| /external/dng_sdk/source/ |
| dng_1d_function.cpp | 45 real64 y0 = Evaluate (x0);
48 real64 y1 = Evaluate (x1);
62 real64 y2 = Evaluate (x2);
87 real64 dng_1d_identity::Evaluate (real64 x) const
138 real64 dng_1d_concatenate::Evaluate (real64 x) const
141 real64 y = Pin_real64 (0.0, fFunction1.Evaluate (x), 1.0);
143 return fFunction2.Evaluate (y);
179 real64 dng_1d_inverse::Evaluate (real64 x) const
191 return fFunction.Evaluate (y);
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| dng_1d_function.h | 41 /// Returns true if this function is the map x -> y such that x == y for all x . That is if Evaluate(x) == x for all x.
51 virtual real64 Evaluate (real64 x) const = 0;
55 /// for x such that Evaluate(x) == y.
57 /// \retval A value x such that Evaluate(x) == y (to very close approximation).
77 virtual real64 Evaluate (real64 x) const;
104 /// Create a dng_1d_function which computes y = function2.Evaluate(function1.Evaluate(x)).
105 /// Compose function1 and function2 to compute y = function2.Evaluate(function1.Evaluate(x)). The range of function1.Evaluate must be a subset of 0.0 to 1.0 inclusive
[all...] |
| dng_color_space.h | 37 virtual real64 Evaluate (real64 x) const;
54 virtual real64 Evaluate (real64 x) const;
71 virtual real64 Evaluate (real64 x) const;
135 return GammaFunction ().Evaluate (x);
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| dng_render.h | 55 virtual real64 Evaluate (real64 x) const;
83 virtual real64 Evaluate (real64 x) const;
98 virtual real64 Evaluate (real64 x) const;
123 virtual real64 Evaluate (real64 x) const;
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| dng_1d_table.cpp | 72 fTable [middle] = (real32) function.Evaluate (middle * (1.0 / (real64) kTableSize));
120 fTable [0 ] = (real32) function.Evaluate (0.0);
121 fTable [kTableSize] = (real32) function.Evaluate (1.0);
142 real64 y = function.Evaluate (x);
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| dng_spline.h | 76 virtual real64 Evaluate (real64 x) const;
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| /external/libtextclassifier/lang_id/features/ |
| relevant-script-feature.h | 49 void Evaluate(const WorkspaceSet &workspaces,
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| char-ngram-feature.h | 62 void Evaluate(const WorkspaceSet &workspaces, const LightSentence &sentence,
69 // Auxiliary for Evaluate(). Fills counts_ and non_zero_count_indices_ (see
78 // counts_[i] is the count of all ngrams with id i. Work data for Evaluate().
80 // stays allocated in between calls to Evaluate().
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| /external/tensorflow/tensorflow/contrib/tensor_forest/kernels/ |
| reinterpret_string_to_float_op.cc | 38 void Evaluate(const Tensor& input_data, Tensor output_data, int32 start,
63 // Evaluate input data in parallel.
68 Evaluate(input_data, *output_data, 0, num_data);
73 Evaluate(input_data, *output_data, static_cast<int32>(start),
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| /bootable/recovery/edify/ |
| expr.cpp | 39 // - if Evaluate() on any argument returns nullptr, return nullptr.
45 bool Evaluate(State* state, const std::unique_ptr<Expr>& expr, std::string* result) {
85 if (!Evaluate(state, argv[i], &str)) {
101 if (!Evaluate(state, argv[0], &cond)) {
116 if (!argv.empty() && Evaluate(state, argv[0], &msg)) {
127 if (!Evaluate(state, argv[i], &result)) {
141 if (!Evaluate(state, argv[0], &val)) {
157 if (!Evaluate(state, argv[i], &v)) {
168 if (!Evaluate(state, argv[0], &left)) {
181 if (!Evaluate(state, argv[0], &left))
[all...] |
| /external/tensorflow/tensorflow/compiler/xla/service/ |
| hlo_creation_utils_test.cc | 61 evaluator.Evaluate(*module, {LiteralUtil::CreateR1<int32>({3, 4})}));
80 evaluator.Evaluate(*module, {LiteralUtil::CreateR3<int32>(
103 evaluator.Evaluate(*module, {LiteralUtil::CreateR1<int32>({9, 10})}));
122 evaluator.Evaluate(*module, {LiteralUtil::CreateR1<int32>({9, 10})}));
141 evaluator.Evaluate(*module, {LiteralUtil::CreateR0<int32>(9)}));
160 evaluator.Evaluate(*module,
182 evaluator.Evaluate(*module, {LiteralUtil::CreateR1<int32>({3, 4})}));
201 evaluator.Evaluate(*module, {LiteralUtil::CreateR0<int32>(0)}));
220 evaluator.Evaluate(*module, {LiteralUtil::CreateR0<float>(0.0f)}));
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| hlo_evaluator.h | 45 // Only evaluate up to max_loop_iterations per while-loop execution if
57 // so that Evaluate(module, {}) resolves unambiguously.)
58 StatusOr<Literal> Evaluate(const HloModule& module,
60 return Evaluate(*module.entry_computation(), arg_literals);
63 StatusOr<Literal> Evaluate(const HloModule& module,
65 return Evaluate(*module.entry_computation(), arg_literals);
86 // so that Evaluate(module, {}) resolves unambiguously.)
87 StatusOr<Literal> Evaluate(const HloComputation& computation,
90 StatusOr<Literal> Evaluate(const HloComputation& computation,
96 return Evaluate(computation, arg_literal_ptrs)
[all...] |
| hlo_evaluator_test.cc | 61 StatusOr<Literal> Evaluate(
66 return evaluator_.Evaluate(*m_->entry_computation(), arg_literals);
69 // Evaluate function that takes in a local module instead of using m_
71 // removed, this should be the default Evaluate function.
77 return evaluator_.Evaluate(*module->entry_computation(), arg_literals)
89 TF_ASSERT_OK_AND_ASSIGN(Literal result, Evaluate());
109 TF_ASSERT_OK_AND_ASSIGN(Literal result, Evaluate());
127 TF_ASSERT_OK_AND_ASSIGN(Literal result, Evaluate());
166 TF_ASSERT_OK_AND_ASSIGN(Literal result, Evaluate());
192 TF_ASSERT_OK_AND_ASSIGN(Literal result, Evaluate());
[all...] |
| /art/compiler/optimizing/ |
| nodes_x86.h | 144 HConstant* Evaluate(HIntConstant* x, HIntConstant* y) const override {
148 HConstant* Evaluate(HLongConstant* x, HLongConstant* y) const override {
152 HConstant* Evaluate(HFloatConstant* x ATTRIBUTE_UNUSED,
157 HConstant* Evaluate(HDoubleConstant* x ATTRIBUTE_UNUSED,
193 HConstant* Evaluate(HIntConstant* x) const override {
196 HConstant* Evaluate(HLongConstant* x) const override {
199 HConstant* Evaluate(HFloatConstant* x ATTRIBUTE_UNUSED) const override {
203 HConstant* Evaluate(HDoubleConstant* x ATTRIBUTE_UNUSED) const override {
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| nodes.h | [all...] |
| dead_code_elimination.cc | 125 static HConstant* Evaluate(HCondition* condition, HInstruction* left, HInstruction* right) {
136 return condition->Evaluate(left->AsIntConstant(), right->AsIntConstant());
138 return condition->Evaluate(left->AsNullConstant(), right->AsNullConstant());
140 return condition->Evaluate(left->AsLongConstant(), right->AsLongConstant());
142 return condition->Evaluate(left->AsFloatConstant(), right->AsFloatConstant());
145 return condition->Evaluate(left->AsDoubleConstant(), right->AsDoubleConstant());
359 value_to_check = Evaluate(first->AsCondition(), input, first->InputAt(1));
361 value_to_check = Evaluate(first->AsCondition(), first->InputAt(0), input);
365 // Could not evaluate to a constant, continue iterating over the inputs.
394 // Evaluate here (and not wait for a constant folding pass) to ope
[all...] |
| nodes_shared.h | 100 HConstant* Evaluate(HIntConstant* x, HIntConstant* y) const override {
104 HConstant* Evaluate(HLongConstant* x, HLongConstant* y) const override {
108 HConstant* Evaluate(HFloatConstant* x ATTRIBUTE_UNUSED,
113 HConstant* Evaluate(HDoubleConstant* x ATTRIBUTE_UNUSED,
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| /external/deqp/framework/randomshaders/ |
| rsgBuiltinFunctions.hpp | 35 template <class GetValueRangeWeight, class ComputeValueRange, class Evaluate>
45 void evaluate (ExecutionContext& execCtx);
57 template <class GetValueRangeWeight, class ComputeValueRange, class Evaluate>
58 UnaryBuiltinVecFunc<GetValueRangeWeight, ComputeValueRange, Evaluate>::UnaryBuiltinVecFunc (GeneratorState& state, const char* function, ConstValueRangeAccess valueRange)
78 template <class GetValueRangeWeight, class ComputeValueRange, class Evaluate>
79 UnaryBuiltinVecFunc<GetValueRangeWeight, ComputeValueRange, Evaluate>::~UnaryBuiltinVecFunc (void)
84 template <class GetValueRangeWeight, class ComputeValueRange, class Evaluate>
85 Expression* UnaryBuiltinVecFunc<GetValueRangeWeight, ComputeValueRange, Evaluate>::createNextChild (GeneratorState& state)
94 template <class GetValueRangeWeight, class ComputeValueRange, class Evaluate>
95 void UnaryBuiltinVecFunc<GetValueRangeWeight, ComputeValueRange, Evaluate>::tokenize (GeneratorState& state, TokenStream& str) cons
103 void UnaryBuiltinVecFunc<GetValueRangeWeight, ComputeValueRange, Evaluate>::evaluate (ExecutionContext& execCtx) function in class:rsg::UnaryBuiltinVecFunc
[all...] |
| /external/llvm/examples/OCaml-Kaleidoscope/Chapter2/ |
| toplevel.ml | 25 (* Evaluate a top-level expression into an anonymous function. *)
|
| /external/llvm/examples/OCaml-Kaleidoscope/Chapter3/ |
| toplevel.ml | 29 (* Evaluate a top-level expression into an anonymous function. *)
|
| /external/swiftshader/third_party/LLVM/examples/OCaml-Kaleidoscope/Chapter2/ |
| toplevel.ml | 25 (* Evaluate a top-level expression into an anonymous function. *)
|
| /external/swiftshader/third_party/LLVM/examples/OCaml-Kaleidoscope/Chapter3/ |
| toplevel.ml | 29 (* Evaluate a top-level expression into an anonymous function. *)
|
| /external/swiftshader/third_party/llvm-7.0/llvm/examples/OCaml-Kaleidoscope/Chapter2/ |
| toplevel.ml | 25 (* Evaluate a top-level expression into an anonymous function. *)
|
| /external/swiftshader/third_party/llvm-7.0/llvm/examples/OCaml-Kaleidoscope/Chapter3/ |
| toplevel.ml | 29 (* Evaluate a top-level expression into an anonymous function. *)
|
| /device/linaro/bootloader/edk2/MdeModulePkg/Universal/SetupBrowserDxe/ |
| Expression.h | 204 Evaluate the result of a HII expression.
233 @param Evaluate Whether need to evaluate the expression first.
244 IN BOOLEAN Evaluate,
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