2 #include <msp/core/maputils.h>
3 #include <msp/datafile/parser.h>
4 #include <msp/fs/dir.h>
5 #include <msp/fs/utils.h>
6 #include <msp/io/buffered.h>
7 #include <msp/io/file.h>
8 #include <msp/io/print.h>
9 #include <msp/strings/format.h>
10 #include <msp/time/units.h>
11 #include <msp/time/utils.h>
12 #include "androidtools.h"
13 #include "binarypackage.h"
15 #include "builtintools.h"
16 #include "clangtools.h"
19 #include "installedfile.h"
21 #include "sharedlibrary.h"
22 #include "sourcepackage.h"
24 #include "virtualtarget.h"
30 package_manager(*this),
31 native_arch(*this, string()),
36 logger(&default_logger),
40 set_architecture(string());
45 if(current_arch!=&native_arch)
49 void Builder::set_architecture(const string &name)
53 current_arch = &native_arch;
54 prefix = FS::get_home_dir()/"local";
58 current_arch = new Architecture(*this, name);
59 prefix = FS::get_home_dir()/"local"/current_arch->get_name();
63 void Builder::set_build_type(const string &name)
65 build_type = &get_item(build_types, name);
68 void Builder::set_prefix(const FS::Path &p)
73 void Builder::set_temp_directory(const FS::Path &p)
78 void Builder::add_default_tools()
80 bool use_clang = (current_arch->get_system()=="darwin" || current_arch->get_system()=="freebsd");
81 if(use_clang && vfs.find_binary("clang"))
82 toolchain.add_toolchain(new ClangTools(*this, *current_arch));
83 if(current_arch->get_system()=="android")
84 toolchain.add_toolchain(new AndroidTools(*this, *current_arch));
85 toolchain.add_toolchain(new GnuTools(*this, *current_arch));
86 toolchain.add_toolchain(new BuiltinTools(*this));
87 toolchain.add_tool(new DataTool(*this));
90 void Builder::set_logger(const Logger *l)
92 logger = (l ? l : &default_logger);
95 list<string> Builder::collect_problems() const
97 list<string> problems;
98 set<const Package *> broken_packages;
99 set<const Component *> broken_components;
100 set<const Tool *> broken_tools;
102 const BuildGraph::TargetMap &targets = build_graph.get_targets();
103 for(BuildGraph::TargetMap::const_iterator i=targets.begin(); i!=targets.end(); ++i)
104 if(i->second->is_broken())
106 const list<string> &tgt_problems = i->second->get_problems();
107 for(list<string>::const_iterator j=tgt_problems.begin(); j!=tgt_problems.end(); ++j)
108 problems.push_back(format("%s: %s", i->second->get_name(), *j));
110 const Package *package = i->second->get_package();
111 if(package && !package->get_problems().empty())
112 broken_packages.insert(package);
114 const Component *component = i->second->get_component();
115 if(component && !component->get_problems().empty())
116 broken_components.insert(component);
118 const Tool *tool = i->second->get_tool();
119 if(tool && !tool->get_problems().empty())
120 broken_tools.insert(tool);
123 // TODO Sort components after their packages, and targets last
124 for(set<const Package *>::const_iterator i=broken_packages.begin(); i!=broken_packages.end(); ++i)
126 const list<string> &pkg_problems = (*i)->get_problems();
127 for(list<string>::const_iterator j=pkg_problems.begin(); j!=pkg_problems.end(); ++j)
128 problems.push_back(format("%s: %s", (*i)->get_name(), *j));
131 for(set<const Component *>::const_iterator i=broken_components.begin(); i!=broken_components.end(); ++i)
133 const list<string> &comp_problems = (*i)->get_problems();
134 for(list<string>::const_iterator j=comp_problems.begin(); j!=comp_problems.end(); ++j)
135 problems.push_back(format("%s/%s: %s", (*i)->get_package().get_name(), (*i)->get_name(), *j));
138 for(set<const Tool *>::const_iterator i=broken_tools.begin(); i!=broken_tools.end(); ++i)
140 const list<string> &tool_problems = (*i)->get_problems();
141 for(list<string>::const_iterator j=tool_problems.begin(); j!=tool_problems.end(); ++j)
142 problems.push_back(format("%s: %s", (*i)->get_tag(), *j));
148 void Builder::load_build_file(const FS::Path &fn, const Config::InputOptions *opts, bool all)
150 IO::BufferedFile in(fn.str());
152 get_logger().log("files", format("Reading %s", fn));
154 DataFile::Parser parser(in, fn.str());
155 Loader loader(*this, opts, all);
159 int Builder::build(unsigned jobs, bool dry_run, bool show_progress)
161 unsigned total = build_graph.count_rebuild_targets();
165 get_logger().log("summary", "Already up to date");
168 get_logger().log("summary", format("Will build %d target%s", total, (total!=1 ? "s" : "")));
170 vector<Task *> tasks;
176 bool starved = false;
180 if(tasks.size()<jobs && !fail && !starved)
182 Target *tgt = build_graph.get_buildable_target();
186 get_logger().log("tasks", format("%-4s %s", tgt->get_tool()->get_tag(), tgt->get_name()));
187 Task *task = tgt->build();
190 get_logger().log("commands", format("%s", task->get_command()));
193 task->signal_finished.emit(true);
199 tasks.push_back(task);
204 IO::print("%d of %d target%s built\033[1G", count, total, (total!=1 ? "s" : ""));
206 else if(tasks.empty())
212 Time::sleep(10*Time::msec);
214 for(unsigned i=0; i<tasks.size();)
217 if(jobs==1 || (tasks.size()==1 && starved))
218 status = tasks[i]->wait();
220 status = tasks[i]->check();
222 if(status!=Task::RUNNING)
227 tasks.erase(tasks.begin()+i);
228 if(status==Task::ERROR)
230 if(tasks.empty() && fail)
242 get_logger().log("summary", "Build failed");
243 else if(show_progress)
244 get_logger().log("summary", "Build complete");
248 const PackageManager::PackageMap &packages = package_manager.get_packages();
249 for(PackageManager::PackageMap::const_iterator i=packages.begin(); i!=packages.end(); ++i)
250 i->second->save_caches();
256 int Builder::clean(bool all, bool dry_run)
258 // Cleaning doesn't care about ordering, so a simpler method can be used
260 set<Target *> clean_tgts;
261 list<Target *> queue;
262 queue.push_back(&build_graph.get_goals());
264 while(!queue.empty())
266 Target *tgt = queue.front();
269 if(tgt->is_buildable() && (tgt->get_package()==&package_manager.get_main_package() || all))
270 clean_tgts.insert(tgt);
272 const Target::Dependencies &deps = tgt->get_dependencies();
273 for(list<Target *>::const_iterator i=deps.begin(); i!=deps.end(); ++i)
274 if(!clean_tgts.count(*i))
278 for(set<Target *>::iterator i=clean_tgts.begin(); i!=clean_tgts.end(); ++i)
280 get_logger().log("tasks", format("RM %s", (*i)->get_name()));
289 Builder::Loader::Loader(Builder &b, const Config::InputOptions *o, bool a):
290 DataFile::ObjectLoader<Builder>(b),
294 add("architecture", &Loader::architecture);
295 add("binary_package", &Loader::binpkg);
296 add("build_type", &Loader::build_type);
297 add("package", &Loader::package);
300 obj.top_loader = this;
301 else if(!options && obj.top_loader!=this && obj.top_loader->conf_all)
302 options = obj.top_loader->options;
305 Builder::Loader::~Loader()
307 if(obj.top_loader==this)
311 void Builder::Loader::architecture(const string &n)
313 if(obj.current_arch->match_name(n))
314 load_sub(*obj.current_arch);
317 void Builder::Loader::binpkg(const string &n)
319 BinaryPackage *pkg = new BinaryPackage(obj, n);
323 void Builder::Loader::build_type(const string &n)
327 BuildTypeMap::iterator i = obj.build_types.insert(BuildTypeMap::value_type(n, btype)).first;
329 obj.build_type = &i->second;
332 void Builder::Loader::package(const string &n)
334 SourcePackage *pkg = new SourcePackage(obj, n, get_source());
337 load_sub(*pkg, *options);
342 pkg->set_build_type(*obj.build_type);