// 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 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.

use core::prelude::*;

use common;
use common::config;

use core::io::ReaderUtil;
use core::io;
use core::os;
use core::str;

pub struct TestProps {
    // Lines that should be expected, in order, on standard out
    error_patterns: ~[~str],
    // Extra flags to pass to the compiler
    compile_flags: Option<~str>,
    // If present, the name of a file that this test should match when
    // pretty-printed
    pp_exact: Option<Path>,
    // Modules from aux directory that should be compiled
    aux_builds: ~[~str],
    // Environment settings to use during execution
    exec_env: ~[(~str,~str)],
    // Commands to be given to the debugger, when testing debug info
    debugger_cmds: ~[~str],
    // Lines to check if they appear in the expected debugger output
    check_lines: ~[~str],
}

// Load any test directives embedded in the file
pub fn load_props(testfile: &Path) -> TestProps {
    let mut error_patterns = ~[];
    let mut aux_builds = ~[];
    let mut exec_env = ~[];
    let mut compile_flags = None;
    let mut pp_exact = None;
    let mut debugger_cmds = ~[];
    let mut check_lines = ~[];
    for iter_header(testfile) |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 pp_exact.is_none() {
            pp_exact = parse_pp_exact(ln, testfile);
        }

        for parse_aux_build(ln).each |ab| {
            aux_builds.push(*ab);
        }

        for parse_exec_env(ln).each |ee| {
            exec_env.push(*ee);
        }

        match parse_debugger_cmd(ln) {
            Some(dc) => debugger_cmds.push(dc),
            None => ()
        };

        match parse_check_line(ln) {
            Some(cl) => check_lines.push(cl),
            None => ()
        };
    };
    return TestProps {
        error_patterns: error_patterns,
        compile_flags: compile_flags,
        pp_exact: pp_exact,
        aux_builds: aux_builds,
        exec_env: exec_env,
        debugger_cmds: debugger_cmds,
        check_lines: check_lines
    };
}

pub fn is_test_ignored(config: config, testfile: &Path) -> bool {
    let mut found = false;
    for iter_header(testfile) |ln| {
        if parse_name_directive(ln, ~"xfail-test") { return true; }
        if parse_name_directive(ln, xfail_target()) { return true; }
        if config.mode == common::mode_pretty &&
           parse_name_directive(ln, ~"xfail-pretty") { return true; }
    };
    return found;

    fn xfail_target() -> ~str {
        ~"xfail-" + str::from_slice(os::SYSNAME)
    }
}

fn iter_header(testfile: &Path, it: &fn(~str) -> bool) -> bool {
    let rdr = io::file_reader(testfile).get();
    while !rdr.eof() {
        let ln = rdr.read_line();

        // 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.
        if str::starts_with(ln, ~"fn")
            || str::starts_with(ln, ~"mod") {
            return false;
        } else { if !(it(ln)) { return false; } }
    }
    return true;
}

fn parse_error_pattern(line: ~str) -> Option<~str> {
    parse_name_value_directive(line, ~"error-pattern")
}

fn parse_aux_build(line: ~str) -> Option<~str> {
    parse_name_value_directive(line, ~"aux-build")
}

fn parse_compile_flags(line: ~str) -> Option<~str> {
    parse_name_value_directive(line, ~"compile-flags")
}

fn parse_debugger_cmd(line: ~str) -> Option<~str> {
    parse_name_value_directive(line, ~"debugger")
}

fn parse_check_line(line: ~str) -> Option<~str> {
    parse_name_value_directive(line, ~"check")
}

fn parse_exec_env(line: ~str) -> Option<(~str, ~str)> {
    do parse_name_value_directive(line, ~"exec-env").map |nv| {
        // nv is either FOO or FOO=BAR
        let mut strs = ~[];
        for str::each_splitn_char(*nv, '=', 1u) |s| { strs.push(s.to_owned()); }
        match strs.len() {
          1u => (strs[0], ~""),
          2u => (strs[0], strs[1]),
          n => fail!(fmt!("Expected 1 or 2 strings, not %u", n))
        }
    }
}

fn parse_pp_exact(line: ~str, testfile: &Path) -> Option<Path> {
    match parse_name_value_directive(line, ~"pp-exact") {
      Some(s) => Some(Path(s)),
      None => {
        if parse_name_directive(line, ~"pp-exact") {
            Some(testfile.file_path())
        } else {
            None
        }
      }
    }
}

fn parse_name_directive(line: ~str, directive: ~str) -> bool {
    str::contains(line, directive)
}

fn parse_name_value_directive(line: ~str,
                              directive: ~str) -> Option<~str> {
    unsafe {
        let keycolon = directive + ~":";
        match str::find_str(line, keycolon) {
            Some(colon) => {
                let value = str::slice(line, colon + str::len(keycolon),
                                       str::len(line)).to_owned();
                debug!("%s: %s", directive,  value);
                Some(value)
            }
            None => None
        }
    }
}