blockly/core/renderers/zelos/info.ts

/**
 * @license
 * Copyright 2019 Google LLC
 * SPDX-License-Identifier: Apache-2.0
 */

import * as goog from '../../../closure/goog/goog.js';
goog.declareModuleId('Blockly.zelos.RenderInfo');

import type {BlockSvg} from '../../block_svg.js';
import {FieldImage} from '../../field_image.js';
import {FieldLabel} from '../../field_label.js';
import {FieldTextInput} from '../../field_textinput.js';
import {Align, Input} from '../../input.js';
import {inputTypes} from '../../input_types.js';
import {RenderInfo as BaseRenderInfo} from '../common/info.js';
import type {Measurable} from '../measurables/base.js';
import {Field} from '../measurables/field.js';
import {InRowSpacer} from '../measurables/in_row_spacer.js';
import {InputConnection} from '../measurables/input_connection.js';
import type {Row} from '../measurables/row.js';
import type {SpacerRow} from '../measurables/spacer_row.js';
import {Types} from '../measurables/types.js';

import type {ConstantProvider, InsideCorners} from './constants.js';
import {BottomRow} from './measurables/bottom_row.js';
import {StatementInput} from './measurables/inputs.js';
import {RightConnectionShape} from './measurables/row_elements.js';
import {TopRow} from './measurables/top_row.js';
import type {PathObject} from './path_object.js';
import type {Renderer} from './renderer.js';


/**
 * An object containing all sizing information needed to draw this block.
 *
 * This measure pass does not propagate changes to the block (although fields
 * may choose to rerender when getSize() is called).  However, calling it
 * repeatedly may be expensive.
 */
export class RenderInfo extends BaseRenderInfo {
  override topRow: TopRow;
  override bottomRow: BottomRow;
  override constants_: ConstantProvider;
  override renderer_: Renderer;

  override isInline = true;
  isMultiRow: boolean;
  hasStatementInput: boolean;
  rightSide: RightConnectionShape|null;
  private readonly rightAlignedDummyInputs_: WeakMap<Row, Input>;

  /**
   * @param renderer The renderer in use.
   * @param block The block to measure.
   */
  constructor(renderer: Renderer, block: BlockSvg) {
    super(renderer, block);

    this.renderer_ = renderer;

    this.constants_ = this.renderer_.getConstants();

    /**
     * An object with rendering information about the top row of the block.
     */
    this.topRow = new TopRow(this.constants_);

    /**
     * An object with rendering information about the bottom row of the block.
     */
    this.bottomRow = new BottomRow(this.constants_);

    /**
     * Whether the block should be rendered as a multi-line block, either
     * because it's not inline or because it has been collapsed.
     */
    this.isMultiRow = !block.getInputsInline() || block.isCollapsed();

    /**
     * Whether or not the block has a statement input in one of its rows.
     */
    this.hasStatementInput = block.statementInputCount > 0;

    /**
     * An object with rendering information about the right connection shape.
     */
    this.rightSide = this.outputConnection ?
        new RightConnectionShape(this.constants_) :
        null;

    /**
     * A map of rows to right aligned dummy inputs within those rows. Used to
     * add padding between left and right aligned inputs.
     */
    this.rightAlignedDummyInputs_ = new WeakMap();
  }

  /**
   * Get the block renderer in use.
   *
   * @returns The block renderer in use.
   */
  override getRenderer(): Renderer {
    return this.renderer_ as Renderer;
  }

  override measure() {
    // Modifying parent measure method to add `adjustXPosition_`.
    this.createRows_();
    this.addElemSpacing_();
    this.addRowSpacing_();
    this.adjustXPosition_();
    this.computeBounds_();
    this.alignRowElements_();
    this.finalize_();
  }

  override shouldStartNewRow_(input: Input, lastInput: Input): boolean {
    // If this is the first input, just add to the existing row.
    // That row is either empty or has some icons in it.
    if (!lastInput) {
      return false;
    }
    // A statement input or an input following one always gets a new row.
    if (input.type === inputTypes.STATEMENT ||
        lastInput.type === inputTypes.STATEMENT) {
      return true;
    }
    // Value and dummy inputs get new row if inputs are not inlined.
    if (input.type === inputTypes.VALUE || input.type === inputTypes.DUMMY) {
      return !this.isInline || this.isMultiRow;
    }
    return false;
  }

  override getDesiredRowWidth_(row: Row): number {
    if (row.hasStatement) {
      const rightCornerWidth =
          (this.constants_.INSIDE_CORNERS as InsideCorners).rightWidth || 0;
      return this.width - this.startX - rightCornerWidth;
    }
    return super.getDesiredRowWidth_(row);
  }

  override getInRowSpacing_(prev: Measurable|null, next: Measurable|null):
      number {
    if (!prev || !next) {
      // No need for padding at the beginning or end of the row if the
      // output shape is dynamic.
      if (this.outputConnection && this.outputConnection.isDynamicShape &&
          !this.hasStatementInput && !this.bottomRow.hasNextConnection) {
        return this.constants_.NO_PADDING;
      }
    }
    if (!prev) {
      // Statement input padding.
      if (next && Types.isStatementInput(next)) {
        return this.constants_.STATEMENT_INPUT_PADDING_LEFT;
      }
    }
    // Spacing between a rounded corner and a previous or next connection.
    if (prev && Types.isLeftRoundedCorner(prev) && next) {
      if (Types.isPreviousConnection(next) || Types.isNextConnection(next)) {
        return next.notchOffset - this.constants_.CORNER_RADIUS;
      }
    }
    // Spacing between a square corner and a hat.
    if (prev && Types.isLeftSquareCorner(prev) && next && Types.isHat(next)) {
      return this.constants_.NO_PADDING;
    }
    return this.constants_.MEDIUM_PADDING;
  }

  override getSpacerRowHeight_(prev: Row, next: Row): number {
    // If we have an empty block add a spacer to increase the height.
    if (Types.isTopRow(prev) && Types.isBottomRow(next)) {
      return this.constants_.EMPTY_BLOCK_SPACER_HEIGHT;
    }
    const followsStatement = Types.isInputRow(prev) && prev.hasStatement;
    const precedesStatement = Types.isInputRow(next) && next.hasStatement;
    if (precedesStatement || followsStatement) {
      const cornerHeight =
          (this.constants_.INSIDE_CORNERS as InsideCorners).rightHeight || 0;
      const height = Math.max(this.constants_.NOTCH_HEIGHT, cornerHeight);
      return precedesStatement && followsStatement ?
          Math.max(height, this.constants_.DUMMY_INPUT_MIN_HEIGHT) :
          height;
    }
    // Top and bottom rows act as a spacer so we don't need any extra padding.
    if (Types.isTopRow(prev)) {
      const topRow = prev as TopRow;
      if (!topRow.hasPreviousConnection &&
          (!this.outputConnection || this.hasStatementInput)) {
        return Math.abs(
            this.constants_.NOTCH_HEIGHT - this.constants_.CORNER_RADIUS);
      }
      return this.constants_.NO_PADDING;
    }
    if (Types.isBottomRow(next)) {
      const bottomRow = next as BottomRow;
      if (!this.outputConnection) {
        const topHeight = Math.max(
                              this.topRow.minHeight,
                              Math.max(
                                  this.constants_.NOTCH_HEIGHT,
                                  this.constants_.CORNER_RADIUS)) -
            this.constants_.CORNER_RADIUS;
        return topHeight;
      } else if (!bottomRow.hasNextConnection && this.hasStatementInput) {
        return Math.abs(
            this.constants_.NOTCH_HEIGHT - this.constants_.CORNER_RADIUS);
      }
      return this.constants_.NO_PADDING;
    }
    return this.constants_.MEDIUM_PADDING;
  }

  override getSpacerRowWidth_(prev: Row, next: Row): number {
    const width = this.width - this.startX;
    if (Types.isInputRow(prev) && prev.hasStatement ||
        Types.isInputRow(next) && next.hasStatement) {
      return Math.max(width, this.constants_.STATEMENT_INPUT_SPACER_MIN_WIDTH);
    }
    return width;
  }

  override getElemCenterline_(row: Row, elem: Measurable): number {
    if (row.hasStatement && !Types.isSpacer(elem) &&
        !Types.isStatementInput(elem)) {
      return row.yPos + this.constants_.EMPTY_STATEMENT_INPUT_HEIGHT / 2;
    }
    if (Types.isInlineInput(elem) && elem instanceof InputConnection) {
      const connectedBlock = elem.connectedBlock;
      if (connectedBlock && connectedBlock.outputConnection &&
          connectedBlock.nextConnection) {
        return row.yPos + connectedBlock.height / 2;
      }
    }
    return super.getElemCenterline_(row, elem);
  }

  override addInput_(input: Input, activeRow: Row) {
    // If we have two dummy inputs on the same row, one aligned left and the
    // other right, keep track of the right aligned dummy input so we can add
    // padding later.
    if (input.type === inputTypes.DUMMY && activeRow.hasDummyInput &&
        activeRow.align === Align.LEFT && input.align === Align.RIGHT) {
      this.rightAlignedDummyInputs_.set(activeRow, input);
    } else if (input.type === inputTypes.STATEMENT) {
      // Handle statements without next connections correctly.
      activeRow.elements.push(new StatementInput(this.constants_, input));
      activeRow.hasStatement = true;

      if (activeRow.align === null) {
        activeRow.align = input.align;
      }
      return;
    }
    super.addInput_(input, activeRow);
  }

  override addAlignmentPadding_(row: Row, missingSpace: number) {
    if (this.rightAlignedDummyInputs_.get(row)) {
      let alignmentDivider;
      for (let i = 0; i < row.elements.length; i++) {
        const elem = row.elements[i];
        if (Types.isSpacer(elem)) {
          alignmentDivider = elem;
        }
        if (Types.isField(elem) && elem instanceof Field &&
            elem.parentInput === this.rightAlignedDummyInputs_.get(row)) {
          break;
        }
      }
      if (alignmentDivider) {
        alignmentDivider.width += missingSpace;
        row.width += missingSpace;
        return;
      }
    }
    super.addAlignmentPadding_(row, missingSpace);
  }

  /**
   * Adjust the x position of fields to bump all non-label fields in the first
   * row past the notch position.  This must be called before `computeBounds`
   * is called.
   */
  protected adjustXPosition_() {
    const notchTotalWidth =
        this.constants_.NOTCH_OFFSET_LEFT + this.constants_.NOTCH_WIDTH;
    let minXPos = notchTotalWidth;
    // Run through every input row on the block and only apply bump logic to the
    // first input row (if the block has prev connection) and every input row
    // that has a prev and next notch.
    for (let i = 2; i < this.rows.length - 1; i += 2) {
      const prevSpacer = this.rows[i - 1] as SpacerRow;
      const row = this.rows[i];
      const nextSpacer = this.rows[i + 1] as SpacerRow;

      const hasPrevNotch = i === 2 ? !!this.topRow.hasPreviousConnection :
                                     !!prevSpacer.followsStatement;
      const hasNextNotch = i + 2 >= this.rows.length - 1 ?
          !!this.bottomRow.hasNextConnection :
          !!nextSpacer.precedesStatement;

      if (Types.isInputRow(row) && row.hasStatement) {
        row.measure();
        minXPos =
            row.width - (row.getLastInput()?.width ?? 0) + notchTotalWidth;
      } else if (
          hasPrevNotch && (i === 2 || hasNextNotch) && Types.isInputRow(row) &&
          !row.hasStatement) {
        let xCursor = row.xPos;
        let prevInRowSpacer = null;
        for (let j = 0; j < row.elements.length; j++) {
          const elem = row.elements[j];
          if (Types.isSpacer(elem)) {
            prevInRowSpacer = elem;
          }
          if (prevInRowSpacer && (Types.isField(elem) || Types.isInput(elem))) {
            if (xCursor < minXPos &&
                !(Types.isField(elem) && elem instanceof Field &&
                  (elem.field instanceof FieldLabel ||
                   elem.field instanceof FieldImage))) {
              const difference = minXPos - xCursor;
              prevInRowSpacer.width += difference;
            }
          }
          xCursor += elem.width;
        }
      }
    }
  }

  /**
   * Finalize the output connection info.  In particular, set the height of the
   * output connection to match that of the block.  For the right side, add a
   * right connection shape element and have it match the dimensions of the
   * output connection.
   */
  protected finalizeOutputConnection_() {
    // Dynamic output connections depend on the height of the block.
    if (!this.outputConnection || !this.outputConnection.isDynamicShape) {
      return;
    }
    const outputConnectionShape = this.outputConnection.shape;
    if (!('isDynamic' in outputConnectionShape &&
          outputConnectionShape.isDynamic)) {
      return;
    }

    let yCursor = 0;
    // Determine the block height.
    for (let i = 0; i < this.rows.length; i++) {
      const row = this.rows[i];
      row.yPos = yCursor;
      yCursor += row.height;
    }
    this.height = yCursor;

    // Adjust the height of the output connection.
    const blockHeight = this.bottomRow.hasNextConnection ?
        this.height - this.bottomRow.descenderHeight :
        this.height;
    const connectionHeight = outputConnectionShape.height(blockHeight);
    const connectionWidth = outputConnectionShape.width(blockHeight);

    this.outputConnection.height = connectionHeight;
    this.outputConnection.width = connectionWidth;
    this.outputConnection.startX = connectionWidth;
    this.outputConnection.connectionOffsetY =
        outputConnectionShape.connectionOffsetY(connectionHeight);
    this.outputConnection.connectionOffsetX =
        outputConnectionShape.connectionOffsetX(connectionWidth);

    // Add the right connection measurable.
    // Don't add it if we have a value-to-statement or a value-to-stack block.
    let rightConnectionWidth = 0;
    if (!this.hasStatementInput && !this.bottomRow.hasNextConnection) {
      rightConnectionWidth = connectionWidth;
      this.rightSide!.height = connectionHeight;
      this.rightSide!.width = rightConnectionWidth;
      this.rightSide!.centerline = connectionHeight / 2;
      this.rightSide!.xPos = this.width + rightConnectionWidth;
    }
    this.startX = connectionWidth;
    this.width += connectionWidth + rightConnectionWidth;
    this.widthWithChildren += connectionWidth + rightConnectionWidth;
  }

  /**
   * Finalize horizontal alignment of elements on the block.  In particular,
   * reduce the implicit spacing created by the left and right output connection
   * shapes by adding setting negative spacing onto the leftmost and rightmost
   * spacers.
   */
  protected finalizeHorizontalAlignment_() {
    if (!this.outputConnection || this.hasStatementInput ||
        this.bottomRow.hasNextConnection) {
      return;
    }
    let totalNegativeSpacing = 0;
    for (let i = 0; i < this.rows.length; i++) {
      const row = this.rows[i];
      if (!Types.isInputRow(row)) {
        continue;
      }
      const firstElem = row.elements[1];
      const lastElem = row.elements[row.elements.length - 2];
      let leftNegPadding = this.getNegativeSpacing_(firstElem);
      let rightNegPadding = this.getNegativeSpacing_(lastElem);
      totalNegativeSpacing = leftNegPadding + rightNegPadding;
      const minBlockWidth =
          this.constants_.MIN_BLOCK_WIDTH + this.outputConnection.width * 2;
      if (this.width - totalNegativeSpacing < minBlockWidth) {
        // Maintain a minimum block width, split negative spacing between left
        // and right edge.
        totalNegativeSpacing = this.width - minBlockWidth;
        leftNegPadding = totalNegativeSpacing / 2;
        rightNegPadding = totalNegativeSpacing / 2;
      }
      // Add a negative spacer on the start and end of the block.
      row.elements.unshift(new InRowSpacer(this.constants_, -leftNegPadding));
      row.elements.push(new InRowSpacer(this.constants_, -rightNegPadding));
    }
    if (totalNegativeSpacing) {
      this.width -= totalNegativeSpacing;
      this.widthWithChildren -= totalNegativeSpacing;
      this.rightSide!.xPos -= totalNegativeSpacing;
      for (let i = 0; i < this.rows.length; i++) {
        const row = this.rows[i];
        if (Types.isTopOrBottomRow(row)) {
          row.elements[1].width -= totalNegativeSpacing;
        }
        row.width -= totalNegativeSpacing;
        row.widthWithConnectedBlocks -= totalNegativeSpacing;
      }
    }
  }

  /**
   * Calculate the spacing to reduce the left and right edges by based on the
   * outer and inner connection shape.
   *
   * @param elem The first or last element on a block.
   * @returns The amount of spacing to reduce the first or last spacer.
   */
  protected getNegativeSpacing_(elem: Measurable): number {
    if (!elem || !this.outputConnection) {
      return 0;
    }
    const connectionWidth = this.outputConnection.width;
    const outerShape = this.outputConnection.shape.type;
    const constants = (this.constants_);
    if (this.isMultiRow && this.inputRows.length > 1) {
      switch (outerShape) {
        case constants.SHAPES.ROUND: {
          // Special case for multi-row round reporter blocks.
          const maxWidth = this.constants_.MAX_DYNAMIC_CONNECTION_SHAPE_WIDTH;
          const width = this.height / 2 > maxWidth ? maxWidth : this.height / 2;
          const topPadding = this.constants_.SMALL_PADDING;
          const roundPadding =
              width * (1 - Math.sin(Math.acos((width - topPadding) / width)));
          return connectionWidth - roundPadding;
        }
        default:
          return 0;
      }
    }
    if (Types.isInlineInput(elem) && elem instanceof InputConnection) {
      const connectedBlock = elem.connectedBlock;
      const innerShape = connectedBlock ?
          (connectedBlock.pathObject as PathObject).outputShapeType :
          elem.shape.type;
      if (innerShape == null) {
        return 0;
      }
      // Special case for value to stack / value to statement blocks.
      if (connectedBlock && connectedBlock.outputConnection &&
          (connectedBlock.statementInputCount ||
           connectedBlock.nextConnection)) {
        return 0;
      }
      // Special case for hexagonal output.
      if (outerShape === constants.SHAPES.HEXAGONAL &&
          outerShape !== innerShape) {
        return 0;
      }
      return connectionWidth -
          this.constants_.SHAPE_IN_SHAPE_PADDING[outerShape][innerShape];
    } else if (Types.isField(elem) && elem instanceof Field) {
      // Special case for text inputs.
      if (outerShape === constants.SHAPES.ROUND &&
          elem.field instanceof FieldTextInput) {
        return connectionWidth - 2.75 * constants.GRID_UNIT;
      }
      return connectionWidth -
          this.constants_.SHAPE_IN_SHAPE_PADDING[outerShape][0];
    } else if (Types.isIcon(elem)) {
      return this.constants_.SMALL_PADDING;
    }
    return 0;
  }

  /**
   * Finalize vertical alignment of rows on a block.  In particular, reduce the
   * implicit spacing when a non-shadow block is connected to any of an input
   * row's inline inputs.
   */
  protected finalizeVerticalAlignment_() {
    if (this.outputConnection) {
      return;
    }
    // Run through every input row on the block and only apply tight nesting
    // logic to input rows that have a prev and next notch.
    for (let i = 2; i < this.rows.length - 1; i += 2) {
      const prevSpacer = this.rows[i - 1] as SpacerRow;
      const row = this.rows[i];
      const nextSpacer = this.rows[i + 1] as SpacerRow;

      const firstRow = i === 2;
      const hasPrevNotch = firstRow ? !!this.topRow.hasPreviousConnection :
                                      !!prevSpacer.followsStatement;
      const hasNextNotch = i + 2 >= this.rows.length - 1 ?
          !!this.bottomRow.hasNextConnection :
          !!nextSpacer.precedesStatement;

      if (hasPrevNotch) {
        const elem = row.elements[1];
        const hasSingleTextOrImageField = row.elements.length === 3 &&
            elem instanceof Field &&
            (elem.field instanceof FieldLabel ||
             elem.field instanceof FieldImage);
        if (!firstRow && hasSingleTextOrImageField) {
          // Remove some padding if we have a single image or text field.
          prevSpacer.height -= this.constants_.SMALL_PADDING;
          nextSpacer.height -= this.constants_.SMALL_PADDING;
          row.height -= this.constants_.MEDIUM_PADDING;
        } else if (!firstRow && !hasNextNotch) {
          // Add a small padding so the notch doesn't clash with inputs/fields.
          prevSpacer.height += this.constants_.SMALL_PADDING;
        } else if (hasNextNotch) {
          // Determine if the input row has non-shadow connected blocks.
          let hasNonShadowConnectedBlocks = false;
          const minVerticalTightNestingHeight = 40;
          for (let j = 0; j < row.elements.length; j++) {
            const elem = row.elements[j];
            if (elem instanceof InputConnection && Types.isInlineInput(elem) &&
                elem.connectedBlock && !elem.connectedBlock.isShadow() &&
                elem.connectedBlock.getHeightWidth().height >=
                    minVerticalTightNestingHeight) {
              hasNonShadowConnectedBlocks = true;
              break;
            }
          }
          // Apply tight-nesting if we have both a prev and next notch and the
          // block has non-shadow connected blocks.
          if (hasNonShadowConnectedBlocks) {
            prevSpacer.height -= this.constants_.SMALL_PADDING;
            nextSpacer.height -= this.constants_.SMALL_PADDING;
          }
        }
      }
    }
  }

  override finalize_() {
    this.finalizeOutputConnection_();
    this.finalizeHorizontalAlignment_();
    this.finalizeVerticalAlignment_();
    super.finalize_();

    if (this.rightSide) {
      this.widthWithChildren += this.rightSide.width;
    }
  }
}