWithNameInContext(_str.buf("rust_out"),
llvm.LLVMGetGlobalContext());
llvm.LLVMSetModuleInlineAsm(llmod, _str.buf(x86.get_module_asm()));
auto glues = @rec(activate_glue = decl_glue(llmod,
abi.activate_glue_name()),
yield_glue = decl_glue(llmod, abi.yield_glue_name()),
upcall_glues =
_vec.init_fn[ValueRef](bind decl_upcall(llmod, _),
abi.n_upcall_glues as uint));
auto cx = @rec(sess = sess,
llmod = llmod,
upcalls = new_str_hash[ValueRef](),
fns = new_str_hash[ValueRef](),
glues = glues,
path = "_rust");
trans_mod(cx, crate.module);
trans_main_fn(cx, crate_constant(cx));
llvm.LLVMWriteBitcodeToFile(llmod, _str.buf("rust_out.bc"));
llvm.LLVMDisposeModule(llmod);
}
//
// Local Variables:
// mode: rust
// fill-column: 78;
// indent-tabs-mode: nil
// c-basic-offset: 4
// buffer-file-coding-system: utf-8-unix
// compile-command: "make -k -C ../.. 2>&1 | sed -e 's/\\/x\\//x:\\//g'";
// End:
//
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