196 lines
4.9 KiB
C
196 lines
4.9 KiB
C
//sm4.c - simple 4-axis stepper control
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#include "sm4.h"
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#include <avr/io.h>
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#include <avr/pgmspace.h>
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#include <math.h>
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#include "Arduino.h"
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#include "boards.h"
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#define false 0
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#define true 1
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#include "Configuration_prusa.h"
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#ifdef NEW_XYZCAL
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// Signal pinouts
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// direction signal - MiniRambo
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//#define X_DIR_PIN 48 //PL1 (-)
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//#define Y_DIR_PIN 49 //PL0 (-)
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//#define Z_DIR_PIN 47 //PL2 (-)
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//#define E0_DIR_PIN 43 //PL6 (+)
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//direction signal - EinsyRambo
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//#define X_DIR_PIN 49 //PL0 (+)
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//#define Y_DIR_PIN 48 //PL1 (-)
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//#define Z_DIR_PIN 47 //PL2 (+)
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//#define E0_DIR_PIN 43 //PL6 (-)
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//step signal pinout - common for all rambo boards
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//#define X_STEP_PIN 37 //PC0 (+)
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//#define Y_STEP_PIN 36 //PC1 (+)
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//#define Z_STEP_PIN 35 //PC2 (+)
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//#define E0_STEP_PIN 34 //PC3 (+)
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sm4_stop_cb_t sm4_stop_cb = 0;
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sm4_update_pos_cb_t sm4_update_pos_cb = 0;
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sm4_calc_delay_cb_t sm4_calc_delay_cb = 0;
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uint16_t sm4_cpu_time = 0;
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uint8_t sm4_get_dir(uint8_t axis)
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{
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switch (axis)
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{
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#if ((MOTHERBOARD == BOARD_RAMBO_MINI_1_0) || (MOTHERBOARD == BOARD_RAMBO_MINI_1_3))
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case 0: return (PORTL & 2)?0:1;
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case 1: return (PORTL & 1)?0:1;
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case 2: return (PORTL & 4)?0:1;
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case 3: return (PORTL & 64)?1:0;
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#elif ((MOTHERBOARD == BOARD_EINSY_1_0a))
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case 0: return (PORTL & 1)?1:0;
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case 1: return (PORTL & 2)?0:1;
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case 2: return (PORTL & 4)?1:0;
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case 3: return (PORTL & 64)?0:1;
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#endif
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}
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return 0;
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}
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void sm4_set_dir(uint8_t axis, uint8_t dir)
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{
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switch (axis)
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{
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#if ((MOTHERBOARD == BOARD_RAMBO_MINI_1_0) || (MOTHERBOARD == BOARD_RAMBO_MINI_1_3))
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case 0: if (!dir) PORTL |= 2; else PORTL &= ~2; break;
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case 1: if (!dir) PORTL |= 1; else PORTL &= ~1; break;
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case 2: if (!dir) PORTL |= 4; else PORTL &= ~4; break;
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case 3: if (dir) PORTL |= 64; else PORTL &= ~64; break;
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#elif ((MOTHERBOARD == BOARD_EINSY_1_0a))
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case 0: if (dir) PORTL |= 1; else PORTL &= ~1; break;
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case 1: if (!dir) PORTL |= 2; else PORTL &= ~2; break;
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case 2: if (dir) PORTL |= 4; else PORTL &= ~4; break;
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case 3: if (!dir) PORTL |= 64; else PORTL &= ~64; break;
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#endif
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}
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asm("nop");
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}
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uint8_t sm4_get_dir_bits(void)
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{
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register uint8_t dir_bits = 0;
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register uint8_t portL = PORTL;
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//TODO -optimize in asm
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#if ((MOTHERBOARD == BOARD_RAMBO_MINI_1_0) || (MOTHERBOARD == BOARD_RAMBO_MINI_1_3))
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if (portL & 2) dir_bits |= 1;
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if (portL & 1) dir_bits |= 2;
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if (portL & 4) dir_bits |= 4;
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if (portL & 64) dir_bits |= 8;
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dir_bits ^= 0x07; //invert XYZ, do not invert E
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#elif ((MOTHERBOARD == BOARD_EINSY_1_0a))
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if (portL & 1) dir_bits |= 1;
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if (portL & 2) dir_bits |= 2;
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if (portL & 4) dir_bits |= 4;
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if (portL & 64) dir_bits |= 8;
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dir_bits ^= 0x0a; //invert YE, do not invert XZ
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#endif
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return dir_bits;
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}
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void sm4_set_dir_bits(uint8_t dir_bits)
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{
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register uint8_t portL = PORTL;
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portL &= 0xb8; //set direction bits to zero
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//TODO -optimize in asm
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#if ((MOTHERBOARD == BOARD_RAMBO_MINI_1_0) || (MOTHERBOARD == BOARD_RAMBO_MINI_1_3))
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dir_bits ^= 0x07; //invert XYZ, do not invert E
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if (dir_bits & 1) portL |= 2; //set X direction bit
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if (dir_bits & 2) portL |= 1; //set Y direction bit
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if (dir_bits & 4) portL |= 4; //set Z direction bit
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if (dir_bits & 8) portL |= 64; //set E direction bit
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#elif ((MOTHERBOARD == BOARD_EINSY_1_0a))
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dir_bits ^= 0x0a; //invert YE, do not invert XZ
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if (dir_bits & 1) portL |= 1; //set X direction bit
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if (dir_bits & 2) portL |= 2; //set Y direction bit
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if (dir_bits & 4) portL |= 4; //set Z direction bit
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if (dir_bits & 8) portL |= 64; //set E direction bit
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#endif
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PORTL = portL;
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asm("nop");
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}
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void sm4_do_step(uint8_t axes_mask)
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{
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#if ((MOTHERBOARD == BOARD_RAMBO_MINI_1_0) || (MOTHERBOARD == BOARD_RAMBO_MINI_1_3) || (MOTHERBOARD == BOARD_EINSY_1_0a))
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register uint8_t portC = PORTC & 0xf0;
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PORTC = portC | (axes_mask & 0x0f); //set step signals by mask
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asm("nop");
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PORTC = portC; //set step signals to zero
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asm("nop");
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#endif //((MOTHERBOARD == BOARD_RAMBO_MINI_1_0) || (MOTHERBOARD == BOARD_RAMBO_MINI_1_3) || (MOTHERBOARD == BOARD_EINSY_1_0a))
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}
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uint16_t sm4_line_xyze_ui(uint16_t dx, uint16_t dy, uint16_t dz, uint16_t de)
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{
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uint16_t dd = (uint16_t)(sqrt((float)(((uint32_t)dx)*dx + ((uint32_t)dy*dy) + ((uint32_t)dz*dz) + ((uint32_t)de*de))) + 0.5);
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uint16_t nd = dd;
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uint16_t cx = dd;
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uint16_t cy = dd;
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uint16_t cz = dd;
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uint16_t ce = dd;
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uint16_t x = 0;
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uint16_t y = 0;
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uint16_t z = 0;
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uint16_t e = 0;
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while (nd)
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{
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if (sm4_stop_cb && (*sm4_stop_cb)()) break;
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uint8_t sm = 0; //step mask
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if (cx <= dx)
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{
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sm |= 1;
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cx += dd;
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x++;
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}
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if (cy <= dy)
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{
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sm |= 2;
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cy += dd;
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y++;
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}
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if (cz <= dz)
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{
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sm |= 4;
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cz += dd;
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z++;
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}
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if (ce <= de)
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{
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sm |= 8;
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ce += dd;
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e++;
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}
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cx -= dx;
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cy -= dy;
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cz -= dz;
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ce -= de;
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sm4_do_step(sm);
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uint16_t delay = SM4_DEFDELAY;
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if (sm4_calc_delay_cb) delay = (*sm4_calc_delay_cb)(nd, dd);
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if (delay) delayMicroseconds(delay);
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nd--;
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}
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if (sm4_update_pos_cb) (*sm4_update_pos_cb)(x, y, z, e);
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return nd;
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}
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#endif //NEW_XYZCAL
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