From e69dacb431fb65dfb1ed099c9e9ae74a212fbfa1 Mon Sep 17 00:00:00 2001 From: Eduard-Mihai Burtescu Date: Fri, 5 Jan 2018 07:04:08 +0200 Subject: [PATCH] rustc_trans: rename ccx to cx. --- src/librustc_trans/abi.rs | 182 +++++------ src/librustc_trans/asm.rs | 16 +- src/librustc_trans/attributes.rs | 22 +- src/librustc_trans/base.rs | 196 ++++++------ src/librustc_trans/builder.rs | 60 ++-- src/librustc_trans/cabi_aarch64.rs | 20 +- src/librustc_trans/cabi_arm.rs | 22 +- src/librustc_trans/cabi_asmjs.rs | 8 +- src/librustc_trans/cabi_mips.rs | 14 +- src/librustc_trans/cabi_mips64.rs | 14 +- src/librustc_trans/cabi_powerpc.rs | 14 +- src/librustc_trans/cabi_powerpc64.rs | 22 +- src/librustc_trans/cabi_s390x.rs | 12 +- src/librustc_trans/cabi_sparc.rs | 14 +- src/librustc_trans/cabi_sparc64.rs | 20 +- src/librustc_trans/cabi_x86.rs | 12 +- src/librustc_trans/cabi_x86_64.rs | 14 +- src/librustc_trans/callee.rs | 34 +- src/librustc_trans/common.rs | 36 +-- src/librustc_trans/consts.rs | 116 +++---- src/librustc_trans/context.rs | 48 +-- .../debuginfo/create_scope_map.rs | 16 +- src/librustc_trans/debuginfo/gdb.rs | 28 +- src/librustc_trans/debuginfo/metadata.rs | 12 +- src/librustc_trans/debuginfo/mod.rs | 4 +- src/librustc_trans/debuginfo/namespace.rs | 24 +- src/librustc_trans/debuginfo/source_loc.rs | 4 +- src/librustc_trans/declare.rs | 58 ++-- src/librustc_trans/glue.rs | 28 +- src/librustc_trans/intrinsic.rs | 248 +++++++-------- src/librustc_trans/meth.rs | 36 +-- src/librustc_trans/mir/analyze.rs | 20 +- src/librustc_trans/mir/block.rs | 94 +++--- src/librustc_trans/mir/constant.rs | 298 +++++++++--------- src/librustc_trans/mir/mod.rs | 42 +-- src/librustc_trans/mir/operand.rs | 44 +-- src/librustc_trans/mir/place.rs | 84 ++--- src/librustc_trans/mir/rvalue.rs | 100 +++--- src/librustc_trans/trans_item.rs | 74 ++--- src/librustc_trans/type_.rs | 134 ++++---- src/librustc_trans/type_of.rs | 142 ++++----- 41 files changed, 1193 insertions(+), 1193 deletions(-) diff --git a/src/librustc_trans/abi.rs b/src/librustc_trans/abi.rs index 47e4d748e3f..c57242bc3ce 100644 --- a/src/librustc_trans/abi.rs +++ b/src/librustc_trans/abi.rs @@ -209,8 +209,8 @@ impl Reg { } impl Reg { - pub fn align(&self, ccx: &CodegenCx) -> Align { - let dl = ccx.data_layout(); + pub fn align(&self, cx: &CodegenCx) -> Align { + let dl = cx.data_layout(); match self.kind { RegKind::Integer => { match self.size.bits() { @@ -234,18 +234,18 @@ impl Reg { } } - pub fn llvm_type(&self, ccx: &CodegenCx) -> Type { + pub fn llvm_type(&self, cx: &CodegenCx) -> Type { match self.kind { - RegKind::Integer => Type::ix(ccx, self.size.bits()), + RegKind::Integer => Type::ix(cx, self.size.bits()), RegKind::Float => { match self.size.bits() { - 32 => Type::f32(ccx), - 64 => Type::f64(ccx), + 32 => Type::f32(cx), + 64 => Type::f64(cx), _ => bug!("unsupported float: {:?}", self) } } RegKind::Vector => { - Type::vector(&Type::i8(ccx), self.size.bytes()) + Type::vector(&Type::i8(cx), self.size.bytes()) } } } @@ -276,12 +276,12 @@ impl From for Uniform { } impl Uniform { - pub fn align(&self, ccx: &CodegenCx) -> Align { - self.unit.align(ccx) + pub fn align(&self, cx: &CodegenCx) -> Align { + self.unit.align(cx) } - pub fn llvm_type(&self, ccx: &CodegenCx) -> Type { - let llunit = self.unit.llvm_type(ccx); + pub fn llvm_type(&self, cx: &CodegenCx) -> Type { + let llunit = self.unit.llvm_type(cx); if self.total <= self.unit.size { return llunit; @@ -298,16 +298,16 @@ impl Uniform { assert_eq!(self.unit.kind, RegKind::Integer); let args: Vec<_> = (0..count).map(|_| llunit) - .chain(iter::once(Type::ix(ccx, rem_bytes * 8))) + .chain(iter::once(Type::ix(cx, rem_bytes * 8))) .collect(); - Type::struct_(ccx, &args, false) + Type::struct_(cx, &args, false) } } pub trait LayoutExt<'tcx> { fn is_aggregate(&self) -> bool; - fn homogeneous_aggregate<'a>(&self, ccx: &CodegenCx<'a, 'tcx>) -> Option; + fn homogeneous_aggregate<'a>(&self, cx: &CodegenCx<'a, 'tcx>) -> Option; } impl<'tcx> LayoutExt<'tcx> for TyLayout<'tcx> { @@ -321,7 +321,7 @@ impl<'tcx> LayoutExt<'tcx> for TyLayout<'tcx> { } } - fn homogeneous_aggregate<'a>(&self, ccx: &CodegenCx<'a, 'tcx>) -> Option { + fn homogeneous_aggregate<'a>(&self, cx: &CodegenCx<'a, 'tcx>) -> Option { match self.abi { layout::Abi::Uninhabited => None, @@ -354,7 +354,7 @@ impl<'tcx> LayoutExt<'tcx> for TyLayout<'tcx> { let is_union = match self.fields { layout::FieldPlacement::Array { count, .. } => { if count > 0 { - return self.field(ccx, 0).homogeneous_aggregate(ccx); + return self.field(cx, 0).homogeneous_aggregate(cx); } else { return None; } @@ -368,8 +368,8 @@ impl<'tcx> LayoutExt<'tcx> for TyLayout<'tcx> { return None; } - let field = self.field(ccx, i); - match (result, field.homogeneous_aggregate(ccx)) { + let field = self.field(cx, i); + match (result, field.homogeneous_aggregate(cx)) { // The field itself must be a homogeneous aggregate. (_, None) => return None, // If this is the first field, record the unit. @@ -423,34 +423,34 @@ impl From for CastTarget { } impl CastTarget { - pub fn size(&self, ccx: &CodegenCx) -> Size { + pub fn size(&self, cx: &CodegenCx) -> Size { match *self { CastTarget::Uniform(u) => u.total, CastTarget::Pair(a, b) => { - (a.size.abi_align(a.align(ccx)) + b.size) - .abi_align(self.align(ccx)) + (a.size.abi_align(a.align(cx)) + b.size) + .abi_align(self.align(cx)) } } } - pub fn align(&self, ccx: &CodegenCx) -> Align { + pub fn align(&self, cx: &CodegenCx) -> Align { match *self { - CastTarget::Uniform(u) => u.align(ccx), + CastTarget::Uniform(u) => u.align(cx), CastTarget::Pair(a, b) => { - ccx.data_layout().aggregate_align - .max(a.align(ccx)) - .max(b.align(ccx)) + cx.data_layout().aggregate_align + .max(a.align(cx)) + .max(b.align(cx)) } } } - pub fn llvm_type(&self, ccx: &CodegenCx) -> Type { + pub fn llvm_type(&self, cx: &CodegenCx) -> Type { match *self { - CastTarget::Uniform(u) => u.llvm_type(ccx), + CastTarget::Uniform(u) => u.llvm_type(cx), CastTarget::Pair(a, b) => { - Type::struct_(ccx, &[ - a.llvm_type(ccx), - b.llvm_type(ccx) + Type::struct_(cx, &[ + a.llvm_type(cx), + b.llvm_type(cx) ], false) } } @@ -547,8 +547,8 @@ impl<'a, 'tcx> ArgType<'tcx> { /// Get the LLVM type for an place of the original Rust type of /// this argument/return, i.e. the result of `type_of::type_of`. - pub fn memory_ty(&self, ccx: &CodegenCx<'a, 'tcx>) -> Type { - self.layout.llvm_type(ccx) + pub fn memory_ty(&self, cx: &CodegenCx<'a, 'tcx>) -> Type { + self.layout.llvm_type(cx) } /// Store a direct/indirect value described by this ArgType into a @@ -559,7 +559,7 @@ impl<'a, 'tcx> ArgType<'tcx> { if self.is_ignore() { return; } - let ccx = bcx.ccx; + let cx = bcx.cx; if self.is_indirect() { OperandValue::Ref(val, self.layout.align).store(bcx, dst) } else if let PassMode::Cast(cast) = self.mode { @@ -567,7 +567,7 @@ impl<'a, 'tcx> ArgType<'tcx> { // uses it for i16 -> {i8, i8}, but not for i24 -> {i8, i8, i8}. let can_store_through_cast_ptr = false; if can_store_through_cast_ptr { - let cast_dst = bcx.pointercast(dst.llval, cast.llvm_type(ccx).ptr_to()); + let cast_dst = bcx.pointercast(dst.llval, cast.llvm_type(cx).ptr_to()); bcx.store(val, cast_dst, self.layout.align); } else { // The actual return type is a struct, but the ABI @@ -585,9 +585,9 @@ impl<'a, 'tcx> ArgType<'tcx> { // bitcasting to the struct type yields invalid cast errors. // We instead thus allocate some scratch space... - let scratch_size = cast.size(ccx); - let scratch_align = cast.align(ccx); - let llscratch = bcx.alloca(cast.llvm_type(ccx), "abi_cast", scratch_align); + let scratch_size = cast.size(cx); + let scratch_align = cast.align(cx); + let llscratch = bcx.alloca(cast.llvm_type(cx), "abi_cast", scratch_align); bcx.lifetime_start(llscratch, scratch_size); // ...where we first store the value... @@ -595,9 +595,9 @@ impl<'a, 'tcx> ArgType<'tcx> { // ...and then memcpy it to the intended destination. base::call_memcpy(bcx, - bcx.pointercast(dst.llval, Type::i8p(ccx)), - bcx.pointercast(llscratch, Type::i8p(ccx)), - C_usize(ccx, self.layout.size.bytes()), + bcx.pointercast(dst.llval, Type::i8p(cx)), + bcx.pointercast(llscratch, Type::i8p(cx)), + C_usize(cx, self.layout.size.bytes()), self.layout.align.min(scratch_align)); bcx.lifetime_end(llscratch, scratch_size); @@ -647,26 +647,26 @@ pub struct FnType<'tcx> { } impl<'a, 'tcx> FnType<'tcx> { - pub fn of_instance(ccx: &CodegenCx<'a, 'tcx>, instance: &ty::Instance<'tcx>) + pub fn of_instance(cx: &CodegenCx<'a, 'tcx>, instance: &ty::Instance<'tcx>) -> Self { - let fn_ty = instance.ty(ccx.tcx); - let sig = ty_fn_sig(ccx, fn_ty); - let sig = ccx.tcx.erase_late_bound_regions_and_normalize(&sig); - FnType::new(ccx, sig, &[]) + let fn_ty = instance.ty(cx.tcx); + let sig = ty_fn_sig(cx, fn_ty); + let sig = cx.tcx.erase_late_bound_regions_and_normalize(&sig); + FnType::new(cx, sig, &[]) } - pub fn new(ccx: &CodegenCx<'a, 'tcx>, + pub fn new(cx: &CodegenCx<'a, 'tcx>, sig: ty::FnSig<'tcx>, extra_args: &[Ty<'tcx>]) -> FnType<'tcx> { - let mut fn_ty = FnType::unadjusted(ccx, sig, extra_args); - fn_ty.adjust_for_abi(ccx, sig.abi); + let mut fn_ty = FnType::unadjusted(cx, sig, extra_args); + fn_ty.adjust_for_abi(cx, sig.abi); fn_ty } - pub fn new_vtable(ccx: &CodegenCx<'a, 'tcx>, + pub fn new_vtable(cx: &CodegenCx<'a, 'tcx>, sig: ty::FnSig<'tcx>, extra_args: &[Ty<'tcx>]) -> FnType<'tcx> { - let mut fn_ty = FnType::unadjusted(ccx, sig, extra_args); + let mut fn_ty = FnType::unadjusted(cx, sig, extra_args); // Don't pass the vtable, it's not an argument of the virtual fn. { let self_arg = &mut fn_ty.args[0]; @@ -681,20 +681,20 @@ impl<'a, 'tcx> FnType<'tcx> { .unwrap_or_else(|| { bug!("FnType::new_vtable: non-pointer self {:?}", self_arg) }).ty; - let fat_ptr_ty = ccx.tcx.mk_mut_ptr(pointee); - self_arg.layout = ccx.layout_of(fat_ptr_ty).field(ccx, 0); + let fat_ptr_ty = cx.tcx.mk_mut_ptr(pointee); + self_arg.layout = cx.layout_of(fat_ptr_ty).field(cx, 0); } - fn_ty.adjust_for_abi(ccx, sig.abi); + fn_ty.adjust_for_abi(cx, sig.abi); fn_ty } - pub fn unadjusted(ccx: &CodegenCx<'a, 'tcx>, + pub fn unadjusted(cx: &CodegenCx<'a, 'tcx>, sig: ty::FnSig<'tcx>, extra_args: &[Ty<'tcx>]) -> FnType<'tcx> { debug!("FnType::unadjusted({:?}, {:?})", sig, extra_args); use self::Abi::*; - let cconv = match ccx.sess().target.target.adjust_abi(sig.abi) { + let cconv = match cx.sess().target.target.adjust_abi(sig.abi) { RustIntrinsic | PlatformIntrinsic | Rust | RustCall => llvm::CCallConv, @@ -737,7 +737,7 @@ impl<'a, 'tcx> FnType<'tcx> { extra_args }; - let target = &ccx.sess().target.target; + let target = &cx.sess().target.target; let win_x64_gnu = target.target_os == "windows" && target.arch == "x86_64" && target.target_env == "gnu"; @@ -772,7 +772,7 @@ impl<'a, 'tcx> FnType<'tcx> { } } - if let Some(pointee) = layout.pointee_info_at(ccx, offset) { + if let Some(pointee) = layout.pointee_info_at(cx, offset) { if let Some(kind) = pointee.safe { attrs.pointee_size = pointee.size; attrs.pointee_align = Some(pointee.align); @@ -809,7 +809,7 @@ impl<'a, 'tcx> FnType<'tcx> { }; let arg_of = |ty: Ty<'tcx>, is_return: bool| { - let mut arg = ArgType::new(ccx.layout_of(ty)); + let mut arg = ArgType::new(cx.layout_of(ty)); if arg.layout.is_zst() { // For some forsaken reason, x86_64-pc-windows-gnu // doesn't ignore zero-sized struct arguments. @@ -832,7 +832,7 @@ impl<'a, 'tcx> FnType<'tcx> { adjust_for_rust_scalar(&mut b_attrs, b, arg.layout, - a.value.size(ccx).abi_align(b.value.align(ccx)), + a.value.size(cx).abi_align(b.value.align(cx)), false); arg.mode = PassMode::Pair(a_attrs, b_attrs); return arg; @@ -863,7 +863,7 @@ impl<'a, 'tcx> FnType<'tcx> { } fn adjust_for_abi(&mut self, - ccx: &CodegenCx<'a, 'tcx>, + cx: &CodegenCx<'a, 'tcx>, abi: Abi) { if abi == Abi::Unadjusted { return } @@ -878,7 +878,7 @@ impl<'a, 'tcx> FnType<'tcx> { } let size = arg.layout.size; - if size > layout::Pointer.size(ccx) { + if size > layout::Pointer.size(cx) { arg.make_indirect(); } else { // We want to pass small aggregates as immediates, but using @@ -900,38 +900,38 @@ impl<'a, 'tcx> FnType<'tcx> { return; } - match &ccx.sess().target.target.arch[..] { + match &cx.sess().target.target.arch[..] { "x86" => { let flavor = if abi == Abi::Fastcall { cabi_x86::Flavor::Fastcall } else { cabi_x86::Flavor::General }; - cabi_x86::compute_abi_info(ccx, self, flavor); + cabi_x86::compute_abi_info(cx, self, flavor); }, "x86_64" => if abi == Abi::SysV64 { - cabi_x86_64::compute_abi_info(ccx, self); - } else if abi == Abi::Win64 || ccx.sess().target.target.options.is_like_windows { + cabi_x86_64::compute_abi_info(cx, self); + } else if abi == Abi::Win64 || cx.sess().target.target.options.is_like_windows { cabi_x86_win64::compute_abi_info(self); } else { - cabi_x86_64::compute_abi_info(ccx, self); + cabi_x86_64::compute_abi_info(cx, self); }, - "aarch64" => cabi_aarch64::compute_abi_info(ccx, self), - "arm" => cabi_arm::compute_abi_info(ccx, self), - "mips" => cabi_mips::compute_abi_info(ccx, self), - "mips64" => cabi_mips64::compute_abi_info(ccx, self), - "powerpc" => cabi_powerpc::compute_abi_info(ccx, self), - "powerpc64" => cabi_powerpc64::compute_abi_info(ccx, self), - "s390x" => cabi_s390x::compute_abi_info(ccx, self), - "asmjs" => cabi_asmjs::compute_abi_info(ccx, self), - "wasm32" => cabi_asmjs::compute_abi_info(ccx, self), + "aarch64" => cabi_aarch64::compute_abi_info(cx, self), + "arm" => cabi_arm::compute_abi_info(cx, self), + "mips" => cabi_mips::compute_abi_info(cx, self), + "mips64" => cabi_mips64::compute_abi_info(cx, self), + "powerpc" => cabi_powerpc::compute_abi_info(cx, self), + "powerpc64" => cabi_powerpc64::compute_abi_info(cx, self), + "s390x" => cabi_s390x::compute_abi_info(cx, self), + "asmjs" => cabi_asmjs::compute_abi_info(cx, self), + "wasm32" => cabi_asmjs::compute_abi_info(cx, self), "msp430" => cabi_msp430::compute_abi_info(self), - "sparc" => cabi_sparc::compute_abi_info(ccx, self), - "sparc64" => cabi_sparc64::compute_abi_info(ccx, self), + "sparc" => cabi_sparc::compute_abi_info(cx, self), + "sparc64" => cabi_sparc64::compute_abi_info(cx, self), "nvptx" => cabi_nvptx::compute_abi_info(self), "nvptx64" => cabi_nvptx64::compute_abi_info(self), "hexagon" => cabi_hexagon::compute_abi_info(self), - a => ccx.sess().fatal(&format!("unrecognized arch \"{}\" in target specification", a)) + a => cx.sess().fatal(&format!("unrecognized arch \"{}\" in target specification", a)) } if let PassMode::Indirect(ref mut attrs) = self.ret.mode { @@ -939,37 +939,37 @@ impl<'a, 'tcx> FnType<'tcx> { } } - pub fn llvm_type(&self, ccx: &CodegenCx<'a, 'tcx>) -> Type { + pub fn llvm_type(&self, cx: &CodegenCx<'a, 'tcx>) -> Type { let mut llargument_tys = Vec::new(); let llreturn_ty = match self.ret.mode { - PassMode::Ignore => Type::void(ccx), + PassMode::Ignore => Type::void(cx), PassMode::Direct(_) | PassMode::Pair(..) => { - self.ret.layout.immediate_llvm_type(ccx) + self.ret.layout.immediate_llvm_type(cx) } - PassMode::Cast(cast) => cast.llvm_type(ccx), + PassMode::Cast(cast) => cast.llvm_type(cx), PassMode::Indirect(_) => { - llargument_tys.push(self.ret.memory_ty(ccx).ptr_to()); - Type::void(ccx) + llargument_tys.push(self.ret.memory_ty(cx).ptr_to()); + Type::void(cx) } }; for arg in &self.args { // add padding if let Some(ty) = arg.pad { - llargument_tys.push(ty.llvm_type(ccx)); + llargument_tys.push(ty.llvm_type(cx)); } let llarg_ty = match arg.mode { PassMode::Ignore => continue, - PassMode::Direct(_) => arg.layout.immediate_llvm_type(ccx), + PassMode::Direct(_) => arg.layout.immediate_llvm_type(cx), PassMode::Pair(..) => { - llargument_tys.push(arg.layout.scalar_pair_element_llvm_type(ccx, 0)); - llargument_tys.push(arg.layout.scalar_pair_element_llvm_type(ccx, 1)); + llargument_tys.push(arg.layout.scalar_pair_element_llvm_type(cx, 0)); + llargument_tys.push(arg.layout.scalar_pair_element_llvm_type(cx, 1)); continue; } - PassMode::Cast(cast) => cast.llvm_type(ccx), - PassMode::Indirect(_) => arg.memory_ty(ccx).ptr_to(), + PassMode::Cast(cast) => cast.llvm_type(cx), + PassMode::Indirect(_) => arg.memory_ty(cx).ptr_to(), }; llargument_tys.push(llarg_ty); } diff --git a/src/librustc_trans/asm.rs b/src/librustc_trans/asm.rs index fd8bcef924e..33f5b737d6f 100644 --- a/src/librustc_trans/asm.rs +++ b/src/librustc_trans/asm.rs @@ -45,7 +45,7 @@ pub fn trans_inline_asm<'a, 'tcx>( if out.is_indirect { indirect_outputs.push(place.load(bcx).immediate()); } else { - output_types.push(place.layout.llvm_type(bcx.ccx)); + output_types.push(place.layout.llvm_type(bcx.cx)); } } if !indirect_outputs.is_empty() { @@ -76,9 +76,9 @@ pub fn trans_inline_asm<'a, 'tcx>( // Depending on how many outputs we have, the return type is different let num_outputs = output_types.len(); let output_type = match num_outputs { - 0 => Type::void(bcx.ccx), + 0 => Type::void(bcx.cx), 1 => output_types[0], - _ => Type::struct_(bcx.ccx, &output_types, false) + _ => Type::struct_(bcx.cx, &output_types, false) }; let dialect = match ia.dialect { @@ -109,20 +109,20 @@ pub fn trans_inline_asm<'a, 'tcx>( // back to source locations. See #17552. unsafe { let key = "srcloc"; - let kind = llvm::LLVMGetMDKindIDInContext(bcx.ccx.llcx, + let kind = llvm::LLVMGetMDKindIDInContext(bcx.cx.llcx, key.as_ptr() as *const c_char, key.len() as c_uint); - let val: llvm::ValueRef = C_i32(bcx.ccx, ia.ctxt.outer().as_u32() as i32); + let val: llvm::ValueRef = C_i32(bcx.cx, ia.ctxt.outer().as_u32() as i32); llvm::LLVMSetMetadata(r, kind, - llvm::LLVMMDNodeInContext(bcx.ccx.llcx, &val, 1)); + llvm::LLVMMDNodeInContext(bcx.cx.llcx, &val, 1)); } } -pub fn trans_global_asm<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, +pub fn trans_global_asm<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, ga: &hir::GlobalAsm) { let asm = CString::new(ga.asm.as_str().as_bytes()).unwrap(); unsafe { - llvm::LLVMRustAppendModuleInlineAsm(ccx.llmod, asm.as_ptr()); + llvm::LLVMRustAppendModuleInlineAsm(cx.llmod, asm.as_ptr()); } } diff --git a/src/librustc_trans/attributes.rs b/src/librustc_trans/attributes.rs index 8619577560c..6c8088375c4 100644 --- a/src/librustc_trans/attributes.rs +++ b/src/librustc_trans/attributes.rs @@ -67,27 +67,27 @@ pub fn naked(val: ValueRef, is_naked: bool) { Attribute::Naked.toggle_llfn(Function, val, is_naked); } -pub fn set_frame_pointer_elimination(ccx: &CodegenCx, llfn: ValueRef) { +pub fn set_frame_pointer_elimination(cx: &CodegenCx, llfn: ValueRef) { // FIXME: #11906: Omitting frame pointers breaks retrieving the value of a // parameter. - if ccx.sess().must_not_eliminate_frame_pointers() { + if cx.sess().must_not_eliminate_frame_pointers() { llvm::AddFunctionAttrStringValue( llfn, llvm::AttributePlace::Function, cstr("no-frame-pointer-elim\0"), cstr("true\0")); } } -pub fn set_probestack(ccx: &CodegenCx, llfn: ValueRef) { +pub fn set_probestack(cx: &CodegenCx, llfn: ValueRef) { // Only use stack probes if the target specification indicates that we // should be using stack probes - if !ccx.sess().target.target.options.stack_probes { + if !cx.sess().target.target.options.stack_probes { return } // Currently stack probes seem somewhat incompatible with the address // sanitizer. With asan we're already protected from stack overflow anyway // so we don't really need stack probes regardless. - match ccx.sess().opts.debugging_opts.sanitizer { + match cx.sess().opts.debugging_opts.sanitizer { Some(Sanitizer::Address) => return, _ => {} } @@ -101,13 +101,13 @@ pub fn set_probestack(ccx: &CodegenCx, llfn: ValueRef) { /// Composite function which sets LLVM attributes for function depending on its AST (#[attribute]) /// attributes. -pub fn from_fn_attrs(ccx: &CodegenCx, llfn: ValueRef, id: DefId) { +pub fn from_fn_attrs(cx: &CodegenCx, llfn: ValueRef, id: DefId) { use syntax::attr::*; - let attrs = ccx.tcx.get_attrs(id); - inline(llfn, find_inline_attr(Some(ccx.sess().diagnostic()), &attrs)); + let attrs = cx.tcx.get_attrs(id); + inline(llfn, find_inline_attr(Some(cx.sess().diagnostic()), &attrs)); - set_frame_pointer_elimination(ccx, llfn); - set_probestack(ccx, llfn); + set_frame_pointer_elimination(cx, llfn); + set_probestack(cx, llfn); for attr in attrs.iter() { if attr.check_name("cold") { @@ -124,7 +124,7 @@ pub fn from_fn_attrs(ccx: &CodegenCx, llfn: ValueRef, id: DefId) { } } - let target_features = ccx.tcx.target_features_enabled(id); + let target_features = cx.tcx.target_features_enabled(id); if !target_features.is_empty() { let val = CString::new(target_features.join(",")).unwrap(); llvm::AddFunctionAttrStringValue( diff --git a/src/librustc_trans/base.rs b/src/librustc_trans/base.rs index 593c5699245..e5f2a51ed3b 100644 --- a/src/librustc_trans/base.rs +++ b/src/librustc_trans/base.rs @@ -94,16 +94,16 @@ pub use rustc_trans_utils::{find_exported_symbols, check_for_rustc_errors_attr}; pub use rustc_mir::monomorphize::item::linkage_by_name; pub struct StatRecorder<'a, 'tcx: 'a> { - ccx: &'a CodegenCx<'a, 'tcx>, + cx: &'a CodegenCx<'a, 'tcx>, name: Option, istart: usize, } impl<'a, 'tcx> StatRecorder<'a, 'tcx> { - pub fn new(ccx: &'a CodegenCx<'a, 'tcx>, name: String) -> StatRecorder<'a, 'tcx> { - let istart = ccx.stats.borrow().n_llvm_insns; + pub fn new(cx: &'a CodegenCx<'a, 'tcx>, name: String) -> StatRecorder<'a, 'tcx> { + let istart = cx.stats.borrow().n_llvm_insns; StatRecorder { - ccx, + cx, name: Some(name), istart, } @@ -112,8 +112,8 @@ impl<'a, 'tcx> StatRecorder<'a, 'tcx> { impl<'a, 'tcx> Drop for StatRecorder<'a, 'tcx> { fn drop(&mut self) { - if self.ccx.sess().trans_stats() { - let mut stats = self.ccx.stats.borrow_mut(); + if self.cx.sess().trans_stats() { + let mut stats = self.cx.stats.borrow_mut(); let iend = stats.n_llvm_insns; stats.fn_stats.push((self.name.take().unwrap(), iend - self.istart)); stats.n_fns += 1; @@ -189,15 +189,15 @@ pub fn compare_simd_types<'a, 'tcx>( /// The `old_info` argument is a bit funny. It is intended for use /// in an upcast, where the new vtable for an object will be derived /// from the old one. -pub fn unsized_info<'ccx, 'tcx>(ccx: &CodegenCx<'ccx, 'tcx>, +pub fn unsized_info<'cx, 'tcx>(cx: &CodegenCx<'cx, 'tcx>, source: Ty<'tcx>, target: Ty<'tcx>, old_info: Option) -> ValueRef { - let (source, target) = ccx.tcx.struct_lockstep_tails(source, target); + let (source, target) = cx.tcx.struct_lockstep_tails(source, target); match (&source.sty, &target.sty) { (&ty::TyArray(_, len), &ty::TySlice(_)) => { - C_usize(ccx, len.val.to_const_int().unwrap().to_u64().unwrap()) + C_usize(cx, len.val.to_const_int().unwrap().to_u64().unwrap()) } (&ty::TyDynamic(..), &ty::TyDynamic(..)) => { // For now, upcasts are limited to changes in marker @@ -206,10 +206,10 @@ pub fn unsized_info<'ccx, 'tcx>(ccx: &CodegenCx<'ccx, 'tcx>, old_info.expect("unsized_info: missing old info for trait upcast") } (_, &ty::TyDynamic(ref data, ..)) => { - let vtable_ptr = ccx.layout_of(ccx.tcx.mk_mut_ptr(target)) - .field(ccx, abi::FAT_PTR_EXTRA); - consts::ptrcast(meth::get_vtable(ccx, source, data.principal()), - vtable_ptr.llvm_type(ccx)) + let vtable_ptr = cx.layout_of(cx.tcx.mk_mut_ptr(target)) + .field(cx, abi::FAT_PTR_EXTRA); + consts::ptrcast(meth::get_vtable(cx, source, data.principal()), + vtable_ptr.llvm_type(cx)) } _ => bug!("unsized_info: invalid unsizing {:?} -> {:?}", source, @@ -232,24 +232,24 @@ pub fn unsize_thin_ptr<'a, 'tcx>( &ty::TyRawPtr(ty::TypeAndMut { ty: b, .. })) | (&ty::TyRawPtr(ty::TypeAndMut { ty: a, .. }), &ty::TyRawPtr(ty::TypeAndMut { ty: b, .. })) => { - assert!(bcx.ccx.type_is_sized(a)); - let ptr_ty = bcx.ccx.layout_of(b).llvm_type(bcx.ccx).ptr_to(); - (bcx.pointercast(src, ptr_ty), unsized_info(bcx.ccx, a, b, None)) + assert!(bcx.cx.type_is_sized(a)); + let ptr_ty = bcx.cx.layout_of(b).llvm_type(bcx.cx).ptr_to(); + (bcx.pointercast(src, ptr_ty), unsized_info(bcx.cx, a, b, None)) } (&ty::TyAdt(def_a, _), &ty::TyAdt(def_b, _)) if def_a.is_box() && def_b.is_box() => { let (a, b) = (src_ty.boxed_ty(), dst_ty.boxed_ty()); - assert!(bcx.ccx.type_is_sized(a)); - let ptr_ty = bcx.ccx.layout_of(b).llvm_type(bcx.ccx).ptr_to(); - (bcx.pointercast(src, ptr_ty), unsized_info(bcx.ccx, a, b, None)) + assert!(bcx.cx.type_is_sized(a)); + let ptr_ty = bcx.cx.layout_of(b).llvm_type(bcx.cx).ptr_to(); + (bcx.pointercast(src, ptr_ty), unsized_info(bcx.cx, a, b, None)) } (&ty::TyAdt(def_a, _), &ty::TyAdt(def_b, _)) => { assert_eq!(def_a, def_b); - let src_layout = bcx.ccx.layout_of(src_ty); - let dst_layout = bcx.ccx.layout_of(dst_ty); + let src_layout = bcx.cx.layout_of(src_ty); + let dst_layout = bcx.cx.layout_of(dst_ty); let mut result = None; for i in 0..src_layout.fields.count() { - let src_f = src_layout.field(bcx.ccx, i); + let src_f = src_layout.field(bcx.cx, i); assert_eq!(src_layout.fields.offset(i).bytes(), 0); assert_eq!(dst_layout.fields.offset(i).bytes(), 0); if src_f.is_zst() { @@ -257,15 +257,15 @@ pub fn unsize_thin_ptr<'a, 'tcx>( } assert_eq!(src_layout.size, src_f.size); - let dst_f = dst_layout.field(bcx.ccx, i); + let dst_f = dst_layout.field(bcx.cx, i); assert_ne!(src_f.ty, dst_f.ty); assert_eq!(result, None); result = Some(unsize_thin_ptr(bcx, src, src_f.ty, dst_f.ty)); } let (lldata, llextra) = result.unwrap(); // HACK(eddyb) have to bitcast pointers until LLVM removes pointee types. - (bcx.bitcast(lldata, dst_layout.scalar_pair_element_llvm_type(bcx.ccx, 0)), - bcx.bitcast(llextra, dst_layout.scalar_pair_element_llvm_type(bcx.ccx, 1))) + (bcx.bitcast(lldata, dst_layout.scalar_pair_element_llvm_type(bcx.cx, 0)), + bcx.bitcast(llextra, dst_layout.scalar_pair_element_llvm_type(bcx.cx, 1))) } _ => bug!("unsize_thin_ptr: called on bad types"), } @@ -285,8 +285,8 @@ pub fn coerce_unsized_into<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, // i.e. &'a fmt::Debug+Send => &'a fmt::Debug // So we need to pointercast the base to ensure // the types match up. - let thin_ptr = dst.layout.field(bcx.ccx, abi::FAT_PTR_ADDR); - (bcx.pointercast(base, thin_ptr.llvm_type(bcx.ccx)), info) + let thin_ptr = dst.layout.field(bcx.cx, abi::FAT_PTR_ADDR); + (bcx.pointercast(base, thin_ptr.llvm_type(bcx.cx)), info) } OperandValue::Immediate(base) => { unsize_thin_ptr(bcx, base, src_ty, dst_ty) @@ -389,13 +389,13 @@ pub fn wants_msvc_seh(sess: &Session) -> bool { } pub fn call_assume<'a, 'tcx>(b: &Builder<'a, 'tcx>, val: ValueRef) { - let assume_intrinsic = b.ccx.get_intrinsic("llvm.assume"); + let assume_intrinsic = b.cx.get_intrinsic("llvm.assume"); b.call(assume_intrinsic, &[val], None); } pub fn from_immediate(bcx: &Builder, val: ValueRef) -> ValueRef { - if val_ty(val) == Type::i1(bcx.ccx) { - bcx.zext(val, Type::i8(bcx.ccx)) + if val_ty(val) == Type::i1(bcx.cx) { + bcx.zext(val, Type::i8(bcx.cx)) } else { val } @@ -404,7 +404,7 @@ pub fn from_immediate(bcx: &Builder, val: ValueRef) -> ValueRef { pub fn to_immediate(bcx: &Builder, val: ValueRef, layout: layout::TyLayout) -> ValueRef { if let layout::Abi::Scalar(ref scalar) = layout.abi { if scalar.is_bool() { - return bcx.trunc(val, Type::i1(bcx.ccx)); + return bcx.trunc(val, Type::i1(bcx.cx)); } } val @@ -415,15 +415,15 @@ pub fn call_memcpy(b: &Builder, src: ValueRef, n_bytes: ValueRef, align: Align) { - let ccx = b.ccx; - let ptr_width = &ccx.sess().target.target.target_pointer_width; + let cx = b.cx; + let ptr_width = &cx.sess().target.target.target_pointer_width; let key = format!("llvm.memcpy.p0i8.p0i8.i{}", ptr_width); - let memcpy = ccx.get_intrinsic(&key); - let src_ptr = b.pointercast(src, Type::i8p(ccx)); - let dst_ptr = b.pointercast(dst, Type::i8p(ccx)); - let size = b.intcast(n_bytes, ccx.isize_ty, false); - let align = C_i32(ccx, align.abi() as i32); - let volatile = C_bool(ccx, false); + let memcpy = cx.get_intrinsic(&key); + let src_ptr = b.pointercast(src, Type::i8p(cx)); + let dst_ptr = b.pointercast(dst, Type::i8p(cx)); + let size = b.intcast(n_bytes, cx.isize_ty, false); + let align = C_i32(cx, align.abi() as i32); + let volatile = C_bool(cx, false); b.call(memcpy, &[dst_ptr, src_ptr, size, align, volatile], None); } @@ -439,7 +439,7 @@ pub fn memcpy_ty<'a, 'tcx>( return; } - call_memcpy(bcx, dst, src, C_usize(bcx.ccx, size), align); + call_memcpy(bcx, dst, src, C_usize(bcx.cx, size), align); } pub fn call_memset<'a, 'tcx>(b: &Builder<'a, 'tcx>, @@ -448,19 +448,19 @@ pub fn call_memset<'a, 'tcx>(b: &Builder<'a, 'tcx>, size: ValueRef, align: ValueRef, volatile: bool) -> ValueRef { - let ptr_width = &b.ccx.sess().target.target.target_pointer_width; + let ptr_width = &b.cx.sess().target.target.target_pointer_width; let intrinsic_key = format!("llvm.memset.p0i8.i{}", ptr_width); - let llintrinsicfn = b.ccx.get_intrinsic(&intrinsic_key); - let volatile = C_bool(b.ccx, volatile); + let llintrinsicfn = b.cx.get_intrinsic(&intrinsic_key); + let volatile = C_bool(b.cx, volatile); b.call(llintrinsicfn, &[ptr, fill_byte, size, align, volatile], None) } -pub fn trans_instance<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, instance: Instance<'tcx>) { - let _s = if ccx.sess().trans_stats() { +pub fn trans_instance<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, instance: Instance<'tcx>) { + let _s = if cx.sess().trans_stats() { let mut instance_name = String::new(); - DefPathBasedNames::new(ccx.tcx, true, true) + DefPathBasedNames::new(cx.tcx, true, true) .push_def_path(instance.def_id(), &mut instance_name); - Some(StatRecorder::new(ccx, instance_name)) + Some(StatRecorder::new(cx, instance_name)) } else { None }; @@ -470,16 +470,16 @@ pub fn trans_instance<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, instance: Instance<'t // release builds. info!("trans_instance({})", instance); - let fn_ty = instance.ty(ccx.tcx); - let sig = common::ty_fn_sig(ccx, fn_ty); - let sig = ccx.tcx.erase_late_bound_regions_and_normalize(&sig); + let fn_ty = instance.ty(cx.tcx); + let sig = common::ty_fn_sig(cx, fn_ty); + let sig = cx.tcx.erase_late_bound_regions_and_normalize(&sig); - let lldecl = match ccx.instances.borrow().get(&instance) { + let lldecl = match cx.instances.borrow().get(&instance) { Some(&val) => val, None => bug!("Instance `{:?}` not already declared", instance) }; - ccx.stats.borrow_mut().n_closures += 1; + cx.stats.borrow_mut().n_closures += 1; // The `uwtable` attribute according to LLVM is: // @@ -497,21 +497,21 @@ pub fn trans_instance<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, instance: Instance<'t // // You can also find more info on why Windows is whitelisted here in: // https://bugzilla.mozilla.org/show_bug.cgi?id=1302078 - if !ccx.sess().no_landing_pads() || - ccx.sess().target.target.options.is_like_windows { + if !cx.sess().no_landing_pads() || + cx.sess().target.target.options.is_like_windows { attributes::emit_uwtable(lldecl, true); } - let mir = ccx.tcx.instance_mir(instance.def); - mir::trans_mir(ccx, lldecl, &mir, instance, sig); + let mir = cx.tcx.instance_mir(instance.def); + mir::trans_mir(cx, lldecl, &mir, instance, sig); } -pub fn set_link_section(ccx: &CodegenCx, +pub fn set_link_section(cx: &CodegenCx, llval: ValueRef, attrs: &[ast::Attribute]) { if let Some(sect) = attr::first_attr_value_str_by_name(attrs, "link_section") { if contains_null(§.as_str()) { - ccx.sess().fatal(&format!("Illegal null byte in link_section value: `{}`", §)); + cx.sess().fatal(&format!("Illegal null byte in link_section value: `{}`", §)); } unsafe { let buf = CString::new(sect.as_str().as_bytes()).unwrap(); @@ -522,39 +522,39 @@ pub fn set_link_section(ccx: &CodegenCx, /// Create the `main` function which will initialize the rust runtime and call /// users main function. -fn maybe_create_entry_wrapper(ccx: &CodegenCx) { - let (main_def_id, span) = match *ccx.sess().entry_fn.borrow() { +fn maybe_create_entry_wrapper(cx: &CodegenCx) { + let (main_def_id, span) = match *cx.sess().entry_fn.borrow() { Some((id, span)) => { - (ccx.tcx.hir.local_def_id(id), span) + (cx.tcx.hir.local_def_id(id), span) } None => return, }; - let instance = Instance::mono(ccx.tcx, main_def_id); + let instance = Instance::mono(cx.tcx, main_def_id); - if !ccx.codegen_unit.contains_item(&MonoItem::Fn(instance)) { + if !cx.codegen_unit.contains_item(&MonoItem::Fn(instance)) { // We want to create the wrapper in the same codegen unit as Rust's main // function. return; } - let main_llfn = callee::get_fn(ccx, instance); + let main_llfn = callee::get_fn(cx, instance); - let et = ccx.sess().entry_type.get().unwrap(); + let et = cx.sess().entry_type.get().unwrap(); match et { - config::EntryMain => create_entry_fn(ccx, span, main_llfn, main_def_id, true), - config::EntryStart => create_entry_fn(ccx, span, main_llfn, main_def_id, false), + config::EntryMain => create_entry_fn(cx, span, main_llfn, main_def_id, true), + config::EntryStart => create_entry_fn(cx, span, main_llfn, main_def_id, false), config::EntryNone => {} // Do nothing. } - fn create_entry_fn<'ccx>(ccx: &'ccx CodegenCx, + fn create_entry_fn<'cx>(cx: &'cx CodegenCx, sp: Span, rust_main: ValueRef, rust_main_def_id: DefId, use_start_lang_item: bool) { - let llfty = Type::func(&[Type::c_int(ccx), Type::i8p(ccx).ptr_to()], &Type::c_int(ccx)); + let llfty = Type::func(&[Type::c_int(cx), Type::i8p(cx).ptr_to()], &Type::c_int(cx)); - let main_ret_ty = ccx.tcx.fn_sig(rust_main_def_id).output(); + let main_ret_ty = cx.tcx.fn_sig(rust_main_def_id).output(); // Given that `main()` has no arguments, // then its return type cannot have // late-bound regions, since late-bound @@ -562,34 +562,34 @@ fn maybe_create_entry_wrapper(ccx: &CodegenCx) { // listing. let main_ret_ty = main_ret_ty.no_late_bound_regions().unwrap(); - if declare::get_defined_value(ccx, "main").is_some() { + if declare::get_defined_value(cx, "main").is_some() { // FIXME: We should be smart and show a better diagnostic here. - ccx.sess().struct_span_err(sp, "entry symbol `main` defined multiple times") + cx.sess().struct_span_err(sp, "entry symbol `main` defined multiple times") .help("did you use #[no_mangle] on `fn main`? Use #[start] instead") .emit(); - ccx.sess().abort_if_errors(); + cx.sess().abort_if_errors(); bug!(); } - let llfn = declare::declare_cfn(ccx, "main", llfty); + let llfn = declare::declare_cfn(cx, "main", llfty); // `main` should respect same config for frame pointer elimination as rest of code - attributes::set_frame_pointer_elimination(ccx, llfn); + attributes::set_frame_pointer_elimination(cx, llfn); - let bld = Builder::new_block(ccx, llfn, "top"); + let bld = Builder::new_block(cx, llfn, "top"); - debuginfo::gdb::insert_reference_to_gdb_debug_scripts_section_global(ccx, &bld); + debuginfo::gdb::insert_reference_to_gdb_debug_scripts_section_global(cx, &bld); // Params from native main() used as args for rust start function let param_argc = get_param(llfn, 0); let param_argv = get_param(llfn, 1); - let arg_argc = bld.intcast(param_argc, ccx.isize_ty, true); + let arg_argc = bld.intcast(param_argc, cx.isize_ty, true); let arg_argv = param_argv; let (start_fn, args) = if use_start_lang_item { - let start_def_id = ccx.tcx.require_lang_item(StartFnLangItem); - let start_fn = callee::resolve_and_get_fn(ccx, start_def_id, ccx.tcx.mk_substs( + let start_def_id = cx.tcx.require_lang_item(StartFnLangItem); + let start_fn = callee::resolve_and_get_fn(cx, start_def_id, cx.tcx.mk_substs( iter::once(Kind::from(main_ret_ty)))); - (start_fn, vec![bld.pointercast(rust_main, Type::i8p(ccx).ptr_to()), + (start_fn, vec![bld.pointercast(rust_main, Type::i8p(cx).ptr_to()), arg_argc, arg_argv]) } else { debug!("using user-defined start fn"); @@ -597,7 +597,7 @@ fn maybe_create_entry_wrapper(ccx: &CodegenCx) { }; let result = bld.call(start_fn, &args, None); - bld.ret(bld.intcast(result, Type::c_int(ccx), true)); + bld.ret(bld.intcast(result, Type::c_int(cx), true)); } } @@ -1203,25 +1203,25 @@ fn compile_codegen_unit<'a, 'tcx>(tcx: TyCtxt<'a, 'tcx, 'tcx>, .to_fingerprint().to_hex()); // Instantiate translation items without filling out definitions yet... - let ccx = CodegenCx::new(tcx, cgu, &llmod_id); + let cx = CodegenCx::new(tcx, cgu, &llmod_id); let module = { - let trans_items = ccx.codegen_unit - .items_in_deterministic_order(ccx.tcx); + let trans_items = cx.codegen_unit + .items_in_deterministic_order(cx.tcx); for &(trans_item, (linkage, visibility)) in &trans_items { - trans_item.predefine(&ccx, linkage, visibility); + trans_item.predefine(&cx, linkage, visibility); } // ... and now that we have everything pre-defined, fill out those definitions. for &(trans_item, _) in &trans_items { - trans_item.define(&ccx); + trans_item.define(&cx); } // If this codegen unit contains the main function, also create the // wrapper here - maybe_create_entry_wrapper(&ccx); + maybe_create_entry_wrapper(&cx); // Run replace-all-uses-with for statics that need it - for &(old_g, new_g) in ccx.statics_to_rauw.borrow().iter() { + for &(old_g, new_g) in cx.statics_to_rauw.borrow().iter() { unsafe { let bitcast = llvm::LLVMConstPointerCast(new_g, llvm::LLVMTypeOf(old_g)); llvm::LLVMReplaceAllUsesWith(old_g, bitcast); @@ -1231,13 +1231,13 @@ fn compile_codegen_unit<'a, 'tcx>(tcx: TyCtxt<'a, 'tcx, 'tcx>, // Create the llvm.used variable // This variable has type [N x i8*] and is stored in the llvm.metadata section - if !ccx.used_statics.borrow().is_empty() { + if !cx.used_statics.borrow().is_empty() { let name = CString::new("llvm.used").unwrap(); let section = CString::new("llvm.metadata").unwrap(); - let array = C_array(Type::i8(&ccx).ptr_to(), &*ccx.used_statics.borrow()); + let array = C_array(Type::i8(&cx).ptr_to(), &*cx.used_statics.borrow()); unsafe { - let g = llvm::LLVMAddGlobal(ccx.llmod, + let g = llvm::LLVMAddGlobal(cx.llmod, val_ty(array).to_ref(), name.as_ptr()); llvm::LLVMSetInitializer(g, array); @@ -1247,14 +1247,14 @@ fn compile_codegen_unit<'a, 'tcx>(tcx: TyCtxt<'a, 'tcx, 'tcx>, } // Finalize debuginfo - if ccx.sess().opts.debuginfo != NoDebugInfo { - debuginfo::finalize(&ccx); + if cx.sess().opts.debuginfo != NoDebugInfo { + debuginfo::finalize(&cx); } let llvm_module = ModuleLlvm { - llcx: ccx.llcx, - llmod: ccx.llmod, - tm: create_target_machine(ccx.sess()), + llcx: cx.llcx, + llmod: cx.llmod, + tm: create_target_machine(cx.sess()), }; ModuleTranslation { @@ -1265,7 +1265,7 @@ fn compile_codegen_unit<'a, 'tcx>(tcx: TyCtxt<'a, 'tcx, 'tcx>, } }; - (ccx.into_stats(), module) + (cx.into_stats(), module) } } diff --git a/src/librustc_trans/builder.rs b/src/librustc_trans/builder.rs index cbc3f5e0c12..79b91dc48fe 100644 --- a/src/librustc_trans/builder.rs +++ b/src/librustc_trans/builder.rs @@ -32,7 +32,7 @@ use syntax_pos::Span; #[must_use] pub struct Builder<'a, 'tcx: 'a> { pub llbuilder: BuilderRef, - pub ccx: &'a CodegenCx<'a, 'tcx>, + pub cx: &'a CodegenCx<'a, 'tcx>, } impl<'a, 'tcx> Drop for Builder<'a, 'tcx> { @@ -51,12 +51,12 @@ fn noname() -> *const c_char { } impl<'a, 'tcx> Builder<'a, 'tcx> { - pub fn new_block<'b>(ccx: &'a CodegenCx<'a, 'tcx>, llfn: ValueRef, name: &'b str) -> Self { - let builder = Builder::with_ccx(ccx); + pub fn new_block<'b>(cx: &'a CodegenCx<'a, 'tcx>, llfn: ValueRef, name: &'b str) -> Self { + let builder = Builder::with_cx(cx); let llbb = unsafe { let name = CString::new(name).unwrap(); llvm::LLVMAppendBasicBlockInContext( - ccx.llcx, + cx.llcx, llfn, name.as_ptr() ) @@ -65,27 +65,27 @@ impl<'a, 'tcx> Builder<'a, 'tcx> { builder } - pub fn with_ccx(ccx: &'a CodegenCx<'a, 'tcx>) -> Self { + pub fn with_cx(cx: &'a CodegenCx<'a, 'tcx>) -> Self { // Create a fresh builder from the crate context. let llbuilder = unsafe { - llvm::LLVMCreateBuilderInContext(ccx.llcx) + llvm::LLVMCreateBuilderInContext(cx.llcx) }; Builder { llbuilder, - ccx, + cx, } } pub fn build_sibling_block<'b>(&self, name: &'b str) -> Builder<'a, 'tcx> { - Builder::new_block(self.ccx, self.llfn(), name) + Builder::new_block(self.cx, self.llfn(), name) } pub fn sess(&self) -> &Session { - self.ccx.sess() + self.cx.sess() } pub fn tcx(&self) -> TyCtxt<'a, 'tcx, 'tcx> { - self.ccx.tcx + self.cx.tcx } pub fn llfn(&self) -> ValueRef { @@ -101,11 +101,11 @@ impl<'a, 'tcx> Builder<'a, 'tcx> { } fn count_insn(&self, category: &str) { - if self.ccx.sess().trans_stats() { - self.ccx.stats.borrow_mut().n_llvm_insns += 1; + if self.cx.sess().trans_stats() { + self.cx.stats.borrow_mut().n_llvm_insns += 1; } - if self.ccx.sess().count_llvm_insns() { - *self.ccx.stats + if self.cx.sess().count_llvm_insns() { + *self.cx.stats .borrow_mut() .llvm_insns .entry(category.to_string()) @@ -489,7 +489,7 @@ impl<'a, 'tcx> Builder<'a, 'tcx> { } pub fn alloca(&self, ty: Type, name: &str, align: Align) -> ValueRef { - let builder = Builder::with_ccx(self.ccx); + let builder = Builder::with_cx(self.cx); builder.position_at_start(unsafe { llvm::LLVMGetFirstBasicBlock(self.llfn()) }); @@ -558,7 +558,7 @@ impl<'a, 'tcx> Builder<'a, 'tcx> { ]; llvm::LLVMSetMetadata(load, llvm::MD_range as c_uint, - llvm::LLVMMDNodeInContext(self.ccx.llcx, + llvm::LLVMMDNodeInContext(self.cx.llcx, v.as_ptr(), v.len() as c_uint)); } @@ -567,7 +567,7 @@ impl<'a, 'tcx> Builder<'a, 'tcx> { pub fn nonnull_metadata(&self, load: ValueRef) { unsafe { llvm::LLVMSetMetadata(load, llvm::MD_nonnull as c_uint, - llvm::LLVMMDNodeInContext(self.ccx.llcx, ptr::null(), 0)); + llvm::LLVMMDNodeInContext(self.cx.llcx, ptr::null(), 0)); } } @@ -620,8 +620,8 @@ impl<'a, 'tcx> Builder<'a, 'tcx> { // point to a metadata value of the integer 1. Who knew? // // [1]: http://llvm.org/docs/LangRef.html#store-instruction - let one = C_i32(self.ccx, 1); - let node = llvm::LLVMMDNodeInContext(self.ccx.llcx, + let one = C_i32(self.cx, 1); + let node = llvm::LLVMMDNodeInContext(self.cx.llcx, &one, 1); llvm::LLVMSetMetadata(insn, @@ -840,24 +840,24 @@ impl<'a, 'tcx> Builder<'a, 'tcx> { } pub fn add_span_comment(&self, sp: Span, text: &str) { - if self.ccx.sess().asm_comments() { + if self.cx.sess().asm_comments() { let s = format!("{} ({})", text, - self.ccx.sess().codemap().span_to_string(sp)); + self.cx.sess().codemap().span_to_string(sp)); debug!("{}", s); self.add_comment(&s); } } pub fn add_comment(&self, text: &str) { - if self.ccx.sess().asm_comments() { + if self.cx.sess().asm_comments() { let sanitized = text.replace("$", ""); let comment_text = format!("{} {}", "#", sanitized.replace("\n", "\n\t# ")); self.count_insn("inlineasm"); let comment_text = CString::new(comment_text).unwrap(); let asm = unsafe { - llvm::LLVMConstInlineAsm(Type::func(&[], &Type::void(self.ccx)).to_ref(), + llvm::LLVMConstInlineAsm(Type::func(&[], &Type::void(self.cx)).to_ref(), comment_text.as_ptr(), noname(), False, False) }; @@ -949,8 +949,8 @@ impl<'a, 'tcx> Builder<'a, 'tcx> { unsafe { let elt_ty = val_ty(elt); let undef = llvm::LLVMGetUndef(Type::vector(&elt_ty, num_elts as u64).to_ref()); - let vec = self.insert_element(undef, elt, C_i32(self.ccx, 0)); - let vec_i32_ty = Type::vector(&Type::i32(self.ccx), num_elts as u64); + let vec = self.insert_element(undef, elt, C_i32(self.cx, 0)); + let vec_i32_ty = Type::vector(&Type::i32(self.cx), num_elts as u64); self.shuffle_vector(vec, undef, C_null(vec_i32_ty)) } } @@ -1160,7 +1160,7 @@ impl<'a, 'tcx> Builder<'a, 'tcx> { pub fn set_invariant_load(&self, load: ValueRef) { unsafe { llvm::LLVMSetMetadata(load, llvm::MD_invariant_load as c_uint, - llvm::LLVMMDNodeInContext(self.ccx.llcx, ptr::null(), 0)); + llvm::LLVMMDNodeInContext(self.cx.llcx, ptr::null(), 0)); } } @@ -1245,7 +1245,7 @@ impl<'a, 'tcx> Builder<'a, 'tcx> { /// If LLVM lifetime intrinsic support is disabled (i.e. optimizations /// off) or `ptr` is zero-sized, then no-op (does not call `emit`). fn call_lifetime_intrinsic(&self, intrinsic: &str, ptr: ValueRef, size: Size) { - if self.ccx.sess().opts.optimize == config::OptLevel::No { + if self.cx.sess().opts.optimize == config::OptLevel::No { return; } @@ -1254,9 +1254,9 @@ impl<'a, 'tcx> Builder<'a, 'tcx> { return; } - let lifetime_intrinsic = self.ccx.get_intrinsic(intrinsic); + let lifetime_intrinsic = self.cx.get_intrinsic(intrinsic); - let ptr = self.pointercast(ptr, Type::i8p(self.ccx)); - self.call(lifetime_intrinsic, &[C_u64(self.ccx, size), ptr], None); + let ptr = self.pointercast(ptr, Type::i8p(self.cx)); + self.call(lifetime_intrinsic, &[C_u64(self.cx, size), ptr], None); } } diff --git a/src/librustc_trans/cabi_aarch64.rs b/src/librustc_trans/cabi_aarch64.rs index a6f58447119..72ae1449de0 100644 --- a/src/librustc_trans/cabi_aarch64.rs +++ b/src/librustc_trans/cabi_aarch64.rs @@ -11,13 +11,13 @@ use abi::{FnType, ArgType, LayoutExt, Reg, RegKind, Uniform}; use context::CodegenCx; -fn is_homogeneous_aggregate<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, arg: &mut ArgType<'tcx>) +fn is_homogeneous_aggregate<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, arg: &mut ArgType<'tcx>) -> Option { - arg.layout.homogeneous_aggregate(ccx).and_then(|unit| { + arg.layout.homogeneous_aggregate(cx).and_then(|unit| { let size = arg.layout.size; // Ensure we have at most four uniquely addressable members. - if size > unit.size.checked_mul(4, ccx).unwrap() { + if size > unit.size.checked_mul(4, cx).unwrap() { return None; } @@ -38,12 +38,12 @@ fn is_homogeneous_aggregate<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, arg: &mut ArgTy }) } -fn classify_ret_ty<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, ret: &mut ArgType<'tcx>) { +fn classify_ret_ty<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, ret: &mut ArgType<'tcx>) { if !ret.layout.is_aggregate() { ret.extend_integer_width_to(32); return; } - if let Some(uniform) = is_homogeneous_aggregate(ccx, ret) { + if let Some(uniform) = is_homogeneous_aggregate(cx, ret) { ret.cast_to(uniform); return; } @@ -69,12 +69,12 @@ fn classify_ret_ty<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, ret: &mut ArgType<'tcx>) ret.make_indirect(); } -fn classify_arg_ty<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, arg: &mut ArgType<'tcx>) { +fn classify_arg_ty<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, arg: &mut ArgType<'tcx>) { if !arg.layout.is_aggregate() { arg.extend_integer_width_to(32); return; } - if let Some(uniform) = is_homogeneous_aggregate(ccx, arg) { + if let Some(uniform) = is_homogeneous_aggregate(cx, arg) { arg.cast_to(uniform); return; } @@ -100,13 +100,13 @@ fn classify_arg_ty<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, arg: &mut ArgType<'tcx>) arg.make_indirect(); } -pub fn compute_abi_info<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, fty: &mut FnType<'tcx>) { +pub fn compute_abi_info<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, fty: &mut FnType<'tcx>) { if !fty.ret.is_ignore() { - classify_ret_ty(ccx, &mut fty.ret); + classify_ret_ty(cx, &mut fty.ret); } for arg in &mut fty.args { if arg.is_ignore() { continue; } - classify_arg_ty(ccx, arg); + classify_arg_ty(cx, arg); } } diff --git a/src/librustc_trans/cabi_arm.rs b/src/librustc_trans/cabi_arm.rs index ca53918ddec..b6cf16cb8d5 100644 --- a/src/librustc_trans/cabi_arm.rs +++ b/src/librustc_trans/cabi_arm.rs @@ -12,13 +12,13 @@ use abi::{FnType, ArgType, LayoutExt, Reg, RegKind, Uniform}; use context::CodegenCx; use llvm::CallConv; -fn is_homogeneous_aggregate<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, arg: &mut ArgType<'tcx>) +fn is_homogeneous_aggregate<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, arg: &mut ArgType<'tcx>) -> Option { - arg.layout.homogeneous_aggregate(ccx).and_then(|unit| { + arg.layout.homogeneous_aggregate(cx).and_then(|unit| { let size = arg.layout.size; // Ensure we have at most four uniquely addressable members. - if size > unit.size.checked_mul(4, ccx).unwrap() { + if size > unit.size.checked_mul(4, cx).unwrap() { return None; } @@ -39,14 +39,14 @@ fn is_homogeneous_aggregate<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, arg: &mut ArgTy }) } -fn classify_ret_ty<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, ret: &mut ArgType<'tcx>, vfp: bool) { +fn classify_ret_ty<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, ret: &mut ArgType<'tcx>, vfp: bool) { if !ret.layout.is_aggregate() { ret.extend_integer_width_to(32); return; } if vfp { - if let Some(uniform) = is_homogeneous_aggregate(ccx, ret) { + if let Some(uniform) = is_homogeneous_aggregate(cx, ret) { ret.cast_to(uniform); return; } @@ -71,14 +71,14 @@ fn classify_ret_ty<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, ret: &mut ArgType<'tcx>, ret.make_indirect(); } -fn classify_arg_ty<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, arg: &mut ArgType<'tcx>, vfp: bool) { +fn classify_arg_ty<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, arg: &mut ArgType<'tcx>, vfp: bool) { if !arg.layout.is_aggregate() { arg.extend_integer_width_to(32); return; } if vfp { - if let Some(uniform) = is_homogeneous_aggregate(ccx, arg) { + if let Some(uniform) = is_homogeneous_aggregate(cx, arg) { arg.cast_to(uniform); return; } @@ -92,19 +92,19 @@ fn classify_arg_ty<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, arg: &mut ArgType<'tcx>, }); } -pub fn compute_abi_info<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, fty: &mut FnType<'tcx>) { +pub fn compute_abi_info<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, fty: &mut FnType<'tcx>) { // If this is a target with a hard-float ABI, and the function is not explicitly // `extern "aapcs"`, then we must use the VFP registers for homogeneous aggregates. - let vfp = ccx.sess().target.target.llvm_target.ends_with("hf") + let vfp = cx.sess().target.target.llvm_target.ends_with("hf") && fty.cconv != CallConv::ArmAapcsCallConv && !fty.variadic; if !fty.ret.is_ignore() { - classify_ret_ty(ccx, &mut fty.ret, vfp); + classify_ret_ty(cx, &mut fty.ret, vfp); } for arg in &mut fty.args { if arg.is_ignore() { continue; } - classify_arg_ty(ccx, arg, vfp); + classify_arg_ty(cx, arg, vfp); } } diff --git a/src/librustc_trans/cabi_asmjs.rs b/src/librustc_trans/cabi_asmjs.rs index 4f966cf450c..b182f833dd6 100644 --- a/src/librustc_trans/cabi_asmjs.rs +++ b/src/librustc_trans/cabi_asmjs.rs @@ -16,9 +16,9 @@ use context::CodegenCx; // See the https://github.com/kripken/emscripten-fastcomp-clang repository. // The class `EmscriptenABIInfo` in `/lib/CodeGen/TargetInfo.cpp` contains the ABI definitions. -fn classify_ret_ty<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, ret: &mut ArgType<'tcx>) { +fn classify_ret_ty<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, ret: &mut ArgType<'tcx>) { if ret.layout.is_aggregate() { - if let Some(unit) = ret.layout.homogeneous_aggregate(ccx) { + if let Some(unit) = ret.layout.homogeneous_aggregate(cx) { let size = ret.layout.size; if unit.size == size { ret.cast_to(Uniform { @@ -39,9 +39,9 @@ fn classify_arg_ty(arg: &mut ArgType) { } } -pub fn compute_abi_info<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, fty: &mut FnType<'tcx>) { +pub fn compute_abi_info<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, fty: &mut FnType<'tcx>) { if !fty.ret.is_ignore() { - classify_ret_ty(ccx, &mut fty.ret); + classify_ret_ty(cx, &mut fty.ret); } for arg in &mut fty.args { diff --git a/src/librustc_trans/cabi_mips.rs b/src/librustc_trans/cabi_mips.rs index 3cba9aeb7a8..cd567f517fe 100644 --- a/src/librustc_trans/cabi_mips.rs +++ b/src/librustc_trans/cabi_mips.rs @@ -13,19 +13,19 @@ use context::CodegenCx; use rustc::ty::layout::Size; -fn classify_ret_ty<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, +fn classify_ret_ty<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, ret: &mut ArgType<'tcx>, offset: &mut Size) { if !ret.layout.is_aggregate() { ret.extend_integer_width_to(32); } else { ret.make_indirect(); - *offset += ccx.tcx.data_layout.pointer_size; + *offset += cx.tcx.data_layout.pointer_size; } } -fn classify_arg_ty(ccx: &CodegenCx, arg: &mut ArgType, offset: &mut Size) { - let dl = &ccx.tcx.data_layout; +fn classify_arg_ty(cx: &CodegenCx, arg: &mut ArgType, offset: &mut Size) { + let dl = &cx.tcx.data_layout; let size = arg.layout.size; let align = arg.layout.align.max(dl.i32_align).min(dl.i64_align); @@ -44,14 +44,14 @@ fn classify_arg_ty(ccx: &CodegenCx, arg: &mut ArgType, offset: &mut Size) { *offset = offset.abi_align(align) + size.abi_align(align); } -pub fn compute_abi_info<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, fty: &mut FnType<'tcx>) { +pub fn compute_abi_info<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, fty: &mut FnType<'tcx>) { let mut offset = Size::from_bytes(0); if !fty.ret.is_ignore() { - classify_ret_ty(ccx, &mut fty.ret, &mut offset); + classify_ret_ty(cx, &mut fty.ret, &mut offset); } for arg in &mut fty.args { if arg.is_ignore() { continue; } - classify_arg_ty(ccx, arg, &mut offset); + classify_arg_ty(cx, arg, &mut offset); } } diff --git a/src/librustc_trans/cabi_mips64.rs b/src/librustc_trans/cabi_mips64.rs index 332412900de..e44063faab8 100644 --- a/src/librustc_trans/cabi_mips64.rs +++ b/src/librustc_trans/cabi_mips64.rs @@ -13,19 +13,19 @@ use context::CodegenCx; use rustc::ty::layout::Size; -fn classify_ret_ty<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, +fn classify_ret_ty<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, ret: &mut ArgType<'tcx>, offset: &mut Size) { if !ret.layout.is_aggregate() { ret.extend_integer_width_to(64); } else { ret.make_indirect(); - *offset += ccx.tcx.data_layout.pointer_size; + *offset += cx.tcx.data_layout.pointer_size; } } -fn classify_arg_ty(ccx: &CodegenCx, arg: &mut ArgType, offset: &mut Size) { - let dl = &ccx.tcx.data_layout; +fn classify_arg_ty(cx: &CodegenCx, arg: &mut ArgType, offset: &mut Size) { + let dl = &cx.tcx.data_layout; let size = arg.layout.size; let align = arg.layout.align.max(dl.i32_align).min(dl.i64_align); @@ -44,14 +44,14 @@ fn classify_arg_ty(ccx: &CodegenCx, arg: &mut ArgType, offset: &mut Size) { *offset = offset.abi_align(align) + size.abi_align(align); } -pub fn compute_abi_info<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, fty: &mut FnType<'tcx>) { +pub fn compute_abi_info<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, fty: &mut FnType<'tcx>) { let mut offset = Size::from_bytes(0); if !fty.ret.is_ignore() { - classify_ret_ty(ccx, &mut fty.ret, &mut offset); + classify_ret_ty(cx, &mut fty.ret, &mut offset); } for arg in &mut fty.args { if arg.is_ignore() { continue; } - classify_arg_ty(ccx, arg, &mut offset); + classify_arg_ty(cx, arg, &mut offset); } } diff --git a/src/librustc_trans/cabi_powerpc.rs b/src/librustc_trans/cabi_powerpc.rs index e8360544a30..1ea6e9b2695 100644 --- a/src/librustc_trans/cabi_powerpc.rs +++ b/src/librustc_trans/cabi_powerpc.rs @@ -13,19 +13,19 @@ use context::CodegenCx; use rustc::ty::layout::Size; -fn classify_ret_ty<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, +fn classify_ret_ty<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, ret: &mut ArgType<'tcx>, offset: &mut Size) { if !ret.layout.is_aggregate() { ret.extend_integer_width_to(32); } else { ret.make_indirect(); - *offset += ccx.tcx.data_layout.pointer_size; + *offset += cx.tcx.data_layout.pointer_size; } } -fn classify_arg_ty(ccx: &CodegenCx, arg: &mut ArgType, offset: &mut Size) { - let dl = &ccx.tcx.data_layout; +fn classify_arg_ty(cx: &CodegenCx, arg: &mut ArgType, offset: &mut Size) { + let dl = &cx.tcx.data_layout; let size = arg.layout.size; let align = arg.layout.align.max(dl.i32_align).min(dl.i64_align); @@ -44,14 +44,14 @@ fn classify_arg_ty(ccx: &CodegenCx, arg: &mut ArgType, offset: &mut Size) { *offset = offset.abi_align(align) + size.abi_align(align); } -pub fn compute_abi_info<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, fty: &mut FnType<'tcx>) { +pub fn compute_abi_info<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, fty: &mut FnType<'tcx>) { let mut offset = Size::from_bytes(0); if !fty.ret.is_ignore() { - classify_ret_ty(ccx, &mut fty.ret, &mut offset); + classify_ret_ty(cx, &mut fty.ret, &mut offset); } for arg in &mut fty.args { if arg.is_ignore() { continue; } - classify_arg_ty(ccx, arg, &mut offset); + classify_arg_ty(cx, arg, &mut offset); } } diff --git a/src/librustc_trans/cabi_powerpc64.rs b/src/librustc_trans/cabi_powerpc64.rs index 8012017f8fd..c614cf3a5a9 100644 --- a/src/librustc_trans/cabi_powerpc64.rs +++ b/src/librustc_trans/cabi_powerpc64.rs @@ -23,15 +23,15 @@ enum ABI { } use self::ABI::*; -fn is_homogeneous_aggregate<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, +fn is_homogeneous_aggregate<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, arg: &mut ArgType<'tcx>, abi: ABI) -> Option { - arg.layout.homogeneous_aggregate(ccx).and_then(|unit| { + arg.layout.homogeneous_aggregate(cx).and_then(|unit| { // ELFv1 only passes one-member aggregates transparently. // ELFv2 passes up to eight uniquely addressable members. if (abi == ELFv1 && arg.layout.size > unit.size) - || arg.layout.size > unit.size.checked_mul(8, ccx).unwrap() { + || arg.layout.size > unit.size.checked_mul(8, cx).unwrap() { return None; } @@ -52,7 +52,7 @@ fn is_homogeneous_aggregate<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, }) } -fn classify_ret_ty<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, ret: &mut ArgType<'tcx>, abi: ABI) { +fn classify_ret_ty<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, ret: &mut ArgType<'tcx>, abi: ABI) { if !ret.layout.is_aggregate() { ret.extend_integer_width_to(64); return; @@ -64,7 +64,7 @@ fn classify_ret_ty<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, ret: &mut ArgType<'tcx>, return; } - if let Some(uniform) = is_homogeneous_aggregate(ccx, ret, abi) { + if let Some(uniform) = is_homogeneous_aggregate(cx, ret, abi) { ret.cast_to(uniform); return; } @@ -92,13 +92,13 @@ fn classify_ret_ty<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, ret: &mut ArgType<'tcx>, ret.make_indirect(); } -fn classify_arg_ty<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, arg: &mut ArgType<'tcx>, abi: ABI) { +fn classify_arg_ty<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, arg: &mut ArgType<'tcx>, abi: ABI) { if !arg.layout.is_aggregate() { arg.extend_integer_width_to(64); return; } - if let Some(uniform) = is_homogeneous_aggregate(ccx, arg, abi) { + if let Some(uniform) = is_homogeneous_aggregate(cx, arg, abi) { arg.cast_to(uniform); return; } @@ -128,19 +128,19 @@ fn classify_arg_ty<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, arg: &mut ArgType<'tcx>, }); } -pub fn compute_abi_info<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, fty: &mut FnType<'tcx>) { - let abi = match ccx.sess().target.target.target_endian.as_str() { +pub fn compute_abi_info<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, fty: &mut FnType<'tcx>) { + let abi = match cx.sess().target.target.target_endian.as_str() { "big" => ELFv1, "little" => ELFv2, _ => unimplemented!(), }; if !fty.ret.is_ignore() { - classify_ret_ty(ccx, &mut fty.ret, abi); + classify_ret_ty(cx, &mut fty.ret, abi); } for arg in &mut fty.args { if arg.is_ignore() { continue; } - classify_arg_ty(ccx, arg, abi); + classify_arg_ty(cx, arg, abi); } } diff --git a/src/librustc_trans/cabi_s390x.rs b/src/librustc_trans/cabi_s390x.rs index b9db1a9c0aa..5e817686def 100644 --- a/src/librustc_trans/cabi_s390x.rs +++ b/src/librustc_trans/cabi_s390x.rs @@ -24,7 +24,7 @@ fn classify_ret_ty(ret: &mut ArgType) { } } -fn is_single_fp_element<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, +fn is_single_fp_element<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, layout: TyLayout<'tcx>) -> bool { match layout.abi { layout::Abi::Scalar(ref scalar) => { @@ -35,7 +35,7 @@ fn is_single_fp_element<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, } layout::Abi::Aggregate { .. } => { if layout.fields.count() == 1 && layout.fields.offset(0).bytes() == 0 { - is_single_fp_element(ccx, layout.field(ccx, 0)) + is_single_fp_element(cx, layout.field(cx, 0)) } else { false } @@ -44,13 +44,13 @@ fn is_single_fp_element<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, } } -fn classify_arg_ty<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, arg: &mut ArgType<'tcx>) { +fn classify_arg_ty<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, arg: &mut ArgType<'tcx>) { if !arg.layout.is_aggregate() && arg.layout.size.bits() <= 64 { arg.extend_integer_width_to(64); return; } - if is_single_fp_element(ccx, arg.layout) { + if is_single_fp_element(cx, arg.layout) { match arg.layout.size.bytes() { 4 => arg.cast_to(Reg::f32()), 8 => arg.cast_to(Reg::f64()), @@ -67,13 +67,13 @@ fn classify_arg_ty<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, arg: &mut ArgType<'tcx>) } } -pub fn compute_abi_info<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, fty: &mut FnType<'tcx>) { +pub fn compute_abi_info<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, fty: &mut FnType<'tcx>) { if !fty.ret.is_ignore() { classify_ret_ty(&mut fty.ret); } for arg in &mut fty.args { if arg.is_ignore() { continue; } - classify_arg_ty(ccx, arg); + classify_arg_ty(cx, arg); } } diff --git a/src/librustc_trans/cabi_sparc.rs b/src/librustc_trans/cabi_sparc.rs index 3cba9aeb7a8..cd567f517fe 100644 --- a/src/librustc_trans/cabi_sparc.rs +++ b/src/librustc_trans/cabi_sparc.rs @@ -13,19 +13,19 @@ use context::CodegenCx; use rustc::ty::layout::Size; -fn classify_ret_ty<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, +fn classify_ret_ty<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, ret: &mut ArgType<'tcx>, offset: &mut Size) { if !ret.layout.is_aggregate() { ret.extend_integer_width_to(32); } else { ret.make_indirect(); - *offset += ccx.tcx.data_layout.pointer_size; + *offset += cx.tcx.data_layout.pointer_size; } } -fn classify_arg_ty(ccx: &CodegenCx, arg: &mut ArgType, offset: &mut Size) { - let dl = &ccx.tcx.data_layout; +fn classify_arg_ty(cx: &CodegenCx, arg: &mut ArgType, offset: &mut Size) { + let dl = &cx.tcx.data_layout; let size = arg.layout.size; let align = arg.layout.align.max(dl.i32_align).min(dl.i64_align); @@ -44,14 +44,14 @@ fn classify_arg_ty(ccx: &CodegenCx, arg: &mut ArgType, offset: &mut Size) { *offset = offset.abi_align(align) + size.abi_align(align); } -pub fn compute_abi_info<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, fty: &mut FnType<'tcx>) { +pub fn compute_abi_info<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, fty: &mut FnType<'tcx>) { let mut offset = Size::from_bytes(0); if !fty.ret.is_ignore() { - classify_ret_ty(ccx, &mut fty.ret, &mut offset); + classify_ret_ty(cx, &mut fty.ret, &mut offset); } for arg in &mut fty.args { if arg.is_ignore() { continue; } - classify_arg_ty(ccx, arg, &mut offset); + classify_arg_ty(cx, arg, &mut offset); } } diff --git a/src/librustc_trans/cabi_sparc64.rs b/src/librustc_trans/cabi_sparc64.rs index c7bef67eba9..fb94b09d626 100644 --- a/src/librustc_trans/cabi_sparc64.rs +++ b/src/librustc_trans/cabi_sparc64.rs @@ -13,11 +13,11 @@ use abi::{FnType, ArgType, LayoutExt, Reg, RegKind, Uniform}; use context::CodegenCx; -fn is_homogeneous_aggregate<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, arg: &mut ArgType<'tcx>) +fn is_homogeneous_aggregate<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, arg: &mut ArgType<'tcx>) -> Option { - arg.layout.homogeneous_aggregate(ccx).and_then(|unit| { + arg.layout.homogeneous_aggregate(cx).and_then(|unit| { // Ensure we have at most eight uniquely addressable members. - if arg.layout.size > unit.size.checked_mul(8, ccx).unwrap() { + if arg.layout.size > unit.size.checked_mul(8, cx).unwrap() { return None; } @@ -38,13 +38,13 @@ fn is_homogeneous_aggregate<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, arg: &mut ArgTy }) } -fn classify_ret_ty<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, ret: &mut ArgType<'tcx>) { +fn classify_ret_ty<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, ret: &mut ArgType<'tcx>) { if !ret.layout.is_aggregate() { ret.extend_integer_width_to(64); return; } - if let Some(uniform) = is_homogeneous_aggregate(ccx, ret) { + if let Some(uniform) = is_homogeneous_aggregate(cx, ret) { ret.cast_to(uniform); return; } @@ -72,13 +72,13 @@ fn classify_ret_ty<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, ret: &mut ArgType<'tcx>) ret.make_indirect(); } -fn classify_arg_ty<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, arg: &mut ArgType<'tcx>) { +fn classify_arg_ty<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, arg: &mut ArgType<'tcx>) { if !arg.layout.is_aggregate() { arg.extend_integer_width_to(64); return; } - if let Some(uniform) = is_homogeneous_aggregate(ccx, arg) { + if let Some(uniform) = is_homogeneous_aggregate(cx, arg) { arg.cast_to(uniform); return; } @@ -90,13 +90,13 @@ fn classify_arg_ty<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, arg: &mut ArgType<'tcx>) }); } -pub fn compute_abi_info<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, fty: &mut FnType<'tcx>) { +pub fn compute_abi_info<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, fty: &mut FnType<'tcx>) { if !fty.ret.is_ignore() { - classify_ret_ty(ccx, &mut fty.ret); + classify_ret_ty(cx, &mut fty.ret); } for arg in &mut fty.args { if arg.is_ignore() { continue; } - classify_arg_ty(ccx, arg); + classify_arg_ty(cx, arg); } } diff --git a/src/librustc_trans/cabi_x86.rs b/src/librustc_trans/cabi_x86.rs index 54131ecb5da..60347ba0945 100644 --- a/src/librustc_trans/cabi_x86.rs +++ b/src/librustc_trans/cabi_x86.rs @@ -19,7 +19,7 @@ pub enum Flavor { Fastcall } -fn is_single_fp_element<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, +fn is_single_fp_element<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, layout: TyLayout<'tcx>) -> bool { match layout.abi { layout::Abi::Scalar(ref scalar) => { @@ -30,7 +30,7 @@ fn is_single_fp_element<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, } layout::Abi::Aggregate { .. } => { if layout.fields.count() == 1 && layout.fields.offset(0).bytes() == 0 { - is_single_fp_element(ccx, layout.field(ccx, 0)) + is_single_fp_element(cx, layout.field(cx, 0)) } else { false } @@ -39,7 +39,7 @@ fn is_single_fp_element<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, } } -pub fn compute_abi_info<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, +pub fn compute_abi_info<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, fty: &mut FnType<'tcx>, flavor: Flavor) { if !fty.ret.is_ignore() { @@ -51,12 +51,12 @@ pub fn compute_abi_info<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, // Some links: // http://www.angelcode.com/dev/callconv/callconv.html // Clang's ABI handling is in lib/CodeGen/TargetInfo.cpp - let t = &ccx.sess().target.target; + let t = &cx.sess().target.target; if t.options.is_like_osx || t.options.is_like_windows || t.options.is_like_openbsd { // According to Clang, everyone but MSVC returns single-element // float aggregates directly in a floating-point register. - if !t.options.is_like_msvc && is_single_fp_element(ccx, fty.ret.layout) { + if !t.options.is_like_msvc && is_single_fp_element(cx, fty.ret.layout) { match fty.ret.layout.size.bytes() { 4 => fty.ret.cast_to(Reg::f32()), 8 => fty.ret.cast_to(Reg::f64()), @@ -112,7 +112,7 @@ pub fn compute_abi_info<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, }; // At this point we know this must be a primitive of sorts. - let unit = arg.layout.homogeneous_aggregate(ccx).unwrap(); + let unit = arg.layout.homogeneous_aggregate(cx).unwrap(); assert_eq!(unit.size, arg.layout.size); if unit.kind == RegKind::Float { continue; diff --git a/src/librustc_trans/cabi_x86_64.rs b/src/librustc_trans/cabi_x86_64.rs index 50fb3742463..6db18bfecf2 100644 --- a/src/librustc_trans/cabi_x86_64.rs +++ b/src/librustc_trans/cabi_x86_64.rs @@ -31,7 +31,7 @@ struct Memory; const LARGEST_VECTOR_SIZE: usize = 512; const MAX_EIGHTBYTES: usize = LARGEST_VECTOR_SIZE / 64; -fn classify_arg<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, arg: &ArgType<'tcx>) +fn classify_arg<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, arg: &ArgType<'tcx>) -> Result<[Class; MAX_EIGHTBYTES], Memory> { fn unify(cls: &mut [Class], off: Size, @@ -52,7 +52,7 @@ fn classify_arg<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, arg: &ArgType<'tcx>) cls[i] = to_write; } - fn classify<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, + fn classify<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, layout: TyLayout<'tcx>, cls: &mut [Class], off: Size) @@ -82,7 +82,7 @@ fn classify_arg<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, arg: &ArgType<'tcx>) // everything after the first one is the upper // half of a register. - let stride = element.value.size(ccx); + let stride = element.value.size(cx); for i in 1..count { let field_off = off + stride * i; unify(cls, field_off, Class::SseUp); @@ -95,7 +95,7 @@ fn classify_arg<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, arg: &ArgType<'tcx>) layout::Variants::Single { .. } => { for i in 0..layout.fields.count() { let field_off = off + layout.fields.offset(i); - classify(ccx, layout.field(ccx, i), cls, field_off)?; + classify(cx, layout.field(cx, i), cls, field_off)?; } } layout::Variants::Tagged { .. } | @@ -114,7 +114,7 @@ fn classify_arg<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, arg: &ArgType<'tcx>) } let mut cls = [Class::None; MAX_EIGHTBYTES]; - classify(ccx, arg.layout, &mut cls, Size::from_bytes(0))?; + classify(cx, arg.layout, &mut cls, Size::from_bytes(0))?; if n > 2 { if cls[0] != Class::Sse { return Err(Memory); @@ -189,12 +189,12 @@ fn cast_target(cls: &[Class], size: Size) -> CastTarget { target } -pub fn compute_abi_info<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, fty: &mut FnType<'tcx>) { +pub fn compute_abi_info<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, fty: &mut FnType<'tcx>) { let mut int_regs = 6; // RDI, RSI, RDX, RCX, R8, R9 let mut sse_regs = 8; // XMM0-7 let mut x86_64_ty = |arg: &mut ArgType<'tcx>, is_arg: bool| { - let cls = classify_arg(ccx, arg); + let cls = classify_arg(cx, arg); let mut needed_int = 0; let mut needed_sse = 0; diff --git a/src/librustc_trans/callee.rs b/src/librustc_trans/callee.rs index ad2f69213e1..c3d5e08c73e 100644 --- a/src/librustc_trans/callee.rs +++ b/src/librustc_trans/callee.rs @@ -34,13 +34,13 @@ use rustc_back::PanicStrategy; /// /// # Parameters /// -/// - `ccx`: the crate context +/// - `cx`: the crate context /// - `instance`: the instance to be instantiated -pub fn get_fn<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, +pub fn get_fn<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, instance: Instance<'tcx>) -> ValueRef { - let tcx = ccx.tcx; + let tcx = cx.tcx; debug!("get_fn(instance={:?})", instance); @@ -48,8 +48,8 @@ pub fn get_fn<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, assert!(!instance.substs.has_escaping_regions()); assert!(!instance.substs.has_param_types()); - let fn_ty = instance.ty(ccx.tcx); - if let Some(&llfn) = ccx.instances.borrow().get(&instance) { + let fn_ty = instance.ty(cx.tcx); + if let Some(&llfn) = cx.instances.borrow().get(&instance) { return llfn; } @@ -57,10 +57,10 @@ pub fn get_fn<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, debug!("get_fn({:?}: {:?}) => {}", instance, fn_ty, sym); // Create a fn pointer with the substituted signature. - let fn_ptr_ty = tcx.mk_fn_ptr(common::ty_fn_sig(ccx, fn_ty)); - let llptrty = ccx.layout_of(fn_ptr_ty).llvm_type(ccx); + let fn_ptr_ty = tcx.mk_fn_ptr(common::ty_fn_sig(cx, fn_ty)); + let llptrty = cx.layout_of(fn_ptr_ty).llvm_type(cx); - let llfn = if let Some(llfn) = declare::get_declared_value(ccx, &sym) { + let llfn = if let Some(llfn) = declare::get_declared_value(cx, &sym) { // This is subtle and surprising, but sometimes we have to bitcast // the resulting fn pointer. The reason has to do with external // functions. If you have two crates that both bind the same C @@ -92,14 +92,14 @@ pub fn get_fn<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, llfn } } else { - let llfn = declare::declare_fn(ccx, &sym, fn_ty); + let llfn = declare::declare_fn(cx, &sym, fn_ty); assert_eq!(common::val_ty(llfn), llptrty); debug!("get_fn: not casting pointer!"); if instance.def.is_inline(tcx) { attributes::inline(llfn, attributes::InlineAttr::Hint); } - attributes::from_fn_attrs(ccx, llfn, instance.def.def_id()); + attributes::from_fn_attrs(cx, llfn, instance.def.def_id()); let instance_def_id = instance.def_id(); @@ -149,9 +149,9 @@ pub fn get_fn<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, unsafe { llvm::LLVMRustSetLinkage(llfn, llvm::Linkage::ExternalLinkage); - if ccx.tcx.is_translated_function(instance_def_id) { + if cx.tcx.is_translated_function(instance_def_id) { if instance_def_id.is_local() { - if !ccx.tcx.is_exported_symbol(instance_def_id) { + if !cx.tcx.is_exported_symbol(instance_def_id) { llvm::LLVMRustSetVisibility(llfn, llvm::Visibility::Hidden); } } else { @@ -160,7 +160,7 @@ pub fn get_fn<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, } } - if ccx.use_dll_storage_attrs && + if cx.use_dll_storage_attrs && tcx.is_dllimport_foreign_item(instance_def_id) { unsafe { @@ -171,20 +171,20 @@ pub fn get_fn<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, llfn }; - ccx.instances.borrow_mut().insert(instance, llfn); + cx.instances.borrow_mut().insert(instance, llfn); llfn } -pub fn resolve_and_get_fn<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, +pub fn resolve_and_get_fn<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, def_id: DefId, substs: &'tcx Substs<'tcx>) -> ValueRef { get_fn( - ccx, + cx, ty::Instance::resolve( - ccx.tcx, + cx.tcx, ty::ParamEnv::empty(traits::Reveal::All), def_id, substs diff --git a/src/librustc_trans/common.rs b/src/librustc_trans/common.rs index 8f294da8609..7b7d35caf5e 100644 --- a/src/librustc_trans/common.rs +++ b/src/librustc_trans/common.rs @@ -152,34 +152,34 @@ pub fn C_uint_big(t: Type, u: u128) -> ValueRef { } } -pub fn C_bool(ccx: &CodegenCx, val: bool) -> ValueRef { - C_uint(Type::i1(ccx), val as u64) +pub fn C_bool(cx: &CodegenCx, val: bool) -> ValueRef { + C_uint(Type::i1(cx), val as u64) } -pub fn C_i32(ccx: &CodegenCx, i: i32) -> ValueRef { - C_int(Type::i32(ccx), i as i64) +pub fn C_i32(cx: &CodegenCx, i: i32) -> ValueRef { + C_int(Type::i32(cx), i as i64) } -pub fn C_u32(ccx: &CodegenCx, i: u32) -> ValueRef { - C_uint(Type::i32(ccx), i as u64) +pub fn C_u32(cx: &CodegenCx, i: u32) -> ValueRef { + C_uint(Type::i32(cx), i as u64) } -pub fn C_u64(ccx: &CodegenCx, i: u64) -> ValueRef { - C_uint(Type::i64(ccx), i) +pub fn C_u64(cx: &CodegenCx, i: u64) -> ValueRef { + C_uint(Type::i64(cx), i) } -pub fn C_usize(ccx: &CodegenCx, i: u64) -> ValueRef { - let bit_size = ccx.data_layout().pointer_size.bits(); +pub fn C_usize(cx: &CodegenCx, i: u64) -> ValueRef { + let bit_size = cx.data_layout().pointer_size.bits(); if bit_size < 64 { // make sure it doesn't overflow assert!(i < (1< ValueRef { - C_uint(Type::i8(ccx), i as u64) +pub fn C_u8(cx: &CodegenCx, i: u8) -> ValueRef { + C_uint(Type::i8(cx), i as u64) } @@ -382,16 +382,16 @@ pub fn shift_mask_val<'a, 'tcx>( } } -pub fn ty_fn_sig<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, +pub fn ty_fn_sig<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, ty: Ty<'tcx>) -> ty::PolyFnSig<'tcx> { match ty.sty { ty::TyFnDef(..) | // Shims currently have type TyFnPtr. Not sure this should remain. - ty::TyFnPtr(_) => ty.fn_sig(ccx.tcx), + ty::TyFnPtr(_) => ty.fn_sig(cx.tcx), ty::TyClosure(def_id, substs) => { - let tcx = ccx.tcx; + let tcx = cx.tcx; let sig = substs.closure_sig(def_id, tcx); let env_ty = tcx.closure_env_ty(def_id, substs).unwrap(); @@ -404,8 +404,8 @@ pub fn ty_fn_sig<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, )) } ty::TyGenerator(def_id, substs, _) => { - let tcx = ccx.tcx; - let sig = substs.generator_poly_sig(def_id, ccx.tcx); + let tcx = cx.tcx; + let sig = substs.generator_poly_sig(def_id, cx.tcx); let env_region = ty::ReLateBound(ty::DebruijnIndex::new(1), ty::BrEnv); let env_ty = tcx.mk_mut_ref(tcx.mk_region(env_region), ty); diff --git a/src/librustc_trans/consts.rs b/src/librustc_trans/consts.rs index d86f68c84b7..d5b33d837c5 100644 --- a/src/librustc_trans/consts.rs +++ b/src/librustc_trans/consts.rs @@ -43,17 +43,17 @@ pub fn bitcast(val: ValueRef, ty: Type) -> ValueRef { } } -fn set_global_alignment(ccx: &CodegenCx, +fn set_global_alignment(cx: &CodegenCx, gv: ValueRef, mut align: Align) { // The target may require greater alignment for globals than the type does. // Note: GCC and Clang also allow `__attribute__((aligned))` on variables, // which can force it to be smaller. Rust doesn't support this yet. - if let Some(min) = ccx.sess().target.target.options.min_global_align { + if let Some(min) = cx.sess().target.target.options.min_global_align { match ty::layout::Align::from_bits(min, min) { Ok(min) => align = align.max(min), Err(err) => { - ccx.sess().err(&format!("invalid minimum global alignment: {}", err)); + cx.sess().err(&format!("invalid minimum global alignment: {}", err)); } } } @@ -62,30 +62,30 @@ fn set_global_alignment(ccx: &CodegenCx, } } -pub fn addr_of_mut(ccx: &CodegenCx, +pub fn addr_of_mut(cx: &CodegenCx, cv: ValueRef, align: Align, kind: &str) -> ValueRef { unsafe { - let name = ccx.generate_local_symbol_name(kind); - let gv = declare::define_global(ccx, &name[..], val_ty(cv)).unwrap_or_else(||{ + let name = cx.generate_local_symbol_name(kind); + let gv = declare::define_global(cx, &name[..], val_ty(cv)).unwrap_or_else(||{ bug!("symbol `{}` is already defined", name); }); llvm::LLVMSetInitializer(gv, cv); - set_global_alignment(ccx, gv, align); + set_global_alignment(cx, gv, align); llvm::LLVMRustSetLinkage(gv, llvm::Linkage::PrivateLinkage); SetUnnamedAddr(gv, true); gv } } -pub fn addr_of(ccx: &CodegenCx, +pub fn addr_of(cx: &CodegenCx, cv: ValueRef, align: Align, kind: &str) -> ValueRef { - if let Some(&gv) = ccx.const_globals.borrow().get(&cv) { + if let Some(&gv) = cx.const_globals.borrow().get(&cv) { unsafe { // Upgrade the alignment in cases where the same constant is used with different // alignment requirements @@ -96,42 +96,42 @@ pub fn addr_of(ccx: &CodegenCx, } return gv; } - let gv = addr_of_mut(ccx, cv, align, kind); + let gv = addr_of_mut(cx, cv, align, kind); unsafe { llvm::LLVMSetGlobalConstant(gv, True); } - ccx.const_globals.borrow_mut().insert(cv, gv); + cx.const_globals.borrow_mut().insert(cv, gv); gv } -pub fn get_static(ccx: &CodegenCx, def_id: DefId) -> ValueRef { - let instance = Instance::mono(ccx.tcx, def_id); - if let Some(&g) = ccx.instances.borrow().get(&instance) { +pub fn get_static(cx: &CodegenCx, def_id: DefId) -> ValueRef { + let instance = Instance::mono(cx.tcx, def_id); + if let Some(&g) = cx.instances.borrow().get(&instance) { return g; } - let ty = instance.ty(ccx.tcx); - let g = if let Some(id) = ccx.tcx.hir.as_local_node_id(def_id) { + let ty = instance.ty(cx.tcx); + let g = if let Some(id) = cx.tcx.hir.as_local_node_id(def_id) { - let llty = ccx.layout_of(ty).llvm_type(ccx); - let (g, attrs) = match ccx.tcx.hir.get(id) { + let llty = cx.layout_of(ty).llvm_type(cx); + let (g, attrs) = match cx.tcx.hir.get(id) { hir_map::NodeItem(&hir::Item { ref attrs, span, node: hir::ItemStatic(..), .. }) => { - let sym = MonoItem::Static(id).symbol_name(ccx.tcx); + let sym = MonoItem::Static(id).symbol_name(cx.tcx); - let defined_in_current_codegen_unit = ccx.codegen_unit + let defined_in_current_codegen_unit = cx.codegen_unit .items() .contains_key(&MonoItem::Static(id)); assert!(!defined_in_current_codegen_unit); - if declare::get_declared_value(ccx, &sym[..]).is_some() { + if declare::get_declared_value(cx, &sym[..]).is_some() { span_bug!(span, "trans: Conflicting symbol names for static?"); } - let g = declare::define_global(ccx, &sym[..], llty).unwrap(); + let g = declare::define_global(cx, &sym[..], llty).unwrap(); - if !ccx.tcx.is_exported_symbol(def_id) { + if !cx.tcx.is_exported_symbol(def_id) { unsafe { llvm::LLVMRustSetVisibility(g, llvm::Visibility::Hidden); } @@ -143,7 +143,7 @@ pub fn get_static(ccx: &CodegenCx, def_id: DefId) -> ValueRef { hir_map::NodeForeignItem(&hir::ForeignItem { ref attrs, span, node: hir::ForeignItemStatic(..), .. }) => { - let sym = ccx.tcx.symbol_name(instance); + let sym = cx.tcx.symbol_name(instance); let g = if let Some(name) = attr::first_attr_value_str_by_name(&attrs, "linkage") { // If this is a static with a linkage specified, then we need to handle @@ -154,18 +154,18 @@ pub fn get_static(ccx: &CodegenCx, def_id: DefId) -> ValueRef { let linkage = match base::linkage_by_name(&name.as_str()) { Some(linkage) => linkage, None => { - ccx.sess().span_fatal(span, "invalid linkage specified"); + cx.sess().span_fatal(span, "invalid linkage specified"); } }; let llty2 = match ty.sty { - ty::TyRawPtr(ref mt) => ccx.layout_of(mt.ty).llvm_type(ccx), + ty::TyRawPtr(ref mt) => cx.layout_of(mt.ty).llvm_type(cx), _ => { - ccx.sess().span_fatal(span, "must have type `*const T` or `*mut T`"); + cx.sess().span_fatal(span, "must have type `*const T` or `*mut T`"); } }; unsafe { // Declare a symbol `foo` with the desired linkage. - let g1 = declare::declare_global(ccx, &sym, llty2); + let g1 = declare::declare_global(cx, &sym, llty2); llvm::LLVMRustSetLinkage(g1, base::linkage_to_llvm(linkage)); // Declare an internal global `extern_with_linkage_foo` which @@ -176,8 +176,8 @@ pub fn get_static(ccx: &CodegenCx, def_id: DefId) -> ValueRef { // zero. let mut real_name = "_rust_extern_with_linkage_".to_string(); real_name.push_str(&sym); - let g2 = declare::define_global(ccx, &real_name, llty).unwrap_or_else(||{ - ccx.sess().span_fatal(span, + let g2 = declare::define_global(cx, &real_name, llty).unwrap_or_else(||{ + cx.sess().span_fatal(span, &format!("symbol `{}` is already defined", &sym)) }); llvm::LLVMRustSetLinkage(g2, llvm::Linkage::InternalLinkage); @@ -186,7 +186,7 @@ pub fn get_static(ccx: &CodegenCx, def_id: DefId) -> ValueRef { } } else { // Generate an external declaration. - declare::declare_global(ccx, &sym, llty) + declare::declare_global(cx, &sym, llty) }; (g, attrs) @@ -197,29 +197,29 @@ pub fn get_static(ccx: &CodegenCx, def_id: DefId) -> ValueRef { for attr in attrs { if attr.check_name("thread_local") { - llvm::set_thread_local_mode(g, ccx.tls_model); + llvm::set_thread_local_mode(g, cx.tls_model); } } g } else { - let sym = ccx.tcx.symbol_name(instance); + let sym = cx.tcx.symbol_name(instance); // FIXME(nagisa): perhaps the map of externs could be offloaded to llvm somehow? // FIXME(nagisa): investigate whether it can be changed into define_global - let g = declare::declare_global(ccx, &sym, ccx.layout_of(ty).llvm_type(ccx)); + let g = declare::declare_global(cx, &sym, cx.layout_of(ty).llvm_type(cx)); // Thread-local statics in some other crate need to *always* be linked // against in a thread-local fashion, so we need to be sure to apply the // thread-local attribute locally if it was present remotely. If we // don't do this then linker errors can be generated where the linker // complains that one object files has a thread local version of the // symbol and another one doesn't. - for attr in ccx.tcx.get_attrs(def_id).iter() { + for attr in cx.tcx.get_attrs(def_id).iter() { if attr.check_name("thread_local") { - llvm::set_thread_local_mode(g, ccx.tls_model); + llvm::set_thread_local_mode(g, cx.tls_model); } } - if ccx.use_dll_storage_attrs && !ccx.tcx.is_foreign_item(def_id) { + if cx.use_dll_storage_attrs && !cx.tcx.is_foreign_item(def_id) { // This item is external but not foreign, i.e. it originates from an external Rust // crate. Since we don't know whether this crate will be linked dynamically or // statically in the final application, we always mark such symbols as 'dllimport'. @@ -232,42 +232,42 @@ pub fn get_static(ccx: &CodegenCx, def_id: DefId) -> ValueRef { g }; - if ccx.use_dll_storage_attrs && ccx.tcx.is_dllimport_foreign_item(def_id) { + if cx.use_dll_storage_attrs && cx.tcx.is_dllimport_foreign_item(def_id) { // For foreign (native) libs we know the exact storage type to use. unsafe { llvm::LLVMSetDLLStorageClass(g, llvm::DLLStorageClass::DllImport); } } - ccx.instances.borrow_mut().insert(instance, g); - ccx.statics.borrow_mut().insert(g, def_id); + cx.instances.borrow_mut().insert(instance, g); + cx.statics.borrow_mut().insert(g, def_id); g } -pub fn trans_static<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, +pub fn trans_static<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, m: hir::Mutability, id: ast::NodeId, attrs: &[ast::Attribute]) -> Result> { unsafe { - let def_id = ccx.tcx.hir.local_def_id(id); - let g = get_static(ccx, def_id); + let def_id = cx.tcx.hir.local_def_id(id); + let g = get_static(cx, def_id); - let v = ::mir::trans_static_initializer(ccx, def_id)?; + let v = ::mir::trans_static_initializer(cx, def_id)?; // boolean SSA values are i1, but they have to be stored in i8 slots, // otherwise some LLVM optimization passes don't work as expected let mut val_llty = val_ty(v); - let v = if val_llty == Type::i1(ccx) { - val_llty = Type::i8(ccx); + let v = if val_llty == Type::i1(cx) { + val_llty = Type::i8(cx); llvm::LLVMConstZExt(v, val_llty.to_ref()) } else { v }; - let instance = Instance::mono(ccx.tcx, def_id); - let ty = instance.ty(ccx.tcx); - let llty = ccx.layout_of(ty).llvm_type(ccx); + let instance = Instance::mono(cx.tcx, def_id); + let ty = instance.ty(cx.tcx); + let llty = cx.layout_of(ty).llvm_type(cx); let g = if val_llty == llty { g } else { @@ -282,7 +282,7 @@ pub fn trans_static<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, let visibility = llvm::LLVMRustGetVisibility(g); let new_g = llvm::LLVMRustGetOrInsertGlobal( - ccx.llmod, name_string.as_ptr(), val_llty.to_ref()); + cx.llmod, name_string.as_ptr(), val_llty.to_ref()); llvm::LLVMRustSetLinkage(new_g, linkage); llvm::LLVMRustSetVisibility(new_g, visibility); @@ -290,32 +290,32 @@ pub fn trans_static<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, // To avoid breaking any invariants, we leave around the old // global for the moment; we'll replace all references to it // with the new global later. (See base::trans_crate.) - ccx.statics_to_rauw.borrow_mut().push((g, new_g)); + cx.statics_to_rauw.borrow_mut().push((g, new_g)); new_g }; - set_global_alignment(ccx, g, ccx.align_of(ty)); + set_global_alignment(cx, g, cx.align_of(ty)); llvm::LLVMSetInitializer(g, v); // As an optimization, all shared statics which do not have interior // mutability are placed into read-only memory. if m != hir::MutMutable { - if ccx.type_is_freeze(ty) { + if cx.type_is_freeze(ty) { llvm::LLVMSetGlobalConstant(g, llvm::True); } } - debuginfo::create_global_var_metadata(ccx, id, g); + debuginfo::create_global_var_metadata(cx, id, g); if attr::contains_name(attrs, "thread_local") { - llvm::set_thread_local_mode(g, ccx.tls_model); + llvm::set_thread_local_mode(g, cx.tls_model); } - base::set_link_section(ccx, g, attrs); + base::set_link_section(cx, g, attrs); if attr::contains_name(attrs, "used") { // This static will be stored in the llvm.used variable which is an array of i8* - let cast = llvm::LLVMConstPointerCast(g, Type::i8p(ccx).to_ref()); - ccx.used_statics.borrow_mut().push(cast); + let cast = llvm::LLVMConstPointerCast(g, Type::i8p(cx).to_ref()); + cx.used_statics.borrow_mut().push(cast); } Ok(g) diff --git a/src/librustc_trans/context.rs b/src/librustc_trans/context.rs index 2530ac3d231..06b8d9ff7b3 100644 --- a/src/librustc_trans/context.rs +++ b/src/librustc_trans/context.rs @@ -280,7 +280,7 @@ impl<'a, 'tcx> CodegenCx<'a, 'tcx> { None }; - let mut ccx = CodegenCx { + let mut cx = CodegenCx { tcx, check_overflow, use_dll_storage_attrs, @@ -308,8 +308,8 @@ impl<'a, 'tcx> CodegenCx<'a, 'tcx> { intrinsics: RefCell::new(FxHashMap()), local_gen_sym_counter: Cell::new(0), }; - ccx.isize_ty = Type::isize(&ccx); - ccx + cx.isize_ty = Type::isize(&cx); + cx } } @@ -474,47 +474,47 @@ impl<'a, 'tcx> LayoutOf> for &'a CodegenCx<'a, 'tcx> { } /// Declare any llvm intrinsics that you might need -fn declare_intrinsic(ccx: &CodegenCx, key: &str) -> Option { +fn declare_intrinsic(cx: &CodegenCx, key: &str) -> Option { macro_rules! ifn { ($name:expr, fn() -> $ret:expr) => ( if key == $name { - let f = declare::declare_cfn(ccx, $name, Type::func(&[], &$ret)); + let f = declare::declare_cfn(cx, $name, Type::func(&[], &$ret)); llvm::SetUnnamedAddr(f, false); - ccx.intrinsics.borrow_mut().insert($name, f.clone()); + cx.intrinsics.borrow_mut().insert($name, f.clone()); return Some(f); } ); ($name:expr, fn(...) -> $ret:expr) => ( if key == $name { - let f = declare::declare_cfn(ccx, $name, Type::variadic_func(&[], &$ret)); + let f = declare::declare_cfn(cx, $name, Type::variadic_func(&[], &$ret)); llvm::SetUnnamedAddr(f, false); - ccx.intrinsics.borrow_mut().insert($name, f.clone()); + cx.intrinsics.borrow_mut().insert($name, f.clone()); return Some(f); } ); ($name:expr, fn($($arg:expr),*) -> $ret:expr) => ( if key == $name { - let f = declare::declare_cfn(ccx, $name, Type::func(&[$($arg),*], &$ret)); + let f = declare::declare_cfn(cx, $name, Type::func(&[$($arg),*], &$ret)); llvm::SetUnnamedAddr(f, false); - ccx.intrinsics.borrow_mut().insert($name, f.clone()); + cx.intrinsics.borrow_mut().insert($name, f.clone()); return Some(f); } ); } macro_rules! mk_struct { - ($($field_ty:expr),*) => (Type::struct_(ccx, &[$($field_ty),*], false)) + ($($field_ty:expr),*) => (Type::struct_(cx, &[$($field_ty),*], false)) } - let i8p = Type::i8p(ccx); - let void = Type::void(ccx); - let i1 = Type::i1(ccx); - let t_i8 = Type::i8(ccx); - let t_i16 = Type::i16(ccx); - let t_i32 = Type::i32(ccx); - let t_i64 = Type::i64(ccx); - let t_i128 = Type::i128(ccx); - let t_f32 = Type::f32(ccx); - let t_f64 = Type::f64(ccx); + let i8p = Type::i8p(cx); + let void = Type::void(cx); + let i1 = Type::i1(cx); + let t_i8 = Type::i8(cx); + let t_i16 = Type::i16(cx); + let t_i32 = Type::i32(cx); + let t_i64 = Type::i64(cx); + let t_i128 = Type::i128(cx); + let t_f32 = Type::f32(cx); + let t_f64 = Type::f64(cx); ifn!("llvm.memcpy.p0i8.p0i8.i16", fn(i8p, i8p, t_i16, t_i32, i1) -> void); ifn!("llvm.memcpy.p0i8.p0i8.i32", fn(i8p, i8p, t_i32, t_i32, i1) -> void); @@ -646,9 +646,9 @@ fn declare_intrinsic(ccx: &CodegenCx, key: &str) -> Option { ifn!("llvm.assume", fn(i1) -> void); ifn!("llvm.prefetch", fn(i8p, t_i32, t_i32, t_i32) -> void); - if ccx.sess().opts.debuginfo != NoDebugInfo { - ifn!("llvm.dbg.declare", fn(Type::metadata(ccx), Type::metadata(ccx)) -> void); - ifn!("llvm.dbg.value", fn(Type::metadata(ccx), t_i64, Type::metadata(ccx)) -> void); + if cx.sess().opts.debuginfo != NoDebugInfo { + ifn!("llvm.dbg.declare", fn(Type::metadata(cx), Type::metadata(cx)) -> void); + ifn!("llvm.dbg.value", fn(Type::metadata(cx), t_i64, Type::metadata(cx)) -> void); } return None; } diff --git a/src/librustc_trans/debuginfo/create_scope_map.rs b/src/librustc_trans/debuginfo/create_scope_map.rs index 36131d687ae..bddb3d90940 100644 --- a/src/librustc_trans/debuginfo/create_scope_map.rs +++ b/src/librustc_trans/debuginfo/create_scope_map.rs @@ -44,7 +44,7 @@ impl MirDebugScope { /// Produce DIScope DIEs for each MIR Scope which has variables defined in it. /// If debuginfo is disabled, the returned vector is empty. -pub fn create_mir_scopes(ccx: &CodegenCx, mir: &Mir, debug_context: &FunctionDebugContext) +pub fn create_mir_scopes(cx: &CodegenCx, mir: &Mir, debug_context: &FunctionDebugContext) -> IndexVec { let null_scope = MirDebugScope { scope_metadata: ptr::null_mut(), @@ -71,13 +71,13 @@ pub fn create_mir_scopes(ccx: &CodegenCx, mir: &Mir, debug_context: &FunctionDeb // Instantiate all scopes. for idx in 0..mir.visibility_scopes.len() { let scope = VisibilityScope::new(idx); - make_mir_scope(ccx, &mir, &has_variables, debug_context, scope, &mut scopes); + make_mir_scope(cx, &mir, &has_variables, debug_context, scope, &mut scopes); } scopes } -fn make_mir_scope(ccx: &CodegenCx, +fn make_mir_scope(cx: &CodegenCx, mir: &Mir, has_variables: &BitVector, debug_context: &FunctionDebugContextData, @@ -89,11 +89,11 @@ fn make_mir_scope(ccx: &CodegenCx, let scope_data = &mir.visibility_scopes[scope]; let parent_scope = if let Some(parent) = scope_data.parent_scope { - make_mir_scope(ccx, mir, has_variables, debug_context, parent, scopes); + make_mir_scope(cx, mir, has_variables, debug_context, parent, scopes); scopes[parent] } else { // The root is the function itself. - let loc = span_start(ccx, mir.span); + let loc = span_start(cx, mir.span); scopes[scope] = MirDebugScope { scope_metadata: debug_context.fn_metadata, file_start_pos: loc.file.start_pos, @@ -115,14 +115,14 @@ fn make_mir_scope(ccx: &CodegenCx, } } - let loc = span_start(ccx, scope_data.span); - let file_metadata = file_metadata(ccx, + let loc = span_start(cx, scope_data.span); + let file_metadata = file_metadata(cx, &loc.file.name, debug_context.defining_crate); let scope_metadata = unsafe { llvm::LLVMRustDIBuilderCreateLexicalBlock( - DIB(ccx), + DIB(cx), parent_scope.scope_metadata, file_metadata, loc.line as c_uint, diff --git a/src/librustc_trans/debuginfo/gdb.rs b/src/librustc_trans/debuginfo/gdb.rs index 53d9c638197..195d12aca54 100644 --- a/src/librustc_trans/debuginfo/gdb.rs +++ b/src/librustc_trans/debuginfo/gdb.rs @@ -24,12 +24,12 @@ use syntax::attr; /// Inserts a side-effect free instruction sequence that makes sure that the /// .debug_gdb_scripts global is referenced, so it isn't removed by the linker. -pub fn insert_reference_to_gdb_debug_scripts_section_global(ccx: &CodegenCx, builder: &Builder) { - if needs_gdb_debug_scripts_section(ccx) { - let gdb_debug_scripts_section_global = get_or_insert_gdb_debug_scripts_section_global(ccx); +pub fn insert_reference_to_gdb_debug_scripts_section_global(cx: &CodegenCx, builder: &Builder) { + if needs_gdb_debug_scripts_section(cx) { + let gdb_debug_scripts_section_global = get_or_insert_gdb_debug_scripts_section_global(cx); // Load just the first byte as that's all that's necessary to force // LLVM to keep around the reference to the global. - let indices = [C_i32(ccx, 0), C_i32(ccx, 0)]; + let indices = [C_i32(cx, 0), C_i32(cx, 0)]; let element = builder.inbounds_gep(gdb_debug_scripts_section_global, &indices); let volative_load_instruction = builder.volatile_load(element); unsafe { @@ -40,13 +40,13 @@ pub fn insert_reference_to_gdb_debug_scripts_section_global(ccx: &CodegenCx, bui /// Allocates the global variable responsible for the .debug_gdb_scripts binary /// section. -pub fn get_or_insert_gdb_debug_scripts_section_global(ccx: &CodegenCx) +pub fn get_or_insert_gdb_debug_scripts_section_global(cx: &CodegenCx) -> llvm::ValueRef { let c_section_var_name = "__rustc_debug_gdb_scripts_section__\0"; let section_var_name = &c_section_var_name[..c_section_var_name.len()-1]; let section_var = unsafe { - llvm::LLVMGetNamedGlobal(ccx.llmod, + llvm::LLVMGetNamedGlobal(cx.llmod, c_section_var_name.as_ptr() as *const _) }; @@ -55,15 +55,15 @@ pub fn get_or_insert_gdb_debug_scripts_section_global(ccx: &CodegenCx) let section_contents = b"\x01gdb_load_rust_pretty_printers.py\0"; unsafe { - let llvm_type = Type::array(&Type::i8(ccx), + let llvm_type = Type::array(&Type::i8(cx), section_contents.len() as u64); - let section_var = declare::define_global(ccx, section_var_name, + let section_var = declare::define_global(cx, section_var_name, llvm_type).unwrap_or_else(||{ bug!("symbol `{}` is already defined", section_var_name) }); llvm::LLVMSetSection(section_var, section_name.as_ptr() as *const _); - llvm::LLVMSetInitializer(section_var, C_bytes(ccx, section_contents)); + llvm::LLVMSetInitializer(section_var, C_bytes(cx, section_contents)); llvm::LLVMSetGlobalConstant(section_var, llvm::True); llvm::LLVMSetUnnamedAddr(section_var, llvm::True); llvm::LLVMRustSetLinkage(section_var, llvm::Linkage::LinkOnceODRLinkage); @@ -77,13 +77,13 @@ pub fn get_or_insert_gdb_debug_scripts_section_global(ccx: &CodegenCx) } } -pub fn needs_gdb_debug_scripts_section(ccx: &CodegenCx) -> bool { +pub fn needs_gdb_debug_scripts_section(cx: &CodegenCx) -> bool { let omit_gdb_pretty_printer_section = - attr::contains_name(&ccx.tcx.hir.krate_attrs(), + attr::contains_name(&cx.tcx.hir.krate_attrs(), "omit_gdb_pretty_printer_section"); !omit_gdb_pretty_printer_section && - !ccx.sess().target.target.options.is_like_osx && - !ccx.sess().target.target.options.is_like_windows && - ccx.sess().opts.debuginfo != NoDebugInfo + !cx.sess().target.target.options.is_like_osx && + !cx.sess().target.target.options.is_like_windows && + cx.sess().opts.debuginfo != NoDebugInfo } diff --git a/src/librustc_trans/debuginfo/metadata.rs b/src/librustc_trans/debuginfo/metadata.rs index e3e4e1414fc..62ba91840d9 100644 --- a/src/librustc_trans/debuginfo/metadata.rs +++ b/src/librustc_trans/debuginfo/metadata.rs @@ -1210,7 +1210,7 @@ impl<'tcx> EnumMemberDescriptionFactory<'tcx> { // of discriminant instead of us having to recover its path. // Right now it's not even going to work for `niche_start > 0`, // and for multiple niche variants it only supports the first. - fn compute_field_path<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, + fn compute_field_path<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, name: &mut String, layout: TyLayout<'tcx>, offset: Size, @@ -1221,10 +1221,10 @@ impl<'tcx> EnumMemberDescriptionFactory<'tcx> { continue; } let inner_offset = offset - field_offset; - let field = layout.field(ccx, i); + let field = layout.field(cx, i); if inner_offset + size <= field.size { write!(name, "{}$", i).unwrap(); - compute_field_path(ccx, name, field, inner_offset, size); + compute_field_path(cx, name, field, inner_offset, size); } } } @@ -1689,15 +1689,15 @@ pub fn create_global_var_metadata(cx: &CodegenCx, } // Creates an "extension" of an existing DIScope into another file. -pub fn extend_scope_to_file(ccx: &CodegenCx, +pub fn extend_scope_to_file(cx: &CodegenCx, scope_metadata: DIScope, file: &syntax_pos::FileMap, defining_crate: CrateNum) -> DILexicalBlock { - let file_metadata = file_metadata(ccx, &file.name, defining_crate); + let file_metadata = file_metadata(cx, &file.name, defining_crate); unsafe { llvm::LLVMRustDIBuilderCreateLexicalBlockFile( - DIB(ccx), + DIB(cx), scope_metadata, file_metadata) } diff --git a/src/librustc_trans/debuginfo/mod.rs b/src/librustc_trans/debuginfo/mod.rs index d1609b9bf38..788dd42d875 100644 --- a/src/librustc_trans/debuginfo/mod.rs +++ b/src/librustc_trans/debuginfo/mod.rs @@ -417,7 +417,7 @@ pub fn create_function_debug_context<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, names } - fn get_containing_scope<'ccx, 'tcx>(cx: &CodegenCx<'ccx, 'tcx>, + fn get_containing_scope<'cx, 'tcx>(cx: &CodegenCx<'cx, 'tcx>, instance: Instance<'tcx>) -> DIScope { // First, let's see if this is a method within an inherent impl. Because @@ -463,7 +463,7 @@ pub fn declare_local<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, variable_access: VariableAccess, variable_kind: VariableKind, span: Span) { - let cx = bcx.ccx; + let cx = bcx.cx; let file = span_start(cx, span).file; let file_metadata = file_metadata(cx, diff --git a/src/librustc_trans/debuginfo/namespace.rs b/src/librustc_trans/debuginfo/namespace.rs index 5031ad66dd5..46067a43303 100644 --- a/src/librustc_trans/debuginfo/namespace.rs +++ b/src/librustc_trans/debuginfo/namespace.rs @@ -26,38 +26,38 @@ use std::ffi::CString; use std::ptr; pub fn mangled_name_of_instance<'a, 'tcx>( - ccx: &CodegenCx<'a, 'tcx>, + cx: &CodegenCx<'a, 'tcx>, instance: Instance<'tcx>, ) -> ty::SymbolName { - let tcx = ccx.tcx; + let tcx = cx.tcx; tcx.symbol_name(instance) } pub fn mangled_name_of_item<'a, 'tcx>( - ccx: &CodegenCx<'a, 'tcx>, + cx: &CodegenCx<'a, 'tcx>, node_id: ast::NodeId, ) -> ty::SymbolName { - let tcx = ccx.tcx; + let tcx = cx.tcx; let node_def_id = tcx.hir.local_def_id(node_id); let instance = Instance::mono(tcx, node_def_id); tcx.symbol_name(instance) } -pub fn item_namespace(ccx: &CodegenCx, def_id: DefId) -> DIScope { - if let Some(&scope) = debug_context(ccx).namespace_map.borrow().get(&def_id) { +pub fn item_namespace(cx: &CodegenCx, def_id: DefId) -> DIScope { + if let Some(&scope) = debug_context(cx).namespace_map.borrow().get(&def_id) { return scope; } - let def_key = ccx.tcx.def_key(def_id); + let def_key = cx.tcx.def_key(def_id); let parent_scope = def_key.parent.map_or(ptr::null_mut(), |parent| { - item_namespace(ccx, DefId { + item_namespace(cx, DefId { krate: def_id.krate, index: parent }) }); let namespace_name = match def_key.disambiguated_data.data { - DefPathData::CrateRoot => ccx.tcx.crate_name(def_id.krate).as_str(), + DefPathData::CrateRoot => cx.tcx.crate_name(def_id.krate).as_str(), data => data.as_interned_str() }; @@ -65,13 +65,13 @@ pub fn item_namespace(ccx: &CodegenCx, def_id: DefId) -> DIScope { let scope = unsafe { llvm::LLVMRustDIBuilderCreateNameSpace( - DIB(ccx), + DIB(cx), parent_scope, namespace_name.as_ptr(), - unknown_file_metadata(ccx), + unknown_file_metadata(cx), UNKNOWN_LINE_NUMBER) }; - debug_context(ccx).namespace_map.borrow_mut().insert(def_id, scope); + debug_context(cx).namespace_map.borrow_mut().insert(def_id, scope); scope } diff --git a/src/librustc_trans/debuginfo/source_loc.rs b/src/librustc_trans/debuginfo/source_loc.rs index 7393802294a..fc2deeeb031 100644 --- a/src/librustc_trans/debuginfo/source_loc.rs +++ b/src/librustc_trans/debuginfo/source_loc.rs @@ -39,7 +39,7 @@ pub fn set_source_location( let dbg_loc = if function_debug_context.source_locations_enabled.get() { debug!("set_source_location: {}", builder.sess().codemap().span_to_string(span)); - let loc = span_start(builder.ccx, span); + let loc = span_start(builder.cx, span); InternalDebugLocation::new(scope, loc.line, loc.col.to_usize()) } else { UnknownLocation @@ -88,7 +88,7 @@ pub fn set_debug_location(builder: &Builder, debug_location: InternalDebugLocati unsafe { llvm::LLVMRustDIBuilderCreateDebugLocation( - debug_context(builder.ccx).llcontext, + debug_context(builder.cx).llcontext, line as c_uint, col as c_uint, scope, diff --git a/src/librustc_trans/declare.rs b/src/librustc_trans/declare.rs index e92670f0abb..aa1cd0c27e7 100644 --- a/src/librustc_trans/declare.rs +++ b/src/librustc_trans/declare.rs @@ -39,13 +39,13 @@ use std::ffi::CString; /// /// If there’s a value with the same name already declared, the function will /// return its ValueRef instead. -pub fn declare_global(ccx: &CodegenCx, name: &str, ty: Type) -> llvm::ValueRef { +pub fn declare_global(cx: &CodegenCx, name: &str, ty: Type) -> llvm::ValueRef { debug!("declare_global(name={:?})", name); let namebuf = CString::new(name).unwrap_or_else(|_|{ bug!("name {:?} contains an interior null byte", name) }); unsafe { - llvm::LLVMRustGetOrInsertGlobal(ccx.llmod, namebuf.as_ptr(), ty.to_ref()) + llvm::LLVMRustGetOrInsertGlobal(cx.llmod, namebuf.as_ptr(), ty.to_ref()) } } @@ -54,13 +54,13 @@ pub fn declare_global(ccx: &CodegenCx, name: &str, ty: Type) -> llvm::ValueRef { /// /// If there’s a value with the same name already declared, the function will /// update the declaration and return existing ValueRef instead. -fn declare_raw_fn(ccx: &CodegenCx, name: &str, callconv: llvm::CallConv, ty: Type) -> ValueRef { +fn declare_raw_fn(cx: &CodegenCx, name: &str, callconv: llvm::CallConv, ty: Type) -> ValueRef { debug!("declare_raw_fn(name={:?}, ty={:?})", name, ty); let namebuf = CString::new(name).unwrap_or_else(|_|{ bug!("name {:?} contains an interior null byte", name) }); let llfn = unsafe { - llvm::LLVMRustGetOrInsertFunction(ccx.llmod, namebuf.as_ptr(), ty.to_ref()) + llvm::LLVMRustGetOrInsertFunction(cx.llmod, namebuf.as_ptr(), ty.to_ref()) }; llvm::SetFunctionCallConv(llfn, callconv); @@ -68,12 +68,12 @@ fn declare_raw_fn(ccx: &CodegenCx, name: &str, callconv: llvm::CallConv, ty: Typ // be merged. llvm::SetUnnamedAddr(llfn, true); - if ccx.tcx.sess.opts.cg.no_redzone - .unwrap_or(ccx.tcx.sess.target.target.options.disable_redzone) { + if cx.tcx.sess.opts.cg.no_redzone + .unwrap_or(cx.tcx.sess.target.target.options.disable_redzone) { llvm::Attribute::NoRedZone.apply_llfn(Function, llfn); } - if let Some(ref sanitizer) = ccx.tcx.sess.opts.debugging_opts.sanitizer { + if let Some(ref sanitizer) = cx.tcx.sess.opts.debugging_opts.sanitizer { match *sanitizer { Sanitizer::Address => { llvm::Attribute::SanitizeAddress.apply_llfn(Function, llfn); @@ -88,7 +88,7 @@ fn declare_raw_fn(ccx: &CodegenCx, name: &str, callconv: llvm::CallConv, ty: Typ } } - match ccx.tcx.sess.opts.cg.opt_level.as_ref().map(String::as_ref) { + match cx.tcx.sess.opts.cg.opt_level.as_ref().map(String::as_ref) { Some("s") => { llvm::Attribute::OptimizeForSize.apply_llfn(Function, llfn); }, @@ -99,7 +99,7 @@ fn declare_raw_fn(ccx: &CodegenCx, name: &str, callconv: llvm::CallConv, ty: Typ _ => {}, } - if ccx.tcx.sess.panic_strategy() != PanicStrategy::Unwind { + if cx.tcx.sess.panic_strategy() != PanicStrategy::Unwind { attributes::unwind(llfn, false); } @@ -114,8 +114,8 @@ fn declare_raw_fn(ccx: &CodegenCx, name: &str, callconv: llvm::CallConv, ty: Typ /// /// If there’s a value with the same name already declared, the function will /// update the declaration and return existing ValueRef instead. -pub fn declare_cfn(ccx: &CodegenCx, name: &str, fn_type: Type) -> ValueRef { - declare_raw_fn(ccx, name, llvm::CCallConv, fn_type) +pub fn declare_cfn(cx: &CodegenCx, name: &str, fn_type: Type) -> ValueRef { + declare_raw_fn(cx, name, llvm::CCallConv, fn_type) } @@ -123,15 +123,15 @@ pub fn declare_cfn(ccx: &CodegenCx, name: &str, fn_type: Type) -> ValueRef { /// /// If there’s a value with the same name already declared, the function will /// update the declaration and return existing ValueRef instead. -pub fn declare_fn<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, name: &str, +pub fn declare_fn<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, name: &str, fn_type: Ty<'tcx>) -> ValueRef { debug!("declare_rust_fn(name={:?}, fn_type={:?})", name, fn_type); - let sig = common::ty_fn_sig(ccx, fn_type); - let sig = ccx.tcx.erase_late_bound_regions_and_normalize(&sig); + let sig = common::ty_fn_sig(cx, fn_type); + let sig = cx.tcx.erase_late_bound_regions_and_normalize(&sig); debug!("declare_rust_fn (after region erasure) sig={:?}", sig); - let fty = FnType::new(ccx, sig, &[]); - let llfn = declare_raw_fn(ccx, name, fty.cconv, fty.llvm_type(ccx)); + let fty = FnType::new(cx, sig, &[]); + let llfn = declare_raw_fn(cx, name, fty.cconv, fty.llvm_type(cx)); // FIXME(canndrew): This is_never should really be an is_uninhabited if sig.output().is_never() { @@ -154,11 +154,11 @@ pub fn declare_fn<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, name: &str, /// return None if the name already has a definition associated with it. In that /// case an error should be reported to the user, because it usually happens due /// to user’s fault (e.g. misuse of #[no_mangle] or #[export_name] attributes). -pub fn define_global(ccx: &CodegenCx, name: &str, ty: Type) -> Option { - if get_defined_value(ccx, name).is_some() { +pub fn define_global(cx: &CodegenCx, name: &str, ty: Type) -> Option { + if get_defined_value(cx, name).is_some() { None } else { - Some(declare_global(ccx, name, ty)) + Some(declare_global(cx, name, ty)) } } @@ -167,13 +167,13 @@ pub fn define_global(ccx: &CodegenCx, name: &str, ty: Type) -> Option /// Use this function when you intend to define a function. This function will /// return panic if the name already has a definition associated with it. This /// can happen with #[no_mangle] or #[export_name], for example. -pub fn define_fn<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, +pub fn define_fn<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, name: &str, fn_type: Ty<'tcx>) -> ValueRef { - if get_defined_value(ccx, name).is_some() { - ccx.sess().fatal(&format!("symbol `{}` already defined", name)) + if get_defined_value(cx, name).is_some() { + cx.sess().fatal(&format!("symbol `{}` already defined", name)) } else { - declare_fn(ccx, name, fn_type) + declare_fn(cx, name, fn_type) } } @@ -182,22 +182,22 @@ pub fn define_fn<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, /// Use this function when you intend to define a function. This function will /// return panic if the name already has a definition associated with it. This /// can happen with #[no_mangle] or #[export_name], for example. -pub fn define_internal_fn<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, +pub fn define_internal_fn<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, name: &str, fn_type: Ty<'tcx>) -> ValueRef { - let llfn = define_fn(ccx, name, fn_type); + let llfn = define_fn(cx, name, fn_type); unsafe { llvm::LLVMRustSetLinkage(llfn, llvm::Linkage::InternalLinkage) }; llfn } /// Get declared value by name. -pub fn get_declared_value(ccx: &CodegenCx, name: &str) -> Option { +pub fn get_declared_value(cx: &CodegenCx, name: &str) -> Option { debug!("get_declared_value(name={:?})", name); let namebuf = CString::new(name).unwrap_or_else(|_|{ bug!("name {:?} contains an interior null byte", name) }); - let val = unsafe { llvm::LLVMRustGetNamedValue(ccx.llmod, namebuf.as_ptr()) }; + let val = unsafe { llvm::LLVMRustGetNamedValue(cx.llmod, namebuf.as_ptr()) }; if val.is_null() { debug!("get_declared_value: {:?} value is null", name); None @@ -209,8 +209,8 @@ pub fn get_declared_value(ccx: &CodegenCx, name: &str) -> Option { /// Get defined or externally defined (AvailableExternally linkage) value by /// name. -pub fn get_defined_value(ccx: &CodegenCx, name: &str) -> Option { - get_declared_value(ccx, name).and_then(|val|{ +pub fn get_defined_value(cx: &CodegenCx, name: &str) -> Option { + get_declared_value(cx, name).and_then(|val|{ let declaration = unsafe { llvm::LLVMIsDeclaration(val) != 0 }; diff --git a/src/librustc_trans/glue.rs b/src/librustc_trans/glue.rs index d636aa74bf6..b93b68d79e5 100644 --- a/src/librustc_trans/glue.rs +++ b/src/librustc_trans/glue.rs @@ -27,12 +27,12 @@ pub fn size_and_align_of_dst<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, t: Ty<'tcx>, inf -> (ValueRef, ValueRef) { debug!("calculate size of DST: {}; with lost info: {:?}", t, Value(info)); - if bcx.ccx.type_is_sized(t) { - let (size, align) = bcx.ccx.size_and_align_of(t); + if bcx.cx.type_is_sized(t) { + let (size, align) = bcx.cx.size_and_align_of(t); debug!("size_and_align_of_dst t={} info={:?} size: {:?} align: {:?}", t, Value(info), size, align); - let size = C_usize(bcx.ccx, size.bytes()); - let align = C_usize(bcx.ccx, align.abi()); + let size = C_usize(bcx.cx, size.bytes()); + let align = C_usize(bcx.cx, align.abi()); return (size, align); } assert!(!info.is_null()); @@ -45,17 +45,17 @@ pub fn size_and_align_of_dst<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, t: Ty<'tcx>, inf let unit = t.sequence_element_type(bcx.tcx()); // The info in this case is the length of the str, so the size is that // times the unit size. - let (size, align) = bcx.ccx.size_and_align_of(unit); - (bcx.mul(info, C_usize(bcx.ccx, size.bytes())), - C_usize(bcx.ccx, align.abi())) + let (size, align) = bcx.cx.size_and_align_of(unit); + (bcx.mul(info, C_usize(bcx.cx, size.bytes())), + C_usize(bcx.cx, align.abi())) } _ => { - let ccx = bcx.ccx; + let cx = bcx.cx; // First get the size of all statically known fields. // Don't use size_of because it also rounds up to alignment, which we // want to avoid, as the unsized field's alignment could be smaller. assert!(!t.is_simd()); - let layout = ccx.layout_of(t); + let layout = cx.layout_of(t); debug!("DST {} layout: {:?}", t, layout); let i = layout.fields.count() - 1; @@ -63,12 +63,12 @@ pub fn size_and_align_of_dst<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, t: Ty<'tcx>, inf let sized_align = layout.align.abi(); debug!("DST {} statically sized prefix size: {} align: {}", t, sized_size, sized_align); - let sized_size = C_usize(ccx, sized_size); - let sized_align = C_usize(ccx, sized_align); + let sized_size = C_usize(cx, sized_size); + let sized_align = C_usize(cx, sized_align); // Recurse to get the size of the dynamically sized field (must be // the last field). - let field_ty = layout.field(ccx, i).ty; + let field_ty = layout.field(cx, i).ty; let (unsized_size, mut unsized_align) = size_and_align_of_dst(bcx, field_ty, info); // FIXME (#26403, #27023): We should be adding padding @@ -95,7 +95,7 @@ pub fn size_and_align_of_dst<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, t: Ty<'tcx>, inf (Some(sized_align), Some(unsized_align)) => { // If both alignments are constant, (the sized_align should always be), then // pick the correct alignment statically. - C_usize(ccx, std::cmp::max(sized_align, unsized_align) as u64) + C_usize(cx, std::cmp::max(sized_align, unsized_align) as u64) } _ => bcx.select(bcx.icmp(llvm::IntUGT, sized_align, unsized_align), sized_align, @@ -113,7 +113,7 @@ pub fn size_and_align_of_dst<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, t: Ty<'tcx>, inf // // `(size + (align-1)) & -align` - let addend = bcx.sub(align, C_usize(bcx.ccx, 1)); + let addend = bcx.sub(align, C_usize(bcx.cx, 1)); let size = bcx.and(bcx.add(size, addend), bcx.neg(align)); (size, align) diff --git a/src/librustc_trans/intrinsic.rs b/src/librustc_trans/intrinsic.rs index fa8ed744931..0b518b0d728 100644 --- a/src/librustc_trans/intrinsic.rs +++ b/src/librustc_trans/intrinsic.rs @@ -35,7 +35,7 @@ use syntax_pos::Span; use std::cmp::Ordering; use std::iter; -fn get_simple_intrinsic(ccx: &CodegenCx, name: &str) -> Option { +fn get_simple_intrinsic(cx: &CodegenCx, name: &str) -> Option { let llvm_name = match name { "sqrtf32" => "llvm.sqrt.f32", "sqrtf64" => "llvm.sqrt.f64", @@ -79,7 +79,7 @@ fn get_simple_intrinsic(ccx: &CodegenCx, name: &str) -> Option { "abort" => "llvm.trap", _ => return None }; - Some(ccx.get_intrinsic(&llvm_name)) + Some(cx.get_intrinsic(&llvm_name)) } /// Remember to add all intrinsics here, in librustc_typeck/check/mod.rs, @@ -91,8 +91,8 @@ pub fn trans_intrinsic_call<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, args: &[OperandRef<'tcx>], llresult: ValueRef, span: Span) { - let ccx = bcx.ccx; - let tcx = ccx.tcx; + let cx = bcx.cx; + let tcx = cx.tcx; let (def_id, substs) = match callee_ty.sty { ty::TyFnDef(def_id, substs) => (def_id, substs), @@ -105,10 +105,10 @@ pub fn trans_intrinsic_call<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, let ret_ty = sig.output(); let name = &*tcx.item_name(def_id); - let llret_ty = ccx.layout_of(ret_ty).llvm_type(ccx); + let llret_ty = cx.layout_of(ret_ty).llvm_type(cx); let result = PlaceRef::new_sized(llresult, fn_ty.ret.layout, fn_ty.ret.layout.align); - let simple = get_simple_intrinsic(ccx, name); + let simple = get_simple_intrinsic(cx, name); let llval = match name { _ if simple.is_some() => { bcx.call(simple.unwrap(), @@ -119,15 +119,15 @@ pub fn trans_intrinsic_call<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, return; }, "likely" => { - let expect = ccx.get_intrinsic(&("llvm.expect.i1")); - bcx.call(expect, &[args[0].immediate(), C_bool(ccx, true)], None) + let expect = cx.get_intrinsic(&("llvm.expect.i1")); + bcx.call(expect, &[args[0].immediate(), C_bool(cx, true)], None) } "unlikely" => { - let expect = ccx.get_intrinsic(&("llvm.expect.i1")); - bcx.call(expect, &[args[0].immediate(), C_bool(ccx, false)], None) + let expect = cx.get_intrinsic(&("llvm.expect.i1")); + bcx.call(expect, &[args[0].immediate(), C_bool(cx, false)], None) } "try" => { - try_intrinsic(bcx, ccx, + try_intrinsic(bcx, cx, args[0].immediate(), args[1].immediate(), args[2].immediate(), @@ -135,12 +135,12 @@ pub fn trans_intrinsic_call<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, return; } "breakpoint" => { - let llfn = ccx.get_intrinsic(&("llvm.debugtrap")); + let llfn = cx.get_intrinsic(&("llvm.debugtrap")); bcx.call(llfn, &[], None) } "size_of" => { let tp_ty = substs.type_at(0); - C_usize(ccx, ccx.size_of(tp_ty).bytes()) + C_usize(cx, cx.size_of(tp_ty).bytes()) } "size_of_val" => { let tp_ty = substs.type_at(0); @@ -149,12 +149,12 @@ pub fn trans_intrinsic_call<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, glue::size_and_align_of_dst(bcx, tp_ty, meta); llsize } else { - C_usize(ccx, ccx.size_of(tp_ty).bytes()) + C_usize(cx, cx.size_of(tp_ty).bytes()) } } "min_align_of" => { let tp_ty = substs.type_at(0); - C_usize(ccx, ccx.align_of(tp_ty).abi()) + C_usize(cx, cx.align_of(tp_ty).abi()) } "min_align_of_val" => { let tp_ty = substs.type_at(0); @@ -163,29 +163,29 @@ pub fn trans_intrinsic_call<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, glue::size_and_align_of_dst(bcx, tp_ty, meta); llalign } else { - C_usize(ccx, ccx.align_of(tp_ty).abi()) + C_usize(cx, cx.align_of(tp_ty).abi()) } } "pref_align_of" => { let tp_ty = substs.type_at(0); - C_usize(ccx, ccx.align_of(tp_ty).pref()) + C_usize(cx, cx.align_of(tp_ty).pref()) } "type_name" => { let tp_ty = substs.type_at(0); let ty_name = Symbol::intern(&tp_ty.to_string()).as_str(); - C_str_slice(ccx, ty_name) + C_str_slice(cx, ty_name) } "type_id" => { - C_u64(ccx, ccx.tcx.type_id_hash(substs.type_at(0))) + C_u64(cx, cx.tcx.type_id_hash(substs.type_at(0))) } "init" => { let ty = substs.type_at(0); - if !ccx.layout_of(ty).is_zst() { + if !cx.layout_of(ty).is_zst() { // Just zero out the stack slot. // If we store a zero constant, LLVM will drown in vreg allocation for large data // structures, and the generated code will be awful. (A telltale sign of this is // large quantities of `mov [byte ptr foo],0` in the generated code.) - memset_intrinsic(bcx, false, ty, llresult, C_u8(ccx, 0), C_usize(ccx, 1)); + memset_intrinsic(bcx, false, ty, llresult, C_u8(cx, 0), C_usize(cx, 1)); } return; } @@ -196,7 +196,7 @@ pub fn trans_intrinsic_call<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, "needs_drop" => { let tp_ty = substs.type_at(0); - C_bool(ccx, bcx.ccx.type_needs_drop(tp_ty)) + C_bool(cx, bcx.cx.type_needs_drop(tp_ty)) } "offset" => { let ptr = args[0].immediate(); @@ -238,17 +238,17 @@ pub fn trans_intrinsic_call<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, let tp_ty = substs.type_at(0); let mut ptr = args[0].immediate(); if let PassMode::Cast(ty) = fn_ty.ret.mode { - ptr = bcx.pointercast(ptr, ty.llvm_type(ccx).ptr_to()); + ptr = bcx.pointercast(ptr, ty.llvm_type(cx).ptr_to()); } let load = bcx.volatile_load(ptr); unsafe { - llvm::LLVMSetAlignment(load, ccx.align_of(tp_ty).abi() as u32); + llvm::LLVMSetAlignment(load, cx.align_of(tp_ty).abi() as u32); } - to_immediate(bcx, load, ccx.layout_of(tp_ty)) + to_immediate(bcx, load, cx.layout_of(tp_ty)) }, "volatile_store" => { let tp_ty = substs.type_at(0); - let dst = args[0].deref(bcx.ccx); + let dst = args[0].deref(bcx.cx); if let OperandValue::Pair(a, b) = args[1].val { bcx.volatile_store(a, dst.project_field(bcx, 0).llval); bcx.volatile_store(b, dst.project_field(bcx, 1).llval); @@ -264,14 +264,14 @@ pub fn trans_intrinsic_call<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, let ptr = bcx.pointercast(dst.llval, val_ty(val).ptr_to()); let store = bcx.volatile_store(val, ptr); unsafe { - llvm::LLVMSetAlignment(store, ccx.align_of(tp_ty).abi() as u32); + llvm::LLVMSetAlignment(store, cx.align_of(tp_ty).abi() as u32); } } return; }, "prefetch_read_data" | "prefetch_write_data" | "prefetch_read_instruction" | "prefetch_write_instruction" => { - let expect = ccx.get_intrinsic(&("llvm.prefetch")); + let expect = cx.get_intrinsic(&("llvm.prefetch")); let (rw, cache_type) = match name { "prefetch_read_data" => (0, 1), "prefetch_write_data" => (1, 1), @@ -281,9 +281,9 @@ pub fn trans_intrinsic_call<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, }; bcx.call(expect, &[ args[0].immediate(), - C_i32(ccx, rw), + C_i32(cx, rw), args[1].immediate(), - C_i32(ccx, cache_type) + C_i32(cx, cache_type) ], None) }, "ctlz" | "ctlz_nonzero" | "cttz" | "cttz_nonzero" | "ctpop" | "bswap" | @@ -291,27 +291,27 @@ pub fn trans_intrinsic_call<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, "overflowing_add" | "overflowing_sub" | "overflowing_mul" | "unchecked_div" | "unchecked_rem" | "unchecked_shl" | "unchecked_shr" => { let ty = arg_tys[0]; - match int_type_width_signed(ty, ccx) { + match int_type_width_signed(ty, cx) { Some((width, signed)) => match name { "ctlz" | "cttz" => { - let y = C_bool(bcx.ccx, false); - let llfn = ccx.get_intrinsic(&format!("llvm.{}.i{}", name, width)); + let y = C_bool(bcx.cx, false); + let llfn = cx.get_intrinsic(&format!("llvm.{}.i{}", name, width)); bcx.call(llfn, &[args[0].immediate(), y], None) } "ctlz_nonzero" | "cttz_nonzero" => { - let y = C_bool(bcx.ccx, true); + let y = C_bool(bcx.cx, true); let llvm_name = &format!("llvm.{}.i{}", &name[..4], width); - let llfn = ccx.get_intrinsic(llvm_name); + let llfn = cx.get_intrinsic(llvm_name); bcx.call(llfn, &[args[0].immediate(), y], None) } - "ctpop" => bcx.call(ccx.get_intrinsic(&format!("llvm.ctpop.i{}", width)), + "ctpop" => bcx.call(cx.get_intrinsic(&format!("llvm.ctpop.i{}", width)), &[args[0].immediate()], None), "bswap" => { if width == 8 { args[0].immediate() // byte swap a u8/i8 is just a no-op } else { - bcx.call(ccx.get_intrinsic(&format!("llvm.bswap.i{}", width)), + bcx.call(cx.get_intrinsic(&format!("llvm.bswap.i{}", width)), &[args[0].immediate()], None) } } @@ -319,7 +319,7 @@ pub fn trans_intrinsic_call<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, let intrinsic = format!("llvm.{}{}.with.overflow.i{}", if signed { 's' } else { 'u' }, &name[..3], width); - let llfn = bcx.ccx.get_intrinsic(&intrinsic); + let llfn = bcx.cx.get_intrinsic(&intrinsic); // Convert `i1` to a `bool`, and write it to the out parameter let pair = bcx.call(llfn, &[ @@ -327,7 +327,7 @@ pub fn trans_intrinsic_call<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, args[1].immediate() ], None); let val = bcx.extract_value(pair, 0); - let overflow = bcx.zext(bcx.extract_value(pair, 1), Type::bool(ccx)); + let overflow = bcx.zext(bcx.extract_value(pair, 1), Type::bool(cx)); let dest = result.project_field(bcx, 0); bcx.store(val, dest.llval, dest.align); @@ -394,16 +394,16 @@ pub fn trans_intrinsic_call<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, }, "discriminant_value" => { - args[0].deref(bcx.ccx).trans_get_discr(bcx, ret_ty) + args[0].deref(bcx.cx).trans_get_discr(bcx, ret_ty) } "align_offset" => { // `ptr as usize` - let ptr_val = bcx.ptrtoint(args[0].immediate(), bcx.ccx.isize_ty); + let ptr_val = bcx.ptrtoint(args[0].immediate(), bcx.cx.isize_ty); // `ptr_val % align` let align = args[1].immediate(); let offset = bcx.urem(ptr_val, align); - let zero = C_null(bcx.ccx.isize_ty); + let zero = C_null(bcx.cx.isize_ty); // `offset == 0` let is_zero = bcx.icmp(llvm::IntPredicate::IntEQ, offset, zero); // `if offset == 0 { 0 } else { align - offset }` @@ -439,16 +439,16 @@ pub fn trans_intrinsic_call<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, (SequentiallyConsistent, Monotonic), "failacq" if is_cxchg => (SequentiallyConsistent, Acquire), - _ => ccx.sess().fatal("unknown ordering in atomic intrinsic") + _ => cx.sess().fatal("unknown ordering in atomic intrinsic") }, 4 => match (split[2], split[3]) { ("acq", "failrelaxed") if is_cxchg => (Acquire, Monotonic), ("acqrel", "failrelaxed") if is_cxchg => (AcquireRelease, Monotonic), - _ => ccx.sess().fatal("unknown ordering in atomic intrinsic") + _ => cx.sess().fatal("unknown ordering in atomic intrinsic") }, - _ => ccx.sess().fatal("Atomic intrinsic not in correct format"), + _ => cx.sess().fatal("Atomic intrinsic not in correct format"), }; let invalid_monomorphization = |ty| { @@ -460,7 +460,7 @@ pub fn trans_intrinsic_call<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, match split[1] { "cxchg" | "cxchgweak" => { let ty = substs.type_at(0); - if int_type_width_signed(ty, ccx).is_some() { + if int_type_width_signed(ty, cx).is_some() { let weak = if split[1] == "cxchgweak" { llvm::True } else { llvm::False }; let pair = bcx.atomic_cmpxchg( args[0].immediate(), @@ -470,7 +470,7 @@ pub fn trans_intrinsic_call<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, failorder, weak); let val = bcx.extract_value(pair, 0); - let success = bcx.zext(bcx.extract_value(pair, 1), Type::bool(bcx.ccx)); + let success = bcx.zext(bcx.extract_value(pair, 1), Type::bool(bcx.cx)); let dest = result.project_field(bcx, 0); bcx.store(val, dest.llval, dest.align); @@ -484,8 +484,8 @@ pub fn trans_intrinsic_call<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, "load" => { let ty = substs.type_at(0); - if int_type_width_signed(ty, ccx).is_some() { - let align = ccx.align_of(ty); + if int_type_width_signed(ty, cx).is_some() { + let align = cx.align_of(ty); bcx.atomic_load(args[0].immediate(), order, align) } else { return invalid_monomorphization(ty); @@ -494,8 +494,8 @@ pub fn trans_intrinsic_call<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, "store" => { let ty = substs.type_at(0); - if int_type_width_signed(ty, ccx).is_some() { - let align = ccx.align_of(ty); + if int_type_width_signed(ty, cx).is_some() { + let align = cx.align_of(ty); bcx.atomic_store(args[1].immediate(), args[0].immediate(), order, align); return; } else { @@ -527,11 +527,11 @@ pub fn trans_intrinsic_call<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, "min" => llvm::AtomicMin, "umax" => llvm::AtomicUMax, "umin" => llvm::AtomicUMin, - _ => ccx.sess().fatal("unknown atomic operation") + _ => cx.sess().fatal("unknown atomic operation") }; let ty = substs.type_at(0); - if int_type_width_signed(ty, ccx).is_some() { + if int_type_width_signed(ty, cx).is_some() { bcx.atomic_rmw(atom_op, args[0].immediate(), args[1].immediate(), order) } else { return invalid_monomorphization(ty); @@ -542,7 +542,7 @@ pub fn trans_intrinsic_call<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, "nontemporal_store" => { let tp_ty = substs.type_at(0); - let dst = args[0].deref(bcx.ccx); + let dst = args[0].deref(bcx.cx); let val = if let OperandValue::Ref(ptr, align) = args[1].val { bcx.load(ptr, align) } else { @@ -551,7 +551,7 @@ pub fn trans_intrinsic_call<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, let ptr = bcx.pointercast(dst.llval, val_ty(val).ptr_to()); let store = bcx.nontemporal_store(val, ptr); unsafe { - llvm::LLVMSetAlignment(store, ccx.align_of(tp_ty).abi() as u32); + llvm::LLVMSetAlignment(store, cx.align_of(tp_ty).abi() as u32); } return } @@ -565,39 +565,39 @@ pub fn trans_intrinsic_call<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, assert_eq!(x.len(), 1); x.into_iter().next().unwrap() } - fn ty_to_type(ccx: &CodegenCx, t: &intrinsics::Type) -> Vec { + fn ty_to_type(cx: &CodegenCx, t: &intrinsics::Type) -> Vec { use intrinsics::Type::*; match *t { - Void => vec![Type::void(ccx)], + Void => vec![Type::void(cx)], Integer(_signed, _width, llvm_width) => { - vec![Type::ix(ccx, llvm_width as u64)] + vec![Type::ix(cx, llvm_width as u64)] } Float(x) => { match x { - 32 => vec![Type::f32(ccx)], - 64 => vec![Type::f64(ccx)], + 32 => vec![Type::f32(cx)], + 64 => vec![Type::f64(cx)], _ => bug!() } } Pointer(ref t, ref llvm_elem, _const) => { let t = llvm_elem.as_ref().unwrap_or(t); - let elem = one(ty_to_type(ccx, t)); + let elem = one(ty_to_type(cx, t)); vec![elem.ptr_to()] } Vector(ref t, ref llvm_elem, length) => { let t = llvm_elem.as_ref().unwrap_or(t); - let elem = one(ty_to_type(ccx, t)); + let elem = one(ty_to_type(cx, t)); vec![Type::vector(&elem, length as u64)] } Aggregate(false, ref contents) => { let elems = contents.iter() - .map(|t| one(ty_to_type(ccx, t))) + .map(|t| one(ty_to_type(cx, t))) .collect::>(); - vec![Type::struct_(ccx, &elems, false)] + vec![Type::struct_(cx, &elems, false)] } Aggregate(true, ref contents) => { contents.iter() - .flat_map(|t| ty_to_type(ccx, t)) + .flat_map(|t| ty_to_type(cx, t)) .collect() } } @@ -620,7 +620,7 @@ pub fn trans_intrinsic_call<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, // This assumes the type is "simple", i.e. no // destructors, and the contents are SIMD // etc. - assert!(!bcx.ccx.type_needs_drop(arg.layout.ty)); + assert!(!bcx.cx.type_needs_drop(arg.layout.ty)); let (ptr, align) = match arg.val { OperandValue::Ref(ptr, align) => (ptr, align), _ => bug!() @@ -631,18 +631,18 @@ pub fn trans_intrinsic_call<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, }).collect() } intrinsics::Type::Pointer(_, Some(ref llvm_elem), _) => { - let llvm_elem = one(ty_to_type(bcx.ccx, llvm_elem)); + let llvm_elem = one(ty_to_type(bcx.cx, llvm_elem)); vec![bcx.pointercast(arg.immediate(), llvm_elem.ptr_to())] } intrinsics::Type::Vector(_, Some(ref llvm_elem), length) => { - let llvm_elem = one(ty_to_type(bcx.ccx, llvm_elem)); + let llvm_elem = one(ty_to_type(bcx.cx, llvm_elem)); vec![bcx.bitcast(arg.immediate(), Type::vector(&llvm_elem, length as u64))] } intrinsics::Type::Integer(_, width, llvm_width) if width != llvm_width => { // the LLVM intrinsic uses a smaller integer // size than the C intrinsic's signature, so // we have to trim it down here. - vec![bcx.trunc(arg.immediate(), Type::ix(bcx.ccx, llvm_width as u64))] + vec![bcx.trunc(arg.immediate(), Type::ix(bcx.cx, llvm_width as u64))] } _ => vec![arg.immediate()], } @@ -650,10 +650,10 @@ pub fn trans_intrinsic_call<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, let inputs = intr.inputs.iter() - .flat_map(|t| ty_to_type(ccx, t)) + .flat_map(|t| ty_to_type(cx, t)) .collect::>(); - let outputs = one(ty_to_type(ccx, &intr.output)); + let outputs = one(ty_to_type(cx, &intr.output)); let llargs: Vec<_> = intr.inputs.iter().zip(args).flat_map(|(t, arg)| { modify_as_needed(bcx, t, arg) @@ -662,7 +662,7 @@ pub fn trans_intrinsic_call<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, let val = match intr.definition { intrinsics::IntrinsicDef::Named(name) => { - let f = declare::declare_cfn(ccx, + let f = declare::declare_cfn(cx, name, Type::func(&inputs, &outputs)); bcx.call(f, &llargs, None) @@ -688,7 +688,7 @@ pub fn trans_intrinsic_call<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, if !fn_ty.ret.is_ignore() { if let PassMode::Cast(ty) = fn_ty.ret.mode { - let ptr = bcx.pointercast(result.llval, ty.llvm_type(ccx).ptr_to()); + let ptr = bcx.pointercast(result.llval, ty.llvm_type(cx).ptr_to()); bcx.store(llval, ptr, result.align); } else { OperandRef::from_immediate_or_packed_pair(bcx, llval, result.layout) @@ -705,10 +705,10 @@ fn copy_intrinsic<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, src: ValueRef, count: ValueRef) -> ValueRef { - let ccx = bcx.ccx; - let (size, align) = ccx.size_and_align_of(ty); - let size = C_usize(ccx, size.bytes()); - let align = C_i32(ccx, align.abi() as i32); + let cx = bcx.cx; + let (size, align) = cx.size_and_align_of(ty); + let size = C_usize(cx, size.bytes()); + let align = C_i32(cx, align.abi() as i32); let operation = if allow_overlap { "memmove" @@ -717,18 +717,18 @@ fn copy_intrinsic<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, }; let name = format!("llvm.{}.p0i8.p0i8.i{}", operation, - ccx.data_layout().pointer_size.bits()); + cx.data_layout().pointer_size.bits()); - let dst_ptr = bcx.pointercast(dst, Type::i8p(ccx)); - let src_ptr = bcx.pointercast(src, Type::i8p(ccx)); - let llfn = ccx.get_intrinsic(&name); + let dst_ptr = bcx.pointercast(dst, Type::i8p(cx)); + let src_ptr = bcx.pointercast(src, Type::i8p(cx)); + let llfn = cx.get_intrinsic(&name); bcx.call(llfn, &[dst_ptr, src_ptr, bcx.mul(size, count), align, - C_bool(ccx, volatile)], + C_bool(cx, volatile)], None) } @@ -740,17 +740,17 @@ fn memset_intrinsic<'a, 'tcx>( val: ValueRef, count: ValueRef ) -> ValueRef { - let ccx = bcx.ccx; - let (size, align) = ccx.size_and_align_of(ty); - let size = C_usize(ccx, size.bytes()); - let align = C_i32(ccx, align.abi() as i32); - let dst = bcx.pointercast(dst, Type::i8p(ccx)); + let cx = bcx.cx; + let (size, align) = cx.size_and_align_of(ty); + let size = C_usize(cx, size.bytes()); + let align = C_i32(cx, align.abi() as i32); + let dst = bcx.pointercast(dst, Type::i8p(cx)); call_memset(bcx, dst, val, bcx.mul(size, count), align, volatile) } fn try_intrinsic<'a, 'tcx>( bcx: &Builder<'a, 'tcx>, - ccx: &CodegenCx, + cx: &CodegenCx, func: ValueRef, data: ValueRef, local_ptr: ValueRef, @@ -759,11 +759,11 @@ fn try_intrinsic<'a, 'tcx>( if bcx.sess().no_landing_pads() { bcx.call(func, &[data], None); let ptr_align = bcx.tcx().data_layout.pointer_align; - bcx.store(C_null(Type::i8p(&bcx.ccx)), dest, ptr_align); + bcx.store(C_null(Type::i8p(&bcx.cx)), dest, ptr_align); } else if wants_msvc_seh(bcx.sess()) { - trans_msvc_try(bcx, ccx, func, data, local_ptr, dest); + trans_msvc_try(bcx, cx, func, data, local_ptr, dest); } else { - trans_gnu_try(bcx, ccx, func, data, local_ptr, dest); + trans_gnu_try(bcx, cx, func, data, local_ptr, dest); } } @@ -775,15 +775,15 @@ fn try_intrinsic<'a, 'tcx>( // writing, however, LLVM does not recommend the usage of these new instructions // as the old ones are still more optimized. fn trans_msvc_try<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, - ccx: &CodegenCx, + cx: &CodegenCx, func: ValueRef, data: ValueRef, local_ptr: ValueRef, dest: ValueRef) { - let llfn = get_rust_try_fn(ccx, &mut |bcx| { - let ccx = bcx.ccx; + let llfn = get_rust_try_fn(cx, &mut |bcx| { + let cx = bcx.cx; - bcx.set_personality_fn(bcx.ccx.eh_personality()); + bcx.set_personality_fn(bcx.cx.eh_personality()); let normal = bcx.build_sibling_block("normal"); let catchswitch = bcx.build_sibling_block("catchswitch"); @@ -833,35 +833,35 @@ fn trans_msvc_try<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, // } // // More information can be found in libstd's seh.rs implementation. - let i64p = Type::i64(ccx).ptr_to(); + let i64p = Type::i64(cx).ptr_to(); let ptr_align = bcx.tcx().data_layout.pointer_align; let slot = bcx.alloca(i64p, "slot", ptr_align); bcx.invoke(func, &[data], normal.llbb(), catchswitch.llbb(), None); - normal.ret(C_i32(ccx, 0)); + normal.ret(C_i32(cx, 0)); let cs = catchswitch.catch_switch(None, None, 1); catchswitch.add_handler(cs, catchpad.llbb()); - let tcx = ccx.tcx; + let tcx = cx.tcx; let tydesc = match tcx.lang_items().msvc_try_filter() { - Some(did) => ::consts::get_static(ccx, did), + Some(did) => ::consts::get_static(cx, did), None => bug!("msvc_try_filter not defined"), }; - let tok = catchpad.catch_pad(cs, &[tydesc, C_i32(ccx, 0), slot]); + let tok = catchpad.catch_pad(cs, &[tydesc, C_i32(cx, 0), slot]); let addr = catchpad.load(slot, ptr_align); let i64_align = bcx.tcx().data_layout.i64_align; let arg1 = catchpad.load(addr, i64_align); - let val1 = C_i32(ccx, 1); + let val1 = C_i32(cx, 1); let arg2 = catchpad.load(catchpad.inbounds_gep(addr, &[val1]), i64_align); let local_ptr = catchpad.bitcast(local_ptr, i64p); catchpad.store(arg1, local_ptr, i64_align); catchpad.store(arg2, catchpad.inbounds_gep(local_ptr, &[val1]), i64_align); catchpad.catch_ret(tok, caught.llbb()); - caught.ret(C_i32(ccx, 1)); + caught.ret(C_i32(cx, 1)); }); // Note that no invoke is used here because by definition this function @@ -883,13 +883,13 @@ fn trans_msvc_try<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, // functions in play. By calling a shim we're guaranteed that our shim will have // the right personality function. fn trans_gnu_try<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, - ccx: &CodegenCx, + cx: &CodegenCx, func: ValueRef, data: ValueRef, local_ptr: ValueRef, dest: ValueRef) { - let llfn = get_rust_try_fn(ccx, &mut |bcx| { - let ccx = bcx.ccx; + let llfn = get_rust_try_fn(cx, &mut |bcx| { + let cx = bcx.cx; // Translates the shims described above: // @@ -915,7 +915,7 @@ fn trans_gnu_try<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, let data = llvm::get_param(bcx.llfn(), 1); let local_ptr = llvm::get_param(bcx.llfn(), 2); bcx.invoke(func, &[data], then.llbb(), catch.llbb(), None); - then.ret(C_i32(ccx, 0)); + then.ret(C_i32(cx, 0)); // Type indicator for the exception being thrown. // @@ -923,14 +923,14 @@ fn trans_gnu_try<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, // being thrown. The second value is a "selector" indicating which of // the landing pad clauses the exception's type had been matched to. // rust_try ignores the selector. - let lpad_ty = Type::struct_(ccx, &[Type::i8p(ccx), Type::i32(ccx)], + let lpad_ty = Type::struct_(cx, &[Type::i8p(cx), Type::i32(cx)], false); - let vals = catch.landing_pad(lpad_ty, bcx.ccx.eh_personality(), 1); - catch.add_clause(vals, C_null(Type::i8p(ccx))); + let vals = catch.landing_pad(lpad_ty, bcx.cx.eh_personality(), 1); + catch.add_clause(vals, C_null(Type::i8p(cx))); let ptr = catch.extract_value(vals, 0); let ptr_align = bcx.tcx().data_layout.pointer_align; - catch.store(ptr, catch.bitcast(local_ptr, Type::i8p(ccx).ptr_to()), ptr_align); - catch.ret(C_i32(ccx, 1)); + catch.store(ptr, catch.bitcast(local_ptr, Type::i8p(cx).ptr_to()), ptr_align); + catch.ret(C_i32(cx, 1)); }); // Note that no invoke is used here because by definition this function @@ -942,21 +942,21 @@ fn trans_gnu_try<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, // Helper function to give a Block to a closure to translate a shim function. // This is currently primarily used for the `try` intrinsic functions above. -fn gen_fn<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, +fn gen_fn<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, name: &str, inputs: Vec>, output: Ty<'tcx>, trans: &mut for<'b> FnMut(Builder<'b, 'tcx>)) -> ValueRef { - let rust_fn_ty = ccx.tcx.mk_fn_ptr(ty::Binder(ccx.tcx.mk_fn_sig( + let rust_fn_ty = cx.tcx.mk_fn_ptr(ty::Binder(cx.tcx.mk_fn_sig( inputs.into_iter(), output, false, hir::Unsafety::Unsafe, Abi::Rust ))); - let llfn = declare::define_internal_fn(ccx, name, rust_fn_ty); - let bcx = Builder::new_block(ccx, llfn, "entry-block"); + let llfn = declare::define_internal_fn(cx, name, rust_fn_ty); + let bcx = Builder::new_block(cx, llfn, "entry-block"); trans(bcx); llfn } @@ -965,15 +965,15 @@ fn gen_fn<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, // catch exceptions. // // This function is only generated once and is then cached. -fn get_rust_try_fn<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, +fn get_rust_try_fn<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, trans: &mut for<'b> FnMut(Builder<'b, 'tcx>)) -> ValueRef { - if let Some(llfn) = ccx.rust_try_fn.get() { + if let Some(llfn) = cx.rust_try_fn.get() { return llfn; } // Define the type up front for the signature of the rust_try function. - let tcx = ccx.tcx; + let tcx = cx.tcx; let i8p = tcx.mk_mut_ptr(tcx.types.i8); let fn_ty = tcx.mk_fn_ptr(ty::Binder(tcx.mk_fn_sig( iter::once(i8p), @@ -983,8 +983,8 @@ fn get_rust_try_fn<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, Abi::Rust ))); let output = tcx.types.i32; - let rust_try = gen_fn(ccx, "__rust_try", vec![fn_ty, i8p, i8p], output, trans); - ccx.rust_try_fn.set(Some(rust_try)); + let rust_try = gen_fn(cx, "__rust_try", vec![fn_ty, i8p, i8p], output, trans); + cx.rust_try_fn.set(Some(rust_try)); return rust_try } @@ -1109,7 +1109,7 @@ fn generic_simd_intrinsic<'a, 'tcx>( arg_idx, total_len); None } - Some(idx) => Some(C_i32(bcx.ccx, idx as i32)), + Some(idx) => Some(C_i32(bcx.cx, idx as i32)), } }) .collect(); @@ -1243,11 +1243,11 @@ fn generic_simd_intrinsic<'a, 'tcx>( // Returns None if the type is not an integer // FIXME: there’s multiple of this functions, investigate using some of the already existing // stuffs. -fn int_type_width_signed(ty: Ty, ccx: &CodegenCx) -> Option<(u64, bool)> { +fn int_type_width_signed(ty: Ty, cx: &CodegenCx) -> Option<(u64, bool)> { match ty.sty { ty::TyInt(t) => Some((match t { ast::IntTy::Isize => { - match &ccx.tcx.sess.target.target.target_pointer_width[..] { + match &cx.tcx.sess.target.target.target_pointer_width[..] { "16" => 16, "32" => 32, "64" => 64, @@ -1262,7 +1262,7 @@ fn int_type_width_signed(ty: Ty, ccx: &CodegenCx) -> Option<(u64, bool)> { }, true)), ty::TyUint(t) => Some((match t { ast::UintTy::Usize => { - match &ccx.tcx.sess.target.target.target_pointer_width[..] { + match &cx.tcx.sess.target.target.target_pointer_width[..] { "16" => 16, "32" => 32, "64" => 64, diff --git a/src/librustc_trans/meth.rs b/src/librustc_trans/meth.rs index be6f035e089..b9551ecbfae 100644 --- a/src/librustc_trans/meth.rs +++ b/src/librustc_trans/meth.rs @@ -39,9 +39,9 @@ impl<'a, 'tcx> VirtualIndex { // Load the data pointer from the object. debug!("get_fn({:?}, {:?})", Value(llvtable), self); - let llvtable = bcx.pointercast(llvtable, fn_ty.llvm_type(bcx.ccx).ptr_to().ptr_to()); + let llvtable = bcx.pointercast(llvtable, fn_ty.llvm_type(bcx.cx).ptr_to().ptr_to()); let ptr_align = bcx.tcx().data_layout.pointer_align; - let ptr = bcx.load(bcx.inbounds_gep(llvtable, &[C_usize(bcx.ccx, self.0)]), ptr_align); + let ptr = bcx.load(bcx.inbounds_gep(llvtable, &[C_usize(bcx.cx, self.0)]), ptr_align); bcx.nonnull_metadata(ptr); // Vtable loads are invariant bcx.set_invariant_load(ptr); @@ -52,9 +52,9 @@ impl<'a, 'tcx> VirtualIndex { // Load the data pointer from the object. debug!("get_int({:?}, {:?})", Value(llvtable), self); - let llvtable = bcx.pointercast(llvtable, Type::isize(bcx.ccx).ptr_to()); + let llvtable = bcx.pointercast(llvtable, Type::isize(bcx.cx).ptr_to()); let usize_align = bcx.tcx().data_layout.pointer_align; - let ptr = bcx.load(bcx.inbounds_gep(llvtable, &[C_usize(bcx.ccx, self.0)]), usize_align); + let ptr = bcx.load(bcx.inbounds_gep(llvtable, &[C_usize(bcx.cx, self.0)]), usize_align); // Vtable loads are invariant bcx.set_invariant_load(ptr); ptr @@ -69,28 +69,28 @@ impl<'a, 'tcx> VirtualIndex { /// The `trait_ref` encodes the erased self type. Hence if we are /// making an object `Foo` from a value of type `Foo`, then /// `trait_ref` would map `T:Trait`. -pub fn get_vtable<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, +pub fn get_vtable<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, ty: Ty<'tcx>, trait_ref: Option>) -> ValueRef { - let tcx = ccx.tcx; + let tcx = cx.tcx; debug!("get_vtable(ty={:?}, trait_ref={:?})", ty, trait_ref); // Check the cache. - if let Some(&val) = ccx.vtables.borrow().get(&(ty, trait_ref)) { + if let Some(&val) = cx.vtables.borrow().get(&(ty, trait_ref)) { return val; } // Not in the cache. Build it. - let nullptr = C_null(Type::i8p(ccx)); + let nullptr = C_null(Type::i8p(cx)); - let (size, align) = ccx.size_and_align_of(ty); + let (size, align) = cx.size_and_align_of(ty); let mut components: Vec<_> = [ - callee::get_fn(ccx, monomorphize::resolve_drop_in_place(ccx.tcx, ty)), - C_usize(ccx, size.bytes()), - C_usize(ccx, align.abi()) + callee::get_fn(cx, monomorphize::resolve_drop_in_place(cx.tcx, ty)), + C_usize(cx, size.bytes()), + C_usize(cx, align.abi()) ].iter().cloned().collect(); if let Some(trait_ref) = trait_ref { @@ -98,18 +98,18 @@ pub fn get_vtable<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, let methods = tcx.vtable_methods(trait_ref); let methods = methods.iter().cloned().map(|opt_mth| { opt_mth.map_or(nullptr, |(def_id, substs)| { - callee::resolve_and_get_fn(ccx, def_id, substs) + callee::resolve_and_get_fn(cx, def_id, substs) }) }); components.extend(methods); } - let vtable_const = C_struct(ccx, &components, false); - let align = ccx.data_layout().pointer_align; - let vtable = consts::addr_of(ccx, vtable_const, align, "vtable"); + let vtable_const = C_struct(cx, &components, false); + let align = cx.data_layout().pointer_align; + let vtable = consts::addr_of(cx, vtable_const, align, "vtable"); - debuginfo::create_vtable_metadata(ccx, ty, vtable); + debuginfo::create_vtable_metadata(cx, ty, vtable); - ccx.vtables.borrow_mut().insert((ty, trait_ref), vtable); + cx.vtables.borrow_mut().insert((ty, trait_ref), vtable); vtable } diff --git a/src/librustc_trans/mir/analyze.rs b/src/librustc_trans/mir/analyze.rs index e70cb6d0c9a..0037c6cd027 100644 --- a/src/librustc_trans/mir/analyze.rs +++ b/src/librustc_trans/mir/analyze.rs @@ -31,7 +31,7 @@ pub fn memory_locals<'a, 'tcx>(mircx: &MirContext<'a, 'tcx>) -> BitVector { for (index, ty) in mir.local_decls.iter().map(|l| l.ty).enumerate() { let ty = mircx.monomorphize(&ty); debug!("local {} has type {:?}", index, ty); - let layout = mircx.ccx.layout_of(ty); + let layout = mircx.cx.layout_of(ty); if layout.is_llvm_immediate() { // These sorts of types are immediates that we can store // in an ValueRef without an alloca. @@ -117,7 +117,7 @@ impl<'mir, 'a, 'tcx> Visitor<'tcx> for LocalAnalyzer<'mir, 'a, 'tcx> { }, .. }), ref args, .. - } if Some(def_id) == self.cx.ccx.tcx.lang_items().box_free_fn() => { + } if Some(def_id) == self.cx.cx.tcx.lang_items().box_free_fn() => { // box_free(x) shares with `drop x` the property that it // is not guaranteed to be statically dominated by the // definition of x, so x must always be in an alloca. @@ -136,7 +136,7 @@ impl<'mir, 'a, 'tcx> Visitor<'tcx> for LocalAnalyzer<'mir, 'a, 'tcx> { context: PlaceContext<'tcx>, location: Location) { debug!("visit_place(place={:?}, context={:?})", place, context); - let ccx = self.cx.ccx; + let cx = self.cx.cx; if let mir::Place::Projection(ref proj) = *place { // Allow uses of projections that are ZSTs or from scalar fields. @@ -145,18 +145,18 @@ impl<'mir, 'a, 'tcx> Visitor<'tcx> for LocalAnalyzer<'mir, 'a, 'tcx> { _ => false }; if is_consume { - let base_ty = proj.base.ty(self.cx.mir, ccx.tcx); + let base_ty = proj.base.ty(self.cx.mir, cx.tcx); let base_ty = self.cx.monomorphize(&base_ty); // ZSTs don't require any actual memory access. - let elem_ty = base_ty.projection_ty(ccx.tcx, &proj.elem).to_ty(ccx.tcx); + let elem_ty = base_ty.projection_ty(cx.tcx, &proj.elem).to_ty(cx.tcx); let elem_ty = self.cx.monomorphize(&elem_ty); - if ccx.layout_of(elem_ty).is_zst() { + if cx.layout_of(elem_ty).is_zst() { return; } if let mir::ProjectionElem::Field(..) = proj.elem { - let layout = ccx.layout_of(base_ty.to_ty(ccx.tcx)); + let layout = cx.layout_of(base_ty.to_ty(cx.tcx)); if layout.is_llvm_immediate() || layout.is_llvm_scalar_pair() { // Recurse with the same context, instead of `Projection`, // potentially stopping at non-operand projections, @@ -200,11 +200,11 @@ impl<'mir, 'a, 'tcx> Visitor<'tcx> for LocalAnalyzer<'mir, 'a, 'tcx> { } PlaceContext::Drop => { - let ty = mir::Place::Local(index).ty(self.cx.mir, self.cx.ccx.tcx); - let ty = self.cx.monomorphize(&ty.to_ty(self.cx.ccx.tcx)); + let ty = mir::Place::Local(index).ty(self.cx.mir, self.cx.cx.tcx); + let ty = self.cx.monomorphize(&ty.to_ty(self.cx.cx.tcx)); // Only need the place if we're actually dropping it. - if self.cx.ccx.type_needs_drop(ty) { + if self.cx.cx.type_needs_drop(ty) { self.mark_as_memory(index); } } diff --git a/src/librustc_trans/mir/block.rs b/src/librustc_trans/mir/block.rs index 48187bfd2ce..640c489dd19 100644 --- a/src/librustc_trans/mir/block.rs +++ b/src/librustc_trans/mir/block.rs @@ -174,7 +174,7 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { lp = bcx.insert_value(lp, lp1, 1); bcx.resume(lp); } else { - bcx.call(bcx.ccx.eh_unwind_resume(), &[lp0], cleanup_bundle); + bcx.call(bcx.cx.eh_unwind_resume(), &[lp0], cleanup_bundle); bcx.unreachable(); } } @@ -182,7 +182,7 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { mir::TerminatorKind::Abort => { // Call core::intrinsics::abort() - let fnname = bcx.ccx.get_intrinsic(&("llvm.trap")); + let fnname = bcx.cx.get_intrinsic(&("llvm.trap")); bcx.call(fnname, &[], None); bcx.unreachable(); } @@ -206,7 +206,7 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { let switch = bcx.switch(discr.immediate(), llblock(self, *otherwise), values.len()); for (value, target) in values.iter().zip(targets) { - let val = Const::from_constint(bcx.ccx, value); + let val = Const::from_constint(bcx.cx, value); let llbb = llblock(self, *target); bcx.add_case(switch, val.llval, llbb) } @@ -253,7 +253,7 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { } }; bcx.load( - bcx.pointercast(llslot, cast_ty.llvm_type(bcx.ccx).ptr_to()), + bcx.pointercast(llslot, cast_ty.llvm_type(bcx.cx).ptr_to()), self.fn_ty.ret.layout.align) } }; @@ -267,7 +267,7 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { mir::TerminatorKind::Drop { ref location, target, unwind } => { let ty = location.ty(self.mir, bcx.tcx()).to_ty(bcx.tcx()); let ty = self.monomorphize(&ty); - let drop_fn = monomorphize::resolve_drop_in_place(bcx.ccx.tcx, ty); + let drop_fn = monomorphize::resolve_drop_in_place(bcx.cx.tcx, ty); if let ty::InstanceDef::DropGlue(_, None) = drop_fn.def { // we don't actually need to drop anything. @@ -280,16 +280,16 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { args = &args[..1 + place.has_extra() as usize]; let (drop_fn, fn_ty) = match ty.sty { ty::TyDynamic(..) => { - let fn_ty = drop_fn.ty(bcx.ccx.tcx); - let sig = common::ty_fn_sig(bcx.ccx, fn_ty); + let fn_ty = drop_fn.ty(bcx.cx.tcx); + let sig = common::ty_fn_sig(bcx.cx, fn_ty); let sig = bcx.tcx().erase_late_bound_regions_and_normalize(&sig); - let fn_ty = FnType::new_vtable(bcx.ccx, sig, &[]); + let fn_ty = FnType::new_vtable(bcx.cx, sig, &[]); args = &args[..1]; (meth::DESTRUCTOR.get_fn(&bcx, place.llextra, &fn_ty), fn_ty) } _ => { - (callee::get_fn(bcx.ccx, drop_fn), - FnType::of_instance(bcx.ccx, &drop_fn)) + (callee::get_fn(bcx.cx, drop_fn), + FnType::of_instance(bcx.cx, &drop_fn)) } }; do_call(self, bcx, fn_ty, drop_fn, args, @@ -308,7 +308,7 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { // NOTE: Unlike binops, negation doesn't have its own // checked operation, just a comparison with the minimum // value, so we have to check for the assert message. - if !bcx.ccx.check_overflow { + if !bcx.cx.check_overflow { use rustc_const_math::ConstMathErr::Overflow; use rustc_const_math::Op::Neg; @@ -324,8 +324,8 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { } // Pass the condition through llvm.expect for branch hinting. - let expect = bcx.ccx.get_intrinsic(&"llvm.expect.i1"); - let cond = bcx.call(expect, &[cond, C_bool(bcx.ccx, expected)], None); + let expect = bcx.cx.get_intrinsic(&"llvm.expect.i1"); + let cond = bcx.call(expect, &[cond, C_bool(bcx.cx, expected)], None); // Create the failure block and the conditional branch to it. let lltarget = llblock(self, target); @@ -343,9 +343,9 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { // Get the location information. let loc = bcx.sess().codemap().lookup_char_pos(span.lo()); let filename = Symbol::intern(&loc.file.name.to_string()).as_str(); - let filename = C_str_slice(bcx.ccx, filename); - let line = C_u32(bcx.ccx, loc.line as u32); - let col = C_u32(bcx.ccx, loc.col.to_usize() as u32 + 1); + let filename = C_str_slice(bcx.cx, filename); + let line = C_u32(bcx.cx, loc.line as u32); + let col = C_u32(bcx.cx, loc.col.to_usize() as u32 + 1); let align = tcx.data_layout.aggregate_align .max(tcx.data_layout.i32_align) .max(tcx.data_layout.pointer_align); @@ -363,8 +363,8 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { index: index as u64 })); - let file_line_col = C_struct(bcx.ccx, &[filename, line, col], false); - let file_line_col = consts::addr_of(bcx.ccx, + let file_line_col = C_struct(bcx.cx, &[filename, line, col], false); + let file_line_col = consts::addr_of(bcx.cx, file_line_col, align, "panic_bounds_check_loc"); @@ -374,11 +374,11 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { } mir::AssertMessage::Math(ref err) => { let msg_str = Symbol::intern(err.description()).as_str(); - let msg_str = C_str_slice(bcx.ccx, msg_str); - let msg_file_line_col = C_struct(bcx.ccx, + let msg_str = C_str_slice(bcx.cx, msg_str); + let msg_file_line_col = C_struct(bcx.cx, &[msg_str, filename, line, col], false); - let msg_file_line_col = consts::addr_of(bcx.ccx, + let msg_file_line_col = consts::addr_of(bcx.cx, msg_file_line_col, align, "panic_loc"); @@ -394,11 +394,11 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { "generator resumed after panicking" }; let msg_str = Symbol::intern(str).as_str(); - let msg_str = C_str_slice(bcx.ccx, msg_str); - let msg_file_line_col = C_struct(bcx.ccx, + let msg_str = C_str_slice(bcx.cx, msg_str); + let msg_file_line_col = C_struct(bcx.cx, &[msg_str, filename, line, col], false); - let msg_file_line_col = consts::addr_of(bcx.ccx, + let msg_file_line_col = consts::addr_of(bcx.cx, msg_file_line_col, align, "panic_loc"); @@ -423,8 +423,8 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { // Obtain the panic entry point. let def_id = common::langcall(bcx.tcx(), Some(span), "", lang_item); let instance = ty::Instance::mono(bcx.tcx(), def_id); - let fn_ty = FnType::of_instance(bcx.ccx, &instance); - let llfn = callee::get_fn(bcx.ccx, instance); + let fn_ty = FnType::of_instance(bcx.cx, &instance); + let llfn = callee::get_fn(bcx.cx, instance); // Translate the actual panic invoke/call. do_call(self, bcx, fn_ty, llfn, &args, None, cleanup); @@ -440,7 +440,7 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { let (instance, mut llfn) = match callee.layout.ty.sty { ty::TyFnDef(def_id, substs) => { - (Some(ty::Instance::resolve(bcx.ccx.tcx, + (Some(ty::Instance::resolve(bcx.cx.tcx, ty::ParamEnv::empty(traits::Reveal::All), def_id, substs).unwrap()), @@ -479,7 +479,7 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { let fn_ty = match def { Some(ty::InstanceDef::Virtual(..)) => { - FnType::new_vtable(bcx.ccx, sig, &extra_args) + FnType::new_vtable(bcx.cx, sig, &extra_args) } Some(ty::InstanceDef::DropGlue(_, None)) => { // empty drop glue - a nop. @@ -487,7 +487,7 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { funclet_br(self, bcx, target); return; } - _ => FnType::new(bcx.ccx, sig, &extra_args) + _ => FnType::new(bcx.cx, sig, &extra_args) }; // The arguments we'll be passing. Plus one to account for outptr, if used. @@ -509,7 +509,7 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { let dest = match ret_dest { _ if fn_ty.ret.is_indirect() => llargs[0], ReturnDest::Nothing => { - C_undef(fn_ty.ret.memory_ty(bcx.ccx).ptr_to()) + C_undef(fn_ty.ret.memory_ty(bcx.cx).ptr_to()) } ReturnDest::IndirectOperand(dst, _) | ReturnDest::Store(dst) => dst.llval, @@ -532,7 +532,7 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { let val = self.trans_constant(&bcx, constant); return OperandRef { val: Immediate(val.llval), - layout: bcx.ccx.layout_of(val.ty) + layout: bcx.cx.layout_of(val.ty) }; } } @@ -542,7 +542,7 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { }).collect(); - let callee_ty = instance.as_ref().unwrap().ty(bcx.ccx.tcx); + let callee_ty = instance.as_ref().unwrap().ty(bcx.cx.tcx); trans_intrinsic_call(&bcx, callee_ty, &fn_ty, &args, dest, terminator.source_info.span); @@ -599,7 +599,7 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { let fn_ptr = match (llfn, instance) { (Some(llfn), _) => llfn, - (None, Some(instance)) => callee::get_fn(bcx.ccx, instance), + (None, Some(instance)) => callee::get_fn(bcx.cx, instance), _ => span_bug!(span, "no llfn for call"), }; @@ -620,7 +620,7 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { arg: &ArgType<'tcx>) { // Fill padding with undef value, where applicable. if let Some(ty) = arg.pad { - llargs.push(C_undef(ty.llvm_type(bcx.ccx))); + llargs.push(C_undef(ty.llvm_type(bcx.cx))); } if arg.is_ignore() { @@ -670,7 +670,7 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { if by_ref && !arg.is_indirect() { // Have to load the argument, maybe while casting it. if let PassMode::Cast(ty) = arg.mode { - llval = bcx.load(bcx.pointercast(llval, ty.llvm_type(bcx.ccx).ptr_to()), + llval = bcx.load(bcx.pointercast(llval, ty.llvm_type(bcx.cx).ptr_to()), align.min(arg.layout.align)); } else { // We can't use `PlaceRef::load` here because the argument @@ -716,13 +716,13 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { } fn get_personality_slot(&mut self, bcx: &Builder<'a, 'tcx>) -> PlaceRef<'tcx> { - let ccx = bcx.ccx; + let cx = bcx.cx; if let Some(slot) = self.personality_slot { slot } else { - let layout = ccx.layout_of(ccx.tcx.intern_tup(&[ - ccx.tcx.mk_mut_ptr(ccx.tcx.types.u8), - ccx.tcx.types.i32 + let layout = cx.layout_of(cx.tcx.intern_tup(&[ + cx.tcx.mk_mut_ptr(cx.tcx.types.u8), + cx.tcx.types.i32 ], false)); let slot = PlaceRef::alloca(bcx, layout, "personalityslot"); self.personality_slot = Some(slot); @@ -745,13 +745,13 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { } fn landing_pad_uncached(&mut self, target_bb: BasicBlockRef) -> BasicBlockRef { - if base::wants_msvc_seh(self.ccx.sess()) { + if base::wants_msvc_seh(self.cx.sess()) { span_bug!(self.mir.span, "landing pad was not inserted?") } let bcx = self.new_block("cleanup"); - let llpersonality = self.ccx.eh_personality(); + let llpersonality = self.cx.eh_personality(); let llretty = self.landing_pad_type(); let lp = bcx.landing_pad(llretty, llpersonality, 1); bcx.set_cleanup(lp); @@ -765,8 +765,8 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { } fn landing_pad_type(&self) -> Type { - let ccx = self.ccx; - Type::struct_(ccx, &[Type::i8p(ccx), Type::i32(ccx)], false) + let cx = self.cx; + Type::struct_(cx, &[Type::i8p(cx), Type::i32(cx)], false) } fn unreachable_block(&mut self) -> BasicBlockRef { @@ -779,11 +779,11 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { } pub fn new_block(&self, name: &str) -> Builder<'a, 'tcx> { - Builder::new_block(self.ccx, self.llfn, name) + Builder::new_block(self.cx, self.llfn, name) } pub fn get_builder(&self, bb: mir::BasicBlock) -> Builder<'a, 'tcx> { - let builder = Builder::with_ccx(self.ccx); + let builder = Builder::with_cx(self.cx); builder.position_at_end(self.blocks[bb]); builder } @@ -851,7 +851,7 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { match self.locals[index] { LocalRef::Place(place) => self.trans_transmute_into(bcx, src, place), LocalRef::Operand(None) => { - let dst_layout = bcx.ccx.layout_of(self.monomorphized_place_ty(dst)); + let dst_layout = bcx.cx.layout_of(self.monomorphized_place_ty(dst)); assert!(!dst_layout.ty.has_erasable_regions()); let place = PlaceRef::alloca(bcx, dst_layout, "transmute_temp"); place.storage_live(bcx); @@ -875,7 +875,7 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { src: &mir::Operand<'tcx>, dst: PlaceRef<'tcx>) { let src = self.trans_operand(bcx, src); - let llty = src.layout.llvm_type(bcx.ccx); + let llty = src.layout.llvm_type(bcx.cx); let cast_ptr = bcx.pointercast(dst.llval, llty.ptr_to()); let align = src.layout.align.min(dst.layout.align); src.val.store(bcx, PlaceRef::new_sized(cast_ptr, src.layout, align)); diff --git a/src/librustc_trans/mir/constant.rs b/src/librustc_trans/mir/constant.rs index bce0cb868f5..79df4a0749f 100644 --- a/src/librustc_trans/mir/constant.rs +++ b/src/librustc_trans/mir/constant.rs @@ -62,46 +62,46 @@ impl<'a, 'tcx> Const<'tcx> { } } - pub fn from_constint(ccx: &CodegenCx<'a, 'tcx>, ci: &ConstInt) -> Const<'tcx> { - let tcx = ccx.tcx; + pub fn from_constint(cx: &CodegenCx<'a, 'tcx>, ci: &ConstInt) -> Const<'tcx> { + let tcx = cx.tcx; let (llval, ty) = match *ci { - I8(v) => (C_int(Type::i8(ccx), v as i64), tcx.types.i8), - I16(v) => (C_int(Type::i16(ccx), v as i64), tcx.types.i16), - I32(v) => (C_int(Type::i32(ccx), v as i64), tcx.types.i32), - I64(v) => (C_int(Type::i64(ccx), v as i64), tcx.types.i64), - I128(v) => (C_uint_big(Type::i128(ccx), v as u128), tcx.types.i128), - Isize(v) => (C_int(Type::isize(ccx), v.as_i64()), tcx.types.isize), - U8(v) => (C_uint(Type::i8(ccx), v as u64), tcx.types.u8), - U16(v) => (C_uint(Type::i16(ccx), v as u64), tcx.types.u16), - U32(v) => (C_uint(Type::i32(ccx), v as u64), tcx.types.u32), - U64(v) => (C_uint(Type::i64(ccx), v), tcx.types.u64), - U128(v) => (C_uint_big(Type::i128(ccx), v), tcx.types.u128), - Usize(v) => (C_uint(Type::isize(ccx), v.as_u64()), tcx.types.usize), + I8(v) => (C_int(Type::i8(cx), v as i64), tcx.types.i8), + I16(v) => (C_int(Type::i16(cx), v as i64), tcx.types.i16), + I32(v) => (C_int(Type::i32(cx), v as i64), tcx.types.i32), + I64(v) => (C_int(Type::i64(cx), v as i64), tcx.types.i64), + I128(v) => (C_uint_big(Type::i128(cx), v as u128), tcx.types.i128), + Isize(v) => (C_int(Type::isize(cx), v.as_i64()), tcx.types.isize), + U8(v) => (C_uint(Type::i8(cx), v as u64), tcx.types.u8), + U16(v) => (C_uint(Type::i16(cx), v as u64), tcx.types.u16), + U32(v) => (C_uint(Type::i32(cx), v as u64), tcx.types.u32), + U64(v) => (C_uint(Type::i64(cx), v), tcx.types.u64), + U128(v) => (C_uint_big(Type::i128(cx), v), tcx.types.u128), + Usize(v) => (C_uint(Type::isize(cx), v.as_u64()), tcx.types.usize), }; Const { llval: llval, ty: ty } } /// Translate ConstVal into a LLVM constant value. - pub fn from_constval(ccx: &CodegenCx<'a, 'tcx>, + pub fn from_constval(cx: &CodegenCx<'a, 'tcx>, cv: &ConstVal, ty: Ty<'tcx>) -> Const<'tcx> { - let llty = ccx.layout_of(ty).llvm_type(ccx); + let llty = cx.layout_of(ty).llvm_type(cx); let val = match *cv { ConstVal::Float(v) => { let bits = match v.ty { - ast::FloatTy::F32 => C_u32(ccx, v.bits as u32), - ast::FloatTy::F64 => C_u64(ccx, v.bits as u64) + ast::FloatTy::F32 => C_u32(cx, v.bits as u32), + ast::FloatTy::F64 => C_u64(cx, v.bits as u64) }; consts::bitcast(bits, llty) } - ConstVal::Bool(v) => C_bool(ccx, v), - ConstVal::Integral(ref i) => return Const::from_constint(ccx, i), - ConstVal::Str(ref v) => C_str_slice(ccx, v.clone()), + ConstVal::Bool(v) => C_bool(cx, v), + ConstVal::Integral(ref i) => return Const::from_constint(cx, i), + ConstVal::Str(ref v) => C_str_slice(cx, v.clone()), ConstVal::ByteStr(v) => { - consts::addr_of(ccx, C_bytes(ccx, v.data), ccx.align_of(ty), "byte_str") + consts::addr_of(cx, C_bytes(cx, v.data), cx.align_of(ty), "byte_str") } - ConstVal::Char(c) => C_uint(Type::char(ccx), c as u64), + ConstVal::Char(c) => C_uint(Type::char(cx), c as u64), ConstVal::Function(..) => C_undef(llty), ConstVal::Variant(_) | ConstVal::Aggregate(..) | @@ -115,11 +115,11 @@ impl<'a, 'tcx> Const<'tcx> { Const::new(val, ty) } - fn get_field(&self, ccx: &CodegenCx<'a, 'tcx>, i: usize) -> ValueRef { - let layout = ccx.layout_of(self.ty); - let field = layout.field(ccx, i); + fn get_field(&self, cx: &CodegenCx<'a, 'tcx>, i: usize) -> ValueRef { + let layout = cx.layout_of(self.ty); + let field = layout.field(cx, i); if field.is_zst() { - return C_undef(field.immediate_llvm_type(ccx)); + return C_undef(field.immediate_llvm_type(cx)); } let offset = layout.fields.offset(i); match layout.abi { @@ -130,12 +130,12 @@ impl<'a, 'tcx> Const<'tcx> { layout::Abi::ScalarPair(ref a, ref b) => { if offset.bytes() == 0 { - assert_eq!(field.size, a.value.size(ccx)); + assert_eq!(field.size, a.value.size(cx)); const_get_elt(self.llval, 0) } else { - assert_eq!(offset, a.value.size(ccx) - .abi_align(b.value.align(ccx))); - assert_eq!(field.size, b.value.size(ccx)); + assert_eq!(offset, a.value.size(cx) + .abi_align(b.value.align(cx))); + assert_eq!(field.size, b.value.size(cx)); const_get_elt(self.llval, 1) } } @@ -145,14 +145,14 @@ impl<'a, 'tcx> Const<'tcx> { } } - fn get_pair(&self, ccx: &CodegenCx<'a, 'tcx>) -> (ValueRef, ValueRef) { - (self.get_field(ccx, 0), self.get_field(ccx, 1)) + fn get_pair(&self, cx: &CodegenCx<'a, 'tcx>) -> (ValueRef, ValueRef) { + (self.get_field(cx, 0), self.get_field(cx, 1)) } - fn get_fat_ptr(&self, ccx: &CodegenCx<'a, 'tcx>) -> (ValueRef, ValueRef) { + fn get_fat_ptr(&self, cx: &CodegenCx<'a, 'tcx>) -> (ValueRef, ValueRef) { assert_eq!(abi::FAT_PTR_ADDR, 0); assert_eq!(abi::FAT_PTR_EXTRA, 1); - self.get_pair(ccx) + self.get_pair(cx) } fn as_place(&self) -> ConstPlace<'tcx> { @@ -163,9 +163,9 @@ impl<'a, 'tcx> Const<'tcx> { } } - pub fn to_operand(&self, ccx: &CodegenCx<'a, 'tcx>) -> OperandRef<'tcx> { - let layout = ccx.layout_of(self.ty); - let llty = layout.immediate_llvm_type(ccx); + pub fn to_operand(&self, cx: &CodegenCx<'a, 'tcx>) -> OperandRef<'tcx> { + let layout = cx.layout_of(self.ty); + let llty = layout.immediate_llvm_type(cx); let llvalty = val_ty(self.llval); let val = if llty == llvalty && layout.is_llvm_scalar_pair() { @@ -178,9 +178,9 @@ impl<'a, 'tcx> Const<'tcx> { } else { // Otherwise, or if the value is not immediate, we create // a constant LLVM global and cast its address if necessary. - let align = ccx.align_of(self.ty); - let ptr = consts::addr_of(ccx, self.llval, align, "const"); - OperandValue::Ref(consts::ptrcast(ptr, layout.llvm_type(ccx).ptr_to()), + let align = cx.align_of(self.ty); + let ptr = consts::addr_of(cx, self.llval, align, "const"); + OperandValue::Ref(consts::ptrcast(ptr, layout.llvm_type(cx).ptr_to()), layout.align) }; @@ -232,10 +232,10 @@ impl<'tcx> ConstPlace<'tcx> { } } - pub fn len<'a>(&self, ccx: &CodegenCx<'a, 'tcx>) -> ValueRef { + pub fn len<'a>(&self, cx: &CodegenCx<'a, 'tcx>) -> ValueRef { match self.ty.sty { ty::TyArray(_, n) => { - C_usize(ccx, n.val.to_const_int().unwrap().to_u64().unwrap()) + C_usize(cx, n.val.to_const_int().unwrap().to_u64().unwrap()) } ty::TySlice(_) | ty::TyStr => { assert!(self.llextra != ptr::null_mut()); @@ -249,7 +249,7 @@ impl<'tcx> ConstPlace<'tcx> { /// Machinery for translating a constant's MIR to LLVM values. /// FIXME(eddyb) use miri and lower its allocations to LLVM. struct MirConstContext<'a, 'tcx: 'a> { - ccx: &'a CodegenCx<'a, 'tcx>, + cx: &'a CodegenCx<'a, 'tcx>, mir: &'a mir::Mir<'tcx>, /// Type parameters for const fn and associated constants. @@ -270,13 +270,13 @@ fn add_err<'tcx, U, V>(failure: &mut Result>, } impl<'a, 'tcx> MirConstContext<'a, 'tcx> { - fn new(ccx: &'a CodegenCx<'a, 'tcx>, + fn new(cx: &'a CodegenCx<'a, 'tcx>, mir: &'a mir::Mir<'tcx>, substs: &'tcx Substs<'tcx>, args: IndexVec, ConstEvalErr<'tcx>>>) -> MirConstContext<'a, 'tcx> { let mut context = MirConstContext { - ccx, + cx, mir, substs, locals: (0..mir.local_decls.len()).map(|_| None).collect(), @@ -289,27 +289,27 @@ impl<'a, 'tcx> MirConstContext<'a, 'tcx> { context } - fn trans_def(ccx: &'a CodegenCx<'a, 'tcx>, + fn trans_def(cx: &'a CodegenCx<'a, 'tcx>, def_id: DefId, substs: &'tcx Substs<'tcx>, args: IndexVec, ConstEvalErr<'tcx>>>) -> Result, ConstEvalErr<'tcx>> { - let instance = ty::Instance::resolve(ccx.tcx, + let instance = ty::Instance::resolve(cx.tcx, ty::ParamEnv::empty(traits::Reveal::All), def_id, substs).unwrap(); - let mir = ccx.tcx.instance_mir(instance.def); - MirConstContext::new(ccx, &mir, instance.substs, args).trans() + let mir = cx.tcx.instance_mir(instance.def); + MirConstContext::new(cx, &mir, instance.substs, args).trans() } fn monomorphize(&self, value: &T) -> T where T: TransNormalize<'tcx> { - self.ccx.tcx.trans_apply_param_substs(self.substs, value) + self.cx.tcx.trans_apply_param_substs(self.substs, value) } fn trans(&mut self) -> Result, ConstEvalErr<'tcx>> { - let tcx = self.ccx.tcx; + let tcx = self.cx.tcx; let mut bb = mir::START_BLOCK; // Make sure to evaluate all statemenets to @@ -399,13 +399,13 @@ impl<'a, 'tcx> MirConstContext<'a, 'tcx> { let result = if fn_ty.fn_sig(tcx).abi() == Abi::RustIntrinsic { match &tcx.item_name(def_id)[..] { "size_of" => { - let llval = C_usize(self.ccx, - self.ccx.size_of(substs.type_at(0)).bytes()); + let llval = C_usize(self.cx, + self.cx.size_of(substs.type_at(0)).bytes()); Ok(Const::new(llval, tcx.types.usize)) } "min_align_of" => { - let llval = C_usize(self.ccx, - self.ccx.align_of(substs.type_at(0)).abi()); + let llval = C_usize(self.cx, + self.cx.align_of(substs.type_at(0)).abi()); Ok(Const::new(llval, tcx.types.usize)) } _ => span_bug!(span, "{:?} in constant", terminator.kind) @@ -430,12 +430,12 @@ impl<'a, 'tcx> MirConstContext<'a, 'tcx> { match const_scalar_checked_binop(tcx, op, lhs, rhs, ty) { Some((llval, of)) => { Ok(trans_const_adt( - self.ccx, + self.cx, binop_ty, &mir::AggregateKind::Tuple, &[ Const::new(llval, val_ty), - Const::new(C_bool(self.ccx, of), tcx.types.bool) + Const::new(C_bool(self.cx, of), tcx.types.bool) ])) } None => { @@ -447,7 +447,7 @@ impl<'a, 'tcx> MirConstContext<'a, 'tcx> { } })() } else { - MirConstContext::trans_def(self.ccx, def_id, substs, arg_vals) + MirConstContext::trans_def(self.cx, def_id, substs, arg_vals) }; add_err(&mut failure, &result); self.store(dest, result, span); @@ -462,7 +462,7 @@ impl<'a, 'tcx> MirConstContext<'a, 'tcx> { } fn is_binop_lang_item(&mut self, def_id: DefId) -> Option<(mir::BinOp, bool)> { - let tcx = self.ccx.tcx; + let tcx = self.cx.tcx; let items = tcx.lang_items(); let def_id = Some(def_id); if items.i128_add_fn() == def_id { Some((mir::BinOp::Add, false)) } @@ -505,7 +505,7 @@ impl<'a, 'tcx> MirConstContext<'a, 'tcx> { fn const_place(&self, place: &mir::Place<'tcx>, span: Span) -> Result, ConstEvalErr<'tcx>> { - let tcx = self.ccx.tcx; + let tcx = self.cx.tcx; if let mir::Place::Local(index) = *place { return self.locals[index].clone().unwrap_or_else(|| { @@ -517,7 +517,7 @@ impl<'a, 'tcx> MirConstContext<'a, 'tcx> { mir::Place::Local(_) => bug!(), // handled above mir::Place::Static(box mir::Static { def_id, ty }) => { ConstPlace { - base: Base::Static(consts::get_static(self.ccx, def_id)), + base: Base::Static(consts::get_static(self.cx, def_id)), llextra: ptr::null_mut(), ty: self.monomorphize(&ty), } @@ -528,30 +528,30 @@ impl<'a, 'tcx> MirConstContext<'a, 'tcx> { .projection_ty(tcx, &projection.elem); let base = tr_base.to_const(span); let projected_ty = self.monomorphize(&projected_ty).to_ty(tcx); - let has_metadata = self.ccx.type_has_metadata(projected_ty); + let has_metadata = self.cx.type_has_metadata(projected_ty); let (projected, llextra) = match projection.elem { mir::ProjectionElem::Deref => { let (base, extra) = if !has_metadata { (base.llval, ptr::null_mut()) } else { - base.get_fat_ptr(self.ccx) + base.get_fat_ptr(self.cx) }; - if self.ccx.statics.borrow().contains_key(&base) { + if self.cx.statics.borrow().contains_key(&base) { (Base::Static(base), extra) } else if let ty::TyStr = projected_ty.sty { (Base::Str(base), extra) } else { let v = base; - let v = self.ccx.const_unsized.borrow().get(&v).map_or(v, |&v| v); + let v = self.cx.const_unsized.borrow().get(&v).map_or(v, |&v| v); let mut val = unsafe { llvm::LLVMGetInitializer(v) }; if val.is_null() { span_bug!(span, "dereference of non-constant pointer `{:?}`", Value(base)); } - let layout = self.ccx.layout_of(projected_ty); + let layout = self.cx.layout_of(projected_ty); if let layout::Abi::Scalar(ref scalar) = layout.abi { - let i1_type = Type::i1(self.ccx); + let i1_type = Type::i1(self.cx); if scalar.is_bool() && val_ty(val) != i1_type { unsafe { val = llvm::LLVMConstTrunc(val, i1_type.to_ref()); @@ -562,7 +562,7 @@ impl<'a, 'tcx> MirConstContext<'a, 'tcx> { } } mir::ProjectionElem::Field(ref field, _) => { - let llprojected = base.get_field(self.ccx, field.index()); + let llprojected = base.get_field(self.cx, field.index()); let llextra = if !has_metadata { ptr::null_mut() } else { @@ -581,11 +581,11 @@ impl<'a, 'tcx> MirConstContext<'a, 'tcx> { }; // Produce an undef instead of a LLVM assertion on OOB. - let len = common::const_to_uint(tr_base.len(self.ccx)); + let len = common::const_to_uint(tr_base.len(self.cx)); let llelem = if iv < len as u128 { const_get_elt(base.llval, iv as u64) } else { - C_undef(self.ccx.layout_of(projected_ty).llvm_type(self.ccx)) + C_undef(self.cx.layout_of(projected_ty).llvm_type(self.cx)) }; (Base::Value(llelem), ptr::null_mut()) @@ -616,14 +616,14 @@ impl<'a, 'tcx> MirConstContext<'a, 'tcx> { match constant.literal.clone() { mir::Literal::Promoted { index } => { let mir = &self.mir.promoted[index]; - MirConstContext::new(self.ccx, mir, self.substs, IndexVec::new()).trans() + MirConstContext::new(self.cx, mir, self.substs, IndexVec::new()).trans() } mir::Literal::Value { value } => { if let ConstVal::Unevaluated(def_id, substs) = value.val { let substs = self.monomorphize(&substs); - MirConstContext::trans_def(self.ccx, def_id, substs, IndexVec::new()) + MirConstContext::trans_def(self.cx, def_id, substs, IndexVec::new()) } else { - Ok(Const::from_constval(self.ccx, &value.val, ty)) + Ok(Const::from_constval(self.cx, &value.val, ty)) } } } @@ -640,12 +640,12 @@ impl<'a, 'tcx> MirConstContext<'a, 'tcx> { let elem_ty = array_ty.builtin_index().unwrap_or_else(|| { bug!("bad array type {:?}", array_ty) }); - let llunitty = self.ccx.layout_of(elem_ty).llvm_type(self.ccx); + let llunitty = self.cx.layout_of(elem_ty).llvm_type(self.cx); // If the array contains enums, an LLVM array won't work. let val = if fields.iter().all(|&f| val_ty(f) == llunitty) { C_array(llunitty, fields) } else { - C_struct(self.ccx, fields, false) + C_struct(self.cx, fields, false) }; Const::new(val, array_ty) } @@ -653,7 +653,7 @@ impl<'a, 'tcx> MirConstContext<'a, 'tcx> { fn const_rvalue(&self, rvalue: &mir::Rvalue<'tcx>, dest_ty: Ty<'tcx>, span: Span) -> Result, ConstEvalErr<'tcx>> { - let tcx = self.ccx.tcx; + let tcx = self.cx.tcx; debug!("const_rvalue({:?}: {:?} @ {:?})", rvalue, dest_ty, span); let val = match *rvalue { mir::Rvalue::Use(ref operand) => self.const_operand(operand, span)?, @@ -695,7 +695,7 @@ impl<'a, 'tcx> MirConstContext<'a, 'tcx> { } failure?; - trans_const_adt(self.ccx, dest_ty, kind, &fields) + trans_const_adt(self.cx, dest_ty, kind, &fields) } mir::Rvalue::Cast(ref kind, ref source, cast_ty) => { @@ -706,7 +706,7 @@ impl<'a, 'tcx> MirConstContext<'a, 'tcx> { mir::CastKind::ReifyFnPointer => { match operand.ty.sty { ty::TyFnDef(def_id, substs) => { - callee::resolve_and_get_fn(self.ccx, def_id, substs) + callee::resolve_and_get_fn(self.cx, def_id, substs) } _ => { span_bug!(span, "{} cannot be reified to a fn ptr", @@ -728,7 +728,7 @@ impl<'a, 'tcx> MirConstContext<'a, 'tcx> { let input = tcx.erase_late_bound_regions_and_normalize(&input); let substs = tcx.mk_substs([operand.ty, input] .iter().cloned().map(Kind::from)); - callee::resolve_and_get_fn(self.ccx, call_once, substs) + callee::resolve_and_get_fn(self.cx, call_once, substs) } _ => { bug!("{} cannot be cast to a fn ptr", operand.ty) @@ -742,14 +742,14 @@ impl<'a, 'tcx> MirConstContext<'a, 'tcx> { mir::CastKind::Unsize => { let pointee_ty = operand.ty.builtin_deref(true, ty::NoPreference) .expect("consts: unsizing got non-pointer type").ty; - let (base, old_info) = if !self.ccx.type_is_sized(pointee_ty) { + let (base, old_info) = if !self.cx.type_is_sized(pointee_ty) { // Normally, the source is a thin pointer and we are // adding extra info to make a fat pointer. The exception // is when we are upcasting an existing object fat pointer // to use a different vtable. In that case, we want to // load out the original data pointer so we can repackage // it. - let (base, extra) = operand.get_fat_ptr(self.ccx); + let (base, extra) = operand.get_fat_ptr(self.cx); (base, Some(extra)) } else { (operand.llval, None) @@ -757,28 +757,28 @@ impl<'a, 'tcx> MirConstContext<'a, 'tcx> { let unsized_ty = cast_ty.builtin_deref(true, ty::NoPreference) .expect("consts: unsizing got non-pointer target type").ty; - let ptr_ty = self.ccx.layout_of(unsized_ty).llvm_type(self.ccx).ptr_to(); + let ptr_ty = self.cx.layout_of(unsized_ty).llvm_type(self.cx).ptr_to(); let base = consts::ptrcast(base, ptr_ty); - let info = base::unsized_info(self.ccx, pointee_ty, + let info = base::unsized_info(self.cx, pointee_ty, unsized_ty, old_info); if old_info.is_none() { - let prev_const = self.ccx.const_unsized.borrow_mut() + let prev_const = self.cx.const_unsized.borrow_mut() .insert(base, operand.llval); assert!(prev_const.is_none() || prev_const == Some(operand.llval)); } - C_fat_ptr(self.ccx, base, info) + C_fat_ptr(self.cx, base, info) } - mir::CastKind::Misc if self.ccx.layout_of(operand.ty).is_llvm_immediate() => { + mir::CastKind::Misc if self.cx.layout_of(operand.ty).is_llvm_immediate() => { let r_t_in = CastTy::from_ty(operand.ty).expect("bad input type for cast"); let r_t_out = CastTy::from_ty(cast_ty).expect("bad output type for cast"); - let cast_layout = self.ccx.layout_of(cast_ty); + let cast_layout = self.cx.layout_of(cast_ty); assert!(cast_layout.is_llvm_immediate()); - let ll_t_out = cast_layout.immediate_llvm_type(self.ccx); + let ll_t_out = cast_layout.immediate_llvm_type(self.cx); let llval = operand.llval; let mut signed = false; - let l = self.ccx.layout_of(operand.ty); + let l = self.cx.layout_of(operand.ty); if let layout::Abi::Scalar(ref scalar) = l.abi { if let layout::Int(_, true) = scalar.value { signed = true; @@ -792,17 +792,17 @@ impl<'a, 'tcx> MirConstContext<'a, 'tcx> { llvm::LLVMConstIntCast(llval, ll_t_out.to_ref(), s) } (CastTy::Int(_), CastTy::Float) => { - cast_const_int_to_float(self.ccx, llval, signed, ll_t_out) + cast_const_int_to_float(self.cx, llval, signed, ll_t_out) } (CastTy::Float, CastTy::Float) => { llvm::LLVMConstFPCast(llval, ll_t_out.to_ref()) } (CastTy::Float, CastTy::Int(IntTy::I)) => { - cast_const_float_to_int(self.ccx, &operand, + cast_const_float_to_int(self.cx, &operand, true, ll_t_out, span) } (CastTy::Float, CastTy::Int(_)) => { - cast_const_float_to_int(self.ccx, &operand, + cast_const_float_to_int(self.cx, &operand, false, ll_t_out, span) } (CastTy::Ptr(_), CastTy::Ptr(_)) | @@ -813,7 +813,7 @@ impl<'a, 'tcx> MirConstContext<'a, 'tcx> { (CastTy::Int(_), CastTy::Ptr(_)) => { let s = signed as llvm::Bool; let usize_llval = llvm::LLVMConstIntCast(llval, - self.ccx.isize_ty.to_ref(), s); + self.cx.isize_ty.to_ref(), s); llvm::LLVMConstIntToPtr(usize_llval, ll_t_out.to_ref()) } (CastTy::Ptr(_), CastTy::Int(_)) | @@ -825,18 +825,18 @@ impl<'a, 'tcx> MirConstContext<'a, 'tcx> { } } mir::CastKind::Misc => { // Casts from a fat-ptr. - let l = self.ccx.layout_of(operand.ty); - let cast = self.ccx.layout_of(cast_ty); + let l = self.cx.layout_of(operand.ty); + let cast = self.cx.layout_of(cast_ty); if l.is_llvm_scalar_pair() { - let (data_ptr, meta) = operand.get_fat_ptr(self.ccx); + let (data_ptr, meta) = operand.get_fat_ptr(self.cx); if cast.is_llvm_scalar_pair() { let data_cast = consts::ptrcast(data_ptr, - cast.scalar_pair_element_llvm_type(self.ccx, 0)); - C_fat_ptr(self.ccx, data_cast, meta) + cast.scalar_pair_element_llvm_type(self.cx, 0)); + C_fat_ptr(self.cx, data_cast, meta) } else { // cast to thin-ptr // Cast of fat-ptr to thin-ptr is an extraction of data-ptr and // pointer-cast of that pointer to desired pointer type. - let llcast_ty = cast.immediate_llvm_type(self.ccx); + let llcast_ty = cast.immediate_llvm_type(self.cx); consts::ptrcast(data_ptr, llcast_ty) } } else { @@ -857,32 +857,32 @@ impl<'a, 'tcx> MirConstContext<'a, 'tcx> { let base = match tr_place.base { Base::Value(llval) => { // FIXME: may be wrong for &*(&simd_vec as &fmt::Debug) - let align = if self.ccx.type_is_sized(ty) { - self.ccx.align_of(ty) + let align = if self.cx.type_is_sized(ty) { + self.cx.align_of(ty) } else { - self.ccx.tcx.data_layout.pointer_align + self.cx.tcx.data_layout.pointer_align }; if bk == mir::BorrowKind::Mut { - consts::addr_of_mut(self.ccx, llval, align, "ref_mut") + consts::addr_of_mut(self.cx, llval, align, "ref_mut") } else { - consts::addr_of(self.ccx, llval, align, "ref") + consts::addr_of(self.cx, llval, align, "ref") } } Base::Str(llval) | Base::Static(llval) => llval }; - let ptr = if self.ccx.type_is_sized(ty) { + let ptr = if self.cx.type_is_sized(ty) { base } else { - C_fat_ptr(self.ccx, base, tr_place.llextra) + C_fat_ptr(self.cx, base, tr_place.llextra) }; Const::new(ptr, ref_ty) } mir::Rvalue::Len(ref place) => { let tr_place = self.const_place(place, span)?; - Const::new(tr_place.len(self.ccx), tcx.types.usize) + Const::new(tr_place.len(self.cx), tcx.types.usize) } mir::Rvalue::BinaryOp(op, ref lhs, ref rhs) => { @@ -905,9 +905,9 @@ impl<'a, 'tcx> MirConstContext<'a, 'tcx> { match const_scalar_checked_binop(tcx, op, lhs, rhs, ty) { Some((llval, of)) => { - trans_const_adt(self.ccx, binop_ty, &mir::AggregateKind::Tuple, &[ + trans_const_adt(self.cx, binop_ty, &mir::AggregateKind::Tuple, &[ Const::new(llval, val_ty), - Const::new(C_bool(self.ccx, of), tcx.types.bool) + Const::new(C_bool(self.cx, of), tcx.types.bool) ]) } None => { @@ -941,8 +941,8 @@ impl<'a, 'tcx> MirConstContext<'a, 'tcx> { } mir::Rvalue::NullaryOp(mir::NullOp::SizeOf, ty) => { - assert!(self.ccx.type_is_sized(ty)); - let llval = C_usize(self.ccx, self.ccx.size_of(ty).bytes()); + assert!(self.cx.type_is_sized(ty)); + let llval = C_usize(self.cx, self.cx.size_of(ty).bytes()); Const::new(llval, tcx.types.usize) } @@ -1060,7 +1060,7 @@ pub fn const_scalar_checked_binop<'a, 'tcx>(tcx: TyCtxt<'a, 'tcx, 'tcx>, } } -unsafe fn cast_const_float_to_int(ccx: &CodegenCx, +unsafe fn cast_const_float_to_int(cx: &CodegenCx, operand: &Const, signed: bool, int_ty: Type, @@ -1074,7 +1074,7 @@ unsafe fn cast_const_float_to_int(ccx: &CodegenCx, // One way that might happen would be if addresses could be turned into integers in constant // expressions, but that doesn't appear to be possible? // In any case, an ICE is better than producing undef. - let llval_bits = consts::bitcast(llval, Type::ix(ccx, float_bits as u64)); + let llval_bits = consts::bitcast(llval, Type::ix(cx, float_bits as u64)); let bits = const_to_opt_u128(llval_bits, false).unwrap_or_else(|| { panic!("could not get bits of constant float {:?}", Value(llval)); @@ -1090,12 +1090,12 @@ unsafe fn cast_const_float_to_int(ccx: &CodegenCx, }; if cast_result.status.contains(Status::INVALID_OP) { let err = ConstEvalErr { span: span, kind: ErrKind::CannotCast }; - err.report(ccx.tcx, span, "expression"); + err.report(cx.tcx, span, "expression"); } C_uint_big(int_ty, cast_result.value) } -unsafe fn cast_const_int_to_float(ccx: &CodegenCx, +unsafe fn cast_const_int_to_float(cx: &CodegenCx, llval: ValueRef, signed: bool, float_ty: Type) -> ValueRef { @@ -1111,7 +1111,7 @@ unsafe fn cast_const_int_to_float(ccx: &CodegenCx, llvm::LLVMConstSIToFP(llval, float_ty.to_ref()) } else if float_ty.float_width() == 32 && value >= MAX_F32_PLUS_HALF_ULP { // We're casting to f32 and the value is > f32::MAX + 0.5 ULP -> round up to infinity. - let infinity_bits = C_u32(ccx, ieee::Single::INFINITY.to_bits() as u32); + let infinity_bits = C_u32(cx, ieee::Single::INFINITY.to_bits() as u32); consts::bitcast(infinity_bits, float_ty) } else { llvm::LLVMConstUIToFP(llval, float_ty.to_ref()) @@ -1129,21 +1129,21 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { let result = match constant.literal.clone() { mir::Literal::Promoted { index } => { let mir = &self.mir.promoted[index]; - MirConstContext::new(bcx.ccx, mir, self.param_substs, IndexVec::new()).trans() + MirConstContext::new(bcx.cx, mir, self.param_substs, IndexVec::new()).trans() } mir::Literal::Value { value } => { if let ConstVal::Unevaluated(def_id, substs) = value.val { let substs = self.monomorphize(&substs); - MirConstContext::trans_def(bcx.ccx, def_id, substs, IndexVec::new()) + MirConstContext::trans_def(bcx.cx, def_id, substs, IndexVec::new()) } else { - Ok(Const::from_constval(bcx.ccx, &value.val, ty)) + Ok(Const::from_constval(bcx.cx, &value.val, ty)) } } }; let result = result.unwrap_or_else(|_| { // We've errored, so we don't have to produce working code. - let llty = bcx.ccx.layout_of(ty).llvm_type(bcx.ccx); + let llty = bcx.cx.layout_of(ty).llvm_type(bcx.cx); Const::new(C_undef(llty), ty) }); @@ -1154,11 +1154,11 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { pub fn trans_static_initializer<'a, 'tcx>( - ccx: &CodegenCx<'a, 'tcx>, + cx: &CodegenCx<'a, 'tcx>, def_id: DefId) -> Result> { - MirConstContext::trans_def(ccx, def_id, Substs::empty(), IndexVec::new()) + MirConstContext::trans_def(cx, def_id, Substs::empty(), IndexVec::new()) .map(|c| c.llval) } @@ -1182,19 +1182,19 @@ pub fn trans_static_initializer<'a, 'tcx>( /// this could be changed in the future to avoid allocating unnecessary /// space after values of shorter-than-maximum cases. fn trans_const_adt<'a, 'tcx>( - ccx: &CodegenCx<'a, 'tcx>, + cx: &CodegenCx<'a, 'tcx>, t: Ty<'tcx>, kind: &mir::AggregateKind, vals: &[Const<'tcx>] ) -> Const<'tcx> { - let l = ccx.layout_of(t); + let l = cx.layout_of(t); let variant_index = match *kind { mir::AggregateKind::Adt(_, index, _, _) => index, _ => 0, }; if let layout::Abi::Uninhabited = l.abi { - return Const::new(C_undef(l.llvm_type(ccx)), t); + return Const::new(C_undef(l.llvm_type(cx)), t); } match l.variants { @@ -1203,14 +1203,14 @@ fn trans_const_adt<'a, 'tcx>( if let layout::FieldPlacement::Union(_) = l.fields { assert_eq!(variant_index, 0); assert_eq!(vals.len(), 1); - let (field_size, field_align) = ccx.size_and_align_of(vals[0].ty); + let (field_size, field_align) = cx.size_and_align_of(vals[0].ty); let contents = [ vals[0].llval, - padding(ccx, l.size - field_size) + padding(cx, l.size - field_size) ]; let packed = l.align.abi() < field_align.abi(); - Const::new(C_struct(ccx, &contents, packed), t) + Const::new(C_struct(cx, &contents, packed), t) } else { if let layout::Abi::Vector { .. } = l.abi { if let layout::FieldPlacement::Array { .. } = l.fields { @@ -1218,24 +1218,24 @@ fn trans_const_adt<'a, 'tcx>( .collect::>()), t); } } - build_const_struct(ccx, l, vals, None) + build_const_struct(cx, l, vals, None) } } layout::Variants::Tagged { .. } => { let discr = match *kind { mir::AggregateKind::Adt(adt_def, _, _, _) => { - adt_def.discriminant_for_variant(ccx.tcx, variant_index) + adt_def.discriminant_for_variant(cx.tcx, variant_index) .to_u128_unchecked() as u64 }, _ => 0, }; - let discr_field = l.field(ccx, 0); - let discr = C_int(discr_field.llvm_type(ccx), discr as i64); + let discr_field = l.field(cx, 0); + let discr = C_int(discr_field.llvm_type(cx), discr as i64); if let layout::Abi::Scalar(_) = l.abi { Const::new(discr, t) } else { let discr = Const::new(discr, discr_field.ty); - build_const_struct(ccx, l.for_variant(ccx, variant_index), vals, Some(discr)) + build_const_struct(cx, l.for_variant(cx, variant_index), vals, Some(discr)) } } layout::Variants::NicheFilling { @@ -1245,10 +1245,10 @@ fn trans_const_adt<'a, 'tcx>( .. } => { if variant_index == dataful_variant { - build_const_struct(ccx, l.for_variant(ccx, dataful_variant), vals, None) + build_const_struct(cx, l.for_variant(cx, dataful_variant), vals, None) } else { - let niche = l.field(ccx, 0); - let niche_llty = niche.llvm_type(ccx); + let niche = l.field(cx, 0); + let niche_llty = niche.llvm_type(cx); let niche_value = ((variant_index - niche_variants.start) as u128) .wrapping_add(niche_start); // FIXME(eddyb) Check the actual primitive type here. @@ -1258,7 +1258,7 @@ fn trans_const_adt<'a, 'tcx>( } else { C_uint_big(niche_llty, niche_value) }; - build_const_struct(ccx, l, &[Const::new(niche_llval, niche.ty)], None) + build_const_struct(cx, l, &[Const::new(niche_llval, niche.ty)], None) } } } @@ -1272,7 +1272,7 @@ fn trans_const_adt<'a, 'tcx>( /// initializer is 4-byte aligned then simply translating the tuple as /// a two-element struct will locate it at offset 4, and accesses to it /// will read the wrong memory. -fn build_const_struct<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, +fn build_const_struct<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, layout: layout::TyLayout<'tcx>, vals: &[Const<'tcx>], discr: Option>) @@ -1285,16 +1285,16 @@ fn build_const_struct<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, layout::Abi::Vector { .. } if discr.is_none() => { let mut non_zst_fields = vals.iter().enumerate().map(|(i, f)| { (f, layout.fields.offset(i)) - }).filter(|&(f, _)| !ccx.layout_of(f.ty).is_zst()); + }).filter(|&(f, _)| !cx.layout_of(f.ty).is_zst()); match (non_zst_fields.next(), non_zst_fields.next()) { (Some((x, offset)), None) if offset.bytes() == 0 => { return Const::new(x.llval, layout.ty); } (Some((a, a_offset)), Some((b, _))) if a_offset.bytes() == 0 => { - return Const::new(C_struct(ccx, &[a.llval, b.llval], false), layout.ty); + return Const::new(C_struct(cx, &[a.llval, b.llval], false), layout.ty); } (Some((a, _)), Some((b, b_offset))) if b_offset.bytes() == 0 => { - return Const::new(C_struct(ccx, &[b.llval, a.llval], false), layout.ty); + return Const::new(C_struct(cx, &[b.llval, a.llval], false), layout.ty); } _ => {} } @@ -1309,7 +1309,7 @@ fn build_const_struct<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, cfields.reserve(discr.is_some() as usize + 1 + layout.fields.count() * 2); if let Some(discr) = discr { - let (field_size, field_align) = ccx.size_and_align_of(discr.ty); + let (field_size, field_align) = cx.size_and_align_of(discr.ty); packed |= layout.align.abi() < field_align.abi(); cfields.push(discr.llval); offset = field_size; @@ -1319,19 +1319,19 @@ fn build_const_struct<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, (vals[i], layout.fields.offset(i)) }); for (val, target_offset) in parts { - let (field_size, field_align) = ccx.size_and_align_of(val.ty); + let (field_size, field_align) = cx.size_and_align_of(val.ty); packed |= layout.align.abi() < field_align.abi(); - cfields.push(padding(ccx, target_offset - offset)); + cfields.push(padding(cx, target_offset - offset)); cfields.push(val.llval); offset = target_offset + field_size; } // Pad to the size of the whole type, not e.g. the variant. - cfields.push(padding(ccx, ccx.size_of(layout.ty) - offset)); + cfields.push(padding(cx, cx.size_of(layout.ty) - offset)); - Const::new(C_struct(ccx, &cfields, packed), layout.ty) + Const::new(C_struct(cx, &cfields, packed), layout.ty) } -fn padding(ccx: &CodegenCx, size: Size) -> ValueRef { - C_undef(Type::array(&Type::i8(ccx), size.bytes())) +fn padding(cx: &CodegenCx, size: Size) -> ValueRef { + C_undef(Type::array(&Type::i8(cx), size.bytes())) } diff --git a/src/librustc_trans/mir/mod.rs b/src/librustc_trans/mir/mod.rs index 4b24f0cf671..0253062df2f 100644 --- a/src/librustc_trans/mir/mod.rs +++ b/src/librustc_trans/mir/mod.rs @@ -48,7 +48,7 @@ pub struct MirContext<'a, 'tcx:'a> { llfn: ValueRef, - ccx: &'a CodegenCx<'a, 'tcx>, + cx: &'a CodegenCx<'a, 'tcx>, fn_ty: FnType<'tcx>, @@ -106,7 +106,7 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { pub fn monomorphize(&self, value: &T) -> T where T: TransNormalize<'tcx> { - self.ccx.tcx.trans_apply_param_substs(self.param_substs, value) + self.cx.tcx.trans_apply_param_substs(self.param_substs, value) } pub fn set_debug_loc(&mut self, bcx: &Builder, source_info: mir::SourceInfo) { @@ -128,7 +128,7 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { // locations of macro expansions with that of the outermost expansion site // (unless the crate is being compiled with `-Z debug-macros`). if source_info.span.ctxt() == NO_EXPANSION || - self.ccx.sess().opts.debugging_opts.debug_macros { + self.cx.sess().opts.debugging_opts.debug_macros { let scope = self.scope_metadata_for_loc(source_info.scope, source_info.span.lo()); (scope, source_info.span) } else { @@ -158,9 +158,9 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { let scope_metadata = self.scopes[scope_id].scope_metadata; if pos < self.scopes[scope_id].file_start_pos || pos >= self.scopes[scope_id].file_end_pos { - let cm = self.ccx.sess().codemap(); + let cm = self.cx.sess().codemap(); let defining_crate = self.debug_context.get_ref(DUMMY_SP).defining_crate; - debuginfo::extend_scope_to_file(self.ccx, + debuginfo::extend_scope_to_file(self.cx, scope_metadata, &cm.lookup_char_pos(pos).file, defining_crate) @@ -176,12 +176,12 @@ enum LocalRef<'tcx> { } impl<'a, 'tcx> LocalRef<'tcx> { - fn new_operand(ccx: &CodegenCx<'a, 'tcx>, layout: TyLayout<'tcx>) -> LocalRef<'tcx> { + fn new_operand(cx: &CodegenCx<'a, 'tcx>, layout: TyLayout<'tcx>) -> LocalRef<'tcx> { if layout.is_zst() { // Zero-size temporaries aren't always initialized, which // doesn't matter because they don't contain data, but // we need something in the operand. - LocalRef::Operand(Some(OperandRef::new_zst(ccx, layout))) + LocalRef::Operand(Some(OperandRef::new_zst(cx, layout))) } else { LocalRef::Operand(None) } @@ -191,20 +191,20 @@ impl<'a, 'tcx> LocalRef<'tcx> { /////////////////////////////////////////////////////////////////////////// pub fn trans_mir<'a, 'tcx: 'a>( - ccx: &'a CodegenCx<'a, 'tcx>, + cx: &'a CodegenCx<'a, 'tcx>, llfn: ValueRef, mir: &'a Mir<'tcx>, instance: Instance<'tcx>, sig: ty::FnSig<'tcx>, ) { - let fn_ty = FnType::new(ccx, sig, &[]); + let fn_ty = FnType::new(cx, sig, &[]); debug!("fn_ty: {:?}", fn_ty); let debug_context = - debuginfo::create_function_debug_context(ccx, instance, sig, llfn, mir); - let bcx = Builder::new_block(ccx, llfn, "start"); + debuginfo::create_function_debug_context(cx, instance, sig, llfn, mir); + let bcx = Builder::new_block(cx, llfn, "start"); if mir.basic_blocks().iter().any(|bb| bb.is_cleanup) { - bcx.set_personality_fn(ccx.eh_personality()); + bcx.set_personality_fn(cx.eh_personality()); } let cleanup_kinds = analyze::cleanup_kinds(&mir); @@ -221,14 +221,14 @@ pub fn trans_mir<'a, 'tcx: 'a>( }).collect(); // Compute debuginfo scopes from MIR scopes. - let scopes = debuginfo::create_mir_scopes(ccx, mir, &debug_context); + let scopes = debuginfo::create_mir_scopes(cx, mir, &debug_context); let (landing_pads, funclets) = create_funclets(&bcx, &cleanup_kinds, &block_bcxs); let mut mircx = MirContext { mir, llfn, fn_ty, - ccx, + cx, personality_slot: None, blocks: block_bcxs, unreachable_block: None, @@ -252,7 +252,7 @@ pub fn trans_mir<'a, 'tcx: 'a>( let mut allocate_local = |local| { let decl = &mir.local_decls[local]; - let layout = bcx.ccx.layout_of(mircx.monomorphize(&decl.ty)); + let layout = bcx.cx.layout_of(mircx.monomorphize(&decl.ty)); assert!(!layout.ty.has_erasable_regions()); if let Some(name) = decl.name { @@ -262,7 +262,7 @@ pub fn trans_mir<'a, 'tcx: 'a>( if !memory_locals.contains(local.index()) && !dbg { debug!("alloc: {:?} ({}) -> operand", local, name); - return LocalRef::new_operand(bcx.ccx, layout); + return LocalRef::new_operand(bcx.cx, layout); } debug!("alloc: {:?} ({}) -> place", local, name); @@ -288,7 +288,7 @@ pub fn trans_mir<'a, 'tcx: 'a>( // alloca in advance. Instead we wait until we see the // definition and update the operand there. debug!("alloc: {:?} -> operand", local); - LocalRef::new_operand(bcx.ccx, layout) + LocalRef::new_operand(bcx.cx, layout) } } }; @@ -398,7 +398,7 @@ fn arg_local_refs<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, _ => bug!("spread argument isn't a tuple?!") }; - let place = PlaceRef::alloca(bcx, bcx.ccx.layout_of(arg_ty), &name); + let place = PlaceRef::alloca(bcx, bcx.cx.layout_of(arg_ty), &name); for i in 0..tupled_arg_tys.len() { let arg = &mircx.fn_ty.args[idx]; idx += 1; @@ -438,7 +438,7 @@ fn arg_local_refs<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, let local = |op| LocalRef::Operand(Some(op)); match arg.mode { PassMode::Ignore => { - return local(OperandRef::new_zst(bcx.ccx, arg.layout)); + return local(OperandRef::new_zst(bcx.cx, arg.layout)); } PassMode::Direct(_) => { let llarg = llvm::get_param(bcx.llfn(), llarg_idx as c_uint); @@ -512,7 +512,7 @@ fn arg_local_refs<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, // Or is it the closure environment? let (closure_layout, env_ref) = match arg.layout.ty.sty { - ty::TyRef(_, mt) | ty::TyRawPtr(mt) => (bcx.ccx.layout_of(mt.ty), true), + ty::TyRef(_, mt) | ty::TyRawPtr(mt) => (bcx.cx.layout_of(mt.ty), true), _ => (arg.layout, false) }; @@ -531,7 +531,7 @@ fn arg_local_refs<'a, 'tcx>(bcx: &Builder<'a, 'tcx>, // environment into its components so it ends up out of bounds. let env_ptr = if !env_ref { let scratch = PlaceRef::alloca(bcx, - bcx.ccx.layout_of(tcx.mk_mut_ptr(arg.layout.ty)), + bcx.cx.layout_of(tcx.mk_mut_ptr(arg.layout.ty)), "__debuginfo_env_ptr"); bcx.store(place.llval, scratch.llval, scratch.align); scratch.llval diff --git a/src/librustc_trans/mir/operand.rs b/src/librustc_trans/mir/operand.rs index daf2a36d7a2..86e901c3f62 100644 --- a/src/librustc_trans/mir/operand.rs +++ b/src/librustc_trans/mir/operand.rs @@ -81,11 +81,11 @@ impl<'tcx> fmt::Debug for OperandRef<'tcx> { } impl<'a, 'tcx> OperandRef<'tcx> { - pub fn new_zst(ccx: &CodegenCx<'a, 'tcx>, + pub fn new_zst(cx: &CodegenCx<'a, 'tcx>, layout: TyLayout<'tcx>) -> OperandRef<'tcx> { assert!(layout.is_zst()); OperandRef { - val: OperandValue::Immediate(C_undef(layout.immediate_llvm_type(ccx))), + val: OperandValue::Immediate(C_undef(layout.immediate_llvm_type(cx))), layout } } @@ -99,7 +99,7 @@ impl<'a, 'tcx> OperandRef<'tcx> { } } - pub fn deref(self, ccx: &CodegenCx<'a, 'tcx>) -> PlaceRef<'tcx> { + pub fn deref(self, cx: &CodegenCx<'a, 'tcx>) -> PlaceRef<'tcx> { let projected_ty = self.layout.ty.builtin_deref(true, ty::NoPreference) .unwrap_or_else(|| bug!("deref of non-pointer {:?}", self)).ty; let (llptr, llextra) = match self.val { @@ -107,7 +107,7 @@ impl<'a, 'tcx> OperandRef<'tcx> { OperandValue::Pair(llptr, llextra) => (llptr, llextra), OperandValue::Ref(..) => bug!("Deref of by-Ref operand {:?}", self) }; - let layout = ccx.layout_of(projected_ty); + let layout = cx.layout_of(projected_ty); PlaceRef { llval: llptr, llextra, @@ -120,7 +120,7 @@ impl<'a, 'tcx> OperandRef<'tcx> { /// For other cases, see `immediate`. pub fn immediate_or_packed_pair(self, bcx: &Builder<'a, 'tcx>) -> ValueRef { if let OperandValue::Pair(a, b) = self.val { - let llty = self.layout.llvm_type(bcx.ccx); + let llty = self.layout.llvm_type(bcx.cx); debug!("Operand::immediate_or_packed_pair: packing {:?} into {:?}", self, llty); // Reconstruct the immediate aggregate. @@ -152,14 +152,14 @@ impl<'a, 'tcx> OperandRef<'tcx> { } pub fn extract_field(&self, bcx: &Builder<'a, 'tcx>, i: usize) -> OperandRef<'tcx> { - let field = self.layout.field(bcx.ccx, i); + let field = self.layout.field(bcx.cx, i); let offset = self.layout.fields.offset(i); let mut val = match (self.val, &self.layout.abi) { // If we're uninhabited, or the field is ZST, it has no data. _ if self.layout.abi == layout::Abi::Uninhabited || field.is_zst() => { return OperandRef { - val: OperandValue::Immediate(C_undef(field.immediate_llvm_type(bcx.ccx))), + val: OperandValue::Immediate(C_undef(field.immediate_llvm_type(bcx.cx))), layout: field }; } @@ -174,12 +174,12 @@ impl<'a, 'tcx> OperandRef<'tcx> { // Extract a scalar component from a pair. (OperandValue::Pair(a_llval, b_llval), &layout::Abi::ScalarPair(ref a, ref b)) => { if offset.bytes() == 0 { - assert_eq!(field.size, a.value.size(bcx.ccx)); + assert_eq!(field.size, a.value.size(bcx.cx)); OperandValue::Immediate(a_llval) } else { - assert_eq!(offset, a.value.size(bcx.ccx) - .abi_align(b.value.align(bcx.ccx))); - assert_eq!(field.size, b.value.size(bcx.ccx)); + assert_eq!(offset, a.value.size(bcx.cx) + .abi_align(b.value.align(bcx.cx))); + assert_eq!(field.size, b.value.size(bcx.cx)); OperandValue::Immediate(b_llval) } } @@ -187,7 +187,7 @@ impl<'a, 'tcx> OperandRef<'tcx> { // `#[repr(simd)]` types are also immediate. (OperandValue::Immediate(llval), &layout::Abi::Vector { .. }) => { OperandValue::Immediate( - bcx.extract_element(llval, C_usize(bcx.ccx, i as u64))) + bcx.extract_element(llval, C_usize(bcx.cx, i as u64))) } _ => bug!("OperandRef::extract_field({:?}): not applicable", self) @@ -196,11 +196,11 @@ impl<'a, 'tcx> OperandRef<'tcx> { // HACK(eddyb) have to bitcast pointers until LLVM removes pointee types. match val { OperandValue::Immediate(ref mut llval) => { - *llval = bcx.bitcast(*llval, field.immediate_llvm_type(bcx.ccx)); + *llval = bcx.bitcast(*llval, field.immediate_llvm_type(bcx.cx)); } OperandValue::Pair(ref mut a, ref mut b) => { - *a = bcx.bitcast(*a, field.scalar_pair_element_llvm_type(bcx.ccx, 0)); - *b = bcx.bitcast(*b, field.scalar_pair_element_llvm_type(bcx.ccx, 1)); + *a = bcx.bitcast(*a, field.scalar_pair_element_llvm_type(bcx.cx, 0)); + *b = bcx.bitcast(*b, field.scalar_pair_element_llvm_type(bcx.cx, 1)); } OperandValue::Ref(..) => bug!() } @@ -231,8 +231,8 @@ impl<'a, 'tcx> OperandValue { for (i, &x) in [a, b].iter().enumerate() { let mut llptr = bcx.struct_gep(dest.llval, i as u64); // Make sure to always store i1 as i8. - if common::val_ty(x) == Type::i1(bcx.ccx) { - llptr = bcx.pointercast(llptr, Type::i8p(bcx.ccx)); + if common::val_ty(x) == Type::i1(bcx.cx) { + llptr = bcx.pointercast(llptr, Type::i8p(bcx.cx)); } bcx.store(base::from_immediate(bcx, x), llptr, dest.align); } @@ -277,9 +277,9 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { // ZSTs don't require any actual memory access. // FIXME(eddyb) deduplicate this with the identical // checks in `trans_consume` and `extract_field`. - let elem = o.layout.field(bcx.ccx, 0); + let elem = o.layout.field(bcx.cx, 0); if elem.is_zst() { - return Some(OperandRef::new_zst(bcx.ccx, elem)); + return Some(OperandRef::new_zst(bcx.cx, elem)); } } _ => {} @@ -298,11 +298,11 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { debug!("trans_consume(place={:?})", place); let ty = self.monomorphized_place_ty(place); - let layout = bcx.ccx.layout_of(ty); + let layout = bcx.cx.layout_of(ty); // ZSTs don't require any actual memory access. if layout.is_zst() { - return OperandRef::new_zst(bcx.ccx, layout); + return OperandRef::new_zst(bcx.cx, layout); } if let Some(o) = self.maybe_trans_consume_direct(bcx, place) { @@ -329,7 +329,7 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { mir::Operand::Constant(ref constant) => { let val = self.trans_constant(&bcx, constant); - let operand = val.to_operand(bcx.ccx); + let operand = val.to_operand(bcx.cx); if let OperandValue::Ref(ptr, align) = operand.val { // If this is a OperandValue::Ref to an immediate constant, load it. PlaceRef::new_sized(ptr, operand.layout, align).load(bcx) diff --git a/src/librustc_trans/mir/place.rs b/src/librustc_trans/mir/place.rs index 748bea1fc75..984ae788531 100644 --- a/src/librustc_trans/mir/place.rs +++ b/src/librustc_trans/mir/place.rs @@ -59,18 +59,18 @@ impl<'a, 'tcx> PlaceRef<'tcx> { pub fn alloca(bcx: &Builder<'a, 'tcx>, layout: TyLayout<'tcx>, name: &str) -> PlaceRef<'tcx> { debug!("alloca({:?}: {:?})", name, layout); - let tmp = bcx.alloca(layout.llvm_type(bcx.ccx), name, layout.align); + let tmp = bcx.alloca(layout.llvm_type(bcx.cx), name, layout.align); Self::new_sized(tmp, layout, layout.align) } - pub fn len(&self, ccx: &CodegenCx<'a, 'tcx>) -> ValueRef { + pub fn len(&self, cx: &CodegenCx<'a, 'tcx>) -> ValueRef { if let layout::FieldPlacement::Array { count, .. } = self.layout.fields { if self.layout.is_unsized() { assert!(self.has_extra()); assert_eq!(count, 0); self.llextra } else { - C_usize(ccx, count) + C_usize(cx, count) } } else { bug!("unexpected layout `{:#?}` in PlaceRef::len", self.layout) @@ -87,13 +87,13 @@ impl<'a, 'tcx> PlaceRef<'tcx> { assert!(!self.has_extra()); if self.layout.is_zst() { - return OperandRef::new_zst(bcx.ccx, self.layout); + return OperandRef::new_zst(bcx.cx, self.layout); } let scalar_load_metadata = |load, scalar: &layout::Scalar| { let (min, max) = (scalar.valid_range.start, scalar.valid_range.end); let max_next = max.wrapping_add(1); - let bits = scalar.value.size(bcx.ccx).bits(); + let bits = scalar.value.size(bcx.cx).bits(); assert!(bits <= 128); let mask = !0u128 >> (128 - bits); // For a (max) value of -1, max will be `-1 as usize`, which overflows. @@ -139,12 +139,12 @@ impl<'a, 'tcx> PlaceRef<'tcx> { let mut llptr = bcx.struct_gep(self.llval, i as u64); // Make sure to always load i1 as i8. if scalar.is_bool() { - llptr = bcx.pointercast(llptr, Type::i8p(bcx.ccx)); + llptr = bcx.pointercast(llptr, Type::i8p(bcx.cx)); } let load = bcx.load(llptr, self.align); scalar_load_metadata(load, scalar); if scalar.is_bool() { - bcx.trunc(load, Type::i1(bcx.ccx)) + bcx.trunc(load, Type::i1(bcx.cx)) } else { load } @@ -159,8 +159,8 @@ impl<'a, 'tcx> PlaceRef<'tcx> { /// Access a field, at a point when the value's case is known. pub fn project_field(self, bcx: &Builder<'a, 'tcx>, ix: usize) -> PlaceRef<'tcx> { - let ccx = bcx.ccx; - let field = self.layout.field(ccx, ix); + let cx = bcx.cx; + let field = self.layout.field(cx, ix); let offset = self.layout.fields.offset(ix); let align = self.align.min(self.layout.align).min(field.align); @@ -170,15 +170,15 @@ impl<'a, 'tcx> PlaceRef<'tcx> { self.llval } else if let layout::Abi::ScalarPair(ref a, ref b) = self.layout.abi { // Offsets have to match either first or second field. - assert_eq!(offset, a.value.size(ccx).abi_align(b.value.align(ccx))); + assert_eq!(offset, a.value.size(cx).abi_align(b.value.align(cx))); bcx.struct_gep(self.llval, 1) } else { bcx.struct_gep(self.llval, self.layout.llvm_field_index(ix)) }; PlaceRef { // HACK(eddyb) have to bitcast pointers until LLVM removes pointee types. - llval: bcx.pointercast(llval, field.llvm_type(ccx).ptr_to()), - llextra: if ccx.type_has_metadata(field.ty) { + llval: bcx.pointercast(llval, field.llvm_type(cx).ptr_to()), + llextra: if cx.type_has_metadata(field.ty) { self.llextra } else { ptr::null_mut() @@ -228,7 +228,7 @@ impl<'a, 'tcx> PlaceRef<'tcx> { let meta = self.llextra; - let unaligned_offset = C_usize(ccx, offset.bytes()); + let unaligned_offset = C_usize(cx, offset.bytes()); // Get the alignment of the field let (_, unsized_align) = glue::size_and_align_of_dst(bcx, field.ty, meta); @@ -239,18 +239,18 @@ impl<'a, 'tcx> PlaceRef<'tcx> { // (unaligned offset + (align - 1)) & -align // Calculate offset - let align_sub_1 = bcx.sub(unsized_align, C_usize(ccx, 1u64)); + let align_sub_1 = bcx.sub(unsized_align, C_usize(cx, 1u64)); let offset = bcx.and(bcx.add(unaligned_offset, align_sub_1), bcx.neg(unsized_align)); debug!("struct_field_ptr: DST field offset: {:?}", Value(offset)); // Cast and adjust pointer - let byte_ptr = bcx.pointercast(self.llval, Type::i8p(ccx)); + let byte_ptr = bcx.pointercast(self.llval, Type::i8p(cx)); let byte_ptr = bcx.gep(byte_ptr, &[offset]); // Finally, cast back to the type expected - let ll_fty = field.llvm_type(ccx); + let ll_fty = field.llvm_type(cx); debug!("struct_field_ptr: Field type is {:?}", ll_fty); PlaceRef { @@ -263,7 +263,7 @@ impl<'a, 'tcx> PlaceRef<'tcx> { /// Obtain the actual discriminant of a value. pub fn trans_get_discr(self, bcx: &Builder<'a, 'tcx>, cast_to: Ty<'tcx>) -> ValueRef { - let cast_to = bcx.ccx.layout_of(cast_to).immediate_llvm_type(bcx.ccx); + let cast_to = bcx.cx.layout_of(cast_to).immediate_llvm_type(bcx.cx); match self.layout.variants { layout::Variants::Single { index } => { return C_uint(cast_to, index as u64); @@ -289,7 +289,7 @@ impl<'a, 'tcx> PlaceRef<'tcx> { niche_start, .. } => { - let niche_llty = discr.layout.immediate_llvm_type(bcx.ccx); + let niche_llty = discr.layout.immediate_llvm_type(bcx.cx); if niche_variants.start == niche_variants.end { // FIXME(eddyb) Check the actual primitive type here. let niche_llval = if niche_start == 0 { @@ -317,7 +317,7 @@ impl<'a, 'tcx> PlaceRef<'tcx> { /// Set the discriminant for a new value of the given case of the given /// representation. pub fn trans_set_discr(&self, bcx: &Builder<'a, 'tcx>, variant_index: usize) { - if self.layout.for_variant(bcx.ccx, variant_index).abi == layout::Abi::Uninhabited { + if self.layout.for_variant(bcx.cx, variant_index).abi == layout::Abi::Uninhabited { return; } match self.layout.variants { @@ -329,7 +329,7 @@ impl<'a, 'tcx> PlaceRef<'tcx> { let to = self.layout.ty.ty_adt_def().unwrap() .discriminant_for_variant(bcx.tcx(), variant_index) .to_u128_unchecked() as u64; - bcx.store(C_int(ptr.layout.llvm_type(bcx.ccx), to as i64), + bcx.store(C_int(ptr.layout.llvm_type(bcx.cx), to as i64), ptr.llval, ptr.align); } layout::Variants::NicheFilling { @@ -343,16 +343,16 @@ impl<'a, 'tcx> PlaceRef<'tcx> { bcx.sess().target.target.arch == "aarch64" { // Issue #34427: As workaround for LLVM bug on ARM, // use memset of 0 before assigning niche value. - let llptr = bcx.pointercast(self.llval, Type::i8(bcx.ccx).ptr_to()); - let fill_byte = C_u8(bcx.ccx, 0); + let llptr = bcx.pointercast(self.llval, Type::i8(bcx.cx).ptr_to()); + let fill_byte = C_u8(bcx.cx, 0); let (size, align) = self.layout.size_and_align(); - let size = C_usize(bcx.ccx, size.bytes()); - let align = C_u32(bcx.ccx, align.abi() as u32); + let size = C_usize(bcx.cx, size.bytes()); + let align = C_u32(bcx.cx, align.abi() as u32); base::call_memset(bcx, llptr, fill_byte, size, align, false); } let niche = self.project_field(bcx, 0); - let niche_llty = niche.layout.immediate_llvm_type(bcx.ccx); + let niche_llty = niche.layout.immediate_llvm_type(bcx.cx); let niche_value = ((variant_index - niche_variants.start) as u128) .wrapping_add(niche_start); // FIXME(eddyb) Check the actual primitive type here. @@ -371,9 +371,9 @@ impl<'a, 'tcx> PlaceRef<'tcx> { pub fn project_index(&self, bcx: &Builder<'a, 'tcx>, llindex: ValueRef) -> PlaceRef<'tcx> { PlaceRef { - llval: bcx.inbounds_gep(self.llval, &[C_usize(bcx.ccx, 0), llindex]), + llval: bcx.inbounds_gep(self.llval, &[C_usize(bcx.cx, 0), llindex]), llextra: ptr::null_mut(), - layout: self.layout.field(bcx.ccx, 0), + layout: self.layout.field(bcx.cx, 0), align: self.align } } @@ -381,10 +381,10 @@ impl<'a, 'tcx> PlaceRef<'tcx> { pub fn project_downcast(&self, bcx: &Builder<'a, 'tcx>, variant_index: usize) -> PlaceRef<'tcx> { let mut downcast = *self; - downcast.layout = self.layout.for_variant(bcx.ccx, variant_index); + downcast.layout = self.layout.for_variant(bcx.cx, variant_index); // Cast to the appropriate variant struct type. - let variant_ty = downcast.layout.llvm_type(bcx.ccx); + let variant_ty = downcast.layout.llvm_type(bcx.cx); downcast.llval = bcx.pointercast(downcast.llval, variant_ty.ptr_to()); downcast @@ -406,8 +406,8 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { -> PlaceRef<'tcx> { debug!("trans_place(place={:?})", place); - let ccx = bcx.ccx; - let tcx = ccx.tcx; + let cx = bcx.cx; + let tcx = cx.tcx; if let mir::Place::Local(index) = *place { match self.locals[index] { @@ -423,15 +423,15 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { let result = match *place { mir::Place::Local(_) => bug!(), // handled above mir::Place::Static(box mir::Static { def_id, ty }) => { - let layout = ccx.layout_of(self.monomorphize(&ty)); - PlaceRef::new_sized(consts::get_static(ccx, def_id), layout, layout.align) + let layout = cx.layout_of(self.monomorphize(&ty)); + PlaceRef::new_sized(consts::get_static(cx, def_id), layout, layout.align) }, mir::Place::Projection(box mir::Projection { ref base, elem: mir::ProjectionElem::Deref }) => { // Load the pointer from its location. - self.trans_consume(bcx, base).deref(bcx.ccx) + self.trans_consume(bcx, base).deref(bcx.cx) } mir::Place::Projection(ref projection) => { let tr_base = self.trans_place(bcx, &projection.base); @@ -450,34 +450,34 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { mir::ProjectionElem::ConstantIndex { offset, from_end: false, min_length: _ } => { - let lloffset = C_usize(bcx.ccx, offset as u64); + let lloffset = C_usize(bcx.cx, offset as u64); tr_base.project_index(bcx, lloffset) } mir::ProjectionElem::ConstantIndex { offset, from_end: true, min_length: _ } => { - let lloffset = C_usize(bcx.ccx, offset as u64); - let lllen = tr_base.len(bcx.ccx); + let lloffset = C_usize(bcx.cx, offset as u64); + let lllen = tr_base.len(bcx.cx); let llindex = bcx.sub(lllen, lloffset); tr_base.project_index(bcx, llindex) } mir::ProjectionElem::Subslice { from, to } => { let mut subslice = tr_base.project_index(bcx, - C_usize(bcx.ccx, from as u64)); + C_usize(bcx.cx, from as u64)); let projected_ty = PlaceTy::Ty { ty: tr_base.layout.ty } .projection_ty(tcx, &projection.elem).to_ty(bcx.tcx()); - subslice.layout = bcx.ccx.layout_of(self.monomorphize(&projected_ty)); + subslice.layout = bcx.cx.layout_of(self.monomorphize(&projected_ty)); if subslice.layout.is_unsized() { assert!(tr_base.has_extra()); subslice.llextra = bcx.sub(tr_base.llextra, - C_usize(bcx.ccx, (from as u64) + (to as u64))); + C_usize(bcx.cx, (from as u64) + (to as u64))); } // Cast the place pointer type to the new // array or slice type (*[%_; new_len]). subslice.llval = bcx.pointercast(subslice.llval, - subslice.layout.llvm_type(bcx.ccx).ptr_to()); + subslice.layout.llvm_type(bcx.cx).ptr_to()); subslice } @@ -492,7 +492,7 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { } pub fn monomorphized_place_ty(&self, place: &mir::Place<'tcx>) -> Ty<'tcx> { - let tcx = self.ccx.tcx; + let tcx = self.cx.tcx; let place_ty = place.ty(self.mir, tcx); self.monomorphize(&place_ty.to_ty(tcx)) } diff --git a/src/librustc_trans/mir/rvalue.rs b/src/librustc_trans/mir/rvalue.rs index 5d27d2c1c6a..334ca226ac8 100644 --- a/src/librustc_trans/mir/rvalue.rs +++ b/src/librustc_trans/mir/rvalue.rs @@ -101,29 +101,29 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { return bcx; } - let start = dest.project_index(&bcx, C_usize(bcx.ccx, 0)).llval; + let start = dest.project_index(&bcx, C_usize(bcx.cx, 0)).llval; if let OperandValue::Immediate(v) = tr_elem.val { - let align = C_i32(bcx.ccx, dest.align.abi() as i32); - let size = C_usize(bcx.ccx, dest.layout.size.bytes()); + let align = C_i32(bcx.cx, dest.align.abi() as i32); + let size = C_usize(bcx.cx, dest.layout.size.bytes()); // Use llvm.memset.p0i8.* to initialize all zero arrays if common::is_const_integral(v) && common::const_to_uint(v) == 0 { - let fill = C_u8(bcx.ccx, 0); + let fill = C_u8(bcx.cx, 0); base::call_memset(&bcx, start, fill, size, align, false); return bcx; } // Use llvm.memset.p0i8.* to initialize byte arrays let v = base::from_immediate(&bcx, v); - if common::val_ty(v) == Type::i8(bcx.ccx) { + if common::val_ty(v) == Type::i8(bcx.cx) { base::call_memset(&bcx, start, v, size, align, false); return bcx; } } let count = count.as_u64(); - let count = C_usize(bcx.ccx, count); + let count = C_usize(bcx.cx, count); let end = dest.project_index(&bcx, count).llval; let header_bcx = bcx.build_sibling_block("repeat_loop_header"); @@ -139,7 +139,7 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { tr_elem.val.store(&body_bcx, PlaceRef::new_sized(current, tr_elem.layout, dest.align)); - let next = body_bcx.inbounds_gep(current, &[C_usize(bcx.ccx, 1)]); + let next = body_bcx.inbounds_gep(current, &[C_usize(bcx.cx, 1)]); body_bcx.br(header_bcx.llbb()); header_bcx.add_incoming_to_phi(current, next, body_bcx.llbb()); @@ -189,14 +189,14 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { mir::Rvalue::Cast(ref kind, ref source, mir_cast_ty) => { let operand = self.trans_operand(&bcx, source); debug!("cast operand is {:?}", operand); - let cast = bcx.ccx.layout_of(self.monomorphize(&mir_cast_ty)); + let cast = bcx.cx.layout_of(self.monomorphize(&mir_cast_ty)); let val = match *kind { mir::CastKind::ReifyFnPointer => { match operand.layout.ty.sty { ty::TyFnDef(def_id, substs) => { OperandValue::Immediate( - callee::resolve_and_get_fn(bcx.ccx, def_id, substs)) + callee::resolve_and_get_fn(bcx.cx, def_id, substs)) } _ => { bug!("{} cannot be reified to a fn ptr", operand.layout.ty) @@ -207,8 +207,8 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { match operand.layout.ty.sty { ty::TyClosure(def_id, substs) => { let instance = monomorphize::resolve_closure( - bcx.ccx.tcx, def_id, substs, ty::ClosureKind::FnOnce); - OperandValue::Immediate(callee::get_fn(bcx.ccx, instance)) + bcx.cx.tcx, def_id, substs, ty::ClosureKind::FnOnce); + OperandValue::Immediate(callee::get_fn(bcx.cx, instance)) } _ => { bug!("{} cannot be cast to a fn ptr", operand.layout.ty) @@ -231,7 +231,7 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { // HACK(eddyb) have to bitcast pointers // until LLVM removes pointee types. let lldata = bcx.pointercast(lldata, - cast.scalar_pair_element_llvm_type(bcx.ccx, 0)); + cast.scalar_pair_element_llvm_type(bcx.cx, 0)); OperandValue::Pair(lldata, llextra) } OperandValue::Immediate(lldata) => { @@ -250,12 +250,12 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { if let OperandValue::Pair(data_ptr, meta) = operand.val { if cast.is_llvm_scalar_pair() { let data_cast = bcx.pointercast(data_ptr, - cast.scalar_pair_element_llvm_type(bcx.ccx, 0)); + cast.scalar_pair_element_llvm_type(bcx.cx, 0)); OperandValue::Pair(data_cast, meta) } else { // cast to thin-ptr // Cast of fat-ptr to thin-ptr is an extraction of data-ptr and // pointer-cast of that pointer to desired pointer type. - let llcast_ty = cast.immediate_llvm_type(bcx.ccx); + let llcast_ty = cast.immediate_llvm_type(bcx.cx); let llval = bcx.pointercast(data_ptr, llcast_ty); OperandValue::Immediate(llval) } @@ -268,8 +268,8 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { let r_t_in = CastTy::from_ty(operand.layout.ty) .expect("bad input type for cast"); let r_t_out = CastTy::from_ty(cast.ty).expect("bad output type for cast"); - let ll_t_in = operand.layout.immediate_llvm_type(bcx.ccx); - let ll_t_out = cast.immediate_llvm_type(bcx.ccx); + let ll_t_in = operand.layout.immediate_llvm_type(bcx.cx); + let ll_t_out = cast.immediate_llvm_type(bcx.cx); let llval = operand.immediate(); let mut signed = false; @@ -314,7 +314,7 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { (CastTy::FnPtr, CastTy::Int(_)) => bcx.ptrtoint(llval, ll_t_out), (CastTy::Int(_), CastTy::Ptr(_)) => { - let usize_llval = bcx.intcast(llval, bcx.ccx.isize_ty, signed); + let usize_llval = bcx.intcast(llval, bcx.cx.isize_ty, signed); bcx.inttoptr(usize_llval, ll_t_out) } (CastTy::Int(_), CastTy::Float) => @@ -341,15 +341,15 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { // Note: places are indirect, so storing the `llval` into the // destination effectively creates a reference. - let val = if !bcx.ccx.type_has_metadata(ty) { + let val = if !bcx.cx.type_has_metadata(ty) { OperandValue::Immediate(tr_place.llval) } else { OperandValue::Pair(tr_place.llval, tr_place.llextra) }; (bcx, OperandRef { val, - layout: self.ccx.layout_of(self.ccx.tcx.mk_ref( - self.ccx.tcx.types.re_erased, + layout: self.cx.layout_of(self.cx.tcx.mk_ref( + self.cx.tcx.types.re_erased, ty::TypeAndMut { ty, mutbl: bk.to_mutbl_lossy() } )), }) @@ -359,7 +359,7 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { let size = self.evaluate_array_len(&bcx, place); let operand = OperandRef { val: OperandValue::Immediate(size), - layout: bcx.ccx.layout_of(bcx.tcx().types.usize), + layout: bcx.cx.layout_of(bcx.tcx().types.usize), }; (bcx, operand) } @@ -385,7 +385,7 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { }; let operand = OperandRef { val: OperandValue::Immediate(llresult), - layout: bcx.ccx.layout_of( + layout: bcx.cx.layout_of( op.ty(bcx.tcx(), lhs.layout.ty, rhs.layout.ty)), }; (bcx, operand) @@ -400,7 +400,7 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { let operand_ty = bcx.tcx().intern_tup(&[val_ty, bcx.tcx().types.bool], false); let operand = OperandRef { val: result, - layout: bcx.ccx.layout_of(operand_ty) + layout: bcx.cx.layout_of(operand_ty) }; (bcx, operand) @@ -430,27 +430,27 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { .trans_get_discr(&bcx, discr_ty); (bcx, OperandRef { val: OperandValue::Immediate(discr), - layout: self.ccx.layout_of(discr_ty) + layout: self.cx.layout_of(discr_ty) }) } mir::Rvalue::NullaryOp(mir::NullOp::SizeOf, ty) => { - assert!(bcx.ccx.type_is_sized(ty)); - let val = C_usize(bcx.ccx, bcx.ccx.size_of(ty).bytes()); + assert!(bcx.cx.type_is_sized(ty)); + let val = C_usize(bcx.cx, bcx.cx.size_of(ty).bytes()); let tcx = bcx.tcx(); (bcx, OperandRef { val: OperandValue::Immediate(val), - layout: self.ccx.layout_of(tcx.types.usize), + layout: self.cx.layout_of(tcx.types.usize), }) } mir::Rvalue::NullaryOp(mir::NullOp::Box, content_ty) => { let content_ty: Ty<'tcx> = self.monomorphize(&content_ty); - let (size, align) = bcx.ccx.size_and_align_of(content_ty); - let llsize = C_usize(bcx.ccx, size.bytes()); - let llalign = C_usize(bcx.ccx, align.abi()); - let box_layout = bcx.ccx.layout_of(bcx.tcx().mk_box(content_ty)); - let llty_ptr = box_layout.llvm_type(bcx.ccx); + let (size, align) = bcx.cx.size_and_align_of(content_ty); + let llsize = C_usize(bcx.cx, size.bytes()); + let llalign = C_usize(bcx.cx, align.abi()); + let box_layout = bcx.cx.layout_of(bcx.tcx().mk_box(content_ty)); + let llty_ptr = box_layout.llvm_type(bcx.cx); // Allocate space: let def_id = match bcx.tcx().lang_items().require(ExchangeMallocFnLangItem) { @@ -460,7 +460,7 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { } }; let instance = ty::Instance::mono(bcx.tcx(), def_id); - let r = callee::get_fn(bcx.ccx, instance); + let r = callee::get_fn(bcx.cx, instance); let val = bcx.pointercast(bcx.call(r, &[llsize, llalign], None), llty_ptr); let operand = OperandRef { @@ -477,9 +477,9 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { mir::Rvalue::Aggregate(..) => { // According to `rvalue_creates_operand`, only ZST // aggregate rvalues are allowed to be operands. - let ty = rvalue.ty(self.mir, self.ccx.tcx); - (bcx, OperandRef::new_zst(self.ccx, - self.ccx.layout_of(self.monomorphize(&ty)))) + let ty = rvalue.ty(self.mir, self.cx.tcx); + (bcx, OperandRef::new_zst(self.cx, + self.cx.layout_of(self.monomorphize(&ty)))) } } } @@ -494,13 +494,13 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { if let LocalRef::Operand(Some(op)) = self.locals[index] { if let ty::TyArray(_, n) = op.layout.ty.sty { let n = n.val.to_const_int().unwrap().to_u64().unwrap(); - return common::C_usize(bcx.ccx, n); + return common::C_usize(bcx.cx, n); } } } // use common size calculation for non zero-sized types let tr_value = self.trans_place(&bcx, place); - return tr_value.len(bcx.ccx); + return tr_value.len(bcx.cx); } pub fn trans_scalar_binop(&mut self, @@ -551,7 +551,7 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { mir::BinOp::Shr => common::build_unchecked_rshift(bcx, input_ty, lhs, rhs), mir::BinOp::Ne | mir::BinOp::Lt | mir::BinOp::Gt | mir::BinOp::Eq | mir::BinOp::Le | mir::BinOp::Ge => if is_nil { - C_bool(bcx.ccx, match op { + C_bool(bcx.cx, match op { mir::BinOp::Ne | mir::BinOp::Lt | mir::BinOp::Gt => false, mir::BinOp::Eq | mir::BinOp::Le | mir::BinOp::Ge => true, _ => unreachable!() @@ -565,8 +565,8 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { let (lhs, rhs) = if is_bool { // FIXME(#36856) -- extend the bools into `i8` because // LLVM's i1 comparisons are broken. - (bcx.zext(lhs, Type::i8(bcx.ccx)), - bcx.zext(rhs, Type::i8(bcx.ccx))) + (bcx.zext(lhs, Type::i8(bcx.cx)), + bcx.zext(rhs, Type::i8(bcx.cx))) } else { (lhs, rhs) }; @@ -636,9 +636,9 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { // with #[rustc_inherit_overflow_checks] and inlined from // another crate (mostly core::num generic/#[inline] fns), // while the current crate doesn't use overflow checks. - if !bcx.ccx.check_overflow { + if !bcx.cx.check_overflow { let val = self.trans_scalar_binop(bcx, op, lhs, rhs, input_ty); - return OperandValue::Pair(val, C_bool(bcx.ccx, false)); + return OperandValue::Pair(val, C_bool(bcx.cx, false)); } // First try performing the operation on constants, which @@ -646,7 +646,7 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { // This is necessary to determine when an overflow Assert // will always panic at runtime, and produce a warning. if let Some((val, of)) = const_scalar_checked_binop(bcx.tcx(), op, lhs, rhs, input_ty) { - return OperandValue::Pair(val, C_bool(bcx.ccx, of)); + return OperandValue::Pair(val, C_bool(bcx.cx, of)); } let (val, of) = match op { @@ -697,9 +697,9 @@ impl<'a, 'tcx> MirContext<'a, 'tcx> { true, mir::Rvalue::Repeat(..) | mir::Rvalue::Aggregate(..) => { - let ty = rvalue.ty(self.mir, self.ccx.tcx); + let ty = rvalue.ty(self.mir, self.cx.tcx); let ty = self.monomorphize(&ty); - self.ccx.layout_of(ty).is_zst() + self.cx.layout_of(ty).is_zst() } } @@ -784,7 +784,7 @@ fn get_overflow_intrinsic(oop: OverflowOp, bcx: &Builder, ty: Ty) -> ValueRef { }, }; - bcx.ccx.get_intrinsic(&name) + bcx.cx.get_intrinsic(&name) } fn cast_int_to_float(bcx: &Builder, @@ -801,7 +801,7 @@ fn cast_int_to_float(bcx: &Builder, // and for everything else LLVM's uitofp works just fine. let max = C_uint_big(int_ty, MAX_F32_PLUS_HALF_ULP); let overflow = bcx.icmp(llvm::IntUGE, x, max); - let infinity_bits = C_u32(bcx.ccx, ieee::Single::INFINITY.to_bits() as u32); + let infinity_bits = C_u32(bcx.cx, ieee::Single::INFINITY.to_bits() as u32); let infinity = consts::bitcast(infinity_bits, float_ty); bcx.select(overflow, infinity, bcx.uitofp(x, float_ty)) } else { @@ -870,8 +870,8 @@ fn cast_float_to_int(bcx: &Builder, } let float_bits_to_llval = |bits| { let bits_llval = match float_ty.float_width() { - 32 => C_u32(bcx.ccx, bits as u32), - 64 => C_u64(bcx.ccx, bits as u64), + 32 => C_u32(bcx.cx, bits as u32), + 64 => C_u64(bcx.cx, bits as u64), n => bug!("unsupported float width {}", n), }; consts::bitcast(bits_llval, float_ty) diff --git a/src/librustc_trans/trans_item.rs b/src/librustc_trans/trans_item.rs index eafc3d2fafb..cc270ab5f2d 100644 --- a/src/librustc_trans/trans_item.rs +++ b/src/librustc_trans/trans_item.rs @@ -38,18 +38,18 @@ pub use rustc_mir::monomorphize::item::*; pub use rustc_mir::monomorphize::item::MonoItemExt as BaseMonoItemExt; pub trait MonoItemExt<'a, 'tcx>: fmt::Debug + BaseMonoItemExt<'a, 'tcx> { - fn define(&self, ccx: &CodegenCx<'a, 'tcx>) { + fn define(&self, cx: &CodegenCx<'a, 'tcx>) { debug!("BEGIN IMPLEMENTING '{} ({})' in cgu {}", - self.to_string(ccx.tcx), + self.to_string(cx.tcx), self.to_raw_string(), - ccx.codegen_unit.name()); + cx.codegen_unit.name()); match *self.as_mono_item() { MonoItem::Static(node_id) => { - let tcx = ccx.tcx; + let tcx = cx.tcx; let item = tcx.hir.expect_item(node_id); if let hir::ItemStatic(_, m, _) = item.node { - match consts::trans_static(&ccx, m, item.id, &item.attrs) { + match consts::trans_static(&cx, m, item.id, &item.attrs) { Ok(_) => { /* Cool, everything's alright. */ }, Err(err) => { err.report(tcx, item.span, "static"); @@ -60,51 +60,51 @@ pub trait MonoItemExt<'a, 'tcx>: fmt::Debug + BaseMonoItemExt<'a, 'tcx> { } } MonoItem::GlobalAsm(node_id) => { - let item = ccx.tcx.hir.expect_item(node_id); + let item = cx.tcx.hir.expect_item(node_id); if let hir::ItemGlobalAsm(ref ga) = item.node { - asm::trans_global_asm(ccx, ga); + asm::trans_global_asm(cx, ga); } else { span_bug!(item.span, "Mismatch between hir::Item type and TransItem type") } } MonoItem::Fn(instance) => { - base::trans_instance(&ccx, instance); + base::trans_instance(&cx, instance); } } debug!("END IMPLEMENTING '{} ({})' in cgu {}", - self.to_string(ccx.tcx), + self.to_string(cx.tcx), self.to_raw_string(), - ccx.codegen_unit.name()); + cx.codegen_unit.name()); } fn predefine(&self, - ccx: &CodegenCx<'a, 'tcx>, + cx: &CodegenCx<'a, 'tcx>, linkage: Linkage, visibility: Visibility) { debug!("BEGIN PREDEFINING '{} ({})' in cgu {}", - self.to_string(ccx.tcx), + self.to_string(cx.tcx), self.to_raw_string(), - ccx.codegen_unit.name()); + cx.codegen_unit.name()); - let symbol_name = self.symbol_name(ccx.tcx); + let symbol_name = self.symbol_name(cx.tcx); debug!("symbol {}", &symbol_name); match *self.as_mono_item() { MonoItem::Static(node_id) => { - predefine_static(ccx, node_id, linkage, visibility, &symbol_name); + predefine_static(cx, node_id, linkage, visibility, &symbol_name); } MonoItem::Fn(instance) => { - predefine_fn(ccx, instance, linkage, visibility, &symbol_name); + predefine_fn(cx, instance, linkage, visibility, &symbol_name); } MonoItem::GlobalAsm(..) => {} } debug!("END PREDEFINING '{} ({})' in cgu {}", - self.to_string(ccx.tcx), + self.to_string(cx.tcx), self.to_raw_string(), - ccx.codegen_unit.name()); + cx.codegen_unit.name()); } fn local_span(&self, tcx: TyCtxt<'a, 'tcx, 'tcx>) -> Option { @@ -138,18 +138,18 @@ pub trait MonoItemExt<'a, 'tcx>: fmt::Debug + BaseMonoItemExt<'a, 'tcx> { impl<'a, 'tcx> MonoItemExt<'a, 'tcx> for MonoItem<'tcx> {} -fn predefine_static<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, +fn predefine_static<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, node_id: ast::NodeId, linkage: Linkage, visibility: Visibility, symbol_name: &str) { - let def_id = ccx.tcx.hir.local_def_id(node_id); - let instance = Instance::mono(ccx.tcx, def_id); - let ty = instance.ty(ccx.tcx); - let llty = ccx.layout_of(ty).llvm_type(ccx); + let def_id = cx.tcx.hir.local_def_id(node_id); + let instance = Instance::mono(cx.tcx, def_id); + let ty = instance.ty(cx.tcx); + let llty = cx.layout_of(ty).llvm_type(cx); - let g = declare::define_global(ccx, symbol_name, llty).unwrap_or_else(|| { - ccx.sess().span_fatal(ccx.tcx.hir.span(node_id), + let g = declare::define_global(cx, symbol_name, llty).unwrap_or_else(|| { + cx.sess().span_fatal(cx.tcx.hir.span(node_id), &format!("symbol `{}` is already defined", symbol_name)) }); @@ -158,11 +158,11 @@ fn predefine_static<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, llvm::LLVMRustSetVisibility(g, base::visibility_to_llvm(visibility)); } - ccx.instances.borrow_mut().insert(instance, g); - ccx.statics.borrow_mut().insert(g, def_id); + cx.instances.borrow_mut().insert(instance, g); + cx.statics.borrow_mut().insert(g, def_id); } -fn predefine_fn<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, +fn predefine_fn<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, instance: Instance<'tcx>, linkage: Linkage, visibility: Visibility, @@ -170,14 +170,14 @@ fn predefine_fn<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, assert!(!instance.substs.needs_infer() && !instance.substs.has_param_types()); - let mono_ty = instance.ty(ccx.tcx); - let attrs = instance.def.attrs(ccx.tcx); - let lldecl = declare::declare_fn(ccx, symbol_name, mono_ty); + let mono_ty = instance.ty(cx.tcx); + let attrs = instance.def.attrs(cx.tcx); + let lldecl = declare::declare_fn(cx, symbol_name, mono_ty); unsafe { llvm::LLVMRustSetLinkage(lldecl, base::linkage_to_llvm(linkage)) }; - base::set_link_section(ccx, lldecl, &attrs); + base::set_link_section(cx, lldecl, &attrs); if linkage == Linkage::LinkOnceODR || linkage == Linkage::WeakODR { - llvm::SetUniqueComdat(ccx.llmod, lldecl); + llvm::SetUniqueComdat(cx.llmod, lldecl); } // If we're compiling the compiler-builtins crate, e.g. the equivalent of @@ -185,7 +185,7 @@ fn predefine_fn<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, // visibility as we're going to link this object all over the place but // don't want the symbols to get exported. if linkage != Linkage::Internal && linkage != Linkage::Private && - attr::contains_name(ccx.tcx.hir.krate_attrs(), "compiler_builtins") { + attr::contains_name(cx.tcx.hir.krate_attrs(), "compiler_builtins") { unsafe { llvm::LLVMRustSetVisibility(lldecl, llvm::Visibility::Hidden); } @@ -196,10 +196,10 @@ fn predefine_fn<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, } debug!("predefine_fn: mono_ty = {:?} instance = {:?}", mono_ty, instance); - if instance.def.is_inline(ccx.tcx) { + if instance.def.is_inline(cx.tcx) { attributes::inline(lldecl, attributes::InlineAttr::Hint); } - attributes::from_fn_attrs(ccx, lldecl, instance.def.def_id()); + attributes::from_fn_attrs(cx, lldecl, instance.def.def_id()); - ccx.instances.borrow_mut().insert(instance, lldecl); + cx.instances.borrow_mut().insert(instance, lldecl); } diff --git a/src/librustc_trans/type_.rs b/src/librustc_trans/type_.rs index 75145eb4416..a77acc4f175 100644 --- a/src/librustc_trans/type_.rs +++ b/src/librustc_trans/type_.rs @@ -62,115 +62,115 @@ impl Type { unsafe { mem::transmute(slice) } } - pub fn void(ccx: &CodegenCx) -> Type { - ty!(llvm::LLVMVoidTypeInContext(ccx.llcx)) + pub fn void(cx: &CodegenCx) -> Type { + ty!(llvm::LLVMVoidTypeInContext(cx.llcx)) } - pub fn metadata(ccx: &CodegenCx) -> Type { - ty!(llvm::LLVMRustMetadataTypeInContext(ccx.llcx)) + pub fn metadata(cx: &CodegenCx) -> Type { + ty!(llvm::LLVMRustMetadataTypeInContext(cx.llcx)) } - pub fn i1(ccx: &CodegenCx) -> Type { - ty!(llvm::LLVMInt1TypeInContext(ccx.llcx)) + pub fn i1(cx: &CodegenCx) -> Type { + ty!(llvm::LLVMInt1TypeInContext(cx.llcx)) } - pub fn i8(ccx: &CodegenCx) -> Type { - ty!(llvm::LLVMInt8TypeInContext(ccx.llcx)) + pub fn i8(cx: &CodegenCx) -> Type { + ty!(llvm::LLVMInt8TypeInContext(cx.llcx)) } pub fn i8_llcx(llcx: ContextRef) -> Type { ty!(llvm::LLVMInt8TypeInContext(llcx)) } - pub fn i16(ccx: &CodegenCx) -> Type { - ty!(llvm::LLVMInt16TypeInContext(ccx.llcx)) + pub fn i16(cx: &CodegenCx) -> Type { + ty!(llvm::LLVMInt16TypeInContext(cx.llcx)) } - pub fn i32(ccx: &CodegenCx) -> Type { - ty!(llvm::LLVMInt32TypeInContext(ccx.llcx)) + pub fn i32(cx: &CodegenCx) -> Type { + ty!(llvm::LLVMInt32TypeInContext(cx.llcx)) } - pub fn i64(ccx: &CodegenCx) -> Type { - ty!(llvm::LLVMInt64TypeInContext(ccx.llcx)) + pub fn i64(cx: &CodegenCx) -> Type { + ty!(llvm::LLVMInt64TypeInContext(cx.llcx)) } - pub fn i128(ccx: &CodegenCx) -> Type { - ty!(llvm::LLVMIntTypeInContext(ccx.llcx, 128)) + pub fn i128(cx: &CodegenCx) -> Type { + ty!(llvm::LLVMIntTypeInContext(cx.llcx, 128)) } // Creates an integer type with the given number of bits, e.g. i24 - pub fn ix(ccx: &CodegenCx, num_bits: u64) -> Type { - ty!(llvm::LLVMIntTypeInContext(ccx.llcx, num_bits as c_uint)) + pub fn ix(cx: &CodegenCx, num_bits: u64) -> Type { + ty!(llvm::LLVMIntTypeInContext(cx.llcx, num_bits as c_uint)) } - pub fn f32(ccx: &CodegenCx) -> Type { - ty!(llvm::LLVMFloatTypeInContext(ccx.llcx)) + pub fn f32(cx: &CodegenCx) -> Type { + ty!(llvm::LLVMFloatTypeInContext(cx.llcx)) } - pub fn f64(ccx: &CodegenCx) -> Type { - ty!(llvm::LLVMDoubleTypeInContext(ccx.llcx)) + pub fn f64(cx: &CodegenCx) -> Type { + ty!(llvm::LLVMDoubleTypeInContext(cx.llcx)) } - pub fn bool(ccx: &CodegenCx) -> Type { - Type::i8(ccx) + pub fn bool(cx: &CodegenCx) -> Type { + Type::i8(cx) } - pub fn char(ccx: &CodegenCx) -> Type { - Type::i32(ccx) + pub fn char(cx: &CodegenCx) -> Type { + Type::i32(cx) } - pub fn i8p(ccx: &CodegenCx) -> Type { - Type::i8(ccx).ptr_to() + pub fn i8p(cx: &CodegenCx) -> Type { + Type::i8(cx).ptr_to() } pub fn i8p_llcx(llcx: ContextRef) -> Type { Type::i8_llcx(llcx).ptr_to() } - pub fn isize(ccx: &CodegenCx) -> Type { - match &ccx.tcx.sess.target.target.target_pointer_width[..] { - "16" => Type::i16(ccx), - "32" => Type::i32(ccx), - "64" => Type::i64(ccx), + pub fn isize(cx: &CodegenCx) -> Type { + match &cx.tcx.sess.target.target.target_pointer_width[..] { + "16" => Type::i16(cx), + "32" => Type::i32(cx), + "64" => Type::i64(cx), tws => bug!("Unsupported target word size for int: {}", tws), } } - pub fn c_int(ccx: &CodegenCx) -> Type { - match &ccx.tcx.sess.target.target.target_c_int_width[..] { - "16" => Type::i16(ccx), - "32" => Type::i32(ccx), - "64" => Type::i64(ccx), + pub fn c_int(cx: &CodegenCx) -> Type { + match &cx.tcx.sess.target.target.target_c_int_width[..] { + "16" => Type::i16(cx), + "32" => Type::i32(cx), + "64" => Type::i64(cx), width => bug!("Unsupported target_c_int_width: {}", width), } } - pub fn int_from_ty(ccx: &CodegenCx, t: ast::IntTy) -> Type { + pub fn int_from_ty(cx: &CodegenCx, t: ast::IntTy) -> Type { match t { - ast::IntTy::Isize => ccx.isize_ty, - ast::IntTy::I8 => Type::i8(ccx), - ast::IntTy::I16 => Type::i16(ccx), - ast::IntTy::I32 => Type::i32(ccx), - ast::IntTy::I64 => Type::i64(ccx), - ast::IntTy::I128 => Type::i128(ccx), + ast::IntTy::Isize => cx.isize_ty, + ast::IntTy::I8 => Type::i8(cx), + ast::IntTy::I16 => Type::i16(cx), + ast::IntTy::I32 => Type::i32(cx), + ast::IntTy::I64 => Type::i64(cx), + ast::IntTy::I128 => Type::i128(cx), } } - pub fn uint_from_ty(ccx: &CodegenCx, t: ast::UintTy) -> Type { + pub fn uint_from_ty(cx: &CodegenCx, t: ast::UintTy) -> Type { match t { - ast::UintTy::Usize => ccx.isize_ty, - ast::UintTy::U8 => Type::i8(ccx), - ast::UintTy::U16 => Type::i16(ccx), - ast::UintTy::U32 => Type::i32(ccx), - ast::UintTy::U64 => Type::i64(ccx), - ast::UintTy::U128 => Type::i128(ccx), + ast::UintTy::Usize => cx.isize_ty, + ast::UintTy::U8 => Type::i8(cx), + ast::UintTy::U16 => Type::i16(cx), + ast::UintTy::U32 => Type::i32(cx), + ast::UintTy::U64 => Type::i64(cx), + ast::UintTy::U128 => Type::i128(cx), } } - pub fn float_from_ty(ccx: &CodegenCx, t: ast::FloatTy) -> Type { + pub fn float_from_ty(cx: &CodegenCx, t: ast::FloatTy) -> Type { match t { - ast::FloatTy::F32 => Type::f32(ccx), - ast::FloatTy::F64 => Type::f64(ccx), + ast::FloatTy::F32 => Type::f32(cx), + ast::FloatTy::F64 => Type::f64(cx), } } @@ -186,16 +186,16 @@ impl Type { args.len() as c_uint, True)) } - pub fn struct_(ccx: &CodegenCx, els: &[Type], packed: bool) -> Type { + pub fn struct_(cx: &CodegenCx, els: &[Type], packed: bool) -> Type { let els: &[TypeRef] = Type::to_ref_slice(els); - ty!(llvm::LLVMStructTypeInContext(ccx.llcx, els.as_ptr(), + ty!(llvm::LLVMStructTypeInContext(cx.llcx, els.as_ptr(), els.len() as c_uint, packed as Bool)) } - pub fn named_struct(ccx: &CodegenCx, name: &str) -> Type { + pub fn named_struct(cx: &CodegenCx, name: &str) -> Type { let name = CString::new(name).unwrap(); - ty!(llvm::LLVMStructCreateNamed(ccx.llcx, name.as_ptr())) + ty!(llvm::LLVMStructCreateNamed(cx.llcx, name.as_ptr())) } @@ -278,23 +278,23 @@ impl Type { /// Return a LLVM type that has at most the required alignment, /// as a conservative approximation for unknown pointee types. - pub fn pointee_for_abi_align(ccx: &CodegenCx, align: Align) -> Type { + pub fn pointee_for_abi_align(cx: &CodegenCx, align: Align) -> Type { // FIXME(eddyb) We could find a better approximation if ity.align < align. - let ity = layout::Integer::approximate_abi_align(ccx, align); - Type::from_integer(ccx, ity) + let ity = layout::Integer::approximate_abi_align(cx, align); + Type::from_integer(cx, ity) } /// Return a LLVM type that has at most the required alignment, /// and exactly the required size, as a best-effort padding array. - pub fn padding_filler(ccx: &CodegenCx, size: Size, align: Align) -> Type { - let unit = layout::Integer::approximate_abi_align(ccx, align); + pub fn padding_filler(cx: &CodegenCx, size: Size, align: Align) -> Type { + let unit = layout::Integer::approximate_abi_align(cx, align); let size = size.bytes(); let unit_size = unit.size().bytes(); assert_eq!(size % unit_size, 0); - Type::array(&Type::from_integer(ccx, unit), size / unit_size) + Type::array(&Type::from_integer(cx, unit), size / unit_size) } - pub fn x86_mmx(ccx: &CodegenCx) -> Type { - ty!(llvm::LLVMX86MMXTypeInContext(ccx.llcx)) + pub fn x86_mmx(cx: &CodegenCx) -> Type { + ty!(llvm::LLVMX86MMXTypeInContext(cx.llcx)) } } diff --git a/src/librustc_trans/type_of.rs b/src/librustc_trans/type_of.rs index 47c9f5661df..b1533cfad19 100644 --- a/src/librustc_trans/type_of.rs +++ b/src/librustc_trans/type_of.rs @@ -19,7 +19,7 @@ use type_::Type; use std::fmt::Write; -fn uncached_llvm_type<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, +fn uncached_llvm_type<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, layout: TyLayout<'tcx>, defer: &mut Option<(Type, TyLayout<'tcx>)>) -> Type { @@ -34,19 +34,19 @@ fn uncached_llvm_type<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, // one-element SIMD vectors, so it's assumed this won't clash with // much else. let use_x86_mmx = count == 1 && layout.size.bits() == 64 && - (ccx.sess().target.target.arch == "x86" || - ccx.sess().target.target.arch == "x86_64"); + (cx.sess().target.target.arch == "x86" || + cx.sess().target.target.arch == "x86_64"); if use_x86_mmx { - return Type::x86_mmx(ccx) + return Type::x86_mmx(cx) } else { - let element = layout.scalar_llvm_type_at(ccx, element, Size::from_bytes(0)); + let element = layout.scalar_llvm_type_at(cx, element, Size::from_bytes(0)); return Type::vector(&element, count); } } layout::Abi::ScalarPair(..) => { - return Type::struct_(ccx, &[ - layout.scalar_pair_element_llvm_type(ccx, 0), - layout.scalar_pair_element_llvm_type(ccx, 1), + return Type::struct_(cx, &[ + layout.scalar_pair_element_llvm_type(cx, 0), + layout.scalar_pair_element_llvm_type(cx, 1), ], false); } layout::Abi::Uninhabited | @@ -61,7 +61,7 @@ fn uncached_llvm_type<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, ty::TyForeign(..) | ty::TyStr => { let mut name = String::with_capacity(32); - let printer = DefPathBasedNames::new(ccx.tcx, true, true); + let printer = DefPathBasedNames::new(cx.tcx, true, true); printer.push_type_name(layout.ty, &mut name); match (&layout.ty.sty, &layout.variants) { (&ty::TyAdt(def, _), &layout::Variants::Single { index }) => { @@ -78,30 +78,30 @@ fn uncached_llvm_type<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, match layout.fields { layout::FieldPlacement::Union(_) => { - let fill = Type::padding_filler(ccx, layout.size, layout.align); + let fill = Type::padding_filler(cx, layout.size, layout.align); let packed = false; match name { None => { - Type::struct_(ccx, &[fill], packed) + Type::struct_(cx, &[fill], packed) } Some(ref name) => { - let mut llty = Type::named_struct(ccx, name); + let mut llty = Type::named_struct(cx, name); llty.set_struct_body(&[fill], packed); llty } } } layout::FieldPlacement::Array { count, .. } => { - Type::array(&layout.field(ccx, 0).llvm_type(ccx), count) + Type::array(&layout.field(cx, 0).llvm_type(cx), count) } layout::FieldPlacement::Arbitrary { .. } => { match name { None => { - let (llfields, packed) = struct_llfields(ccx, layout); - Type::struct_(ccx, &llfields, packed) + let (llfields, packed) = struct_llfields(cx, layout); + Type::struct_(cx, &llfields, packed) } Some(ref name) => { - let llty = Type::named_struct(ccx, name); + let llty = Type::named_struct(cx, name); *defer = Some((llty, layout)); llty } @@ -110,7 +110,7 @@ fn uncached_llvm_type<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, } } -fn struct_llfields<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, +fn struct_llfields<'a, 'tcx>(cx: &CodegenCx<'a, 'tcx>, layout: TyLayout<'tcx>) -> (Vec, bool) { debug!("struct_llfields: {:#?}", layout); @@ -121,7 +121,7 @@ fn struct_llfields<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, let mut prev_align = layout.align; let mut result: Vec = Vec::with_capacity(1 + field_count * 2); for i in layout.fields.index_by_increasing_offset() { - let field = layout.field(ccx, i); + let field = layout.field(cx, i); packed |= layout.align.abi() < field.align.abi(); let target_offset = layout.fields.offset(i as usize); @@ -131,10 +131,10 @@ fn struct_llfields<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, let padding = target_offset - offset; let padding_align = layout.align.min(prev_align).min(field.align); assert_eq!(offset.abi_align(padding_align) + padding, target_offset); - result.push(Type::padding_filler(ccx, padding, padding_align)); + result.push(Type::padding_filler(cx, padding, padding_align)); debug!(" padding before: {:?}", padding); - result.push(field.llvm_type(ccx)); + result.push(field.llvm_type(cx)); offset = target_offset + field.size; prev_align = field.align; } @@ -148,7 +148,7 @@ fn struct_llfields<'a, 'tcx>(ccx: &CodegenCx<'a, 'tcx>, assert_eq!(offset.abi_align(padding_align) + padding, layout.size); debug!("struct_llfields: pad_bytes: {:?} offset: {:?} stride: {:?}", padding, offset, layout.size); - result.push(Type::padding_filler(ccx, padding, padding_align)); + result.push(Type::padding_filler(cx, padding, padding_align)); assert!(result.len() == 1 + field_count * 2); } else { debug!("struct_llfields: offset: {:?} stride: {:?}", @@ -197,14 +197,14 @@ pub struct PointeeInfo { pub trait LayoutLlvmExt<'tcx> { fn is_llvm_immediate(&self) -> bool; fn is_llvm_scalar_pair<'a>(&self) -> bool; - fn llvm_type<'a>(&self, ccx: &CodegenCx<'a, 'tcx>) -> Type; - fn immediate_llvm_type<'a>(&self, ccx: &CodegenCx<'a, 'tcx>) -> Type; - fn scalar_llvm_type_at<'a>(&self, ccx: &CodegenCx<'a, 'tcx>, + fn llvm_type<'a>(&self, cx: &CodegenCx<'a, 'tcx>) -> Type; + fn immediate_llvm_type<'a>(&self, cx: &CodegenCx<'a, 'tcx>) -> Type; + fn scalar_llvm_type_at<'a>(&self, cx: &CodegenCx<'a, 'tcx>, scalar: &layout::Scalar, offset: Size) -> Type; - fn scalar_pair_element_llvm_type<'a>(&self, ccx: &CodegenCx<'a, 'tcx>, + fn scalar_pair_element_llvm_type<'a>(&self, cx: &CodegenCx<'a, 'tcx>, index: usize) -> Type; fn llvm_field_index(&self, index: usize) -> u64; - fn pointee_info_at<'a>(&self, ccx: &CodegenCx<'a, 'tcx>, offset: Size) + fn pointee_info_at<'a>(&self, cx: &CodegenCx<'a, 'tcx>, offset: Size) -> Option; } @@ -240,28 +240,28 @@ impl<'tcx> LayoutLlvmExt<'tcx> for TyLayout<'tcx> { /// with the inner-most trailing unsized field using the "minimal unit" /// of that field's type - this is useful for taking the address of /// that field and ensuring the struct has the right alignment. - fn llvm_type<'a>(&self, ccx: &CodegenCx<'a, 'tcx>) -> Type { + fn llvm_type<'a>(&self, cx: &CodegenCx<'a, 'tcx>) -> Type { if let layout::Abi::Scalar(ref scalar) = self.abi { // Use a different cache for scalars because pointers to DSTs // can be either fat or thin (data pointers of fat pointers). - if let Some(&llty) = ccx.scalar_lltypes.borrow().get(&self.ty) { + if let Some(&llty) = cx.scalar_lltypes.borrow().get(&self.ty) { return llty; } let llty = match self.ty.sty { ty::TyRef(_, ty::TypeAndMut { ty, .. }) | ty::TyRawPtr(ty::TypeAndMut { ty, .. }) => { - ccx.layout_of(ty).llvm_type(ccx).ptr_to() + cx.layout_of(ty).llvm_type(cx).ptr_to() } ty::TyAdt(def, _) if def.is_box() => { - ccx.layout_of(self.ty.boxed_ty()).llvm_type(ccx).ptr_to() + cx.layout_of(self.ty.boxed_ty()).llvm_type(cx).ptr_to() } ty::TyFnPtr(sig) => { - let sig = ccx.tcx.erase_late_bound_regions_and_normalize(&sig); - FnType::new(ccx, sig, &[]).llvm_type(ccx).ptr_to() + let sig = cx.tcx.erase_late_bound_regions_and_normalize(&sig); + FnType::new(cx, sig, &[]).llvm_type(cx).ptr_to() } - _ => self.scalar_llvm_type_at(ccx, scalar, Size::from_bytes(0)) + _ => self.scalar_llvm_type_at(cx, scalar, Size::from_bytes(0)) }; - ccx.scalar_lltypes.borrow_mut().insert(self.ty, llty); + cx.scalar_lltypes.borrow_mut().insert(self.ty, llty); return llty; } @@ -271,7 +271,7 @@ impl<'tcx> LayoutLlvmExt<'tcx> for TyLayout<'tcx> { layout::Variants::Single { index } => Some(index), _ => None }; - if let Some(&llty) = ccx.lltypes.borrow().get(&(self.ty, variant_index)) { + if let Some(&llty) = cx.lltypes.borrow().get(&(self.ty, variant_index)) { return llty; } @@ -281,69 +281,69 @@ impl<'tcx> LayoutLlvmExt<'tcx> for TyLayout<'tcx> { // Make sure lifetimes are erased, to avoid generating distinct LLVM // types for Rust types that only differ in the choice of lifetimes. - let normal_ty = ccx.tcx.erase_regions(&self.ty); + let normal_ty = cx.tcx.erase_regions(&self.ty); let mut defer = None; let llty = if self.ty != normal_ty { - let mut layout = ccx.layout_of(normal_ty); + let mut layout = cx.layout_of(normal_ty); if let Some(v) = variant_index { - layout = layout.for_variant(ccx, v); + layout = layout.for_variant(cx, v); } - layout.llvm_type(ccx) + layout.llvm_type(cx) } else { - uncached_llvm_type(ccx, *self, &mut defer) + uncached_llvm_type(cx, *self, &mut defer) }; debug!("--> mapped {:#?} to llty={:?}", self, llty); - ccx.lltypes.borrow_mut().insert((self.ty, variant_index), llty); + cx.lltypes.borrow_mut().insert((self.ty, variant_index), llty); if let Some((mut llty, layout)) = defer { - let (llfields, packed) = struct_llfields(ccx, layout); + let (llfields, packed) = struct_llfields(cx, layout); llty.set_struct_body(&llfields, packed) } llty } - fn immediate_llvm_type<'a>(&self, ccx: &CodegenCx<'a, 'tcx>) -> Type { + fn immediate_llvm_type<'a>(&self, cx: &CodegenCx<'a, 'tcx>) -> Type { if let layout::Abi::Scalar(ref scalar) = self.abi { if scalar.is_bool() { - return Type::i1(ccx); + return Type::i1(cx); } } - self.llvm_type(ccx) + self.llvm_type(cx) } - fn scalar_llvm_type_at<'a>(&self, ccx: &CodegenCx<'a, 'tcx>, + fn scalar_llvm_type_at<'a>(&self, cx: &CodegenCx<'a, 'tcx>, scalar: &layout::Scalar, offset: Size) -> Type { match scalar.value { - layout::Int(i, _) => Type::from_integer(ccx, i), - layout::F32 => Type::f32(ccx), - layout::F64 => Type::f64(ccx), + layout::Int(i, _) => Type::from_integer(cx, i), + layout::F32 => Type::f32(cx), + layout::F64 => Type::f64(cx), layout::Pointer => { // If we know the alignment, pick something better than i8. - let pointee = if let Some(pointee) = self.pointee_info_at(ccx, offset) { - Type::pointee_for_abi_align(ccx, pointee.align) + let pointee = if let Some(pointee) = self.pointee_info_at(cx, offset) { + Type::pointee_for_abi_align(cx, pointee.align) } else { - Type::i8(ccx) + Type::i8(cx) }; pointee.ptr_to() } } } - fn scalar_pair_element_llvm_type<'a>(&self, ccx: &CodegenCx<'a, 'tcx>, + fn scalar_pair_element_llvm_type<'a>(&self, cx: &CodegenCx<'a, 'tcx>, index: usize) -> Type { // HACK(eddyb) special-case fat pointers until LLVM removes // pointee types, to avoid bitcasting every `OperandRef::deref`. match self.ty.sty { ty::TyRef(..) | ty::TyRawPtr(_) => { - return self.field(ccx, index).llvm_type(ccx); + return self.field(cx, index).llvm_type(cx); } ty::TyAdt(def, _) if def.is_box() => { - let ptr_ty = ccx.tcx.mk_mut_ptr(self.ty.boxed_ty()); - return ccx.layout_of(ptr_ty).scalar_pair_element_llvm_type(ccx, index); + let ptr_ty = cx.tcx.mk_mut_ptr(self.ty.boxed_ty()); + return cx.layout_of(ptr_ty).scalar_pair_element_llvm_type(cx, index); } _ => {} } @@ -362,15 +362,15 @@ impl<'tcx> LayoutLlvmExt<'tcx> for TyLayout<'tcx> { // load/store `bool` as `i8` to avoid crippling LLVM optimizations, // `i1` in a LLVM aggregate is valid and mostly equivalent to `i8`. if scalar.is_bool() { - return Type::i1(ccx); + return Type::i1(cx); } let offset = if index == 0 { Size::from_bytes(0) } else { - a.value.size(ccx).abi_align(b.value.align(ccx)) + a.value.size(cx).abi_align(b.value.align(cx)) }; - self.scalar_llvm_type_at(ccx, scalar, offset) + self.scalar_llvm_type_at(cx, scalar, offset) } fn llvm_field_index(&self, index: usize) -> u64 { @@ -396,16 +396,16 @@ impl<'tcx> LayoutLlvmExt<'tcx> for TyLayout<'tcx> { } } - fn pointee_info_at<'a>(&self, ccx: &CodegenCx<'a, 'tcx>, offset: Size) + fn pointee_info_at<'a>(&self, cx: &CodegenCx<'a, 'tcx>, offset: Size) -> Option { - if let Some(&pointee) = ccx.pointee_infos.borrow().get(&(self.ty, offset)) { + if let Some(&pointee) = cx.pointee_infos.borrow().get(&(self.ty, offset)) { return pointee; } let mut result = None; match self.ty.sty { ty::TyRawPtr(mt) if offset.bytes() == 0 => { - let (size, align) = ccx.size_and_align_of(mt.ty); + let (size, align) = cx.size_and_align_of(mt.ty); result = Some(PointeeInfo { size, align, @@ -414,17 +414,17 @@ impl<'tcx> LayoutLlvmExt<'tcx> for TyLayout<'tcx> { } ty::TyRef(_, mt) if offset.bytes() == 0 => { - let (size, align) = ccx.size_and_align_of(mt.ty); + let (size, align) = cx.size_and_align_of(mt.ty); let kind = match mt.mutbl { - hir::MutImmutable => if ccx.type_is_freeze(mt.ty) { + hir::MutImmutable => if cx.type_is_freeze(mt.ty) { PointerKind::Frozen } else { PointerKind::Shared }, hir::MutMutable => { - if ccx.tcx.sess.opts.debugging_opts.mutable_noalias || - ccx.tcx.sess.panic_strategy() == PanicStrategy::Abort { + if cx.tcx.sess.opts.debugging_opts.mutable_noalias || + cx.tcx.sess.panic_strategy() == PanicStrategy::Abort { PointerKind::UniqueBorrowed } else { PointerKind::Shared @@ -454,7 +454,7 @@ impl<'tcx> LayoutLlvmExt<'tcx> for TyLayout<'tcx> { // niches than just null (e.g. the first page // of the address space, or unaligned pointers). if self.fields.offset(0) == offset { - Some(self.for_variant(ccx, dataful_variant)) + Some(self.for_variant(cx, dataful_variant)) } else { None } @@ -470,14 +470,14 @@ impl<'tcx> LayoutLlvmExt<'tcx> for TyLayout<'tcx> { } if let Some(variant) = data_variant { - let ptr_end = offset + layout::Pointer.size(ccx); + let ptr_end = offset + layout::Pointer.size(cx); for i in 0..variant.fields.count() { let field_start = variant.fields.offset(i); if field_start <= offset { - let field = variant.field(ccx, i); + let field = variant.field(cx, i); if ptr_end <= field_start + field.size { // We found the right field, look inside it. - result = field.pointee_info_at(ccx, offset - field_start); + result = field.pointee_info_at(cx, offset - field_start); break; } } @@ -495,7 +495,7 @@ impl<'tcx> LayoutLlvmExt<'tcx> for TyLayout<'tcx> { } } - ccx.pointee_infos.borrow_mut().insert((self.ty, offset), result); + cx.pointee_infos.borrow_mut().insert((self.ty, offset), result); result } }