# -*- coding: utf-8 -*-
#-------------------------------------------------------------------------
# drawElements Quality Program utilities
# --------------------------------------
#
# Copyright 2015 The Android Open Source Project
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
#-------------------------------------------------------------------------
import sys
import itertools
import operator
import genutil
from genutil import Scalar, Vec2, Vec3, Vec4, Uint, UVec2, UVec3, UVec4, CaseGroup
# Templates
ARTIHMETIC_CASE_TEMPLATE = """
case ${{NAME}}
version 310 es
require extension { "GL_EXT_shader_implicit_conversions" } in { vertex, fragment }
values
{
${{VALUES}}
}
both ""
#version 310 es
precision highp float;
${DECLARATIONS}
void main()
{
${SETUP}
out0 = ${{EXPR}};
${OUTPUT}
}
""
end
""".strip()
FUNCTIONS_CASE_TEMPLATE = """
case ${{NAME}}
version 310 es
require extension { "GL_EXT_shader_implicit_conversions" } in { vertex, fragment }
values
{
${{VALUES}}
}
both ""
#version 310 es
precision highp float;
${DECLARATIONS}
${{OUTTYPE}} func (${{OUTTYPE}} a)
{
return a * ${{OUTTYPE}}(2);
}
void main()
{
${SETUP}
out0 = func(in0);
${OUTPUT}
}
""
end
""".strip()
ARRAY_CASE_TEMPLATE = """
case ${{NAME}}
version 310 es
require extension { "GL_EXT_shader_implicit_conversions" } in { vertex, fragment }
values
{
${{VALUES}}
}
both ""
#version 310 es
precision highp float;
${DECLARATIONS}
void main()
{
${SETUP}
${{ARRAYTYPE}}[] x = ${{ARRAYTYPE}}[] (${{ARRAYVALUES}});
out0 = ${{EXPR}};
${OUTPUT}
}
""
end
""".strip()
STRUCT_CASE_TEMPLATE = """
case ${{NAME}}
version 310 es
require extension { "GL_EXT_shader_implicit_conversions" } in { vertex, fragment }
values
{
${{VALUES}}
}
both ""
#version 310 es
precision highp float;
${DECLARATIONS}
void main()
{
${SETUP}
struct {
${{OUTTYPE}} val;
} x;
x.val = ${{STRUCTVALUE}};
out0 = ${{EXPR}};
${OUTPUT}
}
""
end
""".strip()
INVALID_CASE_TEMPLATE = """
case ${{NAME}}
expect compile_fail
version 310 es
require extension { "GL_EXT_shader_implicit_conversions" } in { vertex, fragment }
values
{
${{VALUES}}
}
both ""
#version 310 es
precision highp float;
${DECLARATIONS}
void main()
{
${SETUP}
out0 = in0 + ${{OPERAND}};
${OUTPUT}
}
""
end
""".strip()
INVALID_ARRAY_CASE_TEMPLATE = """
case ${{NAME}}
expect compile_fail
version 310 es
require extension { "GL_EXT_shader_implicit_conversions" } in { vertex, fragment }
values {}
both ""
#version 310 es
precision highp float;
${DECLARATIONS}
void main()
{
${SETUP}
${{EXPR}}
${OUTPUT}
}
""
end
""".strip()
INVALID_STRUCT_CASE_TEMPLATE = """
case ${{NAME}}
expect compile_fail
version 310 es
require extension { "GL_EXT_shader_implicit_conversions" } in { vertex, fragment }
values {}
both ""
#version 310 es
precision highp float;
${DECLARATIONS}
void main()
{
${SETUP}
struct { ${{INTYPE}} value; } a;
struct { ${{OUTTYPE}} value; } b;
a = ${{INVALUE}};
b = a;
${OUTPUT}
}
""
end
""".strip()
# Input values
IN_ISCALAR = [ 2, 1, 1, 3, 5 ]
IN_USCALAR = [ 1, 3, 4, 7, 11 ]
IN_IVECTOR = [
( 1, 2, 3, 4),
( 2, 1, 2, 6),
( 3, 7, 2, 5),
]
IN_UVECTOR = [
( 2, 3, 5, 8),
( 4, 6, 2, 9),
( 1, 13, 7, 4),
]
IN_VALUES = {
"int": [Scalar(x) for x in IN_ISCALAR],
"uint": [Scalar(x) for x in IN_USCALAR],
"ivec2": [Vec2(x[0], x[1]) for x in IN_IVECTOR],
"uvec2": [Vec2(x[0], x[1]) for x in IN_UVECTOR],
"ivec3": [Vec3(x[0], x[1], x[2]) for x in IN_IVECTOR],
"uvec3": [Vec3(x[0], x[1], x[2]) for x in IN_UVECTOR],
"ivec4": [Vec4(x[0], x[1], x[2], x[3]) for x in IN_IVECTOR],
"uvec4": [Vec4(x[0], x[1], x[2], x[3]) for x in IN_UVECTOR],
"float": [Scalar(x).toFloat() for x in IN_ISCALAR],
"vec2": [Vec2(x[0], x[1]).toFloat() for x in IN_IVECTOR],
"vec3": [Vec3(x[0], x[1], x[2]).toFloat() for x in IN_IVECTOR],
"vec4": [Vec4(x[0], x[1], x[2], x[3]).toFloat() for x in IN_IVECTOR],
}
VALID_CONVERSIONS = {
"int": ["float", "uint"],
"uint": ["float"],
"ivec2": ["uvec2", "vec2"],
"uvec2": ["vec2"],
"ivec3": ["uvec3", "vec3"],
"uvec3": ["vec3"],
"ivec4": ["uvec4", "vec4"],
"uvec4": ["vec4"]
}
SCALAR_TO_VECTOR_CONVERSIONS = {
"int": ["vec2", "vec3", "vec4", "uvec2", "uvec3", "uvec4"],
"uint": ["vec2", "vec3", "vec4"]
}
VALID_ASSIGNMENTS = {
"int": ["ivec2", "ivec3", "ivec4"],
"uint": ["uvec2", "uvec3", "uvec4"],
"ivec2": ["int", "float"],
"ivec3": ["int", "float"],
"ivec4": ["int", "float"],
"uvec2": ["uint", "float"],
"uvec3": ["uint", "float"],
"uvec4": ["uint", "float"],
"float": ["vec2", "vec3", "vec4"],
"vec2": ["float"],
"vec3": ["float"],
"vec4": ["float"]
}
IN_TYPE_ORDER = [
"int", "uint",
"ivec2", "uvec2", "ivec3",
"uvec3", "ivec4", "uvec4",
"float",
"vec2", "vec3", "vec4"
]
def isScalarTypeName (name):
return name in ["float", "int", "uint"]
def isVec2TypeName (name):
return name in ["vec2", "ivec2", "uvec2"]
def isVec3TypeName (name):
return name in ["vec3", "ivec3", "uvec3"]
def isVec4TypeName (name):
return name in ["vec4", "ivec4", "uvec4"]
# Utilities
def scalarToVector(a, b):
if isinstance(a, Scalar) and isinstance(b, Vec2):
a = a.toVec2()
elif isinstance(a, Scalar) and isinstance(b, Vec3):
a = a.toVec3()
elif isinstance(a, Scalar) and isinstance(b, Vec4):
a = a.toVec4()
return a
def isUintTypeName (type_name):
return type_name in ["uint", "uvec2", "uvec3", "uvec4"]
def convLiteral (type, value):
if isUintTypeName(type):
return int(value)
else:
return value
def valueToStr(value_type, value):
if isinstance(value, Scalar):
return str(value)
else:
assert isinstance(value, genutil.Vec)
out = value_type + "("
out += ", ".join([str(convLiteral(value_type, x)) for x in value.getScalars()])
out += ")"
return out
def valuesToStr(prefix, value_type, values):
def gen_value_strs(value_list, value_type):
for value in value_list:
yield valueToStr(value_type, value)
return "%s = [ %s ];" % (prefix, " | ".join(gen_value_strs(values, value_type)))
# Test cases
class ArithmeticCase(genutil.ShaderCase):
def __init__(self, name, op, in_type, out_type, reverse=False):
self.op_func = {
"+": operator.add,
"-": operator.sub,
"*": operator.mul,
"/": operator.div,
}
self.name = name
self.op = op
self.in_type = in_type
self.out_type = out_type
self.reverse = reverse
def __str__(self):
params = {
"NAME": self.name,
"EXPR": self.get_expr(),
"VALUES": self.gen_values(),
}
return genutil.fillTemplate(ARTIHMETIC_CASE_TEMPLATE, params)
def apply(self, a, b):
assert(self.op in self.op_func)
a = scalarToVector(a, b)
if self.reverse:
b, a = a, b
return self.op_func[self.op](a, b)
def get_expr(self):
expr = ["in0", self.op, str(self.get_operand())]
if self.reverse:
expr.reverse()
return " ".join(expr)
def get_operand(self):
operands = {
"float": Scalar(2.0),
"vec2": Vec2(1.0, 2.0),
"vec3": Vec3(1.0, 2.0, 3.0),
"vec4": Vec4(1.0, 2.0, 3.0, 4.0),
"uint": Uint(2),
"uvec2": UVec2(1, 2),
"uvec3": UVec3(1, 2, 3),
"uvec4": UVec4(1, 2, 3, 4),
}
assert self.out_type in operands
return operands[self.out_type]
def gen_values(self):
in_values = IN_VALUES[self.in_type]
y = self.get_operand()
out_values = [self.apply(x, y) for x in in_values]
out = []
out.append(valuesToStr("input %s in0" % (self.in_type), self.in_type, in_values))
out.append(valuesToStr("output %s out0" % (self.out_type), self.out_type, out_values))
return "\n".join(out)
class ComparisonsCase(ArithmeticCase):
def __init__(self, name, op, in_type, out_type, reverse=False):
super(ComparisonsCase, self).__init__(name, op, in_type, out_type, reverse)
self.op_func = {
"==": operator.eq,
"!=": operator.ne,
"<": operator.lt,
">": operator.gt,
"<=": operator.le,
">=": operator.ge,
}
def apply(self, a, b):
assert(self.op in self.op_func)
if isinstance(a, Scalar) and isinstance(b, Scalar):
a, b = float(a), float(b)
if self.reverse:
b, a = a, b
return Scalar(self.op_func[self.op](a, b))
def gen_values(self):
in_values = IN_VALUES[self.in_type]
y = self.get_operand()
out_values = [self.apply(x, y) for x in in_values]
out = []
out.append(valuesToStr("input %s in0" % (self.in_type), self.in_type, in_values))
out.append(valuesToStr("output bool out0", "bool", out_values))
return "\n".join(out)
class ParenthesizedCase(genutil.ShaderCase):
def __init__(self, name, in_type, out_type, reverse=False, input_in_parens=False):
self.name = name
self.in_type = in_type
self.out_type = out_type
self.reverse = reverse
self.input_in_parens = input_in_parens
def __str__(self):
params = {
"NAME": self.name,
"EXPR": self.get_expr(),
"VALUES": self.gen_values(),
}
return genutil.fillTemplate(ARTIHMETIC_CASE_TEMPLATE, params)
def apply(self, a):
b, c = self.get_operand(0), self.get_operand(1)
a = scalarToVector(a, b)
if self.input_in_parens:
return b*(a+c)
else:
return a*(b+c)
def get_expr(self):
def make_paren_expr():
out = [
"in0" if self.input_in_parens else self.get_operand(0),
"+",
self.get_operand(1)
]
return "(%s)" % (" ".join([str(x) for x in out]))
expr = [
"in0" if not self.input_in_parens else self.get_operand(0),
"*",
make_paren_expr()
]
if self.reverse:
expr.reverse()
return " ".join([str(x) for x in expr])
def get_operand(self, ndx=0):
return IN_VALUES[self.out_type][ndx]
def gen_values(self):
in_values = IN_VALUES[self.in_type]
out_values = [self.apply(x) for x in in_values]
out = []
out.append(valuesToStr("input %s in0" % (self.in_type), self.in_type, in_values))
out.append(valuesToStr("output %s out0" % (self.out_type), self.out_type, out_values))
return "\n".join(out)
class FunctionsCase(genutil.ShaderCase):
def __init__(self, name, in_type, out_type):
self.name = name
self.in_type = in_type
self.out_type = out_type
def __str__(self):
params = {
"NAME": self.name,
"OUTTYPE": self.out_type,
"VALUES": self.gen_values(),
}
return genutil.fillTemplate(FUNCTIONS_CASE_TEMPLATE, params)
def apply(self, a):
if isUintTypeName(self.out_type):
return a.toUint() * Uint(2)
else:
return a.toFloat() * Scalar(2.0)
def gen_values(self):
in_values = IN_VALUES[self.in_type]
out_values = [self.apply(x) for x in in_values]
out = []
out.append(valuesToStr("input %s in0" % (self.in_type), self.in_type, in_values))
out.append(valuesToStr("output %s out0" % (self.out_type), self.out_type, out_values))
return "\n".join(out)
class ArrayCase(genutil.ShaderCase):
def __init__(self, name, in_type, out_type, reverse=False):
self.name = name
self.in_type = in_type
self.out_type = out_type
self.reverse = reverse
def __str__(self):
params = {
"NAME": self.name,
"VALUES": self.gen_values(),
"ARRAYTYPE": self.out_type,
"ARRAYVALUES": self.gen_array_values(),
"EXPR": self.get_expr(),
}
return genutil.fillTemplate(ARRAY_CASE_TEMPLATE, params)
def apply(self, a):
b = IN_VALUES[self.out_type][1]
a = scalarToVector(a, b)
return a + b
def get_expr(self):
if not self.reverse:
return "in0 + x[1]"
else:
return "x[1] + in0"
def gen_values(self):
in_values = IN_VALUES[self.in_type]
out_values = [self.apply(x) for x in in_values]
out = []
out.append(valuesToStr("input %s in0" % (self.in_type), self.in_type, in_values))
out.append(valuesToStr("output %s out0" % (self.out_type), self.out_type, out_values))
return "\n".join(out)
def gen_array_values(self):
out = [valueToStr(self.out_type, x) for x in IN_VALUES[self.out_type]]
return ", ".join(out)
class ArrayUnpackCase(genutil.ShaderCase):
def __init__(self, name, in_type, out_type):
self.name = name
self.in_type = in_type
self.out_type = out_type
def __str__(self):
params = {
"NAME": self.name,
"VALUES": self.gen_values(),
"ARRAYTYPE": "float",
"ARRAYVALUES": self.gen_array_values(),
"EXPR": self.get_expr(),
}
return genutil.fillTemplate(ARRAY_CASE_TEMPLATE, params)
def apply(self, a):
if isinstance(a, Scalar) and isVec2TypeName(self.out_type):
a = a.toVec2()
elif isinstance(a, Scalar) and isVec3TypeName(self.out_type):
a = a.toVec3()
elif isinstance(a, Scalar) and isVec4TypeName(self.out_type):
a = a.toVec4()
b = IN_VALUES["float"]
out = [Scalar(x)+y for x, y in zip(a.getScalars(), b)]
if self.out_type == "float":
return out[0].toFloat()
elif self.out_type == "uint":
return out[0].toUint()
elif self.out_type == "vec2":
return Vec2(out[0], out[1]).toFloat()
elif self.out_type == "uvec2":
return Vec2(out[0], out[1]).toUint()
elif self.out_type == "vec3":
return Vec3(out[0], out[1], out[2]).toFloat()
elif self.out_type == "uvec3":
return Vec3(out[0], out[1], out[2]).toUint()
elif self.out_type == "vec4":
return Vec4(out[0], out[1], out[2], out[3]).toFloat()
elif self.out_type == "uvec4":
return Vec4(out[0], out[1], out[2], out[3]).toUint()
def get_expr(self):
def num_scalars(typename):
return IN_VALUES[typename][0].getNumScalars()
def gen_sums():
in_scalars = num_scalars(self.in_type)
out_scalars = num_scalars(self.out_type)
for ndx in range(out_scalars):
if in_scalars > 1:
yield "in0[%i] + x[%i]" % (ndx, ndx)
else:
yield "in0 + x[%i]" % (ndx)
return "%s(%s)" % (self.out_type, ", ".join(gen_sums()))
def gen_values(self):
in_values = IN_VALUES[self.in_type]
out_values = [self.apply(x) for x in in_values]
out = []
out.append(valuesToStr("input %s in0" % (self.in_type), self.in_type, in_values))
out.append(valuesToStr("output %s out0" % (self.out_type), self.out_type, out_values))
return "\n".join(out)
def gen_array_values(self):
out = [valueToStr(self.out_type, x) for x in IN_VALUES["float"]]
return ", ".join(out)
class StructCase(genutil.ShaderCase):
def __init__(self, name, in_type, out_type, reverse=False):
self.name = name
self.in_type = in_type
self.out_type = out_type
self.reverse = reverse
def __str__(self):
params = {
"NAME": self.name,
"VALUES": self.gen_values(),
"OUTTYPE": self.out_type,
"STRUCTVALUE": self.get_struct_value(),
"EXPR": self.get_expr(),
}
return genutil.fillTemplate(STRUCT_CASE_TEMPLATE, params)
def apply(self, a):
if isinstance(a, Scalar) and isVec2TypeName(self.out_type):
a = a.toVec2()
elif isinstance(a, Scalar) and isVec3TypeName(self.out_type):
a = a.toVec3()
elif isinstance(a, Scalar) and isVec4TypeName(self.out_type):
a = a.toVec4()
b = IN_VALUES[self.out_type][0]
return a + b
def get_expr(self):
if not self.reverse:
return "in0 + x.val"
else:
return "x.val + in0"
def gen_values(self):
in_values = IN_VALUES[self.in_type]
out_values = [self.apply(x) for x in in_values]
out = []
out.append(valuesToStr("input %s in0" % (self.in_type), self.in_type, in_values))
out.append(valuesToStr("output %s out0" % (self.out_type), self.out_type, out_values))
return "\n".join(out)
def get_struct_value(self):
return valueToStr(self.out_type, IN_VALUES[self.out_type][0])
class InvalidCase(genutil.ShaderCase):
def __init__(self, name, in_type, out_type):
self.name = name
self.in_type = in_type
self.out_type = out_type
def __str__(self):
params = {
"NAME": self.name,
"OPERAND": str(self.get_operand()),
"VALUES": self.gen_values(),
}
return genutil.fillTemplate(INVALID_CASE_TEMPLATE, params)
def apply(self, a, b):
return b
def get_operand(self):
return IN_VALUES[self.out_type][0]
def gen_values(self):
in_values = IN_VALUES[self.in_type]
y = self.get_operand()
out_values = [self.apply(x, y) for x in in_values]
out = []
out.append(valuesToStr("input %s in0" % (self.in_type), self.in_type, in_values))
out.append(valuesToStr("output %s out0" % (self.out_type), self.out_type, out_values))
return "\n".join(out)
class InvalidArrayCase(genutil.ShaderCase):
def __init__(self, name, in_type, out_type):
self.name = name
self.in_type = in_type
self.out_type = out_type
def __str__(self):
params = {
"NAME": self.name,
"EXPR": self.gen_expr(),
}
return genutil.fillTemplate(INVALID_ARRAY_CASE_TEMPLATE, params)
def gen_expr(self):
in_values = [valueToStr(self.out_type, x) for x in IN_VALUES[self.in_type]]
out = "%s a[] = %s[] (%s);" % (self.out_type, self.in_type, ", ".join(in_values))
return out
class InvalidStructCase(genutil.ShaderCase):
def __init__(self, name, in_type, out_type):
self.name = name
self.in_type = in_type
self.out_type = out_type
def __str__(self):
params = {
"NAME": self.name,
"INTYPE": self.in_type,
"OUTTYPE": self.out_type,
"INVALUE": self.get_value(),
}
return genutil.fillTemplate(INVALID_STRUCT_CASE_TEMPLATE, params)
def get_value(self):
return valueToStr(self.in_type, IN_VALUES[self.in_type][0])
# Case file generation
def genConversionPairs(order=IN_TYPE_ORDER, scalar_to_vector=True, additional={}):
def gen_order(conversions):
key_set = set(conversions.iterkeys())
for typename in order:
if typename in key_set:
yield typename
conversions = {}
for in_type in VALID_CONVERSIONS:
conversions[in_type] = [] + VALID_CONVERSIONS[in_type]
if in_type in SCALAR_TO_VECTOR_CONVERSIONS and scalar_to_vector:
conversions[in_type] += SCALAR_TO_VECTOR_CONVERSIONS[in_type]
for key in additional.iterkeys():
value = conversions.get(key, [])
conversions[key] = value + additional[key]
for in_type in gen_order(conversions):
for out_type in conversions[in_type]:
yield (in_type, out_type)
def genInvalidConversions():
types = IN_TYPE_ORDER
valid_pairs = set(genConversionPairs(additional=VALID_ASSIGNMENTS))
for pair in itertools.permutations(types, 2):
if pair not in valid_pairs:
yield pair
def genArithmeticCases(reverse=False):
op_names = [
("add", "Addition", "+"),
("sub", "Subtraction", "-"),
("mul", "Multiplication", "*"),
("div", "Division", "/")
]
for name, desc, op in op_names:
casegroup = CaseGroup(name, desc, [])
for in_type, out_type in genConversionPairs():
if op == "-" and isUintTypeName(out_type):
continue # Can't handle at the moment
name = in_type + "_to_" + out_type
casegroup.children.append(ArithmeticCase(name, op, in_type, out_type, reverse))
yield casegroup
def genComparisonCases(reverse=False):
op_names = [
("equal", "Equal", "=="),
("not_equal", "Not equal", "!="),
("less", "Less than", "<"),
("greater", "Greater than", ">"),
("less_or_equal", "Less than or equal", "<="),
("greater_or_equal", "Greater than or equal", ">="),
]
for name, desc, op in op_names:
casegroup = CaseGroup(name, desc, [])
type_order = IN_TYPE_ORDER if name in ["equal", "not_equal"] else ["int", "uint"]
for in_type, out_type in genConversionPairs(order=type_order, scalar_to_vector=False):
name = in_type + "_to_" + out_type
casegroup.children.append(ComparisonsCase(name, op, in_type, out_type, reverse))
yield casegroup
def genParenthesizedCases():
for reverse in [True, False]:
if reverse:
name = "paren_expr_before_literal"
desc = "Parenthesized expression before literal"
else:
name = "literal_before_paren_expr"
desc = "Literal before parenthesized expression"
reversegroup = CaseGroup(name, desc, [])
for input_in_parens in [True, False]:
if input_in_parens:
name = "input_in_parens"
desc = "Input variable in parenthesized expression"
else:
name = "input_outside_parens"
desc = "Input variable outside parenthesized expression"
casegroup = CaseGroup(name, desc, [])
for in_type, out_type in genConversionPairs():
name = in_type + "_to_" + out_type
casegroup.children.append(
ParenthesizedCase(name, in_type, out_type, reverse, input_in_parens)
)
reversegroup.children.append(casegroup)
yield reversegroup
def genArrayCases(reverse=False):
for in_type, out_type in genConversionPairs():
name = in_type + "_to_" + out_type
yield ArrayCase(name, in_type, out_type, reverse)
def genArrayUnpackCases(reverse=False):
for in_type, out_type in genConversionPairs():
name = in_type + "_to_" + out_type
yield ArrayUnpackCase(name, in_type, out_type)
def genFunctionsCases():
for in_type, out_type in genConversionPairs(scalar_to_vector=False):
name = in_type + "_to_" + out_type
yield FunctionsCase(name, in_type, out_type)
def genStructCases(reverse=False):
for in_type, out_type in genConversionPairs():
name = in_type + "_to_" + out_type
yield StructCase(name, in_type, out_type, reverse)
def genInvalidCases(reverse=False):
for in_type, out_type in genInvalidConversions():
name = in_type + "_to_" + out_type
yield InvalidCase(name, in_type, out_type)
def genInvalidArrayCases():
for in_type, out_type in genConversionPairs(scalar_to_vector=False):
name = in_type + "_to_" + out_type
yield InvalidArrayCase(name, in_type, out_type)
def genInvalidStructCases():
for in_type, out_type in genConversionPairs(scalar_to_vector=False):
name = in_type + "_to_" + out_type
yield InvalidStructCase(name, in_type, out_type)
def genAllCases():
yield CaseGroup(
"arithmetic", "Arithmetic operations",
[
CaseGroup("input_before_literal", "Input before literal",
genArithmeticCases(reverse=False)),
CaseGroup("literal_before_input", "Literal before input",
genArithmeticCases(reverse=True)),
]
)
yield CaseGroup(
"comparisons", "Comparisons",
[
CaseGroup("input_before_literal", "Input before literal",
genComparisonCases(reverse=False)),
CaseGroup("literal_before_input", "Literal before input",
genComparisonCases(reverse=True)),
]
)
yield CaseGroup(
"array_subscripts", "Array subscripts",
[
CaseGroup("input_before_subscript", "Input before subscript",
genArrayCases(reverse=False)),
CaseGroup("subscript_before_input", "Subscript before input",
genArrayCases(reverse=True)),
# CaseGroup("unpack", "Unpack array and repack as value",
# genArrayUnpackCases()),
]
)
yield CaseGroup("functions", "Function calls",
genFunctionsCases())
yield CaseGroup("struct_fields", "Struct field selectors",
[
CaseGroup("input_before_field", "Input before field",
genStructCases(reverse=False)),
CaseGroup("field_before_input", "Field before input",
genStructCases(reverse=True)),
]
)
yield CaseGroup("parenthesized_expressions", "Parenthesized expressions",
genParenthesizedCases())
yield CaseGroup(
"invalid", "Invalid conversions",
[
CaseGroup("variables", "Single variables",
genInvalidCases()),
CaseGroup("arrays", "Arrays",
genInvalidArrayCases()),
CaseGroup("structs", "Structs",
genInvalidStructCases()),
]
)
if __name__ == "__main__":
print "Generating shader case files."
genutil.writeAllCases("implicit_conversions.test", genAllCases())