## ----include = FALSE---------------------------------------------------------- knitr::opts_chunk$set( collapse = TRUE, comment = "#>" ) ## ----setup, echo = TRUE------------------------------------------------------- library(stors) # Optimize a proposal for the Normal distribution with 4091 steps proposal <- srnorm_optimize(steps = 4091) # Visualize the optimized proposal plot(proposal) ## ----echo = TRUE-------------------------------------------------------------- # Generating 10 samples from the standard Normal distribution standard_normal_samples <- srnorm(10, mean = 2, sd = 1) print(standard_normal_samples) ## ----echo = TRUE-------------------------------------------------------------- # Optimize a custom proposal for N(3, 2) proposal <- srnorm_optimize(mean = 3, sd = 2, steps = 2000) # Generate a sample of size 10^3 from N(3, 2) sample <- srnorm_custom(10^3) # Visualize the generated sample hist(sample, main = "Histogram of Samples from N(3, 2)", xlab = "Value", col = "skyblue", border = "white") ## ----echo = TRUE-------------------------------------------------------------- # Define the truncation bounds lower_bound <- -1 upper_bound <- 1 # Optimize the scalable proposal with truncation bounds proposal <- srnorm_optimize(xl = lower_bound, xr = upper_bound, steps = 4091) # Generate samples from the truncated standard Normal distribution sample <- srnorm(10^3) hist(sample, main = "Truncated Standard Normal (-1, 1)", xlab = "Value", col = "lightblue", border = "white") # Generate samples from the truncated Normal distribution N(2, 1) sample <- srnorm(10^3, mean = 2) hist(sample, main = "Truncated Normal N(2, 1) (-1, 1)", xlab = "Value", col = "lightgreen", border = "white") ## ----echo = TRUE-------------------------------------------------------------- # Define the truncation bounds lower_bound <- 2 upper_bound <- 6 # Optimize a custom proposal with truncation bounds and mean = 4 proposal <- srnorm_optimize(mean = 4, xl = lower_bound, xr = upper_bound, steps = 4091) # Generate samples from the truncated Normal distribution sample <- srnorm_custom(10^3) hist(sample, main = "Truncated Custom Normal (2, 6)", xlab = "Value", col = "lightblue", border = "white") ## ----echo = TRUE-------------------------------------------------------------- # Optimize a proposal for the Laplace distribution proposal <- srlaplace_optimize(steps = 4091) # View the details of the optimized proposal print(proposal) # Visualize the proposal plot(proposal) ## ----echo = TRUE-------------------------------------------------------------- # Optimize a proposal for the Normal distribution proposal <- srlaplace_optimize(steps = 1020) # Visualize the entire proposal plot(proposal, main = "Full Grid Visualization") # Focus on a specific region of the proposal (e.g., x-axis range -2 to 2) plot(proposal, x_min = -1, x_max = 1, main = "Zoomed-In Grid (-1, 1)") ## ----echo = TRUE-------------------------------------------------------------- # Customizing the proposal for a specific sample size custom_proposal <- srnorm_optimize(target_sample_size = 10000) print(custom_proposal) plot(custom_proposal) # Customizing the proposal with a specific pre-acceptance threshold custom_proposal_high_theta <- srnorm_optimize(theta = 0.9) print(custom_proposal_high_theta) plot(custom_proposal_high_theta) # Customizing the proposal within a specific range custom_proposal_range <- srnorm_optimize(proposal_range = c(-1, 1)) print(custom_proposal_range) plot(custom_proposal_range) ## ----echo = TRUE-------------------------------------------------------------- # Customizing the proposal with a specific number of steps custom_proposal_steps <- srnorm_optimize(steps = 50) plot(custom_proposal_steps) custom_proposal_steps <- srnorm_optimize(steps = 500) plot(custom_proposal_steps) ## ----echo = FALSE------------------------------------------------------------- # Delete all non-symmetric proposals for the Normal distribution delete_built_in_proposal(sampling_function = "srnorm", proposal_type = "scaled") delete_built_in_proposal(sampling_function = "srnorm", proposal_type = "custom") # Create a symmetric proposal for the standard Normal distribution proposal <- srnorm_optimize(symmetric = TRUE, steps = 2040) # Visualize the symmetric proposal plot(proposal) ## ----echo = FALSE------------------------------------------------------------- # Delete symmetric proposals for the Normal distribution delete_built_in_proposal(sampling_function = "srnorm", proposal_type = "scaled") # Optimize the proposal for a truncated standard Normal distribution proposal <- srnorm_optimize(mean = 0, sd = 1, xl = -1, xr = 1, steps = 4020) # Visualize the truncated proposal plot(proposal, main = "Truncated Standard Normal Grid (-1, 1)", xlab = "Value", col = "lightblue") # Generate 10^4 samples from the truncated distribution sample <- srnorm_custom(10^4) # Visualize the generated samples hist( sample, main = "Histogram of Samples from Truncated Standard Normal", xlab = "Value", col = "lightgreen", border = "white" ) ## ----echo = FALSE------------------------------------------------------------- name <- names(stors:::built_in_proposals) formatted_names <- sprintf("{.fun %s_custom}", name) cli::cli_ul(formatted_names) for (name in names(stors:::built_in_proposals)) { fun_name <- paste0(name, "_optimize") do.call(fun_name, list(steps = 4091)) }