Merge pull request #10651 from thinkyhead/bf2_junction_deviation
[2.0.x] Junction Deviation
This commit is contained in:
commit
2cdaf76c40
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@ -84,7 +84,7 @@ script:
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- opt_set TEMP_SENSOR_4 999
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- opt_set TEMP_SENSOR_BED 1
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- opt_enable AUTO_BED_LEVELING_UBL RESTORE_LEVELING_AFTER_G28 DEBUG_LEVELING_FEATURE G26_MESH_EDITING ENABLE_LEVELING_FADE_HEIGHT EEPROM_SETTINGS EEPROM_CHITCHAT G3D_PANEL SKEW_CORRECTION
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- opt_enable_adv CUSTOM_USER_MENUS I2C_POSITION_ENCODERS BABYSTEPPING BABYSTEP_XY LIN_ADVANCE NANODLP_Z_SYNC QUICK_HOME
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- opt_enable_adv CUSTOM_USER_MENUS I2C_POSITION_ENCODERS BABYSTEPPING BABYSTEP_XY LIN_ADVANCE NANODLP_Z_SYNC QUICK_HOME JUNCTION_DEVIATION
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- build_marlin_pio ${TRAVIS_BUILD_DIR} ${TEST_PLATFORM}
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#
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# Add a Sled Z Probe, use UBL Cartesian moves, use Japanese language
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@ -431,6 +431,15 @@
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// if unwanted behavior is observed on a user's machine when running at very slow speeds.
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#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
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//
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// Use Junction Deviation instead of traditional Jerk Limiting
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//
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//#define JUNCTION_DEVIATION
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#if ENABLED(JUNCTION_DEVIATION)
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#define JUNCTION_DEVIATION_FACTOR 0.02
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//#define JUNCTION_DEVIATION_INCLUDE_E
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#endif
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// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
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#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
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@ -23,6 +23,8 @@
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#ifndef _MATH_AVR_H_
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#define _MATH_AVR_H_
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#define a(CODE) " " CODE "\n\t"
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/**
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* Optimized math functions for AVR
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*/
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@ -39,41 +41,41 @@
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//
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#define MultiU24X32toH16(intRes, longIn1, longIn2) \
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asm volatile ( \
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"clr r26 \n\t" \
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"mul %A1, %B2 \n\t" \
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"mov r27, r1 \n\t" \
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"mul %B1, %C2 \n\t" \
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"movw %A0, r0 \n\t" \
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"mul %C1, %C2 \n\t" \
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"add %B0, r0 \n\t" \
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"mul %C1, %B2 \n\t" \
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"add %A0, r0 \n\t" \
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"adc %B0, r1 \n\t" \
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"mul %A1, %C2 \n\t" \
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"add r27, r0 \n\t" \
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"adc %A0, r1 \n\t" \
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"adc %B0, r26 \n\t" \
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"mul %B1, %B2 \n\t" \
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"add r27, r0 \n\t" \
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"adc %A0, r1 \n\t" \
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"adc %B0, r26 \n\t" \
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"mul %C1, %A2 \n\t" \
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"add r27, r0 \n\t" \
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"adc %A0, r1 \n\t" \
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"adc %B0, r26 \n\t" \
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"mul %B1, %A2 \n\t" \
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"add r27, r1 \n\t" \
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"adc %A0, r26 \n\t" \
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"adc %B0, r26 \n\t" \
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"lsr r27 \n\t" \
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"adc %A0, r26 \n\t" \
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"adc %B0, r26 \n\t" \
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"mul %D2, %A1 \n\t" \
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"add %A0, r0 \n\t" \
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"adc %B0, r1 \n\t" \
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"mul %D2, %B1 \n\t" \
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"add %B0, r0 \n\t" \
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"clr r1 \n\t" \
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A("clr r26") \
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A("mul %A1, %B2") \
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A("mov r27, r1") \
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A("mul %B1, %C2") \
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A("movw %A0, r0") \
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A("mul %C1, %C2") \
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A("add %B0, r0") \
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A("mul %C1, %B2") \
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A("add %A0, r0") \
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A("adc %B0, r1") \
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A("mul %A1, %C2") \
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A("add r27, r0") \
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A("adc %A0, r1") \
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A("adc %B0, r26") \
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A("mul %B1, %B2") \
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A("add r27, r0") \
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A("adc %A0, r1") \
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A("adc %B0, r26") \
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A("mul %C1, %A2") \
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A("add r27, r0") \
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A("adc %A0, r1") \
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A("adc %B0, r26") \
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A("mul %B1, %A2") \
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A("add r27, r1") \
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A("adc %A0, r26") \
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A("adc %B0, r26") \
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A("lsr r27") \
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A("adc %A0, r26") \
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A("adc %B0, r26") \
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A("mul %D2, %A1") \
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A("add %A0, r0") \
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A("adc %B0, r1") \
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A("mul %D2, %B1") \
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A("add %B0, r0") \
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A("clr r1") \
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: \
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"=&r" (intRes) \
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: \
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@ -89,16 +91,16 @@
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// r27 to store the byte 1 of the 24 bit result
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#define MultiU16X8toH16(intRes, charIn1, intIn2) \
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asm volatile ( \
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"clr r26 \n\t" \
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"mul %A1, %B2 \n\t" \
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"movw %A0, r0 \n\t" \
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"mul %A1, %A2 \n\t" \
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"add %A0, r1 \n\t" \
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"adc %B0, r26 \n\t" \
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"lsr r0 \n\t" \
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"adc %A0, r26 \n\t" \
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"adc %B0, r26 \n\t" \
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"clr r1 \n\t" \
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A("clr r26") \
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A("mul %A1, %B2") \
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A("movw %A0, r0") \
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A("mul %A1, %A2") \
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A("add %A0, r1") \
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A("adc %B0, r26") \
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A("lsr r0") \
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A("adc %A0, r26") \
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A("adc %B0, r26") \
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A("clr r1") \
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: \
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"=&r" (intRes) \
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: \
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@ -36,7 +36,7 @@
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// state we are when running them
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// A SW memory barrier, to ensure GCC does not overoptimize loops
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#define sw_barrier() asm volatile("": : :"memory");
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#define sw_barrier() __asm__ volatile("": : :"memory");
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// (re)initialize UART0 as a monitor output to 250000,n,8,1
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static void TXBegin(void) {
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@ -230,106 +230,106 @@ void HardFault_HandlerC(unsigned long *sp, unsigned long lr, unsigned long cause
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__attribute__((naked)) void NMI_Handler(void) {
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__asm__ __volatile__ (
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".syntax unified \n"
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" tst lr, #4 \n"
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" ite eq \n"
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" mrseq r0, msp \n"
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" mrsne r0, psp \n"
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" mov r1,lr \n"
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" mov r2,#0 \n"
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" b HardFault_HandlerC \n"
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".syntax unified" "\n\t"
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A("tst lr, #4")
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A("ite eq")
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A("mrseq r0, msp")
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A("mrsne r0, psp")
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A("mov r1,lr")
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A("mov r2,#0")
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A("b HardFault_HandlerC")
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);
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}
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__attribute__((naked)) void HardFault_Handler(void) {
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__asm__ __volatile__ (
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".syntax unified \n"
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" tst lr, #4 \n"
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" ite eq \n"
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" mrseq r0, msp \n"
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" mrsne r0, psp \n"
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" mov r1,lr \n"
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" mov r2,#1 \n"
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" b HardFault_HandlerC \n"
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".syntax unified" "\n\t"
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A("tst lr, #4")
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A("ite eq")
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A("mrseq r0, msp")
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A("mrsne r0, psp")
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A("mov r1,lr")
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A("mov r2,#1")
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A("b HardFault_HandlerC")
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);
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}
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__attribute__((naked)) void MemManage_Handler(void) {
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__asm__ __volatile__ (
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".syntax unified \n"
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" tst lr, #4 \n"
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" ite eq \n"
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" mrseq r0, msp \n"
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" mrsne r0, psp \n"
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" mov r1,lr \n"
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" mov r2,#2 \n"
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" b HardFault_HandlerC \n"
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".syntax unified" "\n\t"
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A("tst lr, #4")
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A("ite eq")
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A("mrseq r0, msp")
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A("mrsne r0, psp")
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A("mov r1,lr")
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A("mov r2,#2")
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A("b HardFault_HandlerC")
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);
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}
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__attribute__((naked)) void BusFault_Handler(void) {
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__asm__ __volatile__ (
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".syntax unified \n"
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" tst lr, #4 \n"
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" ite eq \n"
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" mrseq r0, msp \n"
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" mrsne r0, psp \n"
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" mov r1,lr \n"
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" mov r2,#3 \n"
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" b HardFault_HandlerC \n"
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".syntax unified" "\n\t"
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A("tst lr, #4")
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A("ite eq")
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A("mrseq r0, msp")
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A("mrsne r0, psp")
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A("mov r1,lr")
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A("mov r2,#3")
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A("b HardFault_HandlerC")
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);
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}
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__attribute__((naked)) void UsageFault_Handler(void) {
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__asm__ __volatile__ (
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".syntax unified \n"
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" tst lr, #4 \n"
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" ite eq \n"
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" mrseq r0, msp \n"
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" mrsne r0, psp \n"
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" mov r1,lr \n"
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" mov r2,#4 \n"
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" b HardFault_HandlerC \n"
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".syntax unified" "\n\t"
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A("tst lr, #4")
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A("ite eq")
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A("mrseq r0, msp")
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A("mrsne r0, psp")
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A("mov r1,lr")
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A("mov r2,#4")
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A("b HardFault_HandlerC")
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);
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}
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__attribute__((naked)) void DebugMon_Handler(void) {
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__asm__ __volatile__ (
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".syntax unified \n"
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" tst lr, #4 \n"
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" ite eq \n"
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" mrseq r0, msp \n"
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" mrsne r0, psp \n"
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" mov r1,lr \n"
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" mov r2,#5 \n"
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" b HardFault_HandlerC \n"
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".syntax unified" "\n\t"
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A("tst lr, #4")
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A("ite eq")
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A("mrseq r0, msp")
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A("mrsne r0, psp")
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A("mov r1,lr")
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A("mov r2,#5")
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A("b HardFault_HandlerC")
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);
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}
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/* This is NOT an exception, it is an interrupt handler - Nevertheless, the framing is the same */
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__attribute__((naked)) void WDT_Handler(void) {
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__asm__ __volatile__ (
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".syntax unified \n"
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" tst lr, #4 \n"
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" ite eq \n"
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" mrseq r0, msp \n"
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" mrsne r0, psp \n"
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" mov r1,lr \n"
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" mov r2,#6 \n"
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" b HardFault_HandlerC \n"
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".syntax unified" "\n\t"
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A("tst lr, #4")
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A("ite eq")
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A("mrseq r0, msp")
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A("mrsne r0, psp")
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A("mov r1,lr")
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A("mov r2,#6")
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A("b HardFault_HandlerC")
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);
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}
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__attribute__((naked)) void RSTC_Handler(void) {
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__asm__ __volatile__ (
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".syntax unified \n"
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" tst lr, #4 \n"
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" ite eq \n"
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" mrseq r0, msp \n"
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" mrsne r0, psp \n"
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" mov r1,lr \n"
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" mov r2,#7 \n"
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" b HardFault_HandlerC \n"
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".syntax unified" "\n\t"
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A("tst lr, #4")
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A("ite eq")
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A("mrseq r0, msp")
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A("mrsne r0, psp")
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A("mov r1,lr")
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A("mov r2,#7")
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A("b HardFault_HandlerC")
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);
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}
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@ -77,10 +77,10 @@
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__asm__ __volatile__(
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".syntax unified" "\n\t" // is to prevent CM0,CM1 non-unified syntax
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"loop%=:" "\n\t"
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" subs %[cnt],#1" "\n\t"
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EXTRA_NOP_CYCLES "\n\t"
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" bne loop%=" "\n\t"
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L("loop%=")
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A("subs %[cnt],#1")
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A(EXTRA_NOP_CYCLES)
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A("bne loop%=")
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: [cnt]"+r"(cy) // output: +r means input+output
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: // input:
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: "cc" // clobbers:
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@ -141,54 +141,54 @@
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".syntax unified" "\n\t" // is to prevent CM0,CM1 non-unified syntax
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/* Bit 7 */
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" ubfx %[idx],%[txval],#7,#1" "\n\t" /* Place bit 7 in bit 0 of idx*/
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A("ubfx %[idx],%[txval],#7,#1") /* Place bit 7 in bit 0 of idx*/
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" str %[mosi_mask],[%[mosi_port], %[idx],LSL #2]" "\n\t" /* Access the proper SODR or CODR registers based on that bit */
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" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
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" ubfx %[idx],%[txval],#6,#1" "\n\t" /* Place bit 6 in bit 0 of idx*/
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" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
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A("str %[mosi_mask],[%[mosi_port], %[idx],LSL #2]") /* Access the proper SODR or CODR registers based on that bit */
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A("str %[sck_mask],[%[sck_port]]") /* SODR */
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A("ubfx %[idx],%[txval],#6,#1") /* Place bit 6 in bit 0 of idx*/
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A("str %[sck_mask],[%[sck_port],#0x4]") /* CODR */
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/* Bit 6 */
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" str %[mosi_mask],[%[mosi_port], %[idx],LSL #2]" "\n\t" /* Access the proper SODR or CODR registers based on that bit */
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" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
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" ubfx %[idx],%[txval],#5,#1" "\n\t" /* Place bit 5 in bit 0 of idx*/
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" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
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A("str %[mosi_mask],[%[mosi_port], %[idx],LSL #2]") /* Access the proper SODR or CODR registers based on that bit */
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A("str %[sck_mask],[%[sck_port]]") /* SODR */
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A("ubfx %[idx],%[txval],#5,#1") /* Place bit 5 in bit 0 of idx*/
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A("str %[sck_mask],[%[sck_port],#0x4]") /* CODR */
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/* Bit 5 */
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" str %[mosi_mask],[%[mosi_port], %[idx],LSL #2]" "\n\t" /* Access the proper SODR or CODR registers based on that bit */
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" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
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" ubfx %[idx],%[txval],#4,#1" "\n\t" /* Place bit 4 in bit 0 of idx*/
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" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
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A("str %[mosi_mask],[%[mosi_port], %[idx],LSL #2]") /* Access the proper SODR or CODR registers based on that bit */
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A("str %[sck_mask],[%[sck_port]]") /* SODR */
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A("ubfx %[idx],%[txval],#4,#1") /* Place bit 4 in bit 0 of idx*/
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A("str %[sck_mask],[%[sck_port],#0x4]") /* CODR */
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/* Bit 4 */
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" str %[mosi_mask],[%[mosi_port], %[idx],LSL #2]" "\n\t" /* Access the proper SODR or CODR registers based on that bit */
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" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
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||||
" ubfx %[idx],%[txval],#3,#1" "\n\t" /* Place bit 3 in bit 0 of idx*/
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" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
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A("str %[mosi_mask],[%[mosi_port], %[idx],LSL #2]") /* Access the proper SODR or CODR registers based on that bit */
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A("str %[sck_mask],[%[sck_port]]") /* SODR */
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A("ubfx %[idx],%[txval],#3,#1") /* Place bit 3 in bit 0 of idx*/
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A("str %[sck_mask],[%[sck_port],#0x4]") /* CODR */
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||||
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/* Bit 3 */
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||||
" str %[mosi_mask],[%[mosi_port], %[idx],LSL #2]" "\n\t" /* Access the proper SODR or CODR registers based on that bit */
|
||||
" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
|
||||
" ubfx %[idx],%[txval],#2,#1" "\n\t" /* Place bit 2 in bit 0 of idx*/
|
||||
" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
|
||||
A("str %[mosi_mask],[%[mosi_port], %[idx],LSL #2]") /* Access the proper SODR or CODR registers based on that bit */
|
||||
A("str %[sck_mask],[%[sck_port]]") /* SODR */
|
||||
A("ubfx %[idx],%[txval],#2,#1") /* Place bit 2 in bit 0 of idx*/
|
||||
A("str %[sck_mask],[%[sck_port],#0x4]") /* CODR */
|
||||
|
||||
/* Bit 2 */
|
||||
" str %[mosi_mask],[%[mosi_port], %[idx],LSL #2]" "\n\t" /* Access the proper SODR or CODR registers based on that bit */
|
||||
" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
|
||||
" ubfx %[idx],%[txval],#1,#1" "\n\t" /* Place bit 1 in bit 0 of idx*/
|
||||
" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
|
||||
A("str %[mosi_mask],[%[mosi_port], %[idx],LSL #2]") /* Access the proper SODR or CODR registers based on that bit */
|
||||
A("str %[sck_mask],[%[sck_port]]") /* SODR */
|
||||
A("ubfx %[idx],%[txval],#1,#1") /* Place bit 1 in bit 0 of idx*/
|
||||
A("str %[sck_mask],[%[sck_port],#0x4]") /* CODR */
|
||||
|
||||
/* Bit 1 */
|
||||
" str %[mosi_mask],[%[mosi_port], %[idx],LSL #2]" "\n\t" /* Access the proper SODR or CODR registers based on that bit */
|
||||
" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
|
||||
" ubfx %[idx],%[txval],#0,#1" "\n\t" /* Place bit 0 in bit 0 of idx*/
|
||||
" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
|
||||
A("str %[mosi_mask],[%[mosi_port], %[idx],LSL #2]") /* Access the proper SODR or CODR registers based on that bit */
|
||||
A("str %[sck_mask],[%[sck_port]]") /* SODR */
|
||||
A("ubfx %[idx],%[txval],#0,#1") /* Place bit 0 in bit 0 of idx*/
|
||||
A("str %[sck_mask],[%[sck_port],#0x4]") /* CODR */
|
||||
|
||||
/* Bit 0 */
|
||||
" str %[mosi_mask],[%[mosi_port], %[idx],LSL #2]" "\n\t" /* Access the proper SODR or CODR registers based on that bit */
|
||||
" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
|
||||
" nop" "\n\t" /* Result will be 0 */
|
||||
" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
|
||||
A("str %[mosi_mask],[%[mosi_port], %[idx],LSL #2]") /* Access the proper SODR or CODR registers based on that bit */
|
||||
A("str %[sck_mask],[%[sck_port]]") /* SODR */
|
||||
A("nop") /* Result will be 0 */
|
||||
A("str %[sck_mask],[%[sck_port],#0x4]") /* CODR */
|
||||
|
||||
: [idx]"+r"( idx )
|
||||
: [txval]"r"( bout ) ,
|
||||
|
@ -222,52 +222,52 @@
|
|||
".syntax unified" "\n\t" // is to prevent CM0,CM1 non-unified syntax
|
||||
|
||||
/* bit 7 */
|
||||
" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
|
||||
" ldr %[work],[%[bitband_miso_port]]" "\n\t" /* PDSR on bitband area for required bit: work will be 1 or 0 based on port */
|
||||
" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
|
||||
" bfi %[bin],%[work],#7,#1" "\n\t" /* Store read bit as the bit 7 */
|
||||
A("str %[sck_mask],[%[sck_port]]") /* SODR */
|
||||
A("ldr %[work],[%[bitband_miso_port]]") /* PDSR on bitband area for required bit: work will be 1 or 0 based on port */
|
||||
A("str %[sck_mask],[%[sck_port],#0x4]") /* CODR */
|
||||
A("bfi %[bin],%[work],#7,#1") /* Store read bit as the bit 7 */
|
||||
|
||||
/* bit 6 */
|
||||
" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
|
||||
" ldr %[work],[%[bitband_miso_port]]" "\n\t" /* PDSR on bitband area for required bit: work will be 1 or 0 based on port */
|
||||
" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
|
||||
" bfi %[bin],%[work],#6,#1" "\n\t" /* Store read bit as the bit 6 */
|
||||
A("str %[sck_mask],[%[sck_port]]") /* SODR */
|
||||
A("ldr %[work],[%[bitband_miso_port]]") /* PDSR on bitband area for required bit: work will be 1 or 0 based on port */
|
||||
A("str %[sck_mask],[%[sck_port],#0x4]") /* CODR */
|
||||
A("bfi %[bin],%[work],#6,#1") /* Store read bit as the bit 6 */
|
||||
|
||||
/* bit 5 */
|
||||
" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
|
||||
" ldr %[work],[%[bitband_miso_port]]" "\n\t" /* PDSR on bitband area for required bit: work will be 1 or 0 based on port */
|
||||
" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
|
||||
" bfi %[bin],%[work],#5,#1" "\n\t" /* Store read bit as the bit 5 */
|
||||
A("str %[sck_mask],[%[sck_port]]") /* SODR */
|
||||
A("ldr %[work],[%[bitband_miso_port]]") /* PDSR on bitband area for required bit: work will be 1 or 0 based on port */
|
||||
A("str %[sck_mask],[%[sck_port],#0x4]") /* CODR */
|
||||
A("bfi %[bin],%[work],#5,#1") /* Store read bit as the bit 5 */
|
||||
|
||||
/* bit 4 */
|
||||
" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
|
||||
" ldr %[work],[%[bitband_miso_port]]" "\n\t" /* PDSR on bitband area for required bit: work will be 1 or 0 based on port */
|
||||
" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
|
||||
" bfi %[bin],%[work],#4,#1" "\n\t" /* Store read bit as the bit 4 */
|
||||
A("str %[sck_mask],[%[sck_port]]") /* SODR */
|
||||
A("ldr %[work],[%[bitband_miso_port]]") /* PDSR on bitband area for required bit: work will be 1 or 0 based on port */
|
||||
A("str %[sck_mask],[%[sck_port],#0x4]") /* CODR */
|
||||
A("bfi %[bin],%[work],#4,#1") /* Store read bit as the bit 4 */
|
||||
|
||||
/* bit 3 */
|
||||
" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
|
||||
" ldr %[work],[%[bitband_miso_port]]" "\n\t" /* PDSR on bitband area for required bit: work will be 1 or 0 based on port */
|
||||
" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
|
||||
" bfi %[bin],%[work],#3,#1" "\n\t" /* Store read bit as the bit 3 */
|
||||
A("str %[sck_mask],[%[sck_port]]") /* SODR */
|
||||
A("ldr %[work],[%[bitband_miso_port]]") /* PDSR on bitband area for required bit: work will be 1 or 0 based on port */
|
||||
A("str %[sck_mask],[%[sck_port],#0x4]") /* CODR */
|
||||
A("bfi %[bin],%[work],#3,#1") /* Store read bit as the bit 3 */
|
||||
|
||||
/* bit 2 */
|
||||
" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
|
||||
" ldr %[work],[%[bitband_miso_port]]" "\n\t" /* PDSR on bitband area for required bit: work will be 1 or 0 based on port */
|
||||
" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
|
||||
" bfi %[bin],%[work],#2,#1" "\n\t" /* Store read bit as the bit 2 */
|
||||
A("str %[sck_mask],[%[sck_port]]") /* SODR */
|
||||
A("ldr %[work],[%[bitband_miso_port]]") /* PDSR on bitband area for required bit: work will be 1 or 0 based on port */
|
||||
A("str %[sck_mask],[%[sck_port],#0x4]") /* CODR */
|
||||
A("bfi %[bin],%[work],#2,#1") /* Store read bit as the bit 2 */
|
||||
|
||||
/* bit 1 */
|
||||
" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
|
||||
" ldr %[work],[%[bitband_miso_port]]" "\n\t" /* PDSR on bitband area for required bit: work will be 1 or 0 based on port */
|
||||
" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
|
||||
" bfi %[bin],%[work],#1,#1" "\n\t" /* Store read bit as the bit 1 */
|
||||
A("str %[sck_mask],[%[sck_port]]") /* SODR */
|
||||
A("ldr %[work],[%[bitband_miso_port]]") /* PDSR on bitband area for required bit: work will be 1 or 0 based on port */
|
||||
A("str %[sck_mask],[%[sck_port],#0x4]") /* CODR */
|
||||
A("bfi %[bin],%[work],#1,#1") /* Store read bit as the bit 1 */
|
||||
|
||||
/* bit 0 */
|
||||
" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
|
||||
" ldr %[work],[%[bitband_miso_port]]" "\n\t" /* PDSR on bitband area for required bit: work will be 1 or 0 based on port */
|
||||
" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
|
||||
" bfi %[bin],%[work],#0,#1" "\n\t" /* Store read bit as the bit 0 */
|
||||
A("str %[sck_mask],[%[sck_port]]") /* SODR */
|
||||
A("ldr %[work],[%[bitband_miso_port]]") /* PDSR on bitband area for required bit: work will be 1 or 0 based on port */
|
||||
A("str %[sck_mask],[%[sck_port],#0x4]") /* CODR */
|
||||
A("bfi %[bin],%[work],#0,#1") /* Store read bit as the bit 0 */
|
||||
|
||||
: [bin]"+r"(bin),
|
||||
[work]"+r"(work)
|
||||
|
@ -335,60 +335,60 @@
|
|||
__asm__ __volatile__(
|
||||
".syntax unified" "\n\t" // is to prevent CM0,CM1 non-unified syntax
|
||||
|
||||
" loop%=:" "\n\t"
|
||||
" ldrb.w %[txval], [%[ptr]], #1" "\n\t" /* Load value to send, increment buffer */
|
||||
" mvn %[txval],%[txval]" "\n\t" /* Negate value */
|
||||
L("loop%=")
|
||||
A("ldrb.w %[txval], [%[ptr]], #1") /* Load value to send, increment buffer */
|
||||
A("mvn %[txval],%[txval]") /* Negate value */
|
||||
|
||||
/* Bit 7 */
|
||||
" ubfx %[work],%[txval],#7,#1" "\n\t" /* Place bit 7 in bit 0 of work*/
|
||||
A("ubfx %[work],%[txval],#7,#1") /* Place bit 7 in bit 0 of work*/
|
||||
|
||||
" str %[mosi_mask],[%[mosi_port], %[work],LSL #2]" "\n\t" /* Access the proper SODR or CODR registers based on that bit */
|
||||
" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
|
||||
" ubfx %[work],%[txval],#6,#1" "\n\t" /* Place bit 6 in bit 0 of work*/
|
||||
" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
|
||||
A("str %[mosi_mask],[%[mosi_port], %[work],LSL #2]") /* Access the proper SODR or CODR registers based on that bit */
|
||||
A("str %[sck_mask],[%[sck_port]]") /* SODR */
|
||||
A("ubfx %[work],%[txval],#6,#1") /* Place bit 6 in bit 0 of work*/
|
||||
A("str %[sck_mask],[%[sck_port],#0x4]") /* CODR */
|
||||
|
||||
/* Bit 6 */
|
||||
" str %[mosi_mask],[%[mosi_port], %[work],LSL #2]" "\n\t" /* Access the proper SODR or CODR registers based on that bit */
|
||||
" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
|
||||
" ubfx %[work],%[txval],#5,#1" "\n\t" /* Place bit 5 in bit 0 of work*/
|
||||
" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
|
||||
A("str %[mosi_mask],[%[mosi_port], %[work],LSL #2]") /* Access the proper SODR or CODR registers based on that bit */
|
||||
A("str %[sck_mask],[%[sck_port]]") /* SODR */
|
||||
A("ubfx %[work],%[txval],#5,#1") /* Place bit 5 in bit 0 of work*/
|
||||
A("str %[sck_mask],[%[sck_port],#0x4]") /* CODR */
|
||||
|
||||
/* Bit 5 */
|
||||
" str %[mosi_mask],[%[mosi_port], %[work],LSL #2]" "\n\t" /* Access the proper SODR or CODR registers based on that bit */
|
||||
" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
|
||||
" ubfx %[work],%[txval],#4,#1" "\n\t" /* Place bit 4 in bit 0 of work*/
|
||||
" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
|
||||
A("str %[mosi_mask],[%[mosi_port], %[work],LSL #2]") /* Access the proper SODR or CODR registers based on that bit */
|
||||
A("str %[sck_mask],[%[sck_port]]") /* SODR */
|
||||
A("ubfx %[work],%[txval],#4,#1") /* Place bit 4 in bit 0 of work*/
|
||||
A("str %[sck_mask],[%[sck_port],#0x4]") /* CODR */
|
||||
|
||||
/* Bit 4 */
|
||||
" str %[mosi_mask],[%[mosi_port], %[work],LSL #2]" "\n\t" /* Access the proper SODR or CODR registers based on that bit */
|
||||
" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
|
||||
" ubfx %[work],%[txval],#3,#1" "\n\t" /* Place bit 3 in bit 0 of work*/
|
||||
" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
|
||||
A("str %[mosi_mask],[%[mosi_port], %[work],LSL #2]") /* Access the proper SODR or CODR registers based on that bit */
|
||||
A("str %[sck_mask],[%[sck_port]]") /* SODR */
|
||||
A("ubfx %[work],%[txval],#3,#1") /* Place bit 3 in bit 0 of work*/
|
||||
A("str %[sck_mask],[%[sck_port],#0x4]") /* CODR */
|
||||
|
||||
/* Bit 3 */
|
||||
" str %[mosi_mask],[%[mosi_port], %[work],LSL #2]" "\n\t" /* Access the proper SODR or CODR registers based on that bit */
|
||||
" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
|
||||
" ubfx %[work],%[txval],#2,#1" "\n\t" /* Place bit 2 in bit 0 of work*/
|
||||
" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
|
||||
A("str %[mosi_mask],[%[mosi_port], %[work],LSL #2]") /* Access the proper SODR or CODR registers based on that bit */
|
||||
A("str %[sck_mask],[%[sck_port]]") /* SODR */
|
||||
A("ubfx %[work],%[txval],#2,#1") /* Place bit 2 in bit 0 of work*/
|
||||
A("str %[sck_mask],[%[sck_port],#0x4]") /* CODR */
|
||||
|
||||
/* Bit 2 */
|
||||
" str %[mosi_mask],[%[mosi_port], %[work],LSL #2]" "\n\t" /* Access the proper SODR or CODR registers based on that bit */
|
||||
" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
|
||||
" ubfx %[work],%[txval],#1,#1" "\n\t" /* Place bit 1 in bit 0 of work*/
|
||||
" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
|
||||
A("str %[mosi_mask],[%[mosi_port], %[work],LSL #2]") /* Access the proper SODR or CODR registers based on that bit */
|
||||
A("str %[sck_mask],[%[sck_port]]") /* SODR */
|
||||
A("ubfx %[work],%[txval],#1,#1") /* Place bit 1 in bit 0 of work*/
|
||||
A("str %[sck_mask],[%[sck_port],#0x4]") /* CODR */
|
||||
|
||||
/* Bit 1 */
|
||||
" str %[mosi_mask],[%[mosi_port], %[work],LSL #2]" "\n\t" /* Access the proper SODR or CODR registers based on that bit */
|
||||
" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
|
||||
" ubfx %[work],%[txval],#0,#1" "\n\t" /* Place bit 0 in bit 0 of work*/
|
||||
" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
|
||||
A("str %[mosi_mask],[%[mosi_port], %[work],LSL #2]") /* Access the proper SODR or CODR registers based on that bit */
|
||||
A("str %[sck_mask],[%[sck_port]]") /* SODR */
|
||||
A("ubfx %[work],%[txval],#0,#1") /* Place bit 0 in bit 0 of work*/
|
||||
A("str %[sck_mask],[%[sck_port],#0x4]") /* CODR */
|
||||
|
||||
/* Bit 0 */
|
||||
" str %[mosi_mask],[%[mosi_port], %[work],LSL #2]" "\n\t" /* Access the proper SODR or CODR registers based on that bit */
|
||||
" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
|
||||
" subs %[todo],#1" "\n\t" /* Decrement count of pending words to send, update status */
|
||||
" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
|
||||
" bne.n loop%=" "\n\t" /* Repeat until done */
|
||||
A("str %[mosi_mask],[%[mosi_port], %[work],LSL #2]") /* Access the proper SODR or CODR registers based on that bit */
|
||||
A("str %[sck_mask],[%[sck_port]]") /* SODR */
|
||||
A("subs %[todo],#1") /* Decrement count of pending words to send, update status */
|
||||
A("str %[sck_mask],[%[sck_port],#0x4]") /* CODR */
|
||||
A("bne.n loop%=") /* Repeat until done */
|
||||
|
||||
: [ptr]"+r" ( ptr ) ,
|
||||
[todo]"+r" ( todo ) ,
|
||||
|
@ -413,59 +413,59 @@
|
|||
__asm__ __volatile__(
|
||||
".syntax unified" "\n\t" // is to prevent CM0,CM1 non-unified syntax
|
||||
|
||||
" loop%=:" "\n\t"
|
||||
L("loop%=")
|
||||
|
||||
/* bit 7 */
|
||||
" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
|
||||
" ldr %[work],[%[bitband_miso_port]]" "\n\t" /* PDSR on bitband area for required bit: work will be 1 or 0 based on port */
|
||||
" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
|
||||
" bfi %[bin],%[work],#7,#1" "\n\t" /* Store read bit as the bit 7 */
|
||||
A("str %[sck_mask],[%[sck_port]]") /* SODR */
|
||||
A("ldr %[work],[%[bitband_miso_port]]") /* PDSR on bitband area for required bit: work will be 1 or 0 based on port */
|
||||
A("str %[sck_mask],[%[sck_port],#0x4]") /* CODR */
|
||||
A("bfi %[bin],%[work],#7,#1") /* Store read bit as the bit 7 */
|
||||
|
||||
/* bit 6 */
|
||||
" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
|
||||
" ldr %[work],[%[bitband_miso_port]]" "\n\t" /* PDSR on bitband area for required bit: work will be 1 or 0 based on port */
|
||||
" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
|
||||
" bfi %[bin],%[work],#6,#1" "\n\t" /* Store read bit as the bit 6 */
|
||||
A("str %[sck_mask],[%[sck_port]]") /* SODR */
|
||||
A("ldr %[work],[%[bitband_miso_port]]") /* PDSR on bitband area for required bit: work will be 1 or 0 based on port */
|
||||
A("str %[sck_mask],[%[sck_port],#0x4]") /* CODR */
|
||||
A("bfi %[bin],%[work],#6,#1") /* Store read bit as the bit 6 */
|
||||
|
||||
/* bit 5 */
|
||||
" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
|
||||
" ldr %[work],[%[bitband_miso_port]]" "\n\t" /* PDSR on bitband area for required bit: work will be 1 or 0 based on port */
|
||||
" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
|
||||
" bfi %[bin],%[work],#5,#1" "\n\t" /* Store read bit as the bit 5 */
|
||||
A("str %[sck_mask],[%[sck_port]]") /* SODR */
|
||||
A("ldr %[work],[%[bitband_miso_port]]") /* PDSR on bitband area for required bit: work will be 1 or 0 based on port */
|
||||
A("str %[sck_mask],[%[sck_port],#0x4]") /* CODR */
|
||||
A("bfi %[bin],%[work],#5,#1") /* Store read bit as the bit 5 */
|
||||
|
||||
/* bit 4 */
|
||||
" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
|
||||
" ldr %[work],[%[bitband_miso_port]]" "\n\t" /* PDSR on bitband area for required bit: work will be 1 or 0 based on port */
|
||||
" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
|
||||
" bfi %[bin],%[work],#4,#1" "\n\t" /* Store read bit as the bit 4 */
|
||||
A("str %[sck_mask],[%[sck_port]]") /* SODR */
|
||||
A("ldr %[work],[%[bitband_miso_port]]") /* PDSR on bitband area for required bit: work will be 1 or 0 based on port */
|
||||
A("str %[sck_mask],[%[sck_port],#0x4]") /* CODR */
|
||||
A("bfi %[bin],%[work],#4,#1") /* Store read bit as the bit 4 */
|
||||
|
||||
/* bit 3 */
|
||||
" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
|
||||
" ldr %[work],[%[bitband_miso_port]]" "\n\t" /* PDSR on bitband area for required bit: work will be 1 or 0 based on port */
|
||||
" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
|
||||
" bfi %[bin],%[work],#3,#1" "\n\t" /* Store read bit as the bit 3 */
|
||||
A("str %[sck_mask],[%[sck_port]]") /* SODR */
|
||||
A("ldr %[work],[%[bitband_miso_port]]") /* PDSR on bitband area for required bit: work will be 1 or 0 based on port */
|
||||
A("str %[sck_mask],[%[sck_port],#0x4]") /* CODR */
|
||||
A("bfi %[bin],%[work],#3,#1") /* Store read bit as the bit 3 */
|
||||
|
||||
/* bit 2 */
|
||||
" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
|
||||
" ldr %[work],[%[bitband_miso_port]]" "\n\t" /* PDSR on bitband area for required bit: work will be 1 or 0 based on port */
|
||||
" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
|
||||
" bfi %[bin],%[work],#2,#1" "\n\t" /* Store read bit as the bit 2 */
|
||||
A("str %[sck_mask],[%[sck_port]]") /* SODR */
|
||||
A("ldr %[work],[%[bitband_miso_port]]") /* PDSR on bitband area for required bit: work will be 1 or 0 based on port */
|
||||
A("str %[sck_mask],[%[sck_port],#0x4]") /* CODR */
|
||||
A("bfi %[bin],%[work],#2,#1") /* Store read bit as the bit 2 */
|
||||
|
||||
/* bit 1 */
|
||||
" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
|
||||
" ldr %[work],[%[bitband_miso_port]]" "\n\t" /* PDSR on bitband area for required bit: work will be 1 or 0 based on port */
|
||||
" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
|
||||
" bfi %[bin],%[work],#1,#1" "\n\t" /* Store read bit as the bit 1 */
|
||||
A("str %[sck_mask],[%[sck_port]]") /* SODR */
|
||||
A("ldr %[work],[%[bitband_miso_port]]") /* PDSR on bitband area for required bit: work will be 1 or 0 based on port */
|
||||
A("str %[sck_mask],[%[sck_port],#0x4]") /* CODR */
|
||||
A("bfi %[bin],%[work],#1,#1") /* Store read bit as the bit 1 */
|
||||
|
||||
/* bit 0 */
|
||||
" str %[sck_mask],[%[sck_port]]" "\n\t" /* SODR */
|
||||
" ldr %[work],[%[bitband_miso_port]]" "\n\t" /* PDSR on bitband area for required bit: work will be 1 or 0 based on port */
|
||||
" str %[sck_mask],[%[sck_port],#0x4]" "\n\t" /* CODR */
|
||||
" bfi %[bin],%[work],#0,#1" "\n\t" /* Store read bit as the bit 0 */
|
||||
A("str %[sck_mask],[%[sck_port]]") /* SODR */
|
||||
A("ldr %[work],[%[bitband_miso_port]]") /* PDSR on bitband area for required bit: work will be 1 or 0 based on port */
|
||||
A("str %[sck_mask],[%[sck_port],#0x4]") /* CODR */
|
||||
A("bfi %[bin],%[work],#0,#1") /* Store read bit as the bit 0 */
|
||||
|
||||
" subs %[todo],#1" "\n\t" /* Decrement count of pending words to send, update status */
|
||||
" strb.w %[bin], [%[ptr]], #1" "\n\t" /* Store read value into buffer, increment buffer pointer */
|
||||
" bne.n loop%=" "\n\t" /* Repeat until done */
|
||||
A("subs %[todo],#1") /* Decrement count of pending words to send, update status */
|
||||
A("strb.w %[bin], [%[ptr]], #1") /* Store read value into buffer, increment buffer pointer */
|
||||
A("bne.n loop%=") /* Repeat until done */
|
||||
|
||||
: [ptr]"+r"(ptr),
|
||||
[todo]"+r"(todo),
|
||||
|
|
|
@ -71,8 +71,6 @@ void u8g_SetPILevel_DUE(u8g_t *u8g, uint8_t pin_index, uint8_t level) {
|
|||
else port->PIO_CODR = mask;
|
||||
}
|
||||
|
||||
#define nop() __asm__ __volatile__("nop;\n\t":::)
|
||||
|
||||
void __delay_4cycles(uint32_t cy) __attribute__ ((weak));
|
||||
|
||||
FORCE_INLINE void __delay_4cycles(uint32_t cy) { // +1 cycle
|
||||
|
@ -85,10 +83,10 @@ FORCE_INLINE void __delay_4cycles(uint32_t cy) { // +1 cycle
|
|||
__asm__ __volatile__(
|
||||
".syntax unified" "\n\t" // is to prevent CM0,CM1 non-unified syntax
|
||||
|
||||
"loop%=:" "\n\t"
|
||||
" subs %[cnt],#1" "\n\t"
|
||||
EXTRA_NOP_CYCLES "\n\t"
|
||||
" bne loop%=" "\n\t"
|
||||
L("loop%=")
|
||||
A("subs %[cnt],#1")
|
||||
A(EXTRA_NOP_CYCLES)
|
||||
A("bne loop%=")
|
||||
: [cnt]"+r"(cy) // output: +r means input+output
|
||||
: // input:
|
||||
: "cc" // clobbers:
|
||||
|
|
|
@ -291,7 +291,7 @@ static inline __attribute__((always_inline)) uint32_t read_psp(void) {
|
|||
/* Read the current PSP and return its value as a pointer */
|
||||
uint32_t psp;
|
||||
|
||||
__asm volatile (
|
||||
__asm__ volatile (
|
||||
" mrs %0, psp \n"
|
||||
: "=r" (psp) : :
|
||||
);
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,4,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -444,6 +444,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -433,6 +433,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -433,6 +433,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -433,6 +433,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -433,6 +433,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -433,6 +433,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -438,6 +438,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -433,6 +433,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -431,6 +431,15 @@
|
|||
// if unwanted behavior is observed on a user's machine when running at very slow speeds.
|
||||
#define MINIMUM_PLANNER_SPEED 0.05 // (mm/sec)
|
||||
|
||||
//
|
||||
// Use Junction Deviation instead of traditional Jerk Limiting
|
||||
//
|
||||
//#define JUNCTION_DEVIATION
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
#define JUNCTION_DEVIATION_FACTOR 0.02
|
||||
//#define JUNCTION_DEVIATION_INCLUDE_E
|
||||
#endif
|
||||
|
||||
// Microstep setting (Only functional when stepper driver microstep pins are connected to MCU.
|
||||
#define MICROSTEP_MODES {16,16,16,16,16} // [1,2,4,8,16]
|
||||
|
||||
|
|
|
@ -110,6 +110,9 @@
|
|||
#define STRINGIFY_(M) #M
|
||||
#define STRINGIFY(M) STRINGIFY_(M)
|
||||
|
||||
#define A(CODE) " " CODE "\n\t"
|
||||
#define L(CODE) CODE ":\n\t"
|
||||
|
||||
// Macros for bit masks
|
||||
#undef _BV
|
||||
#define _BV(b) (1 << (b))
|
||||
|
|
|
@ -639,7 +639,7 @@ class DigitalPin {
|
|||
|
||||
//------------------------------------------------------------------------------
|
||||
/** Nop for timing. */
|
||||
#define nop asm volatile ("nop\n\t")
|
||||
#define nop __asm__ volatile ("nop")
|
||||
//------------------------------------------------------------------------------
|
||||
/** Pin Mode for MISO is input.*/
|
||||
const bool MISO_MODE = false;
|
||||
|
|
|
@ -409,7 +409,7 @@ void Planner::init() {
|
|||
// %8:%7:%6 = interval
|
||||
// r31:r30: MUST be those registers, and they must point to the inv_tab
|
||||
|
||||
" clr %13" "\n\t" // %13 = 0
|
||||
A("clr %13") // %13 = 0
|
||||
|
||||
// Now we must compute
|
||||
// result = 0xFFFFFF / d
|
||||
|
@ -421,122 +421,122 @@ void Planner::init() {
|
|||
// use Newton-Raphson for the calculation, and will strive to get way less cycles
|
||||
// for the same result - Using C division, it takes 500cycles to complete .
|
||||
|
||||
" clr %3" "\n\t" // idx = 0
|
||||
" mov %14,%6" "\n\t"
|
||||
" mov %15,%7" "\n\t"
|
||||
" mov %16,%8" "\n\t" // nr = interval
|
||||
" tst %16" "\n\t" // nr & 0xFF0000 == 0 ?
|
||||
" brne 2f" "\n\t" // No, skip this
|
||||
" mov %16,%15" "\n\t"
|
||||
" mov %15,%14" "\n\t" // nr <<= 8, %14 not needed
|
||||
" subi %3,-8" "\n\t" // idx += 8
|
||||
" tst %16" "\n\t" // nr & 0xFF0000 == 0 ?
|
||||
" brne 2f" "\n\t" // No, skip this
|
||||
" mov %16,%15" "\n\t" // nr <<= 8, %14 not needed
|
||||
" clr %15" "\n\t" // We clear %14
|
||||
" subi %3,-8" "\n\t" // idx += 8
|
||||
A("clr %3") // idx = 0
|
||||
A("mov %14,%6")
|
||||
A("mov %15,%7")
|
||||
A("mov %16,%8") // nr = interval
|
||||
A("tst %16") // nr & 0xFF0000 == 0 ?
|
||||
A("brne 2f") // No, skip this
|
||||
A("mov %16,%15")
|
||||
A("mov %15,%14") // nr <<= 8, %14 not needed
|
||||
A("subi %3,-8") // idx += 8
|
||||
A("tst %16") // nr & 0xFF0000 == 0 ?
|
||||
A("brne 2f") // No, skip this
|
||||
A("mov %16,%15") // nr <<= 8, %14 not needed
|
||||
A("clr %15") // We clear %14
|
||||
A("subi %3,-8") // idx += 8
|
||||
|
||||
// here %16 != 0 and %16:%15 contains at least 9 MSBits, or both %16:%15 are 0
|
||||
"2:" "\n\t"
|
||||
" cpi %16,0x10" "\n\t" // (nr & 0xf00000) == 0 ?
|
||||
" brcc 3f" "\n\t" // No, skip this
|
||||
" swap %15" "\n\t" // Swap nibbles
|
||||
" swap %16" "\n\t" // Swap nibbles. Low nibble is 0
|
||||
" mov %14, %15" "\n\t"
|
||||
" andi %14,0x0f" "\n\t" // Isolate low nibble
|
||||
" andi %15,0xf0" "\n\t" // Keep proper nibble in %15
|
||||
" or %16, %14" "\n\t" // %16:%15 <<= 4
|
||||
" subi %3,-4" "\n\t" // idx += 4
|
||||
L("2")
|
||||
A("cpi %16,0x10") // (nr & 0xF00000) == 0 ?
|
||||
A("brcc 3f") // No, skip this
|
||||
A("swap %15") // Swap nibbles
|
||||
A("swap %16") // Swap nibbles. Low nibble is 0
|
||||
A("mov %14, %15")
|
||||
A("andi %14,0x0F") // Isolate low nibble
|
||||
A("andi %15,0xF0") // Keep proper nibble in %15
|
||||
A("or %16, %14") // %16:%15 <<= 4
|
||||
A("subi %3,-4") // idx += 4
|
||||
|
||||
"3:" "\n\t"
|
||||
" cpi %16,0x40" "\n\t" // (nr & 0xc00000) == 0 ?
|
||||
" brcc 4f" "\n\t" // No, skip this
|
||||
" add %15,%15" "\n\t"
|
||||
" adc %16,%16" "\n\t"
|
||||
" add %15,%15" "\n\t"
|
||||
" adc %16,%16" "\n\t" // %16:%15 <<= 2
|
||||
" subi %3,-2" "\n\t" // idx += 2
|
||||
L("3")
|
||||
A("cpi %16,0x40") // (nr & 0xC00000) == 0 ?
|
||||
A("brcc 4f") // No, skip this
|
||||
A("add %15,%15")
|
||||
A("adc %16,%16")
|
||||
A("add %15,%15")
|
||||
A("adc %16,%16") // %16:%15 <<= 2
|
||||
A("subi %3,-2") // idx += 2
|
||||
|
||||
"4:" "\n\t"
|
||||
" cpi %16,0x80" "\n\t" // (nr & 0x800000) == 0 ?
|
||||
" brcc 5f" "\n\t" // No, skip this
|
||||
" add %15,%15" "\n\t"
|
||||
" adc %16,%16" "\n\t" // %16:%15 <<= 1
|
||||
" inc %3" "\n\t" // idx += 1
|
||||
L("4")
|
||||
A("cpi %16,0x80") // (nr & 0x800000) == 0 ?
|
||||
A("brcc 5f") // No, skip this
|
||||
A("add %15,%15")
|
||||
A("adc %16,%16") // %16:%15 <<= 1
|
||||
A("inc %3") // idx += 1
|
||||
|
||||
// Now %16:%15 contains its MSBit set to 1, or %16:%15 is == 0. We are now absolutely sure
|
||||
// we have at least 9 MSBits available to enter the initial estimation table
|
||||
"5:" "\n\t"
|
||||
" add %15,%15" "\n\t"
|
||||
" adc %16,%16" "\n\t" // %16:%15 = tidx = (nr <<= 1), we lose the top MSBit (always set to 1, %16 is the index into the inverse table)
|
||||
" add r30,%16" "\n\t" // Only use top 8 bits
|
||||
" adc r31,%13" "\n\t" // r31:r30 = inv_tab + (tidx)
|
||||
" lpm %14, Z" "\n\t" // %14 = inv_tab[tidx]
|
||||
" ldi %15, 1" "\n\t" // %15 = 1 %15:%14 = inv_tab[tidx] + 256
|
||||
L("5")
|
||||
A("add %15,%15")
|
||||
A("adc %16,%16") // %16:%15 = tidx = (nr <<= 1), we lose the top MSBit (always set to 1, %16 is the index into the inverse table)
|
||||
A("add r30,%16") // Only use top 8 bits
|
||||
A("adc r31,%13") // r31:r30 = inv_tab + (tidx)
|
||||
A("lpm %14, Z") // %14 = inv_tab[tidx]
|
||||
A("ldi %15, 1") // %15 = 1 %15:%14 = inv_tab[tidx] + 256
|
||||
|
||||
// We must scale the approximation to the proper place
|
||||
" clr %16" "\n\t" // %16 will always be 0 here
|
||||
" subi %3,8" "\n\t" // idx == 8 ?
|
||||
" breq 6f" "\n\t" // yes, no need to scale
|
||||
" brcs 7f" "\n\t" // If C=1, means idx < 8, result was negative!
|
||||
A("clr %16") // %16 will always be 0 here
|
||||
A("subi %3,8") // idx == 8 ?
|
||||
A("breq 6f") // yes, no need to scale
|
||||
A("brcs 7f") // If C=1, means idx < 8, result was negative!
|
||||
|
||||
// idx > 8, now %3 = idx - 8. We must perform a left shift. idx range:[1-8]
|
||||
" sbrs %3,0" "\n\t" // shift by 1bit position?
|
||||
" rjmp 8f" "\n\t" // No
|
||||
" add %14,%14" "\n\t"
|
||||
" adc %15,%15" "\n\t" // %15:16 <<= 1
|
||||
"8:" "\n\t"
|
||||
" sbrs %3,1" "\n\t" // shift by 2bit position?
|
||||
" rjmp 9f" "\n\t" // No
|
||||
" add %14,%14" "\n\t"
|
||||
" adc %15,%15" "\n\t"
|
||||
" add %14,%14" "\n\t"
|
||||
" adc %15,%15" "\n\t" // %15:16 <<= 1
|
||||
"9:" "\n\t"
|
||||
" sbrs %3,2" "\n\t" // shift by 4bits position?
|
||||
" rjmp 16f" "\n\t" // No
|
||||
" swap %15" "\n\t" // Swap nibbles. lo nibble of %15 will always be 0
|
||||
" swap %14" "\n\t" // Swap nibbles
|
||||
" mov %12,%14" "\n\t"
|
||||
" andi %12,0x0f" "\n\t" // isolate low nibble
|
||||
" andi %14,0xf0" "\n\t" // and clear it
|
||||
" or %15,%12" "\n\t" // %15:%16 <<= 4
|
||||
"16:" "\n\t"
|
||||
" sbrs %3,3" "\n\t" // shift by 8bits position?
|
||||
" rjmp 6f" "\n\t" // No, we are done
|
||||
" mov %16,%15" "\n\t"
|
||||
" mov %15,%14" "\n\t"
|
||||
" clr %14" "\n\t"
|
||||
" jmp 6f" "\n\t"
|
||||
A("sbrs %3,0") // shift by 1bit position?
|
||||
A("rjmp 8f") // No
|
||||
A("add %14,%14")
|
||||
A("adc %15,%15") // %15:16 <<= 1
|
||||
L("8")
|
||||
A("sbrs %3,1") // shift by 2bit position?
|
||||
A("rjmp 9f") // No
|
||||
A("add %14,%14")
|
||||
A("adc %15,%15")
|
||||
A("add %14,%14")
|
||||
A("adc %15,%15") // %15:16 <<= 1
|
||||
L("9")
|
||||
A("sbrs %3,2") // shift by 4bits position?
|
||||
A("rjmp 16f") // No
|
||||
A("swap %15") // Swap nibbles. lo nibble of %15 will always be 0
|
||||
A("swap %14") // Swap nibbles
|
||||
A("mov %12,%14")
|
||||
A("andi %12,0x0F") // isolate low nibble
|
||||
A("andi %14,0xF0") // and clear it
|
||||
A("or %15,%12") // %15:%16 <<= 4
|
||||
L("16")
|
||||
A("sbrs %3,3") // shift by 8bits position?
|
||||
A("rjmp 6f") // No, we are done
|
||||
A("mov %16,%15")
|
||||
A("mov %15,%14")
|
||||
A("clr %14")
|
||||
A("jmp 6f")
|
||||
|
||||
// idx < 8, now %3 = idx - 8. Get the count of bits
|
||||
"7:" "\n\t"
|
||||
" neg %3" "\n\t" // %3 = -idx = count of bits to move right. idx range:[1...8]
|
||||
" sbrs %3,0" "\n\t" // shift by 1 bit position ?
|
||||
" rjmp 10f" "\n\t" // No, skip it
|
||||
" asr %15" "\n\t" // (bit7 is always 0 here)
|
||||
" ror %14" "\n\t"
|
||||
"10:" "\n\t"
|
||||
" sbrs %3,1" "\n\t" // shift by 2 bit position ?
|
||||
" rjmp 11f" "\n\t" // No, skip it
|
||||
" asr %15" "\n\t" // (bit7 is always 0 here)
|
||||
" ror %14" "\n\t"
|
||||
" asr %15" "\n\t" // (bit7 is always 0 here)
|
||||
" ror %14" "\n\t"
|
||||
"11:" "\n\t"
|
||||
" sbrs %3,2" "\n\t" // shift by 4 bit position ?
|
||||
" rjmp 12f" "\n\t" // No, skip it
|
||||
" swap %15" "\n\t" // Swap nibbles
|
||||
" andi %14, 0xf0" "\n\t" // Lose the lowest nibble
|
||||
" swap %14" "\n\t" // Swap nibbles. Upper nibble is 0
|
||||
" or %14,%15" "\n\t" // Pass nibble from upper byte
|
||||
" andi %15, 0x0f" "\n\t" // And get rid of that nibble
|
||||
"12:" "\n\t"
|
||||
" sbrs %3,3" "\n\t" // shift by 8 bit position ?
|
||||
" rjmp 6f" "\n\t" // No, skip it
|
||||
" mov %14,%15" "\n\t"
|
||||
" clr %15" "\n\t"
|
||||
"6:" "\n\t" // %16:%15:%14 = initial estimation of 0x1000000 / d
|
||||
L("7")
|
||||
A("neg %3") // %3 = -idx = count of bits to move right. idx range:[1...8]
|
||||
A("sbrs %3,0") // shift by 1 bit position ?
|
||||
A("rjmp 10f") // No, skip it
|
||||
A("asr %15") // (bit7 is always 0 here)
|
||||
A("ror %14")
|
||||
L("10")
|
||||
A("sbrs %3,1") // shift by 2 bit position ?
|
||||
A("rjmp 11f") // No, skip it
|
||||
A("asr %15") // (bit7 is always 0 here)
|
||||
A("ror %14")
|
||||
A("asr %15") // (bit7 is always 0 here)
|
||||
A("ror %14")
|
||||
L("11")
|
||||
A("sbrs %3,2") // shift by 4 bit position ?
|
||||
A("rjmp 12f") // No, skip it
|
||||
A("swap %15") // Swap nibbles
|
||||
A("andi %14, 0xF0") // Lose the lowest nibble
|
||||
A("swap %14") // Swap nibbles. Upper nibble is 0
|
||||
A("or %14,%15") // Pass nibble from upper byte
|
||||
A("andi %15, 0x0F") // And get rid of that nibble
|
||||
L("12")
|
||||
A("sbrs %3,3") // shift by 8 bit position ?
|
||||
A("rjmp 6f") // No, skip it
|
||||
A("mov %14,%15")
|
||||
A("clr %15")
|
||||
L("6") // %16:%15:%14 = initial estimation of 0x1000000 / d
|
||||
|
||||
// Now, we must refine the estimation present on %16:%15:%14 using 1 iteration
|
||||
// of Newton-Raphson. As it has a quadratic convergence, 1 iteration is enough
|
||||
|
@ -549,36 +549,36 @@ void Planner::init() {
|
|||
// %3:%2:%1:%0 = working accumulator
|
||||
|
||||
// Compute 1<<25 - x*d. Result should never exceed 25 bits and should always be positive
|
||||
" clr %0" "\n\t"
|
||||
" clr %1" "\n\t"
|
||||
" clr %2" "\n\t"
|
||||
" ldi %3,2" "\n\t" // %3:%2:%1:%0 = 0x2000000
|
||||
" mul %6,%14" "\n\t" // r1:r0 = LO(d) * LO(x)
|
||||
" sub %0,r0" "\n\t"
|
||||
" sbc %1,r1" "\n\t"
|
||||
" sbc %2,%13" "\n\t"
|
||||
" sbc %3,%13" "\n\t" // %3:%2:%1:%0 -= LO(d) * LO(x)
|
||||
" mul %7,%14" "\n\t" // r1:r0 = MI(d) * LO(x)
|
||||
" sub %1,r0" "\n\t"
|
||||
" sbc %2,r1" "\n\t"
|
||||
" sbc %3,%13" "\n\t" // %3:%2:%1:%0 -= MI(d) * LO(x) << 8
|
||||
" mul %8,%14" "\n\t" // r1:r0 = HI(d) * LO(x)
|
||||
" sub %2,r0" "\n\t"
|
||||
" sbc %3,r1" "\n\t" // %3:%2:%1:%0 -= MIL(d) * LO(x) << 16
|
||||
" mul %6,%15" "\n\t" // r1:r0 = LO(d) * MI(x)
|
||||
" sub %1,r0" "\n\t"
|
||||
" sbc %2,r1" "\n\t"
|
||||
" sbc %3,%13" "\n\t" // %3:%2:%1:%0 -= LO(d) * MI(x) << 8
|
||||
" mul %7,%15" "\n\t" // r1:r0 = MI(d) * MI(x)
|
||||
" sub %2,r0" "\n\t"
|
||||
" sbc %3,r1" "\n\t" // %3:%2:%1:%0 -= MI(d) * MI(x) << 16
|
||||
" mul %8,%15" "\n\t" // r1:r0 = HI(d) * MI(x)
|
||||
" sub %3,r0" "\n\t" // %3:%2:%1:%0 -= MIL(d) * MI(x) << 24
|
||||
" mul %6,%16" "\n\t" // r1:r0 = LO(d) * HI(x)
|
||||
" sub %2,r0" "\n\t"
|
||||
" sbc %3,r1" "\n\t" // %3:%2:%1:%0 -= LO(d) * HI(x) << 16
|
||||
" mul %7,%16" "\n\t" // r1:r0 = MI(d) * HI(x)
|
||||
" sub %3,r0" "\n\t" // %3:%2:%1:%0 -= MI(d) * HI(x) << 24
|
||||
A("clr %0")
|
||||
A("clr %1")
|
||||
A("clr %2")
|
||||
A("ldi %3,2") // %3:%2:%1:%0 = 0x2000000
|
||||
A("mul %6,%14") // r1:r0 = LO(d) * LO(x)
|
||||
A("sub %0,r0")
|
||||
A("sbc %1,r1")
|
||||
A("sbc %2,%13")
|
||||
A("sbc %3,%13") // %3:%2:%1:%0 -= LO(d) * LO(x)
|
||||
A("mul %7,%14") // r1:r0 = MI(d) * LO(x)
|
||||
A("sub %1,r0")
|
||||
A("sbc %2,r1" )
|
||||
A("sbc %3,%13") // %3:%2:%1:%0 -= MI(d) * LO(x) << 8
|
||||
A("mul %8,%14") // r1:r0 = HI(d) * LO(x)
|
||||
A("sub %2,r0")
|
||||
A("sbc %3,r1") // %3:%2:%1:%0 -= MIL(d) * LO(x) << 16
|
||||
A("mul %6,%15") // r1:r0 = LO(d) * MI(x)
|
||||
A("sub %1,r0")
|
||||
A("sbc %2,r1")
|
||||
A("sbc %3,%13") // %3:%2:%1:%0 -= LO(d) * MI(x) << 8
|
||||
A("mul %7,%15") // r1:r0 = MI(d) * MI(x)
|
||||
A("sub %2,r0")
|
||||
A("sbc %3,r1") // %3:%2:%1:%0 -= MI(d) * MI(x) << 16
|
||||
A("mul %8,%15") // r1:r0 = HI(d) * MI(x)
|
||||
A("sub %3,r0") // %3:%2:%1:%0 -= MIL(d) * MI(x) << 24
|
||||
A("mul %6,%16") // r1:r0 = LO(d) * HI(x)
|
||||
A("sub %2,r0")
|
||||
A("sbc %3,r1") // %3:%2:%1:%0 -= LO(d) * HI(x) << 16
|
||||
A("mul %7,%16") // r1:r0 = MI(d) * HI(x)
|
||||
A("sub %3,r0") // %3:%2:%1:%0 -= MI(d) * HI(x) << 24
|
||||
// %3:%2:%1:%0 = (1<<25) - x*d [169]
|
||||
|
||||
// We need to multiply that result by x, and we are only interested in the top 24bits of that multiply
|
||||
|
@ -588,62 +588,62 @@ void Planner::init() {
|
|||
// %13 = 0
|
||||
|
||||
// result = %11:%10:%9:%5:%4
|
||||
" mul %14,%0" "\n\t" // r1:r0 = LO(x) * LO(acc)
|
||||
" mov %4,r1" "\n\t"
|
||||
" clr %5" "\n\t"
|
||||
" clr %9" "\n\t"
|
||||
" clr %10" "\n\t"
|
||||
" clr %11" "\n\t" // %11:%10:%9:%5:%4 = LO(x) * LO(acc) >> 8
|
||||
" mul %15,%0" "\n\t" // r1:r0 = MI(x) * LO(acc)
|
||||
" add %4,r0" "\n\t"
|
||||
" adc %5,r1" "\n\t"
|
||||
" adc %9,%13" "\n\t"
|
||||
" adc %10,%13" "\n\t"
|
||||
" adc %11,%13" "\n\t" // %11:%10:%9:%5:%4 += MI(x) * LO(acc)
|
||||
" mul %16,%0" "\n\t" // r1:r0 = HI(x) * LO(acc)
|
||||
" add %5,r0" "\n\t"
|
||||
" adc %9,r1" "\n\t"
|
||||
" adc %10,%13" "\n\t"
|
||||
" adc %11,%13" "\n\t" // %11:%10:%9:%5:%4 += MI(x) * LO(acc) << 8
|
||||
A("mul %14,%0") // r1:r0 = LO(x) * LO(acc)
|
||||
A("mov %4,r1")
|
||||
A("clr %5")
|
||||
A("clr %9")
|
||||
A("clr %10")
|
||||
A("clr %11") // %11:%10:%9:%5:%4 = LO(x) * LO(acc) >> 8
|
||||
A("mul %15,%0") // r1:r0 = MI(x) * LO(acc)
|
||||
A("add %4,r0")
|
||||
A("adc %5,r1")
|
||||
A("adc %9,%13")
|
||||
A("adc %10,%13")
|
||||
A("adc %11,%13") // %11:%10:%9:%5:%4 += MI(x) * LO(acc)
|
||||
A("mul %16,%0") // r1:r0 = HI(x) * LO(acc)
|
||||
A("add %5,r0")
|
||||
A("adc %9,r1")
|
||||
A("adc %10,%13")
|
||||
A("adc %11,%13") // %11:%10:%9:%5:%4 += MI(x) * LO(acc) << 8
|
||||
|
||||
" mul %14,%1" "\n\t" // r1:r0 = LO(x) * MIL(acc)
|
||||
" add %4,r0" "\n\t"
|
||||
" adc %5,r1" "\n\t"
|
||||
" adc %9,%13" "\n\t"
|
||||
" adc %10,%13" "\n\t"
|
||||
" adc %11,%13" "\n\t" // %11:%10:%9:%5:%4 = LO(x) * MIL(acc)
|
||||
" mul %15,%1" "\n\t" // r1:r0 = MI(x) * MIL(acc)
|
||||
" add %5,r0" "\n\t"
|
||||
" adc %9,r1" "\n\t"
|
||||
" adc %10,%13" "\n\t"
|
||||
" adc %11,%13" "\n\t" // %11:%10:%9:%5:%4 += MI(x) * MIL(acc) << 8
|
||||
" mul %16,%1" "\n\t" // r1:r0 = HI(x) * MIL(acc)
|
||||
" add %9,r0" "\n\t"
|
||||
" adc %10,r1" "\n\t"
|
||||
" adc %11,%13" "\n\t" // %11:%10:%9:%5:%4 += MI(x) * MIL(acc) << 16
|
||||
A("mul %14,%1") // r1:r0 = LO(x) * MIL(acc)
|
||||
A("add %4,r0")
|
||||
A("adc %5,r1")
|
||||
A("adc %9,%13")
|
||||
A("adc %10,%13")
|
||||
A("adc %11,%13") // %11:%10:%9:%5:%4 = LO(x) * MIL(acc)
|
||||
A("mul %15,%1") // r1:r0 = MI(x) * MIL(acc)
|
||||
A("add %5,r0")
|
||||
A("adc %9,r1")
|
||||
A("adc %10,%13")
|
||||
A("adc %11,%13") // %11:%10:%9:%5:%4 += MI(x) * MIL(acc) << 8
|
||||
A("mul %16,%1") // r1:r0 = HI(x) * MIL(acc)
|
||||
A("add %9,r0")
|
||||
A("adc %10,r1")
|
||||
A("adc %11,%13") // %11:%10:%9:%5:%4 += MI(x) * MIL(acc) << 16
|
||||
|
||||
" mul %14,%2" "\n\t" // r1:r0 = LO(x) * MIH(acc)
|
||||
" add %5,r0" "\n\t"
|
||||
" adc %9,r1" "\n\t"
|
||||
" adc %10,%13" "\n\t"
|
||||
" adc %11,%13" "\n\t" // %11:%10:%9:%5:%4 = LO(x) * MIH(acc) << 8
|
||||
" mul %15,%2" "\n\t" // r1:r0 = MI(x) * MIH(acc)
|
||||
" add %9,r0" "\n\t"
|
||||
" adc %10,r1" "\n\t"
|
||||
" adc %11,%13" "\n\t" // %11:%10:%9:%5:%4 += MI(x) * MIH(acc) << 16
|
||||
" mul %16,%2" "\n\t" // r1:r0 = HI(x) * MIH(acc)
|
||||
" add %10,r0" "\n\t"
|
||||
" adc %11,r1" "\n\t" // %11:%10:%9:%5:%4 += MI(x) * MIH(acc) << 24
|
||||
A("mul %14,%2") // r1:r0 = LO(x) * MIH(acc)
|
||||
A("add %5,r0")
|
||||
A("adc %9,r1")
|
||||
A("adc %10,%13")
|
||||
A("adc %11,%13") // %11:%10:%9:%5:%4 = LO(x) * MIH(acc) << 8
|
||||
A("mul %15,%2") // r1:r0 = MI(x) * MIH(acc)
|
||||
A("add %9,r0")
|
||||
A("adc %10,r1")
|
||||
A("adc %11,%13") // %11:%10:%9:%5:%4 += MI(x) * MIH(acc) << 16
|
||||
A("mul %16,%2") // r1:r0 = HI(x) * MIH(acc)
|
||||
A("add %10,r0")
|
||||
A("adc %11,r1") // %11:%10:%9:%5:%4 += MI(x) * MIH(acc) << 24
|
||||
|
||||
" mul %14,%3" "\n\t" // r1:r0 = LO(x) * HI(acc)
|
||||
" add %9,r0" "\n\t"
|
||||
" adc %10,r1" "\n\t"
|
||||
" adc %11,%13" "\n\t" // %11:%10:%9:%5:%4 = LO(x) * HI(acc) << 16
|
||||
" mul %15,%3" "\n\t" // r1:r0 = MI(x) * HI(acc)
|
||||
" add %10,r0" "\n\t"
|
||||
" adc %11,r1" "\n\t" // %11:%10:%9:%5:%4 += MI(x) * HI(acc) << 24
|
||||
" mul %16,%3" "\n\t" // r1:r0 = HI(x) * HI(acc)
|
||||
" add %11,r0" "\n\t" // %11:%10:%9:%5:%4 += MI(x) * HI(acc) << 32
|
||||
A("mul %14,%3") // r1:r0 = LO(x) * HI(acc)
|
||||
A("add %9,r0")
|
||||
A("adc %10,r1")
|
||||
A("adc %11,%13") // %11:%10:%9:%5:%4 = LO(x) * HI(acc) << 16
|
||||
A("mul %15,%3") // r1:r0 = MI(x) * HI(acc)
|
||||
A("add %10,r0")
|
||||
A("adc %11,r1") // %11:%10:%9:%5:%4 += MI(x) * HI(acc) << 24
|
||||
A("mul %16,%3") // r1:r0 = HI(x) * HI(acc)
|
||||
A("add %11,r0") // %11:%10:%9:%5:%4 += MI(x) * HI(acc) << 32
|
||||
|
||||
// At this point, %11:%10:%9 contains the new estimation of x.
|
||||
|
||||
|
@ -651,54 +651,54 @@ void Planner::init() {
|
|||
// (1<<24) - x*d
|
||||
// %11:%10:%9 = x
|
||||
// %8:%7:%6 = d = interval" "\n\t"
|
||||
" ldi %3,1" "\n\t"
|
||||
" clr %2" "\n\t"
|
||||
" clr %1" "\n\t"
|
||||
" clr %0" "\n\t" // %3:%2:%1:%0 = 0x1000000
|
||||
" mul %6,%9" "\n\t" // r1:r0 = LO(d) * LO(x)
|
||||
" sub %0,r0" "\n\t"
|
||||
" sbc %1,r1" "\n\t"
|
||||
" sbc %2,%13" "\n\t"
|
||||
" sbc %3,%13" "\n\t" // %3:%2:%1:%0 -= LO(d) * LO(x)
|
||||
" mul %7,%9" "\n\t" // r1:r0 = MI(d) * LO(x)
|
||||
" sub %1,r0" "\n\t"
|
||||
" sbc %2,r1" "\n\t"
|
||||
" sbc %3,%13" "\n\t" // %3:%2:%1:%0 -= MI(d) * LO(x) << 8
|
||||
" mul %8,%9" "\n\t" // r1:r0 = HI(d) * LO(x)
|
||||
" sub %2,r0" "\n\t"
|
||||
" sbc %3,r1" "\n\t" // %3:%2:%1:%0 -= MIL(d) * LO(x) << 16
|
||||
" mul %6,%10" "\n\t" // r1:r0 = LO(d) * MI(x)
|
||||
" sub %1,r0" "\n\t"
|
||||
" sbc %2,r1" "\n\t"
|
||||
" sbc %3,%13" "\n\t" // %3:%2:%1:%0 -= LO(d) * MI(x) << 8
|
||||
" mul %7,%10" "\n\t" // r1:r0 = MI(d) * MI(x)
|
||||
" sub %2,r0" "\n\t"
|
||||
" sbc %3,r1" "\n\t" // %3:%2:%1:%0 -= MI(d) * MI(x) << 16
|
||||
" mul %8,%10" "\n\t" // r1:r0 = HI(d) * MI(x)
|
||||
" sub %3,r0" "\n\t" // %3:%2:%1:%0 -= MIL(d) * MI(x) << 24
|
||||
" mul %6,%11" "\n\t" // r1:r0 = LO(d) * HI(x)
|
||||
" sub %2,r0" "\n\t"
|
||||
" sbc %3,r1" "\n\t" // %3:%2:%1:%0 -= LO(d) * HI(x) << 16
|
||||
" mul %7,%11" "\n\t" // r1:r0 = MI(d) * HI(x)
|
||||
" sub %3,r0" "\n\t" // %3:%2:%1:%0 -= MI(d) * HI(x) << 24
|
||||
A("ldi %3,1")
|
||||
A("clr %2")
|
||||
A("clr %1")
|
||||
A("clr %0") // %3:%2:%1:%0 = 0x1000000
|
||||
A("mul %6,%9") // r1:r0 = LO(d) * LO(x)
|
||||
A("sub %0,r0")
|
||||
A("sbc %1,r1")
|
||||
A("sbc %2,%13")
|
||||
A("sbc %3,%13") // %3:%2:%1:%0 -= LO(d) * LO(x)
|
||||
A("mul %7,%9") // r1:r0 = MI(d) * LO(x)
|
||||
A("sub %1,r0")
|
||||
A("sbc %2,r1")
|
||||
A("sbc %3,%13") // %3:%2:%1:%0 -= MI(d) * LO(x) << 8
|
||||
A("mul %8,%9") // r1:r0 = HI(d) * LO(x)
|
||||
A("sub %2,r0")
|
||||
A("sbc %3,r1") // %3:%2:%1:%0 -= MIL(d) * LO(x) << 16
|
||||
A("mul %6,%10") // r1:r0 = LO(d) * MI(x)
|
||||
A("sub %1,r0")
|
||||
A("sbc %2,r1")
|
||||
A("sbc %3,%13") // %3:%2:%1:%0 -= LO(d) * MI(x) << 8
|
||||
A("mul %7,%10") // r1:r0 = MI(d) * MI(x)
|
||||
A("sub %2,r0")
|
||||
A("sbc %3,r1") // %3:%2:%1:%0 -= MI(d) * MI(x) << 16
|
||||
A("mul %8,%10") // r1:r0 = HI(d) * MI(x)
|
||||
A("sub %3,r0") // %3:%2:%1:%0 -= MIL(d) * MI(x) << 24
|
||||
A("mul %6,%11") // r1:r0 = LO(d) * HI(x)
|
||||
A("sub %2,r0")
|
||||
A("sbc %3,r1") // %3:%2:%1:%0 -= LO(d) * HI(x) << 16
|
||||
A("mul %7,%11") // r1:r0 = MI(d) * HI(x)
|
||||
A("sub %3,r0") // %3:%2:%1:%0 -= MI(d) * HI(x) << 24
|
||||
// %3:%2:%1:%0 = r = (1<<24) - x*d
|
||||
// %8:%7:%6 = d = interval
|
||||
|
||||
// Perform the final correction
|
||||
" sub %0,%6" "\n\t"
|
||||
" sbc %1,%7" "\n\t"
|
||||
" sbc %2,%8" "\n\t" // r -= d
|
||||
" brcs 14f" "\n\t" // if ( r >= d)
|
||||
A("sub %0,%6")
|
||||
A("sbc %1,%7")
|
||||
A("sbc %2,%8") // r -= d
|
||||
A("brcs 14f") // if ( r >= d)
|
||||
|
||||
// %11:%10:%9 = x
|
||||
" ldi %3,1" "\n\t"
|
||||
" add %9,%3" "\n\t"
|
||||
" adc %10,%13" "\n\t"
|
||||
" adc %11,%13" "\n\t" // x++
|
||||
"14:" "\n\t"
|
||||
A("ldi %3,1")
|
||||
A("add %9,%3")
|
||||
A("adc %10,%13")
|
||||
A("adc %11,%13") // x++
|
||||
L("14")
|
||||
|
||||
// Estimation is done. %11:%10:%9 = x
|
||||
" clr __zero_reg__" "\n\t" // Make C runtime happy
|
||||
A("clr __zero_reg__") // Make C runtime happy
|
||||
// [211 cycles total]
|
||||
: "=r" (r2),
|
||||
"=r" (r3),
|
||||
|
@ -787,8 +787,8 @@ void Planner::calculate_trapezoid_for_block(block_t* const block, const float &e
|
|||
|
||||
#if ENABLED(BEZIER_JERK_CONTROL)
|
||||
// Jerk controlled speed requires to express speed versus time, NOT steps
|
||||
uint32_t acceleration_time = ((float)(cruise_rate - initial_rate) / accel) * HAL_STEPPER_TIMER_RATE,
|
||||
deceleration_time = ((float)(cruise_rate - final_rate) / accel) * HAL_STEPPER_TIMER_RATE;
|
||||
uint32_t acceleration_time = ((float)(cruise_rate - initial_rate) / accel) * (HAL_STEPPER_TIMER_RATE),
|
||||
deceleration_time = ((float)(cruise_rate - final_rate) / accel) * (HAL_STEPPER_TIMER_RATE);
|
||||
|
||||
// And to offload calculations from the ISR, we also calculate the inverse of those times here
|
||||
uint32_t acceleration_time_inverse = get_period_inverse(acceleration_time);
|
||||
|
@ -1864,57 +1864,86 @@ void Planner::_buffer_steps(const int32_t (&target)[XYZE]
|
|||
}
|
||||
#endif
|
||||
|
||||
// Initial limit on the segment entry velocity
|
||||
float vmax_junction;
|
||||
float vmax_junction; // Initial limit on the segment entry velocity
|
||||
|
||||
#if 0 // Use old jerk for now
|
||||
#if ENABLED(JUNCTION_DEVIATION)
|
||||
|
||||
float junction_deviation = 0.1;
|
||||
/**
|
||||
* Compute maximum allowable entry speed at junction by centripetal acceleration approximation.
|
||||
* Let a circle be tangent to both previous and current path line segments, where the junction
|
||||
* deviation is defined as the distance from the junction to the closest edge of the circle,
|
||||
* colinear with the circle center. The circular segment joining the two paths represents the
|
||||
* path of centripetal acceleration. Solve for max velocity based on max acceleration about the
|
||||
* radius of the circle, defined indirectly by junction deviation. This may be also viewed as
|
||||
* path width or max_jerk in the previous Grbl version. This approach does not actually deviate
|
||||
* from path, but used as a robust way to compute cornering speeds, as it takes into account the
|
||||
* nonlinearities of both the junction angle and junction velocity.
|
||||
*
|
||||
* NOTE: If the junction deviation value is finite, Grbl executes the motions in an exact path
|
||||
* mode (G61). If the junction deviation value is zero, Grbl will execute the motion in an exact
|
||||
* stop mode (G61.1) manner. In the future, if continuous mode (G64) is desired, the math here
|
||||
* is exactly the same. Instead of motioning all the way to junction point, the machine will
|
||||
* just follow the arc circle defined here. The Arduino doesn't have the CPU cycles to perform
|
||||
* a continuous mode path, but ARM-based microcontrollers most certainly do.
|
||||
*
|
||||
* NOTE: The max junction speed is a fixed value, since machine acceleration limits cannot be
|
||||
* changed dynamically during operation nor can the line move geometry. This must be kept in
|
||||
* memory in the event of a feedrate override changing the nominal speeds of blocks, which can
|
||||
* change the overall maximum entry speed conditions of all blocks.
|
||||
*/
|
||||
|
||||
// Compute path unit vector
|
||||
double unit_vec[XYZ] = {
|
||||
// Unit vector of previous path line segment
|
||||
static float previous_unit_vec[
|
||||
#if ENABLED(JUNCTION_DEVIATION_INCLUDE_E)
|
||||
XYZE
|
||||
#else
|
||||
XYZ
|
||||
#endif
|
||||
];
|
||||
|
||||
float unit_vec[] = {
|
||||
delta_mm[A_AXIS] * inverse_millimeters,
|
||||
delta_mm[B_AXIS] * inverse_millimeters,
|
||||
delta_mm[C_AXIS] * inverse_millimeters
|
||||
#if ENABLED(JUNCTION_DEVIATION_INCLUDE_E)
|
||||
, delta_mm[E_AXIS] * inverse_millimeters
|
||||
#endif
|
||||
};
|
||||
|
||||
/*
|
||||
Compute maximum allowable entry speed at junction by centripetal acceleration approximation.
|
||||
|
||||
Let a circle be tangent to both previous and current path line segments, where the junction
|
||||
deviation is defined as the distance from the junction to the closest edge of the circle,
|
||||
collinear with the circle center.
|
||||
|
||||
The circular segment joining the two paths represents the path of centripetal acceleration.
|
||||
Solve for max velocity based on max acceleration about the radius of the circle, defined
|
||||
indirectly by junction deviation.
|
||||
|
||||
This may be also viewed as path width or max_jerk in the previous grbl version. This approach
|
||||
does not actually deviate from path, but used as a robust way to compute cornering speeds, as
|
||||
it takes into account the nonlinearities of both the junction angle and junction velocity.
|
||||
*/
|
||||
|
||||
vmax_junction = MINIMUM_PLANNER_SPEED; // Set default max junction speed
|
||||
|
||||
// Skip first block or when previous_nominal_speed is used as a flag for homing and offset cycles.
|
||||
if (moves_queued && !UNEAR_ZERO(previous_nominal_speed)) {
|
||||
// Compute cosine of angle between previous and current path. (prev_unit_vec is negative)
|
||||
// NOTE: Max junction velocity is computed without sin() or acos() by trig half angle identity.
|
||||
const float cos_theta = - previous_unit_vec[X_AXIS] * unit_vec[X_AXIS]
|
||||
float junction_cos_theta = -previous_unit_vec[X_AXIS] * unit_vec[X_AXIS]
|
||||
-previous_unit_vec[Y_AXIS] * unit_vec[Y_AXIS]
|
||||
- previous_unit_vec[Z_AXIS] * unit_vec[Z_AXIS];
|
||||
// Skip and use default max junction speed for 0 degree acute junction.
|
||||
if (cos_theta < 0.95) {
|
||||
vmax_junction = min(previous_nominal_speed, block->nominal_speed);
|
||||
// Skip and avoid divide by zero for straight junctions at 180 degrees. Limit to min() of nominal speeds.
|
||||
if (cos_theta > -0.95) {
|
||||
// Compute maximum junction velocity based on maximum acceleration and junction deviation
|
||||
float sin_theta_d2 = SQRT(0.5 * (1.0 - cos_theta)); // Trig half angle identity. Always positive.
|
||||
NOMORE(vmax_junction, SQRT(block->acceleration * junction_deviation * sin_theta_d2 / (1.0 - sin_theta_d2)));
|
||||
}
|
||||
}
|
||||
}
|
||||
-previous_unit_vec[Z_AXIS] * unit_vec[Z_AXIS]
|
||||
#if ENABLED(JUNCTION_DEVIATION_INCLUDE_E)
|
||||
-previous_unit_vec[E_AXIS] * unit_vec[E_AXIS]
|
||||
#endif
|
||||
;
|
||||
|
||||
// NOTE: Computed without any expensive trig, sin() or acos(), by trig half angle identity of cos(theta).
|
||||
if (junction_cos_theta > 0.999999) {
|
||||
// For a 0 degree acute junction, just set minimum junction speed.
|
||||
vmax_junction = MINIMUM_PLANNER_SPEED;
|
||||
}
|
||||
else {
|
||||
junction_cos_theta = max(junction_cos_theta, -0.999999); // Check for numerical round-off to avoid divide by zero.
|
||||
const float sin_theta_d2 = SQRT(0.5 * (1.0 - junction_cos_theta)); // Trig half angle identity. Always positive.
|
||||
|
||||
// TODO: Technically, the acceleration used in calculation needs to be limited by the minimum of the
|
||||
// two junctions. However, this shouldn't be a significant problem except in extreme circumstances.
|
||||
vmax_junction = SQRT((block->acceleration * JUNCTION_DEVIATION_FACTOR * sin_theta_d2) / (1.0 - sin_theta_d2));
|
||||
}
|
||||
|
||||
vmax_junction = MIN3(vmax_junction, block->nominal_speed, previous_nominal_speed);
|
||||
}
|
||||
else // Init entry speed to zero. Assume it starts from rest. Planner will correct this later.
|
||||
vmax_junction = 0.0;
|
||||
|
||||
COPY(previous_unit_vec, unit_vec);
|
||||
|
||||
#else // Classic Jerk Limiting
|
||||
|
||||
/**
|
||||
* Adapted from Průša MKS firmware
|
||||
|
@ -1988,6 +2017,9 @@ void Planner::_buffer_steps(const int32_t (&target)[XYZE]
|
|||
else
|
||||
vmax_junction = safe_speed;
|
||||
|
||||
previous_safe_speed = safe_speed;
|
||||
#endif // Classic Jerk Limiting
|
||||
|
||||
// Max entry speed of this block equals the max exit speed of the previous block.
|
||||
block->max_entry_speed = vmax_junction;
|
||||
|
||||
|
@ -2010,7 +2042,6 @@ void Planner::_buffer_steps(const int32_t (&target)[XYZE]
|
|||
// Update previous path unit_vector and nominal speed
|
||||
COPY(previous_speed, current_speed);
|
||||
previous_nominal_speed = block->nominal_speed;
|
||||
previous_safe_speed = safe_speed;
|
||||
|
||||
// Move buffer head
|
||||
block_buffer_head = next_buffer_head;
|
||||
|
|
|
@ -581,68 +581,68 @@ void Stepper::set_directions() {
|
|||
/* %10 (must be high register!)*/
|
||||
|
||||
/* Store initial velocity*/
|
||||
" sts bezier_F, %0" "\n\t"
|
||||
" sts bezier_F+1, %1" "\n\t"
|
||||
" sts bezier_F+2, %10" "\n\t" /* bezier_F = %10:%1:%0 = v0 */
|
||||
A("sts bezier_F, %0")
|
||||
A("sts bezier_F+1, %1")
|
||||
A("sts bezier_F+2, %10") /* bezier_F = %10:%1:%0 = v0 */
|
||||
|
||||
/* Get delta speed */
|
||||
" ldi %2,-1" "\n\t" /* %2 = 0xff, means A_negative = true */
|
||||
" clr %8" "\n\t" /* %8 = 0 */
|
||||
" sub %0,%3" "\n\t"
|
||||
" sbc %1,%4" "\n\t"
|
||||
" sbc %10,%5" "\n\t" /* v0 -= v1, C=1 if result is negative */
|
||||
" brcc 1f" "\n\t" /* branch if result is positive (C=0), that means v0 >= v1 */
|
||||
A("ldi %2,-1") /* %2 = 0xFF, means A_negative = true */
|
||||
A("clr %8") /* %8 = 0 */
|
||||
A("sub %0,%3")
|
||||
A("sbc %1,%4")
|
||||
A("sbc %10,%5") /* v0 -= v1, C=1 if result is negative */
|
||||
A("brcc 1f") /* branch if result is positive (C=0), that means v0 >= v1 */
|
||||
|
||||
/* Result was negative, get the absolute value*/
|
||||
" com %10" "\n\t"
|
||||
" com %1" "\n\t"
|
||||
" neg %0" "\n\t"
|
||||
" sbc %1,%2" "\n\t"
|
||||
" sbc %10,%2" "\n\t" /* %10:%1:%0 +1 -> %10:%1:%0 = -(v0 - v1) = (v1 - v0) */
|
||||
" clr %2" "\n\t" /* %2 = 0, means A_negative = false */
|
||||
A("com %10")
|
||||
A("com %1")
|
||||
A("neg %0")
|
||||
A("sbc %1,%2")
|
||||
A("sbc %10,%2") /* %10:%1:%0 +1 -> %10:%1:%0 = -(v0 - v1) = (v1 - v0) */
|
||||
A("clr %2") /* %2 = 0, means A_negative = false */
|
||||
|
||||
/* Store negative flag*/
|
||||
"1:" "\n\t"
|
||||
" sts A_negative, %2" "\n\t" /* Store negative flag */
|
||||
L("1")
|
||||
A("sts A_negative, %2") /* Store negative flag */
|
||||
|
||||
/* Compute coefficients A,B and C [20 cycles worst case]*/
|
||||
" ldi %9,6" "\n\t" /* %9 = 6 */
|
||||
" mul %0,%9" "\n\t" /* r1:r0 = 6*LO(v0-v1) */
|
||||
" sts bezier_A, r0" "\n\t"
|
||||
" mov %6,r1" "\n\t"
|
||||
" clr %7" "\n\t" /* %7:%6:r0 = 6*LO(v0-v1) */
|
||||
" mul %1,%9" "\n\t" /* r1:r0 = 6*MI(v0-v1) */
|
||||
" add %6,r0" "\n\t"
|
||||
" adc %7,r1" "\n\t" /* %7:%6:?? += 6*MI(v0-v1) << 8 */
|
||||
" mul %10,%9" "\n\t" /* r1:r0 = 6*HI(v0-v1) */
|
||||
" add %7,r0" "\n\t" /* %7:%6:?? += 6*HI(v0-v1) << 16 */
|
||||
" sts bezier_A+1, %6" "\n\t"
|
||||
" sts bezier_A+2, %7" "\n\t" /* bezier_A = %7:%6:?? = 6*(v0-v1) [35 cycles worst] */
|
||||
A("ldi %9,6") /* %9 = 6 */
|
||||
A("mul %0,%9") /* r1:r0 = 6*LO(v0-v1) */
|
||||
A("sts bezier_A, r0")
|
||||
A("mov %6,r1")
|
||||
A("clr %7") /* %7:%6:r0 = 6*LO(v0-v1) */
|
||||
A("mul %1,%9") /* r1:r0 = 6*MI(v0-v1) */
|
||||
A("add %6,r0")
|
||||
A("adc %7,r1") /* %7:%6:?? += 6*MI(v0-v1) << 8 */
|
||||
A("mul %10,%9") /* r1:r0 = 6*HI(v0-v1) */
|
||||
A("add %7,r0") /* %7:%6:?? += 6*HI(v0-v1) << 16 */
|
||||
A("sts bezier_A+1, %6")
|
||||
A("sts bezier_A+2, %7") /* bezier_A = %7:%6:?? = 6*(v0-v1) [35 cycles worst] */
|
||||
|
||||
" ldi %9,15" "\n\t" /* %9 = 15 */
|
||||
" mul %0,%9" "\n\t" /* r1:r0 = 5*LO(v0-v1) */
|
||||
" sts bezier_B, r0" "\n\t"
|
||||
" mov %6,r1" "\n\t"
|
||||
" clr %7" "\n\t" /* %7:%6:?? = 5*LO(v0-v1) */
|
||||
" mul %1,%9" "\n\t" /* r1:r0 = 5*MI(v0-v1) */
|
||||
" add %6,r0" "\n\t"
|
||||
" adc %7,r1" "\n\t" /* %7:%6:?? += 5*MI(v0-v1) << 8 */
|
||||
" mul %10,%9" "\n\t" /* r1:r0 = 5*HI(v0-v1) */
|
||||
" add %7,r0" "\n\t" /* %7:%6:?? += 5*HI(v0-v1) << 16 */
|
||||
" sts bezier_B+1, %6" "\n\t"
|
||||
" sts bezier_B+2, %7" "\n\t" /* bezier_B = %7:%6:?? = 5*(v0-v1) [50 cycles worst] */
|
||||
A("ldi %9,15") /* %9 = 15 */
|
||||
A("mul %0,%9") /* r1:r0 = 5*LO(v0-v1) */
|
||||
A("sts bezier_B, r0")
|
||||
A("mov %6,r1")
|
||||
A("clr %7") /* %7:%6:?? = 5*LO(v0-v1) */
|
||||
A("mul %1,%9") /* r1:r0 = 5*MI(v0-v1) */
|
||||
A("add %6,r0")
|
||||
A("adc %7,r1") /* %7:%6:?? += 5*MI(v0-v1) << 8 */
|
||||
A("mul %10,%9") /* r1:r0 = 5*HI(v0-v1) */
|
||||
A("add %7,r0") /* %7:%6:?? += 5*HI(v0-v1) << 16 */
|
||||
A("sts bezier_B+1, %6")
|
||||
A("sts bezier_B+2, %7") /* bezier_B = %7:%6:?? = 5*(v0-v1) [50 cycles worst] */
|
||||
|
||||
" ldi %9,10" "\n\t" /* %9 = 10 */
|
||||
" mul %0,%9" "\n\t" /* r1:r0 = 10*LO(v0-v1) */
|
||||
" sts bezier_C, r0" "\n\t"
|
||||
" mov %6,r1" "\n\t"
|
||||
" clr %7" "\n\t" /* %7:%6:?? = 10*LO(v0-v1) */
|
||||
" mul %1,%9" "\n\t" /* r1:r0 = 10*MI(v0-v1) */
|
||||
" add %6,r0" "\n\t"
|
||||
" adc %7,r1" "\n\t" /* %7:%6:?? += 10*MI(v0-v1) << 8 */
|
||||
" mul %10,%9" "\n\t" /* r1:r0 = 10*HI(v0-v1) */
|
||||
" add %7,r0" "\n\t" /* %7:%6:?? += 10*HI(v0-v1) << 16 */
|
||||
" sts bezier_C+1, %6" "\n\t"
|
||||
A("ldi %9,10") /* %9 = 10 */
|
||||
A("mul %0,%9") /* r1:r0 = 10*LO(v0-v1) */
|
||||
A("sts bezier_C, r0")
|
||||
A("mov %6,r1")
|
||||
A("clr %7") /* %7:%6:?? = 10*LO(v0-v1) */
|
||||
A("mul %1,%9") /* r1:r0 = 10*MI(v0-v1) */
|
||||
A("add %6,r0")
|
||||
A("adc %7,r1") /* %7:%6:?? += 10*MI(v0-v1) << 8 */
|
||||
A("mul %10,%9") /* r1:r0 = 10*HI(v0-v1) */
|
||||
A("add %7,r0") /* %7:%6:?? += 10*HI(v0-v1) << 16 */
|
||||
A("sts bezier_C+1, %6")
|
||||
" sts bezier_C+2, %7" /* bezier_C = %7:%6:?? = 10*(v0-v1) [65 cycles worst] */
|
||||
: "+r" (r2),
|
||||
"+d" (r3),
|
||||
|
@ -674,358 +674,358 @@ void Stepper::set_directions() {
|
|||
|
||||
__asm__ __volatile(
|
||||
/* umul24x24to16hi(t, bezier_AV, curr_step); t: Range 0 - 1^16 = 16 bits*/
|
||||
" lds %9,bezier_AV" "\n\t" /* %9 = LO(AV)*/
|
||||
" mul %9,%2" "\n\t" /* r1:r0 = LO(bezier_AV)*LO(curr_step)*/
|
||||
" mov %7,r1" "\n\t" /* %7 = LO(bezier_AV)*LO(curr_step) >> 8*/
|
||||
" clr %8" "\n\t" /* %8:%7 = LO(bezier_AV)*LO(curr_step) >> 8*/
|
||||
" lds %10,bezier_AV+1" "\n\t" /* %10 = MI(AV)*/
|
||||
" mul %10,%2" "\n\t" /* r1:r0 = MI(bezier_AV)*LO(curr_step)*/
|
||||
" add %7,r0" "\n\t"
|
||||
" adc %8,r1" "\n\t" /* %8:%7 += MI(bezier_AV)*LO(curr_step)*/
|
||||
" lds r1,bezier_AV+2" "\n\t" /* r11 = HI(AV)*/
|
||||
" mul r1,%2" "\n\t" /* r1:r0 = HI(bezier_AV)*LO(curr_step)*/
|
||||
" add %8,r0" "\n\t" /* %8:%7 += HI(bezier_AV)*LO(curr_step) << 8*/
|
||||
" mul %9,%3" "\n\t" /* r1:r0 = LO(bezier_AV)*MI(curr_step)*/
|
||||
" add %7,r0" "\n\t"
|
||||
" adc %8,r1" "\n\t" /* %8:%7 += LO(bezier_AV)*MI(curr_step)*/
|
||||
" mul %10,%3" "\n\t" /* r1:r0 = MI(bezier_AV)*MI(curr_step)*/
|
||||
" add %8,r0" "\n\t" /* %8:%7 += LO(bezier_AV)*MI(curr_step) << 8*/
|
||||
" mul %9,%4" "\n\t" /* r1:r0 = LO(bezier_AV)*HI(curr_step)*/
|
||||
" add %8,r0" "\n\t" /* %8:%7 += LO(bezier_AV)*HI(curr_step) << 8*/
|
||||
A("lds %9,bezier_AV") /* %9 = LO(AV)*/
|
||||
A("mul %9,%2") /* r1:r0 = LO(bezier_AV)*LO(curr_step)*/
|
||||
A("mov %7,r1") /* %7 = LO(bezier_AV)*LO(curr_step) >> 8*/
|
||||
A("clr %8") /* %8:%7 = LO(bezier_AV)*LO(curr_step) >> 8*/
|
||||
A("lds %10,bezier_AV+1") /* %10 = MI(AV)*/
|
||||
A("mul %10,%2") /* r1:r0 = MI(bezier_AV)*LO(curr_step)*/
|
||||
A("add %7,r0")
|
||||
A("adc %8,r1") /* %8:%7 += MI(bezier_AV)*LO(curr_step)*/
|
||||
A("lds r1,bezier_AV+2") /* r11 = HI(AV)*/
|
||||
A("mul r1,%2") /* r1:r0 = HI(bezier_AV)*LO(curr_step)*/
|
||||
A("add %8,r0") /* %8:%7 += HI(bezier_AV)*LO(curr_step) << 8*/
|
||||
A("mul %9,%3") /* r1:r0 = LO(bezier_AV)*MI(curr_step)*/
|
||||
A("add %7,r0")
|
||||
A("adc %8,r1") /* %8:%7 += LO(bezier_AV)*MI(curr_step)*/
|
||||
A("mul %10,%3") /* r1:r0 = MI(bezier_AV)*MI(curr_step)*/
|
||||
A("add %8,r0") /* %8:%7 += LO(bezier_AV)*MI(curr_step) << 8*/
|
||||
A("mul %9,%4") /* r1:r0 = LO(bezier_AV)*HI(curr_step)*/
|
||||
A("add %8,r0") /* %8:%7 += LO(bezier_AV)*HI(curr_step) << 8*/
|
||||
/* %8:%7 = t*/
|
||||
|
||||
/* uint16_t f = t;*/
|
||||
" mov %5,%7" "\n\t" /* %6:%5 = f*/
|
||||
" mov %6,%8" "\n\t"
|
||||
A("mov %5,%7") /* %6:%5 = f*/
|
||||
A("mov %6,%8")
|
||||
/* %6:%5 = f*/
|
||||
|
||||
/* umul16x16to16hi(f, f, t); / Range 16 bits (unsigned) [17] */
|
||||
" mul %5,%7" "\n\t" /* r1:r0 = LO(f) * LO(t)*/
|
||||
" mov %9,r1" "\n\t" /* store MIL(LO(f) * LO(t)) in %9, we need it for rounding*/
|
||||
" clr %10" "\n\t" /* %10 = 0*/
|
||||
" clr %11" "\n\t" /* %11 = 0*/
|
||||
" mul %5,%8" "\n\t" /* r1:r0 = LO(f) * HI(t)*/
|
||||
" add %9,r0" "\n\t" /* %9 += LO(LO(f) * HI(t))*/
|
||||
" adc %10,r1" "\n\t" /* %10 = HI(LO(f) * HI(t))*/
|
||||
" adc %11,%0" "\n\t" /* %11 += carry*/
|
||||
" mul %6,%7" "\n\t" /* r1:r0 = HI(f) * LO(t)*/
|
||||
" add %9,r0" "\n\t" /* %9 += LO(HI(f) * LO(t))*/
|
||||
" adc %10,r1" "\n\t" /* %10 += HI(HI(f) * LO(t)) */
|
||||
" adc %11,%0" "\n\t" /* %11 += carry*/
|
||||
" mul %6,%8" "\n\t" /* r1:r0 = HI(f) * HI(t)*/
|
||||
" add %10,r0" "\n\t" /* %10 += LO(HI(f) * HI(t))*/
|
||||
" adc %11,r1" "\n\t" /* %11 += HI(HI(f) * HI(t))*/
|
||||
" mov %5,%10" "\n\t" /* %6:%5 = */
|
||||
" mov %6,%11" "\n\t" /* f = %10:%11*/
|
||||
A("mul %5,%7") /* r1:r0 = LO(f) * LO(t)*/
|
||||
A("mov %9,r1") /* store MIL(LO(f) * LO(t)) in %9, we need it for rounding*/
|
||||
A("clr %10") /* %10 = 0*/
|
||||
A("clr %11") /* %11 = 0*/
|
||||
A("mul %5,%8") /* r1:r0 = LO(f) * HI(t)*/
|
||||
A("add %9,r0") /* %9 += LO(LO(f) * HI(t))*/
|
||||
A("adc %10,r1") /* %10 = HI(LO(f) * HI(t))*/
|
||||
A("adc %11,%0") /* %11 += carry*/
|
||||
A("mul %6,%7") /* r1:r0 = HI(f) * LO(t)*/
|
||||
A("add %9,r0") /* %9 += LO(HI(f) * LO(t))*/
|
||||
A("adc %10,r1") /* %10 += HI(HI(f) * LO(t)) */
|
||||
A("adc %11,%0") /* %11 += carry*/
|
||||
A("mul %6,%8") /* r1:r0 = HI(f) * HI(t)*/
|
||||
A("add %10,r0") /* %10 += LO(HI(f) * HI(t))*/
|
||||
A("adc %11,r1") /* %11 += HI(HI(f) * HI(t))*/
|
||||
A("mov %5,%10") /* %6:%5 = */
|
||||
A("mov %6,%11") /* f = %10:%11*/
|
||||
|
||||
/* umul16x16to16hi(f, f, t); / Range 16 bits : f = t^3 (unsigned) [17]*/
|
||||
" mul %5,%7" "\n\t" /* r1:r0 = LO(f) * LO(t)*/
|
||||
" mov %1,r1" "\n\t" /* store MIL(LO(f) * LO(t)) in %1, we need it for rounding*/
|
||||
" clr %10" "\n\t" /* %10 = 0*/
|
||||
" clr %11" "\n\t" /* %11 = 0*/
|
||||
" mul %5,%8" "\n\t" /* r1:r0 = LO(f) * HI(t)*/
|
||||
" add %1,r0" "\n\t" /* %1 += LO(LO(f) * HI(t))*/
|
||||
" adc %10,r1" "\n\t" /* %10 = HI(LO(f) * HI(t))*/
|
||||
" adc %11,%0" "\n\t" /* %11 += carry*/
|
||||
" mul %6,%7" "\n\t" /* r1:r0 = HI(f) * LO(t)*/
|
||||
" add %1,r0" "\n\t" /* %1 += LO(HI(f) * LO(t))*/
|
||||
" adc %10,r1" "\n\t" /* %10 += HI(HI(f) * LO(t))*/
|
||||
" adc %11,%0" "\n\t" /* %11 += carry*/
|
||||
" mul %6,%8" "\n\t" /* r1:r0 = HI(f) * HI(t)*/
|
||||
" add %10,r0" "\n\t" /* %10 += LO(HI(f) * HI(t))*/
|
||||
" adc %11,r1" "\n\t" /* %11 += HI(HI(f) * HI(t))*/
|
||||
" mov %5,%10" "\n\t" /* %6:%5 =*/
|
||||
" mov %6,%11" "\n\t" /* f = %10:%11*/
|
||||
A("mul %5,%7") /* r1:r0 = LO(f) * LO(t)*/
|
||||
A("mov %1,r1") /* store MIL(LO(f) * LO(t)) in %1, we need it for rounding*/
|
||||
A("clr %10") /* %10 = 0*/
|
||||
A("clr %11") /* %11 = 0*/
|
||||
A("mul %5,%8") /* r1:r0 = LO(f) * HI(t)*/
|
||||
A("add %1,r0") /* %1 += LO(LO(f) * HI(t))*/
|
||||
A("adc %10,r1") /* %10 = HI(LO(f) * HI(t))*/
|
||||
A("adc %11,%0") /* %11 += carry*/
|
||||
A("mul %6,%7") /* r1:r0 = HI(f) * LO(t)*/
|
||||
A("add %1,r0") /* %1 += LO(HI(f) * LO(t))*/
|
||||
A("adc %10,r1") /* %10 += HI(HI(f) * LO(t))*/
|
||||
A("adc %11,%0") /* %11 += carry*/
|
||||
A("mul %6,%8") /* r1:r0 = HI(f) * HI(t)*/
|
||||
A("add %10,r0") /* %10 += LO(HI(f) * HI(t))*/
|
||||
A("adc %11,r1") /* %11 += HI(HI(f) * HI(t))*/
|
||||
A("mov %5,%10") /* %6:%5 =*/
|
||||
A("mov %6,%11") /* f = %10:%11*/
|
||||
/* [15 +17*2] = [49]*/
|
||||
|
||||
/* %4:%3:%2 will be acc from now on*/
|
||||
|
||||
/* uint24_t acc = bezier_F; / Range 20 bits (unsigned)*/
|
||||
" clr %9" "\n\t" /* "decimal place we get for free"*/
|
||||
" lds %2,bezier_F" "\n\t"
|
||||
" lds %3,bezier_F+1" "\n\t"
|
||||
" lds %4,bezier_F+2" "\n\t" /* %4:%3:%2 = acc*/
|
||||
A("clr %9") /* "decimal place we get for free"*/
|
||||
A("lds %2,bezier_F")
|
||||
A("lds %3,bezier_F+1")
|
||||
A("lds %4,bezier_F+2") /* %4:%3:%2 = acc*/
|
||||
|
||||
/* if (A_negative) {*/
|
||||
" lds r0,A_negative" "\n\t"
|
||||
" or r0,%0" "\n\t" /* Is flag signalling negative? */
|
||||
" brne 3f" "\n\t" /* If yes, Skip next instruction if A was negative*/
|
||||
" rjmp 1f" "\n\t" /* Otherwise, jump */
|
||||
A("lds r0,A_negative")
|
||||
A("or r0,%0") /* Is flag signalling negative? */
|
||||
A("brne 3f") /* If yes, Skip next instruction if A was negative*/
|
||||
A("rjmp 1f") /* Otherwise, jump */
|
||||
|
||||
/* uint24_t v; */
|
||||
/* umul16x24to24hi(v, f, bezier_C); / Range 21bits [29] */
|
||||
/* acc -= v; */
|
||||
"3:" "\n\t"
|
||||
" lds %10, bezier_C" "\n\t" /* %10 = LO(bezier_C)*/
|
||||
" mul %10,%5" "\n\t" /* r1:r0 = LO(bezier_C) * LO(f)*/
|
||||
" sub %9,r1" "\n\t"
|
||||
" sbc %2,%0" "\n\t"
|
||||
" sbc %3,%0" "\n\t"
|
||||
" sbc %4,%0" "\n\t" /* %4:%3:%2:%9 -= HI(LO(bezier_C) * LO(f))*/
|
||||
" lds %11, bezier_C+1" "\n\t" /* %11 = MI(bezier_C)*/
|
||||
" mul %11,%5" "\n\t" /* r1:r0 = MI(bezier_C) * LO(f)*/
|
||||
" sub %9,r0" "\n\t"
|
||||
" sbc %2,r1" "\n\t"
|
||||
" sbc %3,%0" "\n\t"
|
||||
" sbc %4,%0" "\n\t" /* %4:%3:%2:%9 -= MI(bezier_C) * LO(f)*/
|
||||
" lds %1, bezier_C+2" "\n\t" /* %1 = HI(bezier_C)*/
|
||||
" mul %1,%5" "\n\t" /* r1:r0 = MI(bezier_C) * LO(f)*/
|
||||
" sub %2,r0" "\n\t"
|
||||
" sbc %3,r1" "\n\t"
|
||||
" sbc %4,%0" "\n\t" /* %4:%3:%2:%9 -= HI(bezier_C) * LO(f) << 8*/
|
||||
" mul %10,%6" "\n\t" /* r1:r0 = LO(bezier_C) * MI(f)*/
|
||||
" sub %9,r0" "\n\t"
|
||||
" sbc %2,r1" "\n\t"
|
||||
" sbc %3,%0" "\n\t"
|
||||
" sbc %4,%0" "\n\t" /* %4:%3:%2:%9 -= LO(bezier_C) * MI(f)*/
|
||||
" mul %11,%6" "\n\t" /* r1:r0 = MI(bezier_C) * MI(f)*/
|
||||
" sub %2,r0" "\n\t"
|
||||
" sbc %3,r1" "\n\t"
|
||||
" sbc %4,%0" "\n\t" /* %4:%3:%2:%9 -= MI(bezier_C) * MI(f) << 8*/
|
||||
" mul %1,%6" "\n\t" /* r1:r0 = HI(bezier_C) * LO(f)*/
|
||||
" sub %3,r0" "\n\t"
|
||||
" sbc %4,r1" "\n\t" /* %4:%3:%2:%9 -= HI(bezier_C) * LO(f) << 16*/
|
||||
L("3")
|
||||
A("lds %10, bezier_C") /* %10 = LO(bezier_C)*/
|
||||
A("mul %10,%5") /* r1:r0 = LO(bezier_C) * LO(f)*/
|
||||
A("sub %9,r1")
|
||||
A("sbc %2,%0")
|
||||
A("sbc %3,%0")
|
||||
A("sbc %4,%0") /* %4:%3:%2:%9 -= HI(LO(bezier_C) * LO(f))*/
|
||||
A("lds %11, bezier_C+1") /* %11 = MI(bezier_C)*/
|
||||
A("mul %11,%5") /* r1:r0 = MI(bezier_C) * LO(f)*/
|
||||
A("sub %9,r0")
|
||||
A("sbc %2,r1")
|
||||
A("sbc %3,%0")
|
||||
A("sbc %4,%0") /* %4:%3:%2:%9 -= MI(bezier_C) * LO(f)*/
|
||||
A("lds %1, bezier_C+2") /* %1 = HI(bezier_C)*/
|
||||
A("mul %1,%5") /* r1:r0 = MI(bezier_C) * LO(f)*/
|
||||
A("sub %2,r0")
|
||||
A("sbc %3,r1")
|
||||
A("sbc %4,%0") /* %4:%3:%2:%9 -= HI(bezier_C) * LO(f) << 8*/
|
||||
A("mul %10,%6") /* r1:r0 = LO(bezier_C) * MI(f)*/
|
||||
A("sub %9,r0")
|
||||
A("sbc %2,r1")
|
||||
A("sbc %3,%0")
|
||||
A("sbc %4,%0") /* %4:%3:%2:%9 -= LO(bezier_C) * MI(f)*/
|
||||
A("mul %11,%6") /* r1:r0 = MI(bezier_C) * MI(f)*/
|
||||
A("sub %2,r0")
|
||||
A("sbc %3,r1")
|
||||
A("sbc %4,%0") /* %4:%3:%2:%9 -= MI(bezier_C) * MI(f) << 8*/
|
||||
A("mul %1,%6") /* r1:r0 = HI(bezier_C) * LO(f)*/
|
||||
A("sub %3,r0")
|
||||
A("sbc %4,r1") /* %4:%3:%2:%9 -= HI(bezier_C) * LO(f) << 16*/
|
||||
|
||||
/* umul16x16to16hi(f, f, t); / Range 16 bits : f = t^3 (unsigned) [17]*/
|
||||
" mul %5,%7" "\n\t" /* r1:r0 = LO(f) * LO(t)*/
|
||||
" mov %1,r1" "\n\t" /* store MIL(LO(f) * LO(t)) in %1, we need it for rounding*/
|
||||
" clr %10" "\n\t" /* %10 = 0*/
|
||||
" clr %11" "\n\t" /* %11 = 0*/
|
||||
" mul %5,%8" "\n\t" /* r1:r0 = LO(f) * HI(t)*/
|
||||
" add %1,r0" "\n\t" /* %1 += LO(LO(f) * HI(t))*/
|
||||
" adc %10,r1" "\n\t" /* %10 = HI(LO(f) * HI(t))*/
|
||||
" adc %11,%0" "\n\t" /* %11 += carry*/
|
||||
" mul %6,%7" "\n\t" /* r1:r0 = HI(f) * LO(t)*/
|
||||
" add %1,r0" "\n\t" /* %1 += LO(HI(f) * LO(t))*/
|
||||
" adc %10,r1" "\n\t" /* %10 += HI(HI(f) * LO(t))*/
|
||||
" adc %11,%0" "\n\t" /* %11 += carry*/
|
||||
" mul %6,%8" "\n\t" /* r1:r0 = HI(f) * HI(t)*/
|
||||
" add %10,r0" "\n\t" /* %10 += LO(HI(f) * HI(t))*/
|
||||
" adc %11,r1" "\n\t" /* %11 += HI(HI(f) * HI(t))*/
|
||||
" mov %5,%10" "\n\t" /* %6:%5 =*/
|
||||
" mov %6,%11" "\n\t" /* f = %10:%11*/
|
||||
A("mul %5,%7") /* r1:r0 = LO(f) * LO(t)*/
|
||||
A("mov %1,r1") /* store MIL(LO(f) * LO(t)) in %1, we need it for rounding*/
|
||||
A("clr %10") /* %10 = 0*/
|
||||
A("clr %11") /* %11 = 0*/
|
||||
A("mul %5,%8") /* r1:r0 = LO(f) * HI(t)*/
|
||||
A("add %1,r0") /* %1 += LO(LO(f) * HI(t))*/
|
||||
A("adc %10,r1") /* %10 = HI(LO(f) * HI(t))*/
|
||||
A("adc %11,%0") /* %11 += carry*/
|
||||
A("mul %6,%7") /* r1:r0 = HI(f) * LO(t)*/
|
||||
A("add %1,r0") /* %1 += LO(HI(f) * LO(t))*/
|
||||
A("adc %10,r1") /* %10 += HI(HI(f) * LO(t))*/
|
||||
A("adc %11,%0") /* %11 += carry*/
|
||||
A("mul %6,%8") /* r1:r0 = HI(f) * HI(t)*/
|
||||
A("add %10,r0") /* %10 += LO(HI(f) * HI(t))*/
|
||||
A("adc %11,r1") /* %11 += HI(HI(f) * HI(t))*/
|
||||
A("mov %5,%10") /* %6:%5 =*/
|
||||
A("mov %6,%11") /* f = %10:%11*/
|
||||
|
||||
/* umul16x24to24hi(v, f, bezier_B); / Range 22bits [29]*/
|
||||
/* acc += v; */
|
||||
" lds %10, bezier_B" "\n\t" /* %10 = LO(bezier_B)*/
|
||||
" mul %10,%5" "\n\t" /* r1:r0 = LO(bezier_B) * LO(f)*/
|
||||
" add %9,r1" "\n\t"
|
||||
" adc %2,%0" "\n\t"
|
||||
" adc %3,%0" "\n\t"
|
||||
" adc %4,%0" "\n\t" /* %4:%3:%2:%9 += HI(LO(bezier_B) * LO(f))*/
|
||||
" lds %11, bezier_B+1" "\n\t" /* %11 = MI(bezier_B)*/
|
||||
" mul %11,%5" "\n\t" /* r1:r0 = MI(bezier_B) * LO(f)*/
|
||||
" add %9,r0" "\n\t"
|
||||
" adc %2,r1" "\n\t"
|
||||
" adc %3,%0" "\n\t"
|
||||
" adc %4,%0" "\n\t" /* %4:%3:%2:%9 += MI(bezier_B) * LO(f)*/
|
||||
" lds %1, bezier_B+2" "\n\t" /* %1 = HI(bezier_B)*/
|
||||
" mul %1,%5" "\n\t" /* r1:r0 = MI(bezier_B) * LO(f)*/
|
||||
" add %2,r0" "\n\t"
|
||||
" adc %3,r1" "\n\t"
|
||||
" adc %4,%0" "\n\t" /* %4:%3:%2:%9 += HI(bezier_B) * LO(f) << 8*/
|
||||
" mul %10,%6" "\n\t" /* r1:r0 = LO(bezier_B) * MI(f)*/
|
||||
" add %9,r0" "\n\t"
|
||||
" adc %2,r1" "\n\t"
|
||||
" adc %3,%0" "\n\t"
|
||||
" adc %4,%0" "\n\t" /* %4:%3:%2:%9 += LO(bezier_B) * MI(f)*/
|
||||
" mul %11,%6" "\n\t" /* r1:r0 = MI(bezier_B) * MI(f)*/
|
||||
" add %2,r0" "\n\t"
|
||||
" adc %3,r1" "\n\t"
|
||||
" adc %4,%0" "\n\t" /* %4:%3:%2:%9 += MI(bezier_B) * MI(f) << 8*/
|
||||
" mul %1,%6" "\n\t" /* r1:r0 = HI(bezier_B) * LO(f)*/
|
||||
" add %3,r0" "\n\t"
|
||||
" adc %4,r1" "\n\t" /* %4:%3:%2:%9 += HI(bezier_B) * LO(f) << 16*/
|
||||
A("lds %10, bezier_B") /* %10 = LO(bezier_B)*/
|
||||
A("mul %10,%5") /* r1:r0 = LO(bezier_B) * LO(f)*/
|
||||
A("add %9,r1")
|
||||
A("adc %2,%0")
|
||||
A("adc %3,%0")
|
||||
A("adc %4,%0") /* %4:%3:%2:%9 += HI(LO(bezier_B) * LO(f))*/
|
||||
A("lds %11, bezier_B+1") /* %11 = MI(bezier_B)*/
|
||||
A("mul %11,%5") /* r1:r0 = MI(bezier_B) * LO(f)*/
|
||||
A("add %9,r0")
|
||||
A("adc %2,r1")
|
||||
A("adc %3,%0")
|
||||
A("adc %4,%0") /* %4:%3:%2:%9 += MI(bezier_B) * LO(f)*/
|
||||
A("lds %1, bezier_B+2") /* %1 = HI(bezier_B)*/
|
||||
A("mul %1,%5") /* r1:r0 = MI(bezier_B) * LO(f)*/
|
||||
A("add %2,r0")
|
||||
A("adc %3,r1")
|
||||
A("adc %4,%0") /* %4:%3:%2:%9 += HI(bezier_B) * LO(f) << 8*/
|
||||
A("mul %10,%6") /* r1:r0 = LO(bezier_B) * MI(f)*/
|
||||
A("add %9,r0")
|
||||
A("adc %2,r1")
|
||||
A("adc %3,%0")
|
||||
A("adc %4,%0") /* %4:%3:%2:%9 += LO(bezier_B) * MI(f)*/
|
||||
A("mul %11,%6") /* r1:r0 = MI(bezier_B) * MI(f)*/
|
||||
A("add %2,r0")
|
||||
A("adc %3,r1")
|
||||
A("adc %4,%0") /* %4:%3:%2:%9 += MI(bezier_B) * MI(f) << 8*/
|
||||
A("mul %1,%6") /* r1:r0 = HI(bezier_B) * LO(f)*/
|
||||
A("add %3,r0")
|
||||
A("adc %4,r1") /* %4:%3:%2:%9 += HI(bezier_B) * LO(f) << 16*/
|
||||
|
||||
/* umul16x16to16hi(f, f, t); / Range 16 bits : f = t^5 (unsigned) [17]*/
|
||||
" mul %5,%7" "\n\t" /* r1:r0 = LO(f) * LO(t)*/
|
||||
" mov %1,r1" "\n\t" /* store MIL(LO(f) * LO(t)) in %1, we need it for rounding*/
|
||||
" clr %10" "\n\t" /* %10 = 0*/
|
||||
" clr %11" "\n\t" /* %11 = 0*/
|
||||
" mul %5,%8" "\n\t" /* r1:r0 = LO(f) * HI(t)*/
|
||||
" add %1,r0" "\n\t" /* %1 += LO(LO(f) * HI(t))*/
|
||||
" adc %10,r1" "\n\t" /* %10 = HI(LO(f) * HI(t))*/
|
||||
" adc %11,%0" "\n\t" /* %11 += carry*/
|
||||
" mul %6,%7" "\n\t" /* r1:r0 = HI(f) * LO(t)*/
|
||||
" add %1,r0" "\n\t" /* %1 += LO(HI(f) * LO(t))*/
|
||||
" adc %10,r1" "\n\t" /* %10 += HI(HI(f) * LO(t))*/
|
||||
" adc %11,%0" "\n\t" /* %11 += carry*/
|
||||
" mul %6,%8" "\n\t" /* r1:r0 = HI(f) * HI(t)*/
|
||||
" add %10,r0" "\n\t" /* %10 += LO(HI(f) * HI(t))*/
|
||||
" adc %11,r1" "\n\t" /* %11 += HI(HI(f) * HI(t))*/
|
||||
" mov %5,%10" "\n\t" /* %6:%5 =*/
|
||||
" mov %6,%11" "\n\t" /* f = %10:%11*/
|
||||
A("mul %5,%7") /* r1:r0 = LO(f) * LO(t)*/
|
||||
A("mov %1,r1") /* store MIL(LO(f) * LO(t)) in %1, we need it for rounding*/
|
||||
A("clr %10") /* %10 = 0*/
|
||||
A("clr %11") /* %11 = 0*/
|
||||
A("mul %5,%8") /* r1:r0 = LO(f) * HI(t)*/
|
||||
A("add %1,r0") /* %1 += LO(LO(f) * HI(t))*/
|
||||
A("adc %10,r1") /* %10 = HI(LO(f) * HI(t))*/
|
||||
A("adc %11,%0") /* %11 += carry*/
|
||||
A("mul %6,%7") /* r1:r0 = HI(f) * LO(t)*/
|
||||
A("add %1,r0") /* %1 += LO(HI(f) * LO(t))*/
|
||||
A("adc %10,r1") /* %10 += HI(HI(f) * LO(t))*/
|
||||
A("adc %11,%0") /* %11 += carry*/
|
||||
A("mul %6,%8") /* r1:r0 = HI(f) * HI(t)*/
|
||||
A("add %10,r0") /* %10 += LO(HI(f) * HI(t))*/
|
||||
A("adc %11,r1") /* %11 += HI(HI(f) * HI(t))*/
|
||||
A("mov %5,%10") /* %6:%5 =*/
|
||||
A("mov %6,%11") /* f = %10:%11*/
|
||||
|
||||
/* umul16x24to24hi(v, f, bezier_A); / Range 21bits [29]*/
|
||||
/* acc -= v; */
|
||||
" lds %10, bezier_A" "\n\t" /* %10 = LO(bezier_A)*/
|
||||
" mul %10,%5" "\n\t" /* r1:r0 = LO(bezier_A) * LO(f)*/
|
||||
" sub %9,r1" "\n\t"
|
||||
" sbc %2,%0" "\n\t"
|
||||
" sbc %3,%0" "\n\t"
|
||||
" sbc %4,%0" "\n\t" /* %4:%3:%2:%9 -= HI(LO(bezier_A) * LO(f))*/
|
||||
" lds %11, bezier_A+1" "\n\t" /* %11 = MI(bezier_A)*/
|
||||
" mul %11,%5" "\n\t" /* r1:r0 = MI(bezier_A) * LO(f)*/
|
||||
" sub %9,r0" "\n\t"
|
||||
" sbc %2,r1" "\n\t"
|
||||
" sbc %3,%0" "\n\t"
|
||||
" sbc %4,%0" "\n\t" /* %4:%3:%2:%9 -= MI(bezier_A) * LO(f)*/
|
||||
" lds %1, bezier_A+2" "\n\t" /* %1 = HI(bezier_A)*/
|
||||
" mul %1,%5" "\n\t" /* r1:r0 = MI(bezier_A) * LO(f)*/
|
||||
" sub %2,r0" "\n\t"
|
||||
" sbc %3,r1" "\n\t"
|
||||
" sbc %4,%0" "\n\t" /* %4:%3:%2:%9 -= HI(bezier_A) * LO(f) << 8*/
|
||||
" mul %10,%6" "\n\t" /* r1:r0 = LO(bezier_A) * MI(f)*/
|
||||
" sub %9,r0" "\n\t"
|
||||
" sbc %2,r1" "\n\t"
|
||||
" sbc %3,%0" "\n\t"
|
||||
" sbc %4,%0" "\n\t" /* %4:%3:%2:%9 -= LO(bezier_A) * MI(f)*/
|
||||
" mul %11,%6" "\n\t" /* r1:r0 = MI(bezier_A) * MI(f)*/
|
||||
" sub %2,r0" "\n\t"
|
||||
" sbc %3,r1" "\n\t"
|
||||
" sbc %4,%0" "\n\t" /* %4:%3:%2:%9 -= MI(bezier_A) * MI(f) << 8*/
|
||||
" mul %1,%6" "\n\t" /* r1:r0 = HI(bezier_A) * LO(f)*/
|
||||
" sub %3,r0" "\n\t"
|
||||
" sbc %4,r1" "\n\t" /* %4:%3:%2:%9 -= HI(bezier_A) * LO(f) << 16*/
|
||||
" jmp 2f" "\n\t" /* Done!*/
|
||||
A("lds %10, bezier_A") /* %10 = LO(bezier_A)*/
|
||||
A("mul %10,%5") /* r1:r0 = LO(bezier_A) * LO(f)*/
|
||||
A("sub %9,r1")
|
||||
A("sbc %2,%0")
|
||||
A("sbc %3,%0")
|
||||
A("sbc %4,%0") /* %4:%3:%2:%9 -= HI(LO(bezier_A) * LO(f))*/
|
||||
A("lds %11, bezier_A+1") /* %11 = MI(bezier_A)*/
|
||||
A("mul %11,%5") /* r1:r0 = MI(bezier_A) * LO(f)*/
|
||||
A("sub %9,r0")
|
||||
A("sbc %2,r1")
|
||||
A("sbc %3,%0")
|
||||
A("sbc %4,%0") /* %4:%3:%2:%9 -= MI(bezier_A) * LO(f)*/
|
||||
A("lds %1, bezier_A+2") /* %1 = HI(bezier_A)*/
|
||||
A("mul %1,%5") /* r1:r0 = MI(bezier_A) * LO(f)*/
|
||||
A("sub %2,r0")
|
||||
A("sbc %3,r1")
|
||||
A("sbc %4,%0") /* %4:%3:%2:%9 -= HI(bezier_A) * LO(f) << 8*/
|
||||
A("mul %10,%6") /* r1:r0 = LO(bezier_A) * MI(f)*/
|
||||
A("sub %9,r0")
|
||||
A("sbc %2,r1")
|
||||
A("sbc %3,%0")
|
||||
A("sbc %4,%0") /* %4:%3:%2:%9 -= LO(bezier_A) * MI(f)*/
|
||||
A("mul %11,%6") /* r1:r0 = MI(bezier_A) * MI(f)*/
|
||||
A("sub %2,r0")
|
||||
A("sbc %3,r1")
|
||||
A("sbc %4,%0") /* %4:%3:%2:%9 -= MI(bezier_A) * MI(f) << 8*/
|
||||
A("mul %1,%6") /* r1:r0 = HI(bezier_A) * LO(f)*/
|
||||
A("sub %3,r0")
|
||||
A("sbc %4,r1") /* %4:%3:%2:%9 -= HI(bezier_A) * LO(f) << 16*/
|
||||
A("jmp 2f") /* Done!*/
|
||||
|
||||
"1:" "\n\t"
|
||||
L("1")
|
||||
|
||||
/* uint24_t v; */
|
||||
/* umul16x24to24hi(v, f, bezier_C); / Range 21bits [29]*/
|
||||
/* acc += v; */
|
||||
" lds %10, bezier_C" "\n\t" /* %10 = LO(bezier_C)*/
|
||||
" mul %10,%5" "\n\t" /* r1:r0 = LO(bezier_C) * LO(f)*/
|
||||
" add %9,r1" "\n\t"
|
||||
" adc %2,%0" "\n\t"
|
||||
" adc %3,%0" "\n\t"
|
||||
" adc %4,%0" "\n\t" /* %4:%3:%2:%9 += HI(LO(bezier_C) * LO(f))*/
|
||||
" lds %11, bezier_C+1" "\n\t" /* %11 = MI(bezier_C)*/
|
||||
" mul %11,%5" "\n\t" /* r1:r0 = MI(bezier_C) * LO(f)*/
|
||||
" add %9,r0" "\n\t"
|
||||
" adc %2,r1" "\n\t"
|
||||
" adc %3,%0" "\n\t"
|
||||
" adc %4,%0" "\n\t" /* %4:%3:%2:%9 += MI(bezier_C) * LO(f)*/
|
||||
" lds %1, bezier_C+2" "\n\t" /* %1 = HI(bezier_C)*/
|
||||
" mul %1,%5" "\n\t" /* r1:r0 = MI(bezier_C) * LO(f)*/
|
||||
" add %2,r0" "\n\t"
|
||||
" adc %3,r1" "\n\t"
|
||||
" adc %4,%0" "\n\t" /* %4:%3:%2:%9 += HI(bezier_C) * LO(f) << 8*/
|
||||
" mul %10,%6" "\n\t" /* r1:r0 = LO(bezier_C) * MI(f)*/
|
||||
" add %9,r0" "\n\t"
|
||||
" adc %2,r1" "\n\t"
|
||||
" adc %3,%0" "\n\t"
|
||||
" adc %4,%0" "\n\t" /* %4:%3:%2:%9 += LO(bezier_C) * MI(f)*/
|
||||
" mul %11,%6" "\n\t" /* r1:r0 = MI(bezier_C) * MI(f)*/
|
||||
" add %2,r0" "\n\t"
|
||||
" adc %3,r1" "\n\t"
|
||||
" adc %4,%0" "\n\t" /* %4:%3:%2:%9 += MI(bezier_C) * MI(f) << 8*/
|
||||
" mul %1,%6" "\n\t" /* r1:r0 = HI(bezier_C) * LO(f)*/
|
||||
" add %3,r0" "\n\t"
|
||||
" adc %4,r1" "\n\t" /* %4:%3:%2:%9 += HI(bezier_C) * LO(f) << 16*/
|
||||
A("lds %10, bezier_C") /* %10 = LO(bezier_C)*/
|
||||
A("mul %10,%5") /* r1:r0 = LO(bezier_C) * LO(f)*/
|
||||
A("add %9,r1")
|
||||
A("adc %2,%0")
|
||||
A("adc %3,%0")
|
||||
A("adc %4,%0") /* %4:%3:%2:%9 += HI(LO(bezier_C) * LO(f))*/
|
||||
A("lds %11, bezier_C+1") /* %11 = MI(bezier_C)*/
|
||||
A("mul %11,%5") /* r1:r0 = MI(bezier_C) * LO(f)*/
|
||||
A("add %9,r0")
|
||||
A("adc %2,r1")
|
||||
A("adc %3,%0")
|
||||
A("adc %4,%0") /* %4:%3:%2:%9 += MI(bezier_C) * LO(f)*/
|
||||
A("lds %1, bezier_C+2") /* %1 = HI(bezier_C)*/
|
||||
A("mul %1,%5") /* r1:r0 = MI(bezier_C) * LO(f)*/
|
||||
A("add %2,r0")
|
||||
A("adc %3,r1")
|
||||
A("adc %4,%0") /* %4:%3:%2:%9 += HI(bezier_C) * LO(f) << 8*/
|
||||
A("mul %10,%6") /* r1:r0 = LO(bezier_C) * MI(f)*/
|
||||
A("add %9,r0")
|
||||
A("adc %2,r1")
|
||||
A("adc %3,%0")
|
||||
A("adc %4,%0") /* %4:%3:%2:%9 += LO(bezier_C) * MI(f)*/
|
||||
A("mul %11,%6") /* r1:r0 = MI(bezier_C) * MI(f)*/
|
||||
A("add %2,r0")
|
||||
A("adc %3,r1")
|
||||
A("adc %4,%0") /* %4:%3:%2:%9 += MI(bezier_C) * MI(f) << 8*/
|
||||
A("mul %1,%6") /* r1:r0 = HI(bezier_C) * LO(f)*/
|
||||
A("add %3,r0")
|
||||
A("adc %4,r1") /* %4:%3:%2:%9 += HI(bezier_C) * LO(f) << 16*/
|
||||
|
||||
/* umul16x16to16hi(f, f, t); / Range 16 bits : f = t^3 (unsigned) [17]*/
|
||||
" mul %5,%7" "\n\t" /* r1:r0 = LO(f) * LO(t)*/
|
||||
" mov %1,r1" "\n\t" /* store MIL(LO(f) * LO(t)) in %1, we need it for rounding*/
|
||||
" clr %10" "\n\t" /* %10 = 0*/
|
||||
" clr %11" "\n\t" /* %11 = 0*/
|
||||
" mul %5,%8" "\n\t" /* r1:r0 = LO(f) * HI(t)*/
|
||||
" add %1,r0" "\n\t" /* %1 += LO(LO(f) * HI(t))*/
|
||||
" adc %10,r1" "\n\t" /* %10 = HI(LO(f) * HI(t))*/
|
||||
" adc %11,%0" "\n\t" /* %11 += carry*/
|
||||
" mul %6,%7" "\n\t" /* r1:r0 = HI(f) * LO(t)*/
|
||||
" add %1,r0" "\n\t" /* %1 += LO(HI(f) * LO(t))*/
|
||||
" adc %10,r1" "\n\t" /* %10 += HI(HI(f) * LO(t))*/
|
||||
" adc %11,%0" "\n\t" /* %11 += carry*/
|
||||
" mul %6,%8" "\n\t" /* r1:r0 = HI(f) * HI(t)*/
|
||||
" add %10,r0" "\n\t" /* %10 += LO(HI(f) * HI(t))*/
|
||||
" adc %11,r1" "\n\t" /* %11 += HI(HI(f) * HI(t))*/
|
||||
" mov %5,%10" "\n\t" /* %6:%5 =*/
|
||||
" mov %6,%11" "\n\t" /* f = %10:%11*/
|
||||
A("mul %5,%7") /* r1:r0 = LO(f) * LO(t)*/
|
||||
A("mov %1,r1") /* store MIL(LO(f) * LO(t)) in %1, we need it for rounding*/
|
||||
A("clr %10") /* %10 = 0*/
|
||||
A("clr %11") /* %11 = 0*/
|
||||
A("mul %5,%8") /* r1:r0 = LO(f) * HI(t)*/
|
||||
A("add %1,r0") /* %1 += LO(LO(f) * HI(t))*/
|
||||
A("adc %10,r1") /* %10 = HI(LO(f) * HI(t))*/
|
||||
A("adc %11,%0") /* %11 += carry*/
|
||||
A("mul %6,%7") /* r1:r0 = HI(f) * LO(t)*/
|
||||
A("add %1,r0") /* %1 += LO(HI(f) * LO(t))*/
|
||||
A("adc %10,r1") /* %10 += HI(HI(f) * LO(t))*/
|
||||
A("adc %11,%0") /* %11 += carry*/
|
||||
A("mul %6,%8") /* r1:r0 = HI(f) * HI(t)*/
|
||||
A("add %10,r0") /* %10 += LO(HI(f) * HI(t))*/
|
||||
A("adc %11,r1") /* %11 += HI(HI(f) * HI(t))*/
|
||||
A("mov %5,%10") /* %6:%5 =*/
|
||||
A("mov %6,%11") /* f = %10:%11*/
|
||||
|
||||
/* umul16x24to24hi(v, f, bezier_B); / Range 22bits [29]*/
|
||||
/* acc -= v;*/
|
||||
" lds %10, bezier_B" "\n\t" /* %10 = LO(bezier_B)*/
|
||||
" mul %10,%5" "\n\t" /* r1:r0 = LO(bezier_B) * LO(f)*/
|
||||
" sub %9,r1" "\n\t"
|
||||
" sbc %2,%0" "\n\t"
|
||||
" sbc %3,%0" "\n\t"
|
||||
" sbc %4,%0" "\n\t" /* %4:%3:%2:%9 -= HI(LO(bezier_B) * LO(f))*/
|
||||
" lds %11, bezier_B+1" "\n\t" /* %11 = MI(bezier_B)*/
|
||||
" mul %11,%5" "\n\t" /* r1:r0 = MI(bezier_B) * LO(f)*/
|
||||
" sub %9,r0" "\n\t"
|
||||
" sbc %2,r1" "\n\t"
|
||||
" sbc %3,%0" "\n\t"
|
||||
" sbc %4,%0" "\n\t" /* %4:%3:%2:%9 -= MI(bezier_B) * LO(f)*/
|
||||
" lds %1, bezier_B+2" "\n\t" /* %1 = HI(bezier_B)*/
|
||||
" mul %1,%5" "\n\t" /* r1:r0 = MI(bezier_B) * LO(f)*/
|
||||
" sub %2,r0" "\n\t"
|
||||
" sbc %3,r1" "\n\t"
|
||||
" sbc %4,%0" "\n\t" /* %4:%3:%2:%9 -= HI(bezier_B) * LO(f) << 8*/
|
||||
" mul %10,%6" "\n\t" /* r1:r0 = LO(bezier_B) * MI(f)*/
|
||||
" sub %9,r0" "\n\t"
|
||||
" sbc %2,r1" "\n\t"
|
||||
" sbc %3,%0" "\n\t"
|
||||
" sbc %4,%0" "\n\t" /* %4:%3:%2:%9 -= LO(bezier_B) * MI(f)*/
|
||||
" mul %11,%6" "\n\t" /* r1:r0 = MI(bezier_B) * MI(f)*/
|
||||
" sub %2,r0" "\n\t"
|
||||
" sbc %3,r1" "\n\t"
|
||||
" sbc %4,%0" "\n\t" /* %4:%3:%2:%9 -= MI(bezier_B) * MI(f) << 8*/
|
||||
" mul %1,%6" "\n\t" /* r1:r0 = HI(bezier_B) * LO(f)*/
|
||||
" sub %3,r0" "\n\t"
|
||||
" sbc %4,r1" "\n\t" /* %4:%3:%2:%9 -= HI(bezier_B) * LO(f) << 16*/
|
||||
A("lds %10, bezier_B") /* %10 = LO(bezier_B)*/
|
||||
A("mul %10,%5") /* r1:r0 = LO(bezier_B) * LO(f)*/
|
||||
A("sub %9,r1")
|
||||
A("sbc %2,%0")
|
||||
A("sbc %3,%0")
|
||||
A("sbc %4,%0") /* %4:%3:%2:%9 -= HI(LO(bezier_B) * LO(f))*/
|
||||
A("lds %11, bezier_B+1") /* %11 = MI(bezier_B)*/
|
||||
A("mul %11,%5") /* r1:r0 = MI(bezier_B) * LO(f)*/
|
||||
A("sub %9,r0")
|
||||
A("sbc %2,r1")
|
||||
A("sbc %3,%0")
|
||||
A("sbc %4,%0") /* %4:%3:%2:%9 -= MI(bezier_B) * LO(f)*/
|
||||
A("lds %1, bezier_B+2") /* %1 = HI(bezier_B)*/
|
||||
A("mul %1,%5") /* r1:r0 = MI(bezier_B) * LO(f)*/
|
||||
A("sub %2,r0")
|
||||
A("sbc %3,r1")
|
||||
A("sbc %4,%0") /* %4:%3:%2:%9 -= HI(bezier_B) * LO(f) << 8*/
|
||||
A("mul %10,%6") /* r1:r0 = LO(bezier_B) * MI(f)*/
|
||||
A("sub %9,r0")
|
||||
A("sbc %2,r1")
|
||||
A("sbc %3,%0")
|
||||
A("sbc %4,%0") /* %4:%3:%2:%9 -= LO(bezier_B) * MI(f)*/
|
||||
A("mul %11,%6") /* r1:r0 = MI(bezier_B) * MI(f)*/
|
||||
A("sub %2,r0")
|
||||
A("sbc %3,r1")
|
||||
A("sbc %4,%0") /* %4:%3:%2:%9 -= MI(bezier_B) * MI(f) << 8*/
|
||||
A("mul %1,%6") /* r1:r0 = HI(bezier_B) * LO(f)*/
|
||||
A("sub %3,r0")
|
||||
A("sbc %4,r1") /* %4:%3:%2:%9 -= HI(bezier_B) * LO(f) << 16*/
|
||||
|
||||
/* umul16x16to16hi(f, f, t); / Range 16 bits : f = t^5 (unsigned) [17]*/
|
||||
" mul %5,%7" "\n\t" /* r1:r0 = LO(f) * LO(t)*/
|
||||
" mov %1,r1" "\n\t" /* store MIL(LO(f) * LO(t)) in %1, we need it for rounding*/
|
||||
" clr %10" "\n\t" /* %10 = 0*/
|
||||
" clr %11" "\n\t" /* %11 = 0*/
|
||||
" mul %5,%8" "\n\t" /* r1:r0 = LO(f) * HI(t)*/
|
||||
" add %1,r0" "\n\t" /* %1 += LO(LO(f) * HI(t))*/
|
||||
" adc %10,r1" "\n\t" /* %10 = HI(LO(f) * HI(t))*/
|
||||
" adc %11,%0" "\n\t" /* %11 += carry*/
|
||||
" mul %6,%7" "\n\t" /* r1:r0 = HI(f) * LO(t)*/
|
||||
" add %1,r0" "\n\t" /* %1 += LO(HI(f) * LO(t))*/
|
||||
" adc %10,r1" "\n\t" /* %10 += HI(HI(f) * LO(t))*/
|
||||
" adc %11,%0" "\n\t" /* %11 += carry*/
|
||||
" mul %6,%8" "\n\t" /* r1:r0 = HI(f) * HI(t)*/
|
||||
" add %10,r0" "\n\t" /* %10 += LO(HI(f) * HI(t))*/
|
||||
" adc %11,r1" "\n\t" /* %11 += HI(HI(f) * HI(t))*/
|
||||
" mov %5,%10" "\n\t" /* %6:%5 =*/
|
||||
" mov %6,%11" "\n\t" /* f = %10:%11*/
|
||||
A("mul %5,%7") /* r1:r0 = LO(f) * LO(t)*/
|
||||
A("mov %1,r1") /* store MIL(LO(f) * LO(t)) in %1, we need it for rounding*/
|
||||
A("clr %10") /* %10 = 0*/
|
||||
A("clr %11") /* %11 = 0*/
|
||||
A("mul %5,%8") /* r1:r0 = LO(f) * HI(t)*/
|
||||
A("add %1,r0") /* %1 += LO(LO(f) * HI(t))*/
|
||||
A("adc %10,r1") /* %10 = HI(LO(f) * HI(t))*/
|
||||
A("adc %11,%0") /* %11 += carry*/
|
||||
A("mul %6,%7") /* r1:r0 = HI(f) * LO(t)*/
|
||||
A("add %1,r0") /* %1 += LO(HI(f) * LO(t))*/
|
||||
A("adc %10,r1") /* %10 += HI(HI(f) * LO(t))*/
|
||||
A("adc %11,%0") /* %11 += carry*/
|
||||
A("mul %6,%8") /* r1:r0 = HI(f) * HI(t)*/
|
||||
A("add %10,r0") /* %10 += LO(HI(f) * HI(t))*/
|
||||
A("adc %11,r1") /* %11 += HI(HI(f) * HI(t))*/
|
||||
A("mov %5,%10") /* %6:%5 =*/
|
||||
A("mov %6,%11") /* f = %10:%11*/
|
||||
|
||||
/* umul16x24to24hi(v, f, bezier_A); / Range 21bits [29]*/
|
||||
/* acc += v; */
|
||||
" lds %10, bezier_A" "\n\t" /* %10 = LO(bezier_A)*/
|
||||
" mul %10,%5" "\n\t" /* r1:r0 = LO(bezier_A) * LO(f)*/
|
||||
" add %9,r1" "\n\t"
|
||||
" adc %2,%0" "\n\t"
|
||||
" adc %3,%0" "\n\t"
|
||||
" adc %4,%0" "\n\t" /* %4:%3:%2:%9 += HI(LO(bezier_A) * LO(f))*/
|
||||
" lds %11, bezier_A+1" "\n\t" /* %11 = MI(bezier_A)*/
|
||||
" mul %11,%5" "\n\t" /* r1:r0 = MI(bezier_A) * LO(f)*/
|
||||
" add %9,r0" "\n\t"
|
||||
" adc %2,r1" "\n\t"
|
||||
" adc %3,%0" "\n\t"
|
||||
" adc %4,%0" "\n\t" /* %4:%3:%2:%9 += MI(bezier_A) * LO(f)*/
|
||||
" lds %1, bezier_A+2" "\n\t" /* %1 = HI(bezier_A)*/
|
||||
" mul %1,%5" "\n\t" /* r1:r0 = MI(bezier_A) * LO(f)*/
|
||||
" add %2,r0" "\n\t"
|
||||
" adc %3,r1" "\n\t"
|
||||
" adc %4,%0" "\n\t" /* %4:%3:%2:%9 += HI(bezier_A) * LO(f) << 8*/
|
||||
" mul %10,%6" "\n\t" /* r1:r0 = LO(bezier_A) * MI(f)*/
|
||||
" add %9,r0" "\n\t"
|
||||
" adc %2,r1" "\n\t"
|
||||
" adc %3,%0" "\n\t"
|
||||
" adc %4,%0" "\n\t" /* %4:%3:%2:%9 += LO(bezier_A) * MI(f)*/
|
||||
" mul %11,%6" "\n\t" /* r1:r0 = MI(bezier_A) * MI(f)*/
|
||||
" add %2,r0" "\n\t"
|
||||
" adc %3,r1" "\n\t"
|
||||
" adc %4,%0" "\n\t" /* %4:%3:%2:%9 += MI(bezier_A) * MI(f) << 8*/
|
||||
" mul %1,%6" "\n\t" /* r1:r0 = HI(bezier_A) * LO(f)*/
|
||||
" add %3,r0" "\n\t"
|
||||
" adc %4,r1" "\n\t" /* %4:%3:%2:%9 += HI(bezier_A) * LO(f) << 16*/
|
||||
"2:" "\n\t"
|
||||
A("lds %10, bezier_A") /* %10 = LO(bezier_A)*/
|
||||
A("mul %10,%5") /* r1:r0 = LO(bezier_A) * LO(f)*/
|
||||
A("add %9,r1")
|
||||
A("adc %2,%0")
|
||||
A("adc %3,%0")
|
||||
A("adc %4,%0") /* %4:%3:%2:%9 += HI(LO(bezier_A) * LO(f))*/
|
||||
A("lds %11, bezier_A+1") /* %11 = MI(bezier_A)*/
|
||||
A("mul %11,%5") /* r1:r0 = MI(bezier_A) * LO(f)*/
|
||||
A("add %9,r0")
|
||||
A("adc %2,r1")
|
||||
A("adc %3,%0")
|
||||
A("adc %4,%0") /* %4:%3:%2:%9 += MI(bezier_A) * LO(f)*/
|
||||
A("lds %1, bezier_A+2") /* %1 = HI(bezier_A)*/
|
||||
A("mul %1,%5") /* r1:r0 = MI(bezier_A) * LO(f)*/
|
||||
A("add %2,r0")
|
||||
A("adc %3,r1")
|
||||
A("adc %4,%0") /* %4:%3:%2:%9 += HI(bezier_A) * LO(f) << 8*/
|
||||
A("mul %10,%6") /* r1:r0 = LO(bezier_A) * MI(f)*/
|
||||
A("add %9,r0")
|
||||
A("adc %2,r1")
|
||||
A("adc %3,%0")
|
||||
A("adc %4,%0") /* %4:%3:%2:%9 += LO(bezier_A) * MI(f)*/
|
||||
A("mul %11,%6") /* r1:r0 = MI(bezier_A) * MI(f)*/
|
||||
A("add %2,r0")
|
||||
A("adc %3,r1")
|
||||
A("adc %4,%0") /* %4:%3:%2:%9 += MI(bezier_A) * MI(f) << 8*/
|
||||
A("mul %1,%6") /* r1:r0 = HI(bezier_A) * LO(f)*/
|
||||
A("add %3,r0")
|
||||
A("adc %4,r1") /* %4:%3:%2:%9 += HI(bezier_A) * LO(f) << 16*/
|
||||
L("2")
|
||||
" clr __zero_reg__" /* C runtime expects r1 = __zero_reg__ = 0 */
|
||||
: "+r"(r0),
|
||||
"+r"(r1),
|
||||
|
@ -1072,19 +1072,19 @@ void Stepper::set_directions() {
|
|||
|
||||
__asm__ __volatile__(
|
||||
".syntax unified" "\n\t" // is to prevent CM0,CM1 non-unified syntax
|
||||
" lsrs %[ahi],%[alo],#1" "\n\t" // a = F << 31 1 cycles
|
||||
" lsls %[alo],%[alo],#31" "\n\t" // 1 cycles
|
||||
" umull %[flo],%[fhi],%[fhi],%[t]" "\n\t" // f *= t 5 cycles [fhi:flo=64bits]
|
||||
" umull %[flo],%[fhi],%[fhi],%[t]" "\n\t" // f>>=32; f*=t 5 cycles [fhi:flo=64bits]
|
||||
" lsrs %[flo],%[fhi],#1" "\n\t" // 1 cycles [31bits]
|
||||
" smlal %[alo],%[ahi],%[flo],%[C]" "\n\t" // a+=(f>>33)*C; 5 cycles
|
||||
" umull %[flo],%[fhi],%[fhi],%[t]" "\n\t" // f>>=32; f*=t 5 cycles [fhi:flo=64bits]
|
||||
" lsrs %[flo],%[fhi],#1" "\n\t" // 1 cycles [31bits]
|
||||
" smlal %[alo],%[ahi],%[flo],%[B]" "\n\t" // a+=(f>>33)*B; 5 cycles
|
||||
" umull %[flo],%[fhi],%[fhi],%[t]" "\n\t" // f>>=32; f*=t 5 cycles [fhi:flo=64bits]
|
||||
" lsrs %[flo],%[fhi],#1" "\n\t" // f>>=33; 1 cycles [31bits]
|
||||
" smlal %[alo],%[ahi],%[flo],%[A]" "\n\t" // a+=(f>>33)*A; 5 cycles
|
||||
" lsrs %[alo],%[ahi],#6" "\n\t" // a>>=38 1 cycles
|
||||
A("lsrs %[ahi],%[alo],#1") // a = F << 31 1 cycles
|
||||
A("lsls %[alo],%[alo],#31") // 1 cycles
|
||||
A("umull %[flo],%[fhi],%[fhi],%[t]") // f *= t 5 cycles [fhi:flo=64bits]
|
||||
A("umull %[flo],%[fhi],%[fhi],%[t]") // f>>=32; f*=t 5 cycles [fhi:flo=64bits]
|
||||
A("lsrs %[flo],%[fhi],#1") // 1 cycles [31bits]
|
||||
A("smlal %[alo],%[ahi],%[flo],%[C]") // a+=(f>>33)*C; 5 cycles
|
||||
A("umull %[flo],%[fhi],%[fhi],%[t]") // f>>=32; f*=t 5 cycles [fhi:flo=64bits]
|
||||
A("lsrs %[flo],%[fhi],#1") // 1 cycles [31bits]
|
||||
A("smlal %[alo],%[ahi],%[flo],%[B]") // a+=(f>>33)*B; 5 cycles
|
||||
A("umull %[flo],%[fhi],%[fhi],%[t]") // f>>=32; f*=t 5 cycles [fhi:flo=64bits]
|
||||
A("lsrs %[flo],%[fhi],#1") // f>>=33; 1 cycles [31bits]
|
||||
A("smlal %[alo],%[ahi],%[flo],%[A]") // a+=(f>>33)*A; 5 cycles
|
||||
A("lsrs %[alo],%[ahi],#6") // a>>=38 1 cycles
|
||||
: [alo]"+r"( alo ) ,
|
||||
[flo]"+r"( flo ) ,
|
||||
[fhi]"+r"( fhi ) ,
|
||||
|
|
Loading…
Reference in a new issue