klipper-dgus/klippy/chelper.py

107 lines
4.4 KiB
Python

# Wrapper around C helper code
#
# Copyright (C) 2016 Kevin O'Connor <kevin@koconnor.net>
#
# This file may be distributed under the terms of the GNU GPLv3 license.
import os, logging
import cffi
COMPILE_CMD = "gcc -Wall -g -O -shared -fPIC -o %s %s"
SOURCE_FILES = ['stepcompress.c', 'serialqueue.c']
DEST_LIB = "c_helper.so"
OTHER_FILES = ['list.h', 'serialqueue.h']
defs_stepcompress = """
struct stepcompress *stepcompress_alloc(uint32_t max_error
, uint32_t queue_step_msgid, uint32_t set_next_step_dir_msgid
, uint32_t invert_sdir, uint32_t oid);
void stepcompress_push(struct stepcompress *sc, double step_clock
, int32_t sdir);
int32_t stepcompress_push_factor(struct stepcompress *sc
, double steps, double step_offset
, double clock_offset, double factor);
int32_t stepcompress_push_sqrt(struct stepcompress *sc
, double steps, double step_offset
, double clock_offset, double sqrt_offset, double factor);
int32_t stepcompress_push_delta_const(
struct stepcompress *sc, double clock_offset, double dist
, double step_dist, double start_pos, double closest_height2
, double height, double movez_r, double inv_velocity);
int32_t stepcompress_push_delta_accel(
struct stepcompress *sc, double clock_offset, double dist
, double step_dist, double start_pos, double closest_height2
, double height, double movez_r, double accel_multiplier);
void stepcompress_reset(struct stepcompress *sc, uint64_t last_step_clock);
void stepcompress_queue_msg(struct stepcompress *sc
, uint32_t *data, int len);
uint32_t stepcompress_get_errors(struct stepcompress *sc);
struct steppersync *steppersync_alloc(struct serialqueue *sq
, struct stepcompress **sc_list, int sc_num, int move_num);
void steppersync_flush(struct steppersync *ss, uint64_t move_clock);
"""
defs_serialqueue = """
#define MESSAGE_MAX 64
struct pull_queue_message {
uint8_t msg[MESSAGE_MAX];
int len;
double sent_time, receive_time;
};
struct serialqueue *serialqueue_alloc(int serial_fd, int write_only);
void serialqueue_exit(struct serialqueue *sq);
void serialqueue_free(struct serialqueue *sq);
struct command_queue *serialqueue_alloc_commandqueue(void);
void serialqueue_send(struct serialqueue *sq, struct command_queue *cq
, uint8_t *msg, int len, uint64_t min_clock, uint64_t req_clock);
void serialqueue_encode_and_send(struct serialqueue *sq
, struct command_queue *cq, uint32_t *data, int len
, uint64_t min_clock, uint64_t req_clock);
void serialqueue_pull(struct serialqueue *sq, struct pull_queue_message *pqm);
void serialqueue_set_baud_adjust(struct serialqueue *sq, double baud_adjust);
void serialqueue_set_clock_est(struct serialqueue *sq, double est_clock
, double last_ack_time, uint64_t last_ack_clock);
void serialqueue_flush_ready(struct serialqueue *sq);
void serialqueue_get_stats(struct serialqueue *sq, char *buf, int len);
int serialqueue_extract_old(struct serialqueue *sq, int sentq
, struct pull_queue_message *q, int max);
"""
# Return the list of file modification times
def get_mtimes(srcdir, filelist):
out = []
for filename in filelist:
pathname = os.path.join(srcdir, filename)
try:
t = os.path.getmtime(pathname)
except os.error:
continue
out.append(t)
return out
# Check if the code needs to be compiled
def check_build_code(srcdir):
src_times = get_mtimes(srcdir, SOURCE_FILES + OTHER_FILES)
obj_times = get_mtimes(srcdir, [DEST_LIB])
if not obj_times or max(src_times) > min(obj_times):
logging.info("Building C code module")
srcfiles = [os.path.join(srcdir, fname) for fname in SOURCE_FILES]
destlib = os.path.join(srcdir, DEST_LIB)
os.system(COMPILE_CMD % (destlib, ' '.join(srcfiles)))
FFI_main = None
FFI_lib = None
# Return the Foreign Function Interface api to the caller
def get_ffi():
global FFI_main, FFI_lib
if FFI_lib is None:
srcdir = os.path.dirname(os.path.realpath(__file__))
check_build_code(srcdir)
FFI_main = cffi.FFI()
FFI_main.cdef(defs_stepcompress)
FFI_main.cdef(defs_serialqueue)
FFI_lib = FFI_main.dlopen(os.path.join(srcdir, DEST_LIB))
return FFI_main, FFI_lib