d2e9912aea
I removed the `static-method-test.rs` test because it was heavily based on `BaseIter` and there are plenty of other more complex uses of static methods anyway.
430 lines
13 KiB
Rust
430 lines
13 KiB
Rust
// Copyright 2012-2013 The Rust Project Developers. See the COPYRIGHT
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// file at the top-level directory of this distribution and at
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// http://rust-lang.org/COPYRIGHT.
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//
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// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
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// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
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// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
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// option. This file may not be copied, modified, or distributed
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// except according to those terms.
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#[allow(missing_doc)];
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use core::prelude::*;
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use json;
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use sha1;
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use serialize::{Encoder, Encodable, Decoder, Decodable};
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use sort;
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use core::cell::Cell;
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use core::cmp;
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use core::comm::{PortOne, oneshot, send_one, recv_one};
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use core::either::{Either, Left, Right};
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use core::hashmap::HashMap;
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use core::io;
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use core::result;
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use core::run;
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use core::task;
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use core::to_bytes;
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use core::util::replace;
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/**
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*
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* This is a loose clone of the [fbuild build system](https://github.com/felix-lang/fbuild),
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* made a touch more generic (not wired to special cases on files) and much
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* less metaprogram-y due to rust's comparative weakness there, relative to
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* python.
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*
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* It's based around _imperative builds_ that happen to have some function
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* calls cached. That is, it's _just_ a mechanism for describing cached
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* functions. This makes it much simpler and smaller than a "build system"
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* that produces an IR and evaluates it. The evaluation order is normal
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* function calls. Some of them just return really quickly.
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*
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* A cached function consumes and produces a set of _works_. A work has a
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* name, a kind (that determines how the value is to be checked for
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* freshness) and a value. Works must also be (de)serializable. Some
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* examples of works:
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*
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* kind name value
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* ------------------------
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* cfg os linux
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* file foo.c <sha1>
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* url foo.com <etag>
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*
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* Works are conceptually single units, but we store them most of the time
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* in maps of the form (type,name) => value. These are WorkMaps.
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*
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* A cached function divides the works it's interested in into inputs and
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* outputs, and subdivides those into declared (input) works and
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* discovered (input and output) works.
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*
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* A _declared_ input or is one that is given to the workcache before
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* any work actually happens, in the "prep" phase. Even when a function's
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* work-doing part (the "exec" phase) never gets called, it has declared
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* inputs, which can be checked for freshness (and potentially
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* used to determine that the function can be skipped).
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*
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* The workcache checks _all_ works for freshness, but uses the set of
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* discovered outputs from the _previous_ exec (which it will re-discover
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* and re-record each time the exec phase runs).
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*
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* Therefore the discovered works cached in the db might be a
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* mis-approximation of the current discoverable works, but this is ok for
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* the following reason: we assume that if an artifact A changed from
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* depending on B,C,D to depending on B,C,D,E, then A itself changed (as
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* part of the change-in-dependencies), so we will be ok.
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*
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* Each function has a single discriminated output work called its _result_.
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* This is only different from other works in that it is returned, by value,
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* from a call to the cacheable function; the other output works are used in
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* passing to invalidate dependencies elsewhere in the cache, but do not
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* otherwise escape from a function invocation. Most functions only have one
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* output work anyways.
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*
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* A database (the central store of a workcache) stores a mappings:
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*
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* (fn_name,{declared_input}) => ({discovered_input},
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* {discovered_output},result)
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*
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* (Note: fbuild, which workcache is based on, has the concept of a declared
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* output as separate from a discovered output. This distinction exists only
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* as an artifact of how fbuild works: via annotations on function types
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* and metaprogramming, with explicit dependency declaration as a fallback.
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* Workcache is more explicit about dependencies, and as such treats all
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* outputs the same, as discovered-during-the-last-run.)
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*
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*/
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#[deriving(Eq, Encodable, Decodable)]
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struct WorkKey {
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kind: ~str,
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name: ~str
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}
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impl to_bytes::IterBytes for WorkKey {
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#[inline]
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fn iter_bytes(&self, lsb0: bool, f: to_bytes::Cb) -> bool {
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self.kind.iter_bytes(lsb0, f) && self.name.iter_bytes(lsb0, f)
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}
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}
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impl cmp::Ord for WorkKey {
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fn lt(&self, other: &WorkKey) -> bool {
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self.kind < other.kind ||
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(self.kind == other.kind &&
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self.name < other.name)
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}
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fn le(&self, other: &WorkKey) -> bool {
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self.lt(other) || self.eq(other)
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}
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fn ge(&self, other: &WorkKey) -> bool {
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self.gt(other) || self.eq(other)
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}
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fn gt(&self, other: &WorkKey) -> bool {
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! self.le(other)
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}
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}
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impl WorkKey {
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pub fn new(kind: &str, name: &str) -> WorkKey {
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WorkKey {
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kind: kind.to_owned(),
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name: name.to_owned(),
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}
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}
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}
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struct WorkMap(HashMap<WorkKey, ~str>);
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impl WorkMap {
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fn new() -> WorkMap { WorkMap(HashMap::new()) }
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}
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impl<S:Encoder> Encodable<S> for WorkMap {
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fn encode(&self, s: &mut S) {
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let mut d = ~[];
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for self.each |k, v| {
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d.push((copy *k, copy *v))
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}
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sort::tim_sort(d);
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d.encode(s)
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}
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}
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impl<D:Decoder> Decodable<D> for WorkMap {
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fn decode(d: &mut D) -> WorkMap {
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let v : ~[(WorkKey,~str)] = Decodable::decode(d);
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let mut w = WorkMap::new();
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for v.iter().advance |&(k, v)| {
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w.insert(copy k, copy v);
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}
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w
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}
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}
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struct Database {
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db_filename: Path,
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db_cache: HashMap<~str, ~str>,
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db_dirty: bool
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}
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impl Database {
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pub fn prepare(&mut self,
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fn_name: &str,
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declared_inputs: &WorkMap)
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-> Option<(WorkMap, WorkMap, ~str)> {
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let k = json_encode(&(fn_name, declared_inputs));
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match self.db_cache.find(&k) {
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None => None,
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Some(v) => Some(json_decode(*v))
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}
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}
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pub fn cache(&mut self,
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fn_name: &str,
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declared_inputs: &WorkMap,
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discovered_inputs: &WorkMap,
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discovered_outputs: &WorkMap,
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result: &str) {
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let k = json_encode(&(fn_name, declared_inputs));
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let v = json_encode(&(discovered_inputs,
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discovered_outputs,
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result));
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self.db_cache.insert(k,v);
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self.db_dirty = true
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}
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}
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struct Logger {
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// FIXME #4432: Fill in
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a: ()
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}
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impl Logger {
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pub fn info(&self, i: &str) {
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io::println(~"workcache: " + i);
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}
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}
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struct Context {
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db: @mut Database,
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logger: @mut Logger,
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cfg: @json::Object,
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freshness: HashMap<~str,@fn(&str,&str)->bool>
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}
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struct Prep {
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ctxt: @Context,
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fn_name: ~str,
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declared_inputs: WorkMap,
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}
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struct Exec {
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discovered_inputs: WorkMap,
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discovered_outputs: WorkMap
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}
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struct Work<T> {
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prep: @mut Prep,
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res: Option<Either<T,PortOne<(Exec,T)>>>
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}
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fn json_encode<T:Encodable<json::Encoder>>(t: &T) -> ~str {
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do io::with_str_writer |wr| {
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let mut encoder = json::Encoder(wr);
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t.encode(&mut encoder);
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}
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}
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// FIXME(#5121)
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fn json_decode<T:Decodable<json::Decoder>>(s: &str) -> T {
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do io::with_str_reader(s) |rdr| {
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let j = result::unwrap(json::from_reader(rdr));
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let mut decoder = json::Decoder(j);
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Decodable::decode(&mut decoder)
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}
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}
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fn digest<T:Encodable<json::Encoder>>(t: &T) -> ~str {
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let mut sha = sha1::sha1();
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sha.input_str(json_encode(t));
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sha.result_str()
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}
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fn digest_file(path: &Path) -> ~str {
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let mut sha = sha1::sha1();
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let s = io::read_whole_file_str(path);
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sha.input_str(*s.get_ref());
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sha.result_str()
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}
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impl Context {
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pub fn new(db: @mut Database, lg: @mut Logger, cfg: @json::Object)
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-> Context {
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Context {
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db: db,
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logger: lg,
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cfg: cfg,
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freshness: HashMap::new()
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}
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}
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pub fn prep<T:Owned +
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Encodable<json::Encoder> +
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Decodable<json::Decoder>>(@self, // FIXME(#5121)
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fn_name:&str,
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blk: &fn(@mut Prep)->Work<T>)
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-> Work<T> {
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let p = @mut Prep {
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ctxt: self,
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fn_name: fn_name.to_owned(),
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declared_inputs: WorkMap::new()
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};
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blk(p)
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}
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}
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trait TPrep {
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fn declare_input(&mut self, kind:&str, name:&str, val:&str);
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fn is_fresh(&self, cat:&str, kind:&str, name:&str, val:&str) -> bool;
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fn all_fresh(&self, cat:&str, map:&WorkMap) -> bool;
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fn exec<T:Owned +
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Encodable<json::Encoder> +
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Decodable<json::Decoder>>( // FIXME(#5121)
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&self, blk: ~fn(&Exec) -> T) -> Work<T>;
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}
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impl TPrep for Prep {
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fn declare_input(&mut self, kind:&str, name:&str, val:&str) {
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self.declared_inputs.insert(WorkKey::new(kind, name),
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val.to_owned());
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}
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fn is_fresh(&self, cat: &str, kind: &str,
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name: &str, val: &str) -> bool {
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let k = kind.to_owned();
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let f = (*self.ctxt.freshness.get(&k))(name, val);
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let lg = self.ctxt.logger;
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if f {
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lg.info(fmt!("%s %s:%s is fresh",
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cat, kind, name));
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} else {
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lg.info(fmt!("%s %s:%s is not fresh",
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cat, kind, name))
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}
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f
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}
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fn all_fresh(&self, cat: &str, map: &WorkMap) -> bool {
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for map.each |k, v| {
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if ! self.is_fresh(cat, k.kind, k.name, *v) {
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return false;
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}
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}
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return true;
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}
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fn exec<T:Owned +
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Encodable<json::Encoder> +
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Decodable<json::Decoder>>( // FIXME(#5121)
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&self, blk: ~fn(&Exec) -> T) -> Work<T> {
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let mut bo = Some(blk);
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let cached = self.ctxt.db.prepare(self.fn_name, &self.declared_inputs);
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match cached {
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Some((ref disc_in, ref disc_out, ref res))
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if self.all_fresh("declared input",
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&self.declared_inputs) &&
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self.all_fresh("discovered input", disc_in) &&
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self.all_fresh("discovered output", disc_out) => {
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Work::new(@mut copy *self, Left(json_decode(*res)))
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}
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_ => {
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let (port, chan) = oneshot();
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let blk = replace(&mut bo, None).unwrap();
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let chan = Cell::new(chan);
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do task::spawn {
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let exe = Exec {
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discovered_inputs: WorkMap::new(),
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discovered_outputs: WorkMap::new(),
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};
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let chan = chan.take();
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let v = blk(&exe);
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send_one(chan, (exe, v));
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}
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Work::new(@mut copy *self, Right(port))
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}
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}
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}
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}
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impl<T:Owned +
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Encodable<json::Encoder> +
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Decodable<json::Decoder>> Work<T> { // FIXME(#5121)
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pub fn new(p: @mut Prep, e: Either<T,PortOne<(Exec,T)>>) -> Work<T> {
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Work { prep: p, res: Some(e) }
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}
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}
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// FIXME (#3724): movable self. This should be in impl Work.
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fn unwrap<T:Owned +
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Encodable<json::Encoder> +
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Decodable<json::Decoder>>( // FIXME(#5121)
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w: Work<T>) -> T {
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let mut ww = w;
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let s = replace(&mut ww.res, None);
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match s {
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None => fail!(),
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Some(Left(v)) => v,
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Some(Right(port)) => {
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let (exe, v) = recv_one(port);
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let s = json_encode(&v);
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let p = &*ww.prep;
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let db = p.ctxt.db;
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db.cache(p.fn_name,
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&p.declared_inputs,
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&exe.discovered_inputs,
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&exe.discovered_outputs,
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s);
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v
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}
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}
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}
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//#[test]
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fn test() {
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use core::io::WriterUtil;
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let db = @mut Database { db_filename: Path("db.json"),
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db_cache: HashMap::new(),
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db_dirty: false };
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let lg = @mut Logger { a: () };
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let cfg = @HashMap::new();
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let cx = @Context::new(db, lg, cfg);
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let w:Work<~str> = do cx.prep("test1") |prep| {
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let pth = Path("foo.c");
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{
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let file = io::file_writer(&pth, [io::Create]).get();
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file.write_str("int main() { return 0; }");
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}
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prep.declare_input("file", pth.to_str(), digest_file(&pth));
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do prep.exec |_exe| {
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let out = Path("foo.o");
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run::process_status("gcc", [~"foo.c", ~"-o", out.to_str()]);
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out.to_str()
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}
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};
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let s = unwrap(w);
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io::println(s);
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}
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