finish and test peer type resolution among integers and floats

This commit is contained in:
Techatrix 2023-01-04 06:07:39 +01:00
parent d56a274c16
commit 475da58895

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@ -6,6 +6,7 @@ extra: std.ArrayListUnmanaged(u8) = .{},
const InternPool = @This(); const InternPool = @This();
const std = @import("std"); const std = @import("std");
const builtin = @import("builtin");
const Allocator = std.mem.Allocator; const Allocator = std.mem.Allocator;
const assert = std.debug.assert; const assert = std.debug.assert;
@ -1163,14 +1164,14 @@ pub fn resolvePeerTypes(ip: *InternPool, gpa: Allocator, types: []const Index, t
switch (candidate_key) { switch (candidate_key) {
.simple => |candidate_simple| switch (candidate_simple) { .simple => |candidate_simple| switch (candidate_simple) {
// TODO usize, isize
// TODO c integer types
.f16, .f32, .f64, .f80, .f128 => switch (chosen_key) { .f16, .f32, .f64, .f80, .f128 => switch (chosen_key) {
.simple => |chosen_simple| switch (chosen_simple) { .simple => |chosen_simple| switch (chosen_simple) {
.f16, .f32, .f64, .f80, .f128 => { .f16, .f32, .f64, .f80, .f128 => {
// NOTE we don't have to handle the equality case if (chosen_key.floatBits(target) < candidate_key.floatBits(target)) {
chosen = candidate;
@panic("TODO: choose larger"); chosen_i = candidate_i + 1;
continue;
}
}, },
.comptime_int, .comptime_float => { .comptime_int, .comptime_float => {
chosen = candidate; chosen = candidate;
@ -1182,6 +1183,56 @@ pub fn resolvePeerTypes(ip: *InternPool, gpa: Allocator, types: []const Index, t
else => {}, else => {},
}, },
.usize,
.isize,
.c_short,
.c_ushort,
.c_int,
.c_uint,
.c_long,
.c_ulong,
.c_longlong,
.c_ulonglong,
.c_longdouble, => switch (chosen_key) {
.simple => |chosen_simple| switch (chosen_simple) {
.usize,
.isize,
.c_short,
.c_ushort,
.c_int,
.c_uint,
.c_long,
.c_ulong,
.c_longlong,
.c_ulonglong,
.c_longdouble, => {
const chosen_bits = chosen_key.intInfo(target, ip).bits;
const candidate_bits = candidate_key.intInfo(target, ip).bits;
if(chosen_bits < candidate_bits) {
chosen = candidate;
chosen_i = candidate_i + 1;
}
continue;
},
.comptime_int => {
chosen = candidate;
chosen_i = candidate_i + 1;
continue;
},
else => {},
},
.int_type => |chosen_info| {
if (chosen_info.bits < candidate_key.intInfo(target, ip).bits) {
chosen = candidate;
chosen_i = candidate_i + 1;
}
continue;
},
.pointer_type => |chosen_info| if (chosen_info.size == .C) continue,
else => {},
},
.noreturn, .undefined_type => continue, .noreturn, .undefined_type => continue,
.comptime_int => switch (chosen_key) { .comptime_int => switch (chosen_key) {
@ -1191,10 +1242,19 @@ pub fn resolvePeerTypes(ip: *InternPool, gpa: Allocator, types: []const Index, t
.f64, .f64,
.f80, .f80,
.f128, .f128,
=> continue, .usize,
.usize, .isize => continue, .isize,
.c_short,
.c_ushort,
.c_int,
.c_uint,
.c_long,
.c_ulong,
.c_longlong,
.c_ulonglong,
.c_longdouble,
.comptime_float, => continue,
.comptime_int => unreachable, .comptime_int => unreachable,
.comptime_float => continue,
else => {}, else => {},
}, },
.int_type => continue, .int_type => continue,
@ -1209,6 +1269,7 @@ pub fn resolvePeerTypes(ip: *InternPool, gpa: Allocator, types: []const Index, t
chosen_i = candidate_i + 1; chosen_i = candidate_i + 1;
continue; continue;
}, },
.comptime_float => unreachable,
else => {}, else => {},
}, },
else => {}, else => {},
@ -1221,10 +1282,26 @@ pub fn resolvePeerTypes(ip: *InternPool, gpa: Allocator, types: []const Index, t
}, },
.int_type => |candidate_info| switch (chosen_key) { .int_type => |candidate_info| switch (chosen_key) {
.simple => |chosen_simple| switch (chosen_simple) { .simple => |chosen_simple| switch (chosen_simple) {
.usize, .isize => { .usize,
// TODO .isize,
.c_short,
.c_ushort,
.c_int,
.c_uint,
.c_long,
.c_ulong,
.c_longlong,
.c_ulonglong,
.c_longdouble, => {
const chosen_bits = chosen_key.intInfo(target, ip).bits;
const candidate_bits = candidate_key.intInfo(target, ip).bits;
if(chosen_bits < candidate_bits) {
chosen = candidate;
chosen_i = candidate_i + 1;
}
continue;
}, },
// TODO c integer types
.comptime_int => { .comptime_int => {
chosen = candidate; chosen = candidate;
chosen_i = candidate_i + 1; chosen_i = candidate_i + 1;
@ -1458,9 +1535,11 @@ pub fn resolvePeerTypes(ip: *InternPool, gpa: Allocator, types: []const Index, t
}, },
else => {}, else => {},
} }
return Index.none;
} }
@panic("TODO"); return chosen;
} }
const InMemoryCoercionResult = union(enum) { const InMemoryCoercionResult = union(enum) {
@ -2203,3 +2282,134 @@ test "array type" {
try testExpectFmtType(&ip, i32_3_array_type_0, "[3]i32"); try testExpectFmtType(&ip, i32_3_array_type_0, "[3]i32");
try testExpectFmtType(&ip, u32_0_0_array_type, "[3:0]u32"); try testExpectFmtType(&ip, u32_0_0_array_type, "[3:0]u32");
} }
test "resolvePeerTypes" {
const gpa = std.testing.allocator;
var ip: InternPool = .{};
defer ip.deinit(gpa);
const bool_type = try ip.get(gpa, .{ .simple = .bool });
const type_type = try ip.get(gpa, .{ .simple = .type });
const noreturn_type = try ip.get(gpa, .{ .simple = .noreturn });
const undefined_type = try ip.get(gpa, .{ .simple = .undefined_type });
try ip.testResolvePeerTypes(Index.none, Index.none, Index.none);
try ip.testResolvePeerTypes(bool_type, bool_type, bool_type);
try ip.testResolvePeerTypes(bool_type, noreturn_type, bool_type);
try ip.testResolvePeerTypes(bool_type, undefined_type, bool_type);
try ip.testResolvePeerTypes(type_type, noreturn_type, type_type);
try ip.testResolvePeerTypes(type_type, undefined_type, type_type);
}
test "resolvePeerTypes integers and floats" {
const gpa = std.testing.allocator;
var ip: InternPool = .{};
defer ip.deinit(gpa);
const i16_type = try ip.get(gpa, .{ .int_type = .{ .signedness = .signed, .bits = 16 } });
const i32_type = try ip.get(gpa, .{ .int_type = .{ .signedness = .signed, .bits = 32 } });
const i64_type = try ip.get(gpa, .{ .int_type = .{ .signedness = .signed, .bits = 64 } });
const u16_type = try ip.get(gpa, .{ .int_type = .{ .signedness = .unsigned, .bits = 16 } });
const u32_type = try ip.get(gpa, .{ .int_type = .{ .signedness = .unsigned, .bits = 32 } });
const u64_type = try ip.get(gpa, .{ .int_type = .{ .signedness = .unsigned, .bits = 64 } });
const usize_type = try ip.get(gpa, .{ .simple = .usize });
const isize_type = try ip.get(gpa, .{ .simple = .isize });
const c_short_type = try ip.get(gpa, .{ .simple = .c_short });
const c_int_type = try ip.get(gpa, .{ .simple = .c_int });
const c_long_type = try ip.get(gpa, .{ .simple = .c_long });
const comptime_int_type = try ip.get(gpa, .{ .simple = .comptime_int });
const comptime_float_type = try ip.get(gpa, .{ .simple = .comptime_float });
const f16_type = try ip.get(gpa, .{ .simple = .f16 });
const f32_type = try ip.get(gpa, .{ .simple = .f32 });
const f64_type = try ip.get(gpa, .{ .simple = .f64 });
const bool_type = try ip.get(gpa, .{ .simple = .bool });
try ip.testResolvePeerTypes(i16_type, i16_type, i16_type);
try ip.testResolvePeerTypes(i16_type, i32_type, i32_type);
try ip.testResolvePeerTypes(i32_type, i64_type, i64_type);
try ip.testResolvePeerTypes(u16_type, u16_type, u16_type);
try ip.testResolvePeerTypes(u16_type, u32_type, u32_type);
try ip.testResolvePeerTypes(u32_type, u64_type, u64_type);
try ip.testResolvePeerTypesInOrder(i16_type, u16_type, i16_type);
try ip.testResolvePeerTypesInOrder(u16_type, i16_type, u16_type);
try ip.testResolvePeerTypesInOrder(i32_type, u32_type, i32_type);
try ip.testResolvePeerTypesInOrder(u32_type, i32_type, u32_type);
try ip.testResolvePeerTypesInOrder(isize_type, usize_type, isize_type);
try ip.testResolvePeerTypesInOrder(usize_type, isize_type, usize_type);
try ip.testResolvePeerTypes(i16_type, u32_type, u32_type);
try ip.testResolvePeerTypes(u16_type, i32_type, i32_type);
try ip.testResolvePeerTypes(i32_type, u64_type, u64_type);
try ip.testResolvePeerTypes(u32_type, i64_type, i64_type);
try ip.testResolvePeerTypes(i16_type, usize_type, usize_type);
try ip.testResolvePeerTypes(i16_type, isize_type, isize_type);
try ip.testResolvePeerTypes(u16_type, usize_type, usize_type);
try ip.testResolvePeerTypes(u16_type, isize_type, isize_type);
try ip.testResolvePeerTypes(i16_type, c_long_type, c_long_type);
try ip.testResolvePeerTypes(i16_type, c_long_type, c_long_type);
try ip.testResolvePeerTypes(u16_type, c_long_type, c_long_type);
try ip.testResolvePeerTypes(u16_type, c_long_type, c_long_type);
try ip.testResolvePeerTypes(comptime_int_type, i16_type, i16_type);
try ip.testResolvePeerTypes(comptime_int_type, u64_type, u64_type);
try ip.testResolvePeerTypes(comptime_int_type, isize_type, isize_type);
try ip.testResolvePeerTypes(comptime_int_type, usize_type, usize_type);
try ip.testResolvePeerTypes(comptime_int_type, c_short_type, c_short_type);
try ip.testResolvePeerTypes(comptime_int_type, c_int_type, c_int_type);
try ip.testResolvePeerTypes(comptime_int_type, c_long_type, c_long_type);
try ip.testResolvePeerTypes(comptime_float_type, i16_type, Index.none);
try ip.testResolvePeerTypes(comptime_float_type, u64_type, Index.none);
try ip.testResolvePeerTypes(comptime_float_type, isize_type, Index.none);
try ip.testResolvePeerTypes(comptime_float_type, usize_type, Index.none);
try ip.testResolvePeerTypes(comptime_float_type, c_short_type, Index.none);
try ip.testResolvePeerTypes(comptime_float_type, c_int_type, Index.none);
try ip.testResolvePeerTypes(comptime_float_type, c_long_type, Index.none);
try ip.testResolvePeerTypes(comptime_float_type, comptime_int_type, comptime_float_type);
try ip.testResolvePeerTypes(comptime_int_type, f16_type, f16_type);
try ip.testResolvePeerTypes(comptime_int_type, f32_type, f32_type);
try ip.testResolvePeerTypes(comptime_int_type, f64_type, f64_type);
try ip.testResolvePeerTypes(comptime_float_type, f16_type, f16_type);
try ip.testResolvePeerTypes(comptime_float_type, f32_type, f32_type);
try ip.testResolvePeerTypes(comptime_float_type, f64_type, f64_type);
try ip.testResolvePeerTypes(f16_type, i16_type, Index.none);
try ip.testResolvePeerTypes(f32_type, u64_type, Index.none);
try ip.testResolvePeerTypes(f64_type, isize_type, Index.none);
try ip.testResolvePeerTypes(f16_type, usize_type, Index.none);
try ip.testResolvePeerTypes(f32_type, c_short_type, Index.none);
try ip.testResolvePeerTypes(f64_type, c_int_type, Index.none);
try ip.testResolvePeerTypes(f64_type, c_long_type, Index.none);
try ip.testResolvePeerTypes(bool_type, i16_type, Index.none);
try ip.testResolvePeerTypes(bool_type, u64_type, Index.none);
try ip.testResolvePeerTypes(bool_type, usize_type, Index.none);
try ip.testResolvePeerTypes(bool_type, c_int_type, Index.none);
try ip.testResolvePeerTypes(bool_type, comptime_int_type, Index.none);
try ip.testResolvePeerTypes(bool_type, comptime_float_type, Index.none);
try ip.testResolvePeerTypes(bool_type, f32_type, Index.none);
}
fn testResolvePeerTypes(ip: *InternPool, a: Index, b: Index, expected: Index) !void {
try ip.testResolvePeerTypesInOrder(a, b, expected);
try ip.testResolvePeerTypesInOrder(b, a, expected);
}
fn testResolvePeerTypesInOrder(ip: *InternPool, lhs: Index, rhs: Index, expected: Index) !void {
const actual = try resolvePeerTypes(ip, std.testing.allocator, &.{lhs, rhs}, builtin.target);
try std.testing.expectEqual(expected, actual);
}