/** * @license * Copyright 2019 Google LLC * SPDX-License-Identifier: Apache-2.0 */ // Former goog.module ID: Blockly.thrasos.RenderInfo import type {BlockSvg} from '../../block_svg.js'; import {RenderInfo as BaseRenderInfo} from '../common/info.js'; import type {Measurable} from '../measurables/base.js'; import {InRowSpacer} from '../measurables/in_row_spacer.js'; import type {Row} from '../measurables/row.js'; import {Types} from '../measurables/types.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 { // Exclamation is fine b/c this is assigned by the super constructor. protected override renderer_!: Renderer; /** * @param renderer The renderer in use. * @param block The block to measure. */ constructor(renderer: Renderer, block: BlockSvg) { super(renderer, block); } /** * Get the block renderer in use. * * @returns The block renderer in use. */ override getRenderer(): Renderer { return this.renderer_; } override addElemSpacing_() { let hasExternalInputs = false; for (let i = 0; i < this.rows.length; i++) { const row = this.rows[i]; if (row.hasExternalInput) { hasExternalInputs = true; break; } } for (let i = 0; i < this.rows.length; i++) { const row = this.rows[i]; const oldElems = row.elements; row.elements = []; // No spacing needed before the corner on the top row or the bottom row. if (row.startsWithElemSpacer()) { // There's a spacer before the first element in the row. row.elements.push( new InRowSpacer( this.constants_, this.getInRowSpacing_(null, oldElems[0]), ), ); } if (!oldElems.length) { continue; } for (let e = 0; e < oldElems.length - 1; e++) { row.elements.push(oldElems[e]); const spacing = this.getInRowSpacing_(oldElems[e], oldElems[e + 1]); row.elements.push(new InRowSpacer(this.constants_, spacing)); } row.elements.push(oldElems[oldElems.length - 1]); if (row.endsWithElemSpacer()) { let spacing = this.getInRowSpacing_( oldElems[oldElems.length - 1], null, ); if (hasExternalInputs && row.hasDummyInput) { spacing += this.constants_.TAB_WIDTH; } // There's a spacer after the last element in the row. row.elements.push(new InRowSpacer(this.constants_, spacing)); } } } override getInRowSpacing_(prev: Measurable | null, next: Measurable | null) { if (!prev) { // Between an editable field and the beginning of the row. if (next && Types.isField(next) && next.isEditable) { return this.constants_.MEDIUM_PADDING; } // Inline input at the beginning of the row. if (next && Types.isInlineInput(next)) { return this.constants_.MEDIUM_LARGE_PADDING; } if (next && Types.isStatementInput(next)) { return this.constants_.STATEMENT_INPUT_PADDING_LEFT; } // Anything else at the beginning of the row. return this.constants_.LARGE_PADDING; } // Spacing between a non-input and the end of the row. if (!Types.isInput(prev) && !next) { // Between an editable field and the end of the row. if (Types.isField(prev) && prev.isEditable) { if (prev.width === 0) { return this.constants_.NO_PADDING; } return this.constants_.MEDIUM_PADDING; } // Padding at the end of an icon-only row to make the block shape clearer. if (Types.isIcon(prev)) { return this.constants_.LARGE_PADDING * 2 + 1; } if (Types.isHat(prev)) { return this.constants_.NO_PADDING; } // Establish a minimum width for a block with a previous or next // connection. if (Types.isPreviousOrNextConnection(prev)) { return this.constants_.LARGE_PADDING; } // Between rounded corner and the end of the row. if (Types.isLeftRoundedCorner(prev)) { return this.constants_.MIN_BLOCK_WIDTH; } // Between a jagged edge and the end of the row. if (Types.isJaggedEdge(prev)) { return this.constants_.NO_PADDING; } // Between noneditable fields and icons and the end of the row. return this.constants_.LARGE_PADDING; } // Between inputs and the end of the row. if (Types.isInput(prev) && !next) { if (Types.isExternalInput(prev)) { return this.constants_.NO_PADDING; } else if (Types.isInlineInput(prev)) { return this.constants_.LARGE_PADDING; } else if (Types.isStatementInput(prev)) { return this.constants_.NO_PADDING; } } // Spacing between a non-input and an input. if (!Types.isInput(prev) && next && Types.isInput(next)) { // Between an editable field and an input. if (Types.isField(prev) && prev.isEditable) { if (Types.isInlineInput(next)) { return this.constants_.SMALL_PADDING; } else if (Types.isExternalInput(next)) { return this.constants_.SMALL_PADDING; } } else { if (Types.isInlineInput(next)) { return this.constants_.MEDIUM_LARGE_PADDING; } else if (Types.isExternalInput(next)) { return this.constants_.MEDIUM_LARGE_PADDING; } else if (Types.isStatementInput(next)) { return this.constants_.LARGE_PADDING; } } return this.constants_.LARGE_PADDING - 1; } // Spacing between an icon and an icon or field. if (Types.isIcon(prev) && next && !Types.isInput(next)) { return this.constants_.LARGE_PADDING; } // Spacing between an inline input and a field. if (Types.isInlineInput(prev) && next && Types.isField(next)) { // Editable field after inline input. if (next.isEditable) { return this.constants_.MEDIUM_PADDING; } else { // Noneditable field after inline input. return this.constants_.LARGE_PADDING; } } if (Types.isLeftSquareCorner(prev) && next) { // Spacing between a hat and a corner if (Types.isHat(next)) { return this.constants_.NO_PADDING; } // Spacing between a square corner and a previous or next connection if (Types.isPreviousConnection(next) || Types.isNextConnection(next)) { return next.notchOffset; } } // Spacing between a rounded corner and a previous or next connection. if (Types.isLeftRoundedCorner(prev) && next) { return next.notchOffset - this.constants_.CORNER_RADIUS; } // Spacing between two fields of the same editability. if ( Types.isField(prev) && next && Types.isField(next) && prev.isEditable === next.isEditable ) { if (prev.width === 0) { return this.constants_.NO_PADDING; } return this.constants_.LARGE_PADDING; } // Spacing between anything and a jagged edge. if (next && Types.isJaggedEdge(next)) { return this.constants_.LARGE_PADDING; } return this.constants_.MEDIUM_PADDING; } override getSpacerRowHeight_(prev: Row, next: Row) { // 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; } // Top and bottom rows act as a spacer so we don't need any extra padding. if (Types.isTopRow(prev) || Types.isBottomRow(next)) { return this.constants_.NO_PADDING; } if (prev.hasExternalInput && next.hasExternalInput) { return this.constants_.LARGE_PADDING; } if (!prev.hasStatement && next.hasStatement) { return this.constants_.BETWEEN_STATEMENT_PADDING_Y; } if (prev.hasStatement && next.hasStatement) { return this.constants_.LARGE_PADDING; } if (prev.hasDummyInput || next.hasDummyInput) { return this.constants_.LARGE_PADDING; } return this.constants_.MEDIUM_PADDING; } override getElemCenterline_(row: Row, elem: Measurable) { if (Types.isSpacer(elem)) { return row.yPos + elem.height / 2; } if (Types.isBottomRow(row)) { const baseline = row.yPos + row.height - row.descenderHeight; if (Types.isNextConnection(elem)) { return baseline + elem.height / 2; } return baseline - elem.height / 2; } if (Types.isTopRow(row)) { if (Types.isHat(elem)) { return row.capline - elem.height / 2; } return row.capline + elem.height / 2; } let result = row.yPos; if (Types.isField(elem) && row.hasStatement) { const offset = this.constants_.TALL_INPUT_FIELD_OFFSET_Y + elem.height / 2; result += offset; } else { result += row.height / 2; } return result; } override finalize_() { // Performance note: this could be combined with the draw pass, if the time // that this takes is excessive. But it shouldn't be, because it only // accesses and sets properties that already exist on the objects. let widestRowWithConnectedBlocks = 0; let yCursor = 0; for (let i = 0; i < this.rows.length; i++) { const row = this.rows[i]; row.yPos = yCursor; row.xPos = this.startX; yCursor += row.height; widestRowWithConnectedBlocks = Math.max( widestRowWithConnectedBlocks, row.widthWithConnectedBlocks, ); // Add padding to the bottom row if block height is less than minimum const heightWithoutHat = yCursor - this.topRow.ascenderHeight; if ( row === this.bottomRow && heightWithoutHat < this.constants_.MIN_BLOCK_HEIGHT ) { // But the hat height shouldn't be part of this. const diff = this.constants_.MIN_BLOCK_HEIGHT - heightWithoutHat; this.bottomRow.height += diff; yCursor += diff; } this.recordElemPositions_(row); } if ( this.outputConnection && this.block_.nextConnection && this.block_.nextConnection.isConnected() ) { const target = this.block_.nextConnection.targetBlock(); if (target) { // Include width of connected block in value to stack width measurement. widestRowWithConnectedBlocks = Math.max( widestRowWithConnectedBlocks, target.getHeightWidth().width, ); } } this.bottomRow.baseline = yCursor - this.bottomRow.descenderHeight; this.widthWithChildren = widestRowWithConnectedBlocks + this.startX; this.height = yCursor; this.startY = this.topRow.capline; } }