modules/gles3/scripts/gen-qualification_order.py - third_party/vulkan-cts - Git at Google

 # -*- 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
 from collections import namedtuple
 from genutil import *

 # Templates

 declarationTemplate = """
 case ${{NAME}}
 	${{COMPILE_FAIL}}
 	values {}

 	vertex ""
 		#version 300 es
 		precision mediump float;
 		in highp vec4 dEQP_Position;

 		${{VARIABLE_VTX}}

 		void main()
 		{
 			x0 = 1.0;
 			x1 = 2.0;
 			gl_Position = dEQP_Position;
 		}
 	""

 	fragment ""
 		#version 300 es
 		precision mediump float;
 		layout(location = 0) out mediump vec4 dEQP_FragColor;

 		${{VARIABLE_FRG}}

 		void main()
 		{
 			float result = (x0 + x1 + x2) / 3.0;
 			dEQP_FragColor = vec4(result, result, result, 1.0);
 		}
 	""
 end
 """[1:-1]

 parameterTemplate = """
 case ${{NAME}}
 	${{COMPILE_FAIL}}
 	version 300 es
 	values {}

 	both ""
 		#version 300 es
 		precision mediump float;
 		${DECLARATIONS}

 		float foo0 (${{PARAMETER0}})
 		{
 			return x + 1.0;
 		}

 		void foo1 (${{PARAMETER1}})
 		{
 			x = 1.0;
 		}

 		float foo2 (${{PARAMETER2}})
 		{
 			return x + 1.0;
 		}

 		void main()
 		{
 			${SETUP}
 			float result;
 			foo1(result);
 			float x0 = foo0(1.0);
 			foo2(result);
 			${OUTPUT}
 		}
 	""
 end
 """[1:-1]

 # Classes

 class DeclarationCase(ShaderCase):
 	def __init__(self, compileFail, invariantInput, paramList):
 		self.compileFail	= 'expect compile_fail' if compileFail else 'expect pass'
 		self.name			= ''
 		var0				= ''
 		var1				= ''
 		var2				= ''

 		for p in paramList:
 			self.name += p.name
 			if paramList.index(p) != len(paramList)-1:
 				self.name += '_'

 			var0 += p.vars[0] + ' '
 			var1 += p.vars[1] + ' '
 			var2 += p.vars[2] + ' '

 		if invariantInput:
 			self.name += "_invariant_input"

 		var0 += 'float x0;\n'
 		var1 += 'float x1;\n'
 		var2 += 'float x2;'

 		variables = (var0 + var1 + var2).strip()
 		variables			= variables.replace("  ", " ")
 		self.variableVtx	= variables.replace("anon_centroid", "out")
 		self.variableFrg	= variables.replace("anon_centroid", "in")
 		self.variableVtx	= self.variableVtx.replace("centroid", "centroid out")
 		self.variableFrg	= self.variableFrg.replace("centroid", "centroid in")

 		self.variableFrg	= self.variableFrg.replace("invariant", "")	# input variable cannot be invariant...
 		if invariantInput:
 			self.variableFrg = "invariant " + self.variableFrg			# ...unless we are doing a negative test

 	def __str__(self):
 		params = {
 			"NAME"			: self.name,
 			"COMPILE_FAIL"	: self.compileFail,
 			"VARIABLE_VTX"	: self.variableVtx,
 			"VARIABLE_FRG"	: self.variableFrg
 		}
 		return fillTemplate(declarationTemplate, params)

 class ParameterCase(ShaderCase):
 	def __init__(self, compileFail, paramList):
 		self.compileFail	= "expect compile_fail" if compileFail else "expect pass"
 		self.name			= ''
 		self.param0			= ''
 		self.param1			= ''
 		self.param2			= ''

 		for p in paramList:
 			self.name += p.name
 			if paramList.index(p) != len(paramList)-1:
 				self.name += '_'

 			self.param0 += p.vars[0] + ' '
 			self.param1 += p.vars[1] + ' '
 			self.param2 += p.vars[2] + ' '

 		self.param0 += 'float x'
 		self.param1 += 'float x'
 		self.param2 += 'float x'
 		self.param0	= self.param0.replace("  ", " ")
 		self.param1	= self.param1.replace("  ", " ")
 		self.param2	= self.param2.replace("  ", " ")

 	def __str__(self):
 		params = {
 			"NAME"			: self.name,
 			"COMPILE_FAIL"	: self.compileFail,
 			"PARAMETER0"	: self.param0,
 			"PARAMETER1"	: self.param1,
 			"PARAMETER2"	: self.param2,
 		}
 		return fillTemplate(parameterTemplate, params)

 # Declarations

 CaseFormat			= namedtuple('CaseFormat', 'name vars')

 DECL_INVARIANT		= CaseFormat("invariant",	[ "invariant",	"",					"" ])
 DECL_INTERPOLATION	= CaseFormat("interp",		[ "smooth",		"flat",				"" ])
 DECL_STORAGE		= CaseFormat("storage",		[ "centroid",	"anon_centroid",	"uniform" ])
 DECL_PRECISION		= CaseFormat("precision",	[ "lowp",		"mediump",			"highp" ])

 PARAM_STORAGE		= CaseFormat("storage",		[ "const",		"",					""])
 PARAM_PARAMETER		= CaseFormat("parameter",	[ "in",			"out",				"inout" ])
 PARAM_PRECISION		= CaseFormat("precision",	[ "lowp",		"mediump",			"highp" ])

 # Order of qualification tests

 validDeclarationCases	= []
 invalidDeclarationCases = []
 validParameterCases		= []
 invalidParameterCases	= []

 declFormats = [
 	[DECL_INVARIANT, DECL_INTERPOLATION, DECL_STORAGE, DECL_PRECISION],
 	[DECL_INTERPOLATION, DECL_STORAGE, DECL_PRECISION],
 	[DECL_INVARIANT, DECL_INTERPOLATION, DECL_STORAGE],
 	[DECL_INVARIANT, DECL_STORAGE, DECL_PRECISION],
 	[DECL_STORAGE, DECL_PRECISION],
 	[DECL_INTERPOLATION, DECL_STORAGE],
 	[DECL_INVARIANT, DECL_STORAGE]
 ]

 paramFormats = [
 	[PARAM_STORAGE, PARAM_PARAMETER, PARAM_PRECISION],
 	[PARAM_STORAGE, PARAM_PARAMETER],
 	[PARAM_STORAGE, PARAM_PRECISION],
 	[PARAM_PARAMETER, PARAM_PRECISION]
 ]
 print(len(paramFormats))

 for f in declFormats:
 	for p in itertools.permutations(f):
 		if list(p) == f:
 			validDeclarationCases.append(DeclarationCase(False, False, p))	# Correct order
 		else:
 			invalidDeclarationCases.append(DeclarationCase(True, False, p))	# Incorrect order

 for f in declFormats:
 	invalidDeclarationCases.append(DeclarationCase(True, True, f))	# Correct order but invariant is not allowed as and input parameter

 for f in paramFormats:
 	for p in itertools.permutations(f):
 		if list(p) == f:
 			validParameterCases.append(ParameterCase(False, p))	# Correct order
 		else:
 			invalidParameterCases.append(ParameterCase(True, p))	# Incorrect order

 qualificationOrderCases = [
 	CaseGroup("variables",	"Order of qualification in variable declarations.", children = [
 		CaseGroup("valid",		"Valid orderings.",		validDeclarationCases),
 		CaseGroup("invalid",	"Invalid orderings.",	invalidDeclarationCases)
 	]),
 	CaseGroup("parameters", "Order of qualification in function parameters.", children = [
 		CaseGroup("valid",		"Valid orderings.",		validParameterCases),
 		CaseGroup("invalid",	"Invalid orderings.",	invalidParameterCases)
 	])
 ]

 # Main program

 if __name__ == "__main__":
 	print("Generating shader case files.")
 	writeAllCases("qualification_order.test", qualificationOrderCases)
	# -- 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
	from collections import namedtuple
	from genutil import *

	# Templates

	declarationTemplate = """
	case ${{NAME}}
	${{COMPILE_FAIL}}
	values {}

	vertex ""
	#version 300 es
	precision mediump float;
	in highp vec4 dEQP_Position;

	${{VARIABLE_VTX}}

	void main()
	{
	x0 = 1.0;
	x1 = 2.0;
	gl_Position = dEQP_Position;
	}
	""

	fragment ""
	#version 300 es
	precision mediump float;
	layout(location = 0) out mediump vec4 dEQP_FragColor;

	${{VARIABLE_FRG}}

	void main()
	{
	float result = (x0 + x1 + x2) / 3.0;
	dEQP_FragColor = vec4(result, result, result, 1.0);
	}
	""
	end
	"""[1:-1]

	parameterTemplate = """
	case ${{NAME}}
	${{COMPILE_FAIL}}
	version 300 es
	values {}

	both ""
	#version 300 es
	precision mediump float;
	${DECLARATIONS}

	float foo0 (${{PARAMETER0}})
	{
	return x + 1.0;
	}

	void foo1 (${{PARAMETER1}})
	{
	x = 1.0;
	}

	float foo2 (${{PARAMETER2}})
	{
	return x + 1.0;
	}

	void main()
	{
	${SETUP}
	float result;
	foo1(result);
	float x0 = foo0(1.0);
	foo2(result);
	${OUTPUT}
	}
	""
	end
	"""[1:-1]

	# Classes

	class DeclarationCase(ShaderCase):
	def __init__(self, compileFail, invariantInput, paramList):
	self.compileFail = 'expect compile_fail' if compileFail else 'expect pass'
	self.name = ''
	var0 = ''
	var1 = ''
	var2 = ''

	for p in paramList:
	self.name += p.name
	if paramList.index(p) != len(paramList)-1:
	self.name += '_'

	var0 += p.vars[0] + ' '
	var1 += p.vars[1] + ' '
	var2 += p.vars[2] + ' '

	if invariantInput:
	self.name += "_invariant_input"

	var0 += 'float x0;\n'
	var1 += 'float x1;\n'
	var2 += 'float x2;'

	variables = (var0 + var1 + var2).strip()
	variables = variables.replace(" ", " ")
	self.variableVtx = variables.replace("anon_centroid", "out")
	self.variableFrg = variables.replace("anon_centroid", "in")
	self.variableVtx = self.variableVtx.replace("centroid", "centroid out")
	self.variableFrg = self.variableFrg.replace("centroid", "centroid in")

	self.variableFrg = self.variableFrg.replace("invariant", "") # input variable cannot be invariant...
	if invariantInput:
	self.variableFrg = "invariant " + self.variableFrg # ...unless we are doing a negative test

	def __str__(self):
	params = {
	"NAME" : self.name,
	"COMPILE_FAIL" : self.compileFail,
	"VARIABLE_VTX" : self.variableVtx,
	"VARIABLE_FRG" : self.variableFrg
	}
	return fillTemplate(declarationTemplate, params)

	class ParameterCase(ShaderCase):
	def __init__(self, compileFail, paramList):
	self.compileFail = "expect compile_fail" if compileFail else "expect pass"
	self.name = ''
	self.param0 = ''
	self.param1 = ''
	self.param2 = ''

	for p in paramList:
	self.name += p.name
	if paramList.index(p) != len(paramList)-1:
	self.name += '_'

	self.param0 += p.vars[0] + ' '
	self.param1 += p.vars[1] + ' '
	self.param2 += p.vars[2] + ' '

	self.param0 += 'float x'
	self.param1 += 'float x'
	self.param2 += 'float x'
	self.param0 = self.param0.replace(" ", " ")
	self.param1 = self.param1.replace(" ", " ")
	self.param2 = self.param2.replace(" ", " ")

	def __str__(self):
	params = {
	"NAME" : self.name,
	"COMPILE_FAIL" : self.compileFail,
	"PARAMETER0" : self.param0,
	"PARAMETER1" : self.param1,
	"PARAMETER2" : self.param2,
	}
	return fillTemplate(parameterTemplate, params)

	# Declarations

	CaseFormat = namedtuple('CaseFormat', 'name vars')

	DECL_INVARIANT = CaseFormat("invariant", [ "invariant", "", "" ])
	DECL_INTERPOLATION = CaseFormat("interp", [ "smooth", "flat", "" ])
	DECL_STORAGE = CaseFormat("storage", [ "centroid", "anon_centroid", "uniform" ])
	DECL_PRECISION = CaseFormat("precision", [ "lowp", "mediump", "highp" ])

	PARAM_STORAGE = CaseFormat("storage", [ "const", "", ""])
	PARAM_PARAMETER = CaseFormat("parameter", [ "in", "out", "inout" ])
	PARAM_PRECISION = CaseFormat("precision", [ "lowp", "mediump", "highp" ])

	# Order of qualification tests

	validDeclarationCases = []
	invalidDeclarationCases = []
	validParameterCases = []
	invalidParameterCases = []

	declFormats = [
	[DECL_INVARIANT, DECL_INTERPOLATION, DECL_STORAGE, DECL_PRECISION],
	[DECL_INTERPOLATION, DECL_STORAGE, DECL_PRECISION],
	[DECL_INVARIANT, DECL_INTERPOLATION, DECL_STORAGE],
	[DECL_INVARIANT, DECL_STORAGE, DECL_PRECISION],
	[DECL_STORAGE, DECL_PRECISION],
	[DECL_INTERPOLATION, DECL_STORAGE],
	[DECL_INVARIANT, DECL_STORAGE]
	]

	paramFormats = [
	[PARAM_STORAGE, PARAM_PARAMETER, PARAM_PRECISION],
	[PARAM_STORAGE, PARAM_PARAMETER],
	[PARAM_STORAGE, PARAM_PRECISION],
	[PARAM_PARAMETER, PARAM_PRECISION]
	]
	print(len(paramFormats))

	for f in declFormats:
	for p in itertools.permutations(f):
	if list(p) == f:
	validDeclarationCases.append(DeclarationCase(False, False, p)) # Correct order
	else:
	invalidDeclarationCases.append(DeclarationCase(True, False, p)) # Incorrect order

	for f in declFormats:
	invalidDeclarationCases.append(DeclarationCase(True, True, f)) # Correct order but invariant is not allowed as and input parameter

	for f in paramFormats:
	for p in itertools.permutations(f):
	if list(p) == f:
	validParameterCases.append(ParameterCase(False, p)) # Correct order
	else:
	invalidParameterCases.append(ParameterCase(True, p)) # Incorrect order

	qualificationOrderCases = [
	CaseGroup("variables", "Order of qualification in variable declarations.", children = [
	CaseGroup("valid", "Valid orderings.", validDeclarationCases),
	CaseGroup("invalid", "Invalid orderings.", invalidDeclarationCases)
	]),
	CaseGroup("parameters", "Order of qualification in function parameters.", children = [
	CaseGroup("valid", "Valid orderings.", validParameterCases),
	CaseGroup("invalid", "Invalid orderings.", invalidParameterCases)
	])
	]

	# Main program

	if __name__ == "__main__":
	print("Generating shader case files.")
	writeAllCases("qualification_order.test", qualificationOrderCases)