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G26: Add 'Repeat' Option

- Allows for specifying number of points to print/validate, using 'R' code like with G29 P4 Rx
- Moved the code for Random to 'M' so we could be consistent with G29 P4
- G26 instructions indenting/cleanup
pull/1/head
Brian 8 years ago
parent
commit
f7a201b0d0
  1. 88
      Marlin/G26_Mesh_Validation_Tool.cpp

88
Marlin/G26_Mesh_Validation_Tool.cpp

@ -66,54 +66,58 @@
* the user can specify the X and Y position of interest with command parameters. This allows the user to
* focus on a particular area of the Mesh where attention is needed.
*
* B # Bed Set the Bed Temperature. If not specified, a default of 60 C. will be assumed.
* B # Bed Set the Bed Temperature. If not specified, a default of 60 C. will be assumed.
*
* C Current When searching for Mesh Intersection points to draw, use the current nozzle location
* as the base for any distance comparison.
* C Current When searching for Mesh Intersection points to draw, use the current nozzle location
as the base for any distance comparison.
*
* D Disable Disable the Unified Bed Leveling System. In the normal case the user is invoking this
* command to see how well a Mesh as been adjusted to match a print surface. In order to do
* this the Unified Bed Leveling System is turned on by the G26 command. The D parameter
* alters the command's normal behaviour and disables the Unified Bed Leveling System even if
* it is on.
* D Disable Disable the Unified Bed Leveling System. In the normal case the user is invoking this
* command to see how well a Mesh as been adjusted to match a print surface. In order to do
* this the Unified Bed Leveling System is turned on by the G26 command. The D parameter
* alters the command's normal behaviour and disables the Unified Bed Leveling System even if
* it is on.
*
* H # Hotend Set the Nozzle Temperature. If not specified, a default of 205 C. will be assumed.
* H # Hotend Set the Nozzle Temperature. If not specified, a default of 205 C. will be assumed.
*
* F # Filament Used to specify the diameter of the filament being used. If not specified
* 1.75mm filament is assumed. If you are not getting acceptable results by using the
* 'correct' numbers, you can scale this number up or down a little bit to change the amount
* of filament that is being extruded during the printing of the various lines on the bed.
* F # Filament Used to specify the diameter of the filament being used. If not specified
* 1.75mm filament is assumed. If you are not getting acceptable results by using the
* 'correct' numbers, you can scale this number up or down a little bit to change the amount
* of filament that is being extruded during the printing of the various lines on the bed.
*
* K Keep-On Keep the heaters turned on at the end of the command.
* K Keep-On Keep the heaters turned on at the end of the command.
*
* L # Layer Layer height. (Height of nozzle above bed) If not specified .20mm will be used.
* L # Layer Layer height. (Height of nozzle above bed) If not specified .20mm will be used.
*
* Q # Multiplier Retraction Multiplier. Normally not needed. Retraction defaults to 1.0mm and
* un-retraction is at 1.2mm These numbers will be scaled by the specified amount
* un-retraction is at 1.2mm These numbers will be scaled by the specified amount
*
* N # Nozzle Used to control the size of nozzle diameter. If not specified, a .4mm nozzle is assumed.
* 'n' can be used instead if your host program does not appreciate you using 'N'.
* M # Random Randomize the order that the circles are drawn on the bed. The search for the closest
* undrawn cicle is still done. But the distance to the location for each circle has a
* random number of the size specified added to it. Specifying R50 will give an interesting
* deviation from the normal behaviour on a 10 x 10 Mesh.
* N # Nozzle Used to control the size of nozzle diameter. If not specified, a .4mm nozzle is assumed.
* 'n' can be used instead if your host program does not appreciate you using 'N'.
*
* O # Ooooze How much your nozzle will Ooooze filament while getting in position to print. This
* is over kill, but using this parameter will let you get the very first 'cicle' perfect
* so you have a trophy to peel off of the bed and hang up to show how perfectly you have your
* Mesh calibrated. If not specified, a filament length of .3mm is assumed.
* O # Ooooze How much your nozzle will Ooooze filament while getting in position to print. This
* is over kill, but using this parameter will let you get the very first 'cicle' perfect
* so you have a trophy to peel off of the bed and hang up to show how perfectly you have your
* Mesh calibrated. If not specified, a filament length of .3mm is assumed.
*
* P # Prime Prime the nozzle with specified length of filament. If this parameter is not
* given, no prime action will take place. If the parameter specifies an amount, that much
* will be purged before continuing. If no amount is specified the command will start
* purging filament until the user provides an LCD Click and then it will continue with
* printing the Mesh. You can carefully remove the spent filament with a needle nose
* pliers while holding the LCD Click wheel in a depressed state.
* P # Prime Prime the nozzle with specified length of filament. If this parameter is not
* given, no prime action will take place. If the parameter specifies an amount, that much
* will be purged before continuing. If no amount is specified the command will start
* purging filament until the user provides an LCD Click and then it will continue with
* printing the Mesh. You can carefully remove the spent filament with a needle nose
* pliers while holding the LCD Click wheel in a depressed state.
*
* R # Random Randomize the order that the circles are drawn on the bed. The search for the closest
* undrawn cicle is still done. But the distance to the location for each circle has a
* random number of the size specified added to it. Specifying R50 will give an interesting
* deviation from the normal behaviour on a 10 x 10 Mesh.
* R # Repeat Prints the number of patterns given as a parameter, starting at the current location.
* If a parameter isn't given, every point will be printed unless G26 is interrupted.
* This works the same way that the UBL G29 P4 R parameter works.
*
* X # X coordinate Specify the starting location of the drawing activity.
* X # X Coord. Specify the starting location of the drawing activity.
*
* Y # Y coordinate Specify the starting location of the drawing activity.
* Y # Y Coord. Specify the starting location of the drawing activity.
*/
// External references
@ -176,6 +180,8 @@
static bool keep_heaters_on = false;
static int16_t g26_repeats;
/**
* G26: Mesh Validation Pattern generation.
*
@ -359,7 +365,7 @@
//debug_current_and_destination(PSTR("Done with current circle."));
} while (location.x_index >= 0 && location.y_index >= 0);
} while (location.x_index >= 0 && location.y_index >= 0 && g26_repeats--);
LEAVE:
lcd_reset_alert_level();
@ -722,11 +728,21 @@
}
}
if (code_seen('R')) {
if (code_seen('M')) {
randomSeed(millis());
random_deviation = code_has_value() ? code_value_float() : 50.0;
}
if (code_seen('R')) {
g26_repeats = code_has_value() ? code_value_int() - 1 : 999;
if (g26_repeats <= 0) {
SERIAL_PROTOCOLLNPGM("?(R)epeat value not plausible; must be greater than 0.");
return UBL_ERR;
}
}
x_pos = current_position[X_AXIS];
y_pos = current_position[Y_AXIS];

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