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501e7d547956065eef94f1d7cd73fa29f55d1b97
sf_daq_buffer/jf-assembler/src/EigerAssembler.cpp
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lhdamiani 501e7d5479 missing bracket fix
2021-07-21 10:38:34 +02:00

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#include <cstdint>
#include <chrono>
#include <iostream>
#include <formats.hpp>
#include <cstring>
#include "EigerAssembler.hpp"
#include "buffer_config.hpp"
#include "eiger.hpp"
#include "date.h"
using namespace std;
using namespace buffer_config;
EigerAssembler::EigerAssembler(const int n_modules, const int bit_depth):
n_modules_(n_modules),
n_eiger_modules_(n_modules/4),
bit_depth_(bit_depth),
n_bytes_per_frame_(MODULE_N_PIXELS * bit_depth / 8),
n_bytes_per_frame_line_(MODULE_X_SIZE * bit_depth / 8),
n_packets_per_frame_(n_bytes_per_frame_ / DATA_BYTES_PER_PACKET),
n_bytes_per_x_gap_(GAP_X_MODULE_PIXELS * bit_depth / 8),
n_bytes_per_y_gap_(GAP_Y_MODULE_PIXELS * bit_depth / 8),
n_bytes_per_eiger_x_gap_(GAP_X_EIGERMOD_PIXELS * bit_depth / 8),
n_bytes_per_eiger_y_gap_(GAP_Y_EIGERMOD_PIXELS * bit_depth / 8),
n_bytes_per_image_line_(n_bytes_per_frame_line_ * 2 + n_bytes_per_x_gap_),
n_lines_per_frame_(DATA_BYTES_PER_PACKET / n_bytes_per_frame_line_ * n_packets_per_frame_),
image_bytes_((n_modules_ * n_bytes_per_frame_) + (2 * (MODULE_Y_SIZE * 2) * bit_depth_ / 8) + ((n_eiger_modules_) * (2 * n_bytes_per_image_line_)))
{
}
int EigerAssembler::get_last_img_status() const
{
return last_image_status_;
}
size_t EigerAssembler::get_module_n_bytes() const
{
return n_bytes_per_frame_;
}
size_t EigerAssembler::get_image_n_bytes() const
{
return image_bytes_;
}
void EigerAssembler::assemble_image(const char* src_meta,
const char* src_data,
char* dst_meta,
char* dst_data)
{
auto is_pulse_init = false;
for (int i_module = 0; i_module < n_modules_; i_module++) {
// module frame metadata
auto frame_meta = (ModuleFrame *)(src_meta + (sizeof(ModuleFrame)* i_module));
// module frame data
auto *frame_data = src_data + (n_bytes_per_frame_ * i_module);
// image metadata
auto image_meta = (ImageMetadata *) dst_meta;
// initializes image metadata
if (!is_pulse_init){
// init good image status = 0
image_meta->status = 0;
image_meta->id = frame_meta->id;
image_meta->height = n_modules_ / 2 * MODULE_Y_SIZE + GAP_Y_MODULE_PIXELS;
image_meta->width = n_modules_ / 2 * MODULE_X_SIZE + GAP_X_MODULE_PIXELS;
image_meta->dtype = (bit_depth_ <= 8) ? 1 : bit_depth_ / 8;
image_meta->encoding = 0;
image_meta->source_id = 0;
// TODO: proper user ids
image_meta->user_1 = 0;
image_meta->user_2 = 0;
is_pulse_init = 1;
#ifdef DEBUG_OUTPUT
using namespace date;
cout << " [" << std::chrono::system_clock::now();
cout << "] [EigerAssembler::assemble_image] is_pulse_init ";
cout << " || Image id: " << image_meta->id;
cout << endl;
#endif
}
// missing packets: bad status = 1
if (frame_meta->n_recv_packets != n_packets_per_frame_){
image_meta->status = 1;
}
// frame id false: bad status = 2
if (frame_meta->frame_index != image_meta->id) {
image_meta->status = 2;
}
// top
uint32_t source_offset = 0;
uint32_t reverse_factor = 0;
uint32_t line_number = 0;
uint32_t dest_offset = 0;
// If bottom -> reversed
const auto reverse = IS_BOTTOM(frame_meta->pos_x);
if (reverse == -1) {
line_number = MODULE_Y_SIZE + GAP_Y_MODULE_PIXELS;
reverse_factor = MODULE_Y_SIZE - 1;
dest_offset += n_bytes_per_image_line_ *
(MODULE_Y_SIZE + GAP_Y_MODULE_PIXELS);
source_offset = (MODULE_Y_SIZE-1) * n_bytes_per_frame_line_;
}
const auto i_module_row = frame_meta->pos_x;
const auto i_module_column = frame_meta->pos_y;
uint32_t dest_module_line = line_number;
if (i_module_column == 1) {
dest_offset += n_bytes_per_frame_line_ + n_bytes_per_x_gap_;
}
int counter = 0;
for (uint32_t frame_line = 0;
frame_line < n_lines_per_frame_; frame_line++) {
// void * destination, const void * source, size_t num
memcpy (
(char*)(dst_data + dest_offset),
(char*)(src_data + source_offset),
n_bytes_per_frame_line_
);
#ifdef DEBUG_OUTPUT
using namespace date;
// verifies the addresses for
// beginning and end of each frame
if (counter < 5 || counter > 508){
cout << " [" << std::chrono::system_clock::now();
cout << "] [MODULE " << i_module;
cout << "] (row " << i_module_row;
cout << ",column " << i_module_column;
cout << ") source_offset" << source_offset;
cout << " || dest_offset " << dest_offset;
cout << " || frame_line " << frame_line;
cout << " || COUNTER " << counter;
cout << endl;
}
#endif
counter += 1;
source_offset += reverse * n_bytes_per_frame_line_;
dest_offset += reverse * n_bytes_per_image_line_;
}
line_number += n_lines_per_frame_;
dest_module_line = line_number + n_lines_per_frame_ - 1;
#ifdef DEBUG_OUTPUT
using namespace date;
// if (i_module == 0){
cout << " [" << std::chrono::system_clock::now();
cout << "] [MODULE " << i_module;
cout << "] (row " << i_module_row;
cout << " , column" << i_module_column;
cout << ") || reverse_factor" << reverse_factor;
cout << " || line_number" << line_number;
cout << " || N_RECV_PACKETS" << frame_meta->n_recv_packets;
cout << endl;
// }
#endif
// last module sets the last_image_status_
if (i_module == n_modules_ - 1){
last_image_status_ = image_meta->status;
#ifdef DEBUG_OUTPUT
using namespace date;
cout << " [" << std::chrono::system_clock::now();
cout << "] [EigerAssembler::assemble_image] ";
cout << " || Image id: " << image_meta->id;
cout << " || last_image_status_ " << last_image_status_;
cout << endl;
#endif
}
}
}
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