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2 Commits
1f6b794ab6 ... 7b038dd2a5

Author SHA1 Message Date
adrien
7b038dd2a5 Added some explicit comptime to Quantity 2026-04-21 17:41:37 +02:00
adrien
998404d82a Switched EVERYTHING in Scales and Dimensions to comptime 2026-04-21 17:31:22 +02:00
4 changed files with 42 additions and 44 deletions
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16
src/Dimensions.zig
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@ -33,24 +33,24 @@ pub const Dimension = enum {
const Self = @This(); const Self = @This();
data: std.EnumArray(Dimension, i8), data: std.EnumArray(Dimension, comptime_int),
pub fn init(comptime init_val: anytype) Self { pub fn init(comptime init_val: anytype) Self {
var s = Self{ .data = std.EnumArray(Dimension, i8).initFill(0) }; var s = Self{ .data = std.EnumArray(Dimension, comptime_int).initFill(0) };
inline for (std.meta.fields(@TypeOf(init_val))) |f| inline for (std.meta.fields(@TypeOf(init_val))) |f|
s.data.set(@field(Dimension, f.name), @field(init_val, f.name)); s.data.set(@field(Dimension, f.name), @field(init_val, f.name));
return s; return s;
} }
pub fn initFill(val: i8) Self { pub fn initFill(comptime val: comptime_int) Self {
return .{ .data = std.EnumArray(Dimension, i8).initFill(val) }; return .{ .data = std.EnumArray(Dimension, comptime_int).initFill(val) };
} }
pub fn get(self: Self, key: Dimension) i8 { pub fn get(comptime self: Self, comptime key: Dimension) comptime_int {
return self.data.get(key); return self.data.get(key);
} }
pub fn set(self: *Self, key: Dimension, val: i8) void { pub fn set(comptime self: *Self, comptime key: Dimension, comptime val: i8) void {
self.data.set(key, val); self.data.set(key, val);
} }
@ -64,13 +64,13 @@ pub fn add(comptime a: Self, comptime b: Self) Self {
pub fn sub(comptime a: Self, comptime b: Self) Self { pub fn sub(comptime a: Self, comptime b: Self) Self {
@setEvalBranchQuota(10_000); @setEvalBranchQuota(10_000);
var result = Self.initFill(0); var result = Self.initFill(0);
for (std.enums.values(Dimension)) |d| inline for (std.enums.values(Dimension)) |d|
result.set(d, a.get(d) - b.get(d)); result.set(d, a.get(d) - b.get(d));
return result; return result;
} }
pub fn eql(comptime a: Self, comptime b: Self) bool { pub fn eql(comptime a: Self, comptime b: Self) bool {
for (std.enums.values(Dimension)) |d| inline for (std.enums.values(Dimension)) |d|
if (a.get(d) != b.get(d)) return false; if (a.get(d) != b.get(d)) return false;
return true; return true;
} }

31
src/Quantity.zig
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@ -7,7 +7,7 @@ const UnitScale = Scales.UnitScale;
const Dimensions = @import("Dimensions.zig"); const Dimensions = @import("Dimensions.zig");
const Dimension = Dimensions.Dimension; const Dimension = Dimensions.Dimension;
pub fn Quantity(T: type, d: Dimensions, s: Scales) type { pub fn Quantity(comptime T: type, comptime d: Dimensions, comptime s: Scales) type {
return struct { return struct {
value: T, value: T,
@ -84,13 +84,13 @@ pub fn Quantity(T: type, d: Dimensions, s: Scales) type {
// Fast-path: Native pure-integer exact conversions // Fast-path: Native pure-integer exact conversions
if (comptime @typeInfo(T) == .int and @typeInfo(DestT) == .int) { if (comptime @typeInfo(T) == .int and @typeInfo(DestT) == .int) {
if (ratio >= 1.0 and @round(ratio) == ratio) { if (comptime ratio >= 1.0 and @round(ratio) == ratio) {
const mult: DestT = @intFromFloat(ratio); const mult: DestT = comptime @intFromFloat(ratio);
return .{ .value = @as(DestT, @intCast(self.value)) * mult }; return .{ .value = @as(DestT, @intCast(self.value)) * mult };
} else if (ratio < 1.0 and @round(1.0 / ratio) == 1.0 / ratio) { } else if (comptime ratio < 1.0 and @round(1.0 / ratio) == 1.0 / ratio) {
const div: DestT = @intFromFloat(1.0 / ratio); const div: DestT = comptime @intFromFloat(1.0 / ratio);
const val = @as(DestT, @intCast(self.value)); const val = @as(DestT, @intCast(self.value));
const half = div / 2; const half = comptime div / 2;
// Native round-to-nearest // Native round-to-nearest
const rounded = if (val >= 0) @divTrunc(val + half, div) else @divTrunc(val - half, div); const rounded = if (val >= 0) @divTrunc(val + half, div) else @divTrunc(val - half, div);
return .{ .value = rounded }; return .{ .value = rounded };
@ -100,21 +100,22 @@ pub fn Quantity(T: type, d: Dimensions, s: Scales) type {
// Fallback preserving native Float types (e.g., f128 shouldn't downcast to f64) // Fallback preserving native Float types (e.g., f128 shouldn't downcast to f64)
if (comptime @typeInfo(DestT) == .float) { if (comptime @typeInfo(DestT) == .float) {
const val_f = switch (@typeInfo(T)) { const val_f = switch (@typeInfo(T)) {
.int => @as(DestT, @floatFromInt(self.value)), inline .int => @as(DestT, @floatFromInt(self.value)),
.float => @as(DestT, @floatCast(self.value)), inline .float => @as(DestT, @floatCast(self.value)),
else => unreachable, else => unreachable,
}; };
return .{ .value = val_f * @as(DestT, @floatCast(ratio)) }; return .{ .value = val_f * @as(DestT, @floatCast(ratio)) };
} else { } else {
const val_f = switch (@typeInfo(T)) { const val_f = switch (@typeInfo(T)) {
.int => @as(f64, @floatFromInt(self.value)), inline .int => @as(f64, @floatFromInt(self.value)),
.float => @as(f64, @floatCast(self.value)), inline .float => @as(f64, @floatCast(self.value)),
else => unreachable, else => unreachable,
}; };
return .{ .value = @intFromFloat(@round(val_f * ratio)) }; return .{ .value = @intFromFloat(@round(val_f * ratio)) };
} }
} }
pub fn Vec(self: Self, comptime len: usize) QuantityVec(len, Self) {
pub fn Vec(self: Self, comptime len: comptime_int) QuantityVec(len, Self) {
return QuantityVec(len, Self).initDefault(self.value); return QuantityVec(len, Self).initDefault(self.value);
} }
@ -127,11 +128,10 @@ pub fn Quantity(T: type, d: Dimensions, s: Scales) type {
writer: *std.Io.Writer, writer: *std.Io.Writer,
) !void { ) !void {
try writer.print("{d}", .{self.value}); try writer.print("{d}", .{self.value});
var iter = std.EnumSet(Dimension).initFull().iterator();
var first = true; var first = true;
while (iter.next()) |bu| { inline for (std.enums.values(Dimension)) |bu| {
const v = dims.get(bu); const v = dims.get(bu);
if (v == 0) continue; if (comptime v == 0) continue;
if (!first) if (!first)
try writer.writeAll("."); try writer.writeAll(".");
@ -592,8 +592,7 @@ test "Overhead Analysis: Quantity vs Native" {
a + b a + b
else if (comptime std.mem.eql(u8, op_name, "mulBy")) else if (comptime std.mem.eql(u8, op_name, "mulBy"))
a * b a * b
else else if (comptime @typeInfo(T) == .int) @divTrunc(a, b) else a / b;
if (comptime @typeInfo(T) == .int) @divTrunc(a, b) else a / b;
if (comptime @typeInfo(T) == .float) n_sink += r else n_sink ^= r; if (comptime @typeInfo(T) == .float) n_sink += r else n_sink ^= r;
} }

3
src/QuantityVec.zig
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@ -154,9 +154,8 @@ pub fn QuantityVec(comptime len: usize, comptime Q: type) type {
try writer.print("{d:.2}", .{v}); try writer.print("{d:.2}", .{v});
} }
try writer.writeAll(")"); try writer.writeAll(")");
var iter = std.EnumSet(Dimension).initFull().iterator();
var first = true; var first = true;
while (iter.next()) |bu| { inline for (std.enums.values(Dimension)) |bu| {
const v = dims.get(bu); const v = dims.get(bu);
if (v == 0) continue; if (v == 0) continue;
if (!first) try writer.writeAll("."); if (!first) try writer.writeAll(".");

30
src/Scales.zig
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@ -31,9 +31,9 @@ pub const UnitScale = enum(i32) {
pub fn str(self: @This()) []const u8 { pub fn str(self: @This()) []const u8 {
var buf: [16]u8 = undefined; var buf: [16]u8 = undefined;
return switch (self) { return switch (self) {
.none => "", inline .none => "",
inline .P, .T, .G, .M, .k, .h, .da, .d, .c, .m, .u, .n, .p, .f, .min, .hour, .year => @tagName(self), inline .P, .T, .G, .M, .k, .h, .da, .d, .c, .m, .u, .n, .p, .f, .min, .hour, .year => @tagName(self),
else => std.fmt.bufPrint(&buf, "[{d}]", .{@intFromEnum(self)}) catch "[]", else => std.fmt.bufPrint(&buf, "[{d}]", .{@intFromEnum(self)}) catch "[]", // This cannot be inline because of non exhaustive enum, but that's ok, it is just str, not calculation
}; };
} }
@ -41,7 +41,7 @@ pub const UnitScale = enum(i32) {
pub fn getFactor(self: @This()) f64 { pub fn getFactor(self: @This()) f64 {
return switch (self) { return switch (self) {
inline .P, .T, .G, .M, .k, .h, .da, .none, .d, .c, .m, .u, .n, .p, .f => std.math.pow(f64, 10.0, @floatFromInt(@intFromEnum(self))), inline .P, .T, .G, .M, .k, .h, .da, .none, .d, .c, .m, .u, .n, .p, .f => std.math.pow(f64, 10.0, @floatFromInt(@intFromEnum(self))),
else => @floatFromInt(@intFromEnum(self)), inline else => @floatFromInt(@intFromEnum(self)),
}; };
} }
@ -49,7 +49,7 @@ pub const UnitScale = enum(i32) {
pub fn getFactorInt(self: @This()) i32 { pub fn getFactorInt(self: @This()) i32 {
return switch (self) { return switch (self) {
inline .P, .T, .G, .M, .k, .h, .da, .none, .d, .c, .m, .u, .n, .p, .f => std.math.powi(i32, 10.0, @intFromEnum(self)) catch 0, inline .P, .T, .G, .M, .k, .h, .da, .none, .d, .c, .m, .u, .n, .p, .f => std.math.powi(i32, 10.0, @intFromEnum(self)) catch 0,
else => @intFromEnum(self), inline else => @intFromEnum(self),
}; };
} }
}; };
@ -59,7 +59,7 @@ const Scales = @This();
data: std.EnumArray(Dimension, UnitScale), data: std.EnumArray(Dimension, UnitScale),
pub fn init(comptime init_val: anytype) Scales { pub fn init(comptime init_val: anytype) Scales {
var s = Scales{ .data = std.EnumArray(Dimension, UnitScale).initFill(.none) }; comptime var s = Scales{ .data = std.EnumArray(Dimension, UnitScale).initFill(.none) };
inline for (std.meta.fields(@TypeOf(init_val))) |f| { inline for (std.meta.fields(@TypeOf(init_val))) |f| {
if (comptime hlp.isInt(@TypeOf(@field(init_val, f.name)))) if (comptime hlp.isInt(@TypeOf(@field(init_val, f.name))))
s.data.set(@field(Dimension, f.name), @enumFromInt(@field(init_val, f.name))) s.data.set(@field(Dimension, f.name), @enumFromInt(@field(init_val, f.name)))
@ -69,30 +69,30 @@ pub fn init(comptime init_val: anytype) Scales {
return s; return s;
} }
pub fn initFill(val: UnitScale) Scales { pub fn initFill(comptime val: UnitScale) Scales {
return .{ .data = std.EnumArray(Dimension, UnitScale).initFill(val) }; return comptime .{ .data = std.EnumArray(Dimension, UnitScale).initFill(val) };
} }
pub fn get(self: Scales, key: Dimension) UnitScale { pub fn get(comptime self: Scales, comptime key: Dimension) UnitScale {
return self.data.get(key); return comptime self.data.get(key);
} }
pub fn set(self: *Scales, key: Dimension, val: UnitScale) void { pub fn set(comptime self: *Scales, comptime key: Dimension, comptime val: UnitScale) void {
self.data.set(key, val); comptime self.data.set(key, val);
} }
pub fn min(comptime s1: Scales, comptime s2: Scales) Scales { pub fn min(comptime s1: Scales, comptime s2: Scales) Scales {
@setEvalBranchQuota(10_000); @setEvalBranchQuota(10_000);
var out = Scales.initFill(.none); comptime var out = Scales.initFill(.none);
for (std.enums.values(Dimension)) |dim| inline for (std.enums.values(Dimension)) |dim|
out.set(dim, if (s1.get(dim).getFactorInt() > s2.get(dim).getFactorInt()) s2.get(dim) else s1.get(dim)); out.set(dim, if (s1.get(dim).getFactorInt() > s2.get(dim).getFactorInt()) s2.get(dim) else s1.get(dim));
return out; return out;
} }
pub fn getFactor(comptime s: Scales, comptime d: Dimensions) f64 { pub fn getFactor(comptime s: Scales, comptime d: Dimensions) f64 {
var factor: f64 = 1.0; comptime var factor: f64 = 1.0;
for (std.enums.values(Dimension)) |dim| { inline for (std.enums.values(Dimension)) |dim| {
const power = d.get(dim); const power = d.get(dim);
if (power == 0) continue; if (power == 0) continue;