[builder.git] / source / lib / target.cpp

#include <msp/core/algorithm.h>
#include <msp/fs/stat.h>
#include <msp/fs/utils.h>
#include "builder.h"
#include "filetarget.h"
#include "sourcepackage.h"
#include "target.h"
#include "task.h"
#include "tool.h"

using namespace std;
using namespace Msp;

Target::Target(Builder &b, const string &n):
        builder(b),
        name(n)
{
        builder.get_build_graph().add_target(this);
}

void Target::add_dependency(Target &dep)
{
        if(&dep==this)
                throw invalid_argument("Target::add_depend");
        depends.push_back(&dep);
        if(state>PREPARING)
                dep.signal_bubble_rebuild.connect(sigc::mem_fun(this, &Target::check_rebuild));
}

void Target::add_transitive_dependency(Target &dep)
{
        if(&dep==this)
                throw invalid_argument("Target::add_transitive_dependency");
        trans_depends.push_back(&dep);
}

void Target::add_side_effect(Target &se)
{
        side_effects.push_back(&se);
        if(tool)
                se.set_tool(*tool);
        se.primary_target = this;
        /* Side effects are checked for rebuild after the primary target.  Recheck
        the primary if a side effect is marked for rebuild. */
        se.signal_bubble_rebuild.connect(sigc::mem_fun(this, &Target::check_rebuild));
}

Target *Target::get_buildable_target()
{
        if(primary_target)
                return primary_target->get_buildable_target();
        if(!needs_rebuild())
                return 0;

        bool self_ok = state!=BUILDING;
        for(Target *d: depends)
        {
                // Avoid infinite recursion if a target depends on its own side effect
                if(any_equals(side_effects, d))
                        continue;

                Target *tgt = d->get_buildable_target();
                if(tgt)
                        return tgt;
                else if(d->needs_rebuild())
                        self_ok = false;
        }

        if(self_ok)
                return this;

        return 0;
}

void Target::set_tool(Tool &t)
{
        tool = &t;
        for(Target *s: side_effects)
                s->set_tool(t);
}

void Target::collect_build_info(BuildInfo &binfo) const
{
        if(tool)
                binfo.update_from(tool->get_build_info());
        if(component)
                binfo.update_from(component->get_build_info());
        else if(package)
                binfo.update_from(package->get_build_info());
}

void Target::force_rebuild()
{
        if(!is_buildable())
                throw logic_error("Target::force_rebuild");
        mark_rebuild("Forced rebuild");
}

void Target::mark_rebuild(const string &reason)
{
        if(reason.empty())
                throw invalid_argument("No reason given for rebuilding "+name);

        state = REBUILD;
        rebuild_reason = reason;

        builder.get_logger().log("rebuild", "Rebuilding %s: %s", name, reason);

        signal_bubble_rebuild.emit();
}

void Target::prepare()
{
        if(state>PREPARING)
                return;
        if(state==PREPARING)
        {
                builder.get_logger().log("problems", "Dependency cycle detected at %s", name);
                problems.push_back("Dependency cycle detected");
                state = BROKEN;
                return;
        }

        state = PREPARING;
        if(primary_target)
                primary_target->prepare();
        /* Prepare existing dependencies early, because their information may be
        needed to find other dependencies. */
        for(Target *d: depends)
                d->prepare();
        if(tool)
                tool->prepare();

        find_dependencies();
        bool broken = !problems.empty();

        if(tool)
        {
                if(FileTarget *tool_exe = tool->get_executable())
                        add_dependency(*tool_exe);
                broken |= tool->is_broken();

                // Only check package and component brokenness for buildable targets
                broken |= (package && package->is_broken());
                broken |= (component && component->is_broken());
        }

        /* Now that all dependencies are known, prepare them again.  This will do
        nothing to already prepared targets. */
        for(Target *d: depends)
        {
                d->prepare();
                broken |= d->is_broken();
        }
        for(Target *d: trans_depends)
                d->prepare();

        check_rebuild();
        if(broken)
                state = BROKEN;
        else if(state==PREPARING)
                state = UPTODATE;

        for(Target *d: depends)
                d->signal_bubble_rebuild.connect(sigc::mem_fun(this, &Target::check_rebuild));
}

Task *Target::build()
{
        if(primary_target)
                return primary_target->build();

        Task *task = tool->run(*this);
        task->signal_finished.connect(sigc::mem_fun(this, &Target::build_finished));
        state = BUILDING;

        build(*task);
        for(Target *s: side_effects)
                s->build(*task);

        return task;
}

void Target::build_finished(bool success)
{
        state = UPTODATE;
        if(success)
        {
                modified();
                for(Target *s: side_effects)
                        s->build_finished(success);
                signal_modified.emit();
        }
}