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machinery
MarlinKimbra
Commits
4e8bb251
Commit
4e8bb251
authored
Apr 14, 2015
by
MagoKimbra
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Plain Diff
Same fix
parent
a8688f61
Changes
3
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Showing
3 changed files
with
15 additions
and
15 deletions
+15
-15
Configuration_Delta.h
MarlinKimbra/Configuration_Delta.h
+1
-1
Marlin_main.cpp
MarlinKimbra/Marlin_main.cpp
+1
-1
planner.cpp
MarlinKimbra/planner.cpp
+13
-13
No files found.
MarlinKimbra/Configuration_Delta.h
View file @
4e8bb251
...
...
@@ -76,7 +76,7 @@ const bool Z_PROBE_ENDSTOP_INVERTING = false; // set to true to invert the log
// This only affects a Z Probe Endstop if you have separate Z min endstop as well and have
// activated Z_PROBE_ENDSTOP below. If you are using the Z Min endstop on your Z Probe,
// this has no effect.
//#define
DISABLE_
Z_PROBE_ENDSTOP
//#define Z_PROBE_ENDSTOP
// ENDSTOP SETTINGS:
// Sets direction of endstop when homing; 1=MAX, -1=MIN
...
...
MarlinKimbra/Marlin_main.cpp
View file @
4e8bb251
...
...
@@ -6385,7 +6385,7 @@ void prepare_move() {
for
(
int
s
=
1
;
s
<=
steps
;
s
++
)
{
float
fraction
=
float
(
s
)
/
float
(
steps
);
for
(
int8_t
i
=
0
;
i
<
NUM_AXIS
;
i
++
)
destination
[
i
]
=
current_position
[
i
]
+
difference
[
i
]
*
fraction
;
for
(
int8_t
i
=
0
;
i
<
NUM_AXIS
;
i
++
)
destination
[
i
]
=
current_position
[
i
]
+
difference
[
i
]
*
fraction
;
calculate_delta
(
destination
);
//SERIAL_ECHOPGM("destination[X_AXIS]="); SERIAL_ECHOLN(destination[X_AXIS]);
...
...
MarlinKimbra/planner.cpp
View file @
4e8bb251
...
...
@@ -63,7 +63,7 @@
//===========================================================================
unsigned
long
minsegmenttime
;
float
max_feedrate
[
3
+
EXTRUDERS
];
//
set the max speeds
float
max_feedrate
[
3
+
EXTRUDERS
];
//
Max speeds in mm per minute
float
max_retraction_feedrate
[
EXTRUDERS
];
// set the max speeds for retraction
float
axis_steps_per_unit
[
3
+
EXTRUDERS
];
unsigned
long
max_acceleration_units_per_sq_second
[
3
+
EXTRUDERS
];
// Use M201 to override by software
...
...
@@ -510,10 +510,10 @@ float junction_deviation = 0.1;
#ifdef PREVENT_DANGEROUS_EXTRUDE
if
(
de
)
{
#ifdef NPR2
if
(
active_
extruder
!=
1
)
if
(
extruder
!=
1
)
#endif // NPR2
{
if
(
degHotend
(
active_
extruder
)
<
extrude_min_temp
&&
!
debugDryrun
())
{
if
(
degHotend
(
extruder
)
<
extrude_min_temp
&&
!
debugDryrun
())
{
position
[
E_AXIS
]
=
target
[
E_AXIS
];
//behave as if the move really took place, but ignore E part
de
=
0
;
// no difference
SERIAL_ECHO_START
;
...
...
@@ -522,7 +522,7 @@ float junction_deviation = 0.1;
}
#ifdef PREVENT_LENGTHY_EXTRUDE
if
(
labs
(
de
)
>
axis_steps_per_unit
[
E_AXIS
+
active_
extruder
]
*
EXTRUDE_MAXLENGTH
)
{
if
(
labs
(
de
)
>
axis_steps_per_unit
[
E_AXIS
+
extruder
]
*
EXTRUDE_MAXLENGTH
)
{
#ifdef EASY_LOAD
if
(
!
allow_lengthy_extrude_once
)
{
#endif
...
...
@@ -559,8 +559,8 @@ float junction_deviation = 0.1;
block
->
steps
[
Z_AXIS
]
=
labs
(
dz
);
block
->
steps
[
E_AXIS
]
=
labs
(
de
);
block
->
steps
[
E_AXIS
]
*=
volumetric_multiplier
[
active_
extruder
];
block
->
steps
[
E_AXIS
]
*=
extruder_multiply
[
active_
extruder
];
block
->
steps
[
E_AXIS
]
*=
volumetric_multiplier
[
extruder
];
block
->
steps
[
E_AXIS
]
*=
extruder_multiply
[
extruder
];
block
->
steps
[
E_AXIS
]
/=
100
;
block
->
step_event_count
=
max
(
block
->
steps
[
X_AXIS
],
max
(
block
->
steps
[
Y_AXIS
],
max
(
block
->
steps
[
Z_AXIS
],
block
->
steps
[
E_AXIS
])));
...
...
@@ -715,7 +715,7 @@ float junction_deviation = 0.1;
delta_mm
[
Y_AXIS
]
=
dy
/
axis_steps_per_unit
[
Y_AXIS
];
#endif
delta_mm
[
Z_AXIS
]
=
dz
/
axis_steps_per_unit
[
Z_AXIS
];
delta_mm
[
E_AXIS
]
=
(
de
/
axis_steps_per_unit
[
E_AXIS
+
active_extruder
])
*
volumetric_multiplier
[
active_extruder
]
*
extruder_multiply
[
active_
extruder
]
/
100.0
;
delta_mm
[
E_AXIS
]
=
(
de
/
axis_steps_per_unit
[
E_AXIS
+
extruder
])
*
volumetric_multiplier
[
extruder
]
*
extruder_multiply
[
extruder
]
/
100.0
;
if
(
block
->
steps
[
X_AXIS
]
<=
dropsegments
&&
block
->
steps
[
Y_AXIS
]
<=
dropsegments
&&
block
->
steps
[
Z_AXIS
]
<=
dropsegments
)
{
block
->
millimeters
=
fabs
(
delta_mm
[
E_AXIS
]);
...
...
@@ -799,13 +799,13 @@ float junction_deviation = 0.1;
current_speed
[
E_AXIS
]
=
delta_mm
[
E_AXIS
]
*
inverse_second
;
if
(
target
[
E_AXIS
]
<
position
[
E_AXIS
])
{
if
(
fabs
(
current_speed
[
E_AXIS
])
>
max_retraction_feedrate
[
active_
extruder
])
speed_factor
=
min
(
speed_factor
,
max_retraction_feedrate
[
active_
extruder
]
/
fabs
(
current_speed
[
E_AXIS
]));
if
(
fabs
(
current_speed
[
E_AXIS
])
>
max_retraction_feedrate
[
extruder
])
speed_factor
=
min
(
speed_factor
,
max_retraction_feedrate
[
extruder
]
/
fabs
(
current_speed
[
E_AXIS
]));
}
else
{
if
(
fabs
(
current_speed
[
E_AXIS
])
>
max_feedrate
[
E_AXIS
+
active_
extruder
])
speed_factor
=
min
(
speed_factor
,
max_feedrate
[
E_AXIS
+
active_
extruder
]
/
fabs
(
current_speed
[
E_AXIS
]));
if
(
fabs
(
current_speed
[
E_AXIS
])
>
max_feedrate
[
E_AXIS
+
extruder
])
speed_factor
=
min
(
speed_factor
,
max_feedrate
[
E_AXIS
+
extruder
]
/
fabs
(
current_speed
[
E_AXIS
]));
}
// Max segement time in us.
...
...
@@ -1034,7 +1034,7 @@ float junction_deviation = 0.1;
float
nx
=
position
[
X_AXIS
]
=
lround
(
x
*
axis_steps_per_unit
[
X_AXIS
]);
float
ny
=
position
[
Y_AXIS
]
=
lround
(
y
*
axis_steps_per_unit
[
Y_AXIS
]);
float
nz
=
position
[
Z_AXIS
]
=
lround
(
z
*
axis_steps_per_unit
[
Z_AXIS
]);
float
ne
=
position
[
E_AXIS
]
=
lround
(
e
*
axis_steps_per_unit
[
E_AXIS
+
active_
extruder
]);
float
ne
=
position
[
E_AXIS
]
=
lround
(
e
*
axis_steps_per_unit
[
E_AXIS
+
extruder
]);
st_set_position
(
nx
,
ny
,
nz
,
ne
);
previous_nominal_speed
=
0.0
;
// Resets planner junction speeds. Assumes start from rest.
...
...
@@ -1042,7 +1042,7 @@ float junction_deviation = 0.1;
}
void
plan_set_e_position
(
const
float
&
e
)
{
position
[
E_AXIS
]
=
lround
(
e
*
axis_steps_per_unit
[
E_AXIS
+
active_
extruder
]);
position
[
E_AXIS
]
=
lround
(
e
*
axis_steps_per_unit
[
E_AXIS
+
extruder
]);
st_set_e_position
(
position
[
E_AXIS
]);
}
...
...
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