#include "GCodeWriter.hpp"
#include <algorithm>
#include <iomanip>
#include <iostream>
#include <map>
#include <assert.h>

#define FLAVOR_IS(val) this->config.gcode_flavor == val
#define FLAVOR_IS_NOT(val) this->config.gcode_flavor != val
#define COMMENT(comment) if (this->config.gcode_comments && !comment.empty()) gcode << " ; " << comment;
#define PRECISION(val, precision) std::fixed << std::setprecision(precision) << val
#define XYZF_NUM(val) PRECISION(val, 3)
#define E_NUM(val) PRECISION(val, 5)

namespace Slic3r {

void GCodeWriter::apply_print_config(const PrintConfig &print_config)
{
    this->config.apply(print_config, true);
    m_extrusion_axis = this->config.get_extrusion_axis();
    this->m_single_extruder_multi_material = print_config.single_extruder_multi_material.value;
}

void GCodeWriter::set_extruders(const std::vector<unsigned int> &extruder_ids)
{
    m_extruders.clear();
    m_extruders.reserve(extruder_ids.size());
    for (unsigned int extruder_id : extruder_ids)
        m_extruders.emplace_back(Extruder(extruder_id, &this->config));
    
    /*  we enable support for multiple extruder if any extruder greater than 0 is used
        (even if prints only uses that one) since we need to output Tx commands
        first extruder has index 0 */
    this->multiple_extruders = (*std::max_element(extruder_ids.begin(), extruder_ids.end())) > 0;
}

std::string GCodeWriter::preamble()
{
    std::ostringstream gcode;
    
    if (FLAVOR_IS_NOT(gcfMakerWare)) {
        gcode << "G21 ; set units to millimeters\n";
        gcode << "G90 ; use absolute coordinates\n";
    }
    if (FLAVOR_IS(gcfRepRap) || FLAVOR_IS(gcfMarlin) || FLAVOR_IS(gcfTeacup) || FLAVOR_IS(gcfRepetier) || FLAVOR_IS(gcfSmoothie)) {
        if (this->config.use_relative_e_distances) {
            gcode << "M83 ; use relative distances for extrusion\n";
        } else {
            gcode << "M82 ; use absolute distances for extrusion\n";
        }
        gcode << this->reset_e(true);
    }
    
    return gcode.str();
}

std::string GCodeWriter::postamble() const
{
    std::ostringstream gcode;
    if (FLAVOR_IS(gcfMachinekit))
          gcode << "M2 ; end of program\n";
    return gcode.str();
}

std::string GCodeWriter::set_temperature(unsigned int temperature, bool wait, int tool) const
{
    if (wait && (FLAVOR_IS(gcfMakerWare) || FLAVOR_IS(gcfSailfish)))
        return "";
    
    std::string code, comment;
    if (wait && FLAVOR_IS_NOT(gcfTeacup)) {
        code = "M109";
        comment = "set temperature and wait for it to be reached";
    } else {
        code = "M104";
        comment = "set temperature";
    }
    
    std::ostringstream gcode;
    gcode << code << " ";
    if (FLAVOR_IS(gcfMach3) || FLAVOR_IS(gcfMachinekit)) {
        gcode << "P";
    } else {
        gcode << "S";
    }
    gcode << temperature;
    if (tool != -1 && 
        ( (this->multiple_extruders && ! this->m_single_extruder_multi_material) ||
          FLAVOR_IS(gcfMakerWare) || FLAVOR_IS(gcfSailfish)) ) {
        gcode << " T" << tool;
    }
    gcode << " ; " << comment << "\n";
    
    if (FLAVOR_IS(gcfTeacup) && wait)
        gcode << "M116 ; wait for temperature to be reached\n";
    
    return gcode.str();
}

std::string GCodeWriter::set_bed_temperature(unsigned int temperature, bool wait)
{
    if (temperature == m_last_bed_temperature && (! wait || m_last_bed_temperature_reached))
        return std::string();

    m_last_bed_temperature = temperature;
    m_last_bed_temperature_reached = wait;

    std::string code, comment;
    if (wait && FLAVOR_IS_NOT(gcfTeacup)) {
        if (FLAVOR_IS(gcfMakerWare) || FLAVOR_IS(gcfSailfish)) {
            code = "M109";
        } else {
            code = "M190";
        }
        comment = "set bed temperature and wait for it to be reached";
    } else {
        code = "M140";
        comment = "set bed temperature";
    }
    
    std::ostringstream gcode;
    gcode << code << " ";
    if (FLAVOR_IS(gcfMach3) || FLAVOR_IS(gcfMachinekit)) {
        gcode << "P";
    } else {
        gcode << "S";
    }
    gcode << temperature << " ; " << comment << "\n";
    
    if (FLAVOR_IS(gcfTeacup) && wait)
        gcode << "M116 ; wait for bed temperature to be reached\n";
    
    return gcode.str();
}

std::string GCodeWriter::set_fan(unsigned int speed, bool dont_save)
{
    std::ostringstream gcode;
    if (m_last_fan_speed != speed || dont_save) {
        if (!dont_save) m_last_fan_speed = speed;
        
        if (speed == 0) {
            if (FLAVOR_IS(gcfTeacup)) {
                gcode << "M106 S0";
            } else if (FLAVOR_IS(gcfMakerWare) || FLAVOR_IS(gcfSailfish)) {
                gcode << "M127";
            } else {
                gcode << "M107";
            }
            if (this->config.gcode_comments) gcode << " ; disable fan";
            gcode << "\n";
        } else {
            if (FLAVOR_IS(gcfMakerWare) || FLAVOR_IS(gcfSailfish)) {
                gcode << "M126";
            } else {
                gcode << "M106 ";
                if (FLAVOR_IS(gcfMach3) || FLAVOR_IS(gcfMachinekit)) {
                    gcode << "P";
                } else {
                    gcode << "S";
                }
                gcode << (255.0 * speed / 100.0);
            }
            if (this->config.gcode_comments) gcode << " ; enable fan";
            gcode << "\n";
        }
    }
    return gcode.str();
}

std::string GCodeWriter::set_acceleration(unsigned int acceleration)
{
    if (acceleration == 0 || acceleration == m_last_acceleration)
        return std::string();
    
    m_last_acceleration = acceleration;
    
    std::ostringstream gcode;
    if (FLAVOR_IS(gcfRepetier)) {
        // M201: Set max printing acceleration
        gcode << "M201 X" << acceleration << " Y" << acceleration;
        if (this->config.gcode_comments) gcode << " ; adjust acceleration";
        gcode << "\n";
        // M202: Set max travel acceleration
        gcode << "M202 X" << acceleration << " Y" << acceleration;
    } else {
        // M204: Set default acceleration
        gcode << "M204 S" << acceleration;
    }
    if (this->config.gcode_comments) gcode << " ; adjust acceleration";
    gcode << "\n";
    
    return gcode.str();
}

std::string GCodeWriter::reset_e(bool force)
{
    if (FLAVOR_IS(gcfMach3)
        || FLAVOR_IS(gcfMakerWare)
        || FLAVOR_IS(gcfSailfish))
        return "";
    
    if (m_extruder != nullptr) {
        if (m_extruder->E() == 0. && ! force)
            return "";
        m_extruder->reset_E();
    }

    if (! m_extrusion_axis.empty() && ! this->config.use_relative_e_distances) {
        std::ostringstream gcode;
        gcode << "G92 " << m_extrusion_axis << "0";
        if (this->config.gcode_comments) gcode << " ; reset extrusion distance";
        gcode << "\n";
        return gcode.str();
    } else {
        return "";
    }
}

std::string GCodeWriter::update_progress(unsigned int num, unsigned int tot, bool allow_100) const
{
    if (FLAVOR_IS_NOT(gcfMakerWare) && FLAVOR_IS_NOT(gcfSailfish))
        return "";
    
    unsigned int percent = (unsigned int)floor(100.0 * num / tot + 0.5);
    if (!allow_100) percent = std::min(percent, (unsigned int)99);
    
    std::ostringstream gcode;
    gcode << "M73 P" << percent;
    if (this->config.gcode_comments) gcode << " ; update progress";
    gcode << "\n";
    return gcode.str();
}

std::string GCodeWriter::toolchange_prefix() const
{
    return FLAVOR_IS(gcfMakerWare) ? "M135 T" :
           FLAVOR_IS(gcfSailfish)  ? "M108 T" : "T";
}

std::string GCodeWriter::toolchange(unsigned int extruder_id)
{
    // set the new extruder
    auto it_extruder = std::lower_bound(m_extruders.begin(), m_extruders.end(), Extruder::key(extruder_id));
    assert(it_extruder != m_extruders.end());
    m_extruder = const_cast<Extruder*>(&*it_extruder);

    // return the toolchange command
    // if we are running a single-extruder setup, just set the extruder and return nothing
    std::ostringstream gcode;
    if (this->multiple_extruders) {
        gcode << this->toolchange_prefix() << extruder_id;
        if (this->config.gcode_comments)
            gcode << " ; change extruder";
        gcode << "\n";
        gcode << this->reset_e(true);
    }
    return gcode.str();
}

std::string GCodeWriter::set_speed(double F, const std::string &comment, const std::string &cooling_marker) const
{
    assert(F > 0.);
    assert(F < 100000.);
    std::ostringstream gcode;
    gcode << "G1 F" << F;
    COMMENT(comment);
    gcode << cooling_marker;
    gcode << "\n";
    return gcode.str();
}

std::string GCodeWriter::travel_to_xy(const Pointf &point, const std::string &comment)
{
    m_pos.x = point.x;
    m_pos.y = point.y;
    
    std::ostringstream gcode;
    gcode << "G1 X" << XYZF_NUM(point.x)
          <<   " Y" << XYZF_NUM(point.y)
          <<   " F" << XYZF_NUM(this->config.travel_speed.value * 60.0);
    COMMENT(comment);
    gcode << "\n";
    return gcode.str();
}

std::string GCodeWriter::travel_to_xyz(const Pointf3 &point, const std::string &comment)
{
    /*  If target Z is lower than current Z but higher than nominal Z we
        don't perform the Z move but we only move in the XY plane and
        adjust the nominal Z by reducing the lift amount that will be 
        used for unlift. */
    if (!this->will_move_z(point.z)) {
        double nominal_z = m_pos.z - m_lifted;
        m_lifted = m_lifted - (point.z - nominal_z);
        return this->travel_to_xy(point);
    }
    
    /*  In all the other cases, we perform an actual XYZ move and cancel
        the lift. */
    m_lifted = 0;
    m_pos = point;
    
    std::ostringstream gcode;
    gcode << "G1 X" << XYZF_NUM(point.x)
          <<   " Y" << XYZF_NUM(point.y)
          <<   " Z" << XYZF_NUM(point.z)
          <<   " F" << XYZF_NUM(this->config.travel_speed.value * 60.0);
    COMMENT(comment);
    gcode << "\n";
    return gcode.str();
}

std::string GCodeWriter::travel_to_z(double z, const std::string &comment)
{
    /*  If target Z is lower than current Z but higher than nominal Z
        we don't perform the move but we only adjust the nominal Z by
        reducing the lift amount that will be used for unlift. */
    if (!this->will_move_z(z)) {
        double nominal_z = m_pos.z - m_lifted;
        m_lifted = m_lifted - (z - nominal_z);
        return "";
    }
    
    /*  In all the other cases, we perform an actual Z move and cancel
        the lift. */
    m_lifted = 0;
    return this->_travel_to_z(z, comment);
}

std::string GCodeWriter::_travel_to_z(double z, const std::string &comment)
{
    m_pos.z = z;
    
    std::ostringstream gcode;
    gcode << "G1 Z" << XYZF_NUM(z)
          <<   " F" << XYZF_NUM(this->config.travel_speed.value * 60.0);
    COMMENT(comment);
    gcode << "\n";
    return gcode.str();
}

bool GCodeWriter::will_move_z(double z) const
{
    /* If target Z is lower than current Z but higher than nominal Z
        we don't perform an actual Z move. */
    if (m_lifted > 0) {
        double nominal_z = m_pos.z - m_lifted;
        if (z >= nominal_z && z <= m_pos.z)
            return false;
    }
    return true;
}

std::string GCodeWriter::extrude_to_xy(const Pointf &point, double dE, const std::string &comment)
{
    m_pos.x = point.x;
    m_pos.y = point.y;
    m_extruder->extrude(dE);
    
    std::ostringstream gcode;
    gcode << "G1 X" << XYZF_NUM(point.x)
          <<   " Y" << XYZF_NUM(point.y)
          <<    " " << m_extrusion_axis << E_NUM(m_extruder->E());
    COMMENT(comment);
    gcode << "\n";
    return gcode.str();
}

std::string GCodeWriter::extrude_to_xyz(const Pointf3 &point, double dE, const std::string &comment)
{
    m_pos = point;
    m_lifted = 0;
    m_extruder->extrude(dE);
    
    std::ostringstream gcode;
    gcode << "G1 X" << XYZF_NUM(point.x)
          <<   " Y" << XYZF_NUM(point.y)
          <<   " Z" << XYZF_NUM(point.z)
          <<    " " << m_extrusion_axis << E_NUM(m_extruder->E());
    COMMENT(comment);
    gcode << "\n";
    return gcode.str();
}

std::string GCodeWriter::retract(bool before_wipe)
{
    double factor = before_wipe ? m_extruder->retract_before_wipe() : 1.;
    assert(factor >= 0. && factor <= 1. + EPSILON);
    return this->_retract(
        factor * m_extruder->retract_length(),
        factor * m_extruder->retract_restart_extra(),
        "retract"
    );
}

std::string GCodeWriter::retract_for_toolchange(bool before_wipe)
{
    double factor = before_wipe ? m_extruder->retract_before_wipe() : 1.;
    assert(factor >= 0. && factor <= 1. + EPSILON);
    return this->_retract(
        factor * m_extruder->retract_length_toolchange(),
        factor * m_extruder->retract_restart_extra_toolchange(),
        "retract for toolchange"
    );
}

std::string GCodeWriter::_retract(double length, double restart_extra, const std::string &comment)
{
    std::ostringstream gcode;
    
    /*  If firmware retraction is enabled, we use a fake value of 1
        since we ignore the actual configured retract_length which 
        might be 0, in which case the retraction logic gets skipped. */
    if (this->config.use_firmware_retraction) length = 1;
    
    // If we use volumetric E values we turn lengths into volumes */
    if (this->config.use_volumetric_e) {
        double d = m_extruder->filament_diameter();
        double area = d * d * PI/4;
        length = length * area;
        restart_extra = restart_extra * area;
    }
    
    double dE = m_extruder->retract(length, restart_extra);
    if (dE != 0) {
        if (this->config.use_firmware_retraction) {
            if (FLAVOR_IS(gcfMachinekit))
                gcode << "G22 ; retract\n";
            else
                gcode << "G10 ; retract\n";
        } else {
            gcode << "G1 " << m_extrusion_axis << E_NUM(m_extruder->E())
                           << " F" << float(m_extruder->retract_speed() * 60.);
            COMMENT(comment);
            gcode << "\n";
        }
    }
    
    if (FLAVOR_IS(gcfMakerWare))
        gcode << "M103 ; extruder off\n";
    
    return gcode.str();
}

std::string GCodeWriter::unretract()
{
    std::ostringstream gcode;
    
    if (FLAVOR_IS(gcfMakerWare))
        gcode << "M101 ; extruder on\n";
    
    double dE = m_extruder->unretract();
    if (dE != 0) {
        if (this->config.use_firmware_retraction) {
            if (FLAVOR_IS(gcfMachinekit))
                 gcode << "G23 ; unretract\n";
            else
                 gcode << "G11 ; unretract\n";
            gcode << this->reset_e();
        } else {
            // use G1 instead of G0 because G0 will blend the restart with the previous travel move
            gcode << "G1 " << m_extrusion_axis << E_NUM(m_extruder->E())
                           << " F" << float(m_extruder->deretract_speed() * 60.);
            if (this->config.gcode_comments) gcode << " ; unretract";
            gcode << "\n";
        }
    }
    
    return gcode.str();
}

/*  If this method is called more than once before calling unlift(),
    it will not perform subsequent lifts, even if Z was raised manually
    (i.e. with travel_to_z()) and thus _lifted was reduced. */
std::string GCodeWriter::lift()
{
    // check whether the above/below conditions are met
    double target_lift = 0;
    {
        double above = this->config.retract_lift_above.get_at(m_extruder->id());
        double below = this->config.retract_lift_below.get_at(m_extruder->id());
        if (m_pos.z >= above && (below == 0 || m_pos.z <= below))
            target_lift = this->config.retract_lift.get_at(m_extruder->id());
    }
    if (m_lifted == 0 && target_lift > 0) {
        m_lifted = target_lift;
        return this->_travel_to_z(m_pos.z + target_lift, "lift Z");
    }
    return "";
}

std::string GCodeWriter::unlift()
{
    std::string gcode;
    if (m_lifted > 0) {
        gcode += this->_travel_to_z(m_pos.z - m_lifted, "restore layer Z");
        m_lifted = 0;
    }
    return gcode;
}

}