#include "main.h" #include #include TEST_CASE("ZAxis") { notcurses_options nopts{}; nopts.inhibit_alternate_screen = true; nopts.suppress_banner = true; struct notcurses* nc_ = notcurses_init(&nopts, nullptr); if(!nc_){ return; } struct ncplane* n_ = notcurses_stdplane(nc_); REQUIRE(n_); SUBCASE("StdPlaneOnly") { struct ncplane* top = notcurses_top(nc_); CHECK(n_ == top); CHECK(!ncplane_below(top)); } // if you want to move the plane which is already top+bottom to either, go ahead SUBCASE("StdPlaneOnanism") { CHECK(0 == ncplane_move_top(n_)); struct ncplane* top = notcurses_top(nc_); CHECK(n_ == top); CHECK(!ncplane_below(top)); CHECK(0 == ncplane_move_bottom(n_)); CHECK(!ncplane_below(n_)); } // you can't place a plane above or below itself, stdplane or otherwise SUBCASE("NoMoveSelf") { struct ncplane* np = ncplane_new(nc_, 2, 2, 0, 0, nullptr); REQUIRE(np); CHECK(ncplane_move_below(n_, n_)); CHECK(ncplane_move_above(n_, n_)); CHECK(ncplane_move_below(np, np)); CHECK(ncplane_move_above(np, np)); } // new planes ought be on the top SUBCASE("NewPlaneOnTop") { struct ncplane* np = ncplane_new(nc_, 2, 2, 0, 0, nullptr); REQUIRE(np); struct ncplane* top = notcurses_top(nc_); CHECK(np == top); CHECK(n_ == ncplane_below(top)); CHECK(!ncplane_below(n_)); } // "move" top plane to top. everything ought remain the same. SUBCASE("TopToTop") { struct ncplane* np = ncplane_new(nc_, 2, 2, 0, 0, nullptr); REQUIRE(np); struct ncplane* top = notcurses_top(nc_); CHECK(np == top); CHECK(n_ == ncplane_below(top)); CHECK(!ncplane_below(n_)); CHECK(!ncplane_move_top(np)); // verify it top = notcurses_top(nc_); CHECK(np == top); CHECK(n_ == ncplane_below(top)); CHECK(!ncplane_below(n_)); } // move top plane to bottom, and verify enumeration SUBCASE("TopToBottom") { struct ncplane* np = ncplane_new(nc_, 2, 2, 0, 0, nullptr); REQUIRE(np); struct ncplane* top = notcurses_top(nc_); CHECK(np == top); CHECK(n_ == ncplane_below(top)); CHECK(!ncplane_below(n_)); CHECK(!ncplane_move_bottom(np)); top = notcurses_top(nc_); CHECK(n_ == top); CHECK(np == ncplane_below(top)); CHECK(!ncplane_below(np)); } // verify that moving one above another, with no other changes, is reflected at // render time (requires explicit damage maintenance from move functionality). SUBCASE("ZAxisDamage") { cell cat = CELL_TRIVIAL_INITIALIZER; cell c = CELL_SIMPLE_INITIALIZER('x'); REQUIRE(!cell_set_fg_rgb(&c, 0xff, 0, 0)); REQUIRE(1 == ncplane_putc(n_, &c)); CHECK(!notcurses_render(nc_)); REQUIRE(!ncplane_cursor_move_yx(n_, 0, 0)); REQUIRE(1 == ncplane_at_cursor_cell(n_, &cat)); REQUIRE(cell_simple_p(&cat)); REQUIRE('x' == cat.gcluster); struct ncplane* n2 = ncplane_new(nc_, 2, 2, 0, 0, nullptr); REQUIRE(1 == cell_load(n2, &c, "y")); REQUIRE(!cell_set_fg_rgb(&c, 0, 0xff, 0)); REQUIRE(1 == ncplane_putc(n2, &c)); CHECK_EQ(0, notcurses_render(nc_)); REQUIRE(!ncplane_cursor_move_yx(n2, 0, 0)); REQUIRE(1 == ncplane_at_cursor_cell(n2, &cat)); REQUIRE('y' == cat.gcluster); struct ncplane* n3 = ncplane_new(nc_, 2, 2, 0, 0, nullptr); REQUIRE(1 == cell_load(n3, &c, "z")); REQUIRE(!cell_set_fg_rgb(&c, 0, 0, 0xff)); REQUIRE(1 == ncplane_putc(n3, &c)); CHECK(!notcurses_render(nc_)); REQUIRE(!ncplane_cursor_move_yx(n3, 0, 0)); REQUIRE(1 == ncplane_at_cursor_cell(n3, &cat)); REQUIRE('z' == cat.gcluster); // FIXME testing damage requires notcurses keeping a copy of the screen.... // FIXME move y atop z // FIXME inspect // FIXME move z atop y // FIXME inspect } CHECK(0 == notcurses_stop(nc_)); }