Don't format!() string literals
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ljedrz
parent
4f1e235744
commit
421b2ba347
42 changed files with 168 additions and 172 deletions
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@ -108,37 +108,37 @@ pub struct DecodedBytecode<'a> {
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impl<'a> DecodedBytecode<'a> {
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pub fn new(data: &'a [u8]) -> Result<DecodedBytecode<'a>, String> {
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if !data.starts_with(RLIB_BYTECODE_OBJECT_MAGIC) {
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return Err(format!("magic bytecode prefix not found"))
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return Err("magic bytecode prefix not found".to_string())
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}
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let data = &data[RLIB_BYTECODE_OBJECT_MAGIC.len()..];
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if !data.starts_with(&[RLIB_BYTECODE_OBJECT_VERSION, 0, 0, 0]) {
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return Err(format!("wrong version prefix found in bytecode"))
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return Err("wrong version prefix found in bytecode".to_string())
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}
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let data = &data[4..];
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if data.len() < 4 {
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return Err(format!("bytecode corrupted"))
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return Err("bytecode corrupted".to_string())
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}
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let identifier_len = unsafe {
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u32::from_le(ptr::read_unaligned(data.as_ptr() as *const u32)) as usize
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};
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let data = &data[4..];
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if data.len() < identifier_len {
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return Err(format!("bytecode corrupted"))
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return Err("bytecode corrupted".to_string())
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}
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let identifier = match str::from_utf8(&data[..identifier_len]) {
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Ok(s) => s,
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Err(_) => return Err(format!("bytecode corrupted"))
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Err(_) => return Err("bytecode corrupted".to_string())
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};
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let data = &data[identifier_len..];
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if data.len() < 8 {
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return Err(format!("bytecode corrupted"))
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return Err("bytecode corrupted".to_string())
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}
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let bytecode_len = unsafe {
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u64::from_le(ptr::read_unaligned(data.as_ptr() as *const u64)) as usize
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};
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let data = &data[8..];
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if data.len() < bytecode_len {
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return Err(format!("bytecode corrupted"))
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return Err("bytecode corrupted".to_string())
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}
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let encoded_bytecode = &data[..bytecode_len];
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@ -260,14 +260,14 @@ pub(crate) fn each_linked_rlib(sess: &Session,
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.or_else(|| fmts.get(&config::CrateTypeProcMacro));
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let fmts = match fmts {
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Some(f) => f,
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None => return Err(format!("could not find formats for rlibs"))
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None => return Err("could not find formats for rlibs".to_string())
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};
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for &(cnum, ref path) in crates {
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match fmts.get(cnum.as_usize() - 1) {
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Some(&Linkage::NotLinked) |
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Some(&Linkage::IncludedFromDylib) => continue,
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Some(_) => {}
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None => return Err(format!("could not find formats for rlibs"))
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None => return Err("could not find formats for rlibs".to_string())
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}
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let name = &info.crate_name[&cnum];
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let path = match *path {
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@ -206,7 +206,7 @@ impl<'a> GccLinker<'a> {
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match self.sess.opts.cg.lto {
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config::Lto::Thin |
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config::Lto::ThinLocal => {
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self.linker_arg(&format!("-plugin-opt=thin"));
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self.linker_arg("-plugin-opt=thin");
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}
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config::Lto::Fat |
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config::Lto::Yes |
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@ -421,7 +421,7 @@ fn thin_lto(diag_handler: &Handler,
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symbol_white_list.len() as u32,
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);
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if data.is_null() {
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let msg = format!("failed to prepare thin LTO context");
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let msg = "failed to prepare thin LTO context".to_string();
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return Err(write::llvm_err(&diag_handler, msg))
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}
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let data = ThinData(data);
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@ -647,7 +647,7 @@ impl ThinModule {
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self.shared.module_names[self.idx].as_ptr(),
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);
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if llmod.is_null() {
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let msg = format!("failed to parse bitcode for thin LTO module");
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let msg = "failed to parse bitcode for thin LTO module".to_string();
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return Err(write::llvm_err(&diag_handler, msg));
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}
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let module = ModuleCodegen {
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@ -670,7 +670,7 @@ impl ThinModule {
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let mut cu2 = ptr::null_mut();
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llvm::LLVMRustThinLTOGetDICompileUnit(llmod, &mut cu1, &mut cu2);
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if !cu2.is_null() {
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let msg = format!("multiple source DICompileUnits found");
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let msg = "multiple source DICompileUnits found".to_string();
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return Err(write::llvm_err(&diag_handler, msg))
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}
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@ -691,25 +691,25 @@ impl ThinModule {
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// You can find some more comments about these functions in the LLVM
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// bindings we've got (currently `PassWrapper.cpp`)
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if !llvm::LLVMRustPrepareThinLTORename(self.shared.data.0, llmod) {
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let msg = format!("failed to prepare thin LTO module");
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let msg = "failed to prepare thin LTO module".to_string();
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return Err(write::llvm_err(&diag_handler, msg))
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}
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cgcx.save_temp_bitcode(&module, "thin-lto-after-rename");
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timeline.record("rename");
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if !llvm::LLVMRustPrepareThinLTOResolveWeak(self.shared.data.0, llmod) {
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let msg = format!("failed to prepare thin LTO module");
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let msg = "failed to prepare thin LTO module".to_string();
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return Err(write::llvm_err(&diag_handler, msg))
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}
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cgcx.save_temp_bitcode(&module, "thin-lto-after-resolve");
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timeline.record("resolve");
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if !llvm::LLVMRustPrepareThinLTOInternalize(self.shared.data.0, llmod) {
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let msg = format!("failed to prepare thin LTO module");
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let msg = "failed to prepare thin LTO module".to_string();
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return Err(write::llvm_err(&diag_handler, msg))
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}
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cgcx.save_temp_bitcode(&module, "thin-lto-after-internalize");
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timeline.record("internalize");
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if !llvm::LLVMRustPrepareThinLTOImport(self.shared.data.0, llmod) {
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let msg = format!("failed to prepare thin LTO module");
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let msg = "failed to prepare thin LTO module".to_string();
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return Err(write::llvm_err(&diag_handler, msg))
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}
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cgcx.save_temp_bitcode(&module, "thin-lto-after-import");
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