geposanui/R/server.R

# Java script function to replace gene IDs with Ensembl gene links.
js_link <- DT::JS("function(row, data) {
    let id = data[1];
    var name = data[2];
    if (!name) name = 'Unknown';
    let url = `https://www.ensembl.org/Homo_sapiens/Gene/Summary?g=${id}`;
    $('td:eq(1)', row).html(`<a href=\"${url}\" target=\"_blank\">${name}</a>`);
}")

server <- function(input, output, session) {
    input_reactives <- input_page_server("input_page")
    preset <- input_reactives$preset
    comparison_gene_ids <- input_reactives$comparison_gene_ids

    observe({
        updateNavbarPage(
            session,
            "main_page",
            selected = "Results"
        )
    }) |> bindEvent(preset(), ignoreInit = TRUE)

    # Compute the results according to the preset.
    analysis <- reactive({
        withProgress(
            message = "Analyzing genes",
            value = 0.0,
            { # nolint
                geposan::analyze(
                    preset(),
                    progress = function(progress) {
                        setProgress(progress)
                    },
                    include_results = FALSE
                )
            }
        )
    }) |> bindCache(preset())

    # Rank the results.
    ranking <- methods_server("methods", analysis, comparison_gene_ids)

    # Add gene information to the results.
    results <- reactive({
        merge(
            ranking(),
            geposan::genes,
            by.x = "gene",
            by.y = "id",
            sort = FALSE
        )
    })

    # Apply the filters.
    results_filtered <- filters_server("filters", results)

    # Server for the detailed results panel.
    results_server("results", results_filtered)

    output$rank_plot <- plotly::renderPlotly({
        preset <- preset()
        gene_sets <- list("Reference genes" = preset$reference_gene_ids)
        comparison_gene_ids <- comparison_gene_ids()

        if (length(comparison_gene_ids) >= 1) {
            gene_sets <- c(
                gene_sets,
                list("Comparison genes" = comparison_gene_ids)
            )
        }

        geposan::plot_scores(
            ranking(),
            gene_sets = gene_sets,
            max_rank = results_filtered()[, max(rank)]
        )
    })

    output$rankings_plot <- plotly::renderPlotly({
        preset <- preset()

        rankings <- list()
        methods <- preset$methods
        all <- ranking()

        for (method in methods) {
            weights <- list()
            weights[[method$id]] <- 1.0
            rankings[[method$name]] <- geposan::ranking(all, weights)
        }

        rankings[["Combined"]] <- all

        gene_sets <- list("Reference genes" = preset$reference_gene_ids)
        comparison_gene_ids <- comparison_gene_ids()

        if (length(comparison_gene_ids) >= 1) {
            gene_sets <- c(
                gene_sets,
                list("Comparison genes" = comparison_gene_ids)
            )
        }

        geposan::plot_rankings(rankings, gene_sets)
    })

    output$boxplot <- plotly::renderPlotly({
        preset <- preset()
        gene_sets <- list("Reference genes" = preset$reference_gene_ids)
        comparison_gene_ids <- comparison_gene_ids()

        if (length(comparison_gene_ids) >= 1) {
            gene_sets <- c(
                gene_sets,
                list("Comparison genes" = comparison_gene_ids)
            )
        }

        geposan::plot_boxplot(ranking(), gene_sets)
    })

    output$positions_plot <- plotly::renderPlotly({
        preset <- preset()
        gene_sets <- list("Reference genes" = preset$reference_gene_ids)
        comparison_gene_ids <- comparison_gene_ids()

        if (length(comparison_gene_ids) >= 1) {
            gene_sets <- c(
                gene_sets,
                list("Comparison genes" = comparison_gene_ids)
            )
        }

        geposan::plot_scores_by_position(
            ranking(),
            input$positions_plot_chromosome_name,
            gene_sets = gene_sets
        )
    })

    gost <- reactive({
        withProgress(
            message = "Querying g:Profiler",
            value = 0.0,
            { # nolint
                setProgress(0.2)
                gprofiler2::gost(results_filtered()[, gene])
            }
        )
    })

    output$gost_plot <- plotly::renderPlotly({
        gprofiler2::gostplot(
            gost(),
            capped = FALSE,
            interactive = TRUE
        )
    })

    output$gost_details <- DT::renderDT({
        data <- data.table(gost()$result)
        setorder(data, p_value)

        data[, total_ratio := term_size / effective_domain_size]
        data[, query_ratio := intersection_size / query_size]

        data <- data[, .(source, term_name, total_ratio, query_ratio, p_value)]

        dt <- DT::datatable(
            data,
            rownames = FALSE,
            colnames = c(
                "Source",
                "Term",
                "Total ratio",
                "Query ratio",
                "p-value"
            ),
            style = "bootstrap",
            options = list(
                pageLength = 25
            )
        )

        dt <- DT::formatRound(dt, "p_value", digits = 4)
        dt <- DT::formatPercentage(
            dt,
            c("total_ratio", "query_ratio"),
            digits = 1
        )
    })

    output$disgenet <- DT::renderDT({
        withProgress(
            message = "Querying DisGeNET",
            value = 0.0,
            { # nolint
                setProgress(0.2)

                gene_names <- results_filtered()[, name]
                gene_names <- unique(gene_names[gene_names != ""])

                diseases <- disgenet2r::disease_enrichment(gene_names)

                data <- data.table(diseases@qresult)

                data <- data[, .(Description, Ratio, BgRatio, pvalue)]
                setorder(data, pvalue)

                dt <- DT::datatable(
                    data,
                    rownames = FALSE,
                    colnames = c(
                        "Disease",
                        "Query ratio",
                        "Total ratio",
                        "p-value"
                    ),
                    style = "bootstrap",
                    options = list(
                        pageLength = 25
                    )
                )

                dt <- DT::formatRound(dt, "pvalue", digits = 4)

                dt
            }
        )
    })
}
Convert to R package 2021-10-20 15:34:52 +02:00			`# Java script function to replace gene IDs with Ensembl gene links.`
			`js_link <- DT::JS("function(row, data) {`
Add links to Ensembl for genes 2021-10-01 09:50:04 +02:00			`let id = data[1];`
			`var name = data[2];`
			`if (!name) name = 'Unknown';`
			let url = `https://www.ensembl.org/Homo_sapiens/Gene/Summary?g=${id}`;
			$('td:eq(1)', row).html(`<a href=\"${url}\" target=\"_blank\">${name}</a>`);
			`}")`

Add optimizer and buttons to disable methods 2021-10-16 17:02:39 +02:00			`server <- function(input, output, session) {`
Refactor input page and handle preset errors 2022-01-23 19:46:17 +01:00			`input_reactives <- input_page_server("input_page")`
			`preset <- input_reactives$preset`
			`comparison_gene_ids <- input_reactives$comparison_gene_ids`
filters: Improve user interface 2021-11-02 14:28:04 +01:00
Switch to the results page when the preset changes 2022-01-25 16:27:18 +01:00			`observe({`
			`updateNavbarPage(`
			`session,`
			`"main_page",`
			`selected = "Results"`
			`)`
			`}) \|> bindEvent(preset(), ignoreInit = TRUE)`

Convert to R package 2021-10-20 15:34:52 +02:00			`# Compute the results according to the preset.`
Move methods to separate module 2021-10-19 16:44:29 +02:00			`analysis <- reactive({`
server: Cache analysis transiently 2022-02-24 15:58:24 +01:00			`withProgress(`
Add progress indicator for analysis 2021-10-19 15:05:01 +02:00			`message = "Analyzing genes",`
Adapt to geposan changes and add new methods 2021-11-14 22:34:46 +01:00			`value = 0.0,`
			`{ # nolint`
server: Cache analysis transiently 2022-02-24 15:58:24 +01:00			`geposan::analyze(`
			`preset(),`
			`progress = function(progress) {`
			`setProgress(progress)`
			`},`
			`include_results = FALSE`
			`)`
Add progress indicator for analysis 2021-10-19 15:05:01 +02:00			`}`
			`)`
server: Cache analysis transiently 2022-02-24 15:58:24 +01:00			`}) \|> bindCache(preset())`
Reorganize source files and generalize presets 2021-10-16 21:46:59 +02:00
Adapt to geposan changes and add new methods 2021-11-14 22:34:46 +01:00			`# Rank the results.`
methods: Allow to optimize for comparison genes 2022-01-25 13:05:04 +01:00			`ranking <- methods_server("methods", analysis, comparison_gene_ids)`
Compute n_species dynamically 2021-10-20 11:20:20 +02:00
Adapt to geposan changes and add new methods 2021-11-14 22:34:46 +01:00			`# Add gene information to the results.`
			`results <- reactive({`
			`merge(`
			`ranking(),`
			`geposan::genes,`
			`by.x = "gene",`
			`by.y = "id",`
			`sort = FALSE`
			`)`
Add basic filters to the UI 2021-08-26 11:20:50 +02:00			`})`
Add initial gene processing 2021-08-25 15:01:18 +02:00
Allow filtering by rank 2021-11-02 13:41:03 +01:00			`# Apply the filters.`
filters: Improve user interface 2021-11-02 14:28:04 +01:00			`results_filtered <- filters_server("filters", results)`
Add rank plot 2021-10-15 13:16:51 +02:00
results: Move to separate module 2021-12-30 12:19:00 +01:00			`# Server for the detailed results panel.`
			`results_server("results", results_filtered)`
Add buttons to copy results 2021-10-07 12:59:04 +02:00
Convert to R package 2021-10-20 15:34:52 +02:00			`output$rank_plot <- plotly::renderPlotly({`
Update plots 2021-12-02 17:22:27 +01:00			`preset <- preset()`
			`gene_sets <- list("Reference genes" = preset$reference_gene_ids)`
			`comparison_gene_ids <- comparison_gene_ids()`
assessment: Show comparison genes 2021-11-15 14:22:33 +01:00
			`if (length(comparison_gene_ids) >= 1) {`
Update plots 2021-12-02 17:22:27 +01:00			`gene_sets <- c(`
			`gene_sets,`
			`list("Comparison genes" = comparison_gene_ids)`
			`)`
assessment: Show comparison genes 2021-11-15 14:22:33 +01:00			`}`

Use plots from geposan 2021-11-15 09:35:47 +01:00			`geposan::plot_scores(`
			`ranking(),`
assessment: Show comparison genes 2021-11-15 14:22:33 +01:00			`gene_sets = gene_sets,`
Use plots from geposan 2021-11-15 09:35:47 +01:00			`max_rank = results_filtered()[, max(rank)]`
			`)`
			`})`

Add rankings plot 2021-12-06 14:24:31 +01:00			`output$rankings_plot <- plotly::renderPlotly({`
			`preset <- preset()`
server: Generate rankings plot from preset 2022-01-13 13:37:02 +01:00
			`rankings <- list()`
			`methods <- preset$methods`
			`all <- ranking()`

			`for (method in methods) {`
			`weights <- list()`
			`weights[[method$id]] <- 1.0`
			`rankings[[method$name]] <- geposan::ranking(all, weights)`
			`}`

			`rankings[["Combined"]] <- all`

Add rankings plot 2021-12-06 14:24:31 +01:00			`gene_sets <- list("Reference genes" = preset$reference_gene_ids)`
			`comparison_gene_ids <- comparison_gene_ids()`

			`if (length(comparison_gene_ids) >= 1) {`
			`gene_sets <- c(`
			`gene_sets,`
			`list("Comparison genes" = comparison_gene_ids)`
			`)`
			`}`

			`geposan::plot_rankings(rankings, gene_sets)`
			`})`

Use plots from geposan 2021-11-15 09:35:47 +01:00			`output$boxplot <- plotly::renderPlotly({`
Update plots 2021-12-02 17:22:27 +01:00			`preset <- preset()`
			`gene_sets <- list("Reference genes" = preset$reference_gene_ids)`
			`comparison_gene_ids <- comparison_gene_ids()`
assessment: Show comparison genes 2021-11-15 14:22:33 +01:00
			`if (length(comparison_gene_ids) >= 1) {`
Update plots 2021-12-02 17:22:27 +01:00			`gene_sets <- c(`
			`gene_sets,`
			`list("Comparison genes" = comparison_gene_ids)`
			`)`
assessment: Show comparison genes 2021-11-15 14:22:33 +01:00			`}`

Update plots 2021-12-02 17:22:27 +01:00			`geposan::plot_boxplot(ranking(), gene_sets)`
Add more assessment information 2021-10-15 15:03:40 +02:00			`})`

Show gene sets in positions plot 2022-05-18 17:33:11 +02:00			`output$positions_plot <- plotly::renderPlotly({`
			`preset <- preset()`
			`gene_sets <- list("Reference genes" = preset$reference_gene_ids)`
			`comparison_gene_ids <- comparison_gene_ids()`

			`if (length(comparison_gene_ids) >= 1) {`
			`gene_sets <- c(`
			`gene_sets,`
			`list("Comparison genes" = comparison_gene_ids)`
			`)`
			`}`

Add chromosomal positions plot 2022-05-17 21:58:40 +02:00			`geposan::plot_scores_by_position(`
			`ranking(),`
Show gene sets in positions plot 2022-05-18 17:33:11 +02:00			`input$positions_plot_chromosome_name,`
			`gene_sets = gene_sets`
Add chromosomal positions plot 2022-05-17 21:58:40 +02:00			`)`
Show gene sets in positions plot 2022-05-18 17:33:11 +02:00			`})`
Add chromosomal positions plot 2022-05-17 21:58:40 +02:00
Update gprofiler integration 2021-12-08 14:38:38 +01:00			`gost <- reactive({`
Add DisGeNET integration 2021-12-08 14:49:50 +01:00			`withProgress(`
Update gprofiler integration 2021-12-08 14:38:38 +01:00			`message = "Querying g:Profiler",`
			`value = 0.0,`
			`{ # nolint`
			`setProgress(0.2)`
			`gprofiler2::gost(results_filtered()[, gene])`
			`}`
Add DisGeNET integration 2021-12-08 14:49:50 +01:00			`)`
Update gprofiler integration 2021-12-08 14:38:38 +01:00			`})`

			`output$gost_plot <- plotly::renderPlotly({`
			`gprofiler2::gostplot(`
			`gost(),`
			`capped = FALSE,`
			`interactive = TRUE`
			`)`
			`})`

			`output$gost_details <- DT::renderDT({`
			`data <- data.table(gost()$result)`
			`setorder(data, p_value)`

			`data[, total_ratio := term_size / effective_domain_size]`
			`data[, query_ratio := intersection_size / query_size]`
Convert to R package 2021-10-20 15:34:52 +02:00
Add DisGeNET integration 2021-12-08 14:49:50 +01:00			`data <- data[, .(source, term_name, total_ratio, query_ratio, p_value)]`

Update gprofiler integration 2021-12-08 14:38:38 +01:00			`dt <- DT::datatable(`
Add DisGeNET integration 2021-12-08 14:49:50 +01:00			`data,`
Update gprofiler integration 2021-12-08 14:38:38 +01:00			`rownames = FALSE,`
			`colnames = c(`
			`"Source",`
			`"Term",`
			`"Total ratio",`
			`"Query ratio",`
Add DisGeNET integration 2021-12-08 14:49:50 +01:00			`"p-value"`
Update gprofiler integration 2021-12-08 14:38:38 +01:00			`),`
			`style = "bootstrap",`
			`options = list(`
			`pageLength = 25`
Convert to R package 2021-10-20 15:34:52 +02:00			`)`
Update gprofiler integration 2021-12-08 14:38:38 +01:00			`)`

			`dt <- DT::formatRound(dt, "p_value", digits = 4)`
			`dt <- DT::formatPercentage(`
			`dt,`
			`c("total_ratio", "query_ratio"),`
			`digits = 1`
			`)`
Add gene set enrichment analysis 2021-10-07 12:18:47 +02:00			`})`
Add DisGeNET integration 2021-12-08 14:49:50 +01:00
			`output$disgenet <- DT::renderDT({`
			`withProgress(`
			`message = "Querying DisGeNET",`
			`value = 0.0,`
			`{ # nolint`
			`setProgress(0.2)`

			`gene_names <- results_filtered()[, name]`
			`gene_names <- unique(gene_names[gene_names != ""])`

			`diseases <- disgenet2r::disease_enrichment(gene_names)`

			`data <- data.table(diseases@qresult)`

			`data <- data[, .(Description, Ratio, BgRatio, pvalue)]`
			`setorder(data, pvalue)`

			`dt <- DT::datatable(`
			`data,`
			`rownames = FALSE,`
			`colnames = c(`
			`"Disease",`
			`"Query ratio",`
			`"Total ratio",`
			`"p-value"`
			`),`
			`style = "bootstrap",`
			`options = list(`
			`pageLength = 25`
			`)`
			`)`

			`dt <- DT::formatRound(dt, "pvalue", digits = 4)`

			`dt`
			`}`
			`)`
			`})`
Separate out geposan package 2021-10-19 14:15:28 +02:00			`}`