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| author | Julien Dessaux | 2023-12-18 07:26:01 +0100 |
|---|---|---|
| committer | Julien Dessaux | 2023-12-18 15:16:51 +0100 |
| commit | 83af8ab1249b98bb5cf691b88bfc947d1d688710 (patch) | |
| tree | aa6833315a336959fbca035b82106ce81d5e5add /src/field.zig | |
| parent | Updated README for last zig version (diff) | |
| download | zigfunge98-83af8ab1249b98bb5cf691b88bfc947d1d688710.tar.gz zigfunge98-83af8ab1249b98bb5cf691b88bfc947d1d688710.tar.bz2 zigfunge98-83af8ab1249b98bb5cf691b88bfc947d1d688710.zip | |
zig 0.11 changes
Diffstat (limited to 'src/field.zig')
| -rw-r--r-- | src/field.zig | 69 |
1 files changed, 40 insertions, 29 deletions
diff --git a/src/field.zig b/src/field.zig index ef5e6ea..bf170fb 100644 --- a/src/field.zig +++ b/src/field.zig @@ -5,17 +5,17 @@ const Line = struct { x: i64 = 0, data: std.ArrayList(i64), fn blank(l: *Line, x: i64) void { - const lx = @intCast(i64, l.len()); + const lx: i64 = @intCast(l.len()); if (x < l.x or x > l.x + lx - 1) { // outside the field return; } else if (x > l.x and x < l.x + lx - 1) { // just set the value - l.data.items[@intCast(usize, x - l.x)] = ' '; + l.data.items[@intCast(x - l.x)] = ' '; } else if (lx == 1) { // this was the last character on the line l.data.items.len = 0; } else if (x == l.x) { // we need to remove leading spaces var i: usize = 1; while (l.data.items[i] == ' ') : (i += 1) {} - l.x += @intCast(i64, i); + l.x += @intCast(i); std.mem.copy(i64, l.data.items[0 .. l.len() - i], l.data.items[i..]); l.data.items.len -= i; } else { // we need to remove trailing spaces @@ -66,7 +66,8 @@ const Line = struct { self.allocator.destroy(self); } fn get(l: *Line, x: i64) i64 { - if (x >= l.x and x < l.x + @intCast(i64, l.len())) return l.data.items[@intCast(usize, x - @intCast(i64, l.x))]; + const ll: i64 = @intCast(l.len()); + if (x >= l.x and x < l.x + ll) return l.data.items[@intCast(x - l.x)]; return ' '; } fn init(allocator: std.mem.Allocator) !*Line { @@ -84,10 +85,10 @@ const Line = struct { try l.data.append(v); return; } - const lx = @intCast(i64, l.len()); + const lx: i64 = @intCast(l.len()); if (x >= l.x) { if (x < l.x + lx) { // just set the value - l.data.items[@intCast(usize, x - l.x)] = v; + l.data.items[@intCast(x - l.x)] = v; } else { // we need to add trailing spaces var i: usize = l.len(); while (i < x - l.x) : (i += 1) { @@ -97,12 +98,12 @@ const Line = struct { } } else { // we need to shift right and add leading spaces const oldLen = l.len(); - l.data.items.len += @intCast(usize, l.x - x); + l.data.items.len += @intCast(l.x - x); try l.data.ensureUnusedCapacity(l.len()); - std.mem.copyBackwards(i64, l.data.items[@intCast(usize, l.x - x)..], l.data.items[0..oldLen]); + std.mem.copyBackwards(i64, l.data.items[@intCast(l.x - x)..], l.data.items[0..oldLen]); l.data.items[0] = v; var i: usize = 1; - while (i < @intCast(usize, l.x - x)) : (i += 1) { + while (i < l.x - x) : (i += 1) { l.data.items[i] = ' '; } l.x = x; @@ -150,10 +151,11 @@ pub const Field = struct { lines: std.ArrayList(*Line), lx: usize = 0, pub fn blank(f: *Field, x: i64, y: i64) !void { - const ly = @intCast(i64, f.lines.items.len); + const ly = f.lines.items.len; if (ly == 0) return error.EmptyFieldError; - if (y < f.y or y >= f.y + ly) return; // outside the field - var l = f.lines.items[@intCast(usize, y - f.y)]; + const lly: i64 = @intCast(ly); + if (y < f.y or y >= f.y + lly) return; // outside the field + var l = f.lines.items[@intCast(y - f.y)]; if (l.len() == 0) return; // the line is already empty l.blank(x); if (l.len() == 0) { @@ -165,27 +167,29 @@ pub const Field = struct { while (f.lines.items[i].len() == 0) : (i += 1) { f.lines.items[i].deinit(); } - f.y += @intCast(i64, i); + f.y += @intCast(i); std.mem.copy(*Line, f.lines.items[0 .. f.lines.items.len - i], f.lines.items[i..]); f.lines.items.len -= i; - } else if (y == f.y + ly - 1) { // we need to remove trailing lines + } else if (y == f.y + lly - 1) { // we need to remove trailing lines l.deinit(); - var i: usize = @intCast(usize, ly) - 2; + var i: usize = ly - 2; while (f.lines.items[i].len() == 0) : (i -= 1) { f.lines.items[i].deinit(); } f.lines.items.len = i + 1; } } - if (x == f.x or x == f.x + @intCast(i64, f.lx) - 1) { // recalculate boundaries + const flx: i64 = @intCast(f.lx); + if (x == f.x or x == f.x + flx - 1) { // recalculate boundaries f.x = std.math.maxInt(i64); var x2: i64 = std.math.minInt(i64); for (f.lines.items) |line| { if (line.len() == 0) continue; if (f.x > line.x) f.x = line.x; - if (x2 < line.x + @intCast(i64, line.len())) x2 = line.x + @intCast(i64, line.len()); + const ll: i64 = @intCast(line.len()); + if (x2 < line.x + ll) x2 = line.x + ll; } - f.lx = @intCast(usize, x2 - f.x); + f.lx = @intCast(x2 - f.x); } } test "blank" { @@ -241,11 +245,12 @@ pub const Field = struct { self.allocator.destroy(self); } pub fn get(f: *Field, x: i64, y: i64) i64 { - if (y >= f.y and y < f.y + @intCast(i64, f.lines.items.len)) return f.lines.items[@intCast(usize, y - @intCast(i64, f.y))].get(x); + const fl: i64 = @intCast(f.lines.items.len); + if (y >= f.y and y < f.y + fl) return f.lines.items[@intCast(y - f.y)].get(x); return ' '; } pub fn getSize(f: Field) [4]i64 { - return [4]i64{ f.x, f.y, @intCast(i64, f.lx), @intCast(i64, f.lines.items.len) }; + return [4]i64{ f.x, f.y, @intCast(f.lx), @intCast(f.lines.items.len) }; } fn init(allocator: std.mem.Allocator) !*Field { var f = try allocator.create(Field); @@ -266,7 +271,9 @@ pub const Field = struct { return f; } inline fn isIn(f: *Field, x: i64, y: i64) bool { - return x >= f.x and y >= f.y and x < f.x + @intCast(i64, f.lx) and y < f.y + @intCast(i64, f.lines.items.len); + const fl: i64 = @intCast(f.lines.items.len); + const flx: i64 = @intCast(f.lx); + return x >= f.x and y >= f.y and x < f.x + flx and y < f.y + fl; } fn load(f: *Field, reader: anytype) !void { if (f.lines.items.len > 1 or f.lx > 0) return error.FIELD_NOT_EMPTY; @@ -334,8 +341,9 @@ pub const Field = struct { pub fn set(f: *Field, x: i64, y: i64, v: i64) !void { if (v == ' ') return f.blank(x, y); if (y >= f.y) { - if (y < f.y + @intCast(i64, f.lines.items.len)) { // the line exists - try f.lines.items[@intCast(usize, y - f.y)].set(x, v); + const fl: i64 = @intCast(f.lines.items.len); + if (y < f.y + fl) { // the line exists + try f.lines.items[@intCast(y - f.y)].set(x, v); } else { // append lines var i: usize = f.lines.items.len; while (i < y - f.y) : (i += 1) { @@ -347,27 +355,30 @@ pub const Field = struct { } } else { // preprend lines const oldLen = f.lines.items.len; - f.lines.items.len += @intCast(usize, f.y - y); + const dl: usize = @intCast(f.y - y); + f.lines.items.len += dl; try f.lines.ensureUnusedCapacity(f.lines.items.len); - std.mem.copyBackwards(*Line, f.lines.items[@intCast(usize, f.y - y)..], f.lines.items[0..oldLen]); + std.mem.copyBackwards(*Line, f.lines.items[dl..], f.lines.items[0..oldLen]); var l = try Line.init(f.allocator); try l.set(x, v); f.lines.items[0] = l; var i: usize = 1; - while (i < @intCast(usize, f.y - y)) : (i += 1) { + while (i < f.y - y) : (i += 1) { f.lines.items[i] = try Line.init(f.allocator); } f.y = y; } - if (x < f.x or x >= f.x + @intCast(i64, f.lx)) { // recalculate boundaries + const flx: i64 = @intCast(f.lx); + if (x < f.x or x >= f.x + flx) { // recalculate boundaries f.x = std.math.maxInt(i64); var x2: i64 = std.math.minInt(i64); for (f.lines.items) |line| { if (line.len() == 0) continue; if (f.x > line.x) f.x = line.x; - if (x2 < line.x + @intCast(i64, line.len())) x2 = line.x + @intCast(i64, line.len()); + const ll: i64 = @intCast(line.len()); + if (x2 < line.x + ll) x2 = line.x + ll; } - f.lx = @intCast(usize, x2 - f.x); + f.lx = @intCast(x2 - f.x); } return; } |