lnav/src/spectro_source.hh

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/**
* Copyright (c) 2016, Timothy Stack
*
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* * Redistributions of source code must retain the above copyright notice, this
* list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
* * Neither the name of Timothy Stack nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ''AS IS'' AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR ANY
* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
* ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* @file spectroview_curses.hh
*/
#ifndef __spectro_source_hh
#define __spectro_source_hh
#include <math.h>
#include <time.h>
#include <map>
#include <vector>
#include "ansi_scrubber.hh"
#include "textview_curses.hh"
struct spectrogram_bounds {
spectrogram_bounds()
: sb_begin_time(0),
sb_end_time(0),
sb_min_value_out(0.0),
sb_max_value_out(0.0),
sb_count(0) {
};
time_t sb_begin_time;
time_t sb_end_time;
double sb_min_value_out;
double sb_max_value_out;
int64_t sb_count;
};
struct spectrogram_thresholds {
int st_green_threshold;
int st_yellow_threshold;
};
struct spectrogram_request {
spectrogram_request(spectrogram_bounds &sb)
: sr_bounds(sb), sr_width(0), sr_column_size(0) {
};
spectrogram_bounds &sr_bounds;
unsigned long sr_width;
time_t sr_begin_time;
time_t sr_end_time;
double sr_column_size;
};
struct spectrogram_row {
spectrogram_row() : sr_values(NULL), sr_width(0) {
};
~spectrogram_row() {
delete this->sr_values;
}
struct row_bucket {
row_bucket() : rb_counter(0), rb_marks(0) { };
int rb_counter;
int rb_marks;
};
row_bucket *sr_values;
unsigned long sr_width;
double sr_column_size;
void add_value(spectrogram_request &sr, double value, bool marked) {
long index = lrint((value - sr.sr_bounds.sb_min_value_out) / sr.sr_column_size);
this->sr_values[index].rb_counter += 1;
if (marked) {
this->sr_values[index].rb_marks += 1;
}
};
};
class spectrogram_value_source {
public:
virtual ~spectrogram_value_source() { };
virtual void spectro_bounds(spectrogram_bounds &sb_out) = 0;
virtual void spectro_row(spectrogram_request &sr,
spectrogram_row &row_out) = 0;
virtual void spectro_mark(textview_curses &tc,
time_t begin_time, time_t end_time,
double range_min, double range_max) = 0;
};
class spectrogram_source
: public text_sub_source,
public text_time_translator,
public list_overlay_source,
public list_input_delegate {
public:
spectrogram_source()
: ss_granularity(60),
ss_value_source(NULL),
ss_cursor_column(-1) {
};
void invalidate() {
this->ss_cached_bounds.sb_count = 0;
this->ss_row_cache.clear();
this->ss_cursor_column = -1;
};
bool list_input_handle_key(listview_curses &lv, int ch) {
switch (ch) {
case 'm': {
if (this->ss_cursor_top < 0 ||
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(size_t) this->ss_cursor_top >= this->text_line_count() ||
this->ss_cursor_column == -1 ||
this->ss_value_source == NULL) {
alerter::singleton().chime();
return true;
}
unsigned long width;
vis_line_t height;
lv.get_dimensions(height, width);
spectrogram_bounds &sb = this->ss_cached_bounds;
time_t begin_time = this->time_for_row(this->ss_cursor_top);
time_t end_time = begin_time + this->ss_granularity;
double range_min, range_max, column_size;
column_size = (sb.sb_max_value_out - sb.sb_min_value_out) /
(double) (width - 1);
range_min = sb.sb_min_value_out + this->ss_cursor_column * column_size;
range_max = range_min + column_size + column_size * 0.01;
this->ss_value_source->spectro_mark((textview_curses &) lv,
begin_time, end_time,
range_min, range_max);
this->invalidate();
lv.reload_data();
return true;
}
case KEY_LEFT:
case KEY_RIGHT: {
unsigned long width;
vis_line_t height;
string_attrs_t sa;
this->ss_cursor_top = lv.get_top();
lv.get_dimensions(height, width);
this->text_attrs_for_line((textview_curses &) lv, this->ss_cursor_top, sa);
if (sa.empty()) {
this->ss_cursor_column = -1;
return true;
}
string_attrs_t::iterator current;
struct line_range lr(this->ss_cursor_column, this->ss_cursor_column + 1);
current = find_string_attr(sa, lr);
if (current != sa.end()) {
if (ch == KEY_LEFT) {
if (current == sa.begin()) {
current = sa.end();
}
else {
--current;
}
}
else {
++current;
}
}
if (current == sa.end()) {
if (ch == KEY_LEFT) {
current = sa.end();
--current;
}
else {
current = sa.begin();
}
}
this->ss_cursor_column = current->sa_range.lr_start;
lv.reload_data();
return true;
}
default:
return false;
}
};
bool list_value_for_overlay(const listview_curses &lv,
int y, int bottom,
vis_line_t row,
attr_line_t &value_out) {
if (y != 0) {
return false;
}
std::string &line = value_out.get_string();
char buf[128];
vis_line_t height;
unsigned long width;
lv.get_dimensions(height, width);
this->cache_bounds();
if (this->ss_cached_line_count == 0) {
value_out.with_ansi_string(
ANSI_ROLE("error: no log data"),
view_colors::VCR_ERROR);
return true;
}
spectrogram_bounds &sb = this->ss_cached_bounds;
spectrogram_thresholds &st = this->ss_cached_thresholds;
snprintf(buf, sizeof(buf), "Min: %'.10lg", sb.sb_min_value_out);
line = buf;
snprintf(buf, sizeof(buf),
ANSI_ROLE(" ") " 1-%'d "
ANSI_ROLE(" ") " %'d-%'d "
ANSI_ROLE(" ") " %'d+",
view_colors::VCR_LOW_THRESHOLD,
st.st_green_threshold - 1,
view_colors::VCR_MED_THRESHOLD,
st.st_green_threshold,
st.st_yellow_threshold - 1,
view_colors::VCR_HIGH_THRESHOLD,
st.st_yellow_threshold);
line.append(width / 2 - strlen(buf) / 3 - line.length(), ' ');
line.append(buf);
scrub_ansi_string(line, value_out.get_attrs());
snprintf(buf, sizeof(buf), "Max: %'.10lg", sb.sb_max_value_out);
line.append(width - strlen(buf) - line.length() - 2, ' ');
line.append(buf);
value_out.with_attr(string_attr(
line_range(0, -1),
&view_curses::VC_STYLE,
A_UNDERLINE));
return true;
};
size_t text_line_count() {
if (this->ss_value_source == NULL) {
return 0;
}
this->cache_bounds();
return this->ss_cached_line_count;
};
size_t text_line_width(textview_curses &tc) {
if (tc.get_window() == NULL) {
return 80;
}
unsigned long width;
vis_line_t height;
tc.get_dimensions(height, width);
return width;
};
size_t text_size_for_line(textview_curses &tc, int row, line_flags_t flags) {
return 0;
};
time_t time_for_row(int row) {
time_t retval;
this->cache_bounds();
retval = rounddown(this->ss_cached_bounds.sb_begin_time, this->ss_granularity) +
row * this->ss_granularity;
return retval;
}
int row_for_time(time_t time_bucket) {
if (this->ss_value_source == NULL) {
return 0;
}
time_t diff;
int retval;
this->cache_bounds();
if (time_bucket < this->ss_cached_bounds.sb_begin_time) {
return 0;
}
diff = time_bucket - this->ss_cached_bounds.sb_begin_time;
retval = diff / this->ss_granularity;
return retval;
}
void text_value_for_line(textview_curses &tc,
int row,
std::string &value_out,
line_flags_t flags) {
spectrogram_row &s_row = this->load_row(tc, row);
time_t row_time;
char tm_buffer[128];
struct tm tm;
row_time = this->time_for_row(row);
gmtime_r(&row_time, &tm);
strftime(tm_buffer, sizeof(tm_buffer), " %a %b %d %H:%M:%S", &tm);
value_out = tm_buffer;
value_out.resize(s_row.sr_width, ' ');
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for (size_t lpc = 0; lpc <= s_row.sr_width; lpc++) {
if (s_row.sr_values[lpc].rb_marks) {
value_out[lpc] = 'x';
}
}
if (this->ss_cursor_top == row && this->ss_cursor_column != -1) {
if (value_out[this->ss_cursor_column] == 'x') {
value_out[this->ss_cursor_column] = '*';
}
else {
value_out[this->ss_cursor_column] = '+';
}
}
};
void text_attrs_for_line(textview_curses &tc,
int row,
string_attrs_t &value_out) {
if (this->ss_value_source == NULL) {
return;
}
view_colors &vc = view_colors::singleton();
spectrogram_thresholds &st = this->ss_cached_thresholds;
spectrogram_row &s_row = this->load_row(tc, row);
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for (int lpc = 0; lpc <= (int) s_row.sr_width; lpc++) {
int col_value = s_row.sr_values[lpc].rb_counter;
if (col_value == 0) {
continue;
}
int color;
if (col_value < st.st_green_threshold) {
color = COLOR_GREEN;
}
else if (col_value < st.st_yellow_threshold) {
color = COLOR_YELLOW;
}
else {
color = COLOR_RED;
}
value_out.push_back(string_attr(
line_range(lpc, lpc + 1),
&view_curses::VC_STYLE,
vc.ansi_color_pair(COLOR_BLACK, color)
));
}
};
void cache_bounds() {
if (this->ss_value_source == NULL) {
this->ss_cached_bounds.sb_count = 0;
this->ss_cached_bounds.sb_begin_time = 0;
return;
}
spectrogram_bounds sb;
this->ss_value_source->spectro_bounds(sb);
if (sb.sb_count == this->ss_cached_bounds.sb_count) {
return;
}
this->ss_cached_bounds = sb;
if (sb.sb_count == 0) {
this->ss_cached_line_count = 0;
return;
}
time_t grain_begin_time = rounddown(sb.sb_begin_time, this->ss_granularity);
time_t grain_end_time = roundup_size(sb.sb_end_time, this->ss_granularity);
time_t diff = std::max((time_t) 1, grain_end_time - grain_begin_time);
this->ss_cached_line_count =
(diff + this->ss_granularity - 1) / this->ss_granularity;
int64_t samples_per_row = sb.sb_count / this->ss_cached_line_count;
spectrogram_thresholds &st = this->ss_cached_thresholds;
st.st_yellow_threshold = samples_per_row / 2;
st.st_green_threshold = st.st_yellow_threshold / 2;
if (st.st_green_threshold <= 1) {
st.st_green_threshold = 2;
}
if (st.st_yellow_threshold <= st.st_green_threshold) {
st.st_yellow_threshold = st.st_green_threshold + 1;
}
};
spectrogram_row &load_row(textview_curses &tc, int row) {
this->cache_bounds();
unsigned long width;
vis_line_t height;
tc.get_dimensions(height, width);
width -= 2;
spectrogram_bounds &sb = this->ss_cached_bounds;
spectrogram_request sr(sb);
time_t row_time;
sr.sr_width = width;
row_time = rounddown(sb.sb_begin_time, this->ss_granularity) +
row * this->ss_granularity;
sr.sr_begin_time = row_time;
sr.sr_end_time = row_time + this->ss_granularity;
sr.sr_column_size = (sb.sb_max_value_out - sb.sb_min_value_out) /
(double) (width - 1);
spectrogram_row &s_row = this->ss_row_cache[row_time];
if (s_row.sr_values == NULL ||
s_row.sr_width != width ||
s_row.sr_column_size != sr.sr_column_size) {
s_row.sr_width = width;
s_row.sr_column_size = sr.sr_column_size;
delete s_row.sr_values;
s_row.sr_values = new spectrogram_row::row_bucket[width + 1];
memset(s_row.sr_values, 0, sizeof(int) * (width + 1));
this->ss_value_source->spectro_row(sr, s_row);
}
return s_row;
}
int ss_granularity;
spectrogram_value_source *ss_value_source;
spectrogram_bounds ss_cached_bounds;
spectrogram_thresholds ss_cached_thresholds;
size_t ss_cached_line_count;
std::map<time_t, spectrogram_row> ss_row_cache;
vis_line_t ss_cursor_top;
int ss_cursor_column;
};
#endif