ir_function_signature * umul64(void *mem_ctx, builtin_available_predicate avail) { ir_function_signature *const sig = new(mem_ctx) ir_function_signature(glsl_type::uvec2_type, avail); ir_factory body(&sig->body, mem_ctx); sig->is_defined = true; exec_list sig_parameters; ir_variable *const r0001 = new(mem_ctx) ir_variable(glsl_type::uvec2_type, "a", ir_var_function_in); sig_parameters.push_tail(r0001); ir_variable *const r0002 = new(mem_ctx) ir_variable(glsl_type::uvec2_type, "b", ir_var_function_in); sig_parameters.push_tail(r0002); ir_variable *const r0003 = new(mem_ctx) ir_variable(glsl_type::uvec2_type, "result", ir_var_auto); body.emit(r0003); body.emit(assign(r0003, imul_high(swizzle_x(r0001), swizzle_x(r0002)), 0x02)); body.emit(assign(r0003, mul(swizzle_x(r0001), swizzle_x(r0002)), 0x01)); ir_expression *const r0004 = mul(swizzle_x(r0001), swizzle_y(r0002)); ir_expression *const r0005 = mul(swizzle_y(r0001), swizzle_x(r0002)); ir_expression *const r0006 = add(r0004, r0005); body.emit(assign(r0003, add(swizzle_y(r0003), r0006), 0x02)); body.emit(ret(r0003)); sig->replace_parameters(&sig_parameters); return sig; } ir_function_signature * sign64(void *mem_ctx, builtin_available_predicate avail) { ir_function_signature *const sig = new(mem_ctx) ir_function_signature(glsl_type::ivec2_type, avail); ir_factory body(&sig->body, mem_ctx); sig->is_defined = true; exec_list sig_parameters; ir_variable *const r0007 = new(mem_ctx) ir_variable(glsl_type::ivec2_type, "a", ir_var_function_in); sig_parameters.push_tail(r0007); ir_variable *const r0008 = new(mem_ctx) ir_variable(glsl_type::ivec2_type, "result", ir_var_auto); body.emit(r0008); body.emit(assign(r0008, rshift(swizzle_y(r0007), body.constant(int(31))), 0x02)); ir_expression *const r0009 = bit_or(swizzle_x(r0007), swizzle_y(r0007)); ir_expression *const r000A = nequal(r0009, body.constant(int(0))); ir_expression *const r000B = expr(ir_unop_b2i, r000A); body.emit(assign(r0008, bit_or(swizzle_y(r0008), r000B), 0x01)); body.emit(ret(r0008)); sig->replace_parameters(&sig_parameters); return sig; } ir_function_signature * udivmod64(void *mem_ctx, builtin_available_predicate avail) { ir_function_signature *const sig = new(mem_ctx) ir_function_signature(glsl_type::uvec4_type, avail); ir_factory body(&sig->body, mem_ctx); sig->is_defined = true; exec_list sig_parameters; ir_variable *const r000C = new(mem_ctx) ir_variable(glsl_type::uvec2_type, "n", ir_var_function_in); sig_parameters.push_tail(r000C); ir_variable *const r000D = new(mem_ctx) ir_variable(glsl_type::uvec2_type, "d", ir_var_function_in); sig_parameters.push_tail(r000D); ir_variable *const r000E = new(mem_ctx) ir_variable(glsl_type::int_type, "i", ir_var_auto); body.emit(r000E); ir_variable *const r000F = new(mem_ctx) ir_variable(glsl_type::uint64_t_type, "n64", ir_var_auto); body.emit(r000F); ir_variable *const r0010 = new(mem_ctx) ir_variable(glsl_type::int_type, "log2_denom", ir_var_auto); body.emit(r0010); ir_variable *const r0011 = new(mem_ctx) ir_variable(glsl_type::uvec2_type, "quot", ir_var_auto); body.emit(r0011); body.emit(assign(r0011, ir_constant::zero(mem_ctx, glsl_type::uvec2_type), 0x03)); ir_expression *const r0012 = expr(ir_unop_find_msb, swizzle_y(r000D)); body.emit(assign(r0010, add(r0012, body.constant(int(32))), 0x01)); /* IF CONDITION */ ir_expression *const r0014 = equal(swizzle_y(r000D), body.constant(0u)); ir_expression *const r0015 = gequal(swizzle_y(r000C), swizzle_x(r000D)); ir_expression *const r0016 = logic_and(r0014, r0015); ir_if *f0013 = new(mem_ctx) ir_if(operand(r0016).val); exec_list *const f0013_parent_instructions = body.instructions; /* THEN INSTRUCTIONS */ body.instructions = &f0013->then_instructions; ir_variable *const r0017 = new(mem_ctx) ir_variable(glsl_type::int_type, "i", ir_var_auto); body.emit(r0017); ir_variable *const r0018 = body.make_temp(glsl_type::int_type, "findMSB_retval"); body.emit(assign(r0018, expr(ir_unop_find_msb, swizzle_x(r000D)), 0x01)); body.emit(assign(r0010, r0018, 0x01)); body.emit(assign(r0017, body.constant(int(31)), 0x01)); /* LOOP BEGIN */ ir_loop *f0019 = new(mem_ctx) ir_loop(); exec_list *const f0019_parent_instructions = body.instructions; body.instructions = &f0019->body_instructions; /* IF CONDITION */ ir_expression *const r001B = less(r0017, body.constant(int(1))); ir_if *f001A = new(mem_ctx) ir_if(operand(r001B).val); exec_list *const f001A_parent_instructions = body.instructions; /* THEN INSTRUCTIONS */ body.instructions = &f001A->then_instructions; body.emit(new(mem_ctx) ir_loop_jump(ir_loop_jump::jump_break)); body.instructions = f001A_parent_instructions; body.emit(f001A); /* END IF */ /* IF CONDITION */ ir_expression *const r001D = sub(body.constant(int(31)), r0017); ir_expression *const r001E = lequal(r0018, r001D); ir_expression *const r001F = lshift(swizzle_x(r000D), r0017); ir_expression *const r0020 = lequal(r001F, swizzle_y(r000C)); ir_expression *const r0021 = logic_and(r001E, r0020); ir_if *f001C = new(mem_ctx) ir_if(operand(r0021).val); exec_list *const f001C_parent_instructions = body.instructions; /* THEN INSTRUCTIONS */ body.instructions = &f001C->then_instructions; ir_expression *const r0022 = lshift(swizzle_x(r000D), r0017); body.emit(assign(r000C, sub(swizzle_y(r000C), r0022), 0x02)); ir_expression *const r0023 = lshift(body.constant(1u), r0017); body.emit(assign(r0011, bit_or(swizzle_y(r0011), r0023), 0x02)); body.instructions = f001C_parent_instructions; body.emit(f001C); /* END IF */ body.emit(assign(r0017, add(r0017, body.constant(int(-1))), 0x01)); /* LOOP END */ body.instructions = f0019_parent_instructions; body.emit(f0019); /* IF CONDITION */ ir_expression *const r0025 = lequal(swizzle_x(r000D), swizzle_y(r000C)); ir_if *f0024 = new(mem_ctx) ir_if(operand(r0025).val); exec_list *const f0024_parent_instructions = body.instructions; /* THEN INSTRUCTIONS */ body.instructions = &f0024->then_instructions; body.emit(assign(r000C, sub(swizzle_y(r000C), swizzle_x(r000D)), 0x02)); body.emit(assign(r0011, bit_or(swizzle_y(r0011), body.constant(1u)), 0x02)); body.instructions = f0024_parent_instructions; body.emit(f0024); /* END IF */ body.instructions = f0013_parent_instructions; body.emit(f0013); /* END IF */ ir_variable *const r0026 = body.make_temp(glsl_type::uint64_t_type, "packUint2x32_retval"); body.emit(assign(r0026, expr(ir_unop_pack_uint_2x32, r000D), 0x01)); body.emit(assign(r000F, expr(ir_unop_pack_uint_2x32, r000C), 0x01)); body.emit(assign(r000E, body.constant(int(31)), 0x01)); /* LOOP BEGIN */ ir_loop *f0027 = new(mem_ctx) ir_loop(); exec_list *const f0027_parent_instructions = body.instructions; body.instructions = &f0027->body_instructions; /* IF CONDITION */ ir_expression *const r0029 = less(r000E, body.constant(int(1))); ir_if *f0028 = new(mem_ctx) ir_if(operand(r0029).val); exec_list *const f0028_parent_instructions = body.instructions; /* THEN INSTRUCTIONS */ body.instructions = &f0028->then_instructions; body.emit(new(mem_ctx) ir_loop_jump(ir_loop_jump::jump_break)); body.instructions = f0028_parent_instructions; body.emit(f0028); /* END IF */ /* IF CONDITION */ ir_expression *const r002B = sub(body.constant(int(63)), r000E); ir_expression *const r002C = lequal(r0010, r002B); ir_expression *const r002D = lshift(r0026, r000E); ir_expression *const r002E = lequal(r002D, r000F); ir_expression *const r002F = logic_and(r002C, r002E); ir_if *f002A = new(mem_ctx) ir_if(operand(r002F).val); exec_list *const f002A_parent_instructions = body.instructions; /* THEN INSTRUCTIONS */ body.instructions = &f002A->then_instructions; ir_expression *const r0030 = lshift(r0026, r000E); body.emit(assign(r000F, sub(r000F, r0030), 0x01)); ir_expression *const r0031 = lshift(body.constant(1u), r000E); body.emit(assign(r0011, bit_or(swizzle_x(r0011), r0031), 0x01)); body.instructions = f002A_parent_instructions; body.emit(f002A); /* END IF */ body.emit(assign(r000E, add(r000E, body.constant(int(-1))), 0x01)); /* LOOP END */ body.instructions = f0027_parent_instructions; body.emit(f0027); /* IF CONDITION */ ir_expression *const r0033 = lequal(r0026, r000F); ir_if *f0032 = new(mem_ctx) ir_if(operand(r0033).val); exec_list *const f0032_parent_instructions = body.instructions; /* THEN INSTRUCTIONS */ body.instructions = &f0032->then_instructions; body.emit(assign(r000F, sub(r000F, r0026), 0x01)); body.emit(assign(r0011, bit_or(swizzle_x(r0011), body.constant(1u)), 0x01)); body.instructions = f0032_parent_instructions; body.emit(f0032); /* END IF */ ir_variable *const r0034 = body.make_temp(glsl_type::uvec4_type, "vec_ctor"); body.emit(assign(r0034, r0011, 0x03)); body.emit(assign(r0034, expr(ir_unop_unpack_uint_2x32, r000F), 0x0c)); body.emit(ret(r0034)); sig->replace_parameters(&sig_parameters); return sig; } ir_function_signature * udiv64(void *mem_ctx, builtin_available_predicate avail) { ir_function_signature *const sig = new(mem_ctx) ir_function_signature(glsl_type::uvec2_type, avail); ir_factory body(&sig->body, mem_ctx); sig->is_defined = true; exec_list sig_parameters; ir_variable *const r0035 = new(mem_ctx) ir_variable(glsl_type::uvec2_type, "n", ir_var_function_in); sig_parameters.push_tail(r0035); ir_variable *const r0036 = new(mem_ctx) ir_variable(glsl_type::uvec2_type, "d", ir_var_function_in); sig_parameters.push_tail(r0036); ir_variable *const r0037 = new(mem_ctx) ir_variable(glsl_type::uvec2_type, "n", ir_var_auto); body.emit(r0037); body.emit(assign(r0037, r0035, 0x03)); ir_variable *const r0038 = new(mem_ctx) ir_variable(glsl_type::int_type, "i", ir_var_auto); body.emit(r0038); ir_variable *const r0039 = new(mem_ctx) ir_variable(glsl_type::uint64_t_type, "n64", ir_var_auto); body.emit(r0039); ir_variable *const r003A = new(mem_ctx) ir_variable(glsl_type::int_type, "log2_denom", ir_var_auto); body.emit(r003A); ir_variable *const r003B = new(mem_ctx) ir_variable(glsl_type::uvec2_type, "quot", ir_var_auto); body.emit(r003B); body.emit(assign(r003B, ir_constant::zero(mem_ctx, glsl_type::uvec2_type), 0x03)); ir_expression *const r003C = expr(ir_unop_find_msb, swizzle_y(r0036)); body.emit(assign(r003A, add(r003C, body.constant(int(32))), 0x01)); /* IF CONDITION */ ir_expression *const r003E = equal(swizzle_y(r0036), body.constant(0u)); ir_expression *const r003F = gequal(swizzle_y(r0035), swizzle_x(r0036)); ir_expression *const r0040 = logic_and(r003E, r003F); ir_if *f003D = new(mem_ctx) ir_if(operand(r0040).val); exec_list *const f003D_parent_instructions = body.instructions; /* THEN INSTRUCTIONS */ body.instructions = &f003D->then_instructions; ir_variable *const r0041 = new(mem_ctx) ir_variable(glsl_type::int_type, "i", ir_var_auto); body.emit(r0041); ir_variable *const r0042 = body.make_temp(glsl_type::int_type, "findMSB_retval"); body.emit(assign(r0042, expr(ir_unop_find_msb, swizzle_x(r0036)), 0x01)); body.emit(assign(r003A, r0042, 0x01)); body.emit(assign(r0041, body.constant(int(31)), 0x01)); /* LOOP BEGIN */ ir_loop *f0043 = new(mem_ctx) ir_loop(); exec_list *const f0043_parent_instructions = body.instructions; body.instructions = &f0043->body_instructions; /* IF CONDITION */ ir_expression *const r0045 = less(r0041, body.constant(int(1))); ir_if *f0044 = new(mem_ctx) ir_if(operand(r0045).val); exec_list *const f0044_parent_instructions = body.instructions; /* THEN INSTRUCTIONS */ body.instructions = &f0044->then_instructions; body.emit(new(mem_ctx) ir_loop_jump(ir_loop_jump::jump_break)); body.instructions = f0044_parent_instructions; body.emit(f0044); /* END IF */ /* IF CONDITION */ ir_expression *const r0047 = sub(body.constant(int(31)), r0041); ir_expression *const r0048 = lequal(r0042, r0047); ir_expression *const r0049 = lshift(swizzle_x(r0036), r0041); ir_expression *const r004A = lequal(r0049, swizzle_y(r0037)); ir_expression *const r004B = logic_and(r0048, r004A); ir_if *f0046 = new(mem_ctx) ir_if(operand(r004B).val); exec_list *const f0046_parent_instructions = body.instructions; /* THEN INSTRUCTIONS */ body.instructions = &f0046->then_instructions; ir_expression *const r004C = lshift(swizzle_x(r0036), r0041); body.emit(assign(r0037, sub(swizzle_y(r0037), r004C), 0x02)); ir_expression *const r004D = lshift(body.constant(1u), r0041); body.emit(assign(r003B, bit_or(swizzle_y(r003B), r004D), 0x02)); body.instructions = f0046_parent_instructions; body.emit(f0046); /* END IF */ body.emit(assign(r0041, add(r0041, body.constant(int(-1))), 0x01)); /* LOOP END */ body.instructions = f0043_parent_instructions; body.emit(f0043); /* IF CONDITION */ ir_expression *const r004F = lequal(swizzle_x(r0036), swizzle_y(r0037)); ir_if *f004E = new(mem_ctx) ir_if(operand(r004F).val); exec_list *const f004E_parent_instructions = body.instructions; /* THEN INSTRUCTIONS */ body.instructions = &f004E->then_instructions; body.emit(assign(r0037, sub(swizzle_y(r0037), swizzle_x(r0036)), 0x02)); body.emit(assign(r003B, bit_or(swizzle_y(r003B), body.constant(1u)), 0x02)); body.instructions = f004E_parent_instructions; body.emit(f004E); /* END IF */ body.instructions = f003D_parent_instructions; body.emit(f003D); /* END IF */ ir_variable *const r0050 = body.make_temp(glsl_type::uint64_t_type, "packUint2x32_retval"); body.emit(assign(r0050, expr(ir_unop_pack_uint_2x32, r0036), 0x01)); body.emit(assign(r0039, expr(ir_unop_pack_uint_2x32, r0037), 0x01)); body.emit(assign(r0038, body.constant(int(31)), 0x01)); /* LOOP BEGIN */ ir_loop *f0051 = new(mem_ctx) ir_loop(); exec_list *const f0051_parent_instructions = body.instructions; body.instructions = &f0051->body_instructions; /* IF CONDITION */ ir_expression *const r0053 = less(r0038, body.constant(int(1))); ir_if *f0052 = new(mem_ctx) ir_if(operand(r0053).val); exec_list *const f0052_parent_instructions = body.instructions; /* THEN INSTRUCTIONS */ body.instructions = &f0052->then_instructions; body.emit(new(mem_ctx) ir_loop_jump(ir_loop_jump::jump_break)); body.instructions = f0052_parent_instructions; body.emit(f0052); /* END IF */ /* IF CONDITION */ ir_expression *const r0055 = sub(body.constant(int(63)), r0038); ir_expression *const r0056 = lequal(r003A, r0055); ir_expression *const r0057 = lshift(r0050, r0038); ir_expression *const r0058 = lequal(r0057, r0039); ir_expression *const r0059 = logic_and(r0056, r0058); ir_if *f0054 = new(mem_ctx) ir_if(operand(r0059).val); exec_list *const f0054_parent_instructions = body.instructions; /* THEN INSTRUCTIONS */ body.instructions = &f0054->then_instructions; ir_expression *const r005A = lshift(r0050, r0038); body.emit(assign(r0039, sub(r0039, r005A), 0x01)); ir_expression *const r005B = lshift(body.constant(1u), r0038); body.emit(assign(r003B, bit_or(swizzle_x(r003B), r005B), 0x01)); body.instructions = f0054_parent_instructions; body.emit(f0054); /* END IF */ body.emit(assign(r0038, add(r0038, body.constant(int(-1))), 0x01)); /* LOOP END */ body.instructions = f0051_parent_instructions; body.emit(f0051); /* IF CONDITION */ ir_expression *const r005D = lequal(r0050, r0039); ir_if *f005C = new(mem_ctx) ir_if(operand(r005D).val); exec_list *const f005C_parent_instructions = body.instructions; /* THEN INSTRUCTIONS */ body.instructions = &f005C->then_instructions; body.emit(assign(r0039, sub(r0039, r0050), 0x01)); body.emit(assign(r003B, bit_or(swizzle_x(r003B), body.constant(1u)), 0x01)); body.instructions = f005C_parent_instructions; body.emit(f005C); /* END IF */ body.emit(ret(r003B)); sig->replace_parameters(&sig_parameters); return sig; } ir_function_signature * idiv64(void *mem_ctx, builtin_available_predicate avail) { ir_function_signature *const sig = new(mem_ctx) ir_function_signature(glsl_type::ivec2_type, avail); ir_factory body(&sig->body, mem_ctx); sig->is_defined = true; exec_list sig_parameters; ir_variable *const r005E = new(mem_ctx) ir_variable(glsl_type::ivec2_type, "_n", ir_var_function_in); sig_parameters.push_tail(r005E); ir_variable *const r005F = new(mem_ctx) ir_variable(glsl_type::ivec2_type, "_d", ir_var_function_in); sig_parameters.push_tail(r005F); ir_variable *const r0060 = new(mem_ctx) ir_variable(glsl_type::bool_type, "negate", ir_var_auto); body.emit(r0060); ir_expression *const r0061 = less(swizzle_y(r005E), body.constant(int(0))); ir_expression *const r0062 = less(swizzle_y(r005F), body.constant(int(0))); body.emit(assign(r0060, nequal(r0061, r0062), 0x01)); ir_variable *const r0063 = new(mem_ctx) ir_variable(glsl_type::uvec2_type, "n", ir_var_auto); body.emit(r0063); ir_expression *const r0064 = expr(ir_unop_pack_int_2x32, r005E); ir_expression *const r0065 = expr(ir_unop_abs, r0064); ir_expression *const r0066 = expr(ir_unop_i642u64, r0065); body.emit(assign(r0063, expr(ir_unop_unpack_uint_2x32, r0066), 0x03)); ir_variable *const r0067 = new(mem_ctx) ir_variable(glsl_type::uvec2_type, "d", ir_var_auto); body.emit(r0067); ir_expression *const r0068 = expr(ir_unop_pack_int_2x32, r005F); ir_expression *const r0069 = expr(ir_unop_abs, r0068); ir_expression *const r006A = expr(ir_unop_i642u64, r0069); body.emit(assign(r0067, expr(ir_unop_unpack_uint_2x32, r006A), 0x03)); ir_variable *const r006B = new(mem_ctx) ir_variable(glsl_type::int_type, "i", ir_var_auto); body.emit(r006B); ir_variable *const r006C = new(mem_ctx) ir_variable(glsl_type::uint64_t_type, "n64", ir_var_auto); body.emit(r006C); ir_variable *const r006D = new(mem_ctx) ir_variable(glsl_type::int_type, "log2_denom", ir_var_auto); body.emit(r006D); ir_variable *const r006E = new(mem_ctx) ir_variable(glsl_type::uvec2_type, "quot", ir_var_auto); body.emit(r006E); body.emit(assign(r006E, ir_constant::zero(mem_ctx, glsl_type::uvec2_type), 0x03)); ir_expression *const r006F = expr(ir_unop_find_msb, swizzle_y(r0067)); body.emit(assign(r006D, add(r006F, body.constant(int(32))), 0x01)); /* IF CONDITION */ ir_expression *const r0071 = equal(swizzle_y(r0067), body.constant(0u)); ir_expression *const r0072 = gequal(swizzle_y(r0063), swizzle_x(r0067)); ir_expression *const r0073 = logic_and(r0071, r0072); ir_if *f0070 = new(mem_ctx) ir_if(operand(r0073).val); exec_list *const f0070_parent_instructions = body.instructions; /* THEN INSTRUCTIONS */ body.instructions = &f0070->then_instructions; ir_variable *const r0074 = new(mem_ctx) ir_variable(glsl_type::int_type, "i", ir_var_auto); body.emit(r0074); ir_variable *const r0075 = body.make_temp(glsl_type::int_type, "findMSB_retval"); body.emit(assign(r0075, expr(ir_unop_find_msb, swizzle_x(r0067)), 0x01)); body.emit(assign(r006D, r0075, 0x01)); body.emit(assign(r0074, body.constant(int(31)), 0x01)); /* LOOP BEGIN */ ir_loop *f0076 = new(mem_ctx) ir_loop(); exec_list *const f0076_parent_instructions = body.instructions; body.instructions = &f0076->body_instructions; /* IF CONDITION */ ir_expression *const r0078 = less(r0074, body.constant(int(1))); ir_if *f0077 = new(mem_ctx) ir_if(operand(r0078).val); exec_list *const f0077_parent_instructions = body.instructions; /* THEN INSTRUCTIONS */ body.instructions = &f0077->then_instructions; body.emit(new(mem_ctx) ir_loop_jump(ir_loop_jump::jump_break)); body.instructions = f0077_parent_instructions; body.emit(f0077); /* END IF */ /* IF CONDITION */ ir_expression *const r007A = sub(body.constant(int(31)), r0074); ir_expression *const r007B = lequal(r0075, r007A); ir_expression *const r007C = lshift(swizzle_x(r0067), r0074); ir_expression *const r007D = lequal(r007C, swizzle_y(r0063)); ir_expression *const r007E = logic_and(r007B, r007D); ir_if *f0079 = new(mem_ctx) ir_if(operand(r007E).val); exec_list *const f0079_parent_instructions = body.instructions; /* THEN INSTRUCTIONS */ body.instructions = &f0079->then_instructions; ir_expression *const r007F = lshift(swizzle_x(r0067), r0074); body.emit(assign(r0063, sub(swizzle_y(r0063), r007F), 0x02)); ir_expression *const r0080 = lshift(body.constant(1u), r0074); body.emit(assign(r006E, bit_or(swizzle_y(r006E), r0080), 0x02)); body.instructions = f0079_parent_instructions; body.emit(f0079); /* END IF */ body.emit(assign(r0074, add(r0074, body.constant(int(-1))), 0x01)); /* LOOP END */ body.instructions = f0076_parent_instructions; body.emit(f0076); /* IF CONDITION */ ir_expression *const r0082 = lequal(swizzle_x(r0067), swizzle_y(r0063)); ir_if *f0081 = new(mem_ctx) ir_if(operand(r0082).val); exec_list *const f0081_parent_instructions = body.instructions; /* THEN INSTRUCTIONS */ body.instructions = &f0081->then_instructions; body.emit(assign(r0063, sub(swizzle_y(r0063), swizzle_x(r0067)), 0x02)); body.emit(assign(r006E, bit_or(swizzle_y(r006E), body.constant(1u)), 0x02)); body.instructions = f0081_parent_instructions; body.emit(f0081); /* END IF */ body.instructions = f0070_parent_instructions; body.emit(f0070); /* END IF */ ir_variable *const r0083 = body.make_temp(glsl_type::uint64_t_type, "packUint2x32_retval"); body.emit(assign(r0083, expr(ir_unop_pack_uint_2x32, r0067), 0x01)); body.emit(assign(r006C, expr(ir_unop_pack_uint_2x32, r0063), 0x01)); body.emit(assign(r006B, body.constant(int(31)), 0x01)); /* LOOP BEGIN */ ir_loop *f0084 = new(mem_ctx) ir_loop(); exec_list *const f0084_parent_instructions = body.instructions; body.instructions = &f0084->body_instructions; /* IF CONDITION */ ir_expression *const r0086 = less(r006B, body.constant(int(1))); ir_if *f0085 = new(mem_ctx) ir_if(operand(r0086).val); exec_list *const f0085_parent_instructions = body.instructions; /* THEN INSTRUCTIONS */ body.instructions = &f0085->then_instructions; body.emit(new(mem_ctx) ir_loop_jump(ir_loop_jump::jump_break)); body.instructions = f0085_parent_instructions; body.emit(f0085); /* END IF */ /* IF CONDITION */ ir_expression *const r0088 = sub(body.constant(int(63)), r006B); ir_expression *const r0089 = lequal(r006D, r0088); ir_expression *const r008A = lshift(r0083, r006B); ir_expression *const r008B = lequal(r008A, r006C); ir_expression *const r008C = logic_and(r0089, r008B); ir_if *f0087 = new(mem_ctx) ir_if(operand(r008C).val); exec_list *const f0087_parent_instructions = body.instructions; /* THEN INSTRUCTIONS */ body.instructions = &f0087->then_instructions; ir_expression *const r008D = lshift(r0083, r006B); body.emit(assign(r006C, sub(r006C, r008D), 0x01)); ir_expression *const r008E = lshift(body.constant(1u), r006B); body.emit(assign(r006E, bit_or(swizzle_x(r006E), r008E), 0x01)); body.instructions = f0087_parent_instructions; body.emit(f0087); /* END IF */ body.emit(assign(r006B, add(r006B, body.constant(int(-1))), 0x01)); /* LOOP END */ body.instructions = f0084_parent_instructions; body.emit(f0084); /* IF CONDITION */ ir_expression *const r0090 = lequal(r0083, r006C); ir_if *f008F = new(mem_ctx) ir_if(operand(r0090).val); exec_list *const f008F_parent_instructions = body.instructions; /* THEN INSTRUCTIONS */ body.instructions = &f008F->then_instructions; body.emit(assign(r006C, sub(r006C, r0083), 0x01)); body.emit(assign(r006E, bit_or(swizzle_x(r006E), body.constant(1u)), 0x01)); body.instructions = f008F_parent_instructions; body.emit(f008F); /* END IF */ ir_variable *const r0091 = body.make_temp(glsl_type::ivec2_type, "conditional_tmp"); /* IF CONDITION */ ir_if *f0092 = new(mem_ctx) ir_if(operand(r0060).val); exec_list *const f0092_parent_instructions = body.instructions; /* THEN INSTRUCTIONS */ body.instructions = &f0092->then_instructions; ir_expression *const r0093 = expr(ir_unop_pack_uint_2x32, r006E); ir_expression *const r0094 = expr(ir_unop_u642i64, r0093); ir_expression *const r0095 = neg(r0094); body.emit(assign(r0091, expr(ir_unop_unpack_int_2x32, r0095), 0x03)); /* ELSE INSTRUCTIONS */ body.instructions = &f0092->else_instructions; body.emit(assign(r0091, expr(ir_unop_u2i, r006E), 0x03)); body.instructions = f0092_parent_instructions; body.emit(f0092); /* END IF */ body.emit(ret(r0091)); sig->replace_parameters(&sig_parameters); return sig; }