notcurses/tests/reel.cpp

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#include "main.h"
#include <iostream>
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auto panelcb(struct nctablet* t, int begx, int begy, int maxx, int maxy, bool cliptop) -> int {
CHECK(nctablet_ncplane(t));
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CHECK(begx < maxx);
CHECK(begy < maxy);
CHECK(!nctablet_userptr(t));
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CHECK(!cliptop);
// FIXME verify geometry is as expected
return 0;
}
TEST_CASE("NcReelTest") {
if(getenv("TERM") == nullptr){
return;
}
notcurses_options nopts{};
nopts.inhibit_alternate_screen = true;
nopts.suppress_banner = true;
FILE* outfp_ = fopen("/dev/tty", "wb");
REQUIRE(outfp_);
struct notcurses* nc_ = notcurses_init(&nopts, outfp_);
REQUIRE(nc_);
struct ncplane* n_ = notcurses_stdplane(nc_);
REQUIRE(n_);
REQUIRE(0 == ncplane_cursor_move_yx(n_, 0, 0));
SUBCASE("InitLinear") {
ncreel_options r = { };
struct ncreel* nr = ncreel_create(n_, &r, -1);
REQUIRE(nr);
}
SUBCASE("InitLinearInfinite") {
ncreel_options r{};
r.infinitescroll = true;
struct ncreel* nr = ncreel_create(n_, &r, -1);
REQUIRE(nr);
}
SUBCASE("InitCircular") {
ncreel_options r{};
r.infinitescroll = true;
r.circular = true;
struct ncreel* nr = ncreel_create(n_, &r, -1);
REQUIRE(nr);
REQUIRE(0 == ncreel_destroy(nr));
}
// circular is not allowed to be true when infinitescroll is false
SUBCASE("FiniteCircleRejected") {
ncreel_options r{};
r.infinitescroll = false;
r.circular = true;
struct ncreel* nr = ncreel_create(n_, &r, -1);
REQUIRE(!nr);
}
// We ought be able to invoke ncreel_next() and ncreel_prev() safely,
// even if there are no tablets. They both ought return nullptr.
SUBCASE("MovementWithoutTablets") {
ncreel_options r{};
r.infinitescroll = false;
struct ncreel* nr = ncreel_create(n_, &r, -1);
REQUIRE(nr);
CHECK(!ncreel_next(nr));
// CHECK_EQ(0, ncreel_validate(n_, pr));
CHECK(!ncreel_prev(nr));
// CHECK_EQ(0, ncreel_validate(n_, pr));
}
SUBCASE("OneTablet") {
ncreel_options r{};
r.infinitescroll = false;
struct ncreel* nr = ncreel_create(n_, &r, -1);
REQUIRE(nr);
struct nctablet* t = ncreel_add(nr, nullptr, nullptr, panelcb, nullptr);
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REQUIRE(t);
// CHECK_EQ(0, ncreel_validate(n_, pr));
CHECK(0 == ncreel_del(nr, t));
// CHECK_EQ(0, ncreel_validate(n_, pr));
}
SUBCASE("MovementWithOneTablet") {
ncreel_options r{};
r.infinitescroll = false;
struct ncreel* nr = ncreel_create(n_, &r, -1);
REQUIRE(nr);
struct nctablet* t = ncreel_add(nr, nullptr, nullptr, panelcb, nullptr);
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REQUIRE(t);
// CHECK_EQ(0, ncreel_validate(n_, pr));
CHECK(ncreel_next(nr));
// CHECK_EQ(0, ncreel_validate(n_, pr));
CHECK(ncreel_prev(nr));
// CHECK_EQ(0, ncreel_validate(n_, pr));
CHECK(0 == ncreel_del(nr, t));
// CHECK_EQ(0, ncreel_validate(n_, pr));
}
SUBCASE("DeleteActiveTablet") {
ncreel_options r{};
r.infinitescroll = false;
struct ncreel* nr = ncreel_create(n_, &r, -1);
REQUIRE(nr);
struct nctablet* t = ncreel_add(nr, nullptr, nullptr, panelcb, nullptr);
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REQUIRE(t);
CHECK(0 == ncreel_del_focused(nr));
}
SUBCASE("NoBorder") {
ncreel_options r{};
r.bordermask = NCBOXMASK_LEFT | NCBOXMASK_RIGHT |
NCBOXMASK_TOP | NCBOXMASK_BOTTOM;
struct ncreel* nr = ncreel_create(n_, &r, -1);
REQUIRE(nr);
}
SUBCASE("BadBorderBitsRejected") {
ncreel_options r{};
r.bordermask = NCBOXMASK_LEFT * 2;
struct ncreel* nr = ncreel_create(n_, &r, -1);
REQUIRE(!nr);
}
SUBCASE("NoTabletBorder") {
ncreel_options r{};
r.tabletmask = NCBOXMASK_LEFT | NCBOXMASK_RIGHT |
NCBOXMASK_TOP | NCBOXMASK_BOTTOM;
struct ncreel* nr = ncreel_create(n_, &r, -1);
REQUIRE(nr);
}
SUBCASE("NoTopBottomBorder") {
ncreel_options r{};
r.bordermask = NCBOXMASK_TOP | NCBOXMASK_BOTTOM;
struct ncreel* nr = ncreel_create(n_, &r, -1);
REQUIRE(nr);
}
SUBCASE("NoSideBorders") {
ncreel_options r{};
r.bordermask = NCBOXMASK_LEFT | NCBOXMASK_RIGHT;
struct ncreel* nr = ncreel_create(n_, &r, -1);
REQUIRE(nr);
}
SUBCASE("BadTabletBorderBitsRejected") {
ncreel_options r{};
r.tabletmask = NCBOXMASK_LEFT * 2;
struct ncreel* nr = ncreel_create(n_, &r, -1);
REQUIRE(!nr);
}
/*
// Make a target window occupying all but a containing perimeter of the
// specified WINDOW (which will usually be n_).
struct ncpanel* make_targwin(struct ncpanel* w) {
cchar_t cc;
int cpair = COLOR_GREEN;
CHECK_EQ(OK, setcchar(&cc, L"W", 0, 0, &cpair));
int x, y, xx, yy;
getbegyx(w, y, x);
getmaxyx(w, yy, xx);
yy -= 2;
xx -= 2;
++x;
++y;
WINDOW* ww = subwin(w, yy, xx, y, x);
CHECK_NE(nullptr, ww);
PANEL* p = new_panel(ww);
CHECK_NE(nullptr, p);
CHECK_EQ(OK, wbkgrnd(ww, &cc));
return p;
}
SUBCASE("InitWithinSubwin") {
ncreel_options r{};
r.loff = 1;
r.roff = 1;
r.toff = 1;
r.boff = 1;
CHECK_EQ(0, clear());
PANEL* base = make_targwin(n_);
REQUIRE_NE(nullptr, base);
WINDOW* basew = panel_window(base);
REQUIRE_NE(nullptr, basew);
struct ncreel* nr = ncreel_create(basew, &r, -1);
REQUIRE_NE(nullptr, pr);
CHECK_EQ(0, ncreel_validate(basew, pr));
REQUIRE_EQ(0, ncreel_destroy(nr));
CHECK_EQ(OK, del_panel(base));
CHECK_EQ(OK, delwin(basew));
}
SUBCASE("SubwinNoncreelBorders") {
ncreel_options r{};
r.loff = 1;
r.roff = 1;
r.toff = 1;
r.boff = 1;
r.bordermask = NCBOXMASK_LEFT | NCBOXMASK_RIGHT |
NCBOXMASK_TOP | NCBOXMASK_BOTTOM;
CHECK_EQ(0, clear());
PANEL* base = make_targwin(n_);
REQUIRE_NE(nullptr, base);
WINDOW* basew = panel_window(base);
REQUIRE_NE(nullptr, basew);
struct ncreel* nr = ncreel_create(basew, &r, -1);
REQUIRE_NE(nullptr, pr);
CHECK_EQ(0, ncreel_validate(basew, pr));
REQUIRE_EQ(0, ncreel_destroy(nr));
CHECK_EQ(OK, del_panel(base));
CHECK_EQ(OK, delwin(basew));
}
SUBCASE("SubwinNoOffsetGeom") {
ncreel_options r{};
CHECK_EQ(0, clear());
PANEL* base = make_targwin(n_);
REQUIRE_NE(nullptr, base);
WINDOW* basew = panel_window(base);
REQUIRE_NE(nullptr, basew);
struct ncreel* nr = ncreel_create(basew, &r, -1);
REQUIRE_NE(nullptr, pr);
CHECK_EQ(0, ncreel_validate(basew, pr));
REQUIRE_EQ(0, ncreel_destroy(nr));
CHECK_EQ(OK, del_panel(base));
CHECK_EQ(OK, delwin(basew));
}
*/
SUBCASE("TransparentBackground") {
ncreel_options r{};
channels_set_bg_alpha(&r.bgchannel, 3);
struct ncreel* nr = ncreel_create(n_, &r, -1);
REQUIRE(nr);
// FIXME
}
CHECK(0 == notcurses_stop(nc_));
CHECK(0 == fclose(outfp_));
}