AroFlo MCP

AroFlo: Get InventoryCategories

aroflo_get_inventorycategories

Read-onlyIdempotent

Retrieve inventory categories from AroFlo with filtering, sorting, and pagination options to manage stock organization and reporting.

Instructions

Query the AroFlo InventoryCategories zone (GET). Use pipe-delimited WHERE clauses like "and|field|=|value", ORDER clauses like "field|asc", and JOIN areas like "lineitems". where/order/join accept either a single string or an array. mode: data|verbose|debug|raw (default: data). Set compact=true and optionally select=["field","nested.field"] to reduce payload size. See resource "aroflo://docs/api/" (example: "aroflo://docs/api/quotes") for valid fields/values.

Input Schema

TableJSON Schema

Name	Required	Description	Default
`where`	No
`order`	No
`join`	No
`page`	No
`pageSize`	No
`autoPaginate`	No
`maxPages`	No
`maxResults`	No
`maxItemsTotal`	No
`validateWhere`	No
`mode`	No
`verbose`	No
`debug`	No
`raw`	No
`compact`	No
`select`	No
`maxItems`	No
`extra`	No

Output Schema

TableJSON Schema

Name	Required	Description	Default
No arguments

Implementation Reference

src/mcp/tools/get-zones.ts:56-271 (handler)

The `registerZoneGetTools` function iterates over all zones in `AROFLO_ZONES` and dynamically registers a tool for each. `aroflo_get_inventorycategories` is generated by this loop when `zone` is `InventoryCategories`. The handler logic for these dynamic tools is defined within this function.

server.registerTool(
  toolName,
  {
    title: `AroFlo: Get ${zone}`,
    description:
      `Query the AroFlo ${zone} zone (GET). ` +
      `Use pipe-delimited WHERE clauses like "and|field|=|value", ORDER clauses like "field|asc", and JOIN areas like "lineitems". ` +
      `where/order/join accept either a single string or an array. ` +
      `mode: data|verbose|debug|raw (default: data). ` +
      `Set compact=true and optionally select=[\"field\",\"nested.field\"] to reduce payload size. ` +
      `See resource "aroflo://docs/api/<slug>" (example: "aroflo://docs/api/quotes") for valid fields/values.`,
    inputSchema,
    // MCP SDK expects output schemas to be object schemas (or raw object shapes).
    // `z.any()` causes output validation to crash under the current SDK.
    outputSchema: z.object({}).passthrough(),
    annotations: {
      readOnlyHint: true,
      idempotentHint: true,
      openWorldHint: true
    }
  },
  async (args) => {
    const mode = resolveOutputMode(args);
    const envelopeRequested =
      typeof args.mode === 'string' || Boolean(args.raw) || Boolean(args.verbose);
    try {
      const where = normalizeWhereParam(args.where);
      const order = normalizeOrderParam(args.order);
      const join = normalizeJoinParam(args.join);

      if (args.validateWhere !== false) {
        await validateWhereOrThrow({ zone, where });
      }

      const autoPaginate = Boolean(args.autoPaginate);
      const startPage = args.page ?? 1;
      const pageSize = args.pageSize ?? (autoPaginate ? 200 : undefined);
      const maxResultsRaw =
        typeof args.maxItemsTotal === 'number' ? args.maxItemsTotal : args.maxResults;
      const maxResults =
        typeof args.maxResults === 'number' && typeof args.maxItemsTotal === 'number'
          ? Math.min(args.maxResults, args.maxItemsTotal)
          : maxResultsRaw;
      const maxPages = args.maxPages ?? (autoPaginate ? 25 : undefined);

      const debugInfo: Record<string, unknown> | undefined = args.debug
        ? {
            zone,
            normalized: {
              where,
              order,
              join,
              page: startPage,
              pageSize,
              extra: args.extra
            }
          }
        : undefined;

      let response = await client.get(zone, {
        where,
        order,
        join,
        page: startPage,
        pageSize,
        extra: args.extra
      });

      let pagesFetched = 1;
      let truncated = false;
      let truncatedReason: string | undefined;
      let nextPage: number | undefined;

      if (autoPaginate) {
        let currentPage = startPage;
        let lastPageCount = extractZoneItems(zone, response.data).items.length;
        while (true) {
          const total = extractZoneItems(zone, response.data).items.length;

          if (typeof maxResults === 'number' && total >= maxResults) {
            truncated = true;
            truncatedReason = 'maxResults';
            nextPage = currentPage + 1;
            break;
          }

          if (typeof maxPages === 'number' && pagesFetched >= maxPages) {
            truncated = true;
            truncatedReason = 'maxPages';
            nextPage = currentPage + 1;
            break;
          }

          if (typeof pageSize === 'number' && lastPageCount < pageSize) {
            break;
          }

          currentPage += 1;
          const next = await client.get(zone, {
            where,
            order,
            join,
            page: currentPage,
            pageSize,
            extra: args.extra
          });

          // If the next page contributes nothing, stop.
          const nextCount = extractZoneItems(zone, next.data).items.length;
          if (nextCount === 0) {
            break;
          }

          response = {
            ...response,
            data: mergeZoneResponseData(response.data, next.data).merged
          };
          pagesFetched += 1;
          lastPageCount = nextCount;

          // Stop if the last page was short.
          if (typeof pageSize === 'number' && nextCount < pageSize) {
            break;
          }
        }
      }

      if (typeof maxResults === 'number') {
        const total = extractZoneItems(zone, response.data).items.length;
        if (total > maxResults) {
          const { truncated: newData } = truncateZoneArrays(response.data, maxResults);
          response = { ...response, data: newData };
          truncated = true;
          truncatedReason = truncatedReason ?? 'maxResults';
        }
      }

      let compactApplied = false;
      let effectiveResponse = response;
      const defaultSelect =
        zone === 'Tasks' && args.compact && (!args.select || args.select.length === 0)
          ? [
              'taskid',
              'jobnumber',
              'status',
              'taskname',
              'daterequested',
              'createdutc',
              'clientid',
              'org.orgid',
              'org.orgname',
              'projectid',
              'stageid',
              'project.projectid',
              'project.projectname',
              'tasktotals.totalhrs'
            ]
          : undefined;
      const select = args.select ?? defaultSelect;

      if (args.compact || (select && select.length > 0) || args.maxItems) {
        compactApplied = true;
        const compactedData = compactZoneResponseData(response.data, {
          select,
          maxItems: args.maxItems
        });
        effectiveResponse = { ...response, data: compactedData };
      }

      // Backward compatible default: return the full AroFlo client response, optionally
      // annotated with pagination/debug metadata. The new minimal envelope is opt-in via
      // args.mode / args.verbose / args.raw.
      if (!envelopeRequested) {
        let finalData: unknown = effectiveResponse.data;
        if (autoPaginate || truncated) {
          finalData = withZoneResponseMeta(finalData, {
            pagesFetched,
            truncated,
            truncatedReason,
            nextPage
          });
        }
        if (debugInfo) {
          finalData = withDebug(finalData, debugInfo);
        }
        return successToolResult({ ...effectiveResponse, data: finalData });
      }

      const out = buildZoneDataEnvelope({
        zone,
        response: effectiveResponse,
        page: startPage,
        pageSize,
        mode,
        mcp:
          autoPaginate || truncated
            ? {
                autoPaginate,
                pagesFetched,
                truncated,
                truncatedReason,
                nextPage
              }
            : undefined,
        debug: debugInfo,
        compactApplied,
        select,
        maxItems: args.maxItems
      });

      return successToolResult(out);
    } catch (error) {
      return errorToolResult(error, { mode, debug: { zone } });
    }
  }
);

Tool Definition Quality

A4.2/5.0

Behavior4/5

Does the description disclose side effects, auth requirements, rate limits, or destructive behavior?

Annotations declare readOnly/idempotent safety. Description adds substantial behavioral context beyond annotations: HTTP GET method, specific pipe-delimited query syntax patterns, mode options (data/verbose/debug/raw) with default values, payload reduction via compact/select, and documentation resource references.

Agents need to know what a tool does to the world before calling it. Descriptions should go beyond structured annotations to explain consequences.

Conciseness5/5

Is the description appropriately sized, front-loaded, and free of redundancy?

Five dense sentences with zero waste: opens with purpose, follows with syntax examples for the three complex query parameters, notes type flexibility, documents mode/compact/select options, and closes with documentation reference. Every clause delivers actionable technical guidance.

Shorter descriptions cost fewer tokens and are easier for agents to parse. Every sentence should earn its place.

Completeness4/5

Given the tool's complexity, does the description cover enough for an agent to succeed on first attempt?

Given the complex query language (pipe-delimited clauses) and 0% schema coverage, the description provides sufficient examples to enable correct usage of the primary filtering mechanisms. Output schema exists (per context signals), so return values need not be described. Could enhance completeness by documenting pagination behavior (page, pageSize, autoPaginate).

Complex tools with many parameters or behaviors need more documentation. Simple tools need less. This dimension scales expectations accordingly.

Parameters4/5

Does the description clarify parameter syntax, constraints, interactions, or defaults beyond what the schema provides?

With 0% schema description coverage, the description effectively compensates by detailing the complex syntax for critical parameters (where, order, join) including format examples and type flexibility (string vs array), plus mode/compact/select behavior. Omits pagination parameters but covers the non-obvious query syntax comprehensively.

Input schemas describe structure but not intent. Descriptions should explain non-obvious parameter relationships and valid value ranges.

Purpose5/5

Does the description clearly state what the tool does and how it differs from similar tools?

States specific action 'Query' and exact resource 'AroFlo InventoryCategories zone (GET)', clearly distinguishing it from the 40+ sibling getter tools targeting different zones (assets, bills, tasks, etc.) and from the generic aroflo_query_zone.

Agents choose between tools based on descriptions. A clear purpose with a specific verb and resource helps agents select the right tool.

Usage Guidelines3/5

Does the description explain when to use this tool, when not to, or what alternatives exist?

Provides extensive syntax guidance for constructing queries (pipe-delimited WHERE/ORDER formats, JOIN examples), but lacks explicit selection guidance comparing when to use this specific zone getter versus the generic aroflo_query_zone or other inventory-related siblings.

Agents often have multiple tools that could apply. Explicit usage guidance like "use X instead of Y when Z" prevents misuse.

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