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  /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);
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
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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);
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;
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);
  /external/ceres-solver/include/ceres/
normal_prior.h 66 virtual bool Evaluate(double const* const* parameters,
loss_function.h 114 virtual void Evaluate(double sq_norm, double out[3]) const = 0;
134 virtual void Evaluate(double, double*) const;
178 virtual void Evaluate(double, double*) const;
194 virtual void Evaluate(double, double*) const;
211 virtual void Evaluate(double, double*) const;
232 virtual void Evaluate(double, double*) const;
271 virtual void Evaluate(double, double*) const;
285 virtual void Evaluate(double, double*) const;
322 virtual void Evaluate(double, double*) const;
378 virtual void Evaluate(double sq_norm, double out[3]) const
    [all...]
conditioned_cost_function.h 85 virtual bool Evaluate(double const* const* parameters,
cost_function.h 115 virtual bool Evaluate(double const* const* parameters,
  /external/ceres-solver/internal/ceres/
residual_block_utils_test.cc 44 // Routine to check if ResidualBlock::Evaluate for unary CostFunction
65 EXPECT_EQ(residual_block.Evaluate(true,
76 virtual bool Evaluate(double const* const* parameters,
88 // which user code can cause ResidualBlock::Evaluate to fail.
91 virtual bool Evaluate(double const* const* parameters,
105 virtual bool Evaluate(double const* const* parameters,
119 virtual bool Evaluate(double const* const* parameters,
132 virtual bool Evaluate(double const* const* parameters,
numeric_diff_test_utils.h 54 virtual bool Evaluate(double const* const* parameters,
79 virtual bool Evaluate(double const* const* parameters,
loss_function.cc 40 void TrivialLoss::Evaluate(double s, double rho[3]) const {
46 void HuberLoss::Evaluate(double s, double rho[3]) const {
62 void SoftLOneLoss::Evaluate(double s, double rho[3]) const {
71 void CauchyLoss::Evaluate(double s, double rho[3]) const {
80 void ArctanLoss::Evaluate(double s, double rho[3]) const {
97 void TolerantLoss::Evaluate(double s, double rho[3]) const {
133 void ComposedLoss::Evaluate(double s, double rho[3]) const {
135 g_->Evaluate(s, rho_g);
136 f_->Evaluate(rho_g[0], rho_f);
144 void ScaledLoss::Evaluate(double s, double rho[3]) const
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evaluator.h 95 static bool Evaluate(Program* program,
121 // Options struct to control Evaluator::Evaluate;
132 // Evaluate the cost function for the given state. Returns the cost,
141 virtual bool Evaluate(const EvaluateOptions& evaluate_options,
148 // Variant of Evaluator::Evaluate where the user wishes to use the
151 bool Evaluate(const double* state,
156 return Evaluate(EvaluateOptions(),
loss_function_test.cc 50 // Evaluate rho(s), rho'(s) and rho''(s).
52 loss.Evaluate(s, rho);
61 loss.Evaluate(s + kH, fwd);
62 loss.Evaluate(s - kH, bwd);
123 TolerantLoss(0.7, 0.4).Evaluate(0.0, rho);
201 loss_function1.Evaluate(s, rho_gold);
202 loss_function_wrapper.Evaluate(s, rho);
210 loss_function_wrapper.Evaluate(s, rho);
211 loss_function2.Evaluate(s, rho_gold);
219 loss_function_wrapper.Evaluate(s, rho)
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autodiff_cost_function_test.cc 75 cost_function->Evaluate(parameters, &residuals, NULL);
77 cost_function->Evaluate(parameters, &residuals, jacobians);
127 cost_function->Evaluate(parameters, &residuals, NULL);
130 cost_function->Evaluate(parameters, &residuals, jacobians);
conditioned_cost_function.cc 77 bool ConditionedCostFunction::Evaluate(double const* const* parameters,
80 bool success = wrapped_cost_function_->Evaluate(parameters, residuals,
105 success = conditioners_[r]->Evaluate(&parameter_pointer,
residual_block_test.cc 55 virtual bool Evaluate(double const* const* parameters,
108 residual_block.Evaluate(true, &cost, NULL, NULL, scratch);
113 residual_block.Evaluate(true, &cost, residuals, NULL, scratch);
137 residual_block.Evaluate(true, &cost, residuals, jacobian_ptrs, scratch);
156 residual_block.Evaluate(true, &cost, residuals, jacobian_ptrs, scratch);
170 virtual bool Evaluate(double const* const* parameters,
247 residual_block.Evaluate(true, &cost, NULL, NULL, scratch);
252 residual_block.Evaluate(true, &cost, residuals, NULL, scratch);
276 residual_block.Evaluate(true, &cost, residuals, jacobian_ptrs, scratch);
314 residual_block.Evaluate(true, &cost, residuals, jacobian_ptrs, scratch)
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  /external/ceres-solver/examples/
fields_of_experts.h 65 // The number of scalar parameters passed to Evaluate must equal the number of
67 virtual bool Evaluate(double const* const* parameters,
82 virtual void Evaluate(double, double*) const;
  /external/libgdx/extensions/gdx-box2d/gdx-box2d/jni/Box2D/Dynamics/Contacts/
b2CircleContact.h 36 void Evaluate(b2Manifold* manifold, const b2Transform& xfA, const b2Transform& xfB);
b2EdgeAndCircleContact.h 36 void Evaluate(b2Manifold* manifold, const b2Transform& xfA, const b2Transform& xfB);
b2EdgeAndPolygonContact.h 36 void Evaluate(b2Manifold* manifold, const b2Transform& xfA, const b2Transform& xfB);
b2PolygonAndCircleContact.h 35 void Evaluate(b2Manifold* manifold, const b2Transform& xfA, const b2Transform& xfB);
b2PolygonContact.h 36 void Evaluate(b2Manifold* manifold, const b2Transform& xfA, const b2Transform& xfB);
b2ChainAndCircleContact.h 36 void Evaluate(b2Manifold* manifold, const b2Transform& xfA, const b2Transform& xfB);
  /art/compiler/optimizing/
nodes_shared.h 86 HConstant* Evaluate(HIntConstant* x, HIntConstant* y) const OVERRIDE {
90 HConstant* Evaluate(HLongConstant* x, HLongConstant* y) const OVERRIDE {
94 HConstant* Evaluate(HFloatConstant* x ATTRIBUTE_UNUSED,
99 HConstant* Evaluate(HDoubleConstant* x ATTRIBUTE_UNUSED,

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