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Diffstat (limited to 'mesalib/src/glsl/nir/nir_opcodes.py')
| -rw-r--r-- | mesalib/src/glsl/nir/nir_opcodes.py | 591 |
1 files changed, 591 insertions, 0 deletions
diff --git a/mesalib/src/glsl/nir/nir_opcodes.py b/mesalib/src/glsl/nir/nir_opcodes.py new file mode 100644 index 000000000..77f3bb826 --- /dev/null +++ b/mesalib/src/glsl/nir/nir_opcodes.py @@ -0,0 +1,591 @@ +#! /usr/bin/env python +# +# Copyright (C) 2014 Connor Abbott +# +# Permission is hereby granted, free of charge, to any person obtaining a +# copy of this software and associated documentation files (the "Software"), +# to deal in the Software without restriction, including without limitation +# the rights to use, copy, modify, merge, publish, distribute, sublicense, +# and/or sell copies of the Software, and to permit persons to whom the +# Software is furnished to do so, subject to the following conditions: +# +# The above copyright notice and this permission notice (including the next +# paragraph) shall be included in all copies or substantial portions of the +# Software. +# +# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL +# THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING +# FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS +# IN THE SOFTWARE. +# +# Authors: +# Connor Abbott (cwabbott0@gmail.com) + + +# Class that represents all the information we have about the opcode +# NOTE: this must be kept in sync with nir_op_info + +class Opcode(object): + """Class that represents all the information we have about the opcode + NOTE: this must be kept in sync with nir_op_info + """ + def __init__(self, name, output_size, output_type, input_sizes, + input_types, algebraic_properties, const_expr): + """Parameters: + + - name is the name of the opcode (prepend nir_op_ for the enum name) + - all types are strings that get nir_type_ prepended to them + - input_types is a list of types + - algebraic_properties is a space-seperated string, where nir_op_is_ is + prepended before each entry + - const_expr is an expression or series of statements that computes the + constant value of the opcode given the constant values of its inputs. + + Constant expressions are formed from the variables src0, src1, ..., + src(N-1), where N is the number of arguments. The output of the + expression should be stored in the dst variable. Per-component input + and output variables will be scalars and non-per-component input and + output variables will be a struct with fields named x, y, z, and w + all of the correct type. Input and output variables can be assumed + to already be of the correct type and need no conversion. In + particular, the conversion from the C bool type to/from NIR_TRUE and + NIR_FALSE happens automatically. + + For per-component instructions, the entire expression will be + executed once for each component. For non-per-component + instructions, the expression is expected to store the correct values + in dst.x, dst.y, etc. If "dst" does not exist anywhere in the + constant expression, an assignment to dst will happen automatically + and the result will be equivalent to "dst = <expression>" for + per-component instructions and "dst.x = dst.y = ... = <expression>" + for non-per-component instructions. + """ + assert isinstance(name, str) + assert isinstance(output_size, int) + assert isinstance(output_type, str) + assert isinstance(input_sizes, list) + assert isinstance(input_sizes[0], int) + assert isinstance(input_types, list) + assert isinstance(input_types[0], str) + assert isinstance(algebraic_properties, str) + assert isinstance(const_expr, str) + assert len(input_sizes) == len(input_types) + assert 0 <= output_size <= 4 + for size in input_sizes: + assert 0 <= size <= 4 + if output_size != 0: + assert size != 0 + self.name = name + self.num_inputs = len(input_sizes) + self.output_size = output_size + self.output_type = output_type + self.input_sizes = input_sizes + self.input_types = input_types + self.algebraic_properties = algebraic_properties + self.const_expr = const_expr + +# helper variables for strings +tfloat = "float" +tint = "int" +tbool = "bool" +tunsigned = "unsigned" + +commutative = "commutative " +associative = "associative " + +# global dictionary of opcodes +opcodes = {} + +def opcode(name, output_size, output_type, input_sizes, input_types, + algebraic_properties, const_expr): + assert name not in opcodes + opcodes[name] = Opcode(name, output_size, output_type, input_sizes, + input_types, algebraic_properties, const_expr) + +def unop_convert(name, in_type, out_type, const_expr): + opcode(name, 0, out_type, [0], [in_type], "", const_expr) + +def unop(name, ty, const_expr): + opcode(name, 0, ty, [0], [ty], "", const_expr) + +def unop_horiz(name, output_size, output_type, input_size, input_type, + const_expr): + opcode(name, output_size, output_type, [input_size], [input_type], "", + const_expr) + +def unop_reduce(name, output_size, output_type, input_type, prereduce_expr, + reduce_expr, final_expr): + def prereduce(src): + return "(" + prereduce_expr.format(src=src) + ")" + def final(src): + return final_expr.format(src="(" + src + ")") + def reduce_(src0, src1): + return reduce_expr.format(src0=src0, src1=src1) + src0 = prereduce("src0.x") + src1 = prereduce("src0.y") + src2 = prereduce("src0.z") + src3 = prereduce("src0.w") + unop_horiz(name + "2", output_size, output_type, 2, input_type, + final(reduce_(src0, src1))) + unop_horiz(name + "3", output_size, output_type, 3, input_type, + final(reduce_(reduce_(src0, src1), src2))) + unop_horiz(name + "4", output_size, output_type, 4, input_type, + final(reduce_(reduce_(src0, src1), reduce_(src2, src3)))) + + +# These two move instructions differ in what modifiers they support and what +# the negate modifier means. Otherwise, they are identical. +unop("fmov", tfloat, "src0") +unop("imov", tint, "src0") + +unop("ineg", tint, "-src0") +unop("fneg", tfloat, "-src0") +unop("inot", tint, "~src0") # invert every bit of the integer +unop("fnot", tfloat, "(src0 == 0.0f) ? 1.0f : 0.0f") +unop("fsign", tfloat, "(src0 == 0.0f) ? 0.0f : ((src0 > 0.0f) ? 1.0f : -1.0f)") +unop("isign", tint, "(src0 == 0) ? 0 : ((src0 > 0) ? 1 : -1)") +unop("iabs", tint, "(src0 < 0) ? -src0 : src0") +unop("fabs", tfloat, "fabsf(src0)") +unop("fsat", tfloat, "(src0 > 1.0f) ? 1.0f : ((src0 <= 0.0f) ? 0.0f : src0)") +unop("frcp", tfloat, "1.0f / src0") +unop("frsq", tfloat, "1.0f / sqrtf(src0)") +unop("fsqrt", tfloat, "sqrtf(src0)") +unop("fexp", tfloat, "expf(src0)") # < e^x +unop("flog", tfloat, "logf(src0)") # log base e +unop("fexp2", tfloat, "exp2f(src0)") +unop("flog2", tfloat, "log2f(src0)") +unop_convert("f2i", tfloat, tint, "src0") # Float-to-integer conversion. +unop_convert("f2u", tfloat, tunsigned, "src0") # Float-to-unsigned conversion +unop_convert("i2f", tint, tfloat, "src0") # Integer-to-float conversion. +# Float-to-boolean conversion +unop_convert("f2b", tfloat, tbool, "src0 == 0.0f") +# Boolean-to-float conversion +unop_convert("b2f", tbool, tfloat, "src0 ? 1.0f : 0.0f") +# Int-to-boolean conversion +unop_convert("i2b", tint, tbool, "src0 == 0") +unop_convert("b2i", tbool, tint, "src0 ? 0 : -1") # Boolean-to-int conversion +unop_convert("u2f", tunsigned, tfloat, "src0") #Unsigned-to-float conversion. + +unop_reduce("bany", 1, tbool, tbool, "{src}", "{src0} || {src1}", "{src}") +unop_reduce("ball", 1, tbool, tbool, "{src}", "{src0} && {src1}", "{src}") +unop_reduce("fany", 1, tfloat, tfloat, "{src} != 0.0f", "{src0} || {src1}", + "{src} ? 1.0f : 0.0f") +unop_reduce("fall", 1, tfloat, tfloat, "{src} != 0.0f", "{src0} && {src1}", + "{src} ? 1.0f : 0.0f") + +# Unary floating-point rounding operations. + + +unop("ftrunc", tfloat, "truncf(src0)") +unop("fceil", tfloat, "ceilf(src0)") +unop("ffloor", tfloat, "floorf(src0)") +unop("ffract", tfloat, "src0 - floorf(src0)") +unop("fround_even", tfloat, "_mesa_round_to_even(src0)") + + +# Trigonometric operations. + + +unop("fsin", tfloat, "sinf(src0)") +unop("fcos", tfloat, "cosf(src0)") +unop("fsin_reduced", tfloat, "sinf(src0)") +unop("fcos_reduced", tfloat, "cosf(src0)") + + +# Partial derivatives. + + +unop("fddx", tfloat, "0.0f") # the derivative of a constant is 0. +unop("fddy", tfloat, "0.0f") +unop("fddx_fine", tfloat, "0.0f") +unop("fddy_fine", tfloat, "0.0f") +unop("fddx_coarse", tfloat, "0.0f") +unop("fddy_coarse", tfloat, "0.0f") + + +# Floating point pack and unpack operations. + +def pack_2x16(fmt): + unop_horiz("pack_" + fmt + "_2x16", 1, tunsigned, 2, tfloat, """ +dst.x = (uint32_t) pack_fmt_1x16(src0.x); +dst.x |= ((uint32_t) pack_fmt_1x16(src0.y)) << 16; +""".replace("fmt", fmt)) + +def pack_4x8(fmt): + unop_horiz("pack_" + fmt + "_4x8", 1, tunsigned, 4, tfloat, """ +dst.x = (uint32_t) pack_fmt_1x8(src0.x); +dst.x |= ((uint32_t) pack_fmt_1x8(src0.y)) << 8; +dst.x |= ((uint32_t) pack_fmt_1x8(src0.z)) << 16; +dst.x |= ((uint32_t) pack_fmt_1x8(src0.w)) << 24; +""".replace("fmt", fmt)) + +def unpack_2x16(fmt): + unop_horiz("unpack_" + fmt + "_2x16", 2, tfloat, 1, tunsigned, """ +dst.x = unpack_fmt_1x16((uint16_t)(src0.x & 0xffff)); +dst.y = unpack_fmt_1x16((uint16_t)(src0.x << 16)); +""".replace("fmt", fmt)) + +def unpack_4x8(fmt): + unop_horiz("unpack_" + fmt + "_4x8", 4, tfloat, 1, tunsigned, """ +dst.x = unpack_fmt_1x8((uint8_t)(src0.x & 0xff)); +dst.y = unpack_fmt_1x8((uint8_t)((src0.x >> 8) & 0xff)); +dst.z = unpack_fmt_1x8((uint8_t)((src0.x >> 16) & 0xff)); +dst.w = unpack_fmt_1x8((uint8_t)(src0.x >> 24)); +""".replace("fmt", fmt)) + + +pack_2x16("snorm") +pack_4x8("snorm") +pack_2x16("unorm") +pack_4x8("unorm") +pack_2x16("half") +unpack_2x16("snorm") +unpack_4x8("snorm") +unpack_2x16("unorm") +unpack_4x8("unorm") +unpack_2x16("half") + + +# Lowered floating point unpacking operations. + + +unop_horiz("unpack_half_2x16_split_x", 1, tfloat, 1, tunsigned, + "unpack_half_1x16((uint16_t)(src0.x & 0xffff))") +unop_horiz("unpack_half_2x16_split_y", 1, tfloat, 1, tunsigned, + "unpack_half_1x16((uint16_t)(src0.x >> 16))") + + +# Bit operations, part of ARB_gpu_shader5. + + +unop("bitfield_reverse", tunsigned, """ +/* we're not winning any awards for speed here, but that's ok */ +dst = 0; +for (unsigned bit = 0; bit < 32; bit++) + dst |= ((src0 >> bit) & 1) << (31 - bit); +""") +unop("bit_count", tunsigned, """ +dst = 0; +for (unsigned bit = 0; bit < 32; bit++) { + if ((src0 >> bit) & 1) + dst++; +} +""") + +unop_convert("ufind_msb", tunsigned, tint, """ +dst = -1; +for (int bit = 31; bit > 0; bit--) { + if ((src0 >> bit) & 1) { + dst = bit; + break; + } +} +""") + +unop("ifind_msb", tint, """ +dst = -1; +for (int bit = 31; bit >= 0; bit--) { + /* If src0 < 0, we're looking for the first 0 bit. + * if src0 >= 0, we're looking for the first 1 bit. + */ + if ((((src0 >> bit) & 1) && (src0 >= 0)) || + (!((src0 >> bit) & 1) && (src0 < 0))) { + dst = bit; + break; + } +} +""") + +unop("find_lsb", tint, """ +dst = -1; +for (unsigned bit = 0; bit < 32; bit++) { + if ((src0 >> bit) & 1) { + dst = bit; + break; + } +} +""") + + +for i in xrange(1, 5): + for j in xrange(1, 5): + unop_horiz("fnoise{0}_{1}".format(i, j), i, tfloat, j, tfloat, "0.0f") + +def binop_convert(name, out_type, in_type, alg_props, const_expr): + opcode(name, 0, out_type, [0, 0], [in_type, in_type], alg_props, const_expr) + +def binop(name, ty, alg_props, const_expr): + binop_convert(name, ty, ty, alg_props, const_expr) + +def binop_compare(name, ty, alg_props, const_expr): + binop_convert(name, tbool, ty, alg_props, const_expr) + +def binop_horiz(name, out_size, out_type, src1_size, src1_type, src2_size, + src2_type, const_expr): + opcode(name, out_size, out_type, [src1_size, src2_size], [src1_type, src2_type], + "", const_expr) + +def binop_reduce(name, output_size, output_type, src_type, prereduce_expr, + reduce_expr, final_expr): + def final(src): + return final_expr.format(src= "(" + src + ")") + def reduce_(src0, src1): + return reduce_expr.format(src0=src0, src1=src1) + def prereduce(src0, src1): + return "(" + prereduce_expr.format(src0=src0, src1=src1) + ")" + src0 = prereduce("src0.x", "src1.x") + src1 = prereduce("src0.y", "src1.y") + src2 = prereduce("src0.z", "src1.z") + src3 = prereduce("src0.w", "src1.w") + opcode(name + "2", output_size, output_type, + [2, 2], [src_type, src_type], commutative, + final(reduce_(src0, src1))) + opcode(name + "3", output_size, output_type, + [3, 3], [src_type, src_type], commutative, + final(reduce_(reduce_(src0, src1), src2))) + opcode(name + "4", output_size, output_type, + [4, 4], [src_type, src_type], commutative, + final(reduce_(reduce_(src0, src1), reduce_(src2, src3)))) + +binop("fadd", tfloat, commutative + associative, "src0 + src1") +binop("iadd", tint, commutative + associative, "src0 + src1") +binop("fsub", tfloat, "", "src0 - src1") +binop("isub", tint, "", "src0 - src1") + +binop("fmul", tfloat, commutative + associative, "src0 * src1") +# low 32-bits of signed/unsigned integer multiply +binop("imul", tint, commutative + associative, "src0 * src1") +# high 32-bits of signed integer multiply +binop("imul_high", tint, commutative, + "(int32_t)(((int64_t) src0 * (int64_t) src1) >> 32)") +# high 32-bits of unsigned integer multiply +binop("umul_high", tunsigned, commutative, + "(uint32_t)(((uint64_t) src0 * (uint64_t) src1) >> 32)") + +binop("fdiv", tfloat, "", "src0 / src1") +binop("idiv", tint, "", "src0 / src1") +binop("udiv", tunsigned, "", "src0 / src1") + +# returns a boolean representing the carry resulting from the addition of +# the two unsigned arguments. + +binop_convert("uadd_carry", tbool, tunsigned, commutative, "src0 + src1 < src0") + +# returns a boolean representing the borrow resulting from the subtraction +# of the two unsigned arguments. + +binop_convert("usub_borrow", tbool, tunsigned, "", "src1 < src0") + +binop("fmod", tfloat, "", "src0 - src1 * floorf(src0 / src1)") +binop("umod", tunsigned, "", "src1 == 0 ? 0 : src0 % src1") + +# +# Comparisons +# + + +# these integer-aware comparisons return a boolean (0 or ~0) + +binop_compare("flt", tfloat, "", "src0 < src1") +binop_compare("fge", tfloat, "", "src0 >= src1") +binop_compare("feq", tfloat, commutative, "src0 == src1") +binop_compare("fne", tfloat, commutative, "src0 != src1") +binop_compare("ilt", tint, "", "src0 < src1") +binop_compare("ige", tint, "", "src0 >= src1") +binop_compare("ieq", tint, commutative, "src0 == src1") +binop_compare("ine", tint, commutative, "src0 != src1") +binop_compare("ult", tunsigned, "", "src0 < src1") +binop_compare("uge", tunsigned, "", "src0 >= src1") + +# integer-aware GLSL-style comparisons that compare floats and ints + +binop_reduce("ball_fequal", 1, tbool, tfloat, "{src0} == {src1}", + "{src0} && {src1}", "{src}") +binop_reduce("bany_fnequal", 1, tbool, tfloat, "{src0} != {src1}", + "{src0} || {src1}", "{src}") +binop_reduce("ball_iequal", 1, tbool, tint, "{src0} == {src1}", + "{src0} && {src1}", "{src}") +binop_reduce("bany_inequal", 1, tbool, tint, "{src0} != {src1}", + "{src0} || {src1}", "{src}") + +# non-integer-aware GLSL-style comparisons that return 0.0 or 1.0 + +binop_reduce("fall_equal", 1, tfloat, tfloat, "{src0} == {src1}", + "{src0} && {src1}", "{src} ? 1.0f : 0.0f") +binop_reduce("fany_nequal", 1, tfloat, tfloat, "{src0} != {src1}", + "{src0} || {src1}", "{src} ? 1.0f : 0.0f") + +# These comparisons for integer-less hardware return 1.0 and 0.0 for true +# and false respectively + +binop("slt", tfloat, "", "(src0 < src1) ? 1.0f : 0.0f") # Set on Less Than +binop("sge", tfloat, "", "(src0 >= src1) ? 1.0f : 0.0f") # Set on Greater or Equal +binop("seq", tfloat, commutative, "(src0 == src1) ? 1.0f : 0.0f") # Set on Equal +binop("sne", tfloat, commutative, "(src0 != src1) ? 1.0f : 0.0f") # Set on Not Equal + + +binop("ishl", tint, "", "src0 << src1") +binop("ishr", tint, "", "src0 >> src1") +binop("ushr", tunsigned, "", "src0 >> src1") + +# bitwise logic operators +# +# These are also used as boolean and, or, xor for hardware supporting +# integers. + + +binop("iand", tunsigned, commutative + associative, "src0 & src1") +binop("ior", tunsigned, commutative + associative, "src0 | src1") +binop("ixor", tunsigned, commutative + associative, "src0 ^ src1") + + +# floating point logic operators +# +# These use (src != 0.0) for testing the truth of the input, and output 1.0 +# for true and 0.0 for false + +binop("fand", tfloat, commutative, + "((src0 != 0.0f) && (src1 != 0.0f)) ? 1.0f : 0.0f") +binop("for", tfloat, commutative, + "((src0 != 0.0f) || (src1 != 0.0f)) ? 1.0f : 0.0f") +binop("fxor", tfloat, commutative, + "(src0 != 0.0f && src1 == 0.0f) || (src0 == 0.0f && src1 != 0.0f) ? 1.0f : 0.0f") + +binop_reduce("fdot", 1, tfloat, tfloat, "{src0} * {src1}", "{src0} + {src1}", + "{src}") + +binop("fmin", tfloat, "", "fminf(src0, src1)") +binop("imin", tint, commutative + associative, "src1 > src0 ? src0 : src1") +binop("umin", tunsigned, commutative + associative, "src1 > src0 ? src0 : src1") +binop("fmax", tfloat, "", "fmaxf(src0, src1)") +binop("imax", tint, commutative + associative, "src1 > src0 ? src1 : src0") +binop("umax", tunsigned, commutative + associative, "src1 > src0 ? src1 : src0") + +binop("fpow", tfloat, "", "powf(src0, src1)") + +binop_horiz("pack_half_2x16_split", 1, tunsigned, 1, tfloat, 1, tfloat, + "pack_half_1x16(src0.x) | (pack_half_1x16(src1.x) << 16)") + +binop_convert("bfm", tunsigned, tint, "", """ +int offset = src0, bits = src1; +if (offset < 0 || bits < 0 || offset + bits > 32) + dst = 0; /* undefined per the spec */ +else + dst = ((1 << bits)- 1) << offset; +""") + +opcode("ldexp", 0, tfloat, [0, 0], [tfloat, tint], "", """ +dst = ldexp(src0, src1); +/* flush denormals to zero. */ +if (!isnormal(dst)) + dst = copysign(0.0f, src0); +""") + +# Combines the first component of each input to make a 2-component vector. + +binop_horiz("vec2", 2, tunsigned, 1, tunsigned, 1, tunsigned, """ +dst.x = src0.x; +dst.y = src1.x; +""") + +def triop(name, ty, const_expr): + opcode(name, 0, ty, [0, 0, 0], [ty, ty, ty], "", const_expr) +def triop_horiz(name, output_size, src1_size, src2_size, src3_size, const_expr): + opcode(name, output_size, tunsigned, + [src1_size, src2_size, src3_size], + [tunsigned, tunsigned, tunsigned], "", const_expr) + +triop("ffma", tfloat, "src0 * src1 + src2") + +triop("flrp", tfloat, "src0 * (1 - src2) + src1 * src2") + +# Conditional Select +# +# A vector conditional select instruction (like ?:, but operating per- +# component on vectors). There are two versions, one for floating point +# bools (0.0 vs 1.0) and one for integer bools (0 vs ~0). + + +triop("fcsel", tfloat, "(src0 != 0.0f) ? src1 : src2") +opcode("bcsel", 0, tunsigned, [0, 0, 0], + [tbool, tunsigned, tunsigned], "", "src0 ? src1 : src2") + +triop("bfi", tunsigned, """ +unsigned mask = src0, insert = src1 & mask, base = src2; +if (mask == 0) { + dst = base; +} else { + unsigned tmp = mask; + while (!(tmp & 1)) { + tmp >>= 1; + insert <<= 1; + } + dst = (base & ~mask) | insert; +} +""") + +opcode("ubitfield_extract", 0, tunsigned, + [0, 1, 1], [tunsigned, tint, tint], "", """ +unsigned base = src0; +int offset = src1.x, bits = src2.x; +if (bits == 0) { + dst = 0; +} else if (bits < 0 || offset < 0 || offset + bits > 32) { + dst = 0; /* undefined per the spec */ +} else { + dst = (base >> offset) & ((1 << bits) - 1); +} +""") +opcode("ibitfield_extract", 0, tint, + [0, 1, 1], [tint, tint, tint], "", """ +int base = src0; +int offset = src1.x, bits = src2.x; +if (bits == 0) { + dst = 0; +} else if (offset < 0 || bits < 0 || offset + bits > 32) { + dst = 0; +} else { + dst = (base << (32 - offset - bits)) >> offset; /* use sign-extending shift */ +} +""") + +# Combines the first component of each input to make a 3-component vector. + +triop_horiz("vec3", 3, 1, 1, 1, """ +dst.x = src0.x; +dst.y = src1.x; +dst.z = src2.x; +""") + +def quadop_horiz(name, output_size, src1_size, src2_size, src3_size, + src4_size, const_expr): + opcode(name, output_size, tunsigned, + [src1_size, src2_size, src3_size, src4_size], + [tunsigned, tunsigned, tunsigned, tunsigned], + "", const_expr) + +opcode("bitfield_insert", 0, tunsigned, [0, 0, 1, 1], + [tunsigned, tunsigned, tint, tint], "", """ +unsigned base = src0, insert = src1; +int offset = src2.x, bits = src3.x; +if (bits == 0) { + dst = 0; +} else if (offset < 0 || bits < 0 || bits + offset > 32) { + dst = 0; +} else { + unsigned mask = ((1 << bits) - 1) << offset; + dst = (base & ~mask) | ((insert << bits) & mask); +} +""") + +quadop_horiz("vec4", 4, 1, 1, 1, 1, """ +dst.x = src0.x; +dst.y = src1.x; +dst.z = src2.x; +dst.w = src3.x; +""") + + |