notcurses/tests/ncplane.cpp

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#include <array>
#include <cstdlib>
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#include <notcurses.h>
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#include "internal.h"
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#include "main.h"
void BoxPermutationsRounded(struct notcurses* nc, struct ncplane* n, unsigned edges) {
int dimx, dimy;
ncplane_dim_yx(n, &dimy, &dimx);
REQUIRE(2 < dimy);
REQUIRE(47 < dimx);
// we'll try all 16 boxmasks in 3x3 configurations in a 1x16 map
unsigned boxmask = edges << NCBOXCORNER_SHIFT;
for(auto x0 = 0 ; x0 < 16 ; ++x0){
CHECK(0 == ncplane_cursor_move_yx(n, 0, x0 * 3));
CHECK(0 == ncplane_rounded_box_sized(n, 0, 0, 3, 3, boxmask));
++boxmask;
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}
CHECK(0 == notcurses_render(nc));
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}
TEST_CASE("NCPlane") {
if(getenv("TERM") == nullptr){
return;
}
notcurses_options nopts{};
nopts.inhibit_alternate_screen = true;
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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_);
// Starting position ought be 0, 0 (the origin)
SUBCASE("StdPlanePosition") {
int x, y;
ncplane_cursor_yx(n_, &y, &x);
CHECK(0 == x);
CHECK(0 == y);
}
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// Dimensions of the standard plane ought be the same as those of the context
SUBCASE("StdPlaneDimensions") {
int cols, rows;
notcurses_term_dim_yx(nc_, &rows, &cols);
int ncols, nrows;
ncplane_dim_yx(n_, &nrows, &ncols);
CHECK(rows == nrows);
CHECK(cols == ncols);
}
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// Verify that we can move to all four coordinates of the standard plane
SUBCASE("MoveStdPlaneDimensions") {
int cols, rows;
notcurses_term_dim_yx(nc_, &rows, &cols);
CHECK(0 == ncplane_cursor_move_yx(n_, 0, 0));
int x, y;
ncplane_cursor_yx(n_, &y, &x);
CHECK(y == 0);
CHECK(x == 0);
CHECK(0 == ncplane_cursor_move_yx(n_, rows - 1, 0));
ncplane_cursor_yx(n_, &y, &x);
CHECK(y == rows - 1);
CHECK(x == 0);
CHECK(0 == ncplane_cursor_move_yx(n_, rows - 1, cols - 1));
ncplane_cursor_yx(n_, &y, &x);
CHECK(y == rows - 1);
CHECK(x == cols - 1);
CHECK(0 == ncplane_cursor_move_yx(n_, 0, cols - 1));
ncplane_cursor_yx(n_, &y, &x);
CHECK(y == 0);
CHECK(x == cols - 1);
}
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// Verify that we can move to all four coordinates of the standard plane
SUBCASE("MoveBeyondPlaneFails") {
int cols, rows;
notcurses_term_dim_yx(nc_, &rows, &cols);
CHECK(0 > ncplane_cursor_move_yx(n_, -2, 0));
CHECK(0 > ncplane_cursor_move_yx(n_, -2, -2));
CHECK(0 > ncplane_cursor_move_yx(n_, 0, -2));
CHECK(0 > ncplane_cursor_move_yx(n_, rows - 1, -2));
CHECK(0 > ncplane_cursor_move_yx(n_, rows, 0));
CHECK(0 > ncplane_cursor_move_yx(n_, rows + 1, 0));
CHECK(0 > ncplane_cursor_move_yx(n_, rows, cols));
CHECK(0 > ncplane_cursor_move_yx(n_, -2, cols - 1));
CHECK(0 > ncplane_cursor_move_yx(n_, 0, cols));
CHECK(0 > ncplane_cursor_move_yx(n_, 0, cols + 1));
}
SUBCASE("SetPlaneRGB") {
CHECK(0 == ncplane_set_fg_rgb(n_, 0, 0, 0));
CHECK(0 == ncplane_set_fg_rgb(n_, 255, 255, 255));
CHECK(0 == notcurses_render(nc_));
}
SUBCASE("RejectBadRGB") {
CHECK(0 > ncplane_set_fg_rgb(n_, -1, 0, 0));
CHECK(0 > ncplane_set_fg_rgb(n_, 0, -1, 0));
CHECK(0 > ncplane_set_fg_rgb(n_, 0, 0, -1));
CHECK(0 > ncplane_set_fg_rgb(n_, -1, -1, -1));
CHECK(0 > ncplane_set_fg_rgb(n_, 256, 255, 255));
CHECK(0 > ncplane_set_fg_rgb(n_, 255, 256, 255));
CHECK(0 > ncplane_set_fg_rgb(n_, 255, 255, 256));
CHECK(0 > ncplane_set_fg_rgb(n_, 256, 256, 256));
}
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// Verify we can emit a multibyte character, and it advances the cursor
SUBCASE("EmitCell") {
const char cchar[] = "";
cell c{};
CHECK(strlen(cchar) == cell_load(n_, &c, cchar));
CHECK(0 < ncplane_putc(n_, &c));
int x, y;
ncplane_cursor_yx(n_, &y, &x);
CHECK(0 == y);
CHECK(1 == x);
CHECK(0 == notcurses_render(nc_));
}
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// Verify we can emit a wchar_t, and it advances the cursor
SUBCASE("EmitWcharT") {
const wchar_t* w = L"";
int sbytes = 0;
CHECK(0 < ncplane_putwegc(n_, w, &sbytes));
int x, y;
ncplane_cursor_yx(n_, &y, &x);
CHECK(0 == y);
CHECK(1 == x);
CHECK(0 == notcurses_render(nc_));
}
// Verify we can emit a wide character, and it advances the cursor
SUBCASE("EmitWideAsian") {
const char* w = "\u5168";
int sbytes = 0;
CHECK(0 < ncplane_putegc(n_, w, &sbytes));
int x, y;
ncplane_cursor_yx(n_, &y, &x);
CHECK(0 == y);
CHECK(2 == x);
CHECK(0 == notcurses_render(nc_));
}
// Verify a wide character is rejected on the last column
SUBCASE("EmitWideAsian") {
const char* w = "\u5168";
int sbytes = 0;
int dimx;
ncplane_dim_yx(n_, NULL, &dimx);
CHECK(0 < ncplane_putegc_yx(n_, 0, dimx - 3, w, &sbytes));
int x, y;
ncplane_cursor_yx(n_, &y, &x);
CHECK(0 == y);
CHECK(dimx - 1 == x);
// now it ought be rejected
CHECK(0 > ncplane_putegc(n_, w, &sbytes));
CHECK(0 == y);
CHECK(dimx - 1 == x);
CHECK(0 == notcurses_render(nc_));
}
// Verify we can emit a multibyte string, and it advances the cursor
SUBCASE("EmitStr") {
const char s[] = "Σιβυλλα τι θελεις; respondebat illa: αποθανειν θελω.";
int wrote = ncplane_putstr(n_, s);
CHECK(strlen(s) == wrote);
int x, y;
ncplane_cursor_yx(n_, &y, &x);
CHECK(0 == y);
CHECK(1 <= x); // FIXME tighten in on this
CHECK(0 == notcurses_render(nc_));
}
// Verify we can emit a wide string, and it advances the cursor
SUBCASE("EmitWideStr") {
const wchar_t s[] = L"Σιβυλλα τι θελεις; respondebat illa: αποθανειν θελω.";
int wrote = ncplane_putwstr(n_, s);
CHECK(0 < wrote);
int x, y;
ncplane_cursor_yx(n_, &y, &x);
CHECK(0 == y);
CHECK(1 <= x); // FIXME tighten in on this
CHECK(0 == notcurses_render(nc_));
}
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SUBCASE("EmitEmojiStr") {
const wchar_t e[] =
L"🍺🚬🌿💉💊🔫💣🤜🤛🐌🐎🐑🐒🐔🐗🐘🐙🐚"
"🐛🐜🐝🐞🐟🐠🐡🐢🐣🐤🐥🐦🐧🐨🐩🐫🐬🐭🐮"
"🐯🐰🐱🐲🐳🐴🐵🐶🐷🐹🐺🐻🐼🦉🐊🦕🦖🐬🐙🦠🦀";
int wrote = ncplane_putwstr(n_, e);
CHECK(0 < wrote);
int x, y;
ncplane_cursor_yx(n_, &y, &x);
CHECK_LE(0, y);
CHECK(1 <= x); // FIXME tighten in on this
CHECK(0 == notcurses_render(nc_));
}
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SUBCASE("HorizontalLines") {
int x, y;
ncplane_dim_yx(n_, &y, &x);
REQUIRE(0 < y);
REQUIRE(0 < x);
cell c{};
cell_load(n_, &c, "-");
for(int yidx = 0 ; yidx < y ; ++yidx){
CHECK(0 == ncplane_cursor_move_yx(n_, yidx, 1));
CHECK(x - 2 == ncplane_hline(n_, &c, x - 2));
int posx, posy;
ncplane_cursor_yx(n_, &posy, &posx);
CHECK(yidx == posy);
CHECK(x - 1 == posx);
}
cell_release(n_, &c);
CHECK(0 == notcurses_render(nc_));
}
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SUBCASE("VerticalLines") {
int x, y;
ncplane_dim_yx(n_, &y, &x);
REQUIRE(0 < y);
REQUIRE(0 < x);
cell c{};
cell_load(n_, &c, "|");
for(int xidx = 1 ; xidx < x - 1 ; ++xidx){
CHECK(0 == ncplane_cursor_move_yx(n_, 1, xidx));
CHECK(y - 2 == ncplane_vline(n_, &c, y - 2));
int posx, posy;
ncplane_cursor_yx(n_, &posy, &posx);
CHECK(y - 2 == posy);
CHECK(xidx == posx - 1);
}
cell_release(n_, &c);
CHECK(0 == notcurses_render(nc_));
}
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// reject attempts to draw boxes beyond the boundaries of the ncplane
SUBCASE("BadlyPlacedBoxen") {
int x, y;
ncplane_dim_yx(n_, &y, &x);
REQUIRE(2 < y);
REQUIRE(2 < x);
cell ul{}, ll{}, lr{}, ur{}, hl{}, vl{};
REQUIRE(0 == cells_rounded_box(n_, 0, 0, &ul, &ur, &ll, &lr, &hl, &vl));
CHECK_GT(0, ncplane_box(n_, &ul, &ur, &ll, &lr, &hl, &vl, y + 1, x + 1, 0));
CHECK(0 == ncplane_cursor_move_yx(n_, 1, 0));
CHECK_GT(0, ncplane_box(n_, &ul, &ur, &ll, &lr, &hl, &vl, y, x, 0));
CHECK(0 == ncplane_cursor_move_yx(n_, 0, 1));
CHECK_GT(0, ncplane_box(n_, &ul, &ur, &ll, &lr, &hl, &vl, y, x, 0));
CHECK(0 == ncplane_cursor_move_yx(n_, y - 1, x - 1));
CHECK_GT(0, ncplane_box(n_, &ul, &ur, &ll, &lr, &hl, &vl, 2, 2, 0));
CHECK(0 == ncplane_cursor_move_yx(n_, y - 2, x - 1));
CHECK_GT(0, ncplane_box(n_, &ul, &ur, &ll, &lr, &hl, &vl, 2, 2, 0));
CHECK(0 == ncplane_cursor_move_yx(n_, y - 1, x - 2));
CHECK_GT(0, ncplane_box(n_, &ul, &ur, &ll, &lr, &hl, &vl, 2, 2, 0));
CHECK(0 == notcurses_render(nc_));
}
SUBCASE("BoxPermutationsRoundedZeroEdges") {
BoxPermutationsRounded(nc_, n_, 0);
}
SUBCASE("BoxPermutationsRoundedOneEdges") {
BoxPermutationsRounded(nc_, n_, 1);
}
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SUBCASE("BoxPermutationsRoundedTwoEdges") {
BoxPermutationsRounded(nc_, n_, 2);
}
SUBCASE("BoxPermutationsRoundedThreeEdges") {
BoxPermutationsRounded(nc_, n_, 3);
}
SUBCASE("BoxPermutationsDouble") {
int dimx, dimy;
ncplane_dim_yx(n_, &dimy, &dimx);
REQUIRE(2 < dimx);
REQUIRE(47 < dimx);
// we'll try all 16 boxmasks in 3x3 configurations in a 1x16 map
unsigned boxmask = 0;
for(auto x0 = 0 ; x0 < 16 ; ++x0){
CHECK(0 == ncplane_cursor_move_yx(n_, 0, x0 * 3));
CHECK(0 == ncplane_double_box_sized(n_, 0, 0, 3, 3, boxmask));
++boxmask;
}
CHECK(0 == notcurses_render(nc_));
}
SUBCASE("PerimeterRoundedBox") {
int x, y;
ncplane_dim_yx(n_, &y, &x);
REQUIRE(2 < y);
REQUIRE(2 < x);
REQUIRE(0 == ncplane_cursor_move_yx(n_, 0, 0));
CHECK(0 == ncplane_rounded_box(n_, 0, 0, y - 1, x - 1, 0));
CHECK(0 == notcurses_render(nc_));
}
SUBCASE("PerimeterRoundedBoxSized") {
int x, y;
ncplane_dim_yx(n_, &y, &x);
REQUIRE(2 < y);
REQUIRE(2 < x);
REQUIRE(0 == ncplane_cursor_move_yx(n_, 0, 0));
CHECK(0 == ncplane_rounded_box_sized(n_, 0, 0, y, x, 0));
CHECK(0 == notcurses_render(nc_));
}
SUBCASE("PerimeterDoubleBox") {
int x, y;
ncplane_dim_yx(n_, &y, &x);
REQUIRE(2 < y);
REQUIRE(2 < x);
REQUIRE(0 == ncplane_cursor_move_yx(n_, 0, 0));
CHECK(0 == ncplane_double_box(n_, 0, 0, y - 1, x - 1, 0));
CHECK(0 == notcurses_render(nc_));
}
SUBCASE("PerimeterDoubleBoxSized") {
int x, y;
ncplane_dim_yx(n_, &y, &x);
REQUIRE(2 < y);
REQUIRE(2 < x);
REQUIRE(0 == ncplane_cursor_move_yx(n_, 0, 0));
CHECK(0 == ncplane_double_box_sized(n_, 0, 0, y, x, 0));
CHECK(0 == notcurses_render(nc_));
}
SUBCASE("EraseScreen") {
ncplane_erase(n_);
CHECK(0 == notcurses_render(nc_));
}
// we're gonna run both a composed latin a with grave, and then a latin a with
// a combining nonspacing grave
SUBCASE("CellLoadCombining") {
const char* w1 = "à"; // U+00E0, U+0000 (c3 a0)
const char* w2 = ""; // U+0061, U+0300, U+0000 (61 cc 80)
const char* w3 = "a"; // U+0061, U+0000 (61)
cell cell1 = CELL_TRIVIAL_INITIALIZER;
cell cell2 = CELL_TRIVIAL_INITIALIZER;
cell cell3 = CELL_TRIVIAL_INITIALIZER;
auto u1 = cell_load(n_, &cell1, w1);
auto u2 = cell_load(n_, &cell2, w2);
auto u3 = cell_load(n_, &cell3, w3);
REQUIRE(2 == u1);
REQUIRE(3 == u2);
REQUIRE(1 == u3);
cell_release(n_, &cell1);
cell_release(n_, &cell2);
cell_release(n_, &cell3);
}
SUBCASE("CellDuplicateCombining") {
const char* w1 = "à"; // U+00E0, U+0000 (c3 a0)
const char* w2 = ""; // U+0061, U+0300, U+0000 (61 cc 80)
const char* w3 = "a"; // U+0061, U+0000 (61)
cell cell1 = CELL_TRIVIAL_INITIALIZER;
cell cell2 = CELL_TRIVIAL_INITIALIZER;
cell cell3 = CELL_TRIVIAL_INITIALIZER;
auto u1 = cell_load(n_, &cell1, w1);
auto u2 = cell_load(n_, &cell2, w2);
auto u3 = cell_load(n_, &cell3, w3);
REQUIRE(2 == u1);
REQUIRE(3 == u2);
REQUIRE(1 == u3);
cell cell4 = CELL_TRIVIAL_INITIALIZER;
cell cell5 = CELL_TRIVIAL_INITIALIZER;
cell cell6 = CELL_TRIVIAL_INITIALIZER;
CHECK(2 == cell_duplicate(n_, &cell4, &cell1));
CHECK(3 == cell_duplicate(n_, &cell5, &cell2));
CHECK(1 == cell_duplicate(n_, &cell6, &cell3));
cell_release(n_, &cell1);
cell_release(n_, &cell2);
cell_release(n_, &cell3);
cell_release(n_, &cell4);
cell_release(n_, &cell5);
cell_release(n_, &cell6);
}
SUBCASE("CellMultiColumn") {
const char* w1 = "\xf0\x9f\x91\xa9"; // U+1F469 WOMAN
const char* w2 = "N";
cell c1 = CELL_TRIVIAL_INITIALIZER;
cell c2 = CELL_TRIVIAL_INITIALIZER;
auto u1 = cell_load(n_, &c1, w1);
auto u2 = cell_load(n_, &c2, w2);
REQUIRE(0 < u1);
REQUIRE(0 < u2);
REQUIRE(strlen(w1) == u1);
REQUIRE(strlen(w2) == u2);
CHECK(cell_double_wide_p(&c1));
CHECK_FALSE(cell_double_wide_p(&c2));
cell_release(n_, &c1);
cell_release(n_, &c2);
}
// verifies that the initial userptr is what we provided, that it is a nullptr
// for the standard plane, and that we can change it.
SUBCASE("UserPtr") {
CHECK(nullptr == ncplane_userptr(n_));
int x, y;
void* sentinel = &x;
notcurses_term_dim_yx(nc_, &y, &x);
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struct ncplane* ncp = ncplane_new(nc_, y, x, 0, 0, sentinel);
REQUIRE(ncp);
CHECK(&x == ncplane_userptr(ncp));
CHECK(sentinel == ncplane_set_userptr(ncp, nullptr));
CHECK(nullptr == ncplane_userptr(ncp));
sentinel = &y;
CHECK(nullptr == ncplane_set_userptr(ncp, sentinel));
CHECK(&y == ncplane_userptr(ncp));
CHECK(0 == ncplane_destroy(ncp));
}
// create a new plane, the same size as the terminal, and verify that it
// occupies the same dimensions as the standard plane.
SUBCASE("NewPlaneSameSize") {
int x, y;
notcurses_term_dim_yx(nc_, &y, &x);
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struct ncplane* ncp = ncplane_new(nc_, y, x, 0, 0, nullptr);
REQUIRE(ncp);
int px, py;
ncplane_dim_yx(ncp, &py, &px);
CHECK(y == py);
CHECK(x == px);
int sx, sy;
ncplane_dim_yx(n_, &sy, &sx);
CHECK(sy == py);
CHECK(sx == px);
CHECK(0 == ncplane_destroy(ncp));
}
SUBCASE("ShrinkPlane") {
int maxx, maxy;
int x = 0, y = 0;
notcurses_term_dim_yx(nc_, &maxy, &maxx);
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struct ncplane* newp = ncplane_new(nc_, maxy, maxx, y, x, nullptr);
REQUIRE(newp);
CHECK(0 == notcurses_render(nc_));
while(y > 4 && x > 4){
maxx -= 2;
maxy -= 2;
++x;
++y;
REQUIRE(0 == ncplane_resize(newp, 1, 1, maxy, maxx, 1, 1, maxy, maxx));
CHECK(0 == notcurses_render(nc_));
// FIXME check dims, pos
}
while(y > 4){
maxy -= 2;
++y;
REQUIRE(0 == ncplane_resize(newp, 1, 0, maxy, maxx, 1, 0, maxy, maxx));
CHECK(0 == notcurses_render(nc_));
// FIXME check dims, pos
}
while(x > 4){
maxx -= 2;
++x;
REQUIRE(0 == ncplane_resize(newp, 0, 1, maxy, maxx, 0, 1, maxy, maxx));
CHECK(0 == notcurses_render(nc_));
// FIXME check dims, pos
}
REQUIRE(0 == ncplane_resize(newp, 0, 0, 0, 0, 0, 0, 2, 2));
CHECK(0 == notcurses_render(nc_));
// FIXME check dims, pos
REQUIRE(0 == ncplane_destroy(newp));
}
SUBCASE("GrowPlane") {
int maxx = 2, maxy = 2;
int x = 0, y = 0;
int dimy, dimx;
notcurses_term_dim_yx(nc_, &dimy, &dimx);
x = dimx / 2 - 1;
y = dimy / 2 - 1;
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struct ncplane* newp = ncplane_new(nc_, maxy, maxx, y, x, nullptr);
REQUIRE(newp);
while(dimx - maxx > 4 && dimy - maxy > 4){
maxx += 2;
maxy += 2;
--x;
--y;
// REQUIRE(0 == ncplane_resize(newp, 1, 1, maxy, maxx, 1, 1, maxy, maxx));
// FIXME check dims, pos
}
while(y < dimy){
++maxy;
if(y){
++y;
}
// REQUIRE(0 == ncplane_resize(newp, 1, 0, maxy, maxx, 1, 0, maxy, maxx));
// FIXME check dims, pos
}
while(x < dimx){
++maxx;
if(x){
++x;
}
// REQUIRE(0 == ncplane_resize(newp, 0, 1, maxy, maxx, 0, 1, maxy, maxx));
// FIXME check dims, pos
}
REQUIRE(0 == ncplane_resize(newp, 0, 0, 0, 0, 0, 0, dimy, dimx));
// FIXME check dims, pos
REQUIRE(0 == ncplane_destroy(newp));
}
// we ought be able to see what we're about to render, or have just rendered, or
// in any case whatever's in the virtual framebuffer for a plane
SUBCASE("PlaneAtCursorSimples"){
const char STR1[] = "Jackdaws love my big sphinx of quartz";
const char STR2[] = "Cwm fjord bank glyphs vext quiz";
const char STR3[] = "Pack my box with five dozen liquor jugs";
ncplane_styles_set(n_, 0);
REQUIRE(0 == ncplane_cursor_move_yx(n_, 0, 0));
REQUIRE(0 < ncplane_putstr(n_, STR1));
int dimy, dimx;
ncplane_dim_yx(n_, &dimy, &dimx);
REQUIRE(0 == ncplane_cursor_move_yx(n_, 1, dimx - strlen(STR2)));
REQUIRE(0 < ncplane_putstr(n_, STR2));
int y, x;
ncplane_cursor_yx(n_, &y, &x);
REQUIRE(2 == y);
REQUIRE(0 == x);
REQUIRE(0 < ncplane_putstr(n_, STR3));
cell testcell = CELL_TRIVIAL_INITIALIZER;
REQUIRE(0 == ncplane_at_cursor(n_, &testcell)); // want nothing at the cursor
CHECK(0 == testcell.gcluster);
CHECK(0 == testcell.attrword);
CHECK(0 == testcell.channels);
REQUIRE(0 == ncplane_cursor_move_yx(n_, 0, 0));
REQUIRE(0 < ncplane_at_cursor(n_, &testcell)); // want first char of STR1
CHECK(STR1[0] == testcell.gcluster);
CHECK(0 == testcell.attrword);
CHECK(0 == testcell.channels);
REQUIRE(0 == ncplane_cursor_move_yx(n_, 1, dimx - 1));
REQUIRE(0 < ncplane_at_cursor(n_, &testcell)); // want last char of STR2
CHECK(STR2[strlen(STR2) - 1] == testcell.gcluster);
CHECK(0 == testcell.attrword);
CHECK(0 == testcell.channels);
// FIXME maybe check all cells?
CHECK(0 == notcurses_render(nc_));
}
// ensure we read back what's expected for latinesque complex characters
SUBCASE("PlaneAtCursorComplex"){
const char STR1[] = "Σιβυλλα τι θελεις; respondebat illa:";
const char STR2[] = "αποθανειν θελω";
const char STR3[] = "Война и мир"; // just thrown in to complicate things
ncplane_styles_set(n_, 0);
REQUIRE(0 == ncplane_cursor_move_yx(n_, 0, 0));
REQUIRE(0 < ncplane_putstr(n_, STR1));
int dimy, dimx;
ncplane_dim_yx(n_, &dimy, &dimx);
REQUIRE(0 == ncplane_cursor_move_yx(n_, 1, dimx - mbstowcs(NULL, STR2, 0)));
REQUIRE(0 < ncplane_putstr(n_, STR2));
int y, x;
ncplane_cursor_yx(n_, &y, &x);
REQUIRE(2 == y);
REQUIRE(0 == x);
REQUIRE(0 < ncplane_putstr(n_, STR3));
cell testcell = CELL_TRIVIAL_INITIALIZER;
ncplane_at_cursor(n_, &testcell); // should be nothing at the cursor
CHECK(0 == testcell.gcluster);
CHECK(0 == testcell.attrword);
CHECK(0 == testcell.channels);
REQUIRE(0 == ncplane_cursor_move_yx(n_, 0, 0));
REQUIRE(0 < ncplane_at_cursor(n_, &testcell)); // want first char of STR1
CHECK(!strcmp("Σ", cell_extended_gcluster(n_, &testcell)));
CHECK(0 == testcell.attrword);
CHECK(0 == testcell.channels);
REQUIRE(0 == ncplane_cursor_move_yx(n_, 1, dimx - mbstowcs(NULL, STR2, 0)));
REQUIRE(0 < ncplane_at_cursor(n_, &testcell)); // want first char of STR2
CHECK(!strcmp("α", cell_extended_gcluster(n_, &testcell)));
CHECK(0 == testcell.attrword);
CHECK(0 == testcell.channels);
// FIXME maybe check all cells?
CHECK(0 == notcurses_render(nc_));
}
// half-width, double-width, huge-yet-narrow, all that crap
SUBCASE("PlaneAtCursorInsane"){
const char EGC0[] = "\uffe0"; // fullwidth cent sign ¢
const char EGC1[] = "\u00c5"; // neutral A with ring above Å
const char EGC2[] = "\u20a9"; // half-width won ₩
const char EGC3[] = "\u212b"; // ambiguous angstrom Å
const char EGC4[] = "\ufdfd"; // neutral yet huge bismillah ﷽
std::array<cell, 5> tcells;
for(auto i = 0u ; i < tcells.size() ; ++i){
cell_init(&tcells[i]);
}
REQUIRE(1 < cell_load(n_, &tcells[0], EGC0));
REQUIRE(1 < cell_load(n_, &tcells[1], EGC1));
REQUIRE(1 < cell_load(n_, &tcells[2], EGC2));
REQUIRE(1 < cell_load(n_, &tcells[3], EGC3));
REQUIRE(1 < cell_load(n_, &tcells[4], EGC4));
for(auto i = 0u ; i < tcells.size() ; ++i){
REQUIRE(0 < ncplane_putc(n_, &tcells[i]));
}
CHECK(0 == notcurses_render(nc_));
int x = 0;
for(auto i = 0u ; i < tcells.size() ; ++i){
CHECK(0 == ncplane_cursor_move_yx(n_, 0, x));
cell testcell = CELL_TRIVIAL_INITIALIZER;
REQUIRE(0 < ncplane_at_cursor(n_, &testcell));
CHECK(!strcmp(cell_extended_gcluster(n_, &tcells[i]),
cell_extended_gcluster(n_, &testcell)));
CHECK(0 == testcell.attrword);
wchar_t w;
REQUIRE(0 < mbtowc(&w, cell_extended_gcluster(n_, &tcells[i]), MB_CUR_MAX));
if(wcwidth(w) == 2){
CHECK(CELL_WIDEASIAN_MASK == testcell.channels);
++x;
}else{
CHECK(0 == testcell.channels);
}
++x;
}
}
// test that we read back correct attrs/colors despite changing defaults
SUBCASE("PlaneAtCursorAttrs"){
const char STR1[] = "this has been a world destroyer production";
const char STR2[] = "not to mention dank";
const char STR3[] = "da chronic lives";
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ncplane_styles_set(n_, NCSTYLE_BOLD);
REQUIRE(0 < ncplane_putstr(n_, STR1));
int y, x;
ncplane_cursor_yx(n_, &y, &x);
CHECK(0 == ncplane_cursor_move_yx(n_, y + 1, x - strlen(STR2)));
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ncplane_styles_on(n_, NCSTYLE_ITALIC);
REQUIRE(0 < ncplane_putstr(n_, STR2));
CHECK(0 == ncplane_cursor_move_yx(n_, y + 2, x - strlen(STR3)));
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ncplane_styles_off(n_, NCSTYLE_BOLD);
REQUIRE(0 < ncplane_putstr(n_, STR3));
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ncplane_styles_off(n_, NCSTYLE_ITALIC);
CHECK(0 == notcurses_render(nc_));
int newx;
ncplane_cursor_yx(n_, &y, &newx);
CHECK(newx == x);
cell testcell = CELL_TRIVIAL_INITIALIZER;
CHECK(0 == ncplane_cursor_move_yx(n_, y - 2, x - 1));
REQUIRE(1 == ncplane_at_cursor(n_, &testcell));
CHECK(testcell.gcluster == STR1[strlen(STR1) - 1]);
CHECK(0 == ncplane_cursor_move_yx(n_, y - 1, x - 1));
REQUIRE(1 == ncplane_at_cursor(n_, &testcell));
CHECK(testcell.gcluster == STR2[strlen(STR2) - 1]);
CHECK(0 == ncplane_cursor_move_yx(n_, y, x - 1));
REQUIRE(1 == ncplane_at_cursor(n_, &testcell));
CHECK(testcell.gcluster == STR3[strlen(STR3) - 1]);
}
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SUBCASE("BoxGradients") {
const auto sidesz = 5;
int dimx, dimy;
ncplane_dim_yx(n_, &dimy, &dimx);
REQUIRE(20 < dimy);
REQUIRE(40 < dimx);
cell ul{}, ll{}, lr{}, ur{}, hl{}, vl{};
REQUIRE(0 == cells_double_box(n_, 0, 0, &ul, &ur, &ll, &lr, &hl, &vl));
CHECK(0 == channels_set_fg_rgb(&ul.channels, 255, 0, 0));
CHECK(0 == channels_set_fg_rgb(&ur.channels, 0, 255, 0));
CHECK(0 == channels_set_fg_rgb(&ll.channels, 0, 0, 255));
CHECK(0 == channels_set_fg_rgb(&lr.channels, 255, 255, 255));
CHECK(0 == channels_set_bg_rgb(&ul.channels, 0, 255, 255));
CHECK(0 == channels_set_bg_rgb(&ur.channels, 255, 0, 255));
CHECK(0 == channels_set_bg_rgb(&ll.channels, 255, 255, 0));
CHECK(0 == channels_set_bg_rgb(&lr.channels, 0, 0, 0));
// we'll try all 16 gradmasks in sideszXsidesz configs in a 4x4 map
unsigned gradmask = 0;
for(auto y0 = 0 ; y0 < 4 ; ++y0){
for(auto x0 = 0 ; x0 < 4 ; ++x0){
CHECK(0 == ncplane_cursor_move_yx(n_, y0 * sidesz, x0 * (sidesz + 1)));
CHECK(0 == ncplane_box_sized(n_, &ul, &ur, &ll, &lr, &hl, &vl,
sidesz, sidesz, gradmask << 4u));
++gradmask;
}
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}
gradmask = 0;
for(auto y0 = 0 ; y0 < 4 ; ++y0){
for(auto x0 = 0 ; x0 < 4 ; ++x0){
CHECK(0 == ncplane_cursor_move_yx(n_, y0 * sidesz, x0 * (sidesz + 1) + (4 * (sidesz + 1))));
CHECK(0 == ncplane_box_sized(n_, &ul, &ur, &ll, &lr, &hl, &vl,
sidesz, sidesz, gradmask << 4u));
++gradmask;
}
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}
CHECK(0 == notcurses_render(nc_));
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}
SUBCASE("BoxSideColors") {
const auto sidesz = 5;
int dimx, dimy;
ncplane_dim_yx(n_, &dimy, &dimx);
REQUIRE(20 < dimy);
REQUIRE(40 < dimx);
cell ul{}, ll{}, lr{}, ur{}, hl{}, vl{};
REQUIRE(0 == cells_rounded_box(n_, 0, 0, &ul, &ur, &ll, &lr, &hl, &vl));
// we'll try all 16 boxmasks in sideszXsidesz configurations in a 4x4 map
CHECK(0 == channels_set_fg_rgb(&ul.channels, 255, 0, 0));
CHECK(0 == channels_set_fg_rgb(&ur.channels, 0, 255, 0));
CHECK(0 == channels_set_fg_rgb(&ll.channels, 0, 0, 255));
CHECK(0 == channels_set_fg_rgb(&lr.channels, 0, 0, 0));
CHECK(0 == channels_set_bg_rgb(&ul.channels, 0, 255, 255));
CHECK(0 == channels_set_bg_rgb(&ur.channels, 255, 0, 255));
CHECK(0 == channels_set_bg_rgb(&ll.channels, 255, 255, 0));
CHECK(0 == channels_set_bg_rgb(&lr.channels, 0, 0, 0));
CHECK(0 == channels_set_fg_rgb(&hl.channels, 255, 0, 255));
CHECK(0 == channels_set_fg_rgb(&vl.channels, 255, 255, 255));
CHECK(0 == channels_set_bg_rgb(&hl.channels, 0, 255, 0));
CHECK(0 == channels_set_bg_rgb(&vl.channels, 0, 0, 0));
for(auto y0 = 0 ; y0 < 4 ; ++y0){
for(auto x0 = 0 ; x0 < 4 ; ++x0){
CHECK(0 == ncplane_cursor_move_yx(n_, y0 * sidesz, x0 * (sidesz + 1)));
CHECK(0 == ncplane_box_sized(n_, &ul, &ur, &ll, &lr, &hl, &vl,
sidesz, sidesz, 0));
}
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}
for(auto y0 = 0 ; y0 < 4 ; ++y0){
for(auto x0 = 0 ; x0 < 4 ; ++x0){
CHECK(0 == ncplane_cursor_move_yx(n_, y0 * sidesz, x0 * (sidesz + 1) + (4 * (sidesz + 1))));
CHECK(0 == ncplane_box_sized(n_, &ul, &ur, &ll, &lr, &hl, &vl,
sidesz, sidesz, 0));
}
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}
CHECK(0 == notcurses_render(nc_));
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}
SUBCASE("RightToLeft") {
// give us some room on both sides
CHECK(0 == ncplane_cursor_move_yx(n_, 1, 10));
int sbytes = -1;
CHECK(0 < ncplane_putegc(n_, "־", &sbytes));
CHECK(0 == notcurses_render(nc_));
CHECK(0 == ncplane_cursor_move_yx(n_, 3, 10));
CHECK(0 < ncplane_putstr(n_, "I can write English with מילים בעברית in the same sentence."));
CHECK(0 == ncplane_cursor_move_yx(n_, 5, 10));
CHECK(0 < ncplane_putstr(n_, "|🔥|I have not yet ־ begun to hack|🔥|"));
CHECK(0 == ncplane_cursor_move_yx(n_, 7, 10));
CHECK(0 < ncplane_putstr(n_, "㉀㉁㉂㉃㉄㉅㉆㉇㉈㉉㉊㉋㉌㉍㉎㉏㉐㉑㉒㉓㉔㉕㉖㉗㉘㉙㉚㉛㉜㉝㉞㉟"));
CHECK(0 == notcurses_render(nc_));
}
SUBCASE("NewPlaneOnRight") {
int ncols, nrows;
ncplane_dim_yx(n_, &nrows, &ncols);
cell ul{}, ll{}, lr{}, ur{}, hl{}, vl{};
int y, x;
ncplane_yx(n_, &y, &x);
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struct ncplane* ncp = ncplane_new(nc_, 2, 2, y, ncols - 3, nullptr);
REQUIRE(ncp);
REQUIRE(0 == cells_rounded_box(ncp, 0, 0, &ul, &ur, &ll, &lr, &hl, &vl));
CHECK(0 == ncplane_box(ncp, &ul, &ur, &ll, &lr, &hl, &vl, y + 1, x + 1, 0));
CHECK(0 == notcurses_render(nc_));
// FIXME verify with ncplane_at_cursor()
CHECK(0 == ncplane_destroy(ncp));
}
SUBCASE("MoveToLowerRight") {
int ncols, nrows;
ncplane_dim_yx(n_, &nrows, &ncols);
cell ul{}, ll{}, lr{}, ur{}, hl{}, vl{};
int y, x;
ncplane_yx(n_, &y, &x);
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struct ncplane* ncp = ncplane_new(nc_, 2, 2, y, x, nullptr);
REQUIRE(ncp);
REQUIRE(0 == cells_rounded_box(ncp, 0, 0, &ul, &ur, &ll, &lr, &hl, &vl));
CHECK(0 == ncplane_box(ncp, &ul, &ur, &ll, &lr, &hl, &vl, y + 1, x + 1, 0));
CHECK(0 == notcurses_render(nc_));
CHECK(0 == ncplane_move_yx(ncp, nrows - 3, ncols - 3));
CHECK(0 == notcurses_render(nc_));
CHECK(0 == ncplane_destroy(ncp));
// FIXME verify with ncplane_at_cursor()
}
// Placing a wide char to the immediate left of any other char ought obliterate
// that cell.
SUBCASE("WideCharAnnihilatesRight") {
const char* w = "\xf0\x9f\x90\xb8"; // U+1F438 FROG FACE
const char* wbashed = "\xf0\x9f\xa6\x82"; // U+1F982 SCORPION
const char bashed = 'X';
int sbytes = 0;
CHECK(0 < ncplane_putegc_yx(n_, 0, 1, wbashed, &sbytes));
CHECK(0 < ncplane_putsimple_yx(n_, 1, 1, bashed));
int x, y;
ncplane_cursor_yx(n_, &y, &x);
CHECK(1 == y);
CHECK(2 == x);
CHECK(0 < ncplane_putegc_yx(n_, 0, 0, w, &sbytes));
CHECK(0 < ncplane_putegc_yx(n_, 1, 0, w, &sbytes));
cell c = CELL_TRIVIAL_INITIALIZER;
ncplane_at_yx(n_, 0, 0, &c);
const char* wres = extended_gcluster(n_, &c);
CHECK(0 == strcmp(wres, "\xf0\x9f\x90\xb8")); // should be frog
ncplane_at_yx(n_, 0, 1, &c);
CHECK(cell_double_wide_p(&c)); // should be wide
ncplane_at_yx(n_, 0, 2, &c);
CHECK(0 == c.gcluster); // should be nothing
ncplane_at_yx(n_, 1, 0, &c);
wres = extended_gcluster(n_, &c);
CHECK(0 == strcmp(wres, "\xf0\x9f\x90\xb8")); // should be frog
ncplane_at_yx(n_, 1, 1, &c);
CHECK(cell_double_wide_p(&c)); //should be wide
ncplane_at_yx(n_, 0, 2, &c);
CHECK(0 == c.gcluster);
CHECK(0 == notcurses_render(nc_)); // should be nothing
}
// Placing a wide char on the right half of a wide char ought obliterate the
// original wide char.
SUBCASE("WideCharAnnihilatesWideLeft") {
const char* w = "\xf0\x9f\x90\x8d";
const char* wbashed = "\xf0\x9f\xa6\x82";
int sbytes = 0;
CHECK(0 < ncplane_putegc_yx(n_, 0, 0, wbashed, &sbytes));
CHECK(0 < ncplane_putegc_yx(n_, 0, 1, w, &sbytes));
int x, y;
ncplane_cursor_yx(n_, &y, &x);
CHECK(0 == y);
CHECK(3 == x);
cell c = CELL_TRIVIAL_INITIALIZER;
ncplane_at_yx(n_, 0, 0, &c);
CHECK(0 == c.gcluster); // should be nothing
ncplane_at_yx(n_, 0, 1, &c);
const char* wres = extended_gcluster(n_, &c);
CHECK(0 == strcmp(wres, "\xf0\x9f\x90\x8d")); // should be snake
ncplane_at_yx(n_, 0, 2, &c);
CHECK(cell_double_wide_p(&c)); // should be wide
CHECK(0 == notcurses_render(nc_));
}
// Placing a normal char on either half of a wide char ought obliterate
// the original wide char.
SUBCASE("WideCharsAnnihilated") {
const char cc = 'X';
const char* wbashedl = "\xf0\x9f\x90\x8d";
const char* wbashedr = "\xf0\x9f\xa6\x82";
int sbytes = 0;
CHECK(0 < ncplane_putegc_yx(n_, 0, 0, wbashedl, &sbytes));
CHECK(0 < ncplane_putegc_yx(n_, 0, 2, wbashedr, &sbytes));
CHECK(1 == ncplane_putsimple_yx(n_, 0, 1, cc));
CHECK(1 == ncplane_putsimple_yx(n_, 0, 2, cc));
int x, y;
ncplane_cursor_yx(n_, &y, &x);
CHECK(0 == y);
CHECK(3 == x);
cell c = CELL_TRIVIAL_INITIALIZER;
ncplane_at_yx(n_, 0, 0, &c);
CHECK(0 == c.gcluster); // should be nothing
ncplane_at_yx(n_, 0, 1, &c);
CHECK(cc == c.gcluster); // should be 'X'
ncplane_at_yx(n_, 0, 2, &c);
CHECK(cc == c.gcluster); // should be 'X"
ncplane_at_yx(n_, 0, 3, &c);
CHECK(0 == c.gcluster); // should be nothing
CHECK(0 == notcurses_render(nc_));
}
// But placing something to the immediate right of any glyph, that is not a
// problem. Ensure it is so.
SUBCASE("AdjacentCharsSafe") {
const char cc = 'X';
const char* wsafel = "\xf0\x9f\x90\x8d";
const char* wsafer = "\xf0\x9f\xa6\x82";
int sbytes = 0;
CHECK(0 < ncplane_putegc_yx(n_, 0, 0, wsafel, &sbytes));
CHECK(0 < ncplane_putegc_yx(n_, 0, 3, wsafer, &sbytes));
CHECK(1 == ncplane_putsimple_yx(n_, 0, 2, cc));
int x, y;
ncplane_cursor_yx(n_, &y, &x);
CHECK(0 == y);
CHECK(3 == x);
cell c = CELL_TRIVIAL_INITIALIZER;
ncplane_at_yx(n_, 0, 0, &c);
const char* wres = extended_gcluster(n_, &c);
CHECK(0 == strcmp(wres, "\xf0\x9f\x90\x8d")); // should be snake
ncplane_at_yx(n_, 0, 1, &c);
CHECK(cell_double_wide_p(&c)); // should be snake
ncplane_at_yx(n_, 0, 2, &c);
CHECK(cc == c.gcluster); // should be 'X'
ncplane_at_yx(n_, 0, 3, &c);
wres = extended_gcluster(n_, &c);
CHECK(0 == strcmp(wres, "\xf0\x9f\xa6\x82")); // should be scorpion
ncplane_at_yx(n_, 0, 4, &c);
CHECK(cell_double_wide_p(&c)); // should be scorpion
CHECK(0 == notcurses_render(nc_));
}
SUBCASE("BoxedWideGlyph") {
struct ncplane* ncp = ncplane_new(nc_, 3, 4, 0, 0, nullptr);
REQUIRE(ncp);
int dimx, dimy;
ncplane_dim_yx(n_, &dimy, &dimx);
CHECK(0 == ncplane_rounded_box_sized(ncp, 0, 0, 3, 4, 0));
CHECK(0 < ncplane_putegc_yx(ncp, 1, 1, "\xf0\x9f\xa6\x82", NULL));
CHECK(0 == notcurses_render(nc_));
cell c = CELL_TRIVIAL_INITIALIZER;
REQUIRE(0 < ncplane_at_yx(ncp, 1, 0, &c));
CHECK(!strcmp(cell_extended_gcluster(ncp, &c), ""));
cell_release(ncp, &c);
char* egc = notcurses_at_yx(nc_, 1, 0, &c);
REQUIRE(egc);
CHECK(!strcmp(egc, ""));
free(egc);
REQUIRE(0 < ncplane_at_yx(ncp, 1, 3, &c));
CHECK(!strcmp(cell_extended_gcluster(ncp, &c), ""));
cell_release(ncp, &c);
egc = notcurses_at_yx(nc_, 1, 3, &c);
REQUIRE(egc);
CHECK(!strcmp(egc, ""));
free(egc);
CHECK(0 == ncplane_destroy(ncp));
}
SUBCASE("RenderWides") {
CHECK(0 <= ncplane_putstr(n_, "\xe5\xbd\xa2\xe5\x85\xa8"));
cell c = CELL_TRIVIAL_INITIALIZER;
ncplane_at_yx(n_, 0, 0, &c);
CHECK(cell_double_wide_p(&c));
ncplane_at_yx(n_, 0, 1, &c);
CHECK(cell_double_wide_p(&c));
ncplane_at_yx(n_, 0, 2, &c);
CHECK(cell_double_wide_p(&c));
ncplane_at_yx(n_, 0, 3, &c);
CHECK(cell_double_wide_p(&c));
ncplane_at_yx(n_, 0, 4, &c);
CHECK(!cell_double_wide_p(&c));
REQUIRE(0 == notcurses_render(nc_));
notcurses_at_yx(nc_, 0, 0, &c);
CHECK(cell_double_wide_p(&c));
notcurses_at_yx(nc_, 0, 1, &c);
CHECK(cell_double_wide_p(&c));
notcurses_at_yx(nc_, 0, 2, &c);
CHECK(cell_double_wide_p(&c));
notcurses_at_yx(nc_, 0, 3, &c);
CHECK(cell_double_wide_p(&c));
notcurses_at_yx(nc_, 0, 4, &c);
CHECK(!cell_double_wide_p(&c));
}
CHECK(0 == notcurses_stop(nc_));
CHECK(0 == fclose(outfp_));
}