react-syntax-highlighter_languages_highlight_stan.render-page.js - superset-site - Git at Google

 exports.ids = ["react-syntax-highlighter_languages_highlight_stan"];
 exports.modules = {

 /***/ "./node_modules/react-syntax-highlighter/node_modules/highlight.js/lib/languages/stan.js":
 /*!***********************************************************************************************!*\
   !*** ./node_modules/react-syntax-highlighter/node_modules/highlight.js/lib/languages/stan.js ***!
   \***********************************************************************************************/
 /*! no static exports found */
 /***/ (function(module, exports) {

 /*
 Language: Stan
 Description: The Stan probabilistic programming language
 Author: Jeffrey B. Arnold <jeffrey.arnold@gmail.com>
 Website: http://mc-stan.org/
 Category: scientific
 */

 function stan(hljs) {
   // variable names cannot conflict with block identifiers
   var BLOCKS = [
     'functions',
     'model',
     'data',
     'parameters',
     'quantities',
     'transformed',
     'generated'
   ];
   var STATEMENTS = [
     'for',
     'in',
     'if',
     'else',
     'while',
     'break',
     'continue',
     'return'
   ];
   var SPECIAL_FUNCTIONS = [
     'print',
     'reject',
     'increment_log_prob|10',
     'integrate_ode|10',
     'integrate_ode_rk45|10',
     'integrate_ode_bdf|10',
     'algebra_solver'
   ];
   var VAR_TYPES = [
     'int',
     'real',
     'vector',
     'ordered',
     'positive_ordered',
     'simplex',
     'unit_vector',
     'row_vector',
     'matrix',
     'cholesky_factor_corr|10',
     'cholesky_factor_cov|10',
     'corr_matrix|10',
     'cov_matrix|10',
     'void'
   ];
   var FUNCTIONS = [
     'Phi', 'Phi_approx', 'abs', 'acos', 'acosh', 'algebra_solver', 'append_array',
     'append_col', 'append_row', 'asin', 'asinh', 'atan', 'atan2', 'atanh',
     'bernoulli_cdf', 'bernoulli_lccdf', 'bernoulli_lcdf', 'bernoulli_logit_lpmf',
     'bernoulli_logit_rng', 'bernoulli_lpmf', 'bernoulli_rng', 'bessel_first_kind',
     'bessel_second_kind', 'beta_binomial_cdf', 'beta_binomial_lccdf',
     'beta_binomial_lcdf', 'beta_binomial_lpmf', 'beta_binomial_rng', 'beta_cdf',
     'beta_lccdf', 'beta_lcdf', 'beta_lpdf', 'beta_rng', 'binary_log_loss',
     'binomial_cdf', 'binomial_coefficient_log', 'binomial_lccdf', 'binomial_lcdf',
     'binomial_logit_lpmf', 'binomial_lpmf', 'binomial_rng', 'block',
     'categorical_logit_lpmf', 'categorical_logit_rng', 'categorical_lpmf',
     'categorical_rng', 'cauchy_cdf', 'cauchy_lccdf', 'cauchy_lcdf', 'cauchy_lpdf',
     'cauchy_rng', 'cbrt', 'ceil', 'chi_square_cdf', 'chi_square_lccdf',
     'chi_square_lcdf', 'chi_square_lpdf', 'chi_square_rng', 'cholesky_decompose',
     'choose', 'col', 'cols', 'columns_dot_product', 'columns_dot_self', 'cos',
     'cosh', 'cov_exp_quad', 'crossprod', 'csr_extract_u', 'csr_extract_v',
     'csr_extract_w', 'csr_matrix_times_vector', 'csr_to_dense_matrix',
     'cumulative_sum', 'determinant', 'diag_matrix', 'diag_post_multiply',
     'diag_pre_multiply', 'diagonal', 'digamma', 'dims', 'dirichlet_lpdf',
     'dirichlet_rng', 'distance', 'dot_product', 'dot_self',
     'double_exponential_cdf', 'double_exponential_lccdf', 'double_exponential_lcdf',
     'double_exponential_lpdf', 'double_exponential_rng', 'e', 'eigenvalues_sym',
     'eigenvectors_sym', 'erf', 'erfc', 'exp', 'exp2', 'exp_mod_normal_cdf',
     'exp_mod_normal_lccdf', 'exp_mod_normal_lcdf', 'exp_mod_normal_lpdf',
     'exp_mod_normal_rng', 'expm1', 'exponential_cdf', 'exponential_lccdf',
     'exponential_lcdf', 'exponential_lpdf', 'exponential_rng', 'fabs',
     'falling_factorial', 'fdim', 'floor', 'fma', 'fmax', 'fmin', 'fmod',
     'frechet_cdf', 'frechet_lccdf', 'frechet_lcdf', 'frechet_lpdf', 'frechet_rng',
     'gamma_cdf', 'gamma_lccdf', 'gamma_lcdf', 'gamma_lpdf', 'gamma_p', 'gamma_q',
     'gamma_rng', 'gaussian_dlm_obs_lpdf', 'get_lp', 'gumbel_cdf', 'gumbel_lccdf',
     'gumbel_lcdf', 'gumbel_lpdf', 'gumbel_rng', 'head', 'hypergeometric_lpmf',
     'hypergeometric_rng', 'hypot', 'inc_beta', 'int_step', 'integrate_ode',
     'integrate_ode_bdf', 'integrate_ode_rk45', 'inv', 'inv_Phi',
     'inv_chi_square_cdf', 'inv_chi_square_lccdf', 'inv_chi_square_lcdf',
     'inv_chi_square_lpdf', 'inv_chi_square_rng', 'inv_cloglog', 'inv_gamma_cdf',
     'inv_gamma_lccdf', 'inv_gamma_lcdf', 'inv_gamma_lpdf', 'inv_gamma_rng',
     'inv_logit', 'inv_sqrt', 'inv_square', 'inv_wishart_lpdf', 'inv_wishart_rng',
     'inverse', 'inverse_spd', 'is_inf', 'is_nan', 'lbeta', 'lchoose', 'lgamma',
     'lkj_corr_cholesky_lpdf', 'lkj_corr_cholesky_rng', 'lkj_corr_lpdf',
     'lkj_corr_rng', 'lmgamma', 'lmultiply', 'log', 'log10', 'log1m', 'log1m_exp',
     'log1m_inv_logit', 'log1p', 'log1p_exp', 'log2', 'log_determinant',
     'log_diff_exp', 'log_falling_factorial', 'log_inv_logit', 'log_mix',
     'log_rising_factorial', 'log_softmax', 'log_sum_exp', 'logistic_cdf',
     'logistic_lccdf', 'logistic_lcdf', 'logistic_lpdf', 'logistic_rng', 'logit',
     'lognormal_cdf', 'lognormal_lccdf', 'lognormal_lcdf', 'lognormal_lpdf',
     'lognormal_rng', 'machine_precision', 'matrix_exp', 'max', 'mdivide_left_spd',
     'mdivide_left_tri_low', 'mdivide_right_spd', 'mdivide_right_tri_low', 'mean',
     'min', 'modified_bessel_first_kind', 'modified_bessel_second_kind',
     'multi_gp_cholesky_lpdf', 'multi_gp_lpdf', 'multi_normal_cholesky_lpdf',
     'multi_normal_cholesky_rng', 'multi_normal_lpdf', 'multi_normal_prec_lpdf',
     'multi_normal_rng', 'multi_student_t_lpdf', 'multi_student_t_rng',
     'multinomial_lpmf', 'multinomial_rng', 'multiply_log',
     'multiply_lower_tri_self_transpose', 'neg_binomial_2_cdf',
     'neg_binomial_2_lccdf', 'neg_binomial_2_lcdf', 'neg_binomial_2_log_lpmf',
     'neg_binomial_2_log_rng', 'neg_binomial_2_lpmf', 'neg_binomial_2_rng',
     'neg_binomial_cdf', 'neg_binomial_lccdf', 'neg_binomial_lcdf',
     'neg_binomial_lpmf', 'neg_binomial_rng', 'negative_infinity', 'normal_cdf',
     'normal_lccdf', 'normal_lcdf', 'normal_lpdf', 'normal_rng', 'not_a_number',
     'num_elements', 'ordered_logistic_lpmf', 'ordered_logistic_rng', 'owens_t',
     'pareto_cdf', 'pareto_lccdf', 'pareto_lcdf', 'pareto_lpdf', 'pareto_rng',
     'pareto_type_2_cdf', 'pareto_type_2_lccdf', 'pareto_type_2_lcdf',
     'pareto_type_2_lpdf', 'pareto_type_2_rng', 'pi', 'poisson_cdf', 'poisson_lccdf',
     'poisson_lcdf', 'poisson_log_lpmf', 'poisson_log_rng', 'poisson_lpmf',
     'poisson_rng', 'positive_infinity', 'pow', 'print', 'prod', 'qr_Q', 'qr_R',
     'quad_form', 'quad_form_diag', 'quad_form_sym', 'rank', 'rayleigh_cdf',
     'rayleigh_lccdf', 'rayleigh_lcdf', 'rayleigh_lpdf', 'rayleigh_rng', 'reject',
     'rep_array', 'rep_matrix', 'rep_row_vector', 'rep_vector', 'rising_factorial',
     'round', 'row', 'rows', 'rows_dot_product', 'rows_dot_self',
     'scaled_inv_chi_square_cdf', 'scaled_inv_chi_square_lccdf',
     'scaled_inv_chi_square_lcdf', 'scaled_inv_chi_square_lpdf',
     'scaled_inv_chi_square_rng', 'sd', 'segment', 'sin', 'singular_values', 'sinh',
     'size', 'skew_normal_cdf', 'skew_normal_lccdf', 'skew_normal_lcdf',
     'skew_normal_lpdf', 'skew_normal_rng', 'softmax', 'sort_asc', 'sort_desc',
     'sort_indices_asc', 'sort_indices_desc', 'sqrt', 'sqrt2', 'square',
     'squared_distance', 'step', 'student_t_cdf', 'student_t_lccdf',
     'student_t_lcdf', 'student_t_lpdf', 'student_t_rng', 'sub_col', 'sub_row',
     'sum', 'tail', 'tan', 'tanh', 'target', 'tcrossprod', 'tgamma', 'to_array_1d',
     'to_array_2d', 'to_matrix', 'to_row_vector', 'to_vector', 'trace',
     'trace_gen_quad_form', 'trace_quad_form', 'trigamma', 'trunc', 'uniform_cdf',
     'uniform_lccdf', 'uniform_lcdf', 'uniform_lpdf', 'uniform_rng', 'variance',
     'von_mises_lpdf', 'von_mises_rng', 'weibull_cdf', 'weibull_lccdf',
     'weibull_lcdf', 'weibull_lpdf', 'weibull_rng', 'wiener_lpdf', 'wishart_lpdf',
     'wishart_rng'
   ];
   var DISTRIBUTIONS = [
     'bernoulli', 'bernoulli_logit', 'beta', 'beta_binomial', 'binomial',
     'binomial_logit', 'categorical', 'categorical_logit', 'cauchy', 'chi_square',
     'dirichlet', 'double_exponential', 'exp_mod_normal', 'exponential', 'frechet',
     'gamma', 'gaussian_dlm_obs', 'gumbel', 'hypergeometric', 'inv_chi_square',
     'inv_gamma', 'inv_wishart', 'lkj_corr', 'lkj_corr_cholesky', 'logistic',
     'lognormal', 'multi_gp', 'multi_gp_cholesky', 'multi_normal',
     'multi_normal_cholesky', 'multi_normal_prec', 'multi_student_t', 'multinomial',
     'neg_binomial', 'neg_binomial_2', 'neg_binomial_2_log', 'normal',
     'ordered_logistic', 'pareto', 'pareto_type_2', 'poisson', 'poisson_log',
     'rayleigh', 'scaled_inv_chi_square', 'skew_normal', 'student_t', 'uniform',
     'von_mises', 'weibull', 'wiener', 'wishart'
   ];

   return {
     name: 'Stan',
     aliases: ['stanfuncs'],
     keywords: {
       $pattern: hljs.IDENT_RE,
       title: BLOCKS.join(' '),
       keyword: STATEMENTS.concat(VAR_TYPES).concat(SPECIAL_FUNCTIONS).join(' '),
       built_in: FUNCTIONS.join(' ')
     },
     contains: [
       hljs.C_LINE_COMMENT_MODE,
       hljs.COMMENT(
         /#/,
         /$/,
         {
           relevance: 0,
           keywords: {
             'meta-keyword': 'include'
           }
         }
       ),
       hljs.COMMENT(
         /\/\*/,
         /\*\//,
         {
           relevance: 0,
           // highlight doc strings mentioned in Stan reference
           contains: [
             {
               className: 'doctag',
               begin: /@(return|param)/
             }
           ]
         }
       ),
       {
         // hack: in range constraints, lower must follow "<"
         begin: /<\s*lower\s*=/,
         keywords: 'lower'
       },
       {
         // hack: in range constraints, upper must follow either , or <
         // <lower = ..., upper = ...> or <upper = ...>
         begin: /[<,]\s*upper\s*=/,
         keywords: 'upper'
       },
       {
         className: 'keyword',
         begin: /\btarget\s*\+=/,
         relevance: 10
       },
       {
         begin: '~\\s*(' + hljs.IDENT_RE + ')\\s*\\(',
         keywords: DISTRIBUTIONS.join(' ')
       },
       {
         className: 'number',
         variants: [
           {
             begin: /\b\d+(?:\.\d*)?(?:[eE][+-]?\d+)?/
           },
           {
             begin: /\.\d+(?:[eE][+-]?\d+)?\b/
           }
         ],
         relevance: 0
       },
       {
         className: 'string',
         begin: '"',
         end: '"',
         relevance: 0
       }
     ]
   }
 }

 module.exports = stan;


 /***/ })

 };;
 //# sourceMappingURL=react-syntax-highlighter_languages_highlight_stan.render-page.js.map
	exports.ids = ["react-syntax-highlighter_languages_highlight_stan"];
	exports.modules = {

	/***/ "./node_modules/react-syntax-highlighter/node_modules/highlight.js/lib/languages/stan.js":
	/!*********************************************************************************************!\
	!* ./node_modules/react-syntax-highlighter/node_modules/highlight.js/lib/languages/stan.js *!
	\***********************************************************************************************/
	/! no static exports found /
	/***/ (function(module, exports) {

	/*
	Language: Stan
	Description: The Stan probabilistic programming language
	Author: Jeffrey B. Arnold <jeffrey.arnold@gmail.com>
	Website: http://mc-stan.org/
	Category: scientific
	*/

	function stan(hljs) {
	// variable names cannot conflict with block identifiers
	var BLOCKS = [
	'functions',
	'model',
	'data',
	'parameters',
	'quantities',
	'transformed',
	'generated'
	];
	var STATEMENTS = [
	'for',
	'in',
	'if',
	'else',
	'while',
	'break',
	'continue',
	'return'
	];
	var SPECIAL_FUNCTIONS = [
	'print',
	'reject',
	'increment_log_prob\|10',
	'integrate_ode\|10',
	'integrate_ode_rk45\|10',
	'integrate_ode_bdf\|10',
	'algebra_solver'
	];
	var VAR_TYPES = [
	'int',
	'real',
	'vector',
	'ordered',
	'positive_ordered',
	'simplex',
	'unit_vector',
	'row_vector',
	'matrix',
	'cholesky_factor_corr\|10',
	'cholesky_factor_cov\|10',
	'corr_matrix\|10',
	'cov_matrix\|10',
	'void'
	];
	var FUNCTIONS = [
	'Phi', 'Phi_approx', 'abs', 'acos', 'acosh', 'algebra_solver', 'append_array',
	'append_col', 'append_row', 'asin', 'asinh', 'atan', 'atan2', 'atanh',
	'bernoulli_cdf', 'bernoulli_lccdf', 'bernoulli_lcdf', 'bernoulli_logit_lpmf',
	'bernoulli_logit_rng', 'bernoulli_lpmf', 'bernoulli_rng', 'bessel_first_kind',
	'bessel_second_kind', 'beta_binomial_cdf', 'beta_binomial_lccdf',
	'beta_binomial_lcdf', 'beta_binomial_lpmf', 'beta_binomial_rng', 'beta_cdf',
	'beta_lccdf', 'beta_lcdf', 'beta_lpdf', 'beta_rng', 'binary_log_loss',
	'binomial_cdf', 'binomial_coefficient_log', 'binomial_lccdf', 'binomial_lcdf',
	'binomial_logit_lpmf', 'binomial_lpmf', 'binomial_rng', 'block',
	'categorical_logit_lpmf', 'categorical_logit_rng', 'categorical_lpmf',
	'categorical_rng', 'cauchy_cdf', 'cauchy_lccdf', 'cauchy_lcdf', 'cauchy_lpdf',
	'cauchy_rng', 'cbrt', 'ceil', 'chi_square_cdf', 'chi_square_lccdf',
	'chi_square_lcdf', 'chi_square_lpdf', 'chi_square_rng', 'cholesky_decompose',
	'choose', 'col', 'cols', 'columns_dot_product', 'columns_dot_self', 'cos',
	'cosh', 'cov_exp_quad', 'crossprod', 'csr_extract_u', 'csr_extract_v',
	'csr_extract_w', 'csr_matrix_times_vector', 'csr_to_dense_matrix',
	'cumulative_sum', 'determinant', 'diag_matrix', 'diag_post_multiply',
	'diag_pre_multiply', 'diagonal', 'digamma', 'dims', 'dirichlet_lpdf',
	'dirichlet_rng', 'distance', 'dot_product', 'dot_self',
	'double_exponential_cdf', 'double_exponential_lccdf', 'double_exponential_lcdf',
	'double_exponential_lpdf', 'double_exponential_rng', 'e', 'eigenvalues_sym',
	'eigenvectors_sym', 'erf', 'erfc', 'exp', 'exp2', 'exp_mod_normal_cdf',
	'exp_mod_normal_lccdf', 'exp_mod_normal_lcdf', 'exp_mod_normal_lpdf',
	'exp_mod_normal_rng', 'expm1', 'exponential_cdf', 'exponential_lccdf',
	'exponential_lcdf', 'exponential_lpdf', 'exponential_rng', 'fabs',
	'falling_factorial', 'fdim', 'floor', 'fma', 'fmax', 'fmin', 'fmod',
	'frechet_cdf', 'frechet_lccdf', 'frechet_lcdf', 'frechet_lpdf', 'frechet_rng',
	'gamma_cdf', 'gamma_lccdf', 'gamma_lcdf', 'gamma_lpdf', 'gamma_p', 'gamma_q',
	'gamma_rng', 'gaussian_dlm_obs_lpdf', 'get_lp', 'gumbel_cdf', 'gumbel_lccdf',
	'gumbel_lcdf', 'gumbel_lpdf', 'gumbel_rng', 'head', 'hypergeometric_lpmf',
	'hypergeometric_rng', 'hypot', 'inc_beta', 'int_step', 'integrate_ode',
	'integrate_ode_bdf', 'integrate_ode_rk45', 'inv', 'inv_Phi',
	'inv_chi_square_cdf', 'inv_chi_square_lccdf', 'inv_chi_square_lcdf',
	'inv_chi_square_lpdf', 'inv_chi_square_rng', 'inv_cloglog', 'inv_gamma_cdf',
	'inv_gamma_lccdf', 'inv_gamma_lcdf', 'inv_gamma_lpdf', 'inv_gamma_rng',
	'inv_logit', 'inv_sqrt', 'inv_square', 'inv_wishart_lpdf', 'inv_wishart_rng',
	'inverse', 'inverse_spd', 'is_inf', 'is_nan', 'lbeta', 'lchoose', 'lgamma',
	'lkj_corr_cholesky_lpdf', 'lkj_corr_cholesky_rng', 'lkj_corr_lpdf',
	'lkj_corr_rng', 'lmgamma', 'lmultiply', 'log', 'log10', 'log1m', 'log1m_exp',
	'log1m_inv_logit', 'log1p', 'log1p_exp', 'log2', 'log_determinant',
	'log_diff_exp', 'log_falling_factorial', 'log_inv_logit', 'log_mix',
	'log_rising_factorial', 'log_softmax', 'log_sum_exp', 'logistic_cdf',
	'logistic_lccdf', 'logistic_lcdf', 'logistic_lpdf', 'logistic_rng', 'logit',
	'lognormal_cdf', 'lognormal_lccdf', 'lognormal_lcdf', 'lognormal_lpdf',
	'lognormal_rng', 'machine_precision', 'matrix_exp', 'max', 'mdivide_left_spd',
	'mdivide_left_tri_low', 'mdivide_right_spd', 'mdivide_right_tri_low', 'mean',
	'min', 'modified_bessel_first_kind', 'modified_bessel_second_kind',
	'multi_gp_cholesky_lpdf', 'multi_gp_lpdf', 'multi_normal_cholesky_lpdf',
	'multi_normal_cholesky_rng', 'multi_normal_lpdf', 'multi_normal_prec_lpdf',
	'multi_normal_rng', 'multi_student_t_lpdf', 'multi_student_t_rng',
	'multinomial_lpmf', 'multinomial_rng', 'multiply_log',
	'multiply_lower_tri_self_transpose', 'neg_binomial_2_cdf',
	'neg_binomial_2_lccdf', 'neg_binomial_2_lcdf', 'neg_binomial_2_log_lpmf',
	'neg_binomial_2_log_rng', 'neg_binomial_2_lpmf', 'neg_binomial_2_rng',
	'neg_binomial_cdf', 'neg_binomial_lccdf', 'neg_binomial_lcdf',
	'neg_binomial_lpmf', 'neg_binomial_rng', 'negative_infinity', 'normal_cdf',
	'normal_lccdf', 'normal_lcdf', 'normal_lpdf', 'normal_rng', 'not_a_number',
	'num_elements', 'ordered_logistic_lpmf', 'ordered_logistic_rng', 'owens_t',
	'pareto_cdf', 'pareto_lccdf', 'pareto_lcdf', 'pareto_lpdf', 'pareto_rng',
	'pareto_type_2_cdf', 'pareto_type_2_lccdf', 'pareto_type_2_lcdf',
	'pareto_type_2_lpdf', 'pareto_type_2_rng', 'pi', 'poisson_cdf', 'poisson_lccdf',
	'poisson_lcdf', 'poisson_log_lpmf', 'poisson_log_rng', 'poisson_lpmf',
	'poisson_rng', 'positive_infinity', 'pow', 'print', 'prod', 'qr_Q', 'qr_R',
	'quad_form', 'quad_form_diag', 'quad_form_sym', 'rank', 'rayleigh_cdf',
	'rayleigh_lccdf', 'rayleigh_lcdf', 'rayleigh_lpdf', 'rayleigh_rng', 'reject',
	'rep_array', 'rep_matrix', 'rep_row_vector', 'rep_vector', 'rising_factorial',
	'round', 'row', 'rows', 'rows_dot_product', 'rows_dot_self',
	'scaled_inv_chi_square_cdf', 'scaled_inv_chi_square_lccdf',
	'scaled_inv_chi_square_lcdf', 'scaled_inv_chi_square_lpdf',
	'scaled_inv_chi_square_rng', 'sd', 'segment', 'sin', 'singular_values', 'sinh',
	'size', 'skew_normal_cdf', 'skew_normal_lccdf', 'skew_normal_lcdf',
	'skew_normal_lpdf', 'skew_normal_rng', 'softmax', 'sort_asc', 'sort_desc',
	'sort_indices_asc', 'sort_indices_desc', 'sqrt', 'sqrt2', 'square',
	'squared_distance', 'step', 'student_t_cdf', 'student_t_lccdf',
	'student_t_lcdf', 'student_t_lpdf', 'student_t_rng', 'sub_col', 'sub_row',
	'sum', 'tail', 'tan', 'tanh', 'target', 'tcrossprod', 'tgamma', 'to_array_1d',
	'to_array_2d', 'to_matrix', 'to_row_vector', 'to_vector', 'trace',
	'trace_gen_quad_form', 'trace_quad_form', 'trigamma', 'trunc', 'uniform_cdf',
	'uniform_lccdf', 'uniform_lcdf', 'uniform_lpdf', 'uniform_rng', 'variance',
	'von_mises_lpdf', 'von_mises_rng', 'weibull_cdf', 'weibull_lccdf',
	'weibull_lcdf', 'weibull_lpdf', 'weibull_rng', 'wiener_lpdf', 'wishart_lpdf',
	'wishart_rng'
	];
	var DISTRIBUTIONS = [
	'bernoulli', 'bernoulli_logit', 'beta', 'beta_binomial', 'binomial',
	'binomial_logit', 'categorical', 'categorical_logit', 'cauchy', 'chi_square',
	'dirichlet', 'double_exponential', 'exp_mod_normal', 'exponential', 'frechet',
	'gamma', 'gaussian_dlm_obs', 'gumbel', 'hypergeometric', 'inv_chi_square',
	'inv_gamma', 'inv_wishart', 'lkj_corr', 'lkj_corr_cholesky', 'logistic',
	'lognormal', 'multi_gp', 'multi_gp_cholesky', 'multi_normal',
	'multi_normal_cholesky', 'multi_normal_prec', 'multi_student_t', 'multinomial',
	'neg_binomial', 'neg_binomial_2', 'neg_binomial_2_log', 'normal',
	'ordered_logistic', 'pareto', 'pareto_type_2', 'poisson', 'poisson_log',
	'rayleigh', 'scaled_inv_chi_square', 'skew_normal', 'student_t', 'uniform',
	'von_mises', 'weibull', 'wiener', 'wishart'
	];

	return {
	name: 'Stan',
	aliases: ['stanfuncs'],
	keywords: {
	$pattern: hljs.IDENT_RE,
	title: BLOCKS.join(' '),
	keyword: STATEMENTS.concat(VAR_TYPES).concat(SPECIAL_FUNCTIONS).join(' '),
	built_in: FUNCTIONS.join(' ')
	},
	contains: [
	hljs.C_LINE_COMMENT_MODE,
	hljs.COMMENT(
	/#/,
	/$/,
	{
	relevance: 0,
	keywords: {
	'meta-keyword': 'include'
	}
	}
	),
	hljs.COMMENT(
	/\/\*/,
	/\*\//,
	{
	relevance: 0,
	// highlight doc strings mentioned in Stan reference
	contains: [
	{
	className: 'doctag',
	begin: /@(return\|param)/
	}
	]
	}
	),
	{
	// hack: in range constraints, lower must follow "<"
	begin: /<\slower\s=/,
	keywords: 'lower'
	},
	{
	// hack: in range constraints, upper must follow either , or <
	// <lower = ..., upper = ...> or <upper = ...>
	begin: /[<,]\supper\s=/,
	keywords: 'upper'
	},
	{
	className: 'keyword',
	begin: /\btarget\s*\+=/,
	relevance: 10
	},
	{
	begin: '~\\s(' + hljs.IDENT_RE + ')\\s\\(',
	keywords: DISTRIBUTIONS.join(' ')
	},
	{
	className: 'number',
	variants: [
	{
	begin: /\b\d+(?:\.\d*)?(?:[eE][+-]?\d+)?/
	},
	{
	begin: /\.\d+(?:[eE][+-]?\d+)?\b/
	}
	],
	relevance: 0
	},
	{
	className: 'string',
	begin: '"',
	end: '"',
	relevance: 0
	}
	]
	}
	}

	module.exports = stan;


	/***/ })

	};;
	//# sourceMappingURL=react-syntax-highlighter_languages_highlight_stan.render-page.js.map