// Copyright 2012-2013 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 std::env; use std::fs::File; use std::io::BufReader; use std::io::prelude::*; use std::path::{Path, PathBuf}; use common::Config; use common; use util; pub struct TestProps { // Lines that should be expected, in order, on standard out pub error_patterns: Vec , // Extra flags to pass to the compiler pub compile_flags: Option, // Extra flags to pass when the compiled code is run (such as --bench) pub run_flags: Option, // If present, the name of a file that this test should match when // pretty-printed pub pp_exact: Option, // Modules from aux directory that should be compiled pub aux_builds: Vec , // Environment settings to use during execution pub exec_env: Vec<(String,String)> , // Lines to check if they appear in the expected debugger output pub check_lines: Vec , // Flag to force a crate to be built with the host architecture pub force_host: bool, // Check stdout for error-pattern output as well as stderr pub check_stdout: bool, // Don't force a --crate-type=dylib flag on the command line pub no_prefer_dynamic: bool, // Run --pretty expanded when running pretty printing tests pub pretty_expanded: bool, // Which pretty mode are we testing with, default to 'normal' pub pretty_mode: String, // Only compare pretty output and don't try compiling pub pretty_compare_only: bool, // Patterns which must not appear in the output of a cfail test. pub forbid_output: Vec, } // Load any test directives embedded in the file pub fn load_props(testfile: &Path) -> TestProps { let mut error_patterns = Vec::new(); let mut aux_builds = Vec::new(); let mut exec_env = Vec::new(); let mut compile_flags = None; let mut run_flags = None; let mut pp_exact = None; let mut check_lines = Vec::new(); let mut force_host = false; let mut check_stdout = false; let mut no_prefer_dynamic = false; let mut pretty_expanded = false; let mut pretty_mode = None; let mut pretty_compare_only = false; let mut forbid_output = Vec::new(); iter_header(testfile, &mut |ln| { match parse_error_pattern(ln) { Some(ep) => error_patterns.push(ep), None => () }; if compile_flags.is_none() { compile_flags = parse_compile_flags(ln); } if run_flags.is_none() { run_flags = parse_run_flags(ln); } if pp_exact.is_none() { pp_exact = parse_pp_exact(ln, testfile); } if !force_host { force_host = parse_force_host(ln); } if !check_stdout { check_stdout = parse_check_stdout(ln); } if !no_prefer_dynamic { no_prefer_dynamic = parse_no_prefer_dynamic(ln); } if !pretty_expanded { pretty_expanded = parse_pretty_expanded(ln); } if pretty_mode.is_none() { pretty_mode = parse_pretty_mode(ln); } if !pretty_compare_only { pretty_compare_only = parse_pretty_compare_only(ln); } match parse_aux_build(ln) { Some(ab) => { aux_builds.push(ab); } None => {} } match parse_exec_env(ln) { Some(ee) => { exec_env.push(ee); } None => {} } match parse_check_line(ln) { Some(cl) => check_lines.push(cl), None => () }; match parse_forbid_output(ln) { Some(of) => forbid_output.push(of), None => (), } true }); for key in vec!["RUST_TEST_NOCAPTURE", "RUST_TEST_THREADS"] { match env::var(key) { Ok(val) => if exec_env.iter().find(|&&(ref x, _)| *x == key.to_string()).is_none() { exec_env.push((key.to_string(), val)) }, Err(..) => {} } } TestProps { error_patterns: error_patterns, compile_flags: compile_flags, run_flags: run_flags, pp_exact: pp_exact, aux_builds: aux_builds, exec_env: exec_env, check_lines: check_lines, force_host: force_host, check_stdout: check_stdout, no_prefer_dynamic: no_prefer_dynamic, pretty_expanded: pretty_expanded, pretty_mode: pretty_mode.unwrap_or("normal".to_string()), pretty_compare_only: pretty_compare_only, forbid_output: forbid_output, } } pub fn is_test_ignored(config: &Config, testfile: &Path) -> bool { fn ignore_target(config: &Config) -> String { format!("ignore-{}", util::get_os(&config.target)) } fn ignore_architecture(config: &Config) -> String { format!("ignore-{}", util::get_arch(&config.target)) } fn ignore_stage(config: &Config) -> String { format!("ignore-{}", config.stage_id.split('-').next().unwrap()) } fn ignore_gdb(config: &Config, line: &str) -> bool { if config.mode != common::DebugInfoGdb { return false; } if parse_name_directive(line, "ignore-gdb") { return true; } match config.gdb_version { Some(ref actual_version) => { if line.contains("min-gdb-version") { let min_version = line.trim() .split(' ') .last() .expect("Malformed GDB version directive"); // Ignore if actual version is smaller the minimum required // version gdb_version_to_int(actual_version) < gdb_version_to_int(min_version) } else { false } } None => false } } fn ignore_lldb(config: &Config, line: &str) -> bool { if config.mode != common::DebugInfoLldb { return false; } if parse_name_directive(line, "ignore-lldb") { return true; } match config.lldb_version { Some(ref actual_version) => { if line.contains("min-lldb-version") { let min_version = line.trim() .split(' ') .last() .expect("Malformed lldb version directive"); // Ignore if actual version is smaller the minimum required // version lldb_version_to_int(actual_version) < lldb_version_to_int(min_version) } else { false } } None => false } } let val = iter_header(testfile, &mut |ln| { !parse_name_directive(ln, "ignore-test") && !parse_name_directive(ln, &ignore_target(config)) && !parse_name_directive(ln, &ignore_architecture(config)) && !parse_name_directive(ln, &ignore_stage(config)) && !(config.mode == common::Pretty && parse_name_directive(ln, "ignore-pretty")) && !(config.target != config.host && parse_name_directive(ln, "ignore-cross-compile")) && !ignore_gdb(config, ln) && !ignore_lldb(config, ln) }); !val } fn iter_header(testfile: &Path, it: &mut FnMut(&str) -> bool) -> bool { let rdr = BufReader::new(File::open(testfile).unwrap()); for ln in rdr.lines() { // Assume that any directives will be found before the first // module or function. This doesn't seem to be an optimization // with a warm page cache. Maybe with a cold one. let ln = ln.unwrap(); if ln.starts_with("fn") || ln.starts_with("mod") { return true; } else { if !(it(ln.trim())) { return false; } } } return true; } fn parse_error_pattern(line: &str) -> Option { parse_name_value_directive(line, "error-pattern") } fn parse_forbid_output(line: &str) -> Option { parse_name_value_directive(line, "forbid-output") } fn parse_aux_build(line: &str) -> Option { parse_name_value_directive(line, "aux-build") } fn parse_compile_flags(line: &str) -> Option { parse_name_value_directive(line, "compile-flags") } fn parse_run_flags(line: &str) -> Option { parse_name_value_directive(line, "run-flags") } fn parse_check_line(line: &str) -> Option { parse_name_value_directive(line, "check") } fn parse_force_host(line: &str) -> bool { parse_name_directive(line, "force-host") } fn parse_check_stdout(line: &str) -> bool { parse_name_directive(line, "check-stdout") } fn parse_no_prefer_dynamic(line: &str) -> bool { parse_name_directive(line, "no-prefer-dynamic") } fn parse_pretty_expanded(line: &str) -> bool { parse_name_directive(line, "pretty-expanded") } fn parse_pretty_mode(line: &str) -> Option { parse_name_value_directive(line, "pretty-mode") } fn parse_pretty_compare_only(line: &str) -> bool { parse_name_directive(line, "pretty-compare-only") } fn parse_exec_env(line: &str) -> Option<(String, String)> { parse_name_value_directive(line, "exec-env").map(|nv| { // nv is either FOO or FOO=BAR let mut strs: Vec = nv .splitn(1, '=') .map(|s| s.to_string()) .collect(); match strs.len() { 1 => (strs.pop().unwrap(), "".to_string()), 2 => { let end = strs.pop().unwrap(); (strs.pop().unwrap(), end) } n => panic!("Expected 1 or 2 strings, not {}", n) } }) } fn parse_pp_exact(line: &str, testfile: &Path) -> Option { match parse_name_value_directive(line, "pp-exact") { Some(s) => Some(PathBuf::from(&s)), None => { if parse_name_directive(line, "pp-exact") { testfile.file_name().map(|s| PathBuf::from(s)) } else { None } } } } fn parse_name_directive(line: &str, directive: &str) -> bool { // This 'no-' rule is a quick hack to allow pretty-expanded and no-pretty-expanded to coexist line.contains(directive) && !line.contains(&("no-".to_string() + directive)) } pub fn parse_name_value_directive(line: &str, directive: &str) -> Option { let keycolon = format!("{}:", directive); match line.find(&keycolon) { Some(colon) => { let value = line[(colon + keycolon.len()) .. line.len()].to_string(); debug!("{}: {}", directive, value); Some(value) } None => None } } pub fn gdb_version_to_int(version_string: &str) -> int { let error_string = format!( "Encountered GDB version string with unexpected format: {}", version_string); let error_string = error_string; let components: Vec<&str> = version_string.trim().split('.').collect(); if components.len() != 2 { panic!("{}", error_string); } let major: int = components[0].parse().ok().expect(&error_string); let minor: int = components[1].parse().ok().expect(&error_string); return major * 1000 + minor; } pub fn lldb_version_to_int(version_string: &str) -> int { let error_string = format!( "Encountered LLDB version string with unexpected format: {}", version_string); let error_string = error_string; let major: int = version_string.parse().ok().expect(&error_string); return major; }