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Ruin readibility with separate assert lines

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master
denes 6 years ago
parent cfbe792737
commit fab767c32b
Signed by: denes
GPG Key ID: A7D50EAD42F9FC9F
1 changed files with 127 additions and 76 deletions
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203
graph_browser.cpp
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@ -1,16 +1,6 @@
#include <cstring> #include <cstring>
// every day is assert day
#ifndef NDEBUG
#include <cassert>
#else
#define NDEBUG
#include <cassert>
#undef NDEBUG
#endif
#include <algorithm> #include <algorithm>
#include <cassert>
#include "graph_browser.hpp" #include "graph_browser.hpp"
@ -29,10 +19,13 @@ namespace {
return s; return s;
} }
std::string toCommaSeparatedList(const std::vector<std::string>& v) std::string toCommaSeparatedList(const std::vector<std::string>& v, const std::string& skip)
{ {
std::string s; std::string s;
for (size_t i = 0; i < v.size()-1; ++i) { for (size_t i = 0; i < v.size()-1; ++i) {
if (v[i] == skip)
continue;
s += v[i]; s += v[i];
s += ","; s += ",";
} }
@ -64,14 +57,23 @@ namespace {
void GraphBrowser::init() void GraphBrowser::init()
{ {
assert(initscr()); int r = 0;
assert(cbreak() == OK); WINDOW* w;
assert(noecho() == OK);
assert(keypad(stdscr, TRUE) == OK); w = initscr();
assert(w);
r = cbreak();
assert(r == OK);
r = noecho();
assert(r == OK);
r = keypad(stdscr, TRUE);
assert(r == OK);
//Needed to have immediate ESC-Key behavior: //Needed to have immediate ESC-Key behavior:
if (getenv ("ESCDELAY") == NULL) if (getenv ("ESCDELAY") == NULL) {
assert(set_escdelay(25) == OK); r = set_escdelay(25);
assert(r == OK);
}
} }
void GraphBrowser::destroy() void GraphBrowser::destroy()
@ -96,69 +98,99 @@ GraphBrowser::GraphBrowser(Graph<std::string>& g)
void GraphBrowser::initLayout() void GraphBrowser::initLayout()
{ {
// window of the current node int r;
menu_ = new_menu((ITEM **)0);
assert(menu_);
current_win_ = newwin(window_height, current_window_width, 1, 0); current_win_ = newwin(window_height, current_window_width, 1, 0);
assert(current_win_); assert(current_win_);
assert(keypad(current_win_, TRUE) == OK); r = keypad(current_win_, TRUE);
assert(r == OK);
assert(set_menu_win(menu_, current_win_) == E_OK); menu_ = new_menu((ITEM **)0);
assert(menu_);
r = set_menu_win(menu_, current_win_);
assert(r == E_OK);
menu_subwindow_ = derwin(current_win_, window_height-2, current_window_width-2, 1, 1); menu_subwindow_ = derwin(current_win_, window_height-2, current_window_width-2, 1, 1);
assert(menu_subwindow_); assert(menu_subwindow_);
assert(set_menu_sub(menu_, menu_subwindow_) == E_OK); r = set_menu_sub(menu_, menu_subwindow_);
const int r = set_menu_format(menu_, window_height-2, 1); assert(r == E_OK);
assert(set_menu_mark(menu_, " ") == E_OK); r = set_menu_format(menu_, window_height-2, 1);
assert(r == E_OK); // @bug NOT connected
assert(wborder(current_win_, r = set_menu_mark(menu_, " ");
ACS_VLINE, ACS_VLINE, ACS_HLINE, ACS_HLINE, assert(r == E_OK);
ACS_ULCORNER, ACS_TTEE, ACS_LLCORNER, ACS_BTEE) == OK);
assert(refresh() == OK); r = wborder(current_win_,
assert(wrefresh(current_win_) == OK); ACS_VLINE, ACS_VLINE, ACS_HLINE, ACS_HLINE,
ACS_ULCORNER, ACS_TTEE, ACS_LLCORNER, ACS_BTEE);
assert(r == OK);
r = refresh();
assert(r == OK);
r = wrefresh(current_win_);
assert(r == OK);
n_win_ = newwin(window_height, n_window_width, 1, current_window_width); n_win_ = newwin(window_height, n_window_width, 1, current_window_width);
assert(n_win_); assert(n_win_);
assert(wborder(n_win_, r = wborder(n_win_,
' ', ' ', ACS_HLINE, ACS_HLINE, ' ', ' ', ACS_HLINE, ACS_HLINE,
ACS_HLINE, ACS_HLINE, ACS_HLINE, ACS_HLINE) == OK); ACS_HLINE, ACS_HLINE, ACS_HLINE, ACS_HLINE);
assert(refresh() == OK); assert(r == OK);
assert(wrefresh(n_win_) == OK); r = refresh();
assert(r == OK);
r = wrefresh(n_win_);
assert(r == OK);
// window of the neighbours'neighbours of the current vertex // window of the neighbours'neighbours of the current vertex
n_of_n_win_ = newwin(window_height, term_max_x_-current_window_width-n_window_width, n_of_n_win_ = newwin(window_height, term_max_x_-current_window_width-n_window_width,
1, n_window_width+current_window_width); 1, n_window_width+current_window_width);
assert(n_of_n_win_); assert(n_of_n_win_);
assert(wborder(n_of_n_win_, r = wborder(n_of_n_win_,
ACS_VLINE, ACS_VLINE, ACS_HLINE, ACS_HLINE, ACS_VLINE, ACS_VLINE, ACS_HLINE, ACS_HLINE,
ACS_TTEE, ACS_URCORNER, ACS_BTEE, ACS_LRCORNER) == OK); ACS_TTEE, ACS_URCORNER, ACS_BTEE, ACS_LRCORNER);
assert(refresh() == OK); assert(r == OK);
assert(wrefresh(n_of_n_win_) == OK); r = refresh();
assert(r == OK);
r = wrefresh(n_of_n_win_);
assert(r == OK);
// bottom text // bottom text
/// @note should we assert as a minimum width? /// @note should we assert as a minimum width?
mvprintw(term_max_y_-1, 0, "ESC:exit, cursors:navigate, d/i:del/ins edge, D/I:del/ins node"); mvprintw(term_max_y_-1, 0, "ESC:exit, cursors:navigate, d/i:del/ins edge, D/I:del/ins node");
assert(refresh() == OK); r = refresh();
assert(r == OK);
} }
void GraphBrowser::cleanUp() void GraphBrowser::cleanUp()
{ {
assert(endwin() == OK); int r;
assert(refresh() == OK);
assert(clear() == OK); r = endwin();
assert(r == OK);
r = refresh();
assert(r == OK);
r = clear();
assert(r == OK);
ITEM** old_items = menu_items(menu_); ITEM** old_items = menu_items(menu_);
const int old_items_count = item_count(menu_); const int old_items_count = item_count(menu_);
if (old_items_count > 0) if (old_items_count > 0) {
assert(unpost_menu(menu_) == E_OK); r = unpost_menu(menu_);
assert(free_menu(menu_) == E_OK); assert(r == E_OK);
for (int i = 0; i < old_items_count; ++i) }
assert(free_item(old_items[i]) == E_OK); r = free_menu(menu_);
assert(r == E_OK);
assert(delwin(menu_subwindow_) == OK); for (int i = 0; i < old_items_count; ++i) {
assert(delwin(current_win_) == OK); r = free_item(old_items[i]);
assert(delwin(n_win_) == OK); assert(r == E_OK);
assert(delwin(n_of_n_win_) == OK); }
r = delwin(menu_subwindow_);
assert(r == OK);
r = delwin(current_win_);
assert(r == OK);
r = delwin(n_win_);
assert(r == OK);
r = delwin(n_of_n_win_);
assert(r == OK);
} }
GraphBrowser::~GraphBrowser() GraphBrowser::~GraphBrowser()
@ -277,19 +309,26 @@ void GraphBrowser::updateCurrent(const std::string& s, bool first_run)
addItems(n, first_run); addItems(n, first_run);
updateNeighbours(); updateNeighbours();
assert(mvprintw(0, 0, "%s",std::string(term_max_x_,' ').c_str()) == OK); int r;
assert(mvprintw(0, 0, historyToString(history_, term_max_x_).c_str()) == OK); r = mvprintw(0, 0, "%s",std::string(term_max_x_,' ').c_str());
refresh(); assert(r == OK);
r = mvprintw(0, 0, historyToString(history_, term_max_x_).c_str());
assert(r == OK);
r = refresh();
assert(r == OK);
} }
void GraphBrowser::updateNeighbours() void GraphBrowser::updateNeighbours()
{ {
int r;
const size_t n_width = n_window_width-1; const size_t n_width = n_window_width-1;
const size_t n_of_n_width = term_max_x_-current_window_width-n_window_width-2; const size_t n_of_n_width = term_max_x_-current_window_width-n_window_width-2;
for (int i = 1; i < window_height-1; ++i) { for (int i = 1; i < window_height-1; ++i) {
assert(mvwprintw(n_win_, i, 1, "%s", std::string(n_width,' ').c_str()) == OK); r = mvwprintw(n_win_, i, 1, "%s", std::string(n_width,' ').c_str());
assert(mvwprintw(n_of_n_win_, i, 1, "%s", std::string(n_of_n_width,' ').c_str()) == OK); assert(r == OK);
r = mvwprintw(n_of_n_win_, i, 1, "%s", std::string(n_of_n_width,' ').c_str());
assert(r == OK);
} }
ITEM* c_item = current_item(menu_); ITEM* c_item = current_item(menu_);
@ -298,29 +337,35 @@ void GraphBrowser::updateNeighbours()
const std::vector<std::string>& n = graph_.neighboursOf(current); const std::vector<std::string>& n = graph_.neighboursOf(current);
for (size_t i = 0; i < n.size() && i < window_height-2; ++i) { for (size_t i = 0; i < n.size() && i < window_height-2; ++i) {
const size_t n_win_w = std::min(n[i].length(), n_width); const size_t n_win_w = std::min(n[i].length(), n_width);
assert(mvwprintw(n_win_, i+1, 1, std::string(n[i], 0, n_win_w).c_str()) == OK); r = mvwprintw(n_win_, i+1, 1, std::string(n[i], 0, n_win_w).c_str());
assert(r == OK);
const std::vector<std::string>& n_of_n = graph_.neighboursOf(n[i]); const std::vector<std::string>& n_of_n = graph_.neighboursOf(n[i]);
const std::string n_of_n_string = toCommaSeparatedList(n_of_n); const std::string n_of_n_string = toCommaSeparatedList(n_of_n, current);
const size_t n_of_n_win__w = std::min(n_of_n_string.length(), n_of_n_width-1); const size_t n_of_n_win__w = std::min(n_of_n_string.length(), n_of_n_width-1);
assert(mvwprintw(n_of_n_win_, i+1, 2, r = mvwprintw(n_of_n_win_, i+1, 2,
std::string(n_of_n_string, 0, n_of_n_win__w).c_str()) == OK); std::string(n_of_n_string, 0, n_of_n_win__w).c_str());
assert(r == OK);
} }
} }
assert(wrefresh(n_win_) == E_OK); r = wrefresh(n_win_);
assert(wrefresh(n_of_n_win_) == E_OK); assert(r == E_OK);
r = wrefresh(n_of_n_win_);
assert(r == E_OK);
} }
void GraphBrowser::addItems(const std::vector<std::string>& stringVector, bool first_run) void GraphBrowser::addItems(const std::vector<std::string>& stringVector, bool first_run)
{ {
int r;
// keep pointed to deallocate old items // keep pointed to deallocate old items
ITEM** old_items = menu_items(menu_); ITEM** old_items = menu_items(menu_);
const int old_items_count = item_count(menu_); const int old_items_count = item_count(menu_);
if (old_items_count > 0) { if (old_items_count > 0) {
const int u = unpost_menu(menu_); r = unpost_menu(menu_);
assert (u == E_OK || first_run && u == E_NOT_POSTED); assert (r == E_OK || first_run && r == E_NOT_POSTED);
} }
const int number_of_new_items = stringVector.size(); const int number_of_new_items = stringVector.size();
@ -333,17 +378,23 @@ void GraphBrowser::addItems(const std::vector<std::string>& stringVector, bool f
} }
new_items[number_of_new_items] = 0; // terminating empty item new_items[number_of_new_items] = 0; // terminating empty item
} }
assert(set_menu_items(menu_, new_items) == E_OK); r = set_menu_items(menu_, new_items);
assert(r == E_OK);
if (number_of_new_items > 0) { if (number_of_new_items > 0) {
assert(set_menu_format(menu_, window_height-2, 1) == E_OK); r = set_menu_format(menu_, window_height-2, 1);
assert(post_menu(menu_) == E_OK); assert(r == E_OK);
r = post_menu(menu_);
assert(r == E_OK);
} }
assert(wrefresh(current_win_) == OK); r = wrefresh(current_win_);
assert(r == OK);
// deallocate old items // deallocate old items
for (int i = 0; i < old_items_count; ++i) for (int i = 0; i < old_items_count; ++i) {
assert(free_item(old_items[i]) == E_OK); r = free_item(old_items[i]);
assert(r == E_OK);
}
} }
void GraphBrowser::updateDimensions() void GraphBrowser::updateDimensions()

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