mirror of
https://github.com/rene-dev/stmbl.git
synced 2024-12-30 04:24:29 +00:00
261 lines
9.7 KiB
C
261 lines
9.7 KiB
C
#include <stdio.h>
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#include <string.h>
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#include <math.h>
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#include <inttypes.h>
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#include "../inc/sserial.h"
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#include "../shared/defines.h"
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memory_t memory;
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uint8_t *heap_ptr;
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uint32_t timeout;
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pd_table_t pd_table;
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uint16_t add_pd(char *name_string, char *unit_string, uint8_t data_size_in_bits, uint8_t data_type, uint8_t data_dir, float param_min, float param_max) {
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process_data_descriptor_t pdr;
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pdr.record_type = RECORD_TYPE_PROCESS_DATA_RECORD;
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pdr.data_size = data_size_in_bits;
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pdr.data_type = data_type;
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pdr.data_direction = data_dir;
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pdr.param_min = param_min;
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pdr.param_max = param_max;
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pdr.data_addr = MEMPTR(*heap_ptr);
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heap_ptr += NUM_BYTES(data_size_in_bits);
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// this aligns the heap pointer to 32bit. Not doing this causes the floats in the pd to be misaligned, which crashes the arm.
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if((uint32_t)heap_ptr % 4) {
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heap_ptr += 4 - (uint32_t)heap_ptr % 4;
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}
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memcpy(heap_ptr, &pdr, sizeof(process_data_descriptor_t));
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// note that we don't store the names in the struct anymore. The fixed-length struct is copied into memory, and then the nmaes go in directly behind it, so they'll read out properly
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uint16_t pd_ptr = MEMPTR(*heap_ptr); // save off the ptr to return, before we modify the heap ptr
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heap_ptr = (uint8_t *)&(((process_data_descriptor_t *)heap_ptr)->names);
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// copy the strings in after the pd
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strcpy((char *)heap_ptr, unit_string);
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heap_ptr += strlen(unit_string) + 1;
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strcpy((char *)heap_ptr, name_string);
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heap_ptr += strlen(name_string) + 1;
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// moved this up to before the pd record
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/*
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// this aligns the heap pointer to 32bit. Not doing this causes the floats in the pd to be misaligned, which crashes the arm.
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if((uint32_t)heap_ptr % 4){
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heap_ptr += 4 - (uint32_t)heap_ptr % 4;
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}
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*/
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return pd_ptr;
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}
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uint16_t add_mode(char *name_string, uint8_t index, uint8_t type) {
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mode_descriptor_t mdr;
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mdr.record_type = RECORD_TYPE_MODE_DATA_RECORD;
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mdr.index = index;
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mdr.type = type; //hw = 0, sw = 1
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mdr.unused = 0x00;
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memcpy(heap_ptr, &mdr, sizeof(mode_descriptor_t));
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uint16_t md_ptr = MEMPTR(*heap_ptr);
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heap_ptr = (uint8_t *)&(((mode_descriptor_t *)heap_ptr)->names);
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strcpy((char *)heap_ptr, name_string);
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heap_ptr += strlen(name_string) + 1;
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return md_ptr;
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}
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void metadata(pd_metadata_t *pdm, process_data_descriptor_t *ptr) {
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pdm->ptr = ptr;
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pdm->range = ptr->data_type == DATA_TYPE_SIGNED ? MAX(ABS(ptr->param_min), ABS(ptr->param_max)) * 2 : ptr->param_max;
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pdm->bitmax = (1 << ptr->data_size) - 1;
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}
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void print_pd(process_data_descriptor_t *pd) {
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int strl = strlen(&pd->names);
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char *unit = &pd->names;
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char *name = &pd->names + strl + 1;
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switch(pd->data_type) {
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case DATA_TYPE_PAD:
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printf("uint32_t padding : %u;\n", pd->data_size);
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break;
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case DATA_TYPE_BITS:
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for(int i = 0; i < pd->data_size; i++) {
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printf("uint32_t %s_%i : 1;\n", name, i);
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}
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break;
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case DATA_TYPE_UNSIGNED:
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if(pd->data_size == 8) {
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printf("uint8_t %s;\n", name);
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} else {
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printf("warning: unsupported int size!\n");
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}
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break;
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case DATA_TYPE_SIGNED:
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if(pd->data_size == 8) {
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printf("int8_t %s;\n", name);
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} else {
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printf("warning: unsupported int size!\n");
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}
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break;
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case DATA_TYPE_FLOAT:
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//TODO: check size
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if(pd->data_size != 32) {
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printf("warning: unsupported float size!");
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}
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printf("float %s;\n", name);
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break;
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case DATA_TYPE_BOOLEAN:
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printf("uint32_t %s : %u;\n", name, pd->data_size);
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break;
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case DATA_TYPE_NONVOL_UNSIGNED:
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case DATA_TYPE_NONVOL_SIGNED:
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case DATA_TYPE_STREAM:
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case DATA_TYPE_ENCODER:
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case DATA_TYPE_ENCODER_H:
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case DATA_TYPE_ENCODER_L:
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default:
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printf("unsupported data type: 0x%02X\n", pd->data_type);
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}
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}
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int main() {
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heap_ptr = memory.heap;
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uint16_t input_bits = 8; // this starts at 8 bits = 1 byte for the fault byte
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uint16_t output_bits = 0;
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// these are temp toc arrays that the macros will write pointers into. the tocs get copied to main memory after everything else is written in
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uint16_t ptoc[32];
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uint16_t gtoc[32];
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uint16_t *ptocp = ptoc;
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uint16_t *gtocp = gtoc;
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process_data_descriptor_t *last_pd;
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ADD_PROCESS_VAR(("pos_cmd", "rad", 32, DATA_TYPE_FLOAT, DATA_DIRECTION_OUTPUT, -INFINITY, INFINITY));
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metadata(&(pd_table.pos_cmd), last_pd);
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ADD_PROCESS_VAR(("vel_cmd", "rad", 32, DATA_TYPE_FLOAT, DATA_DIRECTION_OUTPUT, -INFINITY, INFINITY));
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metadata(&(pd_table.vel_cmd), last_pd);
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ADD_PROCESS_VAR(("out", "none", 4, DATA_TYPE_BITS, DATA_DIRECTION_OUTPUT, 0, 1));
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metadata(&(pd_table.output_pins), last_pd);
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ADD_PROCESS_VAR(("enable", "none", 1, DATA_TYPE_BOOLEAN, DATA_DIRECTION_OUTPUT, 0, 1));
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metadata(&(pd_table.enable), last_pd);
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ADD_PROCESS_VAR(("pos_fb", "rad", 32, DATA_TYPE_FLOAT, DATA_DIRECTION_INPUT, -INFINITY, INFINITY));
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metadata(&(pd_table.pos_fb), last_pd);
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ADD_PROCESS_VAR(("vel_fb", "rad", 32, DATA_TYPE_FLOAT, DATA_DIRECTION_INPUT, -INFINITY, INFINITY));
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metadata(&(pd_table.vel_fb), last_pd);
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ADD_PROCESS_VAR(("current", "A", 8, DATA_TYPE_SIGNED, DATA_DIRECTION_INPUT, -30, 30));
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metadata(&(pd_table.current), last_pd);
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ADD_PROCESS_VAR(("in", "none", 4, DATA_TYPE_BITS, DATA_DIRECTION_INPUT, -100, 100));
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metadata(&(pd_table.input_pins), last_pd);
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ADD_PROCESS_VAR(("fault", "none", 1, DATA_TYPE_BOOLEAN, DATA_DIRECTION_INPUT, 0, 1));
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metadata(&(pd_table.fault), last_pd);
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ADD_PROCESS_VAR(("index_enable", "none", 1, DATA_TYPE_BOOLEAN, DATA_DIRECTION_BI_DIRECTIONAL, 0, 1));
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metadata(&(pd_table.index_enable), last_pd);
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ADD_GLOBAL_VAR(("scale", "none", 32, DATA_TYPE_FLOAT, DATA_DIRECTION_OUTPUT, -INFINITY, INFINITY));
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ADD_MODE(("Position mode", 0, 1));
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// automatically create padding pds based on the mod remainder of input/output bits
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if(input_bits % 8)
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ADD_PROCESS_VAR(("padding", "", 8 - (input_bits % 8), DATA_TYPE_PAD, DATA_DIRECTION_INPUT, 0, 0));
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if(output_bits % 8)
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ADD_PROCESS_VAR(("padding", "", 8 - (output_bits % 8), DATA_TYPE_PAD, DATA_DIRECTION_OUTPUT, 0, 0));
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// now that all the toc entries have been added, write out the tocs to memory and set up the toc pointers
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//calculate bytes from bits
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memory.discovery.input = input_bits >> 3;
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memory.discovery.output = output_bits >> 3;
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memory.discovery.ptocp = MEMPTR(*heap_ptr);
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for(uint8_t i = 0; i < ptocp - ptoc; i++) {
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*heap_ptr++ = ptoc[i] & 0x00FF;
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*heap_ptr++ = (ptoc[i] & 0xFF00) >> 8;
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}
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// this is the ptoc end marker
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*heap_ptr++ = 0x00;
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*heap_ptr++ = 0x00;
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memory.discovery.gtocp = MEMPTR(*heap_ptr);
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for(uint8_t i = 0; i < gtocp - gtoc; i++) {
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*heap_ptr++ = gtoc[i] & 0x00FF;
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*heap_ptr++ = (gtoc[i] & 0xFF00) >> 8;
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}
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// this is the gtoc end marker
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*heap_ptr++ = 0x00;
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*heap_ptr++ = 0x00;
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// printf("gtoc:%u\n",memory.discovery.gtocp);
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// printf("ptoc:%u\n",memory.discovery.ptocp);
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// printf("%i\n",sizeof(memory_t));
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//printf("%u\n",MEMPTR(*heap_ptr));
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int nl = 0;
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printf("uint8_t sserial_slave[] = {\n");
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for(int i = 0; i < MEMPTR(*heap_ptr); i++) {
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//printf("%u %c\n",memory.bytes[i],memory.bytes[i]);
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printf("0x%02X,", memory.bytes[i]);
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nl++;
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if(nl > 7) {
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nl = 0;
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printf("// %i..%i\n", i - 7, i);
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}
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}
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printf("\n};\n\n");
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printf("const discovery_rpc_t discovery = {\n");
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printf(" .ptocp = 0x%04X,\n", memory.discovery.ptocp);
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printf(" .gtocp = 0x%04X,\n", memory.discovery.gtocp);
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printf(" .input = %u,\n", memory.discovery.input);
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printf(" .output = %u,\n", memory.discovery.output);
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printf("};\n\n");
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printf("typedef struct {\n");
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ptocp = (uint16_t *)(memory.bytes + memory.discovery.ptocp);
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gtocp = (uint16_t *)(memory.bytes + memory.discovery.gtocp);
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while(*ptocp != 0x0000) {
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process_data_descriptor_t *pd = (process_data_descriptor_t *)(memory.bytes + *ptocp++);
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//printf("0x%02X\n",pd->data_direction);
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if((pd->data_direction == DATA_DIRECTION_OUTPUT || pd->data_direction == DATA_DIRECTION_BI_DIRECTIONAL) && pd->record_type == RECORD_TYPE_PROCESS_DATA_RECORD) {
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print_pd(pd);
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}
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// printf("pd has data at %x with value %x\n", pd->data_addr, MEMU16(pd->data_addr));
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}
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printf("} sserial_out_process_data_t; //size:%u bytes\n", memory.discovery.output);
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printf("_Static_assert(sizeof(sserial_out_process_data_t) == %u, \"sserial_out_process_data_t size error!\");\n", memory.discovery.output);
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printf("\n");
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printf("typedef struct {\n");
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ptocp = (uint16_t *)(memory.bytes + memory.discovery.ptocp);
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while(*ptocp != 0x0000) {
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process_data_descriptor_t *pd = (process_data_descriptor_t *)(memory.bytes + *ptocp++);
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//printf("0x%02X\n",pd->data_direction);
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if((pd->data_direction == DATA_DIRECTION_INPUT || pd->data_direction == DATA_DIRECTION_BI_DIRECTIONAL) && pd->record_type == RECORD_TYPE_PROCESS_DATA_RECORD) {
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print_pd(pd);
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}
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// printf("pd has data at %x with value %x\n", pd->data_addr, MEMU16(pd->data_addr));
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}
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printf("} sserial_in_process_data_t; //size:%u bytes\n", memory.discovery.input - 1);
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printf("_Static_assert(sizeof(sserial_in_process_data_t) == %u, \"sserial_in_process_data_t size error!\");\n", memory.discovery.input - 1);
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gtocp = (uint16_t *)(memory.bytes + memory.discovery.gtocp);
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while(*gtocp != 0x0000) {
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process_data_descriptor_t *pd = (process_data_descriptor_t *)(memory.bytes + *gtocp++);
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if(pd->record_type == RECORD_TYPE_PROCESS_DATA_RECORD) {
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int strl = strlen(&pd->names);
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char *unit = &pd->names;
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char *name = &pd->names + strl + 1;
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printf("//global name:%s addr:0x%x size:%i dir:0x%x\n", name, pd->data_addr, pd->data_size, pd->data_direction);
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printf("#define %s_address %i\n", name, pd->data_addr);
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}
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}
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} |