// Copyright 2012 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. use syntax::{ast, codemap}; use syntax::ast::node_id; use codemap::span; use syntax::ast::{int_ty, uint_ty, float_ty}; use syntax::parse::parse_sess; use metadata::filesearch; use back::target_strs; use back::link; use middle::lint; enum os { os_win32, os_macos, os_linux, os_freebsd, } impl os : cmp::Eq { pure fn eq(&self, other: &os) -> bool { ((*self) as uint) == ((*other) as uint) } pure fn ne(&self, other: &os) -> bool { !(*self).eq(other) } } enum arch { arch_x86, arch_x86_64, arch_arm, } impl arch : cmp::Eq { pure fn eq(&self, other: &arch) -> bool { ((*self) as uint) == ((*other) as uint) } pure fn ne(&self, other: &arch) -> bool { !(*self).eq(other) } } enum crate_type { bin_crate, lib_crate, unknown_crate, } type config = {os: os, arch: arch, target_strs: target_strs::t, int_type: int_ty, uint_type: uint_ty, float_type: float_ty}; const verbose: uint = 1 << 0; const time_passes: uint = 1 << 1; const count_llvm_insns: uint = 1 << 2; const time_llvm_passes: uint = 1 << 3; const trans_stats: uint = 1 << 4; const no_asm_comments: uint = 1 << 5; const no_verify: uint = 1 << 6; const trace: uint = 1 << 7; const coherence: uint = 1 << 8; const borrowck_stats: uint = 1 << 9; const borrowck_note_pure: uint = 1 << 10; const borrowck_note_loan: uint = 1 << 11; const no_landing_pads: uint = 1 << 12; const debug_llvm: uint = 1 << 13; const count_type_sizes: uint = 1 << 14; const meta_stats: uint = 1 << 15; const no_opt: uint = 1 << 16; const no_monomorphic_collapse: uint = 1 << 17; fn debugging_opts_map() -> ~[(~str, ~str, uint)] { ~[(~"verbose", ~"in general, enable more debug printouts", verbose), (~"time-passes", ~"measure time of each rustc pass", time_passes), (~"count-llvm-insns", ~"count where LLVM \ instrs originate", count_llvm_insns), (~"time-llvm-passes", ~"measure time of each LLVM pass", time_llvm_passes), (~"trans-stats", ~"gather trans statistics", trans_stats), (~"no-asm-comments", ~"omit comments when using -S", no_asm_comments), (~"no-verify", ~"skip LLVM verification", no_verify), (~"trace", ~"emit trace logs", trace), (~"coherence", ~"perform coherence checking", coherence), (~"borrowck-stats", ~"gather borrowck statistics", borrowck_stats), (~"borrowck-note-pure", ~"note where purity is req'd", borrowck_note_pure), (~"borrowck-note-loan", ~"note where loans are req'd", borrowck_note_loan), (~"no-landing-pads", ~"omit landing pads for unwinding", no_landing_pads), (~"debug-llvm", ~"enable debug output from LLVM", debug_llvm), (~"count-type-sizes", ~"count the sizes of aggregate types", count_type_sizes), (~"meta-stats", ~"gather metadata statistics", meta_stats), (~"no-opt", ~"do not optimize, even if -O is passed", no_opt), (~"no-monomorphic-collapse", ~"do not collapse template instantiations", no_monomorphic_collapse), ] } enum OptLevel { No, // -O0 Less, // -O1 Default, // -O2 Aggressive // -O3 } impl OptLevel : cmp::Eq { pure fn eq(&self, other: &OptLevel) -> bool { ((*self) as uint) == ((*other) as uint) } pure fn ne(&self, other: &OptLevel) -> bool { !(*self).eq(other) } } type options = // The crate config requested for the session, which may be combined // with additional crate configurations during the compile process {crate_type: crate_type, static: bool, gc: bool, optimize: OptLevel, debuginfo: bool, extra_debuginfo: bool, lint_opts: ~[(lint::lint, lint::level)], save_temps: bool, jit: bool, output_type: back::link::output_type, addl_lib_search_paths: ~[Path], maybe_sysroot: Option, target_triple: ~str, // User-specified cfg meta items. The compiler itself will add additional // items to the crate config, and during parsing the entire crate config // will be added to the crate AST node. This should not be used for // anything except building the full crate config prior to parsing. cfg: ast::crate_cfg, binary: ~str, test: bool, parse_only: bool, no_trans: bool, debugging_opts: uint, }; type crate_metadata = {name: ~str, data: ~[u8]}; type Session_ = {targ_cfg: @config, opts: @options, cstore: metadata::cstore::CStore, parse_sess: parse_sess, codemap: @codemap::CodeMap, // For a library crate, this is always none mut main_fn: Option<(node_id, codemap::span)>, span_diagnostic: diagnostic::span_handler, filesearch: filesearch::FileSearch, mut building_library: bool, working_dir: Path, lint_settings: lint::lint_settings}; enum Session { Session_(@Session_) } impl Session { fn span_fatal(sp: span, msg: ~str) -> ! { self.span_diagnostic.span_fatal(sp, msg) } fn fatal(msg: ~str) -> ! { self.span_diagnostic.handler().fatal(msg) } fn span_err(sp: span, msg: ~str) { self.span_diagnostic.span_err(sp, msg) } fn err(msg: ~str) { self.span_diagnostic.handler().err(msg) } fn has_errors() -> bool { self.span_diagnostic.handler().has_errors() } fn abort_if_errors() { self.span_diagnostic.handler().abort_if_errors() } fn span_warn(sp: span, msg: ~str) { self.span_diagnostic.span_warn(sp, msg) } fn warn(msg: ~str) { self.span_diagnostic.handler().warn(msg) } fn span_note(sp: span, msg: ~str) { self.span_diagnostic.span_note(sp, msg) } fn note(msg: ~str) { self.span_diagnostic.handler().note(msg) } fn span_bug(sp: span, msg: ~str) -> ! { self.span_diagnostic.span_bug(sp, msg) } fn bug(msg: ~str) -> ! { self.span_diagnostic.handler().bug(msg) } fn span_unimpl(sp: span, msg: ~str) -> ! { self.span_diagnostic.span_unimpl(sp, msg) } fn unimpl(msg: ~str) -> ! { self.span_diagnostic.handler().unimpl(msg) } fn span_lint_level(level: lint::level, sp: span, msg: ~str) { match level { lint::allow => { }, lint::warn => self.span_warn(sp, msg), lint::deny | lint::forbid => { self.span_err(sp, msg); } } } fn span_lint(lint_mode: lint::lint, expr_id: ast::node_id, item_id: ast::node_id, span: span, msg: ~str) { let level = lint::get_lint_settings_level( self.lint_settings, lint_mode, expr_id, item_id); self.span_lint_level(level, span, msg); } fn next_node_id() -> ast::node_id { return syntax::parse::next_node_id(self.parse_sess); } fn diagnostic() -> diagnostic::span_handler { self.span_diagnostic } fn debugging_opt(opt: uint) -> bool { (self.opts.debugging_opts & opt) != 0u } // This exists to help with refactoring to eliminate impossible // cases later on fn impossible_case(sp: span, msg: &str) -> ! { self.span_bug(sp, fmt!("Impossible case reached: %s", msg)); } fn verbose() -> bool { self.debugging_opt(verbose) } fn time_passes() -> bool { self.debugging_opt(time_passes) } fn count_llvm_insns() -> bool { self.debugging_opt(count_llvm_insns) } fn count_type_sizes() -> bool { self.debugging_opt(count_type_sizes) } fn time_llvm_passes() -> bool { self.debugging_opt(time_llvm_passes) } fn trans_stats() -> bool { self.debugging_opt(trans_stats) } fn meta_stats() -> bool { self.debugging_opt(meta_stats) } fn no_asm_comments() -> bool { self.debugging_opt(no_asm_comments) } fn no_verify() -> bool { self.debugging_opt(no_verify) } fn trace() -> bool { self.debugging_opt(trace) } fn coherence() -> bool { self.debugging_opt(coherence) } fn borrowck_stats() -> bool { self.debugging_opt(borrowck_stats) } fn borrowck_note_pure() -> bool { self.debugging_opt(borrowck_note_pure) } fn borrowck_note_loan() -> bool { self.debugging_opt(borrowck_note_loan) } fn no_monomorphic_collapse() -> bool { self.debugging_opt(no_monomorphic_collapse) } fn str_of(id: ast::ident) -> ~str { *self.parse_sess.interner.get(id) } fn ident_of(st: ~str) -> ast::ident { self.parse_sess.interner.intern(@st) } fn intr() -> @syntax::parse::token::ident_interner { self.parse_sess.interner } } /// Some reasonable defaults fn basic_options() -> @options { @{ crate_type: session::lib_crate, static: false, gc: false, optimize: No, debuginfo: false, extra_debuginfo: false, lint_opts: ~[], save_temps: false, jit: false, output_type: link::output_type_exe, addl_lib_search_paths: ~[], maybe_sysroot: None, target_triple: driver::host_triple(), cfg: ~[], binary: ~"rustc", test: false, parse_only: false, no_trans: false, debugging_opts: 0u } } // Seems out of place, but it uses session, so I'm putting it here fn expect(sess: Session, opt: Option, msg: fn() -> ~str) -> T { diagnostic::expect(sess.diagnostic(), opt, msg) } fn building_library(req_crate_type: crate_type, crate: @ast::crate, testing: bool) -> bool { match req_crate_type { bin_crate => false, lib_crate => true, unknown_crate => { if testing { false } else { match syntax::attr::first_attr_value_str_by_name( crate.node.attrs, ~"crate_type") { option::Some(~"lib") => true, _ => false } } } } } fn sess_os_to_meta_os(os: os) -> metadata::loader::os { use metadata::loader; match os { os_win32 => loader::os_win32, os_linux => loader::os_linux, os_macos => loader::os_macos, os_freebsd => loader::os_freebsd } } #[cfg(test)] mod test { #[legacy_exports]; use syntax::ast_util; fn make_crate_type_attr(t: ~str) -> ast::attribute { ast_util::respan(ast_util::dummy_sp(), { style: ast::attr_outer, value: ast_util::respan(ast_util::dummy_sp(), ast::meta_name_value( ~"crate_type", ast_util::respan(ast_util::dummy_sp(), ast::lit_str(@t)))), is_sugared_doc: false }) } fn make_crate(with_bin: bool, with_lib: bool) -> @ast::crate { let mut attrs = ~[]; if with_bin { attrs += ~[make_crate_type_attr(~"bin")]; } if with_lib { attrs += ~[make_crate_type_attr(~"lib")]; } @ast_util::respan(ast_util::dummy_sp(), { module: {view_items: ~[], items: ~[]}, attrs: attrs, config: ~[] }) } #[test] fn bin_crate_type_attr_results_in_bin_output() { let crate = make_crate(true, false); assert !building_library(unknown_crate, crate, false); } #[test] fn lib_crate_type_attr_results_in_lib_output() { let crate = make_crate(false, true); assert building_library(unknown_crate, crate, false); } #[test] fn bin_option_overrides_lib_crate_type() { let crate = make_crate(false, true); assert !building_library(bin_crate, crate, false); } #[test] fn lib_option_overrides_bin_crate_type() { let crate = make_crate(true, false); assert building_library(lib_crate, crate, false); } #[test] fn bin_crate_type_is_default() { let crate = make_crate(false, false); assert !building_library(unknown_crate, crate, false); } #[test] fn test_option_overrides_lib_crate_type() { let crate = make_crate(false, true); assert !building_library(unknown_crate, crate, true); } #[test] fn test_option_does_not_override_requested_lib_type() { let crate = make_crate(false, false); assert building_library(lib_crate, crate, true); } } // Local Variables: // fill-column: 78; // indent-tabs-mode: nil // c-basic-offset: 4 // buffer-file-coding-system: utf-8-unix // End: