Applied-Software/ghostty
5
0
Fork 0
mirror of https://github.com/ghostty-org/ghostty.git synced 2025-07-16 16:56:09 +03:00
Code Issues Packages Projects Releases Wiki Activity

font/shape: add coretext shaper

Browse Source
This commit is contained in:
Mitchell Hashimoto
2023-12-11 11:13:49 -08:00
parent 0137f5b0d3
commit 62a5fe0236
1 changed files with 938 additions and 0 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

938
src/font/shaper/coretext.zig Normal file
View File

@ -0,0 +1,938 @@
const std = @import("std");
const assert = std.debug.assert;
const Allocator = std.mem.Allocator;
const harfbuzz = @import("harfbuzz");
const macos = @import("macos");
const trace = @import("tracy").trace;
const font = @import("../main.zig");
const Face = font.Face;
const DeferredFace = font.DeferredFace;
const Group = font.Group;
const GroupCache = font.GroupCache;
const Library = font.Library;
const Style = font.Style;
const Presentation = font.Presentation;
const terminal = @import("../../terminal/main.zig");
const log = std.log.scoped(.font_shaper);
/// Shaper that uses CoreText.
pub const Shaper = struct {
/// The allocated used for the feature list and cell buf.
alloc: Allocator,
/// The string used for shaping the current run.
str: ?*macos.foundation.MutableString = null,
codepoints: ClusterBuf = .{},
clusters: ClusterBuf = .{},
/// The shared memory used for shaping results.
cell_buf: CellBuf,
const CellBuf = std.ArrayListUnmanaged(font.shape.Cell);
const ClusterBuf = std.ArrayListUnmanaged(u32);
// These features are hardcoded to always be on by default. Users
// can turn them off by setting the features to "-liga" for example.
const hardcoded_features = [_][]const u8{ "dlig", "liga" };
/// The cell_buf argument is the buffer to use for storing shaped results.
/// This should be at least the number of columns in the terminal.
pub fn init(alloc: Allocator, opts: font.shape.Options) !Shaper {
// TODO: features
_ = opts;
return Shaper{
.alloc = alloc,
.cell_buf = .{},
};
}
pub fn deinit(self: *Shaper) void {
self.cell_buf.deinit(self.alloc);
self.codepoints.deinit(self.alloc);
self.clusters.deinit(self.alloc);
if (self.str) |str| str.release();
}
pub fn runIterator(
self: *Shaper,
group: *GroupCache,
row: terminal.Screen.Row,
selection: ?terminal.Selection,
cursor_x: ?usize,
) font.shape.RunIterator {
return .{
.hooks = .{ .shaper = self },
.group = group,
.row = row,
.selection = selection,
.cursor_x = cursor_x,
};
}
pub fn shape(self: *Shaper, run: font.shape.TextRun) ![]const font.shape.Cell {
// TODO: quirks fonts
// Special fonts aren't shaped and their codepoint == glyph so we
// can just return the codepoints as-is.
if (run.font_index.special() != null) {
self.cell_buf.clearRetainingCapacity();
try self.cell_buf.ensureTotalCapacity(self.alloc, self.codepoints.items.len);
for (self.codepoints.items, self.clusters.items) |cp, x| {
self.cell_buf.appendAssumeCapacity(.{
.x = @intCast(x),
.glyph_index = @intCast(cp),
});
}
return self.cell_buf.items;
}
// Create an arena for any Zig-based allocations we do
var arena = std.heap.ArenaAllocator.init(self.alloc);
defer arena.deinit();
const alloc = arena.allocator();
// Get our font and use that get the attributes to set for the
// attributed string so the whole string uses the same font.
const attr_dict = dict: {
const face = try run.group.group.faceFromIndex(run.font_index);
var keys = [_]?*const anyopaque{macos.text.StringAttribute.font.key()};
var values = [_]?*const anyopaque{face.font};
break :dict try macos.foundation.Dictionary.create(&keys, &values);
};
defer attr_dict.release();
// Create an attributed string from our string
const attr_str = try macos.foundation.AttributedString.create(
self.str.?.string(),
attr_dict,
);
defer attr_str.release();
// We should always have one run because we do our own run splitting.
const line = try macos.text.Line.createWithAttributedString(attr_str);
defer line.release();
const runs = line.getGlyphRuns();
assert(runs.getCount() == 1);
const ctrun = runs.getValueAtIndex(macos.text.Run, 0);
// Get our glyphs and positions
const glyphs = try ctrun.getGlyphs(alloc);
const positions = try ctrun.getPositions(alloc);
const advances = try ctrun.getAdvances(alloc);
const indices = try ctrun.getStringIndices(alloc);
assert(glyphs.len == positions.len);
assert(glyphs.len == advances.len);
assert(glyphs.len == indices.len);
self.cell_buf.clearRetainingCapacity();
try self.cell_buf.ensureTotalCapacity(self.alloc, glyphs.len);
for (glyphs, positions, advances, indices) |glyph, pos, advance, index| {
const cluster = self.clusters.items[index];
self.cell_buf.appendAssumeCapacity(.{
.x = @intCast(cluster),
.glyph_index = glyph,
});
_ = pos;
_ = advance;
// const i = self.cell_buf.items.len - 1;
// log.warn(
// "i={} glyph={} pos={} advance={} index={} cluster={}",
// .{ i, glyph, pos, advance, index, cluster },
// );
}
return self.cell_buf.items;
}
/// The hooks for RunIterator.
pub const RunIteratorHook = struct {
shaper: *Shaper,
pub fn prepare(self: *RunIteratorHook) !void {
if (self.shaper.str) |str| str.release();
self.shaper.str = try macos.foundation.MutableString.create(0);
self.shaper.codepoints.clearRetainingCapacity();
self.shaper.clusters.clearRetainingCapacity();
}
pub fn addCodepoint(self: RunIteratorHook, cp: u32, cluster: u32) !void {
var unichars: [2]u16 = undefined;
const pair = macos.foundation.stringGetSurrogatePairForLongCharacter(cp, &unichars);
const len: usize = if (pair) 2 else 1;
// log.warn("append codepoint={} unichar_len={}", .{ cp, len });
self.shaper.str.?.appendCharacters(unichars[0..len]);
try self.shaper.codepoints.append(self.shaper.alloc, cp);
try self.shaper.clusters.appendNTimes(self.shaper.alloc, cluster, len);
}
pub fn finalize(self: RunIteratorHook) !void {
_ = self;
}
};
};
test "run iterator" {
const testing = std.testing;
const alloc = testing.allocator;
var testdata = try testShaper(alloc);
defer testdata.deinit();
{
// Make a screen with some data
var screen = try terminal.Screen.init(alloc, 3, 5, 0);
defer screen.deinit();
try screen.testWriteString("ABCD");
// Get our run iterator
var shaper = &testdata.shaper;
var it = shaper.runIterator(testdata.cache, screen.getRow(.{ .screen = 0 }), null, null);
var count: usize = 0;
while (try it.next(alloc)) |_| count += 1;
try testing.expectEqual(@as(usize, 1), count);
}
// Spaces should be part of a run
{
var screen = try terminal.Screen.init(alloc, 3, 10, 0);
defer screen.deinit();
try screen.testWriteString("ABCD EFG");
var shaper = &testdata.shaper;
var it = shaper.runIterator(testdata.cache, screen.getRow(.{ .screen = 0 }), null, null);
var count: usize = 0;
while (try it.next(alloc)) |_| count += 1;
try testing.expectEqual(@as(usize, 1), count);
}
{
// Make a screen with some data
var screen = try terminal.Screen.init(alloc, 3, 5, 0);
defer screen.deinit();
try screen.testWriteString("A😃D");
// Get our run iterator
var shaper = &testdata.shaper;
var it = shaper.runIterator(testdata.cache, screen.getRow(.{ .screen = 0 }), null, null);
var count: usize = 0;
while (try it.next(alloc)) |_| count += 1;
try testing.expectEqual(@as(usize, 3), count);
}
}
test "run iterator: empty cells with background set" {
const testing = std.testing;
const alloc = testing.allocator;
var testdata = try testShaper(alloc);
defer testdata.deinit();
{
// Make a screen with some data
var screen = try terminal.Screen.init(alloc, 3, 5, 0);
defer screen.deinit();
screen.cursor.pen.bg = try terminal.color.Name.cyan.default();
screen.cursor.pen.attrs.has_bg = true;
try screen.testWriteString("A");
// Get our first row
const row = screen.getRow(.{ .active = 0 });
row.getCellPtr(1).* = screen.cursor.pen;
row.getCellPtr(2).* = screen.cursor.pen;
// Get our run iterator
var shaper = &testdata.shaper;
var it = shaper.runIterator(testdata.cache, screen.getRow(.{ .screen = 0 }), null, null);
var count: usize = 0;
while (try it.next(alloc)) |run| {
count += 1;
// The run should have length 3 because of the two background
// cells.
try testing.expectEqual(@as(usize, 3), shaper.str.?.string().getLength());
const cells = try shaper.shape(run);
try testing.expectEqual(@as(usize, 3), cells.len);
}
try testing.expectEqual(@as(usize, 1), count);
}
}
test "shape" {
const testing = std.testing;
const alloc = testing.allocator;
var testdata = try testShaper(alloc);
defer testdata.deinit();
var buf: [32]u8 = undefined;
var buf_idx: usize = 0;
buf_idx += try std.unicode.utf8Encode(0x1F44D, buf[buf_idx..]); // Thumbs up plain
buf_idx += try std.unicode.utf8Encode(0x1F44D, buf[buf_idx..]); // Thumbs up plain
buf_idx += try std.unicode.utf8Encode(0x1F3FD, buf[buf_idx..]); // Medium skin tone
// Make a screen with some data
var screen = try terminal.Screen.init(alloc, 3, 10, 0);
defer screen.deinit();
try screen.testWriteString(buf[0..buf_idx]);
// Get our run iterator
var shaper = &testdata.shaper;
var it = shaper.runIterator(testdata.cache, screen.getRow(.{ .screen = 0 }), null, null);
var count: usize = 0;
while (try it.next(alloc)) |run| {
count += 1;
_ = try shaper.shape(run);
}
try testing.expectEqual(@as(usize, 1), count);
}
// test "shape inconsolata ligs" {
// const testing = std.testing;
// const alloc = testing.allocator;
//
// var testdata = try testShaper(alloc);
// defer testdata.deinit();
//
// {
// var screen = try terminal.Screen.init(alloc, 3, 5, 0);
// defer screen.deinit();
// try screen.testWriteString(">=");
//
// var shaper = &testdata.shaper;
// var it = shaper.runIterator(testdata.cache, screen.getRow(.{ .screen = 0 }), null, null);
// var count: usize = 0;
// while (try it.next(alloc)) |run| {
// count += 1;
//
// const cells = try shaper.shape(run);
// try testing.expectEqual(@as(usize, 1), cells.len);
// }
// try testing.expectEqual(@as(usize, 1), count);
// }
//
// {
// var screen = try terminal.Screen.init(alloc, 3, 5, 0);
// defer screen.deinit();
// try screen.testWriteString("===");
//
// var shaper = &testdata.shaper;
// var it = shaper.runIterator(testdata.cache, screen.getRow(.{ .screen = 0 }), null, null);
// var count: usize = 0;
// while (try it.next(alloc)) |run| {
// count += 1;
//
// const cells = try shaper.shape(run);
// try testing.expectEqual(@as(usize, 1), cells.len);
// }
// try testing.expectEqual(@as(usize, 1), count);
// }
// }
test "shape emoji width" {
const testing = std.testing;
const alloc = testing.allocator;
var testdata = try testShaper(alloc);
defer testdata.deinit();
{
var screen = try terminal.Screen.init(alloc, 3, 5, 0);
defer screen.deinit();
try screen.testWriteString("👍");
var shaper = &testdata.shaper;
var it = shaper.runIterator(testdata.cache, screen.getRow(.{ .screen = 0 }), null, null);
var count: usize = 0;
while (try it.next(alloc)) |run| {
count += 1;
const cells = try shaper.shape(run);
try testing.expectEqual(@as(usize, 1), cells.len);
}
try testing.expectEqual(@as(usize, 1), count);
}
}
test "shape emoji width long" {
const testing = std.testing;
const alloc = testing.allocator;
var testdata = try testShaper(alloc);
defer testdata.deinit();
var buf: [32]u8 = undefined;
var buf_idx: usize = 0;
buf_idx += try std.unicode.utf8Encode(0x1F9D4, buf[buf_idx..]); // man: beard
buf_idx += try std.unicode.utf8Encode(0x1F3FB, buf[buf_idx..]); // light skin tone (Fitz 1-2)
buf_idx += try std.unicode.utf8Encode(0x200D, buf[buf_idx..]); // ZWJ
buf_idx += try std.unicode.utf8Encode(0x2642, buf[buf_idx..]); // male sign
buf_idx += try std.unicode.utf8Encode(0xFE0F, buf[buf_idx..]); // emoji representation
// Make a screen with some data
var screen = try terminal.Screen.init(alloc, 3, 30, 0);
defer screen.deinit();
try screen.testWriteString(buf[0..buf_idx]);
// Get our run iterator
var shaper = &testdata.shaper;
var it = shaper.runIterator(testdata.cache, screen.getRow(.{ .screen = 0 }), null, null);
var count: usize = 0;
while (try it.next(alloc)) |run| {
count += 1;
const cells = try shaper.shape(run);
try testing.expectEqual(@as(usize, 1), cells.len);
}
try testing.expectEqual(@as(usize, 1), count);
}
test "shape variation selector VS15" {
const testing = std.testing;
const alloc = testing.allocator;
var testdata = try testShaper(alloc);
defer testdata.deinit();
var buf: [32]u8 = undefined;
var buf_idx: usize = 0;
buf_idx += try std.unicode.utf8Encode(0x270C, buf[buf_idx..]); // Victory sign (default text)
buf_idx += try std.unicode.utf8Encode(0xFE0E, buf[buf_idx..]); // ZWJ to force text
// Make a screen with some data
var screen = try terminal.Screen.init(alloc, 3, 10, 0);
defer screen.deinit();
try screen.testWriteString(buf[0..buf_idx]);
// Get our run iterator
var shaper = &testdata.shaper;
var it = shaper.runIterator(testdata.cache, screen.getRow(.{ .screen = 0 }), null, null);
var count: usize = 0;
while (try it.next(alloc)) |run| {
count += 1;
const cells = try shaper.shape(run);
try testing.expectEqual(@as(usize, 1), cells.len);
}
try testing.expectEqual(@as(usize, 1), count);
}
test "shape variation selector VS16" {
const testing = std.testing;
const alloc = testing.allocator;
var testdata = try testShaper(alloc);
defer testdata.deinit();
var buf: [32]u8 = undefined;
var buf_idx: usize = 0;
buf_idx += try std.unicode.utf8Encode(0x270C, buf[buf_idx..]); // Victory sign (default text)
buf_idx += try std.unicode.utf8Encode(0xFE0F, buf[buf_idx..]); // ZWJ to force color
// Make a screen with some data
var screen = try terminal.Screen.init(alloc, 3, 10, 0);
defer screen.deinit();
try screen.testWriteString(buf[0..buf_idx]);
// Get our run iterator
var shaper = &testdata.shaper;
var it = shaper.runIterator(testdata.cache, screen.getRow(.{ .screen = 0 }), null, null);
var count: usize = 0;
while (try it.next(alloc)) |run| {
count += 1;
const cells = try shaper.shape(run);
try testing.expectEqual(@as(usize, 1), cells.len);
}
try testing.expectEqual(@as(usize, 1), count);
}
test "shape with empty cells in between" {
const testing = std.testing;
const alloc = testing.allocator;
var testdata = try testShaper(alloc);
defer testdata.deinit();
// Make a screen with some data
var screen = try terminal.Screen.init(alloc, 3, 30, 0);
defer screen.deinit();
try screen.testWriteString("A");
screen.cursor.x += 5;
try screen.testWriteString("B");
// Get our run iterator
var shaper = &testdata.shaper;
var it = shaper.runIterator(testdata.cache, screen.getRow(.{ .screen = 0 }), null, null);
var count: usize = 0;
while (try it.next(alloc)) |run| {
count += 1;
const cells = try shaper.shape(run);
try testing.expectEqual(@as(usize, 7), cells.len);
}
try testing.expectEqual(@as(usize, 1), count);
}
test "shape Chinese characters" {
const testing = std.testing;
const alloc = testing.allocator;
var testdata = try testShaper(alloc);
defer testdata.deinit();
var buf: [32]u8 = undefined;
var buf_idx: usize = 0;
buf_idx += try std.unicode.utf8Encode('n', buf[buf_idx..]); // Combining
buf_idx += try std.unicode.utf8Encode(0x0308, buf[buf_idx..]); // Combining
buf_idx += try std.unicode.utf8Encode(0x0308, buf[buf_idx..]);
buf_idx += try std.unicode.utf8Encode('a', buf[buf_idx..]);
// Make a screen with some data
var screen = try terminal.Screen.init(alloc, 3, 30, 0);
defer screen.deinit();
try screen.testWriteString(buf[0..buf_idx]);
// Get our run iterator
var shaper = &testdata.shaper;
var it = shaper.runIterator(testdata.cache, screen.getRow(.{ .screen = 0 }), null, null);
var count: usize = 0;
while (try it.next(alloc)) |run| {
count += 1;
const cells = try shaper.shape(run);
try testing.expectEqual(@as(usize, 4), cells.len);
try testing.expectEqual(@as(u16, 0), cells[0].x);
try testing.expectEqual(@as(u16, 0), cells[1].x);
try testing.expectEqual(@as(u16, 0), cells[2].x);
try testing.expectEqual(@as(u16, 1), cells[3].x);
}
try testing.expectEqual(@as(usize, 1), count);
}
test "shape box glyphs" {
const testing = std.testing;
const alloc = testing.allocator;
var testdata = try testShaper(alloc);
defer testdata.deinit();
// Setup the box font
testdata.cache.group.sprite = font.sprite.Face{
.width = 18,
.height = 36,
.thickness = 2,
};
var buf: [32]u8 = undefined;
var buf_idx: usize = 0;
buf_idx += try std.unicode.utf8Encode(0x2500, buf[buf_idx..]); // horiz line
buf_idx += try std.unicode.utf8Encode(0x2501, buf[buf_idx..]); //
// Make a screen with some data
var screen = try terminal.Screen.init(alloc, 3, 10, 0);
defer screen.deinit();
try screen.testWriteString(buf[0..buf_idx]);
// Get our run iterator
var shaper = &testdata.shaper;
var it = shaper.runIterator(testdata.cache, screen.getRow(.{ .screen = 0 }), null, null);
var count: usize = 0;
while (try it.next(alloc)) |run| {
count += 1;
//try testing.expectEqual(@as(u32, 2), shaper.hb_buf.getLength());
const cells = try shaper.shape(run);
try testing.expectEqual(@as(usize, 2), cells.len);
try testing.expectEqual(@as(u32, 0x2500), cells[0].glyph_index);
try testing.expectEqual(@as(u16, 0), cells[0].x);
try testing.expectEqual(@as(u32, 0x2501), cells[1].glyph_index);
try testing.expectEqual(@as(u16, 1), cells[1].x);
}
try testing.expectEqual(@as(usize, 1), count);
}
test "shape selection boundary" {
const testing = std.testing;
const alloc = testing.allocator;
var testdata = try testShaper(alloc);
defer testdata.deinit();
// Make a screen with some data
var screen = try terminal.Screen.init(alloc, 3, 10, 0);
defer screen.deinit();
try screen.testWriteString("a1b2c3d4e5");
// Full line selection
{
// Get our run iterator
var shaper = &testdata.shaper;
var it = shaper.runIterator(testdata.cache, screen.getRow(.{ .screen = 0 }), .{
.start = .{ .x = 0, .y = 0 },
.end = .{ .x = screen.cols - 1, .y = 0 },
}, null);
var count: usize = 0;
while (try it.next(alloc)) |run| {
count += 1;
_ = try shaper.shape(run);
}
try testing.expectEqual(@as(usize, 1), count);
}
// Offset x, goes to end of line selection
{
// Get our run iterator
var shaper = &testdata.shaper;
var it = shaper.runIterator(testdata.cache, screen.getRow(.{ .screen = 0 }), .{
.start = .{ .x = 2, .y = 0 },
.end = .{ .x = screen.cols - 1, .y = 0 },
}, null);
var count: usize = 0;
while (try it.next(alloc)) |run| {
count += 1;
_ = try shaper.shape(run);
}
try testing.expectEqual(@as(usize, 2), count);
}
// Offset x, starts at beginning of line
{
// Get our run iterator
var shaper = &testdata.shaper;
var it = shaper.runIterator(testdata.cache, screen.getRow(.{ .screen = 0 }), .{
.start = .{ .x = 0, .y = 0 },
.end = .{ .x = 3, .y = 0 },
}, null);
var count: usize = 0;
while (try it.next(alloc)) |run| {
count += 1;
_ = try shaper.shape(run);
}
try testing.expectEqual(@as(usize, 2), count);
}
// Selection only subset of line
{
// Get our run iterator
var shaper = &testdata.shaper;
var it = shaper.runIterator(testdata.cache, screen.getRow(.{ .screen = 0 }), .{
.start = .{ .x = 1, .y = 0 },
.end = .{ .x = 3, .y = 0 },
}, null);
var count: usize = 0;
while (try it.next(alloc)) |run| {
count += 1;
_ = try shaper.shape(run);
}
try testing.expectEqual(@as(usize, 3), count);
}
// Selection only one character
{
// Get our run iterator
var shaper = &testdata.shaper;
var it = shaper.runIterator(testdata.cache, screen.getRow(.{ .screen = 0 }), .{
.start = .{ .x = 1, .y = 0 },
.end = .{ .x = 1, .y = 0 },
}, null);
var count: usize = 0;
while (try it.next(alloc)) |run| {
count += 1;
_ = try shaper.shape(run);
}
try testing.expectEqual(@as(usize, 3), count);
}
}
test "shape cursor boundary" {
const testing = std.testing;
const alloc = testing.allocator;
var testdata = try testShaper(alloc);
defer testdata.deinit();
// Make a screen with some data
var screen = try terminal.Screen.init(alloc, 3, 10, 0);
defer screen.deinit();
try screen.testWriteString("a1b2c3d4e5");
// No cursor is full line
{
// Get our run iterator
var shaper = &testdata.shaper;
var it = shaper.runIterator(testdata.cache, screen.getRow(.{ .screen = 0 }), null, null);
var count: usize = 0;
while (try it.next(alloc)) |run| {
count += 1;
_ = try shaper.shape(run);
}
try testing.expectEqual(@as(usize, 1), count);
}
// Cursor at index 0 is two runs
{
// Get our run iterator
var shaper = &testdata.shaper;
var it = shaper.runIterator(testdata.cache, screen.getRow(.{ .screen = 0 }), null, 0);
var count: usize = 0;
while (try it.next(alloc)) |run| {
count += 1;
_ = try shaper.shape(run);
}
try testing.expectEqual(@as(usize, 2), count);
}
// Cursor at index 1 is three runs
{
// Get our run iterator
var shaper = &testdata.shaper;
var it = shaper.runIterator(testdata.cache, screen.getRow(.{ .screen = 0 }), null, 1);
var count: usize = 0;
while (try it.next(alloc)) |run| {
count += 1;
_ = try shaper.shape(run);
}
try testing.expectEqual(@as(usize, 3), count);
}
// Cursor at last col is two runs
{
// Get our run iterator
var shaper = &testdata.shaper;
var it = shaper.runIterator(testdata.cache, screen.getRow(.{ .screen = 0 }), null, 9);
var count: usize = 0;
while (try it.next(alloc)) |run| {
count += 1;
_ = try shaper.shape(run);
}
try testing.expectEqual(@as(usize, 2), count);
}
}
test "shape cursor boundary and colored emoji" {
const testing = std.testing;
const alloc = testing.allocator;
var testdata = try testShaper(alloc);
defer testdata.deinit();
// Make a screen with some data
var screen = try terminal.Screen.init(alloc, 3, 10, 0);
defer screen.deinit();
try screen.testWriteString("👍🏼");
// No cursor is full line
{
// Get our run iterator
var shaper = &testdata.shaper;
var it = shaper.runIterator(testdata.cache, screen.getRow(.{ .screen = 0 }), null, null);
var count: usize = 0;
while (try it.next(alloc)) |run| {
count += 1;
_ = try shaper.shape(run);
}
try testing.expectEqual(@as(usize, 1), count);
}
// Cursor on emoji does not split it
{
// Get our run iterator
var shaper = &testdata.shaper;
var it = shaper.runIterator(testdata.cache, screen.getRow(.{ .screen = 0 }), null, 0);
var count: usize = 0;
while (try it.next(alloc)) |run| {
count += 1;
_ = try shaper.shape(run);
}
try testing.expectEqual(@as(usize, 1), count);
}
{
// Get our run iterator
var shaper = &testdata.shaper;
var it = shaper.runIterator(testdata.cache, screen.getRow(.{ .screen = 0 }), null, 1);
var count: usize = 0;
while (try it.next(alloc)) |run| {
count += 1;
_ = try shaper.shape(run);
}
try testing.expectEqual(@as(usize, 1), count);
}
}
test "shape cell attribute change" {
const testing = std.testing;
const alloc = testing.allocator;
var testdata = try testShaper(alloc);
defer testdata.deinit();
// Plain >= should shape into 1 run
{
var screen = try terminal.Screen.init(alloc, 3, 10, 0);
defer screen.deinit();
try screen.testWriteString(">=");
var shaper = &testdata.shaper;
var it = shaper.runIterator(testdata.cache, screen.getRow(.{ .screen = 0 }), null, null);
var count: usize = 0;
while (try it.next(alloc)) |run| {
count += 1;
_ = try shaper.shape(run);
}
try testing.expectEqual(@as(usize, 1), count);
}
// Bold vs regular should split
{
var screen = try terminal.Screen.init(alloc, 3, 10, 0);
defer screen.deinit();
try screen.testWriteString(">");
screen.cursor.pen.attrs.bold = true;
try screen.testWriteString("=");
var shaper = &testdata.shaper;
var it = shaper.runIterator(testdata.cache, screen.getRow(.{ .screen = 0 }), null, null);
var count: usize = 0;
while (try it.next(alloc)) |run| {
count += 1;
_ = try shaper.shape(run);
}
try testing.expectEqual(@as(usize, 2), count);
}
// Changing fg color should split
{
var screen = try terminal.Screen.init(alloc, 3, 10, 0);
defer screen.deinit();
screen.cursor.pen.attrs.has_fg = true;
screen.cursor.pen.fg = .{ .r = 1, .g = 2, .b = 3 };
try screen.testWriteString(">");
screen.cursor.pen.fg = .{ .r = 3, .g = 2, .b = 1 };
try screen.testWriteString("=");
var shaper = &testdata.shaper;
var it = shaper.runIterator(testdata.cache, screen.getRow(.{ .screen = 0 }), null, null);
var count: usize = 0;
while (try it.next(alloc)) |run| {
count += 1;
_ = try shaper.shape(run);
}
try testing.expectEqual(@as(usize, 2), count);
}
// Changing bg color should split
{
var screen = try terminal.Screen.init(alloc, 3, 10, 0);
defer screen.deinit();
screen.cursor.pen.attrs.has_bg = true;
screen.cursor.pen.bg = .{ .r = 1, .g = 2, .b = 3 };
try screen.testWriteString(">");
screen.cursor.pen.bg = .{ .r = 3, .g = 2, .b = 1 };
try screen.testWriteString("=");
var shaper = &testdata.shaper;
var it = shaper.runIterator(testdata.cache, screen.getRow(.{ .screen = 0 }), null, null);
var count: usize = 0;
while (try it.next(alloc)) |run| {
count += 1;
_ = try shaper.shape(run);
}
try testing.expectEqual(@as(usize, 2), count);
}
// Same bg color should not split
{
var screen = try terminal.Screen.init(alloc, 3, 10, 0);
defer screen.deinit();
screen.cursor.pen.attrs.has_bg = true;
screen.cursor.pen.bg = .{ .r = 1, .g = 2, .b = 3 };
try screen.testWriteString(">");
try screen.testWriteString("=");
var shaper = &testdata.shaper;
var it = shaper.runIterator(testdata.cache, screen.getRow(.{ .screen = 0 }), null, null);
var count: usize = 0;
while (try it.next(alloc)) |run| {
count += 1;
_ = try shaper.shape(run);
}
try testing.expectEqual(@as(usize, 1), count);
}
}
const TestShaper = struct {
alloc: Allocator,
shaper: Shaper,
cache: *GroupCache,
lib: Library,
pub fn deinit(self: *TestShaper) void {
self.shaper.deinit();
self.cache.deinit(self.alloc);
self.alloc.destroy(self.cache);
self.lib.deinit();
}
};
/// Helper to return a fully initialized shaper.
fn testShaper(alloc: Allocator) !TestShaper {
const testFont = @import("../test.zig").fontRegular;
const testEmoji = @import("../test.zig").fontEmoji;
const testEmojiText = @import("../test.zig").fontEmojiText;
var lib = try Library.init();
errdefer lib.deinit();
var cache_ptr = try alloc.create(GroupCache);
errdefer alloc.destroy(cache_ptr);
cache_ptr.* = try GroupCache.init(alloc, try Group.init(
alloc,
lib,
.{ .points = 12 },
));
errdefer cache_ptr.*.deinit(alloc);
// Setup group
_ = try cache_ptr.group.addFace(.regular, .{ .loaded = try Face.init(
lib,
testFont,
.{ .size = .{ .points = 12 } },
) });
if (font.options.backend != .coretext) {
// Coretext doesn't support Noto's format
_ = try cache_ptr.group.addFace(.regular, .{ .loaded = try Face.init(
lib,
testEmoji,
.{ .size = .{ .points = 12 } },
) });
} else {
// On CoreText we want to load Apple Emoji, we should have it.
var disco = font.Discover.init();
defer disco.deinit();
var disco_it = try disco.discover(alloc, .{
.family = "Apple Color Emoji",
.size = 12,
.monospace = false,
});
defer disco_it.deinit();
var face = (try disco_it.next()).?;
errdefer face.deinit();
_ = try cache_ptr.group.addFace(.regular, .{ .deferred = face });
}
_ = try cache_ptr.group.addFace(.regular, .{ .loaded = try Face.init(
lib,
testEmojiText,
.{ .size = .{ .points = 12 } },
) });
var shaper = try Shaper.init(alloc, .{});
errdefer shaper.deinit();
return TestShaper{
.alloc = alloc,
.shaper = shaper,
.cache = cache_ptr,
.lib = lib,
};
}