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spirv: implement @divFloor, @floor and @mod

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This commit is contained in:
Ali Chraghi 2024-02-18 13:39:32 +03:30
parent 23f729aec9
commit 0f75143c62
5 changed files with 132 additions and 25 deletions
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148
src/codegen/spirv.zig
View File

@ -2317,6 +2317,9 @@ const DeclGen = struct {
.mul, .mul_wrap, .mul_optimized => try self.airArithOp(inst, .OpFMul, .OpIMul, .OpIMul),
.abs => try self.airAbs(inst),
.floor => try self.airFloor(inst),
.div_floor => try self.airDivFloor(inst),
.div_float,
.div_float_optimized,
@ -2328,6 +2331,11 @@ const DeclGen = struct {
.rem,
.rem_optimized,
=> try self.airArithOp(inst, .OpFRem, .OpSRem, .OpSRem),
// TODO: Check if this is the right operation
.mod,
.mod_optimized,
=> try self.airArithOp(inst, .OpFMod, .OpSMod, .OpSMod),
.add_with_overflow => try self.airAddSubOverflow(inst, .OpIAdd, .OpULessThan, .OpSLessThan),
.sub_with_overflow => try self.airAddSubOverflow(inst, .OpISub, .OpUGreaterThan, .OpSGreaterThan),
@ -2661,6 +2669,95 @@ const DeclGen = struct {
}
}
fn airDivFloor(self: *DeclGen, inst: Air.Inst.Index) !?IdRef {
const bin_op = self.air.instructions.items(.data)[@intFromEnum(inst)].bin_op;
const lhs_id = try self.resolve(bin_op.lhs);
const rhs_id = try self.resolve(bin_op.rhs);
const ty = self.typeOfIndex(inst);
const ty_ref = try self.resolveType(ty, .direct);
const info = self.arithmeticTypeInfo(ty);
switch (info.class) {
.composite_integer => unreachable, // TODO
.integer, .strange_integer => {
const zero_id = try self.constInt(ty_ref, 0);
const one_id = try self.constInt(ty_ref, 1);
// (a ^ b) > 0
const bin_bitwise_id = try self.binOpSimple(ty, lhs_id, rhs_id, .OpBitwiseXor);
const is_positive_id = try self.cmp(.gt, Type.bool, ty, bin_bitwise_id, zero_id);
// a / b
const positive_div_id = try self.arithOp(ty, lhs_id, rhs_id, .OpFDiv, .OpSDiv, .OpUDiv);
// - (abs(a) + abs(b) - 1) / abs(b)
const lhs_abs = try self.abs(ty, ty, lhs_id);
const rhs_abs = try self.abs(ty, ty, rhs_id);
const negative_div_lhs = try self.arithOp(
ty,
try self.arithOp(ty, lhs_abs, rhs_abs, .OpFAdd, .OpIAdd, .OpIAdd),
one_id,
.OpFSub,
.OpISub,
.OpISub,
);
const negative_div_id = try self.arithOp(ty, negative_div_lhs, rhs_abs, .OpFDiv, .OpSDiv, .OpUDiv);
const negated_negative_div_id = self.spv.allocId();
try self.func.body.emit(self.spv.gpa, .OpSNegate, .{
.id_result_type = self.typeId(ty_ref),
.id_result = negated_negative_div_id,
.operand = negative_div_id,
});
const result_id = self.spv.allocId();
try self.func.body.emit(self.spv.gpa, .OpSelect, .{
.id_result_type = self.typeId(ty_ref),
.id_result = result_id,
.condition = is_positive_id,
.object_1 = positive_div_id,
.object_2 = negated_negative_div_id,
});
return result_id;
},
.float => {
const div_id = try self.arithOp(ty, lhs_id, rhs_id, .OpFDiv, .OpSDiv, .OpUDiv);
return try self.floor(ty, div_id);
},
.bool => unreachable,
}
}
fn airFloor(self: *DeclGen, inst: Air.Inst.Index) !?IdRef {
const un_op = self.air.instructions.items(.data)[@intFromEnum(inst)].un_op;
const operand_id = try self.resolve(un_op);
const result_ty = self.typeOfIndex(inst);
return try self.floor(result_ty, operand_id);
}
fn floor(self: *DeclGen, ty: Type, operand_id: IdRef) !IdRef {
const target = self.getTarget();
const ty_ref = try self.resolveType(ty, .direct);
const ext_inst: Word = switch (target.os.tag) {
.opencl => 25,
.vulkan => 8,
else => unreachable,
};
const set_id = switch (target.os.tag) {
.opencl => try self.spv.importInstructionSet(.opencl),
.vulkan => try self.spv.importInstructionSet(.glsl),
else => unreachable,
};
const result_id = self.spv.allocId();
try self.func.body.emit(self.spv.gpa, .OpExtInst, .{
.id_result_type = self.typeId(ty_ref),
.id_result = result_id,
.set = set_id,
.instruction = .{ .inst = ext_inst },
.id_ref_4 = &.{operand_id},
});
return result_id;
}
fn airArithOp(
self: *DeclGen,
inst: Air.Inst.Index,
@ -2668,7 +2765,6 @@ const DeclGen = struct {
comptime sop: Opcode,
comptime uop: Opcode,
) !?IdRef {
// LHS and RHS are guaranteed to have the same type, and AIR guarantees
// the result to be the same as the LHS and RHS, which matches SPIR-V.
const ty = self.typeOfIndex(inst);
@ -2737,12 +2833,16 @@ const DeclGen = struct {
}
fn airAbs(self: *DeclGen, inst: Air.Inst.Index) !?IdRef {
const target = self.getTarget();
const ty_op = self.air.instructions.items(.data)[@intFromEnum(inst)].ty_op;
const operand_id = try self.resolve(ty_op.operand);
// Note: operand_ty may be signed, while ty is always unsigned!
const operand_ty = self.typeOf(ty_op.operand);
const result_ty = self.typeOfIndex(inst);
return try self.abs(result_ty, operand_ty, operand_id);
}
fn abs(self: *DeclGen, result_ty: Type, operand_ty: Type, operand_id: IdRef) !IdRef {
const target = self.getTarget();
const operand_info = self.arithmeticTypeInfo(operand_ty);
var wip = try self.elementWise(result_ty, false);
@ -3692,19 +3792,22 @@ const DeclGen = struct {
const ty_op = self.air.instructions.items(.data)[@intFromEnum(inst)].ty_op;
const operand_ty = self.typeOf(ty_op.operand);
const operand_id = try self.resolve(ty_op.operand);
const operand_info = self.arithmeticTypeInfo(operand_ty);
const dest_ty = self.typeOfIndex(inst);
const dest_ty_id = try self.resolveTypeId(dest_ty);
const result_ty = self.typeOfIndex(inst);
const result_ty_ref = try self.resolveType(result_ty, .direct);
return try self.floatFromInt(result_ty_ref, operand_ty, operand_id);
}
fn floatFromInt(self: *DeclGen, result_ty_ref: CacheRef, operand_ty: Type, operand_id: IdRef) !IdRef {
const operand_info = self.arithmeticTypeInfo(operand_ty);
const result_id = self.spv.allocId();
switch (operand_info.signedness) {
.signed => try self.func.body.emit(self.spv.gpa, .OpConvertSToF, .{
.id_result_type = dest_ty_id,
.id_result_type = self.typeId(result_ty_ref),
.id_result = result_id,
.signed_value = operand_id,
}),
.unsigned => try self.func.body.emit(self.spv.gpa, .OpConvertUToF, .{
.id_result_type = dest_ty_id,
.id_result_type = self.typeId(result_ty_ref),
.id_result = result_id,
.unsigned_value = operand_id,
}),
@ -3715,19 +3818,22 @@ const DeclGen = struct {
fn airIntFromFloat(self: *DeclGen, inst: Air.Inst.Index) !?IdRef {
const ty_op = self.air.instructions.items(.data)[@intFromEnum(inst)].ty_op;
const operand_id = try self.resolve(ty_op.operand);
const dest_ty = self.typeOfIndex(inst);
const dest_info = self.arithmeticTypeInfo(dest_ty);
const dest_ty_id = try self.resolveTypeId(dest_ty);
const result_ty = self.typeOfIndex(inst);
return try self.intFromFloat(result_ty, operand_id);
}
fn intFromFloat(self: *DeclGen, result_ty: Type, operand_id: IdRef) !IdRef {
const result_info = self.arithmeticTypeInfo(result_ty);
const result_ty_ref = try self.resolveType(result_ty, .direct);
const result_id = self.spv.allocId();
switch (dest_info.signedness) {
switch (result_info.signedness) {
.signed => try self.func.body.emit(self.spv.gpa, .OpConvertFToS, .{
.id_result_type = dest_ty_id,
.id_result_type = self.typeId(result_ty_ref),
.id_result = result_id,
.float_value = operand_id,
}),
.unsigned => try self.func.body.emit(self.spv.gpa, .OpConvertFToU, .{
.id_result_type = dest_ty_id,
.id_result_type = self.typeId(result_ty_ref),
.id_result = result_id,
.float_value = operand_id,
}),
@ -5237,14 +5343,15 @@ const DeclGen = struct {
fn airSwitchBr(self: *DeclGen, inst: Air.Inst.Index) !void {
const mod = self.module;
const target = self.getTarget();
const pl_op = self.air.instructions.items(.data)[@intFromEnum(inst)].pl_op;
const cond_ty = self.typeOf(pl_op.operand);
const cond = try self.resolve(pl_op.operand);
const cond_indirect = try self.convertToIndirect(cond_ty, cond);
var cond_indirect = try self.convertToIndirect(cond_ty, cond);
const switch_br = self.air.extraData(Air.SwitchBr, pl_op.payload);
const cond_words: u32 = switch (cond_ty.zigTypeTag(mod)) {
.Bool => 1,
.Bool, .ErrorSet => 1,
.Int => blk: {
const bits = cond_ty.intInfo(mod).bits;
const backing_bits = self.backingIntBits(bits) orelse {
@ -5260,8 +5367,12 @@ const DeclGen = struct {
};
break :blk if (backing_bits <= 32) @as(u32, 1) else 2;
},
.ErrorSet => 1,
else => return self.todo("implement switch for type {s}", .{@tagName(cond_ty.zigTypeTag(mod))}), // TODO: Figure out which types apply here, and work around them as we can only do integers.
.Pointer => blk: {
cond_indirect = try self.intFromPtr(cond_indirect);
break :blk target.ptrBitWidth() / 32;
},
// TODO: Figure out which types apply here, and work around them as we can only do integers.
else => return self.todo("implement switch for type {s}", .{@tagName(cond_ty.zigTypeTag(mod))}),
};
const num_cases = switch_br.data.cases_len;
@ -5316,13 +5427,14 @@ const DeclGen = struct {
for (items) |item| {
const value = (try self.air.value(item, mod)) orelse unreachable;
const int_val = switch (cond_ty.zigTypeTag(mod)) {
const int_val: u64 = switch (cond_ty.zigTypeTag(mod)) {
.Bool, .Int => if (cond_ty.isSignedInt(mod)) @as(u64, @bitCast(value.toSignedInt(mod))) else value.toUnsignedInt(mod),
.Enum => blk: {
// TODO: figure out of cond_ty is correct (something with enum literals)
break :blk (try value.intFromEnum(cond_ty, mod)).toUnsignedInt(mod); // TODO: composite integer constants
},
.ErrorSet => value.getErrorInt(mod),
.Pointer => value.toUnsignedInt(mod),
else => unreachable,
};
const int_lit: spec.LiteralContextDependentNumber = switch (cond_words) {

4
src/codegen/spirv/Module.zig
View File

@ -429,8 +429,8 @@ pub fn constInt(self: *Module, ty_ref: CacheRef, value: anytype) !IdRef {
return try self.resolveId(.{ .int = .{
.ty = ty_ref,
.value = switch (ty.signedness) {
.signed => Value{ .int64 = @as(i64, @intCast(value)) },
.unsigned => Value{ .uint64 = @as(u64, @intCast(value)) },
.signed => Value{ .int64 = @intCast(value) },
.unsigned => Value{ .uint64 = @intCast(value) },
},
} });
}

3
test/behavior/floatop.zig
View File

@ -1089,7 +1089,6 @@ test "@floor f16" {
if (builtin.zig_backend == .stage2_arm) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_sparc64) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_x86_64 and builtin.target.ofmt != .elf and builtin.target.ofmt != .macho) return error.SkipZigTest;
if (builtin.zig_backend == .stage2_spirv64) return error.SkipZigTest;
try testFloor(f16);
try comptime testFloor(f16);
@ -1100,7 +1099,6 @@ test "@floor f32/f64" {
if (builtin.zig_backend == .stage2_arm) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_sparc64) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_x86_64 and builtin.target.ofmt != .elf and builtin.target.ofmt != .macho) return error.SkipZigTest;
if (builtin.zig_backend == .stage2_spirv64) return error.SkipZigTest;
try testFloor(f32);
try comptime testFloor(f32);
@ -1162,7 +1160,6 @@ fn testFloor(comptime T: type) !void {
test "@floor with vectors" {
if (builtin.zig_backend == .stage2_aarch64) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_arm) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_spirv64) return error.SkipZigTest;
if (builtin.zig_backend == .stage2_wasm) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_x86_64 and
!comptime std.Target.x86.featureSetHas(builtin.cpu.features, .sse4_1)) return error.SkipZigTest;

1
test/behavior/int_div.zig
View File

@ -6,7 +6,6 @@ test "integer division" {
if (builtin.zig_backend == .stage2_aarch64) return error.SkipZigTest;
if (builtin.zig_backend == .stage2_arm) return error.SkipZigTest;
if (builtin.zig_backend == .stage2_sparc64) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_spirv64) return error.SkipZigTest;
try testDivision();
try comptime testDivision();

1
test/behavior/switch.zig
View File

@ -640,7 +640,6 @@ test "switch prong pointer capture alignment" {
test "switch on pointer type" {
if (builtin.zig_backend == .stage2_aarch64) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_sparc64) return error.SkipZigTest; // TODO
if (builtin.zig_backend == .stage2_spirv64) return error.SkipZigTest;
const S = struct {
const X = struct {