10ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong// Ceres Solver - A fast non-linear least squares minimizer
20ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong// Copyright 2010, 2011, 2012 Google Inc. All rights reserved.
30ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong// http://code.google.com/p/ceres-solver/
40ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong//
50ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong// Redistribution and use in source and binary forms, with or without
60ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong// modification, are permitted provided that the following conditions are met:
70ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong//
80ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong// * Redistributions of source code must retain the above copyright notice,
90ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong//   this list of conditions and the following disclaimer.
100ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong// * Redistributions in binary form must reproduce the above copyright notice,
110ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong//   this list of conditions and the following disclaimer in the documentation
120ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong//   and/or other materials provided with the distribution.
130ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong// * Neither the name of Google Inc. nor the names of its contributors may be
140ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong//   used to endorse or promote products derived from this software without
150ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong//   specific prior written permission.
160ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong//
170ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
180ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong// AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
190ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
200ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong// ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
210ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong// LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
220ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong// CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
230ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong// SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
240ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong// INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
250ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong// CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
260ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong// ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
270ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong// POSSIBILITY OF SUCH DAMAGE.
280ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong//
290ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong// Author: keir@google.com (Keir Mierle)
300ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong//         sameeragarwal@google.com (Sameer Agarwal)
310ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong
320ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong#include "ceres/residual_block.h"
330ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong
340ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong#include <algorithm>
350ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong#include <cstddef>
360ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong#include <vector>
370ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong#include "ceres/corrector.h"
380ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong#include "ceres/parameter_block.h"
390ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong#include "ceres/residual_block_utils.h"
400ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong#include "ceres/cost_function.h"
410ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong#include "ceres/internal/eigen.h"
420ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong#include "ceres/internal/fixed_array.h"
430ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong#include "ceres/local_parameterization.h"
440ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong#include "ceres/loss_function.h"
45399f7d09e0c45af54b77b4ab9508d6f23759b927Scott Ettinger#include "ceres/small_blas.h"
460ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong
471d2624a10e2c559f8ba9ef89eaa30832c0a83a96Sascha Haeberlingusing Eigen::Dynamic;
481d2624a10e2c559f8ba9ef89eaa30832c0a83a96Sascha Haeberling
490ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kongnamespace ceres {
500ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kongnamespace internal {
510ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong
520ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus KongResidualBlock::ResidualBlock(const CostFunction* cost_function,
530ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong                             const LossFunction* loss_function,
541d2624a10e2c559f8ba9ef89eaa30832c0a83a96Sascha Haeberling                             const vector<ParameterBlock*>& parameter_blocks,
551d2624a10e2c559f8ba9ef89eaa30832c0a83a96Sascha Haeberling                             int index)
560ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong    : cost_function_(cost_function),
570ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong      loss_function_(loss_function),
580ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong      parameter_blocks_(
590ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong          new ParameterBlock* [
601d2624a10e2c559f8ba9ef89eaa30832c0a83a96Sascha Haeberling              cost_function->parameter_block_sizes().size()]),
611d2624a10e2c559f8ba9ef89eaa30832c0a83a96Sascha Haeberling      index_(index) {
620ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  std::copy(parameter_blocks.begin(),
630ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong            parameter_blocks.end(),
640ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong            parameter_blocks_.get());
650ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong}
660ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong
671d2624a10e2c559f8ba9ef89eaa30832c0a83a96Sascha Haeberlingbool ResidualBlock::Evaluate(const bool apply_loss_function,
681d2624a10e2c559f8ba9ef89eaa30832c0a83a96Sascha Haeberling                             double* cost,
690ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong                             double* residuals,
700ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong                             double** jacobians,
710ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong                             double* scratch) const {
720ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  const int num_parameter_blocks = NumParameterBlocks();
730ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  const int num_residuals = cost_function_->num_residuals();
740ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong
750ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  // Collect the parameters from their blocks. This will rarely allocate, since
760ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  // residuals taking more than 8 parameter block arguments are rare.
770ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  FixedArray<const double*, 8> parameters(num_parameter_blocks);
780ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  for (int i = 0; i < num_parameter_blocks; ++i) {
790ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong    parameters[i] = parameter_blocks_[i]->state();
800ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  }
810ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong
820ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  // Put pointers into the scratch space into global_jacobians as appropriate.
830ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  FixedArray<double*, 8> global_jacobians(num_parameter_blocks);
840ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  if (jacobians != NULL) {
850ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong    for (int i = 0; i < num_parameter_blocks; ++i) {
860ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong      const ParameterBlock* parameter_block = parameter_blocks_[i];
870ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong      if (jacobians[i] != NULL &&
880ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong          parameter_block->LocalParameterizationJacobian() != NULL) {
890ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong        global_jacobians[i] = scratch;
900ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong        scratch += num_residuals * parameter_block->Size();
910ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong      } else {
920ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong        global_jacobians[i] = jacobians[i];
930ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong      }
940ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong    }
950ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  }
960ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong
970ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  // If the caller didn't request residuals, use the scratch space for them.
980ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  bool outputting_residuals = (residuals != NULL);
990ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  if (!outputting_residuals) {
1000ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong    residuals = scratch;
1010ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  }
1020ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong
1030ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  // Invalidate the evaluation buffers so that we can check them after
1040ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  // the CostFunction::Evaluate call, to see if all the return values
1050ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  // that were required were written to and that they are finite.
1060ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  double** eval_jacobians = (jacobians != NULL) ? global_jacobians.get() : NULL;
1070ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong
1080ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  InvalidateEvaluation(*this, cost, residuals, eval_jacobians);
1090ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong
1100ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  if (!cost_function_->Evaluate(parameters.get(), residuals, eval_jacobians)) {
1110ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong    return false;
1120ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  }
1130ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong
1140ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  if (!IsEvaluationValid(*this,
1150ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong                         parameters.get(),
1160ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong                         cost,
1170ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong                         residuals,
1180ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong                         eval_jacobians)) {
1190ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong    string message =
1200ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong        "\n\n"
1210ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong        "Error in evaluating the ResidualBlock.\n\n"
1220ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong        "There are two possible reasons. Either the CostFunction did not evaluate and fill all    \n"  // NOLINT
1230ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong        "residual and jacobians that were requested or there was a non-finite value (nan/infinite)\n"  // NOLINT
1240ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong        "generated during the or jacobian computation. \n\n" +
1250ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong        EvaluationToString(*this,
1260ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong                           parameters.get(),
1270ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong                           cost,
1280ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong                           residuals,
1290ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong                           eval_jacobians);
1300ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong    LOG(WARNING) << message;
1310ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong    return false;
1320ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  }
1330ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong
1340ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  double squared_norm = VectorRef(residuals, num_residuals).squaredNorm();
1350ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong
1360ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  // Update the jacobians with the local parameterizations.
1370ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  if (jacobians != NULL) {
1380ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong    for (int i = 0; i < num_parameter_blocks; ++i) {
1390ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong      if (jacobians[i] != NULL) {
1400ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong        const ParameterBlock* parameter_block = parameter_blocks_[i];
1410ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong
1420ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong        // Apply local reparameterization to the jacobians.
1430ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong        if (parameter_block->LocalParameterizationJacobian() != NULL) {
1441d2624a10e2c559f8ba9ef89eaa30832c0a83a96Sascha Haeberling          // jacobians[i] = global_jacobians[i] * global_to_local_jacobian.
1451d2624a10e2c559f8ba9ef89eaa30832c0a83a96Sascha Haeberling          MatrixMatrixMultiply<Dynamic, Dynamic, Dynamic, Dynamic, 0>(
1461d2624a10e2c559f8ba9ef89eaa30832c0a83a96Sascha Haeberling              global_jacobians[i],
1471d2624a10e2c559f8ba9ef89eaa30832c0a83a96Sascha Haeberling              num_residuals,
1481d2624a10e2c559f8ba9ef89eaa30832c0a83a96Sascha Haeberling              parameter_block->Size(),
1490ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong              parameter_block->LocalParameterizationJacobian(),
1500ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong              parameter_block->Size(),
1511d2624a10e2c559f8ba9ef89eaa30832c0a83a96Sascha Haeberling              parameter_block->LocalSize(),
1521d2624a10e2c559f8ba9ef89eaa30832c0a83a96Sascha Haeberling              jacobians[i], 0, 0,  num_residuals, parameter_block->LocalSize());
1530ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong        }
1540ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong      }
1550ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong    }
1560ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  }
1570ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong
1581d2624a10e2c559f8ba9ef89eaa30832c0a83a96Sascha Haeberling  if (loss_function_ == NULL || !apply_loss_function) {
1590ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong    *cost = 0.5 * squared_norm;
1600ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong    return true;
1610ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  }
1620ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong
1630ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  double rho[3];
1640ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  loss_function_->Evaluate(squared_norm, rho);
1650ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  *cost = 0.5 * rho[0];
1660ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong
1670ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  // No jacobians and not outputting residuals? All done. Doing an early exit
1680ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  // here avoids constructing the "Corrector" object below in a common case.
1690ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  if (jacobians == NULL && !outputting_residuals) {
1700ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong    return true;
1710ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  }
1720ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong
1730ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  // Correct for the effects of the loss function. The jacobians need to be
1740ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  // corrected before the residuals, since they use the uncorrected residuals.
1750ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  Corrector correct(squared_norm, rho);
1760ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  if (jacobians != NULL) {
1770ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong    for (int i = 0; i < num_parameter_blocks; ++i) {
1780ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong      if (jacobians[i] != NULL) {
1790ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong        const ParameterBlock* parameter_block = parameter_blocks_[i];
1800ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong
1810ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong        // Correct the jacobians for the loss function.
1820ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong        correct.CorrectJacobian(num_residuals,
1830ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong                                parameter_block->LocalSize(),
1840ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong                                residuals,
1850ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong                                jacobians[i]);
1860ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong      }
1870ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong    }
1880ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  }
1890ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong
1900ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  // Correct the residuals with the loss function.
1910ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  if (outputting_residuals) {
1920ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong    correct.CorrectResiduals(num_residuals, residuals);
1930ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  }
1940ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  return true;
1950ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong}
1960ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong
1970ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kongint ResidualBlock::NumScratchDoublesForEvaluate() const {
1980ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  // Compute the amount of scratch space needed to store the full-sized
1990ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  // jacobians. For parameters that have no local parameterization  no storage
2000ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  // is needed and the passed-in jacobian array is used directly. Also include
2010ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  // space to store the residuals, which is needed for cost-only evaluations.
2020ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  // This is slightly pessimistic, since both won't be needed all the time, but
2030ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  // the amount of excess should not cause problems for the caller.
2040ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  int num_parameters = NumParameterBlocks();
2050ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  int scratch_doubles = 1;
2060ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  for (int i = 0; i < num_parameters; ++i) {
2070ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong    const ParameterBlock* parameter_block = parameter_blocks_[i];
2080ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong    if (!parameter_block->IsConstant() &&
2090ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong        parameter_block->LocalParameterizationJacobian() != NULL) {
2100ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong      scratch_doubles += parameter_block->Size();
2110ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong    }
2120ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  }
2130ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  scratch_doubles *= NumResiduals();
2140ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong  return scratch_doubles;
2150ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong}
2160ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong
2170ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong}  // namespace internal
2180ae28bd5885b5daa526898fcf7c323dc2c3e1963Angus Kong}  // namespace ceres
219