From: Jason Ekstrand Date: Tue, 14 Mar 2017 17:27:38 +0000 (-0700) Subject: nir/constant_expressions: Pull the guts out into a helper block X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=b69b44d22203d9370ee8d750279e955d066a2bf3;p=mesa.git nir/constant_expressions: Pull the guts out into a helper block Reviewed-by: Eduardo Lima Mitev --- diff --git a/src/compiler/nir/nir_constant_expressions.py b/src/compiler/nir/nir_constant_expressions.py index c6745f1e934..ad841e3d311 100644 --- a/src/compiler/nir/nir_constant_expressions.py +++ b/src/compiler/nir/nir_constant_expressions.py @@ -266,116 +266,119 @@ struct bool32_vec { bool w; }; -% for name, op in sorted(opcodes.iteritems()): -static nir_const_value -evaluate_${name}(MAYBE_UNUSED unsigned num_components, unsigned bit_size, - MAYBE_UNUSED nir_const_value *_src) -{ - nir_const_value _dst_val = { {0, } }; - - switch (bit_size) { - % for bit_size in op_bit_sizes(op): - case ${bit_size}: { - <% - output_type = type_add_size(op.output_type, bit_size) - input_types = [type_add_size(type_, bit_size) for type_ in op.input_types] - %> - - ## For each non-per-component input, create a variable srcN that - ## contains x, y, z, and w elements which are filled in with the - ## appropriately-typed values. - % for j in range(op.num_inputs): - % if op.input_sizes[j] == 0: - <% continue %> - % elif "src" + str(j) not in op.const_expr: - ## Avoid unused variable warnings - <% continue %> - %endif - - const struct ${input_types[j]}_vec src${j} = { - % for k in range(op.input_sizes[j]): - % if input_types[j] == "bool32": - _src[${j}].u32[${k}] != 0, - % else: - _src[${j}].${get_const_field(input_types[j])}[${k}], - % endif - % endfor - % for k in range(op.input_sizes[j], 4): - 0, - % endfor - }; +<%def name="evaluate_op(op, bit_size)"> + <% + output_type = type_add_size(op.output_type, bit_size) + input_types = [type_add_size(type_, bit_size) for type_ in op.input_types] + %> + + ## For each non-per-component input, create a variable srcN that + ## contains x, y, z, and w elements which are filled in with the + ## appropriately-typed values. + % for j in range(op.num_inputs): + % if op.input_sizes[j] == 0: + <% continue %> + % elif "src" + str(j) not in op.const_expr: + ## Avoid unused variable warnings + <% continue %> + %endif + + const struct ${input_types[j]}_vec src${j} = { + % for k in range(op.input_sizes[j]): + % if input_types[j] == "bool32": + _src[${j}].u32[${k}] != 0, + % else: + _src[${j}].${get_const_field(input_types[j])}[${k}], + % endif % endfor + % for k in range(op.input_sizes[j], 4): + 0, + % endfor + }; + % endfor - % if op.output_size == 0: - ## For per-component instructions, we need to iterate over the - ## components and apply the constant expression one component - ## at a time. - for (unsigned _i = 0; _i < num_components; _i++) { - ## For each per-component input, create a variable srcN that - ## contains the value of the current (_i'th) component. - % for j in range(op.num_inputs): - % if op.input_sizes[j] != 0: - <% continue %> - % elif "src" + str(j) not in op.const_expr: - ## Avoid unused variable warnings - <% continue %> - % elif input_types[j] == "bool32": - const bool src${j} = _src[${j}].u32[_i] != 0; - % else: - const ${input_types[j]}_t src${j} = - _src[${j}].${get_const_field(input_types[j])}[_i]; - % endif - % endfor - - ## Create an appropriately-typed variable dst and assign the - ## result of the const_expr to it. If const_expr already contains - ## writes to dst, just include const_expr directly. - % if "dst" in op.const_expr: - ${output_type}_t dst; - - ${op.const_expr} - % else: - ${output_type}_t dst = ${op.const_expr}; - % endif - - ## Store the current component of the actual destination to the - ## value of dst. - % if output_type == "bool32": - ## Sanitize the C value to a proper NIR bool - _dst_val.u32[_i] = dst ? NIR_TRUE : NIR_FALSE; + % if op.output_size == 0: + ## For per-component instructions, we need to iterate over the + ## components and apply the constant expression one component + ## at a time. + for (unsigned _i = 0; _i < num_components; _i++) { + ## For each per-component input, create a variable srcN that + ## contains the value of the current (_i'th) component. + % for j in range(op.num_inputs): + % if op.input_sizes[j] != 0: + <% continue %> + % elif "src" + str(j) not in op.const_expr: + ## Avoid unused variable warnings + <% continue %> + % elif input_types[j] == "bool32": + const bool src${j} = _src[${j}].u32[_i] != 0; % else: - _dst_val.${get_const_field(output_type)}[_i] = dst; + const ${input_types[j]}_t src${j} = + _src[${j}].${get_const_field(input_types[j])}[_i]; % endif - } - % else: - ## In the non-per-component case, create a struct dst with - ## appropriately-typed elements x, y, z, and w and assign the result - ## of the const_expr to all components of dst, or include the - ## const_expr directly if it writes to dst already. - struct ${output_type}_vec dst; + % endfor + ## Create an appropriately-typed variable dst and assign the + ## result of the const_expr to it. If const_expr already contains + ## writes to dst, just include const_expr directly. % if "dst" in op.const_expr: + ${output_type}_t dst; + ${op.const_expr} % else: - ## Splat the value to all components. This way expressions which - ## write the same value to all components don't need to explicitly - ## write to dest. One such example is fnoise which has a - ## const_expr of 0.0f. - dst.x = dst.y = dst.z = dst.w = ${op.const_expr}; + ${output_type}_t dst = ${op.const_expr}; % endif - ## For each component in the destination, copy the value of dst to - ## the actual destination. - % for k in range(op.output_size): - % if output_type == "bool32": - ## Sanitize the C value to a proper NIR bool - _dst_val.u32[${k}] = dst.${"xyzw"[k]} ? NIR_TRUE : NIR_FALSE; - % else: - _dst_val.${get_const_field(output_type)}[${k}] = dst.${"xyzw"[k]}; - % endif - % endfor + ## Store the current component of the actual destination to the + ## value of dst. + % if output_type == "bool32": + ## Sanitize the C value to a proper NIR bool + _dst_val.u32[_i] = dst ? NIR_TRUE : NIR_FALSE; + % else: + _dst_val.${get_const_field(output_type)}[_i] = dst; + % endif + } + % else: + ## In the non-per-component case, create a struct dst with + ## appropriately-typed elements x, y, z, and w and assign the result + ## of the const_expr to all components of dst, or include the + ## const_expr directly if it writes to dst already. + struct ${output_type}_vec dst; + + % if "dst" in op.const_expr: + ${op.const_expr} + % else: + ## Splat the value to all components. This way expressions which + ## write the same value to all components don't need to explicitly + ## write to dest. One such example is fnoise which has a + ## const_expr of 0.0f. + dst.x = dst.y = dst.z = dst.w = ${op.const_expr}; % endif + ## For each component in the destination, copy the value of dst to + ## the actual destination. + % for k in range(op.output_size): + % if output_type == "bool32": + ## Sanitize the C value to a proper NIR bool + _dst_val.u32[${k}] = dst.${"xyzw"[k]} ? NIR_TRUE : NIR_FALSE; + % else: + _dst_val.${get_const_field(output_type)}[${k}] = dst.${"xyzw"[k]}; + % endif + % endfor + % endif + + +% for name, op in sorted(opcodes.iteritems()): +static nir_const_value +evaluate_${name}(MAYBE_UNUSED unsigned num_components, unsigned bit_size, + MAYBE_UNUSED nir_const_value *_src) +{ + nir_const_value _dst_val = { {0, } }; + + switch (bit_size) { + % for bit_size in op_bit_sizes(op): + case ${bit_size}: { + ${evaluate_op(op, bit_size)} break; } % endfor