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reprapfirmware-dc42/Tool.cpp
David Crocker c56fc2aeb0 Version 0.78t 
Bug fix: M92 command would only set extruder steps/mm if either 1 or 5
extruder steps/mm was provided
Bug fix: Z-homing or bed probing when axis compensation was enabled
caused the X and Y origins to shift
We now mark drives as not homed when we disable them
File info code now supports gcode files generated by Simplify3D
Updated SD card files to latest web interface
Added more comments to config.g
Head movement commands that were in the tfree files have been moved to
the tpre files, to work better when G10 nozzle offsets are used
2014-09-26 19:13:51 +01:00

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6.9 KiB
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/****************************************************************************************************
RepRapFirmware - Tool
This class implements a tool in the RepRap machine, usually (though not necessarily) an extruder.
Tools may have zero or more drives associated with them and zero or more heaters. There are a fixed number
of tools in a given RepRap, with fixed heaters and drives. All this is specified on reboot, and cannot
be altered dynamically. This restriction may be lifted in the future. Tool descriptions are stored in
GCode macros that are loaded on reboot.
-----------------------------------------------------------------------------------------------------
Version 0.1
Created on: Apr 11, 2014
Adrian Bowyer
RepRap Professional Ltd
http://reprappro.com
Licence: GPL
****************************************************************************************************/
#include "RepRapFirmware.h"
Tool::Tool(int toolNumber, long d[], int dCount, long h[], int hCount)
{
myNumber = toolNumber;
next = NULL;
active = false;
driveCount = dCount;
heaterCount = hCount;
heaterFault = false;
mixing = false;
for(size_t i = 0; i < AXES; ++i)
{
offset[i] = 0.0;
}
if(driveCount > 0)
{
if(driveCount > DRIVES - AXES)
{
reprap.GetPlatform()->Message(BOTH_ERROR_MESSAGE, "Tool creation: attempt to use more drives than there are in the RepRap...");
driveCount = 0;
heaterCount = 0;
return;
}
drives = new int[driveCount];
mix = new float[driveCount];
float r = 1.0/(float)driveCount;
for(int8_t drive = 0; drive < driveCount; drive++)
{
drives[drive] = d[drive];
mix[drive] = r;
}
}
if(heaterCount > 0)
{
if(heaterCount > HEATERS)
{
reprap.GetPlatform()->Message(BOTH_ERROR_MESSAGE, "Tool creation: attempt to use more heaters than there are in the RepRap...");
driveCount = 0;
heaterCount = 0;
return;
}
heaters = new int[heaterCount];
activeTemperatures = new float[heaterCount];
standbyTemperatures = new float[heaterCount];
for(int8_t heater = 0; heater < heaterCount; heater++)
{
heaters[heater] = h[heater];
activeTemperatures[heater] = ABS_ZERO;
standbyTemperatures[heater] = ABS_ZERO;
}
}
}
void Tool::Print(StringRef& reply)
{
reply.printf("Tool %d - drives: ", myNumber);
char comma = ',';
for(int8_t drive = 0; drive < driveCount; drive++)
{
if(drive >= driveCount - 1)
{
comma = ';';
}
reply.catf("%d%c", drives[drive], comma);
}
reply.cat("heaters (active/standby temps): ");
comma = ',';
for(int8_t heater = 0; heater < heaterCount; heater++)
{
if(heater >= heaterCount - 1)
{
comma = ';';
}
reply.catf("%d (%.1f/%.1f)%c", heaters[heater],
activeTemperatures[heater], standbyTemperatures[heater], comma);
}
reply.catf(" status: %s", active ? "selected" : "standby");
}
float Tool::MaxFeedrate() const
{
if(driveCount <= 0)
{
reprap.GetPlatform()->Message(BOTH_ERROR_MESSAGE, "Attempt to get maximum feedrate for a tool with no drives.\n");
return 1.0;
}
float result = 0.0;
for(int8_t d = 0; d < driveCount; d++)
{
float mf = reprap.GetPlatform()->MaxFeedrate(drives[d] + AXES);
if(mf > result)
{
result = mf;
}
}
return result;
}
float Tool::InstantDv() const
{
if(driveCount <= 0)
{
reprap.GetPlatform()->Message(BOTH_ERROR_MESSAGE, "Attempt to get InstantDv for a tool with no drives.\n");
return 1.0;
}
float result = FLT_MAX;
for(int8_t d = 0; d < driveCount; d++)
{
float idv = reprap.GetPlatform()->InstantDv(drives[d] + AXES);
if(idv < result)
{
result = idv;
}
}
return result;
}
// Add a tool to the end of the linked list.
// (We must already be in it.)
void Tool::AddTool(Tool* tool)
{
Tool* t = this;
Tool* last;
while(t != NULL)
{
if(t->Number() == tool->Number())
{
reprap.GetPlatform()->Message(BOTH_ERROR_MESSAGE, "Add tool: tool number already in use.\n");
return;
}
last = t;
t = t->Next();
}
tool->next = NULL; // Defensive...
last->next = tool;
}
// There is a temperature fault on a heater.
// Disable all tools using that heater.
// This function must be called for the first
// entry in the linked list.
void Tool::FlagTemperatureFault(int8_t heater)
{
Tool* n = this;
while(n != NULL)
{
n->SetTemperatureFault(heater);
n = n->Next();
}
}
void Tool::ClearTemperatureFault(int8_t heater)
{
Tool* n = this;
while(n != NULL)
{
n->ResetTemperatureFault(heater);
n = n->Next();
}
}
void Tool::SetTemperatureFault(int8_t dudHeater)
{
for(int8_t heater = 0; heater < heaterCount; heater++)
{
if(dudHeater == heaters[heater])
{
heaterFault = true;
return;
}
}
}
void Tool::ResetTemperatureFault(int8_t wasDudHeater)
{
for(int8_t heater = 0; heater < heaterCount; heater++)
{
if(wasDudHeater == heaters[heater])
{
heaterFault = false;
return;
}
}
}
bool Tool::AllHeatersAtHighTemperature() const
{
for(int8_t heater = 0; heater < heaterCount; heater++)
{
if(reprap.GetHeat()->GetTemperature(heaters[heater]) < HOT_ENOUGH_TO_EXTRUDE)
{
return false;
}
}
return true;
}
void Tool::Activate(Tool* currentlyActive)
{
if(active)
return;
if(currentlyActive != NULL && currentlyActive != this)
{
currentlyActive->Standby();
}
for(int8_t heater = 0; heater < heaterCount; heater++)
{
reprap.GetHeat()->SetActiveTemperature(heaters[heater], activeTemperatures[heater]);
reprap.GetHeat()->SetStandbyTemperature(heaters[heater], standbyTemperatures[heater]);
reprap.GetHeat()->Activate(heaters[heater]);
}
active = true;
}
void Tool::Standby()
{
if(!active)
return;
for(int8_t heater = 0; heater < heaterCount; heater++)
{
reprap.GetHeat()->SetStandbyTemperature(heaters[heater], standbyTemperatures[heater]);
reprap.GetHeat()->Standby(heaters[heater]);
}
active = false;
}
void Tool::SetVariables(float* standby, float* active)
{
for(int8_t heater = 0; heater < heaterCount; heater++)
{
activeTemperatures[heater] = active[heater];
standbyTemperatures[heater] = standby[heater];
reprap.GetHeat()->SetActiveTemperature(heaters[heater], activeTemperatures[heater]);
reprap.GetHeat()->SetStandbyTemperature(heaters[heater], standbyTemperatures[heater]);
}
}
void Tool::GetVariables(float* standby, float* active) const
{
for(int8_t heater = 0; heater < heaterCount; heater++)
{
active[heater] = activeTemperatures[heater];
standby[heater] = standbyTemperatures[heater];
}
}
bool Tool::ToolCanDrive() const
{
if(heaterFault)
return false;
if(reprap.ColdExtrude() || AllHeatersAtHighTemperature())
return true;
return false;
}
// Update the number of active drives and extruders in use to reflect what this tool uses
void Tool::UpdateExtruderAndHeaterCount(uint16_t &numExtruders, uint16_t &numHeaters) const
{
for(int8_t drive = 0; drive < driveCount; drive++)
{
if (drives[drive] >= numExtruders)
{
numExtruders = drives[drive] + 1;
}
}
for(int8_t heater = 0; heater < heaterCount; heater++)
{
if (heaters[heater] >= numHeaters)
{
numHeaters = heaters[heater] + 1;
}
}
}
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