notcurses/tests/reel.cpp
2020-12-11 20:29:48 -05:00

528 lines
15 KiB
C++

#include "main.h"
#include <iostream>
auto ncreel_validate(const ncreel* n) -> bool {
if(n->tablets == NULL){
return true;
}
const nctablet* t = n->tablets;
int cury = -1;
bool wentaround = false;
do{
const ncplane* np = t->p;
if(np){
int y, x;
ncplane_yx(np, &y, &x);
//fprintf(stderr, "forvart: %p (%p) @ %d\n", t, np, y);
if(y < cury + 1){
if(wentaround){
return false;
}
wentaround = true;
}else if(y == cury){
return false;
}
int ylen, xlen;
ncplane_dim_yx(np, &ylen, &xlen);
cury = y + ylen - 1;
}
}while((t = t->next) != n->tablets);
cury = INT_MAX;
wentaround = false;
do{
const ncplane* np = t->p;
if(np){
int y, x, ylen, xlen;
ncplane_yx(np, &y, &x);
ncplane_dim_yx(np, &ylen, &xlen);
//fprintf(stderr, "backwards: %p (%p) @ %d\n", t, np, y);
if(y + ylen - 1 > cury - 1){
if(wentaround){
return false;
}
wentaround = true;
}else if(y == cury){
return false;
}
cury = y;
}
}while((t = t->prev) != n->tablets);
return true;
}
auto panelcb(nctablet* t, bool toptobottom) -> int {
CHECK(nctablet_plane(t));
CHECK(!nctablet_userptr(t));
CHECK(toptobottom);
// FIXME verify geometry is as expected
return 0;
}
auto cbfxn(nctablet* t, bool toptobottom) -> int {
(void)toptobottom;
int* userptr = static_cast<int*>(nctablet_userptr(t));
++*userptr;
return 4;
}
int check_allborders(nctablet* t, bool drawfromtop) {
(void)drawfromtop;
auto ncp = nctablet_plane(t);
REQUIRE(ncp);
int rows, cols;
ncplane_dim_yx(ncp, &rows, &cols);
int srows, scols;
ncplane_dim_yx(notcurses_stdplane(ncplane_notcurses(ncp)), &srows, &scols);
CHECK(srows >= rows + 3);
CHECK(scols == cols + 4);
return 1;
}
int check_noborders(nctablet* t, bool drawfromtop) {
(void)drawfromtop;
auto ncp = nctablet_plane(t);
REQUIRE(ncp);
int rows, cols;
ncplane_dim_yx(ncp, &rows, &cols);
int srows, scols;
ncplane_dim_yx(notcurses_stdplane(ncplane_notcurses(ncp)), &srows, &scols);
CHECK(srows == rows);
CHECK(scols == cols);
return 1;
}
int check_notborders(nctablet* t, bool drawfromtop) {
(void)drawfromtop;
auto ncp = nctablet_plane(t);
REQUIRE(ncp);
int rows, cols;
ncplane_dim_yx(ncp, &rows, &cols);
int srows, scols;
ncplane_dim_yx(notcurses_stdplane(ncplane_notcurses(ncp)), &srows, &scols);
CHECK(srows == rows + 2); // we get maximum possible size to try out
CHECK(scols == cols + 2);
return 1;
}
int check_norborders(nctablet* t, bool drawfromtop) {
(void)drawfromtop;
auto ncp = nctablet_plane(t);
REQUIRE(ncp);
int rows, cols;
ncplane_dim_yx(ncp, &rows, &cols);
int srows, scols;
ncplane_dim_yx(notcurses_stdplane(ncplane_notcurses(ncp)), &srows, &scols);
CHECK(srows >= rows + 1);
CHECK(scols == cols + 2);
return 1;
}
TEST_CASE("Reels") {
auto nc_ = testing_notcurses();
if(!nc_){
return;
}
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);
REQUIRE(nr);
CHECK(0 == notcurses_render(nc_));
ncreel_destroy(nr);
}
SUBCASE("InitLinearInfinite") {
ncreel_options r{};
r.flags = NCREEL_OPTION_INFINITESCROLL;
struct ncreel* nr = ncreel_create(n_, &r);
REQUIRE(nr);
CHECK(0 == notcurses_render(nc_));
ncreel_destroy(nr);
}
SUBCASE("InitCircular") {
ncreel_options r{};
r.flags = NCREEL_OPTION_INFINITESCROLL | NCREEL_OPTION_CIRCULAR;
struct ncreel* nr = ncreel_create(n_, &r);
REQUIRE(nr);
CHECK(ncreel_validate(nr));
CHECK(0 == notcurses_render(nc_));
ncreel_destroy(nr);
}
// circular is not allowed to be true when infinitescroll is false
SUBCASE("FiniteCircleRejected") {
ncreel_options r{};
r.flags = NCREEL_OPTION_CIRCULAR;
struct ncreel* nr = ncreel_create(n_, &r);
REQUIRE(!nr);
CHECK(0 == notcurses_render(nc_));
ncreel_destroy(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{};
struct ncreel* nr = ncreel_create(n_, &r);
REQUIRE(nr);
CHECK(!ncreel_next(nr));
CHECK_EQ(0, notcurses_render(nc_));
CHECK(ncreel_validate(nr));
CHECK(!ncreel_prev(nr));
CHECK_EQ(0, notcurses_render(nc_));
CHECK(ncreel_validate(nr));
ncreel_destroy(nr);
}
SUBCASE("OneTablet") {
ncreel_options r{};
struct ncreel* nr = ncreel_create(n_, &r);
REQUIRE(nr);
nctablet* t = ncreel_add(nr, nullptr, nullptr, panelcb, nullptr);
REQUIRE(t);
CHECK_EQ(0, notcurses_render(nc_));
CHECK(ncreel_validate(nr));
CHECK(0 == ncreel_del(nr, t));
CHECK_EQ(0, notcurses_render(nc_));
CHECK(ncreel_validate(nr));
ncreel_destroy(nr);
}
SUBCASE("MovementWithOneTablet") {
ncreel_options r{};
struct ncreel* nr = ncreel_create(n_, &r);
REQUIRE(nr);
nctablet* t = ncreel_add(nr, nullptr, nullptr, panelcb, nullptr);
REQUIRE(t);
CHECK_EQ(0, notcurses_render(nc_));
CHECK(ncreel_validate(nr));
CHECK(ncreel_next(nr));
CHECK_EQ(0, notcurses_render(nc_));
CHECK(ncreel_validate(nr));
CHECK(ncreel_prev(nr));
CHECK_EQ(0, notcurses_render(nc_));
CHECK(ncreel_validate(nr));
CHECK(0 == ncreel_del(nr, t));
CHECK_EQ(0, notcurses_render(nc_));
CHECK(ncreel_validate(nr));
ncreel_destroy(nr);
}
SUBCASE("DeleteActiveTablet") {
ncreel_options r{};
struct ncreel* nr = ncreel_create(n_, &r);
REQUIRE(nr);
nctablet* t = ncreel_add(nr, nullptr, nullptr, panelcb, nullptr);
REQUIRE(t);
CHECK(0 == ncreel_del(nr, ncreel_focused(nr)));
CHECK_EQ(0, notcurses_render(nc_));
CHECK(ncreel_validate(nr));
ncreel_destroy(nr);
}
SUBCASE("NoBorder") {
ncreel_options r{};
r.bordermask = NCBOXMASK_LEFT | NCBOXMASK_RIGHT |
NCBOXMASK_TOP | NCBOXMASK_BOTTOM;
struct ncreel* nr = ncreel_create(n_, &r);
REQUIRE(nr);
CHECK_EQ(0, ncreel_redraw(nr));
CHECK_EQ(0, notcurses_render(nc_));
CHECK(ncreel_validate(nr));
ncreel_destroy(nr);
}
SUBCASE("BadBorderBitsRejected") {
ncreel_options r{};
r.bordermask = NCBOXMASK_LEFT * 2;
struct ncreel* nr = ncreel_create(n_, &r);
REQUIRE(!nr);
}
SUBCASE("NoTabletBorder") {
ncreel_options r{};
r.tabletmask = NCBOXMASK_LEFT | NCBOXMASK_RIGHT |
NCBOXMASK_TOP | NCBOXMASK_BOTTOM;
struct ncreel* nr = ncreel_create(n_, &r);
REQUIRE(nr);
CHECK_EQ(0, ncreel_redraw(nr));
CHECK_EQ(0, notcurses_render(nc_));
CHECK(ncreel_validate(nr));
ncreel_destroy(nr);
}
SUBCASE("NoTopBottomBorder") {
ncreel_options r{};
r.bordermask = NCBOXMASK_TOP | NCBOXMASK_BOTTOM;
struct ncreel* nr = ncreel_create(n_, &r);
REQUIRE(nr);
CHECK_EQ(0, ncreel_redraw(nr));
CHECK_EQ(0, notcurses_render(nc_));
CHECK(ncreel_validate(nr));
ncreel_destroy(nr);
}
SUBCASE("NoSideBorders") {
ncreel_options r{};
r.bordermask = NCBOXMASK_LEFT | NCBOXMASK_RIGHT;
struct ncreel* nr = ncreel_create(n_, &r);
REQUIRE(nr);
CHECK_EQ(0, ncreel_redraw(nr));
CHECK_EQ(0, notcurses_render(nc_));
CHECK(ncreel_validate(nr));
ncreel_destroy(nr);
}
SUBCASE("BadTabletBorderBitsRejected") {
ncreel_options r{};
r.tabletmask = NCBOXMASK_LEFT * 2;
struct ncreel* nr = ncreel_create(n_, &r);
REQUIRE(!nr);
}
SUBCASE("TransparentBackground") {
ncreel_options r{};
int dimy, dimx;
notcurses_term_dim_yx(nc_, &dimy, &dimx);
uint64_t channels = 0;
channels_set_bg_alpha(&channels, CELL_ALPHA_TRANSPARENT);
struct ncplane_options nopts = {
.y = 0,
.x = 0,
.rows = dimy,
.cols = dimx,
.userptr = nullptr,
.name = nullptr,
.resizecb = nullptr,
.flags = 0,
};
auto ncp = ncplane_create(n_, &nopts);
REQUIRE(nullptr != ncp);
CHECK(0 == ncplane_set_base(ncp, "", 0, channels));
struct ncreel* nr = ncreel_create(n_, &r);
REQUIRE(nr);
CHECK_EQ(0, ncreel_redraw(nr));
CHECK_EQ(0, notcurses_render(nc_));
CHECK(ncreel_validate(nr));
ncreel_destroy(nr);
}
// Layout tests. Add some tablets, move around, and verify that they all
// have the expected locations/contents/geometries.
SUBCASE("ThreeCycleDown") {
ncreel_options r{};
struct ncreel* nr = ncreel_create(n_, &r);
REQUIRE(nr);
CHECK_EQ(0, ncreel_redraw(nr));
CHECK_EQ(0, notcurses_render(nc_));
CHECK(ncreel_validate(nr));
int order[3];
nctablet* tabs[3];
for(size_t n = 0 ; n < sizeof(order) / sizeof(*order) ; ++n){
order[n] = -1;
tabs[n] = ncreel_add(nr, nullptr, nullptr, cbfxn, &order[n]);
REQUIRE(tabs[n]);
CHECK(tabs[0] == nr->tablets);
REQUIRE(nctablet_plane(tabs[n]));
CHECK_EQ(0, notcurses_render(nc_));
CHECK(ncreel_validate(nr));
}
int expectedy = 1;
for(size_t n = 0 ; n < sizeof(order) / sizeof(*order) ; ++n){
CHECK_LE(0, order[n]);
int y;
ncplane_yx(ncplane_parent(nctablet_plane(tabs[n])), &y, nullptr);
CHECK(y == expectedy);
expectedy += 7;
}
ncreel_next(nr);
CHECK(tabs[1] == nr->tablets);
CHECK_EQ(0, notcurses_render(nc_));
CHECK(ncreel_validate(nr));
expectedy = 1;
for(size_t n = 0 ; n < sizeof(order) / sizeof(*order) ; ++n){
CHECK_LE(1, order[n]);
int y;
ncplane_yx(ncplane_parent(nctablet_plane(tabs[n])), &y, nullptr);
CHECK(y == expectedy);
expectedy += 7;
}
ncreel_next(nr);
CHECK(tabs[2] == nr->tablets);
CHECK_EQ(0, notcurses_render(nc_));
CHECK(ncreel_validate(nr));
expectedy = 1;
for(size_t n = 0 ; n < sizeof(order) / sizeof(*order) ; ++n){
CHECK_LE(2, order[n]);
int y;
ncplane_yx(ncplane_parent(nctablet_plane(tabs[n])), &y, nullptr);
CHECK(y == expectedy);
expectedy += 7;
}
ncreel_prev(nr);
CHECK(tabs[1] == nr->tablets);
CHECK_EQ(0, notcurses_render(nc_));
CHECK(ncreel_validate(nr));
expectedy = 1;
for(size_t n = 0 ; n < sizeof(order) / sizeof(*order) ; ++n){
CHECK_LE(3, order[n]);
int y;
ncplane_yx(ncplane_parent(nctablet_plane(tabs[n])), &y, nullptr);
CHECK(y == expectedy);
expectedy += 7;
}
ncreel_prev(nr);
CHECK(tabs[0] == nr->tablets);
CHECK_EQ(0, notcurses_render(nc_));
CHECK(ncreel_validate(nr));
expectedy = 1;
for(size_t n = 0 ; n < sizeof(order) / sizeof(*order) ; ++n){
CHECK_LE(4, order[n]);
int y;
ncplane_yx(ncplane_parent(nctablet_plane(tabs[n])), &y, nullptr);
CHECK(y == expectedy);
expectedy += 7;
}
ncreel_destroy(nr);
}
// Layout tests. Add some tablets, move around, and verify that they all
// have the expected locations/contents/geometries.
SUBCASE("ThreeCycleDownNoTabletBorders") {
ncreel_options r{};
r.tabletmask = 0xf;
struct ncreel* nr = ncreel_create(n_, &r);
REQUIRE(nr);
CHECK_EQ(0, notcurses_render(nc_));
CHECK(ncreel_validate(nr));
int order[3];
nctablet* tabs[3];
for(size_t n = 0 ; n < sizeof(order) / sizeof(*order) ; ++n){
order[n] = -1;
tabs[n] = ncreel_add(nr, nullptr, nullptr, cbfxn, &order[n]);
REQUIRE(tabs[n]);
CHECK(tabs[0] == nr->tablets);
CHECK_EQ(0, notcurses_render(nc_));
CHECK(ncreel_validate(nr));
}
int expectedy = 1;
for(size_t n = 0 ; n < sizeof(order) / sizeof(*order) ; ++n){
CHECK_LE(-1, order[n]);
int y;
ncplane_yx(ncplane_parent(nctablet_plane(tabs[n])), &y, nullptr);
CHECK(y == expectedy);
expectedy += 5;
}
ncreel_next(nr);
CHECK(tabs[1] == nr->tablets);
CHECK_EQ(0, notcurses_render(nc_));
CHECK(ncreel_validate(nr));
expectedy = 1;
for(size_t n = 0 ; n < sizeof(order) / sizeof(*order) ; ++n){
CHECK_LE(1, order[n]);
int y;
ncplane_yx(ncplane_parent(nctablet_plane(tabs[n])), &y, nullptr);
CHECK(y == expectedy);
expectedy += 5;
}
ncreel_next(nr);
CHECK(tabs[2] == nr->tablets);
CHECK_EQ(0, notcurses_render(nc_));
CHECK(ncreel_validate(nr));
expectedy = 1;
for(size_t n = 0 ; n < sizeof(order) / sizeof(*order) ; ++n){
CHECK_LE(2, order[n]);
int y;
ncplane_yx(ncplane_parent(nctablet_plane(tabs[n])), &y, nullptr);
CHECK(y == expectedy);
expectedy += 5;
}
ncreel_prev(nr);
CHECK(tabs[1] == nr->tablets);
CHECK_EQ(0, notcurses_render(nc_));
CHECK(ncreel_validate(nr));
expectedy = 1;
for(size_t n = 0 ; n < sizeof(order) / sizeof(*order) ; ++n){
CHECK_LE(3, order[n]);
int y;
ncplane_yx(ncplane_parent(nctablet_plane(tabs[n])), &y, nullptr);
CHECK(y == expectedy);
expectedy += 5;
}
ncreel_prev(nr);
CHECK(tabs[0] == nr->tablets);
CHECK_EQ(0, notcurses_render(nc_));
CHECK(ncreel_validate(nr));
expectedy = 1;
for(size_t n = 0 ; n < sizeof(order) / sizeof(*order) ; ++n){
CHECK_LE(4, order[n]);
int y;
ncplane_yx(ncplane_parent(nctablet_plane(tabs[n])), &y, nullptr);
CHECK(y == expectedy);
expectedy += 5;
}
ncreel_destroy(nr);
}
// tablet size checks----------------------------------------------------
// check that, with all borders, the tablets are the correct size
SUBCASE("AllBordersSize") {
ncreel_options r{};
struct ncreel* nr = ncreel_create(n_, &r);
REQUIRE(nr);
CHECK_EQ(0, notcurses_render(nc_));
CHECK(ncreel_validate(nr));
REQUIRE(nullptr != ncreel_add(nr, nullptr, nullptr, check_allborders, nullptr));
CHECK_EQ(0, notcurses_render(nc_));
ncreel_destroy(nr);
}
// check that, without any borders, the tablets are the correct size
SUBCASE("NoBordersSize") {
ncreel_options r{};
r.tabletmask = 0xf;
r.bordermask = 0xf;
struct ncreel* nr = ncreel_create(n_, &r);
REQUIRE(nr);
CHECK_EQ(0, notcurses_render(nc_));
CHECK(ncreel_validate(nr));
REQUIRE(nullptr != ncreel_add(nr, nullptr, nullptr, check_noborders, nullptr));
CHECK_EQ(0, notcurses_render(nc_));
ncreel_destroy(nr);
}
// check that, without tablet borders (but with reel borders), the tablets
// are the correct size
SUBCASE("NoTabletBordersSize") {
ncreel_options r{};
r.tabletmask = 0xf;
struct ncreel* nr = ncreel_create(n_, &r);
REQUIRE(nr);
CHECK_EQ(0, notcurses_render(nc_));
CHECK(ncreel_validate(nr));
REQUIRE(nullptr != ncreel_add(nr, nullptr, nullptr, check_notborders, nullptr));
CHECK_EQ(0, notcurses_render(nc_));
ncreel_destroy(nr);
}
// check that, without reel borders (but with tablet borders), the tablets
// are the correct size
SUBCASE("NoReelBordersSize") {
ncreel_options r{};
r.bordermask = 0xf;
struct ncreel* nr = ncreel_create(n_, &r);
REQUIRE(nr);
CHECK_EQ(0, notcurses_render(nc_));
CHECK(ncreel_validate(nr));
REQUIRE(nullptr != ncreel_add(nr, nullptr, nullptr, check_norborders, nullptr));
CHECK_EQ(0, notcurses_render(nc_));
ncreel_destroy(nr);
}
CHECK(0 == notcurses_stop(nc_));
}